EPA-600/R-95-142b
SeptemLer 1995
Statewide Mapping
of Florida Soil Radon Potentials
Volume 2. Appendices A-P
by
Kirk K. Nielson, Rodger B. Holt, and Vern C. Rogers
Rogers & Associates Engineering Corporation
P. O. Box 330, Salt Lake City, UT 84110-0330
EPA Interagency Agreement RWFL 93378-01
Florida Department of Community Affairs Contract 94RD-30-13-00-22-003
University of Florida Subcontract (Acct. 1506481-12)
EPA Project Officer: David C. Sanchez
U.S. Environmental Protection Agency
National Risk Management Research Laboratory
Air Pollution Prevention and Control Division
Research Triangle Park, NC 27711
Prepared for:
Florida Department of Community Affairs
2740 Centerview Drive
Tallahassee, FL 32399
(DCA Project Officer: Mohammad Madani)
and
U. S. Environmental Protection Agency
Office of Research and Development
Washington, DC 20460

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NOTICE
This document has been reviewed in accordance with
U.S. Environmental Protection Agency policy and
approved for publication. Mention of trade names
or commercial products does not constitute endorse-
ment or recommendation for use.

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FOREWORD
The U. S. Environmental Protection Agency is charged by Congress with pro-
tecting the Nation's land, air, and water resources. Under a mandate of national
environmental laws, the Agency strives to formulate and implement actions lead-
ing to a compatible balance between human activities and the ability of natural
systems to support and nurture life. To meet this mandate, EPA's research
program is providing data and technical support for solving environmental pro-
blems today and building a science knowledge base necessary to manage our eco-
logical resources wisely, understand how pollutants affect our health, and pre-
vent or reduce environmental risks in the future.
The National Risk Management Research Laboratory is the Agency's center for
investigation of technological and management approaches for reducing risks
from threats to human health and the environment. The focus of the Laboratory's
research program is on methods for the prevention and control of pollution to air,
land, water, and subsurface resources; protection of water quality in public water
systems; remediation of contaminated sites and groundwater; and prevention and
control of indoor air pollution. The goal of this research effort is to catalyze
development and implementation of innovative, cost-effective environmental
technologies; develop scientific and engineering information needed by EPA to
support regulatory and policy decisions; and provide technical support and infor-
mation transfer to ensure effective implementation of environmental regulations
and strategies.
This publication has been produced as part of the Laboratory's strategic long-
term research plan. It is published and made available by EPA's Office of Re-
search and Development to assist the user community and to link researchers
with their clients.
E. Timothy Oppelt, Director
National Risk Management Research Laboratory
i 'i i

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ABSTRACT
This report documents the characterization of soil radon potentials to be used in state
wide soil radon potential maps of Florida. The maps are designed to show from soil and
geological features the areas that have different levels of radon potential. The soil radon
potential maps have been proposed as a basis for implementing radon-protective building
construction standards in areas of elevated radon risk and avoiding unnecessary regulations in
areas of low radon risk. The soil radon potentials calculated in this report are revised from
previous regional estimates of radon potentials to eliminate boundary faults.

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TABLE OF CONTENTS
KaeNo.
APPENDIX A - COMBINED GEOLOGY AND STATSGO MAPS	A-l
APPENDIX B -- SAMPLE PRINTOUT FROM RNMAP	B-l
APPENDIX C -- RADIUM DATA FROM NURE MEASUREMENTS C-l
APPENDIX D -- RADIUM AND RADON EMANATION
MEASUREMENT METHODS	D-l
APPENDIX E - QUALITY ASSURANCE DATA FOR RADIUM AND
RADON EMANATION MEASUREMENTS	E-l
APPENDIX F -- RADIUM AND RADON EMANATION
MEASUREMENTS	F-l
APPENDIX G - COMPONENTS OF STATSGO SOIL MAP UNITS G-l
APPENDIX H -- SOIL PROFILE PROPERTIES FOR STATSGO
COMPONENTS	H-l
APPENDIX I - RADON POTENTIALS OF INDIVIDUAL SOIL
SERIES FROM RNMAP	1-1
APPENDIX J ~ CALCULATED RADON POTENTIAL DISTRIBUTIONS
BY MAP POLYGON	J-l
v

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TABLE OF CONTENTS
(Continued)
Page No.
APPENDIX K -- RADON FLUX MEASUREMENT PROTOCOLS,
QUALITY ASSURANCE DATA, RESULTS, AND
BIAS STATISTICS	K-l
APPENDIX L -- MEASUREMENT-MAP BIAS STATISTICS FOR
GEOMET LAND-BASED RADON MEASUREMENTS L-l
APPENDIX M -- MEASUREMENT-MAP BIAS STATISTICS FOR
GEOMET POPULATION-BASED RADON
MEASUREMENTS
M-l
APPENDIX N -- MEASUREMENT-MAP BIAS STATISTICS FOR
HRS RESIDENTIAL RADON MEASUREMENTS
N-l
APPENDIX O - SITE DATA FROM INVESTIGATIONS OF
POTENTIAL INDOOR RADON ANOMALIES
O-l
APPENDIX P -- THE RELATION BETWEEN EMPIRICAL
MEASUREMENTS AND CALCULATED SOIL
RADON POTENTIALS
P-l
VI

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Figure A-l. Index map of Escambia, Santa Rosa, Walton, Holmes, Jackson, Washington, Bay, Calhoun, and Gulf
Counties polygons and NURE flight lines.

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Figure A-2. Index map of Liberty, Gadsden, Franklin, Wakulla, Leon, Jefferson, Madison, Taylor, Hamilton,
Suwannee, Lafayette, Gilchrist, and Dixie Counties polygons and NIJRE flight lines.

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Figure A-3. Index map of Columbia, Nassau, Duval, Baker, Union, Bradford, Clay, St. Johns, Flagler, Putnam,
and Alachua Counties polygons and NURE flight lines.

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Figure A-4. Index map of Levy, Marion, Volusia, Citrus, Hernando, Pasco, Sumter, Lake, Seminole, and Orange
Counties polygons and NTJRE flight lines.

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>
I
Figure A-5. Index map of Pinellas, Hillsborough, Polk, Osceola, Brevard, and Indian River Counties polygons
and NURE flight lines.

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Index map of Manatee, Sarasota, Charlotte, Hardee, Desoto, Highlands, Glades, Okeechobee,
St. Lucie, and Martin Counties polygons and NURE flight lines.

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Figure A-7. Index map of Lee, Hendry, Collier, Palm Beach, and Broward Counties polygons and NURE flight
lines.

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Figure A-8. Index map of Dade and Monroe Counties polygons and NURE flight lines.

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COMBI NED
County, AL.PIN
Secies, Lines 1 to
6, Cold Geology, Cold Soil
Reference House:	1542
House Volume:	12,336
Indoor Pressure:	-2.4
Ventilation:	.25
Perimeter crack:	0.50
Crack/Slab Area:	2.04E-03
High Water Table Depth:	180.
High Wat.Tab. Duration:	.0
sq . ft. (28.4 x 54.3
cu . f t. (3. 4 93E 5 L.)
Pa sea 1 s
air- changes per hour
cm wide
(3.15/1542 sq.ft.)
cm
mont hs
ft.)
I	RnMAP VI.3-D	I
I RadoN potential MAPping algorithm I
I	I
COMBIN.IN
INPUT
CO







Moistures at
Indicated Height Above
Water
Table
	
	

Th Lckness
Rad i urn
DenslL y
Kmana t i on
3. 5cm
20cm
30cm
45cm
60cm
80cm
1 00cm
1 50cm
200cm
33 3cnr.
1 5kcm
riyc r
(cm)
(pC i/g)
(g/cm3 i
(f ract i on)
(V%)
(V%)
(V%)
(V%)

. 200
37.72
3 6.10
3 3 . H h
35. 64
34.04
25.67
10.77
6. 95
5. 65
4.51
1.41
l 2
3 5.0
. 10
i .rj
.200
3 7.49
36.72
3 6.4::
36. 33
27.35
1 5 . b 'J
9.4 4
6.0 7
4 .99
4.13
1 .07
i l
71 .0
. 10
1 . c/0
. 200
38 .49
3 7.88
17.69
37.01
31 . 17
1 /. 2 4
10.66
7.0 5
5. 94
5. 02
1 . 68
i 0
2 9.7
. 80
1 . 620
. 320
38. 4 9
37. 88
3 7.69
3 7.01
31 .1 7
17.24
10.66
7.05
5.94
5.02
1 . 68
9
29.7
. 80
1 . 620
. 32 0
38.49
37.88
37.69
37.01
31.17
17.24
1 0. 66
7.05
5. 94
5.02
1 . 68
B
29. 7
. 80
1 . 62 0
. 320
38.49
3 7.88
3 7. 69
37.01
31.17
17.24
10.66
7.05
5. 94
5 . 02
1 . 68
7
2 9.7
. 80
' .620
.320
38.4 9
3?.88
3 7.69
37.01
31.17
17.24
10.66
7.05
5. 94
5.02
1 . 68
6
29. 7
.80
1 .620
. 320
>8.49
3 7.88
37.69
37.01
31.17
17.24
10. 66
7.05
5. 94
5.02
1 . 68
5
29.7
. 80
1 . 620
. 320
38.49
37.88
37. 69
37.01
31.17
17.24
10.66
7.05
5. 94
5.02
1 . 68
4
2 9.7
.80
1 . 620
. 320
38.49
37.88
37.69
37.01
31.17
17.24
10.66
7.05
5.94
5.02
1 . 68

2 9.7
.80
1 . 620
. 320
38. 49
37.88
37. 69
37.01
31.17
1 7.24
1 0. 66
7.05
5. 94
5.02
1 .68
2
29.7
. 80
1 . 620
. 320
38. 49
37.88
37.69
37.01
31 .17
17.24
10. 66
7.05
5. 94
5.02
1 . 68
1
29.7
.80
1 . 620
. 320
38.49
37.88
37. 69
37.01
31.17
17.24
10. 66
7.05
5. 94
5.02
1 . 68
CO
*0
r
M
PS
o
c
H
PS
o
£
PS
3
OU'Il'U"! for 300.0 cm Water lable D..: i nq .oOQ nf
the Year:
Under House
Outdoors

i2c;pth
Porosi ty
Mo i siurc
1) i f f. Cot; 11 .
Rn Flux
Rn Air Cone.
Rn Flux
Rn Air Cone
I.aye r
(cm)
( f ract ion)
(vo lu~e%)
(cm2/s)
(pCi/m2s)
(pCi/L)
(pCi /rr.2s)
(pCi/L)
17
-10.2
.222
2.20
0 . 00F.-0 4
4.75E-02
0.00E »-00
O.OOEtOO
0.00E*00
1 6
. 0
. 426*
7.26*
3.09E-02*
2.13E-02
2.07E+02
2.23E-01
0.00E+00
15
15.0
. 430*
5. 68*
3.42E-02*
3.60E-02
2.11E+02
2.15E-01
2.86E+01
14
38.0
. 4 4 4 *
5.03*
3.68E-02*
6.14E-02
2.19E+02
2.09E-01
6.53E+01
13
69.0
.419*
5. 33*
3.40E-02*
1.02E-01
2.36E+02
2.13E-01
1.09E+02
12
97.0
.419*
4.96*
3.48E-02*
1.39E-01
2. 62E+02
2.24E-01
1.56E^02
11
132.0
.400*
6. 61*
3.01E-02*
1.95E-01
3.06E+02
2.53E-01
2.18E+02
10
203. 0
. 400*
11.56*
2.23E-02*
3.49E-01
4.84E+02
3.68E-01
4.21E+02
9
232.7
. 400*
25.61*
5.88E-03*
1.98E-01
5.99E+02
2.05E-01
5.42E+02

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8
262.4
. 400*
3 7.31
7
292. 1
. 400*
38.21
6
321. 8
. 400*
38. 49
5
351 . 5
.400*
38. 49
/;
381.2
. 400*
38.49
3
410.9
.400*
38.49
2
440.6
.400*
38. 49
i
473.3
. 400*
3 8.49
Ca !
e-j 1 a t ed
Default Values

Soil Permeability ( 0.00E+30 input)
Outdoor Bare-Soil Radon F]ux
Average Subslab Radon Concentration
Radon Concentration Under Slab Crack
Air Entry Velocity in the Slab Crack
Indoor Radon Concentration
Indoor Radon Entry Rate
OUTPJ'i' tor bOO.O err Water i'ao'.e Di.ri

h
Po : s i I. y
Xo , u
l.aye r
U:r.)
(fraction)
tvo! ume

-0.2
.222
2. 20
i c
. 3
.426 -
c.48
?.
'.2.0
. 4 3 0 •
5.34
-, /
3 H . 3
. 4 4 4 ¦
4.32

0 9.3
.419"
4.33
12
31.;
. 4 9 ¦
3.98
i i
.32.3
.403 '
4 . 9 3
3
2 3 3.3
. 4 03"
5.23
9
2 32. '
. 4 33 "
d.4 2
b
262 . 4
.400"
3.63
7
2 92 . i
.400 "
5.8 7
c
3 21.8
.433 "
6.39
5
3 b 1 . 5
.400"
7.14
rt
3 81.2
.403'
9.13

4 10.9
.433"
14.0c
2
4 4 3.6
. 4 00 *
.3 i.37

4 '0 . 3
. 4C3"
3 7.69
0 * C a :
c.:: a ted
Default Va i;
e s .
So: . Permeabi 1 i t y ( O.COSfOO input)
Outdoor Bare-Soil Radon Flux
Average Subslab Radon Concentration
Radon Concent ration Under Slab Crack
Air Entry Velocity in the Slab Crack
Indoor Radon Concentration
Indoor Radon Entry Rate
Time-Weighted ANNUAL AVERAGES:
Soli m= .161, D= 3.16E-02cm2/s K
Soil Perme'abi 11 ty ( 0.30E + 00 input)
8. 21E-3b*
5.08E-05*
5.08E-05*
5.08E-05*
5.08F.-05*
5.08E-05*
5.08E-05*
5.08E-05*
4.02E-02	8.77E+02
1.30E-03	3.38E+03
3.11E-06 3.49E+03
7.42E-09	3.49E+03
1.77E-11	3.49E+03
4.22E-14	3.49E+03
1.01E-16	3.19E + 03
2.40E-19	3.49E+03
4 .10E-02	8 . 30E-I02
1.31E-03	3 . 38E t 03
3.12E-06	3.49E+03
7.45E-09	3.49E+03
1.78E-11	3.49E+03
4.24E-14	3 . 4 9E~0 3
1.01E-16	3.49E+03
2.41E-19	3.49E+03
6.14E-08 err,2 from 1.58E-32 cm particle size
2.23E-01 pCi/m2/s
199. pC i/L
2 0 4. pC i/L
2.01E-C3 err./ sec .
.27 pCi/L
6.5 pCi/s or . 20o mCi/year
iff.Cootf
{ c:n2 / s )
a. oo.--.-04
i.2 3E-C2"
3.56E-02"
3 . 8 4E-02"
3. 82E-0?"
3 . 6 9 E - 0 2 "
3.33E-02"
3.27E-02"
3 . 2 4 E - 0 2 ¦
3.20E-02"
3.15E-02 "
3.C5E-02 ¦
2.92E-02"
2 . 5 9 E - 0 2 "
1 .89E-02"
1.46E-03"
6 . 3 1 E- 0 5 "
:« Year:
R n Flux
(pC i/m2s)
5 . 6 7 E - C 2
3 . i 8E-02
5.4 0E-C2
9.18E-32
1.51E-Ci
2.C7E-0;
2.93E-01
5.17E-01
4.15E-C :
3.35E-01
2.75E-C1
2.29E-01
;.95E-01
i.70E-01
1.45E-01
i.0 6E-01
2.!0E-02
:	i'.e
Rn Air Cone.
(pCi/L)
3.Z3Z<00
2 . 67Ei 02
2. 7 2 E- 02
2.«4E*02
3.3BE-32
3.43E»02
. 34F.f02
6 . 3 4 E t C 2
'. b 3 E t 0 2
3.46E+02
3.	24E+02
9 . 9 i E f 0 2
1.C5E+03
i.i 0E + 03
: . 1 6 E + 0 3
1 . 22Ei03
1 . 9 2 E» 0 3
Oi:
Rn Flux
(pC i /rr.2 s)
0.00E-30
3.13E-3
3 . 0 5 F. - 3 1
3 . 0 2 E - 0'.
3.14E-31
3 . 3 7 E - 01
3.87E-01
5. 7IE-31
4. 56E-31
3 . o 7 E - 0 1
2.9 9E-01
2.47E-01
2.08E-01
1.78E-C1
1.49E-01
1.08E-01
2.11E-02
doo r s
R n Air Cone.
(pC i /I.)
3 . 0CF-:. CO
0.C0F. <33
3. 7 9K '01
8. 73:-: >3 ¦
i . <8f.«02
2.!3F.t 32
j . 0 0 E * 0 2
5.74E« 32
7.02E-02
8 . 0 7 E * 0 2
8	. 9 3 K » 3 2
9	. 6 4 E t 0 2
i.03Ei 03
1 . 0 8 E t 0 3
1 . 1 4 E» 0 3
1 . 2 1 E + 0 3
1 . 91 E + 0 3
6.17E-0B	cm2 from 1.5BE-02 cm particle size
3.13E-01	pCi/m2/s
2 55.	pCi/L
2 62.	pCi/L
2.01E-03	cm/sec.
.35	pC i/L
8.4	pCi/s or .265 mCi/ycar
6.15E-38 cm2
6.15E-08 cm2 from 1.58E-02 cm particle size

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Outdoor Bare-Soil Radcr. r iux
Average Subslab Radon Concentration
Radon Concentration Under Slab Crack
Air Entry Velocity in the Slab Crack
Indoor Radon Concentration
Indoor Radon Entry Rate
2.68E-01 pCi/m2/s
22 7. pCi/L
233.
2.01E-03
. 31
7.4
pCi/L
cm/sec.
pC i /L
pCi/s or
.235 mCi/year
COMB!NED
County, ALP IN
Reference House:	:542
House Volume:	12,336
Indoor Pressure:	-2.4
Ventilation:	.25
Perimeter crack:	0.5C
Crack/Slab Area:	2.04E-03
High Water Table Depth:	130.
High Wat.Tab. Duration:	.0
Series, Lanes
sq. ft . (28. <1 x 54 . 3 ft
co.ft. (3.4 93E'5 I )
Pascals
air changes per hour
err. wide
(3.15/1542 :;q . f: . )
cm
months
Cold Geology, Hot Soil
I	RnMAP VI.3-D
I RadoN potential MAPping algorithm
comb:n.in






	
	
Moi seines at
I r.ci i Cr3 LP
ci ! i e l cj •
it. Above
a a l c r
Table

	

:'h i ck no s s
Hi;:

)enr»:: y
r*.a r. a t i o n
;• .
2 3cn
3 0cm
15cm
60 err
8 0 cm
I 00 cm
1 50cx
200cm
3 3 3 c-
i :; 
(V%)
(V%)
(V%)
(V%)
(V%>
(V% )
(V%)
(Vi)
(V % )

13./


2 . * 'j 0
3 / 0


. 00
.00
.30
. 00
u n
3 3
'¦)"

.3-3
6
15.0
£
CO
: .330
. 600
'¦ i . 8 8
'•,2.29
4 i . 93
4 0.10
3 3. 52
18.68
: 3 . i 9
9. 74
8 . 30
6.99
/ . i /

2 3.3
1
30
! . 5 1 0
. 600
1 3 . 6 7
11 . 95
11.19
37. 97
26.8!
11.86
10.55
7.55
6.31
5.4':
: . 69

3'. . 3
r.
C 0
! . b C 0
.603
4 '..'II
10.10
39.88
31.12
25. 97
11.50
9. 60
6. 65
5.53
1 . :: <>
i . 5 8
. 3
23 . 0
r.
r. ^
^ ' 3
.633
3'/. 12
36. iO
35.85
35.61
31.01
2 5.67
: o. 7 7
6. 9b
3.63
4 .
1.11
L /
3 5.3
/,
C
. 5 ; 0
. 600
: ' . 9
3c. 7 2
3 6.15
36.33
2 7.35
15.53
9.11
c.C/
4.99

. 3 ¦'
1
71.0
4
oc
. 620
. 600
3 H . 4 9
3 1. 88
37.69
37.01
31.17
17.21
10. 66
7.05
5. 91
5.32
1 . cS
c
2 9.7

BO
i . 62 0
. 323
3 8.49
3 7.88
37. 69
37.01
31.17
17.21
10. 66
7.05
5.94
5 .32
:. 68
9
29.7

83
i . 620
.320
3 8 . 4 9
3 7.88
3 7.69
3 7.01
31.17
5 7.21
10.66
7.05
5.94
5.02
1 . 68
Q
29.7

80
: . 620
. 320
3 8. 4 9
37.88
3 7.69
37.01
31.17
17.21
10. 66
7.05
5. 91
5.02
1 . 68
1
29.7

80
1 . 620
. 320
3 8 . 4 9
3 7.88
3 7.69
37.01
31 . 17
17.21
10.66
7.05
5. 94
5.32
: . 68
6
29.7

80
1 . 620
. 32 0
3 8 . 4 9
37.88
37.69
37.01
31.17
17.21
1 0. 66
7. 05
5.91
5.02
1 . 68
5
29.7

80
i . 62 3
. 320
38 . 4 9
37.88
3 7.69
37.01
31.17
l 7.21
10.66
7.05
5.91
5 .02
1 . 68
•1
29.7

80
1 . 620
. 320
<8.19
37.88
3 7.69
37.01
31 . 1 7
17.21
10.66
7.05
5. 91
5 . 02
1 . 68
¦;
2 9.?

83
. 62C
.320
i 8 . 9
3 7.88
3 7.69
37.01
31.17
17.21
10. 66
7.05
5. 91
5.02
1 . 68
2
2 9 .7

80
. 62 0
. 320
38.19
37.88
37. 69
37.01
31.17
17.21
1 0. 66
7.05
5. 91
5 .02
;. 68
1
2 9.7

8 0
1 .620
. 320
3 8.19
3 7.88
37. 69
37.01
31.17
17.21
10.66
7.05
5. 94
5.32
1 . 68
OUTPUT for 300.0 cm Water Table Durir
.500 o:
Depth
Layer (cm)
Porosity
(fraction)
Moisture
(volume%)
D i f f.Coe £ f.
(crr.2 / s)
Year :
Undei
Hou se
Rn Flux
(oCi/m2s)
Rn Air Cone.
(pCi/L)
Outdoors
Rn Flux Rn Air Cone.
(pCi/m2s) (pCi/L)
17 -1C.2	.222	2.20	8.OOE-04	1.21E+00 0.00E+00
16	.0	.426'	7.26* 3.09E-02-	1.35E+00 7.72E+03
15	15.t)	.4 30*	5.68- 3.42E-02*	1 . 09E + 00 7.87E+03
0.00E+00 0.00E+00
8.87E+00 0.00E+00
7.76E+00 1.08E+03

-------
14
38.0 .444'
5.03"
3.68E-02"
7.94E-
01
8.04E+03
6.29E+00
2.30E+03
13
69.0 .419*
5.33"
3.40E-02*
6.01E-
•01
8.18E+03
4. 72E+00
3.43E+03
12
97.0 .419*
4.96*
3.48E-02*
2.21E-
01
8.27E+03
3.37E+00
4.31E+03
11
132.0 .400*
6. 61*
3.01E-02*
-2.25E-
01
8.27E+03
1.92E+00
5.00E+03
10
203.0 .400*
11.56*
2.23E-02*
-1.82E+00
7.60E+03
-1.11E+00
5.26E+03
9
232.7 .400*
25.61*
5.88E-03*
-6. 49E-
01
7.08E+03
-3.71E-01
4.95E+03
8
262.4 .400*
37.31-
8.21E-05*
- 4.7 5E-
02
6.2 7E+03
-1.86E-02
4.49E+03
7
292.1 .400*
38.21*
5.08E-05*
6.S1E-
04
3.44E+03
8.66E-04
3.42E t 03
6
321.8 .400*
38.49-
5.08E-05*
1 . 55E-
06
3.49E+03
2.07E-06
3.49E+03
5
3 51.5 .400"
38.49*
5.08E-05*
3.71E-
09
3.49E+03
4 . 9 3 E - 0 9
3.49E+03
4
381.2 .400"
38.49"
5.08E-05*
8. 84E-
12
3.49E+03
1.18E-11
3 . 4 9E-t 0 3
3
410.9 .400"
38.4 9"
5.08E-05*
2.11E-
14
3. 49E + 03
2.8 0E-i 4
3 . 4 9E t 0 3
2
440.6 .400"
3 8.49"
5.031-: — 05*
5.03E-
1 7
3 . 4 9E t- 03
6. 6 9 E — 1 7
3 . 4 9 E t 0 3
1
470.3 .400*
3 6.49* •
5 . 08K-05*
1. 2 0E-
19
3.49E+03
1.60E-19
3 . 4 9E t 0 3
1 Crl i
cuiat.ed Default Va i ue
5 .






So i ;
1 ity ( C . 00E
•00 input)
= 6 . 1 4 E - 0 8
c:rr>2 from 1
. 58E-
02 cm particle
s i ze


Outdoor 3are-Soi'.
Radon Flux
= 8 . 8 7 E >¦ C 0
oC i /ir.2 / s



Aver
age Subsiab Racier. Con
cent ration
7407.
pC 1 / L




*aoen
Concentration Under
Slab Crack
7584.
pCi/L




li : E
".try Velocity in the
Slab Crack
- 2.0i£-0 3
cx/ sec.





Ir.door Radon Con
cent rat : or.
9.96
::C i / L





Indoor R ao n
r'try !< a t e
241.6
r:C:: /s cr
f . 62
1 r-C i /yea r


CD
I
OUT-:.





: Ycri: :
' :-.o jse




? o :
O S i t v .. . :

:; : : . C:x-:
:<:¦ : ;:x
Hr. Air Cone.
Rn ;¦ ; ..x
Hr- Air Con
l.ay.- r
(<:~)
( f ra
cv 1 (vo i .
~al)

(pC:/-? s)
(oCi/I.)
(pC ;/-? s)
(pCi/L)
i V
-: o. 2

777 ?.
/ 3
h . o o - c
i . 0 9:->00
0 . 00E» 00
0 . 00-' ¦ 00
0.00Ei00
1 c
. 0

4 2c" 6.
'* 8 '
3.2 3- o / ¦
1 . 20Et 00
6.90E» 0 3
8.47 E•0 0
0 . 0 0 • 0 0
i 5
¦. D . ¦j

4 3 C ¦
3 4 ¦
-1 . ^ c - 02 "
8.61E- 0 i
7 . C 3E >¦ C 3
7.36fc•CC
9. '0E * 02
1 4
3 8.0

4 4 4" 4 .
:•?-
3.84E-02"
4.18E-G\
7.13E+03
5.8 cE•00
/.0 6Et0 3
: 3
69. C

4 19"
.i 0 "
3.62E-02"
-3.28E-C3
7.17 E +03
4 . 21 F. t 0 C
3 . 0 4 E * C 3
1 2
97.0

419" 3
9 8 •
3.69E-02"
-5.93E-01
7.11E+03
2.77E.0C
3 . 7 3E-* 03
; 1
10
',32.0

4 00- 4.

3.33E-02 •
-1.36E+00
6.88E+03
1.15E< 00
4.21E+C3
203 . 0

400" 5.
23"
3.27E-02"
-3.76E+00
5.42E+03
-2.37E-00
3.86E+03
9
232 . 7

4 0 0" 5.
42 ¦
3.2 4F.-02"
-2.90E* 00
4.58E+03
-1.82E-00
3 . 3 4 E * 0 3
8
2 62. 4

4 00" o.
63"
3 . 2 0E-02"
-2.20E+C0
3.94E * 03
-1 .3 8 Ei0 0
2.93E+03
7
292. 1

4 0 0" 5.
8
3.15E-02"
-I . 64E-t 00
3.44E+03
-1.02E» 00
2.62E+03
6
321 . 8

4 CO" 6.
3 9"
3 . 05E-02"
-1.17E+00
3.07E+03
- 7 . 1 8 E - 0 i
2.40Ei03
5
3 51.5

4 00"
1 4"
2. 92E-02"
-7.8 9E-01
2.80E+03
-4.69E-01
2.23E+03
4
3 81.2

400" 9.
i i»
2. 59F.-02"
-4.62E-0!
2.62E~03
-2.5 7 E-01
2. 13E + 03
3
410.9

4 0 C« ;4.
0c"
1.8 9E-02"
-i.90E-01
2. 51E + 03
-8.13E-02
2 . 0 7 E t 0 3
2
4 4 0.6

4 00* 3'..
37-
1.46E-03"
7.81E-C3
2.46E+03
3.98E-02
2 . 0 6E +¦ 0 3
1
4 7 0 .3

400" 37.
69"
6. 31F.-05"
1. 19E-02
2. 57E + 03
1.49E-02
2.36E+03
0* Ca 1
eti iated
Do £ a.j It Values.






Soil
Perxeabi1i ty
( 0.00E-00 :
nout)
- 6.:7e-08
crr,2 f rorn 1.58
K-02 cm particle
s i ze


Outdoor Bare-Soil Radon
Fi J x
— 8.4^^00
pC i / nr.2 /s


Ave r
aqe Subsiab Radon Concentr
at ion
6603.
pC i / L



Radon
Concent
ration
Under Slab
C rack
6 7 7 7.
pCi/L



Air Entry Velocity
in the Slab
Crack
= 2.01E-03
cm/sec.




Indoor Radon Concentr
at i on
8. 95
pCi/L





Indoc r
Radon Entry
Rate
217.1
pCi/s or 6.
8 4 6 mC i/yea r

-------
Time-Weighted ANNUAL AVERAGES:
Soil m= .161, D= 3.16E-02cm2/s K-
Soil Permeability ( 0.00E+00 input)	=
Outdoor Bare-Soil Radon Flux	=
Average Subslab Radon Concentration =
Radon Concentration Under Slab Crack	=
Air Entry Velocity in the Slab Crack =
Indoor Radon Concentration =
Indoor Radon Entry Rate -
6.1SE-08 cm2
6.15E-C8 cm2 from 1.58E-02 cm particle size
8.67E+00 pCi/m2/s
7005. pCi/L
7181. pC i/L
2. 01E-03 cm/sec.
9.4 6 pCi/L
229.4 pCi/s or 7.233 rr.Ci/year
COMBINED County,	ALP IN
Reference House:	1542
House Volume:	12,33 6
inooor Pressure:	-2.4
Ventilation:	.25
Per.r.etor crac'< :	0.50
C: a c k / S !ah Area:	2.04E-03
:!iqh W ,-j o r Taolo r. :	180.
High Wa: . 7-ib. duration:	. 0
Series, l. ir.es 1 to 6, Hot
sq.ft. (28.4 x 5 4.3 ft.)
cu. ft . (3.493 :*. t 5 )
Pa sea 1 s
air char-qos pe r hour
c Ti wide
(3.1 5/1542 : : . )

Geo 1ogy, hot SolL
RnMAP VI.3-D	i
RadcN cotent.ial MAPping algorithm I
I
COMB IN. IN
CO
I
; k?
[.aye
(;:r)

'.;ens: y
(g/err.3)
(f ractj or.)
. bCT
(VI)
(V%)
(V%)
ics at
4 5 err.
(V%)
Above
(V%)
(V%) (V%)
1 b C
(V%)
i .solo
2GCcr
(VI)
(V%)
(V%)

. ,. '

/ . i U .J
1 c
¦ " . 0
4 . 0 J
. 55j
1 b
2 3.0
'¦ . 00
i . 540
14
31.0
4.00
1 . 500
1 3
2 8.0
4.00
1 .570
12
.15.3
4 . 00
1.570
1 1
'1.0
4.03
! . 620
10
2 9.7
4.00
: .620
9
29.7
4 . 00
: . 62 0
8
29.7
4.00
1 . 620
7
29.7
4 . 00
1 . 620
6
2 9.7
4 .00
1 . 62 0
5
29.7
4 . 00
1 . 620
4
2 9.7
4 . 00
1 . 62 0
3
29.7
4 .00
1 . 620
2
29.7
4.00
1 . 620
1
29. 7
4 .00
1 . 620
. w i
. GOG
.600
. 60 3
.600
. 6 00
. 600
. 600
. 600
. 600
. 60 C
. 600
. 600
.600
. 60C
. 600
. 600
•i ;. H 8
3 . c 7
4 1 . 7 7
37.72
1 7 . 4 9
•8. 4 9
.58.4 9
3 8 . 4 9
3 8.49
."J 8 . 4 9
3 8.49
3 8.49
3 8 . 4 9
38.4 9
38.49
38.49
42.29
41. 95
40.40
36.10
36.72
37.88
37.88
37.88
37.88
37.88
37.88
37.88
37.88
37.88
37.88
37.88
4 1.9 3
41.19
39.38
35.85
3 6.45
37.69
37.69
37.69
3 7.69
37. 69
37.69
37. 69
3 7. 69
37. 69
37. 69
37.69
4 0.10
37 . 97
34.12
35.	64
36.	33
37.01
37.01
37.01
37.01
37.01
37.01
37.01
37.01
37.01
37.01
3 7.01
.0-.:
3 3.52
26.81
25.97
34.04
2 7.35
31.17
31.17
31.17
31.17
31.17
31 .17
31.17
31 . 17
31.17
31 .17
31.17
i H. 68
14.86
14.50
25.67
15. 50
17.24
17.24
17.24
17.24
17.24
17.24
17.24
17.24
17.24
17.24
17.24
. 00
13.19
10.55
9. 60
10.77
9.44
10.66
10. 66
10. 66
10.66
10. 66
10. 66
10. 66
10. 66
10. 66
10. 66
10. 66
9. /4
7.5 5
6.65
6. 95
6.07
7.05
7.05
7 . 05
7.05
7.05
7.05
7.05
7.05
7.05
7.05
7.05
Si. 3 0
6.31
5.53
5. 65
4 . 99
5. 94
5. 94
5. 94
5. 94
5. 94
5. 94
5.94
5. 94
5. 94
5. 94
5. 94
c. 3 9
5.41
4.58
4.51
C 2
. 02
, 02
.02
. 02
, 02
5.02
5. 02
5.02
5.02
5.02
. i l
. 69
.58
.4"!
. 0 7
. 68
. 68
. 68
. 68
. c 8
. 68
. 68
. 68
. 68
. 68
. 68
OUTPUT for 300.0 cr. Water Table During .500 of the Year:
Under House	Outdoors
Dept'h Porosity Moisture Dif'.Coeff. Rn Flux Rrc Air Cone.	Rn Flux Rn Air Cone.

-------
Layer
(cm)
(f raction)
(volurr.e 1)
(cm2 / s)
(pCi/m2s)
(pCi/L)
(pCi/m2s)
(pCi/L)
17
-10.2
.222
2.20
8. 00E-04
1.38E+00
0.00E+00
0.00E+00
0.00E+0O
16
. 0
.426*
7.26*
3.09E-02"
1.54E+00
8 . 81E + 03
1.01E+01
0.00E+00
15
15.0
.4 30"
5.68"
3.42E-02*
1.41E*00
9.OOE+03
9 . 0 3E »¦ 00
1.25E+03
14
38.G
. 4 44 «
5.03*
3.68E-02 *
1.34E+00
9.24E+03
7.62E)00
2.69E+03
13
69.0
.419*
5.33"
3.40E-02*
1.48E+00
9.53E+03
6.18E+00
4.11E403
12
97.0
.419*
4 .96*
3.4 8E-02 *
1.42E+00
9.85E+03
5.02E+00
5. 32E + 03
11
13 2.0
.400"
6. 61*
3.01E-02 *
1.47E+00
1.02E+04
3.92E+ 00
6.49E+03
10
203.0
.400*
11.56*
2.23E-02*
1.27E+00
1.11E+04
2.08E+00
8.45E+03
9
232. 7
.400*
25.61*
5.88 E-03*
1.07E+00
1.16E+04
1.39E+00
9.18E+03
8
2 62.4
. 400*
37.31*
8.21E-05*
2.96E-01
1.32E+04
3.29E-01
1.12E + 04
7
2 92. 1
.400"
38.21*
5.08E-05"
1.16E-02
3.18E+04
1.19E-02
3.18Ei 0 4
6
321 . 8
.400"
3 8 . 4 9 ' •
5 . 0 8 E - 0 5 -
2.7 7E-05
3.27E+04
2.83E-05
3. 27E(¦ 04
5
3 51.5
.400*
38.49*
5 . 08E-05"
6.61E-08
3.27E+04
6 . 7 5 E - 0 8
3.27E+04
4
381.2
.400"
38.4 9"
5.08E-05*
i.58E-10
3.27E+04
1. 61E-10
3.27E» 04
3
4 1C . 9
.400-
38.49*
5.08E-05"
3.7 6E-13
3.27E+04
3 . 8 4 E — j 3
3.27E+04
2
440.6
.400"
3 8.49"
5.08E-05*
8.97E-16
3.27E+04
9.16E-16
3.27E+04
i
4 70.3
.400"
38.49"
5.08E-05"
2.14£-18
3.27E+04
2 .1 9 E -1 8
3.27E< 04
* C 3 .
-u1 a ted
Default Vaiu
e s .





Soi !
?0 rr.Ori:
i li t y ( 0.00
K 1 0 0 i noi::.)
6.1 ¦'r'.-Oi;
! : or 1.58
\ - 02 cr. pa r t i c 1 e
s i zc


Out;-;
r iia r o- So ! i
Radon ir'lux
-¦ l.o 11: i o;
pC;/r2/g


Ave
;;:o Subr
lab R ad o r. C c
".cent rat i on
8 4 5 9.
:;C : / :



:< aC
Concert
ration Unoer
Slab Crack
¦- 8 6 62.
: /:



A i r
ry Vo:
ocity .n :no
Slab C r i o !<
¦¦ 2 . '¦ 1 - C
' ¦; SJ
c- / .





Tnooor R.oon
Sine ry
/ ' c . 0
::C : ¦' s : B .
¦' 0 3 rr.C i / y <; a r


oc; f ;> l.

r (j '• i,• -
') - i
ng :
, _ vr. , , .








Undo
: House
Out
doors


o : o g : y
i u _ : <:
:;i : i : .
' :• I'JX
Air Cone.
3.". r. ..x
! < .n Air Cone
:.ayer
(c-)
( fract)on)
(Vo1u-oI)
(crn2/i)
(pC: / rr.2 s)
(pCi/L)
(pCi /rr2s)
(pCi/L)
; v
- 0 . /
. 222
2. 20
8.OOE-04
: .34Et 00
0.00E+00
0.00E . 00
0.OOEt 00
1 c
. 0
.426-
6.48-
3.23E-02-
. 50E t 00
8.56E+03
1.OSEtCl
O.OOEtOO
1 5
: 3 . w
. 4 33 "
5.04-
3.56E-C2"
". . 35E100
8.74E+03
9.42E100
1. 22E+03
;
3 8.0
. 4 4 4 *
4.32-
3.84E-02"
. 25E t 00
8 . 9 5E 0 3
8 . 01E' 3 0
2.65E+03
1 3
6 9.0
.419-
4.30"
3.62E-02*
1 . 3 4E <¦ 00
9.20E+03
6 . 5 7 E + 0 0
4 . 0 7 E + 0 3
1 2
9 7 . C
.419-
3. 98"
3 . 6 9 E - 0 2 ¦
1.2 5E + 00
9.46E+03
5.42E< 00
5.27E+03
11
13 2.0
.400"
4.93-
3.33E-02"
:.23E» 00
9. 76E + 03
4.33E t 00
6.45E+03
1 0
203 .0
. 4 00*
5.23*
3.27E-02"
».9 IE-01
1. 04E+04
2.62E 100
8 . 4 4 E > 0 3
o
2 3 2.7
. 4C0"
5.42"
3.24E-02"
8.26E-01
1 . 06E+04
2.16E< 00
9. 03E + 03
8
2 62. 4
. 400-
5.63*
3 . 2 0 E - 0 2 "
8.00E-01
1 .08E+04
1.82Et00
9. 54E+03
7
2 92 . 1
.400-
5.87-
3.15E-02"
8.08E-01
1 .10E + 04
1.58E t 00
9. 98Et03
6
321. 8
. 400"
6. 39"
3.05E-02-
8.52E-01
1.12E+04
1.42E+00
1.04E+04
5
3 51.5
.400*
7.14"
2.92E-02"
9. 21E-01
1.15E+04
1.32E100
1 .07E + 04
4
381. 2
. 400*
9.13"
2 . 59E-02 *
1. 01E + 00
1.17E+04
1.2 6E«00
1.11E+04
3
410.9
.400*
14.06*
1 . 89E-02"
1 .05E + 00
1.21E+04
1.19E + 00
1.15E+04
2
4 4 0 .6
.400*
31.37"
1.46E-03*
9.06E-01
1.26E+04
9.46E-01
1.21E+04
1
470.3
.400"
37.69"
6.31E-05*
1.88E-01
1.86E+04
1.92E-01
1.83E+04
0" Calculated Default Values.
Soil Permeability ( 0.00E+C0 input) = 6.17E-08 cm2 from 1.58E-02 cm particle size
Cut'door Bare-Soil Radon Flux = 1.05E+01 pCi/rn2/s

-------
EPA-600 ,/R-9 5-142 b
September 1995
Statewide Mapping
of Florida Soil Radon Potentials
Volume 2. Appendices A-P
by
Kirk K. Nielson, Rodger B. Holt, and Vern C. Rogers
Rogers & Associates Engineering Corporation
P. 0. Box 330, Salt Lake City, UT 84110-0330
EPA Interagency Agreement RWFL 93378-01
Florida Department of Community Affairs Contract 94RD-30-13-00-22-003
University of Florida Subcontract (Acct. 1506481-12)
EPA Project Officer: David C. Sanchez
U.S. Environmental Protection Agency
National Risk Management Research Laboratory
Air Pollution Prevention and Control Division
Research Triangle Park, NC 27711
Prepared for:
Florida Department of Community Affairs
2740 Centerview Drive
Tallahassee, FL 32399
(DCA Project Officer; Mohammad Madani)
and
U. S. Environmental Protection Agency
Office of Research and Development
Washington, DC 20460

-------
NOTICE
THIS DOCUMENT HAS BEEN REPRODUCED
FROM THE BEST COPY FURNISHED US BY
THE SPONSORING AGENCY. ALTHOUGH IT
IS RECOGNIZED THAT CERTAIN PORTIONS
ARE ILLEGIBLE, IT IS BEING RELEASED
IN THE INTEREST OF MAKING AVAILABLE
AS MUCH INFORMATION AS POSSIBLE.

-------
TECHNICAL REPORT DATA
(Please read Inimiftions on the reverse before comp
1. REPORT NO. 2.
E PA-600/R-95-142b

4. TITLE AND SUBTITLE
Statewide Mapping of Florida Soil Radon Potentials,
Volume 2. Appendices A-P
B. REPORT DATE
September 1995
6. PERFORMING ORGANIZATION CODE
7. AUTHOR(S)
KirkK. Nielson, Rodger B. Holt, and Vern C. Rogers
8. PERFORMING ORGANIZATION REPORT NO.
RAE-9226/2-2R1
9. PERFORMING ORGANIZATION NAME AND ADDRESS
Rogers and Associates Engineering Corporation
P. O. Box 330
Salt Lake City, Utah 84110-0330
10. PROGRAM ELEMENT NO.
11. CONTRACT/GRANT NO.
EPA IAG RWFL 93378-01
12. SPONSORING AGENCY NAME AND ADDRESS
EPA, Office of Research and Development
Air Pollution Prevention and Control Division
Research Triangle Park, NC 27711
13. TYPE OF REPORT AND PERIOD COVERED
Final; 4/92 - 9/94
14. SPONSORING AGENCY CODE
EPA/600/13
16.supplementary NOTES APPCD project officer is David C. Sanchez, Mail Drop 54, 919/
541-2979. Volume 1 is the basic technical report.
i6. abstract rep0rt gives results of statewide mapping of Florida soil radon poten-
tials. Statewide maps identify Florida regions with different levels of soil radon po-
tential. The maps provide scientific estimates of regional radon potentials that can
serve as a basis for implementing radon-protective residential building standards
where they are needed. The maps were developed from state soil maps and surface
geology maps, which divided the state into 3, 919 regions with unique combinations of
soil and geologic properties. The potentials of the soil profiles in each region to con-
tribute to indoor radpon levels were calculated and used to classify each map region
into one of seven tiers of radon potential. The maps were validated by comparisons
with more than 1,000 radon flux measurements and with 9,038 indoor radon measure-
ments from three data sets. The comparisons showed consistency between the mea-
surements and the radon potential maps, with approximately the expected numbers
of outlier points. Field investigations of the outlier data points showed trends asso-
ciating certain construction details with positive or negative biases. Radon potentials
were calculated using a mathematical model of radon generation and transport from
the top 5 m of surface soils into a reference house. Upper confidence limits of 70, 90,
and 95% were defined for the radon potentials, in addition to regional median values.
17. KEY WORDS AND DOCUMENT ANALYSIS
1. DESCRIPTORS
b.identifiers/open ended terms
c. COSATI Field/Group
Pollution
Radon
Soils
Mapping
Residential Buildings
Building Codes
Pollution Control
Stationary Sources
Indoor Air
13 B
07B
08G.08M
08B
13 M
05D
IB. DISTRIBUTION statement
Release to Public
19. SECURITY CLASS (This Report)'
Unclassified
21. NO. OF PAGES
358
20. SECURITY CLASS (This page)
Unclassified
22. PRICE
EPA Form 2220-1 (9-73)

-------
NOTICE
This document has been reviewed in accordance with
U.S. Environmental Protection Agency policy and
approved for publication. Mention of trade names
or commercial products does not constitute endorse-
ment or recommendation for use.

-------
FOREWORD
The U.S. Environmental Protection Agency is charged by Congress with pro-
tecting the Nation's land, air, and water resources. Under a mandate of national
environmental laws, the Agency strives to formulate and implement actions lead-
ing to a compatible balance between human activities and the ability of natural
systems to support and nurture life. To meet this mandate, EPA's research
program is providing data and technical support for solving environmental pro-
blems today and building ^ science knowledge base necessary to manage our eco-
logical resources wisely, understand how pollutants affect our health, and pre-
vent or reduce environmental risks in the future.
The National Risk Management Research Laboratory is the Agency's center for
investigation of technological and management approaches for reducing risks
from threats to human health and the environment. The focus of the Laboratory's
research program is on methods for the prevention and control of pollution to air,
land, water, and subsurface resources; protection of water quality in public water
systems; remediation of contaminated sites and groundwater; and prevention and
control of indoor air pollution. The goal of this research effort is to catalyze
development and implementation of innovative, cost-effective environmental
technologies; develop scientific and engineering information needed by EPA to
support regulatory and policy decisions; and provide technical support and infor-
mation transfer to ensure effective implementation of environmental regulations
and strategies.
This publication has been produced as part of the Laboratory's strategic long-
term research plan. It is published and made available by EPA's Office of Re-
search and Development to assist the user community and to link researchers
with their clients.
E. Timothy Oppelt, Director
National Risk Management Research Laboratory

-------
ABSTRACT
This report documents the characterization of soil radon potentials to be used in state
wide soil radon potential maps of Florida. The maps are designed to show from soil and
geological features the areas that have different levels of radon potential. The soil radon
potential maps have been proposed as a basis for implementing radon-protective building
construction standards in areas of elevated radon risk and avoiding unnecessary regulations in
areas of low radon risk. The soil radon potentials calculated in this report are revised from
previous regional estimates of radon potentials to eliminate boundary faults.

-------
TABLE OF CONTENTS
Pay No.
APPENDIX A -- COMBINED GEOLOGY AND STATSGO MAPS	A-l
APPENDIX B - SAMPLE PRINTOUT FROM RNMAP	B-l
APPENDIX C - RADIUM DATA FROM NURE MEASUREMENTS C-l
APPENDIX D -- RADIUM AND RADON EMANATION
MEASUREMENT METHODS	D-l
APPENDIX E - QUALITY ASSURANCE DATA FOR RADIUM AND
RADON EMANATION MEASUREMENTS	E-l
APPENDIX F -- RADIUM AND RADON EMANATION
MEASUREMENTS	F-l
APPENDIX G -- COMPONENTS OF STATSGO SOIL MAP UNITS G-l
APPENDIX H ~ SOIL PROFILE PROPERTIES FOR STATSGO
COMPONENTS	H-l
APPENDIX I - RADON POTENTIALS OF LNDIYIDUAL SOIL
SERIES FROM RNMAP	1-1
APPENDIX J - CALCULATED RADON POTENTIAL DISTRIBUTIONS
BY MAP POLYGON	J-l
v

-------
TABLE OF CONTENTS
(Continued)
Page No.
APPENDIX K -- RADON FLUX MEASUREMENT PROTOCOLS,
QUALITY ASSURANCE DATA, RESULTS, AND
BIAS STATISTICS	K-l
APPENDIX L -- MEASUREMENT-MAP BIAS STATISTICS FOR
GEOMET LAND-BASED RADON MEASUREMENTS L-I
APPENDIX M - MEASUREMENT-MAP BIAS STATISTICS FOR
GEOMET POPULATION-BASED RADON
MEASUREMENTS	M-l
APPENDIX N - MEASUREMENT-MAP BIAS STATISTICS FOR
HRS RESIDENTIAL RADON MEASUREMENTS	N-l
APPENDIX O - SITE DATA FROM INVESTIGATIONS OF
POTENTIAL INDOOR RADON ANOMALIES	O-l
APPENDIX P - THE RELATION BETWEEN EMPIRICAL
MEASUREMENTS AND CALCULATED SOIL
RADON POTENTIALS	P-l
VI

-------
Figure A-l. Index map of Escambia, Santa Rosa, Walton, Holmes, Jackson, Washington, Bay, Calhoun, and Gulf
Counties polygons and NXJRE flight lines.

-------
Figure A-2. Index map of Liberty, Gadsden, Franklin, Wakulla, Leon, Jefferson, Madison, Taylor, Hamilton,
Suwannee, Lafayette, Gilchrist, and Dixie Counties polygons and NURE flight lines.

-------
Figure A 3. Index map of Columbia, Nassau, Duval, Baker, Union, Bradford, Clay, St. Johns, Flagler, Putnam,
and Alachua Counties polygons and NUEE flight lines.

-------
:e>
I
Figure A-4. Index map of Levy, Marion, Volusia, Citrus, Hernando, Pasco, Sumter, Lake, Seminole, and Orange
Counties polygons and NURE flight lines.

-------
Figure A-5. Index map of Pinellas, Hillsborough, Polk, Osceola, Brevard, and Indian River Counties polygons
and NURE flight lines.

-------
Figure A-6. Index map of Manatee, Sarasota, Charlotte, Hardee, Desoto, Highlands, Glades, Okeechobee,
St. Lucie, and Martin Counties polygons and NURE flight lines.

-------
>
I
-J
Figure A-7. Index map of Lee, Hendry, Collier, Palm Beach, and Broward Counties polygons and NURE flight
lines.

-------
Figure A-8. Index map of Dade and Monroe Counties polygons and NURE flight lines.

-------
COMBI NED
County, ALPIN
Secies, Lines 1 to
6, Cold Geology, Cold Soil
H i gl
Reference House:	1542
House Volume:	12,336
Indoor Pressure:	-2.4
Ventilation:	.25
Perimeter crack:	0.50
Crack/Slab Area:	2.04E-03
Water Table Depth:	180.
. 0
High Wat.Tab. Duration:
sq.ft. (28.4 x 54.3 ft.
cu . f t. (3. 4 93E 5 L.)
Pasca1s
air changes per hour
cm wide
(3.15/1542 sq.ft.)
cm
mo n th s
I	RnMAP VI.3-D	I
I RadoN potential MAPping algorithm I
I
COMBIN.IN
i n inn-
CD







Moistures at
Indicated Height Above
Water
Table
	
	

Th ickness
Radi um
Dens i ty
Kmanat i on
3. 5cm
20cm
30cm
4 5cm
60cm
80cm
1 00cm
1 50cm
200cm
333cm
1 5kcm
aye r
(cm)
(pC i/g)
(g/c.T.3)
(f raclion)
(V%)
(V%)
(V%)
(V%)
(V%)
(V%)
(V%)
5.0
.10
1.5/0
.200
3 7.49
3 6.72
3 6.4::
36.33
2 7.35
15.50
9.4 4
6.0 7
4 .99
4.13
1 .07
1 i
"'1.0
. 10
1 . 620
. 200
18 .49
3 7.88
37 . 69
37.01
31 . 17
1 '.24
1 0. 66
7.0 5
5. 94
5.02
1 . 68
! 0
29. 7
. 80
1 . 620
. 320
38.49
3"'. 88
3 7.69
3 7.01
31.1'
1 '.24
1 0. 66
7.05
5.94
5.02
1 . 68
9
29.7
.80
i . 6 2 C
. 32 0
18.4 9
37.88
37.69
37.01
31.1'
1 '.24
1 0. 66
'.05
5. 94
5.02
1 . 68
Si
29. '
. 80
1 . 620
. 320
38. 49
37.88
3 7.69
37.01
31.1'
1 '.24
10.66
7.05
5. 94
5.02
1 . 68
1
29.7
.80
1.620
.320
33. 49
3 '.88
3 7.69
37.01
31 .17
17.24
10.66
7.05
5. 94
5 . 02
1.68
6
29. '
.80
1 .620
. 320
38.49
3 '.88
3'.69
37.01
31 .17
1 '.24
10. 66
7.05
5.94
5 . 02
1 . 68
5
29.7
. 80
1 . 62C
. 320
38.4 9
3 7.88
37. 69
37.01
31.17
1 '.24
10.66
7.05
5. 94
5.02
1 . 68
4
29.7
.80
1 . 620
. 320
38.49
37.88
3 7.69
37.01
31.17
1 '.24
10.66
7.05
5. 94
5.02
1 . 68
3
2 9.7
.80
1 . 620
. 320
38.49
37.88
37.69
37.01
31.17
17.24
10.66
7.05
5. 94
5.02
1 . 68
2
2 9.7
.80
1 . 620
. 320
38. 49
37.88
37. 69
37.01
31 .17
17.24
10. 66
7.05
5. 94
5.02
1 . 68
1
29.7
. 80
1 . 620
. 320
38.49
37.88
37.69
37.01
31.17
17.24
10.66
7.05
5. 94
5.02
1. 68
CO
r1
M
*0
1 %
a ^
o
a
H
td
O
3
fd
3
M
a
a
a
OUH'U'l for 300.0 cm Waier lablc D..r i .f,.q .o00 r,t
Lhe Year:
Under House
Outdoors

.iepth
Porosi ty
Mo i sl u re
!): [ f . Coo I .
Rn Flux
Rn Air Cone.
Rn Flux
Rn Air Cone
La ye r
(cm)
(f ract ion)
(vo 1 uf-dl
(cm2/s)
(pCi /m2s)
(pCi/L)
(pCi /rr.2s)
(pCi/L)
17
-10.2
.222
2.20
8.00E-04
4.75E-02
0.00E i-OO
0.00E•00
O.OOEfOO
16
.0
. 426*
7.26*
3.09E-02*
2.13E-02
2.07E+02
2.23E-01
O.OOE+OO
15
15.0
.430*
5. 68*
3.42E-02*
3.60E-02
2.11E+02
2.15E-01
2.86E+01
1 4
38.0
. 4 4 4*
5.03*
3.68E-02*
6.14E-02
2.19E+02
2.09E-01
6.53E+01
13
69.0
.419*
5.33*
3.4 0E-02 *
1.02E-01
2.36E+02
2.13E-01
1.09E+02
12
97.0
.419*
4 . 96*
3.48E-02*
1.39E-01
2.62E+02
2.24E-01
1 .56EI-02
11
132.0
.400*
6. 61*
3.01E-02*
1.95E-01
3.06E+02
2.53E-01
2.18E+02
10
203. 0
. 400*
11.56*
2.23E-02*
3.49E-01
4.84E+02
3.68E-01
4.21E+02
9
232.7
. 400*
25.61*
5.88E-03*
1.98E-01
5.99E+02
2.05E-01
5.42E+02

-------
8 2 62.1
.400*
3 7.31
7 292.1
.400*
38.21
6 321.8
. 400*
38. 49
5 351.5
.400*
38.49
1 381.2
.400*
38.49
3 410.9
.400*
38. 49
2 410.G
. 400*
38. 49
1 4 70.3
.400*
3 8.49
Calculated
Default Values

Soil Permeability ( 0.00E*00 input.)
Outdoor Bare-Soil Radon Fiux
Avc:,icjc» Subsiab Radon Concentration
Radon Concentration Under Slab Crack
Air Entry Velocity in the Slab Crack
Indoor Radon Concentration
Indoor Radon Kntry Rate
OUTPUT for 503.0 err, Water Tabic* Dur

Depl h
;»:)rosily
Mc: i s:. u
:.,iyc-r
(c;r
)
( ! r a c L i c; n
) (voiu-e

o.
2
. 222
2. 20
"i c

3
.426 -
6 . 4 S
1 "r.
: 3.
0
. 4 30 "
b . 3 4
*
3 fi .
o
. 4 4 4 •
4.3/
i *.
69 .
c
. r. \ 9.
4.33
: 2
9 ¦' .
3
. 4 i 9 ¦
3 . 53
11
: 32.
2
.430"
4.93
;c
2 3 i.
3
. 4 00*
5.23
9
232 .
7
.433 *
i . 4 2
8
262 .
/.
.400"
^.63
7
2 92.
i
. 400 "
3.87
c
3 2 i .
s
.403 "
c . 3 9
5
3 5!.
5
.400"
7.14
/.
3 8:
2
.430"
9.13

4 i0.
O
.400"
14.06
2
4 4 0 .
c
. 4'JO*
31.37
1
',70.
3
.403*
37.69
* C :
cu!at c

De fault Va i
ue s.
So! Permeability ( 0.00E+00 input)
Outdoor Bare-Soil Radon Flux
Average Subsiab Radon Concentration
Radon Concentration Under Slab Crack
Air Entry Velocity in the Slab Crack
Indoor Radon Concentration
Indoor Radon Entry Rate
Time-Weighted ANNUAL. AVERAGES:
Soil m= .161, D- 3 . 1 6;---02cm2/s
Soil Permeability ( 0.00E+00 input)
8 . 21F-: - 0 5 «
4.02E-02
8.77E+02
4.10E-02
8.30E t02
5.08E-05*
1.30E-03
3.38E+03
1.31E-03
3.38E+03
5.08E-05*
3.11E-06
3.49E+03
3.12E-06
3.49E+03
5.08E-05*
7.42E-09
3.49E+03
7.45E-09
3.49E+03
5.08E-05*
1.77E-11
3.49E+03
1.78E-11
3.4 9E4 03
5.08E-05*
4.22E-14
3.49E+03
4.24E-14
3 . 4 9E t 0 3
5.08E-05*
1.01E-16
3.49E+03
1.01E-16
3.4 9E » 0 3
5.08E-05*
2.40E-19
3.49E+03
2.41E-19
3.49E»03
6.14E-08
cm2 t roir, 1.58
E-02 c:m particle
s i ze

2 . 2 3 E - 01
pCi/m2/s



199.
pC i / L



204.
pCi/L



2.01E-C3
cm/sec.



.27
pCi/L



6. 5
pC i/s o r
20 D mC i/yea c


g .533 o:
; no Year:




Undo
r :io:.se
Outdoor s
: ' f.Geo : :
R n Flux
o
c
o
o
Rn Flux
Rn Air Con:
(:::n2/s)
(pC i/m2s)
(pCi/L)
(pCi/m2s)
(pCi /1.)
8 .OOE-04
5.67E-02
;.33E.30
0.00E•00
0.CCE.00
3 . 23F.-C2*
3.18E-02
2 . c 7 E • 0 2
3.13F.-31
0 . OOF. t30
3.56E-02"
5.4CE-02
2 . 72E'02
3.05E-01
3.7 9E•0!
3 . 8 4E-02"
9.18E-C2
2 . 8 4 F. - 0 2
3.02E-0!
8 . 7 8 E 3 ¦
3. 62E-02"
i . b i — 0 1
3.08Ei02
3.14F.-0 i
: .4 BEt02
3. 6 9c.-C2"
2. o/e-o;
3.4 3E•02
3.37E-01
2 . 1 3 E t 3 2
3.33E-02"
2.93E-01
4 . 34E*02
3.87E-01
3 . OOF. ~ 02
3 . 27F.-02"
5.17E-C1
6. 3 4 E t- 0 2
5.71E-01
5.74E-32
3.24E-02"
4.15E-0 :
/.50Er02
4.5 6E-01
7 . C2E< 02
3.20E-02*
3.35E-C5
8.46E+02
3.67E-01
8.0 7E t 02
3.15E-02"
2.75E-01
9. 2 4E+02
2.9 9E-01
8.93E > 02
3.C5E-02"
2.29E-01
9 . 9 i E <• 0 2
2.47E-01
9 . 64 E t- 02
2.92E-02"
I.95E-01
1.05E+03
2.08E-01
1 . 03Et03
2.59E-02"
¦.70E-01
:.iOE+03
1.78E-01
i . 0 8 E + 0 3
1.89E-02"
1.45E-01
. i 6E + 03
1. 49E-01
1.14Et03
1.46E-03"
1.06E-C1
1.22E< 03
1.08E-01
1 . 2 1 E + 0 3
6.31F.-05*
2 . 1 0 E - 0 2
!.92E+03
2.11E-02
1 . 91 E t 0 3
6.17E-08
cm2 from 1.58E-02 cm particle
size

3.13E-01
pC i/m2/s



255 .
pCi/L



262.
pCi/L



2.05 E-03
cm/ sec:.



. 35
pCi/L



8.4
pC i/s o r
265 mCi/year


6.1SE-38 cm2
6.1SE-08 cm2 from 1.58E-02 cm particle size

-------
Outdoor Bare-Soil Radon Flux
Average Subslab Radon Concentration
Radon Concentration Under Slab Crack
Air Entry Velocity in the Slab Crack
Indoor Radon Concentration
Indoor Radon Entry Rate
= 2.68E-01	pCi/m2/s
227.	pCi/L
233.	pCi/L
= 2.01E-03	cm/sec.
.31	pC i/L
=	7 . A	pC i / s o r
.235 mCi/year
COMBINED
County , Al.P I N
Rcfc^rer.ce House:	1542
House Volume:	12,336
Indoor Pressure:	-2.A
Ver. t i 1 a t i on :	.25
Perimeter crack:	0.50
Crack/Slab Area:	2.C4E-03
liiqh Water Table Depth:	130.
High Wat.Tab. Duration:	.0
Series, L. 1 nes 1 to
sq. ft. (28. 1 x 54.3 it. )
ca.ft. (3.4 9 3 E * 5 i)
Pascals
air changes per hour
err. wide
(3.lb/1542 sq.fv . )
cm
months
Cold Geology, Hot Soil
I	RnMAP VI.3-D	I
1 RadoN potential MAPping algorithm I
I	I
COM3!N.IN






	
	
Moi SHU
es at
I nd i CriLe
ci lieicj:
L Aoove
W a L o r
Tab L o
	
	

Th i ckriess
K-k;

i/C:1l t. v
i-'.mana t: or-
3 .
2 Oct,
3 0cm
4 5 cm
60cm
8 Ocrr.
] 00 cm
1 50cm
200cm
3 3 3c-

-;yo -
(cm)
(pC
/ a)
(c/c-3)
(traetion)
(V )
(V%)
(V%)
(V%)
 0
. 600
1 : . c 7
11.95
11.19
37. 97
2 6.8:
11.86
: 0. 55
7.55
6.31
5.4;
; . c 9
S /:
31.0
4
oc
.500
. 600
1 "1 . 7/
10.10
39.88
34. 12
25. 97
1 4 . 50
9. 60
6.65
5. 3 3
1 . ::
1.58
! 3
2a. 0
A
00
:. ^o
. 60 0
3 7. i :>
3 6.10
35. 85
35. 61
3 4.01
25.67
10.77
6. 95
5.63
4
¦ 1 1
: 2
3 5 . C
C
:o
: . b ' C
. V >J
; / . 9
3c. 2
3 6.15
36.33
2 7.35
15.50
9.11
6.07
1.99
4 .: 3

•
71.0
H
oc
i . 620
.600
; H . 1 9
3 1. 8 8
37.69
37.01
31.17
1 7. 21
10.66
7. 05
5. 91
5.0/
1.63
i 0
29. 7

fl Q
1 .620
.320
3 3 . 1 9
3 7.88
37. 69
37.01
31.17
17.21
10.66
7.05
5. 91
5.07
1 . 63
9
29. ?

80
1 . 620
. 320
3 8.19
3 7.88
3 7. 69
3 7.01
31.17
17.24
10.66
7.05
5. 94
5.02
;. 63
Q
2 9.7

80
1 . 620
. 320
3 S . 4 9
37.88
3 7.69
37.01
31.17
1 7.24
10.66
7.05
5. 91
5 . 02
1 . 68
7
29.7

8 C
1 . 620
. 320
3 3.19
37.88
3 7.69
37.01
31.17
17.21
10.66
7.05
5. 91
5.02
! . 68
6
2 9.7

80
1 . 620
. 320
38.19
37.88
3 7. 69
37.01
31.17
17.21
1 0. 66
7.05
5.94
5.02
. 68
5
29.7

80
1 . 620
. 32C
3 8 . 4 9
37.88
37.69
37.01
31.17
17.21
10.66
7.05
5. 94
D .02
i . 68
A
29. 7

8 0
i . 620
.320
! 3 . .1 9
37.88
3 7.69
37.01
31 . 1 1
17.21
10.66
7.05
5. 94
5 . 02
1 . 68
3
29.7

80
1 . 620
. 320
3 8 . >1 9
3 7.88
3 7.69
37.01
31.17
1 7.21
1 0. 66
7.05
5 . 94
5.0?
1.68
2
29. ?

80
j . 62 0
. 320
38.19
37.88
3 7.69
37.01
31.17
17.21
10.66
7.05
5. 91

1 . 68
i
29. 7

90
: . 620
. 320
3 3.19
3 7.88
37. 69
37.01
31.17
17.24
10.66
7.05
5 . 94
5.C2
1 . 68
OUTPUT for 300.0
W ale:
j\u r l ng
. 5C
i,aye r
Dept h
(cm)
Porosity Moisture
(fraction) (volume!)
Diff.Cooff
(crr.2 / s)
:-.e Year:
Under House
Rn Flux Rn Air Cone.
(pCi/m2s) (pCi/L)
Outdoors
Rn Flux Rn Air Cone.
(pCi/rr,2s) (pCi/L)
17 -10.2	.222	2.20	8.00E-04	1.21E+00 0.00E+00
16	.0	.426'	7.26- 3.09E-02"	1.35E+00 7.72E+03
:5	; 5. *0	.430*	5.68* 3.42E-02*	1.09E+00 7.87E+03
0.00E+00 0.00E+00
8.87E+00 0.00E+00
7.7 6E100 1.08E+03

-------
0'
14
38.C
. 4 4 4 "
5.03*
3.68E-02*
7.94E-01
8.04E+03
6.29E+00
2. 30E+03
13
69.0
.419*
5.33*
3.40E-02*
6.01E-01
8.18E+03
4.72E+00
3.43E+03
12
97.0
.419*
4 . 96*
3.48E-02*
2.21E-01
8.27E+03
3.37E+00
4.31E+03
11
132.0
.400*
6. 61-
3.01E-02*
-2.25E-01
8.27E+03
1.92E+00
5.00E+03
10
203. 0
. 400*
11.56*
2.23E-02*
-1.82E+00
7.60E+03
-l.llEt-00
5.26E+03
9
232.7
.400*
25.61*
5.88E-03*
-6.49E-01
7.08E+03
-3.71E-01
4.95E + 03
8
262.4
.400*
37 .31 *
8.21E-05*
-4.7 5E-02
6.27E+03
-1.86E-02
4.49E+03
7
292 .1
.400*
3 8.21*
5.08E-05*
6.51E-04
3.44E+03
8. 66F.-34
3 . 4 2E-t 0 3
6
321 . 8
.400*
38.49*
5.08E-05*
1.55E-06
3.49E+03
2 . 07E-0&
3. 49E + 03
5
3 31.5
.400 *
3 8.49"
5.08E-05*
3 . 71E-0 9
3.49E+03
4.93E-09
3.49E+03
4
381 .2
.400*
38.49*
5.08E-05*
8.84E-12
3.49E+03
1 . 18E-11
3.49E+03
3
410.9
.400*
38.4 9*
5 . 0 8 F. - 0 5 *
2. HE-14
3.49E+03
2.80F.-14
3 . 4 9F. + 03
2
4 4 0 . 6
.400*
38. 4 9*
5.C8E-05"
5.0 3E-17
3.49E+03
6.69F-i 7
3 . 4 9 E t 0 3
1
470.3
.400*
3 8 . 4 9 * •
5.08E-05"
1 .20E-19
3.49E+03
1. 60E-19
3.4 9E * 0 3
Ca 1
cu 1 a t. ed
Default Va !'_
s .





Soli Pettr.eabi 1 ity ( C . 0 0 K « 0 0 i npi:i)
Outdoor Bare-Soil reader. Flux
Ave race Subs lab Radcr. Co nee r. t rat i on
Radon Concentration. Under Slab Crack
Air Kntry Velocity in the S'iab Crack
Indoor R a d o n C o r. c e t r a i. ion
Indoor Raoon :/r.iry ! J SO



-
¦^cr j:,; ¦ v


/ ' " '':v i ^ '
Rr. 1- : ::x
Air Cone.
R:'. X :
•¦r Air Cor:

(err) (
: ac: : or.)
( V G ! .
""O }
(::t2/s)
(pC;/-2s)
(pCL/L)
(pC:/- > s )
(pCi/I.)
I 7
- \ 0 . 2
. ?//
- .
2 C
«. o o - o
o
o
cv
o
3 . 3 0 E t- 3 3
0 . 0 0¦ 3 0
C.C3E< 00
i c

.426'
C .
<• ? *
3.2 311-32'
: . 2 0 :i '¦ 0 0
6.90E»03
3. 4 7:;. 00
O.OO'f.-OO
1 5
i . 0
. 4 3 0 ¦

0 4 *
:•. ;6::'-G2-
- . 6 i L - 0 :
7.032+03
7 . 3 6 ~ ¦ 0 0
9. ?0E'32
• 4
3 8.0
. 4 4 4 "
L .
.3 2 ¦
3 . 8 4 E - 3 2 *
4.18E-0 i
7.13E+0 3
d.8 cE•00
2 . 0 6 E -r C 3
1 3
6 9.3
. 4 1 9 '
/, .
.5 0 "
3 . c 2 E - 0 2 "
-3.28E-03
7.17E+ 03
4 . 21 E ( C C
3 . 04EtC3
• 2
97.0
. 4 :9 "
3.
98*
3.6 9E-02"
-5.93E-01
7.11E+03
2.7 7E100
3.7 3E,0 3
i:
132.0
.400 "
r.
D - *
3.33E-02"
-1 . 36E+00
6.88E+03
1.15Ei00
4 . 21E + 0 3
1 c
2 0 3.0
.4 03"
b .
2 3 1
3.27E-02"
-3 . 76E + 00
5.42E+03
-2.37E;00
3 . 8 o E f 0 3
9
232 . 7
.4 30-
5.
42'
3.24F.-02'
-2.90E + 00
4.58E t 03
-1.82i;-00
3. 34F. + 03
8
7
2 62.4
.400"
b .
c 3 *
3.20t:-C2"
-2.20Et-00
3.94E+03
-1.38E.00
2.93E+03
2 92.1
.403*
c.
8 /-
3 . 1 5E-02 "
-1 . 64E + 00
3.44E+03
-1.02E*00
2.62E+03
6
321.8
.400*
c .
39'
3.05E-02*
-1 . 17F.t00
3.07E+03
-7.18E-0;
2 . 40E-I 03
5
3 51 . d
.400"
7
1 4 *
2.92E-02"
-7.8 9E-0:
2.80E+03
-4.69E-01
2. 23E + 03
4
381 . 2
.400 "
D
i 1 *
2.5 9E-02"
-4.62E-01
2.62E+C3
-2.57E-01
2. 13E + 03
3
/*: 1 0 9
.400*
I 4 .
Cc'
1.89E-02"
-1.90E-01
2.51E+03
-8.13E-02
2 . 3 7 E t 0 3
2
4 4 0.6
.400*
3.
3 7 *
i.4 6E-0 3"
7.81E-03
2.46S+03
3.98E-02
2 . 3 6 E t 0 3
i
470.3
. 400*
37.
6 9 *
6.31F-05*
1 . 19F.-02
2.57E+03
1.49E-02
2.3 6E10 3
0 * Ca i c
uiated Default Va ue
s.






Soi i
Permeability ( 0.00E
+ 00 :
n.p-jt)
= 6.17E-08
cm2 f rom 1.58
E-02 cm particle
s i ze


Outdoor
Bare-Sci1
Radon
Flux
= 8 . 4 7 E t- 0 0
pCi/m2/s


Avera
qe Subslab
Radon Cor
cent r
at i on
6603.
pCi /L



Racior.
Concentration Under
S1 ab
Crack
6777.
pC i / L



Air Entry Velocity in the
Slab
Crack
= 2 . 01E-03
cm/sec.




I ndoo r
Radon Con
cent r
at i on
8.95
pCi /L




Tna
ccr Rador.
Ent ry
Rate
217.1
pC i/s or 6.
84 6 mCi/year

-------
Time-Weighted ANNUAL AVERAGES:
Soil m= .161, D= 3.16K-02cm2/s K~
Soil Permeability ( 0.00E+00 input)	=
Outdoor Bare-Soil Radon Flux	=
Average Subslab Radon Concentration	=
Radon Concentration Under Slab Crack	=
Air Entry Velocity in the Slab Crack.	=
Indoor Radon Concentration	-
Indoor Radon Entry Rate	=
6. 1 5F.-08	cm2
6.15E-08 cm2 from 1.58E-02 cm particle size
8.67E+00	pCi/m2/s
7005.	pCi/L
7181.	pCi/L
2.01E-0 3 cm/sec.
9.46 pCi/L
229.4	pCi/s or 7.233 mCi/year
COMBI ns-:c
County,
a: J-1 N
Series, l.ir.es 1 to
6,
Hot Geology, Hot Soil
erenco House:
1 542
sq. ft . (28.4 x 54.3 ft.)

1 Rr.NiAP VI. 3-D 1
House Vol ume :
12,336
cu. ft. ( 3 . 4 9 i ir~ ¦ b i.)

i RadoN potential KAPping algorithm I
o o r Pressure:
-2 . 4
Pascals

I 1
Vent, i 1 a t i on :
.25
air changes per hour

s =..= =« ^ u = ¦:.. = i: r- i = -. •. = = =5 = i = ;¦ . i •.= ^
: met o r crack:
0. 5C
cm wide

COMSilN. IN
c k / S ! .-2h Area:
2 . 0 4 E - 0 1
(3. :5/1 542 1: . )


Table Depth:
130.
cr.


ab. duration:
. C
m o p. t'ns


CO
I
L N P I
at • r'.d i c.-i :.eu -ioiqnt Above iririto:		
:;-;rse.s.s R.->d;i,r density -T:?. natio:: :.bcT 20cm 3Ccm 4bcm oGcrr HCcm lOCcm 153cm 200c
.aye:	(pC: /a) (g/cm.3) (fraction)	(VI) (V%) (V%) (V%) (V%) (V%) (V%) (V%) (V%) (V%) (V %)



2 . 0 0
. J ' ^
. o
.00
. 0 3
. 00
.0-.:
. 0 0
. 00
. 0'.)
. 0 z

. j J
1 c
i 7. 0
4.j
1 . 55 0
. 6 C 0
•; 3. s 8
42.29
41 . 93
4 0 . i 0
33. 52
i Si. 68
13.19
9.74
8 . 3 0
c . 9 9
;¦. i '
15
2 3 . C
4. oc
! . 5 4 0
. 600
•13.67
41. 95
4 1.19
37 . 97
26.81
14.86
10.55
7.5 5
6.31
5.4 1
1.69
1 4
"* 1 0
-1.30
1 . 300
. 600
4 1.77
40.40
39.88
3 4.12
25.97
14.50
9. 60
6. 63
5.53
4.58
:. 58
1 3
23 . 0
4 00
1 .570
. 600
3 7. 72
36.10
35.85
35. 64
34 .04
25. 67
10.77
6. 95
5.65
4.51
I . 4 i
12
: 5 . 0
4 . 00
¦..370
.600
'>7.49
36. 72
36.45
36.33
2 7.35
15.50
9.44
6.0 7
4 . 99
4 .: 3
1.07
1 1
. 0
4 . 0 0
i . 620
. 600
J8 . 4 9
37.88
37.69
3 7.01
31.17
17.24
lO.oo
7.05
5.94
5 . 02
. 63
10
29.7
4 .00
1 . 620
. 600
3 8.49
37.88
37.69
37.01
31.17
17.24
10. 66
7.05
5. 94
5.02
1 . 68
9
29.7
'..00
1 . 620
.600
3 8.49
37.88
37. 69
37.01
31 .17
17.24
10. 66
7.05
5. 94
5.02
1 . 68
8
29.7
1 . GO
1 . 62 0
. 600
38. 4 9
37.88
37. 69
37.01
31.17
17.24
10. 66
7.05
5. 94
5. 02
1 . 68
7
2 9.7
1 . 00
1 . 620
. 600
3 8.49
37.88
37.69
37.01
31.17
17.24
10.66
7.05
5. 94
5.02
i . 68
c
29.7
1 . 00
1 . 62 0
. 600
3 8.49
37.88
37.69
37.01
31.17
17.24
10. 66
7.05
5.94
5.02
1 . 68
5
2 9.7
4 . 00
¦ . 62 0
. 600
3 8.49
37.88
37. 69
3 7.01
31.17
17.24
10. 66
7.05
5. 94
5.02
1 . 68
4
29. 7
4.00
1 . 620
. 600
38.49
37.88
37. 69
37.01
31 .17
17.24
10.66
7.05
5.94
5 . 02
1 . 68
3
29.7
4.00
1 . 620
. 600
3 8.49
37.88
37. 69
37.01
31.17
17.24
10. 66
7.05
5. 94
5.02
1 . 68
2
2 9.7
4 .00
1 . 620
. 600
38.49
37.88
37. 69
37.01
31.17
17.24
10. 66
7.05
5. 94
5.02
1 . 68
1
29.7
4 . 00
1 . 620
. 600
3 8.49
37.88
37.69
37.01
31.17
17.24
10. 66
7.05
5. 94
5.02
1 . 68
OUTPUT for 3C0.C cm Water Table During .500 of the Year:
Under House	Outdoors
Dopt'h Porosity Moisture Diff.Coe'f. Rn Flux Rn Air Cone.	Rn Flux Rn Air Cone.

-------
Layer
(cir.)
(fraction)
(vo Iu.t.c %)
(cm2 / s)
(pCi /rn2s)
(pCi /L)
(pCi/m2s)
(pCi/L)
17
-10.2
.222
2. 20
8.03E-0 4
1.38E+00
0.0OE+00
0.00E+00
0.OOE+OO
16
. 0
.426"
7.26-
3.09E-C2*

.54E+00
8.81E+03
1.01E+01
0.00E+00
15
15.0
.4 30*
5. 68*
3.42F.-02*

.41E+00
9.00E+03
9 . 0 3 E t 0 0
1.25E+03
1 1
38 . 0
. 4 4 4 *
5.03*
3.68E-02*

.34E4 00
9.24E+03
7 . 6 2 E t 0 0
2.69E+03
13
69.0
.419"
5.33*
3.40E-02*
1.48E+00
9.53E+03
6 . 1 8E-t 00
4.11E+03
12
97.0
.419*
4 .96*
3.48E-02*
1.42Et 00
9.85E+03
5.02E+00
5.32E+03
11
132.0
.400*
6. 61*
3.01E-02*
1.47E+00
1.02E+04
3 . 92E+00
6.49E+03
10
203 . 0
.400*
11.56*
2.23E-02*
1.27E+00
1.11E+04
2.08E+00
8.45E+03
9
232.7
.400*
2 5.61*
5.88E-03*
1.07E+00
1.16E+04
1.39E+00
9.18E+03
8
262. 4
. 400"
37.31*
8.21E-05*
2.96E-01
1.32E+04
3. 29E-01
1.12E+04
7
292. 1
.400*
38.21'
5.08E-05*

.16E-02
3.18E+04
1 . 19E-02
3.18Ei04
6
321 . 8
.400*
38.49* •
5.08E-05*
2.77E-05
3.27E+04
2. 83E-05
3 . 27E »¦ 04
5
351.5
.400*
38.49*
5.08F.-05"

. c 1E - 0 8
3.27E+04
6.75F.-08
3.27E+04
4
381.2
.400*
38.49*
5.08E-05 *
1 . 58E-10
3.27E+04
1.61E-10
3.27E+04
3
110.9
. 400*
38.49*
5.08E-05"

3. 76E-13
3.27E+04
3.8 4E-13
3.27E+04
2
4 4 3 . 6
. 4 03 -
38.49*
5.08E-05*
8.97E-16
3.27E+04
9.16E-16
3.2 7Et 0 4
i
'5 7 0.3
. 40C*
38.4 9*
5.38E-C5"
2 . 4E-18
3.27E+04
2.19E -1 8
3.27E404
" Ca 1
cu 1 ated
Default Va : u
e s.






Soil
P<< me a:
:1 ity ( 0.03
F.'OO )npij )
c . " 4 r. - 3 ::
c~./
ron i.58E
-32 cr. pa r t i c 1 e
s i zc


0ut.de
:>r Ba r e- So ; !
Radon ' ux
i.o i [•: < c;
:)C i / rr.2 / s



Ave t
aoo Si: or
":3b Radon Co
r'.ccni. rat i or.
3 4 = 9.
:;C : /




K a d o r
Cc-ccn:
ration Unrier
Slab Crack
= 8 c c 2 .
:sC." : /




A: r K
ry Vc:!
;;^V ^
Slab Cue!<
- ?.ci;:-o::
C - / :J'






: r'Coo : Raoor
Fntry Ra;.<-
/ ; i . 3
f'C : ¦'
> r 8 . '
0 3 r?.C i / y e a r


0i/ i':' w

^ i,: j

r.q . ::3>J

v (' .1 r •









Under
iioi; se
0.;t
d o c r s

n
/oros:: y
Vq i i;
¦). ¦ : .

: . . X R
Air Cone.
Rr. :• . .. x
Kn Air Ccr.c
i.ayc:
(c~)
(fraction)
(vo lu~o I )
(c:r.2/s)
(
;C : / rr.2 s)
(pCi/L)
(pCi/t2s)
(pCi/L)
! "/
- ": 3 . 2
. 222
2. 20
8. 00i"-04

.3 4E< 00
0.00E+00
0.00E <00
0.OOEtCO
1 6
. 3
.4 2 6 "
6.48"
3.23 E-02"

.50E•00
8.56E+03
1.05E t 01
O.OOEiOC
1 3
! 5 . 3
.433*
5.04"
3 . 5 6- 3 2 ¦

.3 5E* 00
8.7 4E + 0 3
9.42E < 00
1.22E+03
i 4
38 . 0
.4 4 4 "
4 . 32"
3.84E-02 ¦

.25E+ 00
8.95E+03
8 . 01E¦00
2.65E+03
] 3
69 . 0
.419"
4.30*
3.62E-0 ?"

. 3 4 E <¦ 0 0
9.20E+03
6 . 5F. i 0 0
4.07E+03
1 2
9 7 0
.419"
3.38"
3.69E-02"

. 2 5 E 0 3
9. 46E + 03
5.42Ei00
5 . 2 7 E r 0 3
1 1
; 3 2 . c
.430"
4 . 93"
3.33H-C2*

.23E< 30
9.76E+03
4.33Ei30
&. 45E + 03
10
203.0
. 4 03*
5.23*
3.2 7F.-02"
a . 91E-01
1 . 34E+04
2.62E t 00
8 . 4 4 E t 3 3
o
2 3 2.1
.400"
5.42*
3.24E-02"
8.26E-01
1 . C6E+04
2. 1 6E-t 00
9. C3E + 03
8
2 62. 1
. 400 "
5.63"
3.20E-02"
8.30E-01
1.08E+04
1. 82E t 00
9.54E+03
7
2 92. i
.400"
5.87*
3. 15E-02"
8.08E-01
1 . 10E <• 04
1 .58F.tOO
9.98E< 03
6
321. 8
. 400"
6.39"
3.05E-02*
8.52E-01
1. 12E+04
1.42E+00
1.04E10 4
5
351.5
.433*
7.14"
2. 92E-C2"
9.21E-01
1 . 15E<-04
1. 3 2 E t 0 0
1.07E+04
4
381 . 2
. 400"
9.13*
2.59E-32"

•01E+00
1.17E+04
1.26E+00
1.11E+04
3
110.9
.400"
14.06*
1.89E-02"
1.05E+00
1.21E+04
1.19E+00
1.15E + 04
2
4 4 0.6
.400*
31.37"
1.46E-03"

.0 6E-01
1.26E+04
9. 46E-01
1.21E+04
1
7 0 . 3
.403*
37.69*
6. 31F.-05"
1.88E-01
1.86E+04
1.92E-01
1.83E+04
* Ca 1
cu i a led
Default Valu
e s.






Soil Permeability ( O.OOEtOO ip.p'ji) = 6.i"?E~08 ex? from 1.58E-02 cm particle size
Out'door Bare-Soil Radon Flux ¦- 1.05E+01 pCi/m2/s

-------
Average Subslab Radon Concentration	=
Radon Concentration Under Slab Crack	=
Air Entry Velocity in the Slab Crack	=
Indoor Radon Concentration	=
Indoor Radon Entry Rat.o	=
Time-Weighted ANNUAL AVERAGES:
Soil m - .161, D-- 3 . 1 &E-02cm2/s K-
SoLl Permeability ( 0.00E + 00 input) =
Outdoor Bare-Soil Radon Flux -
Average Subslab Radon Concentration =
Radon Concentration Under Slab Crack =
Air Entry Velocity in the Slab Crack =¦
Indoor Radon Concentration =
Indoor Radon Entry Rate -
8194.	pCi/L
8411.	pCi/L
2 . 01E-03	cm/sec.
11.11	pCi/L
269.4	pCi/s or 8.49S mCi/year
6.1d E- 0 8	cm2
6.15E-08	cm2 from 1.58E-02 cm particle size
1.03E' Oi	pCi/m2/s
8327.	oCi/L
8536.	pC: / L
2.01E-03	cm/sec.
11.24	pCi/L
272.7	oCi/s or 8.600 mCi/year
:ohu i ne;;
Re
bounty, ALP1N
CD
I
once H.oiiso
una Volume
r Pressure
Vent i i -n. : or.
?(.'; ; mei e r cr ack
C r ••:- < / S : Area
u . t t . (28.4 x b 4 . J
u. ft . U. 49 iE' b 1.)
a s c a ! i>
1 b 4 2
12,336
-2.4
/ . 04v;-0 3 (1 . b/: .--''2
¦.3"
s 1 to
It.)
Hot Geology, Co id Sc
I	Rr.MA:3 V;.3-:;
I RadoN ootentiai MAPoirg algorithm I
:o^biN. IN
	 Moistures at Indicated Height Above Water fable 	
Thickness Radium, Dor, si:y Emanation i.ncm 20cm 30cm 45cm 60cm. BOcm 100cm 150cm 200cm. 333cm. ;5kcr.
Layer (cr.)	(pCi/g) (g/cm3) (traction)	(V%) (V%) (V%) (V%) (V%) (V%) (V%) (V%) (V%) (V%) (V%)
1 7
0 . ¦<
'.CO
2 . : 0 0
. 070
. 0 0
. 00
.00
.00
.00
.00
.00
. 00
. 00
. 0 0
0 0
16
16.0
.10
I . 3 b 0
.2 00
13.88
12.29
11 . 93
40.10
33.52
18.68
13.19
9.7 4
8.30
6.99
2.17
15
23.0
. 1 0
1.510
. 200
13 . 67
41.95
41.19
37. 97
26.81
14.86
10. 55
7.55
6.31
5.11
1.69
14
31.0
. 1 0
:. 5 c c
2 0 0
11.77
40.40
39.88
34.12
25.97
14.50
9. 60
6. 65
5. 53
1.58
1 . 58
13
28.0
.10
1.570
.200
37.72
36.10
35.85
35. 64
34.04
25.67
0. 77
6. 95
5. 65
1. 51
1.41
12
35.0
. 1 c
1.570
.200
3 7.19
36. 72
36.45
36.33
27. 35
15. 50
9.14
6.07
4 . 99
4.13
1 .07
11
71.0
. 10
1 . 62 0
. 200
38.19
37. 88
37.69
37.01
31.17
17.21
10. 66
7. 05
5. 94
5. 02
1. 68
10
2 9.7
4.00
1 . 62 0
. 600
33. 19
37.88
37 . 69
37.01
31.17
17.21
10.66
7.05
5. 94
5.02
1 . 68
9
29.7
4 . oc
1 . 62 0
.600
3 8.19
37.88
37 . 69
37.01
31.17
17.24
10.66
7.05
5. 94
5.02
1 . 68
8
29.7
1.00
1 . 620
. 600
38.49
37.88
37.69
37.01
31.17
17.24
10.66
7.05
5. 91
5.02
1 . 68
7
29.7
4 .00
1. 620
. 600
38.19
37. 88
37. 69
37. 01
31.17
17.24
10.66
7. 05
5. 91
5. 02
1 . 68
6
2 9.7
4. 00
1 . 62 0
. 600
33.19
37. 88
37.69
37.01
31.17
17.24
10. 66
7.05
5. 94
5.02
1 . 68
5
29.7
1.00
1.620
.600
38.49
37.88
37. 69
37.01
31.17
17.21
10. 66
7.05
5.94
5 . 02
1 . 68
1
2 9.7
1.00
1 . 62 0
. 600
38.4 9
37.88
37. 69
37.01
31 . 1 7
17.24
10.66
7.05
5. 94
5 . 02
1 . 68
3
29.7
1.00
1 . 62 0
. 600
38.19
37.88
37. 69
37.01
31.17
17.24
10.66
7.05
5. 91
5.02
1 . 68
2
29.7
1.00
1 . 620
. 600
38.49
37.88
37. 69
37.01
31.17
17.24
10. 66
7.05
5.91
5.02
1. 68
1
29.7
1.00
1 . 620
. 600
38.49
37.88
37.69
37.01
31.17
17.24
10.66
7.05
5. 91
5.02
1 . 68

-------
OUTPUT lor 300.0 err. Water Table During .500

Depth
Porosity
Moi sture
Diff.Coc:'
Laye r
(cm)
((raction)
(vol ume%)
(crr.2 / s)
17
-10.2
. 222
2.20
8 . 0 0 F. - 0 4
1 c
. 0
.4 2 6 "
7.26*
3.09E-02
15
] 5. C
.4 30 -
5. 68"
3 . 42F.-02
1 4
38 . C
. 4 4 4 *
5.03*
3.68E-02
13
69. 0
.4 19*
5.33-
3.40F.-02
12
97.0
.419*
4.96*
3.48E-C2
1 1
132.0
.400*
6 . 61 - ¦
3 . 0 1 E - 0 2
10
2 C 3 . 0
.4 00 -
11.56*
2.23E-02
9
2 32. ¦'
.400"
2 5.61*
5 . 8 8 E - 0.3
8
2c2.4
. 4 0 C «
3 7.31"
8 . 2 1F - 0 5
7
2 92. 1
. 4 00 "
3 8.21-
5. 0 8F.-C5
6
32' . 3
.4 00 *
3 8.49*
5.08F-05
5
3d! . 5
. 4 0 0 "
3 8.49"
5 . 0 8 E - 0 3
t.
3 3 \ . 2
.400'
38.49"
5 . C8F-05
3
4 10. 9
. 4 00 ¦
3 8.49"
b . 08F-0::
2
4 4 0.6
.400"
3 8.49-
3 . 0 8 F - 0 3
l
4 ¦' 0 . 3
. 4 0 0 *
3 B . 4 9 -
5 . 0 BF - 0
* Ca . :
¦'
(¦ fa..::. V3 i
e s .


; :: ;
,-.:y ( z
;. -30 )
c. . •. - :

U
: :> •; r !.¦- S:: i :
i: i >..x
. 4 91 0
Ave.
S,
a:: C:
r iL : o"
2 3 ¦
a dor-
C
: : ::•¦ 0::;:o r
.S!. ri o C." r :ik
: >' 8:
Air F:
¦try Vei;
i: y : n ; hi
Slab Crack
^ 2 . C : F - 0

i :¦;;:
or '¦< Cc
:. c o n t : a t : o r.
; . 6


no:;:-: ;a::o:
Fr-t ry R-te
4 0.
o.; i :;u
: o r ^
o.;:
r r-KMC
. 30 J
l.ayo:

( ! ra::: i or.)
(vo'< -~e ;)
(;:-/.' -.)
; 7
- ; . 2
.222
2.20
8 . 0 0 e: - 0 ¦'=
1 c
. 0
.426"
6.48"
3 . 23E-02
1 5
1 3.0
.4 30 "
5.04*
3.56F.-02
1 4
3 8.0
.4 4 4 -
4.32"
3 . 84F.-02
! 3
69.0
.4:3"
4 . 30"
3.62E-02
12
9 7.0
. 4 : 9«
3.98"
3.69E-02
1 1
132.0
. 400-
4.93*
3.33E-02
10
203.0
.400"
5.23-
3.27E-02
9
2 32. 7
.400"
5.42-
3.24E-02
8
2 62 .4
.400"
5.63-
3.20E-02
7
292. 1
. 4 00*
5.87-
3.15F.-02
6
3 21.8
. 400*
6.39-
3.05E-02
3
3 5 i . b
.400 "
7.14"
2.92E-02
t
3 81.2
.400"
9.13*
2.59E-02
3
410.9
.400*
14.06*
1 . 89E-02
2
4 4 0 .'6
.400*
31.37*
1.46E-03
rear:
Under House
Rn Flux Rn Air Cone.
(pCi/m2s) (pCi/L)
Outdoors
Rn Flux Rn Air Cone.
(pCi/m2s) (pCi/L)
2.17E-01
2.15E-01
3.60E-01
6.03E-01
9.8 IE-CI
1.34E+00
1.89E+00
3.44E+00
1.92Ei00
3.83E-01
1.23E-02
2.93E-C5
6.98E-08
i.67E-10
3.97E-13
9.4 8F- 16
2. 2 6!:-18
0.00E< 00
1.30E+03
1.34E+03
1.42E+03
1.59E+C3
1.84E+ 03
2.26E+03
4.OOE+03
5.13Et 03
7.82E<03
3. 17Ei04
3 . 2 7 E + 0 4
3.2 7Ef04
3 . 2 V E + C 4
3 . 2 7 E < 0 4
3 . 2 E • 0 4
3 . 2 7 i 0 4
0.00Et	00
1.49E+00
1.49E+00
1.53E+00
1.68E+00
1.88E+ 00
2.25E+00
3. 56E + 00
1.	97Ei00
3 . 88E-01
1. 2 3 E - 0 2
2.93E-05
7.00E-08
1	. 67F.-1 0
3. 98F.-1 3
9.50E-16
2	. 27F.-1 8
0.0CE< 00
0.00Et00
1.94E+02
4.55E+02
7 . 85E i- 02
1 .17Ei03
1 . 71E ~ 0 3
3.61E+03
4 . 7 7 E + 0 3
7.52E+03
3 . 1 7E t- 0 4
3.27Ef04
3.27E'04
3.2 7E + 0 4
3.2 .' r. • C 4
3.2:¦:* 04
. /x.2/s
i /;
; /
: /s o!
C . / y v
:k; Yc.-i r:
Unoei
FllJX
r Air Con;
pC:/m2 s)
(pCi/L]
3.15E-0j
0 . 0 0 F» 0 0
3.25E-01
1.93E+ 03
5.48E-0!
1.98E+03
9.20E-01
2.10 E t 0 3
i.49E+00
2.34E+03
2.05E~00
2.69Et 03
2.87E+0C
3.29E+03
5.17E+00
5.58E+03
4.14E+00
6.75Et 03
3. 34E t-00
7 . 6 9 E + 0 3
2. 72E+00
8.48E+03
2.26E+00
9.13Et 03
1.90E+0C
9.70E+03
1.64E+00
1.C2E+04
1.39E+00
1.07E+04
1.OOE+OO
1.14E+04

: .:x
Rn Air Con;
pCi/m2s)
(pCi/L)
0.00E'00
0.00E+C0
2.36Et 00
0.00E t 00
2.37E+00
2. 89E + 02
2.44E+00
6 . 8 5E t- 02
2 . 6 7 E i- 0 0
1 .18E+03
2.99E t 00
1 . 75E+03
3 . 5 7 E -t 0 0
2.54E+03
5 . 5 6E tCO
5.15E+03
4. 44E + 00
6.40E+03
3.57E + 00
7.41E+03
2.90E~00
8.25E< 03
2.38E-00
8. 94E< 03
1.99E< 00
9. 54F.+ 03
1.69E+00
1 .01E)04
1.42E + 00
1.06E+04
1.01E+ 00
1.13E4 C4

-------
1 4 7 0.3
400* 31.69"
6.31E-05*
i . 97E-01 1.80E + 04 1.
* Calculated Defaui
t Values.



Soil Permoability
( O.OOE-^OO input)
= 6.171-;-
03
crr.2 from 1.58E-02 cm particle si
Outdoor Bare-Soil Radon Flux
= 2.3 6E < 00
pel/m2/s
Average Subslab Radon Concentration
181
c .
pC i / L
Radon Concentration Under Slab Crack
1 8 95.
pC i / L
Air Rntry Velocity
in the Slab Crack
= 2.01E-
0 3
cm/sec.
Indoor Radon Concentration
2.
50
pC i / L
Indoor Radon Entry Rat.e
= 6 0
. 7
pCi/s or 1.915 mCi/year
Tirr.e-We i cjhled ANNUAL AVERAGES:



Soi'i T:- . : 6, D-;
3 .1 6E-02cm2/ s ' i<
- 6.1b K-
0B
err, 2
Soil Pe r r.oab i i i t y
( 0.00i>00 inc.::.)
= 6.15E-
08
cm2 from 1.58E-02 cm particle si
Outdoor Bare-Soil Radon Flux
= 1 . 9 2 E'
00
pC i /ir.2 / s
Avoraae Subsiab Radon Concentration
151
9
oCi/L
Radon Concentration Under Slab Crack
1 5 8 8.
pCi /L
Air F.ntry Velocity
in the Slab Crack
- 2.01E-
0 3
cx./sec.
indoor Rc
den Concent rat ; or.
2 .
0 9
pC i / L
Indoor Radon F, nr y R -i e
50
. 8
p C i / s or i . 6 0 .t.C i / y e a r

my, a:::;n
S(: : : ¦.

3 :~ r.i: y f An ¦ Avo r a':e 5


y •
(
... ) ¦ b

l;;:
J1 w: -v

:io;
.,c	 . v {.„?)
r


- I.OOO-OO ft.ib^E-OB
::C . /'rr.2 / :>
3 . D ¦ Z\'.
' . 1
-
j . o j 0 E • 0 0 . . 8 'j : E • 0 0
S-jbs • ac Rn (pCi /L)
2 . 8 4 8 E ' 0 3
i.7 02:
• *
2 2.848E-.03 : . 1 92E+03
-loo: C ra:;"< Radon
2.919E» 03
\ .If, 51
. 3
2 2.919Ef03 1.530E+03
C r n c k A:r Velocity
0 . 0 0 0 E !¦ 0 0
2 . 0 0 7 F
- 'J
3 C.OOOEtCO 2.007E-03
Indoo: Radon , pC7: / (.
3. st'im co
2.29 9;
-0
3 . 8 4 4 E * 0 0 2.C":6E*-C0
Radon i'ntry, pC i / s
9. 325E»01
5 . 5 /«:
. 3
0 9.325Et01 4.890E(01
Rad::r- :• :y, -C i /y
2.911E yCO
1 . 7 b 9 r
- q
i 2.94;Li 00 1.S42E*00

-------
APPENDIX C
RADIUM DATA FROM NURE MEASUREMENTS
Table C-l Statistical Summary of Ra-226 from NURE Aeroradiometric Data.




Geom.





Geom.

'olygon
Statsgo
Geology
No. of
Mean
Geom.
Polygon
Statsgo
Geology
No. of
Mean
Geom.
No.
No.
Class
Points
(pCi/g)
S.D.
No.
No.
Class
Points
(pCi/g)
SJ).
1
32
Tre1
193
0.449
1.694
93
33
dan
31
0.443
1.796
2
20
Tre1
166
0.705
1.609
94
22
Ten
300
0.351
1.870
3
5
To2
29
0.703
1.381
96
23
Tell
11
0.371
1.640
8
1 1
Tci 1
24
0.308
2.530
97
5
To2
6
0.345
1.484
9
6
Ten
21
0.187
2.606
100
21
To2
38
0.413
2.115
10
5
Ten
114
0.484
1.703
101
34
Tre1
13
0.432
1.881
11
5
Tell
140
0.410
1.702
103
4
Tell
59
0.411
1.686
1 3
5
Tre1
1 1
0.454
1.358
105
26
Tci1
45
0.230
3.007
1 4
8
Qal1
693
0.266
2.742
108
57
Tab1
20
0.422
1.529
15
5
To2
43
0.400
2.225
109
15
Tell
26
0.227
3.014
18
34
Tab1
223
0.588
1.627
110
5
To2
11
0.335
2.293
20
21
To2
226
0.397
2.220
112
15
Tell
37
0.359
1.846
22
3
Ten
236
0.591
1.846
114
34
Tre1
221
0.545
1.605
24
5
Tc!1
789
0.343
2.295
115
19
To2
1 1
0.546
1.239
26
4
Tcl1
72
0.544
1.744
116
34
To2
89
0.648
1.507
27
23
Tre1
76
0.530
1.534
120
4
Ten
21
0.405
2.341
28
21
Tell
219
0.344
2.167
122
26
To2
4707
0.350
3.008
31
3
Tell
67
0.509
1.894
128
97
Tell
17714
0.293
2.601
33
5
Tell
160
0.401
2.035
130
53
Tab1
5200
0.341
2.391
36
11
Tell
16
0.442
1.687
131
17
Tell
60
0.319
2.303
37
2
Tell
65
0.238
2.460
133
97
Qal1
2
0.383
1.063
38
1 1
Tell
49
0.357
2.060
134
21
Tell
29
0.340
2.097
40
5
Tell
241
0.357
2.153
135
5
Tab1
36
0.416
1.663
46
1 1
Tcl1
18
0.471
1.618
136
24
Tell
17714
0.293
2.601
49
5
Tell
273
0.390
2.084
137
5
Tell
116
0.325
2.461
50 .
6
Tcl1
73
0.246
2.586
139
26
Tab1
16
0.343
2.631
51
5
Tell
656
0.381
2.025
140
19
Tab1
26
0.231
2.525
54
5
Tell
95
0.395
2.527
141
23
To2
4707
0.350
3.008
57
26
Tcl1
12
0.328
1.892
145
33
Tell
7
0.331
1.602
59
5
Tcl1
106
0.356
2.019
147
24
Tell
111
0.447
1.582
60
16
Tell
185
0.540
1.903
148
24
Tell
84
0.305
2.125
61
24
Tell
19
0.446
1.599
151
2
Tell
17714
0.293
2.601
63
33
Tab1
80
0.268
3.011
156
23
Tab1
135
0.383
1.730
64
21
Tell
130
0.321
2.157
157
23
Tab1
523
0.328
2.274
66
5
Tcl1
341
0.367
2.079
158
5
Tell
208
0.395
1.991
67
24
Tab1
16
0.498
1.437
159
32
To2
150
0.498
1.590
73
32
Tab1
28
0.550
1.395
171
97
Tab1
112
0.332
2.482
75
24
Tell
45
0.291
1.877
173
17
Tell
66
0.321
2.220
76
24
Tell
17714
0.293
2.601
176
5
Tell
37
0.540
1.553
78
5
Tell
135
0.279
2.588
181
17
Tell
96
0.133
3.990
79
24
Tabl
291
0.370
2.066
193
26
Tab1
5200
0.341
2.391
80
24
Tell
183
0.404
1.861
194
5
Tell
44
0.350
2.029
81
26
To2
21
0.290
2.613
197
21
Tell
25
0.257
2.628
82
5
Tell
4
0.290
2.691
198
26
To2
23
0.342
2.394
83
6
Tell
43
0.364
1.692
203
26
Tab1
367
0.303
2.416
85
6
To2
4707
0.350
3.008
207
24
Tell
45
0.435
1.589
89
24
Tell
131
0.543
1.649
208
24
Tci1
18
0.414
2.020
90
26
Tab1
44
0.498
1.628
21 2
23
To2
24
0.579
1.571
92
26
Tcl1
843
0.306
2.303
213
1 7
Tci1
173
0.374
2.098
C-l

-------
Table C-l (continued)
Statistical Summary of Ra-226 from NURE Aeroradiometric Data.




Geom.





Geom.

Polygnn
Statsgo
Geology
No. of
Mean
Geom.
Polygon
Statsgo
Geology
No. of
Mean
Geom.
No.
No.
Class
Points
(pCi/g)
s.n.
No.
No.
Class
Points
(pCi/g)
S.D.
21 5
34
Tre1
56
0.384
1.895
314
34
Tro1
23
0.298
2.623
216
3
Tci1
31
0.279
2.796
315
23
Tre1
859
0.524
1.795
223
17
Tci1
528
0.366
2.089
316
1 7
Tci1
302
0.370
1.867
224
1 1
Trel
22
0.481
1.499
318
21
Tro1
35
0.411
1.857
227
23
T re1
75
0.610
2.012
326
97
To2
9
0.436
1.979
230
17
Tci1
206
0.418
1.845
327
5
Tci1
17714
0.293
2.601
233
5
Tab1
137
0.414
1.779
332
21
Tab1
27
0.295
2.199
235
34
T re1
26
0.277
3.222
334
32
T ro1
4
0.200
3.588
237
21
Tab1
12
0.584
1.455
337
97
Tab1
5200
0.341
2.391
238
21
Qal1
526
0.099
3.818
338
26
Tci1
1 7
0.433
1.977
241
24
Tci 1
265
0.569
1.813
341
1 7
Toil
173
0.393
1.821
242
17
Tab1
24
0.477
1.432
342
18
Tci1
17714
0.293
2.601
243
26
Tab1
25
0.322
1.628
346
34
Tsm1
64
0.571
1.502
246
5
To2
16
0.480
1.476
347
23
Tsm1
50
0.397
1.705
247
1 1
To2
16
0.616
1.349
348
23
Tsm1
93
0.480
1.656
250
26
Tab1
5200
0.341
2.391
349
63
Thccl
61
0.485
1.992
252
23
T ro1
91
0.290
2.719
350
26
T ro1
43
0.512
1.422
254
17
Tci1
156
0.363
2.067
351
1 8
Tci1
32
0.248
2.268
255
21
Tab1
1 9
0.446
1.431
355
34
Tsm1
70
0.578
1.417
256
21
Qal1
43
0.375
1.878
356
1 1
Tsm1
120
0.571
1.758
260
5
Tci1
17714
0.293
2.601
358
25
T ro1
25
0.517
1.555
262
20
T ro1
28
0.547
2.491
361
16
Tci1
32
0.502
2.195
263
33
Toil
25
0.175
3.554
362
16
Tci1
43
0.535
1.677
264
21
Tab1
5200
0.341
2.391
365
21
Tci1
29
0.606
1.596
268
23
T re1
859
0.524
1.795
367
84
Thcd
26
0.998
1.371
272
34
To2
40
0.538
1.535
369
21
Tci1
13
0.289
2.285
275
5
Tci1
35
0.588
1.453
370
21
Tab1
83
0.445
1.936
278
11
Tre1
859
0.524
1.795
371
1 6
Tci1
45
0.465
1.708
280
15
Tci1
17714
0.293
2.601
372
21
Qal1
69
0.331
2.674
281
21
To2
55
0.216
2.724
377
23
Tci1
37
0.537
1.683
282
95
T ro1
46
0.044
3.032
381
97
Tab1
27
0.492
1.494
283
57
Tab1
5200
0.341
2.391
382
97
Tab1
80
0.286
2.638
285
34
Tro1
1 163
0.369
2.423
387
84
Tc1
1782
0.254
2.624
287
5
Tab1
5200
0.341
2.391
388
23
Tab1
164
0.310
2.230
289
97
Tab1
25
0.368
1.512
391
32
Tsm1
441
0.516
1.659
292
23
Tci1
554
0.361
1.999
393
90
Tc1
20
0.484
1.450
293
21
Tro1
1 163
0.369
2.423
394
97
Tab1
47
0.230
2.827
294
23
Tro1
210
0.543
1.775
397
21
Tci1
24
0.651
1.483
297
5
Tci1
51
0.698
1.427
398
22
Tab1
246
0.459
1.912
299
26
Tabl
64
0.283
1.937
399
97
Tab1
60
0.342
1.987
304
26
Tab1
39
0.208
2.297
400
34
Tchatl
409
0.376
2.341
306
1 1
To2
54
0.609
1.917
401
90
Qui
528
0.552
1.924
308
1 7
Tab1
33
0.388
1.645
403
23
Tab1
65
0.276
2.089
309
23
Tci 1
17714
0.293
2.601
407
1 1
Tchatl
409
0.376
2.341
310
1 6
Tci1
17714
0.293
2.601
409
23
Tci1
211
0.195
2.878
31 1
34
To2
6
0.417
2.119
410
21
Tsm1
40
0.435
1.645
C-2

-------
Table C-l (continued)
Statistical Summary of Ra-226 from NURE Aeroradiometric Data.
Geom.	Geom.
Polygon Statsgo Geology No. of Mean Geom.	Polygon Statsgo Geology No. of Mean Geom.
No. No. Class Points CpCi/g) S.D.	No. No. Class Points (pCi/g) S.D.
416
90
Thccl
87
0.602
1.986
558
33
Qall
27
0.533
1.739
421
34
T ro1
19
0.447
1.599
562
26
Qa!1
58
0.128
3.408
423
21
Tab1
5200
0.341
2.391
563
5
Qal1
32
0.365
1.597
425
1 5
Tci1
25
0.452
1.444
564
34
Trm1
32
0.378
1.717
426
32
Tsm1
441
0.516
1.659
565
23
Tabl
5200
0.341
2.391
428
63
Thccl
87
0.602
1.986
569
34
Tchatl
33
0.518
1.790
433
21
Tci1
5
0.640
1.615
580
34
Tci1 .
17714
0.293
2.601
435
34
Tchatl
6
0.450
1.773
591
23
Tci1
138
0.409
2.063
437
26
Tab1
5200
0.341
2.391
595
23
Tci1
74
0.445
1.575
441
34
Tchatl
409
0.376
2.341
598
93
Qui
133
0.622
1.483
448
23
Tabl
2
0.129
6.786
601
25
T rm1
53
0.272
2.101
453
44
Tci1
17714
0.293
2.601
603
1 7
Qal1
1 7
0.465
1.495
454
34
T rol
1163
0.369
2.423
607
85
Qui
171
0.453
1.765
460
23
Tchatl
409
0.376
2.341
608
1 8
Tci1
253
0.272
2.233
464
23
Qal1
3607
0.134
4.141
609
5
Tabl
397
0.317
2.259
468
5
Tabl
54
0.200
3.143
624
29
Tci 1
17714
0.293
2.601
476
34
Tsm1
441
0.516
1.659
633
197
Qh1
210
0.109
3.605
477
23
Tchatl
21
0.372
1.499
635
1 8
Tci 1
17714
0.293
2.601
478
26
Tro1
1163
0.369
2.423
638
34
Tsm1
4
0.545
1.808
481
44
Tabl
10
0.211
2.911
649
23
Tchatl
6
0.544
1.263
487
25
T ro1
20
0.388
2.254
654
23
T rol
1 4
0.495
1.341
490
97
Tabl
24
0.306
1.662
657
86
Qhl
1 0
0.151
2.763
491
21
Tci1
37
0.419
2.124
658
21
Tci1
23
0.241
2.541
492
44
Tci1
399
0.186
2.794
659
97
Tabl
1 2
0.471
1.845
493
3
Tci1
230
0.510
1.779
662
86
Qh1
3834
0.171
3.644
496
83
Thccl
87
0.602
1.986
667
84
Qui
104
0.424
2.347
497
83
Tc1
57
0.472
1.784
671
9
Tci1
74
0.373
2.082
507
23
T ro1
161
0.394
1.794
680
1 3
Qal1
3607
0.134
4.141
511
23
T rol
85
0.289
2.225
682
25
Tchatl
55
0.216
2.882
513
23
Tabl
28
0.340
1.585
684
32
Tro1
1163
0.369
2.423
516
85
Thccl
87
0.602
1.986
692
97
Tro1
30
0.332
2.081
519
29
Tabl
250
0.523
1.945
700
21
Qal1
3607
0.134
4.141
522
5
Tci1
103
0.485
1.734
703
90
Tc1
31
0.420
1.881
526
23
Trml
22
0.284
3.013
708
29
Tci1
17714
0.293
2.601
527
34
T rm1
444
0.288
2.328
722
33
Tabl
5200
0.341
2.391
528
23
T rol
22
0.638
1.412
724
7
Qal1
3607
0.134
4.141
529
21
Qal1
25
0.353
2.106
727
23
Tabl
5200
0.341
2.391
531
23
T rml
133
0.298
2.499
728
1 8
Tabl
5200
0.341
2.391
532
22
Tci1
165
0.400
1.834
740
26
Tabl
82
0.443
1.677
534
32
Tro1
22
0.433
2.074
742
55
Tc i 1
17714
0.293
2.601
535
85
Qui
53471
0.155
3.814
743
20
Tchatl
20
0.451
1.711
540
57
T rol
99
0.315
2.640
744
7
Qal1
26
0.144
3.938
541
23
Tabl
133
0.293
2.109
745
51
Tci1
1 8
0.474
1.476
554
86
Qui
67
0.085
3.550
751
86
Qh1
1 2
0.365
2.332
555
34
T rol
1 30
0.430
1 .752
752
87
Qdl
1 3
0.274
2.839
557
85
Qui
82
0.568
1.703
755
1 3
Qal1
39
0.273
2.605

-------
Table C-l (continued)
Statistical Summary of Ra-226 from NURE Aeroradiometric Data.




Geom.





Geom.

Polygon
Statsgo
Geology
No. of
Mean
Geom.
Polygon
Statsgo
Geology
No. of
Mean
Geom.
No.
No.
Class
Points
(pCi/g)
S.D.
No.
No.
Class
Points
(pCi/g)
s.n.
758
86
Qhl
3834
0.171
3.644
920
50
Tmc1
2711
0.434
2.307
764
85
Tc1
59
0.400
1.830
921
34
Trm1
444
0.288
2.328
766
52
Tmc1
271 1
0.434
2.307
924
1 7
Tc i 1
3
0.397
1.183
769
26
Tab1
261
0.406
2.277
932
50
Tmc1
271 1
0.434
2.307
772
29
Th1
1 54
0.304
2.071
933
30
Trm1
63
0.288
1.623
777
52
Tci 1
452
0.385
2.024
935
84
Qhl
29
0.392
2.461
783
1 7
Qal1
23
0.103
3.867
937
23
Tab1 .
5200
0.341
2.391
785
87
water
31
0.549
3.109
939
50
Th1
131
0.531
2.101
787
57
Tmc1
271 1
0.434
2.307
940
50
Tmc1
37
0.681
1.490
792
52
Tmcl
509
0.267
2.842
943
29
Tci1
17714
0.293
2.601
802
51
Tmc1
2711
0.434
2.307
944
50
Tmc1
140
0.610
1.526
803
38
Tchatl
409
0.376
2.341
94 5
23
Tci1
17714
0.293
2.601
807
18
Qal1
3607
0.134
4.141
946
1 9
Qal1
29
0.146
3.584
817
56
Th1
42
0.374
2.183
950
50
Th2
78
0.487
1.702
819
50
Tme1
271 1
0.434
2.307
955
50
Tmc1
230
0.733
1.392
824
54
Tchatl
24
0.104
3.826
957
97
Tcil
1 7
0.143
2.829
825
17
Tci1
17714
0.293
2.601
959
54
Th1
20
0.686
1.340
829
57
Trm1
1 6
0.267
2.491
962
1 3
Gall
3607
0.134
4.141
831
50
Th1
24
0.342
1.786
967
51
Th1
163
0.294
2.113
835
97
Tsm1
441
0.516
1.659
981
53
Th2
112
0.568
1.437
840
55
Th1
5302
0.319
2.745
990
50
Tmc1
774
0.541
1.655
852
54
Tab1
51
0.214
2.345
991
1 9
Tab1
5200
0.341
2.391
853
23
Tab1
5200
0.341
2.391
994
52
Tmc1
52
0.514
1.566
855
50
Th1
1 3
0.494
1.983
995
26
Trm1
40
0.254
2.695
856
23
Tro1
1 4
0.261
4.089
1003
50
Tmc1
2711
0.434
2.307
858
23
Trml
444
0.288
2.328
1007
50
Th1
98
0.316
2.548
861
20
Tchatl
6
0.088
3.085
1018
38
Th1
113
0.037
2.924
862
50
Tmc1
234
0.451
2.033
1022
30
Tci1
2083
0.139
2.999
865
23
Tab1
5200
0.341
2.391
1024
56
Th1
168
0.446
1.669
874
23
T sm1
441
0.516
1.659
1028
23
Tci1
55
0.545
1.862
879
53
Th1
5302
0.319
2.745
1031
85
Qui
18
0.705
1.286
881
23
Trm1
444
0.288
2.328
1034
23
Tci1
17714
0.293
2.601
883
30
T ro1
1 3
0.356
1.706
1041
53
Th1
36
0.169
3.378
887
57
Th1
5302
0.319
2.745
1042
52
Th1
1 6
0.569
1.588
893
23
Tci1
17714
0.293
2.601
1044
24
Trm1
1 1
0.617
1.328
894
19
Tab1
5200
0.341
2.391
1045
24
Tcil
68
0.423
2.134
898
52
Th1
5302
0.319
2.745
1049
54
T ci 1
17714
0.293
2.601
899
57
Tci 1
1 1
0.465
1.652
1053
56
Th1
8
0.095
4.298
900
34
Tci 1
49
0.396
2.124
1058
50
Tmc2
87
0.397
2.173
901
50
Th1
1 5
0.164
3.091
1064
5
Tci 1
198
0.336
2.359
902
50
Tmc1
2711
0.434
2.307
1069
84
Qui
168
0.350
2.455
906
34
T ro1
1163
0.369
2.423
1077
52
Tmc2
34
0.322
2.014
908
5
Tab1
5200
0.341
2.391
1083
50
Th1
6
0.051
2.842
909
90
Qui
66
0.293
2.791
1084
57
T ro1
29
0.351
2.589
91 1
23
Tchad
89
0.527
1 .593
1087
5
Tab1
1 7
0.352
2.016
917
50
Th1
5302
0.319
2.745
1091
54
Tab1
101
0.402
2.021
C-4

-------
Table C-l (continued)
Statistical Summary of Ra-226 from NURE Aeroradiometric Data.




Creom.





Geom.

Polygon
Statsgo
Geology
No. of
Mean
Geom.
Polygon
Statsgo
Geology
No. of
Mean
Geom.
No.
No.
Class
Points
(pCi/g)
S.D.
No.
No.
Class
Points
(pCi/g)
S.D.
1093
52
Th1
112
0.277
2.335
1302
67
Ts2
7
0.275
2.402
1096
85
Qui
50
0.601
1.466
1303
33
Toil
17714
0.293
2.601
1 109
52
Thl
77
0.451
2.397
1315
67
TH2a
1 7
0.295
1.680
1111
51
Tci1
50
0.270
2.343
1322
81
TH2a
4119
0.262
2.783
1112
84
Qd1
41
0.504
2.791
1328
52
Tmcl
1 5
0.653
1.596
1117
50
Th1
1 7
0.516
1.435
1329
58
TH2a
384
0.148
3.101
1122
49
Th1
41
0.375
1.714
1331
23
Tci1
17714
0.293
2.601
1126
52
Tmc2
34
0.484
1.800
1333
24
Tchatl
21
0.560
1.325
1143
52
Th1
28
0.495
1.669
1334
21
Qal1
3607
0.134
4.141
1144
74
water
473
0.043
3.123
1348
29
Tcil
17714
0.293
2.601
1146
52
Tmc2
55
0.406
2.327
1351
86
Qd1
6
0.359
1.815
1150
13
Tci1
17714
0.293
2.601
1355
72
Ts2
174
0.476
1.958
1159
51
Tmc1
23
0.260
2.407
1357
54
Th1
29
0.404
1.630
1161
52
Th1
1 3
0.577
1.828
1366
50
Tmcl
2711
0.434
2.307
1162
13
Qal1
79
0.083
3.186
1372
23
Tchatl
26
0.269
2.322
1163
23
Tci1
17714
0.293
2.601
1373
38
Th2
18
0.035
2.824
1167
53
Th1
25
0.227
2.249
1374
50
Thl
55
0.455
1.881
1169
26
Tab1
31
0.326
2.227
1380
22
Tci 1
23
0.191
3.121
1170
54
Tmc2
99
0.339
1.934
1383
50
Tmcl
129
0.791
1.423
1173
49
Th1
51
0.335
2.344
1384
52
Th1
5302
0.319
2.745
1 174
86
Qh1
20
0.139
2.544
1387
9
QaI1
3607
0.134
4.141
1177
34
Tchatl
1 7
0.481
1.567
1391
54
Tmcl
2711
0.434
2.307
1183
55
Tmcl
31
0.420
2.170
1395
9
Tcil
17714
0.293
2.601
1184
57
Tchatl
54
0.516
1.626
1398
56
Tci1
11
0.097
3.387
1 187
22
Tci1
193
0.328
2.331
1399
69
TH2a
4119
0.262
2.783
1188
22
Trm1
34
0.265
2.448
1401
6
Tchatl
14
0.477
2.272
1191
30
Tab1
21
0.207
2.642
1404
29
Tab1
5200
0.341
2.391
1208
55
Th1
1
0.634
4.000
1405
22
Tchatl
409
0.376
2.341
1220
4
Tci1
79
0.534
1.550
1409
50
Th1
5302
0.319
2.745
1228
50
Tmc2
980
0.401
2.318
1419
22
T rm1
40
0.227
2.657
1233
55
Tmc2
138
0.307
2.761
1421
67
TH2a
4119
0.262
2.783
1237
55
Th1
51
0.526
1.547
1422
58
TH2a
4119
0.262
2.783
1239
54
Th1
5302
0.319
2.745
1438
49
Th1
1 4
0.281
1.806
1241
65
TH2a
33
0.470
1.984
1441
73
Th1
167
0.419
1.936
1255
54
Tci 1
33
0.349
1.734
1442
67
Th1
5302
0.319
2.745
1264
58
TH2a
79
0.218
2.767
1449
51
Th1
5
0.394
1.669
1265
97
Th1
227
0.232
2.629
1450
6
Qal1
23
0.233
3.709
1266
52
Tmc1
2711
0.434
2.307
1457
81
TH2a
411 9
0.262
2.783
1267
21
Tab1
5200
0.341
2.391
1462
23
Tab1
5200
0.341
2.391
1272
29
Tci 1
17714
0.293
2.601
1469
54
Tab1
5200
0.341
2.391
1279
1 5
Tci1
17714
0.293
2.601
1477
29
Tcil
17714
0.293
2.601
1287
67
TH2a
23
0.435
1.710
1486
87
Qd1
1 3
1.574
1.795
1290
65
TH2a
4119
0.262
2.783
1488
1 4
Qal1
3607
0.134
4.141
1291
29
T ci1
17714
0.293
2.601
1494
1 9
Tcil
37
0.174
2.793
1296
60
TH2a
4119
0.262
2.783
1500
56
Tmcl
271 1
0.434
2.307
1301
86
Qui
53471
0.155
3.814
1505
1 8
Tab1
5200
0.341
2.391
C-5

-------
Table C-l (continued)
Statistical Summary of Ra-226 from NURE Acroradiometric Data.




Geom.





Geom.

Polygon
Statsgo
Geology
No. of
Mean
Geom.
Polygon
Statsgo
Geology
No. of
Mean
Geom.
No.
No.
Class
Points
(pCi/fr)
S.D.
No.
No.
Class
Points
(pCi/g)
S.D.
1512
86
Qui
1 2
0.132
3.655
1678
69
TH2a
105
0.369
2.429
1520
49
Th2
2054
0.352
2.538
1679
55
Tmc2
980
0.401
2.318
1521
58
TH2a
14
0.267
1.632
1682
37
Th1
34
0.216
3.118
1526
5
Th2
12
0.208
5.682
1685
17
Qal1
3607
0.134
4.141
1527
58
QTu1
37
0.075
3.237
1686
86
Qh1
1 5
0.061
3.017
1530
86
Qh1
197
0.180
2.904
1689
9
Tci 1
322
0.356
2.171
1539
50
Th1
16
0.513
1.553
1691
55
Th1
36
0.145
3.944
1544
69
TH2a
196
0.188
2.837
1695
37
T mc2
980
0.401
2.318
1545
70
TH2a
4
0.583
1.356
1702
25
Tci1
1 56
0.386
2.045
1549
1 3
Qai1
137
0.228
2.590
1703
7
T ci 1
17714
0.293
2.601
1 555
51
Tci 1
58
0.136
2.779
1706
55
Tme1
76
0.337
2.398
1559
54
Th1
58
0.376
2.117
1708
50
Th1
1 8
0.333
2.018
1577
22
Tci1
71
0.166
3.257
1710
30
Tab1
36
0.039
2.948
1579
23
Tci1
17714
0.293
2.601
1722
14
Qall
70
0.048
3.479
1580
1 8
Tei1
89
0.131
2.715
1725
55
Th1
36
0.131
3.975
1582
30
Tab1
5200
0.341
2.391
1726
62
TH2a
25
0.081
3.555
1 583
56
Th1
5302
0.319
2.745
1739
70
Ts2
34
0.625
1.425
1586
49
Th1
5302
0.319
2.745
1742
56
Th2
28
0.280
2.464
1587
86
Qh1
3834
0.171
3.644
1745
33
Tab1
17
0.299
2.299
1595
5
Qal1
31
0.128
2.980
1747
17
Tab1
78
0.064
3.092
1596
1 9
Tci1
17714
0.293
2.601
1748
83
Tc1
37
0.271
2.664
1597
62
QTu1
648
0.066
3.248
1757
50
Th1
265
0.540
2.006
1599
38
Th1
5302
0.319
2.745
1758
69
TH2a
87
0.191
2.789
1603
54
Tmc1
2711
0.434
2.307
1759
86
Qhl
1 9
0.136
2.533
1604
1 7
Tci 1
24
0.382
2.088
1760
21
Tci1
32
0.318
2.820
1606
58
QTu1
1809
0.213
2.922
1768
56
Th1
34
0.347
2.397
1607
1 8
Qui
53471
0.155
3.814
1782
55
Th1
33
0.320
2.515
1610
52
Tmc1
2711
0.434
2.307
1785
7
Th1
63
0.197
3.306
1611
73
Tmc2
43
0.479
1.737
1786
25
Tab1
70
0.562
1.405
1615
29
Tci1
17714
0.293
2.601
1789
49
Th1
32
0.120
3.411
1619
52
Tei1
120
0.137
3.020
1792
38
Th1
42
0.281
3.194
1621
85
Qui
59
0.793
1.482
1793
67
TH2a
72
0.229
2.273
1623
72
TH2a
210
0.249
2.615
1794
54
Tmc1
53
0.488
1.917
1625
29
Tci1
74
0.230
2.125
1810
81
Qui
406
0.569
1.734
1626
62
QTu1
27
0.120
2.576
1813
1 7
T ci 1
91
0.072
3.060
1630
25
Tci1
56
0.477
1.508
181 9
50
Th1
46
0.769
1.536
1637
30
Tab1
2
0.425
1.633
1820
86
Qh1
53
0.142
4.154
1638
55
Th1
55
0.322
2.382
1836
20
Tab1
86
0.344
3.089
1651
54
Th1
64
0.561
1.689
1849
27
Tci 1
1 1
0.215
1.923
1652
33
Tchatl
1 7
0.345
1.703
1855
69
TH2a
31
0.184
2.321
1660
50
Th2
2054
0.352
2.538
1856
52
T ci 1
29
0.299
2.288
1661
52
Tmc2
1 3
0.125
3.497
1 860
62
TH2a
82
0.220
3.235
1662
49
Th1
252
0.286
2.746
1872
54
Tmc1
1 0
0.592
1.655
1664
37
Th1
53
0.108
3.880
1874
7
Tci 1
1 5
0.526
1.467
1675
86
Qui
20
0.511
2.525
1875
27
Tci 1
1 771 4
0.293
2.601
1677
1 9
Qal1
3607
0.134
4.141
1877
67
Tmc2
69
0.455
1.892
C-6

-------
Table C-l (continued)
Statistical Summary of Ra-226 from NURE Aeroradiometric Data.




Gvora.





Geom.

Polygon
Statsgo
Geology
No. of
Moan
Geom.
Polygon
Statsgo
Geology
No. of
Mean
Geom.
No.
No.
Class
Points
(pCi/g)
S.D.
No.
No.
Class
Points
(pCi/g)
S.D.
1881
67
Th1
137
0.714
1.487
2078
1 97
water
5995
0.069
3.708
1892
98
Tci1
17714
0.293
2.601
20B5
1 3
Qal1
35
0.035
2.813
1897
6
Tab1
95
0.262
3.497
2088
1 7
Tab1
6
0.091
3.766
1898
1 8
Qui
53471
0.155
3.814
2103
1 8
Tci 1
17714
0.293
2.601
1 911
27
Toil
47
0.270
2.303
2104
50
Tci 1
235
0.090
3.120
1915
26
Tci 1
1 2
0.251
2.343
2105
54
Th1
5
0.512
1.297
1921
49
Th2
8
0.067
2.818
2108
23
Tci 1 .
17714
0.293
2.601
1 932
54
Th1
1
0.434
4.000
2126
27
Tci 1
17714
0.293
2.601
1937
7
Tci1
17714
0.293
2.601
2129
29
Tci1
17714
0.293
2.601
1943
30
Tab1
6
0.072
2.701
2133
37
Th1
5302
0.319
2.745
1947
1 4
Qal1
6
0.262
1.838
2135
84
QTu1
99
0.331
2.184
1952
1 9
Tmc2
1 1
0.098
3.796
2143
37
Th1
5302
0.319
2.745
1957
65
Qui
53471
0.155
3.814
2144
50
Tmc2
44
0.486
1.481
1 964
9
QaI1
3607
0.134
4.141
2148
56
Th1
1 1
0.075
3.169
1967
29
Tab1
29
0.211
3.227
2160
24
Tci1
17714
0.293
2.601
1969
50
Th1
5302
0.319
2.745
2161
7
Tci1
1 5
0.222
2.477
1972
20
Qal1
41
0.613
1.554
2162
28
Tc i 1
17714
0.293
2.601
1980
9
Qui
53471
0.155
3.814
2165
26
Tabl
5200
0.341
2.391
1982
58
TH2a
20
0.216
2.646
2168
35
Th1
46
0.590
1.502
1983
56
Th1
5302
0.319
2.745
2171
33
Tabl
57
0.317
2.145
1991
54
Tmc1
1 4
0.355
1.707
2176
1 3
Tci1
17714
0.293
2.601
1994
55
Th1
5302
0.319
2.745
2177
49
Th1
5302
0.319
2.745
1995
55
Tmc1
2711
0.434
2.307
2187
30
Tabl
22
0.248
3.057
1997
5
Tmc1
2711
0.434
2.307
2190
67
Qui
16
0.522
1.602
2002
1 9
Tmc2
980
0.401
2.318
2191
1 9
Qal1
3607
0.134
4.141
2005
1 9
Th1
5302
0.319
2.745
2198
96
Tme1
8
0.467
1.951
2011
84
Qui
230
0.343
2.610
2202
50
Tmc1
5
0.093
4.859
2012
67
Qui
165
0.448
1.918
2203
1 9
Qal1
1 8
0.029
2.407
2016
67
Tmc2
66
0.736
1.623
2218
37
Tmc2
980
0.401
2.318
2020
62
QTuI
6990
0.252
3.085
2223
86
Qh1
1 4
0.279
2.519
2021
50
Tci1
162
0.099
3.043
2224
30
Tci 1
56
0.343
2.247
2025
49
Th1
5302
0.319
2.745
2229
1 2
Qui
53471
0.155
3.814
2028
51
Tci1
17714
0.293
2.601
2231
67
TH2a
4119
0.262
2.783
2033
84
Qh1
1 1
0.674
1.364
2240
20
Tci1
160
0.439
1.978
2038
85
Tc1
9001
0.244
2.958
2244
84
Qh1
4
0.657
1.306
2047
49
Th1
1 7
0.270
1.878
2245
28
Qui
53471
0.155
3.814
2049
58
TH2a
4119
0.262
2.783
2247
27
Qui
53471
0.155
3.814
2053
67
TH2a
11 4
0.367
2.261
2255
51
Tmc1
1 6
0.251
1.829
2055
37
Th1
5302
0.319
2.745
2258
2.1
Th1
5302
0.319
2.745
2057
52
Tmc2
980
0.401
2.318
2259
90
Qui
9
0.311
3.294
2061
50
Tmc1
4
0.908
1.448
2264
17
T ci 1
17714
0.293
2.601
2062
96
Th1
5302
0.319
2.745
2277
87
Qh1
6
0.472
1.446
2065
21
Qal1
3607
0.134
4.141
2278
50
Th1
5302
0.319
2.745
2066
7
Tci 1
1 7
0.210
2.996
2281
1 3
Qal1
3607
0.134
4.141
2067
5 5
Tmci
7
0.576
1.428
2282
24
Tci 1
17714
0.293
2.601
2069
51
Tci1
1 4
0.103
2.747
2283
35
Tmc1
271 1
0.434
2.307
C-
7

-------
Table C-l (continued)
Statistical Summary of Ra-226 from NURE Aeroradiometric Data.




Geoia





Geom.

Polygon
Statsgo
Geology
No. of
Mean
Geom.
Polygon
Statsgo
Geology
No. of
Mean
Geom.
No.
No.
Class
Points
(pCi/g)
s.n.
No.
No.
Class
Points
(pCi/g)
S.D.
2289
49
Tmc2
980
0.401
2.318
2497
96
Th1
57
0.727
1.585
2297
51
Tci 1
1 5
0.117
2.978
2502
87
Qd1
1 4
1.466
1.828
2301
55
Tmc1
20
0.289
2.556
2507
50
Tmc2
79
0.467
2.011
2304
24
T ci 1
8
0.182
2.228
2508
37
Th1
46
0.383
2.260
2310
97
Tci 1
17714
0.293
2.601
2510
50
Tmc2
147
0.453
2.464
2319
9
Tci1
17714
0.293
2.601
2512
30
Th1
1 9
0.351
1.762
2325
28
Tci1
38
0.177
2.859
2513
27
Tci 1 ¦
81
0.435
1.548
2328
50
Tmc1
2711
0.434
2.307
2520
38
Th1
100
0.128
3.434
2331
23
Tci1
6
0.365
1.484
2521
30
Qui
231
0.199
2.715
2332
1 9
Th1
299
0.199
3.027
2537
27
Tci 1
127
0.132
3.124
2347
28
Tci 1
48
0.263
2.346
2540
85
Tc1
59
0.525
1.614
2349
9
Tci 1
17714
0.293
2.601
2552
67
Qui
43
0.362
1.850
2353
69
TH2a
117
0.248
2.553
2563
1 3
Qa!1
3607
0.134
4.141
2357
98
Tci1
42
0.106
3.157
2568
73
Qui
232
0.421
1.949
2365
37
Tmc1
2711
0.434
2.307
2576
44
Tci1
54
0.138
3.111
2372
50
Th1
21
0.399
1.595
2577
56
Th1
155
0.214
2.417
2374
23
Tci 1
17714
0.293
2.601
2578
87
Qui
11
0.549
2.115
2376
33
Tcl1
39
0.092
3.033
2580
28
Qui
53471
0.155
3.814
2380
37
Th1
5302
0.319
2.745
2583
35
Tmc1
93
0.338
2.051
2384
37
Tmc2
11
0.437
1.666
2584
28
Tci1
17
0.118
2.886
2387
1 2
Qui
53471
0.155
3.814
2585
29
Tjb1
1 9
0.169
3.085
2392
90
Qui
8
0.432
1.499
2591
28
Tci1
17714
0.293
2.601
2395
7
Qall
22
0.081
3.694
2593
76
TH2a
106
0.268
2.353
2399
37
Th1
1 1
0.659
1.316
2595
18
Qui
53471
0.155
3.814
2400
28
Qui
53471
0.155
3.814
2601
69
TH2a
31
0.301
1.897
2406
35
Tmc1
2711
0.434
2.307
2608
67
Th1
24
0.696
1.614
2414
9
Tci1
17714
0.293
2.601
2609
14
Qal1
3607
0.134
4.141
2415
27
Qui
53471
0.155
3.814
2612
7
Qui
53471
0.155
3.814
2418
51
Th1
25
0.264
2.403
2622
69
TH2a
1
0.067
4.000
2419
68
TH2a
144
0.533
2.160
2628
98
Tc i 1
1 5
0.076
3.743
2422
55
Tmc1
1 7
0.290
1.474
2630
76
TH2a
262
0.205
2.469
2424
86
Qh1
21
0.292
2.499
2640
50
Tjb1
1 9
0.105
2.575
2426
50
Tmc2
980
0.401
2.318
2649
1 9
Qui
53471
0.155
3.814
2436
1 8
Qui
53471
0.155
3.814
2650
21
Tmc1
1 6
0.068
2.212
2437
23
Tci1
22
0.305
1.658
2662
5
Tmc1
52
0.459
1.579
2448
97
Tmc2
17
0.684
1.700
2663
43
Tab1
31
0.245
3.890
2451
27
Tci1
90
0.190
2.423
2667
56
Tjb1
551
0.178
2.855
2456
73
Th1
160
0.566
1.695
2668
44
Tmc1
12
0.694
1.334
2457
65
Qui
1 9
0.480
1.639
2672
58
TH2a
552
0.214
2.717
2462
1 2
Qui
53471
0.155
3.814
2673
44
Th1
8
0.338
1.917
2465
1 9
Th1
25
0.358
2.127
2679
50
Tmc1
5
0.811
1.303
2474
1 3
Tci1
17714
0.293
2.601
2693
51
Tci1
17714
0.293
2.601
2488
74
water
132
0.042
2.934
2700
36
T ci 1
149
0.115
2.998
2489
1 9
Tci1
17714
0.293
2.601
2701
62
QTu1
63
0.110
3.367
2490
52
Th1
5302
0.319
2.745
2722
50
Tmc1
31
0.088
3.397
2496
24
Tci1
10
0.113
2.557
2728
98
Qal1
3607
0.134
4.141
C-
8

-------
Table C-l (continued)
Statistical Summary of Ra-226 from NURE Aeroradiometric Data.
Ueom.	Geom.
Polygon Statsgo Geology No. of Mean Geom.	Polygon Statsgo G«ology No. of Mean Geom.
No. No. Class Points (pOi/g) S.D.	No. No. Class Points (pCi/g) S.D.
2737
1 2
2743
49
2766
1 9
2770
1 2
2774
77
2786
55
2788
23
2791
67
2798
67
2806
60
2813
1 3
2816
13
2823
51
2825
37
2831
23
2863
19
2866
43
2868
87
2872
25
2880
197
2887
35
2890
27
2894
98
2895
50
2898
28
2904
98
2912
69
2914
49
2918
1 3
2930
1 7
2935
27
2939
67
2940
50
2946
25
2950
98
2952
28
2955
67
2957
50
2960
36
2966
49
2972
88
2974
50
2985
30
2986
35
2991
30
2992
37
Qui
53471
Th1
214
Qal1
3607
Qui
53471
TH2a
4119
Th1
5302
Tci1
1 1
Qui
311
Ts2
5077
QTu1
27
Qui
53471
Qal1
3607
Tmc1
1 8
Th1
2
Tab1
81
Th1
5302
Qal1
765
Qh1
3834
Qui
6
Qui
61
Qui
301
Qui
47
Tci1
9
Th1
5302
Tci1
17714
Tci1
17714
Qui
8
Th1
47
Qal1
30
Tci1
17714
Qui
53471
Qui
53471
Th1
1 0
Tab1
2
Qui
53471
Qui
131
Ts2
1 9
Tmc2
980
Tme1
17
Th1
5302
Qui
53471
Th1
5302
Qd1
259
Qd1
100
Qui
42
Tci1
17714
0.155	3.814
0.276	2.135
0.134	4.141
0.155	3.814
0.262	2.783
0.319	2.745
0.394	2.061
0.412	2.109
0.352	2.652
0.453	1.810
0.155	3.014
0.134	4.141
0.112	2.474
0.504	1.384
0.450	1.701
0.319	2.745
0.142	4.481
0.171	3.644
0.137	3.419
0.166	3.164
0.076	3.048
0.079	3.279
0.117	3.001
0.319	2.745
0.293	2.601
0.293	2.601
0.891	1.286
0.214	3.302
0.148	3.112
0.293	2.601
0.155	3.814
0.155	3.814
0.570	1.231
0.094	4.351
0.155	3.814
0.128	2.940
0.813	2.584
0.401	2.318
0.100	3.260
0.319	2.745
0.155	3.814
0.319	2.745
0.200	2.318
0.057	3.011
0.102	2.919
0.293	2.601
2995	12
2998	67
3004	62
3010	37
3036	74
3037	12
3038	9
3040	31
3046	37
3050	49
3053	12
3055	77
3056	7
3057	88
3058	7
3060	37
3066	4 4
3067	4 3
3072	67
3077	98
3079	30
3082	28
3086	37
3093	86
3099	98
3107	13
3108	98
3109	98
3118	44
3122	77
3123	9
3127	98
3129	30
3134	77
3137	51
3150	37
3163	13
3168	74
3175	67
3177	44
3180	13
3182	12
3183	28
3184	10
3185	28
3196	78
Qui
53471
Qui
53471
QTu1
6990
Th1
29
Qh1
3834
Qui
69
Qh1
3834
Qui
53471
Tmc1
2711
Th1
5302
Qh1
3834
Ts2
5077
Qal1
1 0
Qui
6
Tjb1
59
Tci1
167
Qui
68
Th1
122
TH2a
40
Qui
20
Qui
9
Tci1
1 2
Tmc1
1 7
Qh1
3834
Tab1
1 4
Qh1
3834
Qui
53471
Qall
1 4
Th1
30
TH2a
6
Qbd1
10491
Qal1
31
Th1
109
Qui
20
Tjb1
24
Tjb1
203
Qbd1
1 54
Qh1
3834
Ts2
5077
Qd1
143
Qui
105
Qbd1
37
Qui
133
Qh1
66
Qui
53471
TH2a
1 2
0.155	3.814
0.155	3.814
0.252	3.085
0.212	2.365
0.171	3.644
0.134	2.965
0.171	3.644
0.155	3.814
0.434	2.307
0.319	2.745
0.171	3.644
0.352	2.652
0.115	3.491
0.676	1.510
0.291	2.166
0.231	2.297
0.178	2.639
0.263	2.805
0.219	2.322
0.091	2.817
0.101	2.988
0.292	1.734
0.088	3.195
0.171	3.644
0.197	3.336
0.171	3.644
0.155	3.814
0.094	3.174
0.136	2.613
0.073	3.649
0.106	3.846
0.188	2.427
0.301	2.292
0.485	1.867
0.399	1.527
0.161	2.711
0.077	3.407
0.171	3.644
0.352	2.652
0.104	3.199
0.107	3.479
0.089	3.106
0.153	2.741
0.068	3.217
0.155	3.814
0.268	1.747
C- 9

-------
Table C-l (continued)
Statistical Summary of Ra-226 from NURE Aeroradiometric Data.




Geom.





Geom.

Polygon
Statsgo
Geology
No. of
Mean
Geom.
Polygon
Statsgo
Geology
No. of
Mean
Geom.
No.
No.
Class
Points
(pCi/g)
SD.
No.
No.
Class
Points
(pCi/g)
S.D.
3198
36
Tjb1
37
0.181
3.118
3493
87
Qh1
1 7
0.423
3.017
3201
78
Qui
85
0.485
1.938
3499
1 3
Qui
53471
0.155
3.814
3206
37
Th1
61
0.597
1.547
3507
89
Qui
21
0.542
1.668
3209
28
Qui
350
0.090
3.408
3508
1 9
Th1
1 5
0.298
2.621
3212
50
Qui
81
0.326
2.445
3510
50
Tmc1
46
0.554
1.833
3217
86
Qh1
78
0.260
2.683
3516
20
Qui
53471
0.155
3.814
3222
77
Qui
748
0.397
2.187
3519
25
Qui
358
0.383
2.003
3224
30
Qui
4
0.125
4.107
3522
77
TH2a
26
0.415
1.513
3225
1 0
Qh1
40
0.191
3.173
3524
19
Qui
53471
0.155
3.814
3227
1 3
Qui
69
0.159
2.890
3525
36
Tjbl
551
0.178
2.855
3230
50
Th1
151
0.799
1.357
3527
37
Tjb1
551
0.178
2.855
3238
23
Qui
28
0.370
1.804
3528
84
Qb1
5
0.212
2.974
3250
7
Qui
53471
0.155
3.814
3532
37
Qui
11 2
0.232
2.586
3256
31
Qal1
27
0.663
1.740
3535
37
Qui
23
0.291
2.137
3286
60
Tc1
27
0.621
1.469
3536
44
Qui
35
0.238
2.545
3299
27
Qui
53471
0.155
3.814
3543
49
Th1
1 9
0.369
2.613
3307
25
Qui
166
0.591
1.764
3551
1 9
Qui
368
0.159
3.119
3318
76
TH2a
116
0.231
2.853
3556
10
water
1 3
0.082
3.250
3332
12
Qbd1
146
0.085
3.324
3558
40
Qd1
35
0.127
3.446
3337
50
Th1
35
0.269
3.000
3564
39
Qd1
43
0.092
2.957
3341
37
Th1
37
0.300
2.159
3566
39
Qui
598
0.062
3.018
3343
35
Th1
21
0.495
1.808
3567
28
Qui
31 1
0.103
3.308
3355
67
Qui
368
0.482
2.001
3568
62
QTu1
6990
0.252
3.085
3357
53
Th1
24
0.578
1.392
3569
49
Qui
53471
0.155
3.814
3364
B8
Qui
53471
0.155
3.814
3576
37
Qui
53471
0.155
3.814
3376
87
Qh1
8
0.566
1.343
3577
1 3
Qui
53471
0.155
3.814
3383
2B
Qui
53471
0.155
3.814
3587
1 2
Qbd1
17
0.074
3.038
3388
67
TH2a
61
0.247
2.607
3591
53
Qui
53471
0.155
3.814
3389
1 9
Th1
27
0.247
2.394
3592
50
Tmc1
2711
0.434
2.307
3395
58
TH2a
72
0.175
2.695
3596
23
Qui
53471
0.155
3.814
3397
30
Qui
24
0.125
3.145
3597
49
Th1
1 1
0.634
1.363
3399
1 3
Qui
57
0.119
2.774
3598
85
Tc1
75
0.542
1.694
3402
62
TH2a
120
0.104
3.295
3599
35
Qui
53471
0.155
3.814
3419
28
Qui
39
0.220
2.413
3604
50
Tmc1
2711
0.434
2.307
3421
44
Qui
53471
0.155
3.814
3606
69
TH2a
33
0.403
1.862
3423
87
Qui
56
0.332
2.443
3609
98
Qui
53471
0.155
3.814
3428
1 9
Thl
31
0.487
1.860
3612
40
Qui
53471
0.155
3.814
3431
25
Tci1
50
0.481
1 .418
3616
60
QTu1
1 2
0.486
2.492
3435
1 3
Qui
1 5
0.138
3.328
3620
1 2
Qui
53471
0.155
3.814
3440
81
Tc1
600
0.384
2.132
3624
1 9
Qui
33
0.157
2.049
3452
27
Qui
26
0.088
3.120
3626
58
TH2a
4119
0.262
2.783
3455
27
Qui
43
0.068
3.362
3628
3 1
Qal1
3607
0.134
4.141
3456
7
Qal1
23
0.202
3.007
3631
30
Qui
53471
0.155
3.814
3470
69
TH2a
45
0.725
1.588
3633
84
Qh1
3834
0.171
3.644
3473
58
QTu1
66
0.191
2.837
3635
1 9
Qui
53471
0.155
3.814
3481
49
Qui
11 1
0.292
2.565
3639
97
Qui
53471
0.155
3.814
C-10

-------
Table C-l (continued)
Statistical Summary of Ra-226 from NXJRE Aeroradiometric Data.




Geom.





Geom.

Polygon
Statsgo
Geology
No. of
Mean
Geom.
Polygon
Statsgo
Geology
No. of
Mean
Geom.
No.
No.
Class
Points
(pCi/g)
S.D.
No.
No.
Class
Points
(pCi/g)
S.D.
3643
1 2
Qbd1
35
0.131
3.089
3872
69
TH2a
105
0.380
2.723
3657
84
QTu1
240
0.427
1.994
3880
1 9
Qui
53471
0.155
3.814
3660
77
TH2a
4119
0.262
2.783
3884
83
QTu1
150
0.270
2.448
3673
17
Qui
53471
0.155
3.814
3885
87
Qh1
3834
0.171
3.644
3676
33
Qal1
9
0.632
1.278
3887
1 3
Qui
108
0.087
3.239
3679
60
Tc1
9001
0.244
2.958
3889
48
Ts2
120
0.529
2.146
3682
91
Qui
112
0.185
2.905
3895
49
Qui
49
0.163
2.599
3683
40
Qui
53471
0.155
3.814
3897
48
Qui
53471
0.155
3.814
3685
40
Ts1
46
0.065
2.746
3903
1 0
Qh1
6
0.162
3.367
3687
44
Qd1
2879
0.148
3.736
3915
40
Ts2
607
0.264
2.397
3696
49
Tmc2
33
0.219
2.325
3919
49
Qui
1 6
0.127
2.164
3697
1 3
Qui
53471
0.155
3.814
3920
1 9
Qui
53471
0.155
3.814
3702
76
TH2a
4119
0.262
2.783
3921
1 3
Qui
53471
0.155
3.814
3709
39
Qui
193
0.175
2.675
3922
1 3
Qui
53471
0.155
3.814
3715
36
Qui
783
0.224
3.404
3925
77
Ts2
5077
0.352
2.652
3718
44
Qui
53471
0.155
3.814
3930
27
Qui
53471
0.155
3.814
3722
69
Ts2
5077
0.352
2.652
3938
62
QTu1
8
0.145
2.540
3724
33
Qui
1 4
0.467
1.665
3945
1 9
Qui
8
0.064
3.201
3725
39
Tjb1
1 1
0.141
2.249
3948
40
Qui
53471
0.155
3.814
3729
83
Qtr1
20
0.262
2.702
3949
27
Qui
195
0.160
3.255
3730
76
TH2a
4119
0.262
2.783
3952
36
Qui
21
0.322
2.336
3731
69
TH2a
4119
0.262
2.783
3953
42
Tsm2
190
0.169
3.099
3740
49
Qui
53471
0.155
3.814
3955
40
Tsm2
121
0.238
2.483
3743
62
QTu1
34
0.532
2.063
3957
88
Qui
73
0.542
1.937
3747
44
Tsm2
24
0.227
2.499
3972
85
Qtr1
48
0.431
1.645
3748
40
Qui
1 59
0.052
3.015
3986
93
Tc1
9001
0.244
2.958
3754
93
Qui
5
0.293
5.144
3988
84
Qui
53471
0.155
3.814
3756
1 3
Qui
53471
0.155
3.814
3994
69
TH2a
24
0.630
2.569
3768
93
Qui
46
0.370
2.896
3997
99
Qui
114
0.150
3.253
3771
31
Qui
70
0.787
1.380
3999
76
TH2a
106
0.391
2.149
3776
68
Qui
48
0.321
1.789
4000
78
TH2a
119
0.545
2.163
3782
40
Qui
105
0.169
2.624
4001
74
water
582
0.037
2.952
3785
1 9
Th1
5302
0.319
2.745
4005
28
Qui
53471
0.155
3.814
3791
10
Qui
53471
0.155
3.814
4007
40
Qui
94
0.130
3.157
3795
22
Qui
80
0.699
1.507
4020
1 3
Qui
47
0.326
2.224
3802
40
Tsm2
37
0.066
3.253
4025
80
Qui
71
0.402
2.126
3803
1 4
Qui
7
0.170
2.287
4029
49
Qui
53471
0.155
3.814
3806
1 3
Qui
53471
0.155
3.814
4032
27
Qui
32
0.057
3.294
3810
93
Qh1
3834
0.171
3.644
4036
84
Qui
1 2
0.240
2.670
3815
1 9
Qa!1
3607
0.134
4.141
4037
44
Qui
53471
0.155
3.814
3833
28
Qui
53471
0.155
3.814
4043
37
Qui
47
0.325
2.205
3839
67
TH2a
75
0.421
2.103
4044
40
Qui
103
0.086
3.230
3843
37
Qui
53471
0.155
3.814
4050
69
TH2a
1 6
0.374
3.096
3845
76
TH2a
4119
0.262
2.783
4052
40
Ts2
32
0,043
2.972
3849
37
Th1
5302
0.319
2.745
4054
1 9
Qui
33
0.276
1.940
3852
93
Qh1
3834
0.171
3.644
4058
36
Qui
1 153
0.068
4.056
C-ll

-------
Table C-l (continued)
Statistical Summary of Ra-226 from NTJRE Aeroradiometric Data.




Geom.





Geom.

Polygon
Statsgo
Geology
No. of
Me eu»
Geom.
Polygon
Statsgo
Geology
No. of
Mean
Geom.
No.
No.
Class
Points
(pCi/g)
. S.D.
No.
No..
Class
Points
'pCi/g)
S.D.
4059
1 9
Qui
26
0.074
3.066
4189
40
Qui
39
0.095
3.117
4060
75
TH2a
118
0.374
1.911
4190
27
Qui
1 1
0.337
1.953
4062
27
Qui
53471
0.155
3.814
4192
95
Qa!1
1 6
0.065
3.299
4066
40
Qui
37
0.086
3.239
4196
93
Qui
53471
0.155
3.814
4069
1 9
Qui
26
0.137
2.852
4200
81
QTu1
2050
0.433
2.100
4070
40
Qui
883
0.236
2.331
4201
31
Qal1
4
1.058
1.303
4073
14
Qui
7
0.031
2.483
4204
31
Qui
40
0.583
1.807
4075
81
Qui
33
0.744
1.630
4210
37
Qui
30
0.621
1.423
4079
45
Ts2
53
0.173
3.387
4213
1 4
Qui
53471
0.155
3.814
4084
78
Qui
1 1
0.429
1.724
4214
39
Qui
1 26
0.267
2.827
4093
93
Qh1
3834
0.171
3.644
4216
28
Qui
173
0.228
2.586
4095
43
Tjb1
38
0.178
3.129
4217
78
TH2a
1 7
0.526
1.673
4099
45
Tsm2
421
0.145
3.166
4219
1 3
Qui
2
0.153
1.821
4102
67
Qui
8
0.715
1 .244
4223
31
Qui
1 3
0.879
1.345
4104
39
Qui
22
0.035
2.819
4224
1 9
Qui
53471
0.155
3.814
4107
1 9
Qui
100
0.042
2.768
4225
37
Qui
33
0.203
2.746
4109
88
Qui
53471
0.155
3.814
4227
78
Qui
53471
0.155
3.814
4110
1 9
Qui
21
0.505
1.573
4230
1 9
Qui
38
0.059
2.962
4111
84
Qui
53471
0.155
3.814
4232
39
Qui
53471
0.155
3.814
4121
44
Qui
53471
0.155
3.814
4234
43
Qui
21
0.955
1.403
4122
62
QTu1
40
0.335
3.095
4238
40
Tjbl
42
0.194
2.863
41 25
33
Gall
3607
0.134
4.141
4239
105
Qhl
3834
0.171
3.644
4128
77
Qui
45
0.292
2.526
4241
67
TH2a
90
0.495
1.742
4130
83
TH2a
4119
0.262
2.783
4242
45
Ts2
14
0.435
1.679
4 1 32
69
TH2a
4119
0.262
2.783
4243
82
QTu1
20
0.231
2.243
4133
40
Qui
53471
0.155
3.814
4245
62
QTu1
27
0.056
3.493
4136
40
Qui
53471
0.155
3.814
4246
84
QTu1
7
0.330
2.004
4137
1 9
Qui
53471
0.155
3.814
4247
67
Qui
188
0.422
2.080
4141
40
T sm2
1 1
0.421
1.515
4248
78
TH2a
91
0.394
2.075
4144
1 8
Qui
53471
0.155
3.814
4249
37
Qui
1 9
0.149
3.436
4145
91
Qui
53471
0.155
3.814
4250
36
Qui
1519
0.100
5.433
4147
91
Qui
1 9
0.395
2.397
4251
106
Qh1
23
0.604
1.431
4151
62
TH2a
4119
0.262
2.783
4252
94
QTu1
6990
0.252
3.085
4152
27
Qui
53471
0.155
3.814
4255
91
Qui
43
0.706
1.515
41 58
93
Qui
322
0.254
3.003
4257
28
Qui
1 7
0.064
3.178
4161
84
Qui
10
0.380
1.994
4260
84
Qtr 1
683
0.414
2.114
4162
40
Qui
580
0.077
3.253
4261
1 3
Qui
53471
0.155
3.814
4167
1 9
Qui
134
0.269
2.685
4262
1 9
Qui
4
0.078
4.528
4169
40
Qui
53471
0.155
3.814
4271
62
QTu1
134
0.277
2.862
4172
1 3
Qh1
1 1
0.255
2.730
4274
1 3
Qui
55
0.192
2.705
4173
69
TH2a
4119
0.262
2.783
4276
46
Tsm2
49
0.094
3.445
4175
40
T sm2
121
0.180
2.707
4277
1 3
Qui
53471
0.155
3.814
4176
78
TH2a
4119
0.262
2.783
4278
39
Tjbl
49
0.124
3.355
4179
72
To2a
505
0.569
1.709
4283
69
TH2a
37
0.580
1.743
4180
45
Tsm2
66
0.154
2.862
4284
36
Qui
50
0.408
1.689
4184
37
Qui
113
0.438
2.208
4285
1 9
Ts2
28
0.190
2.705
C-12

-------
Table C-l (continued)
Statistical Summary of Ra-226 from NURE Aeroradiometric Data.




Geom.





Geom.

Polygon
Statsgo
Geology
No. of
Mean
Geom.
Polygon
Statsgo
Geology
No. of
Mean
Geom.
No.
No.
Class
Points
(pCi/g)
S.D.
No.
No;
Class
Points
CpCi/g)
S.D,
4286
84
Qui
1 7
0.480
1.650
4364
9
Qui
16
0.290
1.805
4287
69
Qui
21
0.596
2.247
4365
91
Qui
53471
0.155
3.814
4289
85
QTu1
104
0.355
2.071
4367
40
Tic1
418
0.028
2.856
4291
13
Qui
534 71
0.155
3.814
4368
58
QTu1
6990
0.252
3.085
4292
1 9
Qui
202
0.060
2.914
4374
37
Qui
29
0.633
1.516
4293
37
Qui
5
0.383
1.686
4375
83
Tc1
28
0,287
2.213
4294
105
Qh1
40
0.439
1.678
4376
83
Tc1
56
0.501
2.138
4296
91
Qui
8
0.141
3.411
4377
69
TH2a
4119
0.262
2.783
4297
93
Qui
57
0.710
1,655
4379
49
Qui
613
0.184
2.898
4298
106
Qh1
34
0.418
2.790
4380
31
Qal1
3607
0.134
4,141
4303
67
To2a
1 0
0.486
1.672
4385
78
Qui
241
0.356
2.031
4304
31
Qui
9
0.707
1.502
4386
84
Qui
53471
0.155
3.814
4306
77
Qui
325
0.348
2.136
4388
58
Tr)2b
163
0.406
2.219
4307
27
Qui
1 1
0.140
3.205
4391
90
Qui
11 9
0.703
1.942
4308
106
Qui
1 99
0.280
3.004
4392
76
Qu2
2029
0.524
2.265
4309
90
Tc1
78
0.426
1.774
4393
27
Qui
53471
0.155
3.814
431 1
39
Qui
45
0.506
1.783
4394
90
Tc1
9001
0.244
2.958
4313
1 0
Qui
3
0.405
1.612
4397
93
Tc1
9001
0.244
2.958
4314
39
Qui
176
0.083
3.408
4398
62
QTuI
6990
0.252
3.085
4315
80
TH2a
81
0.526
1.713
4403
69
Qu2
2029
0.524
2.265
4316
1 2
Tsm2
27
0.102
2.498
4405
1 2
Qui
24
0.130
2.892
4318
78
Qui
27
0.497
1.743
4409
77
TH2a
41 1 9
0.262
2.783
4319
1 9
Qui
10
0.243
1.705
441 1
39
Qui
53471
0.155
3.814
4321
99
Qr1
848
0.087
3.476
4420
91
Tc1
9001
0.244
2.958
4324
1 3
Qui
1 0
0.153
2.300
4421
78
Qui
53471
0.155
3.814
4325
45
Ts2
610
0.675
2.127
4424
77
TH2a
4119
0.262
2.783
4326
43
Ticl
61
0.101
3.308
4429
46
Ts2
40
0.119
3.429
4327
85
Qui
133
0.444
1.905
4432
42
Ts2
146
0.452
1.776
4331
73
Qui
53471
0.155
3.814
4438
102
Qh1
1 0
0.628
1.345
4332
78
TH2a
41 19
0.262
2.783
4439
83
Qtr1
43
0.423
2.417
4334
69
TH2a
4119
0.262
2.783
4440
92
Tc1
69
0.237
2.611
4335
69
QTu1
6990
0.252
3.085
4441
99
Qui
30
0.147
4.132
4337
79
Qui
14
0.436
1.695
4447
40
Qui
21
0.049
2.744
4340
58
QTu1
6990
0.252
3.085
4448
42
Tsm2
1397
0.143
3.104
4341
37
Qui
104
0.303
2.315
4449
1 1 1
Qh1
7
0.404
1.937
4347
43
Qal1
3607
0.134
4.141
4451
40
Thl
17
0.094
2.876
4348
42
Qui
25
0.339
1.501
4452
31
Qal1
1 5
0.134
6.076
4350
46
Tsm2
1397
0.143
3.104
4455
84
Tc1
9001
0.244
2.958
4351
37
Qui
53471
0.155
3.814
4456
37
Qui
55
0.338
2.241
4352
62
QTu1
6990
0.252
3.085
4459
67
Qui
53471
0.155
3.814
4353
42
Ts2
526
0.308
2.303
4465
82
TH2b
15
0.283
2.572
4358
77
TH2a
4119
0.262
2.783
4468
75
TH2b
16
0.789
1.543
4359
77
Qui
56
0.392
2.293
4469
42
Qui
12
0.339
1.742
4361
76
TH2a
4119
0.262
2.783
4471
199
Qh1
208
0.119
3.007
4362
77
Qui
53471
0.155
3.814
4472
62
QTu1
45
0.161
3.258
4363
78
Qui
53471
0.155
3.814
4473
92
Tc1
9001
0.244
2.958
C-
13

-------
Table C-l (continued)
Statistical Summary of Ra-226 from NURE Aeroradiometric Data.
Gt'om.	G«om.
Polygon Statsgo Geology No. of Mean Geom.	Polygon Statsgo Geology No. of Mean Geom.
No. No. Class Points (pCi/g) S.D.	No. No". Class Points (pCi/g) S.D.
4474
62
QTuI
6990
0.252
3.085
4570
84
Tel
1 9
0.332
2.283
4476
47
Tsm2
263
0.117
3.097
4572
83
TH2b
1063
0.464
2.225
4477
82
QTu1
1 4
0.762
1.422
4573
84
Te1
20
0.506
1.597
4478
77
Qu2
228
0.696
1.612
4574
103
Qui
294
0.273
2.453
4480
37
Qui
71
0.232
2.882
4575
81
TH2b
657
0.457
2.289
4481
78
Qui
120
0.469
2.033
4576
28
Qui
53471
0.155
3.814
4482
84
Qui
1 5
0.321
1.641
4582
98
Qui
53471
0.155
3.814
4483
92
Tc1
59
0.310
2.078
4589
39
Qui
53471
0.155
3.814
4484
1 3
Qui
53471
0.155
3.814
4590
91
Qui
9
0.522
1.587
4486
91
Qui
53471
0.155
3.814
4593
77
Qui
91
0.221
2.578
4487
62
QTu1
31
0.160
3.529
4594
28
Qui
21
0.075
3.043
4489
34
Qui
4
0.276
1.663
4595
1 4
Qui
53471
0.155
3.814
4491
28
Qui
53471
0.155
3.814
4602
40
Qui
53471
0.155
3.814
4497
1 9
Qui
25
0.066
3.332
4603
28
Qh1
24
0.133
3.033
4500
1 0
Qui
61
0.111
3.074
4604
83
Tc1
113
0.372
1.691
4503
62
QTu1
24
0.206
3.350
4606
105
Qui
429
0.298
2.278
4504
67
To2a
38
0.681
1.356
4609
67
Qd1
136
0.415
2.001
4505
36
Qui
27
0.223
3.494
4610
37
Qui
101
0.448
2.089
4506
67
Qu2
444
0.465
2.019
461 1
13
Qui
53471
0.155
3.814
4510
31
Qal1
1 9
0.142
3.962
4615
75
TH2b
1063
0.464
2.225
4513
84
Qui
36
0.532
* .552
4617
93
Qui
100
0.503
1.781
4517
67
To2a
1 1 5
0.378
2.180
4618
77
To2a
167
0.241
2.235
4518
75
Qu2
16
0.657
1 .430
4619
62
QTu1
19
0.243
1.996
4520
83
Tc1
1 6
0.585
1 .450
4620
44
Qui
33
0.086
2.784
4523
94
QTu1
52
0.075
3.394
4625
101
Qui
23
0.286
2.711
4524
1 3
Qui
59
0.113
3.060
4627
77
Qu2
2029
0.524
2.265
4526
83
Tc1
29
0.228
2.951
4628
67
Qui
20
0.642
1.967
4527
62
QTu1
21
0.194
3.063
4629
82
TH2b
41
0.510
1.926
4528
92
Qui
1 74
0.218
2.994
4630
81
TH2b
37
0.456
1.562
4531
1 1 1
Qh1
46
0.209
2.224
4639
92
Td
112
0.342
2.271
4533
84
QTu1
1 0
0.547
1.556
4644
62
QTu1
6990
0.252
3.085
4535
37
aui
43
0.466
2.424
4645
36
Qui
52
0.089
3.133
4537
47
Ts2
410
0.341
2.755
4646
78
To2a
165
0.441
1.888
4 538
46
Qui
466
0.130
3.844
4652
40
Ts2
26
0.354
1.961
4540
39
Tsm2
67
0.082
2.873
4653
37
Qui
25
0.512
1.682
4542
40
Tic1
50
0.137
3.151
4655
39
Qui
53471
0.155
3.814
4543
1 0
Qh1
10
0.077
3.853
4656
78
Qui
21
0.394
2.162
4544
39
Qui
42
0.102
2.903
4662
44
Qd1
78
0.270
2.467
4546
93
Qui
75
0.381
2.451
4666
44
Ts2
101
0.269
2.355
4547
67
Qui
18
0.472
1.403
4676
42
Tsk2
199
0.275
2.262
4548
77
To2a
6
0.486
1.797
4683
84
Tc1
500
0.367
2.163
4550
40
Qui
81
0.162
2.985
4690
62
TH2b
1063
0.464
2.225
4554
67
Qd1
34
0.249
1.642
4691
33
Qui
72
0.144
2.802
4556
43
Qui
1 3
0.596
1.273
4694
47
Tsm2
1397
0.143
3.104
4567
27
Qti1
53471
0.155
3.814
4695
39
Qui
48
0.119
2.725
4568
75
TH2b
1063
0.464
2.225
4700
78
Qu2
181
0.838
1.459
C- 14

-------
Table C-l (continued)
Statistical Summary of Ra-226 from NURE Aeroradiometric Data.




Geom.





Geom.

Polygon
Statsgo
Geology
No. of
Mean
Geom.
Polygon
Statsgo
Geology
No. of
Mean
Geom.
No.
No.
Class
Points
(pCi/g)
¦ S.D.
No.
No. •
Class
Points
(pGi/g)
S.D.
4703
67
To2a
22
0.427
1.795
4828
74
water
5995
0.069
3.708
4708
79
Qu2
35
0.871
1.466
4830
102
Qh1
61
0.477
1.820
4711
74
water
5995
0.069
3.708
4831
41
Qui
73
0.321
2.378
4714
27
Qui
37
0.032
2.627
4837
67
Qu2
35
0.932
1.556
4721
39
Qal1
34
0.098
3.001
4838
45
Qd1
10
0.144
3.372
4725
10
Qh1
3834
0.171
3.644
4839
77
To2a
56
0.571
2.243
4726
92
Tc1
41
0.371
1.882
4843
46
Qui
25
0.017
1.000
4741
37
Qui
289
0.039
4.408
4844
1 9
Qui
53
0.130
3.178
4748
37
Qal1
6
0.070
3.134
4847
46
Tic 1
167
0.017
1.000
4750
92
Tc1
68
0.433
2.066
4849
41
To 2a
177
0.245
2.595
4754
99
Qui
18
0.072
3.314
4850
39
Tic1
418
0.028
2.856
4756
90
Tc 1
5
0.634
1.489
4859
85
TH2b
23
0.394
1.612
4758
83
TH2b
29
0.583
2.094
4861
71
Qui
53
0.154
2.989
4759
33
Tic1
1 1
0.017
1.000
4862
36
T i c 1
1 5
0.017
1.000
4761
47
Qal1
4
0.020
1.414
4863
41
Qui
34
0.172
2.458
4762
92
Qtr1
1209
0.385
2.159
4868
39
Qui
56
0.518
2.024
4766
75
Qui
10
0.615
1.677
4869
1 9
Ts2
48
0.146
3.417
4767
83
TH2b
25
0.687
1.438
4870
41
Qui
1 2
0.017
1.000
4768
28
Qui
53471
0.155
3.814
4872
71
To2a
438
0.245
2.889
4769
37
Qui
53471
0.155
3.814
4873
79
To2a
55
0.600
1.602
4771
1 9
Qui
74
0.148
2.941
4879
74
water
143
C.017
1.000
4772
84
Tc1
69
0.273
2.220
4881
4 1
Qui
1 6
0.017
1.000
4774
75
TH2b
38
0.879
1.911
4886
67
Qu2
4
0.642
1.202
4775
42
Qui
38
0.157
2.654
4887
41
Qui
309
0.017
1.000
4776
25
Qui
53471
0.155
3.814
4890
36
Qui
4 1
0.017
1.000
4778
46
Tic1
33
0.017
1.000
4891
83
Tel
64
0.357
1.836
4779
39
Qui
53471
0.155
3.814
4892
39
Qui
123
0.017
1.000
4780
92
Tc1
9001
0.244
2.958
4896
83
Qtr1
32
0.423
1.931
4782
39
Qui
53471
0.155
3.814
4902
44
Qbd1
122
0.017
1.000
4785
39
Qh1
4
0.017
1.000
4903
105
Qrl
6113
0.141
4.041
4787
77
Qu2
21 1
0.737
1.560
4 906
1 98
Qtr1
1 209
0.385
2.159
4793
37
Qui
40
0.017
1.000
4916
106
Qa1
1 8
0.213
2.504
4795
79
Qui
1 0
0.622
1.489
4918
95
Qal1
54
0.033
2.728
4796
47
Qh1
3834
0.171
3.644
4921
67
Qu2
2029
0.524
2.265
4802
64
To2a
166
0.472
1.763
4927
39
To2a
9
0.240
1.737
4810
1 9
Qui
75
0.222
2.861
4934
39
Qui
53471
0.155
3.814
481 1
36
Qal1
3607
0.134
4,141
4940
42
Qui
6
0.300
1.463
4812
93
Qr1
4
0.652
1.186
4945
84
Tc1
27
0.335
1.571
4813
93
Tc1
70
0.396
1.849
4948
103
Qr1
6113
0.141
4.041
4815
36
Qal1
9
0.017
1.000
4952
36
Qall
18
0.017
1.000
4818
39
Qui
1 8
0.030
3.494
4954
92
Tc1
9001
0.244
2.958
4821
40
Qh1
3834
0.171
3.644
4956
39
Qbd1
1 6
0.017
1.000
4822
95
Gall
3607
0.134
4.141
4962
103
Qui
62
0.327
1.774
4824
39
Qui
53471
0.155
3.814
4969
105
Qbd1
10491
0.106
3.846
4825
84
Qui
1 2
0.583
1.523
4971
85
QTu1
92
0.357
1.959
4826
37
Qui
1 6
0.017
1.000
4976
64
Qu2
2029
0.524
2.265
C- 15

-------
Table C-l (continued)
Statistical Summary of Ra-226 from NURE Aeroradiometric Data.




Geom.





Geom.

Polygon
Statsgo
Geology
No. of
Mean
Geom.
Polygon
Statsgo
Geology
No. of
Mean
Geom.
No.
No.
Class
Points
(pCi/ir)
S.D.
No.
No.-
Class
Points
(pCi/g)
S.D.
4977
41
Ticl
418
0.028
2.856
5095
46
To2a
274
0.280
2.377
4978
103
Qui
59
0.371
1.563
5097
77
Qui
25
0.274
2.841
4979
83
TH2b
1 9
0.269
2.019
5099
134
Th3
3449
0.473
3.555
4984
39
Qui
53471
0.155
3,814
5100
44
Qbdl
24
0.017
1.000
4985
62
QTuI
6990
0.252
3.085
5101
44
Qh1
1 3
0.017
1.000
4986
79
To2b
41
0.493
2.370
5103
44
Qd1
86
0.224
2.707
4987
92
Qtrl
1209
0.385
2.159
5104
121
Th3
270
1.586
1.760
4989
1 4
Qh1
3834
0.171
3.644
5105
107
Qui
1 3
0.250
2.546
4990
106
Qbdl
553
0.241
2.552
5109
61
Qui
74
0.314
2.559
4991
39
Qbd1
10491
0.106
3.846
51 1 1
37
Qbdl
32
0.017
1.000
4994
64
To2a
1 1834
0.250
3.340
5114
77
To2a
1 6
0.300
2.617
4996
37
Qbd1
10491
0.106
3.846
51 1 5
85
QTu1
46
0.413
1.993
4997
120
Qtn
164
0.431
1.874
5117
46
Qui
84
0.342
2.189
5005
39
Qh1
5
0.017
1.000
5118
39
Qui
26
0.017
1.000
5006
41
Qbd1
386
0.028
2.497
5119
129
Th3
1 94
0.573
1.927
50Q7
1 9
Qui
53471
0.155
3 814
5123
103
Qui
101
0.250
2.487
501 1
64
Qu2
249
0.469
2.319
5125
107
Qbdl
1 3
0.168
2.770
5014
44
Qui
224
0.227
2.646
51 26
1 4
Tic1
55
0.017
1.000
5017
36
Qbd1
143
0.017
1.000
5129
39
Qui
1 7
0.017
1.000
5021
91
Qr1
14
0.242
2.010
5130
93
Qtrl
1 7
0.574
1.436
5022
82
Th3
34
0.570
1.726
5132
77
To2a
427
0.299
2.483
5023
1 9
Tic1
418
0.028
2.856
5133
102
Qhl
3834
0.171
3.644
5024
1 9
Qui
172
0.146
2.709
5134
71
Qui
115
0,154
2.775
5026
105
Qui
53471
0.155
3.814
5135
1 0
Qh1
3834
0.171
3.644
5027
94
QTu1
6990
0.252
3.085
5136
66
Qui
75
0.224
2.417
5029
46
Qui
53471
0.155
3.814
5137
4 1
To2a
133
0.306
2.422
5034
134
Th3
108
1.137
1.723
5138
36
Tic1
26
0.017
1.000
5035
67
To2a
1 1834
0.250
3.340
5141
121
To2b
1 768
0.387
3.699
5037
1 9
Qui
53471
0.155
3.814
5142
40
Qd1
47
0.318
2.151
5038
39
Qui
39
0.017
1.000
5148
1 07
Qr1
1
0.200
4.000
5039
43
Qal1
197
0.042
3.689
5150
113
Qa1
1 1
0.268
1.977
5040
103
Qbdl
67
0.218
2.554
5151
74
water
381
0.045
3.581
5043
84
Qtr1
31
0.339
2.073
5157
106
Qui
53471
0.155
3.814
5047
77
To2a
1 1834
0,250
3.340
5158
100
Qui
145
0.336
2.185
5051
62
QTu1
6990
0.252
3.085
5159
74
water
1
0.017
4.000
5052
101
Qui
53471
0.155
3.814
5161
40
Ts2
60
0.259
2.375
5058
81
Qr1
9
0.376
2.110
5162
46
Qui
69
0.017
1.000
5059
81
Qui
20
0.353
1.833
5167
66
To2a
129
0.302
2.242
5061
64
To2b
9
0.555
1 .581
5173
39
Qbdl
42
0.017
1.000
5062
93
Tc1
118
0.445
2.088
5174
40
To2a
94
0.221
1.978
5063
39
Qbdl
198
0.018
1.413
5177
91
Tc1
9001
0.244
2.958
5071
91
Qui
1 4
0.336
2.193
5178
1 9
To2a
31
0.380
1.442
5072
71
To2a
176
0.221
2.352
5179
1 1 1
Qh1
26
0.262
2.530
5078
74
water
24
0.017
1.000
5182
1 1 1
Qa1
6626
0.126
4.240
5089
45
Qd1
1 5
0.240
1.695
5183
102
Qa1
6
0.531
1.521
5094
85
Th3
106
0.509
1.757
5188
103
Th3
3449
0.473
3.555
C-
16

-------
Table C-l (continued)
Statistical Summary of Ea-226 from NTJRE Aeroradiometric Data.




Geom.





Geom.

Polygon
Statsgo
Geology
No. of
Mean.
Geom.
Polygon
Statsgo
Geology
No. of
Mean
Geom.
No.
No.
Class
Points
ipCi/K)
8.D.
No.
No.
Class
Points
(pCi/g)
S.D.
51 93
105
Qbd1
1 94
0.265
2.158
5314
1 4
Qa!1
1 1
0.017
1.000
5196
91
Qtrl
21
0.251
1.786
5315
39
Qh1
7
0.017
1.000
5199
36
Qui
41
0.017
1.000
5316
41
Qall
3607
0.134
4.141
5203
101
Th3
58
0.378
2.148
5320
83
QTu1
1 8
0.567
1.492
5206
64
To2b
1 0
0.367
1.967
5326
100
Qtrl
16
0.356
2.415
5211
1 0
Qh1
1 0
0.017
1.000
5333
1 4
Qui
53471
0.155
3.814
5214
91
Tc1
9001
0.244
2.958
5335
40
To 2a
81
0.249
2.432
5217
94
QTu1
6990
0.252
3.085
5338
1 0
Qh1
3834
0.171
3.644
5219
106
Gh1
1 2
0.275
1.516
5343
121
Qu2
27
0.829
1.392
5220
105
Th3
81
0.571
1.660
5347
129
Qtrl
110
0.256
2.256
5221
4 6
Th3
3449
0.473
3.555
5349
134
Th3
28
1.553
1.561
5224
105
Qui
10
0.213
2.777
5350
41
Qa!1
10
0.049
3.639
5227
36
Qal1
30
0.017
1.000
5351
101
Th3
1 9
0.598
1.503
5228
100
Tc1
321
0.335
2.334
5356
1 9
To2a
83
0.203
2.431
5229
83
QTu1
6990
0.252
3.085
5360
101
Tel
20
0.296
1.471
5236
74
Qh1
3834
0.171
3.644
5361
103
Th3
370
0.567
2.718
5238
1 1 5
To2b
16
0.471
1 .624
5368
44
Qd1
122
0.162
3.095
5245
1 29
To2b
27
0.631
1.315
5371
105
QTu1
9
0.615
1.656
5247
36
Qal1
3607
0.134
4.141
5383
81
Th3
20
0.518
2.334
5248
1 9
Ts2
5077
0.352
2.652
5385
48
To2a
54
0.646
2.454
5250
99
Qui
8
0.109
3.454
5386
1 29
Th3
5
0.595
1.314
5252
36
Qbd1
127
0.017
1.000
5387
103
Th3
1 1 4
0.404
2.044
5254
39
Qbdl
41
0.017
1.000
5390
41
Qui
8
0.286
2.179
5262
198
Tc1
9001
0.244
2.958
5391
1 9
Qd1
1 2
0.082
3.217
5267
103
Qui
210
0.222
2.846
5394
1 4
QaH
104
0.043
3.860
5268
115
Qui
27
0.407
1.530
5395
107
Qr1
61 13
0.141
4.041
5272
107
Qui
1 2
0.273
1.832
5401
40
To2a
84
0.164
3.103
5273
120
Tc1
843
0.308
2.441
5404
• 20
To2b
42
0.368
2.476
5276
105
Th3
3449
0.473
3.555
5410
105
Th3
3449
0.473
3.555
5277
1 9
To2a
34
0.272
1.849
5412
1 4
Qal1
25
0.049
3.179
5280
14
Qal1
40
0.031
2.693
5413
134
Th3
3449
0.473
3.555
5281
103
Qrl
123
0.178
3.202
5414
62
TH3
3449
0.473
3.555
5283
101
QTu1
38
0.515
1.416
5415
1 9
Ts2
22
0.149
2.875
5286
120
Qu2
147
0.470
2.113
5416
41
To2a
34
0.241
3.178
5290
62
QTu1
134
0.148
3.163
5418
85
Tc1
9001
0.244
2.958
5293
134
Th3
3449
0.473
3.555
5422
42
To2a
427
0.307
3.353
5295
113
Qbdl
93
0.282
2.577
5424
105
Qbdl
1 9
0.444
1.763
5297
1 9
Qui
53471
0.155
3.814
5425
83
- Th3
3449
0.473
3.555
5298
1 9
Ts2
5077
0.352
2.652
5426
105
QTu1
6990
0.252
3.085
5299
103
QTu1
108
0.498
1.882
5430
115
Qui
53471
0.155
3.814
5300
62
QTu1
30
0.487
1.501
5434
107
Qbdl
1 0
0.217
3.213
5302
4 1
Qui
54
0.106
3.418
5437
100
Qui
30
0.345
2.161
5304
116
Th3
7
0.320
2.926
5439
129
Tc1
20
0.227
2.311
5305
36
Qbdl
10491
0.106
3.846
5441
129
Qui
53471
0.155
3.814
5306
100
Qui
2
0.311
1 .560
5443
133
Tc1
151
0.300
2.600
5309
36
Qui
53471
0.155
3.814
5449
46
To2a
1 1834
0.250
3.340
C-I7

-------
Table C-l (continued)
Statistical Summary of Ra-226 from NURE Aeroradiometric Data.




G«om.





Geom.

Polygon
Statsgo
Geology
No. of
Mean
n«om.
Polygon
Statsgo
Geology
No. of
Mean
Geom.
No.
No.
Class
Points
(pCLfc)
S.D.
N'o.
No..
Class
Points
(pCi/g)
S.D.
5450
134
Tc1
235
0.310
2.260
5582
39
Qh1
28
0.056
3.250
5454
103
Tc1
9001
0.244
2.958
5585
106
Qui
' 148
0.102
3.608
5455
1 98
Tc1
47
0.076
3.795
5587
101
QTu1
6990
0.252
3.085
5456
41
Qah
3607
0.134
4.141
5591
101
Tc1
9001
0.244
2.958
5458
107
Tc1
9001
0.244
2.958
5593
103
QTu1
6990
0.252
3.085
5461
1 1 1
Qbdl
6
0.647
1.245
5597
102
Qh1
3834
0.171
3.644
5466
1 98
Tc1
9001
0.244
2.958
5599
11 5
Qui
121
0.288
2.673
5467
102
Qh1
1 7
0.315
2.146
5601
103
Qbdl
40
0.236
2.808
5472
1 29
Td
9001
0.244
2.958
5605
78
To2a
139
3.456
1.901
5474
59
To2a
623
0.311
2.507
5610
103
Qbdl
10491
0.106
3.846
5475
5
Th3
3449
0.473
3.555
5611
40
Qd1
2879
0.148
3.736
5478
107
Qui
53471
0.155
3.814
5612
46
To2a
430
0.355
2.844
5479
105
QTu1
6990
0.252
3.085
5616
78
Qui
53471
0.155
3.814
5480
103
Qbdl
10491
0.106
3.846
561 9
107
Qr1
6113
0.141
4.041
5484
103
Qui
1 0
0.193
3.224
5620
100
Qui
23
0 248
2.446
5485
106
Qbdl
39
0.230
2.453
5622
105
QTuI
6990
0.252
3.085
5489
1 1 1
Qh1
1 1
0.369
2.229
5629
121
Th3
52
1.688
2.031
5493
39
Qbdl
65
0.041
2.989
5630
134
Th3
3449
0.473
3.555
5494
39
Qall
3607
0.134
4.141
5631
103
Qui
98
0.282
2.479
5498
120
Twh1
687
0.240
3.167
5635
130
Tc1
1 7
0.329
1.842
5508
1 0
Qh1
3334
0.171
3.644
5642
103
QTu1
30
C.579
1 .895
5509
106
Qbdl
33
0.231
2.934
5644
100
Qui
53471
0.155
3.814
5512
122
Th3
3449
0.473
3.555
5647
129
Tc1
9001
0.244
2.958
5513
103
Qr1
28
0.585
1.816
5649
44
To2a
53
0.139
3.000
5514
1 9
To2a
1 0
0.600
1 626
5650
105
Th3
3449
0.473
3.555
5517
44
Qbdl
31
0.017
1.000
5651
64
To2a
5 1
0.396
2.083
5524
105
Th3
72
0.783
1 .846
5652
121
Tc1
47
0.329
2.062
5527
129
Tc1
3 1
0.315
3.102
5553
1 4
Qh1
3834
0.171
3.644
5529
101
Qui
4 1
0.226
2.777
5654
129
7h3
42
0.828
1.501
5531
133
Tc1
9001
0.244
2.958
5656
123
Th3
3449
0.473
3.555
5533
103
Qui
57
0.198
3.140
5657
101
Qbdl
1 3
0.288
1.456
5537
1 20
Qtrl
24
0.165
3.199
5658
136
Tc1
9001
0.244
2.958
5547
123
Tc1
25
0.261
3.363
5659
123
Tc1
20
0.332
1.721
5551
105
Qr1
69
0.550
1.948
5661
6
Qhl
3834
0.171
3.644
5552
116
QTu1
52
0.393
2.848
5662
101
Tc1
44
0.336
1.809
5553
1 9
Qbdl
10491
0.106
3.846
5663
11 5
Tc1
5
0.426
1.695
5555
47
To2a
46
0.374
1.659
5666
122
TH3
3449
0.473
3.555
5559
44
To2a
42
0.250
2.722
5668
1 0
Qh1
3834
0.171
3.644
5563
133
Ts1
1 6
0.177
3.029
5671
99
Th3
46
0.193
3.087
5566
45
To2a
55
0.391
3.175
5673
11 4
Qh1
7
0.305
1.503
5567
121
Twh1
44
0.391
2.297
5676
47
To2a
1 1 1
0.362
2.530
5568
103
Qbdl
101
0.303
2.083
5679
104
Qui
1 56
0.336
2.221
5571
100
Qtrl
1209
0.385
2.159
5680
129
Tc1
40
0.321
2.445
5572
105
Qui
131
0.372
1.948
5681
103
Qui
78
0.386
2.146
5575
70
To2a
347
0.261
2.491
5682
130
QTu1
6990
0.252
3.085
5580
122
Th3
1 1
2.633
1.366
5683
1 1 1
Qbdl
36
0.252
2.461
C- 18

-------
Table C-l (continued)
Statistical Summary of Ra-226 from NURE Aeroradiometric Data.
Geom.	G«om.
Polygon Statsgo Geology No. of Mean Geom. Polygon Statsgo Geology No. of Mean Geom.
No.	No. Class Points (pCi/g) S.D.	No.	No.' Class Points (pCi/g) S.D.
5690
1 9
5691
121
5693
41
5695
114
5699
134
5703
133
5707
103
5709
42
5710
114
571 1
1 1 1
5715
129
5718
122
5719
101
5720
101
5721
101
5722
123
5723
1 9
5724
113
5726
113
5728
134
5730
77
5732
46
5734
1 29
5735
116
5736
122
5739
1 20
5741
1 20
5744
107
5745
106
5746
42
5747
78
5750
123
5752
133
5753
107
5756
100
5757
1 0
5758
104
5760
103
5761
104
5762
103
5767
103
5769
101
5770
105
5774
41
5777
103
5778
107
Qh1
3834
Twhl
59
To2a
1 7
Qal
1 5
Tc1
94
Tc1
39
Th3
171
To2a
69
Qbd1
99
Qh1
1 8
QTu1
1 4
To2b
63
Qui
1 1 3
Qhl
9
Qbd1
1 9
Tc1
38
To2a
11334
Qui
1 3
Qui
51
QTu1
1 33
To2a
1 93
To2a
56
To2b
22
Th3
38
Th3
3449
To2b
1 9
Th3
1 5
Qn
1 9
Qbd1
571
To2a
369
Qui
20
QTu1
6990
Tc1
9001
Qui
53471
Qui
53471
Qh1
3834
Qbd1
1 20
Tc1
9001
Qbd1
10491
Qui
305
Qui
34
Oa1
23
QTu1
37
To2a
1 1834
QTu1
129
Qui
53471
0.171	3.644
0.210	3.115
0.165	3.370
0.415	1.369
0.426	2.041
0.131	3.360
0.224	2.559
0.314	1.892
0.238	2.419
0.591	1.366
0.513	1.717
0.488	2.028
0.446	1.558
0.537	1.266
0.323	2.878
0.237	2.896
0.250	3.340
0.529	1.531
0.362	1.910
0.379	2.406
0.221	2.748
0.439	1.923
1.396	1.351
0.349	2.723
0.473	3.555
0.587	1.492
0.931	1.464
0.160	2.585
0.199	2.778
0.279	3.420
0.200	2.555
0.252	3.085
0.244	2.958
0.155	3.814
0.155	3.814
0.171	3.644
0.264	2.618
0.244	2.958
0.106	3.846
0.312	2.205
0.407	2.354
0.503	1.849
0.187	3.396
0.250	3.340
0.137	2.999
0.155	3.814
5779	101
57B2	134
5784	120
5786	100
5787	120
5789	122
5796	105
5797	103
5798	105
5800	120
5802	107
5804	116
5807	101
5808	107
5809	129
5812	70
5813	70
5814	104
5816	105
5821	130
5823	133
5824	103
5830	107
5831	107
5832	115
5833	129
5834	121
5835	59
5837	99
5838	120
5839	120
5842	114
5844	42
5845	120
5847	107
5855	46
5857	136
5862	114
5866	105
5869	113
5870	103
5873	122
5875	99
5876	103
5877	113
5881	123
Th3
3449
Th3
3449
To2b
91
Qui
53471
Tc1
1
To2b
2671
Qbd1
21
QTu1
6990
Qbdl
10491
To2b
2671
Qbd1
10491
Th3
3449
Qh1
4
Qr1
80
QTu1
52
To2a
1 1834
To2a
11834
Qh1
48
Qui
4
Tc1
9001
Tc1
9001
Qrl
7
Qr1
1 7
To2a
108
Tel
22
Twh1
30
Tc1
59
To2a
1 7
QTu1
6990
QTu1
22
To2b
38
Qui
1 2
To2a
29
Tc1
44
Qui
42
To2a
175
Twh1
38
Tc1
7
Th3
20
Tc1
253
Qui
23
To2b
213
Qui
66
Tc1
95
Qui
20
To2b
23
0.473 3.555
0.473	3.555
0.498	1.841
0.155	3.814
0.440	4.000
0.347	3.727
0.329	2.472
0.252	3.085
0.106	3.846
0.347	3.727
0.106	3,846
0.473	3.555
0.551	1.433
0.201	3.238
0.132	3.552
0.250	3.340
0.250	3.340
0.497	1.625
0.146	4.432
0.244	2.958
0.244	2.958
0.093	3.029
0.225	3.117
0.305	2.591
0.179	3.233
0.086	3.623
0.311	2.716
0.389	1.889
0.252	3.085
0.188	3.000
0.148	3.809
0.325	2.011
0.221	2.482
0.158	2.956
0.077	3.574
0.192	3.088
0.131	3.074
0.100	3.087
0.254	2.979
0.266	2.467
0.227	2.509
0.460	1.831
0.284	2.249
0.203	2.891
0.156	3.702
0.286	2.431
C- 19

-------
Table C-l (continued)
Statistical Summary of Ra-226 from NURE Aeroradiometric Data.




Geom.





Geom.

Polygon
Statsgo
Geology
No. of
Mean
Geom.
Polygon
Statsgo
Geology
No. of
Mean
Geom.
No.
No.
Class
Points
CpCi/p)
. 3D.
No.
No.
Class
Points
(pCi/g)
S.D.
5B83
114
Tc1
93
0.199
3.270
6036
103
Qui
195
0.236
2.609
5886
129
Tc1
64
0.227
2.915
6037
105
Qui
1 3
0.324
1.523
5887
100
Tc1
26
0.229
3.562
6042
107
water
51
0.111
3.308
5890
104
Th3
28
0.433
2.223
6047
104
water
5995
0.069
3.708
5893
103
Qui
23
0.113
3.587
6052
42
To2a
1 1834
0.250
3.340
5894
107
Qr1
49
0.135
3.707
6053
103
water
172
0.131
3.260
5895
103
Th3
40
0.171
3.647
6054
104
Qa1
1 3
0.310
2.564
5896
70
To2a
21
0.374
2.435
6056
114
Qbd1
58
0.232
2.046
5902
103
Qui
53471
0.155
3.814
6057
103
To2
72
0.239
2.374
5905
116
Th3
3449
0.473
3.555
6058
107
Qr1
1 1 4
0.231
2.977
591 1
102
Qal
45
0.445
1.868
6059
1 1 4
Tc1
4
0.130
4.149
5912
103
Qui
53471
0.155
3.814
6068
1 1 5
Qui
1
0.434
4.000
5913
99
QTu1
61
0.046
3.080
6070
123
Th3
25
0.371
1.686
5914
103
Qbd1
1 0491
0.106
3.846
6073
122
To2
34
0.438
1.788
5920
101
Qbd1
10491
0.106
3.846
6076
136
To2b
46
0.680
2.366
5921
1 1 4
Qa1
23
0.400
1.750
6079
46
To2a
46
0.263
2.318
5922
99
Qr1
79
0.133
2.958
6080
1 16
To2
25
0.193
2.642
5923
107
To2b
49
0.303
2.244
6084
103
Qbd1
553
0.064
3.620
5924
101
Th3
3449
0.473
3.555
6087
107
Qui
75
0.181
2.814
5929
46
To2a
1 53
0.419
2.193
6089
106
Qui
102
0.367
2.160
5930
42
To2a
¦!02
0.148
2.859
6091
59
To2a
1 2
0.117
3.468
5933
116
Th3
3449
0.473
3.555
6096
103
Tc1
40
0.259
2.044
5938
103
Tc1
9001
0.244
2.958
6097
103
Qui
28
0.286
2.021
5939
48
To2a
38
0.385
2.373
6101
104
Qui
94
0.272
2.312
5942
103
Tc1
1 7
0.422
2.134
6105
123
Th3
26
0.109
4.381
5946
59
Qui
83
0.388
1.673
611 1
114
To2a
52
0.128
2.638
5948
103
Th3
3449
0.473
3.555
61 18
11 3
Tc1
37
0.277
2.027
5955
101
T c 1
51
0.145
3 339
61 1 9
101
Tc1
38
0.180
2.890
5958
42
Qui
93
0.078
3.607
6121
1 20
Qui
53471
0.155
3.814
5959
99
Qrl
45
0.250
2.881
61 28
103
To2a
525
0.085
3.881
5969
70
To2a
108
0.289
2.511
61 33
115
Qui
32
0.464
1.602
5970
103
water
5995
0.069
3.708
6136
118
To2a
59
0.212
3.002
5974
122
To2b
2671
0.347
3.727
6140
122
Th1
7
0.574
1.427
5975
120
Qr1
20
0.320
2.256
6142
107
water
20
0.175
3.486
5980
101
water
5995
0.069
3.708
6143
101
Tc1
22
0.306
1.555
5981
122
water
5995
0.069
3.708
61 54
103
Qui
53471
0.155
3.814
5996
116
Qui
53471
0.155
3.814
61 55
1 1 4
Tc1
9001
0.244
2.958
6000
133
To2b
2671
0.347
3.727
61 58
104
To2
4707
0.350
3.008
6001
122
Th3
577
0.367
3.930
61 59
107
Tc1
33
0.137
2.796
6003
106
To2a
184
0.229
2.641
6162
121
Th3
98
0.282
4.560
6004
122
Th1
29
0.551
1.762
6165
121
To2
31
0.555
2.389
6007
120
Tela
1 71 5
0.083
4.124
6168
107
To2
4707
0.350
3.008
6014
99
water
50
0.115
4.755
6171
121
Th3
177
0.678
1.718
6021
11 1
Qh1
54
0.313
2.591
61 74
104
Qbd1
4
0.498
1.460
6026
113
Qui
53471
0.155
3.814
6179
121
To2
269
0.252
4.647
6035
116
Qui
53471
0.155
3.814
6181
104
Qui
228
0.402
1.919
C-20

-------
Table C-l (continued)
Statistical Summary of Ra-226 from NURE Aeroradiometric Data.




Geom.





Geom.

Polygon
Statsgo
Geology
No. of
Mean
Geom.
Polygon
Statsgo
Geology
No. of
Mean
Geom.
No.
No.
Class
Points
(pCi/g)
, S.D.
No.
No. .
Class
Points
(PCi/g)
SD.
6182
104
Qui
57
0.321
2.771
6369
136
To2b
23
0.028
1.942
6189
102
water
3
0.640
1.170
6375
107
Qbd1
69
0.151
2.933
6196
100
Qui
100
0.207
2.626
6376
1 99
To 2a
1 1834
0.250
3.340
6205
104
To2
1 9
0.376
1.796
6392
106
Qui
121
0.186
2.791
6207
1 20
Th3
3449
0.473
3.555
6394
106
Tap2
48
0.031
2.740
6212
100
Tc1
16
0.176
1.970
6398
107
Qui
9
0.132
3.134
6222
108
To2a
249
0.516
2.545
6401
1 20
Qdl
611
0.054
3.930
6227
104
Qh1
5
0.347
1.842
6403
107
Qui
4
0.437
1.181
6233
103
Qui
139
0.194
3.012
6407
1 22
To2b
1 4
0.024
1.865
6235
1 20
Th3
25
1.138
1.268
6412
106
Tel
1 1
0.208
3.922
6239
• 16
Qui
10
0.362
1.459
6413
103
Qui
46
0.166
2.992
6243
107
Qr1
186
0.130
4.408
6414
106
Qui
83
0.094
4.408
6244
1 1 5
Qrl
26
0.574
1.588
6415
i 03
Tap2
36
0.031
2.076
6245
105
Gbd1
22
0.131
2.976
641 9
118
To2a
979
0.245
3.702
6247
11 5
To2
68
0.274
2.887
6423
1 1 4
Qa1
59
0.182
3.863
6249
104
Qui
250
0.047
3.587
6431
106
Tc1 a
153
0.065
3.642
6253
107
To2a
77
0.152
2.708
6432
122
Th3
1 4
0.068
2.745
6254
120
To2b
1 26
0.064
4.012
6435
108
To2a
420
0.038
2.278
6259
113
Qui
13
0.209
2.179
6437
121
Th3
109
0.178
5.664
6262
106
Qrl
4
0.090
3.384
6440
121
Th3
51
0.050
2.523
6263
106
Tela
1 3
0.343
1 .619
6441
1 1 5
Qui
38
0.106
3.806
6264
107
To2a
35
0.064
3.563
6443
99
Qui
52
0.144
2.347
6271
11 5
Qui
8
0.135
2.637
6444
114
To2a
1 0
0.028
1.987
6273
100
Qr1
1 9
0.175
3.085
6445
120
Qui
94
0.048
3.400
6274
107
Qui
76
0.236
2.491
6448
104
Qa1
7
0.455
1.520
6275
104
Qui
4
0.763
1 .419
6449
107
Tela
30
0.093
3.489
627S
106
To2a
37
0.124
3.165
6450
107
Qbdl
31
0.061
3.943
6285
199
water
34
0.145
3.409
6452
1 06
Qui
1 3
0.208
2.694
6286
120
Ths2
171
C.024
1.825
5465
1 1 5
Qr1
54
0.031
2.179
6293
106
Qh1
3334
0.171
3.644
6468
122
To2
1 2
0.048
2.301
6297
1 98
Ths2
171
0.024
1 .825
6469
108
To2a
329
0.319
5.769
6298
120
Twh3
322
0.027
2.048
6470
107
Qui
43
0.119
3.354
6300
107
Qbd1
10491
0.106
3.846
6471
103
Qui
23
0.156
3.191
6307
121
To2
4707
0.350
3.008
6473
108
Tap2
228
0.201
4.668
6308
107
Qr1
6113
0.141
4.041
6475
1 08
Tap2
36
0.055
2.686
6314
120
To2
24
0.021
1.659
6477
106
Qal
6626
0.126
4.240
6316
106
To2a
36
0.106
3.304
6480
107
Qui
53471
0.155
3.814
6323
1 1 4
Qa1
59
0.191
4.113
6483
106
To2a
1 1834
0.250
3.340
6325
121
Th3
3449
0.473
3.555
6486
101
Qbd1
10491
0.106
3.846
6332
46
Qh1
3834
0.171
3.644
6487
106
Tc1
1 1
0.029
2.185
6341
106
Qui
27
0.228
2.100
6488
113
Tc1
104
0.024
1.877
6345
99
Qui
456
0.049
3.253
6490
121
T wh3
42
0.038
2.267
6351
1 1 5
Qui
53471
0.155
3.814
6492
107
Qui
53471
0.155
3.814
6352
101
Qui
53471
0.155
3.814
6493
106
Qbd1
10491
0.106
3.846
6357
106
To2a
176
0.039
2.958
6495
106
Qbd1
10491
0.106
3.846
6360
103
Qbd1
557
0.076
3.462
6497
106
Tc1
9001
0.244
2.958
C-
21

-------
Table C-l (continued)
Statistical Summary of Ra-226 from NTJRE Aeroradiometric Data.




Geom.





Geom.

Polygon
Statsgo
Geology
No. of
Mean
Geom.
Polygon
Stalsgo
Geology
No. of
Mean
Geom.
No.
No.
Class
Points
-------
Table C-l (continued)
Statistical Summary of Ra-226 from NURE Aeroradiometric Data.




Geom.





Geom.

Polygon
Statsgo
Geology
No. of
Mean
Geom.
Polygon
Statsgo
Geology
No. of
Mean
Geom.
No.
No.
Class
Points
pCi/g)
. S.D.
No.
No.
Class
Points
(pCi/g)
S.D.
6818
133
Tclb
20
0.091
3.214
6988
11 4
Qbd1
15
0.239
1.934
6819
120
QTuk2
1072
0.084
4.260
6990
99
Tc1b
6768
0.211
3.458
6820
124
Tc1b
131
0.045
3.191
6996
1 20
Tc1b
57
0.168
2.986
6825
120
Tc1b
1 4
0.305
1.894
6997
104
Tko2
25
0.414
2.184
6829
121
Qtu2
117
0.786
1.534
7003
121
Qd1
7
0.116
4.436
6833
121
Th3
27
0.838
2.240
7011
114
Tc1
308
0.189
2.923
6834
114
Qa1
90
0.271
2.215
7014
133
Tclb
19
0.120
2.940
6839
106
Qui
31
0.036
2.213
7015
120
To2
182
1.280
2.107
6845
106
Qa1
67
0.135
3.169
7018
103
To2
32
0.331
1.930
6847
107
Tc1
9001
0.244
2.958
7031
107
Qri
76
0.149
3.040
6853
133
Qr1
142
0.092
3.365
7032
101
Qbdl
9
0.133
3.177
6854
106
Qbd1
27
0.442
1.526
7037
199
To2a
1 1834
0.250
3.340
6858
102
Qa1
4
0.106
1.414
7041
1 04
GTuk2
5
0.121
3.379
6859
121
Tc1b
6768
0.211
3.458
7042
106
Tc1
1 8
0.355
1.684
6860
121
To2
269
1.025
1.777
7043
121
To2
36
0.329
2.123
6866
102
water
3
0.038
4.198
7045
11 5
To2
20
0.258
2.442
6870
199
Qh1
1 4
0.117
4.512
7048
133
Tclb
52
0.237
2.190
6874
117
To2a
343
0.690
1.727
7052
104
To2
170
0.178
2.751
6883
122
Th3
62
1.400
1 .489
7053
101
Qbdl
1 2
0.081
2.897
6887
11 1
Qh1
3834
0.171
3.644
7054
120
Qri
27
0.248
2.752
6892
198
Qui
63
0.203
3.500
7058
124
Qr1
37
0.308
2.533
6894
123
Tko2
1 2
0.41 9
2.853
7059
120
Tclb
1 1
0.193
2.285
6895
124
Qd1
1 6
0.027
1.944
7060
120
To2a
26
0.417
2.772
6900
103
Tko2
1 34
C.318
2.872
7063
124
Tclb
92
0.153
2.919
6901
103
Qa1
1 7
0.050
2.432
7064
106
CM
O
H-
171
0.126
3.020
6902
121
Qui
1 5
0.489
1 391
7065
107
Tclb
9
0.227
1.877
6905
124
Tc1b
57
0.025
1.866
7067
103
Qul1
1 5
0.041
2.513
6907
1 1 4
Tc1
37
0.024
1 .937
7068
1 02
Qh1
8
0.039
2.427
6932
198
Tclb
5 6
0.023
1 366
7070
107
Gull
•81
0.079
3.272
6935
121
Qui
1 9
0.606
1.382
7077
103
Qul1
1266
0.155
3.191
6940
120
QTu2
1447
Q.429
2.719
7083
1 1 5
To2
1 6
0.311
2.073
6944
106
Qa1
33
0.025
1.941
7084
1 33
Tc1 b
6768
0.211
3.458
6945
123
Tc1b
32
0.022
1.748
7086
1 08
Qq1
27
0.291
2.268
6947
106
Qbd1
351
0.187
2.780
7087
1 1 4
QTd1
939
0.226
5.057
6954
106
Tc1 b
85
0.281
2.191
7089
101
Tc1
9001
0.244
2.958
6956
121
QTu2
26
0.972
1 .976
7092
103
Qul1
122
0.144
2.906
6958
11 1
Qhl
63
0.069
3.398
7094
121
QTu2
1899
0.421
2.652
6963
107
Qbd1
1 6
0.108
2.649
7097
1 33
Qri
6113
0.141
4.041
6969
107
Tko2
63
0.356
2.257
7098
137
Tclb
6768
0.211
3.458
6976
120
Qd1
53
0.308
2.979
7103
134
To2
114
0.913
2.358
6977
103
Qbdl
1 2
0.381
1.483
7105
1 20
Tclb
6768
0.211
3.458
6982
121
To2a
84
0.297
2.800
7108
1 98
Tel b
6768
0.211
3.458
6983
108
Qal
48
0.485
1 .854
7109
107
Qul1
59
0.063
3.111
6984
1 1 3
QTd1
105
0.259
2.040
7115
1 20
Tc1 b
43
0.099
3.026
6985
107
Qbd1
10491
0.106
3.846
7117
1 98
Qr1
160
0.081
3.136
6987
103
Tapl
21
0.184
3.761
7118
106
Qul1
77
0.175
2.651
C- 23
-------
Table C-l (continued)
Statistical Summary of Ra-226 from NURE Aeroradiometric Data.




Geom.





Geom.

Polygon
Statsgo
Geology
No. of
Moan
Geom.
Polygon
Statsgo
Geology
No. of
Mean
Geom.
No.
No.
Class
Points
(pGi/g>
. S.D.
No.
No,
Class
Points
(pCi/g)
S.D.
7126
133
Tc1 b
1 2
0.119
3.039
7276
99
Qrl
243
0.113
3.829
7129
1 33
Qr1
48
0.130
3.351
7279
106
Qui
22
0.180
2.718
7132
1 28
Qr1
21
0.043
2.996
7281
107
Tc1
9001
0.244
2.958
7136
199
Qhl
8
0.072
3.624
7284
104
Qtu2
42
0.299
1.931
7137
1 98
Qr1
25
0.088
2.987
7291
103
Qui
53471
0.155
3.814
7143
115
Qul1
56
0.254
2.788
7293
1 28
Ths1
117
0.258
2.606
7145
134
Qtu2
60
0.912
2.228
7295
121
QTu2
1899
0.421
2.652
7146
114
Qui
1 9
0.231
2.211
7297
1 1 5
Qr1
68
0.444
2.419
7149
120
To2
38
0.429
1.448
7298
106
To2
4707
0.350
3.008
7151
107
Tc1 b
6768
0.211
3.458
7311
124
Qui
55
0.152
2.585
7152
107
Qtu2
45
0.362
2.164
7316
124
Qui
203
0.295
2.732
7153
128
Qrl
28
0.219
2.482
7317
106
Qa1
8
0.121
2.574
7154
128
Tc1 b
76
0.329
2.111
7318
121
To2
4707
0.350
3.008
7158
121
Qd1
58
0.098
3.912
7321
133
Ths1
117
0.258
2.606
7163
113
Tc1
41
0.122
2.735
7322
124
Tc1b
2
0.660
1.238
7165
103
To2a
95
0.216
3.403
7326
199
Qh1
3834
0.171
3.644
7166
128
Qr1
43
0.343
2.566
7330
106
Tc1
9001
0.244
2.958
7167
133
Tc1b
66
0.135
2.412
7341
99
To2
84
0.066
3.298
7169
107
To2
23
0.067
3.706
7342
103
Qa1
30
0.627
1.774
7172
124
Tc1 b
21
0.175
3.027
7347
120
Qui
36
0.138
3.412
7182
107
To2
145
0.192
2.748
7349
107
Tc1
83
0.104
3.262
7183
121
To2
90
0.239
2.375
7353
103
Qui
34
0.230
3.411
7184
1 06
Qul1
354
0.124
2.906
7355
124
Tc1b
21
0.064
3.427
7186
114
Qa1
1 2
0.351
1.465
7360
1 1 5
Qul1
4
0.250
1.361
7190
106
Qa1
33
0.423
2.241
7361
106
Qtu2
23
0.092
3.513
71 95
1 20
Qtu2
4
0.388
1.191
7368
1 1 1
Qq1
31
0.279
1.890
7197
121
QTu2
68
0.168
3.184
7370
1 20
To2
8
0.207
3.069
71 99
1 24
Tc1b
6
0.365
2.009
7377
108
Qa1
1 5
0.223
3.148
7205
103
Qul1
6 5
0.159
2.785
7380
1 98
Tclb
1 34
0.069
3.421
7207
1 24
Tc1b
6768
0.211
3.458
7382
1 34
To2
48
0.248
2.320
7210
124
Tc1b
6768
0.211
3.458
7385
1 20
Qui
1 0
0.190
1.766
7215
106
Qr1
6113
0.141
4.041
7386
1 1 5
Tc1 b
5
0.374
2.205
7219
103
Qui
53471
0.155
3.814
7388
107
To2a
297
0.227
2.724
7220
199
water
7
0.071
3.171
7389
107
Qtu2
1 6
0.141
2.918
7229
128
Tc1 b
6768
0.211
3.458
7394
133
Ths1
1 1 7
0.258
2.606
7232
103
Qr1
6113
0.141
4.041
7395
107
Td b
1
0.267
4.000
7235
106
Qui
32
0.160
2.445
7401
105
Qull
1266
0.155
3.191
7242
101
Tc1
9001
0.244
2.958
7405
129
Qtu2
1899
0.421
2.652
7243
198
Tc1b
6768
0.211
3.458
7407
120
Qui
53471
0.155
3.814
7244
104
QTuk2
1072
0.084
4.260
7408
198
Tc1b
6768
0.211
3.458
7248
124
Tc1b
6768
0.211
3.458
7418
11 5
Qr1
1 6
0.146
2.722
7252
99
Qui
7
0.293
1.827
7421
11 5
Qui
2
0.105
5.095
7256
107
To2
126
0.315
3.391
7423
101
To2
31
0.428
2.454
7263
106
Tc1
9001
0.244
2.958
7424
99
Qul1
1 266
0.155
3.191
7265
120
Qd1
389
0.192
2.893
7428
120
Ths1
3
0.211
2.774
7268
124
Ths1
11 7
0.258
2.606
7430
111
Qh1
3834
0.171
3.644
C- 24
-------
Table C-l (continued)
Statistical Summary of R.a-226 from NURE Aeroradiometric Data.




G«om.





Geom.

Polygon
Statsgo
Geology
No. of
Mean
Geom.
Polygon
Statsgo
Geology
No. of
Mean
Geom.
No.
No.
Class
Points
(pCi/gj
S.D.
No.
No.,
Class
Points
CpCi/g)
SD.
7431
102
Qh1
3834
0.171
3.644
7566
217
Qr1
25
0.363
2.788
7433
103
Qh1
1 5
0.582
1.702
7567
1 99
To2a
33
0.353
2.942
7434
199
water
270
0.102
3.502
7572
121
Ts2
3
0.252
2.232
7439
124
Tc1b
6768
0.211
3.458
7573
215
Qr1
599
0.513
2.411
7441
133
Tc1 b
6768
0.211
3.458
7580
120
Quel
8066
0.126
3.768
7442
124
Ths1
1 3
0.307
1.652
7581
134
To2
4707
0.350
3.008
7445
129
Quel
8066
0.126
3.768
7583
118
To2a
59
0.386
1.764
7448
134
Qtu2
1899
0.421
2.652
7585
120
Ths1
11 7
0.258
2.606
7449
103
To2
1 4
0.218
2.828
7588
1 1 1
Qh1
3834
0.171
3.644
7450
130
Ths1
101
0.254
2.729
7590
120
Qui
65
0.260
2.101
7454
120
Qr1
1 3
0.194
2.201
7595
124
Qull
1266
0.155
3.191
7455
103
Qd1
23
0.242
2.133
7599
120
Ts2
5077
0.352
2.652
7456
1 24
Ths1
1 l 7
0.258
2.606
7604
106
Qh1
3834
0.171
3.644
7457
1 98
Tclb
6768
0.211
3.458
7609
120
To2
4707
0.350
3.008
7460
129
Qtu2
231
0.396
1.835
7610
120
Ths1
117
0.258
2.606
7462
120
Qui
53471
0.155
3.814
7614
130
Qui
53471
0.155
3.814
7464
1 99
To2a
1 7
0.154
2.278
7622
108
Qbdal
1 58
0.239
2.B81
7472
1 20
Quel
8066
0.126
3.768
7623
114
Qbd1
8
0.417
1.888
7477
129
To2
23
0.243
2.268
7624
128
Quel
8066
0.126
3.768
7479
1 20
Qul1
45
0.263
3.057
7628
121
Ts2
11 4
0.641
1.653
7480
1 20
Tc1b
2333
0.265
3.481
7632
134
To2
80
0.278
2.974
7483
133
Ths1
1 1 7
0.258
2.606
7639
134
Qtu2
125
0.472
1.643
7485
120
Qui
85
0.206
2.481
7648
122
Ts2
381
0.445
1.967
7492
103
Qui
1
0.500
4.000
7651
106
To2a
3
0.241
1.227
7502
134
Qtu2
56
0.518
1.494
7658
195
Qrl
25
0.540
1.503
7503
1 20
Qui
4
0.448
1.293
7660
1 20
Quel
1 6
0.687
1.451
7510
123
Qtu2
64
0.361
2.184
7662
11 5
Qull
1 266
0.155
3.191
7511
1 20
Quel
28
0.180
3.320
7668
124
Qui
9
0.187
3.183
7513
133
Tc1 b
6768
0.211
3.458
7670
1 98
water
321
0.068
3.737
7517
1 23
Quel
64
0.310
2.298
7671
137
To2
5
0.292
1.440
7520
129
Qd1
1
0.300
4.000
7681
1 1 1
Qbdal
1 58
0.239
2.881
7524
124
Te1 b
47
0.31 1
2.031
7686
1 20
Qui
84
0.176
3.070
7527
1 20
Qr1
35
0.330
2.862
7687
121
Ts2
1 3
0.418
1.602
7528
1 1 4
Qa1
41
0.465
2.042
7688
103
To2
309
0.600
1.947
7536
217
Qbd1
24
0.325
2.232
7689
122
QTu2
1 899
0.421
2.652
7537
217
Qull
74
0.278
2.278
7692
1 24
Qull
1 2
0.084
3.427
7539
215
Qul1
1 1 5
0.420
2.053
7699
121
QTu2
42
0.405
2.025
7540
11 5
To2
63
0.232
2.314
7702
124
Qui
27
0.256
2.431
7544
130
Qul1
46
0.385
2.073
7707
1 28
QTu1
14
0.531
1.346
7549
121
To2
17
0.611
1.482
7708
128
Tclb
21
0.325
1.712
7550
128
Qr1
22
0.194
3.050
7709
1 1 5
Qui
45
0.320
2.062
7551
124
Quel
94
0.306
2.398
7711
137
QTu1
29
0.418
1.795
7553
105
Qui
68
0.346
2.385
7713
1 20
Quel
31
0.315
2.555
7554
133
Qr1
131
0.168
3.727
7719
124
Qui
1 7
0.152
3.906
7555
121
QTu2
166
0.389
2.103
7728
102
water
5995
0.069
3.708
7562
105
Qul1
1 5
0.303
2.205
7737
102
Qbdal
158
0.239
2.881
C- 25
-------
Table C-l (continued)
Statistical Summary of Ra-226 from NURE Aeroradiometric Data.




Geom.





G«om.

Polygon
Statsgo
Geology
No. of
Mean
Geom.
Polygon
Statsgo
Geology
No. of
Mean
Geom.
No.
No.
Class
Points
(pCi/g)
S.D.
No.
No,
Class
Points
(pCi/g)
S.D.
7739
103
Quel
151 1
0.167
2.993
7903
133
Tc1b
6768
0.211
3.458
7741
134
To2
105
0.393
1.895
7908
99
Tc1 b
6768
0.211
3.458
7745
104
To2
33
0.313
2.238
7910
1 1 1
Qh1
3834
0.171
3.644
7755
100
Qul1
26
0.332
1.656
7911
11 1
Qh1
3834
0.171
3.644
7758
11 4
Qd1
25
0.205
3.217
7915
1 1 1
Qbdal
158
0.239
2.881
7759
137
Qd1
30
0.466
1.491
7923
120
Ts2
5077
0.352
2.652
7761
121
T 32
35
0.410
1.741
7925
106
Qh1
3834
0.171
3.644
7764
104
To2
72
0.500
1.546
7928
114
Qa1
1 4
0.179
3.842
7770
120
QTu2
128
0.560
1.754
7930
121
Th2
113
0.236
2.623
7774
128
Quel
8066
0.126
3.768
7933
215
Qbd1
46
0.316
1 .980
7779
107
an
6113
0.141
4.041
7938
106
Qsu1
92
0.152
3.395
7787
215
Qbdl
10491
0.106
3.846
7939
11 1
Qbdal
1 58
0.239
2.881
7788
112
Qui
53471
0.155
3.814
7941
199
water
1 4
0.433
1.865
7789
120
Qui
53471
0.155
3.814
7943
137
QTu2
22
0.276
2.331
7790
106
Ts2
5077
0.352
2.652
7945
133
Tc1b
31
0.148
3.066
7798
107
Ts2
586
0.335
2.799
7946
115
To2
1 9
0.382
1.689
7800
100
Qui
51
0.233
2.944
7950
103
Tc1b
5
0.350
1.619
7801
198
Tc1 b
9
0.262
1.648
7954
100
Qbd1
1 1 6
0.202
2.819
7802
195
Qr1
6113
0.141
4.041
7956
124
Tdb
29
0.232
2.344
7806
120
Quel
8066
0.126
3.768
7962
104
To2
79
0.380
1.892
781 1
137
To2
1 2
C.302
1 985
7965
11 8
Ts2
1 03
0.499
2.537
781 5
112
Qui
53471
0.155
3.814
7968
121
Th2
22
1.579
1.475
781 9
100
Qsu1
22
0.192
2.478
7973
137
Qd1
34
0.276
2.212
7826
107
Qa1
6626
0.126
4.240
7976
108
Oh1
3834
0.171
3.644
7827
106
Qa1
1 1
0.330
2.640
7981
103
To2
1 7
0.283
1.885
7829
121
QTu2
1899
0.421
2.652
7982
120
Qui
131
0.180
3.120
7831
199
Qhl
3834
0,171
3.644
7983
106
Qui
5
0.226
2.280
7834
100
Qui
8
0.128
3.034
7984
1 1 3
Tc1b
1 6
0.215
2.892
7835
121
Th2
2054
C.352
2.538
7985
106
Qbd1
267
0.130
3.121
7846
1 22
Th2
533
0.428
1.939
7987
104
Tc1 b
1 7
0.235
3.009
7851
11 1
Qh1
3834
0.171
3.644
7992
137
Tc1b
1 57
0.123
3.536
7854
1 20
Quel
8066
0.126
3.768
7994
1 1 2
Qbd1
10491
0.106
3.846
7855
111
Qh1
3834
0.171
3.644
8002
1 98
Tc1b
6768
0.211
3.458
7859
106
Qbd1
10491
0.106
3.846
8006
104
Quel
142
0.106
3.375
7863
1 1 4
Qdl
46
0.317
2.623
8007
1 1 3
Quel
8066
0.126
3.768
7870
106
Qd1
22
0.167
3.956
8010
1 98
Tc1 b
6768
0.211
3.458
7874
106
Qa1
9
0.972
2.293
8015
137
Tc1 b
6768
0.211
3.458
7878
106
Qbdal
1 58
0.239
2.881
8016
106
Qbdal
1 51
0.240
2.931
7883
133
Tc1 b
6768
0.211
3.458
8017
104
Quel
8066
0.126
3.768
7889
217
Qsu1
64
0.216
2.785
8018
103
To2
302
0.305
2.064
7892
1 28
Tc1b
1 5
0.066
3.257
8021
106
Qd1
2879
0.148
3.736
7896
106
Ts2
3
0.061
3.474
8023
120
Th2
52
0.156
2.344
7899
106
Qbd1
2227
0.152
3.759
8032
104
Quel
8066
0.126
3.768
7900
100
Qbd1
86
0.192
2.946
8035
137
Tc1b
25
0.238
3.005
7901
100
Qbd1
10491
0.106
3.846
8036
104
Quel
8066
0.126
3.768
7902
124
Tc1b
169
0.397
2.073
8038
215
Qsu1
27879
0.085
3.726
C- 26
-------
Table C-l (continued)
Statistical Summary of Ra-226 from NXJRE Aeroradiometric Data.




Gvom.





Geom.

Polygon
Statsgo
Otology
No. of
Mean
Geom.
Polygon
Statsgo
Geology
No. of
Mean
Geom.
No.
No.
Class
Points
(pCi/R)
S.D.
No.
No.
Class
Points
(pCi/R)
S.D.
8039
124
Tclb
6768
0.21 1
3.458
8173
106
Tc1 b
51
0.337
2.800
8040
121
Th2
342
0.451
2.083
8177
1 1 5
Tht1
3
0.373
1.214
8041
11 5
Qbd1
9
0.196
2.764
8182
11 1
Qh1
3834
0.171
3.644
8043
121
Th2
2054
0.352
2.538
8183
103
Tht1
40
0.260
2.354
8044
137
Qd1
2879
0.148
3.736
8106
1 98
Tclb
6768
0.211
3.458
8046
106
Qui
1007
0.115
3.370
81 91
216
Qr1
6113
0.141
4.041
8049
137
Qd1
2879
0.148
3.736
8193
100
Qui
53471
0.155
3.814
8050
104
To2
36
0.320
2.159
8195
100
Qbd1
1 1
0.168
1.858
8053
120
Qd1
2879
0.148
3.736
8197
104
Quel
8066
0.126
3.768
8056
106
Qsu1
46
0.351
2.535
8205
104
To2
1 9
0.309
1.752
8069
216
Qr1
6113
0.141
4.041
8206
107
Qbd1
1 4
0.184
2.262
8072
217
Qsul
59
0.342
2.579
8210
100
Qbd1
10491
0.106
3.846
8073
137
To2
51
0.387
1 .986
8213
1 1 5
To2
4707
0.350
3.008
8076
106
Qa1
6626
0.126
4.240
821 5
100
Qui
1 2
0.207
2.487
8078
215
Qbd1
1 5
0.212
1.868
8216
106
Qsul
27879
0.085
3.726
8089
198
Tc1 b
25
0.106
3.207
8217
199
Ts2
6
0.055
3.886
8092
198
Tc1 b
6768
0.211
3.458
8220
1 1 2
Qui
53471
0.155
3.814
8102
217
Qr1
10
0.219
2.947
8221
1 1 2
Qui
68
0.133
4.013
8106
112
Qui
53471
0.155
3.814
8224
103
To2
4707
0.350
3.008
B107
104
Quel
24
0.169
2.749
8225
128
Quel
8066
0.126
3.768
8111
215
Qsu1
1 1
0.337
1.740
8226
106
Ts2
30
0.162
2.667
81 12
124
Tclb
1 5
0.136
2 568
8230
107
Tclb
6768
0.211
3.458
81 13
137
Th2
26
0.401
2.133
8234
115
To2
21
0.184
3.193
8117
137
Quel
4
0.104
3.697
8235
1 1 4
Qbdal
158
0.239
2.881
81 20
217
Qsu1
83
0.179
3.150
8237
102
water
5995
0.069
3.708
8121
1 24
Tclb
1 9
0.141
3.418
8244
103
QTul
66
0.280
1.707
81 23
112
Qui
53471
0.155
3.814
8247
100
Th2
40
0,181
2.773
8124
1 37
Qui
1 0
0.275
1 .718
8251
1 24
Quel
89
0.179
2.376
8125
1 20
Th2
228
0.503
2.480
8252
129
Qui
108
0.163
3.015
8129
1 20
Qdl
149
0.257
2.528
8253
107
Qbd1
25
0.082
3.010
8130
107
Qui
244
0.105
3.383
8254
1 33
Tclb
1 8
0.090
4.295
8136
100
Tclb
1 2
0.252
1.507
8256
129
Th2
30
0.277
2.769
8137
114
Qd1
26
0.339
2.596
8257
102
water
5995
0.069
3.708
8139
120
Qui
27
0.065
3.456
8261
100
Qbdl
11 3
0.099
3.092
8140
1 98
Tclb
7
0.050
4.493
8262
133
Quel
35
0.141
2.899
8142
1 99
water
5995
0.069
3.708
8268
107
Qui
116
0.089
3.871
8145
216
Qsul
28
0.388
1.938
8269
107
Qbd1
1 8
0.113
3.180
8147
1 1 5
To 2
20
0.402
1.550
8272
1 20
Ts2
52
0.562
1.690
8156
106
Qa1
6626
0.126
4.240
8277
106
Th2
97
0.184
2.468
8160
124
Quel
8066
0.126
3.768
8287
107
Qui
59
0.126
3.402
8161
103
QTu1
6990
0.252
3.085
8294
99
Qbd1
33
0.056
3.370
8164
100
To2
4707
0.350
3.008
8296
1 14
Qh1
3834
0.171
3.644
8166
124
Tclb
6768
0.211
3.458
8298
1 14
Qa1
31
0.443
1.845
8168
21 5
Qsul
135
0.259
2.313
8304
107
Qbd1
46
0.119
3.022
8171
1 20
Quel
8066
0.126
3.768
8310
99
Qbd1
20
0.043
3.204
8172
104
Quel
76
0.082
3.080
8320
104
QTu1
58
0.378
1.678
C-
27
-------
Table C-l (continued)
Statistical Summary of Ra-226 from NURE Aeroradiometric Data.




Geom.





Geom.

Polygon
Statsgo
Geology
No. of
Mean
Geom.
Polygon
Statsgo
Geology
No. of
Mean
Geom.
No.
No.
Class
Points
(pCi/g)
S.I).
No.
No.
Class
Points
(pCi/g)
3.D.
8324
129
Th2
17
0.347
2.177
8439
215
Qsul
75
0.225
2.501
8327
106
Qui
780
0.152
3.020
8440
122
Th2
3
0.309
2.153
8329
103
Qui
102
0.167
2.977
8442
217
Qbd1
41
0.177
2.988
8330
103
Th2
135
0.192
2.732
8446
107
Qui
28
0.196
3.137
8342
106
Qsul
59
0.145
2.607
8449
130
Qui
1 1
0.095
3.370
8343
107
Tc1 b
30
0.229
2.189
8452
11 5
Qui
62
0.178
2.512
8346
100
Tc1b
26
0.134
3.117
8455
129
Th2
6
0.621
2.121
8348
104
Quel
21
0.127
2.800
8457
1 1 5
Tht 1
161
0.171
2.880
8349
103
To2
4707
0.350
3.008
8458
129
Ts2
25
0.483
2.889
8352
107
Quel
296
0.097
2.972
8463
115
Ts2
138
0.248
2.503
8356
106
Qui
53471
0.155
3.814
8464
129
Qui
1 64
0.210
2.610
8362
103
To2
1 80
0.293
2.239
8468
107
Qbdi
31
0.048
3.233
8363
106
To2
7
0.189
1.779
8470
107
Qbdl
21
0.222
2.382
8364
107
Qui
53471
0.155
3.814
8471
103
Tht1
31
0.225
2.145
8366
129
Qd1
2879
0.148
3.736
8477
106
Qui
9
0.198
2.289
8368
120
Qui
53471
0.155
3.814
8481
99
water
33
0.047
3.221
8370
100
Qui
52
0.133
3.335
8482
107
Quel
21
0.080
3.707
B372
218
Qr1
230
0.347
6.343
8485
105
Qui
53471
0.155
3.814
8373
104
Quel
8066
0.126
3.768
8486
199
Qbdal
158
0.239
2.881
8375
106
Th2
22
0.171
2.551
8487
106
Thl
1 5
0.117
3.048
8376
129
Th1
5302
0.319
2.745
8488
1 03
Qui
53471
0.155
3.814
8377
115
To2
83
0.242
2.619
8489
129
Thtl
235
0.193
2.713
8378
21 5
Qbd1
39
0.190
2.481
8492
103
Quel
8066
0.126
3.768
6382
195
Qr1
61 13
0.141
4.041
8493
103
Ts2
65
0.147
2.819
8387
107
Qbd1
10491
0.106
3.846
8495
107
Qbd1
1C491
0.106
3.846
8391
21 5
Qr1
45
0.206
3.087
8496
103
Gu1
66
0.133
2.951
8392
105
Qui
91
0.157
3.092
8497
101
Qui
53471
0.155
3.814
8393
217
Qsu1
1 06
0.352
2.166
8499
129
Qui
24
0.501
2.179
8394
103
Quel
8066
0.126
3.758
8501
1 1 5
Qui
53471
0.155
3.814
8396
127
Th2
2054
C.352
2.538
8502
106
Qsul
27879
0.085
3.726
8397
106
Thl
1 5
0.178
2.573
8503
1 1 5
Qui
53471
0.155
3.814
8401
105
Qui
5 1
0.191
3.315
8505
100
Qui
1 9
0.266
2.198
8403
102
water
5995
0.069
3.708
8506
103
Thpb4
740
0.324
3.320
8405
99
water
1 93
C.036
2.828
8508
129
Qui
53471
0.155
3.814
8406
100
Qui
26
0.21 1
2.669
8510
195
Qr1
6113
0.141
4.041
841 1
129
Qui
68
0.119
3.363
8512
103
Ts2
106
0.288
2.070
8414
107
Quel
8066
0.126
3.768
8513
215
Qa1
47
0.148
3.083
841 5
11 5
To 2
4707
0.350
3.008
8515
106
Qui
91
0.130
3.055
8419
103
Quel
8066
0.126
3.768
8527
21 5
Qsul
132
0.188
2.611
8420
218
Qsu1
9
0.401
1.911
8530
106
Qbdal
158
0.239
2.881
8421
106
Th2
36
0.173
2.513
8531
107
Qui
138
0.054
3.046
8426
102
Qbdal
7
0.226
1.854
8532
106
Qui
53471
0.155
3.814
8427
1 1 5
Quel
8066
0.126
3.768
8535
1 20
QTd1
155
0.120
3.560
8430
1 1 4
Qa1
1 22
0.106
3.514
8538
106
Ts2
5077
0.352
2.652
8436
106
Qa1
538
0.166
4.178
8541
103
Qui
53471
0.155
3.814
8438
129
Ts2
223
0.420
2.652
8544
99
Qbd1
10491
0.106
3.846
C-
28
-------
Table C-l (continued)
Statistical Summary of Ra-226 from NTJRE Aeroradiometric Data.




Geom.





Geom.

Polygon
Statsgo
Geology
No. of
Mean
Geom.
Polygon
Statsgo
Geology
No. of
Mean
Geom.
No.
No.
Class
Points
(pCi/g)
SD.
No.
No.
Class
Points
(pCi/g)
SD.
8545
113
Quel
11
0.503
1.918
8677
1 20
That2
286
0.257
2.646
8546
107
Quel
44
0.072
3.181
8680
1 1 0
Ts2
2
0.425
1.633
8551
11 5
Qui
53471
0.155
3.814
8683
103
Ts2
5077
0.352
2.652
8552
105
Qui
53471
0.155
3.B14
8685
103
Te3
867
0.188
3.378
8553
129
Qui
25
0.311
1.832
8687
107
Qui
53471
0.155
3.814
8555
99
Qui
53471
0.155
3.814
8688
107
Qui
166
0.182
2.968
8556
103
Th2
2054
0.352
2.538
8689
103
Thpb4
1 4
0.633
1.658
8557
107
Qbd1
10491
0.106
3.846
8690
107
Qui
53471
0.155
3.814
8558
100
Qui
53471
0.155
3.814
8691
105
Qui
82
0.082
3.147
8562
120
Quel
37
0.181
1.828
8692
105
Qui
43
0.119
2.878
8564
104
Qui
53471
0.155
3.814
8709
120
Quel
390
0.157
3.470
8565
1 1 5
Ts2
5077
0.352
2.652
8714
106
Qui
2915
0.101
3.310
8568
100
Qui
53471
0.155
3.314
871 9
1 20
Quel
86
0.172
2.785
8571
215
Qbd1
10491
0.106
3.846
8722
99
Qui
53471
0.155
3.814
8573
103
Qui
53471
0.155
3.814
8726
1 1 5
Qui
284
0.118
3.043
8575
115
Qui
47
0.293
2.229
8727
198
Quel
8066
0.126
3.768
8580
101
Qui
53471
0.155
3.314
8728
1 13
Quel
1 7
1.160
3.220
8584
103
Qui
70
0.167
2.770
8732
99
Qui
30
0.086
3.502
8587
103
Qui
1 3
0.110
2.126
8739
110
Thpb5
233
4.353
2.208
8589
129
Qui
53471
0.155
3.814
8740
120
Qui
53471
0.155
3.814
8595
218
Qsu1
27879
0.085
3.726
8748
103
Ts2
1 1 5
0.129
2.731
8596
129
Ts2
5077
0.352
2.652
8749
11 5
Thpb4
1 31
0.460
1.870
8597
21 5
Qr1
49
0.129
3.501
8750
103
Thal2
20
0.170
2.337
8600
103
T s2
5077
0.352
2.652
8760
215
Qr1
30
0.258
2.251
8604
100
Qbdl
10491
0.106
3.846
8761
1 98
Tc3
1 9
0.038
2.366
8607
11 5
Qui
1 2
0.062
2.495
8762
1 1 5
That2
66
0.315
2.344
8610
103
Quel
6
0.195
1.996
8766
21 8
Qbdl
1 54
0.095
3.074
8613
199
wate r
1 74
0.122
3.419
8775
107
QTd1
28
0.125
2.955
8616
106
Qsu1
27879
0.085
3.726
B776
129
Qd1
1 7
0.441
2.261
8617
103
Quel
8066
0.126
3.768
8779
106
Qsul
362
0.235
4.030
8619
1 24
Qui
53471
0.155
3.814
8784
103
Qui
34
0.189
2.212
8623
103
Qui
53471
0.155
3.814
8801
103
Qu2
72
0.397
2.076
8631
105
Qui
53471
0.155
3.814
8803
133
Quel
1 8
0.091
2.978
8633
1 20
Qui
33
0.211
3.104
8804
1 20
QTd1
27
0.129
2.868
8636
120
Quel
4
0.704
1 .323
8813
129
Th2
9
0.595
2.338
8637
120
Tc3
211
0.184
2.572
8820
99
Th2
5
0.222
1.551
8646
215
Qbd1
1 5
0.095
3.184
8823
218
Qsul
25
0.167
2.902
8647
107
Qbdl
10491
0.106
3.846
8832
101
- QTd1
939
0.226
5.057
8650
215
Qa1
6626
0.126
4.240
8833
107
Qr1
6113
0.141
4.041
8654
11 3
Te3
259
0.428
2.544
8835
106
Tc3
867
0.188
3.378
8659
101
Qui
53471
0.155
3.814
8848
103
Qui
53471
0.155
3.814
8660
101
Qui
4 1
0.080
3.414
8852
107
Qui
53471
0.155
3.814
8665
1 1 3
Quel
8066
0.126
3.768
8857
103
Thpb4
1 9
0.529
1.730
8667
106
Qui
43
0.120
2.897
8860
99
water
5995
0.069
3.708
8668
107
Qui
53471
0.155
3.814
8861
105
Qui
53471
0.155
3.814
8674
195
Qr1
4
0.083
2.983
8865
99
water
5995
0.069
3.708
C-
29
-------
Table C-l (continued)
Statistical Summary of Ra-226 from NURE Aeroradiometric Data.




Geom.





Geom.

Polygon
Statsgo
Geology
No. of
Mean
Geom.
Polygon
Statsgo
Geology
No. of
Mean
Geom.
No.
No.
Class
Points

. S.D.
No.
No..
Class
Points
(pOi/g)
S.D.
8867
107
That2
285
0.257
2.646
9019
101
Thpb4
34
0.204
2.691
8871
1 98
Quel
8066
0.126
3.768
9023
103
Qui
41
0.112
2.939
8874
106
Th2
74
0.282
2.196
9027
124
Quel
58
0.148
2,746
8875
112
Qui
53471
0.155
3.814
9028
100
Qui
179
0.235
3.125
8880
120
Qui
53471
0.155
3.814
9030
215
Qr1
67
0.668
3.722
8881
100
QTd1
939
0.226
5.057
9033
103
Qbd1
9
0.210
2.345
8882
1 1 3
Thpb4
3895
0.195
4.508
9035
133
Quel
33
0.082
3.451
8885
129
Qui
53471
0.155
3.814
9040
129
Thpb4
43
0.777
2.595
8887
103
Qui
53471
0.155
3.814
9041
124
Th2
2054
0.352
2.538
8889
115
Qui
53471
0.155
3.814
9045
1 1 2
Qui
53471
0.155
3.814
8895
103
Tc3
867
0.188
3.378
9046
107
Qbd1
4
0.086
3.112
8901
1 29
Th2
2054
0.352
2.538
9048
106
Qr1
7
0.052
2.941
8904
107
Qui
73
0.095
3.169
9054
1 30
That2
1
0.017
4.000
8910
120
Qui
53471
0.155
3.814
9056
1 20
Quel
1 9
0.132
2.176
8911
120
Th2
2054
0.352
2.538
9057
103
Thpb4
66
1.006
12.905
8915
106
Qr1
1 3
0.389
1.351
9058
120
Quel
69
0.090
3.152
8917
1 20
Quel
3066
0.126
3.768
9060
1 20
Th2
2054
0.352
2.538
8918
103
Qui
98
0.120
2.911
9062
215
Qsu1
43
0.469
4.529
8920
120
Qu2
181
0.350
2.442
9068
124
QTd1
939
0.226
5.057
8923
99
Thpb4
3895
0.195
4.508
9069
103
Qui
88
0.159
2.801
8936
106
Tc3
867
0.188
3.378
9073
107
• Qui
30
0.388
2.434
8941
107
Thpb4
3895
0.195
4.508
9074
1 1 2
Qui
53471
0.155
3.814
8945
106
Thpb4
80
0.824
2.499
9075
104
Qui
53471
0.155
3.814
8946
106
Qsu1
9
0.080
2.745
9077
112
That2
80
0.237
2.652
8951
198
Quel
8066
0.126
3.768
9080
1 1 2
Thpb4
1 5
0.041
2.822
8959
107
Quel
6
0.332
1 .697
9089
120
Thpb4
1 3
0.360
1.578
8961
198
Quel
8066
0.126
3.768
9090
104
Qal
6626
0.126
4.240
3962
1 30
That2
2B6
C.257
2.646
9091
110
Thpb5
1 235
0.215
6.458
8968
115
~hpb4
38
0.973
2.205
9096
198
water
48
0.320
2.419
8971
104
Qui
53471
0.155
3.814
9097
120
Qu2
31
0.450
2.109
8974
100
Qui
72
0.170
3.614
9098
105
Qui
1 7
0.066
3.653
8975
104
Qui
85
0.124
2.914
9100
110
Thpb5
1235
0.215
6.458
8976
106
Qui
53471
0.155
3.814
9105
106
That2
286
0.257
2.646
8981
107
Qsu1
1 9
0.139
3.244
9113
129
Qu2
2029
0.524
2.265
8984
103
7 e3
1 3
0.707
1.389
91 14
103
Qui
79
0.210
2.736
8993
215
Qr1
39
0.391
7.827
91 1 5
1 20
Tc3
1 7
0.208
2.319
8995
99
Qui
61
0.044
2.993
9116
1 24
Qui
53471
0.155
3.814
8998
103
Quel
61
0.456
3.020
9118
1 33
Quel
25
0.124
3.172
9000
103
Thpb4
23
0.317
2.374
9119
120
QTd1
50
0.662
2.158
9001
101
QTd1
48
0.216
2.411
9121
107
Thpb4
7
0.152
1.636
9002
1 06
Quel
9
0.275
3.083
9122
113
Thpb4
188
0.079
3.284
9003
1 00
Qbdl
1 23
0.156
3.653
9126
110
Thpb5
1 1
0.218
1.762
9004
120
That2
33
0.141
3.775
9132
129
Tha(2
1 4
0.272
3.038
9007
103
Qsu1
99
0.480
4.234
9137
129
Qu2
1 2
0.150
4.119
9012
101
Qh1
3834
0.171
3.644
9141
102
Qa1
6626
0.126
4.240
9013
123
Quel
53
0.209
2.427
9142
106
Te3
5
0.086
3.202
C- 30
-------
Table C-l (continued)
Statistical Summary of Ra-226 from NURE Aeroradiometric Data.




Ck'om.





Geom.

Polygon
Statsgo
Geology
N'o. of
Mean
Geom.
Polygon
Statsgo
Geology
No. of
Mean
Geom.
No.
No.
Class
Points
(pOi/g)
. S.D.
No.
No..
Clas6
Points
(pOi/g)
s.n.
9146
106
Qui
92
0.127
3.232
9297
1 99
Qu2
2029
0.524
2.265
9147
99
Thpb4
51
0.072
2.974
9299
101
Thpb4
3895
0.195
4.508
9149
124
Thpb4
305
0.171
2.940
9300
120
Thpr2
38
0.648
1.869
9150
99
water
373
0.119
3.419
9304
110
Tc3
167
0.079
3.353
9151
106
Quel
782
0.135
5.633
9307
101
Quel
8066
0.126
3.768
9152
101
Thpb4
59
0.151
2.954
9311
101
Quel
1 5
0.109
2.150
9155
124
Th2
2054
0.352
2.538
9317
1 1 2
Qu2
2029
0.524
2.265
91 59
198
Tc3
27
0.120
3.007
9318
106
Thpr2
135
0.605
2.427
9160
215
Qsu1
11 2
0.454
4.582
9321
215
Qsu1
1 0
0.092
3.112
9161
120
That2
21
0.477
1.501
9322
106
Quel
1 1
0.324
1.639
9164
106
Qsu1
76
0.135
3.566
9323
107
Qui
54
0.083
3.829
9167
103
Qui
25
0.148
3.090
9327
109
Qsu1
27879
0.085
3.726
9169
124
Th2
8
0.357
1.926
9328
103
Qui
53471
0.155
3.814
9176
103
Qui
50
C.240
1 997
9329
106
Th2
2054
0.352
2.538
9177
110
Thpb5
102
0.084
3.377
9332
1 06
Qui
64
0.180
3.159
9181
1 24
Qui
53471
0.155
3.814
9335
106
Qui
1 4
0.140
3.403
9183
216
Qr1
1072
C.081
3.177
9338
11 3
Thpb4
27
0.156
2.750
9184
105
Qui
9
0.160
3.285
9343
107
Quel
47
1.310
1.868
9187
1 1 2
Qu2
2029
0.524
2.265
9347
99
Qui
1 1
0.178
1.992
9188
135
Thpb5
73
0.190
2.747
9348
106
Qui
34
0.081
3.106
9191
1 20
Quel
61
0.156
2.757
9349
106
Quel
23
0.295
2.089
9192
1 00
Quel
2
1.226
1 .332
9350
104
Qa1
134
0.114
3.054
91 95
1 1 3
Thpb4
5
0.118
3.079
9353
101
Quel
25
0.251
2.510
9198
1 10
Tc3
1 2
0.327
1.703
9354
103
Qa1
339
0.270
4.474
9202
106
Qu2
57
0.249
2.390
9355
1 1 2
Qsu1
1
0.133
4.000
9209
107
water
42
0.050
2.833
9356
1 1 5
Quel
40
0.163
3.632
9214
106
Thal2
33
0.297
1.980
9357
99
Qui
34
0.174
3.082
9218
107
Cu1
53471
0.155
3.814
9360
129
Thpb4
43
0.550
2.197
9221
103
Quel
3066
0.126
3.768
3365
1 04
Qsu1
59
0.264
2.379
9225
11 5
Qui
166
0.124
3.519
9366
1 1 1
Qsul
27879
0.085
3.726
9229
107
Quel
8066
0.126
3.768
9368
104
Qui
53471
0.155
3.814
9242
110
Thpb5
749
0.096
3.451
9372
106
Qsu1
21
0.344
2.039
9250
100
Quel
9066
0.126
3.768
9373
1 24
Qui
53471
0.155
3.814
9253
120
Th2
2054
0.352
2.538
9377
101
Thpb4
33
0.977
1.366
9254
105
Qui
147
0.163
2.775
9380
106
Qr1
5
0.080
3.540
9257
99
Qui
53471
0.155
3.814
9382
1 06
Qui
53471
0.155
3.814
9258
1 20
Qui
53471
0.155
3.814
9386
99
Qui
34
0.237
1.695
9260
103
That2
286
0.257
2.646
9389
1 1 3
Thpb4
55
0.113
3.107
9261
101
Qh1
3834
0.171
3.644
9390
106
Qui
10
0.166
2.712
9266
106
Qui
53471
0.155
3.814
9397
113
Quel
38
0.667
1.776
9273
107
Quel
8066
0.126
3.768
9398
124
Thpb4
76
0.249
3.310
9278
106
Qsu1
82
0.324
2.069
9402
1 29
That2
1 3
0.360
1.798
9282
1 1 5
Thpb4
171
0.069
2.983
9405
129
Thpr2
39
0.455
1.879
9283
1 20
Thpb4
57
0.218
2.477
9407
11 2
Thpr2
136
0.204
2.894
928B
106
Qui
53471
0.155
3.814
9408
1 35
Thpb5
62
0.220
3.274
9293
106
Qui
53471
0.155
3.814
9412
1 29
Thpb4
49
0.489
4.791
C- 31
-------
Table C-l (continued)
Statistical Summary of Ra-226 from NURE Aeroradiometric Data.




(rtotn.





Geom.

Polygon
Statsgo
Geology
No. of
Mean
Geom.
Polygon
Statsgo
Geology
No. of
Mean
Geom.
No.
No.
Class
Points
(pCi/g)
• S.D.
No.
No.-
Class
Points
(pCi/g)
S.D.
9416
1 99
Th2
2054
0.352
2.538
9597
103
Thpb4
42
0.040
2.691
9417
120
Th2
2054
0.352
2.538
9600
103
Qsu1
37
0.122
2.373
9419
105
Qui
53471
0.155
3.814
9604
103
Qui
143
0.159
3.565
9423
113
Tc3
35
0.189
2.485
9606
124
Qsu1
27879
0.085
3.726
9424
130
Thpb4
23
0.543
1.727
9607
100
Qal
53
0.095
3.148
9434
103
Qui
53471
0.155
3.814
9609
103
Thpr2
73
0.209
2.727
9438
133
Quel
8066
0.126
3.768
9612
101
Qui
34
0.217
2.889
9441
106
Qui
53471
0.155
3.814
9613
110
Qh1
33
0.091
2.997
9443
106
Th2
2054
0.352
2.538
9614
21 5
Qa1
637
0.058
3.182
9444
103
Qui
1 3
0.951
1.366
9618
106
Qui
21
0.274
1.750
9448
129
Thpb4
3895
0.195
4.508
9620
106
Qu2
75
0.715
4.588
9449
120
QTd1
91
2.028
2.648
9624
100
Quel
25
4.176
2.046
3456
1 30
Thpb4
51
0.166
2.472
9625
103
Qui
86
0.154
2.664
9457
215
Qr1
126
0.076
3.364
9626
101
Quel
1 0
0.190
4.169
9458
129
Qu2
2029
0.524
2.265
9627
102
Ga1
28
0.204
2.058
9461
101
Tc3
1 0
0.062
3.353
9629
1 33
Quel
4 1
0.355
13.292
9466
103
Qui
460
0.098
3.145
9632
106
Qa1
43
0.402
2.472
9469
1 24
Th2
2054
0.352
2.538
9637
105
Qbd1
32
0.194
4.042
9470
120
QTd1
939
0.226
5.057
9641
99
Quel
1 7
1.105
2.332
9476
129
Gu2
2029
0.524
2.265
9642
107
Qui
31
2.791
4.121
9477
103
Qui
53471
0.155
3.814
9643
< 20
QTd1
3
2.780
1.110
9488
1 1 1
Qal
1 2
0.130
3.353
9644
110
Thpb5
5
0.510
1.582
9493
106
Thpb4
173
1.220
2.818
9646
107
Thpb4
3895
0.195
4.508
9497
106
Tc3
28
0.161
3.155
9648
100
Thpb4
3
0.182
1.743
9499
1 1 5
Qui
81
0.078
3.105
9649
i 00
Qu2
30
0.125
2.701
9501
99
Qui
78
0.283
2.954
9651
129
Qui
53471
0.155
3.814
9502
107
Qui
53471
0.155
3.814
9654
103
Qbd1
10491
0.106
3.846
9504
1 33
QTd1
37
3.385
1.771
9659
:07
Thpb4
3S95
0.195
4.508
9506
110
Qui
44
0.311
3.016
9660
•oo
Gbd1
1 6
0.394
1.837
9518
1 24
Qsu1
46
0.122
3.463
9662
100
Thpb4
3895
0 195
4.508
9522
106
Qui
1717
0.178
4.812
9663
1 12
Qsu2
3040
0.090
3.229
9525
129
Qu2
2029
0.524
2.265
9668
1 1 3
Thpb4
3895
0.195
4.508
9531
114
Qa1
50
0.332
4.361
9670
106
Qui
175
0.281
3.203
9537
124
Qui
53471
0.155
3.814
9671
100
Qui
62
0.571
1.603
9540
106
Thpr2
201
0.358
2.765
9672
103
Qsu2
92
0.175
2.474
9542
106
Qu2
2029
0.524
2.265
9673
100
Qbdl
10491
0.106
3.846
9549
99
Quel
31
3.054
1.888
9675
129
Quel
52
0.287
5.384
9554
129
Qsu1
60
0.186
2.542
9678
110
Qui
53471
0.155
3.814
9559
100
Qa1
50
0.123
3.777
9679
106
Qui
64
1.123
3.738
9568
21 5
Qsu1
4247
0.096
3.453
9680
102
Qh1
5
0.164
2.231
9572
103
Qui
53471
0.155
3.814
9681
108
Qh1
1 5
0.248
2.531
9573
106
Qu2
75
0.715
4.588
9685
103
Qal
49
0.089
3.120
9578
103
Qui
30
0.158
2.960
9688
100
Qui
339
0.282
3.413
9579
106
Thpb4
30
4.121
3.989
9692
107
Qui
53471
0.155
3.814
9580
104
Thpb4
101
0.189
3.028
9693
106
Thpb4
3895
0.195
4.508
9586
101
Quel
28
1.276
5.620
9694
124
Qui
28
0.169
3.247
C-32
-------
Table C-l (continued)
Statistical Summary of Ra-226 from NURE Aeroradiometric Data.




Geo in.





Geom.

Polygon
Slutsgo
Geology
No. of
Mean
Geom.
Polygon
Statsgo
Geology
No. of
Mean
Geom.
No.
No.
Class
Points
(pCi'g)
SD.
No.
No.
Class
Points
(pCi/g)
S.D.
9698
113
Thpb4
3895
0.195
4.508
9841
133
Qui
53471
0.155
3.814
9699
11 3
Qu2
23
0.139
2.519
9842
104
Qui
21
0.114
2.932
9700
11 5
Qui
38
0.073
3.134
9843
106
Qsu2
1 4
0.068
3.053
9702
108
Qa1
18
0.381
1.666
9848
106
Quel
8066
0.126
3.768
9707
106
Qui
113
0.139
3.007
9849
106
Qui
53471
0.155
3.814
970B
129
water
1 5
0.225
3.319
9851
100
Thpb4
3395
0.195
4.508
9711
106
Qsu2
57
0.180
2.738
9853
100
Thpb4
3895
0.195
4.508
9712
100
Thpb4
20
2.351
1.816
9854
103
Quel
129
0.063
3.125
9716
195
Qr1
57
0.113
3.138
9861
133
Qr1
6113
0.141
4.041
9717
110
Qh1
16
0.216
2.530
9864
100
Qui
2341
0.11 1
3.604
9718
105
Qr1
1 1
0.136
2.145
9867
198
Qr1
6113
0.141
4.041
9722
113
Tc3
64
0.119
2.971
9868
106
Thpb4
1 0
0.100
3.087
9725
198
Tci b
6768
0.211
3.458
9872
106
ThDb4
248
0.052
2.882
9726
104
Qui
1 1
0.109
2.905
9874
215
Qrl
1 72
0.110
2.875
9733
198
Cuc1
8066
0.126
3.768
9877
107
Quel
1 1
0.083
3.101
9736
110
Qui
42
0.037
2.640
9880
132
Quel
8066
0.126
3.768
9739
139
Qa1
25
0.094
2.843
9882
133
Quel
8066
0.126
3.768
9754
101
~hpb4
7
1.577
1.213
9884
104
Thpr2
4606
0.129
3.732
9755
100
Thpb4
3895
0.195
4.508
9885
100
Qa1
1 6
0.080
2.860
9757
105
Qui
27
0.121
2.923
9888
101
Qh1
3834
0.171
3.644
9759
105
Qui
4
0.406
1.427
9889
1 1 2
Thpr2
1 7
0.142
3.249
9761
101
Qui
1 5
0.148
3.235
9897
103
Quel
483
0.084
3.122
9763
106
Qui
39
0.204
3.991
9900
103
Qsu2
3040
0.090
3.229
9766
110
Qui
70
0.035
2.475
9901
11 0
Qui
53471
0.155
3.814
9769
112
Qui
5 5
0.200
2.294
9904
1 32
Quel
8066
0.126
3.768
9774
105
Qsu1
33
0.329
2.359
9910
106
Qui
6
0.113
2.898
9775
100
Qui
31
6.755
1 .368
991 1
100
Thpb4
20
0.125
2.551
9777
101
Qui
• 8
1 .448
2.816
991 4
105
Qui
1 3
0.052
3.131
9779
120
QTdl
39
1.910
2.894
9921
129
Tc 1
9001
0.244
2.958
9780
103
Qui
101
1.160
8.473
9928
106
Qr1
1 3
0.063
3.113
9782
100
Thpb4
9
0.085
3.150
9931
100
Thpr2
4606
0.129
3.732
9784
106
Qr1
8
0.058
2.966
9932
1 1 2
Qsu2
3040
0.090
3.229
9787
106
Qsu1
21
0.197
1.689
9933
100
Thpb4
85
0.083
2.944
9792
104
Qal
51 9
0.216
4.394
9936
120
Tc1
184
0.098
3.280
9793
100
Thpb4
22
0.869
2.252
9937
103
Qui
53471
0.155
3.814
9802
99
Qui
1 5
5.918
1.404
9942
103
Thpb4
424
0.079
3.140
9803
1 1 0
Qui
9
0.844
2.876
9944
106
Qsu1
33
0.088
3.139
9804
104
Thpb4
24
0.143
3.480
9948
105
Qui
53471
0.155
3.814
9805
1 1 0
Qh1
4
0.309
1 .853
9950
100
Qsu2
3040
0.090
3.229
9806
133
QTd1
1 1
4.036
1.242
9951
103
Qsu1
28
0.102
2.593
9814
101
Thpb4
3895
0.195
4.508
9959
105
Qui
20
0.098
2.454
9815
106
Qbd1
88
0.050
3.002
9962
101
Qui
21
2.466
1.473
9818
120
Quel
8066
0.126
3.768
9964
101
Qui
53471
0.155
3.814
9819
1 1 2
Qsu2
1 4
0.237
2.584
9972
106
Qsu1
6
0.047
4.078
9822
106
Thpb4
3895
0.195
4.508
9975
106
Qui
28
2.140
1.493
9828
106
Thpb4
1 6
0.049
3.289
9983
106
Quel
6
0.051
3.398
C-33
-------
Table C-l (continued)
Statistical Summary of Ra-226 from NURE Aeroradiometric Data.




GtKim.





Geom.

Polygon
Statsgo
Geology
No. of
Mean
Geom.
Polygon
Statsgo
Geology
No. of
Mean
Geom.
No.
No.
Class
Points
(pCi/g)
S.D.
No.
No..
Class
Points
(pCi/g)
S.D.
9984
103
Qsu2
3
0.061
3.474
10106
1 1 5
Quel
51
0.080
3.294
9987
106
Qui
45
0.215
5.294
10109
105
Qui
40
0.064
2.978
9988
105
Qui
33
2.960
1.492
10110
106
Thpb4
22
0.080
3.254
9995
101
Thpb4
45
0.059
2.935
1011 1
103
Qa1
1 4
0.177
4.642
9998
101
Quel
16
0.090
3.070
10112
100
Qh1
6
0.080
3.817
9999
100
Qa1
33
0.399
5.839
10113
101
Thpb4
3895
0.195
4.508
10001
107
Quel
76
0.093
3.125
10120
100
Thpb4
3895
0.195
4.508
10003
103
Qui
1 5
0.074
3.060
10123
103
Qui
1 5
0.113
2.751
10013
100
Qh1
3834
0.171
3.644
10127
107
Qui
53471
0.155
3.814
10019
106
Qui
39
0.065
2.907
10133
120
Quel
20
0.067
3,100
10020
101
Thpb4
63
0.054
2.580
10136
129
Quel
1 53
0.150
2.799
10022
103
Thpr2
397
0.146
3.618
10137
129
Tel
56
0.127
2.419
10024
101
Qui
1 2
0.089
2.945
10139
106
Qbd1
10491
0.106
3.846
10027
101
Qui
31
0.757
2.811
10140
101
Thpr2
26
0.116
2.660
10028
103
Qui
37
0.097
3.362
10146
11 9
Qa1
136
0.132
4.814
10029
111
Qsu2
1 7
0.216
2.550
10147
105
Qsu1
27879
0.085
3.726
10033
104
Qsu2
29
0.061
3.087
10148
139
Qui
53471
0.155
3.814
10035
105
Qbd1
"7
/
0.066
2 745
10150
104
Qui
38
0.065
3.224
10038
105
Qui
1 6
0.726
1 .741
101 51
107
Qui
100
0.075
3.166
10039
100
Tnpr2
6
0.292
2.126
101 53
104
Thpr2
4606
0.129
3.732
10040
106
Qui
34
0.119
3.562
10155
103
Qsu2
25
0.050
3.082
1004 2
106
Tc 1
9001
0.244
2.958
101 56
101
Quel
29
0.105
3.104
10043
104
Qui
1 8
0.035
2.837
101 57
101
Qui
1 0
0.040
3.033
10044
103
Thpr2
46
0.051
2.734
10161
105
Te1
1 3
0.056
2.986
10046
105
Qui
1 3
0.529
2.069
10162
105
Quel
104
0.135
2.565
10048
101
Qui
1 8
0.175
4.562
10165
106
Qbd1
53
0.067
3.035
10049
106
Quel
8066
0.126
3.768
10168
139
Qui
45
0.083
2.840
10050
99
Qui
57
0.194
3.530
10170
104
Thpr2
1 2
0.239
2.852
10052
103
Qui
53471
0.155
3.814
10175
1 1 1
Qsu2
3040
0.090
3.229
10055
1 04
Qsu2
20
0.145
2.927
10180
1 1 9
Qa1
1 92
0.125
3.985
10057
105
Thpr2
33
0.068
3.034
10183
1 1 5
Qsu1
295
0.091
3.062
10058
107
Qr1
61 13
0.141
4.041
10188
106
Qsu1
8
0.054
2.722
10060
100
Thpb4
9
0.031
2.565
10192
106
Thpr2
120
0.086
2.768
10062
104
Thpr2
8
0.168
2.651
10193
105
Qbd1
45
0.073
3.005
10064
104
Thpr2
4606
0.129
3.732
10198
104
Thpr2
29
0.071
2.937
10070
139
Qui
77
0.192
2.464
10199
1 04
Qsu2
58
0.100
3.183
10073
1 33
Tc1
9001
0.244
2.958
10201
101
Quel
8066
0.126
3.768
10075
110
Qh1
7
0.040
3.034
10204
120
Quel
129
0.099
3.029
10078
105
Thpr2
44
0.104
3.204
10208
103
Qui
24
0.352
7.318
10079
106
Qr1
6113
0.141
4.041
10210
103
Qsu2
12
0.214
4.790
10081
114
Qal
52
0.068
3.195
10211
100
Thpb4
3895
0.195
4.508
10082
100
Qa1
6626
0.126
4.240
10213
101
Thpb4
3895
0.195
4.508
10084
105
Qui
50
0.757
4.374
10214
102
Qh1
3834
0.171
3.644
10085
1 00
Qa1
6626
0.126
4.240
10215
103
Qui
9
0.147
3.203
10093
101
Thpb4
37
0.050
2.981
10217
120
QTd1
44
0.087
2.783
10098
106
Qui
44
0.380
5.138
10218
1 1 5
Thpr2
359
0.099
3.091
C- 34
-------
Table C-l (continued)
Statistical Summary of Ra-226 from NURE Aeroradiometric Data.




Geom.





Geom

Polygon
Statsgo
Geology
No. of
Mean
Geom.
Polygon
Statsgo
Geology
No. of
Mean
Geom.
No.
No.
Class
Points
(pCi/ff)
SI).
No.
No.
Class
Points
(pCi/g)
S.D.
10219
104
Tha2
336
0.114
3.875
10358
11 5
Qui
9
0.593
1.523
10224
105
Qui
53471
0.155
3.814
10362
101
Qui
53471
0.155
3.814
10229
101
Thpr2
4606
0.129
3.732
10365
105
Qbd1
17
0.067
3.222
10232
107
Qr1
43
0.342
2.346
10366
105
Tct
1 5
0.110
3.536
10240
106
Tc1
9001
0.244
2.958
10369
103
Quel
34
0.033
2.779
10244
100
Thpr2
4606
0.129
3.732
10370
101
Quel
35
0.073
3.044
10248
111
Qh1
3834
0.171
3.644
10372
102
Qa1
6626
0.126
4.240
10254
103
Qsu2
73
0.101
2.961
10378
103
Tha2
182
0.080
3.149
10255
106
Thpb4
1 9
0.157
2.391
10380
100
Tha2
36
0.956
2.076
10259
1 39
Qui
59
0.102
3.081
10382
106
Quel
108
0.126
2.743
10260
104
Thpr2
4606
0.129
3.732
10387
105
Qui
37
0.085
3.094
10261
1 1 1
Qsu2
3040
0.090
3.229
10389
1 1 3
Quel
39
0.140
2.139
10263
101
Qui
53471
0.155
3.814
10390
107
Quel
9
0.046
2.673
10265
1 03
Tha2
336
0.114
3.875
10391
106
Qsu1
27
0.076
3.080
10266
103
Thpr2
75
0.087
3.019
10399
106
Qbd1
10491
0.106
3.846
10270
133
QTdl
939
0.226
5.057
10403
1 03
Qsu2a
26
0.155
2.793
10277
106
Qsu1
13
0.097
3.662
10406
104
Qbd1
24
0.139
2.476
10278
105
Qui
1 5
0.142
3.348
10408
105
Qui
53471
0.155
3.814
10280
100
Thpb4
3895
0.195
4.508
1 0409
1 1 5
Thpr2
1 4
0.037
2.767
10281
103
Quel
8066
0.126
3.768
10412
11 1
Qhl
3834
0.171
3.644
10285
104
Thpr2
4606
0.129
3.732
10414
105
Tha2
336
0.114
3.875
10287
198
Quel
8066
0.126
3.768
10415
1 04
Qsu2a
25
0.097
2.820
10288
103
Qsu2
7
0.106
3.012
10417
103
Qui
338
0.103
3.853
10291
100
Thpr2
4606
0.129
3.732
10418
99
water
346
0.083
3.081
10293
101
Thpr2
26
0.060
3.026
10419
105
Qui
1 8
0.125
2.857
10294
103
Thpr2
89
0.070
2.943
10426
100
Qsu2a
48
0.086
3.038
10297
106
Thpr2
58
0.115
3.406
10427
105
Qui
53471
0.155
3.814
10298
100
Thpr2
4606
0.129
3.732
10428
102
Qh1
3834
0.171
3.644
10305
106
Qui
58
0.179
3.257
10437
101
Thpr2
4606
0.129
3.732
10308
103
Thpr2
341
0.072
3.108
10438
100
Thpr2
141
0.066
3.198
10310
103
Tha2
11 0
0.095
3.241
10439
129
Quel
21
0.069
2.979
1031 1
99
Thpr2
4606
0.129
3.732
10443
106
Thpr2
4606
0.129
3.732
10313
107
Qui
30
0.121
3.195
10445
105
Qsu1
46
0.067
3.107
10316
101
Qui
53471
0.155
3.814
10447
106
Thpr2
553
0.101
3.227
10317
101
Qr1
1 7
0.313
1.517
10448
106
Quel
8066
0.126
3.768
10318
101
Qui
53471
0.155
3.814
10449
103
Quel
8066
0.126
3.768
10320
104
Qsu1
11 2
0.090
3.154
10450
105
Qui
53471
0.155
3.814
10323
104
Tha2
8
0.326
3.001
10453
105 "
" Qbd1
1 6
0.273
1.597
10324
105
Qsu1
89
0.117
3.151
10455
104
Qui
53471
0.155
3.814
10329
106
Quel
758
0.084
3.123
10457
105
Qui
53471
0.155
3.814
10331
104
Qa1
8
0.094
3.056
10460
1 1 9
Qa1
6626
0.126
4.240
10338
105
Qui
1 4
0.093
2.599
10468
104
Qui
1 4
0.051
2.885
10339
104
Qsu2
51
0.200
2.998
10470
1 20
Qui
53471
0.155
3.814
10349
104
Qa1
31
0.070
2.729
10477
101
Qsu2
3040
0.090
3.229
10353
101
Thpr2
4606
0.129
3.732
10479
103
Quel
1 93
0.090
2.914
10356
106
Thpr2
1 6
0.036
2.980
10487
1 1 5
Quel
31
0.044
2.675
e-
35
-------
Table C-l (continued)
Statistical Summary of Ra-226 from NXJRE Aeroradiometric Data.




Geom.





Geom.

Polygon
Statsgo
Otology
No. of
Mean
Geom.
Polygon
Statsgo
G«oiogy
No. of
Mean
Geom.
No.
No.
Class
Points
(pCi/g)
sn.
No.
No..
Class
Points
-------
Table C-l (continued)
Statistical Summary of Ra-226 from NURE Aeroradiometric Data.




G«om.





Geom.

Polygon
Statsgo
Geology
No. of
Mean
Geom.
Polygon
Statsgo
Geology
No. of
Mean
Geom.
No.
No.
Class
Points
fpCi/'g)
S.D.
No.
No.
Class
Points
(pCi/R)
S.D.
10765
106
Quel
8066
0.126
3.768
10887
105
Qsul
92
0.054
2.810
10766
103
Thpr2
1 9
0.090
3.320
10900
106
Qui
130
0.075
3.077
10769
99
Thpr2
41
0.092
2.779
10901
106
Qui
23
0.286
2.151
10770
106
Qsu1
52
0.089
2.993
10908
129
QTd1
28
0.069
2.803
10771
106
Qrl
6113
0.141
4.041
10912
105
Quel
87
0.067
3.070
10775
100
Thpr2
4606
0.129
3.732
10918
106
Qui
43
0.059
2.959
10783
198
Quel
8066
0.126
3.768
10920
103
Qsu2a
1017
0.203
4.156
10784
103
Thpr2
4606
0.129
3.732
10924
119
Qsul
128
0.089
3.017
10786
129
Quel
8066
0.126
3.768
10925
11 5
Qsul
35
0.054
2.743
10788
105
Qui
53471
0.155
3.814
10933
99
water
663
0.082
3.660
10792
119
Qa1
1 0
1.187
1.150
10936
139
QTd1
1 8
0.062
3.226
10794
1 06
Qui
53471
0.155
3.814
10938
100
Qh1
3
0.091
4.410
10799
105
Qui
53471
0.155
3 814
10939
101
Qa1
55
0.074
3.137
10804
139
Qa1
36
0.041
2.688
10941
101
Qbd1
25
0.073
2.990
10806
100
Qsu2a
36
0.088
2.886
10943
105
Qui
1 1
0.024
1.611
10811
106
Qui
53471
0.155
3.814
10945
139
Qsul
37
0.105
2.944
10812
107
Qsul
27879
0.085
3.726
10947
106
Qsul
91
0.072
3.149
10814
1 1 4
Qd1
2879
0.148
3.736
10948
104
Qsul
86
0.098
2.680
10815
105
Qsu1
495
0.076
3.130
10954
106
Qsu2b
95
0.024
2.115
10816
1 1 9
Qa1
6626
0.126
4.240
10958
139
Qsul
27879
0.085
3.726
10817
104
Thpr2
4 606
0.129
3.732
10959
103
Qsu2b
373
0.094
3.302
10819
100
Thpr2
24
0.461
1.852
10960
101
Thpr2
4606
0.129
3.732
10822
105
Thpr2
60
0.513
2.135
10963
105
Qui
53471
0.155
3.814
10823
101
Thpr2
4606
0.129
3.732
10964
100
Qsul
27
0.212
2.342
10824
139
Qui
40
0.062
3.445
1 0966
101
Qa1
6626
0.126
4.240
10826
105
Qsu2a
34
0.138
3.136
10967
1 03
Thpr2
4606
0.129
3.732
10828
105
Qui
53471
0.155
3.814
10969
1 1 9
Qbd1
10491
0.106
3.846
10835
103
Thor2
4606
0.129
3.732
10971
107
Quel
8066
0.126
3.768
10839
105
Qui
53471
0.155
3.814
10972
1 1 4
Qa1
78
0.460
2.829
10843
101
Qbd1
10491
0.106
3.846
10975
105
Quel
8066
0.126
3.768
10844
106
Quel
218
0.044
3.046
10980
1 39
Qsul
327
0.075
3.062
10846
104
Qsu2a
54
0.116
2.631
10983
101
Qa1
6626
0.126
4.240
10847
139
Qa1
6626
0.126
4.240
10985
139
Qsu2b
1 6
0.020
1.625
10853
104
Qsu1
27879
0.085
3.726
1 0986
1 03
Thpr2
4
0.073
4.406
10858
114
Qbdl
i 0491
0.106
3.846
10987
1 1 5
Qsul
1 4
0.117
3.076
10859
103
Thpr2
292
0.418
5.062
10988
104
Qa1
54
0.058
3.061
10861
103
Qui
43
0.292
2.543
10989
129
Qui
28
0.089
2.708
10862
106
Qsul
201
0.118
2.954
10990
105
Qsu2b
60
0.036
2.697
10864
103
Qsu2a
3378
0.201
4.077
10991
106
Qui
6
0.071
3.383
10865
199
Qa1
6626
0.126
4.240
10993
1 1 1
Qh1
21
0.576
2.516
10866
106
Qa1
6626
0.126
4.240
10995
102
Qh1
1 4
0.372
4.399
10868
103
Quel
8066
0.126
3.768
10997
106
Quel
8066
0.126
3.768
10871
107
Qsul
27879
0.085
3.726
10998
107
Qsu2b
5182
0.108
3.435
10872
115
Qr1
42
0.058
2.861
10999
120
Qui
28
0.124
3.004
10878
101
Qsul
24
0.077
3.249
11003
106
Quel
8
0.137
2.671
10885
103
Thpr2
39
0.172
3.102
1 1004
1 1 1
Qa1
8
0.062
2.377
C-
37
-------
Table C-l (continued)
Statistical Summary of Ra-226 from NURE Aeroradiometric Data.




Geom.





Geom.

Polygon
Statsgo
Geology
No. of
Mean
Geom.
Polygon
Statsgo
Geology
No. of
Mean
Geom.
No.
No.
Class
Points
< pCi/g)
S.D.
No.
No.
Class
Points
(pCi/g)
S.D.
1 1006
129
Qui
45
0.251
2.253
11094
107
Qsu2b
77
0.112
2.762
1 1007
108
Qsu1
253
0.073
3.200
1 1095
108
Qsu2b
1 561
0.103
3.403
11010
106
Qsu2b
5182
0.108
3.435
1 1097
1 1 1
Thpr2
28
0.113
3.129
11011
106
Qsu2b
5182
0.108
3.435
1 1101
1 1 5
Qui
153
0.093
2.952
1 1013
105
Qsu2a
5
0.098
2.916
1 1102
1 1 4
Qd1
78
0.268
3.113
1 1016
106
Qsu2b
55
0.106
4.132
1 1109
105
Qsu1
66
0.073
3.475
1 1019
103
Qsu2b
24
0.076
3.054
11110
106
Qsu1
29
0.107
3.414
1 1022
106
Qsu2b
44
0.043
2.677
11112
106
Qui
177
0.120
3.351
11023
115
Quel
1
0.167
4.000
11116
101
Qal
157
0.190
3.706
1 1025
101
Thpr2
1 2
0.069
3.359
11118
106
Qsu2b
182
0.161
3.224
1 1026
11 5
Qsu2b
1 2
0.071
3.068
11119
101
Qbd1
1 9
0.108
2.470
1 1028
1 1 5
water
163
0.065
3.059
1 1122
108
Qsu2a
262
0.432
3.921
• 1029
139
Quel
56
0.056
2.851
1 1123
139
Qsu1
151
0.042
2.858
1 1032
104
Qsu2a
23
0.264
1.622
1 1125
105
Qsu2b
1 4
0.045
2.737
1 1033
104
Qsu1
98
0.150
4.204
1 1126
139
Qui
26
0.127
2.886
11035
106
Thpr2
43
0.157
3.051
11129
199
water
35
0.214
3.232
1 1039
103
Qsu2a
1017
0.203
4.156
1 1133
105
Qsu2b
106
0.112
3.740
11040
106
Qsu2b
1 5
0.159
2.899
11136
107
Qsu1
27879
0.085
3.726
1 1042
105
Qui
174
0.115
2.990
11137
101
Qsu2b
43
0.048
2.698
11043
106
Qsu1
114
0.179
3.426
11143
199
water
591
0.087
3.569
11044
100
Qsu2a
8
0.247
4.023
11 1 48
106
Qui
892
0.115
3.314
11045
106
Qui
162
0.046
3.180
11149
11 1
Qsu2a
57
0.254
4.931
11046
101
Qa1
4
0.348
1.341
11151
1 1 1
Qsu2b
1 0
0.150
2.579
1 1048
11 5
water
5995
0.069
3.708
11161
104
Qsu1
22
0.195
2.621
11053
106
Qui
1 9
C.103
3.144
1 1162
1 1 9
Qa1
64
0.118
4.018
11054
103
Quel
8066
0.126
3.768
1 1167
106
Qsu2b
1 40
0.137
3.375
11056
104
Qa1
1 1 7
0.099
3.024
1 1 1 68
1 1 5
Qsu1
54
0.079
3.135
1 1058
106
Gsu2b
51 32
C.108
3.435
111 77
105
Gsu2b
1 8
0.274
2.015
11059
100
Qsu2a
151
0.148
3.444
1 1 1 82
1 1 1
Qh1
28
0.333
2.095
1 1060
106
Qsu2b
86
0.113
3.114
11184
199
Qa1
1 1
0.017
1.000
11063
101
Qbd1
10491
0.106
3.846
1 11 91
1 1 5
water
384
0.046
3.555
1 1065
105
Qui
4 1
0.229
1.983
1 11 98
100
Qa1
323
0.034
2.877
1 1066
101
Qui
53471
0.155
3.814
1 1203
105
Qsu2b
33
0.608
1.399
1 1067
106
Qui
581
0.090
3.104
1 1208
139
Qsu1
27879
0.085
3.726
1 1069
107
Thpr2
4 606
0.129
3.732
1 1209
106
Qsu2a
134
0.145
3.173
1 1070
104
Qsu1
27879
0.085
3.726
11213
101
Qui
53471
0.155
3.814
1 1071
106
Thpr2
32
0.073
2.854
11214
103
Qsu2b
5182
0.108
3.435
1 1073
106
Thpr2
52
0.043
3.049
11215
103
Qsu2b
648
0.117
3.488
1 1075
139
Qui
53471
0.155
3.814
11216
105
Qsu2b
51
0.142
2.877
1 1076
1 1 1
Qsu2a
20
0.858
1.306
11218
209
Qsu1
21
0.136
2.561
1 1078
215
Qa1
64
0.056
2.781
1 1220
21 1
Qsu1
28
0.044
2.702
1 1079
106
Qui
53471
0.155
3.814
1 1221
108
Qsu2b
34
0.410
1.782
1 1082
102
Qa1
20
0.146
3.335
1 1222
106
Qsu2b
360
0.200
2.522
1 1086
102
Qh1
1 6
0.124
3.738
11223
104
Qa1
225
0.025
2.423
1 1091
210
Qsu1
90
0.067
2.980
1 1227
106
Qa1
5
0.129
1.601
1 1093
103
Qsu2b
61
0.112
2.822
1 1229
101
Qa1
1 0
0.202
1.834
C- 38
-------
Table C-l (continued)
Statistical Summary of Ra-226 from NURE Aeroradiometric Data.




Geom.





Geom.

Polygon
Statsgo
Geology
No. of
Mean
Geom.
Polygon
Statsgo
Geology
No. of
Mean
Cieom.
No.
No.
Class
Points

S.D.
No.
No.
Class
Points
(pCi/g)
S.D.
1 1230
105
Qsu2b
47
0.095
2.687
11351
108
Gsu2b
5182
0.108
3.435
11231
139
Qui
23
0.233
2.600
11352
103
Qsul
27879
0.085
3.726
1 1232
102
Qa1
1 2
0.121
2.705
1 1354
140
Qa1
51
0.049
2.797
1 1234
11 1
Qh1
1 2
0.051
2.716
11355
108
Qsu1
27879
0.085
3.726
1 1236
107
Qsu2b
93
0.275
2.487
1 1356
106
Qsu1
227
0.091
3.442
1 1239
104
Qsu2b
36
0.061
3.360
11358
100
Qsu1
108
0.023
2.422
1 1243
108
Qsu2b
5182
0.108
3.435
1 1360
103
T12
228
0.171
2.722
11248
139
Qa1
1 4
0.071
2.731
11362
224
Qsul
220
0.039
3.296
1 1249
110
Qsu2b
5182
0.108
3.435
1 1363
108
Qsu2b
31
0.058
3.024
1 1259
1 1 1
Qhl
67
0.419
3.044
1 1365
222
Qsul
1 744
0.065
3.784
11260
110
Qsu2a
71
0.215
3.653
1 1366
210
Qsul
229
0.172
2.835
1 1261
210
Gsu1
1 335
0.128
3.976
1 1367
213
Qsul
287
0.086
3.576
11262
1 06
Qsu1
31 1
0.124
2.955
1 1368
•04
Gsu1
27
0.161
2.408
1 1263
101
Qd1
9
0.096
3.180
1 1370
108
Qsul
60
0.072
2.696
1 1265
101
Qsu2b
24
0.072
3.670
1 1372
106
Qsul
80
0.131
2.767
1 1269
111
Qsu2b
8
0.504
1.797
1 1373
209
Qsul
1597
0.126
4.801
1 1273
215
Qa1
17
0.082
3.270
1 1375
108
Tt2
460
0.098
3.259
1 1277
103
Qsu2b
1 1
0.086
3.340
1 1376
1 1 1
Qh1
92
0.163
3.811
1 1279
139
Qa1
6626
0.126
4.240
1 1378
106
Tt2
40
0.127
3.760
1 1280
106
Qsu2b
24
0.202
2.013
1 1380
110
Qsu2b
223
0.085
3.270
1 1288
140
Qa1
6626
0.126
4.240
1 1384
104
Qsul
4
0.058
2.340
1 1290
1 99
Qa1
28
0.089
2.780
1 1386
209
Qsul
51
0.017
1.000
1 1291
106
Qh1
3834
0.171
3.644
1 1388
104
Qsul
27879
0.085
3.726
1 1294
219
water
1 7
0.042
3.314
1 1389
104
Qsu2b
5182
0.108
3.435
1 1295
21 1
Qsu1
429
0.055
3.239
1 1390
139
Qa1
9
0.064
2.877
1 1296
219
Qsu1
284
0.077
3.426
11391
102
Qh1
3834
0.171
3.644
1 1297
103
Qsu2b
5182
0.108
3.435
11392
11 1
Qh1
1 7
0.068
3.027
1 1299
140
Qa1
6626
0 126
4.240
1 1393
103
Qsul
35
0.042
2.726
1 1311
101
Qal
57
0.C89
2.883
11394
103
Tt2
78
C.098
2.961
1 1316
105
Gsu1
66
0.118
2.730
1 1396
104
Tt2
1 6
0.563
1.386
1 1318
102
Qh1
3834
0.171
3.644
11397
11 1
Qsul
63
0.068
3.207
1 1319
1 39
Qal
39
0.073
3.147
11398
106
Qsu2b
28
0.061
3.092
11321
11 5
Qsu1
8
0.107
2.429
11399
220
Qsul
27879
0.085
3.726
1 1322
108
Tt2
107
0.115
2.658
1 1401
103
Qsul
22
0.055
3.043
1 1324
103
Qui
53471
0.155
3.814
11402
106
Qsul
348
0.108
3.000
1 1326
106
Qsu1
136
0.111
3.275
11403
100
Qtmal
1 8
0.017
1.000
1 1327
108
Qsu2b
5182
0.108
3.435
11405
104
Qsul
1 543
0.057
3.103
1 1328
210
Qsu1
25
0.159
2.419
11406
104
Qsul
27879
0.085
3.726
1 1330
103
Qsu1
29
0.078
2.810
11407
103
Tt2
1 1
0.122
3.141
1 1334
209
0su1
27879
0.085
3.726
11408
108
Qsul
27879
0.085
3.726
11336
103
Qsu1
69
0.130
3.024
1 1409
103
Qsul
27879
0.085
3.726
11337
108
Qsu1
1 56
0.065
3.120
11410
106
Qsu2
126
0.126
2.908
1 1339
106
Qsu1
142
0.060
3.550
11411
209
Qsul
27879
0.085
3.726
11340
104
Qsu1
36
0.181
2.345
11412
139
Qtmal
82
0.017
1.080
11345
102
Qa1
1 6
0.073
2.949
1 1415
106
Qsul
90
0.117
2.991
11348
103
Tt2
146
0.074
2.964
11416
211
Qsul
75
0.143
3.107
C-
39
-------
Table C-l (continued)
Statistical Summary of Ra-226 from NURE Aeroradiometric Data.




Geom.





Geom.

Polygon
Statsgo
("reology
No. of
Nfean
Geom.
Polygon
Statsgo
Geology
No. of
Mean
Geom.
No.
No.
('lass
Points
(pOi/g)
S.D.
No.
No.
Class
Points
(pCi/g)
S.D.
11417
103
Qsu2
185
0.092
3.148
1 1498
106
Gsu2
3040
0.090
3.229
1 1420
108
Qsu2
455
0.115
3.144
1 1499
106
Qsu2
3040
0.090
3.229
1 1427
11 1
Qh1
1 9
0.160
2.382
1 1501
103
Qsu2
38
0.147
2.624
1 1428
106
Qh1
3
0.084
4.233
11502
106
Qsu2
59
0.082
2.968
11429
100
Qsul
27
0.128
2.506
11503
106
Qsu2
83
0.061
3.049
1 1430
100
Qtmal
140
0.022
2.168
1 1504
103
Qsul
27879
0.085
3.726
1 1431
104
Qsul
29
0.094
3.293
1 1507
1 1 1
Qh1
11 8
0.102
2.998
11433
220
Qui
29
0.045
2.843
1 1508
100
Qsul
72
0.090
2.894
1 1434
224
Qui
21
0.080
3.098
1 1509
108
Qsu2
3040
0.090
3.229
1 1435
111
Qh1
31
0.052
3.343
11511
108
Qsul
29
0.035
2.582
1 1436
213
Qui
233
0.034
3.279
11512
108
Qsul
27879
0.085
3.726
1 1438
108
Qsu2b
39
0.263
2.323
11513
106
Qsul
28
0.028
2.157
1 1440
220
Qsul
96
0.091
3.262
11514
1 06
Tt2
139
0.036
2.699
11442
103
Qsul
27879
0.085
3.726
11515
103
Tt2
3547
0.091
3.618
1 1444
210
Qsul
27879
0.085
3.726
1 1521
106
Qsul
27879
0.085
3.726
11445
105
Qsu2
9
0.049
3.185
1 1522
103
Qsul
1 9
0.040
3.011
11446
140
Qal
6626
0.126
4.240
11523
106
Qsul
27879
0.085
3.726
11447
224
Qsul
55
0.098
3.011
11524
106
Qsu2
56
0.079
3.732
11448
104
Qsu2
3040
0.090
3.229
11527
103
Qsul
21
0.041
2.382
11449
106
Qui
426
0.058
3.585
1 1530
104
Qsul
1 7
0.027
2.156
11450
210
Qsul
27879
C.085
3.726
11533
210
Qsul
27
0.432
1.872
11452
213
Qsul
85
0.132
3.001
1 1536
103
Qsul
42
0.043
3.127
11457
210
Qsul
27879
0.085
3.726
11537
1 1 1
Qh1
1 16
0.068
3.415
11458
106
Qsul
69
0.164
2.606
1 1 539
104
Qsu2
1 59
0.063
3.259
11459
1 39
Tt2
1
0.017
4.000
1 1 544
104
Qsul
7
0.098
2.942
1 1460
106
TI2
39
0.055
3.164
1 1 545
1 03
Qsul
67
0.033
2.662
1 1461
139
Qsul
26
0.045
3.069
1 1 547
103
Tt2
58
0.061
2.898
1 1463
21 1
Qsul
20
0.083
3.459
1 1549
1 99
water
164
0.158
2.850
1 1464
105
Qal
5626
0.126
4.240
1 1 550
106
Qh1
28
0.090
2.703
1 1465
210
Qsul
27879
0.085
3.726
1 1551
1 39
Qsul
9
0.074
3.130
11467
139
Qsu2
76
0.045
2.812
1 1553
1 04
Qsul
29
0.044
2.645
1 1468
100
Qtmal
464
0.032
2.856
1 1554
1 08
Qsul
34
0.051
2.810
1 1470
106
Qsu2
645
0.074
3.166
1 1555
1 1 1
Qh1
24
0.382
1.313
1 1473
104
Qtmal
1 5
0.017
1.000
1 1557
106
Qsul
30
0.043
2.716
1 1474
105
Qsu2
213
0.115
3.064
1 1558
1 08
Qsu2
8
0.049
2.858
1 1475
1 06
Qsu2
1 7
0.084
3.101
1 1562
1 04
Tt2
178
0.047
2.844
1 1478
103
Qui
71
0.048
3.192
1 1563
141
Qa1
6626
0.126
4.240
1 1479
108
Qsu2
85
0.080
3.030
1 1564
106
Qsul
27879
0.085
3.726
1 1480
219
Qsul
49
0.074
2.973
1 1565
139
Qtmal
39
0.168
2.816
1 1481
108
Qui
6
0.108
2.442
1 1566
103
Qsu2
3040
0.090
3.229
1 1482
102
Qh1
68
0.126
3.349
1 1570
210
Qsul
27879
0.085
3.726
1 1486
106
Qsul
27879
0.085
3.726
1 1571
110
Tt2
8547
0.091
3.618
1 1487
104
Gsu1
1 4
0.062
3.045
1 1572
103
Qsu2
3040
0.090
3.229
1 1490
102
Qa1
6626
0.126
4.240
1 1574
221
Qsul
1 164
0.057
3.460
1 1491
103
Qsul
27879
0.085
3.726
11575
223
Qsul
659
0.080
4.562
1 1495
103
Qsul
27879
0.085
3.726
1 1576
99
Qsu2
3040
0.090
3,229
C-
40
-------
Table C-l (continued)
Statistical Summary of Ra-226 from NURE Aeroradiometric Data.




Geom.





Geom.

Polygon
Statsgo
Geology
No. of
Mean
Geom.
Polygon
Statsgo
Geology
No. of
Mean
Geom.
No.
No.
Class
Points
CpCi/g)
3D.
No.
No.
Class
Points
(pCi/g)
3D.
11570
106
Tt2
223
0.072
3.103
1 1661
103
Tt2
59
0.039
2.852
11579
139
Qal
6626
0.126
4.240
11662
104
Qsul
27879
0.085
3.726
11581
213
Qsu1
2339
0.081
3.457
11663
106
Qsul
73
0.035
2.711
1 1582
108
Qsu2
71
0.105
2.943
11667
107
Qm2
10000
0.103
4.140
11584
140
Qal
6
0.257
1.921
11668
138
Qm2
10000
0.103
4.140
1 1 585
106
Qsu1
27879
0.085
3.726
11671
214
Qsul
67
0.042
2.823
1 1586
103
Qsu2
3040
0.090
3.229
11672
108
Tt2
84
0.051
3.255
11588
222
Qsu1
27879
0.085
3.726
11673
11 0
Qsu2
3040
0.090
3.229
1 1589
106
Qsu2
227
0 063
3.153
11676
103
Tt2
53
0.062
2.971
1 1591
104
Qtmal
87
0.034
2.971
11677
214
Tt2
938
0.066
3.167
1 1596
103
Qsu1
27879
0.085
3.726
1 1679
1 08
Tt2
102
0.127
3.182
11599
103
Qui
74
0.048
3.082
1 1680
208
Qsul
2184
0.050
3.339
1 1600
106
Qsu2
42
0.040
2.734
1 1681
141
Qm2
10000
0.103
4.140
1 1601
1 03
Qui
53471
0.155
3.814
1 1682
214
T12
8
0.053
2.048
1 1602
1 1 1
Qhl
31
0.137
3.085
1 1683
103
Tt2
46
0.042
2.755
1 1603
219
Qsu1
58
0.095
3.325
1 1685
213
Tt2
2856
0.072
3.758
1 1604
1 04
Qtmal
32
0.059
3.148
1 1687
106
Tt2
67
0.127
2.771
1 1606
103
Qsu1
29
0.032
2.385
1 1688
214
Tt2
8547
0.091
3.618
1 1607
103
TI2
1 2
0.029
2.504
1 1689
1 10
T t2
145
0.107
3.196
1 1608
108
Qsul
117
0.038
2.626
1 1690
1 10
Qh1
32
0.134
3.071
1 1609
213
Qui
55
0.052
3.224
1 1692
1 02
Qm2
10000
0.103
4.140
1 1610
106
Qsul
51
0.028
2.270
1 1695
213
Tt2
63
0.049
3.023
1 1613
104
Qsu1
38
0.046
2.873
1 1696
139
Qm2
44
0.017
1.000
1 1614
103
Tt2
29
0.041
2.918
1 1698
108
Tt2
1 8
0.063
3.192
1 1622
108
Tt2
1 7
0.126
3.813
1 1699
212
Qsul
37
0.028
2.332
1 1624
103
Qsu2
1 4
0.083
2.216
1 1701
212
T12
66
0.026
2.119
1 1625
21 9
Qm2
495
0.071
3.277
1 1703
214
Qsul
36
0.024
1.958
1 1626
212
Qsul
1 3
0.022
2.175
1 1704
101
Qm2
10000
0.103
4.140
1 1627
* 08
Tt2
46
0.056
3.086
1 1705
138
Qm2
10000
0.103
4.140
1 1630
106
Tt2
275
0.080
3.282
1 1707
103
T12
24
0.081
3.262
1 1631
221
Qm2
182
0.123
3.093
1 1708
141
Qm2
10000
0.103
4.140
1 1636
103
Tt2
8547
0.091
3.618
11709
11 0
T12
8547
0.091
3.618
1 1637
104
Qm2
10000
0.103
4.140
1 1710
221
Qsul
27879
0.085
3.726
11638
224
Qsul
27879
0.085
3.726
11711
108
Tt2
175
0.167
2.589
1 1641
140
Qm2
22
0.051
4.175
11712
138
Qm2
32
0.017
1.000
11645
106
Qsul
69
0.028
2.363
11714
21 2
Qsul
1 7
0.175
3.578
1 1646
108
Qsu2
3040
0.090
3.229
11716
212
Tt2
65
0.060
3.064
11648
108
Tt2
46
0.207
2.249
11718
141
- Qm2
100
0.017
1.000
11649
141
Qm2
235
0.017
1.000
11719
208
Qm2
4018
0.104
3.962
11650
102
Qal
6626
0.126
4.240
11720
212
Tt2
54
0.057
2.731
11651
103
Qsu2
3040
0.090
3.229
11721
103
T12
8547
0.091
3.618
11653
103
Qh1
7
0.086
3.223
1 1722
212
Qsul
27879
0.085
3.726
11655
104
Qsul
154
0.037
2.629
11725
212
Tt2
8547
0.091
3.618
11657
103
T12
8547
0.091
3.618
11726
1 38
Qm2
107
0.017
1.000
11658
103
Tt2
26
0.161
2.445
11727
212
Tt2
105
0.053
3.390
11660
101
Qm2
10000
0.103
4.140
11729
212
Tt2
1 4
0.021
1.551
C-
41
-------
Table C-l (continued)
Statistical Summary of Ra-226 from NURE Aeroradiometric Data.




Geom.





Geom.

Polygon
Statsgo
Geology
No. of
Mean
Geom.
Polygon
Statsgo
Geology
No. of
Mean
Geom.
No.
No.
Class
Points
(pCi/R)
S.D.
No.
No.
Class
Points
(pCi/g)
S.D.
1 1731
212
Qsu1
52
0.176
3.078
11809
212
Qm2
10000
0.103
4.140
11732
138
3m2
10000
0.103
4.140
11810
212
Qm2
1 0000
0.103
4.140
11735
141
Qm2
32
0.066
3.226
11811
212
Qm2
10000
0.103
4.140
11736
103
Tt2
8547
0.091
3.618
11812
21 2
Tt 2
8547
0.091
3.618
11737
108
Qm2
53
0.017
1 .000
11818
196
Qh1
3834
0.171
3.644
11741
107
Qm2
10000
0.103
4.140
11819
21 2
Tt2
8547
0.091
3.618
11742
1 11
Qh1
35
0.282
2.526
11820
204
Qm2
10000
0.103
4.140
1 1743
11 1
Tt2
8547
0.091
3.618
1 1822
212
Qm2
1 26
0.072
3.232
11745
213
Tt2
62
0.069
2.894
1 1831
196
Qh1
3834
0.171
3.644
1 1747
107
Qm2
10000
0.103
4.140
1 1832
212
Qm2
10000
0.103
4.140
11748
102
Qm2
10000
0.103
4.140
1 1833
212
Tt2
1 8
0.298
1.738
1 1749
108
Qm2
1 0000
0.103
4.140
1 1834
204
Gm2
10000
0.103
4.140
1 1750
139
Tt2
3547
0.091
3.618
1 1835
206
Qm2
734
0.150
3.999
11751
213
Tl2
1 59
0.266
2.361
1 1837
212
Tt2
8547
0.091
3.618
1 1752
103
TI2
1 03
0.218
2.387
1 1838
202
Qh1
3834
0.171
3.644
1 1753
138
Qm2
10000
0.103
4.140
1 1841
208
Tt2
88
0.651
1.435
1 1754
1 1 1
Tt2
8547
0.091
3.618
1 1842
204
Qm2
1 0000
0.103
4.140
1 1755
212
TI2
1 7
0.133
4.247
1 1843
205
Qm2
1112
0.118
3.982
1 1760
1 1 1
Ohl
3834
0.171
3.644
1 1844
202
Qh1
3834
0.171
3.644
1 1761
1 99
Qh1
• 23
0.146
3.321
1 1846
203
Tt2
72
0.525
1.459
1 1762
212
T12
5
0.219
1.879
1 1847
213
7t2
8547
0.091
3.618
1 1763
212
Tl2
1 3
0.108
3.552
11849
202
Qm2
192
0.078
3.704
1 1765
140
Gm2
13000
0.103
4.140
1 1851
1 96
Qh1
3834
0.171
3.644
1 1766
141
Qm2
96
0.062
3.391
1 1853
1 96
water
5995
0.069
3.708
1 1767
138
Qm2
1 G000
0.103
4.140
1 1854
202
Qh1
3834
0.171
3.644
1 1768
106
Tt2
69
0.341
1.754
1 1857
203
Qh1
3834
0.171
3.644
1 1773
1 1 1
Qh1
40
0.318
1.935
1 1862
207
Qm2
28
0.041
2.868
11774
212
"12
674
0.211
2.907
1 1865
203
Qh1
35
0.625
1.376
1 1776
1 38
Grr,2
1 0000
0.103
4.140
¦ 1869
1 96
Qh1
3834
0.171
3.644
1 1778
21 2
Tt2
1 3
0.125
2.325
1 1870
213
Qh1
3834
0.171
3.644
1 1779
212
Tt2
3547
0.091
3.618
1 1876
203
Qh1
3834
0.171
3.644
1 1780
141
Qm2
40
0.180
3.445
1 1877
213
Qh1
3834
0.171
3.644
1 1784
202
Qh1
500
0.205
2.958
1 1879
202
Qh1
231
0.077
4.629
1 1787
204
Qm2
683
0.208
3.967
11882
203
Qm2
574
0.174
4.317
11789
202
Tt2
65
0.178
2.885
1 1884
202
water
5995
0.069
3.708
1 1790
21 2
Tt2
8547
0.091
3.618
1 1885
213
Qh1
3834
0.171
3.644
1 1791
213
Qm2
933
0.093
3.726
1 1887
203
Qh1
3834
0.171
3.644
1 1793
141
Qh1
3834
0.171
3.644
11889
204
Qm2
30
0.542
1.414
1 1797
202
Tt2
8547
0.091
3.618
11891
203
Qm2
10000
0.103
4.140
1 1800
202
Tt2
72
0.189
2.992
11892
203
Qh1
3834
0.171
3.644
1 1801
1 96
Qh1
50
0.657
1.324
1 1894
204
Qm2
1 10
0.544
1.535
1 1802
196
water
29
0.386
1.965
11897
201
Qk1
1073
0.065
3.527
1 1803
21 2
Qm2
1 2
0.083
2.731
11898
207
Qm2
10000
0.103
4.140
1 1806
196
Qh1
1 4
0.318
2.188
1 1899
207
Qm2
10000
0.103
4.140
1 1807
213
Qh1
93
0.169
2.504
11903
196
Qk1
1073
0.065
3.527
1 1808
202
Qh1
29
0.639
1.488
1 1906
203
Qh1
3834
0.171
3.644
C-
42
-------
Table C-l (continued)
Statistical Summary of Ra-226 from NURE Aeroradiometric Data.




Geom.





Geom.

Polygon
Statsgo
Geology
No. of
Mean
Geom.
Polygon
Statsgo
Geology
No. of
Mean
Geom.
No.
No.
Class
Faints
(pCi/g)
3.D.
No.
No.
Class
Points
(pCi/g)
S.D.
11912
201
Qk1
1073
0.065
3.527
11983
196
Qh1
3834
0.171
3.644
11914
202
0m2
10000
0.103
4.140
1 1988
201
Qh1
3834
0.171
3.644
1 1921
202
Qm2
10000
0.103
4.140
12008
196
Qh1
3834
0.171
3.644
11922
207
Qm2
10000
0.103
4.140
12026
201
Qhl
3834
0.171
3.644
1 1924
196
Qh1
3834
0.171
3.644
12029
196
Qh1
3834
0.171
3.644
11927
201
Qk1
753
0.078
3.604
12070
196
Qk1
18
0.077
3.270
11929
202
water
5995
0.069
3.708
12075
202
water
5995
0.069
3.708
11930
202
Qh1
3334
0.171
3.644
12077
201
Qk1
23
0.028
2.478
1 1932
202
Qhl
3834
0.171
3.644
12079
201
Qk1
4
0.026
2.449
1 1933
203
Qh1
82
0.979
1.332
1 2080
201
Qk1
70
0.061
3.714
1 1934
201
Qh1
3834
0.171
3.644
12082
201
Qk1
11 1
0 036
2,612
1 1935
1 96
Qh1
24
0.047
2.669
12084
201
Qm1
3471
0,160
4.090
1 1937
203
Qh1
3834
0.171
3.644
12086
201
Qml
30
0.042
3.006
1 1938
202
Gh1
3834
C.171
3.644
12087
201
Qm1
33
0.240
3.589
1 1940
201
Qh1
22
0.022
2.052
12088
201
Qm1
55
0.647
1.460
1 1942
202
Qm2
10000
0.103
4.140
12089
201
Qk1
94
0.037
2.692
1 1943
203
Qh1
3834
0.171
3.644
12094
201
Qm1
3471
0.160
4.090
1 1944
1 96
water
5995
0.069
3.708
12095
201
Qm1
70
0.063
3.581
1 1946
196
water
5995
0.069
3.708
12097
201
Qm1
179
0.365
2.234
1 1950
1 96
Qh1
3834
0.171
3.644
12099
201
Qm1
1 5
0.595
1.406
11958
202
Qk1
1073
0.065
3.527
12101
201
Qm1
27
0.655
1.583
1 1961
1 96
Qh1
3834
0.171
3.644
1 2105
201
Qm1
24
0.704
1.561
1 1964
1 96
Qh1
3834
0.171
3.644
1 2106
201
Qm1
93
0.145
3.651
1 1967
1 96
Qh1
3834
0.171
3.644
1 2108
201
Qm1
113
0.183
2.762
1 1978
1 96
Qh1
3834
0.171
3.644






C-43
-------
Appendix D
Radium and Radon Emanation Measurement Methods
D.l PURPOSE
This appendix contains the laboratory protocols for measurement of 226Ra (radium)
concentrations, 222Rn (radon) emanation coefficients, and moisture contents in soil samples.
The radon emanation coefficients are measured by the radon effluent method. Procedures
also are given for emanation measurements by the gamma difference method, which was
used for comparisons with results from the radon effluent method.
D.2 EQUIPMENT
The following equipment is required in performing the radium, radon emanation, and
moisture measurements.
•	Balance, calibrated, >500g capacity, ±0.01 g sensitivity (Model 5200, Scientech,
Boulder, CO, or equivalent).
•	Sample cans, steel, with sealable lids, (8-oz. Ness cans; 401x205; 401x411, or
equivalent, Embarcadero Home Cannery, Oakland, CA)
•	Can sealer, mechanical, (Model 400 or 500, Ives-Way Products Inc., Buffalo Grove, IL,
or equivalent).
•	High-efficiency NaKTl) gamma-ray scintillation spectrometer with shielding and
supporting electronics:
-	13 x 8 cm NaKTl) scintillation detector (Harshaw Chemical Co., Solon, OH, or
equivalent)
-	Scintillation amplifier and power supply (Model 5010, The Nucleus Inc., Oak Ridge,
TN, or equivalent)
-	Multichannel analyzer (Model 1056c, Davidson Co., North Haven, CT, or equivalent)
-	Printer (Model 43, Teletype Corp., Skokie, IL, or equivalent)
-	Detector shielding (1 cm steel + 7 cm iead. or equivalent).
•	Standard reference materials, sealed in identical cans to unknowns
22SRa standards
2!2Th standards
•	Drying oven, maintained at 110"C, as per ASTM-D2216 (AST80) (1200 watt, No. 3505,
LabLine Inc., Chicago, IL, or equivalent).
•	Alpha scintillation cells, 0.1 liter (Rocky Mountain Scientific Glassblowing, Aurora,
CO, or equivalent).
•	Calibration or reference alpha scintillation cell (Rocky Mountain Scientific
Glassblowing, Aurora, CO, or equivalent).
•	Alpha scintillation cell counter (Model 182, and model 2200 scaler, Ludlum
Measurements Inc., Sweetwater, TX, or equivalent).
•	Vacuum Pump (Model 8803, Sargent Welch Scientific Co., Skokie, IL, or equivalent).
•	Apparatus for sampling air from sample cans, as illustrated in Figure Dl, with
disposable filters, or equivalent.
D-l
-------
Filter
Alpha
Scintillation
Cell
Valve
Mounting
Frame
i
\
Air
Space
Vin9e Metal
Joim Can'
Sample
Figure Dl. Apparatus for sampling air from sealed sample cans into alpha
scintillation cells for radon emanation measurements by the radon
effluent method.
D.3 PROCEDURES
1.	The sample is sealed at its ambient moisture, or at an alternative moisture if required,
into a tared, labeled metal sample can. The can tare mass (m,), the gross mass of the
moist sample plus can (m2), and the sealing date (d,) are recorded, along with the sample
identification. If moisture alterations are required, distilled water may be added; or for
dry-sample emanation measurement, the sample may be dried prior to sealing.
[Note 1: Sample moisture generally is left at ambient field level if the sample has been
maintained sealed since collection. If field moisture is intended but the sample has lost
moisture, water is added to exceed -5% dry weight or more for certain clayey minerals.
Exact water addition is unimportant, since radon emanation from moist samples is
constant with increasing water contents (Tha82; Nie82; Str82). Moistures must be
carefully controlled for emanation measurements near dryness because radon emanation
coefficients decrease rapidly as dryness is approached.]
2.	The sealed sample is stored for 24-30 days to equilibrate it with its radon decay products.
Corrections for incomplete decay product ingrowth should be applied if the equilibration
time is less than 24 days.
D- 2
-------
3. Gamma-ray intensities are measured from the sealed, equilibrated sample with the
gamma-ray spectrometer. Their intensities are recorded for the calibrated regions of the
spectrum (nominally at 260-850 keV and I2 at 2,490-2,730 keV), along with the sample
identification and the count date (d2). The detector gain is visually verified by noting the
position of a reference peak (i.e., 609 keV peak from, '2,4Bi centered in channel 40).
Sample counts are repeated if the reference peak is more than 0.5 channels from the
reference position. Figure D2 illustrates the two nominal energy regions used for the
gamma assays.
-------
b.	The filter assembly and a recently-evacuated (within 5 minutes) alpha scintillation
cell are attached to the valve.
c.	The piercing valve needle is advanced through the can lid. and then is retracted
to its original position.
d.	The stopcock on the scintillation cell is opened for approximately 1 minute.
(Note 2: This partitions the air from the sample can into the combined volumes of the
scintillation cell and the void space of the sample can. Both will remain under partial
vacuum after the stopcock is opened.)
e.	The scintillation cell is removed from the filter assembly and its stopcock is
immediately closed (within approximately 1 second). The sampling time (t^, the
scintillation cell number, and the sample can number are then recorded.
iNote 3: This admits laboratory air (< 1 pCi Ll) into the partially-evacuated
scintillation cell to achieve atmospheric pressure, as required to achieve an identical
alpha counting efficiency to that under atmospheric-pressure conditions at which the
cell was calibrated.]
5.	For emanation measurement by gamma difference, the de-emanation of the sample is
completed by purging the air in the pierced sample can. This is done by pumping the air
from the can through the hole in the lid with a vacuum pump, and then releasing the
pump to admit laboratory air back into the can. The purging is repeated several (3 or
more) times, allowing laboratory air to re-enter the can after each evacuation. The
opened, purged can is then placed into the laboratory oven at 110°C for a 4-hour period.
At least once during this period (after approximately 2 hours), the can is removed from
the oven, purged as before, and replaced into the oven.
6.	At least 3 hours after filling the scintillation cell, its alpha activity is counted and
recorded with the count time (tj), count duration (t;i), and count, rate (aj. The cell is re-
evacuated immediately after the count is completed.
7.	For emanation measurement by gamma difference, the partially-dried, de-emanated
sample can is removed from the oven (> 4 hours after de-emanation), allowed to cool for
approximately 20 minutes, sealed by taping over the can perforation, and counted for
gamma ray intensities as in step 3 above. The intensities are recorded as I3 and I, for the
low- and high-energy regions, respectively. Again, the detector gain is visually verified
by noting the position of a reference peak (i.e., 609 keV peak from 2HBi centered in
channel 40).
8.	The tape seal is removed from the can perforation and the sample can is replaced into the
oven for an additional period to bring the total oven time to approximately 24 hours.
9.	The sample can is removed from the oven, cooled for approximately 20 minutes, and
weighed to determine the dry sample mass. The mass is recorded as m3.
D-4
-------
D.4 CALCULATIONS
The sample moisture is calculated as:
M = 100 (m2 - m3) / (m3 - mt),	(Dl)
where M	=	sample moisture (%, dry weight basis)
m2 =	gross moist sample mass (g)
m3 =	gross dry sample mass (g)
m,	=	can tare mass (g).
The radon emanation coefficient is calculated for the effluent method (Ec) as a function
of the radon concentration measured in the scintillation cell (Rn) and the equilibrium radium
concentration in the sample (Ra0) in the following manner. The radon concentration in the
scintillation cell is first computed as:
Rn = (a, - fild e"xi / [6.6 V.oM c],	(D2)
where Rn	=	radon concentration in the scintillation cell (pCi cm"3)
a3	=	alpha count rate for equilibrated sample (counts minute l)
ct),	=	alpha background count rate for evacuated cell (counts minute'1)
f3Ui	=	standard normalization factor (dimensionless)
t	=	decay time from sampling to middle of counting period, t = t2 - t, + t3/2 (s)
6.6	=	2.2 disintegrations/minute per pCi x 3 alpha particles per radon disintegration
Vce„	=	scintillation cell volume (cm3)
e	=	scintillation cell efficiency (counts per alpha particle emitted).
Its fractional uncertainty is computed from alpha counting statistics as:
ARn = Rn \'(
-------
The corresponding thorium concentration also is estimated from the equilibrium count as:
Th, = { [I/ms - m,)] - ClRa- Raj / ClTh.	(D5)
The uncertainties in equilibrium radium concentrations were estimated from equations (D4)
and (D5) by uncertainties in gamma-ray counting statistics as:
ARae = (C2Th Vl7 + ClTh ) / [(m3 - m,) (C2Th- ClRa - ClTh- C2lia)] (D6)
where ARae = uncertainty in radium concentration (pCi g'1)
It = Ij + 2Bk, (counts s':)
Bk, = counting system background for region 1 (counts s"1)
I2 = I2 + 2Bk> (counts s':!
Bk^ = counting system background for region 2 (counts s'1)
Corresponding uncertainties in thorium concentrations are estimated as
ATh, =	- m,)l + ClRa- Raj / ClTh,	(D7)
where ATh, = uncertainty in thorium concentration (pCi g ').
The radon emanation coefficient by the effluent method then is calculated as:
Ec = Rn (V., + kHVw) (1 + V/V,,) / !Rar (ma - m,)],	(D8)
where Ee	=	radon emanation coefficient by the effluent method (dimensionless)
V&	=	volume of air in the sample can, Va = Vcan - (m3 - m1)/pg - Vw (cm3)
=	interior volume of sample can (cm3)
pg	=	specific gravity of soil (g cm"3)
Vw	-	volume of water in the sample can, Vw ~ (m2 - m.,)/pw (cm'1)
pw	=	density of water (g cm'Ji
kj,	=	"2Rn distribution coefficient (water/air) from Henry's Law (dimensionless)
Vc	=	total volume of scintillation cell, sampling valve, and filter assembly (cm'1).
Its uncertainty is calculated as:
AEe = Ec V(ARn/Rn)2 + (ARa/Ra,)2	(D9)
Radon emanation coefficients by the gamma difference method are calculated from the
results of both gamma assays in the following manner. The de-emanated radon decay
product concentration (Rad) first is calculated as:
Rad = (C2Th-I3-ClTh-I1)/l(m3-m1)(C2Th-ClKa-ClTh-C2[U)]	(D10)
The corresponding thorium concentration also is estimated from the equilibrium count as:
D- 6
-------
Th2 = { [I3/(m;i - m,)] - Cl^-Raj / ClTh.	(Dll)
The uncertainties in the de-emanated radon decay product concentrations are estimated from
equations (D10) and (Dll) by uncertainties in gamma-ray counting statistics as:
ARad = (C2Th- V17 + ClTh- Vl7 ) / [(m, - mt) (C2Th- CIr, - ClTh- C2.J] (D12)
where ARad = uncertainty in radium concentration (pCi g')
I;t' = L, + 2Bk, (counts s ')
I,' = I4 + 2Bk,2 (counts s ' ).
Corresponding uncertainties in thorium concentrations were estimated as
ATh2 = {fVl7/(m3 - m,)J + Cl,ia-Raj / ClTh,	(D13)
The radon emanation coefficient by the gamma difference method then is calculated
as:
Ej = (Rau - Rad) / Rac,	(D14)
where Ea = radon emanation coefficient by gamma difference method (dimensionless)
The uncertainty in the radon emanation coefficient calculated by equation (D14) is estimated
from the uncertainties in each of the two gamma assays as:
AEd = Ed \'[(ARac)2+ (ARa/] / (Ra0 - Rad) 2 - (ARac/Racr ,	(D15)
where AEd = uncertainty in measured radon emanation coefficient (dimensionless)
D.5 CALIBRATIONS
Calibrations for the alpha scintillation cells originally were determined as individual
cell efficiencies [e in Equation (D2)j by sampling known radon concentrations from the U. S.
Bureau of Mines radon chamber at the Denver Federal Center in Denver, Colorado. They
subsequently were checked by similar sampling of known radon concentrations from the U.S.
Department of Energy radon chamber in Grand Junction, Colorado. Cell efficiencies were
calculated using Equation (D2). A standard alpha scintillation cell manufactured by Rocky
Mountain Scientific Glassblowing, Inc. (Aurora, CO) also was counted at the same time as
each set of calibration measurements to normalize counting system efficiency. This cell is
counted regularly with each set of counts on unknown cells, and is used to normalize the
counting system for possible long-term calibration drifts. It is used to compute the factor f5ld
in Equation (D2), as
= Orcf/Osul	(D16)
D- 7
-------
where a^c = reference alpha count rate measured at the time of cell efficiency calibration
(counts minute"')
a9iRa include the pitchblende ore
standard distributed by the U. S. Environmental Protection Agency (EPA), Environmental
Monitoring and Support Laboratory, Las Vegas NV; 226Ra reference materials distributed by
the Technical Measurements Center, Bendix Field Engineering Corp. for the U. S.
Department of Energy (DOE), Grand Junction Office; and standards prepared from a
commercially-certified standard radium solution (Isotope Products Laboratories, Burbank,
CA). Aliquots of the EPA pitchblende ore standard were used directly at the '2,730 pCi g"1
concentration as obtained, and also diluted to 144 pCi g 1 by spiking into powdered quartz
sand. The DOE standards were used directly as obtained at three different levels:
5.12 pCi g'1, 15.12 pCi g'1, and 50.2 pCi g \ The Isotope Products Laboratory (1PL) standard
was spiked into several powdered quartz sand aliquots to prepare standards at 1,014 pCi g1
and 1.9 pCi g'1. Dry aliquots of each radium standard powder were sealed into standard
assay cans for repeated use when counting samples of unknowns in corresponding cans.
Standards for 232Th all were prepared from Analytical Reagent grade Th(N0:i)1-4H20
(Mallinckrodt, Inc., St. Louis, MO). The manufacturer indicates the thorium nitrate salts
were packaged in 1976; however they were refined at a prior time that could not be reliably
determined. Therefore, based on the 5.75 year half-life of the 228Ra decay product, the various
gamma-emitting decay products of 2:i2Th may not be fully equilibrated, but could be biased
negatively by a maximum of 16% if all 22sRa were removed as late as 1976. The bias would
be smaller for earlier refining dates, and was neglected in the present analyses, since the
thorium determination only was used as a correction to 226Ra measurements. Standard
solutions of thorium nitrate first were prepared by weighing appropriate quantities of the
crystals into distilled water and diluting serially to the desired concentrations. Aliquots of
the standard thorium solutions then were spiked into weighed quantities of the powdered
quartz sand material and thoroughly dried. After thorough mixing, the powdered materials
were weighed into standard assay cans and sealed. Standard aliquots were prepared at
5 pCi g"1, 50 pCi g"1, and 250 pCi g'1 of 232Th, and a mixed standard was prepared to contain
6.8 pCi g'123^h and 15.1 pCi g'1 226Ra (using the spiked IPL standard for 22r'Ra).
Calibration constants for the gamma-ray spectrometer as used in equations (D4-D7)
were determined from analyses of the pure 226Ra and 232Th standards in the following
manner. Gamma analyses of each pure standard and of the system blank were first
conducted to determine the intensities I, and I2 for each of the standards. From the net
intensities (standard counts s'1 minus background counts s"1), the sensitivities (net counts s 1
per pCi in the standard can) were plotted as a function of the net mass of material in the
D- 8
-------
standard can. The resulting data were fitted by least-squares to the following straight-line
functions for gamma spectrum region 1:
Cliu = a, mn - a.
(D17)
and
ClTh = a, mn - a
where a, = slope of the sensitivity versus mass plot for radium (counts s"' pCi1 g)
mn = net mass of sample in the can (g)
= intercept of the sensitivity versus mass plot for radium (counts s"1 pCi"1)
a:, = slope of the sensitivity versus mass plot for thorium (counts s'1 pCi'1 g)
a1 = intercept of the sensitivity versus mass plot for thorium (counts s'1 pCi'1).
Similar plots for gamma spectrum region 2 also were performed, and showed no significant
mass dependance for either radium or thorium, leading to:
where a5 = region 2 sensitivity for radium (counts s 1 pCi')
ag = region 2 sensitivity for thorium (counts s 1 pCi').
Numerous standards were counted repeatedly with the unknown samples to validate
the analyses and to check for proper equipment function. These analyses also validate the
above calibration approach, and are summarized in Appendix E.
D.6 REFERENCES
AST80 Standard Method for Laboratory Determination of Water (Moisture) Content of Soil,
Rock, and Soil-Aggregate Mixtures. Philadelphia, PA; American Society for Testing
and Materials, Standard Method D-2216, 1980.
Nie82 Nielson, K. K., Rogers, V. C., Mauch, M. L., Hartley, J. N., and Freeman, H. D.,
Radon Emanation Characteristics of Uranium Mill Tailings, in: Uranium Mill
Tailings Management - V, Ft. Collins: Colorado State University, p. 355-367, 1982.
Str82 Strong, K. P. and Levins, D. M., Effect of Moisture Content on Radon Emanation
from Uranium Ore and Tailings. Health Physics 42, 27-32, 1982.
Tha82 Thamer, B. J., Nielson, K. K., and Felthauser, K., The Effects of Moisture on Radon
Emanation. Washington D.C.: U. S. Department of the Interior, Bureau of Mines;
Open File Report OFR-184-82, 1982.
C2U. = a„
(D18)
and
D- 9
-------
Appendix E
Quality Assurance Data for Radium and Radon Emanation Measurements
The soil 226Ra (radium) concentration and 222Rn (radon) emanation measurements
reported in Appendix F were made using the procedures presented in Appendix D. The
measurements were made on soil samples that had been collected primarily as part of the
the U.S. Soil Conservation Service county soil surveys. The samples had been stored in the
archives of the University of Florida Soil and Water Science Department, and were selected
and loaned to Rogers & Associates Engineering Corp. for characterizing radon source
strengths for mapping of Florida soil radon potentials. Several samples (A-series in Appendix
F) were collected by the U.S. Geological Survey and the Florida Geological Survey specifically
for this radon potential mapping project.
The soil samples comprised three separate groups. A suite of 553 samples was
initially chosen for detailed representation of Alachua, Marion, and St. Johns Counties. An
additional 128 samples were selected later to represent Citrus, Clay, Duval, Flagler, Lake,
Levy, Nassau, Putnam, and Volusia Counties. A final group of 98 soil samples was chosen
to represent the major soils in the remaining counties. The data quality objectives for all of
these analyses are presented in Table El, as they were also presented in the Quality
Assurance Project Plan. The data quality objectives address three data quality parameters:
precision, accuracy, and completeness. The following sections present the summary statistics
to document the attainment of each of these data quality parameters for both the radium
assays and the radon emanation measurements.
Table El. Data Quality Objectives
Measurement
Parameter
Method
Precision
(Rel. Sid. Dev.)
Accuracy
(Rel. Bias)
Completeness
226Ra
Concentration
Sealed-Can
Gamma
Spectrometric
Assay
< ±20%"
< ±10%
90%
Radon
Emanation
Gamma
Difference
< ±20%h
<±20%
90%c
Radon
Emanation
Radon
Effluent
< ±15%°
<±20%
90%c
a for 225Ra concentrations <2 pCi g 1
h for 22SRa concentrations >15 pCi g1
f for samples with 226Ra concentrations >1 pCi g1
E-I
-------
E.l Radium-226 Concentration Measurements
The precision goal for the radium concentration measurements was to demonstrate
a relative standard deviation of less than ±20%, based on counting statistics, for all samples
with radium concentrations exceeding 2 pCi g';. The attainment of this goal is demonstrated
by the graph in Figure El, which is a plot of the precision of each radium measurement
versus the measured radium concentration. All 779 analyses are represented in Figure El.
The precisions were computed from gamma-ray counting statistics, according to Equation
(D6), and are reported in Tables F-l through F-3. The calculated precisions are plotted as
relative standard deviations (calculated standard deviation divided by the measured value)
to express them in dimensionless units for plotting. Thus 0.1 in Figure El represents 10%
standard deviation.
i	i » *n |

<2 pCi/g
>20% Uncertainty
<20% Uncertainty

>2 pCi/g
0
%
CC
<
1	10
Radium Concentration (pCi/g)
100
Figure El. Relative uncertainties in 779 radium measurements, computed from
gamma-ray counting statistics, as a function of soil radium
concentration.
E- 2
-------
As illustrated, nearly all of the uncertainties are tightly grouped about a line that falls
below the stated uncertainty limit of ±20% at >2 pCi g'1. As expected, numerous
measurements are associated with higher uncertainties, but these are all in the very low-
radium range that approaches the detection limit. Only three data points in Figure El fall
in the upper right quadrant that exceeds the stated precision objective. Examination of Table
F-l shows that two of the three points in the upper right quadrant of Figure El had
extremely high water contents (55.7% and 73.2%), and all three of these samples had very
low sample mass, thus causing high uncertainty and elevated limits of detection. The low-
sample mass resulted from a limited quantity of sample material available for these samples.
A second estimate of the precisions of the radium determinations was based on
comparisons of the results of duplicate assays of a selected number of samples. The goal was
to duplicate at least 10% of the radium determinations. This goal corresponds to
approximately 78 duplicate radium measurements. The results of the duplicate radium
analyses are presented in Table E2, and include 88 duplicate radium determinations. As
indicated in Table E2, 22 of these happened to be below the analytical detection limits. For
convenience, the results of the first radium measurements also are reported in Table E2, as
also listed in Tables F-l through F-3. The differences between the duplicate and initial assay
results are also listed in Table E2, and are summarized at the bottom. The average
difference, indicating net bias, was only 0.1 pCi g'1. The average absolute difference was 0.2
pCi g'1, indicating the typical difference between the duplicate measurements. The relative
standard deviation between the duplicate measurements was 7.6% if the entire set of
measurements above the detection limit is included. However, if only measurements above
the 2 pCi g 1 range are included, as specified by the data quality objective in Table El, the
relative standard deviation between the duplicate pairs of measurements is only 4.1%, well
within the stated objective of 20% for this range. The relative standard deviation between
duplicate pairs of measurements was computed as
RSD(Jup = V 2nS(x,-x2)a / X(x,+x2)	(El)
where
RSDri,,P = relative standard deviation among duplicates
x, = first observation
x2 = second observation
n = number of pairs being compared.
E- 3
-------
Table E2. Comparison of Duplicate Radium Assays to Estimated Analytical
Precision
Sample
Number
Duplicate Assay
Radium ± Uncertainty
(pCi/g)
Reference
Radium
(pCi/q)
Difference
''pCi/q)
Samp e
Number
Duplicate Assay
Radium ± Uncertainty
(pCi/q)
Reference
Radium
(pCi/g)
Difference
(pCi/q)
695d
0.5 ±0.4
0.5
0.0
3605d
<0.3
<0.3

722d
7.4 t 0.4
7.6
-0.2
3612d
0.7+0.3
0.5
0.2
729d
6.3±0.4
6.1
0.2
3624d
0.4 ±0.3
0.2
0.2
1494d
0.3+0.3
0.0
0.3
3626d
0.4 ±0.3
0.2
0.2
1498d
0.7 + 0.4
0.7
-0.1
3690d
< 0.4
<0.3

2173d
0.6 ±0.3
0.7
-0.1
3836d
<0.3
<0.3

2178d
1.0 ± 0.3
0.9
0.1
3850d
0.5 ±0.3
0.4
0.1
2304d
0.7 ±0.4
0.5
0.1
3876d
0.3 ±0.3
0.5
•0.2
2403d
4.4 ± 0.4
4.3
0.1
3876d
0.5 ± 0.3
0.5
0.1
2406d
3,9 ± 0.3
4.2
0.3
3882d
0.3 ±0.3
0.5
-0.2
2420d
1.1 ±0.3
1.1
-0.1
3990d
27.5 ±0.4
27.6
•0.1
2509d
0.5 ±0.2
0.3
0.2
4203d
<0.3
<0.3

2515d
0.8 +0.4
0.7
0.0
4254c
2.6 ± 0.4
2.2
0.5
2517d
<0.3
<0.3

4554d
6.0 ±0.4
6.0
0.0
2534d
<0.3
<0.3

4561d
3.2 ± 0.4
3.4
-0.2
2707d
1.5+0.3
1.2
0.3
4572d
0.5 ±0.3
0.3
0.2
2708d
1.7 ±0.3
1.3
0.3
4588d
0.3 ±0.2
0.3
-0.1
2724d
1.3 ±0.3
1.3
0.5
4592d
<0.2
< 0.5

2742d
0.9 ±0.3
0.7
0.2
4898d
0.9 ±0.4
0.7
0.2
2746d
0.4 ±0.3
0.3
0.1
5373d
3.1 ±0.5
3.3
0.1
2755d
0.3 ±0.2
0.3
0.0
5931d
16.2 - 0.4
16.4
-0.3
2901d
0.3 +0.3
0.3
0.0
5968d
0.3 + 0.3
0.1
0.1
2905d
0.8 ±0.3
0.9
0.1
6126d
0.7 ±0.4
0.3
0.4
2906d
0.9 ±0.3
1.0
0.0
6219d
0.5 ±0.4
0.7
-0.1
2913d
0.5 ±0.3
0.6
-0.1
6257d
<0.3
<0.3

2914d
0.5 ±0.3
C.4
0.2
6439d
<0.3
<0.3

2929d
0.4 ±0.3
1.0
-0.7
6536d
32.5 ±0.5
32.9
-0.4
3186d
4.3 ±0.4
3.6
0.7
6531d
1.4 ±0.5
1.7
-0.3
3'94d
1.3 ±0.3
2.5
•0.7
6927d
3.4 ± 0.5
8.2
0.2
3206d
1.8 ±0.7
1.0
0.8
7043d
<0.5
0.5
0.0
3223d
0.4 ±0.3
0.1
0.3
7055d
1.3 ±0.4
0.9
0.4
3232d
< 0.3
< 0.3

7069d
<0.4
0.5
•0.1
3234d
<0.3
<0.3

7357d
<0.3
<0.3

3243d
0.6 ±0.4
0.4
C.2
7522d
0.4 +0.4
0.5
-0.1
3248d
0.6 r 0.3
0.5
0.1
7715d
1.0 t 0.4
0.9
0.0
3440d
0.3 ±0.3
0.1
0.2
8225d
12 ±0.4
1.2
0.0
3444d
1.0 ±0.3
1.3
-0.2
A2 0.5 1.0
<0.3
<0.3

3446d
0.4 ±0.3
0.3
0.0
A2 20-20.5
0.8 ±0.3
0.5
0.3
344 7d
<0.3
<0.3

A4 0.6-1.3
<0.3
<0.3

3452d
0.6 ± 0.3
0.1
0.5
A4 10.5-11.0
0.9 ±0.3
0.7
0.2
3454d
<0.3
<0.3

A5 5.0-5.5
<0.3
<0.4

3462d
<0.3
<0.3

A7a 12.8-13.5
0.7 ±0.3
0.7
0.0
3587d
<0.5
<0.5

A8 11.5-12
1.5 ±0.5
1.5
0.0
3599d
<0.3
<0.3

A8 8-8.5
0.5 ±0.3
0.6
-0.1
Average difference (pCi.'g)
Average absolute difference (pCi/'g)
Relative standard deviation (a:l cetected, 66)
Relative standard deviation (>2 pCi/a, 14)
0.1
0.2
7.6%
4.1%
E-4
-------
The accuracy goal for the radium concentration measurements was to demonstrate
agreement of better than ±10% with standard reference materials. The reference materials
consisted of a standard prepared from a commercially-certified (Isotope Products
Laboratories, IPL) radium solution, as described in Appendix D, three radium standards from
the U.S. Department of Energy (DOE) Division of Remedial Action Projects, and the
Environmental Protection Agency (EPA) pitchblende ore standard. Each of these standards
was sealed in a metal can identical to those used for the soil samples. The IPL standard was
analyzed regularly at the beginning and end of each batch of soil samples. The other
standards were analyzed opportunistically during the general period of the soil analyses,
whenever free time was available on the gamma spectrometer. Therefore different numbers
of assays were performed for the DOE and EPA standards than were performed for the IPL
standard. The results of the replicate analyses of the IPL standard are plotted in control
chart format in Figure E2, and are listed digitally in Table E3.
1040
i ¦ ¦ ¦ ¦ i ¦ 1 ¦ ¦ i 1 ' ' 1 i ' ' 1 1 i ¦ 1 1 ' i 1 1 1 ¦ i
Upper Confidence Limit: 1034,4 pCi/g
i ¦ 1 1 1 i
¦ Measured Mean: 1017.0 pCi/g
Reference Value:
1014 ± 16 pCi/g
Lower Confidence Limit: 999.6 pCi/g
990
' 1 » ' ' ' 1 ¦ ' ' ' 1 1 ' ' ' 1 1 * 1 * 1 ' ' ' ' 1 • 1 * ' 1 ' « ' '
a.
«
o
O
0 10 20 30 40 50 60 70 30 90 100
Analysis Number
Figure E2. Individual radium measurements on the IPL standard in QC chart
format.
E- 5
-------
Table E3. Replicate Analyses of the IPL Spike Standard
Ra-226 ± Unc.
Meas/Ref
Ra-226 ± Unc.
Meas/Ref
Ra-226 ± Unc.
Meas/Ref
(PCi/g)
(ratio)
(pCi/g)
(ratio)
(pCi/g)
(ratio)
1020.6
± 4.0
1.007
1019.9
±4.0
1.006
1018.4
±1.3
1.004
1019.3
± 4.0
1.005
1019.2
±4.0
1.005
1018.2
± 1.3
1.004
1012.0
±4.1
0.998
1017.8
±2.0
1.004
1019.2
± 1.3
1.005
1013.3
±4.0
0.999
1019.2
±2.0
1.005
1006.1
± 13
0.992
1012.4
-4.2
0.998
1018.0
+ 2 1
1.004
1012.6
+ 1.3
0.999
1012.4
+ 4.2
0 998
1015.0
±2.1
1.001
1015.7
±1.3
1.002
1006.1
±6.6
0.992
1014.4
±4.1
1.000
1012.3
± 13
0.998
1019.0
±4.1
1.005
1020.3
±4 1
1.006
10194
±1.3
1.005
1015.0
±6.3
1.001
1017.3
±4.0
1.003
1002.8
±1.3
0.989
1015.0
±6.2
1.001
1020.8
±4.0
1.007
1019.8
±1.3
1.006
1010.3
±6.6
0.996
1017.3
±4.1
1.003
10166
±1.3
1.003
1013.4
±6.3
0.999
1015.5
± 4.1
1.001
1016.1
= 1.3
1.002
1013.5
± 4.0
0.999
1027.8
= 4.0
1.014
1017.3
= 1.3
1.003
1002.6
± 1.3
0.989
1022.2
= 4.1
1.008
1018.9
= 1.3
1.005
1002.9
±6.5
0.989
1021.4
= 4.1
1.007
1018.9
±1.3
1.005
1008.2
± 1.3
0.994
1021.1
= 4.1
1,007
1017.9
± 1.3
1.004
1012.5
±6.3
0.998
1016.0
= 1.3
1.002
1016.9
± 1.3
1.003
1012.5
±1.3
0.999
1018.6
= 1.3
1.005
1014.5
± 1.3
1.000
1019.3
±4.0
1.005
1013.6
= 1.3
1.000
1024.8
±2.1
1.011
1012.1
±4.1
0.998
1022.1
± 1.3
1.008
1024.2
±2.2
1.010
1012.3
r 4.0
0.998
1023.3
±1.3
1.009
1029.5
± 2.1
1.015
1010.7
-4.0
0.997
1024.1
± 1.3
1.010
1027.0
± 2.1
1.013
1021.2
r 4.1
1.007
1019.2
± 1.3
1.005
1024.7
1 2.1
1.011
1013.6
± 4.0
1.000
1018.5
± 1.3
1.004
1021.3
±2.1
1.007
1015.7
±4.1
1.002
1016.7
± 1.3
1.003
1021.0
±2.1
1.007
1019.5
r 4.0
1.005
1018.8
± 1.3
1.005
1024.2
±2.2
1.010
1011.3
±4.2
0.997
1010.5
± 1.3
0.996
1031.5
= 2.1
1.017
1017.1
±4.0
1.003
1007.3
± 1.3
• 0.993
1032.4
= 2.1
1.018
1014.8
±2.1
1.001
1016.7
± 1.3
1.003



Average Ra-226 ± Standard Deviation (pCi/g): 1017.0 = 5.8
Average Ratio (Measured/Reference) ± Standard Deviation: 1.003 ±0.006
Average Relative Bias:	0.30%
E- 6
-------
The control chart plot of the measurements on the IPL standard shows that the 3o
confidence interval computed from the measurements covered a similar range to the
uncertainty range of the reference value for the standard. Although some temporal trends
are apparent in Figure E2, none of the individual measurements exceeded the computed 30
interval, suggesting acceptable control of the measurement system operation and variations.
Furthermore, only two of the 86 measurements fell outside of the la confidence interval of
the standard. Most of the variation in radium measurement precision listed in Table E3
resulted from varying gamma-ray counting times. The overall standard deviation among the
86 measurements (±5.8 pCi g'1) is within the precision range of the individual measurements.
The average of the ratios of each determination to the standard value (1.003 ± 0.006)
indicates that the overall bias was very small (0.3%).
The accuracy of the measurement system is further supported by the opportunistic
analyses of the DOE and EPA standards listed in Table E4. As indicated in Tables E3 and
E4, the average accuracies of all of the standards were within the 10% objective stated in
Table Dl. Most of the individual measurement accuracies also were within the 10% objective,
with the notable exception of the last group of EPA pitchblende analyses. The average
relative biases of all of the standards except TMC-50 were positive, ranging from about +1%
for TMC-15 to +7% for pitchblende. The bias for TMC-50 was -1.1%. The positive bias for
the EPA pitchblende was consistently within the 4-13% range, suggesting an inherent bias
between it and the other standards, either in inherent radium concentration or in some other
sample property that caused it to have an apparent higher counting efficiency. Subsequent
assays of this standard showed that it gives higher values after slight vibration or agitation,
probably owing to its composition of heavy mineral particles spiked into a matrix of powdered
quartz sand, permitting differential settlement with vibration. After mixing by top-bottom
rotation of the can, analyses of the pitchblende suggested slightly lower values, consistent
with the TMC-series standards and with the 10%' accuracy goal for individual measurements.
The results for this material therefore were not interpreted as biases in the measurement
system. The average relative biases in tables E3 and E4 were computed as:
Bias - 100 [S(x„ - xro,)/n] / xref	(E2)
where
Bias = average relative bias (percent units)
xm = measured value (pCi g')
xrof = reference value (pCi gl)
n = number of measurements.
E-7
-------
Table E4. Analyses of Standard Reference Materials for Ra-226
DOE TMC-5
DOE TMC-15
DOE TMC-50
EPA Pitchblende
Ra-226
± Unc.
Meas/Ref
Ra-226 ± Urc.
Meas'Ref
Ra-226 = Unc.
Meas/Ref
Ra-226 ± Unc.
Meas/Ref
(pCi/q)
(ratio)
(pCi/g)
(ratio)
(pCi/g)
(ratio)
(pCi/g)
(ratio)
5.0
± 0.5
0.967
15.5 ±0.5
1 023
51.1 ±0.9
1.017
151.7 ± 0.8
1.054
5.9
±0.7
1.145
15.4 ±0.8
1.019
50.5 ± 0.6
1.006
150.6 + 0.8
1.046
4.9
±0.5
0.961
15.1 ±0.5
0.998
50.7 ± 0.9
1.009
151.8 ± 0.8
1.054
4.6
±0.5
0.896
14.8 ± 0.5
0.981
50.9 ± 0.6
1.015
152.0 ±0.8
1.056
5.2
±0.2
1.011
15.2 = 0.5
1.007
50.5 ± 0.6
1.005
151.5 ±0.8
1.052
5.3 ±0.2
1.029
15.0 ± 0.5
0.990
50.9 ±0.6
1.013
150.7 ±1.2
1.046
5.0
= 0.2
0.980
15.5 -0.5
1.028
50.4 ± 0.6
1.004
150.2 ±1.2
1.043
5.0
±0.2
0.984
15.5 = 0.5
1.023
50.1 ±C.6
0.999
151.0 ±0.2
1.048
5.0 ±0.5
0.982
15.2 -0.5
1.007
49.7 ±0.7
0.990
150.6 ±0.2
1.046
5.3 ±0.5
1.027
15.5 ±0.5
1.027
49.7 ± 0.7
0.989
150.6 ±0.2
1.046
5.6 ±0.5
1.100
15.3 ±0.5
1.011
49.3 ± 0.7
0.982
150.6 i 0.2
1.046
5.7 ±0.5
1.113
'5.4 ±0.5
1.016
49.2 ±0.7
0.980
150.3 ±03
1.044
5.2
±0.5
1.014


49.2 ±0.7
0.98C
150.0 ±0.3
1.041
5.3
±0.5
1.033


48.6 ±0.7
0.968
149,7 ±0.3
1.040
4.8
±0.5
0.928


49.0 ±0.7
0.976
150.1 ±0.3
1.042
5.5
±0.5
1.C72


48.6 ± 0.7
0.969
149.7 - 0.3
'.040
5.1
±0.5
0.996


49.0 ±0.7
0.975
150.0 ± 0.3
1.042
5.3
±0.5
1.043


49.1 +0.7
0 979
150.0 ± 0.3
1.041
5.5
±0.5
1.071


49.3 (:0.7
0.983
149.9 =0.3
1.041
5.5
±0.5
1.079


48.5 ±0.7
0 966
149.9 ± 0 3
1.041
4.8
±0.5
0.931


49.0 ±0.7
0.977
155.8 ± 0 9
'.,082
5.2
±0.5
1.008


49.0 = 0.7
0.976
^57.3 ±0.8
1.093
4.8
±0.5
0.938


49.1 =0.7
0.978
157.7 ±0.8
1.095







•56.8 ± 0.8
1.089







156.3 ±0.9
1.086







158.4 + 0.9
1.100







1 59.4 ± 0.9
1.107







159.1 ±0.9
1.105







160.1 ±0.9
1.112







161.6 ±0.9
1.122







163.0 ± 0.9
1 132







161.9 ± 0.9
1.124







161.3 ±0.9
1.120







152.0 ±0.9
1.125







162.7 ±0.9
1.130
Averages ± Standard Deviations





5.2

1.013
15.3
1.011
49.6
C.989
154.4
1.072
= 0.3

= 0.064
±0.2
± 0.015
± 0.8
±0.016
±4.8
± 0.033
Average Relative Bias







1.36%

1.08%

-1.15%

7.23%

E- 8
-------
Analyses of blanks utilized a 300 g aliquot of powdered onyx rock that had been
previously determined by extended gamma-ray counting to contain negligible quantities of
radium or thorium (<0.1 pCi g l). The blank sample was sealed into a can identical to those
used for the soil samples, and was counted repeatedly during the periods of sample analysis.
The results of these counts are presented in Table E5. The average quantities of radium
measured in this sample were 0.0 ± 0.2 pCi g'1, well within the measured standard deviations
of 0.3 pCi g"1.
Table E5. Replicate Analyses of the Blank Sample for Radium
"*Ra ±S.D. "8Ra ±S.D. "HRa ±S.D. J*Ra ±S.D. 22HRa ±S.D.
(pCig1)	(pCi g'1)	(pCi g')	(pCi g"1)	(pCig1)
0.2 ±0.3
0.0 ±0.3
0.0 ±0.3
0.0 ±0.3
-0.1 ±0.3
0.3 ±0.3
-0.1 ±0.3
0.0 ±0.3
-0.1 ±0.3
-0.3 ±0.3
0.1 ±0.3
-0.2 ±0.3
0.2 ±0.3
0.1 ±0.3
0.1 ±0.3
-0.2 ±0.3
0.1 ±0.3
-0.1 ±0.3
0.1 ±0.3
0.2 ±0.3
0.2 ±0.3
-0.3 ±0.3
0.1 ±0.3
0.1 ±0.3
-0.2 ±0.3
0.0 ±0.3
-0.2 ±0.3
0.0 ±0.3
-0.2 ±0.3
-0.4 ±0.3
0.2 ±0.3
0.0 ±0.3
0.0 ±0.3
-0.1 ±0.3
-0.2 ±0.3
0.2 ±0.3
0.0 ±0.3
0.0 ±0.3
0.0 ±0.3
0.3 ±0.3
0.2 ±0.3
0.1 ±0.3
-0.1 ±0.3
0.1 ±0.3
0.0 ±0.3
0.1 ±0.3
-0.1 ±0.3
0.0 ±0.3
0.1 ±0.3
0.0 ±0.3
0.0 ±0.3
0.0 ±0.3
-0.1 =0.3
0.0 ±0.3
-0.3 ±0.3
-0.2 ±0.3
0.2 ±0.3
-0.1 ±0.3
0.0 ±0.3
-0.1 ±0.3
0.0 ±0.3
-0.3 ±0.3
-0.1 ±0.3
-0.3 ±0.3
0.0 ±0.3
0.0 ±0.3
0.0 ±0.3
-0.4 ±0.3
-0.3 ±0.3
0.2 ±0.3
-0.2 ±0.3
-0.1 ±0.3
-0.1 ±0.3
-0.1 ±0.3
0.1 ±0.3
-0.2 ±0.3
-0.1 ±0.3
0.2 ±0.3
-0.2 ±0.3
0.2 ±0.3
0.0 ±0.3
0.1 ±0.3
0.1 ±0.3
0.0 ±0.3
0.0 ±0.3
0.2 ±0.3
0.1 ±0.3
-0.1 ±0.3
-0.2 ±0.3
0.0 ±0.1
0.0 ±0.3
-0.1 ±0.3
0.1 ±0.3
0.4 ±0.3
-0.1 ±0.1
-0.5 ±0.3
0.0 ±0.3
0.1 ±0.3
-0.1 ±0.3
0.0 ±0.1
-0.1 ±0.3
0.1 ±0.3
-0.4 ±0.3
0.3 ±0.3
-0.1 ±0.1
-0.6 ±0.3
-0.2 ±0.3
-0.2 ±0.3
-0.2 ±0.3
-0.2 ±0.3
-0.4 ±0.3
-0.1 ±0.3
-0.1 ±0.3
-0.1 ±0.3
-0.1 ±0.3
-0.1 ±0.3
0.3 ±0.3
-0.1 ±0.3
-0.2 ±0.3
-0.1 ±0.3
-0.0 ±0.3
-0.1 ±0.3
0.0 ±0.3
-0.3 ±0.3
-0.1 ±0.3
-0.0 ±0.3
-0.2 ±0.3



Average Measured Value:	0.0 ±0.2
Average Uncertainty:	0.3
E- 9
-------
The completeness goal for the radium concentration measurements was to report
concentrations for at least 90% of the samples for which measurements were attempted.
Measurements were made on 779 samples, and values are reported in Table F-l through F-3
for all of them. Therefore from this perspective, the completeness of the radium
measurements is 100%. Since three of the radium measurements were outside the precision
criterion in set 1, the completeness for useable data in set 1 is 776/779, or 99.6%.
E.2 Radon Emanation Measurements
Attainment of the data quality objectives for the radon emanation measurements was
demonstrated using radiation counting statistics for precision estimates and comparisons of
emanation measured by two independent methods for accuracy estimates. There are no
standard reference materials for radon emanation calibration. The emanation comparisons
between the gamma difference method and the radon effluent method utilized an outside set
of method validation samples in addition to the Florida soils to augment the number of
samples with sufficient radium concentrations to obtain precise measurements.
For demonstrating the precision of emanation measurements, replicate measurements
on the Florida soil samples were precluded because the quantities of available sample
material were sufficient for only single measurements. Precisions of the radon emanation
measurements by the gamma difference method were therefore analyzed from counting
statistics using equation (D15), and were expressed on a relative basis as AEd/Ed. The
precision goal for this method was to demonstrate a relative standard deviation of less than
±20% for samples having a radium concentration of >15 pCi gThe measured precisions
using the gamma difference method are plotted in Figure E3, illustrating the successful
attainment of this goal (no data points in the upper right quadrant).
Measurements of radon emanation by the radon effluent method were analyzed
similarly for analytical precision from radiation counting statistics. Standard deviations in
these emanation measurements were computed using equation (D9), and were expressed on
a relative basis as AE/E,,. The resulting relative standard deviations az-e plotted in Figure
E4 as a function of sample radium concentrations. The precision goal for this method was
a relative standard deviation of less than ±15% for samples with radium concentrations
exceeding 2 pCi g'1. The precisions calculated for the radon effluent method are plotted in
Figure E4, illustrating the generally-successful attainment of this goal (only five data points
in the upper right quadrant of Figure E4). The three data points exceeding the criterion by
the greatest amount in Figure E4 correspond to the samples identified previously with
limited sample mass and a high water content. The much better precision available by the
radon effluent method is illustrated by plotting the data quality objective for the effluent
method at the intersection of the shorter lines on the plot with the gamma difference data
in Figure E3. Many fewer data would have passed the more stringent emanation precision
criterion if only the gamma difference method had been used.
E-10
-------
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Figure E3.
100
Radium Concentration (pCi/g)
Relative uncertainty in radon emanation determinations by the gamma
difference method, as computed from gamma ray counting statistics.
(0
ii
wf 8
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cr ? co
c£?
~ LU .£
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°
%* ®
 15% RSD
oo °<*>
O 0
0
o
<2 pCi/a
<	
<15% RSD
ik-. 0 w
%fi5
O^Kh o
°o
° OO
%
oo
>2 pCi/g
	> 8
.1
1	10
Radium Concentration (pCi/g)
100
Figure E4. Relative uncertainties in radon emanation determinations by the
radon effluent method as computed from radiation counting statistics.
E-il
-------
The accuracy of the emanation measurements was estimated from comparisons of
measurements by the radon effluent method with measurements by the gamma difference
method. Since uncertainties were often high by the gamma difference method for low-radium
samples, the accuracy of the method was estimated initially only from measurements on
elevated-radium (>15 pCi g1) samples. Since this limited the comparisons to a relatively
small number of samples, the accuracy estimates were supplemented by 14 additional
measurements on a special set of non-Florida validation samples that contained higher
radium concentrations. The comparisons for the Florida samples are illustrated by the seven
dark circles in Figure E5. Numerical comparisons for these seven points indicated the
effluent method differed from the gamma difference method by an average of -0.6±12.0%.
This average difference indicates no significant net bias between the two methods. Each of
these points also satisfied the 3:20% agreement criterion within their la measurement
precision (as indicated by the error bars in Figure E5). Collectively, the seven pairs of
measurements differed by an average of 9.6%, which also satisfies the data quality objective
of ±20% relative standard deviation.
Q Q * . ¦ , . > . . . . 1 , . . . I « i . .	. . I ¦ 1 I t » t I I I I I I I I I I ¦ 1 I
' u.O 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8
Radon Emanation by Gamma Difference
Figure E5. Comparison of radon emanation coefficients measured by the radon
effluent method and by the gamma difference method on Florida soils
with elevated radium and on validation samples.
E-12
-------
Radon emanation measurements on the 14 validation samples were made in triplicate
except for two samples, which only provided enough material for duplicate measurements.
These samples had a wider range of radium concentrations (1.5 to 4,157 pCi g'1), as indicated
by their test results in Table E6. They were predominantly western U.S. soils and crushed
aliquots of several different uranium ores. The duplicate and triplicate aliquots of each soil
or ore provided an independent basis for estimating analytical precision for the emanation
measurements. Identical procedures were used for these validation samples as for the
Florida soils (see Appendix D).
The results of the emanation measurements on the validation samples are presented
in Table E6. The number of replicate aliquots of each sample is given by n. For the radium
determinations and for both kinds of emanation measurements, Table E6 presents both the
standard deviations among replicate analyses and the average of the statistical precisions for
comparisons of these related parameters. The actual precisions generally are comparable to
precisions based on counting statistics except where a lower limit of several percent
uncertainty is reached, as dominated by measurements other than radiation counting.
The last column in Table E6 presents the bias between the emanation measurements
by the effluent method and those by the gamma difference method. The differences ranged
from 0% to 174%, and averaged 2±55%. The average difference again suggests no significant
bias between the two methods. The mean emanation coefficients by each method and their
uncertainties (the larger of the standard deviation or the statistical precision) are also plotted
in Figure E5 for comparison with the Florida soil data. As illustrated, only one of the
validation set comparisons (sample 8) fell beyond its measurement uncertainty outside the
±20% accuracy criterion. Collectively, the comparisons in Table E6 differ by an average of
<20% (excluding sample 2 because its measured uncertainty exceeded its mean).
Additional comparisons of the radon effluent method with the gamma difference
method were made using measurements on Florida soils with radium concentrations in the
5 to 15 pCi g"1 range. Twenty five samples fell into this range, and their radon emanation
measurements by both methods are illustrated in Figure E6. Again, only one of the 25
samples fell beyond its measurement uncertainty outside the ±20% accuracy criterion. The
differences in these measurements averaged -5±13%, again suggesting no significant bias
between the two methods.
The completeness of the radon emanation data is estimated from the total number of
299 samples selected for radon emanation measurements. Compared with the stated
objective, all samples with radium concentrations greater than 1 pCi g'1 were analyzed, plus
many in the lower-radium range. Therefore the completeness was 100%. If other criteria are
applied, such as the percentage of data excluded because of limited precision, the
completeness can be defined from 294/299 to give 98.3%. This still satisfies the 90%
completeness criterion.
E- 13
-------
Table E6. Radon Emanation Measurements on the Validation Sample Set by the
Radon Effluent Method and by the Gamma Difference Method.
Sampie


Moisture
Radium
Emanation
Emanation
Emanation
No.
n°
Statistic6
(% dry wt.)
(pCi g'1) (Rn effluent) (gamma diff.) Differencec
1
3
Mean
9.8 .
2.6
0.21.
0.15
34%


S.D.
0.2
0.1
0.01
0.02



Stat. Prec.

0.2
0.01
0.10

2
3
Mean
8.6
1.9
0.14
0.02
174%


S.D.
0.2
0.1
0.01
0.04



Stat. Prec.

0.2
0.02
0.04

3
3
Mean
9.5
2.2
0.16
0.20
-16%


S.D.
0.3
0.2
0.02
0.10



Stat. Prec.

0.1
0.01
0.12

4
2
Mean
11.2
1.5
0.20
0.25
-22%


S.D.
0.3
0.1
0.00
0.08



Stat. Prec.

0.2
0.02
0.18

5
2
Mean
4.0
13.2
0.13
0.15
-10%


S.D.
0.2
0.1
0.00
0.01



Stat. Prec.

0.3
0.00
0.03

6
3
Mean
7.3
449.
0.62
0.58
6%


S.D.
0.1
10.6
0.02
0.01



Stat. Prec.

0.6
0.00
0.00

7
3
Mean
8.6
884.
0.25
0.27
-10%


S.D.
0.7
9.3
0.01
0.01



Stat. Prec.

1.3
0.00
0.00

8
3
Mean
4.7
4157.
0.17
0.26
-42%


S.D.
0.2
107.
0.01
0.01



Stat. Prec.

2.6
0.00
0.00

9
3
Mean
5.9
730.
0.35
0.36
-4%


S.D.
0.2
15.4
0.01
0.00



Stat. Prec.

1.0
0.00
0.00

10
3
Mean
4.9
219.
0.09
0.10
-14%


S.D.
0.1
3.9
0.01
0.00



Stat. Prec.

0.6
0.00
0.00

11
3
Mean
9.4
733.
0.23
0.27
-18%


S.D.
0.3
13.2
0.01
0.00



Stat. Prec.

1.0
0.00
0.00

12
3
Mean
11.3
58.3
0.21
0.21
0%


S.D.
0.2
9.2
0.02
0.03



Stat. Prec.

0.5
0.00
0.01

13
3
Mean
18.8
91.0
0.53
0.46
14%


S.D.
1.1
1.8
0.02
0.00



Stat. Prec.

0.5
0.00
0.01

14
3
Mean
14.9
2.0
0.24
0.49
-65%


S.D.
0.5
0.9
0.07
0.14



Stat. Prec.

0.3
0.04
0.24

° Number of replicate sample aliquots analyzed.
* Mean, standard deviation, and standard deviation based on counting statistics.
c Average of emanation differences for individual samples divided by their means.
E- 14
-------
.0 0.1 0.2 0.3 0.4 0.5 0.6
Radon Emanation by Gamma Difference
Figure E6. Comparison of radon emanation coefficients measured by the radon
effluent and the gamma difference methods on Florida soils with 5 to
15 pCi g'1 radium-226.
E- 15
-------
Appendix F
Radium and Radon Emanation Measurements
This appendix contains the results of the radium and radon emanation measurements
on Florida soils. The measurements were made using the procedures described in Appendix
D. Supporting quality assurance data for these measurements are contained in Appendix E.
The measurements were made in three groups. The first group consisted of 553 samples
chosen for detailed representation of numerous soil profiles in Alachua, Marion, and St.
Johns Counties. The second group consisted of 128 samples for a less-detailed representation
of major soil profiles in Citrus, Clay, Duval, Flagler, Lake, Levy, Nassau, Putnam, and
Volusia Counties. The third group consisted of 98 soil samples to represent only a surface
and sub-surface pair of samples from many other soil profiles in the remaining 55 counties.
The results of these analyses are presented in Tables F-l, F-2, and F-3 for these three
respective groups.
The data in Tables F-l through F-3 are sorted by sample number, which identifies
each sample with respect to its properties and geographic context as part of the Soil
Conservation Service county soil surveys in Florida. These soils, analyzed and archived by
the University of Florida Soil and Water Science Department, comprised part of the state-
wide soil characterization effort on which the present radon potential maps are based. The
soils were loaned to Rogers & Associates Engineering Corporation for the present radium and
radon emanation measurements, and were subsequently returned to the University of
Florida. The soil series, depth, horizon, and sample number information were provided by
the University of Florida. The sample moistures, radium concentrations, and radon
emanation coefficients were measured bv Rogers & Associates.
Samples were received in an air-dry condition, and were moistened with distilled
water (generally adding 5-10%) to obtain radon emanation measurements that would be
representative of field conditions. The reported moistures prevailed at the time of the radon
emanation measurements. They are presented in Tables F-l through F-3 on a dry weight
basis (grams of water per gram of dry soil). The radium concentrations are reported on a dry-
mass basis (pCi of radium per gram of dry soil). Radon emanation coefficients were
measured on samples with radium exceeding 1 pCi g ', and on certain other samples chosen
to represent lower-radium soils. Since the last group of samples was chosen to represent only
surface and sub-surface soils, detailed descriptions of their depth intervals and horizons are
omitted. However, these data can be identified from the soils data bases using the listed
sample numbers.
F-1
-------
Table F-l
Soil Radium and Radon Emanation Measurements

Depth



Radium ±
Rn Emanation

interval

Sample
Moisture
Uncertainty
Coefficient
Soil Series
(cm)
Horizon
Number
(dry wt %)
(pCi/q)
± Uncertainty
WACAHOOTA
0 - 13
Ap
718
6.2
<0.4 ±0.4

WACAHOOTA
13-73
E
719
7.2
1.4 ± 0.3
0.60 ± 0.09
WACAHOOTA
73-95
. Btgl
720
11.4
6.5 ±0.4
0.67 ±0.03
WACAHOOTA
95-135
Btg2
721
11.4
8.3 ± 0.5
0.67 i 0.03
WACAHOOTA
135-195
Btg3
722
9.9
7.6 ± 0.4
0.64 ±0.03
BOARDMAN
0 -13
Ap
723
8.5
2.2 ±0.4
0.51 ±0.06
BOARDMAN
13 -41
E
724
7.6
2.2 ± 0.4
0.56 ±0.06
BOARDMAN
41 -56
3:gl
725
8.1
5.0 ± 0.4
0.47 ±0.03
BOARDMAN
56-86
3tg2
726
14.1
9.2 ±0.4
0.57 ± 0.02
BOARDMAN
36-114
Btg3
727
10.5
9.7 ± 0.5
0.54 ±0.02
BOARDMAN
114 -142
3tg4
728
9.9
7.0 ± 0.4
0.33 ±0.02
BOARDMAN
142 -173
Cg
729
13.8
6.1 ±0.4
0.39 ±0.02
POMONA
0-13
A
2162
8.6
0.4 ± 0.3

POMONA
13-23
E1
2163
7.0
0.5 ±0.3

POMONA
23-41
E2
2164
7.0
0.6 ± 0.2

POMONA
41 -51
Bh1
2165
8.2
<0.3 ±0.3

POMONA
51 -61
Bh2
2166
8.5
<0.3 ±0.3

POMONA
61 -81
Bwl
2167
7.8
<0.2 ±0.2
0.18 ± 0.17
POMONA
81 -109
3w2
2168
7.0
<0.2 -0.2

POMONA
109 -119
Btgl
2169
7.5
1.0 ±0.3

POMONA
119-175
Blg2
2170
8.5
1.0 ± 0.4

POMONA
175-213
Cg
2171
7.7
0.5 ±0.2
0.39 ±0.19
MILLHOPPER
0-23
Ap
2172
9.9
1.2 ±0.2
0.51 .t 0.09
MiLLHOPPER
23-53
3w1
2173
7.6
0.7 ±0.3

MILLHOPPER
53-66
3w2
2174
8.3
0.7 ±0.3

MILLHOPPER
66-122
3w3
2175
7.3
0.7 1 0.3

MILLHOPPER
122 - 147
3w4
2*76
7.2
0.3 ±0.3

MILLHOPPER
147•"62
Bl
2177
7.8
1.3 ±0.2
0.28 ±0.05
MILLHOPPER
•,62-218
Btgl
2178
8.2
0.9 ± 0.3
0.38 ±0.10
MILLHOPPER
218 - 224
Btg2
2179
8.2
2.2 ±03
0.46 ±0.06



2393
8.9
2.9 ±0.3
0.51 ±0.04



2394
9.2
4.6 ±0.3
0.57 ±0.03



2395
12.9
10.7 ±0.3
0.61 ±0.02



2396
12.2
10.0 ±0.3
0.56 ± 0.02



2397
15.2
i7.0 ± 0.4
0.64 ±0.01



2398
17.3
18.6 ± 0.4
0.67 ±0.01
KENDRICK
0-23
Ap
2401
9 0
1.5 ±0.2
0.40 r 0.06
KENDRICK
23-66
E
2401a
13.0
1.3 ±0.1
0.43 ± 0.04
KENDRICK
66 - 79
Bti
2402
10.1
2.7 ± 0.3
0.59 t 0.05
KENDRICK
79-130
Bt2
2403
11.3
4.3 ± 0.3
0.68 ±0.04
KENDRICK
• 30 -183
Bt3
2404
20.4
3.3 ±0.3
0.72 ±0.06
KENDRICK
183-211
Bt4
2405
10.0
3.4 ±0.3
0.65 +0.05
KENDRICK
211 -229
Bt5
2406
10.1
4.2 ±0.2
0.60 ±0.03
ARREDONDO
20-79
E1
2408
7.9
1.0 ± 0.3

ARREDONDO
79 - 124
E2
2409
7.9
0.9 ± 0.2

ARREDONDO
124 - 137
Bti
2410
9.5
< 1.3 ± 1.3

BONNEAU
0-23
Ap
2414
8.3
1.0 ± 0.3

BONNEAU
23-74
c
2415
8.6
0.7 ±0.3

BONNEAU
74-89
Bt1
2416
16.2
2.5 ± 0.3
0.58 ±0.06
BONNEAU
89-152
Bt2
2417
9.6
2 8 ±0.3
0.48 ± 0.04
BONNEAU
152-190
3'.g1
2418
9.7
2.7 ±0.3
0.52 ±0.05
BONNEAU
190 -213
Btg2
2419
9.7
3.3 ± 0.3
0.52 ±0.04



2420
12.1
1.1 ± 0.2
0.41 ± 0.08



2421
8.0
0.9 ±0.2




2422
7.5
0.6 ± 0.2




2423
7.8
1.0 ±0.2

F- 2
-------
Table F-l (Continued)
Soil Radium and Radon Emanation Measurements

Depth



Radium ±
Rn Emanation

Interval

Sample
Moisture
Uncertainty
Coefficient
Soil Series
(cm)
Horizon
Number
(drv wt %)
(pCi/q)
± Uncertainty




2424
7.6
0.5 ±0.3

POMONA
0
10
A
2508
7.8
0.3 ± 0.2
0.05 ±0.03
POMONA
10
41
E
2509
6.9
0.3 ± 0.2

POMONA
41
46
Bh1
2510
7.9
' <0.3 ±0.3

POMONA
46
53
Bh2
2511
8.9
0.5 ± 0.3

POMONA .
53
64
Bwl
2512
8.2
0.5 ± 0.3

POMONA
64
104
Bw2
2513
7.6
0.4 + 0.3

POMONA
104
145
Btgi
2514
8.2
0.7 ±0.4

POMONA
145
190
Btg2
2515
9.3
0.7 ± 0.3
0.26 ± 0.11
WAUCHULA
0
13
A
2516
5.4
<0.6 ± 0.6

WAUCHULA
13
43
E
2517
7.6
<0.3 ±0.3

WAUCHULA
43
56
Bh
2518
7.9
0.5 ±0.3

WAUCHULA
56
64
Bw
2519
7.8
<0.3 ±0.3

WAUCHULA
64
89
E'
2520
7.2
0.5+0.3

WAUCHULA
89
107
3tg1
2521
8.6
0.5 ± 0.3

WAUCHULA
107
150
B?g2
2522
8.3
1.0 ± 0.3

WAUCHULA
150
206
3tg3
2523
8.7
0.5 ± 0.4

MULAT
0
20
Ao
2524
7.6
1.0 + 0.3

MULAT
20
38
El
2525
7.5
0.5 ±0.3

MULAT
38
53
E2
2526
8.0
1.5 ± 0.2
0 52 ±0.08
MULAT
53
68
Btg
2527
8.3
2.7 ±0.2
0.55 ±0.05
MULAT
68
117
BCg
2528
14.7
2.7 ±0.1
0.53 ±0.02
MULAT
117
203
eg
2529
8.6
9.9 ± 0.3
0.43 ±0.01
POMONA
n
w
15
A
2530
7.3
0.3 ±0.3

POMONA
15
28
E1
2531
7.0
0.3 ±0.3

POMONA
28
74
E2
2532
6.9
<0.3 ±0.3

POMONA
74
69
Eh1
2533
8.3
0.3 ±0.3

POMONA
89
102
Bh2
2534
8.3
<0.3 ±0.3

POMONA
102
142
Bw
2535
7.5
0.2 ± 0 2
0.07 ±0.06
POMONA
142
203
Btg
2536
7.8
0.8 ±0.3

GAINESVILLE
0
18
Ap
2704
11.4
1.5 ± 0.2
0.40 ± 0.06
GAINESVILLE
*8
33
Bwl
2705
8.3
1.3 ±0.2
0.36 ±0.05
GAINESVILLE
33
74
Bw2
2706
8.0
0.8 ±0.3

GAINESVILLE
74
137
3w3
2707
8.6
1.2 ± 0.2
0.57 £0.10
GAINESVILLE
137
208
3w4
2708
8.3
1.3 ±0.2
0.46 ±0.08
SEFFNER(FORT MEAL
0
25
Ap1
2709
7.5
0,7 ±0.5

SEFFNER(FCRT MEAE
180
2<6
3w4
2714
7.5
0.9 £ 0.3

JONESVILLE
0
18
A
2715
8.1
1.4 ± 0.2
0.49 ± 0.06
JONESVILLE
18
43
El
2716
7.3
0.5 ±0.2

JONESVILLE
43
74
E2
2717
7.2
0.4 ± 0.3

JONESVILLE
74
84
Bt
2718
9.4
2.1 £ 0.3
0.51 ±0.06
JONESVILLE
84
203
2R
2719
14.3
0.6 + 0.3





2720
7.8
0.5 ±0.3





2721
7.2
0.3 ± 0.2





2722
7.1
0.6 ± 0.3





2723
12.2
1.4 ± 0.2
0.58 ± 0.09




2724
12.4
1.3 ±0.2
0.50 ± 0.08




2725
14.9
3.6 + 0.3
0.53 ±0.04




2726
13.4
2.1 ±0.3
0.46 ± 0.06
LOCHLOOSA
0 •
18
Ap
2727
8.0
0.4 ± 0.2
0.30 ±0.15
LOCHLOOSA
18 -
53
E1
2728
8.0
2.0 ± 0.2
0.58 ±0.07
LOCHLOOSA
53 •
79
E2
2729
8.1
1.2 ±0.2
0.53 ±0.09
LOCHLOOSA
79 -
89
BE
2730
9.7
3.5 ± 0.3
0.70 t 0.05
-OCHLOOSA
69-
137
3tgi
2731
15.4
5.5 ±0.4
0.63 ±0.04
LOCHLOOSA
137 -
170
Btg2
2732
10.7
4.8 ±0.3
0.52 ±0.03
LOCHLOOSA
170 -
193
BCg
2733
11.6
4.0 ± 0.3
0.62 £0.04
F-3
-------
Table F-l (Continued)
Soil Radium and Radon Emanation Measurements

Deptn



Radium ±
Rn Emanation

Interval

Sample
Moisture
Uncertainty
Coefficient
Soil Series
(cm)
Horizon
Number
(dry wt %)
(pCi/g)
± Uncertainty
LOCHLOOSA
193
-211
eg
2734
11.0
4.1 ±0.3
0.52 ±0.03
NEWNAN
0
-13
A1
2735
7.8
<0.3 ±0.3

NEWNAN
13
-30
A2
2736
7.1
.<0.2 ±0.2

NEWNAN
30
-41
Bh2
2737
7.9
<0.2 ± 0.2
0.13 ±0.15
NEWNAN
41
- 51
B3
2738
8.0
0.4 ± 0.3

NEWNAN
51
•68
A 21
2739
7.4
0.3 ± 0.3

NEWNAN
68
- 142
A 22
2740
7.3
0.5 ±0.3

NEWNAN
142
- 150
B'tgi
2741
7.6
0.9 ±0.3

NEWNAN
150
-190
3lg2i
2742
7.9
0.7 ±0.2
0.40 ±0.13
NEWNAN
190
-208
Blg22
2743
8.7
0.9 ±0.3

POMONA
0
-18
A
2744
80
0.4 ±0.3

°OMONA
18
-56
iz
2745
7.2
0.6 ±0.3

POMONA
56
-61
Bh1
2746
7.6
0.3 ±0.3

POMONA
61
-68
Bh2
2747
8.5
< 0.3 ± 0.3

POMONA
68
-81
3w1
2748
9.3
0.3 ± 0.3

POMONA
81
-112
3w2
2749
7.5
0.7 ± 0.2

POMONA
112
-152
Btgl
2750
3.8
0.6 ±0.3

POMONA
152
• 190
Btg2
2751
8.6
0.9 t 0.3

POMONA
190
- 2', 6
eg
2752
7.6
0.8 ± 0.3

WAUCHUIA
0
-13
A.1
2753
6.3
<0.3 r0.3

WAUCHUtA
13
-20
A2
2754
7.5
< 0.3 ± 0.3

WAUCHULA
20
-36
E
2755
7.0
0.3 ± 0.2

WAUCHULA
36
46
3h
2756
8.2
0.4 ± 0.3

WAUCHULA
46
58
Bw
2757
7.9
< 0.3 ± 0.3

WAUCHULA
58
71
E'
2758
7.5
<0.3 ±0.3

WAUCHULA
71
94
3tg
2759
8.2
1.6 ± 0.2
0.27 ±0.04
WAUCHULA
94
142
3Cgl
2760
7.8
0.6 ± 0.3

WAUCHULA
142
157
3Cg2
2761
7.9
0.7 ± 0.3

WAUCHULA
157
203
eg
2762
3.4
<0.4 ±0.4

MONTEOCHA
0
30
A
2900
19.6
0.7 ±0.3

MONTEOCHA
30
46
E
2901
7.4
0.3 ±0.3

MONTEOCHA
46
68
Bh
2902
7.5
0.3 ± 0.3

MONTEOCHA
68
86
3w
2903
12.2
0.5 ±0.3

MONTEOCHA
86
122
E'
2904
7.5
0.3 ± 0.3

MONTEOCHA
122
150
3*g 1
2905
83
C.9 ±0 2
0.55 + 0.' 4
MONTEOCHA
150
216
3'.g2
2906
8.4
1.0 x 0.3

MONTEOCHA
216
239
Cg
2907
7.6
0.8 ± 0.3

SURRENCY
0
38
A
2908
10.7
1.7 x 0.4
0.13 ; 0.03
SURRENCY
38
71

2909
7.4
0.6 ± 0.2

SURRENCY
71
112
3tg1
2910
9.2
0.5 ± 0.3

SURRENCY
112
140
3tg2
2911
8.5
0.9 ± 0.3

SURRENCY
140
203
Blg3
2912
8.5
0.5 ±0.3
0.35 ±0.17
MULAT
0
13
Ap1
2913
7.8
0.6 ± 0.3

MULAT
13
20
Ap2
2914
7.4
0.4 x 0.3

MULAT
20
30
E1
2915
7.7
0.5 ±0.3

MULAT
30
53
E2
2916
7.7
0.3 ±0.2
0.32 ! 0.22
MULAT
53
66
E3
2917
9.3
0.6 ± 0.3

MULAT
66
76
Blg1
2918
8.1
1.7 ± 0.2
0.54 ± 0.08
MULAT
76
119
Btg2
2919
8.3
1.9 ±0.3
0.50 ±0.06
MULAT
119
137
3Cg
2920
8.5
1.2 ±0.2
0.61 ±0.11
MULAT
137
2C3
Cg
2921
8.7
1.3 ± 0.2
0.63 ±0.10
ARREDONDO
0
20
Ap
2922
8.0
0.4 ±0.3

ARREDCNDO
20
33
El
2923
7.4
0.5 ±0.3

ARREDONDO
33
43
E2
2924
7.0
0.6 ± 0.3

ARREDONDO
43-
76
E3
2925
7.1
0.5 ±0.3

ARREDONDO
76-
109
E4
2926
7.2
0.3 +0.3

-------
Table F-l (Continued)
Soil Radium and Radon Emanation Measurements

Depth



Radium ±
Rn Emanation

Interval

Sample
Moisture
Uncertainty
Coefficient
Soil Series
(cm)
Horizon
Number
(dry wt %)
(pCi/g)
r Uncertainty
ARREDONDO
109 -119
Bt1
2927
11.2
0.8 ± 0.3

ARREDONDO
119-175
BI2
2928
8.2
0.6 ± 0.3

ARREDONDO
175-211
Bt3
2929
8.0
1.0 ± 0.2
0.15 ± 0.03
SHENKS
0-46
Oal
3175
73.2
'<2.1 ±2.1

SHENKS
46-53
Oa2
3176
16.6
2.8 ±0.7
0.59 ±0.15
SHENKS
53-71
2C
3177
19.0
5.0 ± 0.3
0.70 ± 0.04
SHENKS
71 •102
2Cgl
3178
•4.0
4.2 ± 0.3
0.61 £0.04
SHENKS
102 -130
2Cg2
3179
14.2
5.0 ± 0.3
0.64 ±0.04
SHENKS
130 - 155
2Cg3
3180
12.9
4.1 t 0.3
0.61 ±0.04
SHENKS
155 - 185
2Cg4
3181
12.5
3.9 ±0.3
0.70 ±0.05
LEDWITH
0-23
OA
3183
55.7
3.8 ± 1.5
0.07 ±0.03
LEDWITH
23 -38
A1
3184
7.9
0.9 t 0.3

LEDWITH
38-43
A2
3185
7.0
0.8 ±0.3

LEDWITH
43 -64
Btg21
3186
25.1
3.6 ± 0.3
0.63 £0.13
LEDWITH
64-112
Btg22
3187
'5.2
2.9 £ 0.3
0.66 ±0.05
LEDWITH
112-157
Btg23
3188
16.7
2.9 ±0.3
0.62 ± 0.06
LEDWITH
157-236
B3g
3189
15.2
2.7 £ 0.3
0.60 i 0.06



3190
'9.3
<0.5 ± 0.5




3191
13.9
0.7 ± C.3




3192
7.4
0.4 ± 0.2
0.29 ±0.15



3193
11.6
2.8 ± 0.3
0.73 £0.07



3194
10.4
2.5 r 0.3
0.52 ±0.05



3195
7.3
0.4 -0.2




3196
8.0
1.2 +0.2
0.63 ±0.10



3197
9.1
1.7 ±0.2
0.51 ±0.07
SATELLITE
0-15
A
3198
9.4
0.7 ± 0.4
0.22 ±0.09
SATELLITE
15-84
C1
3199
7.6
0.5 ±0.3
0.11 ±0.06
SATELLITE
84-104
C2
3200
6.7
< 0.5 ± 0.5

SATELLITE
104-203
eg
3201
6.3
<0.3 ±0.3

POMPANO
0 - 10
A
3202
9.6
0.9 ±0.6

POMPANO
10 -71
Cg1
3203
6.2
0.4 ±0.3

POMPANO
71 -81
Cg2
3204
6.2
0.4 ±0.3

POMPANO
81 - 203
Cg3
3205
6.3
0.3 ±0.3

MANATEE
0-20
A1
3206
1 1.5
1.0 ± 0.7
0.35 ± 0.18
MANATEE
20-33
A2
3207
8.0
1.C ± 0.4
0.19 t 0.05
MANATEE
86 - 132
3Cg
3210
7.9
0.8 ± 0.4

MANATEE
132 - 203
Cg
3211
6.7
0.9 t 0 4
0.18 .»• 0.C5
PARKWOOD
0-15
A
3212
12.4
2.0 ±0.6
0.32 ± 0.10
PARKWOOD
15-25
E
3213
6.8
0.8 + 0.4
0.16 ±0.06
PARKWOOD
25-46
Bt
3214
8 5
1.3 ± 0.5
0.31 ±0.12
PARKWOOD
99 - 14C
BtgK2
3216
8.0
0.8 ± 0.4

PARKWOOD
140-203
eg
3217
7.1
0.8 ± 0.4

MOULTRIE
0-5
A1
3218
6.8
0.4 ±0.4

MOULTRIE
5-20
A21
3219
6.6
< 0.4 ± 0.4

MOULTRIE
20-56
A22
3220
3 7
< 0.3 ± 0.3

MOULTRIE
56-66
Bh21
3221
6.9
0.8 ± 0.3

MOULTRIE
66-74
Bh22
3222
6.5
0.6 ± 0.4

MOULTRIE
74 -119
B3
3223
6.7
<0.3 i 0.3

BLUFF
8-0
Oa
3224
14.5
<0.8 ±0.8

BLUFF
0 -15
A
3225
10.3
1.4 ±0.4
0.42 ±0.11
BLUFF
33-56
Bqk2
3227
9.8
<0.5 ± 0.5

BLUFF
127 - 203
eg
3229
7.3
0.6 ± 0.4

POTTSBURG
0 -15
A
3230
6.2
< 0.4 ± 0.4

POTTS8URG
15-33
El
3231
6 3
<0.3 £ 0.3

POTTSBURG
33 -51
E2
3232
6.2
<0.3 =0.3

POTTSBURG
51 -152
E3
3233
5.2
<0.3 ± 0.3

F- 5
-------
Table F-l (Continued)
Soil Radiiun and Radon Emanation Measurements

Depth



Radium ±
Rn Emanation

Interval

Sample
Moisture
Uncertainty
Coefficient
Soil Series
(cm)
Horizon
Number
(dry wt %)
(pCi/g)
± Uncertainty
POTTSBURG
•52
- 163
B'E
3234
6.0
<0.3 ±0.3

POTTSBURG
168
-203
Eh
3235
7.4
< 0.4 ± 0.4
0.32 ±0.56
hOLOPAW
2
-0
. Oa
3236
13.6
. 1.1 ±0.8
0.21 ±0.16
HOLOPAW
0
-18
A1
3237
6.8
< 0.4 + 0.4

HOLOPAW
18
-33
A2
3238
6,3
<0.4 ±0.4

HOLOPAW '
33
¦68
£1
3239
6.1
<0.3 ± 0.3

HOLOPAW
68
- 107
E2
3240
6.6
<0.3 ±0.3

HOLOPAW
107
-135
E3
3241
6.7
<0.4 ± 0.4

HOLOPAW
135
-183
Btg
3242
7,4
<0.4 ±04

HOLOPAW
183
•203
Cg
3243
7.0
0.4 +0.4

,NARCOOSSEE(CANA\,
0
-8
A1
3244
7.3
0.5 ±0.4
0.09 t 0.06
NARCOOSScElCANAV
8
-28
A2
3245
6.4
1.6 ±0.3
0.02 ±0.0C
NARCOOSSEE
-------
Tabic F-l (Continued)
Soil Radium and Radon Emanation Measurements

Depth



Radium ±

Interval

Sample
Moisture
Uncertainty
Soil Series
(cm)
Horizon
Number
(ary wt %)
(pCi/g)
POMELLO
114 -130
B'n1
3470
6.7
< 0.4 i 0.4
POMELLO
130 -145
8h2
3471
7.1
0.5 ± 0.3
POMELLO
145 - 203
Bh3
3472
6.6
0.4 ± 0.3
HONTOON
18 -41
bal
3584
12.7
<1.1 ± 1.1
HONTOON
41 -61
Oa2
3585
18.1
< 1.4 ± 1.4
HONTOON '
61 - 140
Oa3
3586
14.6
<1.3 ± 1.3
HONTOON
140 -178
2C1
3587
7.0
<0.5 +0.5
HONTOON
1 78 - 203
2C2
3588
7.1
0.4 + 0.4
DURBIN
1 50 - 203
2C
3592
6.7
0.5 ± 0.4
TOMOKA
0-23
Oe
3593
24.1
< 2.1 + 2.1
TOMOKA
53 - 162
2Cg1
3595
8.3
0.7 ±0.5
SPARR
0-8
A
3596
6.7
0.5 ± 0.4
SPARR
8-20
E1
3597
6.2
0.4 ±0.3
SPARR
20-51
E2
3598
6.2
< 0.4 ± 0.4
SPARR
51 - 76
E3
3599
6 2
<0.3 ± 0.3
SPARR
76 - 173
E4
3600
6.3
0.4 ± 0.3
ZOLFO
0 • 13
Ap
3602
6.4
0.4 ± 0.3
ZOLFO
13-48
Ei
3603
6.4
< 0.3 ± 0.3
ZOLFO
48 - 79
E2
3604
6.2
<0.3 ±0.3
ZOLFO
79 - 168
E3
3605
6.1
<0.3 +0.3
ZOLFO
168-175
EB
3606
6.4
<0.3 i. 0.3
ZOLFO
175 - 203
Bh
3607
6.8
< 0.4 ± 0.4
ADAMSVILLE VAR
0-25
A1
3608
7.7
1.0 + 0.4
ADAMSVILLE VAR
25-58
C1
3609
6.7
< 0.3 ± 0.3
ADAMSVILLE VAR
58-89
C2
3610
6.3
< 0.3 ± 0.3
ADAMSVILLE VAR
89 -117
C3
3611
6.4
0.7 0.3
ADAMSVILLE VAR
117 - 170
C4
3612
5.2
0.5 ±0.3
ADAMSVILLE VAR
1 70 - 203
C5
3613
7.2
0.4 ± 0.4
JONATHAN
0 -10
A
3614
6.3
A
0
1	r
O
JONATHAN
10 -23
E1
3615
6.1
<0.3 ±0.3
JONATHAN
23-99
E2
3616
5.9
<0.3 = 0.3
JONATHAN
99 - 180
E3
3617
6.1
< 0.3 i 0.3
JONATHAN
180 - 203
Bh
3618
7.6
0.7 ± 0.4
POMONA
0 - 15
A
3619
6.9
< 0.4 ± 0.4
POMONA
15 -43
E
3620
6.1
<0.3 ±0.3
POMONA
43-51
Bh1
3621
6.5
< 0.4 ± 0.4
POMONA
51 -56
8h2
3622
a.i
<0.4 + 0.4
POMONA
56-58
Bh3
3623
8.4
< 0.4 ± 0.4
POMONA
58-66
Bh4
3624
8.1
< 0.3 + 0.3
POMONA
66-76
BE
3625
6.4
< 0.3 1 0.3
POMONA
76-122
t 1
3626
6 6
< 0.3 ± 0.3
POMONA
122 -132
E'2
3627
6.0
0.4 ±0.3
POMONA
132 -191
Bt
3628
7.0
0.6 ± 0.3
POMONA
191 -203
Cg
3629
6.2
0.5 ±0.4
ST. JOHNS
0 - 18
A1
3631
8.0
< 0.5 ± 0.5
ST. JOHNS
18-25
A2
3632
6.5
<0.4 ± 0.4
ST. JOHNS
25-38
E
3633
5.9
<0.3 ± 0.3
ST. JOHNS
38-48
Bh1
3634
7.8
< 0.4 ± 0.4
ST. JOHNS
48-71
Bh2
3635
7.3
<0.4 ± 0.4
ST. JOHNS
71 -107
E'
3636
6.4
< 0.4 t 0.4
ST. JOHNS
107-127
Bhl
3637
6.8
<0.4 ±0.4
ST. JOHNS
127 - 167
B'h2
3638
7.0
< 0.4 • 0.4
ST. JOHNS
167 - 203
Cg
3639
6.7
< 0.4 ± 0.4
FRIPP
2 - 10
A2
3816
6.3
<0.4 r 0.4
FRIPP
10 -23
C1
3817
6.1
o
-t 1
o
FRIPP
23 -122
C2
3818
6.3
<0.4 ±0.4
Rn Emanation
Coefficient
t Uncertainty
0.C9 • 0.09
3.09 - 0.03
0.2S -0.14
0.24 +3.12
F- 7
-------
Table F-l (Continued)
Soil Radium and Radon Emanation Measurements

Depth



Radium ±
Rn Emanation

Interval

Sample
Moisture
Uncertainty
Coefficient
Soil Series
(cm)
Horizon
Number
(dry wt %)
(pCi/g)
- Uncerta'niv
FRPP
122 ¦ 203
C3
3819
6.4
< 0.3 ± 0.3

IMMOKALEE
0-20
A
3820
7.4
< 0.5 ± 0.5

MMOKALEE
20-38
E1
3821
6.3
<0.3 ±0.3

iMMOKALEE
38 • 102
E2
3822
6.5
'<0.3 ±0.3

iMMOKALEE
102 -162
Bh
3823
6.9
< 0.4 ± 0.4

.MMOKALEE
162 -203
Bw/Bh
3824
6.4
0.6 ± 0.3




3826
6.0
0.3 ±0.3




3827
6.8
<0.5 ±0.5




3828
6.9
0.5 ± 0.4




3829
6.7
1.0 ±0.3
0.05 ±0.03



3830
6.5
0.5 r 0.4

MYAKKA
10-20
A2
3832
6.7
<0.3 ±0.3

MYAKKA
20 -36
£1
3833
6.4
< 0.3 ± 0.3

MYAKKA
36-58
£2
3834
6.1
<0.3 i 0.3

MYAKKA
58-76
8h1
3835
6.7
< 0.4 ±0.4

MYAKKA
76 - 135
Bh2
3836
6.8
<0.3 ±0.3

MYAKKA
135 - 203
Br3
3837
6.6
0.4 ±0.3

RIVIERA
0-25
Ap
3838
6.8
< 0.5 ± 0.5

RIVIERA
25-38
E1
3839
6 4
C.5 ± 0.3

RIVIERA
38 - 58
E2
3840
6,1
0.5 ± 0.3

RIVIERA
86 -140
Btg3
3843
7.8
< 0.4 ± 0.4

RIVIERA
140 - 180
Cgl
3844
8.1
1.0 ± 0.4
0.29 ±0.12
RIVERA
180 - 203
Cg2
3845
6.8
< 0.4 ± 0.4

SMYRNA
0 - 18
Ap
3846
7 5
< 0.5 ? 0 5

SMYRNA
18-36
E
3847
6.4
<0.3 ±0.3

SMYRNA
46-53
3h2
3849
8.3
< 0.5 ± 0.5

SMYRNA
53 -81
Bw/Bn
3850
6.5
0.4 ± 0.3

SMYRNA
81 - 114
3'h
3851
7.9
<0.4 i 0.4

SMYRNA
114 • 157
3w
3852
7.3
< 0.4 i 0.4

EAUGALtlE
0 - 15
Ap
3854
7.1
< 0.4 ± 0.4

EAUGALLIE
15-25
E1
3855
6.2
0.4 ± 0.3

EAUGALLIE
25-43
E2
3856
6.6
< 0.3 - 0.3

EAUGALLIE
43-51
Bhl
3857
7.5
<0.6 ± 0.6

EAUGALLIE
51 -58
Bh2
3858
7.7
< 0.4 ± 0.4

EAUGALLIE
58-81
Bw
3859
6.8
0.7 i 0.3

EAUGALLIE
81 - 114
E"
3860
5.9
<0.3 ±0.3

EAUGALLIE
114 - 135
3
-------
Table F-l (Continued)
Soil Radium and Radon Emanation Measurements

Depth



Radium ±
Rn Emanation

Interval

Sample
Moisture
Uncertainty
Coefficient
Soil Series
(cm)
Horizon
Number
{dry wt %)
(DCi/g)
± Uncertainty
MYAKKA
0
20
Ap
3882
7.6
0.5 ± 0.3

MYAKKA
20
61
E
3883
7.0
<0.3 ±0.3

MYAKKA
61
76
8h1
3884
7.8
0.4 ± 0.3

MYAKKA
76
89
3h2
3885
7.5
0.3 ±0.3

MYAKKA
89
135
C
3886
7.1
<0.2 ±0.2

MYAKKA ¦
135
208
eg
3887
6.9
0.5 ±0.3

SPARR
0
10
Ap1
3888
7.5
0.5 ±0.3

SPARR
10
20
Ap2
3889
7.5
0.5 ±0.3

SPARR
20
64
El
3890
7.3
<0.3 ±0.3

SPARR
64
81
E2
3891
7.3
< 0.3 ± 0.3

SPARR
81
122
E3
3892
6.9
<0.2 ±0.2

SPARR
122
142
Bigi
3893
8.0
0.8 ±0.3

SPARR
142
213
Btg2
3894
8.3
0.7 ±0.4

TAVARES
0
20
Ap
3895
8 3
<0.3 ±0.3

TAVARES
20
48
C1
3896
7.7
<0.3 ±0.3

TAVARES
48
91
C2
3897
7.3
<0.3 ±0.3

TAVARES
91
114
C3
3898
7.5
< 0.3 ± 0.3

TAVARES
1 14
145
C4
3899
7.0
<0.2 ±0.2

TAVARES
145
203
eg
3300
7.2
0.3 ±0.2

MICANOPY
0
15
Ap
3901
26.3
1.5 r C.3
0.41 r 0.07
MICANOPY
15
30
Bt
3902
9.3
1.6 ±0.3
0.60 ±0."
MICANOPY
30
46
Btg1
3903
10.8
2.6 £ 0.4
0.42 i 0.06
MICANOPY
46
96
8tg2
3904
10.5
1.8 + 0.3
0.51 ±0.09
MICANOPY
96
140
Btg3
3905
9.6
1.9 ± 0.3
0.44 r 0.07
MICANOPY
140
196
BC
3906
10.0
1.6 =0.3
0.54 ±0.10
MICANOPY
<96
216
o
3907
10,8
3.1 ±0.3
C.50 ± 0.05
ELLZEY
0
30
Ap
4202
7.0
o
CD
It
O
¦u
0.46 ± 0.21
ELLZEY
30
48
El
4203
6.6
< 0.3 ± 0.3

ELLZEY
48
68
E2
4204
6.2
<0.3 r 0.3

ELLZEY
68
76
Bw1
4205
6.5
< 0.4 ± 0.4

ELLZEY
76
84
Bw2
4206
6.5
<0.3 ± 0.3

ELLZEY
84
94
Bw3
4207
7.3
< 0.4 ± 0.4

ELLZEY
94
104
Bt
4208
7.1
< 0.4 ± 0.4

ELLZEY
104
147
Btg
4209
7.1
< 0.4 i 0.4

ELLZEY
147
162
3C
4210
6.8
0.4 + 0 4

ELLZEY
162
203
c
4211
7.1
0.5 + 0.4
0.15 ±0.08
FLORIDANA
0
33
Ap
4212
7.4
1.1 +.0.4
0.28 + 0.09
FLORIDANA
33
53
E
4213
6.3
< 0.3 ±0.3
0.15 ±0.17
FLORIDANA
53
71
EB
4214
6.5
0.4 ±0.3

FLORIDANA
71
117
3tg1
4215
8.0
0.4 ± 0.4

FLORIDANA
117
168
Btg 2
4216
7.9
1.2 ±0.3
0,18 ±0.06
FLORIDANA
168
203
3tg3
4217
6.3
0.4 ± 0.4

TOCOI
0
33
A
4218
6.8
<0.4 ±0.4

TOCOI
33
51
Bh1
4219
7.0
<0.4 ± 0.4

TOCOI
51
58
Bh2
4220
6.9
<0.4 ± 0.4

TOCOI
58
102
Bw
4221
6.9
< 0.4 ± 0.4

TOCOI
102
114
E
4222
4.8
<0.3 ±0.3

TOCOI
114
193
Btg
4223
7.3
<0.4 ^ 0.4

TOCOI
193
203
eg
4224
7.4
< 0.4 2 0.4

PLACID
0
30
Ap
4225
6.6
0.5 ± 0.3

PLACID
30
51
E1
4226
6.4
< 0.4 ± 0.4

PUCID
51
66
E2
4227
6.7
A
O
*
H-
O

PLACID
66
84
E3
4228
6.3
<0.3 ±0.3

PLACID
84
107
E4
4229
6.6
< 0.4 _+ 0.4

PLACID
107
13C
BE
4230
7.1
0.6 t 0.3

PLACID
130
147
Btgl
4231
6.9
0.7 ±0.4

F-9
-------
Table F-l (Continued)
Soil Radium and Radon Emanation Measurements

Depth



Radium ±
Rn Emanation

Interval

Sample
Moisture
Uncertainty
Coefficient
Soil Series
(cm)
Horizon
Number
(dry wt %)
(pCi/g)
± Uncertainty
=LACID
147-203
Big2
4232
7.3
0.7 ±0.4
0.23 - 0.13
BONNEAU
0 -28
Ap
4248
11.0
0.7 ±0.3

30NNEAU
28 -43
. E1
4249
7.5
0.5 ±0.2

BONNEAU
43-89
E2
4250
8.5
0.5 ±0.3

BONNEAU
89-99
E3
4251
7.2
0.5 £ 0.3

BONNEAU '
99-117
Btgl
4252
9 2
2.3 ± 0.3
0.45 r 0.05
BONNEAU
117-162
3tg2
4253
9.9
2.2 ± 0.3
0.43 ± 0.05
BONNEAU
162 -201
Btg3
4254
9.9
2.2 ± 0.3
0.41 ±0.05
BONNEAU
201 -203
Cg
4255
8.9
1.5 ± 0.3
o,45 o.oa
ST. AUGUSTINE
0 -10
A
4326
6.7
0.5 £ 0.4

ST. AUGUSTINE
10 -18
CI
4327
6.8
0.8 ± 0.4

ST. AUGUSTINE
18-25
C2
4328
6.3
0.4 ± 0.4

ST. AUGUSTINE
25-68
Cg1
4329
6.2
0.4 ± 0.3

ST. AUGUSTINE
68 -84
Cg2
4330
6.1
0.7 ±0.3

BIVANS
0-15
Ap
4551
7.9
0 6 ± 0.3

BIVANS
15-38
E
4552
7 ¦«
0.7 £ 0.3

BIVANS
38-46
Btgl
4553
15.5
6.1 ±0.3
0.59 ±0.03
BIVANS
46 - 68
Btg2
4554
12.0
6.0 ± 0.3
0.62 ± 0.03
BIVANS
68 - 114
Btg3
4555
11.0
5.3 ±0.3
0.61 ±0.03
BIVANS
114 - 155
8tg4
4556
11.9
3.3 ± 0 2
0.69 < 0.05
BIVANS
155 - 206
eg
4557
10.4
4.2 ±0.3
0.51 ±0.03
BLICHTON
0 • 15
Ap
4558
7.4
0.7 ±0.3

BLICHTON
15-33
E1
4559
7.6
0.8 ±0.3

BLICHTON
33 - 71
E2
4560
7.7
1.0 ±0.3

BLICHTON
71 -86
B?g1
4561
15.7
3.4 ± 0.3
0.60 ± 0.05
BLICHTON
86-157
Btg2
4562
12.0
4.0 ±0.3
0.63 i 0.04
BLICHTON
1 57 - 203
BCg
4563
12.5
2.5 ±0.3
0.64 + 0.C5
KANAPAHA
0 -20
Ap
4564
7.6
0.9 ± 0.3

KANAPAHA
20-33
E1
4565
7.3
0.6 ±0.2

KANAPAHA
33 - 109
E2
4566
7 2
0.5 ± 0.2

KANAPAHA
109 -127
Btgl
4567
10.1
7.4 ± 0.3
0.49 £ 0.02
KANAPAHA
127-157
B:g2
4568
10.1
11.4 ±0.3
0.37 £ 0.01
KANAPAHA
157 - 203
BCg
4569
8.7
8.1 £ 0.3
0.43 £0.02
lOCHLOOSA
0 - 18
a"
4570
•1.5
0.8 ± 0.3

LOCHLOOSA
18-36
El
4571
7.4
0.5 =0.3

LOCHLOOSA
36 -76
E2
4572
7.5
0.3 1 C.2
0/0 ±0.06
LOCHLOOSA
76-86
Btl
4573
8 1
0.6 - 0.3

LOCHLOOSA
86-112
Bt2
4574
88
0.9 £ 0.3

LOCHLOOSA
112 -145
Btg
4575
8.2
0.9 ± 0.3

LOCHLOOSA
145-203
BCg
4576
10.4
0.9 £0.3

PtUMMER
0-15
Ap
4577
11.4
0.6 £ 0.3

PLUMMER
15-36
E1
4578
7.6
<0.3 - 0.3

PLUMMER
36-81
E2
4579
7.3
< 0.3 ± 0.3

PLUMMER
81 - 107
E3
4580
7.3
0.4 £0.3

PLUMMER
107 - 127
Btgl
4581
7.9
0.8 ± 0.3

PLUMMER
127-162
Btg2
4582
8.4
0.6 ±04

PLUMMER
162-206
BCg
4583
8.1
0.5 ±0.3
0.32 ±0.20
LAKE
0 - 18
Ap
4584
10.9
0.4 ±0.3

LAKE
18-28
C1
4585
7.3
0.6 ± 0.2

LAKE
28-74
C2
4586
7.4
0.4 + 0.3

LAKE
74 - 107
C3
4587
7.3
0.5 ± 0.2

LAKE
107-152
C4
4588
7.5
0.3 +0.2

LAKE
152 - 208
C5
4589
7.0
0.5 ±0.2

CANDLER
0 - 15
Ap
4590
7,4
<0.3 ±0.3

CANDLER
15-41
E1
4591
7.1
<0.2 ±0.2

CANDLER
41 - 71
E2
4592
7.3
0.4 ± 0.2

F- 10
-------
Table F-l (Continued)
Soil Radium and Radon Emanation Measurements

Depth



Radium ±
Rn Emanation

Interval

Sample
Moisture
Uncertainty
Coefficient
Soil Series
(cm)
Horizon
Number
(dry wt %)
(pCi/g)
i Uncertainty
CANDLER
71 -145
E3
4593
10.3
0.3 ±0.2

CANDLER
145 - 178
E4
4594
7.2
<0.2 ±0.2

CANDLER
178 - 208
. E/B
4595
0.1
0.6 ±0.3

ASTATULA
0-7
A1
5956
7.2
0.5 ±0.3

ASTATULA
7-36
A2
5957
7.8
0.4 ± 0.3

ASTATULA'
36-56
AC
5958
7.2
0.4 ± 0.2

ASTATULA
56 - 140
C1
5959
7.4
0.4 ± 0.3

ASTATULA
140 - 2C3
C1
5960
7.4
0.6 ± 0.3

ASTATULA
203 - 254
C2
5961
7.0
0.4 ± 0.3

A1
15 - 30

Al 0.5-1.0
10.6
4.9 ±0.3
0.59 ± 0.03
A1
76-91

A1 2.5-3.0
10.5
0.5 ± 0.4

A1
137-152

A1 4.5-5.0
11.2
6.0 ± 0.3
0.65 ±0.03
A1
213-229

A1 7.0-7.5
10.6
5.1 ±0.3
0.67 ±0.04
A1
442•460

A1 14.5-15.1
13.5
5.9 ± 0.3
0.68 ±0.03
A2
15-30

A2 0.5-1.0
8.7
< 0.3 ± 0.3

A2
* 98 - 213

A2 6.5-7
8.6
<04 0.4

A2
457-472

A2 15.C--5.:
8.2
< 0.3 ± 0.3

A2
610 -625

A2 20-20.5
9.0
0.5 t 0.3

A3
15-37

A3 0.5-1.2
10 2
5.2 ± 0.3
0.57 ± 0.03
A3
107 - 122

A3 3.5-4.0
10.4
4.1 ±0.3
0.60 ± 0.04
A3
168 - 183

A3 5.5-6
12.2
43.1 ± 0.4
0.29 ± 0.00
A3
274 -293

A3 9.0 9 6
24.8
31.7 ± 0.5
0.47 ±0.01
A3
387 - 402

A3 12.7-13.;
24.6
9.3 ±0.5
0.25 ± 0.01
A3
439 -457

A3 14.4-15
34.0
5.9 ± 0.5
0.34 ± 0.03
A4
18 -40

A4 0.6-1.3
8.0
<0.3 ±0.3

A4
122 - 137

A4 4-4.5
8.9
0.9 ±0.2
0.23 ± 0.06
A4
210 - 229

A4 6.9-7.5
8.2
0.5 ± 0.3

A4
320 - 335

A4 10 5-11 C
',0.8
0.7 ± 0.3

A5
61 - 76

A5 2.C-2.5
8.7
0.6 ± 0.4

A5
152 - 168

A5 5.0-5.5
15.7
< 0.4 i 0.4

A5
229 - 244

A5 7.5-8
11.7
< 0.5 ± 0.5

A5
351 -366

A5 11.5-6
66.7
<0.5 ± 0.5

A6
46-61

A6 1.5-2.0
3.5
0.9 ± 0.3

AG
177 - 199

A6 5.8-6.5
8.5
0.4 ± 0.3

A6
363 -381

A6 11.9-12.;
9.6
2.5 ±0.3
0.85 ± 0.09
A6
512 - 533

A6 16.6-17.;
9.3
4 5 ± 0.3
C.50 t 0.03
A7
30 -46

A7 1-1.5
8.1
0.9 ± 0.3

A7
91 - 114

A7 3.0-3.75
8.6
14 ± 0.3
0.16 ±0.03
A7a
15-30

A7a 0.5-1
9.8
1.3 :0.3
0.42 ±0.09
A7a
183 - 198

A7a 6.0-6.5
9.2
1.1 ±0.2
0.44 ±0.09
A7a
390 -411

A7a 12.8-13
8.2
0.7 ± 0.3

A7a
465 - 480

A7a 15.25-1
21.4
10.6 ± 0.5
0.42 ±0.02
A8
122 - 137

A8 4.0-4.5
9.0
1.0 ± 0.3
0.37 ±0.09
A8
183 -198

A8 6.0-6.5
8.7
0.6 ±0.3

A8
244 - 259

A8 8-8.5
9.6
0.6 ± 0.3

A3
351 -366

AS 1 - .5-12
15.2
1.4 ± 0.4
0.42 ±0.11
A8
503-518

A8 16.5-17
10.9
1.3 ±0.3
0.47 ± 0.11
A8
610 -625

A8 20-20.5
13.5
7.4 ± 0.4
0.28 ±0.01
A8
823 - 838

A8 27-27.5
10.2
1.0 +0.3
0.46 ±0.13
F-l!
-------
Table F-2
Soil Radium and Radon Emanation Measurements

Depth



Radium
Rn Emanatior

Interval

Sample
Moisture
± S.D.
Coefficient
Soil Series
(cm)
horizon
Number
(cry wt. %)
(pCi/q)
+ S.D.
PINEDA
0-5
A1
588
7.36
0.8 ±0.5

PINEDA
107-142
3tg2
595
6.68
' 0.6 ±0.4

ASTATULA
0-5
A
712
5.40
0.3 ±0.3

ASTATULA
198 -241
C5
717
4.96
<0.3 ±0.3

POMONA
0 -13
A
1222
6.25
0.4 ±0.3

POMONA
112-140
Btg
1227
6.18
0.4 ±0.4

APOPKA
0 - 18
A
1494
7.22
<0.4 ±0.4

APOPKA
152 -170
811
1498
7.30
0.8 ±0.4

MYAKKA
0 -13
A
1518
7.57
0.5 ±0.4

MYAKKA
109 -198
Bw
1522
6.02
0.4 ±0.3

ORTEGA
0 -13
A
1524
6.57
<0.4 ±0.4

ORTEGA
208 - 287
6h21
1529
6.98
<0.4 ±0.4

RiDGELAND
0 - 15
Ap
1536
7.26
0.3 ±0.4

RIDGELAND
99 - 203
B'h2
'540
8.06
<0.4 ±0.4

KERSHAW
0 -8
A
1549
6.41
1.7 ±0.4
0.05 ±0.01
KERSHAW
130-203
C2
1552
5.33
1.2 ±0.4
0.09 +0.02
MALABAR
0-5
A
'719
4.97
<0.3 ±0.3

MALABAR
134 -203
Btg2
',726
6.81
0.8 ±0.4

LEON
0 - 13
A1
1979
9.42
<0.6 ±0.6

LEON
114-203
B'h
1985
6.56
0.4 +0.4

POTTSBURG
0-8
A
1993
6 14
<0.4 ±0.4

POTTSBURG
145 -203
3h
'.998
6.05
<0.3 ±0.3

OLUSTEE
0-15
A
2588
8 89
14 ±0.4
0.04 *0.01
OLUSTEE
91 - '.37
Big
2592
9.08
1.0 ±0.4
0.27 ±0.08
WESCONNET
0 - 5
A
2602
7.83
0.5 20.4

WESCONNET
• 83 - 2C3
E'h2
2608
8.72
<0.4 ±0.4




2609
11.73
1.8 -0.5
0 32 >0.07



2614
9.50
1.0 ±0.4
0.32 ±0.11
FARMTON
0 -15
Ap
2667
6.02
0.3 ±0.3

FARMTON
142 - 203
Btg
2670
7.96
0.5 ±0.4

SCOGGIN
0-23
A
2671
7.29
1.1 ±0.4

SCOGGIN
81 -150
3:g2
2674
7.14
<0.4 +0.4

REDLEVEL
0-8
A1
4678
6.20
0.7 ±0.3

REDLEVEL
* C7 - 140
Bw4
4683
5.63
1.7 +0.3
061 ±0.08
ARREDONDO
0-23
Ap
4696
5.51
0.7 ±0.3

ARREDONDO
165 -203
Bs2
4700
7.31
1.3 ±0.4
0.37 ±0.07
LAKE
0 - 18
Ap
4701
5.13
0.6 ».0.3

LAKE
102 • 142
C3
4704
4.66
0.8 ±0.3

MYAKKA
0 • 10
A1
4956
7.89
<0.4 ±0.4

MYAKKA
107 • 140
Bh2
4960
5.90
0.5 ±0.3

ASTATULA
0 -10
A
4977
5.49
C.6 ±0.3

ASTATULA
99 - 203
C3
4980
4 49
0.3 ±0.3

CANDLER
0 -10
A
4985
5.20
0.3 ±0.3

CANDLER
183 -203
=/Bt
4990
4.70
<0.3 ±0.3

CITRONELLE
0-5
A
5076
8.14
1,1 ±0.4
0.18 ±0.05
CITRONELLE
13-20
8w2
5078
7.88
0.8 ±0.4

ZOLFO
0 -15
A
5222
6.70
0.4 ±0.4

ZOLFO
162 - 203
Bh2
5227
5 21
0.4 +0.3

POMONA
0-15
A
5247
7.53
<0.4 ±0 4

POMONA
140 - 185
Btg2
5255
6.90
1.0 ±0.4
0.11 ±0.03
KENDRICK
0 -18
Ap
5369
6 37
0.8 ±0.3

KENDRICK
114-155
Bt2
5373
8.82
3.4 ±0.5
0.34 ±0.04
MILLHOPPER
0-8
A
5642
5.99
0.4 i0.3

MILLHOPPER
178 - 203
Big
5649
6.75
0.8 ±0.4

F-12
-------
Table F-'2 (Continued)
Soil Radium and Radon Emanation Measurements

Depth



Radium
Rn Emar.atior

Interval

Sample
Moisture
± S.D.
Coefficient
Soil Series
(cm)
Horizon
Number
{dry wt. %)
(pCi/g)
± S.D.



5656
5.64
<0.3 ±0.3




5664
5.38
' <0.3 ±0.3

ASTATULA
0-10
A
5820
4.84
0.3 ±0.3

ASTATULA
135 -203
C3
5824
4.62
0.3 ±0.3

BLANTON
0 -15
A
5829
6.64
0.8 ±0.4

BLANTON
147-203
3t
5833
7.49
0.7 ±0.4

MANDARIN
0 • 13
A
5855
6.39
<0.3 ±0.3

MANDARIN
152-203
B'h
5861
7.07
<0.4 ±0.4

CENTENARY
0 -13
Ap
5962
4.95
0.7 ±0.3

CENTENARY
152 - 203
Eh2
5968
4.50
<0.3 ±0.3

ALBANY
0 -15
A
5969
5.91
0.7 ±0.3

ALBANY
152 - 203
Btg
5974
4.41
0.7 ±0.3




6119
5.95
0.7 ±0.3




6124
4.99
0.6 ±0.3




6126
6.08
0.4 ±0.4




6131
7.84
0.9 ±0.4
0.30 ±0.10
CANDLER
0-5
A
6150
6.45
0.6 ±0.3

CANDLER
193 -203
E/Bt
6155
4.63
<0.3 ±0.3

HURRICANE
0-13
A
6219
5.54
0.8 ±0.3

HURRICANE
173 -196
Bh1
6224
5.32
<0.3 ±0.3

LEON
0-10
A
6257
5.44
<0.3 ±0.3

LEON
170 - 203
B'h2
6263
6.27
0.3 ±0.4

MEADOWBRGOK
0 -18
A
6269
622
<0.4 ±0.4

MEADOW8ROOK
178 - 203
Btg2
6273
6.24
1.1 ±0.4
0.15 ±0.04



6274
7.74
0.8 ±0.4




6278
8.22
0.8 ±0.5

MEGGET
0-15
A
6286
8.60
1.1 ±0.5
0.11 ±0.03
MEGGET
117 -157
Btg3
6290
9.40
0.8 ±0.4

ORSINO
0 -10
A
6434
4.76
<0.3 ±0.3

ORSINO
147 -178
BC2
6439
4.53
<0.3 ±0.3

EVERGREEN
28-36
Ab
6465
11.58
1.1 ±0.5
0.18 ±0.05
EVERGREEN
140 -203
Bhb2
6469
5.47
0.9 ±0.3

BOULOGNE
0 -18
Ad
6470
5.80
0.7 ±0.3

BOULOGNE
•37 - 203
3'ii3
6478
3.30
<0.4 ±0.4

CHAIRES
0 -18
A
6479
7.05
<0,4 ±0.4

CHAIRES
gs -140
3tg1
6485
3.00
1.1 ±0.4
0.28 +0.08
BUCCANEER
0-13
A
6488
9.58
1.5 ±0.4
0.01 ±0,00
BUCCANEER
122-185
Btg4
6492
8.58
1.7 ±0.4
0.39 ±0.06
OTELA
0 -20
Ap
6679
5.82
<0.3 ±0.3

OTELA
155 -173
3t2
6684
6.67
0.7 sO.3

KUREB
0-13
A
6686
5.52
<0 4 ±0.4

KUREB
165 -203
C5
6693
4.98
<0.3 ±0.3

GOLDHEAD
0 -20
A
6724
8.32
1.0 ±0.4
0.05 ±0.02
GOLDHEAD
84-168
Btg
6727
8.22
0.9 +.0.4
0.34 ±0.10
LEON
0-18
A
6740
5.97
0.3 ±0.4

LEON
112 -203
B'h2
6746
5.79
<0.3 ±0.3

JONESVILLE
0 -13
Ap
6788
5.23
0.3 ±0.3

JONESVILLE
68 -89
Bt
6791
8.42
3.9 ±0.4
0.51 ±0.04



6796
13.75
4.1 ±0.6
0.51 ±0.05



6797
8.83
4.3 ±0.4
0.59 ±0.04
CANDLER
0 -20
Ap
6803
4.94
<0.3 ±0.3

CANDLER
132 -2C3
E'3t
6807
4.70
<0.3 ±0,3




6925
8.95
0.8 ±0.5




6927
9.27
8.3 ±0.5
0.62 ±0.03
F- 13
-------
Table F-2 (Continued)
Soil Radium and Radon Emanation Measurements

Depth



Radium
Rn Emanation

Interval

Sample
Moisture
± S.D.
Coefficient
Soil Series
'cm)
Horizon
\..~iber
(dry wt. %)
(pCi/q)
± S.D.
MYAKKA
0 -13
A
7007
8 58
0.5 ±0.5

MYAKKA
173 - 203
C
7014
5.14
0.6 ±0.3

PINEDA
0 -8
A
7C33
6.18
<0.4 ±0.4

PINEDA.
102 -119
Btg2
7C40
6 56
0.4 ±0.4

RIVIERA
0-15
A
7043
8.26
0.5 ±0.5

RIVIERA
89 -130
Btg
7048
7 86
0.6 ±0.4

WINDER
0-13
A
7051
11.76
1.9 ±0.6
0.10 ±0.02
WINDER
84-137
Btg
7055
8.66
1.0 ±0.4
0.25 -0 08
GATOR
66-74
HCgl
7059
6.57
0.9 ±0.3
0.10 ±0.03
GATOR
74 - 124
HCg2
7060
7.33
1.1 £0.4
0.18 ±0.06
WAUCHULA
0 - 10
Ap
7063
6.73
<0.3 ±0.3

WAUCHULA
119-155
3*g2
7069
9.40
0.5 ±0.4

MILLHOPPER
0 -10
Api
7077
5.33
0.4 ±0.3

MILLHOPPER
160 - 203
3!
7083
7,94
0.8 ±0.4

pAOLA
15 -41

7354
5.22
0.7 ±0.3

PAOLA
140 -203
C
7357
4.79
<0.3 ±0.3

VALKARIA
0 -15
A
7378
5.60
<0.3 ±0.3

VALKARIA
64-132
C
7383
7.01
0.4 ±0.4

FAVORETTA
o
no
O
A
7385
S.87
1.3 ±0.4
0.36 ±0.08
FAVORETTA
91 -168
Ba2
7388
11.49
0.9 ±0.5

F- 14
-------
Table F-3
Soil Radium and Radon Emanation Measurements
Radium ± Rn Emanation


Sample
Sample
Moisture
Uncertainty
Coefficient
County
Soil Series
Death
Number
(dry wt.%)
(pCi/g)
± Uncertainty
Palm Beach
Holopaw
Subsoil
1297
9.6
0.8
±0.3
0.35
•0.17
Palm Beach
Oldsmar
Subsoil
1304
9.5
0.9
±0.3
0.56
±0.20
Osceola
Vero
Subsoil
1336
9.7
1.2
±0.3
0.14
±0.03
Hemanoo
Arredondo
Subsoil
1417
11.0
2.5
+0.4
0.38
=0.05
Santa Rosa
Lucy
Surface
1609
8.0
0.7
±0.3
0.25
±0.10
Santa Rosa
Lucy
Subsoil
1613
9.3
0.9
±0.3
0.25
±0.10
Jackson
Orangeburg
Surface
1880
8.2
0.9
±0.3
0.13
±0.04
Jackson
Orangeburg
Subsoil
1886
9.5
1.4
±0.3
0.14
•0 04
Santa Rosa
Esto
Surface
2056
12.1
1.2
±0.4
0.15
+0.05
Santa Rosa
Esto
Subsoil
2C61
15.4
1.3
±0.4
0.30
±0.09
Hernando
Flemington
Subsoil
2148
18.4
0.9
±0.4
0.67
±0.25
Leon
Blanton
Subsoil
2304
11.9
0.5
±0.3
0.30
±0.20
Martin
Nettles
Subsoil
2542
9.2
0.4
£0.3
0.65
±0.51
Martin
Pineda
Subsoil
2571
9.5
0.4
=0.3
0.61
±0.40
Leon
Norfolk
Surface
2617
8.3
0.7
±0.3
0.26
±0.11
Leon
Norfolk
Subsoil
2622
9.9
1.6
=0.3
0.41
=0.09
Jackson
Albany
Subsoil
2827
9.2
0.6
±0.3
0.31
±0.15
St. Lucie
Malabar
Subsoil
2935
10.2
0.6
±0.3
0.54
±0.24
Polk
Sparr
Subsoii
3056
9.5
1.9
±0.4
0.21
*0.04
Polk
Kendrick
Surface
3485
8.1
1.0
±0.3
0.29
t0.08
Polk
Kendrick
Subsoil
3490
10.4
1.7
±0.4
0.30
±0.07
Pasco
Micanopy
Subsoii
3528
16.5
0.8
+0.4
0.71
•0.28
Pasco
Flemington
Subsoil
3545
23.2
2.4
+0.3
0.58
+0.08
Charlotte
Boca
Subsoil
3675
9.5
1.6
±0.3
a

Charlotte
Malabar
Subsoii
3690
8.5
<0.3
±0.3
a

Lee
Oldsmar
Subsoil
3749
3.3
2.4
±0.3
0.23
±0.03
Lee
Wabasso
Subsoil
3757
8.8
1.3
±0.3
0.57
±0.13
Columbia
Albany
Subsoil
3771
10.6
1.2
±0.3
0.29
=0.08
Hardee
Apopka
Subsoil
3977
11.8
2.9
±0.4
0.29
=0.04
Hardee
Ft. Green
Surface
3986
9.8
1.8
±0.3
0.38
±0.06
Hardee
Ft. Green
Subsoil
3990
9.4
27.6
±0.4
0.35
±0.00
Walton
Fuquay
Surface
4070
7.5
0.8
±0.3
0.11
=0.04
Walton
Fuquay
Subsoil
4076
3.7
1.1
±0.3
0.21
=0.06
Walton
Orangeburg
Subsoil
4105
10.6
0.9
±0.3
0.34
±0.13
Columbia
Bonneau
Subsoil
4247
11.2
0.8
±0.3
0.30
±0.12
Hendry
Pineda
Subsoil
4450
11.2
1.3
±0.3
0.46
±0.11
Bay
Stiison
Surface
4632
8.0
0.9
±0.3
0.05
±0.01
Bay
Stilson
Subsoil
4639
9.6
0.6
±0.3
0.41
±0.23
Bay
Florala
Surface
4898
10.2
0.7
±0.3
0.51
=0.29
Bay
Florala
Subsoil
4903
11.7
0.8
±0.4
0.23
±0.12
Jefferson
Coxville
Surface
5C21
11.5
1.7
±0.4
0.31
~ 0.07
Jefferson
Coxville
Subsoil
5025
10.9
1.7
±0.4
0.29
±0.06
Jefferson
Bonifay
Subsoil
5217
10.1
2.1
±0.3
0.29
±0.04
Indian River
Boca
Surface
5271
9.1
3.4
±0.4
0.09
±0.01
Indian River
Boca
Subsoil
5274
9.4
3.6
±0.4
0.14
±0.01
Sumter
Miilhopper
Subsoii
5356
9.5
1.0
-0.3
0.28
±0.09
DeSoto
Farmton
Subsoil
5536
10.0
0.4
±0.3
0.54
±0.36
Madiscn
Nankin
Surface
5732
8 5
0.8
±0.3
0.20
±0.06
Madison
Nankin
Subsoii
5736
11.1
2.4
±0.4
0.25
+0.04
Sumter
Arredondo
Subsoil
5931
10.7
16.4
•0.4
039
'0.01
Okaloosa
Orangeburg
Surface
6327
8.4
1.0
±0.3
0.19
±0.05
F- 15
-------
Table F*3 (Continued)
Soil Radium and Radon Emanation Measurements
Radium ± Rn Emanation


Sample
Sarnpie
Moisture
Uncertainty
Coefficient
County
Soil Series
Deoth
Number
(dry wt.%)
(oCi/g)
± Uncertainty
Okaloosa
Orangeburg
Subsoil
6332
8.6
0.8
±0.3
0.26
±0.11
DeSoto
Chobee
Surface
6409
12.8
5.4
-0.4
0.66
±0.04
DeSoto
Chobee
Subsoil
6411
13.2
7.2
±0.4
0.57
±0.03
Madison
Fuquay
Subsoil
6522
9.8
1.1
±0 3
0.38
±0.11
Dade
Biscayne
Subsoil
6536
17.1
32.9
±0.5
0.45
±0.01
Wakulla
Otela
Subsoil
6591
17.0
1.7
±0.4
0.36
±0.07
Bradford
Goldhead
Subsoii
6600
9 6
0.8
±0.3
0.31
±0.12
Bradford
Ocilla
Surface
6603
7.5
0.5
±0.3
0.12
±0.06
Bradford
Ocilla
Subsoil
66C8
9.1
1.2
±0.3
0.13
+0.03
Union
Blanton
Subsoil
6649
10.3
1.2
±0.3
0.28
+0.08
Union
Bonneau
Surface
6766
8.3
1.6
±0.3
0 44
+0.07
Union
Bonneau
Subsoil
6770
11.6
7.5
+0.4
0.41
-0.02
Okaloosa
Fuquay
Surface
6858
8.5
1.3
±0.3
0.04
=0.01
Okaloosa
Fuquay
Subsoii
6663
10.1
0.7
+0.3
0 35
±0.17
Wakulla
Lutterloh
Subsoil
6888
10.8
0.8
±0.3
0.46
±0.18
Gilchrist
Otela
Subsoil
7292
10.6
3.4
±0.3
0.35
?:0.G3
Gilchrist
Blanton
Surface
7312
7.9
0.9
±0.3
0.06
±0.02
Gilchrist
Blanton
Subsoil
7316
9.9
1.1
+ 0.3
0.21
>0.06
Franklin
Leefield
Subsoil
7334
8.8
0.9
+0.3
0.17
±0.05
Franklin
Stilson
Surface
7341
8.6
0.9
±0.3
0.07
±0.02
Franklin
Stilson
Subsoil
7346
8.9
0.8
±0.3
0.23
±0.09
Collier
Hailandale
Subsoil
7439
7.3
1.2
±0.3
0.39
±0.08
Calhoun
Pansey
Surlace
7522
9.9
0.5
±0.3
0.25
±0.17
Calhoun
Pansey
Subsoil
7527
10.5
1.0
±0.3
0.23
±0.08
Glades
Malabar
Subsoil
7570
3.5
0.9
±0.3
0.46
±0.15
Taylor
Chaires
Surface
7619
8.7
<0.3
±0.3
a

Taylor
Chaires
Subsoil
7624
10 8
2.5
±0.3
0.51
±0.07
Baker
Ocilla
Subsoil
7713
9.6
0.6
±0.3
0.34
±0.20
Baker
Duplin
Surface
7715
9.5
0.9
-0.3
0.11
+0.04
Baker
Duplin
Subsoil
7718
11.4
1.4
±0.4
0.26
•0.07
Hamilton
Cowarts
Surface
7818
92
1.1
±0.3
0.36
tO. 10
Hamilton
Cowarts
Subsoil
7824
10.5
3.1
±0.3
0.43
+0.05
Calhoun
Bladen
Surface
7830
13.2
1.8
+0.4
0.22
±0.05
Calhoun
Bladen
Sobsoi:
7834
11.0
1.4
±0.3
0.19
±0.05
Lafayette
Meggeti
Subsoil
7888
12.7
1.1
+0.3
0 58
±0.17
Gulf
Stilson
Surface
7980
8.0
1.1
±0.3
0.07
+0.02
Gulf
Stilson
Subsoil
7986
8.8
1.4
±0.3
0.11
±0.03
Gulf
Clarendon
Surface
8011
9.8
1.5
±0.3
0.10
±0.02
Gulf
C'arenoon
Subsoil
8016
14.7
1.4
±0.4
0.20
±0.05
Hamilton
Goldhead
Surface
8028
12.9
1.6
±0.4
0.11
±0.03
Lafayette
Worthington
Surface
8184
6.8
0.5
±0.2
0.20
±0.10
Lafayette
Worthington
Subsoii
8189
9.9
5.8
+0.3
0.39
±0 02
Dixie
Otela
Subsoil
8213
11.1
1.4
±0.3
0.46
±0.10
Dixie
Albany
Surface
8222
7.5
0.5
±0.3
0.12
±0.06
Dixie
Albany
Subsoil
8225
10.3
1.2
±0.3
0.29
±0.07
Taylor
Blanton
Surface
8282
7.5
0.6
±0.3
0.22
±0.10
Taylor
Blanton
Subsoil
8287
10.9
2.9
±0.3
0.49
±0.05
aUncertainty exceeoed emanation coefficient.
F- 16
-------
APPENDIX G
COMPONENTS OF ST ATS GO SOIL MAP UNITS
Table G-l Reference Pedon Components of STATSGO Soil Map Units.



Norm'd



Norm'd
STATSGO

Area %
Area %
STATSGO

Area %
Area %
Unit No.
Component
of Unit
of Unit
Unit No.
Component
of Unit
of Unit
2
ATMORE
6
8.45
1 1
BIBB
3
3.61

DOROVAN
10
14.08

GREENVLLE
20
24.10

PUJMMBR
15
21.13

MALBIS
18
21.69

TROUP
40
56.34

ORANGEBURG
1 8
21.69
3
BENNDALE
25
29.41

RED BAY
1 2
14.46

BIBB
5
5 88

TROUP
12
14.46

MALBIS
5
5.88
12
ALBANY
2
2.04

ORANGEBURG
10
11.76

KUREB
22
22.45

PLUMMER
10
11.76

LAKELAND
8
8.16

TIFTON
30
35.29

LEON
1 2
12.24
4
ATMORE
5
6.58

ORTEGA
35
35.71

MALBIS
1 7
22.37

PACTOLUS
9
9.18

SMFTHDALE
23
30.26

PICKNEY
4
4.08

TIFTON
8
10.53

RUTLEGE
6
6.12

TROUP
23
30.26
1 3
ALBANY
4
5.13
5
BIBB
9
12.16

DOROVAN
3
3.85

DOROVAN
3
4.05

GARCON
5
6.41

DOTWAN
27
36.49

LEON
7
8.97

FLORA LA
3
4.05

ORTEGA
2
2.56

ORANGEBURG
20
27.03

PACTOLUS
25
32.05

TROUP
12
16.22

PELHAM
8
10.26
6
ATMORE
1 7
26.56

PICKNEY
4
5.13

BIBB
a
12.50

RUTLEGE
20
25.64

EUNOLA
1 1
17.19
1 4
BOHICKET
60
75.00

FLORAS_A
8
12.50

CHEW AC LA
2
2.50

KALMIA
20
31.25

HANDSBORO
15
18.75
7
BIBB
22
47.83

RIVERVIEW
1
1.25

BIGBEE
3
6.52

WAHEE
2
2.50

DOROVAN
10
21.74
1 5
ALBANY
1
1.06

EUNOLA
7
15.22

BIBB
4
4.26

RIVERVIEW
4
8.70

DOTHAN
23
24.47
8
BIBB
5
5.68

LAKELAND
9
9.57

CHEW AC LA
24
27.27

LUCY
1 5
15.96

KALMIA
6
6.82

ORANGEBURG
1 0
10.64

KINSTON
3
3.41

TROUP
32
34.04

LAKELAND
5
5.68
16
DOTHAN
6
6.19

RIVERVIEW
23
26.14

LUCY
16
16.49

TROUP
7
7.95

ORANGEBURG
9
9.28

WAHEE
15
17.05

RED BAY
50
51.55
9
BIBB
1
1.16

TROUP
1 6
16.49

RJQUAY
5
5.81





LAKELAND
59
68.60





RUTLEGE
2
2.33





SMITHDALE
1
1.16





TROUP
18
20.93




1 0
COROLLA
18
32.14





KUREB
9
16.07





NEWHAN
29
51.79




G-l
-------
Table G-l (continued)
Reference Pedon Components of STATSGO Soil Map Units.
STATSGO
Unit No.
1 7
18
1 9
20
21
22
23
Component
Area %
of Unit
Norm'd
Area %
of Unit
STATSGO
Unit No.
Component
Area %
of Unit
Norm'd
Area %
of Unit
ALBANY
4
4.71
24
ATMOFE
3
3.06
3IBB
4
4.71

BIBB
2
2.04
DOROVAN
4
4.71

COWARTS
1 0
10.20
DOTHAN
8
9.41

DOTHAN
23
23.47
RJQUAY
14
16.47

RJQUAY
1 1
11.22
LAKELAND
5
5.88

LUCY
4
4.08
LUCY
6
7.06

MALBIS
2
2.04
ORANGEBURG
3
3.53

NANKIN
8
8.16
TROUP
37
43.53

ORANGEBURG
23
23.47
LAKELAND
65
66.3o

RED BAY
4
4.08
ORANGEBURG
3
3.06

TROUP
8
8.16
PACTOLUS
2
2.04
25
CLARENDON
34
36.96
PICKNEY
7
7.14

COWARTS
5
5.43
TROUP
21
21.43

DOTHAN
10
10.87
ALBANY
5
5.00

FLORALA
19
20.65
DOROVAN
40
40.00

RJQUAY
18
19.57
PAMLICO
26
26.00

MALBIS
4
4.35
PICKNEY
1 3
13.00

PLUMPER
2
2.17
PLUMPER
1 6
16.00
26
CLARENDON
1 5
18.99
ALAGA
28
40.58

DOTHAN
1 0
12.66
EUNOLA
1 1
15.94

RJQUAY
44
55.70
GARCON
30
43.48

LUCY
1 0
12.66
BIBB
26
31.71
27
ALBANY
1 7
20.48
BLANTON
6
7.32

BLANTON
3
3.61
DOROVAN
1 0
12.20

CHIPLEY
1 8
21.69
EUNOLA
7
8.54

HURRICANE
45
54.22
GARCON
6
7.32
28
CHIPLEY
7
7.61
KINSTON
1 7
20.73

DOROVAN
6
6.52
PICKNEY
1 0
12.20

HURRICANE
5
5.43
BIBB
8
8.70

LEON
25
27.17
DOTHAN
22
23.91

PAMLICO
9
9.78
RJQUAY
25
27.17

POTTSBURG
30
32.61
KINSTON
4
4.35

RUTLEGE
1 0
10.87
LAKELAND
4
4.35
29
ALBANY
5
5.26
LUCY
5
5.43

BLANTON
20
21.05
ORANGEBURG
4
4.35

NANKIN
25
26.32
TROUP
20
21.74

PICKNEY
10
10.53
BIBB
5
5.56

TROUP
35
36.84
COWARTS
5
5.56
30
BLANTON
6
f- 98
DOTHAN
29
32.22

RJQUAY
7
i-..) 4
FUQUAY
26
28.89

LAKELAND
43
50.00
LUCY
6
6.67

PAMLICO
7
8.14
NANKIN
5
5.56

PICKNEY
7
8.14
TROUP
14
15.56

TTOUP
1 6
18.60
G- 2
-------
Table G-l (continued)
Reference Pedon Components of STATSGO Soil Map Units.



Norm d



Norm'd
STATSGO

Area %
Area %
STATSGO

Area%
Area %
L'nit No.
Component
of Unit
of Unit
Unit No.
Component
of Unit
of Unit
31
ALBANY
4
5.00
39
CHIPLEY
10
11.49

BIBB
10
12.50

HURRICANE
1 4
16.09

BLANTON
1 5
18.75

LEON
26
29.89

BRICKYARD '
8
10.00

PICKNEY
10
11.49

EUNOLA
1 6
20.00

PLUMKCR
10
11.49

GARCON
20
25.00

SCRANTON
1 7
19.54

PELHAM
7
8.75
40
CHAIRES
26
32.91
32
BIBB
4
4.71

LEON
7
8.86

RJQUAY
7
8.24

ORTEGA
1 4
17.72

LAKELAND
9
10.59

OTELA
15
18.99

NANKIN
23
27.06

RDGEWOOD
10
12.66

ORANGEBURG
1 0
11.76

SHADEVILLE
7
8.86

"moup
32
37.65
41
LEON
1 1
11.83
33
BIBB
1 5
19.48

OTELA
4
4.30

BIGBEE
1 2
15.58

PICKNEY
1 2
12.90

BRICKYARD
5
6.49

PLUMMER
1 7
18.28

DOROVAN
23
29.87

RUTLEGE
1 2
12.90

GARCON
2
2.60

SCRANTON
30
32.26

KINSTON
4
5.19

SURRENCY
7
7.53

PICKNEY
16
20.78
42
MORIAH
28
28.57
34
BIBB
4
4.44

ORTEGA
1 7
17.35

DOTH AN
5
5.56

OTELA
9
9.18

GREENVILLE
6
6.67

RDGEWOOO
1 5
15.31

ORANGEBURG
34
37.78

SHADEVILLE
21
21.43

RED BAY
27
30.00

SURRENCY
8
8.16

TROUP
1 4
15.56
43
ALBANY
4
5.63
35
ALBANY
13
16.67

BLANTON
3
4.23

BLANTON
9
11.54

BRICKYARD
43
60.56

DOROVAN
13
16.67

GARCON
4
5.63

LEON
10
12.82

MEGGETT
7
9.86

ORTEGA
3
3.85

PELHAM
6
8.45

PLUMPER
13
16.67

SURRENCY
4
5.63

SURRENCY
1 7
21.79
44
CHAIRES
15
18.07
36
ALBANY
1 1
13.58

LAKELAND
16
19.28

CHIPLEY
5
6.17

ORTEGA
35
42.17

LEON
4
4.94

OTELA
9
10.84

PELHAM
1 7
20.99

RDGEWOOO
8
9.64

PICKNEY
5
6.17
45
CHAIRES
1 0
11.24

PLUMPER
24
29.63

LEON
7
7.87

SCRANTON
15
18.52

MORIAH
6
6.74
37
ALBANY
32
42.67

NUTALL
20
22.47

BLANTON
23
30.67

PLUMPER
3
3.37

CHIPLEY
5
6.67

RDGEWOOD
4
4.49

LEON
3
4.00

SURRENCY
6
6.74

PELHAM
6
8.00

TOOLES
33
37.08

PLUMMER
6
8.00




38
WATER
98
100.00




G-3
-------
Table G-l (continued)
Reference Pedon Components of STATSGO Soil Map Units.



Norm'd



Normd
STATSGO

Area %
Area %
STATSGO

Area%
Area %
Unit No.
Component
of Unit
of Unit
Unit No.
Component
of Unit
of Unit
46
CHAIRES
9
9.68
53
ALBANY
7
8.54

DOROVAN
7
7.53

BIBB
1 0
12.20

NUTALL
31
33.33

3LANTON
2
2.44

PLUMPER
5
5.38

OSER
23
28.05

SURRENCY
3
3.23

OUSLEY
2
2.44

TOOLES
33
40.86

PAMLICO
1 1
13.41
47
BAYVI
64
77.11

PELHAM
21
25.61

CHAIRES
3
3.61

PLUMNER
6
7.32

NUTALL
7
8.43
54
COWARTS
2
2.38

TOOLES
9
10.84

FUQUAY
14
16.67
48
BAYVI
2
2.00

LAKELAND
5
5.95

CHAIRES
3
3.00

LOVETT
12
14.29

NUTALL
49
49.00

PELHAM
4
4.76

TOOLES
46
46.00

PLUMMER
1 0
11.90
49
ALBANY
9
9.47

TIFTON
1 1
13.10

MASCOTTE
3
3.16

TROUP
26
30.95

PAMLICO
1 1
11.58
55
ALBANY
7
8.75

PELHAM
25
26.32

BLANTON
21
26.25

PLUMMER
1 0
10.53

LOVETT
24
30.00

RDGEWDOD
5
5.26

ORANGEBURG
5
6.25

SURRENCY
32
33.68

PELHAM
7
8.75
50
ALBANY
5
5.88

PLUMMER
1 1
13.75

BONNEAU
3
3.53

TROUP
5
6.25

DOTHAN
7
8.24
56
BLANTON
10
12.20

FACEVILLE
20
23.53

GARCON
4
4.88

LAKELAND
4
4.71

MEGGETT
22
26.83

UJCY
1 4
16.47

MUCKALEE
23
28.05

MUCKALEE
6
7.06

PELHAM
1 3
15.85

ORANGEBURG
24
28.24

PICKNEY
10
12.20

TIFTON
2
2.35
57
CLARENDON
25
34.72
51
COWARTS
31
31.63

ESCAMBIA
1 6
22.22

DOTHAN
1 0
10.20

FUQUAY
7
9.72

FUQUAY
1 2
12.24

LYNCHBURG
1 9
26.39

NANKIN
2
2.04

ORANGEBURG
5
6.94

PLUMkER
22
22.45
58
ALBANY
2
2.47

TIFTON
9
9.18

HURRICANE
5
6.17

TROUP
1 2
12.24

LEON
1 7
20.99
52
CLARENDON
4
5.19

MASCOTTE
27
33.33

DOTHAN
27
35.06

PAMLICO
2
2.47

PLUMMER
6
7.79

PELHAM
1 0
12.35

TIFTON
40
51.95

SURRENCY
1 8
22.22




59
BLANTON
5
5.43





BONNEAU
5
5.43





ORTEGA
5
5.43





OTELA
22
23.91





PENNEY
48
52.17





RDGEWOOD
2
2.17





SHADEVILLE
5
5.43
G-4
-------
Table G-l (continued)
Reference Pedon Components of STATSGO Soil Map Units.



Norm'd



Norm'd
STATSGO

Area %
Area %
STATSGO

Area %
Area %
Unit No.
Component
of Unit
of Unit
Unit No.
Component
of Unit
of Unit
60
ELLABELLE
15
15.96
69
ALBANY
21
25.93

GOtDHEAD
7
7.45

BLANTON
18
22.22

MANDARIN
6
6.38

EUN0LA
4
4.94

OSER
48
51.06

HURRCANE
6
7.41

OUSLEY
18
19.15

LEON
2
2.47
61
BLANTON
6
6.67

OCILLA
6
7.41

ORTEGA
45
50.00

PLUMMER
1 0
12.35

OTELA
4
4.44

SHADEVILLE
9
11.11

PENNEY
5
5.56

TROUP
5
6.17

RDGEWOCO
30
33.33
70
ALPIN
8
8.00
62
GRIFTON
4
5.80

JONESVILLE
36
36.00

PAMLICO
24
34.78

ORTEGA
7
7.00

PELHAM
7
10.14

OTELA
1 5
15.00

PLUMMER
28
40.58

PEDRO
1 8
18.00

SURRENCY
6
8.70

SHADEVILLE
16
16.00
63
KINGSLAND
45
51.72
71
LEON
33
55.00

LEON
2
2.30

MASCOTTE
23
38.33

MAUREPAS
40
45.98

RDGEWOCO
4
6.67
64
ALPIN
40
48.78
72
ALPIN
8
10.00

BIGBEE
5
6.10

BIGBEE
19
23.75

BONNEAU
7
8.54

BLANTON
10
12.50

CHIEFLAND
20
24.39

ELLOREE
9
11.25

OLBO
5
6.10

EUNOLA
20
25.00

TROUP
5
6.10

MEGGETT
14
17.50
65
LOWNDES
1 6
18.39
73
ALBANY
15
17.44

PELHAM
1 1
12.64

BLANTON
57
66.28

VALDOSTA
60
68.97

LOVETT
5
5.81
66
BONNEAU
7
7.87

PLUMMER
5
5.81

OTELA
9
10.11

TROUP
4
4.65

PENNEY
70
78.65
74
WATER
96
100.00

SHADEVILLE
3
3.37
75
ALBANY
40
41.67
67
ALAGA
21
23.33

BLANTON
3
3.13

ALPIN
38
42.22

HURRICANE
1 3
13.54

BLANTON
5
5.56

LEON
3
3.13

BONNEAU
2
2.22

OCILLA
37
38.54

CHIEFLANO
3
3.33
76
ALBANY
5
5.26

OTELA
3
3.33

HURRICANE
5
5.26

SHADEVILLE
3
3.33

LEON
42
44.21

TROUP
1 5
16.67

MASCOTTE
1 0
10.53
68
CHIEFLAND
5
6.67

PELHAM
1 9
20.00

UDOfTTHENT
70
93.33

PLUMMER
1 4
14.74




77
BLANTON
25
27.78





BONNEAU
45
50.00





CHIEFLAND
5
5.56





OCILLA
4
4.44





PELHAM
6
6.67





SHADEVILLE
5
5.56
G- 5
-------
Table G-l (continued)
Reference Pedon Components of STATSGO Soil Map Units.
STATSGO
Unit No.
78
79
80
81
32
83
Component
Area %
of Unit
Norm'd
Area %
of Unit
STATSGO
Unit No.
Component
Area %
of Unit
Norm'd
Area %
of Unit
ALBANY
2
2.00
84
BOUOGNE
5
5.32
BLANTON
30
30.00
'
HURRICANE
23
24.47
90NNEAU
36
36.00

LEON
33
35.11
EUNOLA
10
10.00

MANDARIN
1 5
15.96
OCILLA
5
5.00

POTTSBURG
7
7.45
ORTEGA
4
4.00

RIDGELAND
4
4.26
PELHAM
5
5.00

WESCONNETT
7
7.45
PENNEY
3
3.00
85
CHAIRES
27
27.00
SHADEVILLE
5
5.00

GOtDHEAD
34
34.00
ALBANY
6
6.00

HURRICANE
6
6.00
BLANTON
5
5.00

MANDARIN
4
4.00
ELLOREE
25
25.00

MASCOTTE
6
6.00
MEGGETT
55
55.00

MEADOWBROOK
9
9.00
PLUMMER
9
9.00

PELHAM
10
10.00
ALPIN
1 2
19.35

SAPELO
4
4.00
BLANTON
20
32.26
86
KINGSLAND
1 5
15.79
BONNEAU
1 2
19.35

LEON
1
1.05
CHIEFLAND
4
6.45

MAUREPAS
1 1
11.58
LEON
4
6.45

TISONIA
68
71.58
TROUP
1 0
16.13
87
FRIPP
1 6
17.78
ALBANY
3
3.23

KERSHAW
1 5
16.67
GRIFTON
2
2.15

KUREB
22
24.44
MASCOTTE
3
3.23

LEON
4
4.44
OCILLA
4
4.30

MANDARIN
1 1
12.22
PAMLICO
3
3.23

NEWHAN
1 5
16.67
PELHAM
45
48.39

ORTEGA
7
7.78
PL'JMMER
1 8
19.35
88
GOLDHEAD
25
32.05
SAPELO
1 1
11.83

HURRICANE
5
6.41
SURRBCY
4
4.30

LEON
1 5
19.23
ALBANY
2
2.00

OLUSTEE
6
7.69
ELLOREE
28
28.00

PELHAM
6
7.69
FLUVAQUENTS
20
20.00

SAPELO
5
6.41
GRIFTON
34
34.00

WESCONNETT
1 6
20.51
MEGGETT
6
6.00
89
FRIPP
1 6
22.86
OUSLEY
10
10.00

KERSHAW
9
12.86
ALBANY
32
32.00

KUREB
1 5
21.43
BLANTON
25
25.00

LEON
4
5.71
CENTENARY
7
7.00

MANDARIN
9
12.86
HURRICANE
5
5.00

NEWHAN
9
12.86
LEON
7
7.00

ORTEGA
8
11.43
OCILLA
4
4.00
90
BUCCANEER
1 5
16.85
OSIER
10
10.00

ELLABELLE
16
17.98
FEfsMEY
10
10.00

GOLDHEAD
13
14.61




MANDARIN
1
1.12




MEGGETT
21
23.60




OSIER
15
16.85




OUSLEY
8
8.99
G-6
-------
Table G-l (continued)
Reference Pedon Components of STATSGO Soil Map Units,



Norm'd



Norm'd
STATSGO

Area %
Area%
STATSGO

Area %
Area %
Unit No.
Component
of Unit
of Unit
Unit No.
Component
of Unit
of Unit
91
LEON
1
1.08
101
ADAMSVILLE
2
2.44

MANDARIN
2
2.16

ASTATULA
9
10.98

MAUREPAS
50
54.05

BASINGER
2
2.44

OSIER
6
6.49

IMMOKALEE
4
4.88

PAMLICO
20
21.62

MYAKKA
5
6.10

WESCONNETT
14
14.59

PAOLA
1 3
15.85
92
ALBANY
6
6.25

POMELUO
5
6.10

CENTENARY
1 7
17.71

SATELLITE
7
8.54

ORTEGA
32
33.33

TAVARES
1 8
21.95

PAMLICO
6
6.25

2DLFD
1 7
20.73

PEhNEY
30
31.25
102
ADAMSVILLE
20
22.22

SAPELO
5
5.21

CANAVERAL
20
22.22
93
ALBANY
3
3.00

PALM BEACH
30
33.33

ELLABELLE
3
3.00

PAOLA
5
5.56

GOLDHEAD
1 1
11.00

ST. AUGUSTINE
1 2
13.33

LEON
31
31.00

TERRA CEIA
3
3.33

MEADOWBROOK
2
2.00
103
BASINGER
8
9.52

SAPELO
50
50.00

EAUGALLIE
20
23.81
94
WATER
98
100.00

MALABAR
1 5
17.86
95
WATER
97
100.00

MYAKKA
1 0
11.90
96
ALBANY
5
6.76

POMONA
25
29.76

DOROVAN
4
5.41

WABASSO
4
4.76

DOTHAN
1 3
17.57

WAUCHULA
2
2.38

LAKELAND
1 0
13.51
104
CH0BEE
6
7.79

kEGGETT
7
9.46

EAUGALLIE
5
6.49

ORANGEBURG
26
35.14

FELDA
20
25.97

TROUP
9
12.16

PINEDA
1 3
16.88
97
ALBANY
7
7.53

WABASSO
20
25.97

DOROVAN
35
37.63

WINDER
1 3
16.88

PAMLICO
21
22.58
105
BASINGER
5
5.95

PlCKNEY
1 3
13.98

FLORIDANA
22
26.19

PLUMMER
1 7
18.28

MALABAR
5
5.95
98
BIBB
1 5
15.63

PLACID
9
10.71

BRICKYARD
5
5.21

POMONA
8
9.52

DOROVAN
27
28.13

RIVIERA
1 7
20.24

GARCON
2
2.08

St. JOHNS
4
4.76

LEON
1 2
12.50

TERRA CEIA
1 2
14.29

ORTEGA
7
7.29

WINDER
2
2.38

PAMLICO
1 2
12.50
106
ADAMSVILLE
2
2.26

PlCKNEY
16
16.67

BASINGER
1 5
16.95
99
WATER
94
100.00

EAUGALLIE
7
7.91
100
IMMOKALEE
1 4
14.89

FELDA
2
2.26

MYAKKA
47
50.00

IMMOKALEE
20
22.60

POMELLO
18
19.15

MYAKKA
9
10.17

TAVARES
2
2.13

PLACID
3.5
3.95

WAVE LAND
13
13.83

SMYRNA
30
33.90
G- 7
-------
Table G-l (continued)
Reference Pedon Components of STATSGO Soil Map Units.



Normd



Norm'd
STATSGO

Area %
Area %
STATSGO

Area %
Area %
Unit No.
Component
of Unit
of Unit
Unit No.
Component
of Unit
of Unit
107
CANOVA
2
2.25
114
APOPKA
2
2.13

FLORIDANA
2
2.25
.
ASTATULA
15
15.96

GATOR
7
7.87

IbMOKALEE
5
5.32

HONTOCN
1 5
16.85

MYAKKA
1 0
10.64

SAMSULA
21
23.60

ORSNO
1 5
15.96

TERRA CEIA
27
30.34

PAOLA
25
26.60

TOMOKA
1 5
16.85

PLACID
5
5.32
108
SOCA
1 4
15.91

POfcELLO
1 0
10.64

COPEUND
2
2.27

SATELLITE
2
2.13

EAUGALLIE
1 5
17.05

TAVARES
5
5.32

HALLANDALE
6
6.82
1 15
oces
20
25.97

PINEDA
16
18.18

FELDA
24
31.17

RIVIERA
2
2.27

FLORIDANA
1 0
12.99

TERRA CEIA
13
14.77

KALIGA
1 5
19.48

WABASSO
20
22.73

N ITT AW
8
10.39
109
ESTERO
2
2.41
11 6
ARREDONDO
8
11.11

PALM BEACH
18
21.69

GAINESVILLE
2
2.78

UDORTHENT
63
75.90

KANAPAHA
2
2.78
110
ARENTS
36
41.86

KENDRICK
2
2.78

HVDRAQUENTS
20
23.26

LOCHLOOSA
10
13.89

MATLACHA
20
23.26

MILLHOPPER
23
31.94

NEILHURST
10
1 1.63

SPARR
1 5
20.83
1 1 1
ESTERO
1 6
25.81

TAVARES
10
13.89

PECKISH
16
25.81
11 7
ADAMSVILLE
2
2.70

PELUCER
1 5
24,19

BLICHTON
4
5.41

WULFERT
1 5
24.19

BOCA
1 7
22.97
1 1 2
BASINGER
3
4.84

ocas
2
2.70

MVAKKA
20
32.26

JONESVILLE
1 4
18.92

POMFIID
7
11.29

MYAKKA
4
5.41

SMYRNA
25
40.32

OTELA
1 0
13.51

WABASSO
7
11.29

PEDRO
8
10.81
1 1 3
APOPKA
8
8.60

REDLEVEL
3
4.05

ASTATULA
10
10.75

SHADEVILLE
1 0
13.51

CANDLER
50
53.76
118
BOCA
35
35.00

MILLHOPPER
4
4.30

CRACKER
15
15.00

ORSINO
2
2.15

HOMOSASSA
1 5
15.00

PAOLA
3
3.23

TIDEWATER
35
35.00

SATELLITE
2
2.15
119
BASINGER
3
3.41

TAVARES
1 4
15.05

IMMOKALEE
1 0
11.36





MALABAR
10
11.36





MYAKKA
1 0
11.36





PEPPER
1 5
17.05





WAVE LAND
25
28.41





23LFO
15
17.05
G- 8
-------
Table G-l (continued)
Reference Pedon Components of STATSGO Soil Map Units.


Norxn'd



Norm'd

Area%
Area%
STATSGO

Area %
Area %
Component
of Unit
of Unit
Unit No.
Component
of Unit
of Unit
ADAMS VILLE
2
2.20
123
ADAMSVILLE
3
3.57
APOPKA
4
4.40

BASINGER
5
5.95
fiPREEONDO
2
2.20

EAUGALLIE
4
4.76
ASTATULA .
1 6
17.58

FELDA
4
4.76
BASING ER
3
3.30

FLORID ANA
3
3.57
CANDLER
35
38.46

MALABAR
4
4.76
KENDRICK
3
3.30

MYAKKA
1 0
11.90
LAKE
5
5.49

PLACID
3
3.57
MILLHOPPER
3
3.30

POMONA
38
45.24
MYAKKA
3
3.30

SAMSULA
4
4.76
PAOLA
2
2.20

WAUCHULA
6
7.14
PLACID
2
2.20
1 24
ADAMSVILLE
5
5.95
SPARR
2
2.20

BASINGER
5
5.95
TAVARES
9
9.89

FELDA
3
3.57
ADAMSVILLE
2
2.00

IMMOKALEE
1 4
16.67
ARREDONOO
37
37.00

MYAKKA
20
23.81
BLICHTON
2
2.00

POMELLO
3
3.57
CANDLER
2
2.00

SAMSULA
5
5.95
GAINESVILLE
3
3.00

SMYRNA
23
27.38
JONESVILLE
2
2.00

TAVARES
2
2.38
KANAPAHA
2
2.00

WABASSO
4
4.76
KENDRICK
5
5.00
126
FLORID AN A
2
2.56
LOCHLOOSA
8
8.00

HONTOON
13
16.67
MILLHOPPER
1 7
17.00

SAMSULA
21
26.92
MYAKKA
2
2.00

TERRA CEIA
27
34.62
SPARR
9
9.00

TOMOKA
15
19.23
TAVARES
7
7.00
127
HOMOSASSA
50
71.43
WAUCHULA
2
2.00

WEEKIWACHEE
20
28.57
ARREDONOO
4
4.17
128
ANCLOTE
60
88.24
BASINGER
2
2.08

BASINGER
3
4.41
BLICHTON
27
28.13

FLORID ANA
5
7.35
BOARDMAN
4
4.17
129
ADAMSVILLE
10
11.49
FLEMINGTON
20
20.83

CANDLER
2
2.30
KANAPAHA
8
8.33

MILLHOPPER
2
2.30
KENDRICK
7
7.29

MYAKKA
2
2.30
LOCHLOOSA
5
5.21

POfcBUD
2
2.30
MCANOPY
a
8.33

SATELLITE
1 5
17.24
NOBLETON
5
5.21

SEFFNER
4
4.60
SPARR
4
4.17

SPARR
6
6.90
WAUCHULA
2
2.08

TAVARES
24
27.59




ZOLR5
20
22.99



130
CHOBffi
29
32.22




FELDA
1 4
15.56




FLORIDANA
1 4
15.56




KALIGA
4
4.44




N ITT AW
1 7
18.89




WINOER
1 2
13.33
-------
Table G-l (continued)
Reference Pedon Components of STATSGO Soil Map Units.



Norm'd



Norm'd
STATSGO

Area %
Area %
STATSGO

Area %
Area%
Unit No.
Component
of Unit
of Unit
Unit No.
Component
of Unit
of Unit
132
BASINGER
50
62.50
197
WATER
94
100.00

EAUGALLIE
1 0
12.50
198 •
WATER
97
100.00

FLORIDANA
5
6.25
199
ARENTS
2
9.52

IMMOKAIEE
1 5
18.75

ESTCRO
4
19.05
133
GATOR
3
4.17

TERRA CEIA
1 5
71.43

H0NTC30N
21
29.17
201
KEYLARGO
22
62.86

KALIGA
7
9.72

UDORTHENTS
1 3
37.14

PLACID
5
6.94
202
PB*4SUCO
1 4
20.29

SAMSULA
28
38.89

PERRME
32
46.38

TERRA CEIA
8
11.1 l

TERRA CEIA
23
33.33
134
MILLHOPPER
13
15.38
203
BISCAYNE
34
35.42

SQ=FNER
12.5
14.79

DANIA
3
3.13

SFARR
44
52.07

LAUDERHILL
2
2.08

SUMTERVILLE
15
17.75

PAHOKEE
2
2.08
135
ARENTS
20
22.47

PQnMSUOO
1 0
10.42

HYDRAQUENTS
30
33.71

PERRINE
45
46.88

NEILHURST
14
15.73
204
BISCAYNE
3
10.71

UDORTHENT
25
28.09

PERRINE
2
7.14
136
FELDA
25
26.46

UDORTHENTS
23
82.14

QOLDHEAD
6
6.35
205
KRCME
81
94.19

HICORIA
21.5
22.75

UDORTHENTS
5
5.81

MALA8AR
29
30.69
206
BISCAYNE
25
49.02

MYAKKA
5
5.29

CHEKIKA
18
35.29

PLACID
8
8.47

DANIA
2
3.92
137
ARREDONDO
1 6
20.51

KFCfcE
4
7.84

ASTATULA
1 2
15.38

LAUDERHILL
2
3.92

CANDLER
36
46.15
207
BISCAYNE
5.0
8.77

FLORIDANA
6
7.69

CHEKIKA
37
64.91

MYAKKA
4
5.13

KRCfcE
15
26.32

PAOLA
4
5.13
208
DANIA
34
35.05
1 38
BASINGER
4
7.41

LAUDERHILL
4 1
42.27

DADE
23
42.59

PAHOKEE
22
22.68

DUETTE
1 8
33.33
209
PAHOKEE
85
90.43

IMMOKALEE
6
11.11

TERRA CEIA
9
9.57

MARGATE
3
5.56
210
PAHOKEE
1 1
13.58
139
BASINGER
49
75.38

TERRA CEIA
70
86.42

IMMOKALEE
9
13.85
211
PAHOKEE
1 1
11.34

MYAKKA
7
10.77

TERRA CEIA
9
9.28
140
BASINGER
4
10.00

TORRY
77
79.38

QUARTZIPSAMENT
25
62.50
212
oocra
78
81.25

UDORTHENTS
1 1
27.50

PENNSUCO
1 8
18.75
141
BASINGER
1 0
20.83
213
BASINGER
2
2.00

IMMOKALEE
31
64.58

BOCA
30
30.00

MARGATE
7
14.58

COP ELAND
30
30.00
194
WATER
100
100.00

DANIA
2
2.00
195
WATER
94
100.00

HALLANDALE
6
6.00
196
PERRINE
TERRA CEIA
7
6
53.85
46.15

RIVIERA
30
30.00
G- io
-------
Table G-l (continued)
Reference Pedon Components of STATSGO Soil Map Units.



Norm'd



Norm'd
STATSGO

Area %
Area %
STATSGO

Area %
Area %
Unit No.
Component
of Unit
of Unit
Unit No.
Component
of Unit
of Unit
214
BASINGER
3
3.06
220
DANIA
1 5
15.00

BOCA
28
28.57

LAUDERHILL
31
31.00

HALLANDALE
24
24.49

MARGATE
2
2.00

OCHOreE
2
2.04

PAHOKEE
8
8.00

PINEDA
41
41.84

PLANTATION
41
41.00
215
BOCA
4
4.00

TERRA CEIA
3
3.00

CHoea
2
2.00
221
LAUDERHILL
2
2.08

FELDA
10
10.00

PAHOKEE
85
88.54

FLORIDANA
6
6.00

TERRA CEIA
9
9.38

PINEDA
21
21.00
222
PAHOKEE
9
10.47

RIVIERA
48
48.00

TERRA CEIA
75
87.21

WINDER
9
9.00

TORRY
2
2.33
216
CANOVA
25
25.00
223
PAHOKEE
6
6.00

GATOR
26
26.00

TERRA CEIA
9
9.00

TERRA CEIA
49
49.00

TORRV
85
85.00
21 7
FELDA
10
10.53
224
BASINGER
2
2.00

FLORIDANA
6
6.32

BOCA
9
9.00

MALABAR
74
77.89

DANIA
9
9.00

PINEDA
5
5.26

LAUDERHILL
5
5.00
218
GATOR
25
26.32

MARGATE
70
70.00

NITTAW
5
5.26

RIVIERA
5
5.00

TERRA CEIA
45
47.37





WINDER
20
21.05




219
BOCA
19
21.11





DANIA
2
2.22





HALLANDALE
35
38.89





LAUDERHILL
2
2.22





MARGATE
30
33.33





RIVIERA
2
2.22




G-U
-------
APPENDIX H
SOIL PROFILE PROPERTIES FOR STATSGO COMPONENTS
Table H-l
State-Wide Soil Horizon Physical Properties from STATSGO Data Files
So4
Component
Nam*
Soil
Proflto 1Mb DerioSy <
No. Nc. (&CQ)
Walor	Water	Soil Sc*t
TeWa	T«We	Hoozon Panic)*
Depth	DiK»tion	Thiokna«« Diameter
3.5 cm 20cm 30cm" 45CTrT~dOcm" 80 err lOOan 150cm 200 em 333 sm 15K em rw*ceted Capflary Suction
ACAMSVILLE
ACAMSVILLE
ACAMSVILLE
ACAMSVILLE
ACAMSVILLE
ACAMSVILLE
ACAMSVILLE
ACAMSVILLE
acamsville
ACAMSVILLE
ACAMSVILLE
ADAMSV1LLE
ACAMSWOE
ACAMSVILLE
A0AMSV1LLE
AOAMSVIUJE
ACAMSVILLE
ACAMSVILLE
ACAMSVILLE
ACAMSVILLE
ADAMSVHXE
ACAMSVILLE
ACAMSVILLE
ACAMSVILLE
ALASA
ALAGA
ALAGA
ALAGA
ALAGA
ALAGA
ALAQA
ALAGA
ALAGA
ALAGA
ALAGA
ALAGA
ALAGA
ALAGA
ALAGA
ALAGA
ALBANY
ALBANY
ALBANY
ALBANY
ALBANY
ALBANY
ALBANY
ALBANY
ALBANY
ALBANY
ALBANY
ALBANY
ALBANY
Albany
ALBANY
ALBANY
ALBANY
ALBANY
ALBANY
10
10
10
10
10
10
14
14
14
14
14
14
19
t*
10
19
10
19
23
n
a
22
23
n
3
3
3
3
3
3
15
15
15
IS
15
15
15
15
15
15
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
5K3
3653
5654
5655
)44t
3449
3*50
3451
3452
3453
7071
7072
7073
7074
7075
7070
3606
3600
3610
3611
3612
3613
5726
5727
5728
5729
5730
5731
6063
6064
6065
8066
GO*?
6066
6069
809C
609)
6002
2262
2263
2264
2265
2260
226?
2266
3766
3767
3766
3760
3770
3771
8637
6636
6636
6640
6641
•642
1.46
>56
161
I 61
160
1 63
1.07
1 3'
1 46
1.43
1 17
1 60
1 52
1 52
1 56
1.50
1.56
1 50
1 09
1 37
1.34
1 52
1 59
1 #1
1 22
1 4d
1.34
1 46
1.61
1 56
1 65
1 65
1 56
1 61
1 54
1 63
I 57
1 74
*61
I 60
I 50
1.60
1 78
1 70
I 63
1 86
1.76
1.35
1.37
1.47
t 50
1 69
1 63
1 49
1.49
1.53
1 59
1.61
37 -59
39 (4
41 73
37.33
36.79
334a
35	59
44 S3
41. ao
39	95
41	16
40	CM
36	81
42	00
30 07
42	96
37	69
31-49
54 87
46 83
44 63
43	26
44	51
45	09
§1.64
42	60
46	56
39	01
35 94
33	70
35 00
34	29
37 86
35	as
36	06
33	83
35	01
30	82
*>57
34	19
41.17
26 83
31	26
24 94
34 23
40	44
34 07
47	71
44 32
41	07
36	56
34 47
36	2S
39	78
43	96
40	47
37	14
34.96
36 64
2*4?
25.74
22 91
24 82
22 73
22 V
26	52
37 24
40	00
37 59
41	34
30 85
36 04
41.26
36 11
36 74
36	53
36.20
51 67*
4542
*3 72
40 75
41.22
4243
44.61
30 91
37	37
30.65
30.04
20 94
35 39
30 69
31.69
30	89
31	99
31 03
12 50
27	05
30 06
33 61
35 35
27 57
26 80
22 15
33 36
39 35
33 96
47 02
43 22
40.27
35	44
33	57
3S.67
36	14
42 03
3047
34	04
34 40
3541
rrm
17 17
1507
14 72
13 73
13 59
22 47
33.54
36 7fl
36 06
41 12
30	50
37.14
39 81
35	72
24	63
26.91
27	65
41	59
42	71
39.49
36	42
39	46
4001
40	70
33	06
28	25
20.89
16 92
1962
34	?8
29	64
28	5!
25	08
25	5*
24	22
31	34
26	13
29	60
32	76
31 76
25	74
27	63
21 56
33	08
37	42
33 42
46 43
42.29
39 78
36 01
33.15
35	52
36	66
38	96
37	88
33 90
31.19
33 40
12.06
>0 99
743
960
874
606
1601
24	02
27 74
27	64
41.50
36 11
28	66
27.24
25	52
14 48
18	84
17.26
26	95
23	38
22.70
20	34
3008
31	22
34 44
25	68
22	64
16	30
11 56
13 73
27	74
26	08
19	63
17	39
18	15
1838
18 fQ
24	27
29	17
32	25
27	58
23	20
25	24
21	14
32 23
57.03
33.31
40 01
41.66
36 31
34	93
3* 73
35	23
32 70
31 74
30	30
28.77
25 01
30 98
1009
196
590
7.76
6 99
8	70
14*
17.18
17	36
15 15
41.14
22 40
20	33
1634
15	47
9	05
959
• 99
21	75
14 76
18	X
16	17
18	65
1756
29	r
22	00
19	ce
14 10
9	19
10	81
22 02
22	97
16 07
1392
14 63
1268
1341
21	61
28 42
32 06
23	60
20.53
22	46
20	37
90 06
35 75
32 83
30	U
21	61
28 20
31	67
28	69
35 CC
24	85
20	06
19 20
21	43
19 93
29	56
6.54
7 53
472
661
6.04
566
12.65
1356
1236
847
16 52
15 28
1398
11.46
1030
631
6 40
5 70
1791
11.41
12 93
11	12
H 98
12	76
25 78
1960
18 89
12 85
778
9 23
18	52
20 48
1361
11	5C
12	27
10 18
10	35
2C40
27	56
3146
20 35
1153
20 11
19	65
29 30
35 34
30.4'
18 96
17.77
1# 66
18 84
23 12
33 90
1699
12 28
11	41
11 65
16.30
28	27
7	70
6 72
406
601
549
543
11 63
11 56
10 23
671
18 96
14 91
It 72
9.79
641
536
5 12
455
16	42
10	10
11.56
945
11	30
11	70
23 90
1621
1569
12	15
704
845
18	50
1186
1253
10	40
11	06
9 11
8	64
19	56
27	04
31 13
17	55
1686
18	12
17 38
28	57
34 54
29	06
14 03
12.40
If 64
11 01
1930
33 46
14 94
9.94
9	10
654
14.54
27 67
662
576
345
534
411
486
10-23
9 74
9 10
580
1524
t1 72
9 42
797
664
4 23
389
339
14 33
10 10
993
7 75
623
6.95
21.21
16 55
14 33
11.16
609
7 18
13	97
1621
10.93
693
941
766
696
18 14
25	72
3031
14	45
14 04
14 70
16 52
26	60
33 44
26 33
tO 26
641
7.77
622
1574
32.33
10 62
6.77
562
4 96
11.77
25 65
626
5.27
3.10
4 91
4.45
457
9 79
9.06
8 17
492
14	51
11 32
8 40
7.11
567
364
339
291
1368
8	02
928
708
798
645
20 14
15	78
13	72
1079
566
6 74
126?
14	96
10 10
6.16
677
7.14
632
17 32
25.11
29 68
1296
12.23
1295
1461
2556
32 84
24 43
6 78
6 91
• 34
474
14 13
31 51
9	47
590
462
4.00
10.64
24 06
5.73
4.66
279
473
4.06
366
897
7.70
729
430
13 05
10 11
666
567
466
306
2.51
2.27
12 34
7.29
6.32
6.10
664
706
16 13
U 35
12	65
9 93
4	91
567
10 94
13	23
9 tO
741
764
642
5	35
16 10
23 96
26 63
10 44
636
9 93
10 02
22 56
30 86
20	97
7.29
5.61
509
3	57
1200
20.99
7 87
4	48
3 58
3.07
• 90
21	56
0 6 7	62 5
0.77	825
0 52	62 5
0 52	82 5
0	30	125
030	62 5
2.09	625
1.77	62 5
1	36	82 5
0.33	82.5
2.76	62 5
1 50	82 5
1.66	82 5
1.76	62 5
1 42	62 5
1	10	82 5
0	80	62 5
0.70	82.5
546	825
2	53	62.5
2 47	62.5
2 01	825
246	625
2 59	62.5
6 53	160 0
601	180 0
590	1800
5 85	160 0
2 35	160 0
2	18	1600
5	15	1600
6	91	160 0
4 58	160.0
319	1800
3	05	180 0
2.46	180 0
1	13	1600
715	1800
12 54	180 0
16 37	160 0
2	57	52 5
2.79	52.5
2	51	52 5
3	31	52 5
1125	52 5
21 55	52 5
13.49	52 5
2 75	52 5
2.01	52 5
1.54	52.5
0	93	52 S
6.47	52 5
19 72	52.8
2 21	52.5
1	21	525
104	52 5
0 70	52.5
441	52 5
11 67	52.5
30
30
3.0
30
30
30
30
30
30
30
30
30
30
3.0
30
30
30
3.0
3.0
30
30
3.0
30
30
20
20
20
2.0
20
20
2.0
20
20
20
20
20
20
20
20
20
20
20
2.0
15
15
15
15
15
15
20
28
28
36
23
68
15
21
45
28
69
25
25
33
31
26
53
33
(0
13
51
73
36
20
15
46
31
43
43
16
15
59
10
43
36
36
33
38
56
18
20
31
64
25
36
23
25
43
33
26
53
303 152
293.669
264 822
260 164
260.224
299 696
146 370
147.510
151.160
151 330
146 2*0
147.560
162 227
166 389
161.369
179 668
161.456
179 166
156.799
162 895
161.461
162262
166 189
157 252
264 659
253 748
262 322
264 146
316 457
275 065
240 890
220017
243 331
21««7|
210 063
228 860
224	763
195 715
184.401
165 856
222 120
225	222
219664
224 566
192 373
157 225
167JOO
156 610
136 609
144.169
135	123
130 861
111 553
165 611
168 539
168 004
187 292
171.642
136	735
H-l
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files
Sol
Comport**
Soil
Profit Lab D«ntity a
No. <^cc)
No.
So* Watar Contanl (vdum« %) at Indicated Capilary Suction
1SK cm
W ator
TaW0
Dtpfe
(cm)
W«t6T
Tab*
Durafoft
(mo.)
Soil
Thicknaoo
(cm)
Soil
Ptftcfe
Diam0t4f
(jim)
300
525
20
5
130560
1 67
525
2.0
6
135 106
4 16
12.5
20
30
132.347
120
526
20
46
136 027
059
525
20
36
134 179
945
525
SO
15
117.768
14.
52 5
2.0
15
111.991
14 29
525
2.0
46
120 159
1.42
525
2.0
23
105 450
103
52.5
3.0
33
195.477
071
52-5
2.0
36
193 368
000
525
20
51
191 114
0.10
525
20
15
160 809
11 99
525
2.0
43
155 060
1.40
45 0
2.6
15
134 314
1 26
45.0
25
26
134 707
096
45 0
2.5
50
134 117
0.42
45 0
25
20
135 901
691
45 0
2.5
33
107 150
1552
450
25
5i
69 755
1.79
525
2.0
16
200.20
1.20
525
20
43
169.200
099
525
20
43
204.247
9.60
52.5
20
46
103 349
1473
525
20
53
154.989
1 51
520
20
20
173 264
1 47
520
20
20
171.201
1 81
82.0
2.0
40
172 996
4 24
520
20
16
155 970
5 27
520
20
46
157 074
997
52.0
20
15
149.019
14 11
520
20
38
136 341
334
525
20
10
227 434
200
525
20
25
214 003
1.57
52.5
2.0
23
207 750
1 13
52.5
20
30
246 
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files





W4I4T
W4t4T
Soil
SoM
So*


Soil

Ta£4a
Tabto
Honxon
PtftKfe
Comport**
Proflfe
Ub
04r»fty
Sol W«!bc Cont4TH (voiurm %) tf Ifw§c«l6d C«p41*ry Suction
Dapth
Duration
a
I
.1
malar
Nana
No.
Ho.

3.Sc*n 20cm 30 cm 45cm 60cm 80cm 100cm 150cm 200cm 330cm
15K cm (cm)
(mo.)
(em)

ALBANY	ft	4450	1.47 Mfi 9732	37.11	44.41	39 15	22 49	$#.32	#14	9 2*	4 57	071 925	20	M	114.437
ALBANY	15	4451	100 33 02	31.44	31*1	3146	3117	3043	2444	2451	27 18	25 44	7 42 92 9	2 0	36	44.242
ALBANY	15	4652	1 56 37 26 35 46	35 26 34 66	44 21	3)61	32 70	3136 20 96	»42	10 06 52 5	2 0 15	90 112
ALBANY	15	4453	156 40 66	40 15	36.60	3013	34 76	34 26	36.04	37.33	36.53	36 40	16 43 52 5	2 0 10	63.542
ALBANY	30	3417	1 36	43. U	36 67	32.46	22 62	1426	14.22	1166	647	6.16	7 10	2 03 62 4	2.0 15	166 064
ALBANY	30	3416	I.M	S?44	37 06	3434	31 31	24 66	16 16	15 66	12.33	10 72	6 67	1 73 52 5	2 0	23	163.745
ALBANY	30	3410	151 446Q	3947	33 66	716C	21 34	15 06	1166	6 75	7 77	5 44	1 19 MS	2 0	20	154 431
ALBANY	30	3420	1 54	3444	9347	3261	25 55	16 30	13 54	10.24	7.45	6.44	4.61	075 52.5	2.0 16	164 175
ALBANY	30	3421	161 34.66	34 30	32 67	26 54	22 40	15 43	11 61	4.01	7 44	4 24	0 44 52 5	2.0 15	142 977
ALBANY	30	4422	1 67 33.64	33 61	33 62	32 00	32 06	17 57	12 56	6 64	7 17	5 76	0 44 52 5	2.0	24	141 605
ALBANY	30	3423	1 74	33 42	32.44	32 01	30 24	27.16	2* 22	21 77	16 50	16 71	M 35	6 44 52 5	2 0	23	149 707
ALBANY	30	3424	1 60 32 14	31.62	31 37	30 43	29 74	24 19	27 44	27 34	25 64	2245	4 14 52.5	2.0	33	143 191
ALBANY	30	>425	175	36 21	34 44	32-47	32 42	32.21	31 44	31 24	30.53	24.43	77 34	19 42 52 5	2 0	30	132127
ALBANY	30	4754	1 24	47 72	4? 44	47 53	36 54	32 04	26 24	27 43	25 35	23 45	20 13	5 44 12 5	2.0 13	214 244
ALBANY	30	4757	141	36 46	34 43	36 36	2721	23 16	2C 69	1034	17 36	16 1?	1421	4 53 52 5	2.0 7	225 744
ALBANY	30	4754	1 51	37 17	34 44	36 79	24 2?	21 97	1666	1727	14.31	1323	11 54	4 04 52 5	20	13	239216
ALBANY	30	4759	1 59	34.74	34 20	34 13	23 35	14.75	15 53	1401	12.44	11.34	9 79	4 10 52 5	2.0	23	242517
ALBANY	30	4740	1 42 35 0*	33 96	33 94	23 43	20 54	16 04	16 55	14 59	13 49	11 76	4 20 52 5	2 0	25	236 747
ALBANY	30	4741	1 70 3240	31 69	31 74	22 54	20 43	1144	17 32	15.27	14 06	12.34	4 74 52.5	2 0	23	222014
ALBANY	30	4742	1.71	31.S6	31 23	31 02	25 45	22.34	14 44	1*61	17.11	15 74	1231	4 70 52 5	2.0	44	254 661
ALBANY	30	4743	1 42	34 64	30 35	34 67	34 55	34 02	37 U	34 69	35 46	34 15	16 76	6.76 52 5	2 0	51	303 611
ALPIN	3	7503	< 72	36 53	35 51	34 44	32 45	21 36	1420	14 57	1145	10 42	6.17	3 04	1 60 0	20	300 243
A-P1N	3	7504	1 46	37 21	34 21	27 43	16 04	14 26	11.40	9 95	4.34	7 54	4.44	2.54	160 0	59	323 241
ALPIN	3	7505	1.47	34 07	32 74	25 14	14 90	12 66	10 44	9.67	6 27	7 57	6.51	2.64	140 0	43	243.447
ALPIN	3	7504	1 42	36 79	26 83	24 35	17 35	1143	7 96	6 16	4 43	3 46	2 42	ON	1600	61	301474
ALPIN	5	3742	1 55	43 64	42 29	4 ( 93	40 10	33 52	14 64	13 19	9 74	4 30	4 94	2 17	160 0	0 0	15	154 121
ALPIN	5	3743	1.54	43 67	41 4$	41.16	37.47	26 S1	14 44	10 55	7 55	4 31	5.41	1.44	140 0	0 0	23	154.714
ALPIN	5	3744	1 50	4177	40 40	34 44	34 12	25 97	14 50	9 40	6 45	5 53	4 54	1.54	160 0	0 0	31	1S4010
ALP>N	5	5745	1 57	37 72	34.10	35 65	35 64	34 04	25 67	10 77	6 95	5 45	4 51	1 41	160 0	0 0	26	155 640
ALPIN	9	3746	1 57	3744	34.72	3445	34 33	27 35	1550	4.44	4 07	4 49	4.13	1.07	1600	00	35	159774
ALPIN	6	3767	1 62	3444	3764	37 49	37 01	3117	17 24	10.44	7.06	5 44	5 02	1.44	140.0	0 0	71	15 1733
ALPIN	10	6046	1 54	40 94	36 10	32 96	25 01	16 33	12 96	10 73	6 40	7 30	6 16	1 30	160 0 6	244 045
ALP'S	10	6049	157	36 02	33 79	30 63	22 25	15 45	10 76	6 53	4 52	5 43	4 77	1 29	ISC 0	36	292 4*6
ALPIN	10	605C	1 63	35.43	32 17	24 52	20 47	14 51	9 72	7.27	5 14	4.51	3 76	1 21	160 0	40	279 313
ALPIN	10	4051	1 63	3241	31 44	25 23	1592	11 94	607	6.57	5.11	4 57	3 63	1 16	)600	&4	271 439
ALPIN	10	6052	1 64	32.70	31 05	29 46	2C 17	13 63	9 10	7.24	5.11	4 39	3 46	0 92	140 0	43	279 125
ANCLOTE	24	4935	1 45	42.07	40 40	34 11	28 92	22 32	17 99	1411	13 44	12 52	10 04	3 40	15 0	4 5	20	231 453
ANCIOTE	24	4934	1 42	31.45	31 42	31 21	20 13	13.79	44 1	7 10	4.14	5.44	3 44	0 99	15.0	4 5	34	244 919
ANCLOTE	24	4937	t 48	43 17	42 40	40 29	34 95	37 40	34 51	35 74	34 54	33 64	32 43	14 64	ISO	4 5	44	255 367
ANCLOTE	24	4434	1 40	34 47	34 44	35 25	33 02	29 98	27 51	24 03	23 62	22 44	20 59	9 42 15 0	4 5	101	242 404
APOPKA	12	1444	1.24	34 76	24 95	21 33	15.44	13 11	11 34	10 06	6.73	7.47	7 23	4 44	140 0	14	177 045
APOPKA	12	1445	1 43	37 20	36 14	35 62	23 46	11 00	7 26	5 44	4 30	3 54	3 24	2 20	140 0	43	162 303
APOPKA	12	1444	1 62	41.45	40 34	34 39	24 17	15 46	11 20	4 33	7 41	4 44	5 64	2 40	1400	41	177016
APOPKA	12	1497	( 53	32.53	31 16	2ft 42	24 02	2377	22 13	20 43	17 44	14.04	10 19	4.13	140.0	90	176446
APOPKA	12	1444	1 41	33 71	33 06	32 42	24 49	21 72	19 43	17 69	16 35	15*9	U 44	6 69	160 0	16	147 706
APOPKA	12	1444	1 44	34.17	34.21	37 57	34 72	34 44	33 04	31 79	30 55	24 44	26 27	16 10	140 0	31	130 614
APOPKA	12	1900	1.49	34.46	34 97	34 44	33 97	31 24	24 22	27 60	26 34	29 44	23.41	12.47	140 0	23	142044
ARENTS	94	4404	1 77	37 44	36 27	32 44	2S43	27 24	14 35	14 79	17 74	15 45	1541	12 14	150 0	3 0	35	243 903
ARENTS	04	4405	1 74	3228	30 54	24 12	24 44	1976	'504	14 00	12 95	11 42	11 02	4 04	150 0	3 0	13	243 617
ARENTS	44	4404	1 44	24 12	24 66	20 23	17 65	1543	12 34	1174	10 74	4 33	7 44	4 17	150 0	3 0	113	140 443
AAENTS	44	4424	1 45	3410	31 24	24.64	24.74	23,93	17.03	14 44	15 51	13 77	13 05	7.71	150.0	3.0	14	233 405
ARENTS	44	4825	1 74	3434	1413	32 02	24 19	26 46	24 47	23 40	21 46	20 34	14 44	14 90	150 0	3 0	4	222 470
ARENTS	m	4424	1 74	35 43	30 4?	24 ft	23 74	23 04	16 76	16 09	14 63	1331	12 65	4 43	150 0	3 0	7	146 943
AREHTS	44	4427	1.74	37 56	32 76	31.61	27.43	242*	22 21	21 21	14 36	17 61	17.23	12.42	150 0	3.0	4	215543
ARENAS	44	4424	1.74	32 21	30 56	26 12	21 64	14 76	15 44	14 40	12 45	11 42	1102	4 04	150 0	3.0	132	263 617
ARENTS	44	4424	1 44	26 12	24 46	20 23	17 46	15 43	12.34	1174	10 74	4 33	7.44	4 17	150 0	3 0	34	160.443
ARREDONDO	4	4444	1.52	42 26	36 42	35 44	34 24	25 23	14 33	15 56	12 43	11 67	to. 17	4 63	160 0	23	172 364
ARREDONDO	4	4447	1.95	42 24	34.40	37.41	30 44	20 97	15.41	12.35	10 06	6 61	7.60	3 43	160.0	43	166.516
ARREDONCO	4	4646	1 52	36 94	37 44	34 45	24 04	16 60	12 92	11 37	9 37	6 24	6.04	3 75	160 0	33	147.744
ARREDONDO	4	4494	1 54	36 24	34.74	35 44	35 70	25 32	2134	1636	1563	14 46	11.15	5 47	160 0	46	157407
ARREDONDO	4	4700	1 57	37 62	34 70	36 21	33.07	30 13	27.76	24 20	24 20	22 42	21 02	12.73	140.0	36	134.447
ARREDONDO	11	1411	144	40 11	3636	3637	32 46	23 44	1600	14.44	1227	10 40	4.41	3 73	160.0	0 0	20	140.665
ARREDONDO	11	1412	1 57	31 22	24 40	23 14	17 35	12 93	9 94	4 43	4 77	5 44	5 21	2 15	140 0	0 0	16	170 344
ARREDONDO	11	1413	1 55	34 14	33.04	32 43	16 55	11 54	7 91	4.44	4 44	4 32	3.75	1.46	140.0	0.0	66	173.454
ARREDONDO	11	1414	1 55	36 61	34 77	33 59	26 95	14 31	7 35	5 77	4 01	3 24	2 79	1 02	160 0	0 0	33	173 961
ARREDONOG	11	1415	1 63	3304	3233	31 40	27 75	23 19	16 76	15.32	11 44	9 49	6 43	4 43	160 0	0 0	20	145.462
H-3
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files


Wrttr
W«t«r
Soil
Soli
Soi
Soil
T4W6
tiM
Horizon
Parfcfr
Catrvor+ft
1Mb Omtty
SoJ W«t«r Gorton! (vsiuma %) 6t Indioatad Capillary Suction D«pth
Durvbon
Tfcehnou
Damater

No. m. &oc)
3.5 em 2D cm 30em 45 cm SOem 80cm 100cm 150em 200cm 333cm 15K cm (cm)
(mo.)
(cm)
(Mm)
ARREDONDO
tt
141#
1.67
M«
3336
33 S3
tft.1t
31.3D
26 01
77.4t
as. f7
23 72
21.10
10 64
160.0
0.0
16
153.066
ARREDONOO
11
141?
111
41 «
41.26
41 21
41 17
400
40 66
MM
*TM
M.61
M.67
1931
160 0
00
26
115 111
ARRE0ONDO
tt
1411
1 66
41 ft?
41 11
41.36
4V>0
40 96
40 »
MS*
MOt
$7 22
35 32
21 15
1600
0.0
51
143 064
ARflEDOTOO
16
MM
1.43
41 *
40.67
37.46
24.14
1913
16.42
147V
>262
12.40
11.23
4 66
160 0
0.0
23
201.643
AAREDOtOO
tt
6627
1.64
33 62
30 26
27 51
2066
1664
U <34
tt 68
t*S0
6 97
169
4 11
1600
00
33
207.373
AAftEDOOO
16
S02I
1 SO
36 17
34 39
26 45
17 23
12 7a
10 34
9 17
606
7 64
672
326
1M0
00
M
196 779
ARREDONDO
t«
6929
1.54
36 11
3447
30.23
21.13
16 57
1366
12 95
t1 56
fl.flS
6 M
4M
160.0
00
51
164 766
ARREDONDO
16
5630
1.61
33 67
33 00
30 90
27 43
24 66
22.66
2V40
20 06
19.24
17.71
6 16
1600
00
16
174.707
ARREDONDO
16
5931
1.61
34 90
33 66
33 16
32 51
31 60
31 17
3046
26 36
26 93
27 72
16 57
1600
00
43
174916
ARREDONDO
m
2407
153
MOO
36 23
36.00
39 03
16 72
13 03
11.14
6.45
652
744
343
1600

20
196 579
ARR£DONOO
m
2404
1 56
37 42
>7.20
37.61
37 54
14 26
10 73
956
7.M
6.60
5.90
2 60
160.0

56
195 966
ARREDONOO
66
3400
1 52
M 12
37 66
36 66
36 17
17 17
12 a
10 26
6 15
7.M
651
2 07
1600

45
203.369
ARREDONOO
66
2410
1 64
M.66
36.16
36 47
3621
24 20
22 22
20.M
16.09
16 03
16 04
7.79
160.0

13
166 365
ARREDONDO
M
2411
163
40 14
M.76
39 22
36 74
M 67
33 93
33 42
32 06
31.31
29.50
16 45
1600

25
161 471
ARREDONOO
M
2412
1 60
41 15
39 70
40 00
39 60
37 49
37 23
37 04
M 25
35 56
35 01
19 63
1600

21
147 432
ARREDONDO
66
2413
1 65
40.72
36 42
39 82
39 69
M.I5
36 01
37.41
36 33
36 06
36.71
20 96
160.0

35
153 166
ARREDONDO
M
2922
162
33 40
31.99
31 24
2ft 49
2326
17 35
14 27
10.00
6 11
6&2
2M
1600

20
175 250
ARREDONOO
64
2W3
1 63
32 47
30 29
2? 63
25 24
21 23
1661
13 «1
962
6 13
592
«7
1600

13
173 900
ARREDONOO
64
2924
1.M
31.29
26 33
26 1ft
22 22
1620
13 M
11 03
765
5.67
5.02
1.35
1600

10
173 630
ARREDONOO
M
zm
1 54
35 11
31.06
2ft ftl
23 56
16 06
13 77
11 01
7.41
6.01
506
0.87
1600

33
177 020
ARREDONOO
64
»2t
1 St
35 79
33 09
31 94
30 64
21 42
1594
11 66
665
523
444
063
1600

33
170 040
ARREOOfOC
U
292?
1.56
35 60
33 06
3164
26 97
26 54
24 06
22 47
20 42
1946
16 39
1051
1900

10
1M470
ARRE0O*>C
64
2B2*
1.63
34 JB
3265
3160
26 66
27.90
25 ft!
24 53
22 22
20.99
16 95
12 06
160 0

56
137 620
ARREDONOO
U
M2t
1 66
32 «2
31 ft5
2U33
27.76
25 56
23 29
21 75
19 60
1645
17 77
993
1600

M
155 470
astatuu
t
5411
1 56
39 11
16 43 V
tt 46
600
5 36
449
399
366
3 36
296
1.13
1600
00
20
353 667
astatuu
1
5412
1 61
37 53
17.81
11.52
7.31
5 76
463
4 31
366
350
319
1.21
160.0
0.0
64
334 565
A5TATULA
t
5-413
1.61
39 32
1751
6.90
564
4.79
4 16
3 *3
3 45
306
264
1.06
1600
00
63
333 496
ASTATUU
1
1414
1 60
40 73
16.76
6.31
$ 96
4 70
395
366
3 M
3 11
2 67
1.02
1600
00
56
314 961
astatula
4
706
143
40 04
37 69
35 59
30 7ft
»se
24 A8
23 27
21 76
20 11
16 06
2.03
160 0

10
171 735
astatula
A
707
I 42
43 78
42 13
36 65
21 41
1^ 43
6 33
6 92
5 72
506
436
1 06
160 0

15
171 664
ASTATULA
4
TO*
*..41
40 46
40 39
37 02
20 04
8 90
5 55
4 41
349
2 ftS
2.26
0 7ft
1600

31
170 962
ASTATULA
4
70ft
1.47
39 06
36 36
34 24
1ft 52
694
555
4 25
332
266
2.09
0.75
1600

48
174 993
AS TATVKA
4
710
1 4ft
3ft 29
M 12
37 25
2241
936
4 46
346
260
200
1 4ft
043
160 0

40
176276
astatula
4
711
1 46
36 46
39 30
36 76
18 62
7 29
422
3 37
251
1 91
1.27
0 40
160.0

67
177.369
astatuu
5
712
1 34
39.52
32 93
26 40
17 03
10 62
795
661
5.11
460
3 7ft
1.39
1600
00
5
163467
ASTATUU
5
713
1.40
4172
40 65
33 56
1560
ft ft2
596
4.91
3 69
330
253
0 71
1600
00
20
167 026
astatuu
5
714
1 34
37 91
36 73
36 54
21 77
6 03
599
553
495
444
394
056
160.0
00
41
167.763
astatuu
5
715
1 46
M 04
37 55
30 17
15 33
7 47
4 67
3 71
262
226
1 90
063
1600
00
66
191.150
ASTATUU
5
71#
1 47
37«0
37 22
35 03
21 6ft
760
4 59
3 70
2 91
231
1 75
0 S3
160 0
00
66
169 093
astatuu
S
717
1 46
36 52
39 09
32 81
16 76
763
469
3 61
2 69
234
209
046
1600
0-0
43
160 756
ASTATUU
6
646
1 46
36 71
34 47
31 36
22 59
19 56
17 13
15 15
11.85
6.79
49ft
226
1600
0.0
15
267 312

9
647
1 59
31 97
30 56
17 17
956
734
6 H
547
4M
4.77
391
1 Aft
1600
0.0
36
276 062
¦-IA
1
64ft
1 50
36 36
33 50
1174
ft 13
6 35
535
4 65
432
4 12
366
1 62
1600
00
51
273 965
ATUU
«
649
1 SI
35 91
35 16
1ft 66
805
6 07
500
446
3 67
3 71
337
1.75
160.0
0.0
50
261 101
^STATUU
6
65C
1.56
35.K
27 43
1126
602
7 16
• «
555
469
466
423
1.97
160.0
00
54
261 160
astatuu
11
3433
16
U3»
45*0
30 26
25 43
1641
14.61
1315
1147
10 97
972
300
1600

13
159 0)0
astatuu
11
MM
1 32
41 31
3201
27 41
19 15
1325
10 52
925
792
7.47
7.00
0.96
1600

23
157.505
astatuu
11
5435
1 40
M U
24*7
20 10
14 13
999
7.55
6.75
55ft
464
4.30
0.66
1600

43
160 266
astatuu
11
3436
1.34
39 08
MM
33 75
1669
11.65
*60
730
JIM
9.67
497
072
1600

61
156494
astatuu
11
3437
1.37
43 06
34 J?
35 37
21 37
13 66
10.55
fcto
776
7M
6.47
0»
1600

63
156135
astatuu
11
6604
I 40
43 06
39 OC
34 12
22 47
11.10
611
7 16
6 36
5.65
524
1.65
160.0

13
160 025
ASTATUU
11
wot
146
3»51
37 03
30 57
13 16
• 95
7 34
637
5.53
499
4.06
1.34
160 0

51
1M526
ASTATUU
11
•4 to
1 55
40 03
3ft 92
33 06
19 01
7 47
421
4.17
3 45
3.07
2 51
093
1900

111
191 *31
ASTATUU
11
Ml!
1 57
40 36
3632
29 40
1ft 79
6 19
462
460
3 70
3.30
2 66
066
1600

26
191.260
ASTATUU
M
4977
1 35
46 tO
43 13
42 49
39 14
24 74
1343
1003
7.62
7 10
5ft3
1 53
1600
00
10
1M064
ASTATUU
14
497ft
1 50
44 33
4301
41.40
34 92
23 76
13 24
10.01
7.65
865
437
0 05
1600
0.0
26
156 264
ASTATUU
14
4979
1 49
4I.M
40 36
39 97
29 40
17 13
6 76
706
555
460
3 37
0.73
160.0
0.0
63
155 072
ASTATUU
14
4960
1.56
37 JB
35 62
3549
M.2I
20.06
10 7|
694
477
4 13
2 73
060
1600
0.0
104
156 667
ASTATUU
1ft
5620
1.30
40. M
33 66
25 94
14 &5
10 15
764
636
495
451
399
1 00
160 0

15
165 9M
ASTATUU
1ft
5621
t 37
37 90
30 11
22 19
13 10
929
7 17
596
465
4.20
37ft
0.56
1600

15
160.606
ASTATUU
19
5622
1 4!
40 61
36 56
24 42
13 13
6.67
6 39
5.15
3 91
355
262
04ft
1600

15
164 416
ASTATUU
te
6623
1 43
36 54
37 97
26 40
13 03
7.57
529
4 M
330
291
269
050
160 0

15
160 344
ASTATUU
t«
S624
144
39.29
33 14
2C 33
11.69
706
537
455
359
322
300
042
1600

15
163 163
ASTATUU
21
5673
1 52
36 43
29 11
20 32
11.33
606
645
553
456
4 16
3.75
074
1600
00
16
271 764
ASTATUU
21
5674
1.55
32*
25 36
17.74
10.35
751
562
496
4 17
366
3.3*
066
160 0
0.0
73
264 205
AftTvruU
21
5675
1.49
36 40
32 11
tSftl
647
5 97
476
4 07
333
3 12
273
042
160 0
0.0
71
277 452
H-4
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files















Water
WfttV
Soil
Sot!
Soil


Soil











Tab*
Tab*
Horizon
Partiole
Component
Profi* Lab
Oorwrty


Sol W«tor Contort (volume %) ft Irxfectod Copiiorv Sudofi


Ooptt
0
c
1
Thtckrm*
Diamotor
Nun*
No.
No
i
I
3.5 em
20 err
30 cm
46 cm
60 cm
BO cm
100 am
150 cm
200 cm
333 cm
15K cm
(cm)
(mo.>
(cm)
Gun)
ASTATUU
81
M7«
1.91
04 45
29 93
1076
7-39
499
9.53
2.94
225
206
1.63
020
190.0
00
41
290 576
AS TA TULA
22
2114
1-29
30 59
27 92
23.97
19M
17 97
11.99
10 13
8 32
765
6 54
267
190.0
0.0
10
201.535
ASTATUU
22
2HS
1W
M 91
25 5J
X 32
14 40
14.06
929
7.05
597
542
459
134
190.0
00
51
193 909
AS'ATUU
22
211«
IU
34 72
34 00
38 07
1522
11 99
719
9.00
609
462
354
055
1900
00
104
191525
astatuu
22
211?
1 *)7
33 V
VLJ9
32 20
15 01
14 99
5A7
4 36
365
322
2.66
041
1900
00
51
197 906
ASTATUU
T04
MM
1.35
3029
29 59
14.9B
13 71
1040
IS)
7*7
091
642
562
1 63
0.0
00
7
259 693
ASTATUU
104
MS7
1.49
39 or
*71
2105
(219
932
7.40
9 40
9.13
5 53
4*2
155
0.0
00
29
261.572
ASTATUU
10«
MU
1.3©
36 71
30 25
20*1
11 09
IM
001
6 11
550
5 07
4 67
143
00
00
20
265 306
ASTATUU
104
5959
1 52
90 29
29 03
19.94
11 03
7 94
616
5.61
5 16
460
4.27
140
0.0
0.0
94
254 196
ASTATUU
104
MOO
1 57
35 12
30 51
1997
10 67
729
$70
5.17
453
4 22
363
1 49
0.0
0.0
93
252.316
ASTATUU
104
SMI
1.53
34.42
31.37
1904
10 72
7.55
560
S 32
494
440
372
1 19
0.0
00
• 1
2B3.091
ATMORE
39

1 31
49 09
45 36
44 27
42 92
40 99
36 19
35 72
3M3
27 93
23 56
9 31
150
30
15
179 QC1
ATVK*«
30
2129
1 52
99 99
37 57
39 97
29 49
29 75
24 15
22 40
19 99
16 23
1503
751
15.0
30
15
173 896
ATMORE
U
2630
1 59
39 19
32 33
29 35
25 65
23 24
20 79
1921
16 60
14.63
12 62
7.60
15.0
30
1!
176 2SS
ATMORE
39
2M1
1 56
37 4!
31 50
28 75
25 56
23 49
2161
2051
18 20
16 61
14 62
8.77
15.0
3.0
7
167 462
atuore
39
2632
IW
34 50
31 29
29 69
27 64
2049
2506
24 07
22 57
21 55
19 92
1267
150
30
19
172 066
ATMORE
30
2633
1 97
31 7S
29 06
27 64
25 02
23 24
21 90
20 64
19 05
17 75
15 76
7 65
150
30
69
173 554
ATMORE
39
2034
1 71
3253
30 20
29 29
26.31
27 63
27 02
20 79
2551
24 43
2241
14 06
150
30
66
166 915
BASINGER
6
0093
1 49
36 03
36 02
3751
33 69
27 56
23 25
1991
16.66
15.33
1301
6 02
;.5
45
13
177 506
BASINGER
e
0094
1.68
32 33
32 04
30 40
20 13
1399
9 73
569
359
343
294
1.60
75
45
43
177 761
5A SINGER
6
MOS
1 65
33 61
33 20
32 49
23 13
15 75
943
6 30
4 17
3 74
305
1 19
75
45
20
176 609
BA S'NGER
0
9096
1 96
35 67
35 43
35 0?
29 56
21 06
1093
7 54
5 11
4 52
3.50
0.97
7 5
4.5
61
177 639
BA3SGER
6
•097
199
30 08
35 69
35 49
31 74
22 03
941
620
396
3.77
3 43
1.97
75
45
06
160 124
BA SINGER
11
539
149
35 89
33 34
2594
12.73
7 72
562
5 29
4 89
444
4.00
2.72
150
45
6
265 299
BASINGER
11
S40
1 59
34 14
33 63',
27 96
21 30
17 50
1520
13 99
12 64
9 75
443
200
150
45
56
265 «6i
BASingER
II
541
1 02
31 37
30 63
20 05
1369
629
573
4 76
353
2 93
243
1 36
15 0
4.5
30
245 430
BASINGER
If
542
1 03
30 34
2967
29 14
17 03
11.77
794
654
5 15
4 42
363
1.52
150
4.5
16
247 109
BASINGER
II
543
1 00
3? 22
37 20
35 69
32 21
14 20
9 17
8 43
6 31
558
4.61
2.17
160
45
25
215673
BASINGER
11
U4
1.99
36 94
36 10
35 43
33 19
23 66
17 11
12 16
705
566
5.09
206
150
45
66
242 799
BASINGER
17
1044
1.29
47 69
42 73
36 56
33 77
30 44
27 91
25.46
23 45
20 63
12 75
4 61
75
45
9
187 646
BASINGER
17
104$
1 SO
36 20
36 99
35 35
24 60
15.66
10 76
969
696
607
521
242
75
45
12
192.135
BASINGER
1?
1949
1.39
45 47
44 62
41 41
35 56
22 96
17 12
1503
12 65
11 76
10 12
3 09
7 5
4 5
41
169 001
BASINGER
17
1647
1 03
37 06
36 22
36 17
27 9'
16 65
9 59
7 55
587
502
4 40
1 61
7 5
45
40
167 304
BASINGER
17
1048
1-95
36 44
35 99
35 24
26 69
16 K
9 12
663
5 15
4 31
429
1 42
7.5
45
102
199 661
BASINGER
17
6344
1 43
42 94
39.10
35 43
25 16
1727
1256
10 34
604
7 78
659
330
10 0
4 5
15
199.734
BASINGER
17
tMi
1 90
36 53
37 04
36 24
27 74
15 20
9 35
7.20
552
4 66
396
1 39
10.0
45
26
190042
BASINGER
17
0348
1 03
33 60
33.10
32 95
24 14
1561
10 74
6 23
6.03
5 19
4 17
041
10.0
45
12
190 297
BASINGER
17
0347
1 95
35 19
34.41
34.36
27 41
1951
13 30
1046
6.16
7 16
599
066
10.0
4 5
23
197.736
BASINGER
17
9341
t 72
35 39
33 75
33 65
3351
27 72
16 74
12.21
906
659
733
061
100
45
56
190 799
BASINGER
17
6349
1 06
34 6!
34 42
34 25
34 07
28 70
13 39
1001
6 13
720
623
1 21
100
4 5
25
171 069
BASINGER
17
«3«
f 77
32 ¦»«
32 06
31 93
31 05
3044
29 87
29 47
26 62
26 22
26 29
8 57
100
45
46
154 402
BA S'NGER
22
I1IJ
1 43
35 99
31 45
28 63
16 65
9 13
666
644
4 31
366
396
1 57
10.0
4 5
10
162 193
BASINGER
22
me
1 44
35 12
31 06
28 44
16 43
90?
6 S3
528
409
3.67
346
1 40
100
4 5
26
166 029
BASINGER
22
1117
1 U
34 96
30 60
27 43
15 36
9 28
621
432
3 76
302
2 67
1 73
too
4 5
26
196 065
BASINGER
22
1119
1 53
39 09
3224
29 67
16 71
959
6.97
5.99
422
3.77
347
1 22
10.0
45
10
161 994
BASINGER
22
1119
153
3999
3279
29 46
17 49
921
655
552
396
312
266
1.07
10.0
4.S
17
190267
BASINGER
22
! <20
1 55
36 24
3««6
26 76
16.33
9 15
621
5 12
3 13
244
2 24
0 76
100
45
21
161 065
BASINGER
22
1121
ISO
34 m
30 32
27 13
U «9
754
506
4 64
296
2 13
1 97
0 73
100
45
91
181 919
BASINGER
29
IW
1.20
47 49
41 71
39 39
39 65
96 03
3004
3*29
29 73
26 72
23 60
7.66
75
4.5
15
115 579
BASINGER
a
2009
150
37 75
» 10
3» 77
14 OT
99?
742
632
536
507
441
261
75
4.9
•
254 779
6A&NGER
29
M7
1.59
36 24
35 26
31.76
19 51
1452
12 52
11 41
9 97
933
956
1 42
75
45
15
255 920
BASINGER
N
2009
1 59
37 69
35 09
33 00
27 46
24 22
21 66
19 67
16 51
1522
13.44
3.06
75
4.5
39
246 994
BASINGER
29
2009
1 05
39 35
35 92
34.40
2603
20.57
15 55
1373
11 41
10 65
9.00
3.47
75
4.5
25
247 090
BASINGER
29
2090
1.71
39 40
33 28
32 47
>0 60
26 96
27 04
26 60
20 02
23 66
21.36
636
76
4.5
20
224 961
BASINGER
29
2091
1 71
30 60
32 04
31 17
30 06
28 61
27 97
26 96
25 07
23 69
21 46
7 63
75
4 5
31
216613
BASINGER
29
2092
1 49
42 36
35 40
32.50
26 66
23 26
20 27
1641
16 17
1501
13.90
7.52
75
4.5
53
196.200
BAWl
1
4349
1.50
42 50
40.11
39 59
35 92
31 99
26 06
25.90
2251
20 73
176!
332
180
60
20
312 665
BA*V1
1
4350
1 S3
36 61
36 42
32 90
27 50
23 97
21 65
19 99
19 79
1695
1490
296
150
60
51
363 416
BAYVl
9
4351
1.51
41 61
36 72
37.40
33.79
30 32
27 67
24 69
23 64
2245
1691
305
15.0
6.0
51
313.391
RAYVI
9
4352
1 52
42 77
402!
39.79
36 21
32 22
29 11
27.07
25 36
24 66
19 46
4.01
ISO
60
43
304.939
BAYV
•
A3 S3
1.54
41 97
39 33
39 96
34 74
31 68
26 44
2590
24 60
23 53
17.96
3 65
150
60
36
326 723
BESNOALE
12
1419
1.46
36 19
30.67
34 62
31 33
26.6S
20 69
15.9!
H.Ot
922
7.43
256
1950
25
•
109 396
BENNOALE
12
1420
1.49
39 54
39 54
39 90
39 21
29 99
20 01
1420
900
745
599
1 65
1960
25
29
112 970
bennoale
12
1421
1 46
39 29
36 60
36 39
35 03
25 31
16 60
11.97
7.26
6 14
4 43
1 39
195 0
25
26
114 523
BENNOALE
12
1422
1 51
36 17
35 77
33 61
30 25
22 99
16 01
1202
7.29
560
436
1 33
1950
25
36
114 290
BENNOALE
12
1423
1 59
35.29
34 65
34 79
34 07
31 6?
23 51
15.79
8 45
4 50
3 40
1 24
1950
25
61
113 996








H-5









-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATS GO Data Files















Wafer
Water
Sotl
Soft
Soi


So«











Tab*
Tabta
Horizon

Component
Prof** Ub
Omvty


So* Wat* Contort (volurr* %) at Indicated CatH^fY Suction


D6pth
Duration
Thicfcn666
Diarrwte
Nam*
No.
No.
igfec)
3.5 Cfn
20 cm
30 cm
45 om
60 cm
BO cm
100 cm
150 cm
200 cm
333 cm
15* cm
{cm}
(mo.)

KWCAtf
ta
14*
1 57
36.46
34 03
36 44
34 64
36.31
>1.47
1470
7.40
5.14
3 71
100
165.0
25
16
113.903
BCWDAL£
12
1425
1 78
42 17
3149
31 40
31 51
31 36
31.20
30 10
24.92
25 00
21 46
674
196.0
25
10
65153
KNNDAl£
12
1429
1 66
64 81
34 35
34 31
32 75
32 25
31 72
31 01
29 41
27 65
26 36
12 57
1950
25
41
62 047
sme
16
4294
1-56
38®
37.12
35.66
34 12
33 25
32 41
32 32
31.79
30 96
30 97
3067
7.5
2.5
17
135 KU
UBB
14
4265
1.60
37.71
34 24
34 23
3344
32 53
31 16
31.07
30 44
30.16
30 07
26 42
7.5
2.S
31
138 476
•IBB
14
426#
1.56
3464
34 06
34 11
32 94
32 22
3109
30.76
30 22
24 99
26 76
26 29
7.5
25
51
124 405
&iee
10
42«7
1 62
37 56
34 11
34 14
33 33
32 46
31 13
30.96
30 44
30 05
29 95
2921
7.8
25
20
176 445
wee
11
43M
v«
36 09
34.44
34 95
34 43
33 09
31 44
31 47
31.06
30 43
30 43
30 43
75
2.5
43
239 944
BttB
16
42*6
1 66
>4 4ft
3109
19 44
10 22
6.32
744
7 11
4 12
SM
501
251
7.5
2.5
33
434 422
BfiBEE

6623
1 25
44 47
44 11
43 60
34 01
32 TS
25 49
2071
1534
1349
10 56
206
1423
16
18
133 571
B*GB€E
t
«92*
147
49 05
44 913
44 44
42 49
40.14
24»4
2011
13.40
11.35
625
1 35
142 5
1.5
6
134 093
VQBEE
11
4425
140
46 62
45 86
46 57
42 16
34 66
22 03
17 33
1204
10 16
750
1.04
142.5
1.5
33
127 367
BIGfiEE
11
6626
<40
44.01
43 13
42 90
39 40
26 24
17 Si
13 34
9.14
7.6?
643
0.76
142 5
1.6
46
127 463
B*GB€E
11
6627
144
43 81
41 49
41 11
40 S3
32 38
22 40
17.06
10 79
4 79
6 16
056
142 5
1 5
27
120 464
BK»B€E
11
6628
142
36 36
35 03
35 79
35.62
3544
30 93
23 05
11 49
441
550
0.43
142 5
1.5
74
120 142
BISCAYNE
1
4532
*.0fl
54 93
5564
54 82
54 04
52 91
52 44
52 34
51 29
50.81
80 It
630
300
2.0
20
24 019
BISCAYNE
1
asaa
1 12
57 34
56 18
55 10
54 66
54 17
53 94
53 64
53 33
53 04
52 44
4.24
300
2.0
16
10 173
biscayne
2
6534
1 02
57 81
56 03
55 43
54 62
54.07
53 54
52 93
52 43
51 09
SO 65
56?
30 0
2.0
20
24 040
BISCAYNE
2
#535
1 06
54 22
55 45
53 87
5307
52 44
52 01
5164
SI 03
50 43
44.64
566
300
20
16
24525
BISCAYNE
3
*37
0.07
57 SI
47 99
44 23
42 54
40 49
39 94
39 34
34 13
37 04
36 44
7.69
M0
2.0
20
77 654
BLANTON
1
5626
1 10
42 18
30 69
25 92
19 36
14 71
12 13
10 59
804
6 21
749
237
165 0
25
15
153 160
buknton
1
5630
1 42
42 25
39 17
35 53
23 91
1394
944
602
4 18
554
4 46
0 40
165 0
2.5
36
144 760
BLANTON
1
5631
1 36
44 03
42 44
41.45
26 47
17.*
1275
1061
900
629
755
063
16$ 0
25
64
150 ?10
blanton
1
5632
1.44
39 46
36 53
31 74
17 35
11 57
469
6 70
5 07
441
356
059
1650
2.5
30
149 370
BLANTON
1
5633
1 67
34 55
33 7H
33 34
32 71
32 24
31 91
31 23
30 74
30 13
26 69
13.39
165 0
2 5
56
109 460
BLANTON
2
4471
1 22
51 42
46 45
41.64
31.46
21 76
1442
13 97
11 40
10 62
692
4.04
1500
2.0
23
173 441
BLANTON
2
4476
1 54
37 82
35 95
34 62
24 15
19 47
1409
11 30
902
804
650
299
150.0
20
13
170 141
BLANTON
2
4460
1 45
41 25
4049
36 64
26 22
18 24
13 49
11.12
493
604
6 54
294
1500
20
17
177 S43
BLANTON
2
4411
1.49
39.14
37 93
36 04
24 33
16 13
11 64
9 44
7 49
6 6$
542
235
15C0
20
15
173.444
BLANTON
2
4482
1 50
4C 84
34 96
36 47
23 99
1661
1! 99
995
7 62
694
594
2 27
1500
20
34
144 064
BLANTON
2
4463
1 54
36 46
37 31
36 55
25 69
17 19
11 07
459
650
5 76
4 71
93
1500
20
35
197 300
BLANTON
2
4484
1 52
34 57
37 64
35 78
30 24
20 36
1259
900
4.34
556
4 45
05
1500
20
31
163 187
BLANTON
2
4415
1.71
34 54
36.34
3576
33 60
31 54
29 33
27 34
24.30
2241
19.00
7 97
1500
20
20
163 469
BLANTON
2
4466
1 68
34 44
35 24
34 60
32 85
30 49
29 19
27 45
25 49
23 64
20 04
10 10
1500
20
15
151 617
BLANTON
9
3772
1 43
47 40
46 11
45 71
42 62
34 61
21 26
15 10
10 65
923
7 79
299
1500
20
16
149 024
BLANTON
3
3773
1.50
43 04
41 99
41 55
37 33
23 19
13 56
947
644
5.33
443
126
1500
20
76
144 775
BLANTON
3
3774
1 62
34 52
34 44
33 97
3361
33 39
23 30
1349
740
663
454
12
1500
20
34
146.716
BLANTON
a
3775
1 75
35 29
34 60
34 04
33 65
31 26
28 67
26 92
25 04
24 01
22 21
11 62
1500
20
25
119330
BLANTON
3
3778
1 78
33 63
33 40
33 15
32 60
32 04
30 60
29 22
27 15
2574
23 06
13.32
1500
20
13
117.509
BLANTON
3
3777
1 83
32 64
3V64
31 76
31 45
31.27
30 57
29 04
28 12
24 64
23 15
It 40
1500
2.0
33
11)441
BLANTON
3
6643
1 54
34.92
34 78
36 77
33 01
27 43
20 20
17 45
13.49
11 93
947
2 74
1500
20
23
190.693
BLANTON
3
6644
1 58
37 25
36 83
36 56
30 17
21 80
14 95
1240
9 12
7 69
640
63
1500
20
64
191 904
BLANTON
3
6645
i ei
34 51
36 34
38 06
25 61
1444
12 59
10 47
761
653
522
1 36
1500
2.0
14
193 004
BLANTON
3
6644
1 62
34.04
35 79
3163
22 63
1603
15 0?
13 72
1096
961
612
3.34
1500
2.0
15
179 379
BLANTON
3
6647
165
35 42
34 31
32 57
30 14
29 05
26.04
27 49
25 24
23 76
21 25
10 92
1500
20
33
146 341
BLANTON
3
6646
1 51
34.17
37 21
36 53
34 12
33 46
33 36
33 02
32.39
3V64
30.11
19 96
1500
20
33
127 763
BLANTON
3
6449
1 64
37 47
37 22
3631
35 45
35 32
35 00
34 69
34 14
33 42
32.29
2374
1500
2.0
15
134 313
BLANTON
3
42 U
1 50
34 90
28 60
22 27
16 43
1341
11 7C
10 47
923
650
746
256
1500
2.0
10
159 044
BLANTON
3
6215
I 63
33 81
30 41
25 06
17.5}
14 30
12 62
11 26
977
902
6.13
2.64
1500
20
15
154 36?
BLANTON
3
6216
*63
33.40
30 77
2140
U 90
11.63
10 20
901
7 70
705
6.42
2.46
1500
2.0
46
162 614
BLANTON
3
6217
1 64
3302
3011
21 *7
1432
11.22
996
ISO
733
664
5.90
2.41
1500
2.0
34
152 634
BLANTON
3
6218
f 62
S3 84
3* 15
7* 94
«523
12 23
10 64
4.51
789
726
664
2 44
150 0
2.0
30
159 644
BLANTON
3
82(9
1 84
37 04
35 46
» 11
28 64
25»
at 41
24 23
23 53
21 11
19 02
753
1500
2:0
41
132 475
BLANTON
a
•229
167
39 M
34 91
3481
29 63
26 66
25 46
25 32
24 49
22 00
20.56
962
150 0
2.0
14
117 315
BLANTON
a
6221
1.70
3931
34 43
34 33
29 11
26 96
25 12
24 74
24 04
2109
19.70
9.26
150 0
2.0
7
131 141
BLANTON
3
6263
1 41
40.86
34 44
33 69
24.73
24 02
20.22
16 16
IS 54
14 10
11 67
366
150 0
2.0
20
217 337
BLANTON
s
6204
1 59
34 45
37 60
31 94
1954
14 66
11 63
1044
644
406
6 79
1 94
150.0
20
34
219 559
BLANTON
5
6295
1.72
30 04
29 29
25 63
22.19
1917
1494
12.21
695
7 72
435
1.46
1500
2.0
92
215963
BLANTON
8
6206
1.77
27 80
24 04
23 53
20 IS
18 03
1455
12 35
961
6.41
471
1 17
1800
20
35
201.700
BLANTON
5
6297
1 62
27 04
26 91
25 12
23 69
22 37
21 03
20 11
16 67
17 61
14 42
6 10
1500
20
18
166 527
BLANTON
7
2299
1.52
4209
34 72
37.03
3363
27 04
18 63
1522
12.09
10 64
9 35
382
1500
20
16
17K371
BLANTON
7
2300
1.61
37 03
3401
33 13
31 04
25 17
16 77
1336
10 40
666
615
2 79
1500
20
26
167 163
BLANTON
7
2301
1 59
41 27
36 74
36 06
15 37
27 61
18 94
1390
1032
692
7 19
240
150 0
20
30
162 046
BLANTON
7
2302
1.54
41 36
39 44
39.36
35 39
25 76
16.95
1343
10 62
9 74
641
205
1500
20
23
177 212
BLANTON
7
2303
1 55
40.62
36 19
36 34
3431
24 89
17 73
14.37
11.69
1059
959
1 75
1500
20
33
176 664
BLANTON
7
2304
1 74
32 49
32 06
31 37
30 69
29 03
27 64
26.22
2440
23.06
20 93
11 97
150.0
20
25
131 436
H-6
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files



Wafer
Water
Soil
Soi:
Soi
Soli

Tito*
Tab*«
Horizon
Pan»c*e
Component
Proffo Lab Denwty
Soi Wirier Content (volume %} M Indicated Capitofy Suction
Depth
Ouratofl
ThickrM99
Diamettr
Name
No. Ha (tfcc)
Ifiom 20cm 30 cm 45 om 60am 60cm 100cm ISO cm 200cm 333cm
15K om (cm)
(mo.)
(crr$
(itm)
•CANTON
BUNTON
BOM TOM
BLANTON
BLANTON
BUNTON
BUNTON
BUTTON
BUNTON
BUNTON
BUNTON
BLANTON
BUNTON
BLANTON
BLANTON
BUNTON
BLANTON
BLANTON
BLANTON
BLANTON
BLANTON
BLANTON
BLANTON
BUNTON
BLANTON
BUNTON
BLANTON
BLANTON
BLANTON
BUNTON
BLANTON
BUNTON
BLANTON
BUNTON
BLANTON
BLANTON
BLANTON
BLANTON
BLANTON
BUNTON
BUNTON
BUNTON
BUNTON
BUNTON
BUNTON
BUNTON
BUNTON
BUNTON
BUNTON
BUNTON
BUNTON
BUNTON
BLANTON
BUNTON
BLANTON
BLANTON
BUNTON
BUNTON
BUNTON
BUNTON
BUNTON
BUNTON
BUNTON
BUNTON
BUNTON
UN^ON
12
12
12
12
12
15
13
IS
15
15
17
17
17
17
17
17
17
17
ai
21
2t
21
21
21
21
24
24
24
24
U
27
27
27
27
27
12
32
32
32
2306
2306
5992
am
M24
5925
77»
7730
7731
7732
7713
7734
1065
MM
3067
•066
#069
77*2
77 43
7744
7745
7746
7747
7748
7312
7313
TJU
73t5
73*6
7347
7346
7346
7350
7351
4674
4675
4676
4877
4676
4679
4660
4661
5014
6016
9016
5017
9016
9016
5020
6116
6116
6120
6121
6122
6043
6946
6647
6046
6M8
6671
•672
6873
6674
ITS
166
ISO
16)
1.73
1 67
156
1 55
1 50
1.54
i ae
1 76
1.41
1 56
1 72
1 77
1 62
1 46
1 60
1 53
1 60
1 85
I 70
1 67
1 47
1 63
157
1 75
1 79
155
1 59
1 63
1 60
1.67
1 40
143
1.46
1 55
1 57
1.66
1 M
1 65
1 50
1 67
S «3
1 69
1.75
1 75
175
1.41
159
1 72
1 77
1 62
1 45
1 43
1.50
1 56
I 72
t 29
1 40
141
I 70
35	1?
MM
36	60
33 61
33 40
aoa
36 «
27 21
31	64
36 44
36 61
36	01
37	06
33	00
3C 76
40	66
36 66
30 06
27 90
27 M
44 96
36	56
36-29
34	79
32	63
31.61
37	24
42 H
36.77
36 15
33	93
33	10
36 63
39 54
41	S3
35	50
34	63
42	66
42	35
35	29
34	33
35	96
36	32
35	16
36	42
41 31
36 45
36.12
36	17
33 39
32	M
33	34
4C.65
34	66
30 06
27 90
27.M
41 04
43	M
3747
37	69
33 00
50.44
41 9<
41 75
32 64
34	50
36 36
26	60
30 41
30	77
24 63
MSB
MM
27	ft
35.90
36	03
37	56
3642
3261
30.70
36 66
37.60
29 29
26 09
26 91
44 10
M57
36	63
33 90
31	66>.
31	25
37	20
42 07
56 71
35	65
33	77
32	99
37 15
37 22
37 46
34	07
32 19
41 03
40	99
29 66
32	23
35	02
35 47
33	66
35	12
39 75
34	24
34	rr
34.07
32	65
33	10
36	66
37	60
29 29
26 09
29.61
3947
37 36
35.29
35	62
31	66
4935
41	85
36	51
32	39
34	43
36 00
22	27
23	06
21 40
»S<
3J.11
XX
2161
35	56
33 46
30 06
30	24
29 36
29 90
33	69
3V94
25 63
23	S3
25	12
40 66
34	49
36	59
31	00
30.11
29	95
35	61
42 56
36	56
35	72
33	63
32	95
34	63
27 69
27 35
26	64
31	52
38 36
36	99
24	54
32	04
34.16
33	97
31	is
33	90
36	32
33.30
34	96
32.90
3247
32	26
32	72
33	69
31 94
25	63
23 53
25 12
37	79
33 44
33 07
30	33
31	16
46 00
41 28
37 66
32	17
34 01
37 91
16 43
1751
uao
16	65
2*31
19	43
17	03
2604
16.76
16 99
'9 *2
22 79
26 44
26	73
1956
22 19
20	05
2369
31 93
27	36
22 66
2171
26 12
26	36
33 67
41 tO
37 99
31	32
33 19
32	94
25	36
14 67
14 06
1660
30	14
27	67
26	40
19	11
20	20
19	96
20	43
27	03
32.52
37.11
31	01
3147
3ft 50
30	M
32.0*
31	90
26 73
19.96
22	19
20 65
23	69
26 3C
23 71
25	51
19 81
26	65
42 M
40.26
37 42
31 60
33	79
36.00
13	41
14.30
\\m
14	92
M 07
179C
1566
1606
11 S3
11	26
12	92
17 63
27 31
24	02
14	66
19 17
16 03
22 37
19	77
15	26
13	2?
14	76
22 81
26 60
32 26
36 10
32 43
20	59
31	72
32	90
1383
959
9 10
1072
26	26
21	57
1956
15	66
M 06
15	06
14 62
25	16
30	90
34	92
27	61
26	69
31	50
309
3196
31 72
24Q2
14 66
19 17
1603
22	37
16	26
16 82
17.17
1254
26 63
33.62
36.04
34 15
26 60
33 76
$4 36
11.70
1293
V02D
1349
JM 66
16	41
14 66
11.07
630
799
9 99
1344
25 76
20 22
11.63
14 99
14 55
2103
13	56
994
6	75
1066
20 44
25 07
3C 85
25	K
20 60
14	36
30	64
32 82
963
694
5 74
7	13
26	24
17	35
1536
1353
11 59
1245
11 52
23 46
29 74
31	93
23	22
1656
20 33
29 M
3163
31 13
20	22
11	63
14 99
14 55
21	03
12	22
12 52
11 20
664
24	63
23	15
24	29
20 90
26 34
33 33
33 77
10 47
tf.29
901
12	90
2371
1557
13	56
9 15
694
677
632
1129
2476
16 15
10	46
1221
12.35
20 11
11	34
6 11
6.61
9 17
1966
23 62
30 04
19 97
14	13
1066
27 16
32 01
766
577
4	34
5	74
23 91
1504
13	21
12	00
948
11	16
10	36
22	46
29	06
27.11
17.50
12.66
14	46
77 94
3101
30	60
16.15
10.46
12	21
1235
20.11
10.14
1056
6	07
7	35
23	46
16 09
1603
11	67
25 14
33 03
31 41
9.23
677
1 71>
11	33
22 55
14 64
12	69
726
6.49
536
666
695
23.01
1556
664
695
961
16	67
9 13
643
5	12
7.36
1666
21 60
26	73
13.77
9 25
7.37
25 25
31 47
9.09
4.96
3 14
454
21	40
1234
10.26
995
7 43
9 14
6*4
20 76
27	74
17	63
12	13
926
900
25 32
29.76
29 96
1556
664
695
961
16.67
6.20
6.62
6	95
600
21.11
13	70
11.34
726
22	96
32 39
29.66
690
9.02
706
10.51
21 71
14 16
1200
647
4.64
4	72
6	16
7	7«
21 62
14 10
606
7 72
841
1781
6 19
5	69
4 M
6	59
1526
20 14
27 73
11 17
766
6 07
23 99
31 05
545
401
2 72
400
20.15
11 24
926
922
6 66
655
6	10
20	26
27 31
16 22
10.32
606
740
2378
26.90
29 24
14 10
906
7	72
641
17.61
734
790
927
547
19.62
1202
9.76
562
21	92
30 49
26 75
746
9.13
942
935
20	62
13.53
>094
549
4.03
393
629
641
19.52
11 67
6.79
635
671
1642
682
4	75
346
565
13 27
16 17
22 96
9 41
5	74
430
21	46
30 00
4 76
3.39
2 15
333
16 52
9 16
755
7.67
530
749
709
19 27
26	19
1279
7.67
6.21
553
20.77
27	23
27 60
11 67
679
635
671
16 42
606
659
5.16
441
16 92
966
792
423
19 64
20.16	1600
15 M	150 0
2-56	1900
2.94	1500
246	1500
292	150 0
9.00	150 0
4.66	150.0
356	1900
1.39	1500
1.27	1500
1.49	1500
2.37	150 0
2.92	150 0
10 96	150 0
3.66	190 0
1.94	1 90 0
1 46	1500
1 17	1500
610	150.0
1 66	150.0
1	23	150 0
017	150 0
2	56	150 0
7 79	150.0
10 95	150.0
14	66	150 0
3	26	150 0
130	150 0
0 77	150 0
1060	1S0.0
15	19	1500
0 76	150 0
0 92	150 0
0 20	1500
0	32	1500
9.92	150 0
2.79	150 0
2-29	150 0
2.25	150 0
1	74	150 0
2.56	150 0
2.51	190 0
9 66	15C.0
13 60	150 0
3.36	150 0
1.59	ISC.O
117	1600
1 22	150 0
6 67	150 0
1146	150 0
13 39	150 0
366	1500
194	160.0
1 46	1500
117	1500
610	1500
167	1600
250	1500
2.03	150 0
1 79	150 0
6 62	150 0
4 19	1500
231	150.0
0.73	150 0
29
20
2.0
2.0
20
2.0
20
2.0
20
20
2.0
20
20
2.0
2.0
2.0
20
20
20
20
20
20
20
20
20
ZO
20
20
20
20
20
20
20
2.0
2.0
20
20
20
2.0
2.0
20
20
2.0
20
20
20
2.0
20
20
20
2.0
20
20
20
20
20
20
2.0
20
20
20
20
2.0
2.0
2.0
2.0
20
36
26
26
45
26
16
20
33
49
39
45
16
18
46
66
31
20
18
46
43
31
20
13
30
15
59
36
40
51
15
64
76
26
20
10
10
31
30
36
33
6
43
16
26
39
12
19
42
49
27
96
30
64
41
40
26
15
41
114 364
91966
296 006
294	139
270 094
274.695
263	175
269 475
264	740
173 993
175221
176 190
196	796
166 270
139 212
342574
314731
370 949
327 943
295	014
175	063
176	437
172523
166 675
163	175
143 931
119 602
161 628
152 946
164	475
129 627
118 154
223 673
232	691
228 622
243 965
206	133
202 100
197	70S
201.033
196	893
199 662
199 462
176 663
169 045
163 632
179 147
191.779
197	629
174.615
149.445
191 498
305.363
362.031
327.921
299 206
320.418
245 679
236411
233	666
235 306
207	946
125 099
129 521
136 762
104 917
H-7
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files
Wttor Water	Sod	Soil
Sod Soil Tabto T«Hon'zon	Parfeto
Cotveoof* Profit Dtfttily So* Waif Conttnt (volumg %) « Inaoattd C6p2
•w8
183
BUTTON
34
4788
128
BUWTON
34
4700
1.BB
BLANTO*
34
4790
1 41
dLAHlQH
34
4791
1 48
BUNION
>4
4792
149
BLANTON
34
4793
1 66
BLANTON
34
4794
1 86
BLANTON
34
4795
1 74
BUCKTON
9
1>67
Ml
BUCKTON
9
1398
1 62
BUCKTON
9
1398
1 5»
BUCKTON
9
1400
165
BUCKTON
9
1401
4 67
BuCWTON
9
1402
1 80
BUCHTON
9
1403
1 28
BUCHTON
96
4558
1 62
BUCHTON
98
4566
1 68
iUCNTON
98
4580
1 88
BUCHTON
96
4581
1 47
BUCKTON
96
4582
1.55
BUCKTON
98
4563
1.77
BOAAG4Uh

723
1 58
BOAROMAh

724
1 50
9QARDMA.N

725
1 52
BOAROMAN

728
1 46
BOAACUAN

Til
1*2
BOARDMAN

728
1 41
BOAftCtiAN

729
1.36
BOCA
1
4424
148
BOCA
1
4425
1 60
BOCA
1
4426
1 59
BOCA
1
442?
1 61
BOCA
1
7431
I 30
BOCA
1
7432
t 47
BOCA
1
7433
148
BOCA
1
7434
1 35
BOCA
16
5599
» 1C
BOCA
16
5800
t 53
BOCA
18
5801
1 57
BOCA
16
6802
1 66
BOCA
16
5603
1 63
BOCA
24
1129
1.21
BOCA
24
1130
1.58
BOCA
24
1131
1 58
BOCA
24
1132
1 48
BOHICKET
45
2665
143
bomcket
45
2688
1 50
BOHtCKFT
45
2887
1 59
BONNEAU
1
3756
1 44
BONNEAU
1
3759
1 56
BONNEAU
1
3760
1 64
BONNEAU
1
3781
t.70
BONNEAU
1
3782
t 73
BONNEAU
1
3763
1 62
BONNEAU
1
3764
\ 55
BONNEAU
1
3765
192
BONNEAU
13
4241
1 46
BONNEAU
13
4242
1 49
BONNEAU
13
4243
« 65
BONNEAU
13
4244
1.50
BONNEAU
13
4245
1 53
BONNEAU
13
4248
1.63
BONNEAU
13
4247
1 55
BONNEAU
95
4248
1 57
m.w
urn
47.53
tin
4? 4?
30	M
>6.11
12*4
-U®
41 42
32 78
53	47
36 91
36 11
43 S3
50 2C
34	66
31	87
32	36
41 03
41 15
35	et
36	45
34.57
MM
30.31
30«s
40	68
41	03
41 26
35 71
32	80
3857
SO 81
43	'7
38 48
48 47
54	34
37	88
38	47
34 88
38 03
41 »
33	52
31 56
41	72
48 88
44	42
*0.4"
43	'9
3815
38 V
38 81
38 78
44	00
44.78
42	88
42	g?
43	88
34.10
40.70
38 25
37	8*
38	28
38 00
88 40
88 83
42«
42.32
40 n
*84
>8 80
3t_2>
33 84
11)1
38 12
32	74
52 88
38	21
39	72
42 88
55 92
29	35
28.75
30	93
40	58
38 97
35 47
37 88
37 01 4
37	88
38	89
30	08
40 12
40 87
33	92
31	30
29 50
35 30
48 28
38 95
35	22
48 21
5053
38 15
3371
32	68
36	85
34	II
31 ?4
29 47
40 82
48 25
40 90
38 86
40 15
3807
36	88
35	30
37	28
42.40
43 28
40	38
41	60
42	07
33	28
37	08
38	75
38 38
38 94
37 70
38 24
>7 87
>3 80
34.72
38 03
38 38
2948
31	38
» U
37	10
32	08
52 88
38	09
36*4
42 48
55 70
24	53
25	87
28 92
39	81
38.70
34.42
37	12
38	75
37	05
38	24
38	88
39	88
40	37
28 58
26	88
21 99
3381
44 4!
30	59
32 83
44 $8
47	62
32	88
3C67
31	97
36	45
28 38
21 38
18 24
40.74
48	19
40 S2
3879
37.44
Xf 43
34	55
*4 63
37	18
42	31
43	25
39	94
40	76
41	95
33	02
35	08
35 98
35 92
38	78
37 05
38 79
38	75
12	70
3440
21 19
32 42
21	18
28 93
MS*
29.12
>0 04
5271
37	92
39	09
42 36
55 24
1748
18.12
22	12
38	S3
38 94
34.04
38 53
38 18
38 89
37	58
38	24
>9 04
39	48
13	58
11 93
10 14
32	82
30 78
21 77
20	47
42	22
43	03
2140
J 8 72
25 94
38 08
21	38
10 80
97*
40	50
45.88
40	33
35 12
252«
19 88
23 28
3288
38 57
41	M
4267
M 80
40	28
41	85
3271
33	01
34	40
34 55
38 89
28 89
84 80
36	94
17J1
18.82
15 31
>5 51
IS. 48
17 fi
sat
Z?.K>
24 15
27 72
52.01
37	23
38	94
42 31
5S 07
1506
1556
1953
37	56
38	42
32 53
35 67
35 88
38 42
37 07
37	58
38	M
38	69
894
7	83
8	59
31 29
10 32
1279
998
4087
3903
1388
1030
1575
35 47
1785
741
6 14
39	97
45 »
38 40
28	42
\rm
V4 34
1131
31	82
38	22
41	90
42	36
39	1!
38 01
41.07
32	58
29	70
32	09
33	44
37 51
18.76
33.54
>5 22
1378
14	59
\\72
11 94
f04l
15	«
*4 41
28 90
20.42
24 13
47 15
37.00
38 78
42 10
54 89
12.74
1331
19 76
38 07
37.97
32	28
33	50
33	78
34	02
34 41
34	75
35	31
35 96
6 97
5 73
494
30	11
13	84
688
9 76
38 83
38 06
10 39
7.38
10 62
>4 it
14	95
5."3
428
3911
45 22
38 31
23 74
13 48
10*6
10 98
JO 49
35 80
41	74
42	as
383!
25 54
31	22
30	85
28 20
30.80
31	75
37 03
1384
>2 88
>4 85
11.87
12.70
10	04
10.22
134
1384
2>88
3815
1198
21 97
44 55
>8 80
38 58
42 01
54 65
11	87
1264
15.74
38 35
37 48
31.74
33 33
33 51
33	98
34.23
34	51
>5.07
35	80
585
458
394
28 74
11 64
695
5 76
37	15
34 72
9 74
505
9 19
32 64
t3 82
532
393
38	89
44 M
34 87
21 89
tt 19
921
8 00
27.88
34*7
41 57
41 51
3744
1921
17 89
2010
21 80
24 83
30 82
38 78
11 64
31.31
>3 10
988
1045
8 22
IZ*
8.23
12 46
22 46
34.05
18 87
18 87
40	90
>6 28
3821
41	84
54 20
10	78
11	34
14 42
35 07
38 64
31	40
32	88
33	02
33 57
33	69
34	08
>4 83
>4 85
509
3 74
>11
27.20
10.13
822
4.37
33 36
31.94
741
5 OS
709
30 06
12	54
463
3 48
37.57
44 15
32 26
t9.69
908
752
7.3P
2ft 2£
3O0I
40 78
40 53
35	76
1263
10.61
(2 98
15 13
21 06
2881
35 34
10 22
*0.3*
as 28
8	>4
9	9#
756
7.72
536
11 86
21 77
34.28
15	49
16	>7
34 79
34.45
>874
4! 64
54 08
10 10
10.70
1351
34	24
35	65
30	99
31.07
31	77
32	59
33	16
33 58
33 21
33 88
4.71
3 37
283
28	00
6.23
582
3	88
31	30
29	76
643
4	21
6 76
28 03
If 82
4 U
312
38 ?6
43 38
30	76
16 41
799
6.61
839
2900
32	13
40 15
36 44
34.44
1061
872
1068
1299
19.00
27 15
34 46
6 75
27 79
30 16
6 15
764
854
698
4.18
1Q 86
20 44
22.05
1294
12 94
36 38
3255
34.87
40 29
53 09
642
6 24
11 65
32 37
34 86
29.99
29	43
30	08
31	05
31	62
32	62
32	67
33	34
4 38
3	15
2 42
*07
602
4	60
240
27 82
Z7.31
5.74
3.8?
598
25 40
11.10
3.78
284
36 49
4Q.40
X 70
15 42
6 80
593
5.35
2341
30 98
38.22
J7 63
32	51
654
7.48
6	65
10 44
1676
>4 50
33	02
7	52
16.47
150 0
20
16
90473
15 73
1500
20
48
90632
288
1500
2.0
15
251 447
291
1500
2.0
28
179198
255
150 0
20
40
175 376
234
1500
3.0
51
163 809
1.16
150 0
2.0
25
195 758
6.24
15C.G
20
13
180 291
11 08
1500
20
12
162 50C
13.06
1500
2.0
13
117 153
4.27
>00
2.0
23
163 974
408
>00
2.0
>5
163 822
4 76
300
2.0
13
161 448
17.38
>00
2.0
15
129 660
20 02
300
2.0
38
120 470
25 67
300
20
38
1(7800
45 68
300
2.0
43
88 348
2.61
»0
2.0
15
298 540
2.67
>00
20
16
278 620
4 06
>00
20
36
260 630
1698
30 0
2 0
15
204 080
23 44
300
20
71
172.120
23 95
>00
20
46
195.110
17 19
150
25
13
288 575
1744
15.0
25
26
270 527
1955
ISO
25
15
247.932
21 62
ISO
25
30
204 794
2547
150
2 5
26
179 369
28 67
150
25
26
190.249
29 26
15.0
25
31
36.233
I 80
3.5
25
16
266.832
054
35
2 5
15
29 ^ 8C1
0 37
35
25
13
260 631
ft 89
3.5
25
3C
223 760
472
35
2 5
6
167 907
221
3 5
25
25
195 500
0 44
>5
2.5
20
200 Ml
1277
35
25
13
161 972
662
15 3
25
16
205 213
1 29
150
2.5
16
216 531
025
150
25
32
215 626
081
150
25
6
208 031
9 11
150
25
6
177 514
4 49
00
2.5
13
243716
062
00
25
17
253 611
0.70
00
25
44
263 754
14.24
00
2.5
12
197.344
35 25
GO
60
51
27 066
30 12
00
60
61
109 364
671
0.0
60
91
219.149
261
127 3
20
16
158 505
2 39
127.5
20
20
200851
223
127.5
2.0
31
198 974
15 06
127.5
20
7
154 996
20 30
127.5
20
15
137 730
27.77
1275
20
58
115 634
25 33
127.5
2.0
41
1(M 650
22 10
127.5
20
15
119 207
2 76
127.5
20
16
136 692
298
127.5
20
25
139 163
388
127.5
20
16
138121
5 55
127 5
2 0
13
129 376
10.31
127 5
20
20
116 667
17.21
127.5
2.0
25
164 500
2S44
127 5
2.0
64
68 626
242
127 5
20
28
244 081
H-8
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files















Water
Water
Soil
Soil
Sol


Sod











Tftttft
TiM
Horizon
Pmtch
Comeor+rt
P*OH* Ufc
D^nftrty


Soil Wat* Content (volymft
%)«! fndicftttd Cftpfiltry Suction


D*p»
Duration
Tbicfcn«a»
Di8m*ftf
Nan*
Na
No.
8
8.78
ft. 93
• 22
109
127.5
20
4ft
231 87ft
BONNEAU
•5
4291
1.5ft
15 75
34.31
3251
2942
1ft5«
11.74
10.40
8.13
7.22
• 45
20ft
127.9
20
«0
216-505
BONNEAU
ftft
42S2
1 »
51.01
501ft
an
4ft ft?
49 98
43*0
43 28
40.88
*8 82
3801
17 82
127.9
20
tft
148 289
BONNEAU
86
4251
1 49
45 0ft
44 4ft
44 47
44 46
44 21
4373
43 84
42 58
41 74
40 57
29 90
1279
20
49
105 001
BONNEAU
96
4354
1 51
43 34
42.82
42 55
42 44
42 36
42 31
42 23
40.78
3ft 54
3ft 22
29 36
127.9
2.0
3ft
93 491
BOW6AU
06
42*5
14ft
42.2ft
40*4
3ft 7ft
34 1ft
36-75
39 42
Mftft
3244
30 ft7
28 42
1ft73
127.9
20
2
113176
BOULOGNE
15
~<70
1 3ft
4ft Oft
44 44
41.03
33ft2
23.ftft
17 94
14.7ft
12.16
1084
ft 1ft
1 64
300
30
10
192.964
BOULOG»€
1ft
•471
1 4ft
42 90
41 67
30 35
31 1ft
23 ftft
17 55
1384
11 07
ft <7
7 60
1 40
300
30
7
190 905
BOULOGNE
IS
4472
1 47
42 7ft
41 06
34 47
31 75
73 08
1ft ftl
157ft
1288
11 4ft
961
191
300
3.0
•
146 966
BOULOGNE
15
•473
14ft
45.1ft
44 84
40.59
3141
1ft 1ft
14 00
11 ftft
ft.70
• •3
720
l.ftft
30.0
3.0
15
14*913
BOULOGNE
19
•474
156
38 ftft
ftft 51
39 0ft
28 45
17 2ft
It ftft
ft 87
7.8ft
7 11
591
1 24
300
30
1ft
151 636
BOULOGNE
15
6475
1 56
41 43
30 96
37 64
23 64
1284
• 50
ft 71
4 03
4.18
351
082
300
3.0
16
155 26?
BOULOGNE
15
•47ft
1 ftO
32 4ft
29 22
27 77
26 43
24.84
23 65
22 70
21 73
2i 08
19.78
4.30
300
30
18
136 169
BOULOGNE
15
•477
1 S3
41 75
3ft 97
37.0ft
37 01
34 90
32 63
30 04
28 30
26 75
23 01
4.22
300
30
39
144 127
BOULOGNE
15
8470
1 4ft
41.0ft
3ft 21
37 72
35 20
31 79
28 39
26.15
2324
21 39
10 00
802
300
3.0
ftft
149.77ft
BflKXVARD
35
23ftft
1.22
53 54
5123
5Cft3
4ft 32
4ft 44
47 26
45 4ft
44 ftft
44 21
43 24
37.08
75
4.5
25
7«70
BRICKYARD
15
23*9
1 1ft
54 04
51 64
50 36
49 16
4ft 20
46 05
46 56
45 95
45.43
44 63
37 08
7 5
45
28
6706
BRICKYARD
35
2300
1.0ft
57 06
56 55
95 5ft
94 65
94 30
92 93
92 62
51 72
51 28
50.26
381ft
75
45
13
H 104
9RKXYARD
35
2301
123
55 40
54 2ft
94 24
9363
93 7ft
92 91
92 4ft
90 93
90 33
48.11
37 92
75
49
50
12 326
BRICKYARD
SS
2382
1.3ft
51 3ft
47.68
47 M
46 04
4ft 40
460ft
45 93
45 46
45 22
44 08
27 30
75
4 5
88
13 10ft
BUCCANEER
17
B4M
1 1ft
5ft 17
56 04
5ft 04
57.97
57.96
5705
57 01
56 53
54 46
53.5ft
27.44
15.0
6.0
13
39.767
BUCCANEER
17
64ft*
1 17
57 70
57 01
5751
57.50
57.36
9624
55 66
55 14
54 54
5307
29 26
15.0
<0
36
26887
BUCCANEER
17
•400
1 17
5ft 03
57 00
57.70
57.21
57 17
96 06
99 25
94 77
93 92
52 74
30 09
19 0
ft.O
30
32.761
BUCCANEER
17
8491
1.1ft
SftftO
50 42.,
9ft 2ft
96
56 02
95 53
99 25
94 93
93 50
92 99
29 91
150
60
41
36 180
BUCCANEER
17
•402
1 31
53 4ft
53 40
93 33
53 25
92 66
52 43
52 26
50 06
49 33
4ft 99
2ft 09
150
0 0
63
37 401
buccaneer
17
•493
1.41
37 7ft
37 87
37 55
37.40
37 26
36 00
33 50
32.57
31 49
31.49
31 4ft
15.0
60
1ft
33488
CANAVERAL
2
3135
1 21
49 ftft
43 94
42 07
21 4ft
17 53
13.27
H.05
10.23
ftftft
• 59
2 37
80.0
30
18
184.810
CANAVERAL
2
3136
1 33
49 15
43 00
41 51
20 74
10 72
1251
11 09
065
928
ft.90
209
80 0
30
20
181 S77
CANAVERAL
2
3137
1 44
43 7ft
31 33
27 45
11 15
923
756
706
700
601
593
2 72
600
30
IS
210 129
CANAVERAL
2
3130
1 3ft
5032
44 60
43 09
17.26
I4 86
12 60
11 5ft
11 20
10.77
10 16
2-53
800
3.0
35
185 00"
CANAVERA.
2
3130
1 3ft
34 66
27.24
23 01
11 13
• 3!
963
533
90S
436
3 93
(ftft
800
30
39
324 013
CANAVERAL
2
3140
1 43
39 22
2104
23 66
11 ftft
9 03
632
SOft
9ftft
4 67
456
292
600
30
73
253 324
CANAVERAL
ft
5307
1 35
45 96
45 10
40 15
26 36
1940
15 24
1322
11 26
10 31
945
3 13
800
30
13
10ft 143
CANAVERAL
•
530ft
1 52
4254
41 »7
41.65
22 56
13 91
ft 54
7.ft3
7.17
5.49
5 02
1 7ft
800
3.0
10
195 996
CANAVERAL
ft
5309
1 42
3ft 01
35 97
32 63
19 33
1240
9 1ft
763
685
6 12
565
0ft7
800
30
20
107.374
CANAVERAL
ft
9310
1 39
49 ftft
44 ftft
3ft 57
22 30
12 00
091
771
695
899
6 13
1 77
800
30
41
191 5(7
CANAVERAL
ft
5311
1 47
44 74
43 31
37 03
21 26
10 61
7.97
6 61
0 15
575
560
1.4ft
600
30
40
192145
CANAVERAL
B
5312
1 42
41 75
39 4ft
3ft 24
23 4ft
1763
14 30
1272
11 29
10 93
941
290
809
30
31
169 036
CANAVERAL
I
9313
1 3ft
43 10
39 92
37 74
2ft 57
1916
13 9ft
11 44
10 02
831
<36
1 71
600
30
46
209 172
CANDLER
5
5349
1 &4
37 49
29 01
23 49
18 57
12.83
1026
• 92
752
• 76
5 76
1.72
1600
00
20
344 089
CANDLER
5
5346
1.50
40 U
25 77
17 76
1045
7 64
6.41
5 70
4 95
4.51
3 57
1.2ft
1600
0.0
98
357 735
CANDLER
5
5&47
1 50
37 1ft
21 70
1ft 37
10 34
7 43
572
4 77
3 97
3 54
2ftft
1.03
1ftC0
0.0
91
393 984
CANOLER
5
5348
1 ftl
34 00
19 70
13 ftft
• 00
692
4.89
4.03
322
213
2.14
003
1000
0.0
38
398 237
CANDLER
1
•349
1.82
35 77
21 05
1422
ft 7ft
7 53
963
4 30
356
2 97
2 24
0 00
100 0
00
38
340 261
CANDlER
ft
13ft0
1 4ft
3« 06
36 43
9342
1ft 44
12 80
BBS
750
636
SftO
520
1 7ft
100 0
00
10
201480
CANOLER
6
13*1
l.«
3ft 74
»53

17 27
1217
•32
7.14
605
544
4.88
1.99
100.0
0.0
13
182.99ft
CANDLER
«
13ft2
ISO
34 •£
34 3ft
3172
17.4*
10 TT
• 80
57ft
4.72
4.20
351
1 29
100 0
0.0
28
1ftft484
CANOLER
e
1383
153
36 00
MM
3343
t72»
940
5 ftft
478
403
346
301
1 12
180 0
00
71
195 250
CANOLER
6
1364
1 59
33.87
33 7ft
33 29
19 72
10 ftl
638
507
380
341
2.93
Oftft
100.0
0.0
81
IftOftftO
CANDLER
10
•803
lift
40 W
17 8ft
37 ftl
2ft ftS
1ft 7ft
11.72
• 84
8.58
7 99
8 62
1 ftft
IftCO

20
169 047
CANOLER
M>
8804
1 52
41 OB
ftft S3
30 25
29 47
12 78
764
ft .49
5 37
4 62
408
1 14
IftO.O

28
187.863
CANOLER
10
8805
1.51
40 38
3ft 50
3*28
24 15
11 51
572
4 04
4 96
421
341
0.04
160.0

46
170.34ft
CANDLER
to
ftftOft
1 ftl
40 1ft
MM
38.27
23 32
13.27
591
444
38ft
3 U
296
07ft
100.0

3ft
188 734
CANDLER
10
ftft07
1 55
37 00
38 53
35 40
23 60
11 90
54ft
420
380
324
2 42
060
1000

71
172.104
CANOLER
18
49ft5
1 ftl
3ft Oft
3ft 84
35 72
29 02
21 33
11 7ft
ftftft
ft.B7
6 10
4 43
1.40
1ftOO

10
167.160
CANOLER
16
4966
1 ®5
3ft 71
35 53
35 14
27 2B
1120
11 Oft
• ftft
• ftft
910
440
1.12
iftOO

2ft
Iftft 779
CANOLER
1ft
4907
1.90
37.38
36 64
34 ft3
24 47
14 9ft
064
7.0ft
938
4 66
3 13
093
1000

93
109 029
CANOLER
ie
4966
1 50
35 10
34 1ft
33 01
24 55
1323
790
593
4 93
3.17
2 65
0 73
1ft0.0

43
103 173
CANDLER
1®
4009
1 54
3ft 31
30 44
35 31
23 0ft
13 51
7.92
550
444
3.ft2
259
06ft
IftOO

91
115-192
CANOLER
19
4900
1 5ft
37 19
35 10
34 95
30 6ft
19 24
761
530
42ft
3S4
293
055
IftOO

20
105 111
CANOLER
22
5ft 77
t 47
29 29
20 69
16 56
12 15
907
0.45
7 54
5.22
5.01
470
1.80
IftOO
0.0
19
200 061
CAfClER
22
50?6
1 53
34.81
2670
I J.ft4
7.84
5 50
440
364
3 07
2.7ft
23ft
O.ftft
1»00
0.0
82
282 339
CANOLER
22
507ft
149
35.17
2325
1257
7 50
962
40!
3 93
331
3 12
2 ftft
Oftft
IftOO
0.0
53
2ftI534
CANOLER
22
SftftO
1 50
33 75
25 40
14 60
(92
706
607
405
4 39
4 1ft
390
1 40
160 0
00
43
272 883
CANOLER
23
• 150
1 32
45 17
30 15
2570
1433
10 97
ft 14
007
666
ft 16
935
1.20
IftOO

15
279.62ft
H-9
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files















Watot
Wafer
So*t
Sod
So*


Soil











TM
Table
Horizon
Pwtkaie
Component
P?o(#e
' Lab
Dainty


Soil Water Corrfant (volume %) al Indicated Capillary Suetkw


D#pth
Duratort
Ttiickneei
Diameter
Nan®
N6.
No.
Wcc)
a5c#r
2Ccm
X
45 cm
60 cm
90 cm
100 cm
1 &0cm
200 cm
333 cm
15K cm
(cm)
o.3
{cm)

CANDLER
23
•151
1.45
40 09
2939
19 17
1J.ll
949
703
9 29
5.40
472
439
1.22
190 0

IS
276 919
CANOlfR
23
I1S2
1 SO
37 79
29 37
19 99
931
994
574
503
434
399
354
1 19
1900

15
277.947
CANDLER
23
9153
1 52
39 94
12 94
15 19
956
6 36
539
477
4 11
356
344
1 06
1900

15
275 151
CANOUER
23
•154
1 52
J? to
29 93
19.19
949
999
590
5 12
444
4.10
393
0.90
1900

15
279 019
CANDLER
23
|1U
1.50
37 11
33 03
1335
709
949
497
4.20
3 73
34!
294
095
190 0

15
275.971
CA*dER
29
3796
1.99
49 74
47.93
49 93
43 93
33 42
1699
13 B9
10 22
902
7 79
3 25
1900
00
10
126.924
CAMH£ft
29
3799
1 49
43 n
42 94
42 64
39 93
27 96
1591
11 29
7 79
691
529
1 71
1900
00
39
115259
CA HOLER
29
3?9?
1 44
41.19
99 92
39 93
39 53
26 79
14 »7
999
5.47
490
361
095
190.0
0.0
56
123 5*7
CAfOlER
29
379®
1 35
35 99
32 49
32 05
31 92
31 96
19 77
994
4.99
3 99
306
to?
(900
0.0
99
121.394
CANDLER
29
3799
1 49
37.94
39 29
39 04
35 76
39 17
1699
10.09
944
439
359
10?
1900
00
20
114 910
CANDLER
29
MOO
1 90
41 19
39 79
36 07
31 97
19 94
11 oe
923
740
9 70
590
203
1900
00
6
205 641
CANDLER
29
3901
I 57
39.04
35.07
32 63
2561
13 30
697
7 19
5.79
531
469
1-40
190.0
00
15
199 599
CANDLER
29
3902
1 59
39 79
35 99
34 96
15 50
9.91
900
5 77
453
4 13
344
0.61
1900
0.0
59
900 495
CANDLER
29
3903
1.54
37 (ft
39 39
39 33
16 94
9.93
6.79
4 96
395
330
2 79
0.54
1900
00
46
207 319
CANCLEP
»
3904
1.56
36 M
34 29
32 55
19 42
999
C 32
5 07
400
3 92
305
0 6?
1600
00
79
200 756
CANDLER
103
4590
1 50
41 26
39 36
37 47
29 65
'7 97
12 34
10 91
9.01
9.26
7 70
1 74
1900
0.0
15
161 929
CANCER
tea
4591
1 53
3959
39 ie
37 72
24.29
1393
690
7 33
922
S.S3
494
1 1C
1900
00
26
163 129
CANDLER
103
4592
1 52
39 52
37 74
37 00
1592
1066
759
6 52
5 78
522
461
064
1900
00
30
161 571
CANOLER
103
4393
1.50
39 29
34 94
33 51
17 72
1092
700
6 14
502
490
401
094
190.0
00
74
190 949
CANDLER
103
4594
1 50
37 11
35 91
34 59
19 57
11 97
602
994
571
509
465
099
1900
00
33
176 424
CANClER
103
4506
1 49
3? 79
36 17
3541
20 91
12 16
601
665
560
5 01
453
057
190 0
00
30
162 395
CANCVA
\\
345*
941
70 80
95 59
93.33
91 50
59 43
59 03
57 17
53 72
51 57
47.4?
1524
0.0
90
15
26?.003
CANOVA
11
*490

74 09
64 23
S9 97
52 57
49 29
45 50
43 12
36 29
35 72
31.5?
755
0.0
9.0
15
267 003
CANOVA
11
5451
t 49
59 77
54 59
41 69
39 99
26 54
21 99
21 09
19 65
16 34
15 57
11 19
00
9.0
3
363 9a
CANCVA
11
5492
<55
39 11
26 61 .
14 99
931
7 16
622
549
4 93
4 52
4 01
049
00
9.0
20
359 399
CANCVA
f <
5493
1 62
32 47
29 39
1977
11 44
674
7.61
940
566
5 19
4 42
039
0.0
9.0
6
346 777
CANOVA
11
5464
1 92
37 90
37 15
36 10
34 96
34 a
33 72
33 03
32 10
31 56
30 12
15 33
00
90
25
236 306
CANOVA
11
5495
1 71
35 34
34 54
34 50
33 95
32 22
31 51
30 54
29 16
26 40
26 25
13.75
00
90
16
255 030
CANOVA
11
5409
1 76
29 90
29 72
27 6?
295'
25 69
25 15
24 15
23 19
22 36
21 06
9 65
00
9.0
22
249 526
CANOVA
11
5467
1 94
3C 39
2991
29 76
29 52
27 62
27 47
26 75
25 56
24 61
23 02
11 06
00
90
16
222 149
CANOVA
11
54M
1 62
29 13
29 70
29 6*
27 61
26 90
2« 20
25.04
23 10
21 92
20 22
10 17
0.0
60
61
262 081
CENTENARY
4
5241
1 42
43 94
39 92
39 57
22 *3
13 39
10 30
979
734
6 53
550
092
125.0
20
20
16? 176
CENTENARY
4
5242
1 52
37 39
35 24
30 22
1« 65
6 63
7 37
9 19
4 96
4.20
0 40
066
1250
20
74
165 119
CENTENARY
4
5243
1 51
40 33
39 10
30 72
19 16
fl 5?
6 76
5 47
4 22
3 61
261
051
125 0
20
33
165 360
CENTENARY
4
5244
I 52
40 17
39 50
36 46
1142
9 60
6 10
499
353
296
2 23
029
1250
20
39
166 217
CENTENARY
4
5245
t 53
37 15
35 72
3V57
22 38
13 77
10 20
999
699
9 10
4 63
0.44
125.0
20
26
157 996
CENTENARY
4
5249
1 92
32 75
30.19
26 35
23 34
17 15
13 69
12 21
1090
973
• 51
2.20
125.0
20
10
149074
CENTENARY
7
S962
1 43
40 49
3951
36 03
25 76
15.41
11 86
10 11
930
9 74
794
1 3?
12? 5
20
13
156 5&4
CENTENARY
7
5963
1 5C
39 56
35 '7
31 62
23 40
14 59
10 4$
665
756
994
5 73
1 01
127 5
20
12
157 605
centenary
7
5964
1 51
37 61
34 06
31 18
19 37
12 07
674
7 10
5 75
527
4 33
091
127 5
20
64
159 909
CENTENARY
7
5995
1 53
39.26
35 24
32 24
23 H
1596
11 16
950
7.73
7.01
6 07
e 66
127.5
2 0
20
159916
CENTENARY
7
5999
1 52
37 92
36 83
35 23
24 26
14 26
904
7 69
5 97
530
4 24
050
127 5
20
26
159 266
CEN^NAAY
7
5067
l 53
36 00
35 37
35 26
2965
1996
12 26
10 54
671
7.77
641
0.92
127 5
20
15
160 360
CENTENARY
7
5999
1 49
40 37
39 94
37 09
29 12
16 13
13 15
11 99
1032
9.53
624
0.?1
127.5
2.0
51
193 629
CHAIRES
1
7959
1 03
53 56
47 40
40 22
30 26
24 96
21 17
19 12
16 76
1552
13 54
577
200
30
23
216 503
CHAIRES
1
7960
I 55
36 2i
36 04
34 21
20 21
1290
699
7 35
5 76
5.14
4.42
096
200
3.0
15
209.95?
CHAIRES
1
7991
1.59
35 99
35 40
34 03
1944
10B9
7 19
554
402
361
312
oai
200
3.0
23
207 304
CHAIRES
1
7992
1 99
31 71
29 59
20 07
24 79
22 92
20.74
19 44
17 59
19.51
14 S9
235
200
30
10
161 130
CHAIRES
1
7863
19?
39 ta
29 23
26 91
22 90
13 Jt
19 30
14 63
1263
11 59
10 12
1 97
200
30
10
200 399
CHAIRES
1
7664
1 71
30 92
29 67
26 m
23 93
1644
13 91
11 93
994
6 92
7 52
1 52
20 0
30
36
205 011
CHAiRES
t
7996
1 90
37 30
36 42
34 97
33 9!
32 96
31 95
31.02
29 94
26 70
29 94
14.27
200
3.0
96
195 497
CHAIRES
1
7999
1.09
90 42
9CJ9
90 09
59 97
59 32
59 13
57,91
57 06
9944
66 09
34.79
200
3.0
20
10459
CHAiRES
2
9559
1 13
S3 22
4947
4* 36
41 93
39 71
34 94
30 49
26 09
23 92
21 39
556
00
30
19
147 363
CHAiRES
2
9557
1 52
at 19
35 04
34 94
33 97
21 ?!
13 95
999
991
599
500
0.79
00
30
25
152 935
CHAJRES
2
9669
1 59
40 09
39.90
39 93
3$ 90
33 79
3091
23 59
1999
17 12
14 71
1.97
00
3.0
13
149 992
CHAIRES
I
6559
1 91
4139
39.49
39 n
39 99
32 93
20 90
13 97
10 33
905
7.52
1.11
GO
30
12
1 S3 227
CHAIRES
2
9590
1 92
39 75
34 59
33 72
31 70
29 95
26 91
22 59
19 00
1600
17 03
292
00
30
16
151 163
CHAIRES
2
9591
1 99
35 92
35 09
34 91
30 06
26 06
22 36
20 73
17.99
16.53
14.72
244
00
30
26
141.251
CHAIRES
2
9592
1 65
35 99
35.39
35 15
35 96
33 71
30 76
291?
25 90
24 16
22 26
496
00
30
35
140 574
CHAIRES
2
6563
1 37
SO 95
50 54
50 44
49 26
46 65
45 67
4531
43 95
42 99
42 10
19 39
00
30
56
95519
CH AWES
5
7107
1 01
45.09
39.94
33 15
27 34
23 56
20 45
19.91
19 39
14 99
13 49
3.79
00
30
15
296 459
CHAIRES
5
7101
1 59
37.21
36 66
29 60
17 66
10 11
736
921
495
405
352
046
00
30
21
262 746
CHAIRES
5
7109
1 fit
33 07
3t 56
29 72
24 65
21 33
16 65
17.45
1509
1399
12 16
303
00
30
12
260 301
CHAIRES
3
7110
1 59
35 09
33 26
29 29
20 94
1551
12 47
11 07
9 19
9 11
694
1 96
0.0
30
13
29 7 546
CHAiRES
6
7111
1 59
35 18
33 17
29 44
17 63
12 19
935
6 16
960
570
4 77
0.67
0.0
30
23
270 099
CHAIRES
5
7112
1 75
29 39
29 33
27 39
26 02
23 96
21 57
20 21
16 14
16 94
1S 52
7 35
00
3.0
16
242 634
H-10
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATS GO Data Files
W«*r Wat*	Soil	Soil
Sol Soil T«W« Tabto	Horiaon	Firicia
Compomrt Pt&H 1Mb Dmvty So* WH» Comftni (voiumft %) * indiclftd CftfrHary Suction Dftfltti Duration	Thickset	Oiftmfttftf
Nim	Ho. Wa (^cc) Xi yn 20 cm 30 cm 45 cm 60 cm BO cm 100 cm 150 cm 200 cm 333 cm l&Kcr> (cm) (mo.)	(cm)	fcm)
CKAiftES
CHAJRES
OHM RES
CHAIRES
CHAIRES
CHAIRES
CHAIRES
CHAJRES
CHAIRES
CHAIRES
CHAIRES
CHAIRES
CHAJRES
CHAJRES
CH AIRES
CHAJRES
CHAIRES
CHAIRES
CHAJRES
CHAiRES
CHAJRES
CHAiRES
CHAjRES
CHAIRES
CHAIRES
CHAIRES
CHAiRES
CHAIRES
CHAiRES
CHAIRES
CHAJRES
CHAJRES
CHAJRES
CHAiRES
CHAIRES
CHAIRES
CHAJRES
CHAJRES
CHAIRES
CHAIRES
CHAIRES
CHAIRES
CHAJRES
CHAJRES
CHAIRES
CHAJRES
CHAJRES
CHAJRES
CHAIRES
CHAJRES
CHAiRES
CHAiRES
CHAJRES
CHAJRES
CHAIRES
CHAIRES
CHAJRES
CHAIRES
CHAIRES
CHAIRES
CHAJRES
CHAIRES
CHAJRES*
CHAJRES
CHAIRES
CHAIRES
8
5
5
5
i
5
5
5
ft
ft
I
ft
ft
ft
9
9
9
0
9
ft
16
16
ie
t«
ie
1ft
-------
Table H-l (Continued)
State-Wide SoU Horizon Physical Properties from STATSGO Data Files
So*
Compofttft
Hsnrm
Sch)
Profie Lab D«r>*rty _
No. No. (yec>
Waler Water Soil Sotl
Tatie Tab* Morion
				 	 _ _ 		Otplh	Durabo* Thicfcnaet Dameler
3.S om 20 cm 30 cm 45 om 60cm 60 cm 100 cm 150 cm 200 on 333 om 1SKcm (cm) (mo.)	(cm)	(^m)
3o* Water Content (volume %) * indexed CapiNaiy Suction
CHAtf«S
CHA^J
cwor es
CHAJftiS
CKAJRES
CHAi«ES
CHDQKA
CHEWACLA
CHEWACtA
C«eWACU
CHEWACLA
chewacla
CHEWACLA
CHEWACUk
CHIEFLAND
CMIEFLAND
CHIEFLAND
CHIP LEY
CHIPlEY
CHIPLEY
CHIP LEY
chipity
CHIPLEY
CHIPLEY
CHIPLEY
CHIPIEY
CHlPlFT
CH»LEY
Ch-*LEY
CHIPLEY
O'PLEY
CH'PLEY
CHIPIEY
CH.PLEY
CHIPlEY
CHIPLEY
CHIPLEY
CHIPL£V
CHiPlEY
CMlf LEY
CHIPLEY
CHIPLEY
CHIPLEY
CHIPLEY
CHIPLEY
CHIPLEY
CHIPLEY
CHIPUTY
CHiPLEY
CHiPLEY
CHOfiEE
CH09EE
CHOfiEE
CHOBEE
CHOfiEE
CHoeec
CHOBEE
CHOBEE
CH06EE
CH06EE
CHOfiEE
CHOfiEE
CHOBEE
CHOSEE
CHOBEE
CHOBEE
77
27
27
27
27
27
7
16
16
14
16
ie
ie
ie
18
16
19
10
10
11
t!
11
tt
M
11
13
<3
13
13
13
13
13
13
11
18
't
18
16
21
21
21
21
2t
11
11
11
11
11
11
11
tt
11
11
12
12
SOM
5057
306#
50M
U*0
506t
9*7
43IS
4294
4296
4296
4297
4299
4299
4722
4723
4724
6163
8164
8165
8166
8167
9D7C
9071
9072
9079
7795
7799
7797
7766
7766
7770
26-45
2646
2647
2646
2649
26 SO
2651
2652
4662
4643
4664
4665
4666
4296
429fi
4360
4301
4302
4604
4905
4906
4907
4906
4900
4910
4911
5110
5111
5112
5113
5114
5115
5201
5202
1 60
154
163
1 63
1 75
1 7?
1.22
1 39
1 56
1.60
1 M
162
1 63
1 65
1 54
1 53
1 56
1 31
1 49
1 41
1 SO
1 56
I 31
149
141
190
1 31
i 49
1.41
1 Jft
l»
1.56
1.23
1.44
1.51
1 71
1 79
1.74
1 77
1 76
1 36
1 57
1 55
1 54
1 56
140
1 47
I 55
1 57
1 56
03^
I 4J
1 5*
1 55
1 70
1 69
1.61
1 6S
0.75
1.26
1 26
125
1 47
1 70
1 19
1 54
9616
40	76
3753
34 49
32 09
*176
47 S
«13
a.66
17 71
36	96
37	59
36	09
34	43
37	92
37 26
37 33
41	36
44 31
43.15
39 60
35	76
4f 36
M)1
43	15
39 90
41 36
44	31
43 15
39	60
35	76
36	22
60 01
45	06
36 26
35 56
32 61
35	26
34	33
32 76
43	42
36	15
35	76
36	54
36 31
45 36
44	26
36 W
35	32
36	32
77 36
49	23
40	07
41	73
36 56
36 17
36 W
39 46
66 36
54 60
51 94
54 37
44 26
3481
50	13
39 76
34 54
29 67
3601
33 36
31	03
3001
4! 93
4244
*7.ta
mn
36 09
36 11
36	66
33	09
37	44
34	07
34	93
29 56
36 96
27	91
28	32
24 06
29	56
36 96
27 9W.
2$ 32
29 56
36 96
27 91
26	32
24 06
27	33
54 64
43	74
3?3fl
34.47
3133
33	66
32	54
31	37
36	92
35	12
34	IS
37	00
37 22
34 90
36	63
32	01
3261
3J6f
70 72
47 02
36 46
39 64
36 63
34 36
36 25
36 32
•4 35
54.21
51 71
53 96
44.15
33	72
44	94
3732
34 31
3960
36 47
33	36
30 93
29	M
Utt
4136
3566
34	23
34 11
34 16
34	95
1996
35	40
3045
33 13
19 10
25 01
14 15
14 18
14 62
1« 10
25 01
14 15
14 18
16	10
2501
14 15
14 16
14	62
1606
51.50
42 36
35	22
33 29
30.61
33	07
32	ii
30	63
34	22
34 12
33	06
33	16
36	28
21 16
23 06
15	17
17	45
1745
69 34
46 33
36 4 7
39 5&
36 79
34	26
36 19
36 25
63 26
54 16
5i 69
53 94
44 05
32 62
42 59
35	36
32	25
3676
33	56
32	22
30.01
29 67 2&tt
>• U 3389
4049 3929
X
33	46
32	96
33	33
34	43
1022
3c a
24 M
28	72
12	69
13	78
ft 26
631
769
12	69
1376
626
6 31
1269
13	79
626
8 31
7.69
6.60
47.75
34 61
32 47
29	78
30	11
32	42
31	44
29	77
23 66
20 69
20 49
20 52
20.76
14	55
1556
1332
11 96
if.9*
67 74
44 74
37 96
36 74
36	62
33.96
37	47
37 64
61 74
63 86
51 67
53 92
44 02
30	4%
40 62
33	42
25.31
37 64
32 01
32 06
29 02
333ft
32 S3
32 22
32	46
33	09
632
21 SB
2C21
26	34
11 10
11 47
646
672
599
11 10
11.47
646
672
11 10
II 47
646
6 72
599
599
42	71
28 43
27	40
26.56
26 43
28	44
26 09
28 66
16 05
U25
14 26
13 97
1262
tt.Tl
1250
1001
043
942
66 %2
44 03
35	97
36	24
36.53
33 26
35	60
32 67
60 83
S3 15
51 66
53 65
43 90
28 72
36	93
31.66
17.82
34 70
29 34
31	01
a 5t
2941
32	14
37 51
3S.H
31 16
31 09
3113
31.66
766
164?
1669
24.17
9 46
956
534
655
465
646
956
534
555
948
956
534
555
465
456
39.51
23 67
22 79
21 67
25 01
25 74
25 22
25 97
14 43
10	69
11	02
10 24
9.07
10	44
11	07
9.04
649
646
63 M
42	43
34 09
34	07
35	51
31 50
34 10
27 66
59.64
52	69
51 50
53	63
43	77
27 06
37.07
30 05
11 97
31 40
26	44
29 23
27	32
37 01
32 32
3107
30.76
30	96
31	47
7	11
1304
14 16
22 50
900
694
465
S 07
4 46
900
894
4	65
5	07
9 00
8	94
4	65
5	07
446
401
36 64
20	95
1967
1765
22 00
22	17
21	29
1743
1266
Ml
9	78
8 76
764
9.69
10 06
832
766
7 64
92 49
41.96
32 56
32	24
34	67
30 27
33	13
23	69
59 25
52 41
51 43
5373
43 70
25	64
35	59
26	66
7.69
26 90
23 44
M55
26	36
27	51
2927
36 06
>1 76
30 66
30 22
30	64
31	06
6	12
971
11 36
20 76
603
777
4 04
391
3 97
603
7	77
404
391
8	03
777
404
3 91
397
3 15
33 97
1799
16	22
13.35
17	7t
15 56
15 12
14.77
10.63
7.47
755
662
5.57
640
669
7.28
6.64
• 64
59 72
41 15
30.16
29	63
32 23
27 65
30	69
19 06
87 76
SI 89
51 36
53.49
42.67
23 56
3321
26a
664
24 77
22	14
23	16
24	47
2666
27 66
34 46
30 96
30 16
29	99
30	05
30 43
534
6 19
996
1069
758
722
366
3 61
3 16
756
7.22
3.66
3 81
756
722
366
3 61
3 16
2 78
32 55
16	46
1544
11 65
15 62
1369
1333
14 12
0.78
6 85
695
6 15
503
7.72
6 13
647
6 16
6 t6
56.24
4C47
30	10
29	26
31	65
26 W
30	72
17	76
56 94
51 59
51 04
53 28
42 15
22 15
31	99
25 27
5.50
2162
19 69
30.36
23 19
25 36
25 76
3*45
JO 67
30 07
29 79
29	95
30	43
601
725
929
16 10
655
6 U
302
2	93
250
6 55
6 14
3	02
293
6 55
6 U
302
2 93
250
2 16
30 31
14	63
12.76
963
1326
11 69
11 15
10 07
6	18
5 62
584
4	94
410
6.72
7	03
567
5	10
5 10
53 00
35 13
26 77
77 34
30.41
24 10
29 46
15	49
56 16
50	54
46 66
51	33
40.69
19 46
29 62
2347
042
2.73
3.42
269
667
956
00
0.0
00
00
00
00
662	900
34 37	30 0
3067	30.0
26 42	300
28	29	30 0
29	21	30.0
30	43	30.0
2	51	30.0
1 46	1600
1.30	190 0
1352	1600
1 07	75 0
0 69	75 0
0 52	75.0
0 50	75 0
0 50	75 0
1.07	75.0
0.69	75 0
0	52	75 3
050	750
1	07	75 0
0 69	75 0
0 52	75 0
0.50	75 0
0.50	750
0.26	75 0
5 17	750
3	36	75 0
270	75.0
2.22	75.0
3 35	75.0
2	94	75 0
280	75.0
2 62	75 0
2 13	75.0
1.21	75.0
0 99	75 0
065	750
0 61	75.0
1.95	75 0
2.06	75 0
1.63	75 0
1.02	75 3
101	75 0
1364
3061
6 77
629
677
666
1263
3.63 75
16 16 75
7 5
7.5
75
7 5
7.5
7 5
7.5
26 61
26 74
26 65
21 63
5 62
13 71
12 47
7.5
7.5
7.5
7 S
7.5
7 5
75
3.0
3.0
30
3.0
30
30
60
3 0
30
30
30
30
3.0
30
20
20
20
25
25
25
25
25
2.5
2.5
25
25
25
25
25
25
2.5
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
2.5
25
45
45
4 5
45
45
4.5
4 5
4.5
45
45
4 5
4 5
4.5
4 5
45
4.5
54
12
36
10
6
63
13
6
17
31
51
20
43
33
20
64
15
15
33
31
20
104
13
43
43
104
16
35
31
35
26
56
13
25
20
36
25
49
10
25
10
56
26
59
46
15
26
36
23
10
26
46
23
»
16
59
43
45
26
13
23
10
173314
174.123
164 596
<49 494
141 172
141.499
273003
47269
135934
136 476
126 606
176.465
239 946
434 422
166 406
190069
154 263
365	259
375 243
370 666
370 422
378 134
163 702
186 012
366	365
427 632
322	954
311 370
309 549
302 541
274.239
297.529
160 666
163	675
167.692
194 095
165.476
156466
163.730
160 225
207 970
207 362
201 318
204 400
210 661
321 066
323	149
339 666
346 567
352 122
167 576
164	000
156366
166 447
162 406
165	600
164 316
171 905
112462
96 356
94 140
95.940
101 569
203 066
170 146
177 385
H-12
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files
Water	Wtt*r	Soil	Sod
Sofl Soil Tafcfe	Tafeio	Horizon	Parted
Compose* PruM« L*b Density Soi Water Cofrtenl (volume %) at Indicated Capillary Suction Dttfrth	Duration	Thk*na«s	Dmmetar
NiJrw No. No. Wet) 3.5cm 20cm 30cm 45cm 60cm 60 em 100cm 150cm 20C cm 333 cm 15K cm (cm)	(mo.)	(cm>	(iim)
CHOKE	12	5203	1.93	3*76	3*37 MM	tt«7	31.77	MM J017	2111	2*20	264*
CHOKE 12	130*	1 64	317t	30 77 30 2*	2941	2* *0	26 11	27 6* 26 6*	26.47	25 17
CHOKE	12	S206	160	MM	>717 36 54	15 74	OS 06	34 57	34 16	*3 15	32 56	91.31
CHOKE	12	U06	1*6	32 16	3212 3167	31 60	31.27	30 62 26 06	26 40	27 M	36 10
CHOKE	M	6406	0 45	79 4)	97 35	#5 65	*14*	56*7	$6 76	53.M	5( 76	46 60	45 44
CHOKE	M	6406	1 26	4611	46 54	46 16	45 07	44 44	43 51	42 43	40 66	36 60	37.36
CH06EE	t*	tt>*	1J2S	40.33	43S3	47 51	47 46	47 01	4**?	43 67	42 *3	42 12	4040
CHOKE	Ml	Mil	f 33	50.00	47 75	47 M	47-2»	44 H	#5Z7	44 37	43 61	42(3	4120
CH06EE	16	64*2	163	3*«	3610	77M	35 66	34 60	33 7*	32 65	30 M	29 60	27 31
CHOBEE	16	*413	1.60	37.36	M 36 33 76	3341	26 37	26 73	24 67	210?	2011	16 4*
CHOKE	20	6364	062	64 79	61 14	6046	56 60	57 96	56 M	56 45	S3 25	51 57	4766
CHOKE	20	6365	1.44	4661	44 64	45 44	44.14	42.54	41 03	36 77	36 40	37 67	35 81
CHOBEE	20	UN	1.36	47 56	46 M	46.76	46 52	44 27	45 02	44 46	43 53	42 69	41 07
CHOKE	20	6367	1 60	41 66	41 06	40 M	40 06	36 92	39 03	3661	37 63	37 1?	36 23
CHOKE	20	6366	1 96	35 47	34 57	34 50	32 44	30 40	26 10	26 45	24 47	23 42	20 35
CHOKE	22	1713	1 12	73 01	62 *3	5* 76	56 17	53 56	50 *5	49 39	46 75	45 61	42 63
CH08EE	22	1714	1 S3	37 76	37 42	37 34	36 24	34 10	3< 65	30 77	29 06	26.29	26 73
CH08EE	22	1 715	1 62	36 72	37 35	37 29	37 05	36 65	35 54	3502	33.74	33 39	32 77
CHOfiEE	22	1716	1.57	40 01	3649	36 96	36 53	37 46	36 72	36 41	35 M	35 42	34 60
CHOKE	22	1717	149	44 23	43 36	43 17	42 71	42 32	41 67	4 1 50	40 61	40 33	39 37
CHOGEE	22	1716	1 M	37 M	34.36	33 97	33 14	30 63	2491	2076	14.65	1322	10 62
CHOKE	22	3696	0 53	76 42	70 64	67 42	63 36	59 76	56.53	53 22	49 51	46 54	43 30
CHOKE	22	3697	1 1»	54 46	51 02	4*65	43 7f	40 31	37 69	35.64	33 69	32 55	31 06
CHOKE	22	36*6	1 31	49 66	46 11	47 03	44 42	42 21	40 65	36 75	36 59	37 76	36 18
CHOKE	22	3699	1 35	46 78	44 76'-	46 60	47 M	45 40	44 24	43 42	41 M	40 95	36 99
CHOKE	22	3700	1 50	44 66	42 *7	42 64	42 03	41 40	40 11	39 36	36 76	36 26	37 02
CHOKE	22	3701	1 56	36 23	30 35	29 15	26 55	24.46	22 92	21 M	2006	19 30	(6 06
CHOKE	22	3702	1 7fi	360?	34 76	34 M	34 41	33 56	33 06	32 34	31 76	31 2'	X 37
CHOKE	22	3703	1 ?9	37 02	36 33	36 31	36 20	36 11	35 53	35 44	34 M	34 56	33 66
CHOKE	34	4163	1 16	53 62	51 76	51 69	49 90	46 60	4S 41	42 19	39 53	37 63	34 60
CHOKE	34	4164	1 50	42 62	40 *4	40 71	3* 57	35 56	31 *4	29 45	26 42	24 63	22 50
CHOBEE	34	4165	1 59	41 10	39 01	36 72	37 40	36 10	32 9?	31 16	27 M	26 03	23 12
CHOKE	34	4166	1 55	46 62	4 6 63	49 17	44 63	44 31	44 23	44 05	43 00	41 11	38.37
CH08EE	34	4167	1.60	42 06	41 09	40 73	40.19	36 6?	39 ?2	39 54	39.06	36 53	37.31
CHOBEE	34	41M	1 6C	43 10	42 60	42 3C	42 20	41 60	41 60	4 1 60	40 20	3* 60	36 72
CLARENDON	2	7967	1 35	45 29	37 65	34 42	26 07	23 44	1945	1?04	14 33	13 ID	1126
CLARENDON	2	7*66	1 73	30 99	29 51	27 53	22 7?	20.23	17 92	16 54	14 42	13 37	11 63
CLARENDON	2	7*69	1 63	28 53	26 57	25 61	24 06	23 CM	22 04	21 34	19 *4	18 72	1*32
CLARENDON	2	7990	1 74	304*	28 18	26 ?6	25 04	23 9?	22 95	22 13	20 76	1995	16S3
CLARENOON	2	7991	1 69	33 56	31 33	3062	29.31	28 61	27 90	2? 31	26 27	25 55	23 96
CLARENDON	2	79*2	1*4	34 22	32 0*	31.35	30 44	29 73	26**	28 23	27 41	26 44	25.56
CLARENDON	2	7993	1 6'	34 86	33 42	32 53	31 17	30 36	29 33	29 06	28 62	2? 3*	27 21
CLARENDON	6	7533	1 35	45 29	37 65	34 42	26 07	23 44	19 45	17.04	14 33	13 19	11 26
CLARENDON	6	7534	1 73	30 86	26 51	2? 53	22 77	20 23	17 92	16 54	14 42	13 37	11 83
CLARENDON	«	7535	1 *3	28 83	2*57	25 61	24 08	2304	2204	21.34	19.M	1672	1632
CLARENDON	6	7536	1.74	30 4*	2* 1*	2* 76	25 04	23 97	22 95	22.13	20 7*	19.95	18 53
clarendon	*	7537	i«*	335*	31.33	30*2	2931	26 ei	2790	2? 31	2*2?	2555	am
COPE LAND	23	4920	1.1*	49 18	46.4?	45 65	44 05	42 33	40 65	36.36	36.62	35 67	3291
COPELANO	23	4921	1 43	45.51	453*	43 71	43 61	42 6*	41 22	40 04	36.60	37*3	36 26
COPELAND	23	4922	1 57	615*	50 13	47 9?	43 46	44 28	42 79	42 11	40 M	36.24	36 69
COROLLA	*	7129	IS5	43 6*	35 1*	1776	734	6 01	5 47	5 33	4 63	4 34	3 *6
COROLLA	*	7130	15*	3*50	3*97	26 31	6*3	3*1	3*2	3 5*	3 2*	2.9*	2 73
COROLLA	*	7131	1 51	30 36	33 26	134?	7 C?	fill	406	3 87	3 03	2 3*	1 99
COROLLA	9	7132	1 50	37.5*	1*27	10 18	3 9*	3 4 5	3 29	3 29	2 *5	2 44	2 33
COROLLA	ft	7133	1 57	36 3*	26 30	10 63	4 10	3 76	3 6?	3 63	3.33	3 01	2 67
COROLLA	12	*060	1 55	43 6*	35 19	17 76	7 24	601	54?	5 33	4 63	4 34	3 M
COROLLA	12	6061	15*	36 50	36 07	28 31	6 93	3.91	3 62	3 59	3.26	2 99	2 73
COROLLA	12	*062	151	3*35	33 26	134?	7.07	5.11	4.0*	3 67	3.03	2.36	1 9*
COROLLA	12	*063	1 50	37 56	18 27	10 19	3 90	3 45	3 29	3 29	2 95	2 44	2 33
COROLLA	12	6064	1 57	3* 38	26 30	1C 83	4 10	3 76	3 67	3 63	3 33	3 0 1	2 6?
COROLLA	12	6065	1.59	36 98	18 68 9 63	3 06	2 *4	246	2 2?	166	1.53	1.51
COROLLA	12	6066	1 61	36 57	16 32 9 21	297	2 41	206	1 69	1 54	1 22	1 22
COWARTS	6	4504	1 46	40 3*	34 63	31 23	2751	24.67	23.03	21 70	19.96	1660	16.76
COWARTS	6	4505	1.46	39 72	32 56	31 00	26 75	27.66	26 51	25 M	24.70	24 05	22.16
COWARTS	6	4506	1 61	35 27	31.13	29 56	26 70	25 27	24 06	23 35	22 20	21 06	1*05
COWARTS	6	450?	14?	42 23	4C 56	36 97	37 42	36 67	35 94	35 06	34 14	33 19	31 03
15.12
7.5
43
3*
196 814
17*6
78
45
2*
163 37*
17.M
75
4 5
74
164 130
13.M
7.5
4.5
*0
221 702
15 27
75
45
5
173 610
1533
75
45
13
157 600
1743
75
45
50
142 0*6
17.77
75
45
51
133 **4
14.13
7 5
45
46
1M.047
73*
7.5
45
3*
247012
U 23
75
45
*
132 256
10.94
75
45
36
1*5.9*6
1* .11
7.5
45
45
161.414
11 42
75
45
54
161.362
5 71
7.5
45
56
202 062
18 89
7.5
45
15
*1.42*
14 57
75
4 5
31
115.702
17 93
7.5
45
18
117.260
20 67
75
45
36
10*206
21 81
75
45
35
M372
2 10
7.5
45
66
207.000
1829
7.5
45
•6
1*4 623
13 39
7.5
4 5
IS
246 416
11 62
75
45
33
222 865
13 42
7.5
45
13
220.675
24 14
75
4.5
46
147 '92
1022
7.5
4.5
17
220 120
20 66
7 5
4.5
23
101 903
23 29
7.5
45
56
201 361
10.60
7.5
45
15
125 8*1
1131
7 5
4.5
13
114*32
1359
75
45
36
109 4*9
26 71
7 5
45
20
93422
2729
75
45
56
M20*
31 36
75
4.5
61
6220*
446
75 0
20
13
162 62*
562
75 0
2.0
12
161274
668
75 0
2.0
36
14*3*5
12.53
75 0
2.0
16
144.646
16 70
75 0
20
46
135 4*1
1770
75.0
20
30
M6T6
1967
75.0
20
46
*7 106
4 46
75 0
20
30
25* 600
5 62
750
20
34
2*3 144
669
750
20
45
252 4*3
12 53
75.0
20
61
251 *46
16 70
750
20
33
2*3 263
11 45
0.0
25
20
2*3.620
13 63
0.0
25
31
169.200
17 66
00
25
20
126 102
1 41
67.5
35
15
314 573
2 13
675
3.5
M
2M 067
0.76
675
35
5
314 466
1 79
675
35
5*
331929
1 64
675
38
56
331 625
1.41
67 5
35
51
215 671
2 13
675
3.5
23
1*6 15?
076
67 5
3.5
25
204 058
1 79
67 5
35
15
232 205
1 66
67 5
35
1*
1*2 6*2
1.37
67 5
35
25
206.370
1 22
67 5
35
46
236 2*1
9 75
1600

16
206641
17.72
1600

10
174 612
14 09
t*CC

15
142 564
25 05
1*0 0

33
132.014
H-13
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files





Water
Wataf
Soil
Soil
Sol


So»'

Tatoia
TaWa
Modzofl
Partda
Compo*9f*
Prat*
1Mb
Danarty
So* Watar Cootanl ivotww %) tfIrxkcalad Cap4lary Suction
Da«*h
Duration
Thickr*0i
Diamatar
Kama
Ho.
No.
(9^cc)
3.5cm 20 cm 30cm 45cm 0C cm BO err 100cm 150cm 200cm 333cm
1SK cm (cm)
(rw-3
7
1 29
5722
50 10
55 23
54.17
52 97
51 10
50 77
50 06
40 33
40 33
40 33
150
90
10
31 137
CAACKEP
13
0010
1.39
5t m
49 00
40.59
47 1J
4004
44 00
44 00
42 79
4109
41.09
41.00
15.0
0.0
20
93 755
CRACKER
15
mi
040
113 04
100.42
10071
104 57
100 44
97.00
90 00
Mil
at 47
00 54
42.99
ISO
0.0
13
90413
CAACKEK
II
0022
*
41 00
3907
30 00
37 42
30 79
34 75
34 44
3344
32 12
3f as
29 70
150
90
36
95413
CRACKER
te
aaes
*«e
yi t2
30 09
30 31
30 20
34 75
31 77
909
25 99
24 42
23 20
14.73
15.0
00
15
150 000
CRACKER
te
0024
1.55
50 3!
43 32
47 51
40 77
40 09
4&13
4AJ3
42*9
4!»
4! 52
41.52
15 0
00
33
100 591
DADE
ir
4047
133
44 74
41 40
30 49
19 39
1322
11 94
0.70
0 91
0 22
7 74
3.70
1750
20
15
244 200
DADE
17
4a*t
f 40
30 59
37 00
2295
000
3»
419
390
3 33
310
200
1.40
175 0
20
99
245 900
DADE
$7
4049
1 .47
34 72
30 92
»»4
9.30
541
4.24
302
329
300
205
0.02
1750
20
10
243.590
DAC€
1?
4050
1 54
40 07
37 06
20 00
1322
090
739
034
539
491
4 31
000
175 0
2.0
20
237 129
OAD€
17
40S1
1.50
30 00
30 02
21 00
11 09
7 47
595
490
3 93
3 51
205
042
175 0
20
0
227 302
OA MA
10
000
0 19
07 97
05 33
03 79
00 90
70 06
71 T9
7373
72 30
9999
92 02
10 50
0.0
2.5
10
330.090
0AN4A
11
001
0 11
90 03
03 19
00 54
77 20
74 57
72 29
99 54
04 53
©C 33
04.10
0 15
00
25
15
330.090
DAMA
10
602
009
00 17
07 99
05 90
01 02
70 06
75 11
71.70
00 09
01 19
56 49
3.74
00
25
10
330 090
0AN1A
ia
003
1 03
30 2S
33 70
31 30
1900
12 59
999
002
7.29
0 40
5 31
1 47
00
25
5
330.060
DOROVAN
15
4260
027
50 77
50 24
53 59
52 44
50 04
49 03
39 00
30 77
34 90
27 51
5 22
0.0
00
13
207 330
DOROVAN
15
4241
0 22
04 01
03 12
01 50
00 34
58 03
50 09
55 14
49 77
40 12
41 25
4 75
0.0
00
03
207 336
DOROVAN
15
4262
0 19
09 55
05 21
03 00
02 04
00 05
54 77
55 77
50 33
49 56
30 34
542
00
00
109
207 330
OOROVAN
15
42C3
1 73
35 09
34 77
31 35
25 53
2041
11 40
003
4 22
375
322
0 07
0.0
00
10
207.330
DOROVAN
19
7400
0 07
03 49
59 44
50 02
55 94
54 07
51 17
47.47
40 90
37 00
31 57
740
00
00
23
107 123
DOROVAN
19
7470
008
70 S7
00 10
04 45
01 34
0007
58 00
50 17
53 10
49 50
41 73
7 97
00
00
109
107 123
OOROVAN
18
7471
l.»
90 01
57 71
55 39
53 14
50 97
49 70
47 90
44 00
41 50
30 03
10 20
00
0.0
71
107 123
DOTH AN
1
75C7
149
41 92
39 00 -.
30 09
20 55
21.20
17 90
11 00
1293
11 S3
10 07
340
1200
2 0
25
254 975
dothan
1
7500
I 07
31.50
30 23
20 49
21 01
10 07
10 22
14 50
12 02
11.73
10 59
531
1200
20
54
204 203
DO THAN
1
7S0Q
1 72
34 01
33 70
32 90
30 75
20 43
27 20
20 30
24 00
2301
22 00
1357
1200
20
71
241.777
00 THAN
1
7510
1 "5
33 9C
32 00
32.10
31 50
30 06
29 32
20 79
27.93
27 34
20 23
20.79
1200
20
53
272 731
00 than
0
4517
1 53
37 00
34 03
32 04
29 02
25 00
21 S1
10 00
1031
15 20
12 97
7 48
1200
20
23
172 320
DO THAN
a
4510
1 M
30 42
31 35
20 70
25 03
23 35
21 13
19 54
17 74
1005
14 05
10 02
1200
20
20
143 004
DO THAN
e
45*0
14'
390B
34 01
32 05
30 21
20 24
20 59
25 11
23 72
22 00
20 54
14.01
120.0
2.0
41
123 139
DCTHAN
a
4520
1 40
40 57
34 07
30 75
35 32
33 72
32 47
32 00
30 70
29 02
20 49
21.07
1200
20
40
113 327
DOTHAN
a
4521
V02
30 37
37 49
37 00
35 57
34 04
34 35
33 89
32 75
32 03
30 05
21 93
1200
20
33
124 100
OOTHAN
a
4522
1 50
36 ao
37 40
37 10
30 15
34 94
34 32
33 90
32 74
31 00
30.20
23 34
120 0
20
40
120 950
DCTHAN
22
7201
1 51
37.75
31 44
29 04
25 95
23 32
19 05
19 40
1053
14 03
12 23
293
1200
2-0
13
225 471
DOTHAN
22
72B2
1 03
27 94
20 24
20 23
25 42
21 15
14.31
17 04
15 40
13 75
12 03
3.5!
120 0
20
17
195 337
DCTHAN
22
7203
1 74
29 94
29 94
20 95
27 03
24 00
21 04
21 10
19 42
1702
<0 10
009
120 0
20
09
180 360
OOTHAN
22
7204
1 75
34 06
34 02
34 33
37 47
34 03
34 34
30 12
32 24
25 92
22 05
13 10
120 0
20
40
203 459
00THAN
22
7285
' .75
32 30
32.35
31 95
31 02
30 17
29 00
20 56
27 04
20 00
24.15
14.21
12C 0
20
10
2C1 333
DO THAN
22
7256
1 50
3«96
30 93
34 52
35 72
35 31
34 75
34 35
33 01
3100
29 23
21.05
120 0
2.0
43
100 290
DOTHAN
2?
$133
1 55
3? ©
37 72
37 09
37 6*
32 11
29 05
20 37
25 60
23 87
21 10
0 57
120 0
20
10
151027
DOTHAN
21
aiai
1 M
34 51
34 20
34 20
33 35
31 50
28 54
27 32
25 78
24 22
21 00
1021
120 C
20
20
147.009
DOTHAN
27
8135
1 05
35 40
35 28
35 20
34 03
30 50
29 24
20 20
20 72
25 32
23 35
1241
120.0
2.0
30
145 030
OOTHAN
27
11*
1.72
34 57
34 45
34 42
32 94
32 30
31 07
3129
27 94
2074
>34
12 33
120.0
20
20
134.472
DOTHAN
27
1137
1 59
30 44
30 30
30 33
34 32
30 31
35 b3
3523
33 99
33 00
31 00
18 95
1200
20
20
123 040
DOTHAN
27
8130
1 50
39 07
39 50
39 33
30 40
37 00
30 74
30 21
3505
34 19
32 45
21 43
1200
20
01
117.270
DOTHAN
29
4750
1 51
30 90
30 90
30 02
27 30
24 19
21 97
20 25
11.40
17.45
15 39
770
1200
2.0
20
259 039
DOTHAN
»
4751
1 03
30.20
29 90
29 41
25 *9
*4*
23 20
22 04
21 09
20.07
19 12
12 92
1200
20
0
239 774
DOTHAN
»
47S2
1 09
32 99
32 79
ssm
27 70
20 47
25 45
24 79
23 25
22 89
21 30
15 50
1200
2.0
03
242514
DOTHAN
20
4753
1 00
33 49
33 43
33 3Sr
29 59
29 09
27 00
27 45
29.49
29 09
94 03
17.05
1200
2.0
21
247.407
OOTHAN
20
4754
1 09
34 37
Ml)
33 73
31 72
30 39
29 99
29 24
20 45
20.10
20 99
17.09
120.0
2.0
40
200 414
OOTHAN
29
4755
175
31 91
3137
3f 34
2923
27 72
29 90
2049
25 10
34 30
23 19
1001
1200
20
51
319 904
DUETT*
10
4632
133
43 CI
29 10
10 06
000
004
007
5 79
537
5 12
4 79
2 10
1500
25
0
204 009
DUETTE
tt
4053
1 42
3*00
24 00
13 90
000
4 53
423
4 Y2
390
370
399
1 S3
150.0
2-5
12
290 327
DUETTE
T0
4064
f 57
35 X
31 78
17 45
0.50
399
370
354
330
3.20
3.00
1.70
1500
2 0
107
294 462
DUETTE
14
4055
157
30 9C
1\5S
10 04
• 11
521
437
371
3 17
2.93
207
107
1509
25
41
294 249
ourrTE
ia
4454
1 00
39 00
3051
35 24
27 47
2< 80
19 10
17 47
1509
13 99
11 90
349
1500
2.5
35
293 017
EAUGAUX
9
5331
1 22
47 79
45.51
44 47
30 04
20 55
22 40
19 02
10 42
1471
12 40
3.40
225
25
15
102 505
IAUGAU1
3
5332
1.47
34 74
3001
30 05
33 5?
3oaa
17 71
14 30
9 51
795
0 12
2 15
22 5
25
13
104 510
eaugalue
3
5333
1 02
30 39
34 92
34 90
33 21
21 32
13.51
904
000
4 70
347
1.20
225
2.5
30
100 714
EAUGAUJE
3
5334
105
<1 10
4323
41.95
30 72
35 54
32 43
30 0*
27 M
20 32
24.02
003
225
25
10
(61.072
EAUGALUE
3
5335
1.47
34 as
30 24
35 00
32 24
20 42
22 00
19 S4
15 97
14 32
12 29
340
225
25
43
153 531
EAUGAUJE
3
5330
1.52
39 15
30 53
34 14
30 45
25 00
20 09
1771
14 40
12 91
11.07
3 30
22.S
25
21
150.749
eaugalue
3
5337
1 07
30 72
35.04
34 05
33 32
32 40
31.19
30.01
29 30
20 39
30.72
10 23
225
25
43
107.490
EAUGAUJE
3
5330
1 79
34 22
33 49
32 40
32 12
31 00
30 00
30 77
29 95
29 20
27.55
17 70
225
25
20
110 592
EAJGAUJE
a
4049
047
74 90
05.54
50 03
55 03
50 04
45.22
42 14
30 50
30 01
SB 05
18 44
300
25
0
193 063
H-14
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files





Wotor
Wtf*
So;
Soil
Sol


Soli

Tab*#
Table
Honioft
Pvbcto
Compear*
Protlo
Ub
Dorwty
Sol Wotor Com!volum6 %i tf Copifiary Suction
Oepth
Duufcon
Theknms
Diftmoter
Norn*
No.
to.
t*oc)
3.5cm 20cm 30cm 45cm 60cm 90cm ^00 cm iSOom 200cm 333cm
iSKcm (cm)
(mo.)
{em*
foam)
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGALUE
eaugauje
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAJGAUJE
EAUGAUJE
EAJGAUJE
EAUGAUJE
EAJGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
EAUGAUJE
ELLAfiELLE
ELLABEUf
E^AfiEUE
ELLAS ELLE
27
27
33
39
33
33
33
33
33
33
33
21
21
21
21
4»2
4959
3347
33a
9340
»ao
3351
3962
3353
9142
9143
6144
6145
cue
1147
6148
6140
4912
4613
4914
4*15
4916
4017
4616
4616
1630
1631
1632
1633
1634
1635
1636
163?
6357
6358
6356
6360
6361
6362
6363
1776
1779
1760
1761
1762
1783
17*4
3654
3655
3456
3457
3656
3656
366C
3661
3662
3663
2561
2562
2563
2564
140
157
1 37
166
1.B5
1.60
1 22
1.46
1 52
1.56
1 63
1 70
1 52
1 71
1 04
1 51
1 62
t 60
»54
1 66
1 7fi
~	17
145
1 SO
1.57
1 46
1 57
1 73
1.60
1 63
074
1 14
1.55
1.55
1 51
1 62
1.66
1.64
1 53
1 56
1 60
i 79
~	63
1 66
1 77
1 23
1 56
1.60
1 65
1 56
1 75
1 76
140
14»
t.4S
1.33
i 33
t 36
152
1 63
162
162
1 17
1 40
1 57
1.72
36 66
14 47
47 46
36 9?
41 17
40	11
46 22
34	66
MM
36	60
3663
3743
46 66
30 04
56	S6
37	96
33	13
36 53
35	53
36.60
30 60
3061
41	66
36	72
3? 47
39 26
34	96
20»
26 57
26 57
63 33
46 25
36 36
42	90
43	46
36	M
35	97
39	75
M »
34 36
32 82
32	95
37	31
36	56
33	06
52 32
37	76
36 13
36 56
40	26
33.17
33 26
46 33
49 12
41	k2
46 66
<5 56
49.12
41.56
36	39
40 76
37	33
57	74
46 62
44	36
39 06
34 06
46 16
35.60
40	19
6654
44	43
33	65
3647
34	76
37 90
3664
45	72
3611
54 47
36	65
3293
37	41
34	93
36 39
30 83
30 56
32 93
a 26
26 26
36 24
30	10
26 49
25	69
26	42
52 56
41	26
35	22
40	60
41	22
36	64
34	U
37	66
36 26
33.16
31	53
31.67
36 31
35	61
32	62
46	46
37.17
33	66
35	53
36	63
32 11
31 63
44 21
4057
36	96
44	60
43 34
42	26
39 64
37	13
39 17
37 04
54 64
45	53
42 74
36 90
»66
33 24
45 06
*4 63
66 36
36 76
4342
33	51
36 43
3264
97.71
94 45
45	56
36 07
51 75
35	72
3262
36	67
34	67
35	54
30 75
30 49
24	69
19 23
19 25
36	14
26	16
23 31
25	45
27	56
49 42
38 33
34	63
40.17
40	31
3676
33 67
35	36
33 11
30	20
31	33
31 79
35.97
35 50
31 06
46	11
35 77
32.30
35	43
36	65
31 69
31 46
43 03
36 67
36 63
4411
41	54
41	53
36 22
36 62
36 69
36 35
54 27
45 45
42	56
36.74
31.43
2695
44	43
94 36
36 16
36 51
40 66
27.01
30 65
30 05
36	50
35	96
45	36
37	00
45	75
30 30
25 03
34	56
33 10
33	53
29 66
29	65
19 06
13	97
14	11
37 26
21 SO
16 24
24.67
25	61
46	10
30	91
26	4ft
39 46
36	43
35	53
27	69
34	12
24 40
1781
1647
29 90
35	11
34 96
31	63
43 61
23 39
26.10
34	63
35	56
31 52
31	16
36	11
34 24
32	<5
42.54
3644
34	74
37.21
35	15
37	75
3603
52 96
4260
42 47
36	45
22	15
1661
43 66
33 17
36	CO
37	74
37 12
1668
25	18
24 51
33	17
31	93
48 29
37 63
39	06
1946
1643
32	65
29 60
31	95
26	92
29 57
1651
11 36
11 06
36 46
1936
14 66
21 62
24 60
43 64
24 87
24 41
36	87
37	65
32	56
24 42
32 74
16 17
11	33
12	50
29 19
34	39
34 40
31 02
40	36
18 06
1636
34 06
26 60
31	05
30.66
23	65
2045
14 64
3016
32	35
26 92
1763
31 30
33.66
29.31
5t 62
30.47
36 54
33	38
16 45
10	}7
42 61
27.56
37.76
37 66
93 47
16.03
20	06
1606
24.61
21	11
44 30
37.57
33	02
1393
11	91
28 66
21 64
26	90
27	15
26.33
1493
943
i.75
35 74
16	It
13	06
20	48
24 23
42 14
21	11
18 65
37 17
34	22
20	00
21	32
31	50
14	66
7 69
6 98
26	60
33	54
34	06
30 51
37 70
11.46
11 03
32	65
23 92
30 36
30.45
17	60
13 10
6 >7
37 01
27	00
21.76
6.40
27 76
30.63
19.73
46 75
33	10
27.30
31.71
1366
741
4146
20 67
37.0!
96 70
31	00
1306
1646
1590
10 10
15	15
44	14
37 26
90 36
11.10
605
24	66
15.97
25	27
25	66
28 18
1356
6 56
8 4$
34 73
17 22
12	02
19 21
23 77
41.32
16	02
16 55
34 13
27	66
14	62
19	53
26	53
13	36
611
400
26 37
33 24
33 81
30 34
95 60
045
7.71
32	13
21 55
30 15
20	56
15	10
1067
740
36 44
25 67
1067
6 10
25 59
28	77
15 81
48 20
29	43
2341
30	82
11.70
561
96 60
1690
36 03
35	66
29	75
11 31
1497
11 56
14 54
It 16
43 26
36	67
26	66
6.07
477
20	60
11.40
1000
24 13
27	26
11.24
663
7.18
32 53
1540
0 00
17 13
22 26
30	26
16 67
14 54
27 59
21	42
11 57
16 29
22	06
11	34
4.61
4	16
27 37
32	21
33	35
90 00
92 90
7.46
5.76
90 60
10	11
2067
2003
12	66
645
5	70
32 43
23	52
17.17
449
22 24
25 15
11	82
36 67
25 37
1306
29 91
10 64
5 16
37 60
15	51
3540
64 63
24 26
692
1351
10 06
1260
644
42 50
36 30
24 02
660
346
16	65
6.76
17	10
23.10
25.82
11.17
657
7 07
92 26
15	35
063
16	66
22 15
37.66
1507
12	17
24 10
1906
10 13
13	46
21	76
10 86
439
391
26 46
31 29
33	32
26 64
20 06
666
S.20
20 64
1603
20 40
26 06
11.47
7.40
4.67
30.57
22	14
16.16
4.03
20 11
22	66
10 10
34	64
23	55
803
28 63
871
406
94 46
13.70
33 90
93 31
21 91
690
11 61
8 72
11 25
826
41 27
36 70
21 81
565
300
16 70
6 37
1466
21 73
24.89
1C2I
566
6 76
30 13
14.16
6 55
1526
20 63
36 54
1254
560
20 20
16 01
654
4 65
11 15
053
3.70
366
23 01
2647
32 20
26	06
28 31
566
436
27	62
16	40
20 14
28	11
044
567
4 51
27 33
20 11
13.01
3.22
17	07
10.55
6 16
90 60
20 56
630
27.63
252	30 0
1.26	90 0
3 06	90 0
2.29	90 0
10 70	300
13 16	90.0
656	225
1 06	22 5
226	225
1 79	223
236	225
1 87	22.5
26 48	22 5
90 42	22 5
621	225
233	225
1 65	22 5
3 46	22 5
1	36	22.5
2	82	22 5
606	225
13 37	22 5
300	225
1 43	22 5
1	10	22 5
5.07	22 5
6	60	225
2	77	22 5
7.87	22 5
11.27	22 5
660	22 5
3	91	22 5
266	225
4.03	22 5
2	91	22 5
3	56	22 5
2.17	225
4	72	22 5
2	30	22 5
0 73	22 5
0 54	22 5
300	22 5
3	52	22 5
15 32	22 5
1142	22 5
7	67	225
2 64	22 5
250	22 5
6 50	22 5
344	22 5
15 47	22.5
16.04	22.5
4	52	22 5
210	22.5
164	22.5
6 06	22.5
661	225
4 70	22 5
1.00	22 5
744	22 5
0 62	22 5
3.42	22 5
0.63	0 0
602
1 16
604
00
00
00
25
25
25
2.5
25
25
25
25
25
25
25
2.5
25
25
25
25
2.5
25
25
2.5
25
25
25
25
25
2.5
2.5
25
2.5
25
2.5
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
2.5
25
25
2.5
2.5
25
25
2.5
2.6
25
25
3-0
30
30
30
17
91
56
21
36
90
13
12
11
10
53
10
86
26
16
16
36
7
36
54
17
13
10
13
93
12
96
10
99
54
10
15
36
20
10
26
63
23
10
31
25
16
18
33
66
23
15
96
7
23
53
44
15
10
16
6
7
29
99
21
12
56
96
10
20
30
216065
167.960
162.174
166 156
192.967
193.004
166 685
169 666
160.961
176.455
171.060
174.640
106.670
113.013
176 663
166 077
166 066
160 815
163076
162 046
149 261
134 226
347 539
338 035
340 567
206 665
194 123
272 632
307 069
245 945
164 544
187.625
168 966
164 702
164 625
180 678
100.071
164.212
2264*6
210.067
215561
106 631
162512
204 505
152.307
210.136
101 456
211 018
166.600
190 703
148 320
151 561
151.803
130	229
142 448
147 5t3
154 407
141 173
131	307
146.652
120.344
131.065
140 347
116.156
H-15
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files
Soi
Component
Narr«
Soil
Profto L*b Q«n«ty
W»t«r Water Soil Soil
T«We Table Horizon Par&de
0*p1h Duration Thickft«»i Diameter
~a.Som 20em 30am ~4Sorr 60 cm 8Qorn~lQ0^m 1Sbcm 200 cm 333 cm 1SK cm (cm) (mo.)	(cm)	(um)
Soil Water Conteri (volume %} at tnteted Cepdiary Suction
€LL4B£LLE
ELLA8ELLE
EUABEUE
ELLOfld
EUORES
ELLOft££
EliOREE
EU.OPEE
EUjOREE
ESCAMBIA
ESCAMBIA
ESCAMBU
ESCAMBIA
ESCAMBiA
ESCAMBIA
ESCAMBIA
ESCAMBIA
ESCAMBIA
ESCAMBIA
ESTE»0
ESTERO
ESTEPO
ESTEftO
ESTEHO
E5Tlt<>
ESTERO
estewo
ES'EflO
EU*QU
EUNOLA
EUNOLA
EUNOLA
EUNOLA
EUNOLA
EUNOLA
EUNOLA
EUNOLA
EUNOLA
EUNOLA
EUNOLA
EUNOLA
EUNOLA
FACEVtLLE
FACEVILLE
FACEVILLE
FACEVli£
>;ev*j_e
vceville
FACEV)U_E
FACEVIUJE
FACEVILIE
FACEWU£
FACEVILLE
FELOA
FELDA
FELOA
FELOA
FELOA
FELOA
FELOA
FELOA
FELOA
FEUJA
FELOA
FELOA
FELOA
21
21
2*
31
51
31
St
31
31
31
3!
31
si
7
7
7
1ft
16
16
18
18
10
26
26
26
26
26
26
26
26
5
S
s
5
S
29
29
20
26
29
29
3
ft
3
}
3
3
3
4
ssts
2m
2967
TO!
7002
7003
700*
7006
7006
4784
4769
4780
4787
4784
4799
4770
4771
4772
4773
3164
3155
3166
3167
3166
3169
3170
3171
7421
7422
7423
7424
7425
7426
0937
6936
6639
6940
694!
6942
6943
6944
4499
4900
4502
4503
nu
2356
2357
2356
2359
3677
3676
3679
>660
3661
36S2
3663
7579
7560
7561
7962
7563
7564
1 60
1.72
V66
163
1 66
f 64
1 66
I 60
1 61
1 36
149
1 95
1 63
1.75
1.77
1.75
1 60
1 75
1.70
0	14
1	60
1 68
1 72
1 66
1 74
1 71
1 65
1 67
1.56
1 69
I 70
1 67
1.73
1 64
1 44
1 61
1 61
1 65
1.S4
1 64
1 56
1 46
t 61
1 75
• 63
1 63
1.56
! 66
1.56
1 56
1 64
1 26
1.63
1 46
1 59
1 87
1 61
1 69
1 72
I 74
I 37
1 42
1 56
I 57
» 57
1 63
66.64
34 !P
43 47
a 11
J? 64
27 *
23 19
95.02
45.30
36 06
34 63
34 8C
as 14
30*
32 47
27 66
32	76
33	26
63 03
36 09
36 90
40 4C
40	62
36 49
39 66
34	79
34	93
35	66
31	65
32	60
36	83
33	«P
26 32
35	10
36.06
36	69
36	06
41	36
37	23
37 76
39	4C
36 04
33 26
B«
3646
36	15
33 59
41	64
42	88
43	20
52 20
31 96
42	SQ
37	26
36	31
41 S3
37	14
36 74
35 69
4906
47 42
37.24
40.00
43	40
40	56
34 33
33	36
41	01
37 90
27 2*
31 8»
25	64
3241
34	89
44 47
36 03
34	06
31 38
30	42
26	65
26 90
26 61
31	62
32.40
62 06
35	66
35	50
36	36
37	96
35 23 •-
34	66
33 46
33 12
39	>4
3' .60
32	27
35	24
33	00
26 14
32	43
35 27
3112
35 6?
3861
35 21
35	16
36	10
33	64
31	CS
33	76
36	63
37	17
32	64
4] 34
42	34
41	71
52 11
31.63
42	04
36	63
35 40
40	42
35 36
35 0?
34	13
43	69
44	14
37	14
39	92
40	76
34 26
34 02
3337
40.73
37 32
2* 66
1047
2996
31 65
>4 22
44 22
67 96
34 02
29	20
27 8«
2754
27 22
26 46
31 57
31	61
61 77
34 25
39 00
36	23
37	63
34	66
33	66
32	65
32 23
35	26
30	36
32 10
34	99
31	n
25 95
29 69
32	6?
34	07
35	01
3? 49
34	06
33	63
3? 66
32 50
29 78
32 51
36	25
36	03
32	U
41	05
42.21
41.71
51 95
31 36
4160
38	80
35	22
39	91
35 21
34	66
33	97
42	06
41 39
35	04
37	92
36	71
35 94
*3 71
>3 13
40 72
34.72
23 73
26 20
23	40
30 91
33	61
36 66
34	14
30	32
26 93
25 56
25	72
26	45
25	60
31	16
30	33
60 21
33.96
27	03
35	07
33 53
32	96
32	09
31	96
31 44
24	30
23 57
31	74
33	90
30 53
23 9?
2571
28	85
3) 14
33 65
3642
32	72
29	29
36	97
30	95
26	64
31	67
3566
3961
27.77
41 34
42.21
41 29
51 91
26 22
36 66
32	96
33	60
36 07
33	66
33 3?
32 66
41 11
40 95
32	99
33	07
36 09
35 37
3340
33 10
40.72
30	70
194*
20
22 14
30*
33 13
37.83
31	44
27	87
26	16
24	47
25	95
25.26
24 99
30 63
30 07
79 04
32	09
24 31
32	29
28	63
27	56
26	69
26 66
26	23
17 83
16 66
27	22
33	69
29	82
22	25
21	66
23	74
26	56
33 06
35 65
3' 55
24	58
30	22
29 27
27	72
31	13
35 26
35	37
24	81
41	1?
42	21
41 16
51 62
27 46
29 16
25	60
27 86
36	78
33 3f
32	57
31	75
39 22
39 27
21	94
22	22
36 S3
32	66
33 13
33 06
40 72
23.84
14	44
13	58
2C38
29	56
32	75
35 56
26 47
26 10
23 86
2346
23	99
24	44
24	40
30	30
29.77
76 86
31	55
20 06
1643
15	93
14	99
14 06
13	66
1327
14	80
1366
26 36
33	21
26	4$
20 16
16	31
18	91
25	90
31 92
34	47
29	83
19	66
16	43
27	91
27 02
30	62
34 63
34 60
22 43
41	10
42	16
41.17
51 60
26	36
16.31
17	42
20	67
34	15
31	95
31 '4
30 32
36 48
35	63
12 90
12 73
34 35
26 95
32	98
33	06
40 60
19 11
11 76
10	56
f6.83
26 40
91 83
34	46
26	26
29 27
22 43
22	66
23	19
23 96
23	61
29 84
29 36
76 15
31	63
1673
11	99
11	18
10 23
9 87
699
8 72
1320
12.29
29 91
32	87
27	99
19 34
13 98
16 15
24	36
31 30
33	65
29	03
19	04
8	50
26 II
26 48
30	27
34	41
34 80
20	92
40 85
4142
41.16
51 79
2571
1393
12	59
15 60
31	07
26	56
27	31
24 31
34 15
32	55
9	3/
9 12
32 26
22 60
32 48
33-06
36 42
14 36
686
626
17 $4
27	55
30	64
32.01
26 23
22 83
21 04
21	24
22	30
22 96
22 78
26	98
28	65
77 23
31	77
13.07
994
632
6	07
7	65
7 56
7.22
10 93
10 02
2501
32	40
2651
17.63
1064
13.03
21.99
30 07
32	66
27	26
16 64
496
24	90
25	67
29	87
33	81
34	18
16 64
4C92
40.03
41 02
50 94
23	60
10	04
678
11	14
26	80
21 01
20 36
19 55
26	75
27	36
656
6.57
26 97
14.40
6188
33 08
36 56
1292
740
7 49
1979
26 69
30 08
3067
25 09
21 62
20 01
20	44
21	60
22	33
22	26
28	47
21	49
69 96
30	33
11 41
7 22
7 17
6 75
6	13
586
5.27
IC 23
906
20.72
32	03
25	51
1661
9.57
1! 63
20.67
29	13
31	66
26	06
1990
4 23
23	90
24	74
29 15
33	21
33 66
1696
40	04
39 65
41	02
50 62
22	78
641
7	57
934
24	40
1785
17 06
16 34
25	39
24 06
561
577
24 14
1227
31 58
33.02
37.22
998
548
5 97
13 71
23 90
27 44
Z? 60
22	94
16 36
1782
16 66
20	37
21	46
21	36
27.13
27 39
4	75
30 02
827
5	57
566
505
462
429
4.01
669
7	79
19	13
27 4 7
23	96
15	36
766
964
16	23
26	96
2966
23 44
1401
343
22	17
2291
27	95
32	31
33	27
1471
37.41
36 27
40.69
4863
21.06
8	98
674
695
21.93
14 01
1359
1235
20	14
18 79
452
4 78
21	02
10 30
6 50
624
23 97
00
0.0
00
3.83	160
261	150
1 77	150
7.11	15 0
9 26 80 0
6.38 800
7 84 60.0
7.74	60 0
9.21	60 0
9 65	60 0
12.02 60 0
14 00	60 C
1944	60 0
21 39 60 0
2.33	15 0
27 71	15 0
192	19 0
0.64	IS 0
0 76	15 0
0.61
0 56
ISO
15.C
050	150
045	150
2.59	60.0
3 14	80 0
11 25	600
16 23	60 0
13 56	60 0
966	60 0
173	600
304	800
9 55	60 0
15 74	60 0
1784	600
13 14	60 0
606	600
090	600
U 32	160 0
1636	160 0
2060	1600
26	13	160 0
26.76	160.0
526	1600
27	39	160 0
27.35	160 0
26.76	160 0
37.58	160 0
14.91	1600
3 11	ISO
2	77	150
3	42	15 0
10.18	190
6 08	15 0
6	33	15 0
5 36	15.0
7	25	15 0
8	30	15.0
1 22	150
100	150
10 31	15.0
4	66	190
30
3.0
30
30
3.0
30
3.0
30
30
20
2.0
2.0
20
20
2 0
20
2.0
20
20
60
60
60
60
60
60
6.0
60
6.0
25
25
29
25
25
25
2 5
2 5
25
25
25
25
25
25
4 5
4 5
45
45
45
45
4 5
4 5
4 5
4 5
4 5
4.5
45
26
94
25
23
20
15
49
61
36
15
6
7
13
15
16
25
71
15
18
13
6
12
16
35
15
10
31
78
23
25
16
15
78
43
16
12
21
23
43
25
23
36
30
34
13
36
29
36
36
91
20
6
26
40
56
16
35
13
26
15
15
16
16
118	919
119	025
92 586
197 632
190 600
195	577
178 726
166 2S7
175 73'
236 521
295.924
246 127
290 606
222 700
278 034
276 762
323 117
126 274
146 327
192	667
187.883
194 038
196	242
169 863
169 568
193	962
196	806
197	507
162 644
173.846
151.711
129 162
144 968
142.777
152 000
144 214
116 936
79 465
71 343
101	369
134 969
134 221
156 087
123 772
114 921
102	627
92 529
219 167
133	316
113.989
81526
60 637
216 185
146 997
146 086
142861
121.203
134	619
133 738
151 408
196.086
160664
161 961
162.3*0
137 965
195 109
H-16
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files
Sol
Compoo9rt
Soil
Pjo<*•	0«rsity
Sod Water Content (voijme %) * Indicated CapiHary Suction
Nam*
No.
fe.
(tfee;
3.S or*
20 cm
30 om
45 om
60 cm
80 om
100 cm
tSOcm
FELDA
4
rsafi
1 66
40 04
36 96
aaot
S3S4
34 64
1663
1173
793
FELDA
4
75*6
1.63
4011
36 63
JP 37
32 4#
31 37
1034
6 50
436
FELDA
9
4451
1.37
45 69
4132
34 51
X6E2
17 92
W 16
1296
11.27
FELDA
1
4452
1.54
as ao
36 51
3i aa
u u
UJfi
tt26
649
997
FElDA
5
4453
1 61
36 15
»M
32*2
1965
13 76
616
&25
532
FELDA
5
4454
1.72
35 66
33 6B
32 67
29 39
23 77
177Q
14 90
n $r
felda
5
4455
1.74
34 50
33 62
13 30
33 00
3126
31 *2
90 90
29 92
FELDA
t
4456
1 62
37.6ft
37.56
37.40
37 14
36 96
36 17
35 96
33 57
FELDA
5
4457
1.65
36 46
36 12
35 69
35 16
34 52
33 96
3366
33.11
FEL0A
7
3113
1 46
42 47
40.57
39.87
37.96
35.12
30 U
1971
1399
FELDA
7
>114
1 55
41 33
39 61
39.07
37 12
34 42
29 76
16 63
13 02
FELDA
7
3115
160
39 99
37 94
37 50
37 49
3649
32 02
22 10
1700
FELDA
7
3116
136
45 70
40 76
39 56
36 27
sa
36 42
36 32
37 50
FELDA
7
3117
1 5C
43.64
41 01
36 99
3623
37 66
37 66
37 25
36 95
FELDA
7
3116
1 ?C
36 20
M 14
34 27
3391
33 66
33 19
32 76
31 32
FElDA
7
3119
I 72
37 33
35 75
33 52
35 17
3? 65
31 12
30 75
30 09
FELDA
7
3120
1 75
35 32
33 67
32 16
30 76
29 45
26 23
27 95
27.44
FELDA
7
4464
1 30
46 73
40 64
33 36
19 27
15 61
12 47
11.34
10 16
FELDA
7
4465
t 43
41.94
36 65
27 65
13 26
926
654
5 65
461
FELDA
7
4466
1 50
36 66
34 32
27 60
1646
13 67
11.52
10 69
1000
CELDA
7
4467
1 55
35 97
3361
29 59
23 53
21 16
1673
1795
16 64
FElDA
7
4466
1.5*
M 66
33 '5
23 90
1326
956
7 24
671
6 10
FELDA
7
4469
162
39 44
33 72
32 17
26 6?
26 91
25.03
24 35
22 60
FELDA
10
6002
1 29
45 44
44 13
42 04
39 95
34 26
26.30
22 24
1766
FELDA
10
6003
1 55
35 04
34 66 *
34 63
32 06
22 90
1461
1001
530
FELDA
io
6004
1.59
32 66
32 39
32 31
31.36
23 61
1575
10 57
552
FE^DA
10
6005
1 64
365*
3# 36
3564
35 S3
33 68
32 13
3C96
29 CI
FELDA
to
aooe
1 52
42.24
42 04
4201
4> 97
41 81
40.46
40 06
36 93
FElDA
10
6007
1.66
ssn
35 36
35 24
33 64
32 03
26.71
25 35
16 51
FELDA
10
6006
166
3S.66
39 31
35 26
34 03
31 57
26 91
25 65
19 52
FELDA
10
9009
1.66
36 94
3661
36 47
36 13
32 51
27 91
20 67
1347
FEl3A
11
4009
1 53
37 74
34 75
32 26
26 31
21 96
17 10
14 01
11 31
FElDA
11
4010
1.64
35 76
33 49
30 59
25 22
16 35
11.57
6.41
6.09
FELDA
11
4011
1 57
35 66
32 44
25 53
20 96
14 66
11 22
640
653
FELDA
11
4012
1 61
36 60
33 15
26 00
23 33
17 12
13 39
10 13
7.93
FELDA
11
4013
1 66
37 51
36 47
36 06
35 90
34 93
33 72
3266
31 53
FElDa
11
4014
1 79
33 40
32 35
31 90
31 61
30 67
30 67
30.14
26 46
FELDA
11
4015
1 77
31 76
30 96
29 43
26 79
27 56
26 64
26 23
25 12
FLEMtNGTON
19
3541
143
37 16
36 35
35 43
29 49
24 60
21 06
18 62
1539
Fl£MINGTON
19
3542
f 29
50 0*
49 60
46 35
46 67
47 16
46.20
45 33
44 06
FLEMINGTON
19
3543
1 25
55 71
55 15
54 97
54 30
54 22
53 66
53 63
53 22
FUMINGTON
19
3544
1 27
5$ 42
54 76
54 67
53 55
52 51
52 36
52 34
52 26
FLEMIHGTOH
19
3645
1 34
52 72
52 47
51 60
51 56
50 57
49 97
49 67
49 69
remington
19
3546
1 44
46 97
46 31
47 45
46 96
4661
45.90
45 69
45 31
FLSfcUfcGTON
20
1666
1 32
46 02
45 40
41.29
37 63
34 04
30 64
29 29
27 26
FUMINOTOH
20
1666
1 27
52 96
52 62
51 76
60.57
50M
49 40
49 16
4651
FIEMINOTON
20
1670
1.17
57 50
57 4 f
5# a#
5a 66
*as
5*63
5641
56 00
FLEMINGTON
20
1671
'22
56 7C
S6 9*
5623
MAS
5
55 32
SS25
5511
REMINGTON
20
1672
via
57 at
V 10
57 17
56 19
5$ 61
56W
55 63
5597
FLEM'NGTON
27
2145
121
46 52
43 21
4! 93
aoA
36. ft
37 22
39 05
3369
FLEMINGTON
27
2146
1 <•
Maa
56*2
56 19
56 01
56 66
55 44
55 33
a *3
FLEMiNGTON
27
2147
t 14
57 11
56 67
$6 42
56 27
56 07
55 74
55 69
55.41
REMINGTON
27
214®
1 12
57 34
57 02
56 64
56 61
56 22
55 96
55.90
55.52
REMINGTON
27
2149
1 11
57.82
57.31
57.07
56 79
56 43
M 10
9601
55 66
FLORAL*
21
4696
1 36
41 61
40 66
37 71
34 04
32 17
30 04
26.21
24.79
FLORALA
21
4699
1 65
34.04
32 57
29 60
27 35
25 16
23 26
21.69
1900
aOfULA
21
4900
1 71
34 25
30 22
29 12
26 64
24 56
23 09
22 13
1999
FLOftALA
21
4901
1 74
34*
32.67
32 03
31 31
30.21
29 26
26 61
2940
rosala
21
4902
1 67
36 36
36 94
36 90
36 63
3646
36 22
35 54
33.76
ROfULA
2t
4903
1 40
49.93
46 60
46 56
46 32
46 19
47 37
47 22
46 24
RORALA
37
5131
1 31
46.07
45 47
43 65
41 62
3942
36 96
34 37
29 76
ROflALA
37
5132
1.57
35 S3
35 39
35 26
33.99
30 90
27 73
25 56
2276
ro«au
37
5133
1.59
33.14
32 60
31 67
29 93
2771
25 46
23 63
21.39
P.OftAU
37
5134
1.63
26 56
27 42
27 30
25 96
24 56
23 17
22 05
20 43
ROflALA
37
5135
1 66
32 55
31 69
30 97
29.74
26 S3
27 45
2641
25 01
FICAALA
37
5136
1 65
34 22
33 00
32 17
31.07
30 16
29 09
26.15
26 65
Water Water Soil Soil
TaW* Tabt* Horizon Parte*
D#ptfc Duration Th*knaet Diamator
15K om
tcm|
(mo.)
(cm)
chit*5
1.99
15 0
45
12
161 540
054
15 0
45
*9
1*4 370
119
is.o
45
5
196.949
171
15.0
45
13
219922
0 97
150
43
33
223 205
1.96
15-0
45
7
221 902
12 23
ISO
4 f
31
197.096
1703
150
45
33
161 152
1627
15.0
45
61
179 619
3.67
15.0
4.5
10
151.990
236
150
45
Ift
139.516
466
15.0
45
33
134 319
17 23
150
45
10
111 966
1691
150
45
21
96 Ml
11 12
ISO
4 5
15
119 M3
944
150
45
15
120 065
2.42
15.0
45
94
141 423
4 23
150
45
6
242 660
1 42
150
45
30
250 517
4.37
150
4.5
26
233.073
960
150
4.5
40
221 960
2.15
150
45
74
249 6U
1027
150
45
25
222 401
4 17
15 0
45
19
144 679
1 93
150
45
19
136 790
1 19
ISO
45
17
136 215
356
15 0
45
6
131 474
11 90
15 0
4.5
30
106 021
292
ISO
45
26
119 642
2 27
ISO
4 5
56
137.242
1 53
150
45
30
136.336
395
150
4 5
10
207.429
1 69
15.0
4.5
16
220 762
1 92
150
45
25
216 257
1 35
150
4 5
26
220296
12 69
150
4 5
33
197.436
10 92
15.0
4 5
35
201 244
945
150
45
56
199 541
696
525
2.0
13
142 220
40 12
52.5
2.0
15
69206
SO 34
52 5
20
40
57 494
50 50
52 5
2-0
46
54253
49.57
525
2-0
43
46 MS
44 59
525
2.0
43
95 531
1290
525
20
9
137)60
37 59
525
20
15
57917
4640
525
20
a
90.950
AIM
525
20
46
35 399
54 74
52 5
20
14
49209
14 94
525
20
13
131572
46 06
52.5
20
20
55225
47 47
525
20
56
46.024
4619
52 5
2.0
n
25.275
4661
525
20
36
13 990
5 52
90.0
20
16
306 903
7.J4
900
2.0
36
161 ®7
646
900
20
15
167 671
13 52
900
20
46
171 404
25 22
900
2.0
51
99.651
33 96
900
2.0
36
39404
4.99
600
20
20
170 115
804
900
20
10
111.937
859
900
2.0
13
163 310
6.90
900
20
19
161 912
9 95
900
2.0
10
160 309
11.79
600
2.0
29
167.974
ase
366
>0.12
• 17
4 66
047
un
32 30
32 0*
1221
11 36
15 52
37 34
MU
30 42
20 23
26	54
056
4	23
0 35
15 73
5	57
21.26
15	M
4 74
4 30
27	22
36 33
17 06
16	76
11 62
10 74
556
606
7.47
30.77
27.20
23	67
13 74
43 25
52 60
51 47
4IH
44.59
25	97
46 07
56 76
54 90
54 74
32.2t
54	63
55	07
55 12
U2e
22 66
1642
19 47
26	00
3365
45 66
24	60
20.97
2001
10 27
24.07
25	76
5.11
MS
*33
5	64
3.00
•	31
27 25
31 36
30.90
•	02
*71
13	14
36 62
36 06
26	20
27	16
645
6	65
3 72
656
14	57
5 19
10 49
1392
426
353
23	66
37.22
1366
13 03
9	76
10	22
506
5 42
4.07
26 96
2* 24
20 00
11.46
41 90
52 51
51	35
46	S2
44.59
24	36
47	16
54.52
52	56
W 74
29 67
53	34
52 33
5163
5162
1947
16	47
17	66
* 15
32.15
44.93
22 67
11.20
17 62
17 31
22 00
24 17
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files





Water
Water
Soii
Sol!
So4


Seal

TaWe
Tab*
Horizon
Particie
C&vpcmft
ProOfl
lab
D«r*rfy
So* Water Content (volume %) ri Irxfccatftd Capillary Suction
Depth
Dur atari
Thioknaai
Dtameler
Nam*
No.
Ma
(QtCC)
3.5cm 20cm X em 45cm 60cm ®0cm 100cm !50em 200cm 333 om
15Kcm (cm)
(mo.J
(cm)
Oim)
FUXVlA
37
•137
1.70
•4 76
34 66
33 96
FLOfWLA
fl
5136
~.77
32 97
82 06
31.97
FIOODAM
17
1747
1.40
4140
4C33
39.10
FVQWD ANA
17
5744
13*
36 U
34 44
31 79
aOffCAK*
17
5749
1 t*
30*
29 93
1991
FLOftOANA
17
»7S0
1.99
4049
3913
39 42
FLOW0ANA
P
5751
1 62
40 1*
4001
mm
FLQWDANA
17
5752
1.79
*3 49
3337
3179
FLOttDAMA
1?
S7S)
1.76
32 42
31.69
3094
FLOttOANA
17
5754
163
39 63
34 33
37 9®
FlOaOANA
17
57SS
1.7»
32 90
32.72
32 44
FLOW D AHA
22
2456
ISO
42 40
37.69
3837
FLOW DAHA
22
243?
1 54
40 66
36 54
35.15
FLOftDANA
22
HU
1 63
34 90
32 56
29 41
FLCWDANA
22
24S9
1 57
35 12
30.9 '•
23 13
FL Oft DANA
22
2460
1 63
36 73
32 34
30 90
FLOW04NA
22
2461
1 76
3?40
34 67
33 72
FLOW 0AH*
22
2462
1.75
37 55
35 27
33 09
FLOftlOANA
22
2463
1 61
36 00
33 29
32 90
FLOftOANA
22
2464
1 67
41 06
39 20
39 85
FLOW DANA
22
2465
1 63
36.36
33.70
32 96
FlOfitOAHA
2*
493C
091
61 44
90 39
56 37
FLOWDAHA
2S
4931
1 36
4^.06
46 49
44 99
FLORIDA**
25
4932
1S1
43 32
42
37 56
R.ORIOAKA
25
4933
177
33 79
33 43 ^
33 1?
FLORID ANA
25
4934
1 76
3' 74
3C 22
26 69
^.OffcDAKA
35
4212
1 4€
40 21
30 00
36 51
FLOW0ANA
35
4213
1.59
33 32
32 S3
32 74
FUOqiCAKA
35
4214
160
34 99
34 62
34 37
FLORID ANA
35
4215
1 36
47 33
47 25
47 24
FLOAlDANA
35
4216
1 60
34 61
34 14
33 85
FLORID ANA
35
4217
1 63
34 42
33 60
33 49
FLUVAQUENTS
20
4335
1 35
44 23
43 42
43 0!
PJJVAQUEKTS
20
4336
1.30
43 74
42 2fl
41 57
FLUV AGUE NTS
20
4337
1 36
45 32
43 97
43 19
FLJVAOUCWTS
20
4336
1 37
43 26
42 12
41 46
FL'JVAQUENTS
20
4339
1.59
39 95
37 93
37 23
FLJVAOUEKTS
20
4340
1.S7
40 07
36 69
39 22
FlUVAOUENTS
20
4341
1 62
40 11
39 06
36 64
FLUVAOUCNTS
20
4342
114
40 32
39.54
36 33
fujvaqjents
20
4343
1 37
43 66
41 66
41 09
FRlPP
1
6156
1 46
42 S6
41 65
36 S3
FWPP
1

1.44
40 97
39 64
26 35
F»PP
t
6156
1.40
36 93
36 47
24 33
FRJPP
I
61S9
1 40
41 06
40 42
37 14
FWPP
19
2329
1 11
50 71
40.50
33 35
FRlPP
19
2329
1 37
40 14
34 56
Jt.Ot
FfcJPP
19
2330
1.36
42 22
3921
39 79
FWPP
19
2331
1.49
39 92
36 76
36 70
FftPP
19
2332
i 51
39 53
3949
36 11
FBlPP
27
3615
000
000
030
000
FUJPP
27
3616
132
46 40
44 07
39 20
FWPP
27
3617
t 26
47 72
42 24
36 30
FRlPP
2?
3616
135
43 51
41 75
36 9?
FRJPP
27
3919
141
41 \7
39 47
36 79
FUQUAY
i
4070
1.53
31U
31 17
26 44
FUQUAY
S
4071
t 63
34 79
32 22
31 21
FUQUAY
5
4072
1.60
33 07
26 48
23 39
FUQUAY
S
4C?J
1 56
27.27
25 60
24 69
FUQUAY
S
4074
1 87
35 66
33 20
30 42
FUQUAY
5
4075
1 65
35 06
31 76
30 60
FUQUAY
S
4076
1 64
36 30
31 06
29 80
FUQUAY
5
4077
1 63
32 39
22 66
2C 99
FUQUAY
7
6017
*•4
39 60
35 94
34 66
FUQUAY
7
9016
1 66
32 33
31 S3
29 35
FUQUAY
7
•019
1 66
34 26
32 90
30 04
*3.96
MM
2143
11 74
UM
37 79
2>4S
37 90
1231
MM
31.34
?3 A5
16 48
29 6?
*3 05
32 97
31	99
UI3
32	75
87 A3
44 M
33	7*
33 03
27 12
37 00
27.21
27 99
46.60
33 20
33 00
41 66
40	06
41	57
40 2«
»M
36 33
36 77
3624
39 79
14	20
1249
SO 40
16	39
19	24
1565
15	50
2iU
K 12
000
23 97
20	S3
17	64
2~ 20
2* 20
23	93
16	66
22 13
26 40
29 16
26 42
1960
33 37
24	41
24 S3
3266
30*
27.61
»56
696
Mm
39	94
Jpm
»to
37 22
32 to
2317
36	73
20 03
15 49
26 62
32 46
32 39
31	5!
37	IS
32	15
55 01
42 60
25 27
32	66
25.97
34 66
1639
22 56
46 S3
3t 70
31 61
40	14
36 64
40 06
36 47
3359
34 :2
34 29
33	56
36 97
7 65
694
5	67
6	02
1664
IS 97
15	69
25	42
24 96
000
1232
11 09
946
931
1662
20	06
17 16
21	27
26	63
29 09
27	S6
16	74
30.46
20 19
20 56
31.97
29 00
tt.92
22 64
7.24
35	94
3611
2*99
29	22
36.77
SV17
1994
22 56
1796
13 S3
2109
31 96
V 96
30	68
3671
31	80
St S3
40 99
1921
32	31
24	65
30	U
13	91
17 10
46 03
X 24
29 30
36	87
36.75
3621
36 74
31	66
32	09
32 16
31 66
34 16
S 25
4 62
4.03
4	75
10 43
5	81
466
S 64
522
000
601
7 49
619
5.07
17 07
14	36
16	09
1845
25	47
26.94
26	39
17	94
21 07
1601
1742
8106
27 96
22	62
20 42
6 52
36 sa
*5 92
29	30
27 26
36 35
30	5*
1926
2037
16.27
12.32
27 37
31	57
31 36
29 67
36	37
31.53
46 97
40 19
16 44
31 77
23	95
26	91
11 56
14 56
45 16
29 4?
27	89
37	93
36	09
37	6*
36 16
3127
3! 60
31 69
31 10
33 63
492
4	72
3M
424
10 22
5	11
431
4	71
5	04
000
9.52
6	54
565
4 90
16	11
1725
14 65
17	99
24	55
26 U
2ft 60
1734
1730
16 37
1547
29 99
2«U
20 02
17 70
5 59
*4 72
34	91
29	S3
2654
36 17
2942
1367
17.98
14 69
11.16
2S43
30	91
3062
26 66
35	75
29	96
4S03
36	29
1347
31	13
22	67
23	67
9.23
11	6$
44 26
26 27
26 06
36 21
34	89
36 72
35	11
30.52
3071
30	64
29.67
32	66
4 52
4 27
3 39
3	79
634
494
3.99
449
4	01
0.00
5	40
5 72
5 26
4 07
14 76
1535
13 96
1590
22 65
24	76
24 49
1642
13 94
U 17
12	65
29 33
29 00
16.31
16 24
5 M
34 21
34 09
27 90
29	92
34	90
reo
1236
1635
14 13
10.31
23	97
30	42
30.20
26.41
35	36
29 42
42	34
36	96
11 95
30.07
21-24
21 49
906
1025
43	26
27 13
24	29
34 22
33	07
34	47
33 06
2661
26	92
29 12
27	75
31	03
3 59
3	49
271
2 65
763
441
369
409
346
000
4	99
5	40
4 97
3.91
13M
14 27
11	91
14	SS
21.74
23 78
23 60
15	57
12	33
12 69
10 93
27.79
*.37
1162
13 97
4.41
S3 04
30 51
20 26
*64
22.96
SIS
10.97
14.96
12 75
9 15
20 96
77 79
28 26
26 21
34 44
26 26
36 55
33 46
945
27.91
17	37
18	22
6 79
664
42 09
25	36
20.95
33	79
32 46
34	22
32 57
28 76
26	06
2642
27	14
30.74
336
296
246
246
740
4.41
3.67
396
330
000
4 12
464
4 27
3 47
12 SO
12 42
tO.77
12.70
19	70
22.32
22.30
14 34
10.56
II 16
6 75
1343
900
20
93
146 996
9.91
900
2.0
41
176697
S.73
35
4.S
13
296.499
475
35
45
23
296.200
1 14
35
4.5
15
335 134
19.17
3.S
45
25
226 443
1336
3 5
45
10
220.380
12-90
35
45
8
203 472
11.09
II
49
41
201.999
12 50
38
4 5
36
299 490
14 29
3.3
45
30
196 005
401
00
45
5
276 264
4 17
0.0
4 S
5
277 996
4 91
0.0
45
15
274 249
405
00
4 5
26
265 296
712
0.0
45
10
261 370
11 40
00
45
30
274 316
17 26
00
4 5
33
276 346
18 19
0.0
45
26
255 236
32 33
00
4 5
15
227 714
26 21
00
4 5
36
226 232
11 25
35
4 5
IS
232567
4 96
35
4 5
41
226 475
1 36
35
45
43
247 467
956
35
4 5
36
196 S3C
7.94
3.5
4 5
66
248415
4.92
00
60
33
166 799
1 56
0.0
60
20
172 785
2 19
00
6.0
16
172 379
21.74
0.0
6.0
46
136 177
11 66
00
60
51
147.260
971
00
60
35
152 704
30 56
150
4.5
15
9.976
27 94
150
4 S
31
3.394
32 31
150
4 5
1S
6769
26.69
150
45
20
43 001
2107
150
4S
26
156 237
21.76
ISO
4.5
33
174.393
23 21
ISO
45
40
142 314
22 56
15 0
45
16
116 726
26 55
15 0
45
12
40576
1 S3
160 0

10
162.579
1 61
1600

66
177 743
1.13
1600

M
156.396
1 16
160.0

63
155.791
364
1800

15
156 690
218
160.0

61
154.141
1 77
160.0

61
155.410
1 95
1600

61
149 765
2 14
1600

31
149 446
000
00
60
2
153 092
173
00
60
8
1S3.074
1 63
00
60
13
155 385
2 11
00
60
99
157 553
245
00
60
61
156 436
4 73
150 0
1.5
13
299 639
505
1500
15
17
296 914
5.65
1500
15
36
262 251
7.41
1500
1.5
23
260 S99
11 56
150 0
1.5
45
260 244
17.13
1500
VS
21
264 719
1490
1500
1.5
33
297 869
929
1500
1.5
15
40? 066
253
1500
1.S
16
156 161
ft.30
150 0
1.5
35
149 549
2 95
1S00
1.5
15
139 393
H-18
-------
Table H-l (Continued)
State-Wide SoU Horizon Physical Properties from STATSGO Data Files
SaJ
Component
Nomo
Soil
ProUft Lo£> 0«n*jty
No. Wo. (gfcc)
Soi Wolor Coolant (ydum» %) < tfl&cotod CopiHofy Suction
2.5 am 20 cm 30cm 45cm 6C cm 00cm 100cm 150cm
Wator Wotor Sod	SoM
Tofeto TiM Horizon Porbda
Dtptt Durrton ThKkrtmt D*rf«tor
15K cm
(cm)
(mo.)
(cm)
Oimj
505
150 0
M
30
132 052
1305
1500
13
25
120 0*2
1842
1500
1.5
71
12133ft
2.53
150.0
13
20
19ft 107
530
1500
1.5
30
100 719
205
150 0
15
23
201.999
505
1500
1.5
2ft
195 429
1395
150.0
15
40
200.05ft
1092
1500
1.5
5ft
243.791
595
1500
15
10
205 000
5.47
1500
15
ft
225 000
8.29
150.0
15
40
2!ft.277
9.32
150.0
1.5
2ft
219.323
1201
150 0
1 5
15
19590ft
14 71
150.0
15
41
181 177
1200
150 0
15
53
214.120
7 52
190 0

18
214 340
404
1900

15
215 400
40ft
190.0

41
210000
«4ft
1900

63
20® 400
542
190 0

71
207 500
422
#7.5
20
15
93 307
364
•75
20
10
94 016
3 76
•75
2.0
11
94722
6 76
•7.5
20
22
60 302
1221
•7 5
2.0
13
93 53ft
1265
•75
2.0
7
®3 073
13 16
•75
20
39
64 026
1265
97 5
20
10
02 345
7 03
97 5
20
76
134 043
10.55
150
20
23
15C000
1642
150
2.0
43
150 000
530
150
2.0
ft
14ft.O90
10 43
150
20
50
131 231
1695
15.0
20
3ft
103.150
17.99
15.0
2.0
41
92.30ft
13.11
0.0
9.0
15
209 827
999
00
ft.O
fti
209 687
175
00
ftO
3
20ft OftO
0.47
00
ftO
7
349 74ft
19.90
00
60
23
210036
16.20
00
60
41
213.34ft
622
00
60
25
272 737
9 28
00
60
26
305 233
15 91
15 0
50
15
175 506
694
15.0
50
51
175 Sftft
11 76
150
5.0
10
194 470
16 62
150
5.0
3ft
149 517
23 70
150
5.0
12
150 591
23 96
150
50
13
154.797
21 53
150
80
20
103 926
11 53
150
50
40
220 234
42ft
300
4.0
20
140 09ft
1.74
300
4.0
23
145 3ft5
031
300
40
25
151 130
14 53
30.0
4.0
1ft
116 865
IftJft
300
4.0
44
97634
23 31
300
40
3ft
110 742
12.96
30.0
4.0
35
177 IftC
273
309
4.5
20
123 641
1.12
300
45
21
127 934
001
300
4.5
43
126 603
ft.59
300
45
04
77.764
4 94
30.0
45
35
124 545
3 79
300
4 5
15
135 149
240
300
45
15
134 004
FUQUAY
FUQUAY
FUQUAY
FUQUAY
FUQUAY
FUQUAY
FUQUAY
FUQUAY
FUQUAY
FUQUAY
FUQUAY
FUQUAY
FUQUAY
FUQUAY
FUQUAY
FUQUAY
GAINESVILLE
GAINESVILLE
QAJWSV1LLE
GAINESVILLE
GAINESVILLE
GARCON
GARCON
GARCON
GAftCON
GARCON
GARCON
GARCON
GARCON
GAPCOfi
GATOR
GATOR
GATOR
GATOR
GATOR
GATOR
GATOR
GATOR
GATOR
GATOR
GATOR
GATOR
GATOR
GATOR
GATOR
GATOR
GATOR
GATOR
GATOR
GATOR
GATOR
GATOW
GOLOHEAO
GOLOHEAO
GOtOHEAO
GOLDfCAD
GOUJHEAO
GCLOMEAD
GOLOHEAO
GQUJHEAO
GOLD HEAD
GOLD HEAD
GOU3HEAO
GOLD HEAD
GOLD HEAD
GOLDHEAO
7
7
7
ft
1ft
1ft
11
1ft
11
30
M
30
30
30
M
30
73
7)
73
73
73
3ft
M
3ft
30
38
U
3ft
3ft
3ft
7
7
7
7
7
7
12
12
12
12
12
12
12
12
19
Ift
t<
16
1ft
1ft
1ft
1ft
24
24
24
24
24
2ft
20
6020
•oat
9022
¦'•Oft
7ft07
7ft0ft
7000
7ilC
7ft11
20*6
20ftft
2007
ZOftft
20M
2070
2071
7704
2705
270ft
2?07
270ft
5130
$140
9141
5142
51-43
5144
8145
514ft
5147
7057
705ft
7050
7060
70ft 1
7062
SMS
5470
5471
5472
5473
5474
5475
547®
5730
5740
5741
5742
5743
5744
5743
S746
•Sftft
•5*7
e5M
•590
•000
«ftC1
6002
•724
•725
ft72ft
«727
6721
•735
ft73ft
175
1 74
1 9ft
I.ft4
Iftft
164
I 75
1 74
Iftft
1.3ft
M5
1 55
1.73
f 74
1 7ft
1 74
1 4ft
1.41
1 43
1 52
1 4ft
1 21
1 4ft
I 50
1 61
1 5ft
1 55
1.5ft
I 56
1 6ft
0 54
0	66
1	50
1 6ft
1.74
IftS
02ft
0	15
1.1ft
l.ftt
1	40
164
1 7ft
? ft?
0 31
0	tft
1	23
1 50
1 4ft
1.51
1 «?
1 70
1/49
1 00
1 62
1 00
1 75
1 7?
1 75
1 33
147
1 50
1.54
1.52
I 23
142
20 04
32.20
30.00
JftftO
3233
34.20
20.04
32	20
3ft Oft
41	10
41.30
30 90
33	37
3ft 10
JSC
3ft 01
42	3ft
3fl|7
30 ftft
30 m
40 03
4ft 10
39	Tft
3ft 40
3ft 30
3ft 70
40	53
30 67
30 14
20 05
71.06
50.20
35 47
34	74
35	36
3ft 10
01 34
•7.24
3447
32	43
47.70
30	07
26 12
33	60
77 44
•3 7
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files















Water
Water
Soil
Soil
Sod


Soil











Table
Table
Horizon
Particle
Compor>ert
Profile
Lab
Density


Soil Water Ccntert (volume
fit Indicated Capillary Suction


Depth
Duration
Thickness
Diameter
Name
NO.
No.
(^cc)
3.5 cm
20 cm
X cm
45 cm
60 cm
$0 cm
8
o
3
150 cm
200 cm
333 cm
15K cm
(cm)
(mo.)
(cm)
ium)
SOLD HEAD
26
6737
1.48
40 00
3062
37.76
35 28
30 22
23 95
19 27
14 64
13 03
1066
3 02
300
45
54
130 847
GOLD HEAD
20
6738
1 56
42.73
41.65
4M9
39-21
37 72
36 50
35 26
31 45
28 65
24.94
11.42
300
4.5
51
87.76!
GCCDH£AO
20
6739
1 80
40 33
3960
39.36
39 IS
38 87
38 54
36 29
35 90
35 06
32 38
18 24
300
45
68
66.371
GREENVILLE
26
1000
1 63
35 04
32 17
30 56
26 33
22 03
20.17
19 07
17.10
16 10
13.76
6 90
1800

23
192.804
GREENVILLE
29
1901
1 62
36.66
35.02
3341
31 51
29 73
28 44
27 60
2562
24 82
23 34
15 70
180.0

18
179 546
GREENVILLE
26
1002
1 63
34 03
32.74
32 35
31 57
31 06
30 65
30.20
28.63
27.96
26 70
19 77
180.0

40
177.915
GREENVILLE
2*
1003
1 64
3601
33.74
32 26
31 13
30 33
29 50
26 60
27.19
26 52
2521
1765
180.0

43
166.468
GREENVLLE
26
1004
1.76
33 66
32 40
31 80
31 19
30 33
30 18
29.87
26 54
28 04
28 63
19 73
1800

31
100 137
GREENVILLE
26
1005
1 76
35.47
3226
31 22
30 85
30.50
29 89
29 25
26 24
27 36
26 24
1955
160 0

48
215.151
GRIFFON
3
6600
1 17
50.10
45 75
44.11
41 42
39.44
38 03
36 87
34.26
32 94
29 55
10 62
15.0
30
8
U1.611
GRiFTON
3
66)0
1.43
41.24
37 74
3487
31 68
29 44
27 01
2547
22.74
21.97
20 28
7 11
15.0
3.0
22
135.148
GRirroN
3
Mil
1 55
33.77
32 22
32 08
29 90
27 57
25 72
24 51
22 53
22 03
21 53
6 77
150
30
18
113595
GRiFTON
3
6612
1 50
45 65
45 42
42 96
42 II
41.39
40 68
40 46
30 44
36 72
36 87
21 23
150
30
33
93 442
GRIFTON
3
6613
1 53
43.60
43 49
41 68
40 96
39 67
38 85
37 78
3576
34.62
32 18
18 65
15.0
3.0
50
93 888
GRiFTON
3
6614
1 62
36 77
38 22
37 49
36 C7
34 46
33 22
31 78
29 19
27.7S
25 48
13 82
150
30
17
138 427
GR'FTON
3
6615
1 72
33 51
32 37
3! CS
28 74
23 42
18.40
15 03
11 73
10.65
0.15
3.90
150
.1 0
26
238 948
GRiFTON
3
6616
1 75
30 81
28 92
27 35
25 17
22.94
21 39
20 23
18 70
17.98
16 57
564
15.0
3.0
20
271 447
HAILANCALE
3
7437
1 29
47 60
41 96
37 02
26 94
22 27
16 90
17 49
15.12
1403
10 56
3.16
150
2.5
8
214 560
HALUNDALE
3
7436
1 50
43 71
39 59
36.35
24 03
1582
11 28
951
7,55
8 72
5.30
1 56
150
2.5
15
22C 162
KA LLANO ALE
3
743»
1 51
44 10
38.60
33 82
20.06
1362
10.19
873
6 97
8.26
4.98
1 54
150
25
7
217,110
HALLANOALE
26
1137
1.40
22 ca
18 78
14 24
9 12
6 30
466
3 98
3 78
304
2 68
1 15
15.0
25
15
268 371
kallanoale
26
1136
1.61
21 86
18.34
1362
8.74
8 02
4 38
364
299
263
222
0.55
150
2 5
23
266 609
HANOSBORO
44
2881
0.14
52 36
51.16
50.55
49.12
43 22
47.79
47 52
47 04
46 33
581
4.55
00
6.0
51
35 265
HANDSBORO
44
2882
1 32
41 17
4001
39 11
38 24
37 31
36 66
36 32
35 71
33 88
33.36
29 62
0.0
6.0
51
35285
HANDSBORO
44
2883
0 66
48 78
47 03
45 66
44 63
43 12
41.96
41 54
40 76
39 65
24 16
19 56
00
60
60
20 068
HANDS0ORO
44
2384
1 38
42 66
41 59
40 42
39.77
36 82
36 96
36 31
35 13
34 14
33 94
32 46
0.0
60
56
20.066
HICORIA
16
6042
0.81
64 53
62.33
61.79
60.97
59 99
56.75
57.59
55.20
5295
46 55
10.00
0.0
4.5
15
150.000
HICORIA
16
6043
1 OS
50 56
4931
47.57
44.08
40 12
36 58
34 54
3C 93
29 61
24 98
5.19
00
45
15
206 000
HICORIA
16
6444
1.64
33 14
32.56
32.47
2897
19 95
13.31
7.62
441
404
354
1,20
0.0
45
15
206 715
HICORIA
16
6C45
1 73
33.01
32.16
31 22
30 30
29 56
28 69
28 29
27 61
27 05
24 93
5.97
00
4.5
15
169.07S
HICORIA
16
6046
1 72
35 85
35 60
35 54
34 49
34 00
33 48
33 09
32 44
32.04
31 27
(0 47
00
4.5
15
159 4S1
HICORIA
16
0047
1 76
34 20
33.95
33.08
32 17
31 89
3' 48
31 29
30 69
30 28
29 44
11 49
00
45
15
196 566
HJCORtA
21
1673
1 50
4154
41.26
40 68
39 41
37 54
34 26
31 38
22.11
19 58
1604
572
0.0
4 5
20
127.126
HICORIA
21
1674
1 54
36 44
37 16
36 64
35 35
32 22
28 06
2362
14 35
11 80
8.95
3 19
0.0
4 5
18
137 803
HICORIA
21
1675
1 64
36 49
35 53
35 35
35 23
34 15
30 72
23 81
1V47
9.39
7 66
2 18
00
4 5
8
141 900
HICORM
21
1876
1 87
34.67
34.30
33 61
33 44
33 28
28 50
22 58
706
6 09
5 08
3 61
0.0
4.S
10
147,534
HtCORIA
21
1677
1 66
37 14
36.94
36 78
36 75
3S90
35 65
35.44
34 62
34 49
33 03
18 39
0.0
4 5
51
104 628
hflCO^IA
21
1670
1 78
31 56
30 76
30 32
30 14
29 92
29 20
28 59
27 34
26 16
22 70
691
0.0
4 S
43
122 768
HICORIA
21
1670
1 80
33.55
3248
32 17
31 84
31 52
31 08
30.91
30.57
29.74
29 27
18 31
0.0
45
53
72651
HOMOSASSA
16
0
1 56
36 27
37 39
35 77
34 22
33 04
31 97
31 50
30 65
29 28
29 23
29 28
7.5
6 C
18
174.539
HOMOSASSA
16
3363
1 25
57 22
56 15
55 23
54.17
52.97
51 16
50 77
50.05
48.33
48 33
48 33
75
60
8
88 715
HOMOSASSA
16
3384
1.39
5' 68
49 88
48 59
47 13
46.04
44 66
44 00
42.79
41.09
41 09
41 09
7.5
e.c
38
114.508
HOMOSASSA
16
3365
159
36 72
34 51
32 67
31 16
30 44
29 35
28 99
28 33
27 02
27 02
27.02
7.5
6.0
18
174 539
HOMOSASSA
16
3366
1.65
35 51
33 62
31 88
30 36
29 34
23 06
27 84
27 44
26 13
26 13
26.13
7 5
60
22
172 937
HOMOSASSA
15
3367
1 66
33.57
32 16
3» 28
3C.Q7
26.78
27 72
27 43
26.89
25 41
25.41
25 41
7.5
6.0
23
172 792
HONTOON
13
1306
0.18
87 71
82 00
7948
76.12
7363
70 44
68 56
85 15
62.06
56.68
9.40
0.0
6.0
!3
150 000
HONTOON
13
1307
0 14
86 12
79 89
77 50
75 24
73 81
71 26
69 83
66 16
62 39
54 05
7 17
00
60
30
150 000
HONTOON
13
1306
0.14
89 27
96.79
84.39
81.36
79.40
75 66
73 96
71 03
66 10
60 62
879
0.0
6.0
31
150.000
HONTOON
13
1300
0.11
93.47
88 83
85 81
61 64
79 64
76 61
73 93
69 05
64 67
57.56
7.36
00
60
30
150 000
HONTOON
13
1310
0 13
92 44
84 18
81 90
77 91
75 13
71.18
68 91
62.66
58 53
49 78
6 13
00
60
90
150 000
HONTOON
16
3563
0.21
84 81
78 55
76 26
74.16
72 89
70 79
69 20
66 37
65 03
56 56
8 67
00
60
18
148 310
HONTOON
18
3564
0 20
85 06
79 32
77 07
74.91
73 48
71.20
66 48
67 55
65 77
50 82
8.57
0.0
6.0
23
148.310
HONTOON
18
3565
025
75.73
7223
70.90
66 56
67 22
64 07
63 61
61 13
59.22
54,60
9,72
00
60
20
146.310
HONTOON
16
3566
022
72 57
69.96
66 52
67 04
65 64
64 57
63 26
60 87
58 77
41 46
5 65
00
60
79
146 310
HONTOON
16
356?
162
70 87
6853
66 89
65 43
83 56
62 67
61.67
5949
57 56
6.81
1 78
o.o
6.0
38
140.729
HONTOON
18
3S66
165
69 93
67 75
65.83
63 96
62.80
60.45
S9 80
58 62
56 66
822
1,14
0.0
6.0
26
146 800
HURRICANE
1
4115
1.41
4372
3041
20.06
14 55
12.16
10.46
957
8 35
7.68
664
255
82 5
30
15
310.415
HURRICANE
1
4116
1.41
4339
34.05
24.96
17.67
1509
1321
12.17
10.76
10 66
8 63
2.66
82 5
3.0
10
312.677
HURRICANE
1
4117
1.54
37 13
32 02
21 19
15 30
12 96
11 54
10.70
9 42
8 79
7.64
222
82 5
30
31
293 670
HURRICANE
1
4U8
1 57
36 32
3146
24.62
1690
13 57
11 56
1044
8 78
7 99
6 72
i 8a
825
30
30
295 175
HURRICANE
1
4110
1.62
34 06
31 27
22.34
18 03
14 26
1256
10.81
10.36
9 07
7.91
1 28
82 5
3.0
44
306216
HURRICANE
1
4120
1.60
37 97
33.10
31 93
29 91
28 31
26 98
26 14
24.65
24,17
2341
827
82.5
30
10
333 509
HURRICANE
1
4121
1 50
34 25
3061
27.99
25 01
23 02
21 32
20 18
1842
17 63
16.38
391
82.5
30
63
362 531
HURRICANE
2
5634
1.33
37 05
32 20
27 61
18 76
1352
11.00
9.43
8.01
7 14
6 02
1 77
82 5
30
13
156.749
KURAJCANE
2
5835
1.44
33 97
31 42
27 60
1746
1241
985
8 44
693
622
5 13
0 85
82 5
30 '
12
156.666
HURRICANE
2
5636
1 40
36 42
31 66
26 30
15 76
II 32
9 16
7.71
6 56
581
4.90
0 85
825
3.0
49
158.572
H-20
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files
Water Water	Soil	Soii
Soi Soil Table Table	Horizon	Particle
Component Profile Lab Density Sol Water Content (volume %) at Indicated Capillary Suction Depth	Duration	Thickness	Diameter
Name No. No. (gfcc) 3.5 cm 20 cm 30 cm 45 cm 60 cm 8C cm 100 cm 150 cm 200 cm 333 cm tSKcm (cm) (mo.)	(cm}	(urn)
HURRICANE
2
5637
1.49
36 53
37 56
30.00
14 11
8 88
676
5 39
4 16
3 51
260
0.31
82 5
30
66
158 757
HURRICANE
2
S636
1 56
35 M
33.94
31.28
2592
18.80
1356
11.30
9.44
8 45
7 10
1 26
82 5
3.0
26
158 115
HURRICANE
2
$639
1.56
36 96
36 17
33.69
2422
16.19
11.46
055
777
6 82
566
0.56
82 5
3.0
35
161.602
HURRICANE
4
6617
1.63
37 90
35 90
32 12
1966
1283
10 48
893
7 22
6 40
526
096
82 5
30
5
276.660
HURRtCAItf
4
6616
1 56
41 03
3666
26 52
1705
10 00
796
7.02
5.60
502
4.12
0.77
82.5
30
18
266.704
HURRICANE
4
6619
1 54
42.07
31.15
23.99
14.85
11 10
912
809
703
628
5.50
1.11
825
30
51
271.753
HURRICANE
4
6620
1 61
44 03
3660
31.34
19.69
1526
13.11
11 96
10 77
9 96
460
066
825
3.0
33
273 515
HURRICANE
4
6621
1 75
29.76
24.41
1743
13 82
12 20
1091
10 10
9 16
866
7 19
280
82.5
30
25
251 009
HURRICANE
4
6622
1 68
35 15
31.56
23.24
15.91
11 75
9.17
766
666
604
462
0 72
825
3.0
15
260.073
HURRICANE
4
6623
1 73
35.53
30 74
24 35
17.76
1544
1426
13.41
12.13
11 36
0.46
1.14
82.5
3.0
36
266.605
HURRICANE
4
6624
163
36.81
30.51
2364
1656
12 56
10.84
960
605
844
724
083
625
30
20
260.465
HURRICANE
7
7S36
1 45
44 22
35 66
25 82
16 30
1340
W 55
10.41
9.07
8.46
7.11
1.58
62.5
30
15
306 229
HURRICANE
7
7539
149
45 95
39.47
33 88
28 98
2772
26 91
26 43
25.92
7.09
5 63
1.31
82.5
3.0
43
307.778
HURRICANE
7
7540
150
41.42
28.49
19.19
11 97
957
3 02
731
626
5 89
494
1 14
825
3.0
36
304 496
HURRICANE
7
7541
1 53
42 47
26 74
16 98
e 64
6.44
529
4.64
4.14
3.91
312
0 67
62.5
30
28
296.367
HURRICANE
7
?S42
1 59
36 01
2687
18 S3
10 05
7 61
630
5.71
466
456
3 55
0 40
825
3.0
61
302.071
HURRICANE
7
7543
MS
39.11
22 61
16 75
12 35
1038
9 06
8 39
730
7 05
5 96
2 26
625
3 0
20
367 189
HURRICANE
11
4623
1 32
47.11
42 56
33 27
29 70
21.44
16 53
U.19
11.43
1038
8.75
2 24
825
30
18
157 607
HURRICANE
11
4624
1.30
45.36
41 45
36.19
25.64
17.56
(3 52
11 45
9.14
6.34
728
1.86
•2.5
3.0
35
175 OM
HURRICANE
11
4626
1.46
41 93
40 69
40 SI
29 SI
18.97
12 49
9 92
7.70
7.06
6 02
1 36
62 5
3.0
46
173 073
HURRICANE
11
4S26
1.54
39 22
37 67
37 64
26 82
1760
1141
8 25
5 97
532
4 42
1 20
625
3.0
36
178 975
HURRICANE
11
4627
1.56
37 62
36 76
36 61
35 97
•9 46
tC 27
694
4 56
4.01
3.32
0.50
825
30
43
173 942
HURRICANE
11
4626
1.61
36 25
37 19
36 26
34 23
23.82
1547
12 24
9.69
893
7.96
1.87
82.5
3.0
29
168 206
HURRICANE
U
6219
t 40
42 69
36 78
3SS6
2S01
1622
12 11
10 23
847
7 72
6 57
1.54
82 5
30
13
160 2&4
HURRICANE
It
6220
1 44
41 25
38 81
37.00
26 59
1564
11 32
9.55
7.72
7.07
609
1.50
82 5
30
12
1S8 819
HURRICANE
II
6221
1 45
39 04
37 58
35.72
21.51
12.78
9.07
741
5.87
5.31
4.52
0.99
82 5
30
33
159800
HURRICANE
11
6222
1.44
42 07
40.62
36.53
21 56
12 86
9.27
7.72
6 27
5 72
4 04
066
62.5
3.0
41
159 903
HJRRICANE
11
6223
1.46
39 64
36.62
3541
•7 92
10 36
561
4 06
3 24
306
266
O 16
82 5
30
74
161 114
HURRICANE
11
6224
1 47
40 56
38.71
37 19
20 64
1202
7.76
5 89
4 25
3.78
300
029
82 5
30
23
158 878
HURRICANE
11
6225
1 50
43 03
42.16
40.92
29 65
1909
11 90
9.53
7 56
684
560
063
82 5
3.0
7
150.113
HURRICANE
ie
4411
1 16
51 21
47 66
37.63
25 93
1965
1631
14 42
12 70
11 99
10 54
372
62 5
3.0
20
160 163
HURRICANE
16
4412
1 39
42 36
38 86
31 92
21 69
1^ 38
12.10
1087
9.02
8 52
7.05
1 82
82 5
30
26
186 ee2
HURRICANE
ie
4413
1.52
36.19
34.65
29 94
19.79
14 33
10.52
8.95
666
8.40
523
1.46
82.5
30
35
162.245
HURRICANE
1#
4414
1 69
34 14
32 26
29 93
26 <9
20 56
14.44
11 53
8 76
7S8
7.10
228
82.5
30
61
160 245
HURRICANE
ie
4415
1 73
31 72
30 29
28 78
26ft&
23 09
17.81
15 19
12 18
11 36
913
1 31
625
30
23
173175
HURRICANE
16
4416
1 61
38.75
36.71
34.71
33 94
.13 00
32 16
30.49
25 49
22.10
17.24
4 15
625
30
36
177.545
HURRICANE
16
6901
1 39
43.66
26.46
1926
13 56
11 30
1009
9 13
830
726
6.70
1.86
62.5
30
13
400.013
HURRICANE
16
6902
1 56
41.97
28 64
18 16
11 44
9.45
8 37
7 48
660
5 96
558
1 49
62.5
30
40
362 710
HURRICANE
16
6903
1 63
35 94
21 69
16 71
11 91
958
836
7.40
661
5.61
5 35
1 27
625
30
26
303 822
HURRICANE
16
6904
1 66
34 22
29 26
14 57
10 09
6.65
7.96
7.17
628
5.52
496
1 21
82 5
3.0
59
387.046
HURRICANE
16
6905
1 64
30 61
18.15
9 91
703
595
541
4.79
436
3 91
3 72
044
825
30
63
384 911
HURRICANE
18
7943
1 36
39 26
36 63
30 13
24 17
20 80
1721
13.79
12.00
10 66
936
344
829
30
6
289 242
HURRICANE
16
7944
1 65
34 63
32 02
25 52
13.96
1025
846
7 59
6.64
597
526
111
820
3.0
10
309 501
HURRICANE
19
7945
1 65
32.78
29 62
23 68
II 96
850
6 85
5 96
4.89
4 26
3 63
t C2
820
30
23
296 909
HURRICANE
18
7946
1 59
36 66
31 28
19 75
1042
7 52
6.20
5 53
4.64
4.09
3 23
1.30
82 0
3.0
20
289016
HURRICANE
16
7947
1 58
36 56
34 39
19 21
956
6 92
5.64
4 88
4.03
346
3.02
0.74
820
30
26
379.623
HURRICANE
IS
7946
1 59
35.66
31 10
20.70
11 26
7 88
S.91
490
382
3 18
2.48
0.32
62.0
3.0
71
296 646
HURRICANE
18
7040
1 70
29 32
26 11
23 13
14.75
1093
869
7 57
6 16
539
4.69
1 34
82 0
30
28
301 126
HURRICANE
IB
7950
1.70
31 63
26 04
25.08
1362
890
6.66
5.61
4.37
3.72
320
0.20
82.0
30
15
298.956
HURRICANE
32
4774
1.31
49 97
32 07
19.89
1536
1379
12.50
11 46
10 26
9.46
773
214
82.5
3.0
13
349 560
HURRICANE
32
4775
1 34
45 79
27 63
1527
10.71
943
836
7.60
5 74
6 39
583
2.05
82 5
3.0
23
356.641
HURRICANE
32
4776
1.40
40 73
26 17
13.77
9.66
S 62
7.62
7.15
624
5 86
542
2.10
625
3.0
20
341.706
HURRICANE
32
4777
1.56
35 93
2708
1536
11 51
10 44
920
864
7 61
7 25
6 56
2.61
625
3.0
23
343.047
HURRICANE
32
4776
1 56
3$ as
27 04
19 72
1569
14 05
*2 94
1221
10 15
a 74
882
3 58
82.5
30
40
316842
HURRICANE
32
4779
1.81
33 23
26.76
16.66
1526
14 01
12.35
10.24
1C.09
953
7.73
3.35
62 5
3.0
41
360.566
HURRICANE
32
4760
1.72
34 66
26.97
19.02
15.44
14.04
12.66
1254
10 11
966
694
373
62.5
3.0
43
363.947
HVDAAGUENTS
4
1793
0 49
76 96
76 92
74.97
72 60
70 54
68 42
65 38
62.50
59 32
S4 34
856
0.0
60
15
173.174
HYCRAQUENTS
4
1794
1.20
55 33
54 65
52.36
5\88
50 86
50.06
48.70
47.49
46.17
43.46
11 75
0.0
60
43
186.608
HYDRAQUENTS
4
1798
1.44
44.66
43 65
41 40
40 35
39 24
37 99
36 96
35 93
35 02
33 36
1259
0.0
60
33
164 024
HYDRAQUENTS
90
9907
1 32
55 47
54 13
5315
52 26
51 27
50 13
49.14
47 33
46.15
42 28
13 36
0.0
6.0
20
127 297
HYDRAQUENTS
90
9908
1 65
49 37
47.63
46.23
45 17
44 06
42.38
41.90
40.36
38.64
36.76
1523
0.0
60
68
186 608
HYDRAQUENTS
99
9909
1 59
39.41
37.79
37 26
3555
34 61
32 77
3205
30.75
26 77
26 89
1266
00
6.0
115
2(7.601
HYDRAQUENTS
90
9921
1.19
56 26
55 92
55 70
55 24
5507
54 89
54 65
54 20
54 06
51 24
43 14
00
60
6
23 827
HYDRAQUENTS
99
5922
1 11
56.31
57.83
57.62
57 15
56 97
56.68
56.48
56.12
55.98
50.17
4202
0.0
60
106
10.S51
HYDRAQUENTS
90
9923
1 20
56 66
56.64
56 32
56 03
55.64
55 61
55 52
55 36
54.67
53 52
44 35
0.0
6.0
86
26450
IMMOKALEE
2
7015
1 07
50 fiC
4546
44 83
41 48
37.07
31 65
28.10
22 64
1663
16 93
731
30.0
30
13
155 674
H-21
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files
Water	Water Soil Soil
Serf	Soil	Table	Table Horizon Particl#
Component Profie Lab Density	Soil Water Content (volume %) at Indicated Capillary Suction	Depth	Ouration Thickness Diameter
Name	No. No, (g/cc)	_20cm 30cm 45cm 60err 80cm 100cm 150cm 200cm 333cm iSKcm {cm) (mo.)	(cm)	(nm) _
'MMOKALEE
IMMOKALEE
immokalee
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKAuEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
MMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
'MMOKALEE
MMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
IMMOKALEE
MMOKALEE
(MMOKALEE
IMMOKALEE
12
12
12
12
12
12
12
12
13
13
13
13
13
13
13
13
14
14
14
14
14
1?
17
17
17
17
17
17
7cie
7017
7on
7019
7020
7021
7022
7023
5275
5278
5277
527t
527ft
5290
5201
5282
5283
5561
5562
5563
556*
5565
5567
1229
1230
1231
1232
1233
1234
1235
5CS3
5094
5095
5096
5097
5098
5099
5100
3656
3657
3658
3659
3460
3661
3662
3693
5700
5701
5702
5703
5704
5705
5706
5707
5029
6030
6031
6032
6033
591
592
593
594
595
596
597
1 41
1.47
I 49
t 59
1 53
1 60
1 61
1.55
1 39
1 17
1.47
1.21
1 33
1.45
1 52
1.55
1.63
1 19
1.44
1.37
1 36
1 49
1 54
1 25
1 38
1 44
1 58
1.11
1.42
1 46
I 36
1 56
1 62
1 35
1 56
164
1.67
1.57
1 36
1.51
1 43
1.56
1.56
1 63
1.56
1.62
1 25
1 56
1.57
1.57
13?
153
1.47
1 64
1.39
1.54
1.60
1.51
1 57
1 46
1 56
1 58
1 56
1.57
1 54
1 54
4006
3661
33	66
35.65
37 72
36 50
34	30
36 75
44	58
47	83
36 04
42 83
42	M
3574
3d 15
36	65
34	13
50 60
37	76
33	93
43	23
36	II
37	44
45	23
37	95
37.36
35	35
54 50
44	59
43 G6
41 78
34.13
31.98
43 66
36	86
36.28
35.89
38	10
45	04
39.86
41 06
35 83
34.66
34	26
38	57
37.96
48	33
33	96
39	88
34	W
45 46
37	65
43	79
37 6*
44	43
35	81
31 54
39 22
39.19
39.76
39.44
36	06
36	45
32.78
3601
37	36
37.49
36 33
31 74
33 43
36	31
33	42
3365
34	94
42 06
38.65
29 92
35	27
3591
33.71
33 04
33.97
3242
4793
35	26
37	69
39.27
37.59
36	69
29 63
27.97
25.78
26 94
52 94
4201
41 24
38	47
31	31
29.45
41	67
33 92
32	76
33	69
35	13
42	96
38	22
33	15
34	77
33 12
33 36
3? 58
37	11
43	22
30.87
36	66
32	06
40	83
36.67
41	39
36	33
41 36
34.17
30.74
37.31
38.21
39	12
38	79
37	53
31	58
25.61
33	78
32	27
36 92
36 06
31	13
33 06
36	21
33	17
32	92
34	64
32	05
26.16
22.97
32.46
33	13
31.41
25	12
28	76
27	56
4739
35	<9
37	66
36.73
35.40
35 09
22	33
18 60
14 07
18 62
52 67
41 26
40	33
23	53
1?0S
17 51
41	36
32	85
29	c a
31 25
35	01
40	96
38.09
37 76
34	61
32.40
33	16
35.69
36.55
41	15
2649
31 05
2424
40 35
34	49
40.42
36	20
35	35
26	93
30	10
36	90
37.19
35 23
34.40
25	98
21 98
20 35
28	70
26	53
29	65
25 76
25	66
31	46
35.53
32	01
30	24
31.79
2091
17.37
13.99
29 35
29	29
27.04
16	95
21 79
21 42
36.01
24 17
37	50
32.80
31	34
30	76
17	31
14 05
947
9 68
51 55
39	24
38	21
16 S3
10 97
10.81
40	30
3C C3
18.65
24.20
31	52
26	25
24.40
23	72
29 92
26 76
32	46
33	92
33	24
37 01
16.17
20 45
17.04
39.57
32.03
39.29
35 18
24	20
14 45
1534
34	99
34 61
2578
25	13
892
856
1545
23.02
20 40
25	17
1423
16	44
2661
31 32
2451
27.72
26	53
15	18
'4 20
936
27	20
26	41
23	70
T290
17	72
16	58
24	62
15 56
37	18
23 56
28	14
27	44
15 36
12 21
7.87
709
50 99
35.51
34 77
U 74
7 89
696
38	61
27 94
12.96
17.5®
27 80
1666
12.99
'306
21.06
20 24
30 72
19.52
1388
33.72
1265
1806
12 53
38 54
23 56
38 17
33 93
1966
979
II 11
33 26
30.70
23 06
22 12
5.97
494
1279
1999
17.31
22 63
837
999
2070
26	37
16 66
25 59
22	63
12 14
12.23
692
25	17
24 03
21.36
10 34
15	17
12	67
1660
8 63
36	6!
27	06
2500
24	13
13	94
10 98
677
5	70
49.96
31 94
31 17
12 14
6	10
491
37	37
26	06
10	36
13.61
23	86
11	40
7.51
743
16	10
1364
2675
11 14
1052
29 66
1009
1302
950
37 26
25	69
37.20
31.67
1656
730
7	40
31 44
25 36
21 33
20 68
4.54
4 05
11 00
17	74
15 4?
21	69
700
800
18	40
24 45
16 24
24	49
20	99
10	62
11	04
564
23	64
22	53
19	87
8 98
13.80
11 10
16 07
6 19
36.43
25	06
2332
22 70
1306
10 14
6.05
495
49.24
29 73
29	55
10	85
5 14
4.02
35.42
24	46
8	97
11	82
21	68
9	18
584
609
13	94
11 64
22	35
8 67
644
27.20
664
11 49
8 18
36 65
24.19
36 50
30	90
14	96
587
5.14
29 99
22.36
19.77
1950
4.06
371
999
16 29
14 46
20	45
604
596
15.33
21	56
13 49
22	25
18 42
865
964
4	51
21	36
20 17
18	10
7 78
12 24
9 13
1337
5	08
35 10
24.02
20.98
19	42
11 79
901
5.20
429
45 33
26	45
25.66
9 55
4.89
384
32	67
22	35
7.57
9.64
1944
7 28
564
6	03
11 95
967
20	77
6 95
6 11
23	27
6 72
9.77
est
33	36
21	53
34	04
29 02
1311
4.57
360
27	67
18.72
18.12
17.56
361
326
8.67
14 35
1306
19.97
560
5 11
12.76
19.09
12 16
19.60
1623
7	80
926
4 31
20 26
19 13
17 18
733
11	62
834
12	07
4 85
33 99
23 39
19 97
19	05
11 20
8	42
4 85
4 C3
42 36
24.70
23.79
8 99
465
3 55
30	97
20	86
6.70
862
1756
6 40
5.01
536
10.91
3.72
20	54
6.13
566
21	40
599
924
626
31	65
20 33
32	15
27 78
12.14
398
3 08
26.05
1667
1532
14 69
3.31
269
806
1335
1241
18 15
3 85
3 92
1t 77
17	90
11 20
18	55
1535
6 59
6.90
375
16	13
17	05
15.27
641
10.00
6 86
11.56
4.72
31 10
21.75
18.06
17.25
10 05
725
4.16
3	49
36 75
21 74
21 46
8 31
4.08
2.75
28	26
18	30
4	90
731
15	20
5.86
466
4 63
9.23
7.05
16	44
4.79
4	3?
16.54
5	16
8.67
5.15
27.95
18.07
29	4)
25 06
1' 27
3.60
2 85
23 78
1462
14 36
10	92
300
2 75
7.21
11	97
11 50
0 76
300
3.0
17
160.291
0 93
30.0
30
34
156 735
0 46
300
30
32
158 905
1 66
30.0
3.0
13
156.109
5 11
30.0
30
26
148 163
2 66
300
30
15
158 186
8.37
300
3.0
16
141 026
567
30.0
30
35
148229
1.96
300
30
20
264 271
1 96
300
30
13
263 225
0.67
300
3.0
51
260 956
277
300
30
7
236 944
326
300
30
13
232 066
366
300
3.0
15
237 999
1 34
300
30
41
248 570
1.74
30.0
30
23
24 5 844
1 42
300
3.0
20
236.473
424
30 0
3.0
13
166 014
1.56
300
3.0
96
166.567
6 27
30.0
3.0
10
149909
7 47
300
30
21
148 567
6 73
300
30
25
149.366
636
300
3.0
36
150.104
266
300
30
13
361 236
2 88
30.0
3.0
12
352.061
1.80
300
30
16
365.908
1 as
30 0
30
45
362733
5 38
300
3.0
13
364.664
4 '5
30 0
30
10
395 422
3 77
30.0
30
1C7
359.<53
2 71
300
30
18
316304
0 88
300
30
28
305 052
0.53
300
30
53
299 336
3 47
30.0
30
13
264.186
3 93
30.0
30
35
273 964
0 56
300
30
21
291 543
1 15
300
30
22
275 427
2 95
300
3.0
13
267 032
341
300
3.0
10
169 509
2.79
30.0
3.0
26
173015
206
300
30
43
169 629
2.37
30.0
30
20
166 945
1.75
300
3.0
13
168.172
3 65
300
3.0
5
161 518
1.34
300
3.0
36
175 469
1.31
300
3.0
46
168 099
3.78
300
3.0
15
276.163
034
300
30
10
263 035
0.14
300
3.0
16
262.620
046
30.0
3.0
36
258.660
3 85
300
30
23
260.999
3 69
300
3.0
15
249.747
9.67
300
3.0
26
230.444
6.00
30.0
30
56
293 993
356
30.0
30
15
246 361
1.16
30.0
3.0
21
239.105
1 55
30.0
30
56
225 726
3 41
300
30
56
231 657
309
300
30
51
227.493
360
300
30
10
247.617
284
300
30
16
264 914
2.18
300
3 0
18
263 966
1 87
30.0
3.0
46
294 576
206
300
30
20
291 944
3.73
30.0
3.0
16
246 010
3 13
30.0
3.0
15
254 936
H-22
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files
Water Water	Soil	So*l
Sol Soil Tabki	Table	Hcnzon	Particle
Component Pfofta Lab Danirty So J Water Contact (volume %) at ;n0 69
6.01
160 0

35
152 6U
27 62
26.95
25.67
16 23
160.0

31
121.561
24 67
23 05
22 40
1406
1600

30
114.256
29.85
29.05
27 73
16 58
1600

41
109.347
H-23
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files
Water Water	Soil	Soil
Soil Scii Table Table	Horizon Particle
Componert Prolie Lab Density Soil Water Content (volume ^.) at Irdicated Capillary Suction Depth	Duration	Thickness Diameter
Name	Mo. No. {got) 3.S cm 20cm 30cm 45cm 6C cm 60cm 100cm 150cm 200 sm 333 cm 15K cm (cm) |mo.)	(cm)	fcm)
KEN0RICK
KENDRICK
KENDRiCK
KENORICK
KENDRICK
KENDfUCK
KENORICK
KENOfiK*
KERSHAW
KERSHAW
KERSHAW
KERSHAW
KERSHAW
KERSHAW
KERSHAW
KERSHAW
KEYLARGO
KEYLARGO
K1NGSLAND
K1NGSLAN0
K1NGSLAN0
<1NGSLAH0
KINSTON
WNSTON
KINSTON
KINSTON
KINSTON
KINSTON
KINSTON
KROME
KROME
KUREB
KUREB
KUREB
KUREB
KUREB
KUREB
KUREB
KUREB
KUREB
KUREB
KUREB
KUREB
KUREB
KUREB
KUREB
KUREB
KUREB
KUREB
KUREB
KUREB
KUREB
KUREB
KUREB
KUREB
KLREB
KUREB
KUREB
KUREB
KUREB
KUREB
KUREB
KUREB
KUREB
LAKE
LAKE
23
65
65
65
66
66
65
66
6
6
20
20
20
SO
15
15
16
16
16
16
16
6
8
4
4
4
8
I
19
10
19
19
19
47
47
47
47
47
5
5
5374
1 56
35.76
3533
35 10
35 01
34 86
34 71
33.84
32.81
28 56
27 11
2400
1.65
36 66
33 94
28 35
2269
1660
15 59
13 99
1223
11 22
10 11
2401
1 47
39 79
33 04
28 76
21.76
18.18
15 46
1396
12.33
11.31
10.45
2402
>56
36.50
37 16
95 19
3356
3221
31 28
30 61
22 33
21.17
19 95
2403
1.42
47 57
47 06
42.75
46 65
46 2A
45 76
45 30
45 30
39 64
36 30
2404
1.61
41 91
40 67
40 86
40 54
36 14
34 85
34 12
32 27
31 17
29 93
2405
1 71
3997
37 95
36 21
37 86
34.90
34 56
33 55
32 40
31 69
30 75
2406
1.66
39 42
3657
38.70
38 29
34 50
33.76
33 16
32 19
31.37
30 34
6164
1 41
41 21
33 12
27 98
1745
1223
943
7 93
663
8.14
5.30
6165
1 53
38 42
37.01
33 08
22.30
12 78
904
748
6 00
556
4.76
6166
1 46
39 06
38 25
31 73
13.66
9 18
6.76
5 75
4.72
442
390
6167
1.49
38 79
J7.2C
22.15
10.60
7 63
559
465
3 72
354
3 10
1549
1.47
39 64
39.03
36 46
3S.67
14 94
746
5 65
4 42
3 96
323
1550
1 51
39 76
39.35
39 22
36.26
15.07
7.77
6 10
4 51
4 14
3 52
1551
1 52
41 33
40 78
40.65
30 56
11.91
660
544
409
364
3.10
1552
1.50
39 89
39.16
36 60
30 66
10 86
672
557
4 18
390
344
7569
0 20
92 35
67 76
65.! 8
62 58
31 21
78.06
76 88
73.32
70 38
62 28
7670
0.19
9132
84 90
81.82
76.49
77 59
72.09
66.93
67 44
64.76
55.71
1359
0 09
93 66
91 66
90 08
87 54
34 76
8* 89
7807
71.12
63 25
58 22
1360
0 09
94 83
92 24
90 90
58 31
85 52
32 75
78.97
72 10
64 24
59 26
1361
0C8
96.00
92 78
90 55
66 36
82.04
78 37
74.13
66 43
58.08
52 54
1362
C 06
96 82
86 00
61 16
74 se
69 24
64 62
58 49
51 6?
45.34
38 07
4263
1 39
43 13
4244
41.38
40 49
39 28
37 51
37.01
36.09
34.46
3445
4264
I 56
36 66
37.12
35 66
34 12
33 25
3261
32.32
31.79
30 96
30,97
4265
1.60
37.71
36 28
34 23
33 48
32 53
3t 18
31 07
30.66
30 16
30 07
4266
1 59
36 96
36 09
34 11
32 93
32 22
31 09
30 76
30 22
29 99
29 79
4267
1.62
37 59
36 11
34 13
33 33
32 46
31 13
30 96
30 64
30.05
29 95
4266
1.63
36 09
36 86
34 95
34 43
33 09
31 68
31 47
3*.06
3043
30 43
4269
1 65
34 43
33 09
19 88
10 22
632
766
7 11
6 12
534
5.01
6546
1 16
50 07
33 33
34 91
31 78
29.78
28.07
26 36
25.17
23.94
22.16
6546
150
36.51
33 57
32.32
28.67
26.98
24 44
22 50
20 38
19.10
17 C3
1531
1.2?
4s 64
47 10
43 39
25 16
17 80
1396
12 47
11 29
10 <2
925
1532
1 43
36 66
32.15
26.71
15 17
7 95
556
4 53
3.90
3 40
3.12
1533
1.47
3548
30 08
24 53
1256
7.87
5.91
4 91
391
3.20
2.75
1534
1.45
39 43
34 07
27 16
14 36
1021
8 55
7 63
6 72
6 05
5 55
1535
1.46
39 63
37.25
2949
11.67
7 25
531
4 44
3.57
2.86
2.32
4139
1.47
4266
40 89
28.35
13.57
9.90
646
732
6 13
5.64
4.79
4140
1 53
43 72
41 81
20 73
635
6 57
566
522
461
4 47
4 01
4141
1.50
42 53
34 52
19.74
10.84
856
7.49
661
5 83
544
465
4142
* 60
36 06
31.01
17.92
8.77
690
599
5.15
428
400
320
4143
1 54
39 31
37 52
22 89
890
634
560
4 76
4 03
3 36
3 17
4144
1.49
41 51
38.26
18.03
6.11
4 37
3.75
3.07
234
2 11
1 68
4093
1.31
38 12
24.31
17.41
11 32
992
9 07
624
7.74
7 19
631
4094
i 51
34 77
24 66
1354
7 17
5 52
4 59
4 15
3 87
3 43
3.04
4095
1 35
3845
29 96
<549
10 07
8 37
744
6 91
6.59
5 99
5 45
4096
1.45
3535
2*.72
14.21
9 53
786
681
6.09
545
4 78
4 34
4097
1 37
37.37
23.42
13.76
10 17
7 82
694
636
566
5.27
4 66
4098
1 53
29 31
16 10
12 56
a so
720
630
562
5 19
4 59
396
4099
1 59
28.75
17.66
1209
S.13
7.09
6 12
545
4 98
4.32
3 82
4100
1 60
28.36
17.22
11 86
7 94
669
574
5.18
464
4.15
368
6656
1 32
42 05
37 9'
34 45
25 53
15 16
11 51
10 15
8 72
7 78
6 47
6667
1 37
39 27
35 07
32 05
13 74
10 30
7 24
596
4.99
405
3.10
6688
1 33
36 15
34.30
2947
22 09
17.07
14 50
13.29
11.60
1060
944
6669
1 40
55 &2
51.74
46 63
33 67
26 50
23 74
22 34
21 05
20 26
19 43
6690
1 40
45.01
43 93
42 90
24.10
9.90
6 76
5 57
4.57
3 85
305
669}
1.40
59 15
57 04
52 47
39 33
23.77
20 57
19 19
1823
17.60
16.61
6692
1.44
44 45
42 61
33 60
2545
9.10
5.66
4 10
3.17
2.74
2 16
6696
1 46
43 90
42 32
40 75
2647
1052
602
4 37
320
290
2 19
2694
1 23
45 31
27 07
15.39
12.33
11 55
10.77
10 18
9.12
8 92
7 13
2695
1 30
38 52
1657
1045
7.55
6 37
605
546
491
4.47
4.15
2696
1.45
44 96
26 11
14 36
11 29
10 07
9.70
8 69
809
7 82
6 92
2697
1 31
36 49
19 50
14 24
11.16
9 86
955
8.59
796
7.68
7.21
2696
1.46
34 34
18 06
11.53
7.67
866
634
556
494
4 69
4.06
2699
1.49
37 62
29 88
13 06
8 15
6 66
6.44
5 65
520
4 70
405
4701
150
42 64
41 65
40 96
29 96
18 88
1362
11 97
10 1t
9 02
8.01
4702
1 54
40.94
40 01
37.64
26.72
14 93
11 24
9 24
753
656
564
1 e oi	160.0
5 03	1600
4 64	160.0
10.49	160.0
16 93	160 0
15 97	1600
15.99	160.0
1646	160-0
1.24	1 SO 0
l.2t	160.0
1.02	160 0
0 70	140 0
« 19	160.0
« 27	160.0
119	teoo
1 38
180 0

6.23
00
8.0
5.64
0.0
8.0
4 50
75
6 0
4.55
7 5
60
5 07
7.5
6.0
399
75
6.0
34 37
7.5
4.0
30.67
7.5
40
29 42
7.5
4 0
28 29
7 5
4 0
29 21
7.5
4.0
30 43
7.5
4.0
251
75
40
9.61
135.0
30
6.63
135 0
3.0
3 62
180 0

1 69
180 0

0.56
1800

056
1800

0.48
180 0

2.37
1800

0.98
130 0

1.69
180.0

096
160.0

0 74
1800

1.21
180.0

1 76
160.0

1.15
180.0

1.07
160 0

2 03
160.0

2 15
160.0

1 94
160 0

1 84
180.0

1 74
160.0

1 86
1600

0.62
1600

3 47
1600

< 83
1600

1.15
180.0

0.64
180.0

066
160.0

043
1800

3 41
1800

0 57
1800

3 15
1800

204
180.0

1-32
180.0

0.85
180 0

342
1300

2.31
180 0

48
23
43
13
51
S3
28
16
16
56
71
56
6
56
66
73
15
150
20
21
35
56
8
17
31
. 51
20
43
33
15
1$
10
31
55
56
56
15
21
26
63
83
13
10
15
IS
26
23
25
35
26
12
13
33
20
36
41
63
16
50
112.251
202 600
192.700
172420
145 300
163 020
170 360
170 290
157 160
157 096
158.571
155 766
151	356
152	091
153	340
153 006
150.000
150.000
150000
150.000
150 000
150.000
47.269
135334
13S 476
126 90S
178 465
239 946
434 422
233 044
210 629
161	217
168 551
167 912
164 965
176.049
245 353
260 253
238.733
251.436
239 449
256 304
287.335
264 667
269.503
272.368
272.063
271.365
278 306
256 226
157 000
167.766
157 954
162	636
192.116
164 013
164 445
163	155
317.152
330.469
305 020
314 342
312.112
323619
167 669
165.732
H-24
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files















Water
Water
Soil
Soil
Soil


Soil











Tfcbte
Table
Horizon
Paride
Component
Pro* lift
Lab
Density


Soil Water Content (volume %) at Indicated Capillary Suction


Depth
Duration
Thickness
Diameter
Noma
No.
No.
(gfcc)
3.5 cm
20 cm
X cm
45 cm
SO cm
30 cm
100 cm
150 cm
200 cm
333 cm
15K cm
(cm)
(mo.)
(cm)
(>jm)
LAKE
5
*703
1.47
42 16
40 49
36 42
2166
12 69
9.59
8 11
684
603
4 63
240
1800

34
183.751
LAKE
5
4704
153
39 76
36.27
36 92
2l -96
1301
932
7 97
656
5 59
456
207
1800

40
190 769
LAKE
5
4705
1.52
39 67
36 26
34.33
21 01
1260
9 02
600
7 16
5 52
4 47
1 66
180 0

61
190 357
LAKE LA NO
2
4050
1.37
43 03
34 14
24.79
1636
1369
12.56
11 21
691
9 07
7.81
2 00
160.0

10
296 560
LAKELAND
2
4091
1.60
36 06
31.06
27 29
18 35
14 70
12 77
II 49
995
905
766
2.02
1600

6
302 138
LAKELAND
2
4052
1.65
34 99
25 21
1746
12 45
10 35
920
851
756
7 13
629
226
1800

89
306 524
lakeland
2
*053
1.49
34.06
23.57
'9.46
11,64
9 36
8 62
690
6 16
5.70
4.98
2.04
180 0

25
311.566
LAKELAND
2
4054
1 59
37.40
19.24
1320
996
853
7 67
7.14
634
5 88
466
1.84
16C.0

20
306.079
LAKELAND
2
4055
1 55
37 17
29 72
14 8S
8 34
6 55
548
4 76
4 23
3 74
3 27
1 33
1600

51
308019
LAKELAND
5
6317
1 49
42 61
36 22
30 59
21.49
17 34
15 42
14 36
12 52
11 97
10.67
2 70
160.0

15
320 853
LAKE LAM}
5
6318
1 65
36.17
27.73
1992
12 08
1006
902
643
7.4t
7.04
6 14
170
160.0

49
329.505
LAKE LAM)
S
6319
1 59
35 53
23.17
13 20
9 17
809
7 16
665
569
5 57
5.18
1 46
160.0

60
323 366
LAKELAND
S
6320
1 56
37 56
17 50
11 33
8 01
7 02
6 28
560
522
520
4 72
1 75
16G.0

61
330 129
LAKELANO
s
6321
1 53
36.65
20.66
11 66
6 38
5 66
4 76
4 41
360
3.56
3 18
0.90
160.0

18
326.155
LAKELAND
6
8296
139
40.41
33 24
28 06
16 85
12 74
11 10
1006
665
6 13
720
1 99
1600

13
301.729
LAKELANO
e
6299
1 39
45 54
34 65
19 20
11 10
691
7 68
696
6 11
564
5 32
1 42
1800

S3
308 042
LAKELAND
s
6300
1 42
43.77
26 66
15 43
e 16
652
5 59
5 14
4 45
4 21
3 82
1 28
1800

51
294 525
LAKELAND
6
8301
1 46
40 36
29 33
17 08
7 53
556
451
3.99
3 37
3 12
2 74
091
1600

86
303 496
LAKELAND
9
7550
1 39
40 41
33 24
26 06
16 65
12.74
11 10
1006
665
813
720
1 99
1600

15
323 061
LAKE UNO
9
7551
1 39
45 54
34 6 5
1920
11 10
691
7 68
696
6.11
564
5 32
1 42
180.0

79
327.135
LAKELAND
9
7552
1.42
43.77
26 66
15 43
8 16
6 52
5 59
5 14
445
42!
3 82
1 28
160.0

53
316.073
LAKELAND
9
7553
1 46
40 36
29 33
i7ca
7 S3
556
451
3 99
3.37
3 12
2 74
091
160 0

56
314 766
LAKELAND
15
3256
1 21
45 73
30 67
24 69
18.96
16.37
14 25
13 14
11.11
6.73
6 55
5 24
1600

13
295 905
LAKELAND
15
3257
1.50
39 96
31 64
24.16
1665
13.41
11.05
954
627
7.43
7.06
3.50
160 0

36
265 891
LAKELAND
15
32S6
1.53
36 22
33 29
28 54
1603
15.17
9.99
8 28
6 98
666
6.06
3.11
160.0

30
294 56$
LAKELAND
15
3259
1 57
36 04
32 05
24 23
15 51
11 71
902
7 61
644
591
5 59
2 87
180.0

23
286 736
LAKELAND
15
3260
1 54
35 45
33 54
26 06
15.37
11 09
643
6 59
5 80
536
494
246
180 0

94
286 691
LAKELAND
IS
3261
1.59
3742
35 97
30 94
1666
12 90
1045
908
807
761
722
326
1800

33
266.020
LAKELAND
17
4664
1.37
46 56
44 23
41 01
30 26
22 80
18.54
16 54
13 86
1287
1049
3 19
180.0

20
231 332
LAKELAND
17
4665
1 46
41 14
39 17
37 40
23 88
16 51
12 62
II 24
9 34
856
7 49
305
180 0

21
237 531
LAKELANO
17
4666
1.47
4C 90
39.00
35 27
22 82
15.49
11 66
10 11
8 31
7 78
6.84
2.97
180 0

15
236.176
LAKELAND
17
4667
1.49
39 59
37.46
30.64
1856
12 72
9 74
8 45
7 05
6 57
5.72
2.49
160.0

46
229.762
LAKELAND
17
4o68
1 58
37 07
34 90
34 7*
'.9 07
136C
10 07
8 66
7 12
6 57
5 56
2 46
1600

101
223 852
LAKELAND
IS
4667
1 46
42.65
37.30
27.59
15.98
1320
11.20
10.25
8 65
8 15
683
1 69
180 0

13
311 296
LAKELANO
19
4666
1 46
40.90
35 15
24 06
13 94
10 90
886
600
645
541
483
1 21
1800

12
306.612
LAKELAND
19
4689
1 59
36.00
36 90
24 72
12 23
a 8a
714
652
5 15
4 84
4 42
1 29
160 0

71
307 650
LAKELAND
19
4390
1.51
36.47
32 92
1985
966
7 23
5 85
5.24
4.11
3.91
350
0 85
180.0

66
319.219
LAKELAND
19
4691
1 57
34 16
32 71
19 56
908
593
444
396
276
2.6S
2 39
052
160.0

41
319083
LAKELANO
26
47S«
1 27
30 99
30 40
30.16
11 72
9 83
8 62
7.92
7.16
6 92
5 77
1 87
1800

5
411 014
LAKELAND
20
4737
1 25
37.25
35 94
35 92
1353
12 13
11.06
1033
920
8.59
7 16
2 26
1800

5
360.174
LAKELAND
29
4736
1 50
36 53
35 79
35 57
10 13
631
731
6 89
632
596
5 16
2 27
160.0

66
400 246
LAKELAND
26
4739
1 50
34 70
34 30
34 09
10 ?5
6 61
5 80
5.39
499
4 66
3 98
2 10
1800

89
396 568
LAKELAND
26
4740
1 52
33 89
33 21
33 03
10 17
6.42
5 33
505
4 36
4.14
3.80
2.10
1800

13
437 490
LAKELAND
26
4741
1 53
33.47
3297
32 24
1C.C4
6.21
509
4.91
4.16
397
3 67
205
160.0

25
383 694
LALOERWLL
27
1139
030
76.19
71 09
63 37
65 63
64 29
62 54
62 45
59 67
58 26
56 40
21 5S
0.0
2 5
20
150 000
IAUDERHHL
27
1140
0 26
7543
71 33
66 17
65 31
63 56
61 82
60 75
58 00
56 32
53 20
20 16
0.0
25
26
150 000
LAUDERHtLL
27
1141
0 13
66 20
7661
74 39
7) 88
70.04
67 16
65 03
61.17
57.69
54 34
10.09
0.0
2.5
20
150.000
LEON
1
4661
1 37
40 21
35.74
23 57
19 58
1649
13 53
12 33
10.56
971
8 52
2 52
300
45
18
292.835
lEON
1
4662
I 63
34.41
32 46
27 90
15.93
1240
959
8.95
733
5.52
484
0.65
300
4.5
25
308 014
_£ON
1
4663
1 67
39 61
37 46
36 88
35 92
34 66
33 19
32 19
30 36
28 06
25 99
8 32
30.0
4.S
15
281 141
LEON
1
4664
1.66
34.99
32 81
30 86
25.60
23 36
2C60
1950
1751
15.96
15 59
5.22
300
4.5
8
294 209
LEON
1
4663
1.73
31.76
30 68
26 47
20.56
17.56
14 34
13 32
11 16
10.09
8.87
325
30.0
4.5
13
297 165
LEON
1
4666
177
29,10
27 25
26 34
1682
11.45
808
6 83
532
457
3.73
110
300
4.5
20
299 619
LEON
1
4667
1 74
29 69
27 2S
22 47
16 75
12 32
934
6 23
6 75
586
496
1.76
300
45
20
309 679
LEC1
1
4666
1 76
30.13
27 85
22.88
17.47
12.95
9.94
9 88
7 12
644
587
2.53
300
45
33
319 364
LEON
1
4669
1.76
29 65
27 24
22 41
17.08
•2 37
9.41
936
6.89
6 02
528
2.45
300
4.5
51
352.161
LEON
2
4670
143
39 44
3S78
32.60
1989
1588
13.S9
1266
10 94
9.77
6.11
337
3C0
45
18
306 305
LEON
2
4671
1 57
34 06
31 84
22 67
12 66
9 33
7 46
6 60
566
4 99
403
111
300
45
35
287 064
LEON
2
4672
1 39
41 67
36.76
3663
32 60
29 48
2761
26.62
24 52
2284
2043
7.88
30.0
45
8
292.576
LEON
2
4673
1 44
35 62
33.75
25.01
18.26
1501
13.26
12 17
1C97
10 12
9.42
4.33
300
4 5
5
293.407
LEON
2
4674
163
33 03
31 19
22 63
1653
1295
1084
9 24
7 82
6 93
577
2 69
300
45
30
292 131
LEON
2
4675
1.76
29 52
26.34
27 07
2' .57
19 22
17.51
16.10
13.98
1266
1111
507
300
4.5
23
291.361
LEON
2
4676
1.79
26 66
27 26
26 29
20 64
1846
16 93
15.61
13.22
12 19
8.77
354
30.0
45
21
325 370
LEON
2
4677
1 77
28 11
27 09
26.11
20 22
13 09
16.16
1500
12 86
H 79
8 32
3 22
300
45
63
347 427
LEON
2
6299
1.37
41 16
21.47
13.89
953
6 14
730
6 78
586
552
501
1 29
30.0
4.5
15
317.779
LEON
2
6390
1 49
39 76
26 64
1663
927
7 32
626
5.75
506
491
4 22
0 43
30.0
4 5
26
306 730
H-25
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATS GO Data Files





Water
Water
Soil
Soil
Soit


Soil

Table
Tabte
Horizon
Particle
Component
Prof!#
Lab
Density
Soil Wat* Content {volume K) at Indicated Capillary Suction
Depth
Duration
Thickness
Diameter
Nam*
No.
No.
i&cc)
XSom 20cm 30cm 45cm 60cm 60cm 10Ccm 150cm 200cm 333cm
15K cm (cm}
(mo.)
(cm)
(nm)
LEON
LEON
LEON
LEON
LEON
LEON
LEON
LEON
LEON
LEON
LEON
LEON
LEON
LEON
LEON
LEON
LEON
LEON
LEON
LEON
LEON
LEON
utON
LEON
LEON
LEON
LEON
LEON
LEON
LEON
LEON
LEON
LEON
LEON
LEON
LEON
LEON
LEON
LEON
LEON
LEON
LEON
LECN
LEON
LEON
LEON
LEON
LEON
LEON
LEON
LEON
LEON
LEON
-EON
LEON
LEON
LEON
LEON
LEON
LEON
LEON
LEON
LEON
LEON
LEON
LEON
9
9
9
9
9
9
9
12
12
12
1?
12
12
6301
6902
6303
6904
4129
4129
4130
4131
4132
7673
7974
7875
7876
7877
7876
7879
8000
8001
8002
8003
8004
8005
8226
6227
8228
8229
6230
7115
7tte
7117
7119
7119
7625
7626
7627
7626
7620
7630
7631
8302
8303
6304
6305
8306
6977
6978
6979
6960
6981
6962
6963
€964
696S
1979
1980
1981
1982
1963
1964
1965
6257
6256
6299
6260
6261
6262
1 39
1.50
1 59
1.57
I.S3
1.53
1 57
1.57
1.56
1.41
1.47
1 25
1 47
1.53
1 63
1 70
1.53
1 53
1 57
1 57
1 58
1 61
1 16
1 64
1 $6
1 63
1.76
1 31
1.40
1.34
I 64
I 60
1 16
1.64
1 64
1 56
1 63
1.65
1.76
1 53
1 53
1 57
1.57
1.56
1.15
1 59
1.43
1.62
1.77
1 79
1 65
1 87
1 59
111
1 32
1 43
1 18
1 44
1 48
150
145
1.40
I 24
1 46
1.59
I 60
41.65
4103
39 36
39.51
36.35
32	50
36 93
34.86
35	52
44 93
42 79
49 41
4125
36	01
33	96
3» 52
36 35
32 SO
36 93
34	86
34 57
34 12
51.78
34	66
35	92
32 04
30 43
44 25
41.76
4*57
35	66
36	79
51.78
34.66
32.71
35	92
32 CM
30 38
30	43
36	35
32 50
36 93
34 88
31	S2
53 76
34	49
46 M
35	22
29 52
31.75
35 79
28 60
35	K>
53.32
41.13
43 20
50 63
41.59
41.43
41.52
41 15
36	66
50.11
36 42
37.39
37.25
37.14
37.29
34 74
34 97
31 86
26 19
31 75
29	63
30	83
44	20
42 15
45	49
40	89
37 56
31	19
31	34
31.66
26.19
31.75
29	63
26 66
26 32
49.71
34	26
33 56
30	33
29	06
37 66
35	81
41	29
32	85
33	77
4671
34	28
32	47
33	58
30	33
28	13
29	08
31	86
26	19
31 75
29 63
27	63
45 64
33 11
42-10
32.42
2794
30.35
34.16
28	00
33.17
46.74
39	36
41 45
45 92
40	26
39	96
4042
40	33
37.40
49 53
36 7!
3681
3677
32 31
32 42
30 22
22	36
25	07
17 08
28	19
27	68
2857
40.22
40	63
41.76
35.73
33.14
29	63
30	94
2507
17.08
26	T9
27.68
27	34
26 97
41	28
32 73
32 23
28.70
28	32
23	58
26 99
40	14
3051
29	95
41	28
32 73
32 17
32	23
28.'0
27.33
28	32
25.07
17.06
26	19
27	86
26.57
41.64
3060
40.21
3076
26	10
27	73
33	35
27 80
30.06
45 60
38 88
41 44
41 84
38	71
39	96
39 97
36 04
34	56
49 35
34	72
36.66
35	42
28	15
23	87
19	35
7.52
1760
10 7«
24	13
22	59
23	79
31 24
26	66
35.74
25	66
23	65
20	20
29	49
17 80
10 76
24	13
22	59
21	89
21 47
29 49
23	29
29 56
24	55
24 39
17 33
13 51
37	48
23	76
19 05
29 49
2329
21	61
29 56
24	55
23.23
24 39
•760
•0 76
24.13
22	59
21.79
36	94
22	06
38	01
27	92
23	09
26	13
32 69
28	90
24	94
37	49
23 74
29	62
35.78
32 10
17.06
32.20
21 60
14.49
46.70
30	49
26 10
25	65
26 34
21.20
16 35
5.69
15.23
655
21 66
20.12
20	97
1586
13.44
29 75
1644
13	30
1299
24 as
15	23
8.55
21	86
20 12
19.89
1i4S
22	47
14	4?
23	79
19 05
16	36
1393
966
34	57
21.37
14 15
22.47
14	47
1304
23	79
1905
16 69
16.36
15	23
3 55
2V86
20.12
18	97
32.07
15 85
35	96
2436
20 95
24	31
3! 56
26 11
19	27
26.72
12 64
12.52
31 06
20	26
1706
1632
16.31
957
45 07
26 56
1545
17.61
25 03
19.70
14 64
4.65
13	31
761
20 42
19	34
20	08
12.49
9.46
25 39
12.07
8.76
669
1794
'3.31
7.61
20 42
1934
19	11
18	67
19.47
10.35
20	26
14	94
9 85
12	02
774
31 32
19	55
11 35
19	47
10	05
7 65
20	26
1494
11	66
965
1331
7.61
20 42
19 34
1706
27.91
11 43
34.21
2021
18 62
22 58
30 58
25	23
1507
21.90
3 52
7 82
26	56
IS cs
14 05
11 00
13	88
7.35
43 42
2376
11 59
15.33
24 27
16.75
13 67
4.66
11 67
6	70
19.00
1795
18	71
11 14
8.01
22 63
10	50
7	16
7 16 ,
15 11
11.67
6.7C
19	00
17.95
17.66
1741
17.77
6.05
1766
13 09
7.74
11	10
6.73
30 27
1856
9 67
17 77
8.05
5	72
17 88
1309
9 93
7 74
II 67
6	70
1900
17 95
16 07
25 14
892
32 26
1729
16 46
20.57
26.92
23 70
12.32
19.26
661
621
24.41
13	28
12.62
9 12
1264
626
41 94
22 19
10.03
14	13
22.00
1701
1205
4.01
9.61
5 74
1699
15.43
16.23
9.43
640
19 13
8	75
5 70
5 65
12	16
9	31
5 74
16 99
1543
IS.06
14 75
15.70
6.C7
14.86
11.14
5.64
960
5.54
26.15
1691
627
15.70
6.07
4.06
I486
11.14
8.12
5.54
9 81
5 74
16 99
1543
14 23
22 14
7 15
29.94
14.67
13	35
1753
26 53
21 96
9 51
17.09
5.19
463
21.15
1062
10.01
6.76
11 20
5.14
39.76
20.15
832
1249
21.51
16 14
11 13
3.73
9 30
5 35
16.15
1427
1564
636
5.47
17.15
7 70
4 at
4	80
'0 74
9.30
5	35
16 15
14 27
1366
13	17
14	69
5 13
13	32
10	21
4 96
901
4	97
24.29
IS.86
7 34
14	69
5.13
365
1332
1021
7 24
496
9 30
5	35
16 15
14 27
12	84
20 58
6	23
28 33
13	97
11	65
15.84
24.70
20 66
6 58
15.06
4.76
4.2S
20.10
991
9.03
6.34
10 20
4.49
37 29
16 87
7.31
11.52
20.03
14.57
954
3	44
7	27
4	48
14 26
754
8	53
7	21
4.51
V4 65
6.73
4.01
409
896
7.27
4 48
14 26
7.54
695
6 26
13.67
4.44
11.33
901
3	98
8	12
4	51
21 81
!4 33
6 40
13	87
444
3	43
11 33
9	01
6	15
396
7	27
4	46
14	26
7	54
5.37
17.63
496
25.24
1223
963
1321
20 99
19 36
7.30
13 24
3 71
3 47
17 84
8	37
7 78
521
9	03
4.04
33 46
17 06
6 20
10. II
4.34	30.0
269 30.0
1 36	300
033	300
1 97	30 0
081	300
380	30.0
3 ft	300
3 59	30 0
2.44	30.0
1.41	300
5 23	30 0
2.12	300
0.72	300
1 47	30 0
160	30.0
3.80	30 0
3.11	3CG
2.01	SO C
1	69	300
5.06	30.0
0.57	30.0
2	73	30 0
2.14	300
0.65	30.0
2	79	30 0
1.23	30.C
3	48	30.0
3 77	30 0
2 00	30 0
5 06	30.0
0 57	30.0
0 36	30 0
2 73	300
2.14	30.0
1.16	30.3
0 65	33 0
1.97	30 0
0.81	30 0
360	300
3 11
2 01
300
300
7.92	30 0
1.16	300
6 66	30 0
347	3C0
3	52	30 0
2 22	30 0
5 71	30.0
390	300
2.59	30.0
5 11	30.0
2 34	30 0
1	44	30.0
4	96	30.0
2	16	30 0
2 74	30.0
1.40	30.0
2.57	30.0
129	30.0
668	30.0
4.66	30 0
0 63	30 0
45
45
45
4 5
45
4 5
4.5
45
4 5
4.5
4.5
4.5
4.5
4.5
45
45
4.5
45
45
45
4.5
45
45
4.5
45
4.5
45
40
40
40
40
40
4.5
4 5
45
4 5
4 5
4 5
45
45
4 5
45
45
4.5
45
4 5
4 5
4 5
4 5
4 5
45
4 5
45
45
4 5
4 5
4.5
45
4.5
45
45
4.5
4.5
45
4.5
4.5
20
25
56
81
15
31
12
77
68
!0
15
18
16
51
46
43
10
43
21
15
51
63
16
33
25
26
101
20
36
48
81
20
15
13
36
12
10
56
61
10
36
22
62
73
13
7
13
36
28
23
30
31
20
13
7
26
20
26
20
89
10
31
10
15
71
33
291.316
301.715
201 029
296.691
308 669
316.117
291 312
302 091
314 005
186 139
180 801
185 219
165.676
161 506
182 923
178 096
217 710
203.573
196 527
201 252
202.136
216 786
23Z046
209.662
216 042
211.353
214 672
319.706
296.913
3*4.686
321.715
253 236
253232
241 366
234 539
232	774
246 633
236 362
239 944
347 928
331 100
315.766
324 506
333 633
230.627
232.102
217.604
233	174
224 904
224.710
226.614
190.152
206 Z31
145.293
151.948
155 542
147.219
151 476
152.525
150.745
187 964
167.969
157 353
163 106
167 132
163 423
H-26
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files
Water	Water	Soil So
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files





Water
Water
Soil
Soil
Scd


Soil

Table
Table
Horizon
Particle
Component
Protie
Lab
Density
Soli Waler Cor'em {volume %) at Indicated Cap^Sa'Y Sudtcn
Depth
Duration
Thickness
Diameter
Name
No.
No.
£^cc»
3.5cm 20cm 30 cm 45cm 6C cm 80crr lOCcm 150 cm 200 cm 333cm
*5K cm (cm)

(cm)
(Mm)
LOWNDES
LOWNDES
'.OWNOES
LOWNDES
LOW NOES
LOWNDES
LOW NOES
LUCY
LUCY
LUCY
LUCY
LUCY
LUCY
LUCY
LUCY
LUCY
LUCY
LUCY
LUCY
LUCY
LUCY
LUCV
LUCY
LJCY
LUCY
LUCY
LUCY
LUCY
LUCY
LUCY
LUCY
LUCY
LUCY
LUCY
LYNCHBURG
LYNCHBURG
LYNCHBURG
LYNCHBURG
LYNCHBURG
LYNCHBURG
LYNCHBURG
LYNCHBURG
LYNCHBURG
LYNCHBURG
LYNCHBURG
LYNCHBURG
LYNCHBURG
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
1
I
6
9
0
e
6
6
6
«
10
to
10
10
10
10
27
27
27
27
27
27
27
34
34
34
$4
34
34
22
22
22
22
22
22
27
27
27
27
27
27
27
2
2
2
2
2
7401
7492
7493
7404
7495
74M
7407
2291
2292
2293
22*4
2295
2296
2297
2298
7554
7555
7556
7557
7551
7559
1561
1562
1563
1564
1565
1564
1567
1609
1610
1611
1612
1613
1614
7484
7485
7486
7487
7488
7489
3395
3396
3397
3398
3399
3400
3401
7568
7567
7568
7569
7570
7571
3664
3685
3616
3667
3668
3699
3690
3691
4456
4459
446C
4461
4462
i 54
1 66
1 66
1 71
I 72
I 69
1 66
1.56
1 5?
1.56
1.63
1 56
1 86
1.66
1 62
1 41
1.37
1 45
1 54
i 83
1 75
1 70
1.73
1 69
1 51
1 61
I 66
1 53
1 81
1 60
1 67
1 88
1 66
I 68
1 28
1.67
1 75
1.73
1 57
1 51
1.22
- 48
1 51
1 52
S .56
1 56
1.53
1.47
1 63
1 56
1 65
1.78
1 78
1.30
1.53
1 57
1 55
1.59
1.70
1 75
1 80
1 56
1.59
1 57
1 55
1 65
39.86
3540
42.09
33	92
34	40
32.79
33 99
41 S3
42.57
40	97
39 19
41	85
39 03
39	96
42	24
40	50
4^22
41	13
33 49
37	15
33 86
32	35
4C.20
35	30
37.10
36.12
33	88
3371
34.72
35	89
3347
33.67
34.12
34	01
46.78
3'.38
31 36
35	75
4VS4
44 56
48 14
34	43
3d as
40 53
38	78
37	51
40 24
47	84
36	71
44 93
39	40
36	01
38	47
48	90
39	66
35	46
36	83
38 37
36.69
37.61
35 39
36.29
34.04
34 85
35.22
35.18
35.91
33.40
39	61
30 24
33 00
30	06
32 56
40	58
40 07
40 20
37 82
39 78
37 08
38.02
39.35
37	53
31.67
31	72
29.58
3328
32	65
31.11
32.51
32	07
28 59
31 24
31 30
3,.G2
33	26
34	13
30	85
31	09
31 35
31 12
46 14
3C 84
30 43
34	(1
4C 11
44	C?
45	92
33 S4
38	55
37 96
37 38
37 4C
4C.08
44 93
37	16
36 42
36	09
33	53
35	73
47.57
38	82
34	68
35	39
37	04
34 96
3578
34	39
35	80
33	34
34	12
34 77
34 41
29 15
26 74
37	01
26 93
31 55
26	23
31 52
40	26
36 21
39 54
37.48
38	28
3661
37.79
38 79
3S.64
25.29
27	31
25.14
32.10
31 79
29 54
29.82
27.08
23 30
25	10
29	72
30.67
31	95
32	55
26	95
2e 88
30	46
29	66
41	C9
30	07
23.78
32 48
36	26
43 62
38 74
31.35
35 33
34	80
35	43
34 94
37	12
40.74
34 79
31	72
32.52
32	54
33	76
47.10
38	80
34	48
35	28
36	90
34	84
35	75
34 30
34 78
32 33
32	45
33	68
32 65
21	17
22	63
34	89
23	15
3C 58
23.66
2943
37	86
3303
35	40
35.93
36	36
36.56
36.66
38	03
30.S4
17.72
20 65
18 32
27 21
29	49
24	99
26	16
20	75
13 24
24 43
27	47
31 97
30	17
31	36
21	23
26.91
29	02
26	25
38.86
28.49
27	65
31 67
38 09
42 76
36 46
28	74
30	52
3113
33 44
33	93
36 35
34.81
26 68
21 34
21.84
31	67
3269
42 75
34	42
31 91
34 86
36 43
33	44
34	57
34 17
20.13
17 47
16 99
17.14
31.77
17	17
20.18
31.96
20.57
29.34
21 97
27.96
32 81
25 14
24	22
31	63
34	57
38.17
36.53
35	02
2fi 22
•4 44
16	54
14 61
25	47
27 96
21	01
24	81
18	I?
17	52
22	67
26	26
21.31
25	57
27	17
18	70
24 84
278'
26	33
36	28
26.59
26 67
30 85
37.75
41 85
35	86
26 78
26 87
29	55
32	58
33	71
36	31
28	55
12 56
9 20
10 89
30	76
31	77
35 37
23	90
20 25
24	64
32	90
33	03
34.36
34	11
10 33
10.36
9 77
9.65
31.01
14 99
1869
29 99
1901
28	35
2081
27.09
23 27
18	17
17.59
22	30
32	74
35.71
35 92
33	73
23	01
1226
13 73
12	40
24	23
26 96
19	69
24.10
<667
'6 25
21	23
25	15
20	20
24	23
25	84
16 89
22	69
26	76
25 69
32.75
23	45
25	19
29	60
37 24
41 30
34	49
23.96
22 22
26	66
30.65
32 22
35	74
24	96
5 88
5.07
5 65
29	15
30	26
25	81
1421
13	06
15 18
18 77
32	36
33	75
31	71
519
5.7C
5 24
4 89
2871
1363
1757
29.10
17 85
27	62
20 03
2649
17 14
1496
14	19
1904
20	90
34 93
34	73
31 72
2D 47
11	14
12	17
11 00
23 23
26 37
18.82
23	74
15.90
1563
2050
24	55
1956
23.48
24.94
15	97
21	39
26	09
24 75
29 76
21	64
24	05
28	72
36 97
41 C3
33 73
22	07
19 89
25	34
29	62
31 74
35	21
2305
492
4 60
426
27	65
29	09
1936
10 02
6.96
851
11.21
30	86
3262
30 11
441
4 53
4 63
4 34
27 54
12.14
16.07
27.35
1644
25	96
18.61
24	75
12 42
11.66
10 49
15	73
17 99
31	65
33	65
26	60
17.28
9 58
10 16
9 18
21 99
25	14
17	56
23.10
1345
14	79
19	48
23.80
1861
22.12
23	31
14.73
1953
24	96
24 39
24 54
18.18
21	33
26	83
36 15
40 15
32	36
18	86
16	83
22	94
27	83
30 78
34	62
20	09
451
4	18
3	18
24 49
26.97
15	15
656
5	22
485
7.94
29.33
30.42
28	30
399
355
4	18
402
25.61
11	36
15.07
10.66
14 94
23	65
16 94
23.23
1086
10.40
9.08
14 15
16.45
30	33
3232
26 91
1b 28
8.74
9 25
8 32
21	15
24	45
16 68
22	72
12	84
14	36
1893
2324
18 31
1979
20 79
14.22
18 89
2446
23	89
21.22
15.65
1699
25	56
35 57
39 53
31	40
17.tt
15	62
22 03
27 33
30 16
34 07
18 64
4 37
4 03
2	97
22 30
25 33
13	57
576
4 27
3	68
661
27.90
2676
27 !0
363
2.76
391
381
24 23
1018
13 49
921
13	56
22	24
15 58
21	95
9 03
8.85
766
1227
14	85
26 05
30.26
24 74
12.77
7.82
802
7.19
19.62
23	33
15.74
15.21
12	02
13	45
17 95
22	56
17	49
15	94
18	72
1341
17 93
23	56
22 51
16.47
11 96
15 19
21 92
34.04
37 46
29 95
15.41
13 86
2146
24	57
26 91
33 03
159)
3.98
371
252
19.41
5.67
1291
5 03
3 67
3 12
5 57
26 52
26 62
24 66
3.31
232
3 53
3.53
21 38
4 51	180.0
665	1600
8	56	160.0
6	55	160 0
13	26	180.0
9	26	160 0
15.77	160 0
3 38	180.0
3.49	160 0
3.00	180.0
6.42	180.0
6.77	180 0
1889	1800
20.03	180 0
14.39	180 0
4.46	180 0
3 36	180.0
3 58	180 0
3 31	180.0
14.54	180.0
1706	1800
7	63	18C0
6.44	18C0
6	29	180 0
7.85	1800
10	82	180.0
14	56	160.0
11	24	160 0
9.31	180.0
10 27	180.0
7	41	160 0
10.74	1800
14 67	180.0
13 68	160.0
3.51
3.19
30.0
300
6 76 30 0
11 23 30.0
19.13 30 0
7 66 30.0
6.63
12.71
30 0
30 0
14.36 30 0
18 96 30 0
23 72
592
2.04
1 61
1 07
9.42
3 01
806
353
2.17
1 26
1 03
9 63
12 25
12 53
1.19
300
150
150
15 0
ISO
15.0
15.0
150
150
150
15 0
150
150
15.0
150
15.0
0.57 15.0
1.46 150
1 72
12.08
15.8
150
30
3.0
30
30
3.0
30
30
30
3.0
30
30
30
30
3.0
3.0
30
3.0
3.0
30
30
30
30
3.0
3.0
30
3.0
30
3.0
30
3.0
3.0
3.0
16
20
26
23
45
36
15
13
20
23
20
15
51
46
74
15
31
40
46
13
58
25
21
20
20
18
48
51
28
23
23
20
66
43
13
15
16
35
87
35
16
10
13
12
56
41
S3
13
15
23
56
35
20
13
12
1ft
41
23
23
20
53
36
15
36
43
33
279267
323.767
264.573
307 113
295 142
422.707
307.660
138 753
140 363
137 347
132665
120 186
106	872
100 647
108 091
345 855
338 010
337 479
274 652
240.713
233 406
281 192
291.694
295909
341 870
283.522
292.4<8
295463
258 994
256 194
247	162
244 004
216	203
248	804
127	902
124 822
107	806
30 330
75512
61 253
97 156
111543
112 166
100.072
99 403
87.509
76830
225 985
225 500
239.906
225.812
201.330
225.307
14«659
142656
141.451
145.983
142.157
121 535
128	861
134 964
217	642
2170t4
218771
215.091
145 564
H-2K
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files
Water	Water Soil Soil
Sort	Soi!	Table	Table Horizon Pa/tide
Component Profie Lab Decsrty	Sot; Walef Content (votiroe %) at Indicated Capillary Suction	Depth	Duration Thickness Diameter
Name	No. No. fo'cc) 3.5cm 20cm 30cm 45cm 60cm 60cm 100cm 150cm 200cm 333cm 15Kcm (sm)	{mo.)	(cm)	(urn)
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
MALABAR
MALBIS
MALB1S
MAwBIS
MALBtS
MAlBlS
MAtBJS
MALBIS
MANDARIN
MANDARIN
MANDARIN
MANDARIN
MANDARIN
MANDARIN
MANDARIN
MANDARIN
MANDARIN
MANDARIN
MANDARIN
MANDARIN
MANDARIN
MANDARIN
MANDARIN
MANDARIN
MANDARIN
MANDARIN
MAN DARIN
MANDARIN
MANDARIN
MANDARIN
MANDARIN
MANDARIN
MANDARIN
MANDAftW
MANDARIN
MARGATE
MARGATE
6
10
10
10
to
10
to
u
11
11
It
H
11
It
11
23
23
23
23
23
23
29
29
29
29
29
29
29
29
29
29
29
29
6
0
6
6
6
6
6
to
10
10
10
10
10
10
10
13
13
13
13
13
13
13
13
13
13
13
13
99
99
4443
8113
6114
61 IS
8116
6117
6116
6010
6011
6012
6013
6014
6015
6016
6017
1719
1720
1721
1722
1723
1724
• 725
1725
2930
2931
2932
2933
2934
2935
29)6
J 575
1576
1577
1576
1579
1560
1561
5655
5656
sesr
5656
5659
5660
5661
6211
6212
6213
6214
9215
6216
6217
9216
2004
2005
2006
2007
2008
2009
2010
2011
2012
2013
2014
2015
9137
9136
J 63
1 50
164
1.82
1 eb
1 75
1.72
1.22
1 se
1 59
1 61
1 63
1 62
1.74
1.81
1 18
1 52
1.52
1 57
1 75
165
1 66
1 65
1 25
t 50
1 53
162
1 56
1 74
I 7«
1 36
1 66
1.60
1.99
1 66
1 67
1.66
1.30
1 Si
1 20
1.44
1 54
1 55
1 73
1 32
1 43
1 43
1 24
1 35
1 47
1 52
1 4$
1.14
1 16
1 46
1 44
1 04
1 28
1 49
1 5)
1 46
1 50
1 48
1 45
1 34
1 61
37.17
39	66
33.65
36.24
36 92
35	74
36	28
44 33
37.11
58 47
36 54
34 47
32	70
31 03
30 80
51	43
40	43
36 54
36 26
35.75
37.31
36 35
37.03
46.15
36 78
34 64
34 22
36 54
34	76
33.14
43	75
35.15
39	45
40	07
36	40
3851
37	41
42 44
35	64
50.79
36	82
35 43
33	92
30 92
42 66
30 17
40 40
48.07
44	17
38	96
38.01
40.97
52	24
75 44
47.19
51 38
73 78
48 33
44	96
44.81
45	01
44 18
44 84
44 32
29 28
21.88
34	58
38 33
32	99
35	48
35 73
35	21
34	03
41 58
36	72
38	33
35.72
33	68
32.20
30.71
30 18
47 97
39	96
35	42
35 33
34	67
35	63
34	97
35.17
44 *8
35	88
33 99
3356
35	54
33	85
32 79
30 51
34	82
38	42
39	21
36	38
38 07
37	06
40	S3
34 70
49 15
34 25
34	61
31.78
30 33
3572
32 33
35	29
46 98
43.63
36	14
37	28
40.22
46 30
72 05
43.29
41.67
70 15
40.19
41	30
39*2
4083
42	12
4222
41 48
21 57
1834
32	58
36 29
31 48
34	57
35	16
35.02
33	87
39.92
36	5t
37.64
35 55
33	56
32.01
30.46
29	93
45 74
37.22
31 38
31	22
3287
34	03
34 33
34.89
40	83
33	83
32	84
32	46
34	53
33	15
32.03
3a 01
33 91
38 17
38	95
35.99
37	70
36.93
36.53
26	52
48 32
33 04
3341
30.39
28 60
30	19
27	66
32 33
4638
41.29
3701
37.01
38.87
44 25
69 41
43 29
39	24
64 92
37	25
38	23
39	40
39	52
41	84
41 29
40	94
1569
13 82
3C53
26.72
26.67
24	86
28	63
29	89
33	48
35	47
32	69
34	55
34 52
31 62
30.44
30	14
29 58
42 28
27 99
16.68
21 93
30.88
29	59
34 23
34	51
33	95
25	25
•?4 15
26	94
3CQ5
33 06
31	79
3631
33.85
36	86
36.69
35	37
37	S3
36	22
25	28
17 06
47.*9
27	39
27.67
21 91
26	72
21 24
*6.02
17 86
40 82
33 88
24	23
21	26
14 93
32	23
53 24
30	40
26 27
59 55
33	24
22	63
35 72
25	39
38	52
30 07
29 14
12 t4
a 74
29 44
19 80
1956
19	45
19.12
20	44
33 25
27 56
23	22
25 54
33 29
27 06
25 38
29 74
29 41
3? 40
17 80
11 99
15	59
27 31
24	68
33 91
33	66
2566
16	32
17	01
2C 57
24	55
32	19
31.16
34	71
33	53
33	77
3551
34	99
37.35
35	21
20 65
11 60
44 25
22 83
20 '0
1542
25	53
16 90
10 57
10	85
35 44
26	53
16 31
1341
7 85
20 36
38 79
1385
1144
47 66
27	99
13 82
11	51
11 96
10.46
16.51
1622
944
602
27	63
1531
1235
9.73
11 85
11 51
32	92
19.50
15 85
18.48
27.08
23	16
21 93
28.21
28	63
30.47
11.90
7 36
1099
2023
1530
33	31
32 68
1994
11	66
12	34
14 65
12 62
31	72
30	95
32	78
31	75
31 76
33	93
34	6C
37 C5
34	53
P«6
786
40 81
1955
12 92
10.70
24	60
13.77
743
696
31 03
21 87
11 48
8	27
5	43
16.79
35	56
9	89
10 98
42 79
24 88
10	02
581
6	85
5.6C
11	7e
11 09
7.23
4 38
26	88
11.72
8	23
630
6	59
7	79
32 46
15	95
12 25
14 50
24 42
20 39
19.07
26.73
28	31
27	60
9.52
594
944
15.77
11.88
32 88
31.75
17.25
9	57
10.10
1*.9«
8	33
31 22
30.30
31	CM
29	71
30	35
32	90
34 47
36 49
33	57
16	06
6 06
38.48
17.80
1C 86
899
24 36
12.30
5.92
553
28	87
20 02
9.91
6.48
5.08
15 15
33 25
825
868
40 39
22 82
9.36
508
593
5.20
996
8.87
5 17
384
2S.47
864
5*3
409
609
5.15
31	80
12	82
884
10 94
20 36
17 67
1S53
24 61
27 24
24 17
7.59
4	91
771
U 89
916
32	14
29.84
14 34
7 26
7 35
9.15
5	S3
29 80
29 12
27 72
26 39
27.49
30.56
33	96
35 75
31.82
14 05
4 51
35 09
16	07
o 91
7.37
23 60
1049
4 57
4 07
2S92
17	69
7.96
466
4.1}
13	34
32 05
7.14
549
37 53
19.61
6.71
4	OS
5	03
4.47
8.14
7.89
5 12
299
24	53
7.98
4 80
391
5.42
4 52
31.01
11.87
794
• 0.31
18 30
16 56
13 52
23	49
26 51
22	97
7 28
4	59
7	41
10 98
644
31 87
28 95
12.60
5	07
6	32
8	03
4 42
26 49
2806
25	85
24	51
25.58
2920
33 69
35	33
30	05
12.74
4 01
33 06
15 15
8 06
6	59
23	36
960
409
3	57
24	65
16.76
7	52
4	39
3 78
12.18
31	35
635
3.90
36	52
17 87
596
320
396
3 74
6 95
6 52
4.88
2.63
22 82
689
359
3 37
3 82
3	55
26 36
10	97
7	05
9.71
1606
14 74
It 47
21 82
24 89
21	07
6.60
4	16
8	09
8 73
6.95
30 90
27Zi
11	66
521
5	68
7 23
4	11
28 01
*672
22	49
20	98
22 40
26 78
32	93
34 13
26.73
10 7!
364
29.74
13 45
6	78
5	27
21	64
8.71
392
336
22.34
15.16
653
380
3.71
11.37
30 87
6	03
369
33	60
15 16
4	89
2	96
3	52
3 11
573
5	08
2 61
222
13 27
150
30
15
215301
3 05
15.0
30
15
18V359
0.90
15.0
3.0
15
182871
1 OS
150
30
28
180 847
0.69
150
3.0
16
163 718
0.70
150
3.0
51
180.164
10.22
15.0
30
76
148756
399
150
3.0
10
177 801
2 37
150
30
26
183 792
075
150
3.0
40
173 575
221
15.0
3.0
16
161.697
3 37
150
30
16
171 621
1.75
150
3.0
10
180 295
6.96
15 0
3.0
43
163.216
11 37
150
30
36
162.187
641
150
30
5
159 237
2.30
150
3.0
18
199.228
226
150
30
15
2C5.670
2 70
150
30
23
193 471
3 29
150
30
20
192 009
1 82
150
3.0
26
189.8*9
14 33
1S0
30
27
166 508
13 10
150
30
69
162073
4 66
15.0
30
15
177.558
1 11
150
30
15
180 603
0 57
150
30
13
178.512
251
15.0
30
16
172 690
0.43
150
30
46
172 479
15 78
150
30
76
144 692
700
150
30
20
203 820
5 73
120.0
20
ts
77313
7 15
1200
20
10
75 610
8.90
1200
2.0
18
73481
t2.39
120.0
2.0
41
67 344
23 40
1200
20
51
60044
20 64
1200
20
22
69.657
13 11
120.0
2.0
46
94 917
2 70
75 0
35
13
159 249
112
75 0
3 5
58
181 098
4 44
75 0
35
13
148 466
1.93
750
3.5
12
153 663
077
75 0
35
31
158 320
087
75.0
35
25
155446
3.06
75 0
35
51
142 360
2.40
75 0
3.5
15
162.717
0.89
75.0
35
15
161.978
0 59
750
35
21
161.402
5 98
75.0
35
5
154 682
431
75.0
35
3
151.709
1 41
75.0
3 5
15
155.993
0.73
750
3 5
71
160 228
0 18
75.0
3.5
53
160.462
7 62
75.0
35
10
149.566
8 07
75.0
35
10
159.136
3 42
75.0
3.5
46
155.887
209
75.0
35
10
145 064
8 47
750
35
13
147 212
7 U
75.0
35
13
143.236
1.70
750
35
15
155 464
1.4?
7S.0
3.8
25
156 339
1 47
750
35
15
155 342
1.14
75 0
3.5
28
155 372
2.03
75.0
3.5
tl
155 211
1 63
75.0
3.5
26
158 695
0.78
00
25
15
268 371
0.55
0.0
25
23
266 809
H-29
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files





Waler
Water
Soil
Soil
SoM


Soil

Table
Table
Horizon
Particle
Component
Profile
Lab
Der*;ty
Soil Water Content (volume %) a! Indicated Capillary Suction
Depth
Duration
Thickness
Diameter
Name
No.
No.
iVcc)
3.S cm 20cm 30cm 45cm 6C cm 80cm 100cm 150cm 200cm 333 cm
l5Kcm (cm)
{mo.}
(cm)
<(im)
MARGATE
MASCOTTE
MASCOTTE
MASCOTTS
MASCOTTE
MASCOTTE
MASCOTTE
MASCOTTE
MASCOTTE
MASCOTTE
MASCOTTE
MASCOTTE
MASCOTTE
MASCOTTE
MASCOTTE
MASCOTTE
MASCOTTE
MASCOTTE
MASCOTTE
MASCOTTE
MASCOTTE
MASCOTTE
MASCOTTE
MASCOTTE
MASCOrTE
MASCOTTE
MASCOTTE
MASCOTTE
MASCOTTE
MASCOTTE
MASCOTTE
MASCOTTE
MASCOTTE
MATUCHA
MATLACHA
MATLACHA
MATLACHA
MATUCHA
MATLACHA
MAJREPAS
MAUREPAS
MAJREPAS
MAUREPAS
MEAOOWBROOK
MEAOOWBROOK
MEAOOWBROOK
MEADOWBROOK
MEADOWBROOK
MEADOWBROOK
MEGGETT
MEGGETT
MEGGETT
MEGGETT
MEGGETT
MEGGETT
MEGGETT
MEGGETT
MEGGETT
MEGGETT
MEGGETT
MEGGETT
MEGGETT
MEGGETT
MEGGETT
MEGGETT
MEGGETT
14
u
14
14
14
t4
15
18
16
16
18
15
16
16
16
16
36
36
36
33
36
13
13
13
13
25
25
25
25
25
25
15
15
15
15
15
15
17
17
17
17
17
17
16
16
16
16
0139
6240
6241
6242
•243
6244
6245
6246
4395
4369
4397
4366
43M
4400
4401
4402
4403
6054
6055
6056
6057
6056
6059
6060
7925
7926
7827
7928
7929
7930
7931
7932
7933
4326
4327
4328
4329
4330
4331
4191
4*92
4193
4194
6729
6730
6731
6732
6733
6734
7403
7404
7405
7406
7407
7406
6266
6287
6266
6289
6290
6291
6494
6495
6496
6497
6496
1 64
143
1 52
1.59
1 49
1 63
1.58
1.61
143
1.51
1.37
1 49
1.61
. 1 «
1 65
1.73
1.79
1 43
1 52
1 47
1 49
1 «
1.50
I 61
1 30
1.50
I 52
1 56
149
I 46
1 74
1.57
1.41
1.06
1 46
1 46
144
1 46
1.49
0 29
0 21
0 18
0.17
>20
1.41
1.44
1 57
1.49
1.67
1 43
1.80
I 71
1 56
1 44
1 78
1 70
i 56
1 43
1 34
1 52
I 56
1.56
1 41
I 38
21.13
36.53
37 42
37.09
40 09
3529
37.45
29 69
39	07
34 25
40	53
37	92
34 53
34	94
32 11
31 71
28	96
38	53
37.42
42	19
40.09
35	28
37	45
29	69
44.51
36	60
43	27
4724
4*01
40.'.4
31 18
36.78
41.75
98.10
42 63
4263
44	50
42 28
41	12
57 53
65 71
70 39
73.17
49	85
41 27
4C 66
4093
46 53
41 53
38	03
30	79
47.17
41 64
35.40
41.91
39.80
30 45
33.68
41 44
45	54
49.97
4250
37	93
38.47
50	56
51	49
17.77
37 26
36	29
35	M
39 7?
34	53
3569
26 92
37	76
33.25
3687
3651
3351
33.76
31 14
30.38
27.19
37	28
36.29
36	85
39 77
34.S3
35	69
26 92
39.29
3649
41 54
43	64
41 51
39	06
30 96
36	71
40	63
51 29
40	70
41	04
4249
41 53
40	38
55.31
63 08
66 44
74.12
46.28
41	18
39 83
38	39
44	64
41.10
35.99
3060
47.15
41.59
35	34
4!.69
39	28
29 44
33 53
41 36
45	32
49.90
41 68
36	53
35.44
49 93
51 26
1341
34 69
33 01
32	24
36 13
33	72
34	96
28.66
36 54
32	15
36 91
33	55
33	31
32	12
30.06
30 24
26 48
34	69
33.01
3351
38	13
33	72
34.96
26 S8
36 01
36 31
40	51
41	40
39	67
36 46
30 26
36	63
39 50
49 86
37	27
39 91
42	06
41 12
4023
52 64
61 09
62.19
71.69
46.76
4081
39.58
36.21
43	27
40.75
35.38
29 96
47 14
41 56
35	28
41.87
39	17
29 30
3345
40	99
45 17
49 83
41	76
35 15
34	98
49 66
49 93
6.01
30:62
2879
262!
3231
26.60
33 25
26 99
27)7
20	73
33 74
30.60
30.06
30 99
29 56
29	95
25	34
30	62
26	79
29 22
32	31
26 50
33	25
26	99
28	24
25 35
38 67
36	39
28.69
2931
29	78
34.85
35.74
4276
29 44
24 79
2269
21	88
20	85
51.06
S9 89
61.09
70.11
46	50
37	51
38.33
36.14
41 66
40	48
27.06
21	60
47	06
41	53
35	16
41 33
36	75
27	94
33 40
40 83
44.90
48	55
38.67
33 71
32 n
46 33
49.65
5.58
26 49
24.01
23.14
26 86
23.11
32.48
26	64
'9.50
15.49
31 72
27	56
27	64
30	63
29 36
23	31
24	32
26 4S
24 Ct
24 19
28	65
23 11
32.46
26 64
22	29
17 t?
33 47
31	95
1666
17.85
26	27
33.17
31.76
33 92
21 80
17.08
11 55
*0 76
1043
49 11
58 21
59.54
68 58
45.10
31 66
33 56
27	82
4068
40	29
23	89
1751
47	03
41	51
35.02
41 76
36.17
26 74
32.53
40 42
44.36
48	23
35.61
31 26
29 28
48	25
49	51
396
22 69
21.06
20	12
26 01
2C.35
31 38
25	85
14 64
11.60
28.63
22	47
17.54
29	25
2649
28 31
23	22
22.69
2' 08
21	29
26	01
20 35
31 38
25	35
13	05
10 $5
27	83
27	33
1231
10.02
26	9 7
30	10
28	74
27	03
16 78
12 78
635
598
538
48	24
57 33
57 62
67.11
41.20
25 10
27 41
20 88
39	4S
40	12
20 59
14	40
46	97
41	49
34	86
41 75
35	57
25 43
31	97
4C 17
44 07
47	86
31 81
27 85
25 65
47.74
49	22
331
1905
19	52
20	10
24	42
18	53
30 32
25	25
1296
986
2721
19	55
12.91
27.39
28 17
27	97
22 14
19	05
19.52
19.99
24 42
16.53
30 32
2525
15 70
8.06
2549
24	45
'.0 09
7 02
25	86
28	78
2673
24 43
15 02
11 02
5 98
596
5 14
44 43
54 37
5031
63 87
36.05
20	64
21	95
14.55
36 17
39 77
18.38
12.37
46	92
41.40
34.79
41.68
34 33
24	42
31.48
39 83
43 80
47.45
29	21
25	77
23 26
47	47
46 84
2.77
1609
18.34
15.21
21 88
1600
29 35
24 17
10 66
783
24 03
1592
8	97
20 36
26 99
26 94
20	38
16 09
16	34
17	18
21	88
16.00
29	35
24 17
13.07
568
19.74
1922
7.16
4.56
24	02
25	34
24	26
21.51
13 78
939
553
4 95
4 74
37	55
48 98
46 11
57 99
26	13
15 75
»6 39
9	77
35	65
36	26
15.87
10.86
46 63
41 24
34.87
41 56
30	78
22 81
30 65
38	62
43.08
45	32
25	94
22 80
20 08
44.88
46	47
2.13
14 20
1489
1397
20 56
1499
28.70
23 54
981
6.44
22	40
14.41
748
17 23
25 60
25.S4
19	20
14 20
14 89
16	03
20	56
14.99
2870
23	54
11.97
496
1807
17	33
6.37
3.90
23 05
23	10
22 92
19.77
11 93
834
4.97
4 42
4.33
35 65
47 22
44.88
55 72
24	90
13 78
13 89
8 14
33	90
37 30
13.15
8 92
46.78
41.15
34	52
39 50
26.89
21	90
30.15
36.16
41 57
44.69
23.79
2097
18.44
44.00
45 86
1	80
11.01
10 34
10 34
18	48
12 81
27.29
19	58
8.09
5.15
20	36
12 U
5	72
14	31
2270
23 18
1672
11.01
10.34
^3 98
18	48
12.81
27.29
19	58
10 11
3.90
1648
15	94
551
2	86
20	72
19	46
20	22
16	31
10.39
6	61
3.60
326
3	13
28.59
41 52
40	21
47 07
1980
1008
10	11
5.76
29.64
34 06
11	12
870
41	00
40 90
32 22
34 99
25 19
19 86
29.05
37.06
40 24
43	13
21	02
18 66
16 24
42.72
44	91
048
0.0
1 93
300
1 84
30.0
1.75
30.0
505
300
2.65
30.0
15.15
30.0
11 06
300
1 72
300
1 25
30.0
633
300
4 29
300
1 48
30.0
4 33
300
10.02
30.0
"52
30.0
9.72
300
1 93
30 C
1.84
30.0
276
30.0
5 05
30 0
2 85
300
15.15
300
11 06
30.0
400
30.0
0 63
30.0
4 35
30.0
5 52
300
1 25
300
0 35
30.0
10 20
30.0
5 34
300
4.60
30.0
490
750
4.80
750
3 45
75.0
0.75
75 0
0 73
75 0
070
75 0
539
00
4.76
00
529
00
5.28
00
4 58
30 C
1 57
300
1 84
300
0.69
30.0
13.26
30.0
15 43
300
294
15.0
1 39
15.0
21 94
150
24 56
15.0
18 36
15.0
15 09
150
5.77
150
6 03
ISO
12.38
15.0
21.60
150
21 35
15.0
23 16
15.0
3.80
300
367
300
3 35
30.0
19.75
30.0
2.5
20
20
2.0
2.0
2.0
2.0
2.0
20
£0
2.0
20
20
2.0
20
2.0
2.0
20
20
20
20
20
2.0
20
2.0
2.0
20
2.0
20
20
20
2.0
20
25
2.5
25
2.5
25
25
60
60
60
8.0
4.0
4 0
40
4.0
4.0
40
3.0
30
30
3.0
3.0
30
30
3.0
30
3.0
3.0
3.0
30
30
3.0
3.0
3.0
42
13
12
26
13
10
71
Si
18
20
10
16
25
5
48
33
30
13
20
5
S
48
64
48
15
31
5
10
13
21
37
10
61
10
8
7
43
16
119
10
43
49
63
20
16
40
38
43
46
10
16
51
23
50
51
15
13
30
59
40
46
15
15
11
30
a
276 411
207 670
200	727
209 084
201	883
197 914
165.683
122 969
165 004
162.678
152452
160 035
167 591
163 533
142 353
146.942
225 145
213434
230.389
212.753
244 867
237 260
196 494
122969
277.077
149.103
136.167
137 067
<42283
145.394
114 003
132 508
141 669
303 565
295 231
285 343
244 722
255 497
160 643
150 000
150 000
150 000
150 000
125.798
125 572
127 397
124.839
82935
78 603
196 223
202 798
116	103
126.512
122 130
186 881
98.633
101 068
60.827
63125
56261
51 829
119 183
115 679
117	144
80158
51258
H-30
-------
Soil
Parties
Diamete
92477
79996
64315
5)94$
30.972
32.257
37 tM
47.079
49 949
151922
54575
32 993
37202
34450
32427
35 436
176 947
163 947
110 993
109.124
135010
139.029
134.743
213 309
210 454
213.903
209.549
130 748
172.423
197.901
270 329
253 302
250 366
251 067
249 909
244 819
21C084
165 853
175 333
169 331
170 469
170 066
167 718
130.493
113 543
114 966
171.526
164.291
166.064
169 551
197.944
166 662
136.417
153.405
152.200
150.236
150.911
149.172
1 *6.060
96051
233 049
232001
250 247
231.014
242 522
234 097
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files
Water	Water Soil
Soti	Table T«bi* Horizon
Profile Lab Density	Soil Water Content (volume %) at Indicated Capillary Suction	Depth	Duration Thickness
Mo. No. te'cc) 3.5 cm 20 cm 30 em 4Scm 60 cm 80 cm 100 err 150 cm 200 em 333 om 1SK cm (cm) {mo.)	(om)
19
19
31
31
31
31
31
31
31
24
24
24
24
24
24
24
94
94
94
94
94
M
M
6
6
6
6
9
6
6
9
9
9
9
9
9
9
9
12
12
12
12
12
12
12
12
20
20
20
20
20
20
20
24
24
24
24
24
24
24
63
63
63
63
63
63
6499
6500
3426
3427
3421
3429
3430
3431
3432
5375
5376
5377
5379
5379
5360
5361
3901
3902
3903
3904
3905
3906
3907
5350
6351
5352
5353
5354
5355
5356
5642
5643
$644
5645
5646
5647
5648
5649
3354
3355
3356
3357
335*
3359
3360
3361
7077
707$
7079
7060
7081
7082
7083
3576
3577
3570
3579
3590
3561
3562
2172
2173
2174
2175
2176
2177
1.59
1 59
1 43
1.57
1 36
1 47
1 56
1 59
1 63
1 48
1 27
1 00
1 04
113
1 IS
1.17
1.50
1 51
1.41
1 54
1.69
1.69
1.76
1.43
1 60
1 62
1 65
1.63
1 63
1.66
1 45
1.54
1 55
1 63
1 61
1.69
1 79
1.74
1.61
1 55
1.33
1.53
1 53
1 70
1 64
1.74
1 31
1 33
1 41
1 50
1 55
1 53
I 63
1 37
142
147
1 41
1 57
1 73
1.63
ISO
1 59
1 56
1 54
1.87
1 60
42 33
4310
42	29
36	30
46 17
46	11
47	06
4296
43.20
39 66
50 03
62 06
56 47
55	50
56	22
56 97
43	40
41.65
47.56
45 36
36.42
39.01
35 56
41.10
37	46
34	24
30 a&
33	06
35	74
39 18
36	04
37.89
39	57
34	81
34 26
33	13
27 06
34	53
40	04
37.31
42 54
41	96
39.21
34.67
40.06
36.19
43.62
48	34
4S53
42	42
41 97
36.95
35	03
43	96
44.19
39.15
34 97
34.97
34.15
33 15
41.91
36.73
40 49
39.93
35.63
29 40
42.50
42 94
41.67
35	36
47.63
46 66
46 27
41	45
42	59
36	02
4996
91 32
57 91
5452
57.74
56 18
39 82
36	32
46 66
43	46
37	39
38	08
34 73
37 57
34 56
31	88
27	17
28	61
33	67
33.00
24 90
32.33
24 62
26 65
27.37
2607
23 66
34	14
39	10
32.59
37 37
40.91
37 93
33	15
37 42
34.65
42.3!
45 69
43 67
40.73
39 83
34.51
32.39
39.86
41 55
37 33
34	49
34	32
33 44
32	62
33	45
33 53
35	97
36	51
3286
2545
4246
42 65
40 79
34	62
47 61
46	57
45 33
40	61
42 07
37 31
47	43
61 13
57 73
53 94
57 60
55 75
36	26
35	21
45 03
41	49
37	26
37 98
34 46
34.84
30.83
30	29
23	09
27.66
32.92
32	42
19 25
19 59
16.33
1544
16.76
1667
22.14
34.09
36	96
26.05
34	57
39.97
3641
33	10
37	06
34.36
41 33
37 93
37 40
3272
35	66
29 33
31	32
37 28
40 53
37 09
34	36
33.34
3249
31 82
29 23
2981
3C02
29 24
26.86
24	06
42.40
42	61
40	32
34.52
47 07
4641
44 96
4048
41	75
3351
46 86
81 04
57 67
52 82
57 56
54 96
33	06
31	79
43	48
40 66
37 19
37 7fl
34	26
26	14
2301
19 63
19	27
25 64
31.10
3* 8t
>4 66
14 52
12.40
10.79
1326
1201
19.10
33 66
35	33
2140
24 2*
2641
24	56
32	99
36.53
33	61
27	44
23 10
25	00
18 49
27	06
21 24
29	14
30	86
37 93
28	69
30.13
30	28
31	90
31.40
20	60
18 19
16.03
1739
20.06
22.6Q
42.32
42 76
40	04
34 36
46 58
46 02
44 53
39 50
41	12
29 72
46 40
59 14
57 56
52 10
57 53
54 53
28	56
29	24
42	53
40.22
37 06
37.56
33 46
20	69
16.76
1466
1668
24 23
30	33
31	14
~2 13
11.93
9 24
8	13
10 26
9	71
17 49
32	58
26	82
16 67
16	17
1939
17	72
32	74
36.18
33	32
21	36
15	36
1506
1093
14 23
16	26
27	06
23.77
am
2t.73
21.71
24 36
30.91
30 52
16 27
13.77
11.22
11.66
1597
21 60
42.28
42	65
3937
33 66
46 12
45 52
43	90
39	06
40	69
26 61
4576
56	30
54 75
51	39
57	50
52	58
23 72
26 60
41	03
39 49
36	74
37	29
32 91
16 90
12 77
9.45
14	24
2273
29	30
30	53
10 20
10	16
759
6.53
832
636
<6 15
32 03
1625
12.66
11.80
1' .21
•2 65
31	96
35 75
32	50
1640
11.26
9 35
5 16
820
12	13
25 15
15	25
14 69
1255
11	91
1549
3C58
29 44
13	72
1092
8.55
847
12.60
20 56
42 26
42	61
39	17
33 56
45 97
45 25
43	66
36 64
40	66
2507
45 30
57 10
54 44
50.76
57 47
52 05
2031
24 43
41.24
39 35
36 09
37.13
32 51
14 91
10 53
6	93
125*
21 56
28	64
29	94
9 28
906
6.74
564
7	12
7 35
15.27
31	41
13 15
1116
10 17
9 32
10.65
29 77
3541
32	17
14.46
964
802
536
660
10	56
23 63
13.00
11	76
9.70
901
10.99
2970
28 34
1266
960
744
704
10 87
19 75
42 21
42	10
36 56
32	23
45 66
44 77
43	63
30	44
40 23
2275
43.97
55.15
52 17
49.66
56 39
51.13
1624
21 03
40 26
36 21
36 61
36 10
31	78
1267
8.42
496
10 01
20 25
27 56
29	10
8 21
7	92
6 02
4	82
6 18
8	69
14 48
30	63
1043
9	23
6	12
7	44
9.16
25	79
33	73
31	26
12.35
0 31
6.77
4.49
603
8.64
21.77
9.71
644
6 23
5.7$
605
27 37
26	34
10 73
8.19
5.91
5	49
9.01
10.56
40.71
41.11
34	90
31	37
45	09
44 12
43 14
36 06
39 77
21 13
43 13
54 32
51 37
46	88
54 64
50.45
14.31
19 27
39 49
37.58
35	31
35 64
31.26
11 60
7.46
426
9.69
19 10
26 79
26.33
7.60
7.19
535
4	10
5	52
606
1384
29	94
9.10
808
7	42
694
8	49
24	94
32	81
30	44
11 14
7 27
5 75
3.70
4	59
7 69
2042
666
7.35
5	19
4.76
4 69
26 37
25	36
10.14
7.67
5.59
5.01
6.19
17.97
40.24
30.11
31 09
29.86
43 50
42	53
43	10
37.27
38.96
19 30
41.66
52.73
50 17
47.39
53 77
49 06
1209
17 05
37 99
36 51
34 27
33 90
30	17
9 58
6 18
345
8.40
1? 34
25	43
26	46
6.79
564
466
366
465
461
1269
27	69
605
7.22
652
6.30
647
23	90
31	93
29 65
9.73
8.40
4 96
320
301
6 55
17.78
760
6 23
4 16
356
3	75
24	01
24 95
9.00
7.06
501
4	47
7.23
1669
24 55
300
3.0
54
23 33
300
3.0
30
12.13
150
30
15
16.55
150
3.0
15
31.50
150
30
41
30 62
150
3.0
16
27 05
15 0
30
36
31.59
150
3.0
35
33 09
15 0
3.0
41
6 13
600
25
16
24.66
60.0
2.5
20
31.19
60.0
2.5
15
31 23
600
25
54
31.19
60.0
2.5
40
37 67
000
25
36
34 64
60.0
25
20
741
600
20
15
7 76
600
20
15
28 64
600
2-3
16
28 37
60.0
20
50
28 29
600
20
44
25 02
600
20
56
24 32
600
20
20
3 63
142 5
35
13
1 97
142.5
3.5
63
t.tc
142.5
3 5
31
4 39
142.5
35
15
10 42
142 5
35
15
17.15
142.5
35
41
17.02
1425
3 5
20
1.36
142.5
35
15
1.03
1425
35
15
0.61
1425
35
15
0.57
1425
35
15
053
142 5
3.5
IS
063
142 5
3.5
15
530
1425
3.5
15
14 79
142 5
35
15
3.66
1425
35
15
2.71
142 5
3.5
13
220
142 5
3.5
13
1 61
142 5
3.5
46
2-17
142 5
35
20
10.92
142.5
35
13
24 44
142 5
35
26
22.60
142 5
35
53
324
1425
35
10
2 26
142 5
3.5
10
1 90
1425
35
26
1 49
142.5
3 5
58
1 22
142.5
35
36
3 37
142.5
35
20
11 20
142.5
35
43
3.07
142.5
3.5
0
2 57
142 5
35
10
1 56
1425
35
50
0.83
1425
35
39
0 93
1425
35
43
15 33
142.5
35
12
21.92
142.5
3 5
41
3 71
142.5
3.5
23
3 02
142.5
35
30
1 96
1425
35
13
1.12
142 5
3.5
56
2.19
142.5
35
25
9.41
142.5
3.5
15
H-31
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files
Water	Water Soil Sod
Soil	Soil	T^>le	Table Horizon Particle
Component Piofile Lab Density	So J Water Content (volume %) at Indicated Capillary Suction	Depth	Duration Thickness Diameter
Name	No. No. (gtec) 3.5cm 20cm 30cm 45am 6C cm 60 cm 100cm 150cm 200cm 333cm 15K em" (cm)	(mo.)	(em)	(^m)
MtUHOPPEH
MIlLBOPPEn
MORIAH
MORIAH
MORIAH
MORIAH
MORIAH
MORIAH
MORIAH
MORIAH
MORIAH
MORIAH
MUCKALEE
MUCKALEE
MUCKALEE
MUCKAIEE
MJCKALEE
MUC
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files















Water
Water
Soil
Sot)
Soil


Soil











Table
Table
Horizon
Particle
Component
Profto
Lab
Density


Soil Water Content (volume %} a! Indicated Capillary Suction


Depth
Duration
Thickness
Diameter
Name
No.
No.
(S^ee)
3.5 em
20 cm
30 cm
45cm
60 cm
80 cm
100 cm
150 cm
200 cm
333 cm
15Kcm
(cm)
(mo.)
(cm)
(nm)
MYAKKA
19
5624
1 56
37.57
35 61
30 31
23 06
11 29
14 89
13.13
11.40
1074
9.53
2.10
30.0
30
59
107402
MYAKKA
16
5625
1 60
34 66
33 20
31 51
22 63
17 67
14 28
1234
10 61
9 79
866
1 94
300
30
53
201.388
MYAKKA
90
3831
0 07
6251
51.35
48 03
42 81
38 46
35 17
32.85
29.72
27 66
25 94
9.37
300
3.0
10
148 090
MYAKKA
30
3S32
1 30
50 38
43.26
40 36
25 71
1792
1500
1350
1220
11 34
10 26
2 89
30.0
3.0
10
154 969
MYAKKA
30
•mil
1 iz
42 06
40 23
36 63
18 64
1046
756
638
541
4 82
433
1 26
300
30
16
158 205
MYAKKA
30
3634
1 50
41.76
3042
38 56
21 05
10.86
753
624
526
4 61
4.10
0 92
30.0
30
22
159.305
MYAKKA
30
3635
1 36
50.26
46.37
47 62
47 47
47 25
46 00
4593
43 67
41.26
37 84
4 80
300
3.0
18
144 063
MYAKKA
30
3636
I SO
42 40
40 05
40 53
38 06
34 37
31 63
29 78
27 51
25 90
23 33
869
300
30
59
ISO 913
MYAKKA
30
3637
1 54
43 46
4226
41 51
38 34
24 65
19 10
1630
14.26
13.12
11.52
236
300
3.0
66
160.885
MYAKKA
01
3662
1.26
43 66
40 26
32.92
23 67
16.94
12.65
11.07
0.57
660
6.40
4 19
150
30
20
238 825
MYAKKA
91
3663
1.57
33.71
31 60
27 03
17 00
10.61
6.94
5 37
4.07
350
2 92
til
15.0
3.0
41
250 765
MYAKKA
01
3664
1 50
36 06
37 06
36 07
34 42
30 27
27 65
25 94
23 78
22 80
20 87
6 53
150
30
15
246 216
MYAKKA
01
3665
1 56
33 17
30 64
20 56
21 95
17.10
14.01
12 30
10 76
1006
8.90
291
150
30
13
261 458
MYAKKA
01
3666
1 64
32 04
31 26
30.70
17.56
11.61
8.61
722
560
5.11
436
1.20
15.0
30
46
253 666
MYAKKA
01
3667
1.67
33 36
31 16
30.62
21 78
1 4 67
S&4
6 61
4 85
4 01
344
1 75
150
3.0
73
234 149
NANKIN
26
2347
1 52
36 40
35.60
35 40
23 90
20 10
17 30
15 50
13 10
12 10
10 34
4 71
180 0
25
25
242 945
NANKIN
28
2346
1.75
31 69
3C87
30 45
24 18
20 47
18.29
17.15
1503
14 04
11 76
4.74
1800
25
11
251 234
NANKIN
26
2340
1.76
31 31
30 87
3071
25 43
24 36
23 32
22 92
21 88
21 37
20 10
17 46
180 0
25
5
206 991
NANKIN
26
23S0
1 75
35 67
35 26
34.97
34.06
33 32
32.79
32 64
32 13
32 00
31.19
26 04
190.0
25
23
128 526
NANKIN
26
2351
1.76
34 26
33.62
33.72
33.21
3234
32.14
32.03
31 20
30 85
29.67
25.60
180 0
25
50
108 530
NANKiN
26
2352
1 76
35 16
33 66
33 69
33 S7
33 40
32 75
32.61
31 91
31 19
29 96
25 12
180 0
25
54
188 240
NANKIN
M
2353
1 60
32 96
33.05
3286
29 85
28 84
28.U
27.45
26.22
2549
23.95
17.14
180 0
25
35
291.784
NEILHURST
21
5673
1 52
36 43
20.11
20 32
It 33
6.C8
6 45
553
4.56
4.16
3.75
0.74
180 0

16
271.764
NEILHURST
21
5674
1 55
32 24
25 36
17.74
10 35
7.51
5 92
499
4 17
3 86
3 39
068
160 0

73
264 205
NEILHURST
21
S675
1 49
36 40
32 11
1S 81
8 47
5 97
4 76
4 07
3 33
3 12
2 73
0 42
180 0

71
277 452
NEILHURST
21
5676
1 51
34 45
26 93
16 76
7 38
4 69
3 53
294
2 25
206
1.83
0.26
1800

41
209 576
NEWHAN
2
9160
1 44
30 66
36 42
38 35
20 17
868
454
4 31
3 90
3 24
2 97
1 32
1800

20
161 013
NEWHAN
2
6161
t $0
44 10
43 60
43 65
29 55
It 83
6 02
5 76
5 23
4 51
4 22
1 16
180.0

56
166415
NEWHAN
2
6162
1 45
30 57
36 96
35 77
17 11
786
443
421
377
2.90
245
0 78
180.0

64
185401
NEWHAN
2
6163
1 52
37.76
3676
35 38
1741
7 40
4 07
3 85
341
2.61
234
1 05
1800

63
177.480
NEWHAN
14
6002
1 42
40.66
39 17
38 97
566
429
3 95
369
330
3 15
2 73
1 09
1800

2
240 308
NEWHAN
14
6093
1.46
30 53
37 71
37 48
5.86
4.20
395
3 68
3.32
3.25
2.57
1 30
1800

34
236125
NEWHAN
14
6084
1 30
36 67
30 01
36 67
4 77
3 65
343
324
3.01
2.93
2.75
1 24
180.0

83
230.069
NEWHAN
14
6005
1.40
37.60
3647
35 IS
4 61
3.14
2.97
286
2.72
264
2.45
1 06
180.0

84
232.244
NEWHAN
25
4732
1 42
40.66
39 17
38 97
6 68
4 29
3 95
3 69
330
3 15
2 73
1 09
1800

13
287 048
NEWHAN
25
4733
1 46
30 53
37 71
37 48
S.86
4 20
395
3 68
3 32
325
2 57
1 30
1600

43
317430
NEWHAN
25
4734
1.30
36 67
36 91
36 67
4.77
365
343
3 24
3.01
2.93
275
1 24
180.0

71
311.305
NEWHAN
25
4735
1.40
37 89
36 47
35.09
4 61
3 14
2.97
2 33
2 72
2.64
2 45
1 06
180 a

76
301 605
NITTAW
11
5110
075
66.35
64 35
63 28
61.74
60.63
59 64
59 25
57.78
56 94
55 16
16 16
150
3.0
15
99660
NITTAW
11
5111
1.26
54 60
54 21
54 10
54.16
54 15
54 09
54 02
53 89
52 59
50.54
26 61
150
3.0
50
96 356
NITTAW
11
5112
1 26
51 94
51 71
51 69
S1 67
51 65
51 50
51 43
51 36
5l 04
48 68
26 74
15 0
30
43
78 880
NITTAW
11
5113
1.25
54 37
53 96
53 94
53 92
53 65
53 83
53 73
5349
S3 28
SI 33
28 85
150
30
45
81.653
NITTAW
It
5114
1 47
44 28
44.15
44 05
44.02
43 90
43.77
43.70
42 57
42 15
40.69
21 83
15.0
3.0
28
101.560
NITTAW
11
5115
1.70
34 61
33.72
32 62
30 45
23 72
27 08
25 64
23 58
22 15
1948
S.92
150
30
13
203 066
NiTTAW
20
6304
0 82
64 79
61.14
60.49
58 90
57.96
56 66
55 45
53 25
51 57
47.69
14.23
15 0
30
8
132.256
N'TTAW
20
6365
1.44
48 61
4664
45.44
44.14
42 54
41.03
39.77
38 4C
37 67
35.81
10.04
150
3.0
38
165.006
NITTAW
20
6366
1 35
47 55
46.99
46.90
46.92
46 67
46 52
46 16
43 53
42 59
41 07
19.18
150
30
45
161414
NITTAW
20
6367
1.60
41 65
41 06
40.96
40 08
39 n
39 03
38 61
37.63
37.17
35.23
11.42
15.0
3.0
54
181.362
NITTAW
20
6366
1.60
35 47
34.57
34 50
3244
30 40
26 10
26 45
2447
23 42
20 35
5.71
150
30
58
202062
NCBLcTON
1d
3533
1 27
40 03
35 61
33 07
30 28
24 52
18 62
15.19
12.02
10 67
894
408
75 0
20
15
146 296
NOSLETON
16
3534
1 53
36.63
33 05
30.96
27 29
21 36
18.78
1460
10.74
9.41
7 54
3.26
75.0
2.0
26
146.061
NOBLETON
16
3535
1.61
37.06
37 26
36 27
30 65
23 46
<766
14.26
11.16
962
848
530
75.0
2.0
23
148.403
NOBLETON
16
3S36
1.62
36 75
37.07
34.47
32 26
29 40
1907
16.01
1367
12.48
1098
7 24
75.0
20
13
141.665
NOBLETON
16
3537
1 78
34 50
34 74
34 75
34 76
34 24
33 65
32 91
31 74
30 95
29 74
24.07
75.0
20
17
115 746
NOBLETON
16
3536
1 73
35.59
35.07
36 33
36 04
36 02
36.04
35 12
34.33
33 62
32 25
24 24
75.0
20
51
88.171
NOBLETON
16
3530
1 55
4553
4554
45.63
45 53
45.56
4552
45.41
45.22
45.14
44 59
33.02
750
20
56
76.015
NOBLETON
16
3540
1 45
4637
47.02
47 93
47 70
47 77
47 54
47.36
46 43
4574
43 83
37 37
750
2.0
41
84 355
NUTALL
6
6575
1 36
46 43
44 54
43 68
4C 07
35 5t
28 27
25 42
20.28
18 26
16 32
3 74
00
35
13
134.900
NUTALL
6
6576
1 54
33.07
32 60
31 47
27.13
23.34
1898
1542
10.06
6.52
7 08
1.26
0.0
3.5
12
144 751
NUTALL
6
6577
1 40
46.62
47 57
47 19
45 60
45 06
44 44
44 21
43 15
42 25
41.17
17 16
0.0
35
26
99 305
NUTALL
6
6576
148
47.40
47.11
46 00
44 75
44 31
43 97
43 78
42.75
41.92
40.86
17.43
00
35
43
111 844
NUTALL
37
55)0
121
50.21
46 48
45 50
4392
41 97
39 81
37 03
33 72
30.76
25 35
3.52
0.9
3.5
10
143.045
NUTALL
37
5520
1 44
36 66
37 36
36 7C
33 53
26 06
21 67
17 11
1320
11 51
926
0 92
00
3.5
13
151 414
NUTALL
37
5521
1.56
36.50
3542
35 13
30.58
23 94
14 10
830
5 88
5.10
4.52
0.19
00
3.5
10
156 720
NUTALL
37
5522
I 61
35.03
34.06
34 51
31 75
2451
14.84
926
6 46
5 50
4.20
026
0,0
3.5
10
153 722
NUTALL
37
5523
1 32
51.16
4091
40 76
49.43
46 22
47 65
47 22
4631
44.90
43 27
13.63
0.0
3.5
33
110 763








H
CO
CO









-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files
Water Water Soil Soil
Sofl	Soil	Table Table Horizon Particle
Component PtoJile Lab Density	Soil Water Content (volume ot Indicated Capillary S'jction	Depth	Duration Thickness Diameter
Name	No. No. (g'cc) 3.Scm 20 em 30 cm 45 cm 60 em 60 cm 100 cm ISO em 200 cm 333 cm i5Kcm (em) (mo.)	(cm)	(^m)
CtENO
CLSNO
O'LENO
OlENO
O LE NO
O'LENO
O'LENO
OLENO
0 IE NO
OCHOPEE
OCHCPEE
OCHOPEE
OCHOPEE
OCILLA
OCILLA
OCILLA
OCILLA
OCILLA
OCILLA
OCiLLA
OCILLA
OCILLA
OCILLA
OCiLLA
OC.LLA
OClLA
OCILLA
OCILLA
OCILLA
OCILLA
OCiLLA
OCILLA
OCILLA
OCILLA
OLUSTEE
OLUSTEE
O'-JSTEE
OLUSTEE
OLUSTEE
OLUSTEE
OLUSTEE
ORANGEBURG
ORANGEBURG
ORANGEBURG
ORANGEBURG
ORANGEBURG
ORANGEBURG
ORANGEBURG
ORANGEBURG
ORANGEBURG
ORANGEBURG
ORANGEBURG
ORANGEBURG
ORANGEBURG
ORANGEBURG
ORANGEBURG
ORANGEBURG
ORANGEBURG
ORANGEBURG
ORANGEBURG
ORANGEBURG
ORANGEBURG
ORANGEBURG
ORANGEBURG
ORANGEBURG
ORANGEBURG
20
20
20
20
20
20
20
20
20
4
4
5
5
a
e
8
6
1
S
10
10
10
to
10
10
10
12
12
12
12
12
12
12
12
22
22
22
22
22
22
22
2
2
2
2
2
2
2
2
2
2
2
4335
4336
4337
4338
4330
4340
4341
4342
4343
7440
7441
7442
7443
6760
6761
6762
6763
6*64
6765
4036
4040
4041
4042
4043
4044
4045
4233
4234
4235
4236
4237
4236
423»
4240
2588
2589
2590
2501
2592
2593
2S34
5720
5721
5722
5723
5724
5725
7511
7512
7513
7514
7515
6327
6328
6329
6330
6031
6332
2307
2306
2300
2310
2311
2312
4101
4102
135
1.30
1 36
1.37
1 59
1.57
1 62
1.54
1 37
1.00
1 53
0	93
132
157
1	60
1.66
1.65
1 3?
1 54
I 47
1 50
1.53
164
1.67
1.7?
1.56
1 55
1 48
1 63
1.69
1 36
1 40
1 65
1 52
1 22
1 47
1 39
1 57
1 31
I 66
1.56
1 41
1 41
1 56
1 65
1 60
1 66
1.56
1.71
1 56
1.69
1.67
1 51
169
1.59
1.63
1 70
1.74
1 42
1 59
1 50
1.53
1.71
1 71
1 49
1.41
44	23
43 74
45	02
4326
39	65
40	07
40 11
40	32
43	66
56 51
42 82
57.41
46	25
41	26
36 56
37.77
36 61
47.66
45.49
42	17
39	93
40.42
36 53
34	77
35	26
44	99
36	28
40	63
34	57
31 23
45	57
44 90
36 56
3? 15
7C 30
58.67
4396
40 36
53 14
40 22
42.11
40.24
42 45
37.76
35.62
33.49
35	20
36	91
31 36
35 60
35	26
36	63
40 M
34	17
40 56
37	66
35	01
33.56
40	36
37 64
47 45
41	60
37 87
37.02
39.C2
AC 23
43 42
42 26
43.97
42 12
37	83
36 69
39.06
39 54
41.66
51.40
3661
53 94
43.42
38.70
36.56
3590
35 17
45.'0
42	33
39 24
35 56
3556
33 50
34.40
33 as
43	96
35	04
38	56
32.90
30.17
44	64
44.04
36.02
36	21
67.91
57.06
41.76
39	35
51.16
37	32
40.53
36 34
36 90
32	96
32.61
3061
33	53
33 66
30	10
33	94
34	45
33 67
35	36
3147
33.47
33.11
31	17
29 99
35 56
35	13
44.67
3924
36.79
36	56
34.58
33.37
43.0t
41 57
43 19
41 46
37 23
36 22
36 64
36	33
41 09
45.51
35	06
49.92
37	66
36	2S
3534
33	67
34	03
*2 97
41 00
38	31
35	03
34 9C
33	07
34.12
33.43
43 74
34	74
37	66
32.36
29.47
44.06
42.50
35	63
36	05
65.96
56.70
40.49
39.22
5021
36 71
40 41
33 91
3t
29	80
32 27
30	26
32	74
29.76
27 03
31	61
33	61
3337
32.52
30.56
31.01
31.04
29.45
26 75
31 16
33	61
42.66
36 94
36.56
35 67
34	42
29 96
41.69
40:06
4V57
40.26
35	66
36.33
36.77
36	24
39.79
40 71
30 19
4373
3247
35 54
23 SO
30 35
32	65
4C S9
40 01
37	50
33.69
33	17
32	97
33	57
33	03
43 34
34	<5
30	62
31	46
26 92
43.00
41.60
35	26
35	06
61.19
49.19
36	00
33 20
50 07
36 66
39 99
29 62
25	76
26	00
31 26
29	72
31 16
25	09
23 44
26	07
33	11
31 78
29.61
26 33
27.78
26	47
26.61
26.41
27	76
30	79
39 76
34	93
35	57
34 41
31	26
25 74
40.14
38 64
40 06
38	47
33	56
34	12
34 29
33	56
36	97
37	62
27	56
39	71
28	63
26 96
21	15
25	93
31	36
39 22
39	29
34	18
30	24
26	92
32.78
33	46
32	66
42.65
23	60
22	54
23.14
25	54
4« 42
40	74
34	96
34 51
55 10
41	14
33	50
31	63
49 90
36.36
26	22
25	39
21	96
2323
30.16
26	26
30 48
20.76
19 M
25 46
32.27
30 63
28.71
2606
27	06
26.93
24	®
25	11
25 06
28	10
37 21
33	32
34	67
33 70
2716
22	61
38.87
36 75
38.21
3674
31.66
32.00
32.16
31 86
34 16
36.31
25 42
36	33
25 60
20	13
16 53
21	47
29 14
37	21
38	40
27 69
22	06
22 93
31	44
32	46
32.76
42 12
18.25
16 25
16	36
21 24
40.64
40.03
34.51
34 01
52 14
36 71
2986
21	13
49 76
36 26
1542
22	35
19	59
21 26
29 33
2741
29 04
17	06
17 63
23	66
31.64
29 66
26 19
24	96
24	82
25.24
23	'0
2383
2267
25	42
34.85
31 26
33 66
31 91
24	69
20	86
37 93
36	09
37	66
36	16
31.27
31 60
3166
31.10
33 63
33 95
24 26
33.46
23 36
18	27
14.16
18.58
27 32
35 73
37	64
19	49
17.57
18	20
27	22
31	46
32	43
41 97
15	28
13 07
13.14
19	42
3941
39 37
33	64
33	53
50 45
34	59
27.41
16	72
49 30
35	82
1253
20.97
13	12
20	12
28.74
26 78
29	37
14	46
15	65
22	20
3C96
28	86
24 51
23	42
23 56
24.19
22	12
23.14
21	46
23	7®
33 29
30	06
32 63
30.81
23.14
19.56
36 21
34	69
36	72
35.11
30 52
3071
30	84
29	67
32 66
31	79
22 26
30	53
20 65
1241
11	11
14.26
2433
32.38
35	64
14 24
12.79
10 45
18 40
30	34
31	30
41 69
12	26
10.16
10 05
t6 56
37	51
3626
32	43
32 56
47 26
32.10
2449
1296
46 42
3545
1006
16.75
1625
18.48
2774
25 56
28	50
1236
13	66
20	66
29	93
27	44
22 05
2142
21	66
22.79
20	69
21	90
1951
21 64
1121
28	15
31 07
29	13
21.31
17.65
34 22
33.79
30 56
15.0
4.5
15
9.976
33 07
32 46
27 94
150
45
31
3384
3447
34 22
32.31
150
4.5
15
8.700
33 06
32 57
26 89
150
45
20
43 001
23 81
26 76
21.07
ISO
4.5
26
156.237
2892
26.06
21.78
15 0
4.5
33
174 303
29 12
26 42
23.21
15.0
4.5
40
142314
27 75
27 14
22 56
150
45
16
116726
31 03
30.74
28 55
15.0
4.5
12
40576
30 33
27 26
6.03
15.0
25
15
107.405
21 32
19 02
4 28
150
25
21
179 074
28.35
25 90
8 82
150
2.5
28
150 638
19 15
17 74
6 27
150
25
10
170.273
11 14
9 45
264
525
25
18
193620
963
8 26
2 34
52.5
2.5
40
103 563
1252
10 77
291
52 5
25
21
'87.529
22 60
19 65
8 98
525
25
23
186 023
30.49
27 03
12 56
52.5
2.5
50
150210
34 56
31 77
14 58
525
2 S
51
151 250
1234
10.23
3 91
52 5
25
23
145.748
10.66
845
2 97
525
2.5
25
147.246
853
6 69
2 25
525
2.S
16
146 000
15 51
12 56
4 40
52 5
25
15
144 366
29.16
26 35
12 64
52.5
2.S
51
116022
30 33
27.61
13.51
52.5
2.5
41
115 266
39 88
39 43
32 04
525
25
30
56 894
11.06
9 15
369
52 5
25
18
195 966
895
700
205
52 5
2.5
12
190 741
862
755
354
525
2.5
23
192 34!
15 12
12 79
534
525
25
6
176 375
36.33
33 70
1930
52 5
25
48
142.168
37 56
35.00
23.10
525
25
36
135 3*0
31 10
26.78
19.27
525
2.5
30
146.321
32 14
30 56
2245
52 5
2 5
28
50 532
45 47
23.91
60S
30.0
20
15
134 619
31 06
10 72
2 48
30.0
20
13
130061
23 16
20.99
553
30.0
20
25
133 967
11 44
964
2 40
300
20
38
140 563
47 99
47 36
20 62
30.0
2.0
46
110 363
35 C8
34 46
14 61
30.0
2.0
2S
152 031
9.02
778
2 62
300
20
41
140 504
17 89
16.00
7.36
180 0

15
200 042
15 50
13 79
6 M
1800

23
183 775
1774
15 85
9.07
180.0

26
18 7 745
27 29
25 91
1531
1800

46
167.736
2501
23 62
1362
180.0

49
150 429
28 05
26 66
16.47
1800

46
158 364
11.10
9.66
3.76
180.0

23
221 232
1260
11 49
6 81
1800

16
201 465
19.59
16 06
11 85
1800

20
191 619
28 90
27.56
20.77
1800

66
156.715
25 93
34.40
17.10
180 0

76
177 364
2073
16 56
6.18
1800

13
164 528
20 33
18.39
9.28
180.0

10
156.064
20 72
1924
10.46
1800

41
154.645
22 09
20.65
12.19
160 0

40
152 265
20 13
18 92
11 54
1800

48
152012
2151
20 34
1255
1600

51
150.270
18 47
17 01
9 33
180 0

13
166 283
20 29
19.73
11 54
180.0

12
193.130
29.63
20.57
1220
180.0

16
176.101
26.96
23 96
14 01
1800

61
156 507
30.17
28 40
1925
180.0

53
156.318
27 99
26 51
1799
1600

48
170034
20.12
19 41
It 29
1800

25
242246
16.63
14 35
11.44
1600

18
234.117
H-34
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files
Sol
Component
Name
Soil
Profile tab Density
No, (gfee)
No.
Water Water	Soil	Soil
Table	Table	Horizon	Particle
Depth	Duration	Thickness	Diameter
3.5cm 20 cm 30 cm 45cm 60cm 8C em 100cm tSOcm 200cm 333 cm iSKcm (cm)	(mo.)	(em)	(nm)
Soil Water Content (volume %) at 'ndicated Capiflary Suction
ORANGEBURG
ORANGEBURG
ORANGEBURG
ORANGEBURG
ORANGEBURG
ORANGEBURG
ORANGEBURG
ORANGEBURG
ORANGEBURG
ORANGEBURG
ORANGEBURG
ORANGEBURG
ORANGEBURG
ORANGEBURG
ORANGEBURG
ORANGEBURG
ORANGEBURG
ORSINO
ORGJNO
ORSINO
ORSINO
ORSINO
ORSINO
ORSINO
ORSINO
ORSINO
ORSINO
ORSINO
ORSINO
ORS.NO
ORS.NO
ORSINO
ORSINO
ORSINO
ORSINO
ORS.NO
ORTEGA
ORTEGA
ORTEGA
ORTEGA
ORTEGA
ORTEGA
ORTEGA
ORTEGA
ORTEGA
ORTEGA
ORTEGA
ORTEGA
ORTEGA
ORTEGA
ORTEGA
ORTEGA
ORTEGA
ORTEGA
ORTEGA
ORTEGA
ORTEGA
ORTEGA
ORTEGA
ORTEGA
ORTEGA
ORTEGA
ORTEGA
ORTEGA
ORTEGA
ORTEGA
9
9
6
9
9
13
13
13
13
13
13
13
13
13
13
13
13
I
1
1
1
IS
12
12
12
12
12
18
IS
18
18
18
18
3
3
3
3
3
3
3
3
3
3
3
3
3
3
4
4
4
4
4
5
S
5
S
S
s
5
7
7
4103
4104
4195
4108
4107
4836
4337
4838
4839
8067
9066
6069
ec?c
eo?»
6072
6073
6074
6434
6435
6436
6437
6438
6439
6440
3438
3439
3440
3441
3442
344)
5943
5944
5945
5949
SS47
5^43
1524
1525
1526
1527
1528
152S
1530
2269
2270
2271
2272
2273
2274
2275
5845
5646
5647
5648
5649
6177
6178
6179
6180
6181
6182
6183
6579
6580
8561
6582
1 44
1.57
1.59
1 61
1 56
I 20
1 47
1 46
1 55
146
1 68
172
1 73
1 54
1 65
1.76
I 63
1.48
1 56
1-56
160
1 58
1.54
1 57
0.66
1-36
1 47
1.42
1.50
1 46
1.26
1 40
1.36
1 45
1 45
1 49
1.20
1 37
1 33
1 41
143
147
1 43
I 39
1 56
1 53
1 59
152
1 51
1.51
1.30
1 41
1 42
1.43
1 43
1.21
1.39
1 43
1.45
1.49
1 SO
1.54
1.41
1 53
1.47
1 51
39 11
38	01
39	77
36 44
33 37
47	40
40	71
39 76
36.83
44 62
32	69
30.66
33	86
41.69
36 29
35	00
33 60
43	89
44	55
39 54
39	60
4061
41.06
36	GO
43 86
41	39
1564
33 51
37	47
38	07
42	24
38 06
31 55
4392
37	38
38	46
48	69
42	25
43	37
4009
42 22
40	69
43.43
46 16
36 65
39.70
36	24
37	68
39.03
36 30
3D 31
40.10
39	73
40	65
39.22
51 60
45	25
42 00
42 33
40	15
41	14
38	65
44	60
42	50
42.51
4031
31 88
34	5?
33.68
31	78
2706
38.36
33 33
35	28
35 72
40	22
30.43
29.16
33	10
38	93
37.32
34	85
32	93
39	00
41	76
35	58
38 03
38 25
38 0!
34 03
30 11
34.71
1553
23 66
32 33
36	90
34.62
31.48
25 47
41.97
36	17
37	32
45.76
40	25
4226
39.44
41.77
40.30
4306
42	56
34 09
38	63
36 53
36	33
37	59
34 43
32 57
38	65
38	35
39	12
37.55
47.08
40	83
4061
41.04
38.60
39.97
36.07
41	39
39 64
39.36
37 24
29	63
33.37
33	03
30.99
25	86
34	73
31	19
34.05
34 99
3d 75
3027
28 31
32	25
3741
37	14
34	53
32 73
36.85
39 89
3269
35.93
37.38
35	11
32 72
25.30
2348
14 67
18 53
26	24
34	66
30	36
27.67
2< 23
37.99
35	90
33.66
42 47
36	21
43.88
39	26
41	59
39.14
42	10
38	79
32 10
37	09
36	07
35 34
37	21
34	14
27	14
35	92
32 10
33.06
32 81
40	72
37.76
35 22
34 92
36.26
37 65
35.76
39.13
39	48
39 22
37 12
26.65
29.92
31	86
29	58
24 28
30	56
29 04
32	25
33	22
34	54
28	10
26 04
31	92
36 54
36 85
34 39
32	49
26 20
27.06
24	47
2941
23 86
23 00
26 26
20.85
1036
13 24
12.23
14.87
19.05
16 22
13.6'
13 35
i8 60
2* 66
18 00
23 54
15 96
26 73
29	28
34 63
34	71
36	24
29 97
2544
26	54
25	83
20	89
27	53
26	70
1661
21	01
1643
1388
1603
28	64
23 68
20 66
16.60
16.11
22.59
15.39
35	38
39 2b
37	25
36	67
24.92
2822
30.72
28	71
23 56
23 20
27 49
31	26
32	25
29	39
2390
2320
31.54
3596
35 86
34 25
32 19
14 90
11.65
11.60
<2.66
'290
10.56
14	35
18 00
6 38
11 41
3 80
9 42
10.14
11 38
8	57
10	10
11	61
13	4C
10	08
15	31
11	8?
12	60
11 66
1C 90
x.be
3541
1998
17.24
17.96
15.66
5 1 61
16.18
1850
u.62
1251
9,73
890
858
1892
14	78
13	14
11 00
11	40
12	y3
9	52
30 56
3S 30
30 19
28 19
23.07
26 75
29	82
27.77
22 54
26	18
26 *6
30	64
31	13
24 96
20	89
21	05
31 05
35 35
35 53
33 €5
31 87
9.52
724
665
7	93
744
6.74
6.80
16.26
459
966
7.07
709
7.28
965
6 73
8	56
9	27
•0 40
753
1201
10	87
866
641
631
27	13
31.98
14 35
11	57
H 56
10 03
805
10.03
926
9.11
691
690
6 51
5	83
1461
10.76
921
8 14
8 10
631
6	24
1981
18 33
1356
1291
22 03
25.60
29 02
27.13
21.96
24	55
25	15
29	45
30	32
22 10
18.70
19.50
30 57
34 93
35.03
33 30
30 74
744
5.19
466
5 92
5	37
4 64
4 35
14 96
4.19
9 22
6	19
599
6.35
6 18
546
729
7.82
871
6 12
1022
692
662
4 65
4	96
23.36
29.01
11 66
909
8 68
744
6	11
763
5	22
7.45
7	13
533
505
433
12.66
6.92
744
686
6.51
646
4 57
1548
10 66
9.14
6.12
20 51
2451
27 95
26 14
21.07
22 92
23.48
28.43
29 02
17 97
15 82
17.16
26 79
33	57
34	13
• 32 63
26.57
561
3.91
3.38
4 28
398
367
3	87
1360
3.46
8 20
520
4	91
5	32
6	36
4	61
631
6 63
736
4.64
8.73
5	67
5.55
4 03
459
19.14
25.76
935
689
6.48
556
4	55
5.55
3 87
591
5	39
3 97
3 76
3	11
10.83
7,14
S 91
534
4.81
5	05
342
10.52
6	70
5.68
4	66
19	50
23 66
27	20
25 46
20	46
21	73
22	44
27.75
28	14
16 24
14 37
1590
27 83
32.65
33 40
31 90
27.77
5.51
369
3.16
4.15
3.82
355
3	65
12.77
3.17
780
4	87
4	47
5	16
6	10
3	35
5 53
5	83
6	37
4	10
7	53
4 70
4.75
341
422
1662
23 76
855
622
5.73
5.06
4	07
5.11
3.39
522
4.88
3 33
3	16
2 53
10.11
655
5	32
4.78
4	37
4 63
3.25
8.85
543
4.59
388
17.97
22.07
26	16
24.18
19.62
20 15
20 66
26.63
27	13
14 44
12 76
1446
27 01
31	71
32	57
30 55
26 63
4 63
3.10
2.76
3 39
3 05
2.85
3	47
11 69
2.76
7 19
4.37
4	05
458
534
3.51
4.95
525
5	92
346
6	42
3	90
4	00
2	92
3	93
15 07
22 06
7	37
5	13
4.59
3.93
3	28
4	05
2?3
439
384
266
2.52
1 90
6.91
564
4 72
390
3.64
402
302
7.36
4 59
4.04
3 46
13	82	180 0
17.63	160 0
20 65	180 0
1896	180.0
14.54	160.0
8.62	180 0
13.54	180 0
1682	160.0
1919	1600
3	62	160 0
4	17	160.0
571	160.0
14	39	160 0
1967	1600
2296	1600
20 66	180.0
16.65	180.0
1 18	127.5
0.64	127 5
0 62	127 5
061	1275
0.43	127.5
0	35	127.5
1	35	127 5
3.76	1250
0.95	1250
190	125 0
0.82	125 0
0.35	1250
1.15	1250
1.30	127 5
0.78	127 5
1	54	127 5
1.03	1275
0 59	127 5
0	43	127 5
2	56	12? 5
1	10	127 5
0.88	127.5
1 03	127.5
1	33	127.5
2	53	'27 5
4 20	127.5
3	10	127 5
1.42	127.5
1.00	127 5
0.85	127 5
0.66	127.5
111	127 5
0 60	127 5
064	127 5
0 41	127 5
0	37	127 5
2.06	1275
1.45	1275
113	127 5
1	19	127.5
1.06	127.5
0 86	127.5
0	25	127 5
1	21	127.5
0 67	127.5
0.51	127 5
0.36	127.5
35
3.5
3.5
35
35
3.5
3 5
3.0
30
30
30
3.0
30
3.5
35
35
35
3 5
35
4.0
40
40
4.0
40
40
4.0
4.0
40
4.0
4.0
4.0
40
4.0
4.0
40
4.0
4.0
40
3.5
35
35
35
35
35
35
4.0
40
40
4.0
21
36
43
30
26
18
66
66
51
5
15
10
41
3t
27
33
41
10
10
13
69
25
3!
25
10
36
26
36
36
53
15
15
15
15
15
15
13
71
38
36
48
79
25
10
15
46
4!
35
36
56
6
36
76
36
46
15
23
20
13
33
51
48
18
40
31
46
211.717
214666
242 664
366 216
374.763
322 566
249 462
224.073
2S5 346
193 607
'67.299
163.107
143 479
124 784
129.157
148 257
157.574
170 156
172 121
173.266
170	743
169	353
171	313
168 874
198 736
191 167
166 135
190 164
185 650
190.037
172.774
171 103
166 363
165.995
166	193
170	264
150.453
151 465
153	462
155 573
155	971
151 404
150 356
212 257
222 270
219	252
216052
220	712
219 496
204.123
166917
163 904
162.067
162.674
176 463
149.662
146.164
149 827
150.116
150.006
151.261
154	638
156	413
162.606
163.051
167	737
H-35
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files















Water
Water
Soil
Soil
So*


Soil











Table
Tarte
Horizon
Partici*
Component
Profile
lab
Density


Soil Water Content (volume
*) « Indicated Capillary Sucton


Depth
Duration
Thickness
Diameter
Name
No.
No.
(9'tc)
3.5 cm
20 cm
30 cm
45cm
60 cm
90 cm
'00 cm
150 cm
200 cm
333 cm
15K cm
(cm)
(mo.)
(cm)
(nm)
ORTEGA
7
e$43
1 51
37 13
34 45
34 43
31.15
26 24
15.10
744
4.(1
3.00
2.70
0 12
127.5
40
44
145.417
ORTEGA
4
7299
1 47
40 00
37 44
27 44
1930
1329
10.74
932
7.63
4 92
5 87
1 04
127.5
40
15
243 430
ORTEGA
8
7294
1 47
42.34
30.71
24 04
11 50
6 10
500
5.25
434
4.10
3.01
034
127 5
4.0
S9
244 000
ORTQA
ft
7206
1 40
33.74
32.17
1028
6 50
557
5 16
454
300
353
304
034
127.8
40
54
240 043
ORTEGA
8
7206
1 64
32 40
31,74
25 44
12 34
7 57
580
505
4 14
3.71
290
030
127.5
40
20
241 888
ORTEGA
6
7207
t es
31 54
31 07
1683
495
400
3 95
335
280
2 23
1 91
0 12
127 5
4 0
51
244 254
ORTEGA
10
4*ie
1 25
52.07
40.40
42 87
31 18
22.71
16 33
14.04
13.55
12.35
10 54
2.93
127 5
40
14
214.351
ORTEGA
to
4417
1 35
44 00
47 17
39 26
25 05
17.73
1422
12.47
10.33
024
7 64
2 25
1275
40
2S
204 424
ORTEGA
10
4«ia
1 36
42 41
41 74
41 34
26 65
19 56
13 73
11 30
0 01
8 10
6 75
1 69
127.5
40
33
205 217
ORTEGA
10
4410
1.45
40 54
38 94
38 60
25 54
1592
10 75
8 37
4 59
582
4 92
1 54
127.5
40
31
230 157
ORTEGA
to
4820
1.40
34 47
36 60
36 54
22 18
13.73
843
4.39
4 70
4,11
3 35
0 89
127 5
4.0
55
213344
ORTEGA
10
4421
1 47
34 07
35 34
35 24
2372
14 14
7 47
5 35
3 47
337
294
0.51
127.5
4.0
34
215 274
ORTEGA
10
4422
1.47
3504
3301
31 67
24 80
22 22
17 24
1504
1290
11 89
10 42
2 25
127.5
40
10
224 270
ORTEGA
10
7134
1 sz
40.82
38 47
35.03
20 67
11.99
8.55
720
5.68
501
4.26
1 44
127 5
4.0
13
242 345
ORTEGA
10
7135
1.50
4206
39 36
3455
20.10
1004
7.24
6 03
4 73
4 10
3.62
0.92
127 5
4.0
94
239 057
ORTEGA
10
7136
1 65
39 70
37 99
29 6C
1404
a 47
594
4 33
3 78
330
2 74
084
127 5
4.0
51
243 319
ORTEGA
10
7137
1.63
37 21
35 82
32.90
21.40
1568
1C73
6 81
3 27
2.93
2 40
0.57
127.5
4.0
43
244 192
ORTEGA
10
7648
1 50
39 53
39 13
30.34
34 71
21 36
1C 69
3 84
684
645
590
1 38
127 5
40
13
179 514
ORTEGA
to
7549
1.52
39.78
39.44
38.50
29.74
<3 22
794
6 32
490
4 39
3.48
0.47
127 5
4.0
34
181 742
ORTEGA
10
7850
1 51
41 02
41 01
30.13
28 00
'24*
7.07
5 62
4 36
4.01
3 34
044
127 5
4.0
54
170.325
ORTEGA
10
7651
1.60
33 14
32 38
31 55
27 06
16 '.9
7 27
5 22
3 61
321
2.70
034
127 5
4.0
44
141.431
ORTEGA
10
7652
1 49
40 70
37 23
34.94
30.01
12 06
5 39
4 01
325
3 05
274
0 31
1275
40
44
183 434
ORTEGA
17
6006
1.44
44 10
40 54
34 04
22 03
14 50
11 27
9.23
8 32
7 32
645
1.55
127 5
4.0
4
297.844
ORTEGA
t7
6907
1 53
4C42
3503
27.74
15 39
8 69
451
5.37
444
3 66
329
0.87
127.5
40
74
283427
ORTEGA
17
6908
1 62
38 00
33 99
23 73
14 70
9 16
6 65
538
4 38
3 64
329
0 76
127 5
40
38
274 434
ORTEGA
17
6000
1.42
39 05
33 81
24.70
14.31
7 86
5 72
4 46
3 57
2.95
256
053
127 5
40
26
274 527
ORTEGA
17
4010
1 50
34.72
3441
23 30
1461
6.01
551
434
3.53
286
2 42
040
127 5
40
30
285 413
ORTEGA
17
6911
1 60
39 63
30 38
22 04
10 90
5 97
429
347
304
2 32
2 14
0 40
127.5
40
23
324 525
OSIER
0
4S06
1 24
46 30
44 40
43 80
40 01
35 71
31.10
28 10
24 22
22 23
16.90
3.70
150
25
23
230 173
OSIER
0
4597
1 45
34.54
37.07
34.00
31 35
27.76
2450
22 75
20.02
18 67
16 54
2 83
150
2.5
63
222 239
OSIER
0
4596
1 61
38 11
35 54
32 35
26 73
23 74
21 26
1900
17 60
16 64
14 65
3 11
15.0
25
24
234714
OSIER
0
4500
1 56
41 20
39 35
3S.94
34 01
32 72
30 48
28.52
24 23
22.G9
16 83
2 37
150
25
43
230 803
OSIER
0
4600
1 52
30 44
30.04
33 53
29 63
25 67
21 22
1654
15.44
14.59
*2 04
1 87
15.0
25
20
242 334
OSIER
0
4601
1 46
39 10
37.54
32 40
25 94
22 45
1938
17.40
15 40
M 12
11 99
2 18
15.0
2.5
26
242.378
CSiER
31
6063
1.20
51 32
47.81
43 91
38 C7
31 22
26 89
24 29
21 24
19 76
17 12
300
150
25
13
117 790
OSIER
31
6964
1 32
42.07
38 44
30 66
32 36
26 22
22 03
19 50
1451
14.95
12 79
2 19
15 0
25
23
123 290
OSIER
31
6965
1 36
37.44
34 28
33 94
27 26
20 78
15 94
13.51
1082
9 65
7.94
2 26
15.0
25
43
135.470
OStER
31
6066
1 51
37.02
36 33
36 10
34 59
29.51
21 80
14.00
9.44
8.15
6 30
1 63
15.0
25
17
134 960
OSiER
31
6967
1 51
40 50
39 14
36 56
37 27
24 27
14 76
050
544
4.44
3.14
1 16
15.0
25
13
135 430
OSICR
31
6968
1 54
3d as
37 39
36 00
36 27
30 39
2S 99
22 18
1444
M 14
12.01
3 65
150
2.5
4
132 340
OSIER
31
6960
1.57
37.50
36 70
36 32
35.97
33 28
30 44
27 71
2282
2062
17 55
5 84
150
25
10
122 200
OSER
31
0070
1 55
30.77
38.10
37 07
34 33
21 74
14 07
1012
8.28
5 14
466
1 40
150
2.5
74
139 030
OTELA
2
7143
1 43
35 83
32 61
31 16
24 44
14.97
1297
11 07
8.91
700
6.16
1 41
142.5
4.5
20
238.816
OTELA
2
7144
1 62
37 84
31 38
29 06
22 47
1500
10 67
920
7.65
4 74
5.01
1.41
142.5
4.5
23
223 542
OTELA
2
7145
1 63
29.40
28.48
25 18
18.06
11.74
7.77
6 37
5.03
4 64
341
0 93
142 5
45
59
237 367
OTELA
2
7144
1.47
35 47
26 56
26.77
2043
12.44
770
633
4 75
4 23
3.24
043
142 5
45
45
227 804
OTEi-A
2
7147
1.74
32 50
30 52
26 56
24 24
24 44
23 04
22 25
20 92
10.01
14.17
1023
142 5
4.5
24
177.713
OTElA
2
7148
i es
38 15
38.04
38.01
37.67
36 64
36 32
36 04
35 74
33 75
32.70
21 02
142 5
45
24
176 214
OTELA
2
4204
1 55
37.05
32 71
26.70
20.91
1540
1244
1111
935
844
724
1 04
142 5
2.0
20
214 333
OTELA
2
4200
1.41
35.79
34 32
2092
16.34
12.40
9.73
8 36
499
4.30
5.41
144
142.5
2.0
21
207.744
OTELA
2
82'0
1 43
32 58
30 39
29 64
2374
16 09
10.20
7 50
604
5 37
385
0.93
142 5
20
41
204.113
OTELA
2
8211
1.44
31 79
30 07
29.11
23 25
1524
084
644
5 47
4 66
3 49
0 45
142 5
2.0
33
208.970
OTELA
2
4212
I 53
4221
4142
40 II
39.03
34 34
36 94
34 40
35 39
34 78
33 40
1445
142 5
2.0
17
207.471
OTELA
2
8213
1.49
44 36
43 27
42 19
40 74
39 79
37 94
37 44
34 68
35 62
35.31
21 81
142 5
20
51
150432
OTElA
5
4470
1.72
33 30
31 40
20 38
25 00
21 02
14.63
1261
9 23
8.10
8.42
2.34
142 5
4 5
20
174437
OTELA
9
4440
1.46
34 13
3444
34.54
32.44
26 32
15.91
11 40
S SO
734
544
1.50
142 5
4 5
33
175.740
OTELA
5
8441
1.44
39 45
39 00
34 97
34 63
23 52
15 72
11.30
820
7 25
577
095
142.5
45
24
172.721
OTELA
5
8682
100
35 19
34.24
34.17
31 43
26.60
15.43
002
560
4 63
331
067
142 5
45
44
170 785
OTELA
5
0443
1.71
3447
33 13
30.43
2931
27 67
24 03
25 10
23.47
22.47
20.74
1054
142.5
4.5
28
147 806
OTELA
S
4444
140
35 34
33.54
32 14
30 54
2660
27.32
24.13
24.14
22 72
20 52
1227
142.5
45
14
153.475
OTELA
S
4445
1.73
32 40
31.31
30 30
30 10
23 95
27 01
27 52
24 31
25 42
23.77
14 29
1425
45
30
154 402
OTELA
7
7287
1.47
34 76
34.54
33 09
29 56
19 53
14 13
11 42
935
7.93
6 28
1 27
1425
45
25
239.845
OTELA
7
7284
1.41
36 42
35.10
28.42
1840
1130
7 67
442
5.24
449
398
090
1425
45
54
221 431
OTELA
7
7240
1 44
32 31
31 84
30 94
15 62
656
595
5.00
387
334
2.44
0 40
1425
4.5
24
231.700
OTELA
7
7290
1 68
34.15
32.94
28 14
17 25
9.35
4 18
500
303
3 55
309
0.18
1425
45
23
232 340
OTELA
7
7201
1.81
31 53
31 40
31 46
31 41
31 24
30.67
30 44
28 35
25 70
23 49
14 21
1425
45
27
172 044
H-36
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files
Water Water Soil	Soil
Soi Soil Tafcle Table Horizon Particle
Component Piofie Lab Density Soil Water Content (volume %) at Indicated Capillary Suction Depth Duration Thickness Diameter
Name	No. No. (free) 3.Scm 20cm 30 cm 45 cm SO cm 80 cm tOOem 150cm 20C cm 333cm 15Kcm (cm) (mo.)	(cm)	<^m)
OTELA
7
7292
1.75
34.01
33 99
3395
33 92
33.90
33.65
33 83
OTELA
9
tU7
1.55
37.06
3271
26 76
20:91
1540
1266
11.11
OTELA
9
658A
1.61
35 79
34 32
29 92
16.34
1260
973
836
OTELA
9
65A0
1.73
32 56
30 39
29 66
23.74
1609
10.29
796
OTELA
9
6590
1.53
4221
41 42
40 II
39.03
36.34
36.94
36 60
OTELA
9
6591
1.20
56 91
56 77
56 69
56.64
56 57
56 52
56 47
OTELA
11
6672
1 61
37 43
37 07
36 73
36 47
32 51
19 10
1346
OTiLA
11
6673
1.56
37 71
37.64
37 53
36.12
30.60
1665
1015
OTELA
II
6674
1.63
35 53
35 23
35 03
34.65
31 36
20.31
10 14
OTELA
11
6675
1 64
34 74
34 22
34 01
32 73
25 96
1641
8 12
OTELA
11
6876
1.73
33 25
31.65
31.22
27.46
24 76
21.74
20 55
OTELA
11
6877
1 25
51 47
49 97
49 43
46.73
47.96
46 66
45 36
OTELA
14
6889
1 36
45 86
43 69
41 22
35.19
26 05
16 49
13 07
OTELA
14
6690
1.51
38 92
37.35
35 54
31 62
24 15
13.92
10.10
OTELA
14
6891
1 42
37 33
36 35
3601
33.53
23 56
13.06
8 25
OTELA
14
6892
« 47
37 fit
34 75
34 69
32 75
26 15
14 43
7 92
OTELA
14
6893
1 74
3240
31.71
31 49
29 97
27 04
24 36
22 53
OTELA
14
6694
1 75
30.31
29 6?
29 62
29 45
29 33
26 17
23 94
OUSIEY
1*
7653
1 46
42 36
41 17
40 42
29 82
1549
927
7 56
OUSLEY
11
76S4
1 49
41 65
4040
38 96
29 38
12 66
7 75
6 16
COSLEY
11
7655
1 45
39 63
36.71
38 29
25 25
11 97
749
603
OUSLEY
11
7656
1 52
36 03
36 94
35.87
25 66
12 56
6 16
451
OUSLEY
11
7657
1 45
36 54
36 53
34 68
1a 15
830
4 45
355
PACTOLUS
20
4292
1 26
47.75
42.91
39 98
37 51
35 26
34 24
3324
PACTOLUS
20
4293
1 47
41.67
38 93
33 53
29 96
27.46
26 11
24.95
PACTOLUS
20
4294
1 72
31 56
28 15
24 ?9
20 54
1340
IS 33
1567
®ACTOLUS
20
4295
1.75
31.68
23 13
25 25
22 36
1904
17 32
16 19
PACTOLUS
20
4296
1 66
33 60
28 85
20 73
13 66
10 11
8 57
744
PACTOLUS
20
4297
174
31 37
27 34
20 74
25 07
23 00
22 96
21 94
PAHOKEE
98
8130
0.30
76.19
71.09
65 37
65 63
64 29
62 54
62 45
PAHOKEE
96
6140
026
75 43
71 33
08 17
65.3?
63 56
61 92
60.75
PAHOKEE
98
6141
0.13
66 26
76 61
74 39
71.86
70 04
€7 16
65 03
PAHOKEE
66
6142
0.16
61 2*
74 12
71 46
66 66
67 46
65 74
62 31
PALM BEACH
11
2779
1.20
54.50
35 15
24 65
16.17
14.90
13 5C
1260
PALM BEACH
It
2790
1.34
53 06
25 34
1644
11 69
1072
978
941
PALM BEACH
11
2761
1 40
48 40
17 53
11 27
8.36
706
704
6 44
PALM BEACH
11
2762
1.57
41 53
18.99
10.20
640
5 29
460
4 25
PALM BEACH
13
3444
1.36
43.56
27 80
18 60
1266
'0.'8
6.96
8 26
PALM BEACH
13
3445
1 36
14.59
12 48
1115
966
8 55
606
7 96
PALM BEACH
13
3446
t 32
35 57
16 96
1201
9 70
856
7.96
7 87
PALM BEACH
13
3447
1 40
39 23
17 88
12 65
1034
9 66
645
S 23
PALM BEACH
20
5767
1.45
43 75
34 35
23 32
13 94
1 * .40
9.41
866
PALM BEACH
20
5766
1.46
44.47
20 31
12.66
690
7.80
6.52
6 07
PALM BEACH
20
5769
1 52
43 45
2C 65
1266
7.32
654
503
4 50
PALM BEACH
20
5770
1.50
40 50
21 60
9 19
530
5 13
435
3 90
PALM BEACH
25
1134
1.34
33 78
25 42
13.67
6.32
4 87
346
3 26
PALM BEACH
25
H35
1.51
32 16
24.12
13.24
547
4 12
309
2.79
PALM BEACH
25
1136
1 56
31 46
2344
1252
475
3 36
282
2 51
PAMLICO
16
6227
022
82 83
66 04
62.74
59 60
58 06
56 60
56 42
PAMUCO
16
6228
0.19
85 74
77.96
7629
7366
72 59
71 39
68 33
PAMLICO
16
6229
0.17
77 56
72 45
70 51
6688
67 69
66 66
66 24
PAML.CO
16
6230
1.73
35 98
34.77
31.35
25 53
20 41
1 '48
6 83
PAMUCO
16
6231
160
32 67
31 63
31 69
3010
26 67
18 11
1226
PAMUCO
16
6232
1.69
3C56
29 56
26 34
27.13
25 66
-.7 55
11.71
PAMUCO
17
8237
0 22
82 83
66.04
62.74
59 00
5S 06
56 60
56 42
PAMUCO
17
6286
0.19
85.74
77 96
76 29
73.06
72 59
71 39
68 33
PA.WLCO
17
6269
0 17
66 06
61.37
79 32
76 28
73 51
7082
67.96
PAMUCO
17
8290
1 73
35 69
34 77
31 35
25 53
20 41
11 46
663
PAMUCO
17
8291
1.60
3267
31.63
28 69
23 18
16 67
10.11
5-06
PAMUCO
17
6292
1 77
32 55
31.63
26 27
22 73
15 91
15.59
4.30
PAOLA
3
1785
1 34
43 78
3969
32 74
24 46
19 66
1741
1586
PAOtA
3
1786
1.47
35.35
1626
981
6 51
5.64
545
4 25
PAOLA
3
1787
1.54
37.66
2051
9*9
596
5.03
471
4.24
PA CIA
3
1786
1 49
2469
11.51
a 34
596
S 26
461
399
PAOLA
3
1769
1 47
33 90
23.94
16 02
13 23
12 82
12 27
11.04
PAOLA
3
1790
1 64
39.22
26 22
17.59
9 17
765
7 27
8 15
33.22
690
0.09
35.39
56 22
9 39
7 21
5.88
4 21
17 97
43 14
1031
7 14
s ia
4 66
19	61
20	47
6 )6
4 02
4.75
390
290
30 93
22 52
13 54
13	42
6 07
20.46
5967
56 00
61 17
50 79
11.51
#72
6	09
3.88
7.39
7	52
7 47
7	64
743
5.25
3 32
3	SO
289
224
1 96
52 89
68 10
65 12
4	22
8	05
783
52 89
68.10
63 15
422
4.05
3.53
14	15
3.92
3.94
360
10.44
5	70
32 99
26 55
16 96
142.5
4 5
46
148 073
6 66
7 24
1.94
142.5
45
23
294 233
639
541
1 64
142.8
4.5
66
264.163
5 37
4 06
0 99
1425
45
25
293 279
34.76
33 40
18 85
1425
4.5
26
195 966
54.04
51 24
33 56
142.5
4.6
63
81 966
8 02
6 70
1 45
142 5
45
16
204 128
6.01
4 60
065
142.5
4.5
56
19 7 749
4 66
3.72
0.39
142.5
4 5
36
205 286
3 98
364
0 67
142 5
4.6
35
232 210
17.10
1541
7.54
142.5
45
10
267 328
41 91
40.23
23.74
142 5
4.5
46
190 857
6 76
7.-44
266
1425
45
13
155 206
5.60
4.50
092
<42.5
4.5
40
157 212
3 89
3 11
0.36
142 5
45
41
160 175
3 32
2.53
0 16
142 5
4.5
a
164 897
17 31
15 80
708
142 5
45
23
147 379
17 92
14.74
6.63
142 5
4.5
33
139 256
i 68
5.04
1 23
67 0
3.0
16
182 499
4 24
356
0 73
67 0
3.0
23
174.566
4 35
367
046
67 0
3.0
50
176 062
365
350
055
67 0
3.0
44
177.566
2 62
238
030
67 0
3.0
66
180.364
28 90
25 72
562
67 5
25
15
243 409
20 GO
18.18
3.91
67.5
2.5
15
269.890
12 53
10 65
4 82
67 5
25
26
295.939
12 37
10 48
4 59
67.5
2 5
15
415 373
5.51
4 25
1 13
67.5
25
74
332.577
19 58
1730
10 02
67 5
25
56
343 799
56.28
56 43
21 55
0.0
45
20
150 000
56 32
53 20
20 16
00
4.5
26
150 000
57.69
54 34
10 09
00
45
20
150.000
57 46
53 54
13 75
00
45
39
150.000
10 62
9 91
5 74
1600
00
20
312 343
8.15
7 48
3 32
1800
00
13
320.329
$49
504
2 32
160.0
CO
35
339.739
332
290
C.69
180.0
00
135
327 069
638
591
2.37
180.0
CO
6
295.896
735
7 24
286
1800
00
17
301 782
7.47
7 17
090
'800
00
46
369 463
7.12
6.41
1.06
*80.0
00
132
531 17fi
688
6 36
2 16
1800
00
15
343 014
462
4 57
1 79
1800
00
31
340.773
3 41
3.25
1 02
1600
0.0
76
294 050
307
2.96
041
180 3
00
61
306 306
251
241
1 63
'80 0
0.0
15
409 372
1 87
1.61
1 36
1803
0.0
66
423 264
1 46
1 45
1.36
130 0
0.0
102
448 466
51 53
49 47
763
00
30
15
207 336
66 62
60.78
7.13
00
3.0
23
207 336
63 36
52 00
4.54
00
3.0
46
207.336
3 75
322
0.67
00
30
25
207 336
6 59
5.09
0.70
00
3.0
43
165 103
663
6.25
0.93
00
30
51
151 407
51 53
49 47
7 63
75
60
6
167.064
66 62
60 76
7.13
7.5
60
15
167 064
59 55
52 00
4.54
7.5
60
33
167.064
3 75
322
0 67
7,5
60
8
166.173
2 89
2.63
0.70
75
60
88
166 811
2 70
266
0.57
75
60
51
166 209
13.44
12 50
7 87
160.0
00
13
319 077
381
368
1 34
160.0
0 0
7
344 183
379
3.56
1 45
180.0
0 0
26
351.569
3.50
282
1 34
160.0
00
7
345 378
956
900
0 79
1800
00
36
333 567
5 51
523
1 13
1800
00
51
336 072
H-37
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files















Water
Water
Soft
Soil
Soil


Soil











Table
Table
Horizon
Particle
Component
Profie
Lab
Densrty


Soil Water Content (volume %) a! indicated Cap
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files





Water
Water
Soil
Soil
Soil


Soil

Table
Table
Horizon
Particle
Component
Profile
Lab
Density
Soli Watef Cortenl {volume *) at Irdcated Caprflary Suction
Depth
c
|
o
Thickness
Diameter
Name
No.
No.
Wcc)
3.Scm 20cm 30cm 45cm 60cm 60cm 100cm 15Ccm 200cm 333cm
l5Kcm (cm)
(mo.)
(cm)
(nm)
PELHAM
PELHAM
PELHAM
PELHAM
PELHAM
PELHAM
PELHAM
PELHAM
PELHAM
PELHAM
PELHAM
PELHAM
PElHAM
PELHAM
PELHAM
PElHAM
PELHAM
®elham
PELHAM
PELHAM
PELHAM
PELHAM
PELHAM
PELHAM
PELHAM
PELHAM
PELHAM
PELHAM
PELHAM
PELHAM
PElHAM
PELHAM
PElHAM
PELHAM
PELHAM
PELHAM
PELHAM
PELHAM
PELHAM
PELHAM
PELHAM
PELHAM
PEUJCER
PEUJCER
PEUJCER
PELUCER
PENNEY
PENNEY
PENNEY
PENNEY
PENNEY
PENNEY
fESNEY
PENNEY
PENNEY
PENNEY
PENNEY
PENNEY
PENNEY
PENNEY
PENNEY
PENNEY
PENNEY
PENNEY
PENNEY
PENNEY
17
1?
18
ie
m
it
18
II
18
16
18
18
18
18
18
19
19
19
19
19
19
19
19
19
19
19
19
19
19
29
29
29
29
29
29
29
33
33
33
33
33
33
10
10
10
10
8111
8112
2320
2321
2322
2323
2324
2325
2328
2327
7464
7485
74«
7487
7488
4725
4728
4727
4728
4729
4730
4731
8250
6251
8252
8253
62S4
8255
82S8
3410
3411
3412
3413
3414
3415
3418
5493
5494
5495
5498
5497
5498
3252
3253
3254
3255
7138
7139
7140
7141
7*42
8203
8204
8205
8208
8207
5850
5851
5852
5853
5854
8784
8785
8788
8787
8792
1.81
1 59
1 18
1 42
1.47
1 57
1.55
1 48
1.51
1 52
1.23
1 57
1 88
1 81
1 69
1 39
1 55
1 61
1 58
166
I 84
1 78
1.58
1 63
1 88
176
1.65
1.59
1.55
1.09
1 55
1.59
1.81
1 75
1-70
1 73
1.25
1.50
1.57
1 65
1.74
1.67
1 55
1 50
1 64
1 62
1 65
1 63
1 61
1 64
1 64
1 20
1.38
1 41
1 45
142
1 32
1.38
1 44
1 43
1.47
1 44
1 52
1 67
1.88
1 55
41.10
41 82
4840
41	78
38 76
38 90
40	14
43 92
42	22
41	«
46 28
41	53
34 94
41.10
34	61
42.56
37.12
35	13
38 84
38 39
38 23
33.53
36	94
34 53
29 93
32.75
36 99
41.24
4242
53 97
40.82
36 25
38	S1
39	99
29 85
34 67
50 17
40	08
38 72
34 07
32 52
36 08
43	55
42	88
4! 44
40 77
38 08
36.51
38.04
37.87
36	47
53.24
50.85
52 82
44	89
4121
34 75
38 87
38 52
37.81
38	80
42 42
39	73
37	56
34 92
36 58
39 18
39	88
40	65
41.98
38 99
38	54
37 67
4288
40.45
40.08
44.90
39	38
33.96
39.18
3298
41.71
3657
34	51
37.42
3547
37 26
32 44
35	67
34	29
29	57
32	56
•3$ 81
40	19
42 07
47	74
39 42
35	53
37	72
36	63
28.55
33.40
44 22
39.60
34.80
3341
31	82
34	99
42 09
41	69
40.09
30	55
33	58
32	38
31	33
29	80
26 70
49 88
48	88
51 43
4313
3671
2d 44
3521
30	33
35	U
38	46
42	07
35 29
35 38
30 71
32	sa
38 30
38 73
38 94
41 90
36.79
38 22
37.53
41 38
40 13
39.65
41.43
37	31
33	88
38.30
32 06
41.51
36.06
32	99
36 96
34	55
3? 24
31	66
35	51
33	00
28 99
32	49
35	87
40	C3
41.05
46	17
38	32
35-24
38.79
36	35
28	52
32 79
41	01
38	26
32 71
32 16
31.33
33.81
41.57
40	44
39	33
38	88
32 83
29	34
27	95
26 51
22	32
44 79
47	49
50C1
39	76
36 49
24 36
30	42
23	72
3242
30.69
41	05
30.46
31.14
28	37
31.17
3T07
37 81
34.75
33	16
31	06
3591
37.47
40.14
37 36
38.77
36.16
32	57
31.10
37 07
30 82
39	72
34	10
30	54
33	14
33 89
37	17
31	26
33	97
27.75
24 46
30	67
35.57
39.25
4061
42 29
36	26
3345
31	89
34	99
26.07
32.12
35	75
3253
29 83
29 80
29.50
32	73
40	44
39 68
38	44
37	73
24 96
20 99
16	74
11 66
9 83
32 58
39	55
41	35
28	10
29	31
17	07
19 62
13 18
13.31
13.64
40	81
20.74
17.53
22 28
26.17
35	51
36	44
32	30
28 25
2558
34	43
37.00
40 04
37	13
38	04
31 92
27	54
28	31
35	51
23	32
37 26
30 78
28 41
3C.C3
33	22
36.11
30.69
30	38
22.99
2005
30.57
35	36
38.92
39	72
40	03
32-62
28 84
24	66
34	52
25	85
31	87
30	58
20.01
26	06
24	63
28 40
31	67
36	43
35	76
34 21
33 89
14 44
11.41
1C.43
8 15
662
19.92
25	06
27.20
18 15
20.62
12 68
13.91
900
845
8 70
39 72
14 22
11 95
14 93
22 44
27 50
26.11
26 22
1962
19 17
31.90
35 17
37.33
31	22
30.14
26	26
22 64
22	74
27	50
23	43
33 58
25	25
24	44
26	00
32	57
35 97
3051
26	00
19	24
16	64
30	23
35 24
36.79
39 43
37 06
25	84
20	88
18	17
3341
25 69
31	62
27	76
24 74
21	55
20	90
27.17
30.62
23 15
22	44
21	78
20 69
1007
7 78
7	73
654
5	10
14 41
17	17
19	40
10 39
10 66
10 39
1! 17
6	87
6.30
6.48
39 43
10.27
8.84
8	70
11.35
24 80
26 19
26 12
16	83
15 78
30	13
34	47
36 50
28 99
28	74
22 35
19 75
1930
24	60
1938
31.39
22 04
21.36
21.72
31	74
35	70
30.06
22 86
17	00
14 85
29	76
35 15
33	68
39 28
34	87
22.57
1739
14	09
32	52
25	43
31 31
25	78
22.11
1795
15	18
26	12
29.74
1483
13	61
13.86
11.87
863
6.70
6.70
6 08
4 76
12 18
14	62
1655
7.76
784
& 44
941
539
506
534
30 00
733
638
606
8 65
20.22
21 44
23	88
1388
1309
27 75
33 04
35 17
26 94
26	25
17	82
14 98
14 07
20.22
13 56
2835
18	18
1646
1674
30	67
35.22
2931
19	98
U.46
12.88
29	15
33.53
38 47
38 76
31	51
19.30
13 86
10 66
31 70
24	96
30	73
22 53
18 55
13 6t
10	65
24 04
27	88
12 73
11	88
10 69
10.03
7 11
5.52
5.66
540
4	23
9 88
12.18
1402
5	52
5.51
7 27
755
4 13
387
4 19
38 76
6	87
5.70
461
681
18.11
1955
22	83
12.68
11 90
27 23
32	22
34 58
25	93
25.06
15	63
1241
11 73
18 It
11	37
26.12
16	12
14.34
14 69
29 77
35.17
29 06
18 42
13.07
11.67
2840
33	08
38 09
38 25
29	76
17.28
1242
939
3'. 04
24 37
30	38
21 24
16 34
12	04
9 26
23	06
26	78
11 34
10	66
1009
9.40
6 47
5.15
505
5 14
405
8.84
11	12
1299
460
4.88
848
688
3 49
324
3.88
38 25
614
4.93
398
634
14	96
15	58
20.40
t0.91
1064
26 75
30.47
3343
2395
23 90
1321
9.25
908
14 98
9.23
23 27
13	04
11.14
12 07
26	14
34 44
27	71
16	23
11 20
10 10
2675
32 06
37 49
37 45
26 88
14.59
9.92
765
29 58
23 58
29.27
18 88
14	39
9.97
7.41
21.89
25.15
837
7 80
528
486
525
3 98
3	93
341
2	57
7 18
4	77
3	98
3 38
3.31
549
5.58
2 67
260
298
518
450
3.88
330
538
6 23
15.0
2.0
61
114 871
6 69
150
20
51
110265
4.57
150
2.0
15
115 909
2.06
15.0
2.0
21
122 390
2 26
150
20
17
125 476
11 46
150
20
13
110 269
1632
15.0
2.0
46
91.731
18 56
150
20
40
98372
11 17
15 0
20
23
107 306
11.13
150
20
46
129 914
303
150
2.0
20
174.601
2.78
150
20
59
172 385
3 96
150
20
23
171.930
6 23
110
2.0
48
171 079
3 73
15.0
2.0
53
205 337
4 80
15.0
20
15
147.518
3 89
15.0
20
10
158 336
396
15.0
20
1$
148142
3 57
15.0
20
38
154.720
12 91
15.0
20
51
125 579
19 38
150
20
38
124323
13 26
150
20
35
134.462
3 78
15.0
2 C
18
197 697
3.24
150
2.0
15
199.864
380
150
2.0
28
184 828
11 92
15.0
20
23
172.144
18 25
15.0
20
43
149 716
24.87
15.0
2-0
38
126 621
27 95
15.0
2.0
38
87 736
9 55
15.0
2.0
13
141 187
460
15.0
2.0
17
146 481
3.12
150
20
23
148363
1 92
15.0
2.0
13
149 269
21 51
150
2.0
15
103 731
17 65
150
2.0
56
1C2.755
20 45
150
20
66
100 471
301
150
20
20
180 133
2.15
15.0
2.0
26
177.620
1.63
15.0
2.0
15
175.536
2 26
15 0
20
25
180 674
8.46
150
20
38
160 353
9.85
ISO
2.0
79
142.804
1 80
7.5
60
25
7.136
1 64
75
6 0
115
43 594
1.46
7.5
6.0
38
96.581
1 31
7.5
6.0
25
124.377
1 35
1800

23
260 645
1 19
1800

20
247 853
1 29
180.0

48
243 646
090
1800

51
236.102
048
1800

61
240 310
3,14
180.0

10
221 883
1 25
180.0

10
219 363
1.00
180 0

82
227 093
0 77
<80.0

55
219 666
0.77
180.0

72
198 773
1 36
1800

6
182 218
126
1800

35
184 5*3
1 02
180.0

71
178 072
0 74
1800

31
175 076
0.61
1800

58
t74 364
1 50
180 0

13
266 260
1 43
180.0

26
248 100
1.34
180.0

101
251.620
1.38
1800

61
250 910
1.44
180 0

36
189 006
H-39
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files





Watw
Water
Soil
Soil
Soil


Soil

Table
Tat I*
Horizon
Parti de
Component
Profile
Lab
Density
So* Water Content (vo* jme %} at Indicated Capi'ary Socton
Depth
Duration
Thicknee*
Diameter
Name
No.
No.
(Qlcc)
3.5 cm 20cm 30cm 45cm 60 err SO cm 100cm '50cm 200 cm 333 cm
15< cm (cm}
(mo.)
{cm>
{jjml
PENNEY
PENNEY
PENNEY
PENNEY
PENNEY
PENNEY
PENNEY
PENNEY
PENNEY
PENNSUCO
PENNSUCO
PENNSUCO
PENNSUCO
PEPPER
PEPPER
PEPPER
PEPPER
PEPPER
PEPPER
PEPPER
PEPPER
PEPPER
PEPPER
PEPPER
PEPPER
PEPPER
PEPPER
PEEPER
PEPPER
PEPPER
PEPPER
PEPPER
PEPPER
PEPPER
PEPPER
PEPPER
PEPPER
PEPPER
=>EPPER
PEPPER
PERRINE
PERRINE
PERRINE
PERRINE
PlCKNEY
PlCKNEY
PiCKNEY
PlCKNEY
PICKNEY
PICKNEY
P.CKN6Y
PlCKNEY
PINEOA
PINEDA
PINEDA
PINEDA
PINEDA
P-.NEOA
PNEOA
PINEDA
PINEDA
PINEDA
PINEDA
PINEOA
PINEOA
PINEDA
7
7
30
y>
30
30
30
30
S
5
5
S
10
10
10
10
to
10
10
10
13
13
13
13
13
13
13
13
13
13
31
31
31
31
31
31
31
31
31
11
11
11
27
27
27
27
1
I
I
I
1
1
2
2
2
2
2
2
2
2
6793
6794
6795
6957
6854
Wtt
MM
M«t
6062
6942
6543
6544
6545
5451
5452
5453
5454
5455
5456
5457
5456
2208
2209
2210
2211
2212
2213
2214
2215
2216
2217
2947
2946
2446
2950
2951
2852
2353
2954
2955
6536
653ft
6540
6541
4610
4611
4612
4613
4742
4743
4744
4745
7560
7561
7562
7563
7564
7565
666
880
690
601
692
693
694
695
1 51
1 52
1 55
I 20
136
1.41
145
1 42
1 40
101
1 07
1.06
1.16
1 35
1.50
1.59
1 60
1 64
1 66
1.69
1.71
1.41
1.50
1.54
1 57
1 49
1 53
1 52
1 57
1 70
1 62
1 26
1 41
(53
1 62
1 57
1 45
1 60
I 72
175
1 04
0	98
0.96
1.09
1	SO
1.57
1.51
1 52
1.65
1 66
1.70
1 72
1.46
163
1 80
1.65
1.76
t 72
1 24
1 42
1.51
1.68
1 76
1.70
1.66
1.67
46.16
39.76
37 66
53.24
so m
52 62
44 09
41	21
42	29
59	54
60	20
60.60
58 06
39 1ft
41 11
37 49
57 72
33 22
35	95
37 88
39	56
40	45
40	00
37 09
33 66
41	58
2602
37	60
38	3B
36	36
42.16
43	56
37.01
36.06
33 04
37.40
39	60
35 32
35 18
33.78
61	59
63 43
02.60
61.27
42	50
38	61
41.81
40	63
33 09
32	76
32.46
31	88
4740
41.24
37	36
39	23
32.00
41	36
44	78
39 93
39 97
33	73
32	02
3535
34	26
34 76
45.62
3761
38 09
49.68
48.66
51	43
43 13
36 71
4082
54	66
57	36
58	86
56 78
19 97
1600
(4 24
52	20
33	63
34	12
33.11
34.62
32	56
33.46
33.13
38	66
39	84
22-10
33	95
33	44
33.75
40	19
30	06
21 83
27 62
29 22
34	97
35	52
31.33
32 84
31	17
59	12
60	75
60 44
55	88
40 11
36	42
38	72
37	89
32	64
32 58
32 24
31 19
46.05
3868
36 47
35.68
31	00
40 21
44.31
3980
39	65
32	78
32 40
35.01
34 13
34 46
4572
36 94
36 03
4479
47.49
50 01
39 76
36	49
37	79
53 35
55 87
57 97
55 22
12 36
9 25
10 24
50 47
30	39
31	16
30	77
32	67
27	82
29.64
28.01
36	97
39.31
20 79
31	66
32	59
31.25
3883
26 55
18	81
1798
19	73
34 76
34	10
25 20
3? 22
30 36
57	67
53 90
59.28
58	13
39 58
32 90
37	40
36 59
32 51
32.43
32.21
3C 86
35	57
36	M
32 58
33.03
28	73
36 31
4247
37.08
37.76
3< 79
32.06
32.51
34 02
34 01
38	28
3361
30	3?
32	58
39	55
41 35
28.10
29	31
26 66
52 69
55	26
56	66
54.51
1061
673
765
48 44
27.64
26	32
27	25
31	29
21	96
17 56
15 88
36 07
36 61
18.19
27 54
30	13
2541
36 74
24 11
13 99
12 34
10 16
34	26
31	24
15 IS
31	54
29 25
57	16
58	51
58.09
57.24
35	92
27	56
33	79
32	77
29 32
28	19
27.61
26 67
22	17
24.49
21 92
24 10
26	07
35 33
38 51
31.27
34.15
27	83
3T 35
29	36
33	89
33 79
30	12
31	66
26	04
1992
25 06
27	20
16 IS
20 62
18.02
52.01
55	03
56.33
54.04
984
G 03
6 57
46 37
25	90
26	42
25 23
30	33
<9.»
12 99
10 83
35 76
35	27
16 06
25	27
27	73
26	35
36	9C
23 1C
1270
10 21
761
34	00
29	26
1272
3C 60
27.75
5569
S8 15
5"* 82
56	63
31	89
23	97
30	32
29 88
26	16
27	79
26.30
25 61
'3.16
'1.38
12 68
1240
18.01
33 97
35	61
27 78
29 32
24	64
29 OC
24 56
33 38
33 42
16 28
14.76
12 20
14 41
17.17
1940
10 39
10 86
10	30
51 32
54	70
56	04
53 86
848
5.70
636
44 89
24	99
25	78
24	51
27.52
1668
1024
6.01
34 99
33 54
14 38
2362
25	26
24.40
3528
22.35
11	75
884
6 16
33 46
27	49
11 24
29 53
25	58
55	21
S? 75
57	48
55 89
28	06
21 85
27 67
27 09
27 55
26	49
25.30
24 89
9 55
623
6 79
574
14.42
32 69
32.47
1922
24 28
17.16
23 96
17.42
32 29
32 40
12.14
876
6.17
12.16
14.62
16.59
7	76
7.64
6 04
49.19
54.47
55.27
53 34
9 23
5	42
6	03
41 67
24.22
24 96
23	71
26 94
15 35
8	SI
6.87
33	57
32 32
13 53
22.86
24	91
23	38
34	33
21 57
10.94
7	97
530
3291
26 32
'0.18
29	4
25	28
54.79
57 55
57.26
55 60
25	80
20 41
26	20
24	03
26 95
25	78
24 57
23 87
8	17
4	92
5	05
4 13
1295
31 37
30	64
15.79
20.40
12 43
1996
13.53
31	86
31 65
960
5 80
5 07
9 86
12.11
14 02
552
551
6.11
49.52
54 03
54.64
52 78
8 72
503
577
41 21
2281
23	47
22	26
25 88
13	59
747
571
30	23
29	12
12 46
21 45
24	28
21	47
3252
2C 48
10	14
681
466
31	51
24	63
902
28 47
24.55
54	03
57 16
56.85
55	08
2251
18 79
23.84
2286
25	87
24 48
23	56
22	78
709
4 39
409
3 39
11	39
27 83
27 59
1243
14	30
884
14 86
9.87
3C.79
30	31
868
477
453
864
11.12
(299
4.60
4.66
5.29
49 11
5378
54 36
52.19
8.36
481
556
39 40
21	84
22	53
21	28
24.56
1284
690
524
28	30
28 99
1201
20 82
20 12
20 60
31 29
19	62
9 43
6 18
4 24
3C25
23.37
6.66
26 21
23	12
53 54
5661
56 54
54.13
20	73
1695
2245
22	06
24	58
23	69
23 13
2213
6	77
4.27
3 83
3 19
10 75
25.22
25	61
10 97
10 28
7	37
12 58
8	35
3C2S
29	39
7 37
3 56
3 87
7.16
4.77
396
3 38
3	31
4	14
47 83
53 21
53 87
50 79
7 86
4	25
5	28
36 32
19 92
2C 66
19 38
23	04
11 22
587
4 65
2S86
24	60
11.57
2003
1809
1841
28	54
18	40
8.70
5.69
3.94
26	42
21	50
7.57
27	31
13 65
52 66
56 S7
55 78
46 14
17 61
15 24
20.14
19	46
22	61
22 01
21	88
20.96
6 14
380
321
261
9.57
21.60
22	94
937
896
59?
10 49
6 82
29	50
28	26
1.00	1800
0.74	160 0
0.84	180 0
314	1000
1.25	180 0
1 00	160 0
0 77	180 0
0	77	180 0
1	40	160.0
1034	190
6 8t	15.0
5 25	15.0
5.63	15.0
321	300
1 34	300
5.54 30.3
6 67 30 3
5.22 300
11.70 30 0
7.99 30 0
6.89	30 0
6.99	30 0
7 54	300
7 89	30 0
16 83	30 0
7 33	30 0
3	82	30 C
2.78	30.0
1 93	3CC
521	3C0
4	93	30.0
1 90	30.0
14 77	30 0
5	61	30.0
751	150
4 22	15 0
348	150
3.42	15.0
3 32
3 86
2.57
2.49
16.27
(604
15.71
1529
0.0
00
0 0
0.3
0 0
00
00
00
321	150
2.12	15 0
1.45 150
1 20 15 0
3 89	15 0
10.01	15 0
630	150
1.90 150
1 22	15 0
1.04	150
299	ISO
185	15.0
13.60	15.0
3.0
3.0
3.0
3.0
2 5
25
2.5
25
2.5
25
25
2.5
2.5
2.5
2.5
2.5
2.5
2.5
25
25
25
25
25
2 5
25
2	5
25
25
25
25
25
60
60
60
6.0
30
3	0
3.0
3.0
30
30
3.0
30
30
3.0
3.0
30
3.0
3.0
30
30
3.0
3.0
30
30
30
3.0
40
79
48
13
25
38
26
33
66
20
48
23
2t
9
15
36
12
13
16
20
84
15
8
35
13
13
23
15
23
109
58
5
13
12
41
13
20
13
28
13
25
2
76
26
IS
M
15
79
71
36
10
16
26
25
10
26
5
16
18
17
18
10
21
35
153 003
157.139
149	689
149.729
149.946
146.224
150.411
150	062
150 069
21.781
9497
9422
11.430
394 538
367 073
358 761
343 631
342 184
326 242
350	626
314.544
257	466
251 732
258	946
237 165
230 443
240 732
245229
242.571
209.762
149.222
351	296
375 144
360.215
367.606
323 954
347.448
354.189
298 028
355 128
14.346
9	939
10	785
52 871
204 130
211 386
208 659
216 160
298 548
286 316
300 462
307 640
223 360
227 443
212.016
229 336
179.209
194.893
119 673
148 940
156 676
190.749
146.392
146 S15
129 373
126.377
H-40
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files





Water
Water
Soil
Soil
Sod


Soil

Table
Table
Horizon
Parti de
Component
ProWe
Lab
Density
Soil Water Cortem {volume %) a! Indicated Capillary Suction
Depth
c
|
o
Thickness
Diameter
Name
No.
No.
(g'cci
3.5cm 20cm 30cm 45cm 60cm 60cm 100cm 150cm 200cm 333cm
15Kcm (cm)
(mo.)
(cm)

PINEDA
PINEDA
P'NEDA
PINEDA
PINEDA
Pineda
Pineda
PINEDA
PINEDA
PiNCDA
PINEDA
PINEDA
PINEDA
PINEDA
PINEDA
PINEDA
PINEDA
PINEDA
PINEDA
PINEDA
PINEDA
PINEDA
PINEDA
PINEDA
PINEDA
PINEDA
PNEOA
PNEDA
PINEDA
PINEDA
PINEDA
PiNEDA
PINEDA
PINEDA
PNEDA
PINEDA
PINEDA
PINEDA
PINEDA
PINEDA
PINEDA
PINEDA
PINEDA
PINEDA
PINEDA
PINEDA
PINEDA
PINEDA
PINEOA
PINECA
PINEDA
PINEDA
PINEDA
PINEDA
PINEDA
PINEDA
PINEDA
PINEDA
PINEDA
PINEDA
PINEDA
PINEDA
PINEDA
PINEDA
PINEDA
PINEDA
90?
5537
553a
5530
5540
5541
5542
5543
5544
5545
4
4
5
5
5
S
5
5
5
5
10
10
10
10
10
10
11
11
11
17
1;
17
17
17
17
17
17
17
37
37
37
37
37
37
37
4449
4450
7033
7034
7035
7036
7037
7C36
7030
7040
7041
7042
2566
2567
2566
2560
2570
2571
2572
2573
5167
5188
5189
5190
5191
5192
3648
3649
3650
3651
3652
3653
3654
3655
2240
2241
2242
2243
2244
2245
2246
2247
2246
4162
4163
4164
4185
4166
4167
4186
I 76
1.77
1 37
1 5?
1.5>
1.63
1 71
1.62
1 66
1.75
1.76
1 51
1.61
1 64
1 66
1 64
1 09
1.69
1 50
1 50
1 62
I 63
1.63
1 62
1 66
1 62
1.54
1 50
1 38
1.50
1.66
1 70
1 66
1.77
1 78
1.77
1.57
1.58
1 52
1.61
1.70
1 62
1 33
1.42
1 46
1 46
1 62
1 57
1 72
1.74
1 06
( 36
1 46
I 54
1 57
1 57
166
1 61
1.78
1 03
1 45
1 61
1.59
1.60
1 63
1.69
35	56
31.79
44 67
35.26
359B
36	55
3566
32.16
36	»
33	64
32 16
42 26
37	33
35 14
36.31
37	19
35	56
36	60
34	62
42 19
35.17
34 97
33.96
32	83
33	55
34	75
35.76
37.56
35	49
36	97
34	43
32	06
35	38
34.36
33	&5
41	12
36	20
39 80
33	36
36	11
34	36
38	33
42	96
42 22
42 68
39	93
34.93
35	43
35 97
34.25
75.84
40	98
41.77
42.26
39	50
4046
42 60
43.52
42.97
57 46
40	97
37	72
40.01
39.11
35 32
33 83
34 77
31	56
42 65
34 53
34 17
34	76
32	60
30	20
33	53
31.63
26 46
40	32
34M
34	46
36.00
35	15
34.78
35	63
32	36
*055
34.14
33	68
32.45
31	53
33 27
33	23
34	44
36	69
30 06
30 42
32	19
30	48
33	30
32.62
31	69
39 44
3467
30 70
32.23
34.79
3331
37	49
41	00
40.63
41 28
37 46
34.26
33 90
35	<2
33.51
50 64
41 33
3271
32	27
33	21
33 35
33 39
33 44
33	19
5347
39 54
34	47
3731
36	24
32 32
36 36
33 51
31.09
42 61
31 19
31	51
33.78
32	36
29	64
33.10
31	45
27 44
36 45
32.10
33	24
30	55
33 64
33.17
35	47
26	49
35.01
32	66
32	24
31	13
29	75
33	03
33	09
34	35
36	59
21 13
20.00
30	45
24 74
33.11
31.13
30	07
36 26
27	22
20	04
23.31
20.45
32	47
36 65
40.13
39	60
40	38
35	78
34.14
33	61
35	02
33	12
44 15
32 55
21	34
24	06
26	94
25	77
27	82
31	73
30.87
51 11
39.29
34	II
37.09
36	10
32.17
35	00
33 26
28.77
4100
24 97
21 80
26.80
30	46
2685
32.68
31.01
26 0?
27.67
18.71
10.08
20	46
33 34
33	13
34	30
18	76
13 99
15	69
21	01
13 10
21 13
3C 71
31	76
32	26
28	21
12	67
12.00
19	35
1651
21 56
3061
29	33
37 31
'5.77
9 03
13	03
1220
32	36
36.17
31 55
29 00
29 5A
25	95
26.51
26	74
34	09
3245
36 83
21 36
13 26
16	00
15	15
16	82
21 5?
3021
29 66
47.78
39 06
33	67
36.88
35	65
3200
35 66
32 68
27.08
36 43
1753
16.60
18.43
27 42
28.46
32 35
30	85
25 86
16	16
11	43
13 11
12.40
32	42
31	46
34	52
12	£4
6.26
10	44
13	66
10.96
14.56
27	76
29	70
20 33
21.64
9 76
8	W
15 40
11	03
9	66
30	17
28	45
36.77
9 89
5	06
6	23
6.??
31	56
35	56
1867
1523
15	86
1562
17	65
16	12
32.90
31	78
33	64
1766
11.25
1322
11.15
14.52
19.68
20 10
2836
44.78
36	65
2467
32	55
35 54
31 »
34.01
32	17
26	26
30.00
13 42
12.19
11	21
2266
27.56
31.74
20 85
25.11
10.66
7.39
8	51
6.09
31 63
30.87
33	96
834
5	54
6	93
1041
d 10
10 92
25	15
27	25
26	79
18 13
844
737
12	57
895
600
2031
27	97
29	89
6.10
5 56
6.40
488
31 02
34	06
12 61
9.14
9	15
toes
12 15
864
31 81
30.89
30	78
15 37
9.78
12 07
9 42
12.77
1764
27 4?
27 02
40.03
26.75
16.07
22.16
23 57
27.05
33.16
31 80
26	07
27	63
11 26
10	08
8.83
19 80
26	65
31 21
29	35
24	00
935
601
662
4.72
3095
30	27
3351
503
550
5.00
900
7.00
9.00
23	00
25	68
24	00
16 00
7	85
8	59
11	60
7 65
4	37
28	71
27	39
27 85
7.0?
5	14
4 00
4.17
30.36
34	50
11	52
7.00
7.42
835
0.67
5.73
30.74
2880
20.13
14 16
8.37
11.4?
856
12	01
1687
26 34
25	04
35	14
19 18
10 7?
1398
1506
1441
32.S3
20	83
25 73
21.76
006
827
7.14
15 60
25	47
30.26
26	22
24	52
8 12
5 24
5	46
3	87
29 35
29 39
32	24
4.31
4.13
4	06
7	22
462
7 10
21	84
23.60
2317
14 18
7.21
560
10	05
6	24
3 66
27	96
25	56
24 15
626
446
3 57
346
29 73
33	79
9.55
6	76
7	07
667
7.43
430
29 03
26.44
26.87
1266
8.20
10.03
745
11.10
15.47
24 54
23 97
29 21
11	23
6 24
9 23
10 00
8	74
31 06
26	30
24.90
19.10
766
7.01
6.01
1346
23 03
29.74
27.42
23	77
694
4.44
4	65
3 18
27	74
25 59
31.15
3 72
4.10
3 76
6.72
4.00
6 46
2094
2247
22	13
1332
6 01
5.07
0 43
5	57
3	13
27.53
24	38
23	14
5 80
4	22
3.20
3	25
29 22
33 46
768
5	94
6	32
5 76
647
343
27 91
27.14
25	66
12 2?
7	0S
10.80
600
1068
14.32
2354
22 65
26.10
0 26
4	82
7 80
7 50
6.63
20.67
26 26
23 66
18.04
766
622
5.13
11.54
20 13
26 54
25.62
13 68
627
3.06
371
2	70
25	73
26.77
28.17
3.50
3	32
2	97
3	36
3	33
600
20 45
20	01
11 57
13 00
644
4	31
8 1?
466
2	64
26	00
22 90
22.01
5.57
3	76
2 51
296
26 68
32.72
638
5.51
602
4	66
544
2 98
25 34
24 01
2371
11 54
7 33
10.40
6 31
0 95
13.80
21	??
1904
24.04
664
430
6.60
662
600
26.40
16 05 150
15.56 15.0
4.06 15.0
170 150
0.86	150
3.13 15.0
266
426
15.0
ISO
1342 15 0
12.62 15 0
052 15 0
2.04 15 0
1.60 150
1.00 150
0 66 ISO
1346 ISO
17.10 150
17 73	15.0
057 150
0 21	150
0 96	1S.0
082	150
1.03	15.0
5.99	15.0
8	72	15 0
807	150
3.00	15.0
4 73	150
3 34	15 0
1.20	150
063	15.0
1.09	150
102	150
14.35	15 0
1260	150
13.54	15 0
1.32	15.0
0 70	ISO
0.36	150
0.43	15.0
1447	150
18.15	150
3 84	ISO
3.34	150
2 29	ISO
0 89	15 0
1.77	15.0
121	150
1115	150
9	27	15.0
7 62	15 0
2 10	150
0.96	15.0
4.74	15.0
0	6!	15.0
1	16	150
0.60	15 0
13 00	150
1073	150
6.46	150
2.23	15 0
096	150
1.29	15.0
30
30
3.0
3.0
3.0
3.0
3.0
30
30
3.0
30
30
3.0
30
30
30
30
3.0
30
30
30
30
3.0
3.0
30
30
3 0
30
3.0
30
30
3.0
30
30
30
30
30
30
30
30
3.0
3.0
30
3.0
3 0
30
30
30
30
3.0
30
30
30
3.0
30
30
3.0
30
3.0
3.0
3.0
30
3.0
3.0
30
30
54
46
15
16
13
20
13
30
36
35
23
13
15
25
11
30
36
20
8
25
15
13
5
18
18
17
4t
43
13
7
18
18
35
21
40
51
6
12
18
46
48
26
2
11
20
25
16
17
46
66
15
23
33
10
11
25
71
10
6
35
26
12
8
46
134 845
134 806
176.991
163 307
187.143
183 563
162006
161 754
155 173
153636
173 303
217030
225810
210 966
231 500
196 846
172	517
142.374
187 300
174.580
173.070
173	520
173.920
143.240
146.500
^50 300
157 260
162.500
273 629
292	532
277.107
269 764
281 177
227.27$
248 365
162 033
267 551
293	302
286 210
288 640
200 147
177.201
166.173
166.600
165	132
166	166
164.941
166 006
165313
175 305
271.940
209 215
206.634
297 500
286 436
302 019
284.063
241 064
273 803
73566
116 960
120.752
136 T66
133 726
128 457
104 453
H-41
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files
Water	Water	Soil Soil
Soil Soil Table	Table	Horizon Partde
Component Profile tab Density Sea Water Content (volume *) at indicated Capillary Suction Depth	Duration	Thickness Diameter
Name	No. No, (^cc) 3.5cm 20 cm 3Com 45cm 60cm SC cm iQOcm 150 cm 200 cm 333 cm l5Kcm (cm) (mo.)	(cm)	(um)
PINEDA	3?	4189	t.77 38 67	35.63	35 32 35 15	34 97	34 14	33 03	32 44	31 13	30 23
P1NE0A	37	4190	1 79 34 25	91.40	31.40 31.*19	30 96	29.7$	29.27	27.72	26.48	24.49
PUCK)	37	4225	1.42 40 29	36 29	37.59 29 11	22 43	19.92	16.81	16 30	1547	11.67
PLACID	37	4226	1 33 45 SO	44 77	44 40 30 32	26 06	19.19	1?49	(4 40	1341	966
PLACID	37	4227	1 49 44.40	42.50	41 56 31 13	20 29	* 633	14 90	1230	11 40	6 30
PLACID	37	4226	1 41 40.40	39-26	36.90 32 16	19*	13 35	10.72	6.64	7.77	6.61
PLACID	37	4229	1 59 41 24	40 10	39 S6 36 30	19 10	13 11	11 54	6 69	7 91	7 40
PLACI0	37	4230	1 57 37.37	36.22	35.02 33 34	26 13	18.65	12.73	12.17	10 92	7 63
PLACIO	37	4231	1 55 35 22	33.91	33 22	29 17	22 31	1541	13.66	10 57	9 39	9 09
PLACID	37	4232	1 54	34.03	32.72	31 58	29 54	26 22	20 08	16.62	1357	12.65	11 18
plantation	19	5604	037 772s	69.57	6547	6207	59 2«	5«S7	5493	5224	5010	4740
PLANTATION	19	5605	1 35	45.38	41.11	38 78	30 58	24 55	20 81	16.78	16 65	15.45	13 95
"LACTATION	19	5606	1 61 36.01	36 17	33 69	25 61	15 06	10 76	6 92	7.66	6.73	4 69
PLUMMER	5	6655	1 64	37 46	37.03	36 13	30 85	22 17	14 22	12.10	8 55	7 33	5.67
PLL'MMER 5	6656	167 34 13	33.56	32 28	24 83	17.63	12 63	10 60	7.99	7.01	5 61
PLUMMER	5	6657	1.65 34.37	34 14	3C 10	2065	14.07	$.90	8 43	6.21	5.43	4 17
PLUMMER	5	6656	167	36 14	34 42	31 04	22 IS	16 76	10 80	8 48	8.16	S97	4 64
PLUMMER	5	6659	1 7|	23.30	23.09	22.64	22 05	20.92	20 18	18 32	17.15	16.1t	13.67
PLJMMER	5	6660	1.70	34 63	32 90	31 71	29 81	28 49	26 55	24 23	24 15	23 30	20 38
PLUMMER	5	6661	1.73	36 85	36 17	34 74	33 85	33 20	32.24	31 85	30 70	29 87	28 68
PLUMMER	6	3956	125	51 56	46 64	41 06	32 90	24.83	20 11	17 55	15 04	13.41	HOC
PLUMMER	6	395?	1.3*	47 35	41 97	35 67	31 44	22 44	16 39	13 67	11 33	1003	8 45
PLUMMER	6	3956	1.42	4188	4043	38 27	30 4fi	21.03	13 74	10 59	7 95	8 63	S 64
PLUMMER	6	3959	1 50	39 6?	37 61	37.07	29.63	20 56	12.76	«44	6 88	5.83	4 85
FLJMMER	6	3960	1 56	38 26	36 63	36 00	30 22	22 M	1302	8 90	5 93	501	3 67
PLUMMER	6	3961	1.61	39 25	34.54	34.38	31.86	25.45	16 94	9 66	8 36	4.81	3 46
PLUMMER	6	3962	174	31 21	30ft4	2690	26 52	22 83	1977	17 90	1587	14 78	13 50
PLUMMER	6	3963	1.73	32 20	31.23	30.35	2844	27 51	25 85	24 00	23 33	22 03	21.02
PLUMMER	10	2624	1.30	52.11	50.19	49 92	44.5'	40 73	3649	37.57	36 39	35 69	35.18
PLUMMER	10	2625	1.61	37 61	35 63	31.54	22 24	16 63	3 22	11 51	9 66	8 73	7 50
PLUMMER	10	2626	1.78	35 69	34 01	32 63	26 26	21 27	17.27	14 90	12 52	11 19	9 54
PLUMMER	10	2627	1 69	37.02	35.13	33.49	30 33	27 30	22.33	17.47	13 58	12 19	10.60
PLUMMER	10	2628	1.74	32.99	32.31	31.87	31 38	21 31	14.94	11.15	8.23	6 69	5.59
PLUMMER	10	2629	1 77	31 31	2956	2894	28 74	26 92	25 53	23 17	22 18	20 11	1705
PLUMMER	10	2630	1 81	31.30	29 60	28 90	28 70	26 90	25 50	23.71	22 20	20 10	17.56
PLUMMER	II	8035	0 55	51 69	48 51	47 16	46 59	4$ 12	42 33	41.54	40 11	38 55	12 93
PLLMMER	t!	6036	1 41	34 64	33 22	31 66	29 98	28 79	27 67	16 65	16 27	16 74	8 74
PLUMMER	11	8037	1 52	32.31	31 66	30 57	29 12	27 79	25 83	21.90	16.66	14.59	8 66
PLUMMER	11	6036	1 58	30.16	29.69	27 86	26 88	25 13	23 78	16.26	1494	12 66	8 06
PLUMMER	II	8039	1 51	36.77	35 47	33 75	33 CS	30.86	28 27	27.74	26.79	24 83	23 50
PLUMMER	II	6040	1 56	35.56	34.12	33 09	32 12	29.77	27 a8	27 29	26 22	24 79	1997
PLLMMER	12	4614	1 22	49.61	44 94	41 89	37.26	32 99	28 59	26.27	22.87	20.85	18.12
PLUMMER	12	46IS	I S3	39.94	38.10	37 67	34 31	30 96	27 35	24 89	20.92	18 65	16 02
PLUMMER	12	4616	1 65	32.56	30.64	29 81	29 03	27.06	23.8?	21 60	18.36	16.30	13 66
PLUMMER	12	4617	!.63	36.45	34 42	34 09	33 32	32.55	30 90	30.37	26.80	27 63	25 64
PLUMMER	12	4618	1 63	35.39	33 09	31 85	30 48	28 69	26 88	25 31	22 i5	1978	17 20
PLUMMER	12	8041	1 43	35 97	34 89	33 29	31 03	25 59	19 56	17 76	14 45	1 2 66	11.61
PLUMMER	12	8042	1.62	42.07	41 08	40 63	39.94	36 75	30 11	22 03	1861	1625	11 78
PLUMMER	12	8043	1.67	35.56	35 12	34 92	34.36	32.76	26.30	23 26	16 20	14.28	6.37
PLUMMER	12	6044	1.60	37.59	37 53	37 47	35.36	34.14	28 69	18 96	12.44	9.69	6.24
PLUMMER	12	6045	1.74	40.01	38 87	38 35	36.43	35.29	26 64	20 89	10 07	8 14	a. 14
PLJMMER	12	8046	1.69	35 64	34 90	34 79	34 53	33 90	33 17	32 56	31 44	30 93	27 26
PLUMMER	12	8047	1 57	32 26	32 14	32 09	31 83	31 32	30 69	30 53	29 88	29 17	26 36
PLUMMER	U	6242	1.54	41 07	38 22	36.44	3361	31 23	26 37	25.72	22 63	21 43	19.51
PLUMMER	18	6243	1.67	36 97	35.21	34 09	30.91	26.41	22.43	19.92	16 60	15 41	13.09
PLUMMER	18	6244	1 64	32 11	32.03	31.15	25 20	1982	1564	13 55	11 06	9 62	6 17
PLUMMER	18	6245	1 77	26 82	26.31	26 13	22.46	19 42	16 21	13 01	10 02	8 33	6.26
PLJMMER	16	6246	1.76	2901	28.22	27.76	20.64	17 73	13.94	10.96	7 61	6 48	5.16
PLUMMER	16	6247	1.79	28 54	27 95	27.19	24 52	22 25	19.75	17 66	15 34	1381	11 90
PLUMMER	16	6248	1.73	31 06	30.93	30.46	30.18	23 52	27.76	26 85	24.94	23.37	21.18
PLUMMER	18	6249	1.72	31 72	31.12	31.07	30.93	30 64	30 46	29.91	26.09	26 80	25 20
PLUMMER	34	5499	1 32	43 40	39 37	37 32	34 92	32 92	30 76	29 11	25 88	24 19	21 30
PLUMMER	34	5500	1.46	41 32	3951	36 83	31 40	2527	1382	1501	11.16	9.71	7 35
PLUMMER	34	5501	1 53	38 52	36 25	38 06	32 69	25 36	17 15	13.40	9.70	8 45	6.75
PLUMMER	34	5502	1 65	3€,06	35.07	34.82	29 71	23 14	15 90	11 39	7.44	6 05	4 37
PLUMMER	34	5503	1.77	30 92	29.59	26 86	26 56	23 26	20 85	16.69	16.48	15 31	13 65
1862
150
30
36
100 764
1930
15 0
3 0
20
116.250
3.07
00
5.0
30
155160
4 82
00
50
21
155 360
2 06
0.0
5.0
15
155.790
1.99
0.0
50
18
155.440
363
0.0
50
23
153.100
2.81
00
50
23
149.690
684
00
5.0
17
144.780
4 93
0.0
5.0
56
149 390
1641
00
30
23
205 626
293
0.0
30
25
200.690
0 32
0.0
3.0
36
210 961
2 25
150
40
23
236 941
1.45
15.0
40
45
243.009
1.04
15.0
4.0
21
240 433
0 56
150
40
53
236 601
630
150
40
13
211.079
9 76
15.0
4.0
20
195 431
1? 18
150
40
28
223 5M
3.16
7.0
4.0
10
189 673
269
7.0
4.0
13
181 678
2 0?
7 0
40
45
196 277
1.69
70
40
16
187251
1.34
7 0
4.0
15
197 060
0.6?
70
4.0
43
206 540
927
7.0
4 0
5
166 454
13.75
7.0
4.0
56
152.529
30.19
75
4.0
16
160.314
242
7.5
4.0
25
165.292
3 51
75
4.0
28
185 656
4.34
7.5
4.0
20
184 650
1.31
7.5
4.0
59
191.290
1041
75
40
5
186 112
10 63
75
4.0
48
163 663
606
7.5
40
13
0.000
4 74
7.S
40
23
244 611
1 90
7 5
40
32
234 109
160
75
4 0
64
191.888
1354
7.5
4.0
16
187 660
900
75
40
53
138 330
4 28
15.0
4.0
23
228.990
3.26
15.0
4.0
48
219 699
376
1S0
4.0
46
220 972
10,53
15.0
4.0
74
220.609
792
150
4.0
30
267 723
376
7.5
4.0
28
135836
240
7 5
4.0
26
211 676
1 22
75
40
48
213 799
099
75
40
33
205 892
6 14
75
40
10
131.767
16.19
75
40
31
170.560
22 33
7 S
40
25
13S754
367
10 0
4.0
16
202.604
300
10 0
4.0
16
212.404
2.00
10 0
4.0
20
212 076
1.38
100
40
53
209 172
0.97
100
4.0
23
209 493
3 69
100
40
13
201 968
9.15
10.0
40
15
176.064
974
10.0
40
43
176.516
5 72
100
4 0
15
124 269
1 66
100
40
33
143 125
1.29
10.0
4.0
23
145.066
0.51
10.0
40
84
150 519
5.79
100
40
20
124 995
H-42
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files
Sod
Component
Name
Soil
Profit® Lab Density <
No. No. (9/cc)
Water	Wat«r Soil Soil
Table	TaWe Hoftitofl Parbde
		Depth	Duration Thickness Diameter
3.5cm 20cm 30cm 45cm 60cm 80cm 100cm iSOcm 200cm 353cn iSKcm (cm)	(mo.)	(cm)	(um)
Soil Water Contanl (volume %) al indicated Capillary Sudon
PLUMMER
PLUMMER
PLUMMER
PLUMMER
PLUMMER
PLUMMER
PLUMMER
PLUMMER
POMELLO
POMELLO
POMEU-O
POMELLO
POMELLO
POMELLO
POMELLO
POMELLO
POMELLO
POMELLO
POMELLO
POMELLO
POMELLO
POMELLO
POMELLO
POMELLO
POMELLO
POMELLO
POMELLO
POMELLO
POMELLO
POMELLO
POMELLO
POMELLO
POMELLO
POMELLO
POMELLO
POMELLO
POMELLO
OOMELLO
POMELLO
POMELLO
POMELLO
POMELLO
POMELLO
POMELLO
POMELLO
POMELLO
POMELLO
POMELLO
POMELLO
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
34
101
101
101
101
101
101
101
4
4
4
4
4
4
4
4
15
15
15
15
15
15
17
1?
17
17
17
17
17
17
22
22
22
22
22
23
23
23
23
23
23
23
32
32
32
32
32
32
32
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
3
5504
4577
4578
4576
4560
45A1
4582
4&I3
5553
5554
5555
5554
5557
5558
5558
5560
<371
4372
4373
4374
4375
4376
3465
3466
3467
3464
3469
3470
3471
3472
6373
6374
6375
6376
6377
1122
1123
1124
1125
1126
1127
1128
4140
4150
4151
4152
4153
4154
4155
3027
3028
3020
3030
3031
3032
3033
3034
3035
3498
3498
3500
3501
3502
3503
3504
3077
I 72
I 43
t 62
t.67
t 60
1 74
1.68
1.57
1 33
1 61
1.50
1.40
1 35
1.44
1.51
1 58
1 38
1 41
1.51
1 58
1 61
1 55
1 17
1 41
1 43
1 45
t 54
1 18
1 44
1.39
I 57
t 62
t 6t
I 63
1 so
1 36
1.42
1.45
1 SO
1 52
1.58
1 62
1 39
1.50
1.53
1 47
1.45
1.80
1 63
1.11
1.53
1 52
1.37
1 61
1.71
1.78
1 75
1 62
1.32
1 58
1 88
1.78
1.77
1 75
172
1 28
30	51
35 07
42.07
35 58
37	SO
4001
35	84
32 28
43	45
38	71
37 88
37 It
4! fit
37 96
36	44
32	27
44	83
40 14
38.05
38.42
35 40
3847
37.50
49 28
37	76
39	47
38	42
37.01
40	44
39.43
38.48
38.18
34 84
34	56
37	43
33	21
31.89
31	22
31.64
35	32
34	21
32	65
45	40
42	99
36	84
41	19
39	92
38	64
36 61
46	81
3521
34	46
¦w 10
33	29
33	79
35	71
34	93
39	88
4381
52.05
32.22
32.57
33 44
33 37
37.48
43	42
29	84
34	89
41	08
35	12
37	53
38	87
34	90
32 14
39	91
37.03
35	63
34 SI
39.53
36.72
31	67
30.06
43.46
38 56
36.77
37.11
34 51
37.72
36	53
36.04
30	61
38	25
3< 57
3575
42.27
3901
26 55
30	39
31.28
3272
32	96
28 16
26 74
25	88
26	18
31	48
30	86
27	43
42	87
39	58
33	58
36	69
37	18
37.66
34	51
41 87
33.37
31.92
35	48
32	46
32	12
33	42
32	90
36	89
4045
43.99
31	68
32.46
33.32
33	18
37	28
41 68
28 83
33	29
40.63
34	92
37	47
38	35
34.79
3209
34 96
36	71
34	21
3437
35	01
31.73
24 86
24	95
4292
37	96
36	29
3649
34	10
37.60
36 39
32.88
25	*7
31 38
28 43
35	65
39	52
38	79
15 07
18 91
21.14
30 36
24 36
10 36
9 42
6 95
934
23 ?9
22 14
17 37
41 83
35.99
33	51
35 16
35	24
36	15
34	26
38.42
32.41
30	92
33 83
31	99
3' .60
32	28
32 80
35	88
38 56
41.56
31	88
32.27
32.44
32	22
36	53
40	89
26 90
3f 03
39 94
34.36
35	36
36	43
34 53
31.83
22	23
16	84
19.71
26	54
28 64
22.83
17.78
17	9^
37	96
27	48
27.29
34	42
30	97
35	42
38	20
24 53
13 06
15 03
17 31
32.71
35 39
34 48
8 24
8 15
934
23	77
12 93
4 33
3 11
2.76
322
17 68
15 59
II 27
3275
27.14
23 75
26	45
28	0«
30.06
31	06
33	00
27.69
22.96
32	12
27.94
3053
31	24
32	24
34	66
34.86
37	80
27	12
30	n
31	11
31 46
3557
38	71
24.44
25 58
36 75
32	7$
34	14
35	29
33.90
31.32
16	67
1« 20
13.'2
16.20
23	33
18.20
53.«3
" * 92
29 51
1554
19 2?
33	17
24	05
31 42
34	55
19	34
822
9 35
12 10
17	96
31	94
25	13
665
551
591
20.74
10 34
3 15
234
1.87
2.1 S
1572
13.46
9.41
23 86
20	20
14.23
22 67
20.09
20	66
21	01
27	67
17	97
18	38
29	58
22	81
25	19
30	75
32	10
34 G6
2? 70
28	56
17 80
26	31
27	88
29.01
34 96
28	68
21 76
1958
30 tt
28	30
26 89
26 84
33 17
30	69
13	97
746
8.23
11.77
19.75
1266
966
7.04
1799
931
891
31	61
1255
2581
33 10
17	«4
821
701
955
14	01
29	24
21 27
564
466
465
18	94
868
2 35
1 89
162
189
14	11
12	59
722
16 16
13	03
642
18.03
15	25
14.05
11 86
24 09
14.31
1226
27 88
16	89
18 97
29 67
31 17
33 55
24 76
24.84
13 89
23	83
21.74
26 22
3179
24	15
20 04
17.76
22	03
23	26
1896
20 89
32 56
30 53
1246
6	78
696
9 23
1791
11	06
8 27
5 42
13 66
7	76
6.02
29 93
784
22 35
32 62
15.65
599
635
6.64
13.06
27 56
20	06
5 12
428
4.06
16.03
8	11
2 10
1.85
1 39
' 1 66
13 22
12.12
871
13 40
10	59
5 77
15 35
12	73
11	14
a 56
21	59
I (.61
9.SS
26.14
13.94
1361
29.39
30.95
32 64
21.63
21.01
806
17.73
14.90
21.72
29 34
20 22
17.16
1445
1861
16.20
12.44
1007
31.44
26.66
1066
606
6.36
701
1566
9 49
8	32
4 11
10.45
4 35
4	32
24 92
5	U
1851
31 76
13 79
456
5	14
698
H 26
24 51
17.95
456
3.93
361
16 36
7.17
1 65
1 22
0 97
1.23
12.77
11 26
5.76
11 76
8.81
4.72
13 19
13	79
881
6	45
19 22
9	35
7	38
23 50
9.99
7.99
26 69
30 56
3076
19.56
18.28
496
14	35
10.96
17.94
24.00
1536
15.80
12 66
16.2 5
14.26
9.69
6 U
30 93
26.17
8.70
5	74
621
6.12
1490
8.78
6	23
3	45
941
4	51
4.01
21	33
4 40
10 99
31.11
1301
4 37
4 91
6 46
10 56
22	65
1702
4	38
383
3 48
1556
6.74
1 23
1.09
056
0.94
1008
9-23
4.52
1005
828
360
1223
9 88
7.91
5	59
17 74
8 19
606
21 77
8 59
634
28	27
30 06
29	23
17 97
16 90
377
1285
9.36
IS 79
2161
1378
14.18
11.61
11 78
837
6	24
8	14
27 26
26 36
9	67
5 54
602
505
13	45
7.99
S.66
3 43
6.17
399
352
17.02
3.S1
14	06
12.17
386
396
444
8.03
6.96
15	49
14.32
425
3 77
3	35
13 94
5 79
1 23
1 09
0 56
098
836
7	74
4	22
909
7.50
3	61
10 98
669
666
4	56
16	34
7.26
5.11
1993
7.55
5.11
27.56
29 47
25 92
•6 05
15 16
3 14
11.05
7.47
12 97
20 76
11.31
7	33	10.0
378	150
2	40	15 0
122	15.0
0	66	15.0
8	14	150
16 19	'50
22 33	15.0
3	63	62 5
086	825
1	28	82.5
104	625
3	90	82 5
2.04	82 5
1 16	825
0	51	82 5
3.66	325
1	86	82 5
1.16	82.5
4	66	82 S
1 03	82 5
5	13	§2 5
372	82 5
1.24	82 S
1.04	02 5
0	93	82 5
2.85	62.S
5.51	82.5
4 67	82 5
4 32	82.5
1	21	62.5
0	53	62 5
034	62.5
3 18	625
1	22	62 S
1	23	825
t 09	825
0 56	82.5
0	98	62.5
334	625
3 11	82.5
199	62.5
2	92	62 5
1	80	82.5
144	82.5
348	825
2.44	82 5
1.64	82 5
0	65	82 5
642	15 0
2.37	15 0
1.03	15 0
6	67	15 0
2.45	15.0
0.62	150
10.00	ISO
1562	150
1045	ISO
682	15.0
2	37	150
1	70	15.0
3	95	15.0
1	79	15.0
2	82	ISO
1443	150
4	31	150
40
40
40
4 0
4.0
40
40
4.0
25
2.8
25
2.5
25
25
25
25
2.5
2.5
2.5
2.5
25
25
25
2.5
25
2.5
25
25
25
25
25
2 5
2 5
25
25
2 5
25
2 5
25
25
25
25
25
2 5
2.5
2 5
25
25
25
15
1.5
1.5
1.5
1 5
1.5
1.5
15
1 5
1 5
15
15
1 5
1.5
1 5
15
1.5
28
15
21
45
26
20
35
44
t5
51
51
5
to
16
16
3S
13
25
79
30
21
35
10
36
41
13
12
16
15
56
10
66
66
15
46
10
41
25
IS
51
8
10
13
33
66
15
15
23
13
20
36
30
33
16
43
21
28
28
58
15
126.567
146.360
142 660
145.360
,44.560
115.780
105.260
91 960
207 011
205	254
206	758
205 664
204 116
216 408
21S 615
203 660
175	733
174 121
166 486
158.862
183.034
160 683
161.344
162.460
162 736
189.483
157 766
153.741
151 706
159 429
267.727
274 643
272 336
255 754
270.656
176.776
185 688
189 642
185.066
176.377
178 456
187 468
176	432
177	360
I807t7
173 544
170 508
181 120
183 962
177 867
192.778
193.632
166.503
182.613
180.122
182660
142 176
175.756
171.115
173752
176.323
162.942
167 476
170.119
147.367
136.666
H-43
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files
Water Water Soil Sell
Sol	Soil	Table Table Honzon Particle
Component Profile tab Dentity	Sod Water Content (volume %) at 'rtdtcaled CapiHary Sixtion	Depth Duration Thickness Diameter
Name	No. No. (9^cc) 3.5cm 20cm 30 cm 45cm 60 cm 8Com 100 om 150cm 200cm 333cm 15Kom (cm) (mo.)	(cm)	foim)
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
11
11
11
11
19
19
19
19
19
25
25
25
25
25
25
25
25
25
25
25
62
3076
3079
3080
3091
3082
3063
3054
3055
3064
5247
5244
5249
5250
5251
5252
5253
5254
5255
5256
1222
1233
1224
1225
1228
1227
'220
3121
3122
3123
3124
3125
3125
3127
3128
3129
2135
2156
2167
2185
2189
2190
2131
2192
2193
2194
2195
2196
7371
7372
7373
7374
7375
737B
7377
3519
3520
3621
3522
3523
3624
3625
3626
3627
3621
3629
2162
1.50
1.59
1.44
1.42
1 81
1 70
'75
1 76
1 78
1 14
1 SO
1 49
1 34
1 3a
I 45
1.53
161
1.63
1 62
1 40
1 54
1.53
1 59
1 62
1.73
1.76
1 32
1.45
1 30
1 48
1.70
1 60
1 75
1 78
1 19
1.47
1 30
1 39
1.47
1 55
I 80
1 50
1 58
1 64
J.77
162
I 75
133
1 46
1 52
1.60
1.40
1 63
1.66
1.07
1 50
1 49
t.36
1 40
430
1.49
1.49
1 56
1 70
1 68
1 30
34 49
34	46
43 93
43	02
39	28
35	97
36	83
36 90
36.02
47.72
36 21
35 78
42.39
40	56
41.72
39 26
39	68
38 60
38 33
41	36
34	14
35	57
36	06
34 86
32 35
32 47
48 79
40	96
48 66
44	97
38.10
44	30
37.41
36.82
37.11
46.71
42.51
41	46
38	50
40	51
2943
36 44
36 66
32.62
31 69
34	85
33.35
48 54
41	S3
4024
37.41
45	33
39	45
36 83
56 07
4041
38	77
43 M
35	54
4.30
41 10
40.35
39	55
38 20
38 12
38.77
34	10
32.27
41.45
39.60
37 62
35	54
35 59
35 60
35.26
43.46
37 97
35 51
41 29
39.59
40.87
37 74
33 76
37	39
38	33
41 06
33 81
35 10
35	79
33	98
31 54
31	65
46 59
39	63
43	90
42.64
35.79
41 29
34	36
33	21
3386
34	30
24 79
29.01
33.99
32	36
28.01
26.37
29	66
25.18
28 56
30	07
32 25
46 93
39 74
39 03
36	24
44	83
38 52
35.52
45.18
3961
36.65
40.85
30 40
4 30
39.70
36.57
37.85
37.06
36	77
37	86
33	24
31.66
4018
3937
36	95
35 50
35.24
35 22
34.69
39	18
37	55
3498
40	51
38	13
40 S3
37 45
37 59
3641
37 34
40	63
30.03
34.17
34	36
33 22
31 49
31 17
46 16
39.52
42 67
4262
35.15
41	14
33 67
33 02
33 54
26 50
17 59
19 48
21	94
22	53
24	03
19 40
22 $4
2336
26 47
25	76
32.10
4564
39	52
35	04
36.12
44 75
36	42
34.93
39 10
3781
32.67
37.05
28 18
4.30
35.13
36 35
35.98
35	65
36	12
37	54
31	86
28.07
39.14
38 31
36 65
35	43
34 91
34 88
34 12
34	40
32	44
30	91
3961
36	50
38	60
36.60
35	69
35.lt
35.99
35 16
21.77
31	19
26 47
25.77
3' .25
30	88
41.93
33	63
43	34
4025
34.45
39	63
33 08
32	16
32	95
1854
12 93
12 66
10 34
10 56
21	30
14 53
1441
16 88
23	74
15.93
31	27
33	42
1642
16 62
3574
44	31
35 84
32.91
31.74
17.13
24	30
34.14
24 24
4.30
24 35
22	05
28 75
34	08
33 55
3569
22	95
24.40
37 99
36 57
35 84
35 34
33	96
34	00
33	55
2961
26 40
25 13
38.31
34	74
35.42
35	17
35 10
34	43
35	26
30 26
17.46
28	51
1832
*8 ^2
30	53
29	77
36	95
23	06
39 »
39	S5
33 40
36 42
32 83
31	27
32	J4
16 00
1C.99
to. t6
6 14
5 97
20.13
11 35
10	85
14	22
21.88
9.73
30.46
27.64
134?
12.24
35.63
40	51
35 04
3V90
27 85
11	87
20.90
31	99
21	64
4 30
19 10
15	72
22	45
33	43
32	09
24 52
1667
17.22
33 96
32 32
29	36
32	37
33	81
33	80
3279
25	85
1826
11.56
35 37
30	35
30 55
26.91
34	10
33	52
34	26
26	10
14 87
25	62
14 24
13.99
29	36
26	69
26 18
21	42
38 00
38	28
30.99
39	02
32 66
30	82
31	79
u 73
10	08
5	93
461
4 81
1900
9 73
6	20
1282
20 72
6.39
26 92
22	63
tC 04
6.73
35.13
37 32
34 04
30.63
24.51
908
18.17
29.20
19 72
4 30
15.63
11	99
1900
32	35
31 38
20.67
11	54
11.03
30.50
26 37
16 40
15 10
33 63
33 62
32 62
23 35
14.49
14.76
33.11
27.27
26.01
1961
32 65
32	06
33	16
23 46
13 34
23 76
12	24
11.It
28 S3
28 31
23.80
1652
37	12
28 33
15.9!
38	66
32 53
30.51
31	59
13.70
943
820
4.12
4	17
*8. <8
6 82
8 42
11.87
19.84
5	17
27 27
20 40
650
722
34	64
35	62
32	99
30.01
22 86
779
16 85
27.89
1626
18.49
13.99
1056
15 07
31.67
26 16
19.35
736
6 62
26	28
24 03
10 94
9 80
33 22
33.20
323!
20.40
10.49
10	26
30 19
22 61
20.63
11.72
30	97
30.65
31	69
20 02
11	69
20 03
10 34
tO 03
27	40
27	61
19	53
12	15
35 60
2077
ate
38 22
32	15
30	26
31	24
1284
8.77
7.56
3.65
384
16.99
786
7.50
10.85
18 72
4.17
25 56
16	93
6 52
5	51
31	72
32	65
30 83
28	03
20	25
6	34
IS 08
25.83
17	49
4.30
tt 89
696
23.40
30.17
29	44
1695
8 02
5	19
24 08
21 99
9.47
806
3285
32 60
31 89
17.95
8.90
8	56
28	46
20.82
18.22
902
29	78
29.55
30	56
18	24
10.92
17 45
954
9	33
2682
27 11
16 64
10 85
13	48
18.69
6	69
37 75
31	70
29 98
3C.48
1237
837
724
352
360
1631
7	4!
7 03
10 35
16 02
3.96
24 39
15 12
554
4.73
29	03
30	21
27 74
26	94
19	30
5	72
14	23
24 84
1601
4 30
It 46
6	33
16.50
28.77
27	55
16.56
4.70
4.05
20.72
19.06
726
627
30 66
30.82
28	64
1691
6 78
6.21
25	54
18 22
15 18
6 17
27.80
27 91
29	32
15 33
9.50
12	13
8.25
7.76
24 43
26	93
14.45
969
26	60
16.07
5.05
36 32
29 14
26.12
19.40
11 52
780
6	60
3 16
3	18
14.99
663
641
8 95
17 01
321
22.77
13	03
4	67
3.95
24.96
27	44
26 73
24 73
17.15
482
12.34
23.20
1508
18.49
10 27
7	27
10 61
2557
24 70
10 95
166 150
1.64 15.0
431
354
15.0
150
0.93 15 0
0.63 15.0
1054 150
10.56 150
968 150
4 42 15 0
1 08 15.0
095 150
4 49 150
4	06 150
252 150
0	63 15.0
977	150
1082	150
13 66	15.0
5	63	15 0
3.20	150
4 57	15 0
372	150
3.21	150
1046	15 0
12 78	15 0
6	82	15 0
2.44	15.0
4	76	15 0
3.60	15 0
1.60	150
11 39	15 0
8 98	15 0
8 07	15.0
5	94	15.0
6	59	15.0
358	150
2.00	150
1	38	15.0
t 57	15 0
542	15.0
2.97	15.0
3 07	15 0
292	15.0
8 60	150
0.70	15.0
14.09	15.0
3 76	15 0
0.93	150
0.18	15.0
4.70	15.0
584	15 0
901	150
9.03	150
5.41	15 0
1.32	150
3 34	15 0
8.69	15.0
6 31	15 0
18 49
432
15.0
15.0
3 06 15.0
3.98 15 0
8 40 150
1287	ISO
1.5
1.5
1.5
15
1 5
1.5
1.5
15
15
1.5
1 5
15
15
1 5
1.5
1.5
1 5
1 5
15
t 5
1.5
15
15
15
1.5
15
1.5
1.5
1 5
15
1.5
1 5
1 5
1.5
! 5
1 5
1 5
15
1.5
1 5
1 5
1 5
15
1.5
1 5
1.5
1.5
15
1 5
1.5
15
15
15
1.5
1.5
1.5
1 5
1.5
15
1 5
15
15
1 5
15
1 5
1 5
23
10
15
10
39
2
20
51
15
15
15
15
15
15
15
15
15
15
13
40
11
10
36
28
63
15
13
15
10
49
20
16
50
13
5
8
10
18
33
12
13
10
15
26
25
26
10
15
26
16
56
33
43
15
26
8
5
2
8
10
46
10
59
12
13
138 647
140 403
132.966
134 255
142.672
139.326
130 969
102.142
118.948
116421
131.659
124 442
111.239
114 674
121.848
123996
101 143
100.916
105 860
261 138
245 845
244 010
270 421
257	065
234 665
227 629
131.537
136.742
140.703
131.469
131.572
136 363
104 162
118 475
119.655
312 921
324 260
311.177
306.000
239 972
273 117
281 848
290 317
277 756
265 84S
258	271
187 6S2
179 516
182 706
183.260
160.906
167 355
151 317
153.905
142.069
146.757
148 256
136 661
135 907
144.716
147.206
151 030
156597
134.631
133 701
253 526
H-44
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files



Water
Water
Soil
Soil
Soil
Soil

Table
Table
Horizon
Particle
Component
Prolie tab Density
Soil Water Ccr.tefrt (volume %) at Indicated Cap-Harv Suction
Depth
Duration
Thickness
Diameter
Name
No. No. (^ce)
3.5cm 20cm 30cm 45cm 60cm 80cm 100cm 150cm 200cm 333cm
15K cm (cm)
(mo.)
(cm)
(um)
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
»OMONA
POMONA
^OMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
POMONA
PCTTSflURO
POTTSfiURG
porrseuRG
POTTSBURG
POTTSB JPG
POTTSBURG
POTTSBURG
POTTSBURG
POTTSBURG
POTTSBURG
POTTSBURG
POnSBURG
POTTSBURG
pottsburg
POTTSBURG
POTTSBURG
POTTSBURG
POTTSBURG
POTTSBURG
POTTSBURG
QUARTZJPSAMENT
QUARTZ1PSAMENT
QUARTZJPSAMENT
0UART21PSAMENT
RE 0 BAY
RED BAY
R£0 BAY
RED BAY
REDBAY
RED BAY
REOtEVEl
REOLEVEL
REXfVEL
12
63
62
62
62
62
62
62
W
69
69
6ft
60
69
72
72
72
72
72
72
72
79
79
79
79
79
to
10
10
10
to
10
10
10
n
11
ii
15
16
IS
15
15
15
9
9
9
9
26
26
26
29
26
26
2163
2(64
2165
2166
2167
2166
2169
2170
2171
2508
2509
2510
25)1
2512
2513
2514
2515
2530
2531
2532
2533
2534
2535
2536
2744
2745
2746
2747
2740
2749
2750
2751
2752
4602
4603
4604
4605
4606
4607
4608
4609
1993
1994
1995
1996
1997
1098
7737
7766
7789
7790
7791
7792
2770
2771
2772
2773
1900
1901
1902
1903
1904
1905
4678
46?9
4660
141
1 57
1 39
1.36
1 St
1 65
1 62
1 67
1 66
1 39
1 49
1.51
t.1?
1.47
1.5?
1.73
1 62
1 46
1.57
1.62
1 60
1 69
1 77
I 75
I 4*
1 f-1
146
1 51
1 64
1 67
) 72
1 62
1.70
121
1.42
1 46
1.46
t 49
1.54
1.56
1.57
1.21
1 26
1 41
1 32
1.31
1.47
1.50
1.57
1.61
1 60
1 52
1.60
1 47
1 50
1 50
1 5$
1 93
I 62
I 63
1 64
1.76
1 76
I 40
146
162
47 13
40.66
36	54
43.66
39.65
39	77
13.24
31	43
35	73
34	65
47 19
37	66
43	49
5047
40	75
36	29
35	33
42	10
44	66
39	15
36.21
40	07
34	44
33.16
33 18
37.94
35	03
36	66
36 20
33.56
32	76
33	74
39.34
43.91
43	42
41	04
40	89
45	96
43 89
38	39
41	OS
49 37
51 99
47 52
44.15
45 II
41	09
44.17
36 43
36 63
35	32
2426
36	36
42	00
42.00
37.05
35 63
35.04
38.66
34	03
36.91
33.66
35	47
41 12
39.06
36.06
33	26
34	07
33	38
36.26
31	09
38	01
29	93
26 97
32	92
32	96
41	94
34	03
40	64
3991
37	26
33	63
33.18
39	96
42	65
35.61
33.39
38	90
33.22
32.70
32 70
32 85
3249
38	63
34	67
32 01
30	72
32 2t
37.97
42	24
41	35
39	45
39 13
44 (3
3661
36	21
36.94
47 52
46 11
43	45
38 79
36.44
32 66
41 72
33.16
3651
32	84
23.10
37	54
31	00
33	42
27 23
30 89
32.17
3502
3274
33 74
32	43
32	26
33	24
3267
34	33
25	35
23 21
22 26
33 06
26	72
33 14
2466
26	60
31 98
31	43
40.14
33 C6
40 22
37 59
34.74
33 49
33	07
39	75
40	83
32	66
29	91
36 79
31 96
31 31
31	31
27	31
32	47
36	36
34	78
32 13
30	96
31	67
37	12
40.32
39 37
37 43
36.79
39 92
37 62
35	61
36	03
4649
47.51
42 86
37.68
35.67
32	09
2a 80
20	62
24 29
24 66
21	96
34.15
U 81
13.56
13 24
20 67
30	58
3341
32 35
32 26
31	30
31 22
26 24
2647
34 17
19 70
15'19
13 63
23	42
24	91
27.50
16 10
22 63
31 12
30.78
30.36
26	63
27	87
33.41
31 02
29	11
31 17
36.47
25	86
18	78
16 43
36	38
27.17
24 62
24	62
13 56
19	02
34	95
32.40
30	2B
25	69
30.69
33.90
30.75
31	31
27 97
27.26
35.93
33.36
35	00
34.'6
29	23
30.53
37	56
18 45
20	13
18	66
1607
11	35
1506
12	34
i860
21	85
7 49
532
634
? 50
26	33
31 51
31 57
31 13
31.19
30	65
19	59
20.03
18.80
17	24
1222
10	97
25 60
2251
24 30
12.24
20 36
29	42
28.99
21.91
!6.72
20 56
30.31
28 15
2* 26
30	56
38 14
19 30
12	31
11	39
31	62
22 62
16 10
18	10
13	15
13	69
31	56
25.61
22 09
19	63
29.61
28.72
24.88
24 03
2* 52
21.06
33 49
31.45
3371
32	36
16	13
1663
18
12.39
10 17
8 76
1293
9.10
1206
8.75
17	19
1704
606
4.90
469
558
2203
29	73
31 06
30.33
30	33
30 50
14	21
14.51
12.75
1536
10 47
8	73
23 61
20	92
22	11
999
16 67
26 49
27.65
17.02
H 71
16 54
27.22
21	99
19	42
29 80
37 64
'623
9	99
8	53
28	65
1899
1345
13 45
9	97
9.96
23	94
22	15
16.33
12 40
29	27
23.57
20	01
19	92
16 14
17.79
31	99
30.17
32	28
31 31
11.97
1276
1264
9.73
8.53
568
11.00
7.91
1025
6 96
<6 07
14.74
5 55
4 52
406
4 35
20	17
28	44
30	65
29.50
30.18
29	69
11 63
H 66
1C 48
14 49
9 63
7.91
22 47
20 61
21.06
895
17 70
27	72
27.01
1554
9 76
14	98
25	66
16	78
17	16
29	15
37 26
14.75
7.03
739
26	92
1738
9.73
832
7.67
644
27.10
19.75
1393
10 27
28	54
21.08
18	07
16 08
1647
15	75
30	95
29	32
31	S?
30	29
9.99
10.97
10 53
651
5 10
373
9.96
7.11
9.18
546
15.57
14.11
5	25
4.31
3.96
3 89
19.07
27	60
30 20
28	80
2967
29	25
10 44
10 47
6	75
12.90
8.09
6 43
20.41
18	27
19	16
7.07
1594
26	32
2586
12 65
6 22
12	15
22	82
16 57
13	04
27	96
36 56
12 C5
6 67
5.33
23	78
1445
627
8 27
659
565
23 77
1540
9.56
8	40
28.06
17.26
16.74
15 81
14	57
14 12
28	78
27	49
30 78
28	43
6 76
9	23
8 41
720
3.84
321
864
624
7.66
4.45
14.66
U.63
507
403
366
332
17.10
25 62
28 83
27	19
28.54
28	24
893
888
728
11 87
754
5.M
1941
1763
17 60
6.61
1531
2561
24.93
11.95
551
11	23
21	67
15 58
12	IS
27 33
36 20
11 27
6	18
506
22	59
1336
7	87
7 57
5.97
4 95
22 16
14 36
626
539
27 44
16.16
15.57
U 34
13	33
12.97
27	32
2391
28	08
24 36
697
7 74
7	22
630
3 14
2	65
3	07
5.67
672
3 85
14.0©
1091
469
3.72
3.32
294
16 10
24.82
27 96
26 52
26.04
27.36
8	65
7.82
6.36
6 73
5.28
5.64
16 52
15 84
S 61
860
14.60
21.41
10 51
4.51
5.11
10 44
13.60
10 24
12 IS
27 83
32 55
520
4.29
5.06
12 20
8.25
543
5 43
4.33
4	95
12 48
664
4.36
5	39
14 47
12 78
14.06
12 60
1168
11.54
25 14
21	34
22	94
23	39
629
6.96
606
5.36
2.55
250
7.01
4.77
543
3	25
10.18
10.14
4	25
323
3.06
2 48
13.76
23 34
26.70
25 21
26.63
26.24
6.76
6.70
546
124	15 0
0	85	15.0
381	15.0
6.96	150
501	150
1	35	15 0
6 50	150
10.97	15.0
9 35	15 0
3	86	15 0
2.19	150
2	16	15.0
4	57	15.0
5	37	15 0
281	150
12 15	150
27.63	15.0
5	27	15.0
2.65	15 0
1.68	15 0
5.06	ISO
6	42	15.0
1.98	15.0
189	15.0
2	23	15 0
1.75	15.0
495	15.0
3	05	15 0
1 90	150
0	99	15 0
5	39	15.0
6	56	1 50
4	83	15 0
1.66	30.0
1	83	30 0
1	65	30 0
1.61	300
261	300
3.67	30 0
2	66	30 0
2.63	30 0
2 33	30 0
1.83	30 0
0 90	30.0
0 79	30.0
1.46	30 0
0.22	30.0
0 47	30.0
0 14	30 0
0	58	30.0
1.60	30.0
2 81	1500
2 22	150 0
2 09	150.0
1	32	1500
6 99	160.0
15.70	160.0
1977	160.0
17 65	180 0
19.73	180.0
19.55	180.0
2	81	75.0
2.12	750
1.73	7 50
15
1 5
1.5
15
15
1 5
1.5
1.5
1.5
15
1.5
1J
1.5
1.5
1.5
15
15
1.5
1 5
1.5
1.S
1 5
1 5
1 5
1 5
1 5
1 5
1 5
15
1.5
t 5
1 5
15
4 5
45
45
4.5
45
4.5
4.5
4 5
4 5
4 5
4 5
45
4 5
45
4 5
4 5
45
45
4.5
45
20
2.0
2.0
20
30
3.0
3.0
10
18
10
10
20
28
10
56
38
10
31
5
7
11
40
41
45
15
13
46
15
13
40
61
ia
38
5
7
13
31
40
38
26
20
18
51
18
23
32
3)
10
6
17
31
30
59
58
16
18
20
76
15
56
13
30
56
104
23
18
40
43
31
46
8
10
20
256 5*6
247.596
220969
233 546
239 378
251.069
211.096
194 971
222	191
196 260
202.870
196 460
193 950
200 270
199	500
157 560
140 770
253 120
235 110
235.670
223.190
219820
224 860
165 540
227 370
220 290
203.700
207 230
217 200
213.770
178.720
200	060
210 640
226 246
225916
223	637
230 965
232 890
249 033
242 496
23S 361
147,709
146.741
148 666
150.690
154.835
153.861
339 609
318 906
308.677
311 363
279.914
304.913
329 855
323 561
319.922
306 864
192.694
179 546
177 915
186 455
190137
215 151
203 578
19S.605
200.646
H-45
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files



Water
Water
Soil
Soil
Soil
Soil

Table
Table
Hottzon
Particle
Component
Profile Lab Density
SciJ Water Content (voijme *) al ndicated Capillary Suction
Depth
Duration
Thickness
Diameter
Name
No. No. itftc)
3.5 cm 20 cm 30 cm 45 cm 60 cm 80 cm 100 cm 150 cm 200 cm 333 cm
15K cm 2.46
11 09
1019
REDLEVEL
1
4663
1 59
34 96
32.76
32 06
25 21
1901
15 65
14 36
1246
11 41
RIDGELAND
8
1536
1.18
52 96
5102
46.43
32 56
26 95
2276
20 30
17 76
15 66
RIDGELAK0
5
1537
1 32
45 23
43 1?
41 47
32 92
27 37
23 79
21 73
19 11
17 07
RlOGELANO
5
1536
1 54
42 80
42 60
42 61
40 80
30 74
1665
13 75
<1 33
9 46
RtOGEUND
5
1539
1 50
4347
4312
4306
42.01
3641
31 94
28.34
24 51
21 97
RIDGELAND
5
1540
1 51
44 25
43.62
42.96
40 49
3451
29 13
26.70
23 19
21 23
RID6EW000
3
7149
1 55
40 29
34 10
29 51
16 22
10 51
8 18
736
622
5 59
RIDGEWOOO
3
7150
1 52
40 16
34 24
28 66
16 63
10 83
8 46
755
627
561
RIPGEWOOO
3
7151
1 54
39.94
32.99
29 02
12 78
631
6 55
5.90
5.04
4.55
RIDGEWOOO
3
7152
1 56
35 46
31 32
29 46
14 27
762
5 74
529
4.76
445
RtCGEWOOO
3
7lS3
1 62
35 00
25 15
19 52
884
5 37
371
350
3 16
2 89
RIDGEWOOO
16
6912
143
45 23
41 22
37 35
23 24
14.20
10 56
8.71
7.23
6 16
RIDGEWOOO
18
8913
1 54
41.06
37 37
32 42
19 33
10.91
8 03
6 59
535
465
RIDGEWOOO
18
6914
1 59
38 36
36 89
33 74
27 57
24 07
6 47
5 14
394
3 14
RIDGEWOOO
18
6915
1.75
34 40
33 33
33 03
27 00
22 9'
20 S2
16 21
4.51
360
RIDGEWOOO
18
6916
1.75
34 01
33 90
31 70
22 53
20.24
19 48
19 02
1865
295
RlVERVlEW
36
2040
1 24
49 99
37.19
36.85
34.97
32 28
29.19
26 25
22 44
20.55
RIVERVtEW
36
2041
1 56
39 95
34 17
34 47
33.57
32 11
29 41
25 96
21 92
1965
RVERViEW
36
2042
18!
40 45
34.37
34 64
34 13
32.01
27.78
24 25
20 20
1795
Overview
36
2043
1 50
44 42
4C90
40 92
40 33
36 40
36 31
34 53
32 26
30.78
RlVERVlEW
36
2044
1 53
42 92
36 11
37.00
37 .S3
36 72
32 92
29 84
25 83
23 24
RiVERV'EW
36
2045
1 55
98 22
35 56
35.6t
35 06
33 97
31.16
30.33
25 67
2292
RlVERVieW
36
2046
1.54
35 90
34 85
34 90
34 69
33 75
31 64
28 86
22 78
19 87
RVERV'EW
36
2047
1.53
40 12
36 12
35 46
35 06
34 55
33 21
29 73
24 65
20 36
RiVERVIEW
36
2048
1 51
39 54
35.09
3421
34.01
33 43
31 36
27 23
22 51
22 09
RIVIERA
5
7043
1.42
41 33
40.92
40 21
37.31
28 72
21 05
1833
14 22
12.81
RIVIERA
S
7044
1 SO
37 53
37 28
37 15
29 32
20 90
14 44
H 43
8 07
7 24
RIVIERA
S
7045
1 52
39 35
36 79
37 56
32 30
24 92
1353
9 33
6 28
520
RIVIERA
5
7046
1 82
33 56
32.97
32 36
2983
25 14
1806
13 95
1020
8 98
RIVIERA
5
7047
1.80
34.20
33 66
33 57
32 88
32 CI
28 22
25 16
21 76
19 86
RIVIERA
5
7048
162
37 96
37 63
37 54
37 43
37 06
36 46
35 70
33 22
23 69
RIVIERA
5
7049
1 59
34 29
34.03
3393
31 91
27 22
23 24
20 57
17.28
15 32
RIViERA
5
7050
1 50
38 67
38 16
3a 11
37 52
34 66
28 58
24 36
1978
17 13
RIVIERA
15
1320
oaa
6331
61 46
GO.95
59 33
58 S3
56 83
55 21
5} 76
48 57
RIVIERA
15
1321
1 49
45 79
41.02
40 80
3741
32 86
26 39
2421
20 25
15.83
RIVIERA
15
1322
I 51
33 66
33 15
32 87
27 42
19 55
11 35
666
3 97
3 57
RIVERA
15
1323
t 52
36 62
37 60
37.52
37 49
31 56
1341
7.86
4 65
4.30
RIViERA
15
1324
1 58
39 02
38 22
37.39
37 56
32 26
18 53
16 45
12.66
1C75
RIVIERA
15
1325
1 63
37.79
37 61
37 29
37 09
36 87
36 26
35 76
3S.57
3551
RIVIERA
15
»326
1 75
34 52
34 31
34 21
34 14
33 99
32 90
32 46
31 96
31 94
RIVIERA
15
1327
1 75
34.98
34.72
34 04
34 57
34 07
33 29
33 34
3242
31.85
RIVIERA
15
1328
1 87
35 21
35 00
34 78
3473
33 65
33 47
33 23
32.06
30 20
RIViERA
18
2249
1 38
43 93
39 3d
39 27
35 62
34 45
32 90
32 26
31 «5
29 99
RIVIERA
18
22SO
1 45
38 57
34 57
34 24
32.14
24.06
13 53
11 34
9 70
9.12
RIVIERA
16
2251
1.60
38.10
33 81
31 99
25 24
16.58
14 26
12 14
10 15
9.50
RIVIERA
18
2252
1.67
42 68
40 86
39 34
36 96
36 57
37 36
36 67
35 51
34 33
RIVIERA
ta
2253
159
38 03
35 28
33.19
32 04
30 75
28 63
27 55
26 34
25 26
RIVIERA
18
22S4
1 62
39 95
36 23
34 43
32.66
31 07
28.90
28 04
26 34
25.10
RtViERA
16
2255
1 61
43 86
40 47
36 69
36.41
34 37
32 15
31 23
29 55
28 18
RiVIERA
18
2993
1.37
44 99
42.76
41 74
35.10
21 71
12.74
955
7.05
655
RIVIERA
18
29M
1.S0
37 44
36 02
3556
31 66
18.83
11 30
806
566
506
RIVIERA
18
2995
1.54
41 47
40 36
39 92
37 45
23 62
1250
8 59
6 32
5 73
RIVIERA
18
2996
1 59
38 75
37 22
37 13
36 45
29 87
16 84
1542
11 59
10 32
RiVIERA
18
2997
1.61
41 53
40.14
39.70
39.49
38 65
36 22
37.82
35 74
35 08
RIVIERA
18
2996
1 62
40 22
37 53
37 46
37 34
36 39
34 69
32 42
28 07
2667
RIVIERA
16
2999
<64
39 86
37.35
37 03
36 96
36 12
34.16
32 39
27 66
25 15
RIVIERA
21
2447
1.33
38 23
33.16
2V79
13.17
10.33
8.14
7.45
6.19
586
RIVIERA
21
2448
1.54
39 40
34.26
22.32
13 89
10 36
638
7.56
695
636
R:VIERA
21
2449
1 63
34 20
32.19
22 60
1056
7 18
6 10
546
4 91
4 36
RIVIERA
21
2450
1.72
33 50
29.91
27 74
24 &4
22 03
18.31
1531
12.85
11 22
RIVIERA
21
2451
1.77
36 86
34.21
33 47
3337
31 96
31 69
31 44
31.03
30.39
RIVIERA
21
2452
1.70
35 22
34 10
28 06
18 94
14 17
11 56
10 39
8 80
7 93
RIVIERA
21
2453
1.75
34.13
31 49
31.15
30 44
29 72
28 80
28.09
26 29
25 03
RIVIERA
21
2454
1.71
34 86
32.56
3227
31 51
3C.46
29 84
2961
27.55
26 86
660
667
994
1366
14 96
8 29
19 26
19 52
4 32
4 45
328
346
2U
545
3 94
2	70
3	10
2	33
18.15
16.71
14 89
26 67
20.61
1975
16 66
16 05
16.01
<0 44
564
3	69
7 23
17.79
26	20
13	17
14	54
43 <3
15.34
296
3	27
9.16
33 50
29 72
30.S0
27	14
27 99
#50
1.75
32 72
22 39
22.45
27 11
563
4	10
4.71
855
3366
22 34
21 65
366
586
4 17
9.77
29.63
690
23.03
24.62
2.61
750
3.0
26
201 240
392
75.0
30
41
184 163
4.02
75.0
3.0
33
166.205
4.26
800
3.0
15
147.264
392
600
30
26
144 416
2 68
600
30
36
149 112
3.56
600
30
20
150 904
234
60.0
3.0
104
154.715
0 67
62 5
30
15
239 363
1.08
82.5
30
49
235 029
0 63
62.5
30
36
241.400
056
625
30
50
236748
0 16
62 5
30
51
237.779
1.82
625
30
10
246 637
111
625
30
51
260.001
0 72
82 S
30
33
265 334
0 53
82.5
30
63
251 495
033
62.5
3.0
46
295 938
6.05
1203
2.0
13
37 896
7 52
1200
2.0
12
96 825
6.57
120.0
2.0
18
98 769
16 59
1200
20
36
78 331
10 56
120.0
20
28
89.800
863
120.0
20
17
95.415
725
1200
2.0
26
96 655
800
1200
20
74
76456
657
120.0
2-0
15
130.946
3.01
7.5
3.5
15
130.466
072
75
35
26
140 3SO
040
75
35
21
140 175
2.71
7.5
3.5
7
132.530
6 02
7,5
35
16
116 433
11 92
75
35
41
107 817
4.94
7.5
3 5
35
120 811
5 73
7.5
35
38
122 547
11 04
75
35
15
121 822
11.67
7.5
35
10
139516
1.74
75
35
28
136 174
1 40
7 5
3 5
28
137 616
5 83
7 5
3.5
5
97 551
15 57
7.5
35
36
102 263
13 37
75
35
36
112 132
15 26
75
3.5
34
109 230
11.29
7.5
3.5
43
118 399
3 74
7.5
3.5
13
193 126
063
7 5
35
23
196 865
3 It
7.5
3.5
22
191 809
16 80
75
35
54
165.301
652
75
35
25
185.640
682
7.5
3.5
46
t96.9M
19.11
7 5
35
20
143 266
3.55
00
25
10
150.403
1.97
0.0
25
33
146 937
092
00
25
36
150 446
1 75
00
25
12
147 102
14.92
00
2.5
16
120.762
8 46
00
2.5
35
142.066
8.00
00
2 5
81
141 245
1.49
7.5
3 5
1
336.530
345
7.5
35
9
329618
1 30
75
35
23
310.S20
2 03
7 5
35
23
303.900
11 65
7.5
35
22
262.635
1 80
7.5
35
36
313996
1227
7.5
35
54
274.750
12.52
7.5
3.5
35
223.982
H-46
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files





Water
Water
Soil
Soil
Sod


Soil

Table
Table
Horizon
Particie
Component
Profile
Lab
Density
Soil Water Content (volume %} art Indiealed Capillary Suction
Depth
Duration
Tfl>CkA*S9
Diameter
Name
No.
No.
(e'CC)
3.5cm 20cm 30cm 45cm 60cm 80cm 100cm 150cm 200cm 333cm
l5Kcm (cm)
(mo.)
(cm)
(Mm)
RIVIERA
RWERA
RIVIERA
RIVIERA
RIVIERA
RlVlEFUk
RIVIERA
RlViERA
RIVIERA
RIVIERA
RIVIERA
RIVIERA
RIVIERA
RIVIERA
RIVIERA
RIVIERA
RIVIERA
RIVIERA
RIVIERA
RIVIERA
RIVIERA
RUTLEGE
RUTLEGE
RUTLEGE
RUTLEQE
SAMSULA
SAMSULA
SAMSULA
SAMSULA
SAMSULA
SAMSULA
SAMSULA
SAMSULA
SAMSULA
SAMSULA
SAMSULA
SAMSULA
SAMSULA
SAMSULA
SAMSULA
SAMSULA
SAPELO
SAPELO
SAPELO
SAPELO
SAPELO
SAPELO
SAPELO
SAPELO
SAPELO
SAPELO
SAPELO
SAPELO
SAPELO
SAPELO
SAPELO
SAPELO
SAPELO
SAPELO
SAPELO
SAPELO
SAPELO
SAPELO
SAPELO
SAPELO
SATELLITE
27
27
27
27
27
27
20
2S
29
2ft
28
20
2ft
31
31
31
31
31
31
31
31
2ft
2ft
28
2ft
7
7
7
17
17
17
17
17
27
27
27
27
27
27
27
10
10
10
10
10
10
to
19
15
15
IS
IS
15
15
15
15
21
21
21
21
21
21
21
21
5704
5705
57®4
S707
5780
5788
5790
5791
5782
5783
5794
5705
5TM
3838
3839
3040
3841
3042
3043
3844
3845
4740
4747
4748
4740
0090
0099
8100
6101
5020
5627
5620
5«29
5030
3780
3709
3790
3791
3792
3793
3794
5903
5904
5985
5900
5907
5988
5989
2024
2025
2020
2027
2020
2029
2030
2031
2032
0700
6701
6702
0703
6704
6705
0700
0707
3190
1 SO
145
1 07
1 05
* 83
1 70
1-25
1 20
1 43
1.59
1 63
1 72
1 02
1 10
I 40
1.40
1.07
1.00
2.09
2.01
1 84
1.84
1.00
1 80
172
0.32
0.23
1 40
102
0 25
0	12
0.15
141
1	47
0 23
0	11
0.17
C 27
150
1	Si
1 61
1 17
1.91
1 51
1.50
1.00
I 09
1-02
t.17
1.40
1.40
1.20
1.23
1 40
1.40
103
1 40
0.99
1 40
1 50
1 01
1 47
1 55
1 01
1 62
1 09
37.34
41.03
31.42
35 00
32.91
31.90
40.79
4500
39.06
3541
33	40
37.30
40.22
40.79
S4.11
30	37
37 71
39 10
39 06
42 86
41 fle
34	04
3387
33	77
31	58
79 50
06 17
47.00
30 00
73.71
90 30
89 93
42.13
41	44
00.71
95 10
93 13
89.23
42.32
39	18
30 64
30.33
52.19
30 40
35	<5
41.19
37 34
34	02
5335
42	99
42	45
47 23
51 04
43	43
4200
30 03
40	25
55 00
42 76
30	22
63 90
44	S3
42 35
41.50
31	00
30 07
33	11
39.93
30	50
34	80
31	39
31.09
41.S4
30	92
37.71
33	47
31	72
35	44
37 S3
30 74
43 79
37 37
30	07
37 44
37.70
41 10
40 05
32.12
32.07
31	89
31 19
74.03
79.54
45.20
34.97
07.92
07 46
80.54
37.50
37 13
84.17
00 74
09 75
80.40
41.44
37 76
37 40
3043
40	24
37 33
34	00
40.50
30 14
34 04
46 09
41	60
40 80
4533
49	90
42.90
40.00
37	31
45.71
50	40
41.01
37.97
02.43
42	23
38	57
3997
30 33
30 19
29	S2
31.99
3012
34	33
31 34
31	77
3590
33 40
32	S3
33	30
30	90
3540
37.40
36	74
30	7#
37	12
35	76
37 22
37.14
40.85
40	22
31	20
31.10
30.79
30	00
72.00
78 08
44.71
33.72
05.05
86 24
85 18
35.72
35	09
31	40
00 44
08 18
32	70
39 03
37 50
37 19
31 12
45 09
36	50
33	S3
4035
35.90
33.84
45 00
41	24
39 05
43 02
49.04
42.63
40.20
30 20
45.03
45 99
39 90
37	02
01.72
41.08
37.53
38.00
29 27
29.94
23 03
20 73
20 37
33 37
29 31
31 09
29	43
28	23
23 40
17 01
16 84
33 09
37 34
1600
3! 08
26 40
26	07
36.14
30	37
39 50
30 30
30.00
29.07
29	14
20 07
70.43
76.33
41.40
1999
01 79
04 27
63 69
30	63
30 25
78 00
70 87
06 34
00	07
3379
22 05
22 72
12.77
44.(6
33	70
27	92
4021
35.31
33.72
30.54
30.50
25.36
41.52
3001
35.66
29.72
34	40
44 31
37.29
35.07
35	87
01	00
40 12
35 94
37 05
28	09
29	06
IS 30
15 25
1393
32 32
2074
30.57
26	20
2531
1630
1000
11.33
32.94
30 30
055
22 49
16.39
14.51
34	52
35	44
37.49
36	08
29	21
20 97
27	66
25 61
69 19
74 77
37	56
12 73
50 99
82 49
01 05
27	00
20 98
76 71
63 97
04 6S
77.03
20 70
15 81
1353
0.70
41 09
25	67
20 04
39.70
20.07
33	01
30.07
19.09
*5 40
38	31
2371
28	52
17.79
34	00
43.92
30	60
22 67
1769
50.59
37 28
34.17
35	85
26	49
29	32
1595
1249
804
31	34
2034
29	04
24 25
23	44
12 70
0 09
691
32	00
*4 69
6.40
17 05
11	42
8 59
33	02
34.03
34	06
33 07
20 34
27.00
26 88
24.09
00	15
72 96
28 56
7 70
5513
80 70
79 97
24	82
24	23
74 65
57 97
01	79
74 97
22	35
12	13
8.90
6.90
30	03
19 36
15	00
39	17
16	88
32 34
23	70
11.79
9 83
31	42
1901
20.01
10.74
3201
43 24
20.09
1542
11 02
40	21
32	09
32 79
34 02
25	06
29 01
1450
11.00
7.00
30	57
27 32
20.05
22	50
21	75
10.94
5.17
556
32 23
32 42
563
10 42
1029
7 34
32	95
31	60
29 91
31 08
27 71
27	21
26 49
23	07
00 33
09	90
23 00
551
54 70
79 40
70.24
23.07
22	45
72.71
51.00
77 33
71.90
20.15
10	55
7 60
0 10
33	54
16	65
12 45
37 27
1580
31 18
21.11
9.41
743
20 03
17	00
1603
8.01
32.00
43 23
24.10
12 47
0 12
43.71
20 03
31.54
3307
2400
28	50
1334
901
0.27
29	20
20 23
27	39
2002
20 19
931
4	31
4.05
31.30
28	07
4.22
14.10
8	23
507
30	00
30 90
28	60
27 69
26 50
26	30
2541
22	78
03	63
05 10
18 30
3.91
50.44
77 03
T5 10
20 40
19.84
69 14
40 50
74.70
65.30
17.07
0 97
5.97
4.01
27	50
11 73
700
33 01
9	03
29	00
17 94
002
5	11
23	50
1S0O
13 32
6.52
30	05
27.20
20.98
973
004
39.97
23 25
29.09
32.00
22.32
27.50
12 50
8.00
523
20 00
25 36
30-20
18.10
1091
038
351
3.77
30.70
25.07
3.55
13.24
7.40
430
29 52
29 M
2701
28 32
25.72
25.57
24	78
22 13
62 28
01 79
10 42
3 00
40 54
75 09
71 20
10 59
17 60
06.50
45.43
71 00
00.35
1529
020
540
421
25.70
10 10
0.42
30.13
009
20	94
1000
021
450
21	05
14 70
12 14
590
2077
25	84
19 42
050
5.13
37.92
21 00
20.03
31.44
21 02
26	91
11 52
7.92
441
20 32
23	40
24	34
17.10
17 24
7.45
297
300
20.72
22 34
3.55
053
3.77
436
20	30
23.09
21	91
17 85
24.93
24.42
2390
20.90
50.99
53 40
13.52
353
47.00
70 31
07.01
15.10
14 85
61 94
38 50
00 94
50.44
12.20
6	43
5 19
4.21
8.15
529
0.07
0.47
7	93
24 93
U.33
403
344
10.10
11.32
1020
4.70
25.04
2218
10.59
069
402
34 75
1700
26 46
20 87
17 51
19 37
4.40
2.04
1 04
1051
7 89
929
490
4 67
75
75
7.5
7.8
75
7.5
0.0
0.0
222	00
0 29 0.0
0 30	0.0
1017	0.0
646	0.0
355	35
1 51
096
4 30
14	51
12.40
11 00
10 25
17 12
10.05
16 57
15.29
0.00
4 74
320
1.03
0.52
3 07
3 30
1.27
1.21
15	52
7 09
540
7.14
35
3.5
35
35
35
3.1
35
00
0.0
00
0 0
00
0.0
0.0
0.0
00
00
00
00
0.0
00
0.0
0.0
00
2	49	0 0
1 83	0.0
3	62	O O
421	150
1.65	15.0
1	12	150
3.45	150
0.70	15.0
0.73	15.0
6 55	15.0
534	30.0
1.95	30.0
2	24	30 0
5.30	30-0
1.50	30.0
12.42	300
9 75	30 0
8.11	300
1 03	30.0
0 89	30.0
1100	30.0
9 45	30.0
14 90	30 0
1425	30.0
35
35
3.5
3.5
35
3 5
2.5
2.5
25
25
25
2-5
25
35
35
35
35
3.5
3.5
3.5
3 5
2.5
2.5
2.5
25
00
60
60
00
0.0
00
00
0.0
0.0
60
0.0
00
00
0.0
00
60
4.5
45
45
45
4.5
4.S
45
3.0
3.0
30
3.0
3.0
30
30
30
30
3.0
30
30
3.0
30
30
3.0
3.0
30
41
12
20
31
35
50
15
13
13
23
10
50
01
25
13
20
13
15
54
40
23
43
13
96
51
33
15
10
145
10
50
11
53
71
8
53
20
8
10
13
10
13
7
20
12
51
43
51
0
7
43
1ft
5
15
40
15
40
15
10
28
15
41
28
38
28
15
224 008
223 522
233.132
210.534
192.415
225.899
215960
212.401
209150
244.040
244.757
195.420
140275
140.901
« 49.080
151.009
127 536
120.482
131009
144.063
160 818
244 2t7
270 897
278 343
296.901
187.004
187.094
167 205
180 903
272.070
272 070
272070
270.730
275.017
194 004
194 004
194004
194 064
192.518
195.010
114 402
133	904
135.343
130 927
123 609
134	895
120 347
101 128
135.C63
142 609
147 121
138	901
139	671
145 412
145.007
121043
127 390
155.704
102710
104 340
150.400
149300
125303
124.045
141 779
149.034
H
-47
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files
Water	Water Soil Soil
Sol	Soil	Table	Table Horizon Pamcfe
Component Pro1He Lab Density	Soil Water Content {volume %) at Indicated Capdtory Suction	Depth	Duration Thickness Diameter
Name	No. No. iyfcc) 3.5 cm 20 am 30 sm 4S cm 60cm 80cm 100cm 150cm 200 cm 333 cm 15K cm (cm)	(mo.)	(cm)	(pro)
SATEUJTE
SATELUTE
satellite
SCRANTON
SCRANTON
SCRANTON
SCRANTON
SCRANTON
SCRANTON
SCRANTON
SCRANTON
SCRANTON
SEFFNER
SEfTNER
SEF-NER
SEFFNER
SETFFNER
SEFFNER
SHADE VILLE
SHAOC VILtE
SHADE VILLE
SHADE VILLE
SHADE VILLf
SHADE VILLE
SHADE ViLLE
SHADEVILLE
shadeville
SHADE VILLE
SHADEVULE
SHADEVILLE
SHADEVILLE
SMITHDALE
SMITHDALE
SMJTHDALE
SMITHDALE
SMITHDALE
SMITH DALE
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
1
7
7
7
7
17
17
17
17
17
74
74
74
74
74
74
a
3
3
3
3
e
a
a
13
13
13
13
13
5
6
6
2
2
2
2
2
2
2
7
7
7
7
7
7
7
7
7
II
11
11
11
11
11
12
12
12
12
3100
3200
3201
7120
7121
7122
7123
7450
7460
7461
7402
7463
2700
2710
2711
2712
2713
2714
eeeo
6670
6671
6672
8673
9564
5565
6586
7317
7316
7319
7320
7321
4504
4505
4506
4507
4506
4500
6441
6442
6443
6444
6445
6446
6447
3013
3814
3015
3916
3017
3016
3010
3020
3021
1465
1466
1467
i486
1460
1400
1401
1402
1403
4016
4017
4016
4010
V34
1.50
1.56
1.10
1 52
1 40
1 67
1 50
1 53
I 77
175
1 71
133
1 17
1.10
1 18
1.31
1 35
1 61
1 67
1.56
1.70
1 64
1.50
1.57
1 52
1 50
1.63
1 62
1.71
1.71
1 46
1 46
1 61
1.47
1 65
1 73
! 36
1 50
1 51
I 34
I 47
i sa
1 68
1.37
1 54
1 36
1.37
1 40
1 56
1.61
1.53
1 62
1 20
1.60
1.40
1 27
1.20
1 36
1.47
1 55
1 61
1 44
1 51
1 26
1 43
53	57
41	15
42	II
47 34
30 90
36	11
44.75
42 22
39	06
34 06
33	00
34	20
43.76
42 14
54	53
53.67
52 60
4803
40	Id
3697
39 03
39	94
41	56
41	31
37	21
42	79
33 S2
38	17
36 33
36.01
44 36
40	30
39	72
35	2?
4223
35.64
32.32
43.06
36	56
3761
52.53
44	26
36 66
36 07
36 56
36 65
42.96
44.26
40	04
30 47
40 04
40 63
40 40
46 61
39	51
36 78
40	15
40.34
41	06
42	64
41 60
41.06
41 63
3510
45	85
40.61
45 66
36.56
41 33
41 06
36 55
35.06
31.71
30 00
37.43
32.60
30 33
31.13
41 S3
35	40
47.00
47 46
50 24
45 C7
39 64
36	40
36 16
39	22
41	19
3971
36 61
42	76
36	79
37	93
36.19
35	96
34 37
34 63
32	56
31.13
4056
33	46
30.74
39.40
36	12
36 47
44 62
41	61
34	91
36	32
37	62
35	64
42	72
42 92
40	40
36	28
36 22
36 54
36	26
41	60
34.61
35 60
37.09
37.25
41 61
41	94
41.13
40 42
37	59
31.55
42	94
36.06
42 71
36.11
41.11
36	36
36.77
33.66
30 63
30	70
34	59
31	62
28	52
30	37
41 44
33	S3
4252
4142
47 14
40	49
39	71
37	97
37.72
36 87
39.01
39.36
36	53
41	64
36.67
37	92
36	05
35	66
34	29
31	23
31	00
29	56
36	37
3279
30	01
37	39
35	91
34	67
44 36
40	36
32	82
36	47
37	24
35	35
41	20
41 57
37	55
35	56
3521
37 10
37 64
36	74
31,75
33	56
34.21
34.61
36 07
41 50
40.47
39 69
34	37
29 17
41 60
34 90
-57.44
2466
32.17
20 60
24.41
23 14
26 26
39	56
28	63
25 69
25	62
26	49
30	56
3C69
34 53
3t 7C
33	22
26.70
37.45
31	90
27.61
44 26
3576
36.67
34	60
40	06
36 56
36	43
33.G4
35	00
34 17
27	51
23	75
26 70
37	42
32	01
29	32
26 94
24	01
24 63
44 17
39 64
3C49
3624
29	07
22	41
32	17
33.65
27.57
2574
30.17
30	17
20 61
33	00
25.11
23	S2
30.36
30.69
30	05
38	44
38.08
36	01
28	60
22 74
36 32
31	90
31 07
13 19
(599
25 39
16	8»
17	37
22	4C
33 31
23.70
21 93
21 42
25	46
16.16
26	46
29	66
2647
23	96
23	13
33 93
20	99
19.81
3' .67
33 64
30	06
27	61
36 62
26	42
21	97
20 40
33	56
34	04
24	07
27	66
25	27
36	67
31	44
28	46
1996
17 49
17.57
42.33
37	86
24	36
34.75
14 90
14 25
24.26
25	44
1940
'6 63
25.15
22	67
26	01
28.15
17 79
12 37
27	24
27®7
23	56
22 74
22 12
21	97
22	19
14 90
34 63
25 70
30 60
12.4ft
15.65
22	94
12.36
1423
18 94
23	34
21	42
18	25
16.77
22	05
16 32
26 51
25	67
23	C9
19	97
20	17
16 42
14 56
12.35
26	39
3C.90
16	10
14	39
37 57
15.72
11	94
•'.56
32 5*
35.19
23	03
26	51
24	06
35 34
30 92
27	69
15	44
1249
12	14
37 17
26 65
1601
17	06
9.79
806
2051
21	33
15	2?
11.56
19	72
10	40
18.16
24 00
1366
7.65
24 86
25.12
20	13
1666
16	03
1587
1653
11	S3
32 53
22	94
27 16
6.S4
6 93
21	18
10.53
12.81
1675
16 46
1642
15 10
13.40
16.64
12.76
24	66
2543
22	07
13 86
15	34
13 69
11	27
8 60
26 57
2n 83
13 43
10	03
36 77
12	08
841
654
31.81
30 26
21 70
25	66
2335
35.06
30.41
26.97
12.72
942
8 89
33 33
21 04
11	09
7.17
7 45
673
18	73
19	59
13	45
606
16	74
7 42
12	66
22.96
II 62
690
2271
23.41
16 43
13	67
1370
13.00
16.32
8.95
30 73
20.38
20 97
652
5	72
1360
836
10.74
13 74
13.77
15.26
11 25
9.60
14.64
626
2367
23	!7
20 23
17.50
17 64
1046
636
6	19
24	31
26 45
941
6 82
34 86
921
5	97
6	05
25	32
26	36
1906
24	70
2220
34.14
29 60
25	69
10.00
696
6.18
26	76
1733
6 21
4.34
5 00
5	10
16.64
17 83
11 60
6	39
13 31
4 06
0 27
20	52
9.74
531
21	27
21.83
1653
1145
10.66
1041
13.35
6.34
26.34
1760
1901
5 19
561
17 23
7 30
9 57
12	07
11 96
1361
9 57
8.5!
13	16
6.03
21 60
21	07
1657
1563
1659
929
693
5.15
22	69
25.11
7.97
5 69
33 67
7 90
4	78
5	32
24 25
2506
I860
24 05
21 06
33.16
29 43
24.99
9.47
630
5	80
26 76
1623
749
4 16
304
4 57
15.04
16.87
10 89
5.78
12 22
4 21
600
1922
6	78
461
19	66
20	50
15	60
10 56
9.70
955
12.20
539
26 76
16	49
5 13
1 66
67 5
30
90
155 501
4.60
2 64
67 5
3.0
20
154.600
5.23
242
675
3.0
00
161 210
1565
372
300
30
16
230 101
6.35
1.94
300
30
36
228.647
6 22
1 49
30 0
3.0
61
226.631
1059
6.16
30.0
30
66
236.000
041
1 64
300
30
15
246 613
10.94
1 97
30.0
30
36
244.467
7 56
145
30.0
30
46
224 555
7 65
4 24
300
30
46
37.888
11 99
470
30.0
30
56
253 381
603
6 03
750
30
25
215 360
19.64
960
750
30
11
197 810
16 96
8 53
750
30
50
202.760
14 56
632
75.0
3.0
23
207 160
15 42
8 59
75 0
30
71
195 370
13.93
7 88
750
3.0
36
208 110
704
2 51
1500
20
26
169 742
5.74
1 62
1500
2.0
40
190 656
4.33
1 50
1500
2.0
21
196 479
20 91
996
1500
20
63
159 152
23 07
11.05
1503
20
10
148 665
676
1.10
1500
2.5
16
201 640
496
038
1500
2.5
53
170 464
32 26
14 64
150 0
25
43
135 962
6 55
2.10
15C.0
2.5
23
178.023
361
046
150.0
25
31
181 306
3.68
1.04
1500
25
27
176.044
22.14
12 60
1500
2.5
15
122.190
23 09
12.21
150.0
25
11
123.964
16.70
9 75
1600

16
206 641
22 16
17 72
1800

10
174 812
19.05
14.09
18C.0

15
142.564
31 03
25 05
160.0

33
•32.014
28 20
24 67
160.0

64
194 301
2348
16 98
1600

63
206.717
600
299
300
2.0
13
162 135
5 07
1 66
300
20
10
162 472
4 68
1.69
300
2.0
25
163 463
23 50
564
30.0
2.0
10
154 432
14 56
4 22
300
2.0
13
157 712
6 15
1.47
300
20
74
156 905
3 36
099
30.3
2.0
58
156 054
3.64
3 08
300
2.0
10
166 632
4 33
1 63
300
2.0
23
169 700
14 46
346
300
2.0
5
168.310
1552
4.30
300
2.0
ft
163662
10 03
3 37
300
20
10
166 774
556
1.04
300
20
38
167 860
1092
4.01
300
2.0
30
156.156
407
064
300
20
16
150 472
661
1 91
300
2.0
63
150 150
17.47
7.20
300
20
to
140.100
756
4 26
300
2.0
10
150463
384
1 46
30.0
20
23
154051
17.65
630
30.0
20
6
140.475
16.91
676
30.0
20
10
143.060
14 73
5 69
30.0
20
7
145 964
936
2 53
300
20
50
150.660
9.61
254
300
20
56
155.066
9.34
2 46
300
20
20
154 950
10.44
566
300
20
13
215.273
450
2.11
30.0
2.0
26
213803
24 54
6 30
300
20
10
194 064
14 59
4 72
30.0
2.0
10
198.324
H-48
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files
Soil
Component
Name
Soil
Profit Lab Density
<9^3
No. No.
Water Wat or Soil Soil
Table Table Horizon Partcie
	Deptfi Dwatiofi TMckneaa Diameter
3.5 cm 20 srn 30 cm 4S cm 60 cm SO cm 100 cm 150 cm 200 cm 333 cm iSKcm (om) (nx?.)	(cm)	(nm)
Sol Water Contect (vo«jme %) al Indicated Captilary Station
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SMYRNA
SPARR
SPARR
SPARR
SPARR
SPARR
SPARR
SPARR
SPARR
SPARR
SPARR
SPARR
SPARR
SPARR
SPARR
SPARR
SPARR
SPARR
SPARR
SPARR
SPARR
SPARR
SPARR
12
12
12
12
12
12
12
12
12
12
12
12
15
15
15
15
IS
15
15
15
10
It
16
16
16
16
18
23
23
23
23
23
23
23
23
23
32
32
32
32
32
32
32
32
7
7
7
7
7
12
12
12
12
>2
13
13
13
13
13
13
13
24
26
29
4020
4021
4022
4023
9364
63*6
6364
6367
6366
63M
6*90
6391
9034
6035
6036
0037
6036
6039
6040
6041
1349
1347
13*8
1340
1350
1351
1352
3567
3543
sseo
3570
3571
3572
3573
3574
3575
3646
3647
3646
3649
3650
3651
3652
3653
5357
5356
5359
5360
5361
5362
5363
6612
6613
6614
6615
6616
5602
5603
5604
5605
5606
5607
5008
5389
5390
5391
1.62
1.56
1 87
1 65
1 32
1 53
1 29
140
165
1 77
1 63
1 57
1 23
1 51
I 44
1.45
1.61
1 71
1.66
1.61
1 25
1.53
1 40
1.64
1.65
190
1 69
1 13
1 37
1 47
1 40
t 28
1 38
1,50
I 60
1 60
1.10
1.36
1.20
129
I SO
I 51
1.56
1.55
1 49
1 57
1-60
1.60
1.66
1.61
1.79
1.45
1.54
1.53
1 56
1.72
1.42
1.56
1 59
1 51
1.57
1 78
1 74
1 54
1 55
1 58
35 17
34	30
35	22
34 69
45.66
39 51
47 56
42.30
33.94
31 30
40.30
36.92
46.03
33	66
41.26
39	35
34	54
34 29
33	17
31 44
36	62
34	56
44 97
35	66
35	54
37	52
38	23
52.50
43.66
41	15
37.99
42	86
41.15
36	97
34 76
34	91
54.97
43	76
52 97
49 67
40	66
44	29
41.64
42.15
39	47
36	00
35.96
35	94
31 82
37	61
33	56
44 03
42 11
40	06
34	63
36.06
4236
36	49
35	14
35	56
34. IS
29 66
29.72
36.21
41	54
36	03
33.90
32.41
33	52
33-17
43.66
3667
46	46
41.72
32.93
30	60
36 61
3621
47	34
32	03
40 10
56 21
34	OS
33	44
31	66
30	25
35.88
34	37
44 15
3497
35	26
36	65
37	55
46.66
41.46
39 26
34.40
39 33
36 04
35	12
33	64
34	26
4957
42 33
5222
46 51
3d 50
42 22
39	90
40	52
36	82
33	82
31	10
33.15
29 99
34	61
31 49
41	22
41 53
39.74
34	31
35	92
36.97
36	99
34.35
34.91
32.30
29 13
26.56
35.00
40 73
36.54
32 24
31	13
32	56
31	69
39	75
37 32
46	11
36 66
32	01
29	44
36 29
36 04
47	05
31 70
36 76
33	69
33 2S
33	32
31.67
30	17
34.97
34	32
43 66
34	06
35	06
36	02
37.11
47.00
40	33
36	26
30	63
37	15
35 91
34.41
33 U
31	44
4557
42 15
51 35
47 35
38	17
41	75
39	56
40	35
33 38
29 15
27.72
26 as
26 97
33	67
31 22
39 21
39.97
39.57
34.10
35.60
34	81
33	70
34.06
3360
31 69
29 82
26 90
33.36
37 40
34	21
26	94
26.06
2959
26.96
36	50
33	54
43	20
34	57
25	65
27	60
37	39
33 53
44	42
29	15
36 64
30.04
26.SI
32	36
30.51
2961
27.72
26	44
40 35
30	12
33	06
34	77
36 29
42.64
34	46
32	CO
2495
33	69
31	09
30 36
29	24
30	03
36	68
27	02
49 45
43.69
33 63
39	92
37	64
40	15
26 11
21	30
16.63
19 56
22	13
32.01
30.60
35	69
34.34
27.49
26 67
3392
2676
29 57
29 28
24	55
31	06
26 79
25	98
29	67
30	55
23	61
20.76
1946
20 42
19 86
31 30
16	26
38 11
26 66
17	32
23	63
34 06
29 19
40.56
17 67
34	51
26	25
24	40
25.66
28	05
24	10
24.7*
22 56
35	23
20	97
27	71
2a 35
29	42
35 26
26 93
25	31
16	62
26	70
23.49
21	92
2C 33
21	42
3274
17.56
49 97
36.69
24	47
39 06
33 93
35.04
1994
1565
14 29
14 80
1910
30	92
29 33
27	83
29 51
1651
17	55
32 69
2256
22	67
21 67
1662
21 19
25	04
24 63
23	43
23 61
17.96
16.65
1611
17	69
17.16
23 76
10.24
33	09
20 99
10 32
20 63
31 24
25 42
34	56
12	24
32.23
22	26
18	40
1601
24.76
1576
18.73
17.06
31	61
11.96
13	13
14	55
15	69
25	96
* 7 95
1594
1209
23	35
1896
13 32
10 13
964
26	19
13	16
43 83
34 29
16	46
32	88
29	39
30	28
14	61
1C65
10.41
10 19
16 65
29 69
26 56
16.72
1433
1017
10.24
26 63
17,32
14 22
13 60
12 69
1440
23 35
23 51
16 69
16 06
1241
1326
11	27
14.14
13.73
20	17
7.65
30	90
1656
7.S6
1906
31	05
23.25
32	00
8 85
30	40
19 46
1344
10 86
2174
12	92
14	46
13	57
28 04
10	55
663
12	16
13.15
23.S5
15	76
13	77
10.26
21	35
15.07
11.42
6	16
7	33
25.67
11	61
41 46
31	75
13	92
30 94
26 20
25 76
11 93
8	4 8
8 11
754
14.92
28 95
27.71
15 82
11	26
6.14
8 03
26.52
14	10
10 69
10.30
9.54
961
21.91
22.97
1371
12	15
9.21
9 94
904
966
006
16.59
544
27.41
1566
537
16	97
2461
20.34
26.07
593
29.60
1644
9.43
7.26
17	74
10	36
13.10
11	56
23 50
6.44
641
7	32
8	53
19.67
12	45
10 45
7.60
18.06
1230
6.61
S.74
4	76
22.65
964
36 70
26.61
1060
29 12
22 69
1973
934
6 35
6 19
5	39
1264
27 45
26 06
13	34
8 51
603
5 74
25 33
11.01
734
6.76
8 52
572
1985
2176
10.61
9.01
6.61
677
* 7 66
8	21
744
15	23
4	76
25 87
14 72
460
1603
22.79
16.96
2591
479
27 44
1527
6	18
595
15.70
923
7.52
6.76
20 92
7	45
5	34
6	64
7	75
16.32
11 31
9	35
674
16	77
11	32
7.90
504
4 19
21.19
693
36.46
27 12
951
26 06
20 92
17.00
625
551
531
4 72
11.66
2651
24 83
12	19
7 46
526
4	93
24 83
961
5	95
5.39
526
4 65
16 96
21.22
921
7 91
560
7.47
400
8.16
661
1356
3.87
23	39
12	99
371
14 50
21 30
16 74
24	30
4 05
25	07
13	62
6.81
496
1327
609
7.13
356
19 94
646
403
9 37
726
15.94
948
7 75
5.74
14	22
9 59
647
406
3 26
18 93
7	82
32.96
24.83
8	10
26	12
18.82
13.95
6	63
4.41
424
3	62
10 16
24 94
22 66
10.57
5.96
4.13
3.73
23.34
7.94
4	77
4 39
4 08
353
17 34
20 13
7	46
6 42
4.49
2.04	30.0
163	300
2.30	30 0
2.11	300
661	300
1 64	30 0
8.63	30.0
4 16	30.0
0	66	30.0
1	93	30 0
251	300
3	30	30.0
7.66	30.0
1 00	30 0
5.01	30.0
370	30.0
1 26	30.0
1	21	300
3.34	30 0
2	39	30 0
2 36	30.0
2.02	300
346	300
2.20	30 0
1	39	300
2	86	30.0
3.80	30 0
6.88	30 0
4	71	30 0
3	69	30 0
207	30.0
4	56	30.0
3 05	30 0
2.00	30 0
1	34	300
0	91	30.0
7 05	30 0
2	03	30 0
626	300
7.89	30.0
1.40	30.0
5	95	30 0
5.20	30.0
4.20	30.0
2 16	75 0
1	26	75 0
1.20	75 0
107	75 0
5.71	75.0
15.92	75 0
1.79 75 0
121	73.0
1.03	75 0
13.26 750
2 12	67.8
1 19 67 S
1 10 675
0 92	67.5
0	49	67.5
6 07	67.5
8.73	67 5
222	750
1	32	75.0
1.04	750
2.0
2.0
2.0
2.0
20
2.0
20
20
20
20
20
2.0
2.0
20
2.0
2.0
2.0
2.0
2.0
20
2.0
2.0
20
2.0
2.0
20
2.0
2.0
20
2.0
20
20
20
20
20
2.0
2.0*
20
20
20
2.0
20
20
2.0
20
20
2.0
20
20
20
20
2.0
20
2.0
20
2.0
20
20
20
2.0
2.0
20
20
20
20
20
13
46
51
30
15
15
6
10
46
51
43
15
13
25
6
10
33
25
26
61
10
36
16
43
58
13
25
12
6
8
23
25
36
76
16
16
10
7
26
33
43
46
23
20
31
40
16
50
23
15
31
30
61
66
15
15
15
15
16
15
15
20
46
23
207.2W
205.723
201 504
200.860
165.456
165	002
176.106
176.037
160060
17S542
178.969
160.409
195.517
191 465
166	963
183 447
182 001
169 461
162711
203 267
175.672
175 564
173	928
176.543
171 360
171 463
171.272
175.310
171	505
175 175
171.055
174	930
172	666
166.050
172 442
101 856
136 322
143	930
129.756
130311
145 439
140 327
139 471
144	607
207 623
205 628
207 532
209 663
163 259
159.774
156 367
163.304
163 432
150.870
160 615
137.665
102.076
200330
196.406
197.662
197.940
207 767
229 917
181.227
159 201
158 137
H-49
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files
Water	Water Soil Soil
Soil	Soil	Table Table Honzon Particle
Component Profile Lab Deputy	Soil Water Content (volume %) at Indicated Capillary Suction	Dapth	Duration TMckneaa Dsamalar
Name	No. No. (gfcc) 3.5 om 20cm 30cm 45cm 60cm 80cm 100 cm 150cm 200 on 333 cm iSKcm (cm) (mo.)	(cm|	(pm)
SPARR
SPARS
SPARR
SPARR
SPARR
SPARR
SPARR
SPARR
SPARR
SPARR
SPARR
ST AUGUSTINE
ST AUGUSTINE
ST AUGUSTINE
ST AUGUSTINE
ST AUGJSTiNE
ST. .CHNS
ST. ^CHNS
ST JOHNS
ST JOHNS
ST JOHNS
ST. JOHNS
ST JOHNS
ST JOHNS
ST JOHNS
ST JOHNS
SUMTERVILLE
SUMTERVIILE
SUMTERVILLE
SUMTERVILLE
SUMTERVILLE
SUMTERVILLE
SURRENCY
CURRENCY
SURRENCY
SURRENCY
SURRENCY
SURRENCY
SURRENCY
SURRENCY
SURRENCY
SURRENCY
SURRENCY
SURRENCY
SURRENCY
SURRENCY
SURRENCY
SURRENCY
SURRENCY
SURRENCY
SURRENCY
SURRENCY
SURRENCY
SURRENCY
SURRENCY
SURRENCY
TAVARE3
TAVARES
TAVARES
~AVARES
TAYARES
TAVARES
TAVARES
TAVARES
TAVARES
TAVARES
26
5392
1 59
34 10
32 80
32 56
22 70
16 56
11.26
8.11
524
442
3.37
26
5393
1.55
30 52
20.06
2851
24 06
21 33
1753
14 32
10 07
• 057
7 70
26
5304
1 70
29.66
20 36
27 66
26 44
24 84
23 07
21 63
10 00
18 02
17 05
26
53*5
1 63
34.63
32.04
32.53
31 48
20 04
26 76
27.64
26 20
25 06
22 48
02
MM
141
57.10
56 31
5548
55 12
54 36
53 78
53 35
52 56
51.88
684
62
MM
1 38
42.92
30 90
35 03
24 00
16 19
12 28
11 07
886
8 02
5 30
02
3690
1 46
46 44
30 35
30 73
1787
11 49
0 14
8.77
6 72
6 15
402
92
3661
1 46
41.86
34 83
20 43
17 00
10.61
7.04
550
5 42
4 #2
3 10
92
3692
(54
30.80
35 50
27 78
1457
9.10
658
406
4.31
3.75
24#
92
3603
1.7#
36 83
33.57
26 18
16 03
0.43
6 28
536
370
3 13
3 13
92
3804
t 78
34 26
31 M
30 40
28 24
26.65
25 51
24 73
23 30
2248
22 09
36
5325
105
56.10
51 20
49 86
42 76
33 02
27 03
24.43
21 51
10.77
16.31
31
5327
1-4#
4Z99
40.70
37 27
20.44
21.90
16 7#
15.02
13.76
11 93
10 30
3ft
5326
1.46
42 63
41 04
39 91
24 70
1706
12 78
11 02
0.30
834
6 61
38
5329
9 44
44 50
42 40
42 06
22.69
15 55
635
5 08
553
4.07
350
M
5330
148
4226
41 58
41 12
21 68
10 76
598
596
495
442
326
26
3630
0 76
35 99
33 96
33 62
32.59
32.00
31 53
34 02
30 23
29 86
66.58
26
3631
1.02
5904
53.30
51 65
50.44
49 60
48 53
47 66
44 26
41.11
35 00
26
3632
1 46
37 92
36 90
33 60
30 56
24 33
20 67
16 91
16 36
15 25
1301
26
3633
1 51
35 96
35 64
32 50
21.44
*4.74
11 06
954
784
720
6.10
26
3634
1 24
50 36
46 68
46 11
47 53
47 03
46.24
45 74
44.38
43.33
30 32
26
3638
1.45
44 00
42.87
4222
41 72
40 17
38 61
37 69
35 60
33 55
2945
26
3636
1.57
3d 10
37 4S
36 21
25 15
1322
901
741
5 76
504
4 14
26
3637
1 70
36 13
3407
34 60
33 97
32 06
30.74
29.61
27 00
25 17
21.74
26
3636
1.42
44.79
4321
42.65
4233
42 02
41.56
40.01
36.56
32 15
26 21
26
3630
1.54
41 67
40.60
40 63
36.15
21 06
13.73
11 20
8 as
7 68
6.16
4
5339
1 40
41 20
36 34
34 26
21 16
15 15
11 63
1000
8 32
7 70
6 61
4
5340
1 58
39 95
38.54
36 50
39.30
17 52
11.67
9 35
7.01
609
5.01
4
5341
1 59
38.06
36.10
34.81
24 16
1645
1076
8.32
6.41
5 53
4.46
4
5342
1 59
41 79
40 83
40 49
39 03
36 52
38 13
37 56
36 69
36 09
34 95
4
5343
1 27
53 69
51 58
51.41
51.15
5C C2
49 62
40 26
48 85
48 53
47.61
4
5344
t 25
54.57
53 43
52 24
51 16
SC. 92
50 57
50.16
50 00
49.65
48 28
7
3064
1 16
58 12
56 46
55 39
54 33
53 77
53 01
51 11
47 65
43 06
41 15
7
3965
t 55
39.21
38.51
38 48
37 21
32 85
26 08
18.00
11.42
9 78
3 15
7
3966
t 62
36.37
35 58
35 51
35 35
30.92
21 69
1283
6 52
548
483
7
396?
1 70
34 82
33.96
33 85
33 78
33 69
27 00
15 62
895
7.36
£ 78
7
3968
1 82
31.27
30 06
30 03
29 94
29.76
29 19
28.46
25.76
24 33
21.51
7
3969
1 83
31 32
30 33
30 19
29 84
20 83
29 78
28 71
26.57
27.31
24 16
7
3970
1 68
36 28
35 24
35 23
35 22
3507
34 9C
34 62
13 02
32 99
31 84
15
6061
1 33
48 91
44 94
43 99
42 76
41 38
40 19
39 06
36 83
35 26
32 52
15
8062
1 60
33 30
31 49
29 67
25.20
21.33
17 77
1605
1333
12.18
10.27
15
8063
1.74
3208
31 81
3C63
30 IS
20 06
28 03
27 13
24 92
23 53
21 H
15
8064
1 72
31 33
30 39
3C H
29 62
28 83
2? 51
25 16
24 33
22 60
18.40
19
*996
1 4#
30.76
3# 02
37 18
34.00
20 08
24 81
21 73
17 06
16.47
13.60
19
4990
1 67
30.78
29 50
29 19
27 22
22 74
9836
15 10
11 05
0.40
7 10
19
5000
1.71
32.50
3061
30 68
29-27
21 85
17.40
13.13
9.86
732
540
10
5001
1 82
32 17
30 36
30.36
20.11
27.66
27.30
26 64
25 04
24 18
22.19
16
5002
1.73
33 55
32 03
31 34
30 51
20 11
27 84
26 42
24 16
23 26
21 54
19
5003
V66
38 K
38.40
38.07
37.68
37 56
37 53
36.70
35.54
35 06
33.70
21
6510
0.36
76 71
75.50
74.88
73 07
72 13
7080
6070
67 75
66.24
60.10
21
65tl
1 33
4601
44.04
43.00
4276
41 36
40.10
30.06
36 83
35 26
32 52
21
6512
1 42
44 38
42 86
40 10
37 47
32 58
28 65
25 63
22 43
20 75
18 25
21
6513
1 60
33 39
31 49
20.67
25 20
21 33
17.77
16.05
13 33
12 18
1027
21
6514
1.71
32 78
30 60
20.06
22 55
11 70
15 10
1327
10.66
045
7.81
21
6515
1 74
32 08
31 61
3063
30 15
29 06
26 03
2? 13
24 92
23 53
21 11
21
6516
1 62
31 33
30 39
30 11
29 62
28 63
27.51
26.83
24.33
22 69
1047
2
5415
1 45
37 10
28.51
20.60
12 68
10 02
822
7.41
6 55
500
531
2
5416
1.58
40.02
2720
1846
996
7 62
6 47
586
5 12
4 77
446
2
5417
1 61
39 08
2302
1464
7 35
564
4 59
4.17
384
336
203
2
5416
1 60
38 63
22 24
14.02
7 55
5.55
450
4.02
3.56
3.11
2.5©
2
5419
1 63
36.06
22.15
H 38
666
4.91
4 03 •
3.68
3.33
2.04
248
3
5546
1 62
38 22
37 34
37 10
33 09
23 10
13 66
1038
7 72
676
6 72
3
5547
1 62
37 20
36 63
36 01
33 35
21 63
13 95
10.05
8.51
7.51
6 93
3
554#
1 40
40.87
30.72
3057
3067
10.27
10 66
9 22
6.26
5.46
322
3
5549
1 45
41 83
40 00
39 17
25 56
16 11
10 68
8 51
6 73
594
5 76
3
5550
1 46
4031
3027
30 14
35 46
30.30
14 52
866
6.05
6.14
531
0 60
75 0
2.0
41
158.560
201
75 0
2.0
23
152 652
828
750
20
25
135 210
11.05
750
2.9
23
122.061
236
75 0
2.0
10
237.468
206
75.0
20
10
247 539
1.46
750
20
44
254 667
1.04
75.0
20
17
243.212
066
75.0
20
41
227.000
3 13
750
20
20
202638
19 15
750
20
71
100.556
4.00
180.0

10
155.505
4.80
1800

#
186 351
3 45
1800

7
188.983
0 75
1600

43
182.122
C 73
1800

16
205 417
34.53
150
5.5
-8
0000
#70
150
55
1#
146 805
3.39
15.3
55
7
152 250
1 04
15.0
5.5
13
155 307
6.00
15.0
5.5
10
141 610
4 58
150
5.5
23
146 012
1 67
150
55
36
159 477
5 59
15.0
55
20
145 146
726
15.0
5.5
40
142.317
2.01
150
55
36
159 820
2 14
87 5
20
23
106 135
0.70
67 5
2.0
38
195.043
1.27
67 5
20
13
191.241
21 18
675 ¦
20
45
115 847
32 60
67 5
23
41
86.001
32 86
675
2.0
43
94.281
11 25
00
6 0
28
120.413
341
00
60
10
150 905
3 14
0.0
6 0
33
155.536
2 38
00
6 0
23
152 840
8 86
00
60
10
110.947
11 40
0.0
6.0
66
121.585
22 60
00
60
33
76 591
7 14
00
60
23
162 151
2.50
00
60
38
241 460
8 60
0.0
60
94
222 118
6 55
00
60
48
66 406
2.26
0.3
6 0
28
150 708
0.77
00
60
10
163 557
055
00
60
28
162.405
0.45
oo
60
33
141 000
ft 52
00
60
51
125 113
20 62
0.0
6.0
53
115.565
14.21
0.0
6.0
5
105.63ft
7 14
0.0
6.0
15
155 010
420
00
80
23
200462
250
0.0
6.9
18
211.334
1 97
0.0
60
38
203.068
8 60
00
60
41
191 610
6.93
0.0
60
68
202.243
1 64
1425
3 5
15
3(3.410
1 00
142.5
35
76
326 065
0 89
1425
35
26
314460
0 83
1425
35
25
328.010
0.55
142.9
35
61
312.383
1 31
142.5
35
15
175 806
1.02
1425
3 5
13
166 900
0 70
142.5
35
30
188.107
0.71
142 5
35
33
164 042
0.39
1425
3.5
46
187 121
H-50
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files















Water
Water
Soil
Soil
Soil


Soil











Table
Table
Horizon
Particie
Component
Profif#
tab
Density


Sod Water Conteot (volume %} art indicated Capillary Suction


Depth
Duration
Thtckftesj
Diameter
Name
No.
No.
(O'ccJ
3.5 cm
20 cm
30 cm
45 cm
60 cm
BC cm
100 cm
150 cm
200 cm
333 cm
15K cm
(cm)
(mo.)
(cm)
0*m)
TAVARES
3
5551
1 47
40 02
37 97
37 83
33 92
22 07
12 80
950
7 16
6 76
654
025
142 5
3.5
33
170 014
7AVAHES
3
5552
1.45
39 31
37.18
36.71
36'.07
23 15
13.31
9.M
740
* 6.78
6 50
0.20
142 5
3.5
33
170 070
TAVARES
7
5263
1 34
46.17
43 23
40 11
32 19
20 17
1395
11 73
960
1 74
7.86
2.00
1425
35
15
153 764
TAVARES
7
5264
1 46
39 12
3614
33 55
24 24
15 24
10.04
8 11
629
548
443
1 15
142 5
35
15
153 024
TAVARES
7
5265
IU
43.01
41.89
41 40
24 52
1220
743
5 63
4 34
3 77
2.91
0.75
142.5
3.5
15
152 831
TAVARES
7
5266
t 49
42.60
41.10
39 06
21 17
12 42
7 16
523
3.6!
336
2 62
051
1425
3.5
15
153.160
TAVARES
7
5267
144
39 27
3616
37 82
28 00
1706
9 26
589
4 15
3 67
294
056
142 5
35
15
155.961
TAVARES
1
1391
141
30.77
2731
25 17
17 87
11 36
755
6.46
5.20
4 69
2.75
1 28
1425
3.5
10
197 633
TAVARES
1
1392
144
36 49
35.51
31 93
1751
1141
826
7.21
623
561
4.78
1.54
142 5
35
10
196.330
TAVARES
6
1393
1 50
35 32
34 85
30 28
15 68
922
5 93
518
449
3 98
3 39
080
142 5
35
33
100 257
TAVARES
•
1394
1 56
34.33
33.89
30 35
16 34
956
6 14
5.41
4.83
4 30
3 59
0 75
142.5
35
54
202 230
TAVARES
1
1395
1 57
37.20
36.17
34 68
27 56
(648
7 32
6.11
5 56
5 14
4.77
0.80
142.5
35
15
108.030
TAVARES
8
13M
1 56
39 63
39 28
38 78
33 13
21 22
12 56
11.90
11.68
11.00
981
0 95
142.5
35
81
205.367
TAVARES
9
6796
1.50
42.61
41 32
39 30
29 13
21 78
13.15
11.42
9.77
9 00
7 82
2 64
142 5
35
13
165 363
TAVARES
9
6799
1.48
42.09
41 17
39 07
23 78
14 61
9 95
8.63
7.41
6 86
5.85
241
142.5
35
43
104.477
TAVARES
9
6600
1 46
43 55
40 47
3y 65
26 51
14 63
fl 10
7 81
645
5.93
5.11
2 32
142 5
35
43
167.521
TAVARES
9
6601
1.55
39.91
37 60
35 93
26 63
14.TO
8 13
6.70
5.3ft
476
4 11
1.92
142.5
3 5
43
164.042
TAVARES
9
6602
1.56
38 15
37 22
33 75
23 47
983
6.88
6 23
5 14
463
4 08
1 00
142.5
35
56
164.146
TAVARES
12
4966
1 52
36 96
33 60
31 07
25 54
19.04
13 92
1.38
9.07
6 03
6 82
1 54
1425
35
8
176 450
TAVARES
12
4969
1.57
41 01
39 29
36.82
29 94
18.67
11.66
9 28
7.08
6 10
5 35
0 97
142.5
3 5
46
180 826
TAVARES
12
4970
1.61
39 28
38 42
38 08
30 96
23.94
tc ai
7 76
542
429
369
0 89
142.5
35
48
163.022
TAVARES
12
4971
1.61
36 97
35 64
34 66
29 30
19.67
9 26
6 42
484
388
3.03
061
142.6
35
56
175.470
TAVARES
12
4972
1 62
36 26
34 74
33 43
27 06
21 23
6 52
554
4 58
3 57
306
0 19
1425
35
43
192937
TAVARES
14
1507
1.34
44 07
41 63
35.15
19.16
12.07
9.16
7 91
8.60
6.26
5 96
180
142.5
35
20
184 202
TAVARES
U
1506
1 40
39 72
37 76
31 64
1651
10.16
7.34
596
4.84
4.46
395
0 92
142.5
35
41
178.731
TAVARES
14
1509
1 50
37 49
37 26
36 37
20.75
1052
6 34
4 91
373
343
326
0.74
142.5
35
61
180.000
TAVARES
14
1510
1 52
37 44
37.29
36.86
27 95
11.83
6 18
4 58
3 75
3.46
3 33
0.59
142.5
3 5
40
180 020
TAVARES
14
1511
1.42
38 89
38 69
38.97
19.67
8 35
477
3 76
3 13
296
2.64
0.71
1425
3.5
54
301 708
TAVARES
16
3459
1 28
46 96
43 69
27 70
1625
12 '8
10 16
9 40
7 95
7.48
6.57
1 66
1400
30
13
183 893
TAVAR£S
16
3460
1 45
36 47
31 62
24 00
15 00
10 66
837
7 61
6 56
6 92
538
1 36
140 0
30
10
135 499
TAVARES
16
3461
1 44
37.12
29 64
23 35
13 57
9 29
7.41
6.24
5 52
5.98
4.05
072
140.0
3.0
58
197 092
TAVARES
16
3462
1 39
39 09
36 67
26 27
'.4.59
9 22
7 19
6 16
5 17
4.84
4.16
0.47
140.0
3.0
38
187 301
TAVARES
16
3463
1 44
41 21
40 0*.
39.02
1787
10 2C
7 95
6 96
6 12
581
5 11
029
1400
30
38
187 113
TAVARES
16
3464
1 44
41.81
38 79
3657
14 35
7 67
574
5 17
4.47
4 32
3.93
0.33
1400
30
46
183 276
TAVARES
10
4390
1 52
36.29
37.10
34 54
31 35
26 76
14.82
11.32
6 32
7 31
676
290
142 5
3.5
13
222 124
TAVARES
18
4391
1 51
39 44
3840
36.86
29 11
18 15
10.11
7.90
5 83
4.95
420
1.19
1425
3.5
48
187 500
TAVARES
18
4392
t 49
38 49
37 58
37 14
24 86
1555
9 46
738
S 88
5 07
4.31
0 97
142 5
35
66
191.006
TAVARES
IB
4383
1 53
37 42
36.43
35 88
29 13
21 99
10 92
7.00
5.06
434
390
0.73
142 5
35
48
165 219
TAVARES
11
4394
1 53
36 27
34 93
34 36
26 90
17 58
9 65
6.90
5 30
4C3
3.58
0.78
142 5
35
28
191 920
TAVARES
19
5662
I 65
32 12
29 83
27 90
21 IS
14.74
10 26
6 43
691
622
5 49
1 40
142 5
35
20
164.202
TAVARES
10
5663
1 57
34.09
30.97
28 22
2C0C
14 31
ID 53
8 76
7.00
620
5 46
1 43
142.5
3 5
23
187.010
TAVARES
19
5664
1 47
37.73
31.10
27 22
16 92
11.27
8 17
6.76
540
463
4 19
1 29
142.5
3 5
33
185.510
TAVARES
19
5865
1 50
36 14
29 43
24 39
15 86
11 15
845
705
5.91
5 39
4.76
1.16
142 5
3.5
56
184.513
TAVARES
19
5666
1.55
33.96
33.15
32 28
17 44
10 80
7 23
569
392
3 55
3 02
1 01
1425
3 5
71
165 552
TAVARES
22
3561
i 52
35.(8
33 45
32 06
2507
1980
14 36
12.08
9.24
843
695
299
1425
3.5
8
205.020
TAVARES
22
3562
1 59
33 64
31.85
30 63
23 35
(7.86
12 15
984
7.11
6.61
509
1 92
142.5
35
15
207.015
TAVARES
22
3563
1.57
37 22
37 03
33 64
21 03
1484
9 16
7 06
4 78
460
341
1 24
142.5
35
63
215 011
TAVARES
22
3564
1.62
33.46
32 58
32 17
22 22
1564
6.80
624
3.97
3.55
301
1 13
142.5
3.5
56
213.011
TAVARES
22
3566
1 56
32 15
31 57
31 35
25 51
1864
11 56
983
808
705
5 47
096
1425
35
51
223 912
TAVARES
22
3566
1.62
32 M
31 60
31 28
22 63
15 57
8 73
6 40
436
383
361
071
142 5
35
25
220 364
TAVARES
03
3895
1.60
41.04
3766
29 34
1794
12.81
1C.04
8 62
7.13
6.43
542
1 66
1425
3 5
20
282.517
TAVARES
93
3896
1 61
37 69
34 90
24 60
1661
1226
S 64
8 23
873
599
4 97
1 56
! 42 5
35
28
276 603
TAVARES
93
3697
1.60
36 33
34 24
24 55
1560
11 41
890
7 55
8 09
538
4 51
1 58
142.5
3 5
43
269*24
TAVARES
93
3698
1.67
34 52
32 32
23 94
1672
11 80
9.11
748
599
5 24
4.39
1.59
142.5
3.5
23
282 933
TAVARES
93
3899
1 63
34 26
32 21
26 89
13.64
974
768
644
5 19
4.81
390
1 09
1425
3.5
31
283 830
TAVARES
S3
3900
1 71
31 81
30 56
27 76
20 13
14 66
1068
8 67
684
597
4 74
092
142.5
3 5
58
285CC4
TERRA CEiA
10
4542
0.21
35 18
82 04
80 32
7593
73.85
70.67
69 27
66 93
6502
60.52
6 14
0.0
60
20
152 055
TERRA CEIA
10
4543
0.14
86 31
79.65
77 76
75.36
73.79
71 25
70 25
68 45
0687
56.79
6.42
00
6.0
69
152.055
TERRA CEIA
10
4544
0.11
91 59
63.60
81 65
77.72
76.34
71.72
69 40
65 13
62 15
54 92
5 16
0.0
60
23
152 055
TERRA CEIA
Id
4545
0.16
91 76
86.10
84.15
61.46
79 46
7492
72.12
68 17
64 89
55.12
6.55
0.0
6.0
23
152 055
TERRA CEIA
10
4546
1 03
69 85
6651
85 58
63.31
61 61
53 81
50 43
44 29
42 04
36 42
11.30
00
6.0
7
146 503
TERRA CEIA
10
4547
1.49
41 15
40 03
39.19
36 78
34 43
*8.58
157S
13 35
12 11
9 57
1 06
00
80
6
174 450
TERRA CEIA
to
4546
V50
44 43
42.90
41.90
41.15
40.06
39.74
39.33
36 58
3775
34.35
16.10
00
6.0
10
157 309
TERRA CEiA
10
4549
1.46
46 22
44 92
43 43
4307
42 W
42.07
41.80
41 21
40 33
36.90
19.69
00
0.0
20
141.200
TERRA CEIA
10
4550
1.61
40 37
39 06
38 82
38 30
37 15
36 56
36 34
35 39
34 47
31 11
17 07
00
6.0
23
140 637
TIDEWATER
9
3640
1 36
45 21
41.09
36 54
23 59
1306
923
7.67
694
6 22
5.62
4.00
150
60
8
198 237








H
-51









-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files
Water	WM«r	Soil Soil
Soil Soil Table	Table	Horizon	Particle
Component PfofiJe Lab Density Soil Water Content (volume %) at indtealed Capillary Suction Depth	Duration Thicknees	Diamder
Name	No. No. (g'cc) 3.5cm 20cm 30 em 4Scm 60 on SO cm 100 cm 150cm 200cm 333cm 1S
30
30
30
30
30
36
3d
39
20
20
20
3
3
3
3
9
9
9
9
9
9
9
21
21
21
21
21
M
36
38
31
36
97
97
97
97
3
i
3
3
3
3
3641
3442
3643
3444
8256
8257
9254
6259
5207
5208
5209
5210
5211
5212
5213
4332
4333
4334
3593
3594
3595
6584
8565
8588
6587
8188
8169
8170
8171
8172
8173
8174
7479
74$0
7481
7482
7483
5524
5525
5528
5527
5528
8139
8140
8141
6 U2
4487
4461
4489
4490
4491
4492
0650
0651
MS]
6653
6654
2264
2265
2266
226?
2266
2269
2290
4076
4079
1.43
1 57
1 60
1.73
127
1.41
1 49
1 54
I 57
166
1.55
146
1.48
1.40
t 44
006
1 54
1.31
0.12
0	15
1.62
1	20
1.57
1 57
1 50
1 10
1 55
1.S4
1 67
1.59
1.63
1 47
1 46
1.75
1 64
1 82
1 63
1.12
1 47
I 55
1 81
1 42
030
026
0.13
0	17
1	38
1.52
1 S7
1 63
1.65
164
1 58
1 59
1.54
1.61
1 67
1 57
1 54
1.56
1.59
1 66
1.66
1.67
1 34
1-54
42 28
36 89
32.06
35	46
41	36
40 42
39 86
36	7S
40.04
33 38
39	62
41.67
43.32
4533
45.07
51.58
48.63
45	32
84 45
56 78
03 77
52 57
33	58
35	47
46	85
4$ 46
40	03
37	71
36	12
39	26
37.39
42	04
35	99
28 31
33.52
40	56
36	78
59.33
40 26
36	68
35 47
47.72
76 19
75.43
66 26
79 36
45.24
35.62
37	36
35 72
34	92
34.92
3694
36.93
36.66
35	66
35	10
41.03
38	74
37 32
36	67
35 67
37.96
40	26
41	06
3506
4071
3526
31.40
34	20
40	02
36	45
36.52
35	24
39.21
33	33
34	32
37	54
4146
38	49
43	53
47 22
47 32
44	12
81 58
85 34
81.49
49 CS
33 34
3501
46	06
41	28
39	50
37.50
35	94
36	99
37	11
41 46
31.10
26 97
32	56
38	72
36	83
51 71
3661
35 79
34.35
47	15
7l 09
71 33
7681
74 29
40	97
30 76
35 23
33	61
32	15
33	98
35 53
35 97
3771
35	06
34	06
40 31
37	99
36	11
37	51
34 55
36 93
39.22
35.13
30.01
3901
34.94
31.22
34	39
38 86
36	77
3526
33 87
37	66
32 8 9
32 54
36	10
40 80
37	35
42	97
46 53
44	32
43	55
80 32
82 51
60 54
4796
32	56
34.17
45	as
38?5
36 27
37.15
35	43
3540
35 67
40,17
28 82
25.25
31 86
37.88
35	99
49 72
36	43
35	16
33	89
46	83
68 37
68 17
74 39
71 08
36	11
2806
33 31
31 20
31	00
32	71
33	08
33	93
36 63
34.17
31 19
39.57
36 22
35.97
35 47
34	36
35	76
38 65
30.46
26.76
22.61
19 23
1940
33	79
34	21
32 09
30 87
29 28
32 90
2143
29 65
34.76
38 39
36 06
41.87
45.46
43	15
4241
76 46
80 34
79.54
45	14
29	47
30	59
44	24
32 70
30 03
26 26
34	39
3292
32 76
35	99
25	45
21 83
2ft 15
36	63
34 68
47 07
32 54
3C C3
30 05
46	71
65 63
65 31
71 88
69 44
29	71
2348
25.67
26	01
30.33
31.09
28 S6
2761
24 52
22.2?
27	63
36	92
30	65
32.15
32	06
33	64
3503
37	86
21.39
17.66
12 36
10 93
1293
32	91
30 14
28	86
27 44
26 11
28.97
25 23
27.30
33	66
37 69
35	46
40	2t
39.77
42 06
41	62
74 83
77 89
76 55
42.69
23	97
2403
42	26
24	56
18.69
<545
32	51
30 83
29	86
34	38
23	21
20	06
24	22
36	01
33	78
44	72
25	17
22 51
24	31
45	99
54 29
63 56
7C.04
67.41
24.61
1690
1955
25	17
29 29
30.15
22	64
20.23
16.9?
152t
25 57
25.96
21	87
23	67
24	69
31.67
3433
37	37
17 15
14.16
651
695
649
595
623
3.36
15.0
6.0
19
202.779
663
5.45
520
4 47
430
239
15 0
60
13
206.714
804
6.11
442
3 75
3.15
0.91
15.0
60
28
196215
31 86
3074
29 45
2572
27 26
1223
150
6.0
12
176.827
24 45
22 0T
1642
12 74
11 05
541
150
60
15
215364
23 < 3
2061
1574
11.15
10.29
532
15.0
60
87
233.131
2! 45
16.81
14 12
10.07
8.79
4.63
15.0
60
25
244 605
20 73
16 59
1324
9 22
801
444
150
80
35
246 600
24 99
22 26
16.25
1631
13 72
5 21
1425
1 0
15
166 146
22 27
20 45
18.36
16 82
15.10
7.49
142.5
10
10
164.472
2S28
23 85
21 96
20.70
19 20
1111
142.S
1.0
39
124 062
32 98
3221
31 21
30 26
28 68
20 02
142.5
1.0
35
95 809
3677
35 71
3501
34.0?
32 13
23.14
142.5
1.0
33
95500
34 67
33 94
33 30
3253
31 22
2356
142.5
1.0
33
96 690
39 44
38 82
38.01
37 22
35 77
25 46
142 5
10
36
91 311
37.12
36 60
35 66
31.86
6.99
2.77
7.5
60
46
150 000
41 77
41 53
41 09
40 66
40 38
38 2?
75
6.0
68
62071
40.46
39 76
38 46
36.79
34 58
8.29
7.5
6.0
69
126 106
69.75
68 92
67 42
64 66
44.12
4.12
00
5.5
23
115500
67 52
66 97
65 98
63 55
51 80
4 82
00
55
30
115.500
73 86
71 59
71 09
68.57
37.02
22.32
00
55
109
115.500
37.74
34 19
2921
26 38
23 26
265
00
50
15
142.301
1664
12 28
7 88
6.41
5 31
042
00
5.0
21
159.917
16 92
11 37
7 09
572
4 96
028
00
50
30
152637
41 08
40 53
38 63
37 22
35 64
12.11
0.0
5.0
61
125.661
18 26
16 09
1341
12 58
11 92
529
00
50
10
166 363
9.61
696
4 70
4 20
4.06
096
00
50
13
179 574
9.40
7 28
5 14
4 43
4.03
0.79
00
5.0
33
194 251
29.70
27 97
2S 07
23 36
21 09
9 69
00
5.0
33
1S6.376
27.81
26 11
23 ia
21 76
20 27
9 79
00
50
33
166 366
26.67
25.05
22 05
20.42
1852
623
0.0
5.0
30
167 767
31 85
30 41
27 25
25 39
22.71
464
00
50
51
187.798
21 01
19 77
17 60
16 26
13 75
2 16
00
5.0
18
254.561
<836
17.27
15 39
13 93
11 62
1.65
00
50
25
256 462
19 97
17.52
14 42
1283
10 38
2 13
0.0
5 0
18
224.369
34 33
33 76
32.26
31 10
26 66
13 65
00
5.0
15
230 661
31 51
3081
29 16
27 87
25 53
11 20
CO
50
51
211.027
42.58
40 46
36 67
34 08
30.74
5 77
00
50
13
147 238
17.80
13 67
1034
9 15
759
066
0.0
50
10
152.602
14 23
956
636
5 32
4 96
0 40
00
50
20
154.004
1501
9.64
7.18
6 14
4.64
0.63
00
50
38
151 740
45 74
45 47
45.06
44 65
43 49
1671
0.0
5.0
36
108.936
62 54
6245
59 67
58 28
56 40
21 55
0.0
25
20
150 000
61 92
60.75
58 00
56 32
53.20
20 18
00
25
26
150 000
67 16
65.03
61.17
57.69
54 34
10 09
00
25
20
150 000
65 26
63 66
60.74
57 22
51 96
12 61
00
2.5
96
150.000
20 4?
17 80
15.09
1391
11 dd
4 64
160 0

20
156 706
15 10
12 84
10.44
9.53
8.01
3.86
1600

33
161 392
14 52
11 96
9.54
6.67
6 86
3.36
180.0

56
157 194
22 61
21 14
19 08
17.94
1542
9 42
160.0

IS
130 726
28 07
26 91
25 12
23 99
21 42
1327
1600

18
124 292
29 19
2136
27 26
26.60
24 83
17.24
1800

61
116 677
16 07
14 25
11.07
972
831
346
160-0
0.0
20
229 760
14 35
12 35
934
6 10
6 74
3.16
1800
00
44
225 100
H 60
10 13
7.66
8.64
5.56
2.63
180.0
00
43
230 362
10 31
824
565
4.76
31)
166
1800
0.0
55
223 833
23 99
23 13
20 90
1949
17 02
965
1800
0.0
41
224019
1949
1500
12 49
11.15
933
3.19
180 0

20
144 645
16 14
13 15
10 07
884
736
3 11
160 0

26
136.631
17.82
14 55
11 25
9 97
842
3 16
1600

16
140 366
17.80
14.0?
10 72
9.44
8.14
3.05
180.0

46
139.466
30 26
28 87
27 11
25 65
24 34
14 36
1600

25
123.646
33.49
32.61
31 20
30 06
26 16
17.66
1600

48
106 041
36 99
36 02
35.17
34 29
32.41
21.09
180 0

69
67906
U.08
1246
10 $9
963
836
3 23
160 0

18
262.241
11.79
10 47
9.06
6.20
7.15
3.06
1800

23
266.720
H-52
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files





Water
Water
Soil
Soil
Soil


Soil

Table
Table
Horizon
Particle
Comport
ProWe
Lab
0en$ity
Soil Watef Content {volume %) a! Indicated Capillary Suction
Depth
Duration
p
1
3
Diameter
Nam*
No.
No.
W cc)
3.Scm 20cm 30cm 45cm 60cm 80cm 100cm 150cm 200 cm
333 cm 15K cn -cm)
(mo.)
{cm)
(Mm)
TROUP
TROUP
TROUP
TROOP
TROUP
TROUP
TROUP
TROUP
TROUP
TROUP
TROUP
TROUP
TROUP
TROUP
TROUP
TROUP
TROUP
TROUP
TROUP
TROUP
TROUP
TROUP
TROUP
TROUP
TROUP
TROUP
TROUP
TROUP
TROUP
TROUP
TROUP
TROUP
TROUP
TROUP
TROUP
TROUP
UDORTHENTS
UDORTHENT3
UDORTHENTS
UDORTHENTS
UDORTHENTS
UDORTHENTS
UDORTHENTS
VALDOSTA
VALDOSTA
VALDOSTA
VALDOSTA
VALDOSTA
WA9ASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
11
11
13
13
13
13
13
13
20
20
20
20
20
2C
M
M
99
96
N
99
99
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
3
3
3
3
3
3
3
3
4062
4063
4064
4085
4024
4025
4020
4027
4020
4029
9339
6340
8341
6342
6343
6053
6054
6055
6054
©05?
6056
6059
7775
?nt
7777
7776
7779
7780
4692
4893
4894
4695
4896
4897
3901
9902
9903
9910
9911
9912
9913
7498
7499
7500
7501
7502
3067
3068
3069
3070
3071
3072
3073
3074
3075
3078
7024
7025
7026
7027
7028
7029
7030
7031
1 SI
1.60
1.58
i sa
1 50
1.62
1 58
1 54
1.56
1 64
1.72
1.86
1.65
1.95
1 63
1 67
1 67
1 36
1 69
1 58
1 62
I 63
1.64
1 67
1.34
I 59
1.81
1.54
1.85
1.58
1.52
1.56
1 88
1 87
•68
1.87
1 58
1.71
1 57
? 88
1.84
1 82
1 72
1.60
1 80
1.87
1 67
1 74
1 12
1 52
1 57
1 68
1 SO
I 51
I 67
1 71
1.74
1 72
1 54
\ 54
1.55
1.48
1 65
1.66
1 87
I 84
33	34
32.53
30tt
32	84
40.48
34	47
38 72
38 61
37 90
37 42
37 67
36	10
37	15
37	58
34 ee
34	75
36.22
45	50
32.10
35.76
33	74
32	49
31.99
33	83
46	91
36 78
35	71
36	44
34.78
38	00
33	97
35	10
34	39
32 64
32 99
32 07
29 64
32	89
31	26
37	26
34 40
40 32
33	99
38	56
38 07
34	74
33	81
31.27
52 26
34	90
32.97
34.11
37.85
44 96
36.80
38 04
36	63
38	25
4023
39	36
32.88
37.94
33 96
32	27
32.10
31.18
30	96
31	02
2S81
29	39
32	14
29.96
36.97
35	92
36	79
37.11
36	90
37	50
33.19
29.70
26	42
31	33
30.27
40 82
30.87
34.69
3t 01
30.85
30	06
33	01
32	92
29 78
31	22
2849
32	32
32	56
29	59
27	27
25.39
26 24
25 13
28	40
21	23
23.56
22	89
34.07
33	00
36	63
32 56
37.10
34	52
32	66
31.32
30.49
46 96
33	75
32.20
32.76
37	28
43 62
37.82
36	10
34	19
37	44
37	29
38	63
30	97
35	42
33 36
31	33
30 69
29	76
25 07
22	82
18.82
25	90
29 22
28 99
38 10
32 47
31.35
34.18
36	67
37.03
31.54
24.75
19	99
27	65
26	90
34	28
28	68
29	21
1951
25 22
25 92
30	95
24 55
23	96
24	58
20	48
31	15
31.00
20 84
19.12
17.94
12 71
19.35
24.69
1668
18 12
1737
3045
31 55
35	79
31 52
35.57
31	40
31.00
23 73
2587
48 69
32	34
31 52
32.12
37	10
42 37
36	23
35	08
33	07
35.79
37	03
36	31
29	93
34	81
33 36
31 24
30	83
29 56
15 52
16T87
1452
19	39
24.75
26.63
33	82
27	95
25.22
32 72
34	09
36 57
26.00
16.94
1552
25 56
2336
22 67
20	07
13 65
11 99
15	35
19 60
29	47
Id 47
17 30
17 21
13 97
28	96
28 76
1461
1307
11 17
850
16.24
22	13
^0 32
:247
11 48
24 36
30	58
28	56
29	43
32 53
23	89
27 17
16	75
17	22
47 76
31	25
29	95
30	56
36 20
42 65
35 89
35 79
32	S7
35 15
31	60
27 59
18.73
31	65
32	99
30 47
29.06
27 63
12.14
13.97
1255
1661
22.35
25.11
2366
1988
18.11
20 73
33 32
35 42
20	77
15	92
13 34
24 58
21	96
16	60
15	4?
13 13
9 U
10.50
16	83
28	42
1576
14.70
1434
11.07
27.94
27.57
*.3,00
r 08
9 17
7 03
1507
20 02
5 33
5 23
7 55
20 21
29	V
18 31
27	36
29 42
1833
23	10
13 73
13 14
4{ 46
24	41
25	32
29 45
34 33
42 31
3S57
34 46
32 13
34 23
25 02
11 76
952
27.65
31 61
28	49
26.38
24 18
10	14
It 92
It 23
14 64
20.44
2366
1666
16.51
1492
27.44
32	82
3507
17 56
14.01
11	92
23 85
20.97
1336
1220
10	14
741
7	49
14 65
27 49
13 19
1268
11	70
8	95
26 79
26 20
IIS!
9	57
7 87
5.94
13.70
19.75
435
7.3<-
659
16 69
26	35
1238
2709
27	29
14.55
20 80
^2 0'
<1.10
4354
1926
19	66
25	39
29	79
42 05
35.00
33	79
31 08
34	07
20	56
636
568
24 42
30	05
26	4?
23.46
20 95
9 15
10.85
10	4«
13 62
19	46
22	81
15 55
13 80
1246
25	73
32 34
34 73
18	04
12	90
11	16
23	20
20	12
11	91
1053
0.75
664
632
13.68
27 10
1205
11.75
'3 60
8 12
26	04
25	36
1061
8 88
7 22
5	43
13	22
19	10
4	II
6	57
5	53
14	80
27	51
12	32
26	26
26.06
(2.SI
10 89
10.94
988
3931
1537
1240
22.19
22 50
41 99
34.49
33 18
30 38
33.73
18	74
5 73
4 67
22 54
29 24
25 20
22 08
19	37
60S
9 63
929
1229
18.01
21.71
12	33
10	99
9.81
22 M
31	06
33 75
14	16
11	50
10 17
22 79
15	15
10	IS
e 86
747
5 74
5 11
1256
26 05
10.24
10.18
9.06
676
24	72
23.77
9.08
7.31
5.97
4	26
11.73
17.75
3 66
5	08
5 51
11	36
25	99
7	87
24 75
13	40
1027
15 74
964
8	27
32	05
.11.60
7.38
18.46
1629
41 66
33	88
31.76
29 44
33.12
1605
526
3 81
20.10
27.45
22 97
20 13
1752
7 42
660
* 8 66
794
8 68
7 77
11.56
1041
17.15
15 98
2096
19.73
11.23
992
976
644
8.68
7.50
2127
1070
30 33
29.02
33 07
3f 66
13 33
11 81
1001
9.45
9 43
8S2
'5 77
8 57
13 56
17.27
9 28
630
3 09
7.05
684
021
5 40
466
4 68
4.04
11 89
11 09
25 39
23 95
9 31
7.89
944
8.17
8 26
700
6.19
5 30
23.73
21 96
22.90
2C62
8 43
7 34
7.02
S 82
5.64
502
391
3 34
11.13
10.01
17.13
15.70
2 87
2 69
4.97
4.10
4.26
3 30
996
8 97
23 85
23 79
674
6 15
23 23
22.74
930
8.74
909
7.66
13 80
11 32
3 71
736
7 30
6.19
20 94
24.12
9 83
742
5 67
449
17.03
14 61
41.17
32 99
30.90
26 66
32 36
1363
466
322
17.61
25 23
20 86
16.56
16 <6
14.70
12.56
40 02
31 10
29 16
25 93
31 65
12 23
3 57
2.23
16 38
23 84
19 51
17.25
14 60
331	1600
467	160.0
448	1600
7 16	1600
10 41	160.0
1S.45	180.0
4.49	160.0
4 17	180.0
370	180.0
10 56	180 0
16 72	180 0
19.60	160 0
3.60	180.0
3.51	180.0
*0.19	1800
2.57	190 0
2.77	190 0
2.39	180 0
2 06	130 0
1.66	1600
543	(80.0
15 55	18C.0
1	78	180.0
2	09	180.0
2 83	160 0
209	180.0
14 14	180.0
13 29	180.0
1 73	160.0
1 79	160.0
I 66	160.0
C 97	180.0
5.33	180.0
872	1600
1.56	90 0
14.19	90 0
1	73	90 0
16 34	90 0
3.50	150 0
3.50	1300
4.28	190 0
3.01	180 0
1.64	180 0
5.46	30 0
226	30 0
1.30	30.0
4 62	30 0
2	94	30 0
20 66	30 0
1581	30.0
1293	30.0
1006	300
15 88	30.0
1 72	30.0
I 00	300
026	300
2.50	30.0
9 92	30 0
8 80	30 0
6.90	300
6 74	30.0
6.0
6.0
6.0
60
60
60
60
25
25
2 5
2.5
25
25
25
25
25
25
28
25
25
25
25
25
2.5
2.9
35
23
18
13
10
63
20
76
36
15
23
33
to
26
45
41
81
20
26
43
46
36
15
15
15
13
36
53
43
43
10
26
60
46
10
51
25
80
50
24
32
24
36
23
35
56
33
56
15
13
30
10
0
13
23
18
38
35
10
28
IB
20
13
30
16
35
275.133
267.665
257.086
2S4 3&4
227 543
206684
175.785
199 107
200.067
188 216
154	461
155	424
308 569
289 801
296 989
295 524
256	360
265625
257	911
267 068
257.434
277.319
300 564
226 220
319.585
307.331
299.419
342.136
269.424
247.839
452 062
432 497
543 824
613 708
634 500
501 026
500 295
420 966
241 526
329 227
350 064
316 850
285 360
3C5 709
299.026
277.366
279.644
306.865
131.006
135 764
137233
131.960
125.715
92203
102.662
115.265
125 874
104 387
165 964
167 753
162.066
167.370
141 271
152 181
155	449
156	441
H-53
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files
Water Water Soil	Soil
Soi	Soil	Table Table Horizon Particle
Component Profile Lab Density	ScJ Wate« Conteot (volume %) si Indicated Capillary Suction	Depth	Duration Thicknee® Oiamettf
Name	No. No. (t^cc) 35cm 20cm 30 cm 45 cm 60cm 8C cm 100cm 150cm 200cm 333 err iSKcm (cm) ("*>.)	(cm)	foim)
WA0A3SO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WA3ASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WASASSO
WABASSO
WABASSO
WABASSO
WABASSO
WA6ASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WASASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WABASSO
WaHEE
WAH£E
WAHEE
J
12
12
12
12
12
12
12
13
13
13
13
13
13
13
13
13
13
13
IB
10
16
16
16
16
16
16
16
17
I?
17
I?
17
17
17
17
17
17
17
17
17
17
17
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
34
34
34
7032
Si 16
5117
*111
5119
5120
5121
5122
550
551
552
553
554
555
5566
5566
5569
5570
5571
2231
2232
2233
2234
2235
2236
2237
2236
2230
3751
3752
3753
3754
3755
3756
3757
6414
6415
6416
6417
6418
6419
6420
6421
1727
1726
1729
1730
1731
1732
1733
1734
1736
3711
3712
3713
3714
3715
3716
3717
3718
3719
3720
3721
2362
2363
2364
1.57
1 40
1 60
159
1?1
1 63
1.04
1.66
1 05
1.40
1 57
1 62
1 45
1 56
1.13
t 50
1 58
1.57
1 62
1 31
143
1 52
1 46
1.61
1 72
1 71
1.77
1.75
1.16
1.40
1.66
1 54
1 54
1.67
1.73
1 11
1.40
1.50
1 63
1 43
1 56
1.77
1.50
1.44
1.43
1 46
1.78
1 56
1 61
1 75
1 70
1 68
1 14
1 49
1 54
1 60
1 67
1 66
1 66
1 60
1 79
1 60
I 72
1 46
1 57
1 99
33 97
40 76
31 44
36 04
33 03
30	50
3C36
3C.32
36 79
33	46
31	26
35 22
42 74
39	58
46 62
35	50
37.01
37.94
36	57
44.60
46.24
3641
46 22
36.86
3631
34	51
31	35
36.12
50 26
42.06
3631
40	53
40	06
33 93
37	21
55 S3
39 65
37 70
35	47
44 88
41	46
32	90
43.15
36.70
39	96
37.70
32	96
40	31
37.31
37 03
37 10
36	90
55.06
43.22
40 97
37.16
35	30
36	60
36 35
35.76
33	30
31 19
43.49
4348
38.17
3674
32 96
39 25
30.39
34 63
32	04
39 06
30 24
20.04
34	62
27 55
22.00
31.07
4061
33.42
36 20
33	46
34.50
36 45
3326
36 74
36	73
30 58
39	05
35	32
37	72
30	55
17.59
37 46
40	60
39	52
36	16
37	08
3471
31.92
36.63
45.76
36.12
34	02
35	14
38.90
37 49
31	10
30.96
36.14
36	76
36.00
31.73
30.03
36.44
34	64
36.54
36	22
51 30
40	36
37	32
36.10
33 92
35	32
37 74
35 51
32	72
30 28
4253
43 30
35 11
33	37
32.15
36.00
30 15
33	30
32 66
39 06
30 20
29.66
20	77
23	16
17 37
30	72
38	80
27 50
29 26
24	20
26.40
27 36
32	53
29 13
26 a
21	50
21 97
31	45
36 56
29 39
1743
35	37
34	22
31 26
26 28
29.31
31	06
29	44
35	70
39	65
35.08
32.72
34 41
36	49
35.63
30	93
36.99
34.66
36.14
35.76
31.55
38 69
36	13
34	42
36.19
37	61
48 22
37 69
35	13
34 58
33	70
34	71
37 66
35	34
32	61
30 26
42 46
43.02
34.36
32.72
29.16
33-66
22 60
31.60
30 66
36 71
30	00
29 06
27 83
19	42
11	48
2835
36	14
20	44
20 13
14	14
16	14
17	36
31	36
2327
17 87
12	16
15	24
19	3C
35 62
25	00
16.54
34	45
27 06
16.67
14.62
1820
20	56
10.00
35	40
32	56
24.85
26	28
29	61
30.70
34	72
30	85
38 39
25	31
26	05
30	54
31	60
37	97
33	39
34	26
35	90
37 46
46 63
31 17
26	45
27	52
26 99
31	65
37 50
35	24
32	57
30 08
42.40
4279
33	63
31.70
21.03
26.74
1662
29	17
26 01
38 56
28 75
26	92
24	47
1633
7 55
25	14
37 00
16 22
16 23
7 99
11 74
13 19
30.27
22 03
15	25
9.19
1291
16.22
34 36
22	53
15.56
32.44
23	56
<3.79
9.83
1446
16	71
1377
34	19
27	76
18.70
20	22
21	40
25 94
33 63
30	42
37 63
1692
15 51
24	60
31	66
35	57
25	78
33 66
35 72
37 29
44 17
23 20
1840
18 15
1906
26	92
37 01
35.10
3245
29.90
42.24
43 14
32.90
31.31
17.10
24 34
1200
26.1!
22 05
36 06
20.30
27.93
22 16
1300
6.50
2362
36 22
14 31
13.96
541
964
1< 41
29 44
19	50
13 31
704
11 76
1397
33 60
20	04
H 35
31	20
21	73
11 17
7.18
11 99
13 79
10	06
32	64
24	52
13.19
11	66
10.78
21 56
32.70
29 29
36 76
14.77
1046
20.90
31	20
32	35
19 22
33	53
35	44
36	73
40 67
17 38
13 16
11 75
13.96
25	83
36 49
35 03
32 42
29	55
42.05
40 51
32 02
30	97
1537
21 46
906
24 55
1869
37 65
28.00
27.44
21	30
11	21
621
23 20
35 94
1351
12	66
4	32
8.77
10.27
26.79
18.73
12.56
6 19
11.68
13.15
33 39
19	46
11	33
30	37
20	65
9 76
5	80
10 72
12	34
3 37
32	30
22	43
10 44
620
6	66
18.60
31	68
27 91
35.69
12.96
656
1951
29 23
29 25
15.63
33	20
34	71
36.05
37.41
1462
10.78
8 66
10 59
23	17
35	92
34 63
31 77
29	16
41 90
4022
31 64
30	67
1290
18	00
566
22 22
13 62
37 33
27 19
26	56
19	86
977
5 51
22.45
35 43
12.07
11.23
3.96
7.34
664
27	64
16	76
1060
4 73
937
11.26
33.01
17	16
'0 50
28.66
1866
6.28
4 80
9 15
10 55
6.82
31	42
t9 99
301
573
4 52
15 68
3021
26 22
34 58
11.07
662
17 47
26 72
24 16
12.46
31.71
32	65
34.19
33.10
1206
657
6.10
7.80
1946
34.67
34 28
31.07
28	44
40.98
39 34
30 85
30 24
11 49
*18.00
4	70
20 88
11 95
36 81
26	64
25 94
16 72
8	12
426
20 74
32 67
11 36
1032
354
6	87
839
27	36
16 30
1C 40
440
7	52
10.96
32	56
16.57
998
27.18
17.15
7 79
4.57
833
9	96
6 15
30	80
18 70
720
5	16
3 99
14 18
29	19
25 09
33	78
1027
6	41
16	93
25.97
22 50
11.49
30.92
31	33
3306
30.26
1074
7.53
5 15
6.77
17	26
3347
33.00
30.44
27 80
40.11
36.00
30	30
30.09
10.24
13.37
367
1691
10 00
35 40
25.56
24.55
15 66
806
330
10.66
30	40
10.58
10 02
3	53
5.91
7.63
26 45
~4 51
897
4	22
6	30
934
26 92
15 08
996
14	00
15	43
767
4	11
7	13
656
514
20 05
16.75
606
4.40
334
11.05
26.72
22 92
31	67
9.13
5	38
15 51
24.55
20 47
10 34
29 54
29	33
31 11
26 66
9 03
6	13
376
501
14 72
30	89
32.72
20.62
24 95
36 25
35.41
29 36
29 36
4 60 30 0
3 05 30 0
0	35 300
2.04 300
1.50 300
15 90	30 0
10.43 30 0
13.63	30.0
6	10	300
3	66	30 0
2.21	30.0
6.17	30.0
13 46 30 0
4.74	30.0
3.99	30.0
1	26	30.0
1	83	30 0
2	21	30.0
12	20	30.0
4	27	30 0
7	97	30.0
2 36	300
2	96	30 0
224	300
7 22	30.0
7 56	30.0
9 96	30 0
10.71	30.0
9.56	30.0
4 27	30 0
2.71	300
2.13	30.0
2.03	30 0
109	30 0
13	06	30 0
7 05	30 0
2.26	30 0
1.27	30.0
1 04	30 0
3	76	30 0
1533	30.0
12 57	30.0
19 53	30 0
3.60	30.0
207	30.0
1	82	30 0
7 12	300
6 90	30 0
2	66	30.0
1603	30.0
17 97	30 0
23 22	30 0
12 35	30 0
3	90	30.0
3 65	30 0
2.54	30 0
1.70	30-0
3 48	30.0
10 69	30 0
16.41	30 0
16.03	30.0
15 61	30 0
1510	300
24.46	30.0
19 60	30 0
28 SO	30 0
2.5
2.5
25
2.5
2.5
25
2.5
25
2.5
25
25
2.5
25
25
25
25
25
25
2 5
25
2.5
25
25
25
25
25
2.5
25
2.5
25
2.5
2.5
2.5
25
2.5
2.5
25
25
2 5
2 5
2 5
25
2 5
2 5
25
25
2 5
25
2.5
25
25
2.5
25
2.5
2 5
25
2.5
2.5
25
2.5
25
25
25
2.0
2.0
2.0
33
16
36
20
13
41
40
33
10
10
36
25
15
107
15
28
5
5
18
10
10
21
23
12
10
36
30
51
6
25
15
5
5
30
30
16
18
17
13
13
15
46
63
18
12
31
15
13
10
30
54
20
5
13
12
21
7
33
13
20
23
36
16
10
5
31
163 540
199 900
194 742
190.442
180 550
146.196
159.005
151 321
245.365
235	607
241.526
226.611
160.401
275.661
236	760
244.460
236 810
230 765
221 368
307 213
312.302
312.720
305 739
312.600
260 626
260 362
260 062
252 446
242 132
256 665
274 626
251 340
267 621
270 132
224234
220.076
210 300
211.673
210 360
206 720
171.147
166.176
151 050
160 944
170.674
172.864
151.231
156 527
158.905
135.321
111.714
105 879
238 806
240	732
230	31S
241	162
232042
225 106
192 706
196 707
204.446
231	526
243 603
45 022
30.350
34 451
H-54
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files
Water Wat*	Soil	Soil
Soil Soil Table Table	Horizon Particle
Component Profile lab Density ScJ Water Content (volume %) at 'ndieated Capillary Suetion Depth	Duration	Thickness Diameter
Name No. No. (g^cc) 3-5cm 20cm 30 cm 45 cm 60 cn 8C cm 100 cm 150cm 200 cm 333 cm 15Kcm (cm) (mo.)	(cm)	(pm)
wahee
34
2366
154
40 00
3942
39.06
36.54
36 51
WAHEE
U
2366
t 39
40 60
39 27
36 65
36-71
37 62
WAHEE
34
2387
1 67
42 02
42 10
41.94
41 50
41 96
WAUCHULA
10
7063
126
42 61
42.21
41.16
37 54
30.61
WAUCHULA
it
7064
1 61
37 03
35 66
35 81
35 86
35 41
WAUCHULA
18
7065
1 60
32 61
3257
32 33
32 01
27 06
WAUCHUIA
19
7066
1.57
37 15
36.71
36.41
35 56
31 60
WAUCHULA
1ft
7067
1 62
34.04
33 90
3260
32 54
31 72
WAUCHULA
16
7068
1 40
46.61
44.77
43 66
42 22
41 22
WAUCHULA
'B
7069
1 50
44.95
41.76
41.10
40.17
39 29
WAUCHULA
ta
7070
1 78
31 45
30 65
30 77
29 85
29 49
WAUCHULA
22
6134
1 39
46.22
45.06
29 94
14 75
10 34
WAUCHULA
22
6138
1.50
41.64
39 90
3257
13.15
8.20
WAUCHULA
22
6136
1 40
44 91
4474
44 56
42 86
42 64
WAUCHULA
22
6137
1 52
39.67
36 53
35 85
31 13
29.03
WAUCHULA
22
6136
1.53
36.23
34 97
33 81
27 57
22 35
WAUCHULA
22
6139
1.67
35 06
33 22
33 16
32.57
32.06
WAUCHULA
22
6140
1 65
35 47
33 93
32 49
28 90
26 95
WAUCHULA
22
•141
1 62
35 36
33 51
31 89
27.19
24 08
WAUCHUIA
60
2095
1.44
4354
37 96
35 13
26.20
20 92
WAUCHULA
60
2096
1.46
43 43
39 54
37 00
26 24
1899
WAUCHUIA
60
2097
1.53
40.13
38 26
36 00
26.22
20.72
WAUCHULA
60
2096
1.54
37.93
35 25
33 56
2979
24 ^3
WAUCHULA
BO
2090
1 52
3d 14
36 71
34.47
32 83
29 97
WALCKJtA
60
2100
*.49
35 32
34 42
32 64
29 69
24 65
WAUCHULA
00
2101
1 56
37 54
36 55
3421
31 66
25.79
WAUCHUIA
60
21C2
1.67
35 S6
34 22
33 31
28 97
22 15
WAUCHULA
60
2103
1.73
3$ 46
35 14
34 03
30 67
26 36
WAUCHUIA
60
2104
1.71
3551
35 53
35.31
34 10
33 51
WAUCHULA
60
2105
1.91
30 93
30 60
30.25
30 24
30 23
WAUCHULA
60
2106
1 74
36 53
35 77
35 56
3SS4
34 33
WAJCHUU
70
2516
1.43
4} 14
37.56
33 03
25 99
22 42
WAUCHULA
70
2517
1 59
33 09
30.76
30 22
26 64
18 72
WAUCHULA
70
2SI8
1.36
45 06
43 42
40 07
38 34
36 01
WAUCHULA
70
2519
1 50
39 85
37 89
34 94
29 17
24 19
WAUCHULA
70
2520
1 63
34 06
32 00
31.51
27 47
22 60
WAUCHULA
70
2521
1 72
37.47
35 03
33 22
32 35
31 66
WAUCHULA
70
2522
1 87
3? 02
30 01
29 24
26 4?
25 77
WAUCHULA
70
2523
1 86
34 67
31.79
31 40
31 37
31 25
WAUCHULA
60
2753
1 49
37 35
35 36
34 99
30 54
25 92
WAUCHULA
60
27S4
1 60
29 63
28 63
28 83
22 43
17 95
WAUCHUIA
dc
2755
1 61
31.76
30.14
29 31
23 56
17 06
WAUCHULA
60
2756
1.4$
41 65
38 23
36 19
37 26
35.76
WAUCHULA
60
2757
1.55
36 43
34 31
32 47
29 42
25 90
WAUCHULA
60
2756
1.65
34 04
31 89
31 85
28 70
25 17
WAUCHULA
60
2759
1.64
35 94
32 66
3261
31 76
31 09
WAUCHULA
60
2760
1 69
35.26
32 36
31 75
30.63
29 76
WAUCHULA
60
2761
1 80
32 88
30 36
29 21
2874
27.66
WAUCHULA
60
2762
1.67
37 S3
35 05
34.10
33.72
33.08
WAVELAND
3
2S51
136
41 SO
3C29
21 C7
1432
11 66
WAVELAND
3
2552
i.5a
40 15
34.17
22 54
11.99
7 98
WAVELAND
3
2553
1.64
36 72
3351
22 33
11.76
7 74
WAVELAND
3
2554
1 63
38 40
32 48
29 31
15 85
10 27
WAVELANO
3
2555
1 68
37 06
34 89
33 90
30.14
26.7?
WAVELAND
3
2556
!.60
45 17
4C.97
39 06
37.65
36 38
WAVELAND
3
2557
1.60
3631
34.03
32 42
27 33
24 24
WAVELANO
3
2556
1 56
41 95
37 72
29 66
17 14
13 91
WAVELAND
9
1924
1.34
45 79
36 21
27.33
18 12
14 07
WAVELAND
0
1625
1.4
30 99
35 26
24 61
14 91
10 83
WAVELANO
9
1826
1 54
36 28
33 61
27 12
15 19
960
WAVELANO
9
1827
1 57
36 97
35.67
30.72
21 39
1395
WAVELAND
9
1626
1 00
52 93
$1.51
5074
49 54
49 04
WAVELANO
9
1829
1 35
36.31
34 58
33 17
2943
26 71
WAVELANO
9
1830
1.53
30 39
26 64
26 07
13 78
14 12
WAVELANO
0
1831
1 66
33 15
3223
31 85
30 05
28 53
WAVELANO
9
1632
1 63
33 56
33 26
32 53
31 89
30 26
H
37.26
37.lt
36.61
36.62
36.70
31 29
300
2.0
50
29590
37 43
37 25
3667
*36 60
35 95
33 10
300
20
51
2963A
41.76
41 62
41 62
38 41
36 36
3529
300
2.0
56
28 353
23 96
19.42
15.03
1304
964
2-92
30.0
45
10
131.311
26 77
17 3fl
6 11
5 97
4 17
081
300
45
36
131 634
19.63
1595
11 99
10 57
6.70
V04
30 0
45
7
129716
25.36
20.16
13.85
11 82
9.56
2.62
300
4.5
15
139.619
24 19
17 42
11 17
9 39
7 42
1 76
300
4 5
13
131 465
36 42
35.07
3242
30.45
27.26
13.52
30.0
45
38
100.457
37 78
36 66
34 13
32 15
26 53
14.54
30.0
45
36
105.277
28 17
26 22
22 15
20 06
17 32
8 42
300
4 5
46
136 212
8 27
7.48
636
601
5 62
1 85
30.0
45
15
194.091
620
5.40
4.30
392
362
1 46
30.0
45
15
191.666
42 27
41 90
40 91
39 47
35 99
594
300
45
15
166 426
26 92
25 14
22 10
20 62
17.98
3.66
300
4 5
15
179 261
1691
17.15
15.09
1407
12 45
234
300
4.5
15
162 504
3C 65
29 64
27.64
26.74
25 37
656
300
4 5
15
166 429
25 01
23 20
19 85
17 99
15 30
3 43
300
4 5
15
179 151
2C 48
17 92
14.16
12 53
10.42
2.37
300
4.5
15
185.704
16 97
14 96
12.59
11.60
10 15
3.15
300
45
10
173 940
U 76
12 86
10 78
10 15
3 67
2 62
300
45
5
174 360
1553
12 94
10.70
993
8.78
2-16
30.0
4 5
16
173.210
2C CI
17 60
15 07
14.01
12.83
3 62
30.0
4.5
13
159 490
27 34
25 35
22 72
21 46
19 90
9 73
300
45
12
158 860
20 36
17 39
1450
1378
12.13
5.63
30.0
4.5
10
160 760
19 92
1706
14 12
12.90
11.17
4.22
30.0
4.5
13
162.420
1644
13 38
10 53
9 14
733
239
30.0
45
16
170 640
23 66
2073
19 32
18.09
1623
6.11
300
45
13
137 200
33.17
3293
32 30
31 96
31 26
16 11
300
4.5
15
135490
29 10
2667
26 03
27 43
2579
13 43
30.0
45
20
137.070
34 32
33 96
33 09
32 22
30 75
16 72
30 0
45
26
149 730
18 66
16 52
1345
12 48
1041
362
300
45
13
209.940
14 31
11.21
7 97
6 93
553
1.63
300
4 5
30
215.730
33 18
31 52
27 64
25 93
22 79
7 28
300
4 5
13
190.270
'9 59
16.70
1345
12 38
10.65
4 23
30 0
45
8
208 170
'G 69
12 19
634
7.4S
5 93
1.39
3C.0
4 5
25
2O2.6B0
3081
30.36
26 99
28 33
26.94
13.88
30.0
4 5
16
155.310
24 99
24 12
22 63
21 66
20 18
10 10
300
4 5
43
152 400
30 02
29 31
28 86
28.60
27 17
19 62
300
45
56
140.150
22 82
20.50
16 69
15 37
n02
4 11
30.0
4.5
13
225.400
14 DO
12&3
1026
926
7 34
2 11
30.0
45
7
220 2S0
12 87
10.32
7.64
669
5 23
1 34
300
4 5
16
22* 090
35 81
35 22
34.19
33 21
30 65
1C.04
300
4 5
10
196 110
21 92
19 30
16 65
15.57
13 44
541
30.0
4.5
12
215 120
2C 65
1756
1449
13.11
10 97
3 65
300
4.5
13
219 230
29 99
29 09
27.89
27.50
25.08
861
30.0
45
23
166.140
28 72
2761
25 91
24 35
21 21
627
3O.0
4.5
46
204,400
27.67
27 00
26 56
25.95
25 06
14.49
300
45
IS
158 950
32 93
32 51
31 92
31 63
30 34
21.94
300
4.5
46
170.060
10.50
9 83
9 42
9 14
643
4 32
300
2.5
16
341 964
6 12
5.50
5 14
4.85
4 50
2 83
30.0
25
26
315.366
5.97
556
4 95
456
4 46
1 80
30.0
25
45
321 939
6*3
7 14
6 30
5 50
4 61
1 19
30.0
25
18
304 921
25 33
23 64
22 15
21.24
19.55
282
300
25
10
326.647
34 66
33 97
32 35
31.03
26 50
10.34
300
2.5
36
316.530
22 06
20 50
1856
17 56
1574
5.10
300
2.5
39
296.003
1235
11 26
10 14
9 59
6 55
1.86
300
25
35
307 566
65
10.65
9.64
931
8.66
395
30.0
2 5
10
236 300
6 39
7 32
6 52
6 23
566
3.10
300
2.5
10
254.791
6 49
S 33
4 69
3 91
3 76
266
30.0
25
23
252 242
9 87
7.77
7.16
686
6.35
256
30.0
25
36
249.470
46 34
47.60
46.75
46.00
44 28
13 14
30.0
25
21
214 635
24 37
22 99
21 64
20 53
18 28
651
300
25
22
228 740
10.51
852
6 50
5.47
5 39
4 77
300
2.5
11
230 657
26 74
25 36
23 31
22 15
18.53
926
30.0
25
10
217.387
27 58
26 36
24 19
23 01
21 88
1343
30.0
25
23
214 189
55









-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files
Wa!#f	WMw	Soil Soil
Soi Soil Table	Table	Horizon Particle
Comporvert ProMe Lab Density Soil Watef Content (volume %} at Indicated Capillary Suction Depth	Duration	Thickness Diamaler
Name	No, No. (Qfcc) 3.5 cm 2Ccm 30cm 45cm 60 cm 60cm 100cm 150cm 200cm 333 cm iSKcm (cm)	(mo.)	(cm)	(nm)
WAVELANO
WAVELAND
WAVELANO
WAVELAND
WAVELAND
WAVELAKO
WAVELANO
WAVELANO
WAVELANO
WAVELAND
WAVELAND
WEEWWACHEE
WEEKJWACHEE
WEEKIWACHEE
WEEKIWACHEE
WESCONNET
WESCONNET
WESCONNET
WESCONNET
WESCONNET
WESCONNET
WESCONNET
WINDER
WINDER
WINDER
WINDER
WINDER
WINDER
WINDER
WINDER
WINDER
WINDER
WINDER
WINDER
WINDER
WINDER
WINDER
WINDER
WINDER
WINDER
WINDER
WINDER
WULFERT
WULFEOT
WULFERT
WUlFERT
ZOLFO
ZOLFO
ZOlFO
ZOLFO
ZOLFO
ZOLFO
ZOLFO
ZOLFO
ZOLFO
ZOLFO
ZOLFO
ZOLFO
ZOLFO
ZOLFO
ZOLFO
ZOLFO
ZOLFO
ZOLFO
ZOLFO
ZOLFO
0
0
25
25
25
25
25
25
25
25
25
!5
15
IS
15
24
24
24
24
24
24
24
6
e
6
e
6
12
12
12
12
12
12
12
31
31
31
31
31
31
31
6
6
0
6
5
S
5
5
S
5
5
6
e
e
6
6
«
U
1333
1fi34
2461
2482
2443
2464
2465
24M
2467
2488
2480
3379
3380
1381
0382
2002
2503
2604
2605
2606
2607
2608
7051
7052
7053
7054
7055
7056
5685
5668
5667
5668
5846
5870
5671
1030
1040
1S4I
1042
1043
1044
1045
3150
3180
3161
3162
5222
5223
5224
5225
5228
5227
3518
3510
3520
3521
3522
3523
3524
3473
3474
3475
3476
3477
3478
0300
183
1 67
1 37
i et
t 68
I 74
1.88
160
1 71
1 72
1.75
0.21
0.16
0.11
1 23
1 40
1 40
1 46
1.57
1.68
1.66
1.51
1 34
1 47
1.66
1.53
1 64
1 60
1 20
1 53
1 55
1 55
I 71
1 64
1 50
1 16
I 56
1 54
1 50
1 67
1 63
I 56
O.ifl
Clfl
021
026
1.3S
1.44
1.45
1 50
1 67
1 54
1 53
1.52
1.54
1.54
1.62
~71
t 62
1 38
1 30
1.54
1 62
1 60
1 63
1 38
34	08
33 88
37	44
35	02
38.78
38	73
37	88
36.28
38	36
30 77
36.54
66 37
97 42
01 50
45 32
44 73
44 73
43 se
42.40
36	28
39	32
43	64
44	03
40	73
33 60
4247
39 6»
30 25
46.70
32	00
33	74
41.64
37.78
35	48
30 88
51.01
37	81
39 44
44 08
36.04
36	00
43	31
88 66
87 23
62 26
6* .87
42.15
37	01
41.72
30 15
38	53
44	26
37.33
37 08
37 26
36 33
39	43
3d 34
40	72
36 36
26 68
35 64
34	63
41	71
38.77
47.50
34	83
32	56
36 12
33.05
35	02
35 08
35	85
34 78
36	67
36 23
36 14
83	15
84	66
63 60
4261
42.87
42.87
42 47
30 68
34	60
36	10
41 63
42.53
30 85
33	56
42.44
30 65
30 23
45 38
30	21
31	25
38	53
35	63
3215
38.74
46.40
37	50
38.69
4306
39	40
36	19
41 36
08.77
84 98
81 88
83 63
3663
32	46
40	47
38	04
35	18
40	27
36	01
38 86
36	89
35.17
37.50
37	66
30.81
35.00
24 20
33.21
34	33
41	10
38	20
45.62
32	64
3061
34 04
31 16
34	74
33	03
35	56
34	22
36	18
35.42
35	27
81	11
82	33
01.65
41 66
39 82
30 82
4071
30	46
34	26
35	68
41 33
41 76
39	81
33	45
42.31
39.58
30.14
44.51
26 18
27.89
38.31
35 50
31	40
37	60
47 46
35	00
38	12
43	03
38 43
37	71
41 35
84 34
S3 45
&C54
79 33
3263
26 74
38	57
37.24
32	86
37 85
36	85
36	01
35 72
34/»6
37.37
37	10
30 67
34	04
23 ^0
3*83
34 20
40	53
38.13
44	43
30	07
28 12
28	43
10 30
27	38
31	85
29	10
30	15
32	II
31	36
31	60
76	34
77	64
77.72
40 69
2891
26.01
36	32
36.73
3256
33	97
38	65
33.76
33 90
32	80
4V99
39	50
35	98
41.14
1? 35
19 10
37	60
33	67
30 24
36	06
43 00
28	48
32 86
42 60
37.CO
35	99
39 50
8341
62 23
80 09
78.75
22 63
20.70
22 82
26.70
31.07
36	67
3565
35.35
34	44
30 51
36	30
37	03
3040
30 23
19.86
25.05
20.04
39 47
37 61
37.46
27 66
26	56
14 66
10.18
13 06
29 85
1582
10.57
20 88
29.15
27.36
74 12
75.86
76.04
39 22
24 42
24	42
27	'4
25	31
18 10
31	64
35 17
38	23
27	47
28	33
41 98
39	37
38 76
37 63
13 22
13 30
37 05
33	43
29	36
30	15
41	06
1346
28.33
42	75
37.15
35	07
34	53
61 23
80 54
79.56
78.34
16.65
15.15
13.0ft
1423
27.12
34 33
34 36
27.87
23.31
23 80
32	00
36	90
37.54
2331
16	99
17	45
21 38
23 95
32.00
2507
23.45
21 63
10 30
564
9 28
28	06
10	58
13 56
U 37
27.60
26 24
71	10
72	33
71.72
38	36
2C 64
20.84
21 71
96.26
<2 23
29	63
30.33
36 07
20	17
23	02
4^.80
39	18
36 65
33 04
10.06
3 24
38.4 0
32	56
28	15
29	06
36 51
6 69
19 47
42.03
36 10
31 98
21	36
78 86
78 43
78 32
77 42
13.50
11	76
6 69
7.47
24	16
31 25
24.60
16.22
16	12
16.80
25	22
36 06
33	42
17.10
1484
1233
1432
17	05
23 06
1563
10.74
1632
0 16
300
7.68
25 72
8.76
11.70
1050
25.36
24 11
60 94
72	24
60 40
34	43
18 38
18	36
19	17
15 56
10.06
28 30
2626
35	04
U.89
i9 60
4C.42
30	16
36	62
31	00
831
725
35	64
32	20
27	06
27.00
36.07
534
1005
41 60
36	22
28	75
1560
76.05
78 38
7590
75.03
12	00
10 12
726
566
2307
29	96
10	35
1335
11	40
11	87
13.75
21 17
23 43
14.57
13	59
073
1061
12	70
1070
12.67
13.72
12	66
0.07
2.70
6 11
21 64
7.04
6 56
006
21.14
2024
67.66
68 45
65.16
33	87
15	77
1577
16	58
13	05
8	50
26 96
21 80
30	60
9	31
15 90
36 54
39 10
36.24
26	47
6.75
5 66
34	96
31	20
25 57
25 42
35.00
533
15.46
41 06
35.15
24 67
13.05
73.4$
72 65
71.77
70.69
10	20
0 44
5 70
432
21 04
27	34
14	30
035
7	76
7 68
786
12 4C
14 74
1126
11	79
747
7 34
9.07
14 31
10.13
12 1!
'11 89
5	13
254
543
20 03
6.37
7.44
760
1966
1735
66 16
66 67
6215
32.44
14 42
14.42
1520
11 88
7.76
25 89
1931
27 26
7	58
1363
35 07
38 25
37 18
23	76
6	10
5	02
34 15
30 35
24	47
24	32
33 23
4.78
14 33
4062
33.06
21.90
11	23
72 12
71 64
71 00
70 34
0.30
7.47
4 47
366
10.77
25	88
12.53
7.69
6	56
6 24
6 57
10	56
12	57
000
11	17
6 72
650
8	37
12	87
0 24
10.10
11	23
2 10
2-13
454
17.56
5	43
473
6	87
894
823
61 18
50 12
37	17
26 69
12	67
12.67
13	62
1041
7.11
23 59
17.24
22.27
5 79
11.22
32.07
34.67
3574
20.50
5 31
4 12
33 25
20.41
23.07
22 61
30 42
421
11 09
38	54
3216
18 99
10 03
4331
46 42
52	62
53	90
797
624
4	02
2.87
15 03
18 11
10 28
626
5	13
4 ao
4.01
8.11
10.27
008
063
554
5.27
5.70
1066
764
4	00	30 0
633	300
1	58	300
1.56	30.0
2.17	30.0
5	86	30.0
3 27	30 0
2	26	30.0
3	86	30 0
4	94	300
4M	30.0
8 33
7.30
S.00
620
5 46
75
7.5
75
75
150
5.46	15 0
310	150
190	150
1.05	150
8	33	15 0
4.18	15 0
7.00	30 0
0 78	30 0
4 00	30 0
16.42	30 0
22.17	30 0
26 08	30 0
400	300
0.40	3G.0
0	20	300
15	90	30.0
14.24	300
10.15	30.0
7.43	300
13.10	3C.0
1	81	30.0
9	07	30.0
23 04	30.0
16	70	30.0
8 17	300
1.14	30.0
4	84
5	32
571
6	80
7.5
75
7.5
75
1.66	67 5
I 17	675
0	90	87.5
0.38	07.5
4 36	67 5
9 07	87 5
4.61	325
1.66	62 5
1	37	92 5
1.29	92 5
0	86	82 5
1	54	82 5
2	22	82 5
3.66	82 5
352	625
2.09	82.5
1.81	62.5
126	82 5
2.5
25
25
25
25
25
25
25
25
25
25
60
6.0
6.0
60
45
45
4.S
4.5
4.5
45
4.5
35
3.5
3.5
3.5
35
3.5
4.5
4 5
4 5
4.5
4.5
45
4 5
3.5
35
35
35
35
3.S
35
6.0
6.0
60
e.o
35
3.5
35
35
3.5
35
3.0
3.0
30
3.0
30
30
30
30
3.0
30
30
30
30
30
22
13
2
54
38
15
18
20
21
IS
20
20
21
30
20
5
20
41
15
31
71
20
13
10
10
43
53
66
15
15
15
15
15
15
15
20
16
7
26
38
38
56
5
25
61
112
15
15
15
15
15
15
16
23
30
43
46
13
30
18
18
40
04
10
23
13
210.830
108310
217.182
253.730
255.663
262.017
262.968
256.400
256516
216 365
105.327
154 260
154 260
154 260
154 260
153	79|
152 056
152 720
158 783
160.022
154	386
148.940
76.070
114 560
90-230
60.250
72360
36 320
104.480
200.004
206 283
146 307
170.704
172.253
171 500
117.467
147.586
132 511
114.084
120 202
120 045
143 238
149.112
140 112
149 112
149	112
154 205
156 022
156 891
151 533
154.672
150	431
142 454
14 f 014
140.017
144.010
145 680
144.382
142 756
160.751
167.706
168.511
169.863
158.442
150.084
189.458
H-56
-------
Table H-l (Continued)
State-Wide Soil Horizon Physical Properties from STATSGO Data Files
Soil
Component
Name
Prolie
No.
Lab
No.
Soii
Density


Soil Wat©* Content fvolume at Indicated Cap Suction


Water
Table
Depth
(cm)
Water
Table
Duration
(mo.)
Soil
Horizon
Thickness
(cm)
Soil
PartoJe
Diameter
(nm)
(^cc)
3.5 cm
20 cm
30 cm
45 en*
50 err
60 cn
10C cm
150 cm
200 cm
333 cm
i5K cm
ZOLFO
14
6400
143
4390
42.36
42.19
37 36
20.67
14 69
10.51
7.73
6.78
5.43
1.16
825
30
23
167.033
ZOLFO
14
6401
t 40
41.56
36 65
36 50
33 62
25 11
966
6 63
434
360
2 74
0 73
625
3 0
78
167 072
ZOiFO
14
6402
1.51
4254
40.11
37.85
33 50
21 90
10 11
660
4.72
403
200
066
62 5
30
36
164 0C5
ZQ\SQ
14
6403
1 50
45.27
41.15
3903
2661
18.80
1066
863
6.16
545
4 95
074
825
30
20
166.900
2CLFO
14
6404
1.4?
41.65
39 56
36 10
26 56
1952
10 53
7 67
570
466
386
C 76
82 5
30
33
170 032
ZOLFO
22
3002
1 24
37 43
29 00
23 87
15 55
11 60
965
8 59
7.31
6 70
S 66
1 40
600
40
13
180 «f
ZOIFO
72
3603
140
30.60
36 17
90 36
16 78
1050
« 14
7.01
560
5.20
4 33
1.04
60.0
4.0
35
179 443
ZOLFO
22
3604
1 50
3697
37 42
37.42
1652
10.12
7.06
600
555
5.0S
426
0.63
80.0
4.0
31
176.2*3
ZOLFO
22
3605
1.52
39 76
39 76
36 76
21 56
066
651
544
4 18
3 76
2 80
0 47
80 0
40
60
182 635
ZOLFO
22
3606
1 60
39 78
39 76
36 76
21 56
966
651
5 44
4 16
3 76
2 60
0.47
60 0
4.0
7
173 206
ZOLFO
22
3607
1.54
4296
42 07
41 J7
40 60
30.76
3669
37 70
36 43
34 42
30.31
4.17
SO 0
4.0
26
163 064
ZOLFO
£3
41S6
1.46
4347
41 61
41 50
40 44
27.26
16 21
10 67
7 71
663
5.93
1 77
825
3.0
16
134 301
ZOLFO
33
4157
1 56
40 64
39 10
36 96
36 51
32 03
19 02
II 74
9 46
8 11
605
66
625
30
10
137 760
ZOLFO
33
4159
1 50
41 03
39.96
30.44
34 03
25 06
1427
10 10
7 05
630
5.45
1.22
62.5
3.0
25
135554
ZOLFO
33
4150
1.51
43 71
41 96
41 53
39 90
29 U
15 55
10 76
704
7 02
566
004
82 5
30
26
13? 825
ZOLFO
33
4160
1 56
30 60
36 15
36 06
36 90
30 17
17 53
10 44
6 80
5 74
468
064
62 5
3.0
49
136 400
ZOLFO
33
4161
1 58
4COO
39 40
36 68
37 67
31 65
1760
9.60
621
5 43
460
0 55
82 5
30
35
133 545
ZOLFO
33
4162
1 65
41 56
40 22
30 35
36 8 1
32 53
1906
12. $9
709
6 53
6 14
327
82 5
3.0
36
136 471
-------
APPENDIX I
RADON POTENTIALS OF INDIVIDUAL SOIL SERIES FROM RnMAP
Table 1-1 Radon Potentials Calculated by RnMAP
	for Florida Soil Series	
abb
Soil
imCi/y per
(cold geol.)
(hot geol.)
Series
pCi/g eman. Rn)
(mCi/y)
(mCi/y)
Adamsville
3.1463
0.0861
0.66B4
Alaga
3.3368
0.1124
0.9179
Albany
3.5B34
0.0322
0.1190
Alpin
3.1933
0.1966
1.7246
Anclote
2.8400
0.0372
0.0587
Apopka
3.9930
0.0428
0.2734
Arents
4.1269
0.1425
1.1584
Arredondo
3.6521
0.0402
0.2488
Astatula
2.9348
0.1812
1.5933
Almuiu
3.0944
0.0318
0.0454
Bafinpc-r
3.0603
0.0352
0.0901
Bayvi
2.4130
0.041 5
0.0577
Bunndcik
3.3560
0.0284
0.1562
Iiibb
2.3473
0.0390
0.0421
Bigheu
2.6773
0.1246
1.0548
Biscayni:
0.9135
0.0985
0.5798
Blanlon
3.8610
0.0667
0.4870
Blichton
3.95C0
0.0291
0.0291
Boardman
2.1660
0.0448
0.0620
Boca
2.7404
0.1041
0.7284
Bohk'ket
0.6462
0.0578
0.0578
Bonneau
3.7607
0.0213
0.0317
Boulognt-
3.0S80
0.0357
0.1183
Brickyard
1.1446
0.0458
0.0458
Brighton
0.0596
0.0427
0.0438
Buccaneer
0.4452
0.0581
0.0581
Canaveral
2.9570
0.0801
0.5960
Candler
2.7425
0.1840
1.7089
Canova
1.1765
0.0317
0.0319
Centenary
3.0300
0.1330
1.1337
Chaii«s
3.3759
0.0334
0.0795
Chekika
0.4701
0.5778
5.2200
Chewacla
2.3770
0.0392
0.0463
Chiefland
2.5220
0.3857
3.4800
Chipluy
3.3769
0.1097
0.8792
Chobee
1.4127
0.0425
0.0426
Clarendon
4.7767
0.0432
0.1938
Copt'land
2.0290
0.0389
0.0425
Corolla
3.4644
0.1095
0.8906
Cowaits
4.0360
0.0373
0.1251
Cracker
0.3683
0.0546
0.0636
Dade
2.3060
0.3625
3.2905
Dania
0.1246
0.2077
1.6640
Dorovan
0.3612
0.0251
0.0284
Dothan
4.3768
0.0332
0.0727
DufctLt
3.6850
0.1508
1.2920
Eaugallie
3.0769
0.0295
0.0539
Ellabeliu
1.8340
0.0362
0.0362
-------
Table 1-1 (Continued)
Radon Potentials Calculated by RnMAP
	for Florida Soil Series	
abb
Soil
Series
(mCi/y per
pCi/geman. Rn)
'cold geol)
' mCi/y)
(hot geol.)
(mCi/y)
Elloree
3.0063
0.0301
0.0302
Fscamhia
3,7810
0.0304
0.0458
Estero
1.1372
0.0719
0.3623
Kunola
3.9105
0.0337
0.0788
Faceville
3.2194
0.0423
0.0462
Felda
2.7254
0,0341
0,0402
Flemington
1.5867
0.0496
0.0496
Florala
3.938B
0.0277
0.0291
Floridana
2.5502
0.0366
0.0366
Fluvuquents
2.0990
0.0357
0.0492
Fort Meyers
2.6500
0.0547
0.3651
Fripp
2.19£7
0.1281
1 .0414
Fuquay
4 3352
0.0605
0.3899
Gainu-ivilW
2.8940
0.1361
1 .1510
Garcon
2.3250
0,0280
0.0330
(later
0.5677
0.0301
0.0301
Goldhead
2.8648
0,0323
0.0353
Greenville
4.3930
0,0315
0.0614
Griflan
2.4994
0.0322
0.0324
Hallandale
1.1239
0.7762
7.1252
Handshoro
0 6091
0.0182
0.0207
Hi con a
2.1730
0.0393
0.0393
Homosassa
C.6698
0.0575
0.0697
Horstoan
0.1919
0.0406
0.0406
Hurricane
3.5828
0.1090
0.8754
Hydraquents
C. 5622
0.0570
0.0611
fmmokak'n
3 3865
0.0413
0.1908
•Joncsviilf
3.6050
0.0897
0.6706
K align
0.5132
0.0353
0.0353
Kuliniu
3.4746
0.0449
0,2271
Kanapaha
4.0650
0.0272
0,0272
Kfendrick
3.6380
0.0395
0.2033
Kershaw
2.6245
0.1867
1.651 5
Kuylargo
0.1192
0.0442
0.0440
Kingslnnd
0.0577
0.0428
0.0441
KinsUin
2.1805
0.0409
0,0434
Krome
0,4988
0.6928
6.3310
Kvnt'b
2.7990
0.1 659
1.5549
Lake
2.7710
0.1835
1.6110
Lakeland
3.1368
0.2024
1.7760
Lauderhill
0.2565
0.0326
0.0728
Loon
3,4676
0.0529
0.2750
Lochloosa
3.8507
0.0213
0.0216
Lovett
4,0477
0.0197
0.0205
Ijtwndes
4,5200
0.0824
0.6037
Lucy
4,0421
0.0660
0.4472
Lynchburg
3,3750
0.0305
0.0328
Malabar
3.4180
0.0277
0.0362
-------
Table 1-1 (Continued)
Radon Potentials Calculated by RnMAP
for Florida Soil Series
abb
Soil
imCi/y per
(cold geol.)
(hot geol.)
Series
pCi/'g eman. Rn)
(mCi/y)
(mCi/y)
Malbis
3.4200
0.0283
0.0283
Mandarin
3.1373
0.0563
0.3756
Margate
2.2050
0.5789
5.2810
Masco lie
3.7343
0.0351
0.1251
Matlacha
3.1 736
0.1115
0.8985
Maurupus
0.2538
0.0277
0.0300
Meadow brook
2.5190
0.0270
0.0270
Mcgpi.lt
2.3828
0.0404
0.0404
Micanopy
2.771 5
0.0360
0.0360
Millhopper
3.7963
0.0391
0.2306
Moriali
3.0600
0.1333
1.0761
Muckalee
2.4090
0.0383
0.041 5
Myakka
3.2993
0.0459
0.2385
Nankin
3.7900
0.0347
0.0347
Neilhuist.
2.7940
0.2185
1.9430
Newhan
2.5046
0.2038
1.8150
Nittaw
0.9687
0.0426
0.0426
N'obleton
3.4710
0.0237
0.0237
Nut all
2.0226
0.0405
0.0473
O'lcnu
1.9580
0.0352
0.0360
Ochop«e
0.8792
0.4064
3.61 51
Ocilla
3.6230
0.0251
0.0274
Olusk'c
1 .7520
0.0348
0.0348
Orangehuiy
3.9686
0.0588
0.3556
Orsino
3.0913
0.1 348
1.1475
Ortega
3.1 965
0.1053
0.8675
Osier
2.9550
0.0377
0.1364
Otela
3.5601
0.0599
0.4321
Ousluy
3. -.363
0.1046
0.8386
l'actolus
3.6823
0.0685
0.4504
Pahokm
0,2680
0.0314
0.0460
Palm Beach
2.8144
0.2158
1.9139
Pamlico
0.3638
0.0363
0.0532
Paula
2.9848
0.2020
1.7863
Peckish
0.6894
0.0419
0.0667
Pedro
2.4200
0.3029
2.6000
Petham
3.2842
0.0283
0.0340
l'ellicer
1 .7840
0.0370
0.0372
Penney
2.6356
0.1834
1 .6078
Pennsucu
1.1410
0.0401
0.0401
l'epper
3.8542
0.0299
0.0405
Purrine
0.6399
0.0526
0.0555
Pickncy
3.0068
0.0378
0.0672
Pineda
3.2104
0.0308
0.0563
Placid
2.5610
0.0470
0.1872
Plantation
1.1030
0.2368
1.9880
Plummet-
3.0555
0.0330
0.0507
Pomcllo
3.3337
0.0959
0.7655
-------
Table 1-1 (Continued)
Radon Potentials Calculated by RnMAP
	for Florida Soil Series	
abb
Soil
(mCi/y per
(cold geol.)
(hot geol.)
Series
pCi/geman. Rn)
'mCi/y)
(mCi/y)
Pomona
3.5782
0.0248
0.0365
Pottsburg
2.9732
0.0391
0.1466
Quaitzipsament
3.1160
0.1958
1.7250
Red Bay
4.3930
0.0315
0.Q614
Redkvul
3.8450
0.0991
0.7698
Kidgt-land
3.188C
0.0437
0.2272
Ridgownod
3.8744
0.0969
0.7610
Kiverview
3.4820
0.0378
0.1517
Riviera
2.24 04
0.0302
0.0302
Rutlfge
3.0130
0.0393
0.0618
Samsula
0.3091
0.0335
0.0403
Sapulo
2.64C8
0C294
0.0335
Satellite
2.4176
O.C-411
0.1608
Scrarilon
3.3329
0.0570
0.3375
So finer
2.6500
0.0547
0.3651
Shudevitx-
3.5797
0.1016
0.7342
Strath tin In
4.0360
0.C373
0.1 251
Smyrna
3.1779
0.0474
0.2620
Span-
2.4387
C.04 6S
0.1583
Si Augustir.e
2.7930
C. 1438
1.2305
Si. Johns
1.9130
0.0397
0.0398
Slimturvil'.e
3.3200
0.0252
0.0252
Surreney
1.8172
0.0426
0.0429
Tavares
3.3258
0.1350
1 .1434
Terra Ceiu
0.1418
0.0401
0.0401
Tidewater
2.4473
0.0774
0.4413
Tifton
3.9058
0.0284
0.0610
Tisonia
0.2847
0.0277
0.0282
Tomoka
0.1612
0.0357
0.0357
Totilus
2.1 139
0.0379
0.0499
XOITJ'
0.2793
0.0281
0.C308
Troup
3.9084
0.1 125
C.9152
Udorthcr.t
4.0233
0.0504
0.1209
Udorthents
4.2620
0.1995
1 .7070
V'aldfista
3.0290
0.1 994
1 .7230
Wahasso
3.2786
0.0469
0.2206
Wacahoota
2 3540
0.0431
0.0507
Wahee
1 .9140
0.0456
0.0456
Water
O.COOO
0.0000
0.0000
Wauchula
3.3033
0.0292
0.0304
Wuvcland
4.0528
0.0275
0.0536
Weekiwacheo
0.1 581
0.0521
0.1514
Wesconr.ett
2.6990
0.0327
0.0340
Winder
2.3038
0.0322
0.0322
Wulfuit
0.-.219
0.0433
0.0433
Zolfo
3.4128
0.0623
0.4378
-------
Table 1-2
Radon Potentials Calculated by RnMAP
for Florida Soil Scries
b	b*
(Disturbed
Bone Valley)
(mCi/y)
4.2735
Soil
(Bone Valley)
Series
(mCi/y)
Adamsville
1.2069
Apopka
0.4795
Arents
1.8935
Arredondo
0.4341
Astatula
3.5520
Basinger
0.1712
Candler
3.5410
Canova
0.0319
Chobee
0.0428
Eaugallie
0.0539
Pel da
0.0402
Floridana
0.0366
Gator
0.0301
Hontoon
C .0406
Hydraquents
0.0611
Immoka lee
0.3344
Kaliga
0.0353
Kendrick
0.3504
Lake
2.9427
Malabar
0.0362
Matlacha
1.6365
Millhopper
0.4006
Myakka
0.6687
Neilhurst
3.5541
Nittaw
0.0426
Orsino
2.0891
Paola
3.2656
Pineda
0.0797
Placid
0.3208
Pomelio
1.5030
Pomona
0.0365
Samsula
0.0429
Satclhu.'
0.2721
SelTner
0.6484
Smyrna
0.8042
Sparr
0.2676
Tavares
2.0760
Terra Ceia
0.0403
Tomoka
0.0357
Udorthent
0.1802
Wabasso
0.2206
Wauchula
0.0304
Waveland
0.0747
Winder
0.0322
Zolfo
0.9056
0.061 1
3.6850
8.0809
0.3613
b* Values are shown only for soil scries that overlay the disturbed
region of the Bone Valley F ormation
1-5
-------
No.
1
2
3
8
9
10
1 1
1 3
1 4
1 5
1 8
20
22
24
26
27
28
31
33
36
37
38
40
46
49
50
51
54
57
59
60
61
63
64
APPENDIX J
CALCULATED RADON POTENTIAL
DISTRIBUTIONS BY MAP POLYGON
Table J-l
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Geom.	HeT. House
Mean	Geom.	Radon Potential (mOi/yr)	Indoor Radon
Statsgo Geology No. of Radium	S.D.	at Specified Confidence Limit		at 95% C.L.
No. Class Points (pCi/g)	Radium	50% 75% 90% 95% (pCi/L)
32
Tre1
20
Tre1
5
To2
1 1
Tci1
6
Tci1
5
Tci1
5
Tci1
5
Tre1
8
Qal1
5
To2
34
Tab1
21
To2
3
Tci 1
5
Tci1
4
Tci 1
23
Tre1
21
Tci 1
3
Tci1
5
Tci1
1 1
Tci1
2
Tci1
1 1
Tcii
5
Tci1
11
Tci1
5
Tci1
6
Tci1
5
Tci1
5
Tci1
26
Tcii
5
Tci1
16
Tcii
24
Tcii
33
Tab1
21
Tcii
5
Tcii
24
Tab1
193
0.449
166
0.705
29
0.703
24
0.308
21
0.187
11 4
0.484
140
0.410
1 1
0.454
693
0.266
43
0.400
223
0.588
226
0.397
236
0.591
789
0.343
72
0.544
76
0.530
219
0.344
67
0.509
160
0.401
16
0.442
65
0.238
49
0.357
241
0.357
18
0.471
273
0.390
73
0.246
656
0.381
95
0.395
1 2
0.328
106
0.356
185
0.540
1 9
0.446
80
0.268
130
0.321
341
0.367
1 6
0.498
1.694	0.573
1.609	0.810
1.381	0.933
2.530	0.407
2.606	0.194
1.703	0.582
1.702	0.476
1.358	0.514
2.742	0.265
2.225	0.568
1.627	0.786
2.220	0.334
1.846	0.686
2.295	0.423
1.744	0.696
1.534	0.690
2.167	0.268
1.894	0.591
2.035	0.47B
1.687	0.544
2.460	0.276
2.060	0.446
2.153	0.438
1.618	0.574
2.084	0.472
2.586	0.268
2.025	0.458
2,527	0.522
1.892	0.447
2.019	0.427
1.903	0.764
1.599	0.558
3.011	0.183
2.157	0.241
2.079	0.442
1.437	0.623
T 1
0.756	0.960
1.061	1.323
1.159	1.378
0.685	1.082
0.337	0.558
0.795	1.025
0.650	0.859
0.630	0.773
0.458	0.762
0.853	1.261
1.028	1.307
0.517	0.785
0.996	1.375
0.667	1.019
0.943	1.222
0.879	1.091
0.417	0.626
0.843	1.145
0.722	1.046
0.734	0.933
0.422	0.657
0.655	0.988
0.665	0.986
0.768	0.982
0.714	1.022
0.438	0.724
0.687	0.971
0.876	1.419
0.641	0.864
0.622	0.880
1.139	1.479
0.717	0.919
0.334	0.619
0.388	0.575
0.662	0.961
0.754	0.930
1.086
1.5
1.498
2.0
1.498
2.0
1.511
2.1
0.792
1.1
1.252
1.7
1.013
1.4
0.882
1.2
1.059
1.5
1.625
2.2
1.557
2.1
1.081
1.5
1.655
2.3
1.366
1.9
1.449
2.0
1.235
1.7
0.830
1.2
1.445
2.0
1.355
1.9
1.118
1.6
0.878
1.2
1.226
1.7
1.258
1.7
1.140
1.6
1.353
1.9
1.007
1.4
1.224
1.7
1.859
2.5
1.082
1.5
1.120
1.6
1.796
2.4
1.055
1.5
0.877
1.2
0.745
1.1
1.241
1.7
1.052
1.5
-------
No.
73
75
76
78
79
80
81
82
83
85
S9
90
92
93
94
96
97
100
101
103
105
108
109
110
112
114
115
116
120
122
128
130
131
133
134
135
136
137
139
140
141
145
147
148
151
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Geom.	Ref. House
Mean	Geom.	Radon Potential (mCi/yr)	Indoor Radon
Statsgo Geology No. of Radium	S.D.	at Specified Confidence Limit	at 95% C.L.
No. Class Pointa (pCi/g)	Radium	50% 75% 90% 95%	(pCi/L)
32
Tab1
24
Tci1
24
Tci1
5
Tcil
24
Tab1
24
Tci1
26
To2
5
Tci1
6
Tci1
6
To2
24
Tci1
26
Tab1
26
Tci1
33
Qall
22
Tci1
23
Tci1
5
To2
21
To2
34
Trel
4
Toil
26
Tci1
57
Tab1
1 5
Tci1
5
To2
1 5
Tcil
34
Tre1
1 9
To2
34
To2
4
Tcil
26
To2
97
Tcil
53
Tab1
1 7
Tcil
97
Qal1
21
Tcil
5
Tab1
24
Tcil
5
Tcil
26
Tab1
19
Tab1
23
To2
33
Tcil
24
Tcil
24
Tcil
2
Tcil
28
0.550
45
0.291
17714
0.293
135
0.279
291
0.370
183
0.404
21
0.290
4
0.290
43
0.364
4707
0.350
131
0.543
44
0.498
843
0.306
31
0.443
300
0.351
1 1
0.371
6
0.345
38
0.413
1 3
0.432
59
0.411
45
0.230
20
0.422
26
0.227
1 1
0.335
37
0.359
221
0.545
1 1
0.546
89
0.648
21
0.405
4707
0.350
17714
0.293
5200
0.341
60
0.319
2
0.383
29
0.340
36
0.416
17714
0.293
116
0.325
1 6
0.343
26
0.231
4707
0.350
7
0.331
111
0.447
84
0.305
17714
0.293
1.395	0.685
1.877	0.360
2.601	0.385
2.588	0.343
2.066	0.479
1.861	0.508
2.613	0.508
2.691	0.365
1.692	0.369
3.008	0.432
1.649	0.718
1.628	0.695
2.303	0.426
1.796	0.275
1.870	0.444
1.640	0.459
1.484	0.439
2.115	0.333
1.881	0.561
1.686	0.494
3.007	0.346
1.529	0.512
3.014	0.330
2.293	0.478
1.846	0.472
1.605	0.708
1.239	0.212
1.507	0.947
2.341	0.533
3.008	0.655
2.601	0.138
2.391	0.306
2.303	0.415
1.063	0.155
2.097	0.262
1.663	0.484
2.601	0.404
2.461	0.405
2.631	0.523
2.525	0.098
3.008	0.609
1.602	0.200
1.582	0.567
2.125	0.392
2.601	0.336
0.834	0.974
0.503	0.683
0.666	1.072
0.585	0.968
0.702	1.039
0.743	0.989
0.791	1.283
0.668	1.281
0.492	0.640
0.777	1.457
0.953	1.195
0.904	1.180
0.677	1.016
0.399	0.553
0.620	0.833
0.617	0.795
0.567	0.720
0.516	0.815
0.810	1.103
0.642	0.859
0.624	1.144
0.651	0.810
0.600	1.022
0.735	1.115
0.648	0.860
0.909	1.196
0,296	0.416
1.164	1.447
0.827	1.306
1.082	1.888
0.240	0.429
0.482	0.788
0.641	1.017
0.217	0.303
0.403	0.601
0.654	0.852
0.671	1.105
0.664	1.058
0.883	1.497
0.165	0.300
1.065	1.751
0.269	0.382
0.706	0.895
0.587	0.855
0.545	0.913
1.076
1.5
0.834
1.2
1.451
2.0
1.332
1.8
1.298
1.8
1.168
1.6
1.849
2.5
2.013
2.7
0.755
1.1
2.104
2.8
1.403
1.9
1.331
1.8
1.316
1.8
0.702
1.0
1.012
1.4
0.943
1.3
0.857
1.2
1.017
1.4
1.416
1.9
0.975
1.4
1.641
2.2
0.944
1.3
1.458
2.0
1.542
2.1
1.061
1.5
1.385
1.9
0.513
0.8
1.630
2.2
1.745
2.4
2.668
3.6
0.610
0.9
1.087
1.5
1.276
1.8
0.419
0.6
0.792
1.1
1.011
1.4
1.460
2.0
1.465
2.0
2.172
2.9
0.425
0.7
2.584
3.5
0.485
0.7
1.020
1.4
1.091
1.5
1.212
1.7
T O
-------
No.
156
157
158
159
171
173
176
181
193
194
197
198
203
207
208
212
213
215
216
223
224
227
230
233
235
237
238
241
242
243
246
247
250
252
254
255
256
260
262
263
264
268
272
275
278
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Statsgo Geology No. of
No. Class Points
Geom.
Mean
Radium
(pCi/g)
Geom.
S.D.
Radium
Radon Potential (raCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCI/L)
23
23
5
32
97
1 7
5
17
26
5
21
26
26
24
24
23
1 7
34
3
17
1 1
23
1 7
5
34
21
21
24
1 7
26
5
1 1
26
23
17
21
21
5
20
33
21
23
34
5
1 1
Tab1
Tab1
Tci1
To2
Tab1
Tci1
Tci1
Tci1
Tab1
Tcil
Tci1
To2
Tab1
Tci1
Tci1
To2
Tci1
Tre1
Tci1
Tci1
Tre1
Tre1
Tci 1
Tab1
Tre1
Tab1
Qal1
Tci1
Tab1
Tabl
To2
To2
Tab1
Tro1
Tci1
Tab1
Qal1
Tci1
Tro1
Tcil
Tab1
Tre1
To2
Tcil
Tre1
135
523
208
150
112
66
37
96
5200
44
25
23
367
45
1 8
24
173
56
31
528
22
75
206
137
26
1 2
526
265
24
25
16
16
5200
91
156
19
43
17714
28
25
5200
859
40
35
859
0.383
0.328
0.395
0.498
0.332
0.321
0.540
0.133
0.341
0.350
0.257
0.342
0.303
0.435
0.414
0.579
0.374
0.384
0.279
0.366
0.481
0.610
0.418
0.414
0.277
0.584
0.099
0.569
0.477
0.322
0.480
0.616
0.341
0.290
0.363
0.446
0.375
0.293
0.547
0.175
0.341
0.524
0.538
0.588
0.524
1.730
2.274
1.991
1.590
2.482
2.220
1.553
3.990
2.391
2.029
2.628
2.394
2.416
1.589
2.020
1.571
2.098
1.895
2.796
2.089
1.499
2.012
1.845
1.779
3.222
1.455
3.818
1.813
1.432
1.628
1.476
1.349
2.391
2.719
2.067
1.431
1.878
2.601
2.491
3.554
2.391
1.795
1.535
1.453
1.795
0.486
0.440
0.477
0.764
0.158
0.420
0.645
0.231
0.489
0.419
0.206
0.585
0.431
0.538
0.539
0.845
0.494
0.487
0.316
0.481
0.587
0.888
0.531
0.479
0.399
0.442
0.102
0.764
0.583
0.422
0.623
0.827
0.492
0.419
0.475
0.330
0.271
0.370
0.685
0.140
0.271
0.712
0.771
0.702
0.675
0.657
0.686
0.680
0.954
0.264
0.629
0.841
0,419
0.794
0.623
0.351
0.867
0.701
0.698
0.794
1.079
0,719
0.706
0.587
0.695
0.733
1.339
0.733
0.682
0.791
0.579
0.181
1.081
0.710
0.549
0.776
0.986
0.801
0.703
0.684
0.416
0.410
0.614
1.147
0.256
0.460
0.976
0.963
0.892
0.920
0.866
1.060
1.025
1.185
0.463
0.928
1.061
0.825
1.234
0.915
0.585
1.340
1.119
0.861
1.179
1.384
1.018
0.980
0.973
1.016
0.891
1.898
0.999
0.918
1.479
0.766
0.340
1.461
0.859
0.707
0.945
1.148
1.252
1.163
0.976
0.516
0.576
1.054
1.919
0.474
0.729
1.305
1.199
1.094
1.237
1.017
1.352
1.243
1.333
0.668
1.218
1.246
1.337
1.631
1,146
0.866
1.832
1.464
1.015
1.562
1.537
1.319
1.184
1.468
1.255
1.013
2.416
1.230
1.112
2.128
0.889
0.545
1.767
0.980
0.807
1.083
1.268
1.645
1.608
1.226
0.617
0.750
1.382
2.600
0.725
0.952
1.551
1.343
1.261
1.547
1.4
1.9
1.7
1.8
1.0
1.7
1.7
1.8
2.2
1.6
1.2
2.5
2.0
1.4
2.1
2.1
1.8
1.6
2.0
1.7
1.4
3.2
1.7
1.5
2.9
1.3
0.8
2.4
1.4
1.1
1.5
1.7
2.2
2.2
1.7
0.9
1.1
1.9
3.5
1.0
1.3
2.1
1.8
1.7
2.1
-------
No.
280
281
282
283
285
287
289
292
293
294
297
299
304
306
308
309
310
31 1
314
315
316
318
326
327
332
334
337
338
341
342
346
347
348
349
350
351
355
356
358
361
362
365
367
369
370
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Statsgo Geology No. of
No. Class Points
Geom.
Mean
Radium
(pCi/g)
Geom.
S.D.
Radium
Radon Potential (raCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
I	5
21
95
57
34
5
97
23
21
23
5
26
26
II
17
23
16
34
34
23
1 7
21
97
5
21
32
97
26
1 7
1 8
34
23
23
63
26
18
34
1 1
25
1 6
16
21
84
21
21
Tci1
To2
Tro1
Tab1
Tro1
Tab1
Tab1
Tci1
Tro1
Tro1
Tci1
Tab1
Tab1
To2
Tab1
Toil
Tci1
To2
Tro1
Tre1
Tci1
Tro1
To2
Tci 1
Tab1
Tro1
Tabl
Tci1
Tci1
Tcil
Tsm1
Tsm1
Tsm1
Thccl
Tro1
Tci1
Tsm1
Tsm1
Tro1
Tci1
Tci1
Tci1
Thccl
Tci1
Tab1
17714
55
46
5200
1 163
5200
25
554
1163
210
51
64
39
54
33
17714
17714
6
23
859
302
35
9
17714
27
4
5200
17
173
17714
64
50
93
61
43
32
70
120
25
32
43
29
26
13
83
0.293
0.216
0.044
0.341
0.369
0.341
0.368
0.361
0.369
0.543
0.698
0.283
0.208
0.609
0.388
0.293
0.293
0.417
0.298
0.524
0.370
0.411
0.436
0.293
0.295
0.200
0.341
0.433
0.393
0.293
0.571
0.397
0.480
0.485
0.512
0.248
0.578
0.571
0.517
0.502
0.535
0.606
0.998
0.289
0.445
2.601
2.724
3.032
2.391
2.423
2.391
1.512
1.999
2.423
1.775
1.427
1.937
2.297
1.917
1.645
2.601
2.601
2.119
2.623
1.795
1.867
1.857
1.979
2.601
2.199
3.588
2.391
1.977
1.821
2.601
1.502
1.705
1.656
1.992
1.422
2.268
1.417
1.758
1.555
2.195
1.677
1.596
1.371
2.285
1.936
0.422
0.193
0.000
0.448
0.503
0.420
0.152
0.467
0.294
0.737
0.869
0.380
0.292
0.894
0.469
0.407
0.422
0.638
0.409
0.699
0.474
0.315
0.202
0.371
0.229
0.308
0.155
0.624
0.496
0.448
0.742
0.503
0.628
0.057
0.689
0.391
0.745
0.754
0.678
0.736
0.731
0.469
1.252
0.224
0.352
0.873
0.315
0.000
0.741
0.823
0.711
0.222
0.690
0.498
1.039
1.091
0.541
0.450
1.269
0.624
0.665
0.685
0.933
0.686
0.977
0.649
0.452
0.319
0.613
0.360
0.606
0.269
0.904
0.672
0.676
0.938
0.676
0.828
0.081
0.849
0.528
0.906
1.041
0.912
1.143
0.968
0.654
1.505
0.362
0.514
1.089
0.524
0.000
1.166
1.336
1.109
0.320
0.967
0.808
1.359
1.351
0.746
0.677
1.693
0.806
1.099
1.138
1.436
1.147
1.298
0.857
0.661
0.531
1.047
0.538
1.314
0.470
1.288
0.908
1.027
1.156
0.872
1.065
0.131
1.008
0.750
1.090
1.367
1.120
1.683
1.289
0.877
1.789
0.574
0.725
1.472
0.755
0.000
1.541
1.684
1.394
0.408
1.198
1.086
1.669
1.513
0.950
0.870
2,065
0.955
1.509
1.466
1.961
1.687
1.559
1.061
0.816
0.725
1.415
0.728
2.488
0.626
1.598
1.101
1.329
1.277
1.047
1.236
0.172
1.115
0.913
1.210
1.637
1.290
2.270
1.494
1.015
2.003
0.787
0.952
2.0
1.1
0.1
2.1
2.3
1.9
0.6
1.7
1.5
2.3
2.1
1.3
1.2
2.8
1.3
2.1
2.0
2.6
2.3
2.1
1.5
1.2
1.0
1.9
1.0
3.3
0.9
2.2
1.5
1.8
1.8
1.5
1.7
0.3
1.5
1.3
1.7
2.2
1.8
3.1
2.0
1.4
2.7
1.1
1.3
-------
No.
371
372
377
381
382
387
38B
391
393
394
397
398
399
400
401
403
407
409
410
416
421
423
425
426
428
433
435
437
441
448
453
454
460
464
468
476
477
478
481
487
490
491
492
493
496
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Statsgo Geology No. of
No. Class Points
Geom.
Mean
Radium
(pCi/g)
Geom.
S.D.
Radium
Radon Potential (tnCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
16
21
23
97
97
84
23
32
90
97
21
22
97
34
90
23
1 1
23
21
90
34
21
1 5
32
63
21
34
26
34
23
44
34
23
23
5
34
23
26
44
25
97
21
44
3
83
Tci1
Gail
Tci1
Tab1
Tabl
Tc1
Tab1
Tsm1
Tc1
Tab1
Tci1
Tab1
Tab1
Tchatl
Qui
Tab1
Tchatl
Tci1
Tsml
Thcd
Tro1
Tab1
Tcil
Tsm1
Thccl
Tci1
Tchatl
Tab1
Tchad
Tab1
Tci1
Tro1
Tchatl
Qal1
Tab1
Tsm1
Tchatl
Tro1
Tab1
Tro1
Tab1
Tci1
Tci1
Tci1
Thccl
45
69
37
27
80
1782
164
441
20
47
24
246
60
409
528
65
409
211
40
87
19
5200
25
441
87
5
6
5200
409
2
17714
1163
409
3607
54
441
21
1163
1 0
20
24
37
399
230
87
0.465
0.331
0.537
0.492
0.286
0.254
0.310
0.516
0.484
0.230
0.651
0.459
0.342
0.376
0.552
0.276
0.376
0.195
0.435
0.602
0.447
0.341
0.452
0.516
0.602
0.640
0.450
0.341
0.376
0.129
0.293
0.369
0.376
0.134
0.200
0.516
0.372
0.369
0.211
0.388
0.306
0.419
0.186
0.510
0.602
1.708
2.674
1.683
1.494
2.638
2.624
2.230
1.659
1.450
2.827
1.483
1.912
1.987
2.341
1.924
2.089
2.341
2.878
1.645
1.986
1.599
2.391
1.444
1.659
1.986
1.615
1.773
2.391
2.341
6.786
2.601
2.423
2.341
4.141
3.143
1.659
1.499
2.423
2.911
2.254
1.662
2.124
2.794
1.779
1.986
0.615
0.272
0.724
0.211
0.135
0.297
0.413
0.653
0.339
0.111
0.520
0.604
0.150
0.520
0.409
0.356
0.500
0.280
0.321
0.459
0.564
0.279
0.569
0.667
0.063
0.504
0.599
0.493
0.509
0.237
0.385
0.494
0.511
0.211
0.271
0.677
0.456
0.548
0.311
0.550
0.132
0.339
0.275
0.573
0.754
0.824
0.483
0.946
0.303
0.238
0.497
0.633
0.869
0.433
0.202
0.671
0.847
0.235
0.829
0.625
0.524
0.772
0.485
0.447
0.695
0.720
0.445
0.695
0.858
0.096
0.717
0.795
0.795
0.804
0.764
0.618
0.829
0.804
0.435
0.474
0.891
0.575
0.892
0.496
0.878
0.191
0.517
0.417
0.784
1.109
1.072
0.815
1.245
0.439
0.427
0.793
0.944
1.115
0.552
0.367
0.854
1.218
0.378
1.262
0.884
0.761
1.234
0.810
0.604
1.027
0.927
0.727
0.838
1.094
0.158
1.031
1.134
1.232
1.286
2.636
0.957
1.330
1.337
0.897
0.887
1.163
0.714
1.423
0.824
1.330
0.277
0.784
0.673
1.076
1.519
1.300
1.132
1.490
0.549
0.601
1.086
1.205
1.280
0.626
0.547
1.003
1.396
0.510
1.607
1.089
0.964
1.670
1.134
0.709
1.315
1.089
0.931
0.942
1.255
0.228
1.322
1.459
1.626
1.663
8.021
1.264
1.700
1.701
1.462
1.307
1.310
0.824
1.827
1.205
1.703
0.357
1.014
0.889
1.264
1.934
1.8
1.6
2.0
0.8
0.9
1.5
1.7
1.8
0.9
0.8
1.4
1.9
0.8
2.2
1.5
1.4
2.3
1.6
1.0
1.8
1.5
1.3
1.3
1.7
0.4
1.8
2.0
2.2
2.3
10.5
1.7
2.3
2.3
2.0
1.8
1.8
1.2
2.5
1.7
2.3
0.6
1.4
1.3
1.7
2.6
-------
No.
497
507
51 1
513
516
51 9
522
526
527
528
529
531
532
534
535
540
541
554
555
557
558
562
563
564
565
569
580
591
595
598
601
603
607
608
609
624
633
635
638
649
654
657
658
659
662
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Geom.	Ref. House
Moan	Geom. Radon Potential (mCi/yr)	Indoor Radon
Statsgo Geology No. of Radium	S.D. at Specified Confidence Limit		at 95% C.L.
No. Class Points (pCi/g)	Radium ~ 50% 75% 90% 95% (pCi/L)
83
Tc1
23
Tro1
23
Tro1
23
Tab1
85
Thccl
29
Tab1
5
Tci1
23
Trm1
34
Trm1
23
Tro1
21
Qal1
23
T rm1
22
Tci1
32
Tro1
85
Qui
57
Tro1
23
Tabl
86
Qui
34
Tro1
85
Qui
33
Qal1
26
Qa!1
5
Qal1
34
Trm1
23
Tab1
34
Tchatl
34
Tci1
23
Tci1
23
Tci1
93
Qui
25
Trm1
17
Qal1
85
Qui
18
Tci1
5
Tab1
29
Tci1
197
Qh1
1 8
Tci 1
34
Tsm1
23
Tchatl
23
Tro1
86
Qh1
21
Toil
97
Tab1
86
Qh1
57
0.472
161
0.394
85
0.289
28
0.340
87
0.602
250
0.523
103
0.485
22
0.284
444
0.288
22
0.638
25
0.353
133
0.298
165
0.400
22
0.433
53471
0.155
99
0.315
133
0.293
67
0.085
130
0.430
82
0.568
27
0.533
58
0.128
32
0.365
32
0.378
5200
0.341
33
0.518
17714
0.293
138
0.409
74
0.445
133
0.622
53
0.272
1 7
0.465
171
0.453
253
0.272
397
0.317
17714
0.293
210
0.109
17714
0.293
4
0.545
6
0.544
14
0.495
10
0.151
23
0.241
1 2
0.471
3834
0.171
1.784	0.551
1.794	0.509
2.225 0.382
1.585 0.425
1.986 0.655
1.945 0.688
1.734	0.587
3.013	0.419
2.328	0.374
1.412	0.865
2.106	0.276
2.499	0.415
1.834	0.497
2.074	0.576
3.814	0.178
2.640	0.419
2.109	0.389
3.550	0.036
1.752	0.560
1.703	0.590
1.739	0.331
3.408	0.208
1.597	0.415
1.717	0.475
2.391	0.475
1.790	0.699
2.601	0.399
2.063	0.554
1.575	0.563
1.483	0.587
2.101	0.361
1.495	0.569
1.765	0.447
2.233	0.415
2.259	0.392
2.601	0.387
3.605	0.000
2.601	0.457
1.808	0.730
1.263	0.698
1.341	0.632
2.763	0.040
2.541	0.194
1.845	0.210
3.644	0.042
0.734	0.981
0.695	0.928
0.577	0.892
0.542	0.681
0.968	1.372
0.978	1.326
0.795	1.065
0.734	1.366
0.608	0.919
1.038	1.250
0.429	0.643
0.661	1.045
0.707	0.966
0.834	1.247
0.348	0.697
0.727	1.219
0.560	0.832
0.044	0.058
0.737	0.981
0.780	1.043
0.471	0.672
0.368	0.697
0.553	0.688
0.637	0.833
0.754	1.167
0.964	1.299
0.677	1.076
0.831	1.151
0.727	0.902
0.742	0.940
0.523	0.781
0.720	0.882
0.615	0.796
0.565	0.774
0.608	0.907
0.645	1.013
0.000	0.000
0.677	1.021
1.039	1.508
0.795	0.909
0.744	0.855
0.051	0.068
0.326	0.532
0.327	0.511
0.058	0.093
1.200
1.7
1.083
1.5
1.110
1.5
0.791
1.1
1.736
2.4
1.634
2.2
1.269
1.8
2.055
2.8
1.225
1.7
1.388
1.9
0.840
1.2
1.429
2.0
1.148
1.6
1.611
2.2
1.175
1.6
1.693
2.3
1.017
1.4
0.077
0.2
1.182
1.6
1.210
1.7
0.839
1.2
1.067
1.5
0.789
1.1
0.988
1.4
1.532
2.1
1.471
2.0
1.496
2.0
1.489
2.0
1.058
1.5
1.056
1.5
0.976
1.4
0.998
1.4
0.959
1.3
0.963
1.4
1.169
1.6
1.328
1.8
0.000
0.1
1.338
1.8
2.046
2.8
1.007
1.4
0.947
1.3
0.089
0.2
0.758
1.1
0.692
1.0
0.138
0.3
T C
-------
No.
667
671
680
682
684
692
700
703
708
722
724
727
728
740
742
743
744
74 5
751
752
755
758
764
766
769
772
777
783
785
787
792
802
803
807
817
819
824
825
829
831
835
840
852
853
855
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Geom.	Ref. House
Mean	Geom.	Radon Potential (mCi/yr) Indoor Radon
Statsgo Geology No. of Radium	S.D. at Specified Confidence Limit	 at 95% C.L.
No.	Class Points (pCi/g)	Radium 50%	75%	90%	95%	(pCi/L)
84
Qui
9
Toil
13
Qal1
25
Tchatl
32
Trol
97
Tro1
21
Qal1
90
Tc1
29
Tci1
33
Tab1
7
Qal1
23
Tab1
18
Tab1
26
Tab1
55
Tci1
20
Tchatl
7
Qal1
51
Tci1
86
Qh1
87
Qd1
1 3
Qall
86
Qh1
85
Tc1
52
Tmc1
26
Tab1
29
Th1
52
Tci1
17
Qall
87
water
57
Tmc1
52
Tmc1
51
Tmc1
38
Tchad
1 8
Qall
56
Th1
50
Tmc1
54
Tchatl
17
Tcil
57
Trm1
50
Th1
97
Tsml
55
Th1
54
Tab1
23
Tab1
50
Thl
104
0.424
74
0.373
3607
0.134
55
0.216
1163
0.369
30
0.332
3607
0.134
31
0.420
17714
0.293
5200
0.341
3607
0.134
5200
0.341
5200
0.341
82
0.443
17714
0.293
20
0.451
26
0.144
1 8
0.474
1 2
0.365
1 3
0.274
39
0.273
3834
0.171
59
0.400
2711
0.434
261
0.406
154
0.304
452
0.385
23
0.103
31
0.549
2711
0.434
509
0.267
2711
0.434
409
0.376
3607
0.134
42
0.374
2711
0.434
24
0.104
17714
0.293
16
0.267
24
0.342
441
0.516
5302
0.319
51
0.214
5200
0.341
1 3
0.494
2.347	0.501
2.082	0.528
4.141	0.167
2.882	0.304
2.423	0.503
2.081	0.146
4.141	0.126
1.881	0.301
2.601	0.390
2.391	0.223
4.141	0.127
2.391	0.461
2.391	0.509
1.677	0.615
2.601	0.362
1.711	0.481
3.938	0.132
1.476	0.557
2.332	0.055
2.839	0.366
2.605	0.296
3.644	0.042
1.830	0.383
2.307	0.575
2.277	0.600
2.071	0.374
2.024	0.478
3.867	0.189
3.109	0.710
2.307	0.596
2.842	0.347
2.307	0.563
2.341	0.000
4.141	0.297
2.183	0.351
2.307	0.546
3.826	0.181
2.601	0.403
2.491	0.344
1.786	0.388
1.659	0.225
2.745	0.405
2.345	0.288
2.391	0.482
1.983	0.615
0.776	1.244
0.734	1.000
0.358	0.745
0.550	0.949
0.796	1.247
0.239	0.379
0.260	0.543
0.434	0.628
0.640	1.018
0.363	0.565
0.243	0.507
0.749	1.188
0.722	1.049
0.804	1.008
0.606	1.003
0.643	0.835
0.255	0.514
0.694	0.869
0.077	0.127
0.576	0.876
0.491	0.829
0.058	0.092
0.543	0.749
0.934	1.480
0.933	1.435
0.550	0.780
0.718	1.020
0.329	0.596
1.270	2.338
0.955	1.465
0.632	1.113
0.901	1.373
0.000	0.000
0.473	0.880
0.536	0.786
0.880	1.323
0.312	0.609
0.648	1.022
0.579	0.961
0.553	0.715
0.338	0.502
0.712	1.225
0.437	0.659
0.745	1.156
0.905	1.287
1.642
2.2
1.270
1.8
1.118
1.6
1.398
1.9
1.667
2.3
0,509
0,8
0.869
1.2
0.774
1.1
1.409
1.9
0.798
1.1
0.786
1.1
1.550
2.1
1.387
1.9
1.234
1.7
1.383
1.9
1.003
1.4
0.894
1.3
0.983
1.4
0.172
0.3
1.257
1.7
1.160
1.6
0.135
0.3
0.899
1.3
1.850
2.5
1.911
2.6
1.006
1.4
1.278
1.8
0.964
1.4
3.540
4.7
1.856
2.5
1.575
2.1
1.820
2.5
0.000
0.1
1.301
1.8
1.022
1.4
1.767
2.4
0.933
1.3
1.384
1.9
1.299
1.8
0.828
1.2
0.615
0.9
1.669
2.3
0.846
1.2
1.541
2.1
1.601
2.2
T <7
-------
No.
856
858
861
862
865
874
879
881
883
887
893
894
898
899
900
901
902
90S
908
909
91 1
917
920
921
924
932
933
935
937
939
940
943
944
945
946
950
955
957
959
962
967
981
990
991
994
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Statsgo Geology No. of
No. Class Points
Geom.
Mean
Radium
(pCi/g)
Geom.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ri'f. House
Indoor Radon
at 95% C.L.
(pCi/L)
23
23
20
50
23
23
53
23
30
57
23
19
52
57
34
50
50
34
5
90
23
50
50
34
17
50
30
84
23
50
50
29
50
23
19
50
50
97
54
13
51
53
50
1 9
52
Tro1
Trm1
Tchad
Tmc1
Tab1
Tsml
Th1
T rm1
Tro1
Thl
Tci1
Tab1
Th1
Tci1
Tci1
Th1
Tmc1
Trol
Tab1
Qui
TchaM
Th1
Tme1
T rm1
Tcil
Tmc1
Trml
Qh1
Tab1
Th1
Tmc1
Tci1
Tmc1
Tcil
Qal1
Th2
Tmc1
Tcil
Thl
Qal1
Th1
Th2
Tmc1
Tab1
Tmc1
14
444
6
234
5200
441
5302
444
1 3
5302
17714
5200
5302
1 1
49
1 5
2711
1163
5200
66
89
5302
2711
444
3
2711
63
29
5200
131
37
17714
140
17714
29
78
230
I	7
20
3607
163
II	2
774
5200
52
0.261
0.288
0.088
0.451
0.341
0.516
0.319
0.288
0.356
0.319
0.293
0.341
0.319
0.465
0.396
0.164
0.434
0.369
0.341
0.293
0.527
0.319
0.434
0.288
0.397
0.434
0.288
0.392
0.341
0.531
0.681
0.293
0.610
0.293
0.146
0.487
0.733
0.143
0.686
0.134
0.294
0.568
0.541
0.341
0.514
4.089
2.328
3.085
2.033
2.391
1.659
2.745
2.328
1.706
2.745
2.601
2.391
2.745
1.652
2.124
3.091
2.307
2.423
2.391
2.791
1.593
2.745
2.307
2.328
1.183
2.307
1.623
2.461
2.391
2.101
1.490
2.601
1.526
2.601
3.584
1.702
1.392
2.829
1.340
4.141
2.113
1.437
1.655
2.391
1.566
0.423
0.383
0.133
0.543
0.469
0.675
0.292
0.386
0.443
0.442
0.405
0.140
0.420
0.597
0.526
0.219
. 0.539
0.508
0.419
0.235
0.700
0.398
0.561
0.387
0.464
0.549
0.372
0.465
0.476
0.687
0.835
0.393
0.728
0.410
0.076
0.635
0.901
0.076
0.886
0.170
0.355
0.505
0.647
0.140
0.637
0.928
0.598
0.213
0.807
0.735
0.900
0.507
0.606
0.568
0.774
0.688
0.239
0.739
0.772
0.795
0.391
0.898
0.846
0.691
0.404
0.896
0.685
0.860
0.592
0.535
0.869
0.463
0.777
0.755
1.031
1.043
0.653
0.918
0.685
0.135
0.843
1.103
0.126
1.048
0.352
0.532
0.636
0.852
0.246
0.834
2.133
0.908
0.355
1.163
1.172
1.159
0.884
0.897
0.741
1.267
1.103
0.408
1.301
1.008
1.182
0.683
1.389
1.287
1.077
0.687
1.136
1.233
1.310
0.913
0.625
1.332
0.566
1.208
1.156
1.532
1.285
1.022
1.166
1.097
0.270
1.123
1.299
0.224
1.205
0.705
0.797
0.785
1.125
0.405
1.034
3.441
1.177
0.523
1.523
1.534
1.365
1.236
1.190
0.862
1.815
1.529
0.576
1.779
1.243
1.532
1.011
1.718
1.687
1.503
0.945
1.301
1.693
1.757
1.203
0.706
1.686
0.659
1.616
1.534
1.986
1.505
1.443
1.331
1.453
0.446
1.286
1.452
0.335
1.331
1.160
0.999
0.903
1.332
0.556
1.205
4.6
1.6
0.8
2.1
2.1
1.9
1.7
1.6
1.2
2.5
2.1
0.8
2.4
1.7
2,1
1.4
2.3
2.3
2.1
1 .3
1.8
2.3
2.4
1.7
1.0
2.3
1.0
2.2
2.1
2.7
2.1
2.0
1.8
2.0
0.7
1.8
2.0
0.5
1.8
1.6
1.4
1.3
1.8
0.8
1.7
t n
-------
Polygon
No.
995
1003
1007
1018
1022
1024
1028
1031
1034
1041
1042
1044
1045
1049
1053
1058
1064
1069
1077
1083
1084
1087
1091
1093
1096
1109
1111
1112
1117
1122
1126
1143
1 144
1 146
1150
1159
1 161
1 162
1163
1167
1169
1 170
1173
1174
1177
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Statsgo
No.
Geology
Class
No. of
Points
Geom.
Mean
Radium
(pCi/g)
Geom.
SD'
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
26
50
50
38
30
56
23
85
23
53
52
24
24
54
56
50
5
84
52
50
57
5
54
52
85
52
51
84
50
49
52
52
74
52
13
51
52
1 3
23
53
26
54
49
86
34
Trm1
Tmc1
Th1
Th1
Tci1
Th1
Tci1
Qui
Tci1
Th1
Th1
Trml
Tci1
Tci1
Th1
Tmc2
Tci1
Qui
Tmc2
Th1
Tro1
Tab1
Tab1
Th1
Qui
Th1
Tci1
Qdl
Th1
Th1
Tmc2
Th1
water
Tmc2
Tci1
Tmc1
Th1
Qal1
Tci1
Th1
Tab1
Tmo2
Th1
Qh1
Tchatl
40
2711
98
113
2083
168
55
18
17714
36
1 6
1 1
68
17714
8
87
1 98
168
34
6
29
1 7
101
112
50
77
50
41
17
41
34
28
473
55
17714
23
13
79
17714
25
31
99
51
20
17
0.254
0.434
0.316
0.037
0.139
0.446
0.545
0.705
0.293
0.169
0.569
0.617
0.423
0.293
0.095
0.397
0.336
0.350
0.322
0.051
0.351
0.352
0.402
0.277
0.601
0.451
0.270
0.504
0.516
0.375
0.484
0.495
0.043
0.406
0.293
0.260
0.577
0.083
0.293
0.227
0.326
0.339
0.335
0.139
0.481
2.695
2.307
2.548
2.924
2.999
1.669
1.862
1.286
2.601
3.378
1.588
1.328
2.134
2.601
4.298
2.173
2.359
2.455
2.014
2.842
2.589
2.016
2.021
2.335
1.466
2.397
2.343
2.791
1.435
1.714
1.800
1.669
3.123
2.327
2.601
2.407
1.828
3.186
2.601
2.249
2.227
1.934
2.344
2.544
1.567
0.381
0.542
0.413
0.000
0.260
0.400
0.748
0.716
0.399
0.159
0.726
0.792
0.560
0.401
0.113
0.552
0.410
0.415
0.405
0.098
0.474
0.425
0.513
0.341
0.603
0.609
0.329
0.649
0.599
0.283
0.630
0.613
0.000
0.542
0.320
0.328
0.763
0.114
0.405
0.192
0.465
0.529
0.277
0.039
0.623
0.641
0.890
0.661
0.000
0.370
0.522
1.051
0.839
0.675
0.310
0.942
0.939
0.868
0.654
0.220
0.850
0.681
0.657
0.589
0.146
0.828
0.620
0.777
0.549
0.751
1.025
0.519
1.140
0.728
0.400
0.867
0.827
0.000
0.883
0.531
0.512
1.076
0.184
0.688
0.301
0.711
0.735
0.440
0.047
0.782
1.077
1.325
1.031
0.000
0.574
0.672
1.500
0.959
1.122
0.581
1.231
1.087
1.237
1.032
0.499
1.198
1.033
1.035
0.842
0.220
1.420
0.911
1.078
0.843
0.913
1.630
0.821
2.023
0.893
0.551
1.158
1.096
0.000
1.355
0.896
0.794
1.564
0.307
1.114
0.472
1.070
0.999
0.699
0.063
0.987
1.482
1.756
1.378
0.000
0.776
0.793
1.856
1.037
1.554
0.910
1.451
1.184
1.597
1.411
0.846
1.468
1.388
1.355
1.068
0.313
1.949
1.152
1.342
1.150
1.004
2.172
1.080
2.848
0.983
0.652
1.413
1.290
0.000
1.763
1.136
1.143
1.987
0.433
1.477
0.594
1.406
1.195
0.939
0.079
1.159
2.0
2.4
1.9
0.1
1.1
1.1
2.5
1.4
2.1
1.3
2.0
1.6
2.2
1.9
1.2
2.0
1.9
1.9
1.5
0.5
2.6
1.6
1.8
1.6
1.4
2.9
1.5
3.8
1.4
0.9
1.9
1.8
0.1
2.4
1.6
1.6
2.7
0.7
2.0
0.9
1.9
1.7
1.3
0.2
1.6
-------
Polygon
No.
1183
1184
1187
1 188
1191
1208
1220
1228
1233
1237
1239
1241
1255
1264
1265
1266
1267
1272
1279
1287
1290
1 291
1296
1301
1302
1303
1315
1322
1328
1329
1331
1333
1334
1348
1351
1355
1357
1366
1372
1373
1374
1380
1383
1384
1387
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Statsgo Geology No. of
No. Class Points
Geom.
Mean
Radium
(pCi/g)
Geom.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
55
57
22
22
30
55
4
50
55
55
54
65
54
58
97
52
21
29
1 5
67
65
29
60
86
67
33
67
81
52
58
23
24
21
29
86
72
54
50
23
38
50
22
50
52
9
Tmc1
Tchatl
Tci1
Trm1
Tab1
Th1
Tci1
Tmc2
Tmc2
Th1
Thl
TH2a
Tci1
TH2a
Th1
Tmc1
Tab1
Tci1
Toil
TH2a
TH2a
Tci1
TH2a
Qui
Ts2
Tci1
TH2a
TH2a
Tmc1
TH2a
Tci1
Tchatl
Qal1
Tci1
Qd1
Ts2
Th1
Tmo1
Tchatl
Th2
Thl
Tci1
Tmc1
Th1
Qal1
31
54
193
34
21
1
79
980
138
51
5302
33
33
79
227
2711
5200
17714
17714
23
4119
17714
4119
53471
7
17714
17
4119
1 5
384
17714
21
3607
17714
6
174
29
2711
26
1 8
55
23
129
5302
3607
0.420
0.516
0.328
0.265
0.207
0.634
0.534
0.401
0.307
0.526
0.319
0.470
0.349
0.218
0.232
0.434
0.341
0.293
0.293
0.435
0.262
0.293
0.262
0.155
0.275
0.293
0.295
0.262
0.653
0.148
0.293
0.560
0.134
0.293
0.359
0.476
0.404
0.434
0.269
0.035
0.455
0.191
0.791
0.319
0.134
2.170
1.626
2.331
2.448
2.642
4.000
1.550
2.318
2.761
1.547
2.745
1.984
1.734
2.767
2.629
2.307
2.391
2.601
2.601
1.710
2.783
2.601
2.783
3.814
2.402
2.601
1.680
2.783
1.596
3.101
2.601
1.325
4.141
2.601
1.815
1.958
1.630
2.307
2.322
2.824
1.881
3.121
1.423
2.745
4.141
0.515
0.654
0.445
0.354
0.316
1.126
0.647
0.571
0.440
0.620
0.433
1.007
0.427
0.272
0.110
0.589
0.276
0.398
0.426
0.865
0.752
0.382
0.319
0.041
0.705
0.198
0.688
0.258
0.869
0.208
0.401
0.704
0.131
0.385
0.053
0.653
0.499
0.557
0.355
0.000
0.551
0.274
0.992
0.415
0.308
0.787
0.862
0.668
0.572
0.466
2.789
0.828
0.893
0.749
0.787
0.755
1.343
0.573
0.433
0.190
0.916
0.448
0.640
0.679
1.069
1.069
0.652
0.509
0.056
0.947
0.326
0.846
0.473
1.118
0.333
0.681
0.834
0.266
0.634
0.069
0.904
0.645
0.879
0.564
0.000
0.774
0.486
1.248
0.739
0.486
1.172
1.151
1.061
0.906
0.705
7.489
1.037
1.256
1.226
0.985
1.269
1.697
0.754
0.701
0.331
1.466
0.720
1.053
1.062
1.283
1.453
1.028
0.859
0.091
1.250
0.547
1.019
0.794
1.461
0.551
1.129
0.955
0.538
1.013
0.100
1.190
0.806
1.320
0.886
0.000
1.044
0.874
1.489
1.309
0.863
1.684
1.303
1.361
1.174
0.946
16.806
1.162
1.643
1.696
1.134
1.737
2.005
0.909
0.989
0.507
1.927
0.931
1.418
1.460
1.473
1.855
1.393
1.134
0.135
1.465
0.755
1.152
1.116
1.746
0.775
1.529
1.052
0.873
1.433
0.127
1.464
0.941
1.772
1.139
0.000
1.305
1.314
1.685
1.819
1.283
2.3
1.8
1.9
1.6
1.3
21.9
1.6
2.2
2.3
1.6
2.4
2.7
1.3
1.4
0.8
2.6
1.3
1.9
2.0
2.0
2.5
1.9
1.6
0.3
2.0
1.1
1.6
1.6
2.4
1.1
2.1
1.5
1.2
2.0
0.3
2.0
1.3
2.4
1.6
0.1
1.8
1.8
2.3
2.5
1.8
-------
Polygon
No.
1391
1395
1398
1399
1401
1404
1405
1409
1419
1421
1422
1438
1441
1442
1449
1450
1457
1462
1469
1477
1486
1488
1494
1 500
1 505
1512
1 520
1521
1526
1527
1530
1 539
1544
1545
1549
1555
1559
1577
1579
1580
1582
1583
1586
1587
1 595
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Geom.	Rof. House
Mean	Georn.	Radon Potential (mCi/yr)	Indoor Radon
Statsgo Geology No. of Radium	S.D.	at Specified Confidence Limit	 at 95% C.L.
No. Class Points (pCi/g)	Radium	50% 75% 90% 95% (pCi/L)
54
Tmc1
9
Tci1
56
Tci1
69
TH2a
6
Tchatl
29
Tab1
22
Tchatl
50
Th1
22
Trm1
67
TH2a
58
TH2a
49
Th1
73
Th1
67
Th1
51
Th1
6
Qall
81
TH2a
23
Tab1
54
Tab1
29
Tci 1
87
Qd1
1 4
Qa!1
1 9
Toil
56
Tmc1
1 8
Tab1
86
Qui
49
Th2
58
TH2a
5
Th2
58
QTu1
86
Qhl
50
Th1
69
TH2a
70
TH2a
13
Qal1
51
Tci1
54
Th1
22
Tci1
23
Tci1
18
Tci1
30
Tab1
56
Th1
49
Th1
86
Qh1
5
Qal1
2711	0.434
17714	0.293
1 1	0.097
4119	0.262
1 4	0.477
5200	0.341
409	0.376
5302	0.319
40	0.227
41 19	0.262
41 19	0.262
14	0.281
167	0.419
5302	0.319
5	0.394
23	0.233
41 19	0.262
5200	0.341
5200	0.341
17714	0.293
13	1.574
3607	0.134
37	0.174
2711	0.434
5200	0.341
12	0.132
2054	0.352
14	0.267
12	0.208
37	0.075
197	0.180
16	0.513
196	0.188
4	0.583
137	0.228
58	0.136
58	0.376
71	0.166
17714	0.293
89	0.131
5200	0.341
5302	0.319
5302	0.319
3834	0.171
31	0.128
2.307	0.580
2.601	0.465
3.387	0.106
2.783	0.421
2.272	0.543
2.391	0.441
2.341	0.507
2.745	0.411
2.657	0.304
2.783	0.716
2.783	0.313
1.806	0.212
1.936	0.524
2.745	0.473
1.669	0.465
3.709	0.284
2.783	0.264
2.391	0.478
2.391	0.450
2.601	0.385
1.795	2.182
4.141	0.078
2.793	0.080
2.307	0.409
2.391	0.496
3.655	0.039
2.538	0.306
1.632	0.285
5.682	0.395
3.237	0.099
2.904	0.042
1.553	0.604
2.837	0.335
1.356	0.934
2.590	0.252
2.779	0.181
2.117	0.481
3.257	0.258
2.601	0.404
2.715	0.278
2.391	0.449
2.745	0.308
2.745	0.273
3.644	0.042
2.980	0.174
0.916	1.430
0.673	1.028
0.190	0.355
0.668	1.029
0.876	1.377
0.702	1.107
0.806	1.184
0.701	1.175
0.515	0.867
0.981	1.336
0.518	0.855
0.305	0.428
0.743	1.049
0.746	1.234
0.629	0.847
0.585	1.232
0.467	0.765
0.753	1.149
0,713	1.126
0.650	1.025
3.163	4.495
0.120	0.202
0.136	0.243
0.678	1.020
0.750	1.089
0.051	0.076
0.530	0.846
0.375	0.475
0.995	2.459
0.166	0.270
0.055	0.079
0.780	0.959
0.514	0.783
1.123	1.382
0.406	0.640
0.300	0.485
0.700	1.089
0.441	0.776
0.678	1.114
0.381	0.534
0.672	1.049
0.548	0.934
0.464	0.839
0.059	0.091
0.291	0.506
1.826
2.5
1.340
1.8
0.510
0.8
1.410
1.9
1.908
2.6
1.466
2.0
1.598
2.2
1.649
2.2
1.211
1.7
1.650
2.2
1.166
1.6
0.528
0.8
1.227
1.7
1.763
2.4
1.013
1.4
1.793
2.4
1.145
1.6
1.553
2.1
1.411
1.9
1.428
2.0
5.623
7.4
0.313
0.5
0.355
0.6
1.378
1.9
1.387
1.9
0.11 1
0.2
1.121
1.6
0.558
0.8
5.010
6.6
0.390
0.6
0.110
0.2
1.097
1.5
1.028
1.4
1.601
2.2
0.924
1.3
0.660
1.0
1.394
1.9
1.135
1.6
1.475
2.0
0.661
1.0
1.322
1.8
1.300
1.8
1.163
1.6
0.135
0.3
0.709
1.0
-T-1 1
-------
Polygon
No.
1596
1597
1599
1603
1604
1606
1607
1610
161 1
1615
1619
1621
1623
1625
1626
1630
1637
1638
1651
1652
1660
1661
1662
1664
1675
1677
1678
1679
1682
1685
1686
1689
1691
1695
1702
1703
1706
1708
1710
1722
1725
1726
1739
1742
1745
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Geom.	Ref. House
Mean	Geom.	Radon Potential (mCi/yr) Indoor Radon
Statsgo Geology No. of Radium	S.D. at Specified Confidence Limit	 at 95% C.L.
No. Class Points (pCi/g)	Radium 50% 75% 90% 95%	(pCi/L)
1 9
Tcil
62
QTu1
38
Th1
54
Tmc1
17
Tci1
58
QTu1
18
Qui
52
Tmc1
73
Tmc2
29
Tci1
52
Tci 1
85
Qui
72
TH2a
29
Tcil
62
QTu1
25
Tcil
30
Tab1
55
Th1
54
Th1
33
Tchatl
50
Th2
52
Tmc2
49
Th1
37
Th1
86
Qui
1 9
Qal1
69
TH2a
55
Tmc2
37
Th1
17
Qal1
86
Qh1
9
Tcil
55
Th1
37
Tmc2
25
Tcil
7
Tcil
55
Tmc1
50
Th1
30
Tabl
14
Qal1
55
Th1
62
TH2a
70
Ts2
56
Th2
33
Tab1
17714
0.293
648
0.066
5302
0.319
2711
0.434
24
0.382
1809
0.213
53471
0.155
2711
0.434
43
0.479
17714
0.293
120
0.137
59
0.793
210
0.249
74
0.230
27
0.120
56
0.477
2
0.425
55
0.322
64
0.561
17
0.345
2054
0.352
13
0.125
252
0.286
53
0.108
20
0.511
3607
0.134
105
0.369
980
0.401
34
0.216
3607
0.134
1 5
0.061
322
0.356
36
0.145
980
0.401
156
0.386
17714
0.293
76
0.337
1 8
0.333
36
0.039
70
0.048
36
0.131
25
0.081
34
0.625
28
0.280
17
0.299
2.601	0.126
3.248	0.063
2.745	0.000
2.307	0.603
2.088	0.485
2.922	0.227
3.814	0.322
2.307	0.570
1.737	0.676
2.601	0.386
3.020	0.173
1.482	0.859
2.615	0.400
2.125	0.294
2.576	0.087
1.508	0.627
1.633	0.515
2.382	0.390
1.689	0.723
1.703	0.213
2.538	0.510
3.497	0.181
2.746	0.242
3.880	0.154
2.525	0.068
4.141	0.071
2.429	0.548
2.318	0.555
3.118	0.266
4.141	0.230
3.017	0.034
2.171	0.510
3.944	0.203
2.318	0.560
2.045	0.524
2.601	0.222
2.398	0.421
2.018	0.391
2.948	0.166
3.479	0.059
3.975	0.183
3.555	0.078
1.425	0.993
2.464	0.280
2.299	0.197
0.218	0.384
0.097	0.165
0.000	0.000
0.922	1.379
0.743	1.061
0.388	0.699
0.506	0.875
0.941	1.469
0.874	1.167
0.642	1.021
0.311	0.547
1.058	1.329
0.620	0.903
0.423	0.599
0.135	0.218
0.788	0.962
0.657	0.876
0.632	1.000
0.960	1.277
0.296	0.399
0.812	1.248
0.347	0.659
0.416	0.711
0.290	0.578
0.112	0.176
0.142	0.297
0.820	1.290
0.858	1.267
0.505	0.899
0.441	0.863
0.040	0.048
0.732	1.004
0.403	0.874
0.839	1.236
0.788	1.138
0.385	0.621
0.675	1.024
0.570	0.860
0.219	0.283
0.074	0.093
0.374	0.758
0.126	0.231
1.210	1.458
0.446	0.700
0.295	0.469
0.530
0.8
0.233
0.4
0.000
0.1
1.840
2,5
1.319
1.8
0.964
1.4
1.255
1.7
1.911
2.6
1.373
1.9
1.362
1.9
0.823
1.2
1.494
2.0
1.234
1.7
0.764
1.1
0.304
0.5
1.132
1.6
1.069
1.5
1.309
1.8
1.497
2.0
0.496
0.7
1.731
2.4
1.014
1.4
1.049
1.5
0.934
1.3
0.271
0.5
0.483
0.7
1.607
2.2
1.651
2.2
1.325
1.8
1.334
1.8
0.055
0.2
1.254
1.7
1.426
2.0
1.607
2.2
1.411
1.9
0.905
1.3
1.403
1.9
1.080
1.5
0.334
0.5
0.114
0.2
1.276
1.8
0.333
0.5
1.615
2.2
0.927
1.3
0.679
1.0
T in
-------
Polygon
No.
1747
1748
1757
1758
1759
1760
1768
1782
1785
1786
1789
1792
1793
1794
1810
1813
1819
1820
1836
1849
1855
1856
1860
1872
1874
1875
1877
1881
1892
1897
1898
1911
1915
1921
1932
1937
1943
1947
1952
1957
1964
1967
1969
1 972
1980
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Geom.	Ref. House
Mean	Geom.	Radon Potential (mCi/yr) Indoor Radon
Statsgo Geology No. of Radium	S.D. at Specified Confidence Limit	 at 95% C.L.
No.	Class Points (pCi/g)	Radium 50% 75% 90%	95%	(pCi/L)
17
Tab1
83
Tc1
50
Thl
69
TH2a
86
Qh1
21
Tci1
56
Th1
55
Th1
7
Th1
25
Tab1
49
Th1
38
Th1
67
TH2a
54
Tmc1
81
Qui
17
Tci1
50
Th1
86
Qh1
20
Tab1
27
Tci1
69
TH2a
52
Tcil
62
TH2a
54
Tmc1
7
Tci1
27
Tcil
67
Tmc2
67
Th1
98
Tcil
6
Tab1
18
Qui
27
Tcil
26
Tcil
49
Th2
54
Th1
7
Tcil
30
Tab1
14
Qal1
1 9
Tmc2
65
Qui
9
Qal1
29
Tab1
50
Th1
20
Qal1
9
Qui
78
0.064
37
0.271
265
0.540
87
0.191
1 9
0.136
32
0.318
34
0.347
33
0.320
63
0.197
70
0.562
32
0.120
42
0.281
72
0.229
53
0.488
406
0.569
91
0.072
46
0.769
53
0.142
86
0.344
1 1
0.215
31
0.184
29
0.299
82
0.220
10
0.592
1 5
0.526
17714
0.293
69
0.455
137
0.714
17714
0.293
95
0.262
53471
0.155
47
0.270
1 2
0.251
8
0.067
1
0.434
17714
0.293
6
0.072
6
0.262
1 1
0.098
53471
0.155
3607
0.134
29
0.211
5302
0.319
41
0.613
53471
0.155
3.092	0.145
2.664	0.340
2.006	0.666
2.789	0.343
2.533	0.039
2.820	0.264
2.397	0.327
2.515	0.399
3.306	0.161
1.405	0.754
3.411	0.115
3.194	0.000
2.273	0.655
1.917	0.632
1.734	0.572
3.060	0.154
1.536	0.992
4.154	0.041
3.089	0.429
1.923	0.285
2.321	0.316
2.288	0.382
3.235	0.162
1.655	0.768
1.467	0.373
2.601	0.389
1.892	0.904
1.487	0.935
2.601	0.177
3.497	0.323
3.814	0.327
2.303	0.356
2.343	0.345
2.818	0.091
4.000	0.708
2.601	0.224
2.701	0.193
1.838	0.097
3.796	0.066
3.814	0.336
4.141	0.301
3.227	0.304
2.745	0.427
1.554	0.676
3.814	0.326
0.208	0.308
0.544	0.919
0.983	1.455
0.505	0.780
0.048	0.061
0.490	0.836
0.534	0.844
0.650	1.094
0.317	0.570
0.915	1.080
0,204	0.381
0.000	0.000
0.836	1.050
0.890	1.247
0.756	1.008
0.222	0.329
1.270	1.614
0.055	0.090
0.796	1.417
0.381	0.502
0.457	0.650
0.596	0.899
0.287	0.577
1.038	1.346
0.492	0.643
0.637	0.999
1.161	1.458
1.156	1.370
0.318	0.516
0.646	1.274
0.506	0.898
0.530	0.773
0.559	0.908
0.142	0.218
1.695	4.433
0.380	0.634
0.260	0.353
0.125	0.165
0.110	0.201
0.544	1,028
0.492	0.867
0.558	0.984
0.706	1.204
0.862	1.097
0.522	0.914
0.413
0.6
1.238
1.7
1.787
2.4
1.043
1.5
0.076
0.2
1.195
1.7
1.114
1.5
1.551
2.1
0.857
1.2
1.207
1.7
0.568
0.8
0.000
0.1
1.212
1.7
1.560
2.1
1.194
1.7
0.444
0.7
1.836
2.5
0.135
0.3
2.094
2.8
0.601
0.9
0.768
1.1
1.192
1.6
0.874
1.2
1.609
2.2
0.769
1.1
1.339
1.8
1.670
2.3
1.524
2.1
0.744
1.1
1.866
2.5
1.274
1.8
1.020
1.4
1.205
1.7
0.290
0.5
9.170
12.0
0.877
1.2
0.442
0.7
0.203
0.4
0.330
0.5
1.499
2.0
1.336
1.8
1.439
2.0
1.589
2.2
1.255
1.7
1.305
1.8
T TO
-------
Polygon
No.
1 982
1983
1991
1994
1995
1997
2002
2005
2011
2012
2016
2020
2021
2025
2028
2033
2038
2047
2049
2053
2055
2057
2061
2062
2065
2066
2067
2069
207B
2085
2088
2103
2104
2105
2108
2126
2129
2133
2135
2143
2144
2148
2160
2161
2162
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Statsgo Geology No. of
No. Class Points
Geom.
Mean
Radium
(pCi/g)
Geom.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
58
56
54
55
55
5
1 9
1 9
84
67
67
62
50
49
51
84
85
49
58
67
37
52
50
96
21
7
55
51
197
1 3
1 7
1 8
50
54
23
27
29
37
84
37
50
56
24
7
28
TH2a
Thl
Tmc1
Th1
Tmc1
Tmc1
Tmc2
Th1
Qui
Qui
Tmc2
QTu1
Tci 1
TH1
Tci1
Qh1
Tc1
Thl
TH2a
TH2a
Th1
Tmc2
Tmc1
Th1
Qal1
Toil
Tmcl
Tci1
water
Qal1
Tab1
Tci1
Tci1
Th1
Tci1
Tci1
Tci1
Th1
QTu1
Th1
Tmc2
Th1
Tci1
Tcil
Tci 1
20
5302
14
5302
2711
2711
980
5302
230
165
66
6990
162
5302
17714
1 1
9001
1 7
4119
114
5302
980
4
5302
3607
17
7
1 4
5995
35
6
17714
235
5
17714
17714
17714
5302
99
5302
44
1 1
17714
1 5
17714
0.216
0.319
0.355
0.319
0.434
0.434
0.401
0.319
0.343
0.448
0.736
0.252
0.099
0.319
0.293
0.674
0.244
0.270
0.262
0.367
0.319
0.401
0.908
0.319
0.134
0.210
0.576
0.103
0.069
0.035
0.091
0.293
0.090
0.512
0.293
0.293
0.293
0.319
0.331
0.319
0.486
0.075
0.293
0.222
0.293
2.646
2.745
1.707
2.745
2.307
2.307
2.318
2.745
2.610
1.918
1.623
3.085
3.043
2.745
2.601
1.364
2.958
1.878
2.783
2.261
2.745
2.318
1.448
2.745
4.141
2.996
1.428
2.747
3.708
2.813
3.766
2.601
3.120
1.297
2.601
2.601
2.601
2.745
2.184
2.745
1.481
3.169
2.601
2.477
2.601
0.270
0.310
0.435
0.404
0.556
0.544
0.173
0.136
0.409
0.608
1.273
0.174
0.152
0.269
0.377
0.751
0.257
0.205
0.318
0.813
0.391
0.545
1.219
0.417
0.131
0.169
0.679
0.141
0.000
0.075
0.180
0.447
0.139
0.621
0.394
0.391
0.387
0.400
0.364
0.396
0.623
0.090
0.406
0.169
0.283
0.421
0.540
0.575
0.716
0.875
0.873
0.297
0.241
0.685
0.821
1.568
0.321
0.233
0.484
0.649
0.901
0.457
0.300
0.529
1.087
0.665
0.862
1.535
0.710
0.256
0.301
0.841
0.229
0.000
0.102
0.292
0.664
0.224
0.730
0.690
0.642
0.633
0.682
0.559
0.696
0.771
0.141
0.660
0.276
0.459
0.665
0.906
0.754
1.197
1.364
1.389
0.476
0.447
1.090
1.073
1.930
0.635
0.385
0.839
1.026
1.069
0.808
0.423
0.841
1.461
1.204
1.312
1.932
1.179
0.538
0.542
1.035
0.374
0.000
0.140
0.545
1.036
0.372
0.851
1.067
0.994
1.036
1.199
0.846
1.145
0.939
0.250
1.078
0.457
0.769
0.907
1.246
0.904
1.694
1.739
1.771
0.654
0.681
1.417
1.282
2.205
0.867
0.522
1.172
1.414
1.173
1.172
0.537
1.193
1.708
1.636
1.694
2.252
1.618
0.898
0.854
1.190
0.519
0.000
0.181
0.854
1.319
0.511
0.925
1.449
1.283
1.377
1.581
1.054
1.580
1.046
0.356
1.431
0.626
1.046
1.3
1.7
1.3
2.3
2.4
2.4
1.0
1.0
1.9
1.8
3.0
1.2
0.8
1.6
1.9
1.6
1.6
0.8
1.7
2.3
2.2
2.3
3.0
2.2
1.3
1.2
1.6
0.8
0.1
0.3
1.2
1.8
0.8
1.3
2.0
1.8
1.9
2.2
1.5
2.2
1.5
0.6
2.0
0.9
1.5
T 1 A
-------
Polygon
No.
2165
2168
2171
2176
2177
2187
2190
2191
2198
2202
2203
2218
2223
2224
2229
2231
2240
2244
2245
2247
2255
2258
2259
2264
2277
2278
2281
2282
2283
2289
2297
2301
2304
2310
2319
2325
2328
2331
2332
2347
2349
2353
2357
2365
2372
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Geom.	Ref. House
Mean	G«om. Radon Potential (mCi/yr)	Indoor Radon
Statsgo Geology No. of Radium	S.D. at Specified Confidence Limit	at 95% C.L.
No. Class Points (pCi/g)	Radium ~ 50% 75% 90% 95% (pCi/L)
26
Tab1
35
Thl
33
Tab1
13
Tci1
49
Th1
30
Tab1
67
Qui
1 9
Qa(1
96
Tmc1
50
Tmc1
1 9
Qal1
37
Tmc2
86
Qh1
30
Tci1
1 2
Qui
67
TH2a
20
Tci1
84
Qh1
28
Qui
27
Qui
51
Tmc1
21
Th1
90
Qui
17
Tci1
87
Qh1
50
Th1
13
QaM
24
Tcil
35
Tmc1
49
Trrtc2
51
Tci1
55
Tmc1
24
Tcil
97
Tci1
9
Tcil
2 B
Tch
50
Tmc1
23
Tcil
19
Th1
28
Tcil
9
Tcil
69
TH2a
98
Tcil
37
Tmc1
50
Th1
5200
0.341
46
0.590
57
0.317
17714
0.293
5302
0.319
22
0.248
16
0.522
3607
0.134
8
0.467
5
0.093
18
0.029
980
0.401
14
0.279
56
0.343
53471
0.155
4119
0.262
160
0.439
4
0.657
53471
0.155
53471
0.155
1 6
0.251
5302
0.319
9
0.311
17714
0.293
6
0.472
5302
0.319
3607
0.134
17714
0.293
271 1
0.434
980
0.401
1 5
0.1 17
20
0.289
8
0.182
17714
0.293
17714
0.293
38
0.177
2711
0.434
6
0.365
299
0.199
48
0.263
17714
0.293
117
0.248
42
0.106
2711
0.434
21
0.399
2.391	0.516
1.502	0.474
2.145	0.207
2.601	0.323
2.745	0.277
3.057	0.373
1.602	0.680
4.141	0.072
1.951	0.566
4.859	0.156
2.407	0.039
2.318	0.558
2.519	0.049
2.247	0.449
3.814	0.257
2.783	0.712
1.978	0.486
1.306	0.731
3.814	0.169
3.814	0.252
1.829	0.290
2.745	0.263
3.294	0.263
2.601	0.400
1.446	0.502
2.745	0.397
4.141	0.170
2.601	0.396
2.307	0.373
2.318	0.352
2.978	0.157
2.556	0.350
2.228	0.232
2.601	0.136
2.601	0.459
2.859	0.176
2.307	0.554
1.484	0.451
3.027	0.091
2.346	0.244
2.601	0.463
2.553	0.401
3.157	0.085
2.307	0.543
1.595	0.455
0.790	1.221
0.646	0.852
0.305	0.467
0.536	0.870
0.473	0.772
0.603	1.000
0.860	1.060
0.139	0.303
0.831	1.213
0.316	0.803
0.046	0.058
0.860	1.240
0.067	0.101
0.667	0.959
0.428	0.795
0.994	1.321
0.707	0.972
0.852	0.992
0.326	0.660
0.457	0.868
0.398	0.544
0.468	0.809
0.519	1.015
0.643	1.039
0.599	0.716
0.702	1.194
0.346	0.715
0.653	1.070
0.596	0.982
0.551	0.893
0.277	0.484
0.597	0.995
0.359	0.555
0.234	0.432
0.678	1.037
0.291	0.519
0.860	1.342
0.568	0.695
0.160	0.301
0.396	0.591
0.677	1.032
0.590	0.901
0.141	0.238
0.830	1.303
0.582	0.749
1.621
2.2
1.002
1.4
0.623
0.9
1.156
1.6
1.148
1.6
1.395
1.9
1.195
1.7
0.482
0.7
1.608
2.2
1.683
2.3
0.071
0.2
1.571
2.1
0.142
0.3
1.219
1.7
1.146
1.6
1.658
2.3
1.220
1.7
1.079
1.5
1.003
1.4
1.284
1.8
0.664
1.0
1.116
1.6
1.620
2.2
1.375
1.9
0.821
1.2
1.657
2.3
1.131
1.6
1.471
2.0
1.325
1.8
1.113
1.5
0.684
1.0
1.361
1.9
0.734
1.1
0.619
0.9
1.314
1.8
0.729
1.0
1.749
2.4
0.821
1.2
0.452
0.7
0.773
1.1
1.381
1.9
1.184
1.6
0.333
0.5
1.634
2.2
0.869
1.2
T 1 ^
-------
Polygon
No.
2374
2376
2380
2384
2387
2392
2395
2399
2400
2406
2414
2415
2418
2419
2422
2424
2426
2436
2437
2448
2451
2456
2457
2462
2465
2474
2488
2489
2490
2496
2497
2502
2507
2508
2510
2512
2513
2520
2521
2537
2540
2552
2563
2568
2576
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Geom.	Ref. House
Mean	Geom.	Radon Potential (mCi/yr) Indoor Radon
Statsgo Geology No. of Radium	S.D. at Specified Confidence Limit	 at 95% C.L.
No. Class Points (pCi/g)	Radium 50% 75% 90% 95%	(pCi/L)
23
Tci1
33
Tci1
37
Th1
37
Tmc2
1 2
Qui
90
Qui
7
QaI1
37
Th1
28
Qui
35
Tmc1
9
Tcil
27
Qui
51
Th1
68
TH2a
55
Tmc1
86
Qh1
50
Tmc2
1 8
Qui
23
Tci1
97
Tmc2
27
Tci1
73
Th1
65
Qui
12
Qui
19
Th1
1 3
Tci1
74
water
1 9
Tci1
52
Th1
24
Tci 1
96
Th1
87
Qdl
50
Tmc2
37
Th1
50
Tmc2
30
Th1
27
Ted
38
Th1
30
Qui
27
Tcil
85
Tci
67
Qui
1 3
Qal1
73
Qui
44
Tcil
17714
0.293
39
0.092
5302
0.319
1 1
0.437
53471
0.155
8
0.432
22
0.081
1 1
0.659
53471
0.155
2711
0.434
17714
0.293
53471
0.155
25
0.264
144
0.533
1 7
0.290
21
0.292
980
0.401
53471
0.155
22
0.305
1 7
0.684
90
0.190
160
0.566
1 9
0.480
53471
0.155
25
0.358
17714
0.293
132
0.042
17714
0.293
5302
0.319
1 0
0.113
57
0.727
1 4
1.466
79
0.467
46
0.383
147
0.453
1 9
0.351
81
0.435
100
0.128
231
0.199
127
0.132
59
0.525
43
0.362
3607
0.134
232
0.421
54
0.138
2.601	0.406
3.033	0.089
2.745	0.397
1.666	0.562
3.814	0.246
1.499	0.302
3.694	0.085
1.316	0.767
3.814	0.171
2.307	0.377
2.601	0.465
3.814	0.257
2.403	0.324
2.160	0.827
1.474	0.314
2.499	0.050
2.318	0.582
3.814	0.318
1.658	0.377
1.700	0.321
2.423	0.265
1.695	0.711
1.639	0.698
3.814	0.254
2.127	0.140
2.601	0.320
2.934	0.000
2.601	0.125
2.745	0.414
2.557	0.162
1.585	0.904
1.828	1.953
2.011	0.630
2.260	0.456
2.464	0.650
1.762	0.443
1.548	0.523
3.434	0.000
2.715	0.307
3.124	0.216
1.614	0.519
1.850	0.495
4.141	0.171
1.949	0.524
3.111	0.235
0.673	1.102
0.138	0.210
0.681	1.162
0.722	0.933
0.433	0.817
0.387	0.506
0.146	0.269
0.899	1.035
0.324	0.665
0.619	0.980
0.677	1.044
0.457	0.891
0.526	0.826
1.256	1.813
0.390	0.477
0.069	0.103
0.865	1.288
0.512	0.888
0.490	0.635
0.500	0.748
0.394	0.587
0.953	1.222
0.893	1.134
0.426	0.814
0.232	0.393
0.530	0.866
0.000	0.000
0.217	0.381
0.744	1.284
0.247	0.403
1.199	1.546
2.955	4.119
0.938	1.306
0.722	1.096
1.037	1.634
0.567	0.743
0.641	0.782
0.000	0.000
0.470	0.702
0.345	0.551
0.686	0.873
0.645	0.855
0.340	0.730
0.744	1.041
0.354	0.577
1.481
2.0
0.290
0.5
1.570
2.1
1.097
1.5
1.220
1.7
0.602
0.9
0.386
0.6
1.130
1.6
1.003
1.4
1.277
1.8
1.351
1.9
1.252
1.7
1.120
1.6
2.310
3.1
0.542
0.8
0.138
0.3
1.601
2.2
1.333
1.8
0.760
1.1
0.964
1.4
0.742
1.1
1.464
2.0
1.298
1.8
1.231
1.7
0.544
0.8
1.239
1.7
0.000
0.1
0.526
0.8
1.760
2.4
0.536
0.8
1.820
2.5
5.144
6.8
1.575
2.1
1.423
2.0
2.179
2.9
0.879
1.2
0.878
1.2
0.000
0.1
0.896
1.3
0.771
1.1
0.995
1.4
0.978
1.4
1.148
1.6
1.295
1.8
0.780
1.1
T 1C
-------
Polygon
No.
2577
2578
2580
2583
2584
2585
2591
2593
2595
2601
2608
2609
2612
2622
2628
2630
2640
2649
2650
2662
2663
2667
2668
2672
2673
2679
2693
2700
2701
2722
2728
2737
2743
2766
2770
2774
2786
2788
2791
2798
2806
2813
2816
2823
2825
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Statsgo Geology No. of
No. Class Points
G«om.
Mean
Radium
(pCi/g)
Geom.
SD-
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
56
87
28
35
28
29
28
76
1 8
69
67
1 4
7
69
98
76
50
1 9
21
5
43
56
44
58
44
50
51
36
62
50
98
12
49
1 9
12
77
55
23
67
67
60
1 3
1 3
51
37
Th1
Qui
Qui
Tmcl
Tci1
Tjbl
Tci1
TH2a
Qui
TH2a
Th1
Qal1
Qui
TH2a
Tci1
TH2a
Tjb1
Qui
Tmc1
Tmc1
Tab1
Tjb1
Tmc1
TH2a
Th1
Tmc1
Tci1
Tci1
QTu1
Tmcl
Qal1
Qui
Th1
QaJ1
Qui
TH2a
Th1
Tci 1
Qui
Ts2
QTu1
Qui
Qal1
Tmcl
Th1
155
1 1
53471
93
17
1 9
17714
106
53471
31
24
3607
53471
1
15
262
19
53471
1 6
52
31
551
1 2
552
8
5
17714
149
63
31
3607
53471
214
3607
53471
4119
5302
1 1
31 1
5077
27
53471
3607
1	8
2
0.214
0.549
0.155
0.338
0.118
0.169
0.293
0.268
0.155
0.301
0.696
0.134
0.155
0.067
0.076
0.205
0.105
0.155
0.068
0.459
0.245
0.178
0.694
0.214
0.338
0.811
0.293
0.115
0.110
0.088
0.134
0.155
0.276
0.134
0.155
0.262
0.319
0.394
0.412
0.352
0.453
0.155
0.134
0.112
0.504
2.417
2.115
3.814
2.051
2.886
3.085
2.601
2.353
3.814
1.897
1.614
4.141
3.814
4.000
3.743
2.469
2.575
3.814
2.212
1.579
3.890
2.855
1.334
2.717
1.917
1.303
2.601
2.998
3.367
3.397
4.141
3.814
2.135
4.141
3.814
2.783
2.745
2.061
2.109
2.652
1.810
3.814
4.141
2.474
1.384
0.196
0.628
0.166
0.270
0.132
0.246
0.276
0.352
0.321
0.438
0.901
0.078
0.138
0.210
0.074
0.279
0.150
0.079
0.074
0.526
0.178
0.173
0.825
0.271
0.414
1.044
0.381
0.137
0.085
0.135
0.105
0.251
0.218
0.072
0.255
0.429
0.402
0.525
0.578
0.819
0.416
0.182
0.171
0.152
0.565
0.303
0.920
0.340
0.405
0.209
0.421
0.471
0.519
0.523
0.590
1.180
0.115
0.268
0.337
0.117
0.424
0.225
0.151
0.098
0.702
0.370
0.289
0.961
0.419
0.557
1.212
0.624
0.224
0.149
0.228
0.198
0.436
0.332
0.138
0.449
0.701
0.711
0.803
0.790
1.152
0.599
0.369
0.346
0.232
0.674
0.487
1.326
0.646
0.611
0.349
0.724
0.766
0.745
0.872
0.775
1.450
0.203
0.510
0.571
0.217
0.633
0.341
0.315
0.138
0.905
0.774
0.498
1.105
0.657
0.778
1.423
1.006
0.392
0.271
0.416
0.421
0.811
0.495
0.283
0.800
1.123
1.167
1.171
1.145
1.650
0.785
0.725
0.725
0.355
0.814
0.632
1.643
1.008
0.819
0.503
1.121
1.046
0.992
1.329
0.905
1.769
0.313
0.858
1.012
0.325
0.809
0.469
0.481
0.178
1.062
1.227
0.693
1.198
0.910
0.958
1.629
1.421
0.552
0.418
0.599
0.658
1.236
0.630
0.479
1.216
1.498
1.597
1.578
1.374
1.992
0.942
1.189
1.138
0.478
0.935
0.9
2.2
1.4
1.2
0.8
1.6
1.5
1.4
1.8
1.3
2.4
0.5
1.2
1.4
0.5
1.2
0.7
0.7
0.3
1.5
1.7
1.0
1.7
1.3
1.3
2.2
1.9
0.8
0.6
0.9
1.0
1.7
0,9
0.7
1.7
2.0
2.2
2.2
1.9
2.7
1.3
1.6
1.6
0.7
1.3
-------
Polygon
No.
2831
2863
2S66
2B68
2872
2880
2887
2890
2894
2895
2898
2904
2912
2914
2918
2930
2935
2939
2940
2946
2950
2952
2955
2957
2960
2966
2972
2974
2985
2986
2991
2992
2995
2998
3004
3010
3036
3037
3038
3040
3046
3050
3053
3055
3056
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Statsgo
No.
Geology
Class
No. of
Points
Oeom.
Mean
Radium
(pCi/g)
Gt'om.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Hef. House
Indoor Radon
at 95% C.L.
(pCi/L)
23
19
43
87
25
197
35
27
98
50
28
98
69
49
1 3
17
27
67
50
25
98
28
67
50
36
49
88
50
30
35
30
37
12
67
62
37
74
12
9
31
37
49
1 2
77
7
Tab1
Th1
Qai1
Qh1
Qui
Qui
Qui
Qui
Tci1
Th1
Tcil
Toil
Qui
Th1
Qal1
Tci1
Qui
Qui
Th1
Tabl
Qui
Qui
Ts2
Tmc2
Tmc1
Th1
Qui
Th1
Qd1
Qd1
Qui
Tci1
Qui
Qui
QTu1
Th1
Qh1
Qui
Qh1
Qui
Tmc1
Thl
Qh1
Ts2
Qal1
81
5302
765
3834
6
61
301
47
9
5302
17714
17714
8
47
30
17714
53471
53471
10
2
53471
131
1 9
980
1 7
5302
53471
5302
259
100
42
17714
53471
53471
6990
29
3834
69
3834
53471
2711
5302
3834
5077
10
0.450
0.319
0.142
0.171
0.137
0.166
0.076
0.079
0.117
0.319
0.293
0.293
0.891
0.214
0.148
0.293
0.155
0.155
0.570
0.094
0.155
0.128
0.813
0.401
0.100
0.319
0.155
0.319
0.200
0.057
0.102
0.293
0.155
0.155
0.252
0.212
0.171
0.134
0.171
0.155
0.434
0.319
0.171
0.352
0.115
1.701
2.745
4.481
3.644
3.419
3.164
3.048
3.279
3.001
2.745
2.601
2.601
1.286
3.302
3.112
2.601
3.814
3.814
1.231
4.351
3.814
2.940
2.584
2.318
3.260
2.745
3.814
2.745
2.318
3.011
2.919
2.601
3.814
3.814
3.085
2.365
3.644
2.965
3.644
3.814
2.307
2.745
3.644
2.652
3.491
0.581
0.139
0.117
0.281
0.202
0.000
0.089
0.164
0.091
0.412
0.277
0.179
1.167
0.194
0.172
0.391
0.249
0.309
0.651
0.154
0.116
0.142
1.551
0.564
0.127
0.267
0.171
0.398
0.307
0.077
0.220
0.360
0.253
0.304
0.168
0.246
0.000
0.218
0.336
0.178
0.530
0.265
0.265
0.550
0.106
0.774
0.243
0.233
0.438
0.403
0.000
0.137
0.239
0.148
0.685
0.458
0.305
1.341
0.361
0.308
0.647
0.457
0.506
0.746
0.332
0.220
0.225
2.438
0.867
0.221
0.493
0.333
0.696
0.417
0.112
0.311
0.591
0.422
0.513
0.322
0.387
0.000
0.323
0.550
0.353
0.840
0.472
0.456
0.912
0.188
1.025
0.459
0.496
0.746
0.806
0.000
0.224
0.376
0.246
1.186
0.770
0.524
1.538
0.685
0.551
1.063
0.870
0.891
0.842
0.867
0.441
0.371
3.890
1.306
0.387
0.843
0.665
1.208
0.593
0.171
0.445
0.985
0.819
0.909
0.613
0.590
0.000
0.500
0.937
0.696
1.277
0.809
0.819
1.364
0.360
1.178
0.649
0.789
1.140
1.319
0,000
0.306
0.502
0.370
1.648
1.033
0.749
1.674
1.052
0.786
1.439
1.281
1.306
0.922
1.708
0.659
0.529
5.696
1.690
0.559
1.121
1.042
1.697
0.759
0.232
0.564
1.262
1.173
1.310
0.874
0.786
0.000
0.705
1.380
1.107
1.734
1.164
1.278
1.816
0.583
1.6
0.9
1.1
1.6
1.8
0.1
0.5
0.8
0.6
2.2
1.4
1.1
2.3
1.5
1.1
2.0
1.8
1.8
1.3
2.3
1.0
0.8
7.5
2.3
0.8
1.6
1.5
2.3
1.1
0.4
0.8
1.7
1.6
1.8
1.2
1.1
0.1
1.0
1.9
1.5
2.4
1.6
1.8
2.5
0.9
-------
Polygon
No.
3057
3058
3060
3066
3067
3072
3077
3079
3082
3086
3093
3099
3107
3108
3109
3118
3122
3123
3127
3129
3134
3137
3150
3163
3168
3175
3177
3180
3182
3183
3184
3185
3196
3198
3201
3206
3209
3212
3217
3222
3224
3225
3227
3230
3238
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Geom.	Ref. House
Mean	Geom.	Radon Potential (mCi/yr)	Indoor Radon
Statsgo Geology No. of Radium	S.D.	at Specified Confidence Limit	at 959c C.L.
No. Class Points (pCi/g)	Radium	50% 75% 90% 95% (pCi/L)
88
Qui
7
Tjb1
37
Tci1
44
Qui
43
Th1
67
TH2a
98
Qui
30
Qui
28
Tci1
37
Tmc1
86
Qh1
98
Tab1
13
Qh1
98
Qui
98
Qal1
44
Th1
77
TH2a
9
Qbd1
98
Qal1
30
Th1
77
Qui
51
Tjb1
37
Tjb1
13
Qbd1
74
Qh1
67
Ts2
44
Qd1
1 3
Qui
1 2
Qbd1
28
Qui
1 0
Qh1
28
Qui
78
TH2a
36
Tjb1
78
Qui
37
Th1
28
Qui
50
Qui
86
Qh1
77
Qui
30
Qui
10
Qh1
13
Qui
50
Th1
23
Qui
6
0.676
59
0.291
167
0.231
68
0.178
122
0.263
40
0.219
20
0.091
9
0.101
12
0.292
1 7
0.088
3834
0.171
1 4
0.197
3834
0.171
53471
0.155
1 4
0.094
30
0.136
6
0.073
10491
0.106
31
0.188
109
0.301
20
0.485
24
0.399
203
0.161
154
0.077
3834
0.171
5077
0.352
143
0.104
105
0.107
37
0.089
133
0.153
66
0.068
53471
0.155
1 2
0.268
37
0.181
85
0.485
61
0.597
350
0.090
81
0.326
78
0.260
748
0.397
4
0.125
40
0.191
69
0.159
151
0.799
28
0.370
1.510	0.665
2.166	0.211
2.297	0.267
2.639	0.265
2.805	0.172
2.322	0.631
2.817	0.079
2.988	0.222
1.734	0.248
3.195	0.128
3.644	0.042
3.336	0.135
3.644	0.205
3.814	0.113
3.174	0.082
2.613	0.221
3.649	0.191
3.846	0.271
2.427	0.121
2.292	0.409
1.867	0.603
1.527	0.460
2.711	0.202
3.407	0.112
3.644	0.000
2.652	0.821
3.199	0.198
3.479	0.138
3.106	0.179
2.741	0.155
3.217	0.217
3.814	0.172
1.747	0.362
3.118	0.204
1.938	0.586
1.547	0.695
3.408	0.112
2.445	0.402
2.683	0.047
2.187	0.502
4.107	0.257
3.173	0.318
2.890	0.183
1.357	1.008
1.804	0.477
0.851	1.088
0.327	0.495
0.412	0.610
0.394	0.601
0.300	0.521
0.825	1.076
0.115	0.183
0.314	0.450
0.348	0.476
0.209	0.370
0.060	0.093
0.251	0.484
0.395	0.811
0.214	0.437
0.128	0.216
0.317	0.471
0.340	0.630
0.394	0.648
0.189	0.297
0.584	0.871
0.833	1.157
0,587	0.726
0.328	0.511
0.177	0.309
0.000	0.000
1.152	1.607
0.294	0.457
0.239	0.437
0.262	0.374
0.253	0.421
0.275	0.358
0.321	0.644
0.485	0.645
0.372	0.669
0.851	1.206
0.892	1.104
0.181	0.324
0.674	1.014
0.064	0.100
0.750	1.116
0.433	0.819
0.476	0.772
0.304	0.530
1.197	1.411
0.658	0.867
1.310
1.8
0.647
0.9
0.803
1.1
0.790
1.1
0.707
1.0
1.262
1.7
0.246
0.4
0.575
0.8
0.580
0.9
0.525
0.8
0.134
0.3
0.788
1.1
1.222
1.7
0.698
1.0
0.319
0.5
0.618
0.9
0.891
1.3
0.928
1.3
0.409
0.6
1.119
1.6
1.432
2.0
0.826
1.2
0.708
1.0
0.455
0.7
0.000
0.1
2.059
2.8
0.615
0.9
0.656
1.0
0.494
0.7
0.568
0.8
0.465
0.7
0.978
1.4
0.784
1.1
1.011
1.4
1.435
2.0
1.282
1.8
0.451
0.7
1.365
1.9
0.136
0.3
1.442
2.0
1.462
2.0
1.130
1.6
0.713
1.0
1.584
2.2
1.045
1.5
T 1 A
-------
Polygon
No.
3250
3256
3286
3299
3307
3318
3332
3337
3341
3343
3355
3357
3364
3376
3383
3388
3339
3395
3397
3399
3402
3419
3421
3423
3428
3431
3435
3440
3452
3455
3456
3470
3473
3481
3493
3499
3507
3508
3510
3516
3519
3522
3524
3525
3527
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Geom.	Ref. House
Mean	Geom.	Radon Potential (mCi/yr)	Indoor Radon
Statsgo Geology No. of Radium	S.D.	at Specified Confidence Limit		at 95% C.L.
No. Class Points (pCi/g)	Radium 50% 75% 90% 95% (pCi/L)
7
Qui
31
Qal1
60
Tc1
27
Qui
25
Qui
76
TH2a
1 2
Qbd1
50
Th1
37
Thl
35
Th1
67
Qui
53
Thl
88
Qui
87
Qh1
28
Qui
67
TH2a
19
Th1
58
TH2a
30
Qui
13
Qui
62
TH2a
28
Qui
44
Qui
87
Qui
1 9
Th1
25
Toil
13
Qui
81
Tc1
27
Qui
27
Qui
7
Qal1
69
TH2a
58
QTu1
49
Qui
87
Qh1
1 3
Qui
89
Qui
1 9
Th1
50
Tmc1
20
Qui
25
Qui
77
TH2a
19
Qui
36
Tjb1
37
Tjb1
53471
0.155
27
0.663
27
0.621
53471
0.155
166
0.591
116
0.231
146
0.085
35
0.269
37
0.300
21
0.495
368
0.482
24
0.578
53471
0.155
8
0.566
53471
0.155
61
0.247
27
0.247
72
0.175
24
0.125
57
0.119
120
0.104
39
0.220
53471
0.155
56
0.332
31
0.487
50
0.481
1 5
0.138
600
0.384
26
0.088
43
0.068
23
0.202
45
0.725
66
0.191
11 1
0.292
17
0.423
53471
0.155
21
0.542
15
0.298
46
0.554
53471
0.155
358
0.383
26
0.415
53471
0.155
551
0.178
551
0.178
3.814
0.140
1.740
0.705
1.469
0.583
3.814
0.248
1.764
0.845
2.853
0.326
3.324
0.180
3.000
0.352
2.159
0.345
1.808
0.407
2.001
0.651
1.392
0.484
3.814
0.170
1.343
0.589
3.814
0.168
2.607
0.684
2.394
0.104
2.695
0.224
3.145
0.246
2.774
0.141
3.295
0.090
2.413
0.206
3.814
0.262
2.443
0.413
1.860
0.189
1.418
0.623
3.328
0.163
2.132
0.366
3.120
0.171
3.362
0.155
3.007
0.165
1.588
1.008
2.837
0.202
2.565
0.242
3.017
0.543
3.814
0.190
1.668
0.582
2.621
0.127
1.833
0.682
3.814
0.210
2.003
0.522
1.513
0.542
3.814
0.078
2.855
0.200
2.855
0.219
0.263	0.538
0.986	1.329
0.717	0.886
0.457	0.859
1.162	1.572
0.513	0.841
0.261	0.394
0.631	1.138
0.519	0.752
0.586	0.852
0.912	1.252
0.616	0.752
0.349	0.656
0.686	0.792
0.324	0.648
0.920	1.223
0.176	0.291
0.356	0.534
0.363	0.549
0.227	0.367
0.145	0.257
0.328	0.500
0.450	0.815
0.607	0.907
0.305	0.478
0.764	0.911
0.305	0.551
0.556	0.858
0.251	0.402
0.217	0.337
0.289	0.537
1.293	1.614
0.340	0.605
0.406	0.680
0.914	1.692
0.383	0.746
0.744	0.921
0.223	0.411
0.964	1.300
0.393	0.769
0.763	1.054
0.692	0.894
0.152	0.314
0.335	0.584
0.372	0.629
0.851
1.2
1.574
2.1
0.983
1.4
1.341
1.8
1.939
2.6
1.204
1.7
0.516
0.8
1.606
2.2
0.994
1.4
1.092
1.5
1.506
2.1
0.873
1.2
1.013
1.4
0.879
1.2
0.957
1.3
1.492
2.0
0.413
0.6
0.758
1.1
0.773
1.1
0.508
0.8
0.372
0.6
0.684
1.0
1.294
1.8
1.113
1.5
0.653
0.9
1.006
1.4
0.836
1.2
1.051
1.5
0.545
0.8
0.471
0.7
0.799
1.1
1.819
2.5
0.885
1.3
0.949
1.3
2.386
3.2
1.196
1.7
1.082
1.5
0.606
0.9
1.616
2.2
1.162
1.6
1.333
1.8
1.044
1.5
0.499
0.7
0.811
1.2
0.873
1.2
T OA
-------
Polygon
No.
3528
3532
3535
3536
3543
3551
3556
3558
3564
3566
3567
3568
3569
3576
3577
3587
3591
3592
3596
3597
3598
3599
3604
3606
3609
3612
3616
3620
3624
3626
3628
3631
3633
3635
3639
3643
3657
3660
3673
3676
3679
3682
3683
3685
3687
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Geom.	Ref. House
Mean	Geom.	Radon Potential (mCi/yr) Indoor Radon
Statsgo Geology No. of Radium	S.D. at Specified Confidence Limit	 at 95% C.L.
No. Class Points (pCi/g)	Radium 50% 75% 90% 95%	(pCi/L)
84
Qh1
37
Qui
37
Qui
44
Qui
49
Th1
1 9
Qui
10
water
40
Qd1
39
Qd1
39
Qui
28
Qui
62
QTu1
49
Qui
37
Qui
13
Qui
12
Qbd1
53
Qui
50
Tmc1
23
Qui
49
Th1
85
Tc1
35
Qui
50
Tmc1
69
TH2a
98
Qui
40
Qui
60
QTu1
1 2
Qui
1 9
Qui
58
TH2a
31
Qal1
30
Qui
84
Qh1
1 9
Qui
97
Qui
1 2
Qbd1
84
QTu1
77
TH2a
17
Qui
33
Qai1
60
Tc1
91
Qui
40
Qui
40
Ts1
44
Qd1
5	0.212
112	0.232
23	0.291
35	0.238
19	0.369
368	0.159
13	0.082
35	0.127
43	0.092
598	0.062
311	0.103
6990	0.252
53471	0.155
53471	0.155
53471	0.155
17	0.074
53471	0.155
2711	0.434
53471	0.155
1 1	0.634
75	0.542
53471	0.155
2711	0.434
33	0.403
53471	0.155
53471	0.155
12	0.486
53471	0.155
33	0.157
4119	0.262
3607	0.134
53471	0.155
3834	0.171
53471	0.155
53471	0.155
35	0.131
240	0.427
4119	0.262
53471	0.155
9	0.632
9001	0.244
112	0.185
53471	0.155
46	0.065
2879	0.148
2.974
0.260
2.586
0.278
2.137
0.332
2.545
0.324
2.613
0.304
3.119
0.077
3.250
0.230
3.446
0.185
2.957
0.143
3.018
0.115
3.308
0.123
3.085
0.171
3.814
0.148
3.814
0.205
3.814
0.191
3.038
0.165
3.814
0.154
2.307
0.547
3.814
0.239
1.363
0.500
1.694
0.548
3.814
0.154
2.307
0.556
1.862
0.566
3.814
0.113
3.814
0.226
2.492
0.509
3.814
0.251
2.049
0.071
2.783
0.323
4.141
0.158
3.814
0.287
3.644
0.235
3.814
0.081
3.814
0.089
3.089
0.220
1.994
0.481
2.783
0.424
3.814
0.252
1.278
0.385
2.958
0.248
2.905
0.067
3.814
0.225
2.746
0.121
3.736
0.254
0.460	0.886
0.454	0.713
0.502	0.740
0.496	0.768
0.545	0.940
0.134	0.244
0.294	0.408
0.331	0.568
0.218	0.328
0.167	0.246
0.200	0.344
0.322	0.600
0.293	0.562
0.410	0.848
0.379	0.760
0.233	0.325
0.305	0.613
0.896	1.363
0.471	0.970
0.636	0.800
0.739	0.927
0.308	0.604
0.874	1.311
0.774	0.984
0.211	0.434
0.412	0.839
0.842	1.413
0.437	0.800
0.105	0.155
0.515	0.867
0.323	0.691
0.452	0.825
0.427	0.814
0.155	0.301
0.167	0.351
0.335	0.535
0.691	0.984
0.697	1.106
0.461	0.939
0.495	0.638
0.429	0.756
0.111	0.195
0.411	0.842
0.168	0.243
0.427	0.771
1.417
1.9
0.998
1.4
0.927
1.3
0.995
1.4
1.374
1.9
0.385
0.6
0.527
0.8
0.859
1.2
0.463
0.7
0.342
0.5
0.495
0.7
0.872
1.2
0.887
1.3
1.287
1.8
1.133
1.6
0.430
0.7
0.963
1.4
1.768
2.4
1.475
2.0
0.936
1.3
1.120
1.6
0.946
1.3
1.778
2.4
1.193
1.7
0.667
1.0
1.256
1.7
1.993
2.7
1.208
1.7
0.211
0.4
1.184
1.6
1.054
1.5
1.247
1.7
1.248
1.7
0.494
0.7
0.571
0.8
0.692
1.0
1.199
1.7
1.534
2.1
1.392
1.9
0.718
1.0
1.076
1.5
0.300
0.5
1.197
1.7
0.316
0.5
1.125
1.6
T Ol
-------
Polygon
No.
3696
3697
3702
3709
3715
3718
3722
3724
3725
3729
3730
3731
3740
3743
3747
3748
3754
3756
3768
3771
3776
3782
3785
3791
3795
3802
3803
3806
3810
3815
3833
3839
3843
3845
3849
3852
3872
3880
3884
3885
38B7
3889
3895
3897
3903
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Statsgo Geology No. of
No. Class Points
Geom.
Mean
Radium
(pCi/g)
Geom.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref. House
Indoor Kadon
at 95% C.L.
(pCi/L)
49
13
76
39
36
44
69
33
39
83
76
69
49
62
44
40
93
13
93
31
68
40
19
10
22
40
1 4
1 3
93
1 9
28
67
37
76
37
93
69
1 9
83
87
1 3
48
49
48
10
Tmc2
Qui
TH2a
Qui
Qui
Qui
Ts2
Qui
Tjbl
Qtr1
TH2a
TH2a
Qui
QTu1
Tsm2
Qui
Qui
Qui
Qui
Qui
Qui
Qui
Th1
Qui
Qui
Tsm2
Qui
Qui
Qh1
Qal1
Qui
TH2a
Qui
TH2a
Th1
Qh1
TH2a
Qui
QTu1
Qh1
Qui
Ts2
Qui
Qui
Qh1
33
53471
4119
193
783
53471
5077
14
1 1
20
4119
4119
53471
34
24
159
5
53471
46
70
48
105
5302
53471
80
37
7
53471
3834
3607
53471
75
53471
4119
5302
3834
105
53471
150
3834
108
120
49
53471
6
0.219
0.155
0.262
0.175
0.224
0.155
0.352
0.467
0.141
0.262
0.262
0.262
0.155
0.532
0.227
0.052
0.293
0.155
0.370
0.787
0.321
0.169
0.319
0.155
0.699
0.066
0.170
0.155
0.171
0.134
0.155
0.421
0.155
0.262
0.319
0.171
0.380
0.155
0.270
0.171
0.087
0.529
0.163
0.155
0.162
2.325
3.814
2.783
2.675
3.404
3.814
2.652
1.665
2.249
2.702
2.783
2.783
3.814
2.063
2.499
3.015
5.144
3.814
2.896
1.380
1.789
2.624
2.745
3.814
1.507
3.253
2.287
3.814
3.644
4.141
3.814
2.103
3.814
2.783
2.745
3.644
2.723
3.814
2.448
3.644
3.239
2.146
2.599
3.814
3.367
0.194
0.186
0.351
0.218
0.259
0.264
0.544
0.283
0.183
0.329
0.347
0.435
0.146
0.346
0.504
0.112
0.374
0.189
0.381
0.826
0.411
0.216
0.132
0.299
0.941
0.229
0.079
0.200
0.180
0.074
0.169
0.876
0.210
0.357
0.398
0.179
0.595
0.079
0.329
0.278
0.120
0.407
0.139
0.130
0.294
0.298
0.376
0.563
0.344
0.502
0.448
0.848
0.400
0.258
0.558
0.581
0.660
0.285
0.556
0.692
0.154
1.048
0.374
0.706
1.026
0.561
0.335
0.249
0.464
1.188
0.318
0.105
0.376
0.362
0.141
0.329
1.178
0.419
0.572
0.686
0.363
0.952
0.149
0.514
0.452
0.190
0.617
0.222
0.251
0.449
0.445
0.751
0.966
0.571
0.967
0.845
1.343
0.552
0.366
0.907
0.935
1.031
0.590
0.876
0.949
0.224
3.089
0.711
1.268
1.248
0.735
0.531
0.459
0.776
1.458
0.433
0.144
0.745
0.696
0.282
0.649
1.480
0.838
0.934
1.135
0.685
1.480
0.310
0.829
0.747
0.336
0.896
0.365
0.486
0.732
0.619
1.181
1.320
0.741
1.435
1.225
1.744
0.693
0.476
1.261
1.251
1.379
0.907
1.195
1.141
0.288
6.155
1.181
1.733
1.412
0.832
0.727
0.663
1.144
1.673
0.547
0.180
1.165
1.025
0.484
1.007
1.770
1.269
1.321
1.595
1.054
2.175
0.482
1.105
1.094
0.463
1.140
0.499
0.785
1.072
0.9
1.6
1.8
1.1
2.0
1.7
2.4
1.0
0.7
1.7
1.7
1.9
1.3
1.7
1.6
0.5
8.1
1.6
2.4
1.9
1.2
1.0
1.0
1.6
2.3
0.8
0.3
1.6
1.4
0.7
1.4
2.4
1.7
1.8
2.2
1.5
2.9
0.7
1.5
1.5
0.7
1.6
0.7
1.1
1.5
T Art
-------
Polygon
No.
3915
3919
3920
3921
3922
3925
3930
3938
3945
3948
3949
3952
3953
3955
3957
3972
3986
3988
3994
3997
3999
4000
4001
4005
4007
4020
4025
4029
4032
4036
4037
4043
4044
4050
4052
4054
4058
4059
4060
4062
4066
4069
4070
4073
4075
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Oeom.	Ref. House
Mean	Geom. Radon Potential (mCL'yr)	Indoor Radon
Statsgo Geology No. of Radium	S.D. at Specified Confidence Limit	at95%C.L.
No. Class Points (pCi/g)	Radium ~ 50% 75% 90% 95% (pCi/L)
40
Ts2
49
Qui
19
Qui
13
Qui
13
Qui
77
Ts2
27
Qui
62
QTu1
19
Qui
40
Qui
27
Qui
36
Qui
42
Tsm2
40
Tsm2
88
Qui
85
Qtr1
93
Tc1
84
Qui
69
TH2a
99
Qui
76
TH2a
78
TH2a
74
water
28
Qui
40
Qui
13
Qui
80
Qui
49
Qui
27
Qui
84
Qui
44
Qui
37
Qui
40
Qui
69
TH2a
40
Ts2
19
Qui
36
Qui
1 9
Qui
75
TH2a
27
Qui
40
Qui
1 9
Qui
40
Qui
1 4
Qui
81
Qui
607
0.264
16
0.127
53471
0.155
53471
0.155
53471
0.155
5077
0.352
53471
0.155
8
0.145
8
0.064
53471
0.155
195
0.160
21
0.322
1 90
0.169
121
0.238
73
0.542
48
0.431
9001
0.244
53471
0.155
24
0.630
114
0.150
106
0.391
119
0.545
582
0.037
53471
0.155
94
0.130
47
0.326
71
0.402
53471
0.155
32
0.057
1 2
0.240
53471
0.155
47
0.325
103
0.086
1 6
0.374
32
0.043
33
0.276
1153
0.068
26
0.074
118
0.374
53471
0.155
37
0.086
26
0.137
883
0.236
7
0.031
33
0.744
2.397	0.435
2.164	0.108
3.814	0.079
3.814	0.189
3.814	0.190
2.652	0.545
3.814	0.254
2.540	0.098
3.201	0.048
3.814	0.222
3.255	0.246
2.336	0.344
3.099	0.448
2.483	0.404
1.937	0.529
1.645	0.413
2.958	0.245
3.814	0.217
2.569	1.004
3.253	0.000
2.149	0.495
2.163	0.767
2.952	0.000
3.814	0.166
3.157	0.185
2.224	0.342
2.126	0.548
3.814	0.144
3.294	0.144
2.670	0.290
3.814	0.265
2.205	0.378
3.230	0.139
3.096	0.595
2.972	0.202
1.940	0.109
4.056	0.100
3.066	0.050
1.911	0.475
3.814	0.254
3.239	0.146
2.852	0.068
2.331	0.283
2.483	0.054
1.630	0.766
0.607	0.880
0.161	0.240
0.149	0.312
0.376	0.783
0.377	0.730
0.911	1.436
0.468	0.824
0.161	0.273
0.068	0.115
0.421	0.809
0.416	0.705
0.553	0.861
0.595	0.831
0.582	0.811
0.782	1.114
0.534	0.700
0.443	0.762
0.401	0.766
1.672	2.658
0.000	0.000
0.699	1.036
1,175	1.713
0.000	0.000
0.334	0.648
0.306	0.522
0.532	0.800
0.799	1.143
0.279	0.592
0.199	0.289
0.474	0.766
0.447	0.828
0.575	0.866
0.225	0.367
1.043	1.818
0.275	0.368
0.168	0.264
0.183	0.343
0.074	0.124
0.655	0.872
0.457	0.855
0.226	0.370
0.112	0.197
0.424	0.632
0.066	0.077
1.055	1.376
1.140
1.6
0.315
0.5
0.508
0.8
1.166
1.6
1.169
1.6
1.832
2.5
1.361
1.9
0.379
0.6
0.162
0.3
1.244
1.7
1.021
1.4
1.203
1.7
1.169
1.6
1.049
1.5
1.340
1.8
0.810
1.2
1.063
1.5
1.218
1.7
3.666
4.9
0.000
0.1
1.293
1.8
2.194
3.0
0.000
0.1
1.013
1.4
0.731
1.1
1.026
1.4
1.434
2.0
0.932
1.3
0.393
0.6
1.118
1.6
1.253
1.7
1.156
1.6
0.500
0.8
2.907
3.9
0.442
0.7
0.336
0.5
0.532
0.8
0.171
0.3
1.084
1.5
1.309
1.8
0.496
0,7
0.279
0.5
0.806
1.1
0.088
0.2
1.610
2.2

-------
Polygon
No.
4079
4084
4093
4095
4099
4102
4104
4107
4109
4110
41 1 1
4121
4122
4125
4128
4130
4132
4133
4136
4137
4141
4144
4145
4147
4151
4152
4158
4161
4162
4167
4169
4172
4173
4175
4176
4179
4180
4184
4189
41 90
4192
4196
4200
4201
4204
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Geom.	Rcf. House
Mean	Geom.	Radon Potential (mCi/yr)	Indoor Radon
Statsgo (Jeology No. of Radium	S.D.	at Specified Confidence Limit		at 95% C.L.
No. Class Points (pCi/g)	Radium	50% 75% 90% 95% (pCi/L)
45
Ts2
78
Qui
93
Qh1
43
Tj'bl
45
Tsm2
67
Qui
39
Qui
1 9
Qui
88
Qui
1 9
Qui
84
Qui
44
Qui
62
QTu1
33
Qal1
77
Qui
83
TH2a
69
TH2a
40
Qui
40
Qui
1 9
Qui
40
Tsm2
1 8
Qui
91
Qui
91
Qui
62
TH2a
27
Qui
93
Qui
84
Qui
40
Qui
19
Qui
40
Qui
13
Qh1
69
TH2a
40
Tsm2
78
TH2a
72
To2a
45
Tsm2
37
Qui
40
Qui
27
Qui
95
Qal1
93
Qui
81
QTu1
31
Qal1
31
Qui
53
0.173
1 1
0.429
3834
0.171
88
0.178
421
0.145
8
0.715
22
0.035
100
0.042
53471
0.155
21
0.505
53471
0.155
53471
0.155
40
0.335
3607
0.134
45
0.292
4119
0.262
4119
0.262
53471
0.155
53471
0.155
53471
0.155
1 1
0.421
53471
0.155
53471
0.155
1 9
0.395
4119
0.262
53471
0.155
322
0.254
1 0
0.380
580
0.077
134
0.269
53471
0.155
1 1
0.255
4119
0.262
121
0.180
4119
0.262
505
0.569
66
0.154
113
0.438
39
0.095
1 1
0.337
16
0.065
53471
0.155
2050
0.433
4
1.058
40
0.583
3.387
0.214
1.724
0.500
3.644
0.179
3.129
0.127
3.166
0.180
1.244
0.901
2.819
0.092
2.768
0.041
3.814
0.172
1.573
0.192
3.814
0.212
3.814
0.267
3.095
0.243
4.141
0.116
2.526
0.368
2.783
0.457
2.783
0.419
3.814
0.225
3.814
0.221
3.814
0.077
1.515
0.577
3.814
0.327
3.814
0.064
2.397
0.119
2.783
0.175
3.814
0.251
3.003
0.255
1.994
0.427
3.253
0.132
2.685
0.114
3.814
0.224
2.730
0.288
2.783
0.418
2.707
0.345
2.783
0.401
1.709
0.736
2.862
0.185
2.208
0.529
3.117
0.149
1.953
0.427
3.299
0.000
3.814
0.166
2.100
0.417
1.303
1.222
1.807
0.590
0.356	0.618
0.665	0.896
0.346	0.661
0.221	0.390
0.298	0.496
1.032	1.154
0.124	0.166
0.053	0.074
0.329	0.684
0.284	0.423
0.397	0.805
0.427	0.840
0.456	0.857
0.214	0.440
0.606	0.955
0.700	1.054
0.662	1.075
0.421	0.801
0.434	0.811
0.152	0.315
0.701	0.818
0.511	0.884
0.113	0.214
0.208	0.352
0.315	0.559
0.459	0.851
0.465	0.823
0.630	0.876
0.205	0.330
0.206	0.358
0.425	0.800
0.490	0.850
0.670	1.041
0.492	0.699
0.647	1.062
0.965	1.287
0.294	0.458
0.824	1.208
0.234	0.398
0.585	0.815
0.000	0.000
0.328	0.687
0.661	0.953
1.506	1.873
0.847	1.202
0.883	1.2
1.117	1.6
1.125	1.6
0.573	0.8
0.651	0.9
1.240	1.7
0.206	0.4
0.099	0.2
1.032	1.4
0.567	0.8
1.163	1.6
1.245	1.7
1.253	1.7
0.688	1.0
1.334	1.8
1.341	1.8
1.399	1.9
1.275	1.8
1.280	1.8
0.497	0.7
0.939	1.3
1.293	1.8
0.349	0.6
0.551	0.8
0.784	1.1
1.312	1.8
1.178	1.6
1.086	1.5
0.449	0.7
0.544	0.8
1.208	1.7
1.226	1.7
1.458	2.0
0.908	1.3
1.419	1.9
1.466	2.0
0.602	0.9
1.612	2.2
0.537	0.8
1.006	1.4
0.000	0.1
1.030	1.4
1.177	1.6
2.136	2.9
1.481	2.0
T r> a
-------
Polygon
No.
4210
4213
4214
4216
4217
4219
4223
4224
4225
4227
4230
4232
4234
4238
4239
4241
4242
4243
4245
4246
4247
4248
4249
4250
4251
4252
4255
4257
4260
4261
4262
4271
4274
4276
4277
4278
4283
4284
4285
4286
4287
4289
4291
4292
4293
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Geom.	Ref. House
Mean	Geom.	Radon Potential (mOi/yr)	Indoor Radon
Statsgo Geology No. of Radium	S.D.	at Specified Confidence Limit		at 95% C.L.
No. Class Points (pCi/g)	Radium 50% 75% 90% 95% (pCi/L)
37
Qui
1 4
Qui
39
Qui
28
Qui
78
TH2a
1 3
Qui
31
Qui
1 9
Qui
37
Qui
78
Qui
19
Qui
39
Qui
43
Qui
40
Tjb1
105
Qhl
67
TH2a
45
Ts2
82
QTu1
62
QTu1
84
QTu1
67
Qui
7 B
TH2a
37
Qui
36
Qui
106
Qh1
94
QTu1
91
Qui
28
Qui
84
Qtr1
1 3
Qui
1 9
Qui
62
QTu1
13
Qui
46
Tsm2
13
Qui
39
Tjb1
69
TH2a
36
Qui
19
Ts2
84
Qui
69
Qui
85
QTu1
13
Qui
19
Qui
37
Qui
30
0.621
53471
0.155
126
0.267
173
0.228
17
0.526
2
0.153
1 3
0.879
53471
0.155
33
0.203
53471
0.155
38
0.059
53471
0.155
21
0.955
42
0.194
3834
0.171
90
0.495
1 4
0.435
20
0.231
27
0.056
7
0.330
188
0.422
91
0.394
19
0.149
1 519
0.100
23
0.604
6990
0.252
43
0.706
1 7
0.064
683
0.414
53471
0.155
4
0.078
134
0.277
55
0.192
49
0.094
53471
0.155
49
0.124
37
0.580
50
0.408
28
0.190
17
0.480
21
0.596
104
0.355
53471
0.155
202
0.060
5
0.383
1.423	0.722
3.814	0.083
2.827	0.332
2.586	0.220
1.673	0.689
1.821	0.161
1.345	0.954
3.814	0.080
2.746	0.244
3.814	0.218
2.962	0.046
3.814	0.211
1.403	0.634
2.863	0.252
3.644	0.142
1.742	0.935
1.679	0.389
2.243	0.202
3.493	0.058
2.004	0.361
2.080	0.583
2.075	0.554
3.436	0.201
5.433	0.140
1.431	0.614
3.085	0.000
1.515	0.201
3.178	0.094
2.1 14	0.472
3.814	0.187
4.528	0.054
2.862	0.183
2.705	0.212
3.445	0.091
3.814	0.200
3.355	0.173
1.743	0.783
1.689	0.420
2.705	0.093
1.650	0.520
2.247	0.800
2.071	0.349
3.814	0.195
2.914	0.047
1.686	0.423
0.888	1.054
0.126	0.210
0.569	0.976
0.353	0.560
0.918	1.196
0.221	0.316
1.184	1.426
0.148	0.313
0.413	0.721
0.426	0.871
0.063	0.099
0.393	0.793
0.832	1.124
0.411	0.698
0.281	0.561
1.184	1.459
0.506	0.686
0.303	0.457
0.091	0.153
0.534	0.763
0.815	1.143
0.776	1.111
0.362	0.674
0.321	0.810
0.757	0.900
0.000	0.000
0.303	0.467
0.141	0.225
0.702	1.013
0.386	0.721
0.095	0.202
0.332	0.604
0.337	0.602
0.152	0.263
0.368	0.752
0.296	0.532
1.064	1.360
0.554	0.700
0.152	0.259
0.694	0.888
1.260	1.969
0.516	0.745
0.380	0.743
0.063	0.097
0.576	0.777
1.176
1.6
0.310
0.5
1.307
1.8
0.792
1.1
1.442
2.0
0.406
0.6
1.609
2.2
0.486
0.7
0.977
1.4
1.344
1.8
0.135
0.3
1.243
1.7
1.280
1.8
0.987
1.4
0.856
1.2
1.624
2.2
0.800
1.1
0.595
0.9
0.226
0.4
1.004
1.4
1.381
1.9
1.318
1.8
1.088
1.5
1.341
1.8
1.013
1.4
0.000
0.1
0.620
0.9
0.315
0.5
1.282
1.8
1.185
1.6
0.367
0.6
0.895
1.3
0.800
1.1
0.379
0.6
1.161
1.6
0.772
1.1
1.646
2.2
0.841
1.2
0.384
0.6
1.029
1.4
2.655
3.6
0.964
1.4
1.142
1.6
0.134
0.3
0.945
1.3
T OK
-------
Polygon
No.
4294
4296
4297
4298
4303
4304
4306
4307
4308
4309
4311
4313
4314
4315
4316
4318
4319
4321
4324
4325
4326
4327
4331
4332
4334
4335
4337
4340
4341
4347
4348
4350
4351
4352
4353
4358
4359
4361
4362
4363
4364
4365
4367
4368
4374
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Statsgo Gwlogy No. of
No. Class Points
CrBOm.
Mean
Radium
(pCi/g>
Geom.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L,
(pCi/L)
105
91
93
106
67
31
77
27
106
90
39
1 0
39
80
1 2
78
1 9
99
13
45
43
85
78
78
69
69
79
58
37
43
42
46
37
62
42
77
77
76
77
78
9
91
40
58
37
Qhl
Qui
Qui
Qhl
To2a
Qui
Qui
Qui
Qui
Tc1
Qui
Qui
Qui
TH2a
Tsm2
Qui
Qui
Qr1
Qui
Ts2
Tic1
Qui
Qui
TH2a
TH2a
QTu1
Qui
QTuI
Qui
Qal1
Qui
Tsm2
Qui
QTu1
Ts2
TH2a
Qui
TH2a
Qui
Qui
Qui
Qui
Ticl
QTu1
Qui
40
8
57
34
10
9
325
1 1
199
78
46
3
176
81
27
27
10
848
1 0
610
61
133
53471
4119
4119
6990
14
6990
104
3607
25
1397
53471
6990
526
4119
56
4119
53471
53471
16
53471
418
6990
29
0.439
0.141
0.710
0.418
0.486
0.707
0.348
0.140
0.280
0.426
0.506
0.405
0.083
0.526
0.102
0.497
0.243
0.087
0.153
0.675
0.101
0.444
0.155
0.262
0.262
0.252
0.436
0.252
0.303
0.134
0.339
0.143
0.155
0.252
0.308
0.262
0.392
0.262
0.155
0.155
0.290
0.155
0.023
0.252
0.633
1.678
3.41 1
1.655
2.790
1.672
1.502
2.136
3.205
3.004
1.774
1.783
1.612
3.408
1.713
2.498
1 .743
1.705
3.476
2.300
2.127
3.308
1.905
3.814
2.783
2.783
3.085
1.695
3.0B5
2.315
4.141
1.501
3.104
3.814
3.085
2.303
2.783
2.293
2.783
3.814
3.814
1.805
3.814
2.856
3.085
1.516
0.304
0.059
0.706
0.479
0.931
0.724
0.432
0.227
0.312
0.304
0.575
0.487
0.137
0.879
0.380
0.601
0.096
0.000
0.168
0.671
0.087
0.448
0.223
0.407
0.430
0.324
0.381
0.272
0.353
0.110
0.385
0.117
0.208
0.174
0.577
0.422
0.498
0.354
0.225
0.212
0.425
0.065
0.089
0.266
0.752
0.432
0.098
0.963
0.873
1.144
0.958
0.639
0.368
0.566
0.429
0.776
0.599
0.214
1.134
0.501
0.818
0.143
0.000
0.255
1.008
0.138
0.633
0.421
0.648
0.670
0.587
0.500
0.494
0.560
0.207
0.467
0.203
0.412
0.321
0.767
0.707
0.777
0.583
0.448
0.442
0.540
0.113
0.120
0.507
0.943
0.582
0.190
1.219
1.547
1.384
1.262
0.927
0.628
1.015
0.576
1.050
0.762
0.362
1.429
0.639
1.052
0.213
0.000
0.389
1.477
0.237
0.870
0.888
1.060
1.042
1.065
0.666
0.915
0.827
0.418
0.571
0.346
0.829
0.607
1.019
1.161
1.176
0.934
0.836
0.843
0.676
0.221
0.155
0.900
1.185
0.704
0.308
1.471
2.183
1.575
1.489
1.157
0.940
1.433
0.703
1.225
0.929
0.516
1.663
0.728
1.286
0.278
0.000
0.525
1.957
0.339
1.079
1.312
1.446
1.385
1.635
0.791
1.325
1.134
0.671
0.622
0.501
1.213
0.909
1.241
1.485
1.562
1.292
1.350
1.264
0.786
0.368
0.188
1.292
1.339
1.0
0.5
2.0
2.9
2.1
2.0
1.6
1.3
2.0
1.0
1.7
1.3
0.8
2.3
1.0
1.8
0.5
0.1
0.8
2.6
0.5
1.5
1.8
2.0
1.9
2.2
1.1
1.8
1.6
1.0
0.9
0.8
1.7
1.3
1.7
2.0
2.1
1.8
1.9
1.7
1.1
0.6
0.3
1.8
1.8
T s i r*
-------
Polygon
No.
4375
4376
4377
4379
4380
4385
4386
4388
4391
4392
4393
4394
4397
4398
4403
4405
4409
441 1
4420
4421
4424
4429
4432
4438
4439
4440
4441
4447
4448
4449
4451
4452
4455
4456
4459
4465
4468
4469
4471
4472
4473
4474
4476
4477
4478
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Statsgo Geology No. of
No. Class Points
Geom.
Mean
Radium
(pCi/g)
Geom.
SD-
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCiA,)
83
83
69
49
31
78
84
58
90
76
27
90
93
62
69
I	2
77
39
91
78
77
46
42
102
83
92
99
40
42
II	1
40
31
84
37
67
82
75
42
199
62
92
62
47
82
77
Tc1
Tc1
TH2a
Qui
Qal1
Qui
Qui
TH2b
Qui
Qu2
Qui
Tc1
Tc1
QTu1
Qu2
Qui
TH2a
Qui
Tc1
Qui
TH2a
Ts2
Ts2
Qh1
Qtr1
Tel
Qui
Qui
Tsm2
Qh1
Th1
Qal1
Tc1
Qui
Qui
TH2b
TH2b
Qui
Qh1
QTu1
Tc1
QTu1
Tsm2
QTu1
Qu2
28
56
411 9
613
3607
241
53471
163
119
2029
53471
9001
9001
6990
2029
24
4119
53471
9001
53471
4119
40
146
10
43
69
30
21
1397
7
1 7
1 5
9001
55
53471
1 5
16
1 2
208
45
9001
6990
263
14
228
0.287
0.501
0.262
0.184
0.134
0.356
0.155
0.406
0.703
0.524
0.155
0.244
0.244
0.252
0.524
0.130
0.262
0.155
0.244
0.155
0.262
0.119
0.452
0.628
0.423
0.237
0.147
0.049
0.143
0.404
0.094
0.134
0.244
0.338
0.155
0.283
0.769
0.339
0.119
0.161
0.244
0.252
0.117
0.762
0.696
2.213
2.138
2.783
2.898
4.141
2.031
3.814
2.219
1.942
2.265
3.814
2.958
2.958
3.085
2.265
2.892
2.783
3.814
2.958
3.814
2.783
3.429
1.776
1.345
2.417
2.611
4.132
2.744
3.104
1.937
2.876
6.076
2.958
2.241
3.814
2.572
1.543
1.742
3.007
3.258
2.958
3.085
3.097
1.422
1.612
0.345
0.615
0.427
0.157
0.157
0.415
0.216
0.458
0.567
0.666
0.256
0.200
0.247
0.172
0.762
0.211
0.417
0.217
0.082
0.216
0.410
0.107
0.709
0.678
0.524
0.304
0.000
0.107
0.413
0.148
0.149
0.177
0.298
0.394
0.318
0.285
1.051
0.397
0.073
0.116
0.325
0.169
0.121
0.685
0.952
0.512
0.919
0.664
0.271
0.321
0.620
0.403
0.688
0.837
1.046
0.452
0.345
0.440
0.328
1.183
0.314
0.688
0.412
0.142
0.424
0.707
0.184
0.897
0.793
0.873
0.457
0.000
0.145
0.550
0.214
0.221
0.490
0.522
0.619
0.501
0.447
1.321
0.518
0.103
0.208
0.516
0.322
0.186
0.852
1.268
0.763
1.388
1.018
0.472
0.664
0.903
0.775
1.057
1.199
1.600
0.875
0.594
0.747
0.593
1.726
0.485
1.127
0.781
0.265
0.853
1.131
0.324
1.099
0.935
1.322
0.700
0.000
0.208
0.781
0.309
0.348
1.314
0.899
0.910
0.887
0.715
1.681
0.674
0.151
0.383
0.832
0.591
0.321
1.024
1.609
0.961
1.750
1.396
0.712
1.131
1.122
1.203
1.321
1.583
2.010
1.340
0.855
1.082
0.874
2.295
0.628
1.495
1.208
0.392
1.324
1.513
0.492
1.295
1.026
1.759
0.902
0.000
0.264
0.993
0.409
0.487
2.435
1.251
1.210
1.329
1.028
1.980
0.809
0.194
0.605
1.163
0.893
0.434
1.161
1.868
1.3
2.4
1.9
1.0
1.6
1.6
1.7
1.8
2.2
2.7
1.8
1.2
1.5
1.2
3.1
0.9
2.0
1.7
0.6
1.8
2.1
0.7
1.8
1.4
2.4
1.3
0.1
0.4
1.4
0.6
0.7
3.3
1.7
1.7
1.8
1.4
2.7
1.2
0.4
0.9
1.6
1.3
0.7
1.6
2.5
T r»r»
-------
Polygon
No.
4480
4481
4482
4483
4484
4486
4487
4489
4491
4497
4500
4503
4504
4505
4506
4510
4513
4517
4518
4520
4523
4524
4526
4527
4528
4531
4533
4535
4537
4538
4540
4542
4543
4544
4546
4547
4548
4550
4554
4556
4 567
4 568
4570
4572
4573
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Geom.	Ref. House
Mean	Geom.	Radon Potential (mCi/yr) Indoor Radon
Statsgo Geology No. of Radium	S.D, at Specified Confidence Limit	 at 95% C.L.
No.	Class Points (pCi/g)	Radium 50%	75%	90%	95%	(pCi/L)
37
Qui
78
Qui
84
Qui
92
Tc1
1 3
Qui
91
Qui
62
QTu1
84
Qui
28
Qui
1 9
Qui
1 0
Qui
62
QTu1
67
To2a
36
Qui
67
Qu2
31
Qal1
84
Qui
67
To2a
75
Qu2
83
Tc1
94
QTu1
13
Qui
83
Tc1
62
QTu1
92
Qui
111
Qh1
84
QTu1
37
Qui
47
Ts2
46
Qui
39
Tsm2
40
Tic1
10
Qh1
39
Qui
93
Qui
67
Qui
77
To2a
40
Qui
67
Qd1
43
Qui
27
Qui
75
TH2b
84
Tc1
83
TH2b
84
Tc1
71
0.232
120
0.469
1 5
0.321
59
0.310
53471
0.155
53471
0.155
31
0.160
4
0.276
53471
0.155
25
0.066
61
0.111
24
0.206
38
0.681
27
0.223
444
0.465
19
0.142
36
0.532
115
0.378
1 6
0.657
16
0.585
52
0.075
59
0.113
29
0.228
21
0.194
174
0.218
46
0.209
1 0
0.547
43
0.466
410
0.341
466
0.130
67
0.032
50
0.137
1 0
0.077
42
0.102
75
0.381
1 8
0.472
6
0.486
81
0.162
34
0.249
13
0.596
53471
0.155
1063
0.464
19
0.332
1063
0.464
20
0.506
2.882	0.288
2.033 0.572
1.641	0.339
2.078 0.360
3.814	0.194
3.814	0.063
3.529	0.116
1.663	0.294
3.814	0.169
3.332	0.048
3.074	0.252
3.350	0.143
1.356	1.143
3.494	0.263
2.019	0.938
3.962	0.162
1.552	0.583
2.180	0.825
1.430	0.818
1.450	0.665
3.394	0.000
3.060	0.140
2.951	0.300
3.063	0.129
2.994	0.298
2.224	0.095
1.556	0.602
2.424	0.584
2.755	0.294
3.844	0.108
2.873	0.226
3.151	0.190
3.853	0.228
2.903	0.151
2.451	0.379
1.403	0.599
1.797	0.671
2.985	0.218
1.642	0.365
1.273	0.349
3.814	0.255
2.225	0.617
2.283	0.374
2.225	0.671
1.597	0.559
0.513	0.852
0.869	1.243
0.442	0.561
0.494	0.689
0.375	0.765
0.112	0.227
0.223	0.436
0.384	0.514
0.325	0.654
0.071	0.117
0.334	0.472
0.284	0.549
1.339	1.554
0.518	1.031
1.188	1.552
0.337	0.696
0.727	0.902
1.078	1.404
1.000	1.196
0.813	1.009
0.000	0.000
0.235	0.398
0.500	0.879
0.240	0.462
0.471	0.766
0.129	0.187
0.769	0.986
0.950	1.545
0.508	0.859
0.217	0.423
0.317	0.457
0.325	0.572
0.303	0.459
0.232	0.353
0.629	0.962
0.699	0.828
0.941	1.303
0.366	0.603
0.448	0.539
0.438	0.550
0.457	0.856
0.943	1.377
0.581	0.903
1.013	1.517
0.710	0.901
1.235
1.7
1.584
2.2
0.647
0.9
0.855
1.2
1.150
1.6
0.360
0.6
0.715
1.0
0.632
0.9
1.013
1.4
0.176
0.3
0.617
0.9
0.824
1.2
1.674
2.3
1.606
2.2
1.848
2.5
1.183
1.6
1.021
1.4
1.685
2.3
1.334
1.8
1.119
1.6
0.000
0.1
0.548
0.8
1.282
1.8
0.694
1.0
1.040
1.5
0.237
0.4
1.139
1.6
2.139
2.9
1.164
1.6
0.644
0.9
0.539
0.8
0.800
1.1
0.626
0.9
0.499
0.7
1.301
1.8
0.933
1.3
1.622
2.2
0.851
1.2
0.598
0.9
0.655
1.0
1.293
1.8
1.786
2.4
1.156
1.6
1.856
2.5
1.018
1.4
T OO
-------
Polygon
No.
4574
457S
4576
4582
4589
4590
4593
4594
4595
4602
4603
4604
4606
4609
4610
4611
4615
4617
4618
4619
4620
4625
4627
4628
4629
4630
4639
4644
4645
4646
4652
4653
4655
4656
4662
4666
4676
4683
4690
4691
4694
4695
4700
4703
4708
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Statsgo Geology
No. CIbas
No. of
Point#
Geom.
Mean
Radium
(pCi/g)
Geom.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
103
81
28
98
39
91
77
28
1 4
40
28
83
105
67
37
13
75
93
77
62
44
101
77
67
82
81
92
62
36
78
40
37
39
78
44
44
42
84
62
33
47
39
78
67
79
Qui
TH2b
Qui
Qui
Qui
Qui
Qui
Qui
Qui
Qui
Qh1
Tc1
Qui
Qd1
Qui
Qui
TH2b
Qui
To2a
QTu1
Qui
Qui
Qu2
Qui
TH2b
TH2b
Tc1
QTu1
Qui
To2a
Ts2
Qui
Qui
Qui
Qd1
Ts2
Tsk2
Tc1
TH2b
Qui
Tsm2
Qui
Qu2
To2a
Qu2
294
657
53471
53471
53471
9
91
21
53471
53471
24
113
429
136
101
53471
1063
100
167
1 9
33
23
2029
20
41
37
112
6990
52
165
26
25
53471
21
78
101
1 99
500
1063
72
1397
48
181
22
35
0.273
0.457
0.155
0.155
0.155
0.522
0.221
0.075
0.155
0.155
0.133
0.372
0.298
0.415
0.448
0.155
0.464
0.503
0.241
0.243
0.086
0.286
0.524
0.642
0.510
0.456
0.342
0.252
0.089
0.441
0.354
0.512
0.155
0.394
0.270
0.269
0.275
0.367
0.464
0.144
0.143
0.119
0.838
0.427
0.871
2.453
2.289
3.814
3.814
3.814
1.587
2.578
3.043
3.814
3.814
3.033
1.691
2.278
2.001
2.089
3.814
2.225
1.781
2.235
1.996
2 784
2.711
2.265
1.967
1.926
1.562
2.271
3.085
3.133
1.888
1.961
1.682
3.814
2.162
2.467
2.355
2.262
2.163
2.225
2 802
3.104
2.725
1.459
1.795
1.466
0.277
0.467
0.170
0.116
0.213
0.146
0.290
0.098
0.081
0.231
0.142
0.420
0.221
0.561
0.539
0.186
0.626
0.469
0.367
0.148
0.175
0.377
0.784
0.868
0.482
0,421
0.398
0.168
0.114
0.592
0.513
0.589
0.212
0.489
0.349
0.550
0.537
0.424
0.312
0.116
0.139
0.160
1.165
0.858
0.874
0.476
0.730
0.335
0.209
0.399
0.223
0.460
0.155
0.127
0.414
0.238
0.546
0.345
0.793
0.793
0.383
0.943
0.656
0.549
0.223
0.254
0.594
1.198
1.292
0.672
0.554
0.568
0.326
0.188
0.815
0.706
0.790
0.404
0.734
0.544
0.776
0.695
0.626
0.509
0.181
0.228
0.251
1.421
1.084
1.096
0.761
1.153
0.647
0.433
0.806
0.331
0.720
0.243
0.215
0.815
0.414
0.700
0.524
1.072
1.177
0.736
1.407
0.910
0.814
0.339
0.351
0.946
1.780
1.753
0.937
0.692
0.837
0.593
0.327
1.122
0.938
1.047
0.795
1.102
0.825
1.024
0.923
0.902
0.803
0.276
0.384
0.386
1.732
1.338
1.339
1.023
1.522
1.065
0.683
1.220
0.470
0.988
0.340
0.320
1.295
0.567
0.81 1
0.699
1.317
1.444
1.152
1.745
1.085
1.028
0.455
0.449
1.338
2.346
2.146
1.176
0.773
1.099
0.907
0.447
1.363
1.114
1.246
1.205
1.471
1.053
1.214
1.123
1.128
1.021
0.393
0.555
0.530
1.962
1.470
1.495
1.4
2.1
1.5
1.0
1.7
0.7
1.4
0.5
0.5
1.8
0.8
1.2
1.0
1.8
2.0
1.6
2.4
1.5
1.4
0.7
0.7
1.8
3.2
2.9
1.6
1.1
1.5
1.3
0.7
1.9
1.5
1.7
1.7
2.0
1.5
1.7
1.6
1.6
1.4
0.6
0.8
0.8
2.7
2.0
2.0
T OQ
-------
Polygon
No.
4711
4714
4721
4725
4726
4741
4748
4750
4754
4756
4758
4759
4761
4762
4766
4767
4768
4769
4771
4772
4774
4775
4776
4778
4779
4780
4782
4785
4787
4793
4795
4796
4802
4810
4811
4812
4813
4815
4818
4821
4822
4824
4625
4826
4828
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Geom.	Ref. House
Mean	Geom,	Radon Potential (mCi/yr)	Indoor Radon
Statsgo Geology No. of Radium S.D.	at Specified Confidence Limit	at 95% C.L.
No. Class Points (pCi/g)	Radium	50% 75% 90% 95%	(pCi/L)
74
water
27
Qui
39
Qal1
10
Qh1
92
Tc1
37
Qui
37
Qai1
92
Tel
99
Qui
90
Tc1
83
TH2b
33
Ticl
47
QaJ1
92
Qtr1
75
Qui
83
TH2b
28
Qui
37
Qui
1 9
Qui
84
Tel
75
TH2b
42
Qui
25
Qui
46
Ticl
39
Qui
92
Tel
39
Qui
39
Qh1
77
Qu2
37
Qui
79
Qui
47
Qhl
64
To2a
1 9
Qui
36
Qal1
93
Qr1
93
Tc1
36
Qal1
39
Qui
40
Qhl
95
Qal1
39
Qui
84
Qui
37
Qui
74
water
5995
0.069
37
0.032
34
0.098
3834
0.171
41
0.371
289
0.039
6
0.070
68
0.433
1 8
0.072
5
0.634
29
0.583
1 1
0.017
4
0.020
1209
0.385
10
0.615
25
0.687
53471
0.155
53471
0.155
74
0.148
69
0.273
38
0.879
38
0.157
53471
0.155
33
0.017
53471
0.155
9001
0.244
53471
0.155
4
0.017
21 1
0.737
40
0.017
1 0
0.622
3834
0.171
166
0.472
75
0.222
3607
0.134
4
0.652
70
0.396
9
0.017
18
0.030
3834
0.171
3607
0.134
53471
0.155
1 2
0.583
1 6
0.017
5995
0.069
3.708	0.000
2.627	0.118
3.001	0.150
3.644	0.315
1.882	0.407
4.408	0.085
3.134	0.110
2.066	0.483
3.314	0.000
1.489	0.469
2.094	0.855
1.000	0.048
1.414	0.050
2.159	0.437
1.677	0.747
1.438	0.930
3.814	0.171
3.814	0.209
2.941	0.073
2.220	0.307
1.911	1.242
2.654	0.236
3.814	0.238
1.000	0.044
3.814	0.218
2.958	0.323
3.814	0.211
1.000	0.072
1.560	1.039
1.000	0.057
1.489	0.551
3.644	0.162
1.763	1.001
2,861	0.101
4.141	0.166
1.186	0.603
1.849	0.366
1.000	0.050
3.494	0.091
3.644	0.244
4.141	0.000
3.814	0.216
1,523	0.652
1.000	0.057
3.708	0.000
0.000	0.000
0.148	0.188
0.224	0.369
0.484	0.811
0.550	0.735
0.136	0.252
0.171	0.295
0.671	0.983
0.000	0.000
0.618	0.807
1.237	1.755
0.066	0.089
0.053	0.057
0.621	0.877
0.983	1.324
1.114	1.342
0.325	0.637
0.414	0.808
0.122	0.218
0.457	0.696
1.818	2.624
0.341	0.508
0.489	1.007
0.047	0.050
0.405	0.810
0.492	0.822
0.417	0.797
0.090	0.109
1.326	1.632
0.071	0.086
0.716	0.867
0.304	0.571
1.295	1.633
0.173	0.313
0.342	0.731
0.687	0.777
0.503	0.709
0.062	0.077
0.124	0.181
0.438	0.845
0.000	0.000
0.396	0.800
0.815	1.018
0.070	0.086
0.000	0.000
0.000
0.1
0.218
0.4
0.498
0.7
1.175
1.6
0.883
1.2
0.388
0.6
0.443
0.7
1.241
1.7
0.000
0.1
1.013
1.4
2.233
3.0
0.108
0.2
0.059
0.2
1.145
1.6
1.592
2.2
1.521
2.1
1.021
1.4
1.281
1.8
0.309
0.5
0.888
1.3
3.360
4.5
0.668
1.0
1.502
2.1
0.053
0.2
1.249
1.7
1.156
1.6
1.175
1.6
0.124
0.3
1.842
2.5
0.097
0.2
1.028
1.4
0.871
1.2
1.817
2.5
0.474
0.7
1.150
1.6
0.858
1.2
0.849
1.2
0.087
0.2
0.240
0.4
1.279
1.8
0.000
0.1
1.245
1.7
1.165
1.6
0.098
0.2
0.000
0.1
.T.qn
-------
Polygon
No.
4830
4831
4837
4838
4839
4843
4844
4847
4849
4850
4859
4861
4862
4863
4868
4869
4870
4872
4873
4879
4881
4886
4887
4890
4891
4892
4896
4902
4903
4906
4916
4918
4921
4927
4934
4940
4945
4948
4952
4954
4956
4962
4969
4971
4976
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Statsgo Geology No. of
No. Class Points
Geom.
Mean
Radium
(pCi/g)
Geom.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
102
4 1
€7
45
77
46
1 9
46
41
39
85
71
36
41
39
19
41
71
79
74
41
67
41
36
83
39
83
44
105
198
106
95
67
39
39
42
84
103
36
92
39
103
105
85
64
Qh1
Qui
Qu2
Qd1
To2a
Qui
Qui
Ticl
To2a
Tic 1
TH2b
Qui
Tic1
Qui
Qui
Ts2
Qui
To2a
To2a
water
Qui
Qu2
Qui
Qui
Tc1
Qui
Qtr1
Qbdl
Qrl
Qtr1
Qa1
Qal1
Qu2
To2a
Qui
Qui
Tel
Qr1
Qal1
Tel
Qbd1
Qui
Qbd1
QTu1
Qu2
61
73
35
10
56
25
53
167
177
418
23
53
1 5
34
56
48
1 2
438
55
143
1 6
4
309
41
64
123
32
122
6113
1209
18
54
2029
9
53471
6
27
6113
18
9001
16
62
10491
92
2029
0.477
0.321
0.932
0.144
0.571
0.017
0.130
0.017
0.245
0.028
0.394
0.154
0.017
0.172
0.518
0.146
0.017
0.245
0.600
0.017
0.017
0.642
0.017
0.017
0.357
0.017
0.423
0.017
0.141
0.385
0.213
0.033
0.524
0.240
0.155
0.300
0.335
0.141
0.017
0.244
0.017
0 327
0.106
0.357
0.524
1.820
2.378
1.556
3.372
2.243
1.000
3.178
1.000
2.595
2.856
1.612
2.989
1.000
2.458
2.024
3.417
1.000
2.889
1.602
1.000
1.000
1.202
1,000
1.000
1.836
1.000
1.931
1.000
4.041
2.159
2.504
2.728
2.265
1.737
3.814
1.463
1.571
4.041
1.000
2.958
1.000
1.774
3.846
1.959
2.265
0.538
0.335
1.596
0.145
0.845
0.044
0.067
0.044
0.307
0.087
0.392
0.201
0.050
0.183
0.618
0.080
0.056
0.372
0.546
0.000
0.056
1.067
0.056
0.050
0.415
0.072
0.493
0.107
0.123
0.000
0.224
0.000
1.027
0.360
0.211
0.347
0.353
0.167
0.050
0.321
0.072
0.318
0.095
0.353
1.130
0.721
0.523
1.943
0.263
1.324
0.047
0.113
0.047
0.470
0.114
0.519
0.338
0.062
0.290
0.888
0.139
0.063
0.591
0.718
0.000
0.063
1.225
0.062
0.062
0.558
0.089
0.698
0.139
0.256
0.000
0.359
0.000
1.422
0.454
0.409
0.419
0.448
0.357
0.062
0.518
0.089
0 437
0.180
0.491
1.555
0.941
0.818
2.376
0.472
2.019
0.050
0.208
0.050
0.715
0.154
0.646
0.567
0.076
0.444
1.257
0.266
0.069
0.953
0.902
0.000
0.069
1.385
0.069
0.076
0.738
0.108
0.972
0.176
0.518
0.000
0.582
0.000
1.931
0.578
0.779
0.505
0.560
0.747
0.076
0.824
0.108
0.604
0.355
0.706
2.088
1.114
1.115
2.659
0.759
2.555
0.053
0.309
0.052
0.961
0.183
0.741
0.802
0.086
0.582
1.629
0.415
0.074
1.367
1.047
0.000
0.074
1.576
0.073
0.086
0.876
0.122
1.232
0.203
0.829
0.000
0.761
0.000
2.401
0.681
1.207
0.575
0.637
1.167
0.086
1.136
0.123
0.706
0.56B
0.871
2.442
1.5
1.5
3.6
1.1
3.4
0.2
0.5
0.2
1.3
0.3
1.1
1.1
0.2
0.9
2.2
0.6
0.2
1.9
1.5
0.1
0.2
2.1
0.2
0.2
1.2
0.3
1.7
0.4
1.2
0.1
1.1
0.1
3.2
1.0
1.7
0.8
0.9
1.6
0.2
1.6
0.3
1.0
0.8
1.2
3.3
t m
-------
Polygon
No.
4977
4978
4979
4984
4985
4986
49B7
4989
4990
4991
4994
4996
4997
5005
5006
5007
5011
5014
5017
5021
5022
5023
5024
5026
5027
5029
5034
5035
5037
5038
5039
5040
5043
5047
5051
5052
5058
5059
5061
5062
5063
5071
5072
5078
5089
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Statsgo Geology No. of
No. Class Points
Geom.
Mean
Radium
(pCi/g)
Geom.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
41
103
83
39
62
79
92
14
106
39
64
37
120
39
41
1 9
64
44
36
91
82
1 9
1 9
105
94
46
134
67
1 9
39
43
103
84
77
62
101
81
81
64
93
39
91
71
74
45
Ticl
Qui
TH2b
Qui
QTu1
To2b
Qtr1
Qh1
Qbdl
Qbdl
To2a
Qbd1
Q?r1
Qh1
Qbd1
Qui
Qu2
Qui
Qbdl
Qr1
Th3
Ticl
Qui
Qui
QTu1
Qui
Th3
To2a
Qui
Qui
Qal1
Qbdl
Qtrl
To2a
QTu1
Qui
Qrl
Qui
To2b
Tc1
Qbdl
Qui
To2a
water
Qd1
418
59
19
53471
6990
41
1209
3834
553
10491
11834
10491
164
5
386
53471
249
224
143
14
34
418
172
53471
6990
53471
108
11834
53471
39
197
67
31
11834
6990
53471
9
20
9
118
196
1 4
176
24
1 5
0.028
0.371
0.269
0.155
0.252
0.493
0.385
0.171
0.241
0.106
0.250
0.106
0.431
0.017
0.028
0.155
0.469
0.227
0.017
0.242
0.570
0.028
0.146
0.155
0.252
0.155
1.137
0.250
0.155
0.017
0.042
0.218
0.339
0.250
0.252
0.155
0.376
0.353
0.555
0.445
0.018
0.336
0.221
0.017
0.240
2.856
1.563
2.019
3.814
3.085
2.370
2.159
3.644
2.552
3.846
3.340
3.846
1.874
1.000
2.497
3.814
2.319
2.646
1.000
2.010
1.726
2.856
2.709
3.814
3.085
3.814
1.723
3.340
3.814
1.000
3.689
2.554
2.073
3.340
3.085
3.814
2.110
1.833
1.581
2.08B
1.413
2.193
2.352
1.000
1.695
0.065
0.367
0.424
0.221
0.170
0.479
0.437
0.086
0.255
0.165
0.879
0.154
0.517
0.072
0.066
0.081
1.080
0.313
0.050
0.076
0.560
0.039
0.072
0.133
0.000
0.127
1.489
0.728
0.082
0.072
0.061
0.230
0.384
0.428
0.175
0.262
0.355
0.320
1.098
0.432
0.074
0.101
0.319
0.000
0.195
0.084
0.460
0.590
0.417
0.323
0.814
0.616
0.130
0.404
0.283
1.214
0.281
0.704
0.089
0.081
0.145
1.468
0.490
0.062
0.116
0.777
0.047
0.111
0.259
0.000
0.252
1.983
1.028
0.146
0.089
0.083
0.384
0.554
0.793
0.321
0.442
0.552
0.458
1.360
0.655
0.091
0.163
0.468
0.000
0.256
0.116
0.578
0.793
0.795
0.586
1.219
0.885
0.219
0.641
0.525
1.731
0.570
0.926
0.109
0.108
0.308
1.923
0.737
0.076
0.182
1.045
0.062
0.197
0.519
0.000
0.487
2.690
1.582
0.304
0.108
0.127
0.623
0.796
1.408
0.604
0.788
0.851
0.611
1.699
0.960
0.110
0.279
0.668
0.000
0.334
0.149
0.668
0.912
1.206
0.853
1.663
1.105
0.327
0.902
0.832
2.170
0.868
1.085
0.124
0.129
0.501
2.274
1.004
0.086
0.238
1.266
0.079
0.263
0.825
0.000
0.782
3.116
2.074
0.504
0.123
0.181
0.844
0.998
1.912
0.867
1.203
1.145
0.781
1.869
1.248
0.124
0.404
0.848
0.000
0.399
0.3
1.0
1.3
1.7
1.2
2.3
1.5
0.5
1.3
1.2
2.9
1.2
1.5
0.3
0.3
0.8
3.1
1.4
0.2
0.4
1.7
0.2
0.4
1.2
0.1
1.1
4.2
2.8
0.8
0.3
0.3
1.2
1.4
2.6
1.2
1.7
1.6
1.1
2.5
1.7
0.3
0.6
1.2
0.1
0.6
-------
Polygon
No.
5094
5095
5097
5099
5100
5101
5103
5104
5105
5109
5111
5114
5115
5117
5110
5119
5123
5125
5126
5129
5130
5132
5133
5134
5135
5136
5137
5138
5141
5142
5148
5150
5151
5157
5158
5159
5161
5162
5167
5173
5174
5177
5178
5179
5182
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Statsflo Geology No. of
No. Class Points
Geom.
Mean
Radium
(pCi/g)
Geom.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
50"*
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
85
46
77
134
44
44
44
121
107
61
37
77
85
46
39
129
103
107
1 4
39
93
77
102
71
10
66
41
36
121
40
107
113
74
106
100
74
40
46
66
39
40
91
I	9
111
II	1
Th3
To2a
Qui
Th3
Qbd1
Qhl
Qd1
Th3
Qui
Qui
Qbd1
To2a
QTu1
Qui
Qui
Th3
Qui
Qbdl
Tic1
Qui
Qtrl
To2a
Qh1
Qui
Qh1
Qui
To2a
Ticl
To2b
Qd1
Qr1
Qa1
water
Qui
Qui
water
Ts2
Qui
To2a
Qbd1
To2a
Tc1
To2a
Qhl
Qa1
106
274
25
3449
24
13
86
270
1 3
74
32
16
46
84
26
1 94
101
1 3
55
I	7
17
427
3834
II	5
3834
75
133
26
1768
47
1
1 1
381
53471
145
1
60
69
129
42
94
9001
31
26
6626
0.509
0.280
0.274
0.473
0.017
0.017
0.224
1.586
0.250
0.314
0.017
0.300
0.413
0.342
0.017
0.573
0.250
0.168
0.017
0.017
0.574
0.299
0.171
0.154
0.171
0.224
0.306
0.017
0.387
0.318
0.200
0.268
0.045
0.155
0.336
0.017
0.259
0.017
0.302
0.017
0.221
0.244
0.380
0.262
0.126
1.757
2.377
2.841
3.555
1.000
1.000
2.707
1.760
2.546
2.559
1.000
2.617
1.993
2.189
1.000
1.927
2.487
2.770
1.000
1.000
1.436
2.483
3.644
2.775
3.644
2.417
2.422
1.000
3.699
2.151
4.000
1.977
3.581
3.814
2.185
4.000
2.375
1.000
2.242
1.000
1.978
2.958
1.442
2.530
4.240
0.585
0.203
0.355
0.679
0.107
0.107
0.314
3.023
0.054
0.419
0.057
0.463
0.407
0.236
0.072
1.162
0.258
0.048
0.050
0.072
0.532
0.458
0.291
0.189
0.307
0.327
0.376
0.050
0.637
0.368
0.052
0.366
0.000
0.181
0.383
0.000
0.423
0.044
0.703
0.072
0.360
0.083
0.147
0.113
0.080
0.787
0.321
0.610
1.333
0.139
0.139
0.479
4.117
0.073
0.654
0.070
0.782
0.603
0.380
0.090
1.541
0.440
0.060
0.060
0.089
0.663
0.730
0,458
0.313
0.482
0.447
0.551
0.062
1.250
0.566
0.079
0.479
0.000
0.376
0.578
0.000
0.596
0.048
0.905
0.089
0.491
0.147
0.211
0.164
0.129
1.059
0.490
1.082
2.387
0.177
0.176
0.762
5,616
0,103
1.054
0.086
1.257
0.867
0.550
0.109
1.982
0.696
0.086
0.070
0.109
0.803
1.113
0.777
0.521
0.834
0.642
0.844
0.076
2,380
0.816
0.168
0,631
0.000
0.757
0.840
0.000
0.853
0.050
1.120
0.108
0.628
0.263
0.297
0.260
0.232
1.235
0.694
1.540
3.812
0.204
0.204
1.065
6.811
0.146
1.404
0.097
1.653
1.072
0.704
0.122
2.315
0.933
0.111
0.077
0.123
0.912
1.429
1.121
0.730
1.162
0.810
1.190
0.086
3.864
1.046
0.348
0.772
0.000
1.132
1.086
0.000
1.122
0.052
1.279
0.122
0.740
0.393
0.365
0.359
0.357
1.7
1.0
2.1
5.1
0.4
0.4
1.5
9.0
0.3
1.9
0.2
2.2
1.5
1.0
0.3
3.1
1.3
0.2
0.2
0.3
1.3
2.0
1.6
1.0
1.6
1.2
1.6
0.2
5.1
1.5
0.6
1.1
0.1
1.6
1.5
0.1
1.6
0.2
1.8
0.3
1.1
0.6
0.6
0.6
0.6
-------
Polygon
No.
5183
5188
5193
5196
5199
5203
5206
5211
5214
5217
5219
5220
5221
5224
5227
5228
5229
5236
5238
5245
5247
5248
5250
5252
5254
5262
5267
5268
5272
5273
5276
5277
5280
5281
5283
5286
5290
5293
5295
5297
5298
5299
5300
5302
5304
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Geom.	Ref. House
Mean	Geom.	Radon Potential (mCityr)	Indoor Radon
Statsgo Geology No. of Radium	S.D.	at Specified Confidence Limit	 at 95% C.L.
No Class Points (pCi/g)	Radium	50% 75% 90% 95% (pCi/L)
102
Qal
103
Th3
105
Qbd1
91
Qtr1
36
Qui
101
Th3
64
To2b
10
Qh1
91
Tc1
94
QTu1
106
Qh1
105
Th3
46
Th3
105
Qui
36
Qal1
100
Tc1
83
QTu1
74
Qh1
115
To2b
129
To2b
36
Qal1
1 9
Ts2
99
Qui
36
Qbd1
39
Qbd1
198
Tc1
103
Qui
115
Qui
107
Qui
120
Tc1
105
Th3
1 9
To2a
14
Qal1
103
Qr1
101
QTu1
120
Qu2
62
QTu1
134
Th3
113
Qbd1
19
Qui
19
Ts2
103
QTu1
62
QTu1
41
Qui
116
TH3
6	0.531
3449 0.473
194	0 265
21	0.251
41	0.017
58	0.378
10	0.367
10	0.017
9001	0.244
6990	0.252
12	0.275
81	0.571
3449	0.473
10	0.213
30	0.017
32'1	0.335
6990	0.252
3834	0.171
16	0.471
27	0.631
3607	0.134
5077	0.352
8	0.109
127	0.017
41	0.017
9001	0.244
210	0.222
27	0.407
12	0.273
843	0.308
3449	0.473
34	0.272
40	0.031
123	0.178
38	0.515
147	0.470
134	0.148
3449	0.473
93	0.282
53471	0.155
5077	0.352
108	0.498
30	0.487
54	0.106
7	0.320
1.521	0.571
3.555	0.693
2.158	0.191
1.786	0.078
1.000	0.050
2.148	1.227
1.967	0.925
1.000	0.171
2.958	0.081
3.085	0.000
1.516	0.260
1.660	0.441
3.555	0.410
2.777	0.161
1.000	0.050
2.334	0.386
3.085	0.329
3.644	0.000
1.624	0.263
1.315	0.807
4.141	0.165
2.652	0.153
3.454	0.000
1.000	0.050
1.000	0.072
2.958	0.000
2.846	0.240
1.530	0.222
1.832	0.054
2.441	0.415
3.555	0.467
1.849	0.114
2.693	0.054
3.202	0.198
1.416	0.576
2.113	0.869
3.163	0.106
3.555	0.694
2.577	0.411
3.814	0.081
2.652	0.157
1.882	0.543
1.501	0.293
3.418	0.131
2.926	0.681
0.717	0.890
1.463	2.761
0.297	0.428
0.112	0.170
0.062	0.076
1.652	2.099
1.175	1.495
0.198	0.226
0.148	0.270
0.000	0.000
0.320	0.400
0.602	0.805
0.855	1.738
0.289	0.507
0.062	0.076
0.601	0.939
0.610	1.046
0.000	0.000
0.360	0.499
0.940	1.062
0.347	0.707
0.283	0.502
0.000	0.000
0.062	0.076
0.089	0.109
0.000	0.000
0.429	0.730
0.294	0.380
0.068	0.089
0.609	0.899
0.926	1.914
0.169	0.254
0.066	0.078
0.370	0.674
0.685	0.814
1.155	1.482
0.190	0.341
1.321	2.475
0.588	0.881
0.152	0.310
0.283	0.494
0.780	1.057
0.402	0.550
0.226	0.396
1.093	1.766
1.037
1.4
4.208
5.6
0.577
0.8
0.225
0.4
0.086
0.2
2.453
3.3
1.738
2.4
0.245
0.4
0.412
0.6
0.000
0.1
0.460
0.7
0.962
1.4
2.750
3.7
0.790
1.1
0.086
0.2
1.216
1.7
1.425
2.0
0.000
0.1
0.602
0.9
1.142
1.6
1.155
1.6
0.732
1.1
0.000
0.1
0.086
0.2
0.122
0.3
0.000
0.1
1.047
1.5
0.452
0.7
0.113
0.2
1.143
1.6
2.895
3.9
0.330
0.5
0.088
0.2
1.053
1.5
0.895
1.3
1.755
2.4
0.518
0.8
3.650
4.8
1.114
1.5
0.491
0.7
0.715
1.0
1.283
1.8
0.636
0.9
0.610
0.9
2.376
3.2
-------
Polygon
No.
5305
5306
5309
5314
5315
5316
5320
5326
5333
5335
5338
5343
5347
5349
5350
5351
5356
5360
5361
5368
5371
5383
5385
5386
5387
5390
5391
5394
5395
5401
5404
5410
5412
5413
5414
5415
5416
5418
5422
5424
5425
5426
5430
5434
5437
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Statsgo
No.
Geology
Class
No. of
Points
Geom.
Mean
Radium
(pCi/g)
Geom.
S.0.
Radium
Radon Potential (raCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCvL)
36
01x11
10491
0.106
100
Qui
2
0.311
36
Qui
53471
0.155
14
Qal1
11
0,017
39
QM
7
0.017
41
Qal1
3607
0.134
83
QTu1
18
0.567
100
Qtr1
16
0.356
1 4
Qui
53471
0.155
40
To2a
81
0.249
10
Qh1
3834
0.171
121
Qu2
27
0.829
129
Qtr1
110
0.256
134
Th3
28
1.553
41
QaI1
1 0
0.049
101
Th3
1 9
0.598
19
To2a
83
0.203
101
Tc1
20
0.296
103
Th3
370
0.567
44
Qd1
122
0.162
105
QTu1
9
0.615
81
Th3
20
0.518
48
To2a
54
0.646
129
Th3
5
0.595
103
Th3
114
0.404
41
Qui
8
0.286
1 9
Qd1
12
0.082
1 4
Qa/1
104
0.043
107
Qr1
6113
0.141
40
To2a
84
0.164
120
To2b
42
0.368
105
Th3
3449
0.473
14
QaJI
25
0.049
134
Th3
3449
0.473
62
Th3
3449
0.473
19
Ts2
22
0.149
41
To2a
34
0.241
85
Tc1
9001
0.244
42
To2a
427
0.307
105
Qbd1
1 9
0.444
83
Th3
3449
0.473
105
QTu1
6990
0.252
115
Qui
53471
0.155
107
Qbd1
1 0
0.217
100
Qui
30
0.345
3.646
1.560
3.814
1.000
1.000
4.141
1.492
2.415
3.814
2.432
3.644
1.392
2.256
1.561
3.639
1.503
2.431
1.471
2.718
3.095
1.656
2.334
2.454
1.314
2.044
2.179
3.217
3.860
4.041
3.103
2.476
3.555
3.179
3.555
3.555
2.875
3.178
2.958
3.353
1.763
3.555
3.085
3.814
3.213
2.161
0.135
0.326
0.188
0.050
0.072
0.169
0.648
0.416
0.083
0.418
0.318
1.114
0.296
2.183
0.083
1.401
0.095
0.347
0.755
0.260
0.456
0.566
0.543
1.102
0.476
0.289
0.053
0.058
0.047
0.338
0.773
0.438
0.059
0.688
0.384
0.079
0.326
0.262
0.615
0 321
1.124
0.199
0.111
0.052
0.396
0.2S5
0.423
0.371
0.060
0.089
0.338
0.812
0.680
0.123
0.592
0.488
1.336
0.438
2.812
0.129
1.789
0.149
0.421
1.363
0.408
0.643
0.918
0.883
1.346
0.690
0.436
0.079
0.074
0.062
0.506
1.065
0.959
0.073
1.267
0.822
0.128
0.551
0.461
0.983
0.451
1.966
0.373
0.210
0.072
0.584
0.506
0.544
0.764
0.070
0.109
0.671
1.001
1.121
0.214
0.846
0.816
1.576
0.618
3.691
0.217
2.221
0.248
0.502
2.308
0.663
0.892
1.450
1.425
1.662
0.975
0.663
0.144
0.094
0.100
0.757
1.431
1.885
0.090
2.522
1.709
0.218
0.925
0.832
1.615
0.635
3.322
0.692
0.426
0.117
0.871
0.822
0.652
1.213
0.078
0.123
1.125
1.120
1.466
0.316
1.040
1.181
1.749
0.778
4.414
0.328
2.598
0.341
0.559
3.342
0.939
1.169
1.934
1.981
1.921
1.199
0.898
0.209
0.113
0.142
1.067
1.796
3.237
0.105
3.800
2.564
0.325
1.345
1.142
2.352
0.785
4.837
0.960
0.626
0.164
1.132
1.2
0.9
1.7
0.2
0.3
1.6
1.6
2.0
0.5
1.5
1.6
2.4
1.1
5.8
0.5
3.5
0.5
0.8
4.4
1.3
1.6
2.6
2.7
2.6
1.7
1.3
0.4
0.2
0.3
1.5
2.4
4.3
0.2
5.0
3.4
0.5
1.8
1.6
3.2
1.1
6.4
1.3
0.9
0.3
1.6
-------
Polygon
No.
5439
5441
5443
5449
5450
5454
5455
5456
5458
5461
5466
5467
5472
5474
5475
5478
5479
5480
5484
5485
5489
5493
5494
5498
5508
5509
5512
5513
5514
5517
5524
5527
5529
5531
5533
5537
5547
5551
5552
5553
5555
5559
5563
5566
5567
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Geora.	Ref. House
Mean	Geom.	Radon Potential (mCi/yr)	Indoor R&tkm
Statsgo Geology No. of Radium	S.D.	at Specified Confidence Limit		at 95% C.L.
No. Claw Points (pCVg)	Radium	50% 75* 90% 95% (pCi/L)
129
Tc1
129
Qui
133
Tc1
46
To2a
134
Tel
103
Tc1
198
Tc1
41
Qal1
107
Tc1
111
Qbd1
198
Tc1
102
Qh1
129
Tc1
59
To2a
5
Th3
107
Qui
105
QTu1
103
Qbd1
103
Qui
106
Qbd1
111
Qh1
39
Qbdl
39
Qal1
120
Twh1
10
Qh1
106
Qbd1
122
Th3
103
Qr1
1 9
To2a
44
Qbd1
105
Th3
129
Tc1
101
Qui
133
Tc1
103
Qui
120
Qt/1
723
Tc1
105
Qri
116
QTu1
1 9
Qbd1
47
To2a
44
To2a
133
Tc1
45
To2a
121
Twh1
20
0.227
53471
0.155
151
0.300
11834
0.250
235
0.310
9001
0.244
47
0.076
3607
0.134
9001
0.244
6
0.647
9001
0.244
17
0.315
9001
0.244
623
0.311
3449
0.473
53471
0.155
6990
0.252
10491
0.106
10
0.1 93
39
0.230
1 1
0.369
65
0.041
3607
0.134
687
0.240
3834
0.171
33
0.231
3449
0.473
28
0.585
1 0
0.600
31
0.017
72
0.783
31
0.315
41
0.226
9001
0.244
57
0.198
24
0.165
25
0.261
69
0.550
52
0.393
10491
0.106
46
0.374
42
0.250
16
0.177
55
0.391
44
0.391
2.311	0.269
3.814	0.218
2.600	0.067
3.340	0.203
2.260	0.2B8
2.958	0.270
3.795	0.000
4.141	0.164
2.958	0.054
1.245	0.220
2.958	0.000
2.146	0.392
2.958	0.296
2.507	0.669
3.555	0.982
3.814	0.048
3.085	0.199
3.846	0.125
3.224	0.224
2.453	0.241
2.229	0.141
2.989	0.099
4.141	0.191
3.167	0.368
3.644	0.316
2.934	0.251
3.555	0,640
1.816	0.648
1.626	0.247
1.000	0.107
1.846	0.669
3.102	0.387
2.777	0.319
2.958	0.062
3.140	0.219
3.199	0.284
3.363	0.293
1.948	0.408
2.848	0.492
3.846	0.061
1.659	0.291
2.722	0.540
3.029	0.054
3.175	0.418
2.297	0.462
0.386	0.587
0.399	0.742
0.099	0.167
0.384	0.694
0.444	0.662
0.504	0.867
0.000	0.000
0.332	0.688
0.073	0.116
0.277	0.354
0.000	0.000
0.543	0.747
0.500	0.849
0.917	1.213
1.823	3.274
0.066	0.103
0.382	0.685
0.255	0.523
0.409	0.804
0.378	0.605
0.216	0.325
0.137	0.184
0.375	0.756
0.586	0.968
0.487	0.816
0.445	0.783
1.302	2.498
0.927	1.273
0.373	0.557
0.139	0.176
0.989	1.415
0.696	1.214
0.479	0.783
0.092	0.152
0.410	0.751
0.424	0.687
0.588	1.134
0.625	0.940
0.870	1.559
0.107	0.204
0.371	0.471
0.770	1.082
0.075	0.118
0.754	1.351
0.723	1.121
0.764
1.1
1.163
1.6
0.226
0.4
1.005
1.4
0.890
1.3
1.238
1.7
0.000
0.1
1.086
1.5
0.157
.0.3
0.411
0.6
0.000
0.1
0.922
1.3
1.197
1.7
1.511
2.1
5.289
7.0
0.150
0.3
1.006
1.4
0.791
1.1
1.315
1.8
0.808
1.1
0.439
0.7
0.241
0.4
1.202
1.7
1.350
1.9
1.225
1.7
1.140
1.6
4.029
5.3
1.522
2.1
0.766
1.1
0.204
0.4
1.770
2.4
1.834
2.5
1.067
1.5
0.216
0.4
1.115
1.5
0.986
1.4
1.645
2.2
1.180
1.6
2.119
2.9
0.335
0.5
0.550
0.8
1.374
1.9
0.174
0.3
2.178
2.9
1.453
2.0

-------
Polygon
No.
5568
5571
5572
5575
5580
5562
5585
5587
5591
5593
5597
5599
5601
5605
5610
5611
5612
5616
5619
5620
5622
5629
5630
5631
5635
5642
5644
5647
5649
5650
5651
5652
5653
5654
5656
5657
5658
5659
5661
5662
5663
5666
5668
5671
5673
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
StaUgo Geology
No. Class
No. of
Points
Geom.
Mean
Radium
(pCi/g)
Geom.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref. House
Indoor Radon
at 85% C.L.
(pCi/L)
103
100
105
70
122
39
106
101
101
103
102
115
103
78
103
40
46
78
107
100
105
121
134
103
130
103
100
129
44
105
64
121
14
129
123
101
136
123
6
101
115
122
10
99
114
Qbd1
Qtr1
Qui
To2a
Th3
Qh1
Qui
QTu1
Tc1
QTu1
Qh1
Qui
Qbd1
To2a
Qbd1
Qd1
To2a
Qui
Qr1
Qui
QTu1
Th3
Th3
Qui
Tc1
QTu1
Qui
Tc1
To2a
Th3
To2a
Tc1
Qh1
Th3
Th3
Qbd1
Tc1
Tc1
Qhl
Tc1
Tc1
Th3
Qh1
Th3
Qhl
101
1209
131
347
1 1
28
1148
6990
9001
6990
3834
121
40
139
10491
287.9
430
53471
61 13
23
6990
52
3449
98
17
30
53471
9001
53
3449
51
47
3834
42
3449
13
9001
20
3834
44
5
3449
3834
46
7
0.303
0.385
0.372
0.261
2.633
0.056
0.102
0.252
0.244
0.252
0.171
0.288
0.236
0.456
0.106
0.148
0.355
0.155
0.141
0.248
0.252
1.688
0.473
0.282
0.329
0.579
0.155
0.244
0.139
0.473
0.396
0.329
0.171
0.828
0.473
0.288
0.244
0.332
0.171
0.336
0.426
0.473
0.171
0.193
0.305
2.083
2.159
1.948
2.491
1.366
3.250
3.608
3.085
2.958
3.085
3.644
2.673
2.808
1.901
3.846
3.736
2.844
3.814
4.041
2.446
3.085
2.031
3.555
2.479
1.842
1.895
3.814
2.958
3.000
3.555
2 083
2.062
3.644
1.501
3.555
1.456
2.958
1.721
3.644
1.809
1.695
3.555
3.644
3.087
1.503
0.306
0.443
0.266
0.632
4.418
0.113
0.126
0.351
0.338
0.293
0.289
0.173
0.255
0.616
0.129
0.214
0.272
0.214
0.047
0.283
0.202
3.410
0.698
0.300
0.192
0.650
0.204
0.302
0.430
0.455
0.959
0.363
0.085
1.455
0.667
0.337
0.229
0.314
0.206
0.399
0.235
0.623
0.318
0.000
0.374
0.463
0.679
0.401
0.864
5.878
0.161
0.229
0.587
0.554
0.539
0.452
0.299
0.450
0.855
0.249
0.394
0.484
0.408
0.062
0.446
0.375
5.090
1.307
0.498
0.264
0.933
0.404
0.514
0.592
0.936
1.256
0.565
0.127
1.789
1.349
0.410
0.443
0.431
0.405
0.523
0.332
1.333
0.467
0.000
0.448
0.678
0.986
0.560
1.206
7.725
0.247
0.420
1.038
0.920
0.944
0.755
0.495
0.770
1.187
0.488
0.744
0.837
0.890
0.098
0.707
0.679
8.063
2.467
0.790
0.376
1.305
0.791
0.838
0.811
1.971
1.588
0.789
0.223
2.189
2.696
0.487
0.748
0.582
0.792
0.687
0.483
2.639
0.795
0.000
0.548
0.826
1.211
0.726
1.450
9.172
0.341
0.651
1.397
1.264
1.431
1.191
0.713
1.133
1.411
0.800
1.160
1.197
1.319
0.150
0.996
0.976
10.517
3.898
1.082
0.469
1.599
1.269
1.182
0.984
2.961
1.872
1.010
0.325
2.481
4.142
0.542
1.069
0.695
1.196
0.788
0.638
4.189
1.151
0.000
0.607
1.2
1.7
1.0
2.0
12.0
0.5
0.9
1.9
1.7
2.0
1.6
1.0
1.6
1.9
1.1
1.6
1.7
1.8
0.3
1.4
1.4
13.8
5.2
1.5
0.7
2.2
1.7
1.6
1.4
3.9
2.5
1.4
0.5
3.3
5.5
0.8
1.5
1.0
1.7
1.1
0.9
5.5
1.6
0.1
0.9
-------
Polygon
No.
5676
5679
5680
5681
5682
5663
5690
5691
5693
5695
5699
5703
5707
5709
5710
5711
5715
5718
5719
5720
5721
5722
5723
5724
5726
5728
5730
5732
5734
5735
5736
5739
5741
5744
5745
5746
5747
5750
5752
5753
5756
5757
575B
5760
5761
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Geom.	Kef. House
Mean	Geom.	Radon Potential (mC^yi*) Indoor Radon
Statsgo Geology No. of Radium S.D. at Specified Confidence Limit	 at 95% C.L.
No. Class Points (pCi/g)	Radium	50% 75% 90% 95% (pCi/L)
47
To2a
104
Qui
129
Tc1
103
Qui
130
QTu1
111
Qbd1
1 9
Ohl
121
TwM
41
To2a
114
Qa1
134
Tc1
133
Tel
103
Th3
42
To2a
114
Qbd1
111
Qh1
129
QTu1
122
To2b
101
Qui
101
Ohl
101
Qbd1
123
Tc1
1 9
To2a
113
Qui
113
Qui
134
QTu1
77
To2a
46
To2a
129
To2b
116
Th3
122
Th3
120
To2b
120
Th3
107
Qr1
106
Obd1
42
To2a
78
Qui
123
QTu1
133
Tc1
107
Qui
100
Qui
10
Qh1
104
Qbd1
103
Tc1
104
Qbd1
111
0.362
156
0.336
40
0.321
78
0.386
6990
0.252
36
0.252
3834
0.171
59
0.210
17
0.166
15
0.415
94
0.426
39
0.131
171
0.224
69
0.314
99
0.238
1 i
0.591
1 4
0.513
63
0.488
113
0.446
9
0.537
19
0.323
38
0.237
11834
0.250
13
0.529
51
0.362
133
0.379
193
0.221
56
0.439
22
1.396
38
0.349
3449
0.473
1 9
0.587
15
0 931
19
0.160
571
0.199
369
0.279
20
0.200
6990
0.252
9001
0.244
53471
0.155
53471
0.155
3834
0.171
120
0.264
9001
0.244
10491
0.106
2.530	0.315
2.221	0.304
2.445	0.368
2.146	0.420
3.085	0.170
2.461	0.108
3.644	0.085
3.115	0.259
3.370	0.240
1.369	0.475
2.041	0.399
3.360	0.050
2.559	0.276
1.892	0.553
2.419	0.335
1.366	0.201
1.717	0.550
2.028	0.500
1.558	0.511
1.266	0.591
2.878	0.426
2.896	0.249
3.340	0.123
1.531	0.626
1.910	0.461
2.406	0.370
2.748	0.365
1.923	0.301
1.351	2.021
2.723	0.699
3.555	0.628
1.492	0.961
1.464	2.185
2.585	0.047
2.778	0.215
3.420	0.575
2.555	0.244
3.085	0.279
2.958	0.062
3.814	0.048
3.814	0.216
3.644	0.306
2.618	0.251
2.958	0.275
3.846	0.115
0.509	0.820
0.469	0.687
0.576	0.873
0.619	0.950
0.303	0.539
0.159	0.242
0.159	0.318
0.483	0.850
0.414	0.709
0.556	0.638
0.592	0.849
0.066	0.102
0.449	0.678
0.715	0.889
0.483	0.690
0.254	0.328
0.727	0.991
0.760	1.136
0.628	0.752
0.677	0.764
0.735	1.224
0.461	0.791
0.233	0.452
0.766	0.917
0.601	0.767
0.609	0.953
0.596	0.918
0.446	0.626
2.406	2.852
1.115	1.639
1.292	2.591
1.108	1.326
2.666	3.181
0.057	0.079
0.360	0.599
0.878	1.511
0.408	0.650
0.501	0.928
0.091	0.151
0.064	0.103
0.409	0.769
0.486	0.818
0.413	0.669
0.489	0.857
0.223	0.414
1.075
1.5
0.922
1.3
1.219
1.7
1.220
1.7
0.793
1.1
0.325
0.5
0.510
0.8
1.203
1.7
1.084
1.5
0.699
1.0
1.051
1.5
0.145
0.3
0.926
1.3
1.013
1.4
0.878
1.2
0.387
0.6
1.166
1.6
1.436
2.0
0.843
1.2
0.827
1.2
1.771
2.4
1.133
1.6
0.690
1.0
1.036
1.4
0.974
1.4
1.184
1.6
1.291
1.8
0.805
1.1
3.194
4.3
2.181
2.9
3.995
5.3
1.479
2.0
3.494
4.6
0.098
0.2
0.837
1.2
2.183
2.9
0.843
1.2
1.335
1.8
0.223
0.4
0.146
0.3
1.185
1.6
1.163
1.6
0.924
1.3
1.247
1.7
0.675
1.0
-------
Polygon
No.
5762
5767
5769
5770
5774
5777
5778
5779
5782
5784
5766
5787
5789
5796
5797
5798
5800
5802
5804
5807
5808
5809
5812
5813
5814
5816
5821
5823
5824
5830
5831
5832
5833
5834
5835
5837
5838
5839
5842
5844
5845
5847
5855
5857
5862
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Geom.	Kef. House
Mean	Geom.	Radon Potential (mCi/yr) Indoor Radon
Statsgo Geology No. of Radium	S.D. at Specified Confidence Limit	 at 95% C.L.
Ho. Clasa Points (pCi/g)	Radium 50% 75% 90% 95%	(pCi/L)
103
Qui
103
Qui
101
Qa1
105
QTu1
41
To2a
103
QTu1
107
Qui
101
Th3
134
Th3
120
To2b
100
Qui
120
Tc1
122
To2b
105
Qbd1
103
QTuI
105
Qbd1
120
To2b
107
Qbd1
116
Th3
101
Qh1
107
Qfi
129
QTu1
70
To2a
70
To2a
104
Qh1
105
Qui
130
Tc1
133
Tc1
103
Qr1
107
Qr1
107
To2a
115
Tc1
129
Twh1
121
Tc1
59
To2a
99
QTu1
120
QTu1
120
To2b
114
Qui
42
To2a
120
Te1
107
Qui
46
To2a
136
Twh1
114
Tc1
305
0.312
34
0.407
23
0.503
37
0.187
11834
0.250
129
0.137
53471
0.155
3449
0.473
3449
0.473
91
0.498
53471
0.155
1
0.440
2671
0.347
21
0.329
6990
0.252
10451
0.106
2671
0.347
10491
0.106
3449
0.473
4
0.551
80
0.201
52
0.132
1 1834
0.250
11834
0.250
48
0.497
4
0.146
9001
0.244
9001
0.244
7
0.093
17
0.225
108
0.305
22
0.179
30
0.086
59
0.311
17
0.389
6990
0.252
22
0.188
38
0.148
12
0.325
29
0.221
44
0.158
42
0.077
175
0.192
38
0.131
7
0.100
2.205	0.324
2.354	0.453
1.849	0.598
3.396	0.154
3.340	0.325
2.999	0.146
3.814	0.048
3.555	1.514
3.555	0.682
1.841	0.873
3.814	0.203
4.000	0.669
3.727	0.401
2.472	0.246
3.085	0.277
3.846	0.097
3.727	0.819
3.846	0.044
3.555	0.943
1.433	0.623
3.238	0.050
3.552	0.196
3.340	0.660
3.340	0.665
1.625	0.437
4.432	0.131
2.958	0.159
2.958	0.062
3.029	0.106
3.117	0.053
2.591	0.059
3.233	0.121
3.623	0.155
2.716	0.383
1.889	0.713
3.085	0.000
3.000	0.308
3.809	0.572
2.011	0.414
2.4B2	0.485
2.956	0.278
3.574	0.042
3.088	0.152
3.074	0.132
3.087	0.215
0.501	0.755
0.770	1.129
0.817	1.082
0.302	0.559
0.597	1.086
0.266	0.481
0.064	0.100
2.297	3.671
1.283	2.461
1.128	1.380
0.405	0.796
1.426	3.779
0.899	1.885
0.430	0.687
0.526	0.955
0.183	0.352
1.280	2.128
0.054	0.078
1.735	3.234
0.751	0.940
0.068	0,109
0.334	0.572
0.987	1.478
0.997	1.519
0.580	0.751
0.312	0.777
0.280	0.497
0.093	0.152
0.185	0.352
0.073	0.114
0.082	0.124
0.209	0.392
0.241	0.418
0.638	1.110
0.924	1.165
0.000	0.000
0.460	0.699
0.775	1.081
0.559	0.764
0.635	0.852
0.402	0.585
0.049	0.064
0.267	0.467
0.229	0.398
0.303	0.436
0.982
1.4
1.563
2.1
1.298
1.8
0.854
1.2
1.563
2.1
0.666
1.0
0.152
0.3
5.000
6.6
3.800
5.0
1.558
2.1
1.247
1.7
7.735
10.2
3.084
4.1
0.949
1.3
1.438
2.0
0.555
0.8
3.293
4.4
0.110
0.2
4.541
6.0
1.065
1.5
0.156
0.3
0.887
1.3
1.969
2.7
1.978
2.7
0.885
1.3
1.698
2.3
0.690
1.0
0.216
0.4
0.503
0.8
0.162
0.3
0.170
0.3
0.596
0.9
0.575
0.8
1.559
2.1
1.315
1.8
0.000
0.1
1.017
1.4
1.377
1.9
0.943
1.3
1.041
1.5
0.770
1.1
0.080
0.2
0.660
1.0
0.562
0.8
0.611
0.9
-------
Polygon
No.
5866
5S69
5870
5873
5875
5876
5877
5881
5883
5886
5887
5890
5893
5894
5895
5896
5902
5905
5911
5912
5913
5914
5920
5921
5922
5923
5924
5929
5930
5933
5938
5939
5942
5946
5948
5955
5958
5959
5969
5970
5974
5975
5980
5981
5996
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Statsgo Geology
No. Class
No. of
Points
Georo.
Mean
Radium
(pCi/g)
Geom.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
105
113
103
122
99
103
113
123
114
129
100
104
103
107
103
70
103
116
102
103
99
103
101
114
99
107
101
46
42
116
103
48
103
59
103
101
42
99
70
103
122
120
101
122
116
Th3
Tc1
Qui
To2b
Qui
Tc1
Qui
To2b
Tc1
Tel
Tel
Th3
Qui
Qr1
Th3
To2a
Qui
Th3
Qa1
Qui
QTu1
Qbd1
Qbdl
Qa1
Qn
To2b
Th3
To2a
To2a
Th3
Tc1
To2a
Tc1
Qui
Th3
Tct
Qui
Qr1
To2a
water
To2b
Qr1
water
water
Qui
20
253
23
213
66
95
20
23
93
64
26
28
23
49
40
2 >
53471
3449
45
53471
61
10491
10491
23
79
49
3449
1 53
102
3449
9001
38
1 7
83
3449
51
93
45
108
5995
2671
20
5995
5995
53471
0.254
0.266
0.227
0.460
0.284
0.203
0.156
0.286
0.199
0.227
0.229
0.433
0.113
0.135
0.171
0.374
0.155
0.473
0.445
0.155
0.046
0.106
0.106
0.400
0.133
0.303
0.473
0.419
0.148
0.473
0.244
0.385
0.422
0.388
0.473
0.145
0.078
0.250
0.289
0.069
0.347
0.320
0.069
0.069
0.155
2.979
2.467
2.509
1.831
2.249
2.891
3.702
2.431
3.270
2.915
3.562
2.223
3.587
3.707
3.647
2.435
3.814
3.555
1.868
3.814
3.080
3.846
3.846
1.750
2.958
2.244
3.555
2.193
2.859
3.555
2.958
2.373
2.134
1.673
3.555
3.339
3,607
2.881
2.511
3.708
3.727
2.256
3.708
3.708
3.814
0.221
0.379
0.238
0.466
0.000
0.222
0.294
0.315
0.317
0.280
0.290
0.462
0.132
0.046
0.258
0.785
0.171
0.968
0.508
0.181
0.000
0.129
0.209
0.479
0.000
0.058
1.480
0.302
0.417
0.941
0.263
0.290
0.462
0.457
0.674
0.242
0.166
0.000
0.658
0.088
0.425
0.423
0.170
0.088
0.209
0.382
0.536
0.388
0.662
0.000
0.380
0.453
0.517
0.509
0.467
0.586
0.704
0.254
0.059
0.457
1.083
0.373
1.752
0.691
0.370
0.000
0.250
0.333
0.623
0.000
0.078
2.279
0.468
0.546
1.734
0.486
0.461
0.692
0.585
1.397
0.385
0.243
0.000
0.929
0.161
0.908
0.589
0.246
0.152
0.397
0.707
0.766
0.624
0.897
0.000
0.685
0.786
0.772
0.847
0.781
1.164
1.028
0.491
0.089
0.847
1.546
0.750
3.028
0.916
0.785
0.000
0.485
0.545
0.795
0.000
0.110
3.849
0.703
0.715
3.119
0.881
0.724
1.089
0.740
2.806
0.612
0.393
0.000
1.298
0.306
1.844
0.844
0.386
0.286
0.800
1.045
1.046
0.864
1.101
0.000
0.993
1.155
1.041
1.202
1.112
1.734
1.386
0.751
0.130
1.313
1.988
1.127
4.769
1.060
1.144
0.000
0.788
0.822
0.928
0.000
0.147
5.107
0.892
0.920
4.604
1.261
0.948
1.399
0.846
4.496
0.900
0.568
0.000
1.589
0.446
2.875
1.073
0.514
0.440
1.245
1.5
1.5
1.2
1.5
0.1
1.4
1.6
1.5
1.7
1.5
2.4
1.9
1.1
0.3
1.8
2.7
1.6
6.3
1.5
1.6
0.1
1.1
1.2
1.3
0.1
0.3
6.7
1.3
1.3
6.1
1.7
1.3
1.9
1.2
5.9
1.3
0.8
0.1
2.2
0.7
3.8
1.5
0.8
0.7
1.7
.T-40
-------
Polygon
No.
6000
6001
6003
6004
6007
6014
6021
6026
6035
6036
6037
6042
6047
6052
6053
6054
6056
6057
6058
6059
6068
6070
6073
6076
6079
6080
6084
6087
6089
6091
6096
6097
6101
6105
6111
6118
6119
6121
6128
6133
6136
6140
6142
6143
6154
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Statsgo Geology No. of
No. Class Points
Geom.
Mean
Radium
(pCi/g)
Geom.
SO.
Radium
Ration Potential (mCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
133
122
106
122
120
99
111
113
116
103
105
107
104
42
103
104
114
103
107
114
115
123
122
136
46
116
103
107
106
59
103
103
104
123
114
113
101
120
103
115
118
122
107
101
103
To2b
Th3
To2a
Th1
Tela
water
Qh1
Qui
Qui
Qui
Qui
water
water
To2a
water
Qa1
Qbd1
To2
an
Tc1
Qui
Th3
To2
To2b
To2a
To2
Qbd1
Qui
Qui
To2a
Tc1
Qui
Qui
Th3
To2a
Tc1
Tc1
Qui
To2a
Qui
To2a
Th1
water
Tc1
Qui
2671
577
184
29
1715
50
54
53471
53471
195
1 3
51
5995
11834
172
1 3
58
72
114
4
1
25
34
46
46
25
553
75
102
1 2
40
28
94
26
52
87
38
53471
525
32
59
7
20
22
53471
0.347
0.367
0.229
0.551
0.083
0.115
0.313
0.155
0.155
0.236
0.324
0.111
0.069
0.250
0.131
0.310
0.232
0.239
0.231
0.130
0.434
0.371
0.438
0.680
0.263
0.193
0.064
0.181
0.367
0.117
0.259
0.286
0.272
0.109
0.128
0.277
0.180
0.155
0.085
0.464
0.212
0.574
0.175
0.306
0.155
3.727
3.930
2.641
1.762
4.124
4.755
2.591
3.814
3.814
2.609
1.523
3.308
3.708
3.340
3.260
2.564
2.046
2.374
2.977
4.149
4.000
1.606
1.788
2.366
2.318
2.642
3.620
2.814
2.160
3.468
2.044
2.021
2.312
4.381
2.638
2.027
2.890
3.814
3.881
1.602
3.002
1.427
3.486
1.555
3.814
0.084
0.478
0.293
0.558
0.220
0.000
0.127
0.300
0.212
0.246
0.218
0.044
0.083
0.538
0.144
0.290
0.320
0.266
0.053
0.258
0.320
0.394
0.435
0.728
0.189
0.307
0.082
0.049
0.373
0.469
0.261
0.285
0.243
0.192
0.481
0.378
0.274
0.284
0.128
0.257
0.301
0.552
0.049
0.359
0.180
0.152
1.049
0.453
0.773
0.323
0.000
0.201
0.472
0.398
0.414
0.291
0.053
0.141
0.828
0.273
0.488
0.430
0.417
0.072
0.435
0.742
0.552
0.606
1.176
0.291
0.476
0.153
0.062
0.574
0.652
0.381
0.412
0.380
0.362
0.627
0.505
0.413
0.459
0.216
0.352
0.428
0.708
0.066
0.438
0.377
0.294
2.151
0.708
1.060
0.489
0.000
0.320
0.817
0.804
0.710
0.381
0.073
0.263
1.333
0.491
0.823
0.565
0.618
0.110
0.814
2.025
0.732
0.825
2.007
0.453
0.727
0.275
0.087
0.846
0.906
0.551
0.617
0.587
0.691
0.816
0.657
0.658
0.793
0.419
0.472
0.620
0.904
0.106
0.537
0.743
0.474
3.514
0.942
1.319
0.722
0.000
0.443
1.184
1.214
0.978
0.454
0.094
0.388
1.818
0.721
1.184
0.666
0.837
0.153
1.477
4.484
0.869
1.044
2.762
0.606
0.912
0.403
0.119
1.123
1.042
0.696
0.758
0.792
1.142
0.945
0.770
0.901
1.197
0.628
0.567
0.839
1.073
0.148
0.610
1.176
0.7
4.7
1.3
1.8
1.0
0.1
0.7
1.6
1.7
1.4
0.7
0.2
0.6
2.5
1.0
1.6
1.0
1.2
0.3
2.0
5.9
1.2
1.5
3.7
0.9
1.3
0.6
0.3
1.6
1.5
1.0
1.1
1.1
1.6
1.3
1.1
1.3
1.7
0.9
0.8
1.2
1.5
0.3
0.9
1.6
1-A 1
-------
Polygon
No.
6155
6158
6159
6162
6165
6168
6171
6174
6179
6181
6182
6189
6196
6205
6207
6212
6222
6227
6233
6235
6239
6243
6244
6245
6247
6249
6253
6254
6259
6262
6263
6264
6271
6273
6274
6275
6278
6285
6286
6293
6297
6298
6300
6307
6308
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Geom.	Ref. House
Mean	Geom.	Radon Potential (mCi/yr) Indoor Radon
Statsgo Geology No. of Radium	S.D. at Specified Confidence limit	 at 95% C.L.
No. Class Points (pCi/g)	Radium	50% 75% 90% 95% (pCi/L)
114
Tc1
104
To2
107
Tc1
121
Th3
121
To2
107
To2
121
Th3
104
Qbd1
121
To2
104
Qui
104
Qui
102
water
100
Qui
104
To2
120
Th3
100
Tc1
108
To2a
104
Qh1
103
Qui
120
Th3
116
Qui
107
Qr1
115
Qr1
105
Qbd1
115
To2
104
Qui
107
To2a
120
To2b
113
Qui
106
Qr1
106
Tela
107
To2a
115
Qui
100
Qrl
107
Qui
104
Qui
106
To2a
199
water
120
Ths2
106
Qh1
198
Ths2
120
Twh3
107
Qbd1
121
To2
107
Qr1
9001	0.244
4707	0.350
33	0.137
98	0.282
31	0.555
4707	0.350
177	0.678
4	0.498
269	0.252
228	0.402
57	0.321
3	0.640
100	0.207
19	0.376
3449	0.473
16	0.176
249	0.516
5	0.347
139	0.194
25	1.138
10	0.362
186	0.130
26	0.574
22	0.131
68	0.274
250	0.047
77	0.152
126	0.064
13	0.289
4	0.090
13	0.343
35	0.064
8	0.135
19	0.175
76	0.236
4	0.763
37	0.124
34	0.145
171	0.024
3834	0.171
171	0.024
322	0.027
10491	0.106
4707	0.350
6113	0.141
2.958	0.359
3.008	0.370
2.796	0.045
4.560	0.722
2.389	0.809
3.008	0.063
1.718	1.117
1.460	0.426
4.647	0.466
1.919	0.360
2.771	0.305
1.170	0.676
2.626	0.243
1.796	0.344
3.555	1.844
1.970	0.202
2.545	0.653
1.842	0.298
3.012	0.208
1.268	2.461
1.459	0.381
4.408	0.046
1.588	0.317
2.976	0.109
2.887	0.178
3.587	0.066
2.708	0.047
4.012	0.476
2.179	0.398
3.384	0.113
1.619	0.330
3.563	0.042
2.637	0.092
3.085	0.222
2.491	0.052
1.419	0.724
3.165	0.197
3.409	0.078
1.825	0.404
3.644	0.204
1.825	0.000
2.048	1.157
3.846	0.044
3.008	0.523
4.041	0.047
0.553	0.921
0.678	1.195
0.055	0.073
1.360	2.585
1.265	1.958
0.095	0.168
1.480	1.883
0.545	0.691
0.979	2.030
0.514	0.714
0.549	0.911
0.756	0.860
0.400	0.633
0.474	0.648
2.648	3.912
0.274	0.382
1.077	1.703
0.425	0.641
0.386	0.688
2.881	3.363
0.474	0.574
0.062	0.103
0.444	0.600
0.183	0.322
0.308	0.517
0.103	0.177
0.057	0.078
0.625	0.803
0.543	0.754
0.201	0.395
0.424	0.546
0.047	0.059
0.142	0.242
0.387	0.661
0.068	0.097
0.913	1.148
0.299	0.495
0.119	0.179
0.521	0.658
0.394	0.766
0.000	0.000
1.529	1.943
0.054	0.078
0.947	1.557
0.063	0.099
1.243
1.7
1.688
2.3
0.094
0.2
4.169
5.5
2.590
3.5
0.234
0.4
2.165
2.9
0.813
1.2
3.410
4.5
0.862
1.2
1.371
1.9
0.935
1.3
0.858
1.2
0.769
1.1
5.160
6.8
0.477
0.7
2.261
3.0
0.798
1.1
0.998
1.4
3.684
4.9
0.653
0.9
0.148
0.3
0.743
1.1
0.470
0.7
0.763
1.1
0.259
0.4
0.098
0.2
0.964
1.4
0.929
1.3
0.636
0.9
0.636
0.9
0.072
0.2
0.334
0.5
0.998
1.4
0.131
0.3
1.351
1.9
0.695
1.0
0.269
0.4
0.748
1.1
1.148
1.6
0.000
0.1
2.254
3.0
0.111
0.2
2.199
3.0
0.149
0.3
-------
Polygon
No.
6314
6316
6323
6325
6332
6341
6345
6351
6352
6357
6360
6369
6375
6376
6392
6394
6398
6401
6403
6407
6412
6413
6414
6415
6419
6423
6431
6432
6435
6437
6440
6441
6443
6444
6445
6448
6449
6450
6452
6465
6468
6469
6470
6471
6473
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Statsgo
No.
Geology
Class
No. of
Points
Geom.
Mean
Radium
(pCi/g)
Geom.
S.O.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
120
106
114
121
46
106
99
115
101
106
103
136
107
199
106
106
107
120
107
122
106
103
106
103
118
11 4
106
122
108
121
121
115
99
114
120
104
107
107
106
115
122
108
107
103
108
To2
To2a
Qa1
Th3
Qh1
Qui
Qui
Qui
Qui
To2a
Qbd1
To2b
Qbd1
To2a
Qui
Tap2
Qui
Qd1
Qui
To2b
Tc1
Qui
Qui
Tap2
To2a
Qa1
Tela
Th3
To2a
Th3
Th3
Qui
Qui
To2a
Qui
Qa1
Tela
Qbd1
Qui
Qr1
To2
To2a
Qui
Qui
Tap2
24
36
59
3449
3834
27
456
53471
53471
176
557
23
69
11834
121
48
9
61 1
4
1 4
1 1
46
83
36
979
59
153
14
420
109
51
38
52
10
94
7
90
31
1 3
54
12
329
43
23
228
0.021
0.106
0.191
0.473
0.171
0.228
0.049
0.155
0.155
0.039
0.076
0.028
0.151
0.250
0.186
0.031
0.132
0.054
0.437
0.024
0.208
0.166
0.094
0.031
0.246
0.182
0.065
0.068
0.038
0.178
0.050
0.106
0.144
0.028
0.048
0.455
0.093
0.061
0.208
0.031
0.048
0.319
0.119
0.156
0.201
1.659
3.304
4.113
3.555
3.644
2.100
3.253
3.814
3.814
2.958
3.462
1.942
2.933
3.340
2.791
2.740
3.134
3.930
1.181
1.865
3.922
2.992
4.408
2.076
3.702
3.863
3.642
2.745
2.278
5.664
2.523
3.806
2.347
1.987
3.400
1.520
3.489
3.943
2.694
2.179
2.301
5.769
3.354
3.191
4,668
0.402
0.180
0.329
0.984
0.138
0.226
0.000
0.113
0.268
0.121
0.093
0.060
0.047
0.134
0.201
0.114
0.045
0.190
0.065
0.059
0.246
0.178
0.124
0.069
0.341
0.306
0.092
0.110
0.151
0.574
0.319
0.084
0.000
0.370
0.180
0.389
0.043
0.041
0.223
0.049
0.077
0.541
0.045
0.174
0.377
0.521
0.274
0.577
1.769
0.266
0.332
0.000
0.213
0.438
0.157
0.167
0.076
0.059
0.230
0.335
0.147
0.057
0.258
0.082
0.076
0.537
0.324
0.249
0.091
0.547
0.529
0.155
0.173
0.303
1.058
0.486
0.148
0.000
0.488
0.239
0.493
0.051
0.047
0.373
0.057
0.106
1.277
0.055
0.318
0.763
0.652
0.440
1.092
3.202
0.509
0.490
0.000
0.421
0.760
0.209
0.303
0.097
0.081
0.362
0.573
0.183
0.079
0.366
0.109
0.093
1.143
0.579
0.537
0.117
0.886
0.973
0.287
0.249
0.602
2.162
0.716
0.265
0.000
0.627
0.316
0.639
0.067
0.061
0.651
0.069
0.143
3.109
0.077
0.599
1.472
0.746
0.633
1.709
4.697
0.763
0.622
0.000
0.631
1.221
0.250
0.448
0.108
0.105
0.519
0.787
0.211
0.105
0.471
0.135
0,109
2.059
0.851
0.880
0.138
1.308
1.459
0.411
0.329
0.899
3.591
0.939
0.438
0.000
0.716
0.382
0.781
0.087
0.076
0.884
0.082
0.184
5.373
0.101
0.931
2.388
1.1
0.9
2.3
6.2
1.1
0.9
0.1
0.9
1.7
0.4
0.7
0.2
0.2
0.8
1.1
0.4
0.2
0.7
0.3
0.2
2.8
1.2
1.2
0.3
1.8
2.0
0.6
0.5
1.3
4.8
1.3
0.7
0.1
1.0
0.6
1.1
0.2
0.2
1.2
0.2
0.3
7.1
0.2
1.3
3.2
-------
Polygon
No.
6475
6477
6480
6483
6486
6487
6488
6490
6492
6493
6495
6497
6498
6500
6507
6510
6511
6514
6515
6523
6526
6530
6531
6537
6538
6542
6545
6547
654B
6549
6557
6558
6560
6562
6563
6567
6572
6574
6576
6577
6578
6580
6582
6584
6585
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Statsgo Geology No. of
No. Claw Point*
Geom.
Mean
Radium
(pCi/g)
Geom.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
108
106
107
106
101
106
113
121
107
106
106
106
101
115
114
113
106
106
107
103
120
121
107
121
113
103
121
120
124
133
107
106
106
107
124
107
1 20
121
107
108
120
124
103
120
133
Tap2
Qa1
Qui
To2a
Qtodl
Tc1
Tc1
Twh3
Qui
Qbd1
Qbd1
Tc1
To2a
Tela
To2a
OTd1
Tela
To2a
To2a
Qui
To2
To2b
Qrl
Th3
Tel
Qui
Th3
To2b
Qd1
Tela
Qui
Qbd1
Te1
Qbd1
Tela
Qbd1
QTuk2
QTuk2
Qui
To2a
Ths2
Ths2
Te1
Qr1
Ths2
36
6626
53471
11834
10491
11
104
42
53471
10491
10491
9001
122
44
36
93©
2095
30
1 1
53471
35
10
80
3449
549
70
3449
21
21
16
53471
228
25
156
21
9
954
82
51
1 5
39
28
1 1
8
1 2
0.055
0.126
0.155
0.250
0.106
0.029
0.024
0.038
0.155
0.106
0.106
0.244
0.087
0.031
0.023
0.226
0.079
0.249
0.023
0.155
0.799
0.040
0.042
0.473
0.108
0.026
0.473
0.030
0.020
0.018
0.155
0.036
0.026
0.063
0.020
0.022
0.094
0.027
0.040
0.034
0.023
0.029
0.027
0.027
0.028
2.6B6
4.140
3.814
3.340
3.846
2.185
1.877
2.267
3.814
3.846
3.846
2.958
4.224
2.141
1.793
5.057
4.052
2.833
2.005
3.814
1.391
2.172
3.051
3.555
3.725
1.888
3.555
2.163
1 .611
1.394
3.814
3.016
1.988
3.858
1.611
1.797
4.330
2.052
2.218
2.269
1.764
2.022
1.956
1.990
2.142
0.171
0.15B
0.047
0.330
0.207
0.063
0.165
0.296
0.048
0.132
0.133
0.265
0.407
0.048
0.367
0.410
0.108
0.321
0.039
0.179
1.190
0.146
0.040
0.996
0.248
0.050
1.023
0.414
0.062
0.039
0.048
0.070
0.061
0.041
0.061
0.038
0.513
0.133
0.039
0.146
0.401
0.126
0.050
0.155
0.043
0.324
0.322
0.064
0.590
0.330
0.076
0.200
0.472
0.063
0.250
0.254
0.483
0.565
0.057
0.483
0.847
0.197
0.518
0.041
0.389
1.418
0.212
0.043
1.824
0.356
0.061
1.753
0.533
0.074
0.042
0.06b
0.094
0.072
0.047
0.075
0.041
0.698
0.189
0.042
0.301
0.520
0.166
0.062
0.193
0.053
0.637
0.680
0.105
1.125
0.552
0.097
0.232
0.709
0.099
0.506
0.479
0.856
0.814
0.069
0.614
1.787
0.387
0.883
0.044
0.737
1.680
0.292
0.049
3.214
0.578
0.073
3.215
0.668
0.088
0.045
0.103
0.144
0.086
0.061
0.089
0.044
0.964
0.271
0.047
0.595
0.653
0.214
0.076
0.238
0.062
0.938
1.082
0.147
1.617
0.834
0.113
0.261
0.897
0.143
0.763
0.778
1.164
1.052
0.080
0.713
3.208
0.596
1.191
0.046
1.146
1.824
0.356
0.057
4.864
0.793
0.084
4.786
0.757
0.100
0.047
0.145
0.188
0.097
0.075
0.097
0.046
1.250
0.337
0.050
0.918
0.746
0.248
0.089
0.260
0.071
1.3
1.5
0.3
2.2
1.2
0.2
0.4
1.3
0.3
1.1
1.1
1.6
1.5
0.2
1.0
4.3
0.9
1.6
0.2
1.6
2.5
0.6
0.2
6.4
1.1
0.2
6.3
1.1
0.2
0.2
0.3
0.3
0.2
0.2
0.2
0.2
1.7
0.5
0.2
1.3
1.1
0.4
0.2
0.4
0.2
T AA
-------
Polygon
No.
6590
6600
6607
6613
6615
6620
6622
6623
6627
6637
6640
6650
6651
6657
6650
6661
6664
6667
6671
6680
6681
6682
6683
6686
6689
6693
6696
6697
6698
6699
6700
6703
6706
6710
6711
6722
6731
6732
6734
6739
6740
6742
6747
6751
6762
Table J-l (Continued)
State-Wide Radium and Eadon Potential Distributions
by Polygon Number
St&tsgo Geology
No. Class
No. of
Points
G«om.
Mean
Radium
(pCi'g)
Geom.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence limit
50%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCtfL)
121
107
103
121
104
103
120
124
122
122
121
124
106
106
120
120
107
103
113
113
108
120
107
114
107
104
118
121
107
106
106
121
107
111
124
106
199
124
120
121
120
133
99
103
121
Out
Qui
Qui
Th3
Qtu3
Tc1
Th3
Qr1
QTuk2
Th3
Th3
Qd1
Tap2
Qui
Qd1
Th3
Qbd1
Qui
Qui
Tc1
Tap2
Qtu2
Qui
Tel
Qr1
Qr1
water
QTuk2
Qr1
Qbd1
Qa1
QTuk2
Qbd1
Qh1
Qui
Qrl
water
Ths2
Qui
To2
Ths2
Qui
Qr1
Qr1
Twh3
33
53471
53471
294
6887
9001
3449
24
1072
15
3449
24
32
53471
33
3449
36
53471
17
70
111
175
57
11 5
78
6113
5995
8
258
33
80
23
24
3834
145
14
5995
27
22
65
65
37
1 1
26
3
0.225
0.155
0.155
0.308
0.110
0.244
0.473
0.107
0.084
0.047
0.473
0.072
0.030
0.155
0.139
0.473
0.027
0.155
0.032
0.043
0.049
0.070
0.023
0.096
0.030
0.141
0.069
0.036
0.030
0.035
0.329
0.046
0.021
0.171
0.041
0.027
0.069
0.024
0.025
0.106
0.022
0.068
0.021
0.025
0.026
6.494
3.814
3.814
5.572
3.955
2.958
3.555
3.129
4.260
2.490
3.555
3.262
2.085
3.814
3.296
3.555
1.911
3.814
2.110
2.773
3.851
3.967
1.859
3.477
2.596
4.041
3.708
2.849
2.655
2.207
3.315
2.301
1.796
3.644
3.276
1.937
3.708
1.811
1.885
6.482
1.709
3.603
1.712
2.019
2.155
0.371
0.048
0.184
0.833
0.122
0.276
1.873
0.134
0.114
0.093
1.005
0.105
0.112
0.182
0.260
1.817
0.038
0.178
0.173
0.186
0.179
0.479
0.038
0.222
0.039
0.150
0.117
0.149
0.039
0.066
0.393
0.156
0.038
0.091
0.081
0.061
0.065
0.121
0.153
0.271
0.405
0.044
0.000
0.049
0.285
1.077
0.064
0.363
1.737
0.230
0.489
2.630
0.217
0.218
0.137
1.781
0.161
0.136
0.366
0.396
2.664
0.041
0.374
0.208
0.226
0.354
0.638
0.041
0.307
0.042
0.307
0.158
0.222
0.042
0.083
0.740
0.223
0.041
0.148
0.115
0.073
0.093
0.161
0.190
0.542
0.522
0.053
0.000
0.060
0.453
3.166
0.102
0.766
3.937
0.456
0.860
3.797
0.377
0.445
0.192
3.259
0.274
0.161
0.723
0.637
3.938
0.044
0.763
0.247
0.277
0.661
0.832
0.044
0.470
0.046
0.627
0.243
0.306
0.046
0.108
1.415
0.304
0.043
0.262
0.172
0.087
0.132
0.207
0.233
1.242
0.651
0.072
0.000
0.075
0.703
6.403
0.148
1.203
6.787
0.744
1.191
5.082
0.535
0.690
0.239
4.958
0.385
0.181
1.149
0.848
5.350
0.046
1.178
0.275
0.324
0.957
0.983
0.045
0.635
0.049
0.958
0.329
0.390
0.049
0.129
2.199
0.368
0.045
0.397
0.243
0.098
0.161
0.242
0.262
2.227
0.745
0.092
0.000
0.089
0.896
8.4
0.3
1.7
8.9
1.1
1.6
6.7
0.8
1.0
0.4
6.5
0.6
0.3
1.6
1.2
7.1
0.2
1.6
0.5
0.5
1.3
1.4
0.2
0.9
0.2
1.3
0,5
0.6
0.2
0.3
3.0
0.6
0.2
0.6
0.4
0.2
0.3
0.4
0.4
3.0
1.1
0.2
0.1
0.2
1.3
-------
Polygon
No.
6767
6768
6770
6774
6780
6781
6786
6790
6792
6793
6796
6797
6806
6811
6818
6819
6820
6825
6829
6833
6834
6839
6845
6847
6853
6854
6858
6859
6860
6866
6870
6874
6883
6887
6892
6894
6895
6900
6901
6902
6905
6907
6932
6935
6940
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Statsgo Geology No. of
No. Class Points
Geom.
Mean
Radium
(pCi/g)
Geom.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
50*
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
114
124
106
121
120
120
120
201
121
106
103
106
121
121
133
120
124
120
121
121
114
106
106
107
133
106
102
121
121
102
199
117
122
111
198
123
124
103
103
121
124
114
198
121
120
Qbd1
Tela
Qbd1
Tko2
Tc1b
To2
Tko2
Qm1
QTuk2
To2a
Qbdl
Tc1
QTuk2
QTuk2
Tc1b
QTuk2
Tc1b
Tclb
Qtu2
Th3
Qa1
Qui
Qa1
Tc1
Qr1
Qbd1
Qa1
Tc1b
To2
water
Qh1
To2a
Th3
Qh1
Qui
Tko2
Qd1
Tko2
Qal
Qui
Tc1 b
Tc1
Tclb
Qui
QTu2
27
43
23
188
2669
16
46
2832
1072
69
10491
17
1072
1072
20
1072
131
1 4
117
27
90
31
67
9001
142
27
4
6768
269
3
14
343
62
3834
83
12
16
134
17
15
57
37
56
1 9
1447
0.300
0.083
0.032
0.326
0.231
0.602
0.172
0.147
0.084
0.213
0.106
0.063
0.084
0.084
0.091
0.084
0.045
0.305
0.786
0.838
0.271
0.036
0.135
0.244
0.092
0.442
0.106
0.211
1.025
0.038
0.117
0.690
1.400
0,171
0.203
0.419
0.027
0.318
0.050
0.489
0.025
0.024
0.023
0.606
0.429
2.346
3.895
2.508
2.715
3.104
1.451
2.915
4.172
4.260
2.631
3.846
3.651
4.260
4.260
3.214
4.260
3.191
1.894
1.534
2.240
2.215
2.213
3.169
2.958
3.365
1.526
1.414
3.458
1.777
4.198
4.512
1.727
1.489
3.644
3.500
2.853
1.944
2.872
2.432
1.391
1.866
1.937
1.866
1.382
2.719
0.395
0.117
0.066
0.492
0.354
0.964
0.575
0.166
0.215
0.282
0.127
0.091
0.218
0.219
0.045
0.499
0.084
0.392
1.062
1.493
0.370
0.068
0.153
0.054
0.046
0.429
0.201
0.276
1.533
0.170
0.080
1.030
1.929
0.092
0.000
0.496
0.068
0.389
0.068
0.535
0.066
0.141
0.000
0.683
0.876
0.582
0.202
0.082
0.769
0.555
1.141
0.755
0.278
0.364
0.423
0.252
0.154
0.355
0.362
0.056
0.669
0.119
0.515
1.351
2.224
0.514
0.086
0.268
0.074
0.056
0.543
0.244
0.527
2.123
0.229
0.116
1.349
2.518
0.146
0.000
0.889
0.083
0.687
0.095
0.646
0.081
0.181
0.000
0.831
1.230
0.845
1.091
1.5
0.386
0.595
0.9
0.110
0.139
0.3
1.239
1.727
2.3
0.881
1.254
1.7
1.326
1.458
2.0
0.991
1.164
1.6
0.492
0.742
1.1
0.615
0.859
1.2
0.647
0.890
1.3
0.480
0.790
1.1
0.287
0.414
0.6
0.592
0.832
1.2
0.610
0.873
1.2
0.080
0.101
0.2
0.905
1.132
1.6
0.176
0.240
0.4
0.668
0.777
1.1
1.640
1.864
2.5
3.336
4.396
5.8
0.711
0.868
1.2
0.109
0.128
0.3
0.491
0.684
1.0
0.114
0.159
0.3
0.081
0.108
0.2
0.678
0.790
1.1
0.295
0.334
0.5
0.989
1.476
2.0
2.852
3.355
4.5
0.330
0.428
0.7
0.192
0.313
0.5
1.636
1.945
2.6
3.159
3.831
5.1
0.269
0.393
0.6
0.000
0.000
0.1
1.695
2.493
3.3
0.103
0.116
0.3
1.128
1.554
2.1
0.141
0.186
0.3
0.767
0.855
1.2
0.099
0.J 10
0.2
0.222
0.258
0.4
0.000
0.000
0.1
0.986
1.101
1.5
1.757
2.276
3.1
-------
Polygon
No.
6944
6945
6947
6954
6956
6958
6963
6969
6976
6977
6982
6983
6984
6985
6987
6988
6990
6996
6997
7003
7011
7014
7015
7018
7031
7032
7037
7041
7042
7043
7045
7048
7052
7053
7054
7058
7059
7060
7063
7064
7065
7067
7068
7070
7077
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Statsgo G«ology No. of
No. Class Points
Geom.
Mean
Radium
(pCi/g)
Geom.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
106
123
106
106
121
111
107
107
120
103
121
106
113
107
103
114
99
120
104
121
114
133
120
103
107
101
199
104
106
121
115
133
104
101
120
124
120
120
124
106
107
103
102
107
103
Qa1
Tc1 b
Qbdl
7c1 b
QTu2
Qh1
Qbdl
Tko2
Od1
Qbd1
To2a
Qa1
QTd1
Qbd1
Tap1
Qbdl
Tc1b
Tc1b
Tko2
Qd1
Tc1
Td b
To2
To2
Qrl
Qbdl
To2a
QTuk2
Tc1
To2
To2
Tc1b
To2
Qbdl
Qr1
Qr1
Tc1b
To2a
Tc1b
To2
Tc1b
Qull
Qh1
Qull
Qul1
33
32
351
85
26
63
1 6
63
53
1 2
84
48
105
10491
21
1 5
6768
57
25
7
308
19
182
32
76
9
11834
5
1 8
36
20
52
170
1 2
27
37
1 1
26
92
171
9
1 5
8
181
1266
0.025
0.022
0.187
0.2B1
0.972
0.069
0.108
0.356
0.308
0.381
0.297
0.485
0.259
0.106
0.184
0.239
0.211
0.168
0.414
0.116
0.189
0.120
1.260
0.331
0.149
0.133
0.250
0.121
0.355
0.329
0.258
0.237
0.178
0.081
0.248
0.308
0.193
0.417
0.153
0.126
0.227
0.041
0.039
0.079
0.155
1.941
1.748
2.780
2.191
1.976
3.398
2.649
2.257
2.979
1.483
2.800
1.854
2.040
3.846
3.761
1.934
3.458
2.986
2.184
4.436
2.923
2.940
2.107
1.930
3.040
3.177
3.340
3.379
1.684
2.123
2.442
2.190
2.751
2.897
2.752
2.533
2.285
2.772
2.919
3.020
1.877
2.513
2.427
3.272
3.191
0.061
0.047
0.199
0.282
1.449
0.065
0.043
0.063
0.433
0.370
0.451
0.427
0.364
0.044
0.214
0.322
0.000
0.291
0.393
0.171
0.298
0.049
2.106
0.349
0.047
0.228
0.137
0.145
0.350
0.455
0.156
0.058
0.188
0.174
0.364
0.323
0.296
0.865
0.170
0.202
0.051
0.061
0.163
0.042
0.170
0.071
0.059
0.345
0.429
2.265
0.086
0.050
0.087
0.708
0.467
0.715
0.647
0.468
0.054
0.443
0.424
0.000
0.414
0.617
0.358
0.446
0.061
3.171
0.502
0.059
0.352
0.222
0.255
0.453
0.664
0.250
0.078
0.300
0.246
0.546
0.536
0.393
1.225
0.285
0.289
0.062
0.085
0.206
0.048
0.311
0.084
0.071
0.564
0.652
3.175
0.121
0.064
0.128
1.122
0.562
1.209
0.906
0.632
0.079
0.930
0.568
0.000
0.643
0.918
0.850
0.693
0.087
4.656
0.696
0.082
0.570
0.373
0.478
0.600
0.934
0.400
0.116
0.485
0.349
0.846
0.849
0.558
1.806
0.488
0.468
0.081
0.126
0.263
0.062
0.592
0.095
0.078
0.781
0.830
4.209
0.153
0.080
0.170
1.652
0.637
1.614
1.141
0.739
0.109
1.554
0.667
0.000
0.856
1.237
1.560
0.959
0.115
5.961
0.860
0.108
0.800
0.520
0.729
0.690
1.133
0.568
0.147
0.651
0.449
1.172
1.131
0.707
2.347
0.683
0.650
0.098
0.165
0.296
0.076
0.873
0.2
0.2
1.1
1.2
5.6
0.3
0.2
0.3
2.2
0.9
2.2
1.6
1.1
0.2
2.1
1.0
0.1
1.2
1.7
2.1
1.3
0.2
7.8
1.2
0.2
1.1
0.8
1.0
1.0
1.6
0.8
0.3
0.9
0.7
1.6
1.6
1.0
3.2
1.0
0.9
0.2
0.3
0.5
0.2
1.2
T AH
-------
Polygon
No.
7083
7084
7086
7087
7089
7092
7094
7097
7098
7103
7105
7108
7109
7115
7117
7118
7126
7129
7132
7136
7137
7143
7145
7146
7149
7151
7152
7153
7154
7158
7163
7165
7166
7167
7169
7172
7182
7183
7164
7186
7190
7195
7197
7199
7205
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
StaUgo Geology No. or
No. Class Points
Geom.
Mean
Radium
(pCi/g)
Geom.
S.D.
Radium
Radon Potential (mCj/yr)
at Specified Confidence Limit
50%
76%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
115
133
108
114
101
103
121
133
137
134
120
198
107
120
198
106
133
133
128
199
198
115
134
114
120
107
107
128
128
121
11 3
103
128
133
107
124
107
121
106
114
106
120
121
124
103
To2
Tc1b
Qq1
QTd1
Tc1
Qul1
QTu2
Qr1
Tc1b
To2
Tc1b
Tc1b
Qul1
Td b
Qr1
Qul1
Tclb
Qr1
Qrl
Qh1
Or1
Qul1
Qtu2
Qui
To2
Tc1b
Qtu2
Qr1
Tc1 b
Qd1
Tc1
To2a
Qr1
Tc1b
To2
Tc1b
To2
To2
Qul1
Qa1
Qa1
Qtu2
QTu2
Tc1b
Qul1
16
6768
27
939
9001
122
1899
6113
6768
114
6768
6768
59
43
160
77
12
48
21
8
25
56
60
1 9
38
6768
45
28
76
58
41
95
43
66
23
21
145
90
354
12
33
4
68
6
65
0.311
0.211
0.291
0.226
0.244
0.144
0.421
0.141
0.211
0.913
0.211
0.211
0.063
0.099
0.081
0.175
0.119
0.130
0.043
0.072
0.088
0.254
0.912
0.231
0.429
0.211
0.362
0.219
0.329
0.098
0.122
0.216
0.343
0.135
0.067
0.175
0.192
0.239
0.124
0.351
0.423
0.388
0.168
0.365
0.159
2.073
3.458
2.268
5.057
2.958
2.906
2.652
4.041
3.458
2.358
3.458
3.458
3.111
3.026
3.136
2.651
3.039
3.351
2.996
3.624
2.987
2.788
2.228
2.211
1.448
3.458
2.164
2.482
2.111
3.912
2.735
3.403
2.566
2.412
3.706
3.027
2.748
2.375
2.906
1.465
2.241
1.191
3.184
2.009
2.785
0.182
0.059
0.287
0.388
0.334
0.156
0.610
0.051
. 0.334
1.165
0.335
0.000
0.041
0.225
0.000
0.187
0.048
0.049
0.064
0.066
0.000
0.161
1.127
0.322
0.761
0.053
0.063
0.202
0.294
0.149
0.250
0.259
0.330
0.049
0.042
0.194
0.050
0.361
0.144
0.415
0.453
0.703
0.303
0.363
0.164
0.264
0.091
0.444
0.841
0.555
0.270
1.003
0.074
0.537
1.866
0.548
0.000
0.046
0.307
0.000
0.310
0.062
0.066
0.092
0.092
0.000
0.270
1.783
0.444
0.915
0.074
0.086
0.325
0.445
0.262
0.333
0.522
0.557
0.060
0.048
0.345
0.064
0.528
0.232
0.497
0.714
0.823
0.480
0.548
0.285
0.411
0.156
0.697
1.916
0.917
0.475
1.654
0.132
0.926
2.944
0.980
0.000
0.055
0.426
0.000
0.516
0.088
0.100
0.141
0.129
0.000
0.464
2.752
0.623
1.071
0.122
0.123
0.517
0.631
0.516
0.450
0.940
0.884
0.081
0.062
0.599
0.089
0.773
0.393
0.586
1.091
0.960
0.781
0.836
0.503
0.553
0.231
0.909
3.191
1.294
0.661
2.273
0.198
1.404
4.070
1.412
0.000
0.066
0.544
0.000
0.662
0.116
0.148
0.193
0.169
0.000
0.647
3.681
0.761
1.159
0.165
0.162
0.694
0.807
0.836
0.561
1.419
1.218
0.104
0.076
0.889
0.120
1.005
0.532
0.665
1.394
1.105
1.107
1.100
0.714
0.8
0.4
.1.3
4.2
1.8
1.0
3.1
0.4
1.9
5.4
1.9
0.1
0.2
0.8
0.1
1.0
0.3
0.3
0.4
0.3
0.1
0.9
4.9
1.1
1.6
0.3
0.3
1.0
1.1
1.2
0.8
1.9
1.7
0.2
0.2
1.3
0.3
1.4
0.8
1.0
1.9
1.5
1.5
1.5
1.0
-------
PbTygoc
No.
7207
7210
7215
7219
7220
7229
7232
7235
7242
7243
7244
7248
7252
7256
7263
7265
726B
7276
7279
72B1
7284
7291
7293
7295
7297
7298
7311
7316
7317
7318
7321
7322
7326
7330
7341
7342
7347
7349
7353
7355
7360
7361
7368
7370
7377
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
St&l&go Geology No. of
No. CUm Point*
Geom.
Mean
Radium
(pCi/f?)
Geom.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
124
124
106
103
199
128
103
106
101
198
104
124
99
107
106
120
124
99
106
107
104
103
128
121
115
106
124
124
106
121
133
124
199
106
99
103
120
107
103
124
115
106
111
120
108
Tc1b
Tclb
Gr1
Qui
water
Tc1b
Qr1
Qui
Tc1
Tc1b
QTuk2
Tclb
Qui
To2
Tc1
Qd1
Ths1
Qr1
Qui
Tc1
Qtu2
Qui
Ths1
QTu2
Qr1
To2
Qui
Qui
Qa1
To2
Ths1
Tclb
Qh1
Tc1
To2
Qal
Qui
Tc1
Qui
Tdb
Qui1
Qtu2
Qq1
To2
Qa1
6768
6768
6113
53471
7
6768
6113
32
9001
6768
1072
6768
7
126
9001
389
117
243
22
9001
42
53471
117
1899
68
4707
55
203
8
4707
117
2
3834
9001
84
30
36
83
34
21
4
23
31
8
1 5
0.211
0.211
0.141
0.155
0.071
0.211
0.141
0.160
0.244
0.211
0.084
0.211
0.293
0.315
0.244
0.192
0.258
0.113
0.180
0.244
0.299
0.155
0.258
0.421
0.444
0.350
0.152
0.295
0.121
0.350
0.258
0.660
0.171
0.244
0.066
0.627
0.138
0.104
0.230
0.064
0.250
0.092
0.279
0.207
0.223
3 458
3.458
4.041
3.814
3.171
3.458
4.041
2 445
2.958
3.458
4.260
3.458
1.827
3.391
2.958
2.893
2.606
3.829
2.718
2.958
1.931
3.814
2.606
2.652
2.419
3.008
2.585
2.732
2.574
3.008
2.606
1.238
3.644
2.958
3.298
1.774
3.412
3.262
3.411
3.427
1.361
3.513
1.890
3.069
3.148
0.242
0.234
0.165
0.181
0.066
0.216
0.167
0.171
0.339
0.000
0.120
0.239
0.000
0.061
0.268
0.309
0.270
0.000
0.195
0.054
0.275
0.181
0.239
0.622
0.265
0.458
0.168
0.315
0.136
0.527
0.061
0.651
0.085
0.267
0.000
0.721
0.262
0.043
0.265
0.097
0.137
0.169
0.113
0.613
0.245
0.450
0.466
0.345
0.370
0.091
0.423
0.352
0.266
0.555
0.000
0.211
0.454
0.000
0.097
0.487
0.453
0.438
0.000
0.321
0.074
0.386
0.373
0.398
1.018
0.448
0.801
0.261
0.532
0.211
0.910
0.089
0.775
0.129
0.490
0.000
0.997
0.385
0.052
0.535
0.154
0.174
0.260
0.150
0.854
0.441
0.892
0.868
0.727
0.762
0.123
0.792
0.743
0.407
0.887
0.000
0.405
0.889
0.000
0.168
0.832
0.673
0.729
0.000
0.532
0.117
0.537
0.758
0.672
1.646
0.750
1.377
0.410
0.911
0.341
1.583
0.145
0.907
0.223
0.842
0.000
1.336
0.614
0.070
1.020
0.266
0.224
0.432
0.209
1.155
0.812
1.304
1.284
1.134
1.147
0.156
1.186
1.205
0.553
1.301
0.000
0.649
1.251
0.000
0.253
1.192
0.929
0.990
0.000
0.779
0.166
0.656
1.163
0.934
2.194
1.037
1.968
0.556
1.275
0.469
2.258
0.201
1.021
0.331
1.163
0.000
1.581
0.870
0.089
1.541
0.378
0.272
0.618
0.249
1.448
1.188
1.8
1.8
1.6
1.6
0.3
1.6
1.7
0.8
1.8
0.1
0.9
1.7
0.1
0.4
1.6
1.3
1.4
0.1
1.1
0.3
1.0
1.6
1.3
3.0
1.4
2.7
0.8
1.8
0.7
3.0
0.4
1.4
0.5
1.6
0.1
2.2
1.2
0.2
2.1
0.6
0.5
0.9
0.4
2.0
1.6
-------
Polygon
No.
7360
7382
7385
7386
7388
7389
7394
7395
7401
7405
7407
7408
7418
7421
7423
7424
7428
7430
7431
7433
7434
7439
7441
7442
7445
7448
7449
7450
7454
7455
7456
74 57
7460
7462
7464
7472
7477
7479
7480
7483
7485
7492
7502
7503
7510
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Statsgo Geology No. of
No. Clasa Points
Geom.
Mean
Radium
(pCi/g)
Geom.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
	(pCi/L)
198
134
120
115
107
107
133
107
105
129
120
198
11 5
11 5
101
99
120
11 1
102
103
199
124
133
124
129
134
103
130
120
103
124
198
129
120
199
120
129
120
120
133
120
103
134
120
123
Tc1b
To2
Qui
Tc1b
To2a
Qtu2
Ths1
Tc1 b
Qul1
Qlu2
Qui
Tc1b
Qr1
Qui
To2
Qul1
Ths1
Qh1
Qh1
Qh1
water
Tc1 b
Tclb
Ths1
Quel
Qlu2
To2
Ths1
Qr1
Qd1
Ths1
Tc1b
Qtu2
Qui
To2a
Quel
To2
Qul1
Tc1b
Ths1
Qui
Qui
Qtu2
Qui
Qtu2
134
48
10
5
297
1 6
117
1
1266
1899
53471
6768
16
2
31
1266
3
3834
3834
15
270
6768
6768
1 3
8066
1899
1 4
101
1 3
23
117
6768
231
53471
17
8066
23
45
2333
117
85
1
56
4
64
0.069
0.248
0.190
0.374
0.227
0.141
0.258
0.267
0.155
0.421
0.155
0.211
0.146
0.105
0.428
0.155
0.211
0.171
0.171
0.582
0.102
0.211
0.211
0.307
0.126
0.421
0.218
0.254
0.194
0.242
0.258
0.211
0.396
0.155
0.154
0.126
0.243
0.263
0.265
0.258
0.206
0.500
0.51 B
0.448
0.361
3.421
2.320
1.766
2.205
2.724
2.918
2.606
4.000
3.191
2.652
3.814
3.458
2.722
5.095
2.454
3.191
2.774
3.644
3.644
1.702
3.502
3.458
3.458
1.652
3.768
2.652
2.828
2.729
2.201
2.133
2.606
3.458
1.835
3.814
2.278
3.768
2.268
3.057
3 481
2.606
2.481
4.000
1.494
1.293
2.184
0.000
0.272
0.281
0.218
0.053
0.046
0.062
0.058
0.124
0.645
0.289
0.000
0.099
0.088
0.760
0.000
0.319
0.092
0.290
0.634
0.070
0.246
0.058
0.289
0.195
0.463
0.252
0.160
0.298
0.248
0.274
0.000
0.571
0.281
0.106
0.252
0.431
0.389
0.405
0.062
0.306
0.710
0.508
0.507
0.392
0.000
0.400
0.353
0.352
0.070
0.057
0.091
0.096
0.224
1.017
0.464
0.000
0.153
0.192
1.089
0.000
0.479
0.147
0.464
0.858
0.105
0.456
0.089
0.385
0.325
0.782
0.430
0.274
0.394
0.366
0.450
0.000
0.736
0.455
0.166
0.386
0.581
0.615
0.674
0.088
0.431
1.784
0.625
0.592
0.601
0.000
0.602
0.435
0.592
0.103
0.078
0.140
0.222
0.415
1.530
0.787
0.000
0.260
0.544
1.564
0.000
0.822
0.261
0.753
1.151
0.151
0.864
0.158
0.508
0.582
1.296
0.764
0.464
0.525
0.532
0.710
0.000
0.920
0.819
0.250
0.645
0.766
1.046
1.221
0.140
0.633
4.730
0.765
0.666
0.879
0.000
0.769
0.500
0.863
0.140
0.103
0.193
0.491
0.634
2.055
1.167
0.000
0.369
1.251
1.902
0.000
1.173
0.393
1.237
1.358
0.203
1.255
0.231
0.604
0.926
1.761
1.101
0.641
0.652
0.671
1.007
0.000
1.118
1.179
0.320
0.996
0.946
1.455
1.816
0.200
0.783
10.299
0.861
0.728
1.133
0.1
1.1
0.7
1.2
0.3
0.2
0.4
0.7
0.9
2.8
1.6
0.1
0.6
1.7
2.6
0.1
1.6
0.6
1.7
1.9
0.4
1.7
0.4
0,9
1.3
2.4
1.5
0.9
0.9
1.0
1.4
0.1
1.6
1.6
0.5
1.4
1.3
2.0
2.5
0.4
1.1
13.5
1.2
1.0
1.6
T E A
-------
Polygon
No.
7511
7513
7517
7520
7524
7527
7528
7536
7537
7539
7540
7544
7549
7550
7551
7553
7554
7555
7562
7566
7567
7572
7573
7580
7581
7583
7585
7588
7590
7595
7599
7604
7609
7610
7614
7622
7623
7624
7628
7632
7639
7648
7651
7658
7660
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
StaUgo Geology
No. Class
No. of
Point*
Geom.
Mean
Radium
(pCi/g)
Geom.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
120
133
123
129
124
120
114
217
217
215
115
130
121
128
124
105
133
121
105
217
199
121
21 5
120
134
118
120
111
120
124
120
106
120
120
130
106
114
128
121
134
134
122
106
195
120
Quel
Tc1b
Quel
Qd1
Tc1 b
Qr1
Qa1
Qbd1
Qul1
Qul1
To2
Qul1
To 2
Qr1
Quel
Qui
Qr1
QTu2
Qul1
Qr1
To2a
Ts2
Qr1
Quel
To2
To2a
Ths1
Qh1
Qui
Qu!1
Ts2
Qh1
To2
Ths1
Qui
Qbdal
Qbd1
Quel
Ts2
To2
Qtu2
Ts2
To2a
Qr1
Quel
28
8768
64
1
47
35
41
24
74
115
63
46
17
22
94
68
131
166
1 5
25
33
3
599
8066
4707
59
117
3834
65
1266
5077
3834
4707
117
53471
158
8
8066
114
80
125
381
3
25
16
0.180
0.211
0.310
0.300
0.311
0.330
0.465
0.325
0.278
0.420
0.232
0 385
0.611
0.194
0.306
0.346
0.168
0.389
0.303
0.363
0.353
0.252
0.513
0.126
0.350
0.386
0.258
0.171
0.260
0.155
0.352
0,171
0.350
0.258
0.155
0.239
0.417
0.126
0.641
0.278
0.472
0.445
0.241
0.540
0.687
3.320
3.458
2.298
4.000
2.031
2.862
2.042
2.232
2.278
2.053
2.314
2.073
1.482
3.050
2.398
2.385
3.727
2.103
2.205
2.788
2.942
2.232
2.411
3.768
3.008
1.764
2.606
3.644
2.101
3.191
2.652
3.644
3.008
2.606
3.814
2.881
1.888
3.768
1.653
2.974
1.643
1.967
1.227
1.503
1.451
0.303
0.058
0.307
0.397
0.306
0.461
0.577
0.328
0.282
0.347
0.138
0.230
0.784
0.189
0.319
0.253
0.054
0.536
0.221
0.411
0.156
0.369
0.457
0.257
0.393
0.379
0.372
0.093
0.350
0.181
0.761
0.199
0.786
0.367
0.114
0.256
0.509
0.137
0.836
0.323
0.471
0.450
0.272
0.000
0.792
0.468
0.089
0.502
0.888
0.437
0.739
0.809
0.523
0.446
0.516
0.216
0.345
0.970
0.341
0.489
0.428
0.081
0.771
0.344
0.731
0.267
0.535
0.759
0.390
0.733
0.498
0.537
0.147
0.470
0.309
1.029
0.402
1.108
0.540
0.218
0.451
0.690
0.259
1.099
0.539
0.604
0,655
0.307
0.000
0.955
0.764
0.154
0.775
2.153
0.660
1.156
1.124
0.794
0.666
0.727
0.334
0.509
1.169
0.625
0.791
0.674
0.135
1.084
0.549
1.326
0.440
0.858
1.268
0.635
1.222
0.638
0.799
0.255
0.641
0.545
1.464
0.752
1.712
0.791
0.420
0.802
0.944
0.512
1.427
0.931
0.754
0.963
0.346
0.000
1.169
1.069
0.234
1.024
4.823
0.821
1.701
1,361
1.082
0.886
0.965
0.428
0.642
1.314
0.913
1.047
0.905
0.204
1.318
0.749
1.888
0.592
1.148
1.681
0.964
1.774
0.740
1.062
0.391
0.801
0.806
1.915
1.146
2.221
1.059
0.661
1.130
1.124
0.787
1.626
1.308
0.872
1.213
0.379
0.000
1.314
1.5
0.4
1.4
6.4
1.2
2.3
1.9
1.5
1.3
1.4
0.7
0.9
1.8
1.3
1.5
1.3
0.4
1.8
1.1
2.6
0.9
1.6
2.3
1.4
2.4
1.1
1.5
0.6
1.1
1.1
2.6
1.6
3.0
1.5
1.0
1.6
1.6
1.1
2.2
1.8
1.2
1.7
0.6
0.1
1.8
-------
Polygon
No.
7662
7666
7670
7671
7681
7686
7687
7688
7689
7692
7699
7702
7707
7708
7709
7711
7713
7719
7728
7737
7739
7741
7745
7755
7758
7759
7761
7764
7770
7774
7779
7787
7788
7789
7790
7798
7800
7801
7802
7806
7811
7815
7819
7826
7827
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
• by Polygon Number
Statago Geology
No. Class
No. of
Points
Geom.
Mean
Radium
(pCi/g)
Geom.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
115
124
198
137
111
120
121
103
122
124
121
124
128
128
115
137
120
124
102
102
103
134
104
100
114
137
121
104
120
128
107
215
112
120
106
107
100
198
195
120
137
112
100
107
106
Qul1
Out
water
To2
Qbdal
Qui
Ts2
To2
QTu2
Qul1
QTu2
Qui
QTu1
Tc1b
Qui
QTuI
Quel
Qui
water
Qbdal
Quel
To2
To2
Qul1
Qd1
Qd1
Ts2
To2
QTu2
Quel
Qr1
Qbdl
Qui
Qui
Ts2
Ts2
Qui
Tc1b
Qr1
Quel
To2
Qut
Qsu1
Qa1
Qa1
1266
9
321
5
158
B4
1 3
309
1899
1 2
42
27
14
21
45
29
31
17
5995
158
1511
105
33
26
25
30
35
72
128
8066
6113
10491
53471
53471
5077
586
51
9
6113
8066
12
53471
22
6626
1 1
0.155
0.187
0.068
0.292
0.239
0.176
0.418
0.600
0.421
0.084
0.405
0.256
0.531
0.325
0.320
0.418
0.315
0.152
0.069
0.239
0.167
0.393
0.313
0.332
0.205
0.466
0.410
0.500
0.560
0.126
0.141
0 106
0.155
0.155
0.352
0.335
0.233
0.262
0.141
0.126
0.302
0.155
0.192
0.126
0.330
3.191
3.183
3.737
1.440
2.881
3.070
1.602
1.947
2.652
3.427
2.025
2.431
1.346
1.712
2.062
1.795
2.555
3.906
3.708
2.881
2.993
1.895
2.238
1.656
3.217
1.491
1.741
1.546
1.754
3.768
4.041
3.846
3.814
3.B14
2.652
2.799
2.944
1.648
4.041
3.768
1.985
3.814
2.478
4.240
2.640
0.106
0.210
0.000
0.601
0.109
0.294
0.528
0.694
0.470
0.114
0.549
0.257
0.466
0.283
0.181
0.490
0.429
0.179
0.193
0.340
0.182
0.397
0.300
0.354
0.324
0.524
0.531
0.462
0.947
0.135
0.046
0.106
0.195
0.292
0.445
0.062
0.292
0.000
0.000
0.257
0.635
0.198
0.227
0.046
0.367
0.187
0.392
0.000
0.743
0.166
0.432
0.688
1.009
0.810
0.189
0.784
0.417
0.544
0.373
0.275
0.653
0.635
0.366
0.267
0.513
0.325
0.561
0.466
0.461
0.517
0.640
0.695
0.574
1.192
0.254
0.063
0.201
0.386
0.462
0.707
0.092
0.501
0.000
0.000
0.396
0.827
0.376
0.355
0.059
0.625
0.330
0.720
0.000
0.914
0.273
0.695
0.861
1.468
1.391
0.340
1.059
0.672
0.648
0.492
0.408
0.831
0.958
0.806
0.385
0.816
0.558
0.763
0.690
0.586
0.859
0.767
0.905
0.705
1.455
0.501
0.099
0.384
0.762
0.769
1.138
0.145
0.854
0.000
0.000
0.643
1.048
0.751
0.539
0.095
1.059
0.484
1.141
0.000
1.032
0.372
0.942
0.993
1.821
1.903
0.495
1.283
0.907
0.714
0.580
0.512
0.965
1.299
1.223
0.519
1.175
0.823
0.903
0.877
0.691
1.217
0.867
1.070
0.810
1.640
0.789
0.149
0.619
1.194
1.157
1.525
0.210
1.228
0.000
0.000
0.931
1.186
1.152
0.744
0.142
1.600
0.7
1.6
0.1
1.4
0.6
1.3
1.4
2.5
2.6
0.7
1.8
1.3
1.0
0.9
0.8
1.4
1.8
1.7
0.8
1.6
1.2
1.3
1.2
1.0
1.7
1.2
1.5
1.2
2.2
1.1
0.3
0.9
1.7
1.6
2.1
0.4
1.7
0.1
0.1
1.3
1.6
1.6
1.1
0.3
2.2
-------
Polygon
No.
7829
7831
7834
7835
7846
7851
7854
7855
7859
7863
7870
7874
7878
7883
7889
7892
7896
7899
7900
7901
7902
7903
7908
7910
7911
791 5
7923
7925
7928
7930
7933
7938
7939
7941
7943
7945
7946
7950
7954
7956
7962
7965
7966
7973
7976
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Geom.	Ref. House
Mean	Geom.	Radon Potential (mCi/yr)	Indoor Radon
Statsgo Geology No. of Radium	S.D.	at Specified Confidence Limit	 at95%C.L.
No. Class PoinU (pCi/g)	Radium	60% 75% 90% 95% (pCi/L)
121
QTu2
199
Oh1
100
Qui
121
Th2
122
Th2
111
Qh1
120
Quel
111
Qh1
106
Qbd1
114
Qd1
106
Qd1
106
Qa1
106
Qbdal
133
Tc1b
217
Qsu1
128
Te1 b
106
Ts2
106
Qbd1
100
Qbd1
100
Qbd1
124
Tc1b
133
Tc1b
99
Tc1 b
111
Qh1
111
Qh1
11 1
Qbdal
120
Ts2
106
Qh1
114
Qa1
121
Th2
21 5
Qbd1
106
Qsul
111
Qbdal
199
water
137
QTu2
133
Tc1b
115
To2
103
Tclb
too
Qbd1
124
Tclb
104
To2
118
Ts2
121
Th2
137
Qd1
108
Qhl
1899
0.421
3834
0.171
8
0.128
2054
0.352
533
0.428
3834
0.171
8066
0.126
3834
0.171
10491
0.106
46
0.317
22
0.167
9
0.972
158
0.239
6768
0.211
64
0.216
15
0.066
3
0.061
2227
0.152
86
0.192
10491
0.106
169
0.397
6768
0.211
6768
0.211
3834
0.171
3834
0.171
1 58
0.239
5077
0.352
3834
0.171
1 4
0.179
113
0.236
46
0.316
92
0.152
1 58
0.239
14
0.433
22
0.276
31
0.148
19
0.382
5
0.350
116
0.202
29
0.232
79
0.380
103
0.499
22
1.579
34
0.276
3834
0.171
2.652	0.619
3.644	0.084
3.034	0.169
2.538	0.507
1.939	0.435
3.644	0.092
3.768	0.251
3.644	0.091
3.846	0.129
2.623	0.437
3.956	0.200
2.293	1.333
2.881	0.260
3.458	0.059
2.785	0.223
3.257	0.081
3.474	0.141
3.759	0.181
2.946	0.234
3.846	0.152
2.073	0.401
3.458	0.059
3.458	0.000
3.644	0.094
3.644	0.091
2.881	0.108
2.652	0.763
3.644	0.196
3.842	0.311
2.623	0.359
1.980	0.250
3.395	0.180
2.881	0.108
1.865	0.123
2.331	0.633
3.066	0.051
1.689	0.210
1.619	0.339
2.819	0.244
2.344	0.233
1.892	0.356
2.537	0.498
1.475	2.659
2.212	0.367
3.644	0.206
1.024	1.599
0.128	0.213
0.283	0.503
0.7B1	1.225
0.630	0.894
0.147	0.261
0.390	0.629
0.145	0.269
0.245	0.473
0.663	1.013
0.404	0.874
2.192	3.738
0.460	0.786
0.090	0.153
0.396	0.667
0.131	0.220
0.200	0.329
0.349	0.697
0.407	0.701
0.284	0.521
0.584	0.847
0.090	0.156
0.000	0.000
0.143	0.263
0.143	0.265
0.163	0.278
1.040	1.459
0.385	0.774
0.524	1.007
0.570	0.882
0.361	0.520
0.328	0.615
0.171	0.273
0.185	0.282
0.842	1.120
0.068	0.102
0.288	0.400
0.452	0.599
0.404	0.694
0.368	0.568
0.495	0.669
0.755	1.209
3.348	4.351
0.500	0.705
0.387	0.711
2.179
2.9
0.338
0.5
0.740
1.1
1.600
2.2
1.096
1.5
0.384
0.6
0.927
1.3
0.378
0.6
0.725
1.0
1.328
1.8
1.451
2.0
5.637
7.4
1.136
1.6
0.228
0.4
0.984
1.4
0.321
0.5
0.497
0.7
1.079
1.5
0.969
1.4
0.841
1.2
1.165
1.6
0.236
0.4
0.000
0.1
0.400
0.6
0.386
0.6
0.381
0.6
1.909
2.6
1.176
1.6
1.460
2.0
1.088
1.5
0.633
0.9
0.924
1.3
0.375
0.6
0.406
0.6
1.316
1.8
0.146
0.3
0.493
0.7
0.746
1.1
0.993
1.4
0.738
1.1
0.814
1.2
1.610
2.2
5.008
6.6
0.857
1.2
1.022
1.4
J-53
-------
Polygon
No.
7961
7982
7983
7984
7985
79B7
7992
7994
8002
8006
8007
8010
8015
8016
8017
8018
8021
8023
8032
8035
8036
8038
8039
8040
8041
8043
8044
8046
8049
8050
8053
8056
8069
8072
8073
8076
8078
8089
8092
8102
8106
8107
8111
8112
8113
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Statsgo Geology
No. Class
No. of
Points
Geom.
Mean
Radium
(pCi/g)
Geom.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
60%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
103
120
106
113
106
104
137
112
198
104
113
198
137
106
104
103
106
120
104
137
104
215
124
121
115
121
137
106
137
104
120
106
216
217
137
106
215
198
198
217
112
104
215
124
137
To2
Qui
Qui
Tc1b
Qbdl
Tc1b
Tc1b
Qbd1
Tc1b
Quel
Quel
Tc1b
Tc1b
Qbdal
Quel
To2
Qd1
Th2
Quel
Tc1b
Quel
Qsu1
Te1 b
Th2
Qbdl
Th2
Qd1
Qui
Qd1
To2
Qd1
Qsu1
Qr1
Qsu1
To2
Qa1
Qbdl
Tc1b
Te1 b
Qr1
Qui
Quel
Qsu1
Tc1b
Th2
17
131
5
16
267
17
157
10491
6768
142
8066
6768
6768
151
8066
302
2879
52
8066
25
8066
27879
6768
342
9
2054
2879
1007
2879
36
2879
46
6113
59
51
6626
15
25
6768
10
53471
24
1 1
1 5
26
0.283
0.180
0.226
0.215
0.130
0.235
0.123
0.106
0.211
0.106
0.126
0.211
0.211
0.240
0.126
0.305
0.148
0.156
0.126
0.238
0.126
0.085
0.211
0.451
0.196
0.352
0.148
0.115
0.148
0.320
0.148
0.351
0.141
0.342
0.387
0.126
0.212
0.106
0.211
0.219
0.155
0.169
0.337
0.136
0.401
1.885
3.120
2.2 80
2.892
3.121
3.009
3.536
3.846
3.458
3.375
3.768
3.458
3.458
2.931
3.768
2.064
3.736
2.944
3.768
3.005
3.768
3.726
3.458
2.083
2.764
2.538
3.736
3.370
3.736
2.159
3.736
2.535
4.041
2.579
1.986
4.240
1.868
3.207
3.458
2.947
3.814
2.749
1.740
2.568
2.133
0.292
0.294
0.230
0.339
0.149
0.226
0.247
0.144
0.000
0.113
0.265
0.000
0.338
0.266
0.136
0.330
0.175
0.565
0.135
0.357
0.133
0.090
0.241
0.616
0.121
0.506
0.261
0.136
0.276
0.303
0.278
0.380
0.052
0.378
0.743
0.159
0.163
0.000
0.000
0.232
0.193
0.159
0.263
0.150
0.758
0.413
0.459
0.366
0.509
0.255
0.417
0.361
0.266
0.000
0.198
0.396
0.000
0.549
0.460
0.254
0.483
0.350
0.727
0.258
0.549
0.259
0.158
0.457
0.884
0.207
0.810
0.415
0.245
0.434
0.450
0.425
0.633
0.081
0.630
0.945
0.320
0.232
0.000
0.000
0.432
0.379
0.265
0.352
0.237
1.009
0.570
0.728
0.591
0.791
0.459
0.758
0.579
0.500
0.000
0.356
0.652
0.000
0.912
0.812
0.490
0.677
0.667
0.943
0.499
0.908
0.501
0.303
0.866
1.266
0.363
1.250
0.759
0.442
0.705
0.682
0.731
1.021
0.140
1.066
1.247
0.659
0.316
0.000
0.000
0.789
0.755
0.450
0.474
0.374
1.315
0.689
0.967
0.838
1.092
0.631
1.086
0.830
0.799
0.000
0.529
0.964
0.000
1.377
1.150
0.774
0.823
1.040
1.138
0.783
1.237
0.770
0.438
1.262
1.540
0.529
1.622
1.123
0.649
1.085
0.849
1.092
1.392
0.219
1.356
1.391
1.094
0.382
0.000
0.000
1.234
1.156
0.626
0.569
0.511
1.506
1.0
1.4
1.2
1.5
0.9
1.5
1.2
1.1
0.1
0.8
1.4
0.1
1.9
1.6
1.1
1.2
1.5
1.6
1.1
1.7
1.1
0.7
1.7
2.1
0.8
2.2
1.6
0.9
1.5
1.2
1.5
1.9
0.4
1.9
1.9
1.5
0.6
0.1
0.1
1.7
1.6
0.9
0.8
0.8
2.1
T I-A
-------
Polygon
No.
B117
8120
8121
8123
8124
8125
8129
8130
8136
8137
8139
8140
8142
8145
8147
8156
8160
8161
8164
S166
8168
8171
8172
8173
8177
8182
8183
8186
8191
8193
8195
8197
8205
8206
8210
8213
8215
8216
8217
8220
8221
8224
8225
8226
8230
Table J-l (Continued)
State-Wide Radium and Eadon Potential Distributions
by Polygon Number
Statsgo Geology No. of
No. Clasx Points
Geom.
Mean
Radium
(pCi/g)
Geom.
S-D-
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
137
217
124
112
137
120
120
107
100
114
120
198
199
216
115
106
124
103
100
124
215
120
104
106
115
1 11
103
198
216
100
100
104
104
107
100
115
100
106
199
112
112
103
128
106
107
Quel
Qsu1
Tc1b
Qui
Qui
Th2
Qd1
Qui
Tc1 b
Qd1
Qui
Tc1b
water
Qsu1
To2
Qa1
Quel
QTu1
To2
Tc1b
Qsu1
Quel
Quel
Tc1b
Tht1
Qhl
Tht1
Tc1b
Qr1
Qui
Qbd1
Quel
To2
Qbd1
Qbd1
To2
Qui
Qsu1
Ts2
Qui
Qui
To2
Quel
Ts2
Telb
4
83
19
53471
10
228
149
244
1 2
26
27
7
5995
28
20
6626
8066
6990
4707
6768
135
8066
76
51
3
3834
40
6768
6113
53471
1 1
8066
1 9
1 4
10491
4707
12
27879
6
53471
68
4707
8066
30
6768
0.104
0.179
0 141
0.155
0.275
0.503
0.257
0.105
0.252
0.339
0.065
0.050
0.069
0.388
0.402
0.126
0.126
0.252
0.350
0.211
0.259
0.126
0.082
0.337
0.373
0.171
0.260
0.211
0.141
0.155
0.168
0.126
0.309
0.184
0.106
0.350
0.207
0.085
0.055
0.155
0.133
0.350
0.126
0.162
0.211
3.697
3.150
3.418
3,814
1.716
2.480
2.528
3.383
1.507
2.596
3.456
4.493
3.708
1.938
1.550
4.240
3.768
3.085
3.008
3.458
2.313
3.768
3.080
2.800
1.214
3.644
2.354
3.458
4.041
3.814
1.858
3.768
1.752
2.262
3.846
3.008
2.487
3.726
3.886
3.814
4.013
3.008
3.76B
2.667
3.458
0.227
0.195
0.171
0.196
0.349
0.932
0.359
0.044
0.266
0.443
0.193
0.000
0.066
0.085
0.219
0.159
0.156
0.289
0.525
0.240
0.212
0.259
0.091
0.379
0.196
0.092
0.271
0.000
0.054
0.209
0.191
0.133
0.283
0.048
0.151
0.223
0.240
0.115
0.089
0.196
0.176
0.442
0.139
0.227
0.052
0.343
0.358
0.299
0.379
0.442
1.330
0.527
0.053
0.329
0.699
0.266
0.000
0.091
0.119
0.290
0.328
0.286
0.533
0.880
0.453
0.327
0.389
0.147
0.664
0.247
0.148
0.434
0.000
0.081
0.404
0.260
0.258
0.376
0.058
0.278
0.410
0.383
0.203
0.148
0.377
0.345
0.799
0.258
0.334
0.073
0.580
0.653
0.553
0.766
0.550
1.874
0.774
0.072
0.396
1.075
0.364
0.000
0.132
0.165
0.394
0.674
0.553
0.971
1.547
0.893
0.504
0.653
0.252
1.169
0.316
0.259
0.664
0.000
0.144
0.793
0.345
0.491
0.491
0.079
0.534
0.761
0.618
0.379
0.233
0.729
0.691
1.395
0.491
0.524
0.118
0.845
0.960
0.869
1.140
0.637
2.436
1.004
0.093
0.442
1.493
0.482
0.000
0.169
0.224
0.475
1.085
0.871
1.356
2.246
1.326
0.652
0.949
0.348
1.647
0.381
0.395
0.909
0.000
0.217
1.245
0.426
0.791
0.581
0.099
0.875
1.112
0.844
0.533
0.298
1.165
1.105
2.051
0.801
0.664
0.165
1.2
1.3
1.2
1.6
0.9
3.3
1.4
0.2
0.7
2.0
0.7
0.1
0.3
0.4
0.7
1.5
1.2
1.9
3.0
1.8
0.9
1.3
0.6
2.2
0.6
0.6
1.3
0.1
0.4
1.7
0.7
1.1
0.9
0.2
1.2
1.5
1.2
0.8
0.5
1.6
1.5
2.8
1.1
1.0
0.3
-------
Polygon
No.
8234
8235
8237
8244
8247
8251
8252
8253
8254
8256
8257
B261
8262
8268
8269
8272
8277
8287
8294
8296
8298
8304
8310
8320
8324
8327
8329
8330
8342
8343
8346
8348
8349
8352
8356
8362
8363
8364
8366
8368
8370
8372
8373
8375
8376
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Stutsgo
No.
Geology
Class
No . of
Points
Geom.
Mean
Radium
(pCVg)
Geom.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
60%
75%
90%
05%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
115
114
102
103
100
124
129
107
133
129
102
100
133
107
107
120
106
107
99
114
114
107
99
104
129
106
103
103
106
107
100
104
103
107
106
103
106
107
129
120
100
218
104
106
129
To2
Qbdal
water
QTu1
Th2
Quel
Qui
Qbd1
Tc1b
Th2
water
Qbd1
Quel
Qui
Qbd1
Ts2
Th2
Qui
Qt>d1
Qh1
Qa1
Qbdl
Qbd1
QTu1
Th2
Qui
Qui
Th2
Qsu1
Tc1b
Tc1b
Quel
To2
Quel
Qui
To2
To2
Qui
Qd1
Qui
Qui
Qr1
Quel
Th2
Th1
21
158
5995
66
40
89
108
25
1 8
30
5995
113
35
116
1 8
52
97
59
33
3834
31
46
20
58
1 7
780
102
135
59
30
26
21
4707
296
53471
180
7
53471
2879
53471
52
230
8066
22
5302
0.184
0.239
0.069
0.280
0.181
0.179
0.163
0.082
0.090
0.277
0.069
0.099
0.141
0.089
0.113
0.562
0.184
0.126
0.056
0.171
0.443
0.119
0.043
0.378
0.347
0.152
0.167
0.192
0.145
0.229
0.134
0.127
0.350
0.097
0.155
0.293
0.189
0.155
0.148
0.155
0.133
0.347
0.126
0.171
0.319
3.193
2.8 81
3.708
1.707
2.773
2.376
3.015
3.010
4.295
2.769
3.708
3.092
2.899
3.871
3.180
1.690
2.468
3.402
3.370
3.644
1.845
3.022
3.204
1.678
2.177
3.020
2.977
2.732
2.607
2.189
3.117
2.800
3.008
2.972
3.814
2.239
1.779
3.814
3.736
3.814
3,335
6.343
3.768
2.551
2.745
0.125
0.348
0.195
0.269
0.304
0.188
0.222
0.042
0.046
0.491
0.196
0.137
0.049
0.043
0.044
0.931
0.243
0.045
0.000
0.298
0.535
0.044
0.000
0.319
0.529
0.168
0.177
0.219
0.159
0.051
0.177
0.123
0.438
0.043
0.184
0.318
0.233
0.047
0.211
0.281
0.176
0.139
0.132
0.233
0.385
0.215
0.548
0.268
0.362
0.449
0.286
0.350
0.04B
0.061
0.702
0.271
0.232
0.065
0.052
0.053
1.167
0.351
0.056
0.000
0.474
0.712
0.053
0.000
0.432
0.735
0.294
0.335
0.366
0.252
0.064
0.299
0.204
0.785
0.050
0.366
0.487
0.305
0.064
0.376
0.457
0.305
0.378
0.254
0.345
0.617
0.389
0.848
0.382
0.475
0.697
0.439
0.582
0.061
0.096
1.042
0.389
0.379
0.096
0.071
0.072
1.445
0.526
0.079
0.000
0.832
0.952
0.071
0.000
0.565
0.985
0.509
0.577
0.595
0.403
0.088
0.521
0.351
1.411
0.063
0.708
0.730
0.396
0.100
0.701
0.789
0.546
1.091
0.508
0.518
1.022
0.617
1.192
0.511
0.549
0.926
0.569
0.793
0.074
0.149
1.443
0.527
0.523
0.129
0.097
0.095
1.616
0.680
0.111
0.000
1.233
1.107
0.091
0.000
0.663
1.285
0.730
0.818
0.836
0.529
0.111
0.727
0.480
2.034
0.079
1.181
0.961
0.474
0.149
1.077
1.188
0.862
2.088
0.776
0.668
1.426
0.9
1.6
0.8
0.8
1.3
0.8
1.1
0.2
0.3
2.0
0.8
0.8
0.3
0.2
0.2
2.2
1.0
0.2
0.1
1.7
1.5
0.2
0.1
1.0
1.8
1.0
1.2
1.2
0.8
0.2
1.0
0.7
2.7
0.2
1.6
1.3
0.7
0.3
1.5
1.6
1.2
2.8
1.1
1.0
2.0
T r n
-------
Polygon
No.
8377
8378
8382
8387
8391
8392
8393
8394
8396
8397
8401
8403
8405
8406
8411
8414
8415
8419
8420
8421
8426
8427
8430
8436
8438
8439
8440
8442
8446
8449
8452
8455
8457
8458
8463
8464
8468
84 70
8471
8477
8481
8482
8485
8486
8487
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Statsgo Geology No. of
No. Class Points
Geom.
Mean
Radium
(pCi/g)
Geom.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
60%
76%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
115
215
195
107
21 5
105
217
103
127
106
105
102
99
100
129
107
115
103
218
106
102
11 5
114
106
129
21 5
122
217
107
130
115
129
115
129
115
129
107
107
103
106
99
107
105
1 99
106
To2
Qbd1
Qr1
Qbdl
Qr1
Qui
Qsu1
Quel
Th2
Th1
Qui
water
water
Qui
Qui
Quel
To2
Quel
Qsu1
Th2
Qbdal
Quel
Qa1
Qa1
Ts2
Qsu1
Th2
Qbd1
Qui
Qui
Qui
Th2
ThI1
Ts2
Ts2
Qui
Qbd1
Qbd1
Th»1
Qui
water
Quel
Qui
Qbdal
Th1
83
39
6113
10491
45
91
106
8066
2054
1 5
51
5995
193
26
68
8066
4707
8066
9
36
7
8066
122
538
223
75
3
4	1
28
1 1
62
6
161
25
138
164
31
21
31
9
33
21
53471
158
15
0.242
0.190
0.141
0.106
0.206
0.157
0.352
0.126
0.352
0,178
0.191
0.069
0.036
0.211
0.119
0.126
0.350
0.126
0.401
0.173
0.226
0.126
0.106
0.166
0.420
0.225
0.309
0.177
0.196
0.095
0.178
0.621
0.171
0.483
0.248
0.210
0.048
0.222
0.225
0.198
0.047
0.080
0.155
0.239
0.117
2.619
2.481
4.041
3.846
3.087
3.092
2.168
3.768
2.538
2.573
3.315
3.708
2.828
2.669
3.363
3.768
3,008
3.768
1.911
2.513
1.854
3.768
3.514
4.178
2.652
2.501
2.153
2.988
3.137
3.370
2.512
2.121
2.880
2.889
2.503
2.610
3.233
2.382
2.145
2.289
3.221
3.707
3.814
2.881
3.048
0,147
0.156
0.000
0.044
0.182
0.125
0.359
0.144
0.126
0.189
0.158
0.198
0.000
0.249
0.187
0.046
0.223
0,151
0.106
0.231
0.297
0.095
0,229
0.205
0.657
0.184
0.307
0.188
0.050
0.080
0.111
0.861
0.111
0,749
0.149
0.249
0.040
0.051
0.227
0.207
0.000
0.043
0.134
0.093
0.137
0.248
0.250
0.000
0.054
0.331
0 228
0.552
0.285
0.169
0.309
0.292
0.269
0.000
0.406
0.289
0.059
0,431
0.293
0.163
0.342
0.391
0.175
0,334
0.415
0,995
0.298
0.484
0.333
0.068
0,128
0.177
1.266
0.188
1.231
0.242
0.400
0.044
0.064
0.341
0.310
0.000
0.049
0.265
0.145
0.232
0.406
0.388
0.000
0.078
0.598
0.401
0.845
0.609
0.234
0.492
0.567
0.391
0.000
0.672
0.486
0.087
0.773
0.591
0.254
0.512
0.504
0.318
0.513
0.892
1.555
0.488
0.808
0.606
0.101
0,226
0.291
1.839
0.314
2.061
0.392
0.602
0.052
0.089
0.518
0.491
0.000
0.067
0.516
0.230
0.419
0.562
0.542
0.000
0.111
0.849
0.596
1.072
0.948
0.300
0.685
0.830
0.499
0.000
0.955
0.695
0.123
1.119
0.924
0.360
0.655
0.590
0.521
0.721
1.449
2.009
0.663
1.157
0.884
0.145
0.324
0.367
2.601
0.453
2.965
0.537
0.831
0.060
0.118
0.645
0.635
0.000
0.085
0.868
0.327
0.565
0.8
0.8
0.1
0.2
1.2
0.9
1.5
1.3
0.5
1.0
1.2
0.7
0.1
1.3
1.0
0.3
1.6
1.3
0.6
1.0
0.9
0.8
1.0
2.0
2.7
1.0
1.6
1.2
0.3
0.5
0.6
3.5
0.7
4.0
0.8
1.2
0.2
0.3
0.9
0.9
0.1
0.2
1.2
0.5
0.8
-------
Polygon
No.
84B8
8489
8492
8493
8495
8496
8497
8499
8501
8502
8503
8505
8506
8508
8510
8512
8513
8515
8527
8530
8531
8532
8535
8538
8541
8544
8545
8546
8551
8552
8553
8555
8556
8557
8558
8562
8564
8565
8568
8571
8573
8575
8580
8584
8587
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Stats go Geology
No. Class
No. of
Points
Geom.
Mean
Radium
(pCi/g)
Geom.
SD-
Radium
Radon Potential (rnCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
103
129
103
103
107
103
101
129
115
106
115
100
103
129
195
103
215
106
21 5
106
107
106
120
106
103
99
113
107
115
105
129
99
103
107
100
120
104
115
100
215
103
115
101
103
103
Qui
Thtl
Quel
Ta2
Qbd1
Qui
Qui
Qui
Qui
Qsu1
Qui
Qui
Thpb4
Qui
Qr1
Ts2
Qat
Qui
Qsul
Qbdal
Qui
Qui
QTd1
Ts2
Qui
Qbd1
Quel
Quel
Qui
Qui
Qui
Qui
Th2
Qbd1
Qui
Quel
Qui
Ts2
Qui
Qbdl
Qui
Qui
Qui
Qui
Qui
53471
235
8066
65
10491
66
53471
24
53471
27879
53471
1 9
740
53471
6113
106
47
91
132
158
138
53471
1 55
5077
53471
10491
1 1
44
53471
53471
25
53471
2054
10491
53471
37
53471
5077
53471
10491
53471
47
53471
70
1 3
0.155
0.193
0.126
0.147
0.106
0.133
0.155
0.501
0.155
0.085
0.155
0.266
0.324
0.155
0.141
0.288
0.148
0.130
0.188
0.239
0.054
0.155
0.120
0.352
0.155
0.106
0.503
0.072
0.155
0.155
0.311
0.155
0.352
0.106
0.155
0.181
0.155
0.352
0.155
0.106
0 155
0.293
0.155
0.167
0.110
3.814
2.713
3.768
2.819
3.846
2.951
3.814
2.179
3.814
3.726
3.814
2.198
3.320
3.814
4.041
2.070
3.083
3.055
2.611
2.881
3.046
3.814
3.560
2.652
3.814
3.846
1.918
3.181
3.814
3.814
1.832
3.814
2.538
3.846
3.814
1.828
3.814
2.652
3.814
3.846
3.814
2.229
3.814
2.770
2.126
0.184
0.243
0.142
0.172
0.044
0.146
0.264
0.570
0.112
0.113
0.110
0.297
0.507
0.222
0.000
0.305
0.134
0.150
0.160
0.271
0.040
0.184
0.247
0.438
0.185
0.000
0.626
0.042
0.108
0.133
0.337
0.000
0.408
0.044
0.209
0.272
0.159
0.217
0.207
0.104
0.177
0.169
0.257
0.180
0.115
0.364
0.379
0.292
0.297
0.055
0.253
0.433
0.881
0.206
0.198
0.208
0.448
0.936
0.393
0.000
0.456
0.236
0.251
0.255
0.457
0.045
0.361
0.365
0.716
0.382
0.000
0.835
0.047
0.213
0.267
0.456
0.000
0.669
0.054
0.405
0.344
0.316
0.373
0.406
0.198
0.372
0.267
0.434
0.305
0.169
0.759
0.585
0.581
0.476
0.078
0.450
0.814
1.267
0.404
0.371
0.417
0.682
1.609
0.749
0.000
0.656
0.399
0.431
0.411
0.781
0.052
0.728
0.582
1.155
0.754
0.000
1.136
0.058
0.409
0.524
0.605
0.000
1.099
0.080
0.804
0.433
0.648
0.613
0.796
0.387
0.764
0.406
0.783
0.500
0.244
1.206
0.805
0.928
0.653
0.111
0.629
1.181
1.648
0.655
0.551
0.641
0.873
2.339
1.169
0.000
0.830
0.576
0.627
0.561
1.127
0.060
1.133
0.835
1.562
1.187
0.000
1.440
0.072
0.648
0.839
0.698
0.000
1.458
0.110
1.245
0.497
1.044
0.869
1.229
0.621
1.217
0.558
1.218
0.723
0.318
1.7
1.1
1.3
0.9
0.2
0.9
1.6
2.2
1.0
0.8
0.9
1.2
3.1
1.6
0.1
1.2
0.8
0.9
0.8
1.6
0.2
1.6
1.2
2.1
1.6
0.1
2.0
0.2
0.9
1.2
1.0
0.1
2.0
0.2
1.7
0.7
1.5
1.2
1.7
0.9
1.7
0.8
1.7
1.0
0.5
-------
Polygon
No.
6589
8595
8596
8597
8600
8604
8607
8610
8613
8616
8617
8619
8623
8631
8633
8636
8637
8646
8647
8650
8654
8659
8660
8665
8667
8668
8674
8677
8680
8683
8685
8687
8688
8689
8690
8691
8692
6709
8714
8719
8722
B726
8727
8728
8732
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Statsgo Geology No. of
No. Class Points
Geom.
Mean
Radium
(pCi^g)
Geom.
S.C5.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
129
218
129
215
103
100
115
103
I	99
106
103
124
103
105
120
120
120
215
107
215
113
101
101
113
106
107
195
120
110
103
103
107
107
103
107
105
105
120
106
120
99
II	5
196
113
99
Qui
Qsu1
Ts2
Qr1
Ts2
Qbd1
Qui
Quel
water
Qsu1
Quel
Qui
Qui
Qui
Qui
Quel
Tc3
Qbdl
Qbd1
Qa1
Tc3
Qui
Qui
Quel
Qui
Qui
Qr1
That2
Ts2
Ts2
Tc3
Qui
Qui
Thpb4
Qui
Qui
Qui
Quel
Qui
Quel
Qui
Qui
Quel
Quel
Qui
53471
27879
5077
49
5077
10491
12
6
174
27879
8066
53471
53471
53471
33
4-.
211
1	5
10491
6626
259
53471
41
8066
43
53471
4
266
2
5077
867
53471
166
1 4
53471
82
43
390
291 5
86
53471
284
8066
1 7
30
0.155
0.085
0.352
0.129
0.352
0.106
0.062
0.195
0.122
0.085
0.126
0.155
0.155
0.155
0.211
0.704
0.184
0.095
0.106
0.126
0.428
0.155
0.080
0.126
0.120
0.155
0.083
0.257
0.425
0.352
0.188
0.155
0.182
0.633
0.155
0.082
0.119
0.157
0.101
0.172
0.155
0.118
0.126
1.160
0.086
3.814
3.726
2.652
3.501
2.652
3.846
2.495
1.996
3.419
3.726
3.768
3.814
3.814
3.814
3.104
1.323
2.572
3.1B4
3.846
4.240
2.544
3.814
3.414
3.768
2.897
3.814
2.983
2.646
1.633
2.652
3.378
3.814
2.968
1.658
3.814
3.147
2.878
3.470
3.310
2.785
3.814
3.043
3.768
3.220
3.502
0.222
0.049
0.569
0.121
0.415
0.152
0.060
0.192
0.075
0.113
0.148
0.185
0.184
0.136
0.319
0.798
1.338
0.094
0.044
0.128
1.820
0.259
0.180
0.264
0.140
0.047
0.000
0.648
0.665
0.415
0.268
0.047
0.049
0.794
0.047
0.079
0.101
0.285
0.121
0.2B6
0.000
0.086
0.000
1.898
0.000
0.394
0.070
0.842
0.220
0.719
0.277
0.081
0.282
0.109
0.199
0.289
0.358
0.364
0.259
0.518
0.958
1.735
0.160
0.054
0.255
2.304
0.451
0.267
0.403
0.227
0.064
0.000
0.882
0.863
0.730
0.470
0.064
0.064
1.078
0.064
0.126
0.165
0.437
0.211
0.414
0.000
0.138
0.000
3.985
0.000
0.746
0.115
1.250
0.429
1.131
0.521
0.115
0.428
0.166
0.376
0.580
0.737
0.740
0.534
0.B29
1.110
2.205
0.276
0.076
0.524
2.826
0.787
0.390
0.651
0.382
0.102
0.000
1.176
1.103
1.141
0.843
0.103
0.091
1.372
0.102
0.214
0.285
0.708
0.385
0.592
0.000
0.231
0.000
8.275
0.000
1.107
0.163
1.633
0.647
1.531
0.839
0.148
0.543
0.221
0.556
0.929
1.098
1.209
0.840
1.207
1.248
2.511
0.410
0.112
0.883
3.204
1.203
0.507
0.962
0.527
0.145
0.000
1.447
1.397
1.552
1.225
0.152
0.126
1.629
0.147
0.310
0.378
1.027
0.537
0.779
0.000
0.315
0.000
14.067
0.000
1.5
0.3
2.2
0.9
2.1
1.2
0.3
0.8
0.4
0.8
1.3
1.5
1.7
1.2
1.7
1.7
3.4
0.6
0.2
1.2
4.3
1.7
0.8
1.4
0.8
0.3
0.1
2.0
1.9
2.1
1.7
0.3
0.3
2.2
0.3
0.5
0.6
1.4
0.8
1.1
0.1
0.5
0.1
18.4
0.1
.T.*Q
-------
Polygon
No.
8739
8740
8748
8749
8750
8760
8761
8762
B766
8775
8776
8779
8784
8801
8803
8804
8813
8820
8823
8832
8833
8835
8848
8852
8857
8860
8861
8865
8867
8871
8874
8875
8880
8881
8882
8885
8887
8889
8895
8901
8904
8910
8911
8915
8917
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Statsgo Geology
No. Class
No. of
Points
Geom.
Mean
Radium
(pCi/g)
Geom.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
CpCi/L)
110
120
103
115
103
215
198
115
218
107
129
106
103
103
133
120
129
99
218
101
107
106
103
107
103
99
105
99
107
198
106
112
120
100
113
129
103
115
103
129
107
120
120
106
120
Thpb5
Qui
Ts2
Thpb4
That2
Qrl
Tc3
Thal2
Qbd1
QTdl
Qd1
Qsul
Qui
Qu2
Quel
QTd1
Th2
Th2
Qsu1
QTd1
Qr1
Tc3
Qui
Qui
Thpb4
water
Qui
water
That2
Quel
Th2
Qui
Qui
QTd1
Thpb4
Qui
Qui
Qui
Tc3
Th2
Qui
Qui
Th2
Qr1
Quel
233
53471
115
131
20
30
19
66
154
28
1 7
362
34
72
18
27.
9
5
25
939
6113
867
53471
53471
19
5995
53471
5995
286
8066
74
53471
53471
939
3895
53471
53471
53471
867
2054
73
53471
2054
13
8066
4.353
0.155
0.129
0.460
0.170
0.258
0.038
0.315
0.095
0.125
0.441
0.235
0.189
0.397
0.091
0.129
0.595
0.222
0.167
0.226
0.141
0.188
0.155
0.155
0.529
0,069
0.155
0.069
0.257
0.126
0.262
0.155
0.155
0.226
0.195
0.155
0.155
0.155
0.188
0.352
0.095
0.155
0.352
0.389
0.126
2.208
3.814
2.731
1.870
2.337
2.251
2.366
2.344
3.074
2.955
2.261
4.030
2.212
2.076
2.978
2.868
2.338
1.551
2.902
5.057
4.041
3.378
3.814
3.814
1.730
3.708
3.814
3.708
2.646
3.768
2.196
3.814
3.814
5.057
4.508
3.814
3.814
3.814
3.378
2.538
3.169
3.814
2.538
1.351
3.768
10.518
0.289
0.154
0.270
0.192
0.206
0.000
0.185
0.050
0.045
0.491
0.288
0.190
0.445
0.046
0.250
0.847
0.000
0.063
0.364
0.046
0.388
0.181
0.048
0.671
0.000
0.130
0.000
0.055
0.000
0.338
0.201
0.282
0.328
3.043
0.222
0.177
0.113
0.270
0.559
0.043
0.278
0.748
0.369
0.253
15.493
0.467
0.255
0.389
0.288
0.324
0.000
0.306
0.068
0.054
0.781
0,607
0.290
0.648
0.055
0.342
1.352
0.000
0.093
0.793
0.063
0.588
0.370
0.065
0.896
0.000
0.265
0.000
0.075
0.000
0.489
0.369
0.452
0.809
3.851
0.395
0.373
0.216
0.459
0.819
0.051
0.455
1.015
0.431
0.391
23.643
0.7B9
0.406
0.545
0.437
0.490
0.000
0.471
0.103
0.072
1.174
1.308
0.439
0.927
0.074
0.491
2.016
0.000
0.159
1.815
0.099
0.928
0.743
0.103
1.189
0.000
0.535
0.000
0.107
0.000
0.697
0.762
0.804
2.033
4.898
0.747
0.758
0.425
0.828
1.184
0.067
0.804
1.396
0.500
0.640
31.424
1.148
0.538
0.687
0.588
0.628
0.000
0.655
0.140
0.093
1.514
2.200
0.560
1.178
0.095
0.622
2.743
0.000
0.231
3.311
0.150
1.278
1.153
0.146
1.366
0.000
0.846
0.000
0.148
0.000
0.874
1.156
1.166
3.458
5.741
1.131
1.191
0.649
1.239
1.501
0.081
1.219
1.750
0.557
0.950
41.0
1.6
0.8
1.0
0.9
0.9
0.1
1.0
0.3
0.2
2.1
3.0
0.8
1.6
0.2
0.9
3.7
0.1
0.4
4.4
0.3
1.8
1.6
0.3
1.9
0.1
1.2
0.1
0.3
0.1
1.2
1.6
1.6
4.6
7.6
1.6
1.6
0.9
1.7
2.1
0.2
1.7
2.4
0.8
1.3
-------
Polygon
No.
8918
8920
8923
8936
8941
8945
8946
8951
8959
8961
8962
8968
B971
8974
8975
8976
8981
8984
8993
8995
8998
9000
9001
9002
9003
9004
9007
9012
9013
9019
9023
9027
9028
9030
9033
9035
9040
9041
9045
9046
9048
9054
9056
9057
9058
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Slatsgo
No.
Geology
Class
No. of
Points
Geom.
Mean
Radium
CpCi/g)
Geom.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref. House
Indoor Radnn
at 95% C.L.
(pCi/L)
103
Qui
98
0.120
2.911
120
Qu2
181
0.350
2.442
99
Thpb4
3895
0.195
4.508
106
Tc3
867
0.188
3.378
107
Thpb4
3895
0.195
4.508
106
Thpb4
80
0.824
2.499
106
Qsu1
9
0.080
2.745
198
Quel
8066
0.126
3.768
107
Quel
6
0.332
1.697
198
Quel
8066
0.126
3.768
130
Tha!2
286
0.257
2.646
115
Thpb4
88
0.973
2.205
104
Qui
53471
0.155
3.814
100
Qui
72
0.170
3.614
104
Qui
85
0.124
2.914
106
Qui
53471
0.155
3.814
107
Qsu1
1 9
0.139
3.244
103
Tc3
13
0.707
1.389
215
Qr1
89
0.391
7.827
99
Qui
61
0.044
2.993
103
Quel
61
0.456
3.020
103
Thpb4
23
0.317
2.374
101
QTdl
48
0.216
2.411
106
Quel
9
0.275
3.083
100
Qbd1
123
0.156
3.653
120
That2
33
0.141
3.775
103
Qsu1
99
0.48C
4.234
101
Qh1
3834
0.171
3.644
123
Quel
53
0.209
2.427
101
Thpb4
34
0.204
2.691
103
Qui
41
0.112
2.939
124
Quel
58
0.148
2.746
100
Qui
179
0.235
3.125
215
Qr1
67
0.668
3.722
103
Qbd1
9
0.210
2.345
133
Quel
33
0.082
3.451
129
Thpb4
43
0.777
2.595
124
Th2
2054
0.352
2.538
112
Qui
53471
0.155
3.814
107
Qbd1
4
0.086
3.112
106
Qr1
7
0.052
2.941
130
That2
1
0.017
4.000
120
Quel
1 9
0.132
2.176
103
Thpb4
66
1.006
12.905
120
Quel
69
0.090
3.152
0 133
0.739
0.000
0.388
0.054
1.564
0.101
0.000
0.058
0.000
0.164
0.718
0.158
0.222
0.123
0.184
0.046
0.826
0.559
0.000
0.559
0.438
0.294
0.310
0.206
0.560
0.723
0.273
0.210
1.800
0.126
0.166
0.288
0.793
0.214
0.045
2.152
0.439
0.200
0.042
0.082
0.046
0.239
3.532
0.215
0.222
1 004
0.000
0.575
0.081
2.387
0.159
0.000
0.073
0.000
0.275
1.169
0.314
0.422
0.206
0,370
0.058
0.995
1.949
0.000
1.136
0.689
0.436
0.564
0.417
0.752
1.700
0.468
0.331
2.489
0.214
0.266
0.533
1.778
0.345
0.055
3.094
0.680
0.381
0.049
0.119
0.055
0.308
18.649
0.298
0.392
1.393
0.000
0.938
0.144
3.633
0.254
0.000
0.102
0.000
0.436
1.818
0.649
0.807
0.346
0.722
0.084
1.186
6.831
0.000
2.053
1.025
0.628
1.124
0.750
1.086
4.016
0.832
0.531
3.186
0.367
0.435
0.937
3.639
0.563
0.077
4.439
1.069
0.742
0.063
0.185
0.083
0.402
100.54
0.418
0.538
0.8
1.652
2.2
0.000
0.1
1.325
1.8
0.241
0.4
4.842
6.4
0.352
0.6
0.000
0.1
0.125
0.3
0.000
0.1
0.621
0.9
2.548
3.4
1.010
1.4
1.305
1.8
0.482
0.7
1.113
1.5
0.112
0.2
1.335
1.8
15.871
20.7
0.000
0.1
2.973
4.0
1.364
1.9
0.780
1.1
1.785
2.4
1.141
1.6
1.410
1.9
6.426
8.5
1.259
1.7
0.718
1.0
3.797
5.0
0.496
0.7
0.601
0.9
1.335
1.8
6.078
8.0
0.749
1.1
0.099
0.2
5.290
7.0
1.428
2.0
1.145
1.6
0.078
0.2
0.267
0.4
0.119
0.3
0.476
0.7
338.75
440.5
0.531
0.8
-------
Polygon
Ho.
9060
9062
9068
9069
9073
9074
9075
9077
9080
9089
9090
9091
9096
9097
9098
9100
9105
9113
9114
9115
9116
9118
9119
9121
9122
9126
9132
9137
9141
9142
9146
9147
9149
9150
9151
9152
9155
9159
9160
9161
9164
9167
9169
9176
9177
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Geom.	Ref. House
Mean	Geom.	Radon Potential (mCi/yr)	Indoor Radon
StaUgo Geology No. of Radium	S.D.	at Specified Confidence Limit	 at 95% C.L.
No. Class Points (pCi/g)	Radium	50% 75% 90% 95%	(pCi/L)
120
Th2
215
Qsu1
124
QTd1
103
Qui
107
Qui
112
Qui
104
Qui
112
That2
112
Thpb4
120
Thpb4
104
Qa1
110
Thpb5
198
water
120
Qu2
105
Qui
110
Thpb5
106
That2
129
Qu2
103
Qui
120
Tc3
124
Qui
133
Quel
120
QTd1
107
Thpb4
113
Thpb4
110
Thpb5
129
That2
129
Qu2
102
Qa1
106
Tc3
106
Qui
99
Thpb4
124
Thpb4
99
water
106
Quel
101
Thpb4
124
Th2
198
Tc3
21 5
Qsu1
120
That2
106
Qsul
103
Qui
124
Th2
103
Qui
110
Thpb5
2054
0.352
43
0.469
939
0.226
88
0.159
30
0.388
53471
0.155
53471
0.155
80
0.237
1 5
0.041
1 3
0.360
6626
0.126
1235
0.215
48
0.320
31
0.450
17
0.066
1235
0.215
286
0.257
2029
0.524
79
0.210
1 7
0.208
53471
0.155
25
0.124
50
0.662
7
0.152
188
0.079
1 1
0.218
1 4
0.272
1 2
0.150
6626
0.126
5
0.086
92
0.127
51
0.072
305
0.171
373
0.119
782
0.135
59
0.151
2054
0.352
27
0.120
112
0.454
21
0.477
76
0.135
25
0.148
8
0.357
50
0.240
102
0.084
2.538	0.765
4.529	0.514
5.057	0.293
2.801	0.169
2.434	0.064
3.814	0.198
3.814	0.160
2.652	0.336
2.822	0.732
1.578	2.645
4.240	0.140
6.458	3.788
2.419	0.000
2.109	0.830
3.653	0.071
6.458	3.744
2.646	0.324
2.265	0.755
2.736	0.221
2.319	1.349
3.814	0.183
3.172	0.048
2.158	0.838
1.636	0.048
3.284	2.765
1.762	3.344
3.038	0.490
4.119	0.380
4.240	0.255
3.202	0.278
3.232	0.147
2.974	0.000
2.940	0.766
3.419	0.000
5.<>33	0.181
2.954	1.732
2.538	0.450
3.007	0.000
4.582	0.509
1.501	0.815
3.566	0.162
3.090	0.162
1.926	0.416
1.997	0.234
3.377	3.300
1.036	1.360
1.360	3.309
0.729	1.775
0.292	0.485
0.093	0.144
0.370	0.760
0.320	0.638
0.517	0.783
0.947	1.185
3.453	4.345
0.281	0.599
5.443	7.795
0.000	0.000
1.117	1.457
0.117	0.214
5.417	7.736
0.515	0.792
1.094	1.587
0,388	0.656
1.742	2.201
0.367	0.710
0.062	0.095
1.253	1.850
0.054	0.065
3.440	4.195
4.646	6.234
0.754	1.193
0.581	0.940
0.406	0.715
0.371	0.530
0.260	0.457
0.000	0.000
1.054	1.387
0.000	0.000
0.446	1.123
2.389	3.200
0.698	1.077
0.000	0.000
1.302	3.165
0.980	1.159
0.294	0.578
0.304	0.535
0.575	0.791
0.343	0.497
4.554	6.164
1.668
2.3
5.858
7.7
3.022
4.0
0.704
1.0
0.206
0.4
1.178
1.6
0.986
1.4
1.073
1.5
1.337
1.8
4.952
6.5
0.961
1.3
9.975
13.1
0.000
0.1
1.760
2.4
0.324
0.5
10.030
13.1
1.053
1.5
1.993
2.7
0.933
1.3
2.456
3.3
1.056
1.5
0.130
0.3
2.352
3.2
0.074
0.2
4.786
6.3
7.426
9.8
1.604
2.2
1.465
2.0
1.077
1.5
0.656
1.0
0.669
1.0
0.000
0.1
1.677
2.3
0.000
0.1
2.081
2.8
3.802
5.0
1.409
1.9
0.000
0.1
5.397
7.1
1.293
1.8
0.885
1.3
0.808
1.2
0.993
1.4
0.607
0.9
7.381
9.7
-------
No.
9181
9103
9184
9187
9188
9191
9192
9195
9198
9202
9209
9214
9218
9221
9225
9229
9242
9250
9253
9254
9257
9258
9260
9261
9266
9273
9278
9282
9283
9288
9293
9297
9299
9300
9304
9307
9311
9317
9318
9321
9322
9323
9327
9328
9329
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Statago Geology No. of
No. Class Points
Geom.
Mean
Radium
(pCi/g)
Geom.
S.D.
Radium
Radon Potential (mCifyr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
124
216
105
112
135
120
100
113
110
106
107
106
107
103
115
107
110
100
120
105
99
120
103
101
106
107
106
115
120
106
106
199
101
120
110
101
101
112
106
215
106
107
109
103
106
Qui
on
Qui
Qu2
Thpb5
Quel
Quel
Thpb4
Tc3
Qu2
water
That2
Qui
Quel
Qui
Quel
Thpb5
Quel
Th2
Qui
Qui
Qui
Tha?2
Qh1
Qui
Quel
Qsu1
Thpb4
Thpb4
Qui
Qui
Qu2
Thpb4
Thpr2
Te3
Quel
Quel
Qu2
Thpr2
Qsu1
Quel
Qui
Qsu1
Qui
Th2
53471
1072
9
2029
73
61
2
5
1 2
57
42
38
53471
8066
166
8066
749
8066
2054
147
53471
53471
286
3834
53471
8066
82
171
57
53471
53471
2029
3895
38
167
8066
I	5
2029
135
10
II
54
27879
53471
2054
0.155
0.081
0.160
0.524
0.190
0.156
1.226
0.118
0.327
0.249
0.050
0.297
0.155
0.126
0.124
0.126
0.096
0.126
0.352
0.163
0.155
0.155
0.257
0.171
0.155
0.126
0.324
0.069
0.218
0.155
0.155
0.524
0.195
0.648
0.079
0.126
0.109
0.524
0.605
0.092
0.324
0.083
0.085
0.155
0.352
3.814
3.177
3.285
2.265
2.747
2.757
1.332
3.079
1.703
2.390
2.833
1.980
3.814
3.768
3.519
3.768
3.451
3.768
2.538
2.775
3.814
3.814
2.646
3.644
3.814
3.768
2.069
2.983
2.477
3.814
3.814
2.265
4.508
1,869
3.353
3.768
2.150
2.265
2.427
3.112
1.639
3.829
3.726
3.814
2.538
0.181
0.045
0.132
0.671
1.902
0.271
1.712
2.797
1.113
0.316
0.040
0.349
0.048
0.149
0.091
0.046
3.324
0.171
0.753
0.125
0.000
0.285
0.298
0.274
0.183
0.045
0.328
0.065
2.545
0.181
0.184
0.188
1.939
1.074
0.930
0.229
0.192
0.685
0.783
0.093
0.311
0.043
0.172
0.184
0.439
0.355
0.056
0.238
1.046
3.137
0.376
2.041
3.495
1.450
0.463
0.044
0.471
0.065
0.290
0.163
0.058
4.580
0.320
1.016
0.214
0.000
0.448
0.480
0.462
0.373
0.058
0.464
0.094
3.373
0.368
0.355
0.311
2.692
1.397
1.267
0.370
0.253
1.054
1.230
0.151
0.408
0.050
0.295
0.371
0.681
0.721
0.077
0.476
1.498
5.002
0.560
2.448
4.352
1.879
0.668
0.051
0.654
0.103
0.583
0.296
0.085
6.188
0.608
1.430
0.376
0.000
0.814
0.800
0.828
0.739
0.087
0.693
0.145
4.334
0.739
0.712
0.487
3.768
1.760
1.671
0.643
0.339
1.528
2.031
0.268
0.523
0.068
0.488
0.762
1.060
1.152
0.099
0.784
2.044
6.594
0.728
2.796
4.885
2.186
0.871
0.058
0.786
0.147
0.944
0.455
0.123
7.456
0.956
1.792
0.518
0.000
1.199
1.105
1.249
1.177
0.124
0.891
0.194
4.957
1.159
1.112
0.630
4.681
2.041
1.981
0.971
0.407
1.936
2.709
0.385
0.624
0.090
0.676
1.198
1.367
1.6
0.2
1.1
2.8
8.7
1.0
3.7
6.5
2.9
1.2
0.2
1.1
0.3
1.3
0.7
0.3
9.8
1.3
2.4
0.8
0.1
1.7
1.5
1.7
1.6
0.3
1.3
0.4
6.5
1.6
1.5
0.9
6.2
2.8
2.7
1.4
0.6
2.6
3.6
0.6
0.9
0.2
1.0
1.7
1.9
T rt
-------
Polygon
No
9332
9335
9338
9343
9347
9340
9349
9350
9353
9354
9355
9356
9357
9360
9365
9366
9368
9372
9373
9377
9380
9362
9386
93B9
9390
9397
9398
9402
9405
9407
9408
9412
9416
9417
9419
9423
9424
9434
9438
9441
9443
9444
9448
9449
9456
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Statsgo Geology No. of
No. Class Points
Geom.
Mean
Radium
(pCi/g)
Geom.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
106
Qui
64
0.180
3.159
0.196
106
Qui
1 4
0.140
3.403
0.165
113
Thpb4
27
0.156
2.750
2.838
107
Quel
47
1.310
1.868
0.174
99
Qui
11
0.178
1.992
0.000
106
Qui
34
0.081
3.106
0.105
106
Quel
23
0.295
2.089
0.298
104
Qa1
134
0.114
3.054
0.116
101
Quel
25
0.251
2.510
0.335
103
Qa1
339
0.270
4.474
0.352
112
Qsul
1
0.133
4.000
0.177
11 5
Quel
40
0.163
3.632
0.115
99
Qui
34
0.174
3.082
0.000
129
Thpb4
43
0.550
2.197
1.702
104
Qsu1
59
0.264
2.379
0.244
111
Qsu1
27879
0.085
3.726
0.071
104
Qui
53471
0.155
3.814
0.159
106
Qsu1
21
0.344
2.039
0.342
124
Qui
53471
0.155
3.814
0.181
101
Thpb4
33
0.977
1.366
2.702
106
Qr1
5
0.080
3.540
0.106
106
Qui
53471
0.155
3.814
0.192
99
Qui
34
0.237
1.695
0.000
113
Thpb4
55
0.113
3.107
2.797
106
Qui
10
0.166
2.712
0.175
113
Quel
38
0.667
1.776
0.827
124
Thpb4
76
0.249
3.310
0.878
129
That2
13
0.360
1.798
0.533
129
Thpr2
39
0.455
1.879
0.633
112
Thpr2
136
0.204
2.894
0.308
135
Thpb5
62
0.220
3.274
1.987
129
Thpb4
49
0.489
4.791
1.939
199
Th2
2054
0.352
2.538
0.150
120
Th2
2054
0.352
2.538
0.767
105
Qui
53471
0.155
3.814
0.135
113
Te3
35
0.189
2.485
1.517
130
Thpb4
23
0.543
1.727
0.321
103
Qui
53471
0.155
3.814
0.182
133
Quel
8066
0.126
3.768
0.049
106
Qui
53471
0.155
3.814
0.183
106
Th2
2054
0.352
2.538
0.435
103
Qui
1 3
0.951
1.366
1.161
129
Thpb4
3895
0.195
4.508
1.339
120
QTd1
91
2.028
2.648
4.030
130
Thpb4
51
0.166
2.472
0.111
0.367
0.300
3.536
0.295
0.000
0.170
0.441
0.198
0.498
0.828
0.353
0.211
0.000
2.240
0.374
0.096
0.311
0.514
0.371
3.365
0.185
0.371
0.000
3.488
0.305
1.086
1.269
0.675
0.847
0.472
3.367
3.189
0.242
1.046
0.259
1.861
0.459
0.381
0.068
0.361
0.682
1.397
1.951
7.229
0.167
0.655
0.564
4.298
0.478
0.000
0.285
0.637
0.343
0.766
1.945
0.817
0.408
0.000
2.974
0.589
0.144
0.633
0.741
0.699
4.219
0.364
0.731
0.000
4.243
0.510
1.409
1.753
0.859
1.121
0.774
5.153
5.657
0.381
1.353
0.538
2.237
0.634
0.744
0.107
0.733
1.070
1.634
2.791
14.229
0.262
0.975
0.919
4.878
0.648
0.000
0.403
0.801
0.475
0.980
3.349
1.723
0.653
0.000
3.383
0.813
0.200
1.027
0.939
1.098
4.888
0.568
1.114
0.000
4.834
0.715
1.644
2.229
0.993
1.293
1.042
6.877
9.338
0.554
1.707
0.845
2.521
0.784
1.205
0.167
1.134
1.450
1.857
3.624
20.786
0.341
1.4
1.3
6.4
0.9
0.1
0.6
1.1
0.7
1.4
4.5
2.3
0.9
0.1
4.5
1.2
0.4
1.4
1.3
1.5
6.5
0.8
1.5
0.1
6.4
1.0
2.2
3.0
1.4
1.8
1.5
9.0
12.2
0.8
2.3
1.2
3.4
1.1
1.7
0.3
1.6
2.0
2.5
4.8
27.1
0.5
T r* a
-------
Polygon
No.
9457
9458
9461
9466
9469
9470
9476
9477
9488
9493
9497
9499
9501
9502
9504
9506
9518
9522
9525
9531
9537
9540
9542
9549
9554
9559
9568
9572
9573
9578
9579
9580
9586
9597
9600
9604
9606
9607
9609
9612
9613
9614
9618
9620
9624
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Statggo Geology
No. Class
No. of
Points
Geom.
Mean
Radium
(pCi/g)
Geom.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
215
Qrt
126
0.076
3.364
0.084
129
Ou2
2029
0.524
2.265
0.775
101
Tc3
10
0 062
3.353
0.887
103
Qui
460
0.098
3.145
0.111
124
Th2
2054
0.352
2.538
0 441
120
QTd1
939
0.226
5.057
0.388
129
Qu2
2029
0.524
2.265
0.770
103
Qui
53471
0.155
3.814
0.173
111
Qal
1 2
0.130
3.353
0.079
106
Thpb4
173
1.220
2.818
2.446
106
Tc3
28
0.161
3.155
0.353
115
Qui
81
0.078
3.105
0.067
99
Qui
78
0.283
2.954
0.000
107
Qui
53471
0.155
3.814
0.047
133
QTd1
37
3.385
1.771
0.607
110
Qui
44
0.311
3.016
0.396
124
Qsu1
46
0.122
3.463
0.152
106
Qui
1717
0.178
4.812
0.229
129
Qu2
2029
0.524
2.265
0.764
114
Qal
50
0.332
4.361
0.519
1 24
Qui
53471
0.155
3.814
0.188
106
Thpr2
201
0.358
2.765
0.449
106
Qu2
2029
0.524
2.265
0.628
99
Quel
31
3.054
1.888
0.000
129
Qsu1
60
0.186
2.542
0.235
100
Qa1
50
0.123
3.777
0.170
215
Qsu1
4247
0.096
3.453
0.097
103
Qui
53471
0.155
3.814
0.180
106
Qu2
75
0.715
4.588
1.254
103
Qui
30
0.158
2.960
0.173
106
Thpb4
30
4.121
3.989
7.499
104
Thpb4
101
0.189
3.028
0.243
101
Quel
28
1.276
5.620
2.963
103
Thpb4
42
0.040
2.691
0.136
103
Qsu1
37
0.122
2.373
0.127
103
Qui
143
0.159
3.565
0.183
124
Qsu1
27879
0.085
3.726
0.116
100
Qa1
S3
0.095
3.148
0.136
103
Thpr2
73
0.209
2.727
0.238
101
Qui
34
0.217
2.889
0.311
110
Qh1
33
0.091
2.997
0.188
215
Qa1
637
0.058
3.182
0.069
106
Qui
21
0.274
1.750
0.265
106
Qu2
75
0.715
4.588
1.254
100
Quel
25
4.176
2.046
7.819
0.134
1.098
1.218
0.199
0.692
0.811
1.102
0.371
0.114
4.239
0.497
0.102
0.000
0.064
1.194
0.701
0.266
0.528
1.100
1.109
0.366
0.770
0.964
0.000
0,354
0.318
0.169
0.373
3.129
0.306
18.908
0.398
9.381
0.225
0.197
0.359
0.202
0.218
0.404
0.497
0.266
0.105
0.360
3.129
12.887
0.234
1.542
1.629
0.353
1.092
1.844
1.555
0.748
0.189
7.265
0.748
0.164
0.000
0.104
2.219
1.133
0.477
1.212
1.647
2.368
0.710
1.233
1.540
0.000
0.534
0.616
0.302
0.748
7.379
0.530
44.523
0.639
27.520
0.352
0.308
0.693
0.369
0.371
0.674
0.781
0.380
0.170
0.465
7.379
20.266
0.332
1.925
1.896
0.496
1.427
3.192
2.005
I.166
0.279
II.958
1.011
0.226
0.000
0.146
3.258
1.647
0.747
2.088
2.021
3.939
1.060
1.708
1.921
0.000
0.692
0.981
0.430
1.190
12.830
0.777
75.501
0.894
65.019
0.464
0.393
1.071
0.535
0.511
0.930
1.091
0.490
0.238
0.555
12.830
26.867
0.5
2.6
2.6
0.7
2.0
4.2
2.7
1.6
0.5
15.6
1.4
0.4
0.1
0.3
4.3
2.2
1.1
2.8
2.7
5.2
1.5
2.3
2.6
0.1
1.0
1.4
0.7
1.6
16.8
1.1
98.3
1.3
84.6
0.7
0.6
1.5
0.8
0.8
1.3
1.5
0.7
0.4
0.8
16.8
35.0
-------
Polygon
No.
9625
9626
9627
9629
9632
9637
9641
9642
9643
9644
9646
9648
9649
9651
9654
9659
9660
9662
9663
966B
9670
9671
9672
9673
9675
9678
9679
9680
9601
9685
9688
9692
9693
9694
9698
9699
9700
9702
9707
9708
9711
9712
9716
9717
9718
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
StaUgo Geology No. of
No. Class Point 8
Geom.
Mean
Radium
(pCi/g)
Geom.
SD-
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
&0%
75%
90%
65%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
103
101
102
133
106
105
99
107
120
110
107
100
100
129
103
107
100
100
112
113
106
100
103
100
129
110
106
102
108
103
100
107
106
124
113
113
115
108
106
129
106
100
195
110
105
Qui
Quel
Qa1
Quel
Qa1
Qbd1
Quel
Qui
QTd1
Thpb5
Thpb4
Thpb4
Qu2
Qui
Qbd1
Thpb4
Qbd1
Thpb4
Qsu2
Thpb4
Qui
Qui
Qsu2
Qbd1
Quel
Qui
Qui
Qh1
Qhl
Qa1
Qui
Qui
Thpb4
Qui
ThpM
Qu2
Qui
Qal
Qui
water
Qsu2
Thpb4
Qr1
Qh1
Qr1
86
1 0
28
41
43
32
17
31
3
5
3895
3
30
53471
10491
3895
16
3895
3040
3895
175
62
92
10491
52
53471
64
5
1 5
49
339
53471
3895
28
3895
23
38
18
113
15
57
20
57
16
1 1
0.154
0.190
0.204
0.355
0.402
0.194
1.105
2.791
2.780
0.510
0.195
0.182
0.125
0.155
0.106
0.195
0.394
0.195
0.090
0.195
0.281
0.571
0.175
0.106
0.287
0.155
1.123
0.164
0.248
0.089
0.282
0.155
0.195
0.169
0.195
0.139
0.073
0.381
0.139
0.225
0.180
2.351
0.113
0.216
0.136
2.664
4.169
2.058
13.292
2.472
4.042
2.332
4.121
1.110
1.582
4.508
1.743
2.701
3.814
3.846
4,508
1.837
4.508
3.229
4.508
3.203
1.603
2.474
3.846
5.384
3.814
3.738
2.231
2.531
3.120
3.413
3.814
4.508
3.247
4.508
2.519
3.134
1.666
3.007
3.319
2.738
1.816
3.138
2.530
2.145
0.165
0.305
0.284
0.118
0.439
0.166
0.000
0.362
4.695
3.614
0.054
0.811
0.238
0.222
0.127
0.055
0.431
0.971
0.202
3.013
0.325
0.650
0.199
0.152
0.442
0.250
1.993
0.257
0.263
0.102
0.366
0.048
0.730
0.194
3.023
0.576
0.067
0.332
0.158
0.286
0.249
5.149
0.000
0.286
0.106
0.268
0.585
0.376
0.491
0.742
0.358
0.000
1.053
5.272
4.990
0.082
1.072
0.356
0.407
0.248
0.083
0.595
1.465
0.292
3.832
0.610
0.834
0.312
0.275
1.053
0.417
4.739
0.347
0.423
0.178
0.711
0.064
1.104
0.342
3.891
0.704
0.098
0.477
0.272
0.520
0.373
7.395
0.000
0.424
0.153
0.454
1.177
0.501
2.318
1.180
0.735
0.000
2.863
5.896
6.528
0.146
1.448
0.493
0.782
0.487
0.150
0.818
2.286
0.408
4.953
1.120
1.060
0.492
0.533
2.674
0.750
10.272
0.478
0.680
0.314
1.355
0.100
1.797
0.655
4.841
0.860
0.159
0.649
0.454
0.955
0.583
10.375
0.000
0.660
0.226
0.595
2.026
0.601
7.178
1.611
1.247
0.000
5.340
6.435
7.850
0.228
1.742
0.638
1.155
0.793
0.234
1.014
3.044
0.558
5.717
1.644
1.207
0.637
0.831
5.003
1.165
17.740
0.586
0.917
0.440
2.045
0.142
2.540
0.949
5.550
0.982
0.222
0.800
0.638
1.497
0.778
13.148
0.000
0.858
0.300
0.9
2.7
0.9
9.4
2.2
1.7
0.1
7.0
8.5
10.3
0.4
2.4
0.9
1.6
1.1
0.4
1.4
4.1
0.8
7.5
2.2
1.7
0.9
1.2
6.6
1.6
23.2
0.9
1.3
0.7
2.8
0.3
3.4
1.3
7.3
1.4
0.4
1.1
0.9
2.0
1.1
17.2
0.1
1.2
0.5
T OC
-------
Polygcra
No.
9722
9725
9726
9733
9736
9739
9754
9755
9757
9759
9761
9763
9766
9769
9774
9775
9777
9779
9780
9782
9784
9787
9792
9793
9802
9803
9804
9805
9805
9814
9815
9818
9819
9822
9828
9841
9842
9843
9848
9849
9851
9853
9854
9861
9864
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Statsgo
No.
Geo Joey
CUa*
No. of
Points
G«om.
Mean
Radium
(pCi/g)
Geo ni.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
113
198
104
198
110
139
101
100
105
105
101
106
110
112
105
100
101
120
103
100
106
106
104
100
99
110
104
110
133
101
106
120
112
106
106
133
104
106
106
106
noo
100
103
133
100
Tc3
Tc1b
Qui
Quel
Qui
Qa1
Thpb4
Thpb4
Qui
Qui
Qui
Qui
Qui
Qui
Qsu1
Qui
Qui
QTd1
Qui
Thpb4
Qr1
Qsu1
Qa1
Thpb4
Qui
Qui
Thpb4
Qhl
QTd1
Thpb4
Qbd1
Quel
Qsu2
Thpb4
Thpb4
Qui
Qui
Qsu2
Quel
Qui
Thpb4
Thpb4
Quel
Qr1
Qui
64
6768
1 1
8066
42
25
7
3895
27
4
1 5
39
70
55
33
31
18
39
101
9
8
21
519
22
1 5
9
24
4
1 1
3895
88
8066
1 4
3895
16
53471
21
14
8066
53471
3895
3895
129
6113
2341
0.119
0.211
0.109
0.126
0.037
0.094
1.577
0.195
0.121
0.406
0.148
0.204
0.035
0.200
0.329
6.755
1.448
1.910
1.160
0.085
0.058
0.197
0.216
0.869
5.918
0.844
0.143
0.309
4.036
0.195
0.050
0.126
0.237
0.195
0.049
0.155
0.114
0.068
0.126
0.155
0.195
0.195
0.063
0.141
0.111
2.971
3.458
2.905
3.768
2.640
2.843
1.213
4.508
2.923
1.427
3.235
3.991
2.475
2.294
2.359
1.368
2.816
2.894
8.473
3.150
2.966
1.689
4.394
2.252
1.404
2.876
3.480
1.853
1.242
4.508
3.002
3.768
2.584
4.508
3.289
3.814
2.932
3.053
3.768
3.814
4.508
4.508
3.125
4.041
3.604
1.453
0.000
0.110
0.000
0.148
0.106
3.812
0.989
0.104
0.275
0.238
0.248
0.147
0.218
0.242
12.697
2.665
3.726
3.344
0.750
0.084
0.190
0.235
1.931
0.000
1.129
0.209
0.353
0.716
1.897
0.080
0.253
0.336
0.741
0.500
0.053
0.115
0.147
0.156
0.185
0.992
0.973
0.078
0.050
0.158
1.802
0.000
0.19O
0.000
0.186
0.173
4.524
1.464
0.167
0.361
0.380
0.526
0.182
0.329
0.405
15.852
4.896
7.458
14.537
1.040
0.128
0.248
0.536
2.744
0.000
2.194
0.351
0.483
1.300
2.720
0.116
0.379
0.513
1.088
0.690
0.078
0.191
0.204
0.296
0.366
1.465
1.505
0.130
0.074
0.270
2.172
0.000
0.316
0.000
0.233
0.279
5.371
2.255
0.296
0.479
0.625
1.102
0.225
0.487
0.638
19.375
9.367
14.769
54.733
1.402
0.209
0.319
1.198
3.907
0.000
4.372
0.608
0.700
2.287
3.877
0.180
0.645
0.780
1.769
0.890
0.132
0.328
0.290
0.564
0.740
2.275
2.195
0.221
0.135
0.508
2.415
0.000
0.449
0.000
0.275
0.393
6.154
3.000
0.402
0.588
0.898
1.788
0.249
0.610
0.861
21.925
15.003
23.415
146.43
1.640
0.298
0.382
1.940
5.018
0.000
7.177
0.865
0.937
3.303
4.901
0.243
0.925
1.052
2.558
1.050
0.194
0.457
0.386
0.898
1.183
3.038
2.980
0.319
0.194
0.781
3.2
0.1
0.7
0.1
0.5
0.6
8.1
4.0
0.6
0.9
1.3
2.4
0.4
0.9
1.2
28.6
19.6
30.5
190.5
2.2
0.5
0,6
2.6
6.6
0.1
9.4
1.2
1.3
4.4
6.5
0.4
1.3
1.5
3.4
1.5
0.4
0.7
0.6
1.3
1.6
4.0
4.0
0.5
0.4
1.1
-------
Polygon
No.
9667
9868
9872
9374
9877
9880
9882
9884
9885
9888
9889
9897
9900
9901
9904
9910
991 1
9914
9921
9928
9931
9932
9933
9936
9937
9942
9944
9948
9950
9951
9959
9962
9964
9972
9975
9983
9984
9987
9988
9995
9998
9999
10001
10003
10013
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Statsgo Geology No. of
No. Class Point*
Geom.
Mean
Radium
(pcvg)
Geom.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
198
Qr1
6113
0.141
4.041
0.000
0.000
106
Thpb4
10
0.100
3.087
0.566
0.755
106
Thpb4
248
0.052
2.882
0.496
0.674
215
Qr1
172
0.110
2.875
0.104
0.166
107
Quel
11
0.083
3.101
0.042
0.049
132
Quel
8066
0.126
3.768
0.144
0.273
133
Quel
8066
0.126
3.768
0.050
0.067
104
Thpr2
4606
0.129
3.732
0.157
0.279
100
Qa1
16
0.080
2 860
0.121
0.182
101
Qh1
3834
0.171
3.644
0.275
0.459
11 2
Thpr2
17
0.142
3.249
0.251
0.389
103
Quel
483
0.084
3.122
0.098
0.169
103
Qsu2
3040
0.090
3.229
0.125
0.200
110
Qui
53471
0.155
3.814
0.255
0.421
132
Quel
8066
0.126
3.768
0.142
0.283
106
Qui
6
0.113
2.898
0.131
0.221
100
Thpb4
20
0.125
2.551
0.778
1.073
105
Qui
1 3
0.052
3.131
0.061
0.091
129
Tel
9001
0.244
2.958
0.300
0.503
106
Qr1
1 3
0.063
3.113
0.090
0.138
100
Thpr2
4606
0.129
3.732
0.264
0.427
1 1 2
Qsu2
3040
0.090
3.229
0.200
0.283
100
Thpb4
85
0.083
2.944
0.752
1.038
120
Te1
184
0.098
3.280
0.221
0.318
103
Qui
53471
0.155
3.814
0.179
0.379
103
Thpb4
424
0.079
3.140
0.184
0.304
106
Qsu1
33
0.088
3.139
0.110
0.182
105
Qui
53471
0.155
3.814
0.137
0.263
100
Qsu2
3040
0.090
3.229
0.211
0.310
103
Qsu1
28
0.102
2.593
0.111
0.178
105
Qui
20
0.098
2.454
0 084
0.126
101
Qui
21
2.466
1.473
4.357
5.711
101
Qui
53471
0.155
3.814
0.262
0.441
106
Qsu1
6
0.047
4.078
0.079
0.130
106
Qui
28
2.140
1.493
3.687
4.804
106
Quel
6
0.051
3.398
0.081
0.125
103
Qsu2
3
0.061
3.474
0.098
0.167
f 06
Out
45
0.215
5.294
0.293
0.733
105
Qui
33
2.960
1.492
3.520
5.095
101
Thpb4
45
0.059
2.935
1.602
2.261
101
Quel
1 6
0.090
3.070
0.189
0.266
100
Qa1
33
0.399
5.839
0.682
1.906
107
Quel
76
0.093
3.125
0.043
0.050
103
Qui
15
0.074
3.060
0.091
0.152
100
Qh1
3834
0.171
3.644
0.219
0.430
0.000
0.988
0.890
0.272
0.062
0.552
0.109
0.538
0.282
0.808
0.633
0.295
0.347
0.759
0.547
0.380
1.453
0.144
0.860
0.234
0.693
0.435
1.346
0.458
0.768
0.493
0.312
0.522
0.475
0.281
0.199
7.316
0.802
0.261
6.293
0.218
0.308
1.780
7.115
3.009
0.383
5.697
0.064
0.259
0.803
0.000
1.190
1.042
0.375
0.077
0.876
0.164
0.810
0.390
1.222
0.869
0.405
0.501
1.139
0.850
0.592
1.742
0.211
1.212
0.334
1.058
0.558
1.599
0.615
1.188
0.655
0.437
0.816
0.599
0.386
0.259
8.558
I.205
0.414
7.507
0.330
0.522
3.649
8.739
3.602
0.516
II.295
0.079
0.378
1.290
0.1
1.6
1.5
0.6
0.2
1.2
0.3
1.2
0.6
1.7
1.2
0.6
0.8
1.6
1.2
0.9
2.4
0.4
1.7
0.5
1.5
0.8
2.2
0.9
1.6
I.0
0.7
1.2
0.9
0.6
0.4
II.2
1.7
0.6
9.9
0.5
0.8
4.8
11.5
4.8
0.8
14.8
0.2
0.6
1.8
T r\ a
-------
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Polygon
Statsgo
Geology
No.
No.
Class
10019
106
Qui
10020
101
Tbpb4
10022
103
Thpr2
10024
101
Qui
10027
101
Qui
10028
103
Qui
10029
111
Qsu2
10033
104
Qsu2
10035
105
Qbd1
10038
105
Qui
10039
100
Thpr2
10040
106
Qui
10042
106
Tc1
10043
104
Qui
10044
103
Thpr2
10046
105
Qui
10048
101
Qui
10049
106
Quel
10050
99
Qui
10052
103
Qui
10055
104
Qsu2
10057
105
Thpr2
10058
107
Qr1
10060
100
Thpb4
10062
104
Thpr2
10064
104
Thpr2
10070
139
Qui
10073
133
Tc1
10075
110
Qh1
10078
105
Thpr2
10079
106
Qr1
10081
114
Qa1
10082
100
Qal
10084
105
Qui
10085
100
Qa1
10093
101
Thpb4
10098
106
Qui
10106
115
Quel
10109
105
Qui
10110
106
Thpb4
10111
103
Qal
10112
100
Qhl
10113
101
Thpb4
10120
100
Thpb4
10123
103
Qui
No. of
Point*
Gtom.
Mean
Radium
(pCi/g)
G«om.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
39
63
397
1 2
31
37
17
29
7
16
6
34
9001
1 8
46
13
18
6066
57
53471
20
33
6113
9
8
4606
77
9001
7
44
6113
52
6626
50
6626
37
44
51
40
22
14
6
3895
3895
15
0.065
0.054
0.146
0.089
0.757
0.097
0.216
0.061
0.066
0 726
0.292
0.119
0.244
0.035
0.051
0.529
0.175
0.126
0.194
0.155
0.145
0.068
0.141
0.031
0.168
0.129
0.192
0.244
0.040
0.104
0.141
0.068
0.126
0.757
0.126
0.050
0.380
0.080
0.064
0.080
0.177
0.080
0.195
0.195
0.113
2.907
2.680
3.618
2.945
2.81?
3.362
2.550
3.087
2.745
1.741
2.126
3.562
2.958
2.837
2.734
2.069
4.562
3.768
3.530
3.814
2.927
3.034
4.041
2.565
2.661
3.732
2.464
2.958
3.034
3.204
4.041
3.195
4.240
4.374
4.240
2.981
5.138
3.294
2.978
3 254
4.642
3.817
4.508
4.508
2.751
0.090
1.608
0.181
0.185
1.059
0.112
0.125
0.098
0.068
0.591
0.406
0.143
0.268
0.059
0.087
0.408
0.290
0.152
0.000
0.177
0.160
0.079
0.047
0.664
0.180
0.155
0.192
0.061
0.153
0.101
0.165
0.190
0.180
0.851
0.176
1.599
0.552
0.071
0.068
0.541
0.206
0.124
1.925
0.980
0.123
0.138
2.233
0.349
0.266
1.979
0.205
0.1B6
0.143
0.101
0.837
0.574
0.269
0.478
0.080
0.127
0.642
0.567
0.297
0.000
0.375
0.257
0.116
0.062
0.931
0.282
0.280
0.309
0.091
0.192
0.168
0.352
0.259
0.361
2.297
0.357
2.228
1.533
0.106
0.101
0.744
0.544
0.224
2.750
1.425
0.207
0.211
3.025
0.673
0.369
3.502
0.388
0.262
0.206
0.159
1.186
0.834
0.492
0.817
0.117
0.185
0.967
1.228
0.572
0.000
0.740
0.447
0.186
0.099
1.277
0.474
0.534
0.485
0.157
0.252
0.291
0.703
0.345
0.744
5.424
0.752
3.008
3.874
0.181
0.162
0.995
1.300
0.450
3.824
2.281
0.351
0.295
3.593
1.023
0.481
5.230
0.570
0.339
0.290
0.224
1.428
1.034
0.781
1.179
0.152
0.250
1.362
1.975
0.894
0.000
1.181
0.593
0,247
0.153
1.509
0.659
0.826
0.640
0.220
0.304
0.403
1.114
0.445
1.171
9.545
1.161
3.606
7.12B
0.252
0.231
1.154
2.310
0.684
4.895
3.022
0.487
0.5
4.8
1.4
0.7
6.9
0.8
0.5
0.5
0.4
2.0
1.4
1.1
1.6
0.3
0.4
1.9
2.7
1.3
0.1
1.6
0.9
0.4
0.3
2.1
1.0
1.2
0.9
0.4
0.5
0.6
1.5
0.7
1.6
12.5
1.6
4.8
9.4
0.4
0.4
1.6
3.1
1.0
6.5
4.0
0.7
-------
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Polygon Statsgo Geology No. of
No. No. Class Points
Geom.
Mean
Radium
Geom.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
10127
107
Qui
53471
0.155
3.814
0.048
0.063
10133
120
Quel
20
0.067
3.100
0.195
0.265
10136
129
Quel
153
0.150
2.799
0.204
0.308
10137
129
Tc1
56
0.127
2.419
0.178
0.249
10139
106
Qbd1
10491
0.106
3.846
0.134
0.255
10140
101
Thpr2
26
0.116
2.660
0.400
0.546
10146
119
Qa1
136
0.132
4.814
0.185
0.424
10147
105
Qsul
27879
0.085
3.726
0.083
0.143
10148
139
Qui
53471
0.155
3.814
0.177
0.347
10150
104
Qui
38
0.065
3.224
0.080
0.128
101 51
107
Qui
100
0.075
3.166
0.041
0.048
10153
104
Thpr2
4606
0.129
3.732
0.158
0.282
10155
103
Qsu2
25
0.050
3.082
0.087
0.130
101 56
101
Quel
29
0.105
3.104
0.199
0.295
101 57
101
Qui
10
0.040
3.033
0.141
0.193
10161
105
Tel
13
0.056
2.986
0.064
0.092
10162
105
Quel
104
0.135
2.565
0.108
0.171
10165
1 06
Qbd1
53
0.067
3.035
0.091
0.143
10168
139
Qui
45
0.083
2.840
0.098
0.155
10170
104
Thpr2
12
0.239
2.852
0.244
0.421
10175
111
Qsu2
3040
0.090
3.229
0.093
0.135
10180
119
Qa1
192
0.125
3.985
0.164
0.335
10183
115
Qsu1
295
0.091
3.062
0.073
0.112
10188
106
Qsu1
8
0.054
2.722
0.082
0.116
10192
106
Thpr2
120
0.086
2.768
0.158
0.220
10193
105
Qbd1
45
0.073
3.005
0.072
0.113
10198
104
Thpr2
29
0.071
2.937
0.103
0.150
101 99
104
Qsu2
58
0.100
3.183
0.126
0.202
10201
101
Quel
8066
0.126
3.768
0.228
0.359
10204
120
Quel
129
0.099
3.029
0.220
0.309
10208
103
Qui
24
0.352
7.318
0.598
2,061
10210
103
Qsu2
12
0.214
4.790
0.302
0.700
10211
100
Thpb4
3895
0.195
4.508
0.975
1.437
10213
101
Thpb4
3895
0.195
4.508
1.918
2.752
10214
102
Qhl
3834
0.171
3.644
0.293
0.458
10215
103
Qui
9
0.147
3.203
0.163
0.312
10217
120
QTd1
44
0.087
2.783
0.214
0.277
10218
115
Thpr2
359
0.099
3.091
0.078
0.121
10219
104
Tha2
336
0.114
3.875
0.146
0.254
10224
105
Qui
53471
0.155
3.814
0.132
0.264
10229
101
Thpr2
4606
0.129
3.732
0.438
0.638
10232
107
Qti
43
0.342
2.346
0.061
0.084
10240
106
Te1
9001
0.244
2.958
0.270
0.491
10244
100
Thpr2
4606
0.129
3.732
0.262
0.422
10248
11 1
Qh1
3834
0.171
3.644
0.093
0.148
0.102
0.342
0.493
0.359
0.473
0.727
0.931
0.278
0.713
0.213
0.060
0.516
0.198
0.436
0.260
0.154
0.273
0.234
0.258
0.753
0.1B7
0.678
0.186
0.179
0.313
0.184
0.231
0.329
0.638
0.425
6.997
1.766
2.219
3.857
0.776
0.592
0.369
0.204
0.476
0.526
0.948
0.126
0.842
0.705
0.249
0.148
0.430
0.645
0.449
0.800
0.855
1.653
0.409
1.140
0.299
0.072
0,812
0.277
0.566
0.315
0.203
0.361
0.320
0.337
1.084
0.228
1.135
0.256
0.246
0.396
0.262
0.310
0.474
0.973
0.537
16.287
3.084
3.118
4.634
1.170
0.881
0.467
0.280
0.752
0.821
1.197
0.175
1.134
1.049
0.396
0.3
0.7
0.9
0.7
1.1
1.2
2.2
0.6
1.6
0.5
0.2
1.2
0.5
0,8
0.5
0.4
0.6
0.5
0.5
1.5
0.4
1.6
0.4
0.4
0.6
0.4
0.5
0.7
1.4
0.8
21.3
4.1
4.2
6.1
1.6
1.2
0.7
0.5
1.1
1.2
1.7
0.3
1.6
1.5
0.6
-------
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Polygon Statsgo Geology No. of
No. No. Class Points
Geom.
Mean
Radium
(pCi/g)
Geom.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
50*
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
102 54
103
Qsu2
10255
106
Thpb4
10259
139
Qui
10260
104
Thpr2
10261
111
Qsu2
10263
101
Qui
10265
103
Tha2
10266
103
Thpr2
10270
133
QTd1
10277
106
Qsu1
10278
105
Qui
10280
100
Thpb4
10281
103
Quel
10285
104
Thpr2
10287
198
Quel
10288
103
Qsu2
10291
100
Thpr2
10293
101
Thpr2
10294
103
Thpr2
10297
106
Thpr2
10298
100
Thpr2
10305
106
Qui
10308
103
Thpr2
10310
103
Tha2
1031 1
99
Thpr2
10313
107
Qui
10316
101
Qui
10317
101
Qr1
10318
101
Qui
10320
104
Qsu1
10323
104
Tha2
10324
105
Qsu1
10329
106
Quel
10331
104
Qa1
10338
105
Qui
10339
104
Qsu2
10349
104
Qal
10353
101
Thpr2
10356
106
Thpr2
10358
115
Qui
10362
101
Qui
10365
105
Qbd1
10366
105
Tc1
10369
103
Quel
10370
101
Quel
73
1 9
59
4606
3040
53471
336
75
939
13
1 5
3895
8066
4606
8066
7.
4606
26
89
58
4606
58
341
110
4606
30
53471
17
53471
1 1 2
8
89
758
8
14
51
31
4606
16
9
53471
1 7
1 5
34
35
0.101
0.157
0.102
0.129
0.090
0.155
0.114
0.087
0.226
0.097
0.142
0.195
0.126
0.129
0.126
0.106
0.129
0.060
0.070
0.115
0.129
0.179
0.072
0.095
0.129
0.121
0.155
0.313
0.155
0.090
0.326
0.117
0.084
0.094
0.093
0.200
0.070
0.129
0.036
0.593
0.155
0.067
0.110
0.033
0.073
2.961
2.391
3.081
3.732
3.229
3.814
3.875
3.019
5.057
3.662
3.348
4.508
3.768
3.732
3.768
3.012
3.732
3.026
2.943
3.406
3.732
3.257
3.108
3.241
3.732
3.195
3.814
1.517
3.814
3.154
3.001
3.151
3.123
3.056
2.599
2.998
2.729
3.732
2.980
1.523
3.814
3.222
3.536
2.779
3.044
0.135
0.599
0.117
0.156
0.092
0.256
0.156
0.120
0.066
0.120
0.121
0.980
0.143
0.155
0.000
0.138
0.262
0.342
0.105
0.191
0.268
0.202
0.108
0.131
0.000
0.045
0.257
0.363
0.260
0.098
0.334
0.100
0.108
0.100
0.082
0.210
O.OBO
0.444
0.120
0.342
0.258
0.070
0.098
0.056
0.171
0.210
0.789
0.200
0.270
0.133
0.431
0.291
0.191
0.118
0.214
0.217
1.463
0.297
0.284
0.000
0.225
0.411
0.479
0.157
0.298
0.413
0.376
0.169
0.216
0.000
0.055
0.449
0.444
0.435
0.164
0.63b
0.172
0.174
0.170
0.126
0.364
0.124
0.630
0.154
0.452
0.440
0.110
0.176
0.078
0.240
0.349
1.032
0.346
0.509
0.190
0.801
0.579
0.303
0.264
0.426
0.415
2.285
0.596
0.527
0.000
0.394
0.706
0.619
0.246
0.496
0.711
0.678
0.268
0.368
0.000
0.076
0.768
0.538
0.818
0.277
1.173
0.307
0.287
0.295
0.196
0.619
0.189
0.899
0.205
0.614
0.787
0.186
0.345
0.115
0.340
0.481
1.285
0.478
0.820
0.232
1.201
0.894
0.442
0.485
0.691
0.672
3.174
0.911
0.815
0.000
0.589
1.073
0.742
0.337
0.734
1.114
1.025
0.373
0.517
0.000
0.100
1.171
0.597
1.211
0.387
1.934
0.438
0.409
0.430
0.272
0.890
0.253
1.198
0.251
0.737
1.172
0.264
0.537
0.157
0.414
0.7
1.8
0.7
1.2
0.4
1.7
1.3
0.7
0.7
1.0
1.0
4.2
1.3
1.2
0.1
0.9
1.5
1.1
0.5
1.1
1.5
1.4
0.6
0.8
0.1
0.2
1.6
0.9
1.7
0.6
2.6
0.7
0.6
0.7
0.5
1.3
0.4
1.7
0.4
1.1
1.6
0.4
0.8
0.3
0.6
-------
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Polygon Statsgo
No. No.
Geology
Class
No. of
Points
Geom.
Mean
Radium
(pCi/g)
Geom.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
60*
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
10372
102
Qa1
10378
103
Tha2
10380
100
Tha2
10382
106
Quel
103B7
105
Qui
10389
113
Quel
10390
107
Quel
10391
106
Qsu1
10399
106
Qbd1
10403
103
Qsu2a
10406
104
Qbdl
10408
105
Qui
10409
115
Thpr2
10412
111
Qh1
10414
105
Tha2
10415
104
Qsu2a
10417
103
Qui
10418
99
water
1041 9
105
Qui
10426
100
Qsu2a
10427
105
Qui
10428
102
Qh1
10437
101
Thpr2
10438
100
Thpr2
10439
129
Quel
10443
106
Thpr2
10445
105
Qsu1
10447
106
Thpr2
10448
106
Quel
10449
103
Quel
10450
105
Qui
10453
105
Qbd1
10455
104
Qui
10457
105
Qui
10460
119
Qa1
10468
104
Qui
10470
120
Qui
10477
101
Qsu2
10479
103
Quel
104 87
115
Quel
10488
106
Quel
10491
107
Qui
10501
106
Quel
10502
103
Quel
10503
100
Thpr2
6626
182
36
108
37
39
9
27
10491
26
24
53471
1 4
3634
336
25
338
346
1 6
48
53471
3834
4606
141
21
4606
46
553
8066
8066
53471
1 6
53471
53471
6626
14
53471
3040
193
31
30
342
8066
8066
4606
0.126
0.080
0.956
0.126
0.085
0.140
0.046
0.076
0.106
0.155
0.139
0.155
0.037
0.171
0.114
0.097
0.103
0.083
0.125
0.086
0.155
0.171
0.129
0.066
0.069
0.129
0.067
0.101
0.126
0.126
0.155
0.273
0.155
0.155
0.126
0.051
0.155
0.090
0.090
0.044
0.079
0.135
0.126
0.126
0.129
4.240
3.149
2.076
2.743
3.094
2.139
2.673
3.080
3.846
2.793
2.476
3.814
2.767
3.644
3.875
2.820
3.853
3.081
2.857
3.038
3.814
3.644
3.732
3.198
2.979
3.732
3.107
3.227
3.768
3.768
3.814
1.597
3.814
3.814
4.240
2.885
3.814
3.229
2.914
2.675
3.077
3.064
3.768
3.768
3.732
0.251
0.118
1.426
0.142
0.079
0.257
0.040
0.101
0.133
0.183
0.131
0.136
0.052
0.092
0.112
0.122
0.119
0.000
0.102
0.206
0.133
0.286
0.441
0.185
0.136
0.206
0.068
0.178
0.157
0.146
0.133
0.184
0.160
0.135
0.171
0.069
0.286
0.387
0.103
0.054
0.101
0.046
0.152
0.146
0.261
0.412
0.186
2.135
0.226
0.130
0.327
0.044
0.160
0.247
0.307
0.205
0.268
0.065
0.149
0.205
0.185
0.247
0.000
0.173
0.300
0.253
0.457
0.639
0.264
0.192
0.354
0.106
0.262
0.284
0.300
0.271
0.248
0.317
0.267
0.350
0.099
0.451
0.546
0.169
0.069
0.166
0.056
0.287
0.296
0.414
0.711
0.299
3.234
0.367
0.220
0.421
0.048
0.266
0.472
0.502
0.320
0.535
0.090
0.257
0.389
0.286
0.493
0.000
0.295
0.436
0.544
0.777
0.950
0.379
0.286
0.633
0.177
0.409
0.561
0.572
0.526
0.325
0.633
0.556
0.755
0.156
0.787
0.707
0.297
0.096
0.272
0.077
0.566
0.574
0.717
1.060
0.424
4.338
0.508
0.306
0.485
0.055
0.377
0.754
0.684
0.435
0.818
0.115
0.395
0.618
0.376
0.789
0.000
0.408
0.531
0.844
1.126
1.210
0.485
0.363
0.954
0.248
0.563
0.866
0.934
0.819
0.395
1.012
0.820
1.240
0.216
1.199
0.841
0.395
0.121
0.398
0.101
0.890
0.931
1.0B1
1.5
0.7
5.7
0.8
0.5
0.7
0.2
0.6
1.1
1.0
0.7
1.2
0.2
0.6
0.9
0.6
1.1
0.1
0.6
0.8
1.2
1.6
1.7
0,7
0.6
1.3
0.4
0.8
1.2
1.3
1.2
0.6
1.4
1.2
1.7
0.4
1.7
1.2
0.6
0.3
0.6
0.2
1.3
1.3
1.5
-------
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number




Geom.





Mean
Geom.
Polygon
Statsgo
Geology
No . of
Radium
SD.
No.
No.
Class
Points
(pC.i/g)
Radium
10504
198
Quel
8066
0.126
3.768
10505
115
Qa1
27
0.055
2.800
10506
119
Qsu1
55
0.107
3.147
10507
100
Quel
8066
0.126
3.768
10508
107
Qh1
22
0.128
4.116
10516
129
Quel
57
0.166
2.517
10517
103
Qsu2a
1332
0.191
4.023
10521
106
Qbd1
560
0,104
3.116
10522
106
Thpr2
196
0.094
3.081
10531
129
Qui
31
0.092
3.085
10540
103
Quel
10
0.153
2.099
10547
107
Thpr2
16
0.136
2.172
10551
115
Quel
12
0.221
2.056
10556
11 9
Qa1
686
0.093
3.288
10561
106
Qsul
23
0.146
2.451
10563
11 1
Qh1
3834
0.171
3.644
10566
115
Qsu1
30
0.065
3.209
10569
119
Qsu1
22
0.211
2.510
10571
104
Qsu1
29
0.059
2.753
10574
129
Qui
1 1
0.182
3.083
10576
103
Qui
104
0.124
2.660
10580
124
Qui
20
0.145
2.746
10582
107
Qbd1
23
0.033
2.608
10585
139
Qui
52
0.059
2.879
10590
119
Qbd1
72
0.129
3.623
10594
106
Qui
21
0.223
2.350
10601
106
Quel
191
0.063
3.073
10602
106
Qsu1
13
0.044
3.164
10605
106
Qsu1
5
0.052
2.998
10608
132
Quel
8066
0.126
3.768
10611
106
Thpr2
4606
0.129
3.732
10616
11 9
Qa1
28
0.062
2.787
10618
107
Qri
6113
0.141
4.041
10622
103
Qui
53471
0.155
3.814
10625
105
Qsu2a
3378
0.201
4.077
10627
120
Qui
53471
0.155
3.814
10630
107
Qui
53471
0.155
3.814
10631
105
Qui
34
0.077
3.626
10632
115
Qui
53471
0.155
3.814
10635
106
Qii
23
0.043
2.892
10640
104
Qa1
36
0.107
2.737
10642
106
Qui
81
0.099
2.937
10643
106
Qsu1
27879
0.085
3.726
10644
100
Thpr2
4606
0.129
3.732
10645
105
Qui
53471
0.155
3.814
Radon Potential (mCi/yr)
at Specified Confidence Limit
50*
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
	(pCi/L)
0.000
0.057
0.137
0.171
0.046
0.214
0.239
0.125
0.167
0.159
0.154
0.046
0.128
0.121
0.156
0.092
0.063
0.244
0.073
0.236
0.131
0.161
0.039
0.078
0.161
0.232
0.090
0.075
0.080
0.143
0.207
0.088
0.047
0.178
0.182
0.2B7
0.048
0.077
0.111
0.073
0.109
0.119
0.112
0.268
0.127
0.000
0.078
0.235
0.320
0.059
0.313
0.528
0.211
0.242
0.224
0.228
0.053
0.187
0.219
0.240
0.148
0.091
0.394
0.108
0.397
0.222
0.261
0.042
0.119
0.320
0.355
0.138
0.108
0.122
0.288
0.356
0.134
0.063
0.375
0.378
0.469
0.063
0.133
0.208
0.103
0.172
0.190
0.199
0.407
0.263
0.000
0.000
0.1
0.116
0.151
0.3
0.433
0.601
0.9
0.623
0.961
1.3
0.095
0.137
0.3
0.476
0.595
0.9
1.070
1.627
2.2
0.363
0.485
0.7
0.374
0.492
0.7
0.351
0.492
0.7
0.340
0.437
0.7
0.066
0.079
0.2
0.281
0.376
0.6
0.389
0.533
0.8
0.379
0.485
0.7
0.266
0.381
0.6
0.149
0.209
0.4
0.638
0.897
1.3
0.166
0.222
0.4
0.676
1.036
1.4
0.355
0.486
0.7
0.442
0.596
0.9
0.046
0.049
0.2
0.186
0.260
0.4
0.637
1.009
1.4
0.545
0.734
1.1
0.217
0.299
0.5
0.171
0.239
0.4
0.194
0.288
0.5
0.536
0.860
1.2
0.620
0.936
1.3
0.211
0.297
0.5
0.099
0.145
0.3
0.756
1.164
1.6
0.767
1.263
1.7
0.788
1.184
1.6
0.100
0.154
0.3
0.248
0.358
0.6
0.415
0.662
1.0
0.155
0.207
0.4
0.281
0.375
0.6
0.315
0.441
0.7
0.384
0.559
0.8
0.717
1.087
1.5
0.547
0.849
1.2
-------
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Polygon Statsgo
No. No.
Geology
Class
No. of
Points
Geom.
Mean
Radium
(pCi/g)
Geom.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref, House
Indoor Radon
at 95% C.L.
(pCi/L)
10646
107
Thpr2
10647
103
Thpr2
10648
105
Qsu2a
10651
115
Qsu1
10654
119
Qsu1
10656
100
Qui
10657
101
Thpr2
10658
107
Qui
10660
105
Qsu2a
10662
115
Qsu1
10670
106
Qsu1
10673
104
Qsu1
10675
104
Thpr 2
10676
105
Qtodl
10679
198
Quel
10680
107
Qsu1
10681
106
Qsu1
10682
105
Qui
10686
105
Thpr2
10690
103
Thpr2
10691
103
Qsu2a
10692
107
Qsul
10694
129
QTd1
10696
120
QTd1
10698
105
Thpr2
10700
106
Qui
10707
100
Thpr2
10713
103
Thpr2
10714
106
Thpr2
10715
104
Qa1
10717
106
Qui
10724
102
Tha2
10725
107
Qr1
10726
105
Qsu1
10728
111
Qb1
10730
107
Qr1
10733
139
Quel
10734
106
Qui
10740
139
Quel
10747
139
Qui
10750
139
Qui
10756
103
Quel
10765
106
Quel
10766
103
Thpr2
10769
99
Thpr2
4606
4606
20
27879
27879
53471
45
29
55
1 2
184
27879
40
44
38
1 5
39
53471
24
42
3378
55
40
215
4606
172
8
201
296
391
27
336
63
1 4
3834
102
83
34
170
20
20
24
8066
1 9
41
0.129
0.129
0.044
0.085
0.085
0.155
0.089
0.077
0.709
0.098
0.117
0.085
0.056
0.130
0.128
0.038
0.057
0.155
0.095
0.079
0.201
0.062
0.093
0.080
0.129
0.038
0.122
0.100
0.106
0.304
0.096
0.114
0.060
0.077
0.171
0.123
0.111
0.067
0.065
0.067
0.109
0.048
0.126
0.090
0.092
3.732
3.732
2.933
3.726
3.726
3.814
3.175
3.252
4.463
3.018
3.490
3.726
3.093
3.185
2.711
2.781
3.121
3.814
3.107
2.762
4.077
2.781
3.084
2.876
3.732
2.826
3.686
3.335
2.933
4.239
2.591
3.875
2.923
3.105
3.644
2.978
3.060
3.247
2.955
2.800
2.948
2.871
3.768
3.320
2.779
0.046
0.169
0.067
0.072
0.116
0.208
0.387
0.042
0.817
0.076
0.143
0.097
0.092
0.108
0.000
0.039
0.085
0.131
0.095
0.111
0.265
0.041
0.157
0.204
0.122
0.069
0.253
0.135
0.175
0.340
0.112
0.507
0.041
0.077
0.093
0.045
0.123
0.093
0.083
0.083
0.124
0.067
0.153
0.126
0.000
0.059
0.316
0.090
0.123
0.218
0.396
0.540
0.048
2.084
0.120
0.254
0.172
0.135
0.192
0.000
0.043
0.131
0.266
0.152
0.170
0.554
0.045
0.230
0.275
0.221
0.096
0.402
0.227
0.255
0.784
0.175
0.706
0.045
0.118
0.151
0.054
0.211
0.151
0.130
0.129
0.202
0.103
0.291
0.209
0.000
0.088
0.602
0,132
0.220
0.419
0.791
0.711
0.060
5.105
0.200
0.472
0.324
0.205
0.351
0.000
0.048
0.203
0.518
0.256
0.262
1.141
0.053
0.354
0.366
0.430
0.140
0.682
0.407
0.393
1.633
0.266
0.956
0.053
0.207
0.263
0.072
0.372
0.254
0.208
0.210
0.344
0.166
0.546
0.370
0.000
0.128
0.939
0.172
0.325
0.604
1.205
0.834
0.075
9.323
0.285
0.713
0.475
0.270
0.517
0.000
0.053
0.285
0.880
0.361
0.346
1.855
0.061
0.453
0.439
0.689
0.180
1.065
0.584
0.518
2.816
0.355
1.144
0.062
0.293
0.382
0.091
0.506
0.359
0.290
0.285
0.490
0.227
0.866
0.523
0.000
0.3
1.3
0.3
0.5
0.9
1.7
1.2
0.2
12.2
0.5
1.0
0.7
0.5
0.8
0.1
0.2
0.5
1.2
0.6
0.5
2.5
0.2
0.7
0.7
1.0
0.3
1.5
0.9
0.8
3.8
0.6
1.6
0.2
0.5
0.6
0.2
0.8
0.6
0.5
0.5
0.7
0.4
1.2
0.8
0.1
-------
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Polygon Statsgo
No. No.
Geology
Class
No. of
Points
Geom.
Mean
Radium
(pCi/g)
Geom.
S.D.
Radium
Radon Potential (uoCi/yr)
at Specified Confidence Limit
50%
75%
90*
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
10770
10771
10775
10783
10784
10786
10788
10792
10794
10799
10804
10806
10811
10812
10814
10815
10816
1081 7
10819
10822
10823
10824
10826
10828
10835
10839
10843
10844
10846
10847
10853
10858
10859
10861
10862
10864
10865
10866
10868
10871
10872
10878
10885
10887
10900
106
106
100
198
103
129
105
119
106
105
139
100
106
107
114
105
11 9
104
100
105
101
139
105
105
103
105
101
106
104
139
104
114
103
103
106
103
199
106
103
107
115
101
103
105
106
Qsu1
Qr1
Thpr2
Quel
Thpr2
Quel
Qui
Qa1
Qui
Qui
Qa1
Qsu2a
Qui
Qsu1
Qd1
Qsu1
Qa1
Thpr2
Thpr2
Thpr2
Thpr2
Qui
Qsu2a
Qui
Thpr2
Qui
Qbd1
Quel
Qsu2a
Qa1
Qsu1
Qbd1
Thpr2
Qui
Qsu1
Qsu2a
Qa1
Qa1
Quel
Qsu1
Qr1
Qsu1
Thpr2
Qsu1
Qui
52
6113
4606
8066
4606
8066
53471
10
53471
53471
36
36
53471
27879
2879
495
6626
4606
24
60
4606
40
34
53471
4606
53471
10491
218
54
6626
27879
10491
292
43
201
3378
6626
6626
8066
27879
42
24
99
92
130
0.089
0.141
0.129
0.126
0.129
0.126
0.155
1.187
0.155
0.155
0.041
0.088
0.155
0.085
0.148
0.076
0.126
0.129
0.461
0.513
0.129
0.062
0.138
0.155
0.129
0.155
0.106
0.044
0.116
0.126
0.085
0.106
0.418
0.292
0.118
0.201
0.126
0.126
0.126
0.085
0.058
0.077
0.172
0.054
0.075
2.993
4.041
3.732
3.768
3.732
3.768
3.814
1.150
3.814
3.814
2.688
2.886
3.814
3.726
3.736
3.130
4.240
3.732
1.852
2.135
3.732
3.445
3.136
3.814
3.732
3.814
3.846
3.046
2.631
4.240
3.726
3.846
5.062
2.543
2.954
4.077
4.240
4.240
3.768
3.726
2.861
3.249
3.102
2.810
3.077
0.112
0.177
0.260
0.000
0.169
0.192
0.133
1.684
0.183
0.132
0.065
0.207
0.186
0.043
0.268
0.076
0.170
0.153
0.596
0.393
0.441
0.084
0.124
0.132
0.171
0.131
0.209
0.075
0.135
0.148
0.096
0.227
0.644
0.311
0.137
0.260
0.078
0.157
0.145
0.043
0.059
0.175
0.202
0.061
0.099
0.177
0.344
0.410
0.000
0.318
0.317
0.262
1.845
0.365
0.264
0.090
0.301
0.359
0.050
0.431
0.118
0.362
0.276
0.804
0.634
0.636
0.139
0.212
0.261
0.321
0.255
0.325
0.105
0.201
0.319
0.174
0.344
1.707
0.525
0.226
0.563
0.118
0.316
0.296
0.051
0.081
0.253
0.361
0.088
0.154
0.299
0.711
0.725
0.000
0.621
0.592
0.527
2.017
0.758
0.534
0.132
0.426
0.733
0.069
0.758
0.202
0.747
0.527
1.074
0.962
0.914
0.241
0.373
0.536
0.621
0.547
0.562
0.169
0.310
0.653
0.327
0.581
4.448
0.865
0.391
1.146
0.196
0.677
0.577
0.068
0.120
0.368
0.638
0.136
0.256
0.413
1.110
1.047
0.000
0.956
0.945
0.850
2.144
1.141
0.835
0.173
0.517
1.134
0.089
1.098
0.275
1.197
0.814
1.316
1.268
1.213
0.346
0.541
0.810
0.924
0.857
0.836
0.221
0.404
1.031
0.491
0.856
8.108
1.160
0.519
1.850
0.300
1.103
0.904
0.090
0.163
0.496
0.927
0.183
0.362
0.6
1.5
1.5
0.1
1.3
1.3
1.2
2.9
1.6
1.2
0.3
0.8
1.6
0.2
1.5
0.5
1.7
1.2
1.8
1.7
1.7
0.5
0.8
1.2
1.3
1.2
1.2
0.4
0.6
1.4
0.7
1.2
10.6
1.6
0.8
2.5
0.5
1.5
1.3
0.2
0.3
0.7
1.3
0.3
0.6
-------
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Polygon Statsgo Geology No. of
No. No. Class Points
Geom.
Mean
Radium
(pCi/g)
Gfcom.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence limit
50%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
10901
106
Qui
10908
1 29
QTd1
10912
105
Quel
10918
106
Qui
10920
103
Qsu2a
10924
119
Qsu1
10925
115
Qsu1
10933
99
water
10936
139
QTd1
10938
100
Qh1
10939
101
Qa1
10941
101
Qbd1
10943
105
Qui
10945
139
Qsu1
10947
106
Qsu1
10948
104
Qsu1
10954
106
Qsu2b
10958
139
Qsu1
10959
103
Qsu2b
10960
101
Thpr2
10963
105
Qui
10964
100
Qsu1
10966
101
Qa1
10967
103
Thpr2
10969
119
Qbd1
10971
107
Quel
10972
114
Qa1
10975
105
Quel
10980
139
Qsu1
10983
101
Qal
10985
139
Qsu2b
10986
103
Thpr2
10987
115
Qsu1
10988
104
Qal
10989
129
Qui
10990
105
Qsu2b
10991
106
Qui
10993
111
Qh1
10995
102
Qh1
10997
106
Quel
10998
107
Qsu2b
10999
120
Qui
1 1003
106
Quel
11004
111
Qa1
11006
129
Qui
23
28
87
43
1017
128
35
663
I	8
3
55
25
II
37
91
86
95
27879
873
4606
53471
27
6626
4606
10491
8066
78
8066
327
6626
16
4
14
54
28
60
6
21
1 4
8066
6182
28
8
8
45
0.286
0.069
0.067
0.059
0.203
0.089
0.054
0.082
0.062
0.091
0.074
0.073
0.024
0.105
0.072
0.098
0.024
0.065
0.094
0.129
0.155
0.212
0.126
0.129
0.106
0.126
0.460
0.126
0.075
0.126
0.020
0.073
0.117
0.058
0.089
0.036
0.071
0.576
0.372
0.126
0.108
0.124
0.137
0.062
0.251
2.151
2.803
3.070
2.959
4.156
3.017
2.743
3.660
3.226
4.410
3.137
2.990
1.611
2.944
3.149
2.680
2.115
3.726
3.302
3.732
3.814
2.342
4.240
3.732
3.846
3.768
2.829
3.76B
3.062
4.240
1.625
4.406
3.076
3.061
2.708
2.697
3.383
2.516
4.399
3.768
3.435
3.004
2.671
2.377
2.253
0.289
0.133
0.069
0.086
0.277
0.114
0.057
0.000
0.083
0.141
0.174
0.174
0.047
0.118
0.097
0.101
0.108
0.108
0.130
0.438
0.133
0.245
0.236
0.170
0.143
0.046
0.614
0.113
0.092
0.230
0.079
0.112
0.085
0.074
0.149
0.061
0.098
0.228
0.552
0.152
0.044
0.241
0.153
0.061
0.288
0.447
0.184
0.107
0.130
0.574
0.196
0.077
0.000
0.132
0.289
0.242
0.237
0.053
0.194
0.154
0.156
0.130
0.193
0.218
0.642
0.264
0.368
0.397
0.323
0.275
0.057
1.042
0.209
0.149
0.410
0.090
0.223
0.140
0.112
0.215
0.081
0.160
0.383
1.204
0.297
0.054
0.347
0.245
0.076
0.426
0.657
0.266
0.172
0.200
1.188
0.343
0.113
0.000
0.228
0.716
0.339
0.329
0.062
0.339
0.252
0.250
0.157
0.362
0.388
0.942
0.533
0.571
0.751
0.601
0.534
0.085
1.828
0.420
0.247
0.716
0.103
0.513
0.252
0.181
0.302
0.110
0.296
0.647
2.731
0.575
0.074
0.503
0.407
0.093
0.632
0.791
0.334
0.240
0.274
1.925
0.458
0.147
0.000
0.322
1.323
0.465
0.420
0.067
0.458
0.357
0.336
0.175
0.524
0.513
1.192
0.829
0.756
1.157
0.964
0.866
0.123
2.494
0.668
0.345
1.197
0.114
0.885
0.339
0.257
0.380
0.133
0.465
0.848
4.713
0.917
0.099
0.674
0.572
0.111
0.791
1.1
0.5
0.4
0.5
2.6
0.7
0.3
0.1
0.5
1.8
0.7
0.6
0.2
0.7
0.6
0.5
0.3
0.8
0.8
1,6
1.2
1.1
1.6
1.4
1.2
0.3
3.3
1.0
0.5
1.7
0.2
1.3
0.5
0.4
0.6
0.3
0.7
1.2
6.2
1.3
0.2
1.0
0.8
0.2
1.1
-------
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Polygon Statsgo Geology No. of
No. No. Class Points
Geom.
Mean
Radium
(pCi/g)
Geom.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
11007
108
Qsul
11010
106
Qsu2b
11011
106
Qsu2b
11013
105
Q3u2b
11016
106
Qsu2b
11019
103
Osu2b
11022
106
Qsu2b
11023
115
Quel
11025
101
Thpr2
11026
115
Qsu2b
11028
115
water
11029
139
Quel
11032
104
Qsu2a
11033
104
Qsu1
11035
106
Thpr2
11039
103
Qsu2a
11040
106
Qsu2b
11042
105
Qui
11043
106
Qsu1
11044
100
Qsu2a
1 1045
106
Qui
1 1046
101
Qal
1 1048
115
water
11053
106
Qui
11054
103
Quel
11056
104
Qal
11058
106
Qsu2b
11059
100
Qsu2a
11060
106
Qsu2b
11063
101
Qbd1
11065
105
Qui
11066
101
Qui
11067
106
Qui
11069
107
Thpr2
11070
104
Qsu1
11071
106
Thpr2
11073
106
Thpr2
11075
139
Qui
11076
111
Qsu2a
11078
21 5
Qa1
11079
106
Qui
11082
102
Qa1
11086
102
Qh1
11091
210
Qsu1
11093
103
Qsu2b
253
5182
5182
5
55
24
44
1
1 2
1 2
163
56
23
98
43
1017
1 5
174
114
a
162
4
5995
1 9
8066
1 17
5182
151
86
10491
41
53471
581
4606
27879
32
52
53471
20
64
53471
20
1 6
90
61
0.073
0.108
0.108
0.098
0.106
0.076
0.043
0.167
0.069
0.071
0.065
0.056
0.264
0.150
0.157
0.203
0.159
0.115
0.179
0.247
0.046
0.348
0.069
0.103
0.126
0.099
0.108
0.148
0.113
0.106
0.229
0.155
0.090
0.129
0.085
0.073
0.043
0.155
0.858
0.056
0.155
0.146
0.124
0.067
0.112
3.200
3.435
3.435
2.916
4.132
3.054
2.677
4.000
3.359
3.068
3.059
2.851
1.622
4.204
3.051
4.156
2.899
2.990
3.426
4.023
3.180
1.341
3.708
3.144
3.768
3.024
3.435
3.444
3.114
3.846
1.983
3.814
3.104
3.732
3.726
2.854
3.049
3.814
1.306
2.781
3.814
3.335
3.738
2.980
2.822
0.123
0.184
0.185
0.095
0.192
0.109
0.123
0.118
0.364
0.065
0.062
0.076
0.236
0.159
0.226
0.277
0.229
0.097
0.209
0.418
0.076
0.389
0.065
0.125
0.149
0.105
0.185
0.279
0.186
0.207
0.157
0.260
0.114
0.046
0.098
0.150
0.125
0.174
0.327
0.067
0.186
0.256
0.242
0.042
0.142
0.218
0.285
0.283
0.149
0.312
0.170
0.160
0.244
0.504
0.097
0.089
0.115
0.306
0.352
0.356
0.574
0.357
0.161
0.399
0.797
0.113
0.463
0.104
0.210
0.290
0.175
0.280
0.449
0.286
0.331
0.239
0.441
0.183
0.059
0.174
0.204
0.166
0,362
0.423
0.097
0.373
0.384
0.365
0.045
0.224
0.355
0.471
0.485
0.264
0.593
0.281
0.201
0.642
0.652
0.156
0.140
0.175
0.388
0.719
0.599
1.188
0.574
0.285
0.726
1.739
0.174
0.556
0.176
0.375
0.591
0.291
0.475
0.721
0.440
0.552
0.344
0.801
0.313
0.086
0.328
0.279
0.222
0.718
0.534
0.143
0.730
0.611
0.608
0.049
0.375
0.486
0.665
0.673
0.381
0.952
0.391
0.241
1.306
0.792
0.213
0.197
0.239
0.445
1.156
0.826
1.925
0.781
0.397
1.101
2.742
0.244
0.636
0.255
0.518
0.939
0.404
0.677
1.035
0.609
0.848
0.438
1.219
0.439
0.126
0.489
0.381
0.287
1.135
0.603
0.197
1.119
0.876
0.918
0.054
0.503
0.7
1.0
1.0
0.6
1.3
0.6
0.4
1.8
1.1
0.4
0.4
0.4
0.7
1.6
1.2
2.6
1.1
0.6
1.5
3.7
0.4
0.9
0.4
0.8
1.3
0.6
1.0
1.4
0.9
1.2
0.7
1.7
0.7
0.3
0.7
0.6
0.5
1.6
0.9
0.4
1.6
1.2
1.3
0.2
0.8
-------
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Polygon Statsgo Geology No. of
No. No. Class Points
Geom.
Mean
Radium
(pCi/g)
Geom,
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
60%
75%
90%
96%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L) 	
11094
11095
11097
11101
11102
11109
11110
11112
11116
11118
11119
11122
11123
11125
11126
11129
11133
11136
11137
11143
11148
11149
11151
11161
11162
11167
11168
11177
11182
11184
11191
11198
11203
11208
11209
11213
11214
11215
11216
11218
11220
11221
11222
11223
11227
107
108
111
115
114
105
106
106
101
106
101
108
139
105
139
199
105
107
101
199
106
111
111
104
119
106
115
105
11 1
199
115
100
105
139
106
101
103
103
105
209
211
108
106
104
106
Qsu2b
Qsu2b
Thpr2
Qui
Qd1
Qsu1
Qsu1
Qui
Qa1
Qsu2b
Qbd1
Qsu2a
Qsu1
Qsu2b
Qui
water
Qsu2b
Qsu1
Qsu2b
water
Qui
Qsu2a
Qsu2b
Qsu1
Qa1
Qsu2b
Qsu1
Qsu2b
Qh1
Qa1
water
Qa1
Qsu2b
Qsu1
Qsu2a
Qui
Qsu2b
Qsu2b
Qsu2b
Qsu1
Qsu1
Qsu2b
Qsu2b
Qa1
Qal
77
1561
28
153
78
66
29
177
157
182
19
262
151
14
26
35
106
27879
43
591
892
57
I	0
22
64
140
54
18
28
II
384
323
33
27879
134
53471
5182
648
51
21
28
34
360
225
5
0.112
0.103
0.113
0.093
0.268
0.073
0.107
0.120
0.190
0.161
0.108
0.432
0.042
0.045
0.127
0.214
0.112
0.085
0.048
0.087
0.115
0.254
0.150
0.195
0.118
0.137
0.079
0.274
0.333
0.017
0.046
0.034
0.608
0.085
0.145
0.155
0.108
0.117
0.142
0.136
0.044
0.410
0.200
0.025
0.129
2.762
3.403
3.129
2.952
3.113
3.475
3.414
3.351
3.706
3.224
2.470
3.921
2.858
2.737
2.886
3.232
3.740
3.726
2.698
3.569
3.314
4.931
2.579
2.621
4.018
3.375
3.135
2.015
2.095
1.000
3.555
2.877
1.399
3.726
3.173
3.814
3.435
3.488
2.877
2.561
2.702
1.782
2.522
2.423
1.601
0.044
0.234
0.100
0.074
0.393
0.073
0.130
0.143
0.304
0.232
0.195
0.650
0.066
0.065
0.138
0.091
0.107
0.043
0.332
0.067
0.138
0.164
0.106
0.179
0.160
0.209
0.069
0.202
0.128
0.052
0.055
0.081
0.442
0.105
0.212
0.261
0.140
0.153
0.120
0.041
0.033
0.450
0.260
0.052
0.135
0.052
0.449
0.144
0.115
0.625
0.123
0.231
0.255
0.518
0.378
0.267
1.267
0.092
0.091
0.233
0.141
0.195
0.050
0.454
0.097
0.240
0.305
0.155
0.295
0.321
0.349
0.102
0.297
0.184
0.071
0.078
0.113
0.585
0.192
0.348
0.421
0.247
0.272
0.204
0.048
0.036
0.682
0.383
0.063
0.168
0.067
0.786
0.205
0.180
1.093
0.223
0.432
0.456
0.953
0.642
0.372
2.536
0.141
0.127
0.411
0.230
0.369
0.068
0.597
0.139
0.428
0.632
0.215
0.478
0.644
0.583
0.170
0.438
0.273
0.092
0.122
0.153
0.707
0.366
0.562
0.803
0.445
0.496
0.337
0.059
0.040
1.058
0.586
0.081
0.215
0.081
1.093
0.252
0.243
1.539
0.314
0.655
0.663
1.427
0.958
0.462
3.748
0.190
0.164
0.548
0.357
0.571
0.090
0.699
0.177
0.607
1.124
0.266
0.668
1.071
0.856
0.245
0.561
0.351
0.107
0.175
0.191
0.800
0.543
0.814
1.153
0.690
0.742
0.489
0.068
0.043
1.376
0.739
0.097
0.262
0.2
1.5
0.4
0.4
2.1
0.5
1.0
1.0
2.0
1.3
0.7
5.0
0.3
0.3
0.8
0.6
0.8
0.2
1.0
0.3
0.9
1.6
0.4
1.0
1.5
1.2
0.4
0.8
0.6
0.2
0.3
0.3
1.1
0.8
1.2
1.6
1.0
1.1
0.7
0.2
0.2
1.9
1.1
0.2
0.4
_T_7Q
-------
Wo.
11229
11230
11231
11232
1234
11236
11239
(1243
1248
1249
1259
1260
1261
1262
1263
1265
1269
1273
1277
1279
1280
1283
1290
1291
1294
1295
1296
1297
1299
1311
1316
1318
1319
1321
1322
1324
1326
1327
1328
1330
1334
1336
1337
1339
1340
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Geom.
Mean	Geom.
Statago Geology No. of Radium	S.D.
No.	Clou Points (pCtfg)	Radium 50%
Radon Potential (mCi/yr)
at Specified Confidence Limit
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
101
105
139
102
111
107
104
108
139
110
111
110
210
106
101
101
111
215
103
139
106
140
199
106
21 9
21 1
219
103
140
101
105
102
139
115
108
103
106
108
210
103
209
103
108
106
104
Qa1
Qsu2b
Qui
Qa1
Qh1
Qsu2b
Qsu2b
Qsu2b
Qa1
Qsu2b
Qhl
Qsu2a
Qsu1
Qsu1
Qd1
Qsu2b
Qsu2b
Qa1
Qsu2b
Qa1
Qsu2b
Qa1
Qa1
Qh1
water
Qsu1
Qsu1
Qsu2b
Oa1
Qa1
Qsu1
Qh1
Oa1
Qsu1
Tt2
Qui
Qsu1
Qsu2b
Qsu1
Qsul
Qsu1
Qsu1
Qsu1
Qsu1
Qsu1
10
47
23
12
12
93
36
5182
14
5182
67
71
1335
31 1
9
24
8
1 7
1 1
6626
24
6626
28
3834
17
429
284
5182
6626
57
66
3834
39
a
107
53471
136
5182
25
29
27879
69
1 56
142
36
0.202
0.095
0.23 3
0.121
0.051
0.275
0.061
0.108
0.071
0.108
0.419
0.215
0.128
0.124
0.096
0.072
0.504
0.082
0.086
0.126
0.202
0.126
0.089
0.171
0.042
0.055
0.077
0.108
0.126
0.089
0.118
0.171
0.073
0.107
0.115
0.155
0.111
0.108
0.159
0.078
0.085
0.130
0.065
0.060
0.181
1.834
2.687
2.600
2.705
2.716
2.487
3.360
3.435
2.731
3.435
3.044
3.653
3.976
2.955
3.180
3.670
1.797
3.270
3.340
4.240
2.013
4.240
2.780
3.644
3.314
3.239
3.426
3.435
4.240
2.883
2.730
3.644
3.147
2.429
2.658
3.814
3.275
3.435
2.419
2.810
3.726
3.024
3.120
3.550
2.345
0.26B
0.094
0.237
0.233
0.060
0.056
0.097
0.241
0.089
0.423
0.176
0.539
0.045
0.141
0.192
0.371
0.207
0.087
0.124
0.148
0.254
0.314
0.069
0.201
0.506
0.034
0.537
0.143
0.311
0.184
0.098
0.282
0.091
0.079
0.224
0.186
0.133
0.238
0.046
0.091
0.038
0.143
0.114
0.088
0.163
0.349
0.139
0.398
0.309
0.073
0.077
0.150
0.439
0.136
0.576
0.303
0.798
0.053
0.238
0.286
0.517
0.293
0.142
0.208
0.317
0.338
0.493
0.094
0.381
0.677
0.038
0.706
0.248
0.471
0.257
0.156
0.444
0.150
0.112
0.402
0.363
0.233
0,457
0.050
0.147
0.046
0.252
0.194
0.147
0.257
0.450
0.214
0.651
0.434
0.093
0.110
0.230
0.820
0.212
0.774
0.543
1.269
0.068
0.405
0.434
0.716
0.398
0.255
0.359
0.664
0.456
0.856
0.124
0.775
0.859
0.044
0.925
0.449
0.868
0.359
0.259
0.809
0.248
0.176
0.754
0.750
0.414
0.812
0.057
0.244
0.059
0.439
0.337
0.245
0.390
0.521
0.291
0.915
0.554
0.108
0.147
0.329
1.108
0.288
0.960
0.826
1.814
0.086
0.562
0.585
0.850
0.487
0.345
0.536
1.102
0.532
1.318
0.155
1.163
0.994
0.051
1.065
0.664
1.317
0.461
0.353
1.184
0.363
0.239
1.009
1.214
0.567
1.119
0.064
0.344
0.072
0.641
0.494
0.365
0.507
0.8
0.5
1.3
0.8
0.2
0.3
0.5
1.5
0.5
1.3
1.2
2.5
0.2
0.8
0.9
1.2
0.7
0.5
0.8
1.5
0.8
1.8
0.3
1.6
1.4
0.2
1.5
1.0
1.8
0.7
0.6
1.6
0.6
0.4
1.4
1.7
0.8
1.6
0.2
0.5
0.2
0.9
0.7
0.6
0.8
-------
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Polygon
Statago
Geology
No.
No.
Class
11345
102
Qa1
11348
103
T!2
11351
108
Qsu2b
11352
103
Qsu1
11354
140
Qal
1 1355
108
Qsu1
11356
106
Qsu1
11358
100
Qsu1
11360
103
Tt2
11362
224
Qsu1
11363
108
Qsu2b
11365
222
Qsu1
11366
210
Qsu1
11367
213
Qsu1
11368
104
Qsul
11370
108
Qsu1
11372
106
Qsul
11373
209
Qsul
11375
108
Tt2
11376
111
Qhl
11378
106
Tt2
11380
110
Qsu2b
1 1384
104
Qsul
11386
209
Qsul
11388
104
Qsul
1 1389
104
Qsu2b
11390
139
Qa1
11391
102
Qh1
11392
111
Qh1
11393
103
Qsul
11394
103
Tt2
11396
104
Tt2
11397
111
Qsul
11398
106
Qsu2b
11399
220
Qsul
11401
103
Qsul
11402
106
Qsul
11403
TOO
Otitis 1
t T405
104
Qsul
11406
104
Qsul
11407
103
Tl2
1 1408
108
Qsul
11409
103
Qsul
11410
106
Qsu2
11411
209
Qsul
No. of
Points
Geom.
Mean
Radium
(pCi/g)
Geom.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
60%
76%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
16
146
5182
27879
51
27B79
227
108
228
220
31
1744
229
287
27
60
80
1597
460
92
40
223
4
51
27879
5182
9
3834
17
35
78
16
63
28
27879
22
34 8
18
1 543
27879
1 1
27879
27879
126
27879
0.073
0.074
0.108
0.085
0.049
0.085
0.091
0.023
0.171
0.039
0.058
0.065
0.172
0.086
0.161
0.072
0.131
0.126
0.098
0.163
0.127
0.085
0.058
0.017
0.085
0.108
0.064
0.171
0.068
0.042
0.098
0.563
0.068
0.061
0.085
0.055
0.108
0.017
0.057
0.085
0.122
0.085
0.085
0.126
0.085
2.949
2.964
3.435
3.726
2.797
3.726
3.442
2.422
2.722
3.296
3.024
3.784
2.835
3.576
2.408
2.696
2.767
4.801
3.259
3.811
3.760
3.270
2.340
1.000
3.726
3.435
2.877
3.644
3.027
2.726
2.961
1.386
3.207
3.092
3.726
3.043
3.000
1 .000
3.103
3.726
3.141
3.726
3.726
2.908
3.726
0.195
0 108
0.233
0.105
0.224
0.133
0.113
0.073
0.198
0.433
0.181
0.042
0.047
0.134
0.147
0.115
0.147
0.042
0.223
0.090
0.209
0.387
0.071
0.033
0.098
0.133
0.083
0.284
0.064
0.062
0.130
0.511
0.065
0.141
0.155
0.D74
0.128
0.062
0.073
0.096
0.156
0.137
0.105
0.195
0.038
0.257
0.167
0.459
0.197
0.271
0.249
0.197
0.092
0.322
0.572
0.343
0.046
0.053
0.246
0.231
0.198
0.239
0.058
0.415
0.148
0.346
0.527
0.099
0.035
0.174
0.229
0.129
0.470
0.082
0.090
0.207
0.618
0.084
0.193
0.222
0.117
0.211
0.077
0.113
0.176
0,258
0.248
0.198
0.293
0.045
0.345
0.264
0.798
0.386
0.334
0 442
0.360
0.118
0.527
0.719
0.665
0.052
0.064
0.414
0.358
0.325
0.388
0.095
0.760
0.262
0.623
0.700
0.148
0.036
0.323
0.385
0.209
0.781
0.110
0.138
0.344
0.742
0.116
0.277
0.317
0.192
0.356
0.094
0.180
0.318
0.491
0.429
0.378
0.460
0.060
0.411
0.367
1.184
0.563
0.387
0.612
0.520
0.140
0.719
0.823
0.958
0.059
0.073
0.570
0.466
0.449
0.525
0.137
1.104
0.399
1.003
0.859
0.199
0.037
0.488
0.579
0.296
1.100
0.134
0.183
0.464
0.848
0.142
0.357
0.388
0.277
0.482
0.106
0.250
0.486
0.739
0.625
0.570
0.582
0.075
0.6
0.6
1.6
0.8
0.6
0.9
0.8
0.3
1.0
1.2
1.3
0.2
0.2
0.8
0.7
0.7
0.8
0.3
1.5
0.6
1.4
1.2
0.4
0.1
0.7
0.9
0.5
1.5
0.3
0.3
0.7
1.2
0.3
0.6
0.6
0.5
0.7
0.2
0.4
0.7
1.1
0.9
0.8
0.9
0.2
T <-*/\
-------
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Geom.	Ref. House
Mean	Geom.	Radon Potential (mCi/yr) Indoor Radon
Polygon Statsgo Geology No. of Radium	S.D. at Specified Confidence Limit	 at 95% C.L.
No.	No. Class Points (pCi/g)	Radium 50% 75% 90% 95%	(pCi/L)
11412
139
Qtmal
11415
106
Qsu1
11416
21 1
Qsu1
11417
103
Qsu2
11420
108
Qsu2
11427
111
Ohl
11428
106
Qh1
11429
100
Qsu1
11430
100
Qtmal
11431
104
Qsu1
11433
220
Qui
11434
224
Qui
11435
111
Qh1
11436
213
Qui
11438
108
Qsu2b
11440
220
Qsu1
11442
103
Qsu1
11444
210
Qsul
11445
105
Qsu2
11446
140
Qa1
11447
224
Qsu1
11448
104
Qsu2
11449
106
Qui
1 1450
210
Qsul
11452
213
Qsu1
1 1457
210
Qsul
11458
106
Qsul
11459
139
Tt2
11460
106
Tt2
11461
139
Qsul
11463
211
Qsul
11464
105
Qa1
11465
210
Qsul
11467
139
Qsu2
11468
100
Qtmal
11470
106
Qsu2
11473
104
Qtmal
11474
105
Qsu2
11475
106
Qsu2
11478
103
Qui
11479
108
Qsu2
11480
219
Qsul
11481
108
Qui
11482
102
Qh1
11486
106
Qsul
82	0.017	1.080	0.040	0.050	0.053	0.054	0.2
90	0.117	2.991	0.134	0.227	0.378	0.549	0.8
75	0.143	3.107	0.040	0.049	0.068	0.086	0.2
185	0.092	3.148	0.126	0.203	0.343	0.480	0.7
455	0.115	3.144	0.241	0.430	0.770	1.106	1.5
19	0.160	2.382	0.083	0.114	0.161	0.205	0.4
3	0.084	4.233	0.118	0.223	0.555	1.104	1.5
27	0.128	2.506	0.160	0.243	0.374	0.503	0.8
140	0.022	2.168	0.071	0.089	0.109	0.126	0.3
29	0.094	3.293	0.101	0.172	0.317	0.459	0.7
29	0.045	2.843	0.141	0.204	0.282	0.335	0.5
21	0.080	3.098	0.456	0.608	0.776	0.891	1.3
31	0.052	3.343	0.062	0.077	0.102	0.130	0.3
233	0.034	3.279	0.093	0.164	0.274	0.368	0.6
39	0.263	2.323	0.348	0.596	0.977	1.287	1.8
96	0.091	3.262	0.155	0.218	0.301	0.375	0.6
27879	0.085	3.726	0.105	0.199	0.377	0.571	0.8
27879	0.085	3.726	0.043	0.048	0.056	0.065	0.2
9	0.049	3.186	0.069	0.100	0.154	0.213	0.4
6626	0.126	4.240	0.311	0.481	0.887	1.314	1.8
55	0.098	3.011	0.473	0.622	0.779	0.928	1.3
3040	0.090	3.229	0.119	0.186	0.308	0.430	0.7
426	0.058	3.585	0.086	0.140	0.244	0.355	0.6
27879	0.085	3.726	0.043	0.047	0.057	0.065	0.2
85	0.132	3.001	0.170	0.292	0.447	0.607	0.9
27879	0.085	3.726	0.043	0.047	0.057	0.065	0.2
69	0.164	2.606	0.177	0.281	0.455	0.590	0.9
1	0.017	4.000	0.080	0.102	0.146	0.209	0.4
39	0.055	3.164	0.137	0.183	0.262	0.334	0.5
26	0.045	3.069	0.070	0.103	0.163	0.224	0.4
20	0.083	3.459	0.036	0.042	0.054	0.066	0.2
6626	0.126	4.240	0.114	0.229	0.509	0.845	1.2
27879	0.085	3.726	0.043	0.047	0.057	0.065	0.2
76	0.045	2.812	0.099	0.129	0.179	0.224	0.4
464	0.032	2.856	0.079	0.107	0.147	0.186	0.3
645	0.074	3.166	0.153	0.213	0.314	0.419	0.6
15	0.017	1.000	0.046	0.050	0.055	0.058	0.2
213	0.115	3.064	0.106	0.173	0.309	0.418	0.6
17	0.084	3.101	0.160	0.229	0.352	0.467	0.7
71	0.048	3.192	0.069	0.107	0.181	0.256	0.4
85	0.080	3.030	0.203	0.376	0.669	1.018	1.4
49	0.074	2.973	0.525	0.699	0.883	1.047	1.5
6	0.108	2.442	0.138	0.230	0.389	0.547	0.8
68	0.126	3.349	0.239	0.350	0.529	0.748	1.1
27879	0.085	3.726	0.113	0.198	0.383	0.542	0.8
-------
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Polygon Statsgo Geology No. of
No. No. Class Points
Geom.
Mean
Radium
-------
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Polygon Statsgo Geology No. of
No. No. Class Points
Geom.
Mean
Radium
(pCi/g)
Geom.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
11571
11572
11574
11575
11576
11570
11579
11581
11582
11584
11585
11586
11588
11589
11591
11596
11599
1 1600
11601
1 1602
1 1603
11604
11606
1 1607
1 1608
11609
11610
11613
11614
11622
11624
11625
11626
11627
11630
11631
11636
1 1637
11638
11641
11645
1 1646
1 1648
11649
11650
110
103
221
223
99
106
139
213
108
140
106
103
222
106
104
103
103
106
103
1 1 1
219
104
103
103
108
213
106
104
103
108
103
219
212
108
106
221
103
104
224
140
106
108
108
141
102
Tt2
Qsu2
Qsu1
Qsu1
Qsu2
Tt2
Qa1
Qsu1
Qsu2
Qa1
Qsu1
Qsu2
Qsu1
Qsu2
Qlmaf
Qsu1
Qui
Qsu2
Qui
Qh1
Qsu1
Qtmal
Qsu1
Tt2
Qsu1
Qui
Qsu1
Qsu1
Tt2
Tt2
Qsu2
Qm2
Qsu1
T12
Tl2
Qm2
Tl2
Qm2
Qsu1
Qm2
Qsu1
Qsu2
Tt2
Qm2
Qa1
6547
3040
1164
659
3040
223
6626
2339
71
6
27879
3040
27879
227
87
27879
74
42
53471
31
58
32
29
1 2
117
55
51
38
29
1 7
1 4
495
1 3
46
275
182
8547
10000
27879
22
69
3040
46
235
6626
0.091
0.090
0.057
0.080
0.090
0.072
0.126
0.081
0.105
0.257
0.085
0.090
0.085
0.063
0.034
0.085
0.048
0.040
0.155
0.137
0.095
0.059
0.032
0.029
0.038
0.052
0.028
0.046
0.041
0.126
0.083
0.071
0.022
0.056
0.080
0.123
0.091
0.103
0.085
0.051
0.028
0.090
0.207
0.017
0.126
3.618
3.229
3.460
4.562
3.229
3.103
4.240
3.457
2.943
1.921
3.726
3.229
3.726
3.153
2.971
3.726
3.082
2.734
3.814
3.085
3.325
3.148
2.385
2.504
2.626
3.224
2.270
2.873
2.918
3.B13
2.216
3.277
2.175
3.086
3.282
3.093
3.618
4.140
3.726
4.175
2.363
3.229
2.249
1.000
4.240
0.399
0.123
0.036
0.036
0.000
0.150
0.149
0.133
0.216
0.413
0.112
0.125
0.043
0.142
0.058
0.102
0.068
0.121
0.183
0.081
0.557
0.074
0.054
0,070
0.088
0.106
0.063
0.067
0.080
0.266
0.112
1.481
0.322
0.175
0.156
0.047
0.129
0.136
0.477
0.589
0.062
0.218
0.300
0.198
0.250
0.543
0.203
0.040
0.044
0.000
0.211
0.301
0.230
0.409
0.517
0.206
0.206
0.048
0.198
0.079
0.198
0.105
0.156
0.374
0.118
0.725
0.116
0.074
0.094
0.153
0.190
0.076
0.095
0.114
0.514
0.159
1.970
0.408
0.356
0.229
0.055
0.220
0.244
0.624
0.718
0.077
0.400
0.478
0.392
0.394
0.756
0.348
0.048
0.065
0.000
0.309
0.673
0.379
0.750
0.690
0.366
0.347
0.056
0.283
0.118
0.381
0.170
0.202
0.769
0.178
0.941
0.190
0.101
0.123
0.261
0.303
0.097
0.141
0.166
0.914
0.217
2.553
0.503
0.636
0.347
0.070
0.402
0.473
0.812
0.887
0.098
0.701
0.828
0.725
0.719
0.946
0.489
0.056
0.088
0.000
0.396
1.061
0.535
1.095
0.822
0.547
0.487
0.065
0.376
0.151
0.562
0.246
0.242
1.205
0.238
1.090
0.270
0.126
0.147
0.370
0.413
0.115
0.190
0.217
1.317
0.275
2.975
0.573
0.912
0.463
0.082
0.600
0.766
0.988
1.007
0.118
1.077
1.167
1.053
1.054
1.3
0.7
0.2
0.2
0.1
0.6
1.5
0.8
1.5
1.2
0.8
0.7
0.2
0.6
0.3
0.8
0.4
0.4
1.7
0.4
1.5
0.5
0.3
0.3
0.6
0.6
0.2
0.3
0.4
1.8
0.5
4.0
0.8
1.3
0.7
0.2
0.9
1.1
1.4
1.4
0.3
1.5
1.6
1.5
1.5
J-83
-------
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Polygon Statsgo Geology No. of
No. No. Clas* Points
Geom.
Mean
Radium
(pCi/g)
Geom.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
11651
103
Qsu2
11653
103
Qh1
11655
104
Qsul
11657
103
Tt2
11658
103
Tt2
11660
101
Qm2
11661
103
Tt2
11662
104
Qsu1
1 1663
106
Qsu1
11667
107
Qm2
11668
138
Qm2
1 1671
214
Qsu1
11672
108
Tt2
11673
110
Qsu2
11676
103
Tt2
11677
214
Tt2
11679
108
Tt2
11680
208
Qsu1
11681
141
Qm2
11682
214
Tt2
11683
103
Tt2
11685
213
Tt2
11687
106
Tt2
1 1688
214
Tt2
11689
110
TI2
11690
110
Qh1
11692
102
Qm2
11695
213
Tt2
11696
139
Qm2
11698
108
Tt2
1 1699
212
Qsul
11701
212
Tl2
11703
214
Qsu1
1 1704
101
Qm2
11705
138
Qm2
11707
103
Tt2
11708
141
Qm2
11709
110
Tt2
11710
221
Qsu1
11711
108
Tt2
11712
138
Qm2
11714
212
Qsul
11716
212
Tt2
11718
141
Qm2
11719
208
Qm2
3040
7
154
8547
26
10000
59
27879
73
10000
10000
67
84
3040
53
936
102
2184
10000
8
46
2856
67
8547
145
32
10000
63
44
1 8
37
66
36
10000
10000
24
10000
8547
27879
175
32
17
65
100
4018
0.090
0.086
0.037
0.091
0.161
0.103
0.039
0.085
0.035
0.103
0.103
0.042
0.051
0.090
0.062
0.066
0.127
0.050
0.103
0.053
0.042
0.072
0.127
0.091
0.107
0.134
0.103
0.049
0.017
0.063
0.028
0.026
0.024
0.103
0.103
0.081
0.103
0.091
0.085
0.167
0.017
0.175
0.060
0.017
0.104
3.229
3.223
2.629
3.618
2.445
4.140
2.852
3.726
2.711
4.140
4.140
2.823
3.255
3.229
2.971
3.167
3.182
3.339
4.140
2.048
2.755
3.758
2,771
3.618
3.196
3.071
4.140
3.023
1.000
3.192
2.332
2.119
1.958
4.140
4.140
3.262
4.140
3.618
3.726
2.589
1.000
3.578
3.064
1.000
3.962
0.128
0.102
0.060
0.130
0.180
0.428
0.078
0.095
0.068
0.045
0.805
0.210
0.175
0.395
0.097
0.554
0.251
0.081
0.357
0.513
0.080
0.215
0.194
0.591
0.410
0.229
0.496
0.179
0.075
0.189
0.323
0.926
0.188
0.417
0.765
0.114
0.357
0.403
0.038
0.282
0.643
0.389
0.939
0.198
0.190
0.202
0.182
0.080
0.226
0.287
0.601
0.113
0.172
0.089
0.055
1.102
0.349
0.356
0.540
0.147
0.933
0.468
0.121
0.626
0.901
0.116
0.411
0.290
1.001
0.562
0.330
0.671
0.341
0.086
0.360
0.411
1.198
0.317
0.593
1.121
0.192
0.645
0.556
0.045
0.484
0.906
0.502
1.216
0.392
0.311
0.341
0.344
0.111
0.401
0.454
0.890
0.157
0.330
0.124
0.080
1.499
0.537
0.623
0.696
0.230
1.540
0.797
0.179
1.119
1.497
0.163
0.704
0.434
1.603
0.758
0.507
0.965
0.628
0.097
0.672
0.505
1.508
0.508
0.892
1.515
0.324
1.112
0.744
0.059
0.789
1.221
0.655
1.533
0.725
0.479
0.505
0.521
0.141
0.584
0.572
1.099
0.202
0.497
0.160
0.118
1.856
0.717
0.936
0.852
0.310
2.074
1.163
0.224
1.580
2.052
0.207
1.031
0.545
2.158
0.932
0.717
1.185
0.913
0.105
0.975
0.572
1.731
0.686
1.210
1.904
0.450
1.496
0.948
0.073
1.110
1.464
0.776
1.748
1.053
0.614
0.8
0.8
0.3
0.9
0.8
1.5
0.4
0.7
0.3
0.3
2.5
1.0
1.3
1.2
0.5
2.8
1.6
0.4
2.2
2.8
0.4
1.4
0.8
2.9
1.3
1.0
1.6
1.3
0.2
1.4
0.8
2.4
1.0
1.7
2.6
0.7
2.0
1.3
0.2
1.5
2.0
1.1
2.4
1.5
0.9
J-84
-------
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
y
f
a
Statsgo
Geolog
No.
No.
Class
11720
212
TI2
11721
103
Tt2
11722
212
Qsu1
11725
212
Tt2
11726
138
Qm2
11727
212
Tt2
11729
212
Tt2
11731
212
Qsu1
11732
138
Qm2
11735
141
Qm2
11736
103
Tt2
11737
108
Qm2
11741
107
Qm2
11742
111
Qh1
11743
111
Tt2
11745
213
Tt2
11747
107
Qm2
11748
102
Qm2
11749
108
Qm2
11750
139
Tt2
11751
213
TI2
11752
103
Tt2
1 1753
138
Qm2
11754
111
Tt2
11755
21 2
T12
11760
111
Qh1
11761
1 99
Qh1
11762
212
T\2
11763
212
Tt2
11765
140
Qm2
11766
141
Qm2
11767
138
Qm2
11768
106
Tt2
11773
111
Qh1
11774
212
Tt2
11776
138
Qm2
11778
212
Tt2
11779
212
Tt2
11780
141
Qm2
11784
202
Qhl
11787
204
Qm2
11789
202
Tt2
11790
212
Tt2
11791
213
Qm2
11793
141
Qh1
No. of
Points
Geom.
Mean
Radium
(pCi/g)
Geom.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
60%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
54
8547
27879
8547
107
105
14
52
10000
32
8547
63
10000
35
8547
62
10000
10000
10000
8547
159
103
10000
8547
17
3834
123
5
1 3
10000
96
10000
69
40
674
10000
1 3
8547
40
500
683
65
8547
933
3834
0.057
0.091
0.085
0.091
0.017
0.053
0.021
0.176
0.103
0.066
0.091
0.017
0.103
0.282
0.091
0.069
0.103
0.103
0.103
0.091
0.266
0.218
0.103
0.091
0.133
0.171
0.146
0.219
0.108
0.103
0.062
0.103
0.341
0.318
0.211
0.103
0.125
0.091
0.180
0.205
0.208
0.178
0.091
0.093
0.171
2.731
3.618
3.726
3.618
1.000
3.390
1.551
3.078
4,140
3.226
3.618
1.000
4.140
2.526
3.618
2.894
4.140
4.140
4.140
3.618
2.361
2.387
4.140
3.618
4.247
3.644
3,321
1.879
3.552
4.140
3.391
4.140
1.754
1.935
2.907
4.140
2.325
3.618
3.445
2.958
3.967
2.885
3.618
3.726
3.644
0.940
0.128
0.355
0.961
0.644
0.937
0.924
0.384
0.783
0.280
0.128
0.128
0.045
0.117
0.097
0.200
0.045
0.506
0.249
0.139
0.362
0.240
0.780
0.096
1.002
0.092
0.078
0.981
0.964
0.655
0.281
0.794
0.379
0.124
1.005
0.781
0.953
0.970
0.442
0.077
0.774
0.072
0.959
0.234
0.287
1.214
0.226
0.452
1.244
0.905
1.223
1.197
0.'488
1.131
0.500
0.225
0.282
0.056
0.177
0.140
0.355
0.056
0.684
0.476
0.227
0.575
0.376
1.112
0.140
1.285
0.146
0.116
1.253
1.249
0.825
0.494
1.103
0.500
0.167
1.280
1.113
1.228
1.243
0.762
0.107
1.104
0.098
1.242
0.450
0.510
1.515
0.410
0.564
1.551
1.222
1.534
1.506
0.606
1.551
0.871
0.412
0.574
0.081
0.282
0.204
0.667
0.080
0.942
0.906
0.408
0.892
0.592
1.536
0.203
1.628
0.267
0.181
1.561
1.567
1.110
0.861
1.534
0.638
0.231
1.602
1.539
1.538
1.565
1.303
0.167
1.716
0.143
1.568
0.787
0.869
1.738
0.599
0.642
1.772
1.464
1.750
1.729
0.701
1.863
1.175
0.594
0.881
0.120
0.382
0.254
0.961
0.118
1.172
1.285
0.590
1.177
0.760
1.832
0.263
1.913
0.379
0.267
1.805
1.779
1.402
1.149
1.852
0.758
0.298
1.870
1.916
1.763
1.757
1.741
0.223
2.468
0.191
1.781
1.142
1.198
2.4
0.9
0.9
2.4
2.0
2.4
2.3
1.0
2.5
1.6
0.9
1.2
0.3
0.6
0.4
1.3
0.3
1.6
1.8
0.9
1.6
1.1
2.5
0.4
2.6
0.6
0.4
2.4
2.4
1.9
1.6
2.5
1.1
0.5
2.5
2.6
2.4
2.4
2.4
0.4
3.3
0.3
2.4
1.6
1.7
J-ftS
-------
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Polygon Statsgo Geology No. of
No. No. Class Points
G®om.
Moan
Radium
(pCi/g)
Geom.
SD-
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
50%
75%
90%
95%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
11797
11 BOO
11801
11802
11803
11806
11807
11808
11809
11810
11811
11312
11818
11819
11820
11822
11831
11832
11833
11834
11835
11837
11838
11841
1 1842
11843
11844
11846
11847
11849
11851
11853
11854
11857
11862
11865
11869
M870
11876
11877
11879
11882
1 1884
11885
11887
202
202
196
196
212
196
213
202
212
212
212
212
196
212
204
212
196
212
212
204
206
212
202
208
204
205
202
203
213
202
196
196
202
203
207
203
196
213
203
213
202
203
202
213
203
Tt2
Tt2
Qh1
water
Qm2
Qh1
Qhl
Qhl
Qm2
Qm2
Qm2
Tt2
Qh1
T*2
Qm2
Qm2
Qh1
Qm2
TI2
Qm2
Qm2
Tt2
Qh1
Tt2
Qm2
Qm2
Qh1
Tt2
Tt2
Om2
Qh1
water
Qh1
Qh1
Qm2
Qh1
Qh1
Qhl
Qh1
Qh1
Qh1
Qm2
water
Qh1
Qh1
8547
72
50
29
12
14
93
29
10000
10000
10000
8547
3834
8547
10000
126
3834
10000
18
10000
734
8547
3834
88
10000
1112
3834
72
8547
192
3834
5995
3834
3834
28
35
3834
3834
3834
3834
231
574
5995
3834
3834
0.091
0.189
0.657
0.386
0.083
0.318
0.169
0.639
0.103
0.103
0.103
0.091
0.171
0.091
0.103
0.072
0.171
0.103
0.298
0.103
0 150
0.091
0.171
0.651
0.103
0.118
0.171
0.525
0.091
0.078
0.171
0.069
0.171
0.171
0.041
0.625
0.171
0.171
0.171
0.171
0.077
0,174
0.069
0.171
0.171
3.618
2.992
1.324
1.965
2.731
2.188
2.504
1.488
4.140
4.140
4.140
3.618
3.644
3.618
4.140
3.232
3.644
4.140
1.738
4.140
3.999
3.618
3.644
1.435
4.140
3.982
3.644
1.459
3.618
3.704
3.644
3.708
3.644
3.644
2.B68
1.376
3.644
3.644
3.644
3.644
4.629
4.317
3.708
3.644
3.644
0.060
0.074
0.124
0.088
0.952
0.080
0.184
0.153
0.980
0.960
0.979
0.962
0.067
0.960
0.637
0.947
0.066
0.983
1.001
0.634
0.828
0.971
0.073
0.221
0.633
2.012
0.072
0.232
0.224
0.058
0.066
0.055
0.072
0.113
1.652
0.213
0.067
0.218
0.113
0.214
0.058
0.175
0.056
0.210
0.112
0.077
0.102
0.148
0.115
1.224
0.105
0.303
0.197
1.269
1.264
1.280
1.230
0.091
1.244
0.826
1.221
0.091
1,257
1.276
0.833
1.222
1.231
0.106
0.339
0.826
2.265
0.104
0.307
0.427
0.072
0.090
0.063
0.109
0.162
1.958
0.254
0.090
0.381
0.167
0.384
0.078
0.280
0.068
0.380
0.165
0.109
0.160
0.186
0.154
1.530
0.144
0.459
0.250
1.586
1.581
1.571
1.552
0.138
1.540
1.103
1.536
0.138
1.596
1.576
1.140
1.737
1.552
0.177
0.505
1.105
2.505
0.184
0.396
0.768
0.102
0.138
0.082
0.172
0.255
2.276
0.299
0.139
0.639
0.241
0.649
0.120
0.429
0.096
0.654
0.253
0.142
0.212
0.205
0.180
1.768
0.181
0.618
0.297
1.798
1.824
1.803
1.765
0.188
1.769
1.447
1.741
0.194
1.845
1.791
1.436
2.173
1.755
0.258
0.653
1.443
2.671
0.260
0.457
1.115
0.136
0.192
0.098
0.244
0.344
2.485
0.326
0.198
0.933
0.338
0.913
0.179
0.596
0.121
1.011
0.343
0.3
0.4
0.4
0.3
2.4
0.3
0.9
0.5
2.4
2.5
2.4
2.4
0.3
2.4
2.0
2.4
0.4
2.5
2.4
2.0
2.9
2.4
0.4
0.9
2.0
3.6
0.4
0.7
1.6
0.3
0.4
0.2
0.4
0.5
3.3
0.5
0.4
1.3
0.5
1.3
0.3
0.9
0.3
1.4
0.5
T QC
-------
Table J-l (Continued)
State-Wide Radium and Eadon Potential Distributions
by Polygon Number
Polygon Statsgo Geology No. of
No. No. Class Points
Geom.
Meaij
Radium
(pCi/g)
Geom.
S.D.
Radium
Radon Potential (mCi/yr)
at Specified Confidence Limit
50%
75*
90%
85%
Ref. House
Indoor Radon
at 95% C.L.
(pCi/L)
11889
11891
11892
11894
1 1897
11898
11899
11903
11906
11912
11914
11921
1 1922
11924
11927
11929
1 1930
1 1932
1 1933
1 1934
1 1 935
11937
11938
11940
11942
11943
11944
11946
11950
11958
11961
11964
11967
1197B
11983
11988
12008
12026
12029
12070
12075
12077
12079
12080
12082
204
203
203
204
201
207
207
196
203
201
202
202
207
196
201
202
202
202
203
201
196
203
202
201
202
203
196
196
196
202
196
196
196
196
196
201
196
201
196
196
202
201
201
201
201
Qm2
Qm2
Qh1
Qm2
Qkl
Qm2
Qm2
Qk1
Qh1
Qk1
Qm2
Qm2
Qm2
Qh1
Qkl
water
Qh1
Qh1
Qh1
Qh1
Qh1
Qh1
Qh1
Qh1
Qm2
Qh1
water
water
Qh1
Qk1
Qh1
Qh1
Qh1
Qh1
Qh1
Qh1
Qhl
Qh1
Qh1
Qkl
water
Qk1
Qk1
Qk1
Qk1
30
10000
3834
110
1073
10000
10000
1073
3834
1073
10000
10000
10000
3834
753
59$5
3834
3834
82
3834
24
3834
3834
22
10000
3834
5995
5995
3834
1073
3834
3834
3834
3834
3834
3834
3834
3834
3834
18
5995
23
4
70
11 1
0.542
0.103
0.171
0.544
0.065
0.103
0.103
0.065
0.171
0.065
0.103
0.103
0.103
0.171
0.078
0.069
0.171
0.171
0.979
0.171
0.047
0.171
0.171
0.022
0.103
0.171
0.069
0.069
0.171
0.065
0.171
0.171
0.171
0.171
0.171
0.171
0.171
0.171
0.171
0.077
0.069
0.028
0.026
0.061
0.036
1.414
4.140
3.644
1.535
3.527
4.140
4.140
3.527
3.644
3.527
4.140
4.140
4.140
3.644
3.604
3.708
3.644
3.644
1.332
3.644
2.669
3.644
3.644
2.052
4.140
3.644
3.708
3.708
3.644
3.527
3.644
3.644
3.644
3.644
3.644
3.644
3.644
3.644
3.644
3.270
3.708
2.478
2.449
3.714
2.612
1.081
0.147
0.114
1.085
0.122
1.685
1.685
0.054
0.113
0.124
0.063
0.063
1.676
0.067
0.128
0.057
0.073
0.072
0.330
0.173
0.052
0.113
0.073
0.097
0.063
0.113
0.055
0.055
0.067
0.055
0.066
0.066
0.066
0.067
0.066
0.174
0.066
0.178
0.066
0.055
0.056
0.101
0.102
0.123
0.104
1.272
0.227
0.164
1.296
0.179
1.983
1.990
0.062
0.165
0.180
0.084
0.084
1.980
0.091
0.193
0.068
0.107
0.105
0.401
0.288
0.057
0.161
0.105
0.140
0.085
0.164
0.063
0.063
0.091
0.066
0.092
0.091
0.091
0.091
0.091
0.279
0.091
0.275
0.091
0.064
0.068
0.145
0.144
0.185
0.150
1.463
0.333
0.240
1.525
0.265
2.289
2.307
0.078
0.245
0.264
0.136
0.134
2.301
0.142
0.287
0.093
0.173
0.175
0.467
0.485
0.065
0.249
0.171
0.189
0.130
0.242
0.082
0.082
0.140
0.086
0.140
0.137
0.144
0.139
0.136
0.483
0.138
0.478
0.140
0.080
0.095
0.197
0.195
0.261
0.207
1.599
0.410
0.345
1.761
0.345
2.517
2.506
0.092
0.333
0.332
0.195
0.198
2.530
0.196
0.377
0.116
0.254
0.251
0.521
0.736
0.072
0.327
0.264
0.226
0.197
0.343
0.098
0.100
0.195
0.109
0.193
0.190
0.197
0.193
0.192
0.726
0.192
0.765
0.191
0.096
0.121
0.238
0.233
0.329
0.253
2.2
0.6
0.5
2.4
0.5
3.4
3.4
0.2
0.5
0.5
0.4
0.4
3.4
0.4
0.6
0.3
0.4
0.4
0.8
1.1
0.2
0.5
0.4
0.4
0.4
0.5
0.2
0.2
0.4
0.2
0.4
0.3
0.4
0.4
0.3
1.0
0.3
1.1
0.3
0.2
0.3
0.4
0.4
0.5
0.4
T nrr
-------
Polygon
No.
12084
12086
12087
1208S
12069
12094
12095
12097
12099
12101
12105
12106
12108
Table J-l (Continued)
State-Wide Radium and Radon Potential Distributions
by Polygon Number
Geom.	Ref. House
Mean	Geom.	Radon Potential (mCi/yr) Indoor Radon
Statsgo Geology No. of Radium	S.D. at Specified Confidence limit	 at 95% C.L.
No. Glass Points (pCi/g)	Radium	50% 75% 90% 95% (pCi/L)
201
Qm1
201
Qm1
201
Qm1
201
Qm1
201
Qk1
201
Qm1
201
Qm1
201
Qm1
201
Qm1
201
Qm1
201
Qm1
201
Qm1
201
Qm1
3471	0.160
30	0.042
33	0.240
5 5	0.647
94	0.037
3471	0.160
70	0.063
179	0.365
1 5	0.595
27	0.655
24	0.704
93	0.145
113	0.163
4.090	0.171
3.006	0.109
3.589	0.208
1.460	0.377
2.692	0.105
4.090	0.177
3.581	0.121
2.234	0.247
1.406	0.341
1.583	0.383
1.561	0.409
3.651	0.163
2.762	0.168
0.296	0.513
0.156	0.218
0.360	0.648
0.548	0.787
0.147	0.208
0.283	0.512
0.180	0.272
0.389	0.610
0.486	0.712
0.560	0.861
0.611	0.909
0.255	0.429
0.263	0.405
0.799
1.1
0.275
0.5
0.976
1.4
0.989
1.4
0.253
0.4
0.799
1.1
0.341
0.5
0.809
1.2
0.923
1.3
1.100
1.5
1.238
1.7
0.638
0.9
0.540
0.8
J-88
-------
APPENDIX K	Section No.:	
Revision No.:	2L
RADON FLUX MEASUREMENT PROTOCOLS, QUALITY Date:	0^-21-93
ASSURANCE DATA, RESULTS, AND BIAS STATISTICS Page:_L_ of
Rogers & Associates Engiiieering Corporation
P.O. Box 330, Salt Lake City, Utah 84110-0330 • (801) 263-1600
Protocol for
Small-Canister Radon Flux Measurement
Revised from RAE QAP 5.6, May 1990
1. Background and Purpose
Radon (222Rn) js ra^e 0f radon gas emission from a unit area of soil in a
unit time period, and is usually measured in units of picocuries of radon per square
meter of soil per second (pCi/m2s). It is a localized indicator of radon source strength,
and has been used to define rfegulatory limits for radon emissions from uranium mill
tailings piles, phosphogypsum stacks, etcJ1) Radon flux measurements also may help
identify the potential of building sites to cause elevated indoor radon levels.
The following, small-canister (SC) protocol for measuring radon flux has been
shown to give equivalent results^) to U.S. Environmental Protection Agency (EPA)
Method 115,while improving on several potential problems with the EPA method. It
should be noted that there is no calibration standard for radon flux. Instead, sampling
devices are required to provide complete radon collection over the area and time sampled,
and calibrations address only the measurement of radon on the charcoal sampling
medium. The sample collection device and protocol are therefore important to assure
accurate measurements, and should avoid air gaps, excessive sampling times, or other
problems that have been shown to bias the radon flux sample.^"4)
The SC radon flux samplers cover a smaller area than the Method 115 samplers
(approximately 0.005 m2 vs. 0.1 m2)/5) but they offer lower cost, easier deployment and
retrieval, and some important technical advantages. These include (a) more than twice
the charcoal mass per unit area used by Method 115; (b) reduced air space between the
soil surface and the charcoal bed to minimize biases from disturbed radon profiles; (c)
permanently-packaged charcoal to avoid losses during open-air transfer of granulated
charcoal to counting containers; and (d) immediate sealing of the canister upon retrieval
to avoid losses to ambient air during transport to a field charcoal transfer station. In
side-by-side comparisons, the SC method differed from Method 115 (BL/2^ by less than
9%, and was well within its 1-a uncertainty range. The SC method has served as a basis
for uranium mill tailings cover designs,^ and has been used in other U.S. Nuclear
Regulatory Commission studies.(3) Protocols for sampling radon flux are identical to the
Method 115 protocols except as specifically indicated.
K-l
-------
Section No.:	
Revision No.: 2
Date:	05-21-93	
Page:	2_ of 5
2. Equipment and Facilities
2.1 Sampling Equipment
The equipment and configuration for radon flux sampling is illustrated in Figure
1. The charcoal canister is placed on the soil surface, separated only by a permeable
paper filter to avoid canister contamination. It is covered by a metal can of similar
diameter and height to define the sampling area and to prevent radon losses to the
atmosphere. The following equipment is used for sample collection:
•	Charcoal canister (chemical gas-mask cartridge for organic vapors,
Type GMA, Mine Safety Appliances Co., Pittsburgh, PA or equivalent).
•	Metal can (8.3 cm diameter x 4.1 cm, 8-oz. Ness Can, Embarcadero
Home Cannery, Oakland, CA, or equivalent).
•	Paper or Cloth Filter (8-9 cm diameter, Handi Wipes, Colgate, New
York, NY, 10022-7499, or equivalent).
•	Plastic Bag, re-sealable, to contain canister (7x8-inch, 4-mil heavy-
gauge freezer bag, Ziploc Brand, DowBrands Inc., Indianapolis, IN, or
equivalent).
•	Clock, notebook and markers to record deployment & retrieval times and
to label the canister bag.
'••S»SoS<>a»«S*NiS«S«S«N«a.*S*N«%*N«S*S*S*S»N«S»S«S*N«S*S«S«
<• ^	-V «•;	<• <•;	<•; <* •
i. ¦«t»S*%>N*N*S*SsN*N*N*S*S*SsSsSaN*S*S*S»a»aS*SaS*N*S
!,;OViOv«V*V(SiSS>SisXiS*S*mOvS*S*S*S*S*S|S11
AA,I*.*.*.*.*..'

U	«
metal can
• paper filter
Figure 1. Charcoal Canister Configuration During Radon Flux Sampling.
2.2 Measurement Equipment and Facilities
The radon activity in the charcoal canister is measured by gamma-ray
spectrometry. Any suitably-calibrated gamma spectrometer system may be utilized,
including high-resolution Ge(Li) spectrometers, high-efficiency Nal(Tl) spectrometers,
or gamma scintillation survey detectors (with integrating digital output). The gamma
spectrometers should include suitable shielding to reduce background activity, and
supporting electronics to operate the detectors and to integrate gamma-ray intensities
over suitable energy ranges. Since charcoal can be assumed to collect only radon gas, the
gamma-ray spectrometers need not distinguish nuclides specifically (i.e., as 214pb; 2142^
etc.), but may be set to measure total gamma-ray activity.
v 1
-------
Section No.:	
Revision No.:	2_
Date:	05-21-93
Page:	2_ of
The following equipment and facilities should be available for sample analysis:
•	Gamma-ray Spectrometer (shielded, with high-voltage bias power and
digital scaler or multi-channel analyzer).
•	Calibration standard or check source relatable to a calibration standard.
•	Blank sample
•	Clock and notebook to record count times and results.
3. Sampling Procedure
3.1	A new or dried-and-aged charcoal canister is transported to the field sampling
location sealed in a plastic bag. Previously-used canisters shall be prepared for
re-use by drying for at least 8 h at 130 ± 10° C, and sealing in plastic bags for
storage until use.
3.2	The sampling location is cleared of dense turf-grass, or is (preferably) placed
between plants on exposed soil to facilitate pressing the metal can into the soil
surface. The filter material is placed on the soil surface, and the charcoal
canister is placed on the filter with the large (black) side facing down. The
metal can then is inverted over the canister and pressed 1-2 cm into the soil to
minimize void space in- the can, or 1-2 cm of surrounding soil is pressed
against the base of the can to seal it to the soil surface (Figure 1). The sampler
deployment time is recorded to the nearest 5 minutes.
3.3	After a collection period of approximately 24 h (at least 2 h, and less than 30 h),
the charcoal canister shall be retrieved. For retrieval, the can is removed, and
the canister is immediately (within <1 min.) sealed in a plastic bag or metal
can for transport to the laboratory. The retrieval time shall be recorded to the
nearest 5 minutes. Sampling shall not be conducted within 24 hours of
significant rainfall, and samples shall not be considered valid if rain during
the sampling period caused ponding or compromised the sampler seal to the
soil surface.
4. Analysis Procedure
4.1	Analysis of the charcoal canister shall occur at least 2 hours after sample
retrieval, and generally within 3-4 days of sample retrieval. The canister shall
be maintained sealed in its plastic bag from the time of retrieval until after
analysis.
4.2	The charcoal canister shall be counted with the calibrated laboratory counting
system for an appropriate, fixed time interval (generally on the order of 10
minutes), and the time at the beginning of the count shall be recorded to the
nearest 5 minutes.
4.3	The gamma-ray counts in the selected energy region shall be integrated and
recorded.
-------
Section No.:	
Revision No.:	2_
Date:	05-21-93
Page: 4 of 	5.
4.4	A sealed, blank charcoal canister (a field blank if available) shall be counted
using the same system and its gamma-ray counts in the same selected energy
region shall be integrated and recorded.
4.5	A check source or reference standard shall be counted within 8 h of the sample
count using the same system, and its gamma-ray counts in the same selected
energy region shall be integrated and recorded. Its standard count rate for the
given detector system, at the time of calibration, shall be used as "a" in the flux
calculation in Figure 2. If a different-sized sampling can is used, the a factor
should be multiplied by 0.00535 m2/A, where A is the sampling-can area.
4.6	The radon flux shall be calculated by the equation given in Figure 2.
4.7	Following analysis, charcoal canisters shall be dried as in step 3.1, and
immediately upon cooling, shall be sealed in plastic bags for storage. They
shall not be re-used within the first 15 days of drying unless background
activity levels are confirmed by gamma-ray analyses.
RECORDED DATA
Sample ID / Location 	
Sampler Deployed 	/ / at 	:	
Sampler Retrieved	/	/	 at 	:	
Sample Counted	/ / at 	:	
Counting Duration	T2 =	min.
Canister Activity 	 counts
Blank Canister Activity 	 counts
Standard Activity 	 counts
CONSTANTS
Radon Decay 1= 1.26X10"4 min-1	Fluxa
^det.l = 2.1 lxlO~* pCi m'Vmiir1 (GMA std.)
Cklet.2 = 1.51x10"* pCi nrV'min"1 (GMA std.)
= 1.05x10"^ pCi	(IPL2 std.)
(using sampler area ¦ 0.00535 m2)
CALCULATED DATA
Ti = sampling duration	min.
T3 = decay time	min.
(sample retrieval to start of count)
Cnet - (Canis.-Blnk) ± V(Canis.-t-Blnk)
Snet = (Standard - Blank)
	Cnet T?
Snet[l-exp(-XT^)] [exp(-XT«j) - expGXTg-XTg)]
a Assumes equal counting times (T2) for the sample,
blank, and standard.
Figure 2. Data Requirements and Calculation of Radon Flux.
V. A
-------
Section No.:__	
Revision No.:	
Date:	05-21-93
Page;	5_ of	a.
5 • References
1.	EPA, National Emission Standards for Hazardous Air Pollutants,-
Radionuclides; Final Rule and Notice of Reconsideration. U.
S. Environmental Protection Agency, 40 CFR Part 61, Federal
Register 54:51654-51715, 1989.
2.	Rogers, V.C., Nielson, K.K., Sandquist, G.M. , and Rich, D.C.,
"Radon Flux Measurement ana Computational Methodologies, U. S.
Department of Energy report UMTRA-DOE/AL-2700-201, 1984.
3.	Young, J.A., Thomas, V.W., and Jackson, P.O., "Recommended
Procedures for Measuring Radon Fluxes from Disposal Sites of
Residual Radioactive Materials," U. S. Nuclear Regulatory
Commission report NUREG/CR-3166, 1983.
4.	Nielson, K.K., Rogers, V.C., Rich, D. C., Nederhand, F.A.,
Sandquist, G.M., and Jensen, C.M., "Laboratory Measurements of
Radon Diffusion Through Multilayered Cover Systems for Uranium
Tailings," U. S. Department of Energy report UMT/0206, 1981.
5.	Hartley, J.N. and Freeman, H.D., "Radon Flux Measurements on
Gardinier and Royster Phosphogypsum Piles Near Tampa and
Mulberry, Florida," Eastern Environmental Radiation Facility,
Montgomery, AL, report EPA-520/5-85-029 (NTIS PB86-161874),
1985 .
6.	Rogers, V.C and Nielson, K.K., "Radon Attenuation Handbook for
Uranium Mill Tailings Cover Design," U. S. Nuclear Regulatory
Commission report NUREG/CR-3533, 1984.
-------
Table K-l
Analyses of the Blank Samples for Radon Flux

Radon
Flux

Radon
Flux
Sample
Flux
S.D.
Sample
Flux
S.D.
I.D.#
(pCi/m2/s)
(pCi/m2/s)
ID.#
(pCi/m2/s)
(pCi/m2/s)
B-1
-0.14
0.07
B-56
0.15
0.04
B-2
-0.09
0.07
B-57
-0.04
0.09
B-3
-0.14
0.07
B-58
-0.12
0.09
B-4
-0.13
0.07
B-59
-0.08
0.09
B-5
-0.07
0.14
B-60
-0.10
0.09
B-6
-0.02
0.03
B-61
0.02
0.08
B-7
0.00
0.03
B-62
0.11
0.08
B-8
-0.16
0.13
8-63
0.03
0.08
B-9
0.03
0.03
B-64
-0.06
0.08
B-10
0.04
0.03
B-65
0.01
0.09
B-11
0.06
0.03
B-66
0.03
0.09
B-12
0.06
0.03
B-67
0.03
0.07
B-13
0.05
0.07
B-68
-0.01
0.07
B-14
0.20
0.07
B-69
-0.02
0.09
B-15
0.12
0.07
B-70
0.03
0.09
B-16
0.11
0.07
B-71
-0.09
0.08
B-17
-0.02
0.07
B-72
0.04
0.09
B-18
0.01
0.07
B-73
0.08
0.09
B-19
-0.05
0.07
B-74
0.16
0.09
B-20
-0.04
0.08
B-75
-0.10
0.09
8-21
0.01
0.08
B-76
0.21
0.09
B-22
0.01
0.08
B-77
0.13
0.09
B-23
0.01
0.08
B-78
-0.10
0.04
B-24
0.00
0.02
B-79
-0.11
0.04
B-25
-0.05
0.08
B-80
-0.08
0.04
B-26
-0.23
0.09
B-81
-0.10
0.04
B-27
-0.04
0.09
B-82
-0.04
0.09
B-28
-0.08
0.09
B-83
0.03
0.09
B-29
-0.09
0.09
B-84
-0.04
0.09
B-30
-0.13
0.09
B-85
0.13
0.09
B-31
-0.05
0.09
B-86
0.04
0 09
B-32
0.13
0.04
B-87
-0.01
0.09
B-33
0.08
0.04
B-88
-0.16
0.11
B-34
-0.02
0.07
B-89
-0.15
0.11
B-35
0.03
0.07
B-90
-0.12
0.08
B-36
0.10
0.07
B-91
-0.08
0.08
B-37
0.11
0.07
B-92
-0.08
0.04
B-38
0.08
0.07
B-93
-0.08
0.09
B-39
-0.14
0.07
B-94
0.51
0.13
B-40
0.00
0.10
B-95
-0.14
0.07
B-41
0.10
0.10
B-96
0.09
0.08
B-42
0.03
0.10
B-97
0.04
0.07
B-43
0.02
0.10
B-98
-0.06
0.07
B-44
-0.01
0.10
B-99
-0.11
0.04
B-45
0.01
0.10
B-100
-0.08
0.04
IT. *
-------
Table K-l (Continued)
Analyses of the Blank Samples for Radon Flux

Radon
Flux

Radon
Flux
Sample
Flux
S.D.
Sample
Flux
S.D.
I.D.#
(pCi/m2/s)
ifi
C^J
E
O
Q.
I.D.#
(pCi/m2/s)
(pCi/m2/s)
B-46
-0.04
0.10
B-101
-0.07
0.04
B-47
0.00
0.10
B-102
-0.08
0.04
B-48
0.00
0.10
B-103
-0.08
0.04
B-49
0.27
0.10
B-104
-0.08
0.04
B-50
0.01
0.10
B-105
-0.11
0.04
B-51
-0.01
0.10
B-106
-0.09
0.04
B-52
0.13
0.04
B-107
0.00
0.05
B-53
-0.18
0.07
B-108
-0.06
0.04
B-54
0.11
0.04
B-109
0.07
0.07
B-55
0.16
0.04



Average Measured Value	-0.01
Average uncertainty	0.07
-------
Table K-2
Comparison of Radon Flux Duplicate Measurements

Duplicate
Reference


Duplicate
Reference

Sample
Assay Flux
Flux
Difference
Sample
Assay Flux
Flux
Difference
I D. #
(pCi/m2/s)
(pCi/m2's)
(pCi/m2/s)
I.D.#
(pCi/m2/s)
(pCi/m2/s)
(pCi/m2/s)
ALA-10-C*
10.55
10.50
0.05
HIG-3-A*
0.31
0.24
0.07
ALA-3-C*
7.58
7.54
0.04
HIL-12-C*
1.60
1.56
0.04
ALA-7A-C*
6.44
6.36
0.09
HIL-15-B*
28.11
28.02
0.09
BAY-1-B*
0.07
0.10
-0.02
HIL-5-A*
0.34
0.30
0.04
BAY-2-C*
0.14
0.21
-0.07
HOL-1-C*
0.69
0.59
0.10
BRA-2-A*
0.08
0.22
-0.14
IND-1-C*
0.14
0.11
0.03
BRE-1-B*
0.49
0.59
-0.10
JAC-3-C*
0.16
0.23
-0.07
BRE-1-C
0.32
0.35
-0.03
JEF-2-A*
0.41
0.42
-0.01
BRE-2-B*
0.26
0.20
0.06
LAF-1-B*
12.26
11.88
0.38
BR0-2-A*
0.32
0.36
-0.04
LAF-1-C*
6.32
6.44
-0.12
BR0-4-C*
0.20
0.10
0.10
LAF-2-B*
0.28
0.24
0.04
CAL-2-A*
0.52
0.63
-0.11
LEE-1-A*
1.11
1.12
-0.01
CHA-3-A*
0.32
0.27
0.06
LEE-4-B*
0.20
0.22
-0.02
C0L-2-C*
0.09
0.11
-0.02
LEE-4-C*
0.13
0.13
0.00
DAD-4-A*
2.38
2.15
0.24
LEE-6-A*
0 08
0.08
0.00
DAD-5-B*
0.47
0.08
040
LEE-9-A*
0.11
0.11
0.00
DAD-7-A*
0.70
0.74
-0 04
LEO-1-B*
2.44
2.38
0.06
DAD-9-C*
0.33
0.31
0.02
LEO-5-C"
0.51
0.51
0.01
DES-3-B*
0.22
0.22
0.00
LEV-4-A*
0.78
0.58
0.19
DES-3-B*
0.18
0.22
-0.03
LEV-4-B*
0.10
0.06
0.03
DUV-1-A*
1.36
1.06
0.30
LEV-5-A*
0.57
0.52
0.05
DUV-2-B*
0.37
0.22
0.15
LEV-5-B*
1.85
1.78
0.07
FIPR 1*
2.97
2.92
0.05
LEV-5-C*
15.07
14.87
0.20
FIPR-3*
6.10
6.42
-0.32
LIB-2-A*
0.34
0.53
-0.19
FIPR-8"
7.90
7.94
-0.03
LIB-3-C*
0.34
0.98
-0.64
GAD-3-A*
0.20
0.21
-0.01
MAD-3-C*
1.42
1.37
0.05
GIL-2-B*
2.64
2.65
-0 01
MAN-3-B*
0.09
0.20
-0.11
GLA-1-B*
0.14
0.13
0.00
MRT-1-A"
0.13
0.14
-0.01
GLA-4-B*
0.28
0.23
0.04
MAR-12-C*
9.88
9.91
-0.03
E-45-2*
0.58
0.48
0.09
MAR-13-B*
0.77
0.73
0.04
D-08-4*
53.14
53.04
0.10
MON-1-A*
0.12
0.12
0.00
E-36-4*
0.07
0.12
-0.05
MON-1-A*
0.12
0.12
0.00
D-11-2*
8.63
8.71
-0.09
MON-2-B*
0.12
0.12
0.00
E-25-4*
2.24
2.41
-0.18
NAS-1-A*
0.30
0.28
0.02
E-39-2*
6.80
6.62
0.18
NAS-2-A*
0.03
0.03
0.00
E-31-1*
0.36
0.31
0.06
NAS-3-B*
0.09
0.03
0.06
E-38-1*
0.07
0.07
0.00
ORA-1-A*
0.04
0.08
-0.04
E-40-4*
0.83
0.57
0.26
ORA-1-B*
0.09
0.08
0.01
E-41-3*
1.32
2.07
-0.76
ORA-1-C*
0.10
0.10
0.00
HAM-3-A*
0.10
0.11
-0.01
ORA-3-B*
0.08
0.10
-0.02
HAR-1-C*
0.81
0.65
0.16
OSC-1-A*
0.07
0.07
0.00
HAR-5-B*
0.44
0.51
-0.07
PAS-3-B*
7.71
7.97
-0.25
HAR-7-C*
0.36
0.15
0.21
PCA-1-B*
1.08
1.12
-0.05
HER-2-A*
6.20
6.25
-0.05
PIN-1-B*
0.08
0.08
0.00
HIG-2-A*
0.04
0.04
0.00
POL-10-B*
0.08
0.13
-0.05
K. a
-------
Table K-2 (Continued)
Comparison of Radon Flux Duplicate Measurements

Duplicate
Reference


Duplicate
Reference

Sample
Assay Flux
Flux
Difference
Sample
Assay Flux
Flux
Difference
I.D. #
(pCi/m2/s)
(pCi/m2/s)
(pCi/m2's)
I.D. #
(pCi/m2/s)
(pCi/m2/s)
(pCi/m2/s)
POL-2-A*
4.63
4.94
-0.32
SUM-8-A*
0.78
0.75
0.03
POL-7-A*
0.66
0.68
-0.02
SUW-2-A*
0.45
0.16
0.29
SAR-2-A*
0.09
0.08
0.00
SUW-3-C*
0.23
0.32
-0.10
STL-2-B*
0.08
0.08
0.00
UNI-2-B*
3.38
3.34
0.04
STL-3-B*
0.08
0.09
-0.01
WAL-1-C*
0.28
0.40
-0.12
SUM-2-B*
0.25
0.18
0.07
WAS-2-A*
0.66
0.30
0.36
SUM-4-C*
17.21
17.61
-0.40
WAS-3-A*
0.34
0.35
-0.01
Average difference (pCi/m2/s)	0.00
Average absolute difference (pCi/m2/s)	0.09
Standard deviation of the difference (pCi/m2/s)	0.16
K- 9
-------
Table K-3
Radon Flux Measurements and Related Parameters



Gamma
Soil
Radon



Site

Site screening gamma
Intensity
Moisture
Flux



I.D. #
Date
Measurements (pR/hr)
(liR/hr)§
(vol%)
(pCi/m2/s)

Lattitude
Longitude
AC-01-1
4/1/92

7.0
9.3
2.76
1.46
29°38'.280
82°36'.060
AC-01-2
4/1/92

6.0
10.8
3.24

29°38\280
82°36*.060
AC-01-3
4/1/92

6.0
8.5
7.57

29°38'.280
82°36'.060
AC-02-4
4/1/92 .

18.0
43.1
0.60
0.13
29°38',280
82°36'.240
AC-02-5
4/1/92

6.0
12.4
0.98

29°38',280
82°36\240
AC-02-6
4/1/92

6.0
7.8
0.60

29°38'.280
82°36'.240
AC-C3-7
4/1/92

6.0
6.5
0.88
0.24
29°38',280
82°37'.380
AC-03-8
4/1/92

7.0
8.9
1.04

29°38'.280
82°37'.380
AC-03-9
4/1/92

6.0
9.7
0.58

29°38'.280
82°37'.380
AC-04-10
4/1/92

6.0
11.6
2.72
0.79
29°38'.340
82°36'.420
AC-04-11
4/1/92

5.0
8.2
1.84

29°38'.340
82°36'.420
AC-04-12
4/1/92

4.0
6.5
0.96

29°38'.340
82°36'.420
AC-05-13
4/1/92

8.0
8.5
0.29
0.04
29°38'.340
82°34'.440
AC-05-14
4/1/92

6.0
8.5
0.65

29°38'.340
82°34'.440
AC-05-15
4/1/92

6.0
5.6
1.34

29°38'.340
82°34',440
AC-06-16
4/1/92

5.0
14.3
0.20
-0.21
29°38'.400
82°33'.420
AC-06-17
4/1/92

5.0
16.8
0.86

29°38'.400
82"33'.420
AC-06-18
4/1/92

8.0
31.8
0.51

29°38'.400
82°33'.420
AC-07-19
4/1/92

3.0
8.2
2.93
0.63
29°38'.340
82°32'.460
AC-07-20
4/1/92

4.0
9.9
1.02

29"38'.340
82:'32'.460
AC-07-21
4/1/92

4.0
7.2
0.94

29°38'.340
82°32'.460
AC-08-22
4/1/92

4.0
10.1
2.04
0.40
29°38'.340
82°30'.840
AC-08-23
4/1/92

4.0
9.3
0.58

29°38'.340
82330'.840
AC-08-24
4/1/92

4.0
7.4
0.91

29°38',340
82°30'.840
AC-09-25
4/1/92

4.0
14.3
0.89
0.13
29°38',340
82°29',760
AC-09-26
4/1/92

5.0
9.9
1.36

29°38'.340
82°29',760
AC-09-27
4/1/92

4.0
11.6
1.48

29c38',340
82°29'.760
AC-10-28
4/1/92

5.0
6.5
3.10
1.34
29°38',340
82°28'.380
AC-10-29
4/1/92

4,0
6.5
2.66

29"38',340
82°28'.380
AC-10-30
4/1/92

8.0
9.3
3.31

29°38'.340
82°28'.380
AC-11-31
4/1/92

8.0
12.0
7.76
0.07
29c38'.340
82°27'.000
AC-11-32
4/1/92

7.0
25.0
0.93

29°38'.340
82°27'.000
AC-11-33
4/1/92

5.0
16.4
4.14

29°38'.340
82°27',000
AC-12-34
4/1 >92

5.0
7.6
0.85
1.45
29°38'.340
82°24'.180
AC-12-35
4/1/92

4.0
7.2
1.13

29°38'.340
82°24'.180
AC-12-36
4/1/92

4.0
11.4
1.37

29°38'.340
82°24'. 180
AC-13-37
4/1/92

4.0
6.9
4.47
1.56
29°38'.220
82'22'.200
AC-13-38
4/1/92

7.0
9.1
11.27

29°38'.220
82°22'.200
AC-13-39
4/1/92

8.0
14.3
6.56

29°38'.220
82°22'.200
AC-14-40
4/1/92

4.0
4.9
0.51
-0.17
29°38'220
82°22'.380
AG-14-41
4/1/92

3.0
5.2
0.53

29°38'.220
82°22'.380
AC-14-42
4/1/92

3.0
5.2
0.43

29°38'.220
82°22'.380
AC-15-43
4/1/92

9.0
22.5
4.69
1.58
29°38',460
82°20',820
AC-15-44
4/1/92

10.0
17.5
7.46

29°38'.460
82°20'.820
AC-15-45
4/1/92

8.0
19.8
2.86

29°38'.460
82°20'.820
AC-16-46
4/1/92

4.0
16.4
0.30
-2.38
29°38'.700
82°19'.440
AC-16-47
4/1/92

4.0
12.2
0.41

29°38'.700
82°19'.440
AC-16-48
4/1/92

4.0
15.1
0.37

29°38'.700
82°19'.440
AC-17-49
4/1/92

2.4
5.4
1.01
-1.02
29°38'.220
82°16'.380
AC-17-50
4/1/92

2.6
6.5
0.44

29°38'.220
82°16'.380
AC-17-51
4/1/92

2.7
6.9
0.75

29°38'.220
82° 16'. 380
T/" t n
-------
Table K-3 (Continued)
Radon Flux Measurements and Related Parameters
Site
I.D. #
Date
Site screening gamma
Measurements (fiR/hr)
Gamma
Intensity
(iiR/hr)§
Soil
Moisture
(vol%)
Radon
Flux
(pCi/m2/s)
Zf
Lattitude
Longitude
AC-18-52
4/1/92




4.0
6.5
2.28
-0.17
29°46'.080
82°24'.720
AC-18-53
4/1/92




5.0
5.8
2.46

29°46'.080
82°24'.720
AC-18-54
4/1/92




5.0
5.6
2.72

29°46\080
82°24'.720
AC-19-55
4/1,92




11.0
15.7
4.82
0.44
29°46'.080
82°25'.200
AC-19-56
4/1/92




10.5
11.4
4.49

29346'.080
82°25\200
AC-19-57
4*1/92




9.5
13.4
3.08

29°46'.080
82°25'.200
AC-20-58
4/1/92




8.0
7.6
6.26
1.84
29°46'.080
82°25',500
AC-20-59
4/1/92




8.0
7.6
4.90

29°46'.080
82°25'.500
AC-20-60
4/1/92




8.0
7.4
4.06

29°46'.080
82°25',500
AC-21-61
4/1/92




9.0
10.8
9.31
1.10
29°46'.740
82°28'.320
AC-21-62
4/1/92




10 0
9.7
11.10

29°46',740
82°28'.320
AC-21-63
4/1/92




9.0
6.9
4.44

29° 46". 740
82°28'.320
AC-22-64
4/1/92




6.0
5.6
2.14
-0.10
29°48'.420
82°29'.760
AC-22-65
4/1/92




6.0
8.7
2.98

29°48',420
82°29'.760
AC-22-66
4/1/92




6.0
10.1
2.79

29°48'.420
82°29'.760
AC-23-67
4/1 /92




5.0
5.8
1.64
•1.11
29°46'.920
82°29'.760
AC-23-68
4/1/92




4.0
6.9
0.61

29°46'.920
82c29'.760
AC-23-69
4/1/92




4.0
4.0
1.04

29°46'.920
82°29'.760
AC-24-70
4/1/92




6.0
7.2
1.65
-0.58
29°47'.460
82°29'.760
AC-24-71
4/1/92




6.0
7.2
1.34

29°47'.460
82°29'.760
AC-24-72
4/1/92




7.0
9.1
2.42

29°47'.460
82°29'.760
AC-25-73
4/1/92




14.0
21.0
3.97
0.63
29°46'.200
82"29',760
AC-25-74
4/1/92




16.0
17.9
384

29°46'.200
82°29'.760
AC-25-75
4/1/92




18.0
15.5
7.71

29°46'.200
82°29'.760
AC-26-76
4/1/92




5.0
10.4
3.57
0.71
29°43',380
82°34'.560
AC-26-77
4/1/92




6.0
8.5
2.41

29°43'.380
82°34'.560
AC-26-78
4/1/92




5.0
7.2
0.63

29"43'.380
82°34',560
AC-27-79
4/1/92




10.0
16.0
2.37
0.28
29°43'.380
82°29\880
AC-27-80
4/1/92




8.0
13.2
3.43

29°43'.380
82°29'.880
AC-27-81
4/1/92




9 0
11.4
6.00

29°43'.380
82°29',880
FIPR-1 -A
3/16/93




27.3
12.6
4.53
0.02
27°53',682
81°51'.881
FLT-1-A
3/16/93




27.1
17.9
0.52

27°53'.682
81 "51'.881
FLT-2-A
3/16/93




28.7
13.8
1.57

27"53'.682
8r51'.881
FLT-3-A
3/16/93




32.4
10.4
4.30

27°53'.682
81°51'.881
SSW-1-A
3/16/93




31.7
18.8
2.27

27*53'. 682
81°51'.881
SSW-2-A
3/16/93




36.5
10.4
6.09

27e53'.682
81°51'.881
SSW-3-A
3/16/93




32.5
12.0
5.38

27e53'682
81°51 '.881
LAK-1-A
3/17/93
3.8 3.2
2.9
3.5
4.1
4.9
13.8
0.07
-3.44
28c48'.821
81°37'.625
LAK-1-B
3/17/93




4.1
13.8
0.07

28°48'.821
81 °37'.625
LAK-1-C
3/17/93




5.2
13.8
0.07

28°48'.821
81°37',625
LAK-2-A
3/17/93
5.7 5.6
5.8
4.9
5.9
5.5
7.2
020
•0.71
28°48,.441
81°33'.212
LAK-2-B
3/17/93




5.9
7.2
0.13

28°48'.441
81°33'.212
LAK-2-C
3/17/93




5.2
7.2
0.31

28t>48'.441
81°33'.212
LAK-3-A
3/17/93
5.1 3.1
3.3
36
3.6
5.0
5.6
0.04
-1.15
28°24'.652
81°49'.810
LAK-3-B
3/17/93




5.1
5.6
0.09

28°24',652
81°49',810
LAK-3-C
3/17/93




5.2
5.6
0.12

28°24'.652
BiMg-.sio
LAK-4-A
3/17/93
3.2 3.2
3.3
2.3
3.4
3.6
6.9
0.03
-0.92
28°28'.704
81°51'.379
LAK-4-B
3/17/93




3.4
6.9
0.06

28°28'.704
81°51'.379
LAK-4-C
3/17/93




3.7
6.9
0.04

28°28'.704
81351'.379
MAR-8-A
3/17/93
3.1 3.6
3.1
6.3
2.2
6.1
7.4
2.20
1.34
29t>20'.602
81°44'.275
MAR-8-B
3/17/93




6.3
7.4
1.15

29°20',602
81'44',275
-------
Table K-3 (Continued)
Radon Flux Measurements and Related Parameters
Gamma Soi! Radon
Site

Site screening gamma
Intensity
Moisture
Flux



I.D. #
Date
Measurements (pR/hr)
(nR/hr)§
<
O
(pCi/m2/s)
Zf
Lattitude
Lonqitude
MAR-8-C
3/17/93





5.4
7.4
3.06

29°20'.602
81°44'.275
ALA-1-A
3/20/93
12.7
10.2
6.5
10.6
4.9
10.9
10.8
4.40
1.54
29°43\655
82°32'.957
ALA-1-B
3/20/93





12.7
10.8
4.29

29°43'.655
82°32'.957
ALA-1-C
3/20/93





'.0.9
10.8
3.57

29°43'.655
82°32'.957
ALA-2-A
3/20/93
6.3
7.5
6.7
4.3
7.9
6.3
16.0
0.68
-1.66
29D42'.572
82°29'.998
ALA-2-B
3/20/93





7.9
16.0
0.40

29°42'.572
82°29'.998
ALA-2-C
3/20/93





7.0
16.0
1.00

29°42'.572
82329'.998
ALA-3-A
3/20/93
12.5
10.2
9.4
6.8
8.8
14.2
14.0
4.21
0.89
29=43'. 105
82D28'.890
ALA-3-B
3/20/93





12.5
14.0
5.76

29°43'. 105
82°28'.890
ALA-3-C
3/20/93





12.8
14.0
7.54

29°43'. 105
82°28'.890
ALA-4-A
3/20/93
6.9
11.5
14.5
12.2
16.8
10.3
38.0
0.05
-2.29
29°43'.028
82°27*.769
ALA-4-B
3/20/93





16.8
38.0
0.05

29"43'.028
82a27'.769
ALA-4-C
3/20/93





13.2
38.0
0.42

29°43'.028
82°27',769
ALA-5-A
3/20/93
3.9
4.4
4.6
4.0
4.6
3.4
16.1
0.05
-2.63
29°42\ 193
82°24'.280
ALA-5-B
3/20/93





3.4
16.1
0.04

29"42'.193
82°24',280
ALA-5-C
3/20/93





3.5
16.1
0.03

29°42M93
82°24',280
ALA-6-A
3/20/93
2.3
3.0
3.2
2.1
3.0
3.6
16.0
0.05
-1.96
29°43'.266
82°16'.546
ALA-6-B
3/20/93





3.2
16.0
0.05

29°43'.266
82°16',546
ALA-6-C
3/20/93





3.3
16.0
0.05

29°43'.266
82°16'.546
ALA-7-A
3/20/93
5.5
2.4
2.8
2.8
2.4
5.6
26.6
0.03
-1.65
29°35'.4C0
82°1 V.355
ALA-7-B
3/20/93





5.5
26.6
0.05

29°35',400
82°11 '355
ALA-7-C
3/20/93





5.9
26.6
0.04

29°35'.400
82°11'.355
ALA-8-A
3/20/93
2.8
2.6
2.7
3.3
3.1
3.1
26.0
0.05
-2.43
29°31'.828
82°10',631
ALA-8-B
3/20/93





3.3
26.0
§§

29°31'.828
82°10'.631
ALA-8-C
3/20/93





2.9
26.0
0.18

29°31\828
82°10',631
CIT-1-A
3/20/93
2.6
3.7
2.6
2.9
3.0
3.6
6.1
0.19
0.25
28°48\249
82°32'.462
CIT-1-B
3/20/93





3.7
6.1
0.12

28°48'.249
82°32'.462
CIT-1-C
3/20/93





3.7
6.1
0.23

28°48'.249
82°32'.462
CIT-2-A
3/20/93
3.0
3.9
7.5
3.1
6.5
8.2
22.5
0.06
-1.89
28°48'.304
82I>29'.520
CIT-2-B
3/20/93





7.5
22.5
0.06

28'48'.304
82°29'.520
CIT-2-C
3/20/93





8.6
22.5
0.24

28°48'.304
82°29'.520
CIT-3-A
3/20/93
56
5.2
3.6
4.8
43
5.3
9.3
0.83
0.23
28°57'.616
82°25'.846
CIT-3-B
3/20/93





5.6
9.3
1.22

28°57'.616
82325'.846
CIT-3-C
3/20/93





5.5
9.3
1.97

28°57'.616
82°25',846
CIT-4-A
3/20/93
3.6
2.8
2.0
3.0
3.7
3.8
5.8
0.12
-0.28
28°58'.057
82°22'.220
CIT-4-B
3/20/93





3.7
5.8
0.17

28°58'.057
82°22'.220
CIT-4-C
3/20/93





4.0
5.8
0.08

28°58'.057
82022'.220
LEV-1-A
3/20/93
3.1
2.5
2.6
2.8
3.0
3.0
7.4
0.26
0.81
29°17'.331
82°35'.747
LEV-1-B
3/20/93





3.1
7.4
0.16

29°17'.331
82°35'.747
LEV-1-C
3/20/93





2.7
7.4
0.36

29°17'.331
82°35'.747
LEV-2-A
3/20/93
3.7
5.7
4.4
4.5
3.1
5.1
9.3
1.46
1.39
29°17'.377
82°33'.578
LEV-2-B
3/20/93





5.7
9.3
1.90

29°17'.377
82°33'.578
LEV-2-C
3/20/93





5.6
9.3
1.61

29°17'.377
82°33'.578
LEV-3-A
3/20/93
7.7
8.6
3.9
3.7
3.5
13.4
9.7
3.61
2.39
29°14'.996
82°30'.300
LEV-3-B
3/20/93





12.9
9.7
4.95

29° 14'. 996
82°30'.300
LEV-3-C
3/20/93





12.6
9.7
3.88

29°14'.996
82°30'.300
LEV-4-A
3/20/93
3.7
4.4
4.5
6.8
3.3
8.7
13.4
0.58
-0.87
29°34'.637
82°51'.370
LEV-4-B
3/20/93





6.8
13.4
0.06

29°34'.637
82°51'.370
LEV-4-C
3/20/93





7.7
13.4
0.26

29°34'.637
82°51'.370
LEV-5-A
3/20/93
4.1
4.7
4.0
5.1
5.1
4.1
8.7
0.52
0.85
29°33'.614
82°46',078
LEV-5-B
3/20/93





5.1
8.7
1.78

29°33'.614
82°46'.078
-------
Table K-3 (Continued)
Radon Flux Measurements and Related Parameters
Gamma Soil Radon
Site

Site screening gamma
Intensity
Moisture
Flux



I.D. #
Date
Measurements (|iR/h
0
(nR/hr)§
(vol%)
(pCi/m2/s)
zt
Lattitude
Longitude
LEV-5-C
3/20/93





5.5
8.7
14.87

29°33'.614
82°46'.078
LEV-6-A
3/20/93
1.5
2.1
2.9
1.8
•4.4
2.6
3.6
0.07
-1.49
29°12'.097
82°59'.506
LEV-6-B
3/20/93





2.7
3.6
0.03

29°12'.097
82°59'.506
LEV-6-C
3/20/93





2.6
3.6
0.09

29°12',097
82°59'.506
LEV-7-A
3/20/93
3.4
4.3
3.4
3.9
3.6
3.9
4.5
0.29
-0.81
29°14\ 106
82°56'.482
LEV-7-B
3/20/93





4.3
4.5
0.27

29° 14'. 106
82°56'.482
LEV-7-C
3/20/93





4.3
4.5
0.14

29*14'. 106
82°56'.482
MAR-1-A
3/20/93
7.2
8.3
7.0
6.0
3.7
10.2
10.8
9.44
2.06
29°17'.641
82°06'.828
MAR-1-B
3/20/93





9.8
10.8
9.26

29°17'.641
82°06'.828
MAR-1-C
3/20/93





8.7
10.8
5.78

29°17'.641
82°06'.828
MAR-2-A
3/20/93
4.1
5.3
5.7
15.4
5.8
15.3
10.1
10.33
3.57
29°17'.517
82°03'.862
MAR-2-B
3/20/93





15.4
10.1
12.28

29°17'.517
82°03'.862
MAR-2-C
3/20/93





15.1
10.1
12.94

29°17'.517
82°03'.862
MAR-3-A
3/20/93
4.2
7.4
5.2
6.0
5.7
7.3
40.6
0.11
0.79
29°16',939
81°58'.978
MAR-3-B
3/20/93





7.4
40.6
0.05

29°16',939
81°58',978
MAR-3-C
3/20/93





7.2
40.6
0.05

29°16'.939
81°58'.978
MAR-4-A
3/20/93
7.0
5.0
4.5
3.5
3.2
7.3
7.6
1.53
0.81
29°01'.869
82°01'.425
MAR-4-B
3/20/93





7.0
7.6
1.57

29°01'.869
82°01'.425
MAR-4-C
3/20/93





7.4
7.6
2.51

29°01'.869
82°01'.425
MAR-S-A
3/20/93
4.2
3.9
4.3
5.9
4.9
5.9
7.4
0.14
-1.49
28°58'.886
81
MAR-5-B
3/20/93





5.9
7.4
0.06

28°58',886
81°56'.397
MAR-5-C
3/20/93





6.4
7.4
0.10

28"58'.886
81°56'.397
MAR-6-A
3/20/93
9.5
11.8
18.3
11.3
6.6
18.3
27.9
0.42
-0.35
29°21'.492
82°11 ".831
MAR-6-B
3/20/93





18.3
27.9
0.33

29321'.492
82811'.831
MAR-6-C
3/20/93





16.0
27.9
0.74

29°21'.492
82°11'.831
MAR-7-A
3/20/93
9.6
12.3
8.6
1 * .5
7.2
14.7
17.3
3.15
0.95
29°22'.049
82°14'.357
MAR-7-B
3/20/93





12.3
17.3
2.39

29°22'.049
82°14'.357
MAR-7-C
3/20/93





11.9
17.3
0.41

29°22'.049
82"14'.357
CLA-1-A
3/22/93
6.2
13.2
8.0
7.9
7.8
13.7
21.8
0.06
-1.57
30°06'.779
81°48'.954
CLA-1-B
3/22/93





13.2
21.8
0.06

30°06'.779
81°48'.954
CLA-1-C
3/22/93





13.4
21.8
0.11

30°06'.779
81 "48". 954
CLA-2-A
3/22/93
9.3
7.4
7.7
5.4
4.4
9.5
26.5
0.06
-1.31
30°06'.067
81 g44',626
CLA-2-B
3/22/93





9.3
26.5
0.06

30°06'.067
81°44',626
CLA-2-C
3/22/93





9.1
26.5
0.06

30°06'.067
81°44',626
DUV-1-A
3/22/93
9.7
<5.7
7.0
1 8.0
20 0
16.4
4 5
1.06
0.48
30c21'.844
81°24',001
DUV-1-B
3/22/93





20.0
4.5
1.35

30°21'.844
81°24,.001
DUV-1-C
3/22/93





26.3
4.5
0.95

30°21',844
81°24'.001
DUV-2-A
3/22/93
3.3
3 8
3.2
6.0
10.1
8.5
6.1
0.14
-0.07
30e 19*. 121
si^'.s^
DUV-2-B
3/22/93





10.1
6.1
0.22

30°19'.121
81°32'.517
DUV-2-C
3/22/93





10.9
6.1
0.25

30c19'.121
81°32'.517
DUV-3-A
3/22/93
4.2
3.0
2.1
3.4
3.6
42
33.7
0.03
0.27
30°19'.447
81°30'.347
DUV-3-B
3/22/93





4.2
33.7
0.06

30°19'.447
81°30'.347
DUV-3-C
3-22/93





4.7
33.7
0.03

30°19'.447
81°30'.347
FLA-1-A
3/22/93
4.9
4.0
4.5
4.4
45
4.7
31.0
0.05
-3.25
29°19'.208
81023\337
FLA-1-B
3/22/93





4.9
31.0
0.05

29°19',208
81°23'.337
FLA-1-C
3/22/93





4.5
31.0
0.05

29°19'.208
81 "23'. 337
FLA-2-A
3/22/93
3.0
3.1
3.2
2.2
1.8
2.4
23.6
0.05
-1.24
29°19'.249
81 "24'. 442
FLA-2-B
3/22/93





3.2
23.6
0.05

29°19' 249
81 !>24'.442
FLA-2-C
3/22/93





2.2
23,6
0.05

29° 19'. 249
81 °24\442
FLA-3-A
3/22/93
8.2
6.7
9.1
5.7
5.3
9.0
9.1
0.09
-2.58
29°34'.354
81°11'.463
FIA-3-B
3/22/93





9.1
9.1
0.13

29°34'.354
81°11'.463
t r » a
-------
Table K-3 (Continued)
Radon Flux Measurements and Related Parameters
Gamma Soil Radon
Site

Site screening gamma
Intensity
Moisture
Flux



ID.#
Date
Measurements (nR/hr)
(uR/hrt§
(vol%)
(pCi/m2/s)
zt
Lattitude
Longitude
FLA-3-C
3/22/93





10.7
9.1
0.06

29°34'.354
81°11'.463
FLA-4-A
3/22/93
3.3
7.3
8.6
7.6
8.0
7.5
38.6
0.21
-0.64
29°33'.387
81°12'.122
FLA-4-B
3/22/93





8.6
38.6
0.05

29°33',387
81°12'.122
FLA-4-C
3/22/93





8.3
38.6
0.17

29°33'.387
81°12'.122
NAS-1-A
3^22/93
7.8
8.1
10.9
10.3
13.0
12.6
3.1
0.28
-0.94
30C34M62
81°26',694
NAS-1-B
3/22/93





13.0
3.1
0.37

30°34'.162
81°26'.694
NAS-1-C
3/22/93





14.9
3.1
0.25

30°34'.162
81°26'.694
NAS-2-A
3/22/93
11.7
11.2
10.3
10.0
8.7
10.9
12.0
0.03
-4.93
30°33'.887
81 °47'.500
NAS-2-B
2122m





11.2
12.0
0.03

30°33'.887
81°47'.500
NAS-2-C
3/22/93





10.7
12.0
0.03

30°33',887
81°47',500
NAS-3-A
3/22/93
9.4
12.6
8.2
10.2
9.4
11.8
31.5
0.03
-2.43
30°33\967
81°49',321
NAS-3-B
3/22/93





12.6
31.5
0.03

30°33'.967
81°49'.321
NAS-3-C
3/22/93





11.9
31.5
0.03

30°33'.967
81 "49'.321
PUT-1-A
3/22/93
4.6
4.3
3.4
2.8
3.5
4.4
7.2
0.30
-0.60
29°37'.772
81043'.562
PUT-1-B
3/22/93





4.6
7.2
0.10

29°37\772
8 r 43'. 562
PUT-1-C
3/22/93





4.5
7.2
0.11

29°37'.772
81'43'. 562
PUT-2-A
3/22/93
3.4
3.7
2.7
3.1
2.8
3.6
4.0
0.06
-3.49
29,38'.563
81°40',553
PUT-2-B
3/22/93





3.7
4.0
0.06

29"38'.563
81°40',553
PUT-2-C
3/22/93





3.7
4.0
0.06

29°38',563
81°40'.553
STJ-1 -A
3/22/93
2.6
3.4
3.3
1.8
2.3
3.6
31.4
0.05
-1.15
29°50'.262
81°22'.134
STJ-1-B
3/22/93





3.4
31.4
0.05

29°50'.262
81°22M34
STJ-1-C
3/22/93





3.4
31.4
0.05

29!'50'.262
81°22'.134
STJ-2-A
3/22/93
4.9
3.2
3.4
4.0
5.6
5.6
5.4
0.31
-0.33
29°48'.889
81 °19'. 939
STJ-2-B
3/22/93





5.6
5.4
0.54

29°48',889
81°19'.939
STJ-2-C
3/22/93





5.3
5.4
0.25

29°48'.889
81°19'.939
VOL-1-A
3/22/93
3.8
3.6
5.0
3.1
3.1
4.8
10.4
0.05
-2.37
29°05'.700
81°01'.761
VOL-1-B
3/22/93





5.0
10.4
0.05

29°05'.700
81°01'.761
VOL-1-C
3/22/93





4.3
10.4
0.07

29°05'.700
81°01 '.761
VOL-2-A
3/22/93
3.4
3.4
3.2
3.1
3.0
3.4
18.8
0.05
-0.05
29°06'.163
81°02'.001
VOL-2-B
3/22/93





3.4
18.8
0.02

29°06'.163
81 °02'.001
VOL-2-C
3/22/93





3.3
18.8
0.05

29°06'.163
81°02'.001
E-22-1
6/2/93





6.5
12
0.37
-1.23
27° 57'.908
81° 55'.009
E-22-2
6/2/93





7.5
12
0.91

27° 57'.908
81° 55'.009
E-22-3
6/2/93





6.9
12
1.45

27° 57\908
81° 55'.009
E-22-4
6/2/93





6.7
12
0.18

27° 57'.908
81° 55'.009
E-30-1
6/2/93





28.2
34.8
0.15
-1.75
28° 00'.627
81° 58',839
E-30-2
6/2/93





29.6
12.4
0.26

CM
-------
Table K-3 (Continued)
Radon Flux Measurements and Related Parameters



Gamma
Soil
Radon


Site

Site screening gamma
Intensity
Moisture
Flux


I.D.#
Date
Measurements (uR/hr)
(uR/Hr)§
(vol%)
(pCi/m2/s)
Zf
Lattrtude Longitude
E-36-1
6/2/93

22.1
20.5
0.35
-1.89
28° 00'. 734 81s 59'. 046
E-36-2
6/2/93

17.3
16.8
0.72

28° 00'.734 81° 59'.046
E-36-3
6/2/93

24.5
17.9
0.53

28° 0Q'.734 810 59'.046
E-36-4
6/2/93

18.0
21.6
0.12

28° 00".734 810 59'.046
E-37-1
6/2/93

5.6
12
0.40
-2.29
27° 57'.883 81° 55'.025
E-37-2
6/2/93

6.3
12
0.20

27° 57".883 81°55'.025
E-37-3
6/2/93

8.7
12
0.50

27° 57', 883 81°55',025
E-37-4
6/2/93

5.8
12
0.42

27° 57'. 883 81° 55'.025
E-38-1
6/2/93

18.8
18.4
0.07
-2.10
28° 00'.085 81° 58'.059
E-38-2
6/2/93

19.6
16
0.23

28° 00". 085 81" 58'. 059
E-38-3
6/2/93

26.1
24.2
0.41

28° 00'.085 81° 58'.059
E-38-4
6/2/93

28.2
22.9
0.42

28° 00'.085 81° 58\059
E-40-1
6/2/93

7.6
12
1.64
-0.28
27° 56'.791 81° 58'.672
E-40-2
6/2/93

7.7
12
3.46

27° 56'.791 810 58'.672
E-40-3
6/2/93

10.6
12
9 27

27° 56'.791 81° 58* 672
E-40-4
6/2/93

8.8
12
0.57

27° 56'.791 81 ° 58'.672
E-41-1
6/2/93

7.6
12
4.65
-0.06
27° 56'.810 810 58'.657
c-41-2
6/2/93

8.4
12
8.16

27° 56'.810 81" 58'.657
E-41-3
6/2/93

10.2
12
2.07

27° 56'.810 810 58'.657
E-41-4
6/2/93

7.9
12
1.37

27° 56'.810 81° 58'.657
E-42-1
6/2/93

39.7
17.9
0.66
-1.53
27° 59'.940 81° 57'.975
E-42-2
6/2/93

36.8
19.6
0.72

27° 59'.940 81° 57'.975
E-42-3
6/2/93

36.4
22.9
0.64

27° 59'.940 81° 57'.975
E-42-4
6/2/93

35.8
19.1
1.01

27" 59'.940 81 ° 57'.975
FIPR 1
6/2/93

35.0
1
2.92
0.519
27°53',682 81°51'.881
FIPR2
6/2/93

42.5
1
4.19

27°53'.682 81°51'.881
FIPR 3
6/2/93

36.2
f
3,44

27°53'.682 81°51'.881
FIPR 4
6/2/93

32.2
1
4.95

27°53'.682 81°5t\881
FIPR-5
6/2/93

32.7
1
6.32

27°53'.682 81°51'.881
FIPR-6
6/2/93

30.6
11
2.33

27°53'.682 81°51'.881
FIPR-7
6/2/93

31.6
U
7.86

27°53'.682 81°51'.881
FIPR-8
6/2/93

36.5
%
7.94

27°53'.682 81°51'.881
B-8-1
6/3/93

21.2
5.5
4.08
0.66
27° 54' 782 81° 52'.264
B-8-2
6/3/93

41.4
5.5
10.86

27° 54'. 782 81° 52'.264
B-8-3
6/3/93

42.2
5.5
7.80

27° 54'. 782 81° 52'. 264
B-8-4
6/3/93

27.2
5.5
2.72

27° 54'. 782 81° 52'.264
E-32-1
6/3/93

7.3
6.1
0.43
-2.08
27° 57'.690 81° 55'.016
E-32-2
6/3/93

7.3
6.1
0.39

27° 57'.690 81° 55'.016
E-32-3
6/3/93

6.9
6.1
0.35

27° 57'.690 81° 55'.016
E-32-4
6/3/93

6.9
6.1
0.73

27° 57'.690 81° 55'.016
C-14-1
6/4/93

17.4
15.5
0.58
0.59
27° 57'.274 81° 57'.779
C-14-2
6/4/93

21.3
8.9
9.83

27° 57'.274 81° 57'.779
C-14-3
6/4/93

21.9
14.8
6.96

27° 57'.274 810 57'.779
C-14-4
6/4/93

19.0
20.8
0.92

27° 57'.274 81° 57'.779
D-06-1
6/4/93

30.2
10.1
3.43
1.75
27° 57'.232 81°57'.447
D-06-2
6/4/93

52.9
12
4.76

27° 57'.232 81°57'.447
D-06-3
6/4/93

37.7
14.7
3.30

27° 57'.232 81°57,.447
D-06-4
6/4/93

43.0
8.90
10.10

27° 57.232 81° 57.447
D-08-1
6/4/93

23.7
9.70
2.90
1.43
27° 57.247 81°57'.500
D-08-2
6/4/93

23.3
10.8
4.27

27° 57'.247 81°57'.500
D-08-3
6/4/93

43.1
6.5
6.81

27° 57'. 247 81° 57'. 500
-------
Table K-3 (Continued)
Radon Flux Measurements and Related Parameters
Gamma Soil Radon
Site


Site screening gamma
Intensity
Moisture
Flux



I D. #
Date

Measurements (nR/hr)
(MR/hr)§
(vol%)
(pCi/m2/s)
zt
tattitude
Longitude
D-08-4
6/4/93





29.6
7.4
53.04

27° 57.247
81° 57.500
D-10-1
6/4/93





16.3
11.2
3.39
1.83
27° 57'.330
81° 57.738
D-10-2
6/4/93





15.2
11.2
3.93

27° 57".330
81° 57.738
D-10-3
6/4/93





20.8
11.2
9.38

27' 57'. 330
81° 57.738
D-10-4
6/4/93





19.7
11.2
4.52

27' 57'.330
81° 57'. 738
D-11-1
6/4/93





26.4
10.8
29.16
2.75
27' 57'. 198
81'57.688
D-11-2
6/4/93





29.2
16.8
8.71

27° 57'. 198
81' 57'.688
D-11-3
6/4/93





37.1
1Q.1
8.47

27' 57'. 198
81° 57'.688
D-11-4
6/4/93





54.5
4.7
21.98

27° 57'. 198
81° 57'.688
E-11-1
6/4/93





17.7
7.8
1.69
0.80
27' 55'.260
81' 59'.914
E-11-2
6/4/93





19.3
12
0.98

27° 55'.260
81° 59'.914
E-11-3
6/4/93





14.2
17.2
0.77

27° 55'.260
81° 59'.914
E-11-4
6/4/93





17.4
13.2
0.59

27° 55'.260
81° 59'.914
E-12-1
6/4/93





31.7
12
0.93
0.56
27° 55'.417
81° 59'. 476
E-12-2
6/4/93





26.4
16
0 28

27° 55'.417
81° 59'.476
E-12-3
6/4/93





22.3
8.5
1 99

27° 55'.417
810 59'.476
E-12-4
6/4/93





44.2
13.6
0.67

27° 55'.417
81° 59'.476
E-13-1
6/4/93





27.7
7.4
1.35
0.87
27° 55'.714
81' 59'.323
E-13-2
6/4/93





38.8
19.1
0.60

27' 55'.714
81° 59'.323
E-13-3
6/4/93





26.3
7.8
2.10

27° 55'.714
81° 59'.323
E-13-4
6/4/93





28.5
7.4
0.74

27° 55'. 714
81° 59'.323
E-16-1
6/4/93





33.8
5.4
6.21
0.70
27' 55'.436
81° 59'.561
E-16-2
6/4/93





39.9
4.7
4.38

27° 55'. 436
81° 59'. 561
E-16-3
6/4/93





33.9
8.5
0.53

27° 55'.436
81' 59'. 561
E-16-4
6/4/93





32.8
34.8
0.25

27° 55'.436
81' 59'.561
E-24-1
6/4/93





12.4
12
0.38
0.63
27' 55'. 173
81° 59'.835
E-24-2
6/4/93





16.8
8.5
1.15

27' 55'. 173
81° 59'.835
E-24-3
6/4/93





18.2
9.7
0.83

27' 55M73
81° 59'.835
E-24-4
6/4/93





20.4
5.4
0.92

27' 55'. 173
81° 59'.835
E-25-1
6/4/93





20.8
5.4
1.70
1.40
27' 55\436
81° 59',466
E-25-2
6/4/93





31.1
3.6
2.25

27° 55',436
81° 59'.466
E-25-3
6/4/93





22.5
4.7
1.19

27° 55'.436
81° 59'. 466
E-25-4
6/4/93





26.8
5.8
2.41

27° 55'.436
81° 59'.466
E-39-1
6/4/93





40.1
10.1
4.60
1.43
27c 55'.425
81° 59'. 511
E-39-2
6/4/93





39.2
12
6.62

27° 55'.425
81° 59-.511
E-39-3
6/4/93





17.2
7.8
0.65

27' 55'.425
81° 59'.511
E-39-4
6/4/93





44.7
6.5
6.62

27° 55'.425
81° 59'. 511
E-45-1
6/4/93





14.7
6.5
0.94
0.23
27° 55'.237
81° 59'.902
E-45-2
6/4/93





16.4
11.2
0.48

27° 55'.237
81° 59'.902
E-45-3
6/4/93





12.9
6.5
0.40

27° 55'.237
81° 59'.902
E-45-4
6/4/93





15.3
10.1
0.26

27° 55'.237
81° 59'. 902
BAY-1-A
6/15/93
4.9
3.8
6.0
4.6
7.4
7.4
18.6
0.07
-0.13
30'11'.395
85'39'.770
BAY-1-B
6/15/93





7.4
18.6
0.10

30°11 '.395
85°39'.770
BAY-1-C
6/15/93





9.2
18.6
0.07

30'11'.395
85°39'.770
BAY-2-A
6/15/93
6.1
6.6
6.6
6.9
5.1
7.7
21.6
0.26
0.09
30°08'.540
85'35'.592
BAY-2-B
6/15/93





6.9
21.6
0.26

30°08'.540
85°35\592
BAY-2-C
6/15/93





7.4
21.6
0.21

30'08\540
85°35'.592
BAY-3-A
6/15/93
6.4
10.5
6.0
5.2
6.6
10.6
17.5
0.51
0.88
30'12\453
85°36'.933
BAY-3-B
6/15/93





10.5
17.5
0.20

30°12'.453
85°36'.933
BAY-3-C
6/15/93





9.6
17.5
0.78

30°12\453
85°36'. 933
ESC-1-A
6/15/93
8.7
7.1
8.3
7.2
8.8
9.3
5.6
0.85
1.12
30e57'.911
87°19'.636
v i <
-------
Table K-3 (Continued)
Radon Flux Measurements and Related Parameters
Gamma Soil Radon
Site


Site screening gamma
Intensity
Moisture
Flux



1.0. #
Date

Measurements (^R/hr)
(yR/hr)§
(vol%)
(pCi/m2/s)
zt
Lattrtude
Longitude
ESC-1-B
6/15/93





8.8
5.6
1.25

30°57'.911
87319\636
ESC-1-C
6/15/93





9.3
5.6
0.91

30°57'.911
87"19\636
ESC-2-A
6/15/93
6.8
6.0
5.0
6.1
5.6
7.6
3.1
0.35
-0.06
30°58'.057
87320'.413
ESC-2-B
6/15/93





6.8
3.1
0.17

30°58'.057
87°20'.413
ESC-2-C
6/15/93





6.4
3.1
0.23

30'58\057
87°20'.413
ESC-3-A
6/15/93
9.6
10.5
10.2
7.3
10.3
11.8
16.8
0.22
0.47
3C"34'.938
87*17*. 902
ESC-3-B
6/15/93





10.5
16.8
0.43

30°34\938
87°17\902
ESC-3-C
6/15/93





12.0
16.8
0.85

30°34'.938
87°17'.902
ESC-4-A
6/15/93
5.8
5.4
4.3
8.8
7.7
9.4
19.1
0.07
-1.24
30°31\552
87°16'.509
ESC-4-B
5/15/93





8.8
19.1
0.17

30c31'.552
87°16'.509
ESC-4-C
6/15/93





9.8
19.1
0.24

30°31 '.552
87°16'.509
HOI-1-A
6/15/93
5.4
9.4
9.8
8.8
8.5
11.0
9.9
0.48
-0.12
30°53',679
85°42'.826
HOL-1-B
6/15/93





9.8
9.9
0.09

30c53'.679
85°42'.826
HOL-1-C
6/15/93





11.5
9.9
0.59

30°53'.679
85°42',826
HOL-2-A
6/15/93
3.4
9.7
8.8
9.0
8.6
9.6
30.1
0.09
0.60
30°54',207
85°43'.374
HOL-2-B
6/15/93





9.7
30.1
0.09

30°54'.207
85°43'.374
HOL-2-C
6/15/93





10.7
30.1
0.09

30"54',207
85=43'.374
HOL-3-A
6/15/93
9.2
10.8
8.3
9.6
9.7
10.4
12.8
0.29
•0.03
30°54'.836
85344M07
HOL-3-B
6/15/93





10.8
12.8
0.34

30>54'.836
85M4M07
H0L-3-C
6/15/93





10.5
12.8
0.22

30*54'.836
85°44*. 107
OKA-1-A
6/15/93
7.3
5.5
5.4
5.0
5.1
7.0
10.1
0.35
-0.22
30345'.352
86333'.988
0KA-1-B
6/15/93





7.3
10.1
0.19

30°45',352
86°33'.988
0KA-1-C
6/15/93





7.9
10.1
0.23

30°45\352
86°33'.988
OKA-2-A
6/15/93
8.5
7.1
9.4
7.0
6.9
11.0
13.2
C.08
-2.05
30°48'.387
86!>33'.173
OKA-2-B
6/15/93





9.4
13.2
0.08

30c'48'.387
86°33M73
OKA-2-C
6/15/93





10.5
13.2
0.08

30"48'.387
86°33'. 173
OKA-3-A
6/15/93
5.9
8.0
7.0
7.0
7.2
8.5
12.8
0.61
0.99
30°44' 835
86°37',264
OKA-3-B
6/15/93





8.0
12.8
0.51

30°44'.835
86°37'.264
OKA-3-C
6/15/93





8.8
12.8
0.32

30°44'.835
86°37'.264
SAN-1-A
6/15/93
6.2
5.5
5.6
5.3
5.7
7.3
13.4
0.08
-1.13
30c38'.070
86°58'.344
SAN-1-B
6/15/93





6 2
13.4
0.08

30°38'.070
86°58'.344
SAN-1-C
5/15/93





7.7
13.4
0.30

30°38'.070
86°58'.344
SAN-2-A
6/15/93
5.6
5.5
6.3
7.0
5 3
8 0
3.1
0.59
0.38
30°38'.808
86°55'.318
SAN-2-B
5/15/93





7.0
3.1
0.57

30°38'.808
86355'.318
SAN-2-C
6/15/93





7.7
3.1
0.43

30°38'.808
86°55'.318
WAL-1-A
6/15/93
5.8
6.9
6.3
5.9
5.3
8.6
6.5
0.48
1.03
30°48'.051
86»03M78
WAL-1-B
6/15/93





6.9
6.5
0.17

30°48'.051
86°03'.178
WAL-1-C
6/15/93





9.1
6.5
0.40

30'48',051
86°03',178
WAL-2-A
6/15/93
6.2
6.1
7.5
10.1
6.1
10.4
4.0
0.36
0.42
30°48\030
86°05'.421
WAL-2-B
6/15/93





10.1
4.0
0.34

30°48'.030
86°05'.421
WAL-2-C
6/15/93





8.9
4.0
0.43

30°48',030
86°05',421
WAL-3-A
6/15/93
6.4
6.5
4.6
6.9
7.1
7.8
3.1
0.21
-0.26
30°44'.619
86°06'.887
WAL-3-B
6/15/93





7.1
3.1
0.23

30°44'.619
86°06'.887
WAL-3-C
6/15/93





8 5
3.1
0.28

30°44'.619
86°06'.887
WAS-1 -A
6/15/93
8.5
8.3
8 1
8.9
9.1
11.1
7.2
0.10
0.72
30°44'.953
85°32',218
WAS-1 -B
6/15/93





9.1
7.2
0.32

30°44'.953
85°32'.218
WAS-1-C
6/15/93





10.7
7.2
0.10

30°44'.953
85°32',218
WAS-2-A
6/15/93
7.6
7.6
9 8
8.0
9.2
9.1
5.3
0.30
0.17
30°45'.895
B5°32'.955
WAS-2-B
6/15/93





9.8
5.3
0.40

30°45'.895
85°32'.955
WAS-2-C
6/15/93





9.2
5.3
0.48

30°45'.895
85°32'955
WAS-3-A
6/15/93
8.0
7.7
7.9
7.2
7.2
10.3
10.8
0.35
0.17
30°46'.881
85°31'.315
17
-------
Table K-3 (Continued)
Radon Flux Measurements and Related Parameters
Gamma Soil Radon
Site

Site screening gamma
Intensity
Moisture
Flux



ID.#
Date
Measurements (uR/hr)
(uR/hr)§
(vol%)
(pCi/m2''s)
Zf
Lattitude
Longitude
WAS-3-B
6/15/93





8.0
10.8
0.33

30°46',881
85°31'.315
WAS-3-C
6/15/93





9.6
10.8
0.39

30546\881
85°31'.315
CAL-1-A
6/16/93
9.5
10.9
12.3
13.2
17.2
21.5
20.0
0.45
1.21
30°23\968
85"05'.226
CAL-1-B
6/16/93





17.2
20.0
0.46

30*23'.968
85*05'.226
CAL-1-C
6/16/93





21.5
20.0
1.16

30°23\968
85°05'.226
CAL-2-A
6/16/93
7.9
5.7
8.5
10.9
6.4
14.4
15.7
0.63
0.72
30°25\ 547
85°07\133
CAL-2-B
6/16/93





10.9
15.7
0.66

30°25\547
85W.133
CAL-2-C
6/16/93





15.1
15.7
0 46

30°25\547
85°07'.133
CAL-3-A
6/16/93
6.9
6.1
7.2
8.2
5.2
13.9
10.1
0.19
045
30c26',776
85°10'.977
CAL-3-B
6/16/93





8.2
10.1
0.12

30°26'.776
85°10',977
CAL-3-C
6/16/93





11.4
10.1
0.26

30°26'.776
85°10\977
GUL-1-A
6/16/93
10.6
9.1
"0.3
11.4
9.5
13.0
7.4
0.45
-0.21
30c05'.162
85c11'.632
GUL-1-B
6/16/93





11.4
7.4
0.55

30°05',162
85°11',632
GUL-1-C
6/16/93





12.7
7.4
0.22

30°05'.162
85°11 '.632
GUL-2-A
6/16/93
8.8
8.5
9.8
8.3
10.5
10.6
7.2
0.21
0.35
30°08'.329
85°15'.059
GUL-2-B
6/16/93





10.5
7.2
0.12

3C°08'.329
85°15'.059
GUL-2-C
5/16/93





11.8
7.2
0.13

30°08\329
85°15',059
GUL-3-A
6/16/93
11.4
9.0
16.9
14.5
17.5
17.8
20.0
0.12
-.24
30=09\653
85°11'.312
GUL-3-B
6/16/93





17.5
20.0
5.38

30°09\653
85311'.312
GUL-3-C
6/16/93





18.0
20.0
0.55

30'09'.653
85°11'.312
JAC-1-A
6/16/93
7.4
7.5
6.3
7.6
6.2
8.3
16.0
0.05
-0.53
30339'.092
85°08'.148
JAC-1-B
6/16/93





7.6
16.0
0.20

30°39'.092
BS'OS'. 148
JAC-1-C
6/16/93





8.3
16.0
0.17

30°39\092
85°08'. 148
JAC-2-A
6/16/93
8.6
8.7
8.8
7.4
6.7
10.6
5.8
0.35
2 06
30°38" 663
85309'.672
JAC-2-B
6/16/93





8.8
5.8
1.09

30o38'.663
85°09'.672
JAC-2-C
6/16/93





12.1
5.8
0 61

30c38'.663
85°09'.672
JAC-3-A
6/16/93
7.1
9.3
9.2
7.3
6.3
10.5
5.6
0.19
-0.30
30°37'.807
85°11'.039
JAC-3-B
6/16/93





9.3
5.6
0.12

30°37'.807
85° 11'. 039
JAC-3-C
6/16/93





9.9
5.6
0.23

30°37'.807
85°1 V.039
LIB-1-A
6/16/93
8.7
8.6
6.6
6.6
7.1
9.6
8.2
0.23
0.46
30°22'.854
84°58'.519
LIB-1-B
6/16/93





8.7
8.2
0.60

30°22'.854
84°58'.519
LIB-1-C
6/16/93





8.8
8.2
0.46

30°22'.854
84C58'.519
LIB-2-A
6/16/93
6.7
8.0
6.6
7.1
8.1
7.7
9.3
0.53
2.09
3C024'.673
84°58'.897
LIB-2-B
6/16/93





8.1
9.3
0.63

30324'.673
84°58',897
LIB-2-C
6/16/93





9.9
9.3
0.61

30°24'.673
84°58',897
LIB-3-A
6/16/93
4.9
4.3
4.2
4.2
5.8
3.8
6.5
0.35
" .36
3C°27'.706
84°55',965
LIB-3-B
6/16/93





5.8
6.5
0.24

30°27'.706
84°55',965
LIB-3-C
6/16/93





4.4
6.5
0.98

30°27'.706
84°55'.965
FRA-1-A
6/17/93
7.3
4.3
4.6
3.8
4.4
6.5
5.1
0.08
0.69
30"00'.341
84°58'.685
FRA-1-B
5/17/93





7.3
5.1
0.13

30°00',341
84°58'.685
FRA-1-C
6/17/93





6.5
5.1
0.28

30:,00'.341
84"58'.685
FRA-2-A
6/17/93
6.7
6.2
5.8
6.6
10.4
9.4
8.9
0.08
0.30
29°57M 19
84°58'.581
FRA-2-B
6/17/93





10.4
8.9
0.07

29g57'. 119
84°58'.581
FRA-2-C
6/17/93





9.6
8.9
0.08

29c57'.119
84°58'.581
GAD-1-A
6/17/93
7.4
15.0
12.0
8.8
9.6
16.2
9.7
4 19
1.45
30°32'.529
84538,.481
GAD-1-B
6/17/93





15.0
9.7
1.01

30°32'.529
84°38'.481
GAD-1-C
6/17/93





16.1
9.7
0 83

30°32'.529
84°38'.481
GAD-2-A
6/17/93
5 5
7.2
6.5
11.4
16.3
17.3
17.0
1.27
1.20
30°31 '.057
84°38'.992
GAD-2-B
6/17/93





16.3
17.0
0.77

30°31'.057
84°38',992
GAD-2-C
6/17/93





15.2
17.0
0.64

30°31'.057
84°38',992
GAD-3-A
6/17/93
5.2
4.7
4.3
4.7
4.4
5.7
1.9
0.21
1.21
30°30\759
84°42'.368
K- 18
-------
Table K-3 (Continued)
Radon Flux Measurements and Related Parameters







Gamma
Soil
Radon



Site

Site screening gamma
Intensity
Moisture
Flux



l.D.»
Date
Measurements (|iR/lir)
(nR/hr)§
(vo!%1
(pCi/m2/s)
zt
Lattitude
Longitude
GAD-3-B
6/17/93





5.2
1.9
0.28

30°30'.759
84°42'.368
GAD-3-C
6/17/93





5.6
1.9
0.25

30°30'.759
84°42'.368
JEF-1-A
6/17/93
6.0
5.1
4.6
6.0
5.3
7.8
8.5
0.47
0.28
30°28\909
83°49'.870
JEF-1-B
6/17/93





6.0
8.5
0.20

30=28'.909
83°49',870
JEF-1-C
6/17/93





8.1
8.5
0.94

30°28',909
83°49'.870
JEF-2-A
6/17/93
9.8
7.9
7.6
7.6
9.0
11.0
10.1
0.42
-0.37
30<>3r.296
ss-s^go
JEF-2-B
6/17/93





9.8
10.1
0.45

30°31\296
83°52'.490
JEF-2-C
6/17/93





11.0
10.1
0.09

30°31\296
83°52'.490
LEO-1 -A
6/17/93
14.5
11.6
10.4
10.7
12.7
17.2
5.8
1.63
1.30
30931\731
83°58'.948
LE0-1-B
6/17/93





14.5
5.8
2.38

30°31'.731
83°58'.948
LEO-1-C
6/17/93





16.0
5.8
2.45

30°31'.731
83°58'.948
LE0-2-A
5/17/93
8.3
9.3
8.5
7.5
8.8
10.6
10.1
0.23
-0.35
30°31'.783
84c01'.311
LEO-2-B
6/17/93





9.3
10.1
0.54

30°31'.783
84°01'.311
LE0-2-C
6/17/93





10.6
10.1
0.31

30°31'.783
84«01'.311
LEO-3-A
6/17/93
5.9
7.2
7.0
7.0
8.8
12.4
10.1
3 61
2.17
30°36'.480
84°10'.678
LEO-3-B
6/17/93





3.8
10.1
2.94

30°36'.480
84°10'.678
LE0-3-C
6/17/93





12.0
10.1
2.28

30°36'.480
84c10'.678
LE0-4-A
6/17/93
11.6
8.5
7.2
8.1
8.6
12.6
15.5
3.43
1.08
30°33'.280
84°13'.303
LEO-4-B
6/17/93





11.6
15.5
1.13

30°33'.280
84°13'.303
LE0-4-C
6/17/93





12.2
15.5
1.12

30°33'.280
84° 13'. 303
LE0-5-A
6/17/93
7.0
8.5
11.6
11.1
9.4
12.0
7.4
1.04
0.68
30°32'.636
84" 10'. 583
LE0-5-B
6/17/93





11.6
7,4
0.79

30932'.636
84°10'.583
LEO-5-C
6/17/93





12.2
7.4
0.51

30°32\636
84° 10'. 583
MAD-1-A
6/17/93
11.5
10.5
8.3
9.5
6.0
15.1
5.8
1.17
1.28
30-23'. 522
83=28'.894
MAD-1-B
6/17/93





11.5
5.8
1.21

30323'.522
83!>28'.894
MAD-1-C
6/17/93





12.9
5.8
1.99

30°23'.522
83!'28'.894
MAD-2-A
6/17/93
7.8
6.5
7.5
7.3
5.4
7.0
1.2
0.90
2.48
30°26',473
83'37'.611
MAD-2-B
6/17/93





7.8
1.2
1.15

30°26'.473
83°37'.611
MAD-2-C
6/17/93





7.8
1.2
0.89

30°26'.473
83°37'.611
MAD-3-A
6/17/93
4.1
7.6
10.2
5.2
4 8
¦7.6
12.0
2.49
2.06
30°23'.105
83°26'.623
MAD-3-B
6/17/93





10.2
12.0
1.64

30°23M05
83°26'.623
MAD-3-C
6/17/93





18.1
12.0
1.37

30°23'.105
83°26'.623
WAK-1 -A
6/17/93
3.8
4.1
3.7
3.5
2.8
4.0
4.7
0.56
1.08
30°11'.780
84°22',088
WAK-1-B
6/17/93





4.1
4.7
C.74

30°11'.780
84°22'.088
WAK-1-C
6/17/93





4.1
4.7
1.07

30°1 V.780
84°22'.088
WAK-2-A
6/17/93
3.4
4.4
4.3
4.3
2.9
4.5
2.9
1.01
2 39
30C10'.66B
84°22',871
WAK-2-B
6/17/93





4.4
2.9
1.20

30°10'.668
84°22'.871
WAK-2-C
6/17/93





4.7
2.9
1.11

30°10'.668
84"22'.871
C0L-1-A
8/6/93
4.3
5.6
5.6
5.4
5.3
5.7
6.5
0.24
-0.05
30°17'.467
82°42'.284
C0L-1-B
8/6/93





5.6
6.5
0.42

30° 17'. 467
82°42'.284
C0L-1-C
8/6/93





5.3
6.5
0.80

30°17'.467
82°42'.284
C0L-2-A
8/6/93
4.1
3.5
3.5
3.3
2.9
4.2
18.4
0.09
-0.14
30°13'.246
82041'.683
COL-2-B
8'6/93





4.1
18.4
0.27

30° 13'. 246
82"41'.683
C0L-2-C
8/6/93





4.2
18.4
0.11

30°13'.246
82°41'.683
DIX-1-A
8/6/93
2.3
1.9
2.4
4.3
2.6
4.0
8.5
0.84
0.76
29°42'.389
83°17'.099
DIX-1-B
8/6/93





4.3
8.5
1.58

29°42'.389
83° 17*. 099
DIX-1-C
8/6/93





3.8
8.5
1.61

29°42',389
83°17',099
D1X-2-A
8/6/93
3 8
3.1
4.1
3.9
3.7
4.5
11.4
1.50
1.74
29°40'.667
83°15'.081
DIX-2-B
8/6/93





4.1
11.4
0.72

29"40'.667
83"15'.081
DIX-2-C
8/6/93





5.1
11.4
0.97

29°40'.667
ss^s'.osi
DIX-3-A
8/6/93
2.5
3.4
2.1
2.6
2.5
4.0
2.3
0.86
1.16
29°39',091
83810'.098
K-19
-------
Table K-3 (Continued)
Radon Flux Measurements and Related Parameters
Gamma Soil Radon
Site

Site screening gamma
Intensity
Moisture
Flux



I.D.#
Date
Measurements
vVR/hr)
•'^R/hr)§
(vol%)
(pCi/m2/s)
zt
L attitude
Longitude
DIX-3-B
8/6/93





3.4
2.3
0.74

29°39'.091
83°10'.098
0IX-3-C
8/6/93





4.3
2.3
0.83

29°39'.091
as'io^s
DIX-4-A
8/6/93
3.5




3.5
3.1
0.29
0.68
29°39'.012
83°11'.327
DIX-4-B
8/6/93





3.5
3.1
0.70

29°39'.012
83°11 '327
DIX-4-C
8/6/93





3.9
3.1
0.77

29°39'.012
83°11'.327
GIL-1-A
8/6/93
3.2
3.6
3.1
3.5
2.9
3.5
1.7
1.04
0.09
29°36'.715
82°53'.791
GIL-1-B
8/6/93





3.6
1.7
0.70

29°36'.715
82°53'.791
GIL-1-C
8/6/93





3.5
1.7
0.61

29°36'.715
82°53'.791
GIL-2-A
8/6/93
4.5
3.4
3.1
3.8
4.2
4.9
3.1
3.60
1.38
29°36'.777
82°48'.944
GIL-2-B
8/6/93





4,5
3.1
2.65

29°36\777
82°48'.944
GIL-2-C
8/6/93





4.4
3.1
0.93

29°36',777
82°48'.944
HAM-1-A
8/6/93
3.8
4.0
3.6
3.8
7.1
5.2
6.1
0.75
-0.26
30°27'.929
83°01'.942
HAM-1-B
8/6/93





5 4
6.1
0.56

30°27',929
83°01'.942
HAM-1-C
8/6/93





5.6
6.1
0.66

30'27'.929
83°01'.942
HAM-2-A
8/6/93
4.3
3.0
2.7
2.8
3.1
3.9
3.6
0.15
-0.52
30'28'.510
82°59',820
HAM-2-B
8/6/93





4.3
3.6
0.25

30'28'510
82°59'.820
HAM-2-C
8/6/93





3.8
3.6
0.18

30°28'.510
82°59'.820
HAM-3-A
8/6/93
3.4
3.5
4.0
4.4
3.7
4.1
4.5
0.11
C.09
3C°33',426
82°57".210
HAM-3-B
8/6/93





4.4
4.5
0.08

30833'.426
82°57'.210
HAM-3-C
8/5/93





4 8
4.5
0.28

30°33',426
82°57',210
LAF-1-A
8/6/93
7.3
3.0
11.8
8.5
7.4
9.9
5.2
8.24
3.41
29°55'.763
83° 16'. 596
LAF-1-B
8/6/93





11.8
5.2
11.88

29°55',763
83° 16'. 596
LAF-1-C
8/6/93





8.4
5.2
6.44

29°55\763
83° 16'. 596
LAF-2-A
8/6/93
3 7
2.6
4.8
4.0
3.3
4 4
5.2
0.44
0.60
29°52'.035
83°10'.956
LAF-2-B
8/6/93





4.8
5.2
0.24

29°52'.035
83°10'.956
LAF-2-C
8/6/93





5.7
5.2
0.53

29c52'.035
83°10'.956
LAF-3-A
8/6/93
3.2
3.2
2.9
2.5
3.0
2.2
6.5
0.13
0.75
29°52'.156
83°05'.623
LAF-3-B
8/6/93





2.2
6.5
0.04

29°52'.156
83o05'.623
LAF-3-C
8/6/93





2.3
6.5
0.06

29°52'. 156
83c05'.623
SUW-1-A
8/6/93
4.2
3.0
2.9
3.9
3.5
4.4
6.5
0.10
-1 59
30°17'.693
82°54',085
SUW-1-B
8/6/93





4.2
6.5
0.24

30°17'.693
82°54'.085
SUW-1-C
8/6/93





4.2
6.5
0.10

30°17'.693
82°54' 085
SUW-2-A
8/6/93
6.7
5.1
5.3
5.2
4.7
7.5
10.8
0.16
-0 42
30°18,.911
82°58'.328
SUW-2-B
8/6/93





6.7
10.8
0.17

30°18'.911
82°58'.328
SUW-2-C
8/6/93





7.8
10 8
0.37

30°18'.911
82°58'.328
SUW-3-A
8/6/93
4.8
5.8
-------
Table K-3 (Continued)
Radon Flux Measurements and Related Parameters
Gamma Sail Radon
Site
l.D. #
Date
Site screening gamma
Measurements (pR/hr)
Intensity
fnR/hr)§
Moisture
(vol%>
Flux
(pCi/m2/s)
zt
Lattitude
Longitude
ALA-7A-B
B/8/93





27.6
9.5
5.48

29°35'.484
82°11'.332
ALA-7A-C
8/8/93





30.2
9 5
6.36

29°35'.484
82°11'.332
BAK-1-A
8/8/93
7.6
7.8
7.6
5.7
5.2
8.0
21.8
0.15
-1.05
30312'.926
82°15'.215
BAK-1-B
8/8/93





7.3
21.8
0.23

30°12'.926
82<>15'.215
BAK-1-C
8/8/93





8.3
21.8
0.08

30°12'.926
82°15'.215
BAK-2-A
8/8/93
4.3
4.5
3.1
2.7
2.9
3.8
4.5
0.07
-0.15
30° 14'. 178
82°18\653
BAK-2-B
3/8/93





4.5
4.5
0.16

30'14M78
82°18'.653
BAK-2-C
8/8/93





3.5
4.5
C.13

30°14\178
82'18'.653
BRA-1-A
8/8/93
3.9
3.5
3.3
3.4
3.9
43
3.1
0.29
0.23
29°57\ 177
82°07,.298
BRA-1-B
8/8/93





3.9
3.1
0.36

29°57*. 177
82°07',298
BRA-1-C
8/8/93





4.5
3.1
0.30

29°57\177
82°07'298
BRA-2-A
8/8/93
3.5
45
3.8
6.9
39
6.4
8.7
C.22
-0.07
29°54'.055
82°08'.623
BRA-2-B
8'8/93





6.9
8.7
0.17

29°54',055
82°08'.623
BRA-2-C
8/8/93





6.1
8.7
0.23

29°54'.055
82°08'.623
UNI-1-A
8/8/93
4.4
5.3
7.1
6.4
7.9
8.3
5.2
2.50
1 20
30°00' 257
82°33'.769
UNI-1-B
8/8/93





7.9
5.2
2.51

30°00'.257
82°33'.769
UNI-1-C
8/8/93





8.6
5.2
2.82

30°00'.257
82°33'.769
UNI-2-A
8/8/93
8.3
3.9
6.2
6.8
4.5
S.O
4.5
3.66
2.52
29c57'.904
82°30'.485
UNI-2-B
8/8/93





8.3
4.5
3.34

29c57'.904
82°30'.485
UNI-2-C
8/8/93





7.5
4.5
3.43

29°57',904
82°30'.485
UNI-3-A
8/8/93
5.0
3.7
4.8
5.5
3.2
5.9
3.6
089
1 32
29°56\329
82°25'.471
UNI-3-B
8/8/93





6.2
3.6
1.06

29°56'.329
82°25'.471
UNI-3-C
8/8/93





6.1
3.6
1.56

29°56'.329
82°25'.471
HER-1-A
9/9/93
3.5
4.3
4.2
6 1
5.3
7.1
20.0
0 52
0.31
2B°33'.136
82°21'.125
HER-1-B
9/9/93





6.1
20.0
0.31

28°33'.136
82°21M25
HER-1-C
9/9/93





7.0
20.C
0.22

28°33'.136
82°21'. 125
HER-2-A
9/9/93
5.9
4.0
6.1
9.5
16.5
22.8
21.0
6.25
0.78
28"32'.792
82°17'.981
HER-2-B
9/9/93





20.9
21.0
7.33

28°32'.792
82"17'.981
HER-2-C
9/9/93





20.0
21.0
3.18

28°32'.792
82"17'.981
HER-3-A
9/9/93
3 5
5.0
4.5
4.4
3.8
5.4
10.8
1.86
0.90
28°33'.455
82°16'.702
HER-3-B
9/9/93





5.0
10.8
1 96

28°33'.455
82" 16'. 702
HER-3-C
9/9/93





5.9
10.8
1.97

28°33'.455
82°16'.702
HIL-1-A
9/9/93
4.2
3.1
4.8
8.9
4.0
7.4
17.3
1 20
0.05
27°58'.202
82°24'. 132
HIL-1-B
9/9/93





8.9
17.3
1.10

27"58'.202
82°24'. 132
HIL-1-C
9/9/93





6.8
17.3
0.76

27358'.202
82°24'. 132
HIL-2-A
9/9/93
5.7
4.5
4.5
58
4.6
6.2
28.3
0.10
-C.31
27357'.107
82°22'.478
HII-2-B
9/9/93





5.8
28.3
C.09

27357'. 107
82322'.478
HIL-2-C
9/9/93





6.1
28.3
C.68

27=57'. 107
82°22'.478
HIL-3-A
9/9/93
3.2
2.6
2 2
2.7
3.4
3.2
22.5
0.10
-0.92
27,56'.452
82°22'.161
HIL-3-B
9/9/93





3.4
22.5
0.18

27°56'.452
82a22M61
HIL-3-C
9/9/93





3.0
22.5
0.10

27°56'.452
82°22M61
PAS-1-A
9/9/93
2.2
2.1
2.3
2.2
2.0
3.0
7.4
0.68
-0.85
28°17\ 161
82°41'.184
PAS-1-B
9/9/93





23
7.4
0.19

28°17'.161
82°41'.184
PAS-1-C
9/9/93





2.8
7.4
0.08

28°17\ 161
82°41'.184
PAS-2-A
9/9/93
2.5
2.8
1.9
3.1
2.6
2 2
6.5
0.08
-1 49
28°22'.534
82°39',035
PAS-2-B
9/9/93





3.1
6.5
0.08

28°22'.534
82°39'.035
PAS-2-C
9/9/93





23
6.5
0.16

28°22'.534
82°39'.035
PIN-1-A
9/9/93
2.6
4 4
3.9
3.6
6.1
8.4
7.6
0.51
-0.80
28°07'.366
82°45'.378
PIN-1-B
9/9/93





8.1
7.6
0.08

28c07'.366
82°45'.378
PIN-1-C
9/9/93





8.5
7.6
0.09

28°07',366
82"45',378
P1N-2-A
9/9/93
2.9
3.3
3.5
3.6
4.4
5.4
7.2
0.44
-1.27
28C,03'.182
82°46'.702
-------
Table K-3 (Continued)
Radon Flux Measurements and Related Parameters
Gamma Soil Radon
Site

Site screening gamma
Intensity
Moisture
Flux



I.D. #
Date
Measurements (>iR/'nr)
(uR/hr)§
(vol%)
(pCi/m2/s)
zt
lattitude
Longitude
PIN-2-B
9/9/93





5.2
7.2
0.23

28°03',182
82°46',702
PIN-2-C
9/9/93





5.7
7.2
0.35

28°03',182
82°46'.702
PIN-3-A
9/9/93
3.0
3.5
3.4
3.6
3.7
3.9
4.5
0.19
-0.29
28*07\425
82°46'.549
PIN-3-B
9/9/93





3.7
4.5
0.34

28"07'.425
82°46'.549
PIN-3-C
9/9/93





4.8
4.5
0.24

28c07',425
82°46'.549
SUM-1-A
9/9/93
3.7
7.2
4.6
29
2.1
5.1
33.1
0.08
-0.14
28°51'.114
82°08'.542
SUM-1-B
9/9/93





7.2
33.1
0.10

28c51 '.114
82c08'.542
SUM-1-C
9/9/93





5.2
33.1
0.08

28°51'.114
82°08'.542
SUM-2-A
9/9/93
7.5
5.5
6.8
7.4
4.2
6.1
30.6
0.15
-2.30
28°54'.512
82°08'.542
SUM-2-B
9/9/93





7.5
30.6
0.18

28°54'.512
82°08'.542
SUM-2-C
9/9/93





6.0
30.6
0.24

28°54'.512
82°08'.542
SUM-3-A
9/9/93
3.8
4.4
3.6
4.2
5.2
7.7
5.2
8.22
0.26
28°53'.680
82°05'.259
SUM-3-B
9/9/93





6.2
5.2
0.85

28°53'.680
82°05'.259
SUM-3-C
9'9/93





8.0
5.2
6.20

28°53',680
82°05' 259
SUM-4-A
9/9/93
4.1
3.9
4.2
6.3
3.7
5.5
5.4
4.99
2.04
28"53' 242
82°03'.226
SUM-4-B
9/9/93





6.3
5.4
11.16

28°53'.242
82°03\226
SUM-4-C
9/9/93





6.3
5 4
17.61

28"53',242
82303'.226
FIPR-1
10/21/93





24.0
12.8
2.14
0.453
27r>53',682
8r5r.881
FIPR-2
10/21/93





29.9
11.4
5.97

27°53'.682
81°51'.881
FIPR-3
10/21/93





23.5
9.9
3.63

27°53',682
81°51',881
FIPR-4
10/21/93





22.5
11.4
6.46

27°53',682
81 °51'.881
FIPR-5
10/21/93





22.2
20.8
1.41

27°53'.682
81°51'.881
FIPR-6
10/21/93





21.7
13.4
12.48

27°53\682
81°51'.881
FIPR-7
10/21/93





23.2
9.9
9.40

27°53'.682
81°51'.881
HIL-4-A
10/21/93
11.2
15.5
4.4
12.8
46
11.1
4.7
2.30
1.29
28°00'.332
82°07'.237
HIL-4-B
10/21/93





15.2
4.7
2.55

28°00'.332
82°07'.237
HIL-4-C
10/21/93





15.6
4.7
§§

28°00'.332
82°07',237
HIL-5-A
10/21/93
8.0
4.6
5.6
4.6
5.7
5.2
5.4
0.30
-0.95
27°56'.4C6
82°07'.213
HIL-5-B
10/21/93





5.1
5.4
§§

27°56'.406
82°07'.213
HIL-5-C
10/21/93





6.9
5.4
036

27"56'.406
82°07'.213
HIL-6-A
10/21/93
4.8
8.8
4.1
5.6
5.6
10.6
3.1
13.78
0.70
27°52'.506
82° 13'. 908
HIL-6-B
10/21/93





8.7
3.1
11.41

27"52',506
82c13'.908
HIL-6-C
10/21/93





7.6
3.1
2.43

27°52'.506
82°13'.908
HIL-7-A
10/21/93
7.3
11.9
5.1
9.5

9.9
8.0
1.32
-0.72
27<>52'.704
82"05'.808
HIL-7-B
10/21/93





7.1
8.0
0.27

27°52'.704
82°05'.808
HIL-7-C
10/21/93





7.9
8.0
0.61

27°52'.704
82°05'.808
H1L-8-A
10/21/93
6.4
3.9
8.9
3.3
5.8
8.9
6.5
0.61
-1.15
27°52'.650
82°03'.522
HIL-8-B
10/21/93





9.3
6.5
0.64

27°52'.650
82°03'.522
H1L-8-C
10/21/93





8.5
6.5
0.56

27°52'.650
82°03'.522
HIL-9-A
10/21/93
14.5
21.3
17.2
20.3
25.5
25.3
28.4
2.30
-0.57
27J47',210
82°08'.739
HIL-9-B
"0/21/93





26.3
28.4
1.16

27°47'.210
82"08,.739
HIL-9-C
10/21/93





24.2
28.4
2.31

27'47'.210
82"08'.739
P0L-1-A
10/21/93
18.0
15.7
18.3
17.4
16.9
15.1
13.8
4.44
-0.53
27°53'.460
81°50'.369
P0L-1-B
10/21/93





15.8
13.8
2.80

27°53'.460
81°50'.369
P0L-1-C
10/21/93





33.0
13.8
0.16

27°53'.460
8r50\369
P0L-2-A
10/21/93
20.6
69.7
19.0
22.3
11.4
39.6
24.7
4.94
0.58
27°52'.761
81°50'.369
P0L-2-B
10/21/93





40.4
24.7
7.21

27°52,.761
81°50'.369
P0L-2-C
10/21/93





45.4
24.7
§§

27°52'.761
81°50'.369
POL-4-A
10/21/93
2.6
2.5
2.8
3.2
2.8
3.4
17.5
0.09
-0.59
27°58'.479
82601'.420
POL-4-B
10/21/93





4.7
17.5
0.04

27°58'.479
82"01',420
P0L-4-C
10/21/93





4.1
17.5
0.04

27°58'.479
82°01'.420
T/" *10
-------
Table K-3 (Continued)
Radon Flux Measurements and Related Parameters
Gamma Soil Racon
Site

Site screening gamma
Intensity
Moisture
Flux



I.D.#
Date
Measurements (uR/hr)
(uR/hr)§
(vol%)
(pCi/m2/s)
zt
Lattitude
Longitude
POL-5-A
10/21/93
14.0
11.7
23.2
15.3
8.9
25.8
16.0
0.73
-1.47
27°53'. 130
82°01'.340
POL-5-B
10/21/93





27.6
16.0
1.29

27"53'.130
82°01'.340
POL-5-C
10/21/93





30.0
16.0
0.84

27°53',130
82°01'.340
POL-6-A
10/21/93
8.0
18.0
7.0
5.6
6.7
6.0
4.5
0.88
-1.07
27°58'.009
81 °53'.427
POL-6-B
10/21/93





5.9
4.5
1.36

27°58'.009
81c53'.427
POL-6-C
10/21/93





5.5
4.5
1.93

27°58'.009
81°53'.427
ORA-1-A
10/22/93
5.9
3.6
4.2
4.6
4.3
5.0
14.3
0.08
-1.13
28°22'.306
81o30'.205
ORA-1-B
10/22/93





5.7
14.3
0.08

28'=22'.306
81 "SO1.205
ORA-1-C
10/22/93





4.0
14.3
0.10

28°22'.306
8r30\205
ORA-2-A
10/22/93
2.8
2.8
2.8
2.5
2.7
3.1
4.9
0.29
0.84
28°23'.466
81°24'.291
ORA-2-B
10/22/93





2.9
4.9
0.19

28°23'.466
81°24'.291
ORA-2-C
4 0/22/93





3.1
4.9
0.29

28°23'.466
81 °24'.291
ORA-3-A
'.0/22/93
5.4
3.9
24
30
3.0
2.9
7.2
0.12
-0.61
28°33'.670
8ioi6\630
ORA-3-B
10/22/93





3.4
7.2
0.10

28°33'.670
81 °16'.630
ORA-3-C
10/22/93





3.4
7.2
0.08

28°33'.670
81°16'.630
ORA-4-A
10/22/93
3.1
2.9
3 1
28
2.0
4.3
14.0
0.13
0.41
28°27'.034
81 °13'.628
ORA-4-B
10/22/93





4.1
14.0
0.47

28t>27'.034
81°13'.628
ORA-4-C
10/22/93





4.0
14.0
0.11

28°27'.034
81°13'.628
POL-10-A
10/22/93
11.6
15.2
7.0
6.2
7.1
12.9
14.5
0.16
-2.07
27°48M 78
81°54',964
POL-10-B
10/22/93





13.3
14.5
0.13

27°48\ 178
81°54'.964
POL-10-C
10/22/93





12.3
14.5
0.09

27°48'. 178
81°54'.964
POL-11-A
10/22/93
4.3
4.0
3.9
4.2
5.0
5.4
15.5
0.47
0.03
27°49'.341
BVi3'.556
P0I-11-B
10/22/93





5.7
15.5
0.26

27349'.341
81°43'.556
POL-11-C
10/22/93





6.0
15.5
0.33

27°49'.341
81°43'.556
POL-3-A
10/22/93
54.9
19.5
29.3
18.8
19.5
56.7
4.9
2.60
3.64
27°43'.800
si^r^go
POL-3-B
10/22/93





63.0
4.9
1.98

27°43'.800
ar57'.490
POL-3-C
10/22/93





59.6
4.9
2.42

27c43'.800
81 °57'.490
POL-7-A
10/22/93
9.3
18.8
15.0
16.1
14.2
16.2
10.8
0.68
1.29
27°47'.737
82°01'.724
POL-7-B
10/22/93





17.2
10.8
1.28

27°47'.737
82°01'.724
POL-7-C
10/22/93





15.9
10.8
0.72

27°47'.737
82°0r.724
POL-8-A
10/22/93
17.1
18.6
16.5
25.5
49.7
74.3
12.0
3.38
0.23
27"47'.995
81°53'.317
P0L-8-B
10/22/93





55.7
12.0
2.76

27°47'.995
81°53'.317
POL-8-C
10/22/93





51.4
12.0
4.34

27°47'.995
81°53'.317
POL-9-A
10/22/93
34.1
31.9



49.5
9.7
3.59
-0.08
27°46'.391
81°46'.070
POL-9-B
10/22/93





57.0
9.7
3.98

27°46'.391
81°46'.070
P0L-9-C
10/22/93





53.1
9.7
1.09

27°46'.391
81°46',070
SEM-1-A
10/22/93
3.0
2.8
2.2
3.1
3.5
4.3
17.5
0.03
-0.41
28°43'.537
81 °19'.839
SEM-1-B
10/22/93





3.5
17.5
0.12

28°43'.537
81°19'.839
SEM-1-C
10/22/93





3.9
17.5
0.16

28°43'.537
81°19'.839
SEM-2-A
10/22/93
2.6
3.4
2.8
3.0
3.8
3.9
4.0
0.31
-0.12
28°44'.635
81°19'.205
SEM-2-B
10/22/93





3.8
4.0
0.40

28°44'.635
81 °19'.205
SEM-2-C
10/22/93





4.3
4.0
0.51

28°44'.635
81 °19'.205
SEM-3-A
10/22/93
2.S
2.5
2.4
2.8
2.5
3.4
4.0
0.08
-0.30
28°45'.352
81°18'.681
SEM-3-B
10/22/93





2.8
4.0
0.35

28°45'.352
sna'.esi
SEM-3-C
10/22/93





3.3
4.0
0.38

28°45'.352
ana'.eai
BRE-1-A
10/23/93
2.7
2.4
2.5
2.3
3.2
3.1
17.3
0.30
0.44
27°59'.945
80°42'.193
BRE-1-B
10/23/93





3.2
17.3
0.59

27°59'.945
80°42'. 193
BRE-1-C
10/23/93





3.0
17.3
0.35

27°59,.945
80°42'. 193
BRE-2-A
10/23/93
2.3
2.0
2.2
2.5
2.3
3 2
27.4
0.03
-0.69
27°58'.643
80°42'.371
BRE-2-B
10/23/93





2.5
27.4
C.20

27°58'.643
80°42'.371
BRE-2-C
10/23/93





3.1
27.4
0.05

27°58'.643
80°42'.371
-------
Table K-3 (Continued)
Radon Flux Measurements and Related Parameters







Gamma
Soil
Radon



Site

Site screening gamma
Intensity
Moisture
Flux



l.D. #
Date
Measurements (^lR/hi

(u.R/hr>§
(vol%)
(pCi/m2/s)
zt
Lattitude
Longitude
1ND-1-A
10/23/93
2.3
2.3
2.1
2.1
2.3
3.5
21.8
0.11
0.59
27044'.467
80e27'.762
IND-1-B
10/23/93





2.8
21.8
0.15

27°44'.467
80°27'.762
IND-1-C
10/23/93





3.2
21.8
0.11

27°44\467
80<,27'.762
IND-2-A
10/23/93
• 4.0
3.9
4.1
3.7
4.1
4.2
5.6
0.24
-0.61
27°43'.277
80°26'.202
IND-2-B
10/23/93





4.1
5.6
0.22

27°43'.277
80°26'.202
IND-2-C
10/23/93





4.1
5.6
0.33

27°43'.277
80°26'.202
IND-3-A
10/23/93
2.8
2.9
3.2
2.2
2.8
3.8
9.3
0.09
-0.65
27°39'.385
80a25'.819
IND-3-B
10/23/93





3.2
9.3
0.09

27'39'.385
80O25\8i9
IND-3-C
10/23/93





3.4
9.3
0.08

27°39'.385
80a25'.819
IND-4-A
10/23/93
4.4
4.2
5.2
2.4
2.2
4.9
5.8
0.26
-0.26
27°38\548
80"24,.724
IND-4-B
10/23/93





5.2
5.8
0.09

27°38'.548
80°24'.724
IND-4-C
10/23/93





4.8
5.8
0.14

27°38'.548
80°24'.724
OSC-1-A
10/23/93
1.5
2.3
3.9
3.9
3.4
2.4
7.4
0.07
•0.38
28°04',801
81°04\214
OSC-1-B
10/23/93





2.2
7.4
0.07

28°04',801
81°04'.214
0SC-1-C
10/23/93





2.5
7.4
0.07

28°04'.801
81°04',214
0SC-3-A
10/23/93
2.6
3.1
3.4
32
3.0
1.4
9.7
0.07
-0.80
28°02'.557
81°02'.862
0SC-3-B
10/23/93





1.4
9.7
0.07

28c02'.557
81°02'.862
0SC-3-C
10/23/93





1.6
9.7
0.07

28°02'.557
81 "02'.862
HIG-2-A
10/24/93
1.8
1.8
2.0
1.5
2.7
2.9
24.8
0.04
-0.19
27°37'.449
81°25'.571
HIG-2-B
10/24/93





2.7
24.8
0.07

27°37'.449
ai^s'.s?!
HIG-2-C
10/24/93





2.5
24.8
0.89

27°37'.449
81 °25'.571
HIG-3-A
10/24/93
5.2
4.5
2.7
2.4
5.4
3.3
8.7
0.24
-0.33
27°38'.388
81°30'.476
HIG-3-B
10/24/93





5.4
8.7
0.20

27°38'.388
81°30,.476
HIG-3-C
10/24/93





3.2
8.7
0.15

27°38'.388
81°30'.476
HIG-4-A
10/24/93
1.6
1.8
2.4
1.8
1.9
2.6
13.8
0.24
0.18
27°29'.299
81°18'.388
HIG-4-B
10/24/93





2.4
13.8
0.04

27"29'.299
81 °18'.388
HIG-4-C
10/24/93





3.0
13.8
0.09

27°29'.299
ans'.sas
OKE-1-A
10/24/93
3.3
2.9
3.6
2.9
3.0
3 8
16.0
0.19
2.32
27° 11 '536
80°50'.900
0KE-1-B
10/24/93





4.1
15.0
0.33

27°11'.536
so^o'.goo
0KE-1-C
10/24/93





3 9
16.0
0.30

27°1 V.536
80°50'.900
0KE-2-A
10/24/93
3.6
2.0
1.9
1.9
22
4.2
4.7
0.16
-1.61
27°14'.609
81°51'.373
0KE-2-B
10/24/93





3.6
4.7
0.06

27°14'.609
81°51'.373
0KE-2-C
10/24/93





2.9
4.7
0.04

27°14'.609
81°51'.373
STL-1-A
10/24/93
2.6
2.1
2.7
2.2
2.9
2.3
11.8
0.08
0.01
27°20'.669
80°24'.330
STL-1-B
10/24/93





2.4
11.8
0.08

27°20\669
80°24'.330
STL-1-C
10/24/93





2.5
11.8
0.09

27°20'.669
80°24'.330
STL-2-A
10/24/93
2.4
2.4
2.1
2.5
2.8
2.7
17.0
0.08
1.01
27°14'.085
80°24'.429
STL-2-B
10/24/93





2.8
17.0
0.08

27°14'.085
80°24'.429
STL-2-C
10/24/93





2.4
17.0
0.11

27°14'.085
80°24'.429
STL-3-A
10/24/93
3.4
2.8
3.0
3.2
3.8
3.8
27.4
0.11
1.35
27°20'.338
80°28'.882
STL-3-B
10/24/93





3.8
27.4
0.09

27°20'.338
80°28'.882
STL-3-C
10/24/93





3.6
27.4
0.22

27°20'.338
80°28'.882
HAR-1-A
11/12/93
4.4
3.2
2.9
3.3
3.3
5.9
13.4
0.52
-0.74
27c30'.647
82°00'.593
HAR-1-B
11/12/93





4.4
13.4
0.32

27°30'.647
82°00'.593
HAR-1-C
11/12/93





4.1
13.4
0.65

27°30'.647
82o00'.593
HAR-2-A
11/12/93
2.1
3.3
3.3
2.3
3.6
3.6
7.6
0.12
-2.28
27°29'.313
82°01'.131
HAR-2-B
11/12/93





3.6
7.6
0.10

27°29'.313
82°01'.131
HAR-2-C
11/12/93





2.9
7.6
0.10

27°29'.313
82°01'.131
HAR-3-A
11/12/93
2.6
2.6
2.5
2.5
2.5
3.1
23.1
0.12
-0.72
27°33'.613
81°40'.048
HAR-3-B
11/12/93





2.6
23.1
0.12

27°33'.613
81°40'.048
HAR-3-C
11/12/93





3.4
23.1
0.12

27°33',613
81°40'.048
-------
Table K-3 (Continued)
Radon Flux Measurements and Related Parameters
Gamma Soil Radon
Site

Site screening gamma
Intensity
Moisture
Flux



I.D. #
Date
Measurements f^R/hr)
()jR/hr)§
(vol%)
(pCi/m2/s)
zt
Lattitude
Longitude
HAR-4-A
11/12/93
4.4
3.4
5.5
4.2
4.4
4.5
8.2
0.35
-2.25
27°37'.654
81°51'.535
HAR-4-B
11/12/93





5.5
8.2
0.34

27°37'.654
81°51'.535
HAR-4-C
11/12/93





4.3
8.2
0.34

27°37'.654
81°51',535
HAR-5-A
11/12/93
.2.6
3.0
3.3
3.6
4.5
4.4
13.2
0.38
1.23
27°35'.663
81 °53'.732
HAR-5-8
11/12/93





4.5
13.2
0.51

27°35,.663
81°53'.732
HAR-5-C
11/12/93





4.8
13.2
0.39

27°35'.663
81°53'.732
HAR-6-A
11/12/93
3.4
3.1
2.5
6.1
4.4
6.9
18.2
0.80
0.81
27°30'.560
81°49',047
HAR-6-B
11/12/93





6.1
18.2
1.22

27°30'.560
81°49'.047
HAR-6-C
11/12/93





6.8
18.2
1.51

27°30',560
81°49'.047
HAR-7-A
11/12/93
3.9
3.0
3.3
3.1
3.0
5.7
13.4
0.24
0.99
27°27'.809
81°47\850
HAR-7-B
11/12/93





3.9
13.4
0.13

27°27'.809
81°47\850
HAR-7-C
11/12/93





5.4
13.4
0.15

27°27'.809
81°47'.850
MAN-2-A
11/12/93
1.9
2.4
3.8
2.0
2.1
3.7
14.5
0.10
0.13
27°25'.419
82°22'.277
MAN-2-B
11/12/93





3.8
14.5
0.29

27°25'.419
82°22'.277
MAN-2-C
11/12/93





2.5
14.5
0.12

27°25*.419
82°22'.277
MAN-3-A
11/12/93
3.1
2.9
2.8
3.4
3.0
3.5
14.9
0.09
-0.17
27'31'.273
82°36'.174
MAN-3-B
11/12/93





3.4
14.9
0.20

27°31 '.273
82c36',174
MAN-3-C
11/12/93





3.6
14.9
0.18

27°31'.273
82°36'.174
MAN-4-A
11/12/93
4.0
3.0
2.3
4.1
2.6
3.6
11.0
0.36
1.26
27°29'.166
82°24'.253
MAN-4-B
11/12/93





4.1
11.0
0.40

27°29',166
82°24'.253
MAN-4-C
11/12/93





4.1
11.0
0.20

27°29'. 166
82c24'.253
MAN-5-A
11/12/93
3.7
3.6
4.1
3.2
3.7
7.0
26.6
0.20
1.30
27°27'.008
82°06'.179
MAN-5-B
11/12/93





4.1
26.6
0.20

27°27'.008
82°06'.179
MAN-5-C
11/12/93





4.1
26.6
0.10

27°27'.008
82°06'.179
MAN-6-A
11/12/93
6.5
5.5
2.6
2.3
3.9
4.9
15.7
0.96
0.35
27°28'.341
82°11'.875
MAN-6-B
11/12/93





5.5
15.7
0.29

27°28'.341
82°11'.875
MAN-6-C
11/12/93





3.7
15.7
0.33

27°28'.341
82°1 T.875
CHA-1-A
11/13/93
3.7
4.2
4.1
5.5
4.5
5.5
14.9
0.88
0.68
27"01 '.036
82°09'.262
CHA-1-B
11/13/93





5.5
14.9
0.88

27°01' 036
82°09'.262
CHA-1-C
11/13/93





5.7
14.9
1.52

27°01',036
82°09'.262
CHA-2-A
11/13/93
62
3.8
4.7
33
2.5
8.7
16.4
§§

26°58'.345
82°03',945
CHA-2-B
11/13/93





6.2
16.4
§§

26°58',345
82°03',945
CHA-2-C
11/13/93





9.4
16.4
§§

26°58'.345
82°03'.945
CHA-3-A
11/13/93
3.7
4.6
5.1
8.1
2.6
7.8
35.9
0.27
-0.15
26°53'.942
82°01'.879
CHA-3-B
11/13/93





8.1
35.9
0.29

26°53',942
82°01'.879
CHA-3-C
11/13/93





9.1
35.9
0.27

26°53'.942
82°01'.879
CHA-4-A
11/13/93
2.6
2.9
2.1
3.4
4.7
2.3
6.9
0.05
-1.15
26°48'.264
82°01'.961
CHA-4-B
11/13/93





3.6
6.9
0.05

26°48'.264
82°0r.961
CHA-4-C
11/13/93





2.0
6.9
0.10

26'48'.264
82°01'.961
DES-1-A
11/13/93
1.9
2.2
2.9
2.1
2.0
2.7
10.8
0.14
-0.45
27° 12'. 198
82°02'.939
DES-1-B
11/13/93





2.9
10.8
0.09

27°12M98
82°02'.939
DES-1-C
11/13/93





3.7
10.8
0.58

27°12M98
82°02'.939
DES-2-A
11/13/93
1.8
2.1
2.3
2.4
2.4
2.7
6.9
0.20
0.73
27°12'.405
82°00'.675
DES-2-B
11/13/93





2.4
6.9
0.33

27°12'.405
82°00'.675
DES-2-C
11/13/93





2.7
6.9
0.26

27°12'.405
82°00'.675
DES-3-A
11/13/93
3.5
3.7
3.2
2.5
2.7
3.8
36.1
0.14
-0.19
27°13'.432
81°50'.823
DES-3-B
11/13/93





3.7
36.1
0.22

27°13'.432
81"50'.823
DES-3-C
11/13/93





4.4
36.1
0.04

27°13'.432
81°50'.823
DES-4-A
11/13/93
2.2
1.8
2.4
2.1
2.6
2.0
13.8
0.09
•0.33
27°12',078
81°56'.343
DES-4-B
11/13/93





2.6
13.8
0.09

27°12'.078
81°56'.343
DES-4-C
11/13/93





2.1
13.8
0.13

27°12'.078
81°56'.343
-------
Table K-3 (Continued)
Radon Flux Measurements and Related Parameters
Gamma Soil Radon
Site

Site screening gamma
Intensity
Moisture
Flux



I.D. #
Date
Measurements (^iR/hr)
0iR/hr!§
(vol%)
(pCi/m2/s)
Zt
Lattitude
Longitude
DES-6-A
11/13/93
4.0
3.2
2.4
2.0
4.0
3.7
15.5
0.21
-0.05
27°04'.134
81°57'.828
DES-6-B
11/13/93





4.0
15.5
0.13

27°04\ 134
81=57'. 828
DES-6-C
11/13/93





3.3
15.5
0.04

27°04M34
81°57'.828
LEE-1-A
11/13/93
5.1
6.3
5.7
4.6
7.3
6.7
2.5
1.12
1.33
26°44',773
81°55'.102
LEE-1-B
11/13/93





7.3
2.5
0.99

26°44'.773
81 °55'.102
LEE-1-C
11/13/93





8.4
2.5
0.56

26°44',773
81 "55'. 102
LEE-2-A
11/13/93
4.0
2.2
3.0
2.4
2.7
4.5
26.6
0.21
-0.42
26"42'.090
81°45'.557
LEE-2-B
11/13/93





4.0
26.6
0.08

26°42'.090
81°45'.557
LEE-2-C
11/13/93





5.5
26.6
0.05

26*42*.090
81945\557
LEE-3-A
11/13/93
3.6
6.8
8.0
6.0
3.3
9.2
9.7
0.32
0.59
26!>38'.837
81*51\379
LEE-3-B
11/13/93





8.0
9.7
0.28

26°38'.837
81 "51 *.379
LEE-3-C
11/13/93





9.7
9.7
0.24

26038'.837
81*51'.379
LEE-4-A
11/13/93
4.0
3 8
3.0
4.7
39
48
22.1
0.05
-0.11
26°42'.640
81 °38'.392
LEE-4-B
11/13/93





4.7
22.1
0.22

26°42'.640
81 °38',392
LEE-4-C
11/13/93





5.8
22.1
0.13

26°42' 640
81°38',392
SAR-1-A
11/13/93
2.0
18
2.0
1.9
19
2.8
13.2
0.06
0.16
27°1 T.741
82°12'.973
SAR-1-0
11/13/93





2.0
13.2
0.16

27°ir.741
82°12'.973
SAR-1-C
11/13/93





2.5
13.2
0.11

27°11'.741
82°12'.973
SAR-2-A
11/13/93
1.4
2 2
2.0
1.5
1.5
2.0
17.9
008
-0.51
27°11'.872
82°04'.697
SAR-2-B
11/13/93





2.2
17.9
0.08

27°11 '.872
82°04'.697
SAR-2-C
11/13/93





2.4
17.9
0.18

27°11\872
82°04'.697
SAR-3-A
11/13/93
1.8
2.3
2.2
1.9
2.7
2.2
17.3
0.03
-0.73
2 7° 14'. 542
82°19'.758
SAR-3-B
11/13/93





2.7
17.3
0.06

27°14'.542
82°19'.758
SAR-3-C
11/13/93





2.0
17.3
0.03

27°14'.542
82° 19'. 758
SAR-4-A
11/13/93
2.9
2.6
1.7
3.7
2.5
3.3
11 C
0.51
0.31
27°14'.698
82°22'.354
SAR-4-B
11/13/93





3.7
11.0
0.26

27°14',698
82°22'.354
SAR-4-C
11/13/93





3.1
11.0
0.15

27°14'.698
82°22'.354
SAR-5-A
11/13/93
3.7
2.7
2.2
3 5
3.2
5.1
16.4
0.18
0.25
27° 17'.029
82°27'.025
SAR-5-B
11/13/93





3.7
16.4
0.20

27°17'.029
82°27'.025
SAR-5-C
11/13/93





4.7
16.4
0.04

27*17'.029
82"27'.025
CLR-1-A
11/14/93
2.5
3.3
2.7
2.6
2.9
3.7
10.4
0.12
1.37
26*25'.375
81°16'.869
CLR-1-B
11/14/93





3.3
10.4
0.12

26*25'.375
81 ®16'.869
CLR-1-C
11/14/93





3.7
10.4
0.16

26°25'.375
81 "16'.869
CLR-2-A
11/14/93
3.0
3.4
4.1
4.5
3.8
4.1
8.9
0.20
0.93
26*19'.259
81°20'.585
CLR-2-B
11/14/93





4.5
8 9
0.33

26°19'.259
81°20'.585
CLR-2-C
11/14/93





4.1
8.9
0.28

26°19'.259
81°20'.585
CLR-3-A
11/14/93
5.7
6.8
3 9


4 4
24.3
0.49
C.24
26*16'. 151
81°20'.359
CLR-3-B
11/14/93





3.9
24.3
0.17

26°16M 51
81 ^O'.359
CLR-3-C
11/14/93





3.9
24.3
0.12

26°16'.151
siw^sg
CLR-4-A
11/14/93
6.1
6.2
5.2
4.8
6.5
7.9
17.9
C.12
-0.10
26°08'.908
ai^o'jog
CLR-4-B
11/14/93





7.9
17.9
C.44

26°08'.908
81°20'.709
CLR-4-C
11/14/93





7.8
17.9
0.24

26°08'.908
81°20'.709
GLA-1-A
11/14/93
3.8
2.1
1.9
1.7
2.0
3.2
12.6
0.14
0.24
26°47'.227
81°26'.074
GLA-1-B
11/14/93





3.8
12.6
0.13

26°47\2 27
81°26',074
GLA-1-C
11/14/93





3.0
12.6
0.13

26°47'.227
81°26',074
GLA-2-A
11/14/93
9.8
4.7
7.9
6.3
5.8
10.4
24.2
0.61
1.74
26°55'.384
81°07'.318
GLA-2-B
11/14/93





9.8
24.2
0.46

26"55'.384
81°07'.318
GLA-2-C
11/14/93





10.8
24.2
0.81

26°55'.384
81°07',318
GLA-3-A
11/14/93
2.3
2.8
2.6
2.9
2.0
3.1
2.6
0.23
1.09
26°52'.297
81°07',355
GLA-3-B
11/14/93





2.9
2.6
039

26°52'.297
81°07' 355
GLA-3-C
11/14/93





3.7
2.6
0.42

26°52'.297
81 °07'.355
-------
Table K-3 (Continued)
Radon Flux Measurements and Related Parameters
Gamma Soil Radon
Site

Site screening gamma
Intensity
Moisture
Flux



ID.#
Date
Measurements (|iR/hr)
(uR/tir)§
(vol%)
(pCi/m2/s)
zt
Lattitude
Longitude
GLA-4-A
11/14/93
4.2
4.2
3.5
4.1
5.6
5.3
11.0
0.28
-0.74
26°47'.968
81°04'.970
GLA-4-B
11/14/93





5.6
11.0
0.23

26°47'.968
81°04',970
GLA-4-C
11/14/93





6.8
11.0
0.32

26°47'.968
81°04'.970
HEN-1-A
11/14/93
4.3
4.2
3.8
5.9
5.9
5.1
9.7
0.20
0.19
26°45'.232
81 °02',050
HEN-1-B
11/14/93





5.9
9.7
0.05

26°45'.232
81°02'.050
HEN-1-C
11/14/93





5.0
9.7
0.05

26°45'.232
81c02'.050
HEN-2-A
11/14/93
3.2
3.3
4.3
3.5
2.4
6.1
10.1
0.05
-1.06
26°43'.617
80°59'.704
HEN-2-B
11/14/93





4.3
10.1
0.32

26°43'.617
80°59\704
HEN-2-C
11/14/93





6.1
10.1
0.06

26°43'.617
80°59'.704
HEN-3-A
11/14/93
3.5
2.6
2.1
1.6
1.9
4.4
7.5
0.33
1.31
26°37'.427
80°57'.377
HEN-3-B
11/14/93





4.0
7.5
0.31

26°37'.427
80°57\377
HEN-3-C
11/14/93





4.7
7.5
0.22

26°37\427
80°57'.377
HEN-4-A
11/14/93
2.7
2.8
3.2
2.9
2.2
2.6
5.5
0.12
0.40
26°31'.857
80°58'.874
HEN-4-B
11/14/93





3.2
5.5
0.13

26°31'.857
80°58'.874
HEN-4-C
11/14/93





2.7
5.5
0.17

26°31'.857
80°58',874
MON-1-A
11/14/93
4.7
4.0
4.0
4.3
5.0
4.5
19.2
0.12
-0.15
25°46'.904
81°05'.519
MON-1-B
11/14/93





5.0
19.2
0.12

25°46'.904
81'05'.519
MON-1-C
11/14/93





5.0
19.2
0.12

25°46'.904
aros'.sig
MON-2-A
11/14/93
6.5




6.6
19.1
0.12
-2.58
25°45',619
81 "01'.691
MON-2-B
11/14/93





6.5
19.1
0.12

25845'.619
si'or.egi
MON-2-C
11/14/93





6.7
19.1
0.12

25°45'.619
81°01'.691
BRO-1-A
11/15/93
4.2
4.2
3.6
3.5
5.1
5.0
9.1
0.79
-0.64
26°03'.845
80°22'.018
BRO-1-B
11/15/93





5.1
9.1
0.95

26a03'.845
80°22',018
BRO-1-C
11'15/93





5.4
9.1
C.86

26°03'.845
80°22'.018
BRO-2-A
11/15/93
4.8
4.9
5.5
5.3
5.8
5.3
1C.8
C.36
2.64
26°08'.016
80°23'.557
BRO-2-B
11/15/93





5.8
10.8
0.40

26°08',016
80°23'.557
BRO-2-C
11/15/93





5.7
10.8
0.27

26°08'.016
80°23\557
BRO-3-A
11/15/93
4.1
3.9
3.6
3.5
4.4
4.7
12.4
0.10
-2.99
26°06\720
80° 11'.044
BRO-3-B
11/15/93





4.4
12.4
0.10

26c06'.720
80°ir.044
BRO-3-C
11/15/93





4.6
12.4
0.10

26°06',720
80°ir.C44
BRO-4-A
11/15/93
2.1
3.2
2.6
3.6
3.6
3.4
16.8
0.28
0.22
26°14'.686
80°09'.080
BRO-4-B
11/15/93





3.6
16 8
0.42

26°14'.686
80°09'.080
BRO-4-C
11/15/93





3.6
16.8
0.10

26°14'.686
eo^og'.oso
DAD-1-A
11/15/93
3.9
4.0
3.8
4.7
5.6
5.3
10.8
0.14
0.73
25°55'.716
80°27'.081
DAD-1-B
11/15/93





5.6
10.8
0.17

25°55'.716
80°27',081
DAD-1-C
11/15/93





5.4
10.8
0.23

25a55'.716
80a27'.081
DAD-2-A
11/15/93
6.B
4.4
4.3
4.3
3.8
8.4
26.0
0.22
-0.42
25°36'.531
80°34'.497
DAD-2-B
11/15/93





8.2
26.0
0.61

25°36'.531
80°34',497
DAD-2-C
11/15/93





8.9
26.0
0.34

25°36'.531
80°34',497
DAD-3-A
11/15/93
4.4
5.7
6.6
4.7
7.8
9.1
19.1
0.34
-1.26
25°33'.565
80°28'.683
DAD-3-B
11/15/93





7.8
19.1
0.78

25°33',565
80°28'.683
DAD-3-C
11/15/93





8.9
19.1
0.80

25°33',565
80°28'.683
DAD-4-A
11/15/93
4.0
7.1
6.1
5.6
4.5
6.4
6.5
2.15
0.07
25°28'.805
ao^a'^os
DAD-4-B
11/15/93





7.1
6.5
0.20

25°28'.805
80°28'.605
DAD-4-C
11/15/93





5.3
6.5
1.99

25°28'.805
80"28\605
DAD-5-A
11/15/93
2.5
3.7
3.6
3.4
4.2
4.4
13.8
0.15
0.19
25°24'.564
80°28'271
DAD-5-B
11/15/93





4.2
13.8
0.08

25°24'.564
80°28'.271
DAD-5-C
11/15/93





4.3
13.8
0.08

25°24',564
80°28'.271
MON-3-A
11/15/93
2.6
2.8
3.2
3.0
3.4
3.0
1.9
0.31
1.59
25°1 T.437
80°21'.441
MON-3-B
11/15/93





3.4
1.9
0.35

25° 11'.437
80°21'.441
MON-3-C
11/15/93





3.2
1.9
0.50

25°11'.437
80°21'.441
-------
Table K-3 (Continued)
Radon Flux Measurements and Related Parameters






Gamma
Soil
Radon



Site

Site screening gamma
Intensity
Moisture
Flux



I D. #
Date
Measurements (nR/hr)
(nR/hr)§
(vol%)
(pCi/m2/s)
Zf
Lattitude
Longitude
MRT-1-A
11/15/93
3.5
3.4
3.0
2.7 3.8
3.5
7.8
0.14
-0.87
26°59'.122
80°05'.589
MRT-1-B
11/15/93




3.8
7.8
0.10

26°59',122
80°05'.589
MRT-1-C
11/15/93




3.6
7.8
0.14

26°59',122
80°05'.589
MRT-3-A
11/15/93
2.3
2.4
2.2
2.2 2.3
2.7
5.8
0.11
-0.32
27°09'.686
80°24',842
MRT-3-B
11/15/93




2.4
5.8
0.16

27°09',686
80°24'.842
MRT-3-C
11/15/93




2.9
5.8
0.11

27°09'.686
80°24'.842
PAL-2-A
11/15/93
2.3
2.0
2.1
2.0 2.4
2.2
3.8
0.28
1.21
26°26',672
80°12'.228
PAL-2-B
11/15/93




2.4
3.8
0.37

26°26'.672
80°12'.228
PAL-2-C
11/15/93




2.4
3.8
0.28

26°26',672
80°12'.228
PAL-3-A
11/15/93
3.4
3.0
2.3
3.9 2.2
3.7
3.8
0.31
1.40
26°38'.345
80°12',214
PAL-3-B
11/15/93




3.9
3.8
0.36

26°38'.345
80°12'.214
PAL-3-C
11/15/93




3.2
3.8
0.19

26°38'.345
80°12*.214
F1PR-1
2/11/94




1
1
2.67
0.20
27°53'.682
81851'.881
FIPR-2
2/11/94




f
!
3.41

27°53\682
81°51'.881
FIPR-3
2/11/94




1
I
4.08

27°53'.682
81°51',881
FIPR-4
2/11/94




1
%
3.48

27°53'.682
81°51'.881
FIPR-5
2/11/94




1
!
1.70

27°53'.682
81°51'.881
FIPR-6
2/11/94





f
4.59

27°53'.682
81051'.881
FIPR-7
2/11/94




f
1
4.81

27°53\682
81°51'.881
CHA-5-A
4/6/94




2.7
12.2
0.07
-1.31
26'51'.904
82°00'.225
CHA-5-B
4/6/94




2.7
12.2
0.07

26°51'.904
82°00'.225
CHA-5-C
4/6/94




3.3
12.2
0.08

26*51'.904
82°00',225
LEE-5-A
4/6/94




4.3
3.1
0.25
1.27
26°30'.810
81°50'.650
LEE-5-B
4/6/94




7.4
3.1
0.24

26°30',810
81°50'.650
LEE-5-C
4/6/94




5.0
3.1
0.08

26°30'.810
81450*.650
LEE-6-A
4/6/94




3.3
3.1
0.08
-0.28
26°29'.535
81°49'.180
LEE-6-B
4/6/94




3.5
3.1
0.08

26°29'.535
81°49'.180
LEE-6-C
4/6/94




3.3
3.1
0.08

26°29\ 535
81°49M80
LEE-7-A
4/6/94




3.8
5.2
0.40
0.50
26°40'.006
82°02,.155
LEE-7-B
4/6/94




3.7
5.2
0.59

26c40'.006
82°02'.155
LEE-7-C
4/6/94




3.8
5.2
0.47

26°40'.006
82°02'.155
LEE-8-A
4/6/94




2.0
19.5
0.09
0.03
26°36'.733
82°06'.987
LEE-8-B
4/6/94




1.9
19.5
0.10

26°36'.733
82°06'.987
LEE-8-C
4/6/94




2.0
19.5
0.09

26°36'.733
82°06'.987
LEE-9-A
4/6/94




2.5
3.6
0.11
0.28
26°38'.641
81 ^.sso
LEE-9-B
4/6/94




2.5
3.6
0.11

26°38'.641
81042'.850
LEE-9-C
4/6/94




2.4
3.6
0.11

26°38'.641
81°42'.850
MAR-10-A
4/7/94




7.4
5.6
5.42
1.79
29°07'.280
82°12'.667
MAR-10-B
4/7/94




7.0
5.6
2.80

29°07'.280
82°12'.667
MAR-10-C
4/7/94




7.0
5.6
2.23

29°07'.280
82°12'.667
MAR-11-A
4/7/94




4.0
3.1
0.73
0.41
29°03M85
82°21'.538
MAR-11-B
4/7/94




4.3
3.1
1.90

29"03'. 185
82°21\538
MAR-11 ~0
4/7/94




4.0
3.1
0.76

29°03\185
82°21'.538
MAR-12-A
4/7/94




9.7
5.2
7.55
2.70
29°01'.539
82°03'.509
MAR-12-B
4/7/94




9.0
5.2
5.46

29°01'.539
82°03'.509
MAR-12-C
4/7/94




8.2
5.2
9.91

29°01'.539
82°03'.509
MAR-13-A
4/7/94




6.4
20.0
0.59
0.71
29°13'.558
82°06'.144
MAR-13-B
4/7/94




6.9
20.0
0.73

29°13'.558
82°06'.144
MAR-13-C
4/7/94




6.8
20.0
§§

29°13'.558
82°06'.144
MAR-14-A
4/7/94




10.0
7.4
11.93
2.36
29°17'.531
82°05'.428
MAR-14-B
4/7/94




10.4
7.4
9.33

29°17'.531
82°05'.428
J 7 10
-------
Table K-3 (Continued)
Radon Flux Measurements and Related Parameters



Gamma
Soil
Radon



Site

Site screening gamma
Intensity
Moisture
Flux



I.D.#
Date
Measurements (uR/hr)
(uR/hr)§
(vol%)
(pCi/m2/s)
zt
Lattitude
Longitude
MAR-9-A
4/7/94

5.2
4.5
2.83
2.13
29°07',267
82°11'.529
MAR-9-B
4/7/94

4.9
4.5
2.02

29°07'.267
82°11'.529
MAR-9-C
4/7/94

5.3
4.5
0.68

29°07'.267
82°11',529
ALA-10-A
4/8/94

10.0
30.4
0.69
0.20
29°43'.025
82°27'.759
ALA-10-B
4/8/94 ¦

11.7
21.8
6.22

29°43'.025
82c27'.759
ALA-10-C
4/8/94

10.9
8.0
10.50

29°43'.025
82°27',759
ALA-9-A
4/8/94

5.3
5.2
0.75
-1.82
29°47'.323
82°29'.182
ALA-9-B
4/8/94

5.1
5.2
0.50

29°47',323
82°29'.182
ALA-9-C
4/8/94

5.6
5.2
0.72

29°47'.323
82°29'.182
PAS-3-A
4/8/94

8.6
3.6
9.89
2.47
28°22'.550
82°11'.557
PAS-3-B
4/8/94

8.4
3.6
7.97

28°22'.550
82°11'.557
PAS-3-C
4/8/94

9.2
3.6
7.31

28°22'.550
82"11'.557
SUM-5-A
4/8/94

4.6
2.1
0.55
-0.94
28'51'.842
82"02'.008
SUM-5-B
4/8/94

4.4
2.1
0.26

28°51'.842
82°02'.008
SUM-5-C
4/8/94

4.5
2.1
0.39

28351',842
82(>02'.008
SUM-6-A
4/8/94

5.7
2.6
3.99
1.35
28°55'.766
82302'.367
SUM-6-B
4/8/94

5.7
2.6
2.97

28°55'.766
82'02',367
SUM-6-C
4/8/94

6.0
2.6
" .87

28°55',766
82°02'.367
SUM-7-A
4/8/94

6.8
4.5
4.58
1.79
28,38\949
81359'.983
SUM-7-B
4/8/94

5.7
4.5
3.09

28°38'.949
81°59'.983
SUM-7-C
4/8/94

5.8
4.5
2.55

28°38'.949
81 °59',983
SUM-8-A
4/8/94

11.7
3.8
0.75
0.70
28336'.590
82°03'.000
SUM-8-B
4'8/94

6.8
3.8
1.35

28°36'.590
82°03'.000
SUM-8-C
4'8/94

5.9
3.8
0.53

28°36'.590
82°03',000
DAD-6-A
6/9/94

7.2
13.7
0.08
-2.80
25c41'.059
80°23'.438
DAD-6-B
6/9/94

7.0
13.7
0.14

25°41 '.059
80°23'.438
DAD-6-C
6/9/94

7.4
13.7
C.26

25°41 '.059
80°23'.438
DAD-7-A
6/9/94

7.0
10.1
0.74
-1.48
25°41'.008
80°25'.230
DAD-7-B
6/9/94

6.8
10.1
0.25

25°41'.008
80°25'.230
DAD-7-C
6/9/94

6.7
10.1
0.52

25°41'.008
80°25'.230
DAD-8-A
6/9/94

6.8
13.2
0.23
-1.42
25c40'.771
80°25'.477
DAD-8-B
6/9/94

7.5
13.2
0.19

25"40'.771
80°25'.477
DAD-8-C
6/9/94

7.3
13.2
0.93

25°40',771
80°25'.477
DAD-9-A
6/9/94

7.5
11.4
0.46
-2.07
25°32'.248
80°31'.610
DAD-9-B
6/9/94

7.5
11.4
0.16

25°32'.248
80°31',610
DAD-9-C
6/9/94

7.3
11.4
0.31

25°32'.248
80°31'.610
HIL-10-A
6/11/94

4.8
19.2
0.31
-1.53
27°58',010
82°13'.158
HIL-10-B
6/11/94

4.8
19.2
0.22

27°58'.010
82°13'. 158
HIL-10-C
6/11/94

6.0
19.2
0.34

27°58'.010
82°13'.158
HIL-11 -A
6/11/94

10.4
10.4
21.49
3.36
27*57'. 146
82°17'.644
HIL-11-B
6/11/94

9.1
10.4
18.60

27°57',146
82° 17'. 644
HIL-11-C
6/11/94

7.7
10.4
10.00

27°57'.146
82° 17'. 644
HIL-12-A
6/11/94

8.3
14.0
0.54
-0.29
27°55'.282
82°17*.652
HIL-12-C
6/11/94

14.7
14.0
<0
in

27°55'.282
82°17'.652
HIL-13-A
6/11/94

16.0
8.5
12.07
3.23
27a55'.364
82° 16'. 048
HIL-13-B
6/11/94

15.1
8.5
16.46

27°55'.364
82° 16". 048
HIL-13-C
6/11/94

14.8
8.5
11.89

27°55'.364
82° 16'. 048
HIL-14-A
6/11/94

20.8
10.1
15.43
2.21
27°53'.652
82°13'.565
HIL-14-B
6/11/94

20.8
10.1
15.40

27°53'.652
82°13'.565
HIL-14-C
6/11/94

20.8
10.1
15.57

27°53'.652
82° 13'. 565
HIL-15-A
6/11/94

25.3
12.6
27.05
2.93
27
-------
Table K*3 (Continued)
Radon Flux Measurements and Related Parameters



Gamma
Soil
Radon



Site

Site screening gamma
intensity
Moisture
Flux



I D. #
Date
Measurements (saR/hr)
(uR/hr)§
(vol%)
(pCi/m2/s)
Zf
Lattitude
Longitude
HIL-15-B
6/11/94

25.5
12.6
28.02

27°53'.798
82°13'.660
HIL-15-C
6/11/94

26.0
12.6
24.16

27°53\798
82°13'.660
FIPR-1
6/12/94

23.6
16.4
4.41
0.90
27°53'.682
81°51'.881
FIPR-3
6/12/94

27.1
9.3
6.42

27°53'.682
81°51'.881
FIPR-4
6/12/94

22.8
9.7
5.21

27°53\682
81°5r.881
FIPR-7
6/12/94

25.5
7.6
15.04

27°53'.682
81 °51'.881
PCA-1-A
6/12/94

11.9
11.4
3.03
3.60
27° 53*.965
81° 50'.754
PCA-1-B
6/12/94

14.6
15.5
1.12

27° 53'.965
81° 50',754
PCA-1-C
6/12/94

9.8
8
9.43

27° 53'.965
81° 50',754
PCA-1-D
6/12/94

9.7
8.5
2.64

27° 53\965
81° 50'. 754
PLL-1-A
6/12/94

9.3
8.2
6.39
1.07
27° 52'.969
81° 50'.700
PLL-1-B
6/12/94

13.1
9.9
8.08

27° 52'.969
81° 50'.700
PLL-1-C
6/12/94

12.5
4.5
9.91

27° 52'.969
81° 50'.700
PLL-1-D
6/12/94

11.2
8.7
6.03

27° 52'.969
81° 50'. 700
FIPR-1
8/4/94

24.2
t
0.87
0.04
27°53'.682
81°51',881
FIPR-2
8/4/94

28.7
f
3.53

27°53'.682
81°51'.881
FIPR-3
8/4/94

27.1
f
3.56

27°53'.682
81°51'.881
FIPR-4
8/4/94

23.5
f
4.02

27°53'.682
81 °51 '.881
FIPR-5
8/4/94

21.6
1!
0.69

27°53'.682
81°51'.881
FIPR-6
8/4/94

23.3

3.99

27°53'.682
81°51'.881
FIPR-7
8/4/94

26.1
f
14.39

27°53'.682
81°51'.881
f Moisture reading not taken.
§Measured at 1 meter above soil surface.
fMeasurement - map bias statistic.
§§Sample was disturbed or missing.
K- 30
-------
AFFEND1X JL
MEASUREMENT-MAP BIAS STATISTICS FOR
GEOMET LAND-BASED RADON MEASUREMENTS
"able L-l Measurement-Map Bias Statistics for Geomet Land-Based Radon Measurements

Measured


Measured


Measured


Measured

Geomet
Radon"

Geomet
Radon'

Geomet
Radon'

Geomet
Radon*

Number
JpCi/L)
zt
Number
(pCi.'Ll
Zt
Number
-------
Table L-l (Continued)
Measurement-Map Bias Statistics for Geomet Land-Based Radon Measurements
Geomet
Measured
Radon'
Geo met
Measured
Radon'
Geomet
Measured
Radon'
Measured
Geomet Radon'
umber
(pCi/L)
zt
Number
(pCi/L)
Zt
\jrrber
ipCi/Li
Zt
Number
¦'pCi/L)
zt
54
11
-1.4
792
0.6 .
0.1
1531
11
0 1
2269
2 2
0.9
55
02
-3.1
793
1 4
0 3
1532
0.2
•1.0
2270
0.2
•0.7
56
10
0 1
794
0 7
: 2
'533
0 2
• 8
2271
0 7
¦0.1
57
1 6
0 3
795
0.9
0 4
1534
0 6
0.0
2272
0.5
•1 6
53
17
3.5
796
0 5
0 3
1535
09
0.4
2273
08
0.2
59
28.0
1.3
797
0 2
< 1
1536
0.2
¦0 2
2274
0.9
•0.1
60
3 3
0.3
798
0,2
' 1
1537
0.5
0 1
2275
0 2
-2 7
51
4 4
1.8
799
0 2
' 4
1 538
0 2
0
2276
0.2
•• 1
62
63
0.3
800
0.7
0 2
1539
1 .5
0 4
2277
0.7
-1 2
63
0.9
-0 2
801
06
0 3
1540
: 8
0 5
2278
03
0 0
64
0.2
-3.1
802
0 2
< 1
1 541
3.5
' 0
2279
06
-0 3
65
0 2
•3.1
803
0 5
0 2
',542
49
l 3
2290
0.5
•1 6
66
0 2
1.1
804
0 2
2 3
1 543
1 8
0 5
2281
0 5
•1 6
67
5.5
C 2
805
V 5
3 7
'544
2 0
0 6
2232
0.2
2 7
68
1.3
i j
806
6 2
2 2
1545
' 6
0 4
5233
0.2
•2 7
69
1 0
-' 5
307
30
• J
: 546
2.0
0 6
2284
: 2
2.7
70
4 0
1 1
808
3 8
1 0
'547
; 5
0 5
2235
0 2
-1.0
71
0.2
¦38
809
2 2
1 0
: 548
0 8
-0 1
?286
:.2
¦1 0
72
0.2
-0.8
810
1.5
3 6
' 549
2.0
0 7
2287
05
¦1.6
73
1.4
1 1
811
2 3
¦ 1
1550
0 9
0 1
2288
02
•2.7
74
1.3
03
812
0 4
06
1551
' 0
0 1
2289
0.6
0.3
75
1.6
0 4
813
05
0 1
1552
2 7
1 2
2290
0 5
•1.6
76
2 9
¦0.4
814
08
0 3
1553
0.6
0.5
2291
02
2.7
77
1.6
04
815
1 6
0 9
1 554
0 4
-1 0
2292
04
¦18
76
29 5
2.3
816
0 8
C 1
1 555
1 0
0 5
2293
0.2
¦2 7
79
3.7
•0 1
817
1 5
0 8
1556
0 8
0.3
2294
02
1.0
80
120
1 2
818
0 5
0 1
1557
1 2
0 8
2295
0 5
0 1
81
13 1
1 3
319
09
0 1
1558
0 2
-1.1
2296
02
-VO
82
0.8
0 1
820
2 1
0 9
1559
0 2
¦ l l
2297
02
0.3
83
0.2
-1.2
321
2.1
0 9
1560
02
' 1
2296
0 2
•i 0
84
2.4
07
822
1 9
0 8
1561
0 2
C 3
2299
0.2
¦• 0
85
4,6
0 1
823
0 7
0 3
1562
0 2
0 3
2300
0 2
•0 1
86
3.6
-0 1
824
0 4

1563
C 2
•0 3
2301
0 2
-0 3
87
3 5
¦0 2
325
0 2
2 3
•564
0 5
0 6
23C2
0 5
•2 0
88
18.2
1.7
826
0.2
2 '
1565
0 6
?
23C3
06
1 7
89
6.1
05
827
03
0 0
1566
0 2
CO
2304
6.0
1 7
90
3.2
•0 3
823
0.5
v :
1567
l 2
0 8
2305
3 8
0 7
91
2.4
07
829
1 0
1 4
1568
0 2
-0 8
2306
1 6
•0.3
92
0.2
•1.9
830
0 2
0 3
1569
1.5
1 0
2307
1 8
0 4
93
0.7
-1.0
831
0 2
0 2
1570
0 2
0 3
2308
05
-20
94
i 6
-0,1
832
0 2
00
1571
02
¦0 3
2309
C 2
-0.7
95
0.5
-0 7
833
0 2
0 1
1572
0 6
0 7
2310
1 6
¦0.5
36
• 3
-0.3
834
0 2
¦0 1
•573
0 8
1 0
2311
02
-3 1
97
07
•1 0
835
0 2
0 6
'574
1 0
1 2
2312
02
-2.7
98
20
1.1
836
3 2
00
1575
1 0
1.2
2313
0.2
-2.7
99
06
•0 3
837
0 2
0 0
' 576
2 5
2 0
2314
02
-27
100
25.3
2 9
838
C 6
1 4
1577
0 2
0 2
2315
0.2
•2.7
101
08
•1 1
839
06
' 4
1 578
1 1
1.3
2316
0.2
03
102
0 8
0.8
840
C 2
0 0
•579
0 2
0 2
2317
0 2
•0 9
103
0.4
0.1
841
02
0 0
'580
02
0 2
2318
0 2
-1 7
104
0 2
-0 6
842
02
0,2
1581
0 2
-0 2
2319
0.7
18
105
0 4
0.0
043
02
0 0
1582
0 2
-0 7
2320
0 2
•1 0
106
0.2
-0 6
844
02
02
1583
02
¦0 7
2321
0.2
-0.7
-------
Table L-l (Continued)
Measurement-Map Bias Statistics for Ceomet Land-Based Radon Measurements

Measu'ed


Measu'ed


Measured


Measured

QD
E
o
Racon"

G
2348
0 2
0 7
134
0 2
0 6
872
0 4
0 5
•611
0 7
02
2349
0.4
0 2
135
0.4
0 2
873
0.2
0 2
1612
O 8
0 3
2350
0.2
-1 7
1 3c
0.2
•OS
374
0.7
• 1
1613
1 1
~§
2351
0 2
¦1 7
'37
0.2
0.6
875
0.2
0 5
'614
0 7
O 2
2352
0 5
-0 5
138
0.5
0.4
876
0 2
.c\ y
1515
0 2
¦1 0
2353
1 0
0 3
*39
0 2
0 5
377
o
\ 3
1 16
0 7
1 6
2354
0 2
-1 1
'40
0.2
-0.7
878
> ">
• u
1517
0 5
0 1
2355
0 2
-1 7
*41
0 8
0 7
Q79
3 7
C
' SI 8
0 2
1 0
2356
0 4
0 3
*42
0.2
-0 5
880
7 5
-• c
i«19
' 1
o ¦
2357
0 8
04
143
0 4
0 C
881
3 2
¦! 3
• 220
0 2
0 3
2358
:-*i O
-1 5
'44
0.2
-0.5
882
3 9
1 4
1621
3 4
: 0
2359
0 4
•0 5
*43
05
0 C
883
0 2
C 2
'622
0 2
•0 6
2360
0.2
•1.2
145
0.5
0 0
884
^ 2
: 2
1623
0 5
0 3
236*
0 9
0 3
',47
0.6
0.6
885
0 2
: 5
'624
0 5
0.3
2362
0 7
0 5
148
0.2
0 2
886
0 9
i 2
'•325
00
0 7
2363
0 7
1 3
149
0.2
-0.2
887
2 5
2 3
'626
0 7
0 2
2364
0 4
•0 4
150
0 2
00
888
3 2
C 2
•627
2 1
0 3
2365
0 2
¦1.7
151
0 4
0.0
889
C 2
2 7
•628
1 6
0 7
2366
1 4
0 8
•52
3.2
-0 4
890
0 2
¦?. 7
'629
1 4
06
2367
0 2
1.7
153
06
0.3
891
0 2
-> 7
•630
5 7
2 2
2368
0 2
-1 9
154
08
1 0
892
07
' 3
'631
0 8
0 0
2369
0 2
-1 7
155
C 2
1 0
S93
0 5
• S
•632
3 1
1 5
2370
1 0
0 4
156
C 2
¦0.2
894
0 9
' 5
'633
1 9
0 9
2371
0 6
0 2
157
1 1
0 8
695
0 9
' *3
1634
2 7
1 4
2372
0 2
0 8
158
0 6
0 5
897
OS
""V "»
J 1
1635
1 0
0 2
2373
0 2
-1 7
159
1 3
09
BS5
0 2
0 4
1636
3 4
' 6
2374
0.2
¦0.8
r.. .1
-------
Table L-I (Continued)
Measurement-Map Bias Statistics for Geomet Land-Based Radon Measurements

Measured


Measurec


Measured


Measured

Geomet
Radon*

Geo "let
Radon'

Geomet
Radon'

Goomet
Radon"

Number
(pCi/L)
ZT
Number
(nCi'U
7t
Number
fpCi/L)
zt
'Number
(pCi'l)
zt
160
0.2
-1 '
899
0 3
3 3
1637
4 7
20
2375
07
-0.3
161
07
0.2
900
0 2
0 4
1638
1.8
0 9
2376
0.6
0.2
162
05
0.1
901
1 3
' 5
' 539
24 1
2 8
2377
0 5
0 4
163
0 2
¦•1 2
902
C 4
¦: a
'",10
5 9
1 2
2378
O 2
-C 5
164
0 2
¦1.1
903
2 4
2 2
1 ^41
4 5
0 9
2379
0 6
06
155
0.2
¦1.1
904
4 7
: 3
•642
' 1
0 4
2380
11
0.7
166
0.4
0.5
905
3 3
i 5
• 643
4
¦0 7
2381
1 3
0 8
•67
0.2
¦• 2
906
0 2
;• 1
'644
0 8
0 0
2382
0 4
-0 4
168
0.2
• 2
907
• 2
: 3
1545
0 6
-0 3
2383
0 2
-1 2
169
0.8
•0.1
908
2 0
2 0
1646
59
1 7
2384
0.2
¦1 8
170
0.2
-i 2
309
1 2
' 6
1647
10 8
2.5
2385
0 2
•10
•71
0.4
C.2
310
0 2
' 6
•• 648
17 7
3 1
238S
0 2
¦1 0
172
0.2
¦1 2
?.• 1
0 8
3 1
1049
4 7

2307
0 2
-1 1
173
1.4
08
S" 2
0 7
0 1
1650
3 3
r~, -j
2388
0 5
00
174
02
1 2
313
0 5
0 4
?651
1 9
0 3
2333
0 2
0 7
' 75
3 2
¦1 2
3" 4
~ 2
: -
•552
1 3
C 2
2300
02
•0 1
1 76
0.2
1 2
3-5
0 4
0 ft
•653
3 8
' 2
-391
0 ?
0 5
177
02
-1 2
9"6
o
0 6
1654
10
3 5
2392
0 2
-0 7
173
C.2
1 2
917
0 2
0 3
1655
0 7
0 9
2393
0 2
-0.7
179
0.4
-0.5
913
0 2
09
1656
1.8
09
2394
0.4
0.8
180
0 2
-1 2
9'9
1 5
1
1657
0 5
•0 1
2395
0 2
•16
181
C 2
-1.2
920
0 2
0 5
'.658
05
0 1
2396
0 2
0 0
182
C 4
o.a
92'
0 £
00
'659
0.7
0 3
2397
0 2
00
183
1 1
0 8
922
0 2
¦0 9
1660
1 3
0 8
2398
0 2
0.0
184
02
•0 4
923
0 7
0 3
1661
13
08
2309
0.2
0.0
185
C 4
0 1
924
0 2
0 3
5 662
09
0 4
2400
0 5
¦0.2
186
06
0 4
925
l 5
! i
1663
0 2
0 6
2401
02
¦1.0
187
C 2
¦0.6
926
0 2
0 3
i r,r,4
1 3
1 0
2402
OG
0 2
188
0 2
•0.4
927
0 2
! 3
1565
3 9
2 1
2403
02
¦0 8
189
C 2
¦0 4
928
2 3

' 666
2 3
1 6
2404
0 3
0 7
190
06
0 4
929
' 3
?
1667
0 7
0 1
2405
0 2
¦C 4
191
0 4
¦0 "
930
0 6
r. *
' 668
4 2
2 9
2406
0 2
-0 3
192
'j *»
0 *
931
n 7
f\)
i Q
8 3
3 7
2407
0 2
-0 3
193
02
-0 4
932
0 6
: i
' 370
9 7
3 7
2408
0 2
-0 3
194
C 2
0.4
933
0 9
f;
• AT 1
3 4
1 6
2409
0 5
0.4
195
02
-0.7
934
3.6
I 5
1672
2 7
06
2410
0 9
09
196
0 2
-0 7
935
C 2
> '3
••373
4 2
09
2411
0 6
06
197
05
0.1
936
3 5
C 7
'674
39
1 8
2412
0 2
¦0.3
198
04
-0 1
937
0 2
' 8
• 675
3.0
2 6
2413
0.2
03
199
07
0 5
938
3 4
•1 0
•676
2 3
1.2
2414
0.4
0 2
200
0.9
06
939
C 2
' 3
1677
6 4
l 1
2415
0 2
-0.4
201
08
C 4
940
3 4
¦C 6
1678
*50
1 7
2415
0 6
1.2
202
0 2
¦C 6
941
C 6
3 2
'679
6 0
1 i
2117
0 2
-0.1
203
3 2
1 6
942
C 2
¦' 3
1680
4 4
0 9
2418
0.4
0 4
204
0 2
-C 4
343
0 5
06
• 681
3 8
20
2419
0 2
¦0.3
205
0.2
-0 7
944
0 9
C 2
1682
4 0
2 9
2420
0 2
•0 2
206
0 2
-0 7
345
C 7
0 -1
1683
13.4
1 6
2421
0 2
0 2
207
0.2
-0 7
946
09
3 6
1684
0 8
C 7
2422
0 7
0.4
208
06
0 4
947
0 5
• 0
1685
25
2.4
2423
0 2
0.3
209
0.2
09
948
0 5
3 0
1686
1 1
1 4
2424
0 6
0.5
210
0 5
¦C 1
349
1 1
0 8
1687
4 3
3 1
2425
02
0 1
211
0.2
1 1
950
09
0 6
1688
'• 3
1 5
2426
0 2
-0.2
21 2
0 8
06
35'
0 J
¦0 2
1689
1 4
0 1
2427
0 2
-0 1
L- 4
-------
Table L-l (Continued)
Measurement-Map Bias Statistics for Geomet Land-Based Radon Measurements

Measjrea


Measured


Measured


Measured

iecmet
Radon"

Geomet
Radcr'

Ceo-Tie!
Radon"

Geomei
Radon'

Umber
fcCi/L)
zt
Number
(oCi-'L'i
Zt
Number
cCi.-L'i
zt
Number
-pc,-..i
Zt
213
0.8
1 5
952
3 2
0 9
• G90
09
2.1
2428
0.2
•0 1
214
3.4
0,2
953
0 2
o :
1631
0.9
2.2
2429
0 4
05
215
0.5
0.5
954
C 9
0 6
•5S2
29
2.2
2430
1 0
i 1
216
0.7
0 2
955
0 7
1 3
'693
0 2
-O 6
2431
0.4
0 5
217
0 7
0.4
956
0 2
3
1694
0 5
13
2432
0.2
03
218
0.6
0.2
957
0 8
0 2
•695
0 7
06
2433
02
-0 3
219
02
-0 4
958
3 3
i 7
'636
06
0 4
2434
0.2
-0 4
220
09
1 0
959
2 3
i 3
•697
06
0 4
2435
10
1.0
221
02
0.6
960
~ o
3
•.698
0 2
0 6
2436
0 5
0 1
222
1 0
1 1
961
3 G
o i
1699
l 2
1 i
2437
1.0
06
223
08
oa
962
C 2
" 3
•700
0 2
0 1
2438
0 2
•0 7
224
0 6
0 5
963
- 2
' 3
:?C-
0 2
0 4
2439
0.2
05
225
05
C 5
964
C 2
" 3
• 702
0 4
0 0
2-140
0 5
03
226
04
0.3
355
: 2
' 3
1703
0 6
0 4
2441
0 2
0.4
227
04
-0.1
9C.G
• a
0 4
1 704
1 0
0 9
2442
0 5
03
228
0 2
0
".£7
2 1
- 2
: "05
08
0 '
2443
3 2
0 5
229
0.2
•I 0
558
i 2
30
1706
3 0
0 8
2444
0.8
0 9
230
0 2
09
369
! 5
3 4
1 "07
3 6
' 0
2445
06
-§
231
0 4
-C 3
370
08
05
1700
6 S
'. 6
2446
1.0
0.9
232
0 2
09
97"
^
0 5
1 709
3 3
1 1
2447
02
-0.6
233
0.2
•0 6
372
2.5
• o
1710
3 4
• 1
2448
0 7
0 7
234
0 5
04
973
2 0
r, 9
1711
0 5
•0 6
2449
02
•0 5
235
0.4
0 1
S74
0 7
0 5
1 "12
7 0
1 5
2450
0.2
-0 6
236
0 2
08
975
2 0
C c;
1713
0 2
0 9
2-151
02
-0 6
237
0 7
0 5
976
3 2
} 4
!7!4
2 3
0 8
2452
0 4
00
238
0 5
0 4
977
1 7
¦*) ^
1715
0 8
0 1
2453
0.2
¦0 6
239
1.4
0 8
978
0 r*
0 3
1 "16
3 7
1 0
2454
02
•0 3
240
0 4
¦0.5
979
0.7
0 3
1717
14.0
2 1
2455
02
04
241
0.5
0.4
980
1 "
0 6
1718
12 4
y 7
2456
0 5
0 3
242
0.4
-0.1
981
1 6
1 1
1719
4 9
1.3
2457
0 2
-O 7
243
0.9
06
982
1 4
0 5
1 720
1 4
0 4
2458
0.5
...§
244
0.2
•0.7
983
0 2
-i 8
1 721
i ^
0.4
2459
1 0
0 3
245
1 4
0 9
984
0 2
o r
! 722
~ f
1 1
2460
1 0
0 3
246
0.4
-0 •
985
0 2
0 7
1 723
3
i y
2461
0 8
00
247
0 2
¦0 -3
986
* 6
0 '3
1 ',?4
; 7
0 5
2462
0.2
1 5
248
0.2
05
987
0 7
0 3
•. 725
10 2
1 9
2463
0 2
•1.5
249
0 2
•0 3
988
1 2
:-5
• ~0(\
0 6
0 0
2464
1 1
04
250
0.2
0.9
989
0 2
• 3
¦ 727
0 7
0 5
2455
0 7
-0 1
251
0.2
-0 9
990
\ 9

i 728
0 5
0 2
2466
0.2
-0 8
252
0.2
09
991
0.6
2
'729
0 4
•0 5
2467
07
-0.1
253
0.6
0."
992
C 8
00
',730
02
0 6
24 68
0.9
0.1
254
1.2
0.7
993
0 8
• 0 6
1731
05
•0 3
2469
2.6
1 4
255
0.6
0.1
994
: .4
0 6
: 732
1 0
0 6
2470
0 6
•0 3
256
0.6
-0.1
995
C 4
u s
',733
2 8
1 9
2471
08
0 0
257
0.5
0 0
996
0 7
0 8
<734
08
0 7
2472
0 5
•0.5
253
0.2
-1 6
997
C 2
-0 2
'.735
02
•1.4
2473
04
-0 6
259
0.9
0 1
998
08
' 0
1736
1 0
06
2474
05
0 1
260
0.2
¦1.6
999
0 2
CO
1737
0 7
0 6
2475
02
¦1.4
261
0 2
¦1.6
•occ
e 2
.-N f
1738
0 6
¦0 1
2476
1 0
-0 1
262
0 2
1 2
•CO"
C 2
0 7
1739
02
•' 4
2477
1 1
0.9
263
05
•C 3
1002
06
26
17 JO
1.1
0 7
2478
0 3
-0 1
264
0 2
19
1003
0 2
0 7
1741
0 2
-1 4
2479
1.8
13
265
07
-1.3
1004
02
0 3
1 "42
0.6
0 4
2480
0 9
1.3
-------
Table L-l (Continued)
Measurement-Map Bias Statistics
for
Geomet L
and-Based Radon Measurements

Measured


Measured


Measured


Measured

Geo met
Racon'

Geo met
Racon"

Geomet
Racon'

Geomet
Radon"

Number
(pCi/L)
zt
\umbe'
(pCi'L)
Zr
Vjmbe-
(pCi.'Ll
zt
Number
(pCi/'L)
zt
256
1.8
•o •
1005
02
0 2
1743
2.7
09
2481
22
1 4
267
1 7
•0.2
1006
0 2
0 7
1 744
1.3
0 4
2482
0.4
0.0
258
0.2
¦2.7
1007
0 2
0 7
! 7-5
2.1
09
2483
0 2
-0 5
259
3.6
-1.4
1 008
0 4
0 C
1^46
2.3
0 8
2484
1.0
06
270
1 2
-0.6
1009
0 2
•0 5
1747
6.4
1.5
2485
0.2
-0 8
271
0.2
-1.8
•010
0 9
0 9
1748
2 2
•0 1
2486
0 2
-0 5
272
0 2
0.7
1011
0.2
0 7
1749
4.7
1 3
2487
0 4
00
273
3 2
•0.5
iC 2
: 2

1750
4 4
1 3
2488
0.4
0.0
274
0.8
0.8
-0'3
0 2
t) 7
1751
14 3
2.1
2489
0.4
-0 1
275
0 2
0.2
• 014
0 5
0 5
1752
0.9
02
2490
0.2
¦0 4
276
C 2
-1 8
1015
0 2
•0 7
•753
1 9
0 7
2491
0.2
0 5
277
C 7
-0.3
1015
C 2
0 7
1 754
c 4
1 5
2492
0.5
0.1
278
06
-1 4
1C' 7
0 2
¦0 7
1755
0 4
0 2
2493
0 2
0 5
279
07
-1.3
"C"8
0 2
Z 7
" 756
0 5
0 4
2494
08
0 5
280
02
-2.7
1019
0 2
^ 7
' 757
0 2
¦0 5
?495
i 3
0 8
281
0 2
-2.7
1020
C 2
C 5
¦75d
"s
'J C.
¦i 3
2496
0 6
0.3
282
1.6
-C 3
1021
0 2
..
' "9
3 7
i 0
2-197
• 2
0 8
283
0 5
• 1
1022
0 2
••
-¦
•7 60
3.0
0 2
2498
• 1
0 7
284
0.2
-2 7
1023
0 2
0 5
1 761
7 7
1.9
2493
0 2
¦0 5
285
0.2
2 7
1024
0 2
0 5
1762
1 8
0 2
2500
0 2
0 5
286
0,5
-1 4
1025
0 2
0 7
1763
0 9
08
2501
0 2
-0 5
2B7
0.2
•2 7
1026
0 4
C 0
17G4
1 0
04
2502
1 4
0 8
288
0.6
-1 4
1027
0 2
0 7
1765
02
0 5
2503
29
1.4
289
0.2
•2.7
1028
0 2
•0 7
1766
0 2
0 8
2504
3.2
1.5
290
0.2
-1 3
1029
0 2
o ;
1 "67
0 2
0 8
2505
2 *
1 2
291
0.2
-1.9
1030
0 2
•0 7
1768
1 5
1 3
2506
0.2
-0 5
292
Z 2
1.2
1031
0 9
:.) 3
1 769
0 2
0 3
2507
0 9
06
293
0.2
•1.5
1032
0.2
0 7
1770
1 6
1 5
2508
0.2
¦0 5
294
2 5
-0 4
"033
0 2
0 7
1 771
0 2
¦0 6
2509
0.4
-0.1
295
C.2
-19
•034
0 2
0 7
1772
0 4
0 4
2510
1 4
08
296
3 6
•1 4
1035
C 8
0 6
1 773
C 4
0 7
251 1
1 6
09
297
0.2
2.7
"036
0 2
V 7
1 774
0 5
0 2
2512
1.5
08
258
C 2
-2 7
- £37
0 ?
v 8
1 "75
0 2
1 0
2513
0 2
•0 7
299
0 2
2.7
1033
: s
0 0
' "7^
3 2
1 3
2514
- 4
1 0
3C0
VI
-0.7
1C 33
C 6
!
1 777
0 2
1 3
2515
2.3
20
301
0 6
1 4
• C4C
0 7
1 4
* 778
0 2
-0 2
2516
1 8
1 7
302
0 2
-0.5
•041
0 2
; Q
• "79
0 2
1 0
25i7
2 2
1 9
303
0 7
-0.6
1042
C 2
~. 6
• 730
0 7
0 5
2318
09
06
304
0 2
•2.0
1043
0 8
0 3
1731
0 2
-0 7
2519
0 5
0,1
305
07
0.1
1044
0 5
¦0 1
1782
0 4
-0 2
2520
0 6
1 1
306
0.2
0.2
1045
1 8
C 9
1783
O 2
00
2521
09
06
307
02
-• 0
1046
06
0 4
1784
0 2
•06
2522
1 2
13
308
02
-1 0
1047
0 6
C 0
1705
0.2
05
2523
1 5
09
309
02
-1 0
1048
1 8
0 9
1786
0.2
•0 5
2524
0.7
0 7
310
0.9
C 3
1049
0 2
C 8
1787
0 2
0 2
2525
09
1.0
311
02
2
1050
0 c
0 5
1788
0 2
0 5
2526
0.9
09
312
1 9
1 5
1051
0 2
¦ 0 3
1 789
0 7
0 8
2527
0 2
0.0
313
0.5
04
1052
04
0 2
1790
0 2
•0 6
2528
04
0 1
314
02
06
1053
0 3
0 4
1791
0 5
06
2529
0.2
•0 3
315
1.3
1 1
1054
0 2
1 0
1 792
0 2
1 3
2530
0 2
•0.2
316
0.2
•0 6
1055
1 '
0 7
1 793
1.2
1 4
2531
0.2
0 2
317
0.4
0,1
1056
0.9
0 5
1794
0 5
07
2532
02
-0.2
318
0.2
-0.6
1057
1 0
0 5
1795
C 2
-0.5
2533
2.3
16
I.- «
-------
Table L-l (Continued)
Measurement-Map Bias Statistics for Ceomet Land-Based Radon Measurements
Measured
Geomet Radon'
Number (pCi/'_) Zf
Measj'ea
Gecrret Radon'
Number ipC '_)
Measured
Geomei Radon'
Number ipCi.'L)
2t
Measured
Geome: Radon'
Number  2
0 9
" 8' 5
0 2
-0 4
2553
0 7
02
339
0 2
-0.7
1078
: 2
• 6
¦8i 6
0 2
¦0 2
2554
0 2
-1 0
340
0 2
C 5
• C79
0 2
' 0
•ai 7
0 2
0 3
2555
0 2
¦1 0
341
0.8
3 4
•oac

2 2
"8" 8
0 2
0 2
2556
0 2
¦' 0
342
1 0
3 9
¦ o a i
:: 4
7 • j
•8'9
0 2
¦0 2
2557
0 2
1 1
3-3
0 2
-3 6
* 03 2
~ o

- .j'.v.
• 7
¦>
9 5 5 8
0 5
0 1
344
02
-0.6
C33
C 2
: i
1321
,"\ 2
0 2
2559
1 2
0 7
345
1 2
3 2
1084
" o
: i
1022
0 2
0 2
25G0
0 0
0.3
346
15
2.2
1035
02
' 0
'823
0 5
1
256-
0 2
0.7
347
02
-C 5
1086
0 2
¦0 &
1824
0.2
0 4
2562
04
¦0.4
348
1 1
i 0
1087
0 2
0
1325
1 5
1 8
2563
02
1 1
349
1.9
• 5
1088
0 5
.. _
1826
y M
1 0
2564
0 2
11
350
05
-C r>
1089
r,
•>
1527
03
1 1
2565
0 9
0.5
351
0.7
-3 2
1090
0 4
• r.
1828
1 C
1 3
2566
0 9
0 5
252
0.2
C 6
1091

'i
' 329
3 :>
-1 r
2567
0 2
0 9
353
0.7
C 1
1092
1 2
7 !
•l<30
0 2
0 3
2568
0 2
¦0 9
354
0 2
1 3
1003
0 7
! -j
) 0 31
0 6
0 2
2569
0 2
09
355
0.2
-0 6
1094
2 C
3 3
'. 832
0 2
0 3
25^0
0 2
0 9
356
0 6
0 2
1095
O *
.1 i
1033
3 2
2 c
2571
0 7
0.6
357
3.1
1 4
1096
i :
0 '
'834
0 2
0 3
2572
0 2
•0 8
358
1 a
' 0
1097
02
! 0
1835
0 2
0 3
2573
0.2
08
359
2 9
1 8
1098
i 3
ri -v
1836
0 2
•0 3
2574
0 2
-0.8
360
0.7
0 6
1099
A
v C
-2 1
1837
0 5
0 6
2575
0 2
¦0 8
361
0.7
0 6
1100
0 1
i ^
1538
3 5
¦0 6
2576
0.2
¦0.8
362
0.9
1 1
110t
2 0
3 2
1839
0 2
08
2577
0 6
02
353
1.0
1 2
1102
0 ?
0 5
1 640
0 4
0 2
2578
15
0.5
364
0.2
-1 1
1103
i 4
0 3
1 841
0 2
0 8
2579
2 4
09
365
1 0
1 2
1 104
0 2
2 3
1842
3 2
1 2
2580
0 2
1 7
36S
0.2
1 ••
1105
' J
0 4
1R43
0 2
¦1 2
?S01
0 8
0.1
357
0 2
-0 S
1106
0 2
0 4
'644
0 2
1 2
2582
0 4
0 5
368
2.4
2.3
1107
4 6
? i
• 345
0 2
•1 2
2583
1 0
0 5
369
2.1
0 6
1 138
<- ¦y
3 -1
l 346
0 7
' 6
2584
0 4
-0 5
370
2.3
0 7
' * 39
Z 2
C 4
•347
05
0 4
2585
07
0 0
371
0.6
-0 4
¦ * ^ C
Z /
3 ••
' 843
0 5
*¦ 4
2586
22
1.4
L-
7
-------
Table L-l (Continued)
Measurement-Map Bias StatinticH for ('iuomet Land-Based ltadon Measurements

Measured


Measured


Measured


Measured

Seomet
Radon'

Geomei
Radon'

Gfto rr.e:
Radon'

Geomet
Racon'

lu"ioer
fpCi'L!
z-
Number
¦ P L,
Z*
Number
ipCi'L)
zt
Number
fpCi/l)
Zt
372
3.9
' 1
1111
0 2
•f' 5
1840
0 2
2 9
2587
1.5
08
373
1 C
00
1112
0 2
.fx •
1350
0 2
-0.8
2588
1.0
0 2
374
4 2
• 6
1113
0 2

1851
0 2
0 8
2589
3 2
1 6
375
2.5
1 2
1 114
i C
I
' 1
1052
0 5
0 0
2590
1 0
0 6
375
13
0 7
1115
0 9
¦ 0
1853
0 4
¦0 9
2591
' 7
1.1
377
1 1
06
1116
0 2
0 5
1854
0 2
', 1
2592
• 0
00
378
0.9
00
1117
0 2
0 4
1055
06
0 3
2593
0 4
1 0
379
1 9
1 0
1118
0 5
0 4
1356
0 5
¦0 4
2534
1 4
0 4
380
5.3
1 B
1119
0 2
04
1857
0.7
-0.1
2595
4 4
1.9
381
1.1
0.6
1120
0 5
0 '3
1858
0 2
0 2
2596
0 4
•0 1
332
1.8
1 0
1121
0 7
0 b
1859
0 5
0 0
2597
1 7
1 1
363
0.4
0 3
1 122
0 7
") 5
1 fiAO
0 2
0 1
2598
1 2
0 7
334
0.2
0 3
1123
^ 0
0 7
'861
0 2
0 4
2599
1 6
1.0
335
0.2
0.3
1 1 24
0 2
• 5
, >.,= o
0 7
0 0
2600
3 2
1 3
386
0.9
1 1
1 125
0 2
7
< 363
0 2
06
2601
1 8
1 2
387
3.2
¦0.3
* 4 2c
-\ ~

' •564
0 2
0 6
2602
2 0
0 7
338
0 2
0.2
' 27
J V
: 4
¦ '365
: 2
0 6
2603
1.7
0 5
389
C 2
0 2
• -23
-s -7
C: 4
•r"<66

-0 1
2604
0 2
¦0 5
390
0.2
0.2
' '.29
C 2
O 7
' 3
3 8
0 4
2605
0.4
0 1
391
09
1 8
1130
.** I
r> -T
' 3G8
0 9
0 5
2606
1.0
1.1
392
' 3
1.0
• <
3 2
0 7
' 563
0 2
0 9
2607
1 5
' 4
393
06
0 2
¦".32
C 8
C 6
' 37C
C 2
0 9
2608
0 2
0 5
394
• 1
3.8
1133
2
0 7
•d71
0 2
0 9
2609
5.3
i 2
395
05
0.0
¦ "34
C 2
7
•372
0 4
0 2
2610
1 6
00
396
C 4
¦D 2
•. '35

7
• -573
0 2
0 9
2611
60
1 3
397
0.8
C 5
¦"36
*~
C 1
¦874
0 2
0 7
201 2
0.8
•0 7
398
08
0 3
" 1 37
C 2
C 5
¦ 375
0 4
0 i
2613
0 2
2 0
399
0.7
^ 2
"33
C 2
:j. 7
' 876
0 7
0 4
2614
7 7
1 6
•100
2 7
0.8
1139
: 2
' 0
'377
0 5
0 3
2615
0 6
0 3
401
06
C. 5
¦¦40
2 0
• 0
"878
0 2
l 3
2616
06
0 4
402
06
0 8
' -41
C 8
:-8
¦379
i 1
0 5
2617
1 6
08
403
2 1
3 8
"42
C
¦ i
' 880
0 2
I 3
2618
25 3
3 5
404
0 4
-1 1
- -43
C 2
¦ 5
•381
0 4
0 6
2619
3 4
0 7
405
1 6
0 3
1 1 44
1 b
: n
•332
0 2
¦i 3
2620
2 0
0 2
406
1 0
¦0 2
1'45
n
0 6
' 333
0 5
0 3
202'.
50
1 5
407
1 3
3 8
1146
3 3
' 2
1034
02
'• 3
2622
•. 6
06
408
0 7
0.2
1147
1 r*
J 6
' 885
0 9
0 5
2023
06
-1 0
409
0 5
•C 1
1148
1 1
0 4
1806
0 2
1 3
2624
06
•1 0
410
0 5
¦C 1
1149
1 C
r\ o
1387
06
0 2
2625
0 2
¦2.4
411
1 4
0 9
11 60
5 5
0 7
1808
1.1
0 5
2626
06
0
412
0.2
•0 9
1151
05
0 2
1889
1 9
0 6
2627
02
•1 8
413
1 0
C f
11 52
1 ?
: ..1
1890
0 2
•l 9
2628
0 2
1 6
414
0.5
0 1
1153
\
o ;
1391
0 2
•1 3
2629
02
-V1
415
02
C 2
1154
0 5
j i
' 392
0 2
¦1 4
2630
0 7
0 7
416
0.4
0.9
1155
- 7
2 0
1893
1 5
0 8
2631
0.5
•0.5
417
0.2
•0 9
1156
0 4
0 6
1894
0.2
¦1 4
2632
0.2
-1 6
418
0.6
0 2
1157
1 C
0 1
1895
0 2
•1 4
2633
0.5
-0 5
419
0.2
02
1150
3 3
i 2
1896
0 4
0 6
2634
0 2
•1 7
420
0.6
0 2
1159
0 2
0 7
1S97
0 5
-0 3
2635
08
-0.2
421
0.4
•0 1
1160
0.2
04
1898
1 2
0 7
2636
1 1
02
422
0.7
06
1161
0 2
0 7
¦ 599
0 9
0 5
2637
0.9
02
423
0.8
•0 5
1162
1 0
0 3
1900
0.2
0 3
2638
08
0 1
424
08
05
1163
0 2
0 7
1201
0 2
0 1
2S39
3.3
1 7
-------
Table L-l (Continued)
Measurement-Map Bias Statistics for Coomet Land-Hased Itadon Measurements

Measured


Meastrc-a


Measured


Measured

Seonnet
Radon"

Geome-
H.-.don'

Gfiome:
Radon'

Geo mei
Radon"

>Jumcer
ipC ¦'_)
Zt
Number
yoi L;
Z:
timber
; r< f~"! /1 \
Zr
Number
;pCi/i)
zt
425
0 6
0 2
1164
0 2 .
« 7
1002
0 2
Q 1
2640
0.4
¦0 8
426
2.1
' 3
1165
0 4
•0 9
1903
02
0.1
2641
02
¦1 5
<127
1 4
0 1
1166
0 4
¦> c.
1 004
0 5
' 4
2642
0 2
¦1.5
428
1.5
< 0
1167
0 2
4
1305
0 7
'.0
2643
0.7
0 2
429
0 7
06
1168
3 3
1 7
1006
0 2
•0 1
2644
02
1 5
430
09
00
1169
¦-> c
0 2
1 007
0 9
• 1
2645
0.4
•0.9
431
2.1
0B
1170
0 ~
- n
•008
l 0
1 1
2646
0 7
0 2
432
3 4
1.2
1171
0 7
•% -
'000
I 3
1 9
2647
0 2
1 0
433
1.1
•0 1
1 172
0 7
"V 0
1910
0 2
00
2648
0.2
•2 7
434
• 1
0.7
1173
1 2
*; s
1011
0 2
0 2
2649
0.2
-1 3
435
0 2
1.4
1174
0 o

10X2
0.2
0 3
2650
0.2
1 2
436
3.8
1 2
1175
0 5
0 4
'913
0 6
0 6
2651
0 2
•0 9
437
2 1
0 8
1 176
0 7
0 4
1914
0 6
07
2652
1 0
0 2
438
C 2
1 4
"77
j 5
?• r
1?i 5
0 4
0 4
2653
0 7
¦0 2
439
0 2
•1 9
'."76
2
• "i
1916
1 0
1 3
2054
0 5
0 6
440
' 5
1.0
1" 79
Z 2
* 6
¦ 3; 7
C 2
0 8
2655
9 o
1 1
441
C 8
1 7
i' 50
~ 2
0 4
• ¦.18
0 2
C 7
."050
1 7
08
442
02
-0 6
. , g.
Z "
: 3
'9*9
1 5
1 2
°6^7
0 4
0 5
443
05
" .3
•' 82
~ 4
ri y
• goo
• 0
0 8
2658
0 9
0.3
444
1 :
¦C 3
1133
: 9
Z 8
1021
02
•0 '
2559
i 0
0 4
445
1 2
00
11 34
r. -
"! 7
10?2
0 2
-0 7
5660
4 3
1 9
446
0.7
0 4
1185
02
- 2
'923
0 5
0 2
266'
6 1
1 3
447
1.0
C 7
1186
0 0
* 0
1 924
2 6
1 4
2662
6 6
2 1
448
1 5
0 7
1187
0 5
Z 3
1925
0 2
< 0
2663
02
1 2
449
0 4
•0 1
1108
o:
' 9
• 920
0 2
'. 0
2C64
0 8
0 1
450
1 5
1 0
1189
0 2
0 2
1927
0 B
0 3
2665
02
•1 2
451
0.7
04
1190
j 2
? I
'023
0 7
0 8
2666
0 2
¦' 2
4S2
6.5
3 1
1191
1 3
^ 5
1329
0 5
0 5
2667
0.2
1 2
453
0 5
1.0
1192
0 2
0 5
1930
0 6
0 6
26fi8
0 2
-1 2
454
0 5
•1 0
1193
A "*
0 S
1931
0 2
0 3
2669
0 6
¦0 1
455
0 5
1 ^
1194
0 /
i ^
1932
0 4
0 3
2670
0 5
•0 3
456
0 4
1 2
l 195
0 -1
u
'933
2 6
1
2671
0 8
0 2
157
0 6
0 *
1196
n 4
::?
MJ34
0 2
•J
2*72
0 2
•1 2
458
0.0
0 3
1 197
2 2
i c
'935
^ 7"
•1 i
267 3
0 8
0 5
453
• 0
i i
1 1 OS
Z
o e
1 '¦ ~>f>
Z 2
1 1
26 7 4
' 3
09
460
1.2
0 0
i 199
0 7
' 0
1937
2 0
1 4
2675
0 2
-0.9
461
5 8
2 C
1200
;
• j
i 938
0 7
0 3
2676
n 9
0 6
452
0 2
•0.5
1201
0 2
j '
1939
J '
0 3
2677
0 2
0 9
453
29
1 6
1 702
0 2
0 "
' 540
0 2
•0 1
2678
0 4
•0 2
464
" 3
0.5
1203
0 4
?• 2
1941
0 2
1 2
2679
0 2
¦0 9
465
0 6
•0 1
'2:4
: 5
0 3
•942
0 2
1 2
2580
1 4
1 0
466
0 6
o •
•2CS
j 2
:> 7
1 343
C 6
0 0
iiGrt 1
0 2
-0 9
467
1 1
0 4
1206
C 2
¦ j •*
'944
0 4
0.3
2532
02
-0 9
463
3.7
0 1
'207
C 2
00
* 945
02
•1 2
2GQ3
02
¦C 7
469
02
¦1.3
•2CS
0 2
¦: 3
'946
0 5
0 3
2684
0 2
-0 5
470
C 2
1 3
- 203
C ?
0 1
1947
1 3
0 8
2685
04
0 1
471
0 4
0 5
12-0
3 5
0 2
•948
l 5
09
2606
0.2
•0 3
472
0 2
•1 3
•2* 1
2 -»
C 1
• 949
1 5
0 9
2687
0 2
-0 3
473
02
-• 4
1212
0 2
' 6
1950
0 4
0 1
2688
0 2
•1.2
474
0.6
¦C 2
1 21 3
C 6
. 2
'.951
2 3
1 4
2689
1 4
1 0
475
0 7
C 1
1214
1 2
0 5
1952
09
0 7
2690
0.7
02
476
0 2
1 3
1215
0 2
2 0
1953
0 2
¦04
2691
1 0
08
477
0.2
•1 9
1216
^ 7
v —
I 1
1954
0 2
0 4
2692
0 5
0 2
Q
rr
-------
Table L-l (Continued)
Measurement-Map Bias Statistics for Geo met Land-Based Radon Measurements

Measjrea


Measured


Measured


Measurec

aeorret
Radon"

Gee n-et
Radon'

GeorrRT
Racon'

Geo met
Radon'

-mber
(cCi/L)
zt
N-mbsr
(pCu.)
Zt
\ J '71b 0r
iPCi'L)
Z+
Number
(pCi/L)
zt
478
2 3
2.0
1217
3 5 ¦
0 3
i 955
I 1
0 9
2693
0 7
05
479
0 7
0.2
1218
0 9
0 3
1956
1 1
09
2694
0 2
0.7
480
C 4
¦0.8
1219
0 7
0
1 957
0 2
0 7
2695
09
07
431
0 2
-1 4
! 220
0 6
0 0
1358
3 7
0 5
2696
09
0 7
482
02
¦1 4
1221
0 5
0 9
1959
1 0
0 7
2697
0 2
0.4
483
0 2
-1.4
1222
2 6
0 1
1063
0.5
00
2698
0 2
-0 1
484
C 2
1 C
" 223
' 5
0 8
1 361
3 7
0 3
2C99
0 2
0.1
485
0 2
1 0
¦ 524
•; a
0 3
' 962
3 4
O 2
2700
1 3
0.6
486
04
•3 4
1 225
2 6
2 4
1963
0 2
•C 4
2701
0 2
•1.2
487
0 4
Z 2
' 226
7 2
' *5
1 064
0 9
OS
2702
0 2
0 7
488
02
¦0.9
'227
: s
'v
- J
1965
P O
O 4
2703
0.2
•0 7
489
0.7
0.3
' 223
•> 
7;
• 0r:S
- o
0 3
2"?26
0 2
•1 3
512
? ?
I t
' OC 1
C 6
;
' C;>}9
2
0 3
2~rp?
0 2
¦ 1 3
513
C 7
o.-
* 2C,2
p
' ft
• 9 DC
0 5
0 5
2728
0.2
•1 3
514
3.9
0 4
•253
0 2
• 0
' 991
0 2
0 3
2729
0 2
0 1
515
C 2
-0 7
1254
2 2
¦ ! 0
' 992
0 2
03
2730
0 7
10
516
0 5
0 2
1255
r y
: 0
•993
O 2
0 5
2731
0 6
0 2
517
1 2
3.9
• 25c
2 6
0 0
1994
r\
•¦j C.
-0 4
2732
1 3
08
518
• 6
1.1
'•257
2 2
3 7
1995
02
•0 2
2733
0 4
-07
519
02
0.1
1253
: 2
l 5
"996
0 5
0 5
2734
0 2
0 8
520
0 5
0 4
•259
e 2
• 1
1997

0 3
2735
0.5
00
521
0.9
3.4
' 260
f o
• 0
1998
0 6
0 7
2736
1.1
06
522
1 1
0.3
t ?S1
C 4
0 3
1999
02
¦0 3
2737
0 2
•§
523
08
1 0
'262
¦: 9
: 3
2000
0 4
0 3
2738
0 2
-§
524
05
0 5
1263
0 2
• 0
2001
0 2
¦0 3
2739
0 2
§
525
1 6
\8
1264
05
O
2002
0 2
0 3
2740
0 5
...§
526
1 i
' 4
1265
^ c
\ 3
2003
02
0 3
2741
0.2
0.2
527
2.3
2 0
1266
0 •'
0
2004
0 2
¦0 3
2742
0 7
0.9
528
O.S
¦0 4
1267
0 2
• * 0
2005
0 2
'' c
2743
0 2
-1 3
529
4 2
1 2
1268
O
0 2
2006
0 6
1 3
2744
09
0 3
530
3.3
09
1269
0 2
1 Q
2007
0 2
¦0 3
2745
0.5
•0 3
r
-------
Table L-l (Continued)
Measurement-Map Bias Statistics for Geomet Land-Based Radon Measurements

Measured


Me?.su'ed


Measured


Measured

Geomet
Racon'

Gecrret
Racon'

Gecmei
Radon*

Geomet
Radon*

Number
tpCi.'L)
zt
Number
^pc:
7
Vjrrocr
-pCi'L)
7r
Number
p-Ci.-'L)
Zt
53'
0,2
¦26
1270
0 4
; -1
2003
0 2
0 3
2746
04
0.2
532
1.9
0 5
12~1
0 G
0 0
2009
03
0 7
2747
1.6
1.1
533
; 4
0 1
< 2 "-'2
') J
2
2010
1 '
' 0
2748
04
0 2
534
'' 6
2 7
1273
J J
: -i
20! 1
0 9
OS
2749
0 6
0 1
535
1.4
0 4
12'4
0 -i
2 -i
2012
' 5
1 3
2750
02
0 6
535
1.0
0 4
1275
23
j
201 3
0 7
0 7
2'51
0.4
0 2
537
0 4
0.5
1 2^5
•>

-014
0 5
0 7
2752
0 7
06
533
0.4
0 5
'277
0 2
; 0
2d5
0.9
¦1 0
2753
08
0 7
539
0 2
-1.3
; 2?g
: 1
0 -3
r- d 16
1 n
0 3
2754
0 2
¦1 1
540
3.4
-1.5
1 275
: 9
2 ¦¦>
2017
0 5
-1 7
2755
0 2
•1 1
541
3 1
1 '
' 262
' 3
0 3
2218
0 5
17
2756
0.8
06
CM
•*t
in
0.2
1 4
* 2S1
: -
2 3
221 9
0 9
0 C
2"757
0.2
08
543
3 2
•1 4
':282
2 5
: 9
7C20
: 2
1 4
2753
0 2
•1 5
544
11.7
2 4
* 233
7 2
• :}
2221
0 5
O 5
2759
0 2
-1 5
545
• 3
0 4
'234
c
J
: 1
2222
0 2
•1 4
2760
0 2
-13
346
• 0
0 8
• -J ~
•' '
• ->
•223
0 4
0 A
2751
0 2
-1 3
547
0 2
' 4
• 236
7 2
• 7,
j224
0 2
0 0
2762
0 2
1 3
548
4 0
C 5
1287
0 -7
:
2025
n 0
. 1 7
2763
0 5
¦0 5
549
4 7
0 7
•233
c-
2 2
") *v.>p
0 2
0 0
2764
0 5
0 5
550
1 5
-0 8
1289
0 5
2 1
2027
0 5
1.1
2755
0 2
-1.4
551
1 5
-0.8
1290
0 5
;• 1
2028
0 7
0 2
2766
0.9
03
552
04
-1 7
1291
a

2029
0 2
0 6
27S7
0 2
¦1 4
553
02
2.6
1292
•") z-
2
2030
02
0 6
2768
0 2
-1 4
554
0 2
•2 6
1293
0 2
¦ i 0
2031
0 5
1 0
27S9
' 7
0.9
555
0 2
2 6
1294
7 s
21
2032
0 c
* 0
9-1 -?/>
1 4
0 8
556
0.6
2
1295
1 7
7 5
2033
J c
0 0
2771
• 0
0.9
557
1 •
C 0
1290
02
2 1
2034
0 c
: 4
2772
0 2
1.8
558
1 5
C 8
1297
0 e
2
2035
1 0
? 0
2773
1 3
0 7
559
3 9
0 5
1293
2
' 2
2036

• 0
2774
04
¦C 5
560
1 «
0 0
1 299
" 4
V-.
70.37
0 2
0 0
2775
0 9
0 3
561
0 3
0 3
1300
0 2
• 2
2038
0 5
04
2 "76
0 9
0 3
562
1 3
1 6
1 301
0 "
' 2
*•039
1
1 9
2777
0.2
•1 2
563
1 2
03
1302
2
• ~
2C-0
0 2
0 ~
2778
0 2
1 2
564
0 2
-0 5
1503
j l
. 3

0 2
-0 6
277S
0 2
1 2
565
14
¦0 9
1 304
r> &

•v.j^o
0 2
1 0
2780
1 2
0 6
566
0 7
•1 G
1305
\ 1
r7
2043
1 1
7
2781
0 5
0 1
557
t.C
1 3
1306
' -1
:2
2044
0 2
0 3
2782
0 2
-0 8
565
0.6
•2:
1307
2 7
-
V 9
0 2
00
2797
0.4
-0 5
583
C 2
•1.7
1322
0 7
2 2
2060
0 2
V O
2798
0 4
¦06
-------
Table L-l (Continued)
Measurement-Map Bias Statistics for Ci-omet Land-Based Radon Measurements

Measured


Measured


Measured


Measured

Seomet
Radon'

Gsome:
3.idon"


Madon"

Geo met
Radon'

Junber
7
3 2
¦0 6
2805
0 2
-0 7
59'
0.4
1 3
1330
3 4
2 3
206S
3 2
0 0
2806
0 4
0 1
592
04
-1 0
1331
0 2
n .4
2069
1 2
0 5
2807
1.2
' .2
593
C 4
-1 c
1332
3 2
0 «3
2070
0 8
1 1
2808
0 2
0.6
594
C 4
0.1
1 333
j 2
0 3
20? 1
0 2
0i
2809
1 0
0.9
595
1 3
0 2
1334
')
•'
?0 * 2
3 6
0 8
2810
2 C
' 1
596
3 9
1 2
1335

j 6
2273
3 5
0 7
2611
3 3
• 4
597
' 2
0.'
' 236
J 4
; ,7
j j?4
- y
0 0
?t312
0 5
0 1
598
0 6
¦0 6
' 337
: 3
0 :3
2275
0 2
00
2813
0 9
06
599
1 5
0 3
• TIG
- -V
~ •>
; 3
j -j 7.3
3 4
0 4
"•¦.14
" 6
1 0
600
0 4
• • 0
333
2 2
•
„???
3 6
: 9
28 i 5
0 2
1 3
601
1 5
1 2
• 343
J! •"
? 6
~ 7 p.
3 y
¦0 3
3B16
31
1 8
602
3 0
: 4
"341
• 1
0 9
?279
• 5
09
2617
10
07
603
02
C.4
• 342
'
y
2230
0 2
3 a
39" B
3 2
¦0 3
604
02
-C 7
' 313
2 6
2 4
2C3<
0 2
0 4
2S19
2 7
00
605
2.3
2 5
1 344
• -
• 7
2CH2
r
0 4
2820
0 2
¦1 7
606
0 2
-0 3
•345
* -
• '.>
2053
0 2
1 1
2821
' 6
0 9
607
1 '
5
1346
0 5

20*34
02
' 2
2322
0 2
¦1 7
508
0 2
¦o 5
1347
0 •:
j
2085
3 '3
•0 ?
3323
0 4
-0 4
509
0.5
04
1 343
C -
2 0
2086
0 4
0 °*
2324
0 2
0 4
610
0 2
¦C 5
i 349
0 2

2037
'¦j i.
2
2325
06
0 5
611
0 2
•C 5
1350
0 ?¦
: 4
2COJ3
0 2
0 6
2826
\J i
0 3
512
1.2
1 3
1351
\ 0
• 5
2009
0 5
0 3
2827
1 0
0 7
613
0.7
0 8
1352
• "l C
0
•090
0 9
0 9
2828
1 3
0 8
514
0.2
-0 5
1353
0 5
- !
2001
0 2
0 7
2829
0 2
0 9
615
0 2
0 5
13 54
•; 2

/092
- ¦y
0 7
2830
'J 'J
0 1
3'8
0 2
-0 5
1355
" 5

2003
7 5
¦ ¦¦ •>
2331

3 3
517
0 2
¦ 1 3
1 3 t>o
2
_ 1
* Jr»4
*% ->
3 4
2032
3
0 1
518
0.5
r> t
v 14
1357
:_s 2
"¦ ;
_095
0 2
0 7
2833
1 0
' 2
6*9
1 2
1 3
158

: r.
~0r • '•>•»
- V/ /
0 ?
C 8
2845
1 7
1 5
631
C 2
1 7
1 37C
2 9
; 1
2 * 03
0 2
0 3
2846
0 2
-18
632
06
0 0
i 371
: 0
2 1
2:00
1 3
1 1
2847
1 3
0 4
633
0 8
0 1
•372
*. ;)
' 3
2no
0 2
•' 8
2848
0 4
0.0
634
02
'1 1
' 373
; n
2 3
2111
(.) 4
•0 9
:'849
02
¦0 3
635
0 6
¦C 4
•374
C 2
¦o 4
2112
0 2
0 1
2850
0 5
0 3
636
02
-C.8
•375
/> 0
0 4
2U3
0 6
0 1
2851
0 9
0 4
i 11
-------
Table L-I (Continued)
Measurement-Map Bias Statistics for Geomet Land-Based Radon Measurements

Measured


Measjrec


Measured


Measured

ieomet
Rado^'

Geo"iei
R.iCJC""'

•3eO'M6!
Radon'

Goo met
Radon"

„rrber
•oCi/'Li
Zf
N..r-oer
¦nCi I,
It

'pCi.-Li
Zt
Number
(pCi'L)
Z*
637
C 2
•0 s
1375
5
• ¦.?
1 " ' H
0 2
0 5
2852
22 9
2 7
638
0 5
00
"377
0 4
¦j -~
21' 5
0 2
0 5
2853
3.5
2 7
639
0.2
14
' 376
' 0
i 2
V ' <3
^ 7
0 3
28 54
0.7
0 0
640
C 5
•o 1
' 373
¦ 1
- 3
211 7
•3 8
0 3
2055
0 2
•1 4
641
02
-0 6
• 330
09

21 10
0 5
-0 2
2856
1 3
-0 2
6-12
0 7
C 0
•331
C 2
0 3
>119
0 2
¦0 5
2857
0.6
¦0.2
643
02
•C.6
' 382
C 2
• 3 3
2'20
^ 4
0 4
2858
0.7
0 2
644
OS
0 3
1333
' 2
: a
2'21
0 2
0 4
285S
C 2
•0.7
645
02
0 6
1384
3 U

2122
;) 2
¦0 4
2(360
0 2
¦1 2
646
02
¦0 6
1335
0 5
C 2
2123
0 4
¦0 4
285-
1 0
1 2
647
0 2
-0 6
1386
5 3
- a
2^24
0 2
C 4
2862
0 2
¦0 7
648
0.4
O.I
1387
1 5
¦ 5
2125
0 2
0 7
2863
< O
1 0
649
0 2
-• 1
1388
' 3
: 3
2126
0 2
r\ 4
• v
2364
1 0
11
650
02
08
1389
0 2
•7 5
2' 2""
'."> 2
C 4
2365
0 9
1 1
551
0 2
¦0 8
1390
0 1
3 5
2128
0 7
0 5
28S5
0 2
0.0
552
0.2
¦1 1
1391
¦ I
3 6
"j 20
0 2
0 7
2867
1 3
09
653
0.7
C 2
1392
i 7
< -
2130
C 2
' 5
2068
1J 4
-0 4
554
0.8
05
1393
• 3
1 :]
2131
0 5
0 6
2869
0 9
0.7
655
1.1
08
1394
0 2
Oc
2132
0 7
•0 1
2S70
0 7
0 1
656
0.8
05
1395
0 5
r\ C
2133
i 2
0 5
2871
0 4
02
657
0 2
0 5
1396
0 \

213-1
2 2
0 6
2872
3 5
-0 2
653
o 5
-0 5
1 397
2 1
: j
2135
2 7
0 8
2873
l 1
0 3
659
0.2
¦1 9
1398
j I
3 3
21 3C
3 0
1 9
2874
0 2
-1 0
660
0 6
¦0 5
1 3-09
t 3
' C
2 \ 3 7
'>
O 1
-875
02
0 3
66"
: 2
¦ '¦ "3
i -100
- 2
- •:
2' 33
- 3
0 0
2876
0 5
-0 3
562
0.4
0 2
1401
• ) ~J
:¦ 6
21
0 5
1 0
2077
0 4
0 2
663
0 2
0 4
• 4C2
' 4
; ~
21 10
0 4
¦1 3
2t "

2 30
0 4
0 1
2394
1 4
2 2
674
0.2
¦1 7
•4*3
• c.

21 bl
0 2
0 5
2895
1 3
1 4
675
C 4
0 9
"4:4
"7

2 5 ^
0 2
0 5
2396
1 2
0 5
676
02
¦1 7
•415
7
' 2
2153
0 2
C 7
2897
09
0 6
677
0 2
-0 8
-4-6
C 2
C ?
2154
4 3
20
2393
4 7
2.0
678
C 2
-1 9
•4"7
C 2
3 7
21 35
1 4
" O
2899
08
00
679
0.2
•0 4
•418
0 4
39
2156
0 8
0 7
2900
16 1
1 7
680
0 2
1 7
•419
2 3
2 9
2157
0 2
•0 8
2901
2 5
0.5
681
02
-• .7
1420
1 3
* o
2158
0 7
O 0
2902
0 6
0 7
682
0 5
-C 6
1421
1 -1
'• 3
2159
C 2
¦0 7
2903
0.5
06
683
02
0.4
1422
0 5
0 6
2160
0 2
0 0
2904
09
". 0
684
02
•2
1423
0 2
0 3
2161
0 2
0 7
2905
0 2
¦1 5
685
02
2
1424
0 ?
•3 5
2162
0 2
0 3
2906
0 2
O 4
686
04
-s
14 25
1 3
: 5
2163
°
0 3
2907
0 2
0 4
687
02
0 3
1426
• c.
2 7
216-1
•J c.
0 3
2908
0 5
04
658
07
C 1
1427
o 7
i r
-¦>' r-' c
0 2
0 7
2909
3 2
•1 3
689
0 4
0 5
1428
« 7
i 2
2l CO
2 4
1 7
2910
0 2
1 3
L-
n
-------
Table l.-l (Continued)
Measurement-Map Bias Statistics for Geomet Land-Based Radon Measurements

Measured


Measured


Measured


Measured

jaome'
Radon'

Gecrrei
Raco'V

Gecrnet
3adon'

Geo me;
Raac-"

¦limber
ipCi.'L)
zt
\umbsr
i';:C U
ZT
j t
1
7*
N^-ncer
'oCi'Li
zt
£90
02
...§
1429
!
; 5
21 o~
0 2
0 3
2911
0 4
0.5
631
0 2
-1 7
1430
0 ~
') 3
2168
0 4
00
2912
08
0 3
892
0 2
-1 7
1431
0 0
2
2'69
0 2
¦0 7
2913
02
-0 2
633
0 2
'1 1
1432
0 2
;
21 "0
0 2
0 7
2914
1 2
1.1
694
0.2
-t 1
1433
0.2
2
2171
0.2
-0 3
2915
0.2
-0 3
635
0.2
-V
1 434
- 5
0 2
2172
1 2
1 1
2916
0 4
0 2
696
0.2
1 1
"435
¦ 0
1 3
2173
0 2
¦0 7
2917
0.5
0 0
697
C 2
¦0.3
1436
1 7

21 74
0 2
¦0 7
2918
0 8
0 5
698
02
•0 5
•437
' 4
• r:
2175
2
1 9
2919
1.2
09
699
0.5
0.5
'.438
; 1
'N "»
J '
2176
0 2
1 3
2920
0 2
03
700
C 2
0.8
•433
* 2
1 ')
.'1 77
0 2
¦1 9
2921
0 2
03
701
0 5
0 5
14J3
~ z>
2 -i
21 7Q
r, 0
0 4
2922
1.6
1 7
702
0 7
" 4
• 44'
Z '}
1 -j
2' 79
- 2
0 4
- '-•23
0 6
08
703
0 4
c 1
1442
' -

' .J~
v 5
0 1
2924
0 2
•0 3
704
02
•: s
1 443

; 0
: • 01
' 2
0 6
2925
0 6
OS
705
0 2
¦C 7
1444
n 2

2' 22
->
0 4
2326
1 9
1 8
706
0.2
C 7
1445
2 r.
; r.
210 3
2 2
• 9
2927
0 8
1 1
707
0 5
0 3
1446
1 4
• 4
2 1 .•«
0 8
0 5
2928
0 6
0 9
708
0.2
-§
1447
0 2
C C
2105
0 2
' 9
2929
0 2
-2 0
709
08
0 9
1 ''-48
0 2
0 r;
2186
0 2
0 4
2930
0 4
1 2
710
0 2
0 4
1449
0 2

2187
0 5
-0 1
2931
04
-¦ 2
7* 1
06
06
1450
0 2
0 5
2108
¦y
0 0
2932
0 6
0 6
712
0 2
-0 5
1451
1 'J
' -I
2189
04
0 7
293.3
1 4
1 7
713
C 2
-0 5
1452
j 7
.-*> c.
2190
0 2
0 4
2934

1 0
714
: 9
0 "
1453
'i ')
" *2

a
2 4
¦>935
0 6
09
7" 5
.".2
1 5
•454

; b
¦j i no
0 ¦)
1 5
2936
0 5
0 3
7' 0
3 0
0 •
•455
2 ?

21 93
0 2
0 0
2937
1 1
06
717
• 8
3.9
•456
2 2
2 6
2' 94
0
0 0
2955
0 2
-3.5
71 a
02
¦1 5
'457
: 3
2 3
2 195
0 2
1 9
2956
0 2
-0 7
719
• 1
0 4
•453
2 u

2 * 96
0 6
0 2
2972
0 2
1 0
720
0 2
¦1.5
• 453
3 r>
2 4
21S7
0 4
•0 5
2375
2.3
-0.1
721
0 7
0 1
1 460
' A
1 ;•<
2' 98
; 2
1 9
2977
39
0 6
722
0-1
¦ 7
•46'
¦ *
• ,3
2' 99
J 2
•1 9
2373
4 9
0 3
723
0 6
31
1462
2 0
• 9
2200
¦-)
1 3
2979
0 4
2.2
724
06
-C 6
1463
0 2
: 5
T.31
0 5
3 4
2932
10 1
1 2
725
1 0
0 1
14(34
¦> •?
• r>
3202
0 2
1 0
2984
96
1 2
7 26
0.7
C 6
1465
0 ^
: 5
2203
0 2
' 9
2989
5 1
0 4
727
0.4
0
1466
2 3
• c
2201
0 5
0 5
2991
1 2
•1 4
728
0.5
08
1467
/I •_}
: 0
2205
2 2
1 5
2992
5 9
0 3
729
1 0
0 3
1 4 08
2 y
• .2
2206
09
0 3
3004
0 2
-1 1
730
09
0 1
1469
0 d
V 0
5 201
0 2
1 9
3007
0 8
•14
731
0.0
-0 2
1470
0 2
^ "
2203
0 4
0 2
3012
0 2
¦0 7
732
1 4
0 5
1471
C) 4
0 '
•209
0 2
0 4
3013
0 8
05
733
0.2
1 1
1472
0 3
2 5
22'0
1 0
0.7
3020
0.2
1.1
734
0.4
•0 9
1473
2 2
1 4
221 1
0 2
11
3022
0 6
0 1
735
2.6
1 2
1474
2 3
1 5
2212

11
3023
0.8
0.8
736
0.2
•1.5
1475
•1 •>
2 3
221 3
3 2
1 9
3025
2 1
1.5
737
0 6
0 2
1476
0 2
0 5
2214
• 1
0 8
3026
0 4
0 1
739
1.6
0.7
•477
C -

2215
0 2
' 8
3030
0 2
¦(2
" rdoor .'aeon measured witr. charcoal :nn«str>r*
fN'cas.-naD bias statistic. Z = j!n; 3h rreasi • Im3n »rnpij s«r.|iMimi'-2 - :ruGroap>A2)
§Water-ccm'ra:ed polygon. C50=0
1 -14
-------
APPENDIX M
MEASUREMENT-MAP BIAS STATISTICS FOR
GEOMET POPULATION-BASED RADON MEASUREMENTS
1 able M-l Measurement-Map Bias Statistics for Geomct Population-Based Radon Data

Measured


Measured


Measured


Measured

ieomet
Radon'

Geomet
Bacon"

Geomet
Radon'

Geomet
Radon'

umber
(pCi/L)
Zt
Number
(PC./L)
zt
Nutrber
(pCi,'L)
Zt
Number
(dCi/L)
zt
<
1.1
-1 4
696
0 2
' 5
1415
2 6
0 8
2147
0 2
-0 7
2
0 7
•0 4
697
0.2
-1 9
1416
0.8
0.0
2148
0 2
-0 4
3
0.2
- 1 4
698
0.2
• 9
14 19
0 5
-1 1
2149
0 2
-0 7
4
0.2
•1 4
699
0.2
-1 9
1420
5 5
1 7
2150
0.2
-0 7
5
0.2
-1 4
700
0 4
-1 0
1421
0 8
0 2
2151
0.2
•0 7
6
0.9
-0.2
701
0 2
• .6
i 422
0 2
-1 1
2152
0 2
-0 7
7
0.2
-1 4
702
0 2
•1 6
1 423
0 4
¦0 4
2153
0.2
-0 7
8
C 2
-1 4
703
0 9
0 0
42 4
0 5
-0.2
21 54
0.2
-0 7
9
0.4
-2 4
704
0 2
¦1 6
1 425
0 5
0 4
2155
0 2
-0 4
10
0.2
-1 4
7C5
0 2
1 6
< 427
0 7
0 0
2156
0 5
0 2
1 1
0 2
-1 4
706
0 2
¦1 6
1428
0.2
-1 3
2157
0 2
-0.7
1 2
0.2
-3 1
707
0 2
I £
1 429
2.1
0 5
21 58
0.2
-0.7
1 3
0.2
-3.1
708
0 2
• 1 6
1430
2 7
0 8
2159
0 2
-0 7
1 4
0 2
-1 4
709
0 4
0 9
1431
2 7
0 8
2160
0 2
-0 7
1 5
• 0.2
-3.1
710
0 2
i 6
¦432
0 2
2 4
2161
0 2
-1 0
16
6 1
1 4
7' 1
0 2
¦ 1 o
1433
0 6
C 4
2 1 62
0 2
-1 0
1 7
9 7
1 8
712
0 2
¦1 7
1434
5 1
1 6
2 163
0.2
-0 4
1 8
5.8
1 4
713
0 2
¦ 1 7
1436
5 3
1 7
2164
0 2
¦1.2
1 9
0 8
0 1
714
C 5
0 6
1442
4 1
1 3
2165
0 9
0 7
20
0 2
3 1
715
0 2
-0 8
1443
0 8
•0 7
2166
0 2
•0 4
2 1
4 8
1 1
716
0 2
1 9
1 444
1 4
C 0
2167
1 3
1 0
23
4 1
1 1
7 1 7
0 2
9
144 6
0 2
•0 2
2i 68
0 2
-0 8
24
0.2
-2.9
719
0 2
1 9
14 56
2 3
1 8
2169
0 4
-0 1
25
0 7
-• 3
720
0 2
l 3
1457
0 2
-0 3
21 70
0 2
-0 8
2 6
0 s
-1 5
721
0 2
' 9
1 458
0 2
¦0 5
2171
0 4
0 1
27
1 0
-0.1
722
0 2
• i 9
1 4 59
0 2
-0 5
2172
0 2
-1.9
28
0 2
-2.9
723
0 2
1 9
1 460
0 2
•0 5
21 73
0 2
-0.8
29
0 2
-12
724
0 2
*0 3
1461
0 4
0.3
21 74
C 2
•0.8
30
1 4
0 3
725
C 5
0 0
1462
0.2
•C 5
2175
0 2
-1.9
3 1
4 3
1 8
726
0 6
C 2
1463
0 2
-0 5
21 76
0 2
-0 8
32
10 0
2 7
727
0 2
0 6
1464
0.2
0 3
2177
0 8
0 5
33
1 6
0 8
7 2 S
0 7
0 3
1465
0 2
-0 3
2178
0 2
-0 3
34
0 8
-0 1
729
C 2
0 8
1 466
0 2
0 3
2 1 79
0 2
•0 4
3 S
5 7
0 2
730
0 2
• 9
f 467
0 2
0 5
2180
C 2
-0 4
35
0.5
-2 2
731
0 6
3
1 468
o a
0 7
2 l 8 1
0 2
-0 4
37
3 8
¦0 2
732
0 2
0 6
1470
0 2
0 3
2182
0 2
-0 4
33
3 2
1 7
733
0 2
2 0
147 1
0 2
¦0 3
2183
0 2
-0 4
42
C 2
-1 4
734
0 4
•0 2
'472
0 2
•0 3
2184
0 2
-0.8
43
0 6
-0 5
735
0 2
0 8
1473
0 2
-0 3
2185
0 4
-0.1
44
2.5
C 7
736
0 2
•0 8
1 474
0.4
0 3
2'86
0 2
-0 4
48
1 8
-0 9
737
0 4
0 2
' 475
C 2
•0.3
2187
1 .0
0.7
49
1 .5
0 4
738
0 2
0 4
1 476
0 2
-0 3
2188
0 2
-0 8
50
1 0
C.I
739
0 2
-0.4
i 477
0 2
•0.3
2189
0 2
-0 8
51
2.2
0.7
740
0 2
0 4
1478
0 5
0 5
2190
0 2
•OB
52
0.2
-1 2
74 1
0 4
0 2
1 479
0 2
-0 3
2191
0 2
-0 4
53
i. 1
0.1
742
0 6
0 2
148 1
0.2
•0 3
2192
0 2
-0.4
54
2 1
0.6
743
0 4
¦0 2
1482
2 0
1 7
2193
0 5
0.1
55
8 6
1 7
744
C 2
-0 8
1483
0.7
0 8
2194
0 2
-0 8
56
1 0
0. 1
746
0 2
-0
1434
0 2
-0 3
2195
0 2
¦04
57
2 2
0 7
748
0 2
¦0 6
1485
0 7
0 8
2196
02
¦0 8
58
5 1
0 1
749
0 2
-0 6
1486
0 2
-0 3
2197
0 2
-1 9
59
1.6
0.4
751
0 2
¦0 3
1487
1 4
2 0
2198
0 2
-0 8
5 1
4 7
-0.3
752
0 2
-0 4
1438
1 1
1 2
2199
0.2
-0 8
M-l
-------
Table M-l (Continued)
Measurement-Map Bias
Statistics for Geomet Population-Based Radon Data

Measured


Measured


Measured


Measured

Geomel
Radon'

Goomet
nadon'

Geomet
Radon'

Geomet
Radon"

Number
(pCi'l)
zt
K .moor
:pCi/L)
zt
Mumbe*
(pCi'L)
Zt
Number
(pCi/l)
Zt
82
0.9
0.0
753
0.2.
-0 4
1 492
0 3
0.8
2200
0.2
-1.2
63
2 7
0.8
754
0 6
C 2
1493
0.2
-1 3
2201
0 2
-0.8
65
0 7
0.0
755
C 2
0 8
1 494
0 6
0.7
2202
0 2
•1.2
6 S
0.2
.4
756
0 2
-0 4
1 495
0 2
-0.3
2203
0 4
0 1
67
0.2
-1 4
757
0 5
0 1
i 490
0 4
0 3
2204
0 6
0.1
69
0 2
09
'58
0 4
0 1
1 498
0 2
0 0
2205
0 5
-0 9
69
0 2
-0 9
759
0 2
0 4
i 499
0 2
¦0 3
2206
0 2
1.0
7 C
0 2
-0 9
76 0
0 2
•0 3
1500
1 5
i 6
220 7
0.7
0.0
7 1
0 2
•1 4
7 6 1
0 ?
0 G
• 50 1
1 4
1 4
2208
C 2
-12
72
0.5
-0 4
753
0 5
-0 3
¦ 502
0 2
0 3
2209
0 5
•0 9
73
C.2
-1 4
764
0 2
i 2
1 503
0 2
-0 3
2210
0.4
-0 1
74
0.9
C.2
765
0 2
' 2
• 504
C 2
0.9
221 1
0.2
-0.4
75
0.2
-1 4
766
0 2
-1 3
1 505
•5
1 0
22' 2
0 2
-0 4
76
0.6
•0 2
767
0 4
0 9
1 506
•0 2
0 1
2213
1 8
12
77
0.2
-1 4
768
0 4
0 2
1 507
0 2
-0 8
2214
0.2
-0 4
78
0.7
0.0
770
0 7
r* 2
1 5C8
0.2
0 8
22 15
0 4
"J 1
79
0.2
•1 4
771
0.2
-1 3
1 509
0 2
-0 3
221 6
0 2
-0 4
60
0.7
0.0
772
0 2
] 3
1 5 1 2
l 2
C 3
2 217
0.8
0.5
8 1
0.2
-1.4
773
0 2
-i 3
1513
0 2
-0.8
2218
0.5
0.1
8 2
0 5
•0 1
7 74
0 2
-1 3
15 14
0 5
0 0
2219
0 2
-0 8
S3
0.5
0 9
776
3 2
-1 5
1 5 i 5
0 2
0 8
2220
0.4
0 1
E 4
0 2
0 0
777
C 2
C 5
1 5' 6
0 2
0 3
222 1
0 7
0.4
85
0.4
0 7
778
0 2
it
1517
0.2
-0 8
2222
0 2
¦0.7
86
0.2
•C 4
780
0 2
1 5
1518
1 3 C
3 5
2223
0 3
0.6
8 7
0.2
- C. 7
781
C 2
1 5
'519
0 4
0 1
2 2 2 4
0 2
0.0
S3
0.2
-0 7
782
3 2
-1 5
1 52 7
8 1
1 7
2225
0.2
0 7
89
0 4
0 0
783
: 2
. i 5
1 528
3 2
1 0
2226
0 2
-0 7
90
0 2
-0.7
784
0 2
•1 5
1 538
1 .4
0.2
2227
0 2
•1.9
9 1
0.2
-0.7
785
0 2
-C 5
t 539
2.5
2 6
2228
0 2
•1.2
92
0 2
-0.7
786
C 2
1 5
1 540
2 4
0 5
2229
0 2
-0 8
93
0 2
-0.7
787
: 6
0 *+
1 54 1
4 6
1 1
2230
0 2
¦1 2
34
0 2
-0 7
78 9
0 2
• 5
1 54?
3
0 1
2231
0 2
-1 9
9 5
0 4
0 0
""3 C
0 2
1 5
1 54.3
1 3 0
i 6
2232
0 2
-1 9
9 6
0 4
0 0
7a i
0 2
¦ 5
' 54.1
3 2
2.7
2233
0 2
-0 4
97
d.
1 4
~C- 3
0 **
0 '
i 54 5
? 3
o e
? 2 3 4
0 2
0 8
98
0 2
•0 7
73 4
0 2
5
' 54 6
25 0
2 1
2235
0 2
-0 4
99
0 6
0 3
795
0 2
; 5

0 2
•0 9
2236
0 2
-1 9
-.00
^ zz
v 3
0 2
796
0 2
-1 5
¦ 554
i 3
1 1
2237
0.2
0 4
101
0 2
-0 7
737
0 2
•1 5
l 556
0.5
0 5
2238
i 0
0.8
102
1 1
1 0
~93
0 2
1 5
1 553
0 2
•0 6
2239
0 2
•0 4
103
0.2
-0 6
799
0.2
¦1.5
1560
0.2
-0 1
2240
0.2
-0.4
1 04
C.2
-0 6
800
0 2
i 5
1 53 1
0 2
A 7
• v. /
224 1
0 2
-1.1
105
0.2
-0 6
302
0 2
" 3
1564
0 2
C 5
2242
1 3
1 .0
106
0.2
-0 6
SC3
0 2
•1 3
156 5
0 2
-0 5
2243
0 2
-1.1
107
0 2
1 4
804
0 2
0 S
1566
0.2
0 0
2244
0 2
-11
108
0.2
-0 6 ¦
305
0 2
-0 6
1 567
0 2
-C.6
2245
0 6
0.4
109
0.5
0 3
306
C 4
0 6
1 568
0 2
-0 3
2246
0 2
•1 1
1 10
0.2
-C 5
808
C 2
¦3 6
1 569
0.2
-C 6
2247
0.2
-1.1
1 1 1
0 2
-1 3
810
0 5
0 1
! 570
0 2
-1 4
2248
4 4
2 2
112
0.2
- 1 -4
3 1 1
; 2
0 6
1571
0 4
0 2
2249
0 2
1 1
1 13
0 2
3
812
0 7
0 0
I 572
0 2
-0 6
2250
1 2
0 9
1 14
0.2
-1.3
816
:• 2
0 6
1 574
0 2
0 6
225 1
' 3
1 0
1 15
0.2
-0 6
817
i 1
0 4
1 575
0 7
0 S
2252
0.9
0.7
M- 2
-------
Table M-l (Continued)
Measurement-Map Bias Statistics for Geomet Population-Based Radon Data

Measured


Measured


Measured


Measured

3eomet
3adon"

Georret
Rsdon"

Gecrne!
Raccn'

Geomet
Radon'

\lumber
< pCi/L i
Zt
Number
¦ -C-I. i
7r
\umoer
loCi't)
Zt
Number
IpCi/U
Zt
1 * 6
0 5
0 2
8 1 3
0 2
' K
1 576
0.2
C 2
2253
0 2
0 4
1 1 7
0 5
0 4
8 1 9
0 2
' 5
i 577
0 2
0 2
2254
0 2
-0 4
* 18
n 2
-0 5
8 2 0
0 8
1
1 534
0 2
•> 0
2255
0 2
-0.4
i 19
C 2
••0.5
821
0 2
•• 5
i 535
0 2
0
2256
0.2
•1.9
1 20
C.2
-0 6
622
0 2
. > 5
' 586
0 7
¦0.3
2257
0 5
•0.9
121
1 1
0 6
823
0 2
• r>
i 594
0 2
0 3
2258
0 2
-1 2
1 22
0.2
-1 4
524
0.2
• c
' 599
0 5
-0.4
2259
0.6
•0 3
• 23
0 2
•1 4
525
1 1
0 4
' 600
0 2
-1 4
2260
0 4
-0 8
124
0.6
0.4
326
0 2
4 C
1 602
0 7
0.3
2261
0 2
-1 5
125
0.2
-1 4
= 27
0 2
' 5
¦ 604
0 2
0 9
2262
0.2
-1.5
126
0.2
¦ : 9
328
0 2
1 S
160 5
0 2
0 7
2263
i 5
1 1
127
0 2
•C 9
329
A -J
1 c.
! GO 7
0 2
¦0 9
226 4
0 2
-1 5
128
0 2
0 9
330
2
' b
1609
0 2
0 9
2265
0 2
-0 4
1 29
0 2
-C 9
331
Z ~
' 5
' 6 1 C
A 1
J *~
0 2
2266
0 9
0 7
1 45
0 7
0 2
832
~ o
'• 5
1612
0 4
¦0 2
2267
0 2
0 4
! 46
0 5
•0 5
333
3

1613
0 2
-0 7
2268
0 5
0 0
147
0 2
0 2
834
; ?
' 5
16 14
0 2
7
2269
0 2
-C 4
148
0.2
0.2
835
r> 4
V
; 7
IS' 5
0 2
¦0 9
2270
0 2
0 0
149
0 4
0.2
836
C 6
¦: 3
1616
0.8
0 4
2271
0.2
0 8
151
0 2
•1.6
833
0 6
•0 3
16 17
0.2
¦0 9
2272
0 2
0 0
152
0.2
0 2
839
0 2
¦0 9
1 6' 9
0 2
0 9
2273
0.2
0 7
• 53
0.2
0.2
840
0 2
0 9
1 62 1
0 2
•C 9
2274
0 4
•0 1
1 54
0 2
-1 2
84 1
0.2
9
1622
0 2
-0 9
2275
0 2
•0 5
1 55
:• 2
•1 2
842
0 2
¦; g
1 623
0 5
0 0
p 2 7 6
0 2
¦0 5
* 56
i e
C 4
843
0 2
. ; C»
• 6 24
0 4
0 2
22 7 7
0 2
0 5
• 57
0 4
-0 5
84 4
0 2
0
i 625
0 2
¦0 9
2 2 73
0 2
0 5
1 58
: 2
¦ 1 2
849
0 -
J '
' 6 2 7
0 2
0 9
2279
1 4
1 1
•60
C 2
-0 8
950
0 6

' 628
0 2
0 9
2280
C 6
•1 7
162
0 2
1 2
8 5 1
0 2
' 5
1 630
0 ^
0 1
2 2 3 2
0 2
-2 4
•63
0.2
•1 2
552
0 2
l 5
* 33 1
0 2
¦0 8
2283
0.2
•2 4
i 64
0.2
-i 6
853
0 2
•. 5
' 632
0 2
-0 S
2284
0 4
-2 2
165
0.4
•3 8
3 54
0 3
0 2
' 633
0 7
0 3
2235
0 2
•3 1
•66
0.2
1 6
3 56
0 3

'63 4
0 2
¦0 6
2236
0 2
-3 1
167
0.2
•1 2
3 57
0 2
1 c
1 63 5
0 2
0 9
2287
2.2
-0 1
168
0.2
¦0.4
3 53
- c
< 5
' 636
0 2
0 3
2288
2 3
-0 7
1 70
0.2
'*»
3 59
0 1
j 7
-.63 7
0 2
-0 9
2289
1 7
-1 0
1 71
0.2
¦C 4
36 1
0 2
• 5
I n 3 8
¦j 4
•0 2
2290
1 1
-1.6
1 72
0.2
¦'J 4
362
C 5
0 3
163 9
0 2
0 9
2291
0 8
1 4
173
0 2
•0 4
86 3
Z 2
. i 5
: 6 4 0
0 2
-0 9
2292
0 2
•3.1
1 75
0.2
0. 7
364
¦ 2
i 5
164"
0 2
¦0 9
2295
0 4
-2.2
177
0.2
-0.4
865
• 0
0.3
16 42
0.6
C 1
2296
0 6
-1 7
1 7 S
0 2
•C 7
866
*. 6
3
1 643
0 2
¦0 9
2297
0 8
•1 4
130
0.6
0.4
872
C 2
i 5
1 5 4 4
0 2
-0 9
2298
0 2
-2 4
1 S 2
0.2
-0.4
873
: a
0 1
154 5
0 2
-0 9
2300
0 6
-1 .3
1 33
0 5
0 2
874
C 2
i 5
1646
0 2
0 9
2301
0 2
-1 8
185
0.6
0 4
875
C. 6
•0 3
1 648
0.2
-0.9
2303
0 2
2 4
186
0 2
-i 2
8 7S
0 8
0 1
1 649
0 2
•0 9
2304
1 .1
•25
137
0.2
¦0.7
877
0 2
-• 5
1 650
0 2
0 9
2306
0 6
-1 4
188
0 2
-0 7
873
0 7
0 1
1 G5 1
0 2
¦0 9
2308
0 2
-2 4
189
0 2
0 7
8 73
0 2
• 5
16 54
0 2
0 6
2309
0 5
-1 4
1 92
0 2
-0 4
S B0
0 6
0 3
16 55
0 2
0 6
23-0
0 2
-3 1
1 93
0 2
0 4
65 i
0 2
5
1 656
0 2
-0 6
23 ' 1
0 5
-1 4
•94
0 2
-0 4
£ 9 3
0 b
0 3
< 65 7
0 2
¦0 6
231 2
0 4
-1.7
M-
3
-------
Table M-l IContinued)
Measurement-Map Bias Statistics for Geomet Population-Based Radon Data

Measured

Geomet
Radon'

NLnoer
f'oCi/L)
Zf
195
0.2
-0 4
196
0 2
0 4
198
0.5
0 2
199
'. 1
0 3
200
0 2
0.4
201
0.2
•0.4
203
0 2
C 7
204
0.2
-0.4
205
0 4
0 0
206
0.2
-0.4
207
0.2
-0.7
208
0 4
0 1
209
0 2
¦0 4
2 1 0
0 2
0 4
2 * 1
0 3
0 5
£ ' 2
r ~
0 4
213
0 2
0 4
214
C 6
: 4
215
0 2
0 4
217
0.2
-0 7
218
0 2
-0 7
219
0 2
-0 7
220
C 2
-0 4
221
0 2
-0 7
222
0 2
0 7
231
0,7
0.2
232
0 2
-0 9
233
0 2
0 9
234
0 7
0 2
235
0 7
0 2
236
0 2
-0 9
237
0 2
• : 9
240
0.2
•C 9
24 1
0 9
0 5
24 7
0.5
-0 1
243
1 1
0 7
249
0.5
0 1
250
0 2
-0.9
25 1
0.2
C 9
252
0.2
-0 9
253
0 2
•0 7
254
0.2
- 0 7
255
0 4
•0 3
256
0 7
0 2
257
0 5
-0 1
253
0 2
-0 7
259
0.5
0 1
260
0 2
-0 7
261
0 2
0.7
263
0 2
¦03
264
0 2
0 7
265
0 5
0 4
2 6 7
0 4
0 3
Measured
Geomet P.irJcV
Nu-nber (pCi'Li
634
0 4 .
0 7
S36
0 ?
' 5
557
0 2
!
8 33
e ?
• 5
339
r' 0
'
390
0 2
¦ 5
39 1
0 2
0 3
392
2
. i k
393
0 2
¦ t 1
894
- 2
. ; c
900
0 2
1 5
902
5
} 1
903
0 7
0 '
905
0 2
1 6
906
0 2
' 6
9C>7
; 7
; -
90 8

' IT
9 1 3

0 2
9 1 6
2 3
1 2
91 7
0 2
¦0 4
9 1 S
0 7
0 2
9 1 3
0 2
•0 9
920
0 2
¦0 4
923
0 2
. ¦ 7
530
5 2
° 0
9 3 4
~ o
"¦¦ 3
940
0 2
0 0
¦3 4 2
0 2
i"; ^
94 3
0 2
0 0
94 5
0 2
0 2
0 5 3
¦; 7
" 3
960
0 4
'¦ ?
963
e

96 4
o ~
• £
968
...¦ j
' 6
9 75
3 1
¦0 2
976
0 2
! 1
979
3 2
j 9
980
: 7
" 4
982
0 2
. 1 7
983
0 9
0 6
98<
0 4
0 2
985
0 9
0 5
986
0 2
¦0 9
989
0 8
¦; 4
99 1
• 0
0 6
992
0.5
0 1
993
0.2
j 9
994
' 0
0 6
995
n j
0 2
996
0 2
• 1
997
0 4
-0 -
990
0 8
0 4
.VI-
Measured
Goomer Radon'
Njr-ioer ipCi/L) Zf
' 658
0 6
0 3
• 659
0 2
-0 6
1 66 0
0 2
r o
0 3
'671
;673
0 2
-1 1
¦ 1 1
1 6 7 4
0 5
0 1
' 6 7 5
1 4
1 0
* c* 7 0
0 2
1 '
! 67 7
0 2
-1 1
:673
0.2
1 1
16 79
0.7
0 3
1630
0 2
-1
' 63 1
0 2
-1 1
' -'8 2
0 2
¦ 1 1
'633
0 2
0 4
i C 3 -i
•*. P
0 4
1685
0 6
0 1
: 686
0 2
0 4
i 687
0 2
•0 4
1 68S
i i
0 6
1 689
0 2
-1 0
: 69 0
0 2
¦¦ 0
1691
0 2
« r>
- .
' 69 2
0 4
0 3
l 094
: 2
0 8
'696
0 2
¦0 £
' 697
0 2
' 0
'698
0 2
•l 0
699
0 2
0 8
, ~ r -
0 9
0 5
"0 1
C 2
0 4
70 2
0 2
i i
""0 3
0 2
¦0 4
"04
'J 4
- n 4
"06
0 2
0 3
?07
0 2
-0 4
"0 9
0 2
•1 1
1710
0 2
1 1
7 ¦ 1
2 4
6
7'2
1 5
1 1
713
0 9
0 5
7 i 4
2 3
' 6
715
0 6
0 1
716
0 5
0 3
71 7
0 2
1 1
718
0 6
0 4
7 1 9
0 5
0 3
720
0 2
¦0 4
72 1
0 6
0 4
722
0 2
0.4
725
0 9
0.5
727
4 6
2 4
728
0 2
-1 1

Measured

Goomet
R.-idon'

Number
icCi/Lj
Zf
23 1 3
0 2
•3 1
23 1 4
0 4
-1 7
03 1 7
0 2
-2 4
2318
' 2
-0 6
23 1 9
2 9
0 2
232 1
5 3
0 9
2 3 22
0.7
-2 1
2 3 23
1 5
-0 6
2324
0 2
-3 1
2325
2.9
0.2
2327
0 8
-1 4
2329
2 5
0 6
2331
2 1
-0 2
2332
£ 3
0 8
2333
0 2
3 1
2334
1 ?
. • 4
23 35
0 4
-0 5
2336
1 0
-1 1
2337
0 4
-2 2
23 33
0 2
0 4
2340
0 2
-0 3
23 4 1
0 2
¦0 3
2343
0.2
-10
2344
0.5
-2.5
2345
0 2
¦1 0
2346
0 2
-0 9
2343
0 4
¦0 4
2250
0 2
0 3
235 '
0 2
2 7
2352
1 4
0 4
2358
0 2
2 7
2 3 59
0 2
1 1
2 3 60
0 7
0 1
2361
0 6
4
2362
0 2
-2 7
2363
0 5
¦1 6
2 36 5
0 2
¦2 7
2367
0.2
2.7
2368
0 2
-3 5
2370
0 2
2 7
2371
0 2
-2 7
23 7 2
0 2
¦2 7
2373
0.4
¦1 8
2374
0 2
¦0 7
2375
0 2
2 7
2376
0 2
¦2 7
2373
0 2
£. !
2380
0 2
-2 7
2382
0 5
-1 6
2393
1 .2
1 5
2384
0 2
0 3
2386
0 2
-1 0
2387
0 2
-1 1
-------
Table M-l (Continued)
Measurement-Map Bias Statistics for (ieomet Population-Based Kadon Data

Measured


V-oas-j'sn


Measured


Measured

Gcomet
Raaon'

Geome;
nndoV

Gecnei
Sadon'

Geomet
Radar"

Nunber
fpCi/L)
Zt
Number
-pci/u
Zr
Number
i aCi/'L)
zt
Number
(pCi/L)
Zt
263
0 2
¦0.9
999
i i '
-*> ¦»
i
1 729
i 3
1 0
2388
0 2
¦2 7
269
0.6
0.6
1 001
0 8
0 4
1 73 1
0 9
0 5
2389
0.2
-1 0
2 70
0 2
, 0 9
1 002
f, ^
: 1
i 73 7
l 9
1 4
2390
0 2
-1 0
271
0.2
- 3 . /
1 C04
(L
j 9
17 3 3
i 7
1 3
2391
0 2
-1 1
273
0 2
¦C 7
1005
0 2
•G 9
1 734
1 5
1 1
2392
0 2
•3.4
274
0 2
-1 0
1 C06
') 2
j 9
1 7 3 5
0 2
1 1
2395
2.7
0.0
275
0 2
-o 7
1 C09
0 2

1 736
0 3
0 4
2398
1 .5
2 1
277
0 2
• 0
*.010
\j :
4
1 737
0 4
-0 4
2399
2 0
-C 8
278
0.2
0.7
1012
0 2
0 3
1 739
0 2
-0 4
2400
i 5.0
* 7
279
0 2
0.7
"013
- ~

1 7 4 0
0 2
-0 4
240 1
1 3
-1 0
2S0
0 4
-0.3
'014

; 2
1 74 1
0 2
1 0
2405
0 2
-1 7
283
0 2
0 7
'015
C 2

1 7 2
1 0
2408
0 2
1 7
235
0 2
0
• 01 7
"• £
0 2
' "4 5
0 2
1 0
2409
0 2
¦ 1 7
2S6
0 2
• • .0
'• 0 1 S
- 7
0 -
1 7 4/
0 2
1 0
24 10

' 7
2aa
0 2
-• 0
" 019
" 9
's
i 74 8
0 2
•1 0
24 1 3
0 2
.1.7
290
0 2
-0 7
'020
C 2
0 7
1 749
0 2
1 0
24 1 7
0 2
¦1 7
291
0 5
0 0
•022
C 2
0 7
i 750
0 5
-0 1
24 1 8
0 2
. i 7
293
0 2
0.7
1023
0 6
0 5
! 752
0 2
• 0
24 20
0 2
-1 7
294
0 2
•0 7
1024
* 0
' 0
1 753
0 4
0 3
2-22
0 2
1 9
295
0 2
-0 7
i 0?5
0 5
0 3
• 754
G 2
• ' 0
2428
0 2
-1.7
296
C 2
•0.7
1026
0 2
0 7
' 75 5
j ?
• 0
244 7
0 2
0 0
299
C. 2
•0 9
102 7
0 2
0 7
-; C 7
0 5
•0 1
24 4 3
0 8
0 6
300
: 2
0 3
10 2 8
' 0
1 0
• 75 3
0 2
-1 0
24 49
0 2
0 0
302
3 2
•2 C
1029
/\ .«
j w
0 0
• 759
1
0 ^
2450
0 2
0 4
303
0 2
-2 0
< G30
0 2
"7
'¦/
i 7 g o
0 4
-0 3
2-5 2
0 5
0 3
304
0 2
•2 C
1 032
0 5
0 4
1 76 1
0 2
¦i 0
24 53
0 2
-0 4
305
C 3
-0 4
1 035
0 2
0 7
1 7-3 2
0 8
0 3
2454
0 2
-0 4
306
C.5
-0 7
1 036
0 2
0 7
1 76 3
1 /
1 0
2455
0 2
-0 4
307
G 2
• 1 3
1 03 7
0 2
^ 7
V
; 75 5
0 4
0 3
2 4 56
0 2
•0 4
308
0.2
2 0
1 0 38
0 2
/"> "7
' 766
-n
¦1 C
2457
0 4
A 1
310
C 2
-1 3
1 G4 1
0 7
1 7
* 7 o 7
0 2
-1 C
24 58
0 8
C 6
3 1 1
0 °
i 0
1*42
C 2
c
i 7 a

1 0
2-159
0 2
0 4
3 1 2
C 2
-1 3
1 243
r\ c
J sj
0 -1
: 75c
0 2
* ' V
2461
0 7
0.5
313
0 7
¦C 6
i 0 4 5

" -i
1 "70
0 2
- ! 0
2462
0 2
0 0
314
0 2
•G 5
1 C w
0 2
.•
1 77 "
0 2
¦i 0
2468
0 6
0 3
315
0 2
-1 3
i 04 8
r 7
•0 *3
: 772
0 2
•1 0
2472
0 2
•0 4
317
0.2
-2.7
1 04 9
J d
0 S
1 7 73
: 0
0 5
24 73
0 2
-0 5
319
0 2
2 7
1 C50
0 7
~ 7
1 774
0 2
-1 0
2477
0.2
¦0 4
320
1 9
•CI
105 1
C 6
6
l 775
0 8
0 3
2478
0 2
-0 5
323
• 5
-0.4
1 052
j 2
: 7
1 777
0 2
•C 4
2482
1 0
1 5
325
0.2
2.7
• 054
- ?
¦ 5
1 778
0 2
-0 4
2483
0 2
-0 2
325
0.4
-¦ .9
" 055
C 5
3 5
1 7 79
C 2
-1 1
2484
0.2
0 2
327
0.2
? 7
•056
0 2

1 780
1 0
0 7
2485
0.2
-0 1
323
0 2
-2.7
•057
D 2
"V *7
1 78 1
0 2
-i 1
2486
0.2
0.3
330
0 5
¦ " 7
•059
- 2
. * '
1 782
0 2
-0 4
2487
0.5
0.9
331
14
-0.4
•059
' 3
0 1
i 783
1 6
1 2
2488
0.7
1 5
332
0 4
0 9
-.06 0
2 2
i 5
1 73 4
0 2
•1 1
2439
0 2
-0 1
333
0.2
2 7
106 '
0 2
2 1
1 785
0 9
0 4
249 1
0 2
0 1
334
0 2
0 0
• 05 2
0 2
¦2 1
1 785
0 2
-1 1
2492
0 2
¦0 2
335
0 6
¦0.5
1053
' 0
0 2
' 787
1 4
1 0
2493
0 2
•0.2
336
0 2
-1.B
1054
0 2
-2 1
' 783
4 1
2 2
2500
0 2
-1 5
337
0 s
0.1
106-3
0 2
0 5
1 78 9
0 2
-1 1
25C2
0 2
-1 3
-------
i'ablt' M-l (Continued)
Measurement-Map Bias
Statistics for
Ceomet Population-Based Radon Data

Measured


f.'.eastrtia


!'.'easurea


Measured

Georret
Racsr."

Geons!
3.noo-'

GeoTiet
S.qdon"

Geome;
Radon"

Mjmber
(sCi'Li
zt
Numbe'
(pCi'L'i
2"
"^mber
ipCi.'L)
Zt
Njmoer
(pCi/L)
Zt
333
0.2
0 2
1 056
0 2-
• 0
• 790
0 2
-0.4
2503
0 5
•0 5
339
0 2
0 2
1 C67
0 2
0 5
• 79 1
0 2
0 4
2504
0 6
-0 2
340
0 4
. "c 5
• 066
0 2
0 5
' 792
0 2
•0 4
2506
1 4
0 6
341
0 2
0 2
1 069
0 2
0 5
" 793
0 2
0.4
2507
1 2
0 5
342
0 2
-0.5
' 070
0 ?
. 1 Q
l 79 4
0 2
-0 4
2503
0 5
-0.4
343
0 2
-0 5
¦071
0 2
•0 5
1 795
0 4
¦0 4
25 12
0 2
-0 5
344
0.2
-2.7
i 072
4
-0 3
1 796
C 2
¦0 4
2514
0.2
-0.5
345
0 7
-0 3
• 073
***
0 5
1 79S
0 2
-1.1
25 1 8
0.2
-0 3
346
0.2
2.0
' 074
0 2
i •>
¦
1801
0 9
0 5
2519
0.2
-0 3
348
0.2
-1 3
1075
Z 2
• 1 C
1 305
1 8
1 2
2520
0.2
-0 2
349
0 2
-1 S
: 076
: 5
0 *
1 8 0 o
0 2
. t 1
252 1
2 3
1 6
350
C 2
-1 7
1077
r i
1 0
' 807
C 2
¦1 1
2522
0 6
0 6
351
0 2
¦ 1 9
107 3
C. 0
I o
1810
J 1
r, r,
2523
0 7
0 7
352
: 2
-1 3
1079
0 2
•' 0
1 3 ' 3
0 7
n.
2 5 24
0 4
0 3
353
0 2
. i g
10SC
0 4
: 3
1 % ' 4
0 4
: 3
2525
0 2
0 2
354
C 3
¦0 4
1 03
0 2
0
' B ' 5
0 2
-0 3
2526
0 2
¦0 2
355
0 2
0 5
10 3 2
0 2
' 0
' 3' 6
'! 2
0 3
2527
1 2
1
355
C. 2
-1 9
1033
0 2
' 0
13 17
0 2
0 3
2529
0 9
0.7
357
0 2
1 9
1 034
0 2
• 0
1 =' 8
0 4
0 0
2530
0 2
-0.2
358
0.2
-1 9
1 087
0 6
0 1
1319
0 2
¦0 7
2531
0 2
-0.5
359
0 2
-0 2
103 8
0 2
• 0
! 320
0 2
•0 7
2532
0 2
0 0
362
0.2
2.7
1 089
1 A
V
(.1 2
1 32 1
0 3
0 6
2533
0 2
0 0
363
0.2
0 0
1 090
0 2
¦' 5
1 322
0 5
0 0
2535
0.4
-0 1
364
0 2
0 0
1 091
("i 2
• 0
1 3 23
0 2
' 0
2537
0 2
-0 3
365
0 2
0 0
1 C 9 2
0 2
' 5
'325
0 2
¦0 3
2538
0 2
¦0.3
365
0 5
' 2
1 C93
A j
0 3
1 8 27
0 8
0 9
2539
0 2
-0 3
367
0.2
0 0
1 C94
0 5
'j 3
'329
0 2
0 3
254 0
1 3
1 4
363
0.2
•2.7
;095
r, ~
- i 5
' 830
0 5
0 5
254 1
0.2
-0 3
3 69
0 2
-.? 7
" C96
0 2
. i 5
' 83 1
1 4
1 4
2542
0 5
0 8
370
0 7
' 3
¦ 09 7
0 2
0 "
1 832
0 6
0 8
254 3
0 2
¦0 3
37'
0 S
0
' 098
2 7
0 2
' 83 3
I 2
1 1
25 4 4
0 2
-0 3
372
1 9
0 1
' 099
1 3
'J 3
1 834
0 5
0 5
254 5
0 4
0 4
375
1 2
-0 6
• 100
2 2
"
•836
0 5
0 5
2546
' 1
1 3
376
2.3
0. 1
'*01
2 ?
: 4
1837
0 2
0 3
2547
0 2
0 3
377
1 0
-OS
" 102
~ c
-0 7
1833
0 2
-0 3
2543
2.7
1 7
373
0.2
-1 7
1 103
2 r
? 4
'839
0 5
¦ r.
2549
0 2
n 2
330
0 2
0 0
• 104
C 2
•0 4
1840
0.2
¦0 3
2550
0 2
-0 2
331
0 2
0 0
¦ 105
; 4
0 1
184 <
0 2
0 3
2551
1 2
1 1
383
0 2
-2.7
1 105
0 8
0 6
134 3
0 7
0 8
2552
0 2
¦0 2
334
0 5
•1.7
1107
0 2
0 4
184 6
0 2
0 3
2553
0 4
0 3
385
0 2
-2 7
1 103
0 2
¦0 5
1 849
0 2
•C 3
2555
0 2
-0.2
336
0 5
¦ 1 4
1 1 OS
C 4
0 !
1 t-54
0 2
0 6
2556
0 8
0 8
388
0 2
¦2 7
1110
0 2
0 5
1 356
0 2
0 8
2557
0 2
-0.5
389
0 2
2 7
111'
0 7
0 5
l 857
0 5
0 2
2558
1 0
1 0
392
0 6
-1 4
11-2
0 5
0 4
i 858
0 2
-0 8
2560
0 2
0.2
393
0 2
-0 5
11-3
0 2
0 4
1 859
0 2
•0 8
256 1
0 9
0.9
394
C 2
-0 5
1114
0 4
0 3
i 360
0 2
-0 8
2562
2.0
1 5
395
0.2
0 5
1115
l 8
• 5
i 361
0 2
-0 8
256 3
0 2
-0.2
396
0.8
-1 '
11-6
0 2
•0 9
' 862
0 2
-0 3
2564
0.2
-0 2
397
0.2
-2.7
1 ' 1 7
0 5
0 1
i 863
0 7
1 7
2565
0 9
0.9
39B
0.6
-1 4
l"18
1 2
l 2
'86 5
U "~
0 7
2566
1 0
1 0
400
0 7
-1.3
¦ 119
r( r-
0 5
' 866
0 2
0 0
256 7
0.2
-0 2
401
0.6
0 3
1 1 20
0 2
¦0 5
1867
0 8
1 5
2568
0 2
-0 2
M- 6
-------
Table M-l (Continued)
Measurement-Map Bias Statistics for Geomel Population-Based Radon Data

Measured


f.' r. - c , -, . -¦


Measured


Measured

Georret
Rr:don*

Geo ne!
Rndci'

Gooirei
Radon'

Gesmel
Radon'

Number
i=Ci/L)
zt
Number
i pCi.V:
Zt
? Jumcor
.DC:/L)
Zt
Number
fpCi/L)
zt
<4 3 2
1 2
0 1
1 ' 21
¦J C .
;¦ 3
iS6 3
j S
I 0
2569
13
1 2
403
0 2
-¦ 8
1 ' 22
0 2
¦0 5
1 8 70
0 2
0 6
2570
0 9
0 9
4 0 7
0 2
¦i 9
l 23
0 2
5
187-,
0 2
•0 6
25 7 1
0 5
0 5
4 C 8
0.2
'9
1 24
C ^
1 5
18 72
0 2
0 6
2 5 7 2
0 2
-0 2
409
0 2
-' .9
1 125
0 2
•1 0
1673
0 2
-0 6
2573
0 2
-C.2
4 10
0 2
• 9
' 2 6
^ 7
5
1 51 «
0 2
¦0 8
25 74
0 2
0 2
4 * 1
0 2
-1 8
'' n 7
0 2
¦ 1 9
1 S75
0 7
C 7
2575
0.9
0.9
412
0 2
•' 9
112 6
3 2
2 0
i 376
0 2
0 8
2576
2 0
1 5
4 13
0.2
' 9
'129
10 0
3 3
1677
0 2
0 0
3577
0 2
0.2
4 1 4
0 2
•19
1 130
1 7 0
3 1
1 378
0 2
0.0
25 78
0 2
-0.2
4 1 5
0 2
* 9
- 131
0 4
• •
1879
0 2
0 1
2579
0 5
0.1
4 16
0 2
-• 9
'13 2
• 4
0 3
1 380
0 2
0 0
258 1
0 2
-' 5
4 1 7
C 2
-2 7
1133
0 2
• 9
1 38 1
0 2
0 0
25S4
2.2
0 0
4 ' 8
0 2
-0 7
' 134
•3 3
s 3
1 30 2
0 5
1 3
2585
: 2
-1 5
4 1 9
C 2
-0 7
112 5
0 5
; 9
' 3 3 3
' ; ?
A A,
2537
0 2
-1 5
•120
" 2
0 7
1 13 6
a c
¦ 9
: 33-1
0 2
¦0 6
2533
•>
¦1 5
- 2 1
0 7
o 4
112 7
0 2
• •-
i 335
0 2
0 5
2590
C 5
0 1
423
C 2
-0 7
1133
0 2
• 9
' 38 6
0 2
¦9 6
25 9 2
1 5
0 9
425
0. 2
0 5
1 139
1 0
0 4
'.38?
3 2
0 5
2593
C.2
-0 7
425
2.5
• 3
1 1 40
2 0
<*> 7
' 83S
C 2
0 3
2594
0 4
0 0
427
0.2
¦0 4
114'
3 6
1 4
' 889
r; 2
0 3
2595
1 7
1 0
429
1 .2
2
1142
2 3
0 3
1 890
0 2
0 '
2597
02
•0 7
431
0 2
¦0 2
1143
2 2
0 3
1 89 1
C 2
0 1
2598
13
0 8
432
3.0
0 9
1 1 44
0 2
. 0 a.
1 3 ''
0 2
0 0
2599
0 4
0 0
4 33
2. 6
• 0
1145
0 2
• ? J
1393
C 2
-0 6
2002
0 4
0 1
435
2.4
0.7
1 ' 46
V 9
0 1
139 6
2
0 1
2603
0 ?
0 7
<236
1 2
0 7
1 -.4 7
j 9

1897
0 2
0 3
260 4
4 2
2.6
437
0 7
• : 2
1 148
1 2
4
' 8 9 8
0 7
2 0
2605
2 3
' 3
438
1 8
1 0
1 -49
0 2
1 *.
1 90 2
0 2
0 4
2606
21
1 9
439
0 4
T. /
1 • 50
0 7
0 5
1 90 3
0 2
c 0
2607
0 2
-0 7
44 1
2.0
i 1
115 1
" 2
¦2 4
1 906
0 2
0 8
2608
1 1
0.7
442
10
0 0
1 '52
: 9
1.'
1 907
0 2
0 0
2609
1 7
1 .0
445
1.2
0.2
' i53
' 3

! 90S
9 2
-7
V
26 i 0
0 4
0. 1
446
5 1
1 3
1 154
:. 7
~ y
1 9 ' 0
0 2
-0 6
2b 1 1
0 2
-0 8
447
6 1
' 4
1 ' 55

v 2
1911
0 2
0 6
26 1 2
1 2
0.9
443
1 1
0 1
' '56
0 2
\ y
19*2
0 2
-0 6
25 1 3
0 2
-0 8
449
1.6
0 9
• 1 5 7
0 2
i u
19*3
0 2
¦0 6
26 1 4
0 2
0 5
451
1.6
0 9
' '56
0 2
1 O
19 14
0 2
-0 6
26 1 5
0 2
•0.8
452
0 4
0 1
' '59
1 3
• 3
: 31 5
0 2
¦0 6
26 1 6
0 2
-0.8
453
0 2
-0 3
' 160
'J
0.7
1 9 1 6
1 0
1 tL
26 1 7
0.2
-0 a
454
0 2
-0.3
'.16 1
2 2
'¦ 6
1917
; 1
1 9
26 1 8
0 2
-0 5
4 56
0 7
0 6
' '62
: 9

1918
1 3
1 5
26 1 9
0 2
-0 5
459
2.4
1 7
' 153

0 3
19 19
0 2
0 0
2620
0 2
0 8
4 60
2 4
1 3
' 164
^ G
' 9
1 92 1
0 6
1 0
232 1
0.5
0 1
461
1 7
1 0
116 5
' 0
' 0
' 923
0 2
0 0
2622
0.2
-0 8
462
7 5
t 9
113 5
• 7
5
; 924
0 2
¦0 6
2623
0.2
-0 8
463
0.7
0.2
1 157
0 2
0 6
' 925
0 7
0 8
2624
0 4
¦0. 1
464
1 9
0 5
1 153
1 1
1 1
' 926
C 6
0 6
2626
0.5
0.1
465
0 2
¦ 1 9
1169
2 3
1 S
• 92 7
0 4
0 2
2627
1 3
1 0
477
C 7
0 5
1 1 70
1 5
: 4
'¦92 9
0 9
0 7
2628
1 2
0.9
478
0 2
-0 6
1171
0 7
C 7
'¦ 930
0 4
0 2
2629
31
1 8
481
2.9
2 0
1 1 72
1 ?
' 6
'93 2
0 7
C 5
2630
C 2
-0 8
485
0 2
-0 6
1 1 73
1 6
1 s
'93 3
0 2
•0 6
263 1
0 2
-0.8
M- 7
-------
Table M-l (Continued)
Measurement-Map Bias Statistics for Geomet Population-Based Radon Data

Measured





Moasured


Measured

jioorret
Psaor.'

Goo ii ot
3adon'

Gt-'Ont!
S:;dOfV

Geo not
reason'

^mser
(oCi/L)
Zt
Number
i pCi :
Zt
Number
• pC./Ll
7-
N'urrber
i cCi'L)
Zt
•••88
0 9
0 9
1 1 74
r.
i •;<
1 9 2 4
0 2
0 6
25 3 3
0 8
0 4
485
3. 1
• 0
1 '.75
0 7

1935
0 7
0 S
2636
*. 1
0 5
¦'.9 0
" 9
0 f)
i 1 76
' 7
< 5
' 9 3 6
: ?
'j 8
26 3 3
0 2
0 6
4 9 1
2.3
0 7
1177
- ?
2 4
' 93 7
C 2
1 4
25 4 1
0 7
0 3
492
5 6
' 6
1 ' 78
r 2
0 G
'938
0 2
• 1 4
26 49
1 4
0 9
493
' 7
0 3
1 ' 79
C 2
"¦ 6
'.939
0 2
i ^
26 50
1 3
C 8
494
1 1
0 1
1 "80
t 0
1 0
'¦ 940
0 6
n >
V
26 54
0 9
0 5
495
0.9
¦C 3
• «8 t
C 9
0 2
154'
0 2
¦ 1 4
2655
0 2
: 0
495
0.7
•0.6
1 182
C 5
0 3
1942
0 4
-0 5
26 56
0 2
•0 8
497
0 2
¦ ', 9
1 '85
: 4
" "7
04 3
0 2
1 4
2657
0 2
0 8
4 9 8
'5 C
2 7
" "85
? ">
I 4
1 34 4
0 2
¦ 1 4
2658
0 2
-0 7
4 9 9
2 7
0 3
• '9 1
* •>
7 7
194 5
0 2
1 4
2659
0 2
-0 7
5 0 0
¦o 0
2 2
'"92
"i 2
0 9
' 946
0 2
1 4
266 1
0 2
¦' l
C ^ 1
7 4
l 9
''93
O
0 7
' ^4 7
'i 2
4
• 6 6 2
0 2
' l
50 2
0 7
¦0 6
• < 94
3 2
- 7
13 4 8
0 4
¦0 1
2663
0 2
¦' 0
50 3
1 0
0 6
"'95
• 0
¦ 4
'. - 4 9
J 4
: 1
2 66 4
0 ~
• i
5 05
2 4
1 3
' 196

0 4
• 9 50
. c
. ' 4
2665
P "»
0 2
503
3.S
1 3
1 195
0 6
0 1
: 95 1
0 2
' 8
266 7
0 4
0 4
509
0 9
0 5
1 '99
T
0 4
1952
0 2
•i 3
2668
0 5
0 1
5 1 0
0.2
' 7
• 200
0 2
0 7
' 953
0 2
' 8
2669
0 4
0 4
5 1 1
0.2
•0 8
' 20 1
0 2
0 8
554
0 5
0 3
2671
0 2
. 1 1
5 1 2
0 2
' 9
' 20 3
"> 2
0 8
'955
f! 5
0 1
2 6 73
0 2
¦ ' 0
5 ' 3
0 2
0.5
' 207
0 ?
0 1
'• 3 56
0 6
0 3
26 74
l 0
0 5
5 1 4
0 5
0 7
' 203
0 2
•C 6
: 957
0 2
¦ 0 6
2676
0 2
' ^
; • 5
0 7
0 1
12 0 9
0 4
j :
' 9 58
2
'3 0
2 6 7 7
0 2
0
5 4 6
0 2
• 
-------
Tubli: iVI-1 (Continued)
Measurement-Map Bias Statistics for Ceomet Population-Based Radon Data

Measured


Men sure d


N'c-asorcd


Measured

Geomet
Radon"

Geomet
P~cor"

Geonet
Radon"

Geomet
Radon"

Number
(pC./L)
It
Number
icCi'Li
7 ~
Ni.rrber
ipCi/L'i
zt
K-ijriDer
(pCi/L)
zt
560
3 6
0 4
1258
0 2-
• 0
2 CO 7
0.2
-1 2
2710
0 2
-0.4
561
0.6
0 4
! 250
0 2
0 9
2008
0 2
-1 2
271 1
0 2
-1 1
562
0.9
C 8
1262
0
0 9
2 009
0 2
¦ 2
2712
C 6
0 1
563
C.4
CO
1263
0 8
0 3
20 10
0 7
0 6
2714
0.7
0.3
565
0.5
0 1
l 264
1 2

201 1
0 2
0 4
2715
0 2
1 1
566
• 9
' 2
1 265
0 6
0 2
20 1 4
0 7
0.3
27 16
G 2
-0 4
567
1 3
0 8
1267
0 £
0 0
2015
0 ~
-i 2
2725
0 2
1 5
56 9
0 2
1 .3
1 2 75
0 2
1 0
20*3
C 4
0 3
2730
0 5
0 5
570
• .9
" 7
1 278
0 2
: 0
2017
0 2
¦" 2
2733
C 2
-1 5
571
0.2
-C 7
1 279
0 5
3 1
201 S
0 2
" 2
274 0
0.2
-1 7
572
0.8
0 3
1 282
<"< y
• 1 3
201 3
0 8
0 2
2747
0 9
C 3
574
0 2
• 3
1 283
0 2
0
202 C
0 2
1 6
2753
0 2
1 4
575
0 4
-0 5
' 284
- 2
» 2
2021
C 6
0 3
2759
C 2
-1 4
577
1 7
1 1
¦ 2S5
"*¦ 2
• ^
2023
C 4
-1 5
27S0
' .5
0 3
573
1 0
0 5
' 286
3 2

2030
C 7
0 3
2 76 2
0 5
0 5
579
0 2
' 3
' ?S S
3 ?

2 03 3
0 ?
1 6
2763
0 S
C 1
5 6 2
15
•• 3
' 29 1
5
j
2 0 3 4
0 2
i i
2 76 7
0 4
0.7
533
0 9
0 4
- 293
"¦


0 5
0 '
2 768
0 2
-1 6
534
0 2
-1.3
1 254
3 7
2
2036
0 2
i *
2769
0.3
0.1
585
0 5
-0 3
' 296
C 2
2 S
2038
0 5
-0 '
2770
0 2
-1 6
536
1 0
0 5
' 29 7
0
• 7
? 0 4 '
0 2
1 *1
2772
0 2
0 8
587
e a
0 3
1 2S3
y
3 6
2C4 2
0 4
-C 4
2773
0 2
-0 5
595
tL '•
1 3
1 299
0 2
0
2 04 3
0 5
C 1
2 774
0 5
0.0
596
1 1
0 7
1 300
3 2
¦: 6
2 04 4
0.2
-2 3
27 75
0 2
0.8
605
0 2
¦7. 2
1 30 1
0 2
3 6
2 046
1 5
i 0
2776
: 2
-0 8
6 06
0 2
¦ 1 7
1 3C 6
0 2
•3 6
2 0 4 8
0 6
0 3
2777
0 2
•0 9
607
C. 2
-1 7
1 3 C 7
0 5
r; 2
2 C 4 9
0 2
¦0 5
2 7 78
0 2
-0.3
608
0 2
-1 7
1 3C8
0 2
C 6
20 51
0 3
¦C 2
2779
0 2
-1 1
609
0 2
-1 7
1 309
0 2
¦0 6
2052
0 2
• 5
278 1
C 2
0 3
6 1 0
C 2
i -J
1310
0 3
0 -3
2 0 54
0 2

2782
0 4
0 3
6 1 1
e 2
1 7
1 3' 2
0 7
•0 7
7 C 5 5

' 1
2763
C 2
-1 i
6 ! 2
C 2
. 1 7
1 3 ' 4
? n
-
2056
1 C
0 s
2 7 8 4
C 2
0 8
6 1 3
• 2
c* <
13"5
• ?

*05 7
0 4
0 0
2 7 £ *
0 2
¦ 1 1
6 1 4
' 9
C 5
1 3 " 5
3 3
'$
2 05-0
0 2
* '>1
2736
0 4
0 2
615
0 2
1 7
13-7
1 -!
1 -4
'060
" 3
'J
9 7.3 7
0 2
•j 3
616
0 4
-1 0
1319
fi 3
0 5
205 2
C 2
3 1
2788
0 2
0 3
617
' 0
0 1
1 320
1 ^
1 -3
2 06 5
0 2
1 2
2739
0.2
1 3
6 18
3 6
- 2
1321
0 5
0 c
206 j
3 2
-2 0
2790
1 2
C 8
619
0.2
: 7
1 322
0 n
3 3
2070
5 5
2 0
2791
0 2
-C 3
620
0.2
- \ 7
1 323
'¦) r
i. »
• Q
20 7
• 5
C 6
2 79 2
0 2
-".3
621
: 6
0 4
1 324
0 2
•0 >3
2072
0 4
-0 9
2793
1.1
0.9
622
0 2
- • 7
< 328
3 2
0 3
20 73
• 5
0 1
2796
0 4
¦0 2
623
0 2
-• 7
•: 329
3 7
3 7
2075
• 0
j '
2 797
0 2
OS
624
0 4
' 0
1 330
J -5
C -4
2076
0 8
0 1
2798
0 2
-0 8
625
0 2
-' 7
1 33 1
3 6
3 3
203'
1 8
0 8
2799
1 3
0 9
626
1 3
0 2
• 332
-•
3 5
2032
3 0
< 9
2800
0 2
¦03
627
2 2
0 7
• 333
1 5
1 5
2036
0 S
0 2
2801
0 2
0 1
623
0 2
1 7
' 33 4
3 3
•7 6
2088
1 2
0 0
2803
0.2
¦0 8
629
2 3
0 7
' 335
, 5
' 5
2 089
0 2
< 6
2804
C 2
¦0 9
630
0 2
¦ 1 7
1336
- 5
' 5
209 2
0.2
-' 0
2805
C 2
0 3
6 3 1
0 2
-1 7
1 337
r o
3 6
2096
0.2
• 0
2906
0 9
0 5
63 2
0 8
-0 3
1 333
3 7
2 5
2098
0 5
0 4
2S08
0.7
0 3
533
0 5
-0 3
1343
0 &
-C 5
2C99
0 2
0 3
2S 1 i
0 8
0 4
M- 9
-------
Table M-l (Continued)
Measurement-Map Bias Statistics for Geomet Population-Based Radon Data

Measured


Vloasurno


.leasyred


Measured

Geomet
Fadon"

Gscmet
F.-.cor'

oCOniO!
Radon"

Geomet
Radon'

Number
• pCi/'L)
Zt
Number
icCi-'L)
7~
"Jjmber
IpCi.'L!
Zt
Number
!pC;/Ll
zt
634
0 4
- 1 0
l 34 5
1 S
, 2
2 100
0 2
¦0 3
28 1 2
0 4
-0 3
635
C. 2
1 7
1 346
4 8
2 4
2101
C 2
0 7
2814
0 5
0 0
635
0 2
7
1 347
0 .?
. >
2 102
0 4
0 2
23 1 5
C 6
-0 3
637
0 9
' -0 2
1 348
- S
„ 4
2 10 3
0 2
0 3
23 i 6
0 2
-1 6
638
0.7
•0 4
1 349
1 5
: C
2 104
0 2
•0.7
281 7
0 2
-1 5
639
1 .5
0 3
l 350
0 2
1 3
2 105
0 2
0 4
2818
0 2
-1 6
640
2.0
0 6
1 35 1
0 4
0 c
2 106
0 2
•0 3
28 19
1 1
0 4
64 1
0 2
-1.7
1 352
:• ?
-' 3
2 10 7
0 2
¦ u /
2320
0 7
-0 1
642
2.2
0.7
1 353
1 c
0 6
2 108
0 2
0 3
2321
0.5
0 4
54 3
0 5
-0 8
" 355
'*•
C 2
2 1 09
0 9
0 9
2322
0 2
-0 7
644
0 2
' 7
i 356
J u
0 5
2 110
0 2
0 7
2823
0 2
¦0 7
645
0 2
- ' 7
1 359
I 2
: 0
2 h •
0.2
0 3
2324
0 4
0.1
6 4 6
0 2
¦ ' 7
' 361
Z 2
0 5
2 1"2
0 5
0 4
28 2 5
0 2
-1.2
547
0 2
. • 7
' 365
C 5
- p
2113
0 2
•0 3
2826
0 6
0 0
64 8
0 7
0 4
' 36c
3 3
' 3
2 1 1 4
0 2
C 3
2828
0 2
-0 1
649
0 4
• 0
' 36 7
• 7

?! ' 5
A ~
•C 3
28 29
0 2
-0 8
6 50
0 2
- 1 7
• 3 7 3
6
2
2 116
0 2
0 3
28 30
0 2
0 3
551
0 2
• 7
• 374
C 2
.J 'j
o h 7
0 2
0 7
2831
o a
0 4
652
C 2
-1.7
1 375
" 4
¦ 0
2 1 1 8
c c
1 9
2332
0 2
•1.2
653
0 4
-i.O
• 37 7
' 5
' I
2119
0 5
0 2
2333
0 6
1 5
654
0 2
¦ 7
• 33 2
0 4
0 1
2 1 20
o 5
0 2
2834
0 2
' 1
655
0 2
-1.7
1333

2 3
2*21
0 2
•0 7
23 3 5
0 6
0 2
656
C 5
0 8
1 36 4
3 2
2 7
2122
0 2
¦0 7
28 3 6
0 2
0.1
657
3 2
-1 7
1335
t\ '
0 4
2 1 23
¦J 2
0 7
2637
1 0
0 7
658
3 4
• 1 0
1387
0 2
0 -
; • 24
;*] 2
r* "7
¦
2844
0 2
•0.3
659
' .3
C 2
1 390
2 1
7 9
? ' 25
0 2
¦0 7
20 50
1 1
0 9
660
3 2
-1 7
1 33 '

'1 J
2 125
0 2
•0 7
2854
0 2
-0 9
66 1
0 5
-0 8
1 392
2 1
! 9
? 1 27
0 2
0 7
28 55
0 2
¦0 9
662
C.2
1 7
1393
2 4
0 7
2 12 5
C 2
0 7
23 56
0 4
0 1
663
: 4
-10
1 394
1 3
0 0
2129
0 2
¦0 7
2 i 5 7
0 8
0 5
664
0.2
1 7
1 395
\ s
'i 2
2 1 3 C
2
¦0 3
2858
1 0
0 7
665
2 5
*0 1
I 395
2. 1
0 5
2131
r, o
¦0 7
2860
0 7
0 4
666
• 6
0 7
1 397

'i ¦"
2 1 3 2
0 4
0 0
28 6 2
0 5
0 0
667
2. 1
C 6
1 399
_I £
' 4

C 2
0 7
2363
0 2
•0 9
668
0.6
0 6
1 400
n p
2 2
2 13 4
0 c
0 7
2364
0 5
-0 1
669
' 5
0 3
1 40 1
I 0
: 7
2 135
0 2
•0 7
2866
0 c
0 0
6 70
2 8
0 9
! 40 2
0

2 136
0 2
¦0 7
2867
0 2
-0.9
671
0 2
-1.7
1 403
C 7
0 2
2 137
0 2
r,
2868
0 2
0 9
672
0 2
-1 7
1 404
1 2
: 3
2 1 33
0 2
•0 7
2871
0.8
0 5
673
2 9
0 8
1 405
6 4
3
2 139
0 2
•0 7
2873
0 2
-0 7
674
5.3
' 6
1 406
1 •
¦-* ' j
2 14 0
0 2
1 0
2874
0 2
-0.9
675
1 8
0 2
' 403
7 0
2 0
2 14 1
0 8
0 6
2875
0 2
-0.7
678
0 6
0 6
* 409
C 2
2 2
2142
0 2
0 7
2879
0 2
-0 9
681
0.8
1 1
14 10
;¦ 5
; •
2 143
0 2
0 4
2884
0 2
-0.3
587
0 4
0.2
14 11
4 2
• 7
d ^ 4 4
0 4
0 2
2S9 1
0 2
0 8
690
0 2
-' 7
'413
i 2
0 6
2145
0 2
0 4
2598
0 5
-0 4
695
0 2
V5
14 14
0 5
' 1
2 1 4 6
0 2
-0 7



'Indoor racor treasured wit1-
charcoal c
-nstors







tWeasurement-nap oias stat
stic. Z - [
niRn npas
! 111 3 n
m-'pi) ¦ sqr
[ln(G:noa
s)"2 -
in(GmaO;'2J


.M-10
-------
APPENDIX N
MEASUREMENT-MAP BIAS STATISTICS FOR
GEOMET HRS RESIDENTIAL RADON MEASUREMENTS
Table N-l Measurement-Map Bias Statistics for HRS Residential Radon Measurements

Measured


N^ess-'ed


Measured


Measured

ZIP
Radon'

TP
Radcv

TP
Radon"

ZIP
Radon'

Code
(pCi/L)
Zt
Code
loCi'V.
Zt
Code
f=Ci'U
zt
Code
(pCi'L)
Zt
32034
1 0
C 7
32789
0 4
0 4
33324
6 1
1.7
33629
0.3
-0.2
32034
0 4
•0 2
32789
0 4
¦0 4
33324
7 4
2 0
33629
08
0.6
32034
1.9
12
32789
0 9'
C 5
33324
5 2
1.6
33629
0 6
0 3
32034
0.8
0 5
32789
£
r «
33324
3 9
1 2
33629
0 4
0 0
32034
12
0.8
32789
0 4
¦0 4
33324
5 9
1 7
33629
0 5
0 2
32034
1.4
1.0
32789
C 5
-0 1
33324
5 5
16
33629
1 8
1 2
32034
1 0
0.7
32789
0 5
¦0 1
33324
5 9
1 7
33629
1 3
1 0
32034
0.9
0 6
32789
0 7
0 3
33324
5 9
1 7
33629
0 9
0 7
32034
0.6
0 2
32789
0 7
C 3
33324
8 6
2 1
33629
0 3
-0 2
32043
0 8
0 3
3278S
0 4
¦0 4
33324
5 2
15
33629
0 7
0 5
32055
0 3
-0 8
32789
0 7
C 3
33324
8 5
2.1
33629
0 7
0,5
32055
1 5
0 9
32783
0 7
C 3
33324
5 7
1 8
33629
1.2
0 9
32055
0 7
0 0
32789
3 2
2 0
33324
S 3
2 2
33629
0.3
-0 2
32055
0 5
0 3
32 78 S
C 5
•C 1
33324
1 1 2
2 4
33629
C.5
0 2
32055
1.4
0 8
32789
0.7
0 3
33324
7 3
1 9
33629
C 4
CO
32055
1 2
0 6
32752
0 8
0 5
33324
4 '
1 3
33629
C 5
0 2
32058
2 3
1.3
3 2 75 2
2
0 9
33324
c 6
i 3
33629
C 3
¦0 2
32060
2 0
0 9
3 279 2
0 4
C 1
33324
3 6
2 1
33629
C 5
0 2
32065
1 2
0 8
32732
2.2
1 5
33324
2 8
0 9
33629
0 5
0.2
32065
2 6
1 5
32792
0 8
0 5
33324
4 5
1 4
33629
0.3
-0 2
32068
0 8
0 2
32792
0 5
0 1
33324
3 3
1 0
33529
0 3
•C 2
32068
1 7
1 0
327S2
0 5
0 1
33324
4 9
1 5
33629
1 3
1 0
32068
C 6
¦0 1
32792
0 2
C 8
33324
5 2
1 6
33629
C.9
0 7
32C71
0 7
-0 4
32801
0 7
C 3
3 3324
3 5
' 1
33629
1 3
1 0
32073
C 2
¦0 8
328C «
0 7
0 3
33324
7 ^
2 0
33529
0 9
0 7
32073
0 9
0 7
32801
0 7
0 3
33324
• 7
G 3
33629
0 6
0 3
32073
C 3
-0 4
32801
0 7
0 3
33324
3 5
1 1
33629
0 6
0 3
32073
1 4
1 2
32801
0 9
0 5
33324
0 6
1 0
33629
0 8
0 6
32073
C 3
¦0 4
3230 1
1 0
0 7
33324
1 1
0 2
33629
0 3
0 2
32073
0 5
o •
32303
0 4
0 2
33325
0 5
• 6
33634
1 0
0 8
32073
• .4
1 2
32 = 03
0 9
C 6
33325
0 6
4
33634
0 8
0 6
32073
C.8
C 6
32803
5 C
£ 4
33325
1 0
0 8
33634
1 7
1 3
32073
C 2
-0 3
32903
A £
A -J
33355
1 0
¦0 8
33634
1.2
0 9
32073
0.2
•0 8
32303
0 5
0 C
3 3325
1 0
-0 8
33634
2 2
1.5
32073
C 9
C 7
32803
0 5
" 0
33325
i 0
0 8
33634
0 3
-0.3
32073
0 2
-0 8
32303
0 £
j 0
33325
3 2
0 6
33634
0 6
0 3
32073
0 9
0 7
32303
2 ¦"
i 7
33325
1 6
0 3
33634
0 7
0 4
32073
0 4
0 1
32803
C 7
: 3
33325
1 5
0 3
33634
0 9
0 7
32073
0 6
0 3
32803
1 0
~ 7
33326
0 5
-0 7
33634
1 3
1 0
32073
0 7
0 5
32803
2 3
1 6
33326
0 5
-12
33635
1 1
1 0
32073
1 0
0.8
32803
0 4
¦0 2
33326
0 3
-1 8
33635
0 4
0 2
32073
0 7
0 5
3 2 80 3
2 3
' 8
33326
1 9
0 3
33635
0 9
0 8
32082
1 6
1. 1
32803
3 ¦
1 9
33326
1 9
0 3
33635
1 6
1.3
32082
0 6
0,1
32803
1 2
C 9
33326
0 3
1 8
33635
1 7
1 4
32082
0 8
0 4
32804
1 7
1 2
33326
0 5
-1 2
33635
0 4
0.2
32082
1.7
1.1
32804
¦ 4
• 0
33326
1 C
•0 4
33635
10
0 9
32082
0.3
-0.6
32804
4 3
2 2
33328
2 1
0 5
33635
1 .1
1 0
32082
0 3
0 6
32804
6 5
2 6
33326
1 2
0 2
33635
0 9
08
32082
1 5
1 0
32804
i -J
1 2
33326
1 3
0 1
33635
1.2
•. 1
32082
0 7
0 2
32804
' 7
l 2
33326
1 2
•0 2
33637
0 6
0.1
32082
1 5
1 0
32804
C 3
C 5
3-3 326
C 8
0 7
33637
0.7
0 2
32082
2 5
1 5
32804
0 6
0 2
33326
1
•0 3
33647
C.8
1 1
32082
0 7
0 2
328C4
0 9
0 6
3 3326
C 6
1 0
33647
0 6
0 8
32082
0 9
0 5
328C4
0 3
-C 5
33326
C 5
•1.2
33647
0 9
12
N-l
-------
Table N-1 (Continued)
Measurement-Map Bias Statistics for HRS Residential Radon Measurements

Measured


Measured


Measured


Measured

TP
Radon*

ZP
Rsdon'

ZIP
Radon"

ZIP
Radon'

Code
(pCi/L)
Zt
Code
i oCi/L)
Zt
Code
Dot' L !
Zt
Code
(pCi/L)
Zt
32032
0.5
-0.1
32804
0 4
-C 2
33328
0 9
0 2
33647
0 9
1 2
32C84
0 4
-0 3
32804
0 2
-0 9
3 3 3 2 S
0 4
-1.1
33647
1 8
1 .9
32081
0 s
0.4
32806
¦ 3
- Q
3 3323
0 6
¦0 6
33647
0.6
0.8
32086
1 1
0 9
32806
3
2 3
3 3323
0 6
-0 6
3364 7
0 9
1 2
32086
5 3
2 6
32806
2 6
1 7
33328
0 2
-1 9
33647
0 6
0 8
32C86
1 5
1 2
32805
0 7
0 3
33328
1 5
0 4
33647
0.5
0.7
32086
0 6
C 3
32806
l 2
0 9
33328
1 1
0 1
33647
0 6
0 8
32095
17
1 3
32S06
0 2
••• 1
33330
0 3
-2 2
33647
0.8
1.1
321 10
0 5
: 2
32306
0 5
•0 t
33330
C 8
-1 1
33647
1.1
1 4
321 14
0 9
0.8
32606
4 0
2.2
33330
1 2
0 6
33647
0.7
1 .0
321 14
0.5
0 3
32306
6 2
2 7
33330
0 7
•1 2
33647
10
13
321 14
0 8
0 7
32306
OS
0.4
33330
2.0
0 0
33647
0.7
1 .0
32114
0.7
0.6
32806
0 7
0 3
33330
0 5
-1 6
33647
0.7
1.0
32114
0.7
C.6
32806
l 0
')
33330
0 9
C 9
33647
0 6
0 8
321 14
C 7
0.6
32806
2 7
1 3
3333 '
0 9
0 7
33647
0 6
0.8
32114
0.9
0 8
32307
0 3
A 2
3 3331
0 5
•l 3
33647
1 0
1 3
32114
0.8
0 7
32307
2 3
: 5
33332
• 0
^ 0
336 4 7
2.0
2.0
32114
0 5
0 3
32807
i 1

33334
0 3
•0 5
3364 7
0 9
1 2
321 14
0.6
0.4
32807
1 4

33334
1 .3
1 1
33647
0 4
0 4
32113
0 5
-C 2
32807
C 3
¦0 2
33334
0 6
0 3
33647
0 8
1 1
32118
0.7
0.2
32807
2.8
5 6
33334
0 6
0.3
33647
0 3
0 2
32118
1 0
0 6
32807
1 0
3 8
33334
0 4
0 2
33647
1 2
1 5
321 19
0.7
0 5
32807
• 3
• 0
33351
1 6
-0 3
33647
1 3
1 5
32119
0 2
-0.6
3 2809
3 '•
: 8
33351
0.5
-1.6
33647
13
1 9
32119
0.8
0 6
32800
0 3
2
33351
2 2
0 1
33647
0 9
i 2
321 24
0.5
0.9
328CS
0 4
0 1
3340 1
0 2
0.7
3364 7
0 6
0 8
321 24
0 3
0 3
32809
7
0 5
3 3403
0 9
1 2
33647
' 4
! 6
321 24
0 4
0 5
32810
0 5
0 0
33403
4 8
2 9
33647
' 6
1.7
321 27
0 2
-o a
328 1 0
0 8
0 4
3 3405
0 2
-0 5
33647
0 8
1.1
321 27
t 1
0 7
3 28'. 0
0 6
0 2
33405
0 2
0 5
33647
0 3
0 0
32127
0 7
0 3
328 1 0
- 2
0 8
33405
0 3
0 3
33647
0 3
0.2
321 27
0 7
0 3
328' 0
1 '
0 7
33406
1 0
l 5
33647
0 9
1 2
321 27
0 5
3 C
325* 0
0 3
0 4
33407
0 3
0 0
33647
1.8
1 9
32130
2 0
1 7
3291 1
0 4
0 1
3 3407
C 5
0 6
33547
1 0
1.3
321 37
1 5
1 2
3281
0 3
¦0 1
3 3407
0 5
0 6
336 4 7
0 8
1 1
32159
0 9
0 5
3281 1
0 5
0 5
33407
0 3
C 0
336 4 7
0.6
0 8
32169
0 2
-0.1
3281 1
0 6
0 5
33407
1 4
1 7
33647
0 2
•0.2
32169
0.5
0 9
3281 2
0 8
C) 5
33407
0 3
0 0
336 4 7
1. S
1 7
32169
0 5
0.8
328' 2
1 4
1 2
33408
0 2
-0 6
33647
2 1
2 0
32169
C 2
0 1
326-2
0 7
0 5
33408
0 5
0 3
33647
1 3
1 5
32169
C.6
1
32812
1 7
i 3
334C8
0 5
0 3
33647
1 3
1 5
321 74
0 7
0 7
3231 2
0 4
0 1
3 34 03
0 4
0 1
33647
0 5
0 7
321 74
C 2
-0 5
32312
0 2
0 8
33408
0 5
0 3
33647
1 4
1 6
321 74
0 9
C 9
32812
0 5
0 3
33408
0 2
-0 6
33647
0 3
0 2
321 74
0.4
0.2
32813
1 4
1 1
33408
2 3
J 8
33647
I 1
1.4
321 74
05
0.4
32813
C c
0 3
33408
0 3
-0 2
33647
1 6
1.7
32174
C 3
-0 1
32815
n 7
Vj .
T
»./ /
33408
0 4
0.1
33647
0.9
12
321 74
0.8
0.8
32815
0 5
0 4
33409
0 3
0 1
33647
0 3
0 2
32174
0.4
0 2
3281 7
l 3
i 0
33409
2 3
2 4
33647
2.1
2.0
32174
0 2
0.5
3281 7
^ *
t.
• 5
3 3 409
0 5
0 7
33647
1 6
1 .7
32174
0 7
0.7
3281 7
" 0
c j
3 34 10
1 3
1 6
33647
1 8
1.9
321 74
1 .1
1 1
3281 7
2.5
• 7
334 10
2 6
2 2
33647
0 5
0.7
321 74
1 .4
14
3281 7
0 6
0 1
33410
2 5
2 2
33547
2.2
2.0
321 74
0,4
0 2
3281 7
0 5
0 1
33410
1 6
1 8
33647
1 8
19
N- 2
-------
Table N-l (Continued)
Measurement-Map Bias Statistics for HRS Residential Radon Measurements
ZIP
Code
Measured
Radon'
i'qC/L)
zt
ZP
Code
IVeas-'oc
Radcn'
( p C r I!
7 +
TP
Measured
Radon-
1 dCi'L)
Zt
ZIP
Code
Measured
Radcn'
ioCi'L)
Zt
32174
0 2
•0 5
3231 7
i r
0 7
3 341 0
1 .0
1.3
33701
0.4
0 0
32174
0 2
0 5
32918
0 S '
3 3
33410
0 5
0 6
33701
0 5
0 2
32176
1 .4
0.8
32318
1 1
3 6
33410
1 0
1 3
33701
0 2
-0.5
32177
0 7
¦ 0 4
32818
0 6
o -
334 10
0 7
1 0
33701
0 5
0 2
321 77
0.5
0.0
32319
0 9
: 9
334*0
0 5
0.6
33702
14
1 3
32205
0.3
-1 3
32819
1 3
l 2
33410
0 4
0.4
33702
3.6
2 2
322C5
0 3
•1 3
32819
0 6
3 6
334 1 0
' 3
1 6
33703
3 6
0.4
32206
1.7
0 7
32819
3• 5
0 6
334-0
0 6
0 8
33703
1 6
1 4
322C6
0 8
-0 2
32819
C 9
3 9
334 10
0 4
0.4
33703
0 3
-0 3
32207
0.3
-1 1
32819
0 5
C 4
334-0
1 0
1 3
33703
0 5
0 2
32207
0 5
-0 5
32819
0 9
0 9
3341 1
0 0
1 »
33703
0.9
0 8
322C7
0 7
i
32819
2 1
i G
334 • 1
0 5
0.7
33703
0 5
0 2
32207
0 S
0.0
32813
1 5
' 3
334 1 1
3 4
2.4
33703
0 3
0.3
32207
0 4
¦0 7
3281 9
2
0 3
3 34 11
1 5
1 7
33703
0 3
-0 3
32207
0 4
-C 7
3 2819
C 5
0 4
3341 1
0 6
0 9
33703
0 7
0 6
32207
1 1
0 4
3 2819
0 5
3 4
3 3 4 1 3
5 5
3 2
33703
3 9
0 8
32208
0 2
-• 8
3281 9
C 4
3 2
3 3 4 1 4
w U
2 3
33703
• 3
- 2
32209
0 2
"9
32819
0 3
0 3
3 34 14
1 "
> 7
33703
0 8
0 7
32210
0 5
-0 3
32819
0 8
0 8
33414
! 1
1 S
33704
1 0
0 9
32210
0 7
0 0
32819
C 5
0 4
334 1 4
1 0
1 4
33704
0.5
0.3
32210
0 3
¦0.9
3281 9
0 9
0 9
3 3 4 14
3 5
2 5
33704
1 0
0 9
32210
0 5
•0 1
328-9
0 3
0 0
334 1 4
0 2
¦0 1
33705
0 2
•0.5
32210
0 2
•1 3
3281 9
24 0
-i C,
3 34 1 4
5 0
2 8
33705
0 3
-0 2
3221 1
' 2
0 5
3281 9
0 7
0 ?
33414
0 8
1 3
33705
0 2
0.4
322 1 1
3 2
- 1 6
22S ' 9
' 5
l 3
3 3414
C 8
1 2
33705
0 6
0 4
3221 1
4 6
2 1
32819
0 7
0 7
334 1 4
0 6
C 9
33706
0 3
-0 3
3221 1
0 4
-0 3
32819
0 5
0 4
3 3414
4 6
2 7
33706
0 5
0 2
3221 1
• 6
0 8
323'.9
1 3
1 2
334 1 4
4 8
2 8
33706
0 2
-0.6
3221 1
C 6
-0.3
32819
0.4
0 2
334 1 4
6.8
3 1
33 706
0 6
0 3
3221 1
0 5
-0 5
323 1 9
0 S
0 3
334 1 4
3.0
2.3
3 3 706
0 7
0 5
32216
0.9
0 5
32321
1 0
1 3
334 1 4
5 8
2 9
33707
1 5
1.2
3221S
0.3
•3 5
32321
! 2
! '
3341 4
5 4
2 9
33707
0 6
0 4
3 2216
0.8
C 4
3282 1
0 5
0 4
3341 5
3 2
3 6
33707
1 7
1 3
32216
1 3
C 8
3232 1
1 2
! '
334 15
^ 0
3.1
33707
0 4
0.1
32216
1 1
0 6
3232 1
0 6
0 3
334 1 5
1 0
2 8
33707
0 2
-0 5
32216
0 3
-3 5
3232 1
0 3
: 9
334 ' 5
• 1
2 3
33707
0 6
0.4
32216
l 8
¦ 0
32922
' 5
' 3
3 34 15
1 3
2 5
33707
C .3
-0 1
32216
0.6
0.1
32822
1 0
l 0
33415
0 8
1 9
33707
* 4
1 .1
32216
• 1
C 6
32922
3 3
3 3
334 < 5
1 0
2 2
33708
1.2
0 9
32216
1 .4
0 8
32322
0 2
- i"i 3
334 1 7
1 7
2.4
33710
0.5
0.4
322 16
0 8
0 4
32822
0 9
3 9
3341 7
0 7
1 .4
3371 1
0 3
-0.1
32216
0.8
0 4
32824
0 2
0 3
334 18
1 2
1 5
3371 2
0 8
0 7
32216
1 6
0 9
32825
¦ C
C 3
3 34 1 8
' 9
1 9
3371 2
0.8
0 7
32216
0.4
0.2
32825
3 4
0 0
.334 16
0 4
0 5
33712
0 2
•0.5
32216
0.4
-0.2
32825
C 6
C 4
334 18
1 2
1 5
3371 2
0.3
0.1
32217
0.2
¦0 9
32825
3 4
C 0
3 3418
1 4
1 7
33712
0 5
0 3
32217
0.7
0.3
32825
C 6
0 4
334 18
0 5
3 7
33713
0 7
0 7
3221 7
0 9
0 5
32825
<•* 7
0 5
3 34 18
1 6
1 8
33713
0 5
0.4
32217
2.6
1 5
3 282 6
C 5
0 3
334 13
1 0
1 4
33714
14 7
3 4
322 1 7
0 7
0 3
32826
C 3
r*
33418
0 7
1 0
33714
0 2
-0.5
3221 7
0.5
-0.1
32826
0.4
0 1
3 3418
C 7
'• 0
33715
1 3
1 0
322 18
0 5
-0 4
3 2825
0 5
0 3
334 18
0 3
0 3
33715
0 2
-0.5
32218
0 5
0.4
32823
' .3
i 3
33418
0 5
0 7
3 3 716
4 9
2 6
32221
1 7
1.2
32829
0 8
0 9
33418
1 5
i 7
33716
4 1
2.5
X-
3
-------
Table N-l (Continued)
Measurement-Map Bias Statistics for HRS Residential Radon Measurements

Measured


Measured


f/easoreo


Measured

2P
Rado-,"

TP
Kadcn"

Z3P
Radon'

TP
Radon"

Code
(pCi'l)
zt
Code
' oC - Li
Z*
Code


3 3 4 31
0 G
0 5
33303
1 7
-0 4
32223
0.8
0,4
32935
:¦ 5
C 2
3343 1
0 8
0 7
33803
5 2
0.6
32223
10
0.6
32937
l 9
1 3
3343 1
0 2
-0.7
33803
3.4
0 2
32223
0.7
0.2
32937

3 3
33431
3 9
0 9
33803
5 5
0 7
32223
0.4
-0.4
32937
Z 5
0 1
33431
•
•J
< 0
33803
4 9
0 6
32223
1 0
0 6
32937
C 3
0 5
33432
0 4
¦0 5
33803
2 9
0 1
32223
0.7
0 2
32937
0 7
0 4
33432
0 3
0 8
33803
2 0
-0 3
32223
0.3
-0.7
32940
A T
V t
0 5
33432
I 0
0 5
33803
4 9
C 6
32223
0 3
r- 7
¦J '
32943
0 5
0 3
33432
O 7
0 1
33803
5 0
0 6
32223
0 4
-C 4
3295 1
C 6
A 2
23432
0 4
0 5
33803
s *
i 0
32224
1 2
0 s
3 29 5".
0 8
0 r!
3 3 4 3 ?
0 3
-0 3
33803
3 7
0 3
32224
0.7
0 4
3 29 5 1

'J 4
3 3433
3 8
0 8
3 3 S 0 3
4 4
0 5
32524
I 0
0 7
329S !
0 9
0 0
3 3433
' 6
0 0
3 3803
3 7
0 3
32224
1 3
1 0
?-29 5 2
o ^
i s
." 3433
0 8
0 8
33803
5 0
0 6
32224
1 3
3 7
3295 2
0 2
0 G
33433
0 7
- 1 0
33803
4.2
0 4
32224
1 5
1 1
32952
0 3
C 3
33433
< 4
n 2
33803
7 7
1 0
32225
1 2
C 3
32952
0 2
• 0 6
33433
• 9
0 2
33 = 03
4.5
0.5
32225
0.2
0.8
32958
0 6
0 2
3 3433
2 9
0 6
33303
9 8
1 2
32225
1 1
0 7
32958
0.4
-0.1
33433
0 5
-1 4
33803
0 2
2.5
32225
0 3
-0 4
32960
0 5
0 1
33433
1 4
-0 2
33303
2 7
0 0
32225
C 4
-0 2
32962
1 1
0 3
3 3433
3 4
1 4
33303
2 4
-0 1
32225
C 6
0' 2
.32362
0 3
0 i
3 34 33
' 2
0 4
33303
2 8
0 0
32225
1 0
C 5
32962
0 3
i
33433
1 0
0 6
33803
6 4
0 8
32225
• 0
C 6
32963
2 5
2 0
33433
1 5
•0. 1
33303
8 0
1 0
32225

0.7
32363
0 9
: 9
33433
1 4
-0 2
33803
10 1
1 3
32225
< «
0 7
32963
I -
; 0
33433
0 2
-2 5
33803
3 0
0.1
32225
¦ .0
0 6
32963
1 3
1 3
33433
1 2
0.4
33803
2 0
-0 3
32225
0 9
0 5
32967
0 4
: o
33433
0 3
-2.0
33803
3 4
0 2
32225
0.9
0 5
33004
: 3
1 2
3 3433
0 3
-2 0
33803
2 8
0 0
32225
1 .8
* 1
33009
Z 5
¦3 o
33433
0 2
-2 5
33803
2.3
32
32225
1.0
0 6
33009
C. 5
3 6
33433
¦3 •
1 5
33803
0 6
- 1 4
32226
0.8
0.7
33012
2 2
0 7
33433
2 *
0 3
33303
; 9
-0.3
32226
0.9
0 8
3301 2
i 0
z :
3 3433
0 2
¦2 5
33803
2.4
-0. 1
N- 4
-------
Table N-l (Continued)
Measurement-Map Bias Statistics for HRS Residential Radon Measurements

Measured


Measured


Measured


Measured

z?
3adon'

ZP
Bsoon"

2P
Radon*

ZIP
Radon'

C:de
(pCi/l)
z-
Coce
icCi/L)
Zt
Code
fpCi/L)
zt
Code
(0C1/L)
Zt
32226
1 0
0 9
3301 4
i 5
0 3
33433
1 5
¦0 1
33803
0 8
-1.2
32226
C 6
C 4
3301 4
3.7 '
1 2
3 3433
4 9
1 3
33805
1.3
-1 3
32233
2 0
1 4
3301 4
3 2
' 0
33433
0.2
2 5
33805
6.6
0.3
32233
1 5
• 2
3301 4
4 0
1 3
33433
0 4
¦1.7
33805
0 8
•1 8
32233
C 6
C 4
33014
0 3
¦0 3
33433
0 8
¦0 8
33309
0.2
1.5
32233
1.7
1.3
33014
0 2
1 7
33433
1 0
0 6
33809
1 4
0 5
32233
0.3
-0 2
33014
2 2
0 7
33433
1 2
-0 4
33809
0.4
-0 8
32233
0.9
0.7
33015
1 5
1 0
33433
1 2
0.4
33809
0.7
-0 2
32233
0.3
-0.2
33015
! 4
C 9
33433
2.8
0.6
33809
3 1
1 2
32233
1 .1
0.9
33015
10 2
2 8
33433
3 9
1.0
33809
2 3
1 0
32244
0 7
-0.1
3301 5
2 2
1 3
33433
5 9
1.5
33809
0.6
-0 4
32244
0.7
0.1
33015
1 4
0 9
33433
1.2
0.4
33809
0 3
-1.1
32250
0 4
0.1
3301 5
' 3
0 8
33433
1 8
0 1
33809
0.2
-1 5
32250
1.1
0.9
33015
«~
:• o
33433
0.8
0 8
33809
3 8
1.5
32256
1 1
0.9
33015
1 2
A -J
33434
7 1
2 6
33809
2.3
1 0
32256
1.3
1 1
33015
1 4
¦J 6
3 3 434
2 3
1 5
33809
0 2
I 5
32256
0 7
0 5
3 301 5
2 5
• 2
33434
1 2
0 5
33809
0 2
• 15
32256
1 1
0.9
3302C
0 8
r, i
33434
1 0
0 3
33809
3 1
12
32256
0 6
0 4
3302C
' 1
0 2
33434
i 1
0 4
33809
3.3
13
32256
1 1
0 9
33021
0 6
-0 6
33434
0 6
-0 3
33809
16
0 6
32256
0 9
0 7
33021
0.5
•0 8
33434
1 5
0 8
33809
1.6
0 6
32256
0 7
0 5
33021
0 7
¦C 4
33434
0 9
0 2
33809
2 6
1 1
32256
0 6
0 4
3302'
1 0
C 1
33434
n
0 1
33809
3 3
1 3
32256
C 4
C 0
33021
£ 4
1 o
33434
0 5
¦0 5
3381 1
4.7
1 .4
32256
0.4
C 0
33023
¦ 2
0 5
3 3434
C 3
1 0
338 1 1
10 8
2 2
32256
0 5
0 2
33023
0 3
C 9
33434
1 4
0 7
3381 1
2.1
0.6
3225?
0 4
¦0 3
33023
0 9
0 2
33434
< 9
• 0
338 1 1
3 2
1 0
3225?
' 6
- i
33023
0 4
¦0.7
33434
• 6
0 8
338' 1
1 1
0 0
3225?
0 8
0 4
33023
0 5
0 4
33435
0 5
0 4
3381 1
3 3
1 1
32257
0.4
0 3
33C24
0 4
0 3
3 34 35
0 3
0 1
3381 1
2 4
0 8
32257
C.7
0 3
33024
J
0 1
-33435
0 3
¦0 1
3381 1
6 0
1 6
32257
0 5
C 1
33024
0 ¦:
0 <3
33435
0 3
-0 1
338 1 1
4 2
1 3
32257
1 4
0.9
33024
0 3
0 0
33435
0 3
-0 1
338 1 1
4 0
1 2
32257
0 2
-1 0
33024
i j
~ -t
33435
0 8
0 5
338 1 1
4 7
1 4
32257
0.6
0 1
33024
0 7
0 3
33436
0 4
0.6
"38 1 1
3 2
1.0
32257
0 4
-0 3
33024
2 0
0 3
33436
0 5
0.3
338 1 1
3.9
1 2
32253
09
0 7
33024
1 0
0 1
33436
0 8
1 3
338 1 1
1 4
0.2
32253
0.7
0.5
33024
2 0
0 8
33437
0.9
1 3
33813
3.1
0.0
32258
1.0
0.8
33024
1 6
0 6
33437
1 5
1 9
338 1 3
0 5
•1.2
32253
1. 1
0.9
33024
1 6
C 6
33437
53
3.4
338 1 3
1.4
-0.5
32258
0.6
0 3
33024
? 9
• 2
33437
2 1
2 2
33813
6.4
0 5
32259
0 3
-0.4
33024
3 6
'i 4
33438
0 2
0 2
33813
1 9
0 3
32259
! 6
1 2
3 302 4
3 0
' 7
33444
0 8
0 3
336 1 3
3 8
0 1
32259
2 5
1 6
33024
4 5
- 7
33445
0 6
0 a
338 1 3
3 6
0 1
32259
0 3
-0.4
33024
7 1
2 2
33445
0 4
0 4
33813
1.1
•0.7
32259
1 5
1.1
33024
6 7
2 1
3 3 44 3
1 1
1 5
33813
1.2
-0.6
32301
1 7.9
3 1
33024
7.3
2 2
33455
3 1
1 9
338 1 3
1 9
-0 3
32301
0 5
-1 0
33024
0 3
2
33455
0 4
0 1
33813
3 0
0 0
32301
0 4
1.2
33025
4.9
¦ 9
33455
C 4
0 1
338 13
8 8
0 7
32301
3.0
1.1
33025
1.5
0.7
33455
0.4
0 1
33813
0 9
0 8
32301
1 1
0.1
33025
0 5
-0.4
33458
0 4
0 6
33813
6 3
0 5
32301
0 9
-0 3
33025
0.3
0 1
33458
0.7
1 2
33813
8.0
0.6
32301
1 5
0 3
33025
1.7
0 3
33458
1 4
1 S
338 1 3
2.0
-0 3
32301
3 6
1 3
33026
0 3
¦0 2
33458
0 2
¦0.1
33813
1.4
-0 5
N-
S
-------
Table N-l (Continued)
Measurement-Map Bias Statistics for HRS Residential Radon Measurements

Measured


fv'casu-eti


Measured


Measured

ZIP
Radon'

ZIP
Radon'

Z3
Radon*

ZiP
Radon"

Code
inCi/L'l
zt
Code
(pCs.'L I
Zr
Code
i pCi'L)
Z+
Code
(pCi/L)
zt
32301
4 5
• 6
33C26
L* B
0 3
33458
1 0
1 6
33813
7 2
0.5
32301
1.9
0 6
33026
0 4
¦ 1 *.
33458
0.7
1 2
338 13
1 7
-0.4
32301
3 5
* 3
33026
0 5
¦0 9
33458
1.4
1.9
33813
5 2
0 3
32301
".3 3 •
2.8
33026
4 6
•. 7
33458
0. y
1 .5
338 1 3
43.2
1 7
32301
1.4
0.2
33026
7 C
2 2
33458
0.7
1.2
33813
0 5
-1 2
32301
2.1
0.7
33026
C 5
0 9
33458
0 8
1 3
33813
2.9
0 0
32301
0.4
2
33025
0 5
¦0 9
33458
0 3
1 5
33813
0 8
•0.9
32301
1.4
0.2
33028
0 4
0 3
33458
0 6
1 0
33813
0 5
-1.2
32301
0 3
-0.3
3303C
' 4
¦0 6
33458
0 3
0 3
338 1 3
1 3
-0.6
32301
1 9
0 6
3303C
• 4
0 6
33458
0 7
1 2
338 1 3
0 7
-1 0
32301
1 7
0 4
33030
0 9
1 '>
33458
0 5
0 9
3381 3
5.6
C. 4
32301
0 9
-0 3
33030
7 0
- 5
33458
: 5 0
4.4
3381 3
1 *
•0.7
32301
1 2
0 0
3303C
4 6
0 9
33458
0 4
0 6
3381 3
9 6
0 7
32301
3 0
t 1
3303C
5 9
: 7
3 34 50
1 0
; 6
33813
4 2
C 2
32301
3 9
0.3
33030
3 0
0 4
33458
0 6
! c
338 1 3
6.8
C 5
32301
3 0
1 1
33030
2 2
-C 1
33458
0 9
1 5
338 1 3
8.4
0 6
32301
1 '
0 1
.33030
¦ r; 7
? 5
3346 l
C 3
0 2
338 1 3
2 9
0 0
32303
C. 5
•0 3
33030
6 9
1 4
33463
2 6
3 3
339*3
2 0
0 3
32303
c.s
¦0.3
33030
3 2
0 4
3 3463
1 0
2 1
333 1 3
2 6
•0 1
32303
1 .2
0 6
-33030
4 7
0 9
33467
4 4
2 6
338 1 3
* 2
0.6
32303
2.2
1 2
33030
1 3
¦0 7
33467
0 4
0 5
333 1 3
3 1
0.0
32303
2 3
1 3
33C30
6 1
1 3
33457
0 7
1 0
33313
2 4
0.2
32303
2.2
• .2
33030
2 8
0 3
33467
1 1
< 4
333 13
5 9
0.4
32303
4.3
'.9
33030
o
0 0
33467
1 1
1 4
33813
2 0
0 3
32303
2 3
i 3
33C30
0 3
¦ ! -1
33469
0 5
0 0
33313
2 8
-0.1
32303
1.5
0.8
33031
6 6
I 2
.33469
0 4
0 2
3 38 13
36 0
1 6
323C3
1 5
0 8
3303 1
2" 0
C /
33469
2 0
1 2
338 13
22.9
1.3
32303
1 7
• .0
33031
l 0
¦ 1 3
33469
0 5
0 0
338 13
15
-0.5
32303
3.5
1.7
33032
C 3
- 1 -
33469
0 7
0 3
33813
1 5
-0 5
32303
2 3
' 3
33032
£ 7
* ¦»
/
33469
0 5
0.0
338 13
0 9
-0 8
32303
4 4
2.0
33032
3 1
C 7
33469
1 1
0 7
338 13
8 2
0 6
32303
1.2
0.6
33032
5 4
*
33469
0 4
•0.2
33813
1 1 7
0 9
32303
1.1
0.5
33032
5 4
1 4
33469
1 4
0 9
33813
12 4
0 9
323C3
6 1
2 3
33032
7 6
; a
334G9
0 9
0 5
33313
29.3
1 5
323C3
0 8
0 2
33033
0 ?

33 4 70
1 0
t 5
338 1 3
55 9
1 9
32303
1 4
0 8
33033
' 9
0 2
33470
0 9
1 4
23813
1 2 3
0 9
32303
1 9
1 .1
33033
2 5
0 6
3 3477
1 2
1 5
338 1 3
1 5
-0 5
32303
0 9
0.3
33033
5 2
' 5
334/7
0 3
1 0
338 1 3
1 8
0 4
32303
1 0
0 4
33035
• 3
J 4
3 34 78
0 6
0 8
338 13
3.8
0 1
323C3
0 7
0 1
33035
0 4
•: 9
33478
0 4
0 5
33813
5 7
0 4
32303
6 0
2.3
33035
2 1
0 2
33480
0 4
0 5
33813
4 3
0.2
32303
2.3
1 3
33035
2 '
2
33480
0 4
0 5
336 1 3
0 8
•09
32303
1 5
0.8
33035
1 2
¦0 5
33483
C 3
-0 3
335 13
2.0
¦0 3
32303
0.3
-C.8
33035
3 7
0 9
33486
0 8
0 7
33323
0 7
-18
32303
3 5
1 7
33036
0 5
0 8
33486
C 8
0 7
33823
1.4
-10
32303
1 4
0.8
33037
' 5
1 .8
33486
C 5
0.3
33844
0.7
0.4
32304
0 4
0.8
33040
0 3
-C 2
33486
C 5
C 4
33850
0.9
-0.6
32304
2 1
1 1
33043
0.4
¦0 3
33486
0 4
0 1
33852
0 3
0.3
32304
2 1
1 1
3306 C
0 5
0 0
33486
C 8
0.7
33865
1 7
1.7
32304
3 3
1 8
33060
0 2
-0 9
33466
¦ 3
¦ 1
33870
0 7
06
32304
1 3
0 9
33060
0 4
¦0 2
33486
0 6
0.4
33872
1 0
12
32304
1 5
0 3
33060
0 4
¦0.2
33486
0.9
0 8
33873
0 5
0 1
32304
1 9
1 0
33060
0 8
0 5
33486
1 0
0.9
33880
1 5
0 4
32308
0.4
-1 0
33060
0 3
¦0 5
33487
0.9
0.9
33880
0 4
-0.9
N-
6
-------
Table N-l (Continued)
Measurement-Map Bias Statistics for MRS Residential Radon Measurements

Measured


Measured


Measured


Measurec

TP
Fadon'

a p
Radon'

2p
3jdor.'

ZIP
Radon'

Code
[ p 011L}
Zt
Code
:pC:."_)
7 T
Ccce
i pCi'LS
zt
Code
(dCi.'_;
Zt
3230B
• .2
0 2
33060
C 5
o
33487
0 5
0.4
33880
1 8
0 6
32308
2 1
0.8
33062
C 2 '
¦ 1 5
33487
1.6
1.5
33881
1 7
0 7
32308
6.7
2.1
33062
C 4
• j 7
33487
0 5
0 4
33884
1 0
0 2
32308
1 .4
, 0 4
33063
'. 4
•* 3
3 3 4 8 7
l 2
1 2
33884
1 0
0 2
32308
4.3
1 6
33053
3 7
0 9
33487
0.5
0.4
33884
0 5
0 6
32308
7.2
2 2
33053
C 2
•2.5
33487
12
1 2
33901
2 0
2 3
32303
1 4
0 4
3306 3
0 6
! 2
33496
0 3
1 3
33901
3 6
0 7
32308
2 3
0 9
33053
0 3
-2 0
33496
Z 3
0 2
33901
0.7
0.9
32308
2 7
1 1
3 3053
• 7
0 0
3 3 496
2 6
2 3
33901
3 2
2 3
32308
2.3
0 9
3 306 4
0 6
0 1
33496
0 4
0 5
3390'.
2 1
1 9
32308
-1 3
1 7
3 306 4
0 5
0 1
33496
: a
1 2
33901
'.5
1 6
323C8
2 4
1 3
33064
C 7
0 2
3 3496
0 9
1 3
33901
0 6
0 7
32308
1 9
0 7
3306 5
¦<
¦J •"*
0
3 3495
: 4
0 5
33901
1 0 6
3.5
32308
1 5
0 5
33065
0 s
¦0 5
33496
j 2
-0 2
33903
0 5
0 4
32308
5 3
1 8
33065
l 0
•0 6
3 3496
0 9
1 3
33904
0.8
0.6
32308
3 5
1 4
33065
1 6
0 1
3 34 96
0 8
1 2
33S04
' 9
' 6
32308
0 9
-0 1
33065
2 4
0 5
3 34=6
2 1
2 1
33904
" .4
1 2
32308
3 9
1 5
33065
2 1
0 3
3 34 93
• 7
l '
33904
3 2
2 2
32308
2.4
1.0
33C65
1 5
0 1
33493
3 0
1 7
33905
1.0
1 0
32308
1 2
C 2
33065
2 7
0 6
33498
4
0 9
33505
0.2
-0 4
32305
' 2
0 2
33065
0 4
• 1 5
33438
0 6
¦0 1
33907
4 2
2.0
32303
2 5
i 0
3306 5
i 3
¦0 3
33498
0 8
C 2
3390 7
0 5
0 2
32308
0 9
0 ¦
33065
6 4
' 6
33498
0 7
0 1
33907
2 2
1 4
32308
'. 4
C 4
33065
? 3
0 4
33510
0 2
•1 6
33907
0 8
0 6
32308
1 8
0 7
33065
0 4
• 6
3 35 'C
3 2
• 5
33907
1 0
0 8
32308
1 3
0 3
33065
1 0
0 6
335 i0
3 6
' 7
33907
1 0
0.8
32308
2 5
- 0
33065
j
l 6
335^0
4 0
• 7
33907
0 5
0.2
32303
2.2
0.9
33065
• 3
¦0 3
335 ' 0
1 3
O 5
33907
2 0
1 4
32308
1.3
0 3
33065
' 2
•0 3
335'0
0 3
0 1
33909
5 6
2 4
32308
2 6
i 1
33065
¦ ¦>
0 3
3 35 -0
6 1
2 2
33912
2 4
1 8
32308
2.3
0.9
330S5
0 8
•: 3
3 35 1 0
0 2
1 6
33912
1 5
1 4
3 2308
3.5
1 4
3305 5
• 1
i.' «•
3 3510
3
0 B
339 1 2
5 5
2.6
32308
2. 1
0.8
33055
0 2
¦2 4
3 35 1 0
. V
0 3
339 1 2
7 9
2 9
32308
2 S
1 1
3 3066
• 9
: i
3 3 513
» ->
¦ 6
339 1 2
3.8
2 2
32303
2.2
0 9
3 3066
3 «
• n
335 1 0
4 6
i 2
3 39 1 2
0 6
0 6
32308
3 4
1 4
33066
• 7
0 3
3 3 5 1 0
1 3
0 5
339 1 2
' 3
i 3
32308
0 5
-0 2
33056
i •

3 35 10
2 6
1 2
339 1 2
2 4
1 8
32308
2 1
0 8
330S6
• 3
0 0
3 35 1 0
5 6
2 -
3301 2
3.0
2 0
32308
0 S
•0.2
3 306 7
0 6
• 2
3 3 510
2 3
1 3
339 1 2
- 2
1.2
32308
2 1
0 8
3306 7
1 0
0 6
3 351 C
2 2
1 *.
3391 2
i 6
1 5
32308
2 1
0 8
33067
1 1
0 5
3 3510
3 5
1 6
33312
2.0
1.7
32308
1 2
0 2
33067
2 2
0 3
3 3510
6 8
2 3
333-2
2 3
1 8
323C8
1 9
0 7
33067
1 7
0 c
3 3510
2 9
•• 4
339 1 2
1 3
1 3
32308
0 9
-0.1
33067
1 5
-0 1
3 35 1 0
24 1
3 7
3391 2
3 7
2 2
32308
1 3
0 3
3306 7
0 4
' 7
3351 0
4 3
1 3
339 14
1 1
0 9
32308
12 7
2 8
33067
1 1
0 5
3351 0
3 4
• 5
33914
1 7
14
32308
4 1
t .5
33067
0 5
¦ ' 4
3 35 1 0
4
0 5
33914
0.5
0.1
32308
2 9
1 2
33067
2 C
0 2
33510
" 7
0 8
339 1 4
0 9
0 7
32308
0 5
-0 7
33067
0 5
.-i T
¦ -)
3 3510
2 ^
' 1
339 1 £
2 7
1 9
32310
1 3
1 7
33068
0 5
• 1
3 3510
2 5
• 2
33914
1 8
1 5
32310
1 0
1 '
33068
0 3
-i ~
3 3510
4 5
• 8
33914
2 0
1 6
3231 1
1 5
'¦ 8
33068
? 0
0 5
3 35 10
' 1 0
2 8
33914
5 5
2 7
3231 1
3.3
1 7
33068
4 4
! 5
335-0
o 7
l 3
33917
2 0
1 5
3231 1
0.8
-0 2
33069
3 0
1 3
335-0
/ c.
2 4
3391 7
1 8
1 4
X- 7
-------
Table N-1 (Continued)
Measuremerit-Map Bias Statistics for HRS Residential Radon Measurements

Measured


Moasyed


Measured


Measured

ZIP
Radon"

IP
Radon'

ZP
-?accn'

ZIP
Radon'

Code
< pCi'L'i
Zt
Code
; p C i /v.
7 7
Code
• pCi'L)
7r
Code
tpCi/L)
zt
3231 <
1.6
1 0
33063
3 "

335-0
1 7
0 s
33919
2 0
1 7
3231 1
4.3
2.0
33069
3 '
1 •
3351 1
0 3
-0 5
33919
2.3
1 8
3231 1
2 3
1 3
33059
< «
0 3
3 35 1 1
3 5
1 2
33919
0 8
C.8
3231 1
3.5
1.9
3 3 0 7 C
4 5
2 9
3 3 5 11
2 4
0.7
33919
2.2
1 8
3231 1
1 1
0 5
33071
• 1
3
33511
3 6
1 2
339 19
1.7
1.5
3231 1
2.7
15
33071
:, i
0.3
3 351 1
2 3
0 9
33919
3 2
2.1
3231 1
4 1
1 9
33071
0 3
•1 9
3 3511
2 9
0 9
33919
2.7
2.0
3231 1
26.9
4 0
33071
0 7
0 9
3 351 1
9 5
2 3
33919
1 1
1 1
32312
1 6
o a
33071
0 5
- ' 3
3 35 1 1
1 3
0 0
33919
1.1
1.1
32312
C.6
0 3
33071
2 0
0 4
3 35 1 1
1 2
0 0
33919
2 2
1 8
32312
0 7
0 1
33071
0 2
2 4
335 1 1
3 3
1 1
33919
0.5
0 4
323 1 2
2 3
1 4
330 7:
0 o
^ r
3.35 1 '
• 2
-0 1
333 '9
2.4
1 9
32312
3.9
2.6
330 7'
0 6
1
3351 '
C 3
¦1 6
333-9
19 7
3 8
32312
10 2
2 3
33071
l 2
0 2
3 35 1 I
¦ 2
0 1
33919
20 5
3 9
32312
3.1
' .5
3307 1
0 9
¦ 0 6
3351 1
2 0
C 5
33919
26 2
4.1
32312
7 3
2 4
3307 1
2 C
0 4
3351 1
• 5
0 2
33920
1.4
1 2
32312
6.3
2 3
33071
0 9
0 c
3 351 '
2 8
C.9
33923
1 3
1 4
323)2
1 7
0.8
33071
0 3
• ' 9
3 351-
' 4 5
2.8
33928
2 5
1 9
32312
8.8
2.6
33071
0 3
0 7
3351 1
1 2
C.1
33928
1 3
1 3
32312
1.3
0.5
3307 1
1 0
•0 5
3351 1
2 2
0 6
33936
1 7
1 4
32312
3.9
• .7
330 71
1 2
0.2
3351 '
• 9
0 5
33940
8 9
3 1
32312
1.3
0 5
33071
5 5
1 5
335' 1
0 5
-1.1
33940
0 3
0 5
32312
1 9
1 0
3307 1
2 1
C 4
335 ' 1
1 4
0 1
33940
0 5
0 0
32312
5 0
2.0
33071
:¦ 4
i 5
335 1 1
0 4
- 3
33942
1 2
0 9
323 1 2
1 9
1 0
3307 1
~ 9
6
335', 1
1 9
0 4
33942
0 7
C 4
32312
1 4
0 6
33071
i i
0 ?
3 3 5 1 1
0 2
3 1
33942
4 7
2 3
32312
1 3
0 5
33071
2 4
: 6
335 ' 1
0 9
0 4
33942
1 4
1 i
32312
17
0.8
33071
• 3
0 2
335 11
l 3
0 3
33942
1 '
0 9
32312
1 3
0 5
33071
2 4
C.6
335 1 1
3 8
1 2
33942
-1 3
2 2
32312
'. 6 4
3 3
33071
C 3
¦0 7
3351 1
1 2
0 3
33945
2.'
- 8
32312
1 0
0 3
3 307 1
0 3
-1 9
33511
4 2
1 4
33943
2. 4
' 0
32312
09
0 t
3307 1
0 9
Z o
33511
5 3
1 6
33948
2.6
• . 1
32312
1 9
1 0
33073
0 9
0 8
3 3 511
1 2
-0 1
33948
1 .4
0 6
32312
1 5
3 8
33073
• 2
3 4
3 3 51 1
3 0
1 0
33930
0 6
0 1
32312
1 1
0 4
3307G
0 3
. • 7
3 35 1 1
1 5
C 2
333 50
1 1
0 7
323"2
2 5
1 3
331 25
2
j 1
3 35 11
4 9
1 5
339 50
1 9
1 3
323 5 2
6 7
2 3
331 26
7
I ?
3351 '
' 8
0 4
33952
4 6
1 6
32312
1 7
C 3
3312 7
0 «:
' 0
3 351 •
3 9
l 3
33952
15
0 7
32312
C 2
•1 5
331 27
0 4
¦ 0
335 1 "
1 2 4
2 6
33952
7 3
1 9
32312
2.3
1 2
33127
0 4
• 9
335 I1
2 4
C 7
33952
1 2
0 6
32312
2 9
1 4
331 29
0 9
0 2
3351 1
i 8
0 4
33952
1 0
0 4
32340
1 .3
C.6
331 30
2 9
0 3
3351 1
23 5
3 3
33954
3 9
1 3
32340
i 0
C 3
33131
1 9
0 6
3351 1
2 0
0.5
33955
2 :
1 5
32347
3.3
1 8
33131
0 6
¦0 5
3351 l
2.1
0.6
33955
0.6
0 9
32347
0.7
0.2
33133
1 1 3
2 3
3351 1
1 .1
'-"0 2
3395 7
2 4
2 1
32347
4 3
2.1
33133
0 9
¦0 2
335^ 1
3.0
1 0
33960
1 6
1.7
32401
0.6
C. 1
33133
3 9
1 2
335 1 1
3.0
• 0
33962
0 4
0 0
32404
0 2
-0 7
33133
2 A
: 8
335 1 1
3 2
1.1
33963
13
1.3
32404
0.6
0 3
33133
0 5
0 3
3351 1
0 3
• 6
33963
1 0
• 0
324 04
0 8
0 5
33'33
i :
¦ i
3351 1
0.7
¦07
33963
1 0
¦ .0
32404
0 8
0 5
33-33
5 3
i e
335 1 1
0 8
0 5
339SC
3 7
1.5
32404
0 2
-0 7
3 3 1 3 3
1 4
0 2
3351 1
2 9
0 2
339S0
4.9
1.7
32404
0 9
0 7
33' 33
3 3
: i
335' 1
2 7
0 9
3398'
3 6
2.0
32405
0 9
0 8
33133
0 6
C 6
33511
0 4
1 3
33933
3.2
12
Q
-------
Table N-l (Continued)
Measurement-Map Bias Statistics for HRS Residential Radon Measurements

Measured


Measured


Measured


Measured

ZIP
3adorT

ZIP
Radon'

ZIP
Radon'

ZIP
Radon"

Code
(pCi/L)
zt
Code
,pCi.U
zt
Code
(pCi/L)
zt
Code
(pCi/L)
Zt
32405
0 5
0 3
33133
C 9
3 2
3 351 1
0 5
-1 1
33999
1.7
1 3
32405
1 7
1.4
331 33
' 8'
0 5
3351 1
1 0
0 3
33999
1.3
1.1
32405
1.2
1. 1
33133
• 7
0 4
3351 1
0 2
-2.1
34202
1 9
1 5
32405
0 2
-0 8
33133
3 0
1 rs
3351 1
i 6
0 3
34202
1.8
1.5
32405
0 8
0.7
33133
1. 1
0 3
3351 1
0 8
•0.5
34202
0 6
0 5
32408
0 6
0 5
33133
1 9
0 5
3351 1
2 0
0 5
34203
2 9
1.9
32433
0 7
0.0
33133
0 2
. • 7
3351 1
2.7
0.9
34205
0 2
-0.4
32439
C 6
0 3
33134
2 1
0 6
3351 1
4 7
1 5
34205
0 5
0.4
32444
' .2
1 0
33134
0 S
-0 3
3351 1
1.3
0 0
34209
0 4
0 4
32444
0 7
0 4
33134
1 2
r, *
3351 1
1.3
0.0
34209
0 2
-0.3
32446
2 5
1 .3
33134
1 3
C 5
3351 1
17
0.3
34209
0 7
0.9
3244S
C 3
-1 0
33134
1 2
3 1
3351 1
4 3
1 4
34209
0.3
0.1
32445
0.2
-14
33134
5 2
i 5
3351 1
6 6
1 9
34209
0 6
0 8
32446
0.2
1 4
33134
5 4
1 6
3351 1
1 2
0 1
34209
0 4
0.4
32446
2.5
1.3
33134
3 4
' ;
3351 1
2 1
0 5
34209
0 5
0 s
32446
2.5
i 3
33134
1 6
0 4
3351 1
1 1 4
2 5
34210
C 7
0 9
32446
3.5
1 . 7
33134
2 5
0 8
33511
5 5
1 7
342 1 9
2 0
1 5
32446
3 3
1 6
33134
; 5
0 4
3 351 1
0 2
-2 1
34221
1 4
1 4
32446
0.9
0.2
33134
5 4
i 6
3 351 1
2 4
0 7
34222
1.6
1.4
32446
4 9
2.1
33134
3.4
1 .1
33511
2 1 .4
3 2
34222
1 6
1 .4
32446
3.7
1.8
33134
" 5
0 3
33511
21 4
3 2
34223
0.2
-0 6
32446
0.3
0.2
33134
3 2
' 0
3351 1
1 1
•0 2
34223
0 3
-0 2
32446
1 5
0.8
33137
l 6
0 4
3 3511
1 0 4
2 4
34223
' .9
i 2
32446
1 9
1.0
33133
C 6
¦0 6
335 1 1
2 0
0 5
34224
1 3
1 0
32446
0 3
• 0
33133
• a
0 r<
33511
6 9
1 9
34228
3 2
i 8
32501
0.3
•0 8
33138
2 2
0 7
3351 1
2 0
C 5
34228
1.7
1 2
32501
0 3
¦0 8
33133
0 9
¦0 2
135 11
5 1
1 6
34228
4 2
2.0
32501
0 5
-0 3
331 38
i 2
0 1
335 1 1
5 7
1 7
34229
" 9
1 .4
32501
0 3
-0 8
33138
0 4
•• 0
3351 1
8 1
2.1
34229
4 4
2.1
32503
0 4
0 7
331 39
0 7
-0 3
3351 1
15 5
2 8
34229
2 5
1 7
32503
0 3
-1 0
33 139
0 2
. O
3351 1
0.2
-2 1
34229
1 1
0 9
32503
1 2
0 5
33139
0 4
-0 3
3 351 1
1 5
0 2
34229
2 1
1 5
32503
0 9
0 2
331 39
0 2
-' 6
33525
2 9
1 4
34229
0 8
0 7
32503
0 6
-0 2
331 39
1 3
0 5
33527
13 3
2.1
34229
1 1
0 9
32503
C 3
-1 0
33140
0 5
0 6
33527
16 8
2 3
34231
3 0
1 7
32503
C 7
-0 1
331^0
i 5
0 6
33527
78 2
3 9
34231
4 3
2.0
32504
43 3
1 5
331 40
r\ -
¦ 1 2
33527
1 7
0 0
34231
5 5
2 1
32504
0.6
-0 2
33 1 40
0 3
0 *1
33527
12 6
2 0
34231
1.2
1.0
32504
" 2
C 5
33-. 4 0
0 2
¦ 1 7
33540
1 2
0 5
34231
6 4
2 3
32504
0.6
-0 2
33', 40
'"i ^
0 6
3354 1
1.5
0 8
34231
30.3
3.5
32504
1.4
0.7
33140
C 6
•0 4
3354 1
2 8
1.4
34231
0.5
0 3
32504
2.2
1.2
33140

l 7
33541
5 3
2 1
3^231
3 5
1 8
32504
0.5
-0.4
33140
1 0
0 2
33543
2 2
1 8
34231
1.9
1.3
32504
0.7
0.0
33140
1 3
0 4
33543
0 6
0 6
34231
i 0
0 8
32504
0.5
-0.4
33140
1 3
C 4
33543
1 4
1 4
34231
1.3
1.0
32504
0.9
0.2
3314 1
0 6
¦0 5
3 354 3
0 8
0 9
34231
1.6
12
32504
0.9
0.2
33141
3 2
16
33544
1 6
1 4
34231
6 1
2 2
32505
2 0
1 1
33141
0 2
-1 6
33544
0 6
C 5
34231
4.4
2 0
32506
1.6
1.4
33143
¦* i
0 0
33544
C 5
0 3
34231
4 9
2.0
32507
1.5
1 3
33143
0 5
•C 8
33547
3 2
0.6
34231
1 1
0 9
32508
0.4
0.3
33143
¦ 5
0 ^
33549
' 0
l 0
34231
2.0
1 4
32514
15
0 8
33143
3 0
1 0
33549
2 1
1 7
34231
3 4
1 8
32514
1 8
1 0
33143
2 4
0 s
33549
0.3
¦0 1
34231
2 5
1 .5
32514
C 6
-0 1
33143
3 1
1 c
33549
0 6
0.5
34231
2.3
15
N-
9
-------
Tabic N-l (Continued)
Measurement-Map Bias Statistics for HRS Residential Radon Measurements

Measured



Veasurod


Measured


Measured

Z!P
Radon*

ZIP
•l.ico-'

ZIP
Radon'

ZP
Radon*

Code
(pCi/L)
Zt
Code
(oCi'L'l
7»
Code
i dC ('15
zt
Coae
fpCi'L)
Zt
32514
1 3
0 7
33
43
1 1
0 0
3 3549
0 8
C 3
34231
3 5
• 8
32514
1 4
0.8
33
43
1 5 '
0 3
33549
4 4
2.4
34231
7 2
2 3
32514
0 8
0 2
33
43
2.2
0 7
33549
0 2
-0 5
3423 1
1.0
0 8
32514
C 5
0 3
3 3
43
1 8
0 5
3 354 9
0 7
0 7
34231
2.1
1 .4
32514
1 2
0 6
33
43
5 5
' 6
3 354 9
0 9
0 9
3423 1
3 3
1.7
32514
C.5
-0 3
33
43
•. .)
0 2
3 3549
< 7
1 5
34231
6 9
2 3
32514
0 6
•0 !
33
43
^ S
0 9
23549
• 0
1 0
34231
1.6
1 2
32514
3 7
C 1
33
43
0 4
• 0
33549
C 9
0 9
34231
2.3
i 5
32514
r\ -»
vj i
V 1
33
43
3 3
1 2
3 3549
1 1
1 1
34231
2 3
i .5
32514
c a
0 2
33
43
2 5
0 3
33549
0 4
0 l
34231
5 9
2 2
32514
C.7
0.1
33
43
4 7
1 4
33549
0 4
0.1
34231
1.7
1.2
32514
0 7
0 1
33
43
2 0
0 s
33549
^ 0
1 0
34231
1.4
1 1
32514
0.9
0 3
33
43
ri 7
i 5
3 3549
! 4
• 3
34231
1.5
1 1
32514
0 4
•0 5
33
43
! 5
0 4
33549
~ 7
• 5
34 231
1 1
0.9
32514
1.8
1 0
33
43
3
i ¦;
33549
n "7
v f
0 7
34 231
2 9
1 6
32514
3 3
0 2
33
43
1 3
0 5
33549
C i)
0 4
34231
4 0
1 9
32514
0 4
0 5
33
.1 4
n 3
I 3
33549
¦ 8
' 5
342 31
1 5
1 1
32526
< 0
C 5
33
44
0 2
' 7
33549
•; 4
• 3
34231
2.9
i 6
32526
' 5
C 9
33
4 5
0 6
0 6
33549
• 2
• 2
34231
4 7
2 0
32526
0 4
¦0 5
33
45
2 3
0 9
33549
O J
0 7
3422 1
4.8
2.0
32526
C 4
0 5
33
46
1 5
¦j 2
33549
' 0
1 0
34231
1 5
1 1
32525
0.7
0.1
33
4 $
1 c
0 4
33549


34231
1.9
i 3
32533
0 5
-0 4
33
4 6
0 5
•0 s
33549
1 0
• 0
34231
3.2
1.7
32533
r* 7
C 0
33
46
2 0
0 6
33549
0 9
0 9
34231
1.5
1 1
32533
2. *
; 2
33
46
1 0
0 1
33549
2 2
1 7
34 231
3 6
1 8
32533
1.0
0 3
33
46
f; 5
0 3
3 354 9
C 4
0 1
34231
1 0
0 8
32533
2 2
1 2
33
46
9 4
2 1
33549
2 8
1 9
34231
0.2
0 4
32533
C 2
¦1 4
33
46
0 9
-0 2
33549
O 1
< 7
34231
2 3
1 5
32533
1 0
0 3
33
46
0 6
0 c
33556
C 8
0 S
34231
•0 2
2 6
32533
1 3
0 6
33
46
1 3
0 5
33566
« >
* 1
3423 1
1 4
1.1
32536
0 3
•0 7
33
46
1 ,R
0 5
3 3 556
2 0
• 6
3423 1
1 9
1 3
3254 1
0 s
0 2
33
46
1 9
0 5
3 3556
¦ 4
1 2
34231
0 5
0 3
32541
0 6
0 2
33
46
5 !
; 5
33556
- -~
0 2
34231
2 7
1 .6
32541
C 6
0 2
33
46
¦3 3
.'
33556
• 1
' 0
34231
4 0
l 9
32541
0 3
0 4
33
46
0 7
0 4
33556
2 0
1 6
34 231
4 1
1.9
32547
C 6
0 1
33
46
0 4
1 0
3 3 556
• 8
• 5
34231
13
1 0
32547
C.5
0 1
.33
49
3 6
' G
3 3556
0 4
0 2
.34 23 1
1 3
1.0
32548
0 3
-0 3
33
49
0 6
0 5
3 3556
1 7
1 4
34231
1 0
0.8
32548
0 4
0 0
33
49
0 6
0.5
33556
• 0
1 0
34 231
4 8
2.0
32548
0.8
0 6
33
49
2 2
1 0
3 3556
; 1
1 0
34231
8 0
2 4
32561
0 3
-0 1
33
49
0 4
-0 9
33556
0 9
0 9
34231
1.3
1.0
32561
1 2
1 :
33
54
0 8
0 c
33556
' 8
i 5
34231
8.9
2.5
32561
C 6
0 5
33
54
0 2
- ' 4
33556
C 7
0 6
3423 1
l 5
1.1
32561
0 2
•0 5
33
55
? 2
0 7
33556
¦ 2
1 i
3423 1
15
1 1
32561
0 9
0 8
33
55
1 5
0 3
33556
0 9
0 9
34231
' 5 5
2 9
32561
0 6
0 5
33
55
0 5
•0 6
33556
1 4
1 2
34 231
1 7 6
3.0
32561
0 8
0 7
33
55
0 7
-0 4
33555
I 4
• 2
34231
3 0
17
32561
C 8
0 7
33
55
1 3
0 2
33556
' 4
• 2
34231
1.1
0.9
32561
0 3
-0.1
33
5 5
3 7
1 2
33555
* 0
< 0
34231
1 6
1.2
32561
0 3
-0.1
33
55
2 6
0 8
33556
0 3
-0 1
34231
7.3
2.4
32561
0 7
0 6
33
56
4 6
; 5
33556
0 4
0 2
34231
7 6
2.4
32569
0 4
0 0
33
56
3 1
' 2
33556
0 7
0 6
34231
0 8
0.6
32570
0 5
-0 3
33
56
? G
1 n
33556
0 5
0 4
34231
1 2 9
2 8
32573
0 3
-0.8
33
56
3 3
t 4
33556
0 5
0 4
34231
13 S
2.8
V. 1A
-------
Table N-l (Continued)
Measurement-Map Bias? Statistics for HRS Residential Radon Measurements

Measured


.Measures


Measured


Measured

TP
Radon'

IP
Raco^'

ZIP
Radon*

ZIP
Radon'

Code
spCi-'L)
zt
Cocs
i cCi'L )
z-
Code
< cC"Lj
Zt
Code
(pCi/L)
Zt
32571
1.4
0 8
33156
3 7
l 3
33565
• 9
0 9
34231
16
12
32571
0.9
0 3
331 56
1 2
0 2
33565
0 9
0.3
34231
10 0
2 6
32571
0 4
-0 6
331 56
2 1
0 3
33565
i 3
C 6
34231
6 9
2.3
32571
2.9
" .6
33*56
! 4
J 4
33565
0 3
-0 7
34231
8 4
2.5
32571
• .0
C 5
331 56
0 2
¦ 1 5
33566
6 3
1 3
34231
8 5
2 5
32571
1.2
0 7
3315S
i 2
0 2
33566
0 8
•0 9
34231
2.1
1 4
32571
0.9
0 3
33156
1 1
r ¦
33566
2 1
0 1
34231
1 8
1 3
32578
0 4
-0 2
33-55
:¦ ?
0 3
3 3 566
0 3
0 9
34231
1.0
0 8
32578
0 6
0 2
33-55
3 6
1 3
33566
0 2
2 3
34231
1.1
0.9
32578
1.0
0.7
33156
1 3
0 3
33566
0 7
¦1 0
34231
0 5
0 3
32578
0.5
0.0
33156
0 4
¦0 9
33566
4 3
0 9
34231
0.2
•0.4
32578
0 5
0 0
33156
' 6
C 5
3 3566
1 9
0 c
34231
0 5
0.3
32578
0 3
-0.5
33156
2 6
' 0
3356S
2 1
0 1
34231
0.3
-0.1
32578
0 s
0 2
33156
i 7
0 6
3 3565
1 0
-0 6
34231
1 8
1 3
32579
o a
0 4
33156
2 4
0 9
33566
C 5
1 4
34231
2 2
1.4
32579
0 4
-0.2
33156
¦ 7
0 5
33566
C 6
•1 2
34231
3 8
1 9
32579
0.5
0 0
33156
.? 4
<"> Q
33567
2 0
n ?
34231
1 8
1.3
32579
0 2
-0 3
33156
¦ 0
n
J
3356?
2 3
0 4
34231
7 9
2.4
32579
0 4
-0 2
331 56
4 o
i 5
3 356 7
3 0
1 7
34 23 1
0 5
0 3
32601
< .0
0 2
33156
1 1
0 i
33567
i 6
0.0
3423 1
2 6
1 6
32601
0.5
•0 9
331 56
0 9
0 t
33567
0 8
•0 7
34231
4.0
1 9
32601
7.7
• 9
331 56
0 7
0 3
33567
2 2
0 3
34231
3 1
17
32601
1 .3
0 1
33156
2 0
0 7
33567
2.8
0 6
34231
1 0
0.8
32601
l .9
0.5
33-56
3 9
1 4
33567
1 7
0 1
34231
1.5
1 1
32601
8 2
2.0
33 156
' 3
0 3
33567
5.3
1 3
34231
1 9
13
32603
' 2
0 9
331 56
1 1

33567
32 5
3 1
34231
1 1
0 9
32603
0.3
-2.3
331 56
1 3
C 6
33569
1.9
0 S
34231
1 7 0
3 0
32603
3.0
-0 1
33*56
1 7
: 6
33569
t 0
0 0
3423 1
24.2
3 3
32603
1.4
-0.8
33 " 56
0 6
0 5
33569
1 3
0 3
3423"
0.3
-0 1
32605
2.4
-3.3
33156
: 6
0 5
33569
0 S
•0 5
3423"
2.6
1 6
32605
0 9
• 3
33155
i 3
0 3
3 3 569
0 4
0 3
3423"
0.9
0 7
32605
2 8
-C 2
33156
3 3
" 4
33569
2 0
0 7
34231
i 1
0.9
32605
1 8 9
1 7
33156
i 2
0 ?
3 3 569
1 7
0 5
34231
7 3
2 4
32S05
29 3
2. 1
33156
{j 7
C 3
3 3 569
0 2
t 5
34231
1 5
1 1
32505
1.5
-C 8
33156
0 3

33569
2 4
0 9
3423 1
i 5
1 1
32605
23 2
1 9
33156
3 1
d
3 3569
i 7
C 5
34 231
1 5
1.1
32505
8.2
0 9
33156
" 7
' s
3.3569
1 3
0 3
34231
0 6
0 4
32605
S 9
0.9
3315)'
- 4
0 3
33569
2 1
0 7
34231
3 0
17
32S05
13 a
1 4
33157
0 8
•C 2
33569
0 7
-0 3
3423 1
0 2
-0 4
32605
6.7
0 7
331 5 7
6 5
i 3
33569
1 0
0 0
34231
3 1
1.7
32605
1 9
-0.6
33 t 5 7
0 4
•0 9
33559
0 9
-0 1
34231
3 9
1 9
32605
9.4
1 0
33157
1.7
0 5
33559
0.7
-0 3
3423 1
4 3
1 9
32605
5 1
0 6
33157
2 0
0 7
33569
"0.7
2 3
34232
1.3
1 4
32605
S 5
0 9
33157
l 6
0 5
3 3569
0 2
¦" 5
34232
0 6
0 6
32605
2.9
-0 i
33157
3 9
1 3
33569
4 7
1 5
34232
2.9
1 8
32605
0 8
-1 4
33 1 57
1 7
0 5
33569
4 B
1 5
34232
2.9
1 8
32605
7.5
C 8
33157
2 2
0 3
33569
6 0
1 7
34232
1 0
1.0
32605
3 3
0 0
331 57
c •;
1 5
33569
50 5
3.7
34232
2.2
1.6
32605
33.7
2.2
33157
0 3
0 1
33569
3 0
1 1
34232
2.9
1 8
32605
1.5
-0 8
33-57
1 7
C 5
33569
0 5
-0 6
34232
1.9
1 .5
32605
3 5
CO
33157
i e
C 5
33569
1 0
0 0
34232
0.9
0.9
32605
2.0
-G.5
33157
1 4
0 3
33569
0 9
-0 1
34232
2.4
1 6
32605
0 2
-2.7
33-57
4 1
¦
3 3569
2 4
0 9
34232
0 6
0.6
32605
0.9
•1.3
33157
C 7
•0 4
33569
1 4
0 3
34232
0.2
-0.2
v.
-------
Table N-1 (Continued)
Measurement-Map Bias Statistics for MRS Residential Radon Measurements

Measured


~/assured


Measured


Measured

ZIP
Radon'

ZIP
Radon'

Z3P
Racon*

ZIP
Radon"

Code
(oCi/D
zt
Code
¦oCi/l;
Zt
Code
(pCi/L)
Zt
Code
(pCi/L)
2*
¦32605
1.3
-0.9
3 315 7
<3 0
• 3
33569
3.7
1.3
34232
1 5
1.3
32605
0 7
-\5
33157
2 1
0 7
3 35 70
1 0
0.9
34233
1 6
1 3
32605
1.1
-1.1
33-57
1 4
0 3
33570
4 5
2 3
34233
1 3
1.2
32605
2.0
-0.5
33157
• 8
0 6
33570
2 3
1.6
34233
2 3
1 6
32605
2 2
-0.4
33157
2 4
C 9
33572
4 9
2.0
34233
12
1 1
32605
1 1 4
1 2
33157
0 8
0 2
33572
0 7
0.3
34233
2.7
1.7
32605
1.6
-0.7
33157
• 3
0 6
33572
0 3
•0.4
34233
0 8
0 8
32605
13 2
1 3
33157
' 4
0 3
33572
1 0
0 6
34234
14
1.3
32605
15 3
1.5
33157
• 7
0 5
33572
2 1
1 3
34234
0.4
0 3
32605
0 2
-2 7
33157
6 2
' 3
3 357 2
3 7
1 8
34235
1 0
0 9
32605
1 3
-0 6
33157
0 9
¦0 1
33572
0 9
0 6
34235
1.0
0.9
32605
0 3
1 4
3315 7
6 6
1 9
33572
0 5
0 C
34 2 35
4 0
• .9
32605
1 3
•0 5
331 57
•3 9
1 9
33572
1 2
0 8
34235
1 7
1 .2
32605
2 0
-0.5
3315 7
0.5
0 7
33572
0 7
0 3
34235
0 9
0.8
32605
C 5
-1 8
33157
1 4
0 3
3 35 72
2 7
1 5
34236
0.4
0 5
32605
0 9
-1 3
33157
, y
0 5
33572
? 7
1 5
34 2 30
3 1
2 3
32605
0 9
¦ 1 3
33157
0 4
0 r'
3 3572
1 1
0 7
34236
0 2
-C 2
32605
0 5
-1.8
33157
0 e
0 5
33534
0 2
-2 0
34236
0.3
0 2
32605
2.5
¦0 .3
331 57
2 2
0 3
33584
• 3
0 1
34 2 3G
0 2
•0.2
32605
2.8
-0 2
33157
1 1
")
33584
13.1
2.6
34236
1 6
1.7
32605
1 9
0 6
331 57
2 3

33584
2 1
0 5
34236
2 4
2 0
32605
3.7
0 1
33-57
2 1
n
33584
3.7
¦ 1
34236
1 4
1 6
32606
3 3
0 1
33-57
0 4
¦0 9
33534
" 1 9
2 4
34 5 37
0 2
¦0 2
32606
7.5
1 0
3 315 7
1 5
C 4
33584
2.7
0 8
34237
0.3
0. 1
32606
1 6
-0 6
33157
1 s
^ 6
33534
0 5
•1 2
34237
0 3
0 1
32606
6. 1
0 7
33157
1 6
3 5
135 84
2 9
0 8
34237
0 3
0 1
32606
3.5
0.2
3 315 7
" 9
0 '
33592
0 2
•0 9
34237
0 3
0.1
32606
44.9
2 8
33157
R «
~ '
33592
4 6
2 2
34237
0.4
0 3
32606
0.5
•¦ 9
3 315 7
0 2
! 6
33592
1 0
0 7
34237
0 4
0 3
326C6
9.4
1.2
33157
; 3
0 3
33592
0 6
0 2
34237
0 4
0 3
32606
9.3
1 2
33157
• 7
0 5
33594
1 4
0 7
3 4 23 7
0 5
0 4
32606
9.2
1 2
33157
- 1
0 2
33594
n
¦J V
0 2
34237
0 6
0 6
32606
0 7
: 5
33157
0 5
3 7
33594
3 2
0 3
34237
0 7
0 7
32S06
4 0
0 3
33157
' 3
0 3
3 3 594
0 9
1 2
34237
0 7
0 7
32606
2 4
-0 2
33157
2 2
0 3
3 3 594
3 6
0 4
34237
0.9
0 9
32606
4 3
0 4
33157
4 2
! 4
33594
5 4
1 1
3423 7
0.9
0 9
32606
3.0
0 0
33157
2 5
0 9
"3594
2 4
0, ¦:
34237
1 1
1 0
32606
1 9
-0 5
33157
' 3
0 3
3 3594
0 9
1 2
34238
1 4
0.9
32606
1 9
-0 5
331 57
1 0
0 0
3.3594
1 3
0 8
34238
3.1
1.5
32606
3 0
CO
331 57
2 6
0 9
33594
1 5
0 6
34239
1 3
1 2
32606
12 5
1 5
33158
0 9
0 1
33534
0 9
•1 2
34239
1 .4
12
32606
7 3
0 9
33158
0 8
0 ^
33534
2.5
0 0
34239
0 4
0 3
32606
1 3
-0 5
33158
0 8
0 0
33594
2 2
0 2
34239
3.4
1.9
32606
0 7
-1 5
331 58
1 4
0 5
33594
- 1
¦1 0
34239
0.6
0 6
32606
C 9
-1 2
331 58
4 1
1 6
33594
1 1
1 0
34 239
1 1
1 0
32605
6 6
o a
33158
1 3
0 4
33594
1 .9
•0.4
34239
0.5
0.4
32606
2.2
-0 3
33158
3 7
1 5
33594
1 0
• 1 1
34239
0 4
0 3
32606
'. 9
-0 5
33160
0 6
- 0 6
33594
0 7
-1 5
34239
0 2
-0.3
32606
2.4
-0 2
33160
0 4
-1 0
33594
1 3
-0 8
34240
1.5
1.1
32606
1 9
-0 5
33161
2 2
C 7
33594
2 9
0 1
34240
1.9
1 2
32606
0.6
-1 7
3316 1
0 5
0 3
33594
4 7
0 7
3424 1
0 3
-0 2
32606
1 0
-1 1
331 02
C 2
1 1
33594
1 7
•0 5
34241
1 7
1 0
32606
0.8
-1 4
33162
J C
s 3
33594
1 7
0 5
34241
0 9
0 6
32606
2.8
-C 1
33162
1 0
- j 1
33594
2 8
0 1
3424 1
2.2
1.2
V 11
-------
Table N-1 (Continued)
Measurement-Map Bias Statistics for HRS Residential Radon Measurements

Measured


•Measured


Measured


Measured

2P
Raoon'

ZiP
Radon'

ZP
-~3don'

I?
Radon*

Code
pCi/L)
7 +
Code


Cade
-.C./Li
Zt
Case
¦ sCi'L'i
Zt
32606
2.2
¦0 3
33162
: £¦
> 6
33594
1 i 1
. n
t
3424 1
2.0
1.2
32605
7.6
• 0
33165
3 2
?
33594
3.6
0 4
34241
! 4
0 9
32606
4 1
3 .3
33165
¦: 5
3
33594
2 5
0 0
3424 1
2.9
1 4
32606
' 2
•0 9
33165
^ 7

33594

0 2
3424 1
4 0
! 6
32606
1 2
-0 9
33165
? i •;
6
33594
: o o
' 6
3424 1
1 3
0 9
32606
2 1
0 4
33166
2 S
. 2
23594
1 4 6
2 1
3424 1
0 2
•0.5
32606
22.5
2
33 1 66
2 3
2
33594
1 4 4
2 C
3424 1
3 1
! 5
32606
0.9
-1 2
33166
*
4
3 3594
2.7
0 1
3 4 24 2
1 9
1 1
32606
3 2
• t
33168
¦- 3 2
7
33594
i 9 9
2 4
34242
3 3
3 1
326C6
0 6
¦ i 7
331 68
2 5
S
33594
27 8
2 S
3 4 242
1 :
•3 5
32606
20 2
? 0
33169
^ o
?
3 3 594
i a
¦0 4
34242
~ 7
3 0
32606
12 9
1 5
33 1 70
2D 0
1
33594
3 3
0 5
34242
3 2
1 4
32606
1 2
C 9
.3 31 70
- 3
0
33594
2 5
0 0
34242
4 :
2 0
32506
0 7
¦' 5
3 3 1 7 2
2 3
i
3 3594
2 6
t 1
3 4 2 4 2
3 3
2 9
32606
« 1
0 6
33 1 7?
; c-
-=
33594
2 2
3 3
34242
3 0
' 6
32606
Z 5
. 7
331 72
2 3 2
i
3 3594
« A
'J
i •
34242
• 3

32606
2 9
r>
wl U
33172
: c
Q
3 3594
: 5
3 6
34242
• 0
0 4
3 2606
¦3 3
1 .2
33 1 72
2 4
0
33594
' 4
0 7
34242
•' 1
0.5
32606
2 1
-0.4
33172
-¦ ,3
1
33594
' 3
0 3
34242
0 4
•0 6
32606
* <
1 0
33172
5 9
9
33594
' 5
3 6
34242
0 2
- 1 4
32606
i 9
•0 5
33172
2 5 '
r,
33594
' 0
. : *
34242
7 1
2.6
32606
' 9
0 5
33172
2 3
2
•3594
; 2 3
: 9
34242
3 4
2 8
32606
9 4
1 2
33172
? 7
i
33594
2 4
0 1
34243
' 7
1 4
32606
5 8
3 7
33172
- 3 :
i
33594
"" 3
' 3
34243
4 1
2.2
3 2606
2.9
/¦* n
j w
33 172
3 5
4
3 3594
J 3
* i
.34243
? 7
1 8
32606
2 9
3 0
33172
~
6
33534
¦ 7
0 5
34243
' 0
• 0
32607
4 4
3 S
3 317 2
4 2
•3
33554
0 3
¦ 4
34243
0 7
0 7
32607
• 4
¦0 2
33172
j j
2
33 59 4
0 8
' 4
34243
1 5
1 3
32607
2 5
3
33172
5 6
3
33594
' 5
0 6
34243
A 7
0 7
32607
16.1
2.1
33172
2 9
5
33594
2 2
0 2
3 4 24 3
2 3
1 7
32607
2 4
r- 3
33172
- - :
3
33534
5
¦0 6
34243
2 8
1 9
32607
1 2.8
'• S
3 31/2
2 4
3
I vS1'1'
3 3
: 5
3 1251
' 0
0 9
32607
3 4
3 6
33 172
^ 2

33594
• T
•0 3
3 4 2 51
' 5
' 2
32607
• 0
•0 5
33172
I 4

5 3594
"
3 3
~4275
•: 9
2 2
3260 7
4 7.6
~ •
331 "2
r 1

33594
2 J
C 3
34273
: C 4
2 5
32607
2 5
c 3
331 72
- 3

'<3594
C. 4
i 5
3 4 2 7 5
2 1
! 3
32607
2.0
•\ <
33172
j "
<5
3 3 5 94
2 0
¦3 J
•4275
2 0
' 2
32607
4 7
C 9
33 1 72
3 2 2
2
33594
4 4
C 6
342 75
2. 7
0 4
3 260 7
4 7
0 9
33172
¦: 5
0
3 3 594
M 9
? "
34265
C 7
0 4
32607
0.6
• 1 0
331 72
0 d
4
33594
4 7
r. 7
3 4 2 8 5
2.6
• 6
32607
7 1
¦ 3
33 1 72
'0 2 2
.1
33594
3 6
3 4
34285
' 1
0 8
32607
3 1
0 5
331 72
3 2 2
2
33594
2 9
;
34287
0 6
0 2
32607
0 5
' 2
331 72
'25 2
£}
3 3594
4 3
3 6
34237
0 4
3.1
32607
1 9
0 0
331 72
3 2 '
3
33594
£ ?
i A
'J
34292
• 8
1 1
32607
5 4
• 0
331 72
4 0
5
3 3594
7 3
¦ 2
34292
1 2
0 8
32607
8.5
1 5
331 72
4 4 !
P.
3 3594
10.0
'¦ 6
34293
5 2
1 9
32607
6 9
1 3
331 72
< P £ ^
4
33594
4 9
3 8
34293
2 5
1 4
32607
2.3
0 2
33172
-3 I 2
2
33594
l 0 9
: 7
34293
0 4
0 0
32507
5.9
• i
331 72
o i 2"

3 3594
3 5
3 4
34293
1 0
0 7
32607
1 4
-3 2
3 317 2
4 1
t;
33594
3 9
¦ 0
34293
2 9
t 5
32607
2 9
0 4
33172
.< 3
6
33594
3 3
0 3
34293
5 S
2 0
32607
1 5
-C 2
3 3 17 2
4 9 •
V
J 3594
3 2
3 8
34293
2 6
1 4
32607
7 3
1 3
331 72
3 9
4
33594
4 4
0 6
34293
2 3
1 3
32607
2 3
0 6
33172
2 2
o
.3 3594
3 5
'¦ 4
34293
1 3
0.9
-------
Table N-l (Continued)
Measurement-Map Bias Statistics for HRS Residential Radon Measurements

Measured


Measured


Measured


Measured

ZIP
Radon*

Z=>
Radoi•'

ZIP
Radon'

ZIP
Radon'

Code
fpCi/L)
Zt
Coce
i sCr'L i
Zt
Code
;qCi'L>
Zt
Ccce
(oCi'U
Zt
32607
5.8
• 1
33172
2 0
0 8
33594
1 6
-0.6
34293
2,6
1 4
32607
10 8
7
331 72
3 2 '
1.3
3 3594
2 5
0 0
34293
2.9
1 .5
32607
2 4
0.3
331 72
1 1
0 2
33594
2 0
-0.3
34293
3.0
1.5
32607
1 .7
•0.1
331 72
1 4
0.5
33594
8 9
1 .5
34293
1 5
1 0
32607
5 2
¦ 0
33'. 73
0 7
•0 7
3 3 594
0 7
1 5
34293
2.5
1 4
32607
4 3
0 8
331 73
0 7
-0 7
33594
1 4
-0 7
34293
2 2
1 3
32607
' 1 7
1 8
331 73
2 2
0 5
3 3 594
0 9
-1 2
34293
1 4
0 9
32608
7 0
1 .8
33 1 73
2 3
0 5
33594
5 2
C 8
34293
2 7
1 4
32608
5 9
1 7
33173
2 2
0 5
33594
1 0
•1 1
34293
1 7
1 1
32608
2.0
0.7
33173
0 4
3
33594
18 0
2.3
34293
7 5
2.2
32608
2.3
0 8
33173
1 0
¦0 3
3 3594
1 3
-0 8
34293
1 1.5
2 5
32608
<1.3
1 5
331 73
c -
1 4
33594
2 7
0 1
34471
5.0
1 0
32SC8
2 1
0 7
33175
C 3
c c
33594
2 7
0 1
34471
5 7
l 1
32608
5 4
! 5
33175
2 s5
1 -
33594
1 2 3
1 9
34472
0 3
0 4
32508
11.6
2 3
33175

• 1 4
33594
37 9
3 2
34601
0 9
0 0
32608
5 z
1 e
33175
C 2
¦ 1 4
33594
0 9
¦ 1 2
34601
2.3
' 0
32508
0 9
-0.2
33175
C -1
C\
3 3594
" 1
1 0
34601
1 0
0 1
32606
3 3
1 7
331 76
3 '
0 9
33594
0 8
1 4
3460-
0.5
-0 7
32608
1 1
C 1
331 76
•
0 1
33594
' 1
•1 0
34602
2 1
0 9
32608
24.2
3 0
331 76
i 9
0 4
33594
5 4
0 9
34606
0 4
0 3
32608
C 3
-0 2
33 1 7 G
2 3
0 c
33594
i j
-C 9
3 C D
0 9
0 5
3260S
' u
0 3
33176
• c
0 4
33594
i 1
¦1 0
34606
0 7
0 3
32608
6. 1
1 7
33176
1 -
0 1
33594
1 9
-0 4
34608
0 9
0 6
32608
7.3
1 9
331 76
8 6
2 0
33594
i 5
-0 6
34608
0 7
0 4
32608
3.7
' 2
33 1 76
0 S
• c 4
33594
9 3
1 5
34608
0 8
0.5
32608
12 4
2 4
33-76
1 b
0 2
33594
l 1
• 0
34608
- 1
0 8
32608
2.2
0 8
33176
i 2
-0 1
33594
0 6
-1 7
34608
12
0 9
32608
6.8
1 8
331 76
2 2
0 6
3 3594
4 5
0 7
34609
0 5
-0.3
32608
6 8
1.8
33 1 76
1 3
0 0
33594
1 8
-0 4
34609
1.1
0 6
32608
1 9
06
33176
t c
0 3
33594
3 3
0 3
34610
0 3
-0 4
32608
1 0
0.0
331 76
3 3
1 3
33594
3 3
0.3
346 1 3
0 6
0 3
32608
2.2
0 8
33'76
1 4
0 1
3 3594
3 S
0 5
346 1 3
0 5
0 3
32608
23 0
3 0
3 3176

*
3 3 594
8 i
1 4
34b l 4
1 4
l 1
32608
0 7
-0 3
3 3 1 7 6
< -
D 2
3 3 594
1 4 2
2 0
34 615
0 4
-0 7
32608
2 3
0.8
331 75
2 Z
0 5
33594
2 0
0 3
346 16
0 4
0 5
326C8
0 9
-0 1
331 "5
; 2
J o
3 3594
c 5
1 i
34 6 16
0 4
-0 5
32608
0 9
-0 i
33 1 7S
" 'j
" 6
33594
1 9
-0 4
346 1 e
1 3
0 7
32608
4.2
1 4
33176
! 4
J
3 3594
3 7
0 4
34616
0 5
-0 3
32608
3.3
1 1
33176
1 5
Q /
33594
22 5
2 c
3461 6
1 0
0 4
326C8
2 2
0 8
33176
1 6
0 2
33594
0 3
-2 5
346 16
1 4
0 8
32608
1 8
0 6
33176
' o
0 2
33534
C 7
1 5
346 1 6
3 1
1 5
32608
3 7
1 2
33175
2 0
C 5
33594
0 7
• 1 5
346 1 6
1 7
0 9
32508
1 -3
0 5
331 76
0 4
¦! 2
33594
2 7
0 1
346 19
1 1
0 9
32608
1 8
0 6
231 76
' 2
-0 *
33594
4 7
0 7
34619
1 5
1 2
32608
5 1
1 5
33177
' 3
-3 7
33594
7 5
1 3
34619
17
• 3
32608
3 6
1 2
331 77
• 5
0 5
33594
0 5
1 9
34619
0.6
0 3
32608
1 -
0 1
331 73
3 1
4 £.
33594
i 7
¦0 5
346 1 9
C 5
0.1
32606
2 0
C 7
331 78
1 3
0 ^
33594
5 4
0 9
346 19
0 7
0 5
32606
3 2
1 <
331 78
0 4
¦ 0 ~
33594
•0 7
' 7
346 1 9
0.9
0 7
32608
0 5
-0 6
331 78
? 2
« ">
33594
9 0
1 5
34519
0.9
0 7
32608
C 7
-0 3
331 79
1 3
0 0
33594
7 2
1 2
346-9
1 6
1 3
32608
2 3
0.8
33180
0 S
•C 3
3 3596
1 8
1 0
34619
1. 1
0 9
32609
2.3
0 8
33180
0 6
- o
33598
0 2
-0 7
346'9
0 3
-0 4
32603
7 9
2.0
33'81
3 5
1 "y
3359S
0 6
0 1
34619
0 3
-0.4
N- 14
-------
Table N-1 (Continued*
Measurement-Map Bias Statistics for HKS Residential Radon Measurements

Measured


fvteasuri.'d


Mft,isur"d


Measu-ec

ZIP
Radon"

ZIP
Radon'

Try
RaSon'

2P
Radon"

Code
(cCi'Lt
•7t
Cod*
. oC. I )

Cook
¦ pCrl.1
7 ~
Code
(pCi/L!
zt
32603
2 2
0 8
33183
2 0
0 ?
33502
0 4
¦0 4
34620
1 5
1 2
32608
3.9
1.3
33153
4 6
0 8
3 3603
1.9
0 8
34620
1 4
1 1
32609
0 5
-C 7
33163
6
' • ->
3 36 03
0 5
0 7
34621
2 3
-0 2
32609
0.4
' -C.9
33 1 S3
' 9
•0 3
3 3303
1 3
0.4
34621
0 3
0 6
32609
0.2
6
33183
: 7
^ 4
33604
0 4
0 9
3462 1
C 6
0 4
326C9
'2.5
2 5
33183
3 1
¦: 3
3 3604
0.5
0 6
34621
0.9
0 7
32615
8.7
1 6
33183
r>
! 6
33504
0 2
-1 6
34621
1 5
1 1
32615
12 5
1 9
33133
0 5
o
3 3 604
1 7
0 7
34621
0 7
0 5
3261 5
4 9
1.0
33133
' 3
: 3
33604
1 2
0 3
34621
1 0
C 8
32615
0 4
-¦ 7
33133
> 5
'*'• i
3 3 606
i •
1 3
3462'
C 6
C 4
32615
2 4
0 2
33185
i 0
: 2
33606
3 2
¦0 6
3452":
0 2
0 5
326 1 5
S 2
l 5
33185
2
'• 0
33603
! 4
1 3
3462 -.
C 4
0.1
32615
12 7
2 0
33195
1 5
.<
3 3 60 3
1 4
1 3
3462 1
0 4
0 1
32615
1 0
•0 7
33 135
~ "j
•• 3
3 3606
3 6
3 4
346 21
0 8
0 6
326 18
7 4
l 8
33 135

0 "*
'-36 0 6
3 9
3 3
34621
6
' 2
32619
3 2
5
33"86
•"i G
• 7
3 360 3
: o
' 6
.346 21
0 3
2
32656
C 3
¦0 3
33 186
¦; 2
j 5
• 3 c 3 6
• 1
- 0
34521
0 2
0 5
32656
2 0
1 2
33186
1 S
) 5
33636
• 3
" 2
3462 1
0 8
0 6
32656
0 5
0 3
33186
3 3
¦'? 5
3 36 3 6
0 2
C 6
34621
1 0
0 8
32656
0 4
-0 5
33186
23 6
2 2
33636
0 6
0 4
34621
0 2
0.5
326G7
5 6
? 0
3 3 ' 86
i
0 ?
-? 3 6 3 6
• 7
: r,
3 1622
0 5
0 3
32669
¦ 8
0 6
33-85
3 9
'? 5
3 3 3 C 6
3 3
0 2
34622
0 3
ri 7
32663
4.4
i 3
33-8G
l C
' 2
3 3 C 06
0 7
0 6
34622
0 4
0 1
32669
• 1
0 2
33' 85
} x
-j 7
i 3 6 C 7
0 6
0 2
34 6 22
1 1
i 1
326S0
1 6
1 0
33 186
' £

33307
3 3
0 6
34623
0 5
3 1
32693
4 7
1 9
33iee

;
" 3307
1 3
1 1
34623
0 5
3
32693
0 7
0 0
3 3 1 S 6
o
- ?
3 360 7
i 7
1 2
34623
J c
0 2
3270'
1.8
1 1
33186
3 8
0 5
33607
i 5
1 3
34623
C 3
0.5
32701
0.2
' 0
33186
3 2
0 2
35607
2 3
1 6
34623
0 9
0 6
32701
2.5
1 4
33183
3.4
C 3
33307
3 1
1 7
34624
0 8
0 2
32701
2 2
1 3
3313 6
2 7
0 0
3 3 607
7 7
2 ^
34624
C 4
¦C.5
32701
2.5
1.4
3 3 1 S 6
• 2
1 1
33609
' 3
n J
34624
0 4
0 5
32701
0 2
^ 0
3 318 6
¦ 3
' 0
3 3 609

ri ~
34624
: .0
0 5
32701
0 7
0 2
3 3 13 6
« A
' 3
3 3603
- 7
1 6
34525
2 9
• 6
327C3
1 0
0 7
3 318 6
-> O
? 3
3 3 603
3 5
3 2
34 6 2 5
' 9
• 2
32703
0 5
0 5
33136
7 0
3
3 3 609
; Q
3 7
34 6 25
¦
1. 1
32703
1 2
f! 9
3 318 6
: !>
¦ r.
3 360 9
.. 6
0 3
34625
; 6
1 1
327C3
0 5
0 0
3 3 13 6
' 3
' 0
3 3609
i 0
3 7
34625
' 0
0 6
32703
0 5
C 2
33 1 3 6
' -»
¦J 6
3 360 9
3 5
r.
34625
0 8
0 4
32703
1 4
1 0
33136

J 6
3 3609
3 3
3 6
34625
2.7
1 6
32703
2 3
1 5
33186
2 6
0 0
3 3609
3 3
" ^
34625
1 0
0.6
32703
C 6
0 2
33 1 86
1 i
¦ j
3 3609
' 6
' 1
34625
1 0
0 6
32703
1 2
: 9
33 1 86
n 1
c
-0 2
3 36CO
U 5
0 2
34625
0 4
0 3
32707
e 8
3 4
33186
i 6
¦0 7
33609
2 6
> 5
34625
1 1
0 7
32707
0.6
C 1
33186
6 0
! 1
3 3609
0 4
0 0
34625
o a
0 4
32707
0 9
0 5
33' 86
! B
0 5
33609
" 1
0.8
34630
0 9
0 8
32707
1 5
1 1
331 86
IE 8
2 3
33639
0 6
0 3
34635
0 2
¦0 5
32707
0 9
0 5
33 '86
T 1
; 3
33509
0 4
0 0
34639
0 8
0 8
32707
C 5
0 ¦
33*86
1 S
0 3
3 3609
0 5
0 2
34633
C 6
0 4
32703
5
C '
33-86
j ~
3 3
3 36 09
0 9
O 7
3 4 63 9
1 2
1 1
32703
0 6
0 3
3 3-86
? 5
¦ 3 '
336 '0
1 7
0 3
34639
i 5
1 3
32703
0 6
0 3
33*86
i 8
¦ 0 5
335 • 1
0.4
0 2
34639
' 0
0.9
32703
0 5
0 1
3 3 ' 8 3
1 ]
- ' .?
336-1
0 2
0 3
34639
C 5
0 4
32708
0 4
-C 1
33185
2 *
¦0 3
3 36 11
0 6
0 2
34 6 40
0 4
-0 1
v.

-------
Table N-l (Continued)
Measurement-Map Bias Statistics for HRS Residential Radon Measurements
Measured	Measured	f/o^sj'Rd	Measured
2 P
3aco-'

ZIP
Radcn

ZIP
Radon"

Z!P
Radon'

Code
i pCi'L)
Zt
Code
oC L'.
7 r
Code
ioCi.'L!
Zt
Code
(oCi/L)
Zt
32708
0 3
¦ **
33186
3 2
; 2
3361 t
0 5
0 0
34640
C 4
-0 1
32708
0 8
0 6
3 3 1 E S
4 4
0 6
3361 1
0 6
0 2
34640
0 5
0.1
327C8
0.4
¦0 1
33185
3 2
0 ^
336 M
1 5
; 0
34641
0 7
0.4
32708
0 3
¦ -0 4
33136
•. i"\ "¦
¦ vJ >L
' 3
335 1 1
! 0
0 0
3 4 6 4 2
¦ 5
0 9
32708
1 1
0.9
33185
i 6
0 0
3 36U
3 3
1 3
34542
0 6
0 0
32708
0 4
-0 1
33135
0 5
¦2 2
3 361 1
0 4
•0.2
34642
0.2
-1.0
32708
3 8
0 3
33 1 86
3 6
0 4
3 361 2
C 2
-1 0
3464 2
1 0
0.5
32708
0 3
0.4
33136
o 9
" 2
3 36 1 2
0 3
¦0 4
34542
09
0.4
32708
C 4
-0 1
33136
- 7 7
? 5
336 ! 2
C 5
•0 1
34642
0 6
0 0
32708
0 4
¦0 1
331 36
¦¦i 6
' 5
3 361 2
0 7
0 2
34642
0.6
0 0
32708
0 4
-0 1
33186
3 1
c>
3 36', 3
1 0
0 7
34 64 3
0 6
0 3
32708
C 2
-0 0
33186
5 1
:• s
3 36 1, 3
J 4
0 1
34 64 3
0 7
0 4
3270B
C 9
0 7
33 1 86
- 2
r;
3 36 1 3
¦ 5
1 1
3 4 G4 3
0 7
0 4
32708
o a
0 6
33136
- 3
; ,3
3 36 1 3
0 5
0 1
34643
0 9
0 6
32 70S
' 0
0 8
33 ) 36
; 3
0 '
336 1 3
: 3
: 0
34 644
0 2
0 5
32708
0.8
•" 6
33 136
... ^
' 4
3 3613
0
¦0 7
3 4 6 4 4
0 6
0 4
32708
C 2
0 3
3313
0 3

3 36 1 3
' 3
' 0
34644
0 2
¦0 5
32703
0 3
-0 4
33' 86
•: 5

3 3 613
1 3
• r.
34644
1 1
0 9
32708
1 .0
C 8
33186
G
0 '
33614
0 8
0 6
34644
1 6
! 2
32708
0.3
C 4
3.3*86
° 0
i 4
. 3 3 6 1 ^
0 6
0 4
34647
0 7
0 4
32708
0.9
0.7
33*86
3 5
i /
3 36-4
0 2
0 6
3464 7
0 5
0 1
32709
0 9
0 6
33-86
9 3
'¦ 6
336 14
C 2
¦0 6
34647
0 9
0 5
32709
0.4
C. 1
33-86
6 7
1 2
336 ¦
0 3
0 2
3464 7
0 6
0 3
3271 2
0 3
-0.4
33*86
S 8
' 0
3 35 1 4
0 4
n
V yj
3464 7
0 8
C 5
327 1 2
? 7
1 6
3 3 ' 8 5
4
: T
33614
0 5
0 2
34643
0 8
C 5
3271 2
0 2
0 8
33-8 6
~ 3
•3
3 3 6 1 *1
0 5
0 2
3 4.3 5 2
0 3
-0 7
32712
0 6
0 2
33185
3 6
C i
J 3 0 1 4
r, a
^ u
0 6
34652
0.3
-0 7
3271 2
0.4
-C 2
3 318 6
3 3
6
3361 5
1 5
1 1
34652
0 7
0 1
32713
0 8
0 6
3 316 6
10 7
1 6
3 3615
0 4
-0 *
34553
0.5
-0 4
32713
0 5
0. 1
3316 5
3 7
' 6
3 3615
2 0
1 1
34 6 53
0 3
-0 9
327 *4
0 4
-0 3
3 3 1 3 S
5 4
0 9
3 3615
n 7
0 4
34653
0 5
-0 4
32714
0.7
0 2
3 3 18 6
o 3
: 1
3 3 6 1 5
¦. A
; 4
346 54
0 6
0 3
3271 4
0 9
0.4
33 185
o
C 9
3 36 15
1 6
1 2
346 54
1 0
0 7
327* <1
0 9
0 4
3 318 B
• 0 3
' ?
336 1 5
- 1
< 3
34655
0 8
0 6
32714
0.3
•0 6
3 319 6
7 5
' 4
3 36 1 5
1 7
1 3
34655
0 9
0 7
32714
1 4
0 s
3313 6
0 -
_ D
33615
C 5
0 !
34655
0 6
0 3
32714
0 8
0 3
3 318 6
3 3
¦*. a
3 36 1 5
0 6
0 3
3 4 6 5 5
1 6
1 2
32714
0 2
¦ 1 0
33136
o
' 5
3 3615
3 0
: 8
34665
0 5
0 3
32 7 ' 4
1 5
0 9
331 36
O 7
; 0
3 36 15
' 1
0 8
34665
0 7
0 5
32714
1 1
0 c
33136
2 1
C 3
3 36 1 5
0 5
0 1
34665
0 3
•0 4
32714
2 3
1 3
33136
rr 7
* '3
3 3615
0 4
0 !
34665
0 3
-0 4
32714
C 7
C 2
331 86
£. 7
' C
336 1 5
0 8
0 5
34 6 65
0 2
0 8
32714
0.7
: 2
33 1 86
7 j
! 3
336 15
1 3
1 3
34667
0 4
•0 4
32714
1 0
0 5
33136
4 2
0 c
336 ! 5
2 0
1 4
34667
1 0
0 6
32714
0.7
C 2
3 3-.86
5 3
:¦ 9
33515
3 C
1 8
34657
1 2
0 8
32714
* 0
C.5
3318$
4 Q
3 5
3 36-5
2 2
1 5
34868
0.8
0 1
32714
4 7
•, i
331 86
l, S
-0 s
3 36*5
1 1
0 8
34663
1.2
0.5
32714
1 .3
0.8
33*87
1 7
C- 6
336 15
0 7
0 4
34677
0 8
0 8
32714
0 2
-1 0
33*87
a
: 0
335*5
0 4
0 1
346 77
0.8
0 8
32714
V3
0 8
3 3-89
2 4
• 0
3 3 G 1 5
0 4
0 *
346 77
0 9
0 9
3272C
3 5
2 5
33 *.89
C 5
3 a
3 3615
^ c
0 *
346 77
1 8
1 5
32724
0.5
0 5
33189

0 4
3 36 15
0 5
0 1
346 77
0 7
0 7
32738
1 4
1 1
33183

0 4
3 3615
1 2
0 9
346 77
0 5
0.3
32746
0 5
0 0
33189
2 9
1 3
3361 5
0 2
0 8
34677
0 3
-0 1

-------
Table N-l (Continued)
Measurement-Map Bias Statistics for IIRS Residential Radon Measurements

M.easj'ec


Moastrnd


Moasured


Measured


3adon'

Z?
R/iCC"'

2P
H;. don"

?P
Radon'

Ccce
(oCi.'-l
L~
C ceo
¦. j C1 L '¦

Code
cC 1L)
lit
C-;:1c
! pCl/l)
z+
32746
3 7
0 1
33139
0 9
0 2
336 16
' 6
1
345 77
0.9
0 9
32746
0 2
0 9
33139
0 3 '
C1 2
3361 7
0.6
0 1
3-677
0 8
0 8
32746
0 3
3 2
33189
• 9

336 1 7
: 0
C 6
3-677
2.7
* .8
32746
3 7
• 1
33139
1 ?
0 9
3 3617
; 2 2
3 0
.i 0 7 7
0.6
0 5
32746
C.9
C 3
331 89
! 3
" 5
333' 7
0 7
0 Z
34 6 7 7
0.2
-3 4
32746
C.7
f\ «
33 1 90
0 2
-1 2
3 36' 7
0 7
0.2
34677
! .0
0 9
32746
• 1
0 5
33190
2 C
1 «
335' 7
0 7
0.2
34677
0 9
0.9
32746
0 8
C 3
33:93
? 3
^ 2
336 ' 7
3 2
• 7
34683
1 0
0 4
32746
1 i
C. 5
33-93
; 3
0 0
3 36*7
1 4
0 9
34 633
0 2
1 2
32746
1 .1
C 5
33193
2 1
: 3
336:7
0 9
0 5
34633
0 3
-0 8
3 2 74g
0.4
3
33193

O 3
336 -7
1 2
0 8
3 4 6 83
1 2
0.6
32746
0 2
•C 9
3 3 19 3
; 5
-. 0
3 33'7
0 7
0 2
34683
1 C
0 4
32 745
• ¦>
0 6
32 1 93
1 -!
. 4
3 3 ' '
¦: .) 4
3 3
S 6 8 3
1 3
0 7
32746
1 0
i*» »
) •-»
33-9 6
n
\ 7
3 3 6 1 7
0 5
0 -1
3 4 683
3 3
0 8
32746
1 4
0 7
3 3 ' 9 £
' 9
I 5
33c 1 •
3 3
1 "
.3 4 683
1 0
0 4
32746
0 7
0 1
33*96
: 0

3 3 3 ' 7
0 ;•
1 3
34 68 3
'. 2
0 4
32746
1 2
0.6
33 1 3c
7
" 6
3 2 5 17
Z.
•J ->
0 1
34683
! 2
0 6
32746
0 6
0 0
3 3 19 3
0 7
: 2
3 3 6 1 7

0 2
34683
1 3
7
32746
1 0
0.4
3 330 1
0 5
C 5
3 3 6 1 7
i 1
0 7
3468 3
0 2
1 2
32746
1.5
0.8
3 330 1
0 8
^ 0
3 361 7
0 5
0 1
34683
1 "
0 5
32746
0 7
0 1
3330 1
0 5
5
3 3617
! 2

34683
C. 6
-0 1
32746
0 3
-0 5
3330 1
0 6
-0 3
3361 7
Z 0
3 •
3 4 65 3
C 3
0 8
32746
1 .1
0.5
3333 1
r\ ^
-C 3
3 3617
- -7
1 5
34683
1 1
C 5
32750
0 7
0 2
33336
0 6
0 2
3 36 1 7
2 7
1 3
~ 46 6 3
0 4
¦0 5
32750
C 6

3 3 3 C 3
0 ~

3 3617
2 9
' 6
6 £ 3
0 2
-1 2
32750
0 6
0 o
3 3303
¦ r,
•;
3 3-3 1 7
'¦ 3
; 3
34663
• 0
r* •*
32750
3 5
-0 1
33303
0 -
0 s
3 361 ?
J L-
i 7
34653
C 8
0.2
32750
1 '
0 5
333C8
1
0 2
3 3617
¦)
1 8
3^633
6
0 9
32750
0 2
0 9
3 3 3 C 8
' 1
0 3
336 1 7
C 3
3 6
3 S 3 3
• 1
0 5
32750
3 5
-0 1
333C 3

• f.
3 3617
? 0
! 3
34564
0 7
0 2
32750
o a
C 3
33308
J 1
• -
3 361 7
' 0
3 6
34-3 34
0 2
-0 9
32751
i i
0 7
33308
0 5
0 5
3 36 1 8
0 4
3 *
34-3 3-
0 6
0.1
32751
1 0
3 6
33308
0 ?
0 •/
3 36 1 3
•3 6
3 •;
3-334
0 9
0 4
32751
4 5
2 '
33303
•
v 2
3 36'8
3 6
') 4
346 8-
0 9
0 4
32751
1 3
^ £
33303
• :
0 1
3 3618
¦j ->
3 1
i 4 6 84
0 9
0 4
32751
2 '
1 3
33309
: 1
0 1
3 36 18
0 8
3 7
3 4-3 8--.
0 8
0 4
32751
0 2
¦ C
33309
2 3
" 3
•; 3 - 4 9
0
J 4
3 4 6 8 4
1 6
1 0
32751
0 5
o •
33 3 09
3 3
« -
3 33-8
>¦* *
'j -
0 1
3463
-------
Table N-l (Continued)
Measurement-Map Bias Statistics for HRS Residential Radon Measurements

Measured


Measured


M'?asjrod


Measured

ZIP
Radon*

IP
r
3 3624
O <
C
1 6
34689
17
1 4
32765
1 2
0 9
333 6
• 1
3
3 3G 2-1
;") 7
0 6
34689
0 7
0 5
32765

o a
3331 7
V r.
J 3
3 3624
1 7
1 4
34691
0 4
-0 2
32765
C 5
:• o
333' 7
rs 7
j <
3 3624
0 2
•0 4
34691
C 3
¦0 5
32765
1.0
C 7
333 ' 7
1 1
<">
_¦> C.
33624
1 1
1 0
34691
2 1
• 5
32765
1 .3
1 0
3331 7
1 4
0 1
33624
0.8
0 8
3 4 S 9 5
1 9
1 4
32765
C.7
C. 4
333 i 7
0 2
¦2 1
33624
0 8
0 8
34 695
C 4
•0.3
32765
1.0
C.7
333' 9
0 3
-2 2
33624
0 4
0.2
34695
0 8
0.5
32765
i 0
C.7
333' 9
5
• * 0
3 3624
0 6
0 5
34695
0 4
-0 3
32765
0.7
0.4
33319
1 4
0 4
33624
0.6
0 5
34695
1.3
1 0
32765
0 4
¦0 2
33319
2 1
0 i
33624
0 2
•3 4
34695
^ 4
1 6
32765
1 1
0 8
33319
1 :
0 7
33624
^ 1
' 0
34695
0 5
0.1
32765
1 7
• 2
3 3 319
• ¦)
- -
136/4
0 9
0 9
34695
0 8
0.5
32766
0 5
0 0
33319
J ~j
,¦ 3
3 3624
0 5
0 4
34695
0 9
0 6
3277'
0 6
0 3
3 3 3 2 1
' Z
1 "
3 3 3 ? 4
0 z>
3 4
34695
r\ p
0 1
3277'
1 3
1 0
3332
- ;

; 3 6 2 4
¦) 3
0 8
3 4 695
0 5
0 1
32771
0 8
0 6
33322
1 £
3 3
3 33 24
0 7
0 6
34695
1 7
1 3
32771
0 8
0 6
33322
~ 5
• 5
3 36 24
0 S
0 8
34695
0 4
0 3
32773
0 8
0 7
33322
3 2
1 1
¦ /
33524
0 9
0 9
34695
0 8
0 5
32776
0.6
0.3
33322
C 5
i 0
33624
* n
0 9
34695
1 2
0 9
32778
0 5
0 3
3332 2
2 3
3 2
3 36? 4
0 9
0.9
34695
2 5
1 7
32778
0 5
0.3
33322
A 7
1 0
33624
0 9
0 9
34695
1 4
1 0
32779
0 7
0 4
33322
r 9
1 5
33S24
r> Q
0 9
34695
2 1
1 5
32779
3 3
0 4
33322
' 5
3 3
33624
0 2
n 4
3 4698
1 2

32779
1 0
0 7
33322
- 7
¦ 2
33324
3
• •}
34698
0 3
- 1 0
32779
1 2
0 9
3 3322
? !*N
3 0
3 3 G 2 4
1 2
1
34698
0 4
•0 7
32779
o 4
0 1
33322
• '5
3 0
3 36 24
0 2
0 4
34699
0 9
0 0
32779
i *
0 3
333??
2 3
3 2
3 36 24
' 2

34698
0 5
-0 5
32779
r 7
0 4
33322
0 2
3 7
3 36 24
\ 0
0 9
34698
C 7
-0 1
32779
3 3
0 6
33322
' 3

33624
0 6
0 5
34 7 1 1
n "*
0 3
32779
3 3
0 4
3332?
0 3
; 2
3 36 24
0 4
C 2
3474 1
0 9
•• 0
32779
r- 1
0 4
33322
• 0
; 3
33624
0 6
'¦}
34 7 4 3
• 0
1 1
3277S
0 9
0 6
33322
> 9
0 -1
3 36?4
1
:
34 7 4 4
1 1
1 3
32779
2 3
1 5
33322
2 '1
0 1
3 362 4
0 '3
0 4
34 74 4
: 1
1 3
32779
• 0
n 7
333 2 2
' M
3 3
33624
0 5
0 4
34 74 4
1 0
1 2
32779
2 4
1 6
33322
2 5
0 3
3 3624
1 0
2 9
34 746
0 6
0 6
32779
1 2
C 9
33322
' 0
-r' S
3 3624
0 3
0 8
34756
0.3
0 3
3277-3
' 5
1 '
333 2 2
1 1
¦0 7
3 3624
f* 7
0 G
34756
0 7
0 5
3277 =
C~ "*
0 4
33322
1 1
. ,3 7
33624
0 s

34769
0 3
0 0
32779
0 5
C 1
33322
1
r
3 36? 1
0 9
0 9
34769
0 6
0 0
32779
C 6
0 2
33323
1 -
0 1
3 3624
0 3
0 8
34 769
0 3
0 0
32779
1 8
i 3
33324
1 3
0 3
3 36 2 4
0 4
0 2
34771
0 6
0 6
32779
0 8
C 5
33324
3 9
1 7
3 3624
0 2
•C 4
34786
0 9
0 8
32779
0 8
0.5
33324
1 0
0 3
33624
• S
1 3
34786
0. 7
0 5
32779
0.8
0.5
33324
1 0
0 3
33624
0 2
-0 4
34786
0 6
0 4
32779
1. 1
C.8
33324
0 5
• 1
33624
0 6
0 5
34786
0 3
-0 3
32779
0 5
0 1
33324
7 c
2 3
33624
0 6
0 5
34787
0 6
0 3
32779
0.9
0.6
33324
T 9
2 3
33624
0 5
0 4
34787
0.9
0 7
32779
0 2
-0.8
33324
" 6
2 C
33624
0 5
0 4
34946
0 7
0 5
32779
0 6
0,2
33324
r, ~
¦ 1 1
33624
3 0
1 9
34947
0 4
P 1
32779
0 2
-0 8
33324
2 5
•; 7
33624
0 2
0 4
34947
1.4
1 0
32779
0 5
0 1
3 3 324
1 *

33:324

! 2
34949
0 6
0 6
32779
0 2
0 8
33324
~ 2
~ 7
3 33 24
0 9
0 9
34950
C 7
0 5
X
18
-------
Tabic N-l (Continued)
Measurement-Map Bias Statistics for HRS Residential Radon Measurements

Measured

wmuamta*
Measured


Measured


Measured

TP
Radon*

TP
Radon'

TP
Radon'

ZIP
Radon*

Code
(pCi/L)
zt
Code
fpCi'L)
Zt
Code
(pCi/L)
zt
Code
(pCi/L)
Zt
32779
0 2
-0 8
33324
2 5
0.7
33624
0.8
0 8
34952
2 3
18
32779
0 4
•01
33324
2 5
0 7
33624
0 9
0.9
34956
0 4
0.4
32779
0 7
0 4
33324
1 9
0 4
33624
0 9
0.9
34957
1 2
11
32779
0 4
-0 1
33324
1 9
0 4
33624
1 3
1.2
34957
0.3
•0.1
32779
1 0
0 7
33324
2 2
0 6
33624
0.5
0.4
34982
0.5
0 3
32779
0 4
-0.1
33324
2 2
0 6
33624
0.5
0.4
34983
0.9
1.2
32779
0 3
-0 4
33324
2 3
0 6
33624
0.5
0 4
34983
0.0
11
32779
0.6
0 2
33324
2 3
0 6
33624
0.9
0.9
34983
0 5
0 7
32779
0.2
-0 8
33324
1 7
0 3
33624
0.4
0 2
34983
0 7
1 0
32779
06
0.2
33324
3.0
0 9
33624
0 2
-0 4
34984
2.0
1.7
32779
0 4
-0.1
33324
3 0
0 9
33625
0.6
0 6
34990
0.5
0.5
32779
0 3
-0 4
33324
5.1
1 5
33625
1.7
1 5
34990
1.9
1.6
32779
0 5
0 1
33324
3 6
1 1
33625
0 4
0.2
34990
1.4
1.3
32760
0 5
-0.3
33324
1 9
0 4
33625
1 5
1 4
34990
0.3
0.1
327B0
0 2
•1 1
33324
2 1
0 5
33625
0 9
0 9
34994
1.6
1.4
32780
1.1
0.4
33324
2 9
0 9
33625
0 6
0 6
34994
0.9
0.9
32780
1 1
0 4
33324
3.8
i 2
33625
0.6
0 6
34994
0.4
0.2
32789
0 6
0.1
33324
4 1
l 3
33625
0 5
0 4
34994
2 6
1 8
32789
0 4
•0.4
33324
4 4
1 4
33625
16
15
34994
0.3
-0.1
32789
0 2
-1 1
33324
0 5
-1.1
33625
0 8
0.8
34994
0.9
0.9
32789
1.2
0 9
33324
4 8
l 5
33625
0.3
-0 1
34994
0.5
0.4
32789
7 0
2 8
33324
3 0
0 9
33626
1.0
0.9
34997
1.2
1.0
32789
0 5
-0 1
33324
0 2
¦2 1
33626
0 9
0 8
34997
1.2
1.0
32789
1.9
1 4
33324
5 1
1 5
33626
1 t
1 0
34997
0.2
-0.5
32789
0 8
0.4
33324
3 4
i l
33626
1 1
1 0
34997
1.3
1 1
32789
0.3
-0 7
33324
4 9
1 5
33626
0 9
0 8



•Indoor radon measured with charcoal canisters
tMeasurement-rnap bias statistic. Z = (ln(Rn muas) ln(Rn map)] / sqn(ln(Gmeas)"2 ~ ln(Gmap)A2].
N-19
-------
A±*ri!liJlA. KJ
SITE DATA FROM INVESTIGATIONS OF
POTENTIAL INDOOR RADON ANOMALIES
Table O-l Potential Indoor Radon Anomalies and Site Investigation Data


Indoor





Wall
Gamma
Sing
Data

Radon
Site



Slab
Constr.
Intensity
Fam
Set
I D. # *
(pCi/L>
Visited7
zt
Longitude
Latitude
Type"
Type§§
(t-iR/hr)
Homi
HRS
32086
5.8
NO
2.55






HRS
32211
4.6
YES
2.07
81°35.62'
30°21.39'
CS
Cb&Br
4.1
Y
HRS
32301
13.3
YES
2.80
84°15.4V
30°25.39'
CS
Cb
13.4
Y
HRS
32301
17.9
YES
3.14
84°16.20'
30°26.61'
SOG
Cb
8.7
N
HRS
32303
4.4
NO
1.96






HRS
32303
6.0
YES
2.28
84°16.39'
30°27.45'
SOG
Br
9.6
Y
HRS
32308
6.7
YES
2.08
84°10.68'
30°28.79'
SOG
Cb
8.5
Y
HRS
32308
7.2
YES
2.16
84°10.86'
30°28.77'
SOG
Fr
8.9
Y
HRS
32308
12.7
YES
2.78
84°12.18'
30°32.43'
CS
Fr
11.1
Y
HRS
32311
4.3
NO
1.99






HRS
32311
26.9
NO§
4.00






HRS
32312
5.0
YES
2.01
84°17.39'
30°30.18'
SOG
Fr
8.1
Y
HRS
32312
6.3
NO
2.26






HRS
32312
6.1
YES
2.29
84°17.39'
30°30.18"
SOG
Fr
8.1
Y
HRS
32312
6.7
NO
2.33






HRS
32312
7.3
NO
2.42






HRS
32312
8.8
NO
2.63






HRS
32312
8.9
NO
2.64






HRS
32312
10.2
NO
2.79






HRS
32312
16.4
YES
3.30
84°16.08"
30"30.84'
CS
Fr
8.8
Y
HRS
32347
4.3
NO
2.07






HRS
32446
4.9
NO
2.06






HRS
32504
48.3
NO
4.51






HRS
32601
8.2
YES
1.99
82° 19.93'
29°37.78'
SOG
Fr
5.2
Y
HRS
32603
0.3
YES
-2.26
82°20.60'
29°39.39*
CSV
Cb
4.4
Y
HRS
32605
0.2
YES
-2.74
82°25.49'
29e41.19'
CSV
Fr& Br
10.9
Y
HRS
32605
0.2
YES
-2.74
82°21.73'
29°41.91"
SOG
Fr
3.7
Y
HRS
32605
29.3
YES
2.09
82°20.71'
29°40.29'
SOG
Fr
15.8
Y
HRS
32605
33.7
YES
2.23
82c21.60'
29°40.57"
CS
Fr & Ro
29.2
Y
HRS
32606
20.2
YES
1.99
82°24.82'
29°40.78'
SOG
Fr
23.5
Y
HRS
32606
22.5
YES
2.11
82°24.55'
29°40.48'
SOG
Fr
21.4
Y
HRS
32606
44.9
YES
2.83
82°21.27'
29°41.18'
SOG
Fr
4.1
Y
HRS
32607
16.1
YES
2.05
82°20.73'
29°35.94'
SOG
Cb
3.4
Y
HRS
32607
47.6
YES
3.07
82°21.95'
29°39.09'
SOG
Fr& Br
17.7
Y
HRS
32608
7.9
YES
1.96
82°26.46'
29°38.00'
SOG
Fr & Br
4.2
Y
HRS
32608
11.6
YES
2.32
82°41 00'
29=40.40'
SOG
Fr
11.7
Y
HRS
32608
12.4
YES
2.39
82°25.44'
29*36.58'
SOG
Fr
8.6
Y
HRS
32608
23.0
YES
2.97
82°26.16'
29°36.14'
SOG
Fr
6.7
Y
HRS
32608
24.2
YES
3.02
82°25.42'
29°37.11'
SOG
Fr
4.8
Y
HRS
32609
12.5
YES
2.47
82°25.39'
29°41.52'
CS<|
Cb& Fr
9.5
Y
HRS
32615
12.7
YES
1.97
82°31.59'
29®47.56'
SOG
Fr & Br
12.6
Y
HRS
32667
5.6
NO§
1.97






HRS
32720
3.5
NO
2.49






HRS
32751
4.5
YES
2.07
81 °21.75'
28°36.66'
SOG
Fr
3.1
Y
HRS
32751
7.0
YES
2.51
81°21.03'
28°37.99*
CS
Fr
4.5
Y
HRS
32789
3.2
YES
1.96
81°21.53'
28°36.65'
CS
Fr
3.1
Y
HRS
32789
7.0
YES
2.83
81°21.75'
28°36.66'
SOG
Fr
3.1
Y
HRS
32803
5.0
YES
2.35
81°24.01'
28°33.14'
SOG
Cb
4.6
Y
HRS
32804
4.3
YES
2.17
81 °21.31'
28°31.51'
CS
Cb
3.7
Y
HRS
32804
6.5
YES
2.58
81*21.31"
28°31.51'
CS
Cb
3.7
Y
HRS
32806
4.0
YES
2.21
81°22.09'
28°31.21'
SOG
Cb
3.6
Y
n.i
-------
Table O-l (Continued)
Potential Indoor Radon Anomalies and Site Investigation Data


Indoor





Wall
Gamma
Sing
Data

Radon
Site



Slab
Constr.
Intensity
Fami
Set
ID. # '
(pCi/L)
Visited?
zt
Longitude
Latitude
Type"
Type§§
(pR/hr)
Homi
HRS
32806
4.3
YES
2.30
81°21.56'
28°31.61'
SOG
Cb
3.9
Y
HRS
32806
6.2
YES
2.71
81°22.09'
28°31.21"
SOG
Cb
3.6
Y
HRS
32819
24.0
YES
3.54
81 "30.14"
2S°28.50'
SOG
Cb
2.6
Y
HRS
32832
3.2
NO
2.32






HRS
32963
2.5
NO
2.03






HRS
33015
10.2
YES
2.83
80°18.38'
25°56.48'
SOG
Cb
5.8
Y
HRS
33024
6.7
YES
2.11
80=16.65'
26°01.80'
SOG
Cb
3.1
N
HRS
33024
7.1
YES
2.17
80°16.65'
26°01.80'
SOG
Cb
3.1
N
HRS
33024
7.3
YES
2.20
80°16.65'
26"01.80'
SOG
Cb
3.1
N
HRS
33026
7.0
YES
2.15
80°17.52'
26°01.04'
SOG
Cb
4.9
N
HRS
33030
15.7
YES
2.53
80°31.79'
25°32.24'
SOG
Cb
8.3
Y
HRS
33031
21.0
YES
2.71
80°27.47'
25°30.69'
SOG
Cb
6.6
Y
HRS
33063
0.2
YES
-2.52
80°11.93'
25°14.07'
SOG
Cb
3.3
Y
HRS
33063
0.3
YES
•2.04
80"12.40'
26°15.26'
SOG
Cb
3.2
Y
HRS
33065
0.2
YES
-2.45
80°14.79'
2S°15.74'
SOG
Cb
3.1
Y
HRS
33070
4.5
NO
2.87






HRS
33071
0.2
YES
-2.36
80°16.44'
26<,14.72'
SOG
Cb
4.7
Y
HRS
33133
11.3
YES
2.28
80°15.35'
25°42.44'
SOG
Cb
5.5
N
HRS
33146
9.4
YES
2.10
80°16.70'
25°15.83'
SOG
Cb
3.3
Y
HRS
33157
8.1
YES
2.05
80°19.32'
25°38.07'
SOG
Cb
3.9
Y
HRS
33172
6.5
YES
1.97
80°22.94'
25°46.61'
SOG
Cb
5.1
N
HRS
33172
8.1
YES
2.18
80°22.94'
25°46.61'
SOG
Cb
5.1
N
HRS
33172
8.2
YES
2.19
80°22.94'
25°46.61'
SOG
Cb
5.1
N
HRS
33172
8.2
YES
2.19
80°22.94'
25°46.61'
SOG
Cb
5.1
N
HRS
33172
9.1
YES
2.30
80°22.94'
25°46.61'
SOG
Cb
5.1
N
HRS
33172
10.2
YES
2.41
80°22.94'
25°46.61'
SOG
Cb
5.1
N
HRS
33172
10.2
YES
2.41
80°22.94'
25°46.61'
SOG
Cb
5.1
N
HRS
33172
10.6
YES
2.45
80°22.94'
25°46.61'
SOG
Cb
5.1
N
HRS
33172
12.6
YES
2.62
80°22.94'
25°46.61'
SOG
Cb
5.1
N
HRS
33176
8.6
YES
1 99
80°21.73'
25°38.62'
SOG
Cb
5.0
Y
HRS
33183
0.5
YES
-2.03
80c23.05'
25°41.68'
SOG
Cb
4.4
Y
HRS
33186
0.4
YES
-2.53
80"25.56'
25=40.88'
SOG
Cb
7.2
N
HRS
33186
0.5
YES
-2.23
80°23.66'
25°41.09'
SOG
Cb
6.6
N
HRS
33186
0.6
YES
-1.99
80°25.71'
25°40.70"
SOG
Cb
4.8
Y
HRS
33186
15.8
YES
2.34
80°25.54"
25°40.62"
SOG
Cb
6.4
Y
HRS
33186
17.7
YES
2.49
80°23.66'
25°41.09'
SOG
Cb
6.6
N
HRS
33186
29.6
YES
3.17
80°22.56'
25°38.51'
SOG
Cb
4.3
Y
HRS
33317
0.2
NO§
-2.07






HRS
33319
0.3
YES
-2.16
80°09.11'
25=53.18'
Open Pier
Cb
4.4
N
HRS
33322
0.2
NO
-2.72






HRS
33322
0.3
YES
-2 25
80°17.45'
25°08.89'
SOG
Cb
4.5
Y
HRS
33324
0.2
YES
-2.14
80°15.79'
26°07.67"
SOG
Cb
3.4
N
HRS
33324
7.4
YES
1.95
80°15.79"
25°07.67'
SOG
Cb
3.4
N
HRS
33324
7.4
YES
1.95
80°15.79'
25°07.67'
SOG
Cb
3.4
N
HRS
33324
7.6
YES
1.98
80°16.24'
26°05.96'
SOG
Cb
4.2
Y
HRS
33324
7.9
YES
2,03
80°16.24'
26°05.96'
SOG
Cb
4.2
Y
HRS
33324
7.9
YES
2.03
80°16.24'
26°05.96'
SOG
Cb
4.2
Y
HRS
33324
8.5
YES
2.11
80°15.79'
26°07.67'
SOG
Cb
3.4
N
HRS
33324
8.6
YES
2.12
80°15.79'
26°07.67'
SOG
Cb
3.4
N
HRS
33324
8.6
YES
2.12
80°15.79'
26°07.67"
SOG
Cb
3.4
N
HRS
33324
9.3
YES
2.21
80°15.79'
26°07.67'
SOG
Cb
3.4
N
n. 2
-------
Table 0-1 (Continued)
Potential Indoor Radon Anomalies and Site Investigation Data


Indoor





Wall
Gamma
Singl
Data

Radon
Site



Slab
Constr.
Intensity
Fami
Set
I.D. # *
(pCi/L)
Visited?
zt
Longitude
Latitude
Type"
Type§§
(uR/hr)
Horm
HRS
33324
9.3
YES
2.21
80°15.79'
26307.67'
SOG
Cb
3.4
N
HRS
33324
11.2
YES
2.42
80° 15.79'
26°07.67'
SOG
Cb
3.4
N
HRS
33330
0.3
YES
-2.24
80"17.09'
26°03.37'
SOG
Cb
2.6
Y
HRS
33403
4.8
NO§
2.86






HRS
33409
2.3
NO§
2.36






HRS
33410
2.5
YES
2.20
80"06.08'
26M2.98'
SOG
Cb
3.2
N
HRS
33410
2.6
YES
2.24
80°06.08'
26°42.98'
SOG
Cb
3.2
N
HRS
33411
3.4
YES
2.40
80*15.65'
26°44.87'
os%
Fr
3.8
Y
HRS
33413
5.5
YES
3.21
80°14.66'
26'39.01'
SOG
Cb
4.3
N
HRS
33414
3.0
YES
2.34
80°14.66'
26°39.01'
SOG
Cb
4.3
N
HRS
33414
3.0
YES
2.34
80°14.76'
26°40.03"
SOG
Cb
2.6
Y
HRS
33414
3.5
YES
2.48
80°17.56'
26°39.00'
SOG
Cb
2.6
Y
HRS
33414
4.6
YES
2.72
80°14.66'
26°39.01'
SOG
Cb
4.3
N
HRS
33414
4.8
YES
2.75
80°14.66'
26c39.01'
SOG
Cb
4.3
N
HRS
33414
5.0
NO§
2.79






HRS
33414
5.4
YES
2.86
30°14.66'
26"39.01'
SOG
Cb
4.3
N
HRS
33414
5.8
YES
2.92
80°14.66'
26°39.01'
SOG
Cb
4.3
N
HRS
33414
6 8
YES
3.06
80°14.66'
26°39.01'
SOG
Cb
4.3
N
HRS
33415
1.0
YES
2.18
80°08.27'
26°39.14'
SOG
Cb
2.9
Y
HRS
33415
1.1
NO§
2.30






HRS
33415
1.3
YES
2.51
80°08.60'
26°38.41'
SOG
Cb
3.0
Y
HRS
33415
1.6
YES
2.77
80°07.04'
26°41.36'
SOG
Cb
2.3
Y
HRS
33415
2.0
YES
3.05
80°07.52'
26°39.33'
SOG
Cb
2.9
Y
HRS
33415
3.2
YES
3.64
80'08.46'
26°28.66'
SOG
Cb
2.9
Y
HRS
33417
1.7
YES
2.39
80°06.71'
26a44.47'
SOG
Cb
3.5
Y
HRS
33428
0.3
YES
-2.25
80"13.99'
26°21.07'
SOG
Cb
2.2
Y
HRS
33428
0.3
NO§
•2.25






HRS
33433
0.2
NO§
-2.46






HRS
33433
0.2
NO§
-2.46






HRS
33433
0.2
NO§
-2.46






HRS
33433
0.2
NO§
-2.46






HRS
33433
0.3
YES
-1.99
80°07.15'
26-24.71'
SOG
Co
2.2
Y
HRS
33433
0.3
NO§
-1.99






HRS
33434
7.1
YES
2.57
80°11.55'
26°22.28'
SOG
Cb
4.6
N
HRS
33437
2.1
NO§
2.23






HRS
33437
5.9
YES
3.36
80*08.34'
26°30.62'
SOG
Cb
3.1
Y
HRS
33458
15.0
YES
4.35
80°07.05"
26°57.16'
SOG
Cb
2.5
Y
HRS
33463
1.0
YES
2.11
80'08.26'
26=32.27'
SOG
Cb
2.7
Y
HRS
33463
2.6
YES
3.33
80°07.50'
26°33.65'
SOG
Cb
3.5
Y
HRS
33467
4.4
YES
2.62
80°09.44'
26°36.23'
SOG
Cb
4.7
Y
HRS
33496
2.1
YES
2.13
80°11.66'
26°24.22'
SOG
Cb
3.6
Y
HRS
33496
2.6
YES
2.34
80°09.65'
26'24.59'
SOG
Cb
3.6
Y
HRS
33510
5.6
YES
2.09
82°14.15'
27°54.85'
SOG
Fr & Br
5.2
Y
HRS
33510
6.1
YES
2.19
82°18.82'
27°58.12'
SOG
Cb
5.5
Y
HRS
33510
6.8
YES
2.31
82°13.31'
27°55,91'
SOG
Cb
8.3
Y
HRS
33510
7,2
YES
2.37
82°17.77'
27°56.78'
SOG
Cb
14.4
Y
HRS
33510
11.0
YES
2.84
82ei16.33'
27°56.62'
SOG
Cb
7.0
Y
HRS
33510
24.1
YES
3.72
82°17.55'
27°57.13'
SOG
Cb
10.8
Y
HRS
33511
02
YES
-2.09
82°18.49'
27°54.12'
SOG
Cb
2.5
Y
HRS
33511
0 2
YES
-2.09
82°16.72'
27!,54.56'
SOG
Fr
3.0
Y
HRS
33511
0.2
NO§
-2.09






0-
3
-------
Table 0-1 (Continued)
Potential Indoor Radon Anomalies and Site Investigation Data


Indoor





Wall
Gamma
Sing
Data

Radon
Site



Slab
Constr.
Intensity
Fami
Set
I D. # *
(pCi/L)
Visited?
zt
Longitude
Latitude
Type"
Type§§
(liR/hr)
Home
HRS
33511
0.2
NO§
-2.09






HRS
33511
8.1
YES
2.11
B2°17.84'
27°57.03'
SOG
Cb& Br
6.0
Y
HRS
33511
9.5
YES
2.29
82617.02'
27°55.30"
SOG
Cb
4.3
Y
HRS
33511
1.0.4
YES
2.39
82°17.73'
27°55.26'
SOG
Cb
4.6
Y
HRS
33511
11.4
YES
249
82°17.8r
27°56.97'
SOG
Cb
6.9
Y
HRS
33511
12.4
YES
2.59
82°16.08'
27°58.14'
SOG
Cb
6.0
Y
HRS
33511
14.5
YES
2.76
82°15.84'
27"55.17'
SOG
Cb
29.5
Y
HRS
33511
15.5
YES
2.84
82°16.25'
27°54.31'
SOG
Cb
10.6
Y
HRS
33511
21.4
YES
3.21
82°17.73'
27°55.26'
SOG
Cb
4.6
Y
HRS
33511
21.4
YES
3.21
82c17.73'
27°55.26'
SOG
Cb
4.6
Y
HRS
33511
23.5
YES
3.31
82°13.57'
27°53.65'
SOG
Cb
20.7
Y
HRS
33527
12.6
YES
2.05
82°13.09'
27°54.90'
SOG
Cb
4.3
Y
HRS
33527
13.3
YES
2.10
82°13.15'
27a58.22'
SOG
Cb
5.5
Y
HRS
33527
16.8
YES
2.34
82°13.15'
27°58.22'
SOG
Cb
5.5
Y
HRS
33527
78.2
YES
3.92
82°13.15'
27°58.22'
SOG
Cb
5.5
Y
HRS
33541
5.8
NO
2.13






HRS
33549
4.4
NO§
2.36






HRS
33566
0.2
YES
•2.34
82°07.52'
28*00.94'
SOG
Co
9.1
N
HRS
33567
32.5
YES
3.13
82°09.90'
27°58.67'
SOG
Cb
4.0
Y
HRS
33569
10.7
YES
2.27
82"16.53'
27°51.52'
SOG
Cb
7.8
Y
HRS
33569
50.5
YES
3.75
82°16.45'
27°51.32'
SOG
Cb & Br
11.6
Y
HRS
33570
4.5
YES
2.26
32°16.33'
27°56.60'
SOG
Fr
6.9
Y
HRS
33572
4.9
YES
2.03
82°25.34'
27°45.48'
SOG
Cb
6.0
Y
HRS
33584
0.2
YES
-1.99
82°14.39'
27°59.79'
CS ¥
Fr
10.8
Y
HRS
33584
11.9
YES
2.44
82" 16.37'
27°57.86'
SOG
Cb
6.7
Y
HRS
33584
13.1
YES
2.55
82e16.99'
27*58.55'
SOG
Cb
9.2
Y
HRS
33592
4.6
NO§
225






HRS
33594
0.3
NO
-2.55






HRS
33594
14.2
YES
2.02
82°13.44'
27°54.57'
SOG
Cb
11.2
Y
HRS
33594
14.4
YES
2.04
82°13.61'
27°54.40'
SOG
Cb
5.1
Y
HRS
33594
14.6
YES
2.05
82°13.61'
27°54.40'
SOG
Cb
5.1
Y
HRS
33594
14.9
YES
2.08
82°14.35'
27°55.64'
SOG
Cb
5.2
Y
HRS
33594
18.0
YES
2.30
82°13.48'
27"54.10'
SOG
Cb
18.7
Y
HRS
33594
19.9
YES
2.42
82°15.07'
27°55.18'
SOG
Cb
10.2
Y
HRS
33594
22.5
YES
2.57
82°13.22'
27°55.88'
SOG
Cb
12.2
Y
HRS
33594
27.8
YES
2.82
82"15.07'
27*55.18'
SOG
Cb
10.2
Y
HRS
33594
37.9
YES
3.18
82°13.56'
27°53.79'
SOG
Cb
19.9
Y
HRS
33607
7.7
NO
2.52






HRS
33617
12.2
YES
2.99
82°22.78'
2a°03.17'
SOG
Cb
4.0
Y
HRS
33647
2.0
NO§
-.95






HRS
33647
2.1
YES
2.00
82>20.85'
28°08.73'
SOG
Cb
3.5
Y
HRS
33647
2.1
YES
2.00
82°20.53'
28°09.17'
SOG
Cb
3.1
Y
HRS
33647
2.2
YES
2.04
82°20.1C'
28°09.26'
SOG
Cb
3.0
Y
HRS
33702
3.6
YES
2.21
82"39.32'
27°50.13'
SOG
Cb
3.9
Y
HRS
33714
14.7
YES
3.44
82°41.53'
28°00.51'
SOG
Cb
4.6
N
HRS
33716
4,1
YES
2.45
82°38.34'
27°52,92'
SOG
Cb
4.5
N
HRS
33716
4.1
YES
2.45
62°38.34'
27°52.92'
SOG
Cb
4.5
N
HRS
33716
4 9
YES
2.63
82"38.34'
27e52.92'
SOG
Cb
4.5
N
HRS
33716
6.5
YES
2.90
82°38.34'
27°52.92'
SOG
Cb
4.5
N
HRS
33803
0.2
NO§
-2.50






HRS
33811
10.8
YES
2.19
81=58.57'
27°56.88'
SOG
Fr
4 5
Y
O-
4
-------
Table 0-1 (Continued)
Potential Indoor Radon Anomalies and Site Investigation Data


Indoor





Wall
Gamma
Single
Data

Radon
Site



Slab
Constr.
Intensity
Family
Set
I.D. # *
(pCi/L)
Visited?
zt
longitude
Latitude
Type"
Type§§
(|iR/hr)
Home?
HRS
33901
3.0
NO
2.29






HRS
33901
3.2
NO
2.35






HRS
33901
10.6
NO
3.51






HRS
33904
3,2
NO
2.16






HRS
33907
4.2
NO
1.98






HRS
33909
5.6
NO
2.41






HRS
33912
3.0
NO
2.02






HRS
33912
3.7
NO
2.21






HRS
33912
3.8
NO
2.23






HRS
33912
5.5
NO
2.56






HRS
33912
7.9
NO
2.89






HRS
33914
5.5
NO
2.70






HRS
33919
2.7
NO
1.96






HRS
33919
3.2
NO
2.12






HRS
33919
19.7
NO
3.83






HRS
33919
20.5
NO
3.86






HRS
33919
26.2
NO
4.09






HRS
33940
8.9
NO
3.06






HRS
33942
4.3
NO
2.20






HRS
33942
4.7
NO
2.29






HRS
33957
2.4
NO
2.C9






HRS
33981
3.6
NO
1.95






HRS
34228
4 2
NO
2 01






HRS
34229
4 4
NO
2.15






HRS
34231
4.4
YES
1.96
82°30.04'
27°14.05'
SOG
Cb
3.4
N
HRS
34231
A.7
YES
2.01
82^30.04'
27°14.05'
SOG
Cb
3.4
N
HRS
34231
4.8
YES
2.03
82°30.04'
27°14.05'
SOG
Cb
3.4
N
HRS
34231
4.8
YES
2.03
82--30.04'
27°14.05'
SOG
Cb
3.4
N
HRS
34231
4.8
NO
2.03






HRS
34231
4.9
YES
2.05
82°30.04'
27°14.05'
SOG
Cb
3.4
N
HRS
34231
5.5
NO
2.14






HRS
34231
5.9
YES
2.19
82=30.04'
27°14.05'
SOG
Cb
3.4
N
HRS
34231
6.1
YES
2.22
82°30.04'
27°14.05'
SOG
Cb
3.4
N
HRS
34231
6.4
NO
2 25






HRS
34231
6 9
YES
2 31
82°30.04'
27°14.05'
SOG
Cb
3.4
N
HRS
34231
6.9
YES
2.31
82°30.04'
27°14.05'
SOG
Cb
3.4
N
HRS
34231
7.2
YES
2.34
82°30.04'
27°14.05'
SOG
Cb
3.4
N
HRS
34231
7.3
YES
2.35
82°30.04'
27°14.05'
SOG
Cb
3.4
N
HRS
34231
7.3
NO
2.35






HRS
34231
7.6
YES
2.38
82°30 04'
27=14.05'
SOG
Cb
3.4
N
HRS
34231
7.9
YES
2.41
82°30.04'
27°14.05'
SOG
Cb
3.4
N
HRS
34231
8.0
YES
2.42
82°30.04'
27°14.05'
SOG
Cb
3.4
N
HRS
34231
8.4
YES
2.46
82°30.04'
27°14.05'
SOG
Cb
3.4
N
HRS
34231
8.5
YES
2.47
82°30.04'
27°14.05'
SOG
Cb
3.4
N
HRS
34231
8.9
YES
2.51
82°30.04'
27°14.05'
SOG
Cb
3.4
N
HRS
34231
10.0
YES
2.60
82°30.04'
27° 14.05'
SOG
Cb
3.4
N
HRS
34231
10.2
YES
2.61
82*30.04*
27°14.05'
SOG
Cb
3.4
N
HRS
34231
12.9
YES
2.79
82*30.04'
27"14.05'
SOG
Cb
3.4
N
HRS
34231
13.6
YES
2.83
92°30.04'
27c14.05'
SOG
Cb
3.4
N
HRS
34231
15.5
YES
2.93
82°30.04'
27°14.05'
SOG
Cb
3.4
N
HRS
34231
17.0
YES
3.00
82°30.04'
27°14.05'
SOG
Cb
3.4
N
n. s
-------
Table 0-1 (Continued)
Potential Indoor Radon Anomalies and Site Investigation Data


Indoor





Wall
Gamma
Singl
Data

Radon
Site



Slab
Constr.
intensity
Fami
Set
I.D. # *
(pCi/L)
Visited?
zt
Longitude
Latitude
Type"
Type§§
(uR/hr)
Home
HRS
34231
17.6
YES
3.03
82°30.04'
27°14.05'
SOG
Cb
3.4
N
HRS
34231
24.2
YES
3.28
82°30.04'
27=14.05'
SOG
Cb
3.4
N
HRS
34231
30.3
YES
3.45
82*30.04'
27*14.05'
SOG
Cb
3.4
N
HRS
34236
2.4
NO
2.05






HRS
34236
3.1
YES
2.28
82°31.96'
27*19.48'
SOG
Fr
3.8
Y
HRS
34242
4.1
YES
'.99
82*33.99'
27*16.66'
SOG
Cb
4.1
N
HRS
34242
7.1
YES
2.61
82333.92'
27*16.86'
SOG
Cb
5.5
N
HRS
34242
8.4
YES
2.80
82:l33.99'
27*16.66'
SOG
Cb
4.1
N
HRS
34242
9.3
YES
2.92
82°33.99'
27°16.66'
SOG
Cb
4.1
N
HRS
34243
4.1
NO
2.17






HRS
34275
6.9
NO
2.20






HRS
34275
10.4
YES
2.51
82°28.20'
27°09.24'
SOG
Cb
7.8
Y
HRS
34293
5.8
NO
2.01






HRS
34293
7.5
YES
2.21
82°21.84'
27°03.78'
SOG
Cb
5.2
N
HRS
34293
11.5
YES
2.54
82°21.84'
27°03.78'
SOG
Cb
5.2
N
Land
34
17.9
YES
2.27
82°09.60'
29°35.88'
CS
Cb& St
4,3
Y
Land
55
0.2
YES
-3.11
82°24.24'
29°39.90'
SOG
Fr & Br
7.7
Y
Land
64
0.2
YES
-3.11
82c21.00'
29°41.22'
CS
Fr
3.1
Y
Land
65
0.2
YES
-3.11
82°20.88'
29c41.52'
SOG
Fr
4.0
Y
Land
78
29.5
YES
2 25
82°31.68'
29°48.96'
SOG
Cb
8.7
Y
Land
100
25.3
YES
2.93
82*31.50'
29°55.74'
SOG
Fr& Br
4.2
Y
Land
268
0.2
YES
-2.73
80°18.54'
26°02.28'
SOG
Cb
3.6
Y
Land
280
0.2
YES
-2.73
80°16.56'
26*13.92'
SOG
Cb
4.8
Y
Land
281
0.2
YES
-2.73
80°16.56'
26*14.34'
SOG
Cb
4.1
Y
Land
284
0.2
YES
-2.73
80°14.82'
26*07.86'
SOG
Cb
2.8
Y
Land
285
0.2
YES
-2.73
8C12.48'
26*10.62'
SOG
Cb
2.9
Y
Land
287
0.2
YES
-2.73
8C°11.28'
26*11.10'
SOG
Cb
4.8
N
Land
289
0.2
YES
-2.73
80o10.02'
26*10 32'
SOG
Cb
3.0
Y
Land
297
0.2
YES
-2.73
80°15.66'
26°16.92'
SOG
Cb
3.0
Y
Land
298
0.2
YES
-2.73
80°15.66'
26°16.68'
SOG
Cb
2.2
Y
Land
299
0.2
YES
-2.73
80*15.42'
26° 16.98'
SOG
Cb& Br
3.7
Y
Land
304
C.2
YES
-'..96
80*05.82'
26°16.14'
SOG
Cb
2.6
Y
Land
321
4.3
YES
2.67
82*00.24'
26°51.96'
SOG
Cb & St
2.8
Y
Land
346
1.5
YES
2.21
82°14.34'
26*58.08'
SOG
Fr
2.2
Y
Land
368
2.4
NO
1.97






Land
452
8.5
NO
3.09






Land
461
2.8
NO
2.00






Land
478
2.3
YES
2.03
81 °50.82"
30*04.38'
?
Fr
4.6
Y
Land
527
2.3
NO
2.16






Land
531
0.2
NO
-2.61






Land
534
11.6
YES
2 69
82°38.04'
30°10.68'
CS
Br
4.6
Y
Land
544
11.7
NO
2.41






Land
553
0.2
YES
-2.56
80C28.C8'
25°29.04'
CS ¥
Cb
7.0
Y
Land
554
0.2
YES
-2.56
80°28.80'
25*28.26'
CSV
Fr
5.2
Y
Land
555
0.2
YES
-2.56
80°28.80'
25*27.84'
SOG
Cb
5.0
N
Land
568
0.6
YES
-2.00
80°23.46'
25*40.86'
SOG
Cb
4.9
Y
Land
605
2.9
NO
2.46






Land
776
1.1
NO
2.17






Land
779
1.3
NO
2.03






Land
804
0.2
NO
-2.27






Land
806
5.2
YES
2.17
82,48.96'
29°36.72'
CS
Fr & Br
4.8
Y
n_ «
-------
Table 0-1 (Continued)
Potential Indoor Radon Anomalies and Site Investigation Data


Indoor





Wall
Gamma
Single
Data

Radon
Site



Slab
Constr.
Intensity
Family
Set
I.D. # *
(pCi/L)
Visited?
zt
Longitude
Latitude
Type"
Type§§
((iR/hr)
Home?
Land
825
0.2
NO
-2.29






Land
826
0.2
NO
-2.14






Land
880
7.5
NO
2.53






Land
887
2.5
NO
2.28






Land
389
0.2
NO
-2.70






Land
890
0.2
NO
-2.70






Land
891
0.2
NO
-2.70






Land
903
2.4
NO
2.20






Land
904
4.7
NO
2.81






Land
905
3.3
NO
2.49






Land
908
2.0
NO
2.03






Land
O
CD
O
0.2
YES
-2.24
82°24.24'
27°58.32'
CS
Fr
2.6
Y
Land
1083
0.2
YES
-2.05
82*27.96'
27°59.10'
CS
Fr & St
3.8
Y
Land
1089
6.5
YES
2.29
82°17.88'
27°53.22'
SOG
Cb
7.9
Y
Land
1099
0.6
YES
-2.07
82o14.40'
27°52.86'
SOG
Fr& St
6.9
Y
Land
1104
0 2
YES
-2.92
82>13.86'
27°58.86'
CS
Fr
7.4
Y
Land
1107
4.6
NO
2.31






Land
1155
7.7
NO
1.96






Land
1215
0.2
NO
-1.97






Land
1236
0.2
NO
-2.05






Land
1326
3.1
YES
2.39
81°37.14'
29°02.34'
SOG
Cb
6.4
Y
Land
1358
2.2
YES
2.84
82°05.10'
26°29.76'
SOG
Cb
4.1
Y
Land
1371
1.9
YES
2.09
8T49.14'
26°29.52'
SOG
Fr & St
4.5
Y
Land
1373
3.6
YES
2.79
8r49.26'
26°29.40'
SOG
Fr
4.5
Y
Land
1386
5.8
YES
2.83
81 "54.18'
26°33.96'
SOG
Cb & St
4.6
Y
Land
1397
2.1
YES
2.40
81c50.64'
26c30.90'
SOG
Cb& St
3.9
Y
Land
1419
23
YES
2.95
82°09.30'
26°39.78'
SOG
Fr
5.5
Y
Land
1426
4.5
YES
2.29
82g02.22'
26=38.64'
SOG
Fr
3.2
Y
Land
1429
1.6
YES
2.47
82°07.02'
26°37.68'
SOG
Cb & St
2.2
Y
Land
1440
2.5
NO
2.35






Land
1459
3.5
YES
2.41
81 °42.84'
26°38.70'
SOG
Cb & Fr
2.6
Y
Land
1475
4 6
NO
2.26






Land
1483
13.8
YES
2.81
84°18.60'
30°27.90'
SOG
Br
9.4
Y
Land
1490
0.2
NO
-2.42






Land
1576
2.5
NO
2.00






Land
1595
1.5
NO
2.00






Land
'599
3.1
NO
2.63






Land
1619
1.1
YES
2.15
81 "50.46'
23°59.28'
SOG
Fr
3.9
Y
Land
1630
5.7
NO§
2.24






Land
1637
4.7
YES
1.99
82°13 98'
29=04.50'
SOG
Br
4.9
Y
Land
1639
24.1
YES
2.79
82°08.34'
29°01.14'
SOG
Br
5.8
Y
Land
1647
10.8
YES
2.45
82°02.10'
29°03.78'
SOG
Cb
8.7
Y
Land
1648
17.7
YES
3.06
82°03.36'
29o02.22'
SOG
Cb
13.0
Y
Land
1665
3.9
YES
2.09
82°27 06'
29°08.52'
SOG
Cb & Br
4.1
Y
Land
1668
4.2
NO§
2.92






Land
1669
8.3
NO§
3.68






Land
1670
8.7
NO§
3.73






Land
1675
8.0
YES
2.57
82°11.64'
29°09.96'
SOG
Cb& St
3.9
Y
Land
1681
3.8
YES
2.81
82°04.38'
29°11,64'
SOG
Cb& Br
7.5
Y
Land
1682
4.0
YES
2.87
82"06.00'
29c13.50'
SOG
Br
5.9
Y
Land
1685
2.6
YES
2.37
82°03.12'
29°14.34'
SOG
Cb & St
4.3
Y
-------
Table 0-1 (Continued)
Potential Indoor Radon Anomalies and Site Investigation Data


Indoor





Wall
Gamma
Sing
Data

Radon
Site



Slab
Constr.
Intensity
Farm
Sat
I.D. # *
(pCi/L)
Visited?
zt
Longitude
Latitude
Type"
Type§§
(uR/hr)
Horn*
Land
1607
4.8
YES
3.08
82°04.92'
29'11.58'
SOG
Cb
5.4
Y
Land
1690
0.9
YES
2.13
81°57.96'
29=14.10'
SOG
Cb
3.0
Y
Land
1691
0.9
YES
2.15
81a58.38'
29° 12.84'
SOG
Fr
3.8
Y
Land
1692
2.9
NO
2.21






Land
1717
14.0
NO
2.10






Land
1718
32.4
YES
2.73
82=05.34'
29°17.52'
SOG
Cb
8.3
Y
Land
1751
14.3
NO
2.13






Land
1820
1.7
NO
2.22






Land
1833
3.2
NO
2.52






Land
1849
0.2
NO
-2.88






Land
2035
1.0
NO
2.03






Land
2043
1.1
NO
2.62






Land
2046
0.7
NO
2.04






Land
2061
0.8
NO
2 21






Land
2149
0.2
NO
-2.00






Land
2154
4.3
NO
1.97






Land
2227
2.5
YES
2.64
81°47.40'
27=44.10'
SOG
Br
6.1
Y
Land
2252
0.2
YES
•2.83
82c01.38'
27°54.78'
CS
Fr
4.9
Y
Land
2253
0.6
YES
-2.25
81°52.98'
27°57.84'
CS
Fr
17.2
Y
Land
2275
0.2
YES
-2.68
81°47.28'
28=05.58'
SOG
Cb & Fr
3.9
Y
Land
2282
0.2
YES
-2.68
81=46.98'
28=04.02'
CS
Fr
3.6
Y
Land
2283
0.2
YES
-2.68
81°43.80'
28°03.00'
CS
Fr
23.6
Y
Land
2284
0.2
YES
•2.68
81°43.14'
28°05.10'
SOG
Br
4.5
Y
Land
2288
0.2
YES
-2.68
81°41.94'
28=01.38'
SOG
Cb
7.3
Y
Land
2291
0.2
YES
-2.68
81=43.86'
28°05.52'
CS
Fr
3.6
Y
Land
2293
0.2
YES
-2.68
81 "43.62'
28=05.40'
SOG
Br
6.0
Y
Land
2302
0.5
YES
-1.97
82=00.96'
28=07.98'
SOG
Br
4.0
Y
Land
2308
0.5
YES
-1.97
81°58.92"
28=08.10'
CS
Fr
3.2
Y
Land
2311
0.2
YES
-3.10
81 "57.36'
28=08.34'
SOG
Fr
3.3
Y
Land
2312
0.2
YES
-2.68
81 °49.44'
28=10.74'
CS
Fr
8.0
Y
Land
2313
C.2
YES
-2.68
81 "49.44'
28=10.74'
CS
Fr
8.0
Y
Land
2314
0.2
YES
-2.68
81 '49.50'
28=10.62'
CS
Fr
4.2
Y
Land
2315
C.2
YES
-2.68
81'49.50'
28°10.44'
SOG
Br
4.4
Y
Land
2515
2.3
NO
1.99






Land
2613
0.2
NO
-2.00






Land
2618
25.3
YES
3.51
82=02.40'
28=55.74'
SOG
Br
5.7
Y
Land
2625
0.2
NO
-2.38






Land
2648
0.2
NO
-2.73






Land
2662
6.6
YES
2.10
82=33.66'
29°59.22'
SOG
Cb
6.4
Y
Land
2802
22.9
YES
3.14
82°28.20'
29°49.44'
SOG
Cb
11.0
Y
Land
2836
1.7
NO
2.09






Land
2852
22.9
YES
2.74
82=05.16'
29=01.38'
SOG
Cb& St
9.7
Y
Land
2853
3.5
YES
2.72
82=06.06'
29=13.62'
SOG
Br
5.9
Y
Land
2880
25.0
YES
2.70
82=02.04'
28=51.84'
SOG
Cb & Br
4.4
Y
Land
2892
1.4
NO§
2.15






Land
2894
1.4
NO§
2.15






Land
2898
4.7
YES
1.99
82=12.72'
29=07.20'
SOG
Br
7.0
Y
Land
2929
0.2
NO
-2.01






Land
2955
0.2
YES
-3.63
81°50.28'
27=53.58'
CS
Fr
16.0
Y
Land
2979
0.4
YES
-2.24
81 "57.54'
28°03.66'
CS
Fr
3.9
Y
Pop
9
0.4
YES
-2.42
82°19.20'
29=39.66'
CS ¥
Cb
4.5
Y
0-8
-------
Table O-l (Continued)
Potential Indoor Radon Anomalies and Site Investigation Data


Indoor





Wall
Gamma
Single
Data

Radon
Site



Slab
Constr.
Intensity
Family
Set
I.D. # *
(pCi/L)
Visited?
zt
Longitude
Latitude
Type**
Type§§
((iR/hr)
Home?
Pop
12
0.2
YES
-3.11
82=18.72'
29=39.30'
CS ¥
Fr
10.3
Y
Pop
13
0.2
YES
-3.11
82=19.08'
29=39.36'
CSV
Fr
4.4
Y
Pop
15
0.2
YES
-3.11
82°18.72'
29°39.12'
CS ¥
Fr
3.7
Y
Pop
20
0.2
YES
-3.11
82=20.64'
29=39.84'
CS ¥
Fr
4.1
Y
Pop
24
0.2
YES
-2.87
82=16.20'
29=39.24'
CS ¥
Fr
7.6
Y
Pop
28
0.2
YES
-2.87
82°16.02'
29=38.10'
CS ¥
Fr
2.6
Y
Pop
32
10.0
YES
2.66
82=22.86'
29=38.76'
CS1I
Cb
5.4
Y
Pop
36
0.5
YES
-2.20
82°23.10'
29°39.84'
SOG
Cb
4.5
Y
Pop
302
0.2
YES
-1.96
80=05.46'
26=18.36'
SOG
Cb
2.8
Y
Pop
303
0.2
YES
-1.96
P0=05.40'
26°18.06'
SOG
Cb
3.0
Y
Pop
304
0.2
YES
-1.96
80=05.64'
26=18.00'
SOG
Cb
2.6
Y
Pop
308
0.2
YES
-1.96
80=05.52'
26=17.46'
SOG
Cb
2.9
Y
Pop
311
0.2
YES
-1.96
80°05.22'
26=17.94'
SOG
Cb
2.9
Y
Pop
317
0.2
YES
-2.73
80°12.72'
26=15.18'
SOG
Cb
3.2
Y
Pop
319
0.2
YES
-2.73
80=12.84'
26° 15.24'
SOG
Cb
3.1
Y
Pop
325
0.2
YES
-2.73
80=12.72'
26=14.76'
SOG
Cb
3.1
Y
Pop
327
0.2
YES
-2.73
60°16.62'
26=16.74'
SOG
Cb
3.5
Y
Pop
328
0.2
YES
-2.73
80°16.26'
26=16.92'
SOG
Cb
3.4
Y
Pop
333
0.2
YES
-2.73
80°12.54'
26=13.74'
SOG
Cb
2.3
Y
Pop
344
0.2
YES
-2.73
80=10.98'
26=14.40'
SOG
Cb
3.1
Y
Pop
346
0.2
NO
-1.96






Pop
362
0.2
YES
-2.73
80=10.92'
26=12.78'
SOG
Cb
2.8
Y
Pop
368
0.2
YES
-2.73
80°11.76'
26=10.74'
SOG
Cb
3.3
Y
Pop
369
0.2
YES
-2.73
80°12.96'
26=10.68'
SOG
Cb
2.8
Y
Pop
383
0.2
YES
-2.73
80018.42'
26=09.66'
SOG
Cb
3.7
Y
Pop
385
0.2
YES
-2 73
80=15.42'
26=15.78'
SOG
Cb
3.1
Y
Pop
388
0.2
YES
-2.73
80°16.62'
26=09.12'
SOG
Cb
2.9
Y
Pop
389
0.2
YES
-2.73
80°15.54'
26=09.06'
SOG
Cb
3.3
Y
Pop
397
0.2
YES
-2.73
80=14.46'
26=08.04'
SOG
Cb
2.8
Y
Pop
417
0.2
YES
-2.73
80°16.20'
26=00.72'
SOG
Cb
3.1
Y
Pop
481
2.9
NO
2.03






Pop
498
15.0
YES
2.67
82=19.92'
28=48.72'
SOG
Cb
7.0
Y
Pop
500
10.0
YES
2.23
82°20.10'
28=48.30'
SOG
Cb
8.8
Y
Pop
559
7.5
NO
2.91






Pop
605
0.2
NO
-2.20






Pop
733
0.2
YES
-1.97
81=45.36'
30=15.78'
CS
Cb
5.3
Y
Pop
746
0.2
YES
-1.97
81 =46.08'
30=12.18'
SOG
Fr
4.9
Y
Pop
930
5.2
NO
1.97






Pop
931
7.2
NO
2.34






Pop
1058
0.2
YES
-2.05
82=25.44'
28=00.30'
CS ¥
Fr
2.8
Y
Pop
1061
0.2
YES
-2.05
82=26.64'
28=00.48'
CSV
Fr
4.0
Y
Pop
1062
0.2
YES
-2.05
82=26.82'
28=00.66'
CSV
Fr
4.2
Y
Pop
1064
0.2
YES
-2.05
82°27.96"
27=59.22'
CS ¥
Fr
6.3
Y
Pop
1128
3.2
YES
1.98
82
-------
Table 0-1 (Continued)
Potential Indoor Radon Anomalies and Site Investigation Data


Indoor





Wall
Gamma
Single
Data

Radon
Site



Slab
Constr.
Intensity
Family
Set
I.D. #"
(pCi/L)
Visited?
zt
Longitude
Latitude
Type"
Type§§
(^iR/hr)
Home?
Pop
1338
3.7
NO
2.47






Pop
1346
4.8
NO
2.36






Pop
1348
4.8
NO
2.36






Pop
1383
2.2
NO
2.25






Pop
1384
3.2
NO
2.66






Pop
1390
2.1
NO
2.20






Pop
1391
1.7
NO
1.97






Pop
1400
0.2
NO
-2.18






Pop
1405
6.4
YES
2.27
84°16.86'
30°30.18'
CS
Fr
7.8
Y
Pop
1408
7.0
YES
2.01
84°15.18'
30°28.80'
cs
Fr
6.6
Y
Pop
1409
0.2
NO
-2.18






Pop
1432
0.2
NO
-2.42






Pop
1487
1.4
NO
1.99






Pop
1518
13.0
NO
3.51






Pop
1539
2.5
NO
2.61






Pop
1544
0.2
NO
-2.67






Pop
1546
25.0
NO
2.07






Pop
1727
4.6
YES
2.38
81 "23,58'
28°29,76'
SOG
Cb
3.2
Y
Pop
1788
4.1
YES
2.25
81 "21.54'
28"36.90'
cs
Fr
4.5
Y
Pop
1898
0.7
NO
1.98






Pop
1963
0.2
NO
-2.73






Pop
1968
0.2
NO
-2.73






Pop
1985
0.2
NO
-2.33






Pop
2044
0.2
NO
-2.33






Pop
2069
0.2
NO
-2.01






Pop
2070
5.5
NO
1.96






Pop
2248
4.4
NO
2.25






Pop
2282
0.2
YES
-2.36
81°56.16'
28°03.06'
CSV
Fr
11.7
Y
Pop
2283
0.2
YES
-2.36
81 "56.04'
28"03.00'
CSV
Fr
17.1
Y
Pop
2284
0.4
YES
-2.24
81 "56.16'
23°01.62'
SOG
Fr& Br
3.7
Y
Pop
2285
0.2
YES
-3.10
81 "55.74'
28°01.56'
SOG
Fr & Br
3.4
Y
Pop
2286
0.2
NO
-3.10






Pop
2292
0.2
YES
-3.10
81 "58.92'
2S"03.18'
CS V
Fr
5.5
Y
Pop
2295
0.4
YES
-2.24
81c57.24'
23°03.72'
CSV
Cb
3.6
Y
Pop
2298
0.2
YES
-2.36
81"54,66'
28°02.94'
SOG
Cb
3.2
Y
Pop
2303
0.2
YES
-2.36
81 "54.30'
28°03.36"
cs
Cb
6.2
Y
Pop
2304
1.1
NO§
-2.55






Pop
2308
0.2
YES
-2.36
81°55.26'
28°01.68'
cs
Cb
6.8
Y
Pop
2310
0.2
YES
-3.10
81 "54.72'
28°01.26'
cs
Cb
10.4
Y
Pop
2313
0.2
YES
-3.10
81°54.72'
28°01.26'
cs
Cb
10.4
Y
Pop
2317
0.2
YES
-2.36
81 "54.90'
28"01.74'
SOG
Fr
3.2
Y
Pop
2322
0.7
YES
-2.06
81°55.62'
27°58.80'
SOG
Cb & Br
4.7
Y
Pop
2324
0.2
YES
-3.10
81°55.20'
27°57.66'
SOG
Cb
5.0
Y
Pop
2333
0.2
YES
-3.10
81 "57.42'
27"59.34'
SOG
Fr& Br
3.3
Y
Pop
2337
0.4
YES
-2.24
81 "57.06'
28°06.78'
SOG
Fr & Br
3.7
Y
Pop
2344
0.5
YES
-2.50
81 "49.74'
27°52.50'
CSV
Fr
14.9
Y
Pop
2351
0.2
YES
-2.68
81°47.04'
28°04.02'
CSV
Fr
3.8
Y
Pop
2358
0.2
YES
-2.68
81 "45.78'
28"03.06'
CS
Cb
3.7
Y
Pop
2362
0.2
YES
-2.68
81 "45.06'
28"03.36'
SOG
Fr
4.9
Y
Pop
2365
0.2
YES
-2.68
81°45.06'
28<>03.36'
SOG
Fr
4.9
Y
Pop
2367
0.2
YES
-2.68
81 "45.12'
28°03.66'
SOG
Fr
2.5
Y
-------
Table O-l (Continued)
Potential Indoor Radon Anomalies and Site Investigation Data


Indoor





Wall
Gamma
Single
Data

Radon
Site



Slab
Constr.
Intensity
Family
Set
I D. # *
(pCi/L)
Visited?
zt
Longitude
Latitude
Type-
Type§§
(iaR/hr)
Home?
Pop
2368
0.2
YES
-3.51
81 °58.44'
27°52.68'
CSV
Cb
30.5
Y
Pop
2370
0.2
YES
-2.68
81 "44.40'
28°02.64'
SOG
Cb
2.8
Y
Pop
2371
0.2
YES
-2.68
81 "44 88'
28°02.76'
CSV
Fr
3.2
Y
Pop
2372
0.2
NO
-2.68






Pop
2375
0.2
YES
-2.68
81 "41.88"
28°01.74'
CS ¥
Cb
5 1
Y
Pop
2376
0.2
YES
-2.68
81 °42.18'
28°01.8C'
SOG
Cb
3.0
Y
Pop
2378
0.2
YES
-2.68
81 °42.96'
28c01.56'
CSV
Cb
4.4
Y
Pop
2380
0.2
YES
-2.68
81 °45.06'
28°00.96'
CSV
Fr
3.8
Y
Pop
2388
0.2
YES
-2.68
31°48.60'
28°03.60'
CSV
Fr
3.2
Y
Pop
2392
0.2
YES
-3.43
31°58.50'
28°00.18'
SOG
Fr
13.8
Y
Pop
2398
1.5
YES
2.12
61C50.S8'
27"54.36'
SOG
Fr
16.9
Y
Pop
2604
4 2
NO
2.64






'HRS I.D. numbers are zip codes.
§Site was sought but was either inaccessible or could not be found on local maps.
fMeasurement ¦ map bias statistic
"CS = crawl space; SOG = slab on grade
VCrawl space was well vented or open.
fCrawl space was unvented.
§§Cb = concrete block; Fr = frame: Br = brick; St = stucco; Ro = rock
0- II
-------
Appendix P
The Relation between Empirical Measurements
and Calculated Soil Radon Potentials
P.l PURPOSE
Although the detailed procedures and equations for calculating soil radon potentials
for mapping are presented in the main text of this report, the descriptions are spread over
several chapters and are combined with derivations and supporting information. This
appendix therefore provides a more concise description of the relation between empirical
measurements and calculated soil radon potentials. The state-wide map report was prepared
with the intent of including all pertinent basis data for the maps, either by listing in the
appendices or by reference to outside documents. The particularly large data files, such as
the NURE aeroradiometric data, the STATSGO soil data base, and the GIS files defining
individual map polygons, are too large for listing, and therefore are cited by reference.
Because of size limitations, massive amounts of data from intermediate calculations also are
not included, but are described by representative examples where possible. All other
measured parameters are included in the appendices of this report, and constitute a complete
description of the basis data used to generate the Florida soil radon potential maps.
P.2 CARTOGRAPHIC BASIS
The soil radon potential maps utilize a' cartographic basis derived by the digital
intersection of Florida surface geology maps (developed by the Florida Geological Survey) and
STATSGO soil maps (developed by the U.S. Soil Conservation Service from detailed county
soil surveys made by Florida soil scientists, SCS91). The surface geology maps were provided
by the Florida Geological Survey to the University of Florida GeoPlan Center (UFGC), where
they were digitally entered into the UFGC's Geographic Information System (GIS). The
STATSGO soil maps were provided to UFGC by the University of Florida Soil and Water
Science Department (UFSWS), where they were already digitized in a format compatible with
the UFGC's GIS. The initial digital intersection of the two maps produced over twelve
P-l
-------
thousand map polygons. However, many of these were tiny sliver polygons associated with
slightly different digitization of identical boundaries by the two independent map data sets.
These sliver polygons were judged to be insignificant by the Florida Geological Survey (FGS),
UFSWS, and U.S. Geological Survey (USGS) scientists on the FRRP mapping committee.
They therefore were systematically eliminated by merging them with larger surrounding
polygons using the GIS system. The UFGC performed this task by imposing an approximate
one square mile minimum area criterion for each polygon to be retained. This process
reduced the total number of map polygons from over 12,000 to 3,919. Therefore, polygon
numbers (such as those listed in Appendix J) retain numerical values that exceed 12,000, but
skip many intermediate numbers due to the elimination of the small polygons.
P.3 CONCEPTUAL USE OF MEASUREMENTS IN CALCULATIONS
A simplified conceptual description helps explain the more detailed and complicated
process of calculating soil radon potentials from measured data. From the simplified,
conceptual perspective, four kinds of measurements comprise the empirical basis for the
radon potential maps. As shown in Figure P-l, these measurements include soil radium
concentration, soil radon emanation, geology properties, and soil physical and hydrologic
properties. Soil radium concentrations are determined from NURE aeroradiometric data for
each map polygon (p. 3-1 to 3-2 and Appendices A and C). Soil radon emanation fractions
are determined from radon emanation trends with radium, as measured on Florida soils by
Rogers & Associates Engineering Corp. (p. 3-2 to 3-6 and Appendices D, E, and F). Geologic
descriptions and radium categories are defined by FGS and USGS data (page 4-9 to 4-10).
Soil components of each polygon, their vertical profiles, and related water table depths and
durations are defined by county soil survey data summarized in the STATSGO data base
(SCS91, Appendix H). The vertical profile data include soil density, layer thickness, particle
size distribution, and water drainage properties).
-------
Soil Radium
(NURE)
! Soil Radon
Emanation (RAE
¦ measurements)
Geologic
Properties
(USGS; FGS)
Soil
Properties
(STATSGO)
Calculate radon
j potential for one
soil/geology profile

Reference
House
Characteristics

1
f


Average with other
profiles and soils to
get polygon radon
potential
RAE - 105563
Figure P-l. Simplified Conceptual Relation of Measured Properties and. Calculated
Radon Potentials.
-------
The four kinds of input data are used in model simulations of radon entry into a
reference house located on the given soil profile (with its associated kinds of soil properties,
geology, radium distribution, and radon emanation fractions). The RnMAP computer code
(described in Section 2, and based on the more detailed RAETRAD model) is used for the
simulations, and contains reference house characteristics that approximate those of Florida
slab-on-grade single-family detached houses. Finally, the soil radon potential calculated for
the soil profile is averaged with radon potentials for the other soil profiles and the other soil
types that occur in the map polygon to determine the average soil radon potential of the map
polygon (Figure P-l).
P.4 OPERATIONAL USE OF MEASUREMENTS IN CALCULATIONS
Soil radon potentials used for mapping are reported by polygon number in Appendix
J. The radon potentials consist of four values for each polygon to characterize the upper ends
of the distributions of radon potentials for each polygon. The calculated radon potentials
represent the median (50% confidence limit) value, and values at the 75%, 90%, and 95%
confidence limits (as described in Sections 4 and 5). The relation of the calculated soil radon
potentials to their basis data is diagrammed in Figure P-2. The diagram shows the
calculated radon potentials in the top box (box 1) of the figure, with a pedigree of each
parameter used in the calculation. For illustrating the calculation process, polygon 2,608 was
picked as an example because it utilizes the Alpin soil component that was used for the
sample printout from an RnMAP calculation in Appendix B. As presented in Appendix J, the
respective calculated soil radon potentials for polygon 2,608 are 0.901,1..180,1.450, and 1.769
mCi y"1.
-------
1	ApjJj
Soil Rn Potential
at 50%, 75%,
90%, and 95%
confidence limits
P 4-3 to 4-7
Distribution of sums of
the log normal distribution
of Q,, CL, Q3 added by
Monte Carlo Method
Eg 23
	Fig. 3 -2
E measurements
on Florida soils
App F
11
P. 3-3 to 3-4
measurements
Soils from
UFSWS
Archive
10
App¦
E meas. I
Q.A. I
R: Radium

concentration

13
App. C
Geometric mean &

GSD of radium

concentrations

(derived from

NURE uranium

measurements)


' UFGC
14	
digital tile
UFGC extraction
of uranium
measurements
in the polygon
I DOE
data tapes
NURE
aerodadiometric
uranium
measurements
Table 4-1
F,: Normalized
% of soil pedon
components
in the STATSGO
unit
Selection of b's
by geologic
category
20
USGS
Reports
22
_A£P I
1B_ 	digital files
STATSGO data ?
base of soil
measurements
from UFSWS
Regional radium
classification of
geologic units
Average a 4 b
coefficients
21
FGS
Maps
23
Geologic
classification
of region containing
the polygon
Individual a & b
coefficients calculated
by Rn map for each
soil component profile
Example
App. B
24
App. H
STATSGO data base
of soil physical and
hydro logical
measurements
from UFSWS
Figure P-2. The Relation of Calculated Soil Radon Potentials to Their Empirical Basis Data.
RAE - 105560
-------
The four calculated radon potentials listed in Appendix J for polygon 2,608 (and
similarly for all other polygons) were determined from the distribution of sums of three
component log-normal distributions of radon potentials, Q,, Q2, and Q3, which are defined and
described on pages 4-3 to 4-7. This distribution is represented by box 2 of Figure P-2.
Although the total radon potential is derived to be the sum of these three quantities (as
shown by Eqn. [23]), the quantities cannot be added directly, as illustrated for the mean-
value points in Figure 4-1, because they are each log-normally distributed. Therefore the
Monte-Carlo addition described in Section 4 was used. Values from the three component
distributions and other points in the distribution of sums are not printed in the report.
Boxes 3 and 4 in Figure P-2 show that Qj and Q2 both depend on the values A, R, and
E, and that Q3 is always equal to B. The variables A and B are fitting coefficients for the
calculated soil radon potentials, and E and R are defined in boxes 6 and 12 as the polygon-
average surface-soil radon emanation coefficient and radium concentration, respectively.
These parameters and their definitions are further explained in Section 4.
The value of E is defined by Eqn. (15) from the empirically-measured trend illustrated
in Figure 3-2 (and as shown by box 7 of Figure P-2). Calculational values of E are
incorporated into the coefficients listed with Eqn. (23) to utilize their correct radium
dependence. The emanation-radium trend was based on radon emanation measurements
from nearly 300 Florida soil samples (box 8), whose numerical results are presented in
Appendix F. The procedure for making the measurements (box 9) is presented in Appendix
D, and quality assurance data supporting the radon emanation measurements (box 10) are
presented in Appendix E. The soils used for characterizing the emanation versus radium
trend (box 11) were Florida soils selected from a state-wide archive of reference pedon soils
maintained by UFSWS.
Soil radium concentrations, R (box 21), are defined as shown in box 13, as geometric
mean values computed from NURE uranium measurements. The uranium values are
converted to equivalent radium concentrations by dividing by 3 \ig uranium per pCi of
radium. The calculational values of R are listed for the example polygon 2,608 on page J-19,
second line, as a geometric mean of 0.696 pCi g'1 and a geometric standard deviation of 1.614,
r> c
-------
as calculated from 24 NURE measurement points. The NURE points enclosed by polygon
2,608 were extracted by the GIS system at UFGC (box 14), and the original NURE
aeroradiometric uranium measurements were obtained through USGS from DOE data tapes
(box 15).
The A and B fitting coefficients for calculating soil radon potentials are defined in box
16, as in Eqn. (22), as a function of the polygon area fractions represented by each soil
component, F;, and the associated fitting coefficients for each soil component, a, and bs. The
Fj area fractions for STATSGO soil unit 67 (for the example polygon 2,608) are listed in
Appendix G (page G-7) for the eight soil components: Alaga, Alpin, Rlanton, Bonneau,
Chiefland, Otela, Shadeville, and Troup. Table G-1 lists both the STATSGO percentages and
the normalized values that total 100%. The normalization of major components (box 17)
avoids more lengthy calculations for many times more soil components that have only very
minor contributions to the average soil radon potentials. The STATSGO percentages (box 18)
are obtained from the STATSGO data base of soil measurements provided by UFSWS.
The area-weighted average a, and b. coefficients for each soil component (box 16) were
calculated assuming both low-radium and elevated-radium geology designations, as listed in
Appendix I. For example, the Alaga soil series has a.=3.3368, bj cold=0.1124, and bihot=0.9179;
the Alpin soil series has at=3.1933, b, cold=0.1966, and b; h(Jl= 1.7246; etc. (Page 1-3). From
these, only the b, value for the selected geology was used (box 19), based on the geologic
radium category assigned to the map polygon (Table 4-1). The example polygon 2,608
involved a land area with a Thl geology classification (page J-19). Table 4-1 identifies this
geology as Hawthorn group phosphatic sediments with "low" radon potential. The regional
radium classifications of different geologic units (box 20) were developed and provided by
USGS for the FRRP. The regional geologic classifications used by USGS (box 21) were
determined by the Florida Geological Survey.
The a, and b, coefficients representing each soil component were averaged when more
than one set of measured data were available for the soil component (box 22). The individual
ai and b( coefficients representing each data set for each soil component were calculated (box
23) using the RnMAP computer code, which is described in Section 2 of the report. Its
-------
derivation from the RAETRAD code is also listed in Section 2. An example printout from the
RnMAP code for the second data set of the Alpin soil series is presented in Appendix B. The
coefficients fitted to the detailed output are listed at the end on page B-ll. The input data
used for the RnMAP calculations (box 24) are listed in Appendix H.
For the Alpin soil series example, the data for profile 5 of the Alpin soil series are
presented on page H-5. These data consist of six lines that contain the soil density,
hydrologic properties, water table depth and duration, horizon thicknesses, and the average
soil particle diameter, and correspond to the printout of input data for the example
calculation in Appendix B. The output coefficients ai and b; on page B-ll are similar to, but
not equal to, the average values listed on Page 1-3, because they have been averaged with two
other Alpin calculations (for Alpin profiles 3 and 10, with input data on page H-5) before
listing in Appendix I. The STATSGO data base of soil physical and hydrological
measurements contains many additional parameters not listed in Appendix H, but the values
listed in Appendix H constitute all that were used as input to RnMAP. The soil
measurements from the STATSGO data base were provided by the UFSWS.
p. 8
-------
TECHNICAL REPORT DATA
{Please read Instructions on the reverie before comp'
1. REPORT NO. 2.
E PA-600/R-9 5-142b


4. TITLE ANO SUBTITLE
Statewide Mapping of Florida Soil Radon Potentials,
Volume 2. Appendices A-P
S. REPORT DATE
September 1995
6. PERFORMING ORGANIZATION CODE
7. AUTHOR(S)
KirkK. Nielson, Rodger B. Holt, and Vern C. Rogers
B. PERFORMING ORGANIZATION REPORT NO.
RAE-9226/2-2R1
9. PERFORMING ORGANIZATION NAME AND ADDRESS
Rogers and Associates Engineering Corporation
P. 0. Box 330
Salt Lake City, Utah 84110-0330
10. PROGRAM ELEMENT NO.
11. CONTRACT/GRANT NO.
EPA IAG RWFL 93378-01
12. SPONSORING AGENCY NAME AND ADDRESS
EPA, Office of Research and Development
Air Pollution Prevention and Control Division
Research Triangle Park, NC 27711
13. TYPE OF REPORT AND PERIOD COVERED
Final; 4/92 - 9/94
14. SPONSORING AGENCY CODE
EPA/600/13
16. supplementary notes ^PPCD project officer is David C. Sanchez, Mail Drop 54, 919/
541"2979. Volume 1 is the basic technical report.
16. abstractrep0rt gives results of statewide mapping of Florida soil radon poten-
tials. Statewide maps identify Florida regions with different levels of soil radon po-
tential. The maps provide scientific estimates of regional radon potentials that can
serve as a basis for implementing radon-protective residential building standards
where they are needed. The maps were developed from state soil maps and surface
geology maps, which divided the state into 3, 919 regions with unique combinations of
soil and geologic properties. The potentials of the soil profiles in each region to con-
tribute to indoor radpon levels were calculated and used to classify each map region
into one of seven tiers of radon potential. The maps were validated by comparisons
with more than 1,000 radon flux measurements and with 9,038 indoor radon measure-
ments from three data sets. The comparisons showed consistency between the mea-
surements and the radon potential maps, with approximately the expected numbers
of outlier points. Field investigations of the outlier data points showed trends asso-
ciating certain construction details with positive or negative biases. Radon potentials
were calculated using a mathematical model of radon generation and transport from
the top 5 m of surface soils into a reference house. Upper confidence limits of 70, 90,
and 95% were defined for the radon potentials, in addition to regional median values.
17. KEY WORDS AND OOCUMENT ANALYSIS
a. DESCRIPTORS
b.IDENTIFIERS/OPEN ENDED TERMS
c. cosati Field/Group
Pollution
Radon
Soils
Mapping
Residential Buildings
Building Codes
Pollution Control
Stationary Sources
Indoor Air
13 B
07B
08G.08M
08B
13 M
05D
18. DISTRIBUTION STATEMENT
Release to Public
19. SECURITY CLASS (This Report)'
Unclassified
21. NO. OF PAGES
358
20. SECURITY CLASS {This page)
Unclassified
22. PRICE
EPA Form 2220-1 (9-73)
-------