U.S. ENVIRONMENTAL PROTECTION AGENCY
NATIONAL EUTROPHICATION SURVEY
WORKING PAPER SERIES
REPORT
ON •
BEAVER, TABLE ROCK, AND BULL SHOALS
RESERVOIRS, ARKANSAS AND TANEYCOMO
RESERVOIR, MISSOURI
BENTON, CARROLL, BOONE, MARION AND
BAXTER COUNTIES, ARKANSAS AND BARRY,
STONE, TANEY, AND OZARK COUNTIES,
MISSOURI
EPA REGION VI AND VII
WORKING PAPER NO, 480
CORVALLIS ENVIRONMENTAL RESEARCH LABORATORY - CORVALLIS, OREGON
and
ENVIRONMENTAL MONITORING & SUPPORT LABORATORY - LAS VEGAS, NEVADA
•&G.P.O. 699-440
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REPORT
ON •
BEAVER, TABLE ROCK, AND BULL SHOALS
RESERVOIRS, ARKANSAS AND TANEYCOMO
RESERVOIR, MISSOURI
BENTON, CARROLL, BOONE, MARION AND
BAXTER COUNTIES, ARKANSAS AND BARRY,
STONE, TANEY, AND OZARK COUNTIES,
MISSOURI
EPA REGION VI AND VII
WORKING PAPER NO, 480
WITH THE COOPERATION OF THE
ARKANSAS DEPARTMENT OF POLLUTION CONTROL AND ECOLOGY
AND THE
MISSOURI DEPARTMENT OF NATURAL RESOURCES
AND THE
ARKANSAS AND MISSOURI NATIONAL GUARD
FEBRUARY, 1977
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REPORT ON BEAVER, TABLE ROCK, AND BULL SHOALS RESERVOIRS,
ARKANSAS AND TANEYCOMO RESERVOIR , MISSOURI
BENTON, CARROLL, BOONE, MARION AND BAXTER COUNTIES,
ARKANSAS AND BARRY, STONE, TANEY, AND OZARK COUNTIES, 1ISSOURI
EPA REGION VI AND VII
by
National Eutrophication Survey
Water and Land Monitoring Branch
Monitoring Applications Laboratory
Environmental Monitoring & Support Laboratory
Las Vegas, Nevada
and
Eutrophication Survey B,ranch
Corvallis Environmental Research Laboratory
Corvallis, Oregon
Working Paper No. 480
OFFICE OF RESEARCH AND DEVELOPMENT
U.S. ENVIRONMENTAL PROTECTION AGENCY
February lg77
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CONTENTS
Page
Foreword ii
List of i rkansas and rlissouri Study Lakes iv - v
Lake and Drainage Area Map vi - ix
Sections
I. Conclusions
II. Lake and Drainage Basin Characteristics 8
III. Lake Water Quality Summary 11
IV. Nutrient Loadings 29
V. Literature Reviewed 39
VI. Appendices 40
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- 11
FOREWORD
The National Eutrophication Survey was initiated in 1972 in
response to an Administration commitment to investigate the nation-
wide threat of accelerated eutrophication to freshwater lakes and
reservoirs.
OBJECTIVES
The Survey was designed to develop, in conjunction with state
environmental agencies, information on nutrient sources, concen-
trations, and impact on selected freshwater lakes as a basis for
formulating comprehensive and coordinated national, regional, and
state management practices relating to point source discharge
reduction and nonpoint source pollution abatement in lake water-
sheds.
ANALYTIC APPROACH
The mathematical and statistical procedures selected for the
Survey’s eutrophication analysis are based on related concepts
that:
a. A generalized representation or model relating
sources, concentrations, and impacts can be
constructed.
b. By applying measurements of relevant parameters
associated with lake degradation, the generalized
model can be transformed into an operational-
representation of a lake, its drainage basin, and
related nutrients.
c. With such a transformation, an assessment of the
potential for eutrophication control can be made.
LAKE ANALYSIS
In this report, the first stage of evaluation of lake and
watershed data collected from the study lake and its drainage
basin is documented. The report is formatted to provide state
environmental agencies with specific information for basin
planning [ 5303(e)], water quality criteria/standards review
[ 5303(c)], clean lakes - [ 5314(a,b)], and water quality monitoring
[ 5106 and §305(b)] actIvities mandated by the Federal Water
Pollution Control Act Amendments of 1972.
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iii
Beyond the single lake analysis, broader based correlations
between nutrient concentrations (and loading) and trophic condition
are being made to advance the rationale and data base for refine-
ment of nutrient water quality criteria for the Nation’s freshwater
lakes. Likewise, multivariate evaluations for the relationships
between land use, nutrient export, and trophic condition, by lake
class or use, are being developed to assist in the formulation
of planning guidelines and policies by the U.S. Environmental Protectior
Agency and to augment plans implementation by the states.
ACKNOWLEDGMENTS
The staff of the National Eutrophication Survey (Office of
Research and Development, U.S. Environmental Protection Agency)
expresses sincere appreciation to the Arkansas Department of Pollution
Control and Ecology and the Missouri Department of Natural Resources
for professional Involvement, to the Arkansas and Missouri National
Guards for conducting the tributary sampling phase of the Survey,
and to those Arkansas and Missouri wastewater treatment plant operators
who provided effluent samples and flow data.
The staff of the Water Division of the Arkansas Department
of Pollution Control and Ecology; and the staff of the Missouri
Department of Natural Resources, James Wilson, Director; the Division
of Environmental Quality, Ken Karch, Director; the Water Quality
Program, James Odendahi, Director, provided invaluable lake documentation
and counsel during the Survey, reviewed the preliminary reports
and provided critiques most useful in the preparation of the Working
Paper series.
Major General Thomas C. Armstrong, the Adjutant General of
Arkansas, Project Officer Colonel Lavaun M. James, who directed
the volunteer efforts of the Arkansas National Guardsmen, Major
General Charles M. Kiefner, the Adjutant General of Missouri, and
Project Officer Captain Donald L. Wellen, who directed the volunteer
efforts of the Missouri National Guardsmen, are also gratefully
acknowledged for their assistance to the Survey.
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iv
LAKE NAME
Beaver
Blackfish
Blue Mountain
Bull Shoals
Catherine
Chicot
DeGray
Erling
Grand
Greer’s Ferry
Hamilton
Miliwood
Nirnrod
Norfork
Ouachi ta
Table Rock
NATIONAL EUTROPHICATION SURVEY
STUDY LAKES
STATE OF ARKANSAS
COUNTY
Benton,, Carroll, Washington
Crittenden, St. Francis
Logan, Yell
Baxter, Boone, Marion
(Taney, Ozark in MO)
Garland, Hot Spring
Ch i cot
Clark, Hot Spring
Lafayette
Chicot
Van Buren, Cleburne
Garland
Hempstead, Howard,
Little River, Sevier
Perry, Yell
Baxter, Fulton (Ozark in MO)
Garland, Montgomery
Boone, Carroll (Barry,
Taney in MO)
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LAKE NAME
Clearwater Lake
Pomme de Terre Reservoir
Stockton Reservoir
Lake Taneycomo
Thomas Hill Reservoir
Lake Wappapello
10U N TV
Reynolds
Polk, Hickory
Dade, Polk, Cedar
Taney
Macon,
Wayne,
NATIONAL EUTROPHICATION SURVEY
STUDY LAKES
STATE OF MISSOURI
Randol ph
Butler
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vi
one as
Map Lorat Ion
BEAVER RESERVOIR
® Tributary Sampling Site
x Lake Sampling Site
¶ Sewage Treatment Facility
ç , Drainage Area Boundary
i 0 5Km.
Mi.
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vii
® Tributary Sampling Site
)( Lake Sanipling Site
Sewage Treatment Facility
20
I I I
I l ls sour 1
Arkansas
1•oo -
1 Ki gspo
TABLE ROCK RESERVOIR
49 Km.
10
Scale
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vi i ’
93 15
ucat on
I
1
I
1 Y. ••
I (‘ .
, Chr t 0 n
I Center
,1
/
(
(1
I
Day•
/
;th 4
J
I)
LAKE TANEYCOMO
Tributary Sampling Site
x Lake Sampling Site
Sewage Tre tinent Iicility
0 Kui.
0 oMi.
Scale
\
/
Gnrb n
K rbyv
/ S
— ________ MISSOURI
AR KANSAS
Bull S/,o ,/s
L mke
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()IlI .11
/
\ \ ((
/ i
fi.
. /
Io Ic
( -
I
M i i
• 1
11,11’ I I
BULL SHOALS RESERVOIR
® 1ribut iry Sampi ing Site
X lake Satiip Site
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PRELIIIINARY REPORT ON
BEAVER, TABLE ROCK, AND BULL SHOALS RESERVOIRS, ARKANSAS
AND TANEYCOMO RESERVOIR, ‘1ISSOURI
STORET NOS. 0501, 0515, 0504, and 2904
I. CONCLUSIONS
A. Trophic Condition:*
On the basis of Survey data and field observations,
Beaver, Table Rock, ana Bull Shoals Reservoirs are consi-
dered mesotrophic. Mean total phosphorus values ranged
from 0.015 mg/i - 0.022 mg/l for the three reservoirs, mean
orthophosphorus levels ranged from 0.004 mg/l - 0.007 mg/i
and mean total inorganic nitrogen ranged from 0.330 mg/i -
0.380 mg/i. Mean chlorophyll a values were 3.9 p a/i and
4.0 pg/i for Beaver and Bull Shoals Reservoirs, respectively.
r 1ean chlorophyll a for Table Rock Reservoir was 9.1 pg/i,
ranging from 1.5 pg/i in June to 30.9 pg/i in October.
Survey limnologists reported no problem conditions in any of
these three deep reservoirs.
Taneycomo Reservoir is considered eutrophic, i.e., nutri-
ent rich and highly productive. Whether such nutrient enrich-
ment is to be considered beneficial or deleterious is deter-
mined by its actual or potential impact upon designated bene-
ficial uses of the lake.
*See ADpendjx F.
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2
Of the six Missouri lakes sampled in 1974, three
had higher total phosphorus levels than Taneycomo Reser-
voir (0.023 nig/l), two had higher mean inorganic nitrogen
levels (0.530 mg/i), and two had higher mean orthophosphorus
levels than Taneycomo Reservoir. Chlorophyll a values ranged
from 0.3 pg/i in June to 36.8 pg/i in October. Survey 1 -im-
nologists reported floating and submerged aquatic plants
heavily distributed along both shores of the reservoir and in
the open water between Stations 01 and 02. An algal bloom
was observed in October.
B. Rate-Limiting Nutrient:
Algal assay results indicate that all four White River
impoundments are limited in primary production by available
phosphorus levels. Mean inorganic nitrogen to orthophosphorus
(N/P) ratios in the reservoirs were also generally indicative
of phosphorus limitation.
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3
C. Nutrient Controllability:
1. Point sources -
Point sources were estimated to be 55.9% of the
total phosphorus load to Beaver Reservoir. The city
of Fayetteville contributed 53.1% of the total , and
the cities of West Fork and Huntsville contributed the
remaining 2.8%.
Phosphorus loading (0.72 g/m 2 /yr) to Beaver Reser-
voir was slightly greater than the eutrophic loading
proposed by Vollenweider (1975) for lakes with such
volume and retention time. Elimination of the known
point sources to this reservoir would reduce phosphorus
loading to below Vollenweider’s oligotrophic loading.
It would be desirable to reduce these point source
contrijxitjons to the greatest practicable extent in order
to maintain the existing good trophic condition of Beaver
Reservoir.
Point sources were estimated to be 82.5% of the to-
-tal phosphorus load to Table Rock Reservoir. The Spring-
field Southwest plant contributed 74.6% of this total,
and the cities of Berryville and Green Forest contributed
4.0% and 1.8%, respectively. The remaining 2.1% was con-
tributed from five smaller municipal plants.
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4
There are also a number of additional municipal
plants which did not participate in the Survey and
are not included in the nutrient budget for the lake.’
These include: Kampgrounds of America (Eureka Springs),
Big Bay Public Use Area, Campbell Point Public Use area
Baxter Public Use Area, Highway 13 Public Use Area,
Table Rock Powerhouse STP, Couchlight Mobile Home Park,
Cove Motel and Lounge, Kimberly City (a complex of 20
small shops and restaurants, and one motel), Mountain
Jack Restaurant, and Shellknob Estates Subdivision (U.S.
[ PA, 1975). Although these plants do impact Table Rock
Reservoir to some degree, background tributary loadings
(page 36) to the reservoir are very low and reflect no
significant water quality problems. It appears that pre-
sent usage of these plants does nat contribute substan-
tially to the nutrient budget of the lake, although future
increased usage potentially could affect the trophic
condition of the reservoir.
The phosphorus loading 1.49 g/rn 2 /yr to Table Rock
Reservoir was almost twice the proposed Vollenweider eu-
trophic level. Removal of 90% of the phosphorus at these
point sources would reduce the loading to 0.38 g/m 2 /yr,,
which is less that Vollenweider’s oligotrophic level. This
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5
reduction should result in further improvement of the
water quality in Table Rock Reservoir once a new phos-
phorus equilibrium becomes established.
Point sources were calculated to be 6.9% of the
total phosphorus load to Taneycomo Reservoir. The city
of Branson contributed this entire point source load.
The Shepherd of the Hills Fish Hatchery discharges to
the White River at Table Rock Reservoir Dam; however,
nutrient contributions from this source are not known.
The present Taneycomo phosphorus loading of 6.07
g/m 2 /yr is approximately twice that proposed by Vollen-
weider. However, Vollenweiderss model may not be appli-
cable to lakes with short hydraulic retention times (seven
days for Teneycomo Reservoir). Although reduction of
loading from the Branson plant would not in itself be
expected to result in water quality improvement in the
reservoir, phosphorus control of the point sources direct-
ly impacting the two upstream White River impoundments
would likely improve trophic conditions in Lake Taneycomo.
Point sources directly contributed only 1.4% of the
total phosphorus load from Bull Shoals Reservoir. The
city of Ava contributed this entire load. Phosphorus
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6
loading from the reservoir is slightly greater than
the proposed Vollenweider oligotrophic level, but less
than his eutrophic level.
2. Nonpoint sources -
r4onpoint sources were calculated to contribute 44.1%
and 17.5% of the total phosphorus loads to Beaver and
Table Rock Reservoirs, respectively, and 93.1% and
98.6% of the respective totals to Taneycorno and Bull
Shoals Reservoirs. Ungaged drainage areas ranged from
0.4% to 8.8% of all reservoir total phosphorus loads.
The total nonpoint loading values for the White
River are misleading, since point source contributions
in each reservoir are contained in the ihite River “non-
point” loadings for the reservoirs downstream. Substan-
tial reductions in the point sources impacting all four
White River impoundments are needed if future deteriora-
tion of existing reservoir trophic states is to be pre-
vented.
The nonpoint phosphorus exports of the tributaries
otherthan the White River impacting these reservoirs
were generally low (page 36), ranging from 9-15 kg!
krn 2 /yr for Beaver Reservoir, and from 1-4 kg/km 2 /yr for
Table Rock, Taneycomo, and Bull Shoals Reservoirs. These
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7
exports are all comparable to tributary exports from
nearby Norfork Lake (range of 1-6 kg/km 2 /yr) (NES
Working Paper No. 491).
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8
1. Surface area:
2. Mean depth:
3. Maximum depth:
4. Volume:
5. 1ean hydraulic
retention time:
1. Surface area:
2. Mean depth:
3. Maximum depth:
4. Volume:
5. lean hydraulic
retention time:
Beaver
114.20
17.8
62.8
2,037.726
556 (1.5 yr)
Taneycomo
12.22
5.8
17.4
70.876
7
Table Rock
174.42
19.1
67.1
3,332.890
330
Bull Shoals
183.89
20.4
62.2
3,759.678
259
2
km
meters .
meters.
x i06 m 3 .
days.
2
km
meters.
mete s. 3
x 10 m
days.
II. LAKE AND DRAINAGE BASIN CHARACTERISTICS
Lake and drainage basin characteristics are itemized below.
Lake morphornetry was provided by the Arkansas Department of Pol-
lution Control and Ecology and by the Missouri Cleanwater Comis-
sion. Tributary flow data were provided by the Arkansas and Mis-
souri District Offices of the U.S. Geological Survey (U GS).
Outlet drainage areas include the lakes surface areas. Mean hy-
draulic retention times were obtained by dividing the lake volumes
bymean flows of the outlets. Precipitation values are estimated
by methods as outliried in the National Eutrophication Survey (NES)
Working Paper No. 175. A table of metric/English conversions is
included as Appendix A.
A. Lake r’lorphometry:
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B. Tributary and Outlet (see Appendix B for flow data):
1. Tributaries
Beaver Reservoir
Table Rock Reservoir
Minor tributaries and
immediate drainage -
723.9 11.35
Minor tributaries and
immediate drainage -
1,503.9
18.37
Total
2,973.1 42.45
Total
10,237.4 114.20
2. Outlet - A-i White River
3,087.3 42.35
Outlet.- A-i White River
10,411.8 116.98
C. Precipitation:
1. Year of sampling: 148.1 cm.
2. Mean annual: 147.1 cm.
Year of sampling: 128.9 cm.
Mean annual: 106.1 cm.
Drainage
Name area(km 2 )
Mean flow
(m 3 /sec)
Name
Drainag ’
area ( km )
Me n flow
( mi/sec )
A-2
White River
1,036.0
14.75
A-2
White River
3,071.7
42.36
C-i
D-l
War Eagle Creek
Whitener Branch
802.
39.9
10.88
0.52
B-i
c-i
Little Indian Creek
Railey Creek
49.2
36.3
0.27
0.19
E-l
Brush Creek
51.8
0.68
D-l
James River
2,556.3
25.99
G-i
Richland Creek
318.6
4.27
E-l Fiat Creek
F-i Rock Creek
G-1 Roaring River
H-lButler Creek
J-l Kings River
K-i Long Creek
L-l Yokum Creek
740.7
77.7
155.4
62.2
1,377.9
440.3
165.8
5.77
0.45
0.99
0.35
15.79
3.22
1.05
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B. Tributary and Outlet (see Ap’pendix B for flow data) (contihued)
1. Tributaries —
Taneycomo Reservoir
Bull Shoals Reservoir
Na me
Minor tributaries and
immediate drainage -
C. Precipitation:
Total
1. Year of sampling: 129.7 cm.
2. Mean annual: 106.8 cm.
Name
D-l East Sugar Loaf Creek
E-l West Sugar loaf Creek
F-i Bear Creek
G-i Bee Creek
H-l Lake Taneycomo
(White River)
J-1 Swan. Creek
L-1 Beaver Creek.
11-1 Big Creek
Q-1 Gully Spring Creek
R-l Barren Fork
T-l Turkey Creek
W-i North Fork White River
X-l Pond Fork
Minor tributaries and
immediate drainage -
Total
Outlet - A-i White River
Year of sampling: 150.9 cm.
Mean annual : 148.8 cm.
A-2 White River
B-l Roark Creek
C-i Bull Creek
D-l Turkey Creek
Drainage
area(km 2 )
10,417.0
98.4
523.2
88.1
Mean flow
( m 3 /sec )
116.98
0.58
3.88
0.51
Drai nag
area(km )
77.2
68.9
344.5
76.7
11,297.6
440.3
924.6
113.4
29.8
111.4
93.3
161.4
83.7
M 9 n flow
( mjsec )
0.71
0.64
3.23
0.69
123.52
4.97
8.25
1 .07
0.24
1 .05
0.87
1.60
0.76
2. Outlet - A-i White River
158.7 1.86
11,285.4 123.81
11,297.6 123.49
1,665.1 17.44
15,488.4 165.04
i5,672. 1 168.02
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11
III. LAKE WATER QUALITY SUMMARY
Beaver, Table Rock, Taneycomo, and Bull Shoals Reservoirs
were sampled four times during the open-water season of 1974 by
means of a pontoon-equipped Huey helicopter. Each time, samples
for physical and chemical parameters were collected from the six,
nine, two, and eight stations, respectively, on the lakes and from
a number of depths at each station (see maps, pages vj-jx). During
each visit, depth-integrated samples were collected from each sta-
tion for chlorophyll a analysis and phtoplankton identification
and enumeration. During the first and last visits, 18.9-liter
depth-integrated samples were composited for algal assays. Maxi-
mum depths sampled were:
Beaver Table Rock Taneycomo Bull Shoals
Station Station Station Station
Number Depth Number Depth Number Depth Number Depth
01 61.0 rn 01 61.0 m 01 12.8 m 01 57.9 m
02 49.1 m 02 33.8 m 02 10.4 m 02 56.7 m
03 36.9 m 03 53.3 m 03 49.1 m
04 29.3 m 04 39.6 m 04 32.6 m
05 19.2 m 05 32.3 m 05 48.8 m
06 14.6 m 06 18.0 m 06 45,7 m
- 07 24.4 m 07 29.9 m
08 43.0 m 08 20.1 m
09 l5.2m
For a more detailed explanation of NES methods, see NES Working Paper
No. 175.
The results obtained are presented in full in Appendix C and
are sumarized in Ill-A for waters at the surface and at the maximum
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12
depth for each site. Results of the phytoplankton counts and
chlorophyll a determinations are included in 111-B. Results
of the limiting nutrient study are presented in Il l-C.
Temperature profiles reproduced from the graphic records
are presented in Appendix D. Depths of physical grab samples
are represented by the dots on the profiles. The vertical lines
crossing the profiles are to aid in centering the temperature
scale for each profile.
Note that in the three layer reservoirs a thermocline was
present at the deeper sites on every sampling round. Also, temp-
eratures in Lake Taneycomo generally correspond to temperatures
below the epilimnion of Table Rock. Surface temperatures at the
uppermost Station (#08) in Bull Shoals are much higher than those
in Lake Taneycomo, suggesting the strong influence of Swan and
Little Beaver Creeks, and the sluggish nature of flow between
Taneycomo Dam and Station 08.
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LL c.
sT Ei C0iE P’ Y51C4L Al iD CHEMICAL CrfM ACTE jSTjCS
./ 5/7.. ) ( 5/15/74 1 8/30.’74
MAX
S 0t. -l-’ 5*0* = 6
LANGE Ar. t E RANGE
P LTE - N° AANGE MEDIAN ( EFE .S) GE -iEDI4 . (METEMS) N MA . .GE MEDIAN (METERS)
TEE Tu E CLG CENT
12 10.5— 13.1 11.4 0.0— 1.5 12 23.2— 25.1 2’*. 0.0— 1.5 8 25.7— 26.3 25.9 0.0— j.s
)EATr n 7.2— 11.1 7. 12.2— 61.0 6 8.5— 18.2 10.3 14.6 2.1 S .2 21.9 12.3 10.7— 51.8
D1SSOLi D 3 Y ’E’ . . ( G/L)
‘E . Tri S 9.0— 10.2 10.0 1.5— 1.5 3.2— 10.0 .1 1.5— 1.5 4 S.0 7.A 5.8 0.0— 1.5
Mt. DE T * 6 7.2— 9.0 15.5 12.2— 61.0 5 2.6— .e 4.0 14.6— 52.1 5 0.1— 0.6 0.3 10.7— 51.
C0 0’JCTIvITY JMr-l )S)
0.—i.- , UE ’1 - 12 85.— 95. fl,. 0.0— 1.5 12 73.— 123. 119. 0.0— 1.5 5 124.— 151. 128. 0.0— 1.5
AA uEi. Tl I** 6 71.— 99. 90. 12.2— sl.fl & 7 .— 201. 1’..ô— 52.1 6 s3.— 242. 126. 10.7— 51.8
Pk 1Ar -iDA. 1’ 1 IF
DE- T 12 7.1— 7.6 7.’ 0.0— 1.5 1 7.1— 8.7 8.6 0.0— 1.5 8 1.4— 8.4 7.7 0.0— 1.5
MAX D P1h** 6.7— 7.0 e.s 12.2— 61.0 5 6.6— 7.’ 1.1 14. — 52.1 s 7.1— 7.3 7.1 10.7— 51.
TOTAL ALKALINITY (I - 4 G/L)
0.—i.5 DL ’T-i 12 33.— 54. 43. 0.0— 1.5 12 1g.— 48. 3’.. 0.0— 1.5 5 56.— 67. 60. 0.0— 1.5
MAX LJEPTP1 * S 29.— 46. 38. 12.?— 61.0 6 31.— 55. 40. 14.6— 52.1 6 60.— 116. 79. 10.7— 51.
TOTAL P (Mr,/L)
0 —j 5 M I)E ’rH 12 0.0O9—0.06 0.038 0.0— 1.s 1? 0.008—0.09? 0.019 0.0— 1. k4 0.013—0.055 0.027 0.0— 1.5
MAX DEt)Th** 6 0.049—0.100 0.062 12.2— 61.0 6 0.018—0.122 0.041 14.6— 52.1 6 0.017—0.211 0.108 10.7— 51.8
UISSOLVEO 0 . TH0 P u iG/L
I EPTH 12 0.0O ’ .—0.040 0.014 0.0— 1.5 12 0.002—0.012 0.004 0.0— 1.5 0.002—0.006 0.00’. 0.0— 1.s
MAX OEPIiD* S C.010—0.029 0.01 12.2— 61.0 6 0.008—0.028 0.013 14.6— 52.1 6 0.005—0.020 0.007 10.7— 51.8
N02+N03 (MC /L) •
•fl —j•S . rE . TH 12 0.210—0.600 0.450 0.0— 1.5 12 0.060—0.210 0.130 0.0— 1.5 0.020—0.040 0.03 0.0— 1.5
4AX t)EPTH4 * S 0.20—0.140 0.49 12.2— 61.0 5 0.360—0.650 0.500 14.6— 52.1 . 0.040—0.460 0.145 10.7— 51.8
AM ()NIA (MG/LI
jE -’Trl 12 0.030—0.140 0.051) 0.0— 1.5 12 0.020—0,070 0.040 0.0— 1.5 8 0.030—0.110 0.035 0.0— 1.5
‘ AX UEPTH** 6 0.OsC—0.130 0.060 1?.2— 61.0 6 0.020—0.180 0.060 14.6— 52.1 6 0.100—1.390 0.575 10.7— 51.6
KJELe r1L N ( i/L) -
‘ )EPTI-i 12 0.200—0.700 0.250 0.0— 1. 1? 0.’200—1.000 0.350 0.0— 1.5 15 0.300—0.800 0.500 0.0— 1.5
MA )EPTH** S 0.?00—0.40u 0.? 0 12.?— 61.0 6 0.200—0.400 0.250 14.6— 52.1 6 0.300—1.800 0.900 10.7— 51.8
SECCrfl DISC (MEIE s)
•i 0.6— 2.3 0. 3.3— ‘..1 2.4 6 1.1— 5.0 2.F
N = tjU . 0 AM . L S
** MAAIMUM L,Ep-TH AMPLEu AT EACi - ’ S 11t
S = r O. 0I SITES SAMPLEIJ ON TMJS DATE
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E. vE-? LAcE
‘STC ET COGE’ o1 P.- ’vSICAL 8t’JO Ci- ’ ICAL CHA ACTF 1STJCS
10/ Y/7
A X
= ‘ EPT-i
P APA•AETE. r Gh E0IAr’ C ETE S)
1E ATu E CDEG C NTJ
.—1.5 N C &Tri 12 17.’ — L .7 19., 0.u— 1.5
0EPTr4 6 9•S_ 1 .3 15.6 11.9— 53.3
UISSULVEI) O. Y( ’ ’J
r L, Tr ’ 5.6— 9.2 7.1 0.0— 1.5
0EPTr” 0.2— 6.2 0.4 11.9— 53.3
CONC’DCTI IT’I (JHrIOS)
0.—1.5 ‘4 )Lr’Trl 12 85.— 108. 102. 0.0— 1.5
AX i)EPTrI** 6 79.— 160. 100. 11. — 53.3
PH (STANOA- 1 (JNITS1
0.—1.5 N ‘TN 12 6.8— 7.3 7.1 0.0— 1.5
MA 0EPTH** 6 6.6— 6.9 6.6 11.9— 53.3
TOTAL AL$ALINITV ( G/L)
t EPTrl 12 43.— 64. 56. 0.0— 1.5
OEPTri 6 ..— 91. . 11.9— 53.3
TOTAL p (MG/L)
C.—1.5 l LEPTr 12 0.010—0.047 0.018 0.0— 1.
‘AX DEPTH*Q 6 0.024—0.212 0.0 2 11.9— 3.3
DISSOLVED O TIi0 I (MG/LI
0.—1.S N UEPTH 12 0.003—0.009 0.005 0.0— i.s
0EPT#* 6 0.007—0.009 0.008 11.9— 53.3
N02.N03 (MG/LI -
M D PIri - 12 0.040—0.360 O.llu 0.0— 1.
MAX ufPTri 5 0.030—0.400 0.1 5 11.9— 53.3
AMMONIA (MG/LI
M jL ’TH 12 0.020—0.160 0.055 0.0— 1.5
MAX L)EPTPI*G 6 0.140—1.270 0.?55 11.9— 53.3
JEL0 NL N (MG/LI
fl.—1.5 ‘ 1 L 1H 1� 0.200—0.100 0.350 0.0— 1.”
V J 1H° 6 0.4001.700 0.500 11.9— 53.3
SECLrII DISC (MET1 >
6 0. - — .5 1.I
N NO. (iF SAMPLES
*0 &jj j uL’. T I 54M,JLED AT EACH SITE.
** S NO. OF SITES SAMPLED ON 1NIS DATE
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TAbLE OCr LA
STC ET CQfTh 0 1 PhVSIC L AND CHEMICAL CH4PACTE IST1CS
4/ 5/7g. ) ( t,/19/7’e I ( 9/ 4/74
MAX
Or 1ri = 9 DEPT- S•* S D€?T,-I
AN iE ANGE
.NGE LD1 N (METESS) N* ANC,E M fl1 METERS) ANG MEDIAN (METERS)
TEMPE ATU E. (0E CE .r
CE TN 18 10.3— 14.u 11.1 0.0— 1.5 23.8— 26.6 25.8 0.0— 1.5 22 19.5— 24.6 23.5 0.0— 1.5
MAX ()EpT. * 9 6.5— 13.5 7.5 11.9— .0 9.7— 18.1 12.0 1 .2— 53.3 9 11.6— 17.4 14.8 12.8— 51.8
D15 OLVF ) OAYOC.N ( ;/L -
0,—1.5 N EPTn ‘9 9.0— 12.0 10.6 1.5— 1. 5 5.6— 13. ’. 11.2 1.5— 1.5 22 ‘e.6— 11,6 7.0 0.0— 1.5
NAX UEPTMG* 9 .0— 10.4 R.b 11.9— 61.0 9 7,8 2.6 15.2— 53.3 L.2— 8.2 0.6 12.8— 51.8
CONL)UCTIVITY (UNHOS)
0.—1,5 M DEPTH 18 100.— 240. 150. 0.0— 1.5 18 182.— 247. 192. 0.0— 1.5 171.— 259. 193. 0.0— 1.5
MAX DEPTh * 9 93.— 240. 144. 11.9— 61.0 9 100.— 2 .9. 150. 15.2— 53.3 111.—. 303. 157. 12.8— 51.8
PH (STANUjA9C (J .1T )
0.— i. , OEi TH 18 ?.D— 9.6 N.1 0.0— 1.5 19 8.5— 9.1 8.9 0.0— 1.5 7.7— 8.5 8.0 0.0— 1.6
MAX 0EPTH 9 7.2— 3.)) 7.t’ 1 .1.9— 51. ’) 9 7.i— 7.7 7.5 15.2— 53.3 6.9— 7.9 7.5 12.8— 51.8
TOTAL AL (ALIN1TY (M /L)
0.—1 .5 H DEPTH 18 55.— 130. 92. 0.0— 1.s 17 65.— 104. 93. 0.0— 1.5 22 ‘97.— 140. 104, 0.0— 1.5
MAX DEPTH* 51.— 132• 92. 11.9— 61.) 9 41.— 135. 98. 15.2— 53.3 9 79.— 167. 106. 12.8— 51.8
TOTAL P U .IG/L)
0.—1,9 H OE TH 18 0.012—0,11) 0.026 0.0— 1.5 1 ) 0.u15—0.085 0.025 0.0— 1.5 2? 0.013—0.123 0.01 0.0— 1.5
MAX Dt .PTH** ‘9 0.018—0.120 0.034 11.9— 61.0 9 0.010—0.073 0.021 15.2— 53.3 9 0.035—0.240 0.068 12.8— 51.8
DISSOLVED 0 THO P (MG/LI
0.—1,5 H DEPTH 18 0.002—0.087 0.007 1.0— 1.5 17 0.002—0.019 0.006 0.0— 1.5 22 0.002—0.064 0.005 0.0— 1.5
MAX DEPTH* - 9 0.004—0.073 0.012 11.9— 61.0 9 0.003—0.052 0.015 15.2— 53.3 5 0.004—0.152 0011 12.8— 51.8
N02.N03 (MG/LI
r1.—1.s H 16 0.230—1.870 0,430 0.0— 1.5 17 0.030—0.600 0.110 0.0— 1.5 2 0.020—0,600 0,055 0.0— 1.5
MAX DEPTH** 9 0,250—1,870 0.570 11.9— 61.0 9 0.280—1.430 0.510 15.2— 53.3 9 0.020—1,200 0,240 12.8— 5l. $
AMMONIA (MG/LI
O.—1 .5 M DE TH 18 0.020—0.060 0.050 0.0— 1.5 17 0.020—0.050 0.040 0.0— 1.5 22 0.030—0.210 0.040 0.0— 1,5
MAX DEPTHD* ‘9 0.0JO—0. 7 0.060 11.9— 61.0 9 0.020—0,190 0.040 15.2— 53.3 9 0.060—0.750 0.220 12.8 51.8
) JELDAIlL N (Mb/LI
0.—1,5 H DEPTH 18 0.200—0.400 0.200 0.0— 1.5 1 0.300—0.900 0.500 0.0— 1.5 22 0.200—1.200 0.500 0.0— 1.5
MA UEPTH** 9 0.200—0.300 0.200 11.9— 61,0 ‘ 0.200—0.400 0.200 15.2— 53,3 9 u.300—fl.QQO 0.700 1.8— 51.8
SLCCriI DISC ( ETEM’ )
‘9 0.9— 2.3 ‘9 1.1— 3.)) 1,9 13 1.0— 4.0 2.7
* N NO. OF SA PL. .S
* MAXjMjN DE T- SArI’- LED AT EACH S1T
S = r O. OF SITEs SAMPL€O 08 ThIS DATE
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TA LE OC ( LAKE.
STOiET COD€ 0515 Pr YS1CAL AND CHE 4ICAL CHAL ACTEPtSTICS
l0/il/7’
AR4 ETE 4 3E MECIAt ( ETE- S)
TE- PcRATuRE (OE( CEj’ ’i
M DEPT- 10 1 .1— 19. - i 19. 0.0— 1.s
MA’ DEPt s** 5 12.0— 15.6 14.J 32.0— 52.1
DISS LVEQ O YG1r ( G/L)
t OE’-T i 10 6.0— 9.8 1.’. 0.0- 1.5
A’ DEPT * 5 0.0— 0.2 ).0 32.0— 52.1
CONDUCTIVITY (U ’-1O
0.—1.5 ‘ DEPTt-t 10 171.— eoi. 178. 0.0— 1.
M UEpTH** 5 9. 229. 161. 32.0— ‘,2.1
PH CSTANDA O UNITS)
M DE TH 10 7.7— 7 . i 0.0— 1.
MAX DEPII.ID* 6.8— 7.2 7.1 32.0— 52.1
TOTAL ALKALINITY (M(./L)
O.—I .5 N i)EPTpI [ 0 93.— 122. 102. 0.0— 1.5
P )AX DEPTN 46.— 135. 109. i2.0— 52.1
TOTAL P ( 3/L)
0.—1.5 M DEPTH 10 0.011—0.024 0.016 0.0— 1.5
P4 pfl ** S 0.019—0.360 0.191 32.0— S?.1
DISSOLVEO ORTHO P (PIG/U
0.—1.5 II DEPTH 10 0.004—0.011 0.007 0.0— 1.5
MAX DEPTH** 5 0.005—0.037 0.011 32.0— 52.1
NO2sNO3 (MG/LI
0 .—1.S H oEi -r - . 10 o.o o—o.oco 0.030 0.0— 1.5
MAX L)EHTH* 5 0.020—0.290 0.090 32.0— 52.1
AMMONIA (MG/LI
0.—l.5 H DE 1H 10 0.020—0.070 0.040 0.0— 1.5
MA DEPTP -I* S 0.060—1.020 1.000 32.0— 52.1
KJEL0AHL N (MG/L)
0.—1.s M L’E TM 10 0.200—1.000 0.350 0.0— 1.5.
MAX UEPTH*D S 0.2O0—1. 00 1.200 32.0 52.1
SECCHIL)ISC (METER ,)
5 1.3— 3.7 3.
N NO. OF AHPLt.5
** A IMtJM DE ( T SAM L IJ Al EACH SITr.
S r O. Of SIT S SAMpLED U N THIS DATE
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LAI
-------�
L4rE TA’.EYCUJ’ )
ST ET CUDE 2’ G4 P - YSICAL ND Cp,EMICAL CNA ACTE . 1STICS
1Q/ 4/74
‘44X
7 ‘EPr-
AMjE
AtiG . 4EDIAP (METE )
TEMP [ TJ )EG CENfl
0.—1.S p r) ) .-4 4 15.8— 16.0 15.9 0.0— 1.5
MAX DEPTrI** 15.3 15.3 15. . .4 12.2
L ISSOLV u U (i1 (Mu/Li
0.—1.5 ‘ CE?Tr ‘4 6.2 7.2 6.4 0.0 1.5
X DEPT io*. / 5.2— 5. 5.s 9.4— 12.2
CONDUCTIVITY (tJMI .IOS)
0.—l.5 )E. ’TH 4 153.— 159. 157. 0.0— 1.5
MAX DEPTHQ* 2 151.— 153. 152. 9.4— 12.2
P4-4 (STANCAP) UNITS)
0.1 , 14 DEi Tri 4 7.2— 7.3 7.2 0.0— 1.5
MAX DEPTrI** 2 7.1— 7.2 7.1 9.4— 12.2
TOTAL AL,cALINITY ( G/L)
0.—1.5 M OE, T4I 4 94.— 103. 97. 0.0— 1.5
MAX DEPTrs ° 2 ‘ 3.— 97. 95. 9.4— 12.2
TOTAL P iG/L)
0,—1.5 H O frTi-’ a 0.019—0.051 0.029 0.0— 1.5
MAX t)EPTti * 2 U.034—O.03M 0.036 9.4— 12.2
DISSOLVED O TtiU - (MG/Li
. i DEPTH a 0.005—0.018 0.008 0.0— 1.5
MAX DEPTHa* 2 0.010—0.011 0.010 9.4— 12.2
N02.N03 (MG/Li
0.—1.S M DEPTH 4 0.310—0.380 u.3 4 0 0.0— 1.5
MAX DEPTH*G 2 0.310—0.370 0.340 9.4— 12.2
AMMO jA (MG/Li -
0.—1.5 DEPTH 4 0.OdO—O.09 0 0.040 0.0— 1.5
MAX DEPT -1** d 0.040—0.050 0.045 .4— 12.2
r(JELDArIL P.
0.—1.s H i tPTrl 4 0.200—1.200 0.450 0.0— 1.5
MAX PTl.I* 2 0.300—0.400 ‘0.350 9.4— 12.2
S€CCrU DISC ( TE 5)
2 1.3— 1.8
* N U. CW S HPL S
MAXIMUM OE.PTH SAMPLED Ar EACr-t srTE
S = NO. OF SITES SAMPLED ON T ’I DATE
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flJLL — ,AL5 LAKE
c7 T fi5’ ’ Pr S1CAL AND CrIEMICAL CHA.1 ACTEP1ST1CS
‘ ./ 6/7’. 1 6/20/74 ) ( 9/ 4/7 ie
MAX MAX
= soo* 8 DE T i
NGE r )1At (METEN ) I%d* PANGE ‘ U1AN (M TE S) NG LANGE M DI4N (METERS)
TEE ATU’ E OtbCENI
0.—l.S (JE -T lb 9.7— 11.7 11.0 0.0— 1.5 1 24.4— 27.7 26.2 0.0— 1.5 15 19.2— 25.0 24.1 0.0— 1.5
UA DEPT’i ° 8 7.1— 9.6 7. 16.8— 57.9 8 9.2— 14.7 9.8 16.2— 48.8 8 9.3— 17.0 14.6 17.4— 56.7
DISSOLI€.U 0s YGE (U(/L)
‘ 6 10.2— 11.6 10.6 1.5— 1.5 16 8.2— 10.5 8.8 0.0— 1.5 15 b.4— 8.4 7.8 0.0— 1.5
ua DEP1H° 8 8.e— 11.6 9.’. 16.6— 57.9 8 0.2— 9.4 4.3 16.2— 48.8 d 0.0— 4.4 0.. 17.4— 56.7
CONOUCTIVITr (U -iO )
0.—1.5 M 13 .— 55. 23. 0.0— 1.5 16 240.— 270. 251. 0.0— 1.5 Is 1 b.— 275. 223. 0.0— 1.5
P A* 0EPTr) 8 143.— 265. 1 7. 16.8— 57.9 8 170.— 208. 182. 16.2— 48.8 8 180.— 259, 197, 17.4— 56.7
Ph TAt OA . 0 UNITS)
0,—1.5 M D€.PT’4 16 8.1— t, .6 8.2 0.0— 1.5 16 8.8 8 . 0.0— 1.5 15 .1— 8.5 8.3 0.0— 1.5
MA OEPTH** 8 7.6— 8.5 7.7 16.8— 57.9 8 \7.5— 8.5 7.9 16.2— 48.8 8 7•4— 7.7 7.5 17.4— 56.7
IOIAL ALKALINITY (MG/L)
o.—i.c M OEPTPI 16 98.— 127. 120. 0.0— 1.5 16 123.— 136. 128. 0.0— 1.5 15 118.— 160. 127. 0.0— 1.,
MAX DEPTrI** 8 96.— 150. 117. 16.8— 57.9 7 105.— 147. 126. lb.2 48.8 8 124,— 166. 134. 17.4— 56.7
T0T. L P (frG/L)
0.—i., M (jEi-Ti 16 0.012—0.025 0.016 0.0— 1.5 16 0.007—0.043 0.010 0.0— 1.5 15 0.013—0.026 0.018 0.0— 1.5
‘ 4x D .PT i * 8 0.009—0.036 0.016 16.8— 57.9 8 0.009—0.025 0.012 16.2— 48.8 8 0.022—0.104 0.039 17.4— 56.7
DISSOLVED ObT )sO P (MG/U
0.—1.S 8 OEPT# 16 0.004—0.009 0.005 0.0— 1.5 16 0.002—0.015 0.002 0.0— 1.5 15 0.002—0.010 0.004’ 0.0— 1.b
MA DEPTt.,** 8 0.003—0.009 0.004 16.8— 57,9 7 0.002—0.308 0.306 16.2— 48.6 8 0.002—0.023 0,009 17,4— 56.7
N02 NO3 (MCi/LI
0.—1. H IJEPTrI 16 0.280—0.650 0.335 0.0— 1.5 16 0.060—0.230 0.165 0.0— 1.5 15 0.020—0.090 0.050 0.0— 1.5
MAX DEPTh * 8 0.350—0.430 0.390 16.8— 57.9 7 0,420—0.600 0.500 16.2— 48.8 8 0.090—0.510 0.220 17.4— 56.7
AMMONIA (‘46/L)
0.—1.S P .1 DEPT# 16 0.030—0.060 0.040 0.0— 1.5 16 0.020—0.140 0.040 0.0— 1.5 15 0.020—0.060 0.040 0.0— 1.,
MAX DEPT, t** 8 0.020—0.060 0.040 16.8— 57•Q 7 0.020—0.080 0.040 16.2— 68.8 8 0.030—0.560 0.245 17.4— 56,7
P
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bULL 1C4LS L4KE
S1O .€T CODE 0 04 Pp-YS1L L C C,- M1C&L ChACTEP1STjC
10/1 /7’
=
aN E
ANGt. MtJIAN ( ETE S)
TEM t Tu E (DEG CENT)
10 19.3— 19.7 19.5 0.0— 1.9
.AX DEP1r 5 10.4— 15.6 12.3 7•1 53•t’
DjSSQi•VEu OAY3 ( G/L)
i 10 6.4— 8.0 7.5 0.0— 1.5
MA OEPTrD* S 0.6— 0. 0.8 7.1 53.6
CONDUCTIVII! (u”rlO) -
f DEPtI 10 213.— 253. 19. 0.0— 1.
AAX DEPT 4** 191.— 233. 195. 27.1— 53.6
Ph (STANDAAL) UNITS)
0.—1.5 OEPTrI 10 8.0— 8.1 .U 0.0— 1.5
MAX DEPTh** 5 7.1— 7.3 7.2 27.1— 53.6
TOTAL ALIZALINITY (MG/L)
Q —1,5 M DEPTM 10 122.— 147. 133. 0.0— 1.5
MAX OEPThD* 5 129.— 163. 145. 7.1— 53.6
TOTAL P (MG/L)
0.—1.5 N DEPTh 10 0.009—0.027 0.01’ 0.0— 1.5
MAX OEPTh** S 0.043—0.151 0.098 7.1— 53.6 0
DISSOLVED OPTHO P (MG/L)
O.—1.S M OEPTH 10 0.002—0.008 0.004 0.0— 1.5
MAX DEPTH** 5 0.003—0.042 0.013 27.1— 53.
NO2 NO3 (MG/L)
0.—1.5 M EP1h 1Ô 0.020—0.080 0.06Ci 0.0— 1.5
MAX D PTh 5 0.020—0.080 0.020 27.1— 53.6
AMMONIA (MG/L) -
0.—1.b .i ,EPTrI 10 0.020—0.060 0.040 0.0— 1.5
MA DEPTHD* 5 0.410.0.M70 0.570 27.1— 53.6
KJ LUA,1L N (MG/L)
0.—1.5 M E Tti 10 0.200—0.800 0.300 0.0— 1.5
MAX DEPTh*Q 5 0.600—1.000 0.700 e ?.1— ,3.6
SECCP I DISC cM rEwc)
S 3.0— .0 3.
* N NO. Of AMPL S
** MAXIMUM IJEPIrI 4MpLE [ ) AT .ACh S1Tt
S NO. UE SIiL SAM -LEU O( r’ilc L)ATE
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Dominant
__________ Genera
1 . Cryptoflionas
2. Melosira
3. Chroonionas
4. Stephanodiscus
5. Dactylococcopsis
Other genera
Total
06/18/74 Missing
08/30/74 1 . Lyngbya
2. Synedra
3. Chroomonas
4. Nitzschia
5. Melosira
Other genera
Total
10/09/74 1 . Centric diatom
2. Melosira
3. Skeletonema
4. Cryptomonas
5. Tetraedron
Other genera
Dorni nant
Gene t’a
1. Melosira
2. Fragilaria
3. Stephanodiscus
4. Centric diatom
5. Chroonionas
Other genera
Total
06/19/74 1. Chroomonas
2. Mougeotia
3. Tetraedron
4. Cryptomonas
5. Ankistrodesmus
Other genera
Total
09/04/74 1. Achnanthes
2. Raphidiopsis
3. Centric diatom
4. Pennate diatom
5. Chroomonas
10/11/74 1. Achnanthes
2. Dactylococcopsis
3. Tetraedron
4. Cryptonionas
5. Chroomonas
Other genera
Total
Algal
Units
per ml
992
771
661
257
220
405
3,306
264
231
231
198
132
530
1 ,586
17,906
1 ,601
679
582
388
1 ,165
22,321
13,893
1 ,393
503
232
193
427
16,641
B. Biological Characteristics:
1. Phytoplankton
Bea ver
Sampling
Date
04/05/7 4
T L fl -‘I.
iaue
Sampling
Date
04/05/74
Algal
Units
per ml
475
412
380
190
95
128
1 ,680
549
549
335
335
244
913
2,925
172
172
103
69
69
137
722
Total
Other genera
Total
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B. Biological’ Characteristics (continued):
1. Phytoolankton -
Taneycono Bull Shoals
- Algal Algal
Sampling Dominant Units Sampling Dominant Units
Date Genera per ml Date Genera per nil
04)10/74 1. Stephanodiscus 625 04/06/74 1. Melosira 680
2. Melosira 459 2. Chroornonas 375
3. Cryptomonas 125 3. Stephanodiscus 357
4. Synedra 125 4. Cryptonionas 285
5. Diatonia 42 5. Synedra 210
Other genera 83 Other genera 285
Total 1,459 Total 2,192
06/19/74 1. Chroomonas 127 06/20/74 1. Fragilaria 927
2. Cyclotella 85 2. Chroomonas 232
3. Dinobryon 85 3. Cryptomonas 165
4. Nitzschia 85 4. Aphanizomenon 132
5. Tetraedron 85 5. Aphanothece 66
Other genera 170 Other genera 166
Total 637 Total 1,688
08/30/74 1. Dinobryon 179 09/04/74 1. Chroomonas 181
2. Kirchneriella 179 2. Mougeotia 109
3. Melosira 135 3. Cryptomonas 72
4. Achnanthes 134 4. Anabaena 36
5. Cryptornonas 90 5. Aphanizomenon 36
Other genera 178 Other genera 36
Total 895 Total 470
10/04/74 1. Achnanthes 2,486 10/15/74 1. Chroomonas 252
2. Cryotornonas 163 2. rielosira 189
3. Chroonionas 122 3. Cryptomonas 126
4. Flelosira 82 4. Fragilaria 126
5. Cosmarium 41 5. Tetraedron 94
Other genera 82 ‘ Other genera 125
Total 2,976 ‘ Total 912
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23
2. Chlorophyll a -
Beaver Reservoir Table Rock Reservoir
Sampling Station Chlorophyll a Sampling Station Chlorophyll a
Date Number ( pg/l) Date Number ( j /l )
04/05/74 01 1.7 04/05/74 01 12.4
02 3.4 02 6.8
03 6.5 03 7.0
04 6.0 04 2.8
05 7.6 05 2.9
06 2.9 06 4.6
07 28.9
08 8.1
09 6.3
06/18/74 01 3.3 06/19/74 01 5.7
02 1.6 02 4.1
03 1.0 03 7.0
04 2.2 04 3.2
05 1.6 05 1.5
06 2.3 06 2.4
07 7.6
08 9.3
09 16.4
08/30/74 01 2.4 09/04/74 01 8.7
02 2.8 02 11.4
03 3.0 03 9.5
04 3.9 04 6.6
05 6.2 05 6.0
06 12.4 06 15.2
07 3.6
08 9.0
09 13.4
10/09/74 01 3.5 10/11/74 01 22.6
02 2.7 02 30.9
03 3.9 03 2.4
04 2.8 04 5.2
05 6.6 05 5.8
06 3.8 06 3.2
07 7.7
08 2.7
09 26.8
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24
2. Chlorophyll a (continued):
Taneycomo Reservoir Bull Shoals Reservoir
Sampling Station Chlorophyll a Sampling Station Chlorophyll a
Date Number ( g/l) Date Number ( j ig/i )
04/10/74 01 8.2 04/06/74 01 2.4
02 8.8 02 1.8
03 1.8
04 1.7
05 5.0
06 10.6
07 12.7
08 7.5
06/19/74 01 0.6 06/20/74 01 1.1
02 0.3 02 2.8
03 1:5
04 2.1
05 1.0,
06 2.2
07 5.6
08 10.0
08/30/74 01 1.4 09/04/74 01 3.4
02 0.7 02 3.4
03 2.9
04 3.2
05 3.5
06 4.7
07 3.4
08 5.4
10/04/74 01 21.8 10/15/74 01 2.4
02 36.8 02 3.1
03 3.2
04 3.3
05 3.4
06 4.0
07 3.6
08 5.1
-------�
C. Limiting Nutrient Study:
1. Autoclaved, filtered, and nutrient spiked -
Control
0.,05 P.
0.05 P +1.0 N
1.00 N
Control
0.05 P
0.05 p + 1.0 N
1.00 N
Ortho P
c.Pr! . .c. (mg/i )
0.005
0.055
0.055
0.005
0.020
0.070
0. 070
0.020
Inorganic N
Conc. (mg/i )
0.400
0.400
1 .400
1.400
0.539
0.539
1.539
1.539
Maximum Yield
( mg/i-dry wt. )
3.6
12.8
23.5
3.1
0.1
10.3
22.3
0.1
Ortho P
Conc. (mg/i )
0.015
0.065
0.065
0.015
0. 005
0.055
0.055
0.005
Table Rock Reservoir
Inorganic N
Conc. (mg/i
0.579
0.579
1.579
1.579
0.269
0.269
1 .269
1 .269
Maximum Yield
( mg/i-dry wt. )
5.4
14.1
21.2
5.0
Control
0.05 P
0.05 P + 1.0 N
1.00 N
04/05/74
0.020
0.070
0.070
0.020
0.925
0.925
1.925
1.925
4.7
8.2
21 .7
5.2
Beaver Reservoir
Spike(mg/1 )
04/05/74 - Stations 01-03
04/05/74 — Stations 01-03
04/05/74 - Stations 04-06
04/05/74 - Stations 04-06
0.1
8.3
17.4
0.1
- Stations 07-09
-------�
C. Limiting Nutrient Study (continued):
1. Autoclaved, filtered, and nutrient spiked -
Taneycomo Reservoir
Bull Shoals Reservoir
Spike(mg/l )
Control
0.05 P
0.05 P
1.00 N
Ortho P
Conc. (mg/i )
04/i 0/74
0.005
0.055
0.055
0.005
Inorganic N
Conc. (mg/i )
0.500
0.500
1.500
1.500
Maximum Yield
( mg/i-dry wt. )
0.1
12.0
11.1
0.1
Ortho P
Conc. (mg/l )
04/06/74 -
0.005
0.055
0.055
0.005
Inorganic N
Conc. ( mg/i )
Stations 01-03
0.316
0.316
1.316
1.316
Maximum Yield
( mg/i-dry wt. )
0.1
8.1
18.5
0.1
Control
0.05 P
0.05 P + 1.0 N
1.00 N
10/04/74
0.010
0.060
0.060
0.010
0.410
0.410
1.410
1.410
1.0
10.6
15.8
0.9
<0.005
<0.055
<0.055
<0.005
0.330
0.330
1.330
1.330
04/06/74 - Stations 07-09
0.1
8.0
16.4
0.1
0.430
0.430
1 .430
1.430
0.1
10.4
17.6
0.1
+ 1.0 N
04/06/74 - Stations 04-06
Control
0.05 P
0.05 P + 1.0 N
1.00 N
N)
<0.005
<0.055
<0.055
<0.005
-------�
27
2. Discussion -
The control yields of the assay alga, Selenastrum capri-
cornutum , indicate that the potential for primary production
was high in Beaver Reservoir around Lake Stations 01 to 03,
and low for Stations 04 to 06 in the spring. In Table Rock
Reservoir, the potential for primary production as measured
by algal assay control yield was high for Stations 01 to 03,
which are impacted by one SIP, and for Stations 07 to 09,
which are influenced by the heavily loaded James and
Kings Rivers. Potential production for Stations 04 to 06 was
low in the spring. Neith r of the above two reservoirs have
autumn assay data available.
Potentials for primary production in the spring were low
for both Taneycomo and Bull Shoals Reservoirs. Assay yields
were moderately high in Taneycomo in the autumn, but fall as-
says were not available for Bull Shoals.
In all four reservoirs, phosphorus limitation was indi-
cated by the increases in assay yields with the addition of
phosphorus. Maximum growth yield generally accompanied the
simultaneous addition of both phosphorus and nitrogen.
Mean N/P ratios in Beaver, Taneycomo, and Bull Shoals
Reservoirs were ‘all greater than 29/1 in the lake data, in-
dicating primary limitation by phosphorus. N/P ratios for
-------�
28
Table Rock Reservoir were greater than 16/1 on all sampling
occasions, also indicating phosphorus limitation (an N/P
ratio of 14/1 or greater generally reflects phosphorus
limitation).
-------�
29
IV. NUTRIENT LOADINGS
(See Appendix E for data)
For the determination of nutrient loadings, the Arkansas
and Missouri National Guard collected monthly near-surface grab
samples from each of the tributary sites indicated on the maps
(pages vi - ix) except for the high runoff months of March and
April when two samples were collected. Sampling was begun in
June 1974, and was completed in May 1975.
Through an interagency agreement, stream flow estimates for
the year of sampling and a “normalized” or average year were pro--
vided by the Arkansas and Missouri District Offices of the USGS
for the tributary sites nearest the lake.
In this report, nutrient loads for sampled tributaries except
for the White River (Beaver), and the James River and Long Creek
(Table Rock Reservoir) were determined by using a modification
of a USGS computer program for calculating stream loadings. Nutri-
ent loads indicated for tributaries are those measured minus known
point source loads, if any.
Nutrient loadings for Beaver Reservoir for unsampled “minor
tributaries and immediate drainage” ( 41 ZZ” of USGS) and the White
River (A-2) were estimated by using the mean annual nutrient
loads, in kg/km 2 /yr, at Stations [ -1 and G-l and multiplying the
means by the ZZ area in km 2 .
Loadings for the James River, Long Creek, and minor tribu-
‘taries to Table Rock Reservoir were estimated by using the mean
-------�
30
annual nutrient loads, in kg/krn 2 /yr, at Stations B-i, C-i, F-i,
G-l, H-i, and L-l, and multiplying the meansby the ZZ area in
km 2 .
ZZ loadings for Taneycomo Reservoir were estimated by using
the mean annual nutrient loads, at Stations B-i, C-i, and D-1,
and multiplying the means by the ZZ area. Inlet loadings for
Taneycomo Reservoir (White River, A-2) equal the outlet loadings
for Table Rock Reservoir.
Nutrient loadings for Bull Shoals Reservoir from the ZZ’s were
estimated by using the mean annual nutrient loads at Stations D-l,
E-i, F-i, G-i, J-i, M-i, Q-1, R-l, 1-1, W-l, and X-l, and multi-
plying the means by the ZZ area. Nutrient loadings for the White
River, H-i, equal the outlet loads for Taneycomo Reservoir.
The operators of the Fayetteville, Springfield Southwest,
Eureka Springs, Green Forest, Berryville, and Branson wastewater
treatment plants provided monthly effluent samples and corresponding
flow data. The Huntsville sewage treatment plant provided monthly
chemistry data, and flow data were estimated in order to calculate
annual nutrient loadings. Nutrient loads for the West Fork, Cass-
yule, Billings, Ozark, Republic (Lagoon A), and Ava (2 plants)
‘wastewater treatment plants were estimated at 1.134 kg P and 3.401
kg N/Capita/yr.
-------�
31
A. Waste Sources:
I. Known municipal -
Population Mean Flow
Name Served* Treatment* ( m Id x los) Receiving Water*
Beaver Reservojr
Fayettevil le ’ 40,000 Activated sludge 26.413 White River
West Fork 810 Activated sludge O.307** West Fork White
River
Huntsville 1,287 Trickling filter O.487** Ilolman Creek,’
War Eagle Creek
Table Rock Reservoir
Springfield Southwest 2 100,000 Activated sludge 96.631 Wilson Creek/
James River
Eureka Springs 1,700 Trickling filter 0.897 Leatherwood Cree
Green Fore t’ 1,300 Trickling filter 3.361 Dry Creek/Long C
Berryvil le 3 2,684 Trickling filter 4.236 Osage Creek,’
Kings River
Cassville 1,350 Stabilization pond 0.51 1** Flat Creek
Billings 500 Stabilization pond 0.189** James River
Ozark 1,500 Trickling filter 0.568** Finley Creek,’
James River
Republic Lagoon A 500 Stabilization pond 0.l89** Wilson Creek,’
James River
Taneycomo Reservoir
Branson 20,000 Trickling filter 1.781 t.ake Taneycomo
Bull Shoals Reservoir
Ava (South) 100 Stabilization pond 0.038** Cowskin Creelc’
- Beaver Creek
Ava (West) 1,200 Stabilization pond Q 454** Cowskin Creelc’
• Beaver Creek
2. Known industrial -
Table Rock Reservoir - See footnotes l, 2, and
*plant information provided by the Arkansas Department of Pollution Control and Ecology (1975) treat-
nient plant questionna res, and/or U.S. EPA (1971).
**Estimated at 0.3785 in /capita/day.
‘More than 25% of the total waste loads to Fayetteville and Green Forest plants were contributed by
poultry processing industrial wastes.
2 rlore than 25% of the total waste load of this plant contributed by industry: fluid milk, cheese and
whey processing, and pharmaceuticals.
3 More than 25% of the total waste load of this plant contributed by poultry and milk processing.
-------�
32
B. Annual Total Phosphorus Loading - Average Year:
1. Inputs -
_ Qver Reservoir Table Rock Reservoir
%of %of
Source kg P/yr total Source kg P/yr total
a. Tributaries (nonpoint load) - a. Tributaries (nonpoint load) -
A-2 White River 10,360 12.6 A—? White River 19,515 7.5
C-l War Eagle Creek 12,065 14.7 B-l Little Indian Creek 80 <0.1
0-1 Whitener Branch 450 0.6 C—i Railey Creek 70 <0.1
E-l Brush Creek 465 0.6 0-1 James River 7,670 3.0
G-l Richland Creek 3,570 4.4 E—l Flat Creek 2,760 1.1
F-l Rock Creek 160 0.1
G-l Roaring River 530 0.2
H-l Butler Creek 120 0.1
J-l Kings River 4,885 1.9
K-l Long Creek 1,320 0.5
L-1 Yokum Creek 620 0.2
h. Minor tributaries and irnnediate
drainage (nonpoint load) - 7,230 8.8 b. Minor tributaries and inunediate
drainage (nonpoint load) - 4,510 1.7
c. Known municipal SIP’s - c. Known municipal SIP’s -
Fayetteville 43,545 53.1 Springfield Southwest 193,530 74.6
West Fork 920 1.1 Eureka Springs 1,150 0.4
Huntsville 1,395 1.7 Green Forest 4,745 - 1.8
Berryville - 10,310 4.0
Cassvi ile 1,530 0.6
Billings 565 0.2
Ozark 1,700 0.7
Republic 565 0.2
d. Septic tanks* - - 10 <0.1 d. Septic tanks* - 35 <0.1
e. Known industrial - None e. Known industrial - See p. 29, foot-
notes 1, 2, & 3.
f. - Direct precipitation** - 2,000 2.4 f. Direct precipitation** - 3,050 1.2
Totals 82,010 100.0 Totals 259,420 100.0
2. Output - A-i White Riyer 18,580 Output - A-i White River 66,555
3. Net annual P accumulation - 63,430 Net annual P accumulation - 192,865
*Estiuiate for Beaver Reservoir based on 11 parks.
Estimate for Table Rock Reservoir based on 94 lakeside residences, 2 parks, and 2 resorts.
[ stimated (see lIES Working Paper No. 175).
-------�
33
d. Septic tanks* -
a. Tributaries (nonpoint load) -
89.8 D-l East Sugar Loaf Creek
0.2 E—l West Sugar Loaf Creek
2.1 F-i Bear Creek
0.3 B-i Bee Creek
H-i Lake Taneycomo -
(White River)
J-i Swan Creek
L-1 Beaver Creek
H-i Big Creek
Q-i Gully Spring Creek
R-l Barren Fork
T-l Turkey Creek
W-l North Fork White River
X—l Pond Fork
b. Minor tributaries and imediate
drainage (nonpoint load) —
c. Known municipal STP’s -
Ava (South)
Ava (West)
10 <0.1 d. Septic tanks* —
e. Known industrial - None
_____ f. Direct precipitation** -
Totals
% of
kg P/yr total
225
200
1,175
215
87,280
1 ,225
1 ,205
435
85
355
330
465
260
0.2
0.2
1.1
0.2
84.6
1.2
1.2
0.4
0.1
0.3
0.3
0.5
0.3
4,995 4.8
115
1 ,360
35
Estimate for Taneycorno Reservoir based on 39 lakeside residences.
Estimate for Bull Shoals Reservoir based on 115 lakeside residences.
**Estimated (see NES Working Paper No. 175).
***Export probably due to unknown sources and/or sampling error.
B. Annual Total Phosphorus Loading - Average Year (continued):
1 . Inputs —
Taneycomo Reservoir
% of
kg P/yr total
Bull Shoals Reservoir
Source
66,555
185
1 ,550
190
Source
a. Tributaries (nonpoint load) -
A-2 White River
13-1 Roark Creek
C-i Bull Creek
0-i Turkey Creek
b. Minor tributaries and immediate
drainage (nonpoint load) -
c. Known municipal STP’s —
Bra nson
315 0.4
5,125 6.9.
e. Known industrial - None
f. Direct precipitation** —
Totals
2. Output - A-l White River
3. Net annual P export*** -
215
74,145
0.3
100.0
87,280
13,135
Output - A-l White River
Net annual P accumulation -
3,220
103,180
64,915
38,265
-------�
34
C. Annual Total Nitrogen Loading - Average Year:
1. Inputs
Beaver Reservoir Table Rock Reservoir
%of %of
kg N/yr total Source kg N/yr total
a. Tributaries (nonpoint load) - a. Tributaries (nonpoint load) -
A-? White River 443,410 27.6 A-? White River 1,408,170 28.9
C-i War Eagle Creek 390,825 24.3 8-1 Little Indian Creek 13,240 0.3
D-l Whitener Branch 41,565 2.6 C-l Railey Creek 12,385 0.3
E-l Brush Creek 25,930 1.6 D-l James River 787,340 16.2
0-1 Richland Creek 113,485 7.0 E-l Flat Creek 492,035 10.1
F-l Rock Creek 13,650 ‘ 0.3
0-1 Roaring River 61,035 - 1.3
H-l Butler Creek 10,135 0.2
3-1 Kings River 692,075 14.2
K-l Long Creek 135,610 2.8
L-l Yokum Creek 83,625 1.7
b. Minor tributaries and immediate b. Minor tributaries and immediate
drain ge (nonpoint load) - 309,830 19.3 drainage (nonpoint load) - 463,200 9.5
c. Known municipal STP’s - c. Known municipal STP’s -
Fayetteville 154,805 9.6 Springfield Southwest 445,000 9.2
West Fork 2,755 0.2 Eureka Springs 3,550 0.1
Huntsvi lle 2,225 0.1 Green Forest 20,060 0.4
Berryville 21,620 0.4
Cassville 4,590 0.1
Billings 1,700 <0.1
Ozark 5,100 0.1
Republic 1,700 <0.1
d. Septic tanks* — 385 cO.l d. Septic tanks* - 1,285 <0.1
e. Known industrial - None e. Known industrial - See p. 29 foot-
notes 1, , & 3.
f. Direct precipitation** - _ 123,290 7.7 f. Direct preclpitation**_ 188,305 3.9
Totals 1,608,505 100.0 Totals 4,866,260 100.0
2. Output - A-i White River 1,110,180 Output - A-i White River 6,008,260
3. Net annual N accumulation - 498,325 Net annual N export*** - 1,142,000
*Estinlate for Ileaver Reservoir based on 11 parks.
Estimate for Table Rock Reservoir based on 94 lakeside residences, 2 parks, and 2 resorts.
**Estimated (see NES Working Paper No. 175).
***Export probably due to unknown sources and/or sampling error.
-------�
35
Source kg N/yr
a. Tributaries (nonpoint load) —
A-2 White River 6,008,260
B-i Roark Creek 12,435
C-i Bull Creek 153,475
8-1 Turkey Creek 15,330
kg N/yr
Tributaries (nonpoint load)
96.2 D-1 East Sugar Loaf Creek
0.2 E-i West Sugar Loaf Creek
2.5 F-i Bear Creek
0.2 G-l Bee Creek
8-1 Lake Taneycorno
(Wh te River)
J-l Swan Creek
L-l Beaver Creek
M-l Big Creek
Q-i Gully Spring Creek
R-1 Barren Fork
T-l Turkey Creek
W-l North Fork White River
X-l Pond Fork
b. Minor tributaries and immediate
31,425 0.5 drainage (nonpoint load) - 276,405
c. Known municipal SIP ’s -
9,555 0.2 Ava (South)
Ava (West)
415 <0.1 d. Septic tanks* -
e. Known industrial - None
________ _____ f. Direct pre ipitation** -
Totals
Output - A-i White River
Net annual N accumulation -
*Estilnate for Taneycomo Reservoir based on 39 lakeside residences.
Estimate for Bull Shoals Reservoir based on 115 lakeside residences.
**Est.iiuated (see NES Working Paper No. 175).
C. Annual Total Nitrogen Loading - Average Year (continued):
I. Inputs -
Taneycomo Reservoir
% of
total
Bull Shoals Reservoir
Source
a.
10,285
12,050
61 ,220
5,385
6,038,630
83,565
148,500
20,375
3,655
14,830
19,010
34,085
19,415
% of
total
0.1
0.2
0.9
0.1
86.9
1.2
2.1
0.3
<0.1
0.2
0.3
0.5
0.3
4.0
2.9
100.0
I). Minor tributaries and in.nediate
drainage (nonpoint load) -
c. Known municipal SIPs -
Bran son
d. Septic tanks* -
e. Known industrial - None
K. Direct precipitation** -
Totals
2. Output - A-i White River
3. Net annual N accumulation -
340
4,080
1 ,225
0.2
100.0
13,195
6,244,090
6,038,630
205,460
198,530
6,951 ,585
3,777,390
3,174,195
-------�
36
D. Mean Annual Nonpoint Nutrient Export by Subdrainage Area:
Tributary kg P/km 2 /yr kg NL Lyr
Beaver Reservoir
White River 10 428
War Eagle Creek 15 487
Whitener Branch 11 1,042
Brush Creek 9 501
Richiand Creek 11 356
Table Rock Reservoir
White River 6 458
Little Indian Creek 2 269
Railey Creek 2 341
James River 3 308
Flat Creek 4 664
Rock Creek 2 176
Roaring Creek 3 393
Butler Creek 2 163
Kings River 4 502
Long Creek 3 308
Yokum Creek 4 504
Taneycomo Reservoir
White River 6 577
Roark Creek 2 126
Bull Creek 3 293
Turkey Creek 2 174
Bull Shoals Reservoir
East Sugar Loaf Creek 3 133
West Sugar Loaf Creek 3 175
Bear Creek 3 178
Bee Creek 3 70
White River 8 534
Swan Creek 3 190
Beaver Creek 1 161
Big Creek 4 180
Gully Spring Creek 3 123
Barren Fork 3 133
Turkey Creek 4 203
North Fork White River 3 211
Pond Fork 3 232
-------�
37
E. I 1ean Nutrient Concentrations in Ungaged Streams:
Mean Total P Mean Total N
Tributary ( mg/i) ( mg/i)
Beaver Reservoir
B-i Big C1ifty Creek 0.027 0.677
F-i Dry Creek 0.038 1.243
H-i Prairie Creek 0.021 2.147
Taneycomo Reservoir
[ -1 BeeCreek 0.017 0.923
Bull Shoals Reservoir
B-i Moccasin Creek 0.013 0.377
C-i Jimmie Creek 0.009 0.385
K-i Cane Creek 0.016 0.819
N-i Shoal Creek 0.013 0.524
Y-1 Blue Creek 0.013 0.868
Z-1 Deshields Creek 0.017 0.726
Nutrient levels in the ungaged streams forall three
reservoirs are in line with the unimpacted gaged tributaries
entering those reservoirs.
-------�
Dr)
Jo
F. Yearly Loadings:
In the following table, the existing phosphorus annual load-
ing is compared to the relationship proposed by Vollenweider (1975).
Essentially, his eutrophic loading is that at which the receiving
waters would become eutrophic or remain eutrophic; his oligotro-
phic loading fs that which would result in the receiving water re-
maining oligotrophic or becoming oligotrophic if morphometry per-
mitted. A mesotrophic loading would be considered one between
eutrophic and oligotrophic.
Note that Vollenweider’s model may not apply to lakes with
short hydraulic retention times or in which light penetration is
severely restricted by high concentrations of suspended solids in’
the surface, waters.
Total Yearly
Phosphoru Loading
(g/m /yr)
Beaver Table Rock
Estimated loadings for • 0.72 1.49
Vollenweider’s eutrophic loading 0.67 0.88
Vollenweider’s oligotrophic loading 0.33 ‘ 0.44
Taneyconio Bull Shoals
Estimated loadings for 6.07 0.56
Vollenweider’s eutrophic loading 3.24 1.04
Vollenweider’s oligotrophic loading 1.62 0.52
-------�
39
V. LITERATURE REVIEWED
Arkansas Department of Pollution Control and Ecology. 1975.
“Section 303(e) Basin Plan Grand (Neosha) and Upper White
River Basins.”
U.S. Environmental Protection Agency. 1971. The 1968 Inven-
tory of Municipal Waste Facilities. EPA Publication No. OWP-l
U.S. Government Printing Office, Washington, D.C.
U.S. Environmental Protection Agency. 1975. National Eutrophi-
cation Survey Methods 1973-1976. Working Paper No. 175.
National Environmental Research Center, Las Vegas, Nevada, and
Pacific Northwest Environmental Research Laboratory, Corvallis,
Oregon. n -
U.S. Environmental Protection Agency. 1975. Report of Field
Activities of Recreational Area Sewage Treatment Plants in the
Vicinity of Table Rock Reservoir. Region VII, Surveillance
and Analysis Division.
Vollenweider, R. A. 1975. Input-Output Models With Special
Reference to the Phosphorus Loading Concept in Limnology.
Schweiz. Z. Hydrol. 37:53-84.
-------�
40
VI. APPENDICES
APPENDIX A
CONVERSION FACTORS
-------�
CONV [ RS1ON FACTORS
Ilectares x 2.471 = acres
Kilometers x 0.6214 = miles
Meters 3.281 = feet
Cubic meterS x 8.107 x = acre/feet
Square kilmieters x 0.3861 square miles
Cubic meters/sec x 35.315 cubic feet/sec
Centimeters x 0.3937 i ichcs
K 1.1 uqr ;;n ; x 2.205 = pounds
Ki 1 oqr rns/Squ re k ii orneter x 5 .71 1 :: bs/ sqLi ire mile
-------�
APPENDIX B
TRIBUTARY FLOW DATA
-------�
TP1BuTAP FLO 1NFUN lAT1ON FU AN?cA 5AS
02/02/77
L E CODE 0501
EA €R RESEPVOIN
TOTAL : AJ AOE OF LAr ESQ r(M)
3 67.3
MEAN MONTHLY FLO .S AND DAILY FLOWS(CMS)
TRIBDTA Y iONT8 YEAR MEAN FLOW
DAY
FLOW DAY
FLOW DAY
FLOW
SU —D—. A1NA’3E
TRI UTaRY AR A(SQ ‘ )
- JAN
0 50 IA !
050 LA?
050 IC!
050 101
050 LI
050 1G1
050 liZ
3087.3
1036.0
80 ’ .9
39 • 9
51.8
318.6
838.1
-
NU lALI?Ei)
-LOWS(CMS)
F53
MAN Ar- MAY
JUN
JUL
AuG
SE
OCT
NOv
DEC
MEAN
59.3 )
‘.7.71
36.’.’.
36.67
49.27
48.20
33.33
22.03
34.55
36.56
42.35
19.79
24.66
39.0
11. 7
6.9’.
‘..70
2.33
4.87
9.51
IJ.25
1’..75
14.61
1 3.18
28.E±
8.61
5.13
3.45
1.72
3.60
7.02
7.56
10.88
0.705
0.875
1.388
0.413
O.2 ’ .o
0.167
0.082
0.173
0.337
0.362
0.524
(‘.9?
1.14
1.81
0.54
0.3?
0.22
0.11
0.22
0.4’.
O. ’ .7
0.68
5.75
7.14
11.33
3.37
2.01
1.36
0.68
1.41
2.7
2. ’ 7
‘..27
15.23
18.97
30.07
8.98
.35
3.62
1.80
3.74
7.31
7.87
11.35
56.35
48.87
12.35
31.23
9.0’
23.02
0.439
1.110
0.57
1.44
3.57
9. 6
9.49
24.04
TOTAL DRAINAGE
AREA OF LAKE = 3087.3
TOTAL FLOW IN = 510.54
SUM OF SU8—D9AP’MGE
APEAS 3087.3
TOTAL FLO OUT = 509.28
SUMMARY
0501A1
6
74
122.046
22
52.669
7
74
76.7 9
20
95.145
8
74
49.838
17
18.010
9
74
28.175
21
1.331
10
74
8.750
19
1.331
11
74
94.861
23
75.8P9
12
74
68.527
21
44.457
1
75
53.236
19
1.501
2
75
91.747
28
84.951
3
75
103.356
13
143.000
4
75
68.244
5
91.463
5
7S
76.739
18
0.566
OSOLA ?
f’
7
8
9
10
11
12
1
3
4
5
74
74
74
74
74
74
74
75
75
75
75
75
61.731
0.680
1.368
38.228
12.544
57.483
14.810
18.066
46.298
51.112
20.643
10.874
22
20
17
21
20
24
21
19
28
13
6
11
6.513
0.340
1.784
131.956
5.862
8.863
8.665
11.582
44.174
63.147
15.433
23.333
27
20
23
20
153.194
1.444
31. 149
9.345
-------�
TPIBUT4R’v RL(J 1t FO AT1ON FOR AR AN5AS 02/ 2/77
LA (E CODE 0501 8EAvE RESERvDIR
HEAN Y T LY FLJviS AND JAILY FLO S(CMS
1fdt3uTA Y ONfl-$ YEAR 1EAN FLOW DAY IL0w DAY FLOw DAy FLOw
OSO ICI 6 7 . . ‘.1 .31.3 22 3.3i3
7 74 1.540 20 1.359
8 74 2.367 17
74 10.789 21
10 7’. 4•(j .9 19 3.9e,4
11 74 38.228 23 4.814
12 74 8.863 21 4.531
1 75 8.722 19 6.513
2 75 31.432 28 32.281
3 75 34.547 13 46.156 22 26.618
4 75 11.157 4 13.451 19 13.451 20 6.513
5 75 5.918 11 1.119 19 12.941
050101 7’. 2.061 22 0.003
7 7’. 0.076 20 0.003
B 74 0.119 18 0.003
9 74 0.535 21 0.0
10 7’. 0.201 20 0.003
11 74 1.906 24 0.003
12 74 0.439 21 0.0 3
1 75 0.433 19 0.006
2 75 1.569 28 0.028
3 75 1.719 13 0.057 23 0.934
4 75 0.555 6 0.595 19 0.006
5 75 0.294 11 0.028
05 01E1 6 74 2.676 22 0.212
7 74 0.099 20 0.0 5
8 74 0.153 18 0.368
9 74 0.697 21 3.964
10 74 0.261 20 0.255
11 74 2.475 24 0.311
74 0.572
1 75 0.564 19 0.425
2 75 2.036 28 2.067
3 75 2.234 13 2.832 23 1.303
75 0.719 6 0.773 19 0.425
S 75 0.38? 11 0.074
050161 6 74 16.45? 2? 2.265
7 74 v.61? 20 0.453
8 7’. 0.940
9 74 4.276 21 15.291
10 74 1.608 20 1.S?9
11 74 15.206 24 1.416
12 74 3.511 21 1.841
1 75 3.455 19 2.5 ’ .9
2 75 12. 16 28 12.743
3 75 13.734 13 18.406 23 7.9 29
4 75 4.417 6 4,757 20 2.407
5 75 2.353 11 0.445
-------�
FL3 DAY FLO* 1 Y
3,455
1.416
5.947
65.129
4.24
4.814
4.814
6.796
33.980
48. 139
12.459
1.169
T I 3tJTARy FLO INFO . MATION FOR A?KA ISA ,
LA’(E CODE
3501
bEAVER RESERVOIR
PIEAN
O T - LY
FLO.S
NO
DAILY LOwS(CMS)
TRIBUTARY
MOt4Trl
YEAR
‘4EAN FLOW DAY
0501 ??
7
8
9
10
11
12
1
2
3
4
S
7’.
74
74
74
74
7’.
74
75
75
75
75
75
43.325 22
1.608 20
2.472 17
L1.270 21
‘.249 19
39.927 23
9.231 21
9.118 19
32.848 28
36.134 13
11.638 6
6.201 11
02/02/77
FLOW
18
5.947
20
24
4.248
4.814
22
20
18
28.317
6.796
13.507
23
19
21.238
.
13.507
-------�
TR1BUT4R ’ FLOW INFO 4T [ O 1 FUR ARKANSAS
02/02/7?
L E CODE 0515
T. bLE ROCr RESE v0IR
T TAL 1P I AGE A-clA OF LA’cL(SQ •ct ) 10411.5
TRIBUTARY
MONTH YEAR MEAN FLOW
DAY
FLOW DAY
FLOW DAY
FLOW
9 74
10 74
11 74
12
1 75
2 75
3 75
4 75
5 75
6 75
7 75
8 75
9 74
10 74
11 74
12 74
75
2 75
3 75
4 75
5 75
6 75
7 75
8 75
74.473
13.649
371.234
200. 625
176. 131
23!. 915
392.471
270,143
149.796
72.774
89. 48 1
121.762
65.695
22.908
155. 4 59
37.378
40.493
126.859
139.602
48.988
26. 759
24. 154
7.504
10.732
14 1.161
6 1.189
3 1.274
8 164.238
5 85.517
9 167.919
2 305.822
6 421.921
4 1.161
8 16.990
I 51.820
17 180.661
14 46.723
6 6.513
3 861.682
5 37.378
9 51.537
2 82.685
6 45.873
3 52.952
8 29.166
17 30.865
26. 759
20. 162
MAY
SU9—0 A1N 3E
TRI8UTARY
5ASQ
rc )
H j’4
FEe
MAP
051541
10411.8
105.34
124.59
125.16
051542
3071.7
56.35
59.18
47.57
051581
49.2
0.15’
0.311
0.510
OS 1SCI
45.9
0.108
0.215
0.368
051501
7556.3
22.82
28.32
36.53
051551
740.7
4.76
6.7’.
9. +3
0515F1
77.7
0.28
0.51
0.85
051501
155.4
0.68
1.13
1.76
0515H1
62.2
0.210
0.396
0.651
0515J 1
1377.9
13.82
21.78
26.08
0515 1
443.3
2.46
3.77
5.44
0515L1
165.8
0.71
1.22
1.87
O S I5ZZ
1678.3
19.51
23.56
24.98
OCT NOv DEC MEAN
151.21
209.5’+
140.73
48.99
36.53
36.81
0.453
0.623
0.283
0.311
(p.425
0.201
49. 4
47.57
37.1C
10.51
11.47
7.36
0.79
1.02
0.51
1.73
2.lD
1.13
0.595
0.793
0.396
33.41
40.49
14.61
5.86
6.63
3.96
1.87
2.27
1.25
29.45
28.60
19.71
SUMMARY
TOTAL
ORAINAGE
AREA
OF
LAKE =
10411.8
tOTAL
FLOW
IN
=
1380.22
SUM
OF
SUB—DRAINAGE
AREAS =
10421.4
TOTAL
FLOw
OUT
1404.51
NORMALIZED
L.OWS(CMS,
JUN
JUL
AuD
SEP
112.58
104.49
83.82
65.98
90.90
89.76
llo.98
49.27
48.14
33.41
22.09
34.55
36.53
42.36
0.311
0.071
0.170
0.150
0.01
0.102
0.269
0.238
0.048
0.127
0.108
0.0 2
0.071
0.190
-18.41
13.37
9.63
13.82
16.17
18.80
25.99
4.87
2.12
2.86
3.23
3.17
2.83
5.77
0.51
0.12
0.27
0.25
0.17
0.18
0.45
1.0’
O. 8
0.57
0.5’.
0.42
0.42
0.99
0.396
0.0 ’1
0.215
0.193
0.122
0.136
0.349
7.25
4.16
3.09
4.64
10.17
10.45
15.79
2.89
1.10
1.67
1.78
1. 9
1.50
3.22
1.08
0.31
0.59
0.59
0.’.0
0.45
1.05
1b.42
13.31
10.00
9.00
12.74
13.6
18.37
MEAN MONTHLY FLOWS AND DAILY FLOWS(CMS
051541
051542
19
8
81.269
32 8. 4 75
26. 363
35.962
-------�
TRIauTA Y FLOW I FOp MA1ION FO A KANSA5. 02/02/77
LAKE CODE 0515 TA LE ROCK RESERVOIR
M N UO T LY FLOWS AN.i) OAILY FLOWS(CUS
TR bL)TARY MONT -I YEAR MEAN FLO4 OAY FLOA DAY FLOW FLOW
G515B 1 9 7-. 0.275 1 . 0.170
10 7 ’. 0.099 6 0.142
11 74 0.538 3 0.850
12 74 0.139 8 0.340
1 75 0.280 5 0.566
2 75 0.850 9 0.510
3 75 1.444 2 1.274
4 75 0.368 6 0.510 19 0.283
5 75 0.396 4 0.651 13 0.396 0.340
6 75 0.224 8 0.283
7 75 0.133 1 0.227
8 75 0.025 17 0.113
0515C1 9 74 0.207 15 0.085
10 74 0.071 5 0.057
11 74 0.368 2 0.283
12 74 0.096 7 0.142
1 75 0.190 4 0.425
2 75 0.595 8 0.311
3 75 1.04 8 0.595
4 75 0.249 5 0.311 19 0.142
5 15 0.278 3 0.538 17 0.198
6 75 0.159 7 0.142
7 75 0.10? 13 0.085
8 75 0.017 9 0.023
0515t)1 9 74 15.631 15 7.929
10 74 9.175 5 6.570
11 74 94.295 2 46.440
12 74 25.513 7 22.965
1 75 40.493 4 63.996
75 76.455 8 43.8Y1
3 75 103.923 8 64.562 V
4 75 40.210 5 48.705 19 20.473
5 75 31.43? 3 61.448 17 15.744
6 75 29.450 7 19.93 ,
7 75 8.014 13 7.872 V
8 75 4.899 9 3.879
0515E1 9 74 3.908 15 2.832
10 7L 2.66?- 5 1.N41
11 74 19.822 2 7.929
12 74 5.947 7 5.230
1 75 9.628 4 9.711
2 75 19.822 13 7.646
3 75 33.980 8 15.574
4 75 14.158 5 14.725 19 8.353
5 75 7.Q29 3 13.592 17 5.6b3
6 75 5.340 7 5.663
7 75 2.83? 13 2.690
8 75 1.189 9 1.274
-------�
T,R18uTA Y FLOW INFO, 4AT1ON FUR ARKANSAS 02/02/77
LAKE CODE 0515 TL bLt ROC RESE vQIR
‘IE N MONTrILT iLO*S ND OA1 Y FLO S(C lS,
TR1t3UTAI Y MONTFI YEAR 4EAN FLOw DAY FLOW D Y FLOW o; y FLU
0515F1 9 74 0.425 14 0.170
10 7 0.167 6 0.113
11 7 . 0.963 3 1.189
12 74 0. 44 8 0.340
1 75 ( . 3i 5 0.680
2 75 1.388 9 0.453
-3 75 2.4c 7 2 2.407
75 0.623 6 0.708 19 0.311
5 75 0.651 4 1.076 18 0.311
6 75 0.396 8 0.269
7 75 0.227 13 0.212
8 7 0.057 17 0.042
051 5o1 9 74 0.906 14 1.274
10 74 0.340 6 0.523
74 2.464 3 7.079
12 74 0.566 8 2.690
1 75 1.189 5 3.964
2 75 3.058 9 3.115
3 75 4.984 2 7.362
4 75 1.388 6 3.313 19 1.841
5 75 1.416 4 3.964 18 1.416
6 75 0.906 8 1.642 26 1.557
7 75 0.708
8 75 0.340 17 (1.510
Q5jSHj 9 74 0.340 14 0.028
10 74 0.127 6 0.088
11 74 0.708 3 0.850
12 74 0.184 8 0.0
1 75 0.368 5 0.425
2 75 1.076 9 0.283
3 75 1.841 2 1.699
4 75 0.481 6 0.425 19 0.241
5 75 0.510 3 0.991 18 0.283
6 75 0.311 8 0.212 26 0.198
7 75 0.2?7
8 75 0.034 17 0.0
0515J1 9 74 11.072 14 12.743
10 7 ’ . 4.842 5 3.341
11 74 65.978 3 328.475
12 74 15.688 8 45.307
1 75 17.330 5 22.908
2 75 53.519 9 3O.5 2
3 75 60.315 2 38.511
4 75 17.415 7 21.153 19 11.497
5 75 9.883 4 15.659 18 6.881
6 75 4.644 8 2.662
7 75 3.115 7 1.048
8 75 1.557 17 1.501
-------�
TRISLITARY FLG INFOR lAT1ON FO A TcANSAS 02/02/77
LA1’ E CODE 0515 T LE ROCK RESERV )IR
ME. N MO iT-iLY FLOWS AND )A1L ’r FLOWSCMS
TRIBuTaRy MONT-, YEAR MEAN FLOW OAY FLOW DAY FLOW .jAY FLOn
O5 l Srci 9 74 2.69) 14 0.E 50
10 74 1.133 6 0.708
11 74 9.203 3 14.158
12 74 1.982 5 4.248
1 75 4.389 5 8.495
2 75 10.194 9 4.672
3 75 15.574 2 16.990
4 75 4.672 7 5.380 1 ’ 2.5 9
5 75 4.248 4 7.929 8 5.097 18 2.039
6 75 2.265
7 75 1.274 7 1.274
8 75 0.39 17 0.425
0515L1 9 74 0.991 14 0.708
10 74 0.425 6 0.340
11 74 2.265 3 4.248
12 74 0.566 8 1.416
1 75 1.274 5 2.549
2 75 3.398 9 2.124
3 75 5.239 2 5.663
4 75 1.557 7 2.124 19 1.076
5 75 1.416 ‘4 2.690 8 1.699 18 1.133
6 75 0.850
7 75 0.566 7 0.623
8 75 0.113 17 0.283
0515 1Z 9 74 19.454
10 74 7.985
U 74 67.111
12 74 16.820
75 22.115
2 75 56.634
3 75 70.509
4 75 24.777
5 75 16.141
6 75 13.026
7 75 4.672
8 75 2.747
-------�
TRIbUTARY FLOW 1NFO P4AT1O FOR A ANS AS
02/02/77
LAKE CODE 0504
bULL ShOALS RESERVOIR
TOTAL DRAI ’ AGE AREA OF LAKE(S0 ‘KM) 15672.1
MEAN MONTHLY FLOWS AND OAILY FLOWS(CMS)
TRIBUTARY MONTH YEAR MEAN FLOW
DAY
FLOW DAY
FLOW DAY
FLOW
NORMALIZED I LOWS(CMS)
JUN JUL AUD
SU8—DRAIN4(,E
T. IthUTARY
AREA(S0
c’l)
JAN
FE
MA
0504A1
15672.1
155.97
155.20
165.85
050401
77.2
0.85
1.16
1.31
050 4E1
68.9
0.76
1.03
1.17
0504F1
344.5
3.85
5.24
5.95
o5o . i
76.7
0.6.
0.82
l. 1
0504r’1
11297.6
110.52
132.04
135.24
05U4J1
440.3
4.62
5.89
7.25
0504L1
924.6
7.67
9.80
12.03
0504M 1
113.4
1.00
1.27
1.57
050401
29.8
0.221
0.283
0.348
0504R1
111.4
0.98
1.25
1.54
050411
93.8
0.81
1.03
1.27
O504 1
161.4
1.49
1.90
2.34
0504X1
83.7
0.71
0.90
1.11
05047Z
1849.0
20.98
25.77
32.42
199.95
1.48
1.32
6.68
1.27
162.31
9.15
15.15
1.97
0.436
1.93
1 • 59
2 • 94
1.40
36.50
UEC ‘i .AN
204.02
0.63
0 .56
2.83
0.88
148.78
6.34
10.53
1.37
0.303
1 • 35
1.11
2 • 04
0.97,
15.46
MAY
221.13
1.59
1.42
7.19
1 • 28
222.5 1
9.20
15.23
1 • 99
0.439
1 • 95
1.60
2.94
1.41
39.28
15672.1
15672.1
215.21
0.21
0.19
0.95
0.55
119.24
3.99
6.60
0.86
0.190
0 • 84
0.69
1.28
0.61
5.18
181.65
0.14
0.12
0.61
0.36
107.b3
2.58
4.28
0.56
0.125
0.55
0.45
0.d3
0.39
3.31
SEP
136.69
0.13
0.12
0.59
0.27
87.16
1 • 94
3.20
0.42
0.093
0.41
0 • 34
0 .62
0.30
3.23
NOV
116.30
0.40
0.37
1 • 85
0.44
94.66
3.14
5.21
0.68
0.150
0.67
0.55
1.01
0.48
10.08
OCT
120.43
0.19
0.17
0.87
0 • 33
69.80
2.40
3.99
0.52
0.113
0.51
0.42
0.77
0.37
4.79
1982.55
2014.54
142.15
0.52
0.46
2.36
0.46
93.08
3.28
5.4’
0.71
0.156
0.69
0.57
1.05
0.50
12.88
TOTAL DRAINAGE AREA OF LANE =
SUM OF SUB—DRAINAGE AREAS =
168.02
0.71
0 • 64
3.23
0.69
123.52
4.97
8.25
1.07
0.238
1.05
0.87
1 • 60
0 • 76
17.44
SUMMARY
TOTAL FLOW IN =
TOTAL FLOW OUT =
0504A1
6
74
100.525
23
19.029
7
74
297.893
20
342.634
8
74
319.697
17
245.224
9
74
296.760
7
225.6 .85’
10
7 +
247.206
12
218.040
11
74
178.396
23
254.852
12
74
402.099
22
444.574
1
75
423.337
18
433.?48
2
75
288.549
15
362.456
3
75
352.261
8
470.060
75
554.161
.6
671.19
5
75
289.398
3
630.899
050401
6
7
8
9
10
11
12,
1
2
3
4
5
-
74
74
74
74
74
74
74
75
75
75
75
75
.
3.285
0.125
0.074
0.18’.
0.311
4.078
0.793
1.388
2.294
3.681
1.246
0.620
23
20
17
7
1?
24
21
19
16
8
5
4
0.991
0.255
0.708
0.708
0.113
0.566
0.878
2.124
0.793
0.623
1.416
0.504
15 339.802
19 484.218
4 6 75.802
16
20
3.398
1 • 303
-------�
TRI LiTARY FLOW I lATIO 1 PDP a ’A S S 02/02/77
LA E CODE 0504 JLL SHUALS RESERVOIR
MEAN MONTrILY FLOøS AND DAILY FLDWS(CMS)
TRIt3UTA y ONT- VEAP MEAN FLOW DAY FLOA DAY FLOW )AY FLOw
050 .E1 5 74 2.945 23
7 74 0.110 20 0.085
8 74 0.065 17 0.566
9 7’. 0.164 7 0.566
10 74 0.255 12 0.113
11 74 3.625 24 0.425
12 74 0.708 21 0.765
1 75 1.246 19 1.897
2 75 2.039 16 0.708
3 75 3.285 8 0,566 16 3.002
4 75 1.110 5 1.246 20 1.161
5 75 0.555 4 0.450
050 ’ .F1 6 7’. 14.668 23 2.124
7 74 0.558 20 0.765
8 74 0.326 17 3.398
9 74 0.824 7 3.398
10 74 1.331 12 0.566
11 74 18.179 24 2.549
12 74 3.540 21 3.964
1 75 6.258 19 9.345
2 75 10.222 16 3.540
3 75 16.480 8 2.803 16 15.008
4 75 5.550 5 6.230 20 5.663
5 75 2.772 4 2.237
050461 6 74 3.256 23 0.108
7 76 0.125 20 0.051
8 74 0.074 17 0.708
9 74 0.184 7 0.708
10 74 0.311 12 0.0 ’ .2
11 74 4.049 24 0.425
12 7 ’. 0.793 21 0.850
1 75 1.388 19 2.095
2 75 2.265 16 0.793
3 75 -3.681 8 0.623 16 3.398
4 75 1.237 5 1.388 20 1.529
5 75 0.617 4 0.498
0504H1 6 74 325.644 23 402.666
7 74 157.725 20 141.018
8 74 163.671 17 129.408
9 74 75.889 7 2.549
10 74 14.923 12 2.549
11 74 373.216 24 ‘.20.222
12 74 201.899 21 149.796
1 75 177.547 19 86.366
2 75 2’33.048 16 329.325
3 75 393.887 2 423.620 16 421.071
4 75 271.842 5 422.487 20 48.422
5 75 151.099 4 2.549
-------�
TRIBUTARY FLO. . INFO- MATION FO ARKA dSAS 02/02/77
LAKE CODE 0504 B JLL SH3. LS RESERVOIR
MEAN MONT.ILY FLOWS AND OAILY FLO SICMS)
TRIBUTARY MONTt4 YEAR 4EAN FLOW DAY FLOW DAY FLOW- JAY FLOw
0 504J1 6 74 18.774 23 1.5 6
7 74 0.714 20 0.510
8 74 0.416 17 4.248
9 7’. 1.051 7 4.24
10 7 ’. 1.699 12 0.340
11 7’. 23.220 24 2.54
12 74 4.531
1 75 7.985 19 12.035
2 75 13.082 16 4.531
3 75 21.068 8 3.568 16 19.255
4 75 7.108 20 7.362
5 75 3.540 4 2.832
050’ .L l 6 7’. 39.360 23 5.522
7 74 1.495 20 2.152
8 74 0.875 17 8.495
9 7’. 2.209 7 8.495
10 74 3.596 12 1.699
11 7’. 48.705 24 5.663
12 74 9.543 21 10.477
1 75 16.76’. 19 25.202
2 75 27.439 16 9.543
3 75 44.174 8 7.504 16 40.210
4 75 14.923 5 16.849
5 75 7.447 4 6.031
0504M 1 6 74 4.842 23 0.388
7 74 0.184
8 74 0.108 17 1.133
9 74 0.272 7 1.133
10 74 0.453
11 74 5.975
12 74 1.161
1 75 2.067 18 3.115
2 75 3.370 15 1.218
3 75 5.437 8 0.906 15 4.389
4 75 1.829 6 1.982
5 75 0.912 3 3.823
050401 6 74 1.27’. 23 0.088
7 74 0.048 20 0.040
8 74 0.028 17 0.003
9 74 0.071 21 0.0
10 74 0.113 12 0.003
11 74 1.557 24 0.212
1 74 0.311 22 0.088
I 75 0.5-38 18 0.821
2 75 0.878 15 0.311
3 75 1.416 8 0.241 15 1.133
4 75 0.481 6 0.566 19 0.595
5 75 0.241 3 1.005
-------�
TRIbUTARY FLOW INFORMATION FOR ARKANSAS 02/02/77
LAKE CODE OS0’ dJLL SHOALS RESEP.vOIR
1EAN MONTHL Y FLOWS AND DAiLY FLOWS(CMS)
TRIbUTARY MONTH YEAR MEAN FLOW AY FLOW DAY FLOW AY FLOw
0504R 1 6 74 4 757 23 0.496
7 74 0.181 20 0.099
8 74 0.105 17 1.133
9 74 0.266 7 1.133
10 74 0.425 12 3.057
11 74 5.862- 24 0.651
12 74 1.161 23 0.850
1 75 2.010 18 3.115
2 75 3.313 15 1.189
3 75 5.324 8 0.906 15 4.248
4 75 1.795 6 1.982 19 2.209
5 75 0.895 3 3.766
050411 6 74 3.993 23 1.133
7 74 0.153 20 0.453
8 74 0.088 17 0.991
9 74 0.224 7 0.991
10 74 .0.368 12 0.340
11 74 4.955 24 0.793
.12 74 0.963 22 0.272
1 75 1.699 18 2.549
2 75 2.775 15 0.991
3 75. 4. 74 8 0.765 15 3.540
4 75 1.512 6 1.699 -. 19 1.869
5 75 0.753 3 3.171
0504W1 6 ‘74 6 881 23 1.756
7 74 0.261 20 0.566
8 74 0.153 17 1.416
9 74 0.385 7 1.416
10 74 0.626 - 12 0.368
11 7’. 8.523 24 1.076
12 74 1.665 22 0.481
1 75 2.917 18 4.389
2 75 4.786 -15 1.699
3 75 7.730 8 1.303 15 6.230
4 75 2.602 6 2.832 19 3.256
5 75 1.300 3 5.437 7 5.663
0504X1 6 7’. 3.568 23 1.416
7 74 0.136 20 0.099
S ‘ 74 . 0.079 17 0.708
9 74 0.201 7 0.70d
10 ‘ 74 0.326 12’ .0.042.
11 74 4.417 24 0.453
12 74 0.864 22 0.244
I 75 1.518 18 1.897
2 75 2.483 15 0.906
3 75 3.993 8 O.6 O 15 3.256
4 75 1.348 6 1.416 20 1.416
5 75 0.674 3 2.823
-------�
TRIB(JrARy FLOW INFORMATION FOR ARKANSAS 02/0 /77
LAKE CODE 0504. dULL SHOALS RESERVOIR
r EAN MONTHLY FLOWS AND DAILY FLOWS(CMS
TRIt3UTARY ONT-4 YEAR MEAN FLOW DAY FLOW DAY FLOW JAY FLOW
05042Z 6 74 78.721 23 11.044
7 74 3.002 20 4.248
8 7’. 1.747 17 16.990
9 74 4.417 7 16.990
10 74 7.192 12 3.398
11 74 97.410 23 14.158 24 14.158
12 74 19.086 21 20.813 22 5.663 23 5.663
I 75 33.414 18 42.475 19 50.970
2 75 54.935 15 19.822 16 18.972
3 75 88.632 8 15.008 15 70.792 16 80.703
4 75 29.874 6 33.980 19 36.812 19 36.812
5 75 14.866 3 62.297 4 12.035
-------�
TQISUTAPr FLOW INFOR 4ATION FOR r rssou I
02/24/77-
LAKE CGDE 29 .
LAt
-------�
TPIBUTARY FLOW 1NFO ’ .ATION FOR P iISSOUr I 02124/77
LAKE CODE 290’. LAr’ E 1ANEYCO O
MEAN MO T LY FLD. S ND DAILY FLOWSC 4S)
T I UTA Y MONTr4 YEAR MEAN FLOW DAY FLOW DAY FLOW )AY FLO
2904 31 9 74 O.SJB 14 0.198
10 74 0.198 5 0.113
11 74 1.331 2’ 0.708
1? 74 0.311 7 0.425
75 0.651 4 1,416
2 75 1.756 8 0.850
3 75 2.973 8 2.124
4 75 0.821 5 1.274 19 0.510
5 75 0.821 3 1.841 17 0.425
6 75 0.510 7 0.425
7 75 0.269 13 0.170
8 75 0.071 9 0.028
29 04C 1 9 7 ’ . 2.549 14 1.557
tO 74 1.416 5 0.991
11 74 11.610 2 7.079
12 74 2.549 7 2.549
1 75 5.380 4 11.327
2 75 12.318 8 5.663
3 75 18.406 8 14.158
4 75 5.663 5 8.495 19 3.115
5 75 5.097 3 11.327
6 75 3.823 7 2.690
7 75 1.416 13 1.133
8 75 0.510 9 0.340
290401 9 7’. 0.510 14 0.170
10 74 0.184 5 0.085
11 74 1.133 2 0.850
12 74 0.283 7 0.340
1 75 0.566 4 1.416
2 75 1.557 8 0.708
3 75 2.690 8 1.841
4 75 0.708 5 1.133 19 0.425
5 75 0.708 3 1.841
6 75 0.425 7 0.340
7 75 0.255 13 0.227
8 75 0.057 9 0.028
2904ZZ 9 74 1.189
10 74 0.235
11 7’. 5.862
12 74 3.115
1 75 2.775
2 75 3.766
3 75 6.343
4 75 4.219
5 75 2.379
6 75 1.189
7 75 1.388
75 1.869
-------�
APPENDIX C
PHYSICAL AND CHEMICAL DATA
-------�
sTO Cr ET 1EvAL DATE 77/02/02
050101
36 25 15.0 093 51 05.0 3
EAVE L4
05015 A AN5AS
100591
/T ‘PA/AMbN 1/LAKE 1 IEPALES 04001002
0200 FEET DE T i CLASS 00
00010 00300 00077 00094 00400 00 ’ .10 OOa l O 00625 00630 00671
DATE TI IE DEPTH MATER DO TP MSP C,NDUCTVY I Lr NH3—N TOT ‘cJEL N02&N03 PriOS—DIS
F 0M OF TEMP SECCHI FIELD CACO3 TOTAL N N—TOTAL ORfriO
TO DA FEET CENT MG/L INCHES MIC . O U-IO SU MG/L MG/L MG/L MG/L MG/L P
74/04/05 09 45 0000 lIe? 90 93 7.65 54 0.060 0.200K 0.240 0.004
09 45 0005 11.6 10.0 92 7.60 50 0.030 0.200 0.210 0.006
09 45 0015 11.6 10.0 92 7.70 50 0.040 0.200K 0.220 0.010
09 45 0050 11.5 10.0 106 7.70 48 0.060 0.200K 0.240 0.009
09 45 0160 8.’. 9.6 100 7.30 48 0.050 0.200K 0.250 0.007
09 45 0150 7.5 8.8 99 7. IC ‘.5 0.060 0.200K 0.280 0.008
09 45 0200 7.3 8.4 99 6.90 43 0.060 0.400 0.290 0.010
74/06/18 09 40 0000 24.5 156 122 8.70 42 0.030 0.300 0.110 0.002
09 40 0005 24.4 9.0 120 8.70 43 0.020 0.200K 0.080 0.002
09 40 0015 24.2 9.0 118 8.50 ‘ .2 0.030 0.200K 0.080 0.005
09 40 0025 21.9 7.8 113 8.20 45 0.060 0.200 0.140 0.009
09 40 0040 20.’. 5.8 108 7.60 44 0.030 0.200K 0.190 0.00’.
09 40 0055 16.5 6.4 95 7.50 46 0.020 0.200K 0.230 0.002
09 40 0090 12.6 7.8 84 7.60 45 0.020K 0.200K 0.270 0.002K
09 40 0130 10.8 7.6 80 7.50 45 0.020K 0.200K 0.280 0.004
09 40 0171 8.5 5.’. 72 7.3C 42 0.020 0.200K 0.360 0.013
74/08/30 14 30 0000 26.3 7.6 198 131 8.40 57 0.040 0.400 0.040 0.002
14 30 0010 26.3 7.5 130 8.60 57 0.040 0.200 0.020 0.003
14 30 0020 26.3 7.8 131 8.60 58 0.030 0.400 0.020 0.002
14 30 0038 20.4 0.4 113 7.70 56 0.130 0.200 0.230 0.003
14 30 0060 17.6 1.0 106 7.35 5’. 0.040 0.200 0.370 0.002
14 30 0090 13.3 4.2 91 7.35 56 0.030 0.300 0.440 0.003
14 30 0120 11.3 ‘ . ‘ . 83 7.30 54 0.060 0.200 0.500 0.004
14 30 C14S 10.1 2.0 81 7.20 54 0.020K 0.200 0.540 0.00’.
14 30 0170 9.2 0.6 83 7.15 60 0.100 0.300 0.460 0.006
74/10/09 10 20 0000 19.6 7.6 216 105 7.15 64 0.040 0.400 0.070 0.007
10 20 0005 19.6 7.2 106 7.30 61 0.020 0.200K 0.060 0.004
10 20 0015 19.6 7.0 110 7.28 - 62 0.030 0.200 0.060 0.004
10 20 0330 19.6 5.0 105 7.22 62 0.030 0.200K 0.060 0.005
10 20 0045 19.6 7.2. 103 7.17 81 0.020 0.200K 0.060 (p.004
10 20 0060 19.6 6.4 98 7.03 60 0.020K 0.200K 0.060 0.003
10 20 0090 14.5 1.8 83 6.52 59 0.020K 0.200K 0.420 0.002
10 20 0120 11.8 2.8 75 6.56 -56 0.020K 0.200K 0.520 0.003
10 20 0150 10.4 0.2 75 6.59 60 - 0.080 0.200 0.420 0.005
10 20 0175 9.5 ! 4 79 6.70 88 0.270 0.400 0.210 0.009
‘ S VALUE - NOWN 10 8E
LESS I\)Ic rEu
-------�
ST0 ET ETflEvAL DATE 77/02/02
050101
36 25 15.0 093 51 05.0 3
BEAVER LAc_
05015 4 ANSAS
100591
/T ’PA/A NT/LA.cE 1 LEPALES 04001002
0200 FEET OEPTr-4 CLASS 00
00665 32217 00031
DATE TIME DEPTrI.PHOSTOT Cr’LPPH L INCOT LT
FROM OF A REM ING
TO DAY FEET MG/L ? U6/L PEP CENT
74/04/05 09 45 0000 0.009 1 .7
09 .5 0005 0.009
09 450015 0.016
09 45 0050 0.010
39 5 0100 0.011
09 45 0150 0.012
09 45 0200 0.100
74/06/18 09 40 0000 0.010 3.3
09 40 0002 50.0
09 40 0005 0.009
09 40 0015 0.00
09 40 0025 0.013
09 40 0027 1.0
09 40 0040 0.009
09 40 0055 0.007
09 40 0090 0.010
09 40 0130 0.012
09 40 0171 0.022
74/08/30 14 30 0000 0.014 2.4
14 30 0003 50.0
14 30 0010 0.012
14 30 0020 3.012
14 30 0038 0.012 1.0
14 30 0060 0.011
14 30 0090 0.009
14 30 0120 0.011
14 30 0145 0.012
14 30 0170 0.017
74/10/09 10 0 0000 0.016 3.5
10 20 0005 0.010
10 20 OOlb u.010
10 20 0020 1.0
10 20 0030 0.010
10 20 0045 0.012
10 20 0060 0.010
10 20 0090 0.008
10 20 0120 0.010
10 20 0150 0.016
10 20 0175 0.024
-------�
STORET RETkIE L DATE 77/02/ 2
050102
36 22 12.0 093 53 18.0 3
BEAvER LAKE
05307 A.R SAS
130591
/TY A/AM8NT/LAKE
11EPALES
0165 FEET
04001002
D PTri CLASS 00
K VIILUE KNOWN TO
LESS 1 i4N INDICATEI)
00010
00300
00077
00094
00400
00410
PhOSDIS
wATER
00
TRANSP
CNDUCTVY
PH
T
ALK
NH3N
TOT
KJEL
N—TOTAL
ORTrIO
TEMP
CENT
lG/L
SECCHL
INC’IES
FIELD
MICROMHO
5U
CACO)
MC /L
TOTAL
MG/L
rIG/L
HG/L
MG/L P
DATE
TIME DEPTH
FROM
OF
TO
DAY
FEET
74/04/05
10
25 0000
10.5
41
91
l.bu
45
0.050
0.700
0.290
0.009
10
25 0005
10.5
10.2
91
7.50
44
3.030
0.200
0.270
10
25 0015
10.5
10.4
91
7.30
43
0.050
0.200
0.300
0.009
10
25 0050
10.2
9.8
86
7.30
38
0.040
0.200
10
2 0100
7.7
9.0
83
7.10
40
0.050
0.200
0.340
0.0 10
10
25 0160
7.2
8.6
90
7.00
43
0.060
0.300
0.390
0.O0 ’+
74/06/18
10
25 0000
24.6
160
123
8.6(,
45
0.020
0.200
10
25 0005
24.6
9.2
122
8.60
48
0.020
0.200K
0.110
0.002K
0.002
10
25 0015
23.5
9.2
116
8.60
49
0.030
0.200
0.120
0.003
10
25 0025
21.7
.8
108
7.70
47
0.040
0.200
0.160
10
?S 0040
19.6
5.0
102
7.30
0.200
0.007
10
25 0055
16.0
5.8
92
7.30
47
0.030
0.200K
0.350
0.002
10
25 0075
13.3
7.4
84
7.30
47
0.020
0.200K
10
?S 0110
11.0
7.4
74
7.20
42
0.040
0.200K
0.510
0.008
10
25 0140
8.9
5.0
71
7.10
39
0.030
0.200K
0.540
0.010
10
25 0161
8.7
4.6
76
7.00
38
0.030
0.300
0.580
0.014
74/08/30
13
45 0000
?5.9
7.2
144
129
8.30
60
0.030
0.400
0.040
13
45 0010
25.8
7,0
128
8.30
60
0.030
0.300
0.030
13
45 0020
25.8
7.2
129
8.30
61
0.020
0.300
0.030
0.002
13
45 0036
22.3
4.0
112
‘7.70
58
0.030
0.300
0.150
0.002
13
45 0050
18.3
0.2
89
7.50
49
0.030
0.300
0.370
0.002
13
45 0085
13.6
3.5
92
7.4’
56
0.020
0.300
0.500
0.003
13
45 0120
11.0
1.4
85
7.20
54
0.040
0.200
0.570
0.004
74/10/09
13
13
45 0153
45 0000
9.9
19.6
0.3
6.8
144
94
106
7.20
7.30
65
b3
.
0.220
0.040
0.500k
0.200
0.060
0.006
13
45 0005
19.5
7.0
103
7.19
62
0.020
0.200
0.040
0.003
13
45 0015
19.5
7.0
104
7.19
64
0.030
0.200K
0.050
.
0.002
13
45 0030
19.5
7.0
105
7.14
62
0.020
0.200K
13
45 00 5
19.5
7.2
99
7.08
63
0.030
0.200
0.040
0.002K
13
45 0060
19.4
6.2
88
6.72
61
0.030
0.300
0.060
0.002
13
‘.5 0090
14,6
1,2
67
6.57
60
0.020
0.200K
0.460
0.003
13
13
45 0120
45 0152
11.8
10.7
0.2
0.2
83
98
6.68
6.89
52
70
0.110
0.430
0.300
0.500
0.410
0.100
0.005
0.007
-------�
STORET RETRIEVALDATE 77/02/02
050103
36 20 32.0 C93 5b 26.0 3
bEAvER LA$ .
05007 4Rr ANSAS
1005 1
/TY A/AM NT/LA E 1 IEPAL [ S 0’.00 1002
0120 FEET DEPTh CLASS 00
00665 32217 OoO-31
DATE TIME DEPTH PHOS—TOT.- CI-ILPPHYL INCOT LT
FROM OF A PENNING
TO D Y FEET tiG/L P UG/L PERCENT
7 ./04/05 11 15 0000 0.040 6.5
11 15 0005 v.036
U 15 0015 0.035
Ii 15 0050 0.036
11 15 0080 0.053
11 15 0115 0.049
74/06/18 11 15 0000 0.015 1.0
11 15 0005 0.016
ii 15 0015 0.023
11 15 0035 0.048
11 15 0055 0.051
11 15 0070 0.018
11 15 0100 0.019
11 15 0121 0.018
74/08/30 13 05 0000 0.022 3.0
13 05 0002 50.0
13 05 0010 C.015
13 05 0027 0.015 1.0
13 05 0060 3.019
13 05 0075 0.024
13 05 0110 0.036
74/101 0 Q 14 30 0000 0.016 3.9
14 30 0005 0.011
14 30 0015 0.011
1’. 30 0017 1.0
14 30 0030 0.011
14 30 0045 0.012
14 30 0060 0.017
14 30 0075 0.053
14 10 0084 0.136
-------�
STORET RETRIEVAL DATE 77/02/02
050104
36 16 37.0 09 ’. 01 32.0 3
d V&R LAKL
05007 A rcANSAS
100593
1 1E ALES
0100 FEET
0 ‘.00 1002
DEPTh CLASS 00
00010
00300
00077
0 009 ’+
00400
00410
00610
00625
00630
00671
DATE
TIME DEPTH
*ATEP
DO -
T ANSP
CNOUCTVY
PH
T ALic
NH3N
TOT KJEL
N02&N03
Pr-40S—OIS
FRO 1
TO
OF
DAY
FEET
TEMP
CENT
MG/I
SECChI
INCHES
FIELD
MICRONHO
SI)
CACO3
MG/L
TOTAL
MG/L
N
MG/L
N—TOTAL
MG/L
ORTlO
MG/L P
7’./04/05
14 20 0030
11.3
24
91
7.35
33
0.060
0.300
0.570
0.015
14 20 0005
11.3
10.0
91
7.30
33
0.050
0.200
0.560
0.014
14 20 0015
11.1
9.4
91
7.30
31
0.070
0.200K
0.580
0.016
14 20 0040
11.0
9.6
90
7.30
31
0.060
0.200K
0.580
0.015
14 20 0075
8.3
8.6
81
6.90
28
0.060
0.200K
0.710
0.019
14 20 0Q9
7.7
7.2
81
6.80
29
0.060
0.200K
0.740
0.015
74/Ob/17
11 35 0000
24.8
65
119
.8.60
29
0.060
0.500
0.140
0.006
ii 35 0005
24.5
8.6
118
8.10
29
0.070
0.300
0.120
0.00’.
11 35 0010
24.2
7.4
11’.
8.30
29
0.060
0.300
0.110
0.004
11 35 0015
21.5
6.0
105
7.30
29
0.060
0.300
0.190
0.005
11 ‘5 0025
19.4
5.0
71
7.30
22
0.100
0.400
0.220
0.021
11 35 0040
18.9
5.2
70
7.50
22
0.100
0.300
0.230
0.023
11 35 0055
18.4
4.6
88
7.50
25
0.100
0.300
0.270
0.023
11 35 0065
13.7
4.0
94
750
34
0.030
0.200
0.390
0.013
11 35 0075
12.2
4.2
92
7.50
33
0.060
0.200
0.490
0.009
11 35 0096
11.0
2.8
93
7.40
35
0.050
0.200
0.500
0.00
74/08/30
10 10 0000
26.0
6.2
104
124
7.80
60
0.040
0.700
0.030
0.004
10 10 0010
25.9
6.0
124
7.80
58
0.040
0.400
0.020
0.004
10 10 0023
25.3
3.0
124
7.40
59
0.040
0.400
0.020K
0.004
10 10 0032
22.4
0.4
140
7.20
69
0.180
0.500
0.040
0.005
10 10 0050
18.1
0.4
96
7.20
51
0.140
0.400
0.240
0.008
10 10 0085
13.3
0.2
•
139
7.10
82
0.780
1.200
0.080
0.011
74/10/10
09 40 0000
19.5
6.6
48
95
6.77
54
0.100
0.700
0.150
0.007
09 40 0005
19.4
5.6
100
6.87
53
0.160
0.300
0.170
0.005
09 40 001
19.4
5 4
98
6.84
51
0.110
0.300
0. l7o
0.005
09 40 0030
19.4
5.4
.
97
6.79
52
0.110
0.300
0.170
0.005
09 40 0045
19.3
5•4
102
6.78
53
0.100
0.300
0.150
0.005
09 40 0065
18.4
1.4
84
6.45
49
0.240
0.400
0.330
0.006
09 40 0092
15.2
0.2
160
6.91
91
1.270
1.700
0.030
0.009
K VALUE KNOW’J To 8E
LESS T - At4 INDIC 1ED
-------�
ST0 ET RETPIEV L DATE 77/02/02
050104
36 16 37.0 094 01 j2.0 3
8EAvER L K.
05007 A \AN 5
100593
/TY A/A l NT/LArc 1IEPALES 04001002
0100 FEET DEPIPI CLASS 00
00665 32217 00031
DATE T1 tE DEPT-I PHOS—TOT CHLRPHYL INCOT LI
FROM OF A REMNING
TO DAT FEET M&/L P UG/L PERCENT
74/04/05 14 70 0000 0.041 6,0
14 20 0005 ( .037
14 20 0015 0.036
14 20 0040 0.038
14 20 0075 u.056
14 20 0095 0.091
74/36/17 11 35 0000 0.042 2.2
ii 35 0005 0.022
11 35 0010 0.021
11 35 0015 0.032
11 35 0025 0.066
11 35 O0’.O 0.075
11 35 0055 0.090
11 35 006 0.031
11 35 0075 0.023
11 35 0096 0.021
74/08/30 10 10 0000 0.021 3.9
10 10 0010 0.021
10 10 0023 0.020 1.0
10 10 0032 0.030
10 10 0050 0.058
10 10 0085 0.211
74/10/10 09 40 0000 .031 2.8
09 40 0005 0.020
09 40 0007 1.0
09 Q 0015 0.021
09 40 0030 0.022
09 40 0045 0.022
09 40 0065 0.042
09 40 0092 0.212
-------�
STOPET PETRIEVAL DA1F 77/02/02
050105
36 13 ‘.9.0 093 59 ‘ .9.0 3
bEA E LA’
05143 A SANSAS
ioos i
/TYPA/ AHESNT/LAK [
I1LPALES
0065 FEET
04001002
OtPTr CLASS 00
00010
o0300
00077
00094
00400
00 ’ .10
00610
00625
00630
00671
DATE
TZ E
DEPTH
WATER
DO
TR NSP
CNDoCT Y
PH
1 ALK
Nrf3—N
Ti3T KJEL
N02&N03
Pr40S )IS
FROM
OF
TEMP
SECCHI
FIELD
CACO3
TOTAL
N
N—TOTAL
ORTHO
TO
DAY
FEET
CENT
lG/L
INCHES
MICROMI-sO
SU
MG/L
MG/L
MG/L
MC,/L
14G/L
74/04/03
15 40 0000
13.1
30
95
7.30
50
0.040
0.300
0.480
0.018
15 40 0005
13.1
9.0
94
7.30
47
0.040
0.400
0.470
0.027
15 40 0015
13.1
9.0
92
7.25
46
0.040
0.400
0.470
0.013
15 40 0030
12.9
9.0
93
7.20
‘.4
0.040
0.300
0.450
0.020
15 40 0045
9.7
8.0
92
6.90
43
0.050
0.300
0.490
0.034
15 40 0060
9.5
8.2
91
6.90
46
0.050
0.300
0.560
0.029
74/06/17
10 50 0000
23.8
10
85
7.70
21
0.060
o.eoo
0.150
0.009
10 50 0005
23.2
3.2
78
7.10
20
0.060
0.400
0.140
0.009
10 50 0010
27.6
4.2
73
6.50
20
0.090
0.150
0.013
10 50 0015
20.0
5•4
61
6.90
16
0.080
0.400
0.160
0.018
10 cO 0020
19.5
5.4
71
6.30
19
0.070
0.300
0.190
0.020
10 50 0045
19.0
4.0
74
isle
18
0.150
0.600
0.240
0.023
10 50 0063
18.2
3.6
115
7.20
31
0.160
0.400
0.430
0.028
74/08/30
10 45 0000
25.9
.
5.2
72
127
7.65
56
0.040
0.500
0.030
0.004
10 45 0005
25.9
5.4
126
7.60
56
0.110
0.300
0.020
0.006’
10 45 0017
25.5
3.4
133
7.50
59
0.040
0.400
0.020i
0.007
10 45 0030
23.’.
0.2
188
7.15
86
0.540
0.800
0.060
0.007
10 45 0045
39.1
0.1
182
7.10
91
1.320
1.400
0.040
0.020
7’./10/10
tO 55 0000
18.8
7.6
48
92
7.09
‘.9
0.090
0.700
0.190
0.005
10 55 0005
18.6
6.8
94
7.01
51
0.100
0.400
0.190
0.004
10 55 0015
18.5
6.0
93
6.93
50
0.120
0.300
0.200
0.005
10 55 0030
18.5
6,0
92
6.91
49
0.120
0.400
0.210
0.006
10 55 0040
18..3
5 ,4
84
6.77
46
0.180
0.400
0.250
0.006
10 55 0053
18.3
4.8
84
6.73
45
0.240
0.500
0,280
0.007
K LUE KNO*N TO
LESS THAN INDICiTED
-------�
STORET •RETRjE vAL DATE 77/02/02
05 0102
36 22 12.0 0fl 53
t E vE L L
35037 j r ANSAS
/TYPA/AM8NT/LA E 11E ALE5 0 00 1002
01h5 FEET DE?T CLASS 00
DATE TIr E DEPT’-’
FPOPi OF
TO DAY FEET
7L,/Q4,/Ø5 10 25 0000 0.018
10 25 0005 0.016
10 25 0015 0.015
10 25 0050 0.018
10 25 0100 0.01’.
10 25 0160 0.053
7’./06/18 10 25 0000 0.009
10 25 0002
10 25 0005 0.008
10 25 0015 0.009
10 25 0025 3.013
10 25.0030
10 25 0040 0.012
10 25 0055 0.009
10 25 0075 0.010
10 25 0110 0.021
10 25 0140 0.027
10 25 0161 0.065
74/08/30 13 45 0000 0.013
13 45 0010 0.010
13 45 0020 0.012
13 45 0036 0.013
13 45 0050 0.013
13 45 0085 0.011
13 45 0120 0.017
13 45 0150 0.018
74/10/09 13 45 0000 0,014
13 45 0001 50.0
13 45 0005 0.010
13 45 0015 3.011
13 45 0020 1.0
13 45 0030 3.010
13 45 00q5 0.013
13 45 0060 0.010
13 45 0090 0.034
13 45 0120 0.006
13 45 0152 0.035
18.0 3
00665 32217
PHOS ’.TOT C ’L Pr ,YL
A
IG/L P tJG/L
10 05
00031
INCOT ‘LI
PEM N I N G
PEP CEN I
50,0
1.0
lea
3•4
1.6
2.8
2,7
-------�
STORLI RETPIEVAL CATE 77/02/02
050103
36 20 32.0 093-58 26.0 3
EAVE LAr L
05007 ARr’ ANSAS
100591
00010
wATER
CENT
00094
CNDUCTVL
FIELD
MICROMPlO
1 LEPALES
0120 FEET
04001002
DEPTrI CLASS 00
/TYPA/AMaNT
fLAKE
00300
00077
00400
00410
00610
00625
00630
00671
DATE
TIME DEPTH
DO
TRAN SP
Ph
1 AL,S
NH3—N
TOT tcJEL
NO2 NO3
PriOS—DIS
FROP i
OF
S CC -1
CACO3
TOTAL
N
N—TOTAL
0RT iO
TO
DAY FEET
MG/L
INCHES
SU
MG/L
MG/L
MG/L
MG/L
MG/L P
74/0’./05
11 15 0000
10.8
40
87
7.50
40
0.060
0.400
0.600
0.015
11 IS 0005
10.7
10.2
86
7.50
41
0.050
0.200
0.600
0.011
11 15 0015
10.7
10.0
84
7.50
40
0.040
0.200
0.590
0.014
11 15 0050
10.7
10.0
80
7.30
38
0.050
0.200K
0.600
0.014
11 15 0080
8.1
9.8
71
7.10
32
0.050
0.200
0.630
0.019
11 150115
7.3
9.0
71
6.70
30
0.0 0
0.200
0.670
0.020
74/06/18
11 15 0000
25.1
125
121
8.60
42
0.030
0.500
O.21u
0.003
11 15 0005
25.0
9.4
117
8.60
38
0.040
0.300
0.160
0.004
11 15 0015
23.5
8.8
111
8.40
41
0.030
0.300
0.180
0.003
11 15 0035
19.5
5.0
87
7.20
32
0.080
0.300
0.370
0.015
11 15 0055
18.1
6.2
91
7.20
3’.
0.060
0.300
0.460
0.025
11 15 0070
13.0
5.8
.
89
7.10
38
0.040
0.200K
0.620
0.021
11 IS 0100
10.7
4,8
82
7.00
39
0.090
0.200K
0.650
0.008
11 15 0121
9.7
2.6
85
7.00
‘.1
0.070
0.200K
0.650
0.008
74/08/30
13 05 0000
26.1
7.2
108
126
8.00
60
0.030
0.500
0.020K
0.003
13 05 0010
26.1
6.8
127
8.00
60
0.040
0.300
0.020
0.004
13 05 0027
25. 3
4.4
122
7.80
61
0.040
0.300
0.020
0.003
13 05 0060
19.5
0.2
90
7.60
50
0.030
0.300
0.180
0.003
13 05 0075
14.9
0.4
96
7.40
56
0.040
0.300
0.460
0.006
13 05 0110
11.3
0.6
112
7.30
75
0.370
0.600
0.210
0.007
74/10/09
14 30 0000
19.7
8.0
84
108
7.24
57
0.050
0.600
0.040
0.004
14 30 0005
19.4
6.8
107
7.13
58
0.050
0.300
0.040
0.004
14 30 0015
19.4
6,8
107
7.13
59
0.040
0.200
0.030
0.002
14 30 0030
19.4
6.8
106
7.09
60
0.050
0.200
0.040
0.003
14 30 0045
19.4
6.6
lOS
7.02
58
0.050
0.300
0.040
0.005
14 30 0060
19.3
6.0
100
6.77
56
0.060
0.300
0.040
0.004
14 30 0075
16.9
0.2
92
6.51
55
0.130
0.600
0.160
0.006
14 30 008’.
16.0
0.4
102
6.56
56
- 0.160
0.800
0.160
0.007
IALu [ KNOWN 10 b
Lt.SS T’iAN IND1C, TED
-------�
SlOPEr RETRIEVAL DATE 77f02/02
050105
36 13 ‘+9.0 093 55 45.0 3
EAVE L L
35-143 A ANS4S
100591
/TYPM/A’ NT/LAKE 1IEPALES 04001002
0065 FEET DEPT -i CLASS 00
0 665 32217 00031
DATE TIME DEPTr P OS-TQT CHLRPH rL INCDT LI
FROM OF A
TO DAY FEET MG/L P UG/L PERCENT
74/04/03 15 40 0000 (.046 7.6
15 40 0005 0.053
15 40 0015 0.046
15 40 0030 0.0413
15 40 0345 0.351
15 40 0060 0.060
74/06/17 10 50 0000 0.088 1.6
10 50 0005 0.074
10 50 0015 0.098
10 50 0020 0.090
io so 0045 0.143
10 50 0063 0.122
74/08/30 10 45 0000 0.040 6.2
10 45 0005 0.033
10 45 0017 0.043 1.0
10 45 0030 0.117
10 45 0045 0.182
74/10/10 10 55 0000 0.046 6.6
10 55 0005 0.040
10 55 0015 0.029
10 55 0030 0.035
10 55 0040 0.057
10 55 0053 0.075
-------�
STO ET RETRIEVAL DAtE 77/02/02
050106
36 06 42.0 094 01
vE LAISE
05143 A r ANSAS
/TYP4/A lBNT/LApcE
1 IEPALES
0045 FEET
04001002
DEPT i CLASS 00
33.0 3
100592
00010
00300
00077
00094
00400
00410
00610
00625
006-30
00671
DATE
TIME
Q [ PTr$
WATER
DO
TRANSP
CNOUCTVY
PH
1 AL. c
Nt43—N
TOT I
-------�
STOPET ET <1EVAL DATE 77/02/02
050105
36 13 49.0 093 55 49.0 3
EAVE LA L
051’.3 A I’ 4 SAS
100591
/TYPA/4BNT/LA cE 1IEPALES 04001002
0065 FEET DEPTh CLASS 00
0C665 32217 00031
DATE TIME DEPTH PHOS—TOT CriLRPNYL INCDT LI
FROM OF A REM; ING
TO DAY FEET MG/L P UG/L PERCENT
74/04/03 15 40 0000 0.046 7.6
15 40 0005 0.053
15 40 0015 0.046
15 ’.0 0030 0.04
15 40 034 0.051
15 40 0060 0.060
74/06/17 10 50 0000 0.088 1.6
10 50 0005 0.074
10 50 0015 0.098
10 50 0020 0.090
10 50 0045 0.143
10 50 0063 0.122
74/08/30 10 45 0000 0.040 6.2
10 45 0005 0.033
10 45 0017 0.043 1.0
10 45 0030 0.117
10 45 0045 0.182
74/10/10 10 55 0000 0.046 6.6
10 55 0005 0.040
10 55 0015 0.029
10 55 0030 0.035
10 55 0040 0.057
10 55 0053 0.075
-------�
STO E.T ET 1EVAL DATE 77/02/02
050106
36 06 ‘.2.0 094 01 33.0 3
EAvE- LAKE
05143 A J ANSAS
100592
/TYPA/ AMBNT/LAKE
lIEPALES
0045 FEET
04001002
DEPTri CLASS 00
00010
00300
00077
00094
00400
00410
00610
00625
00630
00671
DATE
TIME DEPTII
WATER
DO
TRAN’SP
CNDUCTVY
P I I
I ALK
NH3—
TOT KJEL
NO2 NO3
PIIOS—L IS
FROM
OF
TEMP
SECCP11
FIELD
CACO3
TOTAL
N
N—TOTAL
ORtt-iO
TO
DAY
FEET
CENT
MG/L
INCHES
P4ICROMfr1O
SU
MG/L
MG/L
MG/L
Mi/L
MG/L P
74/04/05
13 40
0000
12.8
25
92
7.20
35
0.140
0.400
0.430
0.040
13 40
0005
12.8
9.2
91
7.10
34
0.120
0.200
0.420
0.039
13 40
0015
12.7
8.8
92
7.00
35
0.130
0.200
0.420
0.037
13 40
0030
12.5
9.0
93
7.10
34
0.120
0.200 0.420
0.035
13 40
0040
11.1
9.0
89
6.90
32
0.130
0.200
0.430
0.027
74/06/17
10 35
0000
24.3
14
77
8.3
18
0.040
1.000
0.060
0.012
10 35
0005
23.6
10.0
73
8.50
18
0.040
0.400
0.080
0.008
10 35
0015
20.0
6.0
73
7.30
19
0.050
0.200
0.180
0.013
10 35
0025
18.8
4.4
171
7.00
41
0.070
0.300
0.350
0.016
10 35
0048
18.2
4.4
201
6.60
55
0.120
0.300
0.500
0.017
74/08/30
11 ?5
0000
25.7
5.2
42
150
7.45
67
0.030
0.800
0.040
0.005
11 25
0005
25.7
5.0
151
7.45
67
0.030
0.700
0.040
0.005
11 25
0015
25.5
4.2
148
7.40
66
0.090
0.500
0.030
0.005
11 25
0025
24.6
0.8
190
7.25
89
0.260
0.700
0.120
0.009
11 25
0035
21.9
0.4
242
7.10
116
1.390
1.800
0.040
0.005
7 /10/10
11 30
0000
18.5
9.2
36
85
7.33
43
0.060
0.600
0.330
0.005
11 30
0005
17.8
7.4
88
6.94
43
0.090
0.300
0.380
0.009
11 30
0015
17.7
6.4
87
6.85
46
0.130
0.300
0.420
0.028
11 30
0030
17.6
6.8
92
6.92
50
0.120
0.300
0.420
0.014
11 30
0039
17.5
6.2
110
6.90
62
0.140
0.400
0.400
0.009
-------�
STORET RETRIEVAL DATE 77/02/02
050106
36 06 42.0.094 01 33.0 3
BEAVER LAr E
05143 Ar r\ANSAS
100592
,TYPA/AMBNT/LAK LEPAL S 0’.00 1002
0045 FEET DEPTH CLASS 00
00665 32217 0 )031
DATE TI’ 4E DEPTH PHOS—TOT CHLRPF-4YL INCDT LI
FROM OF A REMNI G
TO DAY FEET MG/L P JG/L PEPCENT
74/04/05 13 40 0000 0.066 2.9
13 40 0005 0.068
13 40 0015 0.069
13 40 0030 0.065
13 40 0040 0.064
74/06/17 10 35 0000 0.097 2.3
10 35 0005 0.057
10 35 0015 0.063
10 35 0025 0.060
10 35 0048 0.061
74/08/30 11 25 0000 0.055 12.4
11 25 0005 0.044
11 25 0008 1.0
11 75 0015 G.041
11 25 0025 0.069
11 25 0035- 0.180
74/10/10 11 30 0000 0.047 3.8
11 30 0005 0.039
11 30 0015 0.060
11 30 0030 0.049
11 30 0039 0.089
-------�
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1 .1
4.8
2 9
7.70
135
0.090
0.300
1.510
0.047
74/09/04
14 50 1)000
24.8
7.4
42
2 59
8.20
135
0.1 0
0.400
1.43fl
0.052
14 5’) 1 ic
23.3
4.0
254
7.91,
119
0.1 . 0
0.700
0.340
0.O 1
,L’ 50 fl0I’l
14 50 0027
23.1
?2.
5.0
4.8
251
7.80
7.8(1
121
1 1
0.210
0.2 0
0.-, 0 0
0.oflO
0.340
0.3b0
0.084
0. Oob
1 ’ SO OC’.I
20.4
,.6
128
0.230
0..00
fl. 46fl
0.304
7’,lo,lo
31 45 0000
20.0
11.
39
7.F,o
155
0.220
0.b Oo
1.340
0.327
10 45 0)05
1 ’ ..s
..‘2
225
0.57
123
0.040
1. 2ou
0.150
0.010
10 45 (lOt’,
18.6
7.
229
125
0040
0.o O O
0.1813
0.011
10 ‘5 003,
18.2
7.0
23?
127
0.090
0.500
!).210
0.021
113 45 0042
1/.4
.2
403
7.91
133
187
0.110
0.220
o.,0 0
0.700
0.250
1.200
0.038
OATE
TII1E 05018
00 6
PrfOSTUt
32217
C LI ,,yL
00031
INL.D1 LT
F1 9I
OF
A
TO
DAY E T
Mb/L 0
U6/L
UE ’I CEr IT
74/34/34
15 45 0000
0.111
8.3
15 45 000
0.101
15 45 0014
0.113
I’ ‘ ‘ 0)3. ”
3.11)4
]S 4 ‘t( ,’
0.1?’)
74/136 ,30
14 40 0IJI’
14 4 0(1u ’
0.0 6
14 49 1)010
J.’J”R
14 4’) 0020
0.r , .3
14 40 0094
0.073.
14 40 0050
0.073
741139/o4
14’S’) 0001)
u.! 23
13.4
4 “0 U ’3
u.306
14 5 ” ,j?
1.0
14 5 0( 15
u.104
I’ 50 0i 2T
I.I,3
L ( 0)’1
‘1.417
74/Pin ’ )
3r 4, ‘lu .ii•
“.1 ’7
20.8
lfl 4f , 0105
v.0 53
ii ) t ’)l 7
10 .5 ‘ ) Jj1
-0.u53
I ’,’-, cj ’li(i
0.0 T
I fitiw?
- .r’t)
-------�
STUi ET RE.TPIE .’AL TE 77/02,02
050401
36 22 03.0 092 34 20.0 3
BULL 3AL r’E
05005 A AMSL S
- 100551
/TY A/AM8NT/L E 11E AL S ‘i’.001002
0210 FEET E?Tb CLASS 00
00010 00300 00077 00094 00400 00610 00610 00625 00b30 00671
D TE TIME OE°Ti wATER DO TRANJSP CNOUCTVY PH 7 ALK NH3-N TOT IcJEL N02&N03 PriOSDIS
Fi OM OF TEMP SECCHI FLELL) CACO3 TOTAL N N—tOTAL O Tr1U
TO DAY FEET CE 4T MG/L INCr ES MICROMPID SU MG/L MG/L MG/L MG/L MG/L P
7’./04/06 14 00 0000 11.2 152 39 8.20 hR 0.050 0.600 0 .290 0.009
14 00 0005 11.1 10.4 55 8.20 116 0.040 0.2001< 0.280 0.006
14 00 0015 10.7 10.0 130 8.20 114 0.040 0.2001< 0.270 0.006
-14 00 0040 10.6 10.2 146 8.10 114 0.0b0 0.2001< 0,280 0.006
14 00 0080 10.6 10.2 180 8.10 125 3.050 0.200rç 0.290 0.006
14 00 0135 7.5 9.4 196 7. 7 128 0.030 0.200ic 0.3’.0 0.004
14 00 0160 7e2 9.4 203 7.7Q 125 0.040 0.2001< 0.370 0.007
14 (10 0190 7.2 9.2 265 7.60 123 0.040 O.200r 0.370 0.008
74/06/20 15 05 0000 24.6 8.8 300 246’ 8.60 123 0.070 0.400 0.220 - 0.002K
15 05 0005 24.’. R .8 249 8. ’.0 123 0.040 0.300 0.180 0.002K
15 05 002s 21.3 8.4 230 8.40 123 0.050 0.300 0.200 0. O OeK
15 05 0045 15.9 6.0 203 8.40 -120 0.060 0.200 0.340 0.002K
15 35 0070 13.8 6.8 192 8.20 122 0.040 0.200 0.380 0.002K
15 05 0100 12.3 7.2 184 7.50 123 0.030 0.200 0.380 0.0021<
15 05 0130 11.1 7.4 181 8.60 122 0.040 0.2001< 0.410 0.002K
15 05 0160 9.3 6.2 179 7.8 125 0.040 0.2001< 0.460 0.0021<
74/09/04 13 30 0000 24.8 8.4 144 251 8.50 13u 0.050 0.700 0.040 0.010
13 30 0015 24.5 8.4 241 8.50 129 0.060 0.500 0.030 0.006
13 30 0036 23.9 8.0 239 8.40 131 0.030 0.500 0.040 0.005
13 30 0042 19.2 1.4 233 7.90 140 0.060 0.500 0.310 0.005
13 30 0060 17.2 1.2 212 7.80 132 0.050 0.500 0.480 0.00
13 30 0090 15.8 4.0 199 7.80 126 0.040 0.400 0.530 0.00’.
13 30 0100 15.0 s.0 189 7.80 115 0.040 0.300 0.580 0.004
13 30 0120 14.’ 4.2 191 7.70 124 0.050 0.400 0.570 0.005
13 30 0140 12.8 3.6 191 7.70 127 0.040 0.400 0.520 0.005
13 30 0160 11.3 0.6 187 7.60 130 - 0.060 0.400 0.480 0.010
13 30 0185 9.3 0.2 183 7.60 137 0.200 0.500 0.320 0.023
74/10/15 11 00 0000 19.3 6.8 156 219 8.01 133 0.050 0.400 0.080 0.004
11 00 0005 19.3 7.4 219 8.01 - 136 0.020 0.300 0.070 0.002
11 00 0020 19.3 7.0 219 8.01 136 0.020 (i.3 00 0.070 0.002
11 00-0050 19.3 7.2 219 7.93 137 0.020 0.200 0.011k 0.002
11-00 0070 19.3 6.8 215 7.83 13 0.020K 0.300 0.080 0.002
11 00 0075 - 19.3 5.2 213 7.75 125 0.040 0.300 0.100 0.002
11 00 0090 16.8 1.6 183 7.05 114 0.020 0.200 0.-.30 0.003
11 00 0110 15.9 2.0 185 7.07 120 0.020 0.200 0.490 0.004
11 00 0130 1 ’ ..T 2.2 185 7.0S - 122 0.020 0.200 0.s30 0.005
K VALUE
-------�
STOPET 1 IE AL DAlE ?7/02/0
050401
36 ?203.0 092 34 20.0 3
bULL Sr1OAL LAKE.
05005- Ap r ANSAS
S 1O05’ 1
/1YPA/A l NT/LAK IIEPALES -u400 1002
- 0210 FEtJ DEPTrI CLASS 00
i0U10 00300 00077 00094 00400 00 .10 00610 00625 00630 00671
DATE - TI ’1E DEPT-i i ATER DO TRANSP C DUCTVY Pi4 I A NH3—N 113T rSJEL NO2c .NO3 PriOSDIS
F Cn 4 OF TEMP SECCHI FIELI) - CACO3 ‘TOTAL N N—TOTAL URT lO
TO DAY FEET CENT MG/L I CIiES M1CROMhO SU M&/L Mu/L MG/L MG/L M(j/L P
7’e/10/15 11 00 0150 13.0 0.6 189 7,09 133 0.210 0.400 . 0.290 0.012
11 00 0176 10.9 0.6 191 7.19 146 0.410 0.600 0.080 0.022
-------�
STO E ‘ETRiEY LJ)4TF 7/O?/O2
050401
36 22 03.0 092 3 20.0 3
bULL S-IOAL’ LA cE
35005- A PcANS S
100591
/TYP4/B T/L E 11E LE5 0 ’e001002
0210 FEET D PT CLASS 00
UOf 65 32217 00031
DATE TIME D PTiI p-jOS-7t)T CIiLPPp-.YL INC T LT
FROM 0F REMNING
TO OAY FEET MG/L D (JG/L DERCENT
14/04/06 14 CO 0000 0.023 - 2.4
14 00 0005 C.O14
14 00 0015 0.019
14 00 0040 0.017
14 00 •00 0 .i.O20
14 00 0135 0.016
11.00 0160 0.015
14 00 0190 0.017
74/06/20 15 05 0000 0.008 1.1
15, 05 COOS 0.010
15 05 0025 0.008
15 05 OOL.5 0.OOd 1.0
15 05 0070 0.0O
15 05 0100 0.008
15 05 0130 0.010
15 05 0160 0.011
74/09/04 13 30 0000 0.017 3•4
13 30 0015 0.012
13 30 0028 5.0
13 30 0036 0.016
13 30 0042 0.014 1.0
13 30 0060 0.017
13 30 0030 0.010
13 .30 0100 0.010
13 30 0120 0.010
13 30 (140 0.012
13 30 0160 0.O1’
13 30 O1 5 0.039
74/10/15 11 00 0000 0.011 2.4
11 00 0001 50.0
11 00-0035 0.010
11 no 0020 0.010
1) 00 0024 1.0
11 00- 0050 0.009
11 00 0070 0.008
11 00 0075 0.009
-------�
STETc cT e1Ev4t. TE 7?/02/0
0 50’. 0 1
36 22 03.0 092 3’. -20.0. 3
bJLL S OAL LAP E
0500 AP i ’ A• aS S
1O05’ 1
/T Y?A/AM NT/ ..4.\F 1 1E ALES. 0’.00 1002
0210 FEET OE’ Tri CLASS 00
- 006b5 32217 00031
DATE TIME DEPTi PriOS—TOT CP’L Pr1YL INCr)T LT
FROM OF A PEMNING
TO DAY FEET MG/L IJG/L PERCENT
7’./10/15 11 00 U090 0.O0’
11 00 0110 0.003
11 CO 0130 0.010
11 00 0150 0.018
11 00 0176 0.0 ’ .
-------�
STOR T ET 1EVAL LmTE 77/0 / i2
050402
36 2’ 05.0 092 35 3?.0 3
CULL .ShOAL LAKE
05O 9 AP AJSAS
100591
/1 YPA/AM NT/LA - 1 IEPALES o4oo 1002
01’ 2 FEET DEPTH CLASS 3i.)
00010 00300 00077 0009k 00400 00 +10 00610 00625 00b30 00671
DATE TIME DEPT-I wATER DO TRA 4S CNOUCTVY PH 1 AL NN3—N TOT XJEL NO2 .NO3 PtiOSOIS
FROM OF TEMP 5ECC I FIELD CACO3 TOTAL N N—TOTAL ORTrIO
TO DAY FEET CEr T MG/L INCHES MIC IUMHO SU MG/L t4G/L MG/L MG/L MG/L P -
74/04/0 ’ 14 15 0000 11.0 150 8.10 125 0.040 0.500 - 0.280 0.006
14 35 0005 io.c 10.6 21 8.10 125 0.040 0.200 0.290 0.008
14 35 0015 10.8 10. ’ 114 8.10 123 0.020 0.300 0.260 0.004
14 35 0030 10.5 10.4 122 8.10 119 0.060 0.200 0.300 0.002
I4 35 0070 10.4 10.4 163 8.00 118 0.060 0.200K 0.300 0.002
14 35 0120 .b 9.4 205 7.70 115 0.030 0.200K 0.350 0.006
14 35 0185 7.2 9,6 265 7.7o 112 0.040 0.200 0.350 0.009
14/06/21 10 50 0000 26.4 8.4 263 250 8.70 130 0.040 0.300 0.230, 0.004
10 50 0005 26.3 8.4 254 8.50 129 0.020 1< 0.200 0.170 0.002K
10 50 0015 23.7 9.2 237 8.70 129 0.030 0.200 0.170 0.002K
10 50 0040 17.2 5.0 204 8.00 130 0.050 0.300 0.430 0.002
10 50 0080 13.2 6.6 182 7.80 128 0.030 0.200 0.430 0.002K
10 50 0120 11.4 7.6 174 8.40 129 0.050 0.300 0.450 0.004
10 50 0160 9.2 5.4 170 7.50 131 0.060 0.200 0.500 0.006
74/09/04 14 35 0000 25.0 8.0 156 247 8.40 127 0.040 0.700 0.050 0.006
14 35 0015 24.4 7.8 241 8.40 126 0.030 0.600 0.030 0.005
14 35 0035 23.7 5.2 243 8.10 131 0.030 0.500 0.050. 0.005
14 35 0040 20.5 1.6 241 7.90 134 0.620 0.600 0.080 0.008
14 35 0050 17.8 1.0 213 7.80 129 0.060 0.400 0.400 0.006
14 35 0060 16.9 2.0 207 7.75 129 0.050 0.200K 0.480 0.006
14 35 0070 16.4 5.0 203 7.75 126 0.050 0.2001< 0.490 0.008
14 35 0090 15.2 5.0 191 7.75 121 0.040 0.200< 0.570 0.007
1’. 5 0110 14.6 5.0 189 7.70 115 0.050 0.200’< 0.580 (1.009
14 35 0130 13.P 3.4 191 7.70 136 0.060 0.200i< 0.520 0.006
14 35 0150 11.8 0.3 189 7.65 138 0.090 0.200 0.480 0.009
14 35 0165 11.1 3.3 191 7.60 142 0.180 0.400 0.370 0.013
14 35 0186 9.8 0,0 236 7.60 151 0.430 0.900 0.240 0.020
74/10/15 12 00 0000 19.4 6.4 150 219 8.07 133 0.050 0.400 0.060 0.003
12 00 0005 19 . 7.4 219 8.05 132 0.030 0.300 0.060 0.004
12 00 0020 19.3 7.8 217 8.03 131 0.030 0.300 0.050 0.004
12 00 0040 19.3 7.2 217 7.93 127 0.030 0.200K 0.050 0.00 3
12 nO 0070 18.2 1.0 205 7.19 122 0.020 0.200c 0.280 0.005
12 00 0100 16.6 0.8 195 7.07 120 0.0201< 0.2001< 0.430 0.005
12 00 0130 14.6 1.4 187 7.03 119 0.030 0.200K 0.500 0.009
12 CO 0155 12.8 0.6 195 7. ls 135 0.350 U.400 0.140 0.018
1? 00 0176 JO.’ 0.8 193 7.31 145 0.570 0.700 O.02uK 0.042
1< V4LUE ‘iO 10
LESS IhAN 1.’JDIC TEU
-------�
STC.AET Ot !E 7 1/02/02
-050402
36 24 05.0 092 35 32. 0 3
c3C(L S 3AL LI E
Q5 9
ioos 1
/TYPA/A t6NT/LApE 11E ALES 0400 1002’
0192 FEET DE’ Tr1 CLASS 00
0066 32217 00031
DATE T-IME DEPTil Pr OS—TOT CP’LRPHfL INCOT LT
OF A REUNING
TO DAY ‘FEET MG/L P UG/L PERCENT
74/04/06 14 35 0000 o.ole 1.8
14 35 0005 0.025
14 350015 0.023
14 35 0030 0.019’
14 35 0070 0.017
14 35 0120 0.016
14 35 0185 0.036
74/06/21 10 50 0000 0.007 2.8
10 50 000S 0.007
10 50 0015 0.007’
10 50 0040 0.008
10 0 0080 0.005
10 50 0120 0.012
10 50 0160 0.013
74/09/04 14 35 0000 0.01 , 3.4
14 35 0015 0.016
14 35 0026 5.0 -
14 35 0035. 0.012
14 35 0038 1.0
14’ 35’0040 0.019
14 35 0050 0.013
14 35 0060 0.011
14 35 0070 v.011
14 ‘35 0090 C.013
14 35 bllO 0.018
14 35 0130 0.013
14 35 0150 0.020
14 35 0165 0.030
14 35 0186 0.104
74/ 10/15 12 00 0000 0.009 3.1
12 00 •000 . 0.011
12 00 O01’ 1.0
12 00 0020 0.016
12 00 0040 0.022
12 00 0070 ‘ 0.017
12 00 0100 0.013
12 00 0130 0.017
12 00 .0 155 0.035
12 00 0176 0.099
-------�
S1ORE1 RET CVAL DATE ‘1/32 ,02
050403
36 27 50.0 092 38 40.0 3
.JLL 5 iOAL _A1
-------�
sTQ ET RETPUEVAL 4rE7 /02,O2 050403
36 27 50.0 092 38 ‘ 0.0 3
8t.JLL Sr4OALF LAI E
05Q 9 ARPc.A’ SAS
100 5’ 1
P , I IEPALES - 0 .00l002
/TY A/AMBNT/LA,cE 0151 FEET DE T CLASS 00
00665 32217 00031
DATE TIME DEPTH PHOS—TOl CHLRP YL INCOT LI
FROM OF A REMNING
TO DAY FEET MG/L P UG/L PERCENT
74/04/06 15 20 0000 0.017 1.8
15 20 o00 0.016
15 20 0015 0.018
15 20 0030 0.020
15 20 0070 0.018
15 20 0110 0.018
15 20 0140 0.016
74/06/21 10 15 0000 0.0 10 1.5
.10 15 0005 0.009
10 15 0015 0.008
10 15 0040 0.006
10 15 0080 0.006
10 15 0120 0.007
10 15 0160 0.009
74/09/05 10 15 0000 0.014 2.9
10 15 0015 0.012
10 15 0023 5.0
10 15 0031 0.012
10 15 0035 1.u
10 15 0045 0.012
19 15,0060 0.010
10 15 0075 0.009
10 15 0090 . 0.015
10 15 0110 0.032
74/10/15 12 45 0000 0.014 3.2
12 45 0001 50.0
12 ‘.5 0005 0.015
12 45 0015 C.015
12 45 0019 1.0
12 4S 0030 0.017
12 45 0055 0.014
.12 45 0070 0.011
12 4S 0100 0.012
12 45 0130 0.019
12 45 0161 0.140
-------�
STOR 1 T iE AL OMIE 77/02/ Z’
050405
36 27 35.0 092 4’. 15.0 3
DULL SrIOALS A cE
O50: 9 4 ic, NSA5
100591
/TY ’A/AMbNT/LA 11EPALES 04001002
Q150 FEET UEPTf4 CLASS 00
30010 00300 00077 00094 00400 00410 00610 00625 00630 00671
DATE TIME DEPTh WATER DO TRANSP CNDUCTVY PH— T ALP < NH3—N T JT KJEL NO2 NO3 PriOS—OlS
FROM O TEMP SECCHI FIELD CACO3 TOTAL N N—TOTAL ORTHL)
TO DAY FEET CENT MG/L INCHES MIC OMHO SU MG/L MG/L MG/L MG/L MG/L P
74/04/09 12 30 0000 11.6 150 18 8.20 122 0.060 0.600 0.360 0.006
12 30 0005 11.6 10.6 23 8.20 127 0.040 0.300 0.360 0.004
12 0 0015 11.0 IC.4 98 8.20 125 0.040 0.300 0.380 0.004
12 30 0030 10.5 9.8 115 7.80 122 0.030 0.300 0.390 0.003
12 30 0080 7.7 9.0 155 7.7 ’ 120 0.030 0.300 0.390 0.003
12 3D’ 01 40 7.4 9.0 215 7. 70 120 0.020 0.300 0.350 0.003
74/06/21 11 25 0000 26.8 8.8 26u 251 8.60 132 0.050 0.400 0.190 0.002
ii 5 0005 26.6 8.8 252 8.50 131 0.030 0.300 0.150 0.002
11 25 0015 24.2 9.2 241 8.80 125 0.040 0.400 0.140 0.002
11 ?5 0040 16.7’ 6.2 190 8.10 120 0.040 0.200 0.440 0.008
11 25 0080 13.1 6.6 177 7. 0 120 0.040 0.200 0.550 0.006
I I 25 0120 11.0 5.8 173 7.80 119 0.030 0.200 0.500 0.006
11 25 0160 9.6 1.4 194 8.50 0.200
74/09/05 10 55’ 0000 24.4 7,4 135 239 8.30 123 0.030 0.500 0.070 0.0021<
10 55 0015 24.2 7.8 237 8.30 124 0.030 0.200 0.030 0.002
10 55 0032 24.0 6.6 235 8.20 124 0.030 0.200 0.040 0.003
10 55 0038 19.7 0.8 223 7.80 118 0.040 0.2001< 0.320 0.003
10 55 0045 17.6 2.2 197 7.70 114 0.030 0.2001< 0.380 0.002
10 55 0055 16.9 3.4 177 7.70 106 0.020 0.2001< 0.440 0.002
10 55 0065 16.4 3.4 175 7.60 106 0.030 0.2001< 0.490 0.003
10 55,0080 15.8 3.6 181 7.60 117 0.050 0.2001< 0.550 0.006
10 5 0095 15.0 4.2 185 7.60 119 0.040 0.2001< 0.590 0.004
10 5 0110 14.3 5.2 185 7.60 122 0.030 0.200K 0.600 0.004
10 55 0)25 13.5 0.4 179 7.50 122 0.100 0.300 0.600 0.007
10 55 0140 12.7 0.4 193 7.50 134 0.230 0.400 0.360 0.009
74/10/15 16 05 0000 19.6 8.0 134 215 8.07 123 0.040 0.500 0.060 0.002
16 05 0005 - 19.6 7.8 213 8.06 122 0.040 0.200 0.060 0 .004
16 05 0020 19.6 8.0 213 8.03 121 0.030 0.200K 0.060 0.005
16 05 0040 19.6 7.6 211 7.99 121 0.030 0.300 0,060 0.005
16 05 O06 18.6 7.0 209 7.31 117 0.020 0.200 0.270 0.005
16 05 0095 16.1 0.6 171 6.99 104 0.0201< 0.2001< 0.470 0.009
16 05 0120 15.0 0.4 181 7.07 113 0.290 0.400 u.230 0.011
16 CS 0146 13.6 0.6 195 7.13 129 0.870 1.000 0.020 0.009
,< V L.J ‘cuOW J ro 6E
LE5S Ti-iAN I%J)IC_TE)
-------�
STc ET RETRIEvAL OATE 7/02/u2 050’.05
,36 27 35.0 092 4” 1 .0 3
SULL S OALS A cE
QS0 9 A A ISAS
1305 Yl
p 1 IEP ’ALES 04001002
/TY A/AM NT/LA ct o o FEET DEPT’-I CLASS 30
00665 32217 00031
DATE TIME DCPTM PHOS—TOT CMLRPMYL INCDT L T
FROM — OF A REMNIf ,.G
TO DAY FEET M /L P UG/L PEl CEr T
74/U ’./09 12 30 0000 0.016 5.0
12 30 0005 0.013
12 300015 0.011
12 30 0030 0.009
12 30 0080 0.009
12 30 0140 0.009
74/06/21 11 25 0000 .038 1.0
11 25 0005 0.009
11 ?5 0015 0.011
11 25-0040 0015
11 25 0080 0.009
11 25 0120 0.010
11.25 0160 0.013
74/09/05-10 55 0000 0.017 3.5
10 55 0006 50.0
10 55 0015 0.01’
10 55 0024 5.0
10 55 0032 0.031
10 55 0035 1.0
10 55 0038 0.014
10 55 0045 0.0 12
10 55 0055 0.010
10 55 0065 .013
10 55 0080 0.012
10 55 0095 0.010
10 55 0110 0.012
-10 55 0125 0.016
10 55 0140 0.0’.,8
74/10/15 16 OS 0000 0.016 3.4
16 05 0005 0.01
16 05 0017 1.0
16 05 0020 0.020
16 05 0040 0.032
16 05 0065 0.0 11.
16 05 009’i fl.018
16 05 0120 u.0 58
16 05 0146 0.151
-------�
STOP€.T RETRIEVAL OATE 77/02/)2
050406
36 28 39.0 092 49 14.0 3
BULL S 4OALS ‘..AKE
05059 ARIcA .SAS
1005 1
/1 r?A/A l8NT/LAK
1 1E?ALES
0096 FEET
04001002
DEPTrI CLASS JO
K lALUE KNOWN TO t3tE.
00010
00300
00077
00094
00400
00410
00610
00625
00630
00671
DATE
TIME
DEPTiI
WATER
00
TRANSP
C14OUCTVY
Pri
T ALK
Nr13—N
TOT I JEL
N02&’103
PriOS—DIS
FROM
TO
OF
DAY
FEET
TEMP
CENT
MG/L
SECCMI
INCHES
FIELD
MICROMHO
SI)
CACO3
MG/L
TOTAL -
M ,/L
— N—TOTAL
- MG/L MG/L
ORTrIO
MG/L P
74/ 1 )4/09
13 15 0000
13 15 0005
10.ii
10.1
11.8
11’.
25
32
8.50 — 124
8.50 123
0.050
0.040’
0.400
0.300
0.430
0.430
.0.005
0.004
13 iS 0025
10.1
10.8
106
7.90
120
0.030
0.200
0.400
0.003
13 15 0090.
8.3
9.2
168
T.8C
113
0.050
0.200
0.400
0.004
74/06/21
15 30 0000
27.0
8.8
260
249
8.8
125
0.050
0.900
0.180
0.004
15 30 0005
26.9
8.8
251
8.80
125
0.030
0.300
0.130
0.002
15 30 0015
25.8
8.8
241
8.70
125
0.030
0.200
0.130
0.002
15 30 0040
16.5
6.6
190
8.10
122
0.030
0.200
0.440
0.006
15 30 0080
13.1
7,8
180
7.80
121
0.020
0.200K
0.560
0.006
15 30 0120
11.1
3.6
175
7.80
122
0.030
0.200
- 0.510
0.005
15 30 0150
10.1
0.2
180
7.60
126
0.080
0.200
0.480
0.006
74/09/05
14 05 0000
24.9
. 7.8
138
238
8.30
129
0.040
0.200
0.030
0.003
14 05 0015
24.6-
7.6
238
8.30
131
0.040
0.200
0.030
0.007
14 05 0030
23.7
5.0
236
8.00
130
0.030
0.200
0.050
0.004
14 05 0040
18.7
4.0
195
7.80
114
0.020
0.200K
0.380
- 0.002
14 05 0055
16.7
4.2
176
7.70
98
0.020
0. 200K
0.430
0.003
14 05 0070
16.1
3.6
173
7.70
.101
0.020
0.200K
0.490
0.006
•
14 05 0085
15.1
3.6
182
7.65
108
0.020
0.000K
0.560
0.004
14 OS 0100
14.’.
2.6
187
7.60
112
0.020
0.200K
0.570
0.004
74/10/10
14 55 0000
20.5
8.0
132
203
8.35
125
0.020
0.300
0.090
0.004
14 55 0005
19.9
7.8
200
8.35
126
0.020K
0.300
0.080
0.004
14 55 0030
19.8
7.6
199
8.25
125
0.020K
0.300
0.070
0.003
14 55 0050
19.4
6.2
199
8.00
125
0.020K
0.300
0.120
0.003
14 c5 0O6
17.5
1,2
179
7.50
117
0.020K
0.200K
0.440
0.006
14 5 0085
16.3
0.4
166
7.40
109
0.070
0.200
0.400
0.009
14 55 0100
15.7
- 0,4
168
7.40
113
0.190
0.400
0.320
0.010
14 55 0120
14.7
0.4
180
7.40
125
0.560
0.800
0.100
0.009
LrSS TpiA ’4 INOICUTED
-------�
STOREf ETR1EVALD.’ TE 77/G2t 2
050406
36 28 39.0 092 49 1 .0 3
ULL’ Sr-OALI LAI E
)50 9 A A SAS
100591
/TYP N T / ,c 11E ’ALES 04001002
A/A i L 0096 FEET DE°TH CLASS 00
00665 32217 - 00031
DATE TIME DEPTtI PHOSTOT Cr LRP YL INCOT LT
FROM OF A REMt ING
TO DAY FEET - MG/L P JG/L •PERCENT
14/04/09 13 15 0000 0.01g. 10.6
13- 15 0005 0.019
13 15 0025 0.013
13 15 0090 3.013
74/06/21 15 30 0000 0.013 2.2
15 30 0005 0.009
15 30 0015 0.009
15 30 0040 0.015
15 30 0080 0.011
15 -30 0120 0.013
15 30 0150 0.021
74/09/05 14 05 0000 0.013 4.7
14 05 00O5 - 50.0
14 05 0015 0.017
14 05 0021 5.0
14 05 0030 0.014
14 05 0034 1.0
14 05 0040 0.014
14 05 0055 0.015
14 05 0070 0.014
14 050085 0.014
14 05 0100 0.017
74/10/10 1’. 55 0000 0.017 4.0
14 55 0003 50.0
14. 55 0005 0.020
14 55 0016 5.0
14 55 0030 0.015
14 55 0033 1.0
14 55 0050 0.014
1’ 55 0065 f .013
14 S5 0085- 0.022
14 55 0100 0.034
14 55 0120 0.079
-------�
ST0R T E14I VAL OATE 77/02/02
050407
3 ?8 23.0 092 54 07.0 3
dULL I0ALS LANE
05009 A ANSAS
1005 1
/TYPA/A B T/LA 1 IEPALES 04001002
0073 FEET DE TI1 CLASS 00
00010 00300 00077 00094 00400 00410 00610 00625 00630 00b71
DATE TIME DEPT 1 wATER DO TR NSP CI’IOUCTVY I ALI< Nk3—N TOT KJEL N02 NO3 PrtOSOIS
FRO’ OF TEMP SECCrII FIELD CACO3 TOTAL N N—TOTAL 0s TiiO
TO DAY FEET SCENT MG/L INCHES MLC. OMr1O SU MG/L M /L MG/L MG/L MG/L P
74/U4/0’ 14 00 0000 - 10.5 84 8.50 112 0.040 0.300 0.460 0.005
14 00 0005 10.3 11.8 20 8.50 112 0.030 0.300 0.460 0.004
14 03 0020 10.2 10.8 105 8.20 118 0.050 0.200 0.450 0.003
14 00 0065 9.6 11.6 165 8. 0 115 0.040 0.300 0.430 0.004
74/06/21 16 05 0000 26.1 10.0 170 246 8.50 127 0.040 0.400 0.140 0.003
16 05 0005 25.3 1G.2 240 8.60 126 0.03U 0.200 0.150 0.003.
16 05 001 23.2 9.6 225 8.40 126 0.030 0.300 0.200 0.003
16 05 0030 17.4 6.8 197 7.40 123 0.040 0.200 0.400 0.003
16 05 0050 15.4 8.6 132 7.50 118 0.040 0.200K 0.540 0.006
16 05 0075 15.0 8.2 182 7.80 118 0.050 0.200K 0.600 0.009
16 05 0098 12.4 4.8 184 7.90 124 0.040 0.200K 0.600 0.008
74/09/05 13 3 0000 24.7 7.6 129 245 8.30 125 0.050 0.800 0.050 0.006
13 35 0015 24.5 7.4 234 8.30 124 0.030 0.500 0.030 0.003
13 35 0030 24.1 5.6 242 8.10 126 0.040 0.500 0.020 0.003
13 35 0040 17.7 3.8 186 7.90 112 0.030 0.200K 0.380 0.002
13 35 0050 16.9 4.4 175 7.80 108 0.030 0.200K 0.450 0.003
13 35 0057 16.5 4•4 173 7.75 109 0.040 0.200K 0.470 0.006
74/10/10 15 10 0000 20.5 8.4 120 206 8.30 127 0.040 0.200K 0.090 0.004
15 10 0005 19.7. 7.6 203 8.30 127 0.020K 0.200K 0.080 9.003
15 10 0010 19.7 7.6 203 8.30 128 0.020K 0.200K 0.080 0.002
15 10 0030 19.6 7.6 203 8.20 127 0.020 0.200K 0.080 0.002
15 10 0049 19.5 6.4 202 8 10 127 0.020K 0.200K 0.100 0.003
iS 10 0065 17.2 2.6 193 7.55 125 0.020K 0.200K 0.410 0.005
15 10 0080 16.6 2.0 185 7.50 123 0.100 0.200K 0.370 0.007
1510 0095 16.’. 0.6 187 7.40 126 0.330 0.500 0.180 0.006
K VALUE KNOWN TO 8E
LESS TI-IAN I’iOIC T D
-------�
STC, ET Er z AL i)ATE 1i/32/0.
- - a50 07
36 2 23.0 092 5 e 07.0 3
BULL S—.OALS ApcE
0500 -i Ar KA .SAS
13 05 fl
11E AL S U4001002
,TYPA/AM NTfLA’sE 0 7 -3 FEET QE Tr1 CLASS 3G
00665 32217 00031
DATE TIME DEPTI -1 PhOS-TOT CrILRPHYL 1 4C T LI
FROM OF A PEMN 1NG
TO DAY FEET MG/L P UG/L PERC,ENT
74/04/09 1’. 00 0000 0.015 12.7
14 00 0005 0.015
14 00 0020 0.013
14 00 0065 0.015
74/06/21 16 05 0000 0.012 5.6.
16 05 000 t .015
16 05 0015 0.017
16 05 0030 0.915
16 05 0050 0.016
1605 0075 0.016
16 05 0098 0.015
74/09/05 13 35 0000 0.023 3•4
13 35 0006 50.0
13 35 0015 0.018
13 35 0019 5.0
13 35 0030 0.018
13 35 0031 1.0
13 35 0040 0.015
13 35 0050 0.014
1335 0057 0.021
74/10/10 15 10 0000 0.016 3.6
15 10 0005 0.015
15 10 0007 50.0
15 10 0010 0.015
15 10 0019 s.o
15 10 0029 1.3
15 10 0030 0.014
15 10 0049 0.014
15 10 0065 0.016
15 10 0080 u.020
15 10 00 5 0.040
-------�
ST ),- .cr -fT—: •i . • ‘..‘‘‘
1 ATI i_),J ‘.rj • -.
E A—tJ , ). :1
C 0.- ‘JM
3 . ,j ) . j tl J .J. —4 i
r, LL 10 LS L41\E
4—K4 JSA ,
ii E .L r
211 1 ”
006 FEET L t.-T-•
i3ui
/
Ot.- ”—
‘)‘J4u i.
C).I’J
OcIbju
J )r’2
90630
(lflt,71
0AT
Tj
E?T-’
J O
1 ’ ’ —
C i)uCjgY
. -
r iiLr
‘ii3—’..
TOT JtL
Nflê .N03
UHOS..DtS
FQO”
(‘
Tr ‘ ‘
LCCi1
rIt:Lo
CACUJ
IOTAL
s—TOTAL
0P T-IO
i
IE
•- .T
‘ L 1
I •.-—c.’
“—j.’irO
U
‘iG/L
M ,/L
F .,/L
M&/L
MG/L P
74/(e/0’
14
0 O’
1.3
• .3Ci
I OU
0.040
0.’i0()
0,650
0.005
14 4i) 000
.7
11.
1
.4u
Q8
0.040
0.400
0.470
0.009
4 4 001’
.6
l l.e
88
8.3 ’)
i’4
0.040
0.300
0.480
0.005
14 40 iJ05
9.b
1 1 .
143
8.30
96
0.020
0.300
0.430
0.003
7 /06/21
O O(si’
2 .7
.b
.30
70
a.7 0
l 7
0.140
1.600
0.100
0.015
15 5 ( 1 OOt ’
25.9
1U.6
26i
Fs.R0
125
0.050
0.600
0.060
0.009
15 sr o’ij
2 .;
‘
4 .1t
1 s
0.Q ’ 0
0. Su O
0.070
0.008
, fl ()0j-
22.1
11.’.
2’40
8.70
1. 2
0,050
0. O0
0.140
0.008
( r. , ;
2 ( 1.3
11.1
228
‘ .‘ ,0
11
0.030
0.400
0.240
0.007
15 50 0(12 S
1 .3
4.6
141
‘ .20
104
0.030
0.400
0.’M0
0.00
15 50 033
14.7
9.8
1E
7.90
102
0.040
0.300
0.540
0.006
15 5 . (105
14.7
9.
187
8.20
105
0.040
0.s00
0,560
0.006
74/fl’)/0S
13 (15 OOJI)
24.2
M.0
9(1
c.2 3
M.2 5
119
0,040
0.400
0,050
0,006
13 05 0 ( 19
24.1
7.6
222
.3’)
1U4
0.020
0.300
0.020
0.002
13 05 001-4
24.0
7.6
2c3
F .30
118
0.020
0,200
0.020
0.00
1 O’ 0u2n
4.0
7. ,
223
8.2
1 1 r3
0.030
0.200
0.020
0.00 ,
13 05 00’s”
1k.’
4.2
190
(.80
112
0.070
0.200
0.320
0.001
13 oc 0066
16.4
2.0
169
7.70
102
0.100
0.300
0.410
0.013
74/19/10
14 25 OOiIf ’
2 1i.0
8.4
T e
198
4,40
128
0.060
0. 90
0.030
0.005
14 25 0005
19.2
8.0
196
8.40
12
0.040
0.200t
0.030
0,004
14 25 OOdO
19.1
7.2
19o
8.35
125
0.030
0. 00K
0.030
0.004
16 ?c 004(1
1#.7
-6.8
197
8.10
127
0.050
0 ,2001 <
0.070
0.006
14 25 00’.6
17.7
5 .8
191
7.90
129
0.080
0.200t(
0.140
0.009
14 25 0057
17.0
4.4
200
7.70
134
0.150
Q.200
0.200
0,009
K VALUE KNOWN TO BE LESS THAN
INDICATED
-------�
•,t__tI - - - — -
r. - I ;
i.s S .jz.i , ; P’ .i- ‘f’.L • i I i
“JLL ))‘U4LS LMrt
A—r< iSL
111 e
3 0 f l FFET
‘)A IE Ti c € —T- . -. - 1,j L’LQ’n’L 14Cc)I LT
O:p ‘F
T i -‘ 2?/. rtaj\T
?4/i q/U’. }4 0”’J’ i .I,j
U’ 4t) COO’— ‘‘.‘)1c
14 4’) Oat—’ us
1 4fl Oor’ J.�!c
7 /06/21 I i 53 O.”3 I C . ’
15 50 fl(H 1.3
15 51’ O’ ’ ).‘“
15 50 q l” e.)iE
15 t . 0 ’1-’ .
15 5; flfl,?fl
1R 5’) 0Oc ’- 0.”r’3
15 50 flv3 t ’
iS 50 0 ’’ 3 ;).t’
7 /flQ/Q5 13 05 OQi )’) “.‘ ?b
13 05 000 0.0d2
13 oc oo •i. 2 1.0
13 05 00 . ’, II.(?1
OS (jwiY I).O.’4
13 0 O n ’, ’- d.’ic
74/10/10 14 25 0000 u.02b
14 25 O0O 50.0
1’ 25 OOØC u.)P2
1’ 25 0011
14 25 00? ‘.‘ N 1. 0
14 25 004” ii.1?l
14 25 Oil’ ”’ C. c t ’
1 7C, fl(” 7 ‘ .3s
-------�
sTu T ET1 ZEVAL DATE 77/0?/ 4
2 040 1
3 3 2B. ) 093- 07 29.0 3
LArsE TAN v OMQ
2 213 M 5.jUkI
100591
1 1E LES
CC ’*8 FEET
0A00 1002
OE’ T CLASS 00
/ TV /A M5N T / L C. ‘
DATE
To
T IME DEPTrI
OF
L)AY F ET
92
72
74/04/10
09 50
0030
9. ’ .
09 50
0005
9. ’.
09 50
0020
9.3
09 50
00/.0
9.3
74/06/I
15 30
15 30
15 30
15 30
15 30
0000
0005
0015
0. )25
0042
15.3
14.6
14.’.
14.2
14.1
74/08/30
14 20
14 20
14 20
14 20
0000
0015
0025
0040
17.0
16.0
16.3
15.9
74/10/04
16 25
16 25
16 25
0000
0005
0015
16.0
15.9
15.4
-
16 25
‘16 25
0025
0040
15.4
15.3
K ‘ALUE KNOWN TO 8E
LESS THAN P’.OICATED
63
03010
00300
00077
00094
00400
00410
00610
00625
00630
- 00071
ØATER
DO
TR NSP
CNDUCTVY
PH
1
Nh3—N
TOT KJEL
NO2 .r iO3
PHOS—tDIS
TEMP
SECCrII
FIELD
CACO3
TOTAL
N
N—TOTAL
ORTr1O
CENT
MG/L
INCHES
MICROMItO
U
MG/L
MG/L
MG/L
MG/L
MG/L P
10.6
155
155
8.1
8.10
98
96
0.030
0.020 1 <
0.600
0.200
0.500
0.500
0.008
0.004
10.2
154
8.00
96
0.030
0.200
0.510
0.005
10.4
155
8.00
95
0.020
0.200c
0.bIO
0.005
173
8.00
r g
0.060
0.300
0.670
0.007
7.2
164
7•9)
100
0.050
0.200
0.620
0.004
7.0
• 7.0
165
167
7.93
7.9)
101
101
0.040
0.040
‘0.200
0.200
0.600
0.590
0.004
0.004
7.2
167
8.00
103
0.050
0.200
0.600
0.004
5.4
139
7.55
90
0.150
0.400
0.410
0.018
5.0
133
7.50
88
0.060
0.200
0.450
0.017
5.0’
133
7.50
92
0.030
0.200
0.420
0.015
5.0
133
7.50
94
0.050
0.200
0.460
0.022
7.2
153
7.25
95
0.030
0.400
0.320
0.007
6.4
155
7.23
94
0.020
0.200
0.310
0.005
5.2
155
7.13
96
0.063
0.300
0,340
0.006
4.6
153
7.09
94
0.030
0.300
0.330
0.008
5.2
153
7.11
-93
0.040
0.400
0.310
0.010
72
-------�
ST.3 ET E1 tEuAL JATE \7(/O2/ 290’ eO1
36 39 23.0 C93 07 29.0 3
LAKE T NEY’OM0
29213 -4ISSOURI
10059 1
/TYPA/Ar4 NT/L
-------�
TE 77,0?, ?
290402
36 41 23.0 093 11 ‘ .1.0 3
LAr E TANEV’OMO
29213 MISSOU.1
100591
/1 PA/A iI3NT/L E
I 1ELES
003b FE .T
0 .00 1002
DEPTrI CL&SS 00
00010
00300
0C077
0C094
00400
00410
00610
00625
00630
00671
DATE
TIME
DEPT-’
nATER
DO
TRANSP
C OUCTVY
Pr
T AL,<
Np43—N
TJT KJEL
NU2 O3
PHOSUIS
FROM
OF
TEMP
SECCI-lI
FIELD
CACO3
TOTAL
N
N—TOrAL
TO
DAY
FEET
CENT
MG/L
INCI-’ES
MLC 0Mr1O
SU
MG/L
Mu/L
MG/L
MG/L
MG/L P
74/04/10
10 15 0000
8.7
108
149
7.9u
93
0.020
0.200
0.520
0.003
10 15 0005
8.7
10.0
149
7.90
93
0.030
0.200K
0.520
0.005
10 35 0025
8.7
9.8
149
7.9U
93
0.030
0.200
0.530
0.005
10 39 0030
8.7
10.4
j49
8.00
95
0.020
0.200K
0.510
0.005
741)6/19
15 50 0000
13.9
95
160
8.00
100
0.060
0.400
0.590
0.013
15 50 0005
1 ..0
7.6
157
7.9 !.)
101
0.050
0,200
0,590
0.007
15 50 0015
14.0
6.8
155
7.90
95
0.040
0.200K
0.530
0.005
15 50 0025
13.9
7.2
159
7.9)
94
0.040
0.200K
0.580
0.005
15 50 0034
13.9
6.8
161
7.90
9b
O.0’.0
0.200<
0.600
0.006
74/08/30
14 90 0000
14.8
3.8
84
139
7.50
100
0.030
0.300
0.510
0.018
14 50 0015
14.7
4.0
139
7.40
99
0.020
0.200K
0.510
0.013
14 50 0029
1 ’ ..7
5.6
139
7.4t
99
0.020
0.200K
0.500
0.013
74/10/04
15 15 0000
15.9
6.2
52
159
7.25
103
0.090
1.200
0.380
0.018
15 15 0005
15.8
6.4
159
7.19
98
0.050
0.500
0.360
0.010
15 15 0020
15.3
9.8
157
7.19
94
0.030
0.300
0.350
0.013
•
15 iS 0031
15.3
.8
151
7.19
97
0.05U
0.300
0.370
0.011
K VALUE K iOWN TO
LESS THAN INCICMTED
-------�
SIC ET EtPIEVAL 7i/ / 4
36 ..1-28.0 .393 11 41.0 3
LA cE T NEYCOMO
29213 MI SOU I
1005
1TY A/A JBNT/LAKE I 1EPALES 04001C02
0033 FECIT D&Tri CLASS 00
00665 3221? 00031
DATE, TIME DEPT i PrIOS—TOT CHLRPi- YL INCOT LI
FROM OF A EMNING
TO AY FEET MG/L P UG/L PERCENT
-I ’
74/v4/10 10 35 0000 0.017 8,8
10 35 0005 0.01’l
10 35 0025 0.018
10 35 0030 0.01
74/06/19 1550 0000 0.021 0.3
15 50 0005 0.017.
15 50 0015 0.023
15 50 0025 0.023
15 50 0034 0.023
74108/30 14 50 0000 0.034 0.7
14 -50 3015 0.032
14 50 0029 0.031
74/10/04 15 l5 0000 0.051 36.8
15 15 0005 0.038
15 15 0008 1.0
15 15 0020 0.0.32
15 15 0031 Q.934
-------�
APPENDIX D
TEMPERATURE PROF ILES
-------�
STATION NUMBER
2 -3 4 5 6
STATION NUMBER
Co
U.’
I-
LU
I-
LU
0
10
20
-30
40
50
-60
1
2
3
4
5
Co
LU
I-
U.’
I- .
U . ’
6
-------�
‘STATION NUMBER
1 2 3 -4 5
Note: Station 6 Center Mark at 24°C
LU
LU.
r
I —
C -
LU
0
LU
I —
L U
2
I-
C-
LU
0
0
STATION NUMBER
2 3 4
-------�
STATION NUMBER
‘ L i
I-
50
NoLe: Site 9 Apprax 14°C
STATION -NUMBER
- 20
‘ Li
I - -
‘ Li
3O
=
I-
‘ Li
0
-------�
STATION NUMBER
1 .2 3 4 5 6
7
B 9
c c
uJ
I-
w
r
I-
a-
‘ U
C
U ,
M a
I —
M a
a
r
I-
a-
Ma
0
SITES
-------�
7 .4-04-10
STATION NUMBER - -
74-06- 19
STATION NUMBER
74-08-30
STATION NUMBER
12 16
I I I I I
CENTER 160C
AT STATION MARK
74- 10-04
STATION NUMBER
12
12 16
I I I I
CENTER .16°C
AT STATION MARK
TANEYCOMO
290401 -O
uJ
I-
=
I—
U.’
0
5
10
8 1O
CENTER 9°C
AT STATION MARK
12 14 16
I I I i i
CENTER 14°C
AT STATION MARK
TEMPERATURE SCALE C
-------�
STATION NUMBER
3 4
0
ItJ
&; 20
uJ
I-
w
!30
=
I-
a-
L U
040
50
66
STATION NUMBER
1 2 3 4 5 6 7 8
C o
L U
I-
‘ S i
=
a-
LU
0
-------�
STATION NUMBER
I 2 3
STATION NUMBER
en
uJ
U i
a
I-
C-
U i
0
4 5 6 7 8
0
10
1 2 3 4 5 6 1 8
In
U i -
I-
U i -
a
30
a-
LU
0
40
50
60
-------�
APPENDIX E
TRIBUTARY AND WASTEWATER’
TREATMENT PLANT DATA
-------�
$T0 E’ T ! AI “E 75/11128
4 TL UT ( ,1!CAT1’N SU VFY 35)141
A— L4S VE - 36 25 15.3 093 5’) 50.0
II-uT -•.‘
35 1.5
3/ s P.v:’1
P wE 1’US TUPBI !E DISCH
2111204
0000 FEET ! EP1H
0 63G 00625 0C610 30671 00665
0 IT TIME D °’H ‘ J2 03 T1 KJ L NH3— PHOS—DIS PrfCS—T .)T
- T’TAL 1 TH’
TO D Y F V /I PG/L MG/L MG/I P MG/I P
74L06/22 12 45 0.390 0,’200 0.010 0.005K 0.015
74/0 /Z0 11 30 0. 80 1.700 0.010 0.005 0.005
74/08/17 14 00 -).78r’ 0.200 0.02 0.005K 0.32 J
74/09/21 15 00 1.240 C.200 0.005 0.010 0.310
14/10/19 12 20 - 0.43’ 0.300 0.025 0.005 0.32u
74/12/21 13 3u 0.136 3.300 0.025 0.005K 0.32j
75/01/19 14 00 0.152 0.700 0.024 0.005K 0.310K
75/02/28 15 15 0.152 0.300 0.U24 0.308K 0.J10.
75/03/13 13 23 3.152 0.6C0 0.04C 0.008K 0.330
75/03/27 16 00 0.1&0 0.250 0.009 0.005K 0.010K
75/04/05 13 0 0.l8j 4’.153 0.010 0.305K 3.320
75/04/20 13 20 0.210 0.500 0.030 0.005 0.310
75/05/18 15 00 0.200 0.150 0.035 0.010K
— K VALUE KNOWN TO BE LESS THAI4 —
IWL)ICATE I)
-------�
— K VALUE KNOWN TO BE LESS TIIP.N —
INDICATED
cTi - 75/ii /2i
ATL. ‘J P-1 !A’i”\ SU vFY
E A LAS VE 3 S
0 63fl
03625
00610
00671
30665
) ‘C
TI4
: H
‘! .33
T.T KJEL
NH3—N
PH S—DJS
DHCS—T T
‘ U
3
—‘: j
j
T JT I
C’ H0
7)
DAY
‘IG/L
MG/L
MG/L
MG/L P
MG/L P
3501. 2 -
36 34 25.0 O9’ 0’. 53.0
iir ?
7.5 EL (i jS
T/D AV ESERVCTD
2ND Y r 0G 2.1 ii! I OF AR HWY 16 Jcr
11 ?4L ES 2111204
* 0000 FEET 0 P’TH
74/06/22
12
0)
0.O8 ’
.0.200
0.015
0.005K
O.J30
74/17/20
11
0’)
0.112
O.100
0.010
0.010
0.025
74//li
14
45
0.108
2.200
0.035
0.105
74/09/21
1.0
30
0.384
0.6C0
0.025
0.020
0.115
74/10/20
f 9
45
‘. 12b
0.2CZ’
4.020
0.005K
0.)2u
74/11/24
10
05
0.256
C.4C0
0.032
0.016
0.030
74/12/21
11
10
0.200
.1OC’
0.020
0.005K
3.030
75/01119
13
1.0
C.184
0.400
0.016
0.005
0.025
75/02/28
09
15
0.280
0.400
0.040
0.00
0,040
75/03/1.3
13
15
fl.2 12
3.400
0,028
0.008
0.070
75/03/2 ,
10
I)
‘).182
0.500
0.023
0.007
0.340
75/04/05
10
00
0.17
0.700
0.025
0.005K
0.040
75/04/20
10
00
0.080
0.450
0.035
0.005K
0.020
75/05/11
09
10
0.105
0.600
0.065
0.010
0.060
-------�
ST1Q r r 75/1I/2
1ATL eUT PrlIC A!C’N SU V Y
P4 L S VEG S -
50131
13 5 .0 0c3 48 45.0
i3 CL I V C E
7.5 ‘ UN0 LL
T/bE. E PfS vJj
0F 2N0 Y P0 3 MI W AO HWY 23 JCT
11E LFS 21112 4
4 0000 FEET OEDTH
00 30
0O 25
00610
0C671
00665
D TE
I
31 t1
‘2 r 3
T( KJEL-
NM3—N cs—Jis
s—r.jr
‘
4—nrAL
‘
TJTAL -
0°T 4J
TJ
D. Y
5 T
‘lS/L
MG/L
MG/L
MG/L P
MG/L-P,
74/06/22
11
40
.056
1.300
0.065
0.O )5K
0.023
74/07/20
11
30
0.068
0.4C0
0.020
0.010
0.020
79/03/17
12
00
0.036
0.40()
0.010
0.031
0.035
74/09/Zi
12
0
0.044
C.5 ’)
0.012
O .317
0.035
74/13/1
11
OC
0.02
0. 00
0.03C
0.010
0.0.,u
74/12/21
IL
21
3.085
0.200
0.020
0.0( 5K
0.020
75/01/19
13
. 1)4
0.6C O
0.024
0.005K
3.3I (
75/02/28
16
45
0.160
‘2.100
0.316
0.088
75/03/13
1
4fl
°. 144
0.10 0K
0.015
0.008K
0.335
75F03/22
18
00
•) I33
0.200
0.009
0.004
0.010K
75/04/05
11
00
0.080
0.250
0.050
0.0 10
0.030
‘751 )4/20
IL
15
0 08
C.250
0.020
0.005
0.320
75/05/18
13
30
0.200
0.050
0.020
0.020
0.020
— K VALUE KNOWN TO BE LESS THAN —
INDICATED
-------�
ST0I T •‘. ‘ T5/iI ,’2
NAT’ !JT C 1CAT N SU V -V
‘ — L S
0531. 1.
36 15’05.3 093 56 40.0
P441c EAGLE CREEK
35 .5
T/.8E4I ESEQV i
R0 ‘ W ° EA’L -
1IE?%LES - 2111204
0000 c ’
09 3Q
00625
006. IC -- 00671
006b5
‘ ‘3
T T KJEL
NH3—
H S—DiS
H0S—TJT
— T AL
N
‘CT I
9 TH
. -
M3/L
MG/I
MG/I
MG/I P
MG/I P
.
‘1
1:
74/06/22
14/07/2 J
74/08/ 17
74/Oq/ 21
74/10/19
•74,/ 12/21
751)1/iS
75/02/28
75/03/ 13
75/03/22
75/34/34
75/)4/19
75/05/11
75/05/19
7;j: r’ D ..j
L 1
0 Y F T
13 03
10 30
10 0
11 )C
Is) -1’
IC i
IL )C
17 23
1’) 45
[ 9 00
10 00
09 4
12 00
15 15
OEP’H
0.504
0.490
0.2q0
1.419
0.232
L432
3.480
0.624
0 • 408
0.546
‘3.525
0.250
0.380
0.20)
u • 500
0. 2CQ
3.200
0. 900
2 • [ C-’)
0.30C ’
3. 200
0.300
0.400
0. .100
C • 950
0.500
2 • 80”
0.030
0.010
0.01 ( 3
0.035
0.06(3
0.015
0.032
0.088
0.016
0.006
0.005W
0.055
0.030
C.430
o • 005K
0.005
‘0.010
( 1.045
0.005
ri .005K
0.9(15
0.016
0.025
0.008
0.095
0. (’07
0.00 5
“.937
0.013
0.020
o.32c
0 • 160
0.020
0.01
0.310K
0.030
0.390
0.030
0.020
0.320
0.050
— K VALUE KNOWN TO BE LESS THAN
- INDICATED
-------�
TT4E
OAY
00630
C 2C” )3
AL
CC625
T T KJELJ
N
MG/L
0C61 0
TA L
GIL
S ! VAL O f 75/11/28
4 TL’ E.JT p1!:Ary\ SUQV Y
5O1)1
‘A- LA
36 08 55.0 093 58
ITE’ iE CREEK
35 7.5 SP I’ G
T/BE VEP RE5 RVCI
150 T S 2NDARY
•L1E AL S
4
27.0
VALLY
4 M l SW
2111204
OOCO EE7,
SPPNC
DEPTH
VILY
i-
c u
-‘ IC
74/06/22 15 30
1.040
0.100K
0.00
74/11/24 09 0
1.130L
‘).300
0.016
75/0 1/ Ic 08-50
0.790
0.300
0.008K
75/02/28 08 30
1.600
‘0.2C0
0.024
75/03/13 10 “
1.42C
t).90C’
.028
75/03/2.3 09 i
1.445
C.900
0.024
?5/0 /0 09 •)0
1.350
0.975
75/04/ig e9 V)
0.030
1.95”
0.045
00671 -
P-4 5—D! S
MG/L P
0.020
0.024
0.00 5
0.03 2
0.024
0.015
0.025
00665
MG/L P
0.030
0.050
0.010’(
0.03 2
0 .06
0.02 0
0.040
0.310
- I( VP LUE Ki - OW11 TO BE LESS THAN
INDICATED
-------�
ST•0 ET E1 NV. L 75/11/ia
, TL j PAT’ I0 4 SU VFY
E ’A— vE; S
0501E1.
36 09 00.C 094 58 3 ).0
3RU d
05 7.5 SP ! G VLLLY
T/E AV RES RV)I
1.JY 4 !3G 0.3 M! SW F HAyF!ELI
11e L S 2111204
0000 FEET DE TH
00630
00625
00610
00671
00b 5
) Tr
)E TH
\C 2 :t 03
TI T KJEI
iI- —N
‘HS0T c
PHOS—T)T
0M
;j
N—T OTAL
N
bILL
TH
T.J
DAV
MG/L
M’/L
MG/I
‘4G/L P
MG/I P
14/06/22
15 C)
0.870
0.1’ OK
0.005
0.0r5
0.015
74/17/2
‘ S
0.890
1.000
0.055
).0I5
0.015
74/03/16
12 30
0.740
0.100K
0.010
0.015
0.015
74/0 /21
09 30
0.540
0.900
0.165
0.060
0.085
74/10/20
09
D.464
0.40(1
0.020
0.010
0.010
74/11/24
09 1
0.920
0.1001’
0.01k
0.008
0.010g.
75/01/19
09
l )
0.704
0.15(1
0.0 08K
fl.01)
0.JL0
75/02/28
08 45
0.800
0.500
0.016
0.016
0. 30
75/03/13
10 1
0.530
0.800
.fl32
0.016
0.340
75/03/23
09 30
0.655
0.400
0.015
0.010
0.010
75/04/06
09 15
0.720
0.950
0.030
0.010
0.020
75/04/19
09 15
0.490
0.250
0.015
0.010
0.010
75/05/li
08 45
‘)640
0.550
0.020
0.015
0.035
K VALUE K 40WN TO BE LESS THAN —
INDICATED
-------�
ST3 E T ET iVntL 15/11/26
‘ IATL FJT JP TC ’T’ SU V Y
P — L S V t
3501. F 1
36’ 05 ‘)0Y 0q4 59 35.0
_,icY
7.5 G’QS ”
T/ E. E° RESF VO!P
2ND Y 9 0G 1.5 M! S V F Q wY 45 JCT
11E ALES 2111204
4 0000 F E7 DEPTH
00630-
00625
00610
0O&71
00665
OM
T1
•
:2 F 03
N TC’ L
KJEL
,
JM N
T ’ )T I
Pr1 JS0IS
.•rHO
MG/L P
H0ST, T
TQ
D Y
FEE
MG/I
MG/I
MG/I
MG.(L p
74/09/21
09 45
).900
0.800
0.025
0.135
3. 50
74/12/21
09 30
0.576
0.200
C.010
0.010
0.0l0
75/02/28
08 49
0.104
0.500
0.056
0. 16
3.04U
15/03/13
it )0
0.750
0.40 ’ )
0.012
0.324
0.050
7i/03 23
09 45
0.640
0.600
0.015
0.018
0.i.130
75/04/J6
09 45
0.190
1.200
0.045
0.010
0.04c
-------�
sr D E ‘,/11/2’3
;j7 P1!C ’iON -!!j VFY
s
3531 ‘;1
36 )4 25.0 3q4 59 33.0
14L Ir’ E K
05 7.5 S,-4E
.0 XIN3 2.( T S 3
lIE?
00 30
00625
00610.
00b71
00665.
1 4 J’Th-’ J 2 tO3
T T
KJ!L
N — i
P’i S—DI S
i0S—TJT
‘
9
T(1T L
1 Y EET-
MG/L
MG/I
G/1
MG/I
MG/I P
2111204
0000 FEET DEPTH
7-ilOá/22 16 30
3.543
).lO)K
C.O1’
Q,Q’)SK
0.023
74f 7/23 05 L5
0.42 ’
•5( ’ )
.c 30
0.005
0.025
74/09/21 10 00
3.640
0.700
0.030
0.025
0.060
74/13/20 ‘9 2C’
0.416
0.300
0.015
0.013
14/11/24 4
3.624
3.100K
0.Olt
3.008
0.020
74/12/21 10 0
0.46 ’ -
0.?00
0.025
0.010
0.020
75/01/19 09 5
).32’
‘
3.2)0
‘.00e
0.0)5
0.0 10K
75/02/28 0900
0.520
0.300
0.016
0.015
0.030
75/33113 11 30
0.368
0.300
0.008
0.008
0.O5t
75/33/23 09 55
0.340
3.500
0.022
0.305
0.020
75/04/06 09 30
0.320
0.700
0.015
0.005
0.030
75/04/2’5 )9 3
0 ;22:j
0.55
C.035
0.025
0.020
75/35/11 09 10
0.260
0.65’)
0.015
0.010
0.340
—. K VALUE I .’I0WN TO BE LESS ThAN
INDICATED
-------�
-u—r i/l1/2
‘4 T(. EJ PrtC I’T’ J V Y 0531’ll
‘ — i.. s v ; ‘ 5• ($4 05 11.1
E <
7.5 G S
T/o AVE
2ND V 0 )T 200 F ! ‘ HWY 12 J T
l1E’. L S 2111204
4 0000 FEET DEPTH
ob 3o 00625 00 1C 00671 00665
‘2€NC13 TL:T, KJ L -43— . L S—!:)TS HC.S—T3T
T T. I
T [ OAT MG/L MG/L M0/L MG/L P M&/L P
74/06/22 09 V 1.430 C.6C0 0.)3C’ 0.’ )5 0.325
74/07/20 09 30 1.760 C.200 0.015 0.010 0.015
74/08116 09 00 1.440 0.100 0.0C5 0.012 0.015
74/OS/21 Dc Y .440 0.5C0 0.020 0.010 0.015
74/1O/1 09 O 1.680 0.300 0.025 0.010 0.010
74/12/21 09 3 3 2.240 0.400 ‘.02O 0.0 .5K 0.0L K
lSf.)i/1C LO )‘ 2.400 0.6C0 0.016 0.005 0.010K
75 /02/28 Id 00 2.320 0.ICO 0.024 0.008 0.020
75/r’3/13 10 25 2.00’ D.20 5 C.012 0.008 , 0.050
75/03/22 20 00 2.000 0.250 0.005 0.007 0.020
75/0./05 09 ) .100 0.6C0 0.035 0. 10 0.020
75/04/20 09 L5 2.L0 ’ C.7C0 ‘J.030 0.0t 9 0.3 1C<
75 05/18 11 DO 0.200 0.250 0.0 50 0.020
K VALUE KNOWN TO BE LESS THAN
I ND ICATED
-------�
75/08/26 (3 J ‘Xi
Cpu)—
‘sr’ e? F T 1V L 75 111/2S
‘44’L ;iJT flP 4tç t’Ti, SPVcEv
ED t — &! VE5\E
‘ 50l. A A$’)5014ts P040000e
3 )3 03.0 394 D l 30.0
FAYETTE’ :LL
Z5 7 5 C yETTEVILLE
r/6E1vEC LAK
WIITE ?!VEC
1IIE 3 &L S 2141204
0000 FE : riEP H
3.! TF
00t30
1 ‘4 ‘fl2 13
00625
T ’T KJEL
0061C
H3—N
00571
PHJ s—ri S
00665 50051
PHCS—TJT
F’’)
flC
tjTflTSL
N
TOTAL
‘J?THr
SATE
FI0w—MGO
T 3
MGfl
MG/L
MG/I
MG/L P
MG/ I P
I’JST MGD
MJPJTHLY
15/01 /16
00
)
CP(7)—
0.164
10.000
0.20
0.037
2.400
7.480
7.530
75/01/lb
24
00
75/12126
30
01
Z°(T)—
3.240
21.000
12.500
1.400
2.201)
14.900
7.530
75/’32/26
24
‘30
75 /03 124
*3 1
00
CPr)—
0.160
8.800
1.400
1.800 -
2.500
7.340
8.720
75/03/24
24
10
75/04 ,15
00
31
CP(T)—
0.050
14.500
4.800
4.100
4.800
6.450
7.000
75 /04/15
23
59
75/04/30
00
01
CD(1 —
‘0.050
12.000
2.000
3.750
4.900
7.100
7.400
15104/30
23
59
75 /05/ 19
00
‘It
C P U)—
-
0.053
IS.500
8.000
3.900
4.100
4.380
7.430
75/05/ 19
24
00
75/06/03
00
0 :
CP(T) —
.
0.050
16.500
6.200
3.500
3.600
4.800
5.200
15/06/03
24
10
75/06/ 11
00
01
‘
CP U)—
0.050
14.300
1.750
7.100
8.350
11.100
10.400
75/rio/Il
24
10
75/37/02
00
IL
C P U)—
‘).025
13.500
7.600
3.600
3.600
5.080
4.590
75/37/02
24
11)
75/31/15
f lU
30
CPU)—
‘3.025
24.000
11.000
6.600
1.100
3.600
3.400
75/07/15
24
a:
75 1 )7/29
00
30
‘Drj—
0.025
20.000
8.700
5.SOC
b.000
4.910
5.100
75/07/29
24
10
75/08/fl
0’)
30
CPU)—
.
0.134
13.000
2.3!0
4.500
4.500
9.073
9.100
75/08/21
24
30
75/08 /26 24 00
‘3.050 ‘ 17.500
6.3 ,00 5.800 6.300 - e.910
1.400
-------�
STO1’ P T I V L D. 75/LL/2S
L TL j DP1I. ’ ’Y SUQVFY U5 1Y TFO5Q IY A - p001287
EP — L S VE- AS 36 36 3.0 )93 4 45 C
iiu iTS tLt.
05 - Mt.DISCN C .
T1BE - V L I’
H -JL’44’1 CC EI( TO WAR E G1E
11E’AL S 214t204
4 )000 FEET DEPTH
30630 00625 00510 - 00611 00665 50051 50053
TE TIME )EP 1 H c 2 N 3 r3T KJEL NH —I: i S—D1S P QS—TJT LO ON0’JI
N ‘OT&L JPTHO P 4T FLCW —MGt’
DAY FEE’ MG/L ‘.IG/L MG/L 40/L P MGIL P I! ST MGO MONTHLY
75/31/29 0,9 5 9.750 3.400 r 1 .365 8.600 13.503
75/32/2b L3 DO l.92 S.000 0.080K 1.18) 3.600 0.250
75/33/3 1 13 30 5.400 0.340 - 2.400 0.250
75104/16 09 30 8.230 1.7Q0 C.250 9.100 0.250
75/04/29 30 7.800 2.900 0.280 8.900 9. 0u 0.25”
75 05/’15 Ii 30 14.000 0.210 11.000 0.250
75/0b/ 3 14 10 5.900 4.600 0.190 5.8C3 7.10C
75/36I1’ 10 45 5.900 10.000 1.250 7.900 9.200
75/07/01 10 40 9.250 6.900 - 0.890 7.300 8.500
75/07/31 13 30 5.600 10.000 2.880 4.400 5.200
-------�
ST0 T ET iV .L J 4 )i’11/26
NA.. EU’ T° 41C J’. !’ SLJ VEY
PA— LAS vE; S
3515A 1
36 35 60.0 093 18 3 .0
H1TE I.E
35 7.5 ABL P (
J/TABLE SOCK srs
T L ROC< D M SPILLWL Y 6 M I SW O ANS
L IEPALCS 21U204
ooon FEET DEPTH
00630
)t)625
0061C
30671
00665
DATE I JE I1
‘ 2&’i03 -
T3T KJ L
*i3—N
PHD 5—01 S
PHOS—TOt
SJM
N_T TAI
N
TOTAL
J THO
P IJAY
FE5 -
MG/L
MG/I
MG/I
MG#’L P
MG/L P
74/09/14 19
30
0.440
0.-300
0.015
0.015
0.015
74/j3/ )6 1)
5C
1.76’)
1.400
0.040
0.015
0.020
74/11/03 12
‘5
0.416
0.900
0.070
0.020
0.020
74/12/08 11
0.212
1.000
0.05.5
0.007
0.010K
75/01/) U
15
3.451
0.400
0.021
0.017
0.320
75/02/09 13
oo
0.432
1.1CO
0.032
0.016
0.016
75/03/02 11
00
0.416
-0.900
0.028
0.005
0.02
75/04/06 11
30
).450
0.525
fl.005
0.010
0.015
75/04/19 11
30
0.520
1.500
0.035
0.012
0.020
75/05/04 12
20
0.510
1.000
0.035
0.010
0.020
75/05/0312
00
0.81’)
1.250
0.075
0.022
75/05/18 12
45
0.750
1.850
0.040
0.020
0.020
75/fl7/0l 13
54
0.050
0.020
T5/08117 12
55
0.790
0.650
0.025
0.015
-0.030
-------�
5T0 ET T EV4L CArE T /11i23
l TL jTQOPHICA !0N S’J VEY 05 15 A2
A— L. S VEGAS 36 26 55.0 093 49 20.)
4HITE -
05 7.5 BEAVER
T/T. 3LE 0CK ES
B D 1 62 2.5 M I - NE B AvEF LAKE DAM
LIEP4LES 2 1 1 12 (4
4 0000 FEET DEPTH
00630 00625 00610 00671 O066
DAZE 1! M ‘ TH N”2 N13 T T KJEI NH3—N PHOS—DIS PHOS—T3T
N—TOTAL N TCTAL ORTHO
T( 4Y FEET MGIL MG/I - MG /L MG/I P MG/I P
7 ,/09/L4 13 15 0.410 1.100 0.025 0.005K 0.340
74/10/06 11 30 0.464 0.800 0.025 0.005K 0.010
74/11/03 13 30 O.24C’ 0.700 0.080 0.010 3.010
75/011)5 13 30 0.130 0.700 0.290 0.008k 0.010K
T /)2I0c 12 30 0.168 2.200 0.048 0.O08 ( 0.010K
75/03/02 12 3 0.152 -1.1O0 0.028 0.008K 0.01.0
75/)4/)6 0.190 0.950 0.080 0.005K 0.030
75/05/03 11 30 0.190 0.700 0.010 0.005K 0.010K
75/05/18 16 20 0.175 0.350 0.020 0.005K 0.010K
75/06/08 13 00 0.220 0.300 0.060 0.005K 0.010K
75/06/21 05 3’ .3L0 0.0 15 0.0C5
75/08/ 17 14 00 D.280 0.750 0. O ’sC 0.005K 0.010
-------�
STO T iEVt L DA 7 ,/L1/2 j
TL EJT )P1Ir ION SLJ VEY
EPA— LAS V G’
051581
36 31 55.0 093 27 45.0
LI I )i:
05 STCNr C’JUNTY
T/T 3LE 0CK ES
BRDJ 5T F 4WY 8 2.5 ‘! w HWY 13
L1E 4L S 2111204
4 0000 FEET 1EPT
00630
00625
0061C
00671
00665
( TE
“I
E? -i
02 N03
T31 KJ 1
-f H3—
H0S—0TS
H0S—T)T
F 3?i
1C
“-T:)T 1
‘N ‘
TOTAL
TI1C
I)
Di -Y
MG/L
MG/L
MG/L
MG L P
MG/L P
74109/14
74/10/36
18 !5
09 47
0.70’)
0.790
0.850
O. 0O
0.005K
0.045
3.005
‘0.005
0.005
74/11/03
10 35
0.448
0.800
0.025
0.030
0.035
74/12/08
10 12
0.432
1.100
0.035
0.010
0.010
75/01/0
10 17
0.531
0.400
0.032
0.010
0.010
75/02/fl9
11 25
.61(
0,550
0.02’i
0.008K
0 , 3 10K
75/03/02
10 )5
.540
0.450
0.020
0.005
0.310
75/04/06
10 00
0.630
0.650
0.060
0.010
0.010
75/04/19
1035
0.620
1.600
0.025
0.010
0.U10
75/05/04
11 20
0.510
1.950
0.015
0.010
0.310
75/05/08
14 00
1.600
1.200
0.055
0.021
75/05/18
11 50
0.900
1.150
0.020
0.010
0.010
75/07/01
13 02
0.06C
0.005
75/05/17
12 06
0.820
0.400
0.020
0.010
0.015
-------�
ST1) E7 1; iEvAL D& 7 ,I11i? i
N L EJT 0PH1CATIfl1 U VFY 0515C1
° — L-’S VE S 36 47 40.0 093 25 20.0
A 1LEY C EK
03 7.5 G LENA 0
T/T BL POCK ES
2P 0 Y °.D DG 2 M I i HWY 13-JC’
11E L!S 2111204
4 0000 5ET OSPTH
0630 00625 00610 00671 00665
T1J1 l1 NC J03 7)T KJEL. !‘ H3— 4 PHS—OIS Pr4OS—TOT
10TAL TH )
Dt Y FF T MG/L MG/L MG/ I . MG/L P MG/I. P
74/09/15 10 30 1.160 0.900 0.015 0.015 0.315
74/10/05 09 50 1.240 0.500 0.155 0.005 0.305
74/11/02 10 00 2.363 0.550 0.035 0.005 0.012
14/12/07 10 25 1.170 1.600 0.020 0.010 0.010
75/1)11)4 l’ 1’) I. 6 3.400 0.032 0.025 0.360
75/02/08 10 30 [ .000 0.200 0.01,0 0.008K 0.010
75/03/08 10 - 5 0.9 5 0.550 0.030 0.005 0.010K
75/04/05 09 15 0.860 0.050 0.015 0.010 0. I10
75/04 19 09 30 0.760 1.800 0.01 0.010 0,010
12 00 1.35:) 0.750 0.010 0’.015 0.030
75/05/03 09 25 0.55. 1.700 0.025 0.010 0.010
15/05/17 09 0.560 0.500 0.050 O 009 0.010K
75/06/07 09 ‘0 0.77 0.925 0.020 0.010 0.020
75/’07F13 08 55 0.600 0.015 0.005
75/08/09 10 10 0.760 0.500 0.440 0.010 0.020
-------�
ST1 E 1 ET ! VAI ‘
M.t’L U vEY 351501
P - L VE 3 i8 20.0 093 27 35.0
j4 4 5 .T
.35 7.5 3ALE IA C
T/T4 1E ROCK PFS
R0G ) - WY 64 .1 M I W !-‘WY 13 J’T
L1E’ L S 2111204
4 000’) FEET OEPTH
00630 ‘)0625 00610 1 67l 30665
O TE T ; F T i N .J2aP403 Tfl KJFL P:H3—P P-l S—0I 5 P’ICS—tOT
OJM fl N_TOTAL TO L CJ THO
TO D Y ET MG/I MG/I MG/I MG/I P MG/I P
74109/15 11 •00 1.820 0.700 0.010 0.420 0..20
74/10/05 1) I 1.920 1.500 0.045 0.375 0.390
74/11/02 10 1 1.920 1.100 0.138 0.26b 0.260
74/12/07 1) 35 2.330 2.200 0.080 0.210 0.235
75/)114 IC 17 2.001 5.400 0.400 0.080 0.096
75/02/08 10 15 1.450 0.400 0.0 0.104 0.110
75/33 1 ’S U 10 2.20C i.ic’ 0.175 0.135 0.140
75/04/05 09 3C) 2.000 1.900 0.085 0.080 0.080
75/04/19 09 45 1.900 1.550 0.050 0.165 0.170
75/05/03 19 40 1.350 ‘C.450 O.085 0.090 0.090
75/05/17 09 35 1.570 1.250 C.230 0.220 0.230
75/06/07 09 5 2.000 1.750 0.055 0.290 0.320
75/07/13 09 05 0.025 0.460
75/08/09 10 25 1.285 C.950 0.035 0.’.90 0.520
-------�
ST0°ET ’R!EV L 75/11/28
• TL EJTPGP4TCAT tVJ SUQVEY 35L5E1
EPA- LAS VE AS 36 -.5 30.0 093 34 15.0
FLAT
35 15 -UP 4
T/TA3LE 0C ( RES
FIRST OF BARRY
11E°AL S 2111204
4 0003 FEET DEPTH
00630 00625 00610 30671 00665
DATE TI4 E T I 02 M 3 TO KJ L NH3—N 4O5—DTS PHCS—TOT
N TOTAL OPTH.r)
TO DAY M0/L MG/L MG7L Md/I P MG/L P
74/09115 12 10 1.)1 1.200 0.020 0.010 0.015
74110/05 10 45 1.080 2.500 0.030 0.010 0.010
74/11/02 11 00 L.00 1.300 0.035 0.01 0.015
74/12/07 11 05 0.990 1.900 0.010 0.010 0.010
75/01/04 10 5 1.160 2.900 0.248 3.u15 0.100
15/02/08 12 5 2.100 1.100 0.032 3.016 0.016
75/03f0 11 45 1.200 C.950 0.045 0.015 0.015
75/04/05 10 40 1.050 2.300 0.360 0.015 - 0.020
75/34/19 11 00 1.000 1.650 0.030 0.010 0.010
75/05/03 11 35 0.850 1.650 0.025 0.011 0.030
75/05/17 10 15 0.790 1.200 0.060 ‘3.010 0.0IU
?5/06/07A1 15 1.000 -0.850 0.040 0.020 0.030
75/07/13 10 30 1.800 0.020 0.010
75/08/09 11 45 1.640 0.450 0.085 .U15 0.315
-------�
ST0 ET 7SIIifld
ATI EJ PH! F” SURVEY
p — i Vi:; . s
- 0515 1
36 36 10.0 93 42 05.0
R 3CK E_
05 - 15 SHELL K”403
T/T 6LE PIfK P. $
8NK 3.2 ! FFOfr RDC, P.1 HWY 39 C’OW STcE
11 P. LrS 2111204
4 0000 FEET DEPTH
•
00630
00629
0061C
00671
00665
1 TC
TT ? C3
137 KJEL
£‘ H3— l
Ph S—D!S
PHOS—TJT
C ’M
;i
‘ 1— T TAI
r i
Tr L
IRTHC
fl
DbY
E T
GfL
MG/I
MG/L
‘.G/L P
MG/I P
74/09/14
11
3.184
0.900
‘.OO5
0.005K
0.055-
74/10/06
13 1•5
0.343
0.800
0.04C
0.005K
3.305K
74/11/03
16 3fl
0.112
1.000
0.045
0.015
0.030
74/12/08
0.1 25
0.048
1.000
0.020
0.005K
0.010K
75/C 1/35
‘•c 2fl
).143
0.400
0.015
0.005
0.310K
75/02/09
10 30
3.032
1.100
0.032
0.008K
0.010K
75/’)3/32
09 !5
3.055
0.750
0.025
0.005K
0.310K
75/04/06
09 20
0.020
.0.400
0.005
0.310K
75/04/19
09 5
0.015
0.550
0.195
0.005
0.010K
75/05/04
13 0
0.005
2.400
0.015
0.005K
0.010K
75/05/18
11 05
0.010
1.900
0.025
0.005K
0.010K
75/06/08
10 29
1.020
0.400
o.p2 0
0.005K
0.010K
75/07/13
12 16
0.550
0.145
0.005
75/08/17
11 22
0.075
0.400
0.025
0.005
0.017
-------�
3515 1
36 33 05.0093 45 29.0
)A I 1G- lvE
05. 5 C SSVTLL
T/T. .8LE ROCK ES
3 D •]‘J HWY 86 1 I
11 EP LES
sii; ‘; 7: 0 t 13/11/2d
. TI EUT 0P-i1 V!0 SU V5Y
D — LAS
S hWY F JC’
211120’
0000 FEET - ‘.EPtH
0CTh30
00625
00610
-
D! F 1P4C
r: l•h
r)Fj 3
TT KJEI
M13—N
P-iOS—D! S
Pu CS—TO.
— ‘T. L
N
T’ TAL
cTi1O
P
TO 0 Y
F T
MG/I
MG/I
G/1
MG/I P
MG/I
74/09/14 11 OC
1.160
1.000
0.020
0.010
0.335
74/1O/0 09 0
74/11/33 13 3
1.280
3 .3fl4
1.100
1.600
0.025
0.050
0.010
0.075
0.120
74/12/08 10 30
1.040
0.900
0.010
0.005
O. 2G
75/01/05 IL 00
0.949
0.600
0.012
0.015
75/02/09 c) 50
1.010
0.400
0.024
0.008
0.010(
75/03/’)2 13 30
0.835
0.500
p.012
0.008
0.020
75/04/06 Ii 00
1.150
1.350
0.005
0.015
75/04/19 12 “
0.200
1.050
0.025
0.005K
0.DlOt(
75/05/04 10 40
0.660
1.850
0.020
0.010
0.010
75/05/18 15 00
0.980
1.300
0.080
0.011
0.011
75/06/08 12 00
1.400
1.200
0.035
0.015
0.320
75/06/2608 00
0.500
0.080
0.015
5/08/L7 13 Ys
1.640
C.250
C.020
0.015
0.317
-------�
5 ET cT f !V .L ?)(1LfZc
I TI EJTPCP C !’T E SURVEY
EP*— LAS VE’4
05L5H1 —
36 28 35.0 093 47 40.0
UTLE . K
05 7. E VE
T/T LE 0CK ES
BMK 50 F’ W C BRDG 3.. M! W ‘) SE VF
11E 3 LES 21t120 t
0000 F ’ DEPTH
;
To
T l ‘)F >TH
n:.v F ’
00610
NH 3—N .-
rDTAL
MG / I
00671
PHC S—Cl S
OP THO
MG/I p
006 b 5
‘H3S—TJT
hG/I P
00630
- ‘r &N.L)3
4_T0 T II- ..
1.040
0.384
0.208
0. 156
0.288
0.208
‘ .j55
o • 075
0.070
0. 100
0.160
74/09/lW L’t 1
74/ .0/06 13 ‘00
74/L1 ’G3 13 30
75/01/05 14 00
75/’. 2/ c
75/03/02 I I 0
75/04/06 13 0’?
75/04/19 14 30
75/05/03 ii 30
75/05/18 16
75/06/38 13 30
75/06/26 10 00
00625
TOT KJEL
MG/L
0 • 200
1.600
• 600
0 • 300
C. 200
0.400
0 • 00
0.450
0.950
0.55k)
0.600
0.010
0.005K
U. 15
0.025
0.005K
0.305
0.085
0.015
0. 17
0.008
0.0 ,10K
0.0 6
0.008K
0.310K
0.012
0.008K
0.U IOK
0.271
0.010
0.010
0.035
0.020
0.320
0.035
0.005
0.010K
0.025
0.005
0.010K
0.010
0.005
0.010K
0.015
0.005
-------�
SrO E ET T v L • -\ i 75/11/23
‘ .TL EUT G°-l1C T1N yr y - 3515J1
C A 14S VE3 36 25 37.0 093 37 20.0
i: ;s ‘1VE
35 -.5 C.PANOVt W
T/T. 3L O I( E5
6 DG 1WY 143 3 M l M I-l 4Y 62 JCT
11EPALE 2111204
4 1 3000 E T OEPTH
3630 00625 00610 00671 00665
DA T E T1 D P7H O2&N:’3 T)T (JiEI NH3—N PH S—0I S PHCS—T0T
r. ’)M C N—TITAL N TflT L.’ ‘ THO
TO DAY M 3fL G/L MG/L MG/L P MG/L P
14/fl9 14 15 15 0.26( 0.300 0.020 0.035 0.050
74/11/03 09 15 0.368 2.500 0.065 0.060
74/12/JR 10 1.) 0.304 1.200 0.020 0.010 0.320
75/01/05 10 20 h31 0.650 0.001 0.012 0.015
75/D2/09 09 3 .44E l. )0fl 0.024 0.016 0.316
75/03/02 10 15 0.504 1.200 0.031 0.008 0.320
75/04/07 1 00 0.360 0.750 0.035 0.020
75/04/19 09 25 0.175 0.800 0.150 0.025 3.040
75/05/04 10 30 0.095 2.700 0.045 0.015 0.030
75/05/18 10 45 1.135 0.750 0.025 0.020 0.035
75/36/08 13 15 ).23 1.250 0.035 0.065 0.100
75/07/07 11 30 0.060 0.500 0.037 0.052 0.102
75/08/17 09 55 0.245 0.60) 0.045 0 270 0.355
-------�
STOPETEf 1 V L E 75/1.I/2
1ATL EUT PI I!CArT N u; -v v -
EPA— LAS VEG E
3515 1(1
36 24 27.’ ) 093 13 22.0
L0 ; : E
05 7.5 E VE -
T/T. 5L POCK
2ND Y CD DG 1.75 I
11E LES
4
5E HWY 311 JCT
-2111204
QOCO FEET DEPTH
063D
00625
00610
00671
00 6D 5
0J ;E
1M
) P H
£ G2CN33\
T JT KJFL
P013—N
PHZ’S—01S
PIIQS—TjT
,M
C
N—T.VAL
N
TC.T! L -
3PTH0
T ’
DAY
FE T
‘IG/L
“G/L
MG/L
MG/I P
MG/I P
74/09/14
16 20
0.94Q
0.300
0.020
0.005
0.340
74/10/1)6
12 t5
1.160
C,j O O
0.017
J.005K
9.011:
74/11/03
11 30
0.820
2.000
0.110
‘0.030
74/12/08
11 30
0.830
0.500
0.020
0.015
0.040
75/’ 1/J5
ii 40 -
). 95
0. ’ 50
0.038 - 0.016
0.316
75,02/Oc,
10 45
1.150
0.600
0.024
0.016
0.016
75/03/32
11 35
1.15’s
0.600
0.025
0.016
0.020
75/04/07
14 35
0.730
1.500
0.130
0.015
0.040
75/04/19
11 0
0.650
0.450
0.160
0.010
0.340
75/05/34
12 30
0.4 0
0.750
0.010
0.005
0.310
75/05/18
14 30
0.175
0.300
1.500
- 1.750
0.035
0.035
0.010
0.005
0.020
0.010
75/07/07
2 45
0.030
0.035
0.005
75/08/17
11 10
0.010
1.125
0.045
0.005
0.040
-------�
05151 1
36 2740.0 093 21 25.0
Y J’4 F_
05 7.5 EMVES
T/r LE POC’c ES
AT C0 EE LT
LIE’ ES
4
S 0 ’ 1RNVAL DAr 1 F t5i1LF2d
N T1 JT cp,.ITrAyTnN SURVEY
E A— LAS VE .S
OTY 4 ‘ MW DENVER
2111204
0000 FEE” DEPTH
0063
00625
00610
067I
00665
D TF
TI’i
‘1-s
02 N03
TOT I JEL
NH3—N
PLIOS_DIS
PH0S—TJT
F 3’
0
i—T)TAL
N
T TAL
TH
.
DAY
MG/L
MG/I
MG/I
MG/I P
MG/I P
74/09/14
1630
1.760
0.100
0.010
0.015
0.320
74/10/06
11 30
1.760
1.200
C.030
0.020
0.020
74/11/03
10 30
0.040
0.800
0.345
0.040
74/12/0
11 00
1.520
0. 00
0.045
0.015
0.015
75/01/05
II 10
1.515
0.900
0.010
0.015
75/02/.
10 25
1.720
C.7C O
0.024
0.016
0. O lb
75/031)2
11 20
1.820’
0.300
0.01
0.019
0.020
75/04/07
1225
1.650
0.900
0.035
0.020
0.020
75/04/15
13 ‘
1.570
1.050
0.020
0.015
0.015
75/05/04
11 15
1.300
1.700
0.025
0.010
0.010
75/05/18
10 31
1.500
1.950
0.035
0.015
0.315
75/07/07
12 00
0.020
0.015
75/08/17
10 3E
.
1.350
0.312
0.020
0.020
1.030
-------�
Sy REr CT. .LV L D. S ‘7 /L1/26
,
MATL ‘JT? ’P iC T!jN
tJ V V
D515 LS35 5W
P100000*
EPtI— LAS V:j
.
37 33 093 22 30.0
s i; r:o Sw
29 7.5 SO !kGF EL0
T/G cE ’S °ES.
Wt L53 I : ‘F K.
1lE’AL S 2141204
4 0000 FEET
DEPTH.
.
30630
30625
00610
) 06r1
00665 50051 50053
TI.4 OT.1
‘ 02 J)3
KJEL
Pv 13S—DI5
PHCS—TGT FLOW -C0’lDU1
-
.4—T,i1H&L
‘I.
TOT6L
0 Tii0
PA”E L0W—MGD
T3 FEE’
“GIL
MG/L
MG/L
MG/I P
MGIL P INST MOD M0 THLY
74/11/30
18.400 35.300
74/12f30 24 30
Q3.700 22.100
C IT)_
74/12/31 24 00
75/01/30 ?4 30
C°( )—
0.960
1.500
0.320
3.120
3.30u 67.500 25.000
75/31/31 24 00
75/02/27 24 30
‘
,
CP(Ti—
4.b43
4.000
0.3RD
2.800
3.230 55.200 36.100
75/02/26 24 30
75/03/30 2L. 00
.
CP(fl—
1.760
14.000
0.080
1.500
4.230 39.100 49.200
75/03/31 24 00
75/04/29 24 00
.
CP(T)—.
75/04/30 24 00
0.050
12. 00
0. 250
4.500
.
5.800 31.600 26.91C
75/05/13 24 00
C°(TP—
0.050
21.000
3.400
3.300
8.100 19.400 26.900
75/05/14 24 00
.
75/05/30 24 00
.
.
C°(T)—
0.050
14.003
2.100
6.300
6.900 19.200 23.400-
75/05/31 24 33
.
.
75/0 /l5 24 00
.
.
CP(T)—
0.100
16.000
3.800
- 2.400
7.830 24.800 23.400
75/06/La 24 00
75/0 /29 24 00
.
.
.
CP()—
0.200
18.500
3.500
4.800
6.600 20.800 26.200
75/06/30 2’. 00
,
75/0,7/19 24 00
,
CP( ’ ),—
0.025
15.500
4.700
8.200
9.100 13.300 26.200
‘75/07/20 24 00
75/07/30 24 00
.‘
.
—
CP(T — ,
75/07/31 24 00
0.050
25.000
‘ 6.600
6.300
7.400 15.700 16.100
.
75/08/14 24 30
-
CP Tr—
75/08/ 15 24 00
15.400 16.1’0
-------�
ST7 7 S1 1 v t 75/11/20
NC TL EUT DP-UCA 7 t1N cU V!Y
A— LAS VEGAS
0515XA TF O5 I5XA P001700
36 25 00.0 093 44 00.0
EU EK. S DIGS
05 CAR CL fl H P
T/TASLEWK.. PESFRVOI,Q
LEATHE D CREEK
UEPALES 214120k
4 — 0000 FEET DEPTH
00630
00625
00610
00671
00665
CO51
50053
TE
7 1
JE H
\1 2 IJ3
T)T KJEL
NH3—N
PJIOS—D! S
PHQS—T3T
FLOW
:oMDu!T
cIM
0
OF
DAY
EE?
— flT4L
MG/L
‘
MG/I
j--TOTAL
MG/I
ORTHr)
MG/I P
MG/I P
QATE
! S MGD
FLOW—MGD
MONTHLY
74/10/31
07 30
CP(T)_
4.OOi
2.200
0.110
1.400 -
1.450
0.560
0.290
74/10/31
16 30
75/01/25
4.1.30
-7.000.
0.072
2.200
3.500
0.393
0.393
75/021 17
4. 16
b.I00
0.150
1.680
2.230
0.040
0.05
15/03/17
08 00
CD()—
4.003
1.000
0.080K
1.280
1.800
0.331
0.300
75/03117
17 00
75/04/15
15 00
0.400
4.300
0.080K
3.500
0.275
0.275
75/04/29
09 00
CP(T)
0.050
9.400
0.088
1.850
3.500
0.235
0.235
75/04/29
16 00
75/05/08
14 07
4.900
1.900
-0.150
1.650
1.900
0.078
0.078
75/05 30
13 30
5.603
2.400
0.100.
2.500
2.430
0.012
0.085
75/07115
10 00
5.000
15.000
3.850
4.350
5.250
0.332
0.332
75/08/07
08 33
-
r
CP(T)—
6.700
11.500
0.355
5.350
6.500
0.446
0.332
75/08 07
15 30
-------�
ST0 1 T C 7.i lyA1 ).8T 7-5/11/28
IATL EuT Pu -4! Tj SU V Y
E°A— L S
00630 D0625 00610
‘ AT ;I-4 ‘ O2& t03 T’T KJEt. 13—N
051 Y TFI)515VA P00 130O
36 13 30.0 093 25 55.0
EE’I
05 ‘C .0L C3 MAP
T1T ’BLE .I)CK E5EV01
D Y CREEK
I IE’ALES 2141204
4 0000 FEET DEPTH
006b5
00671
F ( .I
T C
74/11/01
CPIT )—
74/11/01
75/01/28
C 0(T)—
75/01/28
75/02/28
CP(T 1—
75/02/29
75/04/16
rp(T )—
75/04/16
75/04/30
C
75/04/ 30
75/05/15
CP(T)—
75/05115
75/05/30
p ii: —
75/05/30
75/06/ If)
CP(T)—
75/06/16
75/06/30
CPU)—
75/06/30
75 / 07/ 15
75107/15
75/07/30
C ( T )—
r.
09 13
14
08 30
11 )
10 30
14 31
08 3’)
14 ! )
08 3)
14 )0
08 00
14 00
08 00
14 00
11 00
15 0)
08 30
l 00
09 00
14 0)
09 0)
“ —T ‘ T AL
‘10/I
3.520
0 • 080
1.600
10. 500
8.000
2.500
10.00’)
11.500
16.000
6.30’)
7.800
N
G/ I:
11. 500
8 • 400
11.000
13 • 500
5.900
1 o • 500
21 .000
4.400
6.100
4.250
6.800
TOTAL
MG/I
0.790
4 .685
0.690
1 .950
0.640
4.400
o • 210
0 • I) SC K
0.270
0.230
o • 081
P105-DIS PHOS—TJT FLOW
3 THr PATF
HG/I 0 INST MGI)
1.930 1,000
2.400 0.860
1.760 1.200
3.300- 0.750
3.300 1.100
3.400 1.020
5.600 0.956
4.300 0.982
4.503 0.900
2.900 1.000
2.400 0.600
MG/I P
2.401 ,
4. I8(j
2.200
4.500
4.300
3.6U0
7.500
4.300
4.700
3. 00
2. 130
5005l 50053
C DM00 IT
FLOW—MGI)
MON HLY
0.750
1.000.
0.603
1.000
0. 866
0.970
0.832
0.895
1. 200
0.830
0. 840
75/07/-30 14 4 )
75/09/03 09 30
CP( TI— -
7SI.1CI’ it. 11
5.600
4.600- 0.860 2.600 2.900
1.000 Q 37C
-------�
TD T E1’ I VAL ‘DAT-F 15/il/28
T1 PH!CA’!C 4, SIP VEY
‘.AS VEG S
Q5j5 A TF O5 I5IA P003000*
$6 .?2 05.0 093 35 00.0
BER1YVtL
05 CA POL CO M P
T/T).E1LE OCI( cESE v0t
3S* E C F K TC K.INGS IVER
11 ?ALES 2141204
4 0000 Ff ET 0E°TH
‘ D63 -
00625
00610 00611
- p Cs—oI S ’
00665
- 50051
-
50053
/ TI IC ri )T’j
; 2&NC3
T-T KJEI
P 0S—r3i
FLOW
CONDUIT
FL ;M r c
—TrAL
N
T0T. L
‘HO
PATE
Low—MGr
r. DAY
iG/L
MG/I
MG/I
MG/I P
MG/I P
IMST MGD
MONTHLY
74/11/06 11
00
‘
- -
CP(’)—
3.68()
3.600
0.170
2.500
2.500
1.000-
0.8C(
74/11106 ib
10’
-
.
75/01/09 11
00
CPIT)_
3.3 -0
15.000
0.530
4.300
4.300
1.300
75/01/Oc 16
75/02/11 11
00
CP(T)—
2.400
1.000K
1.280
4.500
4.500
1.000
1.040
75/02/li 16
10
75/03/13 11
00
‘
-
rP(T)—
1.120
8.550
0.050K
2.080
2.850
2.000
1.500
75/03/13 15
3
75/04/ 15 11
00
CP(TJ—
‘.300
8.400
(‘.310
6.400
6.400
1.000 1.500
75/04/15 15
0
-
75/05/02 11
00
CP(T)—
5.000
6.800
0.140
5.400
5.930
1.300
1.250
75/05/02 15
0’)
‘
75/05/16 11-
00
ro(T,_
2.500
22.000
4.OOC
8.000
- 8.700
1.000
75/05/16 15
0’)
,
75/06/02 11
(3’)
-
8.500
.
4.700
0.200
.
11.000
11.000.
1.200
1.060
75/06/02 15
‘ 33
-
75/06116 11
30
-
rPV)_
4.100
11.000
1.900
2.100
9.700
1.100
1.000
75/06/16 15
‘fl
75/01/0l’ll
CP(’I—
00-
5
5.800
.
8.6Q
(‘.275
-
7.50 0
7.700
( ‘.900
- 1.030
75/07/01 15
00
S
.
-
75/07/14 [ 1
00
(PET)—
5.800
8.100
(.075
8.900
8.900
1.000
1.040
75/07/14 16
-30
-
75/07/31 11
‘30
•
S
(P Ci )—
7.150
10.500
11.000
1.050
0.9-30
75/01/31 15
00
5.400 23.000
-------�
ST ET ‘ ETR1 /AL )ATE 77/02/24
/TY/AMdNT/ciT FAM
- 2904Ai
36 39 31.0 093 07 22.0 4
W iITE RIVER
29 7. Fi)PS rT-i
0/LAPcE TANEYCOMO ‘ 1005 1
BANK SAMPLE BELOW LLARPc BEACH DAM
1lE LES 0400130’.
0030 FEET DEPTH CLASS 00
- 00b30
00625
00610
0o671
00665
DATE
- FPOM
TIME
OF
DEPT.
NO2 NO3-
N—TOTAL
TOT KJEL
-N
Nh3—N
TOTAL
PriOS—DIS
OPTHO
PHOS—TOT
TO
OAY
FEET
MG/L .
MG/L
M6/L
MG/L P
MG/L
74/09/1411
00
.294
1.400
0.025
0.005K
0.030
74/10/05
1400
0.336
1.000
.04S
0.005K
0.015
74/11/02
1! 40
0.224
2.000
0.240
0.005K
0.010K
74/12/07
10 52
0.192
1.000
.0.050
0.005
0.020
75/01/04
12 30
0.368
1.300
0.032
0.012
0.020
75/32/0
12 30
0.416
1.100
0.024
3.008
0.010
75/03/08
12 30
0.384
0.300
0.032
0.008K
0.020
75/04/05
13 00
0.390
1.450
0.155
0.005K
0.030
75/34/19
75/05/03
11 30
13 0
0.490
0.520
Q.6 00
0.900
(,.375
0,025
0.010
0.005
0.020.
0.020
75/06/07
1,1 00
0.500
1.250
0.055
0.015
0.030
.
11 30
0.520
0.450
0.025
0.005
0.010
75/07/13
11 30
0.390
0.850
0.030
0.005
0.030
75/38/09
11 30
.
0.370
1.000
0.055
0.005
0.050
tc VALUE KNOwN TO 8E
LESS THAN INDIC4TED
-------�
‘..T> ET 9ET EVAL DATE 771(2/24
K VALUE r N0W•\ 10 Bc::
LESS THAN INDICkTEt)
/1 VP A/ A MBN I / I E A
DATE
FR OH
TO
TI E DEPTH
OF -
i:i Y FEET
063C
00b2 5
0)610
00671
NO2 NO3
TOT KJEL
Nh3—N
PriOS—DIS
N—TL’TAL
N
TOTAL
JRTrIO
MG/L
MG/L
MG/L
MG/L P
74/09/1’. 1’. 1?
7 /10/05 13 3fl
74/11/02 12 30
74/12/07 10 45
75/01/0’ 11 fl’
75/0. /08 11 46
75/03/08 1? 38
75/04/05 12 31
75/04/19 12 27
75/05/03 12 35
75/05/17 13 15
75/06/07 12 30
75/07/13 12 25
75/08/09 13 05
(,.‘ 5O
3.432
L .3O4
0.224
O.40 4
J .416
3.420
0.525
0.610
0,700
0.840
0.780
0.810
2’u . 2 -
36 35 43.0 oc i 33.0 4
wtiIT 1VE
29 7. -a TA,LE - OC’( 0
T/L.A E TA EYCOMO 100591
SAMPLE BELOW IA8LE ROCK OAM
11EPALES 04001004
0000 FEET DE T CLASS 00
0i 665
PHOS—TOT
MG/L
0.025
0.025
0.020.
0.020
0.020
0.0 IC)
0.0 20
0.02)
0.020
0.0 20
0.020
0.0 ?0
0.0 0
0.900
1.700
0.500
i.ióo
1.500
0.50 0
1 .000
0.500.
.0.30 0
0.050
0.450
0.150
0.750
0.700
0.020
0.0 50
0.06C
0.05c
0.03
0 .00k
0.03
O.02(
0 0 4(
0.0 ) - c
0.02’
0.020
0.040
0.315
3.015
0.020
0.010
1.012
0.008
‘1.008K
0.005 <
0.010
0.010
p.015
0.0 20
0.015
0.015
-------�
s o T i TP Ev L DATE’ 77/02/24
290 ’. 1
36 30 03.0 093 14 05.0 4
ROARK CREEK
29 7.5 ANSON
1/LAKE TANEYCOMO 100591
B i G O? LGhT OTY RD .5 M l N* OF 8 ANSO J
/TYPA/ANT/ST EA I 1EF ALES 0400100k
0’)0’) FEET OE T-1 CLASS ‘)O
- 00630 00625 -, 00610 Ô067 1 00665
DATE IDlE OEPT NO2 N03 TOT KJEL N l3—N PHOS—DIS PHOS—TOT
FROM OF N—TOTAL N TOTAL ORTiIO
TO DAY FEET MG/L MG/L Mc,/L MG/L P MG/L
74/09/14 13 00 0.076 0.’.00 0.305 0.005K 0.010
74/10/05 14 lo 0.072 0.900 0.030 0.005K’ 0.005K
74/11/0? 13. 15 u.168 0.200 0.010 0.005K 0,010K
74/12/07 11 35 .272 1.400 0.015 0.O05 0.010K
75/01/04 1? 00 0.200 1.300 .276 0.005K 0.010K
75/o /oFl 12 ?O ).176 0.500 0.040 0.008K 0.010K
75/u3/08 ’ 13 06 0.192 0.150 0.024 0.008K 0.010K
75/04/05 12 45 3.175 0.550 0.012 0,005K 0.010
75/04/19 13 10 0.070 0.275 0.015 0.005 0.010
75/05/03 13 17 0.040, 0.250 0.010 0.005K 0.010
75/05/17 15 40 0.045 0.600 0.020 O.0051c 0.010K
75/u6/07 13 00 0.135 0.250 0.030 3.005 0.010K
75/07/1 ) 13 00 0.220 0.650 0.015 0.005 0.010K
75/Od/09 13 35 0.190 0.100 0.025 Ô.005K 0.020
K VALUE KHOWN tO E
LESS THAN INDICATED
-------�
STO ET ET IEVAL DATE 7’7/:) /2’4
29 0 4 C1
36 43 05.0 A93 12 22.0 4
BULL C EEr -
2 ? 7. ANSO J
1/LAKE TANEYCOMO -A00591
th OG ON ‘ Y F 5.6 MI N OF BRANSON
/TYPA/AP NT/STREAM 1 IEPALES - 06001004.
0000 FEET UEPT 1 CLASS 00
006)0 00625 00610 00671 00665
DATE- TIME OEPTrI N02 NO3 TOT KUEL NtI3N PHOSDIS PHOS—TOT
FROM OF N—TOTAL N TOTAL ORTHO
TO JAY ‘ FEET M6/L MG/L MG/L MG/L P MG/L P
74/O9/1 11 30 o. 550 0.500 0.010- 0.005 1 < 0.0051<
74/10/05 13 20 0.448 0.700 0.095 0.0051< 0.0051<
74/11/02 10 30- 0.672 0.400 0.020 0.0051< 0.0101<
74/12/07 11 45 0.520 0.950 0.010 0.005 0.0101<
75/01/04 11 15 0.630 2.800 0.044 0.010 0.010
75/02/0t 10 15 0.624 0.900 0.016 0.0081< 0.0101<
75/03/08 10 15 0.840 0.600 0.120 0.0081< 0.0101<
75/04/05 10 i. s 0.630 0.500 0.025 0.0051< 0.010
75/04/19 10 15 0.430 0.500 0.015 0.010 0.010
75/05/03 10 30 0.420 0.750 0.065 0.0051< 0.020
75/06/07 10 15 0.490 1.150 0.025 0.0051< 0.010
75/07/13 10 30 0.1’5 0.850 0.015 0.0051< - ).03u
75/08/09 ii 00 0.110 1.000 0.125 0.005 0.030
1< VALUE 1
-------�
STOPE’ REI EVAL ATE77/ 2/24
•2 0 ’ .J 1
36 37 27.0 b93 12 5.0 4
T’J ’ E( C EEVc
29 7. . ’riOLLIS1EP
T/L ,cE TANEYCOM.O 100591
LT OTY ‘ O B O IN TO N OF’HOLLISTEP
/TYPA/AM MT/ST AM I IEPALES C40O103’
.0000 E T D Trs CLASS 00
00630 00625 00610 00671 00665
DATE IIME OEPTr NO2i O3 TOT KJEL Nr$3—N’ PiIOS—DIS P 4OS —TOT
FROP ’i OF N—TOTAL N TOTAL ORTI-4O
TO uAY FEET MG1L MG/L MC,/L MG/L P MG/L P
74/09/14 13 30 0.200. 0.300 0.005 0.OOStc 0.005”.
74/10/05 13 0,0 0.072 1.400 0.045 0.005K 0.005K
74/11/02 13 00 0.200 o.qoo 3.110 0.005K 0.005K
74/12/07 10 10 0.368 0.800 0.030 0.005 0.010<
75/01/04 10 15 0.280 1.600 0.100 0.00ht( 0.010K
75/32/08 11 31 0.320 0.400 0.024 0.008K 0. 010K
75/03/08 12 34 0.272 0.150 0.02’. 0.008K 0.010K
75/04/05 12 31 0.220 1.400 0.015 0.005 0.010
75/04/19 12 01 0.160 0.250 0.050 0.005 0.020
75/05/03 12 03 0 045 0.625 0.180 0.005K 0.030
75/0 /07 11 40 0.150 0.8 ’S 0.090 0.005 0.020
75/37/13 11 SV) 0.060 0.300 0.085 0.005 0.01O c
75/08/09 12 30 u.065 0.850 0.375 0.070 0.110
I VALUE KNOWN TO E
LESS Ths N INDICATED
-------�
TGCtT ET !EV L DATE 77,C /24
‘ VALUE r 1OWH To 3E
LESS T 1AN D DICATEL)
29 E1
36 40 20.0 093 12 5.0 4
EE C EE’<
- 7.’, 8RAN ON
T/LLr .E T4NEYCOMO
NW 53 FT OF SEC
11E ALES -
0000- FEtTT DtPTr1
/ I •f PAl NT / ST P E AM
DATE
Of
T i)
TIME DEF’Tr4
OF
DAY FEET
006 )0
N02&N03
00625
TOT KJEL
00610
‘*13—N
00671
PHOS-DIS
PiiOSTOT
p1-TOTAL
M /L
N
MG IL
TOTAL
MG/L
Oi Tl1O
M6/L P
MG/L P
100591
RD. .5 H E riwY F JCT
0400 130
CLASS 30
7’+/0 /14
74/10/05
74/11/02
11
13
10
55
no
(10
0.040
0.056
0.048
0.400
2.300
1.400
0.005K
0.025
0.025
0.005K
0.005t<
0.005K
‘0.005K
&.OO5rC
0 ’.010K
74/12/07
12
50
0.088
1.100
‘0.015
0.005
0.010K
75/01/04
11
o
3.056
0.800
ri.112
0.005
0.010K
75/u /0d
10
00
Ci.0 56
0.600
-
0.032
0.008K
751 )3/08
10
00
0.032
0.300
0.024
0.006
0.010K
75/04/05
10
30
0.025
0.750
0.045
0.005K
0.( 20
75/04/19
75/05/03
10
10
00
00
0.020
0.005
0.800
0.350
0.170
0.035
0.005
0.005K
0.010
0.020
-------�
)TURt.T LTPiEV L 77/(z?/2’.
- ‘ fF u’.DA P020000
36 3Q 00.0- 093 13 15.0 4
2 213 7. tJ Oi i
0/LAKE T.’NEiC0 O l0.0S 1
/AMBNT/ST A 11EPALES #000103 e -
0000 FEET j&Tr, CLASS 00
00b30 00625 00610 0 671 0066 50051 50053
t)ATE TIME-DE T NO2 NO3 TOT JEL N -$3—N P iOS—DIS PhOS—TOT FLOW CO4UUIT
FROM OF 4—TOTAL N TOTAL OPTHO RATE FLOw—MGD
TO OAY FEET Mci/L MG/L MG/L MO/L r MG/L r 114St MGE) MONTHLY
74/11/22 0 3 03
cPT)— 0.56 11.000 0.240 6.100 6.800 0.b40 0.600
74/11/22 17 )3
74/12/24 10 00 o. .00 15.000 0.770 5.700 6.300 0.740 0.700
75/03/04 14 Ofl 0.080 18.000 0.080 7.903 0.390 0.440
75 .i4/1? 10 00 t .050 15.oOO 0.470 4.900 6.00 i).35U 0.300
75/06/25 3.200 20.000 6.500 7.400 0.550 0.450
75/07/25 10 50 7.350 - 2.100 ‘0.110 7.450 7.700 0.290 0.300
75/08/29 14 4.700 10.500 6.200 7.100 0.550 0.580
75/09/30 10 05 2.400 9.700 0.093 6.400 7. 00 0.312 0.400
75/10/27 13 30 0.050 10.000 0.270 9.200 9.900 0.335 0.450
75/12/01 10 00 1.025 13.000 0.250 9.150 0.576 0.500
75/12/29 15 30 0.050 17.000 1.700 8.100 111.000 0.350 0.325
76/01/2i 1 45 u.L50 17.000 p.595 7.700 10.500 0.&.12 0.400
76/02/24 1500 0.125 19.000 0.800 7.200 10.500 0.360 0.375
-------�
SC’ E t D T N/11/?d
9LT1 u T 0°9! cr:N s(J tY
.DZ— 1 S yF3 S
0534&l
36 21 52.0 092 34 3 ’.0
ruril TE z
35 -. 7•E COTTEQ
J/EJL’_ :HCa Lz, 15
F C4 SPILLWAY &T- JLL Si- 1OaLS D?
1- IE?ALS! 2111204
OflCO F!tT £ EPTH
-
30630
00625
OC6LC
00671
30665
D ”!
‘!M
D:rrl
Nracrcr3
Tr1 -KJEL
NH3—N
o.cs_rTs
PHüS—TjT
F::u
¶1
N—OTaL
N
Tr74 1
QT fl
D
0 V
=Er
‘IS/L
MG/L
MG/I
MG/I P
MG/I P
74/06/23
10
?5
0.370
0.100K
u.005
fl fl(5
0.313
74/37/20
10
3)
0.364
C.830
0,OAC’
0.005K
3.J05K
74/08/17
09
.5
0.450
O.3C0
0.005
0.0 10
0.010
74 /09/07
3.504
0.100
0.005K
0.005K
0.010
74/ 10112
3
15
:.‘co
0.1CDK
0.020
o.0e5
0.310
74/12/22
0.1 4 k
0.400
0.057
0.00S’(
0.010
75/ 01/1 9
0.232
• .3CC
5. 0 16
3.035
0.020
75/02/15
0.256
C.2C0
0.-008
0.003
0. 3 10 k
75/03/08
0.25
0.300
o.occ
Q.308K
0.320
75/ )4/06
).fl25
0.550
0.015
0.005K
0.320
T5/04/19
0.280
0.350
0.010
0.005K
0.010
75/05/03
fl.575
0.900
0.020
3.005
0.01
75/05/04
3.590
0.700
0.025
0.005K
0.3 10K
K VALUE KNOWN TO BE LESS THAN
— - IND ICATED
-------�
F’E T NV .L ‘C’ /il/23
935 EuT tDdTCfr fl( 1 c ; ry
L— L S VF3
TF
r
1 1 E flEDTH
DAY
09 20
09 15
t &
)5 4C.
36 20 1 .0 092 0 Z .0
JIM4Y
7.5 CC T E SW
T/BJLL S4O -IS
4LJ-UY UTN 9 ?a 6.5 ‘-11 k W HbAY 202 JCT
tiE 4L 2i1t2 4
4# OCICU ?EP’H
0 63O
00625
OOb l O
Y)67
09665
:2c,::
T’ KJEL’
nd-13—N
PH 5—3 ! S
Z4CS—T,T
J_T2 I
N
TOTAL
TM3
-
9 /L
‘ G/L
MG/ I .
M0/L P
MG/I P
74 106 / 23
0.,112
0.100K
0.005
0.005 K
0.305 K
74/07/20
0.016
9.40 . ’)
0.020
Q•))5K
3. 0 05K
74/i)3/j7
1. 16
‘ ).4C0
0.005
0.005
0.010
74 109/0 1
0.200
0.300
0.09C
0.005K
0.005
14/10/12
a.it ;
3.ifl
0.020
0.N 5K
.3iGK
1 4 112/22
0.024
0.100
0.025
0.035K
0.010K
75101/19
0.040
0.1 00K
0.016
0.010K
0.31€
15/02/15
3.0 16
0.ICOK
0.008K
0.008K
0.010K
75/03/08
0.032
0.050K
0.016
0.008K
0.010
75/04/06
).O2C
3. iO f l
o. rn 2
o.oioc
75/04/ic
‘ . - )15
C. ’ )50
0.005K
0.005K
0.310K
75/05/03
0.515
0.600
0.015
0.005
0.010K
K VALUE KNOWN TO BE LESS THAN
INDICATED
-------�
!‘d- L-- )i: 15/U/23
• TL U VEY
‘ — L\S
) 5)431
36 9 24. ’ ) 2 39 40,C
c: s: C EK
7.5 CrJ11 Sw
T/SJLL -3L5 ES
‘‘: RI) 3 JG ‘- 1 w ! F HWY 202 JC’
2111204
0000 FEET DEP T H
r TE
TI
•D0 30
00ô2
0 1C
00671.
00665
‘- • 2 ’3
T !T KJEL
?. H3—
PH.S—t 1S
?H0 —TJT
- -
‘ 4 _TJT L
N
.
T TAL
t TH
hj f
MG/L
MOlt.
‘lOft. P
MOlt. P
74/06123
4C
0.’44
.1C)K
0.005
).( 05i(
0.313
74/071 20
09
30
0.032
0.500
0.020
0.005K
0.005K
74/08117
12
1
0.103
0.100
0.005K
fl. )12
0.J1
74/12/22.
D.1 6
C.3 ’0
0.135
0.005
0.010K
75/01/18
).088
0.300
C.01
0.005K
0.020
75/02/1 5
). 32
.1flflK
0.008K
t).N aK
).J1cK
75/ 3I )
).13 1
0.050K
0.016
0.005
0.)15
75/03/15
75/04/06
0.030
1).01O
0.150
0.550
0.005
0.040
0.010
0.005
0.010
0.J lu
75/04/19
0.010
0.050K
0.005K
0.005K
0.010K
75/05/03
0.700
0.010K
K VALUE KNOWN TO BE LESS THAN
INDICATED
-------�
S ,i• V .L r: 75/t1/2
“i TL EJT O HI .
5D. _ L .
05343. -
35 2’. 30.) 092 52 .2.0
CAST SJ ’ L0A C ’(
35 — 7.5 ‘‘IV
T/o ’JLL SMC4LS S
SNK 13’.-iDS W 1-IWY 14 2.2 N
L1EP L5S 2111204
0000 cSfT
SE LE !) Ai
flEPT -1
- ‘))63C
11E 7’rl N 2&
0625
KJE
‘ 0610
Nt 3N
)0611
P C SL)I S
C Ooo5
PHCS—TJT
I.
‘
AL
‘
T T L
) ‘HI .
•
•
C Y
E T
‘;/L
VG/L
MG/L
MG/I
IG/L D
74/1)6/23
08
5’)
0.161
0.100K
0.005K
0.005K
0.335K
7’/07120
08
45
3.13
0.200
C.010
0.005K
0.005K
74/08/17
08
05
0.228
0.100K
0.005K
0.005
0.3J0
74/09/07
0.022
0.200
0.005K
0.005K
0.005K
7 /10/12
•J.1
0.100K
‘.2CC
-‘.025
3.005K
0.010
74/11/24
‘ ). ‘ ) 16
0.016
0.316
74/ !2/21
1.504 ’
0.100
3.010
0.005
0.1)10
75/01/19
0.40’.’
0.10 0K
0.008K
0.005K
0.010K
0.010K
75/02/16
0.481
0.300
0.016
0.008K
‘75/0 /08
0.376
0.050
0.008
0.00 8K
0.020
75/ )3/1 6
0.408
‘ ) .35 0
0.015
0.004
0.1)10’
75/04/05
r).230
C.LCC)
0.010
0.005K
0.1)10K’
75/04/20
0.230
0.050
0.01f
0.010K
75/1 /)’ ,
0.33(
0.200
0,020
0.006
0.1)10K
K VALUE KNOWN TO BE LESS THAN
I NOICATED
-------�
fl T! v L ‘ .E 75/11/d3
J TL JY P ITCi’Ti SUVEY
: - _ L.S5 vE ; ’
350’tE I
36 25 33. 092 57 3’).0
q AF C ’! K -
7! D!A’ ’2’40 ‘rv
T/3Ju.. sHDsLs-� .5
CLflT C XINS 2 Mj E r L5 1’ HILL
11E L S 2111204
4 - 300u F T OEPTH
0363 ’)
00625 -‘
O Ob IC
00611
005o5
flA
—: “F
CZ fl3
KJEL -
\H3—N
‘-flS—0! S
H0S—T•JT
C t M
:
t —T2 t tL
.i
2
0Y
‘/L
UG/L
MG/L
‘ /1 ? - MG/L ?
7’-/O6/23
09 .5
0.144
0.100K
0.O 5K
0. 0 05K
0. 05K
74/C’1/20
Oc r
3.228
C.1 00
C.O1C
).005K
0.3)5K
74/08/ 17
oa
).1 2
0.100K
0.010
0.310
0.010
74 /09/07
.012
0.300
fl •3Q5
0.005K
0.310
74/10/12
.248
0.100
0.100
0.305K
0.310
flh11/2 ’
0.50 t
0.100k
0.008
0.008K
0.310<
74/12/21
J .5P4
0.1C
0. 1 W ?
0. 035K
0.210K
75/01/19
0.320
0 100
0.CL8K
0.010K
75/02/16
0.352
0.50 0
0.032
0.008K
0.310K
75/33/03
J•44(’
0.35D
0 .0 16
0.0 08K
0.320
-
75/03/ 16
0.30f
0.400
0. OCS
0.00 5K
0.310K
75/34/05
‘).2 0 f l
3.500
0.020
0.005K
0.ulO
75/04/20
0.200
0.600
0.175
0.005K
0.310K
75/ 05/3
0.340
0.900
0.030
0.005K
0.310 K
K VALUE KNOWN TO BE LESS THAN
INDICATED
-------�
‘: T r:v4I DA i5/’11/
FJT I SU V Y 35)’p l
D — L& 32 26 5 .0 093 4 33.C
BEA .
35 7.5 4L-4 ‘JE
7/BiLL SH’ LS S
- sdY 14 tJC, 3.5 l LW C’ HWY 261 JC’
IIE’.%LS 2111204
- 0000 FEFT ‘EP H
00630 -30625 CC6 I O 10671 00665
‘ 22EMO3 1:1 KJEL !-13 \J PrI0S— ! S PHGST)T
N T TAL
[ .tiy Z’T Hr/c MG/ I. WG/L ° MG/L
74106/23 1• 15 fl.160 0.1C0i - 0.005K 0.005K 0.3 )5K
74/07/20 09 30 0.175 0.300 0.017 0.005 0.305
74/O I17 GB 45 .72C C.2( C) 0.005 ‘).005 0.020
7 1 ./09/07 0.224 0.100 0.005K 0.005K 0.010 -
- .110I12 ‘.15? 0.100K .0.025 0.005K ?.005K
74/11/24 3.528 D.LOGY C).032 0.0’ . SK 0.J10(
74/12/21 0.50 ., 0.100 0.005K 0.005K 0.020
75/01/19 .384 0.500 fl.016 0.005K 0.310K
75/02/16 3.490 0.400 0.072 0.008K 0.010K
75/03/08 0.296 0.200 0.024 0.008K O.OoU
75/03/16 0.462 0.200 0.005K 0.0 05K 0.OLCK
75/04/35 0.290 - 0.250 0.017 0.005K 0.010K
75/ô ./20 0.290 0.250 0.040 0.005 0.310K
75/! 5/34 0.120 0.35 K 0.12C 0.-005K 0.015
K VALUE KNOWN TO BE LESS THAN
IICATED
-------�
sr1:t ;ei ::vaL t). TC 75/fl/.j
‘4LTL Ei T cP CA”!C” ; SU VFY
L S vE:E
SO i 1
36 31 23.0 )93 05 2).r
Ô€E C ’
us 7. MPi’Y
7/SiLL S C I.S ?S
34W’( r 2 ’ .1 M! W !5 CPK CEUET FV
2111204
4 OccO E DEPTH
00e30
00c25
00bl0
00611
00bb5
D.T
T 1 :#,Z
Dr ’H
Q32& iC3
T’T KJEL
NH3— i
P- IJS—0IS
‘HCS—TJT
Zfl •4
-‘t
_T1T.% ,
N
C AL
JRTHfl
T
[ Ay
T
‘G/1
“ G /L
Mr / (
5/L P
MG/L P
74/06/23
11
30
0.010
0.100K
3.005K
0.005K
0.305K
74/01/20
10r
1.044
0 .4 0 f l
0.01 5
0.0 15K
0.305K
74/08/ 17
09
-30
0.068
0.2C0
0.005K
0.005K
0.4)15
74/09/07
).012
0.200
.005K
0.005K
0.010
74fl0/12
‘3.4° :
0. 1COK
0.015
0.005K
u.Oab
74/11/24
-0.315
0.100K
0.008
0.008K
0.010K
74/12/21
- .015
.1’0K
C.OOSK
D 035K
0-.’JLOK
75/01/19
0.080
0.100K
0.008
0.005K
0.010K
75/02/ l b
0.029
0.100
0.040
0.008K
0.4)10K
75/03/08
0.048
0. 100
0.016
3.308K
0.4)10’
15/03/16
1.045
0.150
0.OCSK
0.005K
0.310K
75/04/ 5
0.290
0.175
0.010
3.005K
0.010K
75/05’04
1.120
0.100
0.015
0.005K
0.010K
K VALUE KNOWN TO BE LESS THAN
INDICATED
-------�
ST ’ 751 :1/23
1 TL JrPH1CA T J V Y
r’
TI , 1 : :
oI Y ::,•
12 iC
16 ‘DC )
11 30
05j 11
3o 39 33.0 3c , J7 ?5. ’
L4K
7.5 -.-SYir4
T/3JLL SHC LS S
JLA c $Et H JA SP!1L.wt V FF R Y V
11E ’.L-S 2111204
4 oro i F ET ‘ ‘FP H
00633
00625
C0b1C
00671
00665
1 ’2r.;: 3
JT KJ L
M , 13—N
° i:s—0Is
10S—T3T
_T.JT L
‘
TOTAL
rj THJ
MG/L
MG/L
‘G/L
MO/ I P
MG/I P
T4/Ob 23
0.54C
3. 203
).QC)5K
0.J35 ’
74/07 /20
1.200
C.100K
fl•Q35
0.012
0.021
74/09/17
2.300
0.100
0.010
0.015
0. ’J2C
74/ )9/J7
0;10.)
3.2’ 0
0.020
0.315.
0.02L
7F./10/12
0.50’
0.100K
0.015
0.005K
0.305K
74/I IL?4
i.42i
•)•3
r,. 064
1.008K
0.330
74 1.2/2
.128
0.500
0.065
0.010
0. Z0
75/01/19
).336
0.500
0.016
0.010
3.010
75/02/16
1.40C’
0.300
0.04C
0.008
0.320
75/03/08
0.376
0.300
0.016
0.008K
0.330
7 5/03/16
0.395
0.300
0.005
0.007
3. 024
75/34/35
0.41
0.350
0.010
0.005K
0.010K
75/Q4/ 3
0.410
0.250
0.030
0.010
0.020
75/ 35/)4
3.115
•3.050I
0.0 (5K
0.005K
0.010K
K VALUE KIOWN TO BE LESS THAN
INDICATED
-------�
05.) 4 J I
36 f,3 10.0 093 0 D0.
_sI . ’ Z K
. 35 7.5 FCSV” -I
1/BiLL SWC LS ‘ S
3.’ ic T 1 ” T CU ’I N rF
1 IEPALS
4
‘T V:V L T5/.1/23
?L EUC? T Su vEv
I-
Tf’4 r ’ DT,.j
ji:
p. y F ’
13 .) )
14 0
12 1”)
I-
Ti
74/06/23
74/07/ 2
74/08/ ii
74/09/07
74/10/12
74/ 11/24
75/01/19
75/12/16
75/05/04
F PK IN CAS Y t’
2] 11204
00CC FEET - DEPTH
03 30
“)625
00610
Y)67t
03665
‘ 2 ° 3
T: T KJFL
\M3— J
P ’S—0i S CS _T . T
—7 yTAL
T !T L ’
TH0
‘13/L
PG/I
MG/I
MG/I-’ P
HG/L
•3.18 .
0 ’.IOOK
0.015
0.005K.’
0.005’(
.144
.50’ , ’
(‘.025
0.005K.
0.005K
0.040
1.600
0.105
0.005
0.305
0.192
0.100K
-0.005K
0.005K.
‘0.005
.1 372
0.300
C.02C
0.305K
3.010
0.4O
C.250
0.056
0.007
0. 010K
).21h
0.100K
Q.008K
0.005K
0.010K
,024
0.200
C.316
0.309K
0.J10K
0.115
0.350
0.005
0.01-3
0.013
K VALUE KNOWN TO BE LESS THAN
INDICATED
-------�
!‘Q i ’i . 7 /1 1/23
‘ TL Eu P TZ :?1
-t- L 5 v;
•J5)4(1
3 •31 12.0 ‘093 57 37.0
K
35 7.5 !L
—T/ JLL SH0 LS S
2 D Y ) 0G 1.5 ‘4! US 160 JCT
1LE 4LS 21l i204
00C ’O FEET iEPTH
b3 ’
0625
0C610
D0671
006b5
‘ . .i
‘‘j
‘ ‘ F . :33
TrT KJEL
N$13—N
P ’4U5—11S
DHCS_TJT
:
-
, y ‘ L
.
T ’ T L
TH0
Tn
y
M ’/L
MG/I
‘4G/L
MG/I
MG/L P
74/06/23
1.2 )C
0.120
0.100K
0.005K
0.005K
0.305K
74/07/20
12 3
0.08
0.100K
0.02C
0.005K
0.005K
74/08/li
13 45
.6c0
‘.3C0
0.020
0.020
3.330
74/09/07
0.)24
0.600
0.035
0.005K
0.025
74/10/12
).24 ’
0. 100
0.005K
0.J IC
74/11/24
.9T0
G.4C0
0.032
).016
).016
74/12/2 1 .
0.980
0.150
0.015
0.010
0.010
75/01/19
u.394
0.400
- 0.016
0.005K
o.JLOK
75f02/16
- .384
0.100K
0.008K
0.008K
O.)IOi(
75/03/0 3
0.37
0.200
0.032
0.308K
0.010
15/C3 /16
0.395
0.400
0.005
0.005K
?.Q IQK
75/04/05
0.400
0.850
0.020
0.005K
0.010K
75/04/20
75/05/04
0.42
7
0.300
0.25
0.015
0. )6(
0.005K
0.005K
0.ulO
0.J1OK
K VALUE KNOWN TO BE LESS THAN
IND ICA1ED
-------�
S’1 T TL 75/ j/)
LTL J P1TCA!J LRVEY
c: — L S VEu!
050,Ll
36 *2 12.3 393 5ó
C
35 7.5 1 L1L
T/dJLL SM3. ’S ES
K 3fl FF 2 .NV ) 6 S KWY F
11E’. L - 21112 4
4 X.Dr F ’ C.EPTR
GOb 30
T I 4 DYH r,7 i4 3
OAY FE ‘ ‘ IL
00625
r. K.J L
N
ii 00__
1.3 30
13 25
00 : 1 .C
TJTLL
MG IL
00671
S—Ui S
J THP
J/L P-
006o5
2 1 uS— 7 .J 7
MG/L P
7’.10 ./23
0.310
‘r .lOflK
74/07120
G.1’97
.2C’3
0.02( 7
0.005K
0.D0
74/08117
1.340
0.300
C1015
0.015
0.325
74100/07
0.3’2
(‘.200
C .005K
0.005K
0.005
7 4 / ( ’fj
C.200
0.045
0.005K
74/11/24
0.384
0. .03
0.040
0.00
74/12/21
3.384
.10flK
0.0C5t
0.005K
.3.310K
0.010K
75101/19
75 02/16
0.216
3.064
0.1001<
0.100K
0.OC8K
0.01.6
0.008K
0.01.0K
75/03/16
.
3.568
0.250
0.010
0.005K
0.010K
3.015
75/04/05
0.960
o. lr o
0.01!
0.015
73/ )5l)’.
). 165
0.100
0.045
3.005
0.010’(
K VALUE KNOWN TO BE LESS THAN
INDICATED
-------�
s T j E ’_ 7 Ii1/’9
TL EJT ’ TJT. St P -y
:p — L VE j -
.
[ . Tr
.OM ,
‘C
TI ‘
C
AY
‘H
‘
U,3fl
2 23
‘—1 L
MG/L
00625’
KJEL
N
MG/I
ooarc
‘ H3—
TPt&L
MG/L
J0671
P ’I’JS—DI
OQTHD
MG/I P
J5)4 11
3o 35 00.0 092 •6 4C).0
513 - -
7 5 P T
T/ ’3JL’L S J LS
CLJL/E ‘W’1ST ‘ NF. R DG IN HP Y 160
11E? L 3 2111204
0 C0 F T DEPTN
30665
P4CS—TJT
lO/L P
74/36/23 12 3)
74/ 09/01
0.320
).fl24
0.600
1.000
0.015
0.06 ’ )
0.005K
fl-.005K
0.305K
0.315
75/ ’)1/L8
0.24
0. 100K
0.008
0.010
0.040
75/02/1.5
3.200
0.100
0.G lt
0.008K
0.010K
-
75/03/08
1.328
‘0.350 -
0. )12
•).. )5
0.310K
15/03/15
).333
0.150
0.010
0.01.0
0.010
75f04/Q
).0lO
0.060
0.015
0.005K
0.020
75/05/33
•3.33 .
v.553
0.035
0. -DO5K
0.310K
K VALUE KNOI1P4 TOBE LESS THAN
I ND I CATED
-------�
5T’ :7 I:V . 7 E 7 ,i11 ,23
‘J L EJT DkTC r, SU’VEY usa;n
D — L&S VE3 i 36 32 37.0 392 52 25.0
SHC LS r ç.
05 7•5
T/f’JLL SH3 LS
2NDRY 0 RDG 1.5 Mj “ p F P?’?TEM
iLE ?AL 5 ‘21L12J4
4 )C’() FEE ‘EPTH
- 00630 00625 O OL1C 00671 006b5
‘!‘E’Th N!26N23 T’T KJFL- .H3—N cs— ts flr1JS—TJT
N TCTLL
In D Y FCCT M /L /L MG/I MG/I P M6/L P
74/Ob/23 13 15 ‘3.480 1.LG0K C... )1’ ) 0.0 05K 0.3Q5
74/07/20 3 5’) 3.024 Q .5t’O ‘.CzS 0. 005K .310
74/10/ 12 0.166 0.100K 0.645 0.015 0.015
K VALUE KNOWN TO BE LESS THAN
IND ICATED
-------�
5T’- •: 75111125
.L TL SU VEY
!5 V
, )4. -
3b 33 fl.0 092 3 12.0
4S E - ‘
05 ...5 W LLR’)! T -
FIBJLL SI-s )aLS ES
2 10 Y ‘. ‘1 HWY i S O JCT
L1.E°4LES 2111204
- 0000 FEET 1 EP ’
Tfl
C 63D
C0625
00610
‘)OSl I
OCTho5
r
-i \:2&’ L3
151
KJEL.
lH3—N
P-i’LS—O! S
“HCS—T 1]T
.—T2T L
1
T)T 1
) .1HJ
-
. Y
T
M(,/
MC/L
MG/L
1G/L
MG/L P
74/06/23
3
‘i.’.
0.108
0. 100K
0.005 -
0.0 )5K
0.305K
7t/07/23
12
00
O .1 2
0.100K
0.020
0.005K
0.005K
74/09107
0.)12
1.000
0.0 7
. 0. 0 15K
0.uiO
74/10/12
74/11/24
0.152
0.20M
0.100K
0.3’
0.020
.024
0.005K
0.005K
0.005K
.0L0(
74/12/n
0.216
0.L 25
0.020
0.005K
0.JLO
75/01/LE
0. 0o
0.100
0.008K
0.D0 K
0.020
75/02115
0.200
0.100K
0.0C8
0.008K
0.310K
75 1)3/08
0.120
0.550
0.018
0.006K
0.320
75/03/15
0.120
0.600
0.018
0.010
0.010
75ft 4/Q6
0.035
0.100
0.330
0.005
3. 310K
75/04/19
0.050
0.350K
0.005K
0.005K
0.310K
75/05/03
0.080
0.600
0.035
0.005K
0.010K
K VALUE KNOWN TO BE LESS THAN
— - INDICATED
-------�
ST ET PcrFUVtL fl!E.751 11/Zd
1 MTL EuT CP-i ! TOg SU v&Y -
?°A— LAS VE)
• 35043:
36 3b 30.0 092 33 3D.0
;ULL5( 5PV! r; c (
35 .5 SLB LL&
T/’bJL’.. S}-F?4LS S
2’1 [ JUY W SSOG 1.5 T ¶ ‘4WY W JCT
L IEnL:S 2111204
-t flfl. ,)0 CZ T -t EP H
-
O O ÔSP
00625
006 1C
00671 •
00665
TF T!4Z —r
‘2 33
C KJEL
-d3—¼ P CS—0iS
?rlQS—T)T
F’ M C
—TQ AL
•
T T A
•JQTH1
70 C. Y
MG/L
MG/L
- MG/L
MG/L P
MG/L
7’t/06/23 11 45
•J.Z 36
3.500
0.010
0.005K
0.005K
14/07/20 10 31
3.044
0.100
0.015
0. 005K
0. 305K
74/10/12
O. ;9
o.ioox
0.915
0.005K
0.005 <
74/11/24
0.216
1.000
0.032
0.005K
3.010<
14/12/22
1.20d
0.100K
0.025
0.005K
0.310c
75/01/18
0.40G
0.100K
0.008K
0.005K
0.330
75/02/15
0.192
0.100K
0.008K
fl.0 3K
0.010<
75/03/08
0.168
Q 750
0.040
3.009K
3.320
•
75/03/15
0.166
0.100
0.009
0.005
0.0 10K
75/04/06
0.135
0.050K
0.015
0.005K
0.010K
75 1 )4/ 19
0.160
0.050K
0.005K
0.005K
0.310K
75/05/03
0.580
0.100
0.C15
0.005K
0.010K
K VALUE KNOWN TO BE LESS THAN
‘INDICATED
-------�
CT;CT VV.L 75/ 11 , 73
Nt’L J C ;C 1!fl:, ju v
L -
05 0441
36 40 32.0 352 38 44.
i F -BK 4H1TZ 1v2
33 75 TF1 ’It fl
TId JLL S’I3’ LS rS
2N3Y D 3 DZ 1.5 “‘ ‘ IWV 0 JC
I LE’ALSS 2111204
0000 FEET DEPTH
03&30
00625
O0&1C
30&Y1
306o5
iT
r f
; 2 .N3
TflT K .IEL.
‘&43—N
!1 S—)I S
‘ cis—ri
‘ :
N—TOflL
N
T 0T L
OPTHC
C IV
CtZT
M /1
MG/I
MG/L
G/L P
MG/L P
14/06/23
0264
C.iO’)K
0.:)05K
0.005K
0.345
74/07/20
13
45
0.300
0.100K
0.020
0.005K
0.u35K
74/03/17
12
35
3.112
0.100K
0.310
1.105
‘1.005
74/09/07
0.352
0.300
0.005K
0.005K
0.005K
74/10/ 12
11
11
0.490
0. 100k
0.015
0. 005K
0.005K
74/11/24
0.184
0.400
0.040
0.005K
0.u1OK
74/ 12/2 ?
1. 1R4
0.200
0.02 0
0.005K
0.010K
15/01/18
0.352
0.100K
O.01
0. 0 05K
15/02/15
0.256
0.200
0.OOAK
0.008K
3.310K
75/03/3d
0.320
0.400
0.024
0.008
0.320
15/03/15
0.333
0.250
“.025
0.005
0.01 6K
75/04/06
0.030
0.150
0.025
0.0’1SK
0.010K
15/04/19
0.100
0.005K
0.005
0.0 10K
75/05/03
0.09C
1.950
0.035
3 . 0 05K
0.310K
15/35/07
0. 385
2.300
0.035
0.005K
0.310
K VALUE KNOWN TO BE LESS THAN
INDICATED
-------�
sr:p : T;::j 1 — !‘r 7rf7r1,.?3
NATI e’J —s.:piT7 !’ 5C 2 j Y
2t— Aj v’5G
D263 0
30625
‘) O ô lC
uoai;
006b5 -
D-T!
:4E: - ErL1 ‘C2Z 3
T”T KJE:L
N1-i3—N
P 4rs—)I S
0’-ICS _TJT
F M
0
—T I
N
Ynt A l
J H0
:
£ Y
E:’
- MG/L
MG/I
MG/L
MG/I ‘
MG/L P
) 5)4 r L
36 t) 32.0 092 37 57.0
Tj
-------�
:v — - — ,‘; .
‘ r E.J ?i’C ! ’i pv y 05 .X1
CD 3ô 33 : ‘.o0cz 41 15.C.
‘LV
.5 7:L ”
T/cJLL S 10ALS ES
‘2ND Y D 5 DS 3.5 M I c. HWY 95 JCT
11E’ L S 211 - 1204
4 OCOO F FT IIEPTH
00630 00625 0C61 0 00671 uubo5
: ‘ i “ ‘2 O3 T1’T XJ L 3— Ph .S—0I - r1G5—T 7 ’
- N T OT8L
- •1t/L MG/L MG/I MG/I P MG/I P
741061,23 13 .0i ).30i 0.20) 0.005 0.0 )5K 0.J O5K
74/07/20 11 00 0.240 0.100 0.020 0.005K 0.005K
11 50 3.06b 0.100K 0.010 0.005K 0.OJ5K
74/03/17 2 5) D.162 0.IC O 0.005K 0.005K 0.305
74/09137 ,0.37 ) 0.600 0.070 0.00 5K 0.010
74/101 12 0. 64 0.200 0.015 3.005K 0.0L0
74/11/?4 0.312 0.100K 0.016 0.005K •0 .Jj3K
74/12/22 0.432 2.600 0.080 0.005K 0. 0 10K
75/U1/ 18 3.368 0.300 0.032 0.005
75/02/15 0.100K Q.016 .0.008K 03 10K
75/03/03 0.325 0.400 0.024 0.01)8K 0.320
75/03/15 3.338 0.450 0.025 0.005K 3.010K
75/04/06 0.005 0.050K 0.010 0.005K 0.-OIOK
75I04I1 0.375 0.100 0.005 0.005K 0.010K
75/ 05/ 03 0.JS0 1.900’ 0.030 0.005 0.010K
K VALUE KNOWN TO BE LESS THAN
INDICATED
—
-------�
E T L V&L ‘. 75/iI/2i3
N TL J P1t . !Th S PVY
S v :; s
05)4f l -
36 4.’3 20.) )c3 4 27.0
. J t cK
0 ) 1. 3 I S)’J ‘ C
T/BJLL -134LS ES
8R03 i-IW,Y 1 !4 ‘ 4W
1LE? L 5 211l2 4
4 0000 FEET P?K
0.JêJ’)
0062
OOt lO
00671
00665_
-
M
11E -r. Y .4
f’
2 :3
N- T AL
lIT KJEL
N
..H3—N
O L
P’IOS—OIS
: THc
H S—T)T
rr
F T
MSIL
.MGIL
MG/L
MG/I P
MG/L P
74 06/23
1)
31
).. )lB
0.i 0K
0.005K
O .C)051(
3.335K
74F09/17
12
45
0.1 16
0.3C0
0.035
0.005
0.010
74/09107
.3&4
..l0GK
0.C05K
.0fl5K
0.005
74/L0/ 2
3.)56
0.201
0.020
0.311
74/11/24
0. 40
0.200
0.01
0.010
0.010
74/12/21
1.12c
0.100K
0.020
0.015
751 0 1/k9
0.960
0.100k
0.00
0.010
0.010
75/02/16
0.0 4
0.100K
0.008K
0.008K
0.010K
75/03/08
0.44E
0.3CC )
0.016
0.008K
0.320
75 03/16
0.444
0.3C0
0.010
0.005K
0.010K
75/04/05
o.cr ’
0.100
0.015
0.015
0.015
75 Q4/20
3.950
0.750
0.055
0.009
9.310
75/05/04
0.11
0.050K
0.010
0.005K
0.010K
K VALUE KNOWN TO BE LESS THAN
INDICATED
—
S
-------�
TO ET I v L ) E i/11/2
TI “ (PV V
v G
I
3 24 00.3 092 56 25.)
) SU LOS ‘‘ K
35 7.5 I 3 ID rj y
1/SiLL SH0 ILS ES5 V i
:uLv T /8P 0.7 Mj C F OU H LE1 P I-tILL
11 L -ES 2111204
4 0000 rEEl DEDTH
0)630
00625
0C’b 1C
00671
00b65
T MC
\‘2 NU3
TCT KJ L
M-3—N
iCS—NS
HCS—TJT
‘•
( )
%J .T?TAL
%
T T L
OAY
MO/I
MG/L
MG/L
‘GIt P
MG/I P
74I &/23
C
15
0.35’
0.200
0.005K
0.005K
0.320
74l07/20
0
30
0.250
0.200
0.025
0.30 5K
0.005K
74/08/17
08
03
0.208
0.100K
0.010
3. 305K
0.010
74/09/0,7
0.300
0.400
0.025
0.010
0.015
74/10/12
0.144
0.100K
0.02(j
0.005K
0.305K
74/ il/ 4
3.490
0.100K
0.008K
0.005K
0.010K
74112/21
i3 .5 04
0.100K
0.005K
0.005
0.010K
75/01/19
0.48)
0.200
0.032
0.010K
75/ 0? / 16
0.480
0.200
0.016
0.008K
0.310K
75/03/03
0.400
0.150
0.0C8
0.008K
0.030
75/03/16
3.400
0.050K
0.020
0.005K
.0.O IOK
75/0 4/05
eL345
1.150
0.050
0.005K
0.010
75/04fl0
75/05/04
0.345
0.33)
0.250
C.500
0.025
0.015
fl.r)fl5K
0 .J5
0.010K
K VALUE KNOWN TO BE LESS THAN
INDICATED
-------�
APPENDIX F
PARAMETRIC RANKINGS OF LAKES
SAMPLED BY NES IN 1974
STATES OF ARKANSAS AND MISSOURI
-------�
4’ E 3TA T I; S ;i r i . . - ARKANS AIS
LL ’ ’
MEflL. \
MEDIAN
500—
ME-AN
15—
0 Tsn
C0)E
LAKt \4 ?4V
,
1OTL P
J jJP5 N
•ME N S C
C-ILO#A
M IN Pu
nsri
bEAv —
0.33’ )
P o e7
3. 2I
la,90 0
0.00
mop
dLAC
-------�
1W w !T- 1 .rC v LJES ,f-
LA (t” 1T’ ‘r’t r r..’ VAL’JF S) -
ARKANSAS
LAKE
CODE
L A E \A E
T )T4L
1 ) G
N
Sti O—
E N
EC
MEAP’j
C LO—
1 —
MIN L.O
MED1A’
DISS O T 0
P
0501
0502
0503
B AvE LAKE
BLACKF1 -4 L E
- BLUE MOuNTa1 LAKE
0)
20 C ii
(
0 C
47 C
4)
C)
7)
- . ?
U
13
(1 )
C 3)
C 2.)
7 ( 13)
7 C 1)
bl 10)
1) C A)
73 C 11)
57 C 8)
3 ( )
u C 0)
27 C 4)
0504
t ULL SH1 )AL LA’
‘) C 13
—13 C
2)
100
C 1 )
80 1?)
17 C 0)
53 C 1 )
0 505
0506
0507
LAKE CAT?IEPI E
LAKE c’ .iIçoT
OEGPAY I ESE1. VO1
7 ( 7)
( 1)
7 ( 11)
7 C
77 C
.
1) 7
11) 60
C 1)
C 9)
C )
33 C 5)
47 C 7)
0 C 1?)
47 C 7)
17 C 0)
3 ( R)
7 C 1)
93 C 13)
0508
0509
0510
LAKE E LI J
G AND LANE
LAKE NAM1LTO
27 C ‘e)
1 C 2)
53 8)
90 C
100 C
77
13
15)
11)
40
20
( € )
( 3)
)
aO C )
0 0)
3 8)
57 ( )
100 C 15)
67 C 10)
0 C 3)
13 C 2)
b3( 8)
0511
0512
MILLW000 LAKE
NIMPOC) LAKE
33 C 5)
40 C )
90 C
53 C
13)
8)
33
27
( 5)
‘.
20 C 3)
- 13 2)
87 C 13)
. 93 C 14)
33 C 5)
47 C 7)
0513
051’
NOPFOLK LAKE.
LAKE OUAC iITA
ifi) C 12)
9f C 13)
.
33 C
60 C
5)
9)
3
80
C 14)
C 12)
100 C iS)
73 11)
17 C 0)
17 C 0)
80 C 12)
63
0515
TABLE ROCK LAKE
63 C 9)
20 C
3)
73
C 11)
- 60 C 9)
17 1 0)
40 C 6
0516 GREER’S LAKE
100 C 15) 67 C 10) 87 C 13) 93 C 14) 17 .1 0) 93 C 13)
-------�
1 I . P’ GS — IS5OURJ
LA’
cc.
.
L- ’E r. E
r.Yr i
‘
‘ E ‘ C
C 1LO. A
-fl
( T - T- r
CL A E L \E
r.’1 7
O.1 ’fl
‘e4—.flO1)
3..5 7
,io. ’oo
o.uU .
2 fl2
?c’03
).)MME DE
STOC TON p sEQvOI
O.t 22
.?7b
Q• 7Q
4 .92M
42d.i3( O
•3
8.973
I’e.r O)
1S.000
u.uO
U.OO
29O
L - TA EYCO M O
o. 3O
‘
‘20.250
9. 5
11. O0
i).007
c 0
Tp. OM rtILL E V0I
i.0’ )
4 T.889
11. 0fl
0.011
290
- p A ELLO E- vuiF
O.’ 33
0.105
9.64
11.000
0.004
-------�
‘ .pLT-i ‘-ib- E VALUES NUMR iW LAr .E S iITri MIGliE- LUES)
LAKE M jAN rdE )IAN 00
COI) LAE iA .lE Tt 1AL TNO’ G N MEA’ “EC
2 01 CLEA ATF LAKE 10’ ) i0 ( 4) 6iJ ( 3)
2q02 PO ’E DE TEP E RE E. voIp o C j o ( 3) 40
2903 STOCKTON ESERv)I 80 ( ) 20 ( 1) 80 ( 4)
2904 LAKE TANEYCOMO 0 C 3) 40 C 2) 100 C 5
2diO TIIOM4S rIILL PE6Ep VOIR fl- ( ) 0, C 0) 0 C 0)
290 WAPPAPELLO RESE vn1R 4’) C 2) 100 C 5) 20 C 1)
- MISSOURI
ME A
CMLO A
100 C ,1
‘0 ( ‘2)
0 C 3)
0 C 0)
80 C 4)
20 C 1)
EDIA
MIN DO L)ISS 0 T-.O °
100 C 5) ‘?0 C 4)
‘ .20 ( 1) 20 C 1)•
0 ( 0) 60 C 3)
50 C 2) 40 C 2)
50 C 2) 0 C 0)
80 C 4) 0 C 4
-------� |