B lH
sSSh
ht &¦ . f ¦!;•¦:¦. $ji$
1 . - --'vf?:- Vs;:* •
. -: -% 'J.. 4 els *1®* ®3 '. $
| w 5
, V v- ; ,
i ¦';;. • VT
' 'M&i?'. St ""{«
Oak Ridge Reservation
Environmental Health Archives
Current as of 10FEB99
Compiled by
Captain John R. Stockwell, M.D., M.P.H.
U.S. Public Health Service
Final Report on the Background Soil
Characterization Project at the Oak Ridge
Reservation, Oak Ridge, Tennessee, Volume 2
Data
c. 010CT93
- ps;; ¦
I.Mi- - § .*:V "!
Oak Ridge Reservation
Environmental Health Archies
(ORREHA)
Document Number
XV
; l,, ¦ ¦ i
lF«Mfci
if:-#!®;
Ml
L: . 'r'^ :Vjv
,»i
§ 1
P -ill
|f: I
M: •'
:'V''"-V -f-
-------�
w e°lo
DOE/OR/01-1175/V2
ES/ER/TM-84/V2
Final Report on the Background Soil Characterization Project
at the Oak Ridge Reservation, Oak Ridge, Tennessee
Volume 2—Data
Environmental Restoration Division
P.O. Box 2003
Oak Ridge, Tennessee 37831-7298
Date Issued—October 1993
Prepared by
Environmental Sciences Division
Oak Ridge National Laboratory
ESD Publication 4144
Prepared for
U.S. Department of Energy
Office of Environmental Restoration and Waste Management
under budget and reporting code EW 20
MARTIN MARIETTA ENERGY SYSTEMS. INC.
managing the
Oak Ridge K-25 Site
Oak Ridge Y-12 Plant
Oak Ridge National Laboratory
under contract DE-AC05-840R21400
for the
U.S. DEPARTMENT OF ENERGY
US EPA REGION 4 LIBRARY
AFC-TOWER 9th FLOOR
61 FORSYTH STREET SW
-------�
DISCLAIMER
This rcpon was prepared as an account of work sponsored by an agency of the
United States Government. Neither the United States Government nor any agency
[hereof, nor any of their employees. makes any warranty, express or implied, or
assumes any legal liability or responsibility for the accuracy, completeness, or
usefulness of any information, apparatus, product, or process disclosed, or
represents that its use would not infringe privately owned rights. Reference herein
to any specific commercial product, process, or service by trade name, trademark,
manufacturer, or otherwise, does not necessarily constitute or imply its
endorsement, recommendation, or favoring by the United States Government or
any agency thereof The views and opinions of authors expressed herein do not
necessarily state or reflect those of the United States Government or any agency
thereof.
This report has been reproduced directly from the best available copy
Available to DOE and DOE contractors from the Office .of Scientific and
Technical Information, P O Box 62, Oak Ridge, TN 37831; prices
available from 615-576-8401.
Available to the public from the National Technical Information Service.
U S Department of Commerce, 5285 Pon Royal Rd., Springfield, VA
-------�
CONTENTS
VOLUME 2
TABLES v
PREFACE TO VOLUME 2 vii
Appendix A. SITE DESCRIPTIONS. SOIL PROFILE DESCRIPTIONS,
AND GENERAL ANALYSIS OF SITES A-l
A1 OAK RIDGE RESERVATION SITE DESCRIPTIONS A-3
A2 ROANE COUNTY SITE DESCRIPTIONS A-17
A3 ANDERSON COUNTY SITE DESCRIPTIONS A-21
A4 OAK RIDGE RESERVATION SOIL PROFILES A-25
A5 ROANE COUNTY SOIL PROFILES A-97
A6 ANDERSON COUNTY SOIL PROFILES A-121
A7 SITE LOCATIONS A-145
A7.1 Oak Ridge Reservation Site Locations A-145
A.7.2 Latitudes and Longitudes for Roane and
Anderson Counties A-146
Appendix B. SCREENING ANALYSIS DATA B-l
Appendix C. ORGANIC ANALYSIS DATA C-l
Appendix D. INORGANIC ANALYSIS DATA D-l
Appendix E. RADIONUCLIDE ANALYSIS DATA E-l
Appendix F. RELATION OF SAMPLE NUMBERS TO LABORATORY
SAMPLE DELIVERY GROUPS (SDGs) F-l
Appendix G. SUMMARY OF STATISTICALLY TREATED DATA
AND THE SIGNIFICANCE LEVEL OF DIFFERENCES
IN THE DATA G-l
Appendix H. NEUTRON ACTIVATION ANALYSIS (NAA) DATA H-l
Appendix I. ICP/MS ANALYSIS DATA 1-1
Appendix J. OCCURRENCES OF REJECTED DATA J-l
-------�
TABLES
B.l Volatile organic analysis results for soil samples B-3
B.2 Weighted gamma screening results for soil samples B-71
B.3 Unweighted gamma screening results for soil samples B-91
C.l Organic analysis results for soil samples C-3
D.l Inorganic analysis results for composite soil samples D-3
E.l Radionuclide analysis results for composite soil samples E-3
E.2 Tritium analvsis results for noncomposited soil samples E-53
F.l Relation of sample numbers to laboratory
sample delivery groups (SDGs) F-3
G.l Summary statistics for NAA data G-5
G.2 Summary statistics for ICP/MS data G-20
G.3 Significance levels for comparing inorganics G-28
G.4 Significance levels for comparing PAHs G-30
G.5 Significance levels for comparisons of selected radionuclides
(by type of analysis) G-31
G.6 Comparisons of horizons for inorganics G-32
G.7 Comparisons of horizons for selected radionuclides G-47
G.8 Summary statistics for ORR inorganics—overall G-54
G.9 Summary statistics for ORR radionuclides—overall G-57
G.10 Summary statistics for ORR PAHs—overall G-59
H.l NAA analysis results for composite soil samples H-3
I.1 ICP/MS metals results for composite soil samples 1-3
J.l Occurrences of rejected data J-3
-------�
PREFACE TO VOLUME 2
This volume contains the data from the Background Soil Characterization Project. When
available, the following validation qualifiers are used in the appendixes. When validation
qualifiers are not available, the corresponding contract laboratory data qualifiers appearing
on the next page are used.
Definitions of data validation qualifiers
Qualifier Definition
U The analyte was analyzed for but was not detected above the
reported sample quantitation limit.
J The analyte was positively identified; the associated numerical
value is the approximate concentration of the analyte in the
sample.
N The analysis indicates the presence of an analyte for which there is
presumptive evidence to make a tentative identification.
JN The analysis indicates the presence of an analyte that has been
tentatively identified, and the associated numerical value represents
its approximate concentration.
UJ The analyte was not detected above the reported sample
quantitation limit However, the reported quantitation limit is
approximate and may or may not represent the actual limit of
quantitation necessary to accurately and precisely measure the
analyte in the sample.
R The sample results are rejected because of serious deficiencies in
the ability to analyze the sample and meet quality control criteria.
The presence or absence of the analyte cannot be verified.
UN The laboratory did not register this compound, but there was
presumptive evidence of a compound that was within the retention
time window but was not reported. No other qualification of the
data was made.
UJN The laboratory did not report the compound, but there was
presumptive evidence of a compound that was within the retention
time window but was not reported. The data were qualified as
estimated, J, because of other discrepancies with the data.
RN The laboratory did not report the compound, but there was
evidence of a compound that was wuhin the retention time window
but was not reported. The data were qualified as unusable, R,
because of other discrepancies with the data.
-------�
Definitions of contract laboratory data qualifiers
Organic
Qualifier
Explanation
U
Indicates compound was analyzed for but not detected.
J
Indicates an estimated value.
N
Indicates presumptive evidence of a compound [used only for tentatively
identified compounds (TICs)].
P
Used for pestidde/arocior target analytes when there is greater than 25%
difference for detected concentrations between the two gas chromatograph (GC)
columns. The lower of the two is reported and flagged.
C
Used for pesticide results where the identification has been confirmed by
GC/mass spectrograph (MS).
B
Used when the analyte is found in the associated blank as well as in the sample.
D
Identifies all compounds in an analyte at a secondary dilution factor.
A
Indicates that a TIC is a suspected aldol-condensation product.
X
Other specific flags may be used to properly define the results. If they are used
they must be fully described and attached to the Sample L~ia Package.
Inorganic
Qualifier
Explanation
U
Indicates compound was analyzed for but not detected.
J
Indicates an estimated value.
N
Spiked sample recovery not within control limits.
E
Reported value estimated because of the presence of interference.
M
Duplicate injection precision not met
B
Reported value was obtained from a reading that was less than the CRDL, but
greater than or equal to the instrument detection limit (IDL).
S
Reported value was determined by the method of standard additions (MSA).
W
*
Post-digestion spike for furnace atomic absorption is out of control limits, while
sample absorbance is less that 50% of spike absorbance.
Duplicate analysis not within control limits.
+
Correlation coefficient for the MSA is less than 0.995.
-------�
Abbreviations used for formation-locations
Abbreviation
Definition
DG-AND
Dismal Gap—Anderson County
DG-ROA
Dismal Gap—Roane County
DG-ORR
Dismal Gap—Oak Ridge Reservation
NL-ORR
Nolichucky—Oak Ridge Reservation
CHI-BV
Chickamauga—Bethel Valley
CHI-K25
Chickamauga—K-25 Area
CHE-ORR
Chepultepec—Oak Ridge Reservation
CR-ORR
Copper Ridge—Oak Ridge Reservation
CR-AND
Copper Ridge—Anderson County
CR-ROA
-------�
Appendix A
SITE DESCRIPTIONS, SOIL PROFILE DESCRIPTIONS, AND
-------�
A-3
A.1 OAK RIDGE RESERVATION SITE DESCRIPTIONS
ORR Site 2. This site is located off Bear Creek Road close to the Clinch River, grid
location N29300. E10300. The actual site is located northeast of the K-25 water treatment
plant. Follow the road to where the power line right-of-way (ROW) crosses it. Then turn
right, go up hill for about 200 ft, then left into the woods about 50 ft. The site is located in
a stand of large oak, red maple, sweet gum and white pine that was probably cleared and
pastured at one time but evidently never plowed. The underlying geology is the Dismal Gap
Formation. The soils are typical of the soils of largest extent that were mapped on this
formation. The soils are verv heterogeneous. The eeoloeic dip in the C horizon vanes from
about 30° to nearly vertical. Differential weathering of thin strata gives rise to very abrupt
and irregular degrees of weathering with some strata being very highly weathered and other
strata still hard and dense.
ORR Site 3. This site is located across Bear Creek Road from the Scientific Ecology
Group plant, Grid N 29300. El 1200. The actual site is located about 50 ft north of the cut
bank on the north side of the road. The vegetation on this site consists of old-field
successional forest that has not been disturbed since the field was abandoned. Most of the
old pines have died and fallen over. The present regrowth consists of young pine.oak, hickory,
sassafras, and cedar with a sparse ground cover of honeysuckle and poison ivy. The underlying
geology is the Nolichuckv Shale. Because this site is on a stable landform, the soils were not
badly eroded before abandonment.
ORR Site 5. This site is located on the south side of Bear Creek Road about 300 ft west
of the main entrance to the Central Training Facility and about 25 ft south of the security
fence, grid N29300, E15300. The site is located in an old field that was severely eroded before
or after abandonment. Shallow gullies are on either side of this site. Vegetation is old-Geld
successional forest. Most of the old pines have died and fallen over. Present vegetation
consists of a dense stand of young pines along with cedar, oak, dogwood, and sweet gum
along with a generous stand of honeysuckle and greenbnar. This site is the only ORR site
that has a thick organic layer consisting primarily of mosses. The soils on this site are very
similar to those of ORR Site 3, except that they are more eroded with the plow layer resting
directly on the clayey subsoil beneath. The underlying geology is the Nolichuckv Shale.
ORR Site 10. This site is located about 300 ft north of the Tennessee Valley Authority
(TVA) power line ROW that parallels Bear Creek Road on the north side of the road, Grid
N30200, E21460. This site is located in an old field that had been severely eroded some time
before abandonment. Vegetation is old-field successional forest that is now mostly hardwoods
consisting of white oak, hickory cedar, and ash. The pine have disappeared. This site, being
fairly open, has a dense ground cover of honeysuckle, Virginia creeper and poison ivy. The
soils on this site are more typical of soils on steeper slopes. In fact, this site is the steepest
of the ORR Phase 1 sites. The underlying geology is the lower Dismal Gap Formation, with
strata in the C and Cr horizons nearly vertical.
ORR Site 11. This site is located about 50 ft north of the TVA power line ROW that
parallels Bear Creek Road on the north side of the road, ORR Site 10 is located about 250 ft
upslope. This site is located in an old field that had been severely eroded prior to or after
abandonment. Vegetation is old-field successional forest. Manv pines have died and fallen
-------�
A-4
and sweet gum along with an abundant ground cover of poison ivy ana honeysuckle. The soils
are typical of stable uplands underlain by the upper Dismai Gap Formation.
ORR Site 13. This site is located south of the TVA power line ROW that parallels Bear
Creek Road on the north side. The actual site. Grid N29480, E23220, is located about 100 ft
south of the ROW in forest. The site is located in an old farmyard. The remains of the
chimney are located about 200 ft east. Present vegetation consists of sugar maple and tulip
poplar. The surface soil should have a higher pH and higher fertility. There is much evidence
of worm activity on this site The only ground cover is a thick stand of poison ivy. The actual
soil pit is situated within a brecciated zone of the Nolichucky Shale. Because of the past
tectonic brecciation the soil is deeply weathered.
ORR Site 15. This site is located close to the intersection of the natural gas line ROW
and the TVA power line ROW, Grid N29700, E25720. The route into this site and ORR
Site 16 is through the first gate west of the Bear Creek and Route 95 intersection on the
north side of the road. This field road is followed until the intersection of the TVA power
line and the gas line ROW is crossed, then about 25 ft north of the gas line ROW. The site
is located in a severely eroded old field which was planted to loblolly pines. The trees are
about 40 to 50 y old and nearly ready for harvesting for poies. There is a hardwood
unaerstory consisting of oak. red maple, dogwood and a sparse ground cover of honeysuckle
and grasses. The underlying geology is the lower Nolichucky Shale, which in this area, is fairly
permeable as the saprolite fragments are mostly coated with red iron oxides.
ORR Site 16. This site is located close to the intersection of the gas line ROW and the
TVA power line ROW, Grid N29700, E25928. The route into this site and ORR Site 16 is
through the first gate west of the Bear Creek and Route 95 intersection on the north side
of the road. This field road is followed until the intersection of the TVA power line and the
gas line ROW is crossed, then along the power line ROW. The site is located on a sideslope
of a severely eroded old field which was planted to loblolly pines. The trees are about 40 to
50 v old and nearly ready for harvesting for poles. There is a hardwood understory consisting
of oak. red maple, dogwood and a sparse ground cover of honeysuckle and grasses. The soils
are typical that are underlain by the middle to lower Nolichucky Shale, which in this area, is
less permeable than at ORR Site 15, as tne saprolite fragments are mostly coated with black
manganese oxides and clay plugged.
ORR Site 19. This site is located east of the Bear Creek and Route 95 intersection within
the area known as the Bear Creek Low-level Waste Disposal Development and
Demonstration (LLWDDD) Site. The route to this site starts at the intersection of Bear
Creek Road and Gum Hollow Road. Follow Gum Hollow Road to the intersection with the
TVA power line ROW. Turn left and follow this road to the intersection with the telegraph
ROW. Turn right onto the telegraph ROW road for about 400 ft. The site is about 60 ft east
into the woods. The site is located in an old Field. Vegetation is old-field successional forest.
Most of the old pines have died and fallen over. Present vegetation is mostly young
hardwoods of cherry, sweet gum, cedar, poplar, dogwood, and Virginia pine. The ground
surface is leaf covered with onlv scattered honeysuckle and poison ivy. The soils are typical
of stable land surfaces that are underlain by the steeply dipping lower Dismal Gap Formation.
This site has thin very fine grained sandstone strata in the C horizon. The original location
of this site was in a stand of young recentlv replanted pines and was moved about 300 ft to
-------�
A-5
ORR Site 21. This site is located in the area known as the Bear Creek LLWDDD. The
route to this site starts at the intersection of Bear Creek Road and Gum Hollow Road.
Follow Gum Hollow Road to the intersection with the TVA power line ROW. Turn left and
follow this road for about 1.600 ft. The site is in the woods on the south side of the ROW,
Grid N29700, E30940. The site is located in an old field that had been severely eroded before
abandonment. Vegetation is old-field successional forest and some planted loblolly pines.
Some pines have been harvested or have died and fallen over. Present vegetation consists of
cedar, poplar, dense sourwood, oak, and red maple. Some grape vines and some prairie
flowering plants are on the site. In addition to leaves, mosses and lichens cover part of the
ground surface. The soils are typical for moderate slopes that are underlain by the Nolichuclcy
Shale. Note that this sue was moved a considerable distance from its original location. The
original location was underlain by a deeply weathered section of the lower Maynardville
Limestone which interbeds with the uppermost Nolichucky. When soil mapping was done in
the Bear Creek LLWDDD site, this particular area was thought to be part of the Nolichucky,
since the Maynardville was supposed to be high-grade limestone which gives rise to much
different soils. Subsequent mapping and study finally put this shale-limestone interbedded area
into the Maynardville which necessitated moving the site onto about the middle of the
Nolichucky.
ORR Site 22. This site is located within the area known as the Bear Creek LLWDDD.
The route to this site starts at the intersection of Bear Creek Road and Gum Hollow Road.
Follow Gum Hollow Road to the intersection with the TVA power line ROW. Turn left and
follow this road for about 800 ft. There is a cluster of wells on the north side of the ROW.
Turn right onto a rough track and go to the top of the ndge then turn left and go down to
where a large windthrow blocks the track. The site is about 100 ft beyond the windthrow then
about 50 ft south into the woods, Grid N30520, E31250. Vegetation at this site is old-field
successional forest of Virginia pine, shortleaf pine, dogwood, and cedar. The surface is leaf
covered and there is a sparse stand of honeysuckle. This site is located in the transition zone
between the Dismal Gap Formation and the Rogersville Shale. The saprolite in the sampling
pit was mostly Rogersville with a very steep dip.
ORR Site 23. This site is located within the area known as the Bear Creek LLWDDD.
The route to this site starts at the intersection of Bear Creek Road and Gum Hollow Road.
Follow Gum Hollow Road to the intersection with the TVA power line ROW. Turn left and
follow this road for about 800 ft. There is a cluster of wells on the north side of the ROW.
Turn right onto a rough track for about 50 ft. The site is in the woods about 20 ft to the east.
Grid N29800, E31830. Vegetation at this site is old-field successional forest. Most of the pines
have died and fallen over. Present vegetation is red maple, sourwood and dogwoods, plus a
ground cover of honeysuckle and poison ivy. The soils are typical examples of the Dismal Gap
Formation. The C horizon at this site contained glauconitic strata that were sampled.
ORR Site 24. This sue is located within the area known as the Bear Creek LLWDDD.
The route to this site starts at the intersection of Bear Creek Road and Gum Hollow Road.
Follow Gum Hollow Road to the intersection with the TVA power line ROW. Turn left and
follow this road for about 600 ft. The sue is on the south side of the ROW then into the
woods about 100 ft, Grid. N29900, E31980. The vegetation at this site is old-field successional
forest with some planted loblolly pine about 30 v old. Present veeetation is a dense stand of
poplar, dogwood, cedar, pine, and red maple with a sparse ground cover of poison ivy and
-------�
A-6
thick manganese oxide coatings on fragment surfaces in the C&Cr horizons that were covered
by translocated clay.
ORR Site 25. This site is located within the area known as the Bear Creek LLWDDD.
The route to this site starts at the intersection of Bear Creek Road and Gum Hollow Road.
Follow Gum Hollow Road to the intersection with the TVA power line ROW. Turn left and
follow this road for about 400 ft. The site is on the south side of the ROW then into the
woods about 100 ft, Grid, N29800, E32290. Present vegetation on this site is planted loblolly
pines that are about 40 to 50 y old. There is an understory of red maple, dogwood, and sweet
gum. The ground surface is covered by a thick layer of pine needles and there is a moderate
ground cover of poison ivy and honeysuckle. The soils are typical examples of the Nolichucky
Shale.
ORR Site 26. This site is located east of the ORR area known as the Bear Creek
LLWDDD. The route to this site starts at the intersection of Bear Creek Road and Gum
Hollow Branch Road. Turn off Bear Creek onto Gum Hollow. Go to where the TVA power
line ROW crosses. Turn right down the ROW track for about 1400 ft. The site is about 75
to 80 ft north of the ROW in the woods. Grid N30000. E34370. The site is in a severely
eroded old field that was abandoned well before 1942. Vegetation is old-field successional
forest where hardwoods have supplanted the early pine stage. Present forest vegetation
consists of red maple, oak, hickory, and a few cedar. The forest canopy is sufficiently dense
that there is very little vegetative ground cover. The ground surface is covered with leaves.
The soils are typical examples of the Dismal Gap Formation.
ORR Site 27. This site is located east of the ORR area known as the Bear Creek
LLWDDD. The route to this site starts at the intersection of Bear Creek Road and Gum
Hollow Branch Road. Turn off Bear Creek onto. Gum Hollow. Go to where the TVA power
line ROW crosses. Turn right down the ROW track for about 1800 ft. The site is about 100 ft
north of the ROW in the woods. Grid N30100. E34990. ORR Site 27 is separated fr ¦ ORR
Site 26 by a drainageway. The site is in an eroded old field that was abandoned wen before
1942. Vegetation is old-field successional forest where hardwoods have supplanted the early
pme stage. Present forest vegetation consists of red and black oak. white oak. a few Virginia
pine and some dead cedars. The understory consists of beech, red maple, dogwood. Scattered
ferns occur under the dense forest canopy, otherwise the ground surface is covered by leaves.
This site and ORR Site 2 have the oldest forest vegetation for any of the ORR Phase 1 sites.
The soils on this site are typical examples of the Dismal Gap Formation.
ORR Site 28. This site occurs along the new haul road that was constructed a few years
ago to transport cover materials from the Chestnut Ridge borrow area to the Y-12 burial
grounds. The route to this site starts at the intersection of Bear Creek Road and the new
haul road. Turn onto the new haul road. The site is about 300 ft beyond the gate on Bear
Creek into the woods about 20 ft from the edge of the TVA north-south power line ROW,
Grid N29500, E34580. "Tie site is in a verv severely eroded old field when it was abandoned.
Vegetation is old-field sdccessional forest. Most of the older pines have either been harvested
or died and fallen over. Present vegetation consists of a dense stand of young Virginia pine
along with cedar and poplar. There is a sparse ground cover of honeysuckle, mosses, and
ferns. The soils are typical examples of the Nolichucky Shale.
ORR Site 31. This site occurs along the new haul road that was constructed a few years
-------�
A-7
grounds. The route to this site starts at the intersection of Bear Creek Road and the new
haul road. Turn onto the new haul road. The site is about 3400 ft from the intersection. The
site is on the south side of the haul road and approximately 200 ft into cutover woods, Grid
N29900. E35820. The site is in a very severely eroded old field when it was abandoned.
Vegetation is old-field successional forest. The pines were harvested 10 to 15 y ago. Present
vegetation consists of a dense stand of sweet gum, dogwood, cedar, hickory, poplar, and ash.
There is a sparse ground cover of honeysuckle and poison ivy. Even though there had been
some tree harvesting, the actual site showed little, if any, disturbance from the harvest. This
site occurs low on a long sideslope. Initial soil investigations indicated that there might be
some alluvial or colluvial capping. However, when the soil pit was opened the soil morphology
indicated that the upper 61 cm of the soil formed in late Pleistocene Age or early Holocene
Age slope wash that was derived from the Nolichuckv Shale. The clay enriched subsoil has
a clayey texture, but the substratum beneath did not contain any relic rock structure.
ORR Site 32. This site occurs along the new haul road that was constructed a few years
ago to transport cover materials from the Chestnut Ridge borrow area to the Y-12 burial
grounds. The route to this site starts at the intersection of Bear Creek Road and the new
haul road. Turn onto the new haul road. The site is about 5400 ft from the intersection and
about 100 ft Grid north into the woods from the edge of the TVA power line ROW, Grid
N30200. E36760. Vegetation is old-field successional forest. Most of the pine trees were
harvested or have died and fallen over. Present vegetation consists of a dense stand of
hardwood underbrush plus abundant honeysuckle and some greenbriar. The soils on this site
are typical examples of the upper Dismal Gap Formation.
ORR Site 33. This site occurs along the new haul road that was constructed a few years
ago to transport cover materials from the Chestnut Ridge borrow area to the Y-12 burial
grounds. The route to this site starts at the intersection of Bear Creek Road and the new
haul road. Turn onto the new haul road. The site is about 5700 ft from the intersection and
about 75 to 100 ft Grid north into the woods from the edge of the TVA power line ROW,
Grid N30000, E36970. This site is about 250-300 ft east of site 32. Vegetation is old-field
successional forest. Most of the pine uees were harvested or have died and fallen over.
Present vegetation consists of a dense stand of hardwood underbrush plus abundant
honeysuckle and some greenbriar. The soils on this site are typical examples of the middle
Dismal Gap Formation.
ORR Site 35. This site occurs along the new haul road that was constructed a few years
ago to transport cover materials from the Chestnut Ridge oorrow area to the Y-12 burial
grounds. The route to this site starts at the intersection of Bear Creek Road and the new
haul road. Turn onto the new haul road. The site is about 6000 ft from the intersection and
about 150 ft Grid north into the woods from the edge of the TVA power line ROW, Grid
N30000. E37280. This site is about 250-300 ft east of site 33. Vegetation is old-field
successional forest. Most of the pine trees were harvested or have died and fallen over.
Present vegetation consists of a dense stand of sweet gum. dogwood, haw. sourwood and some
poplar. About 90% of the ground surface is leaf covered wiih the remainder covered by
honeysuckle, mosses and other forbes (weeds). The soiis on this sue are rvpical examples of
the lower Dismal Gap Formation.
ORR Site 41. This site occurs along the new haul road that was constructed a few years
ago to transport cover materials from the Chestnut Ridge borrow area to the Y-12 burial
-------�
A-8
haul road. Turn onto the new haul road. The site is about 7400 ft from the intersection and
about 400 ft Grid north into the woods from the edge of the TVA power line ROW, Grid
N30200, E39570. This site occurs in an old field that was severely eroded prior to or after
abandonment. Vegetation is old-field successionai forest. Most older pines have died and
fallen over. The present vegetation is a fairly dense regrowth of pine, red maple, beech, and
poplar. The ground surface is covered with leaves. The soils are typical examples of the
Middle Dismal Gap Formation.
ORR Site 42. This site occurs on the new haul road that was constructed a few years ago
to transport cover materials from the Chestnut Ridge borrow area to the Y-12 burial grounds.
The route to this site starts at the intersection of Bear Creek Road and the new haul road.
Turn onto the new haul road. The site is about 8100 ft from the intersection and about 30 ft
Grid north into the woods from the edge of the TVA power line ROW, Grid N30000,
E40500. This site is in an old field that was severely eroded prior to or after abandonment
Vegetation is old-field successionai forest. Most of the old pine trees have died and fallen
over or were harvested. Present vegetation is a dense regrowth of poplar, sweet gum, cedar,
oak. dogwood, and beech. There is a sparse ground cover of honeysuckle and poison ivy. The
soils on this site are fairly typical examples of the middle to upper Nolichuckv Shale.
ORR Site 43. This site is the easternmost site on the ORR. It is fairly close to west end
of the Y-12 burial grounds. This site occurs on the new haul road that was constructed a few
years ago to transport cover materials from the Chestnut Ridge borrow area to the Y-12
burial grounds. The route to this site starts at the intersection of Bear Creek Road and the
new haul road. Turn onto the new haul road. The site is about 9100 ft from the intersection
and about 200 ft Grid north into the woods from the edge of the TVA power line ROW,
Grid N30400, E41460. This site occurs in an old field that was severely eroded prior to or
after abandonment. Vegetation is old-field successionai forest. Present vegetation is red
maple, poplar, abundant dogwood along with a dense ground cover of honeysuckle and poison
ivy. The soils on this site are typical of stable upland positions that are underlain by the lower
Dismal Gap Formation. This site is very close to the Rogersville Shale boundary.
ORR Site 45. This site is situated on Chestnut Ridge and is underlain by the Copper
Ridge Formation. The landform is convex with a s: -pe gradient of about 25%. The forest
consists of older trees, but trees have been removed periodically. From the stumps present
and their state of decay, it appears that the last lodging was done 15 to 20 years ago. A recent
woods road was cut to within 100-150 ft of this s.:e to allow access for drilling wells. The soil
on this site is a typical residual soil, and there is no evidence of any accelerated erosion.
ORR Site 50. This site on Chestnut Ridge is underlain by residuum of the Chepultepec
Formation. The landform is a long, gently sloping spur ridge with a 8% slope gradient.
Present forest is old-field successionai that is presently dominated by oaks, but there are still
some red cedars along with white pine seedlings and red maple sprouts. The ground surface
is leaf covered and there is no evidence of recent disturbance. The soil is representative of
Chepultepec soiis except for a thicker surface organic horizon.
ORR Site 51. This site is located on Chestnut Ridge and underlain by residuum of the
Copper Ridge Formation. The landform is a convex sideslope with a slope gradient of about
15%. Present forest is old-field successionai but most of the original pines have died and
fallen over. Present trees are mostly tulip poplar, red maple and sugar maple. This site is
-------�
A-9
20 years. This site is also within 80 ft of a recent woods road that provided access to well
drilling sites. The soil is tvpical of Copper Ridge soils.
ORR She 52. This site is located on Chestnut Ridge and is underlain by residuum of the
Chepultepec Formation. The landform is a doubly convex shoulder of a sideslope. The slope
gradient is about 12%. Present forest is old-field successional but most of the original pines
have died and fallen over releasing the present hardwoods that are dominated by red maple,
along with a few cedars and tulip poplar. The mostly leaf covered ground surface also has
ferns and honeysuckle. The soil is typical of Chepultepec soils.
ORR Site 53. This site is situated on Chestnut Ridge and is underlain by residuum of the
Chepultepec Formation, but the upper 36 cm of the soil consists of colluvium. The landform
is a convex sideslope about a third of the way below a doubly convex shoulder with a slope
gradient of about 20%. Present forest is old-field successional. but the old field had been
abandoned well before 1940. Present trees consist of white oak with an understory of
dogwood, sourwood, and black gum. The actual soil pit revealed a complicated situation. The
upper 36 cm of the sampled face had colluvium to a depth of 36 cm. but colluvium extended
to a depth of 70 cm on the left half of the pit face while the right half of the pit had clayey
residuum at a depth of 36 cm.
ORR Site 54. This sue is situated on Chestnut Ridge and is underlain by residuum of the
Copper Ridge Formation. The landform is a convex sideslope with a slope gradient of about
30%. Present forest vegetation consists of older cutover trees that are presently dominated
by chestnut oak with an understory of red maple. The forest at this site is very open. The soil
is typical of Copper Ridge Soils.
ORR Site 55. This sue is situated on Chestnut Ridge and is underlain by residuum of the
Copper Ridge Formation. This site is located on a middle part of a convex sideslope between
old alluvium above and colluvium below. Slope eradient is about 26% wiih a northeast aspect.
Present vegetation is cutover forest dominated by chestnut oak, and'with sugar maple and
tulip poplar understory and a lower level of dogwood and black gum and oak seedlings. This
site does not ever appear to have been plowed in the past due to the very high surficial chert
content.The upper 27 cm of the soil consisted of colluvium. The shaded aspect has resulted
in a darker than typical surface layer and there is considerable evidence of worm activity.
ORR Site 58. This site is situated oh Chestnut Ridge and is underlain bv residuum of the
Copper Ridge Formation. The sue is on the edge of a large, slightly convex ridgetop with a
6% slope gradient. Present forest is dominated by older hardwoods of red oak, sugar maple
and some tulip poplar and an understory of sprouts and seedlings. The soil is a very typical
Copper Ridge soil.
ORR Site 59. This site is situated on Chestnut Ridge and close to Route 95. It is
underlain by residuum of the Copper Ridge Formation. The landform is a broad, convex,
lower middle sideslope with a slope gradient of about 20%. This sue was a pasture field
before abandonment and does not appear to have been plowed nor badly eroded. Present
forest is old-field successional with some mature shortleaf pine, mature white oak and an
understory of dogwood, beech, red maple and sassafras.The soil is a typical example of a
-------�
A-10
ORR Site 60. This site is situated on Chestnut Ridge and is underlain by residuum of the
Copper Ridge Formation. The landform is a doubly convex shoulder that steepens off into
a drainagewav. Slope gradient at the pit site is about 25%. Forest on this site is old-field
successional. The original pines have either died and fallen over or were harvested. Present
trees are red maple and oak, along with a few white pine and Virginia pine. There is an old
field road about 20 ft uphill. The soil at this site was eroded in the past but otherwise is a
typical example of a Copper Ridge soil.
ORR Sice 62. This site is situated on Chestnut Ridge and is underlain by residuum of the
Copper Ridge Formation. The landform is a broad, slightly convex, ridgetop with a slope
gradient of about 4%. Forest is old-field successional. The original pines have all died and
fallen over. Present canopy trees are oak and hickory with a red maple and dogwood
understory and seedlings of red maple and sassafras. This site is about 80 ft east of a recent
clearcut that was replanted to loblolly pine. The soil is a typical example of Copper Ridge
soils.
ORR Sice 64. This site is situated on Chestnut Ridge and is underlain by residuum of the
Copper Ridge Formation. The landform is the top of a slightly convex ridge with a slope
gradient of about 3 to 5%. The forest is old-field successional. The early pines haver all died
and fallen over or else were harvested. Present trees consist of a few iarge oaks and tulip
poplar, and a thick sapling stand of red maple. There was no evidence of any recent
disturbance.The soil is a typical example of a Copper Ridge soil.
ORR Site 66. This site is situated on Chestnut Ridge and is underlain by residuum of the
Chepultepec Formation. This landform is a doubly convex spur below a higher bench
landform and there is a slope gradient of about 15%. The forest at this site is a severely
eroded old-Geld successional type that was dominated by Virginia pine. Most pines are still
alive and standing. Some poplar, red maple trees are growing into the canopy and there is a
thick understory of red maple saplings and dogwood. The pit site is in a thick stand of fems.
The soil at this site is a typical example of a Chepultepec soil.
ORR Site 68. This site is situated on Chestnut Ridge and is underlain by residuum of the
Chepultepec residuum. This site has a surficial layer of colluvium 40 to 50 cm thick. The
landform is a convex sideslope below a colluvial bench and close to a recent tree throw
mound. The actual pit has a colluvial layer of variable thickness that may be an older tree
throw site. Present forest consists of older trees. There was a partial cutting about 15 to
20 years ago. Present tall trees are oaks, hickories and subcanopy trees of red maple and tulip
poplar with a good stand of sprouts and saplings.
ORR Site 73. This site is situated on Chestnut Ridge and is underlain by residuum of the
Chepultepec Formation. The landform is a doublv convex spur just below a topographic
bench landform. Slope gradient is about 15%. The forest consists of older trees and there has
been harvesting from time to time. Stumps are near the pit. Present canopy trees are tulip
poplar, oak and red maple. There is a thick sapling stand of oak. cherry, dogwood, and red
maple. The soil is a typical example of a Chepultepec soil. The pit sampling face cut through
an old stump hole, but this section was not sampled.
ORR Site 74. This site is situated on Chestnut Ridee and is underlain by residuum of the
Chepultepec Formation. The landform is a convex shoulder on the lower part of a long spur
-------�
A-11
close to an old fence row where old trees have barbed wire in them. The site was probably
a pasture field at one time but it does not appear to have been plowed. The soil has a slightly
higher sand content in the surface layer, but otherwise is a typical example of a Chepultepec
soil.
ORR Site 75. This site is situated on Chestnut Ridge and is underlain by residuum of the
Copper Ridge Formation. The landform is a broad, doubly convex, ridgetop with a slope
gradient of about 13% and a shady northeast aspect. Forest is old-field successional. The
original pines are being replaced by a thick stand of young pines, tulip poplar, black gum,
sourwood and dogwood. The soil at this site has a thicker and darker surface than is
otherwise typical of Chepultepec soils, but this soil is typical on this shaded aspect for
Chepultepec soils.
ORR Site 77. This site is situated on Chestnut Ridge and is underlain by residuum of the
Chepultepec Formation. The landform is a broad, slightly convex ridgetop with a slope
gradient of 2 to 3%. Forest is old-field successional. A few of the original pines are still
standing along with taller red cedars. Most of the present canopy trees are now oaks,
hickories, red maple and cherry. The ground surface is leaf covered. The soil is a typical
example of a Chepultepec soil.
ORR Site 78. This site is situated on Chestnut Ridge and is underlain by residuum of the
Chepultepec residuum. The landform is a broad, slightly convex ridgetop with a slope gradient
of 4 to 5%. The forest here is old-Field successional. Most of the original pines have died and
fallen. Present canopy tree are oaks and tulip poplar and a lower story of red maple, sassafras
and cherry. The ground surface is leaf covered. This soil at this sue has a surficial capping of
ancient colluvium that is about 36 cm thick.
ORR Site 83. This site is situated on Chestnut Ridge and is underlain by residuum of the
Copper Ridge Formation. The landform here is an elongated, doubly convex ridgetop, with
a slope gradient of about 5%. The forest is old-field successional. Most of the original pines
have died and fallen over. The present trees are red maple, a few pines, poplars, dogwoods,
cherry and sourwood along with some cedars. The ground surface is leaf covered. The soil is
a typical example of a Copper Ridge soil.
ORR Site 85. This site is situated on Chestnut Ridge and is underlain by residuum of the
uppermost Chepultepec Formation. The landform is a lower third of a long convex sideslope.
The slope gradient here is about 48% and the site is on a shaded north-northeast aspect.
Forest here is older growth that has been cutover from time to time. Present canopy trees are
red oak. sugar maple, white pine and magnolia. There is abundant poison ivy and ferns. The
ground surface is leaf covered. The upper 42 cm of the soil consists of creep materials.
ORR Site 86. This site is situated on Chestnut Ridge and is underlain by residuum of the
uppermost Chepultepec Formation and perhaps some of the Longview Formation. The
landform is a doubly convex, steep sideslope about balfwav between the road and the creek.
Slope gradient is about 45%. Forest here is old-growth, but which has been cutover from time
to time. Canopy trees are Chestnut oak and a few hickories along with some smaller red
maples and sassafras. The entire soil has a very high chert content and that makes this soil
-------�
A-12
ORR Site 90. This site is on Chestnut Ridge and close to Chestnut Ridge road. It is
underlain by residuum of the Chepultepec Formation. The landform is a small, doubly convex
spur that is surrounded by old alluvium. Slope gradient is about 6%.
Present vegetation is a 30 to 40 year old stand of planted loblolly pine. There is a thick
understory of red maple, roses, honeysuckle and blackberry briars. The soil is typical of lower
Chepultepec soils that have sandstone fragments and a slightly higher sand content in the
surface layer. This site is about 60 ft north of Chestnut Ridge Road and has received road
dust additions and perhaps other contaminants.
ORR Site 91. This site is situated on Chestnut Ridge and is underlain by residuum of the
Copper Ridge Formation. The landform is a long convex sideslope spur. Slope gradient is
about 1% and on a shaded north aspect. The forest is an older one as there were several
chestnut stumps near the pit. Present trees are tulip poplar, cherry, post oak.white oak plus
one chestnut sprout about 15 ft tall with a 1 inch dbh. The ground is leaf covered. Except for
a darker and thicker surface layer this soil is a typical example of a Copper Ridge soil.
ORR Site 93. This site is located in Bethel Vallev east of Building 1505. very close to
SWSA-1 and about 200 ft into the woods south of the intersection of the blacktop road and
the dirt road. This site is underlain by residuum of the Chickamauga Group Unit G. The
landform is a broad convex spur that extends to the north from Haw Ridge. The slope
gradient is about 7%. Present forest is dominated by hardwoods but there are pines, a few
large cedars, oaks and ash. The ground is leaf covered and there is also abundant poison ivy.
The initial rad scan gave a higher than normal ground level reading of 70 CPM. The soil at
this site was fairly typical of deeper Chickamauga soils. Depth to rock was highly variable
below 85 cm.
ORR Site 99. This site is located east of Building 1505 along the blacktop road that goes
west to SWSA-1. This site is on the north side of the road and about 50 ft into the woods.
The site is underlain by residuum of the Chickamauga Group-Unit G. The landform is a lower
convex sideslope with numerous gullies. The pit was dug between gullies. Slope gradient was
about 5%. Forest consists of old-field successional Virginia pine and shortleaf pine. There is
a thick sapling stand of red maple and dogwood along with honevsuckle and poison ivy. The
ground surface is about 70% covered with mosses and lichens and the remainder covered with
pine needles and leaves. The soil at this site was deeply weathered and no rock was
encountered to a depth of about 8 ft.
ORR Site 100. This site is located just west of Building 1505, about 300 ft south of the
blacktop road that goes to SWSA-1. This site is underlain bv residuum of the Chickamauga
Group Unit G. The landform is on a fairly broad convex spur that drops off of Haw Ridge.
Slope gradient is about 12%. This site is in a severely eroded woods pasture. The open forest
is dominated by large oaks, some white pine and sugar maple along with beech and maple
saplings. There were blueberry bushes on the site. The ground surface was leaf covered. This
sue was unusual for Chickamauga soils in that there were blueberries and a surface organic
horizon, an indication of deep weathering and acid soils. No hard rock was encountered in
the soil pit but a Cr (paralithic) horizon was encountered at a depth of 84 cm.
ORR Site 101. This site is located in the edge of the woods immediately east of the new
water treatment plant and about 50 ft into the woods. The landform is a convex spur coming
off of Haw Ridge. The soils had been severely eroded before abandonment. Slope gradient
-------�
A-13
saplings of sugar maple, beech and dogwood. The ground surface was leaf covered and there
was no evidence of any recent disturbance. The soil at this site was typical of Unit G
Chickamauga soils where rock is commonly encountered below a depth of about 50 cm.
ORR Site 102. This site is located east of Building 4500 and about 300 ft south of the
road. The site is located in an old farm house yard or a barnyard. It is underlain by residuum
of the Chickamauga Group. The landform is a broad, slightly convex sideslope with a slope
gradient of about 3%. The present vegetation consists of an open stand of mature oaks and
Virginia pine. The ground surface has considerable grass, honeysuckle and poison ivy. There
was no evidence of any recent disturbance. The soils were typical Chickamauga soils with rock
encountered at a depth of 101 cm.
ORR Site 103. This site is located about 100 ft east of the paved road that goes south to
the old Health Physics Reactor and across the road from a group of trailers. The site is
underlain by residuum of the Chickamauga Group. The landform is the mid part of a doubly
convex sideslope with a slope gradient of about 24%. The forest is old-field successional.
Some of the original pines remain along with a few older oaks. Small trees are beech,
dogwood, gum and cedar. This site had been severely eroded prior to abandonment. The soils
were deeply weathered at this site with no rock encountered within 105 cm.
ORR Site 104. This site is located east of the X-10 complex, and about 300 ft south of
the powerline ROW. The site is underlain by deeply weathered residuum of the Chickamauga
Group. The landform is a doubly convex sideslope with a slope gradient of about 13%.
Present vegetation is old-field successional forest. Most of the original pines and cedars have
disappeared. Present trees consist of oaks, red maple and hickories. There are some lowbush
blueberries and the ground surface is leaf covered.
ORR Site 108. This site is located in Bethel Valley east of the X-10 complex. It is
underlain by shallow residuum of the Chickamauga Group with depth to rock varying from
53 to 95 cm in the soil pit. The landform is a doublv convex sideslope-with a siope gradient
of about 9%. Present vegetation is old-field successional forest with some large pines, more
smaller pines and an understory of. hardwoods. There is also fairlv thick brush along with
honeysuckle and poison ivy on the forest floor. The forest floor is mostly leaf covered but
there are small patches of mosses.
ORR Site 110. This sue is located east of ORR Site 108 and farther east of the X-10
complex. This site is underlain by residuum of the Chickamauga Group. The landform is a
convex, elongated ridgetop with a slope gradient at the soil pit of about 2%. This site is in
an area where experiments had been located in the past. Present vegetation is old-field
successional forest with pines, cedars and oaks as canopy trees. There are also smaller beech
and dogwood along with weeds and honeysuckle. This site had been severely eroded prior to
abandonment. The soil had thin rock ledges at several depths in the pit face that was sampled.
ORR Site 115. This site is located in Bethel Valley, east of ORR Site 110 but in the same
vicinity, and close to the Walker Branch embavment of Melton Hill Lake. This site is
underlain by shallow residuum of the Chickamauga Group Unit E. Depth to rock on the site
ranged from above the ground surface to a maximum depth of 75 cm. The landform is a
convex ridgetop with a slope gradient of about 3%. Present vegetation is old-field successional
forest of Virginia pine, red cedar, oaks, hickories, ash and doewood. Poison ivy was abundant.
-------�
A-14
Depth to rock in the soil pit was between 25 and 45 cm except for one corner that was 75 cm
deep.
ORR Site 116. This site is located on a peninsula of the Walker Branch Embayment and
about 500 ft south of Bethel Valley road. This site is underlain by deeply weathered residuum
of the Chickamauga Group Unit F. There were some rounded gravels on the surface, an
indication that this site was covered with alluvium sometime in the past. A flint chip was
found in the old Ap horizon, a.", indication that this area has been used for quite some time
in the past. The landform is a sngntly elongated, slightly convex ridgetop with a slope gradient
of about 3%. Present vegetation is a planted stand of loblolly pine with an estimated age of
about 40 years. There are a few hardwoods in the understory and there is abundant
honeysuckle. This site is located fairly close to an old house or barn.
ORR Site 117. This site is located on a peninsula located in the Walker Branch
embayment and about 300 ft south of ORR Site 116. This site is underlain by residuum of
the Chickamauga Group Unit G. Rock was encountered in the soil pit at a depth of 105 cm.
The landform is a slightly convex spur that was once covered with old alluvium. Slope gradient
on the site was about 2%. Present vegetation is a planted loblolly pine plantation with
approximately 40 year old trees. Landform is a slightly convex spur that extends out into the
lake and the slope gradient at the site is about 2%. This site was farmed in the past.
ORR Si.. 118. This site is located in the K-25 section of the ORR. This site along with
sites ORR Site 119 and ORR Site 120 occur in the only, almost undisturbed, stand of native
hardwoods left in the East Fork area of Poplar Creek. The site is underlain by deeply
weathered residuum of the East Fork section of the Chickamauga Group. The landform is
a doubly convex spur between two small drainageways. Slope gradient is about 6%, This site
is underlain by deeply weathered residuum of the East Fork Chickamauga Group. Present
vegetation is old growth hardwoods of white oak, American beech, cherry and sugar maple.
This part of the forest does not appear to have been plowed but the site has been eroded,
probably the results of cattle pasturing or burning off the ground cover. The soil is typical of
most deep Chickamauga soils.
ORR Site 119. This site is located in the K-25 section of the ORR, and within the only
area of old growth hardwoods in the area. The site is underlain by residuum of the East Fork
section of the Chickamauga Grouo The landform is a narrow convex ridge with a slope
gradient of about 3%. Vegetation a; fiis site is cutover woods. Present trees are cedars along
with oaks, ash and hardwood saplings. Depth to rock varied from 30 cm to more than 100 cm
in the soil pit.
ORR Site 120. This site is located in the K-25 section of the ORR. It is underlain by
deeply weathered residuum of the East Fork section of the Chickamauga Group. The
landform is a sideslope with slight convexity and a slope gradient of about 4%. Present
vegetation is old growth hardwoods dominated by beech. This does not appear to have aver
'^een piowed but was probably a woods pasture. The soil on this site had a surficial layer of
lid alluvium that was about 27 cm thick.
ORR Site 121. This site is located in the K-25 section of the ORR and about 200 ft south
of the old county road. This site is also about 200 ft north of an old cemetery. The landform
is a convex shoulder of a broad, slightlv convex ridgetop. Slope gradient is about 5%. Present
-------�
A-15
Virginia pine with an understorv of hardwoods. The forest floor is open but covered with pine
needles. This site had been plowed and was severeiv eroded at abandonment.
ORR Site 122. This sue is located in the K-25 section of the ORR. This site is underlain
by deeply weathered residuum of the East Fork section of the Chickamauga Group. The
landform at this site is an elongated but narrow ridgetop with a slope gradient of about 6%.
Present vegetation is a planted loblolly pine plantation with trees about 40 years old. There
are abundant briars and honeysuckle. This site is located close to an old farm building site.
This site has been subjected to some erosion.
ORR Site 123. This site is located in the K-25 section of the ORR. This site is underlain
by deeply weathered residuum of the East Fork section of the Chickamauga Group. The
landform is a convex sideslope below a prominent chertv ridge. Present vegetation is a loblolly
pine plantation with trees about 40 vears old. This sue had been severely eroded prior to
abandonment.
ORR Site 124. This site is located in the K-25 section of the ORR. And just west of a
rock bluff overlooking the East Fork of Poplar Creek. This site is underlain at shallow depth
by rocks of the East Fork section of the Chickamauga Group. Landform is a broad but
slightly convex ndgetop with a slope gradient of about 29c at the pit site. The site is located
near the edge of a loblolly pine plantation. The soil surface is leaf covered and there has been
no recent disturbance, but there had been disturbance when the pines were planted.
ORR Site 125. This site is located in the K-25 section of the ORR, and close to ORR
Site 123 and ORR Site 124. The site is underlain by deeply weathered residuum of the East
Fork section of the Chickamauga Group. The landform is a very gently sloping, slightly
convex ridge with a slope gradient of about 3% at the site. Present vegetation is loblolly pine
about 40 years old. This site had been severely eroded before abandonment.
ORR Site 126. This site is located in the K-25 section of the ORR. -and on the south side
of the Oak Ridge Turnpike about 500 ft. This site is underlain by deeply weathered residuum
of the East Fork section of the Chickamauga Group. The actual soil pit was in a brecciated
zone. Several sandstone fragments from the Rockwood sandstone of East Fork Ridge were
in the subsoil. The landform is ihe convex top of a narrow spur ridge with a slope gradient
of about 5%. Present vegetation is old-field successional forest, presently a mix of pines and
hardwoods. There is abundant poison ivv ground cover and considerable mosses. The soils
were severely eroded prior to abandonment.
ORR Site 127. This site is located in the K-25 section of the ORR. and on the south side
of the Oak Ridge Turnpike about 300 ft. The site is underlain by deeply weathered residuum
of the East Fork Chickamauga Group. The landform is a broad convex ridgetop with a slope
gradient of about 2%. Present vegetation is old-field successional forest of Virginia pine, red
cedar, ash, some tulip poplar along with abundant ground cover of poison ivy and
honeysuckle. The soil was severeiv eroded prior to abandonment.
ORR Site 128. This site is located in the K-25 section of the ORR. and on the south side
of the Oak Ridge Turnpike about 400 ft. The site is underlain bv deeply weathered residuum
of the East Fork section of the Chickamauga Group. The landform is an mterfluve between
the heads of two gullies and with a slope gradient of about 4%. Present vegetation is old-field
-------�
A-16
maple. There is abundant poison ivy and honeysuckle. The soil at this site was severely eroded
prior to abandonment.
ORR Site 129. This site is located in the K-25 section of the ORR. IT is located on the
old county road as shown on the site location map. The actual site is about 250 ft east of the
gravel road. This site is underlain by deeply weathered residuum of the East Fork section of
the Chickamauga Group, and also very close to the Whiteoak Mountain Fault. The landform
is the lower convex sideslope with a slope gradient of about 11%. Present vegetation is
old-Geld successional forest This site was probably a pasture and was not severely eroded
before abandonment. Present trees are white pine, and a few large oaks. There are also some
-------�
A-17
A3. ROANE COUNTY SITE DESCRIPTIONS
ROANE Site 3. On the Pattie Gap quadrangle, go south on Dry Fork Valley Road. This
property lies west from Salem Baptist Church. The site is in the hardwood forest 550 ft west
of the church, 350 ft southwest of Stamp Creek, and 200 ft southeast of the power lines. The
present vegetation is oak, sweetgum, red maple, dogwood, and poison ivy. There was no
evidence of a plow layer. The underlying geology is the Dismal Gap Formation. The site lies
between several rills and gullies in a convex toeslope position.
ROANE Site 7. On the Pattie Gap quadrangle, go south on Dry Fork Valley Road. After
passing Blue Springs Road, the power lines will cross the road. The site is in the hardwood
thicket 1500 ft southwest of the intersection of Blue Springs Road and Dry Fork Valley Road.
It is 750 ft west of the intersection of the power lines and Dry Fork Valley Road. It is 600 ft
west of Dry Fork Creek. This site has been cleared at one time. The present vegetation is
tulip poplar, dogwood, red maple, and some Virginia pine. Age of the deciduous trees
indicated they had been established at least 40 years. There was evidence of a plow layer.
There are many spots where rills are beginning to develop. The underlying geology is the
Dismal Gap Formation. There is evidence of colluvium on this site. Oddly, in several places
sandstone fragments can be seen laving on the surface. Presently, this area is occupied by
cattle for pasture.
ROANE Site 8. On the Pattie Gap quadrangle, go south on Dry Fork Valley Road. After
passing Blue Spring Road, the power lines will cross the road. The site is in the hardwood
thicket 1800 ft southwest of the intersection of Blue Spring Road and Dry Fork Valley. It is
500 ft west of the intersection of the power lines and Dry Fork Valley Road. It is 300 ft east
of Roane Site 7. This site has been cleared at one time. The present vegetation is tulip
poplar, dogwood, red maple, and some Virginia pine. Age of the deciduous trees indicated
they had been established at least 40 years. There was evidence of a plow layer. There are
many spots where rills are beginning to develop. The underlying geology is the Dismal Gap
Formation. There is evidence of colluvium on this site. Oddly, in several places sandstone
fragments can be seen laying on the surface. Presently, this area is occupied by cattle for
pasture.
ROANE Site 9. On the Pattie Gap quadrangle, go south on Dry Fork Valley Road. This
property lies west from Salem Baptist Church. The site is in the hardwood forest 500 ft west
of the church, 500 ft southwest of Stamp Creek, and 200 ft southeast of the power lines. The
present vegetation is oak hardwoods mixed with Virginia pine. There was no evidence of a
plow layer. The underlving geology is the Dismal Gap Formation. The site lies between
several rills and gullies in a convex toeslope position.
ROANE Site 10. On the Pattie Gap quadrangle, go south on Dry Fork Valley Road. Turn
west on to Gage Road. After crossing Stamp Creek, the site is on a small knob 300 ft
northeast from Gage Road and 350 ft northwest of Dry Fork Valley Road. It lies 100 ft west
from the creek. This site has been cleared at one time. The present vegetation is shortleaf
pine, red maple, and oak. Age of the deciduous trees indicated they had been established at
least 40 years. There was evidence of a plow layer. The underlying geology is the Dismal Gap
Formation. There is evidence of alluvium on this site. Several large rounded rocks were on
site and in the profile. The area north of this site was a sagegrass field with multiple gullies
-------�
A-18
ROANE Site 13. On the Pattie Gap quadrangle, go south on Dry Fork Valley Road. Go
past Gage Road. The sue is in the forest 3000 ft south from Gage Road and 500 ft west from
Dry Fork Valley Road. It is 250 ft west from the creek. The present vegetation is Virginia
pine, red maple, dogwood, poison ivy. and chestnut oak. Age of the deciduous trees indicated
they had been established at least 40 years. There was evidence of a plow layer. The
underlying geology is the Dismal Gap Formation. The site is at the bottom of a long slope
in a bench position. There is evidence of alluvium in the area but none was seen in this
profile.
ROANE Site 14. On the Pattie Gap quadrangle, go south on Dry Fork Valley Road. Go
past Gage Road. The site is in the forest 3200 ft south from Gage Road and 600 ft west from
Dry Fork Valley Road. It is 250 ft west from the creek. This site is on a rise 200 ft south of
Roane 13. The present vegetation is tulip poplar, red maple, dogwood, poison ivy, and
chestnut oak. The understory vegetation is thick. Age of the deciduous trees indicated they
had been established at least 40 years. There was evidence of a plow layer. The underlying
geology is the Dismal Gap Formation. However, this formation is very thin and in digging the
soil pit the Rogersville Formation was also exposed. The site is in a midslope position. The
slope rapidly drops into a drain below the site.
ROANE Site 17. On the Pattie Gap quadrangle, go south on Dry Fork Valley Road. The
site is in the pine thicket 1000 ft west of Dry Fork Valley Road and 3000 ft north of
Waterford Lane. The present vegetation is Virginia pine, eastern red cedar, and sweetgum.
This land has not been cleared in the last 40 years. There was no evidence of a plow layer.
The underlying geology is the Dismal Gap Formation. The site lies between the convergence
of two drains on a convex slope.
ROANE Site 19. On the Pattie Gap quadrangle, go south on Dry Fork Valley Road. This
property lies west of Salem Baptist Church. The site is in the hardwood forest 750 ft west of
the church, 750 ft southwest of the creek, and 200 ft southeast of the power lines. The
present vegetation is oak. red maple, hickorv, eastern red cedar, and dogwood. There was
evidence of a plow layer. The underlying geology is the Dismal Gap Formation. The site lies
between several rills and gullies on a convex toeslope.
ROANE Site 20. On the Pattie Gap quadraneie, go south on Dry Fork Valley Road. This
property lies west of Salem Baptist Church. ~he site is in the hardwood forest 950 ft
northwest of the church. 1000 ft southwest of Sta ip Creek, and 200 ft southeast of the power
lines. The present vegetation is chestnut oak. sweetgum. and dogwood. There was evidence
of a plow layer. The underlying geology is the Dismal Gap Formation. The site lies between
several rills and gullies in a toeslope position. Highly eroded.
ROANE Site 21. On the Pattie Gap quadrangle, go south on Dry Fork Valley Road. This
property lies west of Salem Baptist Church. The site is in the hardwood forest 1100 ft west
of the church, 1200 ft southwest of Stamp Creek, and 200 ft southeast of the power lines. The
present vegetation is oak, red maple, tulip poplar, sweetgum. and ground pine. There was
evidence of a plow layer. The underlying geology is the Dismal Gap Formation. The site lies
between several rills and gullies in a midslope position.
ROANE Site 22. On the Pattie Gap quadrangle, go south on Dry Fork Valley Road. This
property lies west of Salem Baptist Church. The site is in the hardwood forest 1400 ft west
-------�
A-19
present vegetation is oak. Virginia pine, tulip poplar, eastern red cedar, and ground pine.
There was evidence of a plow layer. The underlying geology is the Dismal Gap Formation.
The site lies between several rills and gullies in a midslope position on a bench.
ROANE Site 33. This site is on the Pattie Gap Quadrangle. The site is 500 ft east from
Dry Fork Valley Road, 500 ft north from Gage Road, and 400 ft northeast from an old
limestone quarry that is marked on the topo map. This area has been under hardwood forest
for the last 40 years. The primary constituents are redbuds, scarlet oak, hickory, dogwood, and
blackjack oak. The area has been burned over at some time in the past. Scars on the trunks
of the older trees were very evident. The underlying geology is the Copper Ridge Formation.
ROANE Site 34. This site is on the Pattie Gap Quadrangle. The site is 1000 ft southeast
from Dry Fork Valley Road, 1200 ft northeast from Gage Road, and 1000 ft northeast from
an old limestone quarry that is marked on the topo map. This area has been under hardwood
forest for the last 40 years. The primary constituents are scarlet oak. black oak, Virginia pine,
and blackjack oak. The area has been burned over at some time in the past. Scars on the
trunks of the older trees v-ere very evident. The underlying geology is the Copper Ridge
Formation.
ROANE Site 35. This site is on the Pattie Gap Quadrangle. The site is 1000 ft southeast
from Dry Fork Valley Road. 1000 ft northeast from Gage Road, and 100 ft west from an old
logging road. This area has been under hardwood forest for the last 40 years. The primary
constituents are scarlet oak. chestnut oak, hickory, dogwood, sassafras and blackjack oak. The
area has been burned over at some time in the past. Scars on the trunks of the older trees
were very evident. The underlying geology is the Copper Ridge Formation.
ROANE Site 39. Located on the Pattie Gap Quadrangle, this site lies 500 ft north from
Williams Road and 1000 ft southeast from the intersection of Williams Road and Dry Fork
Valley Road. This area been forested for the last 50 years. The primary forest species were
chestnut oak, scarlet oak. blackjack oak, and dogwood. The underlying geology is the Copper
Ridge Formation.
ROANE Site 40. Located on the Pattie Gap Quadrangle, Roane 40 lies 900 ft north from
Williams Road and 1500 ft southeast from Dry Fork Valley Road. This area been forested
for the last 50 years. The primary forest species were chestnut oak, white oak. hickory, and
Virginia pine. The underlying geology is the Copper Ridge Formation.
ROANE Site 41. On the Pattie Gap quadrangle, this site is 1200 ft northeast from
Williams Road 1800 ft southeast from Dry Fork Valley Road. This area been forested for the
last 50 years. The primary forest species were chestnut oak. scarlet oak. and white oak. The
underlying geology is the Copper Ridge Formation.
ROANE Site 42. This sue is located on the Pattie Gap quadrangle 1500 ft southeast from
Dry Fork Valley Road and 50 ft northeast of an old logging road. It is 1000 ft south of the
powerlmes. This area was under deciduous forest, primarily red maple, blackjack oak, chestnut
oak, and red sumac. The area has not been cleared in the last 40 years. The underlying
geology is the Copper Ridge Formation.
ROANE Site 43. The site is on the Pattie Gap Quadrangle. Located 1300 ft southeast
-------�
A-20
south from the power lines. This area was under deciduous forest, primarily sassafras,
dogwood, chestnut oak, and red sumac. The area has not been cleared in the last 40 years.
The underlying geology is the Copper Ridge Formation.
ROANE Site 44. The site is on the Pattie Gap Quadrangle and located 1000 ft southeast
from Dry Fork Valley Road and 1400 ft south from the power lines. This area was under
deciduous forest, primarily dogwood, maple, blackjack oak, chestnut oak, and tulip poplar.
The area has not been cleared in the last 40 years. The underlying geology is the Copper
Ridge Formation.
ROANE Site 45. The site is on the Pattie Gap Quadrangle. Roane 45 is located 1500 ft
southeast from Dry Fork Valley Road, 100 ft west of an old logging road, and 1600 ft south
from the power lines. This area was under deciduous forest, primarily sassafras, dogwood,
chestnut oak, and hickory. The area has not been cleared in the last 40 years. The underlying
geology is the Copper Ridge Formation.
ROANE Site 46. The site is on the Pattie Gap Quadrangle. Located 1500 ft southeast
from Dry Fork Valley Road, this site is 100 ft west of an old logging road and 1800 ft south
from the power lines. This area was under deciduous forest, primarily sassafras, dogwood,
chestnut oak. and red maple. The area has not been cleared in the last 40 years. The
underlying geology is the Copper Ridge Formation.
ROANE Site 47. The site is on the Pattie Gap Quadrangle. This site is located 1400 ft
southeast from Dry Fork Valley Road. It is 200 ft west of an old logging road and 2100 ft
south from the power lines. This area was under deciduous forest, primarily tulip poplar,
dogwood, oak. and red maple. The area has not been cleared in the last 40 years. The
-------�
A-21
A3 ANDERSON COUNTY SITE DESCRIPTIONS
ANDERSON Site 1. The sue is in a hardwood thicket adjacent to the Old Andersonville
Pike between Hinds Creek Valley Road and US 441. Located in the Nonis Quadrangle, this
site is approximately 1400 ft northeast of Old Anderson Pike and 1000 ft west from Hinds
Creek Road. This site is 200 ft northeast of Anderson Site 10. The site had been cleared at
one time. The present vegetation is tulip poplar, dogwood, red maple, and some Virginia pine.
Age of the deciduous trees indicated they had been established at least 50 years. The
underlying geology is the Dismal Gap Formation. There was a water seep at approximately
40 centimeters. The slope dips strongly (30%) approximately 50 ft from the site. Presently,
this area is occupied by cattle for pasture.
ANDERSON Site 3. This site is located on the Big Ridge Park quadrangle. Take Highway
441 north. Turn right on to Hinds Creek Road. After several miles, the road forks. Take the
road on the left, which is Judson Road. The site is in a hardwood forest 100 ft northwest of
Judson Road and 0.4 miles south from the intersection of Judson Road ana Moore Valley
Road (Cooper's Gap). The present vegetation is moss, poison ivy, dogwood, red maple, and
Virginia pine. Age of the deciduous trees indicated they had been established at least
50 years. The underlying geology is the Dismal Gap Formation. The site is on a wide slope.
The surface drops to a drainage way approximately 150 ft to the northwest. There are no
houses near this site, although there are indications of an old home site approximately 300 ft
southwest of the site near Judson Road.
ANDERSON Site 4. Located on the Big Ridge Park quadrangle, this site is in a hardwood
forest 300 ft northwest of Judson Road and 0.6 miles south from the intersection of Judson
Road and Moore Valley Road (Cooper's Gap). The present vegetation is poison ivy,
dogwood, elm. cherry, sourwood. red maple, and Virginia pine. Age of the deciduous trees
indicated they had been established at least 50 years. The underlying geology is the Dismal
Gap Formation. The site is in the middle of a steep slope. It was difficult to find a good level
position in which to dig.
ANDERSON Site 5. Located on the Big Ridge Park quadrangle, this site is in a hardwood
forest 300 ft northwest of Judson Road and 0.6 miles south from the intersection of Judson
Road and Moore Valley Road (Cooper's Gap). This site is 300 ft south from Anderson Site 4,
but slightly higher on the slope. The present vegetation is poison ivy, dogwood, oak, and
Virginia pine. Age of the deciduous trees indicated they had been established at least
50 years. The underlying geology is the Dismal Gap Formation. The site is in the middle of
a steep slope. It was difficult to find a good level position in which to dig.
ANDERSON Site 9. This sue is on the Powell quadrangle. Take Highway 441 north. Turn
left onto East Wolf Valley Road. Go past Nolan Lane. The site is approximately 1300 ft
north of East Wolf Valley Road and 0.25 miles west from Nolan Lane. It lies m a hardwood
forest about 100 ft south of an old logging road downslope toward East Wolf Valley Road.
The surrounding forest shows evidence of having been logged in the last 40 years. The site
in a midslope position on a convex slope. The trees on this site are older and probably not
logged as recently as those closer to the logging road. The present vegetation is tulip poplar,
dogwood, red maple, and some Virginia pine. The underlying geology is the Dismal Gap
-------�
A-22
ANDERSON Site 10. This site is in a hardwood thicket adjacent to the Old Andersonville
Pike between Hinds Creek Valley Road and US 441. Located in the Norris Quadrangle, this
site is approximately 1200 ft northeast of Old Anderson Pike and 1000 ft west from Hinds.
Creek Road. This site had been cleared at one time. The present vegetation is tulip poplar,
dogwood, red maple, and some Virginia pine. Age of the deciduous trees indicated they had
been established at least 50 years. The underlying geology is the Dismal Gap Formation. The
site is in a level upland position. Presently, this area is occupied by cattle for pasture.
ANDERSON Site 11. Site is located on the Norris Quadrangle. Take Highway 441 north.
Turn right on to Hinds Creek Road. Drive several miles until two signs saying Hidden Drive
are passed. This site is located 600 ft northwest from Hinds Creek Road and 1000 ft
northwest from the Hidden Drive sign. It is 700 ft south of a small creek. The present forest
vegetation is tulip poplar, may apple, beech, red maple, and hickory. The understory
vegetation is very thick. This site has probably been cleared at some time. Age of the
deciduous trees indicated they had been established at least 50 years. The underlying geology
is the Dismal Gap Formation.
ANDERSON Site 12. This site is on the Big Ridge Park Quadrangle. Take Highway 441
north. Turn right on to Hinds Creek Road. Drive several miles until Hill Road enters on the
right. This site is located 500 ft northwest from the intersection of Hill Road and Hinds Creek
Road and 100 ft west of the power lines. It is 200 ft west from Anderson Site 22 on a wide
slope. A drain lies between sites 12 and 22. The present forest vegetation is dogwood,
sweetgum, hickory, and Virginia pine. A thick carpet of grass underlies the trees. This site has
probably been cleared at some time. Age of the deciduous trees indicated they had been
established at least 50 years. The underlying geology is the Dismal Gap Formation. The site
presently is used as pasture for cattle.
ANDERSON Site 19. This site is on the Powell quadrangle. Take Highway 441 north.
Turn left onto East Wolf Valley Road. Pass Nolan Lane. The site is in a hardwood forest on
the 300 ft south of an old logging road downslope toward Hast Wolf Valley Road. It is
approximately 1000 ft north of East Wolf Valley Road and 0.25 miles west from Nolan Lane.
The surrounding forest shows evidence of having been logged in the last 40 years. The site
in a midslope position on a convex slope. The trees on this site are older and probably not
logged as recently as those closer to the logging road. The present vegetation is tulip poplar,
sassafras, red maple, moss, and some Virginia pine. The underlying geology is the Dismal Gap
Formation. This site is 300 ft south of Anderson Site 9.
ANDERSON Site 20. Located on the Big Ridge Park quadrangle, the site is in a
hardwood forest 100 ft northwest of Judson Road and 0.3 miles south from the intersection
of Judson Road and Moore Vallev Road (Cooper's Gap). The present vegetation is moss,
poison ivy, dogwood, red maple, and Virginia pine. Age of the deciduous trees indicated they
had been established at least 50 years. The underlving geology is the Dismal Gap Formation.
The site is on a wide slope. There are several areas in which rills have developed and erosion
is evident. There are no houses near this site, although there are indications of an old home
site approximately 500 ft southwest of the site near Judson Road.
ANDERSON Site 21. Located on the Big Ridge Park Quadrangle, this site is located
700 ft northwest from the intersection of Hill Road and Hinds Creek Road and 150 ft west
of the power lines. It is 200 ft northeast from Anderson Site 12. The site is located in a saddle
-------�
A-23
sweetgum. hickory, and Virginia pine. A thick carpet of grass underlies the trees. This site has
probably been cleared at some time. Age of the deciduous trees indicated they had been
established at least 50 years. The underlying geology is the Dismal Gap Formation. The site
presently is used for pasture tor cattle.
ANDERSON Site 22. This site is located on the Big Ridge Park Quadrangle. It lies 500 ft
northwest from the intersection of Hinds Creek Road and Hill Road and 300 ft west of the
power lines. It is 200 ft east from Anderson Site 12 on a convex slope. A drain lies between
sites 12 and 22. The present forest vegetation is dogwood, tulip poplar, eastern red cedar, and
Virginia pine. A thick carpet of grass underlies the trees. This site has probably been cleared
at some time. Age of the deciduous trees indicated they had been established at least
50 years. The underlying geology is the Dismal Gap Formation. The site presently is used as
pasture for cattle.
ANDERSON Site 31. Anderson 51 is located on the Powell Quadrangle. Situated on top
of a large knob, this site is 1000 ft west of the Powell/Knox water tank. 300 ft south of the
dirt road leading to the water tank, and 800 ft northeast from Heiskell Road. This area has
been undisturbed for the last 50 years. Vegetation is primarily hardwoods-sassafras, red oak,
chestnut oak. and some Virginia pines. The underlying geology is the Copper Ridge
Formation.
ANDERSON Site 32. This site is on the Powell Quadrangle. Located 200 ft north of
Anderson 31, the site is 1200 ft southwest of the water tank, 100 ft south of the dirt road,
800 ft northeast from Heiskell Road. This area has been undisturbed for the last 50 years.
Vegetation is primarily hardwoods-sassafras, hickory, red oak, and chestnut oak. The
underlying geology is the Copper Ridge Formation.
ANDERSON Site 33. This site is located on the Powell Quadrangle. Located 500 ft
southwest from Anderson 32. this site is 700 ft southwest of the water tank. 600 ft south of
the dirt road. 900 ft northeast from Heiskell Road. This area has been undisturbed for the
last 50 years. Vegetation is primarily hardwoods-sassafras, dogwood, hickory, red oak, and
chestnut oak. The underlying geology is the Copper Ridge Formation.
ANDERSON Site 34. On the Powell Quadrangle, Anderson 34 is located across the dirt
access road 500 ft north from Anderson 33. It is 500 ft northwest of the water tank, 100 ft
north of the dirt road. 1400 ft northeast from Heiskell Road. This area has been undisturbed
for the last 50 years. Vegetation is primarily hardwoods-sassafras, dogwood, red oak, and
chestnut oak. The underlying geology is the Copper Ridge Formation.
ANDERSON Site 35. Located on the Powell Quadrangle, Anderson 35 is 200 ft northeast
from Anderson 34. This site is 700 ft northwest of the water tank. 150 ft north of the dirt
road. 1500 ft northeast from Heiskell Road. This area has been undisturbed for the last
50 years. Vegetation is primarily hardwoods-sassafras, dogwood, red oak. ana chestnut oak.
The underlying geology is the Copper Ridge Formation.
ANDERSON Site 36. Located on the Powell Quadrangle, this site is 700 ft northwest of
the water tank. 200 ft north of the dirt road, 1600 ft northeast from Heiskell Road. This area
has been undisturbed for the last 50 vears. Vegetation is primarily hardwoods-red oak. yellow
-------�
A-24
ANDERSON Site 37. Located on the Big Ridge Park Quadrangle, the site is 800 ft west
of Mt. Hebron church and 700 ft southeast from Hinds Creek Road. The area has been under
forest for the last 40 yean with vegetation primarily red cedar, red maple, and oaks. The.
underlying geology is the Copper Ridge Formation.
ANDERSON Site 38. The site is located on the Big Ridge Park Quadrangle. The site is
550 ft west of Ml Hebron church and 650 ft southeast from Hinds Creek Road. The area has
been under forest for the last 40 years with vegetation primarily red cedar, red maple, and
red/black oaks. The underlying geology is the Copper Ridge Formation.
ANDERSON Site 39. Located on the Big Ridge Park Quadrangle, this site is 1000 ft
south from Mount Zion Church and 1000 ft southeast from Hinds Creek Valley Road. Site
has been under forest for the last 40 years with vegetation primarily red oak, hickory, and red
mapie. The underlying geology is the Copper Ridge Formation.
ANDERSON Site 40. Located on the Big Ridge Park Quadrangle, this site is 1200 ft
south from Mount Zion Church and 1500 ft southeast from Hinds Creek Valley Road. It is
500 ft west from Anderson Site 42. Site has been under forest for the last 40 years with
vegetation primarily Virginia pine, ferns, and red maple.
ANDERSON Site 41. This site is located on the Big Ridge Park Quadrangle. It is 1500 ft
south from Mount Zion Church and 1700 ft southeast from Hinds Creek Valley Road. It is
200 ft west from Anderson Site 42. Site has been under forest for the last 40 years with
vegetation primarily Virginia pine, ferns, dogwood, and red maple.
ANDERSON Site 42. Located on the Big Ridge Park Quadrangle. This site is located
1200 ft south from Mount Zion Church and 1800 ft southeast from Hinds Creek Valley Road.
It is 800 ft southeast from Anderson Site 39. Site has been under forest for the last 40 years
-------�
A-25
A.4 OAK RIDGE RESERVATION SOIL PROFILES
ORR Site 2
(See pp. 20, 66, 67, 70, 71, 91 in Phase I Field Book 1)
Location:
Classification:
Geomorphic Position:
Slope and Aspect:
Parent Material(s):
Vegetation:
Described By:
Sampling Crew:
Rad. Scan:
Weather Yesterday:
Present Weather:
Date:
Oak Ridge Reservation, Grid N29300. E10300.
Ruptic Ultic Dvstrochrepts; clayey Bt, loamy-skeletal Bw, C, and
Cr, mixed, thermic
Middle of convex sideslope
16% west-northwest
Middle Dismal Gap Formation
Oaks, few red maple, sweet gum. and white pine. This site was
probably cleared and probably pastured but never plowed
D. A. Lietzke
Lietzke. Wilson
Air 25: ground level. 45
Partly cloudy, cool, scattered showers
Partly cloudv, cool
Mav*6. 1992
Soil Description:
Oi 4 to 0 cm; leaf litter, 100% coverage, few tree sprouts
A 0 to 5 cm; dark brown (10YR 3/3) silt loam; strong fine granular structure; very
friable: abrupt wavy boundary
E 5 to 14 cm; yellowish-brown (10YR 5/4) silt loam, weak fine subangular blocky
structure: very friable: clear wavy boundary
BE 14 to 20 cm; yellowish-brown (10YR 5/6) shalv siltv clay loam: weak fine
subangular blocky structure; friable; clear wavy boundary
Bt 20 to 32 cm: yellowish-red (5YR 5/6) shaly clay; strong medium subangular blocky
structure; firm: all peds coated with yellowish-brown (10YR 5/6) materials; abrupt
irregular boundary
BC&Cr 32 to 74 cm; strong brown (7.5YR 5/6) fragment interiors in BC materials and light
yellowish-brown (2.5Y 6/4) fragment interiors in C and Cr materials. Fine earth and
clay flows are strong brown (7.5YR 4/6); nearly all rock controlled structure; firm;
much glauconue in BC materials, abrupt irregular boundary
Cr 74 to 80 cm; Not described
Notes: The ESD composite samples were collected from a pit face oriented with strike.
There was less variability than the field duplicate samples that were collected from
a pit face oriented across the strike. See pp. 66 and 67 in the field log book for
sketches. The field duplicate samples were collected from the appropriate inclined
soil horizon as shown in the sketch on p. 67. Depths of sampling are: A, 0 to
-------�
A-26
ORR Site 3
(See pp. 94. 109 and 128 in Phase I Field Book 1 and pp. 4 ana 5 in Phase I Field Book 2)
Location:
Classification:
Geomorphic Position:
Slope and Aspect:
Parent Material(s):
Vegetation:
Described By:
Sampling Crew:
RacL Scan:
Weather Yesterday:
Present Weather:
Date:
Oak Ridge Reservation. Grid N29300. El 1200. This site is within
50 ft of the top edge of Bear Creek road embankment.
Tvpic hapludults: clayey, mixed, thermic
Broad slightly convex sideslope
5% south
Middle Nolichuckv Shale
Old field successional forest. Most old pines have died and fallen
over. Present regrowth is V. pine. W. pine, oak, hickory, sassafras.
cedar, with a sparse poison ivy ground cover.
D. A. Lietzke
Lietzke. Burgoa
.Air 50 ; ground level. 40
Clear, very warm, with an evening shower
Partlv clouav, verv warm, and humid
Julv 22. 1992
Soil Description:
Oi 3 to 0 cm; leaf litter and pine needles
A 0 to 5 cm; dark brown (10YR 3/3) silt loam; strong fine granular structure; very
friable; abrupt wavy boundary
Ap 5 to 15 cm; yellowish-brown (10YR 5/4) silt loam; moderate medium granular
structure; friable: abrupt wavy boundary
B&E 15 to 18 cm; dark yellowish-brown (10YR 4/6) B part, and vellowish-brown (10YR
5/6) E part; silty clay loam; weak medium subangular blockv structure; friable;
abrupt wavy boundary
Bt 18 to 40 cm; strong brown (7.5YR 4/6) clay; moderate medium subangular blockv
structure; firm; strong brown (7.5YR 4/4) ped coatings; abrupt irregular boundary
C 40 to 51 cm: light olive brown '2.5Y 5/4) fragment interiors: plugged with strong
brown (7.5YR 5/4) clay; all rock structure; abrupt irregular boundary
Cr 51 to 60 cm: brown (7.5YR 5/2) fragment interiors with most surfaces coated with
dark red (2.5YR 3/6) iron-clay complexes
Notes: Sampling depths for ESD composites are: .A 0 to 15 cm; B, 18 to 40 cm: C, 40 to
-------�
A-27
ORR Site 5
(See pp. 95. 109. and 133 in Phase I Field Book 1 and pp. 1 and 2 in Phase I Field Book 2)
Location:
Classification:
Geomorphic Position:
Slope and Aspect:
Parent Material(s):
Vegetation:
Described By:
Sampling Crew:
Rad. Scan:
Weather Yesterday:
Present Weather.
Date:
Oak Ridge Reservation, Grid N29300, E15300. about 300 ft west
of Central Training facility main entrance and 25 ft south of the
boundary fence
Typic hapludults; clayey, mixed, thermic
Broad bench landform on a convex spur
1%
Middle Nolichucky Shale with several carbonate strata
Old field successional forest. Most old pines have died and fallen
over. Present regrowth is a dense stand of young pines, cedar,
oak. dogwood, and sweet gum along with a generous stand of
honeysuckle and greenbriar.
D. A. Lietzke
Lietzke, Burgoa
Air 40. ground level, 50
Clear and very warm with showers during the past evening
Cloudv and cooler
Julv 22, 1992
Soil Description:
Oi
Oe
Ap
Bt
C&Cr
5 to 3 cm: mosses and pine needles
3 to 0 cm; hemic materials, sapric materials and a dense root mat
0 to 10 cm; yellowish-brown (10YR 5/4) silt loam; moderate fine granular structure;
very friable; abrupt wavy boundary
10 to 40 cm; strong brown (7.5 YR 4/6) clay or silty clay; moderate medium
subangular blockv structure, firm; strong brown (7.5YR 4/4) ped coatings; abrupt
irregular boundary
40 to 60 cm; olive brown (2.5Y 4/3) fragment interiors with red and black surface
coatings; strong brown, (7.5YR 5/4) clay coatings on some surfaces and also as
plugged zones
Notes:
This is the only ORR Phase I site that has a thick moss layer. Sampling depths are:
-------�
A-2S
ORR Site 10
(See pp. 21. 39. 54. 55, and 91 in Phase I Field Book 1)
Location: Oak Ridge Reservation, Grid N30200, E21460
Classification: Tvpic dystrochrepts; loamv-skeletal, mixed, thermic
Geomorphic Position: Upper convex sideslope just below ridge crest
Slope and Aspect: 20% south southwest
Parent Materials): Lower Dismal Gap Formation
Vegetation: Hardwood forest that regenerated from older severely eroded
old-field forest succession. Present trees are white oak. hickory,
cedar, ash. Ground cover of leaves and thick stand of poison ivy,
five-leaf ivy and honeysuckle.
Described By: D. A. Lietzke
Sampling Crew: Lietzke. Wilson. Farmer
Rad. Scan: Air. 20: ground level. 20
Weather Yesterday: Cooi. widely scattered showers in the morning with clearing and
warmer in the PM as the front went througn
Present Weather Clear and warm
Date: Mav 1. 1992
SoQ Description:
Oi 4 to 0 cm; leaf litter
Oa 0 to 1 cm; sapric and hemic materials with a root mat
A 1 to 12 cm: brown (10YR 4/3) shaly silt loam: strong fine granular structure: very
friable; clear wavy boundary
Bw 12 to 24 cm: yellowish-brown (10YR 5/6) shaly or very shaly silt loam or silly clay
loam; moderate medium subangular blockv structure: very friable: some peds
coated with darker materials: abrupt irregular boundary. (An intermittent Bt
honzon. formed in a carbonate stratum was dug out before sampling for ESD
composites started.)
C 24 to 46 cm: light olive brown (2.5Y 5/6) fragment interiors: most fragment
surfaces thickly coated with vellowish-brown (10YR 5/4) siltv materials. There are
thin seams of red (2.5YR 4/8) clav orieinallv derived from carbonate seams in the
rock; 60 to 90% geologic structure: interbedded with harder Cr materials at lower
depths
Cr 46 to 80 cm; light olive brown (2.5Y 5/6) fragment interiors: surface coatings of
dark red (2.5YR 3/6) and yellowish-brown (10YR 5/4)
Notes: Three sides of the pa were Tvpic Dvstrochrepts. The fourth side had a Bt horizon
but it was confined to a thin carbonate stratum and it had disappeared when the
pit was enlarged to sample for ESD composites. The Oa horizon was not sampled.
-------�
A-29
ORR Site 11
(See pp. 16. 17. 32, and 91 in Phase I Field Book 1)
Location:
Classification:
Geomorphic Position:
Slope and Aspect:
Parent Material(s):
Vegetation:
Described By:
Sampling Crew:
Rad. Scan:
Weather Yesterday.
Present Weather
Date:
Oak Ridge Reservation, about 50 ft grid north of TVA power
line ROW; Grid N29800, E21460
Typic Hapludults: clayey, mixed, thermic
Lower slightly convex sideslope; severely eroded before or after
abandonment
13% southwest
Upper Dismal Gap Formation and transition zone to lower
Nolichucky
Old field regrowth. Most pines have died and have fallen over.
Young brush and sprouts of dogwood, sassafras, cherry, red maple
and sweet gum, with an abundant ground cover of poison ivy and
honeysuckle
D. A. Lietzke
Lietzke. Wilson, Phillips, Farmer
Air. 15; ground level. 70
Partly cloudy and cool
Clear and warmer
March 17, 1992
Soil Description:
Oi
Oa
Ap
Bt
BC
C
Cr
4 to 0 cm; leaves and pine needles
0 to 1 cm; black (10YR 2/1) organic matter and root mat
1 to 18 cm: brown (10YR 4/3) silty clay loam with fresh shale fragments; moderate
fine granular structure; friable; common fine roots, abrupt wavy boundary
18 to 36 cm; yellowish-red (5YR 5/6) siltv clay or clay; moderate medium
subangular blockv structure; friable; few fine roots and few medium roots; strong
brown (7.5YR 4/6) clay coats on all ped faces: gradual wavy boundary
36 to 48 cm: strong brown (7.5YR 4/6) shalv siltv clay or shalv clay; moderate
coarse prismatic parting to moderate medium to coarse subangular blockv structure;
firm: many fragments oriented with respect to the geologic strike and dip; yellowish
and reddish parent materials saprohtic colors also present
48 to 85 cm, red (2.5YR 4/8) and vellowish-red (SYR 5/8 fragment interiors;
material easily crushes to shaly or very shalv silty clay loam. 70 to 90% rock
structure: yellowish-red (5YR 4/6) coatings on many fragment faces
85 to 132 cm: fragment interiors range from red to olive, some fragment faces are
coated with dark red (10R 3/6) while other fragment surfaces coated with
vellowish-brown (10YR 5/4) clav; some fragments with light olive gray (5Y 6/2)
fringes indicating wetness conditions: light brownish-gray (2.5Y 6/2) flow zones also
occur in this horizon, fine roots in flow zones
Notes:
-------�
A-30
ORR Site 13
(See pp. 95, 109, 135 in Phase I Field Book 1 and pp. 12 and 13 of Phase I Field Book 2).
Location:
Qassification:
Geomorphic Position:
Slope and Aspect:
Parent Material(s):
Vegetation:
Described By:
Sampling Crew:
Rad. Scan:
Weather Yesterday:
Present Weather
Date:
Oak Ridge Reservation. Grid N29480, E23220
Tvpic hapludults; clayey, mixed, thermic
Broad convex ridgetop
3% northwest
Middle Nolichuckv Shale
Old house site, probably a yard at one time. Present vegetation
is maple and poplar with a dense ground cover of poison ivy.
D. A. Lietzke
Lietzke, Burgoa
Air. 50; ground level. 60
Partly cloudy, very warm
Cloudv, verv humid
Julv 22. 1992
SoO Description:
Oi 2 to 0 cm: leaf litter
Ap 0 to 23 cm; brown (10YR 4/3) silt loam or shaly silt loam; strong fine granular
structure: very friable; abrupt wavy boundary
Bt 23 to 46 cm: strong brown (7.5YR 4/4) clay or shaly clay; moderate medium
subangular blockv structure, friable: brown (10YR 4/4) ped coatings; clear wavy
boundary
C 46 to 69 cm: brecciated zone with manv disoriented small fragments with olive
yellow (2.5Y 6/6) interiors: rock controlled structure; friable: crushes easily to a
shaly or very shaly siltv clay loam or siltv clay
Notes:
This site is in a brecciated zone thai is deeply weathered. Sampling-depths for ESD
-------�
A-31
ORR Site 15
(See pp. 95. 111. 116. and 117 in Phase I Field Book 1)
Location: Oak Ridge Reservation, Grid N29700, E25720, about 25 ft north
of gas line ROW
Classification: Tvpic hapludults; clayey, mixed, thermic
Geomorphic Position: Broad, slightly convex, ridgetop
Slope and Aspect: 2-3% south southwest
Parent Material(s): Lower Nolichucky Shale
Vegetation: Stand of 40 to 50-year-old loblolly pines, with an understory of
oaks, red maple, dogwood, and a ground cover of honeysuckle
and grasses
Described By: D. A. Lietzke
Sampling Crew: Lietzke. Wilson
Rad. Scan: .Air. 30: ground level, 40
Weather Yesterday: Cloudy with scattered showers, cool
Present Weather: Partly cloudv and cool
Date: May 27. 1992
Soil Description:
Oi 2 to 0 cm; pine needles and a few leaves
A 0 to 2 cm; brown (10YR 4/3) silt loam; moderate fine granular structure; very
friable; abrupt wavy boundary
Ap 2 to 16 cm; yellowish-brown (10YR 5/6) silt loam or silty clay loam; weak medium
granular structure; friable; abrupt wavy boundary
Bt 16 to 36 cm; yellowish-red (5YR 5/6) clay; moderate medium subangular blocky
structure; firm; strong brown (7.5YR 4/6) clav films on all ped surfaces; few parent
material reds and yellows in some ped interiors in the lower part; abrupt irregular
boundary
C/Cr 36 to 60 cm; olive yellow (2.5Y 6/8) fragment interiors and thin strong brown
(7.5YR 4/6) clay seams; yellowish-red (5YR 5/6) clay flows coating C horizon
material; most Cr horizon fragments coated with red iron oxides; all rock controlled
structure; C and Cr materials occur in thin strata that had weathered differentially
with respect io each other
Cr 60 to 70 cm; brown (7.5YR 4/4) fragment interiors of less weathered strata and
yellowish-red (5YR 4/6) fragment interiors of more highly weathered strata: dark
red (2.5YR 3/6-3/4) iron oxides on many frasment surfaces
Notes:
-------�
A-32
ORR Site 16
(See pp. 98, 11, and 113 in Phase I Field Book 1)
Location:
Classification:
Geomorphic Position:
Slope and Aspect:
Parent Material(s):
Vegetation:
Described By:
Sampling Crew:
Rad. Scan:
Weather Yesterday:
Present Weather
Date:
Oak Ridge Reservation. Grid N29700; E25928
Tvpic hapludults; clayey, mixed, thermic
Sideslope, slight convexity
10% southeast; severely eroded before abandonment
Middle Nolichucky Shale
Loblolly Pine plantation with approximately 40-year-old trees;
understory of dogwoods, oaks, sweetgum. Sparse ground cover of
honeysuckle and poison ivy
D. A. Lietzke
Lietzke, Burgoa
Air. 45: ground level. 60
Clear and warm
Clear and warm
Julv 20. 1992
Soil Description:
Oi 3 to 0 cm; pine needles and some leaves
A 0 to 7 cm; dark yellowish-brown (10YF 'N shaly silt loam; moderate fine granular
structure; very friable; abrupt wavy bi y
Ap 7 to 20 cm; yellowish-brown (10YR 5/4) !v silty clay loam; moderate medium
granular structure; very friable; clear wavy ooundary
Bt 20 to 33 cm: strong brown (7.5YR 4/6) clay or shaly clay; moderate medium
subangular blockv structure; friable; all peds coated; clear wavy boundary
BC 33 to 43 cm; strong brown (7.5YR 5/4) very shaly silty clay loam; weak medium
subangular blockv structure and areas of rock controlled structure; firm; strong
brown (7.5YR 5/4) clav coatings on most fragment surfaces, with the clay covering
a thick layer of black manganese oxides; abrupt irregular boundary
C 43 to 88 cm; yellowish-brown (10YR 5/6) fragment interiors; crushes to shaly silty
clay or very shaly silty clay loam; 90% rock controlled structure: clay plugged; some
black coatings; firm; abrupt irregular boundary
Notes:
Sampling depths for ESD composites are: A. 0 to 20 cm; B, 20 to 33 cm; C, 43 to
-------�
A-33
ORR Sire 19
(See pp. 21. 33. 35. 37. 42. 43. and 91 in Phase I Field Book 1)
Location: Oak Ridee Reservation, 60 ft east of telegraph ROW within the
Bear Creek LLWDDD; Grid N33000, E28530
Classification: Typic hapludults; clayey, mixed, thermic
Geomorphic Position: Top of broad spur ridge
Slope and Aspect: 4% west
Parent Material(s): Lower Dismal Gap Formation
Vegetation: Old-field forest. Most pines have fallen. Young hardwoods of
cherry, sweet gum. cedar, poplar, dogwood and Virginia pine.
Sparse ground cover of honeysuckle. Ground surface. 100% leaf
covered.
Described By. D. A. Lietzke
Sampling Crew. Lietzke. Wilson. Farmer
Rad. Scan: .Air. 30: ground level. 40
Weather Yesterday: Cool, cloudy, light showers
Present Weather: Cool, cloudy with cold front moving through
Date: April 27. 1992
Soil Description:
Oi 5 to 0 cm; leaf litter
oa 0 to 1 cm: sapric and hemic materials and dense root mat
A 1 to 6 cm; dark brown (10YR 3/3) silt loam; moderate fine granular structure; very
friable; clear wavy boundary
Ap 6 to 16 cm; yellowish-brown (10YR 5/4) shalv silt loam: moderate fine granular
structure; very friable: abrupt wavy boundary
BE 16 to 25 cm: strong brown (7.5YR 5/6) shalv siltv ciav loam: weak medium
subangular blockv structure; friable: clear wavy boundary
Bt 25 to 51 cm: yellowish-red (5YR 4/6) siltv clay or clay; moderate medium
subangular blockv structure: friable: strong brown (7.5YR 5/6) clay on all ped faces;
clear wavy boundary
BC 51 to 54 cm; transition to C horizon with loss of soil structure and start of geologic
strike and dip controlled rock structure
C 54 to 84 cm: alternating strata of brown (7.5YR 4/3) very fine grained sandstone
saprolite and shale-siltstone saprolite. Saprolite is plugged with vellowish-red (5YR
4/6) clay
Cr 84 to 90 cm. Harder shale strata. Fragment interiors are olive brown (2.5Y 4/4).
Most surface are coated with black manganese oxides and some yellowish-red
(5YR 4/6) clay
Notes: The Bt horizon is continuous around the pit. The Cr horizon in shale starts at
60 cm depth while the Cr in the sandstone strata occurs at a depth of 80 to 84 cm
below the surface. Sampling depths are: A. 0 to 16 cm; B. 25 to 51 cm: C, 54 to
74 cm. This site was moved from its original location, which was in a young stand
-------�
A-34
ORR Site 21
(See pp. 99, 107. 139. 158. and 159 in Phase I Field Book 1)
Location:
Classification:
Geomorphic Position:
Slope and Aspect:
Parent Material(s):
Vegetation:
Described By:
Sampling Crew:
Rad. Scan:
Weather Yesterday:
Present Weather:
Date:
Oak Ridge Reservation. Grid N29700, E30940. Site in old field,
grown up to pines
Ruptic Ultic Dvstrochrepts; clayey Bt, loamy-skeletal Bw, C and
Cr, mixed, thermic
Nearly level bench-like area on a convex sideslope
9% south, severely eroded
Middle Nolichuckv Shale
Old field successional forest with a few tall pines remaining along
with cedar, poplar, dense stands of sourwood. oak and red maple.
Some grape vines and some mosses and lichen groundcover
D. A. Lietzke
Lietzke. Burgoa
Air. 35. ground level. 80
Clear and warm
Partlv cloudv and verv warm
Julv 21. 1992
Soil Description:
Oi 2 to 0 cm: leaf litter
Ap 0 to 10 cm; dark yellowish-brown (10YR 4/6) shalv silty clay loam; moderate
medium granular structure; friable, abrupt wavy boundary
Bt 10 to 26 cm: yellowish-red (5YR 5/6) shaly clay; strong medium subangular blocky
structure: firm: strong brown (7.5YR 4/4) ped coatings; abrupt irregular boundary
Cr 26 to 48 cm: inclined shaly strata with brown (7.5YR 4/2) fragment interiors: red
(10YR 4/6) surface coatings of iron-clay complex: abrupt irregular boundary
2C 48 to 63 cm: yellowish-brown and yellowish-red saprolitic materials that crusnes to
silty clay loam: this stratum impregnated with red iron compounds and black
manganese oxides
3Cr 63 to 65 cm: harder shale saprolite
Notes: This site was moved from its original 1 -ation. The original location was on the
Mavnardville Formation. See the Pha. 1 map for the original and moved
-------�
A-35
ORR Site 22
(See pp. 24. 35, 37. 46, 47, and 91 in Phase I Field Book 1)
Location: Oak Ridge Reservation, within Bear Creek LLWDDD site; Grid
N30520, E31250
Classification: Ruptic Ultic Dystrochrepts; clayey Bt, loamy-skeletal C and Cr
horizons; mixed, thermic
Broad convex ridge crest
3% southwest
Lower Dismal Gap Formation and transition to Rogersville shale.
The pit was in mostly Rogersville saproliie.
Old-field woods of Virginia pine, shortleaf pine, dogwoods, cedars.
Surface was 100% leaf covered and with a sparse groundcover of
honeysuckle.
D. A. Lietzke
Lietzke, Wilson. Farmer
.Air. 40; ground level, 40
Cloudy with scattered showers
Cloudy, cool, with scattered showers
April 28, 1992
Geomorphic Position:
Slope and Aspect:
Parent Material(s):
Vegetation:
Described By.
Sampling Crew:
Rad. Scan:
Weather Yesterday:
Present Weather
Date:
Soil Description:
Oi&Oa
A
Ap
Bt
C&Crl
Cr2
2 to 0 cm: leaf litter, litter fragments and root mat
0 to 5 cm; dark grayish-brown (10YR 4/2) silt loam; moderate fine granular
structure; very friable; clear wavy boundary
5 to 15 cm, brown (10YR 5/3) shalv silt loam: weak medium granular structure;
friable; abrupt wavy boundary
15 to 27 cm: yellowish-red (5YR 4/6) clav; moderate medium subangular blockv
structure: firm: brown (7.5YR 4/4) clav on all ped faces: abrupt irregular boundary
27 to 46 cm: Alternating thin strata of soft and hard shale-siltstone saprolite with
light olive brown (2.5Y 5/4) fragment interiors; plugged with brown (7.5YR 4/4)
clay
46 to 54 cm; harder shale saprolite with most fragment surfaces coated with dark
red (2.5YR 3/4-3/6) iron oxides
Notes:
-------�
A-36
ORR Site 23
(See pp. 101, 107. 120. and 121 in Phase I Field Book 1)
Location: Oak Ridge Reservation., Grid N 29800, E 31830, about 50 ft
north of TV A power line ROW and about 20 ft east of road that
goes to ORR-22
Gasification: Ruptic Ultic Dvstrochrepts; clayey Bt, loamy-skeletal Bw, C, and
Cr, mixed, thermic
Geomorphic Position: Interfluve between two drainagewavs
Slope and Aspect: 2% to 3% south
Parent Material(s): Lower Nolichucky Shale
Vegetation: Old-field pines; most have died and fallen over. Present canopy
vegetation is red maple, sourwood ana dogwoods. Groundcover
of honevsuckle and poison ivy.
Described By: D. A. Lietzke
Sampling Crew: Lietzke. Wilson. Burgoa
Rad. Scan: .Air. 30: ground level. 70
Weather Yesterday. Partly cloudy and cool
Present Weather Cloudv with showers
Date: May 28, 1992
Soil Description:
Oi 4 to 2 cm; pine needles and leaves
Oa 2 to 0 cm; hemic materials, sapric organic materials, many fine roots, and a root
mat at the mineral soil surface. (The Oa has variable thickness ranging from 0 cm
to about 2 cm in the area that was cleared of organic materials for sampling the
mineral soil.)
A 0 to 1 cm: dark vellowish-brown (10YR 4/4) shaiv silt loam: moderate fine granular
structure: very friable: abrupt wavy boundary
Ap 1 to 12 cm: dark yellowish-brown (10YR 4/6) shalv siltv clay loam: weak medium
granular structure: friable: abrupt wavv boundary
Bt 12 to 30 cm: yellowish-red (5YR 4/6) shalv clay; moderate fine subangular blockv
structure; firm, strong brown (7.5YR 4/4) coatings on all ped surfaces: aDrupt
irregular boundary
C&Cr 30 to 50 cm: strong brown (7.5YR 5/8) glauconitic fragment interiors ana reddish-
brown (5YR 4/4) clav flows: rock-oriented strike and dip structure
CrSiC 50 to 60 cm: Thin strata of both C and Cr siltstone saprolite materials. In addition
to the siltstone stratum, there is a red (10R 4/6) glauconitic stratum and a confined
flow zone stratum dominated by light brownish-gray (10YR 6/2) wetness mottles;
some fragments in the C horizon are coated with reddish-brown (5YR 4/4) clav.
Siltstone fragment interiors are yellowish-brown (10YR 5/6).
Notes: This pit was dug ana sampled for ESD composites and gamma scan samples in a
light rain. The profile was not-described until June 1. 1992. Sampling depths are:
-------�
A-37
ORR Site 24
(See pp. 101. 107 and 108 in Phase I Field Book 1 and pp. 8 and 9 in Phase I Field Book 2)
Location:
Classification:
Geomorphic Position:
Slope and Aspect:
Parent Material(s):
Vegetation:
Described By:
Sampling Crew:
Rad. Scan:
Weather Yesterday:
Present Weather.
Date:
Oak Ridge Reservation, Grid N29900, E31980
Ruptic U)(ic Dystrochrepis; ciayey Bt, loamy-skeletal, Bw, C and
Cr. mixed, thermic
Convex sideslope
8% North
Middle Nolichuckv Shale
Old field successional forest with some planted loblolly pine
about 30 y old; dense undergrowth of poplar, dogwood, cedar,
pine, red maple; sparse ground cover of poison ivy and
honeysuckle
D. A. Lietzke
Lietzke. Bureoa
Air. 50. ground level. 70
Clear to partlv cloudy, very warm with a shower in the evening
Partlv clouav. very warm, very humid
Julv 22. 1992
Sofl Description:
Oi 4 to 1 cm: pine needles and some leaves
Oa&Oe 1 to 0 cm: hemic materials, sapric materials and a root mat
A 0 to 5 cm; dark brown (10YR 3/3) silt loam; strong fine granular structure; very
friable; abrupt wavy boundary
Ap 5 to 19 cm; dark yellowish-brown (10YR 4/4) shaly sill loam; moderate fine
granular structure, very friable; abrupt wavy boundary
Bw&Bt 19 to 26 cm: dark vellowish-brown (10YR 4/4) shaly or very shaly siltv clay loam:
weak medium subangular blockv structure; friable; abrupt wavy boundary
C&Cr 26 to 49 cm: light olive brown (2.5Y 5/3) fragment interiors; rock controlled
structure; yeilowish-brown (10YR 5/4) coatings on most fragment surfaces. These
coatings cover thick black manganese oxide coatings
Cr&C 49 to 60 cm: highly weathered shale and siltstone saprolite
Notes: Sampling depths for ESD composites are: A. 0 to 19 cm; B. 19 to 26 cm: C, 26 to
-------�
A-j8
ORR Site 25
(See pp. 95. 107. 124. 125 in Phase I Field Book 1)
Location:
Classification:
Geomorphic Position:
Slope and Aspect:
Parent Materials):
Vegetation:
Described By:
Sampling Crew:
Rad. Scan:
Weather Yesterday:
Present Weather:
Date:
Oak Ridge Reservation, Grid N 29800, E 32290; site about 50 ft
south of TVA electric power line ROW
Ruptic Ultic Dvstrochrepts; clayey Bt, loamv-skeletal Bw. C and
Cr, mixed, thermic
Upland summit, slightly convex
2 to 39c southeast
Middle Nolichucky Shale
Loblolly pine plantation, 40 to 50 y old. Lower story of red
maple, dogwood, and sweet gum; thick layer of pine needles on
the ground surface along with moderate poison ivy and
hones-suckle
D. A. Lietzke
Lieizke. Wilson. Burgoa
Air. 45. ground level. 60
Partly cloudy and cool
Overcast with showers
Mav 28. 1992
Soil Description:
Oi
Oe&Oa
A
Ap
Bt&Bw
C&Cr
Cr
4 to 2 cm; pine needles and leaves
2 to 0 cm; sapnc materials, hemic materials and root mat
0 to 1 cm; yellowish-brown (10YR 5/4) shalv silt loam: moderate fine granular
structure; very friable; abrupt wavy boundary
1 to 17 cm; yellowish-brown (10YR 5/4) shalv silty clav loam; weak medium
granular structure; friable; abrupt wavy boundary
17 to 34 cm; brown (7.5YR 4/4) shaly clay; about 50% moderate medium
subangular blockv structure in Bt strata and rock controlled strike and dip structure
in Bw; Fragment interiors are light vellowish-brown (2.5Y 6/4); firm; abrupt
irregular boundary.
34 to 50 cm: strong brown (7.5YR 5/4) very shaly clay; strike and dip controlled
orientation of shale fragments: light olive brown shale fragment interiors: abrupt
irregular boundary
50 to 60 cm; light olive brown (2.5Y 5/4) fragment interiors: red and black coatings
on fragment surfaces: thin carbonate seams are red (2.5YR 4/8) ciav; larger cracks
contain strong brown (7.SYR 5/4) translocated clay
Notes: ESD composite samples were collected in a light rain. The ESD gamma scan
samples were collected ana the profile described on the 1st of June, 1992 when the
weather was partly cloudv. Sampling depths are: A. 0 to 17 cm: B. 17 to 34 cm: C,
-------�
A-39
ORR Site 26
(See pp. 24. 74. 75, 78. 79. 91 in Phase I Field Book 1)
Location: Oak Ridge Reservation, Grid N 30000, E34370. The site is 75 to
80 ft north of the TVA power line ROW
Classification: Ruptic Ultic Dystrochrepts; clayey Bt. loamv-skeletal Bw, C, Cr,
mixed, thermic
Geomorphic Position: Lower convex sideslope
Slope and Aspect: 14% south southeast
Parent Material(s): Middle Dismal Gap Formation
Vegetation: This site has been plowed but was abandoned before the Atomic
Energy Commission (AEC) takeover in 1942. Present forest is
hardwoods of red maple, oaks, hickories, and a few cedars.
Described By: D. A_ Lietzke
Sampling Crew: Lietzke. Wilson
Rad. Scan: .Air. 15: ground level. 25
Weather Yesterday: Partiv c/oudv in the mornine with afternoon scattered showers
Present Weather Cloudv. scattered showers, cool. Got rained out before
completing sampling and soil description.
Date: May 11, 1992
Sofl Description:
Oi 4 to 0 cm; leaf litter and root mat
A 0 to 6 cm; very dark grayish-brown (10YR 3/2) shaly silt loam; strong fine granular
structure; very friable: abrupt wavy boundary
Ap 6 to 15 cm: dark yellowish-brown (10YR 4/4) shaly silt loam: moderate fine
granular structure: very friable: abrupt wavy boundary
Bt 15 to 30 cm: red (2.SYR 4/6) shaly clay or shaly siltv clay; moderate medium
subanguiar blockv structure: friable: strong brown (7.5YR) coalings on all ped
faces: abrupt irregular boundary
BC&C 30 to 50 cm: light olive brown' (2.5Y 5/4) fragment interiors; soil matrix is
vellowish-red (5YR 4/6) very shaly clav. BC has some weak soil structure, the C has
all rock structure: abrupt irregular boundary.
C&Cr 50 to 80 cm: olive brown (2.5Y 4/4) fragment interiors: Cr fragments coated with
black manganese oxides: C horizon fragments coated with vellowish-red (5YR 4/6)
and strong brown (7.5YR 5/6) materials
Notes: The BC&C and C&Cr horizons occur in thin strata that have geologic strike and
dip. It was not feasible to describe each separately, nor could they be individually
sampled. Sampling depths: A, 0 to 15 cm; B, 15 to 30 cm: C, 30 to 60 cm. The field
duplicate samples, because they were sampled from another side of the pit have
-------�
A-40
ORR Site 27
(See pp. 8. 9, 25, 32, 91 in Phase I Field Book 1)
Location:
Classification:
Geomorphic Position:
Slope and Aspect:
Parent Material(s):
Vegetation:
Described By:
Sampling Crew:
Rad. Scan:
Previous Weather
Weather Today:
Date:
Oak Ridge Reservation, Bear Creek area; 100 ft north of TVA
power line right-of-way; Grid N30100, E34990
Ruptic Ultic Dystrochrepts; clayey Bt and loamy-skeletal Bw, C.
and Cr horizons; mixed, thermic
Mid side slope with slight convexity
7% southwest
Upper Dismal Gap Formation
Old-field regrowth of red and black oak, chestnut oak, white oak,
a few Virginia pine, some dead cedars; understory of beech, oak.
red maple, dogwood, and a few green herbs; ground covered
100% by leaves
D. A. Lietzke
Lietzke, Wilson. Phillips, Farmer
Air, 10; ground level. 15
Rain and snow showers on March 14th and 15th
Clear. 18° F to 20° F in morning
March 16, 1992
Soil Description:
Oi 4 to 0 cm: leaf litter
A1 0 to 5 cm; very dark gravish-brown (10YR 3/2) silt loam; strong fine granular
structure: very friable; many fine roots: abrupt wavy boundary
Ap 5 to 10 cm; dark brown (10YR 3/3) silt loam; moderate fine granular structure;
very friable; common fine roots: abrupt wavy boundary
AB 10 to 23 cm: yellowish-brown (10YR 5/4) silt loam; weak fine subangular blocky
structure; few medium roots; clear wavy boundary
Bt 23 to 34 cm; strong brown (7.5YR 4/6) siltv clay loam; moderate medium
subangular blocky structure; few roots: abrupt irregular boundary
C 34 to 74 cm: olive brown (2.5Y 4/4-5/4) fragment interiors; material crushes to a
shaly or very shaly siltv clay loam; yellowish-red (5YR 4/6) ciay coatings on some
fragment faces while other fragment faces coated with black manganese- oxides in
the lower part of the horizon; more than 70% rock controlled structure: abrupt
irregular boundary
Cr 74 to 80 cm: olive brown (2.5Y 4/4) fragment interiors, dark red (2.5YR 3/6) and
black coatings on most fragment faces
Notes: Depth to the Cr varied from 45 to 74 cm across the face that was sampled. Only
the Argillic part of the soil was described and sampled. One side of the pit had Cr
materials coming to within 20 cm of the surface. TTiis old-field site was abandoned
some time before the a£C takeover and had already reverted to hardwoods.
Depths of sampling for ESD composites are: A. 0 to 10 cm: B. 23 to 34 cm; C, 34
-------�
A-41
ORR Site 28
(See pp. 103, 107, 129 in Phase I Field Book 1 and pp. 152 and 153 in Phase I Field Book 2)
Location:
Classification:
Geomorphic Position:
Slope and Aspect
Parent Material(s):
Vegetation:
Described By:
Sampling Crew:
RadL Scan:
Weather Yesterday:
Present Weather.
Date:
Oak Ridge Reservation, Grid N29500, E34580. about 20 ft grid
west of edge of power line ROW
Ruptic Ultic Dvstrochrepts; clayey Bt, loamy-skeletal Bw. C and
Cr horizons; mixed, thermic
Mid sideslope with convexity. Severely eroded before
abandonment
5% southeast
Middle Nolichucky Shale
Old field successional forest where older pines have been
harvested: present vegetation of young pines, cedars and poplar;
sparse ground cover of honeysuckle, mosses and ferns
D. A. Lietzke
Lietzke. Burgoa
Air. 45: ground level. 60
Clear and warm
Clear and warm
July 21. 1992
Sofl Description:
Oi 2 to 0 cm; mosses, pine needles, leaves and root mat
A 0 to 2 cm; brown (10YR 4/3) sill loam or shaly silt loam, strong fine granular
structure; very friable; abrupt wavv boundary
Ap 2 to 16 cm: yellowish-brown (10YR 5/4) silt loam or shalv silt loam; moderate fine
granular structure; very friable; abrupt wavy boundary
Bt 16 to 25 cm: yellowish-brown (10YR 5/8) shalv clay; moderate medium subangular
blockv structure; friable, strong brown (7.5YR 5/6) ped coatings; abrupt irregular
boundary
C 25 to 35 cm: light olive brown (2.5Y 5/4) fragment interiors; red (2.5YR 4/6)
iron-clav coatings on some fragment surfaces; other areas plugged with vellowish-
red (5YR 5/4) clay; abrupt irregular boundary
Cr 35 to 52 cm; brown (10YR 4/3) fragment interiors; most surface coated with red
and yellowish-red clay and iron oxides
Notes: If the Bt horizon is continuous around all four sides of the pit the soil is classified
as a Typic Hapludult. If the Bt horizon is interrupted by a Bw, C or Cr horizon
then the soil is classified as a Ruptic Ultic Dystrochrept. Sampling depths are: A.
0 to 16 cm; B. 16 to 25 cm; C. 26 to 35 cm. Depths of sampling for ESD
-------�
A-42
ORR Site 31
(See pp. 103. 113. 114. 156. 157 in Phase I Field Book 1)
Location:
Classification:
Geomorphic Position:
Slope and Aspect:
Parent Material(s):
Vegetation:
Described By:
Sampling Crew:
Rad. Scan:
Weather Yesterday:
Present Weather:
Date:
Oak Ridge Reservation, Grid N29900, E35820
Tvpic Hapludults; clayey, mixed, thermic
Lower part of long slightly convex sideslope
3% southeast
Upper Nolichucky Shale
Old field successional forest. The older pines have been harvested
in the past 10 to 15 y. Dense regrowth of sweet gum. dogwood.
cedar, hickory, poplar, and ash. Sparse ground cover of
honeysuckle and poison ivy.
D. A. Lietzke
Lietzke, Burgoa
.Air. 35 : ground level, 60
Clear and warm
Partlv cloudv, verv warm and humid
Julv 21. 1992
SoQ Description:
Oi 2 to 0 cm; leaf litter
A 0 to 8 cm; brown (10YR 4/3) silt loam: strong fine granular structure; very friable;
abrupt wavy boundary
Ap 8 to 19 cm; yellowish-brown (10YR 5/4) silt loam; moderate fine granular structure;
friable: abrupt wavy boundary
Bt 19 to 40 cm: dark yellowish-brown (10YR 4/6) silty clay; moderate medium
subangular blockv structure, friable; dark yellowish-brown (10YR 4/4) ped coatings;
clear wavy boundary
C 40 to 61 cm; vellowish-brown (10YR 5/4) sill loam or siltv clay loam: weak coarse
subangular blockv structure: firm: light brownish-grav (10YR 6/2) wetness mottles:
strong brown (7.5YR 4/4) ped zones, but most peds are not coated; abrupt
irregular boundary
2Cr 61 to 70 cm; dark reddish-gray (5YR 4/2) t interiors, with surfaces coated
with black manganese oxides
Notes:
The upper 61 cm appears to be colluvium of entirely Nolichucky origins and of
early Holocene age. Sampling depths are: A. 0 to 19 cm; B, 19 to 40 cm; C. 40 to
-------�
A-43
ORR Site 32
(See pp. 25. 33, 35, 37, 50, 51. 91 in Phase I Field Book 1)
Location: Oak Ridge Reservation, about 100 ft grid north of TVA power
line ROW; Grid N30200, E36760
Classification: Ruptic Ultic Dystrochrepts; clayey Bt and loamy-skeletal, Bw, C
and Cr horizons; mixed, thermic
Mid-point of long convex sideslope
12% south
Upper Dismal Gap Formation
Old-field. Pines have almost all died and fallen over. Present
vegetation is thick hardwood underbrush and abundant
honeysuckle.
D. A. Lietzke
Lietzke. Wilson, Farmer
Air. 15; ground level. 40
Cloudy, cool, widely scattered showers
Cloudy, cooler with clearing in the afternoon
April 28. 1992
Geomorphic Position:
Slope and Aspect:
Parent Material(s):
Vegetation:
Described By:
Sampling Crew:
Rad. Scan:
Weather Yesterday:
Present Weather:
Date:
Soil Description:
Oi 4 to 0 cm; leaf litter and root mat
A 0 to 5 cm; dark brown (10YR 3/3) silt loam; strong fine granular structure; very
friable; abrupt wavy boundary
Ap 5 to 20 cm; dark vellowish-brown (10YR 4/4) silt loam or shalv silt loam; moderate
fine granular structure; very friable; abrupt wavy boundary
Bt 20 to 32 cm: yellowish-red (5YR 4/6) silty clay or clay; moderate medium
subangular blockv structure; strong brown (7.5YR 5/4) clav coatings on all ped
surfaces; clear irregular boundary
C 32 to 53 cm; light olive brown (2.5Y 5/6) fragment interiors coated with brown
(7.5YR 4/4) clay; 60 to 80% rock controlled structure; clay plugged; abrupt
irregular boundary
Cr 53 to 64 cm; light olive brown (2.5Y 5/6) fragment interiors; many fragment faces
coated with black manganese oxides: some fragment faces coated with red (2.5YR
4/6) iron-clay materials; some strong brown (7.5YR 4/6) clay in thin flow zone
seams
Notes:
-------�
A-44
ORR Site 33
(See pp. 25. 35. 37. 62, 63. 91 in Phase I Field Book 1)
Location:
Classification:
Geomorphic Position:
Slope and Aspect;
Parent Material(s):
Vegetation:
Described By:
Sampling Crew:
Rad. Scan:
Weather Yesterday:
Present Weather.
Date:
Oak Ridge Reservation, Grid N30000, E36970
Ruptic Ultic Dystrochrepts; Clayey Bt, loamy-skeletal Bw. C, and
Cr horizons, mixed, thermic
Middle of slightly convex lower sideslope
13% south-southwest
Middle Dismal Gap Formation
Original old-field successional forest of pines has died and fallen
over. Present vegetation consists of dogwood, beech, sweet gum,
poplar, red maple, pine, with a thick ground cover of
honeysuckle.
D. A. Lietzke
Lietzke, Wilson
Air. 25: ground level. 40
Early morning showers, then clearing and very windy
Clear, sunny afternoon with a light breeze
Mav 4. 1992
Soil Description:
Oi 7 to 0 cm: leaf litter, twigs and small branches, and a dense root mat
A 0 to 5 cm; dark vellowish-brown (10YR 4/4) silt loam; strong fine granular
structure: very friable: abrupt wavy boundary
Ap 5 to 12 cm; yellowish-brown (10YR 5/6) shaly silt loam; moderate fine granular
structure: friable: abrupt wavy boundary
Bt 12 to 27 cm: vellowish-red (5YR 5/6) clay, moderate medium subangular blockv
structure; firm: strong brown (7.5YR 5/61 clay films on all ped faces: clear wavy
boundary
BC 27 to 53 cm: strong brown (7.SYR 5/6) shalv or very shaly siltv clay loam: weak
coarse subangular blockv structure; firm; 10 to 50% rock structure in thin harder
strata; abrupt irregular boundary
C 53 to 63 cm: olive brown (2.5Y 4/4) fragment interiors: thick strong brown (7.5YR
5/6) coatings on most fragment surfaces and plugging cracks and fractures: abrupt
irregular boundary
Cr 63 to 80 cm: light olive brown (2.5Y 5/6) fragment interiors: surfaces coated with
black manganese oxides or yellowish-brown (10YR 5/8) iron hydroxides
Notes:
-------�
A-45
ORR Site 35
(See pp. 28. 37. 39. 58. 59, 91 in Phase I Field Book 1)
Location:
Classification:
Geomorphic Position:
Slope and Aspect:
Parent Materials):
Vegetation:
Described By:
Sampling Crew:
Rad. Scan:
Weather Yesterday:
Present Weather
Date:
Oak Ridge Reservation. Grid N30000, E37280. Site is located
about 150 ft north of cleared edge of ROW.
Typic Hapiudults: clayey, mixed, thermic
Convex area just below rest of ridge
13% south southwest
Lower Dismal Gap Formation
Old field successional forest where most pines have died and
fallen or were harvested. Present vegetation is sweet gum,
dogwood, haw, sourwood with some poplar. About 90% of
ground surface is leaf covered the remainder is covered by
honeysuckle, mosses and other forbes.
D. A- Lietzke
Lietzke, Wilson, Farmer
.Air. 15: ground level. 35
Cloudv with earlv morning showers, then clearing and windy in
the afternoon
Clear and windy
Mav 4. 1992
SoQ Description:
Oi
A
Ap
E&B
Bt
BC
C&Cr
2 to 0 cm; leaf litter
0 to 8 cm; dark brown (10YR 3/3) silt loam; strong fine granular structure; very
friable; abrupt wavv boundary
8 to 19 cm; brown (10YR 5/3) silt loam; weak fine granular structure; very friable;
abrupt wavy boundary
19 to 31 cm; yellowish-brown (10YR 5/4) silt loam. E-part. and strong brown
(7.5YR 5/6) siltv clay loam. B-part: weak medium subangular blockv structure: very
friable; abrupt irregular boundary
31 to 52 cm. strong brown (7.5YR 4/6) clay; moderate medium subangular blocky
structure; friable; peds coated with yellowish-red (5YR 4/6) clay; abrupt irregular
boundary
52 to 63 cm; strong brown (7.5YR 4/6) shaly clay; weak medium subangular blocky
structure; with about 10 to 25% rock structure remaining; highly clay plugged.
Abrupt irregular boundary
63 to 80 cm; dark yellowish-brown (10YR 4/6) fragment interiors: some fragment
surface coated with yellowish-red (SYR 4/6) clav and others coated with red
(2.5YR 4/6) iron-clav materials
Notes:
-------�
A-46
ORR Site 41
(See pp. 12. 13. 28, 29, 91 in Phase I Field Book 1)
Location: Oak Ridge Reservation, about 400 ft north of the TVA ROW;
Grid N30200. E39570
Classification: Typic Hapludults; clayey, mixed, thermic
Geomorphic Position: Convex summit of small ridge. Soils were severely eroded prior
to or after abandonment.
Slope and Aspect: 2-3%
Parent Materials): Middle Dismal Gap Formation
Vegetation: Old-field successional forest. Most older pines have died and
fallen over. Present regrowth of pines red maple, beech and
poplar. Ground surface covered with leaves.
Described By: D. A. Lietzke
Sampling Crew: _ Lietzke. Wilson. Phillips, Farmer
Rad. Scan: Ajr. 10. ground level. 50
Weather Yesterday: Partlv cloudy
Present Weather Clear and warmer
Date: March 17. 1992
Soil Description:
Oi 4 to 0 cm: leaf litter
A 0 to 5 cm; very dark gravish-brown (10YR 3/2) silt loam: moderate fine granular
structure; very friable: many fine roots: abrupt wavy boundary
Ap 5 to 12 cm; dark yellowish-brown (10YR 4/4) heavy silt loam: weak fine granular
structure: very friable: common fine roots: abrupt wavy boundary
Bt 12 to 28 cm; strong brown (7.5YR 4/6) silty clay loam or silty clay: moderate
medium subangular blocky structure: friable; common medium roots and common
fine roots: strong brown (7.5YR 5/6) clay flows on ped faces: clear'wavv boundary
BC 28 to 40 cm: strong brown (7.5YR 5/6) shaly silty clay or shalv clay; weak coarse
subangular blocky structure: some areas without soil structure; firm; few fine roois;
clay plugged with abrupt irregular boundary
C 40 to 64 cm: strong brown (7.5YR 4/6) and vellowish-brown (10YR 5/8) fragment
interiors; material crushes easily to a shaly or very shaly siltv clay loam: 60 to 80%
rock controlled structure: friable: few fine roots; considerable strong brown (7.5YR
4/6) clay on fragment surfaces: abrupt irregular boundary
Crl 64 to 80 cm: harder fragment interiors of strong brown (7.SYR 4/6) and vellowish-
brown (10YR 5/8); most fragments coated with dark red (10R 3/6) iron oxides
Cr2 80 to 90 cm: harder fragment interiors of light olive gray(5Y 6/2) and vellowish-
brown (10YR 5/8) wiih a few red coatings; most fragments are wet and this horizon
is at the top of a perched water zone.
Notes: Sampling depths for ESD composites are: A. 0 to 12 cm: B. 14 to 28 cm. C, 50 to
-------�
A-47
ORR Site 42
(See pp. 105. 111. 143. 154. 155 in Phase I Field Book 1)
Location:
Classification:
Geomorphic Position:
Slope and Aspect:
Parent Material(s):
Vegetation:
Described By:
Sampling Crew:
Rad_ Scan:
Weather Yesterday:
Present Weather
Date:
Oak Ridge Reservation, Grid N30000, E40500. The site is in
woods about 30 ft from edge of power line ROW.
Ruptic Ultic Dystrochrepts: clayey Bt, loamy-skeletal Bw, C, Cr
horizon: mixed, thermic
Long, gentle, convex side slope
3% south
Middle to upper Nolichucky Shale
Old field successional where most older pines have died and
fallen over or were harvested: dense regrowth of poplar, sweet
gum. cedar, oak, dogwood, and beech. Sparse honeysuckle and
poison ivy groundcover
D. A Lietzke
Lietzke. Burgoa
.Air. 30: ground level. 90
Clear and warm
Clear and warm
Julv 21. 1992
SoQ Description:
Oi 2 to 0 cm; leaves
Oa 0 to 1 cm: hemic materials, sapnc materials and root mat
Ap 1 to 15 cm; yellowish-brown (10YR 5/4) silt loam or shaly silt loam; moderate fine
granular structure; very friable; abrupt wavy boundary
Bt 15 to 33 cm: dark yellowish-brown (10YR 4/4) shaiy clay; moderate medium
subangular blocky structure; firm: all peds coated with brown (10YR 5/3) material;
abrupt irregular boundary
C 33 to 47 cm: mottled dark yellowish-brown (10YR 4/4), brown (10YR 5/3) and
grayish-brown (10YR 5/2) wetness streaks: extremely shaly clay; all rock controlled
structure: abrupt irregular boundary
Cr 47 to 56 cm: brown (10YR 4/3) fragment interiors: red (10R 4/6) and black
coatings on most fragment surfaces; some gravish-brown (10YR 5/2) in flow zones
Notes: The Bw and Bt were sampled together. The Bw had similar morphology but higher
fragment content. This site has limestone seams 2- to 5-cm-thick that have
weathered out to a vellowish-brown clay. Some of this clayey material was included
in the very shaly C horizon sample. Sampling depths are: A, 1 to 15 cm: VB. 15 to
-------�
A-48
ORR Site 43
(See pp. 28, 82, 83, 86, 87, 91 in Phase J Field Book 1)
Location:
Oak Ridge Reservation, Grid N30400, E41460, about 200 ft grid
north of edge of ROW
Qassification:
Tvpic Hapludults; clayey, mixed, thermic
Geomorphic Position:
Broad, slightly convex sideslope
Slope and Aspect:
2-3% south-southwest
Parent Material(s):
Lower Dismal Gap Formation within transition zone to
Rogersvilie Shale
Vegetation:
Old field hardwoods of red maple, poplar, abundant dogwood.
beech, with thick honeysuckle, and poison ivy groundcover
Described By:
D. A. Lietzke
Sampling Crew:
Lietzke, Wilson
Rad. Scan:
-Air, 20, ground level. 55
Weather Yesterday:
Clear, warmer, last rain on May 9th
Present Weather
Clear and warm
Date:
May 11, 1992
SoQ Description:
Oi 4 to 0 cm; leaf litter
A 0 to 6 cm; dark brown (10YR 3/3) silt loam; strong fine granular structure; very
friable; abrupt waw boundary
Ap 6 to 15 cm; brown (10YR 5/3) silt loam or shaly silt loam; moderate fine granular
structure: very friable; abrupt wavy boundary
Btl 15 to 37 cm: strong brown (7.5YR 4/6) clay or siltv clay; moderate medium
subangular blockv structure: firm: clear wavy boundary
Bt2 37 to 51 cm: strong brown (7.5 YR 4/6) shalv siltv clay: moderate medium and
coarse subangular blockv structure: firm; Manganese oxide plugged at base of
horizon: abrupt irregular boundary
C 51 to 70 cm; light olive brown fraement interiors; very soft saprolite with vellowish-
red (2.5 YR 4/6) clay streaks and vellowish-red (5YR 4/6) soil material coating
some fragrr. it surfaces and filling spaces
Notes: Sampling depths: A. 0 to 15 cm. B. 15 to 37 cm; C, 51 to 70 cm. Sampling depths
for ORR-43 field duplicates are: A, 0 to 15 cm: B. 15 to 40 cm; C, 53 to 70 cm.
The reason for the different depths is that strike and dip oriented subsoil and
-------�
A-49
ORR Site 45
(See pp. 28. 29, and 42 in Phase II Field Book 2)
Location:
Classification:
Geomorphic position:
Slope and aspect
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Rad scan:
Weather yesterday:
Present weather
Date:
Oak Ridge Reservation, Chestnut Ridge, Grid N27600, E18400
Typic Hapludults; clayey, mixed, thermic
Convex sideslope just above a slope break into a deeply incised,
but stable, head of a drainageway
25% northwest
Copper Ridge Residuum
Older woods that have been cut over several times. Oak and
chestnut stumps are still present. Some logging was done 15 to
20 years ago. Present vegetation consists of red oak. black oak,
post oak, with a lower story of gum, sourwood, sugar maple and
some sassafras sprouts. The ground surface is leaf covered. A
woods road about 100-150 ft away was bulldozed a few years ago
to allow access for the drilling of wells.
D. A. Lietzke
Lietzke and Wilson
Air. 30, ground level. 60
Clear, breezy and cooler
Clear, brisk, breezy
September 30, 1992
SoQ Description:
Oi 3 to 0 cm; leaf litter
A 0 to 5 cm; dark grayish-brown (10YR 4/2) cherty silt loam; strong fine granular
structure; very friable; clear wavy boundary
El 5 to 17 cm; pale brown (2.5Y 6/3) cherty silt loam; moderate fine granular
structure; very friable; gradual wavy boundary
E2 17 to 30 cm: light yellowish-brown (10YR 6/4) cherty silt loam; moderate fine
granular structure; very friable; gradual irregular boundary
B&E 30 to 48 cm; strong brown (7.5YR 5/6) cherty silty clay loam B part, and yellowish-
brown (10YR 5/6) cherty silt loam E part; moderate fine subangular blocky
structure; very friable; abrupt irregular boundary
Btl 48 to 70 cm; red (2.5YR 4/6) cherty clay;(40% clay content) moderate medium
subangular blocky structure; friable; gradual wavy boundary
Bt2 70 to 120 cm; red clay (60-70% clay content); augered
BC 120 to 170 cm; red clayey saprolitic materials with high chroma yellowish saprolite
colors
Notes:
Sampling depths: A horizon, 0 to 17 cm; B horizon, 48 to 60 cm: C horizon, 150
-------�
A-50
ORR Site 50
(See pp. 31. 81, 82. and 87 in Phase II Field Book 2)
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Rad scan:
Weather yesterday:
Present weather:
Date:
Oak Ridge Reservation, Chestnut Ridge, Grid N26600. E19800
Tvpic Paleudults; clayey, kaolinitic, thermic
Long, gently sloping, spur ridge
8% southeast
Chepultepec Residuum
Old-field successional forest. Present vegetation consists of an
overstory of oaks along with a few red cedars, white pine
seedlings and red maple sprouts. The ground surface is leaf
covered.
D. A. Lietzke
Lietzke, Farmer. Wilson. Massengale. Burgoa
Air. 40: ground level. 55
Rain, heavy at times
Clear and getting warmer
November 3. 1992
Soil Description:
Oi 3 to 0 cm; leaf litter
Oa 0 to 2 cm; sapric materials and a root mat
A 0 to 12 cm; dark gravish-brown (10YR 4/2) cherty loam: strong fine granular
structure; very friable, clear wavy boundary
E 12 to 25 cm: pale brown (10YR 6/3) cherty loam: weak fine granular structure; very
friable; abrupt irregular boundary
B&E 25 to 34 cm; yellowis-red (5YR 5/6) B part and strong brown (7.5YR 5/6) E part:
cherry or non-chertv clay loam: weak fine subangular blockv structure: friable;
abrupt irregular boundary
Btl 34 to 50 cm; red (2.5YR 4/6) clay or cherty clay: moderate fine and medium
subangular blocky structure: firm: gradual wavy boundary
Bt2 50 to 80 cm: red verv cherty clay with yellowish-brown mottles (augered)
Bt3 80 to 160 cm: mottled red. yellowish-red and yellowish-brown cherty clay (augered)
Notes: Sampling depths for pnmarv samples: A horizon. 0 to 16 cm; B horizon. 40 to
50 cm; C honzon. 140 to 160 cm. Sampling depths for field duplicates: A horizon,
-------�
A-51
ORR Site 51
(See pp. 25, 26, 30, and 36 in Phase II Field Book 2)
Location:
Gassification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Rad scan:
Weather yesterday.
Present weather
Date:
SoQ Description:
Oak Ridge Reservation, Chestnut Ridge, Grid N28400, E21600
Typic Paleudults; clayey, kaolinitic, thermic
Convex sideslope
15% northwest
Copper Ridge Residuum
Old field successional forest with most of the original pines
having died and fallen over releasing poplar, red maple and sugar
maple. This site is within 75 to 80 ft of a previously cleared area
that has been planted to loblolly pine in the past 15 to 20 years.
This sue is also within 80 ft of a recently bulldozed woods road
to get access to drill wells.
D. A. Lietzke
Lietzke and Wilson
Air. 30; ground level. 45
Cloudy and rainy
Clearing, partly cloudy
September 28. 1992
Oi 3 to 0 cm; leaf litter
A 0 to 10 cm; brown (10YR 4/3) cherty silt loam;strong fine granular structure; very
friable; clear wavy boundary
Ap 10 to 20 cm: brown (10YR 4/3) cherty silt loam; moderate fine granular structure;
very friable; clear wavy boundary
B&E 20 to 35 cm; yellowish-red (5YR 5/6) B part, and pale brown (10YR 6/3) E part;
cherty silt loam: moderate fine subangular blockv structure; very friable: abrupt
irregular boundary
Btl 35 to 75 cm; red (2.5YR 4/6) cherty clay; moderate medium subangular blocky
structure: firm; gradual wavy boundary, base of pit
Bt2 75 to 165 cm: red cherty clay with yellowish-brown mottles
Notes:
Sampling depths: A horizon, 0 to 20 cm; B horizon, 40 to 60 cm; C horizon, 140
-------�
A-52
ORR Site 52
(See pp. 32, 57. and 58 in Phase II Field Book 2)
Location:
CIassi5cation:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Rad scan:
Weather yesterday:
Present weather
Date:
Oak Ridge Reservation, Chestnut Ridge, Grid N26600, E20200
Typic Hapludults; ciavey, mixed, thermic
Doubly convex sideslope shoulder
12% south
Chepultepec residuum
Old field successional forest. Most pines have fallen. Present
vegetation is red maple, few red cedars and poplar. There is a
fairly thick understorv of red maple and oak seedlings. There are
scattered ferns and honeysuckle of the leaf covered ground
surface.
D. A. Lietzke
Lietzke, Farmer, and Massengale
Air. 20: ground level. 55
Clear
Clear and warmer
October 14. 1992
Soil Description:
Oi 4 to 0 cm; leaf litter
A 0 to 7 cm; dark gravish-brown (10YR 4/2) cherty or very cherry silt loam: strong
fine granular structure; very friable; clear wavy boundary
Ap 7 to 18 cm; brown (10YR 4/3) cherty silt loam; moderate fine granular structure:
very friable; abrupt wavy boundary
E&B 18 to 27 cm: brown (10YR 5/3) E part and strong brown (7.5YR 5/6) B part: silt
loam or siltv clay loam: weak fine subangular blockv structure; very friable: abrupt
irregular boundary
B&E 27 to 45 cm: yellowish-red (SYR 5/6) B part and strong brown (7.5YR 5/6) E part;
siltv clay loam: moderate fine and medium subangular blockv structure: friable;
gradual irregular boundary
Btl 45 to 63 cm; yellowish-red (5YR 5/6) clay: moderate to strong fine and medium
subangular blockv structure, friable: gradual wavy boundary
Bt2 63 to 100 cm; mottled, red. yellowish-red with vellowish-brown drainage mottles:
augered
BC 100 to 170 cm. mottled clay plugged saDrolitic materials
Notes:
Sampling depths: A horizon. 0 to 18 cm. B horizon. 45 to 60 cm. C horizon. 140
-------�
A-53
ORR Site 53
(See pp. 33. 55. and 56 in Phase II Field Book 2)
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Rad scan:
Weather yesterday:
Present weathen
Date:
Oak Ridge Reservation, Chestnut Ridge, N26200, E22400
Typic Hapludults; clayey, mixed, thermic
About a third of the way below a doubly convex shoulder
20% south-southeast
Chepultepec Residuum with a 36 cm thick capping of colluvium
Old field abandoned well before 1940. Present vegetation is white
oak. with and understory of dogwood, sourwood, black gum and
a sparse ground cover of oak and maple sprouts and considerable
chert cobbles.
D. A. Lietzke
Lietzke. Farmer, and Massengale
.Air. 30: ground level. 60
Clear, cool
Clear and warmer
October 13. 1992
Soil Description:
Oi 3 to 0 cm; leaf litter
A 0 to 9 cm; dark grayish-brown (10YR 4/2) cherty or very cherty silt loam; strong
fine granular structure; very friable; clear wavy boundary
Ap 9 to 16 cm; brown (10YR 4/3) cherty silt loam; moderate fine granular structure;
very friable; clear wavy boundary
Btl 16 to 36 cm, vellowish-brown (10YR 5/6) cherty silt loam or cherty loam; weak fine
subangular blockv structure; very friable: abrupt irregular boundary (base of
colluvium)
2Bt2 36 to 59 cm: yellowish-red (5YR 5/6) cherty or very cherty clay: moderate fine and
medium subangular blockv structure; firm: gradual wavy boundary
2Bt3 59 to 101 cm: mottled reds and yellows clay (augered)
2BC 101 to 160 cm, clay plugged saprolitic materials
Notes: The upper 36 cm of the soil is colluvium. The left half of the pit had colluvium to
a depth of 70 cm. The ESD composite sampled the B horizon of the residuum
while the gamma samples extended almost through the colluvium. Sampling depths:
-------�
A-54
ORR Site 54
(See pp. 9. 47. 48. 53 in Phase II Field Book 2)
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by.
Sampling crew:
Rad scan:
Weather yesterday:
Present weather:
Date:
Soil Description:
Oi 3 to 0 cm; leaf litter
A 0 to 6 cm; brown (10YR 5/3) cherty silt loam; strong fine granular structure: very
friable; clear wavy boundary
E 6 to 19 cm; light yellowish-brown (10YR 6/4) cherty silt loam; moderate fine
granular structure; friable: gradual irregular boundary (includes E&B horizon)
B&E 19 to 29 cm; strong brown (7.5YR 5/6) B part and light yellowish-brown (10YR
6/4) E part, cherty siltv clay loam: moderate fine subangular blocky structure:
friable; gradual irregular boundary
Btl 29 to 51 cm: red (2.5YR 4/6) cherty clay; strong fine and medium subangular
blocky structure: firm: gradual w-avv boundary
Bt2 51 to 130 cm: red (2 ~YR 4/6) cherty clay with some high chroma yellowish
saprolite mottles: moai_rate medium and coarse subangular blocky structure: firm:
gradual wavv boundarv
BC 130 to 165 cm: red and yellow clay saprolitic materials that are clay plugged
Notes: Sampling depths: A horizon. 0 to 12 cm. B horizon, 29 to 51 cm C horizon. 155 to
165 cm.
Oak Ridge Reservation, Chestnut Ridge, Grid N28200, E22500
Typic Hapludults: clayey, mixed, thermic
Middle of convex sideslope
30% northwest
Copper Ridge Residuum
Older, cutover, forest. Present canopy trees of chestnut oak with
smaller red maples. The forest floor is covered with leaves along
with a few dogwood sprouts. The forest is very open here.
D. A. Lietzke
Lietzke. Farmer, and Harris
Air. 40; ground level, 60
Clear
Clear and cool
-------�
A-55
ORR Site 55
(See pp. 8, 23, 24, and 35 in Phase II Field Book 2)
Location:
Gasification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Rad scan:
Weather yesterday:
Present weather:
Date:
Oak Ridge Reservation, Chestnut Ridge, Grid N28400, E23400
Tvpic Paleudults; clayey, kaolinitic, thermic
Mid. convex, sideslope between old alluvium above and colluvium
below. This pit has about 27 cm of colluvium over residuum.
26% northeast
Copper Ridge Residuum
Cut over forest. Soil does not appear to have been plowed due
to the very high surficial chert content, but was probably a woods
pasture with some past soil disturbance. Present vegetation
consists of chestnut oaks in the canopy along with a few poplar,
a few midlevel sugar maples and lower level dogwood and black
gum and sprouts of sugar maple and oak. The ground surface is
leaf covered.
D. A. Lietzke
Lietzke and Wilson
Air. 40; ground level. 60
Cloudy with showers
Clearing
September 28,1992
SoQ Description:
Oi
A
E&A
Bt
2E&B
2Btl
2Bt2
4 to 0 cm: leaf litter
0 to 9 cm: dark brown (10YR 3/3) very cherty silt loam: strong fine granular
structure: very friable; clear irregular boundary
9 to 13 cm: Yellowish-brown (10YR 5/4) E part and dark-brown (10YR 3/3) A
Part (worm activity); moderate fine granular structure; very friable: clear wavy
boundary
13 to 27 cm; yellowish-brown (10YR 5/6) cherty siltv clay loam; weak fine
subangular blockv structure; very friable; clear wavy boundary, base of colluvium
27 to 45 cm: yellowish-brown (10YR 5/6) and strong brown (7.5YR 5/6) cherty silty
clay loam; weak fine subangular blocky structure; very friable: gradual irregular
boundary
45 to 71 cm: yellowish-red (5YR 5/6) cherty clav; moderate medium subangular
blocky structure: friable: gradual waw boundary
71 to 165 cm: red (2.5YR 4/8) cherty clay; moderate coarse and medium
subangular blocky structure; firm
Notes:
Sampling depths: A horizon, 0 to 13 cm; B horizon. 45 to 60 cm; C horizon, 140
-------�
A-56
ORR Site 58
(See pp. 16. 17. 19. and 27 in Phase II Field Book 2)
Location:
Gassification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew;
Rad scan:
Weather yesterday:
Present weather
Date:
Soil Description:
Oak Ridge Reservation. Chestnut Ridge, Grid N2S000, E25000
Typic Paleudults: clayey, kaolinitic, thermic
Edge of large, slightly convex, hilltop
6% southeast
Copper Ridge
Old field successional. Present vegetation consists of older growth
hardwoods of red oak, sugar maple and some poplar, dogwood
and hickory understorv, and red maple.oak. sassafras, black gum,
and dogwood sprouts. Ground surface is leaf covered and there
are some boulder-sized chert blocks nearby.
D. A. Lietzke
Lietzke and Burgoa
Air. 25: ground level. 50
Partly cloudy with an evening shower
Partlv cloudy. v.arm, verv humid with a shower during the pit
digging
September 21. 1992
Oi 4 to 0 cm: leaf litter
A 0 to 5 cm; brown (10YR 4/3) very cherty silt loam; moderate fine granular
structure: very friable; clear wavy boundary
Ap 5 to 17 cm, dark yellowish-brown (10YR 4/4) verv cherty silt loam or silty clay
loam: moderate Fine granular structure: very friable: abrupt wavy boundary
B&E 17 to 30 cm; yellowish-red (5/YR 5/8) B part and strong brown (7.5YR 5/6) E Part,
cherty silty clay loam: moderate fine subanguiar blockv structure; friable: clear wavy
boundary
Btl 30 to 36 cm: red (2.5YR 4/8) cherty silty clav loam; moderate fine subanguiar
blockv structure: friable; clear wavy boundary
Bt2 36 to 120 cm; red (2.5YR 4/6) cherty or very cherty clay; moderate fine and
medium subanguiar blockv structure: firm: gradual wavy boundary
Bt3 120 to 173 cm: red cherty clay or clay with some yellowish mottles
Notes: Sampling depths: A horizon. 0 to 127 cm: B horizon. 36 to 50 cm: C horizon. 140
-------�
A-57
ORR Site 59
(See pp. 6. 14. 15, and 18 in Phase II Field Book 2)
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Rad scan:
Weather yesterday:
Present weather.
Date:
Oak Ridge Reservation, Chestnut Ridge, Grid N28000, E26600
Typic Paleudults; clayey, kaolinitic, thermic
Broad, convex, lower middle sideslope
20% northwest
Copper Ridge residuum
This site appears to have been in an old field or pasture that was
not badly eroded prior to abandonment. The soil does not appear
to have been plowed. Present forest is old field-successional. with
some mature shortleaf pine, mature white oak. and an understory
of dogwood, beech, red maple and sassafras sprouts, some
blueberry plants and a few hickory sprouts. The forest floor is
covered with leaves.
Lietzke
Lietzke and Burgoa
-Air, 45: ground level 50
Partly cloudy with a shower during the evening
Cloudy
September 21. 1992
Soil Description:
Oi
A
E&B
B&E
Btl
Bt2
Bt3/BC
4 to 0 cm: leaf litter
0 to 5 cm; dark brown (10YR 3/3) very cherty silt loam; moderate fine granular
structure; very friable; clear wavy boundary
5 to 17 cm; yellowish-brown (10YR 5/4) very cherty silt loam; weak Fine granular
structure; very friable: clear waw boundary
17 to 29 cm: yellowish-brown (10YR 5/4) E part, and strong brown (7.5YR 5/6) B
part, cherty silty clay loam; weak fine subangular blockv structure; very friable;
clear irregular boundary
29 to 43 cm: red (2.5YR 4/6) B part and strong brown (7.5YR 5/8) E part, cherty
silty clay loam or cherty clay; moderate fine subangular blockv structure; friable;
gradual irregular boundary
43 to 100 cm; red (2.5YR 4/6) cherty clay; moderate medium subangular bloclcy
structure; firm: gradual wavy boundary
100 to 140 cm; red (2.5YR 4.6 clay) augered
140 to 165 cm: red cherty or verv chertv clay with yellowish-brown, high chroma,
parent material mottles
Notes:
Sampling depths: A horizon. 0 to 17 cm, B horizon. 43 to 68 cm: C horizon, 140
-------�
A-58
ORR Site 60
(See pp. 7, 37. 38. and 39 in Phase II Field Book 2)
Location;
Gasification:
Geomorphic position:
Slope and aspect:
Parent materials):
Vegetation:
Described by:
Sampling crew:
Rad scan:
Weather yesterday:
Present weather
Date:
Oak Ridge Reservation, Chestnut Ridge, Grid N27800. E27400
Typic hapludults; clayey, mixed, thermic
Doubly convex shoulder that breaks off into a drainagewav
25% southwest
Copper Ridge Residuum
Old field successional forest. Pines have either been harvested.or
died and fallen over. Present canopy trees are oaks, red maple
along with a few white pine and Virginia pine. There is an old
field road about 20 ft uphill of this site. The ground surface is
leaf covered along with sprouts of blueberry, sassafras, red maple
and oak along with greenbriar and a few young cedars.
D. A. Lietzke
Lietzke. Farmer and Harns
Air, 45: ground level. 60
Rainy all day
Cloudy with a few sprinkles
October 5, 1992
SoQ Description:
Oi 3 to 0 cm: leaf litter
A 0 to 4 cm; dark vellowish-brown (10YR 4/4) very cherty silt loam; moderate fine
granular structure; very friable; clear wavy boundary
Ap 4 to 11 cm; brown (7.5YR 5/4) cherty or very cherty silty clay loam: moderate fine
granular structure; very friable; abrupt wavy boundary
Btl 11 to 30 cm: red (2.5YR 4/6) cherty clay; moderate fine subangular blocky
structure: friable: gradual wavy boundary
Bt2 30 to 70 cm; red (2.5YR 4/6) cherry or very cherty clay; moderate medium
subangular blocky structure: firm: a few vertical streaks of strong brown (7.5YR
5/6) silty clay loam: gradual wavy boundary
Bt3 70 to 140 cm; red (2.5YR 4/6) cherty clay; moderate coarse subangular blocky
structure; very firm: gradual wavy boundary
BC 140 to 175 cm; red cherty clay with high chroma yellowish saprolite colors
Notes:
Sampling depths: A horizon. 0 to 11 cm: B horizon, 20 to 40 cm; C horizon. 145
-------�
A-59
ORR Site 62
(See pp. 4. 21, 22. and 34 in Phase II Field Book 2)
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Rad scan:
Weather yesterday:
Present weather:
Date:
SoD Description:
Oak Ridge Reservation, Chestnut Ridge, Grid 27900, E29700
Typic paleudults; clayey, kaolinitic, thermic
Broad, slightly convex, ridgetop
3-4% south
Copper Ridge residuum
Old field successional forest where original pines have all died
and fallen over. Present vegetation consists of oaks and hickories
with red maple and dogwood understory and seedlings of red
maple and sassafras. The forest floor is leaf covered. This site is
located about 75 to 80 ft east of an area that was cut over and
replanted to loblolly pine.
D. A. Lietzke
Lietzke and Wilson
Air, 20, ground level. 50; reading at a depth of 20 cm in the
pit, 65
Cloudy with showers
Cloudy
September 28, 1992
Oi 3 to 0 cm; leaf litter
A 0 to 5 cm; dark brown (10YR 3/3) cherty silt loam; strong fine granular structure;
very friable; clear waw boundary
Ap 5 to 15 cm; brown (10YR 4/3) cherty silt loam; moderate fine granular structure;
very friable; clear wavy boundary
E 15 to 23 cm: yellowish-brown (10YR 5/4) cherty silt loam; weak fine granular
structure; very friable; clear irregular boundary (includes E&B horizon in the lower
part)
B&E 23 to 36 cm: vellowish-red (5YR 5/8) siltv clay loam B part and light yellowish-
brown (10YR 6/4) silt loam E part; weak fine subangular blocky structure; very
friable: clear irregular boundary
Btl 36 to 55 cm: red (2.5YR 4/8) cherty clay; moderate medium subangular blocky
structure; firm: gradual wavy boundary
Bt2 55 to 140 cm; red (2.5YR 4/6) cherty clay with yellowish-brown mottles
Bt3 140 to 163 cm: highly mottled red and yellowish-brown clay with a 2-chroma
wetness streak in the auger samples
Notes:
Sampling depths: A horizon. 0 to 15 cm; B horizon. 36 to 50 cm; C horizon, 140
-------�
A-60
ORR Site 64
(See pp. 5. 51. and 52 in Phase II Field Book 2)
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Rad scan:
Weather yesterday:
Present weather.
Date:
Oak Ridge Reservation. Chestnut Ridge, Grid N27200. E30000
Typic Hapludults: clayey, mixed, thermic
Top of broad, slightly convex ridge
3-5% north-northeast
Copper Ridge Residuum
Old field successional forest. The early pines have all
disappeared. There are a few taller oaks and poplar. There is a
thick sapling stand of red maple along with sprouts of red maple,
beech, ash. along with a few ferns and a few white pine sprouts.
D. A. Lietzke
Lietzke, Farmer and Hams
Ajr. 30, ground level. 50
Clear
Clear
Octooer 12. 1992
Soil Description:
Oi 4 to 0 cm; leaf litter
A 0 to 8 cm: dark brown (10YR 3/3) silt loam; strong fine and medium granular
structure: very friable; clear wavy boundary
Ap 8 to 19 cm; dark yellowish-brown (10YR 4/4) silt loam: moderate fine granular
structure; very friable: clear wavy boundary
BE 19 to 26 cm: not described
Btl 26 to 58 cm: red (2.5YR 4/8) clay; strong fine and medium subangular blocky
structure: firm: gradual wavy boundary
BC 58 to 64 cm: yellow (10YR 7/8) and yellowish-red (5YR 5/8) saprolite that easily
crushes to silt loam or siltv clay loam. There are also vertical clay flows throughout.
CB 64 to 165 cm; yellow (10YR 7/8) and vellowish-red (SYR 5/8) saprolite that crushes
to silt loam or siltv clay loam (augered)
Notes:
Sampling depths are: A horizon. 0 to 19 cm: B horizon. 26 to 50 cm: C horizon.
-------�
A-61
ORR Site 6b
(See pp. 69. 83, and 84 in Phase II Field Book 2)
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Rad scan:
Weather yesterday:
Present weatben
Date:
Oak Ridge Reservation, Chestnut Ridge, Grid N27000, E31000
Typic hapludults; clayey, mixed, thermic
Doubly convex spur below a bench landform
15% southeast
Chepultepec Residuum
Severely eroded old-field successional forest. Many pines are still
standing. There are a few poplar, some red maple and many red
maple saplings and dogwood. Pit is in a dense stand of ferns.
D. A. Lietzke
Lietzke, Farmer, Harris, Massengale
Air, 35, ground level, 55
Rain ending
Clear with high cirrus moving in for the next storm.
November 3, 1992
Soil Description:
Oi 2 to 0 cm; leaf litter
Ap 0 to 13 cm; brown (10YR 4/3) cherty silty clay loam; moderate fine granular
structure; very friable; abrupt wavy boundary
B&E 13 to 21 cm; yellowish-red (5YR 5/8) B part and vellowish-brown (10YR 5/4) E
part; silty clay loam or cherty silty clay loam; moderate fine subangular blocky
structure; friable; abrupt irregular boundary
Btl 21 to 57 cm; red (2.5YR 4/6) cherty clay; moderate fine and medium subangular
blocky structure; firm; gradual wavy boundary
Bt2 57 to 120 cm: yellowish-red (5YR 5/8) and yellow (2.5Y 7/8) cherty clay. A 10YR
7/1) flow zone was also observed in the auger cuttings
BC 120 to 160; highly mottled clay plugged saprolitic matenals that are very cherty
Notes: Sampling depths for primary samples: A horizon. 0 to 12 cm; B horizon, 16 to
30 cm: C honzon, 140 to 165 cm. Sampling depths for field duplicates: A horizon,
-------�
A-62
ORR Site 68
(See pp. 70. 78. and 79 in Phase II Field Book 2)
Location:
Classification:
Gcomorphic position:
Slope and aspect;
Parent material(s):
Vegetation:
Described by.
Sampling crew:
Rad scan:
Weather yesterday:
Present weather
Date:
Oak Ridge Reservation. Chestnut Ridge, Grid N26800, E31700
Tvpic paleudults: clayey, kaolinitic, thermic
Convex sideslope below a coliuvial bench. The pit has a colluvial
capping of variable depth. An old tree throw nearby may be the
agent responsible for the surface mixing.
25% northwest
Chepultepec Residuum with a surficial colluvial capping of 40 to
50 cm
Older forest from which trees have been periodically harvested.
The most recent cutting was done approximately 15 to 25 years
ago. The taller trees are oaks and hickories with subcanopy trees
of red maple and poplar and younger saplings and sprouts of
cherry, hickory, sourwood. oak and sassafras. The forest floor is
leaf covered.
D. A. Lietzke
Lietzke
Air. 20: ground level, 45
Cloudy with occasional drizzle
Rain earlier then clearing
October 28, 1992
Soil Description:
Oi 4 to 0 cm; leaf litter
A 0 to 10 cm; dark grayish-brown (10YR 4/2) cherty silt loam: moderate fine granular
structure; very friable: abrupt irregular boundary (ant burrow or termite burrow
fillings into the E beneath)
E 10 to 32 cm, light vellowish-brown (10YR 6/4) cherty silt loam: weak fine granular
structure; very friable: gradual wavy boundary
Bt 32 to 50 cm; yellowish-brown (10YR 5/6) very cherty siltv clay loam: weak fine
subangular blocky structure; triable to firm with some brittleness; abrupt irregular
boundary
2E&B 50 to 68 cm: light yellowish-brown (10YR 6/4) E part and strong brown (7.5YR
5/8) B part: very cherty to extremely cherty silty clay loam: weak coarse subangular
blocky structure: friable with some brittle areas; abrupt irregular boundary (includes
2B&E horizon)
2Btl 68 to 90 cm; yeilowish-red (5YR 5/8) cherty clay; moderate fine and medium
subangular blocky structure: firm: gradual wavv boundary
2Bt2 90 to 170 cm; highly mottled red. yellowish-red. and yellowish-brown clay or cherty
clay. There are some 2 chroma wetness streaks.
Notes: Sampling depths. A horizon. 0 to 10 cm: B horizon. 68 to 90 cm; C horizon, 150
-------�
A-63
ORR Site 73
(See pp. 72, 85, and 86 in Phase II Field Book 2)
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Rad scan:
Weather yesterday:
Present weather
Date:
Oak Ridge Reservation, Chestnut Ridge, Grid N26800, E34000
Typic hapludults; clayey, mixed, thermic
Doubly convex spur just below a topographic bench landform
15% northwest
Chepultepec Residuum
Old woods that has been logged from time to time. Stumps are
near the pit. Present canopy trees are poplar, oak and red maple.
There is a thick sapling stand of oak, cherry; dogwood and red
maple. There are a few ferns and sprouts of oak, cedar and
cherry. The ground surface is leaf covered.
D. A. Lietzke
Lietzke, Farmer, Harris, Massengale, Justice
Air, 15; ground level, 55
Clearing
Clear but clouds moving in
November 3; 1992
Soil Description:
Oi 3 to 0 cm; leaf litter
A 0 to 10 cm; very dark grayish-brown (10YR 3/2) cherty silt loam; strong fine
granular structure; very friable, clear wavy boundary
E 10 to 27 cm; pale brown (10YR 6/3) cherty silt loam, moderate fine granular
structure; very friable; abrupt irregular boundary
B&E 27 to 46 cm; light vellowish-brown (10YR 6/4) E part and strong brown (7.5YR
5/6) B part; cherty silty clay loam; moderate fine subangular blocky structure; very
friable; abrupt irregular boundary
Bt 46 to 60 cm; yellowish-red (5YR 5/6) clay or cherty clay; strong fine and medium
subangular blocky structure; friable; gradual wavy boundary
BC 60 to 80 cm; yellowish-red and red clay plugged saprolitic materials with high
chroma yellow mottles (augered)
CB 80 to 160 cm; yellow (10YR 7/6-7/8) saprolitic materials with red zones and clay
plugs; also black manganese oxide zones
Notes: This pit cuts through an old stump hole. Sampling depths for primary samples: A
horizon, 0 to 14 cm; B horizon, 33 to 55 cm, C horizon, 145 to 160 cm. Sampling
depths for field duplicates: A horizon, 0 to 10 cm; B horizon, 30 to 50 cm;
-------�
A-64
ORR Site 74
(See pp. 71, 76, and 77 in Phase II Field Book 2)
Location:
Gassification:
Geomorphic position:
Slope and aspect:
Parent materials):
Vegetation:
Described by:
Sampling crew:
Rad scan:
Weather yesterday:
Present weather:
Date:
Oak Ridge Reservation, Chestnut Ridge, Grid N27200, E34000
Typic Hapludults; clayey, mixed, thermic
Convex shoulder on the lower end of a long spur ridge
14% northwest
Chepultepec Residuum
Old-field successional forest The site is next to an old fence row.
There is barbed wire sticking out of a nearby tree. Older trees
are red and white oak. The younger trees are black gum, sweet
gum, oaks, red maple. Only one old pine remains standing. There
are sprouts of red maple, beech, cherry, sourwood and some
fems. The ground surface is leaf covered. This site was probably
a pasture. It does not appear to have been plowed.
D. A. Lietzke
Lietzke. Farmer, Petrowski
Air, 15; ground level. 60
Clear and cool
Clear and cool
October 26, 1992
SoQ Description:
Oi 4 to 0 cm; leaf litter
A 0 to 6 cm; dark grayish-brown (10YR 4/2) cherty loam; moderate fine granular
structure; very friable; clear wavy boundary
El 6 to 16 cm; brown (10YR 5/3) cherty loam, weak fine granular structure; very
friable; clear wavy boundary
E2 16 to 29 cm; brownish-yellow (10YR 6/4) cherty loam or cherty fine sandy loam;
weak fine granular structure; very friable; abrupt irregular boundary
B&E 29 to 41 cm; strong brown (7.5YR 5/8) and brownish-yellow (10YR 6/4) sandy clay
loam or clay loam; weak fine subangular blocky structure; friable; abrupt irregular
boundary
Bt 69 to 120 cm; yellowish-red (5YR 5/8) clay; moderate fine and medium subangular
blocky structure; firm; gradual wavy boundary
BC1 69 to 120 cm; yellowish-red (5YR 5/8) with high chroma yellow mottles, highly clay
plugged saprolitic materials along with chert blocks
BC2 120 to 160 cm; very cherty saprolitic materials. (It took more than 2 h to penetrate
from 69 to 160 cm.)
Notes:
Sampling depths: A horizon, 0 to 12 cm; B horizon, 41 to 61 cm; C horizon. 140
-------�
A-65
ORR Site 75
(See pp. 3, 40, and 41 in Phase, II Field Book 2)
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Rad scan:
Weather yesterday.
Present weather
Date:
Soil Description:
Oi 2 to 0 cm; leaf litter
A 0 to 4 cm; very dark grayish-brown (10YR 3/2) cherty silt loam; strong medium
granular structure: very friable; abrupt wavy boundary
Ap 4 to 11 cm; dark brown (10YR 3/3) cherty silt loam; strong fine granular structure;
very friable; clear wavy boundary
EB 11 to 20 cm; strong brown &.5YR 4/6) cherty silt loam; strong fine subangular
blocky structure; very friable, gradual wavy boundary
BE 20 to 30 cm; yellowish-red (SYR 5/6) cherty or very cherty silty clay loam;
moderate fine subangular blocky structure; very friable; clear wavy boundary
Btl 30 to 49 cm; red (2.5YR 4/6) cherty clay; strong fine and medium subangular
blocky structure: firm; gradual wavy boundary
Bt2 49 to 78 cm: red (2.5YR 4/6) cherty or very cherty clay; moderate medum
subangular blocky structure; firm; gradual wavy boundary
Bt3 78 to 165 cm; red cherty or very cherty clay (augered)
Notes: Sampling depths: A horizon, 0 to 11 cm; B horizon, 30 to 49 cm, C horizon, 150
to 165 cm
Oak Ridge Reservation, Chestnut Ridge, Grid N27200, E35400
Typic Paleudults; clayey, kaolinitic, thermic, (dark surface phase).
Broad, doubly convex, ridgetop
13% northeast
Copper Ridge Residuum
Old field successional forest. Original pines are being replaced by
a thick stand of young pines, poplar, black gum, sourwood and
dogwood with some sprouts plus honeysuckle on the forest floor.
The ground surface is covered with leaves and fallen pines.
D. A. Lietzke
Lietzke and Harris
Air, 20; ground level, 50
Cloudy
Clear, cool and breezy
-------�
A-66
ORR Site 77
(See pp. 43, 61, 62, and 63 in Phase II Field Book 2)
Location:
Classification:
Geotnorphic position:
Slope and aspect:
Parent material (s):
Vegetation:
Described by:
Sampling crew:
Rad scan:
Weather yesterday:
Present weather
Date:
Oak Ridge Reservation, Chestnut Ridge, Grid N26600, E35200
Typic Hapludults; clayey, kaolinitic, thermic
Broad, slightly convex, ridgetop
2-3% south-southeast
Chepultepec Residuum
Old Field successional forest with a few of the original pines still
standing along with a few cedars. Present canopy trees are oaks,
hickories, red maple and cherry. There are sprouts of oak,
sassafras, maple, and poplar. The ground surface is leaf covered.
D. A. Lietzke
Lietzke, Harris
Air, 25; ground level, 45
Cloudy with showers then clearing in the afternoon
Clear morning with frost in the low places
October 19, 1992
Soil Description:
Oi 4 to 0 cm; leaf litter and a root mat
A 0 to 5 cm; dark brown (10YR 3/3 -3/2) cherty loam; strong fine granular structure;
very friable; clear wavy boundary
Ap 5 to 14 cm; dark brown (10YR 3/3) cherty loam; moderate fine and medium
granular structure; very friable; abrupt wavy boundary
E 14 to 24 cm; yellowish-brown (10YR 5/4) cherty loam or cherty silt loam; weak fine
granular structure; very friable; abrupt irregular boundary. (The lower part of the
E horizon contains thin E&B, and B&E horizons.)
Btl 24 to 40 cm: yellowish-red (5YR 5/8) cherty clay loam or cherty sandy clay loam;
moderate medium subangular blocky structure; friable; gradual wavy boundary
Bt2 40 to 75 cm; mottled yellowish-red and yellowish-brown clay (augered)
Bt3 75 to 130; yellowish-red clay
BC/CB 130 to 160 cm; saprolitic materials in hues of reds and yellows; partially plugged
with soft manganese oxides
Notes: Sampling depths: A horizon, 0 to 14 cm; B horizon, 40 to 60 cm; C horizon, 140
to 160 cm; field duplicate depths: A horizon, 0 to 14 cm; B horizon, 45 to 60 cm;
-------�
A-67
ORR Site 78
(See pp. 44, 59, and 60 in Phase II Field Book 2)
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent materiaJ(s):
Vegetation:
Described by:
Sampling crew:
Rad scan:
Weather yesterday:
Present weather
Date:
Soil Description:
Oak Ridge Reservation, Chestnut Ridge, Grid N26700, E35600
Typic Hapludults; clayey, kaoliniticr thermic
Broad, slightly convex ridgetop
4-5% southeast
Chepultepec Residuum that is covered by about 36 cm of ancient
colluvium
Old field successional forest. Most of the original pines have died
and fallen over. Present vegetation consists of oaks and some
poplars in the canopy and a few lower story red maples. There
are sprouts of red maple, sassafras, and cherry. There is some
honeysuckle. The ground surface is leaf covered.
D. A. Lietzke
Lietzke, Fanner, G.Lee
Air, 30; ground level, 65
Clear and warm
Clear and warmer
October 15, 1992
Oi
A
Ap
2B&E
2Btl
2Bt2
2BC
4 to 0 cm; leaf litter
0 to 5 cm; very dark grayish-brown (10YR 3/2) cherty loam; strong medium
granular structure; very friable; clear wavy boundary
5 to 15 cm; dark grayish-brown (10YR 4/2) cherty loam or cherty silt loam; strong
fine granular structure; very friable; abrupt wavy boundary
15 to 36 cm; light yellowish-brown (10YR 6/4) very cherty loam; moderate fine
granular structure; very friable; abrupt wavy boundary. (A thin Bt horizon (7.5YR
5/6) is included at the base.)
36 to 48 cm; strong brown (7.5YR 5/6) B part and pale brown (10YR 6/3) E part
cherty clay loam; moderate fine subangular blocky structure; friable; abrupt
irregular boundary
48 to 60 cm; yellowish-red (5YR 5/8) clay; moderate to strong fine and medium
subangular blocky structure; firm; gradual wavy boundary
60 to 120 cm; yellowish-red and red clay with yellowish-brown drainage mottles
(augered)
120 to 160 cm; highly clay plugged, very cherty, saprolitic materials of reds and
yellows
Notes:
Sampling depths: A horizon, 0 to 15 cm; B horizon, 48 to 60 cm; C horizon, 140
-------�
A-68
ORR Site 83
(See pp. 2, 49, 50, and 54 in Phase II Field Book 2)
Location:
Gasification:
Geomorphic position:
Slope and aspect:
Parent materials):
Vegetation:
Described by:
Sampling crew:
Rad scan:
Weather yesterday:
Present weather:
Date:
Oak Ridge Reservation, Chestnut Ridge, Grid N27800, E37600
Typic Hapludults; clayey, mixed, thermic
Elongated, doubly convex, ridgetop
5% south-southwest
Copper Ridge Residuum
Old field successional forest. The early pines have nearly all died
and fallen over. Present forest consists of red maple, a few pines,
poplars, cherry, sourwood along with some cedars and dogwood.
The ground surface is leaf covered.
D. A. Lietzke
Lietzke, Farmer and Harris
Air, 20; ground level, 50
Clear, breezy and cool
Clear and cool
October 12. 1992
Soil Description:
Oi 3 to 0 cm; leaf litter
A. 0 to 6 cm; very dark grayish-brown (10YR 3/2) cherty silt loam; strong fine and
medium granular structure; very friable; clear wavy boundary
Ap 6 to 16 cm; dark brown (10YR 3/3) cherty silt loam; strong fine granular structure;
very friable; clear wavy boundary
B&E 16 to 24 cm; yellowish-red (5YR 5/6) B part and strong brown (7.5YR 4/6) E part;
silty clay loam or cherty silty clay loam; moderate fine subangular blocky structure;
very friable; clear wavy boundary
Btl 24 to 53 cm; red (2.5YR 4/6) clay or cherty clay; strong fine and medium
subangular blocky structure; friable; gradual wavy boundary
Bt2 53 to 90 cm; red (2.5YR 4/8) clay or cherty clay; moderate medium subangular
blocky structure; firm; gradual wavy boundary
BC 90 to 160 cm; mottled red and yellow clay-plugged saprolitic materials (augered)
Notes: Sampling depths: A horizon, 0 to 15 cm; B horizon, 24 to 53 cm; C horizon, 100
to 170 cm. (Because of the chert content, two auger holes were required to collect
enough sample. The first auger hole penetrated from 150 to 170 cm with only
sporadic recovery. The second hole was sampled from 100 to 140 cm depth.
-------�
A-69
ORR Site 85
(See pp. 46. 66, and 67 in Phase II Field Book 2)
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Rad scan:
Weather yesterday:
Present weather
Date:
Oak Ridge Reservation, Chestnut Ridge, Grid N26000, E37800
Typic or Humic Hapludults; clayey, kaolinitic, thermic
Lower third of long convex sideslope that goes all the way to the
creek
48% east-northeast
Chepultepec Residuum with a capping of creep materials 42 cm
thick. This site is very close to the Longview Formation.
Cut over forest probably never plowed because of the steepness,
but probably pastured. Present trees are red oak, sugar maple,
white pine and umbrella magnolia. There is abundant poison ivy
ground cover along with some ferns. The ground surface is leaf
covered.
D. A, Lietzke
Lietzke. Harris
Air, 25; ground level, 55
Clear
Partly cloudy
October 20, 1992
SoQ Description:
Oi 4 to 0 cm; leaf litter
A1 0 to 16 cm; dark brown (10YR 3/3) cherty silt loam; strong medium granular
structure; very friable; clear wavy boundary
A 16 to 23 cm; dark yellowish-brown (10YR 3/4) cherty silt loam; strong fine granular
structure; very friable; abrupt irregular boundary
E&A 23 to 31 cm; yellowish-brown (10YR 5/8) E part and dark yellowish-brown (10YR
4/4) A part; cherty silt loam; moderate fine granular structure; very friable; abrupt
irregular boundary (worm activity?)
B&E 31 to 42 cm; strong brown (7.5YR 4/4) B part, and dark yellowish-brown (10YR
4/4) E part; cherty silty clay loam, weak fine subangular blocky structure; friable;
abrupt irregular boundary
Bt 42 to 80 cm; red (2.5YR 4/6) clay or cherty clay with yellowish-brown clay flows on
ped faces; strong medium subangular blocky structure; firm; gradual wavy boundary
BC 80 to 160 cm; red saprolitic materials with high chroma yellowish mottles; clay;
some manganese oxides in discrete zones
Notes:
Sampling depths for primary samples: A horizon, 0 to 15 cm; B horizon, 42 to
-------�
A-70
ORR Site 86
(See pp. 45. 64, and 65 in Phase II Field Book 2)
Location:
Gasification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Rad scan:
Weather yesterday:
Present weather:
Date:
Oak Ridge Reservation, Chestnut Ridge, Grid N26000, E38200
Typic Hapludults; clayey skeletal, kaolinitic, thermic
Steep doubly convex sideslope between Chestnut Ridge Road and
the creek
45% southwest
Uppermost Chepultepec Residuum, but may be in the Longview
Old growth forest but which has been periodically logged. Present
trees are chestnut oaks and some hickories along with some
smaller red maple and small sassafras, oak and maple sprouts.
D. A. Lietzke
Lietzke, Harris
Ajr, 25; ground level, 50
Clear and frosty
Cloudy
October 20, 1992
Soil Description:
Oi 3 to 0 cm; leaf litter and root mat
A 0 to 3 cm; very dark grayish-brown (10YR 3/2) extremely cherty silt loam: strong
medium granular structure, very friable; abrupt wavy boundary
E •' 3 to 18 cm; pale brown (2.5Y 6/3) extremely cherty silt loam; moderate fine
granular structure; very friable; clear wavy boundary
EB 18 to 40 cm; yellowish-brown (10YR 5/6) extremely cherty silty clay loam; weak
fine subangular blocky structure; very friable; gradual wavy boundary
BE 40 to 56 cm; strong brown (7.5YR 5/6) extremely cherty silty clay loam; rmderate
fine subangular blocky structure; very friable; gradual wavy boundary
Bt 56 to 95 cm; strong brown (7.5YR 5/6-5/8) extremely cherty clay or very cherty
clay; moderate medium subangular blocky structure; friable; gradual wavy boundary
BC 95 to 160 cm; mottled red and yellow clayey saprolitic materials (augered"
Notes: Sampling depths for primary samples: A horizon, 0 to 15 cm; B horizon, 32 to
50 cm; C horizon, 140 to 155 cm. Field duplicate sampling depths: A horizon, 0 to
-------�
A-71
ORR Site 90
(See pp. 73, 74, and 75 in Phase II Field Book 2)
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Rad scan:
Weather yesterday:
Present weather.
Date:
Oak Ridge Reservation, Chestnut Ridge, Grid N28000, E40800
Typic Hapludults; clayey, mixed, thermic
Small, doubly convex, spur ridge that is surrounded by old
alluvium
6% southeast
Chepultepec Residuum
Present vegetation consists of a 30- to 40-year-old stand of
planted loblolly pine. The understory is red maple, poplar and
seedling pines. Groundcover is honeysuckle, roses, and blackberry
briars.
D. A. Lietzke
Lietzke. Farmer, Petrowski
Air, 15; ground level, 55
Clear and cool with some fog
Clear and cool but with a warming trend
October 26, 1992
Soil Description:
Oi 4 to 0 cm; leaf litter, pine needles and honeysuckle roots and stems
Ap 0 to 12 cm; brown (10YR 4/3) cherty loam; moderate fine granular structure;
friable; abrupt wavy boundary
E&B 12 to 27 cm; light vellowish-brown (10YR 6/4) E part, and brown (7.5YR 5/4) B
part; cherty loam or cherty sandy clay loam; weak fine granular structure, friable;
abrupt irregular boundary. (This horizon also includes a B&E horizon in the lower
part.)
Btl 27 to 59 cm; yellowish-red (5YR 5/8) clay or cherty clay; moderate medium and
coarse subangular blocky structure, firm; gradual wavy boundary
Bt2 95 to 120 cm; yellowish-red and red clay with yellowish-brown mottles, (augered
BC 120 to 160 cm; mottled reds and high chroma yellows; clay-plugged saprolitic
materials
Notes: Many fragments are sandstone. This site is about 60 ft north of Chestnut Ridge
Road with a gravel surface. The soil surface probably has received dust additions
and perhaps other contaminants. Sampling depths: A horizon, 0 to 12 cm; B
-------�
A-72
ORR Site 91
(See pp. 1, 10, 11, 12, 13, and 20 in Phase II Field Book 2)
Location:
Oassification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Rad. Scan:
Weather yesterday:
Present weather:
Date:
Oak Ridge Reservation, Chestnut Ridge near Roane-Anderson
County line, Grid N27000, E41000
Typic Paleudults; clayey, kaolinitic, thermic
Long convex sideslope spur with some shallow dolines nearby and
some boulder-sized chert on the surface
7% north
Copper Ridge Residuum
Old woodlot with remains of chestnut stumps and barbed wire
imbedded in a tree about 3 ft from the pit. Present trees are
poplar, cherry, post and white oak, one chestnut sprout about
15-ft-tall and 1 -in. dbh plus red maple and dogwood. Leaf
covered ground and sprouts of sassafras, red maple and hickory.
D. A. Lietzke
Lietzke and Burgoa
Air, 50; ground level 65
Partly cloudy and warm with a shower during the night
Cloudy and damp
September 21, 1992
SoQ Description:
Oi 4 to 0 cm; leaf litter
A 0 to 5 cm; dark brown (10YR 3/3) cherty or very cherty silt loam; strong fine
granular structure; very friable; abrupt wavy boundary
E 5 to 18 cm; yellowish-brown (10YR 5/4) cherty or very cherty silt loam; moderate
fine granular structure, very friable; clear wavy boundary
B&E 18 to 30 cm; yellowish-red (5YR 5/6) B part, and strong brown (7.5YR 5/6' E part;
silt loam or siltv clay loam; weak fine subangular blocky structure; very friable; clear
wavy boundary
Btl 30 to 52 cm; red (2.5YR 4/8), cherty clay; moderate medium subangular blocky
structure; firm, gradual wavy boundary
Bt2 52 to 79 cm; red (2.5YR 4/6) clay or cherty clay; moderate medium subangular
blocky structure and angular blocky structure; firm; gradual wavy boundary
BG 79 to 155 cm; red (2.5YR 4/6) cherty clay with strong brown and yellowish-brown
mottles
Notes:
Sampling depths: A Horizon, 0 to 18 cm; B horizon, 30 to 52 cm; C horizon, 135
-------�
A-73
ORR Site 93
(See pp. l, 5, and 6 in Phase II Field Book 3)
Location:
ClassiG cation:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Rad scan:
Weather yesterday:
Present weather:
Date:
Soil Description:
Oi 4 to 0 cm, leaf litter
A 0 to 2 cm; very dark grayish-brown (10YR 3/2), silty clay loam; strong medium
granular structure; friable: abrupt wavy boundary
Ap 2 to 11 cm; dark yellowish-brown (10YR 4/4), silty clay loam; weak fine granular
structure;firm; abrupt wavy boundary
Btl 11 to 22 cm; yellowish-red (5YR 4/6) clay; strong fine and medium angular and
subangular blocky structure: very firm, yellowish-brown (10YR 5/6) coatings on all
ped surfaces; clear wavy boundary
Bt2 22 to 45 cm; yellowish-red (5YR 5/6) and red (2.5YR 5/6) clay; weak coarse
prismatic structure parting to strong fine and medium angular blocky structure; pale
brown (2.5Y 6/3) ped coatings, very firm; clear wavy boundary
BC 45 to 85 cm; yellowish-brown (10YR 5/4) clay; massive; abrupt irregular boundary
R 85 cm limestone rock ledge. Depth to rock is highly variable below a depth of
85 cm
Notes: Sampling depths; A horizon, 0 lo 11 cm; B horizon, 12 to 22 cm; C horizon, 65 to
80 cm
Oak Ridge Reservation, Bethel Valley, Grid N21600, E26500
Typic Hapludalfs; fine, mixed, thermic
Broad, convex spur extending to the north from Haw Ridge
7% northwest
Unit G Chickamauga-Bethel Valley Section
Old field successional forest in a severely eroded old field.
Present vegetation is dominated by hardwoods but there are still
pines and a few large cedars, a few large oaks and ash along with
sprouts of maple, dogwood and ash. There is abundant poison ivy.
The ground surface is leaf-covered.
D. A Lietzke
Lietzke, Burgoa
Air, 50; ground level, 70
Clear and cool with frost at night
Clear and cool with frost at night
-------�
A-74
ORR Site 99
(See pp. 1, 7, and 8 in Phase II Field Book 3)
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Rad scan:
Weather yesterday:
Present weather:
Date:
SoQ Description:
Oi 4 to 0 cm; needles, leaves, mosses, and lichens
A 0 to 2 cm; dark brown (10YR 3/3) silt loam; moderate fine granular structure; very
friable; abrupt wavy boundary
Ap 2 to 15 cm; brown (7.5YR 4/4) silty clay loam; weak Fine granular structure; friable;
abrupt wavy boundary
Btl 15 to 32 cm; yellowish-red (5YR 4/6) clay or silty clay; moderate fine and medium
subanguiar blocky structure; friable; gradual wavy boundary
Bt2 32 to 87 cm; brown (7.5YR 4/4) clay or silty clay; moderate fine subanguiar blocky
structure; friable; many soft manganese oxide bodies throughout; graduil wavy
boundary
BC 87 to 180 cm; brown ( 7.5YR 4/4) clay (augered)
CB 180 to 200 cm; yellowish-brown (10YR 5/4) clay with many soft black manganese
oxide bodies throughout
Notes: Sampling depths: A horizon. 0 to 15 cm: B horizon. 18 to 32 cm; C horizon, 98 to
113 cm
Oak Ridge Reservation, Bethel Valley, Grid 22000, E27!'50
Typic Hapludults; clayey, mixed, thermic
Lower convex sideslope, very severely eroded landform. The pit
is located on an narrow spur ridge between two gullies.
5% northwest
Unit G Chickamauga Residuum. Bethel Valley section
Old-field successional pines with most Virginia and shortleaf
pines still in place. There is a thick sapling stand of red maple
and dogwood along with honey suckle and poison ivy. The ground
surface is about 70% covered with mosses and lichens with the
remainder covered by needles and leaves.
D. A. Lietzke
Lietzke, Burgoa
Air, 40; ground level, 60
Clear and cool with frost at night
Clear and cool with frost at night
-------�
A-75
ORR Site 100
(See pp. 1, 9, and 10 in Phase II Field Book 3)
Location:
Gasification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Rad scan:
Weather yesterday:
Present weather
Date:
Soil Description:
Oi 4 to 0 cm; leaves
Oa 0 to 3 cm; sapric materials, hemic materials and a root mat
Ap 3 to 6 cm; brown (10YR 4/3) silty clay loam; moderate fine granular structure;
friable: abrupt wavy boundary
Btl 6 to 25 cm; strong brown (7.5YR 5/8) clay; moderate medium prismatic structure
parting to moderate fine subangular blocky structure; firm; thick yellowish-brown
(10YR 5/4) coatings on prism faces; clear wavy boundary
Bt2 25 to 48 cm; strong brown (7.5YR 5/8) clay with some brownish-yellow (10YR 6/6)
ped interiors; moderate coarse prismatic structure parting to moderate fine angular
blocky structure; very firm; thick yellowish-brown (10YR 5/4) coatings on prism
faces; clear wavy boundary
C 48 to 84 cm; brownish-yellow (10YR 6/6) saprolitic materials that easily crush to
clay; some ped faces in the upper part that are coated with strong brown (7.5YR
5/8) clay
Cr 84 to 100 cm; olive yellow (2.5Y 6/6) saprolile with red and black coatings in larger
cracks and on joint surfaces
Notes: Sampling depths: A horizon. 0 to 6 cm; B horizon, 10 to 25 cm; C horizon, 55 to
70 cm
Oak Ridge Reservation, Bethel Valley, Grid N21600, E28000
Typic Hapludults clayey, mixed, thermic
Doubly convex spur off of Haw Ridge
12% northwest
Unit G Chickamauga Residuum of Bethel Valley section
Severely eroded old woods pasture field vegetation. The open
forest stand is dominated by large oaks, some white pine and
sugar maple. There are beech and maple saplings and oak sprouts
along with some lowbush blueberry. The ground surface is leaf
covered.
D. A. Lietzke
Lietzke, Burgoa
Air, 50; ground level, 70
Clear and cool
Clear and cool
-------�
A-76
ORR Site 101
(See pp. 2, 13, 14, and 15 in Phase II Field Book 3)
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Rad scan:
Weather yesterday:
Present weather:
Date:
Oak Ridge Reservation,.Bethel Valley, Grid N21250, E31550
Typic Hapludalfs; fine, mixed, thermic
Doubly convex sideslope off of Haw Ridge
25% northwest
Unit G Chickamauga Residuum of Bethel Valley Sectioi
Mature cedars, oaks and beech along with sugar maple, beech
and dogwood saplings and sprouts. This site was evidently never
plowed but was probably a woods pasture
D. A. Lietzke
Lietzke, Farmer, Harris
Air, 60, ground level, 80
Clear
Clear
November 19, 1992
Soil Description:
Oi
A
AB
Bt
5 to 0 cm; leaves
0 to 13 cm; very dark grayish-brown (10YR 3/2) clay or silty clay; strong coarse
granular structure; firm or very firm; clear wavy boundary
13 to 23 cm; brown (10YR 4/3) clay; strong medium and coarse subangilar and
angular blocky structure; very firm; peds coated with dark grayish-brown (10YR
4/2) materials; gradual wavy boundary
23 to 50 cm; yellowish-brown (10YR 5/4) clay; moderate medium and coarse
prismatic parting to strong medium angular blocky structure; very firm; ped
coatings of dark grayish-brown (10YR 4/2); gradual wavy boundary
50 to 70 cm; light yellowish-brown (2.5Y 6/4) clay; weak coarse prismatic structure
in the upper part to massive in the lower part, abrupt irregular boundary. Some
thin limestone ledges were in this horizon and were removed from the pi;.
70 cm; limestone rock ledge at strike and dip
Notes:
Sampling depths: A horizon, 0 to 12 cm; B horizon, 23 to 50 cm; C horizon, 60 to
-------�
A-77
ORR Site 102
(See pp. 2, 13, 14, and 17 in Phase II Field Book 3)
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Rad scan:
Weather yesterday:
Present weather
Date:
Soil Description:
Oak Ridge Reservation, Bethel Valley, Grid N21300, E34900
Typic Hapludalfc; fine, mixed, thermic
Broad, slightly convex ridge
3% northwest
Chickamauga Residuum of the Bethel Valley Section
This site is probably in the front yard of an old house site.
Present vegetation consists of scattered large oaks and large
Virginia pines. Poison ivy ground cover is very abundant. This site
was relatively uneroded before abandonment.
D. A. Lietzke
Lietzke, Fanner, and Harris
Air, 40; ground level, 60: In top of auger hole, 70
Clear and warm
Clear but clouding in
November 19, 1992
Oi 5 to 0 cm; leaves, needles and leaf litter
A 0 to 10 cm; dark yellowish-brown (10YR 3/4) silty clay loam; strong coarse granular
structure; friable; clear wavy boundary
BA 10 to 20 cm, dark brown (7.5YR 3/4) silty clay loam; moderate fine subangular
blocky structure; firm; clear wavy boundary
Bt 20 to 34 cm; yellowish-red (5YR 4/6) clay; weak coarse prismatic parting to strong
medium and coarse angular and subangular blocky structure; very firm; strong
brown (7.5YR 5/4) clay flows on most ped surfaces and especially heavy on prism
surfaces; gradual wavy boundary
BC 34 to 101 cm; saproiitic materials with ped in the upper part decreasing with depth;
colors are red (2.5YR 5/6), strong brown (7.5YR 5/6) and light yellowish-brown
(2.5Y 6/4) clay; weak coarse prismatic structure; very firm; abrupt irregular
boundary
R 101 cm; limestone ledge. Depth to rock in this pit ranges from 34 to 101 cm and
perhaps deeper in a few places. Other small slabs of limestone were removed when
digging the pit.
Notes: Sampling depths: A horizon, 0 to 10 cm; B horizon, 20 to 34 cm; C horizon, 90 to
-------�
A-78
ORR Site 103
(See pp. 2, 12, 13, and 16 in Phase II Field Book 3)
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent materials):
Vegetation:
Described by:
Sampling crew:
Rad scan:
Weather yesterday:
Present weathen
Date:
Oak Ridge Reservation, Bethel Valley, Grid N20800, E36400
Typic Hapludults; clayey, mixed, thermic
Middle section of a doubly convex sideslope
24% northwest
Chickamauga Residuum from the Bethel Valley Section
Old field successional forest. Some of the original pines remain
along with a few larger oaks. Small trees are beech, dogwood,
gum and cedar. This site was severely eroded before
abandonment.
D. A. Lietzke
Lietzke. Farmer and Harris
Air, 60; ground level, 80; top of auger hole. 90
Clear and dry
Clear and dry
November 19, 1992
Soil Description:
Oi
A
2Bt
2BC
2CB
5 to 0 cm; leaf litter
0 to 4 cm (varies from 0 to 7 cm in an old stump hole); dark yellowish-brown
(10YR 4/4) loam; moderate fine granular structure; very friable; abrupi wavy
boundary. This A horizon consists largely of Rome materials that have movec down
the slope.
4 to 30 cm; yellowish-red (5YR 4/6) clay; strong medium and coarse subangular
blocky structure; very firm; strong brown (7.5YR 5/4) ped coatings; gradual wavy
boundary. The dominant structure is probably large prismatic.
30 to 77 cm; saprolitic materials but having ped structure; ped interiors are
brownish-yellow (10YR 6/6) and yellowish-red (5YR 4/6) clay; weak :oarse
prismatic structure; very firm. Peds are coated with both yellowish-red and red clay;
gradual wavy boundary.
77 to 105 cm; red and yellow saprolitic materials that easily crush to clay. Nd rock
was exposed in the bottom of the pit.
Notes:
Sampling depths: A Horizon, 0 to 4 cm; B Horizon, 4 to 15 cm; C horizon. 90 to
-------�
A-79
ORR Site 104
(See pp. 3, 21, 22, 30, and 31 in Phase II Field Book 3)
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Rad scan:
Weather yesterday:
Present weather
Date:
Oak Ridge Reservation, Bethel Valley, Grid N21800, E44000
Typic Hapludults; clayey, mixed, thermic
Doubly convex sideslope
13% northwest
Chickamauga Residuum of the Bethel Valley Section
Old field successional forest. The original pines and cedars have
mostly disappeared, but some remain. Present trees are all
hardwoods consisting of oaks, red maple, and hickory. There are
some lowbush blueberries on the forest floor. The ground surface
is leaf covered.
D. A. Lietzke
Lietzke, Burgoa
Air, 40; ground level, 65; top of auger hole 85
Cloudy and cold
Partly cloudy to mostly cloudy
November 30, 1992
Soil Description:
Oi 4 to 0 cm; leaves and leaf litter
Oa 0 to 1 cm; black organic matter and a root mat
E 1 to 4 cm; pale brown (2.5Y 5/3) silt loam; weak fine granular structure; very
friable; clear wavy boundary. Contains some Rome pebbles.
Ap 4 to 11 cm; brown (10YR 4/3) silt loam; weak fine granular structure; very friable;
abrupt wavy boundary. Contains some Rome pebbles.
Bt 11 to 47 cm; yellowish-red (5YR 5/8) clay; weak coarse prismatic parting to strong
medium subangular blocky structure; very firm; gradual wavy boundary.
BC 47 to 100 cm; multi-colored saprolitic materials with clay texture; moderate medium
and coarse angular blocky structure; peds have saprolitic interiors, peds are coated
with reddish-brown (5YR 5/4) clay.
-------�
A-80
ORR Site 108
(See pp. 3, 23, 24, 30, and 31 in Phase II Field Book 3)
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent materials):
Vegetation:
Described by:
Sampling crew:
Rad scan:
Weather yesterday:
Present weather:
Date:
Oak Ridge Reservation, Bethel Valley, Grid N22250, E45000
Typic Hapludalfc; fine, mixed, thermic
Doubly convex sideslope
9% northwest
Chickamauga Residuum of the Bethel Valley Section
Old field successional forest with some large pines and a more
smaller pines and a lower story of hardwoods;. There is fairly
thick brush along with honey suckle and poison ivy. The forest
floor is mostly leaf covered but there are patches of moses.
D. A. Lietzke
Lietzke, Burgoa
Air, 50; ground level, 60; top of auger hole, 70
Cloudy and cold
Mostly cloudy
November 30, 1992
SoQ Description:
Oi 3 to 0 cm; leaf litter and pine needles
Oe 0 to 1 cm; partially decomposed litter
Ap 0 to 7 cm; dark yellowish-brown (10YR 4/4) silty clay loam; moderate fine granular
structure; very friable; abrupt wavy boundary
Bt 7 to 38 cm; red (2.5/YR 4/6) clay; strong fine and medium angular blocky structure;
firm; clear wavy boundary
BC 38 to 53 cm: collapsed saprolitic materials with clay texture; highly mottled
yellowish-brown, yellowish-red along with 2 and 3 chroma wetness mottles; weak
medium and coarse angular blocky structure; abrupt irregular boundary
R 53 cm; limestone rock with highly variable depth ranging from 53 to 95 cm
Notes: Sampling depths: A horizon, 0 to 7 cm; B horizon, 12 to 20 cm; C horizon, 80 to
90 cm. The BC horizon that was sampled at a depth of 80 to 90 cm is not
underlain directly by limestone as is the BC horizon described above. Where the
BC horizon is thicker and deeper to rock, it has a yellowish-red (5YR 4/6) color
-------�
A-81
ORR Site 110
(See pp. 4, 25. 26, 30, and 38 in Phase II Field Book 3)
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent materials):
Vegetation:
Described by:
Sampling crew:
Rad scan:
Weather yesterday:
Present weather
Date:
Oak Ridge Reservation, Bethel Valley, Grid N22400, E45800
Typic Hapludalfs; fine, mixed, thermic
Elongated convex ridge
2%
Chickamauga Residuum of the Bethel Valley Section
Old field successional forest with pines, oaks and cedars. There
are also beech and hickory sprouts along with weeds and
honeysuckle. This site was severely eroded before abandonment.
D. A. Lietzke
Lietzke, Burgoa
Air, 40; ground level, 50; top of auger hole, 90
Cloudy and cold
Cloudy
November 30, 1992
Soil Description:
Oi
A
Bt
BC
CB
5 to 0 cm; leaves and leaf litter
0 to 3 cm; dark brown (10YR 3/3) silty clay loam; strong medium granular
structure; very friable; abrupt wavy boundary
3 to 40 cm; yellowish-red (5YR 4/6) clay; strong fine, medium and coarse angular
blocky structure; firm; dark yellowish-brown (10YR 4/4) ped coatings; gradual wavy
boundary
40 to 75 cm; brown (7.5YR 4/4) clay with yellowish-brown (10YR 5/4) drainage
mottles; moderate coarse prismatic structure, gradual wavy boundary
75 to 85 cm; light olive brown (2.5Y 5/6) and yellowish-brown (10YR 5/6) clay;
strong fine angular blocky structure. There were rock ledges in several locations
on all pit faces.
Notes:
Sampling depths: A horizon. 0 to 3 cm; B horizon. 3 to 20 cm; C horizon, 75 to
-------�
A-82
ORR Site 115
(See pp. 11, 30, 36, and 37 in Phase II Field Book 3)
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Rad scan:
Weather yesterday:
Present weather:
Date:
Oak Ridge Reservation, Bethel Valley, Grid N22500, E46700
Typic Hapludalfs; Fine, mixed, thermic
Convex ndgetop
3% southeast
Unit E Chickamauga, Bethel Valley Section Residuum
Old field successional forest of Virginia pine, cedar, oaks,
hickories, ash, dogwood, with a good stand of poison ivy and
some honeysuckle. This site does not appear to have been
plowed, but was probably a woods pasture.
D. A. Lietzke
Lietzke, Farmer. Petrowski
Air, 50; ground level, 70
Cloudy to partly cloudy, less windy but still cold
Clouding in again
December 3, 1992
SoQ Description:
Oi 4 to 0 cm; leaf litter
A 0 to 4 cm; dark brown (10YR 3/3) silt loam; strong fine and medium granular
structure; very friable; abrupt wavy boundary
EB 4 to 8 cm; yellowish-brown (10YR 5/4) silt loam; moderate fine granular structure;
very friable; clear wavy boundary
Bt 8 to 60 cm; yellowish-red (5YR 4/6) clay; moderate fine subangular blocky
structure; firm; brown (7.5YR 5/3) ped coatings; gradual wavy boundary
BC 60 to 75 cm; dark yellowish-brown (10YR 4/4) clay; strong fine angular blocky
structure; very firm; abrupt irregular boundary
R 75 cm; limestone. Depth to rock in the pit ranged from 25 to 45 cm except on the
west side where this soil was described and sampled.
Notes: Sampling depths: A horizon 0, to 8 cm; B horizon, 10 to 30 cm; C horizon, 60 to
-------�
A-83
ORRSite 116
(See pp. 11, 31, 32, and 33 in Phase II Field Book 3)
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Rad scan:
Weather yesterday:
Present weather:
Date:
Oak Ridge Reservation, Bethel Valley, Grid N22100, E49000
Typic or Ultic Hapludalfs; fine, mixed, thermic
Slightly convex elongated ridge
3% northeast
Chickamauga Residuum of the Bethel Valley Section
Loblolly Pine plantation. Pine are estimated to be about 40 years
old. There are a few hardwoods in the understory. There is also
abundant honeysuckle. The site is quite close to an old house or
barn site
D. A. Lietzke
Lietzke.Farmer, Petrowski
Air, 50; ground level, 70, top of auger hole, 70
Cloudy, cold with an early morning shower
Clear, frosty, but the clouds of the next storm are beginning to
move overhead.
December 3, 1992
Soil Description:
Oi 4 to 0 cm; pine needles
A 0 to 5 cm; dark reddish-brown (5YR 3/2) silty clay loam; strong medium granular
structure; friable; abrupt wavy boundary
Ap 5 to 12 cm; dark reddish-brown (5YR 3/4) silty clay loam or silty clay; moderate
fine subangular blocky structure; firm; abrupt wavy boundary
Bt 12 to 38 cm; dark reddish-brown (2.5YR 3/4) clay; strong fine and medium
prismatic parting to strong medium angular blocky structure; very firm; brown
(7.5YR 4/3) ped coatings; gradual wavy boundary
BC 38 to 70 cm; clayey saprolitic materials in reds and yellows; moderate coarse
prismatic parting to moderate coarse angular blocky structure; very firm;all ped
surfaces coated with brown (7.5YR 4/3) clay; there are a few 2 chroma wetness
mottles in old root channels; gradual irregular boundary
CB 70 to 85 cm; saprolitic materials that easily crush to clay; colors are mixed yellows
and reds. There are a few 2 chroma wetness mottled in flow pathways.
Notes:
Sampling depths: A horizon, 0 to 12 cm; B horizon, 16 to 30 cm; C horizon, 70 to
-------�
A-84
ORR Site 117
(See pp. 11, 31, 34, and 35 in Phase II Field Book 3)
Location:
Oak Ridge Reservation, Bethel Valley, Grid N22500, E49000
Classification:
Typic Hapludalfs; fine, mixed, thermic
Geomorphic position:
Slightly convex spur, once covered by alluvium. Some rounded
fragments remain in the surface layer.
Slope and aspect:
2%
Parent material(s):
Unit G Chickamauga Residuum, Bethel Valley Section
Vegetation:
Loblolly Pine plantation
Described by.
D. A. Lietzke
Sampling crew:
Lietzke, Farmer, Petrowski
Rad scan:
Air, 40; ground level, 70, top of auger hole, 80
Weather yesterday:
Cloudy, cold, windy
Present weather:
Clear to partly cloudy, clouding in from the west for the next
storm
Date:
December 3, 1992
Soil Description:
Oi 6 to 0 cm; pine needles
Oa 0 to 2 cm; highly decomposed pine needles
A 2 to 7 cm; dark yellowish-brown (lCHfR 3/4) silt loam; strong medium granular
structure; very friable; clear wavy boundary
Ap 7 to 15 cm; brown (7.5YR 4/4) clay loam; strong medium and coarse granular
structure; friable; abrupt wavy boundary
Bt 15 to 34 cm; yellowish-red (5YR 5/8) clay; moderate coarse prismatic parting to
weak medium and coarse angular blocky structure; very firm; strong brown (7.5YR
4/6) coatings on prism faces; gradual wavy boundary
BC 34 to 57 cm; mottled red, yellowish-red, strong brown, and yellowish-brown clay;
moderate medium prismatic parting to weak coarse angular blocky structure; very
firm; most ped interiors are saprolitic; gradual wavy boundary
CB 57 to 106 cm; highly mottled red, yellowish-red, strong brown, yellowish-brown and
olive brown clayey saprolitic materials; moderate fine and medium prismatic
structure; very firm; abrupt irregular boundary
R 106 cm; limestone rock-
Notes:
Sampling depths: A horizon, 0 to 15 cm: B horizon, 15 to 30 cm: C horizon, 85 to
-------�
A-85
ORR Site 118
(See pp. 19, 39, 46, 47, and 49 in Phase II Field Book 3)
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew.
Rad scan:
Weather yesterday:
Present weather
Date:
Oak Ridge Reservation, K-25 area, Grid N39800, E23000
Typic Hapludults; clayey, mixed, thermic
Doubly convex spur ridge between two drainageways
6% west
Residuum of East Fork Chickamauga Section
Hardwood forest of large white oaks, beech, cherry, sugar maple.
This forest does not appear to have been plowed or ever
pastured.
D. A. Lietzke
Lietzke, Burgoa
Air, 50; ground level, 60; top of auger hole, 60
Cloudy and cold
Cloudy and cold
December 8, 1992
Soil Description:
Oi
A
Bt
BC
CB
4 to 0 cm; leaves
0 to 5 cm; very dark grayish-brown (10YR 3/2) silty clay loam; strong medium and
coarse granular structure; friable; abrupt wavy boundary
5 to 28 cm; yellowish-red (5YR 5/6) clay; moderate medium and coarse prismatic
parting to moderate medium subangular blockv and angular blocky structure; very
firm; yellowish-red (5YR 4/6) clay films on prism surfaces; gradual wavy boundary
28 to 69 cm; yellowish-red with bright brownish-yellow saprolitic colors; clay;
moderate coarse prismatic parting to moderate medium angular blocky structure;
very firm; peds coated with yellowish-red (5YR 4/6) clay; gradual wavy boundary
69 to 100 cm: brownish-yellow (10YR 6/6) saprolitic materials with clay texture;
streaks of yellowish-red materials throughout; weak fine angular blocky structure;
very firm
Notes:
Sampling depths: A horizon, 0 to 5 cm; B horizon, 7 to 20 cm; C horizon, 70 to
-------�
A-86
ORR Site 119
(See pp. 19, 39, 51, 56, and 57 in Phase II Field Book 3)
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent materials):
Vegetation:
Described by.
Sampling crew:
Rad scan:
Weather yesterday:
Present weather:
Date:
Oak Ridge Reservation, K-25 area, Grid 40000, E23000
Typic Hapludalfc; fine, mixed, thermic
Narrow convex ridge
3% west
Residuum of East Fork Chickamauga Section
Cutover woods. Present trees consist of cedars, some oak, ash
and hardwood saplings. Site was probably never plowed but was
probably pastured.
D. A. Lietzke
Lietzke, Burgoa and Farmer
Air, 50; ground level, 70; top of auger hole, 70
Mostly clear
Clear but with high cirrus overhead
Januarv 4, 1993
SoQ Description:
Oi 4 to 0 cm; leaf lr.ter
A1 0 to 5 cm; dark brown (10YR 3/3) silt loam; strong medium granular structure; very
friable; clear wavy boundary
A2 5 to 16 cm; brown (10YR 4/3) silt loam; moderate Fine granular structure; very
friable; clear wavy boundary
Bt 16 to 59 cm; yellowish-red (5YR 5/8) clay; strong fine to coarse angular blocky
structure; very firm; gradual wavy boundary
BC 59 to 90 cm; mouled strong brown and yellowish-brown clay; strong fine angular
blocky structure; very firm, several pressure faces
R 90 cm; limestone. Depth to rock varies from 30 cm to more than 100 cm.
Notes:
Sampling depths: A horizon, 0 to 15 cm; B horizon. 20 to 30 cm; C horizon, 75 to
-------�
A-87
ORR Site 120
(See pp. 19, 39, 44, 45, and 48 in Phase II Field Book 3)
Location:
Oak Ridge Reservation, K-25 area, Grid N39800, E23250
Classification:
Typic Hapludults; clayey, mixed, thermic
Geomorphic position:
Sideslope with slight convexity, about 15 to 20 ft away from a
recent subsidence
Slope and aspect:
4% west
Parent material (s):
Thin alluvium over residuum of East Fork Chickamauga Section
Vegetation:
Hardwoods, never pastured but cutover from time to time; large
beech
Described by.
D. A. Lietzke
Sampling crew:
Lietzke, Burgoa
Rad scan:
Air, 45; ground level, 60; top of auger hole, 60
Weather yesterday:
Cloudy, cold with drizzle
Present weather
Cloudy
Date:
December 7, 1992
Soil Description:
Oi 6 to 0 cm; leaves and other litter
A 0 to 10 cm; dark brown (7.5YR 3/4) loam; strong fine and medium granular
structure; very friable; clear wavy boundary
AB 10 to 17 cm; reddish-brown (5YR 4/4) loam; moderate fine subangular blocky
structure; very friable; clear wavy boundary
Btl 17 to 27 cm; red (2.5YR 4/6) clay loam; moderate fine subangular blocky structure;
friable; few sandstone pebbles and gravels; abrupt wavy boundary
2Bt2 27 to 74 cm; red (2.5YR 4/6) clay; strong fine and medium subangular blocky
structure; friable to firm; few chert fragments; gradual wavy boundary
2BC 74 to 80 cm; red (2.5YR 4/8) clay; strong fine angular blocky structure; friable; has
some yellow, high chroma saprolite colors; gradual wavy boundary
2CB 80 to 100 cm; red, yellowish-red and brownish-yellow clayey saprolitic materials
with dull yellowish-brown wetness mottles; moderate medium angular blocky
structure; very firm
Notes:
Sampling depths: A horizon, 0 to 10 cm; B horizon, 26 to 40 cm; C horizon, 85 to
-------�
A-88
ORR Site 121
(See pp. 20, 39, 51, 58, and 59 in Phase II Field Book 3)
Location: Oak Ridge Reservation, K-25 area, Grid N42100, E26200
Classification: Typic Hapludults or Ultic Hapludalfs: clayey, mixed, thermic
Geomorphic position: Shoulder of broad, slightly convex ridgetop
Slope and aspect: 5% northwest
Parent material(s): Residuum of East Fork Chickamauga Section
Vegetation: Old field successional forest of Virginia pine and an understory
of gum, hickory, red maple and beech
Described by: D. A. Lietzke
Sampling crew: Lietzke, Burgoa and Fanner
Rad scan: Air, 45; ground level, 55; top of auger hole, 55
Weather yesterday: Cloudy
Present weather: Mostly clear, but with high thin cirrus overhead
Date: January 4, 1993
Soil Description:
Oi 4 to 0 cm; leaves and needles along with some mosses
A 0 to 3 cm; very dark brown (10YR 2/2) silt loam; strong medium granular structure;
very friable; abrupt wavy boundary
Ap 3 to 20 cm; brown (10YR 4/3) silty clay loam; moderate fine granular structure;
friable; abrupt wavy boundary
Bt 20 to 30 cm; brown (7.5YR 4/3-4/4) clay; moderate medium angular blocky
structure; very firm; abrupt wavy boundary
BC1 30 to 51 cm; dark reddish-gray (5YR 4/2) clay; strong fine angular blocky structure;
has red iron oxide streaks and 2 chroma wetness mottles and coatings on some ped
surfaces; abrupt wavy boundary
BC2 51 to 70 cm; highly mottled yellowish-red, olive yellow and gray clay; strong fine
angular blocky structure, very firm; abrupt wavy boundary
CB 70 to 100 cm; reddish-gray (10R 5/1) saproiitic material; very soft and crushes easily
to clay; There are red iron oxide streaks throughout that are on cracks and along
flow zones; massive.
Notes:
Sampling depths: A horizon, 0 to 20 cm; B horizon, 23 to 30 cm; C horizon, 70 to
-------�
A-89
ORR Site 122
(See pp. 27, 39, 49, 66, and 67 in Phase II Field Book 3)
Location:
Oak Ridge Reservation, K-25 area, Grid N41300, E27250
Qassification:
Typic Hapludults or Ochreptic Hapludults; clayey, mixed, thermic
Geomorphic position:
Elongated, convex, narrow ridgetop
Slope and aspect:
6% northwest
Parent materials):
Residuum of East Fork Chickamauga Section (Pond Springs
Siltstone)
Vegetation:
Loblolly pine plantation. There are abundant honeysuckle vines
and briars.
Described by.
D. A. Lietzke
Sampling crew:
Lietzke, Burgoa and Farmer
Rad scan:
Air. 40; ground level, 50; top of auger hole, 50
Weather yesterday.
Mostly clear
Present weather
Was clear earlier but now completely cloudy
Date:
January 4, 1993
Soil Description:
Oi 3 to 0 cm; pine needles and debris
Ap 0 to 10 cm; brown (10YR 4/3) cherty silty clay loam; moderate fine granular
structure; friable; abrupt wavy boundary
Bt 10 to 21 cm; strong brown (7.5YR 5/6) clay; strong fine and medium subangular
blocky structure; very firm; gradual wavy boundary. There is a layer of lag chert
gravel about 2 cm thick at the top of this horizon.
BC 21 to 56 cm; brownish-yellow (10YR 6/6) silty clay saprolitic materials; moderate
coarse prismatic parting to strong medium angular blocky structure, but most ped
interiors are saprolitic; very firm. There are 2 chroma wetness mottles at a depth
of 30 cm; prism faces are coated with brown (7.5YR 4/4) clay; gradual wavy
boundary.
CB 56 to 80 cm, olive yellow (2.5Y 6/6) saprolite with silty clay texture; fracture faces
coated with red iron oxides and yellowish-red clay
Notes: Sampling depths: A horizon, 0 to 12 cm, B horizon, 15 to 30 cm; C horizon, 70 to
-------�
A-90
ORR Site 123
(See pp. 27, 39, 51, 54, and 55 in Phase II Field Book 3)
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Rad scan:
Weather yesterday:
Present weather
Date:
Oak Ridge Reservation, K-25 area, Grid 41200, E29750
Typic Hapludults; clayey, mixed, thermic
Convex sidesiope below prominent cherty ridge
7% west
Residuum of East Fork Chickamauga Section
Loblolly pine plantation. There is very little undergrowth except
for young pines, honeysuckle and greenbriar.
D. A. Lietzke
Lietzke, Burgoa
Air, 45; ground level, 55; top of auger hole, 70
Partly cloudy
Cloudy
January 4, 1993
Soil Description:
Oi 5 to 0 cm; pine needles
A 0 to 3 cm; dark brown (10YR 3/3) silty clay loam; moderate coarse granular
structure; friable; clear wavy boundary
Ap 3 to 16 cm; brown (7.5YR 4/4) clay; weak medium subangular blocky structure;
firm; abrupt wavy boundary
Bt 16 to 42 cm; red (2.5YR 4/6) clay; with a few fine yellowish-brown (10YR 5/6)
mottles; moderate medium subangular blocky structure; very firm; gradual wavy
boundary
BC 42 to 90 cm; highly mottled red and yellowish-brown saprohtic materials; clay;
strong fine angular blocky structure; veiy firm
Notes:
Sampling depths: A horizon. 0 to 5 cm; B horizon. 8 to 20 cm; C horizon. 80 to
-------�
A-91
ORR Site 124
(See pp. 27, 39, 50, 64, and 65 in Phase II Field Book 3)
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Rad scan:
Weather yesterday:
Present weather
Date:
SoD Description:
Oak Ridge Reservation, K-25 area. Grid N40900, E30400
Typic Hapludalfs; fine, mixed, thermic
Broad, slightly convex landform. The site is located about 100 ft
west of a bedrock escarpment to the creek and at the edge of a
loblolly pine plantation.
2%
Residuum of East Fork Chickamauga Section
Loblolly pine plantation. About 30 ft in from the east edge in an
old field.
D. A. Lietzke
Lietzke, Burgoa and Farmer
Air, 40; ground level, 45; top of auger hole, 50
Partly cloudy
Cloudy
January 4, 1993
Oi 5 to 0 cm; needles, some leaves and many poison ivy and honeysuckle stems
A 0 to 7 cm; dark brown (10YR 3/3) cherty silt loam; strong coarse granular
structure; very friable; clear wavy boundary
Ap 7 to 18 cm; brown (10YR 4/3) cherty silty clay loam; moderate medium subangular
blocky structure; friable; clear wavy boundary
Bt 18 to 64 cm; yellowish-red (5YR 4/6) clay; moderate coarse prismatic parting to
moderate medium angular blocky structure; very firm; strong brown (7.5YR 5/4)
clay flows on prism faces; gradual wavy boundary
BC 64 to 90 cm; red (2.5YR 4/6) clay; strong fine angular blocky structure; very firm;
yellowish-brown flow streaks; abrupt irregular boundary
R 90 cm; limestone. Depth to rock in this pit varied from near the surface on one
end to more than 100 cm on the side that was described and sampled.
Notes: Considerable charcoal and partially burned wood fragments were on the surface
and in the A horizon. Sampling depths; A horizon, 0 to 10 cm; B horizon, 15 to
-------�
A-92
ORR Site 125
(See pp. 28, 39, 51, 60, and 61 in Phase II Field Book 3)
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Rad scan:
Weather yesterday.
Present weather:
Date:
Oak Ridge Reservation, K-25 area, Grid N40600, E29800
Typic Hapludults; clayey, mixed, thermic
Very gently sloping, slightly convex, elongated ridge
3% west
Residuum of East Fork Chickamauga Section
Loblolly pine plantation
D. A Lietzke
Lietzke, Burgoa and Farmer
Air, 40; ground level, 50; top of auger hole, 45
Partly to mostly cloudy
Warm front just went through with a few sprinkles. Now, it is
cloudy and warmer.
January 4, 1993
Sofl Description:
Oi 4 to 0 cm; pine needles
Oe 0 to 2 cm; partially decomposed organic materials and a dense root mat
A 2 to 4 cm; dark brown (10YR 3/3) cherty silty clay loam; moderate medium
granular structure; friable; abrupt wavy boundary
Ap 4 to 12 cm; brown (7.5YR 4/4) cherty silty clay loam; weak fine subangular blocky
structure; friable; abrupt wavy boundary
Bt 12 to 48 cm; red (2.5YR 5/8) clay; moderate very coarse prismatic parting to strong
medium and coarse subangular blocky structure; very firm; gradual wavy boundary
BC 48 to 90 cm; yellowish-red (5YR 5/6) and brownish-yellow (10YR 6/8) clayey
saprolitic materials; strong fine angular blocky structure; very firm; clay plugged
Notes:
Sampling depths: A horizon, 0 to 6 cm; B horizon, 20 to 40 cm; C horizon, 70 to
-------�
A-93
ORR Site 126
(See pp. 28, 39, 42, 43, and 48 in Phase II Field Book 3)
Location: Oak Ridge Reservation, K-25 area, Grid N38950, E28750
Classification: Typic Hapludults; clayey, mixed, thermic
Geomorphic position: Convex top of spur ridge
Slope and aspect: 5% north
Parent materials): Residuum of East Fork Chickamauga Section
Vegetation: Old field successional forest. Presently a mix of pines and
hardwoods along with a poison ivy, honeysuckle and moss ground
cover.
Described by: D. A Lietzke
Sampling crew: Lietzke, Burgoa
Rad scan: Air, 40; ground level, 50; top of auger hole, 50
Weather yesterday: Cloudy, cold, drizzle
Present weather Cloudy and becoming colder
Date: December 7, 1992
SoQ Description:
Oi 3 to 0 cm; leaves, pine needles and debris
A 0 to 5 cm; brown (7.5YR 4/4) silty clay loam; moderate fine granular structure;
friable; clear wavy boundary
Ap 5 to 12 cm; strong brown (7.5YR 4/6) silty clay loam; moderate medium and coarse
granular structure; friable; clear wavy boundary
Bt 12 to 30 cm; strong brown (7.5YR 5/6) clay; strong fine subangular blocky
structure; firm, common Rockwood sandstone fragments; gradual wavy boundary
BC 30 to 70 cm; mottles red, yellowish-red, strong brown, and yellow saprolitic
materials that easily crush to clay; strong fine angular blocky structure, but most
ped interiors are saprolite; firm; contains Rockwood sandstone fragments; gradual
wavy boundary.
CB 70 to 100 cm; strike and dip yellowish-brown, yellow, strong brown, and yellowish-
red saprolitic materials
Notes: This pit is in a brecciated zone in the Chickamauga which may explain the
Rockwood sandstone fragments. Sampling depths: A horizon, 0 to 11 cm; B
-------�
A-94
ORR Site 127
(See pp. 28, 39, 51, 52, and 53 in Phase II Field Book 3)
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Rad scan:
Weather yesterday:
Present weather:
Date:
Oak Ridge Reservation, K-25 area, Grid N39500, E28650
Typic Hapludults; clayey, mixed, thermic
Convex ridgetop
2%, nearly level
Residuum of East Fork Chickamauga Section
Old field successional forest of Virginia pines, cedar, ash, poplar
along with abundant poison ivy and honeysuckle
D. A. Lietzke
Lietzke, Burgoa
Air, 40; ground level, 65; top of auger hole, 65
Cloudy
Partly cloudy but there was a shower earlier.
January 7, 1993
Soil Description:
Oi 5 to 0 cm; leaves, needles and many poison ivy and honeysuckle stems
A 0 to 5 cm; dark brown (10YR 3/3) silt loam; strong coarse granular structure; very
friable; abrupt wavy boundary
Ap 5 to 14 cm; dark yellowish-brown (10YR 4/6) clay; moderate fine subangular blocky
structure; firm; abrupt wavy boundary
Bt 14 to 28 cm; yellowish-brown (10YR 5/6) clay; strong fine and medium angular
blocky structure; very firm; gradual wavy boundary
BC 28 to 75 cm; saprolitic materials with a clay texture, yellowish-brown (10YR
5/4-5/6) color; enriched black manganese oxide zones show the geologic strike and
dip; red (2.5YR 4/8) iron oxide zones on some joint and fracture faces
Notes:
Sampling depths: A horizon. 0 to 7 cm; B horizon. 12 to 20 cm; C horizon, 65 to
-------�
A-95
ORR Site 128
(See pp. 29, 39, 51, 62, and 63 in Phase II Field Book 3)
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Rad scan:
Weather yesterday:
Present weather:
Date:
Oak Ridge Reservation, K-25 area, Grid N38900, E29600
Typic Hapludults; clayey, mixed, thermic
Interfluve between the heads of two drainageways. The area is
very eroded and gullied, but the site is only moderately eroded.
4% northwest
Residuum of East Fork Chickamauga Section
Old Field successional forest. Present trees are Virginia pine,
cedar, along with some dogwood and red maple. There is
abundant poison ivy and honeysuckle.
D. A. Lietzke
Lietzke, Farmer
Air, 40; ground level, 60; top of auger hole, 65
Cloudy
Mostly cloudy
January 7, 1993
SoQ Description:
Oi 2 to 0 cm; needles and leaves
A 0 to 5 cm; dark brown (10YR 3/3) silt loam; strong medium granular structure; very
friable; abrupt wavy boundary
Ap 5 to 17 cm; brown (7.5YR 4/4) silty clay loam with some chert fragments; moderate
fine subangular blocky structure; friable; abrupt wavy boundary
Bt 17 to 43 cm; yellowish-red (5YR 5/6) clay, moderate medium prismatic parting to
strong medium angular blocky structure; Very firm; prism faces coated with dark
yellowish-brown (10YR 4/4) clay; gradual wavy boundary
BC 43 to 90 cm; mottled yellowish-red and yellowish-brown saprolitic materials with a
clay texture; There are some 2 chroma wetness mottles and also some black
manganese oxide enriched zones in the lower part. There are some ped faces in
the upper part and there are some chert fragments throughout.
Notes: Sampling depths: A horizon, 0 to 21 cm; B horizon, 23 to 35 cm; C horizon, 70 to
-------�
A-96
ORR Site 129
(See pp. 29, 39, 40, 41, and 48 in Phase II Field Book 3)
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Rad scan:
Weather yesterday:
Present weather
Date:
Oak Ridge Reservation, K-25 area, Grid N36100, E26300
Typic Hapludults; clayey, mixed, thermic
Doubly convex sideslope
11% northwest
Residuum of East Fork Chickamauga Section
Old field successional forest. This site was probably a pasture.
Present vegetation consists of a few large hardwoods. White pine
is growing and reproducing. There are a few holly, red maple, and
oak sprouts.
D. A. Lietzke
Lietzke, Burgoa
Air, 30; ground level, 45; top of auger hole, 60
Cloudy and cold
Cloudy to partly cloudy and slightly warmer
December 7, 1992
Soil Description:
Oi 5 to 0 cm; leaf litter
A 0 to 5 cm; brown (10YR 4/3) loam; strong fine granular structure; very friable; has
a few Rome pebbles and gravels and a higher sand content; clear wavy boundary
Ap 5 to 13 cm; dark yellowish-brown (10YR 4/4) loam; moderate fine granular
structure; very friable; abrupt wavy boundary
Bt 13 to 47 cm; yellowish-red (5YR 4/6) clay; strong fine and medium subangular
blocky structure; friable; gradual wavy boundary
BC 47 to 80 cm; mottled yellowish-red, red, strong brown and yellowish-brown clay;
strong fine and medium angular blocky structure; friable; has some saprolitic
character, gradual wavy boundary
CB 80 to 120 cm; mottled strong brown, yellowish-brown and brownish-yellow saprolitic
materials with a clayey texture; weak fine and medium angular blocky structure;
very firm
Notes:
Sampling depths: A horizon, 0 to 13 cm; B horizon, 15 to 30 cm; C horizon, 100
-------�
A-97
A_5 ROANE COUNTY SOIL PROFILES
ROANE Site 3
Location:
Classi5cation:
Control Section:
Geomorphic position:
Slope and aspect-
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Time Since Last Rain:
Present weather:
Date:
Pattie Gap Quadrangle, 550 ft west from Salem Baptist Church,
200 ft southeast from power line, 350 ft west of Stamp Creek
Typic Hapludults; fine-loamy, mixed, thermic
31 to 81 cm of the argillic horizon
Convex toeslope position
11% southeast
Thin colluvial mantle over Dismal Gap Formation
Oak, red maple, sweetgum, dogwood, poison ivy
J. L. Branson
Branson, Timpson, Morris
0 days
75°F raining during sampling
Mav 7, 1992
Soil Description:
Oi 4 to 0 cm; leaves and pine needles
Ap 0 to 15 cm; dark yellowish-brown (10YR 4/4) loam; moderate medium granular
structure; friable: clear wavy boundary
BE 15 to 31 cm; strong brown (7.5YR 5/6) and dark yellowish-brown (10YR 4/4) silt
loam; moderate medium subangular blocky structure; friable; clear wavy boundary
Bt 131 to 53 cm; yellowish-brown (10YR 5/6) clay loam; weak coarse subangular
blocky structure; firm; gradual wavy boundary
Bt 253 to 85 cm: mottled yellowish-brown (10YR 5/6), red (2.5YR 4/6), and light
yellowish-brown (2.5Y 6/4) clay loam; moderate medium subangular blocky
structure; firm; gradual smooth boundary
C 85+ cm; mottled yellowish-brown (10YR 5/6), dark red (2.5YR 3/6), and light
brownish-gray (2.5Y 6/2) loam, rock controlled structure; firm
Notes: This site is on a footslope in an area that is highly dissected. The area around the
site has numerous rills and gullies. This area shows no evidence of having been
cleared or farmed within the last 50 y. The area 300 ft east of this site has been
-------�
A-98
ROANE Site 7
Location:
Classification:
Control Section:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Time Since Last Rain:
Present weather
Date:
Sofl Description:
A 0 to 6 cm; very dark grayish-brown (10YR 3/2) silt loam; moderate fine granular
structure; friable; abrupt smooth boundary
Ap 6 to 16 cm; yellowish-brown (10YR 5/4) silt loam; weak fine subangular blocky
structure; friable; clear smooth boundary
Bt 116 to 44 cm; yellowish-brown (10YR 5/6) silty clay loam; moderate medium
subangular blocky structure; friable; clear smooth boundary
2Bt2 44 to 56 cm; mottled red (2.5YR 4/6), strong brown (7.5YR 4/6), and light
brownish-gray (2.5Y 6/2) clay; weak medium subangular blocky structure; firm;
gradual smooth boundary
2C 56 to 93 cm; mottled: red (2.5YR 4/6), strong brown (7.5YR 5/6), and light
brownish-gray (2.5Y 6/2) clay; rock controlled structure; firm, clear- wavy boundary
2Cr 93+ cm; soft red shale fragments with some olive and yellow shale
Notes: This site is in a group of deciduous trees surrounded by cattle pasture. Indications
are that area that had been cleared at one time and plowed. This area has not
been cleared or cropped in the last 50 y. There is evidence of erosion with small
rills beginning to form and shallow surface horizons. Presently the land is open to
cattle.
Pattie Gap Quadrangle, Hurricane Ridge; 1550 ft southwest from
the intersection of Blue Springs Road and Dry Fork Valley Road,
750 ft west of the intersection of the power lines and Dry Fork
Valley Road.
Typic Hapludults; fine-loamy, mixed, thermic
16 to 56 cm of the argillic horizon
Upland
4% south
Colluvium over Dismal Gap Formation
Virginia pine, red maple, dogwood, tulip poplar
J. L. Branson
Branson, Livingston
1 day
65°F cloudy, sprinkled during sampling
-------�
A-99
ROANE Site 8
Location:
Classification:
Control Section:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Time Since Last Rain:
Present weather
Date:
Soil Description:
A 0 to 5 cm; very dark grayish-brown (10YR 3/2) silt loam; strong fine granular
structure; very friable; abrupt smooth boundary
Ap 5 to 17 cm; yellowish-brown (10YR 5/6) silt lpam; moderate fine granular structure;
very friable; clear smooth boundary
Btl 17 to 44 cm; strong brown (7.5YR 5/6) silty clay loam; moderate medium
subangular blocky structure; friable; gradual smooth boundary
2Bt2 44 to 80 cm; strong brown (7.5YR 5/6) clay; moderate medium angular blocky
structure; firm; gradual smooth boundary
2C 80 to 95 cm; mottled red (2.5YR 4/6), yellowish-brown (5YR 4/6), and light
reddish-brown (2.5YR 6/4) clay; rock controlled structure; very firm consistency
Notes: This site is in a group of deciduous trees surrounded by cattle pasture. Indications
are that area that had been cleared at one time and plowed. This area has not
been cleared or cropped in the last 50 y. There is evidence of erosion with small
rills beginning to form and shallow surface horizons. Presently the land is open to
cattle.
Pattie Gap Quadrangle, Hurricane Ridge; 1800 ft southwest from
the intersection of Blue Springs Road and Dry Fork Valley Road,
550 ft west of the intersection of the power lines and Dry Fork
Valley Road, 300 ft east of Roane Site 7
Typic Hapludults; Fine-loamy, mixed, thermic
17 to 67 cm of the argillic horizon
Upland
6% south
Colluvium over Dismal Gap Formation
Virginia pine, red maple, dogwood, sweetgum
J. L. Branson
Branson, Livingston
1 day
50°F cloudy, overcast
-------�
A-100
ROANE Site 9
Location:
Classification:
Control Section:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Time Since Last Rain:
Present weather
Date:
SoD Description:
Oi 2 to 0 cm; leaves and twigs
A 0 to 9 cm; dark grayish-brown (10YR 4/2) silt loam or loam; moderate medium
subangular blocky structure; very friable; clear wavy boundary
E 9 to 16 cm; brown (10YR 5/3) silt loam or loam; moderate medium subangular
blocky structure; friable; clear wavy boundary
BE 16 to 30 cm; yellowish-brown (10YR 5/6) silt loam; weak medium subangular
blocky structure; friable; clear wavy boundary
Bt 30 to 52 cm; yellowish-red (5YR 5/6) silty clay loam; weak medium subangular
blocky structure; friable consistency; clear wavy boundary
Cr 52+ cm; soft red shale with some olive and yellowish-brown strata
Notes: This site is on a footslope in an area that is highly dissected. The area around the
site has numerous rills and gullies. This area shows no evidence of having been
cleared or farmed within the last 50 years.
Pattie Gap Quadrangle, Hurricane Ridge; 500 ft west from Salem
Baptist Church, 200 ft southeast from power line, 500 ft
southwest of Stamp Creek
Ochreptic Hapludults; fine-loamy, mixed, thermic, shallow.
30 to 52 cm of the argillic horizon
Colluvial footslope position
12% southeast
Dismal Gap Formation
Oak hardwoods mixed with Virginia pine
J. L. Branson
Branson, Timpson
3 days
76°F sunny
-------�
A-101
ROANE Site 10
Location:
Classification:
Control Section:
Geomorphic position:
Slope and aspect:
Parent materials):
Vegetation:
Described by.
Sampling crew:
Time Since Last Rain:
Present weather
Date:
Soil Description:
O i7 to 5 cm; leaf litter
Oa 5 to 0 cm; decomposed plant material
Ap 0 to 18 cm: dark yellowish-brown (10YR 4/4) silt loam; weak medium granular
structure; friable; clear irregular boundary
2Bt 18 to 28 cm; yellowish-brown (10YR 5/4) shaly clay loam; moderate fine subangular
blocky structure; firm; clear smooth boundary
2BC 28 to 40 cm; yellowish-brown (10YR 5/4) shaly clay; moderate medium angular
blocky structure; firm; clear smooth boundary
2CB 40 to 62 cm; strong brown (7.5YR 4/6) very shaly clay; moderate medium angular
blocky structure; firm; clear smooth boundary
2Crl 62 to 83 cm; soft red shale with yellow and olive shale fragments
2Cr2 83 to 108+ cm; soft green shale with a thick band of manganese stained material
and concretions
Notes: This site is in a group of deciduous trees surrounded by cattle pasture. Indications
were the area had been cleared at one time and plowed, but not within the last
50 years. The site area is at the bottom of a long slope. This looks to be a terrace
remanent. There were rounded rock fragments in the profile and a large rock
approximately 20 cm in diameter. There is evidence of erosion with small rills and
gullies forming in the sagegrass field to the north of the site. Presently the land is
open to cattle.
Pattie Gap Quadrangle, Hurricane Ridge; 300 ft northeast from
Gage Road, 350 ft northwest from Dry Fork Valley Road, 100 ft
west of Stamp Creek
Ochreptic Hapludults; fine-loamy, mixed, thermic, shallow
18 to 28 cm of the argillic horizon
Upland bench
3% southeast
Thin alluvial capping over Dismal Gap Formation
shortleaf pine, red maple, oak
J. L. Branson
Branson, Gallagher, Morris
2 days
85 °F sunny
-------�
A-102
ROANE Site 13
Location:
Classification:
Control Section:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Tune Since Last Rain:
Present weather:
Date:
Soil Description:
A 0 to 2.5 cm; very dark brown (10YR 2/2) loam; strong fine granular structure;
friable; abrupt smooth boundary
Ap 2.5 to 13 cm; yellowish-brown (10YR 5/4) and brown (10YR 5/3) silt loam; weak
fine and medium granular structure; friable; clear wavy boundary
Btl 13 to 50 cm; strong brown (7.5YR 4/6) on clay skins and strong brown ped
interiors (7.5YR 5/6); clay; moderate fine and medium subangular blocky structure;
firm; clear wavy boundary
Bt2 50 to 78 cm; strong brown (7.5YR 4/6) clay; weak medium and fine subangular
blocky structure; firm; clear wavy boundary
C 78 to 93+ cm; strong brown (7.5YR 4/6) clay; rock controlled structure; firm
Notes: This site is in a wooded area. The site area is at the bottom of a long slope.
Because it is in a low position, the possibility of this being an area of terrace
smears is likely. However, there were no indications in this profile to substantiate
this point.
Pattie Gap Quadrangle, Hurricane Ridge, 500 ft west from Dry
Fork Valley Road, 3000 ft south from Gage Road, 250 ft west of
Stamp Creek
Typic Hapludulis; fine-loamy, mixed, thermic
13 to 63 cm of the argillic horizon
Upland bench
3% east
Dismal Gap Formation
Virginia pine, red maple, chestnut oak, dogwood, poison ivy
J. L. Branson
Branson. Gallagher, Timpson
1 day
75° F and sunny
-------�
A-103
ROANE Site 14
Location:
Classification:
Control Section:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Time Since Last Rain:
Present weather:
Date:
Soil Description:
A 0 to 8 cm; very dark brown (10YR 2/2) silt; moderate, medium granular structure;
very friable; clear smooth boundary
Ap 8 to 19 cm; brown (10YR 4/3) loam; moderate medium granular structure; friable;
clear wavy boundary
Bt 19 to 41 cm; strong brown (7.5YR 4/6) silty clay loam; weak medium subangular
blocky structure; firm; clear wavy boundary
Bt&C 41 to 58 cm; mottled red (2.5YR 4/6), grayish-brown (10YR 5/2), and olive brown
(2.5Y 4/4); channery silty clay; moderate medium subangular blocky structure; Firm;
gradual wavy boundary
Cr 58 to 104+ cm; primarily dark red and olive shale
Notes: This site is in a wooded area. The site area is in the middle of a short slope. The
Dismal Gap is very thin and fluctuates in this area. The site showed some
indications of having Dismal Gap residuum, but when the pit was opened there was
more Rogersville shale than Dismal Gap. This area has a great deal of
groundcover, primarily vines and poison ivy. The area from the site drops
immediately into a drainageway.
Pattie Gap Quadrangle, Hurricane Ridge, 600 ft west from Dry
Fork Valley Road, 3200 ft south of Gage Road, 250 ft west of
Stamp Creek
Typic Hapludults; fine-loamy, mixed, thermic
19 to 58 cm of the argillic horizon
Upland on a convex sideslope
13% east
Dismal Gap Formation and Rogersville Formation transition zone
red maple, oak, tulip poplar, dogwood, poison ivy
J. L. Branson
Branson, Gallagher, Timpson
1 day
80° F and sunny
-------�
A-104
ROANE Site 17
Location:
Classification:
Control Section:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Time Since Last Rain:
Present weather
Date:
Soil Description:
Oi 2 to 0 cm; pine needles, leaves, and twigs
A 0 to 15 cm; yellowish-brown (10YR 5/4) silt loam; weak fine granular structure;
friable; clear smooth boundary
AB 15 to 28 cm; dark yellowish-brown (10YR 4/6) silt loam; moderate fine subangular
blocky structure; friable; clear smooth boundary
Btl 28 to 60 cm; yellowish-red (5YR 4/6) clay; moderate medium subangular blocky
structure; friable; gradual smooth boundary
Bt2 60 to 80 cm; yellowish-red (5YR 4/6) clay; moderate medium subangular blocky
structure; friable; clear smooth boundary
C 80 to 104+ cm; mottled yellowish-red (5YR 4/6), strong brown (7.5YR 4/6), and
light olive brown (2.5Y 5/4) clay loam; rock controlled structure; friable
Notes: This site lies between the convergence of two drains, both of which continually
carry at least some flowing water. The site is on a convex slope in an area that had
been cleared at one time. Presently the land is open to cattle.
Pattie Gap Quadrangle, Hurricane Ridge, 1000 ft west from Dry
Fork Valley Road. 3000 ft north from Waterford Lane
Typic Hapludults; clayey, kaolinitic, thermic
28 to 78 cm of the argillic horizon
Upland on the crown of a convex slope
2% east
Dismal Gap Formation
Virginia pine, eastern red cedar, sweetgum
J. L. Branson
Branson, Timpson
1 day
65° F cloudy, light rain
-------�
A-105
ROANE Site 19
Location:
Classification:
Control Section:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew.
Time Since Last Rain:
Present weather
Date:
Soil Description:
Oe 2 to 0 cm: decomposing leaves
A 0 to 6 cm; very dark grayish-brown (10YR 3/2) silt loam; strong fine granular
structure; very friable; abrupt smooth boundary
Ap 6 to 18 cm; dark yellowish-brown (10YR 4/4) silt loam; weak medium granular
structure; very friable; clear smooth boundary
Bt 18 to 47 cm; strong brown (7.5YR 4/6) clay loam; moderate medium subangular
blocky structure; friable, clear wavy boundary
Cr 47 to 98+ cm; soft red shale with yellow and green shale fragments
Notes: This site is on a toesiope in an area that is highly dissected. The area around the
site has numerous rills and gullies. This area shows no evidence of having been
cleared or farmed within the last 50 years.
Pattie Gap Quadrangle, Hurricane Ridge; 750 ft west from Salem
Baptist Church, 200 ft southeast from power lines, 750 ft
southwest of Stamp Creek
Typic Hapludults; fine-loamy, mixed, thermic
18 to 47 cm of the argillic horizon
Convex toesiope position
15% southeast
Dismal Gap Formation
Oak, red maple, hickory, dogwood, red cedar
J. L. Branson
Branson, Gallagher
2 days
80° F and sunny
-------�
A-106
ROANE Site 20
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Time Since Last Rain:
Present weather
Date:
SoQ Description:
Oi 2 to 0 cm, leaves and pine needles
Ap Oto 12 cm; yellowish-brown (10YR 5/4) silt loam; weak medium granular structure;
very friable; clear smooth boundary
Bt 12 to 35 cm; yellowish-red (5YR 4/6) clay; strong medium subangular blocky
structure; firm; gradual smooth boundary
C 35 to 52 cm; dark red (2.5YR 3/6) saprolite that crushes easily to clay; rock
controlled structure; abrupt irregular boundary
Cr 52 to 72 cm; weathered reddish and olive shale
Pattie Gap Qua'drangle, Hurricane Ridge; 950 ft northwest from
Salem Baptist Church, 200 ft southeast from power lines, 1000 ft
southwest of Stamp Creek
Ochreptic Hapiudults; fine-loamy, mixed, thermic, shallow
Convex toeslope position
12% southeast
Dismal Gap Formation
Oak, sweetgum, dogwood, poison ivy
J. L. Branson
Branson, Gallagher
1 day
60° F and partly cloudy
-------�
A-107
ROANE Site 21
Location:
Qassifi cation:
Control Section:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Time Since Last Rain:
Present weather:
Date:
Soil Description:
Oi 3 to 0 cm; leaves, moss, and pine needles
A 0 to 5 cm; brown (10YR 4/3) shaly silty clay loam, moderate, medium granular
structure; very friable; clear smooth boundary
Ap 5 to 18 cm; dark grayish-brown (10YR 4/2) silty clay loam; weak medium
subangular blocky structure; friable; clear wavy boundary
Btl 18 to 36 cm; strong brown (7.5YR 4/6) clay loam; moderate medium subangular
blocky structure; firm; clear smooth boundary
Bt2 36 to 64 cm; strong brown (7.5YR 5/6) clay loam; moderate coarse subangular
blocky structure; firm; clear smooth boundary
BC 64 to 74 cm; brown (7.5YR 5/4) silty clay loam; weak medium subangular blocky
structure; friable; gradual smooth boundary
Cr 74+ cm; soft red shale with some olive and yellowish-brown thin strata
Notes: This site is on a convex slope in an area that is highly dissected. The area around
the site has numerous rills and gullies. This area shows no evidence of having been
cleared or farmed within the last 50 y. Surfaces nearby show evidence of extensive
erosion and shallow depths.
Pattie Gap Quadrangle, Hurricane Ridge; 1100 ft west from
Salem Baptist Church, 200 ft southeast from power line, 1200 ft
southwest of creek
Typic Hapludults; fine-loamy, mixed, thermic
18 to 64 cm of the argillic horizon
Midslope
13% southeast
Dismal Gap Formation
Oak, tulip poplar, Virginia pine, sweetgum, red maple, club
mosses
J. L. Branson
Branson, Morris
2 days
80° F and sunny
-------�
A-108
ROANE Site 22
Location:
Classification:
Control Section:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Tune Since Last Rain:
Present weather
Date:
SoQ Description:
Oi 3 to 0 cm; leaves and pine needles
Ap 0 to 19 cm; yellowish-brown (10YR 5/6) silt loam;
blocky structure; friable; clear, smooth boundary
Btl 19 to 29 cm; strong brown (7.5YR 5/8) clay loam;
blocky structure; firm; clear smooth boundary
Bt2 29 to 45 cm; strong brown (7.5YR 4/6) clay loam;
blocky structure; firm; clear smooth boundary
Bt&C 45 to 56 cm; red (2.5YR 4/6) and light olive brown (2.5Y 5/4) clay; weak coarse
subangular blocky structure; firm; clear smooth boundary
C 56 to 100+ cm; mottled red (2.5YR 4/6), strong brown (7.5YR 5/8), and light
yellowish-brown (2.5Y 6/4) clay loam; rock controlled structure
Notes: This site is on a slight bench in an area that is highly dissected. The area around
the site has numerous rills and gullies. This area shows no evidence of having been
cleared or farmed within the last 50 years. Surfaces nearby show evidence of
extensive erosion and shallow depths.
Pattie Gap Quadrangle, Hurricane Ridge, 1400 ft west from
Salem Baptist Church, 200 ft southeast from power line, 1500 ft
west of Stamp Creek
Typic Hapludults; fine-loamy, mixed, thermic
19 to 56 cm of the argillic horizon
Midslope bench
13% southeast
Dismal Gap Formation
Oak, tulip poplar, Virginia pine, red cedar, club mosses
J. L. Branson
Branson, Gallagher
1 day
60° F and overcast; sprinkled lightly during sampling
May 5, 1992
moderate medium subangular
moderate medium subangular
-------�
A-109
ROANE Site 33
Location:
Gassification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Time since last rain:
Present weather:
Date:
Soil Description:
Surface covered with 2-3 in.-diam (some, 20 in.-diam) limestone cobbles
Oi/Oa 5-0 cm; intermittent leaf litter, twigs, roots
Ap 0-10 cm; strong brown (7.5 YR 5/6) silt loam; weak coarse subangular blocky
structure; firm; 15% chert fragments; clear smooth boundary
Btl 10-20 cm; red (2.5 YR 4/8) clay; strong medium subangular blocky structure; firm
to very firm; clear smooth boundary
Bt2 20-110 cm; red (2.5 YR 4/6) clay; moderate medium subangular blocky structure;
firm; gradual smooth boundary
Bt3 110-147 cm; red (2.5 YR 4/6) clay; moderate medium subangular blocky structure;
friable
Pattie Gap Quadrangle, Gage Hill; 500 ft east from Dry Fork
Valley Road, 500 ft northeast from Gage Road; 400 ft northeast
from the old limestone quarry
Typic Paleudults; clayey, mixed, thermic
A double convex side slope approximately midway between the
top of the ridge and the valley floor
39%, 265 W
Copper Ridge (lower)
Redbuds, scarlet oak, hickory, dogwood, black jack oak
J.L. Branson
Janice Branson, Mike Timpson
2 days
85° F and sunny and humid
-------�
A-110
ROANE Site 34
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Time since last rain:
Present weathen
Date:
SoQ Description:
Oi 5-0 cm; leaf litter, roots
A 0-4 cm; very dark grayish-brown (10YR 3/2) and very dark brown (10YR 2/2) very
fine sandy loam; moderate fine granular structure, very friable; clear smooth
boundary
Ap 4-16 cm; dark yellowish-brown (10YR 4/6) silt loam; fine medium subangular
blocky structure; friable, 5% chert fragments; clear smooth boundary
Btl 16-27 cm; yellowish-red (5YR 5/8) silty clay loam; fine medium subangular blocky
structure; friable; clear smooth boundary
Bt2 27-48 cm; yellowish-red (5YR 5/8) clay; moderate medium subangular blocky
structure; firm; clear smooth boundary
BC 48-75 cm; red (2.5YR 4/8) clay; moderate medium angular blocky structure; firm;
gradual smooth boundary
C 75-105 cm; mottled red (2.5YR 5/8 and 10R 4/8) and yellow (2.5Y 7/6) saprolitic
materials; clay; massive; firm
Pattie Gap Quadrangle, Gage Hill; 1000 ft southeast from Dry
Fork Valley Road, 1200 ft northeast from Gage Road, 1000 ft
northeast of the limestone quarry
Typic Hapludults; clayey, mixed, thermic
Upland just below the break of the ridge crest
10% , 380° NW
Copper Ridge Formation
Chestnut oak, blackjack oak, black oak, scarlet oak, Virginia pine
J.L. Branson
Sonja Entrekin, Mike Timpson, and Janice Branson
5 days
60° F and cloudy and overcast
-------�
A-lll
ROANE Site 35
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Time since last rain:
Present weather
Date:
Soil Description:
Oi 5-0 cm; leaf litter, roots, twigs; 5% chert fragments
A 0-10 cm; brown (10YR 4/3) silt loam; moderate fine granular structure; very
friable; 5% chert fragments; clear smooth boundary
Ap 10-16 cm; brown (10YR 4/3) silt loam; weak fine subangular blocky structure;
friable; 5% chert fragments; clear smooth boundary
Btl 16-23 cm; strong brown (7.5YR 5/6) silty clay loam; weak fine subangular blocky
structure, friable; 5% chert fragments; clear smooth boundary
Bt2 23-46 cm; yellowish-red (5YR 5/6) clay loam; moderate medium subangular blocky
structure; friable; 10% chert fragments; gradual wavy boundary
2Bt3 46-73 cm; red (2.5YR 4/6) clay; moderate medium angular blocky structure; firm;
20% chert fragments, gradual smooth boundary
Bt4 73-110 cm; red (2.5YR 4/6) clay, moderate medium angular-blocky structure; Firm;
10% chert fragments; gradual smooth boundary
Bt5 110-135 cm; red (2.5 YR 5/8) clay; moderate medium angular blocky structure;
firm, gradual smooth boundary
Bt5 135-180 cm: red (2.5 YR 5/8) clay; moderate medium subangular blocky structure;
friable; 10% chert fragments; gradual smooth boundary
BC 180-195 cm; red (2.5 YR 5/8) clay; weak medium subangular blocky structure;
friable
Pattie Gap Quadrangle, Gage Hill; 100 ft west from an old
logging road, 1000 ft southeast from Dry Fork Valley Road,
1800 ft northeast from Gage Road
Typic Paleudults; clayey, mixed, thermic
Upper side slope just below crest of the ridge
19%, 340° N
Surficial colluvium and residuum of the Copper Ridge Formation
Dogwood, chestnut oak, scarlet oak, blackjack oak, hickory,
sassafras
J.L. Branson
Rick Livingston, and Janice Branson
1 day
85° F and sunny
-------�
A-112
ROANE Site 39
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Time since last rain:
Present weather
Date:
Soil Description:
Oi 5-0 cm; roots, leaf litter
A 0-7 cm; brown (10YR 5/3) cherty silt loam; weak medium granular structure; very
friable; 20% chert fragments; abrupt smooth boundary
E 7-34 cm; brownish-yellow (10YR 6/6) silt loam or loam; weak medium subangular
blocky structure; very friable; clear smooth boundary
Btl 34-61 cm; strong brown (7.5YR 5/6) loam; moderate medium subangular blocky
structure; friable; clear wavy boundary
Bt2 61-95 cm; yellowish-red (5YR 5/8) cherty clay loam; moderale medium angular
blocky structure; firm; 20% chert fragments; gradual smooth boundary; A large
pocket of Btx material present in the Bt2 horizon
2BC 95-146 cm; red (2.5YR 4/8) cherty clay; massive; 20% chert fragments; firm
Pattie Gap Quadrangle, Walker Ridge; 1000 ft southeast from
Dry Fork Valley Road, 500 ft north from Williams Road
Typic Paleudults; fine-ioamy, siliceous, thermic
Foot slope near a depression
14%, 220° SW
Surficial colluvium and residuum of the Copper Ridge Formation
Chestnut oak, scarlet oak, blackjack oak, dogwood
J.L. Branson
Mike Timpson, Dr. J.T. Ammons, and Janice Branson
1 day
50° F and sunny and windy
-------�
A-113
ROANE Site 40
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent materials):
Vegetation:
Described by:
Sampling crew:
Time since last rain:
Present weather.
Date:
Soil Description:
Oi 4-0 cm; leaf litter, roots
E 0-18 cm; pale brown (10YR 6/3) silt loam; weak fine granular structure; friable;
10% chert fragments; clear smooth boundary
Btl 18-29 cm; reddish-yellow (7.5YR 7/6) silty clay loam; weak fine subangular blocky
structure with some weak medium subangular blocky structure, friable; 2% chert
fragments; gradual smooth boundary
Bt2 29-52 cm; yellowish-red (5YR 5/8) clay loam or clay; moderate medium subangular
blocky structure; firm; 10% chert fragments; clear smooth boundary
2Bt3 52-75 cm; red (2.5YR 4/8) cherty clay; moderate medium subangular blocky
structure; friable; 20% chert fragments; clear smooth boundary
2BC 75-102 cm; red (2.5YR 4/8) cherty clay; weak fine and medium subangular
structure; 25% chert fragments; friable
Pattie Gap Quadrangle, Walker Ridge; 900 ft north from
Williams Road, 1500 ft southeast from the intersection of
Williams Road and Dry Fork Valley Road
Typic Paleudults; clayey, mixed, thermic
Upland on a doublv convex slope at the top of the knob
7%, 320° NW
Surficial colluvium and residuum of the Copper Ridge Formation
Chestnut oak, white oak, hickory, Virginia pine
J.L. Branson
Dr. J.T. Ammons, and Janice Branson
3 days
80° F and partly cloudy; heavy rain during sampling
-------�
A-114
ROANE Site 41
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Time since last rain:
Present weather
Date:
Soil Description:
Oi 5-0 cm; leaf litter
Oa&A 0-2 cm; a mix of mineral matter and leaf litter
E 2-17 cm; dark yellowish-brown (10YR 4/4) cherty loam or silt loam; fine medium
granular structure; friable; 20% chert fragments; clear smooth boundary
BE 17—33 cm; light brown (7.5YR 6/4) cherty loam; fine medium subangula: blocky
structure; friable; 20% chert fragments; clear smooth boundary
Btl 33-58 cm; red (2.5YR 5/8) cherty clay or clay loam; moderate medium subangular
blocky structure; friable, 25% chert fragments; clear smooth boundary
Bt2 58-74 cm; red (2.5YR 4/8) cherty clay or clay loam; weak coarse subangular blocky
structure; firm; 25% chert fragments; clear smooth boundary
C 74-102 cm; red (2.5YR 4/8) cherty clay loam; massive; 25% chert fragment!; friable
Pattie Gap Quadrangle, Walker Ridge, 1800 ft southeast from
Dry Fork Valley Road, 1200 ft northeast from Williams Road
Typic Hapludults; clayey, mixed, thermic
Midslope
18%, 160°S
Copper Ridge Formation
White oak, scarlet oak, chestnut oak
J.L. Branson
Mike Timpson, Dr. J.T. Ammons, and Janice Branson
1 day
45° F and sunny
-------�
A-115
ROANE Site 42
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Tune since last rain:
Present weather
Date:
Soil Description:
Oi 5-0 cm; root mat, leaf litter
El 0-15 cm; light brownish-gray (10YR 6/2) very cherty silt loam; weak fine granular
structure; very friable; 40% chert fragments; clear smooth boundary
E2 15-35 cm; very pale brown (10YR 7/3) cherty silt loam; weak medium subangular
blocky structure, very friable; 30% chert fragments; clear smooth boundary
Btl 35-55 cm; yellowish-red (5YR 5/8) cherty clay loam; weak coarse subangular blocky
structure; friable; 30% chert fragments; clear smooth boundary
Bt2 55-80 cm; red (2.5YR 5/8) cherty clay; moderate medium subangular blocky
structure; firm; 30% chert fragments, clear smooth boundary
Bt3 80-125 cm; red (2.5YR 4/8) cherry clay; moderate medium subangular blocky
structure; firm; 25% chert fragments: gradual smooth boundary
Pattie Gap Quadrangle, Walker Ridge; 50 ft northeast of an old
logging road, 1000 ft south of the power lines, 1500 ft southeast
from Dry Fork Valley Road
Typic Hapludults; clayey, mixed, thermic
On a long slope 1/3 of the way from the top
19%, 100" east
Copper Ridge Formation
Chestnut oak, blackjack oak, red maple, sumac
J.L. Branson
Mike Timpson, and Janice Branson
1 day
90° F and sunny
-------�
A-116
ROANE Site 43
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Time since last rain:
Present weather
Date:
Soil Description:
Oi 5-0 cm; thick root mat, leaf litter
El 0-18 cm; light yellowish-brown (10YR 6/4) cherty silt loam; weak medium
subangular blocky structure; friable; 30% chert fragments; clear smooth boundary
Btl 18-48 cm; (7.5 YR 5/8) cherty silt loam; weak, medium subangular blocky
structure; friable; clear, smooth boundary; 30% coarse fragments
Bt2 48-72 cm; strong brown (7.5YR 5/8) cherty clay loam; weak medium subangular
blocky structure; friable; 20-25% chert fragments; clear smooth boundary
2Bt3 72-90 cm; yellowish-red (5YR 5/8) cherty clay; moderate medium subangular
blocky structure; friable; 30-35% chert fragments; clear smooth boundary
BC 90-110 cm; red (2.5 YR 5/8) cherty clay; massive; friable
Pattie Gap Quadrangle, Walker Ridge; 1300 ft northeast of an
old logging road, 1200 ft south of the power lines, 1300 ft
southeast of Dry Fork Valley Road
Typic Paleudults; fine-loamy, siliceous, thermic
Midslope on a convex slope just before a major slope break
23%, 120° east
Surficial colluvium and residuum of the Copper Ridge Formation
Chestnut oak, dogwood, sumac, sassafras
J.L. Branson
Mike Timpson, and Janice Branson
1 day
90° F
-------�
A-117
ROANE Site 44
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent materials):
Vegetation:
Described by:
Sampling crew:
Time since last rain:
Present weather
Date:
Soil Description:
Oi 5-0 cm; leaf litter, roots, twigs
El 0-14 cm; brown (10YR 5/3) silt loam; weak fine granular structure; very friable;
10% chert fragments; clear smooth boundary
E2 14-34 cm; very pale brown (10YR 7/4) silt loam; weak medium and fine subangular
blocky structure; very friable; 4% chert fragments; clear wavy boundary
E3 34-47 cm; very pale brown (10YR 7/4) cherty silt loam; moderate medium
subangular blocky structure; friable; 20% chert fragments; clear wavy boundary
Btl 47-88 cm; reddish-yellow (7.5YR 6/6) cherty clay loam; moderate medium
subangular blocky structure; friable, 30% chert fragments; gradual wavy boundary
2Bt2 88-115 cm; strong brown (7.5YR 5/8) clay; moderate medium subangular blocky
structure; friable; 10% chert fragments; clear irregular boundary
R 115 cm; ran into a solid carbonate rock. Unsure as to whether it is a large "floater"
or a pinnacle
Pattie Gap Quadrangle, Walker Ridge; 1400 ft south of the
power lines, 1000 ft southeast from Dry Fork Valley Road
Typic Paleudults; fine-loamy, siliceous, thermic
Midslope just above a change to a steeper slope of 35%.
23%, 140° southeast
Surficial colluvium and residuum of the Copper Ridge Formation
Dogwood, maple, blackjack oak, chestnut oak, tulip poplar
J.L. Branson
Sonja Entrekin, Janice Branson
3 days
80° F and partly sunny to cloudy
-------�
A-118
ROANE Site 45
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Time since last rain:
Present weather:
Date:
SoQ Description:
Oi 5-0 cm; leaf litter, twigs, roots
A 0-6 cm; brown (10YR 5/3) silt loam; weak medium granular structure; very friable;
5-10% chert fragments; abrupt smooth boundary
E 6-23 cm; light yellowish-brown (10YR 6/4) silt loam; weak fine subangular blocky
structure; friable; 2% chert fragments; clear wavy boundary
Btl 23-33 cm; strong brown (7.5YR 5/6) silt loam; weak Fine subangular blocky
structure; friable; 5% chert fragments; clear wavy boundary
2Bt2 33-61 cm; yellowish-red (5YR 5/8) clay; moderate medium angular and subangular
blocky structure; friable; 10% chert fragments, clear wavy boundary
2Bt3 61-94 cm; yellowish-red (5YR 5/6) clay; weak medium angular and subangular
blocky structure; friable; 10% chert fragments, clear wavy boundary
2BC 94-109 cm, red (2.5YR 4/8) clay; massive; 10% chert fragments; friable
Pattie Gap Quadrangle, Walker Ridge; 1600 ft south of the
power lines, 1500 ft southeast from Dry Fork Valley Road
Typic Paleudults; clayey, mixed, thermic
Midslope
.23%, 20° southwest
Surficial colluvium and residuum of the Copper Ridge Formation
Sassafras, chestnut oak, hickory, dogwood
J.L. Branson
Rick Livingston, Sonja Entrekin, Dr. J.T. Ammons, and Janice
Branson
2 days
75° F and sunny
-------�
A-119
ROANE Site 46
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent materials):
Vegetation:
Described by:
Sampling crew:
Time since last rain:
Present weather
Date:
Soil Description:
Oi 5-0 cm; leaf litter, twigs, and roots
A 0-12 cm; dark yellowish-brown (10YR 4/4) silt loam; weak fine and medium
granular structure; friable; 7% chert fragments; clear smooth boundary
AB 12—19 cm; strong brown (7.5YR 4/6) silt loam; weak medium subangular blocky
structure; friable; clear smooth boundary
BE 19-28 cm; red (2.5YR 4/8) loam; weak medium subangular blocky; friable; clear
smooth boundary
Btl 28-43 cm; red (2.5YR 4/8) clay loam; moderate medium subangular blocky
structure; friable; 5% chert fragments; clear smooth boundary
Bt2 43-64 cm; red (2.5YR 4/6) clay; moderate medium subangular blocky structure;
friable; 5% chert fragments, gradual smooth boundary
2Bt3 64-104 cm; red (2.5YR 4/8) clay; massive; 13% chert fragments; friable
Pattie Gap Quadrangle, Walker Ridge; 1800 ft south of the
power lines, 1500 southeast from Dry Fork Valley Road
Typic Paleudults; fine-loamy, siliceous, thermic
Midslope on a doubly convex slope, 50 ft. above a major slope
break
23%, 240° southwest
Ancient alluvial capping and residuum of the Copper Ridge
Formation
Red maple, dogwood
J.L. Branson
Rick Livingston, Sonja Entrekin, Dr. J.T. Ammons, and Janice
Branson
2 days
80° F and sunny
-------�
A-120
ROANE Site 47
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Time since last rain:
Present weather:
Date:
SoQ Description:
Oi 5-0 cm; leaf litter; twigs, roots
A 0-13 cm; dark yellowish-brown (10YR 4/4) sill loam; moderate medium granular
structure; very friable; 2% chert fragments; clear smooth boundary
Ap 13-22 cm; dark yellowish-brown (10YR 4/4) silt loam; weak medium subangular
blocky structure; very friable; 2% chert fragments; clear smooth boundary
Btl 22-43 cm; strong brown (7.5YR 5/6) loam; weak medium subangular blocky
structure; friable; 2% chert fragments; clear smooth boundary
2Bt2 43-61 cm; yellowish-red (5YR 5/8) clay loam; weak medium and coarse subangular
blocky structure; friable to firm; 5% chert fragments; clear smooth boundary
2BC 61-89 cm; red (2.5YR 4/8) clay; moderate medium subangular blocky struc:ure; 5%
chert fragments; very firm
Pattie Gap Quadrangle, Walker Ridge; 2100 ft south of the
power lines, 1400 ft southeast from Dry Fork Valley Road
Typic Paleudults; fine-loamy, siliceous, thermic
Midslope just above where the slope breaks to 50%
25%, 20° north
Surficial colluvium and residuum of the Copper Ridge Formation
Tulip poplar, red maple, dogwood
J.L. Branson
Rick Livingston, Sonja Entrekin, Dr. J.T. Ammons, and Janice
Branson
2 days
80° F and sunny
-------�
A-121
A.6 ANDERSON COUNTY SOIL PROFILES
ANDERSON Site 1
Location:
Classification:
Control Section:
Geomorphic position:
Slope and aspect;
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Time Since Last Rain:
Present weather
Date:
Soil Description:
A 0 to 10 cm; dark brown (10YR 3/3) silt loam; weak medium granular structure; very
friable; clear smooth boundary
Ap 10 to 28 cm; yellowish-brown (10YR 5/6) loam; weak medium granular structure;
friable ; clear wavy boundary
Bt 28 to 44 cm; yellowish-red (5YR 5/6) channery clay; moderate medium subangular
blocky structure; firm; clear wavy boundary
Cr 44 to 104 cm, soft olive, red, and yellow shale
Notes: This site had been cleared at one time. Age of the deciduous trees indicated they
had been established at least 50 y. No evidence of a plow layer. Slope dips strongly
(30%) approximately 50 ft from the sue. Presently, this area is occupied by cattle
for pasture.
Norris Quadrangle, Pine Ridge; 1400 ft northeast of Old
Anderson Pike, 1000 ft west from Hinds Creek Road
Ochreptic Hapludults; clayey, kaolinitic, thermic, shallow
28 to 44 cm argillic horizon
Midslope
6% north
Dismal Gap Formation
Virginia pine, tulip poplar, red maple, dogwood
J. L. Branson
Branson, Livingston, Gallagher
0 day
85° F and partly cloudy; heavy rain during sampling
-------�
A-122
ANDERSON Site 3
Location:
Classification:
Control Section:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Time Since Last Rain:
Present weather:
Date:
Big Ridge Park Quadrangle, Pine Ridge; 100 ft northwest from
Judson Road, 0.4 miles south from Moore Valley Read (also
known as Cooper Gap)
Typic Hapludults; fine-loamy, mixed, thermic
16 to 53 cm entire argillic horizon
Upland, convex slope
7% southeast
Dismal Gap Formation
Virginia Pine, dogwood, red maple, mosses, poison ivy, sumac, red
cedar
J. L. Branson
Branson, Timpson, Livingston, Gallagher, Entrekin
0 days
85° F and heavy rain during sampling
July 15, 1992
SoQ Description:
Oi
2 to 0 cm; moss and pine needles
A
0 to 4 cm; dark brown (10YR 4/3) loam; moderate medium granular s:ructure;
friable; abrupt smooth boundary
Ap
4 to 16 cm; yellowish-brown (10YR 5/4) loam; moderate fine granular structure;
friable; clear smooth boundary
Btl
16 to 40 cm; yellowish-red (5YR 4/6) clay; moderate medium angular blocky
structure; firm; clear wavy boundary
Bt2
40 to 53 cm; yellowish-red (5YR 4/6) clay loam; moderate medium angular blocky
structure; firm; clear wavy boundary
Cr
-------�
A-123
ANDERSON Site 4
Location:
Classification:
Control Section:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Time Since Last Rain-
Present weather:
Date:
Big Ridge Park Quadrangle, Pine Ridge; 300 ft northwest, from
Judson Road, 0.6 miles south from Moore Valley Road (also
known as Cooper Gap)
Tvpic Hapludults: fine-loamy, mixed, thermic
24 to 70 cm argillic horizon
Midslope, convex shape
24% southeast
Dismal Gap Formation
Virginia pine, dogwood, red maple, eim, poison ivy, cherry,
sourwood
J. L. Branson
Branson, Timpson. Livingston, Gallagher, Entrekin
4 days
S5° F and cloudv
Julv 15. 1992
Soil Description:
Oi 3 to 0 cm; leaf litter, small roots, and pine needles
A 0 to 5 cm; yellowish-brown (10YR 5/4) loam; weak medium granular structure; very
friable; abrupt smooth boundary
Ap 5 to 24 cm; yellowish-brown (10YR 5/6) silt loam; weak fine granular structure;
friable: abrupt smooth boundary
Btl 24 to 37 cm: strong brown (7.5YR 5/6) silty clay loam; moderate fine subangular
blockv structure: friable; clear smooth boundary
Bt2 37 to 53 cm: yellowish-red (5YR 4/6) clay loam: moderate medium subangular
blockv structure: friable; clear wavv boundary
Bt&Cr 53 to 70 cm. Bt: vellowish-red (5YR 5/6) clay loam: moderate medium subangular
block structure: friable; Cr: soft olive, red. and yellow shale, abrupt wavy boundary
-------�
A-124
ANDERSON Site 5
Location:
Classification:
Control Section:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Time Since Last Rain:
Present weather:
Date:
Big Ridge Park Quadrangle, Pine Ridge; 300 ft northwest from
Judson Road, 0.6 miles south from Moore Valley Road (also
known as Cooper Gap), 300 ft south of Anderson Site 4
Typic Hapludults: fine-loamv, mixed, thermic
6 to 56 cm of the argillic horizon
Midslope, convex shape
25% southeast
Dismal Gap Formation
Virginia pine, dogwood, oak, poison ivy
J. L. Branson
Branson, Timpson. Livingston, Gallagher. Entrekin
4 days
85° F and cloudy
Julv 15, 1992
Soil Description:
Oi 2 to 0 cm; leaf litter, small roots, and pine needles
A 0 to 6 cm; dark yellowish-brown (10YR 4/4) loam; weak medium granular
structure; very friable; clear smooth boundary
Ap 6 to 15 cm: dark vellowish-brown (10YR 4/6) loam; weak fine granular s:ructure;
friable; clear smooth boundary
Btl 15 to 45 cm; yellowish-brown (10YR 5/6) clay loam: moderate medium suaangular
blockv structure; friable; clear smooth boundary
Bt2 45 to 70 cm; strong brown (7.5YR 5/8) clay loam: moderate medium suoangular
blocky structure; friable: clear smooth boundary
-------�
A-125
ANDERSON Site 9
Location:
Classification:
Control Section:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Time Since Last Rain:
Present weather:
Date:
Powell Quadrangle, Pine Ridge; 1300 ft north from East Wolf
Vallev Road. 0.25 miles west from Nolan Road. 300 ft north from
Anderson Site 19
Ochreptic Hapludults; clayey, kaolinitic. thermic, shallow
12 to 35 cm of the argillic horizon
Middle portion of a convex slope
15% southeast
Dismal Gap Formation
Virginia pine, red maple, tulip poplar, dogwood
J. L. Branson
Branson, Timpson. Livingston, Gallagher. Entrekin
2 days
75° F and cloudy
Juiv 17. 1992
Soil Description:
Oi 2 to 0 cm; leaves and pine needles
A 0 to 5 cm: dark brown (10YR 3/3) loam; moderate fine granular structure; very
friable; clear, smooth boundary
Ap 5 to 12 cm; yellowish-brown (10YR 5/4) loam; weak fine and medium granular
structure: friable; clear smooth boundary
Bt 12 to 35 cm; strong brown (7.5YR 5/6) clay; moderate medium and coarse
subangular blocky structure; firm; clear wavy boundary
BC 35 to 50 cm: strong brown (7.5YR 4/6) clay; 60% of structure is rock controlled;
firm: clear wavy boundary
CB 50 to 62 cm; strong brown (7.5YR 5/6) clay loam: 80% structure is rock controlled;
firm: clear, wavy boundary
-------�
A-126
ANDERSON Site 10
Location:
Classification:
Control Section:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Time Since Last Rain:
Present weather:
Date:
Norris Quadrangle, Pine Ridge; 1200 ft northeast of Old.
Anderson Pike, 1000 ft west from Hinds Creek Road
Typic Hapludults: fine-loamy, mixed, thermic
40 to 77 cm argillic horizon
Upland slightly convex summit
1% northeast
Dismal Gap Formation
Virginia pine, tulip poplar, red maple, dogwood
J. L. Branson
Branson, Livingston. Gallagher
0 day
85° F and partly cloudy; heavy rain during sampling
Julv 17. 1992
Soil Description:
Oi 2 to 0 cm; roots and leaf litter
A 0 to 10 cm; very dark grayish-brown (10YR 3/2) silt loam; weak medium granular
structure; friable: clear wavy boundary
E 10 to 21 cm; brown (10YR 5/3) silt loam; weak medium granular structure; friable;
clear smooth boundary
BE 21 to 40 cm; yellowish-brown (10YR 5/4) and strong brown (7.5YR 5/6) clay loam;
weak medium subangular blocky structure; friable; clear smooth boundary
Bt 40 to 77 cm; yellowish-red (5YR 5/6) clay loam; weak medium subangular blocky
structure; friable; clear smooth boundary
-------�
A-127
Location:
Classification:
Control Section:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Time Since Last Rain:
Present weather:
Date:
Soil Description:
Oa 2 to 0 cm; crumbly organic matter
A 0 to 6 cm; brown (10YR 4/3) silt loam; moderate fine granular structure; very
friable; clear wavy boundary
Ap 6 to 12 cm; yellowish-brown (10YR 5/6) silt loam or loam; weak fine granular
structure; friable; clear wavy boundary
BE 12 to 18 cm; strong brown (7.5YR 5/6) and brown (7.5YR 5/4) loam; moderate fine
subangular blocky structure; friable; clear wavy boundary
Btl 18 to 30 cm; brown (7.5YR 5/4) clay; weak medium subangular blocky parting to
moderate fine subangular blockv structure; firm; clear wavy boundary; yellowish-red
(5YR 5/6) on ped faces
Bt2 30 to 56 cm; strong brown (7.5YR 5/6) clay loam; weak medium subangular blocky
parting to moderate fine subangular blocky structure; friable; yellowish-red (5YR
5/6) on clay skins; clear irregular boundary
CB 56 to 92 cm: brown (7.5YR 5/4); clay loam; about 50% fine medium subangular
blocky structure, remainder is rock controlled; friable to firm; gradual wavy
boundary
Cr 92 to 140 cm; soft olive, red, and yellowish-brown shale
ANDERSON Site 11
Norris Quadrangle, Pine Ridge; 600 ft northwest from. Hinds
Creek Road, 1000 ft northwest from Hidden Drive
Typic Hapludults; fine-loamy, mixed, thermic
18 to 56 cm of the argillic horizon
Upland position
12% southeast
Dismal Gap Formation
tulip poplar, may apple, beech, red maple, hickory
J. L. Branson
Branson, Timpson, Livingston, Gallagher, Entrekin
2 days
65° F and partly cloudy
May 27, 1992 (sampled for gamma samples and description)
-------�
A-128
ANDERSON Site 12
Location:
Classification:
Control Section:
Geomorphic position:
Slope and aspect-
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Time Since Last Rain:
Present weather.
Date:
Big Ridge Park Quadrangle, Pine Ridge; 500 ft northwest of.
Hinds Creek Road. 100 ft west from power lines, 200 ft west
from Anderson Site 22
Typic Hapludults; fine-loamy, mixed, thermic
16 to 56 cm argillic horizon
Midslope
15% southeast
Dismal Gap Formation
Virginia pine, dogwood, sweetgum, hickory
J. L. Branson
Branson, Timpson. Livingston, Gallagher. Entrekin
1 day
80° F and partly cloudy
Julv 16. 1992
Soil Description:
Oi 2 to 0 cm; leaf litter and pine needles
A 0 to 7 cm; dark brown (10YR 3/3) silt loam; moderate fine granular structure; very
friable; abrupt smooth boundary
Ap 7 to 16 cm; yellowish-brown (10YR 5/4) loam; weak medium granular structure;
friable; clear, wavy boundary
Btl 16 to 41 cm; strong brown (7.5YR 4/6) clay; moderate coarse subangular blocky
structure; firm; clear, wavy boundary
Bt2 41 to 56 cm; yellowish-red (5YR 5/6) clay; moderate coarse subangular blocky
structure; firm; clear wavy boundary
Crl 56 to 90 cm; soft olive, red, and yellow shale
Cr2 90 to 122 cm; soft shale primarily red with some olive and yellowish-brown colors
Notes: This site had been cleared at one time. Age of the deciduous trees indicated they
had been established at least 50 v. Slope dips strongly (30%) off to the side.
-------�
A-129
ANDERSON Site 19
Location:
Classification:
Control Section:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Time Since Last Rain:
Present weather:
Date:
Powell Quadrangle, Pine Ridge; 100 ft north from East Wolf
Valley Road, 0.25 miles west from Nolan Road, 300 ft south from
Anderson Site 9
Tvpic Hapludults; clayey, kaolinitic, thermic
23 to 72 cm of the argillic horizon
Lower portion of a convex slope
6% southeast
Dismal Gap Formation
Virginia pine, red maple, tulip poplar, sassafras, mosses
J. L. Branson
Branson, Timpson, Livingston, Gallagher, Entrekin
2 days
75° F and cloudy
Julv 17, 1992.
Soil Description:
Oi 4 to 0 cm; moss, small roots, and pine needles
A 0 to 13 cm; very dark grayish-brown (10YR 3/2) silt loam; moderate medium
granular structure; very friable; abrupt smooth boundary
Ap 13 to 23 cm; yellowish-brown (10YR 5/6) loam; weak fine and medium granular
structure; friable; abrupt smooth boundary
Btl 23 to 39 cm; yellowish-red (5YR 5/6) clay; moderate medium subangular blocky
structure; firm; clear smooth boundary
Bt2 39 to 72 cm: yellowish-red (5YR 5/8) clay; moderate medium subangular blocky
structure; firm: clear wavy boundary
BC 72 to 95 cm: yellowish-red (5YR 5/8) clay loam; weak medium subangular blocky
structure; friable: gradual wavy boundary
-------�
A-130
ANDERSON Site 20
Location:
Classification:
Control Section:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Time Since Last Rain:
Present weather:
Date:
Big Ridge Park Quadrangle, Pine Ridge; 100 ft northwest from
Judson Road. 0.3 miles south from Moore Valley Road (also
known as Cooper Gap), 300 ft north of Anderson Site 3
Typic Hapludults; clayey, kaolinitic, thermic
13 to 63 cm of the argillic horizon
Upland, convex slope, area is highly eroded
12% southwest
Dismal Gap Formation
Virginia pine, dogwood, tulip poplar, poison ivy, mosses
J. L. Branson
Branson, Timpson, Livingston, Gallagher, Entrekin
0 days
85° F and heaw rain during sampling
Julv 15. 1992
Soil Description:
Oi 2 to 0 cm; moss and leaf litter
A 0 to 5 cm; dark brown (7.5YR 4/4) silt loam; moderate medium granular structure;
friable; clear smooth boundary
Ap 5 to 13 cm; yellowish-brown (10YR 5/6) silt loam; weak fine granular structure;
friable; gradual smooth boundary
Btl 13 to 21 cm; strong brown (7.5YR 5/6) silty clay loam; moderate medium
subangular blocky structure: friable: abrupt smooth boundary
Bt2 21 to 42 cm; yellowish-red (5YR 5/6) clay; moderate medium subangular blocky
structure: firm; clear wavy boundary
Bt3 42 to 84 cm; red (2.5YR 4.8) clav; strong, medium subangular blocky structure;
friable; clear, wavv boundarv
-------�
A-131
ANDERSON Site 21
Location:
Classification:
Control Section:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling Crew:
Time Since Last Rain:
Present weather:
Date:
Big Ridge Park Quadrangle, Pine Ridge; 700 ft northwest from
Hinds Creek Road, 150 ft west from power lines, 200 ft northeast
from Anderson Site 12
Ochreptic Hapludults; clayey, kaolinitic, thermic, shallow
12 to 28 cm argillic horizon
Upland in the curve connecting two parallel slopes at the top of
a small ridge
11% southeast
Dismal Gap Formation
Virginia pine, dogwood, sweetgum, hickory
J. L. Branson
Branson. Timpson, Livingston, Gallagher. Entrekin
1 day
80° F and partly cloudy to sunny
Julv 16. 1992
Soil Description:
Oi 2 to 0 cm; leaf litter and pine needles
A 0 to 6 cm; dark brown (10YR 3/3) silt loam; moderate medium granular structure;
friable; abrupt smooth boundary
Ap 6 to 12 cm; yellowish-brown (10YR 5/4) loam; moderate medium granular
structure; friable; clear smooth boundary
Bt 12 to 28 cm; yellowish-red (5YR 4/6) clay; strong medium subangular blocky
structure: firm: clear wavy boundary
Cr 28 to 87 cm: soft oiive. red. and yellow shale
Notes: This site had been cleared at one time. Age of the deciduous trees indicated they
had been established at least 50 v. Slope dips strongly (30%) approximately 50 ft
-------�
A-132
ANDERSON Site 22
Location:
Gasification:
Control Section:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Time Since Last Rain:
Present weather:
Date:
Big Ridge Park Quadrangle, Pine Ridge; 500 ft northwest from,
the intersection of Hill Road and Hind's Creek Road. 300 ft west
of the power lines. It is 200 ft east from Anderson Site 12 on a
convex slope.
Ochreptic Hapludults; fine-loamy, mixed, thermic, shallow
4 to 28 cm entire argillic horizon
Upland
18% southeast
Dismal Gap Formation
Virginia Pine, dogwood, cedar, poison ivy, red cedar
J. L. Branson
Branson. Livingston
0 days
85° F and heavy rain during sampling
July 15. 1992 (zero contamination sampling)
July 16. 1992 (gamma sampling)
Soil Description:
Oi 2 to 0 cm; roots, leaf litter, and pine needles
A 0 to 4 cm; dark brown (10YR 4/3) loam; weak fine granular structure; friable;
abrupt smooth boundary
Ap 4 to 14 cm: yellowish-brown (10YR 5/4) silt loam; weak medium granular structure;
friable; clear wavv boundary
Bt 14 to 28 cm; yellowish-red (5YR 5/6) clay; moderate medium subangular blocky
structure: firm: clear irregular boundary
Cr 28 to 98 cm; soft olive, red, and vellow shale
Note:
-------�
A-133
ANDERSON Site 31
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Time since last rain:
Present weather
Date:
Soil Description:
Oi 5-0 cm: leaf litter, twigs
A 0-11 cm; very dark grayish-brown and dark grayish-brown (10YR 3/2 and 10YR
4/2) gravelly silt loam; moderate fine granular parting to weak medium subangular
blocky structure; very friable; 15% coarse fragments; clear smooth boundary
El 11-20 cm; grayish-brown (10YR 5/2) silt loam; weak medium subangular blocky
structure; very friable; clear smooth boundary
E2 20-49 cm; light yellowish-brown (10YR 6/4) silt loam; weak medium subangular
blocky structure; very friable; 10% coarse fragments; clear smooth boundary
Bt 49-61 cm; brown (7.5YR 5/4) loam or clay loam; moderate medium subangular
blocky structure; friable; 10% coarse fragments; clear smooth boundary
2Bt 61-87 cm: yellowish-red (5YR 5/6) clay; moderate medium subangular blocky
structure; firm; 5% coarse fragments; clear smooth boundary
2BC 87-100 cm; yellowish-red (5YR 5/8) cherty clay loam; moderate medium and fine
subangular blocky structure; friable; 15% coarse fragments; gradual smooth
boundary
2C 100-132 cm; strong brown (7.5YR 5/8) and light yellowish-brown (2.5Y 6/4)
saprolitic materials that easily crush to cherty clay; massive: friable
Powell Quadrangle, Chestnut Ridge; 1000 ft west of the
Knox/Powell water tank, 300 ft south of dirt road, 800 ft
northeast from Heiskell Road
Typic Hapludults: clayey, mixed, thermic
Lower slope just above a colluvial bench
18%, 240° southwest
Surficial colluvium and residuum of the Copper Ridge Formation
Virginia pine, sassafras, red oak, chestnut oak
J.L. Branson
Mike Timpson, Mike Haarbauer, and Janice Branson
1 day
40° F and sunny and clear
-------�
A-134
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Time since last rain:
Present weather
Date:
Sofl Description:
Oi 10-2 cm; hardwood leaf litter
Oa 2-0 cm; highly decomposed leaves, twigs, and roots
A 0-7 cm; dark brown (10YR 3/3) cherty silt loam; weak fine granular structure; very
friable; 50% chert fragments; clear smooth boundary
E 7-38 cm; light yellowish-brown (10YR 6/4) silt loam; weak fine subangular blocky
structure; very friable; clear smooth boundary
BE 38-45 cm; strong brown (7.5YR 5/8) silty clay loam; moderate fine subangular
blocky structure; friable: 10-15% chert; clear wavy boundary
2Btl 45-91 cm; yellowish-red (5YR 5/8) clav; moderate medium subangular blocky
structure;friable; 5-10% chert fragments; gradual smooth boundary
2Bt2 91-120 cm; yellowish-red (5YR 5/8) clay; moderate medium subangular blocky
structure; firm; 5-10% chert fragments; clear wavy boundary
2BC 120-144 cm; yellowish-red (5YR 5/8) gravelly clay; moderate medium subangular
blocky structure; 20-30% chert; friable
ANDERSON Site 32
Powell Quadrangle, Chestnut Ridge; 1200 ft southwest from
water tank, and 100 ft south of access road, 800 ft northeast of
Heiskell Road
Typic Paleudults; clayey, mixed, thermic
Midslope
13%, 270° weat
Surficial colluvium and residuum of the Copper Ridge Formation
Chestnut oak, hickory, red oak, sassafras, hickory
J.L. Branson
Lara Buckner, Rick Livingston, and Janice Branson
1 day
40° F and clear and sunny
-------�
A-135
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by.
Sampling crew:
Tune since last rain:
Present weather
Date:
Soil Description:
Oi 7-2 cm: leaf litter
Oa 2-0 cm; decomposed leaves
A 0-3 cm; very dark grayish-brown (10YR 3/2) extremely cherty silt loam; weak fine'
granular structure: very friable; 70% chert fragments; abrupt smooth boundary
El 3-21 cm; light yellowish-brown (2.5Y 6/4) very cherty silt loam; weak medium
subangular blocky structure; very friable; 50% chert fragments; clear smooth
boundary
E2 21-36 cm; brownish-yellow (10YR 6/6) silt loam; weak medium subangular blocky
structure; friable; 10% chert fragments; gradual smooth boundary
Btl 36-46 cm; reddish-yellow (7.5 YR 6/8) cherty clay loam; moderate medium
subangular blocky structure; friable; 25% chert fragments; clear smooth boundary
2Bt2 46-62 cm; yellowish-red (5YR 5/8) cherty clay loam; moderate medium subangular
blocky structure: friable: 15% chert fragments; clear smooth boundary
2Bt3 62-75 cm; yellowish-red (5YR 5/8) cherty clay; moderate medium subangular
blocky structure; firm: 25% chert fragments; gradual wavy boundary
2BC 75-117 cm; yellowish-red (5YR 5/8) clay; moderate medium subangular blocky
structure; firm
ANDERSON Site 33
Powell Quadrangle, Pine Ridge; 700 ft southwest of the. water
tank. 100 ft south of old access road, 900 ft northeast of Heiskell
Road
Typic Paleudults; clayey, mixed, thermic
Upper portion of long slope
10%, 240° southwest
Copper Ridge Formation
Red oak, chestnut oak, hickory, dogwood, sassafras
J.L. Branson
Mike Morris, Steve Travis, and Janice Branson
1 dav
40° F
-------�
A-136
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by.
Sampling crew:
Time since last rain:
Present weather
Date:
Soil Description:
Oi 5-0 cm; leaf litter
A 0-7 cm; brown (10YR 4/3) silt loam; weak medium granular structure: very friable;
abrupt smooth boundary
El 7-27 cm; yellowish-brown (10YR 5/4) silt loam; weak medium subangular blocky
structure: very friable; clear smooth boundary
E2 27-38 cm; brownish-yellow (10YR 6/8) silt loam; weak medium, subangular blocky
structure; friable; clear wavy boundary
Btl 38-52 cm; reddish-yellow (7.5YR 6/8) silty clay loam; moderate medium subangular
blocky structure; friable: few chert fragments; clear smooth boundary
2Bt2 52-94 cm; reddish-vellow (5YR 6/8) clay loam; moderate medium subangular
blocky; friable; 13% chert fragments; gradual smooth boundary
2BC 94-140 cm; vellowish-red (5YR 5/8) clay; weak medium subangular blocky
structure; firm
ANDERSON Site 34
Powell Quadrangle, Chestnut Ridge; 500 ft northwest of water.
tank. 100 ft north of access road, 1400 ft northeast from Heiskell
Road, 500 ft north from Anderson Site 33
Tvpic Paleudults; Fine-loamy, mixed, thermic
Upland, midslope
14%, 290° west
Surficial colluvium and residuum of the Copper Ridge Formation
Chestnut oak, sassafras, dogwood, red maple
J.L. Branson
Mike Timpson, Mike Haarbauer, Janice Branson
1 day
35° F and clear
-------�
A-137
ANDERSON Site 35
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Time since last rain:
Present weather
Date:.
Soil Description:
Oi 5-0 cm; leaf litter
A 0-12 cm; brown (10YR 4/3) silt loam; weak medium subangular blocky structure;
very friable; clear smooth boundary
E 12-27 cm; dark yellowish-brown (10YR 4/6) silt loam; weak medium subangular
blocky structure; very friable; clear smooth boundary
Btl 27-46 cm; strong brown (7.5YR 5/6) silty clay loam; moderate medium subangular
blocky structure; friable; clear smooth boundary
Bt2 46-62 cm; strong brown (7.5YR 5/8) clay loam; moderate medium subangular
blocky structure; friable; clear smooth boundary
2Bt3 62-85 cm; yellowish-red (SYR 5/8) cherty clay loam; moderate, medium subangular
blocky structure; friable; 20% chert fragments; gradual smooth boundary
2C 85-125 cm; red (2.5YR 4/8) clay; massive; firm
Powell Quadrangle, Chestnut Ridge; 700 ft northwest of water
tank, 150 ft north of the access road, 1500 ft northeast from
Heiskell Road
Typic Paleudults; fine-loamy, mixed, thermic
Upland, upper sideslope
8%, 20° north
Colluvium and residuum from the Copper Ridge Formation
Chestnut oak, sassafras, scarlet oak, white oak, red maple
J.L. Branson
Mike Morris, Steve Travis, and Janice Branson
1 day
35° F and clear
-------�
A-138
ANDERSON Site 36
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Time since last rain:
Present weather:
Date:
Soil Description:
Oi 7-2 cm; leaf litter
Oa 2-0 cm; decomposed leaves, twigs
A 0-8 cm; dark yellowish-brown (10YR 3/4) silt loam; weak medium granular
structure; very friable; 5% chert fragments; clear smooth boundary
E 8-26 cm; brown (10YR 5/3) silt loam; weak medium subangular blocky structure;
very friable; 5% chert fragments; clear smooth boundary
BE 26-42 cm; yellowish-brown (10YR 5/4) silt loam; weak medium subangular blocky
structure; friable; 5% chert fragments; clear wavy boundary
Bt 42-75 cm; yellowish-red (5YR 5/8) clay loam; moderate medium subangular blocky
structure; friable; 10% chert fragments; clear wavy boundary
BC 75-90 cm; yellowish-red (SYR 5/8) very cherty clay loam; moderate medium
subangular blocky structure: 60% chert fragments; firm
Powell Quadrangle, Chestnut Ridge; 700 ft northwest of water
tank. 200 ft north of access road, 1600 ft northeast from Heiskell
Road
Tvpic Paleudults; fine-loamy, mixed, thermic
Midslope just above a bench
32%, 350° north
Surficial colluvium and residuum of the Copper Ridge Formation
Yellow poplar, white oak, hickory, red oak
J.L. Branson
Lara Buckner, Rick Livingston, and Janice Branson
1 day
35° F and clear
-------�
A-139
ANDERSON Site 37
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Time since last rain:
Present weather:
Date:
Sofl Description:
Oi 5-0 cm; leaf litter
Ap 0-19 cm; dark, yellowish-brown (10YR 4/4) chertv siit loam: moderate medium
subangular blocky structure; friable; 15% chert fragments: clear smooth boundary
Btl 19-33 cm; yellowish-red (5YR 5/8) clay loam; moderate medium subangular blocky
structure; friable; clear smooth boundary
Bt2 33-80 cm; yellowish-red (5YR 5/8) clay; strong medium subangular blocky
structure; firm; 10% chert fragments; gradual smooth boundary
Bt3 80-100 cm: red (2.5YR 4/6) clay; strong medium subangular blocky structure; firm;
clear smooth boundary
BC 100-123 cm: red (2.5YR 4/6) clav: moderate medium subangular blocky structure;
firm
Big Ridge Park Quadrangle, Chestnut Ridge: 800 ft west of Mt.
Hebron Church. 700 ft southeast from Hinds Creek Road. 250 ft
southwest from Anderson Site 38
Typic Paleudults: clayey, mixed, thermic
Upland, upper siaeslope
16%, 280° west
Copper Ridge Formation
Cedar, red maple, oaks
J.L. Branson
Dr. J.T. Ammons. and Janice Branson
2 days
35° F and overcast and cloudy
-------�
A-140
ANDERSON Site 38
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Time since last rain:
Present weather:
Date:
Soil Description:
Oi 5-0 cm: leaf litter, roots
A 0-12 cm; dark vellowish-brown (10YR 4/4) cherty siit loam: moderate medium
granular structure; very friable; 20% chert fragments: clear smooth boundary
E 12-29 cm: yellowish-brown (10YR 5/4) silt loam; weak medium, subangular blocky
structure; very friable; 10% chert fragments; gradual smooth boundary
Btl 29-40 cm; yellowish-red (5YR 5/6) cherty silty clay loam; weak fine subangular
blocky structure; friable; 15% coarse fragments; clear smooth boundary
2Bt2 40-80 cm; red (2.5YR 4/6) clav; moderate medium, subangular blocky structure;
firm; 5% chert fragments: gradual smooth boundary
2BC 80-120 cm; red (2.5YR 4/6) clay; moderate medium subangular blocky structure;
firm
Big Ridge Park Quadrangle, Chestnut Ridge; 550 ft west.from
Mt. Hebron Church, and 650 ft southeast from Hinds Creek
Road
Tvpic Paleudults; clayey, mixed, thermic
Upland, upper slope
13%, 20° north
Surficial colluvium and residuum of the Copper Ridge Formation
Red cedar, privet, red maple, red and black oaks
J.L. Branson
Dr. J.T. Ammons, and Janice Branson
2 days
35° F and overcast and cloudy
-------�
A-141
ANDERSON Site 39
Location:
Qassification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Time since last rain:
Present weather:
Date:
Soil Description:
Oi 6-0 cm; leaves
A 0-8 cm; dark yellowish-brown (10YR 3/4) cberty silt loam; moderate medium
granular structure; very friable; 20% coarse fragments; clear smooth boundary
BA 8-22 cm; strong brown (7.5YR 4/6) silt loam; weak medium subangular blocky
structure; very friable; 5% chert fragments; clear smooth boundary
Btl 22-34 cm; yellowish-red (5YR 5/6) clay loam; weak medium subangular blocky
structure; friable; 5% chert fragments; clear smooth boundary
Bt2 34-60 cm: red (2.5YR 4/6) clay; moderate medium subangular blocky structure;
firm; 5% chert fragments; gradual smooth boundary
BC 74-114 cm; red (2.5YR 4/6) clay; weak moderate subangular blocky structure; firm
Big Ridge Park Quadrangle, Chestnut Ridge; 1000 ft south from
Mount Zion Church, 1000 ft southeast from Hinds Creek Valley
Road
Typic Paleudults; clayey, mixed, thermic
Midslope on a short bench
5%, 310° northwest
Surficial old alluvium and residuum of the Copper Ridge
Formation
Red oak, hickory, red maple
J.L. Branson
Mike Timpson. Rick Livingston. Sonja Entrekin, and Janice
Branson
1 day
20° F and cold with wind chill and snow flurries
-------�
A-142
ANDERSON Site 40
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Time since last rain:
Present weather:
Date:
Big Ridge Park Quadrangle, Chestnut Ridge; 1200 ft south from
Mt. Zion Church. 1500 ft southeast from Hinds Creek Valley
Road
Tvpic Paleudults; clayey, mixed, thermic
Midslope upland
21%. 10° north
Surficial old alluvium and residuum of the Copper Ridge
Formation
Virginia Pine, ferns, red maple
J.L. Branson
Rick Livingston, Sonja Entrekin, Mike Timpson. and Janice
Branson
1 day
Cold, wind chill 20° F and snow flurries
December 11. 1992
Soil Description:
Oi 5-0 cm; leaves, pine needles
A 0-19 cm; dark yellowish-brown (10YR 4/4) chertv silt loam; weak medium
subangular blocky structure; very friable; 15% chert fragments; clear smooth
boundary
Btl 19-36 cm; strong brown (7.5YR 4/6) clay loam; weak medium subangular blocky
structure; friable; 5% chert fragments; clear smooth boundary
2Bt2 36-72 cm; yellowish-red (5YR 4/6) clay; moderate medium subangular blocky
structure; firm; 10% chert fragments: gradual smooth boundary
2BC 72-104 cm: yellowish-red (5YR 5/6) clay; weak medium subangular blocky
-------�
A-143
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Time since last rain:
Present weather
Date:
Soil Description:
Oi 5-0 cm; leaf litter, pine needles
A 0-11 cm; dark yellowish-brown (10YR 3/4) cherty silt loam; moderate medium
granular structure; very friable; 20% chert fragments; clear smooth boundary
AB 11-27 cm; brown (7.5YR 4/4) silt loam; weak medium, subangular blocky structure;
friable; clear smooth boundary
Btl 27-38 cm; strong brown (7.5YR 4/6) clay loam; moderate medium, subangular
blocky structure; friable; 3% chert fragments; clear smooth boundary
2Bt2 38-70 cm; yellowish-red (5YR 4/6) clay; moderate coarse subangular blocky
structure; firm; 5% chert fragments; gradual smooth boundary
2BC 70-125 cm; yellowish-red (5YR 5/6) clay; weak medium subangular blocky
structure; friable
ANDERSON Site 41
Big Ridge Park Quadrangle, Chestnut Ridge; 1500 ft south from
Mt. Zion Church. 1700 ft southeast from' Hinds Creek Valley
Road
Typic Paleudults; clayey, mixed, thermic
Midslope
18%, 1/2° north
Surficial colluvium and residuum of the Copper Ridge Formation
Red Maple, Ferns, Dogwood, Virginia Pine
J.L. Branson
Mike Timpson, Rick Livingston, Sonja Entrekin, and Janice
Branson
1 day
20° F wind chill, cold, and snow flurries
-------�
A-144
Location:
Classification:
Geomorphic position:
Slope and aspect:
Parent material(s):
Vegetation:
Described by:
Sampling crew:
Time since last rain:
Present weather
Date:
Soil Description:
Oi 5-0 cm; leaves, pine needles
A 0-24 cm; dark brown (10YR 3/3) silt loam; weak medium subangular structure;
very friable; 5% chert fragments; clear smooth boundary
Btl 24-39 cm; strong brown (7.5YR 4/6) loam; weak medium subangular blocky
structure; friable; clear smooth boundary
Bt2 39-53 cm; strong brown (7.5YR 5/6) cherty clay loam; moderate medium
subangular blocky structure; friable; 15% chert fragments: clear smooth boundary
2Bt3 53-81 cm; yellowish-red (SYR 5/6) clay; moderate medium subangular blocky
structure; firm; 5% chert fragments; gradual smooth boundary
2BC 81-93+ cm; yellowish-red (5YR 5/8) cherty clay; massive; 20% coarse fragments;
firm
ANDERSON Site 42
Big Ridge Park Quadrangle, Chesnut Ridge; 1200 ft south of
Mount Zion Church, 1800 ft southeast from Hinds Creek Valley
Road
Typic Paleudults; fine-loamy, siliceous, thermic
Upper portion of a long slope
19%, 1/2° north
Surficial colluvium and residuum of the Copper Ridge Formation
Virginia Pine, Red Maple, Ferns
J.L. Branson
Mike Timpson, Rick Livingston, Sonja Entrekin, and Janice
Branson
1 day
20° F, cold, wind chill with snow flurries
-------�
A-145
A.7 SITE LOCATIONS
A.7.1 Oak Ridge Reservation Site Locations
The following locations are approximate. Key: DG = Dismal Gap, NOL = Nolichucky,
CR = Copper Ridge, CH = Chepultepec, BV = Chickamauga-Bethei Valley, and
EF = Chickamauga, East Fork or K-25 section.
Site
North
East
Site
North
East
2 DG
29300
10300
45 CR
27600
18400
3 NOL
29300
11200
50 CH
26600
19800
5 NOL
29300
15300
51 CR
28400
21600
10 DG
30200
21460
52 CH
26600
20200
11 DG
29800
21460
53 CH
26200
22400
13 NOL
29480
23220
54 CR
28200
22500
15 NOL
29700
25720
55 CR
28400
23400
16 NOL
29700
25928
58 CR
28000
25000
19 DG
33000
28530
59 CR
28000
26600
21 NOL
29700
30940
60 CR
27800
27400
22 DG
30520
31250
62 CR
27900
29700
23 NOL
29800
31830
64 CR
27200
30000
24 NOL
29900
31980
66 CH
27000
31000
25 NOL
29800
32290
68 CH
26800
31700
26 DG
30000
34370
73 CH
26800
34000
27 DG
30100
34990
74 CH
27200
34000
28 NOL
29500
34580
75 CR
27200
35400
31 NOL
29900
35820
77 CH
26600
35200
32 DG
30200
36760
78 CH
26700
35600
33 DG
30000
36970
83 CR
27800
37600
35 DG
30000
37280
85 CH
26000
37800
41 DG
30200
39570
86 CH
26000
38200
42 NOL
30000
40500
90 CH
28000 '
40800
43 DG
30400
41460
91 CR
27000
41000
93 BV
21600
26500
118 EF
39800
23000
99 BV
22000
27750
119 EF
40000
23000
100 BV
21600
28000
120 EF
39800
23250
101 BV
21250
31550
121 EF
42100
26200
102 BV
21300
34900
122 EF
41300
27250
103 BV
20800
36400
123 EF
41200
29750
104 BV
21800
44000
124 EF
40900
30400
108 BV
22250
45000
125 EF
40600
29800
110 BV
22400
45800
126 EF
38950
28750
115 BV
22500
46700
127 EF
39500
28650
116 BV
22100
49000
128 EF
38900
29600
117 BV
22500
49000
129 EF
36100
-------�
A-146
A.7.2 Latitudes and Longitudes for Roane and Anderson Counties
Site number Latitude Longitude
ANDERSON COUNTY
1
36° 11'48"
83°56'57"
0
36° 11'40"
83°57'05"
4
36°06'28"
83°57'18"
5
36° 11'29"
83°57'22"
9
36°06'00"
84° 03'42"
10
36°08'47"
84°00'58"
11
36°09'10"
84°00'36"
12
36°10'32"
83°58'45"
19
36oll'0r
83°58'14"
20
36°11'32"
83°57'14"
21
36°H'36"
83°57'14"
22
36°10'34"
ss^s'H"
31
36°06'19"
84°02'55"
32
36°06'21"
84°02'54"
33
36°06'19"
84°02'50"
34
36°06'20"
84°02'47"
35
36°06'25"
84°02'51"
36
36°06'24"
84°02'15"
37
36°10'18"
83°58'36"
38
36°10'20"
83 °58'34"
39
36° 11'04"
83°57'06"
40
36°iror
83°57'04"
41
36°10'58"
83°57'01"
42
36°11'01"
S3°56'57"
ROANE COUNTY
35°43'02"
84°35'07"
7
35°40'41"
84°36'55"
8
35°40'38"
84°36'53"
9
35°42'53"
84°35'14"
10
35°44'41"
84°33'37"
13
35°44'22"
84°33'57"
14
35°44'19"
84°33'59"
17
35°41'31"
84°36'21"
19
35°42'50"
84°35'16"
20
35°42'47"
84°35'19"
21
35°42'44"
84°35'22"
22
35°42'46"
84°35'18"
33
35°44'25"
84°33'33"
34
35°44'30"
84°33'30"
35
35°44'33"
84°33'26"
39
35°42'00"
84°35'30"
40
35°41'59"
-------�
A-147
Site number Latitude
41 35°42'00"
42 35°40'14"
43 35°40'16"
44 35°40'16"
45 35°40'12"
46 35 MOW
47 35°40'06"
Longitude
84°35'28"
84°36'42"
84°36'44"
84°36'48"
84°36'50"
84°36'54"
-------�
Appendix B
-------�
B-3
Tabic B.l. Volatile organic analyse, results for soil samples
A A horizon
Analysis Units horizon Qualifier field dup Qualifier
Location—AND; Formanon=COPPER RIDGE; Site—31; Samp id=-2256; Dup id='
Phase=2
cis-1,2-Dichloroethene
fig/kg
5
U
cis-1,3-Dichloropropene
Ag/kg
5
U
trans-1,2-Dichloroethene
Mg/kg
5
U
trans-1,3-Dichloropropene
M9/kg
5
U
Acetone
Ag/kg
18
J
Benzene
Mg/kg
5
U
Bromodichloromethane
Mg/kg
5
U
Bromoform
Mg/kg
5
U
Bromomethane
Mg/kg
10
U
Carbon disulfide
M g/kg
5
U
Carbon tetrachloride
Mg/kg
5
U
ChIorotoenzene
Mg/kg
5
U
Chloroethane
Mg/kg
10
U
Chloroform
fg/kg
5
U
Chloromethane
Mg/kg
10
U
DibromochIoromethane
fig/kg
5
U
Ethyl benzene
jig/kg
5
U
Methylene chloride
Mg/kg
5
U
Styrene
-------�
B-4
Table B.l (continued)
A A horizon
Analysis Units horizon Qualifier field dup Qualifier
1,1,2,2-Tetrachloroethane
W/kg
5
U
1,2-Dlchloroethane
AS/kg
5
U
1,2-Dichloroproparve
jig/kg
5
U
2-Butar>one
ig/kg
50
u
Location=AND; Formation -COPPER RIDGE; Siie=34; Samp id=2264; Dup id. — ' Phase—2
cis-1,2-Dichloroethene
(ig/kg
5
U
cis-1,3-Dichloropropene
(ig/kg
5
U
trans-1,2-Dichloroethene
tfg/kg
5
U
trans-1,3-Dichloropropene
^g/kg
5
U
Acetone
M/kg
100
U
Benzene
fig/kg
5
U
B romodi chIoromethane
^g/kg
5
U
Bromoform
Kg/kg
5
U
Bromomethane
fg/kg
10
U
Carbon disulfide
Kg/kg
5
U
Carbon tetrachloride
Mg/kg
5
U
Chlorobenzene
Mg/kg
5
U
Chloroetnane
fg/kg
10
U
Chloroform
Mg/kg
5
U
Chioromethane
*ig/kg
10
u
D ibromochIoromethane
Jig/kg
5
u
Ethyl benzene
fig/kg
5
u
Methylene chloride
Kg/kg
5
u
Styrene
Mg/kg
5
u
Tetrachloroethene
jig/kg
5
u
Toluene
Mg/kg
5
u
T richloroethene
ng/kg
5
u
Vinyl chloride
Jig/kg
10
-------�
B-5
Table B.l (continued)
A A horizon
Analysis Units honzon Qualifier field dup Qualifier
Xylene (rneta * para)
Ag/kg
5
U
Xylene (ortho)
Ag/kg
5
U
1,1-Dichloroethane
A9/kg
5
U
1,1-D i chloroethene
Ag/kg
5
U
1,1,1 - T r i ch Ioroethane
Ag/kg
5
U
1,1,2-Trichloroethane
Ag/kg
5
U
1,1,2,2-Tet rach I. oroethane
A 9/kg
5
U
1,2-Dichloroethane
Ag/kg
5
U
1,2-Dichloropropane
A9/kg
5
U
2-Butanone
A9/kg
100
U
2-Hexanone
A9/kg
50
U
4-Hethyl-2-pentanone
Ag/kg
50
U
Locarion=AND; Formation^COPPER RIDGE; Siie=35; Samp id=2267; Dup id=' Phase=2
cis-1,2-0ichloroethene
A9/kg
5
U
cis-1,3-Dichloropropene
A9/kg
5
U
trans-1,2-Dichloroethene
Ag/kg
5
U
trans-1,3-Dichloropropene
A9/kg
5
U
Acetone
Ag/kg
18
J
Benzene
Ag/kg
5
u
BromodichIoromethane
Ag/kg
5
u
Bromofortn
Ag/kg
5
u
Bromoroe thane
Ag/kg
10
u
Carbon disulfide
A9/kg
5
u
Carbon tetrachloride
A9/kg
5
u
Chiorobenzene
A9/kg
5
u
Chloroethane
Ag/kg
10
u
Chloroform
A9/kg
5
u
Chloromethane
A9/kg
10
u
D i bromochIoromethane
A9/kg
5
u
Ethyl benzene
A9/kg
5
u
Methylene chloride
A9/kg
5
u
Styrene
fjg/kg
5
u
TetrachIoroethene
Ag/kg
5
u
Toluene
Ag/kg
5
u
T richloroethene
Ag/kg
5
u
Vinyl chloride
Ag/kg
10
u
Xylene (meta + para)
Ag/kg
5
u
Xylene (ortho)
Ag/kg
5
u
1,1-Dichloroethane
A9/kg
5
u
1,1-Dichloroethene
Ag/kg
5
u
1,1,1-TrichIoroethane
M9/kg
5
u
1,1,2-TrichIoroethane
A9/kg
5
u
1,1,2,2-TetrachIoroethane
A9/kg
5
u
1,2-Dichloroethane
M9/k9
5
u
1,2-Dichloropropane
A9/kg
5
u
2-Butanone
A g/kg
5
J
2-Hexanone
Ag/kg
51
u
4-Methyl-2-pentanone
A9/kg
51
u
Location =AND: Fonnanon=COPPER RIDGE: Site=36; Samp id=2270: Dup id = ' Phase-2
cis-1,2-DichIoroethene
A9/kg
5
U
cis-1,3-Dichloropropene
ttg/kg
5
U
trans-1,2-Dichloroethene
Ag/kg
5
u
trans-1,3-Dichloropropene
Ag/kg
5
u
Acetone
Ag/kg
10
u
Benzene
A9/kg
5
u
Bromodichloromethane
A9/kg
5
u
Bromoform
A9/kg
5
u
Bromcmethane
Ag/kg
10
u
Carbon disulfide
Ag/kg
5
u
Carbon tetrachloride
Ag/kg
5
u
ChIorobenzene
A9/kg
5
u
Chloroethane
A9/kg
10
u
Chloroform
Ag/kg
5
u
Chloromethane
A g/kg
10
u
DibromochIoromethane
Ag/kg
5
u
Ethyl benzene
A9/kg
5
-------�
B-6
Table B.l (continued)
A A horizon
Analysis Units horizon Qualifier field dup Qualifier
Freon-113
eg/kg
5
U
Methylene chloriae
Kg/kg
5
U
Styrene
Mg/kg
5
U
Tetrachloroethene
ftg/kg
5
U
Toluene
*ig/kg
5
U
Trichloroethene
^g/kg
5
U
Tri chlorofluoromethane
^g/kg
5
U
Vinyl acetate
tg/kg
5
u
1,1-Dichloroethene
Mg/kg
5
u
1,1,1-Tri chIoroethane
/tg/kg
5
u
1,1,2-Trichloroethane
M9/kg
5
u
1,1,2,2-Tetrachloroethane
/ig/kg
5
u
1, 2-Dichlorobenzene
Kg/kg
5
u
1,2-D i chloroethane
A9/kg
5
u
1,2-Dichloropropane
M 9/kg
5
u
1,3-Dichlorobenzene
Mg/kg
5
u
1,4-Dichlorobenzene
M g/kg
5
u
2-Butanone
/ig/kg
10
u
2-Chloroethylvinyl ether
M/kg
5
u
2-Hexanone
/ig/kg
10
u
4-MethyI-2-pentanone
#tg/kg
10
u
Location =AND; Formanon=COPPER RIDGE; Site=37; Samp id=2272; Dup id=' '; Phase=2
cis-1,2-Dichloroethene
H9
9
5
U
cis-1,3-Dichloropropene
MS
-------�
B-7
Tabic B.l (continued)
A A horizon
Analysis Units horizon Qualifier field dup Qualifier
-
Acetooe
jig/kg
100
U
Benzene
A9/kg
5
U
Bromodichloromethane
jig/kg
5
U
Bromoform
Kg/kg
5
U
Bromomethane
Kg/kg
10
U
Carbon disulfide
Kg/kg
5
U
Carbon tetrachloride
^g/kg
5
U
Chlorobenzene
(ig/kg
5
U
Chloroethane
Ag/kg
10
U
Chloroform
/ig/kg
5
u
Chloromethane
Mg/kg
10
u
DibromochIoromethane
Mg/kg
5
u
Ethyl benzene
M g/kg
5
u
Methylene chloride
a g/kg
5
u
Styrene
a g/kg
5
u
Tetrachloroethene
#ig/kg
5
u
Toluene
A9/kg
5
u
Trichloroethene
Mg/kg
5
u
Vinyl chloride
v- g/kg
10
u
Xylene (meta * para)
M9/kg
5
u
Xylene (ortho)
M9/kg
5
u
1,1-0ichloroethane
Jtg/kg
5
u
1,1-Dichloroethene
ug/kg
3
u
1,1,1-Trichloroethane
(ig/kg
5
u
1,1,2-Trichloroethane
M9/kg
5
'J
1,1,2,2-Tetrachloroethane
M9/kg
5
u
1,2-Dichloroethane
A9/kg
5
u
1,2-Dichloropropane
M/kg
5
u
2-Butanone
M9/kg
8
J
2-Hexar>one
/tg/kg
50
u
4-MethyI-2-pentanone
U9/kg
50
u
Locanon=AND; Formation — C OP PER RIDGE; Site =39; Samp id=2276; Dup id=' '; Phase=2
cis-1,2-Dichloroethene
^g/kg
5
U
cis-1,3-Dichloropropene
(ig/kg
5
u
trans-1,2-Dichloroethene
ng/kg
5
u
trans-1,3-Dichloropropene
M/kg
5
u
Acetone
^g/kg
100
u
Benzene
eg/kg
5
u
Bromodichloromethane
A9/kg
5
'J
Bromoform
M9/kg
5
u
Bromomethane
d9/kg
10
u
Carbon disulfide
eg/kg
5
u
Carbon tetrachloride
d9/kg
5
u
Chlorobenzene
M/kg
5
u
Chloroethane
A9/kg
10
u
Chloroform
ug/kg
5
u
Chloromethane
dg/kg
10
u
D ibromocnIoromethane
ng/kg
5
u
Ethyl benzene
A9/kg
5
u
Methylene chloride
itg/kg
5
u
Styrene
M9/kg
5
u
Tetrachloroethene
M9/kg
5
'J
Toluene
A9/kg
5
u
T richloroethene
*tg/kg
5
u
Vinyl chloride
ug/kg
10
u
Xylene (meta + para)
A9/kg
5
¦J
Xylene (ortho)
-------�
B-8
Table B.1 (cootinued)
A A horizon
Analysis Units horizon Qualifier field dup Qualifier
Location =AND; Formation=COPPER RIDGE; Site=40; Samp id=2278; Dup id=' '; Phase=2
cis-1,2-Dichloroethene
M-s/kg
5
u
cis-1,3-Dichloropropene
^g/kg
5
u
trans-1,2-Dichloroethene
-------�
B-9
Table B.1 (continued)
A A horizon
Analysis Units horizon Qualifier field dup Qualifier
1,2-Di chloropropane
fig/kg
5
U
2-Butanone
M9/kg
100
u
2-Hexanone
M9/kg
50
U
k-Methyl -2-pentanor>e
Mg/kg
50
U
Location =AND; Formation — C OP PER RIDGE; Siie=42; Samp id=2282; Dup id=' '; Phase=2
cis-1,2-Dichloroethene
*9/
g
5
U
cis-1,3-Dichloropropene
ItS/
g
5
U
trans-1,2-Dichloroethene
US/
g
5
U
trans-1,3-Dichloropropene
H9/
g
5
U
Acetone
It 9/
g
11
J
Benzene
A9/
g
5
U
Bromodichloromethane
It 9/
g
5
U
Bromoform
H9/
g
5
u
Bromomethane
US/
g
10
u
Carbon disulfide
itg/
9
5
u
Carbon tetrachloride
Itg/
9
5
u
Chlorobenzene
M9/
9
5
u
Chloroethane
H9/
9
10
u
Chloroform
C9/
9
5
u
Chloromethane
Its/
9
10
u
D i bromochIorcmethane
1*9/
g
5
u
Ethyl benzene
(19/
g
5
u
Methylene chloride
^9/
g
5
u
Styrene
It9/
9
5
u
Tetrachloroethene
It9/
9
5
u
Toluene
US/
g
5
u
T richloroethene
itg/
9
5
u
Vinyl chloride
V-9/
g
10
u
Xylene (meta + para)
It 9/
g
5
u
Xylene (ortho)
It9/
g
5
u
1,1-Dichloroethane
its/
g
5
u
1,1-Di chloroethene
its/
g
5
u
1,1,1 -T r i chIoroethane
H9/
g
5
u
1,1,2-Tri chloroethane
M9/
9
5
u
1,1,2,2-TetrachIoroethane
H9/
9
5
u
1,2-Dichloroethane
M9/
9
5
u
1,2-Dichloropropane
its/
9
5
u
2-Butanone
It9/
3
100
u
2-Hexanone
It9/
g
50
u
U-Methyl-2-pentanone
It9/
g
50
u
Location =AND: Formation = DISMAL GAP; Site=l; Samp id=2029; Dup id=' '; Phase=1
cis-1,2-Dichloroethene
it g/kg
5
u
cis-1,3-Dichloropropene
Mg/kg
5
u
trans-1,2-Dichloroethene
^g/kg
5
u
trans-1,3-Dichloropropene
ng/kg
5
u
Acetone
M9/kg
100
u
Benzene
Mg/kg
5
u
Bromodichloromethane
A9/kg
5
u
Bromoform
M9/kg
5
u
Bromomethane
Mg/kg
10
u
Carbon disulfide
Jtg/kg
5
u
Carbon tetrachloride
(ig/kg
5
u
Chlorobenzene
M9/kg
5
u
Chloroethane
-------�
B-10
Table B.1 (continued)
A A horizon
Analysis Units horizon Qualifier field dup Qualifier
,1-Dichloroetharte
Jtg/kg
5
U
,1-Dichloroethene
Mg/kg
5
U
,1,1-Trichloroethane
;ig/kg
5
U
,1,2-Trichloroethane
jtg/kg
5
U
,1,2,2-Tetrachloroethane
#ig/kg
5
U
,2-Dichloroethar>e
/tg/kg
5
u
,2-0ichloropropane
^g/kg
5
u
-Butanone
M/kg
100
u
-Hexanone
(ig/kg
50
u
-Methyl-2-pentanone
M/kg
50
u
Location =AND; Formation = DISMAL GAP; Site=10; Samp id=2028; Dup id=' '; Phase=1
cis-1,2-Dichloroethene
(ig/kg
5
U
cis-1,3-Dichloropropene
A g/kg
5
U
trans-1,2-Dichloroethene
(ig/kg
5
U
trans-1,3-Dichloropropene
(ig/kg
5
U
Acetone
(tg/kg
6
J
Benzene
(ig/kg
5
U
Bromodichloromethane
eg/kg
5
U
Bromoform
wg/kg
5
U
Bromomethane
Kg/kg
10
U
Carbon disulfide
Mg/kg
5
U
Carbon tetrachloride
M9/kg
5
U
ChIorobenzene
Mg/kg
5
u
Chloroethane
(ig/kg
10
u
Chloroform
(ig/kg
5
u
Chloromethane
(ig/kg
10
u
D i bromochIoromethane
v- g/kg
5
u
Ethyl benzene
(ig/kg
5
u
Methylene chloride
(ig/kg
5
u
Styrene
(ig/kg
5
u
Tetrachloroethene
(ig/kg
5
u
Toluene
(ig/kg
5
u
Trichloroethene
eg/kg
5
u
Vinyl chloride
dg/kg
10
u
Xylene (meta + para)
(ig/kg
5
u
Xylene (ortho)
(ig/kg
5
u
1,1-Dichloroethane
(ig/kg
5
u
1,1-Dichloroethene
K9/kg
5
u
", 1,1 -Trichloroethane
(ig/kg
5
u
1,1,2-Trichloroethane
M g/kg
5
u
1,1,2,2-Tetrachloroethane
Mg/kg
5
u
1,2-D i chIoroethane
Mg/kg
5
u
1,2-Dichloropropane
(ig/kg
5
u
2-Butanone
Mg/kg
100
u
2-Hexanone
(i g/kg
50
u
4-Hethy I - 2-pentanone
(ig/kg
50
u
Location —AND: Formanon = DISMAL GAP; Site=ll; Samp id=2111; Dup id=' '; Phase=1
cis-1,2-Dichloroethene
(ig/kg
5
U
ci s-1,3-D i chIoropropene
(ig/kg
5
U
trans-1,2-Dichloroethene
(ig/kg
5
U
trans-1,3-Dichloropropene
(ig/kg
5
U
Acetone
(t g/kg
5
J
Benzene
M g/kg
5
U
Sromodichloromethane
(ig/kg
5
U
Bromoform
eg/kg
5
U
Bromomethane
(ig/kg
10
u
Carbon disulfide
(tg/kg
5
u
Carbon tetrachloride
eg/kg
5
u
Chiorobenzene
Mg/kg
5
u
Chloroethane
Kg/kg
10
u
Chloroform
(ig/kg
5
u
Chloromethane
(ig/kg
10
u
DibromochIoromethane
^g/kg
5
u
Ethyl benzene
fig/kg
5
u
Methylene chloride
(ig/kg
5
u
Styrene
(tg/kg
5
-------�
Analysis
B-ll
Table B.l (continued)
A A bonzon
Units horizon Qualiiier field dup Qualifier
T etrachIoroethene
Mg/kg
5
U
T oIuene
ng/kg
5
U
Trichloroethene
* g/kg
5
U
Vinyl chloride
-------�
r*i ¦« -»
D-lj
Table B.l (continued)
A A horizon
Analysis Units horizon Qualifier field dup Qualifier
Bromoform
Jig/kg
5
U
Bromometnane
Jig/kg
10
U
Carbon disulfide
Jig/kg
5
u
Carbon tetrachloride
Jig/kg
5
u
Chlorobenzene
jig/kg
5
u
Chloroethane
Kg/kg
10
u
Chloroform
jig/kg
5
u
Chioromethane
jig/kg
10
u
Dibromochloromethane
M9/teg
5
u
Ethyl benzene
jig/kg
5
u
Methylene chloride
jig/kg
5
u
Styrene
jig/kg
5
u
T etrachIoroethene
jig/kg
5
u
Toluene
jig/kg
5
u
Trichloroethene
jig/kg
5
u
Vinyl chloride
jig/kg
10
u
Xylene (meta + para)
-------�
B-15
Table B.l (continued)
A A horizon
Analysis Units horizon Qualifier field dup Qualifier
1,2-Dichloropropane
M9/kg
5
U
2-Butanone
jig/kg
100
U
2-Hexanone
(tg/kg
50
U
4-MethyI-2-pentanone
(tg/kg
50
U
Locatiort=AND; Formation—DISMAL CAP; Site—5; Samp id=2034; Dup id —' Phase=1
cis-1,2-Dichloroethene
V-9/
g
5
U
cis-1,3-Dichloropropene
Jig/
g
5
U
trans-1,2-Dichloroethene
Ag/
9
5
U
trans-1,3-Dichloropropene
. M9/
g
5
U
Acetone
Mg/
9
8
J
Benzene
a g/
9
5
U
BromodichIoromethane
V- 9/
9
5
U
Bromoform
M 9/
9
5
U
Bromomethane
m g/
9
10
U
Carbon disulfide
Mg/
9
5
U
Carbon tetrachloride
n g/
9
5
U
Chlorobenzene
M9/
g
5
u
Chloroethane
A9/
g
10
u
Chloroform
V-9/
g
5
u
Chioromethane
V- 9/
g
10
u
D i bromochloromethane
A 9/
g
5
u
Ethyl benzene
A 9/
9
5
u
Methylene chloride
f-9/
9
5
u
Styrene
M9/
9
5
u
Tetrachloroethene
f-9/
9
5
u
Toluene
M9/
g
5
u
T richloroethene
A9/
9
5
u
Vinyl chloride
A9/
g
10
u
Xylene (meta * para)
U-9/
9
5
u
Xylene (ortho)
V-9/
9
5
u
1,1-Dichloroethane
H9/
9
5
u
1,1-Dichloroethene
/tg/
9
5
u
1,1,1-Trichloroethane
M9/
9
5
u
1,1,2-Trichloroethane
^g/
g
5
u
1,1,2,2-Tetrachloroethane
-------�
B-16
Table B.l (continued)
A A horizon
Analysis Units horizon Qualifier field dup Qualifier
1,1-0ichloroethane
(ig/kg
5
U
1,1-Dichloroethene
(tg/kg
5
U
1,1,1-Trichloroethane
(ig/kg
5
U
1,1,2-Trichloroethane
(ig/kg
5
U
1,1,2,2-Tetrachloroethane
(ig/kg
5
U
1,2-Dichloroethane
(ig/kg
5
U
1,2-D i ch Loropropane
(ig/kg
5
U
2-Butanone
«/kg
100
U
2-Hexanone
(ig/kg
50
U
4-Methyl-2-pentanone
(ig/kg
50
U
Location =ORR; Formmion^CHEPULTEPEC; Site=50; Samp id=1547- Dup id=' Phase=2
cis-1,2-Dichloroethene
eg/kg
5
U
cis-1,3-Dichloropropene
(ig/kg
5
U
trans-1,2-Dichloroethene
ng/kg
5
U
trans-1,3-Dichloropropene
(ig/kg
5
U
Acetone
M9/kg
100
U
Benzene
(tg/kg
5
U
BromodichIoromethane
(ig/kg
5
U
Bromoform
(ig/kg
5
u
Bromomethane
eg/kg
10
u
Carbon disulfide
fig/kg
5
u
Carbon tetrachloride
(ig/kg
5
u
Chlorobenzene
(ig/kg
5
u
Chloroethane
(ig/kg
10
u
Chloroform
(tg/kg
5
u
Chloromethane
(ig/kg
10
u
DibromochIoromethane
M9/kg
5
u
Ethyl benzene
(ig/kg
5
u
Methylene chloride
(ig/kg
5
u
Styrene
(ig/kg
5
u
Tetrachloroethene
Kg/kg
5
u
Toluene
(ig/kg
5
u
Trichloroethene
(ig/kg
5
u
Vinyl chloride
(ig/kg
10
u
Xylene (meta + para)
Kg/kg
5
u
Xylene (ortho)
fig/kg
5
u
1,1-Dichloroethane
pg/kg
5
u
1,1-Dichloroethene
Kg/kg
5
u
1,1,1-Trichloroethane
(ig/kg
5
u
1,1,2-Trichloroethane
dg/kg
5
u
1,1,2,2-Tetrachloroethane
ng/kg
5
u
1,2-Dichloroethane
^g/kg
5
u
1,2-Dichloropropane
(ig/kg
5
u
2-Butanone
(ig/kg
7
J
2-Hexanone
(ig/kg
50
u
4-Methyl-2-pentanone
Mg/kg
50
u
Location=ORR; Formarion=CHEPULTEPEC; Sue =52; Samp id—1550; Dup id=' Phase=2
cis-1,2-Dichloroethene
(ig/kg
5
U
cis-1,3-Dichloropropene
(tg/kg
5
u
trans-1,2-Dichloroethene
M9/kg
5
u
t rans-1,3-D i chIoropropene
eg/kg
5
u
Acetone
(ig/kg
7
J
Benzene
eg/kg
5
u
Bromodichloromethane
ug/kg
5
u
Bromoform
(ig/kg
5
u
Bromomethane
(ig/kg
10
u
Carbon disulfide
us/kg
5
u
Carbon tetrachloride
(ig/kg
5
u
Chlorobenzene
(ig/kg
5
u
Chloroethane
(ig/kg
10
u
Chloroform
(ig/kg
5
u
Chloromethane
Mg/kg
10
u
D i bromochIoromethane
(ig/kg
5
u
Ethyl benzene
(ig/kg
5
u
Methylene chloride
(ig/kg
5
u
Styrene
(ig/kg
5
-------�
B-17
Table B.l (continued)
A A horizon
Analysis Units honzon Qualifier field dup Qualifier
Tetrachloroethene
Mg/kg
5
U
Toluene
m g/kg
5
U
Trichloroethene
Kg/kg
5
U
Vinyl chloride
Mg/kg
10
U
Xylene (meta ~ para)
Mg/kg
5
U
Xylene (ortho)
M9/kg
5
u
1,1-Dichloroethane
M g/kg
5
u
1,1-D i chIoroethene
Mg/kg
5-
u
1,1,1-Trichloroethane
m g/kg
5
u
1,1,2-Trichloroethane
M9/kg
5
u
1,1,2,2-Tetrachloroethane
M9/kg
5
u
1,2-Dichloroethane
M g/kg
5
u
1,2-Dichloropropane
Mg/kg
5
u
2-Butanone
Mg/kg
5
J
2-Hexanone
M9/kg
50
u
4-Hethyl-2-pentanone
Mg/kg
50
u
Locahon=-ORR; Formumon—CHEPULTEPEC; Siie=53; Samp id=1552; Dup ui=' Phase=2
cis-1,2-DichIoroethene
Mg/kg
5
U
cis-1,3-Dichloropropene
Mg/kg
5
U
trans-1,2-Dichloroethene
Mg/kg
5
u
trans-1,3-Dichloropropene
Mg/kg
5
u
Acetone
Mg/kg
100
u
Benzene
Mg/kg
5
u
BromodichIoromethane
M9/kg
5
u
Bromoform
M9/kg
5
u
Bromomethane
Mg/kg
10
u
Carbon disulfide
M g/kg
5
u
Carbon tetrachloride
M g/kg
5
u
Chlorobenzene
Mg/kg
5
u
Chloroethane
Mg/kg
10
u
Chloroform
Mg/kg
5
u
Chloromethane
Mg/kg
10
u
DibromochIoromethane
Mg/kg
5
u
Ethyl benzene
M9/kg
5
u
Methylene chloride
Mg/kg
5
u
Styrene
Mg/kg
5
u
TetrachIoroethene
Mg/kg
5
u
Toluene
M9/kg
5
u
Tri chIoroethene
M9/kg
5
u
Vinyl chloride
Mg/kg
10
u
Xylene (meta + para)
M9/kg
5
u
Xylene (ortho)
M g/kg
5
u
1,1-Dichloroethane
Mg/kg
5
u
1,1-Dichloroethene
Mg/kg
5
u
1,1,1-Trichloroethane
m g/kg
5
u
1,1,2-Trichloroethane
M g/kg
5
u
1,1,2,2-Tetrachloroethane -
M g/kg
5
u
1,2-Dichloroethane
M g/kg
5
u
1,2-Dichloropropane
Mg/kg
5
u
2-Butanone
M9/kg
100
u
2-Hexanone
Mg/kg
50
u
4-Methyl-2-pentanone
M9/kg
50
u
Locarion=ORR; Formanon=CHEPULTEPEC; Siie—66; Samp id=1737; Dup id=' Phase=2
cis-1,2-DichIoroethene
Mg/kg
5
U
cis-1,3-Dichloropropene
M9/kg
5
U
trans-1,2-Dichloroethene
Mg/kg
5
U
trans-1,3-Dichloropropene
M9/kg
5
U
Acetone
Mg/kg
100
U
Benzene
Mg/kg
5
U
BromodichIoromethane
M9/kg
5
U
Bromoform
M9/kg
5
U
Bromomethane
M g/kg
10
U
Carbon disulfide
Mg/kg
5
U
Carbon tetrachloride
Mg/kg
5
U
Chlorobenzene.
Mg/kg
5
U
Chloroethane
Mg/kg
10
-------�
B-18
Tabic B.l (continued)
A A horizon
Analysis Units horizon Qualifier field dup Qualifier
Chloroform
n g/kg
5
U
Chloromethane
(tg/kg
10
U
D i bromochloromethane
^ g/kg
5
U
Ethyl benzene
v- g/kg
5
U
Methylene chloride
/ig/kg
5
U
Styrene
*ig/kg
5
U
Tetrachloroethene
^g/kg
5
U
Toluene
Mg/kg
5
U
Trichloroethene
v- g/kg
5
U
Vinyl chloride
-------�
B-19
Table B.l (cootiaued)
A A horizon
Analysis Units horizon Qualifier 5eld dup Qualifier
Bromoform
Ag/kg
5
U
Bromomethane
a g/kg
10
U
Carbon disulfide
Ag/kg
5
U
Carbon tetrachloride
Ag/kg
5
U
Chiorobenzene
Ag/kg
5
U
Chloroethane
a g/kg
10
U
Chloroform
Ag/kg
5
U
Chloromethane
(ig/kg
10
U
D1" bromoch I oromethane
Ag/kg
5
U
Ethyl benzene
A9/kg
5
U
Methylene chloride
A9/kg
5
u
Styrene
Ag/kg
5
u
TetrachIoroethene
Ag/kg
5
u
toluene
ng/kg
5
u
Trichloroethene
Ag/kg
5
u
Vinyl chloride
Ag/kg
10
u
Xylene (meta + para)
a g/kg
5
u
Xylene (ortho)
Ag/kg
5
u
1,1-Dichloroethane
Ag/kg
5
u
1,1-Dichloroethene
A9/kg
5
u
1,1,1-Trichloroethane
Ag/kg
5
u
1,1,2-Trichloroethane
Ag/kg
5
u
1,1,2,2-Tetrachloroethane
Ag/kg
5
u
1,2-Dichloroethane
Ag/kg
5
u
1,2-Dichloropropane
A9/kg
5
u
2-Butanone
a g/kg
100
u
2-Hexanone
Ag/kg
50
u
4-Methyl-2-pentanone
Ag/kg
50
u
Location =ORR: Formation=CHEPULTEPEC; Site=74; Samp id-1745; Dup id=' Phase=2
cis-1,2-Dichloroethene
A9/kg
5
U
cis-1,3-Dichloropropene
Ag/kg
5
U
trans-1,2-Dichloroethene
Ag/kg
5
u
trans-1,3-Dichloropropene
Ag/kg
5
u
Acetone
Ag/kg
5
J
Benzene
Ag/kg
5
u
Bromodichloromethane
Ag/kg
5
u
Bromoform
A9/kg
5
u
Bromomethane
A9/kg
10
u
Carbon disulfide
Ag/kg
5
u
Carbon tetrachloride
Ag/kg
5
u
ChIorobenzene
A9/kg
5
u
Chloroethane
Ag/kg
10
u
Chloroform
Ag/kg
5
u
Chloromethane
Ag/kg
10
u
Di bromochloromethane
Ag/kg
5
u
Ethyl benzene
A9/kg
5
u
Methylene chloride
Ag/kg
5
u
Styrene
Ag/kg
5
u
TetrachIoroethene
A9/kg
5
u
Toluene
A9/kg
5
u
Trichloroethene
Ag/kg
5
u
Vinyl chloride
Ag/kg
10
u
Xylene (meta + para)
Ag/kg
5
u
Xylene (ortho)
A9/kg
5
u
1,1-Dichloroethane
Ag/kg
5
u
1,1-DichIoroethene
A9/kg
5
u
1,1,1-Trichloroethane
Ag/kg
5
u
1,1,2-Trichloroethane
Ag/kg
5
u
1,1,2,2-Tetraehloroethane
Ag/kg
5
u
1,2-Dichloroethane
Ag/kg
5
u
1,2-D i chIoropropane
Ag/kg
5
u
2-Butanone
A9/kg
100
u
2-Hexanone
Ag/kg
50
u
A-Hethyl-2-pentanone
A9/kg
50
-------�
B-20
Tabic B.l (continued)
A A horizon
Analysis Units horizon Qualifier field dup Qualifier
Location=ORR; Formaiion=CHEPULTEPEC; Site=77; Samp id=1599; Dup id=' Phase=2
cis-1,2-Dichloroethene
(ig/kg
5
U
c i s-1,3-D i chIoropropene
(ig/kg
5
U
trans-1,2-Dichloroethene
m g/kg
5
U
t rans-1,3-D i chIoropropene
(ig/kg
5
U
Acetone
jig/kg
100
U
Benzene
*ig/kg
5
U
Bromodichloromethane
^g/kg
5
U
Bromoform
»ig/kg
5
U
Bromomethane
^g/kg
10
U
Carbon disulfide
/ig/kg
5
u
Carbon tetrachloride
jig/kg
5
u
Chlorobenzene
(ig/kg
5
u
Chloroethane
(i g/kg
10
u
Chloroform
Jig/kg
5
u
Chloromethane
(ig/kg
10
u
Dibromochloromethane
(ig/kg
5
u
Ethyl benzene
(ig/kg
5
u
Methylene chloride
Kg/kg
5
u
Styrene
fig/kg
5
u
TetrachIoroethene
Kg/kg
5
u
Toluene
(ig/kg
5
u
Trichloroethene
/ig/kg
5
u
Vinyl chloride
(tg/kg
10
u
Xylene (meta + para)
(ig/kg
5
u
Xylene (ortho)
A g/kg
5
u
1,1-D i chIoroethane
fig/kg
5
u
1,1-Dichloroethene
n-9/kg
5
u
1,1,1-Trichloroethane
*tg/kg
5
u
1,1,2-Trichloroethane
H9/kg
5
u
1,1,2,2-Tetrachloroethane
(ig/kg
5
u
1,2-Dichloroethane
(ig/kg
5
u
1,2-D i chIoropropane
fi g/kg
5
u
2-Butanone
(tg/kg
100
u
2-Hexanone
(i g/kg
50
u
4-Methyl-2-pentanone
(ig/kg
50
u
Location=ORR; Formanon—CHEPULTEPEC; Site = 78; Samp id =1601; Dup id=' Phase=2
cis-1,2-Dichloroethene
cg/kg
5
U
cis-1,3-DichIoropropene
(ig/kg
5
U
trans-1,2-Dichloroethene
M/kg
5
U
trans-1,3-Dichloropropene
(ig/kg
5
U
Acetone
(ig/kg
100
U
Benzene
(ig/kg
5
U
BromodichIoromethane
(ig/kg
5
U
Bromoform
(ig/kg
5
U
Bromomethane
(ig/kg
10
U
Carbon disulfide
(ig/kg
5
U
Carbon tetrachloride
(i g/kg
5
U
Chlorobenzene
(ig/kg
5
U
Chloroethane
(t g/kg
10
U
Chloroform
(ig/kg
5
u
Chioromethane
(ig/kg
10
u
D i bromochIoromethane
(ig/kg
5
u
Ethyl benzene
(ig/kg
5
u
Methylene chloride
(ig/kg
5
u
Styrene
(ig/kg
5
u
Tet rachIoroethene
(ig/kg
5
u
Toluene
(ig/kg
5
u
Trichloroethene
(ig/kg
5
u
Vinyl chloride
tig/kg
10
u
Xylene (meta + para)
(ig/kg
5
u
Xylene (ortho)
(i g/kg
5
u
1,1-Dichloroethane
(ig/kg
5
u
1,1-Dichloroethene
dg/kg
5
u
1,1,1-Tri chloroethane
(ig/kg
5
u
1,1,2-Trichloroethane
(ig/kg
5
u
1,1,2,2-Tetrachloroethane
dg/kg
5
u
1,2-D i chIoroethane
(ig/kg
5
-------�
B-21
Tabic B.1 (continued)
A A horizon
.Analysis Units horizon Qualifier field dup Qualifier
1,2-Dichloropropane
Kg/kg
5
U
2-Butanone
Kg/kg
100
U
2-Hexanone
k g/kg
50
U
4-Hethyl-2-pentanone
Kg/kg
50
U
Location =ORR; Formanon=CHEPULTEPEC; Sue =85; Samp id=1605; Dup ia = ' Phase=2
cis-1,2-Dichloroethene
K g/
9
5
U
cis-1,3-Dichloropropene
Kg/
9
5
U
trans-1,2-Dichloroethene
jig/
9
5
u
t rans-1,3-D i chIoropropene
Kg/
9
5
u
Acetone
H3/
9
8
J
Benzene
Kg/
9
5
u
BromodichIoromethane
Kg/
g
5
u
Bromoform
Kg/
9
5
u
Bromomethane
Kg/
9
10
u
Carbon disulfide
Kg/
g
5
u
Carbon tetrachloride
Kg/
g
5
u
Chlorobenzene
Kg/
g
5
u
Chloroethane
K9/
9
10
u
Chloroform
Kg/
9
5
¦J
Chloromethane
K9/
9
10
u
Dibromochloromethane
K9/
g
5
u
Ethyl benzene
K9/
9
5
u
Methylene chloride
Kg/
9
5
u
Styrene
Kg/
9
5
u
Tetrachloroethene
Kg/
9
5
u
Toluene
Kg/
9
5
u
Trichloroethene
Kg/
9
5
u
Vinyl chloride
Kg/
9
10
u
Xylene (meta + para)
K9/
g
5
u
Xylene (ortho)
K3/
g
5
u
1,1-Dichloroethane
K9/
9
5
u
1,1-D i ch1oroethene
Kg/
9
5
u
1,1,1 -Tri chIoroethane
Kg/
9
5
u
1,1,2-Trichloroethane
Kg/
9
5
u
1,1,2,2-TetrachIoroethane
Kg/
g
5
u
1,2-Dichloroethane
Kg/
9
5
u
1,2-Dichloropropane
Kg/
g
5
u
2-Butanone
K9/
g
100
u
2-Hexanone
Kg/
9
50
u
4-Hethyl-2-pentanone
K9/
9
50
u
Location —ORR; Formation—CHEPULIbPEC: Site—86; Samp id—1603; Dup id—' '; Phase~2
cis-1,2-Dichloroethene
Kg/kg
5
U
cis-1,3-Dichloropropene
Kg/kg
5
U
trans-1,2-Dichloroethene
Kg/kg
5
U
trans-1,3-Dichloropropene
Kg/kg
5
U
Acetone
Kg/kg
100
U
Benzene
Kg/kg
5
u
Bromodichloromethane
K9/kg
5
u
Bromoform
K9/kg
5
u
Bromomethane
Kg/kg
10
u
Carbon disulfide
Kg/kg
5
u
Carbon tetrachloride
Kg/kg
5
u
Chlorobenzene
K9/kg
5
u
Chloroethane
Kg/kg
10
u
Chloroform
K9/kg
5
u
Chloromethane
K9/kg
10
u
D i bromochIoromethane
K9/kg
5
u
Ethyl benzene
K9/kg
5
u
Methylene chloride
Kg/kg
5
u
Styrene
Kg/kg
5
u
TetrachIoroethene
K9/kg
5
u
Toluene
K9/kg
5
u
T ri chIoroethene
K9/kg
5
u
Vinyl chloride
Kg/kg
10
u
Xylene (meta * para)
Kg/kg
5
u
Xylene (ortho)
Kg/kg
5
-------�
B-22
Table B.1 (continued)
A A horizon
Analysis Units horizon Qualifier field dup Qualifier
1,1-Dichloroethane
/ig/kg
5
U
1,1-D i chIoroethene
v- g/kg
5
U
1,1,1 - T r i chIoroethane
(ig/kg
5
U
1,1,2-TrichIoroethane
Kg/kg
5
U
1,1,2,2-Tetrachloroethane
jig/kg
5
u
1,2-Dichloroethane
/ig/kg
5
u
1,2-Dichloropropane
/ig/kg
5
u
2-Butanone
/ig/kg
100
u
2-Hexanone
/ig/kg
50
u
- Methy I - 2 - pentanone
/ig/kg
50
u
Location =ORR; Formanon=CHEPULTEPEC; Site=90; Samp id—1748; Dup id=' Phase=2
cis-1,2-Dichloroethene
ml
g
5
U
cis-1,3-Dichloropropene
ml
g
5
U
trans-1,2-Dichloroethene
ml
g
5
U
trans-1,3-Dichloropropene
mi
g
5
U
Acetone
ml
g
6
J
Benzene
mi
g
5
U
BromodichIoromethane
mi
9
5
U
Bromoform
mi
9
5
U
Bromomethane
mi
9
10
U
Carbon disulfide
mi
9
5
u
Carbon tetrachloride
mi
9
5
u
Chlorobenzene
mi
9
5
u
Chioroethane
ml
9
10
u
Chloroform
mi
9
5
u
Chioromethane
ml
9
10
u
D i bromochIoromethane
mi
g
5
u
Ethyl benzene
ml
g
5
u
Methylene chloride
ml
g
5
u
Styrene
mi
g
5
u
TetrachIoroethene
mi
9
5
u
Toluene
mi
9
5
u
Trichloroethene
mi
9
5
u
Vinyl chloride
mi
9
10
u
Xylene (meta * para)
mi
9
5
u
Xylene (ortho)
mi
s
5
u
1,1-Dichloroethane
mi
9
5
u
1,1-Dichloroethene
mi
g
5
u
1,1,1-T rich Ioroethane
mi
9
5
u
1,1,2-Trichloroethane
ml
9
5
u
1,1,2,2-TetrachIoroethane
mi
9
5
u
1,2-Dichloroethane
mi
9
5
u
1,2-Dichloropropane
ml
g
5
u
2-Butanone
ml
g
100
u
2-Hexanone
ml
g
50
u
4-MethyI - 2- pentanone
mi
9
50
u
Location =ORR; Formation=CHlCKAMAUGA Bethel V; Site=100; Samp id—1905:
Dup id=' Phase—2
cis-1,2-Dichloroethene
jig/kg
5
U
cis-1,3-Dichloropropene
M/kg
5
U
trans-1,2-Dichloroethene
(ig/kg
5
U
trans-1,3-Dichloropropene
(ig/kg
5
U
Acetone
(ig/kg
7
J
Benzene
ng/kg
5
u
BromodichIoromethane
M/kg
5
u
Bromoform
dg/kg
5
u
Bromoniethane
ng/kg
10
u
Carbon disulfide
(ig/kg
5
u
Carbon tetrachloride
(ig/k9
5
u
Chlorobenzene
(tg/kg
5
u
Chioroethane
(ig/kg
10
u
Chloroform
M/kg
5
u
Chioromethane
(ig/kg
10
u
D ibromochIoromethane
ng/kg
5
u
Ethyl benzene
tig/kg
5
-------�
B-23
Tabic B.l (continued)
A A horizon
Analysis Units horizon Qualifier field dup Qualifier
Methylene chloride
Ag/kg
5
U
Styrene
Ag/kg
5
U
Tetrach (.oroethene
Ag/kg
5
U
Toluene
Ag/kg
5
U
Trichloroethene
a g/kg
5
U
Vinyl chloride
Ag/kg
10
U
Xylene (mete + para)
Ag/kg
5
u
Xylene (ortho)
Ag/kg
5
u
1,1 -D i chIoroethane
Ag/kg
5
u
1,1-Dichloroethene
Ag/kg
5
u
1,1,1-Trichloroethane
AS/kg
5
u
1,1,2-Trichloroethane
A9/kg
5
u
1,1,2,2-TetrachIoroethane
Ag/kg
5
u
1,2-DichIoroethane
Ag/kg
5
u
1,2-Dichloropropane
A9/kg
5
u
2-Butanone
eg/kg
100
u
2-Hexanone
Ag/kg
50
u
4-Methyl-2-pentanone
Ag/kg
50
u
Locanon=ORR: Formarion=CHICKAMAUCA Bethel V; Siie=J01; Samp id=I896:
Dup id =' Phase—2
cis-1, 2-0 i ch 1. oroethene
A9/kg
5
U
cis-1,3-Dichloropropene
Ag/kg
5
u
trans-1,2-0ichloroethene
eg/kg
5
u
trans-1,3-Dichloropropene
A9/kg
5
u
Acetone
A g/kg
11
J
Benzene
A g/kg
5
u
BromodichIororoethane
Atg/kg
5
u
Bromoform
eg/kg
5
u
Bromomethane
A9/kg
10
u
Carbon disulfide
Ag/kg
5
u
Carbon tetrachloride
Ag/kg
5
u
Chlorobenzene
Ag/kg
5
u
Chloroethane
Ag/kg
10
u
Chloroform
A9/kg
5
u
Chloromethane
Ag/kg
10
u
D i bromochloromethane
Ag/kg
5
u
Ethyl benzene
Ag/kg
5
u
Methylene chloride
A9/kg
5
u
Styrene
Ag/kg
5
u
TetrachIoroethene
Ag/kg
5
u
Toluene
A9/kg
5
u
Trichloroethene
A9/kg
5
u
Vinyl chloride
a g/kg
10
u
Xylene (meta + para)
Ag/kg
5
u
Xylene (ortho)
A9/kg
5
u
1,1-Dichloroethane
Ag/kg
5
u
1,1-DichIoroethene
Ag/kg
5
u
1,1,1-Trichloroethane
Ag/kg
5
u
1,1,2-Trichloroethane
A9/kg
5
u
1,1,2,2-Tetrachloroethane
Ag/kg
5
u
1,2-Dichloroethane
Ag/kg
5
u
1,2-D i chIoropropane
Ag/kg
5
u
2-Butanone
Ag/kg
100
u
2-Hexanone
Ag/kg
50
u
A-Methyl-2-pentanone
A9/kg
50
u
Locanon=ORR; Formanon-CHICKAMAUGA Bethel V; Site=J02; Samp id—1893:
Dup id=' ' Phase=2
cis-1,2-DichIoroethene
Ag/kg
5
U
cis-1,3-Dichloropropene
Ag/kg
5
U
trans-1,2-DichIoroethene
Ag/kg
5
U
trans-1,3-Dichloropropene
Ag/kg
5
U
Acetone
Ag/kg
9
J
Benzene
Ag/kg
5
U
BromodichIororoethane
A9/kg
5
U
Bromoform
Ag/kg
5
-------�
B-24
Table B.l (continued)
A A horizon
Analysis Units honzon Qualifier field dup Qualifier
Bromomethane
AS/kg
10
U
Carbon disulfide
as/leg
5
U
Carbon tetrachloride
;tg/kg
5
U
Chlorobenzene
eg/kg
5
U
Chloroethane
^g/kg
10
U
Chloroform
Mg/kg
5
U
Chloromethane
^g/kg
10
U
0 i bromochloromethane
eg/kg
5
U
Ethyl benzene
(ig/kg
5
U
Methylene chloride
M/kg
5
u
Styrene
Ag/kg
5
u
Tetrachloroethene
Mg/kg
5
u
Toluene
^g/kg
5
u
Trichloroethene
M9/kg
5
u
Vinyl chloride
Mg/kg
10
u
Xylene (meta * para)
Jig/kg
5
u
Xylene (ortho)
Mg/kg
5
u
1,1-Dichloroethane
<«g/kg
5
u
1,1-Dichloroethene
W/kg
5
u
1,1,1-Trichloroethane
eg/kg
5
u
1,1,2-Trichloroethane
^g/kg
5
u
1,1,2,2-Tetrachloroethane
M/kg
5
u
1,2-Dichloroethane
Mg/kg
5
u
1,2-Dichloropropane
M g/kg
5
u
2-Butanone
Mg/kg
100
'J
2-Hexanone
ml*9
50
u
-Methyl-2-pent anone
Mg/kg
50
u
Location=ORJR; Formmion=CHICKAMAUGA Bethel V; Site-103; Samp id=1890;
Dup id=' Phase=2
cis-1,2-Dichloroethene
ml
g
5
U
cis-1,3-Dichloropropene
ml
g
5
U
trans-1,2-Dichloroethene
ml
g
5
U
trans-1,3-Dichloropropene
M9/
g
5
U
Acetone
ml
g
11
J
Benzene
m g/
g
5
u
Bromodichloromethane
m g/
g
5
u
Bromoform
ml
g
5
u
Bromomethane
ml
g
10
u
Carbon disulfide
m g/
g
5
u
Carbon tetrachloride
v- g/
g
5
u
Chlorobenzene
ml
g
5
u
Chloroethane
ml
g
10
u
Chloroform
ml
g
5
u
Chloromethane
ml
g
10
u
D i bromochIoromethane
m g/
g
5
u
Ethyl benzene
ml
9
5
u
Methylene chloride
ml
g
5
u
Styrene
ml
g
5
u
Tetrachloroethene
ml
g
5
u
Toluene
9/
9
5
u
Trichloroethene
H 9/
g
5
u
Vinyl chloride
li 9/
g
10
u
Xylene (meta + para)
M 9/
g
5
u
Xylene (ortho)
ml
g
5
u
1,1-Dichloroethane
m/
g
5
u
1,1-Dichloroethene
ml
9
5
u
1,1,1-Trichloroethane
ml
9
5
u
1,1,2-Trichloroethane
ml
g
5
u
1,1,2,2-Tetrachloroethane
ml
9
5
u
1,2-Dichloroethane
ml
g
5
u
1,2-Dichloropropane
H 9/
g
5
u
2-Butanone
ml
g
100
u
2-Hexanone
ml
g
50
u
4-MethyI- 2-pentanone
ml
g
50
-------�
B-25
Table B.l (continued)
A A horizon
Analysis Units horizon Qualifier field dup Qualifier
Locarion=ORR; Formadon—CHICKAMAUGA Bethel V; Site-=104; Samp id=1963;
Dup id=' Phase=2
cis-1,2-Dichloroethene
tf3/kg
5
U
cis-1,3-Dichloroprooene
fig/kg
5
U
trans-1,2-Dichloroethene
M9/kg
5
U
trans-1,3-Dichloropropene
eg/kg
5
U
Acetone
Ag/kg
100
U
Benzene
*g/kg
5
u
BromodichIoromethane
-------�
B-29
Tabic B.l (continued)
A A horizon
Analysis Units horizon Qualifier field dup Qualifier
Locaxion=ORR: Formation=CH1CKAMAUGA Bethel V; She=99; Samp id=1902;
Dup id = ' Phase=2
cis-1,2-Dichloroethene
M 9/
9
5
U
cis-1,3-Dichloropropene
A9/
9
5
U
trans-1,2-Dichloroethene
^9/
9
5
U
trans-1,3-Dichloropropene
U-9/
9
5
U
Acetone
M 9/
9
5
J
Benzene
H 9/
9
5
U
BromodichIoromethane
H 9/
9
5
U
Bromoform
eg/
9
5
U
Bromomethane
M9/
9
10
U
Carbon disulfide
M9/
9
5
U
Carbon tetrachloride
*9/
9
5
U
Chlorobenzene
A 9/
9
5
U
Chloroethane
M9/
9
10
U
Chloroform
H9/
9
5
U
Chioromethane
(19/
9
10
U
DibromochIoromethane
M9/
9
5
U
Ethyl benzene
A 9/
9
5
U
Methylene chloride
f-9/
9
5
u
Styrene
f-9/
9
3
IJ
Tetrachloroethene
H9/
9
5
u
Toluene
A9/
9
5
u
Trichloroethene
M9/
9
5
u
Vinyl chloride
M9/
9
10
u
Xylene (meta + para)
M9/
9
5
u
Xylene (ortho)
>19/
9
5
u
1,1-Dichloroethane
A9/
9
5
u
1,1-Di chloroethene
C9/
9
5
u
1,1,1-Trichloroethane
M9/
9
5
u
1,1,2-Trichloroethane
M9/
9
5
u
1,1,2,2-Tetrachloroethane
M9/
9
5
u
1,2-Dichloroethane
<19/
9
5
u
1,2-Dichloropropane
A9/
9
5
u
2-Butanone
M9/
9
5
J
2-Hexanone
M9/
9
50
u
4-Methyl-2-pentanone
M9/
9
50
u
Locanon=ORR; Formaiion=CHlCKAMAUGA K-25: Site=118; Samp id=4094; Dup id = ' '; Phase=2
cis-1,2-Oichloroethene
(ig/kg
5
U
cis-1,3-Dichloropropene
d9/kg
5
'J
trans-1,2-Dichloroethene
wg/kg
5
U
trans-1,3-Dichtoropropene •
m g/kg
5
U
Acetone
eg/kg
100
U
Benzene
M9/kg
5
U
BromodichIoromethane
dg/kg
5
U
Bromoform
(ig/kg
5
U
Bromomethane
(ig/kg
10
U
Carbon disulfide
(ig/kg
5
U
Carbon tetrachloride
(ig/kg
5
U
Chlorobenzene
(ig/kg
5
u
Chloroethane
A9/kg
1 Q
¦J
Chloroform
(ig/kg
5
u
Chioromethane
jig/kg
10
u
D i bromochIoromethane
(ig/kg
5
u
Ethyl benzene
^9/kg
5
u
Methylene chloride
^9/kg
5
u
Styrene
(ig/kg
5
u
Tetrachloroethene
(ig/kg
5
u
Toluene
eg/kg
5
u
Trichloroethene
(ig/kg
5
u
Vinyl chloride
m 9/kg
10
u
Xylene (meta + para)
M9/kg
5
u
Xylene (ortho)
(ig/kg
5
u
1,1-Dichloroethane
M 9/kg
5
u
1,1 -D ichloroethene
(ig/kg
5
u
1,1,1-Trichloroethane
Jig/kg
5
u
1,1,2-Tri chloroethane
vg/kg
5
-------�
B-30
Table B.1 (continued)
A A horizon
Analysis Units horizon Qualifier field dup Qualifier
1,1,2,2-Tetrachloroethane
(tg/kg
5
U
1,2-Dichloroethane
/ig/kg
5
U
1,2-Dichloropropane
M9/kg
5
u
2-Butanone
MS/kg
100
u
2-Hexanone
mlkg
50
u
4-Methyl-2-pentanone
-------�
B-31
Table 8.1 (continued)
A A horizon
Analysis Units honzon Qualifier field dap Qualifier
Xylene (meta ~ para)
m g/kg
5
U
Xylene (ortho)
(ig/kg
5
U
1,1-Dichloroethane
(tg/kg
5
u
1,1-D i chIoroethene
(ig/kg
5
u
1,1,1-Trichloroethane
(ig/kg
5
u
1,1,2-Trichloroethane
(ig/kg
5
u
1,1,2,2-Tetrachloroethane
(ig/kg
5
u
1,2-Dichloroethane
n g/kg
5
u
1,2-Dichloroproparte
(ig/kg
5
u
2-Butanone
(ig/kg
100
u
2-Hexanone
fig/kg
50
u
4-Methyl-2-pentanone
(ig/kg
50
u
Location =ORR; Formation=CHICKAMAUGA K-25; Site=121; Samp id=4128: Dup id=' Phase=2
cis-1,2-Dichloroethene
Atg/kg
5
U
ci s-1,3-Dichloropropene
(ig/kg
5
U
trans-1,2-Dichloroethene
(ig/kg
5
U
trans-1,3-Dichloropropene
(ig/kg
5
U
Acetone
V- g/kg
100
u
Benzene
(ig/kg
5
u
BromodichIoromethane
(ig/kg
5
u
Bromoform
(ig/kg
5
u
Bromomethane
(ig/kg
10
u
Carbon disulfide
(i g/kg
5
u
Carbon tetrachloride
(ig/kg
5
u
ChIorobenzene
(ig/kg
5
u
Chloroethane
(ig/kg
10
u
Chloroform
(ig/kg
5
u
Chloromethane
(ig/kg
10
u
D i bromochIoromethane
(ig/kg
5
u
Ethyl benzene
M 9/kg
5
u
Methylene chloride
(ig/kg
5
u
Styrene
d g/kg
5
u
T etrachIoroethene
(ig/kg
5
u
Toluene
(ig/kg
5
u
T r i chIoroethene
(ig/kg
5
u
Vinyl chloride
(ig/kg
10
u
Xylene (meta + para)
(ig/kg
5
u
Xylene (ortho)
(ig/kg
5
u
1,1-Dichloroethane
d g/kg
5
u
1,1-DichIoroethene
(ig/kg
5
u
1,1,1-Trichloroethane
((g/kg
5
u
1,1,2-Trichloroethane
fig/kg
5 '
u
1,1,2,2-Tetrachloroethane
(ig/kg
5
u
1,2-Dichloroethane
(ig/kg
5
u
1,2-Dichloropropane
(ig/kg
5
u
2-Butar»one
M9/kg
6
J
2-Hexanone
M g/kg
50
u
4-MethyI-2-pentanone
fig/kg
50
u
Locarion=ORR: Formaiion-CHICKAMAUGA K-25; Siie = 122; Samp id=4104: Dud id = ' Phase=2
cis-1,2-Dichloroethene
(ig/kg
5
U
cis-1,3-Dichloropropene
/ig/kg
5
u
trans-1,2-Dichloroethene
(tg/kg
5
u
trans-1,3-Dichloropropene
-------�
B-32
Tabte B.1 (continued)
A A horizon
Analysis Units horizon Qualifier field dup Qualifier
Methylene chloride
eg/kg
5
U
Styrene
(ig/kg
5
u
TetrachIoroethene
(tg/kg
5
u
Toluene
(tg/kg
5
u
Trichloroethene
eg/kg
5
u
Vinyl chloride
Kg/kg
10
u
Xylene (meta + para)
fig/kg
5
u
Xylene (ortho)
(tg/kg
5
u
1,1-Dichloroethane
(t 3/kg
5
u
1,1-Dichloroethene
(t g/kg
5
u
1,1,1-Trichloroethane
(tg/kg
5
u
1,1,2-Trichloroethane
(tg/kg
5
u
1,1,2,2-Tetrachloroethane
(tg/kg
5
u
1,2-Dichloroethane
(tg/kg
5
u
1,2-Dichloropropar>e
(tg/kg
5
u
2-Butanone
(tg/kg
98
u
2-Hexanone
(tg/kg
49
u
4-MethyI-2-pentanone
(tg/kg
49
u
Locanon=ORR; Formaxion—CHICKAMAUCA K-25; Site—123; Samp id—4130; Dup id=' Phase—2
cis-1,2-Dichloroethene
(tg/kg
5
U
cis-1,3-Dichloropropene
Kg/kg
5
U
trans-1,2-Dichloroethene
(tg/kg
5
U
trans-1,3-Dichloropropene
(tg/kg
5
U
Acetone
(tg/kg
19
J
Benzene
M/kg
5
u
B romodi chIoromethane
(tg/kg
5
u
Bromofortn
(tg/kg
5
u
Bromomethane
(tg/kg
10
u
Carbon disulfide
(tg/kg
5
u
Carbon tetrachloride
(tg/kg
5
u
ChIorobenzene
*g/kg
5
u
Chloroethane
(tg/kg
10
u
Chloroform
(tg/kg
5
u
Chloromethane
(tg/kg
10
u
D ibromochIoromethane
(tg/kg
5
u
Ethyl benzene
(tg/kg
5
u
Methylene chloride
(tg/kg
5
u
Styrene
(tg/kg
5
u
T etrachIoroethene
(tg/kg
5
u
Toluene
(tg/kg
5
u
T rich Ioroethene
(tg/kg
5
u
Vinyl chloride
(tg/kg
10
u
Xylene (meta ~ para)
(tg/kg
5
u
Xylene (ortho)
(tg/kg
5
u
1,1-D i chIoroethane
(tg/kg
5
u
1,1-Dichloroethene
eg/kg
5
u
1,1,1-TrichIoroethane
(tg/kg
5
u
1,1,2-Trichloroethane
(tg/kg
5
u
1,1,2,2-Tetrachloroethane
(tg/kg
5
u
1,2-Dichloroethane
(tg/kg
5
u
1,2-Dichloropropane
(tg/kg
5
u
2-Butanone
A9/kg
100
u
2-Hexanone
(tg/kg
50
u
4-Methyl-2-pentanone
(tg/kg
50
u
Location=ORR; Formanon=CHIC KAMA UGA K-25; Site —124; Samp id=4114; Dup id — ' Phase=2
cis-1,2-tichloroethene
(tg/kg
5
U
cis-1,3-D i chloropropene
(tg/kg
5
U
trans-1,2-Dichloroethene
(tg/kg
5
u
trans-1,3-Dichloropropene
(tg/kg
5
u
Acetone
(tg/kg
98
u
Benzene
(tg/kg
5
u
Brotnodi ch I oromethane
#ig/kg
5
u
Bromoform
(t9/kg
5
u
Bromomethane
(tg/kg
10
u
Carbon disulfide
»tg/kg
5
u
Carbon tetrachloride
(tg/kg
5
-------�
B-33
Tabic B.1 (continued)
A A horizon
Analysis Units horizon Qualifier field dup Qualifier
Chlorobenzene
(ig/kg
5
U
Chloroethane
(ig/kg
10
U
Chloroform
(ig/kg
5
U
Chioromethane
Mg/kg
10
U
D i bromochIoromethane
Mg/kg
5
U
Ethyl benzene
(ig/kg
5
U
Methylene chloride
Kg/kg
5
U
Styrene
(ig/kg
5
U
Tetrachloroethene
/ig/kg
5
U
Toluene
(ig/kg
5
U
Trichloroethene
(ig/kg
5
U
Vinyl chloride
(ig/kg
10
U
Xylene (meta + para)
*g/kg
5
U
Xylene (ortho)
/ig/kg
5
U
1,1-Dichloroethane
ng/kg
5
U
1,1-Oichloroethene
(ig/kg
5
U
1,1,1-Trichloroethane
(ig/kg
5
U
1,1,2-Trichloroethane
(ig/kg
5
U
1,1,2,2-Tetrachloroethane
(i9/kg
5
U
1,2-Dichloroethane
(ig/kg
5
U
1,2-Dichtoropropene
(ig/kg
5
U
2-Butanorve
(ig/kg
98
U
2-Hexanone
Mg/kg
49
u
4-Methyl-2-pentanone
(ig/kg
49
u
Locanon=OKR; Formanon=CHICKAMAUGA K-25; Site—125; Samp id =4132; Dup id = ' Phase=2
cis-1,2-Dichloroethene
Jig/kg
5
U
cis-1,3-Dichloropropene
(ig/kg
5
U
trans-1,2-Dichloroethene
/ig/kg
5
U
trans-1,3-Dichloropropene
(ig/kg
5
U
Acetone
(tg/kg
12
J
Benzene
(tg/kg
5
U
BromodichIoromethane
(ig/kg
5
U
Bromoform
*3/kg
5
U
Bromome thane
(ig/kg
10
U
Carbon disulfide
Kg/kg
S
U
Carbon tetrachloride
Kg/kg
5
u
Chlorobenzene
(ig/kg
5
u
Chloroethane
M9/kg
10
u
Chloroform
(ig/kg
5
u
Chloromethane
(ig/kg
10
u
DibromochIoromethane
(i g/kg
5
u
Ethyl benzene
(ig/kg
5
u
Methylene chloride
/ig/kg
5
u
Styrene
/ig/kg
5
u
T etrachIoroethene
(tg/kg
5
u
Toluene
(ig/kg
5
u
Trichloroethene
M9/kg
5
u
Vinyl chloride
(ig/kg
10
u
Xylene (meta * para}
/ig/kg
5
u
Xylene (ortho)
/ig/kg
5
u
1,1-Di chloroethane
/tg/kg
5
u
1,1-Dichloroethene
^g/kg
5
u
1,1,1-Trichloroethane
(tg/kg
5
u
1,1,2-T r i chIoroethane
/tg/kg
5
u
1,1,2,2-Tetrachloroethane
(tg/kg
5
u
1,2-Dichloroethane
/tg/kg
5
u
1,2-Dichloropropane
(tg/kg
5
u
2-Butanone
(t g/kg
100
u
2-Hexanone
Mg/kg
50
u
4-Methyl-2-pentanone
(ig/kg
50
u
Locaxion=ORR; Formanon-CH1CKAMAVGA K-25; Site=126; Samp id=4088: Dup id=' Phase=2
cis-1,2-Dichloroethene (ig/kg 5 U
cis-1,3-Dichloropropene (tg/kg 5 U
trans-1,2-Dichloroethene (ig/kg 5 u
trans-1,3-Dichloropropene M9/kg 5 u
-------�
B-34
Table B.1 (continued)
A A horizon
Analysis Units horizon Qualifier field dup Qualifier
Benzene
(ig/kg
5
U
Bromoaichloromethane
a g/kg
5
U
Bromoform
(ig/kg
5
U
Bromomethane
g/kg
10
U
Carbon disulfide
m g/kg
5
U
Carbon tetrachloride
(ig/kg
5
U
Chlorobenzene
(ig/kg
5
U
Chloroethane
(ig/kg
10
U
Chloroform
(ig/kg
5
U
Chloromethane
dg/kg
10
U
DibromochIorome thane
(ig/^g
5
U
Ethyl benzene
(ig/kg
5
U
Methylene chloride
(ig/kg
5
u
Styrene
(ig/kg
5
u
T etrachIoroethene
(ig/kg
5
u
Toluene
(ig/kg
5
u
TrichIoroethene
(ig/kg
5
u
Vinyl chloride
(ig/kg
10
u
Xylene (meta + para)
(ig/kg
5
u
Xylene (ortho)
(ig/kg
5
u
1,1-Dichloroethane
(ig/kg
5
u
1,1-Dichloroethene
(ig/kg
5
u
1,1,1-Trichloroethane
(ig/kg
5
u
1,1,2-Trichloroethane
(ig/kg
5
u
1,1,2,2-Tetrachloroethane
(ig/kg
5
u
1,2-Dichloroethane
(ig/kg
5
u
1,2 -D i chIoropropane
(ig/kg
5
u
2-Butanone
Jig/kg
100
u
2-Hexanone
(ig/kg
50
u
k-MethyI - 2-pentanone
(ig/kg
50
u
Location=ORR; Formation=CHICKAMAUGA K-25; Site=127; Samp id=4134; Dup id=' Phase=2
cis-1,2-Dichtoroethene
Mg/kg
5
U
cis-1,3-Dichloropropene
(ig/kg
5
u
trans-1,2-DichIoroethene
(ig/kg
5
U
trans-1,3-Dichloropropene
ug/kg
5
U
Acetone
/ig/kg
100
U
Benzene
Jig/kg
5
u
Bromodichloromethane
(ig/kg
5
u
Bromoform
Kg/kg
5
u
Bromomethane
fig/kg
10
u
Carbon disulfide
-------�
B-35
Table B.l (continued) '
A A horizon
Analysis Units horizon Qualifier field dup Qualifier
Location=ORR; Formanon=CHICKAMAUGA K-25; Sue=128; Samp id=4136; Dup id=' Phase =2
cis-1,2-Dichloroethene
Ag/kg
5
U
cis-1,3-Dichloropropene
Ag/kg
5
U
trans-1,2-Dichloroethene
Ag/kg
5
U
trans-1,3-Dichtoropropene
A9/kg
5
U
Acetone
Ag/kg
5
J
Benzene
Ag/kg
5
U
BromodichIoromethane
Ag/kg
5
U
Bromoform
Ag/kg
5
U
Bromomethane
A9/kg
10
U
Carbon disulfide
A9/kg
5
u
Carbon tetrachloride
Ag/kg
5
u
Chlorobenzene
Ag/kg
5
u
Chloroethane
Ag/kg
10
u
Chloroform
Ag/kg
5
u
Chioromethane
Ag/kg
10
u
D i bromochIoromethane
Ag/kg
5
u
Ethyl benzene
Ag/kg
5
u
Methylene chloride
a g/kg
5
u
Styrene
A9/kg
5
u
TetrachIoroethene
Ag/kg
5
u
Toluene
Ag/kg
5
u
Tri chIoroethene
(ig/kg
5
u
Vinyl chloride
A9/kg
10
u
Xylene (meta + para)
A g/kg
5
u
Xylene (ortho)
Ag/kg
5
u
1,1 - Dichloroethane
A9/kg
5
u
1,1-Dichloroethene
A9/kg
5
u
1,1,1-Trichloroethane
Ag/kg
5
u
1,1,2-Trichloroethane
Ag/kg
5
u
1,1,2,2-Tetrachloroethane
Ag/kg
5
u
1,2-Dichloroethane
Ag/kg
5
u
1,2-Dichloropropane
Ag/kg
5
u
2-Butanone
Ag/kg
7
J
2-Hexar>one
Ag/kg
51
u
4-Methyl-2-pentanone
Ag/kg
51
u
Locanon=ORR; Formation = CHICKAMAUGA K-25; Site=129; Samp id=4085: Dup id =' '• Phase—2
cis-1,2-Dichloroethene
Ag/kg
5
U
cis-1,3-Dichloropropene
Ag/kg
5
U
trans-1,2-Dichloroethene
Ag/kg
5
U
trans-1,3-Di chloropropene
A9/kg
5
U
Acetone
Ag/kg
100
U
Benzene
Ag/kg
5
U
Bromodi chIoromethane
Ag/kg
5
U
Bromoform
Ag/kg
5
U
Bromomethane
Ag/kg
10
U
Carbon disulfide
Ag/kg
5
U
Carbon tetrachloride
Ag/kg
5
U
Chlorobenzene
Ag/kg
5
U
Chloroethane
Ag/kg
10
u
Chloroform
Ag/kg
5
u
Chloromethane
Ag/kg
10
u
Dibromochloromethane
A9/kg
5
u
Ethyl benzene
Ag/kg
5
u
Methylene chloride
Ag/kg
5
u
Styrene
Ag/kg
5
'J
TetrachIoroethene
Ag/kg
5
u
Toluene
A9/kg
5
u
Trichloroethene
A9/kg
5
u
Vinyl chloride
Ag/kg
10
u
Xylene (meta + para)
A9/kg
5
u
Xylene (ortho)
Ag/kg
5
u
1,1-Dichloroethane
A9/kg
5
u
1,1-Dichloroethene
Ag/kg
5
u
1,1,1-Trichloroethane
Ag/kg
5
u
1,1,2-Trichloroethane
Ag/kg
5
u
1,1,2,2-Tetrachloroethane
Ag/kg
5
u
1,2-Dichloroethane
A9/kg
5
-------�
B-36
Table B.l (continued)
A A honzon
Analysis Units horizon Qualifier field dup Qualifier
1,2-Dichloropropane
H9/kg
5
II
2-Butanone
Ag/kg
5
BJ
2-Hexanone
Ag/kg
50
U
4-Methyl-2-pentanone
*ig/kg
50
u
Location=ORR; Formation=COPPER RIDGE; Site=45; Samp id=1543; Dup id=' Phase=2
cis-1,2-Dichloroethene
fig/kg
5
U
cis-1,3-Dichloropropene
Mg/kg
5
U
trans-1,2-Dichloroethene
/ig/kg
5
U
trans-1,3-Dichloropropene
jig/kg
5
U
Acetone
<*g/kg
100
U
Benzene
Mg/kg
5
U
BromodichIoromethane
M9/kg
5
U
Bromoform
M9/kg
5
U
Bromomethane
m g/kg
10
u
Carbon disulfide
M/kg
5
u
Carbon tetrachloride
^g/kg
5
u
Chlorobenzene
Mg/kg
5
u
Chloroethane
Mg/kg
10
u
Chloroform
M9/kg
5
u
Chloromethane
A 9/kg
10
u
D i bromochloromethane
M9/kg
5
u
Ethyl benzene
M9/kg
5
u
Methylene chloride
Kg/kg
5
u
Styrene
Jig/kg
5
u
T et rachIoroethene
(ig/kg
5
u
Toluene
Mg/kg
5
u
T rich Ioroethene
m g/kg
5
u
Vinyl chloride
Mg/kg
10
u
Xylene (meta + para)
fig/kg
5
u
Xylene (ortho)
Mg/kg
5
u
1,1-D i chIoroethane
A 9/kg
5
u
1,1-DichIoroethene
Mg/kg
5
u
1,1,1 - Trich Ioroethane
K9/kg
5
u
1,1,2-Trichloroethane
M9/kg
5
u
1,1,2,2-TetrachIoroethane
-------�
B-38
Table B.1 (continued)
A A horizon
Analysis Units horizon Qualifier field dup Qualifier
Tetrachloroethene
*ig/kg
5
U
Toluene
jig/kg
5
U
Trichloroethene
v- g/kg
5
U
Vinyl chloride
jig/kg
10
U
Xylene (meta + para)
-------�
B-39
Table B.l (continued)
A A horizon
Analysis Units horizon Qualifier field dup Qualifier
Chloroform
^g/kg
5
U
Chloromethane
eg/kg
10
u
D i bromochIoromethane
Ms/kg
5
u
Ethyl benzene
Mg/kg
5
u
Methylene chloride
^g/kg
5
u
Styrene
^g/kg
5
u
Tetrachloroethene
^g/kg
5
u
Toluene
v- g/kg
5
u
T richloroethene
^g/kg
5
u
Vinyl chloride
^g/kg
10
u
Xylene (meta ~ para)
^g/kg
5
u
Xylene (ortho)
a g/kg
5
u
1,1-Oichloroethane
Mg/kg
5
u
1,1-Dichloroethene
Mg/kg
5
u
1,1,1-Trichloroethane
ng/kg
5
u
1,1,2-Trichloroethane
-------�
B-40
Table B.l (continued)
A A horizon
Analysis Units horizon Qualifier field dup Qualifier
Bromoform
Ag/kg
5
U
Bromomethane
»ig/kg
10
U
Carbon disulfide
Mg/kg
5
U
Carbon tetrachloride
Mg/kg
5
U
Chlorobenzene
ng/kg
5
U
Chloroethane
fig/kg
10
U
Chloroform
M/kg
5
U
Chloromethane
Kg/kg
10
U
DibromochIoromethane
n g/kg
5
U
Ethyl benzene
ftg/kg
5
U
Methylene chloride
M9/kg
5
U
Styrene
*ig/kg
5
U
Tetrachloroethene
Mg/kg
5
U
Toluene
(ig/kg
5
U
Trichloroethene
n- g/kg
5
U
Vinyl chloride
M3/kg
10
U
Xylene (meta + para)
A9/kg
5
U
Xylene (ortho)
Mg/kg
5
u
1,1-Dichloroethane
ml kg
¦:
u
1,1-Dichloroethene
^g/kg
5
u
1,1,1-Trichloroethane
^g/kg
5
u
1,1,2-Trichloroethane
Mg/kg
5
u
1,1,2,2-Tetrachloroethane
(ig/kg
5
u
1,2-D i chIoroethane
Mg/kg
5
u
1,2-Dichloropropane
-------�
B-41
Table B.1 (cootinucd)
A A honzon
Analysis Units honzon Qualifier field dup Qualifier
Location=ORR; Formanon=COPPER RIDGE; Siie = 75; Samp id-]476; Dup ia = ' Phase—2
cis-1,2-Di chloroethene
a g/kg
5
U
c i s-1,3-D ichloropropene
Ag/kg
5
U
trans-1,2-Dichloroethene
Ag/kg
5
U
trans-1,3-Dichloropropene
Ag/kg
5
U
Acetone
Ag/kg
100
u
Benzene
AS/kg
5
u
Bromodi ch I orcxnethane
Ag/kg
5
u
Bromoform
Ag/kg
5
u
Bromonethane
ng/kg
10
u
Carbon disulfide
Ag/kg
5
u
Carbon tetrachloride
Ag/kg
5
u
Chlorobenzene
Ag/kg
5
u
Chloroethane
a g/kg
10
u
Chloroform
Ag/kg
5
u
Chloromethane
Ag/kg
10
u
D i bromochIoromethane
Ag/kg
5
u
Ethyl benzene
Ag/kg
5
u
Methylene chloride
A9/kg
5
u
Styrene
eg/kg
5
u
Tetrachloroethene
Ag/kg
5
u
Toluene
Ag/kg
5
'J
Trichloroethene
Ag/kg
5
u
Vinyl chloride
Mg/kg
10
u
Xylene (meta + para)
Ag/kg
5
u
Xylene (ortho)
A9/kg
5
u
1,1-D i chIoroethane
A9/kg
5
u
1,1-D ichloroethene
Ag/kg
5
u
1,1,1-Trichloroethane
A9/kg
5
u
1,1,2-Trichloroethane
Ag/kg
5
u
1,1,2,2-TetrachIoroethane
Ag/kg
5
u
1,2-DichIoroethane
A9/kg
5
u
1,2-Dichloropropane
Ag/kg
5
u
2-Butanone
Ag/kg
100
u
2-Hexanone
Ag/kg
50
u
4-Hethyl-2-pentanone
a g/kg
50
u
Locarion=ORR; Formarion=COPPER RIDGE; Siie=83; Samp iu=1473; Dup id = ' Phase=2
cis-1,2-Dichloroethene
Ag/kg
5
U
cis-1,3-Dichloropropene
ng/kg
5
U
trans-1,2-Dichloroethene
(ig/kg
5
u
trans-1,3-Dichloropropene
(ig/kg
5
u
Acetone
(ig/kg
100
u
Benzene
(ig/kg
5
u
Bromodichloromethane
(ig/kg
5
u
Bromoform
(ig/kg
5
u
Bromomethane
(ig/kg
10
u
Carbon disulfide
(ig/kg
5
u
Carbon tetrachloride
Ag/kg
5
u
Chlorobenzene
(ig/kg
5
u
Chloroethane
(ig/kg
10
u
Chloroform
Ag/kg
5
u
Chloromethane
(ig/kg
10
u
Dibromochloromethane
(ig/kg
5
u
Ethyl benzene
Ag/kg
5
u
Methylene chloride
Ag/kg
5
u
Styrene
Ag/kg
5
u
T etrachloroethene
Ag/kg
5
u
Toluene
A9/kg
5
u
Trichloroethene
Ag/kg
5
u
Vinyl chloride
Ag/kg
10
u
Xylene (meta ~ para)
Ag/kg
5
u
Xylene (ortho)
Ag/kg
5
u
1,1-Dichloroethane
Ag/kg
5
u
1,1-Di chloroethene
Ag/kg
5
'J
1,1,1-Trichloroethane
Ag/kg
5
u
1,1,2-Trichloroethane
Ag/kg
5
u
1,1,2,2-TetrachIoroethane
A9/kg
5
u
1,2-Dichloroethane
Ag/kg
5
-------�
B-42
Tabic B.l (continued)
A A horizon
Analysis Units horizon Qualifier field dup Qualifier
1,2-Dichloropropane
(ig/kg
5
U
2-Butanone
(t g/kg
100
U
2-Hexanone
(i g/kg
50
U
<»-Methyl-2-pent anone
(ig/kg
50
U
Locaiion=ORR; Formation=COPPER RIDGE; Sue=91; Samp id—1470; Dup id=' '; Phase =-2
cis-1,2-Dichloroethene
M g/kg
5
U
cis-1,3-Dichloropropene
(ig/kg
5
u
trans-1,2-Dichloroethene
(ig/kg
5
u
trans-1,3-Dichloropropene
(ig/kg
5
u
Acetone
(ig/kg
100
u
Benzene
(ig/kg
5
u
B romodi ch I oromethane
(ig/kg
5
u
Bromofortn
(ig/kg
5
u
Bromomethane
(ig/kg
10
u
Carbon disulfide
(ig/kg
5
u
Carbon tetrachloride
(ig/kg
5
u
Chlorobenzene
Mg/kg
5
u
Chloroethane
(ig/kg
10
u
Chloroform
(ig/kg
5
u
Chloromethane
eg/kg
10
u
D i bromochIoromethane
Kg/kg
5
u
Ethyl benzene
(ig/kg
5
u
Methylene chloride
(ig/kg
5
u
Styrene
(i g/kg
5
u
Tetrachloroethene
(ig/kg
5
u
Toluene
(ig/kg
5
u
T ri chloroethene
(ig/kg
5
u
Vinyl chloride
d g/kg
10
u
Xylene (meta + para)
(ig/kg
5
u
Xylene (ortho)
(ig/kg
5
u
1,1-Dichloroethane
(ig/kg
5
u
1,1-Dichloroethene
(ig/kg
5
u
1,1,1-Tri chloroethane
(ig/kg
5
u
1,1,2-Trichloroethane
(ig/kg
5
u
1,1,2,2-Tetrachloroethane
Kg/kg
5
u
1,2-Dichloroethane
/ig/kg
5
u
1,2-Dichloropropane
(tg/kg
5
u
2-Butanone
Mg/kg
100
u
2-Hexanone
(ig/kg
50
u
4-Hethyl-2-pentanone
(ig/kg
50
II
Location=ORR; Formcuion= DISMAL GAP; Siie=10; Samp id=1258; Dup id=' '; Phase-I
cis-1,2-Dichloroethene
(ig/kg
5
U
cis-1,3-Dichloropropene
#tg/kg
5
u
trans-1,2-Dichloroethene
(ig/kg
5
u
t rans-1,3-D i chIoropropene
(ig/kg
5
u
Acetone
Mg/kg
14
BJ
Benzene
(ig/kg
5
U
Bromodichloromethane
(ig/kg
5
U
Bromofortn
(ig/kg
5
U
Bromomethane
(ig/kg
10
U
Carbon disulfide
(ig/kg
5
u
Carbon tetrachloride
(ig/kg
5
u
Chlorobenzene
(ig/kg
5
u
Chloroethane
(ig/kg
10
u
Chloroform
(ig/kg
5
u
Chloromethane
(ig/kg
10
u
D i bromochIoromethane
(ig/kg
5
u
Ethyl benzene
(ig/kg
5
u
Freon-113
(ig/kg
10
u
Methylene chloride
(ig/kg
5
u
Styrene
(tg/kg
5
u
Tetrachloroethene
(ig/kg
5
u
Toluene
(ig/kg
5
u
Trichloroethene
(ig/kg
5
u
T ri ch lorofluoromethane
(ig/kg
10
u
Vinyl acetate
(ig/kg
10
-------�
B-43
Tabic B.l (continued)
A A horizon
Analysis Units horizon Qualifier field dup Qualifier
Vinyl chloride
-------�
B-44
Table B.l (continued)
A A horizon
Analysis Units horizon Qualifier field dup Qualifier
Benzene
<<9/
9
5
U
BromodichIoromethane
H9/
9
5
U
Bromoform
<19/
9
5
U
Bromomethane
V- 9/
9
10
U
Carbon disulfide
M 9/
9
5
U
Carbon tetrachloride
<19/
9
5
U
Chlorobenzene
M 9/
9
5
U
Chloroethane
^g/kg
5
u
Chloroethane
M9/kg
10
u
Chloroform
A9/kg
5
'J
Chloromethane
eg/kg
10
u
Dibromochloromethane
M9/kg
5
u
Ethyl benzene
Ag/kg
5
u
Freon-113
A g/kg
5
u
Methylene chloride
Kg/kg
5
u
Styrene
^g/kg
5
u
T etrachloroethene
M9/kg
5
u
Toluene
^g/kg
5
u
Trichloroethene
(ig/kg
5
u
T ri chlorofluoromethane
(ig/kg
5
u
Vinyl acetate
fig/kg
5
u
Vinyl chloride
A9/kg
10
u
Xylene (meta + para)
M9/kg
5
u
Xylene (ortho)
M9/kg
5
u
1,1-Dichloroethane
ug/kg
5
u
1,1-Dichloroethene
A9/kg
5
u
1,1,1-Trichloroethane
dg/kg
5
u
1,1,2-Tri chloroethane
A9/kg
5
u
1,1,2,2-Tetrachloroethane
A9/kg
5
u
1,2-Dichloroethane
A9/kg
5
u
1,2-Dichloropropane
M9/kg
5
u
1,4-Dichlorobenzene
A9/kg
5
u
2-Butanone
M9/kg
100
u
2-Chloroethylvinyl ether
MS/kg
5
u
2-Hexanone
A 9/kg
51
u
4-Hethyl-2-pentanone
M9/kg
51
u
Locaiion=ORR; Formarion=DISMAL GAP; Site=26; Samp id=1262; Dup id=' Phase =1
cis-1,2-Dichloroethene
A9/kg
5
U
cis-1,3-Dichloropropene
-------�
B-46
Table B.l (continued)
A A horizon
Analysis Units horizon Qualifier field dup Qualifier
Freon-113
li g/kg
5
U
Methylene chloride
fig/kg
5
U
Styrene
it g/kg
5
U
Tetrachloroethene
m/kg
5
U
Toluene
Kg/kg
5
U
Tri chloroethene
Mg/kg
5
U
T r i ch I orof I uoromethane
Mg/kg
5
U
Vinyl acetate
M/kg
5
U
Vinyl chloride
ftg/kg
10
U
Xylene (meta + para)
Kg/kg
5
U
Xylene (ortho)
Mg/kg
5
U
1,1-Dichloroethane
It g/kg
5
U
1,1-D i chI oroethene
/ig/kg
5
U
1,1,1 -T r i chIoroethane
Mg/kg
5
U
1,1,2-Trichloroethane
^g/kg
5
U
1,1,2,2-Tetrachloroethane
Kg/kg
5
U
1,2-Dichloroethane
Mg/kg
5
U
1,2-Dichloropropane
ng/kg
5
U
1,4-Dichlorobenzene
H9/kg
5
U
2-Butanone
*ig/kg
100
u
2-Chloroethylvinyl ether
jig/kg
5
u
2-Hexanone
it g/kg
50
u
4-Hethyl-2-pentanone
^g/kg
50
u
Location=ORR; Formanon=DISMAL CAf; Site—27; Samp id=1263; Dup id=' Phase=l
cis-1,2-Dichloroethene
ng/kg
5
U
cis-1,3-Dichloropropene
M/kg
5
U
trans-1,2-Dichloroethene
Mg/kg
5
u
t rans-1,3-D i chIoropropene
M9/kg
5
u
Acetone
It g/kg
53
BJ
Benzene
It g/kg
5
U
Bromodichloromethane
Kg/kg
5
U
Bromoform
M9/kg
5
U
Bromomethane
(ig/kg
10
U
Carbon disulfide
«l/kg
5
u
Carbon tetrachloride
M/kg
5
u
Chlorobenzene
n g/kg
5
u
Chloroethane
M9/kg
10
u
Chloroform
M9/kg
5
u
Chloromethar»e
M/kg
10
u
D i bromochIoromethane
^g/kg
5
u
Ethyl benzene
W/kg
5
u
Freon-113
M9/kg
5
u
Methylene chloride
Kg/kg
5
u
Styrene
M9/kg
5
u
Tet rachIoroethene
A9/kg
5
u
Toluene
/i9/kg
5
u
Trichloroethene
Jig/kg
5
u
T r i chIorofIuoromethane
»9/kg
5
u
Vinyl acetate
M/kg
5
u
Vinyl chloride
M9/kg
10
u
Xylene (meta * para)
A9/kg
5
u
Xylene (ortho)
Jig/kg
5
u
1,1-Dichloroethane
(ig/kg
5
u
1,1-Dichloroethene
/i9/kg
5
u
1,1,1-Trichloroethane
K9/kg
5
u
1,1,2-Trichloroethane
eg/kg
5
u
1,1,2,2-Tetrachloroethane
M9/kg
5
u
1,2-Dichloroethane
M9/kg
5
u
1,2-D i chIoropropane
M9/kg
5
u
1,4-Dichlorobenzene
Mg/kg
5
u
2-Butanone
M9/kg
8
BJ
2-Chloroethylvinyl ether
M9/kg
5
u
2-Hexanone
(ig/kg
49
u
4-Methyl-2-pentanone
M9/kg
49
-------�
B-47
Tabic B.l (continued)
A A horizon
Analysis Units horizon Qualifier field dup Qualifier
Location = ORR; Formation = DISMAL GAP; Site=32; Samp id=1268; Dup id=' Phase—1
cis-1,2-Dichloroethene
A9/kg
5
U
cis-1,3-DichIoropropene
a g/kg
5
U
trans-1,2-Dichloroethene
Ag/kg
5
U
trans-1,3-DichIoropropene
Ag/kg
5
U
Acetone
A9/kg
12
J
Benzene
Ag/kg
5
U
BromodichIoromethane
Ag/kg
5
u
Bromoform
Ag/kg
5
u
Bromomethane
Ag/kg
10
u
Carbon disulfide
eg/kg
5
u
Carbon tetrachloride
eg/kg
5
u
Chiorobenzene
Ag/kg
5
u
Chloroethane
A9/ kg
10
u
Chloroform
A9/kg
5
u
Chioromethane
Ag/kg
10
u
Dibromochloromethane
Ag/kg
5
u
Ethyl benzene
Ag/kg
5
u
Freon-113
Ag/kg
5
u
Methylene chloride
A9/kg
5
u
Styrene
A9/kg
5
u
Tetrachloroethene
A9/kg
5
u
Toluene
A9/kg
5
u
Trichloroethene
A9/kg
5
u
Trichlorofluoromethane
Ag/kg
5
u
Vinyl acetate
A9/kg
5
u
Vinyl chloride
Ag/kg
10
u
Xylene (meta + para)
Ag/kg
5
u
Xylene (ortho)
Ag/kg
5
u
1,1-Dichloroethane
Ag/kg
5
u
1,1-D i chloroethene
A9/kg
5
u
1,1,1-Trichloroethane
A9/kg
5
u
1,1,2-Trichloroethane
Ag/kg
5
u
1,1,2,2-Tetrachloroethane
Ag/kg
5
u
1,2-Dichloroethane
Ag/kg
5
u
1,2-Dichloropropane
Ag/kg
5
u
1,4-Dichlorobenzene
Ag/kg
5
u
2-Butanone
A9/kg
98
u
2-Chloroethylvinyl ether
A9/kg
5
u
2-Hexanone
Ag/kg
49
u
4-Methyl-2-pentanone
Ag/kg
49
u
Locarion=ORR; Formation = DISMAL GAP; Siie=53; Samp id=2264; Dup ia = ' Phase=l
cis-1,2-Dichloroethene
Ag/kg
5
U
cis-1,3-Dichloropropene
A9/kg
5
U
trans-1,2-Dichloroethene
Ag/kg
5
U
trans-1,3-Dichloropropene
A9/kg
5
U
Acetone
Ag/kg
55
BJ
Benzene
A9/kg
5
U
BromodichIoromethane
A9/kg
5
U
Bromoform
A9/kg
5
U
Bromomethane
A9/kg
10
U
Carbon disulfide
Ag/kg
5
U
Carbon tetrachloride
A9/kg
5
U
Chiorobenzene
Ag/kg
5
U
Chloroethane
Ag/kg
10
U
Chloroform
A9/kg
5
U
Chioromethane
A9/kg
10
u
0 i bromochIoromethane
A9/kg
5
u
Ethyl benzene
A9/kg
5
u
Freon-113
A9/kg
5
u
Methylene chloride
A9/kg
5
u
Styrene
A9/kg
5
u
Tetrachloroethene
Ag/kg
5
u
Toluene
Ag/kg
5
u
Trichloroethene
A9/kg
5
u
T ri chlorofluoromethane
A9/kg
5
u
Vinyl acetate
Ag/kg
5
u
Vinyl chloride
Ag/kg
10
-------�
B-48
Table B.1 (continued)
A A horizon
Analysis Units honzon Qualifier field dup Qualifier
Xylene (meta + para)
V- g/kg
5
U
xylene (ortho)
fig/kg
5
U
1,1-Dichloroethane
fig/kg
5
U
1,1-Dichloroether>e
fig/kg
5
U
1,1,1 -Tr i chIoroethane
fig/kg
5
U
1,1,2-Triehloroethane
fig/kg
5
U
1,1,2,2-Tetrachloroethane
fig/kg
5
U
1,2-Dichloroethane
dg/kg
5
U
1,2-DichIoropropane
fig/kg
5
U
1,4-Dichlorobenzene
fig/kg
5
U
2-Butanone
fig/kg
100
u
2-Chloroethylvinyl ether
fig/kg
5
u
2-Hexanone
fig/kg
50
u
4-Methyl-2-pentanone
fig/kg
50
u
Locarion=ORR; Formation = DISMAL GAP; Site=35; Samp id=1265; Dup id=' '; Phase=1
cis-1,2-Dichloroethene
fig/kg
5
U
cis-1,3-Dichloropropene
fig/kg
5
U
trans-1,2-Dichloroethene
fig/kg
5
U
trans-1,3-Dichloropropene
fig/kg
5
U
Acetone
fig/kg
7
BJ
Benzene
(tg/kg
5
U
BromodichIoromethane
fig/kg
5
U
Bromoform
fig/kg
5
U
Bromomethane
fig/kg
10
U
Carbon disulfide
fig/kg
5
U
Carbon tetrachloride
fg/kg
5
U
Chlorobenzene
fig/kg
5
U
Chloroethane
fig/kg
10
u
Chloroform
fig/kg
5
u
Chioromethane
fg/kg
10
u
DibromochIoromethane
fig/kg
5
u
Ethyl benzene
fig/kg
5
u
Freon-113
fig/kg
5
u
Methylene chloride
fig/kg
5
u
Styrene
fig/kg
5
u
T et rach I oroethene
fig/kg
5
u
Toluene
fig/kg
5
u
Tri chIoroethene
fig/kg
5
u
T ri chlorofluoromethane
fig/kg
5
u
Vinyl acetate
fig/kg
5
u
Vinyl chloride
fig/kg
10
u
Xylene (meta + para)
M g/kg
5
u
Xylene (ortho)
fig/kg
5
u
1,1-Dichloroethane
fig/kg
5
u
1,1-DichIoroethene
fig/kg
5
u
1,1,1-Trichloroethane
fig/kg
5
u
1,1,2-Trich Ioroethane
fig/kg
5
u
1,1,2,2-Tetrachloroethane
fig/kg
5
u
1,2-Dichloroethane
fig/kg
5
u
1,2-Dichloropropane
fig/kg
5
u
1,4-Dichlorobenzene
fig/kg
5
u
2-Butanone
fig/kg
6
BJ
2-Chloroethylvinyl ether
fig/kg
5
u
2-Hexanone
fig/kg
50
u
4-Hethyl-2-pentanone
M g/kg
50
u
Locaiion=ORR; Formation =DISMAL GAP; Siie=41; Samp id=1266; Dup id=' Phase—1
cis-1,2-Dichloroethene
fig/kg
5
U
cis-1,3-Dichloropropene
fig/kg
5
U
trans-1,2-Dichloroethene
fig/kg
5
U
trans-1,3-Dichloropropene
fig/kg
5
U
Acetone
fig/kg
16
J
Benzene
fig/kg
5
U
BromodichIoromethane
fig/kg
5
u
Bromoform
fig/kg
5
u
Bromomethane
fig/kg
10
u
Carbon disulfide
fig/kg
5
-------�
B-49
Tabic B.l (continued)
A A horizon
Analysis Units horizon Qualifier field dup Qualifier
Carbon tetrachloride
Ag/kg
5
U
Chlorobenzene
Ag/kg
5
U
Chloroethane
A9/kg
10
U
Chloroform
A9/teg
5
U
Chloromethane
A9/kg
10
U
D i bromochloromethane
A9/kg
5
U
Ethyl benzene
A 9/kg
5
U
Freon-113
A9/kg
5
U
Methylene chloride
A9/kg
5
U
Styrene
A9/kg
5
U
Tetrachloroethene
A 9/kg
5
U
Toluene
A9/kg
5
U
Trichloroethene
Ag/kg
5
U
T r i chIorofIuoromethane
A9/kg
5
U
Vinyl acetate
A9/kg
5
U
Vinyl chloride
Ag/kg
10
U
Xylene (meta + para)
Ag/kg
5
U
Xylene (ortho)
a g/kg
5
U
1,1-Dichloroethane
Ag/kg
5
U
1, 1-Dichloroethene
A9/kg
5
U
1,1,1-Trichloroethane
A9/kg
5
U
1,1,2-Trichloroethane
A g/kg
5
u
1,1,2,2-Tetrachloroethane
A9/kg
5
u
1,2-Dichloroethane
A9/kg
5
u
1,2-Dichloropropane
(ta/kg
5
u
1,4-Dichlorobenzene
(ig/kg
5
u
2-Butanone
Ag/kg
99
u
2-Chloroethylvinyl ether
n g/kg
5
u
2-Hexanor>e
Ag/kg
49
u
4-Hethyl-2-pentanone
Ag/kg
49
u
Locarion=ORR; Formanon -DISfAAL GAP; Site =43; Samp id-1267; Dup ia = ' '; Phase=I
cis-1,2-Dichloroethene
Ag/kg
5
U
cis-1,3-Dichloropropene
Ag/kg
5
U
trans-1,2-Dichloroethene
A9/kg
5
U
trans-1,3-Oichloropropene
A9/kg
5
u
Acetone
Ag/kg
100
u
Benzene
Ag/kg
5
u
BromodichIoromethane
A9/kg
5
u
Bromoform
A g/kg
5
u
Bromomethane
A9/kg
10
u
Carbon disulfide
Ag/kg
5
u
Carbon tetrachloride
A9/kg
5
u
Chlorobenzene
A9/kg
5
u
Chloroethane
A9/kg
10
u
Chloroform
Ag/kg
5
u
Chioromethane
Ag/kg
10
u
D i bromochIoromethane
Ag/kg
5
u
Ethyl benzene
Ag/kg
5
u
Freon-113
A9/kg
5
u
Methylene chloride
A9/kg
5
u
Styrene
Mg/kg
5
u
Tetrachloroethene
A9/kg
5
u
Toluene
Ag/kg
5
u
Trichloroethene
/ig/kg
5
u
Trichlorofluoromethane
Ag/kg
5
u
Vinyl acetate
Ag/kg
5
u
Vinyl chloride
Ag/kg
10
u
Xylene (meta + para)
A g/kg
5
u
Xylene (ortho)
Ag/kg
5
u
1,1-Oichloroethane
Ag/kg
5
u
1,1-Dichloroethene
A9/kg
5
u
1,1,1 -T r i chloroethane
Ag/kg
5
u
1,1,2-Trichloroethane
Ag/kg
5
u
1,1,2,2-Tetrachloroethane
Ag/kg
5
u
1,2-Dichloroethane
A9/kg
5
u
1,2-Dichloropropane
A9/kg
5
u
1,4-Dichlorobenzene
A9/kg
5
u
2-Butanone
Ag/kg
100
u
2-Chloroethylvinyl ether
A9/kg
5
-------�
B-50
Table B.l (continued)
A A horizon
Analysis Units horizon Qualifier field dup Qualifier
2-Hexanone fig/kg 50 U
4-Methyl-2-pentanone M9/kg 50 U
Location—OKR; Formaiion —NOLICHUCKY; Siie=13; Samp id=1273; Dup id=' Phase=l
cis-1,2-Dichloroethene
M9/kg
5
U
cis-1,3-DichIoropropene
M9/kg
S
U
trans-1,2-Dichloroethene
Mg/kg
5
U
trans-1,3-Dichloropropene
M/kg
5
u
Acetone
Ag/kg
10
J
Benzene
Mg/kg
5
u
BromodichIoromethane
Ag/kg
5
u
Bromoforai
Kg/kg
5
u
Bromomethane
M9/kg
10
u
Carbon disulfide
Mg/kg
5
u
Carbon tetrachloride
fig/kg
5
u
Chlorobenzene
A9/kg
5
u
Chloroethane
PS/kg
10
u
Chloroform
fig/kg
5
u
Chioromethane
9/kg
10
u
DibromochIoromethane
M3/kg
5
u
Ethyl benzene
i9/k9
5
U
Acetone
tig/kg
13
J
Benzene
ng/kg
5
U
BromodichIoromethane
ng/kg
5
U
Bromoform
-------�
B-52
Tabic ELI (cootinucd)
A A horizon
Analysis Units horizon Qualifier field dup Qualifier
Benzene
/t g/kg
5
U
5
U
Bromodichloromethane
/ig/kg
5
U
5
u
Bromoform
/ig/kg
5
U
5
u
Bromomethane
/ig/kg
10
u
10
u
Carbon disulfide
/ig/kg
5
u
5
u
Carbon tetrachloride '
/ig/kg
5
u
5
u
Chlorobenzene
/ig/kg
5
u
5
u
Chloroethane
/ig/kg
10
u
10
u
Chloroform
/ig/kg
5
u
5
u
Chloromethane
/ig/kg
10
u
10
u
Dibromochloromethane
/ig/k g
5
u
5
u
Ethyl benzene
As/kg
5
u
5
u
Freon-113
a g/kg
5
u
5
u
Methylene chloride
/ig/kg
5
u
5
u
Styrene
/ig/kg
5
u
5
u
Tetrachloroethene
/ig/kg
5
u
5
u
Toluene
/ig/kg
5
u
5
u
Trichloroethene
/ig/kg
5
u
5
u
Trichlorofluoromethane
M9/kg
5
u
5
u
Vinyl acetate
/ig/kg
5
u
5
u
Vinyl chloride
M/kg
10
u
10
u
Xylene (meta + para)
M9/kg
5
u
5
u
Xylene (ortho)
/ig/kg
5
u
5
u
1,1-Dichloroethane
/ig/kg
5
u
5
u
1,1-Dichloroethene
/ig/kg
5
u
5
u
1,1,1-Trichloroethane
M g/kg
5
u
5
u
1,1,2-Trichloroethane
/ig/kg
5
u
5
u
1,1,2,2-Tetrachloroethane
/ig/kg
5
u
5
u
1,2-Dichloroethane
/ig/kg
5
u
5
u
1,2-Dichloropropane
/ig/kg
5
u
5
u
1,4-Dichlorobenzene
/ig/kg
5
u
5
u
2-Butanone
/ig/kg
98
u
100
u
2-Chloroethylvinyl ether
/ig/kg
5
u
5
u
2-Hexanone
/i g/kg
49
u
50
u
4-Methyl-2-pentanone
M9/kg
49
u
50
u
Location=ORR; Formarion=NOLICHUCKY; Site=23; Samp id=1281; Dup id=1282; Phase=l
cis-1,2-Dichloroethene
/ig/kg
5
U
5
U
cis-1,3-Dichloropropene
(ig/kg
5
u
5
u
trans-1,2-Dichloroethene
/ig/kg
5
u
5
u
trans-1,3-Dichloropropene
/ig/kg
5
u
5
U
Acetone
/ig/kg
14
J
18
J
Benzene
Mg/kg
5
u
5
u
BromodichIoromethane
/ig/kg
5
u
5
u
Bromoform
/ig/kg
5
u
5
u
Bromomethane
/ig/kg
10
u
10
u
Carbon disulfide
/ig/kg
5
u
5
u
Carbon tetrachloride
(tg/kg
5
u
5
u
Chlorobenzene
M9/kg
5
u
5
u
Ch1oroethane
A9/kg
10
u
10
u
Chloroform
/ig/kg
5
u
5
u
Chloromethane
/ig/kg
10
u
10
u
Dibromochloromethane
(ig/kg
5
u
5
u
Ethyl benzene
fig/kg
5
u
5
u
Freon-113
n- g/kg
5
u
5
u
Methylene chloride
/ig/kg
5
u
5
u
Styrene
M/kg
5
u
5
u
Tetrachloroethene
/ig/kg
5
u
5
u
Toluene
(ig/kg
5
u
5
u
Trichloroethene
/ig/kg
5
u
5
u
Tri chlorofluoromethane
Mg/kg
5
u
5
u
Vinyl acetate
/ig/kg
• 5
u
5
u
Vinyl chloride
(ig/kg
10
u
10
u
Xylene (meta + para)
/ig/kg
5
u
5
u
Xylene (ortho)
/ig/kg
5
u
5
u
1,1-Dichloroethane
/ig/kg
5
u
5
u
1,1-Dichloroethene
/ig/kg
5
u
5
u
1,1,1-Trichloroethane
/ig/kg
5
u
5
u
1,1,2-Trichloroethane
/ig/kg
5
u
5
u
1,1,2,2-Tetrachloroethane
Mg/kg
5
u
5
-------�
B-53
Tabic B.1 (continued)
A A horizon
Analysis Units horizon Qualifier field dup Qualifier
1,2-D i chloroethane
jig/kg
5
'J
5
•J
1,2-Dichloropropane
A9/kg
5
U
5
U
1,4-Dichlorobenzene
Mg/kg
5
u
5
U
2-Butanone
eg/kg
99
u
100
U
2-Chloroethylvinyl ether
fg/kg
5
u
5
U
2-Hexanone
Kg/kg
50
u
50
U
4-Methyl-2-pentanone
ug/kg
50
u
50
u
Location = ORR: Formaiion=NOLICHUCKY; She=24; Samp id=1284: Dup ia=}285; Phase-l
cis-1,2-Dichloroethene
Kg/kg
5
u
5
U
cis-1,3-Dichloropropene
Mg/kg
5
u
5
u
trans-1,2-Dichloroethene
H9A9
5
u
5
u
trans-1,3-Dichloropropene
dg/kg
5
u
5
u
Acetone
)ig/k9
100
u
10
J
Benzene
k g/kg
5
u
5
u
Bromodichtoromethane
jig/kg
5
'J
5
u
Bromoform
eg/kg
5
u
5
u
Bromomethane
Ag/kg
10
u
10
u
Carbon disulfide
/ig/k g
5
u
5
u
Carbon tetrachloride
yg/lcg
5
¦J
5
u
Chlorobenzene
M9/kg
5
J
5
u
Chloroethane
Kg/kg
10
u
10
u
Chloroform
d9/leg
' 5
u
5
u
Chioromethane
f-g/kg
10
u
10
u
D ibromoch I oromethane
eg/kg
5
u
5
u
Ethyl benzene
Kg/kg
5
u
5
u
Freon-113
Kg/kg
5
u
5
u
Methylene chloride
Mg/kg
5
u
5
u
Styrene
ig/kg
5
u
5
u
2-Hexanone
*g/kg
50
u
50
u
4-Methyl-2-pentanone
Kg/kg
50
u
50
u
Location=-ORR; Formanon-NOLICHUCKY; Siie=2S; Samp id=1274; Dup ia'=' Phaser]
cis-1,2-Dichloroethene
jig/kg
c
u
cis-1,3-Dichloropropene
M/kg
5
u
trans-1,2-Dichloroethene
n g/kg
5
u
trans-1,3-Dichloropropene
K9/kg
5
u
Acetone
K9/kg
24
J
Benzene
k g/kg
5
u
BromodichIoromethane
Ag/kg
5
u
Bromoform
*tg/kg
5
u
Bromomethane
tg/kg
5
u
Chlorobenzene
Jig/kg
5
u
Chloroethane
Kg/kg
10
u
Chloroform
eg/kg
5
¦J
Chioromethane
M/kg
10
J
D i bromochIoromethane
ag/kg
5
u
Ethyl benzene
A g/kg
5
-------�
B-54
Table B.l (continued)
A A horizon
Analysis Units horizon Qualifier field dup Qualifier
Freon-113
ig/kg
5
U
Methylene chloride
ig/kg
5
U
Styrene
ig/kg
5
U
T etrachIoroethene
Kg/kg
5
U
Toluene
ig/kg
5
U
Trichloroethene
fig/kg
5
U
Trichlorofluoromerhane
19/kg
5
U
Vinyl acetate
ig/kg
5
U
Vinyl chloride
i g/kg
10
U
Xylene (meta + para)
ig/kg
5
u
Xylene (ortho)
19/kg
5
u
1,1-Dichloroethane
ig/kg
5
u
1,1-Dichloroethene
ig/kg
5
u
1,1,1-Trichloroethane
19/kg
5
u
1,1,2-Trichloroethane
19/kg
5
u
1,1,2,2-Tetrachloroethane
19/kg
5
u
1,2-Dichloroetharte
ig/kg
5
u
1,2-D i chIo ropropane
ig/kg
5
u
1,4-Dichlorobenzene
ig/kg
5
u
2-Butanone
ig/kg •
98
u
2-Chloroethylvinyl ether
ig/kg
5
1)
2-Hexanone
19/kg
49
11
4-Methyl-2-pentanone
1 g/kg
49
u
Locarion=ORR; Formation-NOLICHUCKY; Sae=28: Samp id=1286; Dup id=1287: Phase=l
cis-1,2-DichIoroethene
U 9
9
5
U
5
U
ci s-1,3-Dichloropropene
V- 9
:g
5
U
5
U
trans-1,2-Dichloroethene
M9
9
5
u
5
U
trans-1,3-Dichloropropene
M 9
:g
5
u
5
u
Acetone
19
9
22
J
14
J
Benzene
ng
eg
5
u
5
u
Brotnod i ch I oromethane
19
g
5
u
5
u
Bromofonn
19
g
5
u
5
u
Bromomethane
19
g
10
u
10
u
Carbon disulfide
19
:g
5
u
5
u
Carbon tetrachloride
19
;g
5
u
5
u
Chlorobenzene
19
9
5
u
5
u
Chloroethane
19
9
10
u
10
u
Chloroform
19
g
5
u
5
u
Chloromethane
19
g
10
u
10
u
D i bromochloromethane
19
g
5
u
5
u
Ethyl benzene
19
9
5
u
5
u
Freon-113
19
9
5
u
5
u
Methylene chloride
19
g
5
u
5
u
Styrene
19
=9
5
u
5
u
Tet rachIoroethene
19
eg
5
11
5
u
Toluene
19
eg
5
u
5
u
Trichloroethene
19
eg
5
u
5
u
Trichlorofluoromethane
19
9
5
u
5
u
Vinyl acetate
19
g
5
u
5
u
Vinyl chloride
19
eg
10
u
10
u
Xylene (meta + para)
19
eg
5
u
5
u
Xylene (ortho)
19
g
5
u
5
u
1,1-Di ch loroethane
19
9
5
u
5
u
1,1-Dichloroethene
19
g
5
u
5
u
1,1,1-Trichloroethane
19
eg
5
u
5
u
1,1,2-T r i chIoroethane
19
eg
5
u
5
u
1,1,2,2-Tetrachloroethane
19
g
5
u
5
u
1,2-Dichloroethane
19
9
5
u
5
u
1,2-Dichloropropane
19
9
5
u
5
u
1,4-Dichlorobenzene
19
9
5
u
5
u
2-Butanone
19
g
98
u
100
u
2-Chloroethylvinyl ether
19
eg
5
u
5
u
2-Hexanone
19
eg
49
u
50
u
4-Hethyl-2-pentanone
19
g
49
u
50
-------�
B-55
Tabic B.l (continued)
A A horizon
Analysis Units horizon Qualifier field dup Qualifier
Location—ORR; Formation— NOLICHUCKY; Site=3: Samp id—1271; Dup id = ' Phase—1
cis-1,2-Dichloroethene
itg/kg
5
U
cis-1,3-Dichloropropene
|tg/kg
5
U
trans-1,2-D i chloroethene
itg/kg
5
u
trans-1,3-Dichloropropene
jig/kg
5
u
Acetone
itg/kg
12
J
Benzene
ng/kg
5
u
BromodichIoromethane
itg/kg
5
u
Bromoform
jig/kg
5
u
Bromoraethane
|t9/kg
10
u
Carbon disulfide
Jtg/kg
5
u
Carbon tetrachloride
ng/kg
5
u
Chlorobenzene
jtg/kg
5
u
Chloroethane
ftg/kg
10
u
Chlorofonn
itg/kg
5
u
Chioromethane
n g/kg
10
u
DibromochIoromethane
itg/kg
5
u
Ethyl benzene
H9/kg
5
u
Freon-113
itg/kg
5
u
Methylene chloride
itg/kg
5
u
Styrene
itg/kg
5
u
Tetrachloroethene
itg/kg
5
u
Toluene
itg/kg
5
u
Trichloroethene
|tg/kg
5
u
Tri chlorofluoromethane
itg/kg
5
u
Vinyl acetate
Jtg/kg
5
u
Vinyl chloride
itg/kg
10
u
Xylene (meta + para)
itg/kg
5
u
Xylene (ortho)
|tg/kg
5
u
1,1-0ichIoroethane
itg/kg
5
u
1,1-0ichloroethene
Itg/kg
5
u
1,1,1-Trichloroethane
|tg/kg
5
u
1,1,2-Trichloroethane
ng/kg
5
u
1,1,2,2-TetrachIoroethane
itg/kg
5
u
1,2-Dichloroethane
Jtg/kg
5
u
1,2-Di chloropropane
ng/kg
5
u
1,4-Dichlorobenzene
itg/kg
5
u
2-Butanone
itg/kg
98
u
2-Chloroethylvinyl ether
Ji9/kg
5
u
2-Hexanone
itg/kg
49
u
4-Methyl-2-pentanone
jtg/kg
49
u
Location-ORR; Formanon=NOUCHUCKY; Site=31; Samp id=1288; Dup id-1289; Phase=-1
cis-1,2-Dichloroethene
Itg/kg
5
U
5
U
cis-1,3-DichloroproDene
|tg/kg
5
U
5
U
trans-1,2-Dichloroethene
M/kg
5
U
5
U
trans-1,3-Dichloropropene
itg/kg
5
U
5
U
Acetone
pg/kg
27
J
78
J
Benzene
us/kg
5
u
5
U
BromodichIoromethane
Itg/kg
5
u
5
U
Bromoform
fig/kg
5
u
5
U
Bromcmethane
Itg/kg
10
u
10
U
Carbon disulfide
Itg/kg
5
u
5
u
Carbon tetrachloride
Itg/kg
5
u
5
u
Chlorobenzene
itg/kg
5
u
5
u
Chloroethane
itg/kg
10
u
10
u
Chloroform
|tg/kg
5
u
5
u
Chioromethane
itg/kg
10
u
10
u
D i bromochIoromethane
itg/kg
5
u
5
u
Ethyl benzene
ftg/kg
5
u
5
u
Freon-113
|tg/kg
5
u
5
u
Methylene chloride
Jtg/kg
5
u
5
u
Styrene
Itg/kg
5
u
5
u
Tetrachloroethene
Jtg/kg
5
u
5
u
Toluene
|tg/kg
5
u
5
u
Trichloroethene
C9/kg
5
u
5
u
Trichlorofluoromethane
Jtg/kg
24
5
u
Vinyl acetate
H9/kg
5
u
5
-------�
B-56
Table B.l (continued)
A A horizon
Analysis Units horizon Qualifier field dup Qualifier
Vinyl chloride
-------�
B-61
Tabic B.l (continued)
A A horizon
.Analysis Units horizon Qualifier field dup Qualifier
7 etrachloroethene
(ig/kg
5
U
Toluene
(ig/kg
5
U
T richloroethene
(ig/kg
5
U
Vinyl chloride
eg/kg
10
U
Xylene (meta + para)
(ig/kg
5
U
Xylene (ortho)
»ig/kg
5
U
1,1-Dichloroethane
fig/kg
5
U
1,1-Dichloroethene
^9/kg
5
U
1,1,1-Trichloroethane
(ig/kg
5
u
1,1,2-Trichloroethane
(ig/kg
5
u
1,1,2,2-Tetrachloroethane
(ig/kg
5
u
1,2-Dichloroethane
(ig/kg
5
u
1,2-Dichloropropane
(ig/kg
5
u
2-Butanone
ng/kg
100
u
2-Hexanone
(ig/kg
50
u
4-Hethyl-2-pentanone
(ig/kg
50
u
Locanon=ROA; Formaiion=COPPER RIDGE; Sire—43; Samp id=3230: Dup ia=3232; Phase=2
cis-1,2-Di chloroethene
(ig/kg
5
U
5
U
cis-1,3-Dichloropropene
(ig/kg
5
'J
5
u
trans-1,2-Dichloroethene
(ig/kg
c
U
5
u
trans-1,3-Dichloropropene
A9/kg
5
U
5
u
Acetone
(ig/kg
9
J
c
J
Benzene
A9/kg
5
u
5
u
Bromodichloromethane
Mg/kg
5
u
5
u
Bromof ortn
eg/kg
5
u
5
u
Bromomethane
(tg/kg
10
u
10
u
Carbon disulfide
(i g/kg
5
u
5
u
Carbon tetrachloride
Mg/kg
5
u
5
u
ChIorobenzene
(ig/kg
5
u
5
u
Chloroethane
(i g/kg
10
u
10
u
Chloroform
Ag/kg
5
u
5
u
Chloromethane
a g/kg
10
u
10
u
Dibromochloromethane
eg/kg
5
u
5
u
Ethyl benzene
(ig/kg
5
u
5
u
Methylene chloride
(ig/kg
5
u
5
u
Styrene
(ig/kg
5
u
5
u
Tetrachloroethene
(ig/kg
5
u
5
u
Toluene
eg/kg
5
u
5
u
T richloroethene
(ig/kg
5
u
5
u
Vinyl chloride
(ig/kg
10
u
10
u
Xylene (meta + para)
v- g/kg
5
u
5
u
Xylene (ortho)
/ig/kg
5
u
5
u
1,1-Di chloroethane
/ig/kg
5
u
5
u
1,1-Dichloroethene
/ig/kg
5
u
5
u
1,1,1 -T r i chIoroethane
up id=' Phase=2
cis-1,2-Di chloroethene
(ig/k?
5
u
cis-1,3-Dichloropropene
(ig/kg
5
u
trans-1,2-Dichloroethene
(ig/kg
5
u
trans-1,3-Dichloropropene
(ig/kg
5
u
Acetone
jig/kg
8
J
Benzene
(ig/kg
5
u
Bromodi chloromethane
(ig/kg
5
u
Bromoform
(ig/kg
5
u
Bromomethane
(ig/kg
10
u
Carbon disulfide
(tg/kg
5
u
Carbon tetrachloride
(ig/kg
5
u
Chiorobenzene
(ig/kg
5
u
Chloroethane
(ig/kg
10
-------�
B-62
Table B.l (continued)
A A horizon
Anatvsis Units horizon Qualifier field dup Qualifier
Chloroform
-------�
B-63
Table B.l (continued)
A A honzon
Analysis Units horizon Qualifier field dup Qualifier
Bromoform
jig/kg
5
U
Bromomethane
Mg/kg
10
u
Carbon disulfide
ng/kg
5
u
Carbon tetrachloride
it g/kg
5
u
ChIorobenzene
-------�
B-65
Table B.l (continued)
A A horizon
Analysis Units horizon Qualifier field dup Qualifier
Xylene (meta + para)
M3/kg
5
U
5
U
Xylene (ortho)
eg/kg
5
u
5
U
1,1-Dichloroethane
ug/kg
5
u
5
U
1,1-Dichloroethene
jig/kg
5
u
5
U
1,1,1-Trichloroethane
jig/kg
5
u
5
u
1,1,2-Trichloroethane
^g/kg
5
u
5
u
1,1,2,2-Tetrachloroethane
Mg/kg
5
u
5
u
1,2-Dichloroethane
Ag/kg
5
u
5
u
1,2-Dichloropropane
Mg/kg
5
u
5
u
1,4-Dichlorobenzene
M/kg
5
u
5
u
2-Butanone
-------�
B-66
Tabic B.1 (continued)
A A horizon
Analysis Units horizon Qualifier field dup Qualifier
Carbon tetrachloride
eg/kg
5
U
Chlorobenzene
/ig/kg
5
U
Chloroethane
Mg/kg
10
U
Chloroform
Mg/kg
5
U
Chloromethane
ng/kg
10
U
D i brontoch loromethane
M/kg
5
u
Ethyl benzene
*ig/kg
5
u
Freon-113
Ag/kg
5
u
Methylene chloride
-------�
B-67
Tabic B.l (continued)
A A honzon
Analysis Units honzon Qualifier field duD Qualifier
-
Locarion=ROA; Formaiion=DISMAL GAP; Siie=20; Samp id=3198: Dup id=' J'; Phase=1
cis-1,2-Dichloroethene
Ag/kg
5
U
cis-1,3-Oichloropropene
Ag/kg
5
U
trans-1,2-Dichloroethene
Ag/kg
5
U
trans-1,3-Oichloropropene
a g/kg
5
U
Acetone
Ag/kg
100
U
Benzene
Ag/kg
5
U
Bromodichloromethane
Ag/kg
5
U
Bromoform
Ag/kg
5
u
Bromomethane
Ag/kg
10
u
Carbon disulfide
Ag/kg
5
u
Carbon tetrachloride
Ag/kg
5
u
Chlorobenzene
Ag/kg
5
u
Chloroethane
Ag/kg
10
u
Chloroform
Ag/kg
5
u
Chloromethane
Ag/kg
10
u
D i bromochloromethane
Ag/kg
5
u
Ethyl benzene
Ag/kg
5
u
Methylene chloride
Ag/kg
5
u
Styrene
A9/kg
5
u
T etrachloroethene
Ag/kg
5
u
T oIuene
Ag/kg
5
u
Tr i ch1oroethene
Ag/kg
5
u
Vinyl chloride
Ag/kg
10
u
Xylene (meta + para)
Ag/kg
5
II
Xylene (ortho)
Ag/kg
5
u
1,1-Dichloroethane
Ag/kg
5
u
1,1-Dichloroethene
Ag/kg
5
u
1,1,1-Tri chloroethane
Ag/kg
5
u
1,1,2-Trichloroethane
Ag/kg
5
u
1,1,2,2-Tetrachloroethane
Ag/kg
5
u
1,2-Dichloroethane
Ag/kg
5
u
1,2-D i ch I oroproparve
Ag/kg
5
u
2-Butanone
Ag/kg
100
u
2-Hexanone
Ag/kg
50
u
4-Hethyl-2-pentanone
Ag/kg
50
u
Location—ROA; Formanon=DISMAL CAP; Sue—21: Samp id=3196: Dup id=' V Phase=l
cis-1,2-Dichloroethene
A9/
g
5
U
cis-1,3-Dichloropropene
Ag/
g
5
U
trans-1,2-Dichloroethene
A9/
g
5
U
trans-1,3-Dichloropropene
Ag/
g
5
u
Acetone
Ag/
g
100
u
Benzene
Ag/
g
5
u
Bromodichloromethane
Ag/
g
5
u
Bromofonn
Ag/
g
5
u
Bromomethane
Ag/
g
10
u
Carbon disulfide
Ag/
g
5
u
Carbon tetrachloride
Ag/
g
5
u
Chlorobenzene
Ag/
g
5
u
Chloroethane
Ag/
g
10
u
Chloroform
A 9/
9
5
u
Chloromethane
Ag/
g
10
LI
D i bromochIoromethane
Ag/
9
5
u
Ethyl benzene
Ag/
9
5
u
Methylene cnloride
Ag/
g
5
u
Styrene
A9/
g
5
u
T et rachIoroethene
Ag/
9
5
u
Toluene
Ag/
g
5
u
Trichloroethene
Ag/
g
5
u
Vinyl chloride
Ag/
g
10
u
Xylene (meta ~ para)
AS/
g
5
u
Xylene (ortho)
Ag/
g
5
u
1,1-Dichloroethane
Ag/
g
5
u
1,1-Dichloroethene
Ag/
g
5
u
1,1,1-Trichloroethane
Ag/
g
5
u
1,1,2-Trichloroethane
Ag/
9
5
u
1,1,2,2-Tetrachloroethane
Ag/
g
5
u
1,2-Dichloroethane
Ag/
g
5
-------�
B-68
Table B.l (continued)
A A horizon
Analysis Units horizon Qualifier field dup Qualifier
1,2-Dichloropropane
jig/kg
5
u
2-Butanone"
jig/kg
100
u
2-Hexanooe
jig/kg
50
u
4-MethyI-2-pentanone
jig/kg
50
u
Location =ROA; Formation=DISMAL CAP; Sue=22; Samp id=3197; Dup id=' '; Phase=1
cis-1,2-Dichloroethene
Jig/
g
5
U
cis-1,3-Dichloropropene
jig/
g
5
U
trans-1,2-Dichloroethene
Jig/
g
5
U
trans-1,3-Dichloropropene
ji g/
g
5
U
Acetone
jig/
g
98
U
Benzene
jig/
g
5
U
Bromodichloromethane
Jig/
g
5
U
Bromoform
A 9/
g
5
U
Bromonethane
jig/
g
10
U
Carbon disulfide
eg/
g
5
U
Carbon tetrachloride
a g/
g
5
U
Chlorobenzene
Jig/
g
5
U
Chloroethane
eg/
g
10
U
Chloroform
eg/
g
5
U
Chloromethane
M/
g
10
U
D i bromochI oromethane
jig/
g
5
u
Ethyl benzene
jig/
g
5
u
Methylene chloride
jig/
9
5
u
Styrene
jig/
g
5
u
T et rach I oroethene
jig/
g
5
u
Toluene
jig/
g
5
u
Trichloroethene
jig/
g
5
u
Vinyl chloride
jig/
g
10
u
Xylene (meta + para)
jig/
g
5
u
Xylene (ortho)
jig/
g
5
u
1,1-Dichloroethane
jig/
9
5
u
1,1-Dichloroethene
jig/
9
5
u
1,1,1-Trichloroethane
jig/
9
5
u
1,1,2-Trichloroethane
jig/
9
5
u
1,1,2,2-Tetrachloroethane
jig/
g
5
u
1,2-Dichloroethane
jig/
g
5
u
1,2-Dichloropropane
jig/
g
5
u
2-Butanone
jig/
g
98
u
2-Hexanone
jig/
g
49
u
4-Methyl-2-pentanone
jig/
g
49
u
Location =ROA; Formation = DISMAL GAP; Site =3; Samp id =3201; Dup id=' '; Phase=1
cis-1,2-Dichloroethene
jig/kg
5
U
cis-1,3-Dichloropropene
jig/kg
5
U
trans-1,2-Dichloroethene
jig/kg
5
U
t rans-1,3-D i chIoropropene
jig/kg
5
U
Acetone
jig/kg
5
J
Benzene
jig/kg
5
u
Bromodichloromethane
jig/kg
5
u
Bromoform
Jig/kg
5
u
Bromomethane
jig/kg
10
u
Carbon disulfide
jig/kg
5
u
Carbon tetrachloride
Jig/kg
5
u
Chlorobenzene
Jig/kg
5
u
Chloroethane
jig/kg
10
u
Chloroform
jig/kg
5
u
Chloromethane
Jig/kg
10
u
DibromochIoromethane
jig/kg
5
u
Ethyl benzene
jig/kg
5
u
Methylene chloride
jig/kg
5
u
Styrene
Ji9/kg
5
u
Tetrachloroethene
jig/kg
5
u
Toluene
jig/kg
5
u
Trichloroethene
jig/kg
5
u
Vinyl chloride
jig/kg
10
u
Xylene (meta + para)
jig/kg
5
u
Xylene -(ortho)
jig/kg
5
-------�
B-69
Table B.l (continued)
A A homon
Analysis Units horizon Qualifier field qud Qualifier
1,1-Dichloroethane
U9/kg
5
'J
1,1-Dichloroethene
u9/kg
5
U
1,1,1-Trichloroethane
ug/kg
5
U
1,1,2-Trichloroethane
jig/kg
5
U
1,1,2,2-Tetrachloroethane
ug/kg
5
u
1,2-Dichloroethane
ug/kg
5
u
1,2-Dichloropropane
ug/kg
5
u
2-Butanone
ug/kg
5
BJ
2-Hexanone
ug/kg
50
U
4-Methyl-2-pentanone
U9/kg
50
u
Location =ROA; Formarion=DISMAL GAP: She=7; Samp id=3185: Dup id=' Phase-1
cis-1,2-Dichloroethene
U9/kg
5
U
cis-1,3-Dichlorooropene
ug/kg
5
U
trans-1,2-Dichloroethene
ug/kg
5
u
trans-1,3-Dichloropropene
ug/kg
5
u
Acetone
ug/kg
7
J
Benzene
ug/kg
5
u
Bromodi chIoromethane
ug/kg
5
u
Sromoform
ug/kg
5
'J
Bromomethane
ug/kg
10
'J
Carbon disulfide
ug/kg
c
'J
Carbon tetrachloride
eg/kg
5
l!
Chlorobenzene
ug/kg
5
u
Chloroethane
u g/kg
10
u
Chloroform
ug/kg
5
u
Chloromethane
ug/kg
10
u
D ibromochIoromethane
ug/kg
5
u
Ethyl benzene
ug/kg
5
u
Freon-113
ug/kg
5
u
Methylene chloride
ug/kg
5
II
Styrene
ug/kg
5
u
T et rachIoroethene
Jig/kg
5
u
Toluene
ug/kg
5
u
Trichloroethene
ug/kg
5
u
Trichlorofluoromethane
u g/kg
5
u
Vinyl acetate
U9/kg
5
u
Vinyl chloride
ug/kg
10
u
Xylene (meta + para)
ug/kg
5
u
Xylene (ortho)
ug/kg
5
u
1,1-Oi chloroethane
ug/kg
5
u
1,1-Di chIoroethene
ug/kg
5
u
1,1,1-Trichloroethane
ug/kg
5
u
1,1,2-Trichloroethane
ug/kg
5
u
1,1,2,2-Tetrachloroethane
ug/kg
5
u
1,2-Dichloroethane
ug/kg
5
u
1,2-Dichloropropane
ug/kg
5
u
1,U-Oichlorobenzene
ug/kg
5
u
2-Butanone
ug/kg
100
u
2-Chloroethylvinyl ether
ug/kg
5
u
2-Hexanone
ug/kg
50
u
4.-Hethyl-2-pentanone
ug/kg
50
u
Locanon=ROA: Formanon=DISKiAL CAP: Siie=8; Samp ia=3J86; Dup id=' Pkase=l
cis-1,2-Dichloroetrtene
ug/kg
5
U
cis-1,3-Dichloropropene ¦
U9/kg
5
U
trans-1,2-Dichloroethene
ug/kg
5
U
trans-1,3-0ichloropropene
ug/kg
5
u
Acetone
U9/kg
7
J
Benzene
U9/kg
5
u
Bromodichloromethane
ug/kg
5
u
Bromoform
ug/kg
5
u
Bromomethane
ug/kg
10
'J
Carbon disulfide
U9/kg
5
u
Carbon tetrachloride
U9/kg
5
u
Chlorobenzene
ug/kg
5
u
Chloroethane
ug/kg
10
u
Chloroform
ug/kg
5
-------�
B-70
Table B.l (continued)
A A horizon
Analysis Units horizon Qualifier field dup Qualifier
Chloromethane
A3/
9
10
U
D i bromochIoromethane
<19/
9
5
U
Ethyl benzene
#9/
9
5
U
Freon-113
^9/
9
5
U
Methylene chloride
H9/
9
5
U
Styrene
A9/
9
5
U
Tetrachloroethene
M 9/
3
5
U
Toluene
H9/
9
5
U
Trichloroethene
M/
9
5
U
TrichIorofIuoromethane
H9/
9
5
U
Vinyl acetate
M/
9
5
U
Vinyl chloride
M 9/
9
10
u
Xylene (meta + para)
A9/
9
5
u
Xylene (ortho)
A 9/
9
5
u
1,1-Dichloroethane
H9/
9
5
u
1,1-Dichloroethene
M9/
9
5
u
1,1,1-Trichloroethane
^ 9/
9
8
1,1,2-Trichloroethane
M9/
9
5
u
1,1,2,2-Tetrachloroethane
M9/
9
5
u
1,2-Dichloroethane
M/
9
5
u
1,2-Dichloropropane
*i9/
9
5
u
1,4-Dichlorobenzene
K9/
9
5
u
2-Butanone
*9/
9
100
u
2-Chloroethylvinyl ether
*9/
9
5
u
2-Hexanone
*9/
9
50
u
4-Methyl-2-pentanone
<19/
9
50
u
Location =ROA; Formaiion=DISMAL GAP; Site=9; Samp id =3200; Dup id=' '; Phase=l
cis-1,2-Dichloroethene
/tg/kg
5
U
cis-1,3-Dichloropropene
Mg/kg
5
U
trans-1,2-Dichloroethene
m g/kg
5
U
t rans-1,3-D i chIoropropene
-------�
B-71
Table B.2. Weighted pmma screening results for soil samples2
Depth (cm)
Analysis Units 00-05 05-10 10-15 15-20 20-25 25-30
Location =AND; Formation=COPPER RIDGE; Site=31; 00-05=2203; 05-10=2204; 10-15=2205;
15-20=
2206; 20-25
=2207; 25-30
=2208; Phase
=2
Cesium-137
pCi/9
0.73256
0.37976
0.10332
0.06438
0.03224
0.00804
Potass iun-40
pCi/9
1.73709
1.91586
2.10093
2.45081
2.01757
2.12749
Radium-226
PCi/9
0.50704
0.55514
0.60491
0.59503
0.61582
0.60063
Thoriun-232
pCi/9
0.35396
0.44699
0.51127
0.44704
0.48347
0.52314
Urani uit-235
PCi/9
0.22720
0.05335
0.07322
0.08380
0.05514
Urani un-238
PCi/9
1.87793
1.02629
2.46377
1.80648
0.99122
Location =AND; Formation=COPPER RJDGE; Site=32; 00-05 =2212; 05-10=2213; 10-15=2214;
15-20=
2215: 20-25
=2216; 25-30--
=2217; Phase
=2
Cesiun-137
pCi/g
0.78489
0.18635
0.09568
0.02333
0.00318
0.00304
Potassium-40
pCi/g
1.51591
2.47573
2.44060
2.82340
3.28989
4.18094
Radiun-226
pCi/g
0.52326
0.67759
0.72870
0.78198
0 . 72411
0.78168
Thoriun-232
pCi/g
0.63228
0.56257
0.56599
0.58130
0.57422
0.69264
Uranium-235
pCi/g
0.13848
0.10924
0.20326
0.13177
0.13257
0.08669
Urani un-238
pCi/g
2.21315
2.03654
1.96424
1.97959
2.23510
1.58676
Location =AND; Formanon=COPPER RIDGE; Site=33; 00-05-2221; 05-10 -2222; 10-15 =2223;
15-20=2224; 20-25
=2225; 25-30--
=2226; Phase
=2
Cesium-137
pCi/g
0.86805 0.21344
0.08081
0.04379
0.03354
0.00490
Potass iun-40
pCi/g
1.77329 2.26005
2.34045
2.42785
2.41589
2.58916
Radium-226
pCi/g
0.56678 0.61646
0.78564
0.73838
0.74191
0.69533
Thoriun-232
pCi/g
0.34199 0.40075
0.45246
0.44757
0.45138
0.47055
Urani un-235
pCi/g
0.13487 0.17374
0.19540
0.11977
0.11891
0.07893
Urani un-238
pCi/g
0.60911 1.99912
2.17822
0.87519
1.66225
1.26452
Location =AND; Formaiion=COPPER RJDGE; Site=34; 00-05 =2230; 05-10=2231; 10-15=2232;
15-20=2233; 20-25 =2234; 25-30=2235; Phase=2
Cesium-137
pCi/g
0.725 79
0.49465
0.36771
0.18624
0.12188
0.05804
Potassiun-40
pCi/g
3.47889
3.01606
3.26976
2.74865
3.08371
3.20147
Radium-226
pCi/g
0.95364
0.94179
0.98998
0.91094
0.87060
0.88093
Thoriun-232
pCi/g
0.61858
0.64955
0.65605
0.60943
0.58014
0.58501
Uraniun-235
pCi/g
0.19392
0.16706
0.15656
0.14339
0.05529
0.06248
Urani un-238
pci/g
2.57243
1.69957
1.53984
2.36820
1.99701
1.24430
Location =AND; Formation=COPPER RJDGE; Siie=35; 00-05 =2239; 05-10=2240; 10-15=2241;
15-20=
2242; 20-25
=2243; 25-30
=2244; Phase
= 2
Cesiun-137
pci/g
0.53150
0.34390
0.07837
0.11647
0.00954
0.00458
Potassiun-40
pCi/g
2.74278
4.17352
3.08020
3.97701
4.17611
3.97210
Radiun-226
pCi/g
0.75353
0.88048
0.90777
0.83604
0.85575
0.75441
Thoriun-232
PCi/g
0.83221
0.77173
0.72306
0.69508
0.78523
0.75844
Uranium-235
pCi/g
0.18258
0.19934
0.27231
0.18573
0.07653
0.05508
Urani un-238
pci/g
2.40473
3.34121
3.20313
3.02868
1.60243
1.42560
Locaxion=AND; Fomvmon=COPPER RJDGE: Site=36; 00-05 =2248; 05-10=2249: 10-15 =2250;
15-20=
2251; 20-25
=2252: 25-30--
=225J; Phase
=2
Cesiun-137
pCi/g
0.47755
0.17720
0.15596
0.02985
0.02905
0.00658
Potassiun-40
pCi/g
3.38401
3.09831
3.38601
2.97470
2.85441
3.77005
Radiun-226
pCi/g
0.91612
0.87731
0.86417
0.83839
0.78155
0.78228
Thoriun-232
pCi/g
0.57038
0.57493
0.57045
0.58378
0.58734
0.65262
Uraniun-235
pci/g
0.19948
0.18655
0.17641
0.17061
0.15859
0.07353
Urani un-238
pCi/g
0.88464
2.72216
2.84852
3.19673
1.83871
-------�
B-72
Table B.2 (continued)
Depth (cm)
Analysis Units 00-05 05-10 10-15 15-20 20-25 25-30
Location=AND; Formation=COPPER RIDGE; Sue=37; 00-05=2287; 05-10=2288; 10-15 =2289;
15-20=
2290; 20-25
=2291; 25-30--
=2292; Phase
=2
Cesiun-137
pCi/3
1.07299
0.69610
0.57877
0.37496
0.05467
0.00813
Potassiun-40
pCi/g
3.78546
2.68513
2.50862
2.38283
3.25296
4.80193
Radiun-226
pCi/g
1.05112
0.82304
0.91127
0.78462
0.82812
1.03727
Thorium-232
pCi/g
0.70981
0.58473
0.54484
0.48605
0.47490
0.60464
Uraniun-235
pCi/g
0.22852
0.12887
0.15109
0.14342
0.05152
0.10662
U ran inn-238
PCi/g
2.86259
3.95884
0.28402
1.71699
0.83669
1.91426
Locanon-AND; Formation=COPPER RIDGE; Site=38; 00-05 - 2296; 05-10=2297; 10-15 =2298;
15-20=
2299; 20-25
=2300; 25-30-
=2301; Phase
=2
Cesiun-137
PCi/g
1.02183
0.61949
0.30099
0.08881
0.03800
0.00725
Potassiun-40
PCi/g
4.92117
3.82435
4.38945
3.54379
4.02833
3.84108
Radium-226
pCi/g
0.77056
0.65535
0.75966
0.67264
0.69858
0.69676
Thoriun-232
pci/g
0.55760
0.44787
0.48326
0.40735
0.43187
0.41008
Uraniun-235
pCi/g
0.22540
0.15650
0.13089
0.03143
0.03642
0.06034
Uraniijn-238
pCi/g
4.28717
3.04269
2.38541
0.93944
1.08003
1.18812
Location =AND; Formation=COPPER RIDGE; Siie=39; 00-05=2331; 05-10=2332; 10-15 =2333;
15-20=
2334; 20-25
=2335; 25-30
=2336; Phase
=2
Cesiun-137
PCi/g
0.44619
0.34745
0.19369
0.11172
0.02742
0.01409
Potassiun-40
pCi/g
2.33674
2.91416
2.90200
2.67502
3.02655
2.53587
Radiun-226
pCi/g
0.87742
0.98273
0.99521
0.87104
0.81176
0.76207
Thoriun-232
PCi/g
0.62021
0.69604
0.72401
0.63007
0.61198
0.63045
Uraniun-235
pCi/g
0.18926
0.10230
0.15834
0.11007
0.07944
0.08620
Uraniun-238
pCi/g
4.09139
2.68236
2.76682
2.53132
3.05158
0.90203
Location =AND; Formation=COPPER RIDGE; Siie=40; 00-05=2322; 05-10=2323; 10-15 = 2324;
15-20=
¦ 2325; 20-25
=2326; 25-30-
=2327; Phase
=2
Cesiun-137
pci/g
0.85211
0.39631
0.07536
0.03244
0.01784
0.00179
Potassiun-40
PCi/g
3.90597
4.28751
4.56551
4.96497
4.48585
3.86398
Radiun-226
pCi/g
0.94750
0.96505
0.92617
0.95940
0.97082
0.93871
Thoriun-232
pci/g
0.83800
0.90142
0.98676
1.02443
0.98031
0.94777
Uraniun-235
pci/g
0.19173
0.18276
0.07901
0.10528
0.11387
0.06734
Uraniun-238
pCi/g
5.72968
3.86449
3.26952
2.32441
1.17050
1.38489
Locaiion=AND; Formtmon=COPPER RIDGE; Siie=41; 00-05=2314; 05-10=2315; 10-15=2316;
15-20=2317; 20-25=2318; 25-30=2319; Phase=2
Cesiun-137
pCi/g
1.13664
0.91528
0.51366
0.08159
0.02022
0.00519
Potassiun-40
pCi/g
4.48473
4.87910
4.86342
4.51613
5.48717
4.97048
Radiun-226
pCi/g
0.99084
1.08735
1.11169
1.07832
1.08703
1.00715
Thoriun-232
pCi/g
0.89809
0.91022
0.90059
0.90530
1.01890
0.92744
Uraniun-235
pci/g
0.19794
0.19653
0.21888
0.12762
0.08010
0.10685
Uraniun-238
pCi/g
1.45992
1.69972
2.79876
1.60756
2.22816
1.76352
Location = AND; Formanon=COPPER RIDGE; Site=42; 00-05=2305; 05-10=2306; 10-15 = 2307;
15-20=
2308; 20-25
=2309; 25-30.
=2310; Phase
= 2
Cesiun-137
pCi/g
0.66215
0.33570
0.15513
0.03418
0.02752
0.01134
Potass iun-40
pCi/g
4.56549
4.08042
4.74424
5.25863
5.20465
5.39969
Radiun-226
PCi/g
1.25763
1.32136
1.30281
1.19369
1.09153
1.13332
Thoriun-232
pci/g
0.98103
0.92221
0.94853
0.99471
0.89235
0.95286
Uraniun-235
pCi/g
0.19771
0.19160
0.12521
0.10293
0.11995
0.10290
Uranium-238
pCi/g
2.86540
2.77620
3.04342
3.50521
2.18517
-------�
B-73
Table B.2 (continued)
Depth (cm)
Analysis Units 0G-05 05-10 10-15 15-20 20-25 25-30
Location=AND; Formtmon= DISMAL GAP; Siie=l; 00-05 =2161; 05-10=2162; 10-15=2163; 15-20=2164;
20-25=2165; 25-30=2166; Phase =1
Cesium-137
pCi/g
1.0405
0.1665
0.0405
0.0024
Potassiun-40
pCi/g
15.3184
17.2832
24.2441
28.9573
27.5187
26.7698
Radiun-226
pci/g
0.5906
0.6374
0.6665
0.5316
0.5379
0.5178
Thoriun-232
pCJ/g
0.8824
0.9491
1.1162
1.1710
1.1096
1.1050
Uraniun-235
PCi/g
0.0548
Uraniun-238
pCi/g
1.5935
3.2284
1.0655
Location =AND; Formation = DISMAL GAP; Site=10; 00-05=2151; 05-10=2152; 10-15=2153; 15-20=2154;
20-25 =2155; 25-30=2156; Phase=1
Cesiun-137
pCi/g
1.7352
0.4507
0.0784
0.1257
0.0380
0.0010
Potassium-40
pci/g
11.8015
11.8693
12.2725
12.5808
16.4545
18.3984
Radium-226
pCi/g
0.7584
0.6983
0.7517
0.7760
0.7012
0.7227
Thoriun-232
pCi/g
0.9708
0.8848
0.9176
0.9236
1.0609
1.0965
Uraniun-235
pCi/g
0.2239
0.1365
0.1481
0.1374
0.1045
0.0549
Uraniun-238
pCi/g
4.0791
2.6709
I.0747
0.6061
1.2632
1.0706
Location =AND; Formation = DISMAL GAP; Site=ll; 00-05=2008: 05-10=2009; 10-15=2010: 15-20=2011;
20-25 = 2012: 25-30= 2013; Phase=l
Cesiun-137
PCi/g
1.3817
0.3935
0.1478
0.0640
0.0289
0.0109
Potassiun-40
pCi/g
27.4654
26.5695
27.4711
30.7996
34.7116
35.2470
Radiun-226
pCi/g
0.5614
0.5051
0.4774
0.5233
0.5704
0.6033
Thoriun-232
pCi/g
0.8008
0.8003
0.8681
0.9982
1.1924
1.2761
Uraniun-235
pCi/g
0.3359
0.1403
0.1355
0.0286
0.1508
0.0515
Uraniun-238
pCi/g
2.9494
2.7268
2.5674
1.3655
3.0768
1.9468
Location =AND; Formation = DISMAL GAP; Site=12; 00-05 =2084; 05-10= 2085; 10-15 = 2086; 15-20=2087;
20-25 =2088; 25-30= 2089; Phase=l
Cesiun-137
pCi/g
1.0709
0.1372
0.0255
0.0175
0.0314
0.0386
Potassi un-40
pCi/g
24.4291
26.2972
30.1365
32.0915
34.8006 "
33.3333
Radiun-226
pCi/g
0.5542
0.645 0
0.6896
0.7044
0.7390
0.6715
Thoriun-232
pCi/g
0.7771
0.8903
0.9694
1.2797
1.3595
1.3283
Uraniun-235
PCi/g
0.1039
0.1844
0.2166
0.1761
0.2364
Uraniun-238
pCi/g
4.7411
3.5144
4.4903
Location =AND; Formation=DISMAL GAP; Site=19; 00-05=2124; 05-10=2125; 10-15=2126; 15-20=2127;
20-25=2128; 25-30= 2129; Phase=l
Cesium-137
pCi/g
2.1956
0.3944
0.0641
0.0341
0.0048
0.0092
Potassiun-40
pCi/g
10.8236
13.7935
14.9526
19.0090
21.5009
21.5915
Radiun-226
PCi/g
0.5843
0.7096
0.6770
0.6492
0.6780
0.6273
Thori un-232
PCi/g
0.8043
1.0076
1.0909
1.2560
1.3327
1.2870
Uraniun-235
pCi/g
0.1024
0.1452
0.1432
0.1029
0.1650
0.0666
Uranium-238
pCi/g
0.9936
0.8918
2.4189
2.7871
2.3963
1.3233
Location =AND; Formation=DISMAL GAP; Site=20; 00-05=2074; 05-10=2075: 10-15=2076:15-20=2077;
20-25=2078; 25-30=2079; Phase=l
Cesiun-137
pCi/g
1.1134
0.0549
0.0363
0.0403
Potassiun-40
pCi/g
17.3193
16.7671
18.7084
21.6877
20.6868
19.2249
Radiun-226
PCi/g
0.7066
0.6747
0.6899
0.7344
0.7655
0.5821
Thoriun-232
pCi/g
1.0379
0.9686
1.1993
1.4205
1.4101
1.2856
Uraniun-235
pCi/g
0.2252
0.0902
Uraniun-238
pCi/g
4.0640
-------�
B-74
Tabic B.2 (continued)
Depth (cm)
Analysis Units 00-05 05-10 10-15 15-20 20-25 25-30
Locanon = AND; Formanon=DlSMAL GAP; Sue=21; 00-05=2105; 05-10=2106; 10-15=2107; 15-20=2108;
20-25 =2109; 25-30=2110; Phase=1
Cesiun-137
pCi/g
0.8445
0.1873
0.0844
0.0787
0.0172
0.0154
Potassiun-40
pCi/g
21.1842
21.1774
29.5182
28.1374
26.8110
28.8829
Radi un-226
pCi/g
0.4616
0.5328
0.5716
0.4946
0.5707
0.5243
Thorium-232
pCi/g
0.8694
0.8480
1.1365
1.1462
1.1399
1.2445
Uraniun-235
PCi/g
0.1963
0.2800
0.2204
Uraniun-238
PCi/g
5.6762
3.7402
4.0914
4.3602
Location =AND; Formation =DISMAL GAP; She=22; 00-05=2094; 05-10=2095; 10-15 =2096; 15-20=2097;
20-25=2098; 25-30=2099; Phase=1
Cesiun-137
pCi/g
0.5353
0.0534
0.0255
0.0269
0.0248
0.0075
Potassiun-40
pCi/g
29.6099
26.6361
27.9045
25.3770
28.1517
29.2053
Radi un-226
pci/g
0.6262
0.6201
0.6371
0.6038
0.6204
0.5593
Thoriun-232
pCi/g
1.0610
1.0666
1.2126
1.2661
1.1991
1.1141
Uraniun-235
pCi/g
0.1576
0.1492
0.1560
0.1608
0.1619
0.0565
Uraniun-238
pci/g
3.1628
2.6898
3.2686
3.3346
2.9950
1.2268
Location =AND; Formation=DISMAL GAP; Site=3; 00-05=2063; 05-10= 2064; 10-15 = 2065; 15-20= 2066:
20-25=2067; 25-30=2068; Phase=1
Cesiun-137
pCi/g
0.5910
0.1505
0.0473
0.0247
0.0148
Potassiun-40
pCi/g
22.0278
20.0736
20.3150
22.0944
23.9437
22.9413
Radi un-226
pCi/g
0.5822
0.6817
0.5955
0.5933
0.6653
0.5522
Thoriun-232
pCi/g
1.1588
1.1267
1.1139
1.2530
1.3566
1.3722
Uraniun-235
pci/g
0.1369
0.1372
0.0526
Uraniun-238
pCi/g
2.1177
1.6575
4.4991
Location =AND; Formation=DISMAL GAP; Site=4; 00-05 = 2043; 05-10= 2044; 10-15 =2045; 15-20 =2046;
20-25=2047; 25-30=2048; Phase=l
Cesiun-137
pCi/g
1.4287
0.1510
0.0498
0.0627
0.0692
0.0263
Potassiun-40
pCi/g
38.6418
35.0762
34.7543
38.6450
39.4480
36.5679
Radiun-226
pCi/g
0.6041
0.5853
0.5594
0.5266
0.5971
0.5300
Thoriun-232
PCi/g
1.0622
0.9718
0.9949
1.1156
1.2681
1.1060
Uraniun-235
pci/g
Uraniuri-238
pCi/g
Location =AND; Formation=DISMAL GAP; Sue=5; 00-05=2053; 05-10=2054; 10-15=2055; 15-20=2056;
20-25=2057; 25-30=2058; Phase=1
Cesiun-137
pCi/g
0.7101
0.0924
0.0095
Potassiun-40
pCi/g
42.2530
42.8831
42.2073
42.2013
39.4710
36.9445
Radium-226
pci/g
0.5661
0.5771
0.5308
0.5410
0.5666
0.6190
Thoriun-232
pCi/g
1.1098
1.1491
1.1711
1.1772
1.1599
1.1139
Urani un-235
pCi/g
0.2555
0.2688
0.0803
Uraniun-238
pCi/g
3.4697
3.5550
1.1683
Location =AND; Formation=DISMAL GAP; Siie=9; 00-05=2137; 05-10=2138; 10-15=2139; 15-20=2140;
20-25 = 2141; 25-30=2142; Phase=1
Cesiun-137
pCi/g
1.2969
0.2461
0.0855
0.0120
0.0403
0.0043
Potassiun-40
pCi/g
17.1819
18.9354
20.4686
22.2786
22.6142
20.6699
Radiun-226
pCi/g
0.5175
0.7025
0.7756
0.8913
0.7526
0.7397
Thoriun-232
pCi/g
0.8142
1.2333
1.4551
1.4779
1.5131
1.3998
Uraniun-235
pCi/g
0.4942
0.2734
0.2443
0.0979
Uraniun-238
pCi/g
1.1784
5.1406
4.5186
-------�
B-75
Table B2. (continued)
Depth (cm)
Analysis Units 00-05 05-10 1 0-15 15-20 20-25 25-30
Location=ORR; Formation=CHEPULTEPEC; She=50; 00-05=1847; 05-10=1848; 10-15=1849:
15-20=1850; 20-25=1851; 25-30=1852; Phase=2
Cesiun-137
pCi/g
2.10241
0.15775
0.15342
0.08184
0.02196
0.01190
Potassium-40
F>Ci/g
1.86521
1.64010
1.62390
1.87998
1.96848
2.04277
Radium-226
PCi/g
0.84902
0.60450
0.80096
0.82490
0.76813
0.75780
Thorium-232
PCi/g
0.85090
0.89647
0.73944
0.71344
0.76171
0.77049
Uraniun-235
pCi/g
0.27669
0.15540
0.06980
0.11901
0.06413
Uraniun-238
pci/g
4.98833
2.55921
2.21355
2.00319
1.78579
1.61368
Location =ORR; Formation=CHEPULTEPEC; Sise=52; 00-05=1654; 05-10=1655; 10-15=1656;
15-20=1657; 20-25=1658; 25-30=1659; Phase=2
Cesiun-137
pCi/g
0.94567
0.75691
0.21236
0.08661
0.02230
0.00585
Potassium-40
pCi/g
1.83657
2.36038
2.40621
2.51101
2.53563
2.75268
Radiun-226
pCi/g
0.66880
0.92030
0.85986
0.86925
0.83692
0.83155
Thorium-232
pci/g
0.77927
0.79053
0.78731
0.70907
0.69291
0.66490
Uranium-235
pCi/g
0.20318
0.17013
0.15691
0.30185
0.10554
0.07704
Uraniun-238
pCi/g
2.70509
2.42274
2.12015
1.70132
".85996
'.23402
Locanon =ORR; Formanon=CHEPULTEPEC; Sue=53; 00-05=1642; 05-10=1643; 10-15=1644;
15-20=1645; 20-25=1646; 25-30=1647; Phase=2
Cesiun-137
Potassiun-40
Radi urn-226
Thoriun-232
Uraniun-235
pCi/g
pCi/g
pCi/g
F>Ci/g
pCi/g
0.55692
1.45076
0.43267
0.44171
0.08800
0.34886
2.12170
0.71181
0.52641
0.06099
0.10377
2.43330
0.63744
0.48087
0.10436
0.02640
2.52317
0.65940
0.50593
0.04985
0.02519
2.43012
0.63295
0.47345
0.01261
0.00505
2.29705
0.52831
0.39785
0.04135
Location=ORR; Formation =CHEPULTEPEC; Sue=66: 00-05=1821: 05-10=1822: 10-15=1823;
15-20=1824; 20-25=1825; 25-30=1826; Phase=2
Cesiun-137
pCi/g
0.60910
0.21391
0.13298
0.02826
0.01737
0.00263
Potassiun-40
PCi/g
2.40029
2.47074
3.49271
3.68101
4.55206
6.08771
Radi un-226
pCi/g
0.67443
0.66434
0.82011
0.74611
0.74032
0.75 872
Thoriun-232
PCi/g
0.48728
0.52861
0.59798
0.63006
0.84123
0.96222
Uraniun-235
pCi/g
0.19274
0.10026
0.16056
0.10993
0.06597
0.04559
Location=ORR; Formation =CHEPULTEPEC; Sue=68; 00-05 = 1787; 05-10=1788; 10-15 = 1789;
15-20=1790; 20-25=1791; 25-30=1792; Phase=2
Cesiun-137
pCi/g
D.85939
0.56481
0.29776
0.08572
0.01469
0.00865
Potassiun-40
F>Ci/g
2.25573
2.18213
2.00510
2.37480
2.49411
2.69501
Radiun-226
PCi/g
0.70901
0.66641
0.76377
0.71273
0.76090
0.72938
Thoriun-232
PCi/g
0.48110
0.50472
0.47951
0.51198
0.50780
0.52553
Uraniun-235
pci/g
0.11856
0.14985
0.14525
0.10973
0.12596
0.02980
Uraniun-238
pCi/g
2.04822
1.90646
2.31187
1.88291
'..79329
1.05443
Location=ORR: Formanon =CHEPULTEPEC: Siie = 73; 00-05 = 1841: 05-10=1842: 10-15 = 1843:
15-20=1844: 20-25=1845: 25-30=1846: Phase=2
Cesiun-137
pCi/g
1.72656
0.74266
0.30316
0.02544
0.03622
0.02451
Potassiun-40
PCi/g
3.99339
3.34947
3.84441
5.33054
8.42374
8.59054
Radi un-226
pCi/g
0.87470
0.86587
0.85662
0.86176
1.08019
1.19483
Thoriun-232
pCi/g
0.61118
0.55512
0.52520
0.62364
0.92944
0.98424
Uraniun-235
pCi/g
0.13422
0.24984
0.07828
0.22091
0.11329
Uraniun-238
pCi/g
3.25721
2.56090
2.77254
1.76096
3.88758
-------�
B-76
Tabic B.2 (continued)
Depth (cm)
Analysis Units 00-05 05-10 10-15 15-20 20-25 25-30
Location =ORR; Formation=CHEPULTEPEC; Sile = 74; 00-05=1773; 05-10=1774; 10-15=1775;
15-20=1776; 20-25=1777; 25-30=1778; Phase=2
Cesiun-137
pci/g
0.96025
0.26977
0.04590
0.02125
0.01732 '
' 0.00500
Potassi im-40
pci/g
2.25082
1.91660
2.34893
2.74624
2.80257
3.75242
Radiun-226
pci/g
0.59209
0.54595
0.69166
0.68604
0.64524
0.77262
Thoriun-232
pci/g
0.37507
0.37835
0.40800
0.43511
0.45368
0.56593
U ran inn-235
pci/g
0.05496
0.11169
0.13967
0.08435
0.10323
0.02788
Uranium-238
pci/g
2.81928
2.03545
2.34166
2.32901
1.49243
2.01357
Location=ORR; Formation =CHEPULTEPEC; Sue=77; 00-05=1690; 05-10=1691; 10-15=1692;
15-20=
1693; 20-25
=1694; 25-30-
=1695; Phase
=2
Cesiun-137
pCi/g
1.49008
0.67372
0.07884
0.01549
0.00605
0.00173
Potassiun-40
pCi/g
2.05836
2.47857
2.65682
2.71133
3.23189
2.85856
Radiun-226
pci/g
0.67308
0.72096
0.76309
0.70380
0.72528
0.78096
Thoriun-232
pCi/g
0.60401
0.67281
0.65027
0.64995
0.70600
0.62037
Uraniun-235
pCi/g
0.17543
0.13445
0.09349
0.06048
0.06344
Uraniun-238
pCi/g
2.86800
2.67554
2.13459
2.10577
1.49298
1.08271
Locanon=ORR; Formation =CHEPULTEPEC: Siie = 78; 00-05=1672; 05-10=1673; 10-15=1674;
15-20=
1675; 20-25
=1676; 25-30-
=1677; Phase
=2
Cesium-137
pci/g
0.84300
0.59938
0.15047
0.02233
0.00533
0.00178
Potassiun-40
PCi/g
2.78335
2.96564
2.77574
3.38102
2.37894
2.77230
Radiun-226
pci/g
0.87625
0.86353
0.76337
0.84107
0.66695
0.72479
Thoriun-232
pCi/g
0.53698
0.57751
0.54178
0.73098
0.52900
0.58087
Uraniun-235
pCi/g
0.15346
0.17103
0.14345
0.14361
0.03349
0.05811
Uraniun-238
pCi/g
3.23746
2.13588
1.80648
2.18807
0.86810
1.31160
Location=ORR; Formation=CHEPULTEPEC; Siie=85; 00-05=1726; 05-10=1727; 10-15=1728;
15-20=1729; 20-25=1730; 25-30=1731; Phase=2
Cesiun-137
pCi/g
0.99675
0.47968
0.14051
0.04096
0.02292
0.00261
Potassiun-40
pCi/g
3.62987
3.96800
4.71797
4.42078
4.19563
4.24248
Radiun-226
pCi/g
0.82100
0.81967
0.87965
0.77504
0.70771
0.71-151
Thoriun-232
PCi/g
0.61926
0.62927
0.66659
0.64630
0.59914
0.58887
Uraniun-235
pCi/g
0.19439
0.15737
0.18623
0.10504
0.11408
0.01763
Uraniun-238
pci/g
1.82446
1.03794
3.13245
2.89798
1.41758
1.14031
Location =ORR; Formation=CHEPULTEPEC; Site=86; 00-05=1708; 05-10=1709; 10-15=1710;
15-20=1711; 20-25=1712; 25-30=1713; Phase=2
Cesiun-137
pci/g
1.02891
0.22752
0.16600
0.05582
0.01965
0.00924
Potassiun-40
pCi/g
0.76543
1.25940
2.69652
3.11371
2.67786
3.06805
Radiun-226
pCi/g
0.48283
0.50695
0.67018
0.65021
0.57922
0.55953
Thoriun-232
pci/g
0.10907
0.18651
0.42869
0.44718
0.44317
0.41546
Uraniun-235
pCi/g
0.13158
0.11178
0.28019
0.12743
0.16563
0.05644
Uraniun-238
pCi/g
2.63913
1.62807
3.29619
2.92163
1.67386
1.26766
Location=ORR; Formation =CHEPULTEPEC; Site=90; 00-05=1757; 05-10=1758; 10-15=1759;
15-20=1760; 20-25=1761; 25-30=1762; Phase=2
Cesiun-137
pci/g
0.99096
0.38078
0.09616
0.05189
0.03466
0.01477
Potassiun-40
pCi/g
1.82854
1.52587
2.02061
2.09026
3.45065
5.31109
Radiun-226
pci/g
0.52324
0.51375
0.57124
0.45103
0.55692
0.54744
Thoriun-232
PCi/g
0.55453
0.51412
0.56661
0.45697
0.57644
0.77534
Uraniun-235
pci/g
0.06764
0.19008
0.04453
0.09235
0.09054
0.01592
Uraniun-238
pci/g
0.87774
1.60235
1.98372
0.99219
2.10338
-------�
3-77
Tabic B.2 (continued)
Depth (cm)
Analysis Units 00-05 05-10 10—15 15-20 20-25 25-30
Location =OKR: Formation=CHICKAMA UGA Bethel V: Site=100; 00-05=1883; 05-10=1884; 10-15=1885;
15-20=1886; 20-25=1887; 25-30=1888; Phase=2
Cesiun-137
pCi/g
4.1484
0.0887
0.0276
0.0266
0.0265
0.0328
Potassiun-40
pci/g
25.1193
26.7140
33.1802
34.0221
32.0928
35.9458
Radiun-226
pCi/g
0.7243
0.6227
0.6057
0.5096
0.5329
0.6249
Th or inn-232
pCi/g
1.1726
1.2362
1.4337
1.4361
1.3364
1.5226
Uraniun-235
DCi/g
0.3127
0.1906
0.1705
0.1704
0.1602
C.0234
Locanon =ORR; Formmion = CHICKAMA UGA Bethel V: Site=101; 00-05=1920: 05-10=1921: 10-15=1922;
15-20=1923; 20-25=1924; 25-30=1925; Phase=2
Cesium-137 pCi/g 2.8195 1.1620 0.4971 0.1861 0.1093 0.0669
Potassium-40 pCi/g 25.8557 28.3762 28.7446 27.6445 28.1725 29.3659
Radium-226 pCi/g 0.6397 0.6137 0.6723 0.5617 0.5790 0.6154
Thorium-232 sCi/g 1.2295 1.2602 1.3272 1.2671 1.2781 1.3224
Uraniun-235 pCi/g 0.2592 0.2144 0.2153 0.0694 0.1559 0.0400
Location =ORR: Formation=CHICKAMA UGA Bethel V: Site=i02: 00-05=1914: 05-10=1915: 10-15=1916;
15-20=1917; 20-25=1918; 25-30=1919: Phase=2
Cesium-137 pCi/g 2.3368 1.2347 0.2961 0.0872 0.0399 0.0081
Potassiun-40 pCi/g 14.8798 13.0872 14.4717 15.4992 17.6216 18.9912
Radium-226 pCi/g 0.8934 0.7905 0.8284 0.7152 0.8199 0.6996
Thoriun-232 pCi/g 1.5042 1.2724 1.3420 1.2938 1.3094 1.2783
Uraniun-235 pCi/g 0.1685 0.2083 0.1290 0.1575 . 0.1638 0.1154
Location = ORR; Formation=CHICKAMA UGA Bethel V; Site=103; 00-05=1908; 05-10=1909; 10-15=1910;
15-20=1911; 20-25=191Z' 25-30=1913; Phase=2
Cesium-137 pCi/g 1.6265 0.1131 0.1092 0.0111 0.0431 0.0171
Potassium-40 pCi/g 34.4526 28.9176 22.0552 32.0828 30.8301 31.4933
Radiun-226 pCi/g 0.7153 0.5756 0.5848 0.6318 0.5546 0.5441
Thorium-232 pCi/g 1.1411 1.2310 1.4093 1.4282 1.4327. 1.4606
Uraniun-235 pCi/g 0.2528 0.1986 0.2215 0.2268 0.0536 0.0964
Locanon=ORR; Formation=CHICKAMA UGA Bethel V: Site=104; 00-05=1981: 05-10=1982: 10-15=1983;
15-20=1984; 20-25=1985; 25-30=1986; Phase=2
Cesium-137
pCi/g
2.6889
0.3540
0.1038
0.0318
0.0055
0.0153
Potassium-40
pCi/g
23.3107
20.5458
24.8031
24.6567
26.8630
29.6826
Radiun-226
PCi/g
0.8708
0.5928
0.6250
0.5898
0.5504
0.5771
Thorium-232
pCi/g
0.8802
0.6620
0.8729
1.0192
1.2982
1.4975
Uraniun-235
pCi/g
0.2882
0.1099
0.1624
0.1116
0.1568
0.0328
Uraniun-238
pCi/g
1.1765
4.7232
2.5866
Location=ORR; Formation =CHICKAMAUGA Bethel V; Site=108; 00-05=1987; 05-10=1988: 10-15=1989;
15-20=1990; 20-25=1991: 25-30=1992; Phase=2
Cesiun-137
pCi/g
1.20756
0.1196
0.0615
0.0138
0.0263
0.0032
Potassiun-40
pci/g
7.91772
11.3295
19.7268
22.2148
24.7961
24.9512
Radiun-226
PCi/g
0.82065
0.75 05
0.8196
0.7283
0.7129
0.6790
Thoriun-232
pCi/g
1.25172
1.3449
1.5114
1.5877
1.6662
1.7229
Uraniun-235
pCi/g
0.27053
0.1960
0.0121
0.2420
0.0587
Uraniun-238
pCi/g
3.3103
3.3971
3.2116
1.2403
Location=ORR: Formation =CHICKAMA UGA Bethel V; Site = 110: 00-05 =4032; 05-10=4033: 10-15=4034;
15-20=4035; 20-25 =4036: 25-30=4037; Phase=2
Cesiun- 137 pCi/g 0.98105 0.17764 0.0869 0.0644 0.0079 T.0303
-------�
B-78
Table B.2 (continued)
Depth (cm)
Analysis Units 00-05 05-10 10-15 15-20 20-25 25-30
Radinn-226 pCi/g 0.99604 0.76348 0.8960 0.7386 1.1463 0.7284
Thorium-232 pCi/g 1.33402 1.19840 1.4199 1.2539 1.4847 1.3361
Uraniun-235 pCi/g 0.21108 0.24451 0.2253 0.2437 0.1642 0.0353
Uraniun-238 pCi/g 1.9764 2.6670 0.8714
Locaiion=ORR; Formation =CHICKAMAUGA Bethel V; Site=115; 00-05=4026; 05-10=4027; 10-15=4028;
15-20=4029; 20-25=4030; 25-30=4031; Phase=2
Cesiun-137
pCi/g
1.63932
0.25246
0.06675
0.03083
0.0328
0.0248
Potass iun-40
pci/g
6.94570
7.89016
8.43249
9.54118
10.9773
12.2497
Radium-226
pCi/g
0.93882
0.91230
0.82885
0.82391
0.9375
1.0977
ThoriiJn-232
pci/g
1.30092
1.41934
1.31554
1.38067
1.4694
1.4943
Uraniun-235
pCi/g
0.23453
0.17123
0.13255
0.17080
0.1233
0.1020
Uraniun-238
pCi/g
4.88783
0.91213
2.53600
0.64080
2.9670
1.1241
Location=ORR; Formation=CHICKAMA UGA Bethel V; Site=116; 00-05=4000; 05-10=4001; 10-15=4002;
15-20=4003; 20-25=4004; 25-30=4005; Phase=2
Cesiun-137
pCi/g
1.1171
0.3121
0.0817
0.0378
0.0271
0.0148
Potassiun-40
pCi/g
14.5564
15.3602
16.4251
19.7006
23.4032
23.7906
Radiun-226
pCi/g
0.9115
0.7440
0.7302
0.6853
0.6189
0.6274
Thorium-232
pCi/g
1.2114
1.2710
1.2793
1.3579
1.4752
1.4623
Uraniun-235
pCi/g
0.0889
0.1848
0.2112
0.1527
0.0219
0.0520
Location=ORR; Formanon = CHICKAMA UGA Bethel V; SUe=117; 00-05 =4013; 05-10=4014; 10-15=4015;
15-20=4016; 20-25=4017; 25-30=4018; Phase=2
Cesiun-137
pCi/g
0.86595
0.48475
0.18540
0.0538
0.0156
0.0068
Potassi um-40
pCi/g
7.99921
8.07801
9.88111
21.2407
23.5741
24.3898
Radiun-226
pCi/g
0.79833
0.71445
0.70534
0.6280
0.6423
0.5496
Thoriun-232
pCi/g
0.99564
1.00883
1.06998
1.4101
1.4237
1.3773
Uraniun-235
pCi/g
0.19169
0.17305
0.16859
0.1576
0.0988
0.0413
Location = ORR; Formanon=CHICKAMA UGA Bethel V; Site=93; 00-05=1871; 05-10=1872; 10-15=1873;
15-20=1874; 20-25=1875; 25-30=1876; Phase=2
Cesiun-137
pCi/g
1.6874
0.1548
0.0816
0.0515
0.0442
0.0358
Potassium-40
pCi/g
14.7053
15.5027
21.5573
22.5600
22.2651
27.2214
Radiun-226
pCi/g
0.7843
0.6856
0.6729
0.6466
0.6053
0.8620
Thoriun-232
pCi/g
1.3124
1.2895
1.4183
1.4014
1.3593
1.5816
Uraniun-235
pci/g
0.2159
0.3361
0.1650
0.1771
0.1643
0.1450
Location =ORR; Fonnation=CHICKAMA UGA Bethel V; Site=99; 00-05=1877; 05-10=1878; 10-15=1879;
15-20=1880; 20-25=1881; 25-30=1882; Phase=2
Cesium-137
pCi/g
1.3424
0.3349
0.2164
0.0335
0.0135
0.0070
Potassium-40
pCi/g
12.6348
12.2586
14.3657
14.7168
15.0907
16.1017
Radiun-226
pCi/g
0.9160
0.8829
0.9142
0.8761
0.8538
0.8647
Thoriun-232
pCi/g
1.3127
•1.3233
1.3863
1.3169
1.2438
1.2936
Uraniun-235
pCi/g
0.2068
0.1909
0.1610
0.1638
0.1449
0.0461
Location=ORR; Formation =CHICKAMA UGA K-25; Site=118; 00-05 =4077; 05-10=4078; 10-15=4079;
15-20=4080; 20-25=4081; 25-30=4082; Phase=2
Cesiun-137
pCi/g
4.3547
0.2531
0.0345
0.0791
0.0535
0.0194
Potassi un-40
pCi/g
34.7095
25.7962
33.0683
30.6392
27.2936
30.2019
Radiun-226
pCi/g
1.4909
0.8481
0.8304
0.8499
0.7395'
0.6780
Thoriun- 232
pCi/g
2.8539
1.7956
2.1456
2.0113
1.8393
1.8581
Uraniun-235
pCi/g
0.8611
0.2830
0.3192
0.4587
0.2699
0.1299
Uraniun-238
pci/g
10.7360
6.0008
5.7285
4.5065
5.6376
-------�
B-79
Table B.2 (continued)
Depth (cm)
Analysis Units 00-05 05-10 10-15 15-20 20-25 25,-30
Location — ORR; Formation - CHI CKAMA UGA K-25; Site=119; 00-05 =4180; 05-10=4181; 10-15=4182;
15-20=
4183; 20-25
=4184; 25-30
=4185; Phase
=2'
Cesiun-137
pci/g
1.4584
0.5068
0.0501
0.0382
0.0369
0.0148
Potassiun-40
pCi/g
12.2804
10.2521
10.5291
15.0735
18.5972
23.4081
Radium-226
pCi/g
1.0550
0.8003
0.7489
0.7660
0.6768
0.6063
Thoriun-232
pCi/g
1.2823
1.1452
1.1784
1.2036
1.1759
1.3051
Uraniun-235
pCi/g
0.3896
0.2970
0.1517
0.1877
0.2034
0.0602
Uranium-238
pci/g
5.9931
3.4204
2.9711
1.8796
2.7881
1.2742
Location=ORR; Formanon=CHICKAMA UGA K-25; Sue=120; 00-05 =4071; 05-10=4072; 10-15=4073;
15-20=4074; 20-25=4075; 25-30=4076; Phase=2
Cesiun-137
pci/g
1 .33960
0.53536
0.17735
0.04010
0.03723
0.0070
Potass iun-40
pCi/g
5.20520
5.79742
5.51634
5.34278
8.32013
11.1744
Radiun-226
pCi/g
1.40231
1.10239
1.22453
0.87288
1.11442
1.0019
Thoriun-232
pCi/g
1.32052
1.14549
1.30369
1.05907
1.35182
1.4632
Uranium-235
pCi/g
0.30442
0.16768
0.06091
0.20111
0.18003
0.0937
Uranium-238
pCi/g
4.10116
4.11602
2.05312
2.03516
3.98922
2.2493
Location=ORR; Formation=CHICKAMAUGA K-25; Site=121; 00-05=4186; 05-10=4187; 10-15=4188;
15-20=4189; 20-25 =4190; 25-30=4191; Phase=2
Cesiun-137
pCi/g
1.10186
0.07836
0.01962
0.0274
0.0343
0.0111
Potassiun-40
pci/g
6.80667
6.49062
7.92026
11.9132
26.9167
31.8098
Radiun-226
pCi/g
0.76879
0.65263
0.63570
0.6228
0.5058
0.5205
Thorium-232
pCi/g
0.90520
0.83863
0.83011
0.9086
1.2449
1.3416
Uraniun-235
PCi/g
0.16449
0.06696
0.04179
0.1466
0.1748
0.0450
Uranium-238
pci/g
3.46693
2.61692
2.38197
2.5582
3.9474
1.8486
Location =ORR; Formation = CHICKAMA UGA K-25; Site = 122; 00-05 =4192; 05-10=4193; 10-15=4194;
15-20=4195; 20-25=4196; 25-30= 4197; Phase=2
Cesiun-137
pCi/g
1.1869
0.56579
0.1236
0.0663
0.0213
0.0142
Potassiun-40
pCi/g
13.6981
9.91624
15.5927
23.9834
26.2110
26.3081
Radiun-226
PCi/g
1.1588
0.89597
0.8200
0.9734
0.9900
0.7625
Thoriun-232
PCi/g
1.2927
0.98060
1.1210
1.5849
1.5897
1.5327
Uraniun-235
PCi/g
0.2864
0.03328
0.1158
0.2249
0.2220
0.0644
Uranium-238
pci/g
8.0204
3.55565
2.1722
3.8511
1.7435
1.3441
Location =ORR; Formation=CHICKAMA UGA K-25; Site=123; 00-05=4210; 05-10=4211; 10-15=4212;
15-20=4213; 20-25 =4214; 25-30=4215; Phase=2
Cesiun-137
pCi/g
0.80657
0.3396
0.1059
0.0482
0.1111
0.0144
Potassiun-40
pCi/g
8.40190
10.2694
14.3937
24.2186
22.5278
19.9658
Radium-226
pCi/g
0.67741
0.6301
0.7143
0.8308
0.7935
0.7137
Thoriun-232
pCi/g
1.20688
1.1700
1.4841
2.0776
1.9009
1.7373
Uraniun-235
pCi/g
0.12577
0.1699
0.2119
0.2363
0.1229
0.0764
Uraniun-238
pCi/g
3.45669
3.2591
3.7070
5.0393
4.4112
1.7216
Location=ORR; Formation =CHICKAMA UGA K-25; Site=124; 00-05=4204; 05-10=4205; 10-15 =4206;
15-20=
¦4207; 20-25
=4208; 25-30
=4209; Phase
=2
Cesiun-137
pCi/g
1.27278
0.59321
0.09693
0.0314
0.0353
0.0101
Potassiun-40
pCi/g
7.54343
6.55849
7.74315
21.3926
23.8636
24.8610
Radiun-226
pCi/g
0.90399
0.65415
0.60807
0.6839
0.6701
0.5720
Thoriun-232
pCi/g
1.24992
1.18075
1.10543
1.4016
1.3920
1.4174
Uraniun-235
pCi/g
0.33240
0.18125
0.14240
0.1807
0.1839
0.0437
Uraniun-238
pCi/g
5.16611
2.85472
2.44710
3.6553
4.1227
-------�
B-80
Table B.2 (continued)
Depth (cm)
Analysis Units 00-05 05-10 10-15 15-20 20-25 25-30
Location=ORR; Formation = CHIC KAMA UGA K-25; Site=125; 00-05=4198; 05-10=4199; 10-15=4200;
15-20=4201; 20-25=4202; 25-30=4203; Phase=2
Cesium-137
pCi/g
0.99402
0.24710
0.07979
0.0291
0.0310
0.0125
Potassiun-40
pCi/g
6.75983
6.71753
9.54873
13.8157 .
17.4617
18.2644
Radiun-226
pCi/g
0.73304
0.635B0
0.66263
0.6297
0.6617
0.6110
Thoriun-232
pCi/g
0.88512
0.94483
0.95977
1.1324
1.2079
1.2172
Uraniun-235
PCi/g
0.20058
0.10260
0.15377
0.1574
0.1611
0.0546
Uraniun-238
pCi/g
2.97745
2.33500
2.59780
3.3636
5.2730
1.0867
Location =ORR; Formation=CHICKAMAUGA K-25; Site=126; 00-05=4065; 05-10=4066; 10-15=4067;
15-20=4068; 20-25=4069; 25-30=4070; Phase=2
Cesiun-137
pCi/g
1.4562
0.2313
0.0681
0.0342
0.0119
0.0071
Potassiun-40
pCi/g
12.6823
12.7013
14.8319
14.7306
19.5074
21.7761
Radiun-226
pCi/g
1.1450
0.8826
0.7798
0.7959
0.7794
0.7892
Thoriun-232
pCi/g
1.4928
1.3104
1.2581
1.2906
1.4133
1.5751
Uraniun-235
pCi/g
0.3047
0.1723
0.1682
0.1784
0.1815
0.0628
Uraniun-238
pCi/g
1.9494
1.3067
3.1178
3.2683
3.1206
1.1513
Location=ORR; Formation =CHICKAMAUGA K-25; Site=127; 00-45=4241; 05-10=4242; 10-15=4243;
15-20=4244; 20-25=4245; 25-30=4246; Phase=2
Cesiun-137
pCi/g
2.6830
0.2583
0.0805
0.0453
0.0707
0.0080
Potassiun-40
pCi/g
25.9252
25.8546
28.1656
29.7581
30.2571
16.8718
Radiun-226
pCi/g
0.9024
0.9525
0.9015
0.7875
0.7977
0.4991
Thoriun-232
pCi/g
1.8306
1.7610
1.7809
1.7608
1.9787
1.0384
Uraniun-235
pCi/g
0.3840
0.1811
0.2298
0.2540
0.3645
0.0757
Uraniun- 238
pci/g
7.5973
2.6635
5.2910
4.8094
5.5249
1.7233
Location=ORR; Formation =CHlCKAMA UGA K-25; Site=128; 00-05=4247; 05-10=4248; 10-15=4249;
15-20=4250; 20-25 =4251; 25-30=4252; Phase=2
Cesi un-137
pCi/g
1.61619
0.2387
0.09971
0.0314
0.0310
0.0217
Potassiun-40
pCi/g
9.82509
10.3859
9.26337
15.4870
19.8834
20.2383
Radiun-226
pCi/g
0.96177
0.7177
0.74336
0.8062
0.7147
0.6801
Thori un-232
pCi/g
1.17616
1.1405
1.06324
1.3554
1.5291
1.4257
Uraniun-235
pCi/g
0.30702
0.1698
0.17603
0.2328
0.1300
0.1301
Uraniun-238
pCi/g
4.62269
2.1094
3.21695
1.9292
3.5529
2.1577
Location=ORR; Formation =CHI CKAMA UGA K-25; Site=129; 00-05 =4059; 05-10=4060; 10-15=4061;
15-20=4062; 20-25=4063; 25-30=4064; Phase=2
Cesiun-137
pCi/g
1.61429
0.29571
0.10771
0.0762
0.0481
0.0151
Potassiun-40
pCi/g
4.54902
4.97201
7.60954
12.3434
16.7873
19.0190
Radiun-226
pCi/g
0.86919
0.89614
0.93261
0.9577
0.8687
0.8283
Thori un- 232
pci/g
0.88852
0.90314
1.08012
1.4345
1.6353
1.9284
Uraniun-235
pCi/g
0.19919
0.18315
0.18858
0.2403
0.4288
0.0976
Uraniun-238
pCi/g
5.28711
3.22948
4.15098
3.8462
4.1144
1.8656
Location=ORR; Formanon=COPPER RIDGE; Site=45; 00-05=1593; 05-10=1594; 10-15=1595;
15-20=1596; 20-25=1597; 25-30=1598; Phase=2
Cesiun-137
Potassiun-40
Radiun- 226
Thoriun-232
Uraniun-235
pCi/g
pCi/g
pCi/g
pCi/g
pCi/g
1.31459
2.40802
0.82141
0.55643
0.12673
0.21678
2.43464
0.84477
0.58987
0.12308
0.05398
3.15164
0.96069
0.62893
0.12736
0.01377
2.80080
0.88417
0.65335
0.04333
0.01854
2.76635
0.89114
0.72237
0.09776
0.00991
2.72684
0.86004
0.71819
-------�
B-81
Tabic B2. (continued)
Depth (cm)
Analysis
Units
00-05
05-10
10-15
15-20
20-25
25-30
Location=ORR; Formation=COPPER RIDGE; Site =51; 00-05=1566; 05-10=1567; 10-15=1568;
15-20=1569; 20-25=1570; 25-30=1571; Phase=2
Cesiun-137
Potass inn-AO
Radium-226
Thoriun-232
Uraniun-235
pCi/g
pCi/g
pci/g
pCi/g
pCi/g
0.73767
2.45618
0.72157
0.66572
0.07907
0.46321
2.77590
0.77017
0.67044
0.12186
0.20490
2.59210
0.74240
0.60575
0.12679
0.07874
2.97926
0.79845
0.62838
0.23184
0.01963
3.18076
0.78172
0.60392
0.12207
0.00013
2.77015
0.68494
0.57781
0.04404
Locaiion =ORR; Formation=COPPER RIDGE; Sae=54; 00-05=1630; 05-10=1631; 10-15=1632;
15-20=1633; 20-25=1634; 25-30=1635; Phase=2
Cesiun-137
Potassiun-40
Radiun-226
Thoriun-232
Uraniun-235
pCi/g
pCi/g
pCi/g
pCi/g
pCi/g
0.64576
2.71302
0.82373
0.53051
0.01508
0.37812
3.43090
1.01040
0.61884
0.20106
0.14020
3.56716
1.01885
0.62160
0.12349
0.06296
4.12647
1.01716
0.60884
0.03315
0.04645
4.10096
0.99389
0.68825
0.12283
0.05509
4.28849
1.21019
0.70076
0.08208
Locarion=ORR; Fonnaiion=COPPER RJDGE; Siie=55; 00-05=1560; 05-10=1561; 10-15=1562;
15-20=1563; 20-25=1564; 25-30=1565; Phase = 2
Cesiun-137
Potassium-40
Radiun-226
Thoriun-232
Uraniun-235
pCi/g
pCi/g
pCi/g
pCi/g
pCi/g
0.61139
1.90430
0.67114
0.41367
0.14904
0.55791
2.45251
0.80242
0.52104
0.14581
0.39879
3.71398
0.97207
0.61295
0.07268
0.12312
3.40865
1.00194
0.61924
0.14143
0.01598
3.52387
0.97963
0.63580
0.09627
0.01582
3.40780
0.92247
0.56552
0.05659
Locaiion=ORR; Formtmon=COPPER RIDGE; Site=58; 00-05=1519; 05-10=1520; 10-15=1521;
15-20=1522; 20-25=1523; 25-30=1524; Phase =2
Cesiun-137
Potassiun-40
Radiun-226
Thoriun-232
Uraniun-235
pCi/g
pCi/g
pCi/g
pci/g
pCi/g
0.66312
2.94865
0.65135
0.59720
0.12708
0.33993
3.14324
0.76370
0.67898
0.12637
0.17862
3.82270
0.88086
0.78012
0.12423
0.02516
3.22667
0.80912
0.66765
0.07819
0.01537
3.00775
0.71954
0.60329
0.08214'
0.00034
3.68430
0.92610
0.83300
0.08181
Location =ORR; Formanon=COPPER RIDGE; She=59; 00-05=1513: 05-10=1514; 10-15=1515;
15-20=1516; 20-25=1517; 25-30=1518; Phase=2
Cesiun-137
pCi/g
1.27053
0.19831
0.09355
0.03261
0.01504
0.01884
Potassiun-40
pCi/g
2.84551
2.95404
2.67501
2.81630
3.16815
3.05796
Radiun-226
pCi/g
0.82470
0.91875
0.91501
0.98392
0.89643
0.89360
Thoriun-232
pci/g
0.51482
0.68239
0.65350
0.68352
0.65714
0.60265
Uraniun-235
pCi/g
0.15886
0.07964
0.22271
0.06912
0.11979
0.05196
Location=ORR; Formtmon=COPPER RIDGE; Siie=60; 00-05=1572; 05-10=1573; 10-15=1574;
15-20=1575; 20-25=1576; 25-30=1577; Phase=2
Cesiun-137
Potassiun-40
Radiun-226
Thoriun-232
Urani un-235
pCi/g
pci/g
pCi/g
pCi/g
pCi/g
0.71665
1.61427
0.70957
0.56235
0.15589
0.19398
1.93660
0.73995
0.62577
0.20990
0.07772
2.02797
0.74825
0.67116
0.14784
0.03267
2.22403
0.76166
0.78586
0.11901
0.02987
2.99855
0.88828
0.98420
0.13203
0.03054
3.12826
0.92520
1.03009
0.05134
Location=ORR; Formation=COPPER RIDGE; Site=62; 00-05=1554; 05-10=1555; 10-15=1556;
15-20=1557; 20-25=1558; 25-30=1559; Phase=2
Cesiun-137 pCi/g 1.46219 0.44444 0.12942 0.08320 0.03744 0.02214
Potassiun-40 pCi/g 2.74205 2.17922 2.39099 2.37025 2.51268 2.40552
-------�
B-82
Tabic B2 (continued)
Depth (cm)
Analysis Units 00-05 05-10 10-15 15-20 20-25 25-30
Thoriun-232 pCi/g 0.76372 0.73340 0.76144 0.73456 0.74223 0.65953
Uraninn-235 pCi/g 0.17870 0.08602 0.13667 0.11608 0.04808 0.05601
Location=ORR; Formation = C OP PER RIDGE; Site=64; 00-05=1624; 05-10=1625; 10-15=1626;
15-20=1627; 20-25=1628; 25-30=1629; Phase=2
Cesiun-137
pCi/g
1.35825
0.55949
0.13025
0.05076
0.02776
0.00672
Potassiun-40
PCi/g
4.57810
4.35225
3.88484
4.25317
4.20743
5.00062
Radiun-226
PCi/g
1.14307
1.26928
1.19442
1.05443
1.09406
1.12214
Thoriun-232
pCi/g
0.63299
0.57065
0.60510
0.59333
0.62899
0.63976
Uraniun-235
PCi/g
0.18705
0.15061
0.08557
0.10751
0.06522
0.04050
Location = ORR; Formation=COPPER RIDGE; She=75; 00-05=1584; 05-10=1585; 10-15=1586;
15-20=1587; 20-25=1588; 25-30=1589; Phase=2
Cesiun-137
pCi/g
1.20643
0.70914
0.09526
0.00893
0.00797
0.00902
Potassiun-40
pCi/g
3.12891
3.66351
3.27692
3.49178
3.33220
3.78174
Radi un-226
pci/g
0.96178
1.01614
1.00702
0.84096
0.96231
1.09401
Thoriun-232
pCi/g
0.35230
0.82211
0.76017
0.61532
0.69202
0.81179
Uraniun-235
pCi/g
0.16778
0.02727
0.04514
0.17811
0.11366
0.05796
Location=ORR; Formation=COPPER RIDGE; Site=83; 00-05=1636; 05-10=1637; 10-15=1638;
15-20=1639; 20-25=1640; 25-30=1641; Phase=2
Cesiun-137
pCi/g
1.43142
0.45581
0.07816
0.01367
0.01237
0.00939
Potassium-40
pCi/g
3.16801
3.04970
3.32586
3;63522
3.64562
3.91081
Radiun-226
PCi/g
0.87328
0.93309
1.02638
1.01598
1.03243
1.06284
Thorium-232
pci/g
0.74561
0.77374
0.71966
0.76888
0.75811
0.80789
Uraniun-235
pci/g
0.07876
0.10211
0.05145
0.06377
0.09445
0.13108
Location=ORR; Formation=COPPER RIDGE; Site=91; 00-05=1525; 05-10=1526; 10-15=1527;
15-20=1528; 20-25=1529; 25-30=1530; Phase=2
Cesiun-137
pCi/g
1.55850
0.79606
0.11417
0.01851
0.01913
0.00043
Potassiun-40
pCi/g
3.18634
3.35480
3.00799
3.32103
3.72947
3.91862
Radiun-226
pCi/g
1.01708
1.00546
1.06773
1.05082
1.06568
0.97347
Thoriun-232
PCi/g
0.72699
0.77791
0.82529
0.79722
0.83680
0.82024
Uraniun-235
pCi/g
0.19485
0.13070
0.11341
0.06298
0.20416
0.10720
Location=ORR; Formation=DISMAL GAP; Siie=10; 00-05=1129; 05-10=1130; 10-15=1131; 15-20=1132;
20-25=1133; 25-30=1134; Phase=1
Cesiun-137
pCi/g
1.3656
0.8561
0.2386
0.1730
0.0296
0.0148
Potassiun-40
pCi/g
22.0029
23.1574
16.1954
19.3380
17.1920
17.0671
Radiun-226
pci/g
0.7174
0.6503
0.4937
0.5869
0.8397
0.5044
Thoriun-232
pCi/g
1.1676
1.2337
0.9389
1.1499
1.1452
1.0976
Uraniun-235
pci/g
0.1695
0.1837
0.0671
0.1521
0.1485
0.0242
Uraniun-238
pCi/g
3.5354
3.6073
2.3943
2.8313
2.4951
0.4048
Location=ORR; Formanon = DISMAL GAP; Site=ll; 00-05=1040; 05-10=1041; 10-15=1041 15-20=1043;
20-25=1044; 25-30=1045; Phase=1
Cesiun-137
pCi/g
1.3536
0.4110
0.1274
0.0915
0.0520
0.0220
Potassiun-40
pCi/g
27.3335
26.2783
24.7049
22.4150
29.1504
30.8557
Radiun-226
pci/g
0.8693
0.7244
0.6513
0.6776
0.7581
0.8685
Thoriun-232
pci/g
1.4545
1.3252
1.3623
1.3867
1.5856
1.6720
Uraniun-235
pci/g
0.1348
0.1714
0.1145
0.1162
0.1236
-------�
B-83
Table BJ2 (continued)
Depth (cm)
Analysis Units 00-05 05-10 10-15 15-20 20-25 25-30
Locanon=ORR; Formation =DISMAL GAP; Siie=19; 00-05=1093; 05-10=1094; 10-15=1095; 15-20=1096;
20-25=1097; 25-30=1098; Phase=l
Cesium-137
pCi/g
1.15976
0.0860
0.0184
0.0049
0.0072
0.0044
Potassium-40
pCi/g
9.78573
12.2284
13.9657
15.6700
17.5225
19.3992
Radiun-226
pCi/g
0.55824
0.6651
0.6638
0.7204
0.7024
0.7533
Thoriun-232
pCi/g
0.69456
0.9246
0.9387
1.0822
1.1208
1.2394
Uraniun-235
pCi/g
0.13685
0.1363
0.0849
0.0545
0.0412
0.1009
Uranium-238
pCi/g
2.35735
2.1892
0.6857
1.4209
0.5366
1.7466
Location-ORR; Formation=DISMAL GAP; Siie=2; 00-05=1183; 05-10=1184; 10-15=1185; 15-20=1186;
20-25=1187; 25-30=1188; Phase=l
Cesiun-137
pCi/g
1.7189
0.2115
0.0747
0.0422
0.0284
0.0131
Potassiun-40
PCi/g
15.1972
16.3894
19.4542
21.4761
23.1861
22.8751
Radiun-226
pCi/g
0.9044
0.7510
0.6634
0.6080
0.7755
0.5888
Thoriun- 232
pCi/g
1.0133
0.9939
1.0647
1.0588
1.1916
1.3749
Urani un-235
pCi/g
0.0967
0.1449
0.1463
0.1388
0.1908
0.1606
Uraniun- 238
pCi/g
3.2767
2.3829
2.3630
2.0251
2.4461
2.7837
Location =ORR; Formation = DISMAL GAP; Site=22; 00-05=1100; 05-10=1101; 10-15=1102; 15-20=1103;
20-25=1104; 25-30=1105; Phase=l
Cesiun-137
pCi/g
1.5205
0.3829
0.0907
0.0285
0.0265
0.0101
Potassiun-40
pCi/g
13.5478
15.9145
18.1063
26.8466
28.8003
27.9817
Radi un-226
pCi/g
0.6656
0.6936
0.7541
0.7897
0.6973
0.5653
Thoriun-232
pCi/g
0.9694
1.0370
1.1640
1.4235
1.4542
1.4183
Uraniun-235
pCi/g
0.1789
0.1117
0.1689
0.0530
Uraniun-238
pci/g
3.2313
2.3585
2.4392
2.9163
2.8677
1.3261
Location = ORR; Formation = DISMAL GAP; Site=26; 00-05=1207; 05-10=1208; 10-15=1209; 15-20=1210;
20-25=1211; 25-30=1212; Phase=l
Cesium-137
PCi/g
1.3703
0.2945
0.0957
0.0251
0.0116
0.0129
Potassiun-40
pCi/g
18.3172
17.9569
20.0332
20.9431
21.5800
26.3039
Radiun-226
PCi/g
0.8390
0.5569
0.6158
0.6438
0.6505
0.6739
Thoriun-232
pCi/g
1.0653
0.9838
1.0935
1.1993
1.3079
1.4047
Uraniun-235
pCi/g
0.1761
0.1001
0.1578
0.1472
0.1718
0.0495
Uraniun-238
pCi/g
3.3415
2.8359
2.7844
2.9593
2.5301
1.6265
Location = ORR; Formation = DISMAL GAP; Sue=27; 00-05=1009; 05-10=1010; 10-15=1011; 15-20=1012;
20-25=1013; 25-30=1014; Phase=l
Cesiun-137 pCi/g 1.2572 0.3332 0.1850 0.0111 0.0082 0.0013
Potassiun-40 pCi/g 12 . 6756 14.8813 14.8364 15.4542 ^6.6053 16.9683
Radiun-226 pCi/g 0 . 75 5 2 0.8678 0.6976 0.758 0 0.7483 0.6641
Thoriun-232 pCi/g 0.9894 1.1002 1.0336 1.0406 1.0213 0.9938
Uraniun-235 pCi/g 0.1628 0.1161 0.1443 0.1126 0.1126 0.0949
Location=ORR: Formanon=DISMAL GAP; Siie=32: 00-05=1087; 05-10=1088; 10-15 = 1089: 15-20=1090;
20-25=1091; 25-30=1092; Phase=l
Cesiun-137
pCi/g
1.0464
0.2435
0.1281
0.0150
0.0001
0.0005
Potassium-40
pCi/g
15.4072
15.6139
15.8296
16.9094
20.7083
21.1364
Radiun-226
pCi/g
0.6552
0.5872
0.6975
0.6931
0.6028
0.5331
Thoriun-232
pCi/g
1.0246
0.9444
0.9937
1.0446
1.1923
1.0643
Uraniun-235
pCi/9
0.0761
0.0511
0.1186
0.0571
0.0617
0.0455
Uraniun-238
pCi/g
1.0328
1.2187
2.0979
1.2029
0.8208
-------�
B-84
Table B2 (continued)
Depth (cm)
Analysis Units 00-05 05-10 10-15 15-20 20-25 25-30
Location=ORR; Formation=DISMAL CAP; SUe=33; 00-05=1109; 05-10=1110; 10-15=1111; 15-20=1112;
20¦=1113; 25-30=1114; Phase=l
Cesiun-137
pCi/g
2.6559
.3720
0.0489
0.0306
0.0283
0.0200
Potassium-40
pCi/g
19.1068
17.4362
19.8696
18.0485
16.6901
19.5761
Radiun-226
pci/g
1.2161
0.7522
0.6108
0.6012
0.6634
0.7477
Thoriun-232
pCi/g
1.3637
1.0643
1.1503
1.1354
1.1780
1.1920
Uraniun-235
pCi/g
0.1426
0.1776
0.1254
0.1659
0.1333
Uraniun-238
pCi/g
7.8303
3.4469
3.7913
3.1028
2.1457
2.4243
Location = ORR; Formation =DISMAL GAP; Site=35; 00-05=1116; 05-10=1117; 10-15=1118; 15-20=1119;
20-25=1120; 25-30=1121; Phase=1
Cesiun-137
pCi/g
0.87748
0.09969
0.02041
0.01806
0.00300
0.0191
Potassiun-40
pCi/g
6.20873
5.68209
5.81069
6.62107
7.71612
10.6939
Radiun-226
pCi/g
0.72322
0.81582
0.88972
0.75208
0.71532
0.8264
Thoriun-232
PCi/g
0.80594
0.94075
0.90856
0.89607
0.89224
1.0554
Uraniun-235
pCi/g
0.11851
0.10982
0.13253
0.12612
0.02210
0.1065
Uraniun-238
pCi/g
3.08327
2.05896
0.75256
3.83585
1.26806
2.4462
Location — ORR; Formation =DISMAL GAP; Site=41; 00-05=1028; 05-10=1029; 10-15=1030; 15-20=1031;
20-25=1032; 25-30=1033; Phase=1
Cesiun-137
Potassiun-40
Radiun-226
Thoriun-232
Uraniun-235
pCi/g
pCi/g
pCi/g
pCi/g
pCi/g
2.0686
10.7427
0.7S61
1.0634
0.1896
0.60128
9.92154
0.72228
1.00867
0.13170
0.3249
11.0152
0.6847
1.0485
0.1131
0.0779
18.5631
0.6112
1.4132
0.1402
0.0207
18.6508
0.5917
1.5553
0.1234
0.0216
20.0673
0.7496
1.6006
0.1315
Location — ORR; Formation=DISMAL GAP; Site=43; 00-05=1240; 05-10=1241; 10-15=1242; 15-20=1243;
20-25=1244; 25-30=1245; Phase=l
Cesiun-137
pCi/g
1.2980
0.3329
0.0690
0.0321
0.0300
0.0385
Potassiun-40
pCi/g
16.9967
16.2910
15.8280
17.6780
18.1977
22.3797
Radiun-226
pCi/g
0.8646
0.9468
0.8196
0.7193
0.6794
0.7219
Thorium-232
pCi/g
1.2621
1.1425
1.1133
1.2199
1.1961
1.2745
Uraniun-235
pCi/g
0.2573
0.2029
0.1681
0.1775
0.1858
Uraniun-238
pCi/g
4.9464
2.6392
1.7212
2.7298
5.6479
4.1528
Location=ORR; Formanon=NOUCHUCKY; Site=13; 00-05=1355; 05-10=1356; 10-15=1357; 15-20=1358;
20-25=1359; 25-30=1360; Phase=l
Cesiun-137
pCi/g
1.2523
0.4773
0.0890
0.0208
0.0035
0.0064
Potassiun-40
pCi/g
15.2972
13.4125
13.4367
12.9746
12.8163
18.2887
Radiun-226
pCi/g
0.8298
0.7163
0.6500
0.6454
0.5691
0.6463
Thoriun-232
pCi/g
1.2134
1.1583
1.1003
1.0305
0.9680
1.2154
Uraniun-235
pCi/g
0.1304
0.1522
0.1367
0.1359
0.1241
0.0759
Uraniun-238
pCi/g
2.7410
2.1689
2.1121
1.9954
0.7563
1.1959
Location =ORR; Formation=NOUCHUCKY; Siie=15; 00-05=1307; 05-10=1308; 10-15=1309; 15-20=1310;
20-25=1311; 25-30=1312; Phase=l
Cesiun-137
pCi/g
1.31838
0.37165
0.06814
0.03282
0.0439
0.0376
Potassiun-40
pCi/g
7.57668
7.42748
8.37181
9.91225
12.7679
15.2212
Radiun-226
pCi/g
0.75488
0.74257
0.81304
0.68292
0.7380
0.8035
Thoriun-232
pCi/g
1.10444
1.17495
1.21709
1.32450
1.5444
1.6724
Uraniun-235
pCi/g
0.25544
0.19953
0.19982
0.26038
0.2233
0.2312
Uraniun-238
pCi/g
3.92091
3.55493
3.02203
0.85926
3.2127
-------�
3-85
Tabic B-2 (continued)
Depth (cm)
Analysis Units 00-05 05-10 10-15 i5-20 20-25 25-30
Location=ORR: Formation=NOUCHUCKY; Siie=16; 00-05=1343; 05-10=1344; 10-15=1345; 15-20=1346;
20-25=1347; 25-30=1348; Phase=l
Cesiun-137
pCi/g
1.4118
0.3658
0.0694
0.0235
0.0261
Potassium-40
pCi/g
18.6789
17.0942
16.7292
16.9414
12.1189
13.0763
Radiun-226
PCi/g
0.8334
0.7990
0.7655
0.7565
0.7995
0.7460
Thoriun-232
pCi/g
1.4208
1.4286
1.3369
1.3412
1.3938
1.3556
Uranium-235
pci/g
0.1074
0.0920
Urani un-238
pCi/g
0.7675
3.3155
1.0901
Location = ORR; Formation =HOUCHUCKY; She =21; 00-05=1367; 05-10=1368; 10-15=1369; 15-20=1370;
20-25=1371; 25-30=1372; Phase=1
Cesiun-137
pCi/g
3.0932
0.1176
0.0299
0.0294
0.0157
0.0081
Potassiun-40
pCi/g
34.9695
30.5231
24.6009
23.5949
27.9409
36.0979
Radiun-226
pCi/g
0.7174
0.6222
0.7803
0.5500
0.5476
0.5080
Thorium-232
pCi/g
1.7714
1.6407
1.6096
1.7286
1.6812
1.4985
U ran inn-235
oCi/g
0.2569
0.0629
0.1863
0.1076
0.2444
0.0296
Urani um-238
pCi/g
i.6271
3.0044
2.9325
3.2139
C .6644
'..2930
Location=ORR: Formanon =N0L1CHUCKY; Site=23; 00-05=1316; 05-10=1317; 10-15 = 1318: 15-20=1319;
20-25=1320; 25-30=1321; Phase=l
Cesiun-137
pCi/g
1.0747
0.5820
0.0663
0.0405
0.0283
0.0380
Potassiun-40
pCi/g
10.2992
12.4700
21.3062
27.4506
28.2411
29.2868
Radium-226
pCi/g
0 . 74 28
0.7925
0.6529
0.5557
0.6003
0.5588
Thoriun-232
pCi/g
1.1539
1.2869
1.5108
1.6378
1.6599
1.6898
Urani un-235
pCi/g
0.2182
0.2202
0.2275
0.2288
0.2327
0.2311
Uranium-238
pCi/g
2.5799
2.7668
3.8144
4.3977
4.8436
2.5994
Location =ORR; Formation=NOUCHUCKY; Site=24; 00-05=1361; 05-10=1362; 10-15=1363; 15-20=1364;
20-25=1365; 25-30=1366; Phase=l
Cesiun-137
pCi/g
1.8149
0.4331
0.1023
0.0399
0.0273
0.0016
Potassiun-40
pCi/g
29.1557
25.3314
27.3521
28.6304
30.9524'
31.1790
Radiun-226
PCi/g
0.8650
0.6682
0.6839
0.6464
0.6724
0.6171
Thoriun-232
pCi/g
1.5330
1.3191
1.5141
1.5585
1.6765
1.6022
Urani um-235
pCi/g
0.2297
0.1567
0.1659
0.1657
0.1667
0.0492
Urani un-238
pCi/g
4.1051
4.5234
1.1107
2.5580
2.£852
0.9021
Location =ORR; Formanon=NOUCHUCKY; Site=25; 00-05=1325; 05-10=1326; 10-15=1327; 15-20=1328;
20-25=1329; 25-30=1330: Phase=l
Cesiun-137
pCi/g
1.2195
0.0508
0.0220
0.0459
0.0073
Potassiun-40
pCi/g
22.2143
21.5251
22.0695
28.4921
32.4522
33.0335
Radium-226
PCi/g
0.6716
0.6243
0.6632
0.6693
0.6224
0.5640
Thori un-232
pci/g
1.2591
1.3567
1.3916
'.6653
1.6946
1.6435
Uranium-235
pCi/g
0.2184
0.2563
Urani un-238
PCi/g
1.4411
Locanon =ORR: Formation =NOUCHUCKY; Site=28: 00-05=1337- 05-10=1338: 10-15 = 1339: 15-20=1340:
20-25=1341; 25-30=1342; Phase=l
Cesiun-137
pCi/g
1.4521
0.4315
0.1465
0.0288
0.0241
0.0079
Potassiun-40
PCi/g
10.9102
12.0193
12.0245
28.8269
35.8351
35.2583
Radiun-226
pCi/g
0.8626
0.9214
0.8631
0.7461
0.5446
0.6036
Thoriun-232
pCi/g
1.0515
1.1281
1.2079
1.4183
1.4888
1.4185
Uranium-235
pCi/g
0.1886
0.1687
0.1467
0.3551
0.1632
0.0079
Urani un-238
pCi/g
2.6364
2.1114
2.3656
1.5654
3.1094
-------�
B-86
Tabic R2 (continued)
Depth (cm)
Analysis Units 00-05 05-10 10-15 15-20 20-25 25-30
Location =ORR; Formation=NOUCHUCKY; Siie=3; 00-05=1331; 05-10=1332; 10-15=1333; 15-20=1334;
20-25=1335; 25-30=1336; Phase=1
Cesiun-137
pci/g
1.18164
0.3320
0.0515
0.0236
0.0261
0.0017
Potassiun-40
pCi/g
9.83880
11.2675
10.9431
11.8086
15.6450
15.6981
Radium-226
pCi/g
0.76528
0.7156
0.6469
0.7372
0.7150
0.7377
Thoriun-232
PCi/g
1.00806
1.0064
0.9741
1.1360
1.2901
1.2811
Uranium-235
pCi/g
0.15702
0.1385
0.0556
0.1362
0.1167
0.0301
Uranium-238
PCi/g
2.51189
1.9898
1.9450
2.2331
2.4346
0.8476
Location=ORR; Formaiion=NOLICHUCKY; Site=31; 00-05=1373; 05-10=1374; 10-15=1375; 15-20=1376;
20-25=1377; 25-30=1378; Phase=1
Cesiun-137
pCi/g
1.81133
0.40512
0.06764
0.01823
0.0082
0.0093
Potassium-40
PCi/g
7.58745
7.85760
7.91839
8.72471
10.7174
13.0808
Radiun-226
pci/g
0.81426
0.87903
0.84332
0.89600
0.8555
0.7552
Thoriun-232
pci/g
1.10946
1.08215
1.11157
1.13255
1.1654
1.2004
Uranium-235
pci/g
0.18207
0.27899
0.14678
0.06268
0.0492
0.0811
Uranium-238
pCi/g
3.21282
1.08908
2.30077
1.38541
0.8731
2.0346
Location=ORR; Formation =NOUCHUCKY; Site=42; 00-05=1379; 05-10=1380; 10-15=1381; 15-20=1382;
20-25=1383; 25-30=1384; Phase=1
Cesiun-137
pCi/g
1.1265
0.1807
0.0418
0.0249
0.0041
0.0093
Potassiun-40
pci/g
12.7187
13.3355
21.0567
23.6743
20.8052
19.6050
Radiun-226
pCi/g
0.7755
0.6449
0.7492
0.5907
0.6654
0.6581
Thoriun-232
pci/g
1.1648
1.1105
1.2794
1.3561
1.3606
1.2759
Uraniun-235
PCi/g
0.1788
0.1978
0.0899
0.0443
0.0432
0.0236
Uraniun-238
pci/g
3.2981
2.1334
1.1212
2.5000
1.2277
1.6120
Location =ORR; Formation=NOLICHUCKY; Site=5; 00-05=1349; 05-10=1350; 10-15=1351; 15-20=1352;
20-25=1353; 25-30=1354; Phase=1
Cesiun-137
pCi/g
1.13769
0.42327
0.0943
0.0288
0.0096
0.0034
Potassium-40
pCi/g
8.44980
9.81740
10.3635
11.9426
13.3605
14.0540
Radiun-226
pci/g
0.84649
1.03180
0.7932
0.7644
0.7808
0,6828
Thoriun-232
pci/g
1.09361
1.27041
1.1657
1.1789
1.2477
1.2289
Uraniun-235
pCi/g
0.10365
0.16878
0.0620
0.1338
0.1376
0.0866
Uraniun-238
pCi/g
0.86400
2.24251
1.9811
1.9422
2.3860
0.8546
Location = ROA; Formation=COPPER RIDGE; Site=33; 00-05 =3248; 05-10=3249; 10-15 =3250;
15-20=3251; 20-25 =3252; 25-30=3253; Phase=2
Cesiun-137
pCi/g
1.42089
0.17370
0.13236
0.08078
0.00976
0.02394
Potassiun-40
pCi/g
3.66091
5.62405
5.68683
6.20255
6.42044
5.84363
Radium-226
pCi/g
0.61187
0.85530
0.94200
1.05538
1.00632
0.92647
Thoriun-232
pCi/g
0.46099
0.86471
1.00398
1.17719
1.28282
1.17226
Uraniun-235
pCi/g
0.13936
0.08840
0.07543
0.09698
0.08271
Location=ROA; Formation=COPPER RIDGE; Site=34; 00-05=3334; 05-10=3335; 10-15 =3336;
15-20=
¦3337: 20-25
=3338; 25-30
=3339; Phase
=2
Cesiun-137
pCi/g
1.50010
0.39234
0.13031
0.04139
0.01188
0.02232
Potassiun-40
pci/g
2.06069
3.20465
2.81806
3.69338
3.97714
4.49428
Radiun-226
pCi/g
1.20894
1.26975
1.14309
1.21746
1.22803
1.33746
Thoriun-232
pci/g
0.47181
0.62236
0.62107
0.80169
0.93824
1.13285
Uraniun-235
pCi/g
0.20547
0.19351
0.11316
0.41792
0.09387
0.09821
Uraniun-238
pci/g
2.15706
2.07559
2.18372
3.35191
1.81413
-------�
B-87
Tabic B2. (continued)
Depth (cm)
Analysis Units 00-05 05-10 10-15 15-20 20-25 25-30
Locarion=ROA; Formation=COPPER RIDGE; Sue=35; 00-05 =3239; 05-10=3240; 10-15 =3241;
15-20=3242; 20-25=3243; 25-30=3244; Phase=2
Cesiun-137
Potass iun-40
Radiun-226
Thoriun- 232
Uraniun-235
pCi/g
pCi/g
pCi/g
pCi/g
pCi/g
0.74448
2.37983
0.70666
0.54866
0.13423
0.47548
2.97783
0.77877
0.59929
0.12701
0.39568
3.11111
0.77855
0.59707
0.05596
0.22968
3.84590
0.82811
0.67450
0.13020
0.11171
3.84399
0.91289
0.76217
0.01546
3.56885
0.80375
0.71218
0.04460
Location =ROA; Formation=COPPER RIDGE; Site=39; 00-05=3343; 05-10=3344; 10-15=3345;
15-20=3346; 20-25=3347; 25-30=3348; Phase=2
Cesiun-137
pCi/g
1.19964
0.52695
0.15373
0.03051
0.02256
0.00601
Potassiun-40
pCi/g
1.13013
1.60930
2.01373
2.47298
2.17872
2.05719
Radiun-226
pci/g
0.37441
0.50181
0.57357
0.63343
0.61066
0.56519
Thoriun-232
pCi/g
0.28021
0.38252
0.42223
0.47041
0.44419
0.46148
Uranium-235
pCi/g
0.15649
0.15288
0.14462
0.14204
0.11531
0.06908
Uraniun- 238
pci/g
3.03199
2.80025
2.35244
2.57874
2.62625
C.56791
Location =ROA; Formanon=COPPER RIDGE: Siie=40; 00-05 =3267; 05-10=3268; 10-15=3269;
15-20=3270; 20-25=3271; 25-30=3272; Phase=2 '
Cesiim-137
Potassiun-40
Radiim-226
Thorium-232
U ran inn-235
pCi/g
PCi/g
pCi/g
pCi/g
pCi/g
1.02160
1.69320
0.58486
0.40629
0.14017
0.30799
1.30756
0.53910
0.37357
0.10252
0.05902
1.47958
0.54432
0.40845
0.03263
0.01482
1.53804
0.54351
0.39573
0.10082
0.00677
2.05725
0.55226
0.44499
0.07711
0.00663
1.91741
0.55265
0.45797
0.04508
Locanon =ROA; Formation=COPPER RIDGE; Siie=41; 00-05 =3352; 05-10=3353; 10-15 =3354;
15-20=3355; 20-25 =3356; 25-30=3357; Phase=2
Cesiun-137
PCi/g
0.88398
0.33666
0.10927
0.03548
0.02445
0.01198
Potassiun-40
F>Ci/g
1.28679
1.71866
1.42272
1.73185
1.78048
1.44937
Radiun-226
pci/g
0.44430
0.54968
0.51597
0.57426
0.55097.
0.42974
Thoriun-232
pCi/g
0.30179
0.41479
0.33370
0.40299
0.40394
0.31513
Uraniun-235
pCi/g
0.15924
0.13800
0.15647
0.13517
0.12688
0.03775
Urani un-238
pCi/g
1.95675
1.31326
2.74891
2.63331
2.43280
0.66468
Locanon =ROA; Formation=COPPER RIDGE; Siie=42; 00-05=3276; 05-10=3277; 10-15=3278;
15-20=3279; 20-25=3280; 25-30=3281; Phase=2
Cesium-137 pCi/g 0.81581 0.28574 0.07326
Potassium-40 pCi/g 1.56942 2.56750 2.59056
Radium-226 pCi/g 0.64389 0.68527 0.79614
Thoriun-232 pCi/g 0.49772 0.47805 0.55512
Uranium-235 pCi/g 0.14479 0.03502 0.13266
0.05847 0.02060 0.00336
2.58473 2.55578 2.78359
0.80461 0.77313 0.74344
0.55197 0.55703 0.55041
0.05985 0.12432 0.08765
Location=ROA; Formation=COPPER RIDGE; Sixe=43: 00-05 =3285: 05-10=3286: 10-15 =3287;
15-20=3288; 20-25=3289; 25-30-3290; Phase=2
Cesiun-137
pCi/g
1.33013 0.60864
0.13026
0.07920
0.03467
0.02015
Potassiun-40
pCi/g
2.38210 2.36627
2.49891
2.43622
2.50911
2.61555
Radiun-226
pCi/g
0.62641 0.63599
0.65419
0.73858
0.73074
0.70106
Thoriun-232
pCi/g
0.47328 0.53264
0.63097
0.61873
0.63939
0.73477
Uraniun-235
pCi/g
0.24902
0.12685
0.27740
0.12333
0.09324
Location
=ROA; Fonnation=COPPER RIDGE; Site=44;
00-05 =3257;
05-10=
3258; 10-15
15-20=3260; 20-25
=3261; 25-30
=3262; Phase
=2
Cesium-137 pCi/g 0.65399 0.19382 0.03836 0.02781 0.02858 0.02969
-------�
B-88
Table IL2 (continued)
Analysis
Units
Depth (cm)
00-05
05-10
10-15
15-20
20-25
25-30
Radiun-226
Thoriun-232
Uranium-235
pCi/g
pCi/g
pCi/g
0.64419
0.63206
0.14065
0.79218
0.66964
0.14304
0.78815
0.62208
0.12120
0.72928
0.59277
0.18906
0.70668
0.63110
0.08387
0.59892
0.54020
0.06813
Location =ROA; Fomwtion=COPPER RIDGE; SUe=45; 00-05=3312; 05-10=3313; 10-15=3314;
15-20=3315; 20-25=3316; 25-30=3317; Phase =2
Cesiun-137
pci/g
0.89438
0.43598
0.10722
0.03823
0.03171
0.01201
Potassiun-40
pCi/g
2.16620
2.38725
2.63967
2.80100
2.31511
2.73322
Radiun-226
pCi/g
0.68194
0.78870
1.07470
0.80994
0.69929
0.69517
Thoriun-232
pCi/g
0.49183
0.50322
0.55650
0.51313
0.50845
0.55551
Uraniun-235
pci/g
0.15722
0.22716
0.15622
0.10671
0.09078
0.03234
Uraniun-238
pci/g
2.43663
2.01107
2.22693
2.14694
2.03645
1.10243
Location =ROA; Formation=COPPER RIDGE; Sue=46; 00-05=3303; 05-10=3304; 10-15=3305;
15-20=3306; 20-25 =3307; 25-30=3308; Phase=2
Cesiun-137
pCi/g
0.87173
0.55333
0.19283
0.05686
0.01535
0.02846
PotassiLm-40
pCi/g
2.50159
2.51479
2.26845
2.49321
2.32488
2.98673
Radiun-226
PCi/g
0.71013
0.75386
0.77877
0.69155
0.70618
0.79303
Thoriun-232
pCi/g
0.72202
0.70826
0.64636
0.68451
0.78843
0.96833
Uraniun-235
pci/g
0.10204
0.15382
0.05957
0.09354
0.13894
0.15626
Location =ROA; Formation=COPPER RIDGE; Site=47; 00-05=3294; 05-10=3295; 10-15=3296;
15-20=3297; 20-25=3298; 25-30=3299; Phase=2
Cesiun-137
Potass iun-40
Radiun-226
Thorium-232
Uranium-235
pCi/g
pci/g
pCi/g
pci/g
pci/g
0.83528
2.85348
0.87308
0.90364
0.10091
0.18813
3.77000
0.93785
0.80033
0.16262
0.02676
2.77097
0.89051
0.75580
0.15553
0.02606
3.17363
0.86913
0.73762
0.10678
0.02194
3.17019
0.84645
0.78887
0.14427
0.02398
2.83175
0.82832
0.74115
0.14184
Location =ROA; Formation = DISMAL GAP; Sue=10; 00-05=3178; 05-10=3179; 10-15=3180; 15-20=3181;
20-25=3182; 25-30=3183; Phase=1
Cesiun-137
pCi/g
0.6479
0.0460
0.0289
0.0182
0.0259
0.0257
Potassiun-40
PCi/g
11.1886
12.2362
13.1197
17.5574
19.4597
21.8072
Radiun-226
pCi/g
0.6988
0.7406
0.7150
0.7095
0.7025
0.7337
Thoriun-232
pci/g
0.9756
1.1513
1.1846
1.4620
1.5374
1.7462
Uraniun-235
pci/g
0.1505
0.0913
0.0219
0.0350
0.1580
0.1664
Uraniun-238
pci/g
2.2086
0.4811
2.2488
1.1617
1.9573
2.7254
Location =ROA; Formation = DISMAL GAP; Sue=13; 00-05=3131; 05-10=3132; 10-15=3133; 15-20=3134;
20-25=3135; 25-30=3136; Phase=1
Cesiun-137
pCi/g
0.20342
0.03059
0.01112
0.0064
0.0494
0.0253
Potassiun-40
pCi/g
6.21173
6.58742
8.07113
11.7095
16.5192
19.2372
Radiun-226
pci/g
0.70700
0.70586
0.71849
0.6952
0.6415
0.6707
Thoriun-232
pCi/g
1.01938
0.97115
1.01649
1.1559
1.2880
1.4293
Uraniun-235
pci/g
0.10645
0.07286
0.12643
0.1399
0.1517
0.1553
Uraniun-238
pci/g
2.28876
1.65555
2.15058
1.3867
1.0939
2.4900
Location=ROA; Formation=DISMAL GAP; Site=14; 00-05=3152; 05-10=3153; 10-75=3154; 15-20=3155;
20-25=3156; 25-30=3157; Phase=1
Cesiun-137
pCi/g
1.5469
0.2365
0.0486
0.0053
0.0383
0.0366
Potassiun-40
pCi/g
15.9916
21.2335
20.4532
17.4199
18.2892
18.5685
Radium-226
pCi/g
0.6981
0.6281
0.6715
0.6370
0.6924
0.5819
Thoriun-232
pCi/g
1.2680
1.3550
1.4823
1.4512
1.5986
1.5064
Uraniun-235
pCi/g
0.1999
0.2226
0.1907
0.2500
0.1130
0.2129
Uraniun-238
pci/g
4.1361
3.5846
2.4398
3.9481
4.4876
-------�
B-89
Table BJ2 (continued)
Depth (cm)
Analysis Units 00-05 05-10 10-15 15-20 20-25 25-30
Location =ROA: Formation =DISMAL GAP; Sue=17; 00-05 =3022; 05-10=3023; 10-15=3024; 15-20=3025;
20-25=3026; 25-30=3027; Phase=l
Cesium-137
pCi/g
1.06811
0.41668
0.12426
0.0491
0.0243
0.0144
Potassiun-40
pCi/g
7.86085
8.01872
8.32302
12.3916
15.1041
17.0407
Radiun-226
pCi/g
0.74439
0.74809
0.68905
0.6779
0.7289
0.7326
Thoriiri-232
pCi/g
1.01544
1.02281
1.05709
1.1309
1.2731
1.3357
Uraniun-235
pci/g
0.08073
0.15287
0.1279
0.0391
Uraniun-238
pci/g
1.49078
0.61736
1.98948
2.0866
2.3101
0.7476
Location=ROA; Formation = DISMAL GAP; Sue =-19; 00-05 =3036; 05-10=3037; 10-15=3038; 15-20=3039;
20-25=3040; 25-30=3041; Phase=1
Cesium-137
PCi/g
0.77258
0.07183
0.02488
0.02617
0.01874
0.02448
Potassiun-40
pCi/g
7.65583
9.00872
8.31273
9.59149
9.03652
9.54134
Radium-226
pCi/g
0.98148
1.22142
1.13411
0.92588
1.00616
0.94241
Thorium-232
pCi/g
1.22177
1.38829
'.21685
1.26869
*.33524
1.25627
Uraniun-235
pCi/g
0.10668
0.20344
0.17395
0.10917
0.06610
Uranium-238
pCi/g
1.22403
2.76961
2.52996
2.85302
2.96084
2.53167
Location=ROA; Formanon=DISMAL GAP; Site=20; 00-05 =3050; 05-10=3051; 10-15 =3052; 15-20=3053;
20-25 =3054; 25-30=3055; Phase=1
Cesiun-137
pCi/g
0.86373
0.16860
0.0694
0.0374
0.0177
0.0102
Potassiun-40
pci/g
8.37732
9.11153
15.4059
18.4632
26.6641
29.0528
Radiun-226
pCi/g
0.98084
0.64531
0.6469
0.6153
0.5690
0.6767
Thorium-232
pCi/g
0.94018
0.97575
1.2443
1.2996
1.4085
1.4203
Uranium-235
pCi/g
0.18081
0.15954
0.1336
0.1782
0.0445
0.0749
Uranium-238
pci/g
2.96989
3.16245
1.9166
3.9993
1.1015
0.6548
Location = ROA; Formanon=DISMAL GAP; She=21; 00-05 =3117; 05-10=3118; 10-15=3119; 15-20=3120;
20-25 =3121; 25-30=3122; Phase=l
Cesiun-137
pCi/g
0.9331
0.1301
0.02048
0.03094
0.01416
0.03293
Potassium-40
pCi/g
12.7528
12.7725
9.16888
8.93252
9.76466
9.57555
Radiun-226
PCi/g
0.6918
0.8860
0.79204
0.87766
1.03810
0.89798
Thoriun-232
F>Ci/g
1.2858
1.3053
1.11777
1.17581
1.22282
1.26791
Uraniun- 235
pCi/g
0.1020
0.0993
0.18391
0.20862
0.20426
0.23618
Uraniun-238
pCi/g
3.6122
1.3212
3.17418
3.58721
2.33844
3.60514
Location =ROA; Formation=DISMAL GAP; Site=22; 00-05=3062; 05-10=3063; 10-15=3064; 15-20=3065;
20-25 =3066; 25-30=3067; Phase=l
Cesiun-137
PCi/g
0.56818
0.11340
0.0243
0.0286
0.0322
0.0077
Potassiun-40
pCi/g
7.22849
8.81445
12.4847
17.6887
21.6703
21.7934
Radiun-226
pci/g
0.72895
0.65960
0.6180
1.0002
1.0064
0.9894
Thorium-232
pCi/g
0.92026
0.95387
1.0513
1.3405
1.5092
1.4504
Uraniun-235
PCi/g
0.13483
0.11169
0.1491
0.0546
0.3750
0.0671
Uraniun-238
pCi/g
3.73728
2.25628
2.3393
3.0799
3.0480
1.1228
Locanon = ROA; Formanon=DISMAL GAP; Siie=3; 00-05=3103; 05-10=5104; 10-15=3105; 15-20=3106;
20-25 =3107; 25-30=3108; Phase=l
Cesiun-137
pci/g
0.8547
0.1987
0.0747
0.0327
0.0061
0.0162
Potassiun-40
pCi/g
11.5364
10.8670
10.4431
10.4249
10.9776
11.0646
Radiun-226
PCi/g
0.7445
0.9087
0.8165
0.7291
0.6889
0.6538
Thoriun-232
pCi/g
1.1137
1.1802
1.1179
1.1422
1.1728
1.1765
Uraniun-235
pCi/g
0.0547
0.1555
0.1333
0.0442
0.1412
0.1444
Uraniun- 238
pci/g
4.2823
1.7353
2.7705
2.4742
2.5445
-------�
B-90
Table B.2 (continued)
Depth (cm)
Analysis Units 00-05 05-10 10-15 15-20 20-25 25-30
Location =ROA; Formation =DISMAL GAP; Sue=7; 00-05=3089; 05-10=3090; 10-15=3091; 15-20=3092;
20-25=3093; 25-30=3094; Phase=1
Cesiun-137
pCi/g
1.00018
0.06758
0.05618
0.0358
0.0033
0.0022
Potassiun-40
pCi/g
7.85868
9.07075
8.85627
10.6781
15.1970
18.7766
Radiun-226
pCi/g
0.78784
0.77877
0.80245
0.7743
0.7757
0.7139
Thorimi-232
pci/g
0.99946
1.15157
1.09878
1.1931
1.3321
1.4702
Uranium-235
pci/g
0.09426
0.17547
0.32156
0.1489
0.0679
0.0258
Uraniun-238
pCi/g
2.25179
1.09497
1.61468
1.6798
1.3074
1.1676
Location =ROA; Formation =DISMAL GAP; Site=8; 00-05=3076; 05-10=3077; 10-15=3078; 15-20=3079;
20-25 =3080; 25-30=3081; Phase=1
Cesium-137
pCi/g
1.80437
0.47874
0.07930
0.02469
0.02150
0.0078
Potass iun-40
pCi/g
6.84697
6.31750
6.59872
7.26735
8.17710
10.9998
Radiun-226
PCi/g
0.73428
0.74100
0.75145
0.79693
0.74925
0.7442
Thoriun-232
pCi/g
1.10390
1.07775
1.10967
1.16853
1.29059
1.2971
Uraniun-235
pCi/g
0.16511
0.11434
0.13874
0.14543
0.1043
Urani un-238
pCi/g
2.17199
1.97052
2.13584
1.33850
1.17409
1.2732
Locanon=ROA; Formation=DISMAL GAP; Site=9; 00-05=3008; 05-10 =3009; 10-15=3010; 15-20=3011;
20-25 =3012; 25-30=3013; Phase=1
Cesiun-137
PCi/g
2.37360
0.33769
0.03726
0.00893
0.00427
0.00863
Potass i utr-40
pCi/g
7.97527
7.65437
7.31478
7.00821
7.48968
7.82609
Radiun-226
pCi/g
0.76762
0.79481
0.758 58
0.78649
0.78544
0.71572
Thorium-232
pci/g
1.07995
1.15073
1.02602
1.03807
1.01271
0.96568
Urani un-235
PCi/g
0.20495
0.16226
0.04140
0.08682
0.08396
0.05803
Urani um-238
pci/g
1.68335
1.37521
0.69534
1.51008
0.79716
1.24066
-------�
B-91
Table B3. Unweighted gamma screening results for soil samples''
Depth (cm)
Analysis Units 00-05 05-10 10-15 15-20 20-25 , 25-30
Location =AND; Formation=COPPER RIDGE; Siie=31; 00-05 =2203; 05-10=2204; 10-15=2205;
15-20=2206; 20-25=2207; 25-30=2208; Phase=2
Cesiun-137
pCi/cnr
4.369
2.672
0.766
0.546
0.294
0.071
Potassiun-40
pCi/cm
10.360
13.480
15.570
20.800
18.370
18.890
R ad inn-226
PC i / cue
3.024
3.906
4.483
5.050
5.607
5.333
Thoriiro-232
pCi/cnC
2.111
3.145
3.789
3.794
4.402
4.645
Uranium-235
pCi/cm
1.355
0.375
0.621
0.763
0.490
Uraniun-238
pCi/cm
11.200
7.221
20.910
16.448
8.801
Location =AND; Formation = COPPER RIDGE; Siie=32; 00-05 =2212; 05-10=2213; 10-15=2214;
15-20=2215; 20-25 =2216; 25-30=2217; Phase=2
Cesiun-137
pCi/cm
4.809
1.382
0.797
0.197
0.026
0.021
Potassiun-40
pCi/cnr
9.288
18.360
20.340
23.790
27.260
29.300
Radiun-226
pCi/cm
3.206
5.025
6.073
6.589
6.000
5.478
Thoriun-232
pCi/cm^
3.874
4.172
4.717
4.898
4.758
4.854
Uraniun-235
pCi/cm
0.848
0.810
1.694
1.110
1.098
0.608
Uraniun-238
pCi/cm
13.560
15.103
16.370
16.680
18.520
11.120
Location =AND: Formaiion=COPPER RIDGE; Site=33; 00-05 =2221; 05-10=2222; 10-15 =2223;
15-20=2224; 20-25 =2225; 25-30=2226; Phase=2
Cesium-137
pCi/cm^
5.414
1.699
0.677
0.398
0.309
0.048
Potassiun-40
pCi/cm
11.060
17.990
19.620
22.040
22.260
25.410
Radium-226
pCi/cm
3.535
4.907
6.586
6.703
6.836
6.824
Thoriun-232
pCi/cm^
2.133
3.190
3.793
4.063
4.159
4.618
Uraniun-235
pCi/cnr
0.841
1.383
1.638
1.087
1.096
0.775
Uraniun-238
pCi/cm
3.799
15.913
18.260
7.945
15.316
12.410
Location =AND; Formation=COPPER RIDGE; She=34; 00-05=2230; 05-10=2231; 10-15 =2232;
15-20= 2233; 20-25 =2234; 25-30=2235; Phase=2
Cesium-137
pCi/cm
3.507
2.957
2.275
1.307
0.939
0.443
Potassiun-40
pCi/cnr
16.810
18.030
20.230
"9.290
23.760
24.440
Radiun-226
pCi/cnr
4.608
5.630
6.125
6.393
6.708
6.725
Thoriun-232
pCi/cm^
2.989
3.883
4.059
4.277
4.470
4.466
Uraniun-235
pCi/cm
0.937
0.999
0.969
1.006
0.426
0.477
Uraniun-238
pCi/cm
12.430
10.160
9.527
16.620
15.387
9.499
Location =AND; Formation = COP PER RIDGE: Sue=35; 00-05 =2239: 05-10=2240; 10-15=2241;
15-20=2242; 20-25 =2243; 25-30=2244; Phase=2
Cesiun-137
pCi/cm^
3.459
2.299
0.625
1.003
0.080
0.037
Potassiun-40
pCi/cm
17.850
27.900
24.580
34.250
35.000
32.460
Radiun-226
pCi/cm2
4.904
5.886
7.244
7.200
7.172
6.165
Thoriun-232
pCi/cm2
5.416
5.159
5.770
5.986
6.581
6.198
Uraniun-235
pCi/cm2
1.188
1.333
2.173
1.600
0.641
0.450
Uraniun- 238
pCi/cm
15.650
22.336
25.561
26.083
13.430
11.650
Location=AND: Formation=COPPER RIDGE; Siie=36; 00-05 = 2248: 05-10=2249; 10-15 =2250;
15-20= 2251; 20-25 =2252; 25-30= 2253; Phase=2
Cesiun-137
pCi/cm2
2.670
1.141
1.046
0.201
0.228
0.048
Potassiun-40
pCi/cnr
18.920
19.950
22.710
19.990
22.370
27.740
Radiun-226
pCi/cnr
5.122
5.649
5.796
5.634
6.125
5.756
Thoriun-232
pCi/cnr
3.189
3.702
3.826
3.923
4.603
4.802
Uraniun-235
pCi/cm
1.115
1.201
1.183
1.147
1.243
0.541
Uraniun-238
pCi/cm
4.946
17.528
19.105
21.482
14.410
-------�
B-92
Table B3 (continued)
Depth (cm)
Analysis Units 00-05 05-10 10-15 15-20 20-25 25-30
Location = AND: Formanan-COPPER RIDGE; Site =37; 00-05=2287; 05-10=2288; 10-15=2289;
15-20=2290; 20-25=2291; 25-30=2292; Phase=2
Cesiun-137
pCi/cm
3.631
3.619
3.020
2.096
0.388
0.062
Potassiun-40
pCi/cm
12.810
13.960
13.090
13.320
23.070
36.850
Radiun-226
pCi/cnr
3.557
4.279
4.755
4.386
5.873
7.960
Thoriun-232
pCi/cnr
2.402
3.040
2.843
2.717
3.368
4.640
Uraniun-235
pCi/cm
0.773
0.670
0.788
0.802
0.365
0.818
U ran inn-238
pCi/cm
9.687
20.582
1.482
9.598
5.934
14.690
Location =AND; Formation=COPPER RIDGE; Siie=38; 00-05=2296; 05-10=2297; 10-15=2298;
15-20=2299; 20-25=2300; 25-30=2301; Phase =2
Cesiun-137
pCi/cm
4.213
3.541
1.861
0.585
0.268
0.052
Potassiun-40
pCi/cnr
20.290
21.860
27.140
23.350
28.440
27.360
Radiun-226
pCi/cm
3.177
3.746
4.697
4.432
4.932
4.963
Thoriun-232
pCi/cnc
2.299
2.560
2.988
2.684
3.049
2.921
Uraniun-235
pCi/cm
0.929
0.895
0.809
0.207
0.257
0.430
Uraniun-238
pCi/cm
17.676
17.392
14.749
6.190
7.625
8.463
Location = AND; Formation=COPPER RIDGE; Site=39: 00-05=2331; 05-10=2332; 10-15 =2333;
15-20=2334; 20-25=2335; 25-30=2336; Phase=2
Cesi un-137
2
pCi/cm'
2.446
2.133
1.172
0.758
0.197
0.108
Potassiun-40
pCi/cm
12.810
17.890
17.560
18.150
21.770
19.440
Radium-226
pCi/cnr
4.810
6.033
6.022
5.910
5.839
5.842
Thorium-232
pCi/cm
3.400
4.273
4.381
4.275
4.402
4.833
Uranium-235
pCi/oiC
1.038
0.628
0.958
0.747
0.571
0.661
Uranium-238
pCi/cm
22.429
16.467
16.742
17.175
21.950
6.915
Location =AND; Formation=COPPER RIDGE; Site=40; 00-05 =2322; 05-10=2323; 10-15 =2324;
15-20=2325; 20-25 =2326; 25-30=2327; Phase=2
Cesiun-137
pCi/cm
4.350
2.211
0.444
0.181
0.101
0.011
Potassiun-40
pCi/enC
19.940
23.920
26.900
27.640
25.520
23.010
Radium-226
pCi/cm
4.837
5.384
5.457
5.341
5.523
-5.590
Thoriun-232
PCi/cnr
4.278
5.029
5.814
5.703
5.577
5.644
Uraniun-235
pCi/an
0.979
1.020
0.466
0.586
0.648
0.401
Uraniun-238
pCi/an
29.250
21.560
19.264
12.940
6.659
8.247
Location =AND; Formation =COPPER RIDGE; Site=41; 00-05=2314; 05-10=2315; 10-15=2316;
15-20=2317; 20-25=2318; 25 *0=2319; Phase=2
Cesiun-137
pCi/cm
5.956
4.883
2.971
0.473
0.117
0.033
Potassiun-40
pCi/cm
23.500
26.030
28.130
26.180
31.650
31.990
Radiun-226
pCi/cnr
5.192
5.801
6.430
6.251
6.270
6.482
Thoriun-232
pCi/cnc
4.706
4.856
5.209
5.248
5.877
5.969
Uraniun-235
pCi/cnu
1.037
1.049
1.266
0.740
0.462
0.688
Uraniun-238
pCi/cm
7.650
9.068
16.188
9.319
12.852
11.350
Location = AND; Formation=COPPER RIDGE; Siie=42; 00-05=2305; 05-10=2306; 10-15=2307;
15-20=2308; 20-25=2309; 25-30=2310; Phase=2
Cesiun-137
pCi/cm
3.665
2.037
0.983
0.207
0.196
0.080
Potassiun-40
pCi/cm
25.270
24.760
30.050
31.820
37.130
38.030
Radiun-226
pCi/cm
6.961
8.018
8.252
7.223
7.787
7.982
Thoriun-232
pCi/cnr
5.430
5.596
6.008
6.019
6.366
6.711
Uraniun-235
pCi/cm
1.094
1.163
0.793
0.623
0.856
0.725
Uraniun-238
pCi/cnr
15.860
16.846
19.277
21.210
15.589
-------�
B-93
Table B3 (continued)
Depth (cm)
Analysis Units 00-05 05-10 i0-15 15-20 20-25 25-30
Location-AND; Formanon=DISMAL GAP; Site=l; 00-05=2161; 05-10=2162; 10-15=2163; 15-20=2164;
20-25=2165; 25-30=2166; Phase=l
Cesiun-137
pCi/cm2
5.245
1.112
0.216
0.015
Potassiun-40
pCi/cnr
77.220
115.400
129.100
161.900
154.600
162.600
Radiun-226
pC i / cur
2.977
4.256
3.549
2.972
3.022
3.145
Thorium-232
pCi/cnr
4.448
6.337
5.944
6.547
6.234
6.712
Uranium-235
pCi/cnr
0.333
Uraniun-238
pCi/cm
10.640
18.050
6.472
Location=AND; Formation=DISMAL CAP; Site=10; 00-05=2151; 05-10=2152; 10-15=2153; 15-20=2154;
20-25=2155; 25-30=2156; Phase=1
Cesiun-137
pCi/cm
4.999
2.828
0.504
0.793
0.275
0.007
Potassiun-40
PCi/cm;
34.000
74.480
78.900
79.360
118.900
134.400
Radiun-226
pCi/cnT
2.185
4.382
4.833
4.895
5.067
5.279
Thoriun-232
pCi/cnr
2.797
5.552
5.899
5.826
7.666
8.010
Uraniun-235
pCi/cm
0.645
0.857
0.952
0.867
0.755
0.401
Uraniun-238
pCi/cm
11.752
16.760
6.909
3.823
o.128
7.S21
Location=AND; Formadon= DISMAL GAP: Site = ll; 00-05 =2008; 05-10= 2009: 10-15 = 2010: 15-20=2011;
20-25=2012; 25-30=2013; Phase=l
Cesiun-137
pCi/cm2
6.389
2.294
0.921
0.421
0.177
0.062
Potassiun-40
pCi/cnr
127.000
154.900
171.200
202.600
212.400
202.600
Radiun-226
pCi/cm*
2.596
2.945
2.975
3.442
3.490
3.468
Thoriun-232
pCi/cm
3.703
4.666
5.410
6.566
7.296
7.335
Uraniun-235
pCi/cnr
1.553
0.818
0.844
0.188
0.923
0.296
Uraniun-238
pCi/cm
13.633
15.897
16.000
8.982
18.827
11.190
Location =AND; Formation = DISMAL GAP; Site=ll- 00-05=2084; 05-10=2085; 10-15 = 2086; 15-20=2087;
20-25 =2088; 25-30= 2089; Phase=l
Cesiun-137
pCi/cm
5.909
0.815
0.139
0.092
0.159
0.200
Potassiun-40
pCi/cm
134.800
156.100
163.400
169.700
176.300
172.700
Radiun-226
pCi/cm2
3.058
3.829
3.739
3.725
3.744
3.479
Thoriun-232
pCi/cm
4.288
5.285
5.256
6.767
6.887
6.882
Uraniun-235
pCi/cm2
0.573
1.000
1.145
0.892
1.225
Uraniun-238
pCi/cm
25.071
17.804
23.264
Location =AND; Formation= DISMAL GAP; Site=19; 00-05=2124; 05-10=2125; 10-15=2126; 15-20=2127;
20-25 =2128; 25-30=2129; Phase=l
Cesiun-137
pCi/cm^
11.250
2.483
0.419
0.198
0.024
0.050
Potassiun-40
pCi/cm
55.460
86.830
97.760
110.100
108.300
116.400
Radiun-226
pCi/cm^
2.994
4.467
4.426
3.760
3.415
3.382
Thoriun-232
pCi/cm
4.121
6.343
7.132
7.275
6.713
6.938
Uraniun-235
pCi/cm
0.525
0.914
0.937
0.596
0.831
0.359
Uraniun-238
pCi/cm2
5.091
5.614
15.815
16.143
12.070
7.134
Location =AND; Formanon=DISMAL GAP; Siie=20: 00-05 = 2074; 05-10=2075: 10-15 = 2076: 15-20=2077;
20-25 = 2078; 25-30=2079; Phase=l
Cesiun- 137
pCi/cm
6.284
0.356
0.196
0.197
Potassiun-40
pCi/cm2
97.750
108.500
101.100
104.600
101.200
90.530
Radium-226
pCi/cm^
3.9M
4.366
3.728
3.542
3.745
2.741
Thoriun-232
pCi/cm2
5.858
6.268
6.481
6.851
6.898
6.054
Uraniun-235
pCi/cm2
1.102
0.425
Uraniun-238
pCi/cm2
19.881
-------�
B-94
Table B3 (continued)
Depth (cm)
Analysis Units 00-05 05-10 10-15 15-20 20-25 25-30
Location =AND; Fomumon= DISMAL GAP; Siie=21; 00-05=2105; 05-10=2106; 10-15=2107; 15-20=2108;
20-25 =2109; 25-30=2110; Phase=1
Cesiun-137
pCi/cm
3.965
1.209
0.471
0.438
0.090
0.081
Potassiun-40
pCi/cm
99.460
136.700
164.800
156.500
139.900
151.000
Radiun-226
pCi/cm~
2.167
3.439
3.191
2.751
2.978
2.741
Thoriun-232
pCi/cm
4.082
5.474
6.345
6.375
5.948
6.506
Uraniun-235
pCi/cm*
1.092
1.461
1.152
U ran inn- 238
pCi/cm
31.690
20.803
21.349
22.795
Location = AND; Formation =DISMAL GAP; Site=22; 00-05=2094; 05-10=2095; 10-15=2096; 15-20=2097;
20-25 =2098; 25-30=2099; Phase=1
Cesiun-137
pCi/cm*
3.019
0.325
0.144
0.144
0.139
0.045
Potassiun-40
pCi/cnr
167.000
162.400
157.800
136.300
158.100
176.400
Radium-226
pCi/cm
3.532
3.781
3.603
3.243
3.484
3.378
Thoriun-232
pCi/cnr
5.984
6.503
6.857
6.800
6.734
6.729
Uranium-235
pCi/cm
0.889
0.910
0.882
0.863
0.909
0.341
Uraniun-238
pCi/cm
17.838
16.400
18.484
17.910
16.820
7.410
Location =AND; Formation = DISMAL GAP; Site=3; 00-05 =2063; 05-10=2064; 10-15 =2065; 15-20=2066:
20-25 =2067; 25-30=2068; Phase=1
Cesium-137
pCi/cm
3.276
0.941
0.297
0.144
0.077
Potassiun-40
pCi/cm
122.100
125.500
127.700
128.700
124.100
118.400
Radiun-226
pCi/cnc
3.227
4.262
3.743
3.456
3.448
2.850
Thoriun-232
pCi/cm
6.423
7.044
7.002
7.299
7.031
7.082
Uraniun-235
PCi/cm
0.759
0.863
0.306
Uraniun-238
pCi/cm
13.240
9.655
23.220
Location=AND; Formation¦= DISMAL GAP; Site=4; 00-05 =2043; 05-10=2044; 10-15 =2045; 15-20=2046;
20-25 =2047; 25-30=2048; Phase=1
Cesiun-137
2
pCi/cm
7.805
0.921
0.313
0.378
0.404
0.162
Potassiura-40
pCi/cm
211.100
214.000
218.500
233.300
230.100
224.600
Radiun-226
pCi/cm
3.300
3.571
3.517
3.179
3.483
• 3.255
Thoriun-232
pCi/cnr
5.803
5.929
6.255
6.735
7.397
6.793
Uraniun-235
pCi/cm
Uraniun-238
pCi/cm
Location = AND; Formation = DISMAL GAP; Site=5; 00-05=2053; 05-10=2054; 10-15=2055; 15-20=2056;
20-25=2057; 25-30=2058; Phase=1
Cesiun-137
pCi/cm*
3.946
0.560
0.062
Potassiun-40
pCi/cm
234.800
260.000
276.500
268.400
235.800
207.000
Radium-226
pCi/cnr
3.146
3.499
3.477
3.441
3.385
3.468
Thoriun-232
pCi/cnr
6.167
6.967
7.672
7.487
6.929
6.241
Uraniun-235
pCi/cnr
1.549
1.606
0.450
Uraniun-238
pCi/cm
22.730
22.610
6.546
Location =AND; Formation= DISMAL GAP; Siie=9; 00-05=2137; 05-10=2138; 10-15=2139; 15-20=2140;
20-25=2141; 25-30=2142; Phase=1
Cesiun-137
pCi/cm*
7.064
1.246
0.387
0.046
0.190
0.020
Potassium-40
pCi/cnr
93.590
95.870
92.600
86.530
106.400
96.570
Radiun-226
pCi/cnr
2.819
3.557
3.509
3.462
3.541
3.456
Thoriun-232
pCi/cm
4.435
6.244
6.583
5.740
7.119
6.540
Uraniun-235
pCi/cm
2.502
1.062
1.149
0.457
Uraniun-238
pCi/cm
6.419
19.966
21.260
-------�
B-95
Table BJ3 (continued)
Depth (cm)
Analysis Units 00-05 05-10 10-15 15-20 20-25 25-30
Location = ORR; Formation=CHEPULTEPEC; Site=50; 00-05=1847; 05-10=1848; 10-15=1849;
15-20=1850; 20-25=1851; 25-30=1852; Phase =2
Cesium-137
pCi/cm^
5.584
1.059
0.963
0.565
0.151
0.083
Potassium-40
pCi/cm
4.954
11.010
10.190
12.970
13.490
14.330
R ad i un-226
pCi/cnr
2.255
4.058
5.026
5.691
5.264
5.316
Thorium-232
pCi/cuT
2.260
6.018
4.640
4.922
5.220
5.405
Uraniun-235
pCi/cnr
0.735
1.043
0.438
0.821
0.450
Uranium-238
pCi/cm
13.249
17.180
13.890
13.820
12.238
11.320
Location =ORR; Formation =CHEPULTEPEC; Site=52; 00-05=1654; 05-10=1655; 10-15=1656;
15-20=1657; 20-25=1658; 25-30=1659; Phase=2
Cesiun-137
pCi/cm^
4.143
4.188
1.285
0.492
0.135
0.039
Potassiun-40
pCi/cm^
8.046
13.060
14.560
14.250
15.300
18.220
Radiun-226
pCi/cnr
2.930
5.092
5.203
4.933
5.050
5.504
Thoriun-232
pCi/cnr
3.414
4.374
4.764
4.024
4.181
4.401
Uraniun-235
pCi/cnr
0.890
0.941
0.949
1.713
0.637
0.510
Uraniun-238
pCi/cm
11.851
13.405
12.829
9.655
11.223
8.168
Location=ORR; Formation=CHEPULTEPEC; Site=53; 00-05=1642: 05-10=1643; 10-15=1644;
15-20=1645; 20-25=1646; 25-30=1647; Phase=2
Cesiun-137
pCi/cm*
3.263
1.955
0.681
0.162
0.144
0.036
Potassium-40
pCi/cm*
8.500
11.890
15.960
15.520
13.910
16.270
Radiun-226
pCi/cm*
2.535
3.989
4.181
4.056
3.623
3.742
Thoriun-232
pCi/cnr
2.588
2.950
3.154
3.112
2.710
2.818
Uranium-235
pCi/cnr
0.516
0.342
0.685
0.307
0.072
0.293
Location = ORR; Formation = CHEPULTEPEC; Site=66; 00-05=1821; 05-10=1822; 10-15=1823;
15-20=1824; 20-25=1825; 25-30=1826; Phase=2
Cesiim-137 pCi/cm* 3.375 1.316 0.620 0.200 0.124 0.018
Potassiun-40 pCi/cm^ 13.300 15.200 16.290 26.010 32.570 42.060
Radiun-226 pCi/cm* 3.737 4.087 3.825 5.272 5.297 5.242
Thoriun-232 pCi/cm^ 2.700 3.252 2.789 4.452 6.019 6.648
Uranium-235 pCi/cm2 1.068 0.617 0.749 0.777 0.472 0.315
Location = ORR; Formation =CHEPULTEPEC; Site=68; 00-05=1787; 05-10=1788; 10-15=1789;
15-20=1790; 20-25=1791; 25-30=1792; Phase=2
Cesiun-137
pCi/cm2
4.046
3.647
1.984
0.597
0.100
0.062
Potassiun-40
pCi/cnr
10.620
14.090
13.360
16.550
16.940
19.210
Radiun-226
pCi/cm*
3.338
4.303
5.089
4.967
5.168
5.199
Thoriun-232
pCi/cnr
2.265
3.259
3.195
3.568
3.449
3.746
Uranium-235
pCi/cm2
0.558
0.968
0.968
0.765
0.856
0.212
Uranium-238
pCi/cm2
9.643
12.310
15.404
13.122
12.180
7.516
Location =ORR; Formation =CHEPULTEPEC; Si:e=73; 00-05=1841; 05-10=1842; 10-15=1843;
15-20=1844; 20-25=1845; 25-30=1846; Phase=2
Cesiun-137
pCi/cm2
5.746
4.756
1.738
0.194
0.184
0.134
Potassiun-40
pCi/cnr
13.290
21.450
22.040
40.720
42.860
46.870
Radiun-226
pCi/cnc
2.911
5.545
4.911
6.583
5.496
6.519
Thorium-232
pCi/cnr
2.034
3.555
3.011
4.764
4.729
5.370
Uraniun-235
pCi/cnr
0.447
1.600
0.449
1.124
0.618
Uraniun-238
pCi/cm
10.840
16.400
15.895
13.452
19.780
-------�
B-96
Table B-3 (continued)
Depth (cm)
Analysis Units 00-05 05-10 10-15 15-20 20-25 25-30
Location=ORR; Formaaon=CHEPULTEPEC; Site=74; 00-05=1773; 05-10=1774; 10-15=1775;
15-20=1776; 20-25=1777; 25-30=1778; Phase =2
Cesiun-137
pCiW
5.000
1.682
0.303
0.143
0.127
0.031
Potassiun-40
pCi/emi
11.720
11.950
15.510
18.430
20.540
23.220
Radiun-226
pCi/on*
3.083
3.404
4.567
4.604
4.729
4.781
Thoriun-232
pCi/an~
1.953
2.359
2.694
2.920
3.325
3.502
Uraniun-235
pCi/cnr
0.286
0.696
0.922
0.566
0.757
0.173
Uraniun-238
pCi/an
14.680
12.691
15.462
15.630
10.938
12.460
Location =ORR; Formanon=CHEPULTEPEC; Site =77: 00-05=1690; 05-10=1691; 10-15=1692;
15-20=1693; 20-25=1694; 25-30=1695; Phase=2
Cesiun-137
pCi/cm
7.507
3.694
0.518
0.113
0.044
0.012
Potass iun-40
pCi/cnr
10.370
13.590
17.450
19.790
23.470
20.150
Radium-226
pCi/cm
3.391
3.953
5.012
5.137
5.267
5.505
Thoriun-232
pCi/cnr
3.043
3.689
4.271
4.744
5.127
4.373
Uraniun-235
pCi/cm
0.884
0.883
0.682
0.439
0.447
Uraniun-238
pCi/cm
14.449
14.670
14.020
15.370
10.842
7.632
Location=ORR; Formation=CHEPULTEPEC; Site=78; 00-05=1672; 05-10=1673; 10-15=1674;
15-20=1675; 20-25=1676; 25-30=1677; Phase =2
Cesiun-137
pCi/cm1
4.537
3.070
0.900
0.128
0.038
0.014
Potassiun-40
pCi/cnr
14.980
15.190
16.610
19.380
16.900
21.940
Radiun-226
pCi/cnr
4.716
4.423
4.568
4.821
4.738
5.736
Thoriun-232
pCi/cm
2.890
2.958
3.242
4.190
3.758
4.597
Uraniun-235
pCi/cnr
0.826
0.876
0.858
0.823
0.238
0.460
Uraniun-238
pCi/cm
17.424
10.940
10.810
12.542
6.167
10.380
Location =ORR; Formation=CHEPULTEPEC; Siie=85; 00-05=1726; 05-10=1727; 10-15=1728;
15-20=1729; 20-25=1730; 25-30=1731; Phase=2
Cesiun-137
pCi/cm
4.605
2.668
0.615
0.219
0.139
0.015
Potassiun-40
pCi/cnr
16.770
22.070
20.660
23.660
25.350
24.250
Radiun-226
pCi/cm
3.793
4.559
3.852
4.148
4.276
-4.067
Thoriun-232
PCi/cm*
2.861
3.500
2.919
3.459
3.620
3.366
Uraniun-235
pCi/cnr
0.898
0.875
0.816
0.562
0.689
0.101
Uraniun-238
pCi/cm
8.429
5.773
13.717
15.510
8.565
6.518
Location =ORR; Formation=CHEPULTEPEC; Site=86; 00-05=1708; 05-10=1709; 10-15=1710;
15-20=1711; 20-25=1712; 25-30=1713; Phase=2
Cesium-137
pCi/cm*
4.733
1.670
0.819
0.291
0.123
0.057
Potassiun-40
pCi/cnr
3.521
9.244
13.310
16.210
16.750
18.890
Radiun-226
pCi/cnr
2.221
3.721
3.308
3.385
3.623
3.445
Thoriun-232
pCi/cm
0.502
1.369
2.116
2.328
2.772
2.558
Uraniun-235
pCi/cnr
0.605
0.820
1.383
0.663
1.036
0.348
Uranium-238
pCi/cm
12.140
11.950
16.270
15.210
10.470
7.805
Location=ORR; Formation=CHEPULTEPEC; Sile=90; 00-05=1757; 05-10=1758; 10-15=1759:
15-20=1760; 20-25=1761; 25-30=1762; Phase=2
Cesiun-137
pCi/cm
5.479
3.047
0.644
0.359
0.252
0.105
Potassiun-40
pCi/cnr
10.110
12.210
13.530
14.450
25.100
37.730
Radiun-226
pCi/cm
2.893
4.111
3.825
3.118
4.051
3.889
Thoriun-232
pCi/cnr
3.066
4.114
3.794
3.159
4.193
5.508
Uraniun-235
pCi/cm
0.374
1.521
0.298
0.638
0.659
0.113
Uraniun-238
pCi/cnr
4.853
12.822
13.283
6.859
15.300
-------�
B-97
Table B3 (continued)
Depth (cm)
Analysis Units 00-05 05-10 10-15 15-20 20-25 25-30
Location =ORR; Formation=CHICKAMA UGA Bethel V; Site=100; 00-05=1883; 05-10=1884; 10-15=1885;
15-20=1886; 20-25=1887; 25-30=1888; Phase=2
Cesiun-137 pCi/cm2 12.520 0.550 0.156 0.149 0.165 0.160
Potassiun-40 pCi/cm2 75.810 165.600 187.800 191.000 199.200 175.200
Radiun-226 pCi/cm2 2.186 3.860 3.428 2.861 3.308 3.046
Thoriun-232 pCi/cm2 3.539 7.663 8.115 8.062 8.295 7.421
Uraniun-235 pCi/cm2 0.944 1.182 0.965 0.957 0.995 0.114
Location =ORR; Formation=CHICKAMA UGA Bethel V; Site=101; 00-05=1920; 05-10=1921; 10-15=1922;
15-20=1923; 20-25=1924; 25-30=1925; Phase =2
Cesium-137 pCi/cm2 11.450 6.548 2.665 1.156 0.662 0.411
Potassiun-40 pCi/cm2 105.000 159.900 154.100 171.700 170.500 180.600
Radium-226 pCi/cm2 2.598 3.458 3.604 3.489 3.504 3.785
Thoriun-232 pCi/cm2 4.993 7.101 7.115 7.870 7.735 8.133
Uranium-235 pCi/cm2 1.053 1.208 1.154 0.431 0.944 0.246
Location=ORR; Formaiion=CHICKAMA UGA Bethel V; Site=102; 00-05=1914; 05-10=1915; 10-15=1916;
15-20=1917; 20-25 = 1918; 25-30=1919; Phase=2
Cesium-137 pCi/cm2 8.069 6.771 1.729 0.517 0.219 0.051
Potassiun-40 pCi/cm2 51.380 71.770 84.500 91.910 96.760 118.600
Radium-226 pCi/cm2 3.085 4.335 4.837 4.241 4.502 4.369
Thoriun-232 pCi/an2 5.194 6.978 7.836 7.672 7.190 7.983
Uraniun-235 pCi/cm2 0.582 1.143 0.753 0.934 0.899 0.721
Location = ORR; Formation = CHICKAMA UGA Bethel V; Site=103; 00-05=1908; 05-10=1909; 10-15=1910;
15-20=1911; 20-25=1912; 25-30=1913; Phase=2
Cesiun-137 pCi/cm2 5.958 0.709 0.578 0.057 0.234 0.094
Potassiun-40 pCi/cm2 126.200 181.400 169.700 165.900 167.500 172.300
Radiun-226 pCi/cm2 2.620 3.611 3.096 3.267 3.013 2.977
Thoriun-232 pCi/cm2 4.180 7.722 7.461 7.385 7.784 7.991
Uraniun-235 pCi/cm2 0.926 1.246 1.172 1.173 0.291 0.528
Location=ORR; Formation =CHICKAMA UGA Bethel V; Site=104; 00-05=1981; 05-10=1982; 10-15=1983;
15-20=1984; 20-25=1985; 25-30=1986; Phase=2
Cesiun-137
pCi/cm2
7.139
2.257
0.646
0.216
0.034
0.082
Potassiun-40
pCi/cm2
61.890
131.000
154.300
167.000
165.100
159.900
Radiun-226
pCi/cm2
2.312
3.780
3.888
3.995
3.383
3.109
Thoriun-232
pCi/cm
2.337
4.221
5.430
6.903
7.979
8.067
Uraniun-235
pCi/cnr
0.765
0.701
1.010
0.756
0.963
0.177
Uraniun-238
pCi/cm
7.319
31.990
15.897
Location =ORR; Formation=CHICKAMAUGA Bethel V; Site=108; 00-05=1987; 05-10=1988; 10-15=1989;
15-20=1990; 20-25=1991; 25-30=1992; Phase=2
Cesium-137
pCi/cm2
7.191
0.867
0.396
0.083
0.142
0.017
Potassium-40
pCi/cm
47.150
82.150
127.100
132.600
133.800
127.700
Radiun-226
pCi/cm
4.887
5.442
5.281
4.347
3.847
3.475
Thoriun-232
pCi/cnT
7.454
9.752
9.738
9.477
8.991
8.818
Urani un-235
pCi/cm^
1.611
1.422
0.072
1.306
0.300
Urani un-238
pCi/cm
21.328
20.277
17.330
6.348
Location=ORR; Formation =CHICKAMAUGA Bethel V; Site=110; 00-05=4032; 05-10=4033; 10-15 =4034;
15-20=4035; 20-25 =4036; 25-30=4037; Phase=2
Cesiun-137 pCi/cm2 5.695 1.044 0.540 0.440 0.045 0.191
-------�
B-98
Table B3 (continued)
Depth (cm)
Analysis Units 00-05 05-10 10-15 15-20 20-25 25-30
Radiun-226 pCi/cm2
Thorium-232 pCi/cm2
Uraniun-235 pCi/cm2
Uraniun-238 pCi/cm
5.782 4.487 5.563
7.744 7.043 8.816
1.225 1.437 1.399
5.044 6.572 4.583
8.563 8.512 8.407
1.664 0.941 0.222
13.497 15.290 5.483
Location = ORR; Formation=CHlCKAMAUGA Bethel V; Site=U5; 00-05=4026; 05-10=4027; 10-15=4028;
15-20=4029; 20-25=4030; 25-30=4031; Phase=2
Cesiun-137
pCi/cm2
6.913
1.540
0.491
0.220
0.218
0.141
Potassium-40
pCi/cnr
29.290
48.130
62.080
68.000
73.120
69.860
Radiun-226
pCi/cm*
3.959
5.565
6.102
5.872
6.245
6.260
Thoriun-232
pCi/cm2
5.486
8.658
9.685
9.840
9.788
8.522
Uraniun-235
pCi/cnr
0.989
1.045
0.976
1.217
0.821
0.582
Uraniun- 238
pCi/cm
20.612
5.564
18.670
4.567
19.763
6.411
Location = ORR; Formation=CHICKAMA UGA Bethel V; Site=116; 00-05=4000; 05-10=4001; 10-15=4002;
15-20=4003; 20-25 =4004; 25-30=4005; Phase=2
Cesium-137 pCi/ctn* 4.999 1.915 0.541 0.222 0.164 0.093
Potassiun-40 pCi/cm2 65.140 94.250 108.800 115.800 141.800 150.000
Radiun-226 pCi/cm2 4.079 4.565 4.837 4.028 3.750 3.956
Thorium-232 pCi/cm2 5.421 7.799 8.474 7.982 8.938 9.220
Uraniun-235 pCi/cm2 0.398 1.134 1.399 0.897 0.133 0.328
Location=ORR; Formation=CHICKAMA UGA Bethel V; Site=117; 00-05=4013; 05-10=4014; 10-15=4015;
15-20=4016; 20-25=4017; 25-30=4018; Phase=2
Cesiun-137 pCi/cm2 4.367 2.908 1.232 0.319 0.096 0.042
Potassiun-40 pCi/cm2 40.340 48.460 65.660 126.000 145.900 149.900
Radiun-226 pCi/cm2 4.026 4.286 4.687 3.725 3.975 3.378
Thoriun-232 pCi/cm2 5.021 6.052 7.110 8.365 8.811 8.465
Uraniun-235 pCi/cm2 0.967 1.038 1.120 0.935 0.612 0.254
Location=ORR; Formation =CHICKAMA UGA Bethel V; Site=93; 00-05=1871; 05-10=1872; 10-15=1873;
15-20=1874; 20-25=1875; 25-30=1876; Phase=2
Cesiun-137 pCi/cm2 8.474 0.993 0.439 0.257 0.252 0.165
Potassiun-40 pCi/cm2 73.850 99.450 116.000 112.800 126.800 125.300
Radiun-226 pCi/cm2 3.939 4.398 3.621 3.233 3.447 3.968
Thoriun-232 pCi/cm2 6.591 8.272 7.632 7.007 7.741 7.280
Uraniun-235 pCi/cm2 1.084 2.156 0.888 0.885 0.935 0.668
Location =ORR; Formation =CHICKAMA UGA Bethel V; Site=99; 00-05=1877; 05-10=1878; 10-15=1879;
15-20=1880; 20-25=1881; 25-30=1882; Phase=2
Cesiun-137 pCi/cm2 8.641 2.230 1.286 0.235 0.098 0.051
Potassiun-40 pCi/cm2 81.330 81.630 85.390 102.900 109.800 117.800
Radiun-226 pCi/an2 5.896 5.879 5.434 6.126 6.212 6.326
Thoriun-232 pCi/an2 8.450 8.812 8.240 9.208 9.050 9.464
Uraniun-235 pCi/cm2 1.331 1.271 0.957 1.146 1.054 0.338
Location=ORR; Formation=CHICKAMA UGA K-25; Site=118; 00-05=4077; 05-10=4078; 10-15=4079;
15-20=4080; 20-25 =4081; 25-30=4082; Phase=2
Cesium-137
2
pCi/cm'
7.869
1.200
0.156
0.323
0.280
0.097
Potassiun-40
pCi/cm2
62.720
122.300
149.700
125.100
142.500
151.100
Radiun-226
pCi/cnc
2.694
4.021
3.759
3.470
3.861
3.392
Thoriun-232
pCi/cnr
5.157
8.513
9.713
8.212
9.603
9.296
Uraniun-235
pCi/cm*
1.556
1.342
1.445
1.873
1.409
0.650
Uraniun-238
pCi/an
19.400
28.450
25.933
18.400
29.434
-------�
B-99
Table B-3 (continued)
Depth (cm)
Analysis Units 00-05 05-10 10-15 15-20 20-25 25-30
Location=ORR; Formation=CHICKAMA UGA K-Z5; Site=119; 00-05=4180; 05-10=4181; 10-15=4182;
15-20=4183; 20-25=4184; 25-30=4185; Phase=2
Cesium-137
pCi/cm
4.432
2.875
0.400
0.252
0.252
0.090
Potassiun-40
pCi/cnr
37.320
58.160
84.170
99.440
127.000
143.000
Radiun-226
pCi/cm
3.206
4.540
5.987
5.053
4.622
3.704
Thoriun-232
pCi/cm
3.897
6.497
9.420
7.940
8.030
7.973
Uraniun-235
pCi/cm
1.184
1.685
1.213
1.239
1.389
0.368
Uraniun-238
pCi/cm
18.213
19.404
23.751
12.400
19.040
7.784
Location=ORR; Formanon =CH1 CKAMA UGA K-25: Site=120; 00-05=4071; 05-10=4072; 10-15=4073;
15-20=4074; 20-25=4075; 25-30=4076; Phase=2
Cesiun-137
pCi/cm
4.635
2.907
1.015
0.317
0.235
0.041
Potass iun-40
pCi/cm
18.010
31.430
31.570
42.240
52.500
65.180
Radiun-226
pCi/cm
4.852
5.986
7.008
6.901
7.032
5.844
Thoriun-232
pCi/cm
4.569
6.220
7.461
8.373
8.530
8.535
Uraniun-235
pCi/cm
1.053
0.911
0.349
1.590
1.136
0.547
Uranium-238
pCi/cm
14.190
22.350
11.750
16.090
25.172
13.120
Location =ORR; Formation=CHICKAMA UGA K-25; She-121; 00-05 =4186; 05-10=4187; 10-15=4188;
15-20=4189; 20-25 =4190; 25-30=4191; Phase=2
Cesium-137
pCi/cm
5.614
0.614
0.143
0.190
0.187
0.060
Potassium-40
pCi/cm
34.680
50.880
57.810
82.380
146.400
171.900
Radiun-226
pCi/cm
3.917
5.116
4.640
4.307
2.751
2.813
Thoriun-232
PCi/cm^
4.612
6.574
6.059
6.283
6.771
7.250
Uraniun-235
pCi/cnr
0.838
0.525
0.305
1.014
0.951
0.243
Uraniun-238
pCi/cm
17.664
20.514
17.386
17.690
21.470
9.990
Location =ORR; Formation =CH1CKAMAUGA K-25; Site=122; 00-05=4192; 05-10=4193; 10-15=4194;
15-20=4195; 20-25=4196; 25-30=4197; Phase=2
Cesiun-137
PCi/cm^
3.200
2.567
0.747
0.367
0.113
0.077
Potassiun-40
pCi/cm
36.930
44.990
94.180
132.700
139.600
143.800
Radiun-226
PCi/cm
3.124
4.065
4.953
5.386
5.273
4.168
Thoriun-232
pCi/cm
3.485
4.449
6.771
8.769
8.467
8.378
Uraniun-235
pCi/cm
0.772
0.151
0.700
1.244
1.133
0.352
Uraniun-238
pCi/cm
21.623
16.132
13.120
21.308
9.286
7.347
Location = ORR; Formation =CHJCKAMA UGA K-25; Site=123; 00-05 =4210; 05-10=4211; 10-15=4212;
15-20=4213; 20-25 =4214; 25-30=4215; Phase=2
Cesiun-137
pCi/cm
4.078
2.105
0.566
0.221
0.490
0.072
Potassiun-40
pCi/cm;
42.480
63.660
76.920
110.800
99.370
99.250
Radiun-226
pCi/cm*
3.425
3.906
3.817
3.801
3.500
3.548
Thoriun-232
pCi/cm^
pCi/cm;
6.102
7.253
7.931
9.505
8.385
8.636
Uraniun-235
0.636
1.053
1.132
1.081
0.542
0.380
Uraniun-238
pCi/cm
17.477
20.203
19.810
23.055
19.458
8.558
Location =ORR: Formanon =CHICKAMA UGA K-25; Site=124; 00-05 =4204: 05-10 =4205; 10-15 =4206;
15-20=4207; 20-25 =4208; 25-30 =4209; Phase=2
Cesiun-137
pCi/cm^
4.176
3.144
0.771
0.199
0.227
0.062
Potassiun-40
pCi/cm
24.750
34.760
61.620
136.100
153.300
152.000
Radiun-226
pCi/cm
2.966
3.467
4.839
4.351
4.305
3.497
Thoriun-232
pCi/cm
4.101
6.258
8.797
8.917
8.942
8.666
Uraniun-235
pCi/cm
1.091
0.961
1.133
1.149
1.181
0.267
Uraniun-238
pCi/cm
16.950
15.130
19.474
23.255
26.484
-------�
B-100
Table BJ (continued)
Depth (cm)
Analysis Units 00-05 05-10 10-15 115-20 20-25 25-30
Location =ORR; Formation=CHICKAMAUGA K-25; Site=125; 00-05-4198; 05-10=4199; 10-15=4200;
15-20=4201; 20-25 =4202; 25-30=4203; Phase=2
Cesium-137
pCi/cm^
5.157
1.654
0.587
0.186
0.2 0.7
0.085
Potass iun-40
pCi/cm
35.070
45.780
70.250
88.310
116.400
124.600
Radius-226
pCi/cnr
3.803
4.333
4.875
4.025
4.411
4.168
Thoriun-232
pCi/cm
4.592
6.439
7.061
7.238
8.052
8.304
Uraniun-235
pCi/cm^
1.041
0.699
1.131
1.006
1.074
0.372
Uraniun-238
pCi/an
15.447
15.913
19.112
21.500
35.150
7.414
Location=ORR; Formation=CHICKAMA UGA K-25; Site=126; 00-05=4065; 05-10=4066; 10-15=4067;
15-20=4068; 20-25 =4069; 25-30=4070; Phase=2
Cesiun-137
pCi/cm
6.911
1.569
0.487
0.216
0.078
0.043
Potass iun-40
pCi/cm
60.190
86.140
105.900
93.230
128.300
130.700
Radiun-226
pCi/cm
5.434
5.986
5.568
5.037
5.126
4.737
Thoriun-232
pCi/cm
7.085
8.887
8.983
8.168
9.295
9.454
Uraniun-235
pCi/cm
1.446
1.169
1.201
1.129
1.194
0.377
Uraniun-238
pCi/cm
9.252
8.862
22.261
20.685
20.524
6.910
Location =ORR; Formation =CHICKAMAUGA K-25; Site=127; 00-05 =4241; 05-10=4242; 10-15 =4243;
15-20=4244; 20-25 =4245; 25-30=4246; Phase=2
Cesiun-137
pCi/cm2
7.888
1.126
0.335
0.198
0.275
0.060
Potass iun-40
pCi/cm
76.220
112.700
117.000
130.400
117.700
126.100
Radiun-226
pCi/cnr
2.653
4.152
3.745
3.451
3.103
3.730
Thoriun-232
pCi/cm
5.382
7.676
7.398
7.716
7.697
7.761
Uraniun-235
pCi/cnr
1.129
0.789
0.955
1.113
1.418
0.566
Uraniun- 238
pCi/cm
22.336
11.610
21.979
21.075
21.492
12.880
Location =ORR; Formation=CHICKAMAUGA K-25; She=128; 00-05 =4247; 05-10=4248; 10-15 =4249;
15-20=4250; 20-25 =4251; 25-30=4252; Phase=2
Cesiun-137
pCi/cm
6.468
1.528
0.593
0.182
0.192
0.119
Potassiun-40
pCi/cnr
39.320
66.470
55.080
89.670
122.800
110.400
Radiun-226
pCi/cm
3.849
4.593
4.420
4.668
4.414
'3.710
Thoriun-232
pCi/cm
4.707
7.299
6.322
7.848
9.444
7.777
Uraniun-235
pCi/cm
1.229
1.087
1.047
1.348
0.803
0.710
Uraniun-238
pCi/cm
18.500
13.500
19.128
11.170
21.943
11.770
Location=ORR; Formation=CHICKAMA UGA K-25; Sue=129; 00-05 =4059; 05-10=4060; 10-15=4061;
15-20=4062; 20-25 =4063; 25-30=4064; Phase=2
Cesiun-137
2
pCi/cnr
5.763
1.902
0.745
0.484
0.274
0.077
Potassiun-40
pCi/cm
16.240
31.980
52.620
78.430
95.520
96.940
Radiun-226
pCi/cm
3.103
5.764
6.449
6.085
4.943
4.222
Thoriun-232
pCi/cm
3.172
5.809
7.469
9.115
9.305
9.829
Uraniun-235
pCi/cm^
0.711
1.178
1.304
1.527
2.440
0.498
Uraniun-238
pCi/cm
18.875
20.772
28.704
24.439
23.411
9.509
Location=ORR; Formation=COPPER RIDGE; Siie=45; 00-05=1593; 05-10=1594; 10-15=1595;
15-20=1596; 20-25=1597; 25-30=1598; Phase=2
Cesiun-137
Potass iun-40
Radium-226
Thoriun-232
Uraniun-235
pCi/cm
pCi/cnr
pCi/cm
pCi/cnr
pCi/cm
6.360
11.650
3.974
2.692
0.613
1.194
13.410
4.653
3.249
0.678
0.309
18.040
5.499
3.600
0.729
0.083
16.830
5.313
3.926
0.260
0.112
16.670
5.370
4.353
0.589
0.063
17.340
5.469
4.567
-------�
B-101
Table B3 (continued)
Depth fern)
Analysis Units 00-05 05-10 10-15 15-20 20-25 25-30
Location—ORR: Formahon=COPPER RIDGE; SUe=51; 00-05=1566; 05-10=1567; 10-15=1568;
15-20=1569; 20-25=1570; 25-30=1571; Phase=2
Cesiun-137 pCi/an2 3.619 2.745 1.396 0.528 0.126 0.001
Potassiun-40 pCi/cm2 12.050 16.450 17.660 19.970 20.430 20.970
Radiun-226 pCi/an2 3.540 4.564 5.058 5.352 5.021 5.185
Thoriun-232 pCi/cm2 3.266 3.973 4.127 4.212 3.879 4.374
Uraniun-235 pCi/cm 0.388 0.722 0.864 1.554 0.784 0.333
Location =ORR; Formanon=COPPER RIDGE; Sue=54; 00-05=1630: 05-10=1631; 10-15=1632;
15-20=1633; 20-25=1634; 25-30=1635; Phase=2
Cesiun-137 pCi/an2 3.418 2.364 0.937 0.407 0.319 0.312
Potassiun-40 pCi/cm2 14.360 21.450 23.850 26.690 28.190 24.320
Radiun-226 pCi/cm2 4.360 6.317 6.812 6.579 6.832 6.863
Thoriun-232 pCi/cm2 2.808 3.869 4.156 3.938 4.731 3.974
Uraniun-235 pCi/cm2 0.080 1.257 0.826 0.214 0.844 0.466
Locahon = ORR; Formanon-COPPER RIDGE; Siie=55: 00-05=1560; 05-10=1561: 10-15=1562;
15-20=1563; 20-25 = 1564; 25-30=1565: Phase=2
Cesiun-137
PCi/cm2
2.415
2.996
2.242
0.698
0.093
0.095
Potassiun-40
pCi/cnT
7.522
13.170
20.880
19.310
20.590
20.440
Radiun-226
pCi/cm2
2.651
4.309
5.465
5.676
5.724
5.533
Thoriun-232
pCi/cm2
1.634
2.798
3.446
3.508
3.715
3.392
Uraniun-235
pCi/cm
0.589
0.783
0.409
0.801
0.563
0.339
Location=ORR; Formahon=COPPER RIDGE; Site=58; 00-05=1519; 05-10=1520; 10-15=1521;
15-20=1522; 20-25=1523; 25-30=1524; Phase=2
Cesiun-137 pCi/cm2 3.551 2.283 1.078 0.179 0.115 0.002
Potassium-40 pCi/cm2 15.790 21.110 23.070 22.990 22.510 20.540
Radium-226 pCi/cm2 3.488 5.129 5.316 5.765 5.385 5.163
Thoriun-232 pCi/cm2 3.198 4.560 4.708 4.757 4.515 4.644
Uraniun-235 pCi/cm 0.681 0.849 0.750 0.557 0.615 0.456
Locahon =ORR: Formanon=COPPER RIDGE: Site=59: 00-05=1513; 05-10=1514; 10-15=1515;
15-20=1516; 20-25=1517; 25-30=1518; Phase=2
Cesiun-137 pCi/cm2 5.617 1.152 0.531 0.183 0.101 0.131
Potassiun-40 pCi/cm2 12.580 17.160 15.170 15.760 21.290 21.210
Radiun-226 pCi/cm2 3.646 5.337 5.189 5.506 6.024 6.198
Thoriun-232 pCi/cm2 2.276 3.964 3.706 3.825 4.416 4.180
Uraniun-235 pCi/cm2 0.702 0.463 1.263 0.387 0.805 0.360
Locahon =ORR; Formahon=COPPER FUDGE; Sue=60: 00-05=1572: 05-10=1573; 10-15=1574;
15-20=1575; 20-25=1576; 25-30=1577; Phase=2
Cesiun-137
pCi/cm2
3.948
1.230
0.467
0.221
0.185
0.182
Potassiun-40
pCi/cnr
8.893
12.280
12.180
15.070
18.600
18.610
Radiun-226
PCi/cm2
3.909
4.692
4.494
5.161
5.510
5.504
Thoriun-232
pCi/cm
3.098
3.968
4.031
5.325
6.105
6.128
Uraniun-235
pCi/cm2
0.859
1.331
0.888
0.806
0.819
0.305
Locanon=ORR; Formanon =COPPER RIDGE; SUe=62: 00-05=1554; 05-10=1555; 10-15=1556;
15-20=1557; 20-25=1558; 25-30=1559; Phase=2
Cesiun-137 pCi/cm2 6.207 2.584 0.718 0.574 0.236 0.128
Potassiun-40 pCi/cm2 11.640 12.670 13.270 16.350 15.850 13.940
-------�
B-1Q2
Tabic B3 (continued)
Depth (cm)
Analysis Units 00-05 05-10 10-15 15-20 20-25 25-30
Thoriun-232 pCi/cm2 3.242 A.264 4.226 5.067 4.682 3.822
Uraniun-235 pCi/cm2 0.759 0.500 0.759 0.801 0.303 0.325
Locaiion - ORR; Formation =COPPER RIDGE; Site=64; 00-05=1624; 05-10=1625; 10-15=1626;
15-20=1627; 20-25=1628; 25-30=1629; Phase=2
Cesiun-137 pCi/cm2 4.652 2.859 0.751 0.332 0.170 0.054
Potass iun-40 pCi/cm2 15.680 22.240 22.400 27.820 25.720 40.450
Radiun-226 pCi/cm2 3.915 6.486 6.887 6.897 6.688 9.077
Thoriun-232 pCi/cm2 2.168 2.916 3.489 3.881 3.845 5.175
Uraniun-235 pCi/cm2 0.641 0.770 0.493 0.703 0.399 0.328
Location =ORR; Formation=COPPER RIDGE; Site=75; 00-05=1584; 05-10=1585; 10-15=1586;
15-20=1587; 20-25=1588; 25-30=1589; Phase =2
Cesiun-137 pCi/cm2 5.587 3.823 0.529 0.061 0.047 0.047
Potassiun-40 pCi/cm2 14.490 19.750 18.200 23.800 19.540 19.510
Radiun-226 pCi/cm2 4.454 5.478 5.593 5.732 5.643 5.644
Thoriun-232 pCi/cm2 3.947 4.432 4.222 4.194 4.058 4.188
Uraniun-235 pCi/cm2 0.777 0.147 0.251 1.214 0.667 0.299
Location=ORR; Formation=COPPER RIDGE; Site=83; 00-05=1636; 05-10=1637; 10-15=1638;
15-20=1639; 20-25=1640; 25-30=1641; Phase=2
Cesiun-137 pCi/cm2 6.032 2.357 0.453 0.087 0.079 0.060
Potassiun-40 pCi/cm2 13.350 15.770 19.290 23.200 23.270 25.080
Radiun-226 pCi/cm2 3.680 4.825 5.953 6.484 6.590 6.816
Thoriun-232 pCi/cm2 3.142 4.001 4.174 4.907 4.839 5.181
Uraniun-235 pCi/cm2 0.332 0.528 0.298 0.407 0.603 0.841
Location=ORR; Formation=COPPER RIDGE; Sue=91; 00-05=1525; 05-10=1526; 10-15=1527;
15-20=1528; 20-25=1529; 25-30=1530; Phase=2
Cesi un-137 pCi/cm2 6.114 4.079 0.657 0.110 0.113 0.003
Potassiun-40 pCi/cm2 12.500 17.190 17.320 19.800 22.030 26.290
Radiun-226 pCi/cm2 3.990 5.152 6.148 6.265 6.295 6.531
Thoriun-232 pCi/cm2 2.852 3.986 4.752 4.753 4.943 5.503
Uraniun-235 pCi/cm2 0.764 0.670 0.653 0.376 1.206 0.719
Location =ORR; Formation =DISMAL GAP; Site=10; 00-05=1129; 05-10=1130; 10-15=1131; 15-20=1132;
20-25=1133; 25-30=1134; Phase=1
Cesiun-137
pCi/cm2
4.759
3.682
1.414
0.873
0.174
0.082
Potassiun-40
pCi/cm
76.680
99.600
95.990
97.560
100.900
95.320
Radiun-226
pCi/cnr
2.500
2.797
2.926
2.961
4.928
2.817
Thoriun-232
F>Ci/cm
4.069
5.306
5.565
5.801
6.721
6.130
Uraniun-235
pCi/en/
0.591
0.790
0.398
0.767
0.872
0.135
Uraniun-238
pCi/cm
12.321
15.515
14.191
14.284
14.644
2.261
Location = ORR; Formation
=DISMAL GAP; Sae=
11; 00-05=1040; 05-10=
1041; 10-15
=1042: 15-
20-25
=1044; 25-30=1045; Phase =1
Cesiun-137
pCi/cm
4.310
1.672
0.583
0.398
0.200
0.086
Potassiun-40
pCi/cnr
87.030
106.900
113.000
97.550
112.200
120.800
Radiun-226
pCi/cm
2.768
2.947
2.979
2.949
2.918
3.400
Thoriun-232
pCi/cm*
4.631
5.391
6.231
6.035
6.103
6.546
Uraniun-235
pCi/cm
0.429
0.697
0.524
0.506
0.476
-------�
B-103
Table B3 (continued)
Depth (cm) ;
Analysis Units 00-05 05-10 10-15 15-20 20-25 , 25-30
Location =ORR; Formation = DISMAL GAP; Site=19; 00-05=1093; 05-10=1094; 10-15=1095; 15-20=1096;
20-25=1097; 25-30=1098; Phase=l
Cesiun-137
pCi/cm2
8.065
0.603
0.126
0.029
0.048
0.027
Potassiun-40
pCi/cnr
68.050
85.770
96.070
93.080
115.000
121.400
Radiun-226
pCi/cm
3.882
4.665
4.566
4.279
4.610
4.714
Thoriun-232
pCiW
4.830
6.485
6.457
6.428
7.356
7.756
Uraniun-235
pCi/cnr
0.952
0.956
0.584
0.324
0.270
0.632
Uraniun-238
pCi/cm
16.393
15.355
4.717
8.440
3.522
10.930
Location=ORR; Formation = DISMAL GAP; Site=2; 00-05=1183; 05-10=1184; 10-15=1185; 15-20=1186;
20-25=1187; 25-30=1188; Phase=1
Cesiun-137
pCi/cm2
6.188
1.218
0.427
0.279
0.182
0.077
Potassiun-40
pCi/cnr
54.710
94.370
111.200
142.000
148.600
134.300
Radiun-226
pCi/cm
3.256
4.324
3.792
4.020
4.970
3.457
Thoriun-232
pCi/cm2
3.648
5.723
6.086
7.001
7.637
8.072
Uraniun-235
pCi/cm
0.348
0.835
0.836
0.918
1.223
0.943
Uraniun-238
pCi/cm
11.796
13.721
13.507
13.390
15.677
16.343
Location=ORR; Formation=DISMAL GAP; Siie=22; 00-05=1100; 05-10=1101; 10-15=1102; 15-20=1103;
20-25=1104; 25-30=1105; Phase=l
Cesiun-137
pCi/cm*
6.120
2.393
0.568
0.156
0.142
0.055
Potassiun-40
PCi/cnr
54.530
99.450
113.400
147.200
154.600
152.500
Radiun-226
pCi/cnrr
2.679
4.334
4.723
4.330
3.743
3.081
Thoriun-232
pCi/cnr
3.902
6.480
7.290
7.805
7.806
7.730
Uraniun-235
pCi/cnc
0.720
0.698
0.926
0.289
Uraniun-238
pCi/cm
13.006
14.738
15.277
15.990
15.394
7.227
Location=ORR; Formation=DISMAL GAP; Site=26; 00-05=1207; 05-10=1208; 10-15=1209; 15-20=1210;
20-25 = 1211; 25-30=1212; Phase = l
Cesiun-137
pCi/cm2
6.384
1.531
0.519
0.136
0.056
0.063
Potassiun-40
pCi/cnr
85.340
93.340
108.600
113.700
103.800
127.600
Radiun-226
pCi/cnr
3.909
2.895
3.338
3.495
3.129
3.269
Thoriun-232
pCi/cnr
4.963
5.114
5.928
6.511
6.291
6.814
Uraniun-235
pCi/cnr
0.820
0.520
0.856
0.799
0.826
0.240
Uraniun- 238
pCi/cm2
15.568
14.741
15.094
16.066
12.170
7.890
Location =ORR; Formation=DISMAL GAP; Site=27; 00-05=1009; 05-10=1010; 10-15=1011; 15-20=1012;
20-25=1013; 25-30=1014; Phase=l
Cesiun-137 pCi/cn^ 4.135 1.333 0.837 0.055 0.043 0.007
Potassiun-40 pCi/cnT 41.690 59.540 67.120 76.560 86.630 99.010
Radiun-226 pCi/cnT 2.484 3.472 3.156 3.755 3.904 3.875
Thoriun-232 pCi/cm* 3.254 4.402 4.676 5.155 5.328 5.799
Uraniun-235 pCi/cm2 0.536 0.465 0.653 0.558 0.588 0.554
Location=ORR; Formation= DISMAL GAP; Site=32; 00-05=1087• 05-10=1088:10-15=1089: 15-20=1090;
20-25=1091; 25-30=1092; Phase=l
Cesiun-137
pCi/cm2
5.229
1.642
0.908
0.103
0.001
0.003
Potassiun-40
pCi/cm^
76.990
105.300
112.200
116.100
130.400
148.800
Radiun-226
pCi/cnr
3.274
3.960
4.944
4.759
3.796
3.753
Thoriun-232
PCi/cnr
5.120
6.369
7.043
7.172
7.508
7.493
Uraniun-235
pCi/cnr
0.380
0.345
0.841
" 0.392
0.389
0.321
Uraniun-238
pCi/cm
5.161
8.219
14.870
8.259
5.169
-------�
B-104
Table B3 (continued)
Depth (cm)
Analysis Units 00-05 05-10 10-15 15-20 20-25 25-30
Location = ORR; Formation= DISMAL CAP; Sae=33; 00-05=1109; 05-10=1110; 10-15=1111; 15-20=1112;
20-25=1113; 25-30=1114; Phase=1
Cesiun-137
pCi/cm*
6.244
2.304„
0.322
0.194
0.202
0.128
Potass iun-40
pCi/cm
44.920
108.000
131.000
114.500
118.700
125.600
Radiun-226
pCi/cnr
2.859
4.659
4.027
3.814
4.718
4.797
Thoriun-232
pCi/cm
3.206
6.592
7.584
7.203
8.378
7.648
U rani un-235
pCi/cm;
0.335
1.100
0.827
1.053
0.855
Uraniun-238
pCi/cm
18.409
21.350
24.996
19.684
15.260
15.554
Location=ORR; Formation=DISMAL GAP; Site=35; 00-05=1116; 05-10=1117; 10-15=1118; 15-20=1119;
20-25=1120; 25-30=1121; Phase=1
Cesiun-137
PCi/cm
4.784
0.668
0.140
0.128
0.022
0.130
Potass iun-40
PCi/cnr
33.850
38.070
39.780
46.950
57.570
72.430
Radiun-226
pCi/cm
3.943
5.466
6.091
5.333
5.337
5.597
Thoriun-232
pCi/cnr
4.394
6.303
6.220
6.354
6.657
7.148
Uraniun-235
pCi/cm
0.646
0.736
0.907
0.894
0.165
0.722
Uraniun-238
pCi/cm
16.810
13.795
5.152
27.200
9.461
16.568
Location=ORR; Formation = DISMAL CAP; Site=41; 00-05=1028; 05-10=1029; 10-15=1030:15-20=1031;
20-25=1032; 25-30=1033; Phase-1
Cesium-137 pCi/cm* 5.877 2.912 1.600 0.336 0.082 0.087
Potassiun-40 pCi/cnC 30.520 48.050 54.250 79.970 73.820 80.450
Radiun-226 pCi/an; 2.148 3.498 3.372 2.633 2.342 3.005
Thoriun-232 pCi/cm, 3.021 4.885 5.164 6.088 6.156 6.417
Uraniun-235 pCi/cm2 0.539 0.638 0.557 0.604 0.488 0.527
Location =ORR; Formation = DISMAL GAP; Site=43; 00-05=1240; 05-10=1241; 10-15=1242; 15-20=1243;
20-25=1244; 25-30=1245; Phase=1
Cesiun-137
pCi/cm*
5.571
1.920
0.434
0.195
0.172
0.199
Potassiun-40
pCi/cm
72.950
93.950
99.590
107.500
104.200
115.300
Radiun-226
PCi/cm
3.711
5.460
5.157
4.374
3.890
3.719
Thoriun-232
PCi/cnr
5.417
6.589
7.005
7.418
6.849
-6.566
Uraniun-235
pCi/cm
1.104
1.170
1.022
1.016
0.957
Uraniun-238
pC i/cm
21.230
15.220
10.830
16.600
32.340
21.395
Location =ORR; Formanon=NOUCHUCKY; Site=13; 00-05=1355; 05-10=1356; 10-15=1357; 15-20=1358;
20-25=1359; 25-30=1360; Phase=1
Cesiun-137
pCi/cm
5.246
2.894
0.620
0.152
0.028
0.045
Potassiun-40
pCi/cnr
64.080
81.320
93.600
94.870
101.300
127.600
Radiun-226
pCi/cm
3.476
4.343
4.528
4.719
4.498
4.509
Thoriun-232
pCi/cm^
5.083
7.023
7.665
7.535
7.651
8.480
Uraniun-235
pCi/cm
0.546
0.923
0.952
0.993
0.981
0.530
Uraniun- 238
pCi/cm
11.482
13.150
14.713
14.590
5.978
8.344
Location=ORR; Formation=NOUCHUCKY; Site=15; 00-05=1307; 05-10=1308; 10-15=1309; 15-20=1310;
20-25=1311; 25-30=1312; Phase=1
Cesiun-137
2
pCi/cnr
5.201
2.050
0.387
0.195
0.249
0.208
Potassiun-40
pCi/cm
29.890
40.970
47.510
58.740
72.330
84.280
Radiun-226
pCi/cm
2.978
4.096
4.614
4.047
4.181
4.449
Thoriun-232
pCi/cm
4.357
6.481
6.907
7.849
8.749
9.260
Uraniun-235
pCi/cnr
1.008
1.101
1.134
1.543
1.265
1.280
Uraniun-238
pCi/cm
15.468
19.609
17.150
5.092
18.200
-------�
B-105
Tabic EL3 (continued)
Depth (cm)
Analysis Units 00-05 05-10 10-15 15-20 20-25 25-30
Location=ORR; Formation=NOUCHUCKY; SUe=16; 00-05=1343; 05-10=1344; 10-15=1345; 15-20=1346;
20-25=1347; 25-30=1348; Phase=1
Cesiun-137
2
pCi/cm
6.754
2.168
0.482
0.158
0.172
Potassiun-40
pCi/crrr
89.360
101.300
116.000
114.100
75.210
85.820
Radiun-226
pCi/cirr
3.987
4.735
5.308
5.095
4.962
4.896
Thoriun-232
pCi/cm
6.797
8.466
9.270
9.033
8.650
8.897
Uraniun-235
pCi/cnr
0.637
0.604
Uranium-238
pCi/cm
4.548
22.990
7.154
Locanon=ORR; Formation =NOUCHUCKY; Site=21; 00-05=1367; 05-10=1368; 10-15=1369; 15-20=1370;
20-25=1371; 25-30=1372; Phase=1
Cesiun-137
pCi/cm
10.650
0.724
0.165
0.156
0.092
0.055
Potassi un-40
pCi/cm
120.400
187.900
135.600
125.100
164.600
243.300
Radiun-226
pCi/cm
2.470
3.830
4.301
2.916
3.226
3.424
Thoriun-232
pCi/cm
6.099
10.100
8.872
9.165
9.904
10.100
Uranium-235
pCi/cm^
0.885
0.388
1.027
0.570
1.440
0.200
Uraniun-238
pCi/cm'
¦5.931
18.495
16.164
"7.040
15.696
8.715
Locanon=ORR; Formation=NOUCHUCKY; Site=23; 00-05=1316; 05-10=1317; 10-15=1318; 15-20=1319;
20-25=1320; 25-30=1321; Phase=l
Cesiun-137
pCi/cm^
5.495
2.962
0.352
0.201
0.156
0.195
Potassium-40
pCi/cm
52.660
63.460
113.200
136.100
155.100
150.300
Radiun-226
pCi/cm;
3.798
4.033
3.469
2.755
3.297
2.868
Thoriun-232
pCiW
5.900
6.549
8.027
8.120
9.116
8.672
Uraniun-235
pCi/cnr
1.116
1.120
1.209
1.134
1.278
1.186
Uraniun-238
pCi/cm
13.191
14.080
20.266
21.804
26.601
13.340
Location=ORR; Formanon=NOUCHUCKY; SUe=24; 00-05=1361; 05-10=1362; 10-15=1363; 15-20=1364;
20-25=1365; 25-30=1366; Phase=1
Cesiun-137
pCi/cm^
6.922
2.744
0.586
0.251
0.166
0.009
Potassium-40
pCi/ctn
111.200
160.500
156.700
180.400
188.500
183.800
Radiun-226
pCi/cnr
3.299
4.234
3.918
4.073
4.095
3.638
Thoriun-232
pCi/cm
5.847
8.358
8.674
9.820
10.210
9.445
Uraniun-235
pCi/an
0.876
0.993
0.951
1.044
1.015
0.290
Uraniun-238
pCi/cm
15.657
28.660
6.363
16.118
17.571
5.318
Location=ORR; Formation=NOUCHUCKY; Site=25; 00-05=1325; 05-10=1326; 10-15=1327; 15-20=1328;
20-25=1329; 25-30=1330; Phase=1
Cesiun-137
pCi/cm
6.829
0.357
0.152
0.265
0.042
Potassiun-40
PCi/cnr
124.400
151.300
152.500
164.200
186.600
202.000
Radiun-226 -
pCi/cm
3.761
4.388
4.583
3.857
3.579
3.449
Thoriun-232
pCi/cnr
7.051
9.536
9.616
9.597
9.744
10.050
Uraniun-235
pCi/cm
1.223
1.477
Uraniun-238
pCi/cm
9.958
Location=ORR: Formation=NOUCHUCKY; Site=28; 00-05=1337; 05-10=1338; 10-15=1339; 15-20=1340;
20-25=1341; 25-30=1342; Phase=1
Cesiun-137
pCi/cm^
5.695
2.859
0.971
0.179
0.156
0.053
Potassiun-40
pCi/cm
42.790
79.640
79.650
178.900
233.000
237.500
Radiun-226
pCi/cnr
3.383
6.105
5.717
4.630
3.541
4.066
Thoriun-232
pCi/cnr
4.124
7.475
8.001
8.802
9.680
9.555
Uraniun-235
pCi/cnr
0.740
1.118
0.972
2.204
1.061
0.053
Uraniun-238
pCi/cm
10.340
13.990
15.670
9.715
20.217
-------�
B-106
Table B3 (continued)
Depth (cm)
Analysis Units 00-05 05-10 10-15 15-20 20-25 25-30
Location=ORR; Formanon =NOUCHUCKY; Site=3; 00-05=1331; 05-10=1332; 10-15=1333; 15-20=1334;
20-25=1335; 25-30=1336; Phase =1
Cesiun-137
pCi/cm^
6.011
2.085
0.376
0.150
0.143
0.009
Potassiun-40
pCi/on
50.050
70.760
79.950
74.760
85.750
84.440
Radiun-226
pCi/cnr
3.893
4.494
4.726
4.667
3.919
3.968
Thoriun-232
pCi/cm
5.128
6.320
7.117
7.192
7.071
6.891
U ran inn-235
pCi/cm*
0.799
0.870
0.406
0.862
0.640
0.162
Uranium-238
pCi/cm
12.778
12.496
14.210
14.138
13.344
4.559
Location=ORR; Formation =NOUCHUCKY; Site=31; 00-05=1373; 05-10=1374; 10-15=1375; 15-20=1376;
20-25=1377; 25-30=1378; Phase=l
Cesiun-137
pCi/cm^
8.026
2.515
0.424
0.116
0.057
0.069
Potassiun-40
pCi/cnr
33.620
48.780
49.680
55.620
74.250
97.400
Radiun-226
pCi/cnr
3.608
5.457
5.291
5.712
5.927
5.623
Thori um-232
pCi/cm*
4.916
6.718
6.974
7.220
8.074
8.938
Uranium-235
pCi/cm
0.807
1.732
0.921
0.400
0.341
0.604
Uraniun-238
pCi/cm
14.236
6.761
14.435
8.832
6.049
15.150
Location=ORR; Formation =NOUCHUCKY; Site=42; 00-05=1379; 05-10=1380; 10-15=1381; 15-20=1382;
20-25=1383; 25-30=1384; Phase=1
Cesiun-137
pCi/on^
5.113
1.114
0.269
0.172
0.028
0.064
Potassiun-40
pCi/cm
57.730
82.200
135.500
163.400
141.600
135.000
Radiun-226
pCi/cnC
3.520
3.975
4.821
4.077
4.529
4.532
Thorium-232
pCi/cm
5.287
6.845
8.233
9.360
9.260
S.786
Uraniun-235
pCi/cnr
0.812
1.219
0.579
0.306
0.294
0.163
Uraniun-238
pCi/cm
14.970
13.150
7.215
17.255
8.356
11.100
Location =ORR; Formation=NOUCHUCKY; Site=5; 00-05=1349; 05-10=1350; 10-15=1351; 15-20=1352;
20-25=1353; 25-30=1354; Phase=1
Cesi un-137
pCi/cm
6.040
2.063
0.628
0.207
0.069
0.025
Potassi un-40
pCi/cnT
44.860
47.850
69.000
85.700
96.650
103.100
Radiun-226
pCi/cm
4.494
5.029
5.281
5.485
5.648
-5.009
Thorium-232
pCi/cm
5.806
6.192
7.761
8.460
9.026
9.015
Uraniun-235
pCi/cnr
0.550
0.823
0.413
0.960
0.995
0.636
Urani un-238
pCi/an
4.587
10.930
13.190
13.937
17.260
6.269
Location =ROA; Formation ^COPPER RIDGE; Sue=33; 00-05=3248; 05-10=3249; 10-15=3250;
15-20=3251; 20-25=3252; 25-30=3253; Phase=2
Cesium-137 pCi/cm* 7.157 1.144 0.799 0.468 0.054 0.149
Potassiun-40 pCi/cnT 18.440 37.040 34.320 35.950 35.550 36.400
Radiun-226 pCi/cm, 3.082 5.633 5.685 6.117 5.572 5.771
Thoriun-232 pCi/cnT 2.322 5.695 6.059 6.823 7.103 7.302
Urani Lin-235 pCi'/cm2 0.918 0.534 0.437 0.537 0.515
Location =ROA; Formation=COPPER RIDGE; Sue=34; 00-05 =3334; 05-10 =3335; 10-15 =3336;
15-20 =3337; 20-25 =3338; 25-30=3339; Phase=2
Cesium-137
pCi/cm*
7.316
2.429
0.953
0.290
0.080
0.144
Potassiun-40
pCi/cm
10.050
19.840
20.600
25.850
26.790
29.060
Radiun- 226
PCi/em*
5.896
7.861
8.356
8.521
8.272
8.648
Thoriun-232
pCi/cm*
2.301
3.853
4.540
5.611
6.320
7.325
Uraniun-235
pCi/cn/
1.002
1.198
0.827
2.925
0.632
0.635
Urani un-238
pCi/cm
10.520
12.850
15.963
23.460
12.220
-------�
B-107
Table B.3 (continued)
Depth (cm)
Analysis Units 00-05 05-10 10-15 15-20 20-25 25-30
Locanon=ROA; Formanon=COPPER RIDGE; Sue=35: 00-05 =3239; 05-10=3240; 10-15 =3241;
15-20=3242; 20-25 =3243; 25-30=3244; Phase=2
Cesiun-137 pCi/crn^ 3.779 2.938 2.564 1.407 0.675 0.107
Potassiun-40 pCi/cm, 12.080 18.400 20.160 23.560 23.210 24.750
Radiun-226 pCi/cm; 3.587 4.812 5.045 5.073 5.512 5.574
Thoriun-232 pCi/an* 2.785 3.703 3.869 4.132 4.602 4.939
Uranium-235 pCi/cm 0.681 0.785 0.363 0.798 0.309
Locaaon=ROA; Formation=COPPER RIDGE; Sixe=39; 00-05 =3343; 05-10=3344; 10-15 =3345;
15-20=3346; 20-25 =3347; 25-30=3348; Phase=2
Cesium-137
pCi/cm
6.075
3.353
1.097
0.237
0.190
0.053
Potassiun-40
pCi/cm
5.723
10.240
14.370
19.220
18.310
18.130
Radiun-226
pCi/cnr
1.896
3.193
4.093
4.923
5.132
4.981
Thoriun-232
pCi/cm
1.419
2.434
3.013
3.656
3.733
4.067
Uraniun-235
pCi/cm
0.792
0.973
1.032
1.104
0.969
0.609
Uranium-238
pCi/cm
15.354
17.818
16.787
20.042
22.071
5.005
Location =ROA; Formtmon=COPPER RIDGE; Siie=40: 00-05 = 3267; 05-10=3268; 10-15 =3269;
15-20=3270; 20-25=3271; 25-30=3272; Phase=2
Cesiun-137 pCi/cm^ 6.007 2.123 0.425 0.108 0.047 0.050
Potassium-40 pCi/cm* 9.956 9.013 10.650 11.240 14.230 14.440
Radiun-226 pCi/cm, 3.439 3.716 3.918 3.972 3.820 4.162
Thoriun-232 pCi/cm2 2.389 2.575 2.940 2.892 3.078 3.449
Uranium-235 pCi/cm2 0.824 0.707 0.235 0.737 0.533 0.340
Locanon=ROA; Formmion=COPPER RIDGE; Siie=41; 00-05 =3352; 05-10=3353; 10-15 =3354;
15-20=3355; 20-25 =3356; 25-30=3357; Phase=2
Cesiun-137
pCi/cm
5.539
2.331
0.800
0.278
0.203
0.109
Potassiun-40
PCi/cnr
8.063
11.900
10.420
13.550
14.810
13.140
Radium-226
pCi/cnr
2.784
3.806
3.779
4.493
4.583
3.896
Thoriun-232
pCi/cm*
1.891
2.872
2.444
3.153
3.360
2.857
Uraniun-235
pCi/cm
0.998
0.956
1.146
1.058
1.055
0.342
Uranium-238
pCi/cm
12.261
9.093
20.133
20.603
20.236
6.026
Location = ROA; Formation=COPPER RIDGE; Siie=42; 00-05=3276; 05-10=3277; 10-15=3278;
15-20=3279; 20-25 =3280; 25-30=3281; Phase=2
Cesiun-137
pCi/cm^
4.119
1.725
0.467
0.361
0.132
0.023
Potassiun-40
pCi/cm^
7.924
15.500
16.520
15.940
16.380
19.410
Radium-226
PCi/cm*
3.251
4.137
5.077
4.962
4.955
5.184
Thoriun-232
pCi/cm
2.513
2.886
3.540
3.404
3.570
3.838
Uraniun-235
pCi/cm
0.731
0.211
0.846
0.369
0.797
0.611
Location =ROA; Formtmon=COPPER RIDGE; Site=43; 00-€5 =3285: 05-10=3286; 10-15 =3287;
15-20=3288; 20-25 =3289; 25-30=3290; Phase=2
Cesiun-137 pCi/cm^ 7.192 4.028 0.898 0.565 0.248 0.148
Potassiun-40 pCi/cm2 12.880 15.660 17.220 17.380 17.910 19.240
Radiun-226 pCi/cnT 3.387 4.209 4.508 5.269 5.216 5.157
Thoriun-232 pCi/cm^ 2.559 3.525 4.348 4.414 4.564 5.405
Uraniun-235 pCi/cm2 1.648 0.874 1.979 0.880 0.686
Location =ROA; Formation=COPPER RIDGE; Siie=44; 00-05 =3257; 05-10=3258; 10-15 =3259;
15-20=3260; 20-25 =3261; 25-30=3262: Phase=2
Cesiun-137 pCi/cm^ 3.937 1.066 0.228 0.182 0.193 0.226
-------�
B-108
Table B3 (continued)
Depth (cm)
Analysis Units 00-05 05-10 10-15 15-20 20-25 25-30
Radium-226 pCi/cm2 3.878 4.357 4.684 4.760 4.768 4.559
Thoriun-232 pCi/cm2 3.805 3.683 3.697 3.869 4.258 4.112
Uranium-235 pCi/cm2 0.847 0.787 0.720 1.234 0.566 0.519
Location =ROA; Formaaon=COPPER RIDGE; Sue =45; 00-05=3312; 05-10=3313; 10-15=3314;
15-20=3315; 20-25=3316; 25-30=3317; Phase=2
Cesiun-137
pCi/cm*
4.488
2.639
0.683
0.261
0.240
0.088
Potassiun-40
pCi/cnr
10.870
14.450
16.820
19.100
17.530
20.040
Radiun-226
pCi/cm2
3.422
4.774
6.848
5.523
5.295
5.097
Thoriun-232
pCi/cnr
2.468
3.046
3.546
3.499
3.850
4.073
Uraniun-235
pCi/cnr
0.789
1.375
0.995
0.728
0.687
0.237
Uraniun-238
pCi/cm
12.227
12.173
14.190
14.640
15.420
8.083
Location =ROA; Formation=COPPER RIDGE; Site =46,: 00-05=3303; 05-10=3304; 10-15=3305;
15-20=3306; 20-25 =3307; 25-30=3308; Phase=2
Cesiun-137 pCi/cm2 4.105 2.900 1.168 0.356 0.097 0.172
Potassinn-40 pCi/cm2 11.780 13.180 13.740 15.600 14.670 18.010
Radinn-226 pCi/cm2 3.344 3.951 4.717 4.327 4.456 4.782
Thoriun-232 pCi/cm2 3.400 3.712 3.915 4.283 4.975 5.839
Uraninn-235 pCi/cm2 0.481 0.806 0.361 0.585 0.877 0.942
Location =ROA; Formation =COPPER RIDGE; She =47; 00-05=3294; 05-10=3295; 10-15=3296;
15-20=3297; 20-25=3298; 25-30=3299; Phase=2
Cesiun-137 pCi/cm2 3.580 1.011 0.146 0.162 0.137 0.154
Potassium-40 pCi/cm2 12.230 20.260 15.160 19.740 19.820 18.160
Radiun-226 pCi/cm2 3.742 5.040 4.872 5.406 5.292 5.312
Thoriun-232 pCi/cm2 3.873 4.301 4.135 4.588 4.932 4.753
Uraniun-235 pCi/cm2 0.433 0.874 0.851 0.664 0.902 0.910
Location =ROA; Formation = DISMAL GAP: Site=10; 00-05=3178; 05-10=3179; 10-15=3180; 15-20=3181;
20-25=3182; 25-30=3183; Phase=l
Cesiun-137
pCi/cm2
3.799
0.315
0.207
0.116
0.160
0.145
Potassium-40
pCi/cm
65.610
S3.720
93.950
111.700
120.300
122.600
Radiun-226
pCi/cnc
4.098
5.067
5.120
4.514
4.343
4.125
Thoriun-232
pCi/cm
5.721
7.877
8.483
9.301
9.504
9.817
Uraniun-235
pCi/cm2
0.883
0.625
0.157
0.223
0.977
0.936
Uraniun-238
pCi/cm
12.951
3.292
16.104
7.391
12.100
15.322
Location = ROA; Formation = DISMAL GAP; Site=13; 00-05=3131; 05-10=3132; 10-15=3133; 15-20=3134;
20-25 =3135; 25-30=3136; Phase=1
Cesiun-137
pCi/cm2
1.249
0.211
0.078
0.042
0.274
0.131
Potassiun-40
pCi/cm2
38.140
45.440
56.280
76.100
91.830
99.610
Radiun-226
pCi/cnr
4.341
4.869
5.010
4.518
3.566
3.473
Thoriun-232
pCi/cm2
6.259
6.699
7.088
7.512
7.160
7.401
Uraniun-235
pCi/cm
0.654
0.503
0.882
0.909
0.843
0.804
Uraniun-238
pCi/cm
14.053
11.420
14.996
9.012
6.081
12.893
Location =ROA; Formation = DISMAL GAP; Siie=14; 00-05=3152; 05-10=3153; 10-15=3154; 15-20=3155;
20-25 =3156; 25-30=3157; Phase=1
Cesiun-137
pCi/cm2
6.661
1.273
0.240
0.028
0.177
0.181
Potassiun-40
pCi/cm
68.860
114.300
101.100
91.890
84.240
91.970
Radiun- 226
pCi/cnr
3.006
3.381
3.319
3.360
3.189
2.882
Thoriun-232
pCi/cnr
5.460
7.294
7.327
7.655
7.363
7.461
Uraniun-235
pCi/cm2
0.861
1.198
0.943
1.319
0.520
1.055
Uraniun-238
pCi/cm
17.810
19.296
12.060
20.826
20.670
-------�
B-109
Table B3 (continued)
Depth (cm)
Analysis Units 00-05 05-10 10-15 15-20 20-25 25-30
Location =ROA; Formation=DISMAL GAP; Site=17; 00-05=3022; 05-10=3023; 10-15=3024; 15-20=3025;
20-25=3026; 25-30=3027; Phase=l
Cesiun-137
pCi/on*
5.840
2.448
0.803
0.301
0.143
0.081
Potassiun-40
pCi/cir
42.980
47.110
53.800
76.010
88.540
95.530
Radiim-226
pCi/cm'
4.070
4.395
4.454
4.158
4.273
4.107
Thoriun-232
pCi/an
5.552
6.009
6.833
6.937
7.463
7.488
Urani Lin-235
pCi/cm
0.441
0.898
0.784
0.219
Uraniun-238
pCi/cm
8.151
3.627
12.860
12.799
13.542
4.191
Location =ROA; Formanon=DISMAL GAP; Site=19; 00-45 =3036; 05-10=3037; 10-15=3038; 15-20=3039;
20-25 =3040; 25-30=3041; Phase=l
Cesiun-137
pCi/cm*
3.421
0.288
0.131
0.124
0.085
0.119
Potass iun-40
pCi/cm
33.900
36.170
43.700
45.550
41.080
46.390
Radiun-226
pCi/cm
4.346
4.904
5.962
4.397
4.574
4.582
Thoriun-232
pCi/cn£
5.410
5.574
6.397
6.025
6.070
6.108
Uranium-235
pCi/cm
0.472
0.817
0.826
0.496
0.321
Uranium-238
pCi/cm
5.420
11.120
13.300
13.549
13.460
12.309
Location =ROA; Formation = DISMAL GAP; Site=20: 00-05=3050; 05-10 =3051; 10-15=3052; 15-20=3053;
20-25 =3054; 25-30=3055; Phase=l
Cesiun-137
pCi/cm2
4.418
0.974
0.382
0.203
0.091
0.053
Potassiun-40
pCi/cm
42.850
52.610
84.640
100.200
137.400
150.900
Radium-226
pCi/cm
5.017
3.726
3.554
3.339
2.932
3.515
Thoriun-232
pCi/cm
4.809
5.634
6.836
7.053
7.258
7.377
Uraniun-235
pCi/cnr
0.925
0.921
0.734
0.967
0.229
0.389
Uranium-238
pCi/cm
15.191
18.260
10.530
21.704
5.676
3.401
Location = ROA; Formation =DISMAL GAP; Site=21; 00-05 =3117; 05-10=3118; 10-15=3119; 15-20=3120;
20-25=3121; 25-30=3122; Phase=l
Cesium-137
pCi/cm^
4.254
0.630
0.116
0.157
0.076
0.169
Dotass iun-40
pCi/cnr
58.140
61.870
51.850
45.270
52.280
49.180
Radium-226
pCi/cm
3.154
4.292
4.479
4.448
5.558
4.612
Thorium-232
pCi/cm*
5.862
6.323
6.321
5.959
6.547
6.512
Uranium-235
pCi/cm
0.465
0.481
1.040
1.057
1.094
1.213
Uraniun-238
pCi/cm
16.468
6.400
17.950
18.180
12.520
18.516
Location =ROA; Formation=DlSMAL GAP; She=21 00-05 =3062; 05-10 =3063; 10-15=3064; 15-20=3065;
20-25=3066; 25-30=3067; Phase=1
Cesiun-137
2
pCi/cm'
3.071
0.669
0.127
0.135
0.131
0.030
Potassiun-40
pCi/cm
39.070
51.970
65.270
83.420
88.480
86.280
Radiun-226
pCi/cnr
3.940
3.B89
3.231
4.717
4.109
3.917
Thoriun-232
pCi/cm
4.974
5.624
5.496
6.322
6.162
5.742
Uraniun-235
pCi/cnr
0.729
0.659
0.780
0.257
1.531
0.266
Uraniun-238
pCi/cm
20.200
13.303
12.230
14.525
12.445
4.445
Location=ROA; Formaiion= DISMAL GAP; Site=3; 00-05=3103; 05-10=3104; 10-15=3105; 15-20=3106;
20-25=3107; 25-30=3108; Phase=l
Cesi un-137
pCi/cm^
3.894
1.029
0.396
0.188
0.037
0.094
Potassiun-40
pCi/cnr
52.560
56.280
55.380
60.110
65.800
64.020
Radiun-226
pCi/cm
3.392
4.706
4.330
4.204
4.129
3.783
Thoriun-232
PCi/cnr
5.074
6.112
5.928
6.586
7.030
6.807
Urani urn-235
pC i/cm
0.249
0.805
0.707
0.255
0.846
0.836
Uraniun-238
pCi/an
19.510
8.987
14.692
14.266
15.252
-------�
B-110
Tabic B3 (continued)
Depth (cm)
Analysis Units 00-05 05-10 10-15 15-20 20-25 25-30
Location —ROA; Formation =DISMAL GAP; Siie=7; 00-05 =3089; 05-10=3090; 10-15=3091; 15-20=3092;
20-25 =3093; 25-30=3094; Phase=1
Cesiun-137
pCi/cm
5.577
0.430
0.367
0.231
0.019
0.012
Potassiun-40
pCiW
43.820
57.690
57.920
68.970
87.960
101.600
Radiun-226
pCi/cnc
4.393
4.953
5.248
5.001
4.490
3.863
Thoriun-232
pCi/cm^
5.573
7.324
7.186
7.706
7.710
7.955
Uraniun-235
pCiW
0.526
1.116
2.103
0.962
0.393
0.140
Uraniun-238
pCi/cm
12.556
6.964
10.560
10.850
7.567
6.318
Location=ROA; Formation = DISMAL GAP; Site=8; 00-05=3076; 05-10=3077; 10-15=3078; 15-20=3079;
20-25=3080; 25-30=3081; Phase=1
Cesiun-137
pCi/cm^
8.006
3.085
0.521
0.154
0.128
0.042
Potass inn-40
PCi/cm*
30.380
40.710
43.380
45.450
48.850
58.750
Radiun-226
pCi/cnr
3.258
4.775
4.940
4.984
4.476
3.975
Thoriun-232
pCi/cm
4.898
6.945
7.295
7.308
7.710
6.928
Uranium-235
pCi/cnr
0.733
0.752
0.868
0.869
0.557
Uranium-238
pCi/cm
9.637
12.698
14.041
8.371
7.014
6.800
Location =ROA; Formation —DISMAL GAP; Site=9; 00-05=3008; 05-10=3009; 10-15=3010; 15-20=3011;
20-25=3012; 25-30=3013; Phase=I
Cesiun-137
pCi/cm^
8.253
1.575
0.206
0.048
0.026
0.059
Potassiun-40
pei/enr
27.730
35.700
40.480
37.550
45.380
53.820
Radiun-226
pCi/cm
2.669
3.707
4.198
4.214
4.759
4.922
Thoriun-232
pCi/cnr
3.755
5.367
5.678
5.562
6.136
6.641
Uraniun-235
pCi/cm
0.713
0.757
0.229
0.465
0.509
0.399
Uraniun-238
pCi/cm
5.853
6.414
3.848
8.091
4.830
8.532
-------�
Appendix C
-------�
Co
Tabic CI. Organic analysis results for soil samples
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Locarion=AND: Formanon=COPPER RIDGE; Siie—31: A —2257; A dup = ' Phase=2
alpha-BHC
it 9/kg
2.10
UJ
alpha-Chlordane
ug/fcg
2.10
U
beta-BHC
jig/kg
2.10
U
delta-BHC
(ig/kg
2.10
UJ
gamma-Chlordane
deno(1 ^.S-cdJpyrene
ml
9
13
50
u
Lindane
ml
9
2
80
UJ
Methoxychlor
ml
9
28
00
u
HCPA
ml
g
141643
00
UJ
MCPP
ml
9
107649
.00
UJ
Phenanthrene
ml
9
1
.10
J
PCB-1016
ml
9
55
.00
u
PCB-1221
ml
g
110
00
u
PCB-1232
mi
9
55
00
u
PCB-1242
mi
9
55
00
-------�
C-5
Tabic CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
PCB-1248
Ag/kg
55.00
U
PCB-1254
Ag/kg
55.00
U
PCB-1260
Ag/kg
55.00
U
Si Ivex
Ag/kg
94.00
UJ
T oxaphene
Ag/kg
280.00
U
2,4-D
Ag/kg
680.00
UJ
2,4-DB
Ag/kg
510.00
UJ
2,4,5-T
Ag/kg
113.00
UJ
4,4'-000
Ag/kg
5.50
u
4,41-DDE
Ag/kg
5.50
u
4,4'-DDT
Ag/kg
5.50
UJ
Location—AND; Formaiion—COPPER RIDGE; Site=54: A—2265: A dup = ' Phase—2
alpha-BHC
ug/kg
2.20
UJ
alpha-Chlordane
Ag/kg
2.20
u
beta-BHC
Ag/kg
2.20
U
delta-BHC
(ig/kg
2.20
UJ
gamma-Chlordane
A9/kg
2.20
U
Acenaphthylene
Ag/kg
43.10
U
Aldrin
A9/kg
2.20
U
Benzo(a)anthracene
A9/kg
1.50
1
w
Benzo(a)pyrene
Ag/kg
2.40
Benzo(b)fluoranthene
A9/kg
4.50
J
BenzoCghiJperylene
Ag/kg
1.70
J
Benzo(k)fluoranthene
A9/kg
1.50
J
Dieldrin
Ag/kg
4.40
U
Endosulfan sulfate
Ag/kg
4.40
U
Endosulfan 1
A9/kg
2.20
u
Endosulfan 11
Ag/kg
4.40
u
Endrin
Ag/kg
4.40
u
Endrin aldehyde
Ag/kg
4.40
u
Endrin ketone
Ag/kg
4.40
u
Fluorene
Ag/kg
2.80
J
Heptachlor
A9/kg
2.20
u
Heptachlor epoxide
Ag/kg
2.20
u
Indenof1,2,3-cd)pyrene
Ag/kg
10.80
u
Lindane
Ag/kg
2.20
UJ
Methoxychlor
Ag/kg
22.00
u
Phenanthrene
Ag/kg
5.00
J
Pyrene
A9/kg
3.20
J
PCB-1016
Ag/kg
44.00
u
PCB-1221
A9/kg
88.00
u
PCB-1232
A9/kg
44.00
u
PCB-1242
Ag/kg
44.00
u
PCB-1248
Ag/kg
44.00
u
PCB-1254
Ag/kg
44.00
u
PCB-1260
Ag/kg
44.00
u
Toxaphene
Ag/kg
220.00
u
4,41-DDD
A9/kg
4.40
u
4,4'-DDE
Ag/kg
4.40
u
4,41-DDT
vg/kg
4.40
UJ
Location =AND; Formation—COPPER RIDGE: Siie=55: A=2268; A duo=' ': Phase=2
alpha-BHC
A9/kg
1.30
UJ
alpha-Chlordane
Ag/kg
2.90
U
beta-BHC
AS/kg
2.90
U
delta-BHC
A9/kg
2.90
UJ
gairma-Chlordane
A9/kg
2.90
U
Acenaphthylene
Ag/kg
59.40
U
Aldrin
A9/kg
2.90
U
Anthracene
A9/kg
0.90
J
Benzola)anthracene
Ag/kg
0.90
J
Benzo(a)pyrene
A9/kg
0.90
-------�
C-6
Table CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
BenzoCghi)perylene
M9/kg
1.80
J
Dieldrin
M9/kg
5.90
U
Endosulfan sulfate
M9/kg
5.90
U
Endosulfan I
A9/kg
2.90
U
Endosulfan 11
M9/kg
5.90
U
Endrin
f9/kg
5.90
U
Endrin aldehyde
M9/kg
5.90
U
Endrin ketone
M9/kg
5.90
U
Heptachlor
M9/kg
2.90
U
Heptachlor epoxide
-------�
C-7
Tabic CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
PCB-1260
Ag/kg
44.00
U
Si Ivex
Ag/kg
94.00
U
Toxaphene
Ag/kg
220.00
U
2,4-D
Ag/kg
680.00
U
2,4-DB
Ag/kg
510.00
U
2,4,5-T
A9/kg
113.00
U
4,4' -DOD
Ag/kg
4.40
U
4,41-DDE
Ag/kg
4.40
U
4,4'-DDT
Ag/kg
4.40
UJ
Locaiion=AND; Formanon=COPPER RIDGE; Site-37: A —2273; A dup=' Phase=2
alpha-BHC
Ag/kg
2.30
UJ
alpha-Chlordane
A9/kg
2.30
U
beta-BHC
Ag/kg
2.30
U
detta-BHC
Ag/kg
2.30
UJ
ganma-Chlordane
Ag/kg
2.30
U
Acenaphthylene
Ag/kg
45.40
U
Aldrin
Ag/kg
2.30
U
Anthracene
a g/kg
1.40
J
Benzo(a)anthracene
Ag/kg
1.80
J
BenzoCa)pyrene
a g/kg
2.30
J
Benzo(b)fluoranthene
Ag/kg
1.40
J
Benzo(ghiJperylene
Ag/kg
2.70
J
Benzo(k)fluoranthene
A9/kg
1.40
J
Dalapon
a g/kg
4580.00
U
DibenzoCa,h)anthracene
A9/kg
0.90
J
Di cantxa
A9/kg
209.00
U
Dichlorprop
A9/kg
523.00
UJ
Dieldrin
A g/kg
4.60
U
Dinoseb
Ag/kg
110.00
U
Endosulfan sulfate
Ag/kg
4.60
U
Endosulfan I
Ag/kg
2.30
u
Endosulfan II
Ag/kg
4.60
u
Endrin
Ag/kg
4.60
u
Endrin aldehyde
Ag/kg
4.60
u
Endrin ketone
Ag/kg
4.60
u
Heptachlor
Ag/kg
2.30
u
Heptachlor epoxide
Ag/kg
2.30
u
IndenoO ,2,3-cd)pyrene
Ag/kg
11.80
Lindane
Ag/kg
2.30
UJ
Methoxychlor
Ag/kg
23.00
u
MCPA
Ag/kg
196293.00
UJ
HCPP
Ag/kg
149182.00
UJ
Phenanthrene
A9/kg
2.50
J
Pyrene
A9/kg
3.90
J
PCB-1016
Ag/kg
46.00
u
PCB-1221
Ag/kg
93.00
u
PCB-1232
Ag/kg
46.00
u
PCB-1242
Ag/kg
46.00
u
PCB-1248
Ag/kg
46.00
u
PC8-1254
Ag/kg
46.00
u
PCB-1260
Ag/kg
46.00
u
Si I vex
Ag/kg
131.00
u
Toxaphene
Ag/kg
230.00
u
2,4-D
Ag/kg
942.00
u
2,4-DB
Ag/kg
707.00
u
2,4,5-T
Ag/kg
157.00
u
4,41-DDD
Ag/kg
4.60
u
4,4'-DDE
A9/kg
4.60
u
4,4'-DDT
Ag/kg
4.60
-------�
C-8
Table CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Locanon —AND; Formanon=COPPER RIDGE: Si:e=38; A=2275; A dup=' Phase=2
alpha-BHC
Jig/
g
2.40
UJ
alpha-Chlordane
M9/
9
2.40
U
beta-BHC
M9/
9
2.40
U
delta-BHC
Jig/
s
2.40
UJ
ganma-Chlordane
ng/
9
2.40
U
Acenaphthylene
(19/
9
47.50
U
Aldrin
A9/
9
2.40
U
Benzo(a)anthracer>e
M 9/
9
3.80
J
Benzo(a)pyrene
A9/
9
2.80
J
BenzoCghi )perylene
» 9/
9
2.10
J
Benzo(k)fluoranthene
(i 9/
9
1.20
J
Dalapon
(ig/
9
4580.00
UJ
Dicamba
(19/
9
209.00
UJ
Dichlorprop
Jig/
g
523.00
UJ
Dieldrin
fig/
9
4.80
u
D i noseb
eg/
9
110.00
UJ
Endosulfan sulfate
fig/
9
4.80
u
Ertdosulfan 1
d9/
9
2.40
u
Endosutfan 11
ng/
9
4.80
u
Endrin
Ag/
9
4.80
u
Endrin aldehyde
A9/
9
4.80
u
Endrin ketone
fig/
9
4.80
u
Heptachlor
(ig/
9
2.40
u
Heptachlor epoxide
(ig/
9
2.40
u
Indeno(1,2,3-cd)pyrene
P- 9/
9
11.90
lindane
A9/
9
2.40
UJ
Methoxychlor
(19/
9
24.00
u
MCPA
jig/
9
196293.00
UJ
MCPP
eg/
9
149182.00
UJ
Phenanthrene
(ig/
g
3.30
J
Pyrene
(19/
9
3.60
J
PCB-1016
jig/
9
48.00
U
PCB-1221
eg/
9
96.00
u
PCB-1232
(19/
9
48.00
u
PCB-1242
fig/
9
48.00
u
PCB-1248
(19/
9
48.00
u
PCB-1254
*19/
9
48.00
u
PCB-1260
A9/
9
48.00
u
Si Ivex
fig/
9
131.00
UJ
Toxaphene
jj-g/
g
240.00
u
2,4-D
Jig/
9
942.00
UJ
2,4-DB
(tg/
g
707.00
UJ
2,4,5-T
*9/
9
157.00
UJ
4,4'-DDD
*9/
9
4.80
u
4,4' -DDE
fig/
9
4.80
u
4,4' -DDT
fig/
9
4.80
UJ
Location =AND; Formanon=COPPER RIDGE; Sue =39; A =2277: A dup=' '; Pkase=2
alpha-BHC
fig/kg
2.20
UJ
alpha-Chlordane
fig/kg
2.20
U
beta-BHC
fig/kg
2.20
u
delta-BHC
fig/kg
2.20
UJ
ganma-Chlordane
fig/kg
2.20
u
Acenaphthylene
(tg/kg
44.90
u
Aldrin
fig/kg
2.20
u
Anthracene
(tg/kg
1.10
J
Benzo(a)anthracene
fig/kg
2.70
J
Benzo(a)pyrene
(ig/kg
1.30
J
Benzo(b)fluoranthene
fig/kg
3.10
J
Benzo(ghiJperylene
(ig/kg
1.80
J
Benzo(k)fluoranthene
fig/kg
1.10
J
Dalapon
(ig/kg
4584.00
u
Dicamba
fi9/kg
209.00
-------�
C-9
Table CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Dichlorprop
ng/kg
523.00
UJ
D i eIdr i n
tig/kg
4.50
U
0 inoseb
(ig/kg
110.00
U
Endosulfan sulfate
dg/kg
4.50
U
Endosulfan I
Mg/kg
2.20
U
Endosulfan II
Ag/kg
4.50
U
Endrin
/ig/kg
4.50
U
Endrin aldehyde
Ag/kg
4.50
u
Endrin ketone
eg/kg
4.50
u
Heptaehlor
^9/kg
2.20
u
Heptachlor epoxide
Mg/kg
2.20
u
lndeno(1,2,3-cd)pyrene
Mg/kg
25.60
Lindane
eg/kg
2.20
UJ
Hethoxychlor
(tg/kg
22.00
u
MCPA
(ig/kg
176293.00
UJ
MCPP
m g/kg
149182.00
UJ
Phenanthrene
ng/kg
4.70
J
Pyrene
-------�
C-10
Table CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field duo Qualifier
MCPA
M9/k9
"96293.00
UJ
MCPP
V- 9/kg
149182.00
UJ
Phenanthrene
>ig/kg
2.60
J
Pyrene
ng/kg
3.40
J
PCB-1016
M9/kg
43.00
U
PCB-1221
eg/kg
36.00
U
PCB-1232
-------�
C-ll
Table CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Locanon=AND; Formation—COPPER RIDGE; Site=42; A =2283; A dup=' Phase=2
alpha-BHC
-------�
C-12
Tabic CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Benzo(a)pyrene
Kg/kg
5.90
JN
Benzo(b)fluoranthene
^ g/kg
3.00
UJ
BenzodOf luoranthene
Kg/kg
3.00
UN
Chrysene
^g/kg
22.00
UJ
Dieldrin
^g/kg
4.90
UJ
Endosulfan sulfate
K3/kg
4.90
U
Endosulfan 1
jtg/kg
2.50
U
Endosulfan 11
eg/kg
4.90
U
Endrin
*ig/kg
4.90
u
Endrin aldehyde
eg/kg
4.90
u
Endrin ketone
^g/kg
4.90
u
Fluoranthene
«/kg
23.00
J
Fluorene
ng/kg
6.00
UJ
Heptachlor
M/kg
2.50
UJ
Heptachlor epoxide
^g/kg
2.50
u
Indeno<1,2,3-cd)pyrene
Ag/kg
6.00
UJ
Lindane
Kg/kg
2.50
UJ
Methoxychlor
^g/kg
25.40
U
Naphthalene
eg/kg
15.00
UJ
Phenanthrene
jig/kg
15.00
J
Pyrene
Ag/kg
1.00
UJ
PCB-1016
(ig/kg
49.40
u
PCB-1221
Kg/kg
100.30
u
PCB-1232
M/kg
49.40
u
PCB-1242
n g/kg
49.40
u
PCB-1248
M9/kg
49.40
u
PCB-1254
Mg/kg
49.40
u
PCB-1260
#tg/kg
49.40
u
Toxapnene
w/kg
254.50
u
4,4'-DDD
tfg/kg
4.90
u
4,4'-DDE
/ig/kg
4.90
u
4,41-DDT
<*g/kg
4.90
UJ
Location =AND; Formanon=DISMAL GAP; Site=10; A = 2143; A dup=' Phase = 1
alpha-BHC
^g/kg
2.50
U
alpha-Chlordane
*tg/kg
2.50
U
beta-BHC
Mg/kg
2.50
U
delta-BHC
^g/kg
2.50
U
gamma-Chlordane
(ig/kg
2.50
U
Aldrin
M/kg
2.50
UJ
Benzo(a)anthracene
(ig/kg
3.80
J
Benzo(a)pyrene
*g/kg
5.40
J
Dieldrin
(i g/kg
4.80
UJ
Endosulfan sulfate
il g/kg
4.80
U
Endosulfan 1
n g/kg
2.50
U
Endosulfan II
u-g/kg
4.80
U
Endrin
v- g/kg
4.80
U
Endrin aldehyde
jig/kg
4.80
U
Endrin ketone
A9/kg
4.80
U
Heptachlor
cg/kg
2.50
UJ
Heptachlor epoxide
eg/kg
2.50
U
L i ndane
M9/kg
2.50
UJ
Methoxychlor
tfg/kg
24.90
u
PCB-1016
)ig/kg
48.30
u
PCB-1221
Ag/kg
98.00
u
PCB-1232
Mg/kg
48.30
u
PCB-1242
Jig/kg
48.30
u
PCB-1248
W/kg
48.30
u
PCB-1254
M9/kg
48.30
u
PCB-1260
Mg/kg
48.30
u
Toxapherte
Ag/kg
248.80
u
4,4'-DDD
Ag/kg
4.80
u
4,4'-DDE
a g/kg
4.80
u
4,4'-DDT
Mg/kg
4.80
-------�
C-13
Table CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field duo Qualifier
Loccmon=AND: Formation =DISMAL GAP: Siie=ll; A =2112: A dup=' ': Phase=i
alpha-BHC
eg/
9
2
60
u
alpha-Chlordarve
eg/
9
2
60
u
beta-BHC
eg/
9
2
60
u
delta-BHC
e 9/
9
2
60
u
gamma-Chlordane
eg/
9
2
60
u
Acenaphthene
eg/
9
2
00
UJ
Acenaphthylene
e9/
9
200
00
J
Aldrin
H9/
9
2
60
UJ
Anthracene
e 9/
9
2
00
UJ
Benzo(a)anthracene
eg/
9
1
70
JN
Benzo(a)pyrene
e 9/
9
3
00
UJ
Benzo(b)fIuoranthene
eg/
9
3
00
UJ
Benzo(k)fIuoranthene
(19/
9
3
00
UJ
Chrysene
eg/
9
23
00
¦J J
Dieldrin
eg/
9
5
00
UJ
Endosulfan sulfate
e 9/
9
5
00
u
Endosulfan I
£9/
9
2
60
U
Endosulfan II
£9/
9
5
00
u
Endrin
eg/
9
5
00
u
Endrin aldehyde
eg/
9
5
00
'J
Endrin ketone
eg/
9
5
00
u
FIuoranthene
eg/
9
8
00
UJ
Fluorene
(19/
9
6
00
UJ
Heptachlor
M9/
9
2
60
UJ
Heptachlor epoxide
e9/
9
2
60
u
Indenod ,2,3-cd)pyrene
H9/
9
6
00
UJ
Lindane
eg/
9
2
60
UJ
Hethoxychlor
eg/
9
25
80
u
Naphthalene
eg/
9
15
00
UJ
Phenanthrene
eg/
9
13
00
JN
Pyrene
eg/
9
2
00
UJ
PCB-1016
eg/
9
50
.00
u
PCB-1221
eg/
9
101
60
u
PCB-1232
eg/
9
50
00
u
PCB-1242
eg/
9
50
00
U
PCB-1248
eg/
9
50
00
u
PCB-1254
eg/
9
50
00
u
PCB-1260
eg/
9
50
00
u
Toxaphene
eg/
9
257
.80
u
4,41-DDD
e9/
9
5
.00
u
4,41-DDE
eg/
9
5
00
u
4,41-DDT
eg/
9
5
00
UJ
Locarion=AND: Formarior= DISMAL CAP; Site=12: A =2080: A dup=' '• Phase = i
alpha-BHC
eg/kg
2.30
U
alpha-Chlordane
eg/kg
2.30
u
beta-BHC
eg/kg
2.30
u
delta-BHC
eg/kg
2.30
u
gamma-Chlordane
eg/kg
2.30
u
Acenaphthene
eg/kg
3.20
J
Acenaphthylene
es/kg
34.00
'J J
Aldrin
eg/kg
Z.30
UJ
Anthracene
eg/kg
1.00
UJ
Benzo(a)anthracene
eg/kg
2.10
J
Benzo(a)pyrene
ag/kg
2.70
J
Benzo(b)fIuoranthene
eg/kg
3.00
UJ
Benzo(k)fluoranthene
eg/kg
3.00
UJ
Chrysene
eg/kg
21.00
UJ
Dieldrin
eg/kg
4.50
UJ
Endosulfan sulfate
eg/kg
4.50
u
Endosulfan I
eg/kg
2.30
u
Endosulfan 11
eg/kg
4.50
u
Endrin
eg/kg
4.50
-------�
C-14
Table CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Endrin aldehyde
Mg/ks
4.50
U
Endrin ketone
Mg/kg
4.50
U
Fluoranthene
»¦ g/kg
7.00
UJ
Fluorene
eg/kg
5.00
UJ
Heprachlor
P9/k9
2.30
UJ
Heptachlor epoxide
-------�
C-15
Table CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
4,A' -DDE jig/kg 4.10 U 4.1 U
4,4'-DDT Ag/kg 4.10 UJ 4.1 UJ
Locanon=AND: Formation=DISMAL GAP; Sue=20; .4=2070; A dup=' Phase=I
alpha-BHC
Ag/kg
2.10
U
alpha-Chlordane
Ag/kg
2.10
U
beta-BHC
Ag/kg
2.10
U
delta-BHC
Ag/kg
2.10
U
gamna-Chlordane
eg/kg
2.10
U
Acenaphthene
eg/kg
1.10
JN
Acervaphthylene
Ag/kg
30.00
UJ
Aldrin
Ag/kg
2.10
UJ
Anthracene
Ag/kg
1.10
UJ
Benzo(a)anthracene
Ag/kg
1.00
UJ
Benzo(a)pyrene
Ag/kg
2.00
UJ
BenzoCb)fluoranthene
Ag/kg
2.00
UJ
Benzo(k)fluoranthene
Ag/kg
2.00
UJ
Chrysene
Ag/kg
18.00
UJ
Dieldrin
Ag/kg
4.00
UJ
Endosulfan sulfate
Ag/kg
4.00
U
Endosulfan I
Ag/kg
2.10
u
Endosulfan 11
Ag/kg
4.00
u
Endrin
Ag/kg
4.00
u
Endrin aldehyde
Ag/kg
4.00
u
Endrin ketone
Ag/kg
4.00
u
Fluoranthene
Ag/kg
6.00
UJ
Fluorene
Ag/kg
70.00
JN
Heptachlor
A9/kg
2.10
UJ
Heptachlor epoxide
eg/kg
2.10
U
Indeno(1,2,3-cd)pyrene
A9/kg
5.00
UJ
Llndane
Ag/kg
2.10
UJ
Methoxychlor
A9/kg
20.60
u
Naphthalene
Ag/kg
12.00
UJ
Phenanthrene
Ag/kg
12.00
JN
Pyrene
Ag/kg
1.00
UJ
PCB-1016
Ag/kg
40.00
U
PCB-1221
Ag/kg
81.30
u
PCB-1232
Ag/kg
40.00
u
PCB-1242
Ag/kg
40.00
u
PCB-1248
ug/kg
40.00
u
PCB-1254
Ag/kg
40.00
u
PCB-1260
A9/kg
40.00
u
Toxaphene
A9/kg
206.30
u
4,41-DDD
Ag/kg
4.00
u
4,4'-DDE
A9/kg
4.00
u
4,4'-DDT
AS/kg
4.00
UJ
Locanon=AND: Formauon = DISMAL GAP: Site=21; A=2101; A dup = ' Ph.ase=l
alpha-BHC
A9/kg
2.30
U
alpha-Chlordane
Ag/kg
2.30
U
beta-BHC
AS/kg
2.30
U
delta-BHC
Ag/kg
2.30
u
gairma-Ch lordane
Ag/kg
2.30
u
Acenaphthene
Ag/kg
5.80
JN
Acenaphthylene
eg/kg
33.00
UJ
Aldrin
A9/kg
2.30
UJ
Anthracene
A g/kg
1.00
UJ
BenzoCa)anthracene
A9/kg
1.90
J
BenzoCa)pyrene
Ag/kg
3.00
UJ
Benzo(b)fluoranthene
Ag/kg
3.00
UJ
Benzo(k)fluoranthene
eg/kg
3.00
UJ
Chrysene
Ag/kg
20.00
UJ
Dieldrin
-s/kg
4.40
-------�
C-16
Tabic C.1 (continued)
A horizon A horizon
.Analysis Units Result Qualifier field dup Qualifier
Endosulfan sulfate
itg/kg
4.40
U
Endosulfan I
Ag/kg
2.30
U
Endosulfan 11
A9/k 9
4.40
U
Endrin
a g/kg
4.40
U
Endrin aldehyde
^g/kg
4.40
U
Endrin ketone
eg/kg
4.40
U
Fluoranthene
n g/kg
7.00
UJ
Fluorene
A9/kg
9.80
JN
Heptachlor
A9/kg
2.30
UJ
Heptachlor epoxide
M9/kg
2.3D
U
Indeno(1,2,3-cd)pyrene
^g/kg
5.00
UJ
L i ndane
a g/kg
2.30
UJ
Hethoxychlor
eg/kg
22.90
U
Naphthalene
/ig/kg
13.00
UJ
Phenanthrene
A9/kg
1.00
UJ
Pyrene
(ig/kg
1.00
UJ
PCB-1016
(tg/kg
44.50
U
PCB-1221
A9/kg
90.30
U
PCB-1232
(ig/kg
44.50
U
PCB-1242
/tg/kg
44.50
U
PCB-1248
Ag/kg
44.50
U
PCB-1254
Ag/kg
44.50
u
PCB-1260
A S/kg
44.50
u
T oxaphene
*tg/kg
229.00
u
4,41-ODD
Ag/kg
4.40
u
4,41-DDE
eg/kg
4.40
u
4,4'-DDT
A9/kg
4.40
UJ
Lccanon=AND; Formation =DISMAL CAP: Site=22; A=2090; A dup—' Phase—1
alpha-BHC
A 9/kg
2.30
U
alpha-Chlordane
eg/kg
2.30
U
beta-BHC
Ag/kg
2.30
U
delta-BHC
v- g/kg
2.30
U
ganma-Chlordane
ng/kg
2.30
U
Acenaphthene
/ig/kg
19.00
J
Aldrin
^g/kg
2.30
UJ
Benzo(a)pyrene
Ag/kg
2.10
JN
BenzoCghi)perylene
^g/kg
3.00
J
Dieldrin
>tg/kg
4.50
UJ
Endosulfan sulfate
A g/kg
4.50
U
Endosulfan 1
P-9/kg
2.30
U
Endosulfan II
iig/kg
4.50
U
Endrin
fig/kg
4.50
U
Endrin aldehyde
Ag/kg
4.50
U
Endrin ketone
u-9/kg
4.50
U
Heptachlor
Ag/kg
2.30
UJ
Heptachlor epoxide
A9/kg
2.30
U
Lindane
Ag/kg
2.30
UJ
Methoxychlor
(ig/kg
23.10
U
Phenanthrene
eg/kg
17.00
JN
Pyrene
M/kg
0.84
J
PCB-1016
n g/kg
44.90
u
PCB-1221
iig/kg
91.20
u
PCB-1232
(tg/kg
44.90
u
PCB-1242
a g/kg
44.90
u
PCB-1248
eg/kg
44.90
u
PCB-1254
A9/kg
44.90
u
PCB-1260
^g/kg
44.90
u
T oxaphene
Jig/kg
231.30
u
4,4'-DDD
A9/kg
4.50
u
4,4'-DDE
M/kg
4.50
u
4,4'-DDT
Ag/kg
4.50
-------�
C-17
Table C.1 (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Locanon=AND: Formation=DISMAL GAP; Site=3; A-2059; A dup=' Phase—1
alpha-BHC
ng/kg
2.00
U
alpha-Chlordane
-------�
C-18
Table CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Pyrene
(i g/kg
1.00
UJ
PCB-1016
(i g/kg
36.70
U
PCB-1221
(ig/kg
74.50
U
PCB-1232
(ig/kg
36.70
U
PCB-1242
(ig/kg
36.70
U
PCS-1248
Jig/kg
36.70
U
PCB-1254
(ig/kg
36.70
U
PCB-1260
(ig/kg
36.70
U
Toxaphene
(ig/kg
189.10
U
4,4'-DDD
(ig/kg
3.70
U
4,4'-DDE
(i g/kg
3.70
U
4,41 -DDT
(ig/kg
3.70
UJ
Locaiion =AND; Formation-DISMAL GAP: She-5; A =2149; A dup=' Phase=i
alpha-BHC
^g/
g
1.90
U
alpha-Chlordane
(i 9/
s
1.90
U
beta-BHC
(ig/
9
1.90
I!
delta-BHC
jig/
9
1.90
U
gamma-Chlordane
ml
g
1.90
U
Acenaphthene
Ji9/
g
1.80
JN
Acenaphthylene
fig/
9
29.00
'J J
Aldrin
Ji9/
9
1.90
UJ
Anthracene
Jig/
9
1.00
UJ
Benzo(a)anth racene
(19/
9
1.10
JN
BenzoCa)pyrene
Jig/
9
1.60
JN
Benzo(b)fluoranthene
Kg/
9
2.00
UJ
BenzoCk)f luoranthene
(19/
9
2.00
UJ
Chrysene
M9/
g
17.00
UJ
Dieldrin
U9/
g
3.80
UJ
Endosulfan sulfate
(19/
g
3.80
UJ
Endosulfan I
jig/
9
1.90
U
Endosulfan II
(19/
g
3.80
U
Endrin
M9 /
9
3.80
U
Endrin aldehyde
(19/
9
3.80
UJ
Endrin ketone
M9/
g
3.80
UJ
Fluoranthene
(19/
9
34.00
J
Fluorene
M9/
9
5.00
UJ
Heptachlor
(19/
9
1.90
UJ
Heptachlor epoxide
(19/
9
1.90
u
Indenod ,2,3-cd)pyrene
^9/
9
5.00
UJ
L indane
jig/
9
1.90
UJ
Methoxychlor
(tg/
9
19.50
UJ
Naphthalene
Kg/
9
11.00
UJ
Phenanthrene
(i 9/
9
33.00
J
Pyrene
(ig/
9
1.00
UJ
PCB-1016
(19/
9
37.80
u
PCB-1221
(ig/
9
76.70
u
PCB-1232
jig/
9
37.80
u
PC8-1242
(ig/
g
37.80
u
PCB-1248
jig/
9
37.80
u
PCB-1254
(ig/
9
37.80
u
PCB-1260
(ig/
9
37.80
u
Toxaphene
jig/
9
194.60
u
4,4' -DDD
jig/
9
3.80
u
4,4'-DDE
(ig/
9
3.80
u
4,41 -DDT
(ig/
g
3.80
UJ
Locanon=AND; Formanon=DISMAL GAP; Site=9; A =2130; A dup=' Phase=1
alpha-BHC jig/kg 2.00 u
alpha-Chlordane jig/kg 2.00 u
beta-BHC M9/kg 2.00 u
delta-BHC (ig/kg 2.00 U
-------�
C-19
Table CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Acenaphthene
M/kg
7.60
J
Aldrin
m g/kg
2.00
UJ
BenzoCa)anthracene
^9/kg
2.90
J
Dieldrin
f^g/kg
3.80
UJ
Endosulfan sulfate
Mg/kg
3.80
U
Endosulfan I
^g/kg
2.00
U
Endosulfan 11
M/kg
3.80
u
Endrin
A9/kg
3.80
u
Endrin aldehyde
/ig/kg
3.80
u
Endrin ketone
Mg/kg
3.80
u
Heptachlor
M/kg
2.00
UJ
Heptachlor epoxide
Ag/kg
2.00
u
L i ndane
ttg/kg
2.00
UJ
Methoxychlor
M9/kg
19.80
u
Phenanthrene
M9/kg
33.00
J
PCB-1016
(tg/kg
38.50
u
PCB-1221
^g/kg
78.10
u
PCS-1232
Mg/kg
38.50
u
PCB-1242
A9/kg
38.50
u
PCB-1248
^g/kg
38.50
LJ
PCB-1254
eg/kg
38.50
u
PCB-1260
M9/kg
38.50
u
Toxaphene
yg/kg
198.20
u
4,4'-DDD
J* g/kg
3.80
u
4,41-DDE
Ag/kg
3.80
u
4,4'-ODT
^9/kg
3.80
UJ
Locanon-ORR; Formation=CHEPULTEPEC; Siie=50; A=1548; A dup=' Phase =2
Acenaphthene
M9/kg
0.80
J
Acenaphthylene
M9/kg
75.10
U
8enzo(a)anthracene
Kg/kg
1.50
J
Benzo(ghi)perylene
M9/kg
2.60
J
Dibenzo(a,h)anthracene
US/kg
0.40
J
Fluoranthene
M9/kg
0.40
J
Irtdenod ,2,3-cd5pyrene
fig/kg
18.80
U
Naphthalene
fg/kg
48.40
J
Phenanthrene
(ig/kg
1.50
J
Pyrene
(ig/kg
2.60
J
Location=ORR; Formanon = CHEPULTEPEC: Sue =55: A=1553: A dup = V Phase=2
Acenaphthylene M-g/kg 74.20 U
BenzoC a)anthracene Mg/kg 2.60 J
Benzo(a)pyrene jig/kg 2.60 J
Benzo(ghi )perylene (ig/kg 2.60 J
Benzo(k)fluoranthene Mg/kg 1.10 J
Dibenzo(a,h)anthracene jig/kg 3.70 J
F luoranthene M9/kg 4.10 j
Fluorene Mg/kg 0.20 J
IndenoC 1,2,3-cd)pyrene (ig/kg IS.60 (J
Phenanthrene Mg/kg 4.80 J
Pyrene u. g/kg 3.30 J
Locanon=ORR: Formanon-CHEPULTEPEC: She-66: A-1738; A dup-' ' Phase —2
alpha-BHC
Mg/kg
1.80
UJ
alpha-Chlordane
M9/kg
1.80
u
beta-BHC
M9/kg
1.80
UJ
delta-BHC
wg/kg
1.80
UJ
gamma-Chlordane
^9/kg
1.80
u
Acenaphthylene
Ag/kg
76.90
u
Aldrin
Ag/kg
1.80
u
Benzo(a)anthracene
Mg/kg
0.40
-------�
C-20
Table CI (continued)
A horizon A honzon
Analysis Units Result Qualifier field dup Qualifier
Dalapon
MS/kg
3742.00
U
Dicamba
M9/kg
171.00
U
Diehlorprop
M9/kg
428.00
U
Dieldrin
fi9/k g
3.60
U
Oinoseb
M9/kg
90.00
U
Endosulfan sulfate
ig/kg
38.00
u
Si I vex
(ig/leg
111.00
UJ
Toxaphene
(tg/kg
190.00
u
2,4-D
(ig/kg
797.00
UJ
2,4-DB
-------�
C-22
Table CI (continued)
A horizon A horizon
Anafysis Units Result Qualifier field dup Qualifier
4, A1-ODD (tg/kg A. 10 u
4,4'-DDE (tg/kg 4.10 UJ
4,4'-DDT itg/kg 4.10 UJ
Location =ORR: Formcuion=CHEPULTEPEC; Siie = 74; A=1746: A dup-' Phase=2
alpha-BHC
itg/kg
1.90
UJ
alpha-Chlordane
eg/kg
1.90
U
beta-BHC
itg/kg
1.90
UJ
delta-BHC
(tg/kg
1.90
UJ
gamma-Chlordane
Jtg/kg
1.90
u
Acenaphthene
itg/kg
3.90
u
Acenaphthylene
(tg/kg
77.90
u
Aldrin
itg/kg
1.90
u
Anthracene
(tg/kg
0.40
J
BenzoCa)anthracene
M 9/kg
1.60
J
BenzoCa)pyrene
it g/kg
2.70
J
BenzoCb)fluoranthene
it g/kg
3.90
u
Benzo(gh i)peryIene
(tg/kg
1.60
J
BenzoC k) f Iuoranthene
(tg/kg
1.20
J
Chrysene
/tg/kg
3.90
u
Dibenzo(a,h)anthracene
(tg/kg
0.80
J
Dieldrin
itg/kg
3.90
u
Endosulfan sulfate
itg/kg
3.90
u
Endosulfan 1
itg/kg
1.90
u
Endosulfan 11
itg/kg
3.90
u
Endrin
itg/kg
3.90
u
Endrin aldehyde
itg/kg
3.90
u
Endrin ketone
itg/kg
3.90
u
FIuoranthene
itg/kg
5.10
FIuorene
itg/kg
1.60
u
Heptachlor
itg/kg
1.90
u
Heptachlor epoxide
itg/kg
1.90
u
IndenoO,2,3-cd)pyrene
itg/kg
19.50
u
Lindane
(tg/kg
1.90
UJ
Hethoxychlor
(tg/kg
19.00
u
Naphthalene
itg/kg
4.70
J
Phenanthrene
(tg/kg
3.50
J
Pyrene
(t9/kg
4.30
PCB-1016
(tg/kg
39.00
u
PCB-1221
itg/kg
78.00
u
PCB-1232
(tg/kg
39.00
u
PCB-1242
iig/kg
39.00
u
PCB-1248
(tg/kg
39.00
u
PCB-1254
(tg/kg
39.00
u
PCS-1260
itg/kg
39.00
u
Toxaphene
itg/kg
190.00
u
4,4'-DDD
itg/kg
3.90
u
4,4'-DDE
(tg/kg
3.90
UJ
4,4' -DDT
itg/kg
3.90
UJ
Location —ORR; Formanon —CHEPULJEPEC; Site=90: A=1749: A dup=' Phase=2
alpha-BHC
itg/kg
1.90
UJ
alpha-Chlordane
itg/kg
1.90
u
beta-BHC
itg/kg
1.90
UJ
delta-BHC
ug/kg
1.90
UJ
ganria-Chlordane
(tg/kg
1..90
u
Acenaphthene
itg/kg
4.70
u
Acenaphthylene
(tg/kg
93.80
u
Aldrin
itg/kg
1.90
u
Anthracene
itg/kg
4.70
u
BenzoCa)anthracene
(tg/kg
1.90
J
BenzoCa)pyrer>e
itg/kg
3.30
J
Benzo(b)fluoranthene
itg/kg
4.70
-------�
C-23
Tabic CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
BenzoCghi)perylene
A9/
9
3
80
J
BenzoC k ) f Iuoranthene
M9/
9
1
90
J
Chrysene
H 9/
9
u
70
U
DibenzoCa,h)anthracene
K9/
9
u
70
U
Dieldrin
m/
9
3
80
U
Endosulfan sulfate
(i 9/
9
3
80
U
Endosulfan I
(i 9/
9
1
90
U
Endosulfan 11
<19/
9
3
80
U
Endrin
d9/
9
3
80
U
Endrin aldehyde
H9/
9
3
80
U
Endrin ketone
H 9/
9
3
80
U
FIuoranthene
(19/
9
8
90
Fluorene
<19/
9
4
70
u
Heptachlor
<19/
9
1
90
u
Heptachlor epoxide
-------�
C-25
Table CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Locanon=ORR: Formanon-=CHICKAMAUGA Bethel V; Sue-102: A-1894; A dup=' Phase—2
alpha-BHC
cg/kg
2.40
UJ
alpha-Chlordane
M9/kg
2.40
UJ
beta-BHC
^g/kg
2.40
UJ
delta-BHC
dg/kg
2.40
UJ
gamna-Chlordane
eg/kg
2.40
UJ
Acenaphthylene
ig/kg
3.40
J
Dalapon
M9/kg
4395.00
u
Dicamoa
^9/kg
201.00
u
Dicnlorprop
»i9/kg
502.00
u
Dieldrin
/ig/kg
4.20
UJ
Dinoseb
cg/kg
105.00
u
Endosulfan sulfate
ug/kg
4.20
UJ
Endosulfan I
cg/kg
2.20
UJ
Endosulfan 11
C9/kg
4.20
UJ
Endrin
(i 9/kg
4.20
UJ
Endrin aldehyde
^3/kg
i.20
-------�
C-26
Table CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Endrin ketone
cg/kg
4.20
UJ
Heptachlor
AS/kg
2.20
UJ
Heptachlor epoxide
ug/kg
2.20
UJ
Indeno(1,2,3-cd)pyrene
/igAg
21.40
UJ
Li ndane
eg/kg
2.20
UJ
Methoxychlor
A3/icg
21.90
UJ
HCPA
-------�
C-27
Tabic C.1 (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Location=ORR: Formaiion=CHICKAMAUGA Bethel V: Site=1 OS; A=1967: A dup=' Phase=2
alpha-BHC
c g/kg
2.20
UJ
alpha-Chlordane
^g/kg
2.20
U
beta-BHC
M9/kg
2.20
u
delta-BHC
jig/kg
2.20
UJ
gairma-Chlordane
M9/kg
2.20
u
Acenaphthylene
|ig/kg
86.30
UJ
Aldrin
Mg/kg
2.20
u
Benzo(a)pyrene
Kg/kg
0.90
J
Benzo(k)fluoranthene
tg/kg
2.20
U
delta-BHC
Mg/kg
2.20
UJ
garama-Chlordane
Jig/kg
2.20
U
Acenaphthylene
0-9/kg
88.50
UJ
Aldrin
Mg/kg
2.20
U
Benzo(a)pyrene
m g/kg
3.50
J
Benzo(k)fluoranthene
jig/kg
1.80
J
Dibenzo(a,h)anthracene
eg/kg
0.40
J
Dieldrin
M9/kg
4.30
u
Endosulfan sulfate
eg/kg
4.30
u
Endosulfan I
M9/kg
2.20
u
Endosulfan II
-------�
C-28
Table C.1 (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
PCB-1242
A9/kg
43.00
U
PCB-1248
Ag/kg
43.00
U
PCB-1254
Ag/kg
43.00
U
PCB-1260
Ag/kg
43.00
U
Toxaphene
A9/kg
222.00
U
4,41-DDD
Ag/kg
4.30
U
4,4'-ODE
Ag/kg
4.30
UJ
4,41-DOT
A9/kg
4.30
u
Location=ORR; Formation=CHJCKAMAUGA Bethel V; Site=lIS; A=1973; A dup=' Phase =2
alpha-BHC
M9/kg
2.30
UJ
alpha-Chlordane
A9/kg
2.30
U
beta-BHC
Ag/kg
2.30
U
delta-BHC
Ag/kg
2.30
UJ
ganma-Chlordane
ug/kg
2.30
U
Acenaphthene
A 9/kg
3.50
J
Acenaphthylene
A9/kg
87.30
UJ
Aldrin
Ag/kg
2.30
U
Benzo(a)pyrene
A9/kg
4.80
J
8enzo(b)fluoranthene
a g/kg
5.70
J
Benzo(k)fluoranthene
Ag/kg
4.00
J
Chpysene
A9/kg
4.40
u
Dibenzo(a,h)anthracene
Ag/kg
0.90
J
Dieldrin
Ag/kg
4.40
U
Endosulfan sulfate
eg/kg
4.40
u
Endosulfan I
Ag/kg
2.30
u
Endosulfan II
A9/kg
4.40
u
Endrin
Ag/kg
4.40
u
Endrin aldehyde
A9/kg
4.40
u
Endrin ketone
A9/kg
4.40
u
Fluoranthene
Ag/kg
1.30
J
Heptachlor
A9/kg
2.30
u
Heptachlor epoxide
Ag/kg
2.30
u
IndenoO ,2,3-cd)pyrene
A9/kg
56.60
J
L i ndarve
Ag/kg
2.30
u
Hethoxychlor
Ag/kg
4.40
u
Naphthalene
A9/kg
9.20
J
Phenanthrene
Ag/kg
8.30
J
PCB-1016
Ag/kg
44.00
u
PCB-1221
Ag/kg
89.00
u
PCB-1232
Ag/kg
44.00
u
PCB-1242
A9/kg
44.00
u
PCB-1248
A9/kg
44.00
u
PCB-1254
A9/kg
44.00
u
PCB-1260
Ag/kg
44.00
u
Toxaphene
Ag/kg
227.00
u
4,4'-DDD
A9/kg
3.20
UJ
4,4'-DDE
Ag/kg
4.40
UJ
4,4'-DDT
Ag/kg
4.40
u
Locanon=ORR; Formation=CHICKAMAUGA Bethel V: Site=116: A=1976: A dup=' Phase=2
alpha-BHC
A9/kg
2.10
UJ
alpha-Chlordane
A9/kg
2.10
UJ
beta-BHC
Ag/kg
2.10
UJ
delta-BHC
Ag/kg
2.10
UJ
gamma-Chlordane
Ag/kg
2.10
UJ
Acenaphthylene
Ag/kg
83.10
UJ
Aldrin
Ag/kg
2.10
UJ
Benzo(a)pyrene
A g/kg
4.20
J
Benzo(b)fluoranthene
A9/kg
4.20
J
Benzo(k)fluoranthene
A9/kg
2.90
J
Dieldrin
A9/kg
4.10
UJ
Endosulfan sulfate
A9/kg
4.10
-------�
C-29
Table Cl (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Endosulfan 1
tig/kg
2.10
UJ
Endosulfan 11
n g/kg
i.10
UJ
Endrin
ug/kg
4.10
UJ
Endrin aldehyde
ug/kg
4.10
UJ
Endrin ketone
ug/kg
4.10
UJ
Fluoranthene
eg/kg
12.50
J
Heptachlor
ug/kg
2.10
UJ
Heptachlor epoxide
u9/kg
2.10
UJ
Indeno(1,2,3-cd)pyrene
ug/kg
5.80
J
Lindane
ug/kg
2.10
UJ
Methoxychlor
ug/kg
21.40
UJ
Naphthalene
us/kg
4.60
J
Phenanthrene
ug/kg
11.20
J
PCB-1016
ug/kg
41.00
UJ
PCB-1221
M9/kg
84.00
UJ
PCB-1232
U9/kg
41.00
UJ
PCB-1242
ug/kg
41.00
UJ
PCB-1248
ug/kg
41.00
UJ
PCB-1254
U9/kg
41.00
UJ
PCB-1260
ug/kg
,1.00
UJ
Toxaptiene
ug/kg
214.00
UJ
4,41-DDD
ug/*g
4.10
UJ
4,4'-DDE
us/kg
4.10
'J J
4,4'-DDT
^9/kg
-.10
'J J
Location =OKR; Formanon - CHIC KAMA UGA Bethel V; Site=117; A=1979; A dup=' Phase=2
alpha-BHC
U9/kg
2.20
UJ
alpha-Chlordane
U9/kg
2.20
U
beta-BHC
ug/kg
2.20
U
delta-BHC
ug/kg
2.20
UJ
gairma-Ch I ordane
U9/kg
2.20
U
Acenapnthylene
ug/kg
86.10
UJ
Aldrin
ug/kg
2.20
U
Benzo(a)pyrene
eg/kg
2.60
J
Benzo(k)fluoranthene
ug/kg
0.90
J
Dieldrin
ug/kg
4.30
U
Endosulfan sulfate
i- g/kg
4.30
U
Endosulfan I
ug/kg
2.20
U
Endosulfan 11
ug/kg
4.30
U
Endrin
u9/kg
4.30
u
Endrin aldehyde
ug/kg
4.30
u
Endrin ketone
ug/kg
4.30
u
Fluoranthene
ug/kg
6.00
J
Fluorene
ug/*g
5.20
J
Heptachlor
ug/kg
2.20
u
Heptachlor epoxiae
ug/kg
2.20
u
Lindane
ug/*g
2.20
u
Methoxychlor
ug/kg
21.90
u
Naphthalene
ug/kg
15.10
J
Phenanthrene
ug/kg
5.20
J
PCB-1016
eg/kg
43.00
¦J
PCB-1221
eg/kg
86.00
u
PCB-1232
ug/kg
43.00
u
PCB-1242
ug/*g
43.00
u
PCB-1248
ug/kg
43.00
u
PCB-1254
ug/kg
43.00
u
PCB-1260
ug/kg
43.00
u
Toxaphene
ug/kg
219.00
u
4,41-DDD
ug/kg
4.30
u
4,4'-DDE
ug/kg
4.30
UJ
4,4'-DDT
ug/kg
4.30
-------�
C-30
Table CI fcontinued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Locanon=ORR; Formarion=CHICKAMAUGA Bethel V: Site=93; A=1900; A dup=' Phase=2
alpha-BHC
*9/kg
2.20
UJ
alpha-Chlordane
ug/kg
2.20
UJ
beta-BHC
ug/Jcg
2.20
UJ
delta-BHC
Kg/kg
2.20
UJ
gamma-Chlordane
ug/kg
2.20
UJ
Acenaptithylene
ug/kg
83.80
UJ
Atdrin
u g/kg
2.20
UJ
Anthracene
ug/kg
0.40
J
BenzoCaJanthracene
ug/kg
2.50
J
Benzo(a)pyrene
ug/kg
4.20
J
Benzo(b)fluoranthene
Kg/kg
3.40
J
Benzotghi Jperylene
ug/kg
2.10
J
Benzo(k)fluoranthene
Kg/kg
2.50
J
Dieldrin
ug/kg
4.20
UJ
Endosulfan sulfate
ug/kg
4.20
UJ
Endasulfan I
ug/kg
2.20
UJ
Endosulfan 11
ug/kg
4.20
UJ
Endrin
ug/kg
4.20
UJ
Endrin aldehyde
ug/kg
4.20
UJ
Endrin ketone
ug/kg
4.20
'J J
Fluoranthene
ug/kg
3.80
J
Heptachlor
ug/kg
2.20
UJ
Heptachlor epoxide
ug/kg
2.20
UJ
lndeno(1,2,3-cd)pyrene
ug/kg
17.60
J
Lindane
ug/kg
2.20
UJ
Hethoxychlor
ug/kg
21.60
UJ
Phenanthrene
ug/kg
5.00
J
Pyrene
ug/kg
8.80
J
PCB-1016
ug/kg
42.00
UJ
PCB-1221
ug/kg
85.00
UJ
PCB-1232
ug/kg
42.00
UJ
PCB-1242
ug/kg
42.00
UJ
PCB-1248
ug/kg
42.00
UJ
PCB-1254
ug/kg
42.00
UJ
PCB-1260
ug/kg
42.00
UJ
Toxaphene
ug/kg
216.00
UJ
4,41 -ODD
ug/kg
4.20
UJ
4,4' -DDE
ug/kg
4.20
UJ
4,4'-DDT
ug/kg
4.20
UJ
Location=ORR; Formanon = CHICKAMAUGA Bethel V; Site=99; A =1903; A dup=' Phase =2
alpha-BHC
ug/kg
2.20
UJ
alpha-Chlordane
uc/kg
2.20
UJ
beta-BHC
ug/kg
2.20
UJ
detta-BHC
ug/kg
2.20
UJ
gamtia-Ch I ordane
ug/kg
2.20
UJ
Acenaphthylene
ug/kg
86.50
u
Aldrin
ug/kg
2.20
JJ
Anthracene
ug/kg
0.90
J
BenzoCa)anthracene
ug/kg
5.20
J
Benzo(a)pyrene
Ug/kg
6.10
J
Benzo(b)fIuoranth ene
U9/kg
6.10
J
Benzo(ghi)perylene
ug/kg
4.30
J
Benzo(k)fluoranthene
ug/kg
3.00
J
Dalapon
ug/kg
4506.00
UJ
Dicamba
ug/kg
206.00
UJ
Dichlorprop
ug/kg
515.00
UJ
Dieldrin
ug/kg
4.30
UJ
Dinoseb
ug/kg
108.00
UJ
Endosulfan sulfate
ug/kg
4.30
UJ
Endosulfan I
ug/kg
2.20
UJ
Endosulfan II
ug/kg
4.30
UJ
Endrin
ug/kg
4.30
-------�
C-31
Table CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Endrin aldehyde
Mg/kg
4.30
UJ
Endrin ketone
Mg/kg
4.30
UJ
Fluoranthene
ng/kg
10.80
J
Heptachlor
jig/kg
2.20
UJ
Heptachlor epoxide
Ag/kg
2.20
UJ
IndenoO ,2,3-cd)pyrene
95.00
UJ
2,4,5-T
Mg/kg
154.00
UJ
4,4'-DDD
pg/kg
4.30
UJ
4,4'-DDE
Mg/kg
4.30
UJ
4,4'-D0T
A9/kg
4.30
UJ
Locanon=ORR; Formanon-CHICKAMAUCA K-25; Siie=118; A=4095; A dup = ' Phase=2
alpha-BHC
Mg/kg
2.70
UJ
alpha-Chlordane
Mg/kg
2.70
U
beta-BHC
A9/kg
2.70
U
delta-BHC
Ag/kg
2.70
UJ
ganma-Chlordane
ug/kg
2.70
U
Acenaphthene
^g/kg
2.40
J
Acenaphthylene
Mg/kg
54.20
u
Aldrin
M9/kg
2.70
u
Anthracene
A3/kg
1.60
J
Benzo(a)anthracene
Ag/kg
13.30
J
Benzo(a)pyrene
^g/kg
11.40
J
Benzo(b)fluoranthene
A9/kg
12.70
J
Benzo(ghi)perylene
Ag/kg
11.10
J
Benzo(k)fluoranthene
Ag/kg
8.70
J
Chrysene
Ag/kg
15.20
J
Dalapon
(tg/kg
5304.00
UJ
Dibenzo(a,h)anthracene
dg/kg
0.80
J
Dicamba
Ag/kg
242.00
u
Dichlorprop
cg/kg
606.00
UJ
Dieldrin
cg/kg
5.40
u
Dinoseb
cg/kg
127.00
u
Endosulfan sulfate
cg/kg
5.40
u
Endosulfan I
cg/kg
2.70
u
Endosulfan I!
cg/kg
5.40
u
Endrin
(ig/kg
5.40
u
Endrin aldehyae
C9/kg
5.40
u
Endrin ketone
cg/kg
5.40
u
Fluoranthene
Ag/kg
7.00
J
Heptachlor
cg/kg
2.70
J
Heptachlor epoxide
cg/kg
2.70
u
IndenoO ,2,3-cd)pyrene
cg/kg
28.50
L i ndane
cg/kg
2.70
UJ
Methoxychlor
cg/kg
27.00
u
MCPA
cg/kg
227314.00
UJ
MCPP
cg/kg
".72759.00
UJ
Naphthalene
cg/kg
3.00
J
Phenanthrene
c g/kg
16.50
-------�
C-32
Table C.1 (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Pyrene
#g/kg
26.80
J
PCB-1016
MS/kg
54.00
U
PCB-1221
v-gtkg
110.00
u
PCS-1232
Kg/kg
54.00
u
PCB-1242
-------�
C-33
Tabic CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Locanon=ORR; Formation - CH1CKAM.4 UGA K-25; Site=120; A=4092; A dup=' Phase=2
alpha-BHC
K g/kg
2.40
UJ
alpha-Chlordane
*g/kg
2.40
u
beta-BHC
/ig/kg
2.40
u
delta-BHC
M9/kg
2.40
UJ
gamma-Chlordane
/ig/kg
2.40
u
Acenaphthylene
/ig/kg
48.30
u
Aldrin
/ig/kg
2.40
u
Anthracene
/ig/kg
2.20
J
Benzo(a)anthracene
/ig/kg
15.70
J
Benzo(a)pyrene
Mg/kg
11.10
J
Benzo(b)fluoranthene
Ag/kg
10.60
J
Benzo(ghi)perylene
/ig/kg
10.90
J
Benzo(k)fluoranthene
/ig/kg
5.80
J
Dalapon
/ig/kg
4867.00
UJ
Dicamba
Ag/kg
195.00
u
DichlorDroD
«g/kg
488.00
UJ
Dieldrin
^g/kg
4.80
u
D i noseb
^g/kg
102.00
u
Endosulfan sulfate
^9/kg
^.80
¦J
Endosulfan J
/ig/kg
2.40
u
Endosulfan 11
A9/kg
-.80
u
Endrin
eg/kg
-.80
u
Endrin aldehyde
/ig/kg
4.80
u
Endrin ketone
/ig/kg
4.80
u
Fluoranthene
/ig/kg
4.30
J
Fluorene
/ig/kg
4.60
J
Heptachlor
/ig/kg
2.40
u
Heptachlor epoxide
/ig/kg
2.40
u
Indeno(1,2,3-cd)pyrene
/ig/kg
34.10
L i ndane
/ig/kg
2.40
UJ
Hethoxychlor
/ig/kg
24.00
u
MCPA
/ig/kg
183025.00
UJ
HCPP
/ig/kg
139099.00
UJ
Phenanthrene
/ig/kg
12.80
J
Pyrene
/ig/kg
22.20
J
PCB-1016
jig/kg
48.00
u
PCB-1221
jig/kg
96.00
u
PCB-1232
/ig/kg
48.00
u
PCB-1242
/ig/kg
<•8.00
u
PCB-1248
.ig/kg
48.00
u
PCB-1254
/ig/kg
48.00
u
PCB-1260
^g/kg
48.00
u
S iI vex
/ig/kg
122.00
u
Toxaphene
/ig/kg
240.00
u
2,4-D
/ig/kg
879.00
u
2,4-DB
/ig/kg
659.00
u
2,4,5-T
M9/kg
146.00
u
4,4'-DDD
»ig/kg
4.80
u
4,4' -ODE
AS/kg
4.80
u
4,4' -DDT
/ig/kg
- .80
UJ
Locanon=ORJR: Formanort=CHICKAMAUGA K-25: Sire=i21: A-4129: A dup= ' Phase-2
aIpha-BHC
/ig/kg
2.30
UJ
alpha-Chlordane
/ig/kg
3.60
J
beta-BHC
*ig/kg
2.30
'J J
delta-BHC
Kg/kg
2.30
UJ
gamma-Chlordane
/ig/kg
2.30
UJ
Acenapnthene
M9/kg
0.90
J
AcenaDnthylene
M9/kg
45.30
U
Aldrin
Mg/kg
2.30
UJ
Anthracene
/ig/kg
1.40
J
BenzoCa)anthracene
/ig/kg
9.50
J
Benzo(a)pyrene
^9/kg
?.70
-------�
C-34
Table Q1 (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Benzo(b)fluoranthene
M9/kg
11
.60
J
Benzo(ghi)perylene
jig/kg
8,
.80
J
Benzo(k)fluoranthene
A9/kg
5.
.40
J
Chrysene
n g/kg
12.
.70
J
Dieldrin
eg/kg
4.
.50
UJ
Endosulfan sulfate
-------�
C-36
Table CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Locaaon=ORR; Formation=CHICKAMAUCA K-25; Site=124; A=4115: A dup=' Phase=2
alpha-BHC
(ig/kg
2.30
UJ
alpha-Chlordane
ng/kg
2.30
U
beta-BHC
(ig/kg
2.30
U
delta-BHC
(ig/kg
2.30
UJ
garana-Chlordane
/ig/kg
2.30
U
Acenaphthylene
-------�
C-3 9
Table CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Dieldrin
Kg/kg
4.10
UJ
Endosulfan sulfate
ug/kg
4.10
UJ
Endosulfan 1
Kg/kg
2.10
UJ
Endosulfan II
ug/kg
4.10
UJ
Endrin
eg/kg
4.10
UJ
Endrin aldehyde
ug/kg
4.10
UJ
Endrin ketone
ug/kg
4.10
UJ
Fluoranthene
U g/kg
5.20
J
Fluorene
ug/kg
0.40
J
Heptachlor
ug/kg
2.10
UJ
Heptachlor epoxide
ug/kg
2.10
UJ
IndenoO ,2,3-cd)pyrene
ug/kg
12.00
L l ndane
Kg/kg
2.10
UJ
Methoxychlor
ug/kg
21.00
UJ
Naphthalene
u g/kg
1.40
J
Phenanthrene
ug/kg
2.90
J
Pyrene
ug/kg
3.90
J
PCB-1016
ug/kg
41.00
UJ
PCB-1221
u g/kg
82.00
UJ
PCB-1232
ug/kg
41.00
'J J
PCB-1242
ug/kg
41.00
UJ
PCB-1248
ug/kg
41.00
UJ
PCB-1254
ug/kg
41.00
UJ
PCB-1260
ug/kg
41.00
UJ
Toxaphene
ug/kg
210.00
UJ
4,4'-DDD
ug/kg
4.10
UJ
4,4'-00E
ug/kg
4.10
UJ
4,4'-DDT
ug/kg
4.10
UJ
Location =ORR; Formanon = CHI CKAMA UGA K-25; Site=129; A=4086; A dup =' Phase=2
Aceriaphthylene
Benzo(a)anthracene
Benzo(a)pyrene
Benzo(b)fluoranthene
BenzoCghi)perylene
BenzoCkJfluoranthene
Dalapon
Dicamba
Di chlorprop
D i noseb
Fluorene
Indervod ,2,3-cd)pyrene
MCPA
MCPP
Phenanthrene
Pyrene
S iI vex
2,4-0
2,4-DB
2,4,5-T
Kg/kg
41.30
U
ug/kg
4.50
J
ug/kg
4.10
J
U g/kg
1.70
J
wg/kg
2.90
J
ug/kg
2.70
J
ug/kg
4271.00
UJ
ug/kg
195.00
U
ug/kg
488.00
UJ
ug/kg
102.00
U
ug/kg
0.80
J
ug/kg
10.30
u
ug/kg
183025.00
UJ
ug/kg
139099.00
UJ
ug/kg
6.00
J
ug/kg
10.70
J
ug/kg
122.00
u
ug/kg
879.00
u
ug/kg
659.00
u
ug/kg
146.00
u
Locanon=ORR. Formation-COPPER RIDGE; Siie=45: A=i544- A dup='
Phase=2
Acenaphthene
BenzoCaJanthracene
Benzo(a)pyrene
BenzoCghi)perylene
Fluoranthene
Irideno(1,2,3-cd)pyrene
Phenanthrene
Pyrene
ug/kg
1.50
J
ug/kg
2.20
J
ug/kg
1.10
J
ug/kg
0.40
J
ug/kg
1.50
J
ug/kg
18.60
U
ug/kg
6.70
J
ug/kg
3.00
-------�
C-40
Tabic CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Locanon=ORR: Formanon=COPPER RIDGE; Site=5I: A-1546; A dup=' Phase=2
Benzo(a)anthracene (ig/kg 1.20
SerizoCghi Jperylene (ig/kg 2.00
Benzo(k)fluoranthene jig/kg 0.80
Fluoranthene fig/kg 4.40
Fluorene (ig/kg 0.40
IndenoO ,2,3-cd)pyrene Kg/kg 20.00
Naphthalene (ig/kg 10.40
Phenanthrene (ig/kg 2.40
Pyrene (ig/kg 3.20
Locanon=ORR; Formauon—COPPER RIDGE; Site=54; A=1497; A dup=' '; Phase=2
alpha-BHC
(ig/kg
1.80
UJ
alpha-Chlordane
Jig/kg
1.80
U
beta-BHC
(ig/kg
1.80
U
delta-BHC
*g/kg
1.80
u
ganrna-Ch I ordane
(ig/kg
1.80
u
Acenaphthylene
(ig/kg
182.80
u
Aldrin
eg/kg
1.80
u
Anthracene
eg/kg
0.40
J
BenzoCa)anthracene
(ig/kg
1.50
J
Benzo(a)pyrene
dg/kg
1.50
J
Benzo(b)fluoranthene
(ig/kg
1.10
J
Benzo(k)fluoranthene
ng/kg
0.70
J
Chrysene
dg/kg
2.20
J
Dibenzo(a,h)anthracene
(ig/kg
2.90
J
Dieldrin
(ig/kg
3.70
u
Endosulfan sulfate
(ig/kg
3.70
u
Endosulfan I
M/kg
1.80
u
Endosulfan 11
(ig/kg
3.70
u
Endrin
(ig/kg
3.70
u
Endrin aldehyde
(ig/kg
3.70
u
Endrin ketone
(ig/kg
3.70
u
Fluoranthene
m g/kg
4.80
J
Fluorene
n- g/kg
2.20
J
Heptachlor
/ig/kg
1.80
u
Heptachlor epoxide
(ig/kg
1.80
u
Indeno(1,2,3-cd)pyrene
*ig/kg
18.30
UJ
L i ndane
(ig/kg
1.80
UJ
Hethoxychlor
(ig/kg
18.00
u
Phenanthrene
Kg/kg
2.90
J
Pyrene
(ig/kg
4.40
J
PCS-1016
/ig/kg
37.00
u
PCB-1221
(ig/kg
74.00
u
PCB-1232
/i 9/kg
37.00
u
PCB-1242
(ig/kg
37.00
u
PCB-1248
Mg/kg
37.00
u
PCB-1254
(ig/kg
37.00
u
PCB-1260
(ig/kg
37.00
u
T oxaphene
(ig/kg
180.00
u
4,41-ODD
(i g/kg
3.70
UJ
4,4'-DDE
(ig/kg
3.70
u
4,4'-DDT
(ig/kg
3.30
UJ
Locanon=ORR; Formanon-COPPER RIDGE; Site=55; A-1495: A dup=' '¦ Phase=2
alpha-BHC
M/kg
1.90
UJ
alpha-Chlordane
(ig/kg
1.90
U
beta-BHC
(ig/kg
1.70
UJ
delta-BHC
(ig/kg
1.90
U
gairma-Ch I ordane
(ig/kg
1.90
U
Acenaphthylene
(ig/kg
4287.40
Aldrin
ng/kg
1.90
-------�
C-41
Table CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Anthracene
M g/kg
0.80
J
Benzo(a)anthracene
*g/kg
1.90
J
Benzo(a)pyrene
M9/kg
1.90
J
Benzo(b)fluoranthene
M9/kg
0.40
J
Benzo(k)fluoranthene
eg/kg
1.10
J
Chrysene
M9/kg
2.70
J
Dibenzo(a,h)anthracene
^g/kg
3.80
J
Dieldrin
(ig/kg
3.70
U
Endosulfan sulfate
M/kg
3.70
U
Endosulfan I
-g/kg-
1.90
U
Endosulfan 11
M9/kg
1.80
UJ
Endrin
Ag/kg
3.70
U
Endrin aldehyde
AS/kg
3.70
U
Endrin ketone
^g/kg
3.70
U
Fluoranthene
Mg/kg
6.50
J
Heptachlor
A9/kg
1.90
U
Heptachlor epoxide
(ig/kg
1.90
U
Indeno(1,2,3-ca)pyrene
M3/kg
19.10
UJ
L i naane
^g/kg
1.90
UJ
Methoxychlor
.ig/kg
19.00
u
Phenanthrene
ng/kg
3.40
J
Pyrene
^g/kg
5.00
J
PCS-1016
c3/kg
37.00
u
PCB-1221
^g/kg
74.00
u
PCB-1232
Mg/kg
37.00
u
PCB-1242
Ag/kg
37.00
u
PCB-1248
tfg/kg
37.00
u
PCB-1254
eg/kg
37.00
u
PC8-1260
^g/kg
37.00
u
Toxaphene
eg/kg
190.00
u
4,4'-DDD
eg/kg
1.70
UJ
4,4'-DDE
Mg/kg
3.70
u
4,4'-0DT
Mg/kg
3.70
UJ
Loccmon=ORR; Formanon=COPPER RIDGE; Sire=58: A=1542; A dup=' '¦ Phase —2
Acenaphthylene
Benzo(a)anthracene
Benzo(k)f luoranthene
Fluoranthene
Indeno(1,2,3-cd)pyrene
Naphthalene
Phenanthrene
Pyrene
A g/kg 76.50 U
11 g/kg 0.40 J
^g/kg 0.80 J
^g/kg ',.50 J
-g/kg "9.10 U
;:3/kg 20.30 J
Mg/kg 1.50 j
eg/kg 0.40 J
Locanon=ORR: Formanon=COPPER RIDGE; Site=59; A =1491; A dup=' ; Phase = 2
alpha-BHC
eg/kg
1.90
UJ
alpha-Chloraane
eg/kg
1.90
U
beta-BHC
(-9/kg
1.90
U
delta-BHC
^3/kg
1.30
UJ
ganma-Chloraane
-9/kg
1.90
U
AcenaDhthene
-9/kg
Z.80
'J
Acenaphthylene
-9/kg
187.60
U
Aldrin
cg/kg
1.90
U
Anthracene
ug/kg
14.60
BenzoCa)anthracene
^S/kg
7.50
Benzo(a)pyrene
iig/kg
11.30
Benzo(b)fluoranthene
^g/kg
9.40
BenzoCghi Jperylene
A9/kg
10.10
BenzoC k)fluoranthene
^g/kg
6.00
Chrysene
-g/kg
12.00
Di benzo(a,h)anthracene
^g/kg
1.50
J
Dieldrin
ng/kg
3.80
U
Endosulfan sulfate
-g/kg
3.80
-------�
C-42
Tabic CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Endosulfan I
M/kg
1.90
U
Endosulfan II
M/kg
3.80
U
Endrin
M/kg
3.80
U
Endrin aldehyde
M/kg
3.80
u
Endrin ketone
M/kg
3.80
u
Fluoranthene
M/kg
28.90
Fluorene
M/kg
0.80
J
Heptachlor
M/kg
1.90
u
Heptachlor epoxide
M/kg
1.90
u
IndenoC1,2,3-cd)pyrene
M/kg
18.80
UJ
Lindane
M/kg
1.90
UJ
Methoxychlor
M/kg
19.00
u
Naphthalene
^g/kg
18.80
u
Phenanthrene
M/kg
19.10
Pyrene
M/kg
26.30
PCB-1016
M/kg
38.00
u
PCB-1221
M/kg
75.00
u
PCB-1232
M/kg
38.00
u
PCB-1242
M/kg
38.00
u
PCB-1248
M/kg
38.00
u
PCB-1254
M/kg
33.00
r
PCB-1260
M/kg
38.00
LI
Toxaphene
M/kg
:?o.oo
u
4,4'-ODD
M/kg
3.80
•JJ
4,4'-0DE
M/kg
3.80
u
4,4'-DDT
M/kg
2.70
UJ
Locahon=ORR; Formanon =COPPER RIDGE; Site=60: A = 1493; A dup —' Phase = 2
alpha-BHC
M/kg
1.90
UJ
alpha-Chlordane
M/kg
1.90
U
beta-BHC
M/kg
1.90
U
delta-BHC
M/kg
1 .90
U
gamma-ChIordane
M/kg
1.90
U
Aeenaphthene
M/kg
3.80
u
Acenapnthylene
M/kg
940.10
Aldrin
M/kg
1.90
u
Anthracene
M/kg
1.50
j
Benzo(a)anthracene
M/kg
; .30
Benzo(a)pyrene
M/kg
7.20
6enzo(b)fluoranthene
M/kg
5.30
BenzoCghi)perylene
A 9/kg
6.40
Benzo(k)fluoranthene
M/kg
3.B0
Chrysene
M/kg
7.90
Dibenzo(a,h)anthracene
M/kg
1.50
•J
Dieldrin
M/kg
3.70
U
Endosulfan sulfate
M/kg
3.70
u
Endosulfan I
M/kg
1.90
u
Endosulfan II
M/kg
3.70
u
Endrin
M/kg
3.70
u
Endrin aldehyde
M/kg
3.70
'J
Endrin ketone
M/kg
3.70
u
Fluoranthene
M/kg
16.60
Fluorene
M/kg
3.80
u
Heptachlor
M/kg
1.90
u
Heptachlor epoxide
M/kg
i .90
J
Indeno(1,2,3-cd)pyrene
M/kg
18.80
UJ
Lindane
M/kg
1.90
UJ
Methoxychlor
M/kg
19.00
u
naphthalene
M/kg
18.80
u
Phenanthrene
M/kg
8.30
Pyrene
M/kg
16.20
PCB-1016
M/kg
37.00
u
PCB-1221
M/kg
75.00
u
PCB-1232
M/kg
37.00
u
PCB-1242
M/kg
37.00
u
PCS-1248
M/kg
37.00
-------�
C-43
Table CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
PCB-1254
it g/kg
37.00
U
PCS-1260
Ag/kg
37.00
U
Toxaphene
Ag/kg
190.00
U
4,4'-DDD
Ag/kg
3.70
UJ
4,4'-DDE
Ag/kg
3.70
U
4,41-DDT
Ag/kg
1.90
UJ
Locaiion—ORR: Formation—COPPER RIDGE; Site=62: A=1480: A dup=' Phase=2
alpha-BHC
Ag/kg
1.80
UJ
alpha-Chlordane
Ag/kg
1.80
U
beta-BHC
Ag/kg
1.80
U
delta-BHC
a g/kg
1.80
U
ganma-Chlordane
Ag/kg
1.80
U
Acenaphthylene
a g/kg
177.60
U
Aldrin
a g/kg
1.80
U
Anthracene
a g/kg
0.40
J
Benzo(a)anth racene
Ag/kg
2.10
J
Benzo(a)pyrene
a g/kg
2.10
•J
Benzo(b)fluoranthene
Ag/kg
1 .40
J
Benzo(gh))perylene
Ag/kg
2.80
J
Benzo(k)fluoranthene
Ag/kg
1.40
J
Chrysene
a g/kg
3.60
J
Dieldrin
Ag/kg
3.70
u
Endosulfan sulfate
a g/kg
3.70
u
Endosulfan I
Ag/kg
1.80
u
Endosulfan II
Ag/kg
3.70
u
Endrin
Ag/kg
3.70
u
Endrin aldehyde
Ag/kg
3.70
u
Endrin ketone
Ag/kg
3.70
u
Fluoranthene
Ag/kg
6.70
J
Heptachlor
Ag/kg
1.80
u
Heptachlor epoxide
Ag/kg
1.80
u
Indenod ,2,3-cd)pyrene
a g/kg
17.80
UJ
L i ndane
Ag/kg
1.80
UJ
Hethoxychlor
Ag/kg
18.00
u
Phenanthrene
Ag/kg
4.30
J
Pyrene
Ag/kg
6.40
J
PCB-1016
Ag/kg
37.00
u
PCB-1221
Ag/kg
74.00
u
PCB-1232
Ag/kg
37.00
u
PCB-1242
Ag/kg
37.00
u
PCB-1248
Ag/kg
37.00
u
PCB-1254
Ag/kg
37.00
u
PCB-1260
Ag/kg
37.00
u
Toxapfiene
Ag/kg
180.00
u
4,4'-DDD
Ag/kg
3.70
UJ
4,4'-DDE
Ag/kg
3.70
u
4,4'-DDT
Ag/kg
3.70
UJ
Locanon=ORR: Formanon=COPPER RIDGE; Site-64: A =1483; A dup = ' Phase=2
alpha-BHC
Ag/kg
1.90
UJ
alpha-Chlordane
A9/kg
1 .90
U
beta-BHC
A9/kg
1.90
U
delta-BHC
Ag/kg
1.90
U
gamma-Chlordane
A9/kg
1.90
u
Acenaphthylene
Ag/kg
28.40
J
Aldrin
Ag/kg
1.90
u
Benzo(a)anthracene
Ag/kg
0.80
J
Benzo(a)pyrene
Ag/kg
0.80
J
BenzoCghi)perylene
Ag/kg
1.20
J
Benzo(k)fluoranthene
Ag/kg
0.40
J
Chrysene
Ag/kg
1.20
J
Dibenzo(a,h)anthracene
Ag/kg
0.40
-------�
C-44
Table CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Dieldrin
jig/kg
3.80
U
EndosuLfan sulfate
dg/kg
3.80
u
Endosulfan I
jig/kg
1.90
u
Endosulfan II
Kg/kg
3.80
u
Endrin
ng/kg
3.80
u
Endrin aldehyde
(ig/kg
2.00
UJ
Endrin ketone
a g/kg
3.80
u
Fluoranthene
^g/kg
3.60
J
Heptachlor
m g/kg
1.90
u
Heptachlor epoxide
v- g/kg
1.90
u
Indenod ,2,3-cd)pyrene
*ig/kg
19.70
UJ
L i ndane
Mg/kg
1.90
UJ
Methoxychlor
(ig/kg
19.00
u
Phenanthrene
/ig/kg
1.60
J
Pyrene
A9/kg
2.80
J
PCB-1016
^g/kg
38.00
u
PCB-1221
dg/kg
77.00
u
PCS-1232
/ig/kg
38.00
u
PCB-1242
ng/kg
38.00
u
PCB-1248
^g/kg
38.00
u
PCB-1254
A9/kg
38.00
u
PCB-1260
/ig/kg
38.00
u
Toxaphene
/ig/kg
190.00
u
4,4 '-DDD
M/kg
3.80
UJ
4,4'-DDE
w-g/kg
3.80
u
4,41-DDT
eg/kg
3.80
UJ
Locanon=ORR; Formation—COPPER RIDGE; Site = 75; A=1477; A dup=' Phase—2
alpha-BHC
Kg/kg
2.00
UJ
alpha-Chlordane
(tg/kg
2.00
U
beta-BHC
/ig/kg
2.00
U
delta-BHC
/ig/kg
2.00
U
gamma-ChIordane
/ig/kg
2.00
U
Acenapnthene
/ig/kg
3.90
U
Acenaphthylene
/ig/kg
195.30
U
Aldrin
ng/kg
2.00
U
Anthracene
/ig/kg
0.40
J
Benzo(a)anthracene
/ig/kg
1.60
J
Benzo(a)pyrene
/ig/kg
2.00
J
Benzo(b)fluoranthene
/ig/kg
1.60
J
Benzo(ghi)perylene
/ig/kg
2.70
J
Benzo(k)fluoranthene
/ig/kg
1.20
J
Chrysene
/ig/kg
2.70
J
Dibenzol a,h)anthracene
/i g/kg
0.80
J
Dieldrin
/ig/kg
4.00
u
Endosulfan sulfate
/ig/kg
4.00
u
Endosulfan 1
/ig/kg
2.00
u
Endosulfan II
/ig/kg
4.00
u
Endrin
A9/kg
4.00
u
Endrin aldehyde
/ig/kg
4.00
u
Endrin ketone
/ig/kg
4.00
u
Fluoranthene
/ig/kg
4.70
Fluorene
/ig/kg
3.90
u
Heptachlor
/ig/kg
2.00
u
Heptachlor epoxide
fig/kg
2.00
u
Indenod ,2,3-cd)pyrene
/ig/kg
19.50
UJ
L i ndane
eg/kg
2.00
UJ
Methoxychlor
/ig/kg
20.00
u
Naphthalene
/ig/kg
19.50
u
Phenanthrene
/ig/kg
2.70
J
Pyrene
/ig/kg
4.30
PCB-1016
Kg/kg
40.00
u
PCB-1221
^g/kg
79.00
u
PCB-1232
/ig/kg
40.00
u
PCB-1242
Kg/kg
40.00
u
PCB-1248
Jig/kg
40.00
-------�
C-45
Table CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
PCB-1254
jig/kg
40.00
U
PCB-1260
Kg/kg
40.00
U
Toxaphene
K9/kg
200.00
U
4,4' -DDD
Kg/kg
4.00
UJ
4,4'-DDE
Kg/kg
4.00
U
4,4'-DDT
K9/kg
4.00
UJ
Locanon=OKR: Formation=COPPER RIDGE; Sae=83: A.-1474; A dup=' '; Phase—2
alpha-BHC
MS
9
2
00
UJ
alpha-Chlordane
Kg
g
2
00
UJ
beta-BHC
^g
9
2
00
UJ
delta-BHC
Kg
g
2
00
UJ
gamma-ChIordane
Kg
g
2
00
UJ
Acenaphthene
Kg
g
2
40
J
Acenaphthylene
k g
g
198
40
UJ
Aldrin
AS
9
2
00
UJ
Anthracene
Kg
g
0
40
J
Benzo(a)anthracene
k g
g
3
20
J
Benzo(a)pyrene
Kg
9
4
00
J
Benzo(b)fluoranthene
K9
9
2
80
J
Benzo
-------�
C-46
Tabic CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
8enzo(a)pyrene
a s/kg
5
10
J
Benzo(b)fluoranthene
M9/kg
3
90
J
BenzoCghi Jperylene
fig/kg
5
50
J
Benzo(IOf luoranthene
M9/k9
2
70
J
Chrysene
ml*Q
6
60
J
DibenzoCa,h)anthracene
Mg/kg
0
40
J
Dieldrin
A9/kg
4
00
u
Endosulfan sulfate
#ig/kg
4
00
u
Endosulfan II
a 9/kg
4
00
u
Endrin
M9/kg
4
00
u
Endrin aldehyde
u- g/kg
4
00
u
Endrin ketone
*g/kg
1
80
UJ
Fluoranthene
ig/kg
79
00
J
PCB-1232
Ag/kg
40
00
u
PCB-1242
A9/kg
40
00
u
PCB-1248
*9/kg
40
00
u
PCB-1254
A g/kg
40
00
u
PCB-1260
M/kg
40
00
u
T oxaphene
/ig/kg
200
00
u
4,4'-DDD
pg/kg
4
00
UJ
4,4"-DOE
M/kg
4
00
u
4,4'-DOT
M/kg
4
00
UJ
Locanon=ORR: Formations DISMAL CAP; Site=10; A=1127: A dup=' Phase=l
alpha-BHC
*9/
9
4
40
U
atpha-Chlordane
its/
9
4
40
U
beta-BHC
A 9/
9
4
40
UJ
delta-BHC
li 9/
g
4
40
U
ganma-Chlordane
ml
9
4
40
u
Acenaphthene
(19/
9
241
00
UJN
Acenaphthylene
»g/
g
307
00
UJN
Aldrin
ml
9
4
40
UJ
Anthracene
mi
9
88
00
UJN
3enzoCa)anthracene
ml
g
2
00
UJN
Benzo(a)pyrene
mi
g
3
00
UJN
BenzoCb)fluoranthene
mi
9
2
00
UJN
BenzoCghi)perytene
mi
9
10
00
UJN
BenzoC k) f Iuoranthene
ml
9
2
00
UJN
Chrysene
ml
9
20
00
UJN
Dibenzo(a,h)anthracene
ml
g
4
00
UJN
D i camba
mi
9
212
00
UJ
Dichlorprop
ml
9
531
00
UJ
Dieldrin
ml
9
8
80
U
Dinoseb
ml
9
111
00
UJ
Endosulfan sulfate
ml
9
8
80
U
Endosulfan I
ml
9
4
40
u
Endosulfan II
ml
9
8
80
u
Endrin
ml
9
8
80
u
Endrin aldehyde
ml
9
8
80
u
Endrin ketone
ml
9
8
80
u
Fluorene
mi
9
28
00
UJN
Heptachlor
ml
9
4
.40
u
Heptachlor epoxide
ml
9
4
40
U
IndenoC1,2,3-cd)pyrer>e
ml
9
6
00
UJN
Lindane
ml
9
4
40
-------�
C-47
Table CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Hethoxychlor
Kg/kg
44.00
UJ
MCPA
*;g/kg
199104.00
UJ
MCPP
eg/kg
151319.00
UJ
Naphthalene
g/kg
241.00
UJN
Phenanthrene
^g/kg
86.00
UJN
Pyrene
ng/kg
36.00
UJN
PCB-1016
a g/kg
88.00
U
PCB-1221
dg/kg
180.00
U
PCB-1232
fig/kg
88.00
U
PCB-1242
Jig/kg
88.00
U
PCB-1248
tfg/kg
88.00
U
PCB-1254
(ig/kg
88.00
U
PCB-1260
(tg/kg
88.00
U
Si Ivex
eg/kg
133.00
UJ
T oxaphene
^9/kg
440.00
u
2,4-D
R9/kg
956.00
UJ
2,4-08
eg/kg
717.00
UJ
2,4,S-T
Rg/kg
159.00
UJ
A,4"-ODD
ng/kg
8.80
U
4,41-DDE
^g/kg
8.80
u
4,4'-DDT
M9/kg
8.80
u
Locanon-ORR: Formation = DISMAL GAP; Sue-11; A =1080; A dup= Phase = I
alpha-BHC
eg/kg
4.30
UJ
alpha-Chlordane
Mg/kg
4.30
U
beta-BHC
Jig/kg
4.30
U
delta-BHC
(ig/kg
4.30
U
gamma-Chlordane
(tg/kg
4.30
U
Acenaphthene
(ig/kg
11593.00
UJ
Acenaphthylene
eg/kg
14814.00
UJ
Aldrin
ng/kg
4.30
U
Anthracene
JJ-9/kg
4251.00
UJ
BenzoCa)anthracene
P9/kg
84.00
UJ
BenzoCaJpyrene
ug/kg
148.00
UJ
BenzoCb)fluoranthene
ug/kg
116.00
UJ
BenzoCghi Jperylene
(ig/kg
490.00
UJ
BenzoCkJfluoranthene
>ig/kg
109.00
UJ
Chrysene
cg/kg
966.00
UJ
Dibenzota,h)anthracene
jig/kg
193.00
UJ
Dicamca
iig/kg
412.00
UJ
Dichlorprop
eg/kg
1031.00
UJ
Dieldrin
(ig/kg
8.60
UJ
Oinoseb
eg/kg
216.00
UJ
Endosulfan sulfate
ng/kg
8.80
u
Endosulfan I
ig/kg
86.00
-------�
C-48
Table CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
PCB-1254
ng/kg
86.00
U
PCB-1260
-------�
C-49
Table CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Locanon=OKR; Formation =DISMAL GAP; Site=2: A=1190; A dup=1201; Phase=1
alpha-BHC
M9
kg
t.
10
UJ
4.0
UJ
alpha-Chlordane
MS
kg
4
10
UJ
4.0
UJ
beta-BHC
M9
kg
4
10
UJ
4.0
UJ
delta-BHC
M 9
kg
4
10
UJ
4.0
UJ
gamma-Chlordane
M9
kg
4
10
u
4.0
U
Acenaptithene
MS
kg
213
00
UJ
213.0
UJ
Acenaphthylene
MS
kg
272
00
UJ
272.0
UJ
Aldrin
MS
kg
4
10
u
4.0
U
Anthracene
MS
kg
78
00
UJ
78.0
UJ
Benzo(a)anthracene
MS
kg
2
00
UJ
2.0
UJ
3enzo(a)pyrene
MS
kg
3
00
UJ
3.0
UJ
8enzo(b)fluoranthene
MS
kg
2
00
UJ
2.0
UJ
Benzo(ghi)perytene
MS
kg
9
00
UJ
9.0
UJ
BenzoCIOfluoranthene
MS
kg
2
00
UJ
2.0
UJ
Chrysene
MS
kg
18
00
UJ
18.0
UJ
Dalapon
MS
Kg
364
00
UJ
850.0
UJ
Dibenzo(a,h)anthracene
MS
kg
4
00
UJ
<..0
UJ
Dicamba
MS
kg
40
00
U
39.0
UJ
Dichlorprop
MS
kg
99
00
u
98.0
UJ
Dieldrin
M9
kg
H
10
UJ
4.0
UJ
D i noseb
MS
kg
21
00
u
21.0
'J J
Endosulfan sulfate
M9
kg
8
20
u
Endosulfan I
M9
kg
4
10
UJ
4.0
UJ
Endosulfan II
M9
kg
8
20
u
8.0
u
Endrin
M9
kg
8
20
u
8.0
u
Endrin aldehyde
MS
kg
8
20
u
Endrin ketone
MS
kg
8
20
u
8.0
u
FIuorene
MS
kg
25
00
UJ
25.0
UJ
Heptachlor
MS
kg
4
10
UJ
4.0
UJ
Heptachlor epoxide
MS
kg
4
10
U
4.0
u
Indeno(1,2,3-cd)pyrene
MS
kg
5
00
UJ
5.0
UJ
Lindane
MS
kg
4
10
UJ
4.0
UJ
Methoxychlor
M9
kg
41
00
U
40.0
U
HCPA
M9
kg
37230
00
U
36643.0
UJ
HCPP
M9
kg
28295
00
u
27B49.0
UJ
Naphthalene
M9
kg
213
00
UJ.
213.0
UJ
Phenanthrene
MS
kg
76
00
UJ
76.0
UJ
Pyrene
^9
kg
32
00
'JJN
9.1
J
PCB-1016
M9
kg
32
00
U
80.0
U
PCB-1221
49
kg
-.60
00
u
160.0
u
PCB-1232
M9
kg
32
00
u
80.0
U
PCB-1242
M9
kg
82
00
u
80.0
u
PCB-1248
M9
kg
82
00
u
80.0
U
PCB-1254
M9
kg
82
.00
u
80.0
U
PCB-1260
M9
kg
82
00
u
80.0
u
Si Ivex
M9
kg
25
00
UJ
24.0
UJ
Toxaphene
M9
kg
410
00
U
400.0
J
2,4-D
M9
kg
179
00
U
176.0
UJ
2,4-DB
M9
kg
134
00
u
132.0
UJ
2,4,5-T
M9
kg
30
00
UJ
29.0
UJ
4,4'-DDD
M9
kg
8
20
UJ
8,0
UJ
4,4 '-DDE
M9
kg
8
20
UJ
S.O
UJ
4,4'-DDT
M9
kg
8
20
U
8.0
U
Location =ORR: Formation-DISMAL GAP; Site=22; A =1106; A dup=' Phase=l
alpha-BHC
M9/kg
4.30
UJ
alpha-Chlordane
M9/kg
4.30
U
beta-BHC
M9/kg
4.30
U
delta-BHC
M9/kg
4.30
U
ganma-Chlordane
M9/kg
4.30
U
Acenaphthene
M9/kg
2437.00
UJN
Acenaphthylene
M9/kg
3114.00
UJN
Aldrin
M9/kg
4.30
-------�
C-50
Table C.1 (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Anthracene
A9
9
894.00
UJN
BenzoC a)anthracene
Kg
9
18.00
UJN
BenzoCaipyrene
-------�
C-53
Tabic CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Locarion=ORR: Formaaon=DISMAL GAP; Site=33; A = 1108; A dup=' Phase=1
alpha-BHC
H 9
9
4
70
UJ
alpha-Chlordane
P-9
9
4
70
u
beta-BHC
f-9
9
4
70
UJ
delta-BHC
H- 9
9
H
70
u
gamma-Chlordane
9
4
70
u
Acenaphthene
M 9
9
2568
00
UJN
Acenapnthylene
M9
9
3281
00
UJN
Aldrin
M 9
9
4
70
UJ
Anthracene
u-g
9
942
00
UJN
Benzo(a)anthracene
P-9
(9
19
00
UJN
Benzo(a)pyrene
P-9
9
33
00
UJN
BenzoCb)fIuoranthene
A3
9
26
00
UJN
BenzoC gh i)peryIene
A9
9
108
00
UJN
BenzoCkjfluoranthene
Jig
9
24
00
UJN
Chrysene
Ji9
9
214
00
UJN
DibenzoCa,h)anthracene
H-9
S
43
00
'JJN
Dicamba
Ji9
S
228
00
UJ
Dichlorprop
Jig
g
570
00
UJ
Dieldrin
Jig
9
9
40
UJ
Oinoseb
Jig
9
120
00
UJ
Endosulfan sulfate
Jig
9
9
40
'J
Endosulfan I
Jig
9
4
70
U
Endosulfan 11
M9
g
9
40
u
Endrin
Jig
9
9
40
U
Endrin aldehyde
Jig
9
9
40
u
Endrin ketone
Ji 9
9
9
40
u
Fluorene
(19
9
300
00
UJN
Heptachlor
P-9
9
4
70
UJ
Heptachlor epoxide
M9
9
4
70
U
IndenoO ,2,3-cd)pyrene
Jig
9
61
00
UJN
Lindane
JI9
9
4
70
U
Methoxychlor
d9
9
47
00
UJ
MCPA
jig
-9
213583
00
UJ
HCPP
M
9
162323
00
UJ
Naphthalene
H9
9
2568
00
UJN
Phenanthrene
>ig
9
913
00
UJN
Pyrene
ng
g
385
00
UJN
PCB-1016
k9
9
94
00
U
PCB-1221
*9
9
190
00
U
PCB-1232
ug
9
94
00
U
PCB-1242
Ji9
9
94
00
U
PCB-1248
Ji9
9
94
00
U
PCB-1254
Ji9
9
94
00
U
PCB-1260
jig
9
94
00
U
Si Ivex
AS
9
142
00
UJ
Toxaphene
M9
9
470
00
U
2,4-D
^9
9
1025
00
UJ
2,4-DB
C-9
9
769
00
UJ
2,A,5-T
d9
9
171
00
UJ
4,4'-DDD
ug
9
9
40
UJ
4,4'-DDE
«9
9
9
40
UJ
4,4'-DDT
JI9
9
9
40
UJ
Location = ORR; Formation=DISMAL GAP; Site=55; A =1115; A dup= Phase=l
alpha-BHC
jig/kg
4.20
UJ
alpha-Chlordane
*ig/kg
4.20
U
beta-BHC
jig/kg
4.20
UJ
delta-BHC
Jig/kg
4.20
U
gamma-Chlordane
jig/kg
4.20
U
Acenaphthene
jig/kg
2285.00
UJN
Acenaphthylene
jig/kg
2920.00
UJN
Aldrin
M/kg
4.20
UJ
Anthracene
^9/kg
838.00
-------�
C-54
Table CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Benzo(a)anth racene
-------�
C-56
Tabic CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
PCB-1016
(ig/kg
42.00
UJ
PCB-1221
Kg/kg
85.00
UJ
PCB-1232
j^g/kg
42.00
UJ
PC8-1242
H g/kg
42.00
UJ
PCB-1248
/tg/kg
42.00
'J J
PCB-1254
^g/kg
42.GO
UJ
PCB-1260
Kg/kg
42.00
UJ
T oxaphene
iig/kg
210.00
UJ
4,4'-DDD
^g/kg
4.20
UJ
4,4'-DDE
Kg/kg
4.20
UJ
4,4'-DDT
Mg/kg
4.20
UJ
Locanon=ORR; Formation=NOLICHUCKY; Site—13;A~1299; A dup=' Phase=1
alpha-BHC
Ag/kg
2.10
UJ
alpha-Chlordane
ttg/kg
2.10
U
beta-BHC
Mg/kg
2.10
UJ
delta-BHC
A9/kg
2.10
UJ
gamma-Chlordane
Mg/kg
2.10
U
Acenaphthene
Mg/kg
224.00
UJ N
Acenaphthylene
-------�
C-59
Table C.1 (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Aldrin
iig/
9
2
00
u
Anthracene
d9/
g
790
00
UJ
Benzo(a)pyrene
H9/
9
3
00
UJ
Benzo(b)fluoranthene
A9/
9
2
00
UJ
Benzo(ghi)perylene
d9/
9
9
00
UJ
Benzo(k)fluoranthene
A9/
9
2
00
UJ
DibenzoCa,h)anthracene
A9/
9
4
00
UJ
Dieldrin
H9/
9
4
00
UJ
Endosulfan sulfate
dg/
9
4
00
u
Endosulfan 1
d 9/
9
2
00
u
Endosulfan II
d 9/
9
4
00
u
Endrin
d 9/
9
4
00
u
Endrin aldehyde
d9/
9
4
00
u
Endrin ketone
eg/
9
4
00
u
Fluorene
d9/
9
250
00
UJ
Heptachlor
dg/
9
2
00
UJ
Heptachlor epoxide
dg/
9
2
00
u
Inder>o<1,2,3-cd)pyrene
dg/
9
50
00
UJ
Li ndane
dg/
9
2
00
UJ
Hethoxychlor
dg/
9
20
00
u
Naphthalene
d9/
9
2150
00
UJ
Phenanthrene
dg/
9
760
00
UJ
Pyrene
P9/
9
32
00
UJN
PCB-1016
dg/
9
40
00
u
PCB-1221
(19/
9
79
00
u
PCB-1232
eg/
9
40
00
u
PCB-1242
dg/
9
40
00
u
PCB-1248
dg/
9
40
00
u
PCB-1254
dg/
9
40
00
u
PCB-1260
eg/
9
40
00
u
Toxaphene
jig/
9
200
00
u
4,4'-DDD
-------�
C-60
Table C] (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
PCB-1016
A9/kg
43.00
U
PCB-1221
dg/kg
85.00
U
PC8-1232
^g/kg
43.00
U
PCB-1242
n g/kg
43.00
11
PCB-1248
jig/kg
43.00
U
PCB-1254
M/kg
43.00
u
PCB-1260
dg/kg
43.00
u
Toxaphene
ng/kg
210.00
u
4,41-DDD
eg/kg
4.30
UJ
4,41-DDE
M9/kg
4.30
UJ
4,4'-DDT
i^g/kg
4.30
UJ
Locanon=ORR: Formanon =NOLlCHUCKY; Site=25; A =1293; A dup=' Phase=l
alpha-BHC
-------�
C-62
Table CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
PCB-1016
Jig/kg
40.00
II
PCB-1221
Jtg/kg
81.00
U
PCB-1232
/ig/kg
40.00
U
PCB-1242
iig/kg
40.00
U
PCB-1248
(tg/kg
40.00
U
PCB-1254
(ig/kg
40.00
u
PCB-1260
M/kg
40.00
u
T oxaphene
ng/kg
200.00
u
4,4'-DDD
ftg/kg
4.00
UJ
4,4'-DDE
u-9/kg
4.00
UJ
4,4'-DDT
vg/kg
4.00
UJ
Locarion=ORR: Formation =NOLICHUCKY; Site=31; A = 1303: A dup=' Phase=l
alpha-BHC
anth racene
M9/kg
4.00
UJ
Dieldrin
jtg/kg
4.10
UJ
Endosulfan sulfate
M9/kg
4.10
u
Endosulfan 1
Kg/kg
2.00
u
Endosulfan 11
M-g/kg
4.10
u
Endrin
ng/kg
4.10
J
Endrin aldehyde
p-g/kg
4.10
u
Endrin ketone
^g/kg
4.10
u
Fluorene
M-g/kg
26.00
UJN
Heptacftlor
Mg/kg
2.00
¦JJ
Heptachlor epoxide
il g/kg
2.00
u
I naerto( 1,2,3 - cd )py rene
v-g/kg
5.00
UJ
Lindane
n g/kg
2.00
UJ
Hethoxychlor
M g/kg
20.00
u
Naphthalene
(tg/kg
221.00
UJ
Phenanthrene
Mg/kg
79.00
UJ
Pyrene
M9/kg
33.00
UJ
PCB-1016
M9/kg
41.00
U
PCB-1221
/ig/kg
81.00
U
PCB-1232
ug/kg
41.00
u
PCB-1242
eg/kg
41.00
u
PCB-1248
(ig/kg
41.00
u
PCB-1254
(i 9/kg
41.00
u
PCB-1260
A9/kg
41.00
u
T oxaDhene
iig/kg
200.00
u
4,4' -ODD
Mg/kg
4.10
UJ
4,4' -DOE
M-9/kg
4.10
UJ
4,4' -DDT
»tg/kg
4.10
UJ
Locaxion=ORR: Formanon=NOLICHUCKY; Sue =42; A-1302: A dup=' Phase=l
alpha-BHC M9/kg 2.00 UJ
alpha-Chlordane vg/kg 2.00 U
beta-BHC ug/kg 2.00 UJ
delta-BHC Mg/kg 2.00 UJ
-------�
C-63
Tabic CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Acenaphthene
(ig/kg
218.
,00
UJ
Acenaphthylene
(ig/kg
2780.
,00
UJ
Aldrin
(ig/kg
2.
,00
u
Anthracene
es/kg
800.
.00
UJ
Benzo(a)anthracerte
(ig/kg
2.
.00
UJ
BenzoCa)pyrene
ji g/kg
3.
,00
UJ
Benzo(b)fluoranthene
n g/kg
1.
.00
J
BenzoCghi)perylene
Mg/kg
9.
.00
UJN
Benzo(k)fluoranthene
w/kg
2.
.00
UJN
Chrysene
M/kg
18.
.00
UJ
Dibenzo(a,h)anthracene
(ig/kg
4.
.00
UJ
Dieldrin
(ig/kg
3.
.90
UJ
Endosulfan sulfate
jig/kg
3.
.90
U
Endosulfan I
(ig/kg
2.
.00
U
Endosulfan 11
(ig/kg
3.
.90
U
Endrin
(ig/kg
3.
,90
u
Endrin aldehyde
M/kg
3.
.90
u
Endrin ketone
(ig/kg
3.
.90
u
Fluorene
(ig/kg
250.
.00
UJ
Heptachlor
(ig/kg
2.
.00
UJ
Heptachlor epoxide
(ig/kg
2.
.00
u
Indeno(1,2,3-cd)pyrene
(ig/kg
50.
.00
UJ
Lindane
(ig/kg
2.
.00
UJ
Methoxychlor
(ig/kg
20.
.00
u
Naphthalene
(ig/kg
2180.
.00
UJ
Phenanthrene
(ig/kg
770.
.00
UJN
Pyrene
(ig/kg
11,
.00
J
PCB-1016
(ig/kg
39,
.00
u
PCB-1221
(ig/kg
78,
.00
u
PCB-1232
Jig/kg
39,
.00
u
PCB-1242
(ig/kg
39.
.00
u
PCB-1248
(ig/kg
39.
.00
u
PCB-1254
(ig/kg
39.
.00
u
PCB-1260
^g/kg
39,
.00
u
Toxaphene
(ig/kg
200,
.00
u
4,4"-DDD
(ig/kg
3,
.90
UJ
4,4'-DDE
(i g/kg
3,
.90
UJ
4,41-DDT
(ig/kg
3,
.90
UJ
Locanon=ORR: Formanon-NOLJCHUCKY; Site=5: A=J298: A dup=¦ '¦ Phase=l
alpha-BHC
(ig/kg
1.90
UJ
alpha-Chlordane
(i9/kg
1.90
U
beta-BHC
(ig/kg
1.90
UJ
delta-BHC
-------�
C-64
Table CI (continued)
A horizon A horizon
.Analysis Units Result Qualifier field dup Qualifier
Methoxychlor
ng/kg
19.00
U
Naphthalene
M9/kg
2020.00
UJ
Phenanthrene
Kg/kg
720.00
UJ
Pyrene
M9/kg
30.00
UJN
PCB-1016
Mg/kg
37.00
U
PCB-1221
(tg/kg
75.00
U
PCB-1232
AS/kg
37.00
U
PCS-1242
Ag/kg
37.00
U
PCS-1248
Jtg/kg
37.00
U
PCB-1254
A9/kg
37.00
U
PCB-1260
-------�
C-65
Table C.1 (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Location = ROA; Formation=COPPER RIDGE; Site=34; A =3206; A dup=' '; Phase =2
alpha-BHC
K 9
9
2.40
U
alpha-Chlordane
K9
9
2.40
U
beta-BHC
K9
;g
2.40
U
delta-BHC
K9
9
2.40
U
ganma-Ch I ordarte
K9
:g
2.40
U
Acenaphthene
K9
9
4.70
U
Acenaptithylene
K 9
•9
236.70
u
Aldrin
K9
9
2.40
u
Anthracene
K 9
9
1.90
J
BenzoCa)anthracene
K9
9
6.20
J
Benzo(a)pyrene
Kg
eg
3.30
J
BenzoCb)fluoranthene
K 9
9
2.40
J
BenzoCghi)perylene
Kg
9
3.30
J
BenzoCk)fluoranthene
K9
9
1.90
J
Chrysene
*9
9
4.70
u
Dalapon
K9
9
5527.20
UJ
DibenzoCa,h)anthracene
Kg
9
1.90
J
Dicanba
Kg
;g
254.10
u
Dichlorprop
Kg
9
635.30
u
Dieldrin
Kg
9
4.60
u
Dinoseb
Kg
9
133.40
UJ
Endosulfan sulfate
K9
9
4.60
u
Endosulfan I
Kg
:9
2.40
u
Endosulfan II
Kg
9
4.60
u
Endrin
Kg
9
4.60
u
Endrin aldehyde
Kg
9
4.60
u
Endrin ketone
Kg
9
4.60
u
Fluoranthene
Kg
9
6.20
Fluorene
Kg
;g
0.50
J
Heptachlor
Kg
:g
2.40
u
Heptachlor epoxide
Kg
9
2.40
u
IndenoO ,2,3-cd)pyrene
Kg
:g
42.60
Lindane
KS
g
2.40
u
Methoxychlor
Kg
9
24.00
u
MCPA
Kg
9
238239.50
u
HCPP
Kg
9
1S1062.10
u
Naphthalene
Kg
9
23.70
u
Phenanthrene
Kg
9
10.90
Pyrene
Kg
9
6.20
J
PCB-1016
Kg
9
46.50
u
PCB-1221
Kg
9
94.40
u
PCB-1232
Kg
9
46.50
u
PCS-1242
Kg
9
46.50
u
PCB-1248
Kg
9
46.50
u
PCB-1254
Kg
9
46.50
u
PC8-1260
Kg
9
46.50
u
SiIvex
Kg
:9
158.80
UJ
Toxaphene
Kg
9
239.50
u
2,4-0
Kg
;g
1143.50
UJ
2,4-DB
Kg
9
857.70
UJ
2,4.5-T
Kg
:g
190.60
u
4,41-DDD
Kg
9
4.60
UJ
4,41-DDE
Kg
g
4.60
UJ
4,4'-DDT
Kg
g
4.60
UJ
Locanon=ROA; Formarion=COPPER RJDGE; Site=35; A =3200; A dup=' Phase=2
alpha-BHC
Kg/kg
2.20
U
alpha-Chlordane
Kg/kg
2.20
U
beta-BHC
Kg/kg
2.20
U
delta-BHC
Kg/kg
2.20
U
gaima-Ch I ordane
Kg/kg
2.20
U
Acenaphthene
Kg/kg
4.30
UJ
Acenaphthylene
Kg/kg
154.10
-------�
C-66
Tabic CL1 (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Aldrin
M/kg
2.20
U
Anthracene
M/kg
4.30
UJ
Benzo(a}anthracer>e
a g/kg
4.70
J
Benzo(a)pyrene
M/kg
0.90
J
Benzo(b)fluoranthene
a g/kg
4.30
UJ
Benzo(gh))perylene
Mg/kg
2.10
J
Benzo(k)fIuoranthene
A9/kg
0.90
J
Chrysene
AB/kg
4.30
UJ
Dalapon
Ag/kg
4536.30
UJ
D i benzo(a,h)anthracene
A g/kg
4.30
UJ
Dicanba
Ag/kg
208.60
U
Dichlorprop
Ag/kg
521.40
U
Dieldrin
Ag/kg
4.20
u
Dinoseb
Ag/kg
109.50
UJ
EndosuLfan sulfate
Ag/kg
4.20
U
Endosulfan I
Ag/kg
2.20
U
Endosulfan II
Ag/kg
4.20
u
Endrin
A g/kg
4.20
u
Endrin aldehyde
ml kg
4.20
u
Endrin ketone
a g/kg
4.20
u
FIuoranthene
Ag/kg
3.00
J
Fluorene
Ag/kg
4.30
UJ
Heptachlor
A9/kg
2.20
u
Heptachlor epoxide
Ag/kg
2.20
u
Indeno(1,2,3-cd)pyrene
Ag/kg
17.90
UJ
Lindane
M/kg
2.20
U
Hethoxychlor
Ag/kg
21.90
u
HCPA
Ag/kg
195530.40
u
MCPP
Ag/kg
148603.10
u
Naphthalene
Ag/kg
21.30
UJ
Phenanthrene
Ag/kg
1.70
J
Pyrene
Ag/kg
2.60
J
PCB-1016
Ag/kg
42.40
U
PCB-1221
Ag/kg
86.20
u
PCB-1232
Ag/kg
42.40
u
PCB-1242
Ag/kg
42.40
u
PCB-1248
Ag/kg
42.40
u
PCB-1254
Ag/kg
42.40
u
PCB-1260
Ag/kg
42.40
u
Si Ivex
M/kg
130.40
UJ
Toxaphene
M/kg
218.60
u
2,4-0
Ag/kg
938.50
UJ
2,4-DB
M/kg
703.90
UJ
2.4,5-T
M/kg
156.40
u
4,41 -ODD
Ag/kg
4.20
UJ
4,41-ODE
M/kg
4.20
UJ
4,41-DDT
M/kg
4.20
UJ
Location =ROA; Formation-COPPER RIDGE; Site=39; A=3214; A dup=' Phase=2
alpha-BHC
M/kg
2.00
U
alpha-Chlordane
M/kg
2.00
U
beta-BHC
M/kg
2.00
U
delta-BHC
M/kg
2.00
u
ganma-Chlordane
M/kg
2.00
u
Acenaphthene
M/kg
4.10
UJ
Acenaphthylene
M/kg
203.80
UJ
Aldrin
M/kg
2.00
u
Anthracene
M/kg
4.10
UJ
Benzo
-------�
C-67
Table C.1 (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Dicamba
d 9/
9
196.30
U
Dichlorprop
*9/
9
490.80
U
Dieldrin
>19/
9
3.90
U
Dinoseb
Jtg/
g
103.10
UJ
Endosulfan sulfate
M/
9
3.90
U
Endosulfan I
M9/
9
2.00
U
Endosulfan II
A 9/
9
3.90
U
Endrin
(19/
9
3.90
U
Endrin aldehyde
(19/
9
3.90
U
Endrin ketone
M9/
9
3.90
U
Fluoranthene
H9/
9
5.30
J
Fluorene
eg/
9
4.10
UJ
Heptachlor
(19/
9
2.00
u
Heptachlor epoxide
(ig/
9
2.00
u
Indenod,2,3-cd)pyrene
(ig/
g
20.40
UJ
Lindane
Mg/
9
2.00
u
Methoxychlor
(19/
9
20.30
u
MCPA
(19/
9
184054.30
u
MCPP
(ig/
g
139881.30
u
Naphthalene
(19/
9
20.40
UJ
Phenanthrene
(19/
9
2.40
J
Pyrene
(ig/
9
0.80
J
PCB-1016
dg/
9
39.30
u
PCB-1221
M9/
9
79.90
u
PCB-1232
M9/
9
39.30
u
PCB-1242
(ig/
9
39.30
u
PCB-1248
(ig/
g
39.30
u
PCB-1254
(ig/
9
39.30
u
PCB-1260
(19/
9
39.30
u
SiIvex
(19/
9
122.70
UJ
Toxaphene
(ig/
9
202.60
u
2,4-D
(ig/
9
883.50
UJ
2,4-DB
M9/
9
662.60
UJ
2,4,5-T
(19/
9
147.20
u
4,4'-DDO
(19/
9
3.90
u
4,41-DDE
(19/
9
3.90
u
4,41-DDT
(ig/
9
3.90
UJ
Locanon-ROA; Formanon=COPPER RIDGE; Siie-40: A-3211; A dup=' '; Phase=2
alpha-BHC
(19/
9
1.90
U
alpha-Chlordane
M9/
g
1.90
U
beta-BHC
(19/
9
1.90
U
delta-BHC
(ig/
9
1.90
U
ganma-Chlordane
(ig/
9
1.90
U
Acenaphthene
(ig/
9
3.90
UJ
Aldrin
(ig/
9
1.90
U
Anthracene
(19/
9
3.90
UJ
Benzo(a)anthracer»e
(ig/
9
6.60
J
Benzo(a)pyrene
(19/
9
1.60
J
Benzo(b)fluoranthene
(ig/
9
1.20
J
BenzoCghi)perylene
(ig/
9
2.30
J
Benzo(k)fluoranthene
fig/
9
0.80
J
Chrysene
(19/
9
3.90
UJ
Dalapon
(ig/
9
3992.70
UJ
DibenzoCa,h)anthracene
(ig/
9
0.80
J
Dicaoba
(19/
9
183.60
U
Dichlorprop
(19/
9
458.90
u
Dieldrin
(i 9/
9
3.70
u
Dinoseb
(ig/
g
96.40
UJ
Endosulfan sulfate
(ig/
9
3.70
u
Endosulfan I
(19/
9
1.90
u
Endosulfan II
V-9/
9
3.70
u
Endrin
(19/
9
3.70
u
Endrin aldehyde
d g/
9
3.70
u
Endrin ketone
(19/
9
3.70
u
Fluoranthene
(ig/
9
4.30
-------�
C-68
Tabic CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Fluorene
(tg/kg
3.90
UJ
Heptachlor
(tg/kg
1.90
u
Heptachlor epoxide
(ig/kg
1.90
u
Indeno(1,2,3-cd)pyrene
(tg/kg
15.50
UJ
Lindane
/ig/kg
1.90
u
Methoxychlor
(ig/kg
19.30
u
MCPA
M9/kg
172098.80
P
HCPP
(ig/kg
130795.10
u
Naphthalene
^g/kg
19.40
UJ
Phenanthrene
(ig/kg
3.10
J
Pyrene
M/kg
3.90
J
PCB-1016
fig/kg
37.50
u
PCB-1221
n- g/kg
76.10
u
PCB-1232
(ig/kg
37.50
u
PCB-1242
eg/kg
37.50
u
PCB-1248
(tg/kg
37.50
u
PCB-1254
(tg/kg
37.50
u
PCB-1260
(tg/kg
37.50
u
SiIvex
M/kg
114.70
UJ
Toxaphene
deno( 1,2,3-cdjpyrene
(ig/kg
45.20
UJ
Lindane
(ig/kg
2.10
u
Methoxychlor
(ig/kg
21.30
u
MCPA
(ig/kg
183337.10
u
HCPP
(ig/kg
139336.20
u
Naphthalene
(ig/kg
20.80
UJ
Phenanthrene
(tg/kg
5.40
-------�
C-69
Table CI (caatinucd)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Pyrene
/tg/kg
1.70
J
PCB-1016
/tg/kg
41.40
U
PCB-1221
/tg/kg
84.00
U
PCB-1232
/tg/kg
41.40
U
PCB-1242
/tg/kg
41.40
U
PCS-1248
/tg/kg
41.40
U
PCB-1254
/tg/kg
41.40
U
PCB-1260
/tg/kg
41.40
u
SiIvex
/tg/kg
122.20
UJ
Toxaphene
/tg/kg
213.10
u
2,4-0
A 9/kg
880.00
UJ
2,4-DB
Mg/kg
660.00
UJ
2.4,5-T
/tg/kg
146.70
u
4,41-ODD
Kg/kg
4.10
u
4,41-DDE
/tg/kg
4.10
u
4,41-DDT
/tg/kg
4.10
UJ
Location =ROA; Formaiion=COPPER RIDGE; Siie=42; A =3235; A dup—' Phase=2
alpha-BHC
A9
eg
2
00
U
alpha-Chlordane
/tg
g
2
00
U
beta-BHC
/tg
9
2
00
U
delta-BHC
a g
9
2
00
U
garama-Chlordane
a g
g
2
00
U
Acenaphthene
a g
9
4
00
U
Acenaphthylene
/tg
g
197
70
U
Aldrin
H-9
g
2
00
U
Anthracene
H9
g
6
70
Benzo(a)anthracene
/t g
9
3
20
J
Benzo(a)pyrene
/tg
g
1
20
J
Benzo(b)fluoranthene
/t g
g
4
00
U
BenzoCghi)perylene
/t g
g
1
60
J
Benzo(k)fluoranthene
/tg
g
0
80
J
Chrysene
/tg
g
4
00
U
Dalapon
u- g
g
4128
20
UJ
Dibenzo(a,h)anthracene
v- g
g
0
80
J
Dicamba
/tg
9
189
80
U
Dichlorprop
/tg
9
474
50
U
Dieldrin
/tg
9
4
00
u
Dinoseb
eg
g
99
60
UJ
Endosulfan sulfate
v. 9
9
4
00
U
Endosulfan I
A9
9
2
00
U
Endosulfan II
/tg
g
4
00
u
Endrin
»g
g
4
00
u
Endrin aldehyde
/i 9
g
4
00
u
Endrin ketone
/tg
9
4
00
u
Fluoranthene
/tg
9
2
80
J
Fluorene
/tg
9
4
00
u
Heptachlor
A9
eg
2
00
u
Heptachlor epoxide
/tg
g
2
00
u
Indenod ,2,3-cd)pyrene
/tg
:g
19
80
UJ
Lindane
/tg
'9
2
00
u
Methoxychlor
"9
:g
20
40
u
HCPA
/tg
9
177939
70
UJ
MCPP
/tg
9
135234
10
UJ
Naphthalene
/tg
9
19
80
u
Phenanthrene
/tg
g
3
60
J
Pyrene
/tg
:g
2
00
J
PCB-1016
/tg
g
39
60
u
PCB-1221
/tg
eg
80
50
u
PCB-1232
/tg
g
39
60
u
PCB-1242
/tg
g
39
60
u
PCB-1248
/tg
g
39
.60
u
PCB-1254
/tg
g
39
60
u
PCB-1260
/tg
9
39
60
u
SiIvex
-------�
C-70
Tabic CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
2,4-0
l^g/kg
854.10
UJ
2,4-DB
d9/kg
640.60
UJ
2,4,5-T
dg/kg
142.40
U
4,41 -DDD
d9/kg
4.00
u
4,41-DDE
d9/kg
4.00
u
4,4'-DDT
d9/kg
4.00
UJ
Location =ROA; Formation—COPPER RIDGE; Site=43; A =3231; A dup=3233; Phase=2
alpha-BHC
d 9/
9
2.20
U
2.0
U
alpha-Chlordane
(19/
9
2.20
U
2.0
U
beta-BHC
(19/
9
2.20
U
2.0
u
delta-BHC
d 9/
9
2.20
U
2.0
u
gaima-Chlordane
(19/
9
2.20
U
2.0
u
Acenaphthylene
(19/
9
214.20
U
202.1
u
Aldrin
mJ
9
2.20
U
2.0
u
Anthracene
d 9/
9
0.90
J
2.0
J
Benzo(a)anthracene
(19/
9
12.40
J
2.0
J
Benzo(a)pyrene
(19/
g
1.30
J
1.2
J
Benzo(b)fluoranthene
(19/
g
14.10
J
0.4
J
Benzo(ghi Jperylene
M9/
9
2.10
i
1.6
J
Benzo(k)fIuoranthene
d 9/
9
0.40
J
0.8
J
Chrysene
(19/
9
2.4
J
Dalapon
(19/
9
4470.90
UJ
4302.1
UJ
Dibenzo(a,h)anthracene
(19/
9
8.60
J
0.8
J
Dicaraba
(19/
9
205.60
u
197.8
u
Dichlorprop
(19/
9
513.90
u
494.5
u
Dieldrin
(19/
9
4.20
u
3.9
u
Dinoseb
(19/
9
107.90
UJ
103.8
UJ
Endosulfan sulfate
(19/
9
4.20
u
3.9
u
Endosulfan I
(19/
9
2.20
u
2.0
u
Endosulfan II
(19/
9
4.20
u
3.9
u
Endrin
dg/
9
4.20
u
3.9
u
Endrin aldehyde
dg/
9
4.20
u
3.9
u
Endrin ketone
(19/
9
4.20
J
3.9
u
Fluoranthene
(19/
9
10.70
J
4.9
J
Fluorene
(19/
9
1.70
J
Heptachlor
(19/
9
2.20
u
2.0
u
Heptachlor epoxide
eg/
9
2.20
u
2.0
u
lnderx>( 1,2,3-cd)pyrene
(19/
9
12.80
u
22.6
Lindane
(13/
9
2.20
u
2.0
u
Methoxychlor
(19/
9
21.50
u
20.3
u
MCPA
#19/
9
192712.10
UJ
185436.6
UJ
MCPP
(19/
9
146461.20
UJ
140931.9
UJ
Phenanthrene
(19/
9
11.60
J
5.3
J
Pyrerte
(ig/
9
5.60
J
6.5
J
PCB-1016
(19/
9
41.80
u
39.5
u
PCB-1221
(19/
9
84.80
u
80.1
u
PCB-1232
(19/
9
41.80
u
39.5
u
PC8-1242
(19/
9
41.80
u
39.5
u
PCB-1248
d9/
9
41.80
u
39.5
u
PCB-1254
(19/
g
41.80
u
39.5
u
PCB-1260
d9/
9
41.80
u
45.4
J
SiI vex
(19/
9
128.50
UJ
123.6
UJ
Toxapnene
(19/
9
215.20
u
203.2
u
2,4-D
(19/
g
925.00
UJ
890.1
UJ
2,4-DB
(ig/
g
693.80
UJ
667.6
UJ
2.4,5-7
(19/
g
154.20
u
148.3
u
4,41-DDD
(19/
g
4.20
u
3.9
u
4,4' -DDE
(19/
g
4.20
u
3.9
u
4,4'-DDT
dg/
g
4.20
UJ
3.9
-------�
C-71
Table CI (continued)
A horizon A horizon
Analysis Units Result Qualifier Held dup Qualifier
Location =ROA; Formation=COPPER RIDGE; Siie=44; A=3229; A dup=' Phase =2
alpha-BHC
(19/
9
2.00
UJ
alpha-Chlordane
(19/
9
2.00
UJ
beta-BHC
d9/
9
2.00
UJ
delta-BHC
*9/
9
2.00
UJ
gamma-Chlordane
(19/
9
2.00
UJ
Acenaphthene
(19/
9
0.80
J
Aldrin
d 9/
9
2.00
UJ
Benzo(a)anthracene
(19/
9
2.00
J
Benzo(a)pyrene
d 9/
9
1.20
J
Benzo(b)fluoranthene
(19/
9
1.20
J
BenzoCghi)perylene
(19/
9
2.70
J
BenzoCk ) f Iuoranthene
(19/
9
0.80
J
Chrysene
(19/
9
2.30
J
Dalapon
(19/
9
4117.50
UJ
Dibenzo(a,h)anthracene
(19/
9
0.40
J
Dicamba
ng/
9
189.30
u
Dichlorprop
(19/
9
473.30
U
Dieldrin
(19/
9
3.90
UJ
Dinoseb
(19/
9
99.40
UJ
Endosulfan sulfate
d9/
9
3.90
UJ
Endosulfan I
(19/
9
2.00
UJ
Endosulfan II
(19/
9
3.90
UJ
Endrin
(19/
9
3.90
UJ
Endrin aldehyde
H9/
9
3.90
UJ
Endrin ketone
(19/
9
3.90
UJ
Fluoranthene
(19/
9
3.90
J
Heptachlor
(19/
9
2.00
UJ
Heptachlor epoxide
(19/
9
2.00
UJ
Lindane
(19/
9
2.00
UJ
Methoxychlor
(19/
9
20.20
UJ
MCPA
(19/
9
177477.90
UJ
MCPP
(19/
9
134883.20
UJ
Phenanthrene
(19/
9
2.30
J
Pyrene
(19/
9
3.50
J
PCB-1016
(19/
9
39.20
UJ
PCB-1221
(19/
9
79.70
UJ
PCB-1232
(19/
9
39.20
UJ
PCB-1242
(19/
9
39.20
UJ
PCB-124S
(13/
9
39.20
UJ
PCB-1254
(19/
9
39.20
UJ
PCB-1260
(19/
9
39.20
UJ
Si Ivex
(19/
9
118.30
UJ
Toxaphene
(19/
9
202.10
UJ
2,4-D
(19/
9
851.90
UJ
2,4-OB
(19/
9
638.90
UJ
2.4,5-T
(19/
9
142.00
U
4,4'-0DD
(19/
9
3.90
UJ
4,41-DDE
H9/
9
3.90
UJ
4,4'-DDT
(19/
9
3.90
UJ
Location=ROA; Formation=COPPER RIDGE; Sire=45; A=3227; A dup=' '; Phase=2
alpha-BHC
(ig/kg
2.00
U
alpha-Chlordane
(ig/kg
2.00
U
beta-BHC
(ig/kg
2.00
U
delta-BHC
Jig/kg
2.00
U
ganma-Ch I ordane
(ig/kg
2.00
U
Aldrin
d9/kg
2.00
U
Anthracene
(ig/kg
3.60
J
Benzo(a)anthracene
M9/kg
2.80
J
Benzo(a)pyrene
d9/kg
1.60
J
Benzo(b)fluoranthene
(ig/kg
1.60
J
BenzoCghiJperylene
d9/kg
2.80
J
Benzo(k)fluoranthene
C9/kg
1.20
-------�
C-72
Tabic CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Chrysene
d9/
g
3.20
J
Datapon
M9/
9
4161.30
UJ
Dibenzo(a,h)anthracene
A9/
g
0.40
J
Dicamba
A9/
9
191.30
U
Dichlorprop
A 9/
g
478.30
U
Dieldrin
(tg/
g
4.00
U
Dinoseb
M/
g
100.40
UJ
Endosulfan. sulfate
A9/
9
4.00
u
Endosulfan I
AS/
9
2.00
u
EndosuLfan I]
M9/
g
4.00
u
Endrin
H9/
9
4.00
u
Endrin aldehyde
M 9/
9
4.00
u
Endrin ketone
£ 9/
9
4.00
u
Fluoranthene
(19/
9
4.00
J
Heptachlor
(19/
9
2.00
u
Heptachlor epoxide
WJ/
9
2.00
u
Indenod ,2,3-cd)pyrene
(tg/
9
20.60
J
Lindane
K9/
9
2.00
u
Methoxyehlor
fig/
9
20.40
u
MCPA
A9/
9
179367.80
u
MCPP
A9/
9
136319.50
u
Phenanthrene
M9/
S
4.40
J
Pyrene
ng/
9
4.00
J
PCB-1016
eg/
9
39.50
u
PCB-1221
fig/
9
80.20
u
PCB-1232
fig/
g
39.50
u
PCB-1242
fig/
g
39.50
u
PCB-1248
(19/
g
39.50
u
PCB-1254
»g/
g
39.50
u
PCB-1260
(ig/
9
39.50
u
SiIvex
AS/
9
119.60
u
T oxaptiene
fig/
g
203.60
u
2.4-D
MS/
9
861.00
UJ
2,4-DB
ug/
9
645.70
UJ
2,4,5-T
A9/
9
143.50
UJ
4,4'-DDD
A9/
9
4.00
UJ
4,4'-D0E
eg/
9
4.00
UJ
4,41-DDT
Kg/
9
4.00
UJ
Locarion=ROA; Formaiion-COPPER RIDGE; Site=46; A =3225; A dup—' '; Phase=2
alpha-BHC
dg/kg
2.
.20
U
alpha-Chlordane
m g/kg
2.
.20
U
beta-BHC
(ig/kg
2,
.20
u
delta-BHC
M 9/kg
2.
.20
u
ganma-Chlordane
M9/kg
2.
.20
u
Acenaphthene
dg/kg
4.
.30
u
Acenaphthylene
eg/kg
212.
.80
UJ
Aldrin
M g/kg
2.
.20
u
Anthracene
A9/kg
0.
.40
J
Benzo(a)anthracene
Kg/kg
2.
.60
J
Benzo(a)pyrene
Ag/kg
0.
.40
J
Benzo(b)fIuoranthene
Ag/kg
0.
.90
J
BenzoCghi)perylene
(tg/kg
4.
.30
u
Benzo(k)fluoranthene
d9/kg
0.
.90
J
Chrysene
A9/kg
4,
.30
u
Dalapon
(ig/kg
4351,
.60
UJ
Dibenzo(a,h)anthracene
M9/kg
4
.30
u
Dicamba
M9/kg
200
.10
u
Dichlorprop
(ig/kg
500,
.20
u
Dieldrin
Ag/kg
4,
.20
u
Dinoseb
(ig/kg
105,
.00
u
Endosulfan sulfate
Ag/kg
4,
.20
u
Endosulfan I
eg/kg
2
.20
u
Endosulfan II
Ag/kg
4,
.20
u
Endrin
C-g/kg
4
.20
u
Endrin aldehyde
Jig/kg
4
.20
-------�
C-73
Tabic CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup ¦ Qualifier
Endrin ketone
(ig/kg
4.20
U
Fluoranthene
(ig/kg
3.00
J
Fluorene
v- g/kg
4.30
U
Heptachlor
(ig/kg
2.20
U
Heptachlor epoxide
(tg/kg
2.20
U
IndenoO ,2,3-cd)pyrene
^g/kg
21.30
UJ
Lindane
(ig/kg
2.20
U
Hethoxychlor
(ig/kg
21.80
U
HCPA
(ig/kg
187569.40
U
KCPP
eg/kg
142552.70
U
Naphthalene
Mg/kg
21.30
u
Phenanthrene
Jig/kg
1.30
J
Pyrene
(ig/kg
0.90
J
PCB-1016
(ig/kg
42.30
u
PCB-1221
V- g/kg
85.90
u
PCB-1232
v- g/kg
42.30
u
PCB-1242
^g/kg
42.30
u
PCB-1248
(ig/kg
42.30
u
PCB-1254
MS/kg
42.30
u
PCB-1260
ng/kg
42.30
u
Si I vex
(ig/kg
125.00
u
Toxaphene
(ig/kg
217.90
u
2,4-D
(ig/kg
900.30
UJ
2,4-DB
(ig/kg
675 . 20
UJ
2,4,5-T
(ig/kg
150.10
UJ
4,4'-DDD
Kg/kg
4.20
UJ
4,4'-DDE
MS/kg
4.20
UJ
4,4'-DDT
(ig/kg
4.20
UJ
Location = ROA; Formanon=COPPER RIDGE; Site =47; A =3223; A dup=' '; Phase =2
alpha-BHC
eg/kg
2.20
U
alpha-Chlordane
(ig/kg
2.20
U
beta-BHC
(ig/kg
2.20
U
delta-BHC
(ig/kg
2.20
U
ganma-Chlordane
(ig/kg
2.20
U
Acenaphthene
(ig/kg
4.20
UJ
Acenaphthylene
(ig/kg
212.20
UJ
Aldrin
(ig/kg
2.20
U
Anthracene
(ig/kg
0.40
J
Benzo(a)anthracene
(ig/kg
3.40
J
Benzo(a)pyrene
(ig/kg
4.20
UJ
Benzo(b)fluoranthene
(ig/kg
2.10
J
Benzo(ghi)perylene
(i g/kg
1.30
J
Benzo(k)fluoranthene
(tg/kg
0.40
J
Chrysene
(ig/kg
4.20
UJ
Dalapon
-------�
C-74
Table CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Naphthalene
Ag/kg
21.20
UJ
Phenanthrene
Ag/kg
0.80
J
Pyrene
a g/kg
0.40
J
PCB-1016
a g/kg
41.90
U
PCB-1221
Ag/kg
85.10
u
PCB-123Z
Ag/kg
41.90
u
PCB-1242
a g/kg
41.90
u
PCB-1248
Ag/kg
41.90
u
PCB-1254
Ag/kg
41.90
u
PCB-1260
Ag/kg
41.90
u
SiIvex
Ag/kg
128.40
UJ
Toxaphene
Ag/kg
216.00
u
2,4-D
Ag/kg
924.30
UJ
2,4-DB
Ag/kg
693.20
UJ
2.4.5-T
Ag/kg
154.10
u
4,4'-DDD
Ag/kg
4.20
UJ
4,4'-DDE
Ag/kg
4.20
UJ
4,4'-DDT
Ag/kg
4.20
UJ
Locadon—ROA; Formation = DISMAL GAP; Site=10; A=3168; A dup=' Phase=1
alpha-BHC
Ag/kg
6.30
UJ
alpha-Chlordane
Ag/kg
6.30
U
beta-BHC
Ag/kg
6.30
UJ
delta-BHC
Ag/kg
6.30
UJ
garcrea-ChIordane
Ag/kg
6.30
U
Acenaphthene
Ag/kg
3407.00
UJ
Acenaphthylene
Ag/kg
4354.00
UJ
Aldrin
A g/kg
6.30
U
Anthracene
Ag/kg
1249.00
UJ
Benzo(a)anthracene
Ag/kg
25.00
UJ
Benzo(a)pyrene
Ag/kg
44.00
UJ
Benzo< b)fIuoranth ene
Ag/kg
34.00
UJ
Benzo(ghi Jperylene
Ag/kg
144.00
UJ
Benzo(k)fluoranthene
Ag/kg
32.00
UJ
Chrysene
Ag/kg
284.00
UJ
DibenzoCa,h)anthracene
Ag/kg
57.00
UJ
Dieldrin
Ag/kg
13.00
UJ
Endosulfan sulfate
Ag/kg
13.00
u
Endosulfan I
Ag/kg
6.30
u
Endosulfan 11
Ag/kg
13.00
u
Endrin
Ag/kg
13.00
u
Endrin aldehyde
Ag/kg
13.00
u
Endrin ketone
Ag/kg
13.00
u
Fluorene
Ag/kg
398.00
UJ
Heptachlor
Ag/kg
6.30
u
Heptachlor epoxide
Ag/kg
6.30
u
lndeno(1,2,3-cd)pyrene
Ag/kg
81.00
UJ
Lindane
Ag/kg
6.30
UJ
Hethoxychlor
Ag/kg
63.00
U
Naphthalene
Ag/kg
3407.00
UJ
Phenanthrene
Ag/kg
1211.00
UJ
Pyrene
Ag/kg
511.00
UJ
PCB-1016
Ag/kg
130.00
u
PCB-1221
Ag/kg
250.00
u
PCB-1232
Ag/kg
'130.00
u
PCB-1242
Ag/kg
130.00
u
PCB-1248
Ag/kg
130.00
u
PCB-1254
Ag/kg
130.00
u
PCB-1260
Ag/kg
130.00
u
Toxaphene
Ag/kg
630.00
u
4,4'-ODD
Ag/kg
13.00
UJ
4,41-DDE
Ag/kg
13.00
UJ
4,41-DDT
Ag/kg
13.00
-------�
C-75
Tabic CI (continued)
A horizon A horizon
Analysis 'Units Result Qualifier field dup Qualifier
Locaiion=ROA; Formanon —DISMAL GAP; She=13; A —3127; A dup=3139; Phase =1
alpha-BHC
K 9/
g
4.20
UJ
4.1
UJ
alpha-Chlordane
Kg/
9
4.20
U
4.1
U
beta-BHC
Kg/
9
4.20
UJ
4.1
UJ
delta-BHC
K 9/
g
4.20
UJ
4.1
UJ
ganma-Chlordane
Kg/
g
4.20
U
4.1
U
Acenaphthene
K 9/
g
229.00
U
223.0
U
Acenaphthylene
Kg/
9
2930.00
UJ
2850.0
UJ
Aldrin
Kg/
9
4.20
U
4.1
u
Anthracene
Kg/
g
840.00
UJ
820.0
u
BenzoC a)anthracene
^g/
g
2.0
u
Benzo(a)pyrene
Kg/
g
3.00
UJ
3.0
UJ
Benzo(b)fluoranthene
K9 /
9
1.00
J
1.0
J
Benzo(ghi)perylene
Kg/
g
10.00
UJ
9.0
UJ
BenzoC k)fIuoranthene
Kg/
9
2.00
UJ
2.0
UJ
Chrysene
K9/
9
19.0
u
Dibenzo(a,h)anthracene
Kg/
g
4.00
UJ
4.0
u
Dieldrin
Kg/
g
8.40
UJ
8.2
UJ
Endosulfan sulfate
Kg/
g
8.40
U
8.2
u
Endosulfan I
Kg/
g
4.20
U
4.1
u
Endosulfan II
Kg/
g
8.40
U
8.2
u
Endrin
K9/
g
8.40
u
8.2
u
Endrin aldehyde
Kg/
g
8.40
u
8.2
u
Endrin ketone
K9/
9
8.40
u
8.2
u
FIuorene
Kg/
9
270.00
UJ
260.0
UJ
Heptachlor
Kg/
g
• 4.20
u
4.1
u
Heptachlor epoxide
Kg/
9
4.20
u
4.1
u
IndenoC1,2,3-cd)pyrene
K9/
g
50.00
UJ
50.0
UJ
Lindane
Kg/
g
4.20
UJ
4.1
UJ
Hethoxychlor
Kg/
g
43.00
u
41.0
u
Naphthalene
K9/
g
2290.00
UJ
2230.0
UJ
Phenanthrene
Kg/
g
790.00
UJ
790.0
UJ
Pyrene
Kg/
9
34.00
u
33.0
UJ
PCB-1016
Kg/
g
84.00
u
82.0
u
PCB-1221
Kg/
g
170.00
u
160.0
u
PCB-1232
Kg/
9
84.00
u
82.0
u
PCB-1242
Kg/
9
84.00
u
82.0 -
u
PC8-1248
Kg/
9
84.00
u
82.0
u
PCB-1254
Kg/
9
84.00
u
82.0
u
PCB-1260
Kg/
9
84.00
u
82.0
u
Toxaphene
Kg/
g
420.00
u
410.0
u
4,41-DDD
Kg/
9
8.40
UJ
8.2
UJ
4,41-DDE
Kg/
g
8.40
UJ
8.2
UJ
4,41-DDT
Kg/
g
8.40
u
8.2
u
Locanon =ROA; Fomvmon=DISMAL GAP; Sue=14; A =3148; A dup=' '; Phase=l
alpha-BHC
K9/kg
2.20
UJ
alpha-Chlordane
KS/kg
2.20
UJ
beta-BHC
Kg/kg
2.20
UJ
delta-BHC
Kg/kg
2.20
UJ
ganma-Chlordane
Kg/kg
2.20
UJ
Acenaphthene
Kg/kg
240.00
UJ
Acenaphthylene
Kg/kg
3070.00
UJ
Aldrin
Kg/kg
2.20
UJ
Anthracene
Kg/kg
880.00
UJN
Benzo(a)pyrene
Kg/kg
1.00
JN
Benzo(b)fluoranthene
Kg/kg
2.00
UJN
Benzo(ghi)perylene
Kg/kg
10.00
UJ
Benzo(k J fIuoranthene
Kg/kg
2.00
UJN
DibenzoCa,h)anthracene
Kg/kg
4.00
UJ
Dieldrin
Kg/kg
4.40
UJ
Endosulfan sulfate
Kg/kg
4.40
UJ
Endosulfan I
Kg/kg
2.20
UJ
Endosulfan II
Kg/kg
4.40
-------�
C-76
Tabic CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Endrin
jig/fcg
4.40
UJ
Endrfn aldehyde
Kg/kg
4.40
UJ
Endrin ketone
jig/kg
4.40
UJ
Fluorene
jig/kg
280.00
UJ
Heptachlor
^g/kg
2.20
UJ
Heptachlor epoxide
^g/kg
2.20
UJ
Indeno(1,2,3-cd)pyrene
^g/kg
60.00
UJ
Lindane
eg/kg
2.30
UJ
Hethoxychlor
jig/kg
22. CO
UJ
Naphthalene
p-g/kg
2400.00
UJ
Phenanthrene
(ig/kg
850.00
UJ
Pyrene
(ig/kg
36.00
UJ
PCB-1016
fig/kg
44.00
UJ
PCB-1221
w/kg
89.00
UJ
PCB-1232
^g/kg
44.00
UJ
PCB-1242
-------�
C-78
Tabic CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Locanon =ROA; Formation - DISMAL GAP; Site=20; A =3046; A dup=' '; Phase=1
alpha-BHC
19
[9
1.90
UJ
alpha-Chlordane
19
9
1.90
UJ
beta-BHC
19
9
1.90
UJ
delta-BHC
1 9
<9
1.90
UJ
gamraa-Ch I ordarte
19
eg
1.90
UJ
Acenaptithene
19
=9
213.00
UJ
Acenaphthylene
19
9
272.00
UJ
Aldrin
19
9
1.90
UJ
Anthracene
19
9
78.00
UJ
Benzo(a)anthracene
19
9
2.00
UJ
Benzo(a)pyrene
19
9
3.00
UJ
BenzoC b)fIuoranthene
19
:9
2.00
UJ
Benzo(ghi)perylene
19
eg
9.00
UJ
BenzoCk)fIuoranthene
19
(9
2.00
UJ
Chrysene
IS
eg
18.00
UJ
Dalapon
19
9
827.00
UJ
Dibenzo(a,h)anthracene
19
-9
4.00
UJ
Dicamba
19
<9
38.00
UJ
Dichlorprop
19
'9
95.00
UJ
Dieldrin
19
:g
3.90
UJ
D i noseb
19
eg
20.00
UJ
Endosulfan sulfate
19
9
3.90
UJ
Endosulfan I
19
eg
1.90
UJ
Endosulfan II
19
c9
3.90
UJ
Endrin
19
<9
3.90
UJ
Endrin aldehyde
19
c9
3.90
UJ
Endrin ketone
19
:9
3.90
UJ
Fluorene
19
9
119.00
J
Heptachlor
19
9
1.90
UJ
Heptachlor epoxide
19
9
1.90
UJ
Irtdeno(1,2,3-cd)pyrene
19
'9
5.00
UJ
Lindane
19
1.90
UJ
Hethoxychl or
19
eg
19.00
UJ
MCPA
19
eg
35668.00
UJ
MCPP
19
9
27107.00
UJ
Naphthalene
19
9
213.00
UJ
Phenanthrene
19
9
76.00
UJ
Pyrene
19
3
32.00
UJ
PCB-1016
19
9
39.00
UJ
PCB-1221
19
9
78.00
UJ
PCB-1232
19
9
39.00
UJ
PCB-1242
19
9
39.00
UJ
PCB-1248
19
9
39.00
UJ
PCB-1254
19
9
39.00
UJ
PCB-1260
19
9
39.00
UJ
SiIvex
19
eg
24.00
JJ
Toxaphene
19
eg
190.00
UJ
2,4-D
19
eg
171.00
UJ
2,4-DB
19
eg
128.00
UJ
2,4,5-T
19
eg
29.00
UJ
4,4'-DDD
19
eg
3.90
UJ
4,4'-DDE
19
eg
3.90
UJ
4,4'-DDT
19
g
3.90
UJ
Location =ROA; Formanon=DISMAl. CAP; Site=21; A =3113; A dup=' '; Phase=1
alpha-BHC
19/kg
2.10
UJ
alpha-Chlordane
19/kg
2.10
UJ
beta-BHC
ig/kg
2.10
UJ
delta-BHC
ig/kg
2.10
UJ
gamma - Ch I ordarte
ug/kg
2.10
UJ
Acenaphthene
ig/kg
229.00
UJ
Acenaphthylene
ig/kg
2920.00
UJ
Aldrin
19/kg
2.10
-------�
C-79
Tabic CI (continued)
A horizon A horizon
Analysis Uniis Result Qualifier field dup Qualifier
Anthracene
M9/kg
840.
00
UJ
Benzo(a)anthracene
(ig/kg
2.
,00
UJ
Benzo(a)pyrene
ug/kg
3.
00
UJ
Benzo(b)fluoranthene
Mg/kg
2.
00
UJ
BenzoCghi)perylene
(ig/kg
10.
.00
UJ
Benzo(k)fluoranthene
(ig/kg
2.
.00
UJ
Chrysene
*g/k9
19.
.00
UJ
D i benzo(a,h Janth racene
A9/k 9
4.
00
UJ
Dieldrin
(ig/kg
4.
,10
UJ
Endosulfan sulfate
M9/k9
4.
.10
UJ
Endosulfan I
^9/kg
2.
,10
UJ
Endosulfan II
M9/kg
4.
,10
UJ
Endrin
eg/kg
4.
,10
UJ
Endrin aldehyde
(ig/kg
4.
,10
UJ
Endrin ketone
(ig/kg
4.
.10
UJ
Fluorene
(ig/kg
270.
,00
UJ
Heptachlor
(ig/kg
2.
,10
UJ
Heptachlor epoxiae
(ig/kg
2.
,10
UJ
IndenoO,2,3-cd)pyrene
(ig/kg
50.
,00
UJ
L i ndane
C9/k9
2.
.10
UJ
Methoxychlor
(ig/kg
21.
.00
UJ
Naphthalene
(ig/kg
2290.
.00
UJ
Phenanthrene
>i9/k9
810.
.00
UJ
Pyrerve
(ig/kg
34.
.00
UJ
PCB-1016
^g/kg
41,
.00
UJ
PCB-1221
M/kg
82.
.00
UJ
PCB-1232
(ig/kg
41,
.00
UJ
PCS-1242
(i9/kg
41.
.00
UJ
PCB-1248
(ig/kg
41.
.00
UJ
PCB-1254
(ig/kg
41.
.00
UJ
PCB-1260
M9/kg
41,
.00
UJ
Toxaphene
(ig/kg
210.
.00
UJ
4,4' -ODD
(ig/kg
4,
.10
UJ
4,4' -DDE
(ig/k9
4,
.10
UJ
4,4'-DDT
M9/kg
4.
.10
UJ
Location—ROA: Forma:ion=DISMAL CAP; Site=22: A =3058; A dup=' '¦ Phase=i
alpha-BHC
^9/kg
3.90
UJ
alpha-Chlordane
(ig/kg
3.90
UJ
beta-BHC
(ig/kg
3.90
UJ
delta-BHC
(ig/kg
3.90
UJ
ganma-Chlordane
(ig/kg
3.90
UJ
Acenaphthene
Ag/kg
213.00
UJ
Acenaphthylene
(ig/kg
272.00
UJ
Aldrin
M9/kg
3.90
UJ
Anthracene
(ig/kg
78.00
UJ
BenzoCa)anthracene
(ig/kg
2.00
UJ
Benzo(a)pyrene
(ig/kg
3.00
UJ
Benzo(b)fluoranthene
(ig/kg
2.00
UJ
BenzoCghi)perylene
dg/kg
9.00
UJ
Benzo(k)fluoranthene
(ig/kg
2.00
UJ
Chrysene
(ig/kg
18.00
UJ
Dalapon
(ig/kg
806.00
UJ
DibenzoCa,h)anthracene
(ig/kg
4.00
UJ
Dicamba
A9/kg
37.00
u
D i chlorprop
(ig/kg
93.00
u
D i eldrin
(ig/kg
7.70
UJ
Dinoseb
(ig/kg
19.00
u
Endosulfan sulfate
(ig/kg
7.70
UJ
Endosulfan I
(ig/kg
3.90
UJ
Endosulfan II
(ig/^9
7.70
UJ
Endrin
(ig/kg
7.70
UJ
Endrin aldehyde
(ig/kg
7.70
UJ
Endrin ketone
eg/kg
7.70
UJ
FIuorene
(ig/kg
25.00
UJ
Heptachlor
(ig/kg
3.90
-------�
C-80
Table CI (continued)
A horizon \ horizon
Analysis Units Result Qualifier field dup Qualifier
Heptachlor epoxide
*g/kg
3.90
UJ
IndenoCI,2,3-cd)pyrene
9/kg
5.00
UJ
Lindane
jig/kg
3.90
UJ
Methoxychlor
^g/kg
40.00
UJ
HCPA
*g/kg
34722.00
U
HCPP
eg/kg
26389.00
U
Naphthalene
*ig/kg
496.00
J
Phenanthrene
^g/kg
76.00
UJ
Pyrene
(ig/kg
32.00
UJ
PCB-1016
Mg/kg
77.00
UJ
PCB-1221
Kg/kg
150.00
UJ
PCB-1232
M9/kg
77.00
UJ
PCB-1242
^g/kg
77.00
UJ
PCB-1248
(ig/kg
77.00
UJ
PCB-1254
Kg/kg
77.00
UJ
PCB-1260
A9/kg
77.00
UJ
Si Ivex
(ig/kg
23.00
UJ
Toxaphene
-------�
C-Sl
Tabic CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Locanon=ROA: Formanon =DISMAL CAP: Site = 7: A =3085; A dup=' Phase=l
alpha-BHC
e 9
g
4.
50
UJ
alpha-Chlordane
eg
9
U.
50
U
beta-BHC
eg
g
4.
50
UJ
delta-BHC
e g
9
4.
50
UJ
gamma-Chlordane
eg
9
4.
50
u
Acenaphthene
eg
g
242
00
UJ
Acenaphthylene
eg
9
310
00
UJ
Aldrin
eg
g
4
50
u
Anthracene
eg
9
89.
00
UJ
BenzoCa)anthracene
eg
g
2.
00
UJ
Benzo(a)pyrene
eg
9
3
00
UJ
Benzo(b)fIuoranthene
eg
9
1
80
JN
Benzo(ghi)perylene
eg
9
10
00
UJ
Benzo(k)fIuoranthene
eg
9
2
00
UJ
Chrysene
eg
9
20
00
UJ
Dalapon
eg
9
937
00
UJ
Dibenzo(a,h)anthracene
eg
g
L
00
UJ
Dicamba
e s
9
43
00
u
Dichlorprop
eg
g
108
00
u
Dieldrin
eg
9
8
90
UJ
Dinoseb
r-3
9
23
00
u
Endosulfan sulfate
eg
9
8
90
u
Endosulfan I
eg
9
4
50
u
Endosulfan 11
eg
9
8
90
u
Endrin
eg
9
8
90
u
Endrin aldehyde
eg
9
8
90
u
Endrin ketone
eg
9
8
90
u
Fluorene
eg
g
28
00
UJ
Heptachlor
eg
g
4
50
UJ
Heptachlor epoxide
eg
9
4
50
u
Indeno(1,2,3-cd)pyrene
eg
9
6
00
UJ
Li ndane
eg
9
4
50
UJ
Hethoxychlor
eg
9
45
00
u
HCPA
eg
9
r-
o
o
00
u
HCPP
eg
g
30707
00
u
Naphthalene
eg
9
242
00
UJ
Phenanthrene
eg
g
86
00
UJ
Pyrene
eg
9
36
00
UJ
PCB-1016
eg
9
89
00
U
PCB-1221
eg
9
180
00
u
PCB-1232
eg
9
89
00
u
PCB-1242
eg
9
89
00
u
PCB-1248
eg
g
89
00
u
PCB-1254
eg
g
89
00
u
PCB-1260
eg
9
89
00
u
Si I vex
eg
9
27
00
UJ
Toxaphene
eg
g
450
00
u
2,4-0
eg
g
194
00
u
2,4-OB
e9
g
145
00
u
2,4,5-T
eg
9
32
00
UJ
4,4'-DDD
eg
9
8
.90
UJ
4,4'-DDE
eg
g
8
.90
UJ
4,4' -DDT
eg
g
8
90
u
Locaiion=ROA: Formanon= DISMAL CAP: Sue-8: A =5072: A dup= ': Phase = l
alpha-BHC
eg/kg
4.40
UJ
alpha-Chlordane
e9/kg
4.40
UJ
beta-BHC
eg/kg
4.40
UJ
delta-BHC
esA9
4.40
U
gaitma-Chlordane
eg/kg
4.40
U
Acenaphthene
eg/kg
228.00
UJ
Acenaphthylene
eg/kg
291.00
UJ
Aldrin
eg/kg
4.40
-------�
C-82
Table C.1 (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
Anthracene
£9
g
84
00
UJ
BenzoCa)anthracene
»¦ 9
g
2
00
UJ
BenzoCa)pyrene
f 9
eg
3
00
UJ
Benzo(b)fIuoranthene
u-g
9
2
00
UJ
BenzoCghi)perylene
Ji 9
:g
10
00
UJ
BenzoCk) f luoranthene
il g
eg
2
00
UJ
Chrysene
a g
g
19
00
UJ
Dalapon
H-9
g
881
00
UJ
DibenzoCa,h)anthracene
H- 9
g
4
00
UJ
Dicantoa
Il 9
g
41
00
UJ
Dichlorprop
e g
eg
101
00
UJ
Dieldrin
;s
8
50
UJ
Dinoseb
H-9
eg
21
00
UJ
Endosulfan sulfate
H9
g
6
50
u
Endosulfan I
V-9
g
4
40
UJ
Endosulfan II
Jig
g
8
50
u
Endrin
g
8
50
u
Endrin aldehyde
Jig
9
8
50
u
Endrin ketone
d9
:g
8
50
u
Fluorene
Jig
eg
27
00
UJ
Heptachlor
Ji9
:g
4
40
UJ
Heptachlor epoxide
H9
9
4
40
u
Indenod ,2,3-cd)pyrene
Jig
:g
5
00
UJ
L i ndane
Ji 9
9
4
40
UJ
Methoxychlor
^9
9
4 4
00
UJ
HCPA
Ji S
:9
37989
00
UJ
HCPP
v- g
;g
28872
00
UJ
Naphthalene
Jig
eg
228
00
UJ
Phenanthrene
(i g
g
203
00
J
Pyrene
^g
g
34
00
UJ
PCB-101&
¦"9
9
85
00
u
PCB-1221
jig
9
172
00
u
PCB-1232
M-9
9
85
00
u
PC8-1242
jig
;g
85
00
u
PC8-1248
jig
g
85
00
u
PCB-1254
A9
eg
85
00
u
PCB-1260
jig
g
85
00
u
Si I vex
jig
9
25
00
UJ
Toxaphene
jig
g
436
00
u
2,4-D
jig
9
182
00
UJ
2,4-DB
jig
g
137
00
UJ
2.4,5-T
jig
g
30
00
UJ
4,4'-DDD
jig
eg
8
.50
UJ
4,41 -DDE
jig
9
8
50
UJ
4,4' - DDT
jig
9
14
00
J
Locaiion=ROA; Formation= DISMAL CAP; Site =9; A=3003; A dup=' Phase=1
alpha-BHC
Jig/kg
4.
,00
UJ
alpha-Chlordane
Jig/kg
4.
,00
u
beta-BHC
Jig/kg
4.
,00
u
delta-BHC
Jig/kg
4.
.00
u
ganma-Chlordane
Jig/kg
4.
,00
u
Acenaphthene
fig/kg
11258.
.00
UJN
Acenaphthylene
Jig/kg
14386.
.00
UJN
Aldrin
Jig/kg
4.
.00
u
Anthracene
Jig/kg
4128.
.00
UJN
BenzoCaJanthracene
Jig/kg
81.
.00
UJN
Benzo(a)pyrene
Jig/kg
144,
.00
UJN
BenzoC b)fluoranthene
jig/kg
113.
.00
UJN
BenzoCghi)perylene
Jig/kg
475.
.00
UJN
BenzoC k)fIuoranthene
Jig/kg
106.
.00
UJN
Chrysene
M/kg
938.
.00
UJN
DibenzoCa,h)anthracene
Jig/kg
188.
.00
UJN
Dicamba
Jig/kg
400.
.00
UJ
Dichlorprop
Jig/kg
1001,
.00
UJ
Dieldrin
Jig/kg
8,
.10
-------�
C-S3
Tabic CI (continued)
A horizon A horizon
Analysis Units Result Qualifier field dup Qualifier
D i noseb
ug/kg
210.00
UJ
Endosulfan sulfate
ug/kg
8.10
U
Endosulfan I
U9/kg
4.00
U
Endosulfan II
ug/kg
8.10
U
Endrin
ug/kg
8.10
U
Endrin aldehyde
ug/kg
8.10
UJ
Endrin ketone
u g/kg
8.10
u
Fluoranthene
ug/kg
338.00
UJN
Fluorene
ug/kg
1313.00
UJN
Heptachlor
ug/kg
4.00
U
Heptachlor epoxide
ug/kg
4.00
U
Indenod ,2,3-cd)pyrene
Kg/kg
269.00
UJN
lindane
ug/kg
4.00
U
Hethoxychlor
ug/kg
40.00
U
MCPA
ug/kg
375281.00
UJ
HCPP
ug/kg
285214.00
UJ
Naphthalene
ug/kg
11258.00
UJN
Phenanthrene
ug/kg
4003.00
UJN
Pyrene
ug/kg
1689.00
UJN
PCB-1016
ug/kg
81.00
U
PCB-1221
ug/kg
163.00
u
PCB-1232
ug/kg
81.00
u
PCB-1242
ug/kg
81.00
u
PCB-1248
ug/kg
31.00
u
PCS-1254
ug/kg
81.00
u
PCB-1260
ug/kg
81.00
u
Si I vex
ug/kg
250.00
UJ
T oxaphene
ug/kg
400.00
u
2,4-D
ug/kg
1801.00
UJ
2,4-DB
ug/kg
1351.00
UJ
2,4.5-T
ug/kg
300.00
UJ
4,4'-DDD
ug/kg
8.10
U
4,41-DDE
ug/kg
8.10
UJ
4,4'-DDT
ug/kg
8.10
-------�
Appendix D
-------�
D-3
Table D.l. Inorganic analysis results for composite soil samples
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Locanon=AND: Formahov = COPPER RIDGE; Site=31,3Z36; Sample type=Regular,
A = 7057; B=7060; C =7063; A lab split=' '; Phase=2
Aluninun
"19/
9
10600.00
16300.00
14300.00
Ant i mony
mg/
9
0.48
UJ
0.43
UJ
0.41
UJ
Arsenic
mg/
9
9.40
20.20
23.30
Bariun
mg/
9
59.50
27.40
B
14.50
B
Beryl Iiun
mg/
9
0.61
3
0.55
B
0.48
8
Boron
mg/
9
4.80
U
4.80
U
4.80
U
Cackni un
mg/
9
0.24
u
0.22
U
0.21
U
Calcium
mg/
9
423.00
B
197.00
B
180.00
S
Chromium
mg/
9
19.70
25.20
23.70
Cobalt
mg/
9
11.40
3
3.60
B
2.50
3
Copper
mg/
9
6.60
21.80
24.90
Cyanide
mg/
9
1.20
UJ
1.00
UJ
1.00
UJ
I ron
mg/
9
20000.00
26400.00
26400.00
Lead
mg/
9
21.00
8.80
10.60
L i thiun
mg/
9
4.80
3
7.80
B
8.80
B
Magnesi un
mg/
9
463.00
3
833.00
B
803.00
B
Manganese
mg/
9
1800.00
J
77.70
J
66.30
J
Mercury
mg/
9
0.12
0.11
0.15
Molybdenum
mg/
9
2.60
u
2.60
U
3.00
B
Nickel
mg/
9
4.90
u
11.80
9.70
Potass iun
mg/
9
367.00
3
1030.00
B
1240.00
Seleni un
mg/
9
0.77
3
0.45
B
0.54
5
Silicon
mg/
9
368.00
J
481.00
J
555.00
J
SiIver
mg/
9
0.96
U
0.87
U
0.83
U
Sodiun
mg/
9
343.00
3
350.00
B
326.00
B
Strontium
mg/
9
2.90
J
1.40
J
1.10
J
Sulfate
mg/
9
78.00
52.00
43.00
Thai I iun
mg/
9
0.73
U
0.65
U
0.62
U
Vanadiun
mg/
9
44.20
J
48.80
J
47.90
J
Zinc
mg/
9
38.30
J
83.40
J
67.70
J
Locaiion=AND: Formation=COPPER RIDGE; Site=33,34,35; Sample type = Regular;
A = 7046; B=7051; C= 7054; A lab split = 7047; Phase=2 '
Aluminum
mg/kg
10600.00
16400.00
18200.00
11400.00
Antimony
mg/kg
0.46
UJ
0.41
UJ
0.45
UJ
0.46
UJ
Arsenic
mg/kg
7.60
11.20
25.60
16.10
Barium
mg/kg ,
102.00
48.30
22.80
B
97.30
Beryl Iium
mg/kg
0.53
B
0.48
'B
0.57
3
0.52
B
Boron
mg/kg
4.80
U
4.60
U
4.80
U
4.80
U
Cackni un
mg/kg
0.23
U
0.21
u
0.23
U
0.23
U
Calciun
mg/kg
845.00
B
273.00
B
271.00
B
854.00
B
Chromium
mg/kg
15.10
23.30
30.50
16.40
Cobalt
mg/kg
8.40
B
8.30
B
3.70
3
11.00
B
Copper
mg/kg
7.00
17.20
30.10
7.40
Cyanide
mg/kg
1.10
UJ
1.00
UJ
1.10
UJ
1.20
UJ
1 ron
mg/kg
10200.00
24800.00
35000.00
10700.00
Lead
mg/kg
21.50
23.70
9.40
37.60
Li thiun
mg/kg
4.60
B
9.60
B
9.30
3
6.10
B
Magnesium
mg/kg
537.00
B
692.00
B
671.00
8
566.00
B
Manganese
mg/kg
1280.00
J
966.00
J
238.00
1
1830.00
J
Mercury
mg/kg
0.12
U
0.12
0.19
0.12
Molybdenun
mg/kg
2.60
u
4.50
B
3.60
3
2.60
U
Nickel
mg/kg
7.00
B
9.20
12.00
7.00
B
Potassium
mg/kg
546.00
B
702.00
B
782.00
3
395.00
B
Seleniun
mg/kg
0.58
B
0.66
B
0.71
B
3.60
Si I icon
mg/kg
418.00
J
498.00
J
435.00
J
429.00
J
SiIver
mg/kg
0.92
u
0.82
U
0.90
U
0.92
U
Sodium
mg/kg
374.00
B
365.00
B
408.00
B
351.00
B
Strontium
mg/kg
6.10
J
2.40
J
2.20
J
5.60
J
Sulfate
mg/kg
58.00
59.00
26.00
56.00
Thai Iium
mg/kg
0.69
U
0.61
U
0.67
U
2.60
Vanadiun
mg/kg
23.80
J
52.40
J
69.10
J
24.60
J
Zinc
mg/kg
33.30
J
51.40
J
80.70
J
36.20
-------�
D-4
Table D.l (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Location=AND; Formation=C OP PER RIDGE; Site=37,38,41; Sample tvpe=Regular;
A = 7075; B=7078; C =7081; A lab split =' Phase=2
Aluminum
mg/kg
15400.00
24500.00
28600.00
Antimony
mg/kg
0.50
UJ
0.41
UJ
0.43
UJ
Arsenic
mg/kg
14.40
J
26.80
36.50
Bariuti
mg/kg
156.00
58.90
40.60
B
Beryllium
mg/kg
0.95
B
1.00
B
1.20
Boron
mg/kg
6.00
UJ
4.90
UJ
5.10
UJ
Cadmi im
mg/kg
0.25
U
0.20
u
0.21
U
Calcium
mg/kg
1730.00
732.00
B
552.00
B
Chromium
mg/kg
20.70
J
26.60
J
26.10
J
Cobalt
mg/kg
35.30
23.30
31.00
Copper
mg/kg
13.40
39.50
54.20
Cyanide
mg/kg
1.20
UJ
1.00
UJ
1.10
UJ
I ron
mg/kg
14600.00
32600.00
40300.00
Lead
mg/kg
45.60
49.50
77.90
J
lithium
mg/kg
13.80
B
22.20
22.70
Magnesium
mg/kg
931.00
B
1010.00
B
928.00
B
Manganese
mg/kg
2560.00
J
786.00
J
1440.00
J
Mercury
mg/kg
0.11
0.14
0.21
Molybdenum
mg/kg
3.20
U
2.70
U
2.80
U
Nickel
mg/kg
13.50
27.70
33.50
Potassium
mg/kg
614.00
3
918.00
B
1040.00
B
Selenium
mg/kg
0.82
B
0.70
B
0.69
B
Si I icon
mg/kg
495.00
580.00
456.00
SiIver
mg/kg
1.00
U
0.82
U
0.86
U
Sodium
mg/kg
423.00
B
410.00
B
400.00
B
Strontium
mg/kg
7.50
B
3.30
B
0.96
B
Sulfate
mg/kg
150.00
53.90
39.30
Thai linn
mg/kg
0.74
U
0.61
U
0.65
B
Vanadium
mg/kg
32.10
J
63.60
J
72.60
J
Zinc
mg/kg
67.40
J
141.00
J
170.00
J
Locarion=AND; Formaiion — C OP PER RIDGE; Sile=39,40.42; Sample type -Regular:
A = 7066; B=7069; C=7072; A lab spill-' '; Phase=2
Aluminum
mg/kg
19100.00
21600.00
25800.00
Ant i mony
mg/kg
0.46
UJ
0.43
UJ
0.43
UJ
Arsenic
mg/kg
13.40
J
29.80
21.20
J
Barium
mg/kg
196.00
62.10
38.90
B
Beryllium
mg/kg
1.00
B
0.70
B
0.66
B
Boron
mg/kg
5.60
UJ
5.10
UJ
5.20
UJ
Cadnium
mg/kg
0.23
U
0.21
u
0.22
U
Calcium
mg/kg
1050.00
B
754.00
B
654.00
B
Chromium
mg/kg
25.70
J
52.80 ¦
J
60.40
J
Cobalt
mg/kg
16.40
12.30
5.50
B
Copper
mg/kg
11.00
17.00
19.90
Cyanide
mg/kg
1.20
UJ
1.00
UJ
1.10
UJ
I ron
mg/kg
17900.00
35100.00
35000.00
Lead
mg/kg
42.30
29.70
12.10
Lithium
mg/kg
7.50
B
13.10
B
14.50
B
Magnesium
mg/kg
898.00
B
981.00
B
1090.00
Manganese
mg/kg
3470.00
J
1230.00
J
500.00
J
Mercury
mg/kg
0.11
0.16
0.17
Molybdenum
mg/kg
3.00
U
2.80
B
2.80
U
Mickel
mg/kg
13.20
13.80
17.00
Potassi um
mg/kg
613.00
B
803.00
e
1020.00
B
Selenium
mg/kg
0.88
S
0.72
B
0.66
B
S iIi con
mg/kg
537.00
484.00
592.00
SiIver
mg/kg
0.93
U
0.85
u
0.87
U
Sodium
mg/kg
463.00
B
373.00
B
386.00
B
Strontium
mg/kg
7.70
B
6.30
8
5.20
3
Sulfate
mg/kg
178.00
56.80
37.40
Thai I inn
mg/kg
0.70
U
0.64
U
0.66
U
Vanadium
mg/kg
40.70
J
67.40
J
67.90
J
Zinc
mg/kg
42.00
J
47.80
J
50.50
-------�
D-5
Table D.l (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Location=AND: Formanon= DISMAL CAP; Site=1.20,22; Sample type —Regular:
A = 7028; B=7031; C=7034;A lab split =' Phase=l'
Aluminum
mg/kg
23500.00
36500.00
35500.00
Antimony
rog/kg
0.90
J
0.47
UJ
0.50
UJ
Arseni c
mg/kg
4.90
B
5.20
2.50
U
Barium
mg/kg
91.00
77.10
85.00
Beryllium
mg/kg
0.75
B
1.00
B
1.10
B
Boron
mg/kg
10.50
U
9.90
U
10.40
u
Cadniun
mg/kg
0.25
U
0.24
U
0.25
U
Calcium
mg/kg
2110.00
899.00
B
257.00
B
Chromium
mg/kg
27.20
30.80
37.70
J
Cobalt
mg/kg
10.20
B
13.70
17.10
Copper
mg/kg
15.70
16.80
19.80
Cyanide
mg/kg
0.12
UJ
0.22
J
0.12
UJ
I ron
mg/kg
24300.00
39500.00
41900.00
Lead
mg/kg
25.60
15.30
14.50
Lithium
mg/kg
10.40
B
18.20
20.50
Magnesium
mg/kg
2200.00
J
2720.00
J
3810.00
j
Manganese
mg/kg
834.00
532.00
608.00
Mercury
mg/kg
0.12
U
0.11
U
0.11
u
Molybdenum
mg/kg
1.70
U
1.70
U
1.90
B
Nickel
mg/kg
18.00
23.60
32.40
Potassium
mg/kg
3620.00
J
3580.00
J
3320.00
J
Selenium
mg/kg
0.85
J
0.78
J
0.60
J
Si I icon
mg/kg
220.00
J
271.00
J
224.00
J
Si Iver
mg/kg
1.20
UJ
1.20
UJ
1.20
UJ
Strontium
mg/kg
8.40
4.70
4.50
Sulfate
mg/kg
12.50
47.00 .
12.60
Thallium
mg/kg
0.50
U
0.47
u
0.50
U
Vanadium
mg/kg
30.60
43.40
40.20
Zinc
mg/kg
48.10
50.30
59.00
Location —AND; Formation—DISMAL CAP; Site=3,5.11; Sample type = Regular;
A = 7010; B=7013; C =7016; A lab split=' Phase=1
Aluminum
mg/kg
24100.00
33400.00
37200.00
Antimony
mg/kg
1.00
UJ
1.40
UJ
1.40
UJ
Arseni c
mg/kg
4.10
B
4.50
3
4.60
- 3
Bariun
mg/kg
74.80
70.10
80.10
Beryl Iium
mg/kg
0.86
B
0.82
B
1.00
3
Boron
mg/kg
10.20
U
10.20
U
10.00
'J
Cadnium
mg/kg
0.24
U
0.24
U
0.24
U
Calcium
mg/kg
1340.00
776.00
B
832.00
B
Chromium
mg/kg
29.30
38.80
40.10
Cobalt
mg/kg
14.10
9.60
B
9.80
B
Copper
mg/kg
16.30
21.50
22.40
Cyanide
mg/kg
0.12
UJ
0.12
UJ
0.12
UJ
I ron
mg/kg
30700.00
41000.00
41800.00
Lead
mg/kg
24.60
19.40
21.90
Li thium
mg/kg
10.ID
B
16.30
19.60
Magnesium
mg/kg
3230.00
J
2920.00
J
3650.00
J
Manganese
mg/kg
572.00
207.00
216.00
Mercury
mg/kg
0.11
U
0.11
U
0.12
U
Molybdenum
mg/kg
1.70
U
1.80
B
1.70
U
Nickel
mg/kg
23.00
22.50
27.20
Potassium
mg/kg
5090.00
J
4430.00
J
5890.00
J
Selenium
mg/kg
0.61
B
0.53
B
0.50
3
Silicon
mg/kg
211.00
J
268.00
J
188.00
J
Si Iver
mg/kg
1.20
UJ
1.20
UJ
1.20
UJ
Stronti un
mg/kg
6.40
5.20
6.00
Sulfate
mg/kg
11.40
S
39.30
15.30
Thai Iium
mg/kg
0.49
U
0.48
U
0.48
U
Vanadi urn
mg/kg
31.10
43.80
43.80
Zinc
mg/kg
54.90
52.70
62.20
-------�
D-6
Table D.l (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Location =AND; Formanon-DISMAL GAP; Site=4J221; Sample Type-Regular;
A = 7019; B=7022; C=7025; A lab split=' '; Phase=1'
Aluminum
mg/kg
22300.00
35800.00
39300.00
Antimony
mg/kg
1.40
UJ
1.30
J
1.40
J
Arsenic
mg/kg
3.10
3
2.30
U
4.80
B
Bariiin
mg/kg
76.50
67.30
63.90
Beryl Ii un
mg/kg
0.94
B
1.20
1.50
Boron
mg/kg
10.30
U
9.90
U
10.10
U
Cadmium
mg/kg
0.25
U
0.23
U
0.24
U
CaIc i um
mg/kg
1300.00
776.00
B
320.00
B
Chromium
mg/kg
22.60
29.30
26.90
Cobalt
mg/kg
13.30
7.30
B
15.00
Copper
mg/kg
16.40
19.80
26.70
Cyanide
mg/kg
0.27
J
0.12
UJ
0.12
UJ
I ron
mg/kg
24100.00
38200.00
45400.00
Lead
mg/kg
36.40
16.80
Lithiun
mg/kg
10.40
B
20.50
15.90
Magnesium
mg/kg
2770.00
J
3050.00
J
3490.00
J
Manganese
mg/kg
576.00
111.00
627.00
Mercury
mg/kg
0.11
U
0.11
U
0.11
U
Holybdenun
mg/kg
1.70
U
1.60
U
1.70
U
Nickel
mg/kg
21.00
25.30
24.80
Potassium
mg/kg
3940.00
J
4140.00
J
5410.00
J
Se I en inn
mg/kg
0.76
J
0.68
B
0.50
B
Si I icon
mg/kg
228.00
J
208.00
J
198.00
J
SiIver
mg/kg
1.20
UJ
1.20
UJ
1.20
UJ
Strontium
mg/kg
5.60
3.60
2.50
Sulfate
mg/kg
14.40
47.10
29.50
Tha 11 i un
mg/kg
0.49
u
0.47
U
0.48
U
Vanadiun
mg/kg
27.80
41.00
39.50
Zinc
mg/kg
50.50
45.60
51.90
Locaiion=AND; Formarion=DISMAL GAP; Site=9,10,19; Sample tvpe=Field duplicate:
A = 7037; B = 7040; C=7043; A lab split =' '; Phase = 1
Aluninun
mg/kg
22000.00
34900.00
45000.00
Antimony
mg/kg
0.50
UJ
0.62
UJ
0.72
UJ
Arsenic
mg/kg
4.90
5.60
6.80
Barium
mg/kg
80.60
90.50
137.00
Beryl I inn
mg/kg
0.75
B
0.83
B
1.20
B
Boron
mg/kg
10.40
U
10.00
U
10.00
U
Cadniun
mg/kg
0.24
U
0.24
U
0.24
U
Calcium
mg/kg
920.00
B
658.00
B
289.00
B
Chromiun
mg/kg
43.50
51.60
J
60.30
J
Cobalt
mg/kg
11.00
B
18.40
23.20
Copper
mg/kg
11.10
18.20
60.00
Cyani de
mg/kg
0.12
U
0.12
UJ
0.12
UJ
I ron
mg/kg
22600.00
39000.00
42400.00
Lead
mg/kg
30.30
23.90
34.90
Lithium
mg/kg
11.40
B
21.70
33.50
Magnesium
mg/kg
2590.00
J
2820.00
J
3640.00
J
Manganese
mg/kg
814.00
536.00
1330.00
Mercury
mg/kg
0.12
0.11
U
0.11
u
Holybdenun
mg/kg
1.70
U
2.00
B
1.70
s
Nickel
mg/kg
20.90
24.80
35.50
Potassium
mg/kg
3150.00
J
3230.00
J
3660.00
J
Selenium
mg/kg
0.76
3
0.71
B
0.47
u
Sill con
mg/kg
205.00
J
226.00
J
281.00
J
SiIver
mg/kg
1.20
UJ
1.20
UJ
1.20
UJ
Strontiun
mg/kg
4.80
3.90
3.70
Sulfate
mg/kg
17.60
37.90
9.90
B
Thai I iun
mg/kg
0.49
U
0.47
U
0.47
U
Vanadiun
mg/kg
30.50
51.60
48.60
Zinc
mg/kg
44.90
54.70
70.70
-------�
D-7
Table D.l (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Locarion=AND: Formation = DISMAL GAP; Site=9.10,19; Sample type=Reguiar;
A = 7001; B=7004; C =7007; A lab split=' Phase=l
Alunirvuii
mg/kg
23000.00
37900.00
42800.00
Ant i mony
mg/kg
',.30
UJ
1.20
UJ
1.40
'J J
Arsenic
mg/kg
6.60
J
5.90
3.00
3
Bariun
mg/kg
82.00
92.50
83.80
Beryl I iun
mg/kg
0.84
B
0.91
B
1.10
B
Boron
mg/kg
10.70
U
9.70
U
10.50
U
Cadni un
mg/kg
0.25
U
0.24
U
0.25
U
Calciun
mg/kg
894.00
B
598.00
B
341.00
B
Chromium
mg/kg
25.90
34.60
38.80
Cobalt
mg/kg
13.80
27.30
12.80
Copper
mg/kg
12.20
18.40
34.10
Cyanide
mg/kg
0.40
J
0.12
UJ
0.13
UJ
I ron
mg/kg
25000.00
38600.00
41000.00
Lead
mg/kg
28.30
26.40
25.90
Li thiun
mg/kg
9.80
B
23.00
24.40
Magnesium
mg/kg
2710.00
J
2910.00
J
3010.00
J
Manganese
mg/kg
1020.00
450.00
659.00
Mercury
mg/kg
0.11
0.10
u
0.13
u
Molybdenum
mg/kg
2.20
B
1.60
u
1.90
B
Nickel
mg/kg
22.30
27.00
30.60
Potassiun
mg/kg
3160.00
J
3490.00
J
3310.00
j
Seleni un
mg/kg
0.81
B
0.78
B
0.53
B
Si I icon
mg/kg
246.00
J
209.00
J
222.00
J
SiIver
mg/kg
1.30
UJ
1.20
UJ
1.30
UJ
Strontiun
mg/kg
4.90
4.00
2.20
Sulfate
mg/kg
20.50
32.00
13.40
Thai I iun
mg/kg
0.51
U
0.47
U
0.50
u
Vanadiun
mg/kg
33.60
51.60
46.50
Zinc
mg/kg
46.40
57.20
61.10
Locanon=ORR; Formation=CHEPULTEPEC; Site=50.66.73; Sample type=Field duplicate;
A =5173; B=5178: C=5184; A lab split=5174 Phase=2
Aluminum
mg/kg
7670.00
19400.00
17500.00
8470.00
Antimony
mg/kg
0.46
u
0.40
U
0.39
'J
0.40
U
Arseni c
mg/kg
31.20
J
20.70
J
24.10
" J
17.30
J
Bariun
mg/kg
36.50
S
37.10
B
:7.90
5
32.70
B
Beryl I iun
mg/kg
0.33
B
0.51
B
0.60
3
0.47
B
Boron
mg/kg
5.30
u
5.30
U
4.30
U
7.00
B
Cadmiun
mg/kg
0.23
u
0.20
U
0.20
U
0.20
U
Calciun
mg/kg
439.00
B
244.00
B
208.00
S
463.00
B
Chromium
mg/kg
21.50
J
33.60
J
30.20
J
33.80
J
Cobalt
mg/kg
13.20
J
2.00
UJ
16.70
J
10.90
J
Copper
mg/kg
5.10
U
15.40
22.30
4.50
U
I ron
mg/kg
15900.00
29400.00
31400.00
22400.00
Lead
mg/kg
29.80
7.80
34.80
12.80
Li thiun
mg/kg
6.50
J
20.70
J
12.10
J
6.80
U
Magnes i un
mg/kg
376.00
B
790.00
B
599.00
B
361.00
B
Manganese
mg/kg
585.00
59.20
272.00
506.00
Mercury
mg/kg
0.11
U
0.10
U
0.14
0.12
U
Molybdenum
mg/kg
2.90
u
2.90
U
2.60
U
2.90
u
Nickel
mg/kg
7.80
u
13.00
u
15.90
7.90
u
Potassium
mg/kg
300.00
UJ
906.00
J
359.00
UJ
Selenium
mg/kg
0.50
U
0.39
'J J
Si I icon
mg/kg
487.00
589.00
421.00
498.00
SiIver
mg/kg
0.89
u
0.88
U
0.79
u
0.89
u
Sod iun
mg/kg
308.00
B
301.00
B
280.00
B
357.00
B
Strontium
mg/kg
2.40
U
1.40
u
0.22
u
2.20
u
Sulfate
mg/kg
65.10
44.90
17.40
89.50
Vanadi um
mg/kg
35.50
59.00
56.30
53.20
Zinc
mg/kg
56.80
J
101.00
J
160.00
J
35.80
-------�
D-8
Tabic D.l (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Location = ORR; Formation—CHEPULTEPEC; Siie=50.66,73; Sample type—Regular,
A=5165; B=5170; C-5181; A lab splU=5166; Phase=2
Muni nun
mg/kg
8790.00
19700.00
19400.00
7450.00
Antimony
mg/kg
0.44
U
0.40
U
0.40
U
0.43
U
Arsenic
mg/kg
7.10
J
21.50
J
30.60
J
13.00
J
Bariun
mg/kg
31.60
B
54.20
31.70
B
37.80
B
Beryl linn
mg/kg
0.55
B
0.58
B
0.75
B
0.28
B
Boron
mg/kg
5.50
U
5.00
U
5.60
B
5.30
U
Cadniun
mg/kg
0.22
U
0.20
U
0.20
U
0.22
U
Calcium
mg/kg
390.00
B
325.00
8
181.00
B
468.00
B
Chromium
mg/kg
26.90
J
30.40
J
33.10
J
13.30
J
Cobalt
mg/kg
9.80
J
1.60
UJ
16.10
J
12.70
J
Copper
mg/kg
3.60
U
19.20
27.90
4.70
U
Iron
mg/kg
30000.00
31400.00
37500.00
10200.00
Lead
mg/kg
10.60
9.60
11.60
14.60
Lithium
mg/kg
5.20
J
18.50
J
17.10
U
5.90
J
Magnesium
mg/kg
280.00
B
768.00
s
689.00
S
342.00
B
Manganese
mg/kg
766.00
59.00
306.00
639.00
Mercury
mg/kg
0.11
U
0.09
(J
0.11
0.10
Molybdenum
mg/kg
3.00
u
2.70
u
2.70
J
2.90
U
Nickel
mg/kg
8.10
u
14.70
u
21.40
7.50
U
Potassium
mg/lcg
218.00
UJ
1040.00
J
1080.00
J
316.00
UJ
Sill" con
mg/kg
508.00
410.00
535.00
507.00
Si Iver
mg/kg
0.91
u
0.83
u
0.82
u
0.89
u
Sodium
mg/kg
339.00
B
273.00
B
313.00
B
294.00
B
Strontium
mg/kg
1.80
U
2.00
u
0.20
U
2.30
U
Sulfate
mg/kg
68.90
51.70
18.10
73.50
Vanadiun
mg/kg
61.20
62.70
59.90
23.50
Zinc
mg/kg
35.50
J
133.00
J
203.00
J
37.30
J
Location=ORR; Formanon=CHEPULTEPEC; Sile=5253,78; Sample type=Regular;
A =5127; B=5130; C=5133; A lab splits' '; Phase=2
Aluminum
mg/kg
8440.00
15600.00
16300.00
Antimony
mg/kg
0.42
u
0.42
U
0.43
U
Arseni c
mg/kg
15.60
24.40
180.00
Bariun
mg/kg
58.90
28.40
B
12.80
B
Beryl liun
mg/kg
0.51
u
0.64
U
0.77
U
Boron
mg/kg
5.00
u
5.20
U
5.20
U
Cadniun
mg/kg
0.21
u
0.21
U
0.21
U
Calciun
mg/kg
404.00
3
447.00
B
234.00
B
Chromium
mg/kg
15.30
J
27.80
J
26.40
J
Cobalt
mg/kg
11.30
6.10
U
3.00
B
Copper
mg/kg
5.10
U
15.70
29.30
U
Cyanide
mg/kg
1.00
U
1.00
U
1.00
U
I ron
mg/kg
18400.00
33000.00
J
34400.00
J
Lead
mg/kg
18.00
7.50
13.90
Lithium
mg/kg
2.50
U
5.80
B
7.40
B
Magnesium
mg/kg
341.00
B
672.00
B
890.00
B
Manganese
mg/kg
1250.00
325.00
60.30
Mercury
mg/kg
0.15
J
0.10
J
0.23
J
Molybdenum
mg/kg
2.70
U
2.80
U
2.80
U
Nickel
mg/kg
6.30
U
9.20
U
16.40
Potassium
mg/kg
267.00
U
945.00
B
1530.00
Seleniun
mg/kg
0.50
J
0.42
B
0.75
B
Si I icon
mg/kg
554.00
J
602.00
J
596.00
J
SiIver
mg/kg
0.84
u
0.87
U
0.86
L'
Sodiun
mg/kg
334.00
B
334.00
B
388.00
B
Strontium
mg/kg
2.90
B
3.70
B
1.10
B
Sulfate
mg/kg
60.50
25.00
10.80
L1
Thallium
mg/kg
0.42
U
0.42
U
0.43
U
Vanadiun
mg/kg
35.30
J
59.80
J
54.00
J
Zinc
mg/kg
30.50
J
85.10
J
177.00
-------�
D-9
Table D.l (continued)
A horizon B horizon C horizon A. lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Locanon - ORR: Formation = CHEPUL TEPEC; She=68.74,90; Sampie type =Regular;
A=5J54; B=5159; C=5162; A lab split=5155; Phase=2
Aluminum
mg/kg
7490.00
19000.00
17500.00
7810.00
Antimony
mg/kg
0.42
U
0.40
U
0.38
U
0.42
U
Arsenic
mg/kg
13.80
J
24.40
J
15.90
J
7.30
J
Barium
mg/kg
31.70
B
28.70
B
11.30
B
32.40
B
Beryl I inn
mg/kg
0.29
S
0.52
B
0.47
S
0.33
B
Boron
mg/kg
5.10
U
8.00
B
10.00
B
4.90
U
Cadmium
mg/kg
0.21
u
0.20
U
0.19
U
0.21
U
Calcium
mg/kg
338.00
B
506.00
B
230.00
B
349.00
B
Chromium
mg/kg
12.10
J
31.10
J
26.80
J
13.90
J
Cobalt
mg/kg
7.50
J
1.70
J
1.10
UJ
8.50
J
Copper
mg/kg
4.10
B
13.60
14.40
4.10
B
I ron
mg/kg
8500.00
33800.00
33100.00
10700.00
Lead
mg/kg
25.30
10.90
10.60
11.90
Lithium
mg/kg
12.10
J
15.30
U
14.40
U
4.40
J
Magnesium
mg/kg
329.00
B
733.00
B
590.00
B
341.00
B
Manganese
mg/kg
386.00
43.10
46.10
437.00
Mercury
mg/kg
0.11
U
0.11
0.15
0.11
U
Molybdenum
mg/kg
2.70
U
2.90
J
2.90
J
2.70
U
Nickel
mg/kg
5.30
U
9.90
U
11.40
U
6.70
u
Potassl in
mg/kg
307.00
UJ
1190.00
J
995.00
J
337.00
UJ
Si I icon
mg/kg
514.00
611.00
569.00
483.00
SiIver
mg/kg
0.84
u
0.88
u
0.89
U
0.82
u
Sod inn
mg/kg
286.00
B
332.00
B
302.00
B '
303.00
B
Strontiun
mg/kg
1.80
U
3.00
U
0.49
U
1.90
U
Sulfate
mg/kg
76.60
58.40
28.10
Vanadium
mg/kg
19.00
65.70
62.00
24.90
Zinc
mg/kg
21.40
J
59.90
J
60.80
J
22.10
J
Locanon=ORR: Formation = CHEPULTEPEC; Site = 77,85.86; Sample type = Field duplicate;
A =5145; B=5148; C=5151; A lab split =' Phase=2
Aluminum
mg/kg
10300.00
19300.00
18400.00
Ant i mony
mg/kg
0.41
U
0.43
U
0.42
U
Arsenic
mg/kg
4.40
18.70
14.90
Barium
mg/kg
151.00
45.40
149.00
Beryl Iiun
mg/kg
1.10
U
1.40
U
2.00
- U
Boron
mg/kg
5.00
U
4.80
U
5.00
U
Cadni urn
mg/kg
0.21
U
0.21
U
0.21
UJ
Calcium
mg/kg
680.00
B
723.00
B
314.00
5
Chromium
mg/kg
9.30
UJ
29.60
J
22.30
J
Cobalt
mg/kg
16.90
10.20
71.40
Copper
mg/kg
7.30
22.10
30.50
Cyanide
mg/kg
1.00
U
1.00
U
1.00
U
I ron
mg/kg
9350.00
J
38800.00
J
35700.00
J
Lead
mg/kg
16.20
17.80
93.40
J
Lithium
mg/kg
2.50
U
9.70
B
27.40
Magnesiun
mg/kg
513.00
B
1050.00
327.00
B
Manganese
mg/kg
2430.00
264.00
2600.00
Mercury
mg/kg
0.20
J
0.11
J
0.19
J
Molybdenum
mg/kg
2.70
u
2.60
U
2.70
U
Nickel
mg/kg
14.90
18.30
62.00
Potass iun
mg/kg
361.00
u
1020.00
1440.00
Selenium
mg/kg
0.41
UJ
0.75
J
0.63
J
Si I icon
mg/kg
649.00
J
714.00
J
759.00
J
SiIver
mg/kg
0.84
u
0.80
u
0.84
U
Sodium
mg/kg
348.00
B
314.00
B
332.00
s
Strontiun
mg/kg
4.80
B
5.60
B
1.30
B
Sulfate
mg/kg
91.40
90.90
10.50
U
Thai Iium
mg/kg
0.41
U
0.43
U
0.54
B
Vanadiim
mg/kg
18.80
J
64.40
J
57.10
J
Zinc
mg/kg
99.20
J
266.00
J
467.00
-------�
D-10
Table D.l (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Location =ORR; Formanon=CHEPULTEPEC; She=77,85,86; Sample type=Regulan
A =5136; B=5139; C=5142;A lab spla=' Phase=2
Aluminum
mg/kg
9230.00
20600.00
18400.00
Ant i mony
mg/kg
0.43
U
0.44
U
0.45
U
Arsenic
mg/kg
7.00
13.70
15.10
Bar inn
mg/kg
101.00
41.10
B
119.00
Beryl I inn
mg/kg
0.88
u
1.50
U
1.80
u
Boron
mg/kg
5.00
u
5.20
U
5.40
u
Cackniun
mg/kg
0.22
u
0.22
u
0.22
u
Calcium
mg/kg
585.00
B
979.00
B
447.00
8
Chromium
mg/kg
11.70
J
26.50
J
24.90
J
Cobalt
mg/kg
16.40
4.80
U
31.20
Copper
mg/kg
5.90
U
20.60
26.80
Cyanide
mg/kg
1.00
U
1.10
U
1.10
U
1 ron
mg/kg
14200.00
J
35100.00
J
36400.00
J
Lead
mg/kg
20.70
10.80
17.60
Lithium
mg/kg
3.10
U
12.40
B
17.50
B
Magnesiun
mg/kg
441.00
B
1230.00
895.00
B
Manganese
mg/kg
2050.00
138.00
1880.00
Mercury
mg/kg
0.18
J
0.14
J
0.12
J
Molybdenum
mg/kg
2.70
u
2.80
u
2.90
U
Nickel
mg/kg
10.50
u
22.00
39.60
Potassium
mg/kg
305.00
u
1490.00
1410.00
Seleniun
mg/kg
0.56
J
0.48
J
0.56
J
Sill con
mg/kg
592.00
J
700.00
J
683.00
J
SiIver
mg/kg
0.83
u
0.86
u
0.89
u
Sodium
mg/kg
331.00
B
331.00
B
340.00
B
Strontium
mg/kg
4.10
B
7.20
B
2.70
B
Sulfate
mg/kg
79.90
36.40
12.30
Thallium
mg/kg
0.43
U
0.44
U
0.45
U
Vanadium
mg/kg
29.20
J
56.80
J
58.40
J
Zinc
mg/kg
75.30
J
348.00
J
409.00
J
Locanon=OKR; Fomuuion=CHlCKAMAUGA; Bethel V Site=101,102103: Sample type=Regular;
A =5196; B=5199; C =5202; A lab split=' Phase=2
Aluminum
mg/kg
18000.00
28300.00
30900.00
Ant i mony
mg/kg
0.45
UJ
0.44
UJ
0.43
UJ
Arsenic
mg/kg
5.70
J
11.20
J
16.90
J
Barium
mg/kg
103.00
142.00
140.00
Beryl Iium
mg/kg
1.20
1.90
2.20
Cadmium
mg/kg
0.23
UJ
0.22
UJ
0.21
UJ
Calcium
mg/kg
3500.00
3640.00
6840.00
Chromium
mg/kg
23.40
J
30.40
J
29.40
J
Cobalt
mg/kg
15.20
11.60
31.90
Copper
mg/kg
20.20
27.70
34.10
Cyanide
mg/kg
1.10
u
1.10
u
1.10
u
I ron
mg/kg
31000.00
50100.00
51000.00
Lead
mg/kg
33.30
J
25.60
j
50.10
J
Magnesiun
mg/kg
2200.00
3060.00
4540.00
Manganese
mg/kg
1510.00
J
539.00
j
667.00
J
Mercury
mg/kg
0.21
0.10
u
0.09
u
Nickel
mg/kg
18.50
28.80
39.10
Potassium
mg/kg
2220.00
2370.00
2210.00
Selenium
mg/kg
0.95
B
0.97
B
0.92
s
SiIver
mg/kg
0.89
U
0.88
U
0.86
u
Sodium
mg/kg
377.00
3
433.00
B
409.00
B
Sulfate
mg/kg
83.20
95.70
73.70
Thai Iium
mg/kg
0.68
U
0.66
U
0.64
u
Vanadium
mg/kg
28.60
36.00
34.20
Zinc
mg/kg
51.30
J
63.60
J
99.00
J
Location =ORR; Formanon=CHlCKAMAUGA; Bethel VSite=104,108,110; Sampie rvpe=Regular;
A =5205; B=5208; C=5211; A lab splii=' '; Phase=2
Aluminum mg/kg 16400.00 36100.00 35900.00
-------�
D-ll
Table D.l (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Arsenic
mg/kg
7.00
5.60
J
4.30
Barium
mg/kg
72.50
125.00
160.00
Beryllium
mg/kg
1.10
1.60
1.80
Boron
mg/kg
4.70
U
4.80
U
4.80
U
Cackni um
mg/kg
0.21
u
0.21
u
0.23
U
Calcium
mg/kg
2020.00
2590.00
5960.00
Chromium
mg/kg
44.70
44.50
38.60
Cobalt
mg/kg
18.70
13.30
14.50
Copper
mg/kg
11.40
21.20
25.60
Cyanide
mg/kg
1.10
UJ
1.10
UJ
1.10
UJ
I ron
mg/kg
43000.00
55400.00
55000.00
Lead
mg/kg
32.40
25.60
40.00
Lithium
mg/kg
10.20
B
29.80
33.70
Magnesium
mg/kg
1180.00
2490.00
3130.00
Manganese
mg/kg
740.00
J
291.00
J
645.00
J
Mercury
mg/kg
0.16
0.11
u
0.11
Molybdenum
mg/kg
2.60
U
2.60
u
2.60
u
Nickel
mg/kg
. 12.30
21.60
26.20
Potassiun
mg/kg
1140.00
2700.00
2890.00
Selenium
mg/kg
0.56
B
0.62
B
0.47
UJ
Si I icon
mg/kg
512.00
J
549.00
J
468.00
J
Si Iver
mg/kg
0.86
U
0.86
U
0.93
u
Sodium
mg/kg
414.00
B
384.00
B
485.00
3
Strontiun
mg/kg
5.60
J
7.80
J
15.00
J
Sulfate
mg/kg
64.00
75.00
22.00
Thai 1ium
mg/kg
0.65
U
0.65
U
0.70
U
Vanadium
mg/kg
48.00
J
55.90
J
47.70
J
Zinc
mg/kg
37.70
J
58.60
J
70.40
J
Location=ORR: Formaxion=CHICKAMAUGA Bethel V; Siie=l 15,116,117; Sample type = Regular;
A =5216; B=5222; C=5225; A lab split=5217; Phase=2
Aluminum
mg/kg
16800.00
31500.00
39400.00
15400.00
Antimony
mg/kg
0.46
UJ
0.45
UJ
0.46
UJ
0.45
UJ
Arsenic
mg/kg
5.90
6.80
3.80
5.70
Barium
mg/kg
72.40
96.80
149.00
79.80
Beryl Iium
mg/kg
0.95
B
1.20
2.40
0.78
B
Boron
mg/kg
4.80
U
4.70
U
4.80
U
4.80
U
Cadmi um
mg/kg
0.23
U
0.23
U
0.23
U
0.23
U
Calcium
mg/kg
1710.00
1800.00
3460.00
1640.00
Chromi um
mg/kg
44.10
37.30
32.80
29.00
Cobalt
mg/kg
17.60
17.30
37.70
19.50
Copper
mg/kg
16.60
21.20
26.90
11.10
Cyanide
mg/kg
1.10
UJ
1.10
UJ
1.10
UJ
1.10
UJ
I ron
mg/kg
39600.00
49200.00
55100.00
31400.00
Lead
mg/kg
36.80
39.30
Lithium
mg/kg
12.60
B
28.20
40.80
12.40
B
Magnesium
mg/kg
1200.00
2190.00
2960.00
1120.00
B
Manganese
mg/kg
986.00
J
328.00
J
687.00
J
1390.00
J
Mercury
mg/kg
0.15
0.11
u
0.12
0.15
Molybdenum
mg/kg
2.60
U
2.90
B
2.60
U
2.60
U
Nickel
mg/kg
10.40
17.90
32.70
10.00
Potassium
mg/kg
1630.00
2870.00
3100.00
1750.00
Seleni un
mg/kg
0.55
B
0.63
B
0.46
u
0.57
B
Si I icon
mg/kg
471.00
J
557.00
J
526.00
J
545.00
J
SiIver
mg/kg
0.92
U
0.90
U
0.92
u
0.91
U
Sodium
mg/kg
407.00
B
449.00
B
440.00
s
392.00
B
Strontiun
mg/kg
5.60
J
6.10
J
11.70
J
5.30
J
Sulfate
mg/kg
79.00
65.00
18.00
S8.00
Thai I iun
mg/kg
0.69
U
0.67
u
0.69
u
0.69
U
Vanadiun
mg/kg
46.50
J
52.90
J
49.70
J
37.60
J
Zinc
mg/kg
52.30
J
52.00
J
80.50
J
38.80
J
Locanon=ORR; Formation = CHICKAMAUGA Bethel V; Site=93.99,100; Sample type=Regular;
A=5187; B=5190; C=5193; A lab splu=' Phase=2
Aluniinun mg/kg 15700.00 24100.00 28300.00
Antimony mg/kg 0.45 UJ 0.44 UJ 0.48 J
Arsenic mg/kg 6.60 J 5.80 J 5.50 J
-------�
D-12
Tabic D.l (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Beryl I inn
mg/kg
0.94
B
1.20
1.40
Cadnium
mg/kg
0.22
UJ
0.22
UJ
0.23
UJ
Calcium
mg/kg
1000.00
E
1400.00
3160.00
Chromium
mg/kg
34.80
J
26.80
J
32.30
J
Cobalt
mg/kg
22.10
12.30
16.10
Copper
mg/kg
21.70
25.00
30.30
Cyanide
mg/kg
1.10
U
1.10
U
1.10
U
I ron
mg/kg
35300.00
41800.00
50200.00
Lead
mg/kg
42.00
J
6.80
J
32.60
J
Magnesi urn
mg/kg
1210.00
1760.00
2600.00
Manganese
mg/kg
928.00
J
395.00
J
701.00
J
Mercury
mg/kg
0.13
0.10
U
0.11
u
Nickel
mg/kg
14.10
23.30
30.90
Potassium
mg/kg
1350.00
1810.00
1870.00
Selenium
mg/kg
1.00
e
1.00
S
0.97
8
SiIver
mg/kg
0.88
u
0.91
u
0.92
U
Sodium
mg/kg
378.00
s
402.00
8
352.00
8
Sulfate
mg/kg
181.00
85.40
62.20
Thai Iium
mg/kg
0.67
u
0.66
U
0.68
U
Vanadium
mg/kg
30.90
35.60
38.80
Zinc
mg/kg
46.20
62.20
J
84.30
J
Locaiion=ORR; Formation=CHIC KAMA VGA K-25: Site=118.12Z124: Sample type-Regular
A =
5240; B=
5246: C=5249; A
lab split
=5241; Phase =2
AI umi nun
mg/
9
15900.00
32900.00
36100.00
16500.00
Antlmony
mg/
g
0.51
UJ
0.45
UJ
0.43
UJ
0.51
UJ
Arsenic
mg/
g
8.50
7.00
3.80
9.80
Bari um
mg/
9
92.80
87.40
80.60
84.70
Beryl I inn
mg/
g
1.00
B
2.20
2.00
1.10
B
Boron
mg/
g
6.10
UJ
5.40
UJ
5.10
UJ
6.10
UJ
Cadmium
mg/
9
0.25
U
0.23
U
0.21
U
0.25
U
Calcium
mg/
9
3420.00
2400.00
5110.00
3540.00
Chromium
mg/
g
28.20
J
31.10
J
29.50
J
35.10
J
Cobalt
mg/
9
23.60
36.60
28.40
16.70
Copper
mg/
g
19.10
23.00
22.60
19.70
Cyanide
mg/
g
1.30
UJ
1.10
UJ
1.10
UJ
1.30
UJ
Iron
mg/
g
37100.00
' 58200.00
51200.00
42300.00
Lead
mg/
9
37.70
27.10
23.00
37.30
Lithium
mg/
g
15.00
B
32.10
37.00
14.90
B
Magnesium
mg/
9
1150.00
5
2140.00
2430.00
1160.00
B
Manganese
mg/
g
1600.00
J
496.00
J
341.00
J
1240.00
J
Mercury
mg/
9
0.80
0.11
0.11
0.75
Molybdenum
mg/
g
3.30
U
2.90
u
2.80
U
3.30
U
Nickel
mg/
9
24.60
28.40
28.20
26.10
Potassium
mg/
9
2160.00
3880.00
3850.00
2190.00
Selenium
mg/
g
0.78
J
0.60
B
0.47
B
0.87
B
Si I icon
mg/
g
705.00
913.00
879.00
682.00
SiIver
mg/
g
1.00
u
0.90
u
0.86
U
1.00
U
Sodium
mg/
9
477.00
B
461.00
B
446.00
B
502.00
B
Strontiim
mg/
g
9.60
B
6.80
B
6.70
B
9.80
B
Sulfate
mg/
g
181.00
334.00
24.90
162.00
Thai Iium
mg/
9
0.78
U
0.67
U
0.65
U
0.77
UJ
Vanadium
mg/
g
37.70
J
51.60
J
46.10
J
41.30
J
Zinc
mg/
g
60.20
J
72.60
J
72.20
J
65.70
J
Location=ORR; Formation=CH1CKAMAUGA K-25: Site —119,123.127; Sample type-Regular:
A =5252: B=5257: C=5260; A lab split=5253; Phase=2
Aluminum
mg/kg
22400.00
40300.00
40500.00
21300.00
Ant imony
mg/kg
0.48
UJ
0.43
UJ
0.44
UJ
0.48
UJ
Arsenic
mg/kg
8.70
11.10
10.80
9.40
Barium
mg/kg
99.70
133.00
158.00
96.30
Beryl I inn
mg/kg
1.40
1.90
1.90
1.30
Boron
mg/kg
5.70
UJ
5.20
UJ
5.30
UJ
5.70
UJ
Cadniun
mg/kg
0.24
u
0.22
u
0.22
u
0.24
U
Calcium
mg/kg
1430.00
1530.00
1840.00
1410.00
Chromium
mg/kg
39.80
J
39.00
J
36.00
J
29.80
J
Cobalt
mg/kg
19.40
10.80
B
21.50
18.30
-------�
D-13
Tabic D.l (continued)
A horizon
B horizon
C horizon
A lab split
Analysis
Units
result
Qualifier
result
Qualifier
result
Qualifier
result
Qualifier
Copper
mg/kg
11.30
15.00
16.30
11.00
Cyanide
mg/kg
1.20
UJ
1.10
UJ
1.10
UJ
1.20
UJ
Iron
mg/kg
39600.00
56600.00
57400.00
37800.00
Lead
mg/kg
31.30
15.50
15.50
31.90
L i th i un
mg/kg
20.50
B
42.30
49.90
21.10
B
Magnesiun
mg/kg
1350.00
2880.00
2670.00
1390.00
Manganese
mg/kg
2350.00
J
612.00
J
2240.00
J
2210.00
J
Mercury
mg/kg
0.65
0.17
0.16
0.61
Molybdenun
mg/kg
3.10
U
2.30
u
2.90
u
3.10
U
Nickel
mg/kg
19.30
22.00
24.20
19.90
Potassiun
mg/kg
2230.00
4660.00
3900.00
2320.00
Seleniun
mg/kg
0.83
B
1.00
B
0.69
B
1.10
B
Si I icon
mg/kg
660.00
802.00
782.00
732.00
Si Iver
mg/kg
0.96
U
0.87
u
0.89
u
0.95
U
Sodium
mg/kg
452.00
6
497.00
B
454.00
3
440.00
S
Strontiun
mg/kg
40.80
8
63.10
44.50
B
39.20
B
Sulfate
mg/kg
319.00
169.00
255.00
395.00
Thai Iiurn
mg/kg
0.71
U
0.65
U
0.66
U
0.72
U
Vanadi un
mg/kg
43.20
J
55.30
J
53.70
J
40.70
J
Zinc
mg/kg
58.40
J
89.70
J
71.20
J
57.60
J
Location=ORR; Formanon—CHICKAMAUGA K-25: Site=120.126.129: Sample rvpe=Regular
A=5228: B=S234: C=5237: A lab split=5229; Phase-2
Aliminin
mg/
9
16000.00
35900.00
30300.00
16600.00
Antimony
mg/
9
0.46
UJ
0.43
UJ
0.44
UJ
0.46
UJ
Arsenic
mg/
g
6.30
7.60
6.40
7.70
Bar i Lin
mg/
g
77.00
74.60
51.40
78.90
Beryl Iium
mg/
9
0.69
B
0.93
B
0.96
S
0.65
B
Boron
mg/
9
4.80
U
4.80
U
4.80
U
4.70
U
Cadmiun
mg/
9
0.23
U
0.22
U
0.22
U
0.23
U
CaIc i un
mg/
9
808.00
B
396.00
B
361.00
B
815.00
B
Chromiun
mg/
9
44.60
48.50
32.20
36.20
Cobalt
mg/
9
20.10
7.50
B
4.00
B
19.50
Copper
mg/
9
10.10
18.20
22.40
9.70
Cyanide
mg/
g
1.20
UJ
1.00
UJ
1.10
UJ
1.10
UJ
I ron
mg/
9
24600.00
58600.00
61000.00
24300.00
Lead
mg/
9
38.40
12.80
15.40
39.40
Lithiun
mg/
9
9.10
B
26.10
22.60
9.70
B
Magnesiun
mg/
9
794.00
B
1610.00
1580.00
827.00
B
Manganese
mg/
9
1730.00
J
206.00
J
102.00
J
1850.00
J
Mercury
mg/
9
0.40
0.11
0.17
0.36
Molybdenun
mg/
9
2.60
U
3.10
B
2.60
!J
2.60
U
Nickel
mg/
9
15.80
18.40
19.60
16.90
Potassium
mg/
9
1050.00
B
2620.00
3130.00
1080.00
B
Selenium
mg/
9
0.73
B
0.92
UJ
0.70
B
0.70
B
S iIicon
mg/
9
546.00
J
710.00
J
695.00
J
576.00
J
Si Iver
mg/
g
0.92
U
0.87
U
0.88
U
0.92
U
Sod iun
mg/
9
378.00
B
401.00
B
430.00
8
380.00
B
Strontiun
mg/
9
4.70
J
5.60
J
6.50
J
4.80
J
Sulfate
mg/
9
62.00
59.00
18.00
57.00
Thai I iun
mg/
9
0.69
U
0.64
U
0.66
U
0.70
U
Vartadiun
mg/
9
39.00
J
74.40
J
53.60
>
40.20
J
Zinc
mg/
9
36.80
J
68.60
J
62.00
J
36.50
J
Location —ORR: Formation=CHICKAMAUGA K-25; Siie=121.125.128: Sample n'pe=Regular:
A=5263; B=5268: C=5271; A lab split=5264 Phase=2
Aluninun
mg/kg
13100.00
30800.00
31300.00
12800.00
Antimony
mg/kg
0.44
UJ
0.44
UJ
0.41
UJ
0.44
UJ
Arseni c
mg/kg
6.20
5.10
B
8.10
5.40
Bar iun
mg/kg
51.20
73.70
59.60
51.00
Beryl I iun
mg/kg
0.77
B
1.10
B
1.10
0.69
B
Boron
mg/kg
5.30
UJ
5.30
UJ
5.00
UJ
5.30
UJ
Cadni un
mg/kg
C.22
U
0.22
U
0.21
U
0.22
U
Calcium
mg/kg
862.00
8
1390.00
638.00
3
852.00
B
Chromi un
mg/kg
31.40
J
23.30
J
21.50
J
18.80
J
Cobalt
mg/kg
21.50
8.70
B
16.90
17.30
Copper
mg/kg
8.10
16.40
15.90
7.80
-------�
D-14
Tabic D.l (continued)
A horizon
B horizon
C horizon
A lab split
Analysis
Units
result
Qualifier
result
Qualifier
result
Qualifier
result
Qualifier
Cyanide
mg/kg
1.10
UJ
1.00
UJ
0.98
UJ
1.10
UJ
I ron
mg/kg
26600.00
47800.00
46300.00
22300.00
Lead
mg/kg
23.40
J
14.30
14.20
19.80
Li thiun
mg/kg
10.70
B
31.80
40.30
13.10
B
Magnesiun
mg/kg
1050.00
B
2850.00
2700.00
1110.00
Manganese
mg/kg
1500.00
J
186.00
J
241.00
J
1190.00
J
Mercury
mg/kg
0.30
0.10
U
0.11
0.34
Molybdenun
mg/kg
2.90
u
2.90
U
2.70
u
2.80
u
Nickel
mg/kg
11.40
19.20
20.70
10.20
Potass inn
mg/kg
1520.00
4710.00
4470.00
1570.00
Seleniun
mg/kg
0.62
B
0.66
J
0.41
u
0.57
B
Si I icon
mg/kg
626.00
748.00
661.00
586.00
SiIver
mg/kg
0.88
U
0.88
u
0.83
u
0.88
U
Sodiun
mg/kg
382.00
B
466.00
B
421.00
B
414.00
B
Strontiun
mg/kg
9.60
B
17.90
B
13.70
B
10.50
B
Sulfate
mg/kg
355.00
107.00
32.00
194.00
Thai I inn
mg/kg
0.67
U
0.66
U
0.62
'J
0.66
U
Vanadiun
mg/kg
31.70
J
36.30
J
33.20
J
23.20
J
Zinc
mg/kg
33.50
J
56.80
J
57.40
J
33.70
J
Location =ORR; Formanon-COPPER RIDGE; She =45,60,75; Sample type=ReguIar
A =5109; B=5112; C=5115;A lab split=' Phase=2
Aluninum
mg/
g
10500.00
19400.00
14200.00
Antimony
mg/
g
0.42
U
0.41
U
0.41
U
Arsenic
mg/
g
11.30
J
27.10
J
56.30
J
Barium
mg/
g
79.90
48.50
9.10
3
Beryl I inn
mg/
g
0.54
B
0.50
B
0.62
B
Boron
mg/
g
5.00
U
5.10
U
5.00
U
Cadmium
mg/
g
0.21
U
0.21
U
0.21
U
Calciun
mg/
g
518.00
B
377.00
B
154.00
3
Chronriun
mg/
g
23.90
30.30
22.20
Cobalt
mg/
g
5.50
B
3.30
B
2.40
U
Copper
mg/
g
5.90
12.40
23.70
Cyanide
mg/
g
0.92
UJ
0.96
UJ
I ron
mg/
g
13200.00
J
27800.00
J
32000.00
J
Lead
mg/
g
18.20
J
13.00
J
30.80
J
Li thiun
mg/
g
3.10
B
9.60
B
2.50
U
Magnesiun
mg/
g
445.00
B
671.00
B
337.00
B
Manganese
mg/
g
940.00
J
367.00
J
84.70
J
Mercury
mg/
g
0.15
0.10
0.30
Molybdenun
mg/
9
1.50
U
1.50
U
2.60
3
Nickel
mg/
g
7.80
B
9.80
12.50
Potassiun
mg/
g
398.00
B
618.00
B
609.00
S
Seleniun
mg/
g
0.70
B
0.71
B
0.66
3
Si Iver
mg/
g
1.00
U
1.10
U
1.10
U
Sodiun
mg/
g
352.00
B
352.00
B
349.00
B
Strontium
mg/
g
3.70
B
2.90
B
0.25
U
Sulfate
mg/
g
47.80
45.30
10.50
Thai I inn
mg/
g
0.42
U
0.41
U
0.41
u
Vanaaiim
mg/
g
31.10
J
57.00
J
61.50
J
Zinc
mg/
g
30.20
55.40
124.00
UJ
Locaxion=ORR; Formanon=COPPER RIDGE; Site=51.55,62; Sample tvpe= Regular;
A =5100; B=5104; C=5106; A lab split = ' '; Phase=2
Aluninun
mg/kg
9780.00
12400.00
14300.00
Antimony
mg/kg
0.43
U
0.43
U
0.45
U
Arsenic
mg/kg
17.70
J
38.90
J
58.40
J
Barium
mg/kg
62.90
36.30
B
10.00
8
Beryl I inn
mg/kg
0.51
B
0.49
B
0.81
3
Boron
mg/kg
4.90
U
5.20
U
5.40
U
Caciniun
mg/kg
0.21
U
0.22
U
0.22
U
Calciun
mg/kg
398.00
B
447.00
B
219.00
3
Chromiun
mg/kg
10.50
26.20
32.00
Cobalt
mg/kg
6.40
B
1.80
U
4.20
3
Copper
mg/kg
5.40
14.60
31.70
Cyanide
mg/kg
1.20
UJ
1.10
UJ
0.99
UJ
I ron
mg/kg
9700.00
J
29000.00
J
39800.00
-------�
D-15
Table D.l (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Lead
mg/kg
25.10
J
18.50
J
39.20
J
L i th i urn
mg/kg
2.80
B
4.20
B
4.00
3
Magnesiun
mg/kg
411.00
B
385.00
B
345.00
B
Manganese
mg/kg
943.00
J
73.60
J
106.00
J
Mercury
mg/kg
0.14
0.11
0.30
Molybdenum
mg/kg
1.40
U
2.90
B
3.00
8
Nickel
mg/kg
7.40
B
7.60
B
14.80
Potass inn
mg/kg
274.00
B
428.00
B
707.00
B
Selenium
mg/kg
0.60
B
0.89
B
1.00
B
Si Iver
mg/kg
1.00
U
1.10
U
1.10
U
Sodium
mg/kg
360.00
B
371.00
B
358.00
B
Strontium
mg/kg
2.70
B
2.90
B
0.68
U
Sulfate
mg/kg
44.20
51.00
17.20
Thai I ium
mg/kg
0.43
U
0.43
U
0.45
U
Vanadium
mg/kg
21.70
J
57.80
J
S1.30
J
Zinc
mg/kg
29.20
67.10
148.00
Locanon=ORR: Formation=COPPER RIDGE; Site=54.64.83: Sample type = Regular:
.4=5118; B=5121; C=5124; A lab split =' Phase=2
AI minim
mg/
9
10300.00
21200.00
23400.00
Antimony
mg/
9
0.43
U
0.41
U
0.44
U
Arsenic
tng/
9
25.00
512.00
655.00
Bari un
mg/
9
71.00
43.60
14.10
3
Beryl I inn
mg/
9
0.54
U
0.76
U
0.90
U
Boron
mg/
9
5.20
U
5.10
U
5.40
U
Cadmium
mg/
9
0.22
U
0.20
UJ
0.22
u
Calcium
mg/
9
529.00
B
259.00
B
185.00
u
Chromium
mg/
9
13.10
J
25.70
J
27.50
J
Cobalt
mg/
9
19.10
5.10
U
3.60
u
Copper
mg/
9
10.90
U
28.10
33.50
Cyanide
mg/
9
1.10
U
1.00
U
1.00
u
1 ron
mg/
9
11500.00
J
33900.00
J
42000.00
J
lead
mg/
9
165.00
J
22.10
31.20
L i th i um
mg/
9
3.80
U
7.80
B
6.60
B
Magnesiun
mg/
9
487.00
B
739.00
B
722.00
B
Manganese
mg/
9
1530.00
120.00
91.80
Mercury
mg/
9
0.18
J
0.10
J
0.15
J
Molybdenum
mg/
9
2.80
U
4.90
B
6.20
_B
Nickel
mg/
9
11.00
U
17.60
21.30
Potass inn
mg/
9
413.00
3
727.00
B
1040.00
B
Seleniun
mg/
9
0.56
B
0.69
B
0.70
J
S i I i con
mg/
9
633.00
J
663.00
J
o37.00
J
SiIver
mg/
9
0.86
U
0.86
U
0.89
U
Sodium
mg/
9
359.00
U
361.00
B
350.00
B
Strontium
mg/
9
3.70
B
1.50
B
0.45
U
Sulfate
mg/
9
132.00
39.00
11.10
U
Thai I iun
mg/
9
0.43
U
0.41
B
0.44
U
Vanadi un
mg/
9
26.00
J
66.00
J
74.30
J
Zinc
mg/
9
41.30
J
90.40
J
133.00
J
Location=ORR: Formaiion=COPPER RIDGE; Site—58.59.91; Sample rype=Re?ular;
A=5091; B=5094; C=5097; A lab splu=' Phase—2
Aluminum
mg/kg
11600.00
16400.00
21300.00
Ant i mony
mg/kg
0.46
U
0.45
U
0.48
u
Arseni c
mg/kg
67.10
1
72.80
J
97.40
J
Barium
mg/kg
74.40
32.60
B
14.20
B
Berylliim
mg/kg
0.57
B
0.71
B
0.96
B
Boron
mg/kg
5.50
U
5.60
U
5.90
U
Cadnium
mg/kg
0.23
U
0.23
U
0.24
U
Calcium
mg/kg
594.00
3
216.00
B
151.00
3
Chromium
mg/kg
17.20
36.30
35.70
Cobalt
mg/kg
5.40
B
2.50
U
2.00-
U
Copper
mg/kg
7.80
23.60
35.90
Cyanide
mg/kg
1.10
UJ
0.84
UJ
0.99
UJ
I ron
mg/kg
13900.00
J
41700.00
J
53900.00
J
Lead
mg/kg
28.20
J
22.10
J
34.90
J
Lithium
mg/kg
2.80
U
5.10
3
4.90
-------�
D-16
Table D.l (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Magnesiun
mg/kg
517.00
B
550.00
B
495.00
B
Manganese
mg/kg
959.00
J
116.00
J
88.70
J
Mercury
mg/kg
0.16
0.12
0.28
Molybdenum
mg/kg
1.80
B
4.50
B
4.30
B
Nickel
mg/kg
8.10
B
13.20
15.80
Potassiun
mg/kg
416.00
B
661.00
B
904.00
B
Seleniun
mg/kg
0.70
B
1.00
B
1.30
SiIver
mg/kg
1.20
U
1.20
U
1.20
U
Sodium
mg/kg
379.00
B
345.00
B
380.00
B
Strontium
mg/kg
4.10
B
1.40
U
0.52
U
Sulfate
mg/kg
57.30
45.30
12.40
U
Thai I inn
mg/kg
0.46
U
0.45
U
0.48
U
Vanadiun
mg/kg
27.80
J
74.20
J
101.00
J
Zinc
mg/kg
40.90
103.00
146.00
Location=ORR; Formation —DISMAL CAP; Site=10,33.35; Sample type=Regular;
A=5019; B=5022; C-5025; A lab split=' Phaser]
Aluninun
mg/
9
16900.00
25600.00
42600.00
Antimony
mg/
9
0.22
UJ
0.23
UJ
0.31
U
Arsenic
mg/
S
7.30
B
8.00
B
10.70
B
Bariun
mg/
9
77.20
89.00
123.00
Beryl I inn
mg/
9
0.55
8
0.39
B
0.97
3
Boron
mg/
9
21.10
J
21.20
J
34.00
J
Cadniun
mg/
9
0.22
U
0.23
U
0.31
U
Calciun
mg/
9
991.00
892.00
U
1290.00
Chromium
mg/
9
22.50
36.90
57.30
Cobalt
mg/
9
11.30
7.10
B
16.80
Copper
mg/
9
15.00
J
20.50
J
29.90
J
Cyanide
mg/
9
0.44
J
0.46
J
0.63
J
Iron
mg/
9
33900.00
J
34600.00
J
52000.00
J
Lead
mg/
9
17.00
B
15.00
B
25.30
B
Lithiun
mg/
9
15.20
22.80
33.00
Magnesiun
mg/
9
2330.00
3170.00
5190.00
Manganese
mg/
9
791.00
212.00
462.00
Mercury
mg/
9
0.34
0.17
U
0.21
U
Molybdenum
mg/
g
9.00
U
9.30
U
12.80
U
Nickel
mg/
g
19.50
20.20
30.20
Osmiun
mg/
g
14.00
UJ
14.70
UJ
19.90
UJ
Potassiun
mg/
9
1960.00
2280.00
3800.00
Seleniun
mg/
9
0.68
U
0.48
U
0.62
u
Si I icon
mg/
9
488.00
J
401.00
J
623.00
J
SiIver
mg/
9
2.00
U
2.00
U
2.80
u
Strontiun
mg/
9
6.10
7.00
10.50
Sulfate
mg/
9
57.60
J
75.30
J
200.00
J
Thailium
mg/
9
0.79
B
0.61
B
0.31
u
Vanadiun
mg/
9
37.70
40.00
60.10
Zinc
mg/
9
45.30
49.70
69.80
Location-ORR; Formations DISMAL GAP; Siie=l 1,27,41; Sample type = Regular:
A=5001; B=5004; C=5007; A lab splh=' Phase—1
Aluninun
mg/kg
18500.00
34600.00
38100.00
Antimony
mg/kg
0.23
UJ
0.24
UJ
0.23
UJ
Arsenic
mg/kg
5.50
B
4.00
B
18.30
8
Bariun
mg/kg
88.60
83.60
82.70
Berylliun
mg/kg
0.62
B
0.67
B
1.00
B
Boron
mg/kg
19.80
U
34.00
J
33.40
J
Cadniun
mg/kg
0.23
U
0.24
U
0.23
U
Calciun
mg/kg
1050.00
695.00
606.00
Chromiun
mg/kg
19.40
36.00
45.50
Cobalt
mg/kg
12.20
7.40
B
6.30
B
Copoer
mg/kg
16.80
J
2.80
J
35.50
J
Cyanide
mg/kg
0.12
UJ
-0.01
UJ
-0.04
UJ
Iron
mg/kg
25500.00
J
42300.00
J
43300.00
J
Lead
mg/kg
35.40
B
10.70
8
12.50
B
Lithiun
mg/kg
14.00
26.60
28.90
Magnes i um
mg/kg
2090.00
J
3170.00
J
3980.00
J
Manganese
mg/kg
1020.00
272.00
85.00
-------�
D-17
Table D.l (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Mercury
mg/kg
0.31
J
0.17
J
0.06
1
V
Molybdenun
mg/kg
9.50
u
9.80
U
9.50
u
Nickel
mg/kg
19.50
23.30
26.30
Osmium
mg/kg
14.80
UJ
15.20
UJ
14.80
UJ
Potassinn
mg/kg
1890.00
J
2380.00
J
2940.00
J
Seleniun
mg/kg
0.60
u
0.33
U
0.23
u
S iIicon
mg/kg
486.00
J
383.00
J
442.00
J
SiIver
mg/kg
2.10
u
2.20
U
2.10
u
Strontium
mg/kg
7.00
5.90
5.90
Sulfate
mg/kg
163.00
J
141.00
J
135.00
J
Thai I inn
mg/kg
0.23
u
0.24
U
0.32
B
Vanadiun
mg/kg
31.60
4.80
B
44.70
Zinc
mg/kg
42.50
55.60
59.80
Locanon-ORR: Formanon=DISMAL GAP; Site=19.2132: Sample type=Regular;
A=5010; B=5013; C=5016; A lab splii=' Phase=l
Aluminum
mg/kg
18000.00
36900.00
37100.00
Antimony
mg/kg
0.21
UJ
0.22
U
0.22
U
Arsenic
mg/kg
6.80
B
19.50
B
20.20
B
Bar it™
mg/kg
89.10
117.00
124.00
Beryl Iium
mg/kg
0.66
6
0.86
B
0.71
S
Boron
mg/kg
33.70
J
23.60
J
Caciniun
mg/kg
0.21
U
0.22
U
0.22
u
Calcium
mg/kg
805.00
U
1130.00
992.00
Chromium
mg/kg
27.70
37.20
41.90
Cobalt
mg/kg
12.80
10.80
B
12.30
Copper
mg/kg
12.40
J
24.20
J
22.40
J
Cyanide
mg/kg
0.44
J
0.45
J
1 ron
mg/kg
23800.00
J
39900.00
J
39400.00
J
Lead
mg/kg
14.60
B
14.80
B
13.30
B
Lithium
mg/kg
26.30
27.90
Magnesium
mg/kg
2490.00
3430.00
3650.00
Manganese
mg/kg
768.00
306.00
807.00
Mercury
mg/kg
0.30
0.17
0.13
U
Molybdenum
mg/kg
8.70
U
9.00
U
9.10
'J
Nickel
mg/kg
19.50
23.30
25.30
Osmi un
mg/kg
14.20
UJ
14.30
UJ
Potassium
mg/kg
2010.00
2980.00
2710.00
Seleniun
mg/kg
0.36
U
0.84
u
0.22
- 'J
S i 1 i con
mg/kg
477.00
J
530.00
J
511.00
J
SiIver
mg/kg
1.90
u
2.00
u
2.00
u
Strontium
mg/kg
10.20
10.90
Sulfate
mg/kg
93.90
J
125.00
Thai I inn
mg/kg
0.21
u
0.46
B
0.64
B
Vanadiun
mg/kg
27.90
41.80
43.50
Zinc
mg/kg
42.30
50.60
54.80
Location =ORR; Formarion= DISMAL CAP; She—226,43; Sample tvpe=Field duplicate;
A =5037; B=5040; C=5043; A lab split =' Phase=1
Aluninum
mg/kg
20400.00
26800.00
35900.00
Ant i mony
mg/kg
0.23
U
0.23
U
0.24
u
Arseni c
mg/kg
5.30
4.90
6.10
Bar fun
mg/kg
104.00
100.00
112.00
Beryl I iun
mg/kg
1.10
B
1.30
1.50
Boron
mg/kg
9.80
U
11.80
20.70
Cadmium
mg/kg
0.23
U
0.23
u
0.24
u
Calcium
mg/kg
788.00
U
801.00
u
837.00
Chromium
mg/kg
29.00
34.30
46.80
Cobalt
mg/kg
13.70
13.90
7.70
s
Copper
mg/kg
13.30
16.70
22.00
Cyanide
mg/kg
0.12
UJ
0.12
UJ
0.12
UJ
I ron
mg/kg
24000.00
31800.00
38000.00
Lead
mg/kg
18.90
7.80
12.30
Li thi un
mg/kg
12.70
14.20
20.70
Magnesium
mg/kg
3390.00
3260.00
5100.00
Manganese
mg/kg
970.00
399.00
180.00
Mercury
mg/kg
0.40
0.15
u
0.15
-------�
D-18
Table D.l (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Molybdenum
mg/kg
9.50
u
9.50
U
9.80
U
Nickel
mg/kg
25.30
24.60
33.30
Potass i m
mg/kg
2130.00
2550.00
3170.00
Selenium
mg/kg
1.20
u
1.20
U
1.20
II
Si I icon
mg/kg
461.00
559.00
489.00
SiIver
mg/kg
2.10
u
2.10
U
2.10
u
Strontium
mg/kg
6.60
8.20
9.80
Sulfate
mg/kg
111.00
72.40
79.50
Tha11i urn
mg/kg
0.28
u
0.23
U
0.38
u
Vanadium
mg/kg
27.90
J
35.10
J
39.60
J
Zinc
mg/kg
53.60
48.60
62.70
Locaxion-ORR; Formation = DISMAL GAP; Site=2.26.43; Sample type-Regular;
A =5028; B=5031; C=5034; A lab split=' Phase=1' ¦
Aluminum
mg/kg
44300.00
30300.00
41200.00
Antimony
mg/kg
0.21
U
0.23
U
0.24
U
Arseni c
mg/kg
5.80
6.80
6.70
Barium
mg/kg
212.00
101.00
110.00
Beryl I inn
mg/kg
2.20
1.20
1.60
Boron
mg/kg
16.40
9.80
U
13.90
Cadmium
mg/kg
0.21
U
0.23
U
0.24
U
Calcium
mg/kg
1860.00
708.00
U
729.00
U
Chromium
mg/kg
32.10
45.10
35.30
Cobalt
mg/kg
36.70
8.40
3
24.00
Copper
mg/kg
30.10
18.30
35.30
Cyanide
mg/kg
0.11
UJ
0.12
UJ
0.12
UJ
I ron
mg/kg
49000.00
34600.00
38900.00
Lead
mg/kg
19.80
8.40
9.90
Li thiun
mg/kg
27.00
15.70
22.90
Magnesium
mg/kg
7430.00
3430.00
4530.00
Manganese
mg/kg
2220.00
285.00
699.00
Mercury
mg/kg
0.23
0.15
U
0.15
U
Molybdenun
mg/kg
9.20
u
9.60
U
9.80
u
Nickel
mg/kg
56.70
25.20
35.20
Potassium
mg/kg
5390.00
2980.00
3150.00
Selenium
mg/kg
1.00
u
1.20
U
1.20
u
Silicon
mg/kg
697.00
868.00
503.00
SiI ver
mg/kg
2.00
u
2.10
U
2.10
u
Strontium
mg/kg
16.80
7.00
9.40
Sulfate
mg/kg
28.00
151.00
85.50
Thai Iium
mg/kg
0.44
u
0.40
U
0.45
u
Vanadium
mg/kg
54.00
J
40.10
J
41.40
J
Zi nc
mg/kg
108.00
52.00
62.00
Locarion-ORR; Formanon=,\rOLJCHUCKY; Site=15,23,25; Sample type =¦ Regular,
A =5055; B=5058; C=5061; A lab split=' '; Phase=l
Aluminum
mg/kg
25100.00
38800.00
38200.00
Antimony
mg/kg
0.49
B
0.80
B
0.60
B
Arsenic
mg/kg
6.30
6.80
5.20
Barium
mg/kg
59.70
76.00
71.20
Beryl Iium
mg/kg
0.73
S
0.91
B
1.10
D
Boron
mg/kg
9.30
UJ
10.20
UJ
10.00
UJ
Catinium
mg/kg
0.22
u
0.24
U
0.24
u
Calcium
mg/kg
422.00
u
550.00
U
451.00
u
Chromium
mg/kg
29.90
45.30
38.10
Cobalt
mg/kg
11.10
7.30
B
6.90
B
Copper
mg/kg
12.20
19.30
20.40
Cyanide
mg/kg
0.11
UJ
0.12
UJ
0.12
UJ
1 ron
mg/kg
28800.00
45900.00
45700.00
L ead
mg/kg
20.40
9.30
11.70
Li thium
mg/kg
15.50
26.90
19.90
Magnesium
mg/kg
2010.00
2460.00
2900.00
Manganese
mg/kg
405.00
128.00
133.00
Mercury
mg/kg
0.18
0.12
U
0.11
U
Molybdenum
mg/kg
1.50
u
2.00
B
1.70
u
Nickel
mg/kg
16.50
17.50
18.70
Potassium
mg/kg
2950.00
3660.00
5070.00
Selenium
mg/kg
0.74
s
1.00
B
0.88
-------�
D-19
Table D.l (continued)
A honzon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Silicon
mg/kg
203.00
J
218.00
J
217.00
J
SiIver
mg/kg
i.-.o
UJ
1.20
UJ
1.20
UJ
Strontiun
mg/kg
3.20
3.SO
3.70
Sulfate
mg/kg
18.90
44.50
47.40
Thai I inn
mg/kg
0.45
u
0.59
6
0.48
B
Vanadium
mg/kg
35.20
54.10
42.80
2 in c
mg/kg
36.80
44.10
39.40
Locaiion-=ORR: Formation =N0L1CHUCKY; Site=16,28,42: Sample type=Re$ular;
A =5064: B=5067; C=5070; A lab splix=' Phase=l
AI in i nun
mg/kg
21300.00
30500.00
34300.00
Antimony
mg/kg
0.47
U
0.70
B
0.55
B
Arsenic
mg/kg
0.46
U
0.48
U
5.20
UJ
Barium
mg/kg
67.60
78.80
85.20
Beryl Iiun
mg/kg
0.85
B
1.10
B
1.10
B
Boron
mg/kg
9.90
UJ
10.10
UJ
10.10
'JJ
CacAniun
mg/kg
0.23
U
0.24
u
0.24
U
Calciun
mg/kg
594.00
U
901.00
B
1160.00
B
Chromium
mg/kg
0.46
U
0.48
U
39.30
Cobalt
mg/kg
14.10
12.70
18.60
Copper
mg/kg
11.00
18.90
21.00
Cyanide
mg/kg
0.12
UJ
0.12
UJ
0.12
UJ
I ron
mg/kg
32100.00
51800.00
44700.00
Lead
mg/kg
0.23
U
0.24
U
11.50
Lithium
mg/kg
7.60
B
19.70
20.20
Magnesiun
mg/kg
1730.00
2360.00
3140.00
Manganese
mg/kg
657.00
291.00
364.00
Mercury
mg/kg
0.19
0.11
U
0.11
U
Molybdenun
mg/kg
1.60
U
1.70
U
1.70
U
Nickel
mg/kg
15.20
20.20
22.30
Potassiun
mg/kg
3010.00
3520.00
4880.00
Selenium
mg/kg
0.46
U
0.48
u
0.47
U
Si I icon
mg/kg
291.00
J
215.00
J
487.00
J
SiIver
mg/kg
1.20
UJ
1.20
UJ
1.20
UJ
Strontium
mg/kg
5.00
5.60
7.60
Sulfate
mg/kg
17.90
43.10
37.00
Thai I inn
mg/kg
0.46
u
0.48
u
0.47
3
Vanadium
mg/kg
33.20
42.80
40.80
Zinc
mg/kg
33.90
38.30
38.50
Locanon—ORR; Formarion=NOLICHUCKY; Siie=3,13.24; Sample rype=Regular:
A =5082; B=5085; C=5088;A lab splu=' Phase=l
Aluninum
mg/kg
21800.00
42100.00
46700.00
Antimony
mg/kg
0.47
U
0.80
B
1.00
B
Arsenic
mg/kg
6.40
6.70
8.80
Barium
mg/kg
106.00
107.00
86.80
Beryl I iun
mg/kg
0.81
B
1.20
B
1.40
Boron
mg/kg
9.80
UJ
10.20
UJ
10.20
UJ
Cadmium
mg/kg
0.23
U
0.24
U
0.23
U
Calcium
mg/kg
952.00
B
1360.00
1320.00
Chromi un
mg/kg
26.40
36.80
72.80
Cobalt
mg/kg
17.50
40.10
12.70
Copper
mg/kg
12.70
25.50
30.20
Cyanide
mg/kg
0.12
UJ
0.12
UJ
0.12
UJ
I ron
mg/kg
28500.00
40600.00
37700.00
Lead
mg/kg
17.20
18.20
47.60
L i th i un
mg/kg
11.10
B
27.80
32.10
Magnesium
mg/kg
2410.00
3300.00
3830.00
Manganese
mg/kg
935.00
761.00
320.00
Mercury
mg/kg
0.19
0.12
U
0.12
U
Molybdenun
mg/kg
1.60
U
1.70
U
1.70
U
Nickel
mg/kg
20.00
23.90
27.00
Potassium
mg/kg
3230.00
4340.00
5560.00
Selenium
mg/kg
0.63
B
0.66
B
1.10
B
S iIi con
mg/kg
185.00
J
274.00
J
238.00
J
SiIver
mg/kg
1.20
UJ
1.20
UJ
1.20
UJ
Strontium
mg/kg
6.10
S.70
7.60
-------�
D-20
Table D.l (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Sulfate mg/kg 14.10
Thallium mg/kg 0.47
Vanadium mg/kg 32.10
Zinc mg/kg 40.70
344.00
0:49
46.30
46.80
35.10
0.68
43.50
51.60
Location =ORR; Formation —NOL1CHUCKY; Site=5,21,31; Sample type=Regular;
A =5073; B=5076; C=5079; A lab split =' '; Phase=l
A1 un i nun
mg/kg
20800.00
29300.00
33700.00
Antimony
mg/kg
0.47
U
0.59
B
0.62
B
Arsenic
mg/kg
5.80
5.90
11.00
Barium
mg/kg
75.40
86.20
81.30
Beryl I iun
mg/kg
0.76
B
0.84
B
1.10
B
Boron
mg/kg
9.90
UJ
10.00
UJ
9.70
UJ
Cadmium
mg/kg
0.23
U
0.24
U
0.24
U
Ca I c i un
mg/kg
498.00
B
370.00
B
339.00
U
Chromium
mg/kg
27.70
30.70
80.10
Cobalt
mg/kg
15.90
8.70
B
27.30
Copper
mg/kg
11.00
14.90
29.70
Cyanide
mg/kg
0.12
UJ
0.12
UJ
0.12
UJ
I ron
mg/kg
23000.00
33400.00
39200.00
Lead
mg/kg
15.30
9.80
£9.60
Lithium
mg/kg
10.90
B
21.80
23.30
Magnesiun
mg/kg
1940.00
2870.00
3740.00
Manganese
mg/kg
733.00
173.00
689.00
Mercury
mg/kg
0.18
0.11
U
0.10
U
Molybdenun
mg/kg
1.60
U
1.70
U
1.60
U
Nickel
mg/kg
17.80
22.30
30.90
Potassium
mg/kg
2640.00
3330.00
4600.00
Se I en inn
mg/kg
0.56
B
0.62
B
1.10
8
Si I icon
mg/kg
328.00
J
294.00
J
246.00
J
SiIver
mg/kg
1.20
UJ
1.20
UJ
1.20
UJ
Strontium
mg/kg
4.40
5.00
3.40
Sulfate
mg/kg
25.40
58.90
34.90
Thai Iium
mg/kg
0.47
U
0.48
u
0.72
B
Vanadium
mg/kg
29.40
41.30
38.70
2inc
mg/kg
40.60
49.50
50.70
Location=ROA: Formanon=COPPER RIDGE; She—33,35.44; Sample type = Regular;
A =6046; B=6049; C=6052; A lab split =' Phase=2
Aluminum
mg/kg
9290.00
18000.00
23200.00
Antimony
mg/kg
0.44
U
0.45
U
0.47
u
Arsenic
mg/kg
10.30
25.30
36.10
Barium
mg/kg
72.00
39.30
B
16.20
B
Beryl Iiun
mg/kg
0.51
B
0.58
B
0.73
B
Cactnium
mg/kg
0.22
U
0.22
U
0.23
U
Calcium
mg/kg
716.00
B
432.00
B
337.00
B
Chromium
mg/kg
12.20
J
28.50
J
47.10
J
Cobalt
mg/kg
7.80
B
6.40
U
4.50
U
Copper
mg/kg
7.40
14.50
22.30
Cyanide
mg/kg
1.00
UJ
1.00
UJ
1.10
UJ
] ron
mg/kg
11100.00
J
25200.00
J
49100.00
J
Lead
mg/kg
21.20
22.30
31.60
Lithium
mg/kg
5.30
B
17.10
5
22.60
B
Magnes i un
mg/kg
454.00
S
787.00
8
627.00
B
Manganese
mg/kg
1050.00
222.00
94.80
Mercury
mg/kg
0.12
0.12
0.25
Molybdenun
mg/kg
1.60
U
2.00
B
4.00
B
Nickel
mg/kg
7.00
U
14.60
17.70
Potassium
mg/kg
376.00
B
744.00
B
692.00
B
Selenium
mg/kg
0.44
U
0.74
B
0.63
B
SiIver
mg/kg
1.10
U
1.10
U
1.20
U
Sodium
mg/kg
383.00
B
428.00
B
415.00
B
Strontium
mg/kg
4.60
B
2.60
B
1.20
B
Sulfate
mg/kg
28.10
124.00
J
4.50
J
Thai I ium
mg/kg
0.44
U
0.45
U
0.47
U
Vanadium
mg/kg
23.40
J
50.60
J
98.90
J
Zinc
mg/kg
42.80
64.90
95.80
-------�
D-21
Table D.l (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Locanon-ROA; Formanon=COPPER RIDGE; Siie=34.39,41; Sample type=Regular;
A=6082; B=6087; C=6090; A lab split=6084; Phase=2
Aluninun
mg/kg
8120.00
16200.00
13900.00
8490.00
Ant i mony
mg/kg
0.46
UJ
0.42
UJ
0.42
UJ
0.46
UJ
Arsenic
mg/kg
14.00
J
22.80
J
35.80
J
15.20
J
Bariun
mg/kg
59.90
29.20
B
11.70
B
63.40
Beryl I iun
mg/kg
0.52
B
0.59
B
0.73
B
0.48
B
Cadmiun
mg/kg
0.23
UJ
0.21
UJ
0.21
UJ
0.23
UJ
Calciun
mg/kg
801.00
B
240.00
B
198.00
B
869.00
B
Chromiun
mg/kg
15.30
J
27.40
J
32.20
J
11.70
J
Cobalt
mg/kg
4.90
B
4.00
B
2.30
B
4.30
B
Copper
mg/kg
15.30
21.00
25.40
11.90
Cyanide
mg/kg
1.20
UJ
1.00
UJ
1.00
UJ
1.10
UJ
I ron
mg/kg
14100.00
33200.00
45000.00
11100.00
Lead
mg/kg
30.80
J
13.30
J
21.30
J
36.80
J
Magnes i un
mg/kg
356.00
8
479.00
B
276.00
S
355.00
B
Manganese
mg/kg
944.00
J
186.00
J
91.80
J
1070.00
J
Mercury
mg/kg
0.14
0.18
0.13
0.16
Nickel
mg/kg
6.90
S
10.50
13.80
6.4 0
U
Selenium
mg/kg
0.92
B
0.79
B
0.82
3
0.84
B
SiIver
mg/kg
0.89
U
0.82
U
0.84
U
0.90
U
Sodiun
mg/kg
343.00
3
270.00
B
280.00
B
311.00
B
Sulfate
mg/kg
80.80
41.10
20.90
83.70
Thai I inn
mg/kg
0.69
U
0.63
U
0.63
u
0.68
U
Vanadiun
mg/kg
29.80
69.00
91.50
25.00
Zinc
mg/kg
70.90
J
85.90
J
102.00
J
53.50
J
locanon=ROA; Formanon-COPPER RIDGE; Sile=40,4Z43; Sample type=Regular;
A =6055; B=6058; C=6061; A lab Split=' '; Phase=2
Aluninun
mg/
9
8410.00
13600.00
17000.00
Ant i mony
mg/
g
0.43
U
0.44
U
0.46
U
Arsenic
mg/
9
6.20
11.20
24.40
Bariun
mg/
g
37.40
3
28.70
8
16.30
B
BerytIi un
mg/
g
0.34
B
0.31
B
0.39
3
Boron
mg/
g
5.30
U
Cadniun
mg/
g
0.21
U
0.22
U
0.23
. U
Calciun
mg/
g
280.00
3
272.00
3
172.00
3
Chromiun
mg/
g
11.90
J
19.00
J
30.70
J
Cobalt
mg/
g
5.00
U
2.40
U
1.70
U
Copper
mg/
g
2.70
u
8.90
9.90
Cyanide
mg/
g
1.00
UJ
1.00
UJ
1.10
UJ
I ron
mg/
g
13600.00
j
16700.00
J
31600.00
J
Lead
mg/
g
13.50
6.50
9.70
J
Li thiun
mg/
g
2.60
3
6.60
B
7.70
B
Magnes iun
mg/
g
379.00
S
527.00
B
543.00
B
Manganese
mg/
g
369.00
53.70
41.70
Mercury
mg/
g
0.12
0.20
0.30
Molybdenun
mg/
g
1.50
U
1.50
U
1.90
B
Nickel
mg/
g
5.90
U
6.10
U
8.00
U
Potassi un
mg/
g
261.00
5
396.00
B
434.00
3
SeIeniun
mg/
g
0.49
S
0.44
U
0.65
E
SiIver
mg/
g
1.10
u
1.10
U
1.20
U
Sodiun
mg/
g
371.00
3
352.00
B
392.00
3
Strontium
mg/
g
2.30
8
2.00
S
1.20
8
Sulfate
mg/
g
36.80
J
36.00
J
20.30
J
Thai Iiun
mg/
9
0.43
U
0.44
U
0.46
u
Vanadiun
mg/
9
19.20
J
37.20
J
68.70
J
Zinc
mg/
g
36.60
29.30
39.30
Locanon—ROA; Formanon=COPPER RIDGE; Site=45,46,47; Sample tvpe=Field duplicate;
A =6076; B=6079; C=6067; A lab splu=' Phase=2
Aluninun
Antimony
Arsenic
mg/kg 10700.00 14300.00 15500.00
mg/kg 0.42 U 0.41 U 2.20 U
-------�
D-22
Tabic D.l (continued)
A horizon B honzon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Barium
mg/kg
87.10
45.40
23.90
B
Beryl I iun
mg/kg
0.50
S
0.42
U
0.46
B
Boron
mg/kg
5.00
u
4.90
U
5.30
U
Cadmi in
mg/kg
0.21
II
0.20
U
0.22
u
Calciun
mg/kg
562.00
B
312.00
B
313.00
B
Chromiun
mg/kg
13.40
J
29.50
J
32.10
J
Cobalt
mg/kg
6.90
U
1.90
U
1.10
U
Copper
mg/kg
5.40
U
10.50
u
14.40
Cyanide
mg/kg
1.10
UJ
1.10
UJ
1.10
UJ
I ron
mg/kg
9030.00
J
23300.00
J
30500.00
J
Lead
mg/kg
14.60
7.20
8.30
Li thiun
mg/kg
3.10
B
5.60
B
6.60
B
Magnesiun
mg/kg
478.00
B
479.00
B
474.00
B
Manganese
mg/kg
1270.00
74.50
51.40
Mercury
mg/kg
0.10
U
0.12
J
0.23
J
Molybdenum
mg/kg
2.70
U
2.70
U
3.20
B
Nickel
mg/kg
6.40
U
7.60
U
9.30
Potassiun
mg/kg
.290.00
U
430.00
B
419.00
B
Selenium
mg/kg
0.42
u
0.49
B
0.59
B
Si I icon
mg/kg
621.00
J
596.00
J
591.00
J
Si Iver
mg/kg
0.84
u
0.82
U
0.89
U
Sod iun
mg/kg
349.00
B
314.00
B
389.00
B
Strontium
mg/kg
4.20
B
2.70
B
2.40
B
Sulfate
mg/kg
120.00
52.60
11.10
U
Thai Iiun
mg/kg
0.42
U
0.41
U
0.44
U
Vanadiun
mg/kg
21.60
J
51.50
J
70.90
J
Zinc
mg/kg
24.50
J
22.90
J
26.30
J
Location =ROA; Formation=COPPER RIDGE; Sile=45,46,47; Sample tvpe=Regular;
A =6073; B=6C70; C=6064; A lab split =' Phase =2
Aluni nun
mg/
9
10900.00
13700.00
13700.00
Ant i mony
mg/
9
0.41
U
0.42
U
2.20
U
Arsenic
mg/
9
7.20
11.10
26.50
Bariun
mg/
9
83.00
57.60
18.50
B
Beryl Iiun
mg/
9
0.49
B
0.36
B
0.45
B
Boron
mg/
9
5.00
U
5.00
U
5.30
U
Cadmi un
mg/
9
0.21
U
0.21
J
0.22
U
Calciun
mg/
9
510.00
6
304.00
B
300.00
B
Chromiun
mg/
9
12.80
J
20.10
J
35.40
J
Cobalt
mg/
9
7.40
B
3.10
B
1.30
U
Copper
mg/
9
5.50
8.00
12.30
Cyanide
mg/
9
1.00
UJ
1.00
UJ
1.10
UJ
1 ron
mg/
9
9700.00
J
16600.00
J
28900.00
J
Lead
mg/
9
17.00
7.70
10.30
Li thiun
mg/
9
3.20
B
6.30
B
4.50
B
Magnesiun
mg/
9
455.00
B
480.00
B
389.00
B
Manganese
mg/
9
1450.00
133.00
65.60
Mercury
mg/
9
0.10
U
0.10
U
0.20
J
Molybdenun
mg/
9
2.70
u
2.70
U
2.90
U
Ni ekeI
mg/
9
6.10
B
7.10
B
7.50
B
Potassium
mg/
9
321.00
B
315.00
B
414.00
B
Selenium
mg/
9
0.41
U
0.54
B
0.48
B
Si I icon
mg/
9
538.00
J
565.00
J
602.00
J
Silver
mg/
9
0.83
U
0.84
U
0.89
U
Sod iun
mg/
9
324.00
B
364.00
B
345.00
B
Strontiun
mg/
9
3.80
B
2.50
B
2.10
B
Sulfate
mg/
9
94.20
67.20
11.10
U
Thai I iun
mg/
9
0.41
U
0.42
U
0.44
U
Vanadiun
mg/
9
24.10
J
39.40
J
68.10
J
Zinc
mg/
9
24.90
J
21.10
J
21.90
J
Location =ROA; Formation=DISMAL GAP; Site=10,13,14; Sample type=Field duplicate;
A =6037; B=6040; C=6043; A lab split=' Phase=l
Alum" nun
Ant i mony
Arsenic
Bar iun
mg/kg
mg/kg
mg/lcg
mg/kg
17500.00
0.26
6.90
179.00
UJ
33300.00
0.23
7.10
90.70
UJ
28000.00
0.22
6.70
103.00
-------�
D-23
Tabic D.l (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Beryl I inn
mg/kg
1.00
B
1.30
1.60
Boron
mg/kg
10.40
U
13.10
22.10
Cacfrni un
mg/kg
0.26
U
0.23
U
0.22
U
Calcium
mg/kg
1990.00
800.00
606.00
Chromiun
mg/kg
32.40
47.70
42.30
Cobalt
mg/kg
40.10
4.30
B
13.30
Copper
mg/kg
7.70
16.90
20.90
Cyanide
mg/kg
0.40
J
0.12
UJ
0.11
UJ
I ron
mg/kg
30500.00
45200.00
41100.00
Lead
mg/kg
15.20
7.40
13.30
Lithiun
mg/kg
11.60
25.40
25.60
Magnesium
mg/kg
2000.00
3170.00
4750.00
Manganese
mg/kg
4470.00
125.00
574.00
Mercury
mg/kg
0.15
U
0.15
U
0.15
U
Molybdenum
mg/kg
10.10
U
9.40
U
8.40
U
N ieke I
mg/kg
23.20
26.90
38.90
Potassium
mg/kg
1840.00
3310.00
3480.00
Selenium
mg/kg
1.30
U
1.20
U
1.10
U
Si I icon
mg/kg
462.00
613.00
530.00
Si Iver
mg/kg
2.20
U
2.10
u
1.80
U
Strontiun
mg/kg
8.30
6.70
6.50
Sulfate
mg/kg
103.00
130.00
74.00
Thai I iun
mg/kg
0.38
U
0.37
u
0.27
U
Vanadiun
mg/kg
37.60
J
45.60
J
34.80
J
Zi nc
mg/kg
51.90
57.40
72.60
Location —ROA; Formation —DISMAL CAP; Site—10.13,14; Sample tvpe=Regular;
A=6028; B=6031; C=6034; A lab splil=' Phaser]
Aluninun
mg/kg
17700.00
29300.00
27300.00
Antimony
mg/kg
0.25
UJ
0.20
UJ
0.22
UJ
Arsenic
mg/kg
3.90
7.20
11.80
Bariun
mg/kg
182.00
82.10
93.20
Beryl I inn
mg/kg
1.10
B
1.20
1.40
Boron
mg/kg
26.00
12.20
16.90
Cac±nium
mg/kg
0.25
U
0.20
U
0.22
U
Catciun
mg/kg
2020.00
758.00
582.00
Chromiun
mg/kg
25.60
46.00
48.30
Cobalt
mg/kg
31.60
7.40
B
8.70
3
Copper
mg/kg
12.00
18.00
17.80
Cyani de
mg/kg
0.13
UJ
0.12
UJ
0.11
UJ
I ron
mg/kg
28100.00
40900.00
37000.00
Lead
mg/kg
15.00
10.90
7.40
Lithiun
mg/kg
12.60
23.20
24.70
Magnesium
mg/kg
2420.00
2950.00
4620.00
Manganese
mg/kg
2420.00
212.00
236.00
Mercury
mg/kg
0.15
U
0.15
U
0.15
U
Molybdenun
mg/kg
9.80
U
8.70
U
9.00
u
Nickel
mg/kg
24.10
23.80
34.90
Potassiun
mg/kg
2090.00
2750.00
3490.00
Seleniun
mg/kg
1.30
U
1.00
U
1.10
u
Si I icon
mg/kg
549.00
592.00
458.00
Si Iver
mg/kg
2.10
U
1.90
u
2.00
u
Strontiun
mg/kg
8.90
5.70
5.70
Sulfate
mg/kg
32.10
107.00
28.40
Thai I iun
mg/kg
0.36
U
0.37
u
0.38
u
Vanadiun
mg/kg
32.20
J
41.80
J
35.10
J
Zinc
mg/kg
55.10
51.20
61.30
Location=ROA; Formation -DISMAL CAP; Site~3.7,21; Sample type—Regular;
A =6019; B=6022: C=6025: A lab split =' '; Phase=1
Aluninun
mg/kg
16500.00
18400.00
25000.00
Antimony
mg/kg
0.22
U
0.19
U
0.22
U
Arsenic
mg/kg
5.70
5.90
6.20
Bariun
mg/kg
73.20
60.60
62.30
Beryl I iun
mg/kg
0.82
B
0.82
B
1.10
B
Boron
mg/kg
14.00
9.30
U
12.80
Cacmiun
mg/kg
0.22
U
0.19
U
0.22
-------�
D-24
Tabic D.l (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Ca lei lib
mg/kg
857.00
464.00
U
337.00
U
Chromium
mg/kg
33.80
32.40
38.20
Cobalt
mg/kg
17.80
20.40
5.80
B
Copper
mg/kg
8.90
7.60
18.10
Cyanide
mg/kg
0.48
J
0.11
UJ
0.11
UJ
I ron
mg/kg
25900.00
26000.00
41600.00
Lead
mg/kg
23.90
15.90
14.10
Lithiun
mg/kg
10.90
11.60
17.40
Magnesiun
mg/kg
2010.00
1560.00
2180.00
Manganese
mg/kg
1380.00
786.00
152.00
Mercury
mg/kg
0.15
u
0.15
u
0.15
U
Molybdenun
mg/kg
9.00
u
9.10
u
9.80
U
Nickel
mg/kg
17.40
14.10
19.80
Potassium
mg/kg
1700.00
1330.00
2260.00
Seleniun
mg/kg
1.10
u
0.96
u
1.10
u
Silicon
mg/kg
445.00
486.00
438.00
SiIver
mg/kg
2.00
u
2.00
u
2.20
u
Strontiun
mg/kg
4.60
3.30
3.10
Sulfate
mg/kg
78.20
119.00
44.30
Thai Iium
mg/kg
0.22
u
0.48
u
0.33
u
Vanadiun
mg/kg
31.30
J
33.30
J
34.80
J
Zinc
mg/kg
40.60
34.10
42.70
Locasion =ROA; Formaiion=DISMAL CAP; Sue—3,20.22; Sample rype = Regular;
A =60]0; B=6013; C=6016; A lab spiii—' Phase —1
Aluminum
mg/kg
13300.00
26400.00
24300.00
Antimony
mg/kg
0.22
UJ
0.22
UJ
0.22
UJ
Arsenic
mg/kg
6.60
B
10.00
B
7.50
3
Bariun
mg/kg
57.60
64.00
63.50
Beryl I inn
mg/kg
0.37
B
0.33
B
0.53
B
Boron
mg/kg
53.00
J
40.00
J
33.00
J
Cackniun
mg/kg
0.22
U
0.22
U
0.22
U
Ca lei tin
mg/kg
801.00
U
473.00
U
369.00
U
Chromiun
mg/kg
27.90
52.40
44.00
Cobalt
mg/kg
8.90
B
3.80
B
6.10
B
Copper
mg/kg
14.10
J
19.80
J
23.70
J
Cyanide
mg/kg
0.42
UJ
0.44
UJ
0.44
UJ
Iron
mg/kg
26600.00
J
37900.00
J
37900.00
J
Lead
mg/kg
17.80
B
11.90
B
10.80
3
Lithiun
mg/kg
14.30
U
24.90
26.70
Hagnesiun
mg/kg
1180.00
1910.00
3120.00
Manganese
mg/kg
783.00
132.00
83.80
Mercury
mg/kg
0.21
0.18
0.14
U
Molybdenun
mg/kg
9.00
U
8.90
U
9.10
U
Nickel
mg/kg
11.80
15.40
26.70
Osmiun
mg/kg
14.10
UJ
14.00
UJ
14.00
UJ
Potassium
mg/kg
1060.00
1750.00
2320.00
Seleniun
mg/kg
0.53
U
0.61
U
0.38
U
Si I icon
mg/kg
516.00
J
588.00
J
397.00
J
S iIver
mg/kg
2.00
U
2.00
u
2.00
U
Strontiun
mg/kg
4.40
5.00
3.80
Sulfate
mg/kg
57.50
J
145.00
J
36.50
J
Thai I iun
mg/kg
0.22
u
0.22
u
0.22
u
Vaaadi un
mg/kg
33.70
44.30
35.20
Zinc
mg/kg
34.70
42.70
49.20
Locarion=ROA; Formation-DISMAL GAP; Sue—9.17.19; Sample type=Regular;
A=6004; B-600I; C=6007; A lab split =' Phase = l
Aluninun
mg/kg
14500.00
20600.00
23700.00
Ant imony
mg/kg
0.21
UJ
0.21
UJ
0.21
UJ
Arsenic
mg/kg
5.80
B
5.80
B
7.10
B
Bari un
mg/kg
78.30
69.40
73.20
Beryl I iun
mg/kg
0.55
B
0.46
B
0.53
B
Boron
mg/kg
38.90
J
16.00
J
36.60
J
Cacfcniun
mg/kg
0.21
U
0.21
U
0.21
U
Calciun
mg/kg
526.00
u
605.00
u
487.00
U
Chromium
mg/kg
20.20
26.50
29.60
Cobalt
mg/kg
37.00
20.30
27.00
Copper
mg/kg
12.00
J
13.40
J
38.90
-------�
D-25
Tabic D.l (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Cyanide
mg/kg
0.43
J
0.42
UJ
0.42
UJ
Iron
mg/kg
20700.00
J
26600.00
J
37000.00
J
Lead
mg/kg
48.20
B
15.50
B
38.90
B
L i thi un
mg/kg
13.70
U
19.20
31.20
Magnesium
mg/kg
1200.00
1700.00
2570.00
Manganese
mg/kg
2360.00
774.00
963.00
Mercury
mg/kg
0.16
0.15
U
0.16
Holybdemm
mg/kg
8.70
U
8.60
U
8.60
U
Nickel
mg/kg
16.20
18.70
26.70
Osmium
mg/kg
13.50
UJ
13.40
UJ
13.50
UJ
Potassiun
mg/kg
818.00
1280.00
2100.00
Selenium
mg/kg
1.20
0.44
B
0.21
U
Silicon
mg/kg
474.00
J
422.00
J
373.00
J
SiIver
mg/kg
1.90
U
1 .90
U
1.90
U
Sodi um
mg/kg
301.00
U
332.00
U
305.00
J
Strontium
mg/kg
3.50
4.50
4.20
Sulfate
mg/kg
78.40
J
159.00
J
59.70
J
Thai I iun
mg/kg
0.27
5
0.42
B
0.59
B
Vanadium
mg/kg
29.30
36.20
35.20
Zinc
mg/kg
36.30
36.20
48.30
-------�
Appendix E
-------�
Table 1L1. Radionuclide analysts results for composite soil samples
A horizon B horizon C horizon A lab split
Analysis Units Result Qualifier Result Qualifier Result Qualifier Result Qualifier
l.ocaiion-AND; Fonnation-COPPER RIDGE; Site =31,32,36; Sample lype=liegiiliir, A=7058; B = 706I; C=7064; A lab split — ' ';
Phtise=2
Americium-241
pCi/g
0.0756
U
0.09
u
0.04BO
U
Barium-133
pCi/g
0.0316
U
0.03
U
0.0212
U
Cesium-137
pCi/g
0.5240
0.03
U
0.0203
U
Chromium-51
pCi/g
0.5000
U
0.63
U
0.3940
U
Cobolt-57
pci/g
0.0172
U
0.02
U
0.0130
U
Cobalt-60
pCi/g
0.0284
U
0.03
U
0.1950
U
Curium-243
pCi/g
0.1460
U
Curium-244
pci/g
0.0685
UJ
Cur iun-245
pci/g
0.2080
U
Curium-247
pci/g
0.0280
U
Europium-152
pci/g
0.1500
U
0.16
U
0.1090
U
Europiun-154
pci/g
0.0326
U
0.04
U
0.0247
u
Hafnium-181
pci/g
0.0509
U
0.06
U
0.0368
u
Iridium-192
pCi/g
0.0308
U
0.03
U
0.0228
u
Neptunium-237
pci/g
0.1150
J
Neptunium-237 (gainna)
pci/g
3.3700
U
3.70
U
2.4700
u
Niobium-95
pci/g
0.0624
U
0.07
U
0.0496
u
Plutonium-238
pci/g
0.0831
UJ
Plutonium-239/240
pci/g
0.0665
UJ
Potassium-40
pci/g
2.2000
4.23
5.0300
Radium-226
pci/g
1.0400
1.15
0.9610
Ruthenium-103
pci/g
0.0485
u
0.06
U
0.0370
u
Stronrium-90
pci/g
0.9230
u
Thorium-228
pci/g
0.6620
J
0.99
J
1.0300
J
Thoriun-230
pci/g
0.7320
J
1.20
J
1.1700
J
Thorium-232
pci/g
0.6270
J
1.13
J
0.9100
J
Thorium-234
pCi/g
0.8590
UJ
2.47
J
0.5820
UJ
Total Uranium
pCi/g
0.5280
J
Uroniuni-233/234
pci/g
0.9790
J
1.52
J
1.3600
J
Uranium-235
pci/g
0.0799
J
0.09
J
0.0389
UJ
Uranium-235 (gartma)
pci/g
0.1490
U
0.15
U
0.1040
U
Uranium-236
pci/g
0.0254
UJ
0.01
UJ
0.0122
UJ
Uranium-238
pci/g
1.2000
J
1.65
J
1.4200
J
Uraniuin-238 (yiiiiiiui)
pci/g
16.1000
U
18.70
U
13.1000
u
Z i nc-65
pci/g
0.0623
u
0.06
U
0.0447
u
1i rconi um-95
pci/g
0.0670
u
0.08
u
0.0535
-------�
Tabtc 111 (continued)
A horizon
13 horizon
C horizon
A lab split
Analysis
Units
Result
Qualifier
Result
Qualifier
Result
Qualifier Result Qualific
Location =AND; Formation
=COri'ER RIDGE; Site =33; Sample type =
Regular; A
= 7084; 1)='
• C=*
A lab split = ' Phase
= 2
Technet i um-99
pCi/g
1.2800
u
Location =A ND, Fonnation -
COl'I'ER RIDGE; Site =33,34,35; Sample type-Regular; A-7048; 11
= 7052;
C=7055; A lab split =
7049
Phase =2
Americium-241
pC
/g
0.0496
u
0.07
u
0.0882
u
0.0715
U
Barium-133
pC
/g
0.0154
u
0.03
u
0.0345
u
0.0248
u
Cesium-137
pC
/g
0.0142
u
1.01
0.0323
u
0.5750
Chromum-51
pC
/g
0.2580
u
0.44
u
0.5710
u
0.4540
u
Cobalt-57
PC
/g
0.0101
u
0.01
u
0.0191
u
0.0147
U
Cobalt-60
pC
/g
0.0144
U
0.02
u
0.0324
n
0.0241
u
Curium-243
PC
/g
0.0616
U
0.1200
u
Curium-244
pC
/g
0.0078
UJ
0.3340
UJ
Curium-245
PC
/g
0.1230
U
0.1790
u
Curium-247
PC
/g
0.0149
u
0.0228
u
Europium-152
PC
/g
0.0793
u
0.14
u
0.1700
u
0.1260
u
Europium-154
PC
/g
0.0193
u
0.03
u
0.0360
u
0.0279
u
Hafnium-181
pC
/g
0.0257
u
0.04
u
0.0556
u
0.0407
u
Iridium-192
pC
/g
0.0167
u
0.03
u
0.0355
u
0.0269
u
Neptunium-237
PC
/g
0.0594
UJ
0.0700
J
Neptunium-237 (gamma)
PC
/g
2.0600
u
2.98
u
3.9200
u
2.9900
u
Niobium-95
PC
/ g
0.0371
u
0.05
u
0.0726
u
0.05B9
u
Plutonium-238
pC
/g
0.0477
UJ
0.1410
UJ
Plutonium-239/240
PC
/g
0.0331
UJ
0.0344
UJ
Potassium-40
PC
/9
5.3300
6.78
4.0600
3.0700
Radium-226
PC
/g
0.9200
1.01
1.0900
1.0400
Ruthenium-103
pC
/g
0.0240
u
0.03
u
0.0548
u
0.0406
u
Strontium-90
pC
/g
0.8660
u
0.8130
u
Thorium-228
PC
/g
0.9070
j
1.0B
J
1.1700
J
0.7260
J
Thorium-230
pC
/g
1.2500
j
0.93
J
1.3500
J
0.8480
J
Thorium-232
PC
/g
0.8390
j
1.16
J
1.0700
J
0.61B0
J
ThoriLm-234
pcl/g
1.2300
j
0.92
UJ
1.0000
UJ
0.6280
UJ
Total Uranium
pci/g
0.4160
j
1.9900
J
Uranium-233/234
pci/g
1.0900
j
1.15
J
1.3300
J
0.9510
J
U:anium-235
pci/g
0.1110
j
0.08
J
0.0504
J
0.0539
J
llranium-235 (garrma)
pci/g
0.0794
u
0.18
u
0.1690
u
0.0116
u
Uraniun-236
pci/g
0.0119
UJ
0.01
UJ
0.0401
UJ
0.0293
UJ
Uranium-238
pCi/g
1.4100
J
1.42
J
1.2600
J
1.1500
J
Uranium-238 (gumma)
pCi/g
9.0200
u
14.30
u
18.7000
u
15.5000
u
Zinc-65
pCi/g
0.0331
u
0.06
u
0.0710
u
0.0498
u
Z i rconlmn-95
pC
/g
0.0389
u
0.06
u
0.0811
u
0.0593
-------�
I'abJc 111 (continued)
A horizon
B horizon
C horizon
A lab split
Analysis
Units
Result
Qualifier Result
Qualifier
Result
Qualifier Result Qualifier
Location—AND, Formation=COPPLR 1UDGE; Site
II
s?
5
tl
Regular; A —
7085; [)='',
( ' =' '/ A lab split = ' Phase =2
lechnet iinn-99
pCi/g
3.3500
Location =ANl); iormattot
=copplh hiiktie
Sue -
ii
S.
o
11
Regular, A =
7 a10; 11='
A lab splil=' Phasv=2
Technet nim-99
pCi/g
3.5400
Locution =AN1); Formation
=cam-:n HI IK Hi;
Site =
37,38,41; Sample type—Hegulai
; A - 7076; 11 = 7079, C-70S2; A lab splits' ';
Phase =2
Amer i c u/m- 241
pci/g
0. 1030
u
0.10
U
0.1110
V
Barium-133
pci/g
0.0426
U
0.03
U
0.0377
u
Ces i tm-137
pCi/g
1.1100
0.03
U
0.0336
u
Chromi um-51
pCi/g
0.7200
U
0.57
U
0.6480
u
Cobalt- 57
pCi/g
0.0239
u
0.02
U
0.0224
u
Cobalt- 60
pci/g
0.0375
U
0.03
U
0.0331
u
Cur i urn-243
pci/g
0.2050
u
Curium-245
pci/g
0.2900
u
Curium-247
pci/g
0.0384
u
Europium-152
pC
/g
0.2070
u
0.19
u
0.1Q50
u
Europium-154
pC
/g
0.0466
u
0.04
u
0.0426
u
Hafniim-181
pc
/ g
0.0732
u
0.05
u
0.0624
u
Iridium-192
pC
/ g
0.0440
u
0.03
u
0.0384
u
Neptunun-237
pC
/g
0.0629
UJ
Neptunium-237 (gniinia)
pC
/g
4.6800
u
4.19
u
4.4300
u
Niobium-95
pC
/g
0.0859
u
0.08
u
0.0777
u
Plutonium-230
pC
/g
0.2250
J
Ptutonium-239/24u
pC
/g
0.0397
UJ
Potassiun-40
pC
/ g
3.7700
8.18
6.6500
Radiun-226
pC
/g
0.0733
IJ
2.82
1.5800
Ruthenium-103
pC
/g
0.0700
u
0.05
u
0.0607
u
Strontiun-90
pC
/g
1.0200
Thorium-228
pC
/g
0.9420
j
1.54
J
1.3100
J
Thorium-230
pC
/g
1.3400
j
2.55
J
2.5500
J
Thorium-232
pc
/g
0.8510
j
1.25
J
1.2500
J
Thorium-234
pC
/g
1.1700
UJ
3.68
J
1.1500
UJ
Total Ureniun
pC
/g
0.8640
J
Uranium-233/234
pC
/g
1.3200
J
2.64
J
1.8500
-------�
Table 111 (continued)
A horizon B horizon C horizon A lab split
Analysis Units Result Qualifier Result Qualifier Result Qualifier Result Qualifier
Uranium-235
pCi/g
0.0836
J
0.22
J
0.3390
J
Uranium-235 (gatmia)
pCi/g
0.2050
U
0.18
U
0.1860
U
UrBnii*n-236
pct/g
0.0139
UJ
0.03
UJ
0.0099
UJ
Uranium-238
pel/a
1.4700
J
2.90
J
1.8100
J
Uranium-238 (gamma)
pci/g
23.3000
U
19.00
U
20.8000
U
Zinc-65
pci/g
0.0862
U
0.07
U
0.0710
U
Zi rconum-95
oCi/g
0.0991
U
0.08
U
0.0873
u
I,oi:tiiiun=ANl), I(>rmtition=COI'I'Lli RllKlE; Sitc=3'J,4(),42; Sample type—Rc^ahu; A — 7007; li = 7070; C—7073; A lab split — '
l'hase=2
Americ ium-241
pCi/g
0.0973
U
0.08
U
0.1110
U
Bar i um-133
pCi/g
0.0386
U
0.03
u
0.0379
U
Cesium-137
pCi/g
0.9460
0.02
u
0.0345
U
Chromium-51
pCi/g
0.6210
U
0.44
u
0.6490
U
Cobalt-57
pCi/g
0.0217
U
0.02
u
0.0227
U
Cobalt-60
pC
/ 9
0.0354
U
0.02
u
0.0336
u
Curium-243
pC
/9
0.1870
U
Curium-245
pC
/g
0.2650
U
Curium-247
pC
/3
0.0364
U
Europium-152
pC
/9
0.1950
U
0.14
u
0.1840
u
Europi um-154
pC
/g
0.0415
U
0.03
u
0.0435
u
Hafnium-181
pC
/g
0.0639
u
0.04
u
0.0619
u
1ridium-192
pC
/9
0.0400
U
0.03
u
0.0393
u
Neptunium-237
pC
/g
0.0461
J
Neptunium-237 (gamna)
pC
/g
4.2500
u
3.24
u
4.5300
u
Niobium-95
pC
/9
0.0841
U
0.06
u
0.0755
u
Plutonium-238
PC
/9
0.1650
UJ
Ptutonium-239/240
pC
/g
0.0519
UJ
Potassium-40
pC
/9
3.7100
5.77
5.5200
Radium-226
PC
/9
1.5800
0.97
1.5900
Rutheniun-103
pCi/g
0.0612
u
0.04
u
0.0625
u
Stront ium-90
pCi/9
0.7250
U
Thoriunr228
pCi/g
1.0000
J
1.25
J
1.2600
J
Thorium-230
pCi/g
1.3900
J
1.84
J
1.6900
J
Thorium-232
pCl/g
0.9740
J
1.28
J
1.2700
J
Thorium-234
pCi/g
1.0600
UJ
1.96
J
2.6300
J
Total Uranium
pCi/g
2.1600
J
Uranium-233/234
pci/g
1.4400
J
1.53
J
1.4800
J
Uranium-235
pci/g
0.0548
J
0.38
J
0.3210
J
Uranium-235 (gamna)
pci/g
0.1030
u
0.12
u
0.1690
-------�
Table 1L1 (oonlinucd)
A horizon B horizon C horizon A lab split
Analysis Units Result Qualifier Result Qualifier Result Qualifier Result Qualifier
Urani i*n-236
pCi/g
0.0348
UJ
0.01
UJ
0.0100
UJ
Uranium-238
pCi/g
1.5100
J
1.42
J
1.5400
J
Uranium-238 (gairma)
pCi/g
19.8000
U
15.10
U
20.3000
U
Zinc-65
pCi/g
0.0826
U
0.05
U
0.0751
U
1i rconi um-95
pCi/g
0.0916
U
0.06
U
0.0872
U
/ <>(iilioii=ANl), /¦< u million — DISMAL < /.!/', Sue = 1,20,22; Sample ty/x' — liegultir, A —702V, II — 70.i 2, (' = 70.1'); A tub spht = ' I'/nnc = 1
Amer i c i um-24 1
pCi/g
0.0420
U
0.04
U
0.0320
U
Barium-133
PCi/g
0.0110
U
0.01
U
0.0077
U
Cesium-137
pCi/g
0.9300
0.14
0.0074
U
Chromi um-51
pci/g
0.1000
U
0.06
U
0.0490
U
CobaIt-57
pci/g
0.0074
U
0.01
U
0.0054
U
Cobalt-60
pCi/g
0.0100
u
0.01
U
0.0077
U
Europium-152
pci/g
0.0440
u
0.04
U
0.0360
U
Europium-154
pci/g
0.0150
u
0.01
U
0.0110
U
Hafniun-181
pCi/g
0.0120
u
0.01
U
0.0065
U
Iridium-192
pci/g
0.0090
u
0.01
U
0.0056
U
Neptunium-237
pCi/g
0.0750
J
N i obi um-95
pCi/g
0.0140
u
0.01
u
Plutonium-238
pCi/g
0.0370
UJ
Plutoni um-239/240
pCi/g
0.0150
UJ
Potassium-40
pci/g
30.0000
21.00
21.0000
Radium-226
pCi/g
1.6000
1.90
1.5000
Ruthenium-103
pCi/g
0.0120
U
0.01
u
0.0061
U
Stront ium-90
pCi/9
4.2000
u
Thorium-228
pCi/g
1.8000
J
1.10
J
1.3000
J
Thorium-230
pci/g
0.6000
J
1.20
J
0.8000
J
Ihorium-232
pCl/g
1.1000
J
1.10
J
1.1000
J
Thorium-234
pCi/g
0.9700
1.20
1.0000
lotal Uranium
pCi/g
0.8400
J
Uranium-233/234
pci/g
0.7400
J
0.95
J
0.9800
J
Uranium-235
pci/g
0.06B0
UJ
0.05
J
0.0470
J
Uranium-235 (ganina)
pCi/g
0.0548
0.05
0.0194
Uranium-236
pCi/g
0.0430
UJ
0.02
UJ
0.0210
UJ
Uranium-238
pCi/g
0.8600
J
1.10
J
0.8500
J
Zinc-65
pci/g
0.0250
u
0.02
U
0.0160
u
Zi rconi um-95
pCi/g
0.0200
u
0.02
u
0.0130
-------�
Table ill (continued)
A horizon B horizon C horizon A lab split
Analysis Units Result Qualifier Result Qualifier Result Qualifier Result Qualifier
Loctttion=AND; Formation = I)ISKL4L. GAP; Site =3; Sample type-Regular; A =7087; ZJ=' '; C—' '; A lab splil=' Phase—2
Technetium-99 pCi/g 6.3200
Locution-AND, formation=DISMAL GAP, Siic=3,5,11; Sample lype=liegitlar; A = 7UI 1; B = 7014; C=7017; A lab splil =' I'liase=1
Amer i c i im-241
pCi/g
0.0280
U
0.03
u
0.0360
U
Barium-133
pCi/g
0.0069
U
0.01
u
0.0087
U
Ccj 1 urn-137
pCi/g
0.0340
1.20
0.0280
Chromium-51
pCi/g
0.0690
U
0.09
u
0.0870
U
Cobalt-57
pci/g
0.0059
U
0.01
u
0.0061
U
Cobalt-60
pCi/g
0.0069
u
0.01
u
0.0089
U
Europium-152
pCi/g
0.0360
u
0.04
u
0.0420
U
Europium-154
pCi/g
0.0120
u
0.01
u
0.0120
U
Hafniun-181
pCi/g
0.0080
u
0.01
u
0.0099
u
tridium-192
pCi/g
0.0060
u
0.01
u
0.0074
u
Neptunium-237
pCi/g
0.1500
J
Niobium-95
pci/g
0.0110
u
0.01
u
0.0130
U
Plutonium-238
pci/g
0.0550
UJ
Plutonium-239/240
pci/g
0.0120
UJ
Potassium-40
pci/g
17.0000
31.00
31.0000
Radium-226
pci/g
pci/g
2.1000
1.60
1.8000
Ruthenium-103
0.0075
u
0.01
u
0.0095
u
Strontiinn-90
pci/g
3.9000
u
Thorium-228
pci/g
1.2000
J
0.58
J
1.3000
J
Thorium-230
pci/g
1.1000
J
0.63
J
1.0000
J
Thoriun-232
pCi/g
1.1000
J
0.87
J
1.4000
J
Thoriun-234
pci/g
1.2000
0.92
1.2000
Total Uranium
PCi/g
1.2000
J
Uraniun-233/234
pci/g
0.9900
J
0.91
J
0.7900
J
Uranium-235
pCi/g
0.0510
UJ
0.09
J
0.0500
J
Uranium-235 (gamma)
pCi/g
0.0666
0.06
0.0404
Uranium-236
pCi/g
0.0180
UJ
0.02
UJ
0.0380
UJ
Uranium-238
pci/g
0.9800
J
0.80
J
0.8400
J
Zinc-65
pci/g
0.0170
u
0.02
U
0.0220
U
Zi rconinn-95
pCi/g
0.0150
u
0.02
u
0.0180
-------�
Tabic 111 (continued)
A horizon 13 horizon C horizon A lab split
Analysis IJnils Result Qualifier Result Qualifier Result Qualifier Result Qualifier
IDcation-ANl); Formation = I)ISMAI. GAI'; Site=4; Sample type=Regular; A = 7088; li= ' '; (7=' A lab splil=' '; Phase=2
Technctium-99 pCi/g A.6400
Location=AND; Fonnation=DlSMAL GAI'; Silc=4; Sample ty[K =Field Duplicate, A = 7089, II — ' '; C=' '; A lab split =' '; Phase = 2
Technetium-99 pCi/g 0.7750 U
l.ocaiwn=ANl), I'ornmtion = 1)1 S MA L GAI'; Stte = 4,l 2,21; Sample type-Regular; A — 7020; 11 = 7023; C=702<>; A lab split =' '; Phase = I
Amer ic ium-241
pCi/g
0.0300
U
0.03
U
0.0390
u
Barium-133
pCi/g
0.0073
U
0.01
U
0.0100
u
Cesium-137
pCi/g
0.0074
U
0.01
1.1000
Chromium-51
pci/g
0.0730
U
0.05
U
0.0620
u
Cobalt-57
pci/g
0.0060
U
0.01
U
0.0064
u
Cobalt-60
pCi/g
0.0082
U
0.01
U
0.0083
u
Europium-152
pci/g
0.0370
U
0.04
U
0.0420
u
Europium-154
pCi/g
0.0120
U
0.01
U
0.0130
u
Hafnium-181
pCi/g
0.0084
U
0.01
U
0.0086
u
1ridium-192
pci/g
0.0063
U
0.01
U
0.0071
u
Neptunium-237
pCi/g
0.0700
J
Niobium-95
pCi/g
0.0110
U
0.01
u
0.0086
u
Plutonium-238
pCi/g
0.0580
UJ
Plutonium-239/240
pci/g
0.0580
UJ
Potassium-40
pCi/g
21.0000
33.00
15.0000
Radium-226
pCi/g
1.9000
1.60
1.6000
Ruthcni um-103
pCi/g
0.0077
U
0.01
u
0.0079
u
Strontium-90
pci/g
3.9000
U
Thorium-228
pCi/g
1.0000
J
1.20
J
0.7900
J
lhorium-230
pCi/g
0.8010
J
0.81
J
0.6800
J
Thorium-232
pCi/g
1.1000
J
1.10
J
0.7100
J
Thorimn-234
pCi/g
1.2000
1.00
0.9100
Total Uranium
pCi/g
0.8600
J
Uranium-233/234
pCi/g
1.1000
J
0.85
J
0.8000
J
Uraniuni-235
pCi/g
0.0450
UJ
0.02
UJ
0.0320
UJ
Uranium-235 (ganma)
pCi/g
-0.0660
0.07
0.0366
Uraniun-236
pCi/g
0.0190
UJ
0.02
UJ
0.0310
UJ
Uranium-238
pCi/g
0.9200
J
0.93
J
0.8100
J
Zinc-65
pcf/g
0.0190
u
0.02
u
0.0190
u
Zi rconium-95
pci/g
0.0170
u
0.02
u
0.0140
-------�
TaMc ELI (continued)
A horizon 13 horizon C horizon A lab split
Analysis Units Result Qualifier Result Qualifier Result Qualifier Result Qualifier
Loc(ition=AND, Formations DISMAL GAP; Site=9,10,19; Sample type=Regular; A = 7002; B=7005; C=7008; A lab split—' I'luise=l
Americium-241
pCi/g
0.0330
U
0.03
U
0.0380
U
Barium-133
pCi/g
0.0098
U
0.01
U
0.0096
U
Cesium-137
pCi/g
1.8000
0.01
0.0200
Chromimi-51
pC i /g
0.0930
U
0.05
u
0.0940
U
Cobalt-57
pCi/g
0.0067
U
0.01
U
0.0068
U
Cobalt-60
pCi/g
0.0079
U
0.01
U
0.0091
U
Europium-152
pci/g
0.0420
u
0.04
U
0.0410
u
Europi urn-154
pci/g
0.0110
u
0.01
U
0.0140
u
Hafnium-181
pci/g
0.0120
u
0.01
U
0.0110
U
Iridium-192
pCi/g
0.0080
u
0.01
U
0.0081
U
Ni obi um-95
pci/g
0.0120
u
0.01
U
0.0130
u
Plutonium-238
pci/g
0.0540
UJ
Plutonium-239
pCi/g
0.0340
J
Plutonium-240
pCi/g
0.0430
UJ
Potassium-AO
pCi/g
13.0000
28.00
31.0000
Radium-226
pCi/g
1.8000
1.60
1.7000
Ruthenium-103
pci/g
0.0110
u
0.01
U
0.0100
u
Stront ium-90
pCi/g
3.7000
u
Thoriun-228
pCi/g
0.9500
J
1.40
J
1.1000
J
Thorii*n-230
pci/g
0.8200
J
0.95
J
0.7900
J
Thorium-232
pCi/g
1.1000
J
1.40
J
1.2000
J
Thorium-234
pCi/g
1.0000
0.98
0.9100
lotel Uranium
pCi/g
1.3000
J
Uranium-233/234
pCi/g
0.8800
J
0.82
J
0.7600
J
Uranium-235
pci/g
0.0880
J
0.04
J
0.0470
J
Urani im-235 (gainma)
pCi/g
0.0648
0.05
0.0396
Uranium-236
pCi/g
0.0610
UJ
0.02
UJ
0.0190
UJ
Uranium-238
pci/g
0.7400
J
0.93
J
0.8900
J
Zinc-65
pCi/g
0.0200
u
0.02
u
0.0230
u
Zi rconium-95
pC i /g
0.0170
u
0.01
u
0.0200
-------�
Table 111 (continued)
A horizon H horizon C horizon A lab split
Analysis Units Result Qualifier Result Qualifier Result Qualifier Result Qualifier
l,ocatian=AND; lonnation-DISMAL GAP; Site=9,10,19; Sample type—Field Duplicate; A = 7038; B = 7041; C =7044; A lab split = '
Phase=1
Americium-241
pCi/g
0.0300
U
0.03
U
0.0290
u
Barium-133
pci/g
0.0086
U
0.01
U
0.0074
U
Cesi um-137
pCi/g
1.3000
0.02
0.0073
U
Chromium-51
pci/g
0.0510
U
0.04
U
0.0460
U
Coba11- 57
pCi/g
0.0058
U
0.01
U
0.0057
U
Cobalt-60
pCi/g
0.0071
U
0.01
U
0.0074
U
Curium-243
pCi/g
0.0460
U
Curium-245
pCi/g
0.0770
U
Curium-247
pci/g
0.0080
U
Europium-152
pci/g
0.0370
U
0.04
u
0.0380
U
Europium-154
pCi/g
0.0120
U
0.01
u
0.0120
U
Hafni um-181
pci/g
0.0074
U
0.01
u
0.0062
U
Iridium-192
pCi/g
0.0060
u
0.00
u
0.0053
U
Neptunium-237
pCi/g
0.0750
J
N i obi um-95
pCi/g
0.0076
u
0.01
u
0.0077
U
Plutonium-238
pCi/g
0.0350
J
Plutonium-239/240
pCi/g
0.0440
UJ
Potassium-40
pci/g
13.0000
16.00
20.0000
Radium-226
pci/g
1.6000
1.90
1.9000
Ruthenium-103
pci/g
0.0066
u
0.01
u
0.0057
U
Stront i um-90
pCi/g
1.6000
u
Thoriun-228
pCi/g
0.9600
J
1.30
J
1.0000
J
Thorium-230
pci/g
1.8000
J
1.80
J
0.9800
J
lhoriun-232
pci/g
0.8000
J
1.40
J
1.2000
J
Thoriun-234
pCl/g
0.8400
1.20
1.1000
Total Uraniun
pci/g
1.0000
J
Uraniim-233/234
pci/g
0.9400
J
1.10
J
1.1000
J
Uranium-235
pci/g
0.0480
UJ
0.05
UJ
0.0530
UJ
Uranium-235 (gamma)
pci/g
0.0470
0.04
0.0592
Uraniim-236
pci/g
0.0210
UJ
0.04
UJ
0.0230
UJ
UraniLin-238
pCi/g
0.8800
J
1.20
J
1.1000
J
Zinc-65
pci/g
0.0180
u
0.02
u
0.0180
U
Zi rconium-95
pci/g
0.0130
u
0.01
u
0.0130
-------�
Table 111 (continued)
A horizon 13 horizon C horizon A lab split
Analysis Units Rcsull Qualifier Result Qualifier Result Qualifier Result Qualifier
Loattion=Ol(H; Formation=('IHil'ULlhi'l:C; Site=50,66,73; Sample type=Regular; A =5107; 1)=5171; C=5182; A lab split=5I6S;
l'hase=2
Americium-241
pCi/g
0.1160
U
0.11
U
0.0583
U
0.1020
U
Barium-133
pci/g
0.0423
U
0.03
U
0.0202
U
0.0380
U
Cesium-137
pci/g
0.9300
0.04
U
0.0179
U
0.9410
ChromiLin-51
pci/g
0.2530
U
0.22
U
0.4410
U
0.2280
U
Cobalt-57
pCi/g
0.0206
U
0.02
u
0.0124
U
0.0179
U
Cobalt-60
pCi/g
0.0421
U
0.04
u
0.0179
U
0.0343
U
Curium-243
pci/g
0.2030
U
0.1760
U
Cur inn-24 5
pci/g
0.2800
U
0.2530
U
Curium-247
pci/g
0.0411
U
0.0357
U
Eui opium- 152
pci/g
0.2360
U
0,21
II
0.1100
U
0.2070
U
Europi um-154
pci/g
0.0429
U
0.04
u
0.0228
U
0.0380
U
Hafnium-181
pCi/g
0.0386
U
0.03
u
0.0401
U
0.0334
U
Iridium-192
pci/g
0.0309
U
0.02
u
0.0227
U
0.0265
U
Neptunium-237
pci/g
0.0321
J
0.0750
J
Neptunium-237 (gairnia)
pci/g
4.5500
U
3.99
u
2.4000
U
3.9900
U
N i obium-95
pci/g
0.0399
U
0.04
u
0.0508
U
0.0353
U
Plutonium-238
pci/g
0.0360
UJ
0.1840
J
Plutonium-239/240
pci/g
0.0377
J
0.0415
UJ
Potassium-40
pCi/g
3.7100
9.46
11.0000
3.2500
Radium-226
pci/g
1.2500
6.55
1.3200
1.1400
Ruthenium-103
pci/g
0.0356
U
0.03
u
0.0394
u
0.0286
U
Stront ium-90
pci/g
1.2100
U
0.7700
U
Thorium-228
pci/g
0.8990
J
1.12
J
1.4600
J
0.6230
J
Thorium-230
pCi/g
1.0900
J
1.56
J
1.4900
J
0.7580
j
Thorium-232
pCi/g
1.3100
J
1.19
J
1.3800
J
0.6180
J
Thorium-234
pCi/g
1.1700
UJ
1.00
UJ
0.7630
UJ
0.9550
UJ
Total Uraniuni
pci/g
0.9720
J
5.5600
J
Uranium-233/234
pci/g
1.2300
J
1.42
J
1.6900
J
1.1600
J
Uraniun-235
pci/g
0.2170
J
0.18
J
0.0809
J
0.1870
J
Uraniuni-235 (ganma)
pCi/g
0.1790
u
0.17
u
0.1450
u
0.1600
u
Uranium-236
pCi/g
0.0267
UJ
0.01
UJ
0.0186
IIJ
0.0269
UJ
Uranium-238
pci/g
1.1600'
J
1.63
J
1.8200
J
1.2600
J
Uraniun-238 (gnmna)
pci/g
7.9000
u
6.61
u
1.8800
U
6.6900
u
Z inc-65
pCi/g
0.0879
u
0.07
u
0.0444
u
0.0741
u
Z i rconiun-95
pCi/g
0.0673
u
0.06
u
0.0581
U
0.0624
-------�
Tubk: LL1 (continued)
A horizon 13 horizon C horizon - A lab split
Analysis Units Result Qualifier Result Qualifier Result Qualifier Result Qualifier
LociUion = ()I(l{; l;orm
-------�
TaWc LL1 (continued)
A horizon U horizon C horizon A lab split
Analysis L/nits Result Qualifier Result Qualifier Result Qualifier Result Qualifier
Locdtion=ORR; Formation=C}1EPULTEPEC; Site =52,53,78; Sample type=Regu!nr; A =5128; B=5131; C=5134; A lab split = ' ';
Phase =2
AmericiLm-241
pCi/g
0.0768
U
0.10
U
0.1020
u
Barium-133
pci/g
0.0271
U
0.04
U
0.0334
u
Cesium-137
pci/9
0.9260
0.03
U
0.0320
u
Chromium-51
pci/g
0.1700
U
0.24
U
0.2060
u
Cobat t-57
pCi/g
0.0145
U
0.02
U
0.0180
u
Cobat t-60
pCl/g
0.0253
U
0.04
u
0.0255
u
Curium-243
pC
i/g
0.1400
u
Curiim-245
pci/g
0.1970
u
Curium-247
/a
0.0259
u
Europium-152
pci/g
0.1400
u
0.1V
u
U. 1510
u
Europi urn -154
pCi/g
0.0308
u
0.04
U
0.0378
u
Hafnium-181
pcl/g
0.0225
u
0.03
u
0.0284
u
I ridiun-192
pc
/9
0.0191
u
0.03
U
0.0237
u
Neptunium-237
pC
/a
0.0786
J
Neptunium-237 (gamma)
pC
/a
4.50
U
3.8100
u
Niobium-95
pC
/g
0.0277
u
0.04
u
0.0306
u
Plutonium-238
pC
fa
0.1150
UJ
Plutonium-239/240
pC
/g
0.0823
UJ
Potassium-40
pC
/9
3.4500
1.37
u
1.2200
u
Radium-226
pC
/ 9
1.0700
1.20
1.3100
Ruthenium-103
pC
/g
0.0218
u
0.03
U
0.0261
u
Strontium-90
pC
/9
0.8040
u
Thorium-228
pC
/a
0.6740
J
1.01
J
1.0800
J
Thorium-230
pC
/a
0.7370
J
1.13
J
1.9100
J
Thorium-232
pC
/a
0.6370
J
1.14
J
1.1400
J
Thorium-234
pCi/g
0.7480
UJ
1.19
UJ
1.0500
UJ
Total Uraniun
pC
/9
1.2900
J
Uranium-233/234
pC
/9
1.1900
J
1.34
J
1.0800
J
Uranium-235
pC
/ 9
0.0808
UJ
0.11
UJ
0.0834
J
Uranium-235 (ganmia)
pC
/ 9
0.18
u
0.1610
u
Uraniun- 236
pC
/a
0.0316
UJ
0.03
UJ
0.0312
UJ
Uranium-238
pC
/a
1.1700
J
1.55
J
1.2500
J
Uranium-238 (gunuia)
pc
/a
4.5400
u
7.06
u
5.4400
u
Z inc-65
pC
/a
0.0526
u
0.08
u
0.0595
u
Zirconium-95
pC
/a
0.0398
u
0.06
u
0.0509
-------�
Table 111 (continued)
A horizon
B horizon
C horizon
A lab split
Analysis
Units
Result
Qualifier Result
Qualifier
Result
Qualifier
Result
QualifU
Locution-Olili; l-ormat\on-CIIEl'ULTEl'LC; Site -
OS; Sample type = Regular; A —
¦4272; li = ' •
C=' '; A lab splits' '; Phase— 2
Technet iinn-99
pCi/g
1.1400
U
Location =OHH; l'onnation =
Clllil'ULlEPEC;
Site = 68,7-1,'JO; Sample type
=l(eguhii,
A =5156, B
=5160; C
=5163; A lab split
=5157,
I'liase — 2
flmer ic i inn - 24 1
pC
/g
0.0752
U
0.09
U
0.0682
U
0.0766
ii
Bari urn-133
pC
/g
0.0273
U
0.03
U
0.0232 -
u
0.0286
u
Cesium-137
pC
/g
1.0200
0.03
U
0.0217
U
1.0600
Chromium-51
pC
/g
0.1600
U
0.21
U
0.1400
U
0.1730
u
Cobalt-57
pC
/g
0.0140
U
0.02
U
0.0126
U
0.0146
u
Cobalt-60
pC
/g
0.0230
U
0.03
U
0.0203
U
0.0230
u
Curium-243
pC
/g
0.1300
U
0.1400
u
Curiutn-245
pC
/ g
0.1910
U
0.1980
u
Cur i um-247
pC
/ g
0.0221
U
0.0363
u
Europi im-152
pC
/g
0.1290
U
0.17
u
0.1220
U
0.1370
u
Europium-154
pC
/g
0.0293
U
0.04
u
0.0267
U
0.0308
u
Hafniun-181
pC
/ g
0.0218
U
0.03
u
0.0193
U
0.0233
11
Ir idium-192
pC
/g
0.0183
u
0.02
u
0.0161'
U
0.0197
u
Neptunkm-237
pC
/g
0.0863
J
0.0707
J
Neptunium-237 (ganma)
pC
/g
3.1900
u
3.94
u
2.8100
U
3.1800
u
Niobiini-95
pC
/g
0.0263
u
0.03
u
0.0210
U
0.0232
u
Plutonium-230
pC
/g
0.1070
J
0.1160
J
Plutonium-239/240
pC
/g
0.0322
UJ
0.1170
UJ
Potassium-40
pC
/g
3.4500
13.10
10.8000
2.3400
Radium-226
pC
/g
0.0546
u
1.30
1.4500
1.0500
Ruthenium-103
pC
/g
0.0188
u
0.03 -
u
0.0183
u
0.0224
u
Stront ium-90
pC
/g
0.8720
u
0.9710
u
Thoriun-228
pC
/ g
0.4070
J
1.17
J
1 .3900
J
0.5840
J
Tliorium-230
PC
/g
0.6670
J
1.28
J
1.2600
J
0.7000
J
Ihorium-232
PC
/g
0.4970
J
1.38
J
1.3900
J
0.6250
J
Thorium-234
pC
/g
0.7130
UJ
1.06
UJ
0.9650
UJ
1.0900
UJ
Uraniim-233/234
pC
/g
1.2000
J
1.17
J
1.4000
J
1.0700
J
Uraniun-235
pC
/g
0.0783
J
7.72
J
0.0413
UJ
0.0718
J
Uranium-235 (guiiiiia)
pc
/g
0.1310
u
0.17
u
0.1410
u
0.1740
u
Uraniim-236
pC
/g
0.0469
IJJ
0.04
UJ
0.0412
UJ
0.035B
UJ
Uraniun-238
pc
/g
1.2000
1.42
J
1.2800
J
1.1600
J
Uraniun-238 (gaiuna)
pC
/g
4.4600
0
5.80
u
5.2000
u
4.7200
u
Zinc-65
pC
/g
0.0461
u
0.07
u
0.0452
u
0.0503
u
Zirconiim-95
pc
/g
0.0394
u
0.05
u
0.0332
u
0.0388
-------�
Tabic IL1 (continued)
A horizon B horizon C horizon A lab split
Analysis Units Result Qualifier Result Qualifier Result Qualifier Result Qualifier
Location =ORR; Formation=CHEPULTEPEC; Site=73; Sample type=Regii!ar; A =4273; B=' '; C=' A lab split =' Phase=2
Techneti un-99 pCi/g 1.0900 U
l.ocation=ORR, Formation = C.'f fEPUL.'l Et'EC, Site - 74, Sample type =Regular, A-42 74; U~' '; C=' '; A lab spiit=' Phase =2
Technctiim-99 pCi/g 1.0200 U
l.ocatton=()RR, Formation-CI IEPUl.'l'I:'PE(.'; Sit? = 77; Sample iyj>e=Regular; A=427(>, 11 = ' C =' '; A lab split =' Phase=2
Technctinn-99 pCi/g 0.9990 U
Location~()l{R; Formation-CI lEPUL'FEVEC; Sile = 77,85,86; Sample type=Regular; A =5137; ll=5N0; C=5143; A lab ipht = '
Phase=2
Americium-241
pCi/g
0.0766
U
0.08
U
0.0616
U
Barium-133
pCi/g
0.0305
U
0.03
u
0.0202
U
CesiLtn-137
pCi/g
1.0900
0.03
u
0.0195
U
Chromi um-51
pCi/g
0.1730
U
0.16
u
0.1280
U
Cobalt-57
pci/g
0.0154
U
0.02
u
0.0120
U
Cobalt-60
pCi/g
0.0267
U
0.03
u
0.0201
U
Curium-243
pCi/g
0.1460
II
Curium-245
pCi/g
0.2090
U
Curium-247
pCi/g
0.2720
U
Europi urn-152
pCi/g
0.1470
U
0.15
u
0.1050
U
Europium-154
pci/g
0.0321
U
0.04
u
0.0253
U
Hafniun-181
pCi/g
0.0258
U
0.02
u
0.0178
U
Iridi urn-192
pCi/g
0.0204
U
0.20
u
0.0150
U
Neptunium-237
pCi/g
0.0459
UJ
Neptunium-237 (gamno)
pci/g
3.3800
U
3.60
u
2.6300
U
Hiobiuii-95
pCi/g
0.0270
U
0.03
u
0.0227
U
Plutonium-238
pCi/g
0.0837
UJ
Plutonium-239/240
pCi/g
0.0204
UJ
Potassiun-40
pCi/g
2.0500
9.45
0.8230
-------�
'I able lil (continued)
A horizon B horizon C horizon A lab split
Analysis Units Result Qualifier Result Qualifier Result Qualifier Result Qualifier
Radium-226
pC
/g
0.8590
0.83
0.8850
Ruthenium-103
pC
/ g
0.0242
U
0.02
U
0.0159
U
Stront ium-90
pC
/ g
0.8210
U
ThoriLm-228
pC
/g
0.5480
J
1.00
J
1.1000
J
Thoriim-230
pC
/g
0.8570
J
0.97
J
1.1300
J
lhoriiin-232
pC
/g
0.5390
J
1.01
J
1.1000
J
lhorium-234
pC
/g
1.1200
UJ
0.80
UJ
0.7000
UJ
Totnt Urnniiirn
pC
/g
2.2600
J
Uraniiin-233/234
PC
/g
1.1100
J
1.69
J
0.9720
J
Uranium-235
pC
/g
0.0834
J
0.11
J
0.2110
J
Uranium-235 (gonma)
pC
/g
0.1820
u
0.14
U
0.0950
U
Uraniun-236
pC
/g
0.0312
UJ
0.03
UJ
0.0331
UJ
Uraniuni-238
pC
/g
0.9460
J
1.89
J
0.9610
J
Uranium-238 (ganuiii)
pC
/g
5.1800
u
4.17
U
3.0100
U
2 inc-65
pC
/g
0.0558
u
0.04
U
0.0441
u
Zi rconium-95
pC
/g
0.0428
u
0.05
U
0.0329
u
I.(Hiiiion=(>l(R; ioni\(Uion = CIIi'.PUl.'Hil'liC; Site = 77,85,86; Sample ty[>c=Field Duplicate, A=5N6; II=5NO, C—5152; A lab split='
Phase=2
Ameri c i urn- 241
pCi/g
0.0646
u
0.06
u
0.0739
U
Barium-133
pCi/g
0.0259
u
0.02
u
0.0291
U
Ces ium-137
pCi/g
0.8300
0.02
u
0.0279
U
Chromium-51
pCi/g
0.1600
u
0.13
u
0.1750
u
Cobalt-5 7
pCi/g
0.0136
u
0.01
u
0.0150
U
Cobalt-60
pCi/g
0.0218
u
0.02
u
0.0271
U
Curium-243
pC
/g
0.1290
u
Curium-245
pC
/g
0.1830
u
Curium-247
pC
/g
0.0228
u
Europium-152
pC
/g
0.1390
u
0.12
u
0.1460
U
Europium-154
pC
/g
0.0289
u
0.02
u
0.0318
U
Hafnium-181
pC
/g
0.0218
u
0.02
u
0.0247
U
1ridium-192
pC
/g
0.0181
u
0.02
u
0.0200
U
Neptuniun-237
pC
/g
0.1580
UJ
2.60
UJ
Neptunian-237 (gnimia)
pC
/g
2.8400
u
3.3500
U
Niobium-95
pC
/g
0.0207
u
0.02
u
0.0288
U
Plutonium-238
pC
/g
0.1060
J
Plutonium-239/240
pC
/g
0.0331
J
Potassiun-40
pCi/g
3.4500
7.68
10.6000
U
Radium-226
pCl/g
0.8400
1.10
1.1600
Ruthenium-103
pCi/g
0.0212
u
0.02
u
0.0223
-------�
Table 111 (continued)
A horizon B horizon C horizon A lab split
Analysis Units Result Qualifier Result Qualifier Result Qualifier Result Qualifier
Stront iurn-90
pCi/g
0.7730
U
Thorium-228
pCi/g
0.5390
J
0.87
J
1.0200
J
Thorium-230
pCi/g
0.6710
J
0.97
J
1.2500
J
Thorium-232
pCi/g
pCi/g
0.4870
J
0.83
J
1.0900
J
Thorium-234
0.0865
UJ
0.85
UJ
0.8930
UJ
Total Uranium
pCi/g
2.5000
J
Uranium-233/234
pcl/g
0.8680
J
0.98
J
1.0500
J
Uraniun-235
pCi/g
0.0307
UJ
0.08
J
0.1140
J
Uranium-235 (gamma)
pCi/g
0.1640
U
0.15
U
0.1570
U
Uraniurn-236
pci/g
0.0306
UJ
0.04
UJ
0.0263
UJ
Uranium-238
pi I, 3
0.9390
J
1.12
J
0.9570
J
Uranium-238 (ganino)
pCi/g
4.0800
U
3.70
U
4.8900
u
Z i nc-65
pCi/g
0.0462
U
0.04
U
0.0561
u
Z i rconitm-95
pCi/g
0.0357
U
0.04
U
0.0454
u
Location—ORR; i'ormauon -C'.IHCl'UL.l'Ll'EC.; Sue —78; Sample tyjte = Regular; A=4277; U= ' ('=' '; A tab split = ' '; I'hasc — 2
m
Technet ium-99 pCi/g 1.0200 U h-'
00
l.ocation=()RR; L'omuitioii^CI lEPUL'I'EI'EC; Site=86; Sample tyj>c=Regular; A=4278, I! —' '; C=' '; A lab split =4279; Phase = 2
Technet ium-99 pCi/g 1.0800 U 1.0300 U
Location-ORR; i'ormatioii=CIHCKAKlAUGA Hethel V; Site—99; Sample type-Regular; A—4280; II =' '; C=' '; A lab split =' ';
Phase=2
Technetium-99 pCi/g 2.5600
Location=ORR, l-'onntuion = CHlCk/\MAUGA llcihel V; Site = I01; Sample tyjkj =Regular, A=4281; U='
-------�
'Cable III (continued)
A horizon 13 horizon C horizon A lab split
Analysis Units Result Qualifier Result Qualifier Result Qualifier Result Qualifier
Chromium-51
pCi/g
1.0200
U
0.87
U
0.7220
U
Cobat t-57
pCi/g
0.0235
U
0.02
U
0.0176
U
Cobalt- 60
pCi/g
0.0350
U
0.03
U
0.0262
U
Europium-152
pCi/g
0.1740
U
0.14
U
0.1270
U
Europium-154
pC
/g
0.0428
U
0.03
U
0.3160
U
Hafnium-181
pC
/g
0.0877
U
0.07
U
0.0586
U
I ridiuni-192
pC
/g
0.0426
U
0.04
U
0.0313
U
Neptuniun-2J7 (gnmna)
pC
/g
4.3300
U
3.02
U
3.1000
U
N i obium-95
pC
/g
0.1190
U
0.10
U
0.0922
U
Potass i urn- 40
pC
/g
15.4000
24.30
23.0000
Radium-226
pC
/g
0.7470
0.77
0.7880
Ruthenium-103
pC
/ g
0.0860
U
0.07
U
0.0606
U
Thorium-228
pC
/g
1.3200
J
1.48
J
1.4900
J
Thorium-230
pC
/g
1.0300
J
1.25
J
0.9660
J
Thor ium-232
pC
/g
1.3000
J
1.33
J
1.4800
J
Thor ium-234
pC
/g
0.9620
UJ
0.83
UJ
0.7040
UJ
Uranium-233/234
pC
/g
1.0900
J
0.87
J
0.9080
J
UrBnium-235
PC
/g
0.1360
J
0.14
J
0.4630
J
Uranium-235 (ganma)
pCi/g
0.1760
u
0.13
U
0.1270
u
Uranium-236
pCi/g
0.0117
UJ
0.03
UJ
0.0477
UJ
Uranium-238
pCi/g
1.1900
J
1.04
J
0.6870
J
Uranium-238 (gamma)
pC i /g
6.3100
u
35.10
u
4.5400
U
Zinc-65
pCi/g
0.0846
u
0.08
u
0.0695
U
Zirconiuin-95
pCi/g
0.1110
u
0.09
u
0.0845
u
l.oeanun =Ol(U, l-'oiinnluin = ('.! HC.KAMA U(!A llclhcl V, Sile = ]0I,102,l03, Sample type = Regular; A =5197, li—5200, C = 520.1;
A lab split = ' '; Phasc = 2
Amer ic i um-241
pC
/g
0.0068
u
0.05
u
0.0330
u
Barium-133
pC
/g
0.0187
u
0.01
u
0.0084
u
Cesium-137
pC
/g
2.0900
0.06
0.0080
u
Chromi um-51
pC
/g
1.0700
u
0.77
u
0.5120
u
Cobalt- 5 7
pC
/g
0.0123
u
0.01
u
0.0081
u
Cobalt-60
pC
/ g
0.0170
u
0.01
u
0.0071
u
Curium-243
pC
/g
0.0880
u
0.07
u
0.0488
u
Curium-245
pC
/g
0.1280
u
0.11
u
0.0864
u
CuriLm-247
pC
/g
0.0172
u
0.01
u
0.0067
u
Europium-152
pC
/g
0.0781
u
0.06
u
0.0473
u
Europiun-154
pC
/g
0.0209
u
0.02
u
0.0138
u
Hafnium-181
pCf/g
0.0732
u
0.05
u
0.0312
u
Iridium-192
pcf/g
0.0290
u
0.02
u
0.0140
u
Neptunium-237
pCi/g
0.0770
J
-------�
Table li.1 (continued)
A horizon B horizon C horizon A lab split
Analysis Units Result Qualifier Result Qualifier Result Qualifier Result Qualifier
Neptunium-237 (gairma)
pCi/g
2.0200
U
1.64
u
1.3600
u
Niobium-95
pCi/g
0.1010
U
0.08
U
0.0571
u
Ptutonium-238
pCi/g
0.1030
J
Plutonium-239/240
pCi/g
0.0717
UJ
Potassium-40
pCi/g
23.9000
27.10
3.7200
Radiun-226
pCf/g
1.9800
1.97
3.0800
Ruthenium-103
pci/g
0.0737
u
0.05
U
0.0312
u
Stront ium-90
pci/g
0.8330
u
Thor i um-228
pci/g
1.2900
J
1.37
J
0.9390
J
Thorium-230
pci/g
0.9980
J
1.05
J
1.4100
J
Kior ii«n- 232
pci/g
1.2800
J
1.39
J
0.9740
J
Thorium-234 (gamma)
pci/g
1.4500
1.07
1.8200
Total Uranium
pci/g
2.0200
J
Uranium-233/234
pCi/g
0.9170
J
0.82
J
1.3300
J
Uranium-23h
pci/g
u.ojja
J
0.03
J
U.U3V7
J
Uranium-235 (gamma)
pci/g
0.0750
U
0.64
U
0.0554
u
Uranium-236
pci/g
0.0126
UJ
0.01
UJ
0.0149
UJ
Uranium-238
pci/g
1.0000
J
1.07
J
1.5800
J
Uranium-238 (ganrta)
pci/g
2.6000
u
2.41
u
45.7000
Zinc-65
pci/g
0.0480
u
0.04
u
0.0199
u
Zi rconium-95
pCi/g
0.0750
u
0.06
u
0.0356
u
Location =()!
-------�
Table IL1 (continued)
A horizon 0 horizon C horizon A lab split
Analysis t /nils Result Qualifier Result Qualifier Result Qualifier Result Qualifier
l.oaUioit=OKI<; 1-oimation-CllK 'K/IAMt/GVl IJciliel V; Site = 10-1,108,110; Sample ty/v-liepilar; A=5206; l)=520e = Regular; A = 4285; II — ' '; C~' '; A tub split =' ';
l'htise — 2
Technetium-99 pCi/g 2.0300
Locution = ()HH; lor/nation = CI IK'lOiMAU(
-------�
Table 111 (continued)
A horizon B horizon C horizon A lab split
Analysis Units Result Qualifier Result Qualifier Result Qualifier Result Qualifier
Uranii»n-233/234
pCi/g
1.3400
J
1.19
J
1.0200
J
1.4700
J
Uranium-235
pCi/g
0.1780
J
0.31
J
0.0730
J
0.0664
J
Uranium-235 (gairma)
pCi/g
0.1740
U
0.12
u
0.1430
U
0.1010
U
Uranium-236
pCi/g
0.0234
UJ
0.01
UJ
0.0427
UJ
0.0241
UJ
Uranium-238
pci/g
1.3900
J
1.15
J
1.2500
J
1.3600
J
Uraniun-238 (ganrna)
pCi/g
19.4000
u
17.30
U
19.3000
U
1.5700
u
Zinc-65
pCi/g
0.0691
u
0.06
U
0.0655
U
0.0517
u
Z i rconiun-95
pCi/g
0.0773
u
0.07
U
0.0791
u
0.0634
U
Locution = ()HH; I'Duiuiiion
-ClUCtLUlAUC.A K 25;
Site = 119; Sample type ~
Regular; .
•1 =4287, 11=
' v c=1
'; A lab split ='
Vhasc =
T echnet i un-99
pCi/g
1.7500
Locution = O/ili; Formation -
anien t \ (A UC !A K- 25; Site =
/I 9, /23, /27; Sample type = l(cguttir;
A =5254; 11=5258; C=
5261;
A lab split =
-5255; Phase
= 2
Amcr iciun- 241
pCi/g
0.1120
u
0.09
u
0.1960
u
0.1190
U
Barium-133
pCi/g
0.0411
u
0.03
U
0.0957
U
0.0418
U
Ccs f um-137
pCi/g
1.6800
0.03
u
0.0944
U
1.7200
Chromium-51
pCi/g
0.6500
u
0.55
u
0.5550
U
0.6890
U
Cobalt-57
pCi/g
0.0219
u
0.02
u
0.0501
U
0.0234
U
Cobalt-60
pCi/g
0.0423
u
0.03
u
0.0943
U
0.0370
U
Curium-243
pCi/g
0.1940
u
0.2040
U
Curium-244
pci/g
0.0607
UJ
0.0914
UJ
Curium-245
pCi/g
0.2620
u
0.2790
U
Curiun-247
pCi/g
0.0405
u
0.0407
u
Europium-152
pCi/g
0.2120
u
0.16
u
0.5000
U
0.2070
u
Europium-154
pCi/g
0.0421
u
0.04
u
0.0963
u
0.0453
u
Hafnium-181
pCi/g
0.0724
u
0.05
u
0.1760
u
0.0701
u
Iridium-192
pCi/g
0.0407
u
0.03
u
0.1020
u
0.0433
u
Neptuniin-237
pCi/g
0.1130
J
0.1470
J
Neptunium-237 (gamma)
pCi/g
4.2400
u
4.04
u
9.9100
1)
4.6500
u
Niobium-95
pCi/g
0.0879
u
0.08
u
0.2450
u
0.0855
u
Plutoniin-238
pci/g
0.0554
UJ
0.0947
J
Ptutoniin-239/240
pCi/g
0.0384
UJ
0.0379
J
Potassium-40
pci/g
13.3000
26.10
63.4000
13.8000
Radiun-226
pCi/g
0.9830
0.94
3.0400
0.9920
Ruthenium-103
pCi/g
0.0675
u
0.05
u
0.1780
U
0.0702
-------�
Tabic 1L1 (continued)
A horizon B horizon C horizon A lab split
Analysis Units Result Qualifier Result Qualifier Result Qualifier Result Qualifier
Stront iim-90
pCi/g
1.0400
U
0.7450
U
Thorium-228
pCi/g
1.3500
J
1.46
J
1.9000
J
1.0200
J
Thorium-230
pCi/g
1.1500
J
1.40
UJ
1.2300
J
1.2600
J
Thorium-232
pci/g
1.2900
J
2.77
J
1.9000
J
1.4200
J
rhoriurn-234 (gatnna)
pci/g
1.1300
U
0.88
U
2.0200
u
1.2700
U
Total Uraniim
pci/g
0.3270
0.9880
Uranium-233/234
pci/g
1.4600
J
1.13
J
1.2100
J
1.4900
J
Uranicm-235
pCi/g
0.0757
J
0.06
J
0.1070
J
0.0797
J
Uraniim-235 (gonrna)
pci/g
0.1820
U
0.16
U
0.4290
u
0.2220
U
Urani um-236
pci/g
0.0238
J
0.01
UJ
0.0019
J
0.0095
UJ
Uranium-238
pci/g
1.4000
J
1.38
J
1.3800
J
1.3500
J
Uranium-238 (gamna)
pCi/g
22.6000
U
20.90
U
16.0000
u
22.0000
u
Zinc-65
pCi/g
0.0940
u
0.08
U
0.2310
u
0.0943
u
Zi rconium-95
pCi/g
0.1020
u
0.09
U
0.2690
u
0.1040
u
I.ovation = ()Hli; Formation =
C1UCKAWWGA
K-25; Site =
120,126,129; Smnjile typc=Regular;
A =5230; U
=5235; C=5238;
A lab split =
¦5231; Phase
=2
Amer i c i urn- 241
pC
/g
0.0621
u
0.09
u
0.0741
u
0.0725
u
Bariun-133
pC
/g
0.0225
u
0.03
u
0.0234
u
0.0248
u
Cesiim-137
pC
/g
0.9710
0.03
u
0.0238
u
1.0100
Chrcwniiira-51
pC
/g
0.3830
u
0.58
u
0.2020
u
0.1350
u
Cobalt-57
pC
/g
0.0135
u
0.02
u
0.0142
U
0.0150
u
Cobatt-60
pC
/g
0.0196
u
0.03
u
0.0238
u
0.0219
u
Curium-243
PC
/g
0.1110
u
0.1250
u
Curium-244
pC
/g
0.0296
UJ
0.7950
UJ
Curium-245
pC
/g
0.1610
u
0.1850
u
Curium-247
PC
/g
0.0215
u
0.0232
u
Europium-152
pC
/ g
0.1170
u
0.15
u
0.1190
u
0.1240
u
Europium-154
PC
/g
0.0257
u
0.04
u
0.0291
u
0.0291
u
Hafnium-181
pC
/g
0.0395
u
0.05
u
0.0257
U
0.0395
u
I Helium-192
pC
/g
0.0242
u
0.03
u
0.0190
U
0.0258
u
Neptunium-237
pC
/g
0.1240
J
0.0620
UJ
Neptunium-237 (gamna)
pC
/ g
2.6300
u
3.64
u
3.0200
u
3.0900
u
Niobium-95
pC
/g
0.0423
u
0.07
u
0.0478
u
0.0528
u
Ptutoniim-230
pC
/g
0.2030
J
0.0648
UJ
PI ut on inn-239/240
pC
/g
0.0777
UJ
0.0406
J
Potassiun-40
PC
/g
0.3060
u
17.40
26.1000
6.7200
Radium-226
pci/g
0.9250
1.05
0.9790
0.9800
Ruthenium-103
pci/g
0.0391
u
0.06
u
0.0235
U
0.0375
u
Strontiim-90
pci/g
0.7250
u
0.7260
-------�
Table LLI (continued)
A horizon 13 horizon C horizon A lab split
Analysis Units Result Qualifier Result Quiilifier Result Qualifier Result Qualifier
Thoriim-228
PCi/g
0.6050
J
1.52
J
1.6100
J
1.1600
J
Thorium-230
pci/g
0.8180
J
1.06
J
1.0600
J
1.2200
J
Thoriun-232
pCi/g
0.5860
J
1.46
J
1.7500
J
1.0900
J
Thoriun-234
pci/g
0.8450
•UJ
0.93
UJ
0.8110
UJ
1.9000
J
Total Uranium
pcl/g
1.8500
J
2.2200
J
Uranium-233/234
pci/g
0.8380
J
1.36
J
1.2700
J
1.2800
J
Uranium-235
pci/g
0.0438
J
0.13
J
0.1040
J
0.0492
J
Uranium-235 (gamma)
pci/g
0.1430
u
0.14
U
0.1180
U
0.1260
U
Uranium-236
pCi/g
0.0109
UJ
0.05
UJ
0.0142
UJ
0.0123
UJ
Uranium-238
pci/g
0.9940
J
1.29
J
1.2600
J
1.4300
J
Uranium-238 (gamma)
pci/g
12.4000
u
19.40
U
6.5700
U
12.8000
U
Zinc-65
pCi/g
0.0466
u
0.07
U
0.0569
U
0.0482
u
Zirconium-95
pci/g
0.0552
u
0.08
U
0.0478
U
0.0580
u
Locution ~ORH; r'oimillion = Cl IICKAMAUUA K-25; Site-121; Sample lyj>e = Regular; A —4288; li— ' '; (.'=' '; A lab split =' Phase = 2
Tcchne t i um-99 pCi/g 1.3900
to
a\
I.oc
-------�
Table 1L1 (continued)
A horizon
B horizon
C horizon
A lab split
Analysis Unas
Result
Qualifier Result
Qualifier
Result
Qualifier
Result
Qualifie
Potass ium-40
pCi/g
8.6700
23.80
24.6000
7.2400
Radium-226
pCi/g
0.7420
0.90
0.7790
0.9330
Ruthenium-103
pCi/g
0.0469
U
0.05
U
0.0547
U
0.0649
IJ
Stront ium-90
pCi/g
0.7740
U
0.9530
U
Thorium-228
pCi/g
1.1400
J
1 .55
J
1.7800
J
0.9730
J
Thorium-230
pCi/g
0.8400
J
1 .09
J
1.2600
J
0.9550
J
rhorium-232
pCi/g
1.0800
J
1.38
J
0.8900
J
0.8270
J
Thorium-234 (goimin)
pci/g
0.8090
U
0.78
u
0.9470
U
1.0700
U
total Uranium
pCi/g
0.9040
0.7410
Uranium-233/234
pci/g
1.0400
J
1.12
J
1.1500
J
0.9690
J
Uranium-235
pCi/g
0.0120
UJ
0.05
J
0.0409
J
0.0455
J
Uranium-235 (ganma)
pCi/g
0.1440
u
0.15
u
0.1700
U
0.1690
U
Uranium-236
pci/g
0.0383
UJ
0.01
UJ
0.0434
UJ
0.0170
UJ
Uranium-238
pci/g
1.0400
J
1.22
J
1.1200
J
0.8670
J
Uranium-238 (gannia)
pci/g
4.2100
u
19.40
u
22.2000
U
A
U
Zinc-65
pCi/g
0.0700
u
0.08
u
0.0896
U
0.0785
U
Zirconium-95
pci/g
0.0707
u
0.08
u
0.0894
U
0.0947
U
Location=(JRR; iOmuition
--CIIICKAMAUGA K-25; Site
= 124; Sample tyjK
-Regular; A
= 4289; lit
= ' V <"='
; A
lab split = ' '
; riiase =
Technet iuin-99
pCi/g
1.9300
Location = URR, Lot malum
=ail(:K/lMAUGA K-21; Site
= 127; Sample tyjx
=Regulai, .1
=4290; 11 =
= ' V (-'='
: A
lab split =' '
; rha%e =
Technet i um-99
pci/g
. 0.9960
u
Locution =C)Ie
= Kegulai, .1
= 4291, 11 =
=' V c= •
A
lab split =' '
; l'ha\e =
Technct i mil- 99 pCi/g 1.1600 U
Location =URR; lomuition-ClllCK/lSL-WGA K-25; Site = 129; Sample type = Regular; A =4292; II=' '; ('.=¦' A lab split = ' l'hase = 2
-------�
'I'ablc HI (continued)
A horizon B horizon C horizon A lab split
Analysis Units Result Qualifier Result Qualifier Result Qualifier Result Qualifier
Location =ORR; Formation =CO f'I'fcl( RIDGE; Site =45,60,75; Sample type=Regular; A=5U0; B=5IJ3; C=5U6; A tab split- ' ';
Phase =2
Amer ic iurn-241
pC
/g
0.1010
U
0.07
U
0.1000
u
Bari un-133
pC
/g
0.0419
U
0.02
u
0.0330
U
Cesiun-137
pC
/g
1.1000
0.04
0.0296
u
Chromii/n-51
p C
/g
0.2500
U
0.14
U
0.1960
U
Cobalt-57
pC
/g
0.0208
U
0.01
U
0.0174
u
Cobat t-60
pC
/ g
0.0363
U
0.02
U
0.0265
U
Curium-243
PC
/g
0.2000
U
Cur ium-245
PC
/g
0.2870
U
Curium-247
PC
/g
0.0383
U
Europii*n-152
PC
/g
0.1880
U
0.11
U
0.1540
U
Curopium-154
pC
/a
0.0434
U
0.03
a
0.0367
U
Hafnium-181
PC
/g
0.0359
U
0.02
u
0.0277
U
Iridiim-192
PC
/g
0.0302
U
0.02
u
0.0228
U
Neptunium-23/
PC
/g
0.0979
J
Neptunium-237 (gairma)
PC
/g
4.5600
U
2.72
u
3.7500
U
N iob inn-95
PC
/g
0.0286
U
0.03
u
0.0295
U
Ptutonium-238
PC
/g
0.0526
UJ
Plutonium-239/240
PC
/g
0.0260
J
Potassium-40
pC
/g
4.1200
7.66
5.6000
Radiim-226
PC
/ g
1.1500
1.23
1.3600
Ruthenium-103
PC
/g
0.0344
u
0.02
u
0.0261
U
Strontium-90
pC
/g
0.9310
u
Thor i un-228
pC
/g
0.6760
J
1.01
J
1.2100
J
Thorium-230
pC
/g
0.9110
J
1.35
J
1.4400
J
Thorium-232
pC
/g
0.6250
J
1.28
J
1.0800
J
Total Uranium
pC
/g
2.4500
J
Uranium-233/234
pC
/g
1.8600
J
1.38
J
1.6800
J
Uraniun-235
PC
/g
0.1930
J
0.17
J
0.1650
J
Uranium-235 (garniia)
pC
/g
0.1910
0.15
u
0.1600
u
Uranium-236
PC
/g
0.0218
J
0.01
UJ
0.0478
UJ
Uranium-238
pcl/g
pCi/g
1.5700
J
1.65
J
1.9600
J
Uranium-238 (ganina)
0.4580
u
3.82
u
5.4200
u
Zinc-65
pci/g
0.0789
u
0.04
u
0.0576
u
2i rconiun-95
pCi/g
0.0633
u
0.03
u
0.0503
-------�
Table III (continued)
A horizon
13 horizon
Analysis
Units
Result
Qualifier Result
Quill
l.oailion=UUI(; b'ormuuoi
=c:om:i< hi due
Site
II
»>«¦
H
-Rcgula
T cchnetium-99
pCi/g
1.2200
u
l.i>c7, U=' ('=' A lub iplit =' I'lw\c=2
, A =5101; 11 = 510.1; C = 5107, A lub
0.0811 U
0.0282 U
0.0259 U
0.1680 U
0.0147 U
0.0234 U
hi
to
vo
0.1580 U
0.0318 U
0.0234 U
0.0196 U
3.2500 U
0.0258 U
6.7500
1.6100
0.0218 U
1.0500 J
1.4900 J
1.2200 J
1.2600 UJ
1.7800 J
0.1200 J
0.1790 U
0.0200 UJ
2.0900 J
-------�
Table li.1 (continued)
A horizon H horizon C horizon A Inb split
Analysis Units Result Qualifier Result Qualifier Result Qualifier Result Qualifier
Ziric-65 pCi/g 0.0399 U 0.04 U 0.0522 U
Zirconium-95 pCi/g 0.0315 U 0.03 U 0.0426 U
I ,ocalton = URR; l'ormanan = C()PPER RIIH Site. = 5 4; Sample ly/>e = Regular; A =4268; II =' ('=' A lab splil = ' I'has r~2
Technet iuin-99 pCi/g 1.0200 U
Lotiilitin = ()HU; l'\>iiiuiiion=C!OPI'ER RIDGE; Silc=5-1,61,8.1; Sample type = Rr^ular, A=5H'J, 11=5122; ('=5125; A lab split -' ';
Phase=2
Amer ic inn-241
pC
/s
0.0889
U
0.07
U
0.0900
U
Barium-133
pC
/9
0.0318
U
0.02
U
0.0377
U
Cesium-137
pC
/ 9
0.9320
0.02
U
0.0356
U
Chromium-51
pC
/ 9
0.1900
U
0.15
U
0.2320
U
Cobalt-57
pC
/9
0.0167
U
0.01
U
0.0199
U
Cobalt-60
pC
/g
0.0259
U
0.02
U
0.0338
u
Curium-243
pC
/9
0.1550
U
Curium-245
pC
/g
0.2190
u
Curium-247
pC
/g
0.0287
u
Europium-152
pC
/9
0.1630
u
0.14
U
0.1940
u
Europium-154
pC
/g
0.0354
u
0.03
U
0.0415
u
Hafnium-181
pci/g
0.0257
u
0.02
U
0.0323
u
Iridium-192
pC
/g
0.0229
u
0.0 2
U
0.0262
u
Neptunium-237
pC
/g
0.0672
J
Neptunium-237 (gamma)
pC
/g
3.7600
u
0.03
U
4.3100
u
Niobiim-95
pC
/g
0.0313
u
3.03
U
0.0372
u
Plutonium-238
pC
/g
0.0298
J
Plutonium-239/240
pC
/g
0.0397
J
Potassium-40
pC
/g
4.2600
7.94
5.2800
Radi uiii- 226
pC
/g
1.3700
1.74
1.56nn
Ruthenium-103
pC
/9
0.0244
u
0.02
U
0.0298
u
Stronti un-90
pC
/g
1.0500
u
Thorium-228
pC
/g
0.7860
J
1.24
J
1.1000
J
Thoriun-230
pC
/g
1.1900
J
1.72
J
1.7500
J
Thoriiro-232
pC
/9
0.7730
J
1.11
J
1.1800
J
Thorium-234
pC
/g
2.1800
J
2.31
J
1.1300
UJ
Total Uranium
pC
/g
3.3000
J
Urani um-233/234
pC
/g
1.4000
J
2.02
J
1.7500
-------�
Table III (continued)
A horizon D horizon C horizon A lab split
Analysis Units Result Qualifier Result Qualifier Result Qualifier Result Qualifier
Uraniun- 235
pCi/g
0.0562
J
0.11
J
0.2130
J
Uranium-235 (ganma)
pCi/g
0.1400
U
0.16
U
0.2730
Uraniim-236
pci/g
0.0093
UJ
0.01
UJ
0.0312
UJ
Uranium-238
pCl/g
1.4600
J
2.09
J
1.7600
J
Urankui-238 (gartroa)
pci/g
5.4100
U
4.91
U
6.3700
U
Zinc-65
pci/g
0.0600
U
0.05
U
0.0730
U
Ii rconi in-95
pci/g
0.0434
U
0.04
U
0.0587
U
l.oaitt
-------�
Table 111 (continued)
A horizon B horizon C horizon A lab split
Analysis Units Result Qualifier Result Qualifier Result Qualifier Result Qualifier
Uranium-235 (gamma)
pCi/g
0.1620
U
0.24
U
0.2370
U
Urenium-236
pCi/g
0.0302
UJ
0.03
UJ
0.0431
UJ
UrBnium-238
pci/g
1.4400
J
1.84
J
2.7100
J
Uraniurn-238 (gaffina)
pCi/g
6.5400
U
8.17
U
7.2200
U
Zinc-65
pCi/g
0.0767
u
0.10
U
0.0942
U
Zirconium-95
pCi/g
0.0633
u
0.08
U
0.0781
U
Location =()ltl<; l''ornuition=COri'lCR RllHlE; Site = 60; Sample lyjv — Regular; A = 4269, U=' '; ('=' A lab split =' I'hnw=2
Technet luni-99 pCi/g 1.0600 U
l.ocut'nm-ORR; i'oimatioii=C()l'l'ER RllXlli; Site = 62, Sample typc = Regular, .1- 1270; 11=' '; C-' A lab split = ' !'ha\e = 2
m
I
UJ
Technet l uin-99 pCi/9 1.5400 U ^
l.ocation=ORR; i'ormatum-COl'l'ER Rll)(Hi; Site=64; Sample type=Regular, A = 427I; U =' C—' ', A lab split = ' I'lutse = 2
Tcclinct iuin-99 pCi/g 1.6400 U
Location-OUR, V'owuiuon = C()l't'ER RltXii'.; Site — 74, Sample tyj>e—Regular; A = 4275; 11=' '; C—' A lab split-' i'hnse=2
Technetium-99
-------�
Table 1L1 (continued)
A horizon H horizon C horizon A l;ib split
Analysis llnils Result Qualifier Result Qualifier Result Qualifier Result Qualifier
I.ociilioit=Olil{, I'Oi//union = I)ISMy\I. GAl'; Site = 10,3.1,.15; Sample typc=Regul
-------�
Table 111 (aKilinutxJ)
A horizon
13 horizon
Analysis
Knits
Result
Qualifier
Result
Qual
Location —OUR; i'omuiuon
=D1SK1AL GAP; Sue =
11,27,41; Sample type = Regular;
Americium-241
pCi/g
0.0510
U
0.04
u
Barium-133
pci/g
0.0140
U
0.01
U
Ccsium-137
pCi/g
0.9000
0.03
Chromium-51
pci/g
0.0870
U
0.07
u
Cobat t-57
pc
/g
0.0084
U
0.01
U
Cobalt-60
PC
/g
0.0120
u
0.01
u
Curium-243
pc
/g
0.0750
u
0.06
u
Curium-244
pc
/g
3.5000
UJ
Curium-245
pC
/g
0.1100
u
0.11
u
Curium-247
Pc
/g
0.0140
u
0.01
u
Europium-152
Pc
/g
0.0660
u
0.06
u
Europium-151
pC
/ g
0.0180
u
0.02
u
Hafnium-181
pc
/g
0.0120
u
0.01
u
1ridium-192
pc
/g
0.0100
u
0.01
u
Niobium-95
pc
! g
0.0140
u
0.01
u
Plutonium-238
pC
/g
0.1100
UJ
0.08
J
Plutonium-239/240
pc
/g
0.0290
J
0.03
UJ
Potassium-40
pc
/g
14.0000
22.00
Radium-226
pCi/g
0.8600
0.92
Rutheniun-103
pC
/g
0.0110
u
0.01
U
Strontium-90
pC
/g
1.1000
1.00
NA
Thorium-228
pC
/g
0.5000
J
3.40
J
Thorium-230
pC
/g
0.3100
J
2.30
J
Thorium-232
pC
/g
0.4100
J
3.20
J
Thorium-234
pC
/g
1.5000
1.10
Total Uranium
pC
19
2.5000
J
0.12
J
Uranium-233/234
pC
/g
1.0000
J
0.74
J
Uranium-235
pc
/g
0.0410
J
0.07
UJ
Uranium-235 (gamna)
pC
/g
0.1198
0.07
Uranium-236
pc
/g
0.0330
UJ
0.06
UJ
Uraniim-238
pc
/g
1.1000
J
0.63
J
Z inc-65
pc
/g
0.0290
u
0.03
U
Zirconium-95
pc
/g
0.0220
U
0.02
u
C horizon
Result Qualifier
A lab split
Result Qualifier
¦¦5002; 11=5005; C=5003; A lab splil =' P!itise = l
0.0420
U
0.0110
U
0.0110
U
0.0690
U
0.0082
U
0.0110
U
0.0640
U
0.1100
U
0.0100
U
0.0570
u
0.0180
u
0.0095
u
0.0080
u
0.0110
u
0.0910
UJ
0.0210
UJ
28.0000
0.7900
0.0087
u
0.9600
NA
2.0000
J
0.9400
J
2.3000
J
1.2000
0.0690
J
0.5400
J
0.0390
UJ
0.0527
0.0140
UJ
0.5300
J
0.0270
u
0.0200
-------�
Table lil (continued)
A horizon 13 horizon C horizon A lab split
Analysis llnils Result Qualifier Result Qualifier Result Qualifier Result Qualifier
!.ocmion=()KK, l-'omniuan = DlSStAl. CJAl'; Site = 10,22,32, Sample type—Regular; A=50l/, 11=501-1; C-5017; A tab split =' Phase=I
Amer i c i un>-241
pCi/g
0.0400
U
0.01
U
0.0430
u
Bari un-133
pci/g
0.0110
U
0.01
U
0.0110
U
Ces i urn-137
pci/g
0.5400
0.01
u
0.0260
Chromiun-5 1
pci/g
0.0660
l)
0.08
u
0.0710
IJ
Cobat t-57
pci/g
0.0077
u
0.00
u
0.0084
U
Cobat t-60
pci/g
0.0098
u
0.01
u
0.0120
U
Curium-243
pci/g
0.0600
u
0.04
u
0.0640
U
Curiun-244
pCi/g
0.0870
UJ
Cur i un-245
pci/g
0.1000
u
0.06
u
0.1100
U
Cur inn-247
pCi/g
0.0100
u
0.01
u
0.0110
u
Europium-152
pCi/g
0.0540
u
0.04
u
0.0570
u
Europium-154
pci/g
0.0160
u
0.01
u
0.0180
u
Hafnium-181
pci/g
0.0091
u
0.01
u
0.0096
u
Iridi um-192
pCi/g
0.0076
u
0.01
u
0.0081
u
Niobium-95
pci/g
0.0110
u
82000.00
u
0.0120
u
Ptutonium-238
pCi/g
0.0690
UJ
0.10
j
0.0700
UJ
Plutonium-239/240
pCi/g
0.0300
UJ
0.03
J
0.0200
UJ
Potassium-40
pci/g
17.0000
0.19
u
22.0000
Radium-226
pci/g
0.8200
1 .10
u
0.7700
Ruthenium-103
pci/g
0.0083
u
0.01
u
0.0089
II
Strontium-90
pCi/g
0.8800
NA
1.00
NA
1.0000
NA
Thorium-228
pCi/g
0.7700
J
0.53
J
0.0710
UJ
Thorium-230
pCi/g
0.6500
J
0.36
J
0.1900
J
Thoriun-232
pCi/g
0.7300
J
0.44
J
0.1800
J
Thorium-234
pCi/g
1.7000
0.23
1.2000
Total Uranium
pCi/g
0.2300
J
0.83
J
1.3000
J
Uranium-233/234
pCi/g
0.6100
J
3.20
J
0.5800
J
Uraniun- 235
pCi/g
0.0540
UJ
0.24
J
0.0500
J
Uranium-235 (goniun)
pci/g
0.0698
0.0244
Uraniunt-236
pCi/g
0.0350
UJ
0.17
J
0.0130
IJJ
Uranium-238
pci/g
0.7500
J
2 .60
J
0.5800
J
Zinc-65
pCi/g
0.0230
U
0.02
u
0.0260
U
Zirconii«n-95
pCi/g
0.0170
u
0.01
u
0.0200
-------�
Tabic li.1 (continued)
A horizon D horizon C horizon A lab split
Analysis Units Result Qualifier Result Qualifier Result Qualifier Result Qualifier
L.OLiuion—ORR; Formation-DISMAL GAl'; Site — 2; Sample type = Regular; A=4255; II =' ; ' '; A lab split = ' '; Phase = 2
Technetium-99 pCi/g 1.7500 U
L.ocatum=ORK; DISMAL GAl'; Site — 2,26, V.J; Sample typc=Regiilar; A =5029; H—5032; ('=5035; A Itib split =' t'hasc = l
Anicriciuni-241
pci/g
0.0380
U
0.04
U
0.0350
U
Barium-133
pci/g
0.0097
U
0.01
U
0.0099
U
Ces ium-137
pCi/g
0.7900
0.93
1.4000
Chromium-51
pci/g
0.0590
U
0.07
u
0.0600
U
Cobalt -57
pCi/g
0.0070
U
0.01
u
0.0068
U
Cobalt-60
pCi/g
0.0093
U
0.01
U
0.0081
u
Cur ium-243
pCi/g
0.0530
U
Cur ium-244
pCi/g
1.9000
UJ
Cur ium-245
pCi/g
0.0930
U
Curium-247
pCi/g
0.0088
U
Europium-152
pci/g
0.0460
U
0.05
U
0.0460
U
Europium-154
pCi/g
0.0150
U
0.02
u
0.0140
u
Hafni um-181
pCi/g
0.0082
u
0.01
U
0.0086
U
Iridium-192
pCi/g
0.0068
u
0.01
U
0.0070
u
Niobium-95
pCi/g
0.0091
u
0.01
U
0.0085
u
Plutoniun-230
pCi/g
0.0830
J
Ptutonium-239/240
pci/g
0.0190
UJ
Potassiun-40
pci/g
18.0000
16.00
12.0000
Radium-226
pCi/g
0.7000
0.81
0.7700
Ruthenium-103
pCi/g
0.0075
u
0.01
U
0.0077
u
Stront ium-90
pCi/g
0.9900
u
Thorium-228
pCi/g
0.7800
J
0.85
J
1.2000
J
lhoriun-230
pci/g
0.7000
J
0.64
J
0.8700
J
Thorujm-232
pci/g
0.7300
J
0.99
J
1.1000
J
Thoriun-234
pCi/g
i.youo
1.80
1.JUUU
Total Uraniun
pCi/g
6.5000
J
Uranium-233/234
pCi/g
1.4000
J
1.40
J
1.1000
J
Uranium-235
pCi/g
0.1500
J
0.10
J
0.0650
J
Uraniun-235 (ganmo)
pCi/g
0.0861
0.08
0.0356
Uranium-236
pCi/g
0.0360
UJ
0.04
UJ
0.0310
UJ
Uranium-238
pCi/g
1.7000
J
1.50
J
0.9700
J
Z inc-65
pCi/g
0.0210
u
0.02
U
0.0190
u
Zirconium-95
pCi/g
0.0160
u
0.02
u
0.0150
-------�
Table 111 (continued)
A horizon D horizon C horizon A lab split
Analysis I/nils Result Qualifier Result Qualifier Result Qualifier Result Qualifier
l.acatum=C)llR; formation — DISMl I. CAl'; Snc = 2,26,43; Sample tyj>e=l,'iehl Duplicate; A =5033; 11=5011; C=50-iJ; A Inb split=' ';
Phase = I
Anter i c i imi- 24 1
pC
/g
0.0610
U
0.04
u
0.0320
U
Barium-133
pC
/g
0.0120
U
0.01
u
0.0079
U
Cesium-137
pC
/g
0.0210
0.02
0.0350
Chromium-51
pC
/g
0.0750
IJ
0.06
u
0.0520
U
Cobalt-57
pC
/g
O.OOBO
U
0.01
u
0.0061
U
Cobat t-60
pC
/g
0.0110
u
0.01
u
0.0078
U
Curium-243
pC
/g
0.0670
u
Curium-245
pC
/g
0.1100
u
Curium-247
pC
/g
0.0110
u
Europium-152
pC
/g
0.0560
u
0.05
u
0.0460
U
Europium-154
pC
/g
0.0170
u
0.01
u
0.0130
U
Mof ni urn-101
pC
/ g
0.0100
u
0.01
u
0.0066
U
1ridiurn-192
pC
/g
0.0086
u
0.01
u
0.0058
u
N i obi um-95
pC
/g
0.0120
u
0.01
u
O.OOB8
u
Plutonium-238
pC
/g
0.1300
UJ
Plutonium-239/240
pC
/g
0.0350
UJ
Potassiiin-40
pC
/g
22.0000
20.00
12.0000
Radiun-226
pC
/g
0.8500
0.75
0.8200
Ruthenium-103
pC
/g
0.0091
u
0.01
u
0.0060
u
Strontium-90
pC
/g
1.2000
u
Thorium-228
PC
/g
0.6500
J
0.6B
J
1.0000
J
lhorium-230
pCi/g
0.5200
J
0.63
J
0.8600
J
Thoriun-232
PC
/g
0.7700
J
0.87
J
1.1000
J
Tliorium-234
pC
/g
1.6000
1.20
1.2000
Total Uranium
pC
/g
2.1000
J
Uranium-233/234
pC
/g
0.9000
J
1.10
J
1.1000
J
Mraniuni-235
pC
/g
0.0390
UJ
0.11
UJ
0.0460
UJ
Uranium-235 (goimin)
PC
/g
0.0791
0.05
0.0452
Uranium-236
PC
/g
0.0140
UJ
0.04
UJ
0.0300
UJ
Uraniun-238
pC
/g
1.0000
J
1.30
J
1.1000
J
Z i nc-65
PC
/g
0.0240
u
0.02
u
0.0170
u
Zirconiun 95
pC
/g
0.0200
u
0.02
U
0.0140
u
Locuiiuii=ORH; l-'otination=l)lSMAL. GAT; Site = 26; Sample type=Regular; A =4260, U — ' C= ' '; A lab split = ' Phase=2
Technetium-99
pCi/g
1.8000
-------�
Table 11.1 (continued)
A horizon B horizon C horizon A lab split
Analysis Units Result Qualifier Result Qualifier Result Qualifier Result Qualifier
Location-ORR; Formation = DISMAL. GAP; Sile-27; Sample type=Regular; A = 426I; U =' '; C= ' '; A lab split = ' '; Phase = 2
Technetium-99 pCi/g 4.0700 U
l.ocation-ORR; lrormation=DISMAl. GAP; Site-32; Sample iyjK=Regular; A -4263; li—' '; C=' A lab spin-' '; PI\tv;e-2
Tcchnetium-99 pCi/g 2.1900 U
Location-ORR; Formation = 1)1 SAIs\ I. GAP; Site=33; Sample type = Regular; A =420-1; II =' '; C=' '; A lab iplit =' '; Phase = 2
Tcchnet iun-99 pCi/g 2.3100 U
Location =ORR; formation = DISAtl/., GAP; Site = 43; Sample type = Regular; /i =1265; 11=' '; C. =' '; A lab split =' '; Phase = 2
Tcchneti un-99 pCi/g 2.1400 U
Location =()RR; Formation=NO! AC! lUCKY; Sue = 13, Sample type=Rcgiilni; A-4254; 13=' '; (.'=' '; A lab split =' '; Phase =2
Technetium-99 pCi/g 1.4100 U
L.ocati
-------�
Table 12.1 (continued)
A horizon H horizon C horizon A lab split
Analysis Units Result Qualifier Result Qualifier Result Qualifier Result Qualifier
I .ocalion=()RR; l'ormaiion=NOlAC!IUCKY; Site = 15,2.1,25; Sample lypc=Rcgiilar; A =505(>; li =5059; (.'=5062; A lab splil='
Phase=1
Ainericium-241
pCi/g
0.0240
u
0.05
U
0.0380
U
Barium-133
PC i/g
0.0064
u
0.01
U
0.0098
U
Cesi un-137
pCi/g
0.3800
0.01
0.0098
U
Chromium-51
PCi/9
0.0390
u
o.oa
u
0.0600
U
Cobat t-57
pCi/g
0.0041
u
0.01
U
0.0074
U
Coba1t-60
PCi/g
0.0055
u
0.01
U
0.0099
U
Curium-243
PCi/g
0.0350
u
Curium-245
PCi/g
0.0560
u
Curium-247
pCi/g
0.0060
u
Europium-152
pCi/g
0.0350
u
0.06
u
0.0460
U
Europiun-154
pCi/g
0.0088
u
0.02
U
0.0160
u
Plutonium-238
pCi/g
0.1200
UJ
Plutonium-239/240
pCi/g
0.0280
UJ
PotBssium-40
pci/g
14.0000
18.00
28.0000
Radiun-226
pCi/g
0.8200
1.10
0.7800
Ruthenium-103
pCi/g
0.0050
U
0.01
U
0.0074
u
Stront ium-90
PCi/g
0.6300
u
Thorium-228
pCi/g
2.2000
J
1.80
J
1.5000
J
Thorium-230
pCi/g
1.2000
J
0.95
J
0.7000
J
lhorium-232
pci/g
2.0000
J
1.70
J
1.4000
J
Thorium-234
pCi/g
1.4000
1.20
1.1000
total Uranium
pCi/g
0.7500
J
Uranium-233/234
pci/g
2.9000
UJ
2.30
UJ
2.3000
UJ
Uranium-235
pCi/g
0.1300
UJ
0.09
UJ
0.0670
UJ
Uranium-235 (gaiuna)
PCi/g
0.0684
0.05
0.0605
Uranium-236
PCi/g
0.0200
UJ
0.01
UJ
0.0270
UJ
Uranium-238
pCi/g
3.5000
UJ
2.40
UJ
2.4000
UJ
Zinc-65
pci/g
0.0120
u
0.03
u
0.0220
u
Z i rconium-95
pci/g
0.0100
u
0.02
u
0.0180
-------�
Table IL1 (continued)
A horizon 13 horizon C horizon A lab split
Analysis Units Result Qualifier Result Qualifier Result Qualifier Result Qualifier
Location—ORR; I'ormation=NOLICIIUCKY; Sile = 16,28,42; Sample type—Regular; A—5065; U=5068; C=507I; A lab split — ' ';
Phase=1
Americium-241
pCi/g
0.0220
U
0.02
U
0.0230
U
Barium-133
pCi/g
0.0062
U
0.01
U
0.0059
u
Cesium-137
pC
/g
0.5100
0.01
U
0.0060
u
Chromium-51
pC
/9
0.0370
U
0.03
U
0.0370
u
Cobalt-57
pC
/g
0.0043
U
0.00
U
0.0038
u
Cobalt-60
pc
/g
0.0060
U
0.01
U
0.0058
U
Curium-243
pC
/g
0.0340
U
Curium-245
pC
/g
0.0580
U
Curium-247
pC
/g
0.0056
U
Europium-152
pC
/9
0.0370
U
0.03
u
0.0320
u
Europium-154
pC
/ g
0.0093
U
0.01
u
0.0082
u
Neptunium-237
pC
/g
0.0770
J
Plutonium-238
PC
/g
0.1200
UJ
Plutonium-239/240
PC
/g
0.0650
UJ
Potassium-40
pC
/g
16.0000
16.00
24.0000
Radium-226
PC
/g
0.6700
0.35
1.1000
Ruthenium-103
pC
/g
0.0049
u
0.00
u
0.0046
U
Stront ium-90
pC
/g
0.7600
u
Thorium-228
pC
/g
1.2000
J
1.60
J
1.7000
J
Thorium-230
pC
/g
0.8500
J
1.10
J
0.9500
J
Thorium-232
PC
/g
1.3000
J
1.50
J
1.6000
J
Thorium-234
pC
/g
1.5000
1.30
0.9800
Total Uranium
pC
/g
1.5000
J
Uranium-233/234
pC
/ g
2.4000
UJ
2.10
UJ
2.5000
UJ
Uraniun-235
pC
/g
0.1000
UJ
0.09
UJ
0.0930
UJ
Uranium-235 (gainnia)
pc
/g
0.0901
0.08
0.0327
Uranium-236
pC
/g
0.0320
UJ
0.03
UJ
0.0150
IJJ
Uranium-238
pC
/g
2.5000
UJ
2.20
UJ
2.3000
UJ
7 i nr-fiS
PC
/q
0.0140
u
0.01
u
0.0140
U
Zirconium-95
pc
/g
0.0100
u
0.01
u
0.0100
U
Location =()RR; b'onmuum =NOLlC IIUCKY; Sue = 21; Sample type = Regular, A-J257; 1)=' '; ('= ' '; A lab split =' Phase-2
Technet imn-99
pci/g
-------�
Table 111 (continued)
A horizon B horizon C horizon A lab split
Analysis IJnils Result Qualifier Result Qualifier Result Qualifier Result Qualifier
Location-ORR; l'ormatum=NOI AC! IUCKY; Site=24; Sample type = Regular; A=4258; B=' '; C-' '; A lab split = 4259; l'hase=2
Technctiufn-99 pCi/g 1.5000 U 2.0400 U
l.iHtilum=()RK; i\»nuui
-------�
Table LL1 (continued)
A horizon H horizon C horizon A lab split
Analysis IJnils Result Qualifier Result Qualifier Result Qualifier Result Qualifier
Location =OKI{; i'ormation=NOLlCllUCKY; Site=5; Sample type =Regiilar; A =4253; U=' '; C-' '; A lab split=' '; l'hase~2
Technet iuin-99 pCi/g 1.7100 U
l.octiiion = OI(li; Formation =NOLICIIUCKY; Sile=5,21,31; Sample type=Regtilar; A =5074; D=5077; C-5080; A lab split = ' '; l'luuc = I
Ameri c i i«n- 241
pC
/ g
0.0270
U
0.03
U
0.0230
U
Barium-133
pC
/ g
0.0069
U
0.01
U
0.0059
u
Ces inn-137
pC
/ g
0.7100
0.01
0.0060
u
Chromi urn-51
pC
/g
0.0420
u
0.04
U
0.0370
u
Cobalt- 5 7
pC
/ g
0.0044
u
0.00
U
0.0040
u
Cobalt-60
pC
/g
0.0059
u
0.01
u
0.0056
u
Cur inn-243
pC
/g
0.0300
u
Curiun-245
pC
/g
0.0580
u
Curium-247
pC
/g
0.0053
Europium-152
pC
/ g
0.0340
u
0.03
U
0.0320
u
Europium-154
pC
/ g
0.0091
u
0.01
u
0.0084
u
Neptunium-237
pC
/ g
0.2300
J
Plutonium-238
pC
/ g
0.0630
UJ
Plutonium-239/240
pC
/ g
0.0430
UJ
Potassium-40
pC
/g
14.0000
14.00
23.0000
Radium-226
pC
/ g
1.4000
1.20
0.8600
Ruthenium-103
pC
/g
0.0053
u
0.00
U
0.0046
u
Stront ium-90
pC
/g
0.6700
u
Thorium-228
pC
/ g
1.4000
J
1.40
J
1.4000
J
Thorium-230
PC
/g
0.9100
J
0.97
J
0.9000
J
Thorium-232
pC
/g
1.2000
J
1 .AO
J
1.3000
J
Thoriun-234
pc
/g
1.3000
1.00
1.0000
Total Uraniun
PC
/g
1.4000
J
UraniL/n 233/234
pf
/g
2.5000
UJ
2.10
UJ
2.5000
UJ
Uranium-235
pc
/g
0.1200
UJ
0.04
UJ
0.1700
UJ
UraniLm-235 (yanma)
pC
/g
0.0432
0.04
0.0541
Uranium-236
pC
/g
O.OHfl
UJ
0.01
UJ
0.0130
UJ
Uraniun-238
pc
/g
2.80oj
UJ
2.30
UJ
2.8000
UJ
Zinc-65
pc
/g
0.0130
u
0.01
U
0.0130
u
Zi rconium-95
pc
/g
0.0100
u
0.01
u
0.0099
-------�
Table IL1 (continued)
A horizon D horizon C horizon A lab split
Analysis Units Result Qualifier Result Qualifier Result Qualifier Result Qualifier
Location =R()A; Fomuiiio>i=COI'l'EH RIDCIE; Sue =33; Sample type=Regiilar; A=6U03; II =' C=' A lab split = ' Phase=2
Technetiuni-99 pCi/g 1.4800 U
l.oc
-------�
Tabic HI (continued)
A horizon B horizon C horizon A lab split
Analysis Units Result Qualifier Result Qualifier Result Qualifier Result Qualifier
Uranium-238
pCi/g
0.7870
J
1.04
J
1.5500
J
Uranium-238 (gamma)
pCi/g
1.2600
U
3.47
u
4.0000
U
Zinc-65
pCi/g
0.0422
U
0.04
u
0.0442
U
Zi rconiun-95
pCi/g
0.0380
U
0.03
u
0.0371
U
Louiiion=ROA; iormation=COPI'ER RIDGE; Site =34; Sample ty]>e=Regular; A=6094; 11=' ('=' A lab split =' Phase—2
Technetium-99 pCi/g 1.3400 U
Location=l(()A; Formation =COI'l'liU RIDOh; Sue =34,39,41; Sample type=Regular, A =6083; li=6088; 0=6091; A lab split =6085;
l'luise=2
Amer ic ium-241
pCi/g
0.0282
U
0.04
u
0.0355
U
0.0285
u
Barium-133
pCi/g
0.0085
U
0.01
u
0.0092
U
0.0081
u
Cesium-137
pCi/g
1.4100
0.01
u
0.0083
U
1.3900
Chromium-51
PC
/g
0.5230
u
0.65
u
0.5580
U
0.4850
u
Cobalt-57
pC
/ g
0.0071
u
0.01
u
0.0077
U
0.0070
u
Cobalt-60
pC
/ g
0.0065
u
0.01
u
0.0077
U
0.0063
u
Curium-243
pC
/g
0.0400
u
0.0436
u
Curium-245
pC
/g
0.0744
u
0.0741
u
Curium-247
pC
/ g
0.0081
u
0.0077
u
Europi urn-152
pC
/g
0.0447
u
0.05
u
0.0482
U
0.0423
u
Europi urn-154
pC
/g
0.0120
u
0.02
u
0.0131
U
0.0119
u
Hafnium-181
pC
/g
0.0341
u
0.04
u
0.0336
U
0.0324
u
Iridium-192
pC
/ g
0.0139
u
0.02
u
0.0155
U
0.0134
u
Neptunium-237
PC
/g
0.0616
J
0.0581
J
Neptunium-237 (gaiima)
pC
/g
1.2200
u
1.46
u
1.3200
U
1.1800
u
Niobium-95
PC
/g
0.0456
u
0.06
u
0.0579
U
0.0456
u
PI utoniim-Plfl
pC
/g
0.0590
U.I
0.9280
.1
Plutonium-239/240
pC
/g
0.0308
J
1.3700
J
Potassium-40
pci/g
2.5300
29.60
3.5600
2.6000
Radium-226
pCi/g
0.8490
1.84
3.2500
0.8320
Ruthenium-103
pCi/g
0.0333
u
0.04
u
0.0341
U
0.0309
u
Stront iun-90
pCi/g
1.1200
u
1.0300
u
Thorium-228
pCi/g
0.5090
J
1.59
J
1.1000
J
0.5250
J
Thorium-230
pCi/g
0.8380
J
1.02
J
1.5400
J
0.8670
J
Thorii*n-232
pCi/g
0.5000
J
1.51
J
1.2200
J
0.4860
J
Thorium-234 (gamma)
pCi/g
1.1200
1.29
1.7300
1.1500
-------�
Tabic IL1 (continued)
A horizon 13 horizon C. horizon A lab split
Analysis L) nils Result Qualifier Result Qualifier Result Qualifier Result Qualifier
Total Uranium
pCi/g
1.3000
J
1.0500
J
Uraniim-233/234
pCi/g
0.9600
J
0.84
J
1.4000
J
0 . 73 5 0
J
Uranium-235
pCi/g
0.0309
UJ
0.06
J
0.0706
J
0.0284
J
Uranium-235 (gamma)
pCi/g
0.0500
U
0.05
U
0.1270
0.0470
U
Uranium-236
pCi/g
0.0097
UJ
0.01
UJ
0.0132
UJ
0.0106
UJ
Uranium-238
pci/g
1.0000
J
0.96
J
1.6400
J
0.8940
J
Uranium-238 (yumna)
pCi/g
18.5000
u
25.40
U
20.7000
u
17.4000
u
Z i nc-65
pCi/g
0.0179
u
0.03
u
0.0203
u
0.0170
U
Zirconium-95
pCi/g
0.0313
u
0.05
u
0.0393
u
0.02B7
U
Locution—ROA; formation =COI'l'ER RIDGE;
Site =
¦ 35; Sample !)•]>€ =
Regular; A
= 6a>5; U = '
A lab split =' '; I'hnse
= 2
Technetium-99 pCi/g 1.1100 U
l.ocatwn-ROA; l,'onnatU>n=C'Ol'l'LR RIDGE; Siie = 40,42,43; Sample type=Regulai; A=6056; 11=6059, ('=6062, A lab split =' '; ^
Phase =2
Americiuin-241
pCi/g
0.0550
U
0.04
U
0.0404
U
Barium-133
pCi/g
0.0208
U
0.01
u
0.0143
U
Ces ium-137
pCi/g
0.8050
0.01
u
0.0129
U
Chromium-51
pCi/g
0.1220
U
0.08
u
0.0830
U
Cobalt-57
PCi/g
0.0101
U
0.01
u
0.0074
U
Cobalt-60
pCi/g
0.0166
U
0.01
u
0.0120
U
Curium-243
pCi/g
0.0975
U
Curium-245
pCi/g
0.1370
U
Cur i um-247
pCi/g
0.0184
U
Europium-152
pCi/g
0.0985
u
0.08
u
0.0820
U
Europium-154
pci/g
0.0215
u
0.02
u
0.0161
U
Hafnium-181
pCi/g
0.0173
U
0.01
u
0.0116
U
1ridium-192
pCi/g
0.0145
u
0.01
u
0.0097
U
Neptunium-237
pci/g
0.0660
J
Neptunium-237 (gaiima)
pci/g
2.2200
U
1.83
u
1.8100
U
Niobium-95
pCi/g
0.0177
U
0.01
u
0.0135
U
Potass i um-40
pCi/g
2.2600
2.75
2.7900
Radium-226
pci/g
0.7240
0.77
0.7970
Rutheniun-103
pCi/g
0.0157
u
0.01
u
0.0111
U
Stront ium-90
pCi/g
0.7960
u
Thorium-228
pci/g
0.4930
J
0.70
J
1.1800
-------�
Tabic 1L1 (continued)
A horizon 13 horizon C horizon A lab splil
Analysis Units Result Qualifier Result Qualifier Result Qualifier Result Qualifier
Thorium-230
pci/g
0.6920
J
0.77
J
1.1600
J
Thorium-232
pCi/g
0.4270
J
0.51
J
1.0800
J
Thorium-234
pCi/g
0.8550
UJ
0.54
UJ
0.7530
UJ
Total Uranium
pCi/g
3.2100
Uranium-233/234
pCi/g
3.2100
J
0.82
J
0.9040
J
Uranium-235
pCi/g
0.0175
J
0.06
J
0.0302
J
Uranium-235 (gamma)
pCi/g
0.1510
U
0.10
u
0.1010
u
Uranium-236
pCi/g
0.0087
UJ
0.03
UJ
0.0113
UJ
Uranium-238
pCi/g
0.6370
J
0.83
J
1.2000
J
Uranium-238 (gnnina)
pCi/g
3.5300
U
2.98
u
2.7100
u
Zinc-65
pCi/g
0.0379
u
0.03
u
0.0269
u
Zirconium-95
pci/g
0.0287
u
0.03
u
0.0217
u
Loauum=ROA; Fonnation = COPPER HI IK iE; Si(e — 45,46>,47; Sample ly/>e = H<'gnltir; A =6074; 11 = 6071; C=6065; A lab split='
Phase=2
tT|
I
Americium-241
pCi/g
0.1120
u
0.11
U
0.0690
u
Barium-133
pCf/g
0.0426
U
0.05
U
0.0276
U
Cesium-137
pci/g
0.8130
0.05
U
0.0271
U
Chromium-51
pCi/g
0.2480
u
0.27
U
0.1660
U
Cobalt-57
pCi/g
0.0204
U
0.02
u
0.0166
U
Cobalt-60
pCi/g
0.0429
u
0.04
u
0.0284
U
Curi um-243
pCi/g
0.1990
U
Curium-245
pCi/g
0.2720
U
Curium-247
pCi/g
0.0379
U
Europium-152
pCi/g
0.2270
U
0.22
u
0.1550
U
Europium-154
pci/g
0.0431
U
0.05
u
0.0347
U
Hafnium-181
pCi/g
0.0386
U
0.04
u
0.0234
U
Iridium-192
pCi/g
0.0298
U
0.03
u
0.0193
U
Neptunium-237
pCi/g
0.0366
UJ
Npptuniim-237 (gamma)
pCi/q
4.4400
U
5.12
u
3.5400
u
Mi obi urn-95
pCi/g
0.0430
U
0.04
u
0.0290
u
Plutonium-238
pci/g
0.0482
J
Plutonium-239/240
pci/g
0.0362
UJ
Potassium-40
pci/g
3.3700
1.32
u
3.6700
Radiun-226
pci/g
1.0900
1.17
0.9360
Ruthenium-103
pci/g
0.0339
u
0.04
u
0.0226
u
Stront i un-90
pci/g
2.3300
Thorium-228
pCi/g
0.6800
J
1.14
J
1.0100
J
Thorium-230
pCi/g
0.8780
J
1.18
J
1.2100
J
Thorium-232
pci/g
0.6260
J
1.13
J
1.0000
-------�
Tabic 111 (continued)
A horizon B horizon C horizon A lab split
Analysis Units Result Qualifier Result Qualifier Result Qualifier Result Qualifier
Thorium-234
pCi/g
1.0300
UJ
1.14
UJ
0.8030
UJ
Total Uraniun
pCi/g
2.2500
J
Uranium-233/234
pci/g
1.1700
J
1.0300
J
Uranium-235
pci/g
0.0941
J
0.9360
J
Uranium-235 (gamma)
pCi/g
0.1790
U
0.21
U
0.1450
U
Uranium-236
pCi/g
0.0104
UJ
0.0157
J
Uraniurn-238
pCi/g
1.0200
J
1.3400
J
Uranium-238 (gamno)
pCi/g
6.9800
U
7.63
U
5.2700
u
Zinc-65
pCi/g
0.0832
U
0.09
U
0.0549
u
Zirconiuni-95
pci/g
0.0689
U
0.07
U
0.0461
u
I.ocatitm=K()A; b'ormation-C.Ol'l'ER IODISE; Siie — 45,-t6,-)7; Sample lype=l'teld Duplicate; A =6077; 11—6080; C=6(>6S; A lab splil = ' ';
Phase = 2
Americ ium-241
pCi/g
0.0905
U
0.11
u
0.0747
U
Barium-133
pCi/g
0.0374
U
0.04
U
0.0255
u
Cesium-137
pc
/g
0.6660
0.04
u
0.0241
u
Chromium-51
PC
/g
0.2300
U
0.23
u
0.1590
u
Cobalt-5 7
pc
/g
0.0186
U
0.02
u
0.0144
u
Cobalt-60
pC
/g
0.0348
U
0.03
u
0.0228
u
Curium-243
pC
/g
0.1780
U
Curium-245
pC
/g
0.2470
U
Curium-247
pc
/g
0.0355
U
Europium-152
pC
/g
0.1830
U
0.02
u
0.1250
u
Europiuni-154
pc
/g
0.0388
U
0.04
u
0.0307
u
Hafni urn-181
pc
/g
0.0325
U
0.03
u
0.0216
u
Iridium-192
pc
/g
0.0267
U
0.03
u
0.0179
u
Neptunium-237
pc
/g
0.0574
J
Neptuniun-237 (gamma)
pc
/g
3.9400
U
4.35
u
3.1200
u
Niobium-95
PC
/g
0.0335
U
0.04
u
0.0263
u
Plutonium-238
pc
/g
0.2060
UJ
Plutoniun-239/240
pc
/g
0.0258
UJ
Potassium-40
pc
/g
2.7100
0.9B
u
3.5700
Radium-226
pc
/g
1.0100
1.09
1.1100
Ruthenium-103
pci/g
0.0297
u
0.03
u
0.0184
u
Stront ium-90
pCi/g
0.9690
u
Thoriun-228
pCi/g
0.6410
J
0.98
J
0.9970
J
ThoriLin-230
pci/g
0.9770
J
0.97
J
0.9590
J
Thorium-232
pci/g
0.6400
J
0.77
J
1.0200
J
Thorium-234
pci/g
0.9130
UJ
1.26
UJ
0.8290
UJ
Total Uranium
pCi/g
2.4500
J
Uranium-233/234
pCi/g
0.9810
J
1.2600
-------�
Table 111 (continued)
A horizon II horizon C horizon A lab split
Analysis Units Result Qualifier Result Qualifier Result Qualifier Result Qualifier
Uranium-235
pCi/g
0.0648
J
0.1000
J
Uranium-235 (garrnia)
pCi/g
0.1580
U
0.16
U
0.1080
U
Uranium-236
pCi/g
0.0108
UJ
0.0369
UJ
Uranium-238
pCi/g
1.0400
J
1.3600
J
Uranium-238 (gamma)
pci/g
6.2300
U
6.09
U
4.4500
U
Zinc-65
pCi/g
0.0727
U
0.07
U
0.0462
u
Zi rconium-95
pci/g
0.0580
u
0.06
U
0.0406
U
Location =li()A; I 'm million —DISMA/. CiAl'; Site —10,Li,14; Sample type = l{cgiilnr; A =6010; 11 = 6032; C = 60J5; A tab split =' I'luiyc — /
Amer i c i um-241
pCi/g
0.0520
U
0.04
u
0.0340
u
Barium-133
pCi/g
0.0110
U
0.01
u
0.0079
u
Cesium-137
pCi/g
0.8700
0.01
0.0084
u
Chromi um-51
pCi/g
0.0640
U
0.06
u
0.0500
u
Cobalt-57
pCi/g
0.0067
U
0.01
u
0.0055
u
Cobalt-60
pci/g
0.0080
U
0.01
u
0.0073
u
Curium-243
pCi/g
0.0560
U
Cur'ium-245
pCi/g
0.0910
U
Curium-247
pCi/g
0.0099
U
Europium-152
pCi/g
0.0460
u
0.04
u
0.0370
u
Europium-154
pci/g
0.0140
u
0.01
u
0.0120
u
Hafnium-181
pCi/g
0.0089
u
0.01
u
0.0065
u
Iridium-192
pCi/g
0.0075
u
0.01
u
0.0057
u
Niobium-95
pCi/g
0.0093
u
0.01
u
0.0077
u
Ptutonium-238
pCi/g
0.0590
UJ
Plutoniim-239/240
pCi/g
0.0490
UJ
Potassium-40
pCi/g
9.5000
17.00
22.0000
Radium-226
pCi/g
0.7200
0.71
0.6200
Ruthenium-103
pCi/g
0.0081
u
0.01
u
0.0048
Stront iun-90
pCi/g
1.2000
u
Thorium-228
pCi/g
0.9400
J
1.40
J
1.1000
J
Thorium-230
pCi/g
0.7300
J
0.90
J
0.6500
J
Thorium-232
pci/g
0.9800
J
1.40
J
1.2000
J
Thorium-234
pCi/g
0.9400-
0.88
0.7800
Total Uranium
pCi/g
2.5000
J
Uranium- 233/234
pCi/g
0.8300
J
0.93
J
1.0000
J
Uranium-235
pCi/g
0.0900
UJ
0.05
UJ
0.1500
J
Uraniun-235 (gairma)
pCi/g
0.0757
0.07
0.0280
Uranium-236
pci/g
0.0320
UJ
0.05
UJ
0.1100
UJ
Uranium-238
pCi/g
0.8200
J
1.00
J
0.8900
J
Zinc-65
pci/g
0.0180
u
0.02
u
0.0170
u
ZirconiLm-95
pci/g
0.0150
u
0.01
u
0.0130
-------�
Table 111 (continued)
A horizon H horizon C horizon A lab split
Analysis Units Result Qualifier Result Qualifier Result Qualifier Result Qualifier
l.ocaiion=ROA, t'Ormation-DlSMstt. (JAP; Site-10,13,14; Sample type=Field Duplicate; A-00J8; Lt=6Ull; ('=6044; A lab split = ' ';
Phase=1
Americium-241
pC
/g
0.0190
0.03
U
0.0510
u
Barium-133
PC
/g
0.0110
U
0.01
U
0.0120
U
Cesium-137
pC
/g
1.0000
0.01
0.0120
U
Chromium-51
pC
/g
0.0690
U
0.05
U
0.0770
U
Cobalt-57
pC
/g
0.0070
U
0.01
U
0.0075
U
Cobalt-60
pC
/g
0.0088
U
0.01
U
0.0120
U
Curium-243
pC
/g
0.0600
U
Curium-245
pC
/g
0.0930
U
Curium-247
pC
/g
0.0100
U
Europium-152
pC
/g
0.0500
U
0.04
u
0.0580
U
Europium-154
pC
/ g
0.0150
U
0.01
U
0.0160
U
Hafnium-181
pC
/g
0.0095
U
0.01
U
0.0110
U
I ridiutn-192
pC
/g
0.0079
U
0.01
u
0.0086
U
Niobium-95
pC
/g
0.0093
u
0.01
U
0.0130
U
Plutonium-238
pC
/g
0.1100
J
Plutonium-239/240
pC
/g
0.0510
UJ
Potassium-40
pC
/g
11.0000
20.00
24.0000
Radium-226
pC
/g
0.8200
0.71
0.7000
Ruthenium-103
pC
/g
0.0089
u
0.01
U
0.0098
U
Strontium-90
pC
/g
1.3000
u
Thorium-228
pC
/ g
1.4000
J
0.80
J
0.6600
J
Thorium-230
pC
/g
0.9200
J
0.32
J
0.4200
J
Thorium-232
pC
/g
1.5000
J
0.89
J
0.6700
J
Thorium-234
PC
/g
1.5000
1.00
2.1000
Total Uranium
pC
/g
1.8000
J
Uranium-233/234
pC
/ g
0.8200
J
1.00
J
1.1000
J
Uranium-235
PC
/g
0.0680
J
0.05
J
0.0930
UJ
Uranium-235 (gannia)
pC
/ g
0.0792
0.06
0.0570
Uraniin- 236
pC
/g
0.0150
UJ
0.03
UJ
0.0930
UJ
Uranium-238
pC
/g
0.9500
J
1.20
J
0.9700
J
Zinc-65
pC
/g
0.0190
u
0.02
U
0.0290
U
Zi rconiun-95
pC
/g
0.0170
u
0.02
u
0.0220
u
Localion=ROA; formation =DlShL\L, GAP; Sitc = 19; Sample typc=Regnlar; A=6W6; 1)=' C=' '; A lab iplit=' '; Phase = 2
Technet ium-99
-------�
Table LL1 (continued)
A horizon B horizon C horizon A lab split
Analysis Units Result Qualifier Result Qualifier Result Qualifier Result Qualifier
Location=ROA; Formation = DISMAL OA I'; Site=20, Sample tyj>e = Regular; 4=6097; B=' C-' A lab spltt=' I'll use = 2
Technetium-99 pCi/g 0.9320 U
Location-ROA; Fonnation= DISMAL. GAI'; Site = 2I; Sample tyj>c = Regular; A=(>0(JS; 11=' '; ('=' '; A lab spli(=' '; l'haie = 2
Technotlum-99 pCi/g 1.3800 U
Location =RUA; i'ormahon = DISM4L GAI', Site=3,7,21; Sample type=Regular; A =6020; 11=6023; C=6026; A lab split =' I'hase-I
Americiun-241
pCi/g
0.0410
U
0.04
U
0.0390
U
Barium-133
pCi/g
0.0097
U
0.01
U
0.0094
U
Cesium-137
pCi/g
0.0094
U
0.01
0.0094
U
Chromium-51
pci/g
0.0600
u
0.06
U
0.0590
U
Cobalt-57
pCi/g
0.0065
u
0.01
U
0.0072
U
Cobalt-60
pci/g
0.0088
u
0.01
U
0.0097
U
Curium-243
pCi/g
0.0550
u
Curium-245
pci/g
0.0880
u
Curium-247
pCi/g
0.0091
u
Europium-152
pCi/g
0.0460
u
0.05
U
0.0500
U
Europium-154
pCi/g
0.0140
u
0.01
U
0.0150
U
Hafnium-181
pci/g
0.0081
u
0.01
U
0.0078
U
Iridium-192
pci/g
0.0069
u
0.01
U
0.0068
U
Niobium-95
pci/g
0.0090
u
0.01
U
0.0098
U
Plutonium-238
pci/g
0.2500
J
Plutonium-239/240
pCi/g
0.0600
UJ
Potassium-40
pci/g
22.0000
27.00
21.0000
Radium-226
pCi/g
0.7900
0.79
0.8000
Ruthenium-103
pci/g
0.0074'
u
0.01
U
0.0073
u
Strontium-90
pCi/g
1.5000
u
Thorium-228
pci/g
0.7000
J
0.17
J
1.1000
J
Thorium-230
pci/g
0.4400
J
0.89
J
1.1000
J
Thorium-232
pCi/g
0.7200
J
1.40
J
1.1000
J
Thorium-234
pCi/g
1.4000
1.20
1.3000
Total Uranium
pCi/g
1.2000
J
Uraniim-233/234
pCi/g
1.1000
J
1.10
J
0.9500
J
L'i anium-235
pci/g
0.0610
J
0.04
J
0.0710
-------�
Tabic Ii.1 (continued)
A horizon D horizon C horizon A lab split
Analysis Unils Result Qualifier Result Qualifier Result Qualifier Result Qualifier
Uraniun-235 (ganma)
pCi/g
0.0907
0.03
0.0708
Uranium-236
pci/g
0.0840
UJ
0.03
UJ
0.0700
UJ
Uranium-238
pCi/g
1.2000
J
1.00
J
1.2000
J
Zinc-65
pci/g
0.0210
U
0.02
U
0.0220
U
Z i rconiuni-95
pci/g
0.0160
U
0.02
U
0.0170
U
Locution = ROA; L'omuittoit
= DISMAI.
<7.-1Site
=rt, 20,22,
Sample !)']*' = licgiilnr; ,
) =0011, H = ()ON; (.
= 6017;
Amer i c i urn-241
pCi/g
0.0510
U
0.04
U
0.0430
U
Barium-133
pCi/g
0.0093
U
0.01
u
0.0110
U
Cesium-137
pci/g
1.3000
0.01
0.0099
U
Chromium-51
pCi/g
0.0570
U
0.07
u
0.0660
U
Cobalt-57
pCi/g
0.0063
U
0.01
u
0.0071
U
Cobalt-60
pCi/g
0.0069
u
0.01
u
0.0097
U
Curium-243
pci/g
0.1900
u
Curium-244
pCi/g
0.0690
UJ
Curium-245
pci/g
0.0440
u
Curium-247
pCi/g
0.0250
u
Europium-152
pci/g
0.0380
u
0.05
u
0.0480
U
Europium-154
PC
/g
0.0130
u
0.02
u
0.0150
U
Hafnium-181
Pc
/g
0.0078
u
0.01
u
0.0087
U
I ridiun-192
Pc
/g
0.0065
u
0.01
u
0.0076
U
Niobium-95
pc
/g
0.0079
u
0.01
u
0.0099
U
Plutonium-238
pc
/g
0.0890
UJ
Plutonium-239/240
pC
/g
0.0570
UJ
Potass i Lin-40
pC
/g
8.1000
17.00
27.0000
Radium-226
pc
/g
0.7900
1.00
0.7700
Ruthenium-103
pc
/g
0.0070
U
0.01
u
0.0081
U
Strontium-90
pc
/g
0.7100
NA
Thorium-228
pC
/ g
1.2000
J
1.10
j
0.4700
J
lhorium-230
pC
/g
0.8900
J
0.95
j
0.2700
J
Thorium-232
pC
/g
0.9100
J
1.40
j
0.3400
J
Thorium-234
pc
/g
1.3000
NA
1.60
NA
1.1000
NA
Total Uranium
pc
/g
1.4000
J
Uranium-233/234
pc
/g
0.8400
J
0.59
J
0.3900
J
Uranium-235
pc
/g
0.0530
J
0.04
UJ
0.0400
UJ
Uraniun-235 (gamma)
pc
/g
0.0664
0.08
0.0796
Uraniim-236
pc
/g
0.0140
UJ
0.01
UJ
0.0120
UJ
Uraniin-238
pc
/g
0.9800
J
0.61
J
0.4400
J
Zinc-65
PC
/g
0.0140
u
0.02
U
0.0220
U
Z i rconium-95
pcl/g
0.0130
u
0.02
U
0.0180
-------�
Table LL1 (continued)
A horizon D horizon C horizon A lab split
Analysis Units Result Qualifier Result Qualifier Result Qualifier Result Qualifier
Location=ROA; Formation—DISMAL GAl'; Sile=9,17,19; Sample type = Regit htr; A -6005; D=6002; C—6008; A lab split =' l'hase = l
Americium-241
pC
/g
0.0440
u
0.04
U
0.0620
U
Barium-133
pC
/g
0.0110
u
0.01
U
0.0120
U
Cesium-137
pC
/g
0.9000
0.02
0.0110
U
Chromium-Si
pC
/g
0.0690
u
0.06
U
0.0760
U
Cobalt-57
pC
/g
0.0070
u
0.01
U
0.0083
U
Cobalt-60
pC
/ g
0.0084
u
0.01
U
0.0110
U
Curium-243
pC
/g
0.0610
u
0.05
U
0.0680
U
Cur ium-244
pC
/g
0.9100
UJ
0.83
UJ
Curium-245
pC
/g
0.0950
u
0.09
U
0.1100
U
Curium-247
pC
/g
0.0110
u
0.01
u
0.0110
u
Europium-152
pC
/g
0.0510
u
0.05
u
0.0560
u
Europium-154
pC
/g
0.0150
u
0.02
u
0.0180
u
Hafni urn-181
pC
/g
0.0096
u
0.01
U
0.0100
u
Ir idi urn-192
pC
/g
0.0080
u
0.01
U
0.0088
u
Niobium-95
pC
/g
0.0091
u
0.01
u
0.0260
u
Plutonium-238
pC
/g
0.1100
J
0.10
J
0.0950
UJ
Plutonium-239/240
pC
/g
0.0440
UJ
0.07
UJ
0.0250
J
Potassium-40
pC
/g
8.3000
13.00
23.0000
Radium-226
pC
/g
1.0000
1.00
0.9400
Ruthenium-103
pC
/g
0.0086
u
0.01
u
0.0095
u
Stront ium-90
pC
/ g
1.2000
NA
1.20
NA
1.2000
NA
Thorium-228
pC
/g
0.9700
J
1.40
J
0.5600
J
Thorium-230
pC
/g
0.9600
J
1.10
J
0.4200
J
Thorium-232
pC
/g
0.9800
J
1.20
J
0.6100
J
Thorium-234
pC
/g
1.7000
1.90
1.3000
Total Uranium
pC
/g
0.0660
UJ
0.45
J
1.3000
J
Uranium-233/234
pC
/g
1.0000
J
0.55
J
0.5200
J
Uranium-235
pC
/g
0.0510
J
0.04
J
0.0500
UJ
Uranium-235 (ganina)
pC
/g
0.0747
0.11
0.0642
Uranium-236
pC
/g
0.0160
UJ
0.01
UJ
0.0130
UJ
Uranfun-238
PC
/g
0.9300
J
0.69
J
0.6200
J
Zinc-65
pci/o
n.nmn
II
0 .02
II
0.0?60
11
Zirconium-95
pCi/g
0.016Q
u
0.02
U
0.0200
-------�
Tabic 1L2. Trilium analysis rcsulls for noncomposilctl soil samples
ocntion
Formation
Site
I lorizon
IJniis
Sample
id
I'hasc
I'ldcJ Duplicate
A horizon
Result
Qunlif
AND
COPPER RIDGE
32
A
pC
/9
2260
2
0.049
UJ
AND
COPPER RIDGE
33
A
pC
/g
2263
2
0.048
UJ
AND
COPPER RIDGE
34
A
pC
/ g
2266
2
0.061
UJ
AND
COPPER RIDGE
35
A
pC
/g
2269
2
0.060
UJ
ORR
CHEPULTEPEC
50
A
pC
/g
1549
2
0.100
UJ
ORR
CHEPULTEPEC
66
A
pC
/g
1739
2
0.100
UJ
ORR
CHEPULTEPEC
74
A
pC
/g
1747
2
0.100
UJ
ORR
CHEPULTEPEC
85
A
pC
/g
1607
2
0.200
UJ
ORR
CHICKAMAUGA Bethel
V
93
A
pC
/g
4216
2
0.130
UJ
ORR
CHICKAMAUGA Bethel
V
99
A
pC
/g
4217
2
0.110
UJ
ORR
CHICKAMAUGA Bethel
V
100
A
pC
/g
4218
2
0.140
UJ
ORR
CIUCKAMAUGA Bethel
V
101
A
pC
/g
4219
2
0.120
J
ORR
CHICKAMAUGA Bethel
V
102
A
pC
/g
4220
2
0.220
J
ORR
CHICKAMAUGA Bethel
V
103
A
pC
/g
4221
2
0.200
J
ORR
CHICKAMAUGA Bethel
V
10A
A
pC
/g
1965
2
0.120
UJ
ORR
CHICKAMAUGA Bethel
V
108
A
pC
/g
1968
2
0.110
UJ
ORR
CHICKAMAUGA Bethel
V
110
A
pc
/g
1971
2
0.130
UJ
ORR
CHICKAMAUGA Bethel
V
115
A
pC
/g
1974
2
0.120
UJ
ORR
CHICKAMAUGA Bethel
V
116
A
pc
/g
19 77
2
0.090
UJ
ORR
CHICKAMAUGA Bethel
V
117
A
pc
/g
1980
2
0.110
UJ
ORR
CHICKAMAUGA K-25
118
A
pc
/g
4096
2
0.092
UJ
ORR
CHICKAMAUGA K-25
120
A
pc
/g
4093
2
0.071
UJ
ORR
CHICKAMAUGA K-25
122
A
pc
/g
4106
2
0.072
UJ
ORR
CHICKAMAUGA K-25
124
A
pc
/g
4116
2
0.068
UJ
ORR
CHICKAMAUGA K-25
126
A
pc
/g
4090
2
0.088
UJ
ORR
CHICKAMAUGA K-25
129
A
pc
/g
4087
2
0.058
UJ
ORR
COPPER RIDGE
62
A
pc
/g
1481
2
0.015
J
ORR
COPPER RIDGE
64
A
pc
/g
1484
2
0.012
J
ORR
COPPER RIDGE
75
A
pc
/g
1478
2
0.023
J
ORR
COPPER RIDGE
83
A
pc
/g
1475
2
0.024
J
ORR
COPPER RIDGE
91
, A
pc
/g
1472
2
0.019
UJ
ORR
DISMAL GAP
11
A
pc
/g
1079
1
0.042
UJ
ORR
DISMAL GAP
2
A
pc
/g
1189
1
0.061
UJ
ORR
DISMAL GAP
2
A
pc
/g
1198
1
FIELD DUPLICATE
0.036
UJ
ORR
DISMAL GAP
22
A
pc
/g
1123
1
0.048
J
ORR
DISMAL GAP
26
A
pc
/g
1214
1
0.036
J
ORR
DISMAL GAP
27
A
pc
/g
1071
1
0.017
UJ
ORR
DISMAL GAP
32
A
pc
/g
1124
1
0.051
J
ORR
DISMAL GAP
33
A
pc
/g
1125
1
0.062
J
ORR
DISMAL GAP
35
A
PC
/g
1126
1
0.042
J
ORR
DISMAL GAP
41
A
pCi/g
1063
1
0.020
UJ
ROA
COPPER RIDGE
34
A
pci/a
3330
2
0.300
UJ
ROA
COPPER RIDGE
40
A
pCi/B
3327
2
0.200
UJ
ROA
COPPER RIDGE
41
A
pCi/g
3328
2
0.200
-------�
Tabic 112 (continued)
Location
Formation
Site
I Iorizon
Units
Sample
id
I'hasc
A horizon
Field Duplicate Result
Qualifier
ROA
DISMAL GAP
17
A
pCi/g
3016
1
0.046
UJ
ROA
DISMAL GAP
20
A
pci/g
3045
1
0.048
UJ
ROA
DISMAL GAP
22
A
pCl/g
3057
1
0.041
UJ
ROA
DISMAL GAP
3
A
pCi/g
3098
1
0.040
UJ
ROA
DISHAL GAP
7
A
pci/g
3084
1
0.075
UJ
ROA
DISMAL GAP
8
A
pCi/g
3071
1
0.040
UJ
ROA
DISMAL GAP
9
A
pci/g
3004
1
0.053
UJ
-------�
Appendix F
RELATION OF SAMPLE NUMBERS TO LABORATORY
-------�
F-3
Table F.l. Relation of sample numbers to laboratory sample delivery groups (SDGs)
SDG number
Sample number
042260
0422260,
0430260/0508260/05111260
0430260
0508260
0511260
0514260
519260
0727260/0728260/0729260
0722260/0723260
0803260
0909260/0915260
0924260/1002260/1009260
1015260/1016260/1020260/1023260
1030260/1109260/1113260
1118260/1120260/1124260
1204260/1209260/1211260
1216260/1217260/1218260/
0108260
0523260
0508260
0511260
042260
0424260
0430260
Inorganics
5001, 5004, 5007
5001, 5004, 5007, 5010, 5013, 5016, 5019, 5022, 5025,
6001, 6004, 6007, 6010, 6013, 6016
6001, 6004, 6007
5010, 5013, 5016, 5019, 5022, 5025
6010, 6013, 6016
5028, 5031, 5034, 5037, 5040, 5043, 6019, 6022, 6025
3144, 6028, 6031, 6034, 6037, 6040, 6043
5055, 5058, 5061, 5064, 5067, 5070, 5073, 5076, 5079,
5082, 5085, 5088
7001, 7001D, 7001, 7004, 7007. 7010, 7013. 7016. 7019,
7022, 7025, 7028, 7031, 7034, 7037FD/3 7040FD. 7043FD
1468
6046, 6049, 6052, 6055, 6058, 6061
5091, 5094, 5097, 1502, 5100, 5104, 5106. 5109, 5112,
5115
6064, 6067, 6070 ,6073 ,6076, 6079, 5118, 5121, 5124,
5127, 5130, 5133, 5136, 5139, 5142, 5145, 5148, 5151,
1735
5154, 5155, 5159, 5162, 5165, 5166 .5170, 5173,5174,
5178, 5181, 5184
3361, 3367, 6082, 6084, 6087, 6090, 5187, 5190, 5193,
5196, 5199, 5202
5205, 5208, 5211, 5216, 5217, 5222, 5225, 7046, 7047,
7051, 7054, 7057, 7060, 7063, 5228, 5229, 5234, 5237
5240, 5241, 5246, 5249, 7066. 7069, 7072, 7075, 7078,
7081, 5252, 5253,5257, 5260, 5263. 5264, 5268, 5271
4229, 4230, 4236, 4238, 4239
Pesticides/PCBs
1296, 1292, 1298, 1300, 1301, 1302, 1293. 1294, 1297,
1299, 1303, 1295
1181, 1190, 1201FD, 1213
3058, 3099, 3072, 3085
3018, 1064, 1072, 1080, 3003
1099, 1106, 1107, 1108, 1115
-------�
F-4
Table F.l (continued)
SDG number
Sample number
0514260
0519260
0722260
0828260
0827260
0911260/0916260
1015260/1016260/1020260/1023260
1118260/1120260/1124260
1204260/1209260/1211260
1216260/1217260/1218260
0108260
0508260
0042260
0424260
0430260
0511260
0828260
0827260
1015260/1016260/1020260/1023260
1118260/1120260/1124260
1204260/1209260/1211260
3113, 3046, 1231,3148,
3148RE
3127, 3139, 3168
3I13RE* 3046RE, 1231RE,
2070, 2059, 2157, 2090, 2101, 2120, 2116, 2080, 2112,
2143, 2130, 2149, 2039
3223, 3225, 3227, 3229,
3203, 3206, 3211, 3214,
1471, 1474, 1477, 1480,
1497
1744, 1746, 1749, 1738,
3358, 3364, 1891, 1894,
1964, 1967, 1970, 1973,
2265, 2268, 2271, 2273,
4G86, 4089, 4092, 4095,
3231, 3235, 3233-FD
3217, 3209
1483, 1487, 1491. 1493, 1495,
1741, 1734
1897, 1900, 1903, 1906
1976, 1979, 2257. 2259, 2262.
2275, 2277, 2279. 2281, 2283,
4105, 4115, 4124
4127, 4129, 4131, 4133, 4135, 4137
4227, 4233
Chlorinated Herbicides
1190, 1201FD, 1213
1G72, 1080, 3003, 1064
1C99, 1106, 1107, 1108, 1115, 3018
1127, 3032
3C46, 3058, 3085,3099,
3223, 3225, 3227, 3229,
3203, 3206, 3211,3214,
1738, 1741, 1734
3359, 3365, 1891, 1897, 1903, 1964, 1970, 1976
3072
3231, 3235, 3223-FD
3217, 3209
2257, 2259, 2262, 2265,
2279, 2281, 2283, 4086,
2268, 2271, 2273. 2275, 2277.
4092, 4095, 4105, 4115, 4124
0108260
-------�
F-5
Table F.l (continued)
SDG number
Sample number
0422260
0430260
0508260
0511260
0514260
0519260
0523260
0722260
072260/0723260
0828260
0827260
0911260/0916260
0924260/1002260/1009260
1015260/1016260/1020260/1023260
1118260/1120260/1124260
1204260/1209260/1211260
Polynuclear Aromatic Hydorcarbons
1064, 1072, 1080, 3003, 1009, 1106, 1107, 1108. 1115,
3018
1127, 3032
1190, 1201FD, 1213
3046, 3058, 3099, 3072, 3085
1231, 3113
3127, 3139, 3148, 3168
1292, 1293, 1294, 1295, 1296, 1297, 1298,1299, 1300,
1301, 1302, 1303
1216260/1217260/1218260
0108260
2684
2633
2391
2419
2423
2638
2157RE, 2101RE, 2070RE, 2080RE,
2116RE, 2112RE, 2143RE, 2130RE,
2090
2116, 2112, 2143, 2059, 2090. 2070,
2157, 2149, 2130, 2101
3223, 3225, 3227, 3229, 3231, 3235,
3203, 3206, 3211, 3214, 3217, 3209
2039RE, 2120RE,
2149RE, 2059RE,
2080, 2039, 2120,
3233-FD
1471, 1474, 1477, 1480, 1483, 1487, 1491, 1493, 1495,
1497
1542, 1544, 1546, 1548, 1551, 1553
1744, 1746, 1749, 1738, 1741, 1734
3360, 3366, 1891, 1894, 1897, 1900. 1903, 1906
2257, 2259, 2262,
2279, 2281, 2283,
, 4124
1964, 1967, 1970, 1973, 1976. 1979,
2265, 2268, 2271, 2273, 2275. 2277,
4086,4089,4092, 4095,4105,4115
4127, 4129, 4131, 4133, 4135, 4137
4226, 4234
Uranium Isotopes by Alpha Spectroscopy
1469
7002, 7011, 7020, 7029, 7005, 7008, 7014, 7017, 7023,
7026, 7032, 7035
5020, 5023, 5026
5029, 5038, 6020, 5032, 5041, 6023, 5035, 5044, 6026
6029, 6038, 6032, 6041, 6035. 6044
-------�
SDG i
2658
2847
2924
2970
21003
21046
21366
21299
21345
21123
21058
21034
2878
21081
21383
21328
21377
30044
21169
21205
21247
21262
21232
2658
2391
2684
2419
2633
2638
2423
F-6
Table F.l (continued)
Sample number
5056, 5065, 5074, 5083, 5059, 5062, 5068, 5071, 5077,
5080, 5086, 5089
6047, 6050, 6053
5098, 5092, 5095,
5101, 5103, 5107
5110, 5113, 5116
5119, 5122, 5125
5242, 5243, 5247, 5250
5206 , 5209 , 5212
7048, 7049, 7058, 5230, 5231, 7052, 7055, 7061, 7064,
5235, 5238
5156, 5157, 5160, 5163
5128, 5131, 5134
6074, 6077, 6065, 6068, 6071, 6080
6056, 6059, 6062
5137, 5146, 5140, 5143, 5149, 5152
5254, 5255, 5265, 5266, 5258, 5261,5269, 5272
5218, 5219, 5223, 5226
7067, 7070, 7073, 7076, 7079, 7082
4240
5167, 5168, 5175, 5176. 5171, 5179
5182, 5185
5188, 5191, 5194
5197, 5200, 5203
6083, 6085, 6088, 6091
Neptunium-237 by Alpha Spectroscopy
5056, 5065, 5074. 5083
5020
1469
5029, 5038, 6020
7002, 7011, 7020, 7029
703 8FD
-------�
SDG r
2970
21046
21366
21299
21345
21123
21003
21058
21034
2878
21081
21383
21328
2924
21377
30044
21169
2847
21262
21232
2419
2658
2638
2391
2633
2684
2423
2970
21046
21366
21299
F-7
Table F.l (continued)
Sample number
5101
5119
5242, 5243
5206
7048, 7049, 7058, 5230, 5231
5156, 5157
5110
5128
6074, 6077
6056
5137, 5146
5254 , 5255 . 5265 , 5266
5218, 5219
5092
7067, 7076
4240
5167, 5168, 5175, 5176
6047
5197
6083, 6085
Plutonium Isotopes by Alpha Spectroscopy
5029, 5038, 6020, 5032, 5041, 6023, 5035. 5044, 6026
5056, 5065, 5074, 5083
703 8FD
5020
7002, 7011, 7020, 7029
1469
6029, 6038
5101
5119
5242, 5243
-------�
SDGi
21345
21123
21003
21058
21034
2878
21081
21383
21328
2924
21377
30044
21169
2847
21262
21232
2684
2638
2633
2658
2419
2423
2970
21046
21366
21299
21345
21123
21003
21058
F-8
Table F.l (continued)
Sample number
7048, 7049, 7058, 5230, 5231
5156, 5157
5110
5128
6074, 6077
6056
5137, 5146
5254, 5255, 5265, 5266
5218, 5219
5092
7067, 7076
4240
5167, 5168, 5175, 5176
6047
5197
6083, 6085
Thorium Isotopes by Alpha Spectroscopy
1469
7038FD, 7041FD, 7044FD
7002, 7011, 7020, 7029, 7005, 7008, 7014, 7017, 7023,
7026, 7032, 7035
5056, 5065, 5074, 5083, 5059, 5062, 5068, 5071. 5077,
5080, 5086, 5089
5029, 5038, 6020, 5032, 5041, 6023, 5035. 5044. 6026
6029, 6038, 6032, 6041, 6035, 6044
5101, 5103, 5107
5119, 5122, 5125
5242, 5243, 5247, 5250
5206 , 5209 , 5212
7048, 7049, 7058, 5230, 5231, 7052, 7055. 7061, 7064,
5235, 5238
5156, 5157, 5160,5163
5110, 5113, 5116
-------�
SDG i
21034
2878
21081
21383
21328
2924
21377
30044
21169
2847
21247
21205
21262
21232
2419
2423
2633
2638
2658
2684
2970
21046
21366
21299
21345
21123
21003
21058
21034
2878
21081
F-9
Table F.l (continued)
Sample number
6074, 6077, 6065, 6068, 6071, 6080. 6071
6056, 6059, 6062
5137, 5146, 5140, 5143, 5149, 5152
5254, 5255, 5265, 5266, 5258, 5261,5269, 5272,5261
5128, 5129 , 5223 , 5226
5092, 5095, 5098
7067, 7070, 7073, 7076, 7079, 7082
4240
5167, 5168. 5175, 5176, 5171, 5179
6047, 6050, 6053
5188, 5191,5194
5182, 5185
5197, 5200, 5203
6083, 6085, 6088, 6091
Strontium-89/90 by Gas Flow Proportional Counter
5029, 5038, 6020
6029, 6038
7002, 7011, 7020. 7029
7038FD
5056, 5065, 5074, 5083
1469
5101
5119
5242, 5243
5206
7048, 7049, 7058, 5230, 5231
5156, 5157
5110
5128
6074, 6077
6056
-------�
SDG r
21328
21383
2924
21377
30044
21169
2847
21262
21232
2638
2684
2658
2423
2633
2419
2970
21046
21366
21299
21345
21123
21003
21058
21205
21247
21034
2878
21081
21383
F-10
Table F.l (continued)
Sample number
5213, 5219
5254, 5255, 5265, 5266
5092
7067, 7076
4240
5167, 5168, 5175, 5176
6047
5197
6083, 6085
Gamma Spectroscopy
7038FD, 7041FD
1469
5056, 5065, 5074, 5083, 5059, 5062, 5068, 5071, 5077,
5080, 5086, 5089
6029, 6038, 6032, 6041, 6035, 6044
7002, 7011, 7020, 7029, 7005, 7008, 7014, 7014, 7017,
7023, 7026, 7032, 7035
5029, 5038, 6020, 5032, 5041, 6023, 5035, 5044,6026
5101, 5103, 5107
5119, 5122, 5125
5242, 5243, 5247, 5250
52G6, 5209, 5212
7048, 7049, 7058, 5230, 5231, 7052, 7055, 7061. 5235,
5238, 7064
5156, 5157, 5160, 5163
5110, 5113, 5116
5128, 5131, 5134
5128, 5185
5188, 5191, 5194
6074, 6077, 6065, 6068, 6071, 6080
6056, 6059, 6062
5137, 5146, 5140, 5143, 5149, 5152
5254, 5255, 5265, 5266, 5258, 5261, 5269, 5272
-------�
SDG c
2924
21377
30044
21169
2847
21262
21232
2423
2684
2658
2638
2633
2970
21046
21366
21299
21345
21123
21003
21058
21034
2878
21081
21383
21328
2924
21377
30044
21169
2847
21262
F-ll
Table F.l (continued)
Sample number
5092, 5093, 5098
7067, 7070, 7073, 7076, 7079, 7082
4240
5167, 5168, 5175, 5176, 5171, 5179
6047, 6050, 6053
5197, 5200, 5203
6083, 6058, 6088, 6091
Total Uranium by Pulse Laser Phosphorimetry
6029, 6038, 6020
1469
5056, 5065. 5074, 5083
7038FD
7002, 7011, 7020, 7029
5101
5119
5242, 5243
5206
7048, 7049, 7058, 5230, 5231
5156, 5157
5110
5128
6074, 6077
6056
5137, 5146
5254, 5255 , 5265 . 5266
5218, 5219
5092
7067, 7076
4240
5167,5168,5175, 5176
6047
-------�
SDG i
21232
2970
21046
21366
21299
21345
21123
21003
21058
21034
2878
21081
21383
21328
2924
21377
21169
30044
21262
21232
2847
2419
2684
2419/:
2638/2
30584
30625
F-12
Table F.l (continued)
Sample number
6083, 6085
Curium-243 by Alpha Spectroscopy
5101
5119
5242, 5243
5206
7048, 7049, 7058, 5230, 5231
5156,5157
5110
5128
6074, 6077
6056
5137, 5146
5254, 5255, 5265 , 5266
5218, 5219
5092
7067, 7076
5167, 5168, 5175, 5176
4240
5197
6083, 6085
6047
Technetium-99
5029, 5038, 6020
1469
6029, 6038, 5029, 5038, 6020
7002, 7011, 7020, 7029, 7038FD, 5056, 5065, 5074, 5083
4253, 4254, 4255, 4256, 4257, 4258, 4259, 4260, 4261,
4262, 4263, 4264, 4265, 4266,
4267, 4268, 4269, 4270, 4271, 4272, 4273. 4274, 4275,
4276, 4277, 4278, 4279, 6093,
6094. 6095, 6096, 6097, 6098, 7084, 7085. 7086, 7087,
-------�
F-13
Table F.l (continued)
SDG number
Sample number
30670
4280, 4281, 4282, 4283, 4284, 4285, 4286. 4287, 4288,
4289, 4290, 4291, 4292
Tritium
2369
1063, 1071, 1079, 1122, 1125, 3004. 3031, 1123, 1124,
1126, 1128, 3016
2391
1180, 1189, 1198FD, 1214
2399
3071, 3084, 3098, 3045, 3057, 3082
30044
4216, 4217, 4218, 4219, 4220, 4221
2970
1549
21299
1965, 1968, 1971, 1974, 1977, 1980
21345
4087, 4090, 4093, 4096, 4106, 4116. 2260, 2263, 2266,
2269
21003
1607
21081
1747, 1739
21205
3327, 3328, 3329, 3330
21247
1892, 1895, 1898, 1901, 1904, 1907
2858
1472, 1475, 1478, 1481, 1484
^FD = field duplicate sample.
-------�
Appendix G
SUMMARY OF STATISTICALLY TREATED DATA AND THE
-------�
G-3
NOTE ON SIGNIFICANCE LEVELS
Chi-square likelihood ratio tests for comparing formation-locations are discussed in
Sect. 5.2.3. The following notation is used in Tables G.5 through G.7 to denote
significance levels for these tests:
P-ALL for testing that all formation-locations and all sampling areas are the same
against the alternative that they may all differ.
P-DG for testing that all Dismal Gap locations are the same against the
alternative that they may all differ.
P-CR for testing that all Copper Ridge locations are the same against the
alternative that they may all differ.
P-ORR for testing that all ORR formation-locations are the same against the
alternative that they may all differ.
P-CHICK for testing that the two Chickamauga locations are the same against the
alternative that they may differ.
P-DGN for testing that the ORR Dismal Gap and Nolichucky formations are the
same against the alternative that they may differ.
P-CRC for testing that the ORR Copper Ridge and Chepultepec formations are
the same against the alternative that they may differ.
P-GRP for testing that on the ORR. the Chickamauga, Knox, and Conasauga
groups are all the same, against the alternative that these groups may
-------�
G-5
Table G.l. Summary statistics for NAA data"
(Estimates and confidence bounds are in milligrams per kilogram.)
izon
Formauon-
locauon
N
I
D
Median
UCB95
X95
LTB9595
ALUMINUM
A
DG-AND
4
0
4
68000
169000
419000
159000
A
DG-ROA
4
0
4
53600
133000
330000
125000
A
DG-ORR
4
0
4
31000
76900
191000
72300
A
NL-ORR
4
0
4
53400
132000
329000
124000
A
CHI-BV
4
0
4
39400-
97700
243000
91800
A
CHI-K25
4
0
4
31400
78000
194000
73300
A
CHE-ORR
4
0
4
17000
42100
105000
39600
A
CR-ORR
4
0
4
23100
57200
142000
53800
A
CR-AND
4
0
4
25700
63800
158000
60000
A
CR-ROA
4
0
2820
7030
17400
6590
B
DG-AND
4
0
4
92300
105000
119000
104000
B
DG-ROA
4
0
4
78900
89500
101000
38800
B
DG-ORR
4
0
4
79100
89700
102000
89000
B
NL-ORR
4
0
4
89900
102000
116000
101000
B
CHI-BV
4
0
4
80100
90800
103000
90100
B
CHI-K25
4
0
4
113000
128000
145000
127000
B
CHE-ORR
4
0
4
59400
67400
76400
66800
B
CR-ORR
4
0
4
52200
59200
67100
58700
B
CR-AND
4
0
4
53600
60800
69000
60300
8
CR-ROA
4
0
4
42700
48400
54900
48000
C
DG-AND
4
0
4
102000
140000
192000
137000
C
DG-ROA
4
0
4
98900
136000
186000
133000
c
DG-ORR
4
0
4
94000
129000
177000
126000
c
NL-ORR
4
0
4
95800
131000
180000
129000
c
CHI-BV
4
0
4
94600
130000
178000
127000
c
CH1-K25
4
0
4
112000
153000
210000
150000
c
CHE-ORR
4
0
4
73400
101000
138000
98500
c
CR-ORR
4
0
4
88100
121000
166000
118000
c
CR-AND
3
0
3
69800
101000
131000
895 00
c
CR-ROA
4
0
4
56000
76800
105000
75200
ANTIMONY
A
DG-AND
4
0
4
0.439
0.500
0.569
0.496
A
DG-ROA
4
0
4
0.532
0.606
0.690 .
0.601
A
DG-ORR
4
0
4
0.474
0.540
0.615
0.536
A
NL-ORR
4
0
4
0.509
0.580
0.661
0.575
A
CHI -BV
4
0
4
0.576
0.656
0.748
0.651
A
CHI-K25
4
0
4
0.708
0.807
0.919
0.800
A
CHE-ORR
4
0
4
0.611
0.696
0.793
0.690
A
CR-ORR
4
0
4
0.865
0.986
1.120
0.977
A
CR-AND
3
0
3
0.764
0.888
0.991
0.846
A
CR-ROA
4
0
4
0.749
0.853
0.971
0.845
B
DG-AND
4
0
3
0.331
0.467
0.653
0.454
B
DG-ROA
4
0
4
0.528
0.741
1.040
0.723
B
DG-ORR
4
1
0.267
0.377
0.526
0.364
B
NL-ORR
4
0
4
0.426
0.598
0.839
0.583
B
CHI-BV
4
0
4
0.377
0.530
0.744
0.517
B
CHI-K25
3
0
3
0.707
1.050
1.390
0.922
B
CHE-ORR
4
0
4
0.979
1.370
1.930
1.340
B
CR-ORR
4
0
4
1.420
1.990
2.790
1.940
B
CR-AND
4
0
4
1.130
1.580
2.220
1.540
B
CR-ROA
4
0
4
0.985
1.380
1.940
1.350
C
DG-AND
4
0
2
0.123
0.170
0.213
0.154
C
DG-ROA
4
1
3
0.333
0.440
0.578
0.430
C
DG-ORR
4
1
3
0.261
0.346
0.453
0.336
C
NL-ORR
4
0
4
0.367
0.484
0.638
0.475
C
CHI-BV
4
0
4
0.447
0.589
0.776
0.578
C
CHI-K25
4
0
4
0.620
0.817
1.080
0.801
C
CHE-ORR
4
0
4
0.935
1.230
1.620
1.210
C
CR-ORR
4
0
4
1.910
2.510
3.310
2.470
c
CR-AND
4
0
4
0.940
1.240
1.630
1.210
c
CR-ROA
4
0
4
1.490
1.970
2.590
-------�
G-6
Table G.l (continued)
Honzon Formation- N \ D Median UCB95 X95 LTB9595
location
ARSENIC
DG-AND
0
4 4.67
5.76
7.09
5.68
DG-ROA
0
4 5.68
7.00
8.63
6.91
DG-ORR
0
4 5.18
6.38
7.86
6.29
NL-ORR
0
4 5.49
6.76
8.33
6.67
CHI-BV
0
4 8.32
10.30
12.60
10.10
CHI-K25
0
4 8.54
10.50
13.00
10.40
CHE-ORR
0
4 7.85
9.68
11.90
9.54
CR-ORR
0
4 20.30
25.00
30.80
24.60
CR-ANO
0
3 14.60
18.60
22.20
17.20
CR-ROA
0
4 10.60
13.00
16.00
12.80
DG-AND
0
4 5.73
7.56
9.97
7.42
DG-ROA
0
4 6.53
8.62
11.40
8.46
DG-ORR
0
4 5.12
6.76
8.92
6.63
NL-ORR
0
4 6.96
9.18
12.10
9.01
CHI-BV
0
4 11.30
14.90
19.60
14.60
CHI-K25
0
3 9.82
13.50
17.10
12.20
CHE-ORR
0
4 20.60
27.20
35.90
26.70
CR-ORR
0
4 48.40
63.90
84.40
£2.70
CR-AND
0
4 12.90
17.00
22.40
16.70
CR-ROA
0
4 16.20
21.30
28.10
20.90
DG-AND
0
4 3.93
4.92
6.16
4.85
DG-ROA
0
4 5.61
7.02
8.78
6.92
DG-ORR
0
4 4.63
5.80
7.25
5.71
NL-ORR
0
4 6.05
7.58
9.48
7.47
CHI-BV
0
4 11.80
14.80
18.50
14.60
CHI-K25
0
4 8.00
10.00
12.50
9.87
CHE-ORR
0
4 23.60
29.50
36.90
29.10
CR-ORR
0
4 79.20
99.10
124.00
97.70
CR-AND
0
4 27.80
34.80
43.60
34.30
CR-ROA
0
4 32.70
40.90
51.20
40.30
BARIUM
A
DG-AND
4 0
4 404.0
1150
3300
1080
A
DG-ROA
4 0
4 3450.0
9860
28200
9210
A
DG-ORR
4 0
4 123.0
350
1000
327
A
NL-ORR
4 0
4 1280.0
3650
10400
3410
A
CHI-BV
4 0
4 7950.0
22700
64900
21200
A
CHI-K25
4 0
4 202.0
578
1650
540
A
CHE-ORR
4 0
4 380.0
1080
3100
1010
A
CR-ORR
4 0
4 265.0
756
2160
706
A
CR-AND
4 0
4 307.0
876
2500
818
A
CR-ROA
4 0
4 67.5
193
551
180
B
DG-AND
4 0
4 375.0
744
1480
711
B
DG-ROA
4 0
4 7010.0
13900
27600
13300
B
DG-ORR
4 0
4 235.0
465
923
445
B
NL-ORR
4 0
4 806.0
1600
3170
1530
B
CHI-BV
4 0
4 6160.0
12200
24300
11700
B
CHI-K25
4 0
4 317.0
628
1250
601
B
CHE-ORR
4 0
4 251.0
498
988
476
B
CR-ORR
4 0
4 82.3
163
324
156
B
CR-AND
4 0
4 118.0
234
463
223
B
CR-ROA
4 0
4 123.0
244
484
233
C
ND
4 C
4 333.0
765
1760
725
C
GG-kOA
4 0
4 4130.0
9500
21800
9000
C
DG-ORR
4 0
4 244.0
559
1280
530
C
NL-ORR
4 0
4 2810.0
6450
14800
6110
C
CHI-BV
4 0
4 2920.0
6710
15400
6350
C
CHI-IC25
4 0
4 354.0
814
1870
771
C
CHE-ORR
4 0
4 510.0
1170
2690
1110
C
CR-ORR
4 0
4 124.0
286
657
271
c
CR-AND
4 0
4 149.0
343
788
325
c
CR-ROA
4 0
4 71.6
164
378
-------�
G-7
Tabic G.l (continued)
Horizon F°mall0n- N j D Median UCB9S X95 LTB9595
location
CERIUM
A
DG-AND
0
3
55.8
68.4
79.3
64.1
A
DG-ROA
0
4
57.8
68.9
82.1
68.1
A
DG-ORR
0
4
48.0
57.1
68.1
56.5
A
NL-ORR
0
4
54.6
65.1
77.5
64.3
A
CHI-BV
0
4
71.0
84.6
101.0
83.6
A
CHI-<25
0
4
63.4
75.5
90.0
74.7
A
CHE-ORR
0
4
32.0
38.2
45.5
37.7
A
CR-ORR
0
4
46.1
54.9
65.4
54.2
A
CR-AND
0
4
56.1
66.8
79.6
66.0
A
CR-ROA
0
4
34.5
41.1
49.0
40.7
B
DG-AND
0
4
70.4
90.4
116.0
88.9
B
DG-ROA
0
4
69.2
88.8
114.0
87.4
B
DG-ORR
0
4
65.5
84.0
108.0
82.7
B
NL-ORR
0
4
64.3
82.6
106.0
81.2
B
CHI-BV
0
4
89.3
115.0
147.0
113.0
3
CHI-<25
0
4
76.9
98.7
127.0
97.1
B
CHE-ORR
0
4
30.6
39.2
50.3
38.6
B
CR-ORR
0
4
35.0
45.0
57.7
44.2
B
CR-AMD
0
4
32.3
41.4
53.1
40.7
3
CR-ROA
0
4
23.2
29.7
38.2
29.3
C
DG-AMD
0
4
90.8
118.0
152.0
115.0
C
DG-ROA
0
4
81.0
105.0
136.0
103.0
C
DG-ORR
0
4
64.0
82.9
107.0
81.4
C
NL-ORR
0
3
95.4
129.0
160.0
117.0
C
CHI-BV
0
4
107.0
138.0
179.0
136.0
C
CHI-K25
0
4
90.5
117.0
152.0
115.0
C
CHE-ORR
0
4
34.6
44.8
58.0
44.0
C
CR-ORR
0
4
46.8
60.6
78.4
59.5
C
CR-AMD
0
4
35.3
45.7
59.1
44.9
C
CR-ROA
0
4
29.9
38.7
50.1
38.0
CESIUM
A
DG-AMD
0
3.15
3.67
4.10
3.49
A
DG-ROA
0
2.89
3.30
3.77
3.27
A
DG-ORR
0
2.68
3.06
3.50
3.04
A
NL-ORR
0
2.95
3.37
3.85
3.34
A
CHI-BV
0
2.58
2.94
3.36
2.92
A
CHI-K25
0
3.11
3.55
4.05
3.52
A
CHE-ORR
0
1.42
1.62
1.85
1.61
A
CR-ORR
0
2.09
2.39
2.73
2.37
A
CR-AND
0
2.02
2.31
2.64
2.29
A
CR-ROA
0
1.88
2.14
2.45
2.12
B
DG-AND
0
4.78
5.37
6.04
5.33
B
DG-ROA
0
4.44
4.99
5.60
4.95
B
DG-ORR
0
4.59
5.15
5.79
5.11
B
NL-ORR
0
5.17
5.81
6.53
5.77
B
CHI-BV
0
5.63
6.33
7.11
6.28
B
CHI-IC25
0
7.28
8.18
9.19
8.12
B
CHE-ORR
0
4.88
5.48
6.16
5.44
B
CR-ORR
0
4.85
5.45
6.12
5.41
B
CR-AND
0
3.96
4.45
5.00
4.42
B
CR-ROA
0
2.88
3.24
3.64
3.22
C
DG-AND
0
4.41
4.92
5.49
4.89
C
DG-ROA
0
5.50
6.14
6.85
6.10
C
DG-ORR
0
4.51
5.03
5.61
4.99
C
NL-ORR
0
6.81
7.73
8.48
7.42
C
CHI-BV
0
6.06
6.76
7.54
6.71
C
CHI-K25
0
7.38
8.24
9.19
8.18
C
CHE-ORR
0
4.67
5.21
5.82
5.18
C
CR-ORR
0
4.93
5.50
6.13
5.46
C
CR-AND
0
4.14
4.61
5.15
4.58
c
CR-ROA
0
4.14
4.62
5.15
-------�
G-8
Tabic G.l (continued)
Horizon F°nnall0n- N i D Median UCB95 X95 LTB9595
location
CHROMIUM
A
DG-AND
0
3
63.1
72.2
79.7
69.2
A
DG-ROA
0
4
65.8
73.9
83.1
73.3
A
DG-ORR
0
4
60.4
67.9
76.3
67.4
A
NL-ORR
0
4
67.6
75.9
85.3
75.3
A
CHI-BV
0
4
51.7
58.1
65.3
57.7
A
CHI-K25
0
4
48.6
54.6
61.4
54.2
A
CHE-ORR
0
4
28.9
32.5
36.5
32.2
A
CR-ORR
0
4
37.1
41.7
46.9
41.4
A
CR-AND
0
4
33.3
37.4
42.0
37.1
A
CR-ROA
0
4
30.3
34.1
38.3
33.8
B
DG-AND
0
4
84.2
95.7
109.0
94.9
B
DG-ROA
0
4
79.0
89.9
102.0
89.1
B
DG-ORR
0
4
83.8
95.3
108.0
94.5
B
NL-ORR
0
4
85.6
97.4
111.0
96.6
B
CHI-BV
0
4
72.7
82.7
94.0
82.0
B
CHI-K25
0
4
68.9
78.3
89.1
77.7
B
CHE-ORR
0
A
56.5
64.3
73.1
63.8
B
CR-ORR
0
4
50.3
57.2
65.1
56.7
B
CR-AND
0
4
51.3
58.4
66.4
57.9
B
CR-ROA
0
4
34.6
39.3
44.7
39.0
C
DG-AND
0
4
84.8
97.3
112.0
96.4
C
DG-ROA
0
4
92.7
106.0
122.0
105.0
C
DG-ORR
0
4
83.7
96.1
110.0
95.2
C
NL-ORR
0
3
103.0
121.0
135.0
115.0
c
CHI-BV
0
4
74.0
85.0
97.5
84.2
c
CHI-K25
0
4
69.6
79.9
91.7
79.2
c
CHE-ORR
0
4
72.9
83.7
96.0
82.9
c
CR-ORR
0
4
70.7
81.1
93.1
80.4
c
CR-AND
0
4
53.5
61.4
70.4
60.8
c
CR-ROA
0
4
52.9
60.7
69.6
60.1
COBALT
A
DG-AND
3
0
3
13.90
19.60
25.20
17.60
A
DG-ROA
4
0
4
18.90
25.40
34.30
24.90
A
DG-ORR
4
0
4
15.30
20.60
27.80
20.20
A
NL-ORR
4
0
4
15.20
20.50
27.60
20.10
A
CHI-BV
4
o-
4
17.60
23.80
32.00
23.30
A
CHI-K25
4
0
4
17.70
23.80
32.10
23.40
A
CHE-ORR
4
0
4
11.30
15.30
20.60
15.00
A
CR-ORR
4
0
4
8.29
11.20
15.00
10.90
A
CR-AND
4
0
4
15.30
20.70
27.80
20.30
A
CR-ROA
4
0
4
5.84
7.86
10.60
7.71
B
DG-AND
4
0
4
16.10
23.00
32.90
22.50
B
DG-ROA
4
0
4
15.70
22.40
32.00
21.90
B
DG-ORR
4
0
4
12.50
17.90
25.60
17.50
B
NL-ORR
4
0
4
17.00
24.30
34.70
23.70
B
CHI-BV
4
0
4
17.10
24.40
34.90
23.80
B
CHI-K25
4
0
4
12.20
17.50
25.00
17.10
B
CHE-ORR
4
0
4
4.59
6.56
9.38
6.41
B
CR-ORR
4
0
4
4.63
6.62
9.46
6.47
B
CR-AND
4
0
4
8.66
12.40
17.70
12.10
B
CR-ROA
4
0
4
4.19
5.98
8.54
5.84
C
DG-AND
4
0
4
18.70
29.10
45.30
28.30
C
DG-ROA
4
0
4
15.20
23.60
36.70
22.90
C
DG-ORR
4
0
4
15.10
23.40
36.40
22.70
C
NL-ORR
3
0
3
21.20
35.20
51.20
30.00
C
CHI-BV
4
0
4
23.90
37.20
57.80
36.10
C
CHI -IC25
4
0
4
13.70
21.40
33.20
20.70
C
CHE-ORR
4
0
4
8.77
13.60
21.20
13.20
C
CR-ORR
4
0
4
4.78
7.44
11.60
7.22
C
CR-AND
4
0
4
7.45
11.60
18.00
11.20
C
CR-ROA
4
0
4
5.07
7.89
12.30
-------�
G-9
Tabic G.l (continued)
Honzon F°raatl0n- N ; D Median UCB95 X95 LTB9595
location
EUROPIUM
A
DG-AND
3
0
0.606
0.756
0.889
0.704
A
DG-ROA
4
0
0.613
0.743
0.900
0.733
A
DG-ORR
4
0
0.585
0.709
0.859
0.700
A
NL-ORR
4
0
0.577
0.699
0.847
0.690
A
CHI-BV
4
0
0.998
1.210
1.460
1.190
A
CHI-K25
4
0
0.812
0.984
1.190
0.971
A
CHE-ORR
4
0
0.539
0.653
0.791
0.645
A
CR-ORR
4
0
0.581
0.703
0.852
0.694
A
CR-AND
4
0
0.743
0.901
1.090
0.889
A
CR-ROA
4
0
0.480
0.581
0.704
0.574
B
DG-AND
4
0
0.713
0.870
1.060
0.859
B
DG-ROA
4
0
0.693
0.845
1.030
0.834
B
DG-ORR
4
0
0.718
0.875
1.070
0.864
B
NL-ORR
4
0
0.746
0.910
1.110
0.898
B
CHI-BV
4
0
1.330
1.620
1.970
1.600
B
CHI-IC25
4
0
1.120
1.370
1.670
1.350
B
CHE-ORR
4
0
0.389
0.475
0.579
0.468
B
CR-ORR
4
0
0.385
0.469
0.572
0.463
B
CR-AND
4
0
0.380
0.464
0.566
0.458
B
CR-ROA
4
0
0.338
0.412
0.503
0.407
C
DG-AND
4
0
1.180
1.440
1.760
1.420
C
DG-ROA
4
0
0.836
1.020
1.240
1.000
C
DG-ORR
4
0
0.733
0.893
1.090
0.881
C
NL-ORR
0
0.833
1.050
1.240
0.972
C
CHI-BV
4
0
1.700
2.070
2.530
2.050
C
CHI-K25
4
0
1.230
1.500
1.830
1.480
c
CHE-ORR
4
0
0.413
0.503
0.613
0.496
c
CR-ORR
4
0
0.392
0.477
0.581
0.471
c
CR-AND
4
0
0.342
0.417
0.508
0.412
c
CR-ROA
4
0
0.333
0.405
0.494
0.400
GALLIUM
A
DG-AND
0
13.30
17.10
21.90
16.80
A
DG-ROA
0
13.60
17.50
22.40
17.20
A
DG-ORR
0
12.00
15.40
19.80
15.20
A
NL-ORR
0
15.40
19.80
25.40
19.40
A
CHI-BV
0
16.00
20.50
26.30
20.20
A
CHI-K25
0
14.70
18.80
24.20
18.50
A
CHE-ORR
0
7.45
9.57
12.30
9.41
A
CR-ORR
0
5.44
7.00
8.99
6.88
A
CR-AND
0
11.70
15.60
19.30
14.20
A
CR-ROA
0
17.00
21.80
28.00
21.40
B
DG-AND
0
15.60
18.80
22.60
18.50
B
DG-ROA
0
18.20
22.00
26.50
21.70
B
DG-ORR
0
20.10
24.20
29.20
23.90
B
NL-ORR
0
21.90
26.40
31.90
26.10
B
CHI-BV
0
17.50
21.20
25.50
20.90
B
CH1-K25
0
34.20
42.40
49.70
39.60
B
CHE-ORR
0
15.00
18.10
21.80
17.90
B
CR-ORR
0
14.40
17.30
20.90
17.10
B
CR-AND
0
13.30
16.00
19.30
15.80
B
CR-ROA
0
16.20
19.50
23.60
19.30
C
DG-AND
0
19.70
24.60
30.80
24.30
C
DG-ROA
0
29.00
36.20
45.20
35.70
C
DG-ORR
0
22.00
27.50
34.40
27.10
C
NL-ORR
0
28.70
35.80
44.80
35.30
C
CHI-BV
0
21.10
26.30
32.90
25.90
C
CHI-<25
0
32.80
41.00
51.20
40.40
C
CHE-ORR
0
14.40
18.00
22.50
17.80
C
CR-ORR
0
15.90
19.90
24.90
19.60
C
CR-AND
0
12.20
15.20
19.00
15.00
C
CR-ROA
0
18.90
23.60
29.50
-------�
G-10
Tabic G.l (continued)
Horizon Formallon- N [ D Median UCB95 X95 LTB9S95
locauon
GOLD
A
DG-AND
4
1
0
A
REMAINDER
35
0
0
B
DG-ROA
4
0
1 .000969
0
01400
0.
02750
0
.00220
B
CR-AND
4
0
2 .005300
0
03840
0.
15000
0
.01250
B
REMAINDER
31
0
0
C
CHE-ORR
4
0
2 .003070
0
00426
0.
00502
0
.00342
C
CR-ORR
4
0
1 .004780
0
00691
0.
00781
0
.00546
C
CR-ROA
4
0
2 .001470
0
00208
0.
00241
0
.00157
C
REMAINDER
28
0
0
HAFNIUM
A
DG-AND
3
0
3 9.54
10.70
11.60
10.30
A
DG-ROA
4
0
4 10.60
11.70
12.90
11.60
A
DG-ORR
4
0
4 9.80
10.80
11.90
10.70
A
NL-ORR
4
0
4 10.00
11.00
12.20
11.00
A
CHI-BV
4
0
4 10.00
11.10
12.20
11.00
A
CHI-K25
4
0
4 9.64
10.60
11.70
10.60
A
CHE-ORR
4
0
4 7.39
8.15
8.99
8.10
A
CR-ORR
4
0
4 7.38
8.15
8.99
8.09
A
CR-AND
4
0
4 7.56
8.34
9.21
8.29
A
CR-ROA
4
0
4 5.86
6.46
7.13
6.42
B
DG-AND
4
0
4 8.08
9.78
11.80
9.65
B
DG-ROA
4
0
4 8.73
10.60
12.80
10.40
B
DG-ORR
4
0
4 6.73
8.14
9.86
8.04
B
NL-ORR
4
0
4 6.67
8.07
9.76
7.97
B
CHI-BV
4
0
4 6.41
7.75
9.38
7.66
B
CHI-K25
4
0
4 5.46
6.60
7.99
6.52
B
CHE-ORR
4
0
4 4.75
5.75
6.96
5.68
S
CR-ORR
4
0
4, 5.52
6.67
8.08
6.59
B
CR-AND
4
0
4 6.03
7.30
8.83
7.21
B
CR-ROA
4
0
4 4.08
4.94
5.98
4.88
C
DG-AND
4
0
4 6.18
7.24
8.48
7.16
C
DG-ROA
4
0
4 6.14
7.19
8.43
7.12
C
DG-ORR
4
0
4 6.16
7.21
8.45
7.14
C
NL-ORR
3
0
3 6.58
7.89
9.02
7.45
C
CHI-BV
4
0
4 5.16
6.04
7.07
5.98
C
CHI-K25
4
0
4 4.68
5.4B
6.42
5.43
C
CHE-ORR
4
0
4 2.64
3.09
3.62
3.05
C
CR-ORR
4
0
4 2.85
3.34
3.91
3.30
C
CR-AND
4
0
4 4.74
5.55
6.50
5.49
C
CR-ROA
4
0
4 3.71
4.34
5.09
4.30
IRON
A
DG-AND
3
0
3 29800
35600
40600
33700
A
DG-ROA
4
0
4 28500
33300
38800
32900
A
DG-ORR
4
0
4 26400
30800
35900
30500
A
NL-ORR
4
0
4 29300
34100
39800
33800
A
CHI-BV
4
0
4 30900
36100
42100
35700
A
CHI-K25
4
0
4 28900
33700
39400
33400
A
CHE-ORR
4
0
4 11700
13700
15900
13500
A
CR-ORR
4
0
4 15900
18500
21600
18300
A
CR-AND
4
0
4 14600
17000
19800
16800
A
CR-ROA
4
0
4 13800
16100
18700
15900
B
DG-AND
4
0
4 45500
50000
55000
49700
B
DG-ROA
4
0
4 39500
43500
47800
43200
B
DG-ORR
4
0
4 39000
42900
47200
42700
B
NL-ORR
4
0
4 47000
51700
56800
51300
B
CHI-BV
4
0
4 53900
59300
65200
58900
B
CHI-K25
4
0
4 55600
61200
67300
-------�
G-ll
Tabic G.l (continued)
Horizon * . N I D Median UCB95 X95 LTB9595
B
CHE-ORR
0
33500
36800
40500
36600
B
CR-ORR
0
33300
36600
40300
36400
8
CR-ANO
0
26600
29200
32100
29000
B
CR-ROA
0
21600
23800
26100
23600
C
DG-AND
0
50100
54800
59800
54400
C
DG-ROA
0
51300
56000
61200
55700
C
DG-ORR
0
40200
43900
48000
43700
C
NL-ORR
0
58600
64900
70000
62800
C
CHI-BV
0
57000
62200
68000
61900
c
CHI-K25
0
55300
60400
66000
60100
c
CHE-ORR
0
35500
38700
42300
38500
c
CR-ORR
0
45900
50100
54700
49800
c
CR-AND
0
32100
35100
38300
34900
c
CR-ROA
0
41600
45500
49700
45200
LANTHANUM
A
DG-AMD
4
0
31.8
37.1
43.4
36.7
A
DG-ROA
4
0
29.9
35.0
40.9
34.6
A
DG-ORR
4
0
30.5
35.7
41.8
35.3
A
NL-ORR
4
0
32.1
37.6
43.9
37.2
A
CHI-BV
4
0
37.6
43.9
51.3
43.5
A
CHI-K25
4
0
32.0
37.4
43.7
37.0
A
CHE-ORR
4
0
17.3
20.2
23.7
20.0
A
CR-ORR
4
0
21.1
24.7
28.8
24.4
A
CR-AND
3
0
24.7
29.6
33.8
28.0
A
CR-ROA
4
0
17.3
20.2
23.6
20.0
B
DG-AND
4
0
39.1
46.8
55.9
46.2
B
DG-ROA
4
0
36.5
43.7
52.2
43.1
B
DG-ORR
4
0
41.4
49.5
59.2
48.9
B
NL-ORR
4
0
40.4
48.3
57.8
47.7
B
CHI-BV
4
0
48.3
57.8
69.1
57.1
B
CH1-K25
3
0
43.6
53.6
62.4
50.2
B
CHE-ORR
4
0
22.0
26.3
31.4
25.9
B
CR-ORR
4
0
28.7
34.4
41.1
33.9
B
CR-ANO
4
0
11.9
14.3
17.1
14.1
8
CR-ROA
4
0
14.0
16.7
20.0"
16.5
C
DG-AMD
4
0
43.2
49.7
57.2
49.3
C
DG-ROA
4
0
43.2
49.7
57.2
49.2
C
DG-ORR
4
0
41.0
47.2
54.4
46.8
C
NL-ORR
4
0
46.7
53.7
61.9
53.2
C
CHI-BV
4
0
52.5
60.5
69.6
59.9
C
CHI-K25
4
0
45.1
51.9
59.8
51.5
C
CHE-ORR
4
0
24.6
28.3
32.6
28.1
C
CR-ORR
4
0
38.2
43.9
50.6
43.5
C
CR-AND
4
0
19.5
22.5
25.8
22.2
C
CR-ROA
4
0
19.9
22.9
26.3
22.6
LUTETIUM
A
DG-AND
3
0
3
0.320
0.377
0.425
0.358
A
DG-ROA
4
0
4
0.364
0.420
0.484
0.416
A
DG-ORR
4
0
4
0.340
0.392
0.452
0.388
A
NL-ORR
4
0
4
0.351
0.404
0.466
0.400
A
CHI-BV
4
0
4
0.272
0.314
0.361
0.311
A
CHI -IC25
4
0
4
0.340
0.392
0.452
0.388
A
CHE-ORR
4
0
4
0.257
0.296
0.341
0.293
A
CR-ORR
4
0
4
0.271
0.312
0.360
0.309
A
CR-AND
4
0
4
0.264
0.304
0.350
0.301
A
CR-ROA
4
0
4
0.186
0.215
0.247
0.213
B
DG-AND
4
0
4
0.319
0.399
0.499
0.393
B
DG-ROA
4
0
4
0.372
0.465
0.581
0.458
B
DG-ORR
4
0
4
0.292
0.365
0.456
0.360
B
NL-ORR
4
0
4
0.230
0.288
0.361
-------�
G-12
Tabic G.l (continued)
Horizon F=n" N I D Median UCB9:I X95 LTB9595
B
CHI-BV
0
0.378
0.473
0.592
0.466
B
CHI-K25
0
0.381
0.476
0.595
0.469
S
CHE-ORR
0
0.218
0.273
0.341
0.269
B
CR-ORR
0
0.211
0.264
0.330
0.260
8
CR-AND
0
0.212
0.266
0.332
0.262
B
CR-ROA
0
0.138
0.173
0.217
0.171
C
DG-AND
0
0.342
0.420
0.516
0.414
C
OG-ROA
0
0.287
0.353
0.433
0.348
C
DG-ORR
0
0.262
0.322
0.396
0.318
C
NL-ORR
0
0.402
0.510
0.606
0.472
C
CHI-BV
0
0.418
0.513
0.630
0.506
c
CHI-IC25
0
0.361
0.444
0.545
0.438
c
CHE-ORR
0
0.146
0.180
0.221
0.177
c
CR-ORR
0
0.186
0.229
0.281
0.226
c
CR-AND
0
0.168
0.207
0.254
0.204
c
CR-ROA
0
0.157
0.193
0.237
0.191
MAGNESIUM
A
DG-AND
0
4
5940
10600
18900
10200
A
DG-ROA
0
u
4200
7510
13400
7210
A
DG-ORR
0
4
3290
5880
10500
5650
A
NL-ORR
0
4
4440
7930
14200
7610
A
CHI-BV
1
3
3090
5530
9850
5280
A
CHI-K25
0
4
2300
4110
7340
3950
A
CHE-ORR
1
3
1240
2220
3970
2130
A
CR-ORR
0
4
1430
2550
4550
2450
A
CR-AND
0
3
2090
3890
6650
3460
A
CR-ROA
0
3
324
581
1030
557
B
DG-AND
0
4
7710
8880
10200
8800
B
DG-ROA
0
4
6420
7390
8510
7320
B
DG-ORR
0
4
8180
9410
10800
9330
B
NL-ORR
0
4
7930
9130
10500
9040
B
CHI-BV
0
4
7010
8070
9300
8000
8
CHI-K25
0
4
8620
9920
11400
9830
B
CHE-ORR
0
4
4670
5370
6190
5330
B
CR-ORR
0
4
2940
3390
3900
3360
B
CR-AND
0
4
2940
3380
3890
3350
B
CR-ROA
0
4
2210
2540
2930
2520
C
DG-AND
0
4
8390
11700
16300
11400
C
DG-ROA
0
4
8610
12000
16700
11700
C
DG-ORR
0
4
8790
12300
17100
12000
C
NL-ORR
0
4
8420
11700
16400
11500
C
CHI-BV
0
4
8560
11900
16600
11700
C
CHI-K25
0
4
8730
12200
17000
11900
c
CHE-ORR
0
4
5650
7880
11000
7700
c
CR-ORR
0
4
5180
7220
10100
7060
c
CR-AND
0
3
3620
5310
7030
4700
c
CR-ROA
0
4
2530
3530
4920
3450
MANGANESE
A
DG-AND
0
4
701.0
2220
7030
2050
A
DG-ROA
0
4
960.0
3040
9630
2810
A
DG-ORR
0
4
490.0
1550
4920
1430
A
NL-ORR
0
4
608.0
1920
6100
1780
A
CHI-BV
0
4
869.0
2750
8710
2540
A
CH1-K25
0
4
968.0
3060
9700
2830
A
CHE-ORR
0
4
807.0
2560
8100
2360
A
CR-ORR
0
4
1030.0
3250
10300
3000
A
CR-AND
0
4
1920.0
6090
19300
5630
A
CR-ROA
0
3
59.0
188
592
173
B
DG-AND
0
4
210.0
320
487
311
B
DG-ROA
0
4
309.0
471
717
-------�
G-13
Tabic G.l (continued)
Horizon Formation- N j D Median UCB9S X95 LTB9S9S
location
B
DG-ORR
0
231.0
352
536
342
B
NL-ORR
0
271.0
413
629
401
B
CHI-BV
0
346.0
528 .
804
514
B
CHI-K25
0
332.0
505'
770
491
B
CHE-ORR
0
89.9
137
209
133
B
CR-ORR
0
136.0
208
316
202
B
CR-AND
0
367.0
559
851
544
B
CR-ROA
0
149.0
227
345
220
C
DG-AND
0
722.0
1360
2570
1310
C
DG-ROA
0
260.0
490
924
470
C
DG-ORR
0
443.0
837
1580
803
C
NL-ORR
0
394.0
744
1400
713
C
CHI-BV
0
571.0
1080
2030
1030
C
CHI-IC25
0
412.0
777
1470
746
C
CHE-ORR
0
218.0
412
777
395
C
CR-ORR
0
112.0
211
398
203
C
CR-AND
0
273 .0
516
973
495
C
CR-ROA
0
69.8
132
249
126
MERCURY
A
CHI-K25
4
1
0
A
REMAINDER
35
0
0
B
REMAINDER
40
0
0
C
DG-AND
4
1
0
C
NL-ORR
3
0
1
C
CR-ROA
4
0
1
C
REMAINDER
28
0
0
POTASSIUM
A
DG-AND
0
26500
31800
38200
31400
A
DG-ROA
0
11200
13400
16200
13300
A
DG-ORR
0
15100
18200
21800
17900
A
HL-ORR
0
16000
19300
23200
19000
A
CHI-BV
0
13600
16300
19600
16100
A
CHI-K25
0
10100
12100
14500
11900
A
CHE-ORR
0
3020
3630
4360
3590
A
CR-ORR
0
3630
4360
5240
4310
A
CR-AND
0
4610
5700
6650
5320
A
CR-ROA
0
3210
3860
4630
3810
B
DG-AND
0
28300
43800
67900
42500
B
DG-ROA
0
15200
23600
36500
22900
B
DG-ORR
0
21100
32700
50700
31700
B
NL-ORR
0
21300
32900
51000
31900
B
CHI-BV
0
22000
34100
52800
33000
B
CHI-K25
0
23900
39600
57300
33600
B
CHE-ORR
0
7950
12300
19100
11900
B
CR-ORR
0
5060
7840
12100
7600
B
CR-AND
0
2380
3690
5700
3570
B
CR-ROA
0
2810
4350
6740
4220
C
DG-AND
0
31600
36000
41000
35700
C
DG-ROA
0
24800
28200
32200
28000
C
DG-ORR
0
22600
25800
29400
25600
C
NL-ORR
0
30600
34900
39800
34600
C
CHI-BV
0
24000
27300
31100
27100
C
CHI-K25
0
27800
31600
36000
31400
C
CHE-ORR
0
10300
11800
13400
11700
C
CR-ORR
0
7730
8810
10000
8740
C
CR-AND
0
6660
7590
8650
7530
C
CR-ROA
0
3880
4420
5030
-------�
G-14
Table G.l (continued)
Honzon F°™f'°n" N I D Median UCB95 X95 LTB9595
location
RUBIDIUM
A
CHI-BV
4
0
1
360
714
821
421
A
CHI-<25
4
0
1
381
734
869
408
A
REMAINDER
31
0
0
•
•
•
•
B
CR-ROA
4
1
0
B
REMAINDER
36
0
0
•
•
•
•
C
CHI-BV
4
0
1
498
730
756
497
C
REMAINDER
36
0
0
.
SCANDIUM
A
DG-AND
0
3 8.99
10.30
11.40
9.87
A
DG-ROA
0
4 7.79
8.77
9.86
8.70
A
DG-ORR
0
4 7.85
8.83
9.93
8.76
A
NL-ORR
0
4 8.36
9.41
10.60
9.33
A
CHI-BV
0
4 8.15
9.16
10.30
9.09
A
CHI-K25
0
4 7.98
8.98
10.10
8.91
A
CHE-ORR
0
4 2.84
3.20
3.60
3.17
A
CR-ORR
0
4 3.73
4.19
4.72
4.16
A
CR-AND
0
4 4.16
4.68
5.27
4.64
A
CR-ROA
0
4 3.17
3.56
4.01
3.54
B
DG-ANO
0
4 13.30
15.00
16.90
14.90
B
OG-ROA
0
4 10.70
12.10
13.60
12.00
B
DG-ORR
0
4 12.00
13.60
15.30
13.50
B
NL-ORR
0
4 12.50
14.10
15.90
13.90
B
CHI-BV
0
4 16.00
18.00
20.30
17.90
B
CHI-K25
0
4 16.20
18.30
20.60
18.20
B
CHE-ORR
0
4 7.95
8.97
10.10
8.90
B
CR-ORR
0
4 7.42
B.37
9.44
8.30
B
CR-AND
0
4 8.04
9.06
10.20
8.99
B
CR-ROA
0
4 4.86
5.49
6.19
5.44
C
DG-AND
0
4 17.90
20.50
23.50
20.30
C
DG-ROA
0
4 15.10
17.30
19.80
17.10
C
DG-ORR
0
4 13.60
15.60
17.90
15.50
C
NL-ORR
0
3 16.90
19.80
22.20
18.80'
C
CHI-BV
0
4 18.00
20.70
23.70
20.50
C
CHI-K25
0
4 18.10
20.70
23.80
20.60
C
CHE-ORR
0
4 10.30
11.80
13.60
11.70
c
CR-ORR
0
4 11.80
13.60
15.60
13.40
c
CR-AND
0
4 10.10
11.50
13.20
11.40
c
CR-ROA
0
4 8.83
10.10
11.60
10.00
SILVER
A
DG-AND
0
3 2.220
2.95
3.62
2.69
A
DG-ROA
0
4 1.870
2.39
3.05
2.35
A
DG-ORR
0
4 1.230
1.57
2.01
1.55
A
NL-ORR
0
4 1.030
1.31
1.68
1.29
A
CHI-BV
0
4 1.660
2.12
2.70
2.08
A
CHI-K25
0
4 1.210
1.54
1.97
1.51
A
CHE-ORR
0
4 0.919
1.17
1.50
1.15
A
CR-ORR
0
4 1.230
1.57
2.00
1.54
A
CR-AND
0
4 1.540
1.97
2.51
1.93
A
CR-ROA
0
4 0.824
1.05
1.34
1.04
B
DG-AND
0
4 2.780
3.80
5.19
3.72
B
DG-ROA
0
4 2.150
2.93
4.01
2.87
B
DG-ORR
0
4 1.230
1.68
2.30
1.65
8
NL-ORR
0
4 1.220
1.66
2.27
1.63
B
CHI-BV
0
4 2.170
2.96
4.05
2.90
B
CHI-K25
0
4 2.720
3.72
5.08
3.64
B
CHE-ORR
0
4 1.450
1.98
2.71
1.94
B
CR-ORR
0
4 2.220
3.03
4.14
-------�
G-15
Tabic G.l (continued)
Horizon F°"Da"0n~ N I D Median UCB95 X95 LTB9595
location
B
CR-AND
A
0
A
1.890
2.59
3.5A
2.54
B
CR-ROA
A
0
A
1.310
1.79
2.A5
1.76
C
DG-AND
A
0
A
2.820
3.38
A.07
3.34
C
DG-ROA
4
0
A
2.600
3.13
3.76
3.09
C
DG-ORR
4
0
A
1.6A0
1.97
2.37
1.95
C
NL-ORR
3
0
3
1.950
2.41
2.82
2.26
C
CHI-BV
4
0
A
2.230
2.68
3.23
2.65
C
CHI-K25
A
0
A
2.260
2.72
3.27
2.69
C
CHE-ORR
4
0
A
1.610
1.93
2.32
1.91
C
CR-ORR
A
0
A
' 1.880
2.26
2.72
2.23
c
CR-AND
A
0
A
2.200
2.64
3.18
2.61
c
CR-ROA
A
0
A
1.A30
1.72
2.07
1.70
SODIUM
A
DG-AND
A
0
A
828
1030
1280
1010
A
DG-ROA
A
0
A
5A0
672
836
662
A
DG-ORR
A
0
A
1020
1270
1580
1250
A
NL-ORR
A
0
A0A
503
626
496
A
CHI-BV
A
0
A
1A30
1770
2210
1750
A
CHI-K25
A
0
A
78A
976
1210
962
A
CHE-ORR
A
0
A
391
486
605
A 79
A
CR-ORR
A
0
A
A34
540
672
532
A
CR-AND
3
0
3
526
677
81A
625
A
CR-ROA
A
0
A
A OA
502
625
495
B
DG-AND
A
0
A
624
998
1590
967
B
DG-ROA
A
0
A
A72
755
1210
731
B
DG-ORR
A
0
A
964
1540
2460
1490
B
NL-ORR
A
0
A
3A5
551
880
534
B
CHI-BV
A
0
A
2020
3230
5160
3130
B
CHI-K25
3
0
3
1330
2290
3410
1930
B
CHE-ORR
A
0
A
212
339
541
328
B
CR-ORR
A
0
A
248
396
633
384
B
CR-AND
A
0
A
10A
167
267
162
B
CR-ROA
A
0
A
200
319
511
310
C
DG-AND
A
0
A
806
1080
1440 "
1060
C
DG-ROA
A
0
A
599
801
1070
786
c
DG-ORR
A
0
A
1080
14A0
1920
1410
c
NL-ORR
A
0
A
383
512
685
503
c
CHI-BV
A
0
A
2170
2910
3880
2850
c
CHI-K25
A
0
A
15A0
2060
2750
2020
c
CHE-ORR
A
0
A
147
197
263
193
c
CR-ORR
A
0
A
150
201
269
197
c
CR-AND
A
0
A
183
2A5
327
2A0
c
CR-ROA
A
0
A
162
216
289
212
TERBIUM
A
DG-AND
3
0
3
0.352
0.475
0.591
0.A32
A
DG-ROA
A
0
A
0.493
0.639
0.827
0.628
A
DG-ORR
A
0
A
0.535
0.692
0.896
0.680
A
NL-ORR
A
0
A
0.355
0.460
0.595
0.A52
A
CHI-BV
A
0
A
0.917
1.190
1.540
1.170
A
CHI-K25
A
0
A
0.722
0.935
1.210
0.919
A
CHE-ORR
A
0
A
0.547
0.708
0.917
0.696
A
CR-ORR
A
0
A
0.486
0.630
0.816
0.619
A
CR-AND
A
0
A
0.496
0.642
0.832
0.631
A
CR-ROA
A
0
A
0.465
0.602
0.780
0.592
B
DG-AND
A
0
A
0.319
0.441
0.609
0.431
B
DG-ROA
A
0
A
0.532
0.735
1.010
0.718
B
DG-ORR
A
1
3
0.581
0.804
1.110
0.782
B
NL-ORR
A
0
2
0.300
0.437
0.573
0.390
B
CHI-BV
A
0
3
1.050
1.450
1.990
1.410
B
CHI-K25
A
0
A
0.718
0.991
1.370
-------�
G-16
Table G.l (continued)
Honzon F°™a"°n- N , D Median UCB95 X95 LTB9595
location
B
CHE-ORR
1
3
0.405
0.561
0.773
0.544
B
CR-ORR
4
0
3
0.307
0.445
0.585
0.395
B
CR-AND
u
0
4
0.281
0.388
0.535
0.378
B
CR-ROA
4
0
4
0.283
0.391
0.540
0.382
C
DG-AND
4
0
4
0.717
0.922
1.190
0.904
C
DG-ROA
4
0
4
0.467
0.601
0.773
0.589
c
DG-OfiR
4
1
3
0.282
0.367
0.467
0.352
c
NL-ORR
3
0
2
0.364
0.501
0.603
0.433
c
CHI-BV
4
0
4
1.560
2.010
2.580
1.970
c
CHI-K25
4
0
4
0.576
0.742
0.954
0.727
c
CHE-ORR
4
0
4
0.299
0.385
0.496
0.378
c
CR-ORR
4
0
3
0.283
0.376
0.469
0.348
c
CR-AND
4
0
2
0.318
0.433
0.526
0.384
c
CR-ROA
4
0
2
0.243
0.325
0.403
0.299
THORIUM-232
A
DG-ANO
0
3
10.10
11.10
11.90
10.80
A
DG-ROA
0
4
10.90
11.80
12.80
11.80
A
DG-ORR
0
4
9.74
10.60
11.50
10.50
A
NL-ORR
0
4
11.70
12.70
13.70
12.60
A
CHI-BV
0
4
10.00
10.90
11.80
10.80
A
CHI-IC25
0
4
9.91
10.80
11.70
10.70
A
CHE-ORR
0
4
5.18
5.62
6.10
5.59
A
CR-ORR
0
4
6.51
7.06
7.65
7.02
A
CR-AND
0
4
6.53
7.08
7.68
7.04
A
CR-ROA
0
4
5.11
5.54
6.01
5.51
B
DG-AND
0
4
13.30
14.70
16.10
14.60
B
DG-ROA
0
4
13.30
14.60
16.10
14.50
B
DG-ORR
0
4
12.30
13.50
14.80
. 13.40
B
NL-ORR
0
4
15.00
16.40
18.10
16.30
B
CHI-BV
0
4
14.10
15.50
17.00
15.40
B
CHI-K25
0
4
14.60
16.10
17.70
16.00
B
CHE-ORR
0
4
9.91
10.90
12.00
10.80
B
CR-ORR
0
4
10.30
11.30
12.40
11.20
B
CR-AND
0
4
9.15
10.10
11.10
10.00
B
CR-ROA
0
4
6.64
7.30
8.03
7.26
C
DG-AND
0
4
13.20
14.60
16.20
14.50
C
DG-ROA
0
4
15.00
16.60
18.30
16.50
C
DG-ORR
0
4
12.30
13.60
15.10
13.50
C
NL-ORR
0
17.60
19.80
21.60
19.10
C
CHI-BV
0
4
13.90
15.40
17.10
15.30
c
CHI-K25
0
4
14.40
16.00
17.70
15.90
c
CHE-ORR
0
4
10.20
11.30
12.50
11.20
c
CR-ORR
0
4
13.30
14.80
16.30
14.70
c
CR-AND
0
4
10.80
12.00
13.30
11.90
c
CR-ROA
0
4
11.40
12.60
13.90
12.50
TITANIUM
A
DG-AND
0
4
5280
11900
26700
11200
A
DG-ROA
1
3
8080
18200
40900
17200
A
DG-ORR
0
4
3280
7380
16600
6980
A
NL-ORR
0
4
7010
15800
35500
14900
A
CHI-BV
0
4
5570
12500
28200
11800
A
CHI-K25
0
4
4440
10000
22500
9460
A
CHE-ORR
0
4
4120
9270
20800
8770
A
CR-ORR
0
4
4410
9910
22300
9380
A
CR-AND
0
4
5150
11600
26000
10900
A
CR-ROA
0
3
783
1770
3960
1670
B
DG-AND
0
4
5750
8660
13100
8430
B
DG-ROA
0
3
2470
3750
5610
3620
B
DG-ORR
0
4
5460
8220
12400
8000
B
NL-ORR
0
4
7460
11200
16900
-------�
G-17
Table G.l (continued)
Horizon F°nMUO"' N I D Median UCB95 X95 LTB9595
location
B
CHI-BV
0
4
5070
7640
11500
7430
B
CHI-K25
0
4
5840
8800
13300
8560
B
CHE-ORR
0
4
4130
6220
9370
6050
B
CR-ORR
0
4
4580
6900
10400
6710
B
CR-AND
0
4
4590
6920
10400
6730
B
CR-ROA
0
4
4160
6260
9430
6090
C
DG-AND
0
4
4750
6790
9700
6630
C
DG-ROA
1
3
6910
9880
14100
9640
C
DG-ORR
0
4
4680
6690
9560
6530
C
NL-ORR
0
4
8310
11900
17000
11600
C
CHI-BV
0
4
4700
6710
9590
6550
C
CH1-K25
0
4
5540
7910
11300
7730
C
CHE-ORR
0
4
3170
4530
6480
4420
C
CR-ORR
0
4
3320
4740
6770
4630
C
CR-AND
0
3
4300
6490
8780
5690
C
CR-ROA
0
4
3130
4470
6380
4360
URANTUM-235
A
DG-AND
0
0.0225
0.0240
0.0256
0.0239
A
DG-ROA
0
0.0228
0.0243
0.0259
0.0242
A
DG-ORR
0
0.0269
0.0287
0.0306
0.0286
A
NL-ORR
0
0.0255
0.0271
0.0289
0.0270
A
CHI-BV
0
0.0252
0.0268
0.0286
0.0267
A
CHI-K25
0
0.0315
0.0336
0.0358
0.0334
A
CHE-ORR
0
0.0255
0.0272
0.0290
0.0271
A
CR-ORR
0
0.0313
0.0334
0.0356
0.0332
A
CR-AND
0
0.0286
0.0305
0.0325
0.0304
A
CR-ROA
0
0.0219
0.0233
0.0248
0.0232
B
DG-AND
0
0.0233
0.0252
0.0273
0.0251
B
DG-ROA
0
0.0238
0.0257
0.0279
0.0256
B
DG-ORR
0
0.0214
0.0232
0.0252
0.0231
B
NL-ORR
0
0.0222
0.0240
0.0260
0.0239
B
CHI-BV
0
0.0236
0.0256
0.0277
0.0254
B
CHI-K25
0
0.0273
0.0296
0.0321
0.0295
B
CHE-ORR
0
0.0306
0.0331
0.0359
0.0330
B
CR-ORR
0
0.0366
0.0397
0.0430
0.0395
B
CR-AND
0
0.0382
0.0414
0.0449
0.0412
B
CR-ROA
0
0.0275
0.0298
0.0323
0.0297
C
DG-AND
0
0.0221
0.0245
0.0272
0.0244
C
DG-ROA
0
0.0214
0.0237
0.0263
0.0236
C
DG-ORR
0
0.0190
0.0210
0.0233
0.0209
C
NL-ORR
0
0.0205
0.0227
0.0252
0.0226
C
CHI-BV
0
0.0223
0.0247
0.0274
0.0246
C
CHI-K25
0
0.0249
0.0276
0.0305
0.0274
C
CHE-ORR
0
0.0340
0.0377
0.0418
0.0374
C
CR-ORR
0
0.0449
0.0497
0.0551
0.0494
C
CR-AND
0
0.0405
0.0448
0.0497
0.0445
C
CR-ROA
0
0.0324
0.0359
0.0398
0.0357
URANTUM-238
A
DG-AND
4 0
4 2.78
3.10
3.46
3.08
A
DG-ROA
4 0
4 3.18
3.55
3.96
3.52
A
DG-ORR
4 0
4 3.99
4.45
4.96
4.42
A
NL-ORR
4 0
4 3.84
4.29
4.78
4.25
A
CHI-BV
4 0
4 3.60
4.02
4.48
3.99
A
CHI-K25
4 0
4 4.67
5.20
5.81
5.17
A
CHE-ORR
4 0
4 4.11
4.59
5.12
4.55
A
CR-ORR
4 0
4 4.52
5.04
5.62
5.00
A
CR-AND
3 0
3 4.82
5.47
6.00
5.25
A
CR-ROA
4 0
4 3.23
3.60
4.02
-------�
G-1S
Table G.l (continued)
Honzon Formation- N , D Median UCB95 X95 LTB9595
location
B
DG-AND
0
4
2.94
3.59
4.40
3.54
B
DG-ROA
0
4
3.49
4.27
5.23
4.21
B
DG-ORR
0
4
3.28
4.02
4.92
3.96
B
NL-ORR
0
4
3.15
3.86
4.72
3.81
B
CHI-BV
0
4
3.23
3.95
4.84
'3.90
B
CHI-K25
0
3
4.16
5.25
6.23
4.88
B
CHE-ORR
0
4
4.14
5.07
6.21
5.00
B
CR-ORR
0
4
5.22
6.39
7.82
6.30
B
CR-AND
0
4
6.52
7.98
9.77
7.88
B
CR-ROA
0
4
3.33
4.08
4.99
4.02
C
DG-AND
0
4
2.67
3.23
3.92
3.19
C
DG-ROA
0
4
3.22
3.90
4.73
3.85
c
DG-ORR
0
4
2.69
3.26
3.96
3.22
c
NL-ORR
0
4
3.36
4.07
4.93
4.02
c
CHI-BV
0
4
3.14
3.80
4.61
3.75
c
CHI-K25
0
4
3.59
4.35
5.27
4.30
c
CHE-ORR
0
4
4.35
5.27
6.39
5.21
c
CR-ORR
0
4
4.95
6.00
7.27
5.93
c
CR-AND
0
4
5.42
6.57
7.96
6.48
c
CR-ROA
0
4
5.04
6.10
7.40
6.03
VANADIUM
A
DG-AMD
0
4
75.40
168.0
375 .0
159.0
A
DG-ROA
0
4
64.40
144.0
320.0
136.0
A
DG-ORR
0
4
35.40
79.1
176.0
74.8
A
NL-ORR
0
4
57.00
127.0
284.0
120.0
A
CHI-BV
0
4
52.20
116.0
260.0
110.0
A
CHI-K25
0
4
44.20
98.7
220.0
93.4
A
CHE-ORR
0
4
32.50
72.5
162.0
68.6
A
CR-ORR
0
4
40.70
90.8
203.0
85.9
A
CR-AND
0
4
40.60
90.7
202.0
85.8
A
CR-ROA
0
3
6.35
14.2
31.6
13.4
B
DG-AND
0
4
101.00
111.0
122.0
110.0
B
DG-ROA
0
4
85.40
93.8
103.0
93.2
B
DG-ORR
0
4
86.30
94.7
104.0 '
94.1
B
NL-ORR
0
4
93.10
102.0
112.0
102.0
B
CHI-BV
0
4
96.60
106.0
116.0
105.0
B
CHI-K25
0
4
129.00
142.0
156.0
141.0
B
CHE-ORR
0
4
91.40
100.0
110.0
99.7
B
CR-ORR
0
4
89.90
98.6
108.0
98.0
B
CR-AND
0
4
85.90
94.2
103.0
93.7
B
CR-ROA
0
4
77.70
85.3
93.6
84.8
C
DG-AND
0
4
104.00
140.0
189.0
137.0
C
DG-ROA
0
4
92.70
125.0
169.0
123.0
C
DG-ORR
0
4
93.90
127.0
171.0
124.0
C
NL-ORR
0
4
91.90
124.0
168.0
122.0
C
CHI-BV
0
4
104.00
141.0
190.0
138.0
c
CHI-K25
0
4
117.00
158.0
214.0
155.0
c
CHE-ORR
0
4
104.00
141.0
190.0
138.0
c
CR-ORR
0
4
130.00
175.0
236.0
172.0
c
CR-AND
0
3
97.50
138.0
178.0
123.0
c
CR-ROA
1
3
98.30
133.0
179.0
-------�
G-19
Tabic G.l (continued)
izon
Formation-
location
N
I
D
Median
UCB95
X95
LTB9595
YJL'lliKJBIUM
A
DG-AND
3
0
3
2.600
3.18
3.69
2.980
A
DG-ROA
4
0
4
3.800
4.53
5.39
4.470
A
DG-ORR
4
0
4
1.900
2.26
2.69
2.240
A
NL-ORR
4
0
4
2.900
3.46
4.11
3.420
A
CHI-BV
4
0
4
3.130
3.72
4.43
3.680
A
CHI-K25
4
0
4
2.960
3.53
4.20
3.490
A
CHE-ORR
4
0
4
2.630
3.13
3.73
3.100
A
CR-ORR
4
0
4
2.300
2.74
3.26
2.710
A
CR-AND
4
0
4
2.360
2.80
3.34
2.770
A
CR-ROA
4
0
4
1.660
1.97
2.35
1.950
B
DG-AND
4
0
4
3.320
5.67
9.69
5.430
B
DG-ROA
4
1
3
2.230
3.88
6.51
3.630
B
DG-ORR
4
1
3
1.440
2.53
4.21
2.320
B
NL-ORR
4
0
3
1.280
2.30
3.74
2.020
B
CHI-BV
4
0
2
0.583
1.23
1.70
0.786
B
CHI-<25
4
0
4
2.560
4.38
7.47
4.190
B
CHE-ORR
4
1
3
2.010
3.48
5.85
3.260
B
CR-ORR
4
0
3
2.110
3.72
6.16
3.400
B
CR-AND
4
0
4
1.440
2.46
4.21
2.360
B
CR-ROA
4
1
2
1.180
2.06
3.43
1.900
C
DG-AND
4
0
2
1.270
2.69
4.31
2.000
C
DG-ROA
4
0
3
1.680
3.22
5.71
2.880
C
DG-ORR
4
1
2
1.310
2.54
4.46
2.230
C
NL-ORR
0
3
2.360
4.77
8.01
3.790
c
CHI-BV
4
0
4
1.040
1.92
3.55
1.830
c
CHI-K25
4
0
4
2.400
4.43
8.17
4.220
c
CHE-ORR
4
1
3
1.180
2.25
4.02
2.040
c
CR-ORR
4
0
3
2.260
4.33
7.70
3.890
c
CR-AND
4
0
3
0.633
1.23
2.15
1.070
c
CR-ROA
4
1
3
0.723
1.34
2.46
1.270
ZINC
A
DG-AND
3
0
2
52.9
75.3
96.6
66.5
A
DG-ROA
4
0
4
77.1
104.0
141.0
101.0
A
NL-ORR
2
0
2
62.6
95.8
114.0
73.1
A
CHI-K25
4
0
4
73.5
99.3
134.0
96.4
A
CHE-ORR
3
0
3
61.3
86.9
112.0
77.1
A
CR-ORR
4
0
4
65.7
88.8
120.0
86.3
A
CR-AND
4
0
4
68.3
92.2
125.0
89.6
A
CR-ROA
4
0
4
43.2
58.3
78.8
56.6
B
DG-AND
4
0
4
96.4
125.0
161.0
122.0
B
DG-ROA
4
0
4
76.1
98.4
127.0
96.2
B
NL-ORR
2
0
2
73.9
106.0
124.0
84.5
B
CHI-K25
4
0
4
162.0
209.0
270.0
204.0
B
CHE-ORR
3
0
3
183.0
247.0
307.0
223.0
B
CR-ORR
4
0
4
133.0
172.0
222.0
168.0
B
CR-AND
4
0
4
113.0
146.0
189.0
143.0
B
CR-ROA
4
0
4
50.8
65.7
84.9
64.2
C
DG-AND
4
0
2
50.7
74.1
105.0
70.4
C
DG-ROA
4
0
4
102.0
147.0
212.0
142.0
C
NL-ORR
2
0
2
113.0
189.0
234.0
136.0
C
CHI-BV
1
0
1
120.0
248.0
248.0
118.0
C
CHI-K25
4
0
4
128.0
184.0
265.0
178.0
C
CHE-ORR
3
0
3
257.0
391.0
531.0
339.0
C
CR-ORR
4
0
4
251.0
361.0
520.0
349.0
C
CR-AND
4
0
4
141.0
203.0
292.0
196.0
C
CR-ROA
4
0
4
71.2
102.0
147.0
98.9
"N — number of observations, possibly averages over replicates ai sites; I = number of interval
censored observations (see text); D - number of true detects (sec text); UCB95 = 95% upper
confidence bound for median; X95 = estimate of 95lh percentile; LTB9595 = 95% lower confidence
-------�
G-20
Table G2 Summaiy statistics for ICP/MS data"
(Estimates and confidence bounds are in milligrams per kilogram.)
Horizon formation- N j D Median UCB95 X95 LTB9595
location
ALUMINUM
DG-AND
4
0
4
20000
22800
26000
22600
DG-ROA
3
0
3
17100
19900
22300
19000
DG-ORR
3
0
3
19700
22900
25600
21800
NL-ORR
4
0
4
13700
15700
17900
15500
CHI-BV
4
0
4
17800
20300
23100
20100
CHI-<25
4
0
4
18200
20800
23700
20600
CHE-ORR
4
0
4
8540
9740
11100
9650
CR-ORR
4
0
4
9330
10600
12100
10500
CR-AND
4
0
4
13700
15600
17800
15500
CR-ROA
4
0
4
9190
10500
12000
10400
B
DG-AND
4
0
4
30800
36700
43700
36200
B
DG-RQA
3
0
3
26100
32000
37100
30000
B
DG-ORR
3
0
3
33600
41200
47800
38600
B
NL-ORR
4
0
4
23000
27400
32600
27100
B
CHI-BV
4
0
4
34400
41100
48900
40600
B
CHI-K25
4
0
4
35100
41900
49900
41400
B
CHE-ORR
4
0
4
16900
20200
24000
19900
B
CR-ORR
4
0
4
12800
15300
18200
15100
B
CR-AND
4
0
4
18700
22300
26500
22000
B
CR-ROA
4
0
4
15400
18300
21900
18100
C
DG-AND
4
0
4
33400
40700
49600
40100
C
DG-ROA
0
3
30100
37800
44700
35100
C
DG-ORR
0
3
38500
48400
57200
45000
C
NL-ORR
4
0
4
24300
29600
36100
29200
C
CHI-BV
4
0
4
37400
45500
55500
44900
C
CHI-K25
4
0
4
33000
40300
49000
39700
C
CHE-ORR
4
0
4
17100
20800
25400
20500
C
CR-ORR
4
0
4
11800
14400
17600
14200
C
CR-AND
4
0
4
20100
24500
29900
24200
C
CR-ROA
4
0
4
14000
17000
20700
16800
ANTIMONY
CR-ORR
4
0
1
0.184
0.283
0.281
0.192
REMAINDER
34
0
0
CHE-ORR
4
1
0
REMAINDER
34
0
0
CR-ROA
4
1
0
REMAINDER
34
0
0
ARSENIC
DG-AND
4
0
4
3.15
3.82
4.64
3.77
DG-ROA
3
0
3
4.11
5.14
6.06
4.79
DG-ORR
3
0
3
3.50
4.37
5.16
4.07
NL-ORR
4
0
4
3.94
4.78
5.80
4.72
CHI-BV
4
0
4
5.22
6.34
7.70
6.26
CHI-K25
4
0
4
5.36
6.51
7.91
6.43
CHE-ORR
4
0
4
6.88
8.35
10.10
8.24
CR-ORR
4
0
4
14.60
17.70
21.60
17.50
CR-AND
4
0
4
12.50
15.20
18.50
15.00
CR-ROA
4
0
4
7.63
9.26
11.20
9.14
B
DG-AND
4
0
4
3.43
4.26
5.29
4.20
B
DG-ROA
3
0
3
4.50
5.77
6.93
5.33
B
DG-ORR
3
0
3
3.57
4.58
5.50
4.23
B
NL-ORR
4
0
4
3.84
4.77
5.92
4.69
B
CHI-BV
4
0
4
5.11
6.35
7.88
6.26
B
CHI-K25
4
0
4
5.27
6.54
8.12
-------�
G-21
Table G_2 (continued)
Horizon Formation- N j D Median UCB9S X95 LTB9595
location
B
CHE-ORR
0 4
17.40
21.60
26.80
21.30
B
CR-ORR
0
30.70
38.20
47.40
37.60
B
CR-AND
0
16.90
21.00
26.10
20.70
B
CR-ROA
0
13.90
17.30
21.50
17.00
C
DG-AND
0
2.78
3.56
4.56
3.50
C
DG-ROA
0 3
3.15
4.19
5.17
3.83
C
DG-ORR
0 3
3.06
4.07
5.02
3.72
C
NL-ORR
o 4
3.03
3.89
4.98
3.82
C
CHI-BV
0
5.64
7.23
9.26
7.11
C
CHI-K25
0
4.15
5.31
6.80
5.22
C
CHE-ORR
0
20.40
26.10
33.50
25.70
C
CR-ORR
0
43.60
55.90
71.60
54.90
C
CR-AND
0
20.70
26.50
33.90
26.00
C
CR-ROA
0
18.90
24.30
31.10
23.80
BARIUM
A
DG-AND
4
0
76.80
102.0
134.0
99.6
A
OG-ROA
3
0
81.70
113.0
143.0
102.0
A
DG-ORR
3
0
94.20
130.0
165.0
117.0
A
NL-ORR
4
0
62.70
83.0
110.0
81.4
A
CHI-BV
4
0
80.10
106.0
140.0
104.0
A
CH1-K25
4
0
74.40
98.5
130.0
96.6
A
CHE-ORR
4
0
55.70
73.7
97.6
72.3
A
CR-ORR
4
0
70.10
92.7
123.0
91.0
A
CR-AND
4
0
107.00
141.0
187.0
138.0
A
CR-ROA
4
0
52.70
69.8
92.4
68.4
B
DG-AND
4
0
69.90
88.1
111.0
86.7
B
DG-ROA
3
0
88.10
115.0
140.0
106.0
B
DG-ORR
3
0
104.00
136.0
165.0
125.0
B
NL-ORR
4
0
68.80
86.7
109.0
85.3
B
CHI-BV
4
0
125.00
157.0
198.0
154.0
B
CHI-K25
4
0
84.60
107.0
134.0
105.0
B
CHE-ORR
4
0
38.20
48.2
60.7
47.4
B
CR-ORR
4
0
31.20
39.3
49.5
38.7
B
CR-AND
4
0
38.90
49.1
61.8
48.3
B
CR-ROA
4
0
32.80
41.3
52.1
40.7
C
DG-AND
4
0
72.90
99.4
136.0
97.3
C
DG-ROA
3
0
82.10
118.0
153.0
105.0
C
DG-ORR
3
0
125.00
179.0
232.0
159.0
c
NL-ORR
4
0
63.70
86.9
119.0
85.0
c
CHI-BV
4
0
164.00
224.0
306.0
220.0
c
CHI-K25
4
0
75.90
104.0
141.0
101.0
c
CHE-ORR
4
0
18.70
25.5
34.8
25.0
c
CR-ORR
4
0
8.24
11.2
15.3
11.0
c
CR-AND
4
0
25.80
35.2
48.0
34.5
c
CR-ROA
4
0
12.60
17.2
23.5
16.9
BERYLLIUM
A
DG-AND
0
0.832
1.020
1.260
1.010
A
DG-ROA
0
0.669
0.851
1.010
0.788
A
DG-ORR
0
0.752
0.956
1.140
0.885
A
NL-ORR
0
0.547
0.673
0.829
0.664
A
CHI-BV
0
0.973
1.200
1.470
1.180
A
CHI-K25
0
0.809
0.996
1.230
0.982
A
CHE-ORR
0
0.406
0.500
0.615
0.493
A
CR-ORR
0
0.474
0.584
0.719
0.576
A
CR-AND
0
0.628
0.773
0.952
0.762
A
CR-ROA
0
0.440
0.541
0.666
-------�
G-22
Tabic GJZ (continued)
Horizon Formation- N j D Mcdian UCB95 X9S LTB9595
location
B
DG-AND
0
4
1.050
1.400
1.870
1.370
B
DG-ROA
0
3
0.741
1.040
1.330
0.930
B
DG-ORR
0
3
0.870
1.220
1.560
1.090
B
NL-ORR
0
4
0.641
0.858
1.150
0.840
B
CHI-BV
0
4
1.500
2.000
2.680
1.960
B
CHI-K25
0
4
1.200
1.610
2.160
1.580
B
CHE-ORR
0
4
0.473
0.634
0.848
0.620
B
CR-ORR
0
4
0.289
0.387
0.518
0.379
B
CR-AND
0
4
0.399
0.534
0.714
0.522
B
CR-ROA
1
2
0.256
0.349
0.458
0.332
C
DG-AND
0
4
1.170
1.520
1.980
1.490
C
DG-ROA
0
3
0.909
1.230
1.540
1.120
C
DG-ORR
0
3
1.070
1.450
1.810
1.310
C
NL-ORR
0
4
0.791
1.030
1.340
1.010
C
CHI-BV
0
4
2.070
2.700
3.510
2.640
C
CHI-IC25
0
4
1.280
1.670
2.180
1.640
C
CHE-ORR
0
4
0.643
0.838
1.090
0.822
C
CR-ORR
0
4
0.346
0.450
0.587
0.442
c
CR-AND
0
4
0.466
0.607
0.791
0.595
c
CR-ROA
0
2
0.240
0.320
0.407
0.303
CADMIUM
A
REMAINDER
38
0
0
B
REMAINDER
38
0
0
C
REMAINDER
38
0
0
CHROMIUM
A
DG-AND
4
0
4
25.9
29.9
34.4
29.6
A
DG-ROA
3
0
3
33.0
38.8
43.8
36.8
A
DG-ORR
3
0
3
30.2
35.5
40.0
33.7
A
NL-ORR
4
0
4
29.3
33.8
38.9
33.4
A
CHI-BV
4
0
4
32.2
37.1
42.7
36.7
A
CHI-K25
4
0
4
29.1
33.5
38.6
33.2
A
CHE-ORR
4
0
4
13.2
15.3
17.6
15.1
A
CR-ORR
4
0
4
16.4
18.9
21.8
18.8
A
CR-AND
4
0
4
24.2
27.9
32.1
27.6
A
CR-ROA
4
0
4
14.5
16.7
19.2
16.5
B
DG-AND
4
0
4
34.2
38.8
44.0
38.5
B
DG-ROA
0
3
47.1
54.5
60.6
52.0
B
DG-ORR
3
0
3
39.6
45.8
50.9
43.7
B
NL-ORR
4
0
4
34.5
39.1
44.4
38.8
B
CHI-BV
4
0
4
38.4
43.5
49.3
43.1
B
CHI-K25
4
0
4
35.6
40.3
45.7
40.0
B
CHE-ORR
4
0
4
31.9
36.2
41.0
35.9
B
CR-ORR
4
0
4
28.4
32.2
36.6
32.0
B
CR-AND
4
0
4
28.1
31.8
36.1
31.5
B
CR-ROA
4
0
4
25.5
28.9
32.7
28.6
C
DG-AND
i
0
4
31.2
35.2
39.7
34.9
C
DG-ROA
3
0
3
45.3
52.0
57.6
49.7
C
DG-ORR
3
0
3
43.0
49.4
54.7
47.3
C
NL-ORR
4
0
4
35.7
40.3
45.4
39.9
C
CHI-BV
4
0
4
36.9
41.7
47.0
41.3
C
CHI-K25
4
0
4
30.5
34.5
38.9
34.2
C
CHE-ORR
4
0
4
29.5
33.3
37.5
33.0
C
CR-ORR
4
0
4
27.2
30.6
34.6
30.4
C
CR-AND
4
0
4
29.9
33.7
38.0
33.4
C
CR-ROA
4
0
4
31.2
35.2
39.7
-------�
G-23
Table GJ2 (contiaued)
Horizon Formation- N j D Median UCB95 X95 LTB9S95
location
COBALT
A
DG-AND
0
4
13.40
17.30
22.50
17.00
A
DG-ROA
0
3
18.80
25.40
31.60
23.10
A
DG-ORR
0
16.20
21.80
27.20
19.80
A
ML-ORR
0
4
14.60
18.90
24.60
18.60
A
CHI-BV
0
4
19.50
25.30
32.80
24.80
A
CHI-K25
0
4
17.30
22.50
29.20
22.10
A
CHE-ORR
0
4
11.30
14.70
19.00
14.40
A
CR-ORR
0
4
9.03
11.70
15.20
11.50
A
CR-AND
0
4
17.10
22.20
28.80
21.80
A
CR-ROA
0
4
5.27
6.84
8.87
6.72
B
DG-AND
0
4
10.70
16.50
25.70
16.10
B
DG-ROA
0
3
11.80
19.60
28.40
16.70
B
DG-ORR
0
3
14.00
23.20
33.70
19.80
B
NL-ORR
0
4
9.46
14.70
22.80
14.20
B
CHI-BV
0
4
15.90
24.70
38.40
24.00
B
CHI-K25
0
4
12.40
19.20
29.70
18.60
B
CHE-ORR
0
4
3.89
6.04
9.37
5.86
B
CR-ORR
0
4
2.88
4.47
6.93
4.33
B
CR-AND
0
4
9.60
14.90
23.10
14.40
B
CR-ROA
0
3.13
4.85
7.53
4.71
C
DG-AND
0
4
15.60
27.00
46.60
26.00
C
DG-ROA
0
3
11.80
22.20
35.20
18.20
C
DG-ORR
0
3
14.60
27.30
43.40
22.30
C
NL-ORR
0
4
16.40
28.20
48.80
27.20
C
CHI-BV
0
4
26.50
45.70
78.90
44.00
C
CHI-K25
0
4
13.10
22.60
39.10
21.80
C
CHE-ORR
0
4
6.78
11.70
20.20
11.30
C
CR-ORR
0
4
2.26
3.91
6.74
3.76
C
CR-AND
0
4
7.13
12.30
21.20
11.80
C
CR-ROA
0
4
2.04
3.52
6.07
3.39
COPPER
A
DG-AND
0
19.00
24.20
30.80
23.80
A
DG-ROA
0
3
15.40
20.40
24.90
13.60
A
DG-ORR
0
3
17.70
23.40
28.60
21.40
A
NL-ORR
0
4
11.90
15.10
19.20
14.80
A
CHI-BV
0
4
13.50
17.20
21.80
16.90
A
CHI-K25
0
4
12.30
15.60
19.80
15.30
A
CHE-ORR
0
4
5.94
7.55
9.60
7.43
A
CR-ORR
0
4
6.99
8.88
11.30
8.73
A
CR-AND
0
4
9.27
11.80
15.00
11.60
A
CR-ROA
0
4
5.76
7.32
9.31
7.20
B
DG-AND
0
4
22.80
28.70
36.20
28.30
B
DG-ROA
0
3
18.90
24.70
30.10
22.70
B
DG-ORR
0
3
23.20
30.30
36.90
27.90
B
NL-ORR
0
4
18.50
23.40
29.50
23.00
B
CHI-BV
0
4
24.80
31.30
39.40
30.80
B
CHI-K25
0
4
19.30
24.40
30.80
24.00
B
CHE-ORR
0
4
18.30
23.00
29.00
22.70
B
CR-ORR
0
4
16.70
21.00
26.50
20.70
B
CR-AND
0
4
23.50
29.70
37.40
29.20
B
CR-ROA
0
4
12.90
16.30
20.50
16.00
C
DG-AND
0
4
29.10
36.70
46.30
36.10
C
DG-ROA
0
3
26.70
34.90
42.40
32.00
C
DG-ORR
0
26.50
34.60
42.20
31.80
c
NL-ORR
0
4
24.50
30.90
38.90
30.40
c
CHI-BV
0
4
30.70
38.70
48.80
38.10
c
CHI-<25
0
4
20.80
26.20
33.10
25.80
c
CHE-ORR
0
4
25.60
32.30
40.70
31.80
c
CR-ORR
0
4
24.90
31.40
39.70
30.90
c
CR-AND
0
4
30.80
38.80
48.90
38.20
c
CR-ROA
0
4
15.80
19.90
25.10
-------�
G-24
Table G.2 (continued)
Honzon F°nna"°n" N I D Median UCB95 X95 LTB9595
location
LEAD
A
DG-AND
4
0
4 28.6
33.3
38.8
32.9
A
DG-ROA
3
0
3 24.1
28.8
32.7
27.2
A
DG-ORR
3
0
3 17.0
20.3
23.2
19.2
A
NL-ORR
4
0
4 18.2
21.2
24.7
21.0
A
CHI-BV
4
0
4 39.8
46.4
54.1
45.9
A
CHI-IC25
4
0
4 31.4
36.6
42.7
36.2
A
CHE-ORR
4
0
4 17.6
20.5
23.9
20.3
A
CR-ORR
4
0
4 26.9
31.4
36.6
31.0
A
CR-AND
4
0
4 36.1
42.0
49.0
41.6
A
CR-ROA
4
0
4 20.6
24.0
28.0
23.8
B
DG-AND
4
0
4 20.7
27.4
36.3
26.9
B
DG-ROA
3
0
3 17.8
24.6
31.2
22.2
B
DG-ORR
3
0
3 16.2
22.4
28.4
20.2
B
NL-ORR
0
4 12.1
16.1
21.3
15.7
B
CHI-BV
4
0
4 28.8
38.1
50.5
37.4
B
CHI-K25
4
0
4 19.0
25.1
33.3
24.6
B
CHE-ORR
4
0
4 12.1
16.0
21.2
15.7
B
CR-ORR
4
0
4 15.7
20.7
27.5
20.3
B
CR-AND
4
0
4 16.5
21.9
29.0
21.4
B
CR-ROA
4
0
4 11.8
15.6
20.7
15.3
C
DG-AND
4
0
4 25.5
36.1
51.1
35.2
C
DG-ROA
3
0
3 15.0
22.5
30.1
19.7
c
DG-ORR
3
0
3 18.4
27.5
36.9
24.2
c
NL-ORR
4
0
4 15.8
22.4
31.7
21.8
c
CHI-BV
4
0
4 43.6
61.7
87.3
60.2
c
CH1-K25
4
0
4 19.9
23.2
39.9
27.5
c
CHE-ORR
4
0
4 20.3
28.7
40.6
28.0
c
CR-ORR
4
0
4 27.9
39.5
56.0
38.6
c
CR-AND
4
0
4 21.8
30.8
43.6
30.1
c
CR-ROA
4
0
4 15.1
21.4
30.3
20.9
MANGANESE
A
DG-AND
4
0
4 717.0
945
1250
928
A
DG-ROA
3
0
3 1370.0
1880
2370
1700
A
DG-ORR
3
0
3 954.0
1310
1660
1190
A
NL-ORR
4
0
4 749.0
987
1300
969
A
CHI-BV
4
0
4 1080.0
1430
1880
1400
A
CHI-K25
4
0
4 1430.0
1880
2480
1840
A
CHE-ORR
4
0
4 936.0
1230
1630
1210
A
CR-ORR
4
0
4 1380.0
1820
2400
1790
A
CR-AND
4
0
4 2360.0
3110
4100
3050
A
CR-ROA
4
0
4 825.0
1090
1430
1070
B
DG-AND
4
0
4 241.0
396
652
383
B
DG-ROA
3
0
3 341.0
605
922
504
B
DG-ORR
0
3 353.0
627
955
522
B
NL-ORR
4
0
4 206.0
339
557
327
B
CHI-BV
4
0
4 447.0
735
1210
710
B
CHI-K25
4
0
4 266.0
437
719
422
B
CHE-ORR
4
0
4 113.0
186
305
179
B
CR-ORR
4
0
4 93.9
154
254
149
B
CR-AND
4
0
4 334.0
549
902
530
B
CR-ROA
4
0
4 108.0
178
292
172
C
DG-AND
4
0
4 647.0
1220
2310
1170
C
DG-ROA
3
0
3 223.0
465
797
368
C
DG-ORR
3
0
3 418.0
871
1490
689
C
NL-ORR
4
0
4 374.0
707
1340
677
C
CHI-BV
0
4 760.0
1440
2710
1370
C
CHI-K25
4
0
4 342.0
646
1220
618
c
CHE-ORR
4
0
4 177.0
334
631
320
c
CR-ORR
4
0
4 87.8
166
314
159
c
CR-AND
4
0
4 257.0
485
916
464
c
CR-ROA
4
0
4 56.0
106
200
-------�
G-25
Table G_2 (continued)
Formation-
Honzon , N I D Median UCB95 X95 LTB9595
location
NICKEL
A
DG-AND
4
0
4
18.90
23.90
30.20
23.50
A
DG-ROA
3
0
3
16.10
21.10
25.70
19.30
A
DG-ORR
3
0
20.80
27.30
33.20
25.00
A
NL-ORR
4
0
4
12.20
15.50
19.50
15.20
A
CHI-BV
4
0
4
12.60
15.90
20.10
15.60
A
CHI-K25
4
0
4
19.20
24.30
30.60
23.90
A
CHE-ORR
4
0
4
7.27
9.19
11.60
9.04
A
CR-ORR
4
0
4
7.33
9.26
11.70
9.11
A
CR-AND
4
0
4
9.39
11.90
15.00
11.70
A
CR-ROA
4
0
4
4.80
6.06
7.66
5.97
B
DG-AND
4
0
4
21.40
28.40
37.60
27.80
B
DG-ROA
3
0
3
19.70
27.20
34.60
24.50
B
DG-ORR
3
0
3
22.40
31.00
39.40
27.90
B
NL-ORR
4
0
4
16.20
21.40
28.40
21.00
B
CHI-BV
4
0
4
22.80
30.20
40.00
29.60
B
CHI-K25 •
4
0
4
22.20
29.40
39.00
28.90
B
CHE-ORR
4
0
4
11.30
15.00
19.90
14.70
B
CR-ORR
4
0
4
7.94
10.50
14.00
10.30
B
CR-AND
4
0
4
13.20
17.50
23.20
17.20
B
CR-ROA
4
0
4
7.87
10.40
13.80
10.20
C
DG-AND
4
0
4
23.60
31.30
41.60
30.70
C
DG-ROA
3
0
3
28.00
38.80
49.20
34.90
C
DG-ORR
3
0
26.60
36.80
46.80
33.20
C
NL-ORR
4
0
4
19.20
25.50
33.80
25.00
C
CHI-BV
4
0
4
33.80
44.80
59.50
44.00
C
CHI-K25
4
0
4
23.30
31.00
41.10
30.40
C
CHE-ORR
4
0
4
18.20
24.20
32.10
23.70
C
CR-ORR
4
0
4
11.40
15.20
20.10
14.90
C
CR-AND
4
0
4
17.00
22.50
29.90
22.10
C
CR-ROA
4
0
4
7.61
10.10
13.40
9.90
SELENIUM
A
DG-AND
4
0
3
0.366
0.469
0.595
0.449
A
DG-ROA
3
1
2
0.391
0.522
0.635
0.462
A
DG-ORR
3
1
1
0.346
0.464
0.562
0.408
A
NL-ORR
4
0
4
0.315
0.401
0.511
0.384
A
CHE-ORR
2
0
2
0.673
0.949
1.090
0.752
A
CR-ORR
1
0
1
0.680
1.100
1.100
0.665
A
CR-ROA
1
0
1
0.475
0.772
0.772
0.464
B
DG-AND
4
0
4
0.346
0.424
0.521
0.410
B
DG-ROA
3
0
3
0.584
0.739
0.879
0.673
B
DG-ORR
3
1
0
0.220
0.293
0.331
0.247
B
NL-ORR
4
0
4
0.417
0.512
0.628
0.495
B
CHE-ORR
2
0
2
0.721
0.963
1.090
0.793
B
CR-ORR
1
0
1
0.930
1.400
1.400
0.913
B
CR-ROA
1
0
1
0.485
0.731
0.731
0.476
C
DG-AND
4
0
2
0.248
0.341
0.440
0.311
C
DG-ROA
3
0
2
0.239
0.340
0.424
0.287
C
DG-ORR
3
0
1
0.265
0.386
0.471
0.319
C
NL-ORR
4
0
3
0.306
0.411
0.543
0.383
C
CHE-ORR
2
0
2
0.629
0.945
1.120
0.707
C
CR-ORR
1
0
1
0.500
0.888
0.888
0.482
C
CR-ROA
1
0
1
0.575
1.020
1.020
-------�
G-26
Table G2 (continued)
Horizon Formation- N j D Median UCB95 X95 LTB9595
location
SILVER
A
REMAINDER
38
0
0
•
•
•
B
REMAINDER
38
0
0
.
.
.
.
C
REMAINDER
38
0
0
•
•
•
•
THALLIUM
A
CHI-BV
4
0
1
0.198
0.274
0.319
0.232
A
CHI-<25
4
0
2
0.225
0.297
0.363
0.263
A
CR-ORR
4
0
1
0.169
0.240
0.273
0.195
A
CR-AND
4
1
2
0.267
0.347
0.430
0.313
A
REMAINDER
22
0
0
•
•
B
DG-AND
4
1
1
0.208
0.253
0.281
0.231
B
DG-ROA
3
0
2
0.239
0.286
0.322
0.266
B
DG-ORR
3
1
2
0.243
0.292
0.327
0.269
B
NL-ORR
4
0
2
0.213
0.252
0.286
0.240
3
CHI-BV
4
0
3
0.250
0.291
0.336
0.285
B
CHI-K25
4
0
4
0.284
0.329
0.382
0.324
B
CHE-ORR
4
1
3
0.253
0.296
0.341
0.287
B
CR-ORR
4
0
2
0.224
0.264
0.302
0.255
B
CR-AND
4
0
4
0.316
0.367
0.426
0.361
B
CR-ROA
4
1
2
0.237
0.278
0.319
0.269
C
DG-AND
4
0
1
0.201
0.257
0.288
0.225
C
DG-ROA
3
0
3
0.245
0.302
0.351
0.281
C
DG-ORR
3
0
3
0.270
0.332
0.387
0.309
C
NL-ORR
4
0
2
0.218
0.268
0.312
0.252
C
CHI-BV
4
0
2
0.230
0.282
0.331
0.269
C
CH1-K25
4
0
4
0.295
0.353
0.423
0.346
c
CHE-ORR
4
0
3
0.252
0.304
0.361
0.296
c
CR-ORR
4
0
2
0.231
0.282
0.332
0.270
c
CR-AND
4
0
4
0.332
0.398
0.476
0.390
c
CR-ROA
4
0
2
0.211
0.259
0.303
0.245
ZINC
A
DG-AND
4
0
4
46.2
59.6
76.8
58.5
A
DG-ROA
3
0
3
38.5
51.7
64.0
47.0
A
DG-ORR
3
0
3
41.3
55.4
68.6
50.4
A
NL-ORR
4
0
4
25.5
, 32.8
42.3
32.3
A
CHI-BV
4
0
4
36.2
46.6
60.1
45.8
A
CHI-K25
4
0
4
39.2
50.5
65.1
49.6
A
CHE-ORR
4
0
4
34.8
44.9
57.9
44.1
A
CR-ORR
0
4
24.4
31.5
40.6
30.9
A
CR-AND
4
0
4
39.9
51.4
66.3
50.6
A
CR-ROA
4
0
4
24.6
31.7
40.9
31.2
B
DG-AND
4
0
4
46.2
62.0
83.4
60.8
B
DG-ROA
3
0
3
41.6
58.5
75.2
52.5
B
DG-ORR
3
0
3
50.5
71.0
91.2
63.7
B
NL-ORR
4
0
4
31.4
42.2
56.8
41.4
B
CHI-BV
4
0
4
50.3
67.6
90.9
66.3
B
CHI-K25
4
0
4
59.9
80.5
108.0
78.8
B
CHE-ORR
0
4
101.0
135.0
182.0
132.0
B
CR-ORR
4
0
4
49.9
67.1
90.1
65.7
B
CR-AND
4
0
4
58.9
79.2
106.0
77.6
B
CR-ROA
4
0
4
35.2
47.3
63.6
46.4
C
DG-AND
4
0
4
47.1
62.7
83.5
61.4
C
DG-ROA
3
0
3
49.5
68.9
87.8
62.0
C
DG-ORR
3
0
3
52.4
73.0
93.0
-------�
G-27
Table G2. (continued)
Horizon
Formation- ^
location
I D
Median
UCB95
X95
LTB9595
C
Hl-ORR 4
0 4
32.6
43.4
57.9
42.6
C
CHI-BV 4
0 4
75.3
100.0
134.0
98.3
C
CHI-K25 4
0 4
54.5
72.6
96.7
71.2
C
CHE-ORR 4
0 4
164.0
218.0
290.0
214.0
C
CR-ORR 4
0 4
38.4
118.0
157.0
115.0
C
CR-AHD 4
0 4
75.6
101.0
134.0
98.8
C
CR-ROA 4
0 4
39.0
51.9
69.2
50.9
"N = number of observations, possibly averages over replicates at sites; I = number of
interval censored observations (see text); D = number of true detects (sec text); UCB95 - 95%
upper confidence bound for median: X95 = estimate of 95th percentile; LTB9595 = 95% lower
confidence bound for 95th percentile; REMAINDER refers to the remaining observations—no
-------�
G-28
Table G3. Significance levels for comparing inorganics0
(Selected anaiytes were deleted because of insufficient detection.)
Analysis Horizon
N
D
P-ALL
P-DG
P-CR
P-ORR
P-CHICK
P-DGN
P-CRC
P-GRP
Aluminum
A
40
40
.0000
.0008
.0013
.0000
.9974
.4820
.0357
.0000
Aluminum
B
40
40
.0000
.0013
.0922
.0000
.1320
.2864
.4391
.0000
Aluminum
C
40
40
.0000
.0001
.1204
.0000
.7900
.7825
.9180
.0000
Arsenic
A
39
39
.0000
.2008
.0002
.0000
.3517
.9558
.0008
.0000
Arsenic
B
38
37
.0000
.0255
.0039
.0000
.8421
.4869
.0127
.0000
Arsenic
C
39
37
.0000
.0044
.0275
.0000
.8035
.0655
.0513
.0000
Barium
A
40
40
.1073
.6577
.0189
.2108
.8701
.2270
.1969
.1323
Barium
B
40
40
.0000
.0601
.1774
.0000
.1000
.4117
.4305
.0000
Bariun
C
40
40
.0000
.3493
.0148
.0000
.0327
.2875
.0049
.0000
Beryl I inn
A
40
37
.0000
.3360
.0213
.0000
.5341
.9679
.0763
.0000
Beryl linn
B
40
36
.0000
.1433
.1569
.0000
.9781
.1408
.7586
.0000
Beryl Iium
C
40
37
.0000
.2024
.3085
.0000
.1284
.4744
.1733
.0000
Calcium
A
35
35
.0001
.9639
.0919
.0000
.2674
.1029
.6405
.0000
Calcium
B
34
34
.0000
.9169
.5150
.0000
.0430
.7081
.1426
.0000
Calcium
C
34
34
.0000
.0491
.1227
.0000
.0003
.4311
.2942
.0000
Chromium
A
39
38
.0000
.6438
.0107
.0000
.7641
.4253
.7173
.0000
Chromium
B
39
39
.1152
.8241
.3101
.4152
.9810
.9582
.9340
.0823
Chromium
C
40
40
.0019
.3715
.4125
.0001
.4205
.2767
.6486
.0000
Cobalt
A
40
38
.0000
.0824
.0002
.0076
.8173
.9829
.1114
.0014
Cobalt
8
40
31
.0000
.7194
.0003
.0000
.8774
.3007
.5433
.0000
Cobalt
C
40
33
.0001
.8067
.0083
.0012
.3911
.7297
.0182
.0010
Copper
A
40
34
.0000
.1679
.0738
.0000
.0958
.1256
.0559
.0000
Copper
B
39
38
.0347
.0862
.0057
.5382
.1324
.7468
.5625
.4964
Copper
C
40
39
.0338
.5866
.0022
.0970
.0274
.4426
.0633
.6539
I ron
A
40
40
.0000
.4468
.0737
.0000
.2517
.6789
.1870
.0000
I ron
B
40
40
.0000
.1911
.0054
.0000
.2555
.2289
.8212
.0000
I ron
C
40
40
.0000
.4203
.0743
.0001
.8421
.7186
.0405
.0000
Lead
A
33
38
.0638
.4463
.0466
.0208
.6766
.6098
.0075
.0556
Lead
B
39
39
.0531
.2013
.0243
.0960
.4901
.9863
.0301
.1212
Lead
C
39
39
.1319
.6057
.0768
.0601
.0177
.1822
.1781
.3855
Lithium
A
36
29
.0000
.1174
.0002
.0000
.4630
.0929
.1008
.0000
Lithium
B
37
36
.0000
.7490
.0161
.0000
,6565
.7285
.0298
.0000
Lithium
C
37
34
.0000
.4819
.0001
.0000
.9191
.4866
.0003
.0000
Magnesium
A
40
40
.0000
.0009
.0076
.0000
.1318
.0322
.1550
.0000
Magnesium
B
40
40
.0000
.0015
.0022
.0000
.9434
.1689
.0101
.0000
Magnesium
C
40
40
.0000
.0620
.0001
.0000
.0290
.0993
.0026
.0000
Manganese
A
40
40
.0011
.0078
.0026
.0541
.0936
.1235
.5841
.0616
Manganese
B
40
40
.0510
.8868
.0070
.0985
.7692
.9131
.6683
.0111
Manganese
C
40
40
.0193
.5073
.0307
.0575
.3226
.9122
.1890
.0180
Mercury
A
40
31
.0000
.0000
.0337
.0000
.0000
.0004
.1679
.0016
Mercury
B
40
20
.0004
.0018
.1083
.0039
.0104
.0013
.8062
.6109
Mercury
C
40
24
.0000
.0144
.0741
.0000
.0396
.8944
.0056
.0000
Molybdenum
B
37
' 11
.2365
1.000
.0847
.1834
.8057
.9997
.1706
.0608
Molybdenum
C
37
11
.0010
1.000
.1520
.0002
1.000
1.000
.0154
.0001
Nickel
A
40
30
.0000
.1962
.0107
.0000
.1886
.1049
.1988
.0000
Nickel
B
40
35
.0000
.2591
.0348
.0002
.8335
.6299
.6924
.0000
Nickel
C
40
38
.C004
.9179
.1370
.0341
.1276
.4252
.2856
.0175
Potassium
A
39
34
.0000
.0000
.0175
.0000
.6133
.1488
.0037
.0000
Potassium
B
39
39
.0000
.0000
.0016
.0000
.0015
.0148
.0001
.0000
Potassium
C
39
39
.0000
.0002
.0001
.0000
.0016
.0007
.0023
.0000
Selenium
A
38
27
.0021
.0036
.0023
.0113
.8721
.0181
.1515
.0262
Selenium
B
39
28
.0008
.0006
.0974
.0001
.6019
.0004
.0031
.0617
Selenium
C
39
25
.0000
.0001
.2597
.0000
.5137
.0000
.0330
.2522
Si I icon
A
32
32
.0000
.0000
.0183
.0000
.0316
.0000
.2262
-------�
G-29
Tabic G3 (continued)
Analysis
Horizon
N
D
P-ALL
P-DG
P-CR
P-ORR
P-CfflCK
P-DGN
P-CRC
P-GRP
Silicon
B
32
32
.0000
.0000
.2060
.0000
.0044
.0000
.5131
.0000
Si I icon
c
32
32
.0000
.0000
.3368
.0000
.0042
.0000
.6241
.0003
Sodium
A
25
23
.0015
1.000
.0981
.0019
.1337
1.000
.0873
.0009
Sodium
B
25
24
.0007
1.000
.3744
.0002
.1534
1.000
.0680
.0001
Sodium
C
25
24
.0099
1.000
.6896
.0079
.5264
1.000
.2107
.0010
Strontium
A
36
34
.0004
.2929
.1656
.0000
.0303
.0651
.1620
.0001
Strontiun
B
37
34
.0001
.2037
.4723
.0000
.0760
.3514
.2706
.0000
Strontiun
C
37
31
.0000
.0647
.0000
.0000
.9377
.1653
.0078
.0000
Sulfate
A
39
39
.0000
.0000
.0745
.0000
.0326
.0000
.5937
.0002
Sulfate
B
40
40
.0005
.0005
.6491
.0021
.0599
.3579
.9335
.0007
Thai I inn
A
38
2
.6741
.6354
.1466
.8130
1.000
.3296
1.000
.5211
Thai I inn
B
38
5
.8626
.4175
.6219
.8422
1.000
.8994
.4403
.4873
Thailinn
C
38
8
.0820
.4808
.1077
.0794
1.000
.0684
.3435
.0624
Sulfate
C
40
35
.0000
.0000
.0019
.0000
.6366
.0021
.4277
.0000
Vanadium
A
40
40
.0111
.6029
.0050
.0679
.9834
.6531
.2860
.0115
Vanadium
B
39
39
.0005
.4041
.0733
.0007
.1038
.2217
.8019
.0002
Vanadium
C
40
40
.0000
.0139
.0295
.0000
.3769
.2136
.0027
.0000
Zinc
A
40
40
.6155
.4195
.4519
.3643
.8914
.1170
.5165
.2764
Zinc
B
40
40
.0017
.5332
.0279
.0028
.4098
.5154
.0696
.0010
Zinc
C
40
39
.0001
.7204
.0076
.0000
.3329
.1944
.2553
.0000
"N = number of observations; D = number of detects. See "Note on Significance Levels" at beginning of this
-------�
G-30
Table G.4. Significance levels for comparing PAHs*
(Dismal Gap and Nolicfancky data feuded)
Analysis
N
Detect
P-ALL
P-CR
P-ORR
P-CHICK
P-CRC
P-GRP
Acenaphthene
25
11
0.0960
0.3413
0.0517
0.0223
0.1437
0.5664
Acenaphthylene
61
5
0.0033
0.0074
0.0023
1.000
0.0181
0.0116
Anthracene
44
39
0.2485
0.4729
0.2316
0.1345
0.2230
0.7280
Benzo [a]anthracene
60
60
0.0001
0.1210
0.0001
0.3603
0.5492
0.0000
Benzota]pyrene
61
60
0.0000
0.0073
0.0515
0.1662
0.4371
0.0684
Benzotb]fIuoranthene
52
47
0.0050
0.3834
0.0443
0.9141
0.4641
0.0231
Benzo[g,h, ilperylene
53
52
0.0051
0.2631
0.0748
0.2602
0.7158
0.0635
Benzo[k]fIuoranthene
61
61
0.0000
0.1393
0.0076
0.2458
0.6917
0.0054
Chrysene
36
23
0.0311
0.0955
0.1427
0.8623
0.0732
0.3339
DibenzoCa,h]anthracene
33
27
0.9138
0.8686
0.7798
0.7161
0.9920
0.6199
FIuoranthene
56
56
0.0610
0.0875
0.0925
0.2968
0.0395
0.5540
Fluorene
34
20
0.0158
0.1654
0.0101
0.2484
0.1152
0.0222
Indenod,2r3-c,d]pyrene
64
27
0.2847
0.0681
0.2109
0.5841
0.2298
0.2499
Naphthalene
32
19
0.1016
0.3923
0.0526
0.0267
0.8000
0.2584
Phenanthrene
67
67
0.0026
0.5975
0.0090
0.7508
0.3534
C.0049
Pyrene
59
59
0.0000
0.0138
0.0046
0.3421
0.2464
0.0045
°N = number of observations; D = number of detects. See "Note on Significance Levels" at beginning of this
-------�
G-31
Table G_5. Significance levels for comparisons of selected
radionuclides (by type of analysts)
Analysis Horizon
N
D
P-ALL
P-DG
P-CR
P-ORR
P-CHICK
P-DGN
P-CRC
P-GRP
ALPHA
Neptuniun-237
A
29
23
.0942
1.000
.1020
.3136
.9793
1.000
.3293
.0832
Plutonian-238
A
38
9
.0075
.0068
.0077
.0235
.9635
.2395
.0077
.1006
PI utoni un- 239/240
A
38
7
.0736
.3350
.0716
.3805
.6793
.1852
.8842
.1861
Radiun-226
A
40
38
.1201
.0223
.0720
.6498
.6498
.8503
.2967
.3674
Radium-226
B
40
39
.0212
.0031
.4751
.0249
.6121
.5117
.8167
.0024
Radiun-226
C
40
40
.0221
.0016
.5727
.0523
.9598
.2954
.3240
.0116
Thoriun-228
A
40
39
.0013
.2394
.0154
.0002
.6625
.0178
.0620
.0004
Thoriun-228
B
40
40
.2339
.3850
.9371
.4273
.9447
.1127
.7555
.3173
Thoriun-228
C
40
39
.0700
.2298
.9823
.0344
.2878
.0078
.8687
.1360
Thorium-230
A
40
40
.0037
.0139
.2130
.0008
.9050
.0013
.0257
.0363
Thoriun-230
B
40
39
.0473
.4295
.1362
.0388
.9692
.1355
.2680
.0155
Thoriim-230
C
40
40
.0000
.0696
.6691
.0003
.5068
.0528
.5515
.0001
Thorium-232
A
40
40
.0000
.0045
.0247
.0000
.3421
.0000
.4984
.0001
Thoriun-232
B
40
40
.2009
.5377
.3934
.1466
.2406
.0693
.7807
.1702
Thoriun-232
C
40
40
.1281
.2541
.8969
.2569
.6125
.0776
.9175
.2038
Total Uraniun
A
38
37
.2438
.3682
.1372
.2986
.5574
.7756
.5032
.0739
Uraniun-233/234
A
40
40
.1374
.9967
.4057
.1222
.2585
.0593
.1007
.4590
Uraniun-233/234
B
39
39
.0029
.1616
.0055
.0349
.1320
.7710
.1497
.0214
Uraniun-233/234
C
40
40
.0000
.1540
.0141
.0000
.5381
.0016
.0142
.0003
Uraniun-235
A
40
29
.0084
.4178
.0006
.0512
.1222
.9693
.0757
.0600
Uraniun-235
B
39
32
.0215
.4823
.2400
.0627
.7454
.6232
.4017
.0089
Uraniun-235
C
40
29
.0342
.9956
.1941
.0318
.3751
.6193
.0681
.0188
Uraniun-238
A
40
40
.0000
.3195
.0000
.0323
.1652
.0235
.0368
.4380
Uraniun-238
B
39
39
.0002
.1986
.0009
.0087
.2907
.7214
.2924
.0014
Uraniun-238
C
40
40
.0000
.2419
.0348
.0000
.2578
.0018
.0037
.0001
BETA
Technetium-99
A
46
9
.0010
.0011
.0036
.0447
.7280
.2997
1.000
.0062
GAMMA
Cesiun-137
A
40
37
.1313
.1259
.8531
.8041
.7671
.8635
.8176
.3423
Cesiun-137
B
39
16
.0812
.2877
.1263
.2715
.1893
.2404
.2965
.3303
Cesiun-137
C
39
4
.0277
.0418
1.000
.0813
1.000
.0166
1.000
.1320
Potassium-40
A
40
40
.0000
.0060
.0665
.0000
.0102
.6614
.1189
.0000
Potassiun-40
B
36
36
.0000
.3252
.8216
.0001
.9845
.5517
.1099
.0000
Potassiun-40
C
36
36
.0000
.7842
.0663
.0000
.0024
.3416
.1266
.0001
Uraniun-235
A
39
16
.0970
.2040
1.000
.8745
.9998
.5033
1.000
.5056
Uraniun-235
B
39
15
.7760
.6458
1.000
.6640
1.000
.0825
1.000
.8961
Uraniun-235
C
40
18
.0208
.0463
.0596
.0095
1.000
.6945
.0285
.0059
TRITIUM
T r i t i un
A
50
12
.0009
.2047
.8898
.0012
.0008
1.000
.9071
.0117
N = number of samples.
D = number of detects.
P = probability.
DG = Dismal Gap formation.
CR = Copper Ridge formation.
ORR = Oak Ridge Reservation.
CHICK = Chickrnauga Group.
DGN = Dismal Gap and Nolichucky formations.
CRC = Copper Ridge and Chapultepec formations.
-------�
G-32
Table G.6. Comparisons of horizons for inorganics
(Estimates and standard errors are in milligrams per kilogram.)
Formation- Difference Standard Significance
location estimate error level
Anafysis=Aluminum Comparison; A-B Area-differences P=.0002
DG-AND
-12425.00
2071.01
.0001
DG-ROA
-8700.00
2071.01
.0001
DG-ORR
-9975.00
2071.01
.0001
NL-ORR
-12925.00
2071.01
.0001
CHI-BV
-13450.00
2071.01
.0001
CH1-K25
-18150.00
2071.01
.0001
CHE-ORR
-10037.50
2071.01
.0001
CR-ORR
-6805.00
2071.01
.0010
CR-AND
-5675.00
2071.01
.0061
CR-ROA
-6248.75
2071.01
.0026
Anaiysis=Aluminum Comparison: B-C Area-differences P=.0355
DG-AND
-3450.00
1731.09
.0463
DG-ROA
-987.50
1731.09
.5684
DG-ORR
-7675.00
1731.09
.0001
NL-ORR
-3050.00
1731.09
.0781
CHI-BV
-3625.00
1731.09
.0363
CHI-K25
425.00
1731.09
.8061
CHE-ORR
862.50
1731.09
.6183
CR-ORR
-950.00
1731.09
.5832
CR-AND
-2025.00
1731.09 .
.2421
CR-ROA
-1725.00
1731.09
.3190
Analysis=A]uminum Comparison: A-C Area-differences P=.0001
DG-AND
-15875.00
1995.80
.0001
DG-ROA
-9687.50
1995.80
.0001
DG-ORR
-17650.00
1995.80
.0001
NL-ORR
-15975.00
1995.80
.0001
CHI-BV
-17075.00
1995.80
.0001
CHI-K25
-17725.00
1995.80
.0001
CHE-ORR
-9175.00
1995.80
.0001
CR-ORR
-7755.00
1995.80
.0001
CR-AND
-7700.00
1995.80
.0001
CR-ROA
-7973.75
1995.80
.0001
Anatysis=Arsenic Comparison: A-B Area-differences P=.0001
DG-AND
0.30
1.97
.8785
DG-ROA
-1.34
1.96
.4950
DG-ORR
-3.05
1.96
.1197
NL-ORR
-0.30
2.26
.8945
CHI-BV
-1.08
1.96
.5834
CHI-K25
0.05
1.96
.9796
CHE-ORR
-9.28
1.96
.0001
CR-ORR
-14.23
2.26
.0001
CR-AKID
-9.74
1.96
.0001
CR-ROA
-8.14
1.96
-------�
G-33
Table G.6 (continued)
Formation- Difference Standard Significance
location estimate error level
Analysis=Arsenic Comparison: B-C Area-differences P=J2523
DG-AND
0.26
11.23
.9814
DG-ROA
-0.30
11.22
.9787
DG-ORR
-4.56
11.22
.6843
NL-ORR
-1.87
12.96
.8855
CHI-BV
-0.28
11.22
.9805
CHI-K25
0.43
11.22
.9698
CHE-ORR
-38.04
11.22
.0007
CR-ORR
-24.43
12.96
.0594
CR-AND
-4.65
11.22
.6786
CR-ROA
-12.06
11.22
.2824
Analysjs=Arsenic Comparison: A-C Area-differences P=.0186
DG-AND
0.57
11.15
.9589
DG-ROA
-1.64
11.15
.8833
DG-ORR
-7.61
11.15
.4948
NL-ORR
-2.17
12.88
.8664
CHI-BV
-1.35
11.15
.9036
CHI-K25
0.48
11.15
.9660
CHE-ORR
-47.31
11.15
.0001
CR-ORR
-38.67
12.88
.0027
CR-AND
-14.39
11.15
.1970
CR-ROA
-20.20
11.15
.0701
Analysis=Barium Comparison: A-B Area-differences P=.0001
DG-AND
4.40
12.36
.7218
DG-ROA
27.30
12.36
.0271
DG-ORR
5.70
12.36
.6446
NL-ORR
-9.83
12.36
.4265
CHI-BV
-34.05
12.36
.0059
CHI-K25
-13.23
12.36
.2845
CHE-ORR
26.40
12.36
.0326
CR-ORR
31.B0
12.36
.0101
CR-AND
78.61
12.36
.0001
CR-ROA
26.85
12.36
.0298
Analysis^ Barium Comparison: B-C Area-differences P=.0001
DG-AND
-8.35
9.24
.3663
DG-ROA
-4.18
9.24
.6515
DG-ORR
-12.65
9.24
.1711
NL-ORR
5.88
9.24
.5250
CHI-BV
-30.90
9.24
.0008
CHI-K25
4.78
9.24
.6054
CHE-ORR
-9.23
9.24
.3183
CR-ORR
28.40
9.24
.0021
CR-AND
19.98
9.24
.0307
CR-ROA
20.83
9.24
.0243
Anatysis=Barium Comparison: A-C Area-differences P=.0001
DG-AND
-3.95
13.06
.7624
DG-ROA
23.13
13.06
.0767
DG-ORR
-6.95
13.06
.5947
NL-ORR
-3.95
13.06
.7624
CHI-BV
-64.95
13.06
.0001
CHI-K25
-8.45
13.06
.5178
CHE-ORR
17.18
13.06
.1886
CR-ORR
60.20
13.06
.0001
CR-AND
98.59
13.06
.0001
CR-ROA
47.68
13.06
-------�
G-34
Tabic G.6 (continued)
Formation- Difference Standard Significance
location estimate error level
Analysis=Beryilium Comparison: A-B Area-differences P=.0001
DG-AND
-0.14
0.09
.1127
DG-ROA
-0.02
0.09
.8386
DG-ORR
0.08
0.09
.3670
NL-ORR
-0.23
0.09
.0088
CHI -BV
-0.45
0.09
.0001
CHI-K25
-0.58
0.09
.0001
CHE-ORR
-0.17
0.12
.1519
CR-ORR
-0.03
0.10
.7871
CR-AND
0.09
0.09
.3016
CR-ROA
0.01
0.09
.8689
Anafysjs=Beryllium Comparison: B-C Area-differences P=.0091
DG-AND
-0.22
0.09
.0169
DG-ROA
-0.20
0.09
.0263
DG-ORR
-0.27
0.09
.0032
NL-ORR
-0.16
0.09
.0710
CHI-BV
-0.48
0.09
.0001
CHI-K25
0.04
0.09
.6368
CHE-ORR
-0.04
0.13
. 7531
CR-ORR
-0.23
0.10
.0269
CR-AND
-0.05
0.09
.6171
CR-ROA
-0.13
0.09
.1419
Analysis=Bayllium Comparison: A-C Area-differences P=.0001
DG-AND
-0.35
0.11
.0009
DG-ROA
-0.22
0.11
.0401
DG-ORR
-0.19
0.11
.0768
NL-ORR
-0.39
0.11
.0003
CHI-BV
-0.92
0.11
.0001
CHI-K25
-0.54
0.11
.0001
CHE-ORR
-0.21
0.15
.1523
CR-ORR
-0.26
0.12
.0357
CR-AND
0.04
0.11
.6797
CR-ROA
-0.12
0.11
.2778
Analysis=Boron Comparison: A-B Area-differences P=.0002
DG-AND
0.21
6.17
.9726
DG-ROA
12.55
2.30
.0001
DG-ORR
-5.30
2.67
.0469
NL-ORR
-0.21
5.84
.9718
CHI-BV
0.00
3.78
1.000
CHI-K25
0.13
2.83
.9623
CHE-ORR
-1.47
2.58
.5685
CR-ORR
-0.05
2.79
.9856
CR-AND
0.19
2.77
.9459
CR-ROA
0.03
5.46
.9963
Analysis=Boron Comparison: B-C Area-differences P=.6958
DG-AND
-0.11
5.30
.9831
DG-ROA
-7.08
2.59
.0063
DG-ORR
-3.92
2.53
.1222
NL-ORR
0.06
5.29
.9902
CH1-BV
-0.03
4.15
.9952
CHI-K25
0.06
3.00
.9836
CHE-ORR
-1.01
2.80
.7185
CR-ORR
-0.09
3.05
.9777
CR-AND
-0.04
2.97
.9901
CR-ROA
-0.18
6.01
-------�
G-35
Table G.6 (continued)
Formaiion- Difference Standard Significance
location estimate error level
Analysjs=Boron Comparison: A-C Area-differences P=.0024
DG-AND
0.10
6.26
.9872
DG-ROA
5.13
2.22
.0209
DG-ORR
-12.25
2.72
.0001
NL-ORR
-0.14
5.70
.9804
CHI-BV
-0.03
3.81
.9947
CHI-K25
0.20
2.82
.9447
CHE-ORR
-2.36
2.53
.3507
CR-ORR
-0.14
2.83
.9619
CR-AND
0.15
2.79
.9568
CR-ROA
-0.15
5.58
.9786
Analysis=Calcium Comparison: A-B Area-differences P=.0001
DG-AND
644.50
151.53
.0001
DG-ROA
1226.00
303.06
.0001
DG-ORR
355.00
303.06
.2414
NL-ORR
-140.00
214.29
.5136
CHI-BV
-308.75
151.53
.0416
CH1-K25
213.13
151.53
.1596
CHE-ORR
-67.13
151.53
.6578
CR-ORR
185.00
151.53
.2221
CR-AND
524.13
151.53
.0005
CR-ROA
278.75
151.53
.0658
Analysis=Calciu m
Comparison:
B-C Area-differences P=.0001
DG-AND
338.75
275.12
.2182
DG-ROA
185.00
550.24
.7367
OG-ORR
113.50
389.08
.7705
NL-ORR
-109.50
389.08
.7784
CHI-BV
-2497.50
275.12
.0001
CH1-K25
-558.25
275.12
.0424
CHE-ORR
262.38
275.12
.3402
CR-ORR
172.00
317.68
.5882
CR-AND
74.75
275.12
.7859
CR-ROA
59.63
275.12
.8284
Analysis=Calcium Comparison: A-C Area-differences P=.0001
DG-AND
983.25
255.59
.0001
DG-ROA
1411.00
511.17
.0058
DG-ORR
389.33
295.13
.1871
NL-ORR
-368.00
511.17
.4716
CHI-BV
-2806.25
255.59
.0001
CHI-K25
-345.13
255.59
.1769
CHE-ORR
195.25
255.59
.4449
CR-ORR
328.67
295.13
.2654
CR-AND
598.88
255.59
.0191
CR-ROA
338.38
255.59
.1855
Anatysjs=Chromium Comparison: A-B Area-differences P=.0017
DG-AND
-7.05
2.84
.0132
DG-ROA
-11.81
2.84
.0001
DG-ORR
-12.41
2.84
.0001
NL-ORR
-9.60
3.28
.0035
CHI-BV
0.11
2.84
.9684
CHI-K25
-2.49
2.84
.3816
CHE-ORR
-14.58
2.86
.0001
CR-ORR
-13.45
2.84
.0001
CR-AND
-11.51
2.84
.0001
CR-ROA
-12.25
2.84
-------�
G-36
Table G.6 (continued)
Formation- Difference Standard Significance
location estimate error level
Analysjs=Chromium Comparison: B-C Area-differences P=.0001
DG-AND
-3.06
4.12
.4573
DG-ROA
0.26
4.12
.9492
DG-ORR
-8.99
4.12
.0292
NL-ORR
-26.07
4.76
.0001
CHI-BV
1.48
4.12
.7204
CHI-K25
5.68
4.12
.1684
CHE-ORR
2.63
4.12
.5241
CR-ORR
0.28
4.12
.9468
CR-AND
-3.20
4.12
.4374
CR-ROA
-11.01
4.12
.0075
Analysis=Chroniium Comparison: A-C Area-differences P=.0001
DG-AND
-10.11
4.35
.0200
DG-ROA
-11.55
4.35
.0079
DG-ORR
-21.40
4.35
.0001
NL-ORR
-35.67
5.02
.0001
CHI-BV
1.59
4.35
.7149
CHI-K25
3.19
4.35
.4633
CHE-ORR
-12.00
4.36
.0059
CR-ORR
-13.18
4.35
.0024
CR-AND
-14.71
4.35
.0007
CR-ROA
-23.26
4.35
.0001
Analysis=Cobalt Comparison: A-B Area-differences P=.1829
DG-AND
-0.86
3.73
.8171
DG-ROA
12.30
3.73
.0010
DG-ORR
6.26
3.73
.0931
NL-ORR
-2.55
3.73
.4942
CHI-BV
5.01
3.73
.1790
CHI-K25
3.65
3.73
.3278
CHE-ORR
8.92
3.76
.0178
CR-ORR
7.02
3.75
.0615
CR-AND
6.33
3.73
.0899
CR-ROA
2.46
3.81
.5187
Analysis=Cobalt Comparison: B-C Area-differences P=.1959
DG-AND
-1.61
4.79
.7361
DG-ROA
0.11
4.79
.9812
DG-ORR
-3.70
4.79
.4394
NL-ORR
0.83
4.79
.8631
CHI-BV
-11.43
4.79
.0170
CHI-K25
-1.80
4.79
.7068
CHE-ORR
-14.91
4.81
.0019
CR-ORR
-0.07
4.84
.9892
CR-AND
1.20
4.79
.8020
CR-ROA
1.11
4.86
.8189
Analysis=Cobalt Comparison: A-C Area-differences P=.0293
DG-AND
-2.48
4.24
.5596
DG-ROA
12.41
4.24
.0034
DG-ORR
2.56
4.24
.5458
NL-ORR
-1.73
4.24
.6843
CHI-BV
-6.41
4.24
.1306
CHI-K25
1.85
4.24
.6627
CHE-ORR
-5.92
4.24
.1631
CR-ORR
7.02
4.26
.0991
CR-AND
7.53
4.24
.0761
CR-ROA
3.59
4.30
-------�
G-37
Table G.6 (continued)
Formation-
Difference
Standard
Significance
location
estimate
error
level
Analysis=Copper
Comparison; A-B
Area-differences P=.0001
DG-AND
-4.09
2.05
.0465
DG-ROA
-3.35
2.05
. 10P.3
DG-ORR
-4.37
2.37
.0656
NL-ORR
-7.93
2.05
.0001
CHI-BV
-6.99
2.05
.0007
CHI-K25
-6.05
2.05
.0032
CHE-ORR
-13.36
2.12
.0001
CR-ORR
-12.69
2.10
.0001
CR-AND
-14.33
2.05
.0001
CR-ROA
-6.39
2.13
.0027
Analysis=Copper
Comparison: B-C
Area-differences P=3259
DG-AND
-9.89
2.93
.0008
DG-ROA
-10.45
2.93
.0004
DG-ORR
-6.25
3.39
.0651
NL-ORR
-5.68
2.93
.0531
CHI-BV
-5.45
2.93
.0632
CHI-<25
-1.15
2.93
.6951
CHE-ORR
-5.01
3.26
.1242
CR-ORR
-11.53
2.93
.0001
CR-AND
-8.40
2.93
.0042
CR-ROA
-4.95
2.96
.0941
Analysis=Copper Comparison; A-C Area-differences P=.0100
DG-AND
DG-ROA
DG-ORR
NL-ORR
CHI-BV
CHI-K25
CHE-ORR
CR-ORR
CR-AND
CR-ROA
-13.98
-13.80
-12.64
-13.60
-12 .44
-7.20
-18.46
-24.91
-22.73
-11.14
3.43
3.43
3.43
3.43
3.43
3.43
3.86
3.51
3.43
3.44
.0001
.0001
.0002
.0001
.0003
.0358
.0001
.0001
.0001
.0012
Analysis=Cyanide Comparison; A-B Area-differences P=.1157
DG-AND
DG-ROA
DG-ORR
NL-ORR
0.06
0.29
0.01
-0.00
0.05
0.06
0.06
0.06
.2940
.0001
.3330
.9833
Analysis=Cyanide Comparison; B-C Area-differences P=.7807
DG-AND
DG-ROA
DG-ORR
NL-ORR
0.07
0.00
-0.06
-0.00
0.04
0.08
0.03
0.06
.0895
.9770
.0894
1.000
Analysis=Cyanide Comparison; A-C Area-differences P=.0071
DG-AND 0.11 0.05 .0244
DG-ROA 0.30 0.06 .0001
DG-ORR -0.06 0.05 .2668
-------�
G-38
Table G.6 (continued)
Formation- Difference Standard Significance
location estimate error level
Analysis=Iron Comparison; A-B Area-differences P=.00G3
DG-AND
-13650.00
2787.30
.0001
DG-ROA
-7762.50
2787.30
.0054
DG-ORR
-7575.00
2787.30
.0066
NL-ORR
-14825.00
2787.30
.0001
CHI-BV
-12925.00
2787.30
.0001
CHI-K25
-23475.00
2787.30
.0001
CHE-ORR
-18687.50
2787.30
.0001
CR-ORR
-21025.00
2787.30
.0001
CR-AND
-13987.50
2787.30
.0001
CR-ROA
-12096.25
2787.30
.0001
Analysis=Iron Comparison: B-C Area-differences P=.0001
DG-AND
-3325.00
2385.76
.1634
DG-ROA
-5500.00
2385.76
.0211
OG-ORR
-5787.50
2385.76
.0153
NL-ORR
1100.00
2385.76
.6447
CHI-BV
-3700.00
2385 . 76
.1209
CHI-K25
1325.00
2385.76
.5786
CHE-ORR
-962.50
2385.76
.6866
CR-ORR
-8825.00
2385.76
.0002
CR-AND
-4450.00
2385.76
.0621
CR-ROA
-15087.50
2385.76
.0001
AnaJysis=Iron Comparison: A-C Area-differences P=.0002
OG-AND
-16975.00
3050.83
.0001
DG-ROA
-13262.50
3050.83
.0001
DG-ORR
-13362.50
3050.83
.0001
NL-ORR
-13725.00
3050.83
.0001
CHI-BV
-16625.00
3050.83
.0001
CHI-K25
-22150.00
3050.83
.0001
CHE-ORR
-19650.00
3050.83
.0001
CR-ORR
-29850.00
3050.83
.0001
CR-AND
-18437.50
3050.83
.0001
CR-ROA
-27183.75
3050.83
.0001
Anatysis=Lead Comparison: A-B Area-differences P=.4906
DG-AND
DG-ROA
DG-ORR
NL-ORR
CHI-BV
CHI-K25
CHE-ORR
CR-ORR
CR-AND
CR-ROA
9.81
13.14
9.44
5.20
16.57
14.98
7.65
40.20
6.69
8.69
10.37
10.37
10.37
11.97
11.97
10.37
10.37
10.37
10.37
10.37
.3441
.2052
.3628
.6641
.1665
.1487
.4607
.0001
.5190
.4022
Analysis=Lead Comparison: B-C Area-differences P=.0118
DG-AND
-2.32
5.99
.6987
DG-ROA
-5.43
5.18
.2953
DG-ORR
-3.40
5.18
.5119
NL-ORR
-23.87
5.99
.0001
CHI-BV
-16.80
5.18
.0012
CHI-K25
0.40
5.18
.9385
CHE-ORR
-15.45
5.18
.0029
CR-ORR
-15.10
5.18
.0036
CR-AND
0.43
5.18
.9347
CR-ROA
-5.59
5.18
-------�
G-39
Table G.6 (continued)
Formation- Difference Standard Significance
location estimate error level
Ana)ysis=Lead Comparison; A-C Area-differences P=_5296
DG-AND
4.23
14.02
.7626
DG-ROA
7.71
12.14
.5252
DG-ORR
6.04
12.14
.6189
NL-ORR
-18.67
14.02
.1830
CHI-BV
-5.00
14.02
.7213
CHI-K25
15.38
12.14
.2053
CHE-ORR
-7.80
12.14
.5205
CR-ORR
25.10
12.14
.0387
CR-AND
7.11
12.14
.5579
CR-ROA
3.10
12.14
.7984
Anatysjs=Lithium Comparison; A-B Area-differences P=.0001
DG-AND
-8.96
1.83
.0001
DG-ROA
-9.00
2.08
.0001
DG-ORR
-5.10
2.12
.0160
NL-ORR
-12.78
1.83
.0001
CHI-BV
-17.65
2.59
.0001
CHI-K25
-18.81
1.83
.0001
CHE-ORR
-8.26
1.94
.0001
CR-ORR
-4.35
1.86
.0197
CR-AND
-5.31
1.83
.0038
CR-ROA
-6.20
2.12
.0034
Anatysis=Lithium Comparison: B-C Area-differences P=.0633
DG-AND
-1.90
2.08
.3603
DG-ROA
-5.11
2.08
.0138
DG-ORR
-5.24
2.08
.0117
NL-ORR
0.18
2.08
.9329
CHI-BV
-8.25
2.94
.0050
CHI-K25
-4.38
2.08
.0352
CHE-ORR
-2.10
2.45
.3912
"CR-ORR
2.44
2.08
.2410
CR-AND
-0.65
2.08
.7543
CR-ROA
-2.07
2.40
.3889
Analysis=Lithium
Comparison; A-C
Area-differences P=.0001
DG-AND
-10.86
2.71
.0001
DG-ROA
-14.43
2.96
.0001
DG-ORR
-11.55
3.13
.0002
NL-ORR
-12.60
2.71
.0001
CHI-BV
-25.90
3.83
.0001
CHI-K25
; 23.19
2.71
.0001
CHE-ORR
-8.95
2.92
.0021
CR-ORR
-1.87
2.73
.4948
CR-AND
-5.96
2.71
.0276
CR-ROA
-8.27
3.13
.0082
Analysis=Magnesium Comparison: A-B Area-differences P=.0056
DG-AND
-176.25
244.55
.4711
DG-ROA
-407.50
244.55
.0957
DG-ORR
-198.75
244.55
.4164
NL-ORR
-725.00
244.55
.0030
CHI-BV
-937.50
244.55
.0001
CHI-K25
-1266.13
244.55
.0001
CHE-ORR
-457.81
244.55
.0612
CR-ORR
-121.25
244.55
.6200
CR-AND
-168.13
244.55
.4918
CR-ROA
-154.38
244.55
-------�
G-40
Table G.6 (continued)
Formation- Difference Standard Significance
location estimate error level
Aiialysis=Magncsium Comparison: B-C Area-differences P=.0001
DG-AND -680.00 150.62 .0001
DG-ROA -1081.25 150.62 .0001
DG-ORR -1130.00 150.62 .0001
NL-ORR -655.00 150.62 .0001
CHI-BV -932.50 150.62 .0001
CH1-K25 25.00 150.62 .8682
CHE-ORR 84.75 150.62 .5737
CR-ORR 111.50 150.62 .4591
CR-AND 6.00 150.62 .9682
CR-ROA 98.75 150.62 .5121
Analysis=Magnesium Comparison: A-C Area-differences P=.0001
DG-AND -856.25 269.44 .0015
DG-ROA -1488.75 269.44 .0001
DG-ORR -1328.75 269.44 .0001
NL-ORR -1380.00 269.44 .0001
CHI-BV -1870.00 269.44 .0001
CHI-K25 -1241.13 269.44 .0001
CHE-ORR -373.06 269.44 .1662
CR-ORR -9.75 269.44 .9711
CR-AND -162.13 269.44 .5474
CR-ROA -55.63 269.44 .8364
Anatysis—Manganese Comparison: A-B Area-differences P=.0Q11
DG-AND 389.00 246.03 .1138
DG-ROA 1526.88 246.03 .0001
DG-ORR 760.50 246.03 .0020
NL-ORR 344.25 246.03 .1617
CHI-BV 703.25 246.03 .0043
CHI-K25 1333.75 246.03 .0001
CHE-ORR 974.33 246.03 .0001
CR-ORR 923.85 246.03 .0002
CR-AND 1581.33 246.03 .0001
CR-ROA 805.14 246.03 .0011
Analysis=Manganese Comparison: B-C Area-differences P=.4209
DG-AND -275.63 227.61 .2259
DG-ROA 64.18 227.61 .7780
DG-ORR -165.38 227.61 .4675
NL-ORR -38.25 227.61 .8665
CHI-BV -286.75 227.61 .2077
CHI-K25 -356.00 227.61 .1178
CH?-ORR -501.B0 227.61 .0275
CR-ORR 76.35 227.61 .7373
CR-AND 203.85 227.61 .3705
CR-ROA 69.66 227.61 .7596
Analysis=Manganese Comparison: A-C Area-differences P=.0001
DG-AND 113.38 244.80 .6433
DG-ROA 1591.05 244.80 .0001
DG-ORR 595.13 244.80 .0151
NL-ORR 306.00 244.80 .2113
CHI-BV 416.50 244.80 :S89
CHI-K25 977.75 244.80 .001
CHE-ORR 472.53 244.80 -536
CR-ORR 1000.20 244.80 .0001
CR-AND 1785.18 244.80 .0001
-------�
G-41
Table G.6 (continued)
Formation- Difference Standard Significance
location estimate error level
Anafysis=Mercury Comparison: A-B Area-differences P=.0001
DG-AND
0.03
0.05
.5308
DG-ROA
0.04
0.04
.3203
DG-ORR
0.18
0.03
.0001
NL-ORR
0.13
0.04
.0004
CHI-BV
0.11
0.04
.0016
CHI-K25
0.42
0.03
.0001
CHE-ORR
0.03
0.03
.4657
CR-ORR
0.05
0.03
.1079
CR-AND
-0.02
0.03
.4277
CR-ROA
-0.04
0.03
.2669
Analysis=Mercury Comparison; B-C Area-differences P=.0001
DG-AND
-0.00
0.09
.9733
DG-ROA
0.01
0.03
.6606
OG-ORR
0.10
0.03
.0010
NL-ORR
0.00
0.09
.9735
CHI-BV
-0.05
0.03
.1598
CHI-K25
-0.02
0.02
.2686
CHE-ORR
-0.07
0.02
.0017
CR-ORR
-0.15
0.02
.0001
CR-AND
-0.05
0.02
.0226
CR-ROA
-0.09
0.02
.0001
Analysis=Mcrcury Comparison: A-C Area-differences P=.0001
DG-AND
0.02
0.05
.7026
DG-ROA
0.05
0.05
.3577
DG-ORR
0.24
0.05
.0001
NL-ORR
0.13
0.04
.0024
CHI-BV
0.08
0.04
.0557
CHI-K25
0.39
0.04
.0001
CHE-ORR
-0.05
0.04
.2444
CR-ORR
-0.10
0.04
.0112
CR-AND
-0.07
0.04
.0688
CR-ROA
-0.12
0.04
.0018
Analysis=MotytxIenurn Comparison: A-B Area-differences P=.0360
DG-AND
-0.40
0.44
.3658
DG-ROA
-5.67
.
DG-ORR
-6.09
NL-ORR
-0.94
0.46
.0421
CHI-BV
-1.44
1.70
.3960
CHI-K25
-1.59
1.45
.2712
CHE-ORR
-1.39
1.91
.4660
CR-ORR
-2.17
0.25
.0001
CR-AND
-2.11
0.38
.0001
CR-ROA
-0.94
0.54
.0859
Anaiysis=Molybdenum Comparison: B-C Area-differences P=.0077
DG-AND
-0.18
0.39
.6405
DG-ROA
-4.62
DG-ORR
-5.16
.
NL-ORR
0.75
0.56
.1829
CHI-BV
1.41
1.10
.2012
CHI-K25
1.51
0.94
.1068
CHE-ORR
-0.01
0.57
.9855
CR-ORR
-0.66
0.30
.0290
CR-AND
0.26
0.38
.4948
CR-ROA
-1.68
0.45
-------�
G-42
Table G.6 (continued)
Formation- Difference Standard Significance
location estimate error level
Analysis=Molybdenum Comparison: A-C Area-differences P=.0276
DG-AND
-0.52
0.44
.2336
DG-ROA
-4.93
.
DG-ORR
-5.52
NL-ORR
-0.05
1.71
.9767
CHI-BV
-0.00
71.12
1.000
CHI-K25
0.02
86.72
.9998
CHE-ORR
-1.33
1.18
.2574
CR-ORR
-2.71
0.30
.0001
CR-AND
-1.78
0.69
.0096
CR-ROA
-2.12
0.42
.0001
Analysis=Nk±el Comparison: A-B Area-differences P=.0171
DG-AND
-3.43
1.99
.0852
DG-ROA
-1.13
1.99
.5718
DG-ORR
1.95
1.99
.3270
NL-ORR
-3.60
1.99
.0704
CHI-BV
-9.13
1.99
.0001
CHI-K25
-3.98
1.99
.0457
CHE-ORR
-6.38
2.92
.0287
CR-ORR
-4.08
2.05
.0473
CR-AND
-6.50
2.02
.0013
CR-ROA
-4.84
2.24
.0306
Analysis=Nicfcel Comparison: B-C Area-differences P=.0001
DG-AND
-5.04
1.83
.0059
DG-ROA
-9.14
1.83
.0001
DG-ORR
-6.09
1.83
.0009
NL-ORR
-3.75
1.83
.0405
CHI-BV
-9.33
1.83
.0001
CHI-K25
-1.18
1.83
.5209
CHE-ORR
-17.40
2.08
.0001
CR-ORR
-4.05
1.83
.0269
CR-AND
-2.43
1.83
.1852
CR-ROA
-2.94
2.04
.1502
Analysis=Nk±el Comparison: A-C Area-differences P=.0018
DG-AND
-8.46
2.93
.0038
DG-ROA
-10.26
2.93
.0005
DG-ORR
-4.14
2.93
.1576
NL-ORR
-7.35
2.93
.0121
CHI-BV
-18.45
2.93
.0001
CHI-K25
-5.15
2.93
.0786
CHE-ORR
-19.35
3.10
.0001
CR-ORR
-8.45
3.01
.0050
CR-AND
-9.04.
2.95
.0022
CR-ROA
-7.33
3.12
.0187
Anafysis=Potassium Comparison:
A-B Area-differences
DG-AND
73.75
212.77
.7289
DG-ROA
-461.75
212.77
.0300
DG-ORR
-196.25
212.77
.3564
NL-ORR
-755.00
212.77
.0004
CHI-BV
-837.50
212.77
.0001
CH1-K25
-2202.50
212.77
.0001
CHE-ORR
-954.21
217.42
.0001
CR-ORR
-233.25
212.77
.2730
CR-AND
-347.13
212.77
.1028
CR-ROA
-214.41
246.09
-------�
G-43
Table G.6 (continued)
Formation- Difference Standard Significance
location estimate error level
Anafysis=Potassium Comparison: B-C Area-differences P=.0001
DG-AND -711.25 180.51 .0001
DG-ROA -693.75 180.51 .0001
DG-ORR -551.25 180.51 .0023
NL-ORR -1315.00 180.51 .0001
CHI-BV -80.00 180.51 .6576
CHI-K25 130.00 180.51 .4714
CHE-ORR -128.25 180.51 .4774
CR-ORR -£06.50 180.51 .2526
CR-AND -157.25 180.51 .3837
CR-ROA -10.00 208.44 .9617
Analysis=Potassium Comparison: A-C Area-differences P=.0001
DG-AMD -637.50 239.35 .0077
DG-ROA -1155.50 239.35 .0001
DG-ORR -747.50 239.35 .0018
NL-ORR -2070.00 239.35 .0001
CHt-BV -917.50 239.35 .0001
CHI-<25 -2072.50 239.35 .0001
CHE-ORR -1083.71 243.45 .0001
CR-ORR -439.75 239.35 .0662
CR-AND -504.38 239.35 .0351
CR-ROA -224.27 276.72 .4177
Analysis=Silicon Comparison: A-B Area-differences P=.0O81
DG-AND -20.00 28.23 .4786
DG-ROA -39.50 28.23 .1617
DG-ORR 0.63 28.23 .9823
NL-ORR 1.50 28.23 .9576
CHI-BV -43.00 39.92 .2814
CHI-K25 -154.13 28.23 .0001
CHE-ORR -61.63 28.23 .0290
CR-ORR -30.00 56.46 .5951
CR-AND -54.88 28.23 .0519
CR-ROA -1.00 56.46 .9859
Analysis=Sflicon Comparison: B-C Area-differences P=J>950
DG-AND 25.75 42.60 .5456
DG-ROA 99.13 42.60 .0200
DG-ORR -11.13 42.60 .7940
NL-ORR -46.75 42.60 .2725
CHI-BV 56.00 60.25 .3527
CHI-K25 39.00 42.60 .3600
CHE-ORR 13.88 42.60 .7447
CR-ORR 26.00 85.21 .7603
CR-AND 1.25 42.60 .9766
CR-ROA -16.00 85.21 .8511
Anafysis=Silicon Comparison: A-C Area-differences P=.0250
DG-AND 5.75 31.63 .8558
DG-ROA 59.63 31.63 .0594
DG-ORR -10.50 31.63 .7399
NL-ORR -45.25 31.63 .1526
CHI-BV 13.00 44.73 .7713
CHI-K25 -115.13 31.63 .0003
CHE-ORR -47.75 31.63 .1311
CR-ORR -4.00 63.26 .9496
CR-AND -53.63 31.63 .0900
-------�
G-44
Table G.6 (continued)
Formation- Difference Standard Significance
location estimate error level
Analysis=Sodium Comparison; A-B Area-differences P=3239
DG-AND
0.00
0.00
DG-ROA
-121.59
391926
.9998
DG-ORR
0.00
0.00
NL-ORR
0.00
0.00
CHI-BV
-24.88
16.78
! 1383
CHI-IC25
-28.13
16.78
.0938
CHE-ORR
4.25
16.78
.8001
CR-ORR
-1.39
17.63
.9371
CR-AND
23.38
16.78 •
.1637
CR-ROA
7.13
16.78
.6712
Analysis=Sodium Comparison; B-C Area-differences P=.8503
DG-AND
0.00
0.00
DG-ROA
-99.87
336833
!9998
DG-ORR
0.00
0.00
NL-ORR
0.00
0.00
CHI -BV
-4. 50
16.48
!7848
CHI-K25
18.50
16.48
.2615
CHE-ORR
-11.75
16.48
.4758
CR-ORR
-2.00
16.48
.9034
CR-AND
-5.50
16.48
.7385
CR-ROA
-16.25
16.48
.3240
Sodium
Comparison; A-C
Area-differences
DG-AND
0.00
0.00
DG-ROA
-99.04
378275
.9998
DG-ORR
0.00
0.00
NL-ORR
0.00
0.00
CHI-BV
-29.38
16.44
^ 0740
CHI-K25
-9.63
16.44
.5583
CHE-ORR
-7.50
16.44
.6483
CR-ORR
-4.72
17.52
.7875
CR-AND
17.88
16.44
.2769
CR-ROA
-9.13
16.44
.5789
Strontium
Comparison: A-B
Area-differences
DG-AND
1.95
1.76
.2674
DG-ROA
0.53
1.76
.7652
DG-ORR
1.43
2.03
.4802
NL-ORR
-1.10
1.76
.5315
CHI-BV
-1.43
2.49
.5666
CHI-IC25
-7.23
1.76
.0001
CHE-ORR
-0.81
1.81
.6570
CR-ORR
1.54
1.76
.3806
CR-AND
2.64
1.76
.1336
CR-ROA
1.23
2.03
.5435
^Strontium
Comparison; B-C
Area-differences
DG-AND
0.38
1.37
.7846
DG-ROA
0.45
1.37
.7430
DG-ORR
-1.55
1.37
.2587
NL-ORR
0.20
1.37
.8841
CHI-BV
-6.40
1.94
.0010
CHI-IC25
5.50
1.37
.0001
CHE-ORR
2.30
1.40
.1010
CR-ORR
1.77
' .38
.1986
CR-AND
0.99
1.37
.4729
CR-ROA
0.85
1.58
-------�
G-45
Tabic G.6 (continued)
Formation- Difference Standard Significance
location estimate error level
Anafysis=Strontium Comparison: A-C Area-differences P=.0001
DG-AND
2.33
0.84
.0059
DG-ROA
0.98
0.84
.2478
DG-ORR
-0.40
0.97
.6813
NL-ORR
-0.90
0.84
.2860
CHI-BV
-7.83
1.19
.0001
CHI-K25
-1.73
0.84
.0409
CHE-ORR
1.53
0.88
.0810
CR-ORR
3.31
0.85
.0001
CR-AND
3.62
0.84
.0001
CR-ROA
2.08
0.97
.0325
Analysis—Sulfate Comparison: A-B Area-differences P=.0225
DG-AND
DG-ROA
DG-ORR
NL-ORR
CHI-BV
CHI-K25
CHE-ORR
CR-ORR
CR-AND
CR-ROA
¦27.75
-64.96
-12.63
•103.55
22.65
48.38
25.41
25.18
60.33
-1.69
34.90
34.90
40.30
34.90
34.90
34.90
34.90
34.90
34.90
34.90
. 4265
.0627
.7539
.0030
.5163
.1657
.4665
.4707
.0839
.9614
Analysis=SuI£ate Comparison: B-C Area-differences ¥=2732
DG-ANO
DG-ROA
DG-ORR
NL-ORR
CHI-BV
CHI-K25
CHE-ORR
CR-ORR
CR-AND
CR-ROA
24.83
87.45
-30.15
84.03
36.30
84.78
33.84
35.29
19.00
52.44
32.89
32.89
32.89
32.89
32.89
32.89
32.90
32.91
32.89
32.90
.4504
.0078
.3593
.0106
.2697
.0099
.3037
.2837
.5635
.1110
Analysis=Sul£ate Comparison: A-C Area-differences P=.0001
DG-AND
¦2.93
20.33
.8856
DG-ROA
22.49
20.33
.2686
DG-ORR
-42.47
23.47
.0704
NL-ORR
-19.53
20.33
.3368
CHI-BV
58.95
20.33
.0037
CHI-K25
133.15
20.33
.0001
CHE-ORR
59.24
20.35
.0036
CR-ORR
60.38
20.36
.0030
CR-AND
79.33
20.33
.0001
CR-ROA
50.67
20.34
.0127
Analysis=Vanadium Comparison: A-B Area-differences P=.0001
DG-ANO
-14.56
3.69
.0001
DG-ROA
-7.08
3.69
.0549
DG-ORR
-4.28
4.26
.3142
NL-ORR
-13.65
3.69
.0002
CHI-BV
-7.71
3.69
.0364
CHI-K25
-17.28
3.69
.0001
CHE-ORR
-30.59
3.69
.0001
CR-ORR
-37.10
3.69
.0001
CR-AND
-22.75
3.69
.0001
CR-ROA
-27.35
3.69
-------�
G-46
Table G.6 (continued)
Formation- Difference Standard Significance
location estimate error level
Analysis^ Vanadium Comparison: B-C Area-differences P=.0001
DG-AND
2.19
3.26
.5023
DG-ROA
4.34
3.26
.1834
DG-ORR
-8.23
3.77
.0288
NL-ORR
4.68
3.26
.1516
CHI-BV
2.50
3.26
.4433
CHI-K25
7.75
3.26
.0175
CHE-ORR
3.78
3.26
.2470
CR-ORR
-15.78
3.26
.0001
CR-AND
-6.33
3.26
.0524
CR-ROA
-31.59
3.26
.0001
Vanadium
Comparison: A-C
Area-differences P—.OOOl
DG-AND
-12.38
4.61
.0073
DG-ROA
-2.74
4.61
.5528
DG-ORR
-12.66
4.61
.0060
ML-ORR
-6.98
4.61
.0516
CHI-BV
-5.21
4.61
.2583
CHI-K25
-9.53
4.61
.0389
CHE-ORR
-26.81
4.61
.0001
CR-ORR
-52.88
4.61
.0001
CR-AND
-29.08
4.61
.0001
CR-ROA
-58.94
4.61
.0001
Zinc
Comparison: A-B
Area-differences P=.0001
DG-AND
-1.35
12.98
.9172
DG-ROA
-0.55
12.98
.9662
DG-ORR
1.18
12.98
.9279
NL-ORR
-6.68
12.98
.6072
CHI-BV
-13.91
12.98
.2839
CHI-K25
-24.13
12.98
.0632
CHE-ORR
-97.04
12.98
.0001
CR-ORR
-43.58
12.98
.0008
CR-AND
-35.29
12.98
.0066
CR-ROA
-8.95
12.98
.4906
:Zinc
Comparison: B-C
Area-differences P=.OO01
DG-AND
-8.61
8.97
.3369
DG-ROA
-9.96
8.97
.2666
DG-ORR
-10.14
8.97
.2583
NL-ORR
-0.38
8.97
.9666
CHI-BV
-24.45
8.97
.0064
CHI-K25
6.23
8.97
.4876
CHE-ORR
-72.08
8.97
.0001
CR-ORR
-53.42
9.71
.0001
CR-AND
-11.33
8.97
.2067
CR-ROA
-14.78
8.97
.0994
:Zinc
Comparison: A-C
Area-differences P=.0001
DG-AND
-9.96
19.73
.6136
DG-ROA
-10.51
19.73
.5941
DG-ORR
-8.96
19.73
.6496
NL-ORR
-7.05
19.73
.7208
CHI -BV
-38.36
19.73
.0518
CHI-K25
-17.90
19.73
.3643
CHE-ORR
-169.11
19.73
.0001
CR-ORR
-94.59
20.67
.0001
CR-AND
-46.61
19.73
.0181
CR-ROA
-23.73
19.73
-------�
G-47
Table G.7. Comparisons of horizons for selected radionuclides
(Estimates and standard errors are in picocuries per gram.)
Formation- Difference Standard Significance
location estimate error level
Analysis=CESIUM-137 Type=GAMMA Comparison: A-B Area-differences P=.Q348
DG-AND
0.29
0.24
.2322
DG-ROA
0.78
0.24
.0014
DG-ORR
0.44
0.28
.1117
NL-ORR
0.53
0.24
.0285
CHI-BV
1.37
0.24
.0001
CHI-IC25
1.15
0.24
.0001
CHE-ORR
0.98
0.24
.0001
CR-ORR
0.84
0.24
.0005
CR-AND
0.45
0.24
.0600
CR-ROA
0.97
0.24
.0001
Analysis=CESIUM-137 Type—GAMMA Comparison: B-C Area-differences P=.9698
DG-AND
0.05
0.15
.7106
DG-ROA
0.00
0.15
.9740
DG-ORR
-0.08
0.17
.6426
NL-ORR
0.01
0.15
.9635
CHI-BV
0.03
0.15
.8548
CHI-K25
-0.01
0.15
.9546
CHE-ORR
0.00
0.15
.9819
CR-ORR
0.00
0.15
.9824
CR-AND
0.25
0.15
.0921
CR-ROA
0.00
0.15
.9896
Analysis—CESIUM-137 Type=GAMMA Comparison: A-C Area-differences P=.0242
DG-AND
0.34
0.22
.1256
DG-ROA
0.78
0.22
.0005
DG-ORR
0.37
0.26
.1582
NL-ORR
0.54
0.22
.0168
CHI-BV
1.40
0.22
.0001
CHI-K25
1.14
0.22
.0001
CHE-ORR
0.99
0.22
.0001
CR-ORR
0.84
0.22
.0002
CR-AND
0.70
0.22
.0017
CR-ROA
0.97
0.22
.0001
Analysis=POTASSIUM-40 Type=GAMMA Comparison: A-B Area-differences P=.Q557
DG-ANO
-6.50
2.54
.0106
DG-ROA
-6.71
2.54
.0083
DG-ORR
-3.00
3.60
.4041
NL-ORR
-1.50
2.54
.5553
CHI-BV
-6.99
2.54
.0060
CHI-<25
-12.92
2.54
.0001
CHE-ORR
-7.23
2.94
.0138
CR-ORR
-2.61
2.54
.3056
CR-AND
-2.77
2.54
.2760
CR-ROA
-9.61
2.94
.0011
Analyas=POTASSIUM-40 Type=GAMMA Comparison: B-C Area-differences P=.0111
DG-AND
3.63
4.08
.3742
DG-ROA
-4.63
4.08
.2569
DG-ORR
0.00
5.77
1.000
NL-ORR
-8.50
4.08
.0372
CHI-BV
4.87
4.08
.2325
CHI-K25
-15.60
4.71
.0009
CHE-ORR
0.22
5.77
.9692
CR-ORR
-0.43
4.08
.9170
CR-AND
0.93
4.08
.8206
CR-ROA
8.34
4.71
-------�
G^S
Table G.7 (continued)
Formation- Difference Standard Significance
location estimate error level
Analysis=POTASSnjM-40 Type=GAMMA Comparison: A-C Area-differences P=.0002
DG-AND
-2.88
i.00
.4721
DG-ROA
-11.34
4.00
.0046
DG-0RR
-3.67
4.62
.4271
NL-ORR
-10.00
4.00
.0124
CHI-BV
-2.12
4.00
.5964
CHI-<25
-28.63
4.62
.0001
CHE-ORR
-7.72
5.65
.1723
CR-ORR
-3.03
4.00
.4485
CR-AND
-1.85
4.00
.6445
CR-ROA
-1.10
4.00
.7835
Analysis=RADHJM-226 Type=ALPHA Comparisoo: A-B Area-differences P=.2614
DG-AND
0.11
0.30
.7099
DG-ROA
•0.04
0.30
.9013
DG-ORR
0.06
0.31
.8585
NL-ORR
-0.17
0.30
.5796
CHI-BV
0.00
0.30
.9918
CHI-K25
-0.02
0.30
.9492
CHE-ORR
-0.98
0.30
.0011
CR-ORR
-0.29
0.30
.3417
CR-AND
-0.58
0.30
.0558
CR-ROA
-0.25
0.30
.4021
Analysjs=RADnJM-226 Typc=AI-PHA Comparison; B-C Area-differences P =.4204
DG-AND
0.04
0.31
.9027
DG-ROA
0.08
0.31
.7879
DG-ORR
-0.03
0.32
.9181
NL-ORR
0.00
0.31
.9935
CHI-BV
-0.28
0.31
.3578
CHI-<25
-0.46
0.31
.1315
CHE-ORR
0.59
0.31
.0535
CR-ORR
-0.12
0.31
.7016
CR-AND
0.18
0.31
.5507
CR-ROA
-0.43
0.31
.1653
Analysis=RADIUM-226 Type=ALPHA Comparison: A-C Area-differences P=.4828
DG-AND
0.15
0.27
.5821
DG-ROA
0.05
0.27
.8689
DG-ORR
0.03
0.27
.9269
NL-ORR
-0.17
0.27
.5450
CHI-BV
-0.28
0.27
.3063
CHI-K25
-0.48
0.27
.0772
CHE-ORR
-0.39
0.27
.1508
CR-ORR
-0.41
0.27
.1374
CR-AND
-0.40
0.27
.1467
CR-ROA
-0.68
0.27
.0128
Analysts=THORIUM-228 Type=ALPHA Comparison: A-B Area-differences P=J2079
DG-AND
0.18
0.25
.4678
DG-ROA
0.07
0.25
.7869
DG-ORR
-0.65
0.25
.0098
NL-ORR
-0.05
0.25
.8413
CHI-BV
-0.22
0.25
.3891
CHI-K25
-0.38
0.25
.1252
CHE-ORR
-0.46
0.25
.0641
CR-ORR
-0.65
0.25
.0096
CR-AND
-0.36
0.25
.1503
CR-ROA
-0.50
0.25
-------�
Formation-
location
G-49
Table G.7 (continued)
Difference Standard Significance
estimate error level
AnaiysB=THORIUM-228 Type=ALP HA Comparison: B-C Area-differences P=3373
DG-AND
-0.05
0.21
.7982
DG-ROA
0.19
0.21
.3611
DG-ORR
0.32
0.21
.1224
NL-ORR
0.03
0.21
.9031
CHI-BV
0.06
0.21
.7878
CHI-K25
-0.50
0.21
.0159
CHE-ORR
-0.12
0.21
.5491
CR-ORR
-0.12
0.21
.5671
CR-AND
0.02
0.21
.9156
CR-ROA
-0.15
0.21
.4620
Analysis=THORIUM-228 Type=ALPHA Comparison: A-C Area-differences P=.0002
DG-AND
0.13
0.20
.5250
DG-ROA
0.26
0.20
.2081
DG-ORR
-0.33
0.20
.1052
Nl-ORR
-0.03
0.20
.9018
CHI-BV
-0.16
0.20
.4303
CH1-K25
-0.88
0.20
.0001
CHE-ORR
-0.59
0.20
.0039
CR-ORR
-0.76
0.20
.0002
CR-AND
-0.34
0.20
.0958
CR-ROA
-0.66
0.20
.0012
Analysis=THORIUM-230 Type=ALPHA Comparison: A-B Area-differences P=_3873
DG-AND
-0.05
0.19
.7907
DG-ROA
-0.11
0.19
.5714
DG-ORR
-0.36
0.19
.0637
Nl-ORR
-0.03
0.19
.8759
CHI-BV
-0.02
0.19
.9295
CHI-<25
-0.03
0.20
.8699
CHE-ORR
-0.47
0.19
.0155
CR-ORR
-0.43
0.19
.0240
CR-AND
-0.50
0.19
.0090
CR-ROA
-0.20
0.19
.2901
Analysis=THORIUM-230 Type=ALP HA Comparison: B-C Area-differences P=.0461
DG-AND
0.16
0.16
.2991
DG-ROA
0.31
0.16
.0504
DG-ORR
0.29
0.16
.0686
NL-ORR
0.12
0.16
.4432
CHI-BV
-0.02
0.16
.8945
CHI-K25
-0.20
0.17
.2515
CHE-ORR
-0.22
0.16
.1533
CR-ORR
-0.09
0.16
.5652
CR-AND
-0.06
0.16
.6991
CR-ROA
-0.33
0.16
.0337
AnatysB=THORIUM-230 Type=ALPHA Comparison: A-C Area-differences P=.0001
DG-AND
0.11
0.15
.4592
DG-ROA
0.20
0.15
.1898
DG-ORR
-0.07
0.15
.6362
NL-ORR
0.09
0.15
.5502
CHI-BV
-0.04
0.15
.8021
CHI-K25
-0.21
0.15
.1554
CHE-ORR
-0.69
0.15
.0001
CR-ORR
-0.52
0.15
.0005
CR-AND
-0.56
0.15
.0002
CR-ROA
-0.54
0.15
-------�
Formation-
location
G-50
Tabic G.7 (continued)
Difference Standard Significance
estimate error level
Analysis=THORIUM-232 Type=ALP HA Comparison; A-B Area-differences P=3434
DG-AND
-0.06
0.24
.8160
DG-ROA
-0.32
0.24
.1707
DG-ORR
-0.64
0.24
.0072
NL-ORR
0.03
0.24
.9158
CH1-BV
-0.14
0.24
.5501
CHI-K25
-0.71
0.24
.0027
CHE-ORR
-0.54
0.24
.0234
CR-ORR
-0.55
0.24
.0207
CR-AND
-0.41
0.24
.0829
CR-ROA
-0.47
0.24
.0475
Analysis=THORIUM-232 Type=ALPHA Comparison: B-C Area-differences P=.1332
DG-AND
0.02
0.17
.9289
DG-ROA
0.54
0.17
.0013
DG-ORR
0.18
0.17
.2842
NL-ORR
0.13
0.17
.4570
CHI-BV
-0.08
0.17
.6511
CHJ-K25
0.09
0.17
.6130
CHE-ORR
-0.05
0.17
.7587
CR-ORR
-0.03
0.17
.8467
CR-AND
0.08
0.17
.6341
CR-ROA
-0.25
0.17
.1383
Analysis ==THORIUM-232
%
II
5
Comparison:
A-C Ai
DG-AND
-0.04
0.20
.8426
DG-ROA
0.22
0.20
.2832
DG-ORR
-0.46
0.20
.0239
NL-ORR
0.15
0.20
.4566
CHI-BV
-0.22
0.20
.2810
CHI-K25
-0.62
0.20
.0020
CHE-ORR
-0.59
0.20
.0036
CR-ORR
-0.58
0.20
.0040
CR-AND
-0.33
0.20
.1016
CR-ROA
-0.72
0.20
.0004
Anatysis=THORIUM-234 Type=BETA Comparison: A-B Area-differences P=.000l
DG-AND
0.02
0.22
.9289
DG-ROA
0.09
0.26
.7182
DG-ORR
0.70
0.22
.0017
NL-ORR
0.32
0.22
.1597
CHI-BV
0.23
0.49
.6416
CHI-IC25
0.46
0.49
.3419
CHE-ORR
-0.19
0.40
.6286
CR-ORR
-0.03
0.31
.9192
CR-AND
-1.56
0.25
.0001
CR-ROA
0.09
0.49
.8554
Analysjs=THORIUM-234
I
PQ
II
8:
Comparison: B-C An
DG-AND
0.02
0.33
.9434
OG-ROA
0.00
0.39
1.000
DG-ORR
-0.23
0.33
.4845
NL-ORR
0.04
0.33
.9048
CHI-BV
-0.12
0.50
.8030
CHI-K25
0.15
0.57
.7995
CHE-ORR
0.03
0.44
.9503
CR-ORR
1.21
0.47
.0090
CR-AND
1.17
0.35
.0009
CR-ROA
-1.08
0.43
-------�
Formation-
location
G-51
Table G.7 (continued)
Difference Standard Significance
estimate error level
Anaiysjs=THORIUM-234 Type=BETA Comparison: A-C Area-differences P=.0001
DG-AND
0.04
0.21
.8323
DG-ROA
0.09
0.24
.6957
DG-ORR
0.47
0.21
.0222
NL-ORR
0.36
0.21
.0858
CHI-BV
0.09
0.67
.8884
CHI-K25
0.54
0.42
.1992
CHE-ORR
-0.17
0.33
.6412
CR-ORR
1.07
0.31
.0005
CR-AND
-0.68
0.26
.0076
CR-ROA
-1.13
0.26
.0001
Analysis=URANIUM-233/234 Type=ALP HA Comparison: A-B Area-differences P=.18Q5
DG-AND
0.02
0.29
.9521
DG-ROA
0.14
0.29
.6306
DG-ORR
-0.46
0.29
.1121
NL-ORR
0.24
0.29
.4186
CHI-BV
0.12
0.29
.6827
CHI-K25
0.04
0.29
.9019
CHE-ORR
-0.21
0.29
.4628
CR-ORR
-0.29
0.29
.3150
CR-AND
-0.52
0.29
.0740
CR-ROA
0.71
0.34
.0342
Analyse=URANTUM-233/2i4 Type=ALPHA Comparison: B-C Area-differences P=.Q567
DG-AND
0.04
0.21
.8382
DG-ROA
0.07
0.21
.7232
DG-ORR
0.73
0.21
.0004
NL-ORR
-0.10
0.21
.6246
CHI-BV
-0.17
0.21
.4156
CHI-<25
0.04
0.21
.8571
CHE-ORR
0.00
0.21
.9923
CR-ORR
-0.18
0.21
.3873
CR-AND
0.21
0.21
.3248
CR-ROA
-0.32
0.24
.1901
Analysis—URANTUM-233/234 Type=ALP HA Comparison: A-C Area-differences ¥=2651
DG-AND
0.06
0.23
.7948
DG-ROA
0.21
0.23
.3542
DG-ORR
0.27
0.23
.2419
Nl-ORR
0.13
0.23
.5625
CHI-BV
-0.05
0.23
.8267
CHI-K25
0.07
0.23
.7505
CHE-ORR
-0.21
0.23
.3587
CR-ORR
-0.47
0.23
.0406
CR-AND
-0.32
0.23
.1720
CR-ROA
0.28
0.23
.2245
AnalysB=URANTUM-235 Type=ALPHA Comparison: A-B Area-differences P=.2395
DG-AND
-0.01
0.53
.9814
DG-ROA
0.02
0.53
.9670
DG-ORR
-0.04
0.53
.9393
NL-ORR
0.01
0.53
.9895
CHI-BV
0.00
0.53
.9931
CHI-K25
-0.07
0.53
.8943
CHE-ORR
-1.93
0.53
.0003
CR-ORR
-0.05
0.53
.9230
CR-AND
-0.12
0.53
.8270
CR-ROA
-0.03
0.61
-------�
Formation-
location
G-52
Tabic G.7 (continued)
Difference Standard Significance
estimate error level
Analysts=URANTUM-235 Type=ALPHA Comparison: B-C Area-differences P=.2433
DG-AND
0.01
0.54
.9859
DG-ROA
-0.01
0.54
.9833
DG-ORR
0.06
0.54
.9125
NL-ORR
0.00
0.54
.9945
CHI-BV
-0.10
0.54
.8587
CHI-K25
0.06
0.54
.9150
CHE-ORR
1.92
0.54
.0003
CR-ORR
-0.02
0.54
.9695
CR-AND
0.01
0.54
.9874
CR-ROA
0.02
0.62
.9703
Analysis=URANIUM-215 Type=ALPHA Comparison; A-C Area-differences P=3855
DG-AND
-0.00
0.05
.9551
DG-ROA
0.01
0.05
.8307
DG-ORR
0.02
0.05
.7192
NL-ORR
0.01
0.05
.8362
CHI-BV
-0.09
0.05
.0793
CHI-K25
-0.01
0.05
.7988
CHE-ORR
-0.01
0.05
.8246
CR-ORR
-0.07
0.05
.1658
CR-AND
-0.11
0.05
.0375
CR-ROA
-0.12
0.05
.0221
Analysis=URANIUM-235 Type=GAMMA Comparison: A-B Area-differences P =.9938
DG-AND
0.01
0.01
.6541
DG-ROA
0.01
0.01
.6032
DG-ORR
0.02
0.02
.2926
NL-ORR
0.03
0.01
.0411
CHI-BV
-0.02
0.48
.9587
CH1-K25
0.01
2.82
.9979
CHE-ORR
-0.01
8.38
.9992
CR-ORR
0.01
2.48
.9972
CR-AND
-0.04
0.19
.8396
CR-ROA
-0.00
0.05
.95B6
Analysis=URANTUM-235 Type=GAMMA Comparison: B-C Area-differences P=.0001
DG-AND
0.02
0.01
.1078
DG-ROA
0.01
0.01
.5974
DG-ORR
0.02
0.01
.2126
NL-ORR
-0.00
0.01
.9037
CHI-BV
0.03
0.64
.9566
CHI-K25
-0.00
8.57
1.000
CHE-OP.R
0.01
75.25
.9999
CR-ORR
-0.13
0.02
.0001
CR-AND
0.01
5.31
.9986
CR-ROA
-0.08
0.02
.0001
Analysis= URANIUM-235 Type=GAMMA Comparison: A-C Area-differences P=.0001
DG-AND
0.02
0.01
.0241
DG-ROA
0.01
0.01
.2280
DG-ORR
0.04
0.01
.0009
NL-ORR
0.03
0.01
.0155
C HI-BV
0.01
?.14
.9422
CHI-<25
0.01
-5.24
.9999
CHE-ORR
0.00
56.07
1.000
CR-ORR
-0.14
0.02
.0001
CR-AND
-0.03
0.26
.9098
CR-ROA
-0.09
0.02
-------�
Formation-
location
G-53
Table G.7 (continued)
Difference Standard Significance
estimate error level
Analysb=URANIUM-238 Typc=ALPHA Comparison: A-B Area-differences P=.0820
DG-AND
-0.08
0.19
.6735
DG-ROA
0.15
0.19
.4405
DG-ORR
-0.28
0.19
.1465
NL-ORR
0.24
0.19
.2221
CHI-BV
0.01
0.19
.9524
CHI-K25
-0.03
0.19
.8718
CHE-ORR
-0.42
0.19
.0314
CR-ORR
-0.45
0.19
.0196
CR-AND
-0.48
0.19
.0123
CR-ROA
-0.15
0.22
.4892
AnaJysjs=URANTUM-238 Type=ALPHA Comparison: B-C Area-differences P=.0034
DG-AND
0.10
0.19
.5889
DG-ROA
0.05
0.19
.7766
DG-ORR
0.64
0.19
.0006
NL-ORR
-0.10
0.19
.5820
CHI-BV
-0.04
0.19
.8458
CHI-K25
0.01
0.19
.9677
CHE-ORR
0.21
0.19
.2645
CR-ORR
-0.29
0.19
.1203
CR-AND
0.34
0.19
.0662
CR-ROA
-0.52
0.21
.0151
Analysis=URANIUM-238 Type=ALP HA Comparison: A-C Area-differences P=.0001
DG-AND
0.02
0.12
.8804
DG-ROA
0.20
0.12
.1062
DG-ORR
0.36
0.12
.0042
NL-ORR
0.13
0.12
.2835
CHI-BV
-0.02
0.12
.8441
CH1-K25
-0.02
0.12
.8496
CHE-ORR
-0.21
0.12
.0942
CR-ORR
-0.74
0.12
.0001
CR-AND
-0.14
0.12
.2527
CR-ROA
-0.58
0.12
-------�
G-54
Table G.8. Summary statistics for ORR inorganics—overall
(Estimates and confidence bounds are in milligrams per kilogram. May be inappropriate
when areas have different median analyte concentrations.)
Because of the statistical sampling design, it is important not to use combined results when the data'
from the different formation-locations are significantly different, because the error estimates will be
inflated. If P-ORR < 0.01 or P-GRP < 0.01 ORR overall results should not be used. If P-CHICK
< .01, or P-DGN 0.01, or P-CRC < 0.01, then neither group nor the overall ORR results should be
used. If P-CHICK > 0.01 but P-DGN < 0.01, one might be justified in combining the Chickamauga
data, but not as it has been done here, because the Dismal Gap and Nolichucky data are also
combined. How to combine the data is complex, and should be done on an ad hoc, analyte-bv-analvte
basis.
Horizon N I D Median UCB95 X95 LTB9595
Aluminum
A
24
0
24
14900
17000
27800
22900
B
24
0
24
26500
29600
45500
38400
C
24
0
24
28500
32200
51800
42900
Antimony
A
24
0
1
0.0812
0.622
0.338
0.172
B
24
0
4
0.1280
0.365
0.808
0.413
C
24
0
5
0.1860
0.365
0.785
0.466
Arsenic
A
23
0
23
9.04
11.1
24.4
17.8
B
22
0
22
11.20
14.6
38.7
25.8
C
23
0
22
13.00
18.8
75.4
42.8
Barium
A
24
0
24
74.8
84.0
132
110
B
24
0
24
70.2
82.5
156
121
C
24
0
24
56.0
78.1
285
171
Beryllium
A
24
0
21
0.704
0.81
1.38
1.11
B
24
0
21
0.884
1.05
1.98
1.53
C
24
0
21
1.080
1.26
2.24
1.78
Boron
A
21
2
1
1.55
5.48
11.1
5.13
B
22
1
4
1.64
6.18
28.9
9.76
C
22
1
5
2.19
6.50
33.9
12.10
Cadmium
A
24
0
0
B
24
0
0
C
24
0
0
Calcium
A
21
0
21
893
1140
2700
1860
B
21
0
21
798
1070
3000
1930
C
21
0
21
829
1280
6110
3130
Chromium
A
23
1
22
23.3
27.0
46.7
37.3
B
23
0
23
33.3
35.6
45.6
41.2
C
24
0
24
35.2
39.2
60.0
-------�
G-55
Table G.8 (continued)
Jrizon
N
I
D
Median
UCB95
X95
LTB959:
Cobalt
A
24
0
24
13.80
15.80
27.5
22.1
B
24
1
18
6.78
9.52
34.0
20.0
C
24
0
20
9.39
14.10
65.1
34.5
Copper
A
24
1
20
9.89
11.9
24.3
18.2
B
23
0
23
19.30
20.9
28.0
24.9
c
24
0
23
25.40
27.6
38.3
33.7
Cyanide
A
21
0
1
0.0179
0.528
0.305
0.071
B
22
0
2
0.0572
0.287
0.538
0.192
C
21
0
2
0.0499
0.321
0.619
0.198
Iron
A
24
0
24
23200
27100
49400
39000
B
24
0
24
40900
44100
59200
52700
C
24
0
24
44000
46800
59700
54300
Lead
A
22
0
22
25.5
30.7
60.3
45.6
B
23
0
23
14.5
16.8
30.0
23.8
C
24
0
24
23.4
28.2
58.4
43.9
Lithium
A
21
1
16
7.3
9.93
28.9
17.8
B
22
0
21
17.1
21.60
50.8
35.5
C
22
1
19
17.0
23.20
72.3
44.6
Magnesium
A
24
0
24
1070
1380
3770
2540
B
24
0
24
1680
2110
5160
3630
C
24
0
24
1820
2440
7620
4870
Manganese
A
24
0
24
1020
1190
2140
1700
B
24
0
24
229
291
740
513
C
24
0
24
284
408
1670
959
Mercury
/>
24
1
22
0.210
0.252
0.506
0.382
B
24
0
12
0.104
0.116
0.157
0.137
C
24
0
15
0.120
0.146
0.279
0.211
Molybdenum
A
22
0
1
1.15
1.92
1.80
1.36
B
22
0
7
1.88
2.55
4.67
3.25
C
22
1
c
1.64
2.46
4.81
3.14
Nickel
A
24
1
19
12.8
15.4
31.4
23.4
B
24
0
21
17.5
20.1
33.8
27.4
C
24
0
23
23.3
26.4
42.6
35.2
Osmium
A
2
0
0
B
3
0
0
C
3
0
0
-------�
G-56
Table G.8 (continued)
Horizon
N
I
D
Median
UCB95 '
X95
LTB9595
Potassium
A
24
0
20
1030
1480
5880
3330
B
24
0
24
1970
2490
6160
4310
C
24
0
24
2290
2860
6820
4840
Selenium
A
22
1
16
0.605
0.677
0.992
0.836
B
23
0
16
0.628
0.720
1.150
0.934
C
23
0
14
0.526
0.679
1.560
1.070
Silicon
A
19
0
19
468
538
859
694
B
19
0
19
504
592
1020
798
C
19
0
19
507
586
950
762
Silver
A
24
0
0
B
24
0
0
C
24
0
0
Sodium
A
16
0
15
372
391
456
421
B
16
0
16
' 383
407
490
446
C
16
0
16
383
406
484
443
Strontium
A
21
0
19
5.00
6.48
16.1
10.8
B
22
0
19
5.06
7.02
23.0
13.8
C
22
0
16
2.44
5.02
61.7
19.8
Sulfate
A
23
0
23
70.3
92.8
267
174
B
24
0
24
75.4
92.9
210
152
C
24
1
20
31.4
45.0
178
102
Thallium
A
22
0
1
0.0449
1.420
0.428
0.148
B
22
0
i
0.3010
0.420
0.604
0.459
C
22
1
6
0.3780
0.463
0.684
0.549
Vanadium
A
24
0
24
32.5
34.9
46.2
41.4
B
23
0
23
51.0
55.2
74.2
65.8
C
24
0
24
50.7
55.4
78.2
68.3
Zinc
A
24
0
24
42.0
46.5
69.2
59.1
B
24
0
24
66.4
76.4
132.0
107.0
C
24
0
23
81.7
98.8
205.0
-------�
G-57
G.9. Summaiy statistics for ORR radionuclides—overall
(Estimates and confidence bounds are picocuries per gram. May be inappropriate
when areas have different median analyte concentrations.)
)nzon
N
I
D
Median UCB95
X95
LTB9595
Cesium-137 (Gamma)
A
23
0
23
0.82200 0.9870
1.5400
1.26000
B
23
0
6
0.00697 0.0185
0.0911
0.03550
C
23
0
2
0.00007 0.0516
0.0751
0.00506
Curium-247 (Gamma)
A
23
0
2
0.00552 0.00649
0.00716
0.00579
B
3
0
0
m .
.
.
C
3
' 0
0
•
•
Neptunium-237 (Alpha)
A
17
2
14
0.0885 0.102
0.155
0.126
B
1
0
0
•
Plutonium-238 (Alpha)
A
23
7
6
0.0494 0.0626
0.125
0.0907
B
2
0
2
0.0853 0.0991
0.105
0.0838
C
2
0
0
•
-
Plutonium-239/240 (Alpha)
A
22
5
6
0.0231 0.028
0.0454
0.0346
B
2
0
1
.
C
2
0
0
•
Potassium-40 (Gamma)
A
24
0
24
8.82 11.1
27.4
19.2
B
21
0
21
14.90 17.8
33.9
25.7
C
20
0
20
16.10 20.8
50.6
34.1
Radium-226 (Alpha)
A
24
1
23
0.924 1.03
1.57
1.33
B
2;
0
23
1.080 1.26
2.28
1.81
C
24
0
24
1.140 1.31
2.2-4
1.81
Strontium-90 (Beta)
A
22
0
1
0.27 1.49
0.823
0.501
Technetium-99 (Beta)
A
35
0
6
0.684 1.17
2.32
1.6
Thorium-228 (Alpha)
A
24
0
23
0.824 1.06
2.83
1.91
B
24
0
24
1.290 1.45
2.30
1.92
C
24
0
23
1.270 1.59
3.88
2.71
Thorium-230 (Alpha)
A
24
0
24
0.895 0.99
1.47
1.26
B
24
0
23
1.080 1.23
2.02
1.66
C
24
0
24
1.080 1.26
2.29
-------�
G-58
Table G.9 (continued)
Horizon
N
I
D
Median UCB95
X95
LTB9595
Thorium-232 (Alpha)
A
24
0
24
0.917 1.05
1.75
1.43
B
24
0
24
1.320 1.50
2.44
2.01
c
24
0
24
1.270 1.49
2.79
2.18
Thorium-234 (Beta)
A
20
2
10
1.070 1.310
2.39
1.77
B
20
1
9
0.703 0.998
2.50
1.55
C
20
1
8
0.769 0.964
1.67
1.24
Thorium-234 (Gamma)
A
3
0
1
0.909 1.68
1.76
0.893
B
3
0
1
0.739 1.20
1.24
0.728
C
3
0
1
1.010 2.27
2.49
0.989
Total Uranium (Alpha)
A
22
0
22
1.430 1.810
4.26
2.980
B
2
0
2
0.316 0.972
1.55
0.276
C
2
0
2
0.299 1.650
3.35
0.244
Tritium (Tritium)
A
33
3
9
0.0275 0.0381
0.0978
0.0656
Uranium-233/234 (Alpha)
A
24
0
24
1.16 1.24
1.64
1.47
B
24
0
24
1.19 1.35
2.16
1.79
C
24
0
24
1.14 1.30
2.12
1.75
Uranium-235 (Alpha)
A
24
3
19
0.0721 0.0871
0.179
0.134
B
24
1
21
0.1030 0.1530
0.698
0.381
C
24
1
21
0.0767 0.1010
0.291
0.191
Uranium-235 (Gamma)
A
23
0
8
0.0725 0.0850
0.117
0.0940
B
23
0
7
0.0503 0.0661
0.107
0.0748
C
24
0
9
0.0497 0.0672
0.132
0.0901
Uranium-236 (Alpha)
A
24
1
2
0.007310 0.0136
0.0207
0.013500
B
24
0
1
0.000004 3.5600
0.0134
0.000305
C
24
0
1
•
Uranium-238 (Alpha)
A
24
0
24
1.18 1.25
1.57
1.44
B
24
0
24
1.28 1.43
2.18
1.84
C
24
0
24
1.18 1.35
2.30
1.87
Uranium-238 (Gamma)
A
16
0
0
B
16
0
0
.
C
16
0
1
0.0341 274
12!9
-------�
G-59
G.10. Summary statistics for ORR PAHs—overall
(Estimates and confidence bounds are micrograms per kilogram. May be
inappropriate when areas have different median analyte concentrations.)
Analysis
N
I
D
Median
UCB95
X95
LTB9595 .
Acenaphthene
u
0
8
1.
,420
1.
,89
3.
,31
2.21
Acenaphthylene
41
0
4
0.
,715
28.
,40
227.
.00
45.00
Anthracene
27
0
25
0.
,880
1.
,16
3.
,51
2.31
Benzo [a]anthracene
37
0
37
3.
,080
3.
.87
12.
.30
8.69
Benzo[a]pyrene
39
0
39
3.
.740
4.
.43
10.
,70
8.28
Benzo[b]fIuoranthene
32
0
30
3.
,580
4.
.45
12.
.00
8.64
Benzo[g,h,i]perylene
32
0
32
3.
.500
4.
.26
10.
.60
7.85
Benzo [k] i Iuoranthene
AO
0
40
2.
.040
2.
.43
6,
.03
4.64
Chrysene
23
0
17
4,
.080
5.
.36
13,
.90
9.26
D ibenzo [a,h]anthracene
19
0
16
0,
.909
1,
.24
3,
.16
1.99
FIuoranthene
38
0
38
5.
.280
6.
.56
20,
.10
14.40
Fluorene
21
0
14
0,
.994
1,
.44
4
.40
2.60
I ndervo [1, 2,3 - c, d] pyrene
42
0
16
9
.200
11
.70
26
.70
20.30
Naphthalene
24
0
19
4
.790
7
.27
31
.30
17.10
Phenanthrene
43
0
43
5
.220
6
.13
14
.90
11.70
Pyrene
37
0
37
6
.470
8
.14
26
.20
-------�
Appendix H
-------�
H-3
Table H.1. NAA analysis results for composite soil samples
A honzon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Location =AMD; Formation=COPPER RIDGE; Site=31,32,36; Sample type—Regular;
A = 7059; 8=7062; C=7065; A lab split =''
Aluminun
mg/kg
19700.00
42900.00
69600.00
Ant i mony
mg/kg
0.89
0.95
Arsenic
mg/kg
21.60
J
24.10
J
Bariun
mg/kg
100.00
J
100.00
J
53.10
J
Cerium
mg/kg
35.60
J
20.80
J
21.00
J
Cesium
mg/kg
1.60
3.71
3.51
Chromiun
mg/kg
28.80
J
40.00
J
47.60
J
Cobalt
mg/kg
8.65
J
4.02
J
3.01
J
Europium
mg/kg
0.55
0.32
0.27
Gal I iun
mg/kg
15.30
J
16.80
J
Gold
mg/kg
0.01
0.01
Hafniun
mg/kg
6.80
J
5.84
J
3.80
J
I ron
mg/kg
10600.00
J
23100.00
J
25300.00
J
Lanthanun
mg/kg
15.20
J
17.00
J
Lutetium
mg/kg
0.22
J
0.24
J
0.16
J
Magnesium
mg/kg
1680.00
2670.00
3760.00
Manganese
mg/kg
1280.00
115.00
77.00
Mercury
mg/kg
0.71
U
0.92
U
0.95
U
Potass i nil
mg/kg
6330.00
7430.00
Rubidiun
mg/kg
798.00
u
404.00
U
407.00
u
Seandiun
mg/kg
3.18
7.07
8.52
SiIver
mg/kg
1.35
J
1.91
J
2.02
J
Sodium
mg/kg
205.00
148.00
Terbium
mg/kg
0.22
0.19
0.30
Thorium-232
mg/kg
5.19
J
7.72
J
8.48
J
Titaniun
mg/kg
4210.00
3790.00
3850.00
Uraniun-235
mg/kg
0.02
0.03
0.03
Uranium-238
mg/kg
4.83
4.78
Vanadiun
mg/kg
31.80
68.10
91.80
ytterbiun
mg/kg
1.66
1.27
1.18
u
Zinc
mg/kg
56.20
97.10
124.00
Locaiion=AND; Formation=COPPER RIDGE; Site=33.34,35; Sample type=Regular,
A = 7050; B=7053; C=7056; A lab split=' '
Aluninun
mg/kg
22300.00
59900.00
66800.00
Ant imony
mg/kg
0.87
0.89
1.16
Arsenic
mg/kg
15.60
J
20.10
J
30.90 "
J
Bariun
mg/kg
495.00
J
76.30
J
80.50
J
Ceriun
mg/kg
41.10
J
24.70
J
26.60
J
Cesiun
mg/kg
1.66
3.78
4.10
Chromiun
mg/kg
32.80
J
44.80
J
52.40
J
Cobalt
mg/kg
9.39
J
5.58
J
4.15
J
Europiun
mg/kg
0.50
0.31
0.25
Ga11iim
mg/kg
7.45
J
15.80
J
16.00
J
Gold
mg/kg
0.01
0.01
0.01
Hafnium
mg/kg
7.74
J
5.20
J
4.18
J
Iron
mg/kg
15500.00
J
23900.00
J
33400.00
J
Lanthanum
mg/kg
17.00
J
15.10
J
20.90
J
Lutetium
mg/kg
0.23
J
0.16
J
0.13
J
Magnesiun
mg/kg
2960.00
2240.00
3350.00
Manganese
mg/kg
1440.00
303.00
121.00
Mercury
mg/kg
0.73
U
0.82
U
0.96
U
Potassiun
mg/kg
3730.00
5360.00
5&90.00
Rubidiun
mg/kg
1430.00
U
498.00
u
628.00
u
Scandiun
mg/kg
3.63
6.89
8.78
Si Iver
mg/kg
1.41
J
1.73
J
2.01
J
Sod iun
mg/kg
435.00
256.00
168.00
Terbiun
mg/kg
0.44
0.22
0.37
u
Thorium-232
mg/kg
6.50
J
7.94
J
10.20
J
Titaniun
mg/kg
5160.00
4720.00
3980.00
Uraniun-235
mg/kg
0.03
0.03
0.03
Uraniun-238
mg/kg
4.45
3.54
4.04
Vanadiun
mg/kg
39.10
86.80
97.00
Ytterbiun
mg/kg
1.88
1.02
2.17
Zinc
mg/kg
57.10
96.80
127.00
-------�
H-4
Table H.1 (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Location =AND; Formarion=COPPER RIDGE; Site—37,38,41; Sample type=Regular,
A=7077; B=7080; C=7083; A lab splits' '
Muni nun
mg/
9
31600.00
58900.00
Antimony
mg/
9
0.60
5.14
1.45
Arsenic
mg/
9
14.30
J
3.03
J
38.00
J
Bariun
mg/
9
707.00
J
167.00
J
1260.00
J
Ceriun
mg/
9
80.70
J
59.70
J
91.80
J
Cesium
mg/
9
2.28
4.23
4.78
Chromium
mg/
9
33.60
J
46.10
J
55.30
J
Cobalt
mg/
9
46.10
J
25.60
J
35.30
J
Europiun
mg/
9
1.08
0.50
0.56
Gal I inn
mg/
9
14.50
J
9.11
J
10.30
J
Gold
mg/
9
0.01
0.19
0.01
Hafnium
mg/
9
7.06
J
5.89
J
5.22
J
I ron
mg/
9
15700.00
J
30500.00
J
39600.00
J
Lanthanun
mg/
9
26.40
J
5.76
J
27.70
J
Lutetiun
mg/
9
0.30
J
0.20
J
0.18
J
Magnesium
mg/
9
2440.00
3470.00
Manganese
mg/
9
2360.00
755.00
1460.00
Mercury
mg/
9
0.94
U
0.95
U
1.39
U
Potassium
mg/
9
4950.00
189.00
U
8380.00
Rubidium
mg/
9
2120.00
U
614.00
U
998000.00
u
Scandium
mg/
9
4.84
11.00
16.60
SiIver
mg/
9
1.79
J
1.93
J
2.87
J
Sodium
mg/
9
520.00
6.88
208.00
Terbiun
mg/
9
0.64
0.36
0.53
u
Thorium-232
mg/
9
6.78
J
11.00
J
14.10
J
Titanium
mg/
9
5740.00
4690.00
Uranium-235
mg/
9
0.03
0.05
0.06
U ran inn-238
mg/
9
4.96
17.20
7.89
Vanadium
mg/
9
44.90
89.30
Ytterbium
mg/
9
2.20
2.03
0.08
Zinc
mg/
9
101.00
200.00
276.00
Location —AND; Formation=COPPER RIDGE; Site—39,40,42; Sample type=Rtgular;
A = 7068; B=7071; C=7074; A lab split=' '
Aluminum
mg/
9
31500.00
54600.00
73200.00
Antimony
mg/
9
0.85
0.40
0.49
Arsenic
mg/
9
14.00
J
20.90
J
21.20
J
Bariun
mg/
9
253.00
J
151.00
J
92.10
J
Ceriun
mg/
9
83.70
J
35.30
J
30.20
J
Cesium
mg/
S
2.77
4.15
4.25
Chromiun
mg/
9
38.60
J
84.10
J
59.20
J
Cobalt
mg/
9
14.80
J
9.79
J
6.99
J
Europiun
mg/
9
1.02
0.41
0.36
Galliun
mg/
9
14.70
J
14.10
J
7.89
J
Gold
mg/
9
0.01
0.00
0.00
Hafniun
mg/
9
8.79
J
7.39
J
6.08
J
I ron
mg/
9
17400.00
J
29600.00
J
31700.00
J
Lanthanun
mg/
9
33.70
J
15.30
J
14.70
J
Lutetiun
mg/
9
0.33
J
0.27
J
0.22
J
Magnesium
mg/
9
3410.00
U
3580.00
3760.00
Manganese
mg/
9
3150.00
688.00
411.00
Mercury
mg/
9
0.88
u
1.04
u
1.01
U
Potassium
mg/
9
5300.00
5510.00
5570.00
Rubidiun
mg/
9
2490.00
u
1150.00
u
495.00
u
Scandium
mg/
9
5.37
7.78
8.26
SiIver
mg/
9
1.65
J
2.02
J
2.00
J
Sodiun
mg/
9
643.00
330.00
217.00
Terbiun
mg/
9
0.98
0.42
0.41
Thorium-232
mg/
9
7.93
J
10.40
J
11.20
J
Titanium
mg/
9
F'"0.00
5300.00
5190.00
Uranium-235
mg/
9
).03
0.04
0.04
Uraniun-238
mg/
9
5.07
6.16
5.65
Vanadiun
mg/
9
48.90
103.00
104.00
Ytterbiun
mg/
9
4.49
1.65
1.79
Zinc
mg/
9
67.00
86.50
90.80
-------�
H-5
Table H.1 (cootinucd)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Location =AND; Formation = DISMAL CAP; Site=l,20,22; Sample rvpe =¦ Regular;
A = 7030; B=7033; C= 7036; A lab split= "
Muni nun
mg/
9
67900.00
93300.00
101000.00
Antimony
mg/
9
0.42
0.49'
0.16
U
Arsenic
mg/
9
5.54
J
5.35
J
3.44
J
Barium
mg/
9
323.00
J
336.00
J
307.00
J
Cerium
mg/
9
54.70
J
91.10
J
111.00
J
Cesium
mg/
9
3.26
4.S9
4.02
Chromium
mg/
9
62.40
J
89.30
J
79.80
J
Cobalt
mg/
9
10.30
J
30.30
J
20.00
J
Europium
mg/
9
0.61
0.91
1.71
Gal I inn
mg/
9
16.20
J
10.40
J
17.00
J
Gold
mg/
9
0.01
0.01
0.01
Hafnium
mg/
9
9.58
J
15.10
J
7.66
J
I ron
mg/
9
31300.00
J
43600.00
J
47300.00
J
Lanthanum
mg/
9
31.40
J
41.10
J
47.40
J
Lutetiun
mg/
9
0.36
J
0.39
J
0.34 '
J
Magnesium
mg/
9
5610.00
7960.00
7710.00
Manganese
mg/
9
877.00
307.00
865.00
Mercury
mg/
9
1.29
U
1.77
U
1.52
U
Potassium
mg/
9
22300.00
25000.00
29800.00
Rubidium
mg/
9
1050.00
u
856.00
U
1000.00
u
Scandiun
mg/
9
9.00
12.90
16.20
Si Iver
mg/
9
2.20
J '
3.10
J
2.80
J
Sodium
mg/
g
703.00
615.00
1600.00
Terbium
mg/
9
0.24
0.49
1.52
Thorium-232
mg/
9
10.40
J
14.80
J
12.50
J
T itaniun
mg/
9
5270.00
5470.00
5370.00
Uranium-235
mg/
9
0.02
0.02
0.02
Uranium-238
mg/
9
3.40
2.83
2.21
Vanadium
mg/
9
83.80
100.00
105.00
Ytterbium
mg/
9
2.87
3.21
1.18
Zinc
mg/
9
101.00
128.00
25.10
U
Locaiion=AND; Formaiion=DISMAL CAP; Site=3,5,ll; Sample type=Regular;
A = 7012; B—7015; C= 7018; A lab split =' '
Aluminum
mg/
g
69400.00
107000.00
115000.00
Antimony
mg/
9
0.45
0.47
0.08
Arsenic
mg/
9
4.26
J
7.46
J
3.77
Barium
mg/
9
544.00
J
402.00
J
313.00
Cerium
mg/
9
64.50
J
80.80
Cesium
mg/
9
5.28
5.47
Chromium
mg/
9
90.20
J
95.50
Cobalt
mg/
9
14.10
J
12.90
Europium
mg/
9
0.60
0.92
Gallium
mg/
9
8.58
J
14.70
J
21.20
Gold
mg/
9
0.01
U
0.01
0.01
Hafnium
mg/
9
5.60
J
4.39
I ron
mg/
9
53600.00
J
52400.00
Lanthanum
mg/
9
34.00
J
42.10
J
42.90
Lutetium
mg/
9
0.25
J
0.26
Magnesium
mg/
9
6030.00
8810.00
10700.00
Manganese
mg/
9
581.00
194.00
464.00
Mercury
mg/
9
1.53
U
1.71
u
Potassium
mg/
9
34600.00
35300.00
35900.00
Rubidium
mg/
9
766.00
U
601.00
U
752.00
u
Scandium
mg/
9
13.90
19.00
SiIver
mg/
9
2.82
J
3.13
J
Sodium
mg/
9
1110.00
840.00
1390.00
Terbium
mg/
9
0.12
0.48
Thorium-232
mg/
9
14.40
J
14.60
J
T itanium
mg/
9
4570.00
5870.00
4170.00
Uranium-235
mg/
9
0.02
0.02
0.02
Uranium-238
mg/
9
2.32
3.30
2.69
Vanadium
mg/
9
73.10
112.00
114.00
Ytterbium
mg/
9
2.73
3.15
u
Zinc
mg/
9
56.80
102.00
-------�
H-6
Tabic H.1 (continued)
A horizon B horizon C honzon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Location =AND; Formanon=DISA4XL GAP; Siie=4,12,21; Sample type = Regular;
A = 7021; B= 7024; C=7027; A lab split=' '
Aluminum
mg/
9
79000.00
c -400.00
92800.00
Antimony
mg/
9
0.43
0.14
U
0.15
U
Arsenic
mg/
9
3.53
J
4.07
J
3.31
J
Barium
mg/
9
601.00
J
530.00
J
677.00
J
Cerium
mg/
9
52.30
J
60.30
J
81.30
J
Cesium
mg/
9
3.20
4.38
3.90
Chromium
mg/
9
63.20
J
76.60
J
74.00
J
Cobalt
mg/
9
13.80
J
9.08
J
17.60
J
Europium
mg/
9
0.56
0.64
0.94
Ga U i urn
mg/
9
16.10
J
23.70
J
21.50
J
Gold
mg/
9
0.01
0.01
0.01
Hafnium
mg/
9
8.54
J
6.40
J
6.70
J
Iron
mg/
9
29900.00
J
44100.00
J
50600.00
J
Lanthanun
mg/
9
30.00
J
34.30
J
38.90
J
Lutetiun
mg/
9
0.29
0.35
J
0.35
J
Magnesium
mg/
9
6670.00
7810.00
7890.00
Manganese
mg/
9
504.00
126.00
594.00
Mercury
mg/
9
1.28
u
1.45
u
1.64
u
Potassium
mg/
9
36300.00
35700.00
38500.00
Rubidiun
mg/
9
764.00
u
556.00
u
792.00
u
Scandium
mg/
9
9.23
13.80
17.40
S iIver
mg/
9
2.25
J
2.68
J
3.09
J
Sodium
mg/
9
1130.00
696.00
651.00
Terbium
mg/
9
0.56
0.39
0.45
Thorium-232
mg/
9
10.10
J
12.20
J
12.40
J
Titanium
mg/
9
5730.00
5750.00
4330.00
Uraniun-235
mg/
9
0.02
0.02
0.02
Uranium-238
mg/
9
2.29
2.26
2.68
Vanadium
mg/
9
75.40
96.10
91.30
Ytterbium
mg/
9
2.71
3.52
2.58
u
Zinc
mg/
9
79.10
119.00
26.70
u
Location =AND; Formarion= DISMAL GAP; Site=9,10,19; Sample type = Regular;
A =7003; B=7006; C=7009; A lab split=' '
Aluminum
mg/
9
56000.00
76400.00
104000.00
Antimony
mg/
9
0.45
0.36
0.34
Arsenic
mg/
9
5.72
J
6.25
J
5.17
J
Barium
mg/
9
280.00
J
247.00
J
244.00
J
Ceriun
mg/
9
59.80
J
69.50
J
82.10
J
Cesiun
mg/
9
2.73
4.74
4.55
Chromium
mg/
9
61.30
J
81.00
J
100.00
J
Cobalt
mg/
9
16.00
J
20.00
J
22.90
J
Europi um
mg/
9
0.65
0.80
1.11
Ga11i um
mg/
9
16.20
J
11.70
J
21.20
J
Gold
mg/
9
0.01
0.01
0.01
Hafnium
mg/
9
10.60
8.05
J
6.22
J
Iron
mg/
9
26600.00
J
41000.00
J
50100.00
J
Lanthanun
mg/
9
31.50
J
39.20
J
39.80
J
Lutetiun
mg/
9
0.34
J
0.32
J
0.36
J
Magnesiun
mg/
9
4880.00
6420.00
7090.00
Manganese
mg/
9
913.00
311.00
755.00
Mercury
mg/
9
1.27
U
1.36
U
0.49
U
Potassium
mg/
9
16700.00
20200.00
24800.00
Rubidiun
mg/
9
685.00
u
522.00
U
974.00
u
Scandium
mg/
9
8.47
12.50
18.50
SiIver
mg/
9
2.32
J
2.47
J
0.95
J
Sodium
mg/
9
541.00
422.00
284.00
Terbiun
mg/
9
0.34
0.46
1.15
Thoriun-232
mg/
9
9.68
J
12.10
J
13.30
J
Titanium
mg/
9
5480.00
5870.00
5470.00
Uraniun-235
mg/
9
0.02
0.03
0.02
Uranium-238
mg/
9
3.28
3.29
3.23
Vanadiun
mg/
9
65.50
96.10
109.00
Ytterbium
mg/
9
2.36
3.92
3.31
Zinc
mg/
9
21.30
u
93.90
121.00
-------�
H-7
Tabic H.1 (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Location =AND; Formation=DISMAL GAP; Sile—9,10,19; Sample type—Field Duplicate;
A = 7039; B=7042; C=7045; A lab split=' '
Aluminum
mg/
9
58900.00
82400.00
97100.00
Antimony
mg/
9
0.48
0.50
0.17
Arsenic
mg/
9
5.73
J
6.99
J
5.96
Bariun
mg/
9
225.00
J
306.00
J
135.00
Cerium
mg/
9
61.90
J
69.40
J
104.00
Cesium
mg/
9
3.24
5.13
4.30
Chromium
mg/
9
66.00
J
81.90
J
83.10
Cobalt
mg/
9
21.80
J
14.70
J
31.20
Europiun
mg/
9
0.65
0.70
1.55
Ga11i un
mg/
9
11.60
J
20.80
J
17.80
Gold
mg/
9
0.00
0.01
0.01
Hafniun
mg/
9
10.60
J
7.69
J
6.73
I ron
mg/
9
30100.00
J
42200.00
J
50500.00
Lanthanum
mg/
9
32.00
J
39.50
J
48.10
Lutetiun
mg/
9
0.31
J
0.28
J
0.52
Magnesium
mg/
9
6140.00
6510.00
8120.00
Manganese
mg/
9
964.00
205.00
1520.00
Mercury
mg/
9
1.29
u
1.47
u
0.76
Potassium
mg/
9
18500.00
20400.00
23700.00
Rubidium
mg/
9
923.00
u
386.00
u
1370.00
Scandium
mg/
9
9.05
12.70
19.60
SiIver
mg/
9
2.12
J
2.64
J
3.69
Sodium
mg/
9
524.00
423.00
300.00
Terbium
mg/
9
0.30
0.44
0.47
Thorium-232
mg/
9
9.93
J
12.30
J
13.70
Titanium
mg/
9
5810.00
5990.00
5050.00
Uranium-235
mg/
9
0.02
0.03
0.03
Uranium-238
mg/
9
3.33
3.75
3.13
Vanadium
mg/
9
74.50
97.20
103.00
Ytterbium
mg/
9
2.17
3.98
0.70
Zinc
mg/
9
20.40
u
106.00
163.00
Location=ORR; Formation — CHEPULTEPEC; Siie=50,66,73; Sample type=Regular;
A =5169; B=5172,¦ C=5183; A lab splu=5215
Aluninun
mg/
g
14400.00
58400 . 00
75000.00
17200.00
Ant i mony
mg/
9
0.71
1.07
1.21
Arsenic
mg/
9
10.90
J
21.60
J
40.20
J
Barium
mg/
9
6280.00
J
3950.00
J
3940.00
J
5930.00
J
Cerium
mg/
9
24.90
J
13.80
J
32.10
J
21.40
J
Cesium
mg/
9
1.44
5.14
5.41
1.35
Chromium
mg/
9
32.70
J
59.10
J
69.90
J
24.00
J
Cobalt
mg/
9
10.40
3.85
5.60
8.48
Europium
mg/
9
0.35
0.38
0.35
0.30
Gal Iium
mg/
9
6.34
J
16.80
J
16.80
J
Gold
mg/
g
0.00
u
0.01
u
0.00
Hafniun
mg/
9
9.70
J
5.58
J
3.14
J
8.59
J
Iron
mg/
9
14200.00
J
32800.00
J
38900.00
J
7920.00
J
Lanthanum
mg/
9
12'. 50
J
17.50
J
19.60
J
Lutetiun
mg/
9
0.24
J
0.21
J
0.11
J
0.21
J
Magnesium
mg/
9
883.00
u
5080.00
6090.00
1160.00
Manganese
mg/
9
552.00
77.90
94.30
528.00
Mercury
mg/
9
0.58
u
0.78
u
0.93
u
0.45
U
Potassium
mg/
9
3140.00
7970.00
12800.00
Rubidium
mg/
9
471.00
u
390.00
u
405.00
u
458.00
u
Scandiun
mg/
9
2.94
9.23
12.70
2.57
SiIver
mg/
9
1.02
J
1.57
J
1.94
J
0.79
J
Sodiun
mg/
9
349.00
182.00
169.00
Terbium
mg/
9
0.80
0.80
0.24
0.46
Thorium-232
mg/
9
5.53
J
11.30
J
11.60
J
4.63
J
T itaniun
mg/
9
3590.00
4220.00
3220.00
4180.00
Uraniun-235
mg/
9
0.03
0.03
0.04
0.02
Uranium-238
mg/
9
3.54
3.13
4.02
Vanadium
mg/
9
32.30
94.70
107.00
25.80
Ytterbium
mg/
9
2.48
0.69
0.09
1.05
-------�
H-8
Tabic H.1 (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Location—ORR; Formation=CHEP UL TEPE C; Site=50,66,73; Sample type=Field Duplicate;
A =5177; B
=5180; C=
5186; A lab split=5214
AI Lin i nan
mg/
g
16800.00
67700.00
75200.00
16200.00
Antimony
mg/
g
0.69
1.11
0.95
0.57
Arsenic
mg/
g
9.33
J
21.50
J
23.70
J
9.67
J
Bariun
mg/
g
5430.00
J
3580.00
J
5430.00
J
4860.00
J
Cerium
mg/
g
23.70
J
23.50
J
45.40
J
22.00
J
Cesiun
mg/
g
1.41
4.82
4.57
1.25
Chromium
mg/
g
31.80
J
63.20
J
71.40
J
27.20
J
Cobalt
mg/
g
11.40
4.15
18.70
11.20
Europium
mg/
g
0.41
0.30
0.50
0.34
Ga11i ura
mg/
g
9.85
J
17.40
J
14.70
J
10.30
J
Gold
mg/
g
0.00
U
0.01
U
0.00
0.00
U
Hafnium
mg/
g
9.84
J
6.96
J
3.78
J
8.69
J
Iron
mg/
g
12800.00
J
32100.00
J
34400.00
J
12200.00
J
Lanthanum
mg/
g
12.60
J
18.10
J
16.00
J
10.90
J
Lutetium
mg/
g
0.14
J
0.22
J
0.09
J
0.23
J
Magnesium
mg/
g
1270.00
5080.00
4910.00
909.00
Manganese
mg/
g
485.00
68.20
335.00
526.00
Mercury
mg/
g
0.58
U
0.80
u
0.87
U
0.16
u
Potassium
mg/
g
3270.00
8070.00
11100.00
2300.00
Rubidium
mg/
9
411.00
U
359.00
LI
488.00
u
398.00
u
Scandium
mg/
g
2.94
8.83
12.40
2.62
Si Iver
mg/
g
1.01
J
1.58
J
1.81
J
0.28
J
Sodium
mg/
g
365.00
201.00
159.00
341.00
T erbi un
mg/
g
0.51
0.39
11
0.20
0.60
Thoriun-232
mg/
9
5.76
J
11.10
J
11.20
J
5.07
J
Titanium
mg/
g
4400.00
4770.00
3450.00
4320.00
Uraniun-235
mg/
g
0.03
0.03
0.04
0.02
Uranium-238
mg/
g
3.56
3.70
5.17
3.57
Vanadium
mg/
g
33.20
108.00
113.00
43.80
Ytterbium
mg/
g
1.38
2.15
LI
2.32
u
2.32
Location=ORR; Formaiion=CHEPULTEPEC; Site—52,53,78; Sample type=Regular;
A =5129; B=5132; C=5135; A lab split=' '
Aluninum
mg/
g
15400.00
48700.00
69900.00
Antimony
mg/
9
0.59
0.99
1.09
Arsenic
mg/
g
7.95
J
27.10
J
41.70
J
Barium
mg/
g
102.00
J
94.20
J
419.00
J
Cerium
mg/
9
32.60
J
20.50
S
19.50
J
Cesiun
mg/
g
1.31
4.05
4.52
Chromium
mg/
g
26.10
J
64.10
J
145.00
J
Cobalt
mg/
g
7.89
2.98
4.96
Europium
mg/
g
0.46
0.31
0.31
Galliim
mg/
g
2.76
J
13.60
J
19.30
J
Gold
mg/
g
" 00
U
0.00
u
0.00
Hafnium
mg/
g
49
J
5.18
1
2.83
J
I ron
mg/
9
987. 00
J
33600.00
J
39300.00
J
Lanthanum
mg/
g
15.50
J
17.60
J
26.60
J
Lutetium
mg/
g
0.24
J
0.20
J
0.14
J
Magnesium
mg/
g
1450.00
3670.00
6590.00
Manganese
mg/
g
905.00
68.00
88.00
Mercury
mg/
9
0.61
U
0.77
LI
0.89
U
Potassium
mg/
9
2880.00
6720.00
12400.00
Rubidiun
mg/
9
661.00
U
416.00
U
1710.00
u
Scandium
mg/
g
2.72
6.21
10.20
SiIver
mg/
g
0.90
J
1.27
J
1.52
J
Sodium
mg/
g
385.00
213.00
163.00
Terbium
mg/
g
0.44
0.29
0.33
Thorium-232
mg/
g
4.94
J
9.01
J
10.50
J
T i taniura
mg/
g
3840.00
4290.00
3490.00
Uranium-235
mg/
g
0.03
0.03
0.04
Uranium-238
mg/
g
4.01
5.08
5.69
Vanadium
mg/
9
32.00
80.80
117.00
Ytterbium
mg/
g
2.60
2.26
¦ 2.34
Zinc
mg/
g
44.60
126.00
282.00
-------�
H-9
Tabic H.1 (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Locanon=ORR; Formation = CHEPULTEPEC; Site=68,74,90; Sample type = Regular;
A =5158; B=5161; C=5164; A lab split=' '
Aluminun
mg/
9
15700.00
69600.00
87900.00
Antimony
mg/
9
0.59
1.01
1.11
Arsenic
mg/
9
7.39
J
20.80
J
20.30
J
Bariun
mg/
9
148.00
J
94.10
J
111.00
J
Cerim
mg/
9
24.90
J
21.00
J
26.70
J
Cesiun
mg/
9
1.39
5.38
6.39
Chrofliiun
mg/
9
36.60
J
54.40
J
65.20
J
Cobalt
rag/
9
12.20
3.06
3.54
Europiun
mg/
9
0.41
0.33
0.36
Galliun
mg/
9
10.10
J
20.90
J
20.40
J
Gold
mg/
9
0.00
U
0.01
U
0.01
U
Hafniun
mg/
9
7.01
J
4.12
J
2.85
J
Iron
mg/
9
14600.00
J
33400.00
J
40700.00
J
Lanthanun
mg/
9
13.00
J
20.70
J
25.80
J
Lutetium
mg/
9
0.23
J
0.15
J
0.14
J
Magnesium
mg/
9
945.00
5600.00
5980.00
Manganese
mg/
9
446.00
63.40
67.50
Mercury
mg/
g
0.66
U
0.88
u
1.04
U
Potassiun
mg/
9
2660.00
9250.00
11600.00
Rubidiun
mg/
9
453.00
u
458.00
u
587.00
u
Scandiun
mg/
9
2.68
8.14
11.30
SiIver
mg/
9
0.98
J
1.46
J
1.72
J
Sodium
mg/
9
355.00
200.00
165.00
Terbiun
mg/
9
0.33
0.31
0.22
Thorium-232
mg/
9
5.29
J
10.70
J
12.70
J
Titanium
mg/
9
4390.00
4100.00
3450.00
Uranium-235
mg/
9
0.02
0.03
0.03
Uranium-238
mg/
9
4.49
4.68
4.56
Vanadium
mg/
9
31.80
106.00
116.00
Ytterbiun
mg/
9
2.84
2.25
0.60
Zinc
mg/
9
40.60
132.00
169.00
Location—ORR;
Formation
=CHEPULTEPEC; Site=
77,85,86; Sample type
A=5138; B=5141; C
=5144; A lab splu=' '
Aluninun
mg/
9
19200.00
61900.00
58300.00
Ant i mony
mg/
9
0.75
0.80
Arsenic
mg/
9
13.40
J
15.20
¦J
Bariun
mg/
9
320.00
J
101.00
J
460.00
J
Ceriun
mg/
9
50.70
J
87.60
J
71.30
J
Cesiun
mg/
9
1.68
5.32
4.39
Chroraiun
mg/
9
24.20
J
46.20
J
60.30
J
Cobalt
mg/
9
13.50
9.64
22.30
Europiun
mg/
9
1.24
0.64
0.72
Ga11i un
mg/
9
5.64
J
10.10
J
Gold
mg/
9
0.01
U
0.01
u
Hafniun
mg/
9
6.06
J
3.80
J
2.22
J
Iron
mg/
9
10500.00
J
32800.00
J
34600.00
J
Lanthanum
mg/
9
32.50
J
38.60
J
Lutetium
mg/
9
0.36
J
0.33
J
0.34
J
Hagnesiun
mg/
9
2290.00
4480.00
5180.00
Manganese
mg/
9
2100.00
168.00
1070.00
Mercury
mg/
9
0.68
U
0.92
u
0.89
u
Potass inn
mg/
9
8110.00
8450.00
Rubidiun
mg/
9
1830.00
U
574.00
u
1410.00
u
Scandiun
mg/
9
3.16
8.71
9.93
SiIver
mg/
9
1.01
J
1.54
J
1.51
J
Sodium
mg/
9
244.00
142.00
Terbiun
mg/
9
0.91
0.52
0.54
Thoriun-232
mg/
9
4.91
J
8.91
J
9.21
J
Titaniun
mg/
9
4410.00
3700.00
1960.00
Uranium-235
mg/
9
0.03
0.03
0.03
Uranium-238
mg/
9
3.89
3.97
Vanadiun
mg/
9
34.70
82.60
75.80
Ytterbiun
mg/
9
3.27
3.52
3.17
Zinc
mg/
9
122.00
362.00
430.00
-------�
H-10
Tabic H.1 (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Location = ORR; Formation=CHEPULTEPEC; Siie=77,85,86; Sample rype=Fiela Duplicate;
A =5147; B—5150; C=5153; A lab split =' '
Aluninun
mg/
9
23200.00
54600.00
67400.00
Ant i mony
mg/
9
0.62
0.93
0.37
Arsenic
mg/
9
6.50
J
16.20
J
7.67
J
Barium
mg/
g
169.00
J
137.00
J
162.00
J
Ceriun
mg/
g
62.10
J
130.00
J
70.40
J
Cesium
mg/
9
1.62
5.13
2.23
Chromium
mg/
9
26.30
J
49.70
J
24.20
J
Cobalt
rag/
g
19.70
14.80
33.10
Europiun
mg/
g
1.33
0.72
0.50
Gall inn
mg/
g
12.50
J
15.20
J
3.92
J
Gold
mg/
g
0.01
u
0.01
U
0.00
U
Hafnium
mg/
9
6.25
J
3.82
J
1.24
J
Iron
mg/
g
11700.00
J
36100.00
J
19300.00
J
Lanthanum
mg/
9
36.90
J
39.10
J
21.40
J
Lutetiun
mg/
g
0.42
J
0.38
J
0.16
J
Magnesium
mg/
9
1430.00
4620.00
4220.00
Manganese
mg/
g
1930.00
246.00
2500.00
Mercury
mg/
g
0.72
u
0.89
u
0.72
U
Potassium
mg/
9
3750.00
7910.00
4820.00
Rubidium
mg/
9
1170.00
u
521.00
u
2370.00
u
Scandium
mg/
g
3.33
8.81
5.69
SiIver
mg/
g
1.09
J
1.49
J
1.22
J
Sodium
mg/
9
485.00
251.00
71.50
Terbiun
mg/
9
1.20
0.77
0.47
Thorium-232 mg/
9
5.61
J
8.92
J
5.12
J
Titanium
mg/
9
3890.00
3660.00
3080.00
U ran inn-235
mg/
9
0.03
0.03
0.03
I)rani lid-238 mg/
9
4.46
3.38
2.04
Vanadium
mg/
g
30.30
78.00
81.90
Ytterbium
mg/
9
3.93
3.17
1.05
Zinc
mg/
9
133.00
381.00
281.00
Location =ORR; Formation=CHICKAMAUGA Bethel V; Siie=101,102,103; Sample type=Regu!ar;
A =5198; B=5201; C=5204; A lab split =' '
Aluninun
mg/kg
45900.00
86200.00
96900.00
Ant i mony
mg/kg
0.68
0.43
0.64
Arsenic
mg/kg
9.64
J
13.30
J
23.80
J
Bar inn
mg/kg
10600.00
J
7670.00
J
10700.00
J
Ceriun
mg/kg
96.40
J
93.50
J
117.00
J
Cesiun
mg/kg
3.79
5.59
6.08
Chroniun
mg/kg
53.90
J
71.00
J
75.40
J
Cobalt
mg/kg
18.60
15.80
36.30
Europium
mg/kg
1.32
2.42
1.86
Ga11i um
mg/kg
11.70
J
17.50
J
13.10
J
Gold
mg/kg
0.01
u
0.01
U
0.01
u
Hafnium
mg/kg
9.14
J
4.78
J
4.31
J
I ron
mg/kg
36100.00
J
55500.00
J
56500.00
J
Lanthanum
mg/kg
48.00
J
61.10
J
56.50
J
Lutetium
mg/kg
0.42
J
0.58
J
0.37
J
Magnesium
mg/kg
3540.00
9030.00
10800.00
Manganese
mg/kg
1260.00
499.00
645.00
Mercury
mg/kg
1.01
u
1.10
u
1.08
u
Potassium
mg/kg
25800.00
26000.00
26000.00
Rubidium
mg/kg
562.00
706.00
u
1110.00
u
Scandium
mg/kg
11.20
17.40
19.20
Silver
mg/kg
2.04
J
2.33
J
2.25
J
Sodium
mg/kg
2320.00
2520.00
3190.00
Terbium
mg/kg
0.91
3.59
1.36
Thoriun-232 mg/kg
11.00
J
13.10
J
13.90
J
Titanium
mg/kg
4920.00
4530.00
3980.00
Uranium-235 mg/kg
0.02
0.02
0.02
Uranium-238 mg/kg
3.86
2.72
2.82
Vanadium
mg/kg
50.40
98.00
105.00
Ytterbium
mg/kg
2.52
3.27
0.45
-------�
H-ll
Tabte H.1 (coatinued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Location=
|
s
a
II
CHJCKAMA UGA Bethel V; Sile
cr
»-i
$
*-«
S*
*»«
11
Sample type
II
a
t
3
A
=5207; B
=5210; C
=5213; A lab splu=l '
Aluminum
mg/kg
35300.00
87500.00
80500.00
Antimony
mg/kg
0.41
0.40
0.19
Arsenic
mg/kg
7.55
J
9.49
J
7.72
J
Barium
mg/kg
5120.00
J
5430.00
J
6580.00
J
Cerium
mg/kg
55.20
J
92.50
J
98.40
J
Cesium
mg/kg
1.91
5.88
5.82
Chromium
mg/kg
47.60
J
78.40
J
76.50
J
Cobalt
mg/kg
14.30
14.60
16.70
Europium
mg/kg
0.91
1.19
1.70
Gallium
mg/kg
13.90
J
20.90
J
22.00
J
Gold
mg/kg
0.01
u
0.01
u
0.01
u
Hafniun
mg/kg
11.30
J
6.91
J
5.99
J
Iron
mg/kg
24700.00
J
56800.00
J
58500.00
J
Lanthanun
mg/kg
28.80
J
43.30
J
50.60
j
Lutetian
mg/kg
0.23
J
0.22
J
0.48
j
Magnesium
mg/kg
2680.00
7630.00
7350.00
Manganese
mg/kg
459.00
199.00
549.00
Mercury
mg/kg
0.66
u
1.00
u
1.05
u
Potassiun
mg/kg
10300.00
18100.00
20100.00
Rubidium
mg/kg
443.00
u
532.00
u
616.00
u
Scandium
mg/kg
6.17
15.60
17.20
SiIver
mg/kg
1.27
J
2.07
J
2.14
J
Sodium
mg/kg
1080.00
1800.00
1900.00
Terbium
mg/kg
0.77
1.32
1.98
Thoriun-232 mg/kg
8.60
J
14.20
J
14.70
J
Titanium
mg/kg
5530.00
5100.00
4940.00
Uranium-235 mg/kg
0.03
0.02
0.02
Uraniun-238 mg/kg
2.91
3.81
2.51
VanadiLRi
mg/kg
44.40
102.00
93.50
Ytterbium
mg/kg
2.51
0.11
3.41
Location=
ORR; Formation =
CHICKAMA UGA Bethel V; Site
II
Sample type
II
!
A-
-5220; B-
5224; C=
5227; A lab spla-5221
Aluminum
mg/kg
35400.00
82700.00
118000.00
34000.00
Antimony
mg/kg
0.59
0.20
0.69
0.63
Arsenic
mg/kg
7.67
J
14.90
J
11.90
7.93
J
Barium
mg/kg
6560.00
J
5600.00
J
203.00
J
14700.00
J
Cerium
mg/kg
60.40
J
87.80
J
140.00
J
50.60
J
Cesium
mg/kg
2.01
6.17
6.32
1.90
Chromium
mg/kg
47.80
J
73.10
J
67.60
J
49.90
J
Cobalt
mg/kg
14.50
20.20
33.60
J
16.20
Europium
mg/kg
0.74
0.96
1.94
0.75
Gal I inn
mg/kg
16.50
J
20.90
J
25.90
J
17.60
J
Gold
mg/kg
0.01
u
0.01
U
0.01
0.01
U
Hafnium
mg/kg
9.76
J
7.06
J
4.97
J
8.40
J
Iron
mg/kg
29300.00
J
56300.00
J
57100.00
J
30100.00
J
Lanthanun
mg/kg
31.70
J
46.00
J
52.20
J
34.50
J
Lutetian
mg/kg
0.35
J
0.54
J
0.45
J
0.26
J
Magnesium
mg/kg
3500.00
6480.00
9190.00
2410.00
u
Manganese
mg/kg
788.00
277.00
640.00
1730.00
Mercury
mg/kg
0.73
u
1.06
U
1.25
u
0.70
u
Potassiun
mg/kg
7760.00
20200.00
22800.00
7980.00
Rubidium
mg/kg
579.00
u
533.00
u
666.00
1260.00
u
Scandium
mg/kg
6.93
16.40
17.30
6.48
SiIver
mg/kg
1.41
J
2.16
J
2.27
J
1.38
J
Sodiun
mg/kg
984.00
1790.00
1590.00
1050.00
Terbium
mg/kg
1.38
0.53
u
1.00
1.04
Thoriun-232 mg/kg
9.54
J
15.50
J
13.10
J
9.11
J
Titaniun
mg/kg
6190.00
5600.00
5990.00
6770.00
Uranium-235 mg/kg
0.02
0.03
0.02
0.03
Uranium-238 mg/kg
3.18
3.38
4.54
3.39
Vanadium
mg/kg
57.80
105.00
124.00
61.40
Ytterbium
mg/kg
3.54
2.65
u
3.26
4.48
Zinc
mg/kg
120.00
-------�
H-12
Table H.1 (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Locaiion=ORR; Formaiion=CHlCKAMAUGA Bethel V; Sue =93,99,100; Sample ype= Regular;
A =5189; B=5192; C=5195; A lab split =' '
Aluninum
mg/kg
42700.00
65900.00
86900.00
Antimony
mg/kg
0.64
0.58
0.49
Arsenic
mg/kg
8.46
J
8.54
J
8.95
J
Barium
mg/kg
6920.00
J
6190.00
J
5080.00
J
Ceriun
mg/kg
86.00
J
83.70
J
80.90
J
Cesiun
mg/kg
3.12
4.97
6.02
Chromium
mg/kg
57.00
J
68.60
J
77.00
J
Cobalt
mg/kg
23.70
18.30
16.00
Europiun
mg/kg
1.11
1.12
1.37
Gal I inn
mg/kg
23.40
J
12.40
J
26.40
J
Gold
mg/kg
0.01
U
0.01
U
0.01
U
Hafnium
mg/kg
10.80
J
7.22
J
5.51
J
Iron
mg/kg
34500.00
J
47600.00
J
55800.00
J
Lanthanum
mg/kg
43.50
J
44.80
J
51.10
J
Lutetiun
mg/kg
0.18
J
0.30
J
0.38
J
Magnesium
mg/kg
4160.00
5420.00
7370.00
Manganese
rag/kg
783.00
524.00
469.00
Mercury
mg/kg
1.06
u
1.08
u
1.10
u
Potass inn
mg/kg
16300.00
24600.00
27700.00
Rubidium
mg/kg
616.00
u
574.00
u
499.00
u
Scandium
mg/kg
9.51
14.70
18.40
SiIver
mg/kg
2.09
J
2.12
J
2.27
J
Sodiun
mg/kg
1620.00
2050.00
2320.00
Terbium
mg/kg
0.84
0.56
2.20
Thoriun-232 mg/kg
11.50
J
13.70
J
14.00
J
T i tani un
mg/kg
5440.00
5120.00
4130.00
Uraniun-235 mg/kg
0.03
0.02
0.02
Uraniun-238 mg/kg
4.55
3.10
3.01
Vanadium
mg/kg
55.50
83.00
96.80
Ytterbiin
mg/kg
3.76
4.57
u
0.24
Location = ORR; Formation=CHICKAMAUGA K-25; Site=118,122,124; Sample tvpe=Regular;
A =5244; B=5248; C=525J; A lab split=5245
Aluminum
mg/kg
65800.00
116000.00
121000.00
Antimony
mg/kg
0.91
0.59
0.79
Arsenic
mg/kg
10.30
J
7.33
J
11.70
J
Bariun
mg/kg
166.00
J
320.00
J
390.00
J
Ceriun
mg/kg
67.50
J
93.00
J
155.00
J
66.50
J
Cesiun
mg/kg
3.48
6.98
7.09
3.84
Chromium
mg/kg
55.80
J
68.10
J
69.90
J
52.80
J
Cobalt
mg/kg
15.80
J
19.50
J
27.30
J
15.10
J
Europium
mg/kg
0.88
1.16
1.39
0.84
Ga11i un
mg/kg
13.10
J
29.90
J
17.90
J
Gold
mg/kg
0.01
0.01
0.01
u
Hafniun
mg/kg
7.43
J
4.73
J
4.43
J
7.48
J
Iron
mg/kg
37800.00
J
54800.00
J
51800.00
J
35800.00
J
lanthanum
mg/kg
35.00
J
47.50
J
34.40
J
Lutetiun
mg/kg
0.30
J
0.39
J
0.42
J
0.31
J
Magnesium
mg/kg
3350.00
9090.00
8470.00
Manganese
mg/kg
1080.00
305.00
359.00
Mercury
mg/kg
0.22
1.43
U
1.58
U
1.23
u
Potassiun
mg/kg
12600.00
26800.00
11800.00
Rubidiun
mg/kg
1690.00
u
838.00
u
690.00
u
Scandium
mg/kg
10.00
17.90
19.80
10.30
SiIver
mg/kg
2.25
J
3.06
J
3.41
J
0.97
J
Sodiun
mg/kg
1050.00
1940.00
1040.00
Terbiun
mg/kg
0.54
0.82
0.84
0.65
Thorium-232 mg/kg
11.10
J
14.60
J
14.10
J
11.30
J
T itani urn
mg/kg
5790.00
5690.00
5390.00
Uraniun-235 mg/kg
0.03
0.03
0.02
0.03
Uranium*238 mg/kg
5.00
2.89
4.01
Vanadium
mg/kg
75.90
128.00
121.00
Ytterbium
mg/kg
2.43
4.69
3.07
3.06
Zinc
mg/kg
112.00
186.00
117.00
123.00
-------�
H-13
Tabic H.1 (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Location=ORR; Formation - CHJCKAMA UGA K-25; Site—119,123,127; Sample ,vpe=Regular;
A =5256; B=5259; C =5262; A lab split=' '
Aluninun
mg/kg
56200.00
129000.00
24200.00
Ant i mony
mg/kg
0.73
0.71
0.71
Arsenic
mg/kg
9.85
J
9.59
J
9.62
J
Bariun
mg/kg
350.00
J
330.00
J
71.80
J
Ceriun
mg/kg
70.40
J
92.20
J
92.50
J
Cesiun
mg/kg
3.57
7.45
7.47
Chromiun
mg/kg
55.10
J
73.00
J
73.20
J
Cobalt
mg/kg
18.50
J
11.70
J
11.80
J
Europiun
mg/kg
0.90
1.60
1.61
Ga lli tin
mg/kg
14.00
J
50.40
J
50.50
J
Gold
mg/kg
0.01
0.01
0.01
Hafniun
mg/kg
8.89
J
5.45
J
5.46
J
I ron
mg/kg
35000.00
J
54900.00
J
55100.00
J
Lanthanum
mg/kg
34.80
J
49.70
J
49.90
J
Lutetiun
mg/kg
0.34
J
0.45
J
0.46
J
Magnesium
mg/kg
4980.00
7580.00
1690.00
Manganese
mg/kg
2070.00
562.00
392.00
Mercury
mg/kg
1.10
u
1.39
U
1.39
U
Potassiun
mg/kg
13000.00
26500.00
26600.00
Rubidium
mg/kg
690.00
1780.00
U
428.00
U
Scandium
mg/kg
9.05
16.80
16.80
SiIver
mg/kg
0.48
J
2.87
J
2.88
J
Sodiun
mg/kg
847.00
1470.00
1470.00
Terbiun
mg/kg
0.83
0.58
0.58
Thoriun-232 mg/kg
10.30
J
15.10
J
15.20
J
T itaniun
mg/kg
6940.00
5690.00
1280.00
Uraniun-235
mg/kg
0.03
0.03
0.03
Uraniun-238 mg/kg
5.47
3.91
3.92
Vanadiun
mg/kg
65.60
145.00
25.70
Ytterbiun
mg/kg
2.60
2.70
2.71
Zinc
mg/kg
74.30
194.00
195.00
Location = ORR; Formation=CHICKAMAUGA K-25; Site =120,126,129; Sample type=Regulan
A =5232; B=5236; C=5239; A lab split=5233
Aluminun
mg/kg
35800.00
104000.00
113000.00
37600.00
Ant i mony
mg/kg
0.79
0.93
0.61
0.71
Arsenic
mg/kg
7.97
J
13.90
J
9.46
J
8.72
Barium
mg/kg
134.00
J
298.00
J
427.00
J
426.00
Ceriun
mg/kg
63.90
J
60.80
J
66.00
J
67.30
Cesium
mg/kg
2.67
7.54
7.32
2.98
Chromiun
mg/kg
43.50
J
74.30
J
72.90
J
48.20
Cobalt
mg/kg
16.90
J
8.99
J
5.35
J
18.60
Europiun
mg/kg
0.85
0.82
1.00
0.77
Gal linn
mg/kg
12.00
J
33.60
J
29.70
J
18.40
Gold
mg/kg
0.01
0.01
0.01
0.01
Hafniun
mg/kg
13.10
J
6.92
J
5.34
J
13.20
I ron
mg/kg
22600.00
J
62100.00
J
64500.00
J
24200.00
Lanthanun
mg/kg
29.80
J
37.90
J
42.70
J
29.80
Lutetiun
mg/kg
0.34
J
0.31
J
0.29
J
0.39
Magnesium
mg/kg
2670.00
6460.00
8890.00
3000.00
Manganese
mg/kg
1420.00
262.00
124.00
1550.00
Mercury
mg/kg
0.90
U
1.20
U
1.34
U
0.91
Potassiun
mg/kg
75 80.00
19800.00
29800.00
7050.00
Rubidium
mg/kg
1040.00
U
878.00
u
779.00
u
1150.00
Scandiun
mg/kg
6.55
13.90
17.40
6.63
SiIver
mg/kg
1.44
J
2.14
J
2.48
J
1.50
Sodiun
mg/kg
693.00
1380.00
1900.00
688.00
Terbium
mg/kg
0.84
0.75
0.36
0.91
Thorium-232 mg/kg
9.14
J
14.80
J
14.80
J
9.52
T i taniun
mg/kg
7390.00
6760.00
6310.00
7320.00
Uranium-235
mg/kg
0.03
0.03
0.03
0.04
Uraniun-238 mg/kg
4.82
5.06
3.89
4.89
Vanadiun
mg/kg
63.80
140.00
136.00
60.10
Ytterbiun
mg/kg
3.27
1.68
2.22
2.90
Zinc
mg/kg
52.60
116.00
83.90
-------�
H-14
Tabic H.1 (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Location—ORR; Formation - CHIC KAMA UGA K-25; Site—121,125,128; Sample .ype=Regular;
A =5267; B=5270; C=5273; A lab split =' '
Aluminum
mg/
9
7180.00
104000.00
473000.00
Ant i mony
mg/
9
0.54
0.54
0.59
Arsenic
mg/
9
5.87
J
7.11
J
6.15
J
Barium
mg/
9
103.00
J
320.00
J
1320.00
J
Ceriim
mg/
9
52.20
J
67.20
J
70.80
J
Cesium
mg/
9
2.53
7.17
7.67
Chromium
mg/
9
40.70
J
60.90
J
63.00
J
Cobalt
mg/
9
19.30
J
10.90
J
20.70
J
Europiun
mg/
9
0.70
1.05
1.03
Gall inn
mg/
9
14.00
J
23.60
J
25.80
J
Gold
mg/
9
0.01
0.01
0.01
Hafnium
mg/
9
9.89
J
4.97
J
3.72
J
I ron
mg/
9
23200.00
J
51300.00
J
50900.00
J
Lanthanum
mg/
9
29.00
J
44.00
J
40.90 '
J
Lutetium
mg/
9
0.36
J
0.39
J
0.31
J
Magnesium
mg/
9
593.00
12400.00
45700.00
Manganese
mg/
9
264.00
269.00
1650.00
Mercury
mg/
9
0.96
u
1.38
U
0.51
U
Potassium
mg/
9
8820.00
25900.00
28000.00
Rubidium
mg/
9
298.00
u
1360.00
U
3330.00
U
Scandium
mg/
9
6.70
16.60
18.50
SiIver
mg/
9
1.87
J
2.92
J
1.08
J
Sodium
mg/
9
619.00
1170.00
1040.00
Terbium
mg/
9
0.64
0.75
0.63
Thorium-232
mg/
9
8.97
J
14.10
J
13.60
J
T i tan ilia
mg/
9
1320.00
5320.00
21600.00
Uranium-235
mg/
9
0.03
0.03
0.02
Uranium-238
mg/
9
3.96
3.64
3.77
Vanadium
mg/
9
12.40
107.00
446.00
Ttterbiim
mg/
9
3.51
2.03
1.80
Zinc
mg/
9
63.70
164.00
141.00
Location = ORR; Formation =COPPER RIDGE; Site =45,60,75; Sample type=Regular,
A =5111; B=5114; C=5117; A lab split=' '
Aluminum
mg/
9
18800.00
43600.00
72400.00
Antimony
mg/
g
0.77
1.15
1.81
Arsenic
mg/
9
15.90
J
29.50
J
84.90
J
Barium
mg/
9
202.00
J
113.00
J
81.20
J
Cerium
mg/
9
41.70
J
28.00
J
41.30
J
Cesium
mg/
9
2.16
4.18
4.11
Chromium
mg/
9
32.90
J
50.30
J
74.50
J
Cobalt
mg/
9
5.44
4.29
4.22
Europiun
mg/
9
0.54
0.32
0.34
Ga11i un
mg/
9
3.34
J
12.60
J
19.30
J
Gold
mg/
9
0.01
u
0.01
U
0.01
u
Hafnium
mg/
9
7.23
J
6.09
J
2.28
J
Iron
mg/
9
14700.00
J
27700.00
J
41400.00
J
Lanthanum
mg/
9
20.50
J
20.40
J
35.80
J
Lutetium
mg/
9
0.28
J
0.21
J
0.10
J
Magnesium
mg/
9
660.00
2750.00
4810.00
Manganese
mg/
9
797.00
135.00
87.10
Mercury
mg/
9
0.67
u
0.76
U
0.94
u
Potassium
mg/
9
3110.00
3710.00
6270.00
Rubidium
mg/
9
750.00
u
400.00
U
430.00
u
Scandium
mg/
9
3.45
6.23
10.60
S i I ver
mg/
9
1.03
J
1.26
J
1.67
J
Sodium
mg/
9
392.00
240.00
128.00
Terbium
mg/
9
0.46
0.26
0.19
Thorium-232
mg/
9
6.02
J
9.68
J
12.10
J
T i taniun
mg/
9
4150.00
4750.00
2800.00
Uranium-235
mg/
9
0.03
0.03
0.04
Uranium-238
mg/
9
4.58
4.80
2.96
Vanadium
mg/
9
34.30
78.20
108.00
Ytterbium
mg/
9
2.78
2.57
2.10
Zinc
mg/
9
58.90
99.40
249.00
-------�
H-15
Tabic H.1 (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Location=ORR; Formation —COPPER RIDGE; Site=51,55,62; Sample type=Reguiar;
A =5102; B=5105; C=510S;A lab split=' '
Muni nun
mg/kg
24200.00
42300.00
79900.00
Antimony
mg/kg
0.61
1.37
1.77
Arsenic
mg/kg
13.00
J
42.80
J
59.50
J
Bariin
mg/kg
129.00
J
38.30
J
83.80
J
Cerium
mg/kg
44.30
J
36.70
J
46.20
J
Cesium
mg/kg
1.84
5.74
4.88
Chromiun
mg/kg
29.80
J
46.10
J
58.50
J
Cobalt
mg/kg
7.06
J
3.S3
5.89
Europiun
mg/kg
0.57
0.34
0.39
Ga 11 i un
mg/kg
8.35
J
16.10
J
17.00
J
Gold
mg/kg
0.00
0.01
U
0.01
U
Hafnium
mg/kg
8.17
J
5.54
J
3.80
J
I ron
mg/kg
12300.00
J
32700.00
J
45100.00
J
Lanthanun
mg/kg
20.00
J
25.50
J
38.90
J
Lutetiun
mg/kg
0.24
J
0.17
J
0.27
J
Magnesiun
mg/kg
2420.00
2340.00
4540.00
Manganese
mg/kg
825.00
82.10
139.00
Mercury
mg/kg
0.82
u
3.27
u
0.90
u
Potassiun
mg/kg
3330.00
4830.00
6980.00
Rubidiun
mg/kg
711.00
u
357.00
u
365.00
u
Scandium
mg/kg
3.36
6.57
10.10
SiIver
mg/kg
1.28
J
5.60
J
1.54
J
Sodium
mg/kg
432.00
216.00
157.00
Terbiun
mg/kg
0.45
1.05
u
0.35
Thoriun-232
mg/kg
5.89
J
9.59
J
13.50
J
Titaniun
mg/kg
4390.00
3900.00
4180.00
Uraniun-235
mg/kg
0.03
0.04
0.04
Uraniun-238
mg/kg
3.47
6.05
4.97
Vanadiuit
mg/kg
37.80
81.90
124.00
Ytterbiun
mg/kg
2.84
1.95
3.07
Zinc
mg/kg
51.80
121.00
250.00
Location=ORR; Formation ^COPPER RIDGE; Site=54,64,83; Sample type ¦= Regular;
A =5120; B=5123; C=5126; A lab splii=' '
Aluminum
mg/
9
23800.00
63300.00
92200.00
Ant imony
mg/
9
0.83
1.40
1.69
Arsenic
mg/
9
20.50
J
54.70
J
72.80
' J
Bariun
mg/
9
558.00
J
98.90
J
318.00
J
Ceriun
mg/
g
49.10
J
38.30
J
54.90
J
Cesiun
mg/
g
2.13
4.35
4.77
Chromiun
mg/
9
32.60
J
48.00
J
66.20
J
Cobalt
mg/
9
16.90
6.47
5.17
Europium
mg/
9
0.55
0.49
0.50
Ga 11i un
mg/
g
3.56
J
15.30
J
22.90
J
Gold
mg/
g
0.01
U
0.01
U
0.01
Hafniun
mg/
9
6.37
J
4.90
J
2.36
J
1 ron
mg/
g
13400.00
J
33700.00
J
44300.00
J
Lanthanun
mg/
g
23.00
J
46.40
J
36.60
J
Lutetiun
mg/
9
0.24
J
0.20
J
0.19
J
Magnesium
mg/
9
1490.00
3260.00
5730.00
Manganese
mg/
9
1420.00
192.00
120.00
Mercury
mg/
9
0.72
U
0.86
u
1.02
U
Potassiun
mg/
9
4310.00
5990.00
9410.00
Rubidium
mg/
9
1650.00
U
439.00
u
1350.00
u
Scandiun
mg/
9
3.93
8.09
12.70
SiIver
mg/
9
1.10
J
1.49
J
1.83
J
Sod inn
mg/
9
464.00
271.00
151.00
Terbiun
mg/
9
0.50
0.34
0.35
Thoriun-232
mg/
9
6.47
J
9.98
J
12.20
J
Titaniun
mg/
9
4380.00
4820.00
2800.00
Uranium-235
mg/
9
0.03
0.04
0.05
Uraniun-238
mg/
9
5.63
4.52
6.36
Vanadium
mg/
9
43.10
88.50
126.00
Ytterbiun
mg/
9
1.75
2.95
2.91
Zinc
mg/
9
83.90
169.00
263.00
-------�
H-16
Tabic H.1 (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Location=ORR; Formation=COPPER RIDGE; Site=58.59,91; Sample type-Regular;
A =5093; B=5096; C=5099; A lab split=' '
Atuninun
ing/kg
26100.00
63400.00
113000.00
Antimony
mg/kg
1.44
1.82
2.45
Arsenic
mg/kg
40.00
J
79.70
J
107.00
J
Barium
mg/kg
338.00
J
107.00
J
111.00
J
Ceriua
mg/kg
49.60
J
38.30
J
45.70
J
Cesium
mg/kg
2.26
5.32
6.17
Chronriin
mg/kg
59.20
J
57.60
J
86.60
J
Cobalt
mg/kg
7.26
J
4.34
J
4.07
J
Europium
mg/kg
0.68
0.41
0.36
Ga11i un
mg/kg
8.85
J
13.80
J
8.60
J
Gold
mg/kg
0.00
0.01
0.01
Hafnium
mg/kg
7.89
J
5.60
J
3.23
J
I ron
mg/kg
26300.00
J
40300.00
J
53500.00
J
Lanthanum
mg/kg
21.00
J
28.20
J
41.60
J
Lutetium
mg/kg
0.34
J
0.27
J
0.24
J
Magnesium
mg/kg
1740.00
3570.00
5750.00
Hanganese
mg/kg
1190.00
162.00
108.00
Mercury
mg/kg
0.98
U
1.31
U
1.48
U
Potassium
mg/kg
3890.00
6110.00
8690.00
Rubidium
mg/kg
941.00
u
337.00
u
403.00
u
Scandium
mg/kg
4.24
9.16
14.40
SiIver
mg/kg
1.56
J
2.29
J
2.66
J
Sodium
mg/kg
451.00
269.00
169.00
Terbium
mg/kg
0.55
0.34
0.48
U
Thorium-232
mg/kg
7.81
J
12.00
J
15.80
J
Titanium
mg/kg
4730.00
4940.00
3690.00
Uraniun-235
mg/kg
0.03
0.04
0.05
Uranium-238
mg/kg
4.66
5.65
6.42
Vanadium
mg/kg
49.00
115.00
168.00
Ytterbium
mg/kg
2.04
2.37
u
2.73
U
Zinc
mg/kg
73.00
154.00
243.00
Location=ORR; Formation
=DISMAL GAP; Sue
=10,33,35; Sample
type-
A =5021; B=5024; C
=5027; A lab split—' '
Aluminum
mg/kg
49100.00
77900.00
90700.00
Ant i mony
mg/kg
0.48
0.20
0.33
Arsenic
mg/kg
5.34
J
5.33
J
4.93
J
Barium
mg/kg
138.00
J
254.00
J
243.00
J
Cerium
mg/kg
43.00
J
55.10
J
55.90
J
Cesium
mg/kg
2.55
4.22
4.36
Chromium
mg/kg
55.50
J
78.20
J
80.30
J
Cobalt
mg/kg
12.30
J
9.60
J
11.70
J
Europium
mg/kg
0.56
0.54
0.54
Gal Iium
mg/kg
8.93
J
16.60
J
24.80
J
Gold
mg/kg
0.01
0.01
0.01
Hafnium
mg/kg
9.67
J
7.42
J
5.59
J
Iron
mg/kg
25800.00
J
38200.00
X
37900.00
J
Lanthanum
mg/kg
28.30
J
37.40
J
36.60
J
Lutetium
mg/kg
0.35
J
0.29
J
0.29
J
Magnesium
mg/kg
5300.00
6800.00
7810.00
Hanganese
mg/kg
607.00
173.00
264.00
Mercury
mg/kg
0.60
u
0.77
u
0.74
u
Potassium
mg/kg
14600.00
19600.00
21400.00
Rubidium
mg/kg
440.00
u
423.00
u
391.00
u
Scandium
mg/kg
7.38
10.90
12.70
SiIver
mg/kg
1.15
J
1.52
J
1.50
J
Sodium
mg/kg
2710.00
2260.00
2890.00
Terbium
mg/kg
0.35
0.40
0.26
Thorium-232
mg/kg
9.40
J
11.90
J
12.00
J
Titanium
mg/kg
5230.00
5740.00
5260.00
Uranium-235
mg/kg
0.03
0.02
0.02
Uranium-238
mg/kg
4.14
3.11
1.48
Vanadiun
mg/kg
56.50
35.50
93.70
Ytterbiun
mg/kg
1.47
2.38
1.51
-------�
H-17
Table H.1 (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Location=ORR; Formation—DISMAL CAP; Site—11,27,41; Sample tvpe=Regular;
A =5003; B=5006; C=5009; A lab splii=' '
Aluninun
mg/kg
45200.00
77000.00
103000.00
Antimony
mg/kg
0.52
0.36
0.28
Arsenic
mg/kg
5.49
J
4.44
J
4.02
J
Barium
mg/kg
142.00
J
245.00
J
267.00
J
Ceriun
mg/kg
41.90
J
54.80
J
66.90
J
Cesiun
mg/kg
2.31
4.55
4.89
Chromium
mg/kg
62.90
J
84.50
J
95.80
J
Cobalt
mg/kg
15.30
J
8.77
J
9.62
J
Europiun
mg/kg
0.49
0.52
0.65
Ga11i un
mg/kg
11.60
J
22.10
J
22.30
J
Gold
mg/kg
0.01
0.01
0.01
Hafniun
mg/kg
9.69
J
6.66
J
5.98
J
I ron
mg/kg
27100.00
J
36700.00
J
45200.00
J
lanthanun
mg/kg
27.70
J
38.20
J
45.50
J
Lutetium
mg/kg
0.24
J
0.30
J
0.25
J
Magnesium
mg/kg
4060.00
8050.00
10600.00
Manganese
mg/kg
627.00
129.00
' 117.00
Mercury
mg/kg
0.61
U
0.24
U
0.82
U
Potassiun
mg/kg
13000.00
19700.00
26500.00
Rubidiun
mg/kg
425.00
u
248.00
U
312.00
u
Scandium
mg/kg
7.20
11.10
15.10
SiIver
mg/kg
1.18
J
0.49
J
1.70
J
Sodiun
mg/kg
535.00
549.00
466.00
Terbiun
mg/kg
0.35
0.58
0.27
Thoriun-232
mg/kg
9.41
J
11.40
J
12.90
J
Titaniun
mg/kg
5030.00
5410.00
5480.00
Uraniun-235
mg/kg
0.03
0.02
0.02
Uraniun-238
mg/kg
3.87
3.96
3.39
Vanadiun
mg/kg
48.60
84.10
109.00
ytterbium
mg/kg
1.94
2.46
1.78
Location=ORR; Formation = DISMAL GAP; Site=19,22,32; Sample type—Regular;
A =5012; B=5015; C=5018; A lab split=' '
Aluninun
mg/kg
8330.00
90400.00
94000.00
Antimony
mg/kg
0.45
0.39
0.28
Arsenic
mg/kg
4.84
J
5.69
J
4.61
Barium
mg/kg
31.80
J
231.00
J
196.00
Cerium
mg/kg
56.70
J
78.80
J
72.10
Cesiun
mg/kg
3.17
4.80
4.39
Chromium
mg/kg
61.40
J
82.50
J
80.10
Cobalt
mg/kg
15.70
J
22.50
J
13.40
Europiun
mg/kg
0.73
0.92
1.00
Ga11i un
mg/kg
13.80
J
20.20
J
23.00
Gold
mg/kg
0.01
0.01
0.01
Hafniun
mg/kg
9.91
J
6.24
J
5.83
I ron
mg/kg
26900.00
J
41900.00
J
40000.00
Lanthanun
mg/kg
34.50
J
41.50
J
41.30
Lutetium
mg/kg
0.43
J
0.20
J
0.23
Magnesiun
mg/kg
1140.00
9000.00
7790.00
Manganese
mg/kg
148.00
379.00
771.00
Mercury
mg/kg
0.65
U
0.78
U
0.78
U
Potassiun
mg/kg
16500.00
21200.00
22200.00
Rubidium
mg/kg
172.00
u
447.00
U
1140.00
U
Scandiun
mg/kg
8.51
13.00
14.40
SiIver
mg/kg
1.26
J
1.56
J
1.58
J
Sodiun
mg/kg
888.00
1040.00
1260.00
Terbiun
mg/kg
0.92
0.69
0.32
Thoriun-232
mg/kg
10.50
J
13.00
J
12.00
J
Titanium
mg/kg
834.00
5050.00
3460.00
Uraniun-235
mg/kg
0.03
0.02
0.02
Uraniun-238
mg/kg
3.33
2.74
3.03
Vanadium
mg/kg
9.92
89.80
92.30
Ytterbium
mg/kg
1.91
0.82
1.72
-------�
H-18
Tabic H.1 (cootinucd)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Location=ORR; Formahon-DISMAL GAP; Site=2,26,43; Sample rype=Regular;
A =5030; B=5033; C=5036; A lab split=' '
Muni r>un
mg/
g
52000.00
76200.00
84500.00
Ant i mony
mg/
g
0.51
0.26
0.19
Arsenic
mg/
9
4.53
J
6.23
J
4.95
Barim
mg/
9
546.00
J
159.00
J
246.00
Cerium
mg/
9
56.00
J
53.60
J
70.00
Cesium
mg/
9
2.84
4.64
4.57
Chromium
mg/
9
64.20
J
77.70
J
87.50
Cobalt
mg/
9
19.00
J
11.40
J
50.40
Europium
mg/
9
0.60
0.65
0.94
Ga 11 i un
mg/
9
15.20
J
15.90
J __
19.10
Gold
mg/
9
0.01
0.01
0.01
Hafnium
mg/
9
10.10
J
7.32
J
7.14
Iron
mg/
9
26400.00
J
37200.00
J
42700.00
Lanthanum
mg/
9
32.80
J
40.40
J
44.40
Lutetiun
mg/
9
0.43
J
0.32
J
0.25
Magnesium
mg/
9
4120.00
10400.00
8490.00
Manganese
mg/
9
1060.00
217.00
2900.00
Mercury
mg/
9
0.70
U
1.01
U
0.97
U
Potassium
mg/
9
17300.00
21200.00
22000.00
Rubidium
mg/
9
1080.00
11
1240.00
U
1750.00
U
Scandium
mg/
9
8.48
11.70
14.20
SiIver
mg/
9
1.33
J
2.04
J
1.93
J
Sodium
mg/
9
836.00
716.00
843.00
Terbiun
mg/
9
0.42
0.41
u
0.39
U
Thoriun-232
mg/
9
9.74
J
12.40
J
13.40
J
T i taniura
mg/
9
5900.00
5820.00
4340.00
Uranium-235
mg/
9
0.03
0.02
0.02
Uraniun-238
mg/
9
4.74
2.60
3.48
Vanadium
mg/
9
56.10
94.30
76.20
Ytterbium
mg/
9
1.47
2.62
u
1.69
Location=ORR; Formation = DISMAL GAP; Site=2,26,43; Sample type=Field Duplicate;
A =5039; B=5042; C=5045; A lab split=' '
Aluminum
mg/
9
47800.00
68400.00
93000.00
Ant i mony
mg/
9
0.40
0.20
u
0.23
Arsenic
mg/
9
5.60
J
3.99
J
5.11
J
Barium
mg/
9
179.00
J
262.00
J
307.00
J
Cerium
mg/
9
47.50
J
101.00
J
54.40
J
Cesiun
mg/
9
2.71
4.96
4.24
Chromium
mg/
g
60.00
J
' 103.00
J
72.10
J
Cobalt
mg/
9
18.40
J
14.70
J
17.90
J
Europium
mg/
9
0.58
1.41
0.71
Gallium
mg/
9
13.90
J
28.20
J
18.00
J
Gold
mg/
9
0.01
0.01
0.01
Hafnium
mg/
9
9.74
J
5.99
J
7.62
J
Iron
mg/
9
25300.00
41800.00
J
33600.00
J
Lanthanum
mg/
9
31.60
J
58.60
J
37.90
J
Lutetiun
mg/
9
0.32
J
0.53
J
0.31
J
Magnesium
mg/
9
5470.00
7750.00
10000.00
Manganese
mg/
9
993.00
456.00
348.00
Mercury
mg/
9
0.72
u
0.98
U
0.84
U
Potassium
mg/
9
16000.00
27300.00
19800.00
Rubidium
mg/
9
512.00
u
424.00
U
410.00
U
Scandium
mg/
9
8.29
14.90
10.90
SiIver
mg/
9
1.38
J
1.95
J
1.65
J
Sodium
mg/
9
830.00
621.00
733.00
Terbiun
mg/
9
1.00
1.24
0.39
Thoriun-232
mg/
9
9.65
J
13.20
J
11.40
J
T i tanium
mg/
9
4670.00
5500.00
5300.00
Uranium-235
mg/
9
0.03
0.02
0.01
Uraniun-238
mg/
9
4.73
4.27
3.44
Vanadium
mg/
9
59.60
77.20
88.60
Ytterbium
mg/
9
3.33
0.49
2.24
-------�
H-19
Tabic H.1 (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Location=ORR; Formation =NOLICHUCKY; Site=15,23,23; Sample type=Regular;
.4=5057; B=506Cr, C=5063; A lab split =' '
Aluminum
mg/kg
57100.00
90500.00
89000.00
Antimony
mg/kg
0.62
0.41
0.33
Arsenic
mg/kg
6.83
J
6.69
J
5.60
J
Bariun
mg/kg
195.00
J
115.00
J
183.00
J
Cerium
mg/kg
49.00
J
51.30
J
78.30
J
Cesium
mg/kg
3.43
6.56
5.67
Chromium
rag/kg
75.10
J
90.10
J
93.40
Cobalt
mg/kg
12.60
J
9.49
J
13.50
J
Europium
mg/kg
0.55
0.79
0.73
Gall inn
mg/kg
13.70
J
28.00
J
41.00
J
Gold
mg/kg
0.01
0.01
0.01
Hafnium
mg/kg
9.17
J
5.94
J
5.02
J
I ron
mg/kg
34200.00
J
47400.00
J
52800.00
J
lanthanun
mg/kg
32.70
J
38.70
J
43.00
J
Lutetium
mg/kg
0.37
J
0.22
J
0.36
J
Magnesium
mg/kg
4730.00
7360.00
7970.00
Manganese
mg/kg
494.00
134.00
243.00
Mercury
mg/kg
0.74
U
0.90
U
0.34
Potassium
mg/kg
16100.00
20900.00
28400.00
Rubidium
mg/kg
382.00
u
364.00
u
403.00
U
Scandiun
mg/kg
8.74
12.70
15.10
SiIver
mg/kg
1.41
J
1.81
J
2.13
J
Sodium
mg/kg
356.00
298.00
343.00
Terbium
mg/kg
0.21
0.37
u
0.43
u
Thorium-232
mg/kg
11.70
J
15.10
j
15.80
J
Titanium
mg/kg
4920.00
5060.00
4610.00
Uranium-235
rag/kg
0.03
0.02
0.02
Uranium-238
mg/kg
4.51
2.69
3.20
Vanadium
mg/kg
67.00
99.70
84.60
Ytterbium
mg/kg
3.19
2.48
u
1.41
Location=ORR; Formation =NOLlCHUCKY; Sue=16,28,42; Sample type ^Regular;
A =5066; B=5069; C=5072; A lab split =' '
Aluminum
mg/
g
42800.00
72700.00
85200.00
Ant i mony
mg/
9
0.48
0.31
0.34
Arsenic
mg/
9
5.96
J
7.98
J
5.57
Barium
mg/
9
186.00
J
108.00
J
7860.00
J
Cerium
mg/
9
48.60
J
56.80
J
73.00
J
Cesium
mg/
9
2.36
4.32
6.28
Chromium
mg/
9
75.90
J
85.30
J
90.80
J
Cobalt
mg/
9
14.10
J
18.40
J
25.00
J
Europium
mg/
g
0.61
0.62
0.60
Galliun
mg/
9
16.40
J
15.00
J
21.50
J
Gold
mg/
9
0.01
0.01
0.01
Hafnium
mg/
9
10.80
J
7.23
J
5.96
J
Iron
mg/
9
30900.00
J
49100.00
J
54700.00
J
Lanthanun
mg/
9
32.30
J
40.80
J
40.10
J
Lutetium
mg/
9
0.33
J
0.15
J
0.29
J
Magnesium
mg/
9
3730.00
6660.00
7840.00
Manganese
mg/
g
579.00
387.00
655.00
Mercury
mg/
g
0.79
U
0.97
U
1.23
U
Potassium
mg/
9
16000.00
20100.00
28100.00
Rubidium
mg/
9
366.00
u
401.00
u
661.00
u
Scandium
mg/
g
8.47
12.10
14.10
SiIver
mg/
9
1.50
J
1.89
J
1.18
J
Sodium
mg/
g
367.00
337.00
317.00
Terbium
mg/
9
0.40
0.39
u
0.29
Thorium-232
mg/
9.
11.90
J
15.80
J
14.40
J
Titanium
mg/
9
4920.00
5510.00
9880.00
Uranium-235
mg/
9
0.03
0.02
0.02
Uranium-238
mg/
9
3.11
3.04
2.84
Vanadium
mg/
9
50.00
83.70
89.10
Ytterbium
mg/
9
2.29
0.28
2.40
Zinc
mg/
g
88.50
-------�
H-20
Tabic H.1 (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Location=ORR; Formation =tlOLICHUCKY; Site=3,13,24; Sample type=Re%ular,
A=5084; B=5087; 0=5090; A lab splL=' '
Alum nun
mg/kg
50400.00
114000.00
103000.00
Antimony
mg/kg
0.51
0.63
0.62
Arsenic
mg/kg
4.51
J
7.42
J
7.81
J
Bar i lib
mg/kg
13100.00
J
6260.00
J
5740.00
J
Ceriin
mg/kg
59.30
J
79.50
J
152.00
j
Cesium
mg/kg
3.08
5.76
8.88
Chromiun
mg/kg
58.00
J
86.40
J
128.00
J
Cobalt
mg/kg
18.20
J
37.80
J
28.10
J
Europiun
mg/kg
0.51
0.75
1.31
Gallium
mg/kg
18.10
J
26.10
J
38.30
J
Gold
mg/kg
0.01
0.01
0.01
Hafniun
mg/kg
11.10
J
6.75
J
9.51
J
Iron
mg/kg
25300.00
J
48600.00
J
69700.00
J
Lanthanun
mg/kg
31.20
J
41.70
J
63.90
J
Lutetiun
mg/kg
0.33
J
0.27
J
0.62
J
Magnesium
mg/kg
4760.00
10400.00
9230.00
Manganese
mg/kg
770.00
402.00
332.00
Mercury
mg/kg
1.10
U
1.28
U
1.64
U
Potassium
mg/kg
16600.00
23800.00
42800.00
Rubidiun
mg/kg
896.00
u
541.00
u
491.00
u
Scandiun
mg/kg
7.88
13.20
22.60
SiIver
mg/kg
1.10
J
2.25
J
2.96
J
Sodiun
mg/kg
442.00
342.00
484.00
Terbiun
mg/kg
0.42
0.36
0.54
Thoriun-232
mg/kg
11.40
J
15.00
J
24.00
J
Titaniun
mg/kg
9230.00
9560.00
8800.00
Uraniui-235
mg/kg
0.02
0.02
0.02
Uraniun-238
mg/kg
4.13
3.58
5.16
Vanadiua
mg/kg
47.30
99.50
88.60
Ytterbiun
mg/kg
3.14
3.52
3.86
Zinc
mg/kg
58.20
73.10
144.00
Location=ORR; Formation=NOLICHUCKY; She—5,21,31; Sample type=Regular;
A =5075; B
=5078; C
=5081; A lab
split=' '
Aluninun
mg/kg
65900.00
87200.00
108000.00
Ant i mony
mg/kg
0.45
0.41
0.26
Arsenic
mg/kg
4.94
J
5.91
J
5.51
J
Bariun
mg/kg
5640.00
J
5430.00
J
7530.00
J
Ceriun
mg/kg
63.00
J
74.00
J
Cesium
mg/kg
3.04
4.39
Chromiun
mg/kg
63.00
J
81.00
J
Cobalt
mg/kg
16.60
J
12.60
J
Europiun
mg/kg
0.65
0.84
Galliun
mg/kg
13.80
J
21.10
J
20.10
J
Gold
mg/kg
0.01
0.01
0.01
U
Hafniun
mg/kg
9.11
J
6.81
J
Iron
mg/kg
27400.00
J
43100.00
J
Lanthanum
mg/kg
32.30
J
40.40
J
43.10
J
Lutetiun
mg/kg
0.37
J
0.31
J
Magnesium
mg/kg
4630.00
7750.00
8700.00
Manganese
mg/kg
620.00
258.00
457.00
Mercury
mg/kg
0.28
u
1.02
u
Potass iun
mg/kg
15500.00
20400.00
25800.00
Rubidiun
mg/kg
471.00
u
464.00
u
637.00
u
Scandiun
mg/kg
8.38
11.90
Silver
mg/kg
0.48
J
0.29
J
Sodiun
mg/kg
463.00
411.00
410.00
Terbium
mg/kg
0.45
0.36
Thoriun-232
mg/kg
11.70
j
14.00
J
T itani un
mg/kg
10800.00
11600.00
11900.00
Uraniun-235
mg/kg
0.03
0.02
0.02
Uraniun-238
mg/kg
3.76
3.38
2.71
Vanadiun
mg/kg
66.60
90.50
107.00
Ytterbiun
mg/kg
3.10
2.55
Zinc
mg/kg
67.30
74.80
-------�
H-21
Table H.1 (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Locaiion=ROA; Formation=COPPER RIDGE; Site =33,35,44; Sample type=Regular;
A =6048; B=6051; C=6054; A lab split=' '
AI Lin i nun
mg/
9
12.00
U
45100.00
95700.00
Antimony
mg/
9
0.73
0.99
1.76
Arsenic
mg/
9
13.10
J
20.50
J
38.20
Barium
mg/
9
1.68
J
164.00
J
110.00
Cerium
mg/
9
38.AO
J
33.20
J
46.00
Cesium
mg/
9
2.00
3.53
4.84
Chromium
mg/
9
29.90
J
46.70
J
61.00
Cobalt
mg/
9
10.30
J
8.42
J
8.71
Europium
mg/
9
0.60
0.48
0.48
Ga11 i un
mg/
9
16.50
J
15.90
J
24.60
Gold
mg/
9
0.01
0.01
0.00
Hafni un
mg/
9
5.24
J
5.37
J
3.90
I ron
mg/
9
16900.00
J
27800.00
J
49300.00
Lanthanum
mg/
S
19.70
J
19.40
J
26.60
Lutetium
mg/
9
0.20
J
0.21
J
0.21
Magnesium
mg/
9
16.20
U
2520.00
3460.00
Manganese
mg/
9
0.06
U
209.00
107.00
Mercury
mg/
g
0.71
u
0.94
U
0.39
Potassiun
mg/
9
4340.00
4780.00
4610.00
Rubidium
mg/
9
401.00
U
471.00
Scandium
mg/
9
3.61
7.54
12.40
SiIver
mg/
9
1.18
J
1.67
J
1.88
Sodium
mg/
9
426.00
313.00
169.00
Terbiun
mg/
9
0.47
0.31
0.29
Thoriun-232
mg/
g
5.48
J
8.77
J
13.20
Titanium
mg/
9
6.31
u
4240.00
4480.00
Uraniun-235
mg/
9
0.02
0.03
0.04
Uranium-238
mg/
9
2.86
4.48
5.58
Vanadium
mg/
9
0.05
u
77.70
146.00
Ytterbium
mg/
g
2.25
2.32
1.34
Zinc
mg/
9
55.20
92.50
122.00
Location— ROA; Formation — COPPER RIDGE; Sile=34,39,41; Sample tvpe=Regular;
A =6086; B=6089; C=6092; A lab split=' '
Aluninun
mg/
9
20400.00
50800.00
66100.00
Antimony
mg/
9
0.86
1.07
1.64
Arsenic
mg/
9
17.10
J
14.60
J
47.40
Barium
mg/
9
302.00
J
113.00
J
60.40
Cerium
mg/
9
28.60
J
17.00
J
35.80
Cesium
mg/
9
1.74
1.81
3.37
Chromium
mg/
9
27.90
J
20.30
J
49.50
Cobalt
mg/
9
5.54
J
2.61
J
4.47
Europiun
mg/
9
0.40
0.21
0.37
Gal Iium
mg/
9
15.60
J
12.50
J
20.00
Gold
mg/
9
0.01
0.00
0.01
Hafnium
mg/
9
4.96
J
1.90
J
3.07
I ron
mg/
9
13400.00
J
17300.00
J
47800.00
Lanthanum
mg/
9
15.20
J
10.80
J
29.90
Lutetiun
mg/
9
0.16
J
0.06
J
0.17
Magnesium
mg/
g
936.00
2170.00
2700.00
Manganese
mg/
g
959.00
233.00
122.00
Mercury
mg/
9
0.22
U
0.52
U
1.04
U
Potass iun
mg/
9
3050.00
1340.00
3720.00
Rubidiun
mg/
9
798.00
u
299.00
u
250.00
U
Scandium
mg/
9
3.47
3.73
10.80
SiIver
mg/
9
0.36
J
0.89
J
1.81
J
Sodiun
mg/
g
354.00
90.20
147.00
T erbium
mg/
9
0.38
0.17
0.32
U
Thorium-232
mg/
9
4.45
J
4.36
J
11.00
J
T i tanium
mg/
9
3970.00
3660.00
2850.00
Uraniun-235
mg/
9
0.02
0.03
0.04
Uranium-238
mg/
9
3.77
2.02
6.07
Vanadium
mg/
9
34.80
93.10
115.00
Ytterbium
mg/
9
1.49
0.77
u
0.14
Zinc
mg/
9
58.50
53.60
122.00
-------�
H-22
Tabic H.1 (continued)
A bonzon B horizon C honzon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Location =ROA; Formation=C OP PER RIDGE; Site=40,42,43; Sample type=Regular;
A =6057; B=6060; C=6063; A lab splil=' '
Muni nun
mg/
g
16300.00
42000.00
60300.00
Antimony
mg/
9
0.58
0.85
1.18
Arsenic
mg/
9
4.50
J
12.40
J
22.80
J
Barium
mg/
9
132.00
J
86.50
J
92.50
J
Cerium
mg/
9
27.90
J
19.80
J
17.20
J
Cesium
mg/
9
1.65
3.25
3.55
Chromium
mg/
9
23.80
J
37.30
J
48.00
J
Cobalt
mg/
9
2.59
J
3.95
J
4.27
J
Europium
mg/
9
0.39
0.35
0.21
Ga U i un
mg/
9
15.20
J
17.50
J
15.00
J
Gold
mg/
9
0.01
0.01
0.00
Hafnium
mg/
9
6.63
J
5.06
J
3.14
J
I ron
mg/
g
8370.00
J
20600.00
J
35000.00
J
Lanthanum
mg/
9
14.80
J
12.70
J
11.80
J
Lutetiun
mg/
9
0.17
J
0.16
J
0.08
J
Magnes i un
mg/
9
818.00
2170.00
3200.00
Manganese
mg/
9
232.00
78.50
53.50
Mercury
mg/
9
0.61
U
0.79
U
0.78
U
Potassium
mg/
9
2960.00
3150.00
3160.00
Rubidium
mg/
9
253.00
u
263.00
u
413.00
u
Scandium
mg/
9
2.52
4.33
5.99
SiIver
mg/
9
0.94
J
1.33
J
1.32
J
Sodium
mg/
9
431.00
224.00
148.00
Terbium
mg/
9
0.42
0.42
0.24
u
Thorium-232
mg/
9
4.28
J
6.88
J
9.76
J
Titanium
mg/
9
3920.00
4510.00
3550.00
Uranium-235
mg/
9
0.02
0.02
0.03
Uranium-238
mg/
9
2.80
3.88
3.79
Vanadium
mg/
9
30.00
76.70
113.00
Ytterbium
mg/
9
1.35
1.34
1.42
Zinc
mg/
9
34.20
51.10
42.10
Location =ROA; Formadon=COPPER RIDGE; Site=45,46,47; Sample type=Reguiar;
A =6075; B=6072; C=6066; A lab split=' '
Aluminum
mg/
9
18400.00
34900.00
217.00
Antimony
mg/
9
0.56
1.27
1.69
Arsenic
mg/
9
6.07
J
23.00
J
31.70
J
Barium
mg/
9
353.00
J
168.00
J
3.39
J
Cerium
mg/
9
42.90
J
25.60
J
33.20
J
Cesium
mg/
9
2.20
3.32
5.74
Chromium
mg/
9
28.40
J
43.90
J
65.10
J
Cobalt
mg/
9
7.17
J
3.90
J
4.60
J
Europium
mg/
9
0.58
0.40
0.37
Gallium
mg/
9
21.00
J
19.10
J
17.30
J
Gold
mg/
9
0.01
0.01
0.01
Hafnium
mg/
9
6.69
J
5.46
J
6.08
J
Iron
mg/
9
9830.00
J
23400.00
J
42600.00
J
Lanthanum
mg/
9
19.80
J
14.40
J
19.20
J
Lutetiun
mg/
9
0.23
J
0.17
J
0.25
J
Magnes inn
mg/
9
956.00
2020.00
38.20
Manganese
mg/
9
1260.00
139.00
0.12
Mercury
mg/
9
0.73
U
0.74
u
0.33
u
Potassium
mg/
9
2690.00
3200.00
5080.00
Rubidium
mg/
9
936.00
U
396.00
u
13.20
u
Scandium
mg/
9
3.08
4.45
8.94
Si Iver
mg/
9
1.15
J
1.19
J
0.56
J
Sodium
mg/
9
414.00
270.00
217.00
Terbium
mg/
9
0.59
0.32
0.31
Thorium-232
mg/
9
5.16
J
7.41
J
13.90
J
Titanium
mg/
9
5140.00
4340.00
25.70
Uranium-235
mg/
9
0.02
0.03
0.03
Uranium-238
mg/
9
3.20
3.41
5.95
Vanadium
mg/
9
36.60
65.00
0.06
u
Ytterbium
mg/
9
2.07
1.77
1.65
Zinc
mg/
9
31.50
35.30
55.10
-------�
H-23
Tabic H.1 (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Location —ROA; Formation=COPPER RIDGE; Site=45,46,47; Sample type = Field Duplicate;
A =6078; B=6081; C=6069 A lab split=' '
Muni nun
mg/kg
20600.00
34100.00
51300.00
Ant i mony
mg/kg
1.19
0.83
1.22
Arsenic
mg/kg
18.70
J
13.70
J
23.70
J
Barium
mg/kg
268.00
J
117.00
J
81.90
J
Ceriun
mg/kg
49.90
J
26.10
J
23.00
J
Cesium
mg/kg
2.13
3.35
4.43
Chromiun
mg/kg
56.90
J
36.70
J
42.60
J
Cobalt
mg/kg
8.55
J
3.18
J
3.36
J
Europiun
mg/kg
0.57
0.35
0.28
Gal I iun
mg/kg
21.40
J
20.60
J
17.20
J
Gold
mg/kg
0.01
0.01
0.01
Hafniun
mg/kg
6.96
J
5.32
J
3.97
J
Iron
mg/kg
28100.00
J
20700.00
J
30100.00
J
Lanthanun
mg/kg
20.40
J
14.30
J
13.90
J
Lutetiun
mg/kg
0.22
J
0.18
J
0.16
J
Magnesiun
mg/kg
1120.00
2000.00
2710.00
Manganese
mg/kg
1150.00
117.00
67.90
Mercury
mg/kg
0.77
U
1.07
u
0.79
u
Potassiun
mg/kg
2740.00
2980.00
3290.00
Rubidiun
mg/kg
858.00
U
79.20
339.00
u
Scandium
mg/kg
3.31
4.75
6.22
Si Iver
mg/kg
1.19
J
1.82
J
1.30
J
Sodiun
mg/kg
403.00
235.00
154.00
Terbium
mg/kg
0.67
0.25
0.29
Thoriun-232
mg/kg
7.87
J
7.40
J
9.57
J
Titanium
mg/kg
4070.00
4200.00
4190.00
Uraniun-235
mg/kg
0.02
0.03
0.03
Uranium-238
mg/kg
3.98
3.62
4.07
Vanadium
mg/kg
35.50
66.60
98.20
Ytterbium
mg/kg
1.27
1.46
u
1.01
u
Zinc
mg/kg
31.30
17.30
27.00
Location-ROA; Formation
II
|
to
S'
=10,13,14; Sample
type*
A =6030; B=6033; C
=6036; A lab split=' '
Aluminum
mg/kg
48700.00
94800.00
97000.00
Antimony
mg/kg
0.57
0.42
0.27
Arsenic
mg/kg
7.05
J
6.80
J
5.53
"J
Barium
mg/kg
10900.00
J
1880.00
J
5200.00
J
Ceriun
mg/kg
60.60
J
80.40
J
87.40
J
Cesium
mg/kg
2.58
5.64
5.51
Chromiun
mg/kg
70.00
J
94.70
J
96.70
J
Cobalt
mg/kg
31.00
J
14.40
J
17.10
J
Europiun
mg/kg
0.72
0.78
0.97
Ga11i un
mg/kg
15.60
J
30.20
J
31.30
J
Gold
mg/kg
0.01
0.01
0.01
Hafniun
mg/kg
9.68
J
5.95
J
5.09
J
Iron
mg/kg
31800.00
J
54500.00
J
52300.00
J
Lanthanun
mg/kg
30.40
J
44.50
J
45.80
J
Lutetiun
mg/kg
0.36
J
0.42
J
0.33
J
Magnesium
mg/kg
4580.00
8730.00
8890.00
Manganese
mg/kg
1430.00
196.00
326.00
Mercury
mg/kg
1.11
U
1.26
U
1.40
u
Potassium
mg/kg
11400.00
22100.00
27800.00
Rubidiun
mg/kg
925.00
u
436.00
u
441.00
u
Scandium
mg/kg
7.13
13.80
15.70
SiIver
mg/kg
1.85
J
2.22
J
2.50
J
Sod iun
mg/kg
630.00
471.00
836.00
Terbium
mg/kg
0.49
0.53
0.67
Thorium-232
mg/kg
10.90
J
14.70
J
15.30
J
Titaniun
mg/kg
1460.00
u
10200.00
637.00
u
Uraniun-235
mg/kg
0.02
0.02
0.02
Uranium-238
mg/kg
2.90
3.29
2.86
Vanadiun
mg/kg
51.90
91.70
86.70
Ytterbium
mg/kg
4.86
0.20
0.41
Zinc
mg/kg
83.10
89.00
97.80
-------�
H-24
Table H.1 (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Location =ROA; Formation —DISMAL GAP; Site=10,13,14; Sample type—Field Duplicate;
A =6039; B=6042; C=6045; A lab split=' '
Aluminum
mg/
9
61600.00
108000.00
78300.00
Antimony
mg/
g
0.64
0.43
0.16
U
Arsenic
mg/
9
7.14
J
6.62
J
5.01
J
Barium
mg/
9
15300.00
J
6300.00
J
229.00
J
Ceriun
mg/
9
63.60
J
81.20
J
97.70
J
Cesiun
mg/
9
3.00
5.41
5.81
Chronriun
mg/
9
65.00
J
97.30
J
96.30
J
Cobalt
mg/
9
38.40
J
13.50
J
25.50
J
Europium
mg/
9
0.65
0.74
1.12'
Gallium
mg/
9
8.85
J
22.60
J
27.10
J
Gold
mg/
9
0.01
0.01
0.01
Hafnium
mg/
9
9.65
J
4.99
J
4.62
J
I ron
mg/
9
32400.00
J
53700.00
J
51800.00
J
Lanthanum
mg/
9
30.80
J
45.40
J
48.30
J
Lutetiun
mg/
9
0.37
J
0.26
J
0.27
J
Magnesium
mg/
9
5440.00
8030.00
7900.00
Manganese
mg/
9
1610.00
233.00
620.00
Hercury
mg/
9
1.20
U
1.28
U
1.54
U
Potassium
mg/
9
12200.00
23900.00
29200.00
Rubidium
mg/
9
1280.00
U
552.00
U
578.00
u
Scandium
mg/
9
7.57
14.70
17.40
SiIver
mg/
9
1.98
J
2.28
J
2.94
J
Sodium
mg/
9
641.00
445.00
1070.00
Terbium
mg/
9
0.64
0.46
0.40
Thorium-232
mg/
9
11.40
J
14.70
J
15.80
J
Titanium
mg/
9
11100.00
10600.00
3730.00
Uranium-235
mg/
9
0.02
0.02
0.02
Uranium-238
mg/
9
3.24
2.79
2.87
Vanadium
mg/
9
73.80
96.80
74.80
Ytterbium
mg/
9
3.37
2.45
U
3.21
Zinc
mg/
9
85.80
97.80
173.00
Location =ROA; Formation = DISMAL GAP; Siie=3,7,21; Sample type=Regidar;
A =6021; B=6024; C=6027; A lab split=' '
Aluminum
mg/
9
61900.00
64100.00
93300.00
Ant i mony
mg/
9
0.55
0.54
0.48
Arsenic
mg/
9
5.38
J
5.81
J
6.25
J
Bariun
mg/
9
12400.00
J
6510.00
J
3550.00
J
Cerium
mg/
9
62.60
J
63.00
J
76.20
J
Cesium
mg/
9
3.14
3.82
5.54
Chromium
mg/
9
73.00
J
63.70
J
92.10
J
Cobalt
mg/
9
19.50
J
22.50
J
9.55
J
Europium
mg/
9
0.65
0.64
0.88
Gallium
mg/
9
16.90
J
13.80
J
30.80
J
Gold
mg/
9
0.01
0.01
0.01
Hafnium
mg/
9
10.30
J
11.10
J
7.64
J
Iron
mg/
9
31900.00
J
31700.00
J
53700.00
J
Lanthanum
mg/
9
31.70
J
31.80
J
41.40
J
Lutetiun
mg/
9
0.36
J
0.47
J
0.25
J
Magnesium
mg/
9
6060.00
4500.00
7930.00
Manganese
mg/
9
1150.00
718.00
131.00
Mercury
mg/
9
1.13
u
1.08
U
1.34
U
Potassium
mg/
9
14300.00
12200.00
21800.00
Rubidium
mg/
9
997.00
u
561.00
u
387.00
u
Scandium
mg/
9
8.94
8.87
14.50
SiIver
mg/
9
1.91
J
1.82
J
2.39
J
Sodium
mg/
9
536.00
543.00
546.00
Terbium
mg/
9
0.45
0.62
0.49
Thorium-232
mg/
9
11.60
J
12.10
J
15.00
J
Titanium
mg/
9
9810.00
980.00
u
10200.00
Uranium-235
mg/
9
0.02
0.03
0.02
Uranium-238
mg/
9
3.37
3.15
4.24
Vanadium
mg/
9
72.60
71.60
95.50
Ytterbium
mg/
9
3.14
2.40
2.19
Zinc
mg/
9
72.40
62.40
82.50
-------�
H-25
Tabic H.1 (continued)
A honzon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Locarion = ROA; Formation =DISMAL GAP; Siie=8,20,22; Sample type=Regular;
A =6012; B=6015; C=6018; A lab splii=' '
Alunirxjn
mg/kg
42900.00
106000.00
124000.00
Antimony
mg/kg
0.46
0.56
0.27
Arsenic
rag/kg
4.41
J
6.05
4.30
J
Bariiia
mg/kg
5640.00
J
8490.00
J
5960.00
J
Ceriin
mg/kg
48.40
J
68.20
J
78.40
J
Cesium
mg/kg
2.23
5.44
5.63
Chromium
mg/kg
56.80
J
84.10
J
92.40
J
Cobalt
mg/kg
10.70
J
8.95
J
9.43
J
Europium
mg/kg
0.51
0.66
0.80
Gal I inn
mg/kg
9.16
J
21.20
J
30.70
J
Gold
mg/kg
0.01
0.01
0.01
Hafnium
mg/kg
12.90
J
9.30
J
5.94
J
I ron
mg/kg
23600.00
J
43000.00
J
49900.00
J
Lanthanum
mg/kg
25.40
J
37.60
J
43.30
J
lutetium
mg/kg
0.37
J
0.32
J
0.29
J
Magnesium
mg/kg
2760.00
6630.00
9560.00
Manganese
mg/kg
589.00
88.40
116.00
Mercury
mg/kg
0.94
U
1.34
U
1.52
u
Potassium
mg/kg
8230.00
16100.00
26200.00
Rubidium
mg/kg
462.00
u
938.00
U
554.00
u
Scandium
mg/kg
6.45
11.60
15.20
SiIver
mg/kg
1.57
J
2.37
J
2.72
J
Sodium
mg/kg
437.00
356.00
399.00
Terbium
mg/kg
0.50
0.42
0.64
Thorium-232
mg/kg
9.57
J
13.70
J
14.50
J
Titanium
mg/kg
10300.00
383.00
10600.00
Uranium-235
mg/kg
0.02
0.02
0.02
Uranium-238
mg/kg
3.11
3.90
2.65
Vanadium
mg/kg
48.20
102.00
104.00
Ytterbium
mg/kg
4.85
3.35
1.84
Zinc
mg/kg
55.10
82.20
108.00
Locarion = ROA; Formation = DISMAL GAP; Siie=9J7,19; Sample type=Regular;
A =6006; B=6003; C=6009; A lab splii=' '
Aluminum
mg/
9
56400.00
56300.00
94200.00
Ant i mony
mg/
9
0.53
0.61
0.51
Arsenic
mg/
9
6.20
J
7.72
J
6.98
" J
Barium
mg/
9
155.00
J
10700.00
J
5090.00
J
Cerium
mg/
9
59.40
J
66.10
J
77.90
J
Cesium
mg/
9
3.57
3.39
5.20
Chromium
mg/
g
66.80
J
75.90
J
90.10
J
Cobalt
mg/
9
17.60
J
21.60
J
27.60
J
Europium
mg/
g
0.63
0.72
0.66
Ga11i um
mg/
9
18.00
J
14.30
J
25.50
J
Gold
mg/
9
0.01
0.01
0.01
Hafnium
mg/
9
9.72
J
10.30
J
6.46
J
Iron
mg/
9
27400.00
J
33100.00
J
49600.00
J
Lanthanum
mg/
9
32.50
J
33.00
J
41.20
J
Lutetium
mg/
9
0.36
J
0.37
J
0.32
J
Magnesium
mg/
9
3730.00
6780.00
8630.00
Manganese
mg/
9
826.00
668.00
631.00
Mercury
mg/
9
1.09
U
1.25
U
1.47
U
Potassium
mg/
9
11300.00
11900.00
23200.00
Rubidium
mg/
9
1300.00
U
897.00
u
630.00
U
Scandium
mg/
9
8.71
8.95
14.10
SiIver
mg/
9
2.14
J
2.19
J
2.60
J
Sodium
mg/
9
571.00
562.00
621.00
Terbium
mg/
9
0.46
0.62
0.29
Thorium-232
mg/
9
11.50
J
12.90
J
14.80
J
T i tanium
mg/
9
7130.00
11600.00
10300.00
Uranium-235
mg/
9
0.03
0.03
0.02
Uranium-238
mg/
9
3.19
3.97
3.34
Vanadium
mg/
9
78.00
77.40
91.90
Ytterbiun
mg/
9
3.34
3.38
2.20
u
Zinc
mg/
9
105.00
70.10
90.60
-------�
H-26
Tabic H.1 (continued)
A horizon B horizon C horizon A lab split
Units result Qualifier result Qualifier result Qualifier result Qualifier
Analysis
Location =AND; Formation=COPPER RIDGE; Site=31,32,36; Sample type=Regular;
A = 7059; B=7062; C =7065; A lab split =' '
Potassiun-40
Thoriun-232
Uraniun-235
Uranism-238
pCi/g
pci/g
PCi/g
pci/g
0.5761
0.0527
5.2761
0.8569
0.0716
1.6132
6.1929
0.9413
0.0705
1.5965
Location —AND; Formarion=COPPER RIDGE; Site=33,34,35; Sample type=Regu!ar;
A=7050; B=7053; C =7056; A lab split=' '
Potassiun-40
Thoriun-232
Uraniun-235
Uraniifn-238
pCi/g
pCi/g
pCi/g
pci/g
3.1090
0.7215
0.0581
1.4863
4.4676
0.8813
0.0688
1.1824
4.7426
1.1322
0.0748
1.3494
Location =AND; Formation = COPPER RIDGE; Site=37,38,41; Sample type = Regular
A = 7077; 8=7080; C= 7083; A lab split =' '
Potassiun-40
Thoriun-232
Uranium-235
Uranium-238
pci/g
PCi/g
pCi/g
pCi/g
4.1258
0.75 26
0.0656
1.6566
0.1575
1.2210
0.1047
5.7448
6.9847
1.5651
0.1320
2.6353
Location =AND; Formation=COPPER RIDGE; Site=39,40,42; Sample iype=Regular;
A = 7068; B=7071; C=7074; A lab split=' '
Potassiun-40
Thoriun-232
Uraniun-235
Uraniun-238
pCi/g
pCi/g
pCi/g
pci/g
4.4176
0.8802
0.0716
1.6934
4.5926
1.1544
0.0884
2.0574
4.6426
1.2432
0.0821
1.8871
Potassiun-40
Thoriun-232
Uraniun-235
Uraniun-238
Location =AND; Formation = DISMAL GAP; Site=1.20,22; Sample tvpe=ReguIar;
A = 7030; B=7033; C= 7036; A lab split=' '
pCi/g
pCi/g
pCi/g
pci/g
18.5870
1.1544
0.0510
1.1356
20.8375
1.6428
0.0516
0.9452
24.8383
1.3875
0.0456
0.7381
Location =AND; Formation =DISMAL GAP; S'ite=3,5,ll; Sample type=Regular;
A = 7012; B=7015; C=7018; A lab split=' '
Potassiun-40
Thoriun-232
Uraniun-235
Uraniun-238
pCi/g
PCi/g
pci/g
pCi/g
28.8391
0.0449
0.7749
29.4225
1.5984
0.0484
1.1022
29.9226
1.6206
0.0449
0.8985
Location =AND; Formation = DISMAL GAP; Site=4,12,21; Sample type=Regular;
A = 7021; B=7024; C=7027; A lab split =' '
Potassiun-40
Thoriun-232
Uraniun-235
Uraniun-238
pCi/g
pCi/g
pci/g
pCi/g
30.2560
1.1211
0.0467
0.7649
29.75 60
1.3542
0.D454
0.7548
32.0898
1.3764
0.0467
-------�
H-27
Tabic H.1 (continued)
Analysis
Units
A horizon B horizon C horizon
result Qualifier result Qualifier result
A lab split
Qualifier result Qualifier
Location =AND; Formnnon —DISMAL GAP; Site=9,10,19; Sample rype=Regular;
A = 7003; B=7006; C=7009; A lab split=' '
Potassiun-40
Thoriun-232
U ran inn-235
Uraniun-238
pCi/9
pCi/g
pCi/g
pCi/g
13.9195
1.0745
0.0522
1.0955
16.8367
1.3431
0.0548
1.0989
20.6708
1.4763
0.0518
1.0788
Location —AND; Formation —DISMAL GAP; Site=9,10,19; Sample type=Field Duplicate;
A = 7039; B=7042; C=7045; A lab split=' '
Potassiun-40
Thoriun-232
Uranium-235
Uraniun-238
pCi/g
PCi/g
pCi/g
pCi/g
15.4198
1.1022
0.0507
1.1122
17.0034
1.3653
0.0555
1.2525
19.7539
1.5207
0.0557
1.0454
Location =ORR; Formation = CHEPULTEPEC; S'ite=50,66,73; Sample type—Regular;
A =5169; B=5172; C=5183; A lab split=5215
Potassiun-40
Thorium-232
Uranium-235
Uranium-238
PCi/g
PCi/g
pCi/g
pCi/g
2.6172
0.6138
0.0563
1.1824
6.6430
1.2543
0.0727
1.0454
10.6688
1.2876
0.0813
1.3427
0.51393
0.04730
Location=ORR; Formation=CHEP UL TEPE C; Site =50,66,73; Sample type=Field Duplicate;
A =5177; B=5180; C=5I86; A lab splil=5214
Potassium-40
Thorium-232
Urani un-235
Uraniun-238
pCi/g
PCi/g
pCi/g
pCi/g
2.7255
0.6394
0.0572
1.1890
6.7263
1.2321
0.0729
1.2358
9.2519
1.2432
0.0806
1.7268
1.91705
0.56277
0.05268
1.19238
Location=ORR; Formaaon=CHEPULTEPEC; Site=5Z53,78; Sample npe=Regular
A =5129; B=5132; C=5135; A lab split=' '
Potassiun-40
Thoriun-232
Uraniun-235
Uraniun-238
PCi/g
PCi/g
pCi/g
pci/g
2.4005
0.54S3
0.0563
1.3393
5.6011
1.0001
0.0705
1.6967
10.3354
1.1655
0.0875
1.9005
Location=ORR; Formation=CHEPULTEPEC; Site=68,74,90; Sample type =Regular;
A=5158; B=5161; C=5164; A lab split=' '
Potassiun-40
Thoriun-232
Uraniun-235
Uraniun-238
pCi/g
PCi/g
pCi/g
PCi/g
2.2171
0.5872
0.0531
1.4997
7.7099
1.1877
0.0643
1.5631
9.6686
1.4097
0.0688
1.5230
Location=ORR; Fomumon=CHEPULTEPEC; Site = 77,85,86; Sample type=Regular;
A =5138; B=5141; C =5144; A lab split=''
Potassiun-40
Thoriun-232
Uraniun-235
Uraniun-238
pCi/g
pci/g
pCi/g
pCi/g
0.5450
0.0550
6.7597
0.9890
0.0557
1.2993
7.0431
1.0223
0.0542
-------�
H-28
Table H.1 (coatmued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Location=ORR; Formmion=CHEPULTEPEC; Site=77,85,86; Sample type=Field Duplicate;
A =5147; B=5150; C=5153; A lab split =' '
Potassi un-40 pCi/g 3.1256 6.5930 4.0175
Thoriun-232 pCi/g 0.6227 J 0.9901 J 0.5683 J
Uraniun-235 pCi/g 0.0585 0.0574 0.0630
Uraniun-238 pCi/g 1.4896 1.1289 0.6814
Location=ORR; Formation=CHICKAMAUGA Bethel V; Site=101,102,103; Sample type=Regular;
A =5198; B=5201; C=5204; A lab splits" '
Potassiun-40 pCi/g 21.5043 21.6710 21.6710
Thoriun-232 pCi/g 1.2210 J 1.4541 J 1 .5429 J
Uranium-235 pCi/g 0.0527 0.0462 0.0441
Uraniun-238 pCi/g 1.2892 0.9085 0.9419
Location = ORR; Formation=CHICKAMA UGA Bethel V; Site=104,108,110; Sample type=Regular;
A =5207; B=5210; C=5213; A lab split=' '
Potassiun-40 pCi/g 8.5851 15.0864 16.7533
Thoriun-232 pCi/g 0.9546 J 1.5762 J 1.6317 J
Uraniun-235 pCi/g 0.0565 0.0490 0.0482
Uraniun-238 pCi/g 0.9719 1.2725 0.8383
Location=ORR; Formation=CHICKAMAUGA Bethel V; Site=115,116,117; Sample type=Regular;
A =5220; B=5224; C=5227; A lab split=5221
Potassiun-40 pCi/g 6.4680 16.8367 19.0038 6.65133
Thoriun-232 pCi/g 1.0589 J 1.7205 J 1.4541 J 1.01121 J
Uraniun-235 pCi/g 0.0490 0.0585 0.0535 0.05397
Uraniun-238 pCi/g 1.0621 1.1289 1.5164 1.13226
Location—ORR; Formation=CHICKAMAUGA Bethel V; Site=93,99,100; Sample type¦= Regular;
A =5189; B=5192; C=5195; A lab split =' '
Potassiun-40 pCi/g 13.5861 20.5041 23.0880
Thoriun-232 pCi/g 1.2765 J 1.5207 J 1.5540 J
Uraniun-235 pCi/g 0.0559 0.0499 0.0467
Uraniun-238 pCi/g 1.5197 1.0354 1.0053
Location=ORR; Formation=CHICKAMA UGA K-25; Site=118,122,124; Sample type=Regular;
A =5244; B=5248; C=5251; A lab split=5245
Potassiun-40 pCi/g 10.5021 22.3378 9.83530
Thoriun-232 pCi/g 1.2321 J 1.6206 J 1.5651 J 1.25430 J
Uraniun-235 pCi/g 0.0690 0.0587 0.0499 0.06987
Uraniun-238 pCi/g 1.6700 0.9653 1.33934
Location = ORR; Formation = CHI CKAMA UGA K-25; Site=119,123,127; Sample wpe=Regular;
A =5256; B=5259; C=5262; A lab split="
Potassiun-40 pCi/g 10.8355 22.0877 22.1711
Thoriun-232 pCi/g 1.1433 J 1.6761 J 1.6872 J
Uraniun-235 pCi/g 0.0725 0.0589 0.0602
-------�
H-29
Table H.1 (continued)
A horizon B horizon C horizon A lab split
result Qualifier result Qualifier result Qualifier result Qualifier
Analysis
Units
Location=ORR; Formation=CHICKAMA UGA K-25; Site=120,126,129; Sample type = Regular
A =5232; B=5236; C=5239; A lab split=5233
Potassiun-40
Thoriun-232
Uranium-235
Uraniun-238
pCi/9
pCi/g
pCi/g
pci/g
6.3179
1.0145
0.0742
1.6099
16.5033
1.6428
0.0641
1.6900
24.8383
1.6428
0.0578
1.2993
5.87618
1.05672
0.07546
1.63326
Locanon=ORR; Formation=CHICKAMA UGA K-25; Site=121,125,128; Sample type—Regular;
A =5267; B=5270; C=5273; A lab split="
Potassiun-40
Thoriun-232
Uranium-235
Uraniun-238
pCi/g
pCi/g
pCi/9
f>Ci/g
7.3515
0.9957
0.0559
1.3226
21.5876
1.5651
0.0538
1.2158
23.3380
1.5096
0.0471
1.2592
Location=ORR; Formation=COPPER RIDGE; Site=45,60,75; Sample type =Regulan
A =5111; B=5114; C=5117;A lab split =' '
Potassium-40
Thoriun-232
Uraniun-235
Uraniun-238
pCi/g
pCi/g
pCi/g
pCi/g
2.5922
0.6682
0.0677
1.5297
3.0923
1.0745
0.0675
1.6032
5.2260
1.3431
0.0813
0.9886
Location =ORR; Formation=COPPER RIDGE; Site=51,55,62; Sample type=Regular;
A =5102; B=5105; C=5108; A lab split=' '
Potassiun-40
Thoriun-232
Uraniun-235
Uraniun-238
pCi/g
pCi/g
pCi/g
pci/g
2.7756
0.6538
0.0578
1.1590
4.0258
1.0645
0.0763
2.0207
5.8178
1.4985
0.0931
1.6600
Location=ORR; Formation=COPPER RIDGE; Site=54,64,83; Sample type=Regular;
A =5120; B=5123; C=5126; A lab split=' '
Potassiun-40
Thoriun-232
Uraniun-235
Uraniun-238
pCi/g
pci/g
pCi/g
pci/g
3.5924
0.7182
0.0740
1.8804
4.9927
1.1078
0.0836
1.5097
7.8432
1.3542
0.1056
2.1242
Location = ORR; Formation=COPPER RJDGE; Site=58,59,91; Sample type=Regular;
A =5093; B=5096; C=5099; A lab split=' '
Potassiun-40
Thoriun-232
Uraniun-235
Uraniun-238
PCi/g
pCi/g
pCi/g
pCi/g
3.2423
0.8669
0.0709
1.5564
5.0927
1.3320
0.0890
1.8871
7.2431
1.7538
0.1036
2.1443
Location=ORR; Formaaon=DISMAL GAP; Site=10,33,35; Sample type=Regular;
A =5021; B=5024; C=5027;A lab split=' '
Potassiun-40
Thorium-232
Uraniun-235
Uraniun-238
pCi/g
pCi/g
pCi/g
pCi/g
12.1691
1.0434
0.0568
1.3828
16.3366
1.3209
0.0456
1.0387
17.8369
1.3320
0.0393
-------�
Analysis
H-30
Table H.1 (cootinucd)
A horizon B horizon C bonzon A lab split
Units result Qualifier result Qualifier result Qualifier result Qualifier
Location—ORR Formation = DISMAL GAP; Site—11,27,41; Sample type=Regular;
A =5003; B=5006; C=5009; A lab split=' '
Potassiun-40
Thoriun-232
Uraniun-235
U ran inn- 238
pCi/g
pCi/g
pCi/g
pCi/g
10.8355
1.0445
0.0581
1.2926
16.4199
1.2654
0.0439
1.3226
22.0877
1.4319
0.0419
1.1323
Location=ORR Formation =DISMAL GAP; Site=19,22,32; Sample iype=Reguiar;
A—5012; B=5015; C-5018; A lab splu=' '
Potassiun-40
Thoriun-232
Uraniun-235
Uraniun-238
pCi/g
pCi/g
pCi/g
pCi/g
13.7528
1.1655
0.0538
1.1122
17.6702
1.4430
0.0452
0.9152
18.5037
1.3320
0.0417
1.0120
Location = ORR; Formation = DISMAL GAP; Site=2,26,43; Sample rype=Regular,
A =5030; B=5033; C=5036;A lab splu=' '
Potassiun-40
Thoriun-232
Uraniun-235
Uraniun-238
PCi/g
pCi/g
pCi/g
pCi/g
14.4196
1.0811
0.0643
1.5832
17.6702
1.3764
0.0499
0.8684
18.3370
1.4874
0.0495
1.1623
Location=ORR; Formation =DISMAL GAP; Site=2,26,43; Sample type =Field Duplicate;
A =5039; B=5042; C=5045; A lab spla=' '
Potassiun-40
Thoriun-232
Uraniun-235
Uraniun-238
pCi/g
pCi/g
pCi/g
pCi/g
13.3360
1.0711
0.0624
1.5798
22.7545
1.4652
0.0499
1.4262
16.5033
1.2654
0.0310
1.1490
I^ocation — ORR; Formation—NOIJCHUCKY; Site=15,23,25; Sample tvpe=Regular;
A =5057; B=5060; C=5063;A lab splu=' '
Potassiun-40
Thoriun-232
Uraniun-235
Uranium-238
pCi/g
pCi/g
pCi/g
pci/g
13.4194
1.2987
0.0542
1.5063
17.4202
1.6761
0.0439
0.8985
23.6714
1.7538
0.0417
1.0688
Location=ORR; Formation =NOLICHUCKY; Site=16,28,42; Sample type=Regular;
A =5066; B=5069; C=5072; A lab split=' '
Potassiun-40
Thoriun-232
Uraniun-235
Uraniun-238
pCi/g
pCi/g
pCi/g
pCi/g
13.3360
1.3209
0.0572
1.0387
16.7533
1.7538
0.0520
1.0154
23.4213
1.5984
0.0434
0.9486
Location—ORR; Formation =NOUCIIUCKY; Site=3,13,24; Sample tvpe=Regular;
A =5084; B=5087; C=5090; A lab split=' '
Potassiun-40
Thoriun-232
Uraniun-235
Uraniun-238
pCi/g
pCi/g
pCi/g
pCi/g
13.8361
1.2654
0.0533
1.3794
19.8373
1.6650
0.0488
1.1957
35.6738
2.6640
0.0460
-------�
Analysis
H-31
Tabic H.1 (cootioued)
A horizon B horizon C horizon A lab split
result Qualifier result Qualifier result Qualifier result Qualifier
Units
Location=ORR; Formation =NOLICHUCKY; Site—5,21,31; Sample type=Regular,
A =5075: B=5078; C=5081; A lab split=' '
Potassiun-40
Thorium-232
U ran inn-235
U ran inn- 238
pCi/g
pCi/g
pci/g
pCi/g
12.9193
1.2987
0.0544
1.2558
17.0034
1.5540
0.0464
1.1289
21.5043
0.0452
0.9051
Location =ROA; Formation=COPPER RIDGE; Site =33,35,44; Sample type=Regular;
A =6043; B=6051; C=6054; A lab split=' '
Potassiun-40
Thorium-232
Uranium-235
Uraniun-238
PCi/g
pCi/g
pCi/g
pCi/g
3.6174
0.6083
0.0497
0.9552
3.9841
0.9735
0.0658
1.4963
3.8424
1.4652
0.0830
1.8637
Location = ROA; Formation=COPPER RIDGE; Site=34,39,41; Sample type=Regular;
A =6086: B=6089; C=6092; A lab split=' '
Potassiun-40
Thoriun-232
Uranium-235
Uraniun-238
pCi/g
pCi/g
pCi/9
pCi/g
2.5422
0.4940
0.0492
1.2592
1.1169
0.4840
0.0686
0.6747
3.1006
1.2210
0.0828
2.0274
Location = ROA; Formation=COPPER RIDGE; Site=40,42,43; Sample type=Regular,
A =6057; B=6060; C=6063; A lab split =' '
Potassiun-40
Thoriun-232
Uraniun-235
Uraniun-238
pCi/g
pCi/g
pCi/g
pci/g
2.4672
0.4751
0.0402
0.9352
2.6255
0.7637
0.0495
1.2959
2.6339
1.0834
0.0565
1.2659
Location=ROA; Formation=COPPER RIDGE; Site =45,46,47; Sample type=Regular,
A =6075; B=6072; C=6066; A lab split = "
Potassiun-40
Thoriun-232
Uraniun-235
Uraniun-238
pCi/g
pCi/g
pCi/g
pCi/g
2.2421
0.5728
0.0469
1.0688
2.6672
0.8225
0.0544
1.1389
4.2342
1.5429
0.0608
1.9873
Location =ROA; Formation=COPPER RIDGE; Site=45,46,47; Sample type=Field Duplicate;
A =6078; B=6081; C=6069; A lab split=' '
Potassiun-40
Thoriun-232
Uraniun-235
Uraniun-238
PCi/g
pCi/g
pCi/g
pCi/g
2.2838
0.8736
0.0522
1.3293
2.4838
0.8214
0.0553
1.2091
2.7422
1.0623
0.0602
1.3594
Locaiion=ROA; Formation= DISMAL GAP; Site=10,13,14; Sample tvpe=Regular;
A =6030; B=6033; C=6036; A lab split ="
Potassiun-40
Thoriun-232
Uraniun-235
Uraniun-238
F>Ci/g
pCi/g
pci/g
pCi/g
9.5019
1.2099
0.0452
0.9686
18.4204
1.6317
0.0471
1.0989
23.1713
1.6983
0.0419
-------�
H-32
Table H.1 (continued)
A horizon B horizon C horizon A lab split
Units result Qualifier result Qualifier result Qualifier result Qualifier
Analysis
Location =ROA; Formation = DISMAL GAP; Sile=10,13,14; Sample type-Field Duplicate;
A =6039; B=6042; C=6045; A lab split=' '
Potassium-40
Thorium-232
Uraniun-235
Uraniun-238
pCi/g
pCi/g
pci/g
pCi/g
10.1687
1.2654
0.0452
1.0822
19.9207
1.6317
0.0445
0.9319
24.3382
1.7538
0.0452
0.9586
Location =ROA; Formation = DISMAL GAP; Site =3,7,21; Sample type=Regular,
A =6021; B=6024; C=6027; A lab split=' '
Potassiun-40
Thoriun-232
Uraniim-235
Uraniun-238
pCi/g
pci/g
pCi/g
pCi/g
11.9191
1.2876
0.0467
1.1256
10.1687
1.3431
0.0546
1.0521
18.1703
1.6650
0.0497
1.4162
Location=ROA; Formation =DISMAL GAP; Site=8,20,22; Sample type=Regular;
A=6012; B=60I5; C=6018; A lab split =' '
Potassiun-40
Thoriun-232
Uraniun-235
Uranium-238
pCi/g
pCi/g
F>Ci/g
pCi/g
6.8597
1.0623
0.0497
1.0387
13.4194
1.5207
0.0497
1.3026
21.8377
1.6095
0.0426
0.8851
Location=ROA; Formation =DISMAL GAP; Site =9,17,19; Sample type=Regular;
A =6006; B=6003; C=6009; A lab split=' '
Potassiun-40
Thoriun- 232
Uraniun-235
Uraniun-238
pCi/g
pCi/g
pci/g
pCi/g
9.4186
1.2765
0.0555
1.0655
9.9187
1.4319
0.0548
1.3260
19.3372
1.6428
0.0488
-------�
Appendix I
-------�
X'1'-. 1-3
Tabic LI. I CP/MS metals results for composite soil samples
Analysis Units
A horizon
result Qualifier
B horizon
result
Qualifier
C horizon A lab split
result Qualifier result Qualifier
Locanon=AND; Formanon=COPPER RIDGE; Phase =2; Site=31,32,36; Sample type=Regu!ar;
A = 7057; B-7060; C =7063; A lab split =' '
Aluminum
mg/kg
9200.00
Ant i mony
mg/kg
0.24
U
Arsenic
mg/kg
13.70
Bariun
mg/kg
47.10
B
Berylliun
mg/kg
0.40
B
Cadmiun
mg/kg
0.24
U
Chromiun
mg/kg
28.60
Cobalt
mg/kg
10.60
B
Copper
mg/kg
6.40
Lead
mg/kg
26.70
Manganese
mg/kg
1600.00
Nickel
mg/kg
5.30
B
Silver
mg/kg
0.24
U
Thai I inn
mg/kg
0.24
U
Zinc
mg/kg
29.10
12100.00
• 0.22
15.40
22.40
0.29
0.22
21.90
3.40
17.70
9.00
72.30
8.30
0.22
0.24
54.70
B
U
B
10000.00
0.21
18.30
11.00
0.32
0.21
22.90
2.40
23.60
10.10
55.50
9.60
0.21
0.21
76.70
Location =AND; Formation=COPPER RIDGE; Phase =2; Sue=33,34,35; Sample type=Regular;
A = 7046; B=7051; C =7054; A lab split=7047
15100.00
U 0.20
14.30
32.90
B 0.28
U 0.20
24.30
B 4.40
19.10
9.60
216.00
B 8.50
U 0.20
U 0.25
44.30
Aluminum
mg/kg
11200.00
Antimony
mg/kg
0.23
Arsenic
mg/kg
9.40
Bariun
mg/kg
88.50
Beryl I i tin
mg/kg
0.44
Cadniun
mg/kg
0.23
Chromiun
mg/kg
20.80
Cobalt
mg/kg
9.70
Copper
mg/kg
7.20
Lead
mg/kg
31.20
Manganese
mg/kg
1620.00
Nickel
mg/kg
6.80
SiIver
mg/kg
0.23
Thai I inn
mg/kg
0.23
Zinc
mg/kg
30.50
15300.00
11700.00
U
0.22
U
0.23
U
21.60
10.60
B
18.90
B
98.00
B
0.35
B
0.50
B
U
0.22
U
0.23
U
30.70
21.30
B
2.70
B
14.40
28.50
7.20
10.40
26.90
85.90
2630.00
11.10
6.90
B
U
0.22
U
0.23
U
B
0.27
B
0.25
B
64.10
34.60
Location =AND; Formation =COPPER RIDGE; Phase=2; Site=37,38,41; Sample type=Regular;
A = 7075; B=7078; C=7081;A lab split=' '
AI in i nun
mg/kg
16500.00
24200.00
Antimony
mg/kg
0.25
U
0.Z1
U
Arsenic
mg/kg
12.80
20.00
Bariun
mg/kg '
144.00
55.60
Berylliun
mg/kg
0.88
B
0.74
B
Cadniun
mg/kg
0.25
U
0.21
U
Chromium
mg/kg
21.90
30.30
Cobalt
mg/kg
38.70
64.50
Copper
mg/kg
14.70
39.50
Lead
mg/kg
53.80
48.30
Manganese
¦ng/kg
2150.00
1420.00
Nickel
mg/kg
15.00
25.20
SiIver
mg/kg
0.25
U
0.21
u
Thalliun
mg/kg
0.35
B
0.46
B
Zinc
mg/kg
69.20
110.00
36200.00
0.22
27.00
46.30
1.00
0.22
35.20
44.70
65.50
78.20
1630.00
43.40
0.22
0.65
160.00
Location = AND; Formation =COPPER RIDGE; Phase=2; Site=39,40,42; Sample type=Regular;
A = 7066; B=7069; C =7072; A lab split=''
Aluninun mg/kg
Antimony mg/kg
Arsenic mg/kg
Barium mg/kg
Beryl I inn mg/kg
Caokniin mg/kg
20400.00
0.23 U
14.10
204.00
0.94 B
0.23 U
27500.00
0.22 U
18.60
56.10
0.42 B
0.22 U
29700.00
0.22 U
17.10
46.00
0.42 B
-------�
1-4
Tabic LI (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Chromiun
mg/kg
26.00
38.40
32.20
Cobalt
mg/kg
17.30
8.80
B
8.90
B
Copper
mg/kg
10.90
23.00
20.30
Lead
mg/kg
40.50
17.80
27.30
Manganese
mg/kg
4250.00
558.00
558.00
Nickel
mg/kg
14.30
17.10
17.90
SiIver
mg/kg
0.23
U
0.22
U
0.22
U
Thai I inn
mg/kg
0.37
B
0.36
B
0.33
B
Zinc
mg/kg
38.70
45.20
41.60
Location =AND; Formation = DISMAL GAP; Phase=l; Site-1,20,22; Sample type=Regular,
A = 7028; B= 7031; C= 7034; A lab split =' '
Aluminun
mg/kg
21100.00
30900.00
32300.00
Antimony
mg/kg
0.25
U
0.24
U
0.25
U
Arsenic
mg/kg
3.50
3.60
2.90
Bar inn
mg/kg
88.80
67.20
84.80
Beryl I iun
mg/kg
0.82
B
1.10
B
1.10
B
Cadmium
mg/kg
0.25
U
0.24
U
0.25
U
Chromium
mg/kg
24.90
33.70
29.00
Cobalt
mg/kg
13.00
10.30
B
17.50
Copper
mg/kg
19.60
20.60
19.10
lead
mg/kg
31.40
17.30
13.90
Manganese
mg/kg
927.00
462.00
744.00
Nickel
mg/kg
17.40
21.70
24.60
Seleni un
mg/kg
0.48
B
0.57
B
0.25
B
SiIver
mg/kg
0.25
U
0.24
U
0.25
U
Thai Iium
mg/kg
0.25
U
0.24
U
0.25
U
Zinc
mg/kg
44.40
45.40
43.80
Location=AND; Formation = DISMAL GAP; Phase=l; Site=3,5,ll; Sample type-Regular,
A = 7010; B=7013; C=7016; A lab split =''
Aluninum
mg/kg
21300.00
32400.00
34300.00
Antimony
mg/kg
0.23
U
0.24
U
0.23
U
Arsenic
mg/kg
3.20
3.90
2.80
Bariun
mg/kg
71.30
73.00
58.20
Beryl Iium
mg/kg
0.91
B
1.00
B
1.00
B
C acini urn
mg/kg
0.23
U
0.24
U
0.23
. U
Chromium
mg/kg
28.90
38.40
35.80
Cobalt
mg/kg
14.00
11.30
B
9.70
B
Copper
mg/kg
22.10
25.90
26.70
Lead
mg/kg
25.30
22.80
24.50
Manganese
. mg/kg
535.00
251.00
330.00
Nickel
mg/kg
20.90
24.70
21.60
Selenium
mg/kg
0.33
B
0.24
B
0.23
U
S iIver
mg/kg
0.23
U
0.24
U
0.23
U
Thai 1ium
mg/kg
0.23
U
0.26
8
0.25
B
Zinc
mg/kg
53.80
62.50
51.40
Location =AND; Formations DISMAL GAP; Phase=1; Site =4,12,21; Sample type ^Regular;
A=7019; B=7022; C=7025; A lab splits' '
Alum" nun
mg/kg
18600.00
33300.00
33700.00
Antimony
mg/kg
0.24
U
0.23
U
0.24
U
Arsenic
mg/kg
2.30
B
2.30
2.20
B
Bariun
mg/kg
72.50
60.90
54.40
Beryl 1 iun
mg/kg
0.85
B
1.30
1.40
Cadmiun
mg/kg
0.24
U
0.23
U
0.24
U
Chromiun
mg/kg
23.20
31.90
25.60
Cobalt
mg/kg
12.80
6.70
B
15.90
Copper
mg/kg
20.20
22.80
29.60
Lead
mg/kg
27.80
18.10
43.80
Manganese
mg/kg
559.00
95.80
595.00
Nickel
mg/kg
18.00
20.50
21.30
Seleniun
mg/kg
0.24
U
0.24
B
0.24
-------�
1-5
Tabic LI (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Silver mg/kg 0.24 U 0.23 U 0.24 U
Thallium mg/kg 0.24 U 0.23 U 0.24 U
Zinc mg/kg 44.40 38.50 41.70
Location = AND; Formation -DISMAL GAP; Phase=l; Site =9,10,19; Sample type-Field duplicate;
A = 7037; B=7040; C=7043; A lab split=' '
Aluminum
mg/kg
15900.00
23600.00
30500.00
Antimony
mg/kg
0.24
U
0.23
U
0.23
U
Arsenic
mg/kg
3.70
4.40
3.40
Barium
mg/kg
71.80
75.80
108.00
Beryllium
mg/kg
0.68
B
0.83
B
1.20
Cadrtu'un
mg/kg
0.24
U
0.23
U
0.23
U
Chronriun
mg/kg
24.00
32.50
32.50
Cobalt
mg/kg
12.90
17.40
26.60
Copper
mg/kg
14.80
21.50
52.40
Lead
mg/kg
32.50
26.30
28.80
Manganese
mg/kg
947.00
296.00
1510.00
Nickel
mg/kg
16.70
17.20
27.20
Selenium
mg/kg
0.55
B
0.29
B
0.40
B
SiIver
mg/kg
0.24
U
0.23
U
0.23
U
Thai I inn
mg/kg
0.24
u
0.23
U
0.23
U
Zinc
mg/kg
38.30
36.60
50.50
Location =AND; Formation=DISMAL GAP; Phase=1; Sue=9,10,19; Sample type ^Regular;
A =7001; 5=700-}; C=7007; A lab splii=' '
AI Lin i rum
mg/kg
22200.00
30100.00
36100.00
Antimony
mg/kg
0.25
U
0.23
U
0.25
U
Arsenic
mg/kg
3.90
4.20
3.30
Bariun
mg/kg
79.40
83.90
102.00
Beryl I inn
mg/kg
0.83
B
0.84
B
1.20
B
Cadmium
mg/kg
0.25
U
0.23
U
0.25
U
Chromiun
mg/kg
30.30
34.10
38.60
Cobalt
mg/kg
14.50
15.80
17.70
Copper
mg/kg
15.30
22.70
42.30
Lead
mg/kg
27.70
25.00
27.80
Manganese
mg/kg
963.00
311.00
893.00
Nickel
mg/kg
22.30
21.00
27.80
Seleniun
mg/kg
0.53
B
0.58
B
0.52
B
SiIver
mg/kg
0.25
U
0.23
U
0.25
U
Thallium
mg/kg
0.25
u
0.25
B
0.25
U
Zinc
mg/kg
47.60
46.50
53.90
Location=ORR; Formation =CHEPULTEPEC; Phase=2; Site=50,66,73; Sample type=Field duplicate;
A =5173; B=5178; C=5184; A lab split=5174
AIurni nun
mg/kg
8010.00
20900.00
17900.00
7650.00
Antimony
mg/kg
0.21
U
0.22
U
0.21
U
0.22
U
Arsenic
mg/kg
15.50
16.00
17.90
7.50
Bariun
mg/kg
29.20
B
38.30
B
19.90
B
34.30
B
Beryllium
mg/kg
0.25
B
0.32
B
0.42
B
0.23
B
Cadmium
mg/kg
0.21
U
0.22
U
0.21
U
0.22
U
Chromium
mg/kg
27.30
36.50
32.30
13.30
Cobalt
mg/kg
10.50
B
2.70
6
22.40
11.40
Copper
mg/kg
4.90
B
21.30
24.40
5.30
B
Lead
mg/kg
16.50
9.90
30.50
14.90
Manganese
mg/kg
734.00
62.80
378.00
510.00
Nickel
mg/kg
5.50
B
10.90
14.10
5.80
B
SiIver
mg/kg
0.21
U
0.22
U
0.21
U
0.22
U
Thai lium
mg/kg
0.21
U
0.30
B
0.26
B
0.22
U
Zinc
mg/kg
27.30
97.20
163.00
29.10
-------�
1-6
Table LI (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Location =ORR; Formation —CHEPULTEPEC; Phase=2; Site=50,66,73; Sample type=Regu!ar;
A =5165; B-5170; C=5181;A lab split=5166 ,
Aluminum
mg/kg
8550.00
1B300.00
20700.00
9000.00
Antimony
mg/kg
0.23
U
0.20
U
0.20
U
0.22
U
Arsenic
mg/kg
10.70
15.70
25.80
17.30
Barium
mg/kg
37.20
B
56.50
27.50
B
33.40
B
Berylliim
mg/kg
0.27
B
0.38
B
0.54
B
. 0.32
B
CadmiL/n
mg/kg
0.23
U
0.20
U
0.20
U
0.22
U
Chromium
mg/kg
25.80
31.90
29.90
28.10
Cobalt
mg/kg
9.80
B
2.10
B
5.00
B
9.20
B
Copper
mg/kg
8.50
17.50
27.60
6.70
Lead
mg/kg
15.50
8.40
19.40
16.90
Manganese
mg/kg
615.00
55.60
105.00
717.00
Nickel
mg/kg
6.10
B
10.60
19.80
5.40
B
SiIver
mg/kg
0.23
U
0.20
U
0.20
U
0.22
U
Thai I inn
mg/kg
0.23
U
0.Z7
B
0.26
B
0.22
U
Zinc
mg/kg
34.80
118.00
178.00
32.80
Locarion=ORR; Formation-CHEPULTEPEC; Phase-2; Site-52,53,73; Sample type-Regular;
A—5127; B=5130; C=5133; A lab splits' '
Aluminum
mg/kg
8410.00
13600.00
12800.00
Antimony
mg/kg
0.21
U
0.22
U
0.22
U
Arsenic
mg/kg
6.80
21.50
36.90
Barium
mg/kg
64.70
28.60
B
10.30
B
Berylliim
mg/kg
0.37
B
0.37
B
0.61
B
Cacfcnium
mg/kg
0.21
U
0.22
U
0.22
U
Chromiun
mg/kg
12.00
28.90
32.20
Cobalt
mg/kg
8.80
B
3.20
B
3.60
B
Copper
mg/kg
5.90
19.20
32.50
Lead
mg/kg
18.50
9.30
15.30
Manganese
mg/kg
1000.00
133.00
58.20
Ni ekeI
mg/kg
7.40
B
7.90
B
18.20
Selenium
mg/kg
0.63
B
0.80
B
0.60
B
SiIver
mg/kg
0.21
U
0.22
U
0.22
U
Tha U i Lin
mg/kg
0.21
U
0.23
B
0.22
U
Zinc
mg/kg
27.60
66.60
163.00
Location = ORR; Formation=CHEPULTEPEC; Phase=2; Site=68,74,90; Sample type=Regular;
A -5154; B=5159; C=5162; A lab split =5155'
Aluninun
mg/kg
7600.00
18800.00
20900.00
8480.00
Antimony
mg/kg
0.20
U
0.21
U
0.23
U
0.18
U
Arsenic
mg/kg
4.60
18.70
16.70
7.00
Barium
mg/kg
30.50
B
27.90
B
12.00
B
31.60
B
Berylliun
mg/kg
0.25
B
0.31
B
0.39
B
0.33
B
Cadmiim
mg/kg
0.20
U
0.21
U
0.23
U
0.18
U
Chromiun
mg/kg
8.70
33.90
30.40
12.80
Cobalt
mg/kg
12.00
2.30
B
1.90
B
10.10
Copper
mg/kg
4.20
B
14.90
17.60
4.80
Lead
mg/kg
15.20
9.70
11.80
15.80
Manganese
mg/kg
597.00
46.00
76.90
475.00
B
Nickel
mg/kg
5.00
B
9.90
12.10
5.10
SiIver
mg/kg
0.20
U
0.21
U
0.23
U
0.18
U
Thallium
mg/kg
0.20
U
0.25
B
0.24
B
0.18
U
Zinc
mg/kg
18.10
54.20
77.30
21.60
Location=ORR; Formation-CHEPULTEPEC; Phase=2; Site=77,85,86; Sample type=Field duplicate;
A =5145; 8=5148; C=5151; A lab split=''
Aluninun mg/kg 9290.00 15900.00 17200.00
Antimony mg/kg 0.21 U 0.41 B 0.21 U
Arsenic mg/kg 4.50 18.40 13.10
Barium mg/kg 141.00 68.60 57.30
-------�
1-7
Tabic Ll (continued)
A horizon B horizon C horizon ^ ^ s_[jt
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Cadni um
tng/kg
0.21
U
0.21
U
0.21
U
Chromium
mg/kg
9.60
37.80
24.70
Cobalt
mg/kg
17.20
17.70
31.70
Copper
mg/kg
7.20
19.80
34.00
Lead
mg/kg
20.90
35.60
54.30
Manganese
mg/kg
2250.00
669.00
1360.00
Nickel
mg/kg
13.60
18.70
37.80
Selenium
mg/kg
0.77
B
0.72
B
0.73
B
SiIver
mg/kg
0.21
U
0.21
U
0.21
U
Thallium
mg/kg
0.21
U
0.60
B
0.42
B
Zinc
mg/kg
S2.00
223.00
371.00
Location—ORR; Formation —CHEPULTEPEC; Phase—2; Site— 77,85,86; Sample type—Regular,
A —5136; B=5139; C=5142;A lab splits''
Aluninum
mg/kg
9690.00
16700.00
15900.00
Antimony
mg/kg
0.22
U
0.21
U
0.23
U
Arsenic
mg/kg
4.40
10.20
12.60
Barium
mg/kg
145.00
44.20
26.00
B
Beryl linn
mg/kg
0.94
B
1.40
1.40
Cadmiun
mg/kg
0.22
U
0.21
U
0.23
U
Chromium
mg/kg
10.60
24.10
24.90
Cobalt
mg/kg
15.60
8.30
B
13.30
Copper
mg/kg
7.60
20.30
23.70
Lead
mg/kg
21.00
16.50
20.70
Manganese
mg/kg
2190.00
228.00
447.00
Nickel
mg/kg
12.70
20.10
21.60
Selenium
mg/kg
0.67
B
0.58
B
0.59
B
SiIver
mg/kg
0.22
U
0.21
U
0.23
U
Thalliun
mg/kg
0.22
U
0.21
U
0.25
B
Zinc
mg/kg
91.10
304.00
295.00
Location=ORR; Formation —CHICKAMA UGA Bethel V; Phase—2; Site—101,102,103; Sample type-Regular,
A=5196; B—5199; C=5202; A lab splits' '
AI urn nun
mg/kg
22400.00
40000.00
41700.00
Antimony
mg/kg
0.22
U
0.22
U
0.22
U
Arsenic
mg/kg
4.50
5.90
12.80
Barium
mg/kg
113.00
189.00
145.00
Beryllium
mg/kg
1.30
2.40
2.10
Cadmiun
mg/kg
0.22
U
0.22
U
0.22
U
Chromiun
mg/kg
25.40
37.70
37.40
Cobalt
mg/kg
17.90
16.50
45.90
Copper
mg/kg
19.70
28.90
37.10
Lead
mg/kg
36.90
25.60
50.00
Manganese
mg/kg
1760.00
762.00
818.00
Nickel
mg/kg
19.60
35.20
43.10
Silver
mg/kg
0.22
U
0.22
U
0.22
U
Thalliun
mg/kg
0.22
U
0.28
B
0.28
B
Zinc
mg/kg
46.90
61.70
95.00
Location—ORR; Formation=CHICKAMA UGA Bethel V; Phase=2; Site=104,108,110; Sample type ^Regular;
A-5205; B=5208; C=5211; A lab split=' '
Aluninum
mg/kg
14500.00
29700.00
32200.00
Antimony
mg/kg
0.22
U
0.21
U
0.23
Arsenic
mg/kg
5.B0
5.00
4.50
Barium
mg/kg
68.50
102.00
176.00
Beryl I inn
mg/kg
0.98
B
1.40
1.90
Cadmiun
mg/kg
0.22
U
0.21
U
0.23
Chromiun
mg/kg
35.10
41.30
37.50
Cobalt
mg/kg
18.30
15.00
20.30
Copper
mg/kg
8.30
21.80
26.40
Lead
mg/kg
37.00
31.70
41.50
Manganese
mg/kg
672.00
368.00
845.00
Nickel
mg/kg
8.60
B
17.20
-------�
1-8
Table LI (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Silver mg/kg 0.22 U 0.21 U 0.23 U
Thai I inn mg/kg 0.22 U 0.26 B 0.23 U
Zinc mg/kg 24.70 39.50 58.30
Locaiion-ORR; Formation = CHIC KAMA VGA Bethel V; Phase=2; Site=l]5,U6,117; Sample type ^Regular;
A=5216; B=5222; C=5225; A lab split=5217
A luminal)
mg/kg
14700.00
29200.00
34000.00
. 14400.00
Antimony
mg/kg
0.23
U
0.22
U
0.23
U
0.23
U
Arsenic
mg/kg
4.20
5.80
5.50
5.30
Barium
mg/kg
63.10
80.00
150.00
70.50
Beryl I inn
mg/kg
0.68
B
0.93
B
2.70
0.77
B
Oadmiun
mg/kg
0.23
U
0.22
U
0.23
U
0.23
U
Chromiun
mg/kg
35.30
36.10
33.50
46.20
Cobalt
mg/kg
15.10
15.10
38.80
16.60
Copper
mg/kg
11.40
19.90
25.80
10.90
LeBd
mg/kg
34.50
2B.10
52.30
42.60
Manganese
mg/kg
852.00
307.00
823.00
1180.00
Nickel
mg/kg
9.70
14.00
30.90
9.30
SiIver
mg/kg
0.23
U
0.22
u
0.23
U
0.23
U
That linn
mg/kg
0.23
U
0.22
u
0.23
U
0.23
U
Zinc
mg/kg
32.80
36.00
65.80
31.40
Location—ORR; Formation=CHICKAMAUCA Bethel V; Phase=2; Site=93,99, 100; Sample type=Regular;
A=5187; B=5190; C=5193;A lab split =' '
Aluminun
mg/kg
21200.00
40500.00
42700.00
Antimony
mg/kg
0.22
U
0.22
U
0.23
U
Arsenic
mg/kg
6.00
4.00
3.20
Bariun
mg/kg
79.60
156.00
191.00
Beryl I iun
mg/kg
0.97
B
1.60
1.70
CBdmiun
mg/kg
0.22
U
0.22
U
0.23
U
Chromiun
mg/kg
29.50
38.50
39.60
Cobalt
mg/kg
27.70
17.30
13.60
Copper
cng/kg
18.20
30.10
35.00
Lead
mg/kg
47.60
30.10
33.20
Manganese
mg/kg
1150.00
463.00
586.00
Nickel
mg/kg
15.60
31.70
37.80
SiIver
mg/kg
0.22
U
0.22
U
0.23
U
Thai Iiun
mg/kg
0.32
B
0.27
B
0.27
B
Zinc
mg/kg
46.00
73.10
88.20
Location =ORR; Formation=CHI CKAMA UGA K-25; Phase-2; SUe=lI8,122,124; Sample type=Regular;
A =5240; B=5246; C=5249; A lab split=5241
Aluninum
mg/kg
20000.00
36900.00
40900.00
18600.00
Antimony
mg/kg
0.26
U
0.22
U
0.22
U
0.26
U
Arsenic
mg/kg
6.90
5.60
3.70
6.90
Bariun
mg/kg
82.00
77.50
86.30
74.00
Beryllium
mg/kg
0.96
B
2.00
2.00
0.91
B
Cadmium
mg/kg
0.26
U
0.22
U
0.22
U
0.26
U
Chromiun
mg/kg
28.80
34.30
34.10
28.00
Cobalt
mg/kg
15.00
26.70
31.60
15.10
Copper
mg/kg
20.50
25.50
25.10
19.50
Lead
mg/kg
39.90
24.70
2B.40
35.80
Manganese
mg/kg
1070.00
255.00
384.00
997.00
Nickel
mg/kg
27.30
30.40
33.80
25.00
SiIver
mg/kg
0.26
U
0.22
U
0.22
U
0.26
U
Thai Iiun
mg/kg
0.26
U
0.26
B
0.34
B
0.26
U
Zinc
mg/kg
55.90
67.40
68.10
54.20
-------�
1-9
Tabic LI (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Location = ORR; Formation =CH1CKAMA UGA K-25; Phase=2; She=119,123,127; Sample type = Regular;
A =5252; B-5257; C=5260; A lab split=5253
Aluninun
mg/kg
27900.00
40100.00
42200.00
23200.00
Antimony
ing/kg
0.24
U
0.22
U
0.22
U
0.24
U
Arsenic
mg/kg
6.30
5.30
5.20
6.40
Barium
mg/kg
107.00
130.00
193.00
93.70
Beryl I iun
mg/kg
1.30
1.70
2.00
1.20
B
Cadmiun
mg/kg
0.24
U
0.22
U
0.22
u
0.24
U
Chromiun
mg/kg
32.90
39.10
40.30
36.30
Cobalt
mg/kg
15.70
13.20
17.70
21.40
Copper
mg/kg
12.60
16.50
18.60
12.20
Lead
mg/kg
32.60
20.00
18.20
39.30
Manganese
mg/kg
1820.00
535.00
1830.00
1980.00
Nickel
mg/kg
22.30
24.30
29.60
23.00
SiIver
mg/kg
0.24
U
0.22
U
0.22
u
0.24
U
Thai I inn
mg/kg
0.33
B
0.33
B
0.37
B
0.26
B
Zinc
mg/kg
51.70
74.90
66.70
50.60
Location=ORR; Formation=CHIC KAMA UGA K-25; Phase =2; Site=120,126,129; Sample type=Regu!ar;
A =5228; B=5234; C=5237; A lab split=5229
Aluninun
mg/kg
14400.00
26400.00
21300.00
14500.00
Antimony
mg/kg
0.23
U
0.21
U
0.22
U
0.23
U
Arsenic
mg/kg
4.80
7.20
4.80
5.00
Bar iun
mg/kg
72.50
61.10
33.50
B
76.40
Beryl Iiun
mg/kg
0.54
B
0.56
B
0.70
B
0.58
B
Cadmi in
mg/kg
0.23
U
0.21
U
0.22
U
0.23
U
Chromiun
mg/kg
27.50
40.80
27.30
27.40
Cobalt
mg/kg
17.50
6.90
B
3.80
B
17.70
Copper
mg/kg
10.30
18.10
23.40
10.40
Lead
mg/kg
31.80
14.90
17.10
34.20
Manganese
mg/kg
1660.00
193.00
90.70
1880.00
Nickel
mg/kg
17.60
14.60
14.90
20.80
SiIver
mg/kg
0.23
U
0.21
U
0.22
U
0.23
U
Thai I iun
mg/kg
0.24
B
0.26
B
0.24
B
0.27
B
Zinc
mg/kg
30.20
49.30
43.20
30.50
Location = ORR; Formation=CHICKAMAUGA K-25; Phase—2; Site—121,125,128; Sample type=Regular;
A =5263; B=5268; C=5271; A lab split=5264
Aluninun
mg/kg
15000.00
39000.00
32400.00
16000.00
Antimony
mg/kg
0.22
U
0.22
U
0.21
U
0.22
U
Arsenic-
mg/kg
3.40
3.60
3.20
4.30
Bar iun
mg/kg
53.50
83.40
59.40
51.80
B
Beryl Ii un
mg/kg
0.65
B
1.10
0.97
B
0.66
Cadmiun
mg/kg
0.22
U
0.22
U
0.21
U
0.22
U
Chromiun
mg/kg
20.10
29.20
23.20
33.20
Cobalt
mg/kg
19.40
9.60
B
13.90
17.40
Copper
mg/kg
8.80
18.40
17.10
8.80
Lead
mg/kg
21.40
17.60
17.70
22.00
Manganese
mg/kg
1210.00
189.00
214.00
1170.00
Nickel
mg/kg
11.90
22.50
19.90
12.00
SiIver
mg/kg
0.22
U
0.22
U
0.21
U
0.22
u
Thall iun
mg/kg
0.22
U
0.29
B
0.25
B
0.22
u
Zinc
mg/kg
27.70
51.60
45.00
27.40
Location=ORR; Formation^COPPER RIDGE; Phase=2; Site=45,60,75; Sample type=Regtdar;
A=5109; B=5112; C=5U5;A lab splits''
Aluninun
mg/kg
10200.00
13900.00
8490.00
Antimony
mg/kg
0.21
U
0.21
U
0.21
U
Arsenic
mg/kg
13.20
20.20
34.50
Bariun
mg/kg
89.30
33.30
B
5.90
B
Beryl I iun
mg/kg
0.52
B
0.21
B
0.26
B
Cadmiun
mg/kg
0.21
U
0.21
U
0.21
U
Chromiun
mg/kg
19.00
35.40
18.70
-------�
MO
Table LI (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Cobalt
mg/kg
7.50
B
3.00
B
1.80
B
Copper
mg/kg
6.20
10.60
18.90
Lead
mg/kg
24.00
10.90
31.80
Manganese
mg/kg
1520.00
119.00
86.50
Nickel
mg/kg
6.80
B
5.60
B
8.30
B
SiIver
mg/kg
0.21
U
0.21
U
0.21
U
Thai Iiun
mg/kg
0.21
U
0.21
B
0.21
U
Zinc
mg/kg
22.20
32.00
81.20
Location = ORR; Formation—COFFER RIDGE; Phase=2; Site=51,55,62; Sample type=Regular;
A =5100; B=5104; C=5106; A lab split=' '
Aluminum
mg/kg
8920.00
9260.00
10100.00
Antimony
mg/kg
0.21
U
0.20
U
0.23
U
Arsenic
mg/kg
12.10
22.40
32.10
Bariun
mg/kg
57.60
28.70
B
7.30
B
Beryl I inn
mg/kg
0.52
B
0.23
B
0.32
B
Cadmium
mg/kg
0.21
U
0.20
U
0.23
U
Chromium
mg/kg
15.80
22.30
28.50
Cobalt
mg/kg
8.80
B
1.80
B
2.60
B
Copper
mg/kg
5.00
B
13.60
24.90
Lead
mg/kg
27.00
14.50
22.20
Manganese
mg/kg
1530.00
63.50
85.40
Mi ekeI
mg/kg
6.90
B
5.40
B
9.30
SiIver
mg/kg
0.21
U
0.20
U
0.23
U
Thai I iun
mg/kg
0.21
U
0.20
U
0.23
U
Zinc
mg/kg
20.50
44.40
87.10
Location-ORR; Formation = COFFER RIDGE; Phase=2; Site =54,64,83; Sample type=Regular,
A =5118; B=5121; C=5124; A lab split=' '
Aluminum
mg/kg
9660.00
19500.00
175 00.00
Ant i mony
mg/kg
0.26
B
0.22
U
0.22
U
Arsenic
mg/kg
24.20
52.40
54.00
Barium
mg/kg
68.90
42.20
B
11.40
B
Beryl linn
mg/kg
0.48
B
0.50
B
0.49
B
Cadmium
mg/kg
0.22
U
0.22
U
0.22
U
Chromium
mg/kg
17.40
25.60
34.00
Cobalt
mg/kg
20.60
4.90
B
3.50
B
Copper
mg/kg
12.00
31.40
29.80
Lead
mg/kg
38.80
24.10
33.30
Manganese
mg/kg
1570.00
89.30
104.00
Nickel
mg/kg
9.90
18.00
20.00
Selenium
mg/kg
0.68
B
0.93
B
0.50
B
SiIver
mg/kg
0.22
U
0.22
U
0.22
U
Thai Iiun
mg/kg
0.23
B
0.34
B
0.34
B
Zinc
mg/kg
38.10
83.20
97.10
Location=ORR; Formation=COP PER RIDGE; Phase =2; Siie=58,59,91; Sample type=Regular;
A =5091; B=5094; C=5097; A lab split=' '
Aluminum
mg/kg
8630.00
10800.00
13100.00
Antimony
mg/kg
0.23
U
0.23
U
0.24
U
Arsenic
mg/kg
11.80
37.60
60.50
Bariun
mg/kg
68.00
23.40
B
9.40
B
Beryllium
mg/kg
0.39
B
0.29
B
0.35
B
Cadmium
mg/kg
0.23
U
0.23
U
0.24
U
Chromium
mg/kg
14.00
32.30
30.00
Cobalt
mg/kg
4.90
B
2.60
B
1.60
B
Copper
mg/kg
6.40
17.10
27.50
Lead
mg/kg
20.80
15.80
25.80
Manganese
mg/kg
1000.00
115.00
77.40
Nickel
mg/kg
6.20
B
7.30
B
11.10
SiIver
mg/kg
0.23
U
0.23
U
0.24
U
Thai I iun
mg/kg
0.23
U
0.23
U
0.24
B
Zinc
mg/kg
20.50
52.40
89.00
-------�
Ml
Table LI (continued)
A horizon B honzon C horizon " T~7
Analysis Units result Qualifier result Qualifier result Qualifier routt^' q uf
J
Location =ORR; Formation =DISMAL GAP; Phase—1; Site—10,33,35; Sample rype—Rceul
A =5019; B=5022; C=5025; A lab split=' • ^
Aluminun
mg/kg
18800.00
32700.00
36900.00
Antimony
mg/kg
0.22
U
0.23
U
0.23
U
Arseni c
mg/kg
5.00
3.10
3.20
Barium
mg/kg
87.30
94.30
104.00
Beryl I inn
mg/kg
0.73
B
0.77
B
1.00
B
Cadmiun
mg/kg
0.22
U
0.23
U
0.23
U
Chromium
mg/kg
36.40
39.90
45.30
Cobalt
mg/kg
14.60
9.30
B
10.20
B
Copper
mg/kg
20.00
20.70
23.30
Lead
mg/kg
21.40
17.80
25.30
Manganese
mg/kg
919.00
207.00
213.00
Nickel
mg/kg
19.80
20.00
23.20
Selenium
mg/kg
0.22
U
0.23
U
0.23
U
SiIver
mg/kg
0.22
U
0.23
U
0.23
U
ThalUmi
mg/kg
0.22
U
0.23
B
0.26
B
Zinc
mg/kg
42.30
46.30
50.40
Location-ORR; Formation-DISMAL GAP; Phase=1; Site=19,2Z32; Sample type-Regular,
A =5010; B—5013; C=5016; A lab splii=' '
Aluninum
mg/kg
19700.00
36700.00
39600.00
Antimony
mg/kg
0.21
U
0.22
U
0.22
U
Arsenic
mg/kg
2.80
3.40
2.80
Bariun
mg/kg
92.60
127.00
147.00
Beryllium
mg/kg
0.76
B
0.99
B
1.10
Cadmium
mg/kg
0.21
U
0.22
U
0.22
U
Chromi un
mg/kg
26.40
39.40
40.80
Cobalt
mg/kg
14.10
16.90
12.00
Copper
mg/kg
15.10
21.00
22.90
Lead
mg/kg
13.20
14.00
13.90
Manganese
mg/kg
772.00
477.00
554.00
Nickel
mg/kg
19.20
22.20
23.60
Seleniun
mg/kg
0.60
B
0.22
U
0.22
U
SiIver
mg/kg
0.21
U
0.22
U
0.22
U
Thalliun
mg/kg
0.21
U
0.28
B
0.28
B
Zinc
mg/kg
36.10
58.10
48.50
Location=ORR; Formation -DISMAL GAP; Phase=l; Site=2,26,43; Sample type =Field duplicate;
A —5037; B=5040; C=5043; A lab splits' '
Aluninum
mg/kg
20400.00
29000.00
38300.00
Antimony
mg/kg
0.23
U
0.23
U
0.24
U
Arseni c
mg/kg
2.80
3.50
3.00
Bariun
mg/kg
95.50
102.00
136.00
Beryl Ii um
mg/kg
0.77
B
0.91
B
1.20
Cadmiun
mg/kg
0.23
U
0.23
U
0.24
U
Chromi um
mg/kg
29.00
38.10
46.00
Cobalt
mg/kg
21.50
17.90
14.20
Copper
mg/kg
17.50
26.10
30.10
Lead
mg/kg
16.20
15.10
15.00
Manganese
mg/kg
1220.00
581.00
262.00
Nickel
mg/kg
22.60
26.00
34.60
Seleniun
mg/kg
0.23
U
0.23
U
0.81
B
Silver
mg/kg
0.23
U
0.23
U
0.24
U
Thallium
mg/kg
0.23
U
0.23
U
0.27
B
Zinc
mg/kg
43.40
49.50
59.80
Location=ORR; Formation = DISMAL GAP; Phase=I; Site=2,26,43; Sample type = Regular,
A =5028; B=5031; C=5034; A lab split=' '
Aluminum
Antimony
mg/kg 20700.00 34300.00 40000.00
-------�
1-12
Tabic LI (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Arseni c
mg/kg
3.30
5.10
3.40
Bariun
mg/kg
111.00
86.90
118.00
Beryllium
mg/kg
0.76
B
0.82
B
1.00
B
Cadmiun
mg/kg
0.23
U
0.24
U
0.24
U
Chromiun
mg/kg
28.20
40.80
40.10
Cobalt
mg/kg
19.50
17.00
36.20
Copper
mg/kg
19.40
31.50
39.60
Lead
mg/kg
18.80
18.90
20.50
Manganese
mg/kg
1230.00
309.00
974.00
Nickel
mg/kg
24.90
24.50
33.90
Seleniun
mg/kg
0.61
B
0.57
8
0.35
B
SiIver
mg/kg
0.23
U
0.24
U
0.24
U
Thallium
mg/kg
0.23
U
0.30
B
0.27
B
Zinc
mg/kg
48.80
46.20
57.90
Location—ORR; Formation—NOLICHUCKY; Phase—1; Site =15,23,25; Sample type —Regular;
A =5055; B=5058; C=5061; A lab split-' '
Aluninun
mg/kg
16500.00
26400.00
23300.00
Antimony
mg/kg
0.22
U
0.23
U
0.23
U
Arsenic
mg/kg
4.00
4.00
2.80
Bariun
mg/kg
47.70
59.40
57.50
Beryllium
mg/kg
0.53
B
0.61
B
0.80
B
Cadmiun
mg/kg
0.22
U
0.23
U
0.23
U
Chromiun
mg/kg
36.10
39.20
39.60
Cobalt
mg/kg
11.90
6.80
B
9.00
B
Copper
mg/kg
13.90
19.80
24.10
Lead
mg/kg
18.90
11.80
13.50
Manganese
mg/kg
558.00
124.00
208.00
Nickel
mg/kg
10.90
13.40
15.20
Selenium
mg/kg
0.31
B
0.50
B
0.23
U
SiIver
mg/kg
0.22
U
0.23
U
0.23
U
Thai I inn
mg/kg
0.22
U
0.25
B
0.24
B
Zinc
mg/kg
24.50
29.20
28.00
Location =ORR; Formation =NOLlCHVCKY; Phase=1; Site=16,28,42; Sample type=Regular;
A =5064; B=5067; C=5070; A lab sp!it=''
Aluninun
mg/kg
12800.00
21000.00
22600.00
Antimony
mg/kg
0.22
U
0.23
U
0.24
U
Arsenic
mg/kg
3.40
5.00
2.90
Bariun
mg/kg
54.30
64.50
62.50
Beryl I inn
mg/kg
0.57
B
0.64
B
0.79
B
Cadnium
mg/kg
0.22
U
0.23
u
0.24
U
Chromiun
mg/kg
28.40
37.50
35.20
Cobalt
mg/kg
12.80
10.50
B
15.40
Copper
mg/kg
10.70
18.80
19.40
Lead
mg/kg
13.60
12.20
10.90
Manganese
mg/kg
668.00
284.00
328.00
Nickel
mg/kg
10.70
13.40
16.40
Seleniun
mg/kg
0.29
B
0.45
B
0.36
B
SiIver
mg/kg
0.22
U
0.23
U
0.24
U
Thai Iiun
mg/kg
0.22
U
0.23
U
0.24
U
Zinc
mg/kg
20.00
25.70
26.90
Location—ORR; Formation = NOUCHUCKY; Phase-=1; Site=3,13,24; Sample type=ReguIar;
A =5082; B=5085; C=5088;A lab splits''
Aluminum
mg/kg
12300.00
25600.00
27900.00
Antimony
mg/kg
0.23
U
0.21
U
0.24
U
Arsenic
mg/kg
4.10
3.10
2.90
Bariun
mg/kg
101.00
91.00
69.00
Beryl Iium
mg/kg
0.51
B
0.83
B
0.97
B
Cadmiun
mg/kg
0.23
U
0.21
U
0.24
U
Chromiun
mg/kg
24.30
32.10
31.30
Cobalt
mg/kg
18.10
14.40
13.20
-------�
1-13
Table LI (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Copper
mg/kg
11.90
23.20
28.80
Lead
mg/kg
21.30
12.60
18.00
Manganese
ing/kg
1020.00
307.00
313.00
Nickel
mg/kg
13.70
22.00
21.90
Seleniun
rag/kg
0.39
B
0.48
B
0.33
B
SiIver
mg/kg
0.23
U
0.21
U
0.24
U
Thallium
mg/kg
0.23
U
0.22
8
0.24
U
Zinc
mg/kg
30.00
38.30
36.80
Location=ORR; Formation=MOLICHUCKY; Phase-1; Siie=5,21,31; Sample type—Regular;
A =5073; B=5076; C-5079; A lab split=' '
Aluninun
mg/kg
13700.00
19600.00
23800.00
Antimony
mg/kg
0.23
U
0.23
U
0.24
U
Arsenic
mg/kg
4.30
3.50
3.60
Barium
mg/kg
59.20
64.10
66.30
Beryl I inn
mg/kg
0.58
B
0.52
B
0.64
B
Cadmiun
mg/kg
0.23
U
0.23
U
0.24
U
Chroniiun
mg/kg
29.60
30.00
37.20
Cobalt
mg/kg
16.50
7.80
B
39.20
Copper
mg/kg
11.20
13.70
26.60
Lead
mg/kg
20.00
11.90
23.50
Manganese
mg/kg
828.00
166.00
919.00
Nickel
mg/kg
14.00
17.30
24.80
Seleniun
mg/kg
0.28
B
0.28
B
0.39
B
Silver
mg/kg
0.23
U
0.23
U
0.24
U
Thallium
mg/kg
0.23
U
0.23
U
0.25
B
Zinc
mg/kg
28.60
33.90
40.80
Location =ROA; Formation-COPPER RIDGE; Phase=2; Site=33,35,44; Sample type—Regular,
A—6046; B=6049; C-6052; A lab split =' '
Aluninun
mg/kg
7180.00
12800.00
13900.00
Antimony
mg/kg
0.22
U
0.22
U
0.23
U
Arsenic
mg/kg
5.60
13.00
20.30
Bariun
mg/kg
58.10
27.80
B
11.00
B
Berylliun
mg/kg
0.36
B
0.29
B
0.24
6
Cadmium
mg/kg
0.22
U
0.22
U
0.23
- U
Chromium
mg/kg
11.00
25.90
40.20
Cobalt
mg/kg
7.50
B
5.10
B
3.30
B
Copper
mg/kg
5.80
18.00
19.70
Lead
mg/kg
22.70
20.30
30.40
Manganese
mg/kg
1100.00
173.00
79.30
Nickel
mg/kg
4.50
B
10.10
10.50
Silver
mg/kg
0.22
U
0.22
U
0.23
U
Thai I inn
mg/kg
0.22
U
0.25
B
0.25
B
Zinc
mg/kg
24.00
42.20
59.90
Location =ROA; Formation ^COPPER RIDGE; Phase=2; Site=34,39,41; Sample type-Regular,
A-6082; B=60S7; C=6090; A lab split=6084
Aluninun
mg/kg
9820.00
24300.00
21200.00
10600.00
Antimony
mg/kg
0.23
U
0.20
U
0.21
U
0.23
U
Arsenic
mg/kg
13.30
31.60
36.00
12.40
Bariun
mg/kg
56.60
31.70
B
12.20
B
56.50
Berylliun
mg/kg
0.41
B
0.44
B
0.45
B
0.42
B
Cadmiun
mg/kg
0.23
U
0.20
U
0.21
U
0.23
U
Chromium
mg/kg
12.80
28.40
30.50
13.90
Cobalt
mg/kg
5.50
B
3.80
B
3.40
B
5.40
B
Copper
mg/kg
10.50
26.00
30.00
15.20
Lead
mg/kg
28.80
17.60
23.90
28.50
Manganese
mg/kg
887.00
121.00
109.00
895.00
B
Nickel
mg/kg
6.60
B
13.80
14.20
7.10
SiIver
mg/kg
0.23
U
0.20
U
0.21
U
0.23
U
Thalliun
mg/kg
0.23
U
0.33
B
0.24
B
0.23
U
Zinc
mg/kg
44.50
92.10
100.00
50.70
-------�
1-14
Tabic LI (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Location -ROA; Formation -COPPER RIDGE; Phase-2; Site=40,42,43; Sample type¦= Regular;
A =6055; B=6058; C=6061; A lab sp!it=' '
Aluninun
mg/kg
8970.00
12300.00
9930.00
Antimony
mg/kg
0.21
U
0.22
U
0.22
U
Arsenic
mg/kg
8.10
7.70
9.70
Barium
mg/kg
27.90
B
24.50
B
9.70
B
Beryl I inn
mg/kg
0.51
B
0.22
U
0.22
U
Cadniun
mg/kg
0.21
U
0.22
U
0.22
U
Chromiun
mg/kg
20.30
17.40
23.30
Cobalt
mg/kg
2.70
B
1.80
B
1.10
B
Copper
mg/kg
2.90
B
5.60
7.70
Lead
mg/kg
17.10
6.20
6.90
Manganese
mg/kg
379.00
66.80
24.40
B
Nickel
mg/kg
2.80
B
3.70
B
3.30
B
SiIver
mg/kg
0.21
U
0.22
U
0.22
U
Thalliun
mg/kg
0.21
U
0.22
U
0.22
U
Zinc
mg/kg
13.60
18.00
19.00
Location =ROA; Formation =COPPER JUDGE; Phase =2; Site=45,46,47; Sample type=Field duplicate;
A =6076; B=6079; C=6067; A lab split=' '
Aluninun
mg/kg
11100.00
14100.00
13300.00
Antimony
mg/kg
0.21
U
0.21
U
0.35
B
Arsenic
mg/kg
6.10
11.60
19.20
Bar inn
mg/kg
88.30
46.60
20.20
B
Beryl Iium
mg/kg
0.51
B
0.21
U
0.22
U
Cadtiiun
mg/kg
0.21
U
0.21
U
0.22
U
Ch rorni um
mg/kg
15.00
25.40
35.90
Cobalt
mg/kg
7.60
B
2.60
B
1.50
B
Copper
mg/kg
5.00
B
10.60
13.70
LeBd
mg/kg
16.30
8.10
10.60
Manganese
mg/kg
1310.00
74.80
51.50
Nickel
mg/kg
6.20
B
7.00
B
6.80
B
Seleniun
mg/kg
0.47
B
0.56
B
0.71
B
SiIver
mg/kg
0.21
U
0.21
U
0.22
U
Thalliun
mg/kg
0.21
U
0.21
U
0.22
U
Zinc
mg/kg
23.00
21.20
20.20
Location -ROA; Formation=COPPER RIDGE; Phase =2; Site=45,46,47;' Sample type=Regular;
A =6073; B=6070; C=6064; A lab split =' '
Aluninun
mg/kg
10600.00
15200.00
12600.00
Antimony
mg/kg
0.21
U
0.22
U
0.22
U
Arsenic
mg/kg
5.50
12.20
17.10
Barium
mg/kg
80.20
60.30
18.90
B
Beryll iun
mg/kg
0.47
B
0.27
B
0.22
U
Cadmiun
mg/kg
0.21
U
0.22
U
0.22
U
Chromium
mg/kg
14.50
40.20
30.20
Cobalt
mg/kg
6.40
B
2.90
B
1.30
B
Copper
mg/kg
5.20
10.50
13.60
Lead
mg/kg
16.10
9.30
10.10
Manganese
mg/kg
1180.00
120.00
41.50
Nickel
mg/kg
6.10
B
7.90
B
6.80
B
Seleniun
mg/kg
0.48
B
0.41
B
0.44
B
SiIver
mg/kg
0.21
U
0.22
U
0.22
U
Thalliun
mg/kg
0.21
U
0.23
B
0.22
u
Zinc
mg/kg
24.10
22.80
20.40
Location =ROA; Formation = DISMAL GAP; Phase=J; Site=I0,13,14; Sample type=Field duplicate;
A =6037; B=6040; C=6043; A lab split=' '
Aluninun mg/kg 16300.00 37500.00 31000.00
Antimony mg/kg 0.25 U 0.24 V 0.23 U
-------�
1-15
Tabic 11 (continued)
A horizon B horizon C horizem~A~Iab—IT"
Analysis Units result Qualifier result Qualifier result Qualifier res It
Bariun
mg/kg
115.00
222.00
111.00
Beryl I iun
mg/kg
0.64
B
1.10
B
1.20
Cedmiun
mg/kg
0.25
U
0.24
U
0.23
U
Chromium
mg/kg
33.70
71.90
43.40
Cobalt
mg/kg
26.60
16.90
26.60
Copper
mg/kg
14.30
25.30
23.00
Lead
mg/kg
25.70
32.40
17.50
Manganese
mg/kg
1730.00
869 _00
823.00
Nickel
mg/kg
19.40
26.20
35.90
Seleniun
mg/kg
0.25
U
0.81
B
0.23
U
SiIver
mg/kg
0.25
U
0.24
U
0.23
U
Thai I iun
mg/kg
0.25
U
0.33
B
0.25
B
Zinc
mg/kg
43.90
49. ao
57.00
Location -ROA; Formation = DISMAL GAP; Phase=1; Sile=10,13,14; Sample type=Regular;
A-6028; B=6031; C=603
-------�
1-16
Tabic LI (continued)
A horizon B horizon C horizon A lab split
Analysis Units result Qualifier result Qualifier result Qualifier result Qualifier
Lead
mg/kg
21.00
12.30
11.40
Manganese
mg/kg
949.00
120.00
99.40
Nickel
mg/kg
11.50
18.00
29.20
Selenium
mg/kg
0.44
B
0.52
B
0.29
B
SiIver
mg/kg
0.22
U
0.22
U
0.22
U
Thalliun
mg/kg
0.22
U
0.24
B
0.25
B
Zinc
mg/kg
30.60
41.60
48.70
-------�
Appendix J
-------�
2
1
1
4
4
2
2
2
4
2
3
5
6
3
3
2
2
2
2
2
2
1
1
10
2
2
2
2
1
1
10
5
4
4
5
5
5
9
6
6
5
4
4
8
4
4
4
4
4
2
2
2
4
4
4
6
5
5
3
3
3
J-3
Table J.l. Occurrences of rejected data
Analysis
Location
Formation
Matrix
Horiz
Tritiun
ORR
DISMAL GAP
SOIL
A
ROA
COPPER RIDGE
SOIL
A
ROA
DISMAL GAP
SOIL
A
Tritiun
Boron
ORR
CHICtCAMAUGA Bethel V
SOIL
A
ORR
CHICtCAMAUGA Bethel V
SOIL
B
ORR
CHICtCAMAUGA Bethel V
SOIL
C
ROA
COPPER RIDGE
SOIL
A
ROA
COPPER RIDGE
SOIL
B
ROA
COPPER RIDGE
SOIL
C
Boron
Cyanide
ORR
CHEPULTEPEC
SOIL
A
ORR
CHEPULTEPEC
SOIL
B
ORR
CHEPULTEPEC
SOIL
C
Cyanide
Lead
ORR
CHICtCAMAUGA Bethel V
SOIL
A
Lithiun
ORR
CHICtCAMAUGA Bethel V
SOIL
A
ORR
CHICtCAMAUGA Bethel V
SOIL
B
ORR
CHICtCAMAUGA Bethel V
SOIL
C
ROA
COPPER RIDGE
SOIL
A
ROA
COPPER RIDGE
SOIL
B
ROA
COPPER RIDGE
SOIL
C
Lithium
Molybdenua
ORR
CHICtCAMAUGA Bethel V
SOIL
A
ORR
CHICtCAMAUGA Bethel V
SOIL
B
ORR
CHICtCAMAUGA Bethel V
SOIL
C
ROA
COPPER RIDGE
SOIL
A
ROA
COPPER RIDGE
SOIL
B
ROA
COPPER RIDGE
SOIL
C
Molybdenun
Osnriun
AND
COPPER RIDGE
SOIL
A
AND
COPPER RIDGE
SOIL
B
AND
COPPER RIDGE
SOIL
C
AND
DISMAL GAP
SOIL
A
AND
DISMAL GAP
SOIL
B
AND
DISMAL GAP
SOIL
C
ORR
CHEPULTEPEC
SOIL
A
ORR
CHEPULTEPEC
SOIL
B
ORR
CHEPULTEPEC
SOIL
C
ORR
CHICtCAMAUGA Bethel V
SOIL
A
ORR
CHICtCAMAUGA Bethel V
SOIL
B
ORR
CHICtCAMAUGA Bethel V
SOIL
C
ORR
CHICtCAMAUGA tC-25
SOIL
A
ORR
CHICtCAMAUGA K-25
SOIL
B
ORR
CHICtCAMAUGA IC-25
SOIL
C
ORR
COPPER RIDGE
SOIL
A
ORR
COPPER RIDGE
SOIL
B
ORR
COPPER RIDGE
SOIL
C
ORR
DISMAL GAP
SOIL
A
ORR
DISMAL GAP
SOIL
B
ORR
DISMAL GAP
SOIL
C
ORR
NOL1CHUCKY
SOIL
A
ORR
NOLICHUCICY
SOIL
B
ORR
NOLICHUCKY
SOIL
C
ROA
COPPER RIDGE
SOIL
A
ROA
COPPER RIDGE
SOIL-
B
ROA
COPPER RIDGE
SOIL
C
ROA
DISMAL GAP
SOIL
A
ROA
DISMAL GAP
SOIL
B
ROA
DISMAL GAP
SOIL
-------�
33
1
2
1
1
5
6
2
2
10
2
2
2
3
3
3
4
3
3
25
2
2
2
2
1
1
10
6
3
3
12
44
1
1
1
1
1
10
3
3
11
9
6
1
4
1
48
13
2
1
4
J-4
Table J.l (continued)
Analysis
Location
Formation
Matrix
Horizon
Osmium
Potass inn
Potassium
ORR
ROA
ROA
ROA
CHEPULTEPEC
COPPER RIDGE
COPPER RIDGE
COPPER RIDGE
SOIL
SOIL
SOIL
SOIL
Seleniun
ORR
CHEPULTEPEC
SOIL
A
ORR
CHEPULTEPEC
SOIL
B
ORR
CHEPULTEPEC
SOIL
C
Selenium
Silicon
ORR
CHICKAMAUGA Bethel
V
SOIL
A
ORR
CHICKAMAUGA Bethel
V
SOIL
B
ORR
CHICKAMAUGA Bethel
V
SOIL
C
ORR
COPPER RIDGE
SOIL
A
ORR '
•COPPER'RIDGE
SOIL
B
ORR
COPPER RIDGE
SOIL
C
ROA
COPPER RIDGE
SOIL
A
ROA
COPPER RIDGE
SOIL
B
ROA
COPPER RIDGE
SOIL
C
Si I icon
Strontium
ORR
CHICKAMAUGA Bethel
V
SOIL
A
ORR
CHICKAMAUGA Bethel
V
SOIL
B
ORR
CHICKAMAUGA Bethel
V
SOIL
C
ROA
COPPER RIDGE
SOIL
A
ROA
COPPER RIDGE
SOIL
B
ROA
COPPER RIDGE
SOIL
C
Strontiun
Thallium
ORR
CHEPULTEPEC
SOIL
A
ORR
CHEPULTEPEC
SOIL
B
ORR
CHEPULTEPEC
SOIL .
C
Thallium
alpha-BHC
ORR
CHICKAMAUGA K-25
SOIL
A
alpha-Chlordane
ORR
CHICKAMAUGA K-25
SOIL
A
beta-BHC
ORR
CHICKAMAUGA K-25
SOIL
A
delta-BHC
ORR
CHICKAMAUGA K-25
SOIL
A
ganrna-Chlordane
ORR
CHICKAMAUGA K-25
SOIL
A
Acenaphthene
AND
COPPER RIDGE
SOIL
A
AND
DISMAL GAP
SOIL
A
ORR
CHEPULTEPEC
SOIL
A
ORR
CHICKAMAUGA Bethel
V
SOIL
A
ORR
CHICKAMAUGA K-25
SOIL
A
ORR
COPPER RIDGE
SOIL
A
ORR
DISMAL GAP
SOIL
A
ROA
COPPER RIDGE
SOIL
A
ROA
DISMAL GAP
SOIL
A
Acenaphthene
Acenaphthylene
AND
DISMAL GAP
SOIL
A
ORR
COPPER RIDGE
SOIL
A
ORR
DISMAL GAP
SOIL
A
ROA
COPPER RIDGE
-------�
J-5
Table J.l (contiiiued)
Analysis type
Analysis
Location
Formation
Matrix
Horizon
Count
ROA
DISMAL GAP
SOIL
A
1
ORGAN ICS
Acenaphthylene
21
ORGAN ICS
Aldrin
ORR
CHICICAMAUGA K-25
SOIL
A
1
-ORGAN ICS
Anthracene
AND
COPPER RIDGE
SOIL
A
5
AND
DISMAL GAP
SOIL
A
11
ORR
CHEPULTEPEC
SOIL
A
3
ORR
CHICICAMAUGA Bethel V
SOIL
A
7
ORR
CHICICAMAUGA K-25
SOIL
A
2
ORR
COPPER RIDGE
SOIL
A
4
ORR
DISMAL GAP
SOIL
A
1
ROA
COPPER RIDGE
SOIL
A
2
ROA
DISMAL GAP
SOIL
A
1
ORGAN ICS
Anthracene
36
ORGAN ICS
Benzo(a)anthracene
AND
COPPER RIDGE
SOIL
A
1
AND
DISMAL GAP
SOIL
A
13
ORR
CHICICAMAUGA Bethel V
SOIL
A
6
ORR
DISMAL GAP
SOIL
A
1
ORR
NOLICHUCKY
SOIL
A
10
ROA
DISMAL GAP
SOIL
A
3
ORGAN ICS
Benzo(ajanthracene
34
ORGAN ICS
Benzo(a)pyrene
AND
COPPER RIDGE
SOIL
A
2
AND
DISMAL GAP
SOIL
A
2
ORR
CHEPULTEPEC
SOIL
A
2
ORR
COPPER RIDGE
SOIL
A
2
ORR
DISMAL GAP
SOIL
A
1
ROA
DISMAL GAP
SOIL
A
1
ORGAN ICS
Benzo(a)pyrene
10
ORGAN ICS
Benzo(b)fIuoranthene
AND
COPPER RIDGE
SOIL
A
4
AND
DISMAL GAP
SOIL
A
4
ORR
CHEPULTEPEC
SOIL
A
3
ORR
CHICICAMAUGA Bethel V
SOIL
A
4
ORR
COPPER RIDGE
SOIL
¦ A
4
ORR
DISMAL GAP
SOIL
A
1
ROA
DISMAL GAP
SOIL
A
1
ORGAN ICS
Benzo(b)fluoranthene
21
ORGANICS
BenzoCghi)perylene
AND
COPPER RIDGE
SOIL
A
2
AND
DISMAL GAP
SOIL
A
23
ORR
CHEPULTEPEC
SOIL
A
1
ORR
CHICICAMAUGA Bethel V
SOIL
A
7
ORR
COPPER RIDGE
SOIL
A
3
ORR
DISMAL GAP
SOIL
A
1
ROA
COPPER RIDGE
SOIL
A
1
ROA
DISMAL GAP
SOIL
A
1
ORGAN ICS
BenzoCghiJperylene
39
ORGANICS
Benzo(k)fluoranthene
AND
COPPER RIDGE
SOIL
A
3
AND
DISMAL GAP
SOIL
A
12
ORR
CHEPULTEPEC
SOIL
A
2
ORR
COPPER RIDGE
SOIL
A
1
ORR
DISMAL GAP
SOIL
A
1
ROA
DISMAL GAP
SOIL
A
1
ORGANICS
Benzo(IOf luoranthene
20
ORGANICS
Chrysene
AND
COPPER RIDGE
SOIL
A
11
AND
DISMAL GAP
SOIL
A
16
ORR
CHEPULTEPEC
SOIL
A
4
ORR
CHICICAMAUGA Bethel V
SOIL
A
-------�
J-6
Table J.l (continued)
Analysis type
Analysis
Location
Formation
Matrix
Horizon
Count
ORR
CHICtCAMAUGA K-25
SOIL
A
6
ORR
COPPER RIDGE
SOIL
A
3
ORR
DISMAL GAP
SOIL
A
1
ORR
NOLICHUCCT
SOIL
A
10
ROA
COPPER RIDGE .
SOIL
A
1
ROA
DISMAL GAP
SOIL
A
3
ORGAN ICS
Chrysene
62
ORGAN ICS
Dalapon
AND
COPPER RIDGE
SOIL
A
3
ORR
CHICtCAMAUGA Bethel V
SOIL
A
3
ORR
DISMAL GAP
SOIL
A
9
ROA
DISMAL GAP
SOIL
A
3
ORGAN ICS
Dalapon
18
ORGAN ICS
Dibenzo(a,h)anthracene
AND
COPPER RIDGE
SOIL
A
10
AND
DISMAL GAP
SOIL
A
24
ORR
CHEPULTEPEC
SOIL
A
2
ORR
CHICtCAMAUGA Bethel V
SOIL
A
9
ORR
CHICtCAMAUGA IC-25
SOIL
A
9
ORR
COPPER RIDGE
SOIL
A
4
ORR
DISMAL GAP
SOIL
A
1
ROA
DISMAL GAP
SOIL
A
1
ORGAN ICS
DibenzoCa,h)anthracene
60
ORGAN ICS
Dicamba
AND
COPPER RIDGE
SOIL
A
3
ORR
CHICtCAMAUGA Bethel V
SOIL
A
3
ORGAN ICS
Dicamba
6
ORGAN ICS
Dichlorprop
AND
COPPER RIDGE
SOIL
A
3
ORR
CHICtCAMAUGA Bethel V
SOIL
A
3
ORGAN ICS
Dichlorprop
6
ORGANICS
Dieldrin
ORR
CHICtCAMAUGA IC-25
SOIL
A
1
ORGAN ICS
Dinoseb
AND
COPPER RIDGE
SOIL-
A
3
ORR
CHICtCAMAUGA Bethel V
SOIL
A
3
ORGANICS
Dinoseb
6
ORGANICS
Endosulfan sulfate
ORR
CHICtCAMAUGA IC-25
SOIL
A
1
ORGANICS
Endosulfan I
ORR
CHICtCAMAUGA IC-25
SOIL
A
1
ORR
COPPER RIDGE
SOIL
A
1
ORGANICS
Endosulfan I
2
ORGANICS
Endosulfan II
ORR
CHICtCAMAUGA IC-25
SOIL
A
1
ORGANICS
Endrin
ORR
CHICtCAMAUGA K-25
SOIL
A
1
ORGANICS
Endrin aldehyde
ORR
CHICtCAMAUGA IC-25
SOIL
A
1
ORGANICS
Endrin ketone
ORR
CHICtCAMAUGA IC-25
SOIL
A
1
ORGANICS
Fluoranthene
AND
COPPER RIDGE
SOIL
A
6
AND
DISMAL GAP
SOIL
A
13
ORR
CHICtCAMAUGA Bethel V
SOIL
A
4
ORR
CHICKAMAUGA IC-25
SOIL
A
1
ORR
DISMAL GAP
SOIL
A
10
ORR
NOLICHUCICY
SOIL
A
12
ROA
DISMAL GAP
SOIL-
A
12
ORGANICS
FIuoranthene
58
ORGANICS
Fluorene
AND
COPPER RIDGE
SOIL
A
-------�
J-7
Table J.l (continued)
Analysis type Analysis Location Formation Matrix Horizon Count
AND
DISMAL GAP
SOIL
A
14
ORR
CHEPULTEPEC
SOIL
A
1
ORR
CHICKAMAUGA Bethel V
SOIL
A
10
ORR
CHICKAMAUGA K-25
SOIL
A
5
ORR
COPPER RIDGE
SOIL-
A
6
ORR
DISMAL GAP
SOIL
A
1
ROA
COPPER RIDGE
SOIL
A
3
ROA
DISMAL GAP
SOIL
A
1
ORGAN ICS
Fluorene
50
ORGAN ICS
Heptachlor
ORR
CHICKAMAUGA K-25
SOIL
A
1
ORGAN ICS
Heptachlor epoxide
ORR
CHICKAMAUGA IC-25
SOIL
A
1
ORGAN ICS
IndenoC1,2,3-cd)pyrene
AND
DISMAL GAP
SOIL
A
15
ORR
CHICKAMAUGA Bethel V
SOIL
A
1
ORR
DISMAL GAP
SOIL
A
1
ROA
COPPER RIDGE
SOIL
A
2
ROA
DISHAL GAP
SOIL
A
1
ORGAN ICS
Indeno(1,2,3-cd)pyrene
20
ORGAN ICS
Lindane
ORR
CHICKAMAUGA K-25
SOIL
A
1
ORGAN ICS
Methoxychlor
ORR
CHICKAMAUGA K-25
SOIL
A
1
ORGANICS
HCPA
AND
COPPER RIDGE
SOIL
A
3
ORR
CHICKAMAUGA Bethel V
SOIL
A
3
ORGAN ICS
HCPA
6
ORGANICS
MCPP
AND
COPPER RIDGE
SOIL
A
3
ORR
CHICKAMAUGA Bethel V
SOIL
A
3
ORGANICS
MCPP
6
ORGANICS
Naphthalene
AND
COPPER RIDGE
SOIL
A
12
AND
DISMAL GAP
SOIL
A
10
ORR
CHEPULTEPEC
SOIL
A
3
ORR
CHICKAMAUGA Bethel V
SOIL
"A
5
ORR
CHICKAMAUGA K-25
SOIL
A
6
ORR
COPPER RIDGE
SOIL
A
5
ORR
DISMAL GAP
SOIL
A
1
ROA
COPPER RIDGE
SOIL
A
5
ORGANICS
Naphthalene
U7
ORGANICS
Phenanthrene
AND
DISMAL GAP
SOIL
A
2
ORR
DISMAL GAP
SOIL
A
1
ROA
DISMAL GAP
SOIL
A
1
ORGANICS
Phenanthrene
u
ORGANICS
Pyrene
AND
COPPER RIDGE
SOIL
A
2
AND
DISMAL GAP
SOIL
A
6
ORR
CHICKAMAUGA Bethel V
SOIL
A
6
ORR
DISMAL GAP
SOIL
A
1
ROA
DISMAL GAP
SOIL
A
1
ORGANICS
Pyrene
16
ORGANICS
PCB-1016
ORR
CHICKAMAUGA K-25
SOIL
A
1
ORGANICS
PCB-1221
ORR
CHICKAMAUGA K-25
SOIL
A
1
ORGANICS
PCB-1232
ORR
CHICKAMAUGA K-25
SOIL
A
1
ORGANICS
PCB-1242
ORR
CHICKAMAUGA K-25
SOIL
A
-------�
J-8
Table J.l (continued)
Analysis type
Analysis
Location
Formation
Matrix
Horizon
Count
ORGAN ICS
PCB-1248
ORR
CHICKAMAUGA K-25
SOIL
A
1
ORGAN ICS
PCB-1254
ORR
CHICKAMAUGA K-25
SOIL
A
1
ORGAN ICS
PCB-1260
ORR
CHICKAMAUGA K-25
SOIL
A
1
ORGAN ICS
Si Ivex
AND
COPPER RIDGE
SOIL
A
3
ORR
CHICKAMAUGA Bethel V
SOIL
A
3
ORGAN ICS
Si Ivex
6
ORGAN ICS
Toxaphene
ORR
CHICKAMAUGA K-25
SOIL
A
1
ORGAN ICS
2,4-D
AND
COPPER RIDGE
SOIL
A
3
ORR
CHICKAMAUGA Bethel V
SOIL
A
3
ORGAN ICS
2,4-D
6
ORGAN ICS
2,4-DB
AND
COPPER RIDGE
SOIL
A
3
ORR
CHICKAMAUGA Bethel V
SOIL
A
3
ORGAN ICS
2,4-DB
6
ORGAN ICS
2.4,5-T
AND
COPPER RIDGE
SOIL
A
3
ORR
CHICKAMAUGA Bethel V
SOIL
A
3
ORGAN ICS
2,4,5-T
&
ORGAN ICS
4,4'-DDD
ORR
CHICKAMAUGA K-25
SOIL
A
1
ORGAN ICS
4,4'-DDE
ORR
CHICKAMAUGA K-25
SOIL
A
1
ORGAN ICS
4,4'-DDT
ORR
CHICKAMAUGA K-25
SOIL
A
1
ORGAN ICS
647
RADIONUCLIDES
Curiun-244
AND
COPPER RIDGE
SOIL
A
2
ANO
DISMAL GAP
SOIL
A
4
ORR
CHEPULTEPEC
SOIL
A
9
ORR
CHICKAMAUGA Bethel V
SOIL-
A
1
ORR
COPPER RIDGE
SOIL
A
4
ORR
DISMAL GAP
SOIL
A
1
ORR
DISMAL GAP
SOIL
B
2
ORR
DISMAL GAP
SOIL
C
2
ROA
COPPER RIDGE
SOIL
A
5
ROA
DISMAL GAP
SOIL
A
1
ROA
DISMAL GAP
SOIL
C
1
RADIONUCLIDES
Curiun-244
32
RADIONUCLIDES
Europiun-155
AND
COPPER RIDGE
SOIL
A
5
AND
COPPER RIDGE
SOIL
B
4
AND
COPPER RIDGE
SOIL
C
4
AND
DISMAL GAP
SOIL
A
5
AND
DISMAL GAP
SOIL
B
5
AND
DISMAL GAP
SOIL
C
5
ORR
CHEPULTEPEC
SOIL
A
9
ORR
CHEPULTEPEC
SOIL
B
6
ORR
CHEPULTEPEC
SOIL
C
6
ORR
CHICKAMAUGA Bethel V
SOIL
A
5
ORR
CHICKAMAUGA Bethel V
SOIL
B
4
ORR
CHICKAMAUGA Bethel V
SOIL
C
4
ORR
CHICKAMAUGA K-25
SOIL
A
ORR
CHICKAMAUGA K-25
SOIL
B
4
ORR
CHICKAMAUGA K-25
SOIL
C
4
ORR
COPPER RIDGE
SOIL
A
4
ORR
COPPER RIDGE
SOIL
B
4
ORR
COPPER RIDGE
SOIL
C
4
ORR
DISMAL GAP
SOIL
A
5
ORR
DISMAL GAP
SOIL
B
-------�
J-9
Table J.l (continued)
Analysis type Analysis Location
ORR
ORR
ORR
ORR
ROA
ROA
ROA
ROA
ROA
ROA
RADIONUCLIDES Europium-155
RADIONUCLIDES Neptuniun-237 AND
ORR
ORR
ORR
ORR
ROA
ROA
ROA
RADIONUCLIDES Neptuniun-237
RADIONUCLIDES Plutoniun-238 ROA
RADIONUCLIDES Plutoniun-239/240 ROA
RADIONUCLIDES Technet iun-99 AND
AMD
ORR
ORR
ORR
ORR
ORR
ORR
ORR
ORR
ROA
ROA
ROA
ROA
RADIONUCLIDES Technetium-99
RADIONUCLIDES
NAA Cadmi un AND
AND
AND
AND
AND
AND
ORR
ORR
ORR
ORR
ORR
ORR
ORR
ORR
ORR
ORR
ORR
ORR
ORR
ORR
ORR
ORR
ORR
ORR
Formation Matrix Horizon Count
DISMAL
GAP
SOIL
c
4
nolichucky
SOIL
A
4
NOLICHUCKY
SOIL
B
4
NOLICHUCKY
SOIL
C
4
COPPER
RIDGE
SOIL-
A
6
COPPER
RIDGE
SOIL
B
5
COPPER
RIDGE
SOIL
C
5
DISMAL
GAP
SOIL
A
5
DISMAL
GAP
SOIL
B
5
DISMAL
GAP
SOIL
C
5
146
DISMAL
GAP
SOIL
A
1
DISMAL
GAP
SOIL
A
5
DISMAL
GAP
SOIL
B
2
DISMAL
GAP
SOIL
C
2
NOLICHUCtCY
SOIL
A
2
DISMAL
GAP
SOIL
A
5
DISMAL
GAP
SOIL
B
1
DISMAL
GAP
SOIL
C
1
19
COPPER
RIDGE
SOIL
A
1
COPPER
RIDGE
SOIL
A
1
COPPER
RIDGE
SOIL
A
5
DISMAL
GAP
SOIL
A
5
CHEPULTEPEC
SOIL
A
9
CHICKAMAUGA Bethel
V
SOIL
A
4
CHICKAMAUGA K-25
SOIL
A
8
COPPER
RIDGE
SOIL
A
4
DISMAL
GAP
SOIL
A
5
DISMAL
GAP
SOIL
B
2
DISMAL
GAP
SOIL
C
2
NOLICHUCKY
SOIL
A
4
COPPER
RIDGE
SOIL
A
6
DISMAL
GAP
SOIL
A
5
DISMAL
GAP
SOIL
-B
1
DISMAL
GAP
SOIL
C
1
61
260
COPPER
RIDGE
SOIL
A
3
COPPER
RIDGE
SOIL
B
4
COPPER
RIDGE
SOIL
C
4
DISMAL
GAP
SOIL
A
5
DISMAL
GAP
SOIL
B
5
DISMAL
GAP
SOIL
C
5
CHEPULTEPEC
SOIL
A
6
CHEPULTEPEC
SOIL
B
6
CHEPULTEPEC
SOIL
C
6
CHICKAMAUGA Bethel
V
SOIL
A
5
CHICKAMAUGA Bethel
V
SOIL
B
4
CHICKAMAUGA Bethel
V
SOIL
C
4
CHICKAMAUGA K-25
SOIL
A
6
CHICKAMAUGA K-25
SOIL
B
3
CHICKAMAUGA K-25
SOIL
C
4
COPPER
RIDGE
SOIL
A
4
COPPER
RIDGE
SOIL
B
4
COPPER
RIDGE
SOIL
C
4
DISMAL
GAP
SOIL
A
5
DISMAL
GAP
SOIL
B
5
DISMAL
GAP
SOIL
C
5
NOLICHUCKY
SOIL
A
4
NOLICHUCKY
SOIL
B
4
NOLICHUCKY
SOIL
C
-------�
J-10
Table J.l (continued)
Analysis type Analysis
Location
Formation
Matrix
Horizon
Count
NAA
NAA
Cackniun
Samariun
NAA
NAA
Samariun
Selenium
ROA
COPPER RIDGE
SOIL
A
5
RCA
COPPER RIDGE
SOIL
B
5
ROA
COPPER RIDGE
SOIL
C
5
ROA
DISMAL GAP
SOIL
A
5
ROA
DISHAL GAP
SOIL
B
5
ROA
DISMAL GAP
SOIL
C
5
139
AND
COPPER RIDGE
SOIL
A
3
AND
COPPER RIDGE
SOIL
B
4
AND
COPPER RIDGE
SOIL
C
4
AND
DISMAL GAP
SOIL
A
5
AND
DISMAL GAP
SOIL
B
5
AND
DISMAL GAP
SOIL
C
5
ORR
CHEPULTEPEC
SOIL
A
6
ORR
CHEPULTEPEC
SOIL
B
6
ORR
CHEPULTEPEC
SOIL
C
6
ORR
CHICKAMAUGA Bethel V
SOIL
A
5
ORR
CHICICAMAUGA Bethel V
SOIL
B
4
ORR
CHICKAMAUGA Bethel V
SOIL
C
4
ORR
CHICKAMAUGA K-25
SOIL
A
6
ORR
CHICICAMAUGA K-25
SOIL
B
3
ORR
CHICKAMAUGA K-25
SOIL
C
4
ORR
COPPER RIDGE
SOIL
A
4
ORR
COPPER RIDGE
SOIL
B
4
ORR
COPPER RIDGE
SOIL
C
4
ORR
DISMAL GAP
SOIL
A
5
ORR
DISMAL GAP
SOIL
B
5
ORR
DISMAL GAP
SOIL
C
5
ORR
NOLICHUCKY
SOIL
A
4
ORR
NOLICHUCKY
SOIL
B
4
ORR
NOLicHuctnr
SOIL
C
4
ROA
COPPER RIDGE
SOIL
A
5
ROA
COPPER RIDGE
SOIL
B
5
ROA
COPPER RIDGE
SOIL
C
5
ROA
DISMAL GAP
SOIL
A
5
ROA
DISMAL GAP
SOIL
B
5
ROA
DISMAL GAP
SOIL
C
5
139
AND
COPPER RIDGE
SOIL
A
4
AND
COPPER RIDGE
SOIL
B
4
AND
COPPER RIDGE
SOIL
C
4
AND
DISMAL GAP
SOIL
A
4
AND
DISMAL GAP
SOIL
B
5
AND
DISMAL GAP
SOIL
C
5
ORR
CHEPULTEPEC
SOIL
A
8
ORR
CHEPULTEPEC
SOIL
B
6
ORR
CHEPULTEPEC
SOIL
C
6
ORR
CHICICAMAUGA Bethel V
SOIL
A
5
ORR
CHICICAMAUGA Bethel V
SOIL
B
4
ORR
CHICKAMAUGA Bethel V
SOIL
C
4
ORR
CHICICAMAUGA K-25
SOIL
A
6
ORR
CHICKAMAUGA K-25
SOIL
B
4
ORR
CHICKAMAUGA K-25
SOIL
C
4
ORR
COPPER RIDGE
SOIL
A
4
ORR
COPPER RIDGE
SOIL
B
4
ORR
COPPER RIDGE
SOIL
C
4
ORR
DISMAL GAP
SOIL
A
5
ORR
DISMAL GAP
SOIL
B
5
ORR
DISMAL GAP
SOIL
C
5
ORR
NOLICHUCKY
SOIL
A
4
ORR
NOLICHUCKY
SOIL
B
4
ORR
NOLICHUCKY
SOIL
C
3
ROA
COPPER RIDGE
SOIL
A
5
ROA
COPPER RIDGE
SOIL
B
5
ROA
COPPER RIDGE
SOIL
C
5
ROA
DISMAL GAP
SOIL
A
-------�
J-ll
Table J.l (continued)
Analysis type Analysis
Location
Formation
Matrix
Horizon
Count
NAA
NAA
Selenium
Tungsten
NAA
NAA
Tungsten
Zinc
ROA
DISMAL GAP
SOIL
B
5
ROA
DISMAL GAP
SOIL
C
5
141
AND
COPPER RIDGE
SOIL
A
3
AND
COPPER RIDGE
SOIL
B
4
AND
COPPER RIDGE
SOIL
C
4
AND
DISMAL GAP
SOIL
A
5
AND
DISMAL GAP
SOIL
B
5
AND
DISMAL GAP
SOIL
C
5
ORR
CHEPULTEPEC
SOIL
A
6
ORR
CHEPULTEPEC
SOIL
B
6
ORR
CHEPULTEPEC
SOIL
C
6
ORR
CHICKAMAUGA Bethel
V
SOIL
A
5
ORR
CHICKAMAUGA Bethel
V
SOIL
B
4
ORR
CHICKAMAUGA Bethel
V
SOIL
C
4
ORR
CHICKAMAUGA K-25
SOIL
A
6
ORR
CHICICAMAUGA K-25
SOIL
B
3
ORR
CHICKAMAUGA K-25
SOIL
C
4
ORR
COPPER RIDGE
SOIL
A
4
ORR
COPPER RIDGE
SOIL
B
4
ORR
COPPER RIDGE
SOIL
C
4
ORR
DISMAL GAP
SOIL
A
5
ORR
DISMAL GAP
SOIL
8
5
ORR
DISMAL GAP
SOIL
C
5
ORR
NOLICHUCKY
SOIL
A
4
ORR
NOLICHUCKY
SOIL
B
4
ORR
NOLICHUCKY
SOIL
C
4
ROA
COPPER RIDGE
SOIL
A
5
ROA
COPPER RIDGE
SOIL
B
5
ROA
COPPER RIDGE
SOIL
C
5
ROA
DISMAL GAP
SOIL
A
5
ROA
DISMAL GAP
SOIL
B
5
ROA
DISMAL GAP
SOIL
C
5
139
ORR
CHEPULTEPEC
SOIL
A
4
ORR
CHEPULTEPEC
SOIL
B
2
ORR
CHEPULTEPEC
SOIL
. C
2
ORR
CHICKAMAUGA Bethel
V
SOIL
A
5
ORR
CHICKAMAUGA Bethel
V
SOIL
B
4
ORR
CHICKAMAUGA Bethel
V
SOIL
C
3
ORR
DISMAL GAP
SOIL
A
5
ORR
DISMAL GAP
SOIL
B
5
ORR
DISMAL GAP
SOIL
C
5
ORR
NOLICHUCKY
SOIL
A
2
ORR
NOLICHUCKY
SOIL
B
2
ORR
NOLICHUCKY
SOIL
C
1
NAA
NAA
Zinc
40
598
-------�
DOE/OR/Ol-1175/V2
ES/ER/TM-84/V2
DISTRIBUTION
1.
F. P. Baxter
20.
C. W. McGinn
2.
D. T. Bell
21.
S. A. Meachara
3.
H. L. Boston
22.
B. J. Montgomery (PGDP)
4.
V. J. Brumback
23.
M. J. Norris
5.
J. F. Campbell (PORTS)
24.
B. D. Nourse
6.
R. B. Cook
25-26.
P. T. Owen
7.
T. O. Early
27.
R. L. Schmoyer
8.
G W. Francis
28.
S. H. Stow
9.
P. L. Goddard
29.
R. R. Turner
10.
T. L. Hatmaker
30-32.
D. R. Watkins
11.
L. A. Hook
33.
P. S. Wood
12.
R. H. Ketelle
34.
Central Research Library
13.
C. W. Kimbrough
35-37.
ESD Library
14.
B. L. Kimmel
38.
Laboratory Records Department
15.
A. J. Kuhaida
39.
ORNL Patent Section
16.
S. Y. Lee
40-42.
Central ER Doc. Mgmt. Center
19.
D. M. Matteo
43-44.
ORNL ER Doc. Mgmt. Center
45. OfBce of Assistant Manager for Energy Research and Development, DOE Oak Ridge
Operations Office, P.O. Box 2001, Oak Ridge, TN 37831-8600
46. J. T. Amnions, Department of Plant and Soil Science, University of Tennessee, Knoxville,
TN 37916
47. G. W. Bodenstein, DOE Oak Ridge Operations Office, P.O. Box 2001, Oak Ridge, TN
37831-8541
48. D. M. Carden, DOE Oak Ridge Operations Office, P.O. Box 2001, Oak Ridge, TN
37831-8541
49. R. N. Farvolden, Department of Earth Sciences, University of Waterloo, Waterloo,
Ontario N21 3G1 Canada
50. M. S. Ferre, DOE Oak Ridge Operations Office, P.O. Box 2001, Oak Ridge, TN
37831-8541
51. C S. Gist, DOE Oak Ridge Operations Office, P.O. Box 2001, Oak Ridge, TN 37831-8541
52. D. A. Lietzke, Lietzke Soil Services, Route No. 3, Box 607, Rutledge, TN 37861
53. W. N. Lingle, DOE Oak Ridge Operations Office, P.O. Box 2001, Oak Ridge, TN
37831-8541
54. S. P. Riddle, DOE Oak Ridge Operations Office, P.O. Box 2001, Oak Ridge, TN
37831-8541
55. R. C Sleeman, DOE Oak Ridge Operations Office, P.O. Box 2001, Oak Ridge, TN
37831-8541
56. J. T. Sweeney, DOE Oak Ridge Operations Office, P.O. Box 2001, Oak Ridge, TN
37831-8541
-------� |