- Collection:
- Georgia Government Publications
- Title:
- Hydrogeologic data of the Dougherty Plain and adjacent areas, southwest Georgia
- Creator:
- Mitchell, G. D
- Contributor to Resource:
- Georgia Geologic Survey. Accelerated Ground-Water Program
Geological Survey (U.S.) - Publisher:
- Atlanta : Dept. of Natural Resources, Environmental Protection Division, Georgia Geologic Survey
- Date of Original:
- 1981
- Subject:
- Groundwater--Georgia--Dougherty County
- Location:
- United States, Georgia, Dougherty County, 31.53337, -84.21625
- Medium:
- state government records
- Type:
- Text
- Format:
- application/pdf
- Description:
- Bibliography: p. 10
- External Identifiers:
- Call Number GA N200.G3 S1 I5 no. 58
- Metadata URL:
- https://dlg.galileo.usg.edu/id:dlg_ggpd_s-ga-bn200-pg3-bs1-bi5-bno-p-b58
- Digital Object URL:
- https://dlg.galileo.usg.edu/do:dlg_ggpd_s-ga-bn200-pg3-bs1-bi5-bno-p-b58
- Language:
- eng
- Extent:
- x, 124 p. : ill. ; 28 cm.
- Holding Institution:
- University of Georgia. Map and Government Information Library
- Rights:
-
HYDROGEOLOGIC DATA OF THE DOUGHERTY PLAIN AND ADJACENT AREAS, SOUTHWEST GEORGIA
by
G. D. Mitchell
Prepared as part of the Accelerated Ground-Water Program
in cooperation with the U.S . Geological Survey
DEPARTMENT OF NATURAL RESOURCES ENVIRONMENTAL PROTECTION DIVISION
GEORGIA GEOLOGIC SURVEY
58 INFORMATION CIRCULAR
HYDROGEOLOGIC DATA OF THE DOUGHERTY PLAIN AND ADJACENT AREAS, SOUTHWEST GEORGIA
by
G. D. Mitchell
Prepared as part of the Accelerated Ground-Water Program
in cooperation with the U. S. Geological Survey
DEPARTMENT OF NATURAL RESOURCES Joe D. Tanner, Commissioner
ENVIRONMENTAL PROTECTION DIVISION J. Leonard Ledbetter, Director
GEORGIA GEOLOGIC SURVEY William H. McLemore, State Geologist
Atlanta 1981
58 IN FORMATION CIRCULAR
CONTENTS
Page
Abstract........................................................... 1 Introduction....................................................... 2
Acknowledgments.................................................... 3
Well numbering system ~
4
Precipitation data 5
Geologic data. '
6
Water-level data
7
Aquifer hydraulic data 8
Water quality~.....................................................
9
Selected references 10
iii
PLATES [Plates in pocket] Plate 1. Map of the report area showing locations of wells that have records presented in table 1. 2. Map showing the potentiometric surface of the principal
artesian aquifer, November 1979.
3. Map showing the potentiometric surface of the principal
artesian aquifer, May 1980.
FIGURES
Page
Figure
1. Map of Georgia showing location of the report area 11
2. Map of the report area showing the locations of
National Oceanic and Atmospheric Administration
(NOAA) stations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
Figures 3-11. Bar graphs of monthly precipitation for 1979-80
and annual precipitation for designated periods:
3. Statio~ 1, 1935-80.............................. 13
4. Station 2, 1935-80.............................. 14 5. Station 3, 1935-80.............................. 15
6. Station 4, 1935-80.............................. 16
7. Station 5, 1939-80.............................. 17
8. Station 6, 1957-80.............................. 18
9. Station 7, 1935-80.............................. 19
10. Station 8, 1948-80.............................. 20
11. Station 9, 1956-80.............................. 21
iv
FIGURES--Continued
Page
Figure
12. Map showing locations of wells for which lithologic
data are given in tables 3-46..................... 22
13. Map showing locations of wells for which hydrographs
are shown in figures 14-21........................ 23
Figures 14-18. Hydrographs of mean daily water levels for principal
artesian aquifer wells, March 1979 through
December 1980:
14. Wells 087-10, 087-23, 087-33, and 095-15....... 24
15. Wells 095-26, 095-59, and 095-68............... 25
16. Wells 099-39, 177-15, and 201-05............... 26
17. Wells 205-01, 205-16, 205-22, and 253-08....... 27
18. Wells 253-12 and 253-26........................ 28
Figure
19. Hydrographs of mean monthly water levels for princi-
pal artesian aquifer wells 087-23 and 095-68, 1971
through 1980...................................... 29
20. Hydrographs of mean daily water levels for Talla-
hatta aquifer wells 095-04, 095-27, 095-53, and
095-56, January 1979 through December 1980........ 30
21. Hydrographs of mean daily water levels for Talla-
hatta aquifer wells 095-64 and 177-03, January
1979 through December 1980........................ 31
v
FIGURES--Continued
Page
Figure
22. Map showing locations of principal artesian aqui-
fer wells for which specific-capacity data are
given in table 48................................. 32
23. Map showing locations of principal artesian aquifer
tests for which transmissivity and storage-
coefficient values are given in table 49 and
figures 24-34..................................... 33
Figures 24-34. Logarithmic plot of drawdown versus time for princi-
pal artesian aquifer tests, with results:
24. Well 007-06.................................... 34
25. Well 087-33.................................... 35
26. Well 095-15.................................... 36
27. Well 099-39.................................... 37
28. Well 177-15.................................... 38
29. Well 201-05.................................... 39
30. Well 205-16.................................... 40
31. Well 205-22... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41
32. Well 253-08.................................... 42
33. Well 253-12.................................... 43
34. Well 253-26.................................... 44
vi
TABLES
Page
Table
1. Records of selected wells in the Dougherty Plain and
adjacent areas...................................... 45
2. Generalized stratigraphic column of the Tertiary Sys-
tem in the Dougherty Plain (adapted from Hicks,
1980) ........................................... 52
Tables 3-46. Lithologic logs from field descriptions of drill
cuttings:
3. Well 007-38
53
4. Well 007-39 ........... .......................... 54
5. Well 037-24 ................................... 55
6. Well 087-09 ....................... 56
7. Well 087-10 ...................... 57
8. Well 087-33 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 58
9. Well 087-42 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 59
10. Well 087-43 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 61
11. Well 087-44 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 62
12. Well 087-45 ................... 63
13. Well 087-46 .. ................................. 64
14. Well 08 7-4 7 . ........... ,. ...... ,. ............. 65
15. Well 095-14 .................................. 66
16. Well 095-15 ........................ . 67
17. Well 095-69 ... ...................................... . 68
18. Well 095-70 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 69
19. Well 095-71 ..................................
70
20. Well 095-72 ..................... 71
vii
TABLES--Continued Page
Tables 3-46. Lithologic logs from field descriptions of drill cuttings:--Continued
21. Well 099-39 ................. .............. 72 22. Well 0 99-45 . ................................ 73 23. Well 099-46 . ................................ 74
24. Well 177-15 .............. 75 25. Well 177-40 .................................. 76 26. Well 177-41 ............................... 77 27. Well 177-42 ......... 78 28. Well 177-43 ......................... 79
29. Well 201-15 ................... 80 30. Well 201-16 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 81
31. Well 201-33 ..................... 82 32. Well 201-34 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 83
33. Well 205-16 .......... . ........................... 85
34. Well 205-34 ..................................... . 86 35. Well 205-35 . .................................... 88 36. Well 205-36 ........... .......................... 89 37. Well 205-37 .................................. 90 38. Well 205-38 . . . . . . . . . . . . . . . . . . . . . . e e e D :1 & 91 39. Well 253-08 ........... ........................ 92 40. Well 253-26 ....... ............ 93 41. Well 253-27 ................................... 94 42. Well 253-28 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 95 43. Well 261-22 ................................... 96
viii
TABLES--Continued Page
Tables 3-46. Lithologic logs from field descriptions of drill cuttings:--Continued
44. Well 273-14...................................... 97 45. Well 321-03...................................... 98
46. Well 321-09...................................... 100 Table 47. Semiannual water levels, in feet below land surface,
for wells in the principal artesian aquifer,
1977-80............................................. 101
48. Specific-capacity data for wells in the principal artesian aquifer 122
49. Summary of results and aquifer test methods used to calculate transmissivity and storage-coefficient values for the principal artesian aquifer........... 123
SO. Statistical comparison of constituents in water from the principal artesian aquifer and the Tallahatta aquifer.......... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 124
ix
CONVERSION FACTORS
For use of those readers who may prefer to use International System (SI) Units rather than inch-pound units, the conversion factors for the terms used in this report are listed below:
Multiply inch-pound inch (in.)
~ 2.540 X 10+1
To obtain SI units millimeter (mm)
foot (ft)
0.3048
meter (m)
mile (mi)
1.609
kilometer (km)
inch per year (in./yr)
2.540 X 10+1
millimeter per year (mm/yr)
cubic foot per second (ft 3Js)
square mile (mi2 )
2. 832 X 10-2 2.590
cubic meter per second (m 3/s)
square kilometer (km 2)
gallon per minute (gal/min)
6.309 X 10-2 liter per second (L/s)
million gallons per day (Mgal/d)
0.0438
cubic meters per second (m 3/s)
* * *
National Geodetic Vertical Datum of 1929 (NGVD of 1929): A geodetic datum derived from a general adjustment of the first-order level nets of both the United States and Canada, formerly called "Mean Sea Level."
X
ABSTRACT In the Dougherty Plain district of southwest Georgia, which includes an area of about 4,500 mi 2 , ground water is used extensively for agricultural irrigation and as a source of industrial, domestic, and municipal water supplies. Most of this water comes from the Ocala Limestone, referred to as the principal artesian aquifer. Increased ground-water withdrawals for irrigation and large water-level declines during the agricultural drought of 1977 have raised concerns about the long-term potential of the ground-water system during prolonged and serious droughts. This report presents basic hydrologic and geologic data on the principal artesian aquifer and the underlying Tallahatta aquifer, and specificcapacity, transmissivity, and storage-coefficient data for the principal artesian aquifer. The data were collected in an investigation of the
Dougherty Plain by the u.s. Geological Survey, made in cooperation with the
Georgia Department of Natural Resources, Georgia Geologic Survey. The report includes construction, location, and other pertinent data on
about 500 wells; precipitation data for nine weather stations, mainly for 1935 through 1980; lithologic descriptions of driller's samples from 46 test wells; maps showing the potentiometric surface of the principal artesian aquifer for November 1979 and May 1980; and water-quality data for the principal artesian and Tallahatta aquifers.
1
INTRODUCTION In the Dougherty Plain district and adjacent areas of the Coastal Plain province of southwest Georgia, the principal artesian aquifer is used extensive' ly for agricultural irrigation and as a source of industrial, domestic, and municipal water supplies. Ground-water withdrawals for irrigation have increased from about 15 billion gallons in 1976 to an estimated 77 billion gallons in 1980. Increased ground-water withdrawals for irrigation and large water-level declines during the agricultural drought of 1977 have raised serious concerns about the quantity of water that can be developed from the ground-water system in the Dougherty Plain during future drought periods. The Dougherty Plain and adjacent areas covered by this report comprise about 4,500 mi in southwestern Georgia and include all or parts of Baker, Calhoun, Crisp, Dooly, Decatur, Dougherty, Early, Grady, Lee, Miller, Mitchell, Seminole, Sumter, Terrell, and Worth Counties (fig. 1). This report contains basic hydrologic and geologic data for the principal artesian aquifer and the Tallahatta aquifer and specific-capacity, transmissivity, and storage-coefficient data for the principal artesian aquifer in and adjacent to the Dougherty Plain. Table 1 lists selected wells in the report area, gives construction data, and shows the type of data available for each well. The locations of these wells are shown in plate 1. The
data were collected in an i nvestigation of the Dougherty Plain by the u.s.
Geological Survey, made in cooperation with the Georgia Department of Natural Resources, Georgia Geologic Survey.
2
ACKNOWLEDGMENTS Appreciation is extended to the following for allowing test drilling on their properties and for their continued cooperation throughout the study: Alvin Newton, Ike M. Newberry, Jr., Mike Moorman, Douglas Harvey, Joe Hall, Thomas Rentz, Randall Newberry, Gerome Wells, Clyde Bradley of the Roddenberry Co., Clayton Holton of the Reba Corp., Bob Webber of AG-CON, Inc., and Lin Johnson and Ralph Thompson of Jo-Su-Li Farms. The courtesies and help extended by Terry Brogden, Freddie Thompson, and Kendall Bradley, and by John Flatt of Layne-Atlantic Co., are sincerely appreciated.
3
WELL NUMBERING SYSTEM
Two numbering systems are used to identify wells in this report. A
6-character numbering system is used to identify wells in tables and fig-
ures. This system consists of a 3-digit number that identifies the county
in which a well is located, followed by a hyphen and a 2-digit number that
is the serial number of the well in that county. The table below lists the
counties and their reference numbers:
Baker
007
~e
177
Calhoun
037
Miller
201
Crisp
081
Mitchell 205
Decatur
087
Seminole 253
Dooly
093
Sumter
261
Dougherty 095
Terrell 273
Early
099
Worth
321
Grady
131
The 3-digit county number has been omitted in figures that include county
names.
The other numbering system used in this report is the Ground Water
Site Inventory system (GWSI) of the U.S. Geological Survey which catalogs
ground-water stations by using a unique number for each well. The number
consists of 15 digits: the first 6 digits denote the degrees, minutes, and
seconds of latitude of the well site; the next 7 digits denote degrees,
minutes, and seconds of longitude; and the last 2 digits are a sequential
number for wells within a 1-second grid. Once assigned, a site identifi-
cation number does not change even though latitude or longitude may later
be corrected.
4
PRECIPITATION DATA The locations of nine National Oceanic and Atmospheric Administration (NOAA) precipitation stations are shown in figure 2. Figures 3 through 11 show monthly precipitation for 1979-80 and yearly precipitation for 193580, or as otherwise indicated for these stations. Additional precipitation data as well as temperature data may be obtained from NOAA, Environmental Data and Information Service, National Climatic Center, Asheville, NC 28801.
5
GEOLOGIC DATA A generalized stratigraphic column of the Tertiary System in the Dougherty Plain is shown in table 2. Data in this report pertain to the upper part of the Tertiary section, which includes the Tallahatta aquifer (of the Claiborne Group), the Ocala Limestone (referred to as the principal artesian aquifer), and the residuum of the Ocala Limestone (Hicks and others, 1980). Figure 12 shows the locations of wells for which lithologic data are given on 44 test wells in tables 3 through 46.
6
WATER-LEVEL DATA In the Dougherty Plain district the principal artesian aquifer is used extensively for agricultural irrigation. Because of the increased pumpage
from this aquifer, the u.s. Geological Survey has made semiannual water-
level measurements since 1977 in more than 200 wells tapping the principal artesian aquifer (table 47). These wells are measured in the early spring after the winter rains when water levels are usually at their highest, and again in the fall after the summer irrigation season when water levels are usually at their lowest. Plates 2 and 3, which were constructed from some of these measurements, show the potentiometric surface of the principal artesian aquifer for November 1979 and May 1980.
Continuous water-level records are obtained from a network of u.s.
Geological Survey observation wells equipped with automatic water-level recorders (fig. 13). These records were used to construct hydrographs showing the change in water level over time in a specific well. Sixteen hydrographs of mean daily water levels for wells in the principal artesian aquifer, mostly for March 1979 to December 1980, are shown in figures 14 through 18. Hydrographs of mean monthly water levels for two of these wells for 1971 through 1980 are shown in figure 19. Six hydrographs showing mean daily water levels in wells tapping the Tallahatta aquifer, mainly for January 1979 to December 1980, are presented in figures 20 and 21.
7
AQUIFER HYDRAULIC DATA Aquifer hydraulic data are presented in this report for only the principal artesian aquifer. Specific-capacity data were obtained by field tests conducted for the Dougherty Plain study and from the files of local drillers. Specific capacities and related data for selected wells are given in table 48, and locations of these wells are shown in figure 22. Transmissivity and storage-coefficient data were obtained from aquifer tests conducted for the Dougherty Plain study. The locations of the test sites and the calculated transmissivity and storage-coefficient values for each site are shown in figure 23. The method used to calculate the transmissivity and storage-coefficient values for each aquifer test and a listing of the calculated values are summarized in table 49. A plot and listing of the drawdown data, other pertinent data, and the calculated transmissivity and storage coefficient for each site are given in figures 24 through 34.
8
WATER QUALITY
Since 1950 the u.s. Geological Survey periodically has collected and
analyzed water from wells in the report area. A means of comparing the concentrations of constituents in water from the principal artesian aquifer with concentrations in water from the Tallahatta aquifer is provided in table SO. Constituent concentrations generally are higher in water from the Tallahatta aquifer than in water from the principal artesian aquifer. Water from the principal artesian aquifer, however, generally contains higher nitrate concentrations than water from the Tallahatta aquifer. Water from both aquifers generally is suitable for agricultural, municipal, domestic, and most industrial uses.
9
SELECTED REFERENCES Herrick, S. M., 1961, Well logs of the Coastal Plain of Georgia: Georgia
Department of Natural Resources Bulletin 70, 462 p. Hicks, D. W., Krauee, R. E., and Clarke, J. S., 1980, Geohydrology of the
Albany area, Georgia: U.S. Geological Survey Open-File Report 80-1296. Matthews, S. E., Hester, W. G., and O'Byrne, M. P., 1979, Ground-water data
for Georgia, 1979: u.s. Geological Survey Open-File Report 80-501,
93 p. Owen, Vaux, Jr., 1963, Geology and ground-water resources of Mitchell
County, Georgia: Georgia Department of Natural Resources Information Circular 14, p. 118-121. Pollard, L. D., Grantham, R. G., and Blanchard, H. E., Jr., 1978, A preliminary appraisal of the impact of agriculture on ground-water
availability in southwest Georgia: u.s. Geological Survey Water-
Resources Investigations 79-7, 22 p. Sever, C. W., 1965, Ground-water resources of Bainbridge, Georgia: Georgia
Department of Natural Resources Information Circular 32, 10 p.
-----1965, Ground-water resources and geology of Seminole, Decatur, and
Grady Counties, Georgia: u.s. Geological Survey Water-Supply Paper
1809-Q, 30 p.
u.s. Environmental Protection Agency, 1977, National interim primary drink-
ing water regulations: U.S. Environmental Protection Agency, 570/976-003, 159 p. Wait, R. L., 1963, Geology and ground-water resources of Dougherty County, Georgia: U.S. Geological Survey Water-Supply Paper 1539-P, 102 p.
10
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Figure 1. Location of report area.
EXPLANATION
CJ Area of Dougherty Plain
~~ Weather Stati Precipitation ons
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s
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12
13 ~-----------------------------------------------,
EXPLANATION
85~---------------------------------------------,
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Average Monthly Precipitation
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El Monthly Precipitation 1979 Monthly Precipitation 1980
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13
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-- Average Yearly Precipitation For Period Of Record
12 ...
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D Monthly Precipitation 1980
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85~---------------------------------------------,
-- Ave r age Yearly Pre<:lpitotion Fo r P
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[] Monthly Precipitation 1979
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85~----------------------------------------~
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13 ~-----------------------------------------------, EXPlANATION
12 ..
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[j Monthly Precipitation 1979
11 ...
u Monthly Precipitation 1980
E Estimated From Nearby Stations
as,----------------------------------------------, -- Average Yearly Precipitation For Period Of Record 80
10 -1
~
I~;
9 ...
'li
.C..I..J.
:::z:::
(..)
8 -1
:!!!::
b
:!!!::
z
7 ..
'j
0
I<(
is,
t:
c...
6 :
1-'
(.......). a:
-J
c...
>-
--' :::z:::
Jl~.:
Iz -
4
0
:::2:
J, =
:::
mm
t::
~. r--
.h
70
.C..I..J.
:::z:::
(..)
~
~
z
0
I<( I-
c...
u......
a:
c...
>-
-a-:'
.<....(.
>-
40
2
~~~~~~
0
JAN FEB I MARl APR I MAY I JUN I JUll AUG I SEP
30
I
~
g
!
0
c
20...1...-
."M,'.
o-o
2"":"2'":
""2'"':
0
2"':
""2'':
-0 o
2:
"-o'
~
0
2" :
""2':
0 CD
2:
Figure 7. Station 5, 1939-80.
14
,J
12 --1
11--l 10 -1
EXPLANATION
--- Average Monthly Precipitation
For Period Of Record
[] Monthly Precipitation 1979
Q Monthly Precipitation 1980
E Estimated From Nearby Stations
9 --
i:'~
C/)
:~
LLJ
:I:
u
8
t
~
~
z
7 -1:.%..
f-' 00
0
I~ I-
c..
6 -~!~!~!
w
?~
u
LLJ
a: c..
>-
-'
I
-'~-,-1ji,_,-,-
:I:
Iz -
.- -,-
0
:E
' :::. .I Jill : :
: I I
85~---------------------------------------------,
-- Average Yearly Precipitation For Period Of Record 80
70
C/) L.U
:I:
u
z
z
z
0
I-
~
IC..
50
u
LLJ
a: c..
>a-:'
~
L.U
>-
40
30
0 .. .. ... .-.-.. ... ... ... c... JAN I FEB I MARl APR I MAY I JUN I JUL I AUG I SEP I OCT I NOV I DEC
no record
20
"2":'':
0 "<t
""<'t
2:: 2::
0
2":':
""2:'':
.... "2:':
0
-.()
2::
"'-.()
2::
.0...
2::
"...'.
2::
0
Cl)
a-
Figure 8. Station 6, 1957-80.
13 12
11 10
9
Cl)
LU
:I:
u ~
8
~
z
7
C)
I-
~
!:::
c...
6
u
LU
"('."0"
a:
c...
5
>-
-'
:I:
Iz -
4
0
:2
3
2
EXPLANATION
Average Monthly Precipitation
For Period Of Record
[J Monthly Precipitation 1979
D Monthly Precipitation 1980
E Estimated From Nearby Stations
85~-------------------------------------------,
- - Average Yearly Precipitation Far Period Of Record
Cl) LU
:I:
u
z
z
z
C)
I-
~
IC... u
LU
a: c... >-a:'
~ .....
>-
4 0 r-J rl ~:::l r::l'~-- yJ r;:g~ i ijjH' l:::l r-1 ~iil ~'~fj'i' i ''jl ~-
JAN I FEB I MARl APR I MAYI JUN I JUL I AUG I SEP I OCT I NOV I DEC
"M' .0.,.
a-
a-
"..,'.
a-
0
"a-'
""a-''
-0 o a-
"-o'
a-
.0.... a-
"....'.
0 00
~
a-
Figure 9. Station 7, 1935-80.
13
85~----------------------------------------------~
EXPLANATION
-- Average Yearly Precipitation For Period Of Record
12
Average Monthly Precipitation
For Period Of Record
80
[] Monthly Precipitation 1979
11
Q Monthly Precipitation 1980
E Estimated From Nearby Stations
10
9
en
LLJ
:I:
(..)
~
8
~
z
7
S!
I-
<(
t::::
6
0...
(..)
tv 0
LLJ
a:
0...
5
>-
--' :I:
Iz -
4
0
:2:
3
r- ~
t
:::
en
LLJ
:I:
(..)
z
z
z
0
I-
<(
1-0...
50
(..)
LLJ
a:
0...
>-
a--:'
<(
LLJ
>-
40
I!
2
'
0
li..t ,,r::" ,1::-:-se t iii' ,, tij:1 r==jl: t:::1Vt rl #f::JWf:::fw r::l
t:::i
L
4
30
no record
20
""o-''
.0...
o-
... "...'.
o-
....
o-
0
"o-'
""~ ' '
0-o
~
"-o'
~
0
" ~
""~'
.0..
~
Figure 10. Station 8, 1948-80.
13 ~------------------------------------------------~
EXPLANATION
as---------:-~-=-::;:::::;---, -- Average Yearly Precipitation For Period Of Record
Average Monthly Precipitation
12 -
F\i
I 01
For Period Of Record
80
[] Monthly Precipitation 1979
11 -
~t
Monthly Precipitation 1980
b'
'-t
E Estimated From Nearby Stations
10-
~',",
' ' ' . ' . ~
~
70
9-
en
w
:z:
tl
(.;)
~
8 -
TI ~~ ,
! ~
z
0
7 "1wl
I-
<1:
I-
"-
6 -flllll[, f.::?: ..,
(.;)
t-:1 f-1
w a:: "-
::~: r-
>-
...J
:z: Iz -
0
l;t i
~
Tif 1?:"
lv g: -,
~~~} !
' '
1 ~J. I IJ M~:tr~ :
en
w
:z:
(.;)
~
~
z
0
I<1:
'=
"-
(.;)
w a:: "-
>-
...J
a::
.---r-
1
w<1:
>-
40
r::"";
I
&
I I
I I
-b1 lI
:::~~~:
30
0 ~~~~~~-+~-+~-.~~~-.~-.~~~~~~~~
no record
20
"M '
~
0 '<t
~
"'<'t
~
0
"~ '
01'1.0
"o-'"o-'
-0 o ~
-"o '
~
0
" ~
""~'
0 co
~
Figure 11. Station 9, 1956-80.
Area of Dougherty Plain
36 Test Well- Two-digit number is test well number
MITCHELL (205) County -Three-digit number is county code
;$
30 MIL ES
I
Figure 12. Locations of wells for which lithologic data are given in tables 3-46 .
22
...
Area of Dougherty Plain
e16 Test Well- Two-digit number is test well number
MITCHELL (205) County -Three-digit number is county code
10
15
20
L!~
30 MILES
L
j
Figure 13. Locations of wells for which hydrographs are shown in figures 14-21.
23
35
I 40 WELL 087 - 23
uLI.J
<t 45
LaL:
::;:)
Cl)
50
c
2 <t
55
-I
c~ 25
-I
LI.J
aJ
I-
30 I WELL 087 - 33
LI.J LI.J LL
35
t-.:1 >!'>-
2 . 40
-I
>LI.J
45
LI.J
-I
a: 50
LI.J
~
~
15
I WELL 095 - 15
20
25
. ...
30 -
.. ..
... . .
Missing Data
35
Figure 14. Hydrographs of mean daily water levels for principal artesian aquifer wells 087-10, 087-23, 087-33, and 095-15 .
5 WELL 095- 26
10
15
20
25
L.U
(.;)
<( LL
30
c::
:::1
Cl)
35
z c
<(
5
--I
s:
c
10
--I
Lr:.::Uc 15
1-
L.U L.U
20 l WELL 095 - 59
LL
!:..;) 01
z . 25
--I
L.U
>
30
L.U
--I
c:: 20
L.U
s:1-
<(
25
30
35
40 45 ---
- - .. .... .... ... - -
--
--- .. ...;...-
a---;;.
- - - '"',. a.... '"' - - .. '"'... oo o
....
...~ --- OCT. NOV. DEC.
Figure 15. Hydrographs of mean daily water levels for principal artesian aquifer wells 095-26 , 095-59, and 095-68.
0 5
L 10 WELL 099 - 39
15
20
25
LU
u
30
<(
cL:L:
0
::::J
en
c z
5
<( --I
3:
0
10 I WELL 177 - 15 15
--I
LU
CJ 20
I-
LU
LU
[).:) 0)
LL 25
z
30
--I
LU
>
LU
35
--I
c::
LU
10
I-
<(
3: 15
20
25
30
35
40
45
Figure 16. Hydrographs of mean daily water levels for principal artesian aquifer wells 099-39, 177-15, and 201-05 .
40
45 50
55
60
5
uLU
<(
1a.1:..
:::J
10 I WELL 205 - 16 15
(/)
c
2
20
<(
--I
~ 25
0
--I LU
co
30
I-
LU
35
LU 1.1.. 1:-.:l
I WELL 205 - 22
-::)
2
40
-
--I
>LU
45
LU
--I
a:
50
LU
I<(
5
~ 101 WELL253 - 08
15 20 25 30
1980
Figure 17. Hydrographs of mean daily water levels for principal artesian aquifer wells 205-01, 205-16, 205-22, and 253-{)8.
10
15
20
LLJ
u <u.t.
25
a:
:::1
(I)
30
c
2 35
<t
-.I
3: 40
0
-.I
LLJ
00
45
1--
LLJ
25
uLL.J.
2 30 1- WEll253 -26
t-.:)
00
-.I
>LLJ
35
LLJ
40 -.I
a:
LLJ
1--
45
<t
3: 50
55
60
Figure 18. Hydrographs of mean daily water levels for principal artesian aquifer wells 253-12 and 253-26.
35
40
WELL 087 - 23
45
LLI
u
<(
u...
a:
50
:::;:)
Cl)
c z
<( 55
....I
3:
0
....I
LLI
r:::c
15
1-
LLI
LuL...I
1.\:)
tO
z 20
....I
>LLI
LLI
25
....I
a:
LLI
1-
<(
3:
30
35
WELL 095 - 68
c c c c c c c c z z z z z z z z z z 40
u
~
:.IE
~
c.:
::::
u
~
:.IE
~
a.:
::::
u ~ :.IE
~
c~.:
u
~
:.IE
~
c.: ~
:::: c
~
:.IE
~
c~.:
~ ~
c :.IE
~
c.:
::::
u
~
:.IE ~
~c.:
u
~
:.IE
~
~a.:
u
~
:.IE
~
~a.:
u ~
0 :.IE
~
c~.:
u
I I 1s11 1 1sn I 1s1L__ I 1si!_ I 1s1L 1s16_] 1977__ 1 1s18 I 1s19 I 1s8o I
Figure 19. Hydrographs of mean monthly water levels for principal artesian aquifer wells 087-23 and 095---1>8.
20 [ I I I I
:: [WELL 095 - 04
~
I
I
I
I
I
I
I
' '
'
'
' :
0
I
1
1
i 0
60~.:~:-=-----------------------------------------------
uLU
<(
aLL:
e:::n:J
c
2 <(
--I
c3: 90
--I
LU
I:C
10
I--
LU LU
15~
-
C/.j
LL
0
2
-
20
--I
>LU
251-
LU
--I
a:
30
LU
I-<(
70
3: 75 1 WEll 095 - 56
80
85
90
95
100 JAN. 1979
__,.-- -----............._
Figure 20. Hydrographs of mean daily water levels for Tallahatta aquifer wells 095--{)4, 095-27, 095-53, and 095-56.
..., -1
~
55r--r~--,-~--~~--T-----r-~--~~--r-~~--~~--~~--~~--~~~
WELL 095 - 64
65
75
LI.J
<~ 80
LaL:
~
Cl)
<.cz.....
s:
0......
100 LI.J
a:l
1-
LI.J LI.J
105
.C..\.:.1.
LL
z 70
.....-.
LI.J
:>
.L..I...J. a:
80
LI.J
1s< : -
90
105
Figure 21. Hydrographs of mean daily water levels for Tallahatta aquifer wells 095-64 and 177--D3.
EXPLANATION
C J Area of Dougherty Plain
12 Test Well Upper number is well
'O<i - number. 500 Lower number is specific capacity in gallons per minute per foot.
MITCHELL
(205) County -Three-digit number is county code
~. . t
10
I
IS
20
25
~()MILES
I
Figure 22. Locations of principal artesian aquifer wells for which specific-capacity data are given in table 48.
32
EXPLANATION
C J Area of Dougherty Plain
Transmissivity in 1000 feet
~/ squared per day
;(oo
0.003-Storage coefficient
16 Test Well- Two-digit number is
test well number
MITCHELL
(205) County - Three-digit number is
county code
0
IO
I!)
20
25
30 MILES
~~--~~--~~~
Figure 23. Locations of principal artesian aquifer tests for which transmissivity and storage coefficient data are given in table 49 and figures 24-34.
33
10
Q~ 1600GAL/,MIN r!::! 1500 FT
STATIC WATER LEVEL= 35.1 FT BELOW LAND SURFACE
......
ww 1.0
lL..
-z ,.
-fl)
-z
c.:> II'-
~ 0
0
~
<i 0.1
0::
0
0.011
THEIS NON-LEAKY METHOD
Q W(u)
1440 MIN/DAY
T =
X
41Ts
7.48 GALFT3
T = 42,000 FT/2oAY
s
=
4Ttu
-2-
X
I DAY
r
1440 MIN
s = .02
THEIS TYPE CURVE MATCH POINT
0
W(u) =I u =I s =.58FT t = 350 MIN
:
-1....--.
10
100
TIME ( t), IN MINUTES
-
1000
DRAWTIME TIME DOWN (MIN) (HRS) (FT)
30 0.5 0.04 60 1.0 .12 80 1.5 .19 120 2.0 .28 150 2.5 .36 180 3.0 .41 210 3.5 .49 2.40 4.0 .55 270 4.5 .62 300 5.0 .69 330 5.5 .75 360 6.0 .80 390 6.5 .86 420 7.0 .91 450 7.5 .96 480 8.0 1.00
Figure 24. Aquifer test results for principal artesian aquifer well 007-Q6.
10 Q~ 1500 GALjMIN
r~2000 FT
~
~ 1.0
LL..
--z ~ en z
~
3=
01
0
0
3=
~ 0.1
0
HANTUSH-JACOB TYPE CURVE MATCH POINT
0
L{u,v) = I
u =I
v = 0.9 s = 0 .53FT t = 35 MIN
TIME (MIN)
30 60 90 120 150 180 210
TIME
DRAWDOWN
(HRS) tFT)
0.5 0.025
1.0 .070
1.5 110
2.0 .135
2.5 .145
3.0 .150
3.5 .150
HANTUSH-JACOB LEAKY METHOD
Q{4lTT 5/Q) 1440MINIDAY
T=
X
4lTs
7.48 GAL/fT3
FTZ T= 43,000 /DAY
s =
4Ttu
r2
s = .001
I DAY
X
1440MIN
0.01 0.1
10
100
TIME (t ), IN MINUTES
1000
Figure 25. Aquifer test results for principal artesian aquifer well 087-33.
1000
Q= 1700GAL/MIN
r =190 FT
I
I
STATIC WATER LEVEL= 26.06 FT BELOW LAND SURFACE
HANTUSH-JACOB LEAKY METHOD
T= Q L(u,v) X 1440 MIN;,DAY
4lfs
7.48 GAL/FT3
._...
ww 1 0 0
LL.
z
~
-U) -z
T= 29,000 FTlo2AY I 1
S _ 4Ttu
-
r2
X
-I D-AY
1440MIN
s = .0006
3:
0
c;.,
0
CJ:l
~ HANTUSH- JACOB TYPE CURVE
a:: 10 _
MATCH POINT
0
0
L(u,v)=IO
u =.01
v =.01
s =9.1 FT
t = 29 MIN
DRAW TIME TIME DOWN (MIN) (HRS) ( FT)
30 0.5 3.64 60 1.0 4.33 90 1.5 4.59 120 2.0 4.93 150 2.5 5.16 180 3.0 5.33 210 3.5 5.43 240 4.0 5.54 300 5.0 5.73 360 6.0 5.84 420 7.0 5.93 480 8.0 6.01 540 9.0 6.07 600 10.0 6.12 660 11.0 6.18
TIME TIME (MIN) tHR) 720 12 780 13 840 14 900 15
960 16 1200 20 1440 24 1560 26 1680 28 1800 30 1920 32 2040 34 2400 40 3000 50 3600 60
DRAWDOWN (FT)
6.23
6.27 -
6.30 6.34 6.37
6.48 6.62
6.71 6.77 6.81 I
6.87 _j
6.90 7.05 7.24
7.25
I.OIO
100
1000
Tl ME ( t), IN MINUTES
Figure 26. Aquifer test results for principal artesian aquifer well 095-15.
100
Q ~ IOOOGAL;MIN (ESTIMATED)
r ~ 1300 FT
I
STATIC WATER LEVEL= 3.23 FT BELOW LAND SURFACE
I
THEIS NON- LEAKY METHOD
DRAWTIME TIME DOWN (MIN) (HRS) (FT)
30
.5 0.523
60
1.0 0.871
~ \01
-(/)
-z
~
~
-.1
0
0
~
~ 1.0
0
QW(u)
1440
MIN
/DAY
T=
X
4TTs
7.4 8 GALjFT 3
2
I
T = 24,000 FT/oAY
4Ttu
S= - - X r2
S= .0004
THEIS TYPE CURVE MATCH POINT
0
W( u )=I
u =I
s =.64FT
= t 9.9MIN
I DAY
........ 1440 MIN
90 120 150 180 210 240 270 300 360 420 480 540 600 660 720 780 840 900 960
1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 6.0 7.0 8.0 9.0 10.0 11.0 12.0 13.0 14.0 15.0 16.0
1.018 1.266 1.394 1.487 1.569 1.672 1.760 1.823 1.943 2.044 2.119 2.185 2.255 2.311 2.371 2.417 2.462 2.523 2.573
1020 17.0 2.624
0.1 L__ __L____~--~o-------~
1.0
10
100
1000
TIME (t ), IN MINUTES
Figure 27. Aquifer test results for principal artesian aquifer well 099-39.
10
Q = 1260 GAL;MIN r = 1000 FT
I
I
STATIC WATER LEVEL= 16.56 FT BELOW LAND SURFACE
TIME (MIN)
60
DRAW
TIME DOWN ( HRS) ( FT)
1.0 .03
120 2.0 .10
180 3.0 .20
240 4.0 .26
1ww-- 1.0
LL..
-z ..
-fl)
-z
c.,)
3=
00
0
Q
~3= 0.1
Q
HANTUSH-JACOB TYPE CURVE MATCH POINT
0
L (u,v) = I u =10 v =.15 s =.45 FT t = 10.5 MIN
...
HANTUSH-JACOB LEAKY METHOD
Q w(u)
1440 MIN;OAY
T= - - X
41Ts
7.48GAL;FT~
T = 43,000 FT}OAY
300
360
420
480
540
600
660
720
780
840
-
900 960
1080
1200
1440
5.0 .32 6.0 .37 7.0 .43 8.0 .48 9.0 .52 10.0 .57 11.0 .60 12.0 .65 13.0 .68 14.0 .69 15.0 .72 16.0 .74 18.0 .70 20.0 .67 24.0 .54
S = 4 Ttu X I DAY
r2
1440MIN
I
vALUES CORRECTED FOR SHORT-TERM NATURAL
s = .01
DECLINEIN WATER LEVEL
0.011.0
10
100
TIME ( t), IN MINUTES
1000
Figure 28. Aquifer test results for principal artesian aquifer well 177-15.
100
Q = 1850GAL/MIN r ~ 1800 FT
I
STATIC WATER LEVEL= 24.12 FT BELOW LAND SURFACE
10
~
w w
LL
co
t!:>
-z .
-fl) -z
g3: 1.0
3:
<{
0:: 0
THEIS TYPE CURVE MATCHO POINT
W(u)=IO I
I u =I
s = 13.5 FT t =55 MIN
THEIS NON-LEAKY METHOD
Q W(u) T=
41fs
1440MIN/DAY X
7.48 GAL FT3
T = 21,000 FT2/oAY
4Ttu
I DAY
S= - -X
r2
1440 MIN
S= .001
DRAWTIME TIME DOWN (MIN) (HRS) (FT)
30 60 90 120 180 210 240 270 300 330 360 390 420 480 540 600 660 720 780
0.5 .16 1.0 .34 1.5 .60 2.0 .79 3.0 1.15 3.5 1.32 4.0 1.46 4.5 1.60 5.0 1.71 5.5 1.83 6.0 1.93 6.5 2.03 7.0 2.11 8.0 2.26 9.0 2.40 10.0 2.52 11.0 2.63 12 .0 2.71 13.0 2.80
0.110
100
1000
TIME (t), IN MINUTES
Figure 29. Aquifer test results for principal artesian aquifer well 201-05.
01 I I Q"' 12 30 GAL;,.,.
I
I
r!:llt 1800 FT
STATIC WATER LEVEL : 24.58 FT BELOW LAND SURFACE
.....
ww 1.0
DRAW-
TIME TIME DOWN (MIN) (HRS) (FT)
lL
30 0.5 .095
--z- ,. fl)
z
HANTUSH-JACOB TYPE CURVE
60 1.0 .100 90 1.5 .110 120 2.0 .130 150 2.5 .140
,j:>.
0
~ 0 0 ~
MATCH POINT
L(u,v)=l u =I
0 s=0.21FT
t= 35 MIN I
e
1
180 3:0 .150 I 240 4.0 .170
360 6.0 .175
~ 0.1
v=.5
HANTUSH-JACOB LEAKY METHOD
0
0.0110
100
Q L(u,v)
T=
X
41Ts
= T
90,000
FT 2 /DAY
1440
MIN/. DAY
7.4 8 GAL/.FT 3
4Ttu X I DAY
S=----;-2""" 1440 Ml N
s = .003
1000
TIME (t), IN MINUTES
Figure 30. Aquifer test results for principal artesian aquifer well205-16.
10 Q~ 1200GALjMIN (ESTIMATED)
r~ 900FT
I
I
STATIC WATER LEVEL= 43.96 FT BELOW LAND SURFACE
DRAWTIME TIME DOWN HANTUSH-JACOB LEAKY METHOD (MIN) (HRS) (FT)
15 0.25 .21
Q L(ulv)
1440 MINjDAY 30 0.5
.40
T= 4lfs
X 7.48 GAL/FT3
45 0 .75 60 1. 0
.49 .53
1.0I
75 1.25 .56 1--
~ I-'
1--
w w
1.1..
--z ~ en
z
~ 0
0. I
0
~
HANTUSH-JACOB TYPE CURVE
MATCH 0 POINT
L(u,v) = I u= I v = .I
s = .245FT. t = 3.7 MIN
1-
FT2
T = 75,000 /oAY
4 Ttu
I DAY
S =r-2- X 1440MIN
S= .001
90 105 120 135 150 180 210 240 270 300 360
1.5 I. 75 2.0 2 .25 2 .5 3.0 3.5 4 .0 4.5 5.0 6.0
.59 .62 .65 .67 .69 .71 .74 .76 .77 ~ .78 .80
<{
420 7 . 0 .81
a::
0
480 8.0 .82 540 9 . 0 .82
600 10.0 .82
0 .01 1.0
10
100
TIME (t), IN MINUTES
1000
Figure 31. Aquifer test results for principal artesian aquifer well 205-22.
10
Q = 1750 GAL/.
MIN
r = 1800 FT
STATIC WATER LEVEL= 18.33 FT BELOW LAND SURFACE
~ 1.0
w
.-LL
-z ..
z
>1>-
~
3:
0
0
3: 0.1
~
0:
0
THEIS TYPE CURVE
MATCH POINT
0
W(u)=l
u =I
s =.24FT
t =10.5 MIN
.....
THEIS NON-LEAKY METHOD
Q (w,u) T=
X
1440 MIN/,
DAY
4 ""T'rs
7.48 GALFT3
T=
112,000
FT2 DAY
4Ttu
I DAY
S= - - X
r2
1440 MIN
S= .001
I
DRAW TIME TIME DOWN (MIN) (H RS) (FT}
30 0.5 .19 60 1.0 .31 90 1.5 .38 120 2.0 .44 150 2.5 .49 180 3.0 .53 210 3.5 .58 240 4.0 .62 270 4.5 .66 300 5.0 .69 330 5.5 .72 360 6.0 .72 390 6.5 .75 420 7.0 .78 450 7.5 .77 480 8.0 .78
0.01 1.0
10
100
Tl ME (t), IN MINUTES
1000
Figure 32. Aquifer test results for principal artesian aquifer well 253-oS.
100
Q!::! 1500 GAL/MIN (ESTIMATED) r nL 1800 FT
I
STATIC WATER LEVEL= 35.8 FT BELOW LAND SURFACE
~10
LLJ
THEIS TYPE CURVE
*c;'".,
LLJ
I.L
--z- ... (/)
z
THEIS NON-LEAKY METHOD
~
Q W (u)
1440 MIN;,DAY
0
T=
X
0
4lTs
7.48GAL/FT3
3:
<a:(
1.0 r -
T
=
41,000
FT
2
DAY
MATCH POINT
0
W(u) = 10
u =.1
s = 5.6 FT t =65 MIN
. ..
~
0
4Ttu
I DAY
S= - - X
r2
1440 MIN
s = .0002
I
DRAW-
DRAw-
TIME TIME DOWN TIME TIME DOWN
(MIN) (H RS) (FT) (MIN) (HRS) (F T)
15 30 45 60 75 90 105 120 135 150 165 180 195 210 225 240 300
0.25 0.5 0 .75 1.0 1.25
1.5 1.75 2.0 2.25 2.5 2.75 3.0 3.25 3.5 3.75 4.0 4.5
.22 .47 .75 .92 1.01 1.12 1.19 126 1.32 1.36 1.42 1.45 1.48 1.51 1.53 1.55 1.65
360 6.0 420 7.0 480 8.0 540 9.0 600 10.0 660 11.0 720 12.0 780 13.0 840 14.0 900 15.0 960 16.0 1020 17.0 1200 20.0 1500 25.0 1800 30.0 2100 35.0 2400 40.0
1.73 1.79 1.85 1.90 1.96 2.02 2.05 2.11 2.13 2.17 2.21 2.24 2.32 2.43 2.51 2.58 2.61
0.1 1.0
10
100
TIME ( t ), IN MINUTES
1000
Figure 33. Aquifer test results for principal artesian aquifer well253-12.
100 Q~ 1500GALfMIN (ESTIMATED)
r ~ 2000 FT
I
DELAYED YIELD METHOD
1w wiO
1.1..
-z .
-fJ)
-z
3
0
ol::o. ol::o.
0
~
a: 1.0
0
o(41TT~ol
T=
4Tis
X
T=
27,000
F
T
2
/oAY
1440 MIN,.nAY 7.48 GALifr~
4Tt S=
r2(4Tt/SL)
s = .003
I DAY X
1440 MIN
DELAYED Yl ELD TYPE CURVE _.,.
MATCH 0 POINT
41TTS/Q =I 4Tttr2SL=I
s=.84FT
t= 135MIN
0.1 I. 0
10
100
TIME( t), IN MINUTES
1000
If DRAWIME TIME DOWN MIN) (HRS) (FT)
60 1.0 .12
120 2..0 .22
180 3.0 .30 240 4.0 .47
300 5.0 .52
360 6.0 .59
420 480 540 600
7.0 .70 8.0 .80 9.0 .88 10.0 .92
660 11.0 1.00
720 12.0 1.05
780 13.0 1.10
840 14.0 1.15
900 15.0 1.20
960 16.0 1.24
1080 18.0 1.35 1200 20.0 1.43
1440 24.0 1.47 1800 30.0 1.74
2160 36.0 1.94 2340 39.0 1.59
Values corrected for short term natural decline in water level
Figure 34. Aquifer test results for principal artesian aquifer well253-26.
Table I.--Records of selected wells in the Dougherty Plain and adjacent areas.
[Well number: nwnber used to identify wells in the report and to locate wells on maps. Site identification number: refer to text for explanation. Principal aquifer: RSDM, residuum; PCPA, principal artesian aquifer; TLLT, Tallahatta, CLBR, Claiborne; CLTN, Clayton; TERT, Tertiary; and CRCS, Cretaceous. Use of water: C, commercial; H, domestic; I, irrigation; N, industrial; P, public supply; R, recreation; and U, unused, Type of logs: C, caliper; D, drillers; E, electric; G, geologistj J, gamma; N, neutron; T, temperature; U, ganuna-gamma; V, fluid velocity; and Z, other. Type of water-quality data: B, common chemical; C, trace elements; D, pesticides; and E, nutrients and organics; :u, most of the above. Frequency of collection of water-level data: C, continuous; I, intermittent; M, monthly; 0, one time only; S, semiannually; W, weekly; and Z, other]
Baker County (007)
Well number
Site identification
number
Name of well
Owner.-
Land sur face altitude
(ft above NGVD)
\fell Dt:qllh I C.1~Tn,8.
(ft below land)
Principal
Well
aquifer construction
Use of
water
Logs available
Water quality
\<later level
OJ
310624084 312401
Drew Hillard
Drew Hillard
135
02
Jl09050843ll40l
L. and E. Moore
L, and E. Moore
!52
OJ
3lll49084J0!701
Leslie Rentz
Leslie Rentz
127
04
31124 3084 292601
La r.-ry Cook
larry Cook
!52
OS
311413084282401
R, W. l<.'oodruff
R. W. Woodruff
157
06
3114 44 084315:L01
Jo-Su-Li Farm, 'IW Ill
Jo-Su-Li Farm
160
07
31152108431LI)I)l
llimsville Ill
t1imsville, Ga,
190
08
3l!SJ708424500l
A, L. Kelly 1/2
A. L. Kelly
1,8
09
31 l545084J6060l
R. H. Jones 1H
R. H. Jones
193
10
311610084352101
Horace \~orsley
Horace Worsley
179
11
311622084234501
A, L. Kelly ill
A. L, Kelly
158
12
311627084212101
:-1. L, Shiver
H. L, Shiver
165
JJ
Jll72!08424020l
Hopson Irwin f! l
Hopson Irwin
170
14
Jll72508425550l
W. C. Newberry
W. C. Newbeny
168
15
31 l749084J2090l
Gary Heard ill
Gary Heard
175
16
31 18060842J3 70 l
Hopson Irwin t!2
Hopson Irwin
173
17
3ll82J084J4180l
Bill Bryan /} 1
Bill Bryan
203
18
J l 183208421060 l
Weyman Rooks 112
Weyman Rooks
170
19
311843084244501
W. L, Forrester
W, L. Forrester
180
20
3120000843 7150 l
W, P. Smith
1~. P. Smith
242
21
312001084311401
R. H, Jones 112
R, H. Jones
!55
22
31200108433070 l
Jerome Phillips
Jerome Phillips
175
2J
3!2006084 J45 50 l
Bill Bryan 1!2
Bill Bryan
198
24
312030084 380201
W. P. Smith 112
W. P. Smith
2JJ
25
312055084 285401
Elmodel f/1
Elmodel, Ga ,
!58
26
3!2 10 !0842 74JO l
HcRainey Estates
McRainey Estates
165
27
3121070843 75901
W. P, Smith 112
W. P. Smith
220
28
312129084201701
Robert Hawkins Ill
Robert Hawkins
168
29
3!2!39084J !400 l
Thomas Rentz
Thomas Rentz
158
30
312140084204 001
W, D. Drennon
W. D. Drennon
174
31
312204084214 301
Wayne Heard i~3
Wayne Heard
170
32
312251084 234 701
Jack Heard Ill
Jack Heard
188
3J
Jl2251084J7170l
Fieldstone Farms Ill
Fieldstone Farms, Inc,
195
34
312.253084200501
Wallington Ill
Ag-Timber Development Corp.
172
35
31230008421280 l
Walling ton f! 4
Ag-Timber Development Corp.
182
J6
3125210841L.l20l
Blue Springs /13
Blue Springs Plantation
190
37
312533084110201
Blue Srrings /14
Blue Springs Plantation
180
J8
3!2!31084J 14102
Tom Rentz RW
USGS/GGS
155
39
311444084315602
Jo-Su-Li Farm RW
USGS/GGS
160
180
215
180
100
346
LBO
79
!58
9
185
60
!55
65
200
60
175
42
!JB
110
170
120
110
80
245
100
!90
70
140
70
401
356
PCPA PCPA PCPA PCPA PCPA PCPA PCPA PCPA PCPA
PCPA PCPA PCPA
PCPA PCPA PCPA PCPA PCPA
s
B S
G
M
c
E J
~
s s s
)l g
I I I I I L
C E G
!50
80
120
100
104
65
661
610
J65
!00
50
190
63
!00
70
!50
50
200
60
300
75
PCPA PCPA PCPA CLBR CLBR PCPA PCPA PCPA PCPA PCPA PCPA
B E
EJ G
s
~
s
5
s
180
72
PCPA
PCPA
PCPA
PCPA
16
6
RSDM
10-15-80
G J
20
10
RSDM
10-16-80
G J
Calhoun County (037)
01
3!26J508443lJOl
Arlington If 1
02
31265 7084 q45801
Tri County Farm
OJ
312819084404001
JHJ Farm ti2
04
3128280842 75 701
Bill Jordan
OS
312835084 3 94801
JHJ ~'arm ill
06
3130490842 7!801
Magnolia Plantation
07
3!J20J084 273801
Ducker Plantation
08
3!J3Jl08444180l
Edison /!1
09
J!J4 J508447!501
Lester NcNair 1!1
10 31 JS32084 28J501 C. Hartin
24
312852084 27520 l
Bill Jordan Ocala
25
312852084 275202
Hill Jordan RW
Arlington, Ga. Tri County Farm JNJ Farm Bill Jordan JHJ Farm Magnolia Plantation Ducke[" Plantation Edison, Ga, Lester McNair C. Hartin USGS/GGS USGS/GGS
300
700
5J8
TEKT
1%9
228
lJB
40
TERT
252
2LO
TERT
200
210
58
TERT
252
225
100
TERT
220
124
104
PCPA
209
!50
68
PCPA
05-02-69
289
515
J95
TEH.T
352
140
!OJ
TLLT
2JO
150
42
PCPA
192
142
40
PCPA
06-J0-80
192
JO
20
RSDM
07-28-80
8 E
ss
fi
s
G J G J
Crisp County (081)
01
315121083560201
J, T, \~illiams
J, T, Williams
241
240
TERT
B E
02
315400083460701
G. B. Smith
G. B. Smith
328
90
70
PCPA
1932
OJ
315412083501301
G. Perry
G. Perry
300
!50
100
PCPA
1915
04
3154 J5083495301
A, 1. Stephens
A, J. Stephens
279
184
92
PCPA
05
3154 44083512101
L, ~. llcKinney ill
L. F. McKinney
263
!05
100
PCPA
06 Jl544608347 1601 J, Hridges
J, Bridges
305
81
60
PCPA
07
3!553408J504 JO!
L, F, ~lcKinney 112
L, F. McKinney
287
80
75
PCPA
1950
08
31554 70834 6310 l
L, L, Blackmon
L, L. Blackmon
3!6
JOO
101
TERT
1965
09
Jl555508J532JO l
A. J, Williams
A. J, Williams
271
!J5
55
PCPA
!945
10
3!555808J4J5JO l
W, L, \<.'ells
W. L, Wells
J6l
290
212
TERT
1951
B E
45
Table l. Records of selected wells in the Dougherrv Plain .111d adjacent areas--Continued
Well number
Site identification
number
Name of well
Owner
Land surface altit ude
(ft above NGVD)
Well
~~~t~l~w c~=~~~
Principal
Well
aquifer construe tion
Use of
water
Logs available
Water quality
Water level
II
31 S602U834SS401
T, Clements
T, Clements
12
31S 7030B349360 1
Autry Roland
Autry Roland
13
31S 7240B3~S0801
Veteran's Park Ul
State of Georgia
14
31S 72BOB3SSOSOI
Veteran's Park /12
State of Georgia
IS
31S 7430B3S30201
Ed Stevens 112
Ed Steve11s
16
31 ~602063 S2Sl0 1
Ed Stevens fJ 1
Ed Stevens
17
31 ~8400834 64 401
Crisp County Hospital Crisp County
18
31S901063471901
G, w. Jacobs
G. w. Jacobs
19
31S920063472701
H. Rainey
H. Rainey
20
31S942063SI5S01
Mille" Brothers
21
3200210B34 73401
G. Trulock
Hiller Brothers
c. Trulock
22
3201130B3S40701
G. McKay
G. McKay
23
320137063S03101
J. H. Fenn
J. H, Fenn
Crisp County ( 081 )--Continued
326
26S
-
286
170
90
264
124
so
2S2
130
7B
239
180
60
272
1~0
60
300
ISO
60
279 304
80 110
7-0
320
200
60
336
2SS
149
263
160
121
319
160
100
TERT PCPA PCPA PCPA PCPA PCPA PCPA PCPA PCPA TERT TERT TERT
PCPA
--
-
I
1948
p
-- 01-0S-SI
p H
c
---04-04-S3
c
H
-
I
1966
I
-1966
I H
---
B E
-
-
B E
-s
D
-
----
B C E
B o
----s
B ~
-
--
-
s
-
s
--
-
s
-
-
Oecatur County (067)
01
304 630064434 901
Joe Dollar
Joe Dollar
02
304942064404501
B. F, Cloud Ul
03
304 9~40B4 422601
B. F, Cloud 113
04
0~
06
30~0 13064 44 3SO 1 30SII7084420401 30S209084400201
..R. G. Heard
s. R. Poitivent
E
Cloud
B, F Cloud
B, F. Cloud
R, G. Heard
s. R. Poitivent
E. R, Cloud
07
30S2 19084461001
Dickel I! 1
Alvin Newton
OB
30S22 9084334401
Palmer Motel
Palmer Motel
09
30S23S064441601
Alvin Newton TW South Alvin Newton
10
30S24 7084442S01
Alvin Newton TW North Alvin Newton
11
30S31S08432300 1
Luther Swicord
Luther Swicord
IL
30S32608436390 I
Cloud 02
Alvin Newton
13
30S33S084 361001
Ga . Port Authority
Georgia Port Authorit)'
14
30S4 12064305401
H. M. Whitley
H. M, Whitley
IS
30S4200643141 01
A. J. Newton
A. J. Newton
lb
30S4360~4343001
bainbridge 113
Bainbridge, Ga.
17
30SS23084391401
Alvin Newton
Alvin Newton
18
30S5510B439 1S01
Trading Post
19
30S616064401601
c. W. White
Alvin Newton
c. w. White
20
3US62408439 1401
A-46
Alvin Newtun
21
30S65108436240 1 Rentz
Marvin Rentz
22
30S 7 320B4 302201
Dewey Brock
Dewey Srock
23
30S7360843S5602
Graham Bolton 111
Graham Bolton
24
30S8480B4 4 34801
Heard
R. G. Heard
2S
30S853064 364601
Bainbridge Mills 112
Bainbridge Mills
26
30S90~064364901
Bainbridge t-Ulls fJ l
Bainbridge Hills
27
30S92106440 1001
Rentz
26
30S9 2 90B4 282401
J. c. Dollar
Marvin Rentz
J. c. Dollar
29
30S9S0064285401
Dollar Rcothcrs Fat"m
Dollar Brothers
30
30~953084390001
D. W. Aultman
31
31002S084 4 32601
R. G. Heard
" w. Aultman
R. G. Heard
32
310047084421301
Bridges IJ l
Alvin Newton
33
310117064231SOI
Joe Hall TW II
Joe Hall
34
310133084273201
R. L, Dean
R. L. Dean
3S
3101360B422SI01
Lowell Dollar
36
310136084411701
lambert
37
31021 S08432S201
HumphL'ey
- Lowell Dollar
Robert Humphrey
36
3102330B4 37S20 I
Luther Griffin
Luther Griffin
39
31024 20B4 301 101
Richard Smith IJ l
Richard Smith
40
31040706424S301
Vada Mfg. Co.
Vada Manufacturing Co.
41
3104220843 70301
Albert Franklin
Albert Franklin
42
31042BOB4 310S01
USGS TW UP-4
USGS
43
310426064310~02
USGS N OP-S
USGS
44
3104 280B4 310S03
USGS N DP-6
USGS
4S
310117084231S02
Joe Hall RW
USGS/GGS
46
30S 736084355602
Graham Bolton RW
USGS/GGS
47
30S24 7064 442401
Alvin Newton RW
USGS/GGS
60
42
-
110
208
107
90
207
100
116
1~0
90
114
12S
60
200
110
-
108
37S
231
11S
14S
60
120
lBS
76
100
4B6
16S
116
-
-
80
3SO
70
liB
88
-
112
lOS
-
130
466
144
11S
193
103
11S
200
100
126
63
-
121
1B6
100
130
200
120
119
-
-
12B
2S1
130
120
266
112
130
240
4S
122
127
63
130
182
62
140
200
100
140
20S
-
132
311
160
122
70
so
109
170
-
142
160
B8
137
22S
210
13S
200
100
12~
16~
90
141
242
109
131
210
102
-
-
-
14S
116
108
140
167
120
14S
4SS
362
14~
90
~4
14S
40
30
13S
3S
20
128
27
I)
112
39
29
RSUM PCPA PCPA
PCPA PCPA PCPA PCPA PCPA PCPA TERT
-
PCPA PCPA PCPA TERT PCPA PCPA PCPA PCPA
-PC I?A
PCPA PCPA PCPA PCPA PCPA PCPA PCPA PCPA PCPA PCPA PCPA PCPA PCPA PCPA PCPA PCPA
-
PCPA PCPA TLLT PCPA RSDM RSOM RSDM RSDM
10- -62
II
-------
l .I 1 L
-I
1
-------
----
-
s s s
-
s
-
B C E
-s
-
-
s
12-19-76
u
G
M
c
12-19-7B
u
---
II I
----
-c
-------
-
I'
I T
-
---------
1 1 1
u
l
~
-------
c
l I I I
---
I
-
------G
M
---
c -~
B E
-B E
---
--
------
----
--
-
~
B E
-
B E
-
--
u s
-
s
B E
a
--
s s
------
B C E
s
s -
s s
-s
03-lS-79
u
-
1
--
I I
---
I I
1
06-01-66
N
-
r
----v-
M
c
--
s -
--
s s
-
5
-
-
--6 c E.
s s
01-22-60
u
c L: J
M
c
OI-2S-60
u
G
01-18-80
u
G
10-l~-80
u
G J
" H
c c
H
u
11-17-80
u
G J
11-19-80
u
G J
" M
w w
01
320157083~62901
Adkins Farm 8-inch
02
3202270B3S64S01
Oavid Adkins
03 04
3202 3 50834 73110 I 320304 063SI5 701
'"1,
Diffee
Adkins Farm it-inch
OS
32034S063400401
H. \\'alton
06
3206010B3S8380 1
c. Kitchens
07 06
3208~6063S60S01
321212063490401
' s. l.ytle
D. Guill
09
32124 SOB3S64 901
Merica Oil Co .
10
321.\020B344 2001
Unadilla 113
Adki.ns Farm
Oavid Adkins
" J.
Diffee
Adkins Farm
H, Walton
E, Kitchens
R. s. Lytle
D. Guill
Nerica Oil Co~
Unadilla, Ga.
Dooly County ( 093)
276
-
-
280
63
44
326
100
-
321 43S 30B 4BS
-
173 70 39
----
403 400
130 2.316
--
400
599
31S
-
PCPA PCPA
TERT PCPA PCPA PCPA
-
TERT
--
-------
10-07-77
I
-I
l
----
' p
--
---
-
-
~ " D
-s
-
s
B E
-
-
s
B E B E 8 E B E
--
------
46
Table 1.--Rec.ords of selected \olells in the Dougherty Plain and adjacent areas--Continued
Well
Site
number identification
number
Name of well
0\olner
Land surface altitude
(ft above NGVD)
Well Ot!p t h _I CIUt.lnJJ ( ft be1 ov ltond)
Principal
Well
aquifer construction
Use of
water
Logs available
Water quality
Water level
11
321559083440401
Unadilla IJ 1
12
321614083435801
Unadilla IJ2
13
321645083403601
D, J. Folds
Unadilla 1 Ga.
Unadilla 1 Ga. o. J . Folds
Dooly County (093 )--Continued
380 380 361
190
162
190 180
-150
TERT TERT TERT
1960
--1960
p
p
-
---
-
-
8 E B E
' -
Dougherty County (095)
01
J 126500840924 01
Blue Springs !16
Blue Springs Plantation
02
31265108410200 I
Blue Springs /}2
Blue Springs Plantation
03
312654084 21010 I
St, Joe Paper Co.
St. Joe Paper Company
04 312654084210102 USGS Til Nil
USGS/GGS
05 31265408421 0 I 03 USGS TW hl2
USGS/GGS
06
312658084071901
Frank Weatherbee Ill
Frank Weatherbee
07
312705084211701
Reynolds Lumber Co. 112 Reynolds Lumber Co,
08
3127140841 "101
Blue Springs Ill
13lue Springs Plantation
09
312731084034101
Frank Weatherbee 112
10
312741084010801
o. Barlow
Frank Weatherbee o. Barlow
11
J 12745084114801
Blue Springs /}5
Blue Springs Plantation
12
312745084174201
Nilo Lake
Nilo Plantation
13 312 755084070301 Putney Ill
Putney, Ga.
14
312905084153901
Nilo TW South
Nilo Plantation
15 312919084153801 Nilo TW North
Nilo Plantation
16
J 12921084153 701
Nilo Howell
Nilo Plantation
17 312 956084 07 530 l Merck a nd Co. 112
Merck and Co . , Inc,
18
312 95808407 460 l
Merck and Co, Ill
Merck and Co., Inc,
19
Jl 3009084184601
St. Joe Paper Co . 3-in . St. Joe Paper Company
20
313009084185001
St. Joe Paper Co, 6-in. St. Joe Paper Company
21
J 13041084020801
Fleming Farm #14
Ag-Timber Development Corp.
22
31304308402'301
Fleming Farm 1}12
Ag-Timber Development Corp.
23
313050084031301
Fleming Farm /}8
Ag-Timber Development Corp.
24 313105084064201 USGS TW Ill
USGS
25 313105084064202 USGS Til U7
USGS
26 313105084064 302 USGS Til 113
USGS
27
313105084064301
USGS TW 112
USGS
28
313108084 020801
Fleming TW UIOB
Ag-Timber Development Corp.
29
313111084032101
Fleming Farm U7
do,
30 313112084020401 Fleming TW fllOA
do.
31
313112084020801
Fleming Valley
do.
32
313115084024301
Fleming Farm 1111
do.
33
313121084222601
H. Goodyear
H. Goodyear, Jr.
34
313126084 035201
Fleming Farm IJJ
Ag-Timber Development Corp.
35
313138084024101
Fleming Farm h10
do.
36
313149084032101
Fleming Farm fl6
do.
37
313209084025201
Fleming [i'arm 119
do,
38
3132150840344 01
fleming Farm 1!28
do.
39
313220084 035 901
fleming Farm IJl
do,
40
313220084040601
Fleming Clayton TW /11
do.
41
J 13222084032401
Fleming F'arm {15
do.
42 313223084040601 Fleming Ocala TW 1111
do.
43 313246084105601 Herty Nursery 114
44
313305084032601
USMC II
State of Georgia
u.s. Marine Corps
45
313311084062901
Proctor E. Gambell ql
Proctor & Gambell Co.
46
313311084063001
Proctor & Cambell H2
Proctor & Gambell Co.
47
J 13343084 OJ 1201
Firestone fll
Firestone Co,
48 313343084031202 Firestone 112
fires tone Co.
49
J 1340808415120 l
Reynold's Lumber Co.
Reynolds Brothers
50
31}457084102601
Albany City Well Ill
Albany, Ga.
51 31}520084050501 USNAS
u.s. Naval Air Station
52
J 13530084 20320 I
Tallahassee Plantation Ga. Dept. of Natural Rsrs .
53 313530084 203202 USGS ru 114
USGS
54
J 13530084 203203
Ga. DNR Talla-Ocala
State of Georgia
55 J 13532084203501 Ocala Game and Fish
State of Georgia
56 313534084103001 USGS Til 15
USGS
57 313534084103002 USGS TW 116
USGS
58 313534084103003 USGS TW 1110
USGS
59 313545084044001 USl,;S 112 at Miller
USGS
60
313554084062 501
Turner City U2
Turner 1 Ga.
61
313615084201501
Ca. Game and Fish Yl
State of Georgia
62
313622084153601
Doubl~gate Utility P1 Doublegate Utility Co.
63
313622084153602
Doublegate Utility 112 Doublegate Utility Co,
64
313625084041501
FiCewcll-Sac Apron
Miller Brewing Co,
65
J 136400840021 0 I
George Kirksey
George Kirksey
66
313641084 26260 l
featherfield Farm f}l
Featherfield Farm
67
313641084 26280 l
Featherfield Farm /12
Featherfield F'arm
68
313 748084002901
Albany-Dougherty Co,
City of Albany
69 70
313105084070401 113532084203502
' " ' S c h o o l
Road RW
<)o.ola \ln~o ' Vhlo kW
USGS/GGS USGS/GCS
71
312905084153 I 01
Nilo Plantation RW
USGS/GGS
72
313323084002101
u.s. Marine Corps RW
USGS/GCS
185
200
90
185
200
85
183
11200 1,100
178
320
320
180
690
214
185
200
-
180
5,255
-
198
200
-
230
220
120
257
442
442
190
-
-
180.
250
114
173
-
203
150
60
201
150
63
197
150
-
185
247
79
184
247
8o
180
795
785
183
-
-
220
300
110
237
310
75
243
310
70
190
1,474 1 ,474
195
882
716
190
218
54
190
418
418
234
273
250
215
290
90
233
275
213
231
271
147
218
280
105
210
145
40
212
275
118
210
290
70
227
295
148
220
285
93
219
300
70
223
300
60
217
965
310
215
260
70
219
300
60
186 240
165 1,025
-69
185
215
106
190
210
99
220
265
195
200
284
150
-200
4. 935
-
915
915
203
170
-
210
656
542
220
251
251
216
-
-
220
-
-
195
257
88
195
690
619
195
1,346
797
206
105
60
213
760
713
205
675
41
208
125
70
208
172
110
222
350
350
255
-
-
225
122
58
235
560
-
225
243
206
195
29
19
215
15
6
202
40
30
227
45
35
-
-
CRCS TLLT CLTN PCE'A
-CRCS -
TLLT
-
PCPA PCPA PCPA
PC~A
PCPA PCPA
-PCPA -
PCPA PCPA PCPA
c~cs
CLTN PCPA TLLT PCPA PCPA PCPA PCPA PCPA PCPA PCPA PCPA PCPA PCPA PCPA PCPA CLTN PCPA PCPA
PCPA CLTN PCPA PCPA PCPA PCPA CRCS TERT PCPA CLTN
--TLLT
TLLT CLTN CRCS PCPA CLTN CLTN PCPA PCPA
-TLLT
PCPA TERT PCPA RSOM KSOM RSDM RSDM
----
01-01-42 02-15-78
1979
---------
12-22-78
- 12-21-78
12-05-71
-----
04-01-77 0)-14-78 06-16-77
-- 04-12-77 ----
-------
--
-
01-01-51 08-30-71 03-05-72 03- -68 05-10-68 01-01-42
--
01-01-73 06-24-77 05-05-77
-
08-10-77 12-20-77 ll-21-78 04-06-79 01-01-51
1973
-02-23-76 - 04-09-79 -- 11-07-59
01-01-49 10-08-80 10-07-80 10-07-BO
10-08-80
-
J
.
.
I
-
IJ
CEJ NU
--
u u
I
u
--
CJ GE
-
G E
8 ---c
. ' s
c c
s -
1
. I
--
-
--
6
s
B E
I
I I
-
---
--
-
$
s
-
u
G
H
c
u
l
-~
1
1
'[
-G -0
-
CJ Gg
---B E
--
c s
-
s
!
CJ GE
1
C J G V.
u
G
u
-
----
s s -
u u
- c J v z
B C B C
c c
u
J G
I
CJ GE
u
CJ GE
L
C J GE
T
CJ GE
l,
-
l
C J G I!
L
C J G .E
I
CJ GH
I
CJ GE
I
CJ Gt
-----.----
-
s
-
-
s s s s s s s
I
CJ GE
u
C J G f.
1
C J G 1:,;
u
CJ GE
----
-s -s
c -
N
~
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--s
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c
u
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D G G
--
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8 E
-
u
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c
~
F. J U N T B E C
c
u
I:
u u u
----
P. U J c N
--
8 E
--
-
c c
-
u
-
u
J UN
-.
c
-
c ~
-E
--
--
c
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II
u
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li
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47
Table 1,--Records of selected wells in the Dougherty Plain and adjacent areas--Continued
Well number
Site identHication
number
Name of well
Owner
Land surface altitude
(ft above NGVD)
We.U
Ucpth .J. Cuing
(ft bol~w land)
Principal aquifer
Well construction
Use of
water
Logs available
Water quality
Water level
Early County (099)
01
310614084 565301
J. A. Pearce Est. U1
J. A. Pearce
02 310647085014501 Edith Harvey Ul
Edith Harvey
03
3107410845 72501
F and F Farms
F and F Farms
04
310814084561 001
c. Frith-East of Mann Charlie Frith
OS
310912084 563101
Renfroe Carter-Home
Renfro Carter
06 31093 7084 580801 Renfroe Carter-Love
Renfro Carter
07
310950085054501
Great So, Paper Co,
Great Southern Paper Co.
08
310954085054901
Great No, Paper Co. Ill Great Northern Paper Co.
09 310956085003301 Shingler and Reed
Shingler and Reed
10
3ll0 1508504 250 l
Great No, Paper Co. 12 Great Northern Paper Co.
ll
311055084554 7Ul
James Revells
James Revells
12 3lll0808456430l P. Buckhalter
13 311128084583001 J. o. Evans /J I
P. Buckhalter
J. o. Evans
14 311128085000101 G. Pyle-t>tcGahee
IS
311129084575401
v. Evans H1
G. Pyle Vincent Evans
16 3lll310850lll01 G. Pyle-Kelly
G. Pyle
17 3ll20908500330 1 G. Pyle-Odum
G. Pyle
18 3112350845 74701 Vincent Evans /12
19
31 1535085061901
USAGE Supply Well
Vincent Evans
u.s. Corps of Engineers
20 311540085011701 T. E. Davis-Hodges
Thomas E. Davis
21
311551084524601
Mil ton Johnson-Hunt
Mil ton Johnson
22
311559084454301
Mitchell Farm ~8S
Ag-Timber Development Corp.
23
311559084450901
Mitchell Farro 64
do.
24
311600084452801
Mitchell Ocala TW ~ l
do.
25 311617084455701 Mitchell Farm hS
uo.
26 311623084450901 Mitchell Farm f/3
do.
27
3116230844 54001
Mitchell Farm 117
do.
28 311648084435301 Mitchell Farm 112
do.
29
311701084445001
Mitchell Farm /)1
do.
30
311704084474101
H. and H. Haddock Ill
Henry and Hal Haddock
31 311704084574201 T. E, Davis-Stil1
Thomas E. Davis
32 311711084443301 Mitchell farm U9
Ag-Timber Development Corp.
33
311717084425701
Kestler Elem, School
Early County, Ga.
34 311730084444001 Mitchell Farm U6
Ag-Timber Development Co['p.
35
311750084514501
Farmers Gin & Whs. Co. Farmers Gin & Warehouse Co.
36
311929084464301
T. c. Hunt 0 l
T. c. Hunt
37
3121ll084402101
Billy Newberry 10-in. Billy Newberry
38
312231084 43080 l
Sasser Farm /11
Sasser Farms
39
312232084391701
Ike Newberry TW Ill
Ike Newberry
40
312257084381701
Ike Newberry
Ike Newberry
4'"2
31232 708441360 I 31264 90844 82801
Sasser Farm 06 Singletary Farm-Fair
Sasser Farms Singletary Farms
43
312809084554001
Kolomoki State Park H1 Kolomoki State Park
44
312813084561001
Kolomoki State Park /J2 Kolomoki State Park
45
312232084391702
Ike Newberry RW
USGS/GGS
46
311132084575401
Vincent Evans RW
USGS/GGS
190
200
135
110
3,250
-
175
165
60
189
165
60
200
1'0
65
170
120
90
ll7
380
270
90
799
350
210
460
280
ISO
1,008
455
207
285
95
202
160
70
192
205
92
209
32&
110
182
120
79
181
120
56
198
1t'l2
80
200
120
80
173
274
20
185
215
150
215
-
-
163
ISO
56
180
190
48
169
83
52
151
98
43
177
155
50
159
105
60
190
160
70
170
90
50
180
135
95
240
145
85
170
183
45
229
131
85
170
125
73
178
768
-
187
175
60
230
100
37
232
260
83
123
125
61
219
155
92
236
244
72
242
675
510
272
574
-
-
145
30
230
30
20
178
40
30
PCPA CRCS PCPA PCPA PCPA PCPA TERT TERT TLLT CLTN TERT PCPA PCPA TERT PCPA PCPA PCPA PC ;A TER'f TER'r
-
PCPA PCPA PCPA PCPA PCPA PCPA PCPA PCPA PCPA PCPA TERT
TERT PCPA TERT TERT PCPA TERT PCPA PC I'A TERT TERT TERT TLLT RSOM RSDM
--
l II
--
l
[
-
--
~
I
c
07-12-61
N
-
-E ----
D E
-------
B E
G -
s s
5 5
-I
-
--1975
--------
c
-
u TJCUND
1 I
--
1 J l
---
I
-
-
-------
[
s s s s s s
L l II
--
E
--
8 E
s
-s
l
-
-
s
-------------
- 06-01-55
--
1
-
-
1
C J G .
o E
1
C J G E:
B E
u
CJ E
I
CJ GE
--
I
CJ GE
I
CJ GE
I
CJ GE
l
CJ GE
----
I I
--
--
-l
- C J T to:
I
C .J G E
N
E
l '1.
-
-
-
----B
1
-
-
s
--------
-s
--s
s s s
--- 04-14-79
u
1
l I
-1940
p
r
--(;
-
-
-
----M
c s s -
-
I
10-15-80
u
G J
M
M
11-10-80
u
G J
M
>1
01
310113084214301
Donald Williams
02 310158084181101 Cleve Harrell
03
310431084 202501
Bobby Darsey
Donald Williams Cleve Harrell Bobby Dorsey
Grady County ( 131)
150
--
-
183 138
270
170
-
-
-PCPA
---
I I I
---
-s
--
s s
01
3l3 72 7084082101
Chehaw State Park Ill
Chehaw State Park
02 313812084 12 500 J USGS Th' U9
USGS
OJ
313813084125001
USGS TW UB
USGS
04 313813084125002 Ocala at Ga. Power
05 313814084114101 c. B. Mosley
State of Georgia
c. B. Mosley
06
313819084171801
Holley Plantation
Holley Plantation
07
313931084115101
Fowltown Plantation. /12 Fowltown Plantation
08
313944084085801
Tolee Pln-Stage Farm
Tolee Plantation
09 10
314010084172501 314132084043~0 1
" w. Fryer
B. F. Hodges
w. H. Fryer
B. F. Hodges
11
314144084103601
J. Wingfield
James Wingfield
12
314150084131601
Haley Bros, Farm
Haley Brothers E'arm
13 314158084081201 Muckalee Plantation
Muckalee Plantation
14
3i4211084103001
Holland Water ::Jupply
Holland Wa tel' Supply
IS
314236084091401
Mike Moorman TW D1
Mike Moorman
16
314253084060101
Piedr~ont Plant Farm
17
314338084164201
Peterson TW IJI
Piedmont Plant Farm
--
18
314344084101501
Leesburg Ill
19
314353084100201
Leesburg ~3
Leesburg, Ga. Leesburg, Ga.
20
3144 23084025401
Senah Plantation
Senab Plantation
21
3146450"4ll2 901
Ch<~rles Bodrey 5\o/
Charles Rodr~y
Lee County ( 177)
220 230 230 234 210 264 230 247
261 235 300 242 240 240 247 272 249 249 273 283
800
-
650
567
385
385
-
-
-
-
-
-
158
120
185
50
213
143
-
-
700
-
300
-
135
85
145
85
190
64
-
-
530
40
(102
135
320
320
160
-
190
90
TERT CLTN
TLLT
---
TLLT PCPA
-TLLT
TEH.T
TLLT
PCPA
PCP,\ TERT
-
CLTN
TLLT TLLT TERT
-
01-01-37
09-26-78 06-27-78
-----
1---957
-
03-02-73
-
---
1938
--
M
" u
[
t 1 1
-.l
I. 1
-
1
c
-
COEJQUT -
-----
----
--
-B E C
--~ ----
---
-c-s-
1
s
l
5
s
l
-g
u
-l
G -
E NJ
p
-
-
l
I
---
---M
---
c
-s -1
s s
48
Table 1.--Recot'ds of selected wells in the Dougherty Plain and adjacent areas--Continued
Well
Site
number identification
numbtr
Name of well
Owner
Land surface altitude
(ft above NGVD)
We ll
Depth ,1_ Cas1ng
( ft bel~v land)
Principal aquifer
Well cons true tion
Use of water
Logs available
Water quality
Water level
Lee County (177 )--Continued
22 314651084080401 J. M. Rhodes 23 314 65 7084164501 Hall n1
" J .
Rhodes
D. c. Hall
24 314714084120701 DeKalb AG Research 25 314809084071901 L. E. Williams
DeKalb AG Research 1 Inc . L. E. Williams
26 315003084032201 Billy King 02
Billy King
27 315005084025001 Billy King 11
Billy King
28 315155084145201 Dixie Pines Co.
Dixie Pines Company
29 315202084 033501 Jack Miller (/3
Jack Miller
30 31520908404 2501 Jack Miller 411
Jack HJ.ller
31 315210084042601 Jack Miller fJ2
Jack Miller
32 315228084100601 Geise Usry
33 31524 2084160601 R. c. McCree
Geise Usry R. c. McCree
34
31530208410130 l
H. Usry-Wardell Place Hiram Usry
35 315329084033801 Wesley Kaylor 113
Wesley Kaylor
36 315404084153001 Smithville 12
Smithville. Ga.
37 315414084081401 Larry 1\Jcker
Larry Tucker
38 315415084150701 Smithville Ill 39 315417084100001 H. Usry-Fish Pond
Smithville 1 Ga. Hiram Usry
40 314253084060101 Piedmont Plant Farlll WR USGS/GGS
41 313 75308405350 l Steve Stocks RW
USGS/GGS
42 315005084025501 Bill King RW
USGS/GGS
43
315301084101401
Hiram Usry Farm RW
USGS/GGS
233 291 280 290 303 305 305 310 313 3!3 289 300 300 288 320
-317
300
-- .
120
60
TERT
-
I
03- -52
L
--
-175
-
300
34
134
23
-TERT
TERT PCPA
----
l 1 I 1
690
-
TERT
03-01 -55
110
-
PCPA
160
40
PCPA/TLLT
----
" 1
I
160
40
PCPA/TLLT
--
1
200
87
TLLT
--
I
319
-
TERT
--
I
175
105
PCPA/TLLT
--
L
140
-
195
105
PCPA TLLT
--
I
--
p
120
lOS
195
lOS
185
119
TERT TLLT TLLT
--
I
----
I
-
-. ----
---.---
---
245 238 306
40
30
40
30
19
9
RSOM RSDM RSDM
10-09-80
u
G J
10-29-80
u
c J
10-13-80
u
g J
300
28
18
RSDM
10-13-80
u
G J
-
-S
--
--
--
s s
-
s
-
-
----
s
~
-
~
-
-
-
-
-
s
-
s
-
s
a E
i
-
s
M
II
H M
" w
M
~
01 3104100844 50601 Hornsby
02 310512084 35320 I Merritt 18
03 31054508443570 l
R. Williaws
04 110547084341801 Atkinson
05
3106540~4403301
Jack Fleet #I
06 310705084371501 Merritt
07 310721084495401 Tabb
08 310738084471701 Gri11sley
09 310743084514601 Felix Davis Ill
10 31074 70844 51201 Homer Spoonec
II 310816084501801 Newberry
12 310823084545901 Moulton
13 3109020844 75401 Newberry
14 310926084445401 Ralph Weaver
IS 311009084495502 USGS 'IW DP 13
16 3110090844 95503 USGS TW IJP
17 311016084433001 Colquitt 112
18 31105108434 290 l Larry Cook
19 311052084550601 J. I. Widner
20 311113084454701 Jones Long
21 311154084523001 Felix Davis 112
22 31123608435'301 Buddy Bush
23 311236084400401 Bennie Bryan
24 311241084442501 Tabb
25 311300084370901 Larry Cook
26 311302084522 901 Newberry
27 311344084350701 c. o. Walker
28 311410084 364601 Sheffield
29 311410084442201 Tabb
30 311411084403401 Sheffield
31 311415084 471801 c. E. Crozier
32 311416084335701 Jo-Su-Li Farm 115
33 310652084404 702 Jack Fleet RW
34 311009084495 50 I USGS 'N DP-1
Brad Hornsby Merritt Farm Richard Williams Irwin Atkinson Jack Fleet Merritt Farm Stokes Tabb Billy Grimsley Felix Davis
- Homer Spooner
Jimmy Moulton
-
Ralph Weaver USGS/GGS USGS/CGS Colquitt 1 Ga. Larry Cook J. I. Widner Jones Long Felix Davis Buddy Bush Bennie Bryan Owen Tabb
- Larry Cook
c. o. Walker
E. J. Sheffield Owen Tabb E. J. Sheffield
c. E. Crader
Jo-Su-Li Farm USGS/GGS USGS/GGS
Miller County (201)
151 150 140 ISO ISO 158 174 140 180 145 175 200 169 156
200
120
ISO
60
165
100
200
85
225
130
220
59
120
80
120
75
185
85
-
-
-
-
180
135
130
65
-
-
PCPA PCPA PCPA
PCPA PCPA PCPA PCPA PCPA
--PCPA
PCPA PCPA
-
--
I 1
---
l
r
-- 09 - 1 4 - 72
u
L
-- -
t 1
----
l 1
--
r
-----
1 l l
. -----
-
s
--
-
s s s
B C &
c
--
s t:
--
s s
--
-
---
s s
s
-
-
s
-
-
~
180 ISO 155 160 200 1711
75
64
PCPA
01 -1 4-6 0
u
C
M
c
40
30
234
-
145
53
135
-
225
175
RSDM PCPA PCPA PCPA PCPA
01 -09-80
--
-u
--
I
--
-
--
1
--G ---
M
c
-" C E -BE
-
s -
s
198 175 172 148 188 120 166
165
95
195
88
110
60
165
75
145
63
100
70
80
-
PCPA PCPA PCPA PCPA PCPA PCPA PCPA
------
I 1
--
l
-
---
s
~
s
--
--
--
--
I 1
-I
---
---
B E
s
8
s -
190 175 192 203 166
190
132
165
80
165
80
390
210
IJO
PCPA PCPA PCPA PCPA PCPA
--
---
--
-
I I
-l
l
--
-
--
-
s
-
s
-
s
a E
-
,;
-
180
40
26
RSOM
11-18-80
205
180
PCPA/TLLT
01-10-80
ll
G J
u
C GJ
M
-
-'
01 310507084262201 Harvey Meinders H
02 3107 42084213401 Crosson # 1
03 310805084254301 Donald Shirah
04 310807084211801 Crosson iJ 2
05 310928084195201 G. w. Hendley
06 311009084264301 Cox Shooting Range
07 311109084145801 r. Hillard
08 311115084223001 Dean 1 s Pecans
09 311137084094501 L. Ba ternan
10 31130108422 5101 Bostick /12
ll
311323084115401
Carailla ~~
12 311328084130701 camilla 113
13 311336084192301 McNair 1}3
14
1JJ~040B'~~ntot
Camilla I) l
Harvey Meinders Crosson Farms Donald Shirah
Crosson Farms
G. w. Hendley
Cox Shooting Range T. Hillat'd Gerald C. Dean L. Bateman N. Bostick Camilla, Ga..
- Camilla 1 Ga.
CAmi ll<1, Ga.
Mi tchell County (205)
145
206
87
145
180
147
157
-
-
147
185
60
149
110
-
ISS !54 160 216
-
287
----
140
180
100
175
350
250
165 !65 176
341
-
325
-ISS
-
PCPA PCPA
PCPA
.PCPA . -
PCPA PCPA PCPA PCPA
-
PCPA
--1954
-
0
I I
-~
-
l
-----
I
I
-
I
08- -76 12- -57
p "
-
I
1949
-
-J E ----
-
-
-B C E . -
c s s s
-B C E
. -
B E
-
-s
s- I
-
0 E
--
s
5
D D
-
-B C g B E
-
"
49
Table 1.--ReconJs of selected wells in the Dougherty Plain and adjacent areas--Continued
Well number
Site identification
number
Name of well
Owner
Land surfoce altitude
(ft above NGVD)
Well D~pth _I Ca.ti..luz
(It bell'w !orul)
Principal
Well
aquifer construction
Use of
water
Logs available
Water quality
\~ater
level
Mitcllell County ( 205 )--Continued
15 311405084122101 Camilla fl'l
Camilla 1 Ga.
176
16
311539084173101
Claytuo Hul tun TW Ul
Clayton Holton
150
J7
3ll550084J74701
Clayton !iolton /12
Clay ton Hal ton
J60
18
3Jl828084J6540J
Bullard I! 1
Webb Hullard
J70
J9
31190808411150l
Robert Cochran
Robert Cocht"an
J75
20
311935084033701
B. Hatcher
Billy Hatcher
330
21
)11946084095501
E. J. Vann bl
E. J. Vann, Jr.
198
22
312127084065801
Henry Wright 111
Henry Wright
194
23
312200084ll040J
Frank Weatherbee
Frank Weatherbee
160
24
3J224008409520 I
Baconton Ill
Baconton, Ga.
180
25
312253084100001
Bacooton /12
Bacon torr, Ga.
170
26
312332084071001
Branch Grove 115
Ag-Timber Develo pen en t Corp.
191
27
312332084071301
Branch Grove TW h5
do.
192
26
312524084070001
llranch Grove H4
do.
191
29
312527084072101
Branch Grove /13
do.
188
30
312529084081801
Branch Grove {/2
do.
J78
3J
312544 08407 SJO l
Branch Grove TW ,~ 1
do.
180
32
312546084074701
Branch Grove /11
do.
J80
33
312557084013001
Gravel 1\ill Plantation Gravel Hill Plantation
272
34
3105150842621 OJ
Harvey Meinders RW
USGS/GGS
-
35 311539084173102 Clayton Holton RW
USGS/GGS
160
36 3108310842J55
Howard llavis RW
USGS/GGS
147
37
3ll802084J9230l
DP 1/10 Tallahatta
USGS/GGS
165
38 311802084192302 DP 1111 Ocala
USGS/G GS
165
39 311802084J92303 DP 1112 RW
USGS/GGS
165
300
-
J90
50
-
-
2J5
165
-
-
210
lOS
460
-
208
77
-
-
973
-
270
2JO
295
J45
340
95
285
92
270
110
250
110
280
63
275
119
382
116
40
30
50
40
35
25
417
397
225
62
37
21
-
PCPA
-
PCPA
-
PCPA PCPA
-PCPA
TERT PCPA PCPA PCPA PCPA PCPA PCPA PCPA PCPA PCPA RSDM RSDH RSDN TLLT
PCPA RSDM
-
-
-
B E
-
03-09-79
u
c
B
c
----
1967
---
-
1963
l l l l
-"--
-
s
-
s
-
s
-
s
u
l p
p
-----
8 E
-
-
c
-
s
-
-
-
s
02- -78
l
r; J E
-
02- -78
0
CJ E
-
02- -78
1
CJ E
-
02- -78
l
cJ e
-
-
---
02- -78
l
CJ E
-
02- -78
u
C.: J E
-
-
-
02- -78
1
CJ E
-
-
1963
-
J
-
-
ll-19-80
u
(l J
M
w
10-16-80
u
c J
M
w
10-17-80
u
g J
M
w
06- -80
u
C GJ
M
c
OS-2J - 80
u
C GJ
M
c
07-16-80
u
C GJ
M
c
OJ
304 905084 532 70J
Roddenberry {!5
02 304 938084 52380 I Roddenberry /18
03 305017084541101 Roddenberry tJ9
04 30504 7084 521 301 Roddenberr y J6
05
3050550844 71301
w. 0, Green
06
30525108448050 I
R. c. Heard
07
305331084 52520 I
Joe Poole
08
305356084 534 601
Roddenberry N Ill
09
305517084551501
E"iveash
JO 305614 084 531701 Crooms
11 305616084495801 Joe Hall
12 30564808455590 I T. N. Smith ,?I
13 3058160844 540 I Eddie Millet # 1
J4
3 I0000084552501
Seldom Rest
15 3100090844 94 701 John Dozier
J6 31002 9084 591 801 Roberts
17
31014 5084 483901
Eddie ~tiller 02
18
31014 7084 554 701
Billy Lewis
19
31020608452290J
Donalsonville 113
20
310230084 524901
c. o. 111omas
21
310233084 53 0J 01
Donalsonville 112
22 31023 708453010 I Donalsonville II 1
23 24
310250084 4 72601 310310084484001
...Eddie Hiller /13 E. Harlow
25
3103300B4582801
Bob lJut ton
26
3104 27084 SY I I0 l
Doug Harvey N 111
27
305412084535801
Roddenberry Farm RW
28
3104 2808459120 I
Doug Harvey
Rodden berry, Inc. do. do. do.
" o. Green
R. G. Heard Joe Poole Roddenberry, Inc . Bob Fiveash Carlton Crooms
Joe Hall J. P. Spooner Eddie !-tiller Steve Williams John Dozier Dave Roberts
Eddie Miller Billy Lewis Donalsonville, Ga .
c. o. Thomas
Donalsonville, Ga . Donalsonville, Ga . Eddie Hiller
w. E. Harlow
~b Dutton Doug Harvey USGS/GGS USGS/GGS
OJ
315507084J5170l
M. Shackel {orcl
02
31551308407 5001
D. L. Owens
OJ 31553008357550J Trim Porter il 1
04 31560908400320 I Deseret E"arm
05
315628084105801
A. A. Ellis Ul
06
315713084050601
Leslie Hl
07
315836084 124 601
L. G. Childres
08
31584808359250J
c. E. Pelcher
09
315955083572')01
w. R. Pe-rry
JO
32021508409050 I
D. A. Garrison II 1
JJ
3:.1.021508/~ 102001
Deriso #2
12
320313084151201
Sweet Potato Il l
13 320321084121001 Americus liS
14
320324084001701
USGS ~6
15
320359083590301
Danville Ferry
J6
32041008411220 I
E. P. James
17
32050008414220 l
.\filcri.cuR II 1
H. Shackelford
o. L . Owens
Trim Porter Oeseret Farm A. A. Ellis Leslie, Ga.
L. G. Childres
c. E. Pelcber w. B. Perry o. A. Garrison
Jack Ueriso Sweet Potato House Americus, Ga ,
USGS State of Georgia E. P. J ames Americus, Ga.
Seminole County ( 253)
127
180
100
95
J90
124
J26
260
170
91
170
120
119
110
-
120
lJO
90
120
-
-
115
JSO
63
JSS
200
80
145
185
100
118
160
60
140
225
118
J28
200
60
154
230
60
156
260
60
135
195
90
154
200
125
150
140
40
150
174
73
ISS
123
-
140
210
-
140
200
-
130
200
125
130
3.572
-
133
140
87
152
125
58
115
33
23
lSJ
39
30
Sumter County (261)
-
--
343
150
50
270
lJO
-
-
-
-
322
100
93
345
234
-
330
355
300
24J
140
-
245
100
60
417
312
-
400
80
-
385
410
-
409
1,005
198
320
450
-
270
606
200
426
JOO
-
468
305
128
PCPA PCPA PCPA PCPA PCPA PCPA
-
PCPA PCPA PCPA PCPA PCPA PCPA PCPA PCPA 1-'CPA PCPA PCPA PCPA PCPA
--
PCPA CRCS PCPA PCPA RSDM RSDM
-
TERT PCPA TLLT PCPA TEKT
-!ERT
PCL'A TERT PCPA TEltT CRCS TERT TBRT TLLT TERT
-
1
------
l l
-1
1 I
02-2J - 78
u
--
I l
-
1
- 01-01-72
-----
0 I l 1 l 1
~
- 02- -64
-1949
--
p
--
-
1
u
-----
-G
-
B C E
s
--
s
s
-
s
H-----r.
-
s s c s s
---
--
-
-
-
0
-----
-------
s c -
s
s s
8
--B E
s
--s
-B C E
-
s
-
-
-
l
-
-
s
03-08-79
u
G
B
c
11-12-80
u
G J
!{
M
ll-11-80
u
G J
M
"
-- 03- -52
-05- -52
- 12- -52
04 5 2 11- -51 10- -52 07-27-56
-
-08-01-46
08- -52
-
l
--
-1
------
1
-
-
1
--
------B
-1
--
c
E
- I' CEJUNT
u
u
C E J
r
-
-------
---
l
-----
---
----
10- -57
p
-
-
50
Table l.--Records of selected wells in the Dougherty Plain and adjacent arells--Continued
Well
Site
number identification
number
Name of well
Owner
Land sur face altitude
(ft above NGVD)
Well
llapth .1. C.'a.toi.ng
(ft hciJw la nd)
Principal
Well
aquifer cons true tion
Use of
water
Logs available
Water quality
Water level
Sumter County (261 )--Continued
18 320540084100001 c. L. Rhyne
c. L. Rhyne
19 320640084081501 Northeast School 11
Sumter County, Ga.
20 320702084112801 Dayton Vnr.& Lmbr.Co.ll A and S. Development
21
)20711084114601
s. E. Fertilizer Co.
s. E. Fertilizer Company
22 ) 15 73 7083591601 Ed Stephens RW
USGS/GGS
459 453 470
400 200
--
TEKT TERT
02- -58 10- -58
I
c
333
313
TEKT
01-13-48
c
8
--
461
134
106
TLLT
1978
-
-
290
27
17
RSDM
10-14-80
u
G J
--- ---
-
I
M
w
01 313819084225201 M. L. Shiver 11
02 313838084210601 Jack. Wilson
03 313935084 203601 Alvin Vann
04 314132084255501 s. Reese
OS
3l414808i.a263201
F. Aultman
06 314118084190901 Daniel Bros. 12
07
31113ll.!084205701
Sasser Hl
08 314319084 205301 Sasser /12
09 314522084243801 H. Spillman
10 314530084260701 USDA
11 314 611084 310301 Graves School H2
12 314 615084 285401 Fish Hatchery Ill
I) 314 956084214101 Bronwood D2
14 ) 13934084203 701 Alvin Vann RW
01 313517083593601 3-J lo'arm
02 313839083545601 G. w. Strom
03 314330084005401 USGS TW DP 17
04
314330084005402
USGS TW DP UB
OS )14330084005403 USGS TW DP V9
06
314336083572801
Tyson n1
07 31444 7083591301 L. L. Leverett
08 314933083552001 Warwick 11
09 314 852083541901 Clarence Odom RW
Terrell County (273)
M. L. Shiver Jack. ll1lson
Alvin Vann
s. Reese
F. Aultman
Daniel Brothers Sasser, Ga. Sasser, Ga. H. Spillman
u.s. Dept. of Agriculture
Terrell County, Ga. Cocke Fish Hatchery Bronwood, Ga.
USGS/GGS
260 260
-260 -303
315 315 342
332 351 385
176
65
120
60
95
63
200
200
155
103
TLLT TLLT PCPA TLLT TLLT
-----
I 1
-I
1
-----
320
320
187 205
-100
140
105
103 333
9-2
TLLT TLLT CLBR TLLT TLLT CL8R
-------
H l
-L
369
597
TERT
06-19-56
c
------
360
465
390
TERT
08-22-74
p
c
263
20
10
RSDM
10-14-80
u
G J
Worth County (321)
-------
-B
~ r.
s
s s
-l
-l
s
-s
-- --
" w
3-J Farm
G. w. Strom
USGS/GGS
.. USGS/GGS
USGS/GGS H. R. and Dr
J. Tyson
L. L. Leverett
Warwick, Ga.
USGS/GGS
257 266
211
60
200
32
PCPA PCPA
---
I I
--
-
s
B E
-
230
)30
315
TLLT
02-26-80
u
G
u
c
230
120
63
PCPA
02-27-80
u
G
~
c
230 261 253 276
28 190 240 325
10
-84
-
RSDM PCPA PCPA/TLLT TLLT
U:l-2~-80
----
u
I
-
-
G
H
c
--
-
g
-s
-
BC E
-
275
34
24
RSDM
10-09-80
u
G J
H
w
51
Table 2.--Generalized stratigraphic column of the Tertiary System in the Dougherty Plain (Adapted from Hie ks , 1980.)
Series
Group and
formation
Thickness (feet)
Lithology
Water-bearing properties
Wa te r-q ual i t y characteristics
Residuum
0-!00
Varied colored clay and fine to coarse, poorly sorted, angular to subangular quartz sand
Not generally water bearing
Ocala Li mestone
0-325 White to light pink, fossil iferous limestone
Ocala aquifer is a very productive water-bearing unit throughout the Dougherty Plain, Reported well yields of more than 2,000 gal/min, Yields decrease north and west of Albany
Water is generally a hard calcium bicarbonate type that meets all State drinking water standards (1977)
Lisbon Formation
Slightly glauconitic, fine calcar eo us sand, clay, and interbedded limestone
Limited water-bearing potential --used only in multiaquifer wells where other aquifers are tapped
Quality is assumed to be very similar to that in the Tallahatta
Eoc ene
Tallahatta Formation
170-380
Fine to medium sand, clayey sand, and interbedded limestone layers that are very fossiliferous at top of the formation
Tallahatta aquifer is a major aquifer in the Albany area; used for municipal, agricultural, and indus trial supplies. Reported well yields of as much as 1,400 gal/min, When not differentiated, the Lisbon and Tallahatta aquifers may be referred to as the "Claiborne aquifer, "
Water is a hard calcium bicarbonate type that meets all State drinking water standards ( 1977) and is suitable for most uses
Hatchetigbee Formation
Very fine, green-stained quartz Aquifer is topped by many multi- Assumed to have similar
sand, locally calcareous and
aquifer wells; however, water- quality to the Talla-
glauconitic
bearing proper ties unknown
hatta aquifer
Upper Paleocene
Tuscahoma Sand and Nanafalia
Formation undifferentiated
75-130
Fine to medium, micaceous, clay-rich sand. Glauconite is abundant throughout. Lower part is nonfossiliferous, clayrich sand (greater than 50 percent clay)
Used in some multiaquifer wells; water-bearing properties unknown
Quality unkilown
Clayton Formation (upper unit)
Lower
Clayton
Paleocene
Formation
(limestone unit)
10-110 90-130
Fine to medium, calcareous quartz sand and interbedded thin limestones
Massive, light gray, recrystallized limestone. Very foss!liferous at the top of the unit
Used in some mul tiaquifer wells; water-bearing properties unknown
Clayton aquifer is a major aquifer in the Albany area. East of Albany the aquifer is a poor producer; however, to the west and northwest, well yields as great as 2,000 gal/min have been reported
11w Clayton aquifer produces water that is sui table for mlmicipal, agricultural, and industrial supply, It is generally a soft sodium bicarbonate type that meets all State drinking wa. ter standards (1977)
Clayton Formation (lower unit)
Fine to medium, arkosic sand, 10-100 locally glauconitic and silty
Water-bearing properties unknown
.,
52
Interval (ft)
o- s
5-10 10-15 15-20
Interval 0-20
Table 3.--Well 007-38.
Sample description Sand, very fine-grained, silty, clayey. Sand, fine-grained, well sorted, clean quartz. Sand, fine to medium-grained, quartz. Like the sample at 10-15 ft.
Summary Description Fine to medium sand
Hydrogeologic unit Residuum
53
Interval (ft) 0- 5
5-10 10-15
15-20 20-25 25-28 29
Interval 0-28
28-29
Table 4.--Well 007-39.
Sample description
Sand, fine to medium-grained, subangular to subrounded, quartz, contains slight amount of light red-brown clay.
Like sample at 0-5 ft.
Clay, white to light-orange, slightly sandy, interbedded with thin layers of fine-grained sand.
Like the sample at 10-15 ft.
Like the sample at 10-15 ft.
Like the sample at 10-15 ft.
Limestone(?): No drilling fluid or sample return.
Summary Description Slightly sandy clay Limestone
Hydrogeologic unit Residuum Principal artesian aquifer
54
Interval (ft) 0- 7
7- 12 12- 17
17- 22
22- 37 37- 42 42-142
Interval 0- 37
37-142
Table 5.--Well 037-24.
Sample description
Sand, fine to very fine-grained, rounded, fairly well-sorted quartz; some heavy minerals and some soft, red clay.
Sand, medium-grained, rounded to subspherical, well-sorted quartz.
Clayey, sandy limestone, very soft, cream, clayey, medium-grained, well-sorted sandy limestone.
Sandy clay, soft, orange, plastic clay, contains fine to coarse-grained, angular to subangular, poorly-sorted quartz sand.
Clay, soft, orange to white to gray, very plastic.
Cavity:
Limestone(?): No drilling fluid or sample return.
Summary Description Clayey sand or sandy clay Limestone
Hydrogeologic unit Residuum Principal artesian aquifer
55
Interval (ft) 0- 50
50- 85
85- 86 86-110
110-113 113-145
Interval 0- 50
50-145
Table 6.--Well 087-09.
Sample description
Sand and sandy clay, fine to coarse-grained, subrounded to subangular, in layers at 20 to 40 ft; interbedded with dense, white to red to yellow mottled, very sandy clay.
Limestone, varies from soft, granular, white, and very fossiliferous, to dense, tan, and orange, recrystallized and fossiliferous.
Sand, coarse to medi4ID-grained, quartz.
Limestone, soft, granular, fossiliferous to dense, tan and orange, recrystallized and fossiliferous. A 3-ft cavern was penetrated at 92 ft, from which medium to coarse quartz grains and rock fragments were recovered.
Sand, fine to coarse-grained, quartz.
Limestone, white to tan to orange, fossiliferous (bryozoans, Foraminifera), recrystallized to varying degrees.
Summary Description Sandy clay Limestone with sand layers
Hydrogeologic unit Residuum Principal artesian aquifer
56
Interval (ft) 0- 45
45- 60 60- 70
70-185
Interval 0- 60
60-185
Table 7.--Well 087-10.
Sample description
Sandy clay, a dense, white to red to yellow mottled clay matrix containing fine to mediumgrained, subrounded, quartz sand (50 percent), with rock fragments becoming common; heavy minerals began to occur at 30 ft.
Sand, fine-grained, gray, clean quartz.
Limestone, varies from soft, granular, white, very fossiliferous, to dense, light-orange, recrystallized, fossiliferous.
Limestone and sand, variable, like the sample at 60-70 ft.; interbedded with layers of fine to coarse-grained quartz sand.
Summary Description Sandy clay or sand Limestone with sand layers
Hydrogeologic unit Residuum Principal artesian aquifer
57
Interval (ft) 0- 5 5- 15
15- 40
40- 85
85-135 135-145 145-160
Interval 0- 40
40-160
Table 8.--Well 087-33.
Sample description
Clayey sand, fine to medium-grained, quartz sand, red clay, rock fragments; overlain by sandy, dark-gray topsoil.
Clay, silty, gray, plastic.
Clayey sand-sandy clay, coarse-grained, subrounded, quartz sand, becoming gravel, with red clay lower in section; interbedded with silty to sandy, gray, red, and white mottled, plastic clay.
Limestone, sand, and clay, fine to coarsegrained, quartz sand with rock fragments, silty, sandy, white to red to yellow mottled, clay; interbedded with thin layers of hard, white limestone.
Limestone, granular, white, porous, very fossiliferous; contains orange-brown clay balls.
Cavernous limestone, granular, white, porous, fossiliferous, containing small caverns filled with muddy water.
Limestone, brown, very hard, nonporous, dolomitic.
Summary
Description
Clay or clayey sand
Limestone with minor amounts of sand
Hydrogeologic unit Residuum Principal artesian aquifer
58
Interval (ft) 0- 10
10- 20 20- 32
32- 40 40- 59
59- 75 75- 90 90-105 105-120 120-135 135-147 147-150 150-180
180-195 195-210 210-223 223-226
Table 9.--Well 087-42.
Sample description
Sand, very fine-grained to pebble-sized, angular, quartz with other minerals.
Sand, very fine-grained to pebble-sized, angular, quartz; some orange clay.
Sand, very fine-grained to pebble-sized quartz, very angular, poorly sorted, with rock fragments; interbedded with orange to cream, clayey sand. At 28 ft, sand becomes pebble-sized quartz rock. Fragments white to pink.
Clay, silty, gray, plastic.
Clay and sand, sandy, gray, plastic clay; interbedded with pebble-sized, subangular rock fragments and coarse-grained quartz.
Limestqne(?): No drilling fluid or sample return.
Limestone, light orange.
Like sample at 75-90 ft.
Like sample at 75-90 ft.
Limestone, dense, recrystallized, fossiliferous.
Limestone, porous, pale orange to white, very fossiliferous.
Like sample at 135-147 ft., with chert fragments.
Limestone, very hard, light orange to dark orange, recrystallized, locally cherty; 1-ft cavern penetrated at 155 ft. Some fossils identifiable at depth.
Limestone, light orange to cream, very fossiliferous.
Like sample at 180-195 ft.
Limestone, like sample at 180-195 ft.; cavern at 223 ft.
Cavern penetrated.
59
Interval (ft)
226-240 240-255 255-270 270-285 285-300 300-315 315-330 330-345 345-360 360-375 375-384 384-390
390-395 395-410
410-455
Interval
o- 59
59-320 320-410 410-450
Table 9.--Well 087-42.--Continued
Sample description No sample. Lost circulation. No sample. Lost circulation. No sample. Lost circulation. No sample. Lost circulation. No sample. Lost circulation. No sample. Lost circulation. No sample. Lost circulation. No sample. Lost circulation. No sample. Lost circulation. No sample. Lost circulation. No sample. Lost circulation. Siltstone, light gray, fossiliferous (shell
fragments); probably underlain by gray-green clayey sand. No sample. Lost circulation. Sand, very fine-grained, gray, with fragments of limestone. No sample. Lost circulation.
Summary Description Sand and clay Limestone Silty, cemented limestone Sand
Hydrogeologic unit Residuum Principal artesian aquifer Lisbon confining unit Tallahatta aquifer
60
Interval (ft) 0-10
10-20
20-30
30-35 35-40 40-50 50-54 54-60 60-70 70-75 75-90
Interval 0-54
54-90
Table 10.--Well 087-43.
Sample description
Clay, dense, gray and pink mottled, plastic, slightly sandy; interbedded with thin streaks of fine to coarse-grained quartz sand at 5 to 7 ft.
Clay, dense, gray and pink mottled, plastic, slightly sandy; interbedded with coarse to fine-grained quartz sand with minerals and rock fragments.
Clay and sand, orange and gray mottled, very sandy clay; interbedded with fine to coarsegrained quartz sand.
Sandy clay, orange and gray mottled, very sandy clay.
Sandy clay, orange, with fine to small pebblesize sand.
Sandy clay, orange; interbedded with very coarsegrained sand.
Like sample at 40-50 ft.
Limestone, light orange, fossiliferous.
No sample. Lost circulation.
No sample. Lost circulation.
No sample. Lost circulation.
Summary Description Clay or sandy clay Limestone
Hydrogeologic unit Residuum Principal artesian aquifer
61
Interval (ft) 0-10
10-20 20-32 32-40
Interval 0-40
Table 11.--Well 087-44.
Sample description
Sand, fine to coarse-grained quartz and other minerals; interbedded with gray and red mottled sandy clay.
Clay, dense, pink, gray, and yellow mottled, slightly sandy.
Clay, dense, pink, gray, and yellow mottled; interbedded with thin layers of sand.
Sand, very fine to coarse-grained quartz, angular.
Summary Description Clay and sand
Hydrogeologic unit Residuum
62
Interval (ft)
0- 7
7-10 10-13 13-15 15-27 27-30 30-40
40-41
Interval 0-40
40-41
Table 12.--Well 087-45.
Sample description Sand, medium-grained quartz with some silt and
clay. Clay, soft, red-gray. Sand, coarse-grained, loose quartz. Like sample at 7-10 ft. Sandy clay, dense, gummy, red-white. Sandy clay, loose sandy, limonite-stained clay. Sandy clay, sandy, red-brown clay with loose
limonite pebbles. Limestone, pink, with chert.
Summary Description Clay and sandy clay Limestone
Hydrogeologic unit Residuum Principal artesian aquifer
63
Interval (ft) 0- 4 4-12
12-20 20-25 25-33 33-34
Interval 0-33 33-34
Table 13.--Well 087-46.
Sample description
Sand, fine-grained, angular to subangular, organic.
Sand, fine-grained, moderately sorted, slightly stained.
Clay, white to gray with brown and red streaks, slightly sandy.
Clay, brown-ochre, limonitic, slightly sandy.
Like sample at 20-25 ft.
Limestone(?): No drilling fluid or sample return.
Summary Description Clay and sand Limestone
Hydrogeologic unit Residuum Principal artesian aquifer
64
Interval (ft) 0- 5 5-10
10-15
15-20 20-25 25-30 30-35
35-40 40-45 45-50 50-53 53-55
Interval 0-53
53-55
Table 14.--Well 087-47.
Sample description
Sand, fine to medium-grained, subangular, fairly well-sorted, quartz.
Sand, medium-grained, subangular, brown, moderately sorted, slightly stained, slightly argillaceous quartz.
Sand, medium-grained subangular, brown, moderately sorted, slightly stained, slightly argillaceous quartz; more clay than in sample at 510 ft.
Like sample at 5-10 ft.
Like sample at 5-10 ft.
Like sample at 5-10 ft.
Like sample at 5-10 ft. Interbedded with a thin layer of white to gray, fine-grained, sandy clay.
Like sample at 5-10ft.; interbedded with clay.
Like sample at 5-10 ft.; with clay.
Clay, dark ochre to brown, slightly sandy.
Like sample at 45-50 ft.
Limestone, white to light gray, soft; contains cavities of angular quartz sand.
Summary Description Sand and clay Limestone
Hydrogeologic unit Residuum Principal artesian aquifer
65
Interval (ft) 0- 40
40- 80
80- 90 90- 96
96-150
Interval 0- 40
40-150
Table 15.--Well 095-14.
Sample description
Sandy clay, white, red, and yellow mottled clay and fine to medium-grained quartz sand. Clay becomes all white at 25 ft. Sand comprises 20 to 30 percent of overall composition.
Limestone, soft, white, very fossiliferous (predominantly Foraminifera, with bryozoans), and slightly recrystallized. A 2-ft cavern was penetrated at 75 ft, which contained clay and sand.
No sample. Lost circulation.
Sand, medium to fine-grained, subangular to subrounded, quartz, very fine-grained, heavy minerals.
No sample. Lost circulation.
Summary Description Sandy clay Limestone with some sand
Hydrogeologic unit Residuum Principal artesian aquifer
66
Interval (ft) 0- 20
20- 33 33- 50
50-150
Interval 0- 50
50-150
Table 16.--Well 095-15.
Sample description
Sandy clay, red and yellow mottled clay and fine to medium-grained, subrounded, quartz sand. Sand decreases lower in section.
Clay, dense, plastic, silty, off-white.
Sandy clay, white, red, and yellow mottled clay and fine to medium-grained, subrounded, quartz sand.
Limestone, soft, granular, white to cream, very fossiliferous (pre.dominantly Foraminifera, with bivalves and bryozoans). Recrystallization occurs to varying degrees.
Summary Description Clay or sandy clay Limestone
Hydrogeologic unit Residuum Principal artesian aquifer
67
Interval (ft) 0- 5 5-10
10-15 15-20 20-25 25-30 30-35
Interval 0-30
30-35
Table 17.--Well 095-69.
Sample description
Sandy clay, fine-grained, slightly silty, yellowbrown.
Clay, brick-red to gray mottled, with some finegrained quartz sand.
Sandy clay, fine-grained, slightly silty, brickred to gray mottled.
Sandy clay, very fine-grained, slightly silty, brick-red to gray mottled.
Sandy clay, very fine-grained, brick-red to gray mottled.
Sandy clay, very fine-grained, purple to brickred to gray mottled.
No sample. Lost circulation.
Summary Description Sandy clay Limestone
Hydrogeologic unit Residuum Principal artesian aquifer
68
Interval (ft) 0- 5 5-10
10-13 13-15 15-19 19-22
Interval 0-19 19-22
Table 18.--Well 095-70.
Sample description
Silt, sandy, and dark reddish-brown clay.
Clay, light brown , silty, slightly sandy.
Clay, red to gray mottled, sandy, silty, with some iron oxide pellets and limonite.
Clay, dense, red to gray mottled, sandy, silty, with some iron oxide pellets and limonite.
Like sample at 13-15 ft.; some fine to medium sand.
Limestone(?): No drilling fluid or sample return.
Summary Description Clay Limestone
Hydrogeologic unit Residuum Principal artesian aquifer
69
Interval (ft)
o- 5
5-10
10-25 25-30 30-40
Interval 0-40
Table 19.--Well 095-71.
Sample description
Sand, medium-grained, subangular, well-sorted, with silt and red clay.
Sand, coarse-grained, subangular, well-sorted, with red clay.
Like sample at 5-10 ft.
Sand, medium-grained, silty, clayey.
Sand, coarse to very coarse-grained.
Summary Description Sand with some clay
Hydrogeologic unit Residuum
70
Interval (ft) 0- 5 5-10
10-15 15-20 .20-25 25-30 30-35 35-45
Interval 0-45
Table 20.--Well 095-72.
Sample description
Sand, fine to coarse-grained, subangular, poorlysorted quartz.
Sand, fine-grained, subrounded, poorly sorted; some coarse, angular grains.
Sand, medium-grained, subangular, moderately well-sorted quartz.
Sand, medium to coarse-grained, subangular, poorly-sorted quartz, with some clay.
Sand, medium-grained, subrounded, moderately well-sorted quartz.
Sand, fine to coarse-grained, subangular, moderately well-sorted quartz, with some clay.
Sand, fine to medium-grained, subrounded, moderately well-sorted quartz, with some clay.
Clay, red to gray to yellow, orange-brown mottled, with fine to medium-grained quartz sand.
Summary Description Sand and clay
Hydrogeologic unit Residuum
71
Interval (ft) 0- 8
8- 35 35-125
Interval 0- 35
35-125
Table 21.--Well 099-39.
Sample description
Sand and silt, fine to medium-grained, light tan, clean, quartz sand, overlain by silty, dark-gray to black topsoil.
Silty clay, dense, light gray to orange mottled.
Limestone, soft, granular, cream, very fossiliferous (bivalves, echinoids, and Foraminifera). A 1-ft cavern was penetrated at 82 ft.
Summary Description Silty clay Limestone
Hydrogeologic unit Residuum Principal artesian aquifer
72
Interval (ft) 0- 3 3- 5 5-10
10-15
15-20 20-25 25-35 35-38 38-40 40
Interval 0-39
39-40
Table 22.--Well 099-45.
Sample description
Sand, medium to fine-grained, quartz.
Clay, slightly sandy, soft, gray.
Sandy clay, slightly sandy, soft, gray; contains some loose sand, which may be fall-in from above.
Sandy clay, coarse-grained, soft, gummy, very light-gray clay, with very fine-grained, fallin sand.
Sandy clay, coarse-grained, variegated, red-brown to gray to light brown.
Sandy clay, coarse-grained, variegated, mottled.
Like sample at 20-25 ft., with some limonite nodules.
Like sample at 25-35 ft.
Sandy clay, coarse-grained, variegated, mottled; contains chips of weathered limestone.
Limestone, cream to white, soft, fossiliferous.
Summary Description Sandy clay Limestone
Hydrogeologic unit Residuum Principal artesian aquifer
73
Interval (ft) 0- 5 5-10
10-15
15-20 20-25 25-30 30-35 35-40 40-46 46-50
Interval 0-46
46-50
Table 23.--Well 099-46.
Sample description
Sandy clay, red to yellow mottled, limonitic clay and fine-grained, well-rounded sand.
Sandy clay, gray to white to brick-red mottled clay and fine-grained, well-sorted, subrounded sand.
Sandy clay, gray to white to brick-red mottled clay and medium-grained, subangul~r, moderately sorted sand.
Sandy clay, brick-red to gray-white clay and medium to very coarse-grained sand.
Like sample at 15-20 ft.
Sandy clay, brick-red to gray clay and mediumgrained, subangular, moderately-sorted sand.
Sandy clay, gray-white clay and medium-grained subangular, moderately-sorted sand.
Like sample at 30-35 ft.
Sandy clay, gray-white clay and coarse to mediumgrained, subangular, moderately-sorted sand.
Limestone.
Summary Description Sandy clay Limestone
Hydrogeologic unit Residuum Principal artesian aquifer
74
Interval (ft) 0- 10
10- 45 45- 96 96- 98 98-123 123-125 125-155 155-158 158-190
Interval 0- 45
45-190
Table 24.--Well 177-15.
Sample description
Sand, fine to medium-grained, quartz, gray.
Sandy clay, gray to red mottled, dense, plastic.
Limestone, cream, sandy, fossiliferous, iron oxide or manganese stains.
Sand, medium to coarse-grained, clean, well sorted.
Limestone, cream, sandy, fossiliferous; becomes more dense and hard at depth.
Sand, fine to coarse-grained, quartz, gray.
Limestone, hard, off-white, coarse to finegrained, sandy, with brown stain.
Clay, very fine, green.
Sand and limestone, fine to coarse-grained, clean, quartz sand; interbedded with hard, sandy, fossiliferous limestone; contains fine, green clayballs.
Summary Description Sandy clay Limestone with sand layers
Hydrogeologic unit Residuum Principal artesian aquifer
75
Interval (ft) 0- 5 5-10
10-15 15-20
20-25 25-30 30-35 35-40 40-47 47-48
Interval 0-47
47-48
Table 25.--Well 177-40.
Sample description
Sandy clay, blood-red clay with fine-grained, subrounded, well-sorted sand.
Like sample at 0-5 ft.
Like sample at 0-5 ft.
Sandy clay, yellow-brown clay with medium to coarse-grained, subangular, moderately-sorted quartz sand.
Sandy clay, limonite-yellow clay with fine to medium-grained quartz sand.
Like sample at 20-25 ft.
Sandy clay, limonite-yellow and some gray clay, with coarse to gravel-size quartz sand.
Like sample at 30-35 ft.
Sandy clay, gray-yellow clay, with gravel and and coarse quartz sand.
Limestone, white, soft, slightly sandy.
Summary Description Sandy clay Limestone
Hydrogeologic unit Residuum Principal artesian aquifer
76
Interval (ft) 0- 5
5-10 10-15 15-20
20-25 25-30 30-35 35-40 40-45 45-50 50-55
Interval 0-50
50-55
Table 26.--Well 177-41.
Sample description
Sand, medium to coarse-grained, subangular, moderately sorted, stained quartz; contains minor amounts of dark-gray clay.
Sand, coarse-grained, angular, poorly-sorted quartz, with orange-gray clay.
Sand, coarse-grained, angular, poorly-sorted quartz, with brick-red to gray mottled clay.
Sand, very coarse-grained, angular, poorly sorted, with a small percentage of brick-red to gray mottled clay.
Like sample at 15-20 ft.
Sand, very coarse-grained, angular, poorly sorted, with gray clay.
Sand, very coarse-grained to pebble-size, angular, poorly sorted, with gray clay.
Like sample at 30-35 ft.
Sand, very fine-grained, subangular, well sorted, with gray clay.
Sand, medium to coarse-grained, angular, moderately sorted, with some limestone fragments.
Limestone, white, soft, fossiliferous.
Summary Description Sand with some clay Limestone
Hydrogeologic unit Residuum Principal artesian aquifer
77
Interval (ft) 0- 5 5-10
10-15 15-21 21-24 24-25
Interval 0-24 24-25
Table 27.--Well 177-42.
Sample description
Sand, fine to medium-grained, subangular, white to gray, quartz.
Sandy clay, gray to brick-red mottled clay, with fine to medium-grained, subangular, quartz sand.
Sandy clay, gray to light-orange to brick-red mottled clay, with fine-grained quartz sand.
Sandy clay, gray to white to brick-red mottled clay, with fine-grained quartz sand.
Sandy clay, black to white-gray mottled clay, with fine-grained quartz sand.
Limestone.
Summary Description Sandy clay Limestone
Hydrogeologic unit Residuum Principal artesian aquifer
78
Interval (ft) 0- 5 5-10
10-15
15-20 20-25 25-34 34-35
Interval 0-34
34-35
Table 28.--Well 177-43.
Sample description
Sandy clay, yellow-orange mottled clay with fine to medium-grained, subangular, quartz sand.
Sandy clay, yellow-brown mottled clay with fine to medium-grained quartz sand.
Clay, white-gray, with iron-red to black heavy minerals or limonite with iron; very little sand.
Clay, limonite-yellow to gray, contains a very minor amount of sand.
Clay, black, with vein of gravel at 24 ft.
Clay, dark yellow-brown mottled.
Limestone, soft, cream, fossiliferous.
Summary
Description
Clay with small amount of sand
Limestone
Hydrogeologic unit Residuum
Principal artesian aquifer
79
Interval (ft) 0-15
15-18 18-20 20-30
30-45 45-47 47-60
60-75
Interval 0-55
55-75
Table 29.--Well 201-15.
Sample description
Sandy clay, dark-gray to pink mottled clay with fine to coarse-grained quartz sand.
Sandy clay, gray to pink mottled clay with fine to coarse-grained quartz sand.
Sandy clay, yellow clay with much fine to coarsegrained quartz sand.
Clay, gray to dark brown, unindurated, slightly silty, plastic, with mud rock; becomes light gray at 26 ft and very sandy at 29 ft.
Sandy clay, blue-gray, very sandy; thin layer of white limestone at 42 ft.
Clay, gray, sandy.
Sandy clay, gray clay with dark-brown indurated mud rock and layers of white to gray limestone, becoming more abundant at depth, sandy. Limestone is white to yellow, very soft, fossiliferous; top of limestone at 55 ft.
Limestone, white, porous, fossiliferous, becoming gray, dense, and micritic at depth; 3-ft cavern penetrated at 75 ft.
Summary Description Sandy clay Limestone
Hydrogeologic unit Residuum Principal artesian aquifer
80
Interval (ft) 0-10
10-20 20-30 30-40 40-41
Interval 0-40
40-41
Table 30.--Well 201-16.
Sample description
Sandy clay, blue-gray clay with fine to coarsegrained quartz sand with some rock fragments.
Clay, gray, becoming predominantly pink, plastic, and dense at 15 ft; slightly sandy.
Clay, massive, cream, plastic; becomes slightly sandy at depth.
Clay, cream to blue-gray, plastic, moderately sandy.
Limestone, white, soft.
Summary Description Sandy clay Limestone
Hydrogeologic unit Residuum Principal artesian aquifer
81
Interval (ft)
o- 5
5-10
10-15
15-20
20-25 25-30 30-35 35-40 40-41 41-42
Interval 0-41 41-42
Table 31.--Well 201-33.
Sample description
Clayey sand, medium-grained, subangular, moderately-sorted sand and brick-red to yellow clay.
Sandy clay, brick-red to yellow mottled clay with some pebble-size red hematite nodules and medium to fine-grained, subrounded, white, well-sorted sand.
Sandy clay, brick-red to yellow mottled clay with fine-grained, subrounded, white, wellsorted sand.
Clay, brick-red to gray-white mottled, with some fine-grained, well rounded, white, well-sorted sand.
Like sample at 15-20 ft.
Like sample at 15-20 ft.
Like sample at 15-20 ft., with some pebble-size grains.
Sandy clay, limonitic-yellow clay and coarse to medium grained, angular, poorly-sorted sand.
Sand and clay, black sand with clay; lost circulation.
Limestone(?): No drilling fluid or sample return.
Summary Description Sandy clay Limestone
Hydrogeologic unit Residuum Principal artesian aquifer
82
Interval (ft) 0- 10
10- 15 15- 20
20- 35 35- 40
40- 50 50- 60 60- 80
80- 90 90- 95 95-110 110-125 125-140
140-147 147-155
155-162
162-170
Table 32.--Well 201-34.
Sample description
Sand, fine to medium-grained, light brown.
Clay, light gray to white to maroon, mottled.
Clay, plastic, light gray to white to maroon, mottled.
Clay, plastic, light gray to white to red mottled; red streak at 32-34 ft.
Clay, plastic, light gray to blue-purple; contains some limestone pieces.
Clay, light to dark gray.
Clay, light to dark gray.
Limestone, porous, cream, with chunks of gray clay.
No sample. Lost circulation.
Limestone, light cream.
Like sample at 90-95 ft.
Like sample at 90-95 ft.
Limestone, soft, gray, very sandy, fossiliferous; sand is fine-grained, subrounded, quartz.
No sample. Lost circulation.
Limestone, pale orange to white, calcitized, fossiliferous (shell fragments and large Foraminifera), appears weathered; interbedded with thin layers of orange-brown silty clay.
Sand and limestone, fine-grained, subrounded, medium-sorted quartz; interbedded with pale orange to white, calcitized, fossiliferous limestone, as in sample at 147-155 ft.
Limestone, hard, white to light orange-brown, calcitized, fossiliferous (shell fragments, Foraminifera, one small fish tooth), sandy; sand is fine to medium-grained, subrounded, clear quartz.
83
Interval (ft)
170-177
177-180 180-185 185-205
Interval 0- 60
60-180 180-205
Table 32.--Well 201-34.--Continued
Sample description
Limestone, hard, White to light orange-brown, calcitized, fossiliferous (shell fragments, Foraminifera, one small fish tooth), sandy; sand is fine to medium-grained, subrounded, clear quartz; less sandy than as in sample at 162-170 ft.
Limestone, white to light orange-brown, fossiliferous, slightly sandy.
Clay, silty, light green, plastic.
Sand, fine to medium-grained, tan, clear quartz; some heavy minerals.
Summary Description Clay Limestone Hard, dense, silty limestone
Hydrogeologic unit Residuum Principal artesian aquifer Lisbon confining unit
84
Interval (ft) 0- 1S
1S- 20 20- 30
30- so so- 90
90-llS llS-190
Interval 0- 30
30-190
Table 33.--Well 20S-16.
Sample description
Clayey sand, fine to medium-grained quartz sand, with grains becoming coarse and angular at depth, in a pale-orange clay matrix; rock fragments.
Sandy clay, gray to red mottled, silty to sandy, plastic.
Clayey sand, very coarse to fine-grained quartz sand in a light-orange clay matrix; rock fragments.
No sample. Lost circulation (limestone).
Limestone, soft, cream, porous, very fossiliferous (Foraminifera, bryozoans, echinoids, bivalves).
Limestone, hard, light brown, recrystallized.
Limestone, soft, cream, friable, fossiliferous (bryozoans, echinoids, and large bivalve fragments); a series of small caverns were penetrated between 140 and 18S ft.
Summary Description Clayey sand Limestone
Hydrogeologic unit Residuum Principal artesian aquifer
8S
Interval (ft) 0- 5 5-10
10-15
15-20 20-25
25-30 30-35 35-40 40-45 45-50 50-55 55-59
Table 34.--Well 205-34.
Sample description
Clayey sand, medium to fine-grained, subangular, moderately sorted, black, quartz sand with some brick-red clay.
Clayey sand, medium to coarse-grained, subangular, moderately sorted, brown, quartz sand with some hematite nodules and dark clay.
Clayey sand, coarse to medium-gained, quartz sand with some pebble-size white to clear quartz nodules and heavy minerals, and dark or limonite clay.
Clayey sand, coarse-grained, subangular, moderate to well sorted, white, quartz sand and brickred to gray to white clay.
Clayey sand, coarse-grained, angular, moderately sorted, white, quartz sand with brick-red to gray to white and limonite-yellow clay.
Clayey sand, coarse-grained, angular, moderately sorted quartz sand with brick-red clay.
Clayey sand, coarse-grained, angular, moderately sorted quartz sand with gray-white to brickred clay.
Sandy clay, gray-white, soft clay with some finegrained, rounded, well-sorted quartz sand.
Sandy clay, gray-white clay with minor amounts of fine-grained quartz sand.
Sandy clay, dirty-yellow and some dark clay with medium to coarse-grained, angular, poorlysorted quartz sand.
Clayey sand, coarse-grained, angular, poorlysorted quartz sand and dirty-yellow clay.
Clayey sand, coarse-grained, angular, poorlysorted quartz sand and moderate amounts of dirty-yellow clay.
86
Interval (ft)
59-60
Interval 0-59
59-60
Table 34.--Well 205-34.--Continued
Sample description
Limestone(?)i No drilling fluid or sample return.
Summary Description Clayey sand Limestone
Hydrogeologic unit Residuum Principal artesian aquifer
87
Interval (ft) 0- 4 4- 5 5-10
10-15
15-20
20-25 25-30 30-35
35-40
40-45
45-50 50-60
Interval 0-60
Table 35.--Well 205-35.
Sample description
Clayey sand, medium to poorly-sorted quartz in light red-brown clay matrix.
Clayey sand, medium to poorly-sorted quartz in a red-brown to light gray mottled, clay matrix.
Sandy clay, red-brown to light gray mottled clay with some fine to coarse-grained, poorly sorted quartz sand.
Clayey sand, coarse-grained, poorly sorted, light-brown, quartz sand with light-purple to brown-red mottled clay.
Sand, medium to coarse, subangular to subrounded, poorly sorted quartz with some gravel; interbedded with layers of light-gray, sandy clay.
Like sample at 15-20 ft., but with slightly higher clay content.
Sand, medium to coarse-grained, poorly-sorted quartz with a minor amount of gray clay.
Sand, medium to coarse-grained, poorly-sorted quartz with slightly more gray clay than sample at 25-30 ft.
Sand, medium to coarse-grained, subangular to subrounded, poorly-sorted quartz with very little clay.
Sand, medium to coarse-grained, subangular to subrounded, light-brown to tan, poorly-sorted quartz with a minor amount of silty clay.
Like sample at 40-45 ft.
Like sample at 40-45 ft.
Summary Description Sand and clayey sand
Hydrogeologic unit Residuum
88
Interval (ft) 0- 5 5-10
10-15 15-20 20-25 25-30
30-35 35-39 39-40
Interval 0-39
39-40
Table 36.--Well 205-36.
Sample description
Clayey sand, medium to coarse-grained quartz in light red-brown clay matrix with some silt.
Clayey sand, medium to coarse-grained quartz in light red-brown clay matrix with some coarsegrained quartz.
Like sample at 5-10 ft.
Clayey sand, poorly-sorted quartz, grains up to gravel size (1/2 em), in red-gray clay matrix.
Like sample at 15-20 ft.
Clayey sand, poorly-sorted quartz, grains up to 1 em in size, in red-gray clay matrix with subrounded to rounded, limonite pebbles.
Sandy clay, sandy, gravelly, with limonite pebbles.
Like sample at 30-35 ft.
Limestone, white to cream, soft.
Summary Description Sand, clay, and sandy clay Limestone
Hydrogeologic unit Residuum Principal artesian aquifer
89
Interval (ft) 0- 16
16- 38
38-283 283-288 288-293
293-360 360-375
375-390
390-400 400-420
Interval 0- 38 38-288
288-400 400-420
Table 37.--Well 205-37.
Sample description
Sandy clay, red-orange to White clay with fine to coarse-grained, subangular, quartz sand.
Sandy clay, brown-orange plastic clay with medium to coarse-grained, subangular to angular, poorly-sorted quartz sand.
No sample. Lost circulation.
Limestone, hard, White, fossiliferous (shell fragments, Foraminifera), sandy.
Sandstone, fine to medium-grained, subangular, glauconitic quartz; hard, fossiliferous, calcite cement.
No sample.
Siltstone, light gray, hard, with abundant fossils; interbedded with very fine-grained quartz sand.
Sand, very fine-grained quartz, phosphatic, heavy minerals; interbedded with lenses of fossiliferous, silty limestone.
Sandy clay, very soft, green-gray, silty, phosphatic with very fine-grained quartz sand.
Sand, fine-grained, well sorted, fossiliferous (shell fragments), glauconitic.
Summary Description Sandy clay Limestone Silty, hard, cemented limestone with clay Sand
Hydrogeologic unit Residuum Principal artesian aquifer Lisbon confining unit
Tallahatta aquifer
90
Interval (ft) 0- 36
36-138 138-145 145-151 151-154 154-157 157-159 159-225
Interval 0- 36
36-225
Table 38.--Well 205-38.
Sample description Sandy clay, large, siliceous limestone boulders. No sample. Lost circulation. Cavern penetrated. No sample. Lost circulation. Cavern penetrated. No sample. Lost circulation. Cavern penetrated. No sample. Lost circulation.
Summary Description Sandy clay Limestone
Hydrogeologic unit Residuum Principal artesian aquifer
91
Interval (ft) 0- 20
20- 55 55-100
100-150
Interval 0- 55 55-150
Table 39.--Well 253-08.
Sample description
Clayey sand, fine to coarse-grained, subangular to subrounded, clear quartz in a matrix of gray to orange clay.
Sandy clay, fine to coarse-grained, very sandy, white to red to yellow mottled.
Limestone, soft, porous, partially recrystallized, fossil hash (predominantly Foraminifera and bryozoans); varying proportions of orange clay and fine to coarse-grained quartz sand.
Limestone, granular, white to cream, very fossiliferous, becoming harder and recrystallized towards bottom.
Summary Description Sandy clay and clayey sand Limestone
Hydrogeologic urtit Residuum Principal artesian aquifer
92
Interval (ft) 0- 10
10- 52 52- 90 90-125
Interval 0- 52
52-125
Table 40.--Well 253-26.
Sample description
Sandy clay, orange, with rock fragments and medium to coarse-grained quartz sand.
Sandy clay, white to red to yellow mottled, dense, with some quartz sand.
Limestone, granular, white to pale yellow, soft, very fossiliferous.
Limestone, pale orange to medium orange, recrystallized, containing occasional red clay balls in lower portion.
Summary Description Sandy clay Limestone
Hydrogeologic unit Residuum Principal artesian aquifer
93
Interval (ft) 0- 5 5- 7 7-15
15-23 23-30
30-35 35-37 37-38
Interval 0-37
37-38
Table 41.--Well 253-27.
Sample description
Sand, fine to medium-grained, subangular, fair to moderately sorted, tan-brown quartz.
Sandy clay, 20 percent quartz sand (as sample at 0-5 ft), tan-brown.
Sandy clay, light gray to white with some pink streaks and very finely disseminated quartz sand.
Clay, very pure, hard, sticky, light gray.
Sandy clay, yellow clay with some interbedded layers of clay (as sample at 15-23 ft), with 15 percent quartz sand.
Like sample at 23-30 ft., with more gray to white clay.
Like sample at 30-35 ft.
No sample. Lost circulation.
Summary Description Sandy clay Limestone
Hydrogeologic unit Residuum Principal artesian aquifer
94
Interval (ft) 0- 5
5-10
10-15
15-20 20-25 25-30
30-35 35-40
40-45
45-54
54-55
Interval 0-54
54-55
Table 42.--Well 253-28.
Sample description
Clayey sand, medium grained, subangular, moderately-sorted quartz sand with some quartz pebbles, and about 40 percent brick-red clay.
Sandy clay, gray to red mottled clay with about 10 percent coarse to pebble-size, subangular, moderately-sorted quartz sand.
Sandy clay, gray-white to red mottled clay with about 10 percent medium to pebble-size, subangular, poorly-sorted quartz sand.
Like sample at 10-15 ft.
Like sample at 10-15 ft.
Sandy clay, brick-red clay with about 20 percent medium-grained, angular, poorly-sorted quartz sand.
Like sample at 25-30 ft.
Sandy clay, brick-red to gray mottled clay with about 10 percent medium to fine-grained, subangular, quartz sand.
Sandy clay, brick-red clay with about 20 percent fine to coarse-grained, angular, poorly-sorted quartz sand.
Sandy clay, brick-red clay with about 20 percent fine to coarse-grained to pebble-size, angular poorly-sorted quartz sand.
Limestone, white, soft, fossiliferous.
Summary Description Sandy clay Limestone
Hydrogeologic unit Residuum Principal artesian aquifer
95
Interval (ft) 0- 5
5-10 10-15
15-20
20-25 25-30
30-34 34-35
Interval 0-34 34-35
Table 43.--Well 261-22.
Sample description
Sandy clay, limonite-yellow to brick-red mottled clay with fine to medium-grained and some coarse-grained, subangular, quartz sand.
Sandy clay, brick-red mottled clay with fine to medium-grained, subangular, quartz sand.
Sandy clay, yellow-brown mottled clay with fine coarse-grained, subangular, poorly-sorted quartz sand.
Sandy clay, yellow-brown mottled clay with coarse chert granules and fine to coarse-grained, subangular, poorly-sorted quartz sand.
Clay, limonite-yellow, slightly mottled, with medium to coarse-grained chert granules.
Sandy clay, limonite-yellow, slightly mottled clay with fine-grained, subangular, quartz sand.
Clay, limonite-yellow, with some dark organic matter and a small amount of sand.
Limestone, white to cream, soft.
Summary Description Sandy clay Limestone
Hydrogeologic unit Residuum Principal artesian aquifer
96
Interval (ft) 0- 5
5-10
10-15 15-20 20-21 21-40 40-45 45-46
Interval 0-45
45-46
Table 44.--Well 273-14.
Sample description
Clay, thick, gummy, light red-brown, with sandsized grains of limonite, weathered chert, and quartz.
Sandy clay, dense, hard, gummy, red-brown and gray-streaked clay with interbedded layers of slightly softer, brick-red, sandy clay.
Like sample at 5-10 ft., with chips of weathered chert.
Clay, dense, tough, white to red-brown to black, slightly sandy.
Hard rock, "cherty" boulder.
Like sample at 15-20 ft., with thin layers of weathered chert and limestone.
Sand, coarse-grained, poorly-sorted quartz, with thin streaks of chert and weathered limestone.
Limestone, soft, white.
Summary Description Clay and sand Limestone
Hydrogeologic unit Residuum Principal artesian aquifer
97
Interval (ft) 0- 10
10- 20 20- 30 30- 40 40- 70 70-100 100-120 120-150 150-160 160-200
200-220 220-240 240-280
280-290 290-300 300-330
Table 45.--Well 321-03.
Sample description
Sand, coarse-grained to pebble-sized, poorlysorted quartz.
Like sample at 0-10 ft., with a minor amount of heavy minerals and clay.
Clayey sand, fine-grained quartz sand, well sorted, with some heavy minerals and orange clay.
Clayey sand, fine-grained quartz sand, well sorted, with orange clay.
Limestone, (at 50 ft.) white to cream, fossiliferous, slightly clayey.
Limestone, hard, white to cream, fossiliferous, slightly dolomitic.
Limestone, hard, white to cream, fossiliferous.
Limestone, hard, cream, fossiliferous; small amounts of dolomite crystals.
Sand, fine-grained, well-sorted quartz.
Sandy limestone, cream, fossiliferous, with some fine-grained, slightly glauconitic, quartz sand.
Limestone, soft, gray, fossiliferous; sandy in upper portion.
Limestone, soft, gray, fossiliferous; quartz grains present.
Sandy limestone, soft, gray, fossiliferous, with a moderate amount of fine-grained, well-sorted quartz sand.
Sand, fine-grained, well-sorted, fossiliferous, glauconitic.
Sand, fine-grained quartz, well sorted, fossiliferous, glauconitic, calcareous; clay present.
Sand, fine-grained quartz, well sorted, fossiliferous, glauconitic, some clay, micaceous; becoming more poorly sorted at 320 ft.
98
Interval 0- 40
40-160
160-250
250-330
Table 45.--Well 321-03.--Continued
Summary
Description
Hydrogeologic unit
Clay and sand
Residuum
Limestone with sand layer at bottom
Principal artesian aquifer
Silty to sandy, hard, cemented limestone
Lisbon confining unit
Sand
Tallahatta aquifer
99
Interval (ft) 0- 3 3- 5 5-10
10-15 15-20 20-25 25-30 30-35 35-42 42-43
Interval 0-42
42-43
Table 46.--Well 321-09.
Sample description
Sand, fine-grained, subangular, well-sorted quartz.
Clay, brick red to gray mottled.
Clay, yellow-orange to brick-red to gray, mottled, with a minor amount of fine-grained quartz sand.
Sandy clay, gray-red mottled clay with finegrained quartz sand.
Sandy clay, gray-white to brick-red clay with fine-grained quartz sand.
Sandy clay, gray-white clay with a small amount of fine-grained quartz sand.
Like sample at 20-25 ft.
Sandy clay, slightly mottled clay with coarsegrained sand.
Clay, brick-red to orange-yellow to gray-white mottled, with a very small amount of sand.
Limestone, soft, white to light gray.
Summary Description Sandy clay Limestone
Hydrogeologic unit Residuum Principal artesian aquifer
100
Well number
007-01
007-02
007-03
......
,0_.
007-04
007-08
007-09
007-10
007-11
007-12
007-13
Table 47.--Semiannual ~ter levels, in feet below land surface, for wells in the principal artesian aquifer, 1977-80
1977
1978
1979
1980
Water Month Day level
Water Month Day level
Water Month Day level
Water Month Day level
12
05 58.06
04
13 28.92
12
05 43.05
12
OS 39.20
04
13 29.47
12
05 41.13
12
05 43.13
12
05 S5.06
04
13 14.78
12
05 41.36
12
05 46.89
12
06 45.60
12
06 37.81
03
07 53.53
12
06 58.80
03
07 37.45
12
06 51.82
03
07 32.88
12
06 38.24
03
07 34.35
12
06 40.84
03
07 38.00
12
06 43.93
03
07 28.00
12
06 58.35
03
07 14.96
12
06 41.09
03
08 40.68
12
06 48.39
03
08 40.70
12
06 48.07
03
09 29.89
12
06 39.32
03
14 49.67
11
13 59.87
03
15 35.20
11
13 44.18
03
14 30.60
11
14 38.13
03
14 31.97
11
14 38.13
03
14 38.48
11
14 48.05
03
14 27.89
11
14 35.68
03
14 14.86
11
14 23.10
03
14 40.20
11
14 44.62
03
14 39.03
11
14 46.09
03
14 31.65
11
14 45.06
03
04 55.32
05
14 47.15
03
04 39.06
05
14 23.00
03
04 33.34
05
14 17.12
03
04 36.26
05
14 22.60
03
04 43.46
03
04 30.45
05
15 27.48
03
04 18.59
OS
15 27.48
03
04 47.03
05
14 34.37
03
04 44.62
05
14 40.56
03
04 38.68
05
14 32.95
Table 47.--Semiannual water levels, in feet below land surface, for wells in the principal artesian aquifer, 1977-80--Continued
1977
1978
1979
1980
Well number
Water Month Day level
Water Month Day level
Water Month Day level
Water Month Day level
007-14 007-15 007-16 007-17
......
0
N
007-18 007-19 007-20
04
12 12.35
12
05 28.44
12
05 49.78
12
06 41.94
12
OS 64.97
12
06 44.23
12
05 41.73
03
09 21.31
12
06 31.37
03
07 41.61
12
06 49.68
03
09 29.94
12
06 43.S3
03
07 38.77
12
06 64.89
03
08 37.41
12
06 45.37
03
09 29.03
12
06 43.70
03
14 23.06
11
14 29.90
03
14 19.37
11
14 50.28
03
14 33.66
11
14 43.12
03
14 3S.82
11
13 S3.94
03
14 36.31
11
14 44.52
03
14 33.99
11
14 42.38
03
04 30.33
05
14 14.70
03
04 33.55
05
15 17.80
03
04 42.40
OS
14 32.11
03
04 42.10
05
15 35.62
03
04 42.78
03
04 43.10
OS
14 30.38
007-21 007-22 007-23
12
05 21.11
12
06 3S. l 0
12
05 56.01
03
07 8.12
12
06 22.30
03
09 4.62
12
06 33.90
03
07 29.S2
12
06 58.78
03
13 7.67
11
13 23.37
03
13 6.30
11
13 27.3S
03
13 28.27
11
13 44.37
03
04 17.02
05
14 9.03
03
04 13.84
OS
1S 7.90
03
04 32.34
05
1S 27.72
Table 47.--Semiannual water levels, in feet below land surface, for wells in the principal artesian aquifer, 1977-80--Continued
1977
1978
1979
1980
Well number
Water Month Day level
Water Month Day level
Water Month Day level
Water Month Day level
007-24 007-27 007-28 007-29
...... 0 w
007-30 007-31 007-32 007-33 007-34 007-35
12
05 27.86
04
14 20.10
12
OS 22.90
12
06 22.77
12
OS 14.SO
12
06 33.37
12
06 26.09
12
06 32. 8S
12
OS 9.22
12
06 33.S2
03
07 13.28
12
06 39.47
03
07 18.89
12
06 23.89
03
08 16.02
12
OS 25.72
12
06 13.30
03
08 25.81
12
05 36.70
03
08 14.10
12
05 32.00
03
08 27.85
12
05 39.10
03
07 5.6S
12
06 6.89
03
08 19.52
12
05 30.87
03
08 21.02
12
05 39.46
03
13 12.88
11
13 22.38
03
13 18.13
11
13 22.31
03
14 1S.75
11
14 23.44
03
13 8.60
11
13 11.47
03
14 26.32
11
14 34.10
03
14 14.45
11
14 24.45
03
14 18.50
11
14 34.85
03
13 5.15
11
13 8.45
03
14 20.04
11
14 26.96
03
14 19.79
11
14 31.02
03
04 15.12
05
15 14.17
03
04 19.73
OS
15 18.68
03
04 19.93
OS
1S 13.61
03
04 11.04
05
1S 7.22
03
04 31.09
05
15 23.76
03
05 22.02
05
14 15.98
03
05 29.30
05
14 17.30
03
04 6.44
05
15 3.40
03
05 25.43
05
14 17.88
03
05 29.23
05
14 19.05
Well number 007-36 007-37 037-02
..... 037-03
0
~
037-04 037-05 037-06 037-10 081-08 081-12
Table 47.--Semiannual water levels, in feet below land surface, for wells in the principal artesian aquifer, 1977-80--Continued
1977
1978
1979
1980
Water Month Day level
Water Month Day level
Water Month Day level
Water Month Day level
12
06 52.78
12
06 41.91
02
03 1. 70
11
30 5.94
11
30 26.11
11
30 25.45
02
02 22.49
11
30 23.97
02
15 32.24
11
30 37.88
11
16 25.27
12
08 20.51
03
09 46.02
12
05 53.24
03
09 37.49
12
05 43.16
03
07 1.59
12
04 8.70
03
07 17.66
12
05 34.32
03
07 24.18
12
05 24.47
03
07 21.70
12
05 26.70
03
07 31.75
12
04 36.73
03
06 21.71
12
04 26.41
03
06 13.18
12
04 23.00
03
14 42.02
03
14 33.51
03
13 1.47
11
13 9.80
03
13 18.57
11
13 33.30
03
13 23.27
11
13 24.46
03
13 20.61
11
13 27.40
03
13 30.94
11
13 38.78
03
12 23.13
11
01 25.91
03
12 12.27
03
05 55.12
05
16 46.83
03
05 42.83
05
16 36.40
03
03 6.50
03
03 28.00
05
12 20.40
03
05 24.00
05
12 24.06
03
03 25.18
05
12 21.53
03
05 35.00
05
12 32.10
03
05 8.60
05
12 8.67
Table 47.--Semiannual water levels, in feet below land surface, for wells in the principal artesian aquifer, 1977-80--Continued
1977
1978
1979
1980
Well number
Water Month Day level
Water Month Day level
Water Month Day level
Water Month Day level
081-14 081-20 081-21 081-22
.......
0 Vl
087-02 087-03 087-04 087-05 087-06 087-08
11
16 25.34
12
08 5.64
11
16 47.87
11
16 25.60
03
06 22.55
12
04 25.15
03
06 3.39
12
04 7.95
03
06 37.50
12
04 48.79
03
06 23.34
12
04 26.19
04
06 5.70
03
12 22.80
11
01 24.82
03
12 3.78
11
01 5.20
03
12 37.23
11
01 38.27
03
12 23.70
11
01 25.25
03
13 5.59
11
15 6.63
03
13 24.68
11
15 24.86
03
13 32.36
11
15 32.75
03
13 37.53
11
15 38.13
03
13 38.06
11
15 39.11
04
05 25.08
11
27 26.01
05
13 3.92
03
04 24.75
05
13 23.25
03
04 32.62
05
13 31.43
03
05 37.90
03
04 38.84
05
12 35.86
03
05 25.02
05
12 19.73
Well number
087-09
087-12
087-17
...... 087-20
0
(j\
087-21
087-22
087-24
087-25
087-26
087-27
Table 47.--Semiannual water levels, in feet below land surface, for wells in the principal artesian aquifer, 1977-80--Continued
1977
1978
1979
1980
Water Month Day level
Water Month Day level
Water Month Day level
Water Month Day level
12
07 40.69
12
07 36.79
12
07 43.07
12
07 50.39
12
07 38.93
03
06 38.37
12
14 42.06
03
06 33.65
12
14 37.53
03
06 37.69
04
06 45.24
12
14 51.64
03
07 33.06
12
12 37.48
03
06 34.11
03
13 39.65
11
15 40.36
03
13 37.89
11
15 38.56
03
13 33.07
11
15 33.53
03
13 37.69
11
14 35.95
03
13 47.03
11
15 48.04
03
16 34.29
11
15 33.95
03
13 34.57
11
14 36.50
03
05 40.02
05
12 ,37. 83
03
04 35.68
05
13 82.83
03
05 34.33
05
13 29.31
03
06 37.86
03
05 49.84
05
14 40.94
03
05 34.75
03
05 35.45
05
14 88.56
12
07 33.67
03
06 27.96
12
13 32.58
03
13 26.57
11
14 27.74
03
04 27.91
05
15 16.70
Well number 087-29 087-30 087-31 ...... 087-34
0 -...1
087-36 087-37 087-38 087-39 087-41 093-Q1
Table 47.--Semiannual water levels~ in feet below land surface, for wells in the principal artesian aquifer~ 1977-80--Continued
1977
1978
1979
1980
Water Month Day level
Water Month Day level
Water Month Day level
Water Month Day level
03
16 46.60
11
15 46.65
03
13 39.79
11
14 39.88
03
13 31.47
11
14 35.89
04
04 47.94
03
05 49.04
05
13 34.08
03
05 40.62
05
15 28.52
03
05 34.84
05
14 29.44
03
05 50.35
12
06 60.48
12
07 43.58
03
09 50.05
12
14 63.65
04
06 31.79
12
14 42.10
11
14 31.29
03
16 58.61
11
15 59.63
11
14 25.59
04
04 49.03
11
25 51.05
03
13 35.23
11
15 37.04
03
04 31.00
05
15 21.71
03
05 58.87
05
14 49.10
03
05 25.68
05
15 14.23
03
05 35.93
03
06 21.22
Well number
093-02
093-04
093-12
.......
095-01
0
():)
095-02
095-06
095-08
095-09
095-11
095-12
Table 47.--Semiannual water levels, in feet below land surface, for wells in the principal artesian aquifer, 1977-80--Continued
1977
1978
1979
1980
Water Month Day level
Water Month Day level
Water Month Day level
Water Month Day level
03
06 28.09
03
06 53.68
07
115
12
06 39.81
02
17 31.50
12
01 39.65
12
06 49.89
12
06 45.11
12
07 23.48
12
05 31.85
03
09 40.41
12
05 39.32
03
08 27.59
12
05 35.90
03
09 44.SS
12
05 41.82
03
09 39.65
12
05 46.13
03
09 11.00
12
05 16.35
03
14 26.49
03
14 37.75
03
13 7.12
03
14 43.27
03
14 37.82
03
14 11.43
31.60
05
16 26.85
03
05 39.34
05
16 33.28
03
04 10.78
05
15
.81
03
05 47.99
OS
16 40.80
03
05 71.83
05
15 64.50
03
05 42.83
OS
16 36.40
03
04 12.80
05
15 9.80
Table 47.--Semiannual water levels, in feet below land surface, for wells in the principal artesian aquifer, 1977-80--Continued
1977
1978
1979
1980
Well number
Water Month Day level
Water Month Day level
Water Month Day level
Water Month Day level
095-16 095-21
12
07 28.58
03
09 23.85
12
05 28.71
03
14 18.25
03
14 38.42
03
04 21.47
05
15 15.95
03
04 43.19
095-22
.......
0 1.0
095-23
095-29
095-32
095-33
095-34
095-35
095-36
02
17 24.93
11
30 28.43
03
09 22.80
12
05 27.41
03
14 61.85
03
14 71.28
03
14 53.97
03
14 38.25
03
14 23.56
03
14 40.34
03
14 42.82
03
14 53.12
03
04 64.69
03
04 47.00
05
16 40.06
03
04 59.10
05
16 58.61
03
04 44.24
05
16 38.72
03
04 25.77
05
15 24.35
03
04 46.40
05
16 40.88
03
04 47.00
05
16 40.06
03
04 58.23
05
16 56.34
Well number
095-37
095-38
095-39
............
0
095-41
095-43
095-66
099-01
099-03
099-04
099-05
Table 47.--Semiannual water levels, in feet below land surface, for wells in the principal artesian aquifer, 1977-80--Continued
1977
1978
1979
1980
Water Month Day level
Water Month Day level
Water Month Day level
Water Month Day level
12
07 41.34
02
17 38.80
12
08 61.39
01
26 31.20
11
29 46.01
01
26 13.89
11
29 26.49
01
26 20.48
11
28 39.97
01
26 23.44
11
28 42.13
03
08 35.83
12
05 41.88
03
08 39.05
12
06 59.50
03
06 28.55
12
04 53.40
03
06 12.80
12
04 44.50
03
06 21.20
12
04 53.81
03
06 24.52
12
04 53.30
03
14 50.01
03
14 50.90
03
14 81.05
03
14 44.45
03
14 31.86
03
13 30.95
03
12 23.84
11
12 44.09
03
12 12.98
11
12 29.49
03
12 20.25
11
12 39.25
03
12 22.87
11
12 44.48
03
04 55.07
05
16 46.80
03
04 56.95
05
16 49.67
03
04 74.46
05
16 69.33
03
04 50.04
05
16 48.49
03
05 39.80
05
16 39.84
03
05 45.58
05
16 29.51
03
03 34.91
05
13 30.46
03
03 22.94
05
13 16.25
03
03 33.96
05
13 22.51
03
03 40.13
05
13 30.91
Well number
099-06
099-11
099-12
...............
099-13
099-14
099-1S
099-16
099-17
099-18
099-20
Table 47.--Semiannual water levels, in feet below land surface, for wells in the principal artesian aquifer, 1977-80--Continued
1977
1978
1979
1980
Water Month Day level
Water Month Day level
Water Month Day level
Water Month Day level
01
26 3.10
11
29 27.4S
01
26 16.06
11
28 40.96
11
29 42.00
01
2S 11.28
11
29 2S.11
01
2S 28.29
11
29 36.69
01
2S 3.47
11
29 18.8S
01
2S 22.29
11
29 24.S8
01
2S 12.98
11
29 22.4S
11
29 29.67
01
26 12.30
03
06 O.S8
12
04 23.09
03
06 1S.08
12
04 S4.S1
03
06 18.46
12
04 S1.92
03
06 11.07
12
04 3S.22
03
06 30.2S
12
04 S2.07
03
06 2.S4
12
04 26.80
03
06 23.38
12
04 37.97
03
06 1S.66
12
04 36.17
03
06 5.28
12
04 S0.72
03
12 3.07
11
12 18.04
03
12 14.SO
11
12 42.76
03
13 18.07
11
12 43.28
03
13 10.66
11
12 31.30
03
13 28.70
11
12 44.7S
03
13 2.91
11
12 22.94
03
13 24.S2
11
12 29.91
03
13 12.71
11
12 29.32
03
13 4.80
11
12 32.73
03
03 16.01
OS
13 28.SO
03
03 36.27
OS
13 18.20
03
03 40.42
OS
13 24.83
03
03 27.09
03
03 40.69
OS
13 34.28
03
03 19.00
OS
14 3. 72
03
03 28.34
OS
14 22.40
03
03 2S.37
OS
13 1S.28
03
03 25.97
OS
12 8.40
03
03 15.67
05
13 20.50
Well number 099-21 099-30 099-32
.......... 099-36
N
099-37 099-38 099-39 099-41 099-42 131-01
Table 47.--Semiannual water levels, in feet below land surface, for wells in the principal artesian aquifer, 1977-80--Continued
1977
1978
1979
1980
Water Month Day level
Water Month Day level
Water Month Day level
Water Month Day level
11
29 32.67
01
27 19.09
11
29 23 . 10
11
29 17.66
11
29 36.43
11
30 27 .. 07
11
29 28 .. 69
11
28 69 .. 88
03
07 29.57
12
05 38.00
12
05 30.03
03
06 19.28
12
OS 25.18
03
06 7.06
12
04 25.22
03
06 18.03
12
OS 36.38
03
07 20.08
12
04 33.19
03
06 17.29
12
OS 26.20
03
07 70.82
12
OS 75.32
03
13 28.40
11
12 31.91
03
13 18.94
11
12 24.85
03
13 19.02
11
12 24.39
03
12 7.56
11
12 19.83
03
13 17.33
11
13 34.S4
03
13 20.23
11
12 28.33
11
12 28.71
03
13 71.77
11
13 7S.3S
04
04 50.40
03
04 15.00
05
13 15.91
03
03 30.05
03
03 25.33
05
12 19.60
03
03 20.84
05
12 20.30
03
04 9.74
OS
12 9.00
03
04 22.72
OS
12 18.S9
03
04 23.15
OS
12 20.09
03
04 19.36
05
13 19.82
03
03 72.70
OS
1S 70.76
Table 47.--Semiannual water levels, in feet below land surface, for wells in the principal artesian aquifer, 1977-80--Continued
1977
1978
1979
1980
Well number
Water Month Day level
Water Month Day level
Water Month Day level
Water Month Day level
131-Q2
131-Q3
177-05
-w
177-06
177-08
177-10
177-11
177-13
177-15
177-16
12
07 28.60
12
07 50.65
12
07 30.28
03
21 79.78
03
10 20.12
12
07 38.65
03
10 20.60
12
07 55.05
03
10 15.94
12
07 43.95
03
10 13.67
12
07 32.16
03
10 14.08
12
07 25.16
03
10 7.28
12
07 32.02
03
10 10.83
03
10 28.03
12
07 36.00
04
05 82.40
11
12 83.12
04
04 34.11
11
12 35.65
03
15 24.15
03
15 18.60
03
15 72.12
03
15 15.42
03
15 18.31
03
15 8.05
03
15
.62
03
15 28.30
03
05 83.55
05
12 75.43
03
05 37.10
03
28.25
05
15 22.50
03
19.67
05
15 30.00
03
32.01
05
14 29.60
03
19.38
05
14 15.72
03
18.74
05
14 17.02
03
23.54
05
14 5.75
03
2.99
05
15
.23
03
31.38
05
14 24.55
Table 47.--Semiannual water levels, in feet below land surface, for wells in the principal artesian aquifer, 1977-80--Continued
1977
1978
1979
1980
Well number
Water Month Day level
Water Month Day level
Water Month Day level
Water Month Day level
177-20
177-21
177-22
..........
~
177-25
177-26
177-27
177-29
177-30
177-32
177-35
12
07 38.75
12
07 6.07
12
07 42.43
03
10 31.28
12
06 41.08
03
10 27.80
12
06 38.48
03
10 3. 77
12
06 7.13
03
10 32.06
12
07 48.98
03
10 7.49
12
06 40.72
03
10 30.73
12
06 48.53
03
10 14.00
12
06 28.85
03
10 19.17
12
06 51.49
03
10 l1.39
12
06 21.84
03
10
.77
12
06 7.95
03
15 26.57
03
15 26.95
03
15 4.60
03
15 32.70
03
15 10.00
03
15 36.00
03
15 13.00
03
15 20.06
03
15 10.98
03
15 1.24
03
29.72
05
14 23.13
03
30.10
05
15 22.62
03
7.48
05
15 4.69
03
36.03
05
15 33.31
03
12.82
05
14 12.15
03
38.48
05
14 43.22
03
16.26
05
14 15.69
03
34.69
05
14 24.11
03
12.48
OS
14 11.48
03
3.70
05
14 1. 71
Table 47.--Semiannual water levels, in feet below land surface, for wells in the principal artesian aquifer, 1977-80--Continued
1977
1978
1979
1980
Well number
Water Month Day level
Water Month Day level
Water Month Day level
Water Month Day level
177-36
03
22 31.50
177-37 177-39 ............ 201-01
\Jl
201-02 201-03 201-04 201-Q6 201-07 201-08
12
05 51.68
12
06 52.19
12
06 52.44
12
06 58.45
03
10 12.87
12
06 30.17
03
10 15.29
12
06 23.54
12
13 51.77
03
08 42.39
12
14 52.10
03
07 25.74
12
13 32.26
03
08 39.47
12
14 57.07
03
15 13.41
03
15 15.83
03
15 42.87
11
13 41.83
03
15 45.92
11
12 46.96
03
15 27.60
11
13 25.26
03
15 45.60
11
12 45.79
03
15 44.79
11
12 46.22
03
15 34.00
11
13 42.12
03
15 9.13
11
13 9.96
03
14.68
05
14 14.68
03
15.54
05
14 15.08
03
04 47.37
05
14 43.50
03
04 46.11
05
14 32.69
03
04 29.14
05
14 27.54
03
04 44.96
05
14 31.25
03
04 47.33
05
14 33.22
03
04 41.68
05
14 34.97
03
03 9.88
05
14 8.75
Well number
Table 47.--Semiannual water levels, in feet below land surface, for wells in the principal artesian aquifer, 1977-80--Continued
1977
1978
1979
1980
Water Month Day level
Water Month Day level
Water Month Day level
Water Month Day level
201-09 201-10 201-11
............
0\ 201-12 201-13 201-14 201-18 201-20 201-21
12
05 37.47
12
05 17.69
12
05 40.05
12
06 4j'. 82
12
05 31.99
03
08 16.32
12
13 46.64
03
08 11.68
12
13 19.48
03
08 20.06
12
13 51.50
03
08 21.96
12
14 46.50
12
13 35.01
03
08 12.50
12
13 44.40
11
13 33.12
03
15 13.26
11
13 13.48
03
15 22.38
11
13 31.65
03
15 20.67
11
13 40.08
03
15 23.45
11
13 24.65
03
15 29.45
11
13 30.16
03
12 31.25
11
12 33.94
03
15 23.05
11
13 26.10
03
15 14.50
11
13 31.27
03
03 30.30
OS
14 21.18
03
03 14.60
05
14 13.24
03
03 34.67
05
14 22.51
03
03 24.92
05
14 23.22
03
03 30 . 53
05
14 30.09
03
03 35.66
05
14 13.59
03
03 24 . 38
05
14 23 . 89
03
03 27.45
05
14 16.68
Well number
201-22
201-23
201-24
...................,
201-25
201-26
201-28
201-29
201-30
201-32
205-02
Table 47.--Semiannual water levels, in feet below land surface, for wells in the principal artesian aquifer, 1977-80--Continued
1977
1978
1979
1980
Water Month Day level
Water Month Day level
Water Month Day level
Water Month Day level
12
06 83.23
12
06 21.15
12
06 58.79
12
08 41.50
03
08 52.26
12
14 82.66
12
13 35.01
03
08 26.43
03
15 32.94
12
07 41.56
03
15 59.20
11
12 55.48
03
15 16.68
11
13 28.23
03
15 17.95
11
13 29.21
11
12 48.68
03
15 5.70
11
13 14.76
03
15 29.34
11
12 46.48
03
15 34.63
11
13 39.06
03
15 16.94
11
12 33.07
11
12 26.97
03
16 38.33
11
12 44.17
03
04 47.83
05
14 46.68
03
03 25.20
05
14 11.93
03
03 18.86
05
14 18.48
03
04 38.64
05
14 23.30
03
03 10.97
05
14 6.90
03
04 36.13
05
14 25.73
03
03 37.17
05
14 35.70
03
03 24.92
05
14 12.39
03
03 21.69
03
04 39.85
Well number
205-03
205-04
205-06
-CXl
205-08
205-10
205-11
205-13
205-17
205-18
205-19
Table 47.---Semiannual water levels, in feet below land surface, for ~lls in the principal artesian aquifer, 1977-80--Continued
1977
1978
1979
1980
Water Month Day level
Water Month Day level
Water Month Day level
Water Month Day level
12
08 42.01
12
12 40.98
04
04 57.93
11
12 61.32
11
12 39.71
03
04 62.58
03
04 39.05
03
04 62.95
03
13 46.38
04
04 48.99
11
12 48.14
03
04 51.79
03
04 48.80
12
08 45.54
12
08 38.00
03
26.25
12
12 45.67
12
12 35.55
11
12 36.45
11
12 43.46
11
12 36.22
04
04 24.30
11
12 31.70
04
04 34.62
11
12 35.05
03
03 36.10
05
16 24.47
03
04 43.00
03
04 34.93
03
04 29.25
03
03 35.05
Well number
205-20
205-23
205-25
..............
\C
253-01
253-02
253-03
253-04
253-Q6
253-07
253-09
Table 47.--Semiannual water levels, in feet below land surface, for wells in the principal artesian aquifer, 1977-80--Continued
1977
1978
1979
1980
Water Month Day level
Water Month Day level
Water Month Day level
Water Month Day level
12
05 48.50
03
14 164.64
03
14 14.92
03
07 47.30
12
12 50.58
11
12 171.00
04
03 19.56
11
12 24.23
11
12 30.10
11
04 58.23
03
04 10.02
03
03 169.65
03
03 21.73
03
04 26.79
03
05 48.05
05
13 47.55
03
04 15.37
12
05 63.86
12
05 38.09
03
07 60.24
12
12 66.25
03
14 9.52
03
07 31.32
12
12 37.98
03
07 55.05
12
13 69.09
03
14 62.48
11
14 63.60
11
14 11.09
03
14 30.69
11
14 34.35
03
14 21.48
11
14 34.53
03
14 52.90
11
14 62.30
03
05 62.13
05
13 62.25
03
04 10.14
05
13 9.22
03
04 33.30
03
04 28.99
05
13 19.75
03
04 62.55
05
13 51.09
Well number
253-10
253-11
253-13
- 253-14
N 0
253-15
253-16
253-17
253-18
253-19
253-23
Table 47.--Semiannual water levels, in feet below land surface, for wells in the principal artesian aquifer, 1977-80--Continued
1977
1978
1979
1980
Water Month Day level
Water Month Day level
Water Month Day level
Water Month Day level
12
05 53.37
12
05 53.36
12
05 56.19
03
14 21.93
11
14 33.99
06
06 43
11
30 43
12
05 36.09
12
12 55.62
12
12 47.47
12
12 53.36
03
07 40.80
03
07 38.62
12
13 51.28
06
02 28
12
02 44
03
07 17.24
12
13 36.17
03
14 36.53
11
14 46.29
03
14 14.68
11
14 21.59
03
14 40.60
11
13 46.54
03
14 33.05
11
14 45.26
03
14 33.15
11
13 44.15
03
14 40.56
11
14 45.34
03
14 39.18
11
13 45.44
06
21 33
03
14 18.07
11
13 18.73
03
04 44.36
03
04 20.59
05
13 11.36
03
04 44.18
05
13 40.19
03
04 44.42
05
13 28.49
03
04 42.62
05
13 30.88
03
04 44.72
05
13 38.27
03
04 46.60
05
14 37.13
Table 47.--Semiannual water levels, in feet below land surface, for wells in the principal artesian aquifer, 1977-80--Continued
1977
1978
1979
1980
Well number
Water Month Day level
Water Month Day level
Water Month Day level
Water Month Day level
253-25 273-01 273-02
......
.N..... 273-03 273-09 273-10 321-01 321-06
03
07 22.71
12
01 57.22
03
07 17.78
12
08 24.70
03
08 37.41
12
04 61.02
03
07 18.39
12
04 25.70
11
14 45.34
03
14 11.83
03
13 34.50
03
13 17.96
05
13 38.27
03
04 25.22
03
05 5.95
05
12 5.30
03
05 18.62
05
12 13.00
03
05 15.46
05
12 10.17
03
06 46.49
05
12 20.99
03
06 38.32
05
12 20.40
Table 48.--Specific-capacity data for wells in the principal artesian aquifer
Well number
Diameter of well
(in.)
Length of
open hole (ft)*
Aquifer thickness
(ft)
Static water level
(ft)
Drawdown (ft)
Duration of
pumping (hrs)*
Discharge Specific (gal/min) capacity
[(gal/min)/ft)
007-34
16
037-08
12
081-17
10
087-25
12
087-28
12
093-11
10
093-12
10
095-13
6
095-17
10
095-35
12
095-45
16
095-46
16
095-47
16
095-48
16
095-62
16
095-63
12
095-66
12
099-29
16
177-14
6
205-11
20
205-12
12
205-32
16
253-19
12
108 82 90 140 100* 28 38 52 168 124 109 111 100 134 55 62 64 41 60 100 186 156 101
150
19
11
8*
1,500
136
82
32
20
8
572
29
150
15
24
4*
402
17
277
46
4
8*
800
200
325
35.97
4.09
.017
700
171
so
115
17
6*
90
5
so
97
20
6
226
11
110
7
7
36
349
so
208
41.33
2.5
8*
1,000
400
230
57
6
8*
1,500
250
180
32.50
1.45 48
1,387
956
180
28
74
48
1' 725
23
202
55
1
1.0
1,040
1,040
205
66
13
1.0
1,016
78
150
17
54
8
210
4
150
42.5
80
8
254
3
64
21
71
144
401
6
60
17
5
8*
1,500
300
138
42
18
12
150
8
302
55
3
24
1,599
533
302
44
3
6
1,500
500
260
40
6
8*
1,500
250
140
16
38
8*
1,250
33
* Estimated. 122
Table 49.--Summary of results and aquifer-test methods used to calculate transmissivity and storage-coefficient values for the principal artesian aquifer
Well number
Casing depth
(ft)
Open hole (ft)
Aquifer thickness
(ft)
Method
Tra(nfstm2/idssaiyv)ity
Storage coefficient
007-06
79
101
160
Theis
42,000
087-33
88
72
325
Han t u s h - J a c o b
43,000
095-15
63
87
165
Hantush-Jacob
29,000
099-39
61
64
70
Theis
24,000
177-15
64
126
140
Han t u s h - J a c o b
43,000
201-05 130
95
165
Theis
21,000
205-16
50
140
250
Hantush-Jacob
90,000
205-22
77
131
260
Hantush-Jacob
75,000
253-08
63
87
225
Theis
112,000
253-12 118
107
180
Theis
41,000
253-26
58
67
75
Delayed yield
27,000
0.02 .001 .0006 .0004 .01 .001 .003 .001 .001 .0002 .003
123
Table SQ.--Statistical comparison of dissolved constituents in water from the principal artesian aquifer (PCPA) and the Tallahatta aquifer (TLLT) 1 [Constituents are in milligrams per liter except where noted.]
Constituent
Aquifer
Range
Mean
Standard deviation
Number of samples
Specific conductance PCPA
25-293
196
59
42
(micromhos at 25C) TLLT
119-360
254
56
13
pH (units)
PCPA.
5.9-8.1
NA
NA
39
TLLT
6.8-7.8
NA
NA
11
Hardness (as CAC03 )
Bicarbonate (HC03)
PCPA
4-185
106
33
42
TLLT
20-160
108
44
13
PCPA
5-167
120
39
39
TLLT
20-210
156
43
11
Dissolved solids
PCPA
16-184
117
38
42
TLLT
76-220
155
45
13
PCPA
4.7-39
9
7
42
TLLT
8.7-80
27
19
13
Iron (Fe)
PCPA
0.0-.130
.027
.049
12
TLLT
.060-.240
.158
.087
5
Calcium (Ca)
PCPA
0.4-56
39
12
42
TLLT
4.7-56
36
16
13
Magnesium (Mg)
PCPA
0.0-13
1
2
42
TLLT
0.4-10
4
3
13
Sodium (Na) Potassium (K)
PCPA
0.8-13
2
2
42
TLLT
1. 7-92
16
26
13
PCPA
0.1- 3.8
.s
.8
42
TLLT
0.1-4.3
1.8
1.3
13
Sulfate (S04)
PCPA
0.0-11
2
3
42
TLLT
0.0-37
8
10
13
Chloride (Cl)
PCPA
1. 0-7.4
3.1
1.4
42
TLLT
1. 8-23
5
6
13
Fluoride (F)
PCPA
0.0-2.3
.1
.4
42
TLLT
o. 0-1.1
.2
.3
13
PCPA
0.0-34
4
7
38
TLLT
o.o-s.3
1.6
2.1
6
1 Some of the wells may be open to parts of the Tertiary section immediately above or below the Tallahatta aquifer.
124
Georgia Geologic Survey
Prepared in cooperation
with the
u.s. Geo Iogic aI Survey
Information Circular 58
L0 R
0
I
~
I
~ 30'
I
L,
0
I
I
_j
EXPLANATION
15' COUNTY REFERENCE NO.
BAKER
007
CALHOUN
037
CRISP
081
DECATUR
087
DOOLY
093
DOUGHERTY
095
EARLY
099
s4oo' GRADY
131
1 31oo'
LEE MILLER
177
201
MITCHELL
205
SEMINOLE
253
SUMTER
261
TERRELL
273
WORTH
321
Area of Dougherty Plain
I
L30.45'
I
-r------_L__
15'
5
10
15
20
25
30MILES
PLATE I. Locations of wells that have records presented m table I, Dougherty Plain and adjacent areas,
Southwest Georgia.
Georgia Geologic Survey
Prepared in cooperation with the
U. S. Geological Survey
In formation Circular 58
; - - 30'
I
L,
'
I
I
_j
EXPLANATION
Potentiometric Contour - Shows altitu
at which water level would have st4 tightly cased wells. Dashed wher4 approximately located . Contour int4 is 10 feet. Datum is National Geod4 Vertical Datum of 1929
Data Po int
Ar ea of Dough erty Plain
L0 R
0
--r--- __ _'j_
15'
5
10
15
20
25
30 MILES
PLATE 2. Potentiometric surface of the principal artesian aquifer, November 1979.
Georgia Geologic Survey
Prepared in cooperation with the
U. S. Geologica I Survey
Information Circular 58
I
~
I
r - 30'
I
~ . I
I
_j
8400'
EXPLANATION
Potentiometric Contour - Shows
at which water level would have st tightly cased wells. Dashed where approximately located. Contour int 10 feet . Datum is National Geode! Datum of 1929.
Data Point
Ar ea of Doughe r1y Pla in
L 0
- ~-
R
D 3o' A
I
-r------L
15'
0
5
10
15
20
25
30 MILE S
PLATE 3. Potentiometric surface of the principal artesian aquifer,May 1980.
. . ..... ~
.. .
,
--;;:-; ..-.'
':. I
[~
/ 1
I f
l /
j' I
1
' I
'
I
)
..
I
.
,1,
I
...
~-
'
I.
I
j
!
l' lt
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