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Open-File Map Series No 98-01 Florida Geological Survey
*See Open-File Report No 91 for more detail and discussion Thi geologic map waited in part by the USGS Natonal Cooperative Geologic Mapping Program Florida Department of Environmental Protection


OPEN-FILE MAP SERIES NO. 98-01 Gea
GEOLOGIC MAP OF THE EASTERN PORTION OF THE U.S.G.S.

Michael W Sole PERRY 30 X 60 MINUTE QUADRANGLE, NORTHERN FLORIDA Walter Schmidt
Secretary 2007 State Geologist and Director
FLORIDA BY
vstss RICHARD C GREEN, P G #1776, DAVID T PAUL, STEVEN B PETRUSHAK,
CLINTON KROMHOUT, AND THOMAS M SCOTT, P G "1i








PERRY, FLORIDA (VALDOSTA) 30 X 60 MINUTE SERIES (TOPOGRAPHIC)
F 2 450 000 FEET
813 8 328 29 1 1242 12 1 1"E 0 16

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-_ I 7- - --_









tC


.- 1 .2 . ..5 ,_.,.- -.-M SCALE 1 0 0 --"


0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 KM



Quaternary Beach Ridge and Dune
a tely from Undifferentiated Quaternary
i well sorted, fine to medium quartz sand

Undifferentiated Quaternary Sediments
Light brown to tan, medium to fine quartz sand with variable admixtures of clay and organic, unconsolidated to poorly
u indurated, poorly to moderately sorted This unit may contain significant amounts of clay and organic
Miccosukee Formation
Grayish orange to grayish red, mottled, poorly- to moderately indurated, interbedded clay, sand, and gravel of variable
coarseness and admixtures The unit has limited distribution in the eastern panhandle of Florida and occurs from central
Gadsden County (east of the study area) to eastern Madison County
Hawthorn Group
Statenville Formation of the Hawthorn Group
r"V* Poorly to moderately indurated, interbedded quartz sands, clays and dolostones Phosphate grains are common to abundant in
S the unit The unit is lithologically variable and beds may pinch out and interfingerboth laterally and vertically Outcrops of the
S Statenville Formation in the study area are characteristically thin-bedded and often cross-bedded, generally consisting of thinly
interbedded layers of dolostone and clay alternating with beds of sand
Torreya Formation of the Hawthorn Group
White to light olive gray, unconsolidated to poorly indurated, slightly clayey sands to light gray to bluish gray, poorly
S consolidated silty clay containing a variable but minor component of carbonate (calcareous or dolomitic) Phosphate grams
may be present Carbonate sediments are white to light olive gray, poorly indurated, variably sandy and clayey limestone
(mudstone and wackestone), often containing molds and casts of mollusks
Suwannee Limestone
Cream to tan, crystalline, poorly- to well indurated, poorly- to well sorted, vuggy and muddy carbc t t
S ,I I , , II represent
Ocala Limestone
S White to cream-colored, fine to coarse grained, poorly- to well indurated, poorly- to well sorted, fossiliferous limestone
III, IIo roaniferanfera


rENTINETEN N onr- RNUNSENTs 1 oUIO tIER ON THECTOioN
CONTOUR INTERVAL 5 METERS Projection FDEP Albers HARN North Amencan Datum 1983 (NAD83)
Elevations shown to the nearest meter Basemap Georeferenced TIF ofU S G S 1 100,000-scale metnc topographuc map of Perry, Flonda
National Geodetic Vertical Datum of 1929


LEGEND
ADJOININGMAPS *
S- Interstate Core
E / ) Primary / Secondary Road O Cuttings
Local Road O Water Well 6 7 8
S Railroad ,- First Magnitude Spring 1 Bm
S County Boundary 0- Second, Third, or Forth Magntude Spnng 2 Valdosa
3 Okefenokee Swamp
Power TransmissioLine Swallet 4 Tallassee UTM gnd rgence
National o5 Lake City (GN) and 1979 magetic
S National or State S ole 6 Caabelle decmaon (MN)
reservation boundary 7 Cross y at center of map
Contours 5 Meter Interval t Archived M-Series Sample 8 Ganesvlle Diagram is approximate
Index
Intermediate Float Basemap Coordinate Legend
River or Stream Outcrop/Exposure 30 300000mE 10,000-meter gnd, zone 1
[0- = 0m E 10,000-meterLgnd, zone 17
S Lakeor Pond Borrow Pit Unversal Transverse Mercator
W Wetland U Cross-section Line
S325 2 325 00 FEET 25,000-foot grid ticks based on Flonda
US Public Lands Survey *Refer to O FR 91, Table 1 for well information coordinate system, north zone

1927 North American Datum


This map was created using FDEP databases and data obtained from the Florida Geological Survey It was completed August 31, 2007, by the Florida Department of For more information contact
Environmental Protection, Florida Geological Survey, Geological Investigations Section This document was prepared for the presentation of the geologic information Richard Green or David Paul
shown and is not intended to replace site-specific oruse-specific investigations The Florida Geological Survey does not guarantee this document to be free from errors or To order maps contact Librarian
inaccuracies and disclaims any responsibilityy or liability for inappropriate change of scale, interpretations, or decisions based thereon Cooperatively funded by the Florida Florida Geological Survey
Geological Survey and the U S Geological Survey, National Cooperative Geologic Mapping Program, under U S G S assistance award number 06HQPA0003 The views 903 W Tennessee Street
and conclusions in this document are those of the authors and should not be interpreted as necessarily representing the official policies, either expressed or implied, of the Tallahassee,Fl 32304-7700
US Government 850/488-9380







Open-File Map Series No 98-02
*See Open-File Report No 91 for more detail and discussion


Florida Geological Survey
Florida Department of Environmental Protection


This geologic map wa funded in part by the USGS National Cooperative Geologic Mapping Program


A A'
WEST EAST
F W-2549 @W-13786 WW-12516 @W-8390 OW-18767
FEET METERS MADISON CO HAMILTON CO FEET METERS
MADISON CO HAMILTON CO
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MADISON
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200 K 200
0 1 2 3 4 5 6 7 8 KILOMETERS
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-250 : -80 __ ___. C^ EAGGERATION =100 TIMES HORIzONTAuLscA -250 -- 80

-300-100 -300 -100

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B'
EAST

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METERS

40

20


0
-20

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-60


OPEN-FILE MAP SERIES NO. 98-02

GEOLOGIC CROSS-SECTIONS FOR THE EASTERN PORTION OF THE
U.S.G.S. PERRY 30 X 60 MINUTE QUADRANGLE, NORTHERN FLORIDA

2007

BY- BY
FLOROI*A
a RICHARD C GREEN, PG #1776, DAVID T PAUL, STEVEN B PETRUSHAK,
Michael W Sole CLINTON KROMHOUT AND THOMAS M SCOTTPGWalter Schmldt
SecretaryCLINTON KROMHOUT, AND THOMAS M SCOTT P GState Geologist and Director



Figure 1 Location of Cross-sections on Geologic Map (OFMS 98-01)
with 7 5 Minute Quadrangle Index

83 30 83015 F R3E 83000
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= 30 00'











SCALE 1 250,000
0 5 10 15 20 25 KM


This map was created using FDEP databases and data obtained from the Florida Geological Survey It was completed August 31, 2007, by the Florida Department of
Environmental Protection, Florida Geological Survey, Geological Investigations Section This document was prepared for the presentation of the geologic information
shown and is not intended to replace site-specific or use-specific investigations The Florida Geological Survey does not guarantee this document to be free from errors or
inaccuracies and disclaims any responsibility or liability for inappropriate change of scale, interpretations, or decisions based thereon Cooperatively funded by the Florida
Geological Survey and the US Geological Survey, National Cooperative Geologic Mapping Program, under US GS assistance award number 06HQPA0003 The views
and conclU sion in thi document are those of the authors and should not be interpreted asnecessarily representing the official policies, either expressed or implied of the
U S Government
^^^^-" l \ _-
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D
NORTH
S W-2549 0 W-2548
FEET METERS
250 g80 T01N T 01 S


W-15888


T01S T02S


O W-18771
MADISON CO TAYLOR CO
T02S T03S


W W-18770

T03S T04S


D'
SOUTH
W-4497 W-13122


T04S T


SAN PEDRO BAY


FEET METERS
05S 250 80

200
FENHOLLOWAY 60
RIVER 150:
40
100:
-' 50 20

o -o
0 0

-50 -20

-100
-0-40
7 -150-
: -60
-200

7 -250 -80

-300:-100

? -350-120

-400:
-140
-450:


I egend for FiureIr 1 and CTeoloic Cross Sections


Beach Ridge
and Dune


Undifferentiated
Sediments



Miccosukee Formation



Hawthorn Group,
Statenville Formation


Hawthorn Group,
Torreya Formation



Suwannee Limestone



Ocala Limestone



Avon Park Formation


@ Interstate
3/( Pnmary / Secondary road
D Core
O Cuttings
@ Vanable Sample Interval
( 5 Foot Sample Interval
TD Total Depth
BL S Below Land Surface


Contact
--- Inferred Contact
-0-- Cross-section Line
- County Boundary
River or Stream
Lake or Pond
Marsh
7 5 Minute Quadrangle


ADTJO NG MAPS


4 Ia5
MiLS 6 7 8

1 Banbnrdge
2 Valdosa
3 Okefenokee Swamp
UTM grid convergence 4 Tallahassee
(GN) and 1979 magnetic 5 Lake City
declnaton (MN) 6 Cabelle
at center of map 7 Cross City
Diagram approximate 8 Gmnesylle

Projection FDEP Albers HARNNorth American Datum 1983 (NAD83)

NOTE: Geologic map and geologic cross-sections may appear to disagree slightly
when depicting the upper unit due to the convention of not portraying Qu
on the geologic map unless it is thicker than 20 feet (6 1 meters), whereas
cross-sections will show all Qu thicknesses Additionally, cross-section contacts
are based on straight-line projection between wells, which can lead to apparent thicknesses
between wells on the cross-section that are not supported by field evidence or other wells


E
NORTH
W-2550
3W-2549 OW-13479
METERS T01N IT01S
80 B ,


W-704 W W-15980


T 01S T 02S


W-187 W-1066 @ W-8389
MADISON CO SUWANNEE CO
T02SIT03S LAFAYETTE CO


SW-1347
W-358


T


1 W W-16514
SUWANNEE CO LAFAYETTE CO


E'
SOUTH
W-15854


03S T04S T04S T05S FEET
250

200

SUWANNEE GARNER 150
RIVER LAKE :
100

50

0

S-o50

-100


? ? SCALE 1
0 05 1 2 3 4 5 MILES -200-
S0 1 2 3 4 5 6 7 8 KILOMETERS -250
RTICAL EAGGERATION 100 TIMES HORIZONTAL SCAE 300
-300

350


TD=515' TD=540'
BLS BLS


NORTH
SW-13218

FEET METERS
250- 80

200
60
150:-
40
100:

50 20

0 0

-50 -20

100
-40
-150


O W-18767
T01N T 01 S

HAMILTON CO SUWANNEE CO


T01S T02S


W-1451


@ W-12247
T02S T03S


FORT UNION




, ---- ---- -- -
. . . .


SOUTH
E W-17904 W-16510 0 W-15854
T03S T04S T04S T0SS
FEET METERS
SUWANNEE CO LAFAYETTE CO 250 80

@ @ 200-
60
SUWANNEE 150-6
RIVER 40


20
0 0


-50 -20
SCALE100-40
______ 3__ 4__ 5 MILES


TD=4510'
BLS


200 60
-200


C C'
WEST EAST

( W-13122 W W-15952 ( W-2000 W W-15867 @ W-16514 O W-17904
TAYLORCO LAFAYETTECO LAFAYETTE CO SUWANNEECO

FEET METERS FEET METERS
150 R08E R09 09ER10E RE10E R11E R11E R12E R12E R13E 150
40 SAN PEDRO BAY r 40
100 4 ,:, 100 4

50 20 50 20
--- -- ------------------- ---- -------1 0 0
SCALE
50 0 5 MLES 50 0
TD=4560'
.,005 BLS 0 1 2 3 4 5 6 7 8 KILOMETERS -
-100 BL-100
-40 c e Oo so TAusc1 -40
-150 -150


Figure 2 Correlation of Stratigraphic Units


METERS
80

60

40

20



20

-]0


-60

-80

-100






Open-File Map Series No 98-03
*See Open-File Report No 91 for more detail and discussion


Florida Geological Survey
Florida Department of Environmental Protection


Thui geologic map wa funded m part by the USGS National Cooperative Geologic Mapping Program


OPEN-FILE MAP SERIES NO. 98-03 ,,,of Ge
GEOMORPHOLOGY, SPRINGS, AND KARST FEATURES FOR THE EASTERN PORTION o
SMichaelW Soe OF THE U.S.G.S. PERRY 30 X 60 MINUTE QUADRANGLE, NORTHERN FLORIDA Walter Schmidt
Michael W Sole I Walter Schnndt
Secretary 2007 State Geologist and Director
SFLORIDA \ BY

PETRUSHAK, CLINTON KROMHOUT, AND THOMAS M SCOTT, P G /lbiC SeV


Figure 1 Geomorphology, Springs, and Karst features, modified from Scott (in preparation), LEGEND
shown with 15 Meter Digital Elevation Model (DEM)
Ocala Karst District
1T09E R0E 1 830 1 R11E, R12E 813 80 o0' T3 AlachuaKarst Hills
r, t.. _,1 G The Alachua Karst Hills, present along the eastern edge of the study area, are part of Whute's (1970) Northern

S' HigElevation 170T by the Statenville Formation of the Hawthorn Group (Ths) and undifferentiated sediments (Qu) The karst hills
-"" are part of an erosional scarp retreat being formed as the Hawthorn Group and younger sediments are eroded
"17 -ALowElevation 70 FT and karstified Thlus scarp is part of the extensive Cody Scarp of Pun and Vemon (1964) In the study area, the
.* .Alachua Karst Hills are only present witthn central Suwanmee County along the eastern boundary of the mapped
S" area (Figure 1) Elevations in the Alachua Karst Hills range from approximately 70 feet (21 3 meters) to 170
.. feet (51 8 meters) above Mean Sea Level (MSL) within the map area
I Il l II \\III I,,\ 1. ,,

Branford Karst Plain
S" ?- The Branford Karst Plain, wuich covers much of the eastern two-thurds of the map area, occupies the Suwannee

F- '0S- -.-- the Branford Karst Plain range from 20 feet (6 1 meters) along the Suwannee River valley in the southeastern
.. .' t" High Elevation 140 FT comer of the map area to 140 feet (42 meters) above MSL in the northeastern portion of the map area The
Lower Oligocene Suwannee Limestone (Ts) occurs in the northern half of the Branford Karst Plain and crops
South within the Withlacoochee and Alapaha River valleys and the northern portion of the Suwannee River valley
S. ., The Upper Eocene Ocala Limestone (To) is near the surface with slhcified float boulders (remnants of the
"' Lower Ohgocene Suwannee Limestone and the Upper Eocene Ocala Limestone) common in the southern part
of the Branford Karst Plain Drainage within the Branford Karst Plain is pnmanly through karst features with
S -. relatively few surface streams, most of which are west of the Suwannee River Closed topographic depressions
| -' ' (CTDs) are numerous throughout the karstplain, particularly east ofthe Suwannee River(Figure 1)


Perry Karst/ San Pedro Bay

-' .area Within the map area, elevations of the Perry Karst/San Pedro Bay range from 45 feet (13 7 meters) to over
I High Elevation 110 FT 100 feet (30 5 meters) above MSL The Suwannee Limestone underlies much of the unit, although it is absent
S. under the central-southen and southeastern portions of the physiographic feature In the San Pedro Bay, a clay
II .. -Low Elevation 50 FT layer up to five feet thuck (1 5 meters) overhes the hmestone, providing partial confinement to the Flondan aquifer
system (FAS) (Copeland, 1982) Pho-Pleistocene sediments cover the entire area, and the unit is poorly to very
poorly drained Recharge to the FAS is low to moderate, while recharge to the FAS may be moderate to lugh along
. -.*'* the transitionbetweenthe Perry Karst/San Pedro Bay and the Branford Karst Plain (Copeland, 2005)


'' .. Okefenokee Basin District
Northern Okefenokee Basin
f i ,.hIn the current study, the Northemrn Okefenokee Basin is only present min the northeastern comer of the map area Phlio-
S. High Elevation 160 FT Pleistocene sihcclastics underle much of the northern Okefenokee Basin east of the study area but are poorly
-Jdrained due to the near surface presence of the Hawthor Group clayey sediments and low rehef The Statenville
S.- Formation of the Hawthorn Group (Ths) is at the surface in the basin withinthe current study area Karst features

Karst District where the Hawthorn Group is thin and breached by sminkholes Withun the map area, elevations range
K *.' from 60 feet (18 3 meters) near the Suwannee River to 160 feet (48 8 meters) on some of the hlltops


vt-f "- '"h f J .-4 .- Tifton Upland District
I Madison Hills
"-'-:' ', ,-, oB T M The Madison Hills are present in the northwestern portion of the map area A small area of the Madison Hills
SHighElevation 200 FT (separated from the main body of this zone by the Withlacoochee River Valley) is also present in southern
S- -I 2 Hamilton County Elevations range from 70 feet (21 3 meters) above MSL to 200 feet (61 meters) above MSL on
some ulltops The valleys within the Madison Hills are broad and poorly drained The Miccosukee Formation
Low Elevation 70 FT (Tmc) forms the higher areas while the Torreya Formation of the Hawthorn Group (Thit) sediments underhlie the
$;4' lower portions of the landscape Karst features occur in the eastern part of the distinct where the Suwannee
.* L ,,. Limestone hes near the land surface



f 'i.Y..?,io.. J t' h ~ Legend for Figure 1
.X N ADJOINING MAPS
-7. 4,'. 7 5 Mi 5Mnute Quadrangle Karst Features
'. "- 4 5 --- County Boundary 0- First Magnmtude Spnng
83o 30' R S R09E 83oI 15. 16' ^ 6 7 8=
3ILS 8- vor Stream Second, Thrd, or Forth
1 Ba dge RiverorStreaMagntude Spnng

2 Valdosta Lake or Pond 0- Swallet
3 Okefenokee Swamp
Scale 1 175,000 UTM grid convergence 4Tallahassee Swamp or Marsh Skhole
Projection FDEP Albers HARN North American Datum 1983 (NAD83) (GN) and 1979 magnetic 5 Lake City Sw p o ole
declmation (M) 6 Carrabelle
o 5 10 i5 20 MI at center of map 7 Cross Cty Plate 3 Photo Location Closed Topograpluc
Diagram i approximate 8 Gainesville Depressions (CTDs)
10 15 20 25 30 KM MSL = Mean Sea Level


SELECTED PHOTOGRAPHS


Photo 1 Suwannee Limestone outcrop along
the bank of the Withlacoochee River
Locatedat T01S, R11E,S 13
Photo by Richard C Green
Date taken 08/22/2006


Photo 2 Silicified Suwannee Limestone boulder
withRhyncholampas gouldn from shoals
in Suwannee River near Peacock Slough
Locatedat T04 S, R12 E, S 29
Photoby RichardC Green
Datetaken 08/01/2007


Photo 3 Exposure of Ocala Limestone at
Peacock Springs, Luraville, FL
Located at T 04 S, R 12 E, S 20
Photo by Richard C Green
Date taken 08/01/2007


Photo 4 Exposure of Suwannee Limestone at
Madison Blue Spnng, NE Madison County
Located at T 01 N, R11 E, S 17
Photo by Richard C Green
Datetaken 08/21/2006


Photo 5 David Paul examines sample from
Suwannee Limestone outcrop along the
east bank of the Suwannee River
Locatedat T02 S, R11E, S 21
Photo by Richard C Green
Date taken 08/13/2007


Figure 3 Geomorphic Provinces (modified from Scott, 2005)


Figure 2 Geomorphic Districts (modified from Scott, 2005)


Legend

Geomorphic Distrit I.
Apalaclicola Delta I ..i




SDougherty Karst Pl..,, ..
P................, ,
.................




-... ....... .7 '
Okeefenokee Basin,, ,,,,


SSouthern Pine Hills I ,, I


Extent of Figure 3

OFMS 98MapA ....


Scale= 1 3,750,000

0 50 100 150 200 MI

0 50 100 150 200 250 300 KM


Ii


,;,~h *.4


For more iiformatlon contact
Richard Green or David Paul
To order maps contact Librarian
Florida Geological Survey
903 W Tennessee Street
Tallahassee, Fl 32304-7700
850/488-9380


This map was created using FDEP databases and data obtained
from the Florida Geological Survey It was completed August
31, 2007, by the Florida Department of Environmental
Protection, Florida Geological Survey, Geological
Investigations Section This document was prepared for the
presentation of the geologic information shown and is not
intended to replace site-specific or use-specific investigations
The Flonda Geological Survey does not guarantee this
document to be free from errors or inaccuracies and disclaims
any responsibility or liability for inappropnate change of scale,
interpretations, or decisions based thereon Cooperatively
funded by the Florida Geological Survey and the US
Geological Survey, National Cooperative Geologic Mapping
Program, under U S G S assistance award number
06HQPA0003 The views and conclusions in this document
are those of the authors and should not be interpreted as
necessarily representing the official policies, either expressed
or Implied, oftheU S Government




Geologic map of the eastern portion of the U.S.G.S. Perry 30 x 60 minute quadrangle, northern Florida ( FGS: Open file m...
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Permanent Link: http://ufdc.ufl.edu/UF00094764/00001
 Material Information
Title: Geologic map of the eastern portion of the U.S.G.S. Perry 30 x 60 minute quadrangle, northern Florida ( FGS: Open file map series 98 )
Physical Description: Book
Language: English
Creator: Green, R. C.
Publisher: Florida Geological Survey
Place of Publication: Tallahassee, Fla.
Copyright Date: 2007
 Record Information
Source Institution: University of Florida
Holding Location: University of Florida
Rights Management:
The author dedicated the work to the public domain by waiving all of his or her rights to the work worldwide under copyright law and all related or neighboring legal rights he or she had in the work, to the extent allowable by law.
System ID: UF00094764:00001

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Table of Contents
    Maps
        Map 1
        Map 2
        Map 3
    Title Page
        Title Page
    Table of Contents
        Page i
    Main
        Page 1
        Page 2
        Page 3
        Page 4
        Page 5
        Page 6
        Page 7
        Page 8
        Page 9
        Page 10
        Page 11
        Page 12
        Page 13
        Page 14
        Page 15
    Bibliography
        Page 16
        Page 17
        Page 18
        Page 19
        Page 20
        Page 21
        Page 22
    Acknowledgement
        Page 23
    Table 1: Wells utilized for study
        Page 24
        Page 25
        Page 26
        Page 27
        Page 28
        Page 29
        Page 30
        Page 31
        Page 32
Full Text



Open-File Map Series No. 98-01 Florida Geological Survey
*See Open-File Report No. 91 for more detail and discussion This geologic map was funded in part by the USGS National Cooperative Geologic Mapping Program Florida Department of Environental Protection



OPEN-FILE MIAP SERIES NO. 98-01ofG

GEOLOGIC MAP OF THE EASTERN PORTION OF THE U.S.G.S.
Michael \ Sole C PERRY 30 X 60 MINUTE QUADRANGLE. NORTHERN FLORIDA I \\alterSchmidt
Secretran 'ncr I ~ State Geolouit and Diector
iFLORIbA BY
________________ RICHARD C GREEN PG tI-o. DAVID T PAUL STEVEN B PETRUSHAIKs
C'LINTON KRONIHOUT AND THOMAS NI SCOTT P G




S^
\ -N
/, 1,

\ XER.FOIA^LDOSTAi ^ >^ 61 MINUTE SERIES PERRY. FLORIDA
^1. ' / : -:.00E FEET ,- -
E P ~~~~~09 E 27 0000mE 0- -j 2 10 1E2





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337030000 N










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Open-File Map Series No. 98-02
*See Open-File Report No. 91 for more detail and discussion


Florida Geological Survey
Florida Department of Environmental Protection


This geologic map was funded in part by the USGS National Cooperative Geologic Mapping Program


A
WEST
SW-2549
rIE TERS


.'. W-13786


R 0':, E R 10E


W-12516


SW-8390


Mri-iSc jj C.':' H-rMIILTOI j1:1


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Ril E R 12 E


EAST
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R 1l E R 1.E


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r'.l 91-1


-0
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U -100
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C" O CO MNASI COD 71j~


RO'SE ROI':E
METERS


FEET riETERS

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7200
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SC -LE
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OPEN-FILE MIAP SERIES NO. 98-02

(iEOLO()GIC ('RO()SS-SECTIO()NS FO)R THE EASTERN PO()RTIO()N OF THE
U.S.G.S. PERRY 30 X 60 MIINULTE QUADRANGLE. NORTHERN FLO()RIDA


,i I"


SFLORIDA

N1iclud \\ Solc
S`c'IC Ic i1


2)00J

BY

RICHARDC GREEN PG t-o. DAVID T PAUiL STEVENB PETRUSHAK
C'LINT(-ON KR(-ONIH(-O)iUT AND THO-NIAS NI SCOTT PG


Flutie 1 Location of Cross-sections on iGeolouic
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w



w


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and DMune


Ui ndifterentiated
Sedi ments



MNiccosukee Formation



Ha\\ thorn Group.
Staten m lle Formation


Ha\\ thorn GIol)p.
Torre\ a Formation



SLMI\\ annee Li mestone



(O)cala Limestone



A\ on Park Formation


Futiure I and (ieolouic Cross Sections


)


Interstaate


C- contact


Pnman% Secondan road -- Inferred Contact


Core


( Ct'ttinuS
( \ armable Sample Inter' al
( 5 Foot Sample Inter' al
TD Total Depth
B L S Belo\\ Land SLiiurface

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2- 21: 25.4







Open-File Map Series No. 98-03
*See Open-File Report No. 91 for more detail and discussion


Florida Geological Survey
Florida Department of Enviromnental Protection


This geologic map was funded in part by the USGS National Cooperative Geologic Mapping Program


OPEN-FILE MNIAP SERIES N(O). 98-(03-


lMichael \\ Sole
Secireta


i FLORIbZ A
0 L.


GE(O)NI()RPH()LO)GY. SPRINGS. AND KARST FEATURES )FOR THE EASTERN P()RTI()N
OF THE U.S.G.S. PERRY 30 X 60 MNIINULTE QUADRANGLE. N()RTHERN FL()RIDA
20i0r

BY
RICHARD(C GREEN, PG I--o. DAVIDT PAUL. STEVENB
PETRUSHAK. CLINTON KRONIHOLiT. AND THO()NIAS NI SCOTT. P G


M,


\\alter Schmidt
State Geolouist and Director


Figure I Gieomorphologin. Springs. and Karst features, modilified from Scott iIn preparation .
shoin \\mitlih 15 lMeter Diiital Eleation M lodel (DENl)


LEGEND
Ocalai kI'ars District


I'l, i i - -


I* I'' I


T1 .-.Is


I* II I


liii
F. ~
F;


I ''I



I.-,






I ill



It.







ill:'.


Hi.'Ii Elh nation 171 FT


L,:\ El\ation 711 FT


Alaclhiiia Karsl Hills
The Alachua Karst Hills,. present along the eastern edge of the s;ud\ area. are paii of \White's ll'i) Northern
Hiuhhlands TThs isph siouraphlc unitt is \\ell drained and formed in response to karstification of uL.landls co\ ered
b\ the Staten\ mille Formation of the Ha\\thorn Group LII (Ths) and undifferentilted sedCiments ((Ou) The karst lulls
are pal of 1an erosional scarp. retreat beinu formed as the Ha\\thorn Group and L l \OLinuer sediments are eroded
and karstified This scarp is part of the e\tensm\e Cod\ Scarp of PLIIun anld \Vernon (l li-',4) In the stuid\ area. the
AlIachuaII Karst Hills are onl\ presentt \\ i thiln central SuLi\\ annee Count\ alonu lthe eastern boLiiundarI\ of the mapped
area (Fiuure 1 I Ele\ nations in Ithe AlachuaI Karst Hills ranue from appro\immatel\ ('0 feet (21 3 meters) to 1i0
feet (51 s; meters) abo\ e Mean Sea Le\ el (NISL) \\ithlnn the map area


Branrord Kairsl Plahiin


Hi,-h El'\ation 141, FT


Lo\\ Eh'\ action 211 FT











Higli El%'\ation I I1 FT


Lo\\ Elc>ation 5iI FT


3iII 1 5


I I I l


Hi,._i Elc\ationIl I-, FT


Lo\\ El1'\ action -1i FT


' '4 *s


Hiih Ekloation 21111 FT


Lo\\ El'\ation 71, FT


The Branfoird Karst Phin. x which co\ ersi much of thle easterIn tx\o-thlIIds of lthe mIap i aIreaI. occuipies thle SuX\anlee
Ri\ er \ aIlle\ the Alaplaha Ri\ er \ alle\, and the \\ ithlacoochee Ri\ er \ alle\ \\ ithln lthe stLud\ area. ele\ actions of
the Brantford KIarst Plain ranue from 20 feet (11i 1 meters) alonu lthe Suiiannee Ri\er \alle\ in I the southeastern
corner of the map area to l4'' feet (42 meters) abo\e N ISL in lthe noiiheastern po-ion of the map area The
Low\er O)liocene Suiiannee Limestone (Ts )occurs in the northern half of the Branford Karst Plain and crops
out \\ itlin the \\ itlthlacoochlee and Allapaha Ri\er \alle\s and the northern ipornion o01f the Si.i\\annee Ri\er \'alle\
The Lillpper Eocene Ocala Limestone (To) is near the sul-t'ace \\ithli sIlicitied float boulders (Iremnants of the
Lo"\er )Oliuocene Si\\annee Limestone and the Uipper Eocene ()cala Limestone) common in Ithe southern ipart
of the Branflord Karst Plain Drainaue within n lthe Branfo\rd Karst Plain is irimar ll throuuhi karst features \\itlh
relati\el' fe\ surface streams, most of\\lnch are \\est of the Si.i\\annee Ri\er Closed topographmlc depressions
(C"TDs) are numerouLs thlrouIIhouIt the karst plain. particuaiIrl\ east of the Si.i\\annee Ri\ er i FiLure I


Perri karst 'San Pedro Bai
The Pern Karst San Pedro Ba\ complex\ occupies much of the westernn and southli\estern paiis of the stuld\
area \\ ithln lthe mlap area. ele\'ations of the Pern Karst San Pedro Ba\ ranue from 45 feet (13 meters) to o\er
100 feet ( 30 5 meters) abo\ e NISL The Siu\\iannee Limestone underlies much of the unit. although it is absent
under the central-southern and Soutltheastern iportlions of the ph Sio'raphic featIrure In the San Pedro Ba\. a cla\
la\ er up to fi\ e feet thick ( 1 5 meters) o\ erles ithe limestone. pro\ idilnLu, partial confinement to the Floridan a(ILlifer
system (FAS) (Copeland. IlS-2) Plio-Pleistocene sehdiments co\er lthe entire area. and the unit is ipoorl\ to \eiN
poorly drained Recharue to the FAS is lo\ to moderate. \ lhile recharge to the FAS ma\ be moderate to hiuh alonu
the transition between the PerrN Karst San Pedro Ba\ and the Branford Karst Plain (Copeland. 2i"05)


Okereinokee Basin District
Northern Okerenokee Basin
In the current stuid\. the Northern Okefenokee Basin is onl.\ present in lthe northeastern corner of the map area P1io-
Pleistocene slcicClastics uinderlie muchI of the northern Okefenokee Basin east of the stLid\ area but are poorly\
drained due to the near[ surt'ce presence of the Haw\-thorn Group cla\ e\ sediments and lo\ relief The Staten\ ille
Formation of the Haw\-thorn Group I Ths) is at the surtace in the basin \ itin the current stuLid\ areaI Karst features
are uncommon throughout most 1of the basin Karst features occur pnmnral\ iin the transition zonle ith thIe Ocala
Karst District X\ here the Ha\ thorn Group is thin andl breachedl b\ sinkholes \\ itlin lthe map area. ele\ nations ranue
from oO feetI 11 3 meters near the Sui\ annee Rix er to l 1o feet 14s S meters ionl some of 1the hilltops


Tirion L')IaIhl(I District
Madison Hills
The NMladison Hills are present in the north"lestem portion of the map area A small Iarea of the NMadison Hills
( separated from lthe main boc\ of this zone b\ the \\ithlacoochee Ri\er \Valle\ ) is also present inI southern
Hamilton C'ount\ Ele\ations ranue from -0 feet l21 3 meters) abo\e NISL to 200 feet lol meters) abo\e NISL on
some hilltops The \alle\s within the Nladison Hills are broad and poorly\ drained The NMiccosukee Formation
(Tmc) forms thle higher area's while the Torre\\a Formation of lthe Ha"\thorn Group (Tht) sediments underlie the
lower portions of the landscape Karst features occur in the eastern pairt of the district \here the Sui\annee
Limestone lies near the land suf ace


I I I S


wm -# 0 CA


i


Scale = 1 I5.000
Protection FDEP Albers HARN North American Datum I 183I(NADS3)


" I.Ii


' kI .!


IG ) I I lli 1


GN'


rI'd


I I I I I ..i 'LI ~* 'Ii ci ..clitc

~.I~~Iiii.iIi'iiiI liii


I I iiiil'i
2 ''Ii
I [C It~i i. '[cc Ni *iii
-1 I .111.111.1 ''cc
S I .iI~c 'I.


I .111 It) '* ii It;


Leueiind for Fijure I


7 .5 NMinute Quadranle


- Count Bouindahr

Ri\ er or Stream

Lake or Pond

, --"-- S\\amp or NlIarsh

S Plate 3 Photo Location


D

D

D


Kar'st Features

First Nlanitudle SpNrilnu

Second. Third. or Forth
NlaulltnitUde SprNinu

S\\allet


H Sinkhole

Closed Topouraphic
Depressions (IC TDs) I


NISL = lMean Sea Level


Filuure 2 Gieomnorphic Districts (nilodifled from Scott. 2005)


SoLil'hCi Pii P DoLwicil iK I.il

Tifton l ndOi ct i :


D | l I, ol

.... .. L e ieii





Geomor|phic Districtsi .

Apalachicola Delta District

Barrier Island District

Central Lakes District

Douulhert\ K.Iart Plain District..'"f
@ iiiiiiiiiiiiiiiiiiiiiih <*'





E\ erulacles District "i i iiii

Ocala Karst District ]

( keefenokee Basin District
~~ ~ i
Sarasota Ri\ er District iiiiii

Soulithern Pine Hills District

Tifton upland District t

Evtent of Fi.uire 3

S(-)F NI S ON B in i l RtlnilaiiitI--x


1't
I',
~1


Diiicl


Futire 3 (ieoinorlhic Pro\inices InodlifiedI


fhoro Scott. 200ii5


I I I I C) IFNI S 08 Nlai 3Nren kniiiiIC,1Nrfx 'r. .L7'


0


I


-' 1 "


';.



Foi moic infoinuiioncontici,
Richlid Giccii 01 Di\ id Piul 'd
To oidc'i inwp|l coiic1 Libilit ll "
Florid C('oloi-'Ical SII c'\ /
1ii' \\ TcI'1K11'$$('( SII'- I "c.
TallalaSS'cc F 121,'4-"I-"i,
`511 4Nss'';si' "
N~~~ii: -I N-*N


Thi, nup \\i n aciclicd Lti lit! FDEP dalaba aiild dala oblail(cd
fioni IlK Flofndai Ccolo,-'ical SLii cI h it is coni|plctlcd Ait,'Uwl
I| 2i'"il b\ IlK Florida Dcpaiilitc il of En\ iioinniIKciaI
Pioicciion. Florida Ccolo -'ical SLii d\ cN c('olo-' ic I
in\c.li,-'loi011 Scciionii Thils docLlic.Ill a\\, |ilciclp d foi Ilc
pic i' .ioil ola Of 0 IhK t-c"olo-'ic infoii0 aii h11011 o\\il a id 1s 1101
IIIltended o10 IC[p)lcc sll-c-pccllc 01 L1cC-s).|lCCI 111\ i 'sl. L lIOciL
The Florida Gcoloical SIun c\ does 1101 ,uianLcc lh.e lii


II


0









STATE OF FLORIDA


DEPARTMENT OF ENVIRONMENTAL PROTECTION
Michael W. Sole, Secretary


FLORIDA GEOLOGICAL SURVEY
Walter Schmidt, State Geologist and Director





FLORIDA
assesse-s44 04o!


OPEN-FILE REPORT 91

TEXT TO ACCOMPANY GEOLOGIC MAP OF THE EASTERN PORTION OF
THE U.S.G.S. PERRY 30 x 60 MINUTE QUADRANGLE, NORTHERN
FLORIDA
(OPEN-FILE MAP SERIES 98)

By

Richard C. Green, P.G. #1776, David T. Paul,
and Thomas M. Scott, P.G.

2007
ISSN (1058-1391)

This geologic map was funded in part by the USGS National Cooperative Geologic
Mapping Program






OPEN FILE REPORT NO. 91


Table of Contents

A abstract .................................................................................. 1
Introduction ............................................................................... 1
M methods ................................................................................ 3
P rev io u s W o rk ............................................................................................................... ...................... 3
G eologic Sum m ary .................................................................................................. . ........... 4
Structure ................................................................................. ........... 4
G eom orphology ....................................... ........................................................................ . .......... 7
Geomorphic Districts .................. ...................... .. ............ ............................ .. .. 7
Ocala Karst District................. .................... .. ............ ................................7
Alachua Karst Hills .................................... .. ........... ....................................... ... 9
Branford Karst Plain .................................................................................. 9
Perry K arst/San Pedro B ay ............................................. ............................................... 9
O kefenokee B asin D district .................................................................................. ............... 10
N northern O kefenokee B asin .................................................... .............................................. 10
T ifton U plan D istrict.................................................... ........................................................... 11
M ad iso n H ills ............................................................................................................................. 1 1
Lithostratigraphic Units ....................... ...................... .. .......... .............. ............. ..... 11
T ertiary S y stem ................................................................... ........................................................ 1 1
E o cen e S eri es................................................................................................................. . ........... 1 1
M id d le E o cen e ............................................................................................................................ 1 1
E o cen e S eri es................................................................................................................. . ........... 12
U pp er E ocene ............................................................................................................ . ........... 12
O ligocene Series ................................................................................... ....... ........ . .......... 13
Lower Oligocene ................ ...................... .. ........... ...................................... 13
M iocene Seri es .................... .......................................................... ..... ............... 13
Lower M iocene ......................................... .. ........... ............................. .. 14
M middle M iocene .............................................. .. ........... ............................. .. 14
T ertiary-Q uatern ary System s........................................................ ................................................. 14
P liocen e Series ............................................................................................................ . .......... 14
Pleistocene Series ................... ....................... .. .......... ............................... 15
H y d ro g e o lo g y .................................................................................................................... ..................... 15
D derivative P products ....................................... ................................................................... . ........... 15
Selected B bibliography ........................................................................................ ....... ......... . .......... 16

List of Figures

Figure 1: Areas mapped under FGS STATEM AP Program ................................................... ................2...
Figure 2: Location of selected river basins, springs, swallets, and other water bodies.............................. 5
Figure 3: Principal subsurface structures of north Florida (modified from Puri and Vernon, 1964 and
Schm idt, 1984) ......................... ...................................................... 6
Figure 4: Terraces in Florida. (after Healy, 1975). ........................................................... 8

List of Tables

T able 1: W ells utilized for study ..................................................................................... ................ 24






OPEN FILE REPORT NO. 91


Abstract

The accompanying 1:100,000 scale geologic map (Open-File Map Series 98) shows the
areal distribution of bedrock and surficial geologic units for the eastern half of the Perry, Florida
30 x 60 minute quadrangle. The map was constructed using a combination of field mapping at
1:24,000 scale, compilation of data from existing maps (various scales), core and cuttings
analyses and descriptions, and analyses of various Geographic Information System (GIS) data
sources. The resulting data was compiled in ESRI's ArcGIS ArcMap 9.1 for publication as part
of the Florida Geological Survey Open-File Map Series (O.F.M.S.). Map units in the area range
in age from the Eocene Ocala Limestone to undifferentiated Quaternary sediments. Important
resources in the area include groundwater, springs, sand, limestone, and dolostone. Numerous
springs, sinking streams (swallets), and other karst features are present in the study area.
Understanding of geologic units, karst, springs and their interactions within the map area aids
land planners, environmental professionals, and citizens in making land-use decisions such as
designing new construction projects, siting new water supply wells, locating sources of mineable
resources for aggregate supply, and protection of springs and water quality.

Keywords: Florida, geologic map, environmental geology, geomorphology, springs,
swallets, Floridan aquifer system.

Introduction

This report is designed to accompany Open-File Map Series (O.F.M.S.) 98. O.F.M.S. 98-
01 depicts the near-surface geology of the eastern half of the Perry 30 x 60 minute quadrangle.
O.F.M.S. 98-02 depicts six geologic cross sections, as well as a correlative stratigraphic chart for
the lithologic units for the study area. O.F.M.S. 98-03 shows a geomorphology map, a digital
elevation model (DEM), locations of known springs, sinkholes and swallets, and photographs of
selected outcrops within the study area.
The study area lies east of Perry and west of Live Oak, Florida and includes portions of
Hamilton, Lafayette, Madison, Suwannee, and Taylor Counties (Figure 1). It lies west of the
Lake City 30 x 60 minute quadrangle, part of which was mapped under a grant from the U.S.G.S.
STATEMAP program (Green et al. 2006). A regionally important river, the Suwannee River,
bisects the map area, and much of the area serves as recharge to the Floridan aquifer system, the
primary source of drinking water in the region.
An objective for this report is to provide basic geologic information for the
accompanying geologic map (O.F.M.S. 98-01), cross sections (O.F.M.S. 98-02) and
geomorphology (O.F.M.S. 98-03). Information provided by this report and these maps is
intended for a diverse audience comprising professionals in geology, hydrology, engineering,
environmental and urban planning, and laypersons, all of whom have varying levels of geologic
knowledge. The map can help users identify and interpret geologic features which impact
activities related to groundwater quality and quantity, location of mineral resources, land-use
planning, and designing construction projects. Applied uses of the map and data in this report
include: 1) identifying potential new mineral resources, 2) characterizing aquifer recharge
potential and confinement, 3) aiding in water-management decisions on groundwater flow and






FLORIDA GEOLOGICAL SURVEY


usage, 4) providing information on aquifer vulnerability to potential pollution, 5) ecosystem,
wetlands, and environmental characterization, and 6) recreational uses.


0 10 20 30 40 50 Miles

0 10 20 30 40 50 60 70 80 Kilometers


LEGEND


O.F.M.S.83-01-07 1995
O.FM.S 83-08-12. 1996
O.FM.S.86. 1997
O.FM.S.87. 1998
O.F.M.S. 88. 1999
O.F.M.S. 89. 2000
O.FM.S. 90. 2001


LIZ
LIII


LIII
EZiI


O.F.M.S. 91. 2002
O.F.M.S. 92. 2003
O.F.M.S. 93. 2004
O.F.M.S. 94. 2'1105
O.F NM S. 97. 21116
O.F.M.S. 98. 2007
(Current STATEMAP
Study Area)


1 City

- - County Boundary


D


1:24.()00 Quadrangle

1:100,0(00 Quadrangle


Figure 1: Areas mapped under FGS STATEMAP Program.


[F-7






OPEN FILE REPORT NO. 91


Methods

The study consisted of 1) reviewing and compiling existing geologic literature and data,
2) mapping geologic units in the field at 1:24,000 scale using standard techniques, 3) core and
cuttings analyses of existing samples, 4) new core drilling, 5) collecting and describing of
outcrop samples, and 6) preparing a geologic map, geological cross-sections, and geomorphic
map of the area. Field work was performed during the spring and summer of 2007 and consisted
of sampling and describing numerous outcrops, river and pit exposures. Seventy-eight new
samples of geologic material were added to the FGS surface-sample archives (M-Series), four
new cores were drilled, and numerous additional outcrops were examined during this project. All
data, including data from over 400 wells, were compiled and analyzed by the authors and the
map and accompanying plates were developed in ESRI's ArcGIS ArcMap 9.1 for publication as
part of the Florida Geological Survey Open-File Map Series.
The study area is blanketed by a veneer of Quaternary sediments and soils. For this
reason, and in keeping with geologic mapping practices developed by Scott et al. (2001), the
authors have adopted the policy of mapping the first named geologic unit within 20 feet (6.1
meters) of the surface. If undifferentiated Quaternary (Qu) sediments attain a thickness greater
than 20 feet (6.1 meters), then they appear as the mapped unit. If these undifferentiated
sediments are less than 20 feet (6.1 meters) thick, then the underlying stratigraphic unit appears
on the map.
The region is generally vegetated and public access is hindered by the presence of
numerous farms and private land-owners. Fieldwork access was typically limited to public roads,
State-owned lands, and Suwannee River Water Management District-owned lands.

Previous Work

The current study builds on many previous geologic investigations in and around the
present map area. A statewide geologic map (Scott, et al., 2001) was published by the FGS in
digital format and provided much of the base-map material. Preliminary county geologic maps
have been published for Hamilton (Scott, 1993), Lafayette (Campbell, 1993c), Madison
(Campbell, 1993a), Suwannee (Rupert et al. 1993), and Taylor (Campbell, 1993b) Counties at
scales of 1:126,720. It is important to point out, however, that each of these Open-File Map
Series geologic maps were constructed in an average time-frame of two weeks utilizing selected
in-house geologic data with little to no extra field work. Although these maps provided an
excellent starting point for the detailed geologic mapping undertaken for this project, significant
refinement of the geologic maps was possible as a result of this project. This study also benefited
from the work performed for geologic mapping in the western portion of the Lake City 30 x 60
minute quadrangle (Green et al. 2006). Many of the field relationships and stratigraphic
problems were worked out during that project and data gathered during the project proved
invaluable in the completion of this endeavor.






FLORIDA GEOLOGICAL SURVEY


Geologic Summary

The near surface geology of the eastern portion of the U.S.G.S. 1:100,000 scale Perry
quadrangle is composed of a complex mixture of Eocene to Holocene carbonate and siliciclastic
sediments. A combination of factors, including fluvio-deltaic deposition, marine deposition,
dissolution of underlying carbonates, erosion of sediments as a result of eustatic changes in sea
level, and structural features, have influenced the geology of the study area.
Much of the eastern portion of the Perry quadrangle is located within the Suwannee,
Alapaha, Withlacoochee, and Econfina River basins (Figure 2). In this area, the Suwannee River
and its tributaries contain numerous documented springs, including six first magnitude springs
and 53 lesser magnitude springs. A first magnitude spring is defined as having a minimum
average flow of 100 cubic feet per second, or 64.6 million gallons per day. Many of these springs
have evidenced significant increases in pollutants in the last few decades, particularly nitrate
(Scott, et al. 2002). Detailed geologic mapping of lithostratigraphic units in this area provides
critical data needed to help in future assessments of the vulnerability of the aquifer systems and
these springs to contamination. The recharge areas for many of these springs are believed to be
located in and around the current study area. Understanding the surficial geology of the map
area is a key factor in developing management and protection plans, not only for the springs, but
for the unconfined portions of the Floridan aquifer system (FAS).

Structure

Several structural variables have affected the geology of the region. The Peninsular Arch,
(Figure 3) a structurally high area which affected deposition from the Cretaceous to the early
Cenozoic, is the dominant subsurface feature in the Florida peninsula (Applin, 1951; Puri and
Vernon, 1964; Williams et al. 1977; Schmidt, 1984; Miller, 1986; Scott, 1997).
The axis of the Peninsular Arch extends from southeastern Georgia to the vicinity of
Lake Okeechobee in southern Florida in a general northwest to southeast trend. The crest of the
arch passes beneath Alachua County south and east of the study area and is highest in Union and
Baker Counties east of the study area. The arch was a topographic high during most of the
Cretaceous Period and had Upper Cretaceous sediments deposited over it (Applin, 1951). It
formed a relatively stable base for Eocene carbonate deposition except during times of periodic
land emergence due to lowered sea levels (Williams et al. 1977). The arch did not affect
Neogene to Holocene sediment deposition (Williams et al. 1977; Scott, 1997).
The Ocala Platform is the most prominent structure affecting the near surface
depositional and post-depositional environments within the map area. Hopkins (1920) originally
named this feature the Ocala Uplift. Vernon (1951) described the Ocala Uplift as a gentle flexure
developed in Tertiary sediments with a northwest-southeast trending crest. Because there is
continuing uncertainty about the origin of this feature, Scott (1988) used the term Ocala
Platform, rather than Ocala Uplift or Ocala Arch, since it does not have a structural connotation.
The Ocala Platform exerted its influence on Neogene sediment deposition, and Miocene
sediments of the Hawthorn Group are thought to have been deposited across the platform (Scott,
1981a; Scott, 1988). Post-Miocene erosion, however, has removed sediments of the Hawthorn






OPEN FILE REPORT NO. 91


Group from much of the crest of the Ocala Platform, exposing Eocene carbonates (Cooke, 1945;
Espenshade and Spencer, 1963; Brooks, 1966; and Scott, 1981b).
1hqlapaha Rncr



-1 k LAKE CITY



-PERRY 9', | 11%cl









a *-



I- - CountL Bounda. cGl








_0 10 20 30 40 50 Miles

Alapaha Rer Basin 0 10 20 30 40 50 60 70 80 Kilometers
AuiAlla River Basin
Econfinal River Basin

ISt. Marks Riter Basin
Lon -er Sut annee River Basin ;"[. Wn 0 OCAL
Upper Suivannee River Basin E
S\\ tthlacooclic River North Basin S
] O.F.M.S. 98. 210)7
Current STATEMAP Study Area

Figure 2: Location of selected river basins, springs, swallets, and other water bodies.






FLORIDA GEOLOGICAL SURVEY


^- -


/ SOUTHEAST GEORGIA
i EMBAYMENT


q
p
eLLr


KILOMETERS
0 20 40 60 80 100
I I II
0 30 80
MILES


U OFMS 98 Map Area Boundary


Figure 3: Principal subsurface structures of north Florida (modified from Puri and Vernon, 1964
and Schmidt, 1984).

This is evident in the southern portion of the map area. Undifferentiated sediments have
subsequently been deposited on the exposed Oligocene and Eocene carbonates. These consist of
residual clays, sands, and aeolian sands deposited during the Pliocene to Holocene (Scott, 1997).






OPEN FILE REPORT NO. 91


Vernon (1951), utilizing aerial photographs, first mapped fracture patterns throughout
northern peninsular Florida. Regionally, these fractures generally trend parallel to the axis of the
Ocala Platform in a northwest-southeast orientation. A secondary system of fractures intersects
these primary fractures at high angles in a northeast-southwest trend (Vernon, 1951). Orientation
of stream meanders along the Suwannee River suggests that these fracture patterns may be a
controlling factor in stream location (Colton, 1978).
Several relict Neogene coastal terraces, which developed as a result of fluctuating sea
levels, have been documented in the study area. Healy (1975) recognized three marine terraces
within the study area (Figure 4): the Wicomico terrace at elevations of 70 to 100 feet (21.3 to
30.5 meters) above mean sea level (MSL), the Sunderland/Okefenokee terrace at elevations
between 100 and 170 feet (30.5 and 51.8 meters) above MSL, and the Coharie terrace at
elevations between 170 and 215 feet (51.8 and 70.5 meters). The elevations between 150 and 170
feet (45.7 and 51.8 meters) above MSL were referred to as the Okefenokee Terrace by MacNeil
(1950) and Alt and Brooks (1965). Detailed discussions and correlations of these marine terraces
and relict shorelines have been attempted by many authors, including Matson and Sanford
(1913), Cooke (1931, 1939), Flint (1940, 1971), MacNeil (1950), Alt and Brooks (1965), Pirkle
et al. (1970), and Healy (1975).

Geomorphology
Geomorphic Districts

According to Scott (2005), the study area contains part of three geomorphic provinces -
the Ocala Karst District, the Okefenokee Basin District, and the Tifton Upland District (see
Figure 2, O.F.M.S. 98-03). Within the map area, these districts have been further subdivided
topographically into five regional physiographic units: the Alachua Karst Hills, the Perry
Karst/San Pedro Bay, and the Branford Karst Plain (Ocala Karst District), the Northern
Okefenokee Basin (Okefenokee Basin District), and the Madison Hills (Tifton Upland District)
(see Figure 3, O.F.M.S. 98-03).

Ocala Karst District

The majority of the current study area is located within White's (1970) Gulf Coastal
Lowlands. Scott (2005) refers to this area as the Ocala Karst District. Within Florida, the Ocala
Karst District encompasses a broad area from Wakulla County in the panhandle of Florida, south
to Hillsborough and Pinellas Counties in the west-central peninsula and inland to nearly the
center of the peninsula. Elevations within the district range from sea level along the coast to in
excess of 300 feet (91.4 meters) above MSL on the Brooksville Ridge (O.F.M.S. 98-03, Figure 3).
Within the study area, elevations range from 45 feet (13.7 meters) in the southwestern comer of the
study area to 170 feet (56.0 meters) along the eastern edge of the map area (O.F.M.S. 98-03, Figure
1).
Carbonate sediments, ranging from the Middle Eocene Avon Park Formation to the
Lower Oligocene Suwannee Limestone, lie at or near the land surface within this district. The
Ocala Karst District is dominated by dissolution sinkholes and shallow bowl-shaped depressions,
producing a rolling topography. Generally, a variably permeable siliciclastic cover allows
downward percolating groundwater to slowly dissolve the underlying limestone, leading to
cover-collapse sinkholes and cover-subsidence features. Cover-collapse sinkholes form rather







FLORIDA GEOLOGICAL SURVEY


abruptly from the structural failure of an underlying cavern roof An excellent example of this is
Devil's Mill Hopper, located in Alachua County southeast of the present study area (Evans, et al.
2004).
Cover subsidence features generally occur in areas where overlying siliciclastics are
thicker and sediments sag as carbonates dissolve underneath. Typically, areas such as these have
only a few shallow sinks formed by the downward movement of the siliciclastic overburden
filling voids created by slow dissolution of underlying carbonates. Springs, sinking and resurgent
streams, and caverns commonly occur within the Ocala Karst District.


,I~)


- 1


Legend

Co'unlt Boundar%
OFMS 98 Map Area Boundan

Relief of Terraces, in Feet
21 5 3210 Hazlehurst terrace.
Coastt\ ise delta plain
170 215 oharie terrace


N




S


SLinderland
(kefenukee terrace


70- 100 \% iconiico terrace


S42 70


PenliollowaN terrace


25- -12 Talbot terrace


10 25 Pamnilico terrace
* I 10 Sikler Bluffterrace


Figure 4: Terraces in Florida (after Healy, 1975).


S100 170


In -1JU .l) 411 MNl

o n l i2o) 3 n11 4 "'1n 1 8ii K 1






OPEN FILE REPORT NO. 91


Alachua Karst Hills

The Alachua Karst Hills, present along the eastern edge of the study area, are part of
White's (1970) Northern Highlands. This physiographic unit is well drained and formed in
response to karstification of uplands covered by Hawthorn Group and undifferentiated
sediments. The karst hills are part of an erosional scarp retreat being formed as the Hawthorn
Group and younger sediments are eroded and karstified. This scarp is part of the extensive Cody
Scarp of Puri and Vernon (1964).
Regionally, the Alachua Karst Hills extend from northern Suwannee County to central
Alachua County (O.F.M.S. 98-03, Figure 3). Elevations range from approximately 100 feet (30.5
meters) to in excess of 200 feet (61 meters) above MSL. In the study area, the Alachua Karst
Hills are only present within central Suwannee County along the eastern boundary of the mapped
area, where elevations range from approximately 70 feet (21.3 meters) to 170 feet (51.8 meters)
above MSL (O.F.M.S. 98-03, Figure 3).

Branford Karst Plain

The Branford Karst Plain, which covers much of the eastern two-thirds of the map area,
occupies the Suwannee River valley, the Alapaha River valley, and the Withlacoochee River
valley (O.F.M.S. 98-03, Figure 3). Regionally, the plain extends south to the Santa Fe River on
the Gilchrist County line (Scott, 2005). Elevations in the karst plain range from less than 15 feet
(4.6 meters) above MSL along the Suwannee River to more than 140 feet (42.7 meters) above
MSL. Within the study area, elevations of the Branford Karst Plain range from 20 feet (6.1
meters) along the Suwannee River valley in the southeastern corner of the map area to 140 feet
(42.7 meters) above MSL in the northeastern portion of the map area (O.F.M.S. 98-03, Figure 1).
The Lower Oligocene Suwannee Limestone occurs in the northern half of the Branford
Karst Plain and crops out within the Withlacoochee and Alapaha River valleys and the northern
portion of the Suwannee River valley within the map area, while the Upper Eocene Ocala
Limestone is near the surface in the southern part of the Branford Karst Plain. Silicified "float"
boulders (remnants of the Lower Oligocene Suwannee Limestone and the Upper Eocene Ocala
Limestone) are common in the southeastern quadrant of the map area.
Drainage within the Branford Karst Plain is primarily through karst features with
relatively few surface streams. Closed topographic depressions (CTDs; Arthur et al. 2007) are
numerous throughout the karst plain, particularly east of the Suwannee River (O.F.M.S. 98-03,
Figure 1).

Perry Karst/San Pedro Bay

Regionally, the Perry Karst/San Pedro Bay complex extends from Madison County
southward to the Gulf of Mexico in Dixie County (O.F.M.S. 98-03, Figure 3). The Perry Karst is
the transition zone between the Woodville Karst Plain to the west and San Pedro Bay. Elevations
within this area range from less than 5 feet (1.5 meters) to in excess of 100 feet (30.5 meters) above
MSL. The elevations in San Pedro Bay are generally higher than in the Perry Karst area or the
Branford Karst Plain. Elevations decline to the south toward the Gulf coast. The Perry Karst area is
poorly to moderately drained while San Pedro Bay is extremely poorly drained. Copeland (2005)
provides an excellent discussion of the San Pedro Bay, its origin and surrounding areas. The Perry






FLORIDA GEOLOGICAL SURVEY


Karst/San Pedro Bay complex occupies much of the western and southwestern parts of the study
area. Within the map area, elevations of the Perry Karst/San Pedro Bay range from 45 feet (13.7
meters) to over 100 feet (30.5 meters) above MSL (O.F.M.S. 98-03, Figure 1).
The Suwannee Limestone underlies much of the Perry Karst/San Pedro Bay, although it is
absent under the central-southern and southeastern portions of the unit. In the San Pedro Bay, a clay
layer up to five feet (1.5 meters) thick overlies the limestone, providing confinement to the FAS
(Copeland, 1982). Plio-Pleistocene sediments cover the entire area, and the unit is poorly to very
poorly drained. Recharge to the FAS is low to moderate, while recharge to the FAS may be
moderate to high along the transition between the Perry Karst/San Pedro Bay and the Branford
Karst Plain (Copeland, 2005).

Okefenokee Basin District

The Okefenokee Basin District is recognized based on topography, drainage characteristics
and the general lack of karst features. East of the present study area, the Lake City Ridge subdivides
the district into northern and southern basins (Scott, 2005). In the northern Okefenokee Basin, the
hills are essentially absent and the entire area is poorly drained and flat. Hills are common and the
area is better drained in the Southern Okefenokee Basin. The basin extends into Florida from
Georgia and is recognized from Baker, Hamilton, and Columbia Counties on the north, southwards
to northern Alachua County (O.F.M.S 98-03, Figure 3). Where the Okefenokee Basin District
makes the transition to the Ocala Karst District, the land becomes well drained and has more relief.
Miocene Hawthorn Group (Th) sediments to Plio-Pleistocene siliciclastics underlie the
district. The Statenville Formation of the Hawthorn Group (Ths) occurs at or near the surface in the
western portion of the district, while Undifferentiated Plio-Pleistocene siliciclastics (TQu) underlie
the eastern portion of the district.

Northern Okefenokee Basin

The Northern Okefenokee Basin lies to the north of the Lake City Ridge, the Alachua Karst
Hills and the Branford Karst Plain and east of the Madison Hills (O.F.M.S. 98-03, Figure 3).
Northeast of the study area, the Okefenokee Swamp occupies much of the northern portion of the
Okefenokee Basin District from Georgia into Florida. The northern portion of the basin is very flat
with few hills. Hills become more common towards the western and eastern boundaries of the area.
Plio-Pleistocene siliciclastics underlie much of the northern Okefenokee Basin but are
poorly drained due to the near-surface presence of the Hawthorn Group clayey sediments and low
relief. The Statenville Formation of the Hawthorn Group (Ths) is at or near the surface in the
western part of the basin. Karst features, which are uncommon throughout most of the basin, occur
primarily in the transition zone with the Ocala Karst District where the Hawthorn Group is thin and
breached by sinkholes.
Elevations vary within the basin from approximately 100 feet (30.5 meters) to more than
190 feet (57.9 meters) above MSL (Scott, 2005). Where the Suwannee River occurs within the
district east of the study area, elevations along the river may be less than 50 feet (15.2 meters).
Within the map area, elevations range from 60 feet (18.3 meters) near the Suwannee River to 160
feet (48.8 meters) on some of the hilltops.






OPEN FILE REPORT NO. 91


Tifton Upland District

In northern Florida, the Tifton Upland District (Scott, 2005) encompasses the area referred
to as the Tallahassee Hills by White (1970). The uplands extend from the Apalachicola River
eastward to central Hamilton County at the Alapaha River (O.F.M.S. 98-03, Figure 2). The Tifton
Upland District's topography is characterized by broad, undulating hills with a well developed
dendritic drainage pattern.
The Tifton Upland District is present in the northwestern and northern portion of the map
area. Elevations in the district, which range from 35 feet (10.7 meters) above MSL in the major
stream and river valleys and in the swamps of the eastern portion of the district up to 300 feet (91.4
meters) MSL on the hilltops, decrease toward the southern limit of the district.

Madison Hills

Within the study area, Scott (2005) delineated one physiographic unit within the Tifton
Upland District: the Madison Hills. Regionally, the Madison Hills extend from the eastern end of
the Tallahassee Hills in central Jefferson County, eastward to eastern Madison County on the west
side of the Withlacoochee River (O.F.M.S. 98-03, Figure 3). The elevation of the Madison Hills
ranges from 70 feet (21.3 meters) in the valleys between the Withlacoochee and Alapaha rivers to
near 200 feet (61 meters) above MSL on some hill tops.
The Madison Hills are present in the northwestern portion of the map area, while a small
area (separated from the main body of this zone by the Withlacoochee River Valley) is present in
Hamilton County. Elevations within the map area for the Madison Hills range from 70 feet (21.3
meters) above MSL to 200 feet (61 meters) above MSL on some hilltops (O.F.M.S. 98-03, Figure
1).
The valleys within the Madison Hills are broad and poorly drained. The Miccosukee
Formation (Tmc) forms the higher areas while the Hawthorn Group sediments underlie the lower
portions of the landscape. Karst features occur in the eastern part of the district where the
Suwannee Limestone lies near the land surface.

Lithostratigraphic Units

Tertiary System

Eocene Series
Middle Eocene

The Middle Eocene Avon Park Formation (Tap), first described by Applin and Applin
(1944), is the oldest unit investigated in the present study area. The unit, which only occurs in the
subsurface in the study area, consists of cream to light-brown to tan, poorly indurated to well-
indurated, variably fossiliferous limestone (grainstone to wackestone, with rare mudstone). The
limestones are interbedded with tan to brown, very poorly indurated to well indurated, very fine
to medium crystalline, fossiliferous (molds and casts), vuggy dolostones. Fossils present in the
unit include molluscs, foraminifera, echinoids, algae and carbonized plant remains.






FLORIDA GEOLOGICAL SURVEY


The Avon Park Formation was only encountered in a few wells in the study area. The top
of the Avon Park ranges from 307 feet (93.6 meters) below MSL in W-2548 to 164 feet (50
meters) below MSL in W-4497 (cross-section D-D'; OFMS 98-02). No wells utilized for cross-
sections penetrated the entire section of the Avon Park Formation. The Avon Park Formation
forms part of the FAS (Southeastern Geological Society, 1986).

Eocene Series
Upper Eocene

The Upper Eocene Ocala Limestone (To), first described by Dall and Harris (1892) is a
biogenic marine limestone comprised largely of foraminifera, molluscs, echinoids and
bryozoans. Based on lithologic differences it can be informally subdivided into an upper and
lower unit (Scott, 1991a). This subdivision, while often apparent in cores and quarries, is
difficult to ascertain in cuttings. As a consequence of this, the geologic cross sections do not
break out the upper and lower Ocala Limestone.
The upper unit is typically a white to cream, fine- to coarse-grained, poorly- to well-
indurated, poorly sorted, very fossiliferous limestone (wackestone, packstone, and grainstone).
Fossils commonly include large foraminifers, bryozoans, mollusks, and a rich diversity of
echinoids. The lower unit is typically a white to cream, fine- to medium-grained, poorly- to
moderately- indurated limestone (grainstone to packstone). The unit may be partially
dolomitized. Fossils include foraminifera (such as Lepidocyclina sp., Heterostegina ocalana, and
miliolids), bryozoans, algae, mollusks, echinoids, and crabs.
Portions of the upper Ocala Limestone have been locally replaced by silica and upon
erosion large boulders may remain as residual float. The most likely source of silica is from
weathering of the Hawthorn Group sediments (Williams et al. 1977; Scott, 1988). There are
several processes that have occurred, or are occurring, in the Hawthorn Group which release
silica in solution and provide a source for silica in the replacement of carbonate rocks (Altshuler
et al. 1963; Mitchell, 1965; and Assefa, 1969). The occurrence of this float throughout the
southern portion of the study area is an indication that the Hawthorn Group once covered much
more of the study area and has been subsequently removed by erosion and weathering (O.F.M.S.
98-01).
The top of the Ocala Limestone, which is often karstified, ranges from 60 feet (18.2
meters) above MSL in W-187 (cross sections B-B' and E-E'; OFMS 98-02) to 109 feet (33.2
meters) below MSL in W-2549 (cross sections A-A', D-D', and E-E'; OFMS 98-02). Only a few
wells penetrated the entire thickness of the Ocala Limestone in the study area. In these wells, the
thickness of the Ocala Limestone ranges from 177 feet (53.9 meters) in W-2549 (cross-sections
A-A', D-D' and E-E'; OFMS 98-02) to 220 feet (67.1 meters) in W-2550 (cross section E-E';
OFMS 98-02). The Ocala Limestone is unconformably overlain by the Suwannee Limestone
(Ts) throughout much of the study area and by undifferentiated Quaternary sediments (Qu) in the
southern and southeastern portions of the study area. The Ocala Limestone forms part of the
Floridan aquifer system (Southeastern Geological Society, 1986).






OPEN FILE REPORT NO. 91


Oligocene Series
Lower Oligocene

The Lower Oligocene Suwannee Limestone (Ts), named by Cooke and Mansfield (1936)
for exposures of limestone along the Suwannee River from White Springs to Ellaville,
unconformably overlies the Ocala Limestone throughout most of the study area. The Suwannee
Limestone is primarily a white to cream, poorly to well indurated packstone to grainstone
comprised of miliolid tests, foraminifera, pelecypods, gastropods and echinoids. The echinoid
Rhyncholampas gouldii, an index fossil for the Suwannee Limestone, is commonly seen in
outcrops along the Suwannee River. The lithology is variably recrystallized and may range from
poorly indurated, friable limestone to well indurated limestone cemented by calcite spar.
Silicified residual boulders of the Suwannee Limestone ("float") are commonly found in the
south-central to southeastern portion of the study area, indicating that it once covered much of
the southern portion of the map area (O.F.M.S. 98-01).
The top of the Suwannee Limestone ranges from 5 feet (1.5 meters) above MSL in W-
12516 (cross section A-A'; OFMS 98-02) to 112 feet (34.1 meters) above MSL in W-15888
(cross section D-D'; OFMS 98-02). The Suwannee Limestone ranges in thickness from
approximately 5 feet (1.5 meters) in W-18768 (cross section B-B'; OFMS 98-02) to
approximately 160 feet (48.8 meters) in W-18767 (cross section A-A'; OFMS 98-02).
The unit is unconformably overlain by sediments of the Miocene Statenville Formation
(Ths; Hawthorn Group) in the northeastern portion of the map area, sediments of the Miocene
Torreya Formation (Tht; Hawthorn Group) in the northwestern portion of the study area, and
undifferentiated Quaternary sediments (Qu) throughout the remainder of the study area.
Evidence from cuttings and field data indicates that isolated remnants of the Suwannee
Limestone may occur throughout the southeastern portion of the map area (see W-358 and W-
13471 on cross section E-E'; OFMS 98-02). The Suwannee Limestone forms part of the Floridan
aquifer system (Southeastern Geological Society, 1986).

Miocene Series

Hawthorn Group (Th) sediments are encountered throughout much of the northern one-
third of the study area, where they unconformably overlie the Suwannee Limestone (O.F.M.S.
98-01). Sediments of the Hawthorn Group are thought to have been deposited onto the platform
throughout the area, but Post-Miocene erosion removed sediments from the crest of the Ocala
Platform exposing the Eocene carbonates in the southern portion of the map area (Cooke, 1945;
Espenshade and Spencer, 1963; Brooks, 1966; and Scott, 1981b). Fossils in the Hawthorn Group
are sparse but may include vertebrate remains, corals, and mollusks. Williams et al. (1977) report
that the most commonly found fossils are oysters and coral heads. Silicified coral heads were
observed in the Suwannee, Withlacoochee, and Alapaha Rivers during field work. Within the
map area, the Miocene Hawthorn Group (Th) is composed of the Lower Miocene Torreya
Formation (Tht) and the Middle Miocene Statenville Formation (Ths). The Torreya Formation is
present west of the Withlacoochee River, while the Statenville Formation (Ths) occurs east of
the Withlacoochee River (O.F.M.S. 98-01).






FLORIDA GEOLOGICAL SURVEY


Lower Miocene

The Lower Miocene Torreya Formation of the Hawthorn Group (Tht) is typically a
siliciclastic unit with increasing amounts of carbonate in the lower portion of the unit. The
majority of the outcrops of the Torreya Formation expose the siliciclastic part of the unit which
varies from white to light olive gray unconsolidated to poorly indurated slightly clayey sands to
light gray to bluish gray, poorly consolidated silty clay often containing a variable but minor
component of carbonate (calcareous or dolomitic). Phosphate grains, while a common but minor
lithologic component of the unit are often absent (Scott, 1988).
The carbonate sediments of the Torreya Formation are white to light olive gray, poorly
indurated, variably sandy and clayey limestones. The limestone (mudstone and wackestone)
often contains molds and casts of mollusks. The Torreya Formation overlies the Floridan aquifer
system and forms part of the intermediate aquifer system/intermediate confining unit (IAS/ICU)
(Southeastern Geological Society, 1986).
The top of the Torreya Formation ranges from 84 feet (25.6 meters) above MSL in W-
2549 (cross sections A-A', D-D', and E-E'; OFMS 98-02) to 144 feet (43.9 meters) above MSL
in W-15888 (cross section D-D'; OFMS 98-02). In wells utilized for cross sections, the unit
ranges from 10 feet (3 meters) thick in W-704 (cross section E-E'; OFMS 98-02) to 80 feet (24.4
meters) thick in W-12516 (cross section A-A'; OFMS 98-02).

Middle Miocene

The Middle Miocene Statenville Formation of the Hawthorn Group (Ths) occurs within
limited areas of the northeastern portion of the map area along the northeastern flank of the
Ocala Platform (Scott, 2001b). The Statenville Formation consists of poorly to moderately
indurated, interbedded quartz sands, clays and dolostones. Phosphate grains are common to
abundant in the unit. The unit is lithologically variable and beds may pinch out and interfinger
both laterally and vertically. Outcrops of the Statenville Formation in the study area are
characteristically thin-bedded and often cross-bedded, generally consisting of thinly interbedded
layers of dolostone and clay alternating with beds of sand. The Statenville Formation forms part
of the IAS/ICU (Southeastern Geological Society, 1986).
The top of the Statenville Formation ranges from 60 feet (18.3 meters) above MSL along
parts of the Suwannee River to 160 feet (48.8 meters) above MSL in hills north of Live Oak
(cross section F-F'; OFMS 98-03). The Statenville Formation ranges up to 100 feet (30.5 meters)
in thickness in the northeastern portion of the map area (cross section F-F'; OFMS 98-03).

Tertiary-Quaternary Systems

Pliocene Series

The Pliocene Miccosukee Formation (Tmc), named by Hendry and Yon (1967), is a
prodeltaic siliciclastic unit composed of grayish-orange to grayish-red, mottled, poorly- to
moderately indurated, interbedded clay, sand and gravel of variable coarseness and admixtures.
The unit has limited distribution in the eastern panhandle of Florida and occurs from central
Gadsden County (west of the study area) to eastern Madison County (Scott et al. 2001).






OPEN FILE REPORT NO. 91


The top of the unit, present within a limited area in the northwestern comer of the map
area, ranges from approximately 100 feet (30.5 meters) above MSL to approximately 200 feet
(61 meters) above MSL (cross sections A-A', D-D' and E-E'; OFMS 98-02). The Miccosukee
Formation ranges from a few feet to approximately 100 feet (30.5 meters) in thickness in this
area. The unit is relatively impermeable due to its high clay content, but is considered to be part
of the SAS (Southeastern Geological Society, 1986).

Pleistocene Series

Undifferentiated Quaternary sediments (Qu) lie unconformably on either the Eocene
Ocala Limestone (To), the Oligocene Suwannee Limestone (Ts), the Miocene Torreya Formation
(Tht), or the Miocene Statenville Formation (Ths) throughout much of the study area. These
sediments, which generally consist of sandy clays and clayey sands, often include weathered and
silicified boulders of the Ocala Limestone and Suwannee Limestone ("float"). The
undifferentiated Quaternary sediments (Qu) are part of the surficial aquifer system (SAS;
Southeastern Geological Society, 1986).
Sediments mapped as Quaternary Beach Ridges and Dunes (Qbd) exhibit discernable
beach ridges and dune features. These sediments consist of unconsolidated light gray to tan fine
to medium quartz sand with variable percentages of organic material. They are only present in a
small area in the extreme southeastern portion of the map area. The Quaternary Beach Ridges
and Dunes (Qbd) sediments are part of the SAS.

Hydrogeology

The hydrogeology of the map area consists of (in ascending order) the Floridan aquifer
system (FAS), the intermediate aquifer system/intermediate confining unit (IAS/ICU), and the
surficial aquifer system (SAS) (Southeastern Geological Society, 1986). The FAS, which is the
primary source of drinking water in the region, is generally comprised of carbonate units of the
Avon Park Formation, the Ocala Limestone, and the Suwannee Limestone. The sands, silts, and
clays of the Hawthorn Group comprise the intermediate aquifer system/intermediate confining
unit. The surficial aquifer system is comprised of the Miccosukee Formation and
undifferentiated Quaternary sediments.
Where siliciclastic sediments of the Hawthorn Group and Miccosukee Formation are
thick, they provide confinement for the Floridan aquifer system, but where the siliciclastic
sediments of the Hawthorn Group and younger units are thin or missing, karst features often
occur. "Swallets" (stream-to-sink features) are of particular concern to geoscientists and
hydrogeologists in the area. Numerous swallets occur along the western edge of the Alachua
Karst Hills and provide avenues for direct recharge to the FAS by surface water and runoff from
agricultural and urban areas (O.F.M.S. 98-03, Figure 1).

Derivative Products

Several derivative products will come from this project. During the mapping project, data
from several hundred wells (Table 1) were analyzed. Formation picks, made on all available
wells, will allow for the creation of a structure contour map of the top of rock in the study area,
along with an isopach map of overburden for the area. Several of the authors of this report are






FLORIDA GEOLOGICAL SURVEY


working on an additional publication, which is beyond the scope of the original project, which
will depict these maps. Additional derivative data that is anticipated to come from this mapping
effort includes an aquifer vulnerability assessment map. Data derived from prior STATEMAP
products has often been used to augment other FGS and FAVA projects in the state (Arthur et al.
2007; Baker et al. 2007).

Selected Bibliography


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no. 2, p. 406-411.

Altshuler, Z.S., Dwornik, E. J., and Kramer, H., 1963, Transformation of montmorillonite to
kaolinite during weathering: Science, v. 141, no. 3576, p. 148-152.

Applin, P., 1951, Possible future petroleum provinces of North America Florida: American
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Applin, P.L., and Applin, E.R., 1944, Regional subsurface stratigraphy and structure of Florida
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1753.

Arthur, J.D., 1991, The geomorphology, geology and hydrogeology of Lafayette County,
Florida: Florida Geological Survey Open File Report 45, 10 p.

Arthur, J.D., Baker, J., Cichon, J., Wood, A., and Rudin, A., 2007 (in review), Florida Aquifer
Vulnerability Assessment (FAVA): Contamination potential of Florida's principal aquifer
systems: Florida Geological Survey Bulletin 67.

Assefa, G., 1969, Mineralogy and petrology of selected rocks from the Hawthorn Formation,
Marion and Alachua counties, Florida [Master's thesis]: Gainesville, University of Florida, 80 p.

Baker, A.E., Wood, H.A.R., and Cichon, J.R., 2007, The Marion County Aquifer Vulnerability
Assessment; final report submitted to Marion County Board of County Commissioners in
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Brooks, H.K., 1966, Geological history of the Suwannee River, in Southeastern Geological
Society, 12th Annual Field Conference Guidebook, p. 37-45.

Campbell, K., 1993a, Geologic map of Madison County, Florida: Florida Geological Survey
Open File Map Series 27, scale 1: 126,720.






OPEN FILE REPORT NO. 91


Campbell, K., 1993b, Geologic map of Taylor County, Florida: Florida Geological Survey Open
File Map Series 29, scale 1:126, 720.

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Ceryak, R., Knapp, M.S., and Burnson, T., 1983, The Geology and Water Resources of the
Upper Suwannee River Basin, Florida: Florida Geological Survey, Report of Investigation 87,
165 p.

Colquhoun, D.J., 1969, Coastal plain terraces in the Carolinas and Georgia, U.S.A.: Wright,
H.E., Jr., editor, Quaternary Geology and Climate: Volume 16 of the Proceedings of the VII
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Colton, Richard C., 1978, The subsurface geology of Hamilton County Florida with emphasis on
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Cooke, C.W., 1916, The age of the Ocala Limestone: United States Geological Survey
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Cooke, C.W., 1931, Seven coastal terraces in the southeastern United States: Washington
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Cooke, C.W., 1939, Scenery of Florida interpreted by a geologist: Florida Geological Survey
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Cooke, C.W., 1945, Geology of Florida: Florida Geological Survey Bulletin 29, 342 p.

Cooke, C.W., and Mansfield, W.C., 1936, Suwannee Limestone of Florida [Abstract]:
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Copeland, R.E., 1982, Identification of Groundwater Geochemical Patterns in the Western
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Hydrogeology of the Southeastern United States: 1981: Special Publication No. 1, Georgia
Southwestern College, Americus, GA., p. 19-29.

Copeland, R., 2003, Florida spring classification system and spring glossary: Florida Geological
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Trip, May 7, 2005, in Southeastern Geological Society Guidebook 44, 56p.

Dall, W.H., and Harris, G.D., 1892, Correlation papers, Neocene: United States Geological
Survey Bulletin 84, 349 p.






FLORIDA GEOLOGICAL SURVEY


Espenshade, G.H., and Spencer, C.W., 1963, Geologic features of phosphate deposits of northern
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portion of the U.S.G.S. 1:100,000 scale Gainesville Quadrangle, Northern Florida: Florida
Geological Survey Open File Map Series No. 93, 2 plates, scale 1:100,000.

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v., 238, p. 757-787.

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Green, R.C., Evans, W.L., III, Paul, D.T., and Scott, T.M., 2005, Geologic map of the eastern
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the western portion of the USGS 1:100,000 scale Lake City quadrangle, northern Florida: Florida
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Groszos, M., Ceryak, R., and Alison, D., 1992, Carbonate units of the intermediate aquifer
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River Water Management District: Florida Geological Survey Open File Map Series 2, scale
1:250, 000.

Healy, H.G., 1975, Terraces and shorelines of Florida: Florida Geological Survey Map Series
No. 71, scale: 1:2,095,200.

Hendry, C.W., Jr., and Yon, J.W., Jr., 1967, Stratigraphy of Upper Miocene Miccosukee
Formation, Jefferson and Leon Counties, Florida: American Association of Petroleum Geologists
Bulletin, v. 51, p. 250-256.

Hoenstine, R.W., and Weissinger, S., 1982, A geologic guide to the Suwannee River,
Ichetucknee Springs, O'leno and Manatee Springs State Parks: Florida Geological Survey Leaflet
12, 28 p.

Hoenstine, R.W., Spencer, S.M., and O'Carroll, T., 1990, Geology and ground-water resources
of Madison County, Florida: Florida Geological Survey Bulletin 61, 93 p.

Hoenstine, R.W., Spencer, S.M., and Lane, E., 1993, Mineral resources of Suwannee County,
Florida: Florida Geological Survey Map Series 137, scale 1:126,720.






OPEN FILE REPORT NO. 91


Hopkins, O.B., 1920, Drilling for oil in Florida: United States Geological Survey Press Bulletin,
April, 1920.

Hornsby, H.D., and Ceryak, R., 1998, Springs of the Suwannee River Basin in Florida: Live
Oak, Suwannee River Water Management District, 178 p.

Houston, T.B., 1965, Soil survey, Suwannee County, Florida: U.S. Department of Agriculture,
Soil Conservation Service, ser. 1961, no. 21, 101 p.

Howell, D.A., and Williams, C. A., 1990, Soil survey of Madison County, Florida: U.S.
Department of Agriculture, Soil Conservation Service, 160 p.

Huddlestun, P.F., 1988, A revision of lithostratigraphic units of the Coastal Plain of Georgia -
Miocene: Georgia Geological Survey Bulletin 104, 162 p.

Huddlestun, P.F., and Hunter, M.E., 1982, Stratigraphic revision of the Torreya Formation of
Florida, in Scott, T.M., and Upchurch, S.B., (eds.) Miocene of the southeastern United States,
Proceedings of the symposium: Florida Geological Survey Special Publication, 25, 210 p.

Hunter, M.E., and Huddlestun, P.F., 1982, The biostratigraphy of the Torreya Formation of
Florida, in Scott, T.M., and Upchurch, S.B., (eds.) Miocene of the southeastern United States,
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Knapp, M.S., 1978, Environmental geology series Valdosta Sheet: Florida Geological Survey
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Knapp, M.S., Copeland, R. E., Scott, T.M., Ceryak, R., Price, D., and Burnson, T., 1981, Karst
hydrogeology and Miocene geology of the upper Suwannee River Basin, Hamilton County,
Florida, October 23-24, 1981: Southeastern Geological Society Guidebook, 23, 36 p.

Lane, E., Hoenstine, RW., and Spencer, S.M., 1993, Mineral resources of Columbia County,
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Macesich, M., and Martinez, N., 1992, Mines and quarries greater than 10 acres in size in the
Suwannee River Water Management District: Florida Geological Survey Open File Map Series
1, scale 1:250, 000.

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Matson, G.C., and Sanford, S., 1913, Geology and groundwater of Florida: United States
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parts of Georgia, Alabama, and South Carolina: Regional Aquifer-System Analysis: united
States Geological Survey Professional Paper 1403-B, Washington, 91p., 33 plates.






FLORIDA GEOLOGICAL SURVEY


Mitchell, C.L., 1965, Petrology of selected carbonate rocks from the Hawthorn Formation,
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Puri, H.S., 1957, Stratigraphy and zonation of the Ocala group: Florida Geological Survey
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Randazzo, A.F., and Jones, D.S., eds., 1997, The Geology of Florida: Gainesville, University
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OPEN FILE REPORT NO. 91


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OPEN FILE REPORT NO. 91


Acknowledgements

The authors would like to thank: Brian Kauffman, Gwen Lord, Bob Heeke, and Carlos Herd
of the Suwannee River Water Management District (SRWMD) for access to district lands; Ron
Ceryak for providing well information for the SRWMD; Steven Carpenter of the Division of
Forestry for access to the Twin Rivers and Holton Creek Wildlife Management Areas. The late
James H. Balsillie is thanked for his invaluable contributions in the field and in discussing this
project with the authors. Ken Campbell, Bridget Coane, Adam Humphreys, Tom Greenhalgh,
Nick John, Harley Means, Sarah Ramdeen, Guy Richardson, and David Wagner provided
additional field support. David Anderson provided assistance with ArcMap and GIS analyses.
Rick Copeland, Jackie Lloyd, Harley Means, Frank Rupert, and Walt Schmidt are thanked for
their time in reviewing, discussing, and editing the product. This geologic map was funded in
part by the USGS National Cooperative Geologic Mapping Program and in part by the
FDEP/FGS.








FLORIDA GEOLOGICAL SURVEY



Table 1: Wells utilized for study.


Total
Map *Archived Data Data LATITUDE LONGITUDE 1:24,000 Elev. Depth
ID# ID# Source Type DD MM SS DD MM SS Quadrangle (Feet) Depth
(Feet)
1 W-187 FGS CUTTINGS 30 17 21.70 83 18 45.21 Madison SE 90 129
2 W-358 FGS CUTTINGS 30 10 57.25 83 10 55.00 Dowling Park 70 57
3 W-704 FGS CUTTINGS 30 23 02.13 83 21 23.46 Lee 93 90
4 W-1066 FGS CUTTINGS 30 14 29.30 83 15 01.67 Day 50 81
5 W-1451 FGS CUTTINGS 30 18 26.55 83 00 25.72 Live Oak West 102 268
6 W-2000 FGS CUTTINGS 30 00 37.02 83 16 46.04 Day SE 78 4560
7 W-2548 FGS CUTTINGS 30 26 11.04 83 25 47.60 Madison 143 520
8 W-2549 FGS CUTTINGS 30 28 19.73 83 25 44.60 Madison 99 515
9 W-2550 FGS CUTTINGS 30 26 51.24 83 24 43.42 Madison 170 540
10 W-4497 FGS CUTTINGS 30 04 05.09 83 30 0.99 Perry 61 460
11 W-8389 FGS CUTTINGS 30 12 20.15 83 12 38.06 Dowling Park 80 330
12 W-8390 FGS CUTTINGS 30 27 26.01 83 13 32.10 Ellaville 66 170
13 W-12247 FGS CUTTINGS 30 14 49.00 83 01 53.00 Mayo NE 96 4510
14 W-12516 FGS CUTTINGS 30 25 47.35 83 18 11.46 Lee 90 90
15 W-13122 FGS CUTTINGS 30 01 45.08 83 29 50.00 Fenholloway 57 49
16 W-13218 FGS CUTTINGS 30 30 04.46 83 04 23.56 Jennings 85 156
17 W-13471 FGS CUTTINGS 30 09 10.00 83 10 15.00 Dowling Park 77 180
18 W-13479 FGS CUTTINGS 30 25 34.06 83 23 12.00 Madison 105 100
19 W-13786 FGS CUTTINGS 30 27 16.00 83 21 35.00 Lee 110 138
20 W-15854 FGS CORE 29 59 57.23 83 03 27.15 Mallory Swamp NE 65 65
21 W-15867 FGS CORE 30 03 52.07 83 11 51.14 Mayo 72 53
22 W-15888 FGS CORE 30 23 06.10 83 26 37.89 Madison 160 89
23 W-15952 FGS CORE 30 01 29.76 83 26 02.52 Fenholloway 73 36
24 W-15980 FGS CORE 30 20 38.67 83 19 30.79 Madison SE 90 52
25 W-15983 FGS CORE 30 16 29.10 83 24 37.01 Madison SW 99 62
26 W-16510 FGS CUTTINGS 30 02 05.96 83 02 45.48 Mayo SE 42 17
27 W-16514 FGS CUTTINGS 30 03 51.51 83 07 46.91 Mayo 59 45
28 W-17904 FGS CORE 30 04 56.08 83 02 30.43 Mayo SE 46 48
29 W-18767 FGS CORE 30 26 27.00 83 03 39.00 Fort Union 93 229
30 W-18768 FGS CORE 30 17 57.10 83 14 26.90 Falmouth 62 69
31 W-18771 FGS CORE 30 16 14.28 83 28 25.08 Madison SW 101 199
32 W-18770 FGS CORE 30 08 47.31 83 27 15.57 DayNW 87 129
33 W-400 FGS CUTTINGS 30 03 10.89 83 10 47.98 Mayo 78 200
34 W-1021 FGS CUTTINGS 30 29 11.05 83 00 36.14 Fort Union 85 185
35 W-1061 FGS CUTTINGS 30 17 07.37 83 19 20.38 Madison SE 92 27
36 W-1067 FGS CUTTINGS 30 05 22.81 83 13 37.22 Mayo 65 28
37 W-1751 FGS CUTTINGS 30 28 50.85 83 25 0.56 Madison 95 325
38 W-1827 FGS CUTTINGS 30 12 03.21 83 07 44.10 Dowling Park 85 3819
39 W-1951 FGS CUTTINGS 30 10 55.00 83 09 21.00 Dowling Park 80 160
40 W-2145 FGS CUTTINGS 30 23 07.15 83 10 36.30 Ellaville 57 45
41 W-2155 FGS CUTTINGS 30 27 45.51 83 24 00.27 Madison 181 154
42 W-2576 FGS CUTTINGS 30 28 09.31 83 23 36.20 Madison 178 175
43 W-2987 FGS CUTTINGS 30 27 06.72 83 24 40.63 Madison 129 185
44 W-3014 FGS CUTTINGS 30 05 43.00 83 14 06.00 Mayo 67 80
45 W-4460 FGS CUTTINGS 30 04 11.02 83 29 03.03 Fenholloway 63 360
46 W-4496 FGS CUTTINGS 30 04 02.82 83 29 31.59 Fenholloway 62 411
47 W-4942 FGS CUTTINGS 30 11 30.01 83 18 51.10 Day 86 175
48 W-5208 FGS CUTTINGS 30 23 33.02 83 11 02.07 Ellaville 60 240








OPEN FILE REPORT NO. 91


Total
Map *Archived Data Data LATITUDE LONGITUDE 1:24,000 Elev. Depth
ID# ID# Source Type DD MM SS DD MM SS Quadrangle (Feet) epet)h

49 W-6359 FGS CUTTINGS 30 04 45.66 83 29 52.11 Fenholloway 62 65
50 W-6534 FGS CUTTINGS 30 08 35.04 83 14 47.01 Dowling Park 68 100
51 W-6858 FGS CUTTINGS 30 09 55.85 83 14 50.67 Dowling Park 58 62
52 W-7231 FGS CUTTINGS 30 28 17.48 83 28 18.85 Madison 95 60
53 W-7232 FGS CUTTINGS 30 28 05.00 83 26 15.00 Madison 110 56
54 W-7234 FGS CUTTINGS 30 28 16.53 83 27 27.19 Madison 140 45
55 W-7641 FGS CUTTINGS 30 27 51.47 83 12 41.09 Ellaville 85 110
56 W-7798 FGS CUTTINGS 30 21 57.15 83 09 34.23 Falmouth 80 370
57 W-7800 FGS CUTTINGS 30 22 07.05 83 09 36.07 Falmouth 70 220
58 W-8078 FGS CUTTINGS 30 28 21.70 83 24 57.06 Madison 190 420
59 W-10300 FGS CUTTINGS 30 28 10.00 83 11 44.00 Ellaville 90 80
60 W-10654 FGS CORE 30 23 53.48 83 10 36.43 Ellaville 57 70
61 W-10655 FGS CORE 30 24 06.01 83 11 52.34 Ellaville 60 42
62 W-10656 FGS CORE 30 25 08.89 83 11 04.21 Ellaville 68 62
63 W-10657 FGS CORE 30 23 01.00 83 10 20.00 Ellaville 65 72
64 W-11753 FGS CUTTINGS 30 15 02.99 83 14 31.08 Falmouth 55 139
65 W-12608 FGS CUTTINGS 30 24 24.00 83 13 52.00 Ellaville 84 120
66 W-12960 FGS CUTTINGS 30 08 14.07 83 19 03.98 Day 86 120
67 W-13024 FGS CUTTINGS 30 22 19.15 83 22 43.07 Madison SW 97 145
68 W-13029 FGS CUTTINGS 30 16 41.04 83 03 04.04 Live Oak West 90 70
69 W-13200 FGS CUTTINGS 30 16 58.40 83 13 23.79 Falmouth 55 24
70 W-13201 FGS CUTTINGS 30 06 26.63 83 16 54.13 Day SE 82 30
71 W-13205 FGS CUTTINGS 30 12 45.10 83 15 45.00 Day 66 27
72 W-13305 FGS CUTTINGS 30 21 18.41 83 07 56.98 Falmouth 75 32
73 W-13366 FGS CUTTINGS 30 22 08.00 83 16 30.00 Madison SE 84 165
74 W-13376 FGS CUTTINGS 30 14 45.07 83 04 27.00 Mayo NE 88 100
75 W-13946 FGS CUTTINGS 30 29 45.91 83 22 26.15 Lee 149 160
76 W-13998 FGS CUTTINGS 30 20 30.00 83 18 34.00 Madison SE 88 35
77 W-14051 FGS CUTTINGS 30 28 10.00 83 26 50.00 Madison 150 165
78 W-14856 FGS CUTTINGS 30 22 12.00 83 28 35.00 Madison SW 110 90
79 W-14866 FGS CUTTINGS 30 06 12.00 83 26 0.00 Fenholloway 80 34
80 W-15803 FGS CORE 30 26 49.00 83 24 07.00 Madison 161 100
81 W-15853 FGS CORE 30 06 20.22 83 26 50.82 Fenholloway 80 98
82 W-15936 FGS CORE 30 28 48.99 83 14 44.36 Ellaville 60 75
83 W-15950 FGS CORE 30 01 08.36 83 25 33.37 Fenholloway 73 28
84 W-15953 FGS CORE 30 04 23.37 83 19 08.24 Day SE 87 42
85 W-15974 FGS CORE 30 20 49.17 83 29 34.40 Madison SW 103 93
86 W-15981 FGS CORE 30 22 18.23 83 13 58.95 Falmouth 71 62
87 W-15982 FGS CORE 30 22 13.90 83 21 44.01 Madison SE 95 45
88 W-15984 FGS CORE 30 24 49.41 83 17 51.41 Lee 80 57
89 W-16508 FGS CUTTINGS 30 05 26.13 83 09 15.66 Mayo 53 25
90 W-16509 FGS CUTTINGS 30 04 42.84 83 06 01.50 Mayo SE 49 15
91 W-16512 FGS CUTTINGS 30 02 33.57 83 05 43.75 Mayo SE 63 25
92 W-16513 FGS CUTTINGS 30 02 33.28 83 06 44.54 Mayo SE 72 98
93 W-16515 FGS CUTTINGS 30 02 49.44 83 04 52.06 Mayo SE 51 20
94 W-16517 FGS CUTTINGS 30 17 50.32 83 01 18.02 Live Oak West 103 18
95 W-16518 FGS CUTTINGS 30 17 26.74 83 00 25.94 Live Oak West 93 75
96 W-16753 FGS CORE 30 25 06.04 83 17 54.01 Lee 92 80
97 W-17902 FGS CORE 30 04 46.53 83 02 45.81 Mayo SE 46 63
98 W-17905 FGS CORE 30 05 11.38 83 02 44.36 Mayo SE 49 63








FLORIDA GEOLOGICAL SURVEY


Total
Map *Archived Data Data LATITUDE LONGITUDE 1:24,000 Elev. Depth
ID# ID# Source Type DD MM SS DD MM SS Quadrangle (Feet) epet)h

99 W-18471 FGS CORE 30 28 28.00 83 15 51.00 Lee 94 172
100 -031223002 SRWMD Water Well 30 12 23.68 83 05 22.34 Mayo NE 90 245
101 -040931001 SRWMD Water Well 30 05 39.99 83 28 09.99 Fenholloway 80 62
102 -050801001 SRWMD Water Well 30 04 35.99 83 29 02.99 Fenholloway 68 393
103 -050801002 SRWMD Water Well 30 04 16.99 83 28 36.99 Fenholloway 65 434
104 -041330007 SRWMD Water Well 30 06 38.99 83 03 34.99 Mayo SE 60 57
105 -041331006 SRWMD Water Well 30 05 49.49 83 03 31.59 Mayo SE 47 87
106 -041333002 SRWMD Water Well 30 05 49.69 83 01 30.89 Mayo SE 71 225
107 -041333003 SRWMD Water Well 30 05 49.49 83 01 00.19 Mayo SE 72 210
108 -041333004 SRWMD Water Well 30 05 23.49 83 01 00.99 Mayo SE 68 240
109 -041329002 SRWMD Water Well 30 06 19.39 83 02 02.39 Mayo SE 69 70
110 -041318010 SRWMD Water Well 30 08 38.99 83 03 46.99 Mayo NE 65 90
111 -041319004 SRWMD Water Well 30 07 44.99 83 03 41.99 Mayo NE 60 150
112 -051332004 SRWMD Water Well 30 00 36.40 83 02 15.99 Mayo SE 45 49
113 -051329001 SRWMD Water Well 30 01 10.38 83 02 39.83 Mayo SE 46 75
114 -051310001 SRWMD Water Well 30 03 27.98 83 00 27.99 Mayo SE 42 115
115 -041305003 SRWMD Water Well 30 09 57.99 83 02 37.99 Mayo NE 90 115
116 -041309001 SRWMD Water Well 30 08 55.99 83 01 01.99 Mayo NE 92 85
117 -041231001 SRWMD Water Well 30 05 29.99 83 09 41.99 Mayo 50 62
118 -051317001 SRWMD Water Well 30 03 19.79 83 02 00.39 Mayo SE 42 69
119 -051306003 SRWMD Water Well 30 04 59.49 83 03 28.49 Mayo SE 45 171
120 -051307003 SRWMD Water Well 30 04 11.84 83 03 09.50 Mayo SE 43 49
121 -041222001 SRWMD Water Well 30 07 28.99 83 06 35.99 Mayo SE 60 90
122 -041136002 SRWMD Water Well 30 05 52.99 83 10 21.99 Mayo 50 55
123 -041202003 SRWMD Water Well 30 09 52.99 83 05 06.99 Mayo NE 70 68
124 -041202004 SRWMD Water Well 30 09 53.99 83 05 45.99 Mayo NE 80 138
125 -051224002 SRWMD Water Well 30 02 12.99 83 04 42.99 Mayo SE 65 165
126 -051230002 SRWMD Water Well 30 00 46.99 83 09 09.99 Mayo 80 69
127 -041212002 SRWMD Water Well 30 09 17.99 83 04 35.99 Mayo NE 55 80
128 -041130001 SRWMD Water Well 30 06 46.99 83 15 29.99 Day SE 70 64
129 -041130002 SRWMD Water Well 30 06 10.99 83 15 28.99 Day SE 75 65
130 -041131002 SRWMD Water Well 30 05 11.80 83 15 28.08 Day SE 77 90
131 -041132004 SRWMD Water Well 30 05 19.99 83 14 39.99 Mayo 70 165
132 -041134002 SRWMD Water Well 30 05 27.99 83 12 37.99 Mayo 58 60
133 -041129004 SRWMD Water Well 30 06 15.99 83 14 42.99 Mayo 64 50
134 -041123003 SRWMD Water Well 30 06 59.99 83 11 25.99 Mayo 55 48
135 -041124005 SRWMD Water Well 30 07 25.99 83 10 07.99 Mayo 55 68
136 -041128001 SRWMD Water Well 30 06 14.99 83 13 24.99 Mayo 51 185
137 -041128002 SRWMD Water Well 30 06 44.99 83 13 52.99 Mayo 48 38
138 -041119006 SRWMD Water Well 30 07 32.98 83 14 56.14 Dowling Park 67 70
139 -051215002 SRWMD Water Well 30 02 37.99 83 06 14.99 Mayo SE 60 180
140 -051204001 SRWMD Water Well 30 04 40.99 83 07 15.99 Mayo SE 52 83
141 -051205001 SRWMD Water Well 30 04 43.60 83 07 54.75 Mayo 74 86
142 -051206002 SRWMD Water Well 30 04 50.99 83 09 12.99 Mayo 60 83
143 -041120004 SRWMD Water Well 30 07 20.99 83 14 16.99 Mayo 50 58
144 -041110002 SRWMD Water Well 30 09 11.99 83 12 18.99 Dowling Park 68 68
145 -041113001 SRWMD Water Well 30 07 58.99 83 10 50.99 Dowling Park 55 115
146 -051116002 SRWMD Water Well 30 03 18.99 83 13 37.99 Mayo 78 84
147 -051124001 SRWMD Water Well 30 02 26.99 83 10 37.99 Mayo 80 55
148 -051202006 SRWMD Water Well 30 04 50.99 83 05 37.99 Mayo SE 50 75








OPEN FILE REPORT NO. 91


Total
Map *Archived Data Data LATITUDE LONGITUDE 1:24,000 Elev. Depth
ID# ID# Source Type DD MM SS DD MM SS Quadrangle (Feet) epet)h

149 -051115010 SRWMD Water Well 30 02 48.99 83 12 17.99 Mayo 80 57
150 -041034003 SRWMD Water Well 30 05 07.99 83 18 14.99 Day SE 85 110
151 -041036002 SRWMD Water Well 30 05 07.99 83 16 55.99 Day SE 80 66
152 -041036003 SRWMD Water Well 30 05 18.99 83 15 58.99 Day SE 80 192
153 -041107002 SRWMD Water Well 30 09 15.99 83 15 19.99 Day 70 160
154 -041025004 SRWMD Water Well 30 06 02.99 83 16 10.99 Day SE 73 120
155 -051112001 SRWMD Water Well 30 03 41.99 83 10 23.99 Mayo 74 170
156 -051113008 SRWMD Water Well 30 02 39.99 83 09 54.99 Mayo 75 40
157 -051114001 SRWMD Water Well 30 03 05.99 83 11 09.99 Mayo 76 60
158 -051101002 SRWMD Water Well 30 04 54.99 83 09 55.99 Mayo 55 100
159 -051101007 SRWMD Water Well 30 04 41.99 83 11 00.99 Mayo 70 175
160 -041016003 SRWMD Water Well 30 08 10.99 83 19 50.99 Day 87 165
161 -041023007 SRWMD Water Well 30 07 28.99 83 18 02.99 Day SE 80 95
162 -041023008 SRWMD Water Well 30 07 17.99 83 17 39.99 Day SE 80 95
163 -041013002 SRWMD Water Well 30 07 49.99 83 16 14.99 Day 80 102
164 -041013005 SRWMD Water Well 30 08 21.99 83 16 27.99 Day 76 123
165 -051106005 SRWMD Water Well 30 04 47.99 83 15 32.99 Day SE 80 191
166 -051001001 SRWMD Water Well 30 04 54.99 83 16 27.99 Day SE 80 98
167 -050906001 SRWMD Water Well 30 04 19.99 83 27 59.99 Fenholloway 71 379
168 -021329008 SRWMD Water Well 30 16 56.99 83 01 53.00 Live Oak West 90 147
169 -031317003 SRWMD Water Well 30 13 52.99 83 02 37.99 Mayo NE 90 125
170 -031319004 SRWMD Water Well 30 12 35.99 83 03 07.99 Mayo NE 88 100
171 -031304004 SRWMD Water Well 30 15 30.99 83 01 01.00 Live Oak West 100 161
172 -021333005 SRWMD Water Well 30 15 59.09 83 01 41.50 Live Oak West 101 86
173 -021327006 SRWMD Water Well 30 16 55.19 83 00 32.70 Live Oak West 95 89
174 -031219001 SRWMD Water Well 30 12 58.99 83 08 53.99 Dowling Park 86 78
175 -031221001 SRWMD Water Well 30 12 17.99 83 07 11.99 Mayo NE 80 105
176 -011329003 SRWMD Water Well 30 22 21.99 83 02 28.00 Live Oak West 100 130
177 -011331004 SRWMD Water Well 30 21 41.99 83 02 52.00 Live Oak West 100 115
178 -031226007 SRWMD Water Well 30 11 18.99 83 05 01.99 Mayo NE 75 180
179 -031205005 SRWMD Water Well 30 15 34.99 83 07 00.00 Falmouth 90 240
180 -011331007 SRWMD Water Well 30 21 21.99 83 03 50.00 Live Oak West 100 120
181 -011333002 SRWMD Water Well 30 21 20.99 83 00 50.00 Live Oak West 148 147
182 -011315001 SRWMD Water Well 30 23 39.19 83 00 40.10 Fort Union 135 205
183 -031129004 SRWMD Water Well 30 11 27.99 83 14 04.99 Dowling Park 60 75
184 -031135003 SRWMD Water Well 30 10 30.99 83 10 59.99 Dowling Park 75 82
185 -031136001 SRWMD Water Well 30 11 14.38 83 10 13.94 Dowling Park 80 78
186 -031203002 SRWMD Water Well 30 15 11.99 83 06 08.00 Live Oak West 90 96
187 -031118005 SRWMD Water Well 30 13 15.99 83 15 32.99 Day 70 132
188 -021321008 SRWMD Water Well 30 17 26.09 83 01 34.00 Live Oak West 99 90
189 -021320007 SRWMD Water Well 30 18 06.99 83 02 17.00 Live Oak West 91 76
190 -021315006 SRWMD Water Well 30 18 41.99 83 00 43.00 Live Oak West 95 120
191 -011233008 SRWMD Water Well 30 20 53.99 83 07 40.00 Falmouth 85 112
192 -011213001 SRWMD Water Well 30 23 33.59 83 03 56.95 Fort Union 108 100
193 -011225001 SRWMD Water Well 30 21 57.99 83 03 55.00 Live Oak West 100 102
194 -031111001 SRWMD Water Well 30 14 22.41 83 11 52.07 Dowling Park 85 84
195 -031113001 SRWMD Water Well 30 13 12.99 83 10 38.99 Dowling Park 87 80
196 -031114001 SRWMD Water Well 30 13 13.63 83 11 08.17 Dowling Park 80 87
197 -021317001 SRWMD Water Well 30 18 34.99 83 01 58.00 Live Oak West 102 108
198 -011226002 SRWMD Water Well 30 21 47.99 83 05 19.00 Live Oak West 100 155








FLORIDA GEOLOGICAL SURVEY


Total
Map *Archived Data Data LATITUDE LONGITUDE 1:24,000 Elev. Depth
ID# ID# Source Type DD MM SS DD MM SS Quadrangle (Feet) epet)h

199 -011230002 SRWMD Water Well 30 21 46.99 83 08 58.00 Falmouth 79 140
200 -011209001 SRWMD Water Well 30 25 12.99 83 06 58.00 Fort Union 89 80
201 -011211002 SRWMD Water Well 30 24 48.99 83 05 17.00 Fort Union 150 160
202 -011203001 SRWMD Water Well 30 25 55.99 83 06 53.00 Fort Union 49 80
203 -031036001 SRWMD Water Well 30 10 26.99 83 16 05.99 Day 80 90
204 -031101001 SRWMD Water Well 30 15 14.99 83 10 02.00 Falmouth 89 160
205 -021305003 SRWMD Water Well 30 20 43.99 83 02 15.00 Live Oak West 101 160
206 -021308001 SRWMD Water Well 30 19 34.99 83 02 25.00 Live Oak West 100 95
207 -021235002 SRWMD Water Well 30 15 40.99 83 05 16.00 Live Oak West 89 104
208 -021231001 SRWMD Water Well 30 16 30.12 83 09 12.47 Falmouth 86 80
209 -011125001 SRWMD Water Well 30 22 02.99 83 10 34.00 Falmouth 72 50
210 -011104003 SRWMD Water Well 30 26 05.99 83 13 55.00 Ellaville 80 75
211 -031026004 SRWMD Water Well 30 11 41.99 83 17 26.99 Day 86 60
212 -031024008 SRWMD Water Well 30 12 55.99 83 16 51.99 Day 80 220
213 -021213001 SRWMD Water Well 30 18 36.99 83 04 43.00 Live Oak West 100 136
214 -021215001 SRWMD Water Well 30 18 48.39 83 06 18.17 Live Oak West 90 87
215 -021217001 SRWMD Water Well 30 18 38.99 83 08 49.00 Falmouth 83 75
216 -021220004 SRWMD Water Well 30 17 36.99 83 08 11.00 Falmouth 85 210
217 -021222001 SRWMD Water Well 30 17 45.86 83 06 05.28 Live Oak West 81 191
218 -021135001 SRWMD Water Well 30 16 03.99 83 11 13.00 Falmouth 80 225
219 -011034001 SRWMD Water Well 30 21 19.99 83 18 11.00 Madison SE 85 85
220 -011035001 SRWMD Water Well 30 20 59.19 83 17 11.40 Madison SE 88 78
221 -011036001 SRWMD Water Well 30 21 03.99 83 16 24.00 Madison SE 92 65
222 -011013001 SRWMD Water Well 30 23 56.99 83 16 29.00 Lee 95 80
223 -021202004 SRWMD Water Well 30 20 34.99 83 05 17.00 Live Oak West 90 100
224 -021204001 SRWMD Water Well 30 20 47.99 83 07 04.00 Live Oak West 81 255
225 -021133001 SRWMD Water Well 30 15 48.99 83 13 27.00 Falmouth 73 84
226 -021127001 SRWMD Water Well 30 16 47.99 83 12 51.00 Falmouth 68 80
227 -011015002 SRWMD Water Well 30 23 52.99 83 18 34.00 Lee 90 82
228 -011016001 SRWMD Water Well 30 23 57.99 83 19 18.00 Lee 93 85
229 -021122001 SRWMD Water Well 30 17 31.99 83 12 07.00 Falmouth 70 75
230 -021125001 SRWMD Water Well 30 16 36.99 83 10 25.00 Falmouth 80 170
231 -021002002 SRWMD Water Well 30 20 23.99 83 18 01.00 Madison SE 92 63
232 -021005002 SRWMD Water Well 30 20 49.99 83 20 05.00 Madison SE 95 65
233 -021008003 SRWMD Water Well 30 19 39.99 83 20 11.99 Madison SE 95 90
234 -011010004 SRWMD Water Well 30 24 38.99 83 18 30.00 Lee 90 75
235 -011004001 SRWMD Water Well 30 25 22.99 83 19 45.00 Lee 98 110
236 -011004006 SRWMD Water Well 30 25 51.99 83 19 32.00 Lee 101 95
237 -011005001 SRWMD Water Well 30 26 05.99 83 20 52.00 Lee 100 145
238 -011005002 SRWMD Water Well 30 25 58.99 83 20 13.00 Lee 95 126
239 -011001001 SRWMD Water Well 30 25 37.99 83 16 58.00 Lee 93 78
240 -011002002 SRWMD Water Well 30 25 23.99 83 17 20.00 Lee 97 92
241 -011002004 SRWMD Water Well 30 25 58.99 83 17 18.00 Lee 102 85
242 -010907001 SRWMD Water Well 30 24 52.99 83 28 01.99 Madison 145 140
243 -031035002 SRWMD Water Well 30 10 23.99 83 17 57.99 Day 82 80
244 -031035004 SRWMD Water Well 30 10 52.99 83 17 33.99 Day 85 80
245 -031205007 SRWMD Water Well 30 14 58.99 83 08 39.00 Dowling Park 95 120
246 -031211002 SRWMD Water Well 30 14 31.99 83 05 11.89 Mayo NE 85 84
247 -031219004 SRWMD Water Well 30 12 48.99 83 07 29.99 Mayo NE 85 138
248 -031303007 SRWMD Water Well 30 15 42.99 83 00 17.00 Live Oak West 100 127








OPEN FILE REPORT NO. 91


Total
Map *Archived Data Data LATITUDE LONGITUDE 1:24,000 Elev. Depth
ID# ID# Source Type DD MM SS DD MM SS Quadrangle (Feet) epet)h

249 -031330002 SRWMD Water Well 30 11 49.99 83 03 40.99 Mayo NE 83 152
250 -041025005 SRWMD Water Well 30 06 05.99 83 16 36.99 Day SE 80 105
251 -041201003 SRWMD Water Well 30 09 32.99 83 03 51.99 Mayo NE 80 120
252 +011017001 SRWMD Water Well 30 28 55.99 83 20 20.00 Lee 100 200
253 -041209003 SRWMD Water Well 30 08 50.99 83 07 41.99 Dowling Park 60 77
254 -041210001 SRWMD Water Well 30 09 00.99 83 06 16.99 Mayo NE 66 66
255 -041226003 SRWMD Water Well 30 06 49.99 83 05 04.99 Mayo SE 50 100
256 -010911005 SRWMD Water Well 30 24 48.99 83 23 24.00 Madison 100 112
257 -031318003 SRWMD Water Well 30 13 01.78 83 03 32.45 Mayo NE 87 140
258 -031318002 SRWMD Water Well 30 13 15.91 83 03 19.99 Mayo NE 87 140
259 +011329001 SRWMD Water Well 30 27 37.99 83 02 34.00 Fort Union 87 190
260 -051108001 SRWMD Water Well 30 03 49.99 83 13 56.99 Mayo 80 140
261 -051203003 SRWMD Water Well 30 05 02.99 83 06 07.99 Mayo SE 45 140
262 -051208001 SRWMD Water Well 30 04 05.59 83 08 16.70 Mayo 69 71
263 +011308001 SRWMD Water Well 30 29 51.99 83 02 15.00 Fort Union 70 146
264 +011316001 SRWMD Water Well 30 29 00.19 83 01 48.70 Fort Union 100 167
265 +011316002 SRWMD Water Well 30 28 47.99 83 01 19.00 Fort Union 89 229
266 +011234001 SRWMD Water Well 30 26 41.99 83 06 52.00 Fort Union 71 71
267 +011216001 SRWMD Water Well 30 29 24.99 83 07 37.00 Ellaville 110 110
268 +011226001 SRWMD Water Well 30 27 10.99 83 05 50.00 Fort Union 60 46
269 +011211005 SRWMD Water Well 30 29 55.99 83 05 33.00 Fort Union 110 130
270 +011208002 SRWMD Water Well 30 29 50.99 83 08 18.00 Ellaville 114 165
271 +011119001 SRWMD Water Well 30 28 03.99 83 15 24.00 Lee 105 120
272 +011121002 SRWMD Water Well 30 27 56.47 83 13 56.92 Ellaville 73 76
273 +011117004 SRWMD Water Well 30 29 29.30 83 14 44.79 Ellaville 70 92
274 +011028003 SRWMD Water Well 30 27 11.82 83 19 56.11 Lee 122 120
275 +011030001 SRWMD Water Well 30 27 37.99 83 21 33.00 Lee 110 165
276 +011034001 SRWMD Water Well 30 26 38.99 83 18 55.00 Lee 100 105
277 +011035002 SRWMD Water Well 30 26 55.99 83 17 27.00 Lee 90 214
278 +011035003 SRWMD Water Well 30 26 31.99 83 17 11.00 Lee 100 85
279 +011109001 SRWMD Water Well 30 29 44.91 83 13 49.68 Ellaville 82 65
280 +011021006 SRWMD Water Well 30 28 07.99 83 19 16.00 Lee 120 177
281 -011223004 SRWMD Water Well 30 22 53.99 83 05 43.00 Fort Union 100 120
282 -011327002 SRWMD Water Well 30 22 35.99 83 0 30.00 Fort Union 150 200
283 -021101002 SRWMD Water Well 30 20 47.99 83 10 48.00 Falmouth 77 82
284 -021113002 SRWMD Water Well 30 18 50.99 83 10 30.00 Falmouth 73 164
285 -021201001 SRWMD Water Well 30 20 02.99 83 04 38.00 Live Oak West 100 175
286 -021229003 SRWMD Water Well 30 16 52.99 83 08 07.00 Falmouth 90 235
287 -021232002 SRWMD Water Well 30 15 56.99 83 08 04.00 Falmouth 90 120
288 -021310006 SRWMD Water Well 30 19 34.99 83 00 07.00 Live Oak West 110 146
289 +010813001 SRWMD Water Well 30 28 48.99 83 28 12.99 Madison 105 115
290 +010813002 SRWMD Water Well 30 29 23.99 83 28 13.99 Madison 110 135
291 -011011020 SRWMD Water Well 30 24 34.99 83 17 31.00 Lee 90 98
292 -011321003 SRWMD Water Well 30 23 12.99 83 01 46.00 Fort Union 120 160
293 +011129002 SRWMD Water Well 30 27 12.99 83 14 28.00 Ellaville 90 170
294 -041315007 SRWMD Water Well 30 08 14.33 83 00 17.52 Mayo NE 92 77
295 -041131006 SRWMD Water Well 30 05 33.99 83 15 39.99 Day SE 75 95
296 -011118007 SRWMD Water Well 30 24 21.99 83 15 46.00 Lee 90 145
297 -011214003 SRWMD Water Well 30 23 54.99 83 05 42.00 Fort Union 100 95
298 +011218001 SRWMD Water Well 30 29 16.99 83 09 18.00 Ellaville 80 125








FLORIDA GEOLOGICAL SURVEY


Total
Map *Archived Data Data LATITUDE LONGITUDE 1:24,000 Elev. Depth
ID# ID# Source Type DD MM SS DD MM SS Quadrangle (Feet) epet)h

299 -051333009 SRWMD Water Well 30 00 09.47 83 01 04.89 Mayo SE 46 50
300 -051333010 SRWMD Water Well 30 00 32.83 83 01 12.78 Mayo SE 38 38
301 -051328002 SRWMD Water Well 30 01 29.72 83 01 26.42 Mayo SE 31 170
302 +010918003 SRWMD Water Well 30 29 14.99 83 27 50.99 Madison 160 135
303 +010922005 SRWMD Water Well 30 28 38.99 83 24 23.00 Madison 150 165
304 -021223003 SRWMD Water Well 30 17 34.99 83 05 15.00 Live Oak West 90 160
305 -041317001 SRWMD Water Well 30 08 17.42 83 02 42.15 Mayo NE 77 63
306 +011117014 SRWMD Water Well 30 28 56.83 83 13 58.24 Ellaville 72 38
307 +011120008 SRWMD Water Well 30 28 35.37 83 14 10.19 Ellaville 69 30
308 +011030002 SRWMD Water Well 30 27 32.89 83 21 08.86 Lee 130 122
309 +011118005 SRWMD Water Well 30 29 19.36 83 15 43.24 Lee 108 115
310 +011130003 SRWMD Water Well 30 27 02.61 83 15 42.78 Lee 98 110
311 -011022006 SRWMD Water Well 30 23 08.99 83 18 29.00 Lee 80 125
312 -021321012 SRWMD Water Well 30 18 09.99 83 01 38.00 Live Oak West 100 130
313 -041222005 SRWMD Water Well 30 07 07.99 83 06 01.99 Mayo SE 50 170
314 -010924001 SRWMD Water Well 30 23 27.99 83 22 59.99 Madison 98 100
315 -051330007 SRWMD Water Well 30 01 33.99 83 03 15.99 Mayo SE 50 75
316 -041129008 SRWMD Water Well 30 06 38.99 83 14 40.99 Mayo 65 245
317 -041132008 SRWMD Water Well 30 05 46.99 83 14 47.99 Mayo 70 120
318 -051001005 SRWMD Water Well 30 04 53.99 83 16 00.99 Day SE 80 173
319 -051111016 SRWMD Water Well 30 04 04.99 83 11 09.99 Mayo 75 145
320 -051207011 SRWMD Water Well 30 04 05.99 83 08 57.99 Mayo 65 130
321 -051214015 SRWMD Water Well 30 03 03.99 83 05 36.99 Mayo SE 60 75
322 -051215004 SRWMD Water Well 30 03 17.99 83 06 01.99 Mayo SE 45 220
323 -051225006 SRWMD Water Well 30 00 57.99 83 04 13.99 Mayo SE 65 225
324 +010915005 SRWMD Water Well 30 29 10.99 83 24 10.00 Madison 140 163
325 +011019005 SRWMD Water Well 30 28 11.99 83 21 16.00 Lee 100 98
326 +010933010 SRWMD Water Well 30 26 37.99 83 25 40.99 Madison 130 130
327 -011001002 SRWMD Water Well 30 25 57.99 83 23 24.00 Madison 100 132
328 -011115001 SRWMD Water Well 30 23 48.99 83 12 22.00 Ellaville 80 170
329 -011120001 SRWMD Water Well 30 22 48.99 83 14 19.00 Ellaville 80 178
330 -041025008 SRWMD Water Well 30 06 26.99 83 16 17.99 Day SE 80 110
331 -041119010 SRWMD Water Well 30 07 32.26 83 15 41.09 Day 75 270
332 -051207010 SRWMD Water Well 30 03 34.99 83 09 01.59 Mayo 75 200
333 -021307003 SRWMD Water Well 30 19 44.99 83 03 48.00 Live Oak West 90 129
334 -031110001 SRWMD Water Well 30 14 04.99 83 12 31.99 Dowling Park 85 195
335 -031223003 SRWMD Water Well 30 12 45.14 83 05 47.30 Mayo NE 90 270
336 -031332004 SRWMD Water Well 30 10 31.99 83 02 42.99 Mayo NE 90 130
337 -011012012 SRWMD Water Well 30 24 25.99 83 16 20.00 Lee 80 95
338 -021309005 SRWMD Water Well 30 19 43.99 83 01 03.00 Live Oak West 100 220
339 -031320002 SRWMD Water Well 30 12 22.99 83 02 32.99 Mayo NE 105 170
340 -031330004 SRWMD Water Well 30 11 43.99 83 03 02.99 Mayo NE 85 220
341 -031330005 SRWMD Water Well 30 11 47.99 83 23 02.99 Day NW 85 165
342 -041305004 SRWMD Water Well 30 10 04.99 83 01 55.99 Mayo NE 90 190
343 +010812001 SRWMD Water Well 30 29 53.99 83 28 52.99 Madison 110 165
344 -041206001 SRWMD Water Well 30 09 56.99 83 09 36.99 Dowling Park 72 200
345 -041206002 SRWMD Water Well 30 09 54.99 83 09 09.99 Dowling Park 74 92
346 -041114004 SRWMD Water Well 30 08 26.99 83 10 56.99 Dowling Park 70 200
347 -031217002 SRWMD Water Well 30 13 49.99 83 08 03.99 Dowling Park 95 142
348 -051322003 SRWMD Water Well 30 02 31.44 83 00 36.35 Mayo SE 50 51








OPEN FILE REPORT NO. 91


Total
Map *Archived Data Data LATITUDE LONGITUDE 1:24,000 Elev. Depth
ID# ID# Source Type DD MM SS DD MM SS Quadrangle (Feet) epet)h

349 -051322002 SRWMD Water Well 30 02 10.80 83 00 10.38 Mayo SE 52 46
350 -051201007 SRWMD Water Well 30 05 06.66 83 04 30.90 Mayo SE 39 40
351 -011309002 SRWMD Water Well 30 25 09.19 83 01 01.20 FortUnion 90 145
352 -051103003 SRWMD Water Well 30 04 56.69 83 12 54.39 Mayo 60 170
353 -051123003 SRWMD Water Well 30 01 57.99 83 10 54.99 Mayo 80 130
354 -051235004 SRWMD Water Well 30 00 42.99 83 04 45.99 Mayo SE 70 50
355 -011106002 SRWMD Water Well 30 25 34.99 83 15 52.00 Lee 90 220
356 -011001003 SRWMD Water Well 30 25 28.99 83 16 29.00 Lee 90 220
357 -011001004 SRWMD Water Well 30 25 56.99 83 16 21.00 Lee 90 220
358 -041111006 SRWMD Water Well 30 09 04.45 83 11 35.20 Dowling Park 74 66
359 -021210004 SRWMD Water Well 30 20 01.43 83 06 52.59 Live Oak West 78 59
360 -021214003 SRWMD Water Well 30 18 56.51 83 05 40.38 Live Oak West 88 74
361 -051210016 SRWMD Water Well 30 04 17.61 83 06 22.58 Mayo SE 57 51
362 -031224004 SRWMD Water Well 30 12 36.30 83 04 29.80 Mayo NE 92 160
363 +011024002 SRWMD Water Well 30 28 06.99 83 16 45.00 Lee 90 200
364 +011024003 SRWMD Water Well 30 28 33.99 83 16 44.00 Lee 110 220
365 -011116003 SRWMD Water Well 30 23 43.99 83 13 43.00 Ellaville 80 195
366 -011319002 SRWMD Water Well 30 22 56.99 83 03 06.00 FortUnion 90 115
367 -021124002 SRWMD Water Well 30 17 54.99 83 10 47.00 Falmouth 80 170
368 -051109008 SRWMD Water Well 30 03 51.46 83 12 57.53 Mayo 79 60
369 +011126002 SRWMD Water Well 30 27 36.99 83 11 12.00 Ellaville 80 295
370 -011121002 SRWMD Water Well 30 22 51.99 83 13 13.00 Ellaville 80 395
371 -011119001 SRWMD Water Well 30 22 34.99 83 15 22.00 Lee 90 95
372 -011121001 SRWMD Water Well 30 22 51.99 83 13 44.00 Ellaville 80 245
373 -011129002 SRWMD Water Well 30 21 59.99 83 14 49.00 Falmouth 80 228
374 -031026008 SRWMD Water Well 30 11 15.99 83 17 24.99 Day 80 90
375 +011135002 SRWMD Water Well 30 26 19.99 83 11 13.00 Ellaville 70 120
376 +011135003 SRWMD Water Well 30 26 52.99 83 11 07.00 Ellaville 70 220
377 +010917002 SRWMD Water Well 30 29 11.99 83 26 12.00 Madison 120 132
378 -011035006 SRWMD Water Well 30 21 44.99 83 18 02.00 Madison SE 90 95
379 +011113005 SRWMD Water Well 30 29 24.99 83 10 28.00 Ellaville 110 150
380 +011226005 SRWMD Water Well 30 27 10.99 83 04 57.00 Fort Union 70 132
381 -011328003 SRWMD Water Well 30 22 39.99 83 01 16.00 Fort Union 130 195
382 -021124001 SRWMD Water Well 30 18 01.99 83 10 23.00 Falmouth 80 270
383 -041322003 SRWMD Water Well 30 07 09.99 83 00 44.99 Mayo SE 80 175
384 -041327001 SRWMD Water Well 30 06 49.99 83 00 29.99 Mayo SE 85 225
385 -051309003 SRWMD Water Well 30 04 12.99 83 00 52.99 Mayo SE 55 140
386 +011126001 SRWMD Water Well 30 27 12.99 83 11 42.00 Ellaville 80 120
387 -011120002 SRWMD Water Well 30 22 25.99 83 14 44.00 Falmouth 80 520
388 -021220005 SRWMD Water Well 30 18 01.99 83 08 44.00 Falmouth 90 152
389 -021228004 SRWMD Water Well 30 16 35.99 83 07 01.00 Live Oak West 90 172
390 +011010002 SRWMD Water Well 30 29 48.99 83 18 42.00 Lee 100 180
391 -041118007 SRWMD Water Well 30 08 28.99 83 15 50.99 Day 75 145
392 -011116005 SRWMD Water Well 30 23 43.99 83 13 13.00 Ellaville 80 148
393 -011116006 SRWMD Water Well 30 24 02.99 83 13 26.00 Ellaville 80 190
394 -011121003 SRWMD Water Well 30 23 17.99 83 13 13.00 Ellaville 80 245
395 -031136003 SRWMD Water Well 30 10 25.99 83 10 10.99 Dowling Park 75 92
396 -031217001 SRWMD Water Well 30 13 21.99 83 08 25.99 Dowling Park 95 195
397 -031219005 SRWMD Water Well 30 12 39.99 83 09 29.99 Dowling Park 80 120
398 +011216007 SRWMD Water Well 30 29 11.99 83 06 55.00 FortUnion 90 145







FLORIDA GEOLOGICAL SURVEY


Total
Map *Archived Data Data LATITUDE LONGITUDE 1:24,000 Elev. Depth
ID# ID# Source Type DD MM SS DD MM SS Quadrangle (Feet) epet)h
399 +011013004 SRWMD Water Well 30 29 25.99 83 16 29.00 Lee 120 180
400 -051211006 SRWMD Water Well 30 03 59.99 83 05 30.99 Mayo SE 45 135
401 -041133005 SRWMD Water Well 30 05 39.99 83 13 15.99 Mayo 60 130
402 -051216013 SRWMD Water Well 30 02 58.99 83 07 18.99 Mayo SE 70 295
403 -021010001 SRWMD Water Well 30 19 14.99 83 18 32.00 Madison SE 90 200
404 -021015004 SRWMD Water Well 30 18 38.99 83 18 32.00 Madison SE 90 245

*NOTE: Suwannee River Water Management District (SRWMD) Archived ID # is the well's
township, range, and section location. The format is as follows: + or indicates township north
(+) versus south (-); there is no need to include an east / west indicator for the range, as the entire
SRWMD is east of the Prime Meridian. Following the +/- are 6 digits representing the township,
range, and section (TTRRSS), and finally a 3 digit unique identifier assigned consecutively to
each well within a given section to differentiate wells with the same +/- and 6 digit number.

For example: -031224004 means Township 03 South, Range 12 East, Section 24, unique well
004.