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The Floridan Aquifer/Chipola River System Study

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Title: The Floridan Aquifer/Chipola River System Study


1
The Floridan Aquifer/Chipola River System Study
Funded by U.S. Geological Survey National Water
Quality Assessment Program (NAWQA) and Florida
Department of Environmental Protection (FDEP)
  • Christy Crandall
  • U.S. Geological Survey
  • Tallahassee, Florida
  • 850 942-9500 ext. 3030
  • crandall_at_usgs.gov

2
STUDY OBJECTIVES
  • Identify significant sources of nutrients to the
    Floridan aquifer system in the lower ACF basin
    and in the Chipola River basin.
  • Characterize hydrologic and transport processes
    occurring along flowpaths from areas contributing
    recharge to discharge points of interest using a
    ground-water flow and particle tracking model.
  • Use flow and tracking model to match nitrate
    concentrations in ground water from areas
    contributing recharge to 6 NAWQA trend wells,
    Jackson Blue Spring, Baltzell spring group, and
    Sandbag Springsprings that flow into the
    Chipola River.
  • Use the ground-water flow and tracking model to
    test hypothetical scenarios changing management
    practices in using the flow and tracking model.

3
Contaminant occurrence in the Upper Floridan
aquifer and recharging Rivers
  • Purpose of study is to determine
  • Factors affecting nitrate occurrence and
    distribution in the Upper Floridan aquifer in the
    Dougherty Karst Plain
  • Distribution of travel times from recharge to
    discharge
  • Land use effects on nitrate concentrations
  • Transport processes in ground water
  • Effects of Withdrawals on flowpaths and travel
    times

4
Background and Study Area
5
Floridan Aquifer System
  • Vertically contiguous sequence of limestone and
    dolostone of late Paleocene to early Miocene age
    ranging from 0 to 1250 feet thick in the study
    area
  • Sand overlying clay and limestone
  • Clay lenses in places between the sand and
    Limestone
  • Highly potable
  • Contains numerous springs, sinks and other karst
    featureshighly vulnerable.

6
Extent of Floridan
Topography of the Dougherty Karst Plain
7
Floridan Aquifer System in the Dougherty Karst
Plain
  • High rates of direct recharge through sinkholes
    and indirect recharge through overburdenmostly
    sand and silty sand
  • High rates of discharge to large incised streams
    through springs.

8
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9
Flow system Conceptualization
10
Northern Extent of Floridan Aquifer System
  • Confinement--Recharge occurs mainly in unconfined
    and semi-confined areas
  • Potentiometric surfaceflows southward to rivers
    from northern extent

11
  • Ground water makes up the majority of discharge
    during low-flow conditions in the Dougherty Karst
    Plain.
  • For example at least 63 springs identified and
    sampled along the Chipola River.
  • (Barrios and Chellette, 2004)

12
Existing Models 2006
  • Models from Elliott Jones and Lynn Torak 1996
    and 2006
  • MODFE Finite element transient 2-D model
    developed to simulate the effects of 4000
    irrigation wells on baseflow conditiotns in the
    Flint river.

13
Current MODFLOW Active Model-Grid Boundary
Tallahassee
Jones and Torak MODFE Model Boundaries
14
Comparison of Model Features
  • MODFE Developed to simulate the effects of
    irrigation on the Flint/Apalachicola Rivers
    baseflow
  • MODFLOW Developed to simulate nitrate tracking
    and concentrations recharging rivers
  • Steady State (Torak and others, 1996) and then
    1-year transient (1999-2000) (Jones and Torak,
    2006)
  • Variable Element Size
  • 1 layer 2-D model
  • 4000 Wells simulated
  • Steady State
  • Uniform cell-size (1000 m)
  • 2 layer surficial/residuum, UFA fully 3-D model
  • Over 4000 Wells simulated

15
  • MODLFOW model derived the following starting
    parameters where available
  • from Torak and Jones
  • Hydraulic parameters
  • Aquifer tops and bottoms
  • Pumping data
  • Recharge
  • Boundary conditions
  • River and drain stage and conductance
  • Starting heads

16
Boundary Conditions in the MODFLOW Model
17
Simulated Withdrawals in the Upper Floridan
aquifer
18
Model Calibration Data
  • 329 head observations in the Floridan aquifer
  • 65 flow observations including perennial and
    non-perennial streams

19
MODFLOW Budget Components  Flow in CFS
  • CONSTANT HEAD 3,397
  • WELLS 0.00
  • NONPERENNIALS 0.00
  • PERENNIALS 253
  • HEAD DEP 5332
  • RECHARGE 1,909      
  • TOTAL IN 10,890      
  • CONSTANT HEAD 2,772
  • WELLS 810
  • NONPERENNIALS 188
  • PERENNIALS 3124
  • HEAD DEP 3,996
  • RECHARGE 0.00      
  • TOTAL OUT 10,890

20
Simulated UFA Heads
21
Observed v. Simulated Head
22
Simulated v. Observed flows
23
Additional Modeling to define Areas Contributing
Recharge
24
Regional Model
  • UFA broken into 3 layers
  • Local Grid Refinement in areas of interest
  • Karst Features added throughout
  • Sinkhole
  • Conduit layer

25
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26
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27
Local Grid Refinement
28
Local Grid Refinement
  • 12 layers
  • 3 in the surficial
  • 9 in the Floridan
  • Improves flow path accuracy and travel time
    estimates
  • Better areas contributing recharge definition

29
Flow Paths
30
Areas Contributing Recharge and Age of Water
31
Summary
  • Add local grids at Balztell and Sandbag Spring
    Group as well
  • Finalize nitrate travel time estimates and area
    contributing recharge with these models
  • Finish report
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