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3.1.2 Groundwater Availability by Aquifer (charts)
Legend
Range of Sustainable Yield
Projected Demand with 75% Agricultural Use in 2010
Projected Demand with 75% Agricultural Use in 2050
Projected Demand in 2009
MGD: Million Gallons per Day
Paleozoic-rock Aquifer Study Basin
Councils:
- Coosa-North Georgia
- Metro District
Model: Water Budgets
Crystalline-rock Aquifer Study Basins
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Councils:
- Coosa-North Georgia
- Metro District
- Savannah-Upper Ogeechee
- Upper Oconee
- Middle Ocmulgee
- Upper Flint
- Middle Chattahoochee
Model: Water Budgets
Cretaceous Aquifer in Georgia's Coastal Plain
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Councils:
- Savannah-Upper Ogeechee
- Upper Oconee
- Middle Ocmulgee
- Upper Flint
- Suwannee-Satilla
- Altamaha
Model: Sustainable Yield
Claiborne Aquifer in Georgia's Coastal Plain
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Councils:
- Middle Chattahoochee
- Upper Flint
- Lower Flint
- Suwannee-Satilla
Model: Sustainable Yield
Upper Floridan Aquifer: South Central Georgia and Eastern Coastal Plain
(Modeled Together)
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Councils:
- Upper Oconee
- Savannah-Upper Ogeechee
- Altamaha
- Suwannee-Satilla
- Coastal
Model: Sustainable Yield
Coastal Area
The Upper Floridan aquifer along the coast was intensively studied before regional water planning began. EPD's 7-year study of coastal groundwater has shown that, in some parts of the region, availability is limited by movement of saltwater into the aquifer.
Upper Floridan Aquifer: Dougherty Plain
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Councils:
- Upper Flint
- Lower Flint
- Suwannee-Satilla
Model: Sustainable Yield
Upper Floridan Aquifer: South Central Georgia
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Councils:
- Upper Flint
- Lower Flint
- Suwannee-Satilla
- Middle Ocmulgee
- Altamaha
Model: Sustainable Yield