SOLUTE-TRANSPORT MODELING IN SUPPORT OF MANAGEMENT OF SALTWATER INTRUSION IN THE SAVANNAH, GEORGIA—HILTON HEAD ISLAND, SOUTH CAROLINA, AREA
Initially, the model was used to examine how variations in the conceptual model and different initial conditions affect current and future extent of saltwater migration. Numerical simulations were then used to test the effects of variable pumpage reductions in the Savannah and Hilton Head Island areas on the movement of saltwater migration and distribution in the Upper Floridan aquifer at and near Hilton Head Island. Simulation results indicate that (1) pumping in both the Savannah and Hilton Head Island area contributes to saltwater intrusion; (2) substantial reductions may be required to stop all plume expansion and salinity increase; (3) even if all pumping in the area is eliminated, the existing saltwater may persist for the foreseeable future.
Simulation results must be interpreted in light of uncertainties and approximations inherent in the formulation of the model. These limitations, however, do not invalidate the model results or interpretation thereof. This type of model is a valuable tool for adaptive management strategies.