The upper aquifer near Dorado, Puerto Rico, is a major source of water for both public and private supply. The aquifer is composed of portions of the Aguada Limestone, Aymam6n Limestone, and adjacent permeable portions of unconsolidated deposits. As water moves through the aquifer it changes from a calcium-bicarbonate type water in the upgradient portions of the aquifer to a sodium-chloride type water in the downgradient portions of the aquifer near the coast. Pumping from the aquifer for industrial use and public supply has lowered the water table to near sea level in some areas, causing saline intrusion to be a concern. The saline-freshwater interface was located by drilling and borehole geophysics. Drilling and borehole geophysics helped locate the lower limit of the aquifer. The saline-freshwater interface is narrow close to the coast and thickens with distance from the coast. Ground-water hydrographs in the study area were simulated with a deterministic model that allows net recharge to be calculated from precipitation data and ground water level data. Calculated net recharge rates ranged from 160 millimeters per year in 1995 at the Santa Rosa well site to 260 millimeters per year in 1996 at the Maguayo well site.