A combination of sulfur and chlorine stable isotopes (d³⁴S and d³⁷Cl) has been used to investigate salinization processes in a confined aquifer system in southwestern Nobi Plain (SWNP), central Japan. Deduced from the SO₄/Cl ratios and d³⁴S values, a tongue of brackish confined groundwater (Cl^- > 1000 mg/L), which extends from the shoreline of Ise Bay inland, mostly has two salinity sources; One is modern seawater, another is paleo seawater having no SO₄^2- due to sulfate reduction process. The Cl isotopic compositions are negatively correlated with paleo seawater Cl^- concentrations, while they are not correlated with either total Cl^- concentrations or d³⁴S values. Furthermore, Cl^- concentrations from modern seawater are positively correlated with d³⁷Cl values. In addition to these observations, diffusion model calculations suggest that paleo seawater Cl^- has diffused in argillaceous freshwater sediments whereas modern seawater Cl^- has not been affected by preferential diffusion of Cl isotopes because it has migrated by advection via both an unconfined aquifer and non-pumping wells.