Recent salinification in the Southern Adriatic: remote drivers and local impacts

We investigate the remote drivers and local impacts of the recent anomalous high salinity values  observed in the Southern Adriatic by using a multi-platform data   approach that combines in situ measurements, satellite products and model reanalysis. First, we quantify the relative importance  of local atmospheric forcing and remote advective processes in shaping the decadal salinity evolution of the Eastern Mediterranean that in turn affects Adriatic. In fact, in the Levantine and Cretan basins, strong evaporation  links a dramatic warming of the area, extreme marine–atmospheric heatwaves,  and circulation changes in the Ionian Sea, drives  the formation and persistence of anomalous saltier surface and intermediate waters in the area. Then  these high salinity Levantine-origin waters flow  into the Adriatic Sea through the Otranto strait contributing to the anomalous salinity values observed in the area  and to enhance dense-water formation processes. Our results support the hypothesis  that the recent Adriatic salinification is primarily controlled by basin-scale thermohaline circulation changes rather than pure local atmospheric  forcing, with important implications for Eastern Mediterranean deep-water formation, biogeochemical cycles, and the sensitivity of the system to ongoing climate change.