Author:
Olmedo Estrella,Turiel Antonio,González-Gambau Verónica,González-Haro Cristina,García-Espriu Aina,Gabarró Carolina,Portabella Marcos,Corbella Ignasi,Martín-Neira Manuel,Arias Manuel,Catany Rafael,Sabia Roberto,Oliva Roger,Scipal Klaus
Abstract
AbstractChanges in the Earth’s water cycle can be estimated by analyzing sea surface salinity. This variable reflects the balance between precipitation and evaporation over the ocean, since the upper layers of the ocean are the most sensitive to atmosphere–ocean interactions. In situ measurements lack spatial and temporal synopticity and are typically acquired at few meters below the surface. Satellite measurements, on the contrary, are synoptic, repetitive and acquired at the surface. Here we show that the satellite-derived sea surface salinity measurements evidence an intensification of the water cycle (the freshest waters become fresher and vice-versa) which is not observed at the in-situ near-surface salinity measurements. The largest positive differences between surface and near-surface salinity trends are located over regions characterized by a decrease in the mixed layer depth and the sea surface wind speed, and an increase in sea surface temperature, which is consistent with an increased stratification of the water column due to global warming. These results highlight the crucial importance of using satellites to unveil critical changes on ocean–atmosphere fluxes.
Publisher
Springer Science and Business Media LLC
Cited by
9 articles.
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