Title :
Global analysis of sea surface salinity variability from satellite data
Author :
Michel, S. ; Chapron, B. ; Tournadre, J. ; Reul, N.
Author_Institution :
Lab. d´Oceanographie Spatiale, IFREMER, Plouzane, France
Abstract :
An integral model of the oceanic mixed layer is used to estimate the sea surface salinity anomalies caused by atmospheric heat fluxes, evaporation-precipitation budget, wind friction and geostrophic circulation. Input parameters are air-sea fluxes, wind stress, sea surface temperature from a meteorological model and geostrophic velocity derived from several altimeters measurements. The model is tested using daily climatological forcing fields, in terms of amplitude and spatial distribution of the salinity response. The horizontal transport variations are the first cause of salinity variability, but that the fresh water flux or the deep mixing can dominate locally.
Keywords :
atmospheric precipitation; atmospheric temperature; evaporation; ocean temperature; remote sensing; wind; SSS; altimeters measurements; amplitude distribution; atmospheric heat fluxes; daily climatological forcing fields; deep mixing; evaporation-precipitation budget; fresh water flux; geostrophic circulation; geostrophic velocity; global analysis; horizontal transport variations; integral model; meteorological model; oceanic mixed layer; satellite data; sea surface salinity variability; sea surface temperature; spatial distribution; wind friction; Atmospheric measurements; Atmospheric modeling; Friction; Meteorology; Ocean temperature; Satellites; Sea measurements; Sea surface; Sea surface salinity; Stress;
Conference_Titel :
Oceans 2005 - Europe
Conference_Location :
Brest, France
Print_ISBN :
0-7803-9103-9
DOI :
10.1109/OCEANSE.2005.1511676
