Assessment of seasonal and year-to-year surface salinity signals retrieved from SMOS and Aquarius missions in the Bay of Bengal

Type Article
Date 2016-03
Language English
Author(s) Akhil V. P.1, Lengaigne Matthieu2, 3, 5, Durand Fabien1, Vialard Jerome3, 5, Chaitanya A. V. S.4, Keerthi M. G.2, Gopalakrishna V. V.4, Boutin Jacqueline3, 5, de Boyer Montegut ClementORCID
Affiliation(s) 1 : IRD, LEGOS, Toulouse, France.
2 : NIO, Indofrench Cell Water Sci, IISc NIO IITM IRD Joint Int Lab, Panaji, Goa, India.
3 : Univ Paris 06, Univ Paris 04, LOCEAN IPSL, CNRS IRD MNHN, Paris, France.
4 : NIO, Panaji, Goa, India.
5 : IFREMER, LOS, Plouzane, France.
Source International Journal Of Remote Sensing (0143-1161) (Taylor & Francis Ltd), 2016-03 , Vol. 37 , N. 5 , P. 1089-1114
DOI 10.1080/01431161.2016.1145362
WOS© Times Cited 20
Abstract The Bay of Bengal (BoB) exhibits a wide range of sea surface salinity (SSS), with very fresh water induced by heavy monsoonal precipitation and river run-offs to the north, and saltier water to the south. This is a particularly challenging region for the application of satellite-derived SSS measurements because of the potential pollution of the SSS signal by radio frequency interference (RFI) and land-induced contamination in this semi-enclosed basin. The present study validates recent level-3 monthly gridded (1° × 1°) SSS products from Soil Moisture and Ocean Salinity (SMOS) and Aquarius missions to an exhaustive in situ SSS product for the BoB. Current SMOS SSS retrievals do not perform better than existing climatologies. This is in stark contrast to Aquarius, which outperforms SMOS and available SSS climatologies everywhere in the BoB. While SMOS only captures the SSS seasonal evolution in the northern part of the Bay, Aquarius accurately captures the seasonal signal in the entire basin. The Aquarius product is also able to capture SSS non-seasonal anomalies, with an approximate correlation (r) of 0.75 with box-averaged in situ data in the northern, central, and western parts of the Bay. Aquarius can, thus, be confidently used to monitor large-scale year-to-year SSS variations in the BoB.
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Akhil V. P., Lengaigne Matthieu, Durand Fabien, Vialard Jerome, Chaitanya A. V. S., Keerthi M. G., Gopalakrishna V. V., Boutin Jacqueline, de Boyer Montegut Clement (2016). Assessment of seasonal and year-to-year surface salinity signals retrieved from SMOS and Aquarius missions in the Bay of Bengal. International Journal Of Remote Sensing, 37(5), 1089-1114. Publisher's official version : https://doi.org/10.1080/01431161.2016.1145362 , Open Access version : https://archimer.ifremer.fr/doc/00319/42986/