Toward an Enhanced SMOS Level-2 Ocean Salinity Product

Estrella Olmedo; Veronica Gonzalez-Gambau; Antonio Turiel; Sebastien Guimbard; Cristina Gonzalez-Haro; Justino Martinez; Carolina Gabarro; Marcos Portabella; Manuel Arias; Roberto Sabia; Roger Oliva; Ignasi Corbella

doi:10.1109/JSTARS.2020.3034432

IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing (Jan 2020)

Toward an Enhanced SMOS Level-2 Ocean Salinity Product

Estrella Olmedo,
Veronica Gonzalez-Gambau,
Antonio Turiel,
Sebastien Guimbard,
Cristina Gonzalez-Haro,
Justino Martinez,
Carolina Gabarro,
Marcos Portabella,
Manuel Arias,
Roberto Sabia,
Roger Oliva,
Ignasi Corbella

Affiliations

Estrella Olmedo: ORCiD; BEC & Institute of Marine Sciences (ICM), CSIC, Barcelona, Spain
Veronica Gonzalez-Gambau: ORCiD; BEC & Institute of Marine Sciences (ICM), CSIC, Barcelona, Spain
Antonio Turiel: ORCiD; BEC & Institute of Marine Sciences (ICM), CSIC, Barcelona, Spain
Sebastien Guimbard: OceanScope, Plouzané, Brest, France
Cristina Gonzalez-Haro: BEC & Institute of Marine Sciences (ICM), CSIC, Barcelona, Spain
Justino Martinez: ORCiD; BEC & Institute of Marine Sciences (ICM), CSIC, Barcelona, Spain
Carolina Gabarro: BEC & Institute of Marine Sciences (ICM), CSIC, Barcelona, Spain
Marcos Portabella: ORCiD; BEC & Institute of Marine Sciences (ICM), CSIC, Barcelona, Spain
Manuel Arias: ORCiD; Argans, Derriford, Plymouth, U.K.
Roberto Sabia: Telespazio-Vega UK Ltd., for ESA-ESRIN, Largo Galileo Galilei 1, Frascati, Italy
Roger Oliva: ORCiD; Zenithal Blue Technologies, Barcelona, Spain
Ignasi Corbella: ORCiD; BEC & Institute of Marine Sciences (ICM), CSIC, Barcelona, Spain

DOI: https://doi.org/10.1109/JSTARS.2020.3034432
Journal volume & issue: Vol. 13
pp. 6434 – 6453

Abstract

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The quality of the Soil Moisture and Ocean Salinity (SMOS) sea surface salinity (SSS) measurements has been noticeably improved in the past years. However, for some applications, there are still some limitations in the use of the Level-2 ocean salinity product. First, the SSS measurements are still affected by a latitudinal and seasonal bias. Second, the high standard deviation of the SSS error could significantly degrade part of the SSS signal. Finally, the coverage of the Level-2 salinity measurements is significantly reduced after applying filtering criteria to discard the poor-quality retrievals. In this work, we apply nodal sampling to the SMOS brightness temperatures (TBs), which effectively reduces the standard deviation of the TB error; then, we use debiased non-Bayesian retrieval for the mitigation of systematic biases on SSS and the statistical filtering criteria of the degraded salinity retrievals; and finally, we comprehensively characterize the residual latitudinal and seasonal biases and derive a correction for the retrieved SSS. We generate three years of an enhanced SMOS Level-2 Ocean Salinity product and we compare its performances with the ones corresponding to the European Space Agency SMOS Level-2 Ocean Salinity product (v662).

Published in IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing

ISSN: 1939-1404 (Print); 2151-1535 (Online)
Publisher: IEEE
Country of publisher: United States
LCC subjects: Technology: Ocean engineering; Science: Physics: Geophysics. Cosmic physics
Website: https://ieeexplore.ieee.org/xpl/RecentIssue.jsp?punumber=4609443

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