SMOS Mission Reveals the Salinity Structure of the Indian Ocean Dipole

Author

Nyadjro, Ebenezer S. ; Subrahmanyam, Boyapati

Author_Institution

Pacific Marine Environ. Lab., Nat. Oceanic & Atmos. Adm., Seattle, WA, USA

Volume

11

Issue

9

fYear

2014

fDate

Sept. 2014

Firstpage

1564

Lastpage

1568

Abstract

This letter reports the European Space Agency´s Soil Moisture and Ocean Salinity (SMOS) observations of the sea surface salinity (SSS) structure during an Indian Ocean Dipole (IOD) event. Comparisons with Argo data show that the SMOS satellite is able to resolve the observed SSS pattern in the Indian Ocean despite some challenges in the northern Indian Ocean. Results of box averages for the Java Sumatra Coast (JSC) and South Central Indian Ocean (SCIO) regions show low SSS anomalies in the former and high SSS anomalies in the latter during the 2010 negative IOD event. Analyses of salt flux and salt budget terms suggest that, in the JSC region, salt tendency is an interplay between freshwater forcing and horizontal advection terms, with increased precipitation having a higher impact in driving SSS anomalies than advection. In the SCIO region, advection seems to be more important than the freshwater forcing term.

Keywords

oceanographic regions; remote sensing; salinity (geophysical); AD 2010; Argo data; European Space Agency; Indian ocean dipole; JSC region; Java Sumatra Coast; SCIO region; SMOS mission; SMOS satellite; SSS anomalies; SSS pattern; South Central Indian Ocean; freshwater forcing; negative IOD event; ocean salinity; salinity structure; salt budget; salt flux; soil moisture; Ocean temperature; Satellites; Sea measurements; Sea surface salinity; Spatial resolution; IOD; Indian ocean; SMOS; ocean salinity; salt budget;

fLanguage

English

Journal_Title

Geoscience and Remote Sensing Letters, IEEE

Publisher

ieee

ISSN

1545-598X

Type

jour

DOI

10.1109/LGRS.2014.2301594

Filename

6736092