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Circulation structure and dynamic characteristics of Western Tropical Indian Ocean associated with monsoon transitions.

Authors :
Zhao, Zhangzhe
Wu, Wei
Wang, Minyang
Du, Yan
Source :
Deep-Sea Research Part I, Oceanographic Research Papers. Jan2023, Vol. 191, pN.PAG-N.PAG. 1p.
Publication Year :
2023

Abstract

The circulation structure in the western tropical Indian Ocean (WTIO) was investigated based on surface drifters and Simple Ocean Data Assimilation (SODA), with particular attention to the characteristics of the circulation structure associated with seasonal monsoon transitions. Surface drifter trajectories manifest three distinct seasonally dependent patterns of western boundary currents in the WTIO. The northward Somali Current (SC) flows across the equator to ∼10 °N in the boreal summer (June to August; JJA). The northward SC turns offshore near the equator during monsoon transitions. The southward SC feeds the South Equatorial Countercurrent together with the northward East African Coast Current in the boreal winter (December to February; DJF). While during the monsoon transition (MAM and SON), drifters prefer to turn eastward and feed the strong equatorial currents. Based on satellite observations, the results of a balanced diagnostic model demonstrate that the geostrophic component U ζ and the wind-driven component U τ predominate the mean state and the seasonal variations of circulation in the WTIO. The vertical motion shows that upwelling primarily occurs along the coasts of Somali and Oman and is induced by offshore Ekman transport. Ekman transport and associated vertical motions constitute meridional overturning circulation. The SODA results confirm the existence of an equatorial roll in the boreal summer and winter. The results elucidate the dynamic relationships between 3-D circulation and monsoon transitions in the WTIO. • Drifter trajectories describe three seasonally dependent circulation patterns in the western tropical Indian Ocean. • The geostrophic component U ζ and wind-driven component U τ predominate the mean state and the soasonal variability of circulation. • The 3-D structures, show seasonal variability associated with monsoon transitions. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
09670637
Volume :
191
Database :
Academic Search Index
Journal :
Deep-Sea Research Part I, Oceanographic Research Papers
Publication Type :
Academic Journal
Accession number :
161441931
Full Text :
https://doi.org/10.1016/j.dsr.2022.103943