Unprecedented Surface Chlorophyll Blooms in the Southeastern Arabian Sea During an Extreme Negative Indian Ocean Dipole

Thushara, V and Vinayachandran, PN (2020) Unprecedented Surface Chlorophyll Blooms in the Southeastern Arabian Sea During an Extreme Negative Indian Ocean Dipole. In: Geophysical Research Letters, 47 (13).

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Abstract

Observations of ocean color in the southeastern Arabian Sea (SEAS) during the late boreal summer and fall of 2016 reveal the highest surface chlorophyll concentrations (>1.0 mg m�3) ever reported in the region in the past two decades of the satellite era. Anomalous chlorophyll blooms were triggered by two cold-core eddies, along the periphery of the coastal upwelling zone. Observational evidence suggest that the eddy formation and propagation can be attributed to the local wind forcing and the remote effects originating around Sri Lanka and the southern tip of India (STI) during the extreme negative Indian Ocean Dipole (IOD) of 2016. The eddy-induced anomalous shoaling of thermocline indicates strong upwelling of subsurface nutrients and chlorophyll and enhanced light availability for phytoplankton growth favoring the observed biological response. The study signifies the unprecedented impacts of extreme climatic events on oceanic chlorophyll and the need for better understanding of the associated biophysical interactions. © 2020. American Geophysical Union. All Rights Reserved.

Item Type:	Journal Article
Publication:	Geophysical Research Letters
Publisher:	Blackwell Publishing Ltd
Additional Information:	The copyright for this article belongs to Blackwell Publishing Ltd.
Keywords:	Earth sciences; Geophysics, Biological response; Indian Ocean dipole; Indian ocean dipoles; Light availability; Phytoplankton growth; Southeastern arabian seas; Surface chlorophyll; Surface chlorophyll concentration, Chlorophyll, algal bloom; chlorophyll; climate effect; extreme event; growth; Indian Ocean Dipole; light availability; ocean color; phytoplankton; shoaling wave; summer; thermocline; upwelling; wind forcing, Arabian Sea; India; Indian Ocean; Sri Lanka
Department/Centre:	Division of Mechanical Sciences > Centre for Atmospheric & Oceanic Sciences
Date Deposited:	15 Nov 2021 09:19
Last Modified:	15 Nov 2021 09:19
URI:	http://eprints.iisc.ac.in/id/eprint/66151

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