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Controlling factors of the oxygen balance in the Arabian Sea's OMZ

DRS at CSIR-National Institute of Oceanography

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Title Controlling factors of the oxygen balance in the Arabian Sea's OMZ
 
Creator Resplandy, L.
Levy, M.
Bopp, L.
Echevin, V.
Pous, S.
Sarma, V.V.S.S.
Kumar, M.D.
 
Subject climate change
oxygen minimum layer
productivity
 
Description The expansion of OMZs (oxygen minimum zones) due to climate change and their possible evolution and impacts on the ecosystems and the atmosphere are still debated, mostly because of the inability of global climate models to adequately reproduce the processes governing OMZs. In this study, we examine the factors controlling the oxygen budget, i.e. the equilibrium between oxygen sources and sinks in the northern Arabian Sea OMZ using an eddy-resolving biophysical model. Our model confirms that the biological consumption of oxygen is most intense below the region of highest productivity in the western Arabian Sea. The oxygen draw-down in this region is counterbalanced by the large supply of oxygenated waters originated from the south and advected horizontally by the western boundary current. Although the biological sink and the dynamical sources of oxygen compensate on annual average, we find that the seasonality of the dynamical transport of oxygen is 3 to 5 times larger than the seasonality of the biological sink. In agreement with previous findings, the resulting seasonality of oxygen concentration in the OMZ is relatively weak, with a variability of the order of 15 percent of the annual mean oxygen concentration in the oxycline and 5 percent elsewhere. This seasonality primarily arises from the vertical displacement of the OMZ forced by the monsoonal reversal of Ekman pumping across the basin. In coastal areas, the oxygen concentration is also modulated seasonally by lateral advection. Along the western coast of the Arabian Sea, the Somali Current transports oxygen-rich waters originated from the south during summer and oxygen-poor waters from the northeast during winter. Along the eastern coast of the Arabian Sea, we find that the main contributor to lateral advection in the OMZ is the Indian coastal undercurrent that advects southern oxygenated waters during summer and northern low-oxygen waters during winter. In this region, our model indicates that oxygen concentrations are modulated seasonally by coastal Kelvin waves and westward-propagating Rossby waves.
 
Date 2013-02-01T09:24:43Z
2013-02-01T09:24:43Z
2012
 
Type Journal Article
 
Identifier Biogeosciences, vol.9; 2012; 5095-5109
http://drs.nio.org/drs/handle/2264/4229
 
Language en
 
Rights © Author(s) 2012. CC Attribution 3.0 License
 
Publisher European Geosciences Union