The Wintertime Water Mass Formation in the Northern Arabian Sea: A Model Study

Prasad, T. G.; Ikeda, M.

Source: Journal of Physical Oceanography:;2002:;Volume( 032 ):;issue: 003::page 1028

Author:

Prasad, T. G.

Ikeda, M.

DOI: 10.1175/1520-0485(2002)032<1028:TWWMFI>2.0.CO;2

Publisher: American Meteorological Society

Abstract: Using a level 2 one-dimensional turbulent closure model, the evolution of the Arabian Sea High Salinity Water mass (ASHSW) has been studied. Model-derived heat fluxes, sea surface temperature (SST), and mixed layer depths (MLD) are found to be in reasonable agreement with the observations. Winter cooling is characterized by a net heat loss of 40 W m?2 from the ocean, while there is a mild heat loss in summer. Wind-driven turbulent mixing is considerably stronger than buoyancy forcing during the summer monsoon and explains the mechanism for governing deep MLD and cool SST. During winter, a large latent heat release by the ocean due to prevailing dry air from the north, together with reduced solar radiation and increased longwave radiation due to lower cloudiness, decreases the net heat flux considerably. Negative buoyancy flux plays a major role in the formation of ASHSW during winter, while kinetic energy-driven vertical mixing is relatively weaker than during the summer monsoon. A sensitivity test has confirmed that the humidity plays an important role in the heat budget of the northern Arabian Sea during winter.

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The Wintertime Water Mass Formation in the Northern Arabian Sea: A Model Study

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http://yetl.yabesh.ir/yetl1/handle/yetl/4166904

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Journal of Physical Oceanography

contributor author	Prasad, T. G.
contributor author	Ikeda, M.
date accessioned	2017-06-09T14:55:09Z
date available	2017-06-09T14:55:09Z
date copyright	2002/03/01
date issued	2002
identifier issn	0022-3670
identifier other	ams-29653.pdf
identifier uri	http://onlinelibrary.yabesh.ir/handle/yetl/4166904
description abstract	Using a level 2 one-dimensional turbulent closure model, the evolution of the Arabian Sea High Salinity Water mass (ASHSW) has been studied. Model-derived heat fluxes, sea surface temperature (SST), and mixed layer depths (MLD) are found to be in reasonable agreement with the observations. Winter cooling is characterized by a net heat loss of 40 W m?2 from the ocean, while there is a mild heat loss in summer. Wind-driven turbulent mixing is considerably stronger than buoyancy forcing during the summer monsoon and explains the mechanism for governing deep MLD and cool SST. During winter, a large latent heat release by the ocean due to prevailing dry air from the north, together with reduced solar radiation and increased longwave radiation due to lower cloudiness, decreases the net heat flux considerably. Negative buoyancy flux plays a major role in the formation of ASHSW during winter, while kinetic energy-driven vertical mixing is relatively weaker than during the summer monsoon. A sensitivity test has confirmed that the humidity plays an important role in the heat budget of the northern Arabian Sea during winter.
publisher	American Meteorological Society
title	The Wintertime Water Mass Formation in the Northern Arabian Sea: A Model Study
type	Journal Paper
journal volume	32
journal issue	3
journal title	Journal of Physical Oceanography
identifier doi	10.1175/1520-0485(2002)032<1028:TWWMFI>2.0.CO;2
journal fristpage	1028
journal lastpage	1040
tree	Journal of Physical Oceanography:;2002:;Volume( 032 ):;issue: 003
contenttype	Fulltext

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