Modeling the barrier-layer formation in the southeastern Arabian Sea
Modeling the barrier-layer formation in the southeastern Arabian Sea
The effect of salinity on the formation of the barrier layer (BL) in the southeastern Arabian Sea (SEAS) is investigated using an ocean general circulation model. In accordance with previous studies, the runoff distribution and the India–Sri Lanka passage have a strong impact on the realism of the salinity simulated in the area at seasonal time scales. The model simulates a BL pattern in fairly good agreement with available observations. Eulerian and Lagrangian approaches show that the BL is formed by two complementary processes, the arrival of low-salinity surface waters that are cooled en route to the SEAS and downwelling of waters mostly local to the SEAS in the subsurface layers. The surface waters are partly of Bay of Bengal origin and are partly from the SEAS, but are cooled east and south of Sri Lanka in the model. That the downwelled subsurface waters are warm and are not cooled leads to temperature inversions in the BL. The main forcing for this appears to be remotely forced planetary waves.
2109-2120
Durand, F.
b5a33624-a1eb-493b-9274-c4c0ed104a9c
Shankar, D.
c5c3a7ff-42dc-411f-b19d-1bab90dd82ca
Shenoi, S.S.C.
ddd7f4b3-68d9-42de-8952-c386957ba36e
de Boyer Montégut, C.
de0a6394-c3e9-456e-acf3-80fa4931aa3f
Madec, G.
7e2ec04b-896a-4861-b2d0-b74f39d748c2
Blanke, B.
dd77e15a-ed3c-47bf-a29a-6799189a0873
May 2007
Durand, F.
b5a33624-a1eb-493b-9274-c4c0ed104a9c
Shankar, D.
c5c3a7ff-42dc-411f-b19d-1bab90dd82ca
Shenoi, S.S.C.
ddd7f4b3-68d9-42de-8952-c386957ba36e
de Boyer Montégut, C.
de0a6394-c3e9-456e-acf3-80fa4931aa3f
Madec, G.
7e2ec04b-896a-4861-b2d0-b74f39d748c2
Blanke, B.
dd77e15a-ed3c-47bf-a29a-6799189a0873
Durand, F., Shankar, D., Shenoi, S.S.C., de Boyer Montégut, C., Madec, G. and Blanke, B.
(2007)
Modeling the barrier-layer formation in the southeastern Arabian Sea.
Journal of Climate, 20 (10), .
(doi:10.1175/JCLI4112.1).
Abstract
The effect of salinity on the formation of the barrier layer (BL) in the southeastern Arabian Sea (SEAS) is investigated using an ocean general circulation model. In accordance with previous studies, the runoff distribution and the India–Sri Lanka passage have a strong impact on the realism of the salinity simulated in the area at seasonal time scales. The model simulates a BL pattern in fairly good agreement with available observations. Eulerian and Lagrangian approaches show that the BL is formed by two complementary processes, the arrival of low-salinity surface waters that are cooled en route to the SEAS and downwelling of waters mostly local to the SEAS in the subsurface layers. The surface waters are partly of Bay of Bengal origin and are partly from the SEAS, but are cooled east and south of Sri Lanka in the model. That the downwelled subsurface waters are warm and are not cooled leads to temperature inversions in the BL. The main forcing for this appears to be remotely forced planetary waves.
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Published date: May 2007
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Local EPrints ID: 64337
URI: http://eprints.soton.ac.uk/id/eprint/64337
ISSN: 0894-8755
PURE UUID: 38cf10c7-778a-4482-8fc7-483dfffe5796
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Date deposited: 10 Dec 2008
Last modified: 15 Mar 2024 11:48
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Author:
F. Durand
Author:
D. Shankar
Author:
S.S.C. Shenoi
Author:
C. de Boyer Montégut
Author:
G. Madec
Author:
B. Blanke
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