The influence of the Bering Strait on the circulation in a coarse resolution global ocean model

An ocean general circulation model of global domain, full continental geometry and bottom topography, is used to study the influence of the Bering Strait on the general circulation by comparing equilibrium solutions obtained with and without a land-bridge between Siberia and Alaska. The model is int...

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Published in:	Climate Dynamics
Main Authors:	Reason, C. J. C., Power, S. B.
Format:	Article in Journal/Newspaper
Language:	unknown
Published:	Springer 1994
Subjects:	boundary conditions GCM general circulation model ocean model salinity straits temperature Antarctic Arctic Arctic Ocean Bering Strait Indian Pacific Antarc* North Atlantic Deep Water North Atlantic Alaska Siberia
Online Access:	https://research.usq.edu.au/item/q6wyz/the-influence-of-the-bering-strait-on-the-circulation-in-a-coarse-resolution-global-ocean-model https://doi.org/10.1007/BF00223448

id	ftusqland:oai:research.usq.edu.au:q6wyz
record_format	openpolar
spelling	ftusqland:oai:research.usq.edu.au:q6wyz 2023-08-27T04:05:20+02:00 The influence of the Bering Strait on the circulation in a coarse resolution global ocean model Reason, C. J. C. Power, S. B. 1994 https://research.usq.edu.au/item/q6wyz/the-influence-of-the-bering-strait-on-the-circulation-in-a-coarse-resolution-global-ocean-model https://doi.org/10.1007/BF00223448 unknown Springer https://doi.org/10.1007/BF00223448 Reason, C. J. C. and Power, S. B. 1994. "The influence of the Bering Strait on the circulation in a coarse resolution global ocean model." Climate Dynamics. 9 (7), pp. 363-369. https://doi.org/10.1007/BF00223448 boundary conditions GCM general circulation model ocean model salinity straits temperature article PeerReviewed 1994 ftusqland https://doi.org/10.1007/BF00223448 2023-08-07T22:32:45Z An ocean general circulation model of global domain, full continental geometry and bottom topography, is used to study the influence of the Bering Strait on the general circulation by comparing equilibrium solutions obtained with and without a land-bridge between Siberia and Alaska. The model is integrated with restoring boundary conditions (BC) on temperature and salinity, and later, with mixed BC in which a restoring BC on temperature is maintained but a specified flux condition on salinity is imposed. In both cases, the effect of the Bering Strait is to allow a flow of about 1.25-1.5 Sv from the North Pacific to the Arctic Ocean and, ultimately, back to the North Pacific along the western boundary current regions of the Atlantic and Indian Oceans. When a restoring BC on salinity is used, the overturning associated with North Atlantic Deep Water and Antarctic Intermediate Water formation are increased if the Bering Strait is present in the model geometry. The result of switching to a specified flux BC on salinity is to cause a transition in the THC in which the overturning associated with North Atlantic Deep Water formation increases from about 12 Sv to about 22 Sv. This transition occurs in an essentially smooth fashion with no significant variability and is about 12% smaller in magnitude if the Bering Strait is present in the model geometry. Because the Bering Strait appears to exert some influence on the general circulation and the formation of deep water masses, it is recommended that this Strait be included in the geometry of similar resolution models designed to study the deep ocean and potential changes in climate. \textcopyright 1994 Springer-Verlag. , annote = cited By 25 Article in Journal/Newspaper Antarc* Antarctic Arctic Arctic Ocean Bering Strait North Atlantic Deep Water North Atlantic Alaska Siberia University of Southern Queensland: USQ ePrints Antarctic Arctic Arctic Ocean Bering Strait Indian Pacific Climate Dynamics 9 7 363 369
institution	Open Polar
collection	University of Southern Queensland: USQ ePrints
op_collection_id	ftusqland
language	unknown
topic	boundary conditions GCM general circulation model ocean model salinity straits temperature
spellingShingle	boundary conditions GCM general circulation model ocean model salinity straits temperature Reason, C. J. C. Power, S. B. The influence of the Bering Strait on the circulation in a coarse resolution global ocean model
topic_facet	boundary conditions GCM general circulation model ocean model salinity straits temperature
description	An ocean general circulation model of global domain, full continental geometry and bottom topography, is used to study the influence of the Bering Strait on the general circulation by comparing equilibrium solutions obtained with and without a land-bridge between Siberia and Alaska. The model is integrated with restoring boundary conditions (BC) on temperature and salinity, and later, with mixed BC in which a restoring BC on temperature is maintained but a specified flux condition on salinity is imposed. In both cases, the effect of the Bering Strait is to allow a flow of about 1.25-1.5 Sv from the North Pacific to the Arctic Ocean and, ultimately, back to the North Pacific along the western boundary current regions of the Atlantic and Indian Oceans. When a restoring BC on salinity is used, the overturning associated with North Atlantic Deep Water and Antarctic Intermediate Water formation are increased if the Bering Strait is present in the model geometry. The result of switching to a specified flux BC on salinity is to cause a transition in the THC in which the overturning associated with North Atlantic Deep Water formation increases from about 12 Sv to about 22 Sv. This transition occurs in an essentially smooth fashion with no significant variability and is about 12% smaller in magnitude if the Bering Strait is present in the model geometry. Because the Bering Strait appears to exert some influence on the general circulation and the formation of deep water masses, it is recommended that this Strait be included in the geometry of similar resolution models designed to study the deep ocean and potential changes in climate. \textcopyright 1994 Springer-Verlag. , annote = cited By 25
format	Article in Journal/Newspaper
author	Reason, C. J. C. Power, S. B.
author_facet	Reason, C. J. C. Power, S. B.
author_sort	Reason, C. J. C.
title	The influence of the Bering Strait on the circulation in a coarse resolution global ocean model
title_short	The influence of the Bering Strait on the circulation in a coarse resolution global ocean model
title_full	The influence of the Bering Strait on the circulation in a coarse resolution global ocean model
title_fullStr	The influence of the Bering Strait on the circulation in a coarse resolution global ocean model
title_full_unstemmed	The influence of the Bering Strait on the circulation in a coarse resolution global ocean model
title_sort	influence of the bering strait on the circulation in a coarse resolution global ocean model
publisher	Springer
publishDate	1994
url	https://research.usq.edu.au/item/q6wyz/the-influence-of-the-bering-strait-on-the-circulation-in-a-coarse-resolution-global-ocean-model https://doi.org/10.1007/BF00223448
geographic	Antarctic Arctic Arctic Ocean Bering Strait Indian Pacific
geographic_facet	Antarctic Arctic Arctic Ocean Bering Strait Indian Pacific
genre	Antarc* Antarctic Arctic Arctic Ocean Bering Strait North Atlantic Deep Water North Atlantic Alaska Siberia
genre_facet	Antarc* Antarctic Arctic Arctic Ocean Bering Strait North Atlantic Deep Water North Atlantic Alaska Siberia
op_relation	https://doi.org/10.1007/BF00223448 Reason, C. J. C. and Power, S. B. 1994. "The influence of the Bering Strait on the circulation in a coarse resolution global ocean model." Climate Dynamics. 9 (7), pp. 363-369. https://doi.org/10.1007/BF00223448
op_doi	https://doi.org/10.1007/BF00223448
container_title	Climate Dynamics
container_volume	9
container_issue	7
container_start_page	363
op_container_end_page	369
_version_	1775357018833420288

The influence of the Bering Strait on the circulation in a coarse resolution global ocean model

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