The Kuroshio Extension and its recirculation gyres
The Kuroshio Extension and its recirculation gyres
This paper reports on the strength and structure of the Kuroshio Extension and its recirculation gyres. In the time average, quasi-permanent recirculation gyres are found to the north and south of the Kuroshio Extension jet. The characteristics of these recirculations gyres are determined from the combined observations from the Kuroshio Extension System Study (KESS) field program (June 2004–June 2006) and include current meters, pressure and current recording inverted echo sounders, and subsurface floats. The position and strength of the recirculation gyres simulated by a high- resolution numerical model are found to be consistent with the observations. The circulation pattern that is revealed is of a complex system of multiple recirculation gyres that are embedded in the crests and troughs of the quasi-permanent meanders of the Kuroshio Extension. At the location of the KESS array, the Kuroshio Extension jet and its recirculation gyres transport of about 114 Sv. This represents a 2.7-fold increase in the transport of the current compared to the Kuroshio’s transport at Cape Ashizuri before it separates from the coast and flows eastward into the open ocean. This enhancement in the current’s transport comes from the development of the flanking recirculation gyres. Estimates from an array of inverted echo sounders and a high-resolution ocean general circulation model are of similar magnitude.
2088-2099
Jayne, Steven R.
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Hogg, Nelson G.
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Waterman, Stephanie N.
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Rainville, Luc
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Donohue, Kathleen A.
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Watts, D. Randolph
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Tracy, Karen L.
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McClean, Julie L.
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Maltrud, Mathew E.
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Qiu, Bo
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Chen, Shuiming
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Hacker, Peter
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December 2009
Jayne, Steven R.
c0b33381-6870-4fb9-8361-6dcad0ba4a07
Hogg, Nelson G.
74f68d23-50f5-4150-8669-022d78d27a83
Waterman, Stephanie N.
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Rainville, Luc
a0938978-f0dc-41f8-b923-3e628550b99f
Donohue, Kathleen A.
c5b68374-bcbe-443b-aa83-9b4e533a8bbd
Watts, D. Randolph
b4ad7741-d42a-4c21-8162-0a0033eeea4f
Tracy, Karen L.
62d870ff-b788-46cd-81d4-463623fc79f2
McClean, Julie L.
42dbbabc-6679-45bd-b581-bf7bcefea10d
Maltrud, Mathew E.
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Qiu, Bo
d7e28909-ae71-4735-87d5-325e0f25c571
Chen, Shuiming
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Hacker, Peter
6f48a4db-87ec-4df4-96aa-b30d03d994d0
Jayne, Steven R., Hogg, Nelson G., Waterman, Stephanie N., Rainville, Luc, Donohue, Kathleen A., Watts, D. Randolph, Tracy, Karen L., McClean, Julie L., Maltrud, Mathew E., Qiu, Bo, Chen, Shuiming and Hacker, Peter
(2009)
The Kuroshio Extension and its recirculation gyres.
Deep Sea Research Part I: Oceanographic Research Papers, 56 (12), .
(doi:10.1016/j.dsr.2009.08.006).
Abstract
This paper reports on the strength and structure of the Kuroshio Extension and its recirculation gyres. In the time average, quasi-permanent recirculation gyres are found to the north and south of the Kuroshio Extension jet. The characteristics of these recirculations gyres are determined from the combined observations from the Kuroshio Extension System Study (KESS) field program (June 2004–June 2006) and include current meters, pressure and current recording inverted echo sounders, and subsurface floats. The position and strength of the recirculation gyres simulated by a high- resolution numerical model are found to be consistent with the observations. The circulation pattern that is revealed is of a complex system of multiple recirculation gyres that are embedded in the crests and troughs of the quasi-permanent meanders of the Kuroshio Extension. At the location of the KESS array, the Kuroshio Extension jet and its recirculation gyres transport of about 114 Sv. This represents a 2.7-fold increase in the transport of the current compared to the Kuroshio’s transport at Cape Ashizuri before it separates from the coast and flows eastward into the open ocean. This enhancement in the current’s transport comes from the development of the flanking recirculation gyres. Estimates from an array of inverted echo sounders and a high-resolution ocean general circulation model are of similar magnitude.
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Published date: December 2009
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Local EPrints ID: 72014
URI: http://eprints.soton.ac.uk/id/eprint/72014
ISSN: 0967-0637
PURE UUID: 5e24ffea-0bb5-4bf4-bf84-e97cbf1e18bf
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Date deposited: 14 Jan 2010
Last modified: 13 Mar 2024 20:56
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Contributors
Author:
Steven R. Jayne
Author:
Nelson G. Hogg
Author:
Stephanie N. Waterman
Author:
Luc Rainville
Author:
Kathleen A. Donohue
Author:
D. Randolph Watts
Author:
Karen L. Tracy
Author:
Julie L. McClean
Author:
Mathew E. Maltrud
Author:
Bo Qiu
Author:
Shuiming Chen
Author:
Peter Hacker
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