Seasonal Variability in Middepth Gyral Circulation Patterns in the Central East/Japan Sea as Revealed by Long-Term Argo Data

Trajectories of Argo floats deployed in the East/Japan Sea from 2001 to 2014 reveal that the middepth gyral circulation pattern of the Japan basin, the central part of the East/Japan Sea, undergoes a seasonal variation. The middepth circulation of the Japan basin is found to be characterized usually...

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Published inJournal of physical oceanography Vol. 46; no. 3; pp. 937 - 946
Main Authors Kang, Sok Kuh, Seung, Young Ho, Park, Jong Jin, Park, Jae-Hun, Lee, Jae Hak, Kim, Eun Jin, Kim, Young Ho, Suk, Moon-Sik
Format Journal Article
LanguageEnglish
Published Boston American Meteorological Society 01.03.2016
Subjects
Circulation
Circulation patterns
Cold
Drifters
Floats
Gyres
Isobaths
Marine
Meteorology
Seasonal variability
Seasonal variation
Seasonal variations
Time series
Topographic effects
Topography
Water circulation
Water column
Wind
Wind stress
Wind stress curl
Winter
Japan
INW, Japan Sea
INW, Japan Sea, Japan Basin
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Summary:Trajectories of Argo floats deployed in the East/Japan Sea from 2001 to 2014 reveal that the middepth gyral circulation pattern of the Japan basin, the central part of the East/Japan Sea, undergoes a seasonal variation. The middepth circulation of the Japan basin is found to be characterized usually by the gyres trapped to the east of the Bogorov Rise (E-gyres) and those extending farther westward into the whole basin (BW-gyres). The E-gyre trajectories are generally associated with the turning of the floats toward deeper regions off the isobaths. This occurs in winter either on the northern or eastern side of the eastern Japan basin. It seems that the upstream part of the otherwise BW-gyre is subject to a strong negative wind stress curl in winter, and there the circulating water columns are driven toward the deeper region, thus triggering the formation of the E-gyre. The topographic effect associated with the Bogorov Rise seems to interfere thereafter in the process of determining the passage of the E-gyre. Otherwise, the water columns continue to flow along the isobaths, hence maintaining the BW-gyre. To the knowledge of the authors, this is the first observational evidence of seasonal variability in the middepth gyral circulation pattern in the East/Japan Sea. It suggests that oceanic middepth circulation, usually known to be quasi steady or slowly varying on climatological time scales, might also undergo a significant seasonal variation as it does in the East/Japan Sea.
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ISSN:0022-3670
1520-0485
DOI:10.1175/JPO-D-15-0157.1