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    Connecting Antarctic Cross-Slope Exchange with Southern Ocean Overturning

    Source: Journal of Physical Oceanography:;2013:;Volume( 043 ):;issue: 007::page 1453
    Author:
    Stewart, Andrew L.
    ,
    Thompson, Andrew F.
    DOI: 10.1175/JPO-D-12-0205.1
    Publisher: American Meteorological Society
    Abstract: revious idealized investigations of Southern Ocean overturning have omitted its connection with the Antarctic continental shelves, leaving the influence of shelf processes on Antarctic Bottom Water (AABW) export unconsidered. In particular, the contribution of mesoscale eddies to setting the stratification and overturning circulation in the Antarctic Circumpolar Current (ACC) is well established, yet their role in cross-shelf exchange of water masses remains unclear. This study proposes a residual-mean theory that elucidates the connection between Antarctic cross-shelf exchange and overturning in the ACC, and the contribution of mesoscale eddies to the export of AABW. The authors motivate and verify this theory using an eddy-resolving process model of a sector of the Southern Ocean. The strength and pattern of the simulated overturning circulation strongly resemble those of the real ocean and are closely captured by the residual-mean theory. Over the continental slope baroclinic instability is suppressed, and so transport by mesoscale eddies is reduced. This suppression of the eddy fluxes also gives rise to the steep ?V?-shaped isopycnals that characterize the Antarctic Slope Front in AABW-forming regions of the continental shelf. Furthermore, to produce water on the continental shelf that is dense enough to sink to the deep ocean, the deep overturning cell must be at least comparable in strength to wind-driven mean overturning on the continental slope. This results in a strong sensitivity of the deep overturning strength to changes in the polar easterly winds.
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      Connecting Antarctic Cross-Slope Exchange with Southern Ocean Overturning

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    contributor authorStewart, Andrew L.
    contributor authorThompson, Andrew F.
    date accessioned2017-06-09T17:19:44Z
    date available2017-06-09T17:19:44Z
    date copyright2013/07/01
    date issued2013
    identifier issn0022-3670
    identifier otherams-83262.pdf
    identifier urihttp://onlinelibrary.yabesh.ir/handle/yetl/4226468
    description abstractrevious idealized investigations of Southern Ocean overturning have omitted its connection with the Antarctic continental shelves, leaving the influence of shelf processes on Antarctic Bottom Water (AABW) export unconsidered. In particular, the contribution of mesoscale eddies to setting the stratification and overturning circulation in the Antarctic Circumpolar Current (ACC) is well established, yet their role in cross-shelf exchange of water masses remains unclear. This study proposes a residual-mean theory that elucidates the connection between Antarctic cross-shelf exchange and overturning in the ACC, and the contribution of mesoscale eddies to the export of AABW. The authors motivate and verify this theory using an eddy-resolving process model of a sector of the Southern Ocean. The strength and pattern of the simulated overturning circulation strongly resemble those of the real ocean and are closely captured by the residual-mean theory. Over the continental slope baroclinic instability is suppressed, and so transport by mesoscale eddies is reduced. This suppression of the eddy fluxes also gives rise to the steep ?V?-shaped isopycnals that characterize the Antarctic Slope Front in AABW-forming regions of the continental shelf. Furthermore, to produce water on the continental shelf that is dense enough to sink to the deep ocean, the deep overturning cell must be at least comparable in strength to wind-driven mean overturning on the continental slope. This results in a strong sensitivity of the deep overturning strength to changes in the polar easterly winds.
    publisherAmerican Meteorological Society
    titleConnecting Antarctic Cross-Slope Exchange with Southern Ocean Overturning
    typeJournal Paper
    journal volume43
    journal issue7
    journal titleJournal of Physical Oceanography
    identifier doi10.1175/JPO-D-12-0205.1
    journal fristpage1453
    journal lastpage1471
    treeJournal of Physical Oceanography:;2013:;Volume( 043 ):;issue: 007
    contenttypeFulltext
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