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    Kuroshio Path Variations South of Japan: Bimodality as a Self-Sustained Internal Oscillation

    Source: Journal of Physical Oceanography:;2000:;Volume( 030 ):;issue: 008::page 2124
    Author:
    Qiu, Bo
    ,
    Miao, Weifeng
    DOI: 10.1175/1520-0485(2000)030<2124:KPVSOJ>2.0.CO;2
    Publisher: American Meteorological Society
    Abstract: In the two decades following 1975, the Kuroshio path south of Japan was observed to oscillate interannually between a straight path state and a meandering state. This bimodal condition is in sharp contrast to the decade prior to 1975 when the Kuroshio remained consistently in the straight path state. In situ observations in the upstream East China Sea indicate no obvious correspondence between the magnitude (or the temporal change) of the inflow transport and the Kuroshio path, suggesting the Kuroshio?s path alternations in the recent two decades may not be externally determined by the upstream inflow. Using a two-layer primitive-equation model of the North Pacific driven by observed climatological surface wind data, the authors propose that the Kuroshio path oscillation since 1975 can be explained by a self-sustained internal mechanism of the Kuroshio current system. The proposed self-sustained oscillation is maintained by the accumulation of the low potential vorticity (PV) water carried northward by the upstream Kuroshio. This accumulation of the low-PV anomalies strengthens the Kuroshio?s southern recirculation gyre and presses the Kuroshio to flow along the coast. The strengthening of the southern recirculation gyre increases the velocity shear of the straight-pathed Kuroshio and leads eventually to the meander path development due to baroclinic/barotropic instability of the system. As the meander of the Kuroshio path grows, detachment of cyclonic eddies mixes coastal-origin, high-PV water offshoreward, weakening, as a result, the recirculation gyre. The above cycle will restart after the low-PV water is replenished from the south and the recirculation gyre spins up again. For the past two decades, this internal oscillation has been operative because the upstream inflow is relatively large due to the decadal increase in the wind-driven Sverdrup transport. In the decade before 1975 when the upstream inflow was small, the internal oscillation would cease because the dissipative forces are able to remove the southern-origin low-PV anomalies without resorting to instability and the meander development.
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      Kuroshio Path Variations South of Japan: Bimodality as a Self-Sustained Internal Oscillation

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    http://yetl.yabesh.ir/yetl1/handle/yetl/4166517
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    • Journal of Physical Oceanography

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    contributor authorQiu, Bo
    contributor authorMiao, Weifeng
    date accessioned2017-06-09T14:54:10Z
    date available2017-06-09T14:54:10Z
    date copyright2000/08/01
    date issued2000
    identifier issn0022-3670
    identifier otherams-29304.pdf
    identifier urihttp://onlinelibrary.yabesh.ir/handle/yetl/4166517
    description abstractIn the two decades following 1975, the Kuroshio path south of Japan was observed to oscillate interannually between a straight path state and a meandering state. This bimodal condition is in sharp contrast to the decade prior to 1975 when the Kuroshio remained consistently in the straight path state. In situ observations in the upstream East China Sea indicate no obvious correspondence between the magnitude (or the temporal change) of the inflow transport and the Kuroshio path, suggesting the Kuroshio?s path alternations in the recent two decades may not be externally determined by the upstream inflow. Using a two-layer primitive-equation model of the North Pacific driven by observed climatological surface wind data, the authors propose that the Kuroshio path oscillation since 1975 can be explained by a self-sustained internal mechanism of the Kuroshio current system. The proposed self-sustained oscillation is maintained by the accumulation of the low potential vorticity (PV) water carried northward by the upstream Kuroshio. This accumulation of the low-PV anomalies strengthens the Kuroshio?s southern recirculation gyre and presses the Kuroshio to flow along the coast. The strengthening of the southern recirculation gyre increases the velocity shear of the straight-pathed Kuroshio and leads eventually to the meander path development due to baroclinic/barotropic instability of the system. As the meander of the Kuroshio path grows, detachment of cyclonic eddies mixes coastal-origin, high-PV water offshoreward, weakening, as a result, the recirculation gyre. The above cycle will restart after the low-PV water is replenished from the south and the recirculation gyre spins up again. For the past two decades, this internal oscillation has been operative because the upstream inflow is relatively large due to the decadal increase in the wind-driven Sverdrup transport. In the decade before 1975 when the upstream inflow was small, the internal oscillation would cease because the dissipative forces are able to remove the southern-origin low-PV anomalies without resorting to instability and the meander development.
    publisherAmerican Meteorological Society
    titleKuroshio Path Variations South of Japan: Bimodality as a Self-Sustained Internal Oscillation
    typeJournal Paper
    journal volume30
    journal issue8
    journal titleJournal of Physical Oceanography
    identifier doi10.1175/1520-0485(2000)030<2124:KPVSOJ>2.0.CO;2
    journal fristpage2124
    journal lastpage2137
    treeJournal of Physical Oceanography:;2000:;Volume( 030 ):;issue: 008
    contenttypeFulltext
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    DSpace software copyright © 2002-2015  DuraSpace
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