Seasonality of submesoscale vertical heat transport modulated by oceanic mesoscale eddies in the Kuroshio Extension
ID:1344 View Protection:ATTENDEE Updated Time:2024-10-14 15:36:35 Hits:828 Oral Presentation

Start Time:2025-01-16 16:20(Asia/Shanghai)

Duration:15min

Session:S46 Session 46-Oceanic Mesoscale and Submesoscale Processes: Characteristics, Dynamics & Parameterizations » S46-3Oceanic Mesoscale and Submesoscale Processes: Characteristics, Dynamics & Parameterizations

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Abstract
Energetic mesoscale eddies are often accompanied by strong submesoscale variability, which plays a significant role in connecting mesoscale and turbulent motions in the ocean and leads to strong vertical motions. The product of a high-resolution (1/48°) oceanic numerical model, the LLC4320, is employed to investigate the seasonal variations of vertical heat transport induced by submesoscale processes within multiple mesoscale eddies in the Kuroshio Extension (KE) region. In different seasons, the submesoscale vertical heat transport exhibits a consistent upward pattern, with notably higher magnitudes observed during winter. In winter, the maxima value of submesoscale vertical heat flux (SVHF) can account for approximately 60% of the total vertical heat flux (VHF). This is equivalent to the average net sea surface heat flux in a single eddy region. In summer and autumn, the maxima absolute value of submesoscale vertical heat flux can account for approximately 30% of the total VHF. Energy analysis reveals that baroclinic instability associated with vertical buoyancy flux has a crucial effect on generating submesoscale processes within the eddy region. The submesoscale motions are influenced by the mixed layer instability, strain-induced frontogenesis, turbulent thermal wind and turbulent-thermal-wind-induced frontogenesis within the upper mixed layer, while they are largely associated with the strain-induced frontogenesis in the ocean interior. Furthermore, the upward low-frequency submesoscale vertical heat transport is generated by submesoscale secondary circulation at eddy peripheries.
Keywords
submesoscale,vertical heat transport,mesoscale eddies
Speaker
Qingyue Wang
Engineer Jiangsu Provincial Meteorological Service Center

Submission Author
Qingyue Wang Jiangsu Provincial Meteorological Service Center
Changming Dong Nanjing University of Information Science and Technology
Jihai Dong Nanjing University of Information Science & Technology
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Important Date
  • Conference Date

    Jan 13

    2025

    to

    Jan 17

    2025

  • Sep 27 2024

    Draft paper submission deadline

  • Feb 17 2025

    Registration deadline

Sponsored By
State Key Laboratory of Marine Environmental Science, Xiamen University
Organized By
State Key Laboratory of Marine Environmental Science, Xiamen University
Department of Earth Sciences, National Natural Science Foundation of China
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