69 / 2023-07-26 17:21:17
Hotspots of the stokes rotating circulation in a large marginal sea
Layered circulation,,Hotspot intrinsic dynamics,south china sea
Abstract Accepted
Li Junlu / Hong Kong University of Science and Technology
Gan Jianping / The Hong Kong University of Science and Technology
Kung Hiusuet / Hong Kong University of Science and Technology
Cai Zhongya / University of Macau
Liu Zhiqiang / The Southern University of Science and Technology
Hui Rex / Hong Kong University of Science and Technology
Marginal seas, surrounded by continents with dense populations, are vulnerable and have a quick response to climate change effects. The seas typically have alternatively rotating layered circulations to regulate regional heat and biogeochemical transports. The circulations are composed of dynamically active hotspots and governed by the couplings between unique extrinsic inflow and intrinsic dynamic response. Ambiguities about the circulations’ structure, composition, and physics still exist, and these ambiguities have led to poor numerical simulation of the marginal sea in global models. The South China Sea is an outstanding example of a marginal sea that has this typical rotating circulation. Our study demonstrates that the rotating circulation is structured by energetic hotspots with large vorticity arising from unique dynamics in the marginal sea and is identifiable by the constraints of Stokes Theorem. These hotspots contribute most of the vorticity and most of the energy needed to form and maintain the rotating circulation pattern. Our findings provide new insights on the distinguishing features of the rotating circulation and the dominant physics with the objectives of advancing our knowledge and improving modeling of marginal seas.

 
Important Date
  • Conference Date

    Nov 02

    2023

    to

    Nov 06

    2023

  • Nov 01 2023

    Contribution Submission Deadline

  • Nov 20 2023

    Draft paper submission deadline

  • Nov 05 2024

    Registration deadline

Sponsored By
Coastal Zones Under Intensifying Human Activities and Changing Climate: A
Regional Programme Integrating Science, Management and Society to Support
Ocean Sustainability (COASTAL-SOS)
Organized By
State Key Laboratory of Marine Environmental Science, Xiamen University
College of Ocean and Earth Sciences, Xiamen University
China-ASEAN College of Marine Sciences, Xiamen University Malaysia
Supported By
COASTAL-SOS
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