28 / 2023-07-24 15:07:53
Typhoon-enhanced near-inertial waves in the northwestern South China Sea
Near-inertial waves, typhoon, near-inertial kinetic energy, the northwestern South China Sea
Abstract Accepted
XU Hongzhou / Institute of Deep-sea Science and Engineering
Typhoon-enhanced near-inertial waves (NIWs) were recorded by a mooring array (four moorings) in the northwestern South China Sea (SCS) during year 2022 when four consecutive tropical cyclones, namely Typhoon Mulan, Typhoon Ma-on, Typhoon Noru, and Typhoon Nesat, passed through the target area. The characteristics, modes, propagation, and shear properties of NIWs were investigated in this study. Results show that strong NIWs can penetrate through the mixed layer and reach the bottom layer. Clockwise rotating near-inertial currents suggested that NIWs energy propagated predominantly downward. Under impact of background vorticity, NIW’s frequencies varied in spatial in which NIWs showed bule-shift and red-shift in different regions. Vertical mode analysis revealed that the near-inertial kinetic energy (NIKE) was predominantly dominated by the first mode below 800m, by the second mode between 400m and 800m, and by modes three to ten from the sea surface to depths below 200m. These results suggested that the near-bottom NIKE originated from a distant source and propagated towards the equatorial direction. The vertical energy fluxes near the bottom-layer can reach about 5.189 W∙m^2, 4.0791 W∙m^2, 8.2270 W∙m^2, and 1.8921 W∙m^2 at the four locations, respectively, accounting for approximately 13.2%, 18.5%, 15.4%, and 10.1% of the wind-input NIKE at each mooring site. Furthermore, significant enhancements of near-inertial shear were observed during typhoon periods indicating its substantial impact on the deep mixing in the SCS.
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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