Volume 41 Issue 7
Jul.  2022
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Yaohua Zhu, Dingqi Wang, Yonggang Wang, Shujiang Li, Tengfei Xu, Zexun Wei. Vertical velocity and transport in the South China Sea[J]. Acta Oceanologica Sinica, 2022, 41(7): 13-25. doi: 10.1007/s13131-021-1954-4
Citation: Yaohua Zhu, Dingqi Wang, Yonggang Wang, Shujiang Li, Tengfei Xu, Zexun Wei. Vertical velocity and transport in the South China Sea[J]. Acta Oceanologica Sinica, 2022, 41(7): 13-25. doi: 10.1007/s13131-021-1954-4

Vertical velocity and transport in the South China Sea

doi: 10.1007/s13131-021-1954-4
Funds:  The National Key Research and Development Program of China under contract No. 2019YFC1408400; the National Natural Science Foundation of China under contract Nos 41876029, 41821004 and 41776042.
More Information
  • Corresponding author: E-mail: weizx@fio.org.cn
  • Received Date: 2021-08-04
  • Accepted Date: 2021-10-12
  • Available Online: 2021-11-09
  • Publish Date: 2022-07-08
  • Deep water in the South China Sea is renewed by the cold and dense Luzon Strait overflow. However, from where and how the deep water upwells is poorly understood yet. Based on the Hybrid Coordinate Ocean Model reanalysis data, vertical velocity is derived to answer these questions. Domain-integrated vertical velocity is of two maxima, one in the shallow water and the other at depth, and separated by a layer of minimum at the bottom of the thermocline. Further analysis shows that this two-segmented vertical transport is attributed to the vertical compensation of subsurface water to the excessive outflow of shallow water and upward push of the dense Luzon Strait overflow, respectively. In the abyssal basin, the vertical transport increases upward from zero at the depth of 3 500–4 000 m and reaches a maximum of 1.5×106 m3/s at about 1 500 m. Deep water upwells mainly from the northeastern and southwestern ends of the abyssal basin and off the continental slopes. To explain the upward velocity arising from slope breaks, a possible mechanism is proposed that an onshore velocity component can be derived from the deep western boundary current above steep slopes under bottom friction.
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