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Volume 30 Issue 3
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Article Navigation >  Acta Oceanologica Sinica  > 2011  >  (3): 1-13
YU Peilong, ZHANG Lifeng, ZHANG Yongchui, DENG Bing. Interdecadal change of winter SST variability in the Kuroshio Extension region and its linkage with Aleutian atmospheric low pressure system[J]. Acta Oceanologica Sinica, 2016, 35(5): 24-37. doi: 10.1007/s13131-016-0859-0
Citation: WANG Qiang, WANG Yinxia, BO Hong, ZHOU Weidong, WANG Dongxiao. Different roles of Ekman pumping in the west and east segments of the South China Sea Warm Current[J]. Acta Oceanologica Sinica, 2011, (3): 1-13. doi: 10.1007/s13131-011-0113-8
shu

Different roles of Ekman pumping in the west and east segments of the South China Sea Warm Current

doi: 10.1007/s13131-011-0113-8
  • 1.

    Key Laboratory of Tropical Marine Environmental Dynamics, South China Sea Institute of Oceanology, Chinese Academy of Sciences, Guangzhou 510301, China;Graduate School of the Chinese Academy of Sciences, Beijing 100049, China

  • 2.

    South China Sea Marine Engineering and Environment Institute of State Oceanic Administration, Guangzhou 510300, China

  • 3.

    Virginia Institute of Marine Science, College of William and Mary, VA 23062, USA

  • 4.

    Key Laboratory of Tropical Marine Environmental Dynamics, South China Sea Institute of Oceanology, Chinese Academy of Sciences, Guangzhou 510301, China

  • Received Date: 2011-03-07
  • Rev Recd Date: 2011-05-06
    Abstract
  • A three-dimensional model is used to investigate the mechanism of the South China Sea (SCS) winter counter-current (also known as the SCS Warm Current, or the SCSWC), which flows against the wind. The model can reproduce the structure of the band-like currents over the northern shelf of the SCS, including the westward coastal current and slop current, and the SCSWC sandwiched in between. Sensitivity experiments are designed to understand the different roles of Ekman pumping of the SCSWC at different longitude. The results show that the Ekman pumping drives the SCSWC in the west segment. In the east, it is not the Ekman pumping but the intrusion of the Kuroshio that drives the SCSWC.
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    1. Zizhen Dong, Lin Wang, Shu Gui, et al. Diminished Impact of the East Asian Winter Monsoon on the Maritime Continent Rainfall After the Late‐1990s Tied to Weakened Siberian High–Aleutian Low Covariation. Journal of Geophysical Research: Atmospheres, 2023, 128(11) doi:10.1029/2022JD037336
    2. Peilong Yu, Minghao Yang, Chao Zhang, et al. Response of the North Pacific Storm Track Activity in the Cold Season to Multi-scale Oceanic Variations of Kuroshio Extension System: A Statistical Assessment. Advances in Atmospheric Sciences, 2023, 40(3): 514. doi:10.1007/s00376-022-2044-z
    3. Jiahao Wang, Kefeng Mao, Xi Chen, et al. Evolution and Structure of the Kuroshio Extension Front in Spring 2019. Journal of Marine Science and Engineering, 2020, 8(7): 502. doi:10.3390/jmse8070502
    4. Peilong Yu, Chao Zhang, Lifeng Zhang, et al. An Index for Depicting the Long-Term Variability of Mesoscale Eddy Activity over the Kuroshio Extension Region. Atmosphere, 2020, 11(8): 792. doi:10.3390/atmos11080792
    5. Peilong Yu, Lifeng Zhang, Mingyang Liu, et al. A comparison of the strength and position variability of the Kuroshio Extension SST front. Acta Oceanologica Sinica, 2020, 39(5): 26. doi:10.1007/s13131-020-1567-3
    6. Peilong Yu, Lifeng Zhang, Hu Liu, et al. A dual-period response of the Kuroshio Extension SST to Aleutian Low activity in the winter season. Acta Oceanologica Sinica, 2017, 36(9): 1. doi:10.1007/s13131-017-1104-1
    7. Yao Yao, Zhong Zhong, Xiu-Qun Yang, et al. An observational study of the North Pacific storm-track impact on the midlatitude oceanic front. Journal of Geophysical Research: Atmospheres, 2017, 122(13): 6962. doi:10.1002/2016JD026192

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