Frontiers in Earth Science (Dec 2023)

Long-range prediction of the tropical cyclone frequency landfalling in China using thermocline temperature anomalies at different longitudes

  • Chunlei Liu,
  • Chunlei Liu,
  • Rong Zheng,
  • Rong Zheng,
  • Rong Zheng,
  • Liang Jin,
  • Liang Jin,
  • Liang Jin,
  • Ruijuan Bao,
  • Ning Cao,
  • Ning Cao,
  • Ning Cao,
  • Xiaoqing Liao,
  • Xiaoqing Liao,
  • Xiaoqing Liao,
  • Yufeng Xue,
  • Yufeng Xue,
  • Yufeng Xue,
  • Hailiang Chen,
  • Ke Yang,
  • Ke Yang,
  • Ke Yang,
  • Qianye Su,
  • Qianye Su,
  • Qianye Su

DOI
https://doi.org/10.3389/feart.2023.1329702
Journal volume & issue
Vol. 11

Abstract

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The landfalls of the tropical cyclone (TC) along the coast of China have caused huge economic damages. There are approximately nine TC landfalls in China every year. It will be beneficial if the landfall frequency can be predicted in advance. Inspired by the study of Sparks and Toumi (Commun Earth Environ, 30-1-2020), six datasets, including four ocean reanalyses and two object analyses from 1993 to 2019, are employed to study the consistency in the relationship between the thermocline temperature anomalies at different longitudes and the frequency of TC landfalls along the coastal areas of China (South China, East China, and the whole of China). The thermocline temperature anomalies at different longitudes are tested in order to confirm our hypothesis that the eastward and westward transports of ocean heat from the warm pool are the causes of the significant correlations. The results show some significant correlations at various longitudes, and the temperature anomalies can predict the TC landfall frequency for several months or longer. Further study also shows the close relationship between the ocean heat transport and the sea surface temperature anomalies at the genesis locations of TC landfalls. The locations of the western Pacific subtropical high (WPSH) during high-frequency TC landfall years also show favorable spatial patterns to the TC landfall in South China and East China, respectively. In years with a high TC frequency in South China, the westward displacement of the WPSH ridge steers TC toward South China, while during high-frequency TC landfall years in East China, WPSH is located further north, and the westward extension of the ridge is in close proximity to the East China Sea.

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