Frontiers in Marine Science (Sep 2024)

Degradation of water quality caused by typhoon passage: a case study of the Zhejiang coastal waters in 2019

  • Tong Cao,
  • Tong Cao,
  • Feng Zhou,
  • Feng Zhou,
  • Feng Zhou,
  • Di Tian,
  • Di Tian,
  • Qicheng Meng,
  • Qicheng Meng,
  • Xiao Ma,
  • Xiao Ma,
  • Bin Wang,
  • Qianjiang Zhang,
  • Qianjiang Zhang,
  • Jiliang Xuan,
  • Jiliang Xuan,
  • Jianfang Chen,
  • Jianfang Chen,
  • Jianfang Chen,
  • Jianfang Chen,
  • Daji Huang,
  • Daji Huang

DOI
https://doi.org/10.3389/fmars.2024.1458827
Journal volume & issue
Vol. 11

Abstract

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The degradation of coastal seawater quality off the Changjiang Estuary and adjacent waters is typically associated with monsoon wind, ocean currents and inputs of terrestrial pollutants. In addition to these factors, the passage of typhoons can be also important in driving short-term fluctuations in coastal water quality. Using a coupled Regional Ocean Modeling Systems (ROMS) and carbon, silicate, and nitrogen ecosystem (CoSiNE) model with Eulerian tracers, we investigated the transport processes of pollutants discharged from the Changjiang during the passage of Typhoons Lingling and Tapah (2019). The model results show that Typhoons Lingling and Tapah significantly enhanced the southward transport of these pollutants, leading to a sudden and noteworthy degradation of water quality in the Zhejiang coastal region during early autumn, despite no considerable change in monsoon pattern or river discharge compared to normal years. As Lingling and Tapah successively passed through the East China Sea in September, the average nitrate concentration in the Zhejiang coastal waters rose by 77%, and the percentage of heavily polluted water increased by 28%. Our numerical experiments showed that the impacts caused by Lingling and Tapah on nitrate levels in these waters lasted for approximately 34 and 23 days, respectively. These results indicate that typhoons play a crucial role in regulating the transport of pollutants in coastal waters, with significant sub-seasonal effects on the marine biogeochemical environment.

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