Environmental Research Letters (Jan 2024)

Indian Ocean temperature anomalies modulate the interannual variability of springtime smoke aerosols over the Indochina Peninsula

  • Yurun Liu,
  • Ke Gui,
  • Quanliang Chen,
  • Liangliang Feng,
  • Hujia Zhao,
  • Xutao Zhang,
  • Wenrui Yao,
  • Hengheng Zhao,
  • Nanxuan Shang,
  • Zhuo Chen,
  • Lei Li,
  • Yu Zheng,
  • Huizheng Che

DOI
https://doi.org/10.1088/1748-9326/ad932b
Journal volume & issue
Vol. 19, no. 12
p. 124081

Abstract

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Smoke aerosols released through frequent springtime fire activity over the Indochina Peninsula (ICP) seriously affect regional air quality, climate, and human health. However, the mechanisms driving the interannual variability of these smoke aerosols are not well understood. By analyzing multi-source historical (1980–2020) smoke aerosols and meteorological reanalysis data, we explore the response of springtime smoke aerosol changes over the ICP to the interannual variability of the Indian Ocean (IO) sea-surface temperature (SST). Our findings show a positive correlation between the variability of springtime smoke aerosol loading and the preceding winter Southeast IO (SEIO) SST anomalies. Warmer SEIO SST tends to weaken the trans-equatorial flow (TEF) and the local Hadley circulation. This weakening of the TEF impedes cyclone development in the Bay of Bengal (BOB), thereby reducing southwest water vapor transport. Simultaneously, enhanced westerly winds over the northern BOB are blocked by the northwestern mountains of ICP. These winds converge and rise on the windward slopes, while descending on the leeward side with diminished humidity. Collectively, these dynamics lead to drier and hotter local meteorological conditions that favored fire-induced smoke aerosol emissions. Our findings highlight the role of the SEIO in regulating smoke aerosol variability and provide a scientific basis for developing strategies to manage smoke aerosol emissions over the ICP.

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