Geophysical Research Letters (Sep 2022)

Causes and Effects of the Long‐Range Dispersion of Carbonaceous Aerosols From the 2019–2020 Australian Wildfires

  • Dongyou Wu,
  • Xiaoying Niu,
  • Ziqi Chen,
  • Yang Chen,
  • Yuxuan Xing,
  • Xiaoyi Cao,
  • Jun Liu,
  • Xin Wang,
  • Wei Pu

DOI
https://doi.org/10.1029/2022GL099840
Journal volume & issue
Vol. 49, no. 18
pp. n/a – n/a

Abstract

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Abstract Australia experienced record‐breaking wildfires during 2019–2020, which emitted large amounts of carbonaceous aerosols (CAs) to the atmosphere. In this study, we explored the atmospheric dynamics and thermodynamic mechanism of the long‐range transport of CAs during November 2019–February 2020. The results indicate that the emitted CAs had a ternary advective spreading pattern across the Pacific Ocean in the Southern Hemisphere (SH), influenced mainly by the westerlies and anticyclonic systems. Upward vertical motion over the convergence zone and heat released from smoke pyro‐cumulonimbus clouds and strong light absorption of CAs provided strong vertical lift as the predominant injection pathway of the CAs into the stratosphere in the central Pacific Ocean in the SH. The abundant tropospheric CAs induced atmospheric heating (and potentially surface cooling), with increasing air temperature and decreasing of surface temperature. The anomalous thermal structure led to changes in atmospheric circulation, which weakened the upward vertical motion.