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Rapid summer Russian Arctic sea-ice loss enhances the risk of recent Eastern Siberian wildfires.

Binhe LuoDehai LuoAiguo DaiCunde XiaoIan SimmondsEdward HannaJames E OverlandJiaqi ShiXiaodan ChenYao YaoWansuo DuanYimin LiuQiang ZhangXiyan XuYina DiaoZhina JiangTingting Gong
Published in: Nature communications (2024)
In recent decades boreal wildfires have occurred frequently over eastern Siberia, leading to increased emissions of carbon dioxide and pollutants. However, it is unclear what factors have contributed to recent increases in these wildfires. Here, using the data we show that background eastern Siberian Arctic warming (BAW) related to summer Russian Arctic sea-ice decline accounts for ~79% of the increase in summer vapor pressure deficit (VPD) that controls wildfires over eastern Siberia over 2004-2021 with the remaining ~21% related to internal atmospheric variability associated with changes in Siberian blocking events. We further demonstrate that Siberian blocking events are occurring at higher latitudes, are more persistent and have larger zonal scales and slower decay due to smaller meridional potential vorticity gradients caused by stronger BAW under lower sea-ice. These changes lead to more persistent, widespread and intense high-latitude warming and VPD, thus contributing to recent increases in eastern Siberian high-latitude wildfires.
Keyphrases
  • south africa
  • carbon dioxide
  • climate change
  • heat stress
  • machine learning
  • risk assessment
  • big data
  • data analysis