npj Climate and Atmospheric Science (Oct 2024)

Future climate-driven escalation of Southeastern Siberia wildfires revealed by deep learning

  • Ke Gui,
  • Xutao Zhang,
  • Huizheng Che,
  • Lei Li,
  • Yu Zheng,
  • Hujia Zhao,
  • Zhaoliang Zeng,
  • Yucong Miao,
  • Hong Wang,
  • Zhili Wang,
  • Yaqiang Wang,
  • Hong-Li Ren,
  • Jian Li,
  • Xiaoye Zhang

DOI
https://doi.org/10.1038/s41612-024-00815-x
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 10

Abstract

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Abstract The Southeastern Siberia (SES) region has recently experienced increasingly extensive wildfires in spring, which have threatened its large carbon sequestration capacity from vast forests and peatlands. However, the underlying mechanisms propelling the increased fires and their potential responses to future climate change remain unclear. Here, by using reanalysis data and climate model output together with a deep learning model, we explore the relationship between positive-phase North Atlantic Tripole (NAT) sea-surface temperature anomalies and SES wildfire increases and project the future trend in SES wildfire intensities under climate change. We found that the positive-phase April NAT enhances the Siberian anticyclone, causing increased temperatures and snowmelt via strengthened transport of warm-air advection into the SES region. The latter process heightens the exposure of local high-density peatlands to favorable conditions for fire ignition and leads to more intensive wildfire incidents. We further demonstrate that the projected NAT variations can drive interdecadal changes in future April SES wildfires. With future phase shifting of NAT modes under global warming, the regionally averaged burned area in SES could be increased by 47–62% under different warming scenarios from 1982–2014 to 2015–2100. Our findings reveal the climate-driven escalation of future wildfires in SES in the context of global warming and call for active and urgent fire management strategies to mitigate the fire risk.