Nature Communications (Jun 2023)

Extreme atmospheric rivers in a warming climate

  • Shuyu Wang,
  • Xiaohui Ma,
  • Shenghui Zhou,
  • Lixin Wu,
  • Hong Wang,
  • Zhili Tang,
  • Guangzhi Xu,
  • Zhao Jing,
  • Zhaohui Chen,
  • Bolan Gan

DOI
https://doi.org/10.1038/s41467-023-38980-x
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 9

Abstract

Read online

Abstract Extreme atmospheric rivers (EARs) are responsible for most of the severe precipitation and disastrous flooding along the coastal regions in midlatitudes. However, the current non-eddy-resolving climate models severely underestimate (~50%) EARs, casting significant uncertainties on their future projections. Here, using an unprecedented set of eddy-resolving high-resolution simulations from the Community Earth System Model simulations, we show that the models’ ability of simulating EARs is significantly improved (despite a slight overestimate of ~10%) and the EARs are projected to increase almost linearly with temperature warming. Under the Representative Concentration Pathway 8.5 warming scenario, there will be a global doubling or more of the occurrence, integrated water vapor transport and precipitation associated with EARs, and a more concentrated tripling for the landfalling EARs, by the end of the 21st century. We further demonstrate that the coupling relationship between EARs and storms will be reduced in a warming climate, potentially influencing the predictability of future EARs.