Climate Attribution of Extreme Weather Events with Global high-resolution modeling framework
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Updated Time:2025-04-01 16:44:09 Hits:567
Invited speech
Abstract
Extreme rainfall events are becoming increasingly severe under a warming climate. North China has experienced several catastrophic rainfall events, of which the rainstorm in 2023 is unexpected and particularly severe inducing unprecedented damage. Since 1980, the neighboring Mongolian Plateau (MP) has been warming at a rate three times the global average, faster than the surrounding regions. Whether a link exists between extreme rainfall in North China and the fast MP warming is unknown. Here, using a global variable-resolution atmospheric model with convection-permitting capability over North China, we find that the rapid warming trends, particularly over the MP, is highly conducive to extreme rainfall over North China. In the 2023 case, the fast warming over the MP induced an anomalous terrestrial high, which in the WNPSH created a strong high-pressure system over North China. This system obstructed northeastward movement of Typhoon Doksuri, concentrating moisture supply which prolonged and intensified the extreme.
Keywords
Climate Attribution, Extreme Weather Events, Global high-resolution modeling
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