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Anthropogenic forcing has increased the risk of longer-traveling and slower-moving large contiguous heatwaves.


ABSTRACT: Heatwaves are consecutive hot days with devastating impacts on human health and the environment. These events may evolve across both space and time, characterizing a spatiotemporally contiguous propagation pattern that has not been fully understood. Here, we track the spatiotemporally contiguous heatwaves in both reanalysis datasets and model simulations and examine their moving patterns (i.e., moving distance, speed, and direction) in different continents and periods. Substantial changes in contiguous heatwaves have been identified from 1979 to 2020, with longer persistence, longer traveling distance, and slower propagation. These changes have been amplified since 1997, probably due to the weakening of eddy kinetic energy, zonal wind, and anthropogenic forcing. The results suggest that longer-lived, longer-traveling, and slower-moving contiguous heatwaves will cause more devastating impacts on human health and the environment in the future if greenhouse gas emissions keep rising and no effective measures are taken immediately. Our findings provide important implications for the adaption and mitigation of globally connected extreme heatwaves.

SUBMITTER: Luo M 

PROVIDER: S-EPMC10980275 | biostudies-literature | 2024 Mar

REPOSITORIES: biostudies-literature

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Anthropogenic forcing has increased the risk of longer-traveling and slower-moving large contiguous heatwaves.

Luo Ming M   Wu Sijia S   Lau Gabriel Ngar-Cheung GN   Pei Tao T   Liu Zhen Z   Wang Xiaoyu X   Ning Guicai G   Chan Ting On TO   Yang Yuanjian Y   Zhang Wei W   Zhang Wei W  

Science advances 20240329 13


Heatwaves are consecutive hot days with devastating impacts on human health and the environment. These events may evolve across both space and time, characterizing a spatiotemporally contiguous propagation pattern that has not been fully understood. Here, we track the spatiotemporally contiguous heatwaves in both reanalysis datasets and model simulations and examine their moving patterns (i.e., moving distance, speed, and direction) in different continents and periods. Substantial changes in con  ...[more]

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