This research investigates the projected intensification of tropical cyclone (TC) precipitation and associated landslide risks in South China under global warming. Using deep learning to enhance cloud-resolving simulations, the study finds that TC rainfall intensification surpasses the Clausius-Clapeyron (CC) scaling, with precipitation accumulation over city-sized areas potentially surging by 18% per Kelvin of warming. This super-CC intensification is attributed to changes in TC structure, involving the expansion of deep convective cores and suppression of shallow convection. Analysis using Hong Kong's slope data suggests a potential 215% increase in landslide risks with a 4-K warming, highlighting the amplified threats from compound disasters under climate change.
Publisher
npj Climate and Atmospheric Science
Published On
May 21, 2024
Authors
Xiaoming Shi, Yang Liu, Jianan Chen, Haoming Chen, Yueya Wang, Zhongming Lu, Ruo-Qian Wang, Jimmy C.-H. Fung, Charles W. W. Ng
Tags
tropical cyclone
precipitation intensification
global warming
landslide risks
super-CC scaling
South China
climate change
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