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Global increase in future compound heat stress-heavy precipitation hazards and associated socio-ecosystem risks

Zhiling Zhou, Liping Zhang, Qin Zhang, Chen Hu, Gangsheng Wang, Dunxian She, Jie Chen

2024npj Climate and Atmospheric Science48 citationsDOIOpen Access PDF

Abstract

Abstract Compound extremes of lethal heat stress-heavy precipitation events (CHPEs) seriously threaten social and ecological sustainability, while their evolution and effects at the global scale under climate warming remain unclear. Here we develop the global picture of projected changes in CHPEs under various scenarios and investigate their socioeconomic and ecosystem risks combining hazard, exposure, and vulnerability through the composite indicator approach. We find a high percentage of heat stress is followed by heavy precipitation, probably driven by atmospheric conditions. Global average frequency and intensity of CHPEs are projected to increase in the future under high-emission scenarios. Joint return periods of CHPEs are projected to decrease globally, predominantly driven by changes in heat stress extremes. In the long-term future, over half of the population, gross domestic product, and gross primary productivity may face high risk in most regions, with developed regions facing the highest risks under SSP5-8.5 and developing regions facing the highest risks under SSP3-7.0.

Topics & Concepts

Heat stressPrecipitationEcosystemEnvironmental scienceStress (linguistics)Atmospheric sciencesMeteorologyGeographyEcologyGeologyBiologyPhilosophyLinguisticsClimate Change and Health ImpactsClimate variability and modelsFlood Risk Assessment and Management
Global increase in future compound heat stress-heavy precipitation hazards and associated socio-ecosystem risks | Litcius