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Amplified temperature sensitivity of extreme precipitation events following heat stress

Zhiling Zhou, Liping Zhang, Qin Zhang, Hui Cao, Hairong Zhang, Benjun Jia, Lina Liu, Zhenyu Tang, Jie Chen

2024npj Climate and Atmospheric Science13 citationsDOIOpen Access PDF

Abstract

This study investigates global extreme precipitation events (EPEs) during warm seasons, with a particular focus on EPEs preceded by extreme heat stress (EPE-Hs) and a comparative analysis with those not (EPE-NHs). Using reanalysis product and Earth System Model data, the spatiotemporal characteristics and temperature sensitivities of EPEs are analyzed. Results show that EPE-Hs, while less frequent, have longer duration and greater magnitude compared to EPE-NHs, particularly in high latitude regions. In the future, a significant increase is projected in the characteristics of EPE-Hs, in contrast to the stable duration and magnitude of EPE-NHs. EPE-Hs demonstrate substantially higher temperature sensitivity than EPE-NHs, especially in low latitudes. The precipitation-temperature scaling relationships diverge markedly between EPE-Hs and EPE-NHs, with notable regional variations. These insights are pivotal for crafting region-specific early warning and adaptation strategies to mitigate the risks associated with extreme precipitation under the backdrop of global warming.

Topics & Concepts

PrecipitationSensitivity (control systems)Heat stressExtreme heatStress (linguistics)ClimatologyEnvironmental scienceAtmospheric sciencesMaterials scienceClimate changeMeteorologyGeographyGeologyOceanographyEngineeringPhilosophyElectronic engineeringLinguisticsClimate variability and modelsMeteorological Phenomena and SimulationsHydrology and Drought Analysis
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