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Future Extreme Precipitation in Summer Will Become More Widespread in China Depending on Level of Warming

Rong Yu, Panmao Zhai, Wei Li

2023Earth s Future15 citationsDOIOpen Access PDF

Abstract

Abstract In this study, CMIP6 and single model initial‐condition large ensemble (SMILE) simulations were applied to reveal possible changes in the spatial coverage (RSC) of summer extreme precipitation (≥99th percentile) in China. Four different approaches were applied to provide a comprehensive assessment of RSC changes. Results indicate that the trend of RSC in summer for the period 1961–2020 in China is underestimated by raw simulations of CMIP6 multi‐model ensembles. Further analyses suggest that the confidence in model simulations reflecting the observed change can be improved based on the two observation constraint approaches and SMILE‐based approach. In addition, the reliability of the spatial distribution can also be improved. Projection results indicate that the RSC of summer extreme precipitation increases consistently with the increment of global warming across the different approaches. Among them, the results based on observational constraints and the SMILE‐based approach show enhanced reliability and present larger RSC changes than by directly using CMIP6 ensembles. In conclusion, extreme precipitation in summer is expected to become more widespread in China as the level of global warming increases.

Topics & Concepts

PrecipitationClimatologyEnvironmental sciencePercentileChromatin structure remodeling (RSC) complexGlobal warmingSpatial distributionChinaReliability (semiconductor)Constraint (computer-aided design)Climate changeMeteorologyStatisticsGeographyMathematicsGeologyChemistryArchaeologyPhysicsQuantum mechanicsOceanographyGeneGeometryPower (physics)NucleosomeHistoneBiochemistryClimate variability and modelsdemographic modeling and climate adaptationAtmospheric and Environmental Gas Dynamics