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Precipitation Seasonality Amplifies as Earth Warms

Xiaoyu Wang, Ming Luo, Fengfei Song, Sijia Wu, Yongqin David Chen, Wei Zhang

2024Geophysical Research Letters24 citationsDOIOpen Access PDF

Abstract

Abstract Precipitation exhibits a pronounced seasonal cycle, of which the phase and amplitude are closely associated with water resource management. While previous studies suggested an emerged delaying phase in the past decades, whether the amplified amplitude has emerged is controversial. Using multiple observational data sets and climate simulations, here we show that the amplification of precipitation annual cycle has emerged in most global land areas since the 1980s, especially in the tropics. These amplifications are mainly driven by anthropogenic emissions, and will be further intensified by 17.6% in the future (2081–2100) under high emission scenario (Shared Socioeconomic Pathways, SSP585), and limited to 7.2% under SSP126 scenario, relative to the historical period (1982–2014). Precipitation seasonality will be amplified by 4.2% for each 1°C of global warming, which is seen in all emission scenarios. The mitigation of lower emissions is helpful for alleviating the amplification of precipitation seasonality in a warming world.

Topics & Concepts

SeasonalityPrecipitationEarth (classical element)ClimatologyEnvironmental scienceMeteorologyGeologyGeographyComputer scienceMathematical physicsPhysicsMachine learningClimate variability and modelsMeteorological Phenomena and SimulationsPrecipitation Measurement and Analysis