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Decreased dust particles amplify the cloud cooling effect by regulating cloud ice formation over the Tibetan Plateau

Jingchuan Chen, Jianzhong Xu, Zhijun Wu, X P Meng, Yan Yu, Paul Ginoux, Paul J. DeMott, Rui Xu, Lixiang Zhai, Yafei Yan, Chuanfeng Zhao, Shao‐Meng Li, Tong Zhu, Min Hu

2024Science Advances20 citationsDOIOpen Access PDF

Abstract

Ice-nucleating particles (INPs) can initiate cloud ice formation, influencing cloud radiative effects (CRE) and climate. However, the knowledge of INP sources, concentrations, and their impact on CRE over the Tibetan Plateau (TP)-a highly climate-sensitive region-remains largely hypothetical. Here, we integrated data from multisource satellite observations and snowpack samples collected from five glaciers to demonstrate that dust particles constitute primary INP sources over the TP. The springtime dust influxes lead to seasonally elevated ice concentrations in mixed-phase clouds. Furthermore, the decadal reduction in dustiness from 2007 to 2019 results in decreased springtime dust INPs, thereby amplifying the cooling effect of clouds over the TP, with a 1.98 ± 0.39-watt per square meter reduction in surface net CRE corresponding to a 0.01 decrease in dust optical depth. Our findings elucidate previously unidentified pathways of climate feedback from an atmospheric INP perspective, especially highlighting the crucial role of dust in aerosol-cloud interactions.

Topics & Concepts

Ice nucleusAerosolEnvironmental scienceAtmospheric sciencesPlateau (mathematics)GlacierClimatologyParticle (ecology)SnowMeteorologyPhysical geographyChemistryGeologyGeographyOceanographyNucleationOrganic chemistryMathematicsMathematical analysisAtmospheric aerosols and cloudsAtmospheric chemistry and aerosolsAtmospheric Ozone and Climate