Litcius/Paper detail

Sharp decline of dust events induces regional wetting over arid and semi-arid Northwest China in the NCAR Community atmosphere model

Xiaoning Xie, Xiaodong Liu, Zhengguo Shi, Xinzhou Li, Xiaoxun Xie, Hui Sun, Jianjun He, Huizheng Che, Xiaoye Zhang, Zhisheng An, Dié Wang, Yangang Liu

2023Environmental Research Letters10 citationsDOIOpen Access PDF

Abstract

Abstract Multiple lines of observational evidence have indicated a significant wetting over the arid and semi-arid Northwest China (NWC) during recent decades, coinciding with a simultaneous sharp decline of dust events. Although recent studies have attributed NWC wetting to different anthropogenic and natural forcings, the mechanisms are not definitive and the regional wetting has been greatly underestimated in the Coupled Model Intercomparison Project historical simulations. Based on sensitivity experiments with different dust emission amounts using the NCAR Community Atmospheric Model version 5 (CAM5), here we find that decreasing dusts exert significant impacts on mixed-phase clouds through reducing the concentration of ice nucleating particles, increase the NWC precipitation and thus induce regional wetting through enhancing convection precipitation. A possible convection invigoration mechanism whereby the atmospheric vertical temperature gradient and convective instability are strengthened by reduced dusts, leading to convection invigoration and increased precipitation. These results are reinforced by simulations over the dust region in North Africa where mixed-phase and ice clouds are rare and reduced dusts do not increase precipitation. This study highlights the possible mechanism of dust-ice cloud interactions in recent NWC wetting and future regional climate change.

Topics & Concepts

WettingPrecipitationAridEnvironmental scienceAtmospheric sciencesClimatologyConvectionAtmospheric instabilityAtmosphere (unit)MeteorologyGeologyGeographyMaterials scienceWind speedComposite materialPaleontologyAtmospheric aerosols and cloudsAtmospheric chemistry and aerosolsClimate variability and models