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Physical Mechanisms of Deep Convective Boundary Layer Leading to Dust Emission in the Taklimakan Desert

Lu Zhang, Hongsheng Zhang, Xuhui Cai, Yu Song, Ali Mamtimin, Qing He

2024Geophysical Research Letters10 citationsDOIOpen Access PDF

Abstract

Abstract Deserts play an important role in the climate system, which is closely associated with the emission and transport of dust aerosols. Based on the intensive observation experiment in the Taklimakan Desert, the potential physical processes between the deep convective boundary layer (CBL) and dust emission are revealed in this study. Deep CBL enables the formation of clouds in the late afternoon, leading to significant cooling of surface. Large‐scale buoyant coherent structures thereby transform into the mechanical coherent structures confined near the surface. The responses promote the earlier occurrence of low‐level jet (LLJ) than in cloudless conditions, which allows the downward transport of LLJ momentum and substantially increases surface wind. Therefore, dust emission is initiated by strong wind at dusk and lasts for several hours. The results are useful to predict dust emissions and improve our understanding of distinctive boundary‐layer processes in desert regions.

Topics & Concepts

Desert (philosophy)Boundary layerConvective Boundary LayerConvectionAtmospheric sciencesEnvironmental sciencePlanetary boundary layerLayer (electronics)DaytimeMeteorologyGeologyGeophysicsMechanicsMaterials sciencePhysicsComposite materialEpistemologyPhilosophyAtmospheric aerosols and cloudsAeolian processes and effectsAtmospheric chemistry and aerosols
Physical Mechanisms of Deep Convective Boundary Layer Leading to Dust Emission in the Taklimakan Desert | Litcius