资源环境科技发展态势分析平台

The response of the East Asian winter monsoon (EAWM) circulation to aerosols is studied using a coupled atmosphere-slab ocean general circulation model. In the extratropics, the aerosol-induced cooling in the midlatitudes leads to an intensified subtropical jet stream, a deepened East Asian trough, and thus an enhanced EAWM. In the tropics, the local Hadley circulation shifts southward to compensate for the interhemispheric asymmetry in aerosol radiative cooling. Anomalous subsidence at around 10 degrees N leads to a salient anticyclone to the southwest of the Philippines. The associated southwesterlies advect abundant moisture to South China, resulting in local precipitation increases and suggesting a weaker EAWM. The EAWM response to aerosol forcing is thus driven by a competition between tropical and extratropical mechanisms, which has important implications for the future monsoon evolution, as aerosol changes may follow different regional-dependent trajectories.

Plain Language Summary In this study, we use a global atmospheric model to examine how aerosols affect the East Asian winter monsoon intensity, which modulates the strength of cold air outbreaks in East Asia. The aerosol-induced cooling mainly appears in the Northern Hemisphere midlatitude land and their downwind ocean regions. The cooling enhances the East Asian winter monsoon north of 30 degrees N, with stronger northerly winds and colder winters there. However, aerosols weaken the East Asian winter monsoon south of 30 degrees N, with intensified southerly winds bringing warm and moist air to South China, thus resulting in enhanced precipitation. The larger magnitude of the southerly south of 30 degrees N than that of the northerly north of 30 degrees N and increased precipitation over South China suggest a considerable influence of aerosols on East Asian winter monsoon through tropical circulation changes.