Impacts of Anthropogenic Emissions over South Asia on East Asian Spring Climate: Two Possible Dynamical Pathways

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Abstract Both South Asia and East Asia are the most polluted regions of the world. Unlike East Asia, the aerosol optical depth (AOD) over South Asia keeps increasing for all recent years, which calls for more attention. This study investigates the impacts of anthropogenic emissions over South Asia on the downstream regional climate during spring with the Community Earth System Model 2 (CESM2). The model results suggest that South Asian pollutants have significant impacts on East Asian spring climate, and the impacts could be even larger than locally emitted aerosols. Two possible dynamical pathways (i.e., the northern and the southern pathways) bridging South Asian aerosol forcing and East Asian climate are proposed, and both ways are associated with the black carbon (BC)-induced climate feedbacks surrounding the Tibetan Plateau (TP). The northern pathway is mainly due to the TP warming induced by the BC snow darkening effect (SDE), which significantly reduces the surface air temperature (SAT) over northern East Asia. BC-induced TP warming increases the meridional thermal gradient and accelerates the midlatitude jet stream, which favors the cold-air advection over northern East Asia. The southern pathway is associated with the BC “elevated heat pump” hypothesis, which mainly affects the precipitation in southern East Asia. BC from South Asia accumulates near the south slope of TP, inducing an abnormal ascending motion near the Bay of Bengal. A compensating anomalous sinking motion is then forced in South China, which suppresses the precipitation there. A primary observational analysis is also performed to verify both dynamical pathways. Significance Statement The intensified air pollution over South Asia and its impacts on local climate have been extensively investigated, but its impacts on the climate of remote regions have not been well recognized. Two possible dynamical pathways bridging South Asian air pollutants and East Asian spring climate are proposed, and the black carbon (BC)-induced climate feedbacks surrounding the Tibetan Plateau (TP) are emphasized for both pathways. The findings of this study favor the projection of East Asian future climate under the background of Third Pole/TP warming.