News Release

Why is east Asian summer monsoon circulation enhanced under global warming?

Peer-Reviewed Publication

Institute of Atmospheric Physics, Chinese Academy of Sciences

TP Heating

image: A schematic illustrating the response of the near-surface atmospheric circulation to enhanced latent heating over TP under a warming climate. view more 

Credit: Chao He

The near-surface southerly wind is a key feature of East Asian summer monsoon (EASM) circulation, and a stronger EASM circulation leads to a northward shift of East Asian rainfall. Almost all climate models show an enhanced EASM circulation in a warmer climate, and previous studies attributed the enhanced EASM to the enhanced zonal land-sea thermal contrast.

"However, the land-sea thermal contrast cannot explain the seasonality of the change in East Asian circulation." said Dr. Chao He from Jinan University, China, "What's more, the enhanced EASM circulation is associated with a large-scale cyclone anomaly around Tibetan Plateau (TP), motivating us to hypothesize that TP may play a certain role".

In a recent study published in Journal of Climate, Chao He and Tianjun Zhou from Institute of Atmospheric Physics (IAP), Chinese Academy of Sciences, in cooperation with Ziqian Wang from Sun Yat-sen University andTim Li from Nanjing University of Information Science and Technology, confirmed this hypothesis. The study shows that the TP plays an essential role in enhancing the EASM circulation under global warming through enhanced latent heating over the TP.

The team compared the global warming scenarios with the present-day climate in 30 coupled models from phase 5 of the Coupled Model Intercomparison Project (CMIP5). Indeed, the latent heating over TP and its southern slope is substantially enhanced, due to the increased atmospheric water vapor content and enhanced local hydrological recycling. As confirmed by Linear Baroclinic Model, the enhanced latent heating over TP stimulates a cyclone anomaly around TP, enhancing the southerly wind in East Asia. In addition, the latent heating over TP also explains the inter-model spread of the projected changes in EASM circulation among CMIP5 models.

This study cleared up the role of the TP on the response of EASM circulation to global warming. "As the TP plays a key role in the response of EASM to global warming in future climate projections, attention should be paid to the accurate simulation of physical processes over TP." said Zhou.

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