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Coupled Pacific Rim megadroughts contributed to the fall of the Ming Dynasty’s capital in 1644 CE

Feng Chen, Feng Chen, Tao Wang, Xiaoen Zhao, Jan Esper, Fredrik Charpentier Ljungqvist, Ulf Büntgen, Hans W. Linderholm, David M. Meko, Hongna Xu, Weipeng Yue, Shijie Wang, Yujiang Yuan, Jingyun Zheng, Wei Pan, Fidel A. Roig, Martín A. Hadad, Mao Hu, Jiachang Wei, Fahu Chen, Fahu Chen

2024Science Bulletin59 citationsDOIOpen Access PDF

Abstract

Historical documents provide evidence for regional droughts preceding the political turmoil and fall of Beijing in 1644 CE, when more than 20 million people died in northern China during the late Ming famine period. However, the role climate and environmental changes may have played in this pivotal event in Chinese history remains unclear. Here, we provide tree-ring evidence of persistent megadroughts from 1576 to 1593 CE and from 1628 to 1644 CE in northern China, which coincided with exceptionally cold summers just before the fall of Beijing. Our analysis reveals that these regional hydroclimatic extremes are part of a series of megadroughts along the Pacific Rim, which not only impacted the ecology and society of monsoonal northern China, but likely also exacerbated external geopolitical and economic pressures. This finding is corroborated by last millennium reanalysis data and numerical climate model simulations revealing internally driven Pacific sea surface temperature variations and the predominance of decadal scale La Niña-like conditions to be responsible for precipitation decreases over northern China, as well as extensive monsoon regions in the Americas. These teleconnection patterns provide a mechanistic explanation for reoccurring drought spells during the late Ming Dynasty and the environmental framework fostering the fall of Beijing in 1644 CE, and the subsequent demise of the Ming Dynasty.

Topics & Concepts

ChinaTeleconnectionBeijingDemiseFamineClimatologyGeographyEast Asian MonsoonMonsoonEl Niño Southern OscillationGeologyPolitical scienceArchaeologyLawTree-ring climate responsesClimate variability and modelsPlant Water Relations and Carbon Dynamics