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The Position of the Current Warm Period in the Context of the Past 22,000 Years of Summer Climate in China

Feng Shi, Huayu Lu, Zhengtang Guo, Qiuzhen Yin, Haibin Wu, Chenxi Xu, Enlou Zhang, Jiangfeng Shi, Jun Cheng, Xiayun Xiao, Cheng Zhao

2021Geophysical Research Letters59 citationsDOIOpen Access PDF

Abstract

Abstract Identifying the position of the Current Warm Period (CWP) in the context of the long‐term climatic trend is vital for understanding the impact of human activity on climate change. Reconstructions of summer temperature and precipitation in eight subregions of China over the past 22,000 years show that the CWP summer temperature and precipitation in these subregions are all lower than in the Early to Middle Holocene. The timing of the Holocene temperature and precipitation peaks in northern China (including Northwest China, North China, and Northeast China) is mainly determined by orbital forcing. Greenhouse gas forcing and the land ice‐sheet help to fine‐tune the timing of the climate maxima. These findings show that the climate since the Last Glacial Maximum in northern China is more sensitive to nonanthropogenic external forcings, whereas the summer precipitation in Southwest China since the early 20th century is controlled more by anthropogenically forced changes.

Topics & Concepts

ClimatologyPrecipitationHoloceneContext (archaeology)ChinaClimate changeEnvironmental scienceForcing (mathematics)Period (music)Climate stateGreenhouse gasGlobal warmingPhysical geographyGeographyGeologyEffects of global warmingOceanographyMeteorologyArchaeologyAcousticsPhysicsGeology and Paleoclimatology ResearchTree-ring climate responsesGeological formations and processes
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