Mega‐Tripolar Precipitation Change Accompanying Water Isotopes in Holocene Asian Summer Monsoon Reanalysis
Liang Ning, Fangmiao Xing, Zhengyu Liu, Jian Liu, Michael Mann, Wu Fen, Lili Lei, Yongjin Wang, Lingfeng Wan, Hai Xu, Liangcheng Tan, Raymond S. Bradley, Mi Yan, Weiyi Sun, Deliang Chen, Huayu Lu, Qin Wen, Kefan Chen, Yanmin Qin
Abstract
Abstract The climatic interpretations of speleothem δ 18 O c records over Asian summer monsoon (ASM) region have been controversial. Here, combining speleothem δ 18 O c records with the first transient Holocene simulation of an isotope‐enabled earth system model, we reconstruct a dynamically consistent spatio‐temporal evolution of the ASM precipitation using paleoclimate data assimilation. Our reconstruction finds a new mega‐tripolar pattern of precipitation variations accompanying a continental‐wide enrichment of δ 18 O c from the early to late Holocene over the entire ASM continental region. Precipitation peaked in the early Holocene over South Asia, northern China and southern China, but in the late Holocene over central China. This mega‐tripolar pattern of precipitation variations can help resolve the long‐standing controversy about the timing of Holocene ASM precipitation peaks reconstructed from various proxy records.