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Combined high- and low-latitude forcing of East Asian monsoon precipitation variability in the Pliocene warm period.


ABSTRACT: East Asian monsoon variability in the Pliocene warm world has not been sufficiently studied because of the lack of direct records. We present a high-resolution precipitation record from Pliocene fluvial-lacustrine sequences in the Weihe Basin, Central China, a region sensitive to the East Asian monsoon. The record shows an abrupt monsoon shift at ~4.2 million years ago, interpreted as the result of high-latitude cooling, with an extratropical temperature decrease across a critical threshold. The precipitation time series exhibits a pronounced ~100-thousand year periodicity and the presence of precession and half-precession cycles, which suggest low-latitude forcing. The synchronous phase but mismatched amplitudes of the East Asian monsoon precipitation proxy and eccentricity suggest a nonlinear but sensitive precipitation response to temperature forcing in the Pliocene warm world. These observations highlight the role of high- and low-latitude forcing of East Asian monsoon variations on tectonic and orbital time scales.

SUBMITTER: Wang Y 

PROVIDER: S-EPMC7673752 | biostudies-literature | 2020 Nov

REPOSITORIES: biostudies-literature

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Combined high- and low-latitude forcing of East Asian monsoon precipitation variability in the Pliocene warm period.

Wang Yichao Y   Lu Huayu H   Wang Kexin K   Wang Yao Y   Li Yongxiang Y   Clemens Steven S   Lv Hengzhi H   Huang Zihan Z   Wang Hanlin H   Hu Xuzhi X   Lu Fuzhi F   Zhang Hanzhi H  

Science advances 20201113 46


East Asian monsoon variability in the Pliocene warm world has not been sufficiently studied because of the lack of direct records. We present a high-resolution precipitation record from Pliocene fluvial-lacustrine sequences in the Weihe Basin, Central China, a region sensitive to the East Asian monsoon. The record shows an abrupt monsoon shift at ~4.2 million years ago, interpreted as the result of high-latitude cooling, with an extratropical temperature decrease across a critical threshold. The  ...[more]

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