Long-term decrease in Asian monsoon rainfall and abrupt climate change events over the past 6,700 years

Bao Yang; Chun Qin; Achim Bräuning; Timothy J. Osborn; Valerie Trouet; Fredrik Charpentier Ljungqvist; Jan Esper; Lea Schneider; Jussi Grießinger; Ulf Büntgen; Sergio Rossi; Guanghui Dong; Mi Yan; Liang Ning; Jianglin Wang; Xiaofeng Wang; Suming Wang; Jürg Luterbacher; Edward R. Cook; Nils Chr Stenseth

doi:10.1073/pnas.2102007118

Long-term decrease in Asian monsoon rainfall and abrupt climate change events over the past 6,700 years

Bao Yang, Chun Qin, Achim Bräuning, Timothy J. Osborn, Valerie Trouet, Fredrik Charpentier Ljungqvist, Jan Esper, Lea Schneider, Jussi Grießinger, Ulf Büntgen, Sergio Rossi, Guanghui Dong, Mi Yan, Liang Ning, Jianglin Wang, Xiaofeng Wang, Suming Wang, Jürg Luterbacher, Edward R. Cook, Nils Chr Stenseth

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Abstract

Asian summer monsoon (ASM) variability and its long-term ecological and societal impacts extending back to Neolithic times are poorly understood due to a lack of high-resolution climate proxy data. Here, we present a precisely dated and well-calibrated tree-ring stable isotope chronology from the Tibetan Plateau with 1- to 5-y resolution that reflects high- to low-frequency ASM variability from 4680 BCE to 2011 CE. Superimposed on a persistent drying trend since the mid-Holocene, a rapid decrease in moisture availability between ∼2000 and ∼1500 BCE caused a dry hydroclimatic regime from ∼1675 to ∼1185 BCE, with mean precipitation estimated at 42 ± 4% and 5 ± 2% lower than during the mid-Holocene and the instrumental period, respectively. This second-millennium–BCE megadrought marks the mid-to late Holocene transition, during which regional forests declined and enhanced aeolian activity affected northern Chinese ecosystems. We argue that this abrupt aridification starting ∼2000 BCE contributed to the shift of Neolithic cultures in northern China and likely triggered human migration and societal transformation.

Original language	English (US)
Article number	e2102007118
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	118
Issue number	30
DOIs	https://doi.org/10.1073/pnas.2102007118
State	Published - Jul 27 2021

Keywords

Tree rings | stable isotopes | climate variability | megadrought | Asian summer monsoon

ASJC Scopus subject areas

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Yang, B., Qin, C., Bräuning, A., Osborn, T. J., Trouet, V., Ljungqvist, F. C., Esper, J., Schneider, L., Grießinger, J., Büntgen, U., Rossi, S., Dong, G., Yan, M., Ning, L., Wang, J., Wang, X., Wang, S., Luterbacher, J., Cook, E. R., & Stenseth, N. C. (2021). Long-term decrease in Asian monsoon rainfall and abrupt climate change events over the past 6,700 years. Proceedings of the National Academy of Sciences of the United States of America, 118(30), Article e2102007118. https://doi.org/10.1073/pnas.2102007118

Yang, B, Qin, C, Bräuning, A, Osborn, TJ, Trouet, V, Ljungqvist, FC, Esper, J, Schneider, L, Grießinger, J, Büntgen, U, Rossi, S, Dong, G, Yan, M, Ning, L, Wang, J, Wang, X, Wang, S, Luterbacher, J, Cook, ER & Stenseth, NC 2021, 'Long-term decrease in Asian monsoon rainfall and abrupt climate change events over the past 6,700 years', Proceedings of the National Academy of Sciences of the United States of America, vol. 118, no. 30, e2102007118. https://doi.org/10.1073/pnas.2102007118

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abstract = "Asian summer monsoon (ASM) variability and its long-term ecological and societal impacts extending back to Neolithic times are poorly understood due to a lack of high-resolution climate proxy data. Here, we present a precisely dated and well-calibrated tree-ring stable isotope chronology from the Tibetan Plateau with 1- to 5-y resolution that reflects high- to low-frequency ASM variability from 4680 BCE to 2011 CE. Superimposed on a persistent drying trend since the mid-Holocene, a rapid decrease in moisture availability between ∼2000 and ∼1500 BCE caused a dry hydroclimatic regime from ∼1675 to ∼1185 BCE, with mean precipitation estimated at 42 ± 4% and 5 ± 2% lower than during the mid-Holocene and the instrumental period, respectively. This second-millennium–BCE megadrought marks the mid-to late Holocene transition, during which regional forests declined and enhanced aeolian activity affected northern Chinese ecosystems. We argue that this abrupt aridification starting ∼2000 BCE contributed to the shift of Neolithic cultures in northern China and likely triggered human migration and societal transformation.",

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AU - Yang, Bao

AU - Qin, Chun

AU - Bräuning, Achim

AU - Osborn, Timothy J.

AU - Trouet, Valerie

AU - Ljungqvist, Fredrik Charpentier

AU - Esper, Jan

AU - Schneider, Lea

AU - Grießinger, Jussi

AU - Büntgen, Ulf

AU - Rossi, Sergio

AU - Dong, Guanghui

AU - Yan, Mi

AU - Ning, Liang

AU - Wang, Jianglin

AU - Wang, Xiaofeng

AU - Wang, Suming

AU - Luterbacher, Jürg

AU - Cook, Edward R.

AU - Stenseth, Nils Chr

PY - 2021/7/27

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N2 - Asian summer monsoon (ASM) variability and its long-term ecological and societal impacts extending back to Neolithic times are poorly understood due to a lack of high-resolution climate proxy data. Here, we present a precisely dated and well-calibrated tree-ring stable isotope chronology from the Tibetan Plateau with 1- to 5-y resolution that reflects high- to low-frequency ASM variability from 4680 BCE to 2011 CE. Superimposed on a persistent drying trend since the mid-Holocene, a rapid decrease in moisture availability between ∼2000 and ∼1500 BCE caused a dry hydroclimatic regime from ∼1675 to ∼1185 BCE, with mean precipitation estimated at 42 ± 4% and 5 ± 2% lower than during the mid-Holocene and the instrumental period, respectively. This second-millennium–BCE megadrought marks the mid-to late Holocene transition, during which regional forests declined and enhanced aeolian activity affected northern Chinese ecosystems. We argue that this abrupt aridification starting ∼2000 BCE contributed to the shift of Neolithic cultures in northern China and likely triggered human migration and societal transformation.

AB - Asian summer monsoon (ASM) variability and its long-term ecological and societal impacts extending back to Neolithic times are poorly understood due to a lack of high-resolution climate proxy data. Here, we present a precisely dated and well-calibrated tree-ring stable isotope chronology from the Tibetan Plateau with 1- to 5-y resolution that reflects high- to low-frequency ASM variability from 4680 BCE to 2011 CE. Superimposed on a persistent drying trend since the mid-Holocene, a rapid decrease in moisture availability between ∼2000 and ∼1500 BCE caused a dry hydroclimatic regime from ∼1675 to ∼1185 BCE, with mean precipitation estimated at 42 ± 4% and 5 ± 2% lower than during the mid-Holocene and the instrumental period, respectively. This second-millennium–BCE megadrought marks the mid-to late Holocene transition, during which regional forests declined and enhanced aeolian activity affected northern Chinese ecosystems. We argue that this abrupt aridification starting ∼2000 BCE contributed to the shift of Neolithic cultures in northern China and likely triggered human migration and societal transformation.

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Long-term decrease in Asian monsoon rainfall and abrupt climate change events over the past 6,700 years

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