Diverse manifestations of the mid-Pleistocene climate transition

Youbin Sun; Qiuzhen Yin; Michel Crucifix; Steven C. Clemens; Pablo Araya-Melo; Weiguo Liu; Xiaoke Qiang; Qingsong Liu; Hui Zhao; Lianji Liang; Hongyun Chen; Ying Li; Li Zhang; Guocheng Dong; Ming Li; Weijian Zhou; Andre Berger; Zhisheng An

doi:10.1038/s41467-018-08257-9

Diverse manifestations of the mid-Pleistocene climate transition

Youbin Sun
, Qiuzhen Yin
, Michel Crucifix
, Steven C. Clemens
, Pablo Araya-Melo
, Weiguo Liu
, Xiaoke Qiang
, Qingsong Liu
, Hui Zhao
, Lianji Liang
, Hongyun Chen
, Ying Li
, Li Zhang
, Guocheng Dong
, Ming Li
, Weijian Zhou
, Andre Berger
, Zhisheng An

CAS - Institute of Earth Environment
Chinese Academy of Sciences
Université catholique de Louvain
Brown University
Southern University of Science and Technology
Beijing University of Technology
Chinese Academy of Geological Sciences
Shaanxi Key Laboratory of Accelerator Mass Spectrometry Technology and Application
Beijing Normal University
Pilot National Laboratory for Marine Science and Technology

科研成果: 期刊稿件 › 文章 › 同行评审

228 引用（Scopus）

摘要

The mid-Pleistocene transition (MPT) is widely recognized as a shift in paleoclimatic periodicity from 41- to 100-kyr cycles, which largely reflects integrated changes in global ice volume, sea level, and ocean temperature from the marine realm. However, much less is known about monsoon-induced terrestrial vegetation change across the MPT. Here, on the basis of a 1.7-million-year δ ¹³ C record of loess carbonates from the Chinese Loess Plateau, we document a unique MPT reflecting terrestrial vegetation changes from a dominant 23-kyr periodicity before 1.2 Ma to combined 100, 41, and 23-kyr cycles after 0.7 Ma, very different from the conventional MPT characteristics. Model simulations further reveal that the MPT transition likely reflects decreased sensitivity of monsoonal hydroclimate to insolation forcing as the Northern Hemisphere became increasingly glaciated through the MPT. Our proxy-model comparison suggests varied responses of temperature and precipitation to astronomical forcing under different ice/CO ₂ boundary conditions, which greatly improves our understanding of monsoon variability and dynamics from the natural past to the anthropogenic future.

源语言	英语
文章编号	352
期刊	Nature Communications
卷	10
期	1
DOI	https://doi.org/10.1038/s41467-018-08257-9
出版状态	已出版 - 1 12月 2019
已对外发布	是

联合国可持续发展目标

此成果有助于实现下列可持续发展目标：

可持续发展目标 14 水下生物

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title = "Diverse manifestations of the mid-Pleistocene climate transition",

abstract = " The mid-Pleistocene transition (MPT) is widely recognized as a shift in paleoclimatic periodicity from 41- to 100-kyr cycles, which largely reflects integrated changes in global ice volume, sea level, and ocean temperature from the marine realm. However, much less is known about monsoon-induced terrestrial vegetation change across the MPT. Here, on the basis of a 1.7-million-year δ 13 C record of loess carbonates from the Chinese Loess Plateau, we document a unique MPT reflecting terrestrial vegetation changes from a dominant 23-kyr periodicity before 1.2 Ma to combined 100, 41, and 23-kyr cycles after 0.7 Ma, very different from the conventional MPT characteristics. Model simulations further reveal that the MPT transition likely reflects decreased sensitivity of monsoonal hydroclimate to insolation forcing as the Northern Hemisphere became increasingly glaciated through the MPT. Our proxy-model comparison suggests varied responses of temperature and precipitation to astronomical forcing under different ice/CO 2 boundary conditions, which greatly improves our understanding of monsoon variability and dynamics from the natural past to the anthropogenic future.",

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AU - Sun, Youbin

AU - Yin, Qiuzhen

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AU - Araya-Melo, Pablo

AU - Liu, Weiguo

AU - Qiang, Xiaoke

AU - Liu, Qingsong

AU - Zhao, Hui

AU - Liang, Lianji

AU - Chen, Hongyun

AU - Li, Ying

AU - Zhang, Li

AU - Dong, Guocheng

AU - Li, Ming

AU - Zhou, Weijian

AU - Berger, Andre

AU - An, Zhisheng

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N2 - The mid-Pleistocene transition (MPT) is widely recognized as a shift in paleoclimatic periodicity from 41- to 100-kyr cycles, which largely reflects integrated changes in global ice volume, sea level, and ocean temperature from the marine realm. However, much less is known about monsoon-induced terrestrial vegetation change across the MPT. Here, on the basis of a 1.7-million-year δ 13 C record of loess carbonates from the Chinese Loess Plateau, we document a unique MPT reflecting terrestrial vegetation changes from a dominant 23-kyr periodicity before 1.2 Ma to combined 100, 41, and 23-kyr cycles after 0.7 Ma, very different from the conventional MPT characteristics. Model simulations further reveal that the MPT transition likely reflects decreased sensitivity of monsoonal hydroclimate to insolation forcing as the Northern Hemisphere became increasingly glaciated through the MPT. Our proxy-model comparison suggests varied responses of temperature and precipitation to astronomical forcing under different ice/CO 2 boundary conditions, which greatly improves our understanding of monsoon variability and dynamics from the natural past to the anthropogenic future.

AB - The mid-Pleistocene transition (MPT) is widely recognized as a shift in paleoclimatic periodicity from 41- to 100-kyr cycles, which largely reflects integrated changes in global ice volume, sea level, and ocean temperature from the marine realm. However, much less is known about monsoon-induced terrestrial vegetation change across the MPT. Here, on the basis of a 1.7-million-year δ 13 C record of loess carbonates from the Chinese Loess Plateau, we document a unique MPT reflecting terrestrial vegetation changes from a dominant 23-kyr periodicity before 1.2 Ma to combined 100, 41, and 23-kyr cycles after 0.7 Ma, very different from the conventional MPT characteristics. Model simulations further reveal that the MPT transition likely reflects decreased sensitivity of monsoonal hydroclimate to insolation forcing as the Northern Hemisphere became increasingly glaciated through the MPT. Our proxy-model comparison suggests varied responses of temperature and precipitation to astronomical forcing under different ice/CO 2 boundary conditions, which greatly improves our understanding of monsoon variability and dynamics from the natural past to the anthropogenic future.

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Diverse manifestations of the mid-Pleistocene climate transition

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联合国可持续发展目标

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