Timing and structure of the Younger Dryas event and its underlying climate dynamics

Hai Cheng; Haiwei Zhang; Christoph Spötl; Jonathan Baker; Ashish Sinha; Hanying Li; Miguel Bartolomé; Ana Moreno; Gayatri Kathayat; Jingyao Zhao; Xiyu Dong; Youwei Li; Youfeng Ning; Xue Jia; Baoyun Zong; Yassine Ait Brahim; Carlos Pérez-Mejiás; Yanjun Cai; Valdir F. Novello; Francisco W. Cruz; Jeffrey P. Severinghaus; Zhisheng An; R. Lawrence Edwards

doi:10.1073/pnas.2007869117

Timing and structure of the Younger Dryas event and its underlying climate dynamics

Hai Cheng
, Haiwei Zhang
, Christoph Spötl
, Jonathan Baker
, Ashish Sinha
, Hanying Li
, Miguel Bartolomé
, Ana Moreno
, Gayatri Kathayat
, Jingyao Zhao
, Xiyu Dong
, Youwei Li
, Youfeng Ning
, Xue Jia
, Baoyun Zong
, Yassine Ait Brahim
, Carlos Pérez-Mejiás
, Yanjun Cai
, Valdir F. Novello
, Francisco W. Cruz

Jeffrey P. Severinghaus, Zhisheng An, R. Lawrence Edwards

人居环境与建筑工程学院

CAS - Institute of Earth Environment
Chinese Academy of Geological Sciences
University of Innsbruck
Xi'an Jiaotong University
California State University Dominguez Hills
Spanish National Research Council (CSIC)
Pyrenean Institute of Ecology-CSIC
Universidade de São Paulo
University of California at San Diego
University of Minnesota Twin Cities
Nanjing Normal University

科研成果: 期刊稿件 › 文章 › 同行评审

218 引用（Scopus）

摘要

The Younger Dryas (YD), arguably the most widely studied millennialscale extreme climate event, was characterized by diverse hydroclimate shifts globally and severe cooling at high northern latitudes that abruptly punctuated the warming trend from the last glacial to the present interglacial. To date, a precise understanding of its trigger, propagation, and termination remains elusive. Here, we present speleothem oxygen-isotope data that, in concert with other proxy records, allow us to quantify the timing of the YD onset and termination at an unprecedented subcentennial temporal precision across the North Atlantic, Asian Monsoon-Westerlies, and South American Monsoon regions. Our analysis suggests that the onsets of YD in the North Atlantic (12,870 ± 30 B.P.) and the Asian Monsoon- Westerlies region are essentially synchronous within a few decades and lead the onset in Antarctica, implying a north-to-south climate signal propagation via both atmospheric (decadal-time scale) and oceanic (centennial-time scale) processes, similar to the Dansgaard- Oeschger events during the last glacial period. In contrast, the YD termination may have started first in Antarctica at ~11,900 B.P., or perhaps even earlier in the western tropical Pacific, followed by the North Atlantic between ~11,700 ± 40 and 11,610 ± 40 B.P. These observations suggest that the initial YD termination might have originated in the Southern Hemisphere and/or the tropical Pacific, indicating a Southern Hemisphere/tropics to North Atlantic-Asian Monsoon-Westerlies directionality of climatic recovery.

源语言	英语
页（从-至）	23408-23417
页数	10
期刊	Proceedings of the National Academy of Sciences of the United States of America
卷	117
期	38
DOI	https://doi.org/10.1073/pnas.2007869117
出版状态	已出版 - 22 9月 2020

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 13 气候行动

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10.1073/pnas.2007869117

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Cheng, H., Zhang, H., Spötl, C., Baker, J., Sinha, A., Li, H., Bartolomé, M., Moreno, A., Kathayat, G., Zhao, J., Dong, X., Li, Y., Ning, Y., Jia, X., Zong, B., Brahim, Y. A., Pérez-Mejiás, C., Cai, Y., Novello, V. F., ... Edwards, R. L. (2020). Timing and structure of the Younger Dryas event and its underlying climate dynamics. Proceedings of the National Academy of Sciences of the United States of America, 117(38), 23408-23417. https://doi.org/10.1073/pnas.2007869117

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title = "Timing and structure of the Younger Dryas event and its underlying climate dynamics",

abstract = "The Younger Dryas (YD), arguably the most widely studied millennialscale extreme climate event, was characterized by diverse hydroclimate shifts globally and severe cooling at high northern latitudes that abruptly punctuated the warming trend from the last glacial to the present interglacial. To date, a precise understanding of its trigger, propagation, and termination remains elusive. Here, we present speleothem oxygen-isotope data that, in concert with other proxy records, allow us to quantify the timing of the YD onset and termination at an unprecedented subcentennial temporal precision across the North Atlantic, Asian Monsoon-Westerlies, and South American Monsoon regions. Our analysis suggests that the onsets of YD in the North Atlantic (12,870 ± 30 B.P.) and the Asian Monsoon- Westerlies region are essentially synchronous within a few decades and lead the onset in Antarctica, implying a north-to-south climate signal propagation via both atmospheric (decadal-time scale) and oceanic (centennial-time scale) processes, similar to the Dansgaard- Oeschger events during the last glacial period. In contrast, the YD termination may have started first in Antarctica at \textasciitilde{}11,900 B.P., or perhaps even earlier in the western tropical Pacific, followed by the North Atlantic between \textasciitilde{}11,700 ± 40 and 11,610 ± 40 B.P. These observations suggest that the initial YD termination might have originated in the Southern Hemisphere and/or the tropical Pacific, indicating a Southern Hemisphere/tropics to North Atlantic-Asian Monsoon-Westerlies directionality of climatic recovery.",

keywords = "Climate dynamics, Event phasing, Structure, Timing, Younger Dryas",

author = "Hai Cheng and Haiwei Zhang and Christoph Sp{\"o}tl and Jonathan Baker and Ashish Sinha and Hanying Li and Miguel Bartolom{\'e} and Ana Moreno and Gayatri Kathayat and Jingyao Zhao and Xiyu Dong and Youwei Li and Youfeng Ning and Xue Jia and Baoyun Zong and Brahim, \{Yassine Ait\} and Carlos P{\'e}rez-Meji{\'a}s and Yanjun Cai and Novello, \{Valdir F.\} and Cruz, \{Francisco W.\} and Severinghaus, \{Jeffrey P.\} and Zhisheng An and Edwards, \{R. Lawrence\}",

year = "2020",

month = sep,

day = "22",

doi = "10.1073/pnas.2007869117",

language = "英语",

volume = "117",

pages = "23408--23417",

journal = "Proceedings of the National Academy of Sciences of the United States of America",

issn = "0027-8424",

publisher = "National Academy of Sciences",

number = "38",

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Cheng, H , Zhang, H, Spötl, C, Baker, J, Sinha, A, Li, H, Bartolomé, M, Moreno, A, Kathayat, G, Zhao, J, Dong, X, Li, Y, Ning, Y, Jia, X, Zong, B, Brahim, YA, Pérez-Mejiás, C, Cai, Y, Novello, VF, Cruz, FW, Severinghaus, JP, An, Z & Edwards, RL 2020, 'Timing and structure of the Younger Dryas event and its underlying climate dynamics', Proceedings of the National Academy of Sciences of the United States of America, 卷 117, 号码 38, 页码 23408-23417. https://doi.org/10.1073/pnas.2007869117

TY - JOUR

T1 - Timing and structure of the Younger Dryas event and its underlying climate dynamics

AU - Cheng, Hai

AU - Zhang, Haiwei

AU - Spötl, Christoph

AU - Baker, Jonathan

AU - Sinha, Ashish

AU - Li, Hanying

AU - Bartolomé, Miguel

AU - Moreno, Ana

AU - Kathayat, Gayatri

AU - Zhao, Jingyao

AU - Dong, Xiyu

AU - Li, Youwei

AU - Ning, Youfeng

AU - Jia, Xue

AU - Zong, Baoyun

AU - Brahim, Yassine Ait

AU - Pérez-Mejiás, Carlos

AU - Cai, Yanjun

AU - Novello, Valdir F.

AU - Cruz, Francisco W.

AU - Severinghaus, Jeffrey P.

AU - An, Zhisheng

AU - Edwards, R. Lawrence

PY - 2020/9/22

Y1 - 2020/9/22

N2 - The Younger Dryas (YD), arguably the most widely studied millennialscale extreme climate event, was characterized by diverse hydroclimate shifts globally and severe cooling at high northern latitudes that abruptly punctuated the warming trend from the last glacial to the present interglacial. To date, a precise understanding of its trigger, propagation, and termination remains elusive. Here, we present speleothem oxygen-isotope data that, in concert with other proxy records, allow us to quantify the timing of the YD onset and termination at an unprecedented subcentennial temporal precision across the North Atlantic, Asian Monsoon-Westerlies, and South American Monsoon regions. Our analysis suggests that the onsets of YD in the North Atlantic (12,870 ± 30 B.P.) and the Asian Monsoon- Westerlies region are essentially synchronous within a few decades and lead the onset in Antarctica, implying a north-to-south climate signal propagation via both atmospheric (decadal-time scale) and oceanic (centennial-time scale) processes, similar to the Dansgaard- Oeschger events during the last glacial period. In contrast, the YD termination may have started first in Antarctica at ~11,900 B.P., or perhaps even earlier in the western tropical Pacific, followed by the North Atlantic between ~11,700 ± 40 and 11,610 ± 40 B.P. These observations suggest that the initial YD termination might have originated in the Southern Hemisphere and/or the tropical Pacific, indicating a Southern Hemisphere/tropics to North Atlantic-Asian Monsoon-Westerlies directionality of climatic recovery.

AB - The Younger Dryas (YD), arguably the most widely studied millennialscale extreme climate event, was characterized by diverse hydroclimate shifts globally and severe cooling at high northern latitudes that abruptly punctuated the warming trend from the last glacial to the present interglacial. To date, a precise understanding of its trigger, propagation, and termination remains elusive. Here, we present speleothem oxygen-isotope data that, in concert with other proxy records, allow us to quantify the timing of the YD onset and termination at an unprecedented subcentennial temporal precision across the North Atlantic, Asian Monsoon-Westerlies, and South American Monsoon regions. Our analysis suggests that the onsets of YD in the North Atlantic (12,870 ± 30 B.P.) and the Asian Monsoon- Westerlies region are essentially synchronous within a few decades and lead the onset in Antarctica, implying a north-to-south climate signal propagation via both atmospheric (decadal-time scale) and oceanic (centennial-time scale) processes, similar to the Dansgaard- Oeschger events during the last glacial period. In contrast, the YD termination may have started first in Antarctica at ~11,900 B.P., or perhaps even earlier in the western tropical Pacific, followed by the North Atlantic between ~11,700 ± 40 and 11,610 ± 40 B.P. These observations suggest that the initial YD termination might have originated in the Southern Hemisphere and/or the tropical Pacific, indicating a Southern Hemisphere/tropics to North Atlantic-Asian Monsoon-Westerlies directionality of climatic recovery.

KW - Climate dynamics

KW - Event phasing

KW - Structure

KW - Timing

KW - Younger Dryas

UR - https://www.scopus.com/pages/publications/85091572221

U2 - 10.1073/pnas.2007869117

DO - 10.1073/pnas.2007869117

M3 - 文章

C2 - 32900942

AN - SCOPUS:85091572221

SN - 0027-8424

VL - 117

SP - 23408

EP - 23417

JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 38

ER -

Timing and structure of the Younger Dryas event and its underlying climate dynamics

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