Glacial-interglacial Indian summer monsoon dynamics

An Zhisheng; Steven C. Clemens; Ji Shen; Xiaoke Qiang; Zhangdong Jin; Youbin Sun; Warren L. Prell; Jingjia Luo; Sumin Wang; Hai Xu; Yanjun Cai; Weijian Zhou; Xiaodong Liu; Weiguo Liu; Zhengguo Shi; Libin Yan; Xiayun Xiao; Hong Chang; Feng Wu; Li Ai; Fengyan Lu

doi:10.1126/science.1203752

Glacial-interglacial Indian summer monsoon dynamics

An Zhisheng
, Steven C. Clemens
, Ji Shen
, Xiaoke Qiang
, Zhangdong Jin
, Youbin Sun
, Warren L. Prell
, Jingjia Luo
, Sumin Wang
, Hai Xu
, Yanjun Cai
, Weijian Zhou
, Xiaodong Liu
, Weiguo Liu
, Zhengguo Shi
, Libin Yan
, Xiayun Xiao
, Hong Chang
, Feng Wu
, Li Ai

Fengyan Lu

School of Human Settlements and Civil Engineering

CAS - Institute of Earth Environment
Brown University
CAS - Nanjing Institute of Geography and Limnology
Japan Agency for Marine-Earth Science and Technology

Research output: Contribution to journal › Article › peer-review

509 Scopus citations

Abstract

The modern Indian summer monsoon (ISM) is characterized by exceptionally strong interhemispheric transport, indicating the importance of both Northern and Southern Hemisphere processes driving monsoon variability. Here, we present a high-resolution continental record from southwestern China that demonstrates the importance of interhemispheric forcing in driving ISM variability at the glacial-interglacial time scale as well. Interglacial ISM maxima are dominated by an enhanced Indian low associated with global ice volume minima. In contrast, the glacial ISM reaches a minimum, and actually begins to increase, before global ice volume reaches a maximum. We attribute this early strengthening to an increased cross-equatorial pressure gradient derived from Southern Hemisphere high-latitude cooling. This mechanism explains much of the nonorbital scale variance in the Pleistocene ISM record.

Original language	English
Pages (from-to)	719-723
Number of pages	5
Journal	Science
Volume	333
Issue number	6043
DOIs	https://doi.org/10.1126/science.1203752
State	Published - 5 Aug 2011

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title = "Glacial-interglacial Indian summer monsoon dynamics",

abstract = "The modern Indian summer monsoon (ISM) is characterized by exceptionally strong interhemispheric transport, indicating the importance of both Northern and Southern Hemisphere processes driving monsoon variability. Here, we present a high-resolution continental record from southwestern China that demonstrates the importance of interhemispheric forcing in driving ISM variability at the glacial-interglacial time scale as well. Interglacial ISM maxima are dominated by an enhanced Indian low associated with global ice volume minima. In contrast, the glacial ISM reaches a minimum, and actually begins to increase, before global ice volume reaches a maximum. We attribute this early strengthening to an increased cross-equatorial pressure gradient derived from Southern Hemisphere high-latitude cooling. This mechanism explains much of the nonorbital scale variance in the Pleistocene ISM record.",

author = "An Zhisheng and Clemens, \{Steven C.\} and Ji Shen and Xiaoke Qiang and Zhangdong Jin and Youbin Sun and Prell, \{Warren L.\} and Jingjia Luo and Sumin Wang and Hai Xu and Yanjun Cai and Weijian Zhou and Xiaodong Liu and Weiguo Liu and Zhengguo Shi and Libin Yan and Xiayun Xiao and Hong Chang and Feng Wu and Li Ai and Fengyan Lu",

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day = "5",

doi = "10.1126/science.1203752",

language = "英语",

volume = "333",

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TY - JOUR

T1 - Glacial-interglacial Indian summer monsoon dynamics

AU - Zhisheng, An

AU - Clemens, Steven C.

AU - Shen, Ji

AU - Qiang, Xiaoke

AU - Jin, Zhangdong

AU - Sun, Youbin

AU - Prell, Warren L.

AU - Luo, Jingjia

AU - Wang, Sumin

AU - Xu, Hai

AU - Cai, Yanjun

AU - Zhou, Weijian

AU - Liu, Xiaodong

AU - Liu, Weiguo

AU - Shi, Zhengguo

AU - Yan, Libin

AU - Xiao, Xiayun

AU - Chang, Hong

AU - Wu, Feng

AU - Ai, Li

AU - Lu, Fengyan

PY - 2011/8/5

Y1 - 2011/8/5

N2 - The modern Indian summer monsoon (ISM) is characterized by exceptionally strong interhemispheric transport, indicating the importance of both Northern and Southern Hemisphere processes driving monsoon variability. Here, we present a high-resolution continental record from southwestern China that demonstrates the importance of interhemispheric forcing in driving ISM variability at the glacial-interglacial time scale as well. Interglacial ISM maxima are dominated by an enhanced Indian low associated with global ice volume minima. In contrast, the glacial ISM reaches a minimum, and actually begins to increase, before global ice volume reaches a maximum. We attribute this early strengthening to an increased cross-equatorial pressure gradient derived from Southern Hemisphere high-latitude cooling. This mechanism explains much of the nonorbital scale variance in the Pleistocene ISM record.

AB - The modern Indian summer monsoon (ISM) is characterized by exceptionally strong interhemispheric transport, indicating the importance of both Northern and Southern Hemisphere processes driving monsoon variability. Here, we present a high-resolution continental record from southwestern China that demonstrates the importance of interhemispheric forcing in driving ISM variability at the glacial-interglacial time scale as well. Interglacial ISM maxima are dominated by an enhanced Indian low associated with global ice volume minima. In contrast, the glacial ISM reaches a minimum, and actually begins to increase, before global ice volume reaches a maximum. We attribute this early strengthening to an increased cross-equatorial pressure gradient derived from Southern Hemisphere high-latitude cooling. This mechanism explains much of the nonorbital scale variance in the Pleistocene ISM record.

UR - https://www.scopus.com/pages/publications/79961222059

U2 - 10.1126/science.1203752

DO - 10.1126/science.1203752

M3 - 文章

AN - SCOPUS:79961222059

SN - 0036-8075

VL - 333

SP - 719

EP - 723

JO - Science

JF - Science

IS - 6043

ER -

Glacial-interglacial Indian summer monsoon dynamics

Abstract

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