An Zhisheng et al. (2011): Glacial-interglacial Indian summer monsoon dynamics

Leg/Site/Hole:
ODP 117
ODP 117 722
Identifier:
2011-083207
georefid

10.1126/science.1203752
doi

Creator:
An Zhisheng
Chinese Academy of Sciences, Institute of Earth Environment, Xi'an, China
author

Clemens, Steven C.
Brown University, United States
author

Ji, Shen
Chinese Academy of Sciences, Nanjing Institute of Geography and Limnology, China
author

Qiang Xiaoke
Japan Agency for Marine-Earth Science and Technology, Japan
author

Jin Zhangdong
author

Sun Youbin
author

Prell, Warren L.
author

Luo Jingjia
author

Wang Sumin
author

Xu Hai
author

Cai Yanjun
author

Zhou Weijian
author

Liu Xiaodong
author

Liu Weiguo
author

Shi Zhengguo
author

Yan Libin
author

Xiao Xiayun
author

Chang Hong
author

Wu Feng
author

Ai Li
author

Lu Fengyan
author

Identification:
Glacial-interglacial Indian summer monsoon dynamics
2011
Science
American Association for the Advancement of Science, Washington, DC, United States
333
6043
719-723
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.
English
Coverage:Geographic coordinates:
North:26.4343
West:59.4745East: 100.1014
South:16.3718

Quaternary geology; Arabian Sea; Asia; Brunhes Chron; Cenozoic; China; Far East; glacial environment; Heqing Basin; Indian Ocean; Indian summer monsoon; interglacial environment; isotope ratios; isotopes; Leg 117; Matuyama Chron; monsoons; O-18/O-16; Ocean Drilling Program; ODP Site 722; oxygen; paleoclimatology; paleomagnetism; paleotemperature; Quaternary; stable isotopes; upper Cenozoic; upper Quaternary; Yunnan China;

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