The Asian monsoon over the past 640,000 years and ice age terminations
Oxygen isotope records from Chinese caves characterize changes in both the Asian monsoon and global climate. Here, using our new speleothem data, we extend the Chinese record to cover the full uranium/thorium dating range, that is, the past 640,000 years. The record's length and temporal precis...
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sg-ntu-dr.10356-1450172020-12-12T20:11:01Z The Asian monsoon over the past 640,000 years and ice age terminations Cheng, Hai Edwards, R. Lawrence Sinha, Ashish Spötl, Christoph Yi, Liang Chen, Shitao Kelly, Megan Kathayat, Gayatri Wang, Xianfeng Li, Xianglei Kong, Xinggong Wang, Yongjin Ning, Youfeng Zhang, Haiwei Earth Observatory of Singapore Social sciences::Geography Climate Change Palaeoclimate Oxygen isotope records from Chinese caves characterize changes in both the Asian monsoon and global climate. Here, using our new speleothem data, we extend the Chinese record to cover the full uranium/thorium dating range, that is, the past 640,000 years. The record's length and temporal precision allow us to test the idea that insolation changes caused by the Earth's precession drove the terminations of each of the last seven ice ages as well as the millennia-long intervals of reduced monsoon rainfall associated with each of the terminations. On the basis of our record's timing, the terminations are separated by four or five precession cycles, supporting the idea that the '100,000-year' ice age cycle is an average of discrete numbers of precession cycles. Furthermore, the suborbital component of monsoon rainfall variability exhibits power in both the precession and obliquity bands, and is nearly in anti-phase with summer boreal insolation. These observations indicate that insolation, in part, sets the pace of the occurrence of millennial-scale events, including those associated with terminations and 'unfinished terminations'. National Research Foundation (NRF) Accepted version This work was supported by China grants NBRP 2013CB955902, NSFC 41230524, 4157020432 and 41561144003, US NSF grants 0502535, 1103404, 0823554, 1003690, 1137693 and 1317693 and Singapore grant NRF-NRFF2011-08. We thank M. Siddall for help with analysis of the millennial-scale variability of the Antarctic temperature record and A. P. Roberts for converting the ice core chronology. 2020-12-08T08:30:08Z 2020-12-08T08:30:08Z 2016 Journal Article Cheng, H., Edwards, R. L., Sinha, A., Spötl, C., Yi, L., Chen, S., . . . Zhang, H. (2016). The Asian monsoon over the past 640,000 years and ice age terminations. Nature, 534(7609), 640-646. doi:10.1038/nature18591 0028-0836 https://hdl.handle.net/10356/145017 10.1038/nature18591 27357793 7609 534 640 646 en NRF-NRFF2011-08 Nature © 2016 Macmillan Publishers Limited. All rights reserved. This paper was published in Nature and is made available with permission of Macmillan Publishers Limited. application/pdf |
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Social sciences::Geography Climate Change Palaeoclimate Cheng, Hai Edwards, R. Lawrence Sinha, Ashish Spötl, Christoph Yi, Liang Chen, Shitao Kelly, Megan Kathayat, Gayatri Wang, Xianfeng Li, Xianglei Kong, Xinggong Wang, Yongjin Ning, Youfeng Zhang, Haiwei The Asian monsoon over the past 640,000 years and ice age terminations |
| description |
Oxygen isotope records from Chinese caves characterize changes in both the Asian monsoon and global climate. Here, using our new speleothem data, we extend the Chinese record to cover the full uranium/thorium dating range, that is, the past 640,000 years. The record's length and temporal precision allow us to test the idea that insolation changes caused by the Earth's precession drove the terminations of each of the last seven ice ages as well as the millennia-long intervals of reduced monsoon rainfall associated with each of the terminations. On the basis of our record's timing, the terminations are separated by four or five precession cycles, supporting the idea that the '100,000-year' ice age cycle is an average of discrete numbers of precession cycles. Furthermore, the suborbital component of monsoon rainfall variability exhibits power in both the precession and obliquity bands, and is nearly in anti-phase with summer boreal insolation. These observations indicate that insolation, in part, sets the pace of the occurrence of millennial-scale events, including those associated with terminations and 'unfinished terminations'. |
| author2 |
Earth Observatory of Singapore |
| author_facet |
Earth Observatory of Singapore Cheng, Hai Edwards, R. Lawrence Sinha, Ashish Spötl, Christoph Yi, Liang Chen, Shitao Kelly, Megan Kathayat, Gayatri Wang, Xianfeng Li, Xianglei Kong, Xinggong Wang, Yongjin Ning, Youfeng Zhang, Haiwei |
| format |
Article |
| author |
Cheng, Hai Edwards, R. Lawrence Sinha, Ashish Spötl, Christoph Yi, Liang Chen, Shitao Kelly, Megan Kathayat, Gayatri Wang, Xianfeng Li, Xianglei Kong, Xinggong Wang, Yongjin Ning, Youfeng Zhang, Haiwei |
| author_sort |
Cheng, Hai |
| title |
The Asian monsoon over the past 640,000 years and ice age terminations |
| title_short |
The Asian monsoon over the past 640,000 years and ice age terminations |
| title_full |
The Asian monsoon over the past 640,000 years and ice age terminations |
| title_fullStr |
The Asian monsoon over the past 640,000 years and ice age terminations |
| title_full_unstemmed |
The Asian monsoon over the past 640,000 years and ice age terminations |
| title_sort |
asian monsoon over the past 640,000 years and ice age terminations |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/145017 |
| _version_ |
1688665253110349824 |