Eccentricity-paced monsoon variability on the northeastern Tibetan Plateau in the Late Oligocene high CO2 world

Constraining monsoon variability and dynamics in the warm unipolar icehouse world of the Late Oligocene can provide important clues to future climate responses to global warming. Here, we present a similar to 4-thousand year (ka) resolution rubidium-to-strontium ratio and magnetic susceptibility rec...

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Bibliographic Details
Published in:Science Advances
Main Authors: Ao, Hong, Liebrand, Diederik, Dekkers, Mark J., Zhang, Peng, Song, Yougui, Liu, Qingsong, Jonell, Tara N., Sun, Qiang, Li, Xinzhou, Li, Xinxia, Qiang, Xiaoke, An, Zhisheng
Format: Report
Language:English
Published: AMER ASSOC ADVANCEMENT SCIENCE 2021
Subjects:
ASIAN SUMMER MONSOON
ANTARCTIC ICE-SHEET
LANZHOU BASIN
GLOBAL MONSOON
SEA-LEVEL
CLIMATE
CYCLES
RECORD
NORTH
CHINA
Science & Technology - Other Topics
Multidisciplinary Sciences
Antarctic
Pacific
Indian
Antarc*
Ice Sheet
Online Access:http://ir.ieecas.cn/handle/361006/17329
http://ir.ieecas.cn/handle/361006/17330
https://doi.org/10.1126/sciadv.abk2318
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Summary:Constraining monsoon variability and dynamics in the warm unipolar icehouse world of the Late Oligocene can provide important clues to future climate responses to global warming. Here, we present a similar to 4-thousand year (ka) resolution rubidium-to-strontium ratio and magnetic susceptibility records between 28.1 and 24.1 million years ago from a distal alluvial sedimentary sequence in the Lanzhou Basin (China) on the northeastern Tibetan Plateau margin. These Asian monsoon precipitation records exhibit prominent short (similar to 110-ka) and long (405-ka) eccentricity cycles throughout the Late Oligocene, with a weak expression of obliquity (41-ka) and precession (19-ka and 23-ka) cycles. We conclude that a combination of eccentricity-modulated low-latitude summer insolation and glacial-interglacial Antarctic Ice Sheet fluctuations drove the eccentricity-paced precipitation variability on the northeastern Tibetan Plateau in the Late Oligocene high CO2 world by governing regional temperatures, water vapor loading in the western Pacific and Indian Oceans, and the Asian monsoon intensity and displacement.

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