Magnesium isotopic evidence for staged enhancement of the East Asian Summer Monsoon precipitation since the Miocene

Magnesium isotopic evidence for staged enhancement of the East Asian Summer Monsoon precipitation since the Miocene

Knowledge of the evolution of the East Asian Summer Monsoon (EASM) provides a valuable opportunity to uncover the dynamic interactions of land-ocean-atmosphere system in the late Cenozoic. However, the evolutionary history of EASM remains debatable, mainly due to the difficulty in separating EASM pr...

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Bibliographic Details
Published in:Geochimica et cosmochimica acta Vol. 324; pp. 140 - 155
Main Authors: Ma, Long, Sun, Youbin, Jin, Zhangdong, Bao, Zhian, Yuan, Honglin, Zhang, Pan, Huang, Kang-Jun
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-05-2022
Subjects:
Chinese loess deposits
East Asian Summer Monsoon precipitation
Mg isotopes
Secondary carbonate
Sr/Ca ratio
Walker Circulation
Mg isotopes
Secondary carbonate
Chinese loess deposits
Walker Circulation
Sr/Ca ratio
East Asian Summer Monsoon precipitation
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Summary:Knowledge of the evolution of the East Asian Summer Monsoon (EASM) provides a valuable opportunity to uncover the dynamic interactions of land-ocean-atmosphere system in the late Cenozoic. However, the evolutionary history of EASM remains debatable, mainly due to the difficulty in separating EASM precipitation and temperature signals. In this study, precipitation proxies of Sr/Ca ratio and δ26Mg value in loess secondary calcite (carbonate nodule (NC) and fine carbonate (FC) (grain size < 4 μm)) are further verified, with high precipitation corresponding to high δ26MgFC but low δ26MgNC and Sr/CaNC ratio, and vice versa. Then, these proxies are investigated in well-researched Chinese loess eolian deposits since ∼22.5 Ma. Results suggests that the EASM precipitation was staged enhancement in the mid-Miocene (∼16.5–14.0 Ma) and the Quaternary (∼2.6–0 Ma). The mid-Miocene enhancement can be compared with the strong EASM intensity and the warmest global temperature since the Miocene. Global warming thus is considered as the dominant force for this enhancement via an expansion in the latitudinal extent of the Indo-Pacific Intertropical Convergence Zone (ITCZ). In contrast, the Quaternary enhancement was accompanied by decreases in global temperature. We propose their linkage via the reinforcement of the Pacific Walker Circulation and a northward shift of the subtropical ridge in the western Pacific. Our study provides a new insight into EASM evolution and its dynamic linkage with global climate changes.
ISSN:0016-7037
1872-9533
DOI:10.1016/j.gca.2022.03.005