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Pulsed counterclockwise rotation of the southwestern Sichuan Basin in response to the India-Asia convergence during 128-42 Ma

Deciphering the building history of the eastern Tibetan Plateau since the India-Asia convergence is crucial to understand geodynamic models of plateau formation. The Sichuan Basin adjacent to the eastern Tibetan Plateau margin potentially provides valuable records of when and how the Tibetan Plateau...

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Published in:Earth and planetary science letters 2023-06, Vol.611, p.118142, Article 118142
Main Authors: Shen, Qi, Jin, Chun-Sheng, Liang, Wen-Tian, Li, Chuan-Zhi, Yang, Hui-Hui, Ran, Ya-Zhou, He, Xuan, Wu, Guan-Zuo, Jiang, Kai, Li, Jian-Gang, Han, Peng, Yuan, Si-Hua
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Language:English
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Summary:Deciphering the building history of the eastern Tibetan Plateau since the India-Asia convergence is crucial to understand geodynamic models of plateau formation. The Sichuan Basin adjacent to the eastern Tibetan Plateau margin potentially provides valuable records of when and how the Tibetan Plateau expanded eastward. In this study, we reconstruct ∼128–42 Ma rotation history of the southwestern Sichuan Basin using detailed paleomagnetic declination data from the Early Cretaceous to Eocene sedimentary sequence of ∼2400 m thick. A total of 78 sampling sites (774 samples) yield primary remanent magnetization confirmed by positive paleomagnetic tests. Our results show that the southwestern Sichuan Basin experienced a long-term clockwise rotation during 128–42 Ma which was interrupted by three transient and rapid counterclockwise rotation pulses. The earlier two pulses (86–82 Ma and 66–60 Ma) coincide with two India Plate acceleration episodes which are probably induced by the Marion and/or Réunion mantle plume upwelling, whereas the later pulse (53–46 Ma) temporally corresponds to the sudden slowdown of the India Plate caused by the India-Asia collision. Our findings indicate that the eastern Tibetan Plateau experienced prolonged and episodic building processes since the Late Cretaceous, long predating the traditional view of the late Miocene. The Tibetan Plateau was built synchronously from the Himalayas to its eastern margin. Lateral extrusion, block rotation, and strike-slip deformation collectively contribute to the mountain building in the eastern Tibetan Plateau region. •The basin underwent episodic CCW rotation pulses during 86–82, 66–60 and 53–46 Ma.•Rotation pulses are remote responses to India-Asia convergence fluctuations.•Lateral movement and block rotation featured prominently in the eastern Tibet.
ISSN:0012-821X
1385-013X
DOI:10.1016/j.epsl.2023.118142