Deformation and cooling history of the Central Qiangtang terrane, Tibetan Plateau and its tectonic implications

The Qiangtang terrane preserves an important record of the growth of the Tibetan Plateau since the Mesozoic; however, its deformation and cooling history remain poorly understood. To unravel this issue, we conducted geological mapping in the Esima area and detrital apatite fission track and (U-Th)/H...

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Bibliographic Details
Published in:International geology review 2021-10, Vol.63 (15), p.1821-1837
Main Authors: Bi, Wenjun, Han, Zhongpeng, Li, Yalin, Li, Chengming, Wang, Chengshan, Zhang, Jiawei, Han, Jianyun, He, Haiyang, Qian, Xinyu, Xu, Tiankun, Ma, Zining
Format: Article
Language:English
Subjects:
Apatite
apatite (U-Th)/He
Apatite fission track
Central Qiangtang terrane
Cooling
Cretaceous
Deformation
diachronous deformation and cooling
Geologic mapping
Geological mapping
Jurassic
Mesozoic
Mountains
oblique convergence
Plateaus
Segments
Subduction
Subduction (geology)
Tectonics
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Summary:The Qiangtang terrane preserves an important record of the growth of the Tibetan Plateau since the Mesozoic; however, its deformation and cooling history remain poorly understood. To unravel this issue, we conducted geological mapping in the Esima area and detrital apatite fission track and (U-Th)/He analyses of the Esima-Rongtang region in the east segment of Central Qiangtang terrane. Our results indicate that the east segment underwent two stages of structural deformation and rapid cooling during 120-110 Ma and 55-38 Ma. By combining our results with those of previous studies of the deformation and cooling history in the west segment, we reconstructed the early spatial and temporal geological evolution of the Central Qiangtang terrane since the Late Jurassic-Early Cretaceous. The structural deformation and cooling of the west segment at 150-130 Ma was related to northward flat subduction of the Bangong-Nujiang oceanic slab. The structural deformation and cooling of the east segment at 120-110 Ma and the west segment at 110-70 Ma was controlled by oblique convergence between Lhasa and Qiangtang terranes. The structural deformation and cooling of the west and east segments at 55-38 Ma was associated with northward intracontinental subduction beneath the Qiangtang terrane induced by the Indo-Asian collision.
ISSN:0020-6814
1938-2839
DOI:10.1080/00206814.2020.1795733