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Outward-growth of the Tibetan Plateau during the Cenozoic: A review

The surface uplift history of the Tibetan Plateau (TP) offers a key testing ground for evaluating models of collisional tectonics and holds important implications for processes ranging from global cooling to the onset of the Asian monsoon. Various models have been proposed to reveal the surface upli...

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Published in:Tectonophysics 2014-05, Vol.621, p.1-43
Main Authors: Wang, Chengshan, Dai, Jingen, Zhao, Xixi, Li, Yalin, Graham, Stephan A., He, Dengfa, Ran, Bo, Meng, Jun
Format: Article
Language:English
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Summary:The surface uplift history of the Tibetan Plateau (TP) offers a key testing ground for evaluating models of collisional tectonics and holds important implications for processes ranging from global cooling to the onset of the Asian monsoon. Various models have been proposed to reveal the surface uplift history of the TP, but controversies remain. We evaluate these models using data from sedimentology and stratigraphy, structural geology, magmatism, exhumation, and paleoaltimetry studies. Structural analyses indicate that thrust belts, which spread from the central TP outward toward its surrounding margins, accommodated most of the India–Asia convergence, and facilitated crustal shortening and thickening in the central TP. Eocene adakitic rocks located in the Qiangtang and the Lhasa blocks likely were generated by partial melting of an eclogitic source. Paleogene (50–30Ma) potassic rocks only occur in the Qiangtang block, whereas Late Oligocene–Late Miocene (26–8Ma) potassic rocks occur both in the Qiangtang and Lhasa blocks. Low-temperature thermochronologic ages in the central TP are older than 40–35Ma, whereas those in the margins are younger than 20Ma (mostly Late Miocene, and Pliocene/Pleistocene in age). Independent paleoaltimetry estimates suggest that the Lhasa and Qiangtang terranes attained their current elevations during the Eocene, most likely due to the initial collision between India and Lhasa, whereas the Hoh Xil basin area to the north and Himalayas to the south were still low, even below sea level in the latter case. We argue for an inside-out growth pattern for the Tibetan Plateau. The TP grew southward and northward from a nucleus of high topography and is likely to continue expanding along the Mazar Tagh fault to the northwest, the Kuantai Shan-Hei Shan-Longshou Shan to the northeast, the Longquan Shan to the east and the Shillong plateau to the south if the northward force of India would not diminished. •We review various proxies employed to assess surface uplift of Tibetan Plateau.•Tibetan Plateau grew southward and northward from a nucleus of high topography.•Tibetan Plateau is likely to continue expanding along its margins.
ISSN:0040-1951
1879-3266
DOI:10.1016/j.tecto.2014.01.036