Journal ArticleDOI
Constant elevation of southern Tibet over the past 15 million years
Robert A. Spicer,Nigel Harris,Mike Widdowson,Alexei B. Herman,Shuang-Xing Guo,Paul J. Valdes,Jack A. Wolfe,Simon P. Kelley +7 more
TLDR
It is concluded that the elevation of the southern Tibetan plateau probably has remained unchanged for the past 15 Myr, similar to the present-day altitude of 4,600 m.Abstract:
The uplift of the Tibetan plateau, an area that is 2,000 km wide, to an altitude of about 5,000 m has been shown to modify global climate and to influence monsoon intensity. Mechanical and thermal models for homogeneous thickening of the lithosphere make specific predictions about uplift rates of the Tibetan plateau, but the precise history of the uplift of the plateau has yet to be confirmed by observations. Here we present well-preserved fossil leaf assemblages from the Namling basin, southern Tibet, dated to approximately 15 Myr ago, which allow us to reconstruct the temperatures within the basin at that time. Using a numerical general circulation model to estimate moist static energy at the location of the fossil leaves, we reconstruct the elevation of the Namling basin 15 Myr ago to be 4,689 +/- 895 m or 4,638 +/- 847 m, depending on the reference data used. This is comparable to the present-day altitude of 4,600 m. We conclude that the elevation of the southern Tibetan plateau probably has remained unchanged for the past 15 Myr.read more
Citations
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Journal ArticleDOI
Tibetan tectonic evolution inferred from spatial and temporal variations in post-collisional magmatism
Sun-Lin Chung,Mei Fei Chu,Yuquan Zhang,Yingwen Xie,Ching-Hua Lo,Tung Yi Lee,Ching Ying Lan,Xian-Hua Li,Qi Zhang,Yizhao Wang +9 more
TL;DR: In this article, a geodynamic evolution model was proposed to depict when and how the Indian continental lithospheric mantle started thrusting under Asia by involving rollback and breakoff of the subducted Neo-Tethyan slab followed by removal of the thickened Lhasa root.
Journal ArticleDOI
China: The third pole
TL;DR: In this article, the authors report that climate change is coming fast and furious to the Tibetan plateau, and the changes atop the roof of the world are visible from the ground floor of the World Wide Web.
Journal ArticleDOI
Adakites from continental collision zones: Melting of thickened lower crust beneath southern Tibet
Sun-Lin Chung,Dunyi Liu,Jianqing Ji,Mei Fei Chu,Hao-Yang Lee,Da Jen Wen,Ching-Hua Lo,Tung Yi Lee,Qing Qian,Qi Zhang +9 more
TL;DR: In this paper, the authors reported the first example of such magmas from southern Tibet in an active continental collision environment, and their overall geochemical characteristics suggest an origin by melting of eclogites and/or garnet amphibolites in the lower part of thickened Tibetan crust.
Journal ArticleDOI
Palaeo-altimetry of the late Eocene to Miocene Lunpola basin, central Tibet
David B. Rowley,Brian S. Currie +1 more
TL;DR: Estimates of the palaeo-altimetry of late Eocene and younger deposits of the Lunpola basin in the centre of the plateau indicate that the surface of Tibet has been at an elevation of more than 4 kilometres for at least the past 35 million years.
Journal ArticleDOI
Constraints on the early uplift history of the Tibetan Plateau
Chengshan Wang,Xixi Zhao,Zhifei Liu,Peter C. Lippert,Stephan A. Graham,Robert S. Coe,Haisheng Yi,Lidong Zhu,Shun Liu,Yalin Li +9 more
TL;DR: Geologic and geophysical data from north-central Tibet are presented, including magnetostratigraphy, sedimentology, paleocurrent measurements, and 40Ar/39Ar and fission-track studies, to show that the central plateau was elevated by 40 Ma ago.
References
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Journal ArticleDOI
Oblique Stepwise Rise and Growth of the Tibet Plateau
Paul Tapponnier,Xu Zhiqin,Françoise Roger,Bertrand Meyer,N. Arnaud,Gérard Wittlinger,Yang Jingsui +6 more
TL;DR: Two end member models of how the high elevations in Tibet formed are (i) continuous thickening and widespread viscous flow of the crust and mantle of the entire plateau and (ii) time-dependent, localized shear between coherent lithospheric blocks.
Journal ArticleDOI
Evolution of Asian monsoons and phased uplift of the Himalaya–Tibetan plateau since Late Miocene times
TL;DR: The results of a numerical climate-model experiment support the argument that the stages in evolution of Asian monsoons are linked to phases of Himalaya–Tibetan plateau uplift and to Northern Hemisphere glaciation.
Journal ArticleDOI
Tectonic forcing of late Cenozoic climate
TL;DR: In particular, tectonically driven increases in chemical weathering may have resulted in a decrease of atmospheric C02 concentration over the past 40 Myr as discussed by the authors. But this was not shown to be the case for the uplift of the Tibetan plateau and positive feedbacks initiated by this event.
Journal ArticleDOI
Mantle dynamics, uplift of the Tibetan Plateau, and the Indian Monsoon
TL;DR: For example, Hou et al. as mentioned in this paper show that a small increase in the mean elevation of the Tibetan Plateau of 1000 m or more in a few million years is required by abrupt tectonic and environmental changes in Asia and the Indian Ocean.
Journal ArticleDOI
Extension during continental convergence, with application to the Tibetan Plateau
TL;DR: In this paper, an explanation in terms of the thermal evolution of thickened continental lithosphere is offered to explain the transition from north-south compression to east-west extension in the strain rate field of the Tibetan Plateau.
Related Papers (5)
Evolution of Asian monsoons and phased uplift of the Himalaya–Tibetan plateau since Late Miocene times
Palaeo-altimetry of the late Eocene to Miocene Lunpola basin, central Tibet
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