Jinghui Guo scite author profile

Figure 1. Simplified geologic map of southwest Tibet compiled from mapping by Augusto Gansser (Heim and Gansser, 1939), Tibetan Bureau of Geology and Mineral Resources (Cheng and Xu, 1987), Yin et al. (1999b), and our own observations.M ABSTRACT Field mapping and geochronologic and thermobarometric analyses of the Gurla Mandhata area, in southwest Tibet, reveal major middle to late Miocene, east-west extension along a normal-fault system, termed the Gurla Mandhata detachment system. The maximum fault slip occurs along a pair of low-angle normal faults that have caused significant tectonic denudation of the Tethyan Sedimentary Sequence, resulting in juxtaposition of weakly metamorphosed Paleozoic rocks and Tertiary sedimentary rocks in the hanging wall over amphibolite-facies mylonitic schist, marble, gneisses, and variably deformed leucogranite bodies in the footwall. The footwall of the detachment fault system records a late Miocene intrusive event, in part contemporaneous with top-to-the-west ductile normal shearing. The consistency of the mean shear direction within the mylonitic footwall rocks and its correlation with structurally higher brittle normal faults suggest that they represent an evolving low-angle normal-fault system. 40 Ar/ 39 Ar data from muscovite and biotite from the footwall rocks indicate that it cooled below 400 ؇C by ca. 9 Ma. Consideration of the original depth and dip angle of the detachment fault prior to exhumation of the footwall yields total slip estimates between 66 and 35 km across the Gurla Mandhata detachment system. The slip estimates and timing constraints on the Gurla Mandhata detachment system are comparable to those estimated on the right-slip Karakoram fault system, to which it is interpreted to be kinematically linked. Moreover, the mean shear-sense direction on both the Karakoram fault and the Gurla Mandhata detachment system overlap along the intersection line between the mean orientations of the faults, which further supports a kinematic association. If valid, this interpretation extends previous results that the Karakoram fault extends to mid-crustal depths.

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Neoarchean to Paleoproterozoic continental evolution and tectonic history of the North China Craton: a review

Zhai

Guo

Liu

2005

Journal of Asian Earth Sciences

439

142

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A 1.78 Ga large igneous province in the North China craton: The Xiong'er Volcanic Province and the North China dyke swarm

Peng¹,

Zhai²,

Ernst³

et al. 2008

Lithos

356

145

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Jinghui Guo

Structural evolution of the Gurla Mandhata detachment system, southwest Tibet: Implications for the eastward extent of the Karakoram fault system

Neoarchean to Paleoproterozoic continental evolution and tectonic history of the North China Craton: a review

A 1.78 Ga large igneous province in the North China craton: The Xiong'er Volcanic Province and the North China dyke swarm

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