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Episodic orogeny deduced from coeval sedimentary sequences in the foreland basin and its implication for uplift process of Longmen Mountain, China |
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| Authors: | Yong Li De-chen Su Rong-jun Zhou Hai-bing Li Alexander L Densmore Liang Yan Zhao-kun Yan |
| Institution: | 1. State Key Laboratory of Oil and Gas Reservoir Geology and Exploitation, Chengdu University of Technology, 610059, Chengdu, China 2. Institute of Geology, Chinese Academy of Geological Science, Beijing, 100037, China 3. Institute of Earthquake Engineering, Seismological Bureau of Sichuan Province, Chengdu, 610014, China 4. Institute of Hazard and Risk Research and Department of Geography, Durham University, Durham, UK |
| Abstract: | Longmen Mountain located at the boundary between the Sichuan Basin and Tibetan Plateau, representing the steepest gradient of any edges of the plateau. Three endmember models of uplift process and mechanism have been proposed, including crustal thickening, crustal flow, and crustal isostatic rebound. Here we use coeval sedimentary sequences in the foreland basin to restraint uplift process and mechanism in the Longmen Mountain. The more than 10,000 m thick Late Triassic-Quaternary strata filled in this foreland basin and can be divided into six megasequences that are distinguished as two distinct types. The first type is the wedge-shaped megasequences which are sedimentary response of strong active thrust loading events, characterized by a high rate of subsidence and sediment accumulation, coarsening-upward succession and a dual-sourced sediment supply. This type includes Late Triassic, Late Jurassic to Early Cretaceous and Late Cretaceous to Paleogene megasequences. The second type is the tabular megasequences, characterized by the low rate of subsidence and sediment accumulation, fining-upward succession, and a single-sourced sediment supply, which is sedimentary response of isostatic rebound and erosion unloading. This type includes the Early to Middle Jurassic, Middle Cretaceous and Neogene to Quaternary megasequences. Basing on sedimentary, active tectonic, geomorphic evidence, we infer that the direction has been reversed from SSW-directed sinistral strike-slip to NNE-directed dextral strike-slip during 40–3.6 Ma, and since 3.6 Ma, the Longmen Mountain thrust belt belong to times of isostatic rebound and erosional unloading with NNE-directed dextral strike-slip. This suggests that crustal isostatic rebound is a primary driver for uplift and topography of the present Longmen Mountain. The Wenchuan (Ms8.0) earthquake, which ruptured a large thrust fault with NNE-directed dextral strike-slip along the range front, is an active manifestation of this crustal isostatic rebound process with dextral strike-slipping and shortening. This process may be the cause for the Wenchuan Earthquake and the apparent paradox of high relief, little shortening, the relative dearth of historical seismicity in the region. |
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