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Literature DB >> 11742396

Himalayan tectonics explained by extrusion of a low-viscosity crustal channel coupled to focused surface denudation.

C Beaumont¹, R A Jamieson, M H Nguyen, B Lee.

Abstract

Recent interpretations of Himalayan-Tibetan tectonics have proposed that channel flow in the middle to lower crust can explain outward growth of the Tibetan plateau, and that ductile extrusion of high-grade metamorphic rocks between coeval normal- and thrust-sense shear zones can explain exhumation of the Greater Himalayan sequence. Here we use coupled thermal-mechanical numerical models to show that these two processes-channel flow and ductile extrusion-may be dynamically linked through the effects of surface denudation focused at the edge of a plateau that is underlain by low-viscosity material. Our models provide an internally self-consistent explanation for many observed features of the Himalayan-Tibetan system.

Year: 2001 PMID： 11742396 DOI： 10.1038/414738a

Source DB: PubMed Journal: Nature ISSN： 0028-0836 Impact factor: 49.962

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Cited

18 in total

1. Mid-Pleistocene climate transition drives net mass loss from rapidly uplifting St. Elias Mountains, Alaska.

Authors: Sean P S Gulick; John M Jaeger; Alan C Mix; Hirofumi Asahi; Heinrich Bahlburg; Christina L Belanger; Glaucia B B Berbel; Laurel Childress; Ellen Cowan; Laureen Drab; Matthias Forwick; Akemi Fukumura; Shulan Ge; Shyam Gupta; Arata Kioka; Susumu Konno; Leah J LeVay; Christian März; Kenji M Matsuzaki; Erin L McClymont; Chris Moy; Juliane Müller; Atsunori Nakamura; Takanori Ojima; Fabiana R Ribeiro; Kenneth D Ridgway; Oscar E Romero; Angela L Slagle; Joseph S Stoner; Guillaume St-Onge; Itsuki Suto; Maureen D Walczak; Lindsay L Worthington; Ian Bailey; Eva Enkelmann; Robert Reece; John M Swartz
Journal: Proc Natl Acad Sci U S A Date: 2015-11-23 Impact factor: 11.205

10. New geochronological constraints on the thermal and exhumation history of the Lesser and Higher Himalayan Crystalline Units in the Kullu-Kinnaur area of Himachal Pradesh (India).

Authors: M Thöni; C Miller; C Hager; B Grasemann; M Horschinegg
Journal: J Asian Earth Sci Date: 2012-06-30 Impact factor: 3.449

Himalayan tectonics explained by extrusion of a low-viscosity crustal channel coupled to focused surface denudation.

1. Mid-Pleistocene climate transition drives net mass loss from rapidly uplifting St. Elias Mountains, Alaska.

2. Geophysics: Hot blanket in Earth's deep crust.

3. Earth science: a new mechanical model for Tibet.

4. Evidence for mechanical coupling and strong Indian lower crust beneath southern Tibet.

5. Erosion in southern Tibet shut down at ∼10 Ma due to enhanced rock uplift within the Himalaya.

6. Topography of mountain belts controlled by rheology and surface processes.

7. Pliocene-Quaternary crustal melting in central and northern Tibet and insights into crustal flow.

8. Vertical crustal motions across Eastern Tibet revealed by topography-dependent seismic tomography.

9. Topographic Evolution and Climate Aridification during Continental Collision: Insights from Computer Simulations.

10. New geochronological constraints on the thermal and exhumation history of the Lesser and Higher Himalayan Crystalline Units in the Kullu-Kinnaur area of Himachal Pradesh (India).