Underplating in the Himalaya-Tibet Collision Zone Revealed by the Hi-CLIMB Experiment

Underplating in the Himalaya-Tibet Collision Zone Revealed by the Hi-CLIMB Experiment

We studied the formation of the Himalayan mountain range and the Tibetan Plateau by investigating their lithospheric structure. Using an 800-kilometer-long, densely spaced seismic array, we have constructed an image of the crust and upper mantle beneath the Himalayas and the southern Tibetan Plateau...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2009-09, Vol.325 (5946), p.1371-1374
Hauptverfasser: Nábělek, John, Hetényi, György, Vergne, Jérôme, Sapkota, Soma, Kafle, Basant, Jiang, Mei, Su, Heping, Chen, John, Huang, Bor-Shouh, Team, the Hi-CLIMB
Format: Artikel
Sprache:eng
Schlagworte:
Earth sciences
Earth, ocean, space
Exact sciences and technology
Geology
Geophysics
Internal geophysics
Lineations
Lithospheres
Mantle
Mohorovicic discontinuity
Mountains
P waves
Plate tectonics
Shear zones
Solid-earth geophysics, tectonophysics, gravimetry
Tectonics. Structural geology. Plate tectonics
Tobacco chewing
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Zusammenfassung:We studied the formation of the Himalayan mountain range and the Tibetan Plateau by investigating their lithospheric structure. Using an 800-kilometer-long, densely spaced seismic array, we have constructed an image of the crust and upper mantle beneath the Himalayas and the southern Tibetan Plateau. The image reveals in a continuous fashion the Main Himalayan thrust fault as it extends from a shallow depth under Nepal to the mid-crust under southern Tibet. Indian crust can be traced to 31°N. The crust/mantle interface beneath Tibet is anisotropic, indicating shearing during its formation. The dipping mantle fabric suggests that the Indian mantle is subducting in a diffuse fashion along several evolving subparallel structures.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.1167719