Tectonics of the western Himalayas
Trans-Himadri intracrustal fault and basement upwarps south of Indus-Tsangpo Suture Zone
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Published:January 01, 1989
Recent recognition of the existence of a deep fault of regional dimension along the northern boundary of the Great Himalayan (Himadri) lithotectonic subprovince is a repudiation of the time-honored notion of the transition from high-grade metamorphics of the basement complex forming the Great Himalaya into the Phanerozoic fossiliferous sedimentary succession of the Tethyan domain. This plane of dislocation has attenuated and truncated basal Tethyan units (e.g., by the Malari Fault in Kumaun); it has disharmonically deformed or backfolded the lower Paleozoic formations (as discernible north of Nanda Devi in Kumaun and north of Kanjiroba-Annapurna in western Nepal); it has split the lithologic succession into a schuppen zone (as done by the Chomolungma/Main North Himalayan Thrust in the Sagarmatha [Everest] region in northeastern Nepal and by the Trans-Axial Fault in northwestern Sikkim); and it has caused considerable deformation, including mylonitization of the basement metamorphics, migmatites, and mid-Tertiary (28 to 18 Ma) granites that occur as concordant bodies and cross-cutting dikes. The Trans-Himadri Fault (T-HF) may represent the southernmost of the old normal faults in the continental-margin basin in the frontal part of the northward advancing Indian plate. This fault (which becomes a low-angle thrust in northeastern Nepal) was reactivated following the blocking of movements along the Indus-Tsangpo Suture Zone (ITSZ) and slowing down of sliding along the Main Central Thrust (MCT). The T-HF may therefore be accommodating a part of the convergence of the Indian and Asian plates.
The domal structural architecture north of Annapurna, the pronounced upwarps of the metamorphic basement immediately to the south of the ITSZ in the Mansarovar region, and the faulted crystalline basement blocks and slices thrust northward in the Tso Morari area in Ladakh bear testimony to the blocking of movements and the consequent upwarping of the Indian crustal plate at its leading edge. The fall and then rise of the Moho in the Kashmir-Nanga Parbat-Pamir section and its abrupt deepening from 55 km under the Sagarmatha to 70 km a few tens of kilometers north, through to the Tibetan country, must be viewed in the context of postcollision, perhaps neotectonic, movements along the deep T-HF.
- Asia
- basement
- crustal shortening
- crystalline rocks
- evolution
- heat flow
- Himalayan Orogeny
- Himalayas
- India
- Indian Peninsula
- Indian Plate
- Indus-Yarlung Zangbo suture zone
- Jammu and Kashmir
- Kumaun Himalayas
- Ladakh
- Main Central Thrust
- mylonitization
- Nepal
- orogeny
- Pakistan
- plate collision
- plate convergence
- Sikkim India
- structural geology
- suture zones
- tectonics
- Tethys
- Annapurna
- Malari Fault
- Nanda Devi
- Sagarmatha
- Trans-Himadri Fault
- Tso Morari