![]() ![]() The vocabulary of fold mountains owes something to this simple tablecloth experiment. Now push the edge of the tablecloth or rug-wrinkles will develop and fold on top of each other. Cover a table with a tablecloth, or place a rug flat on the floor. An orogenic event takes millions of years to create a fold mountain, but you can mimic it in seconds. At these colliding, compressing boundaries, rocks and debris are warped and folded into rocky outcrops, hills, mountains, and entire mountain ranges.įold mountains are created through a process called orogeny. Collision of the Indian continent with Eurasia occurred at about 55 Ma.Fold mountains are created where two or more of Earth’s tectonic plates are pushed together. Note the simultaneous counter-clockwise rotation of India. Paleogeographic reconstructions based by Dèzes (1999), on Stampfli & Borel (2002) and Patriat & Achache (1984).įig 4: The northward drift of India from 71 Ma ago to present time. The Cimmeridian Superterrane has accreted to Mega Laurasia, the oceanic crust of the Neotethys is subducted to the north along the Dras volcanic arc, the Shigatze Ocean opens as a consequence of back-arc spreading, India is separated from Africa and E. Based on Stampfli & Borel (2002) and Patriat & Achache (1984)įig 3: The earth in the Cretaceous. The opening of the Neotethys separates the Cimmeridian Superterrane from Gondwana. By Dèzes (1999), based on Stampfli & Borel (2002) and Patriat & Achache (1984)įig 2: The earth at the Permian-Triassic boundary. At that time, India is part of Gondwana and bordered to the north by the Cimmerian Superterrane. The third proposed mechanism is that a large part (~1000 km (Dewey, Cande & Pitman 1989) or ~800 to ~1200 km) of the 2500 km of crustal shortening was accommodated by thrusting and folding of the sediments of the passive Indian margin together with the deformation of the Tibetan crust.įig 1: The earth in the Early Permian. Second is the extrusion or escape tectonics mechanism (Molnar & Tapponnier 1975) which sees the Indian plate as an indenter that squeezed the Indochina block out of its way. The first mechanism also calls upon the subduction of the Indian continental crust below Tibet. While most of the oceanic crust was “simply” subducted below the Tibetan block during the northward motion of India, at least three major mechanisms have been put forward, either separately or jointly, to explain what happened, since collision, to the 2500 km of “missing continental crust”. Since then there has been about 2500 km of crustal shortening and rotating of India by 45° counterclockwise in Northwestern Himalaya to 10°-15° counterclockwise in North Central Nepal relative to Asia (Fig. The change of the relative speed between the Indian and Asian plates from very fast (18-19.5 cm/yr) to fast (4.5 cm/yr) at about 55 Ma is circumstantial support for collision then. Very rapid northward drift covering a distance of about 6000 km, with the oceanic-oceanic subduction continuing until the final closure of the oceanic basin and the obduction of oceanic ophiolite onto India and the beginning of continent-continent tectonic interaction starting at about 65 Ma in the Central Himalaya. In the Upper Cretaceous (84 Ma), the Indian plate began its Fig 3 The Indian plate then broke off from Australia and Antarctica in the Early Cretaceous (130-125 Ma) with the opening of the “South Indian Ocean” (Fig. However, the separation of East and West Gondwana, together with the formation of oceanic crust, occurred later, in the Callovian (160-155 Ma). The Indian continent became part of East Gondwana, together with Australia and Antarctica. In the Norian (210 Ma), a major rifting episode split Gondwana in two parts. This last feature earned the Himalaya its name, originating from the Sanskrit for “the abode of the snow”. Everest Chomolangma), among the highest erosion rates at 2–12 mm/yr, the source of some of the greatest rivers and the highest concentration of glaciers outside of the polar regions. Topographically, the belt has many superlatives: the highest rate of uplift (nearly 10 mm/year at Nanga Parbat), the highest relief (8848 m at Mt. The Himalaya-Tibet region supplies freshwater for more than one-fifth of the world population, and accounts for a quarter of the global sedimentary budget. This immense mountain range was formed by tectonic forces and sculpted by weathering and erosion. The Himalayas, which stretch over 2400 km between the Namche Barwa syntaxis in Tibet and the Nanga Parbat syntaxis in Pakistan, are the result of an ongoing orogeny - the result of a collision between two continental tectonic plates. The geology of the Himalaya is a record of the most dramatic and visible creations of modern plate tectonic forces. Convergent Boundary – India and Asia – Himalaya Range ![]()
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