Indo-Australian Plate
The Indo-Australian Plate is a major tectonic plate that included the continent of Australia and the surrounding ocean and extended northwest to include the Indian subcontinent and the adjacent waters. It was formed by the fusion of the Indian and the Australian plates approximately 43 million years ago.[1] The fusion happened when the mid-ocean ridge in the Indian Ocean, which separated the two plates, ceased spreading.[2] Contemporary models suggest at present there is a deformation zone between the Indian and Australian Plates with both earthquake and global satellite navigation system data indicating that India and Australia are not moving on the same vectors northward.[3][4] These observations are consistent with earlier evidence that the Indian Plate and Australian Plate have been acting as separate plates for at least the last 3 million years.[5] In due course some expect a localized boundary to reform between the Indian and Australian plates.[6]
Regions
India, Australia, New Guinea, Tasmania, New Zealand, and New Caledonia are all fragments of the ancient supercontinent of Gondwana. As the ocean floor broke apart, these land masses fragmented from one another, and for a time these centers were thought to be dormant and fused into a single plate. However, research in the early 21st century indicates plate separation of the Indo-Australian Plate may have already occurred.[5][3][6][4]
Characteristics
The eastern side of the plate is the convergent boundary with the Pacific plate. The Pacific plate sinks below the Australian plate and forms the Kermadec Trench and the island arcs of Tonga and Kermadec. New Zealand is situated along the southeastern boundary of the plate, which with New Caledonia make up the southern and northern ends of the ancient landmass of Zealandia, which separated from Australia 85 million years ago. The central part of Zealandia sank under the sea.
The southern margin of the plate forms a divergent boundary with the Antarctic plate. The western side is subdivided by the Indian plate that borders the Arabian plate to the north and the African plate to the south. The northern margin of the Hindustani plate forms a convergent boundary with the Eurasian plate, which constitutes the active orogenic process of the Himalayas and the Hindukush mountains.
The northeast side of the Australian plate forms a subduction boundary with the Eurasian plate in the Indian Ocean and between the borders of Bangladesh and Burma, and to the southwest of the Indonesian islands of Sumatra and Borneo. Along the northern NinetyEast Ridge under the Indian Ocean there appears to be a weakness zone where the Indian and Australian Plates are going different ways.[3][4] The subsidence boundary through Indonesia is reflected in the Wallace line.
Plate movements
The eastern part (Australian Plate) is moving northward at the rate of 5.6 cm (2.2 in) per year while the western part (Indian Plate) is moving only at the rate of 3.7 cm (1.5 in) per year due to the impediment of the Himalayas. In terms of the middle of India and Australia landmasses, Australia is moving northward at 3 cm (1.2 in) per year with respect to India.[3] This differential movement has resulted in the compression of the former plate near its centre at Sumatra and the division into the separate Indian and Australian Plates again.[7][4]
A third plate, known as the Capricorn Plate, may also be separating off the western side of the Indian plate as part of the continued breakup of the Indo-Australian Plate.[8]
Separation
Recent studies, and evidence from seismic events such as the 2012 Indian Ocean earthquakes, suggest that the Indo-Australian Plate may have broken up into two or three separate plates due primarily to stresses induced by the collision of the Indo-Australian Plate with Eurasia along what later became the Himalayas,[9][10] and that the Indian Plate and Australian Plate may have been separate since at least 3 million years ago.[5]
References
- "The Indo-Australian Plate". austhrutime.com.
- Keep, Myra; Schellart, Wouter P. (2012). "Introduction to the thematic issue on the evolution and dynamics of the Indo-Australian plate". Australian Journal of Earth Sciences. 59, 2012 (6: THEMATIC ISSUE — Evolution and dynamics of the Indo-Australian plate): 807–808. Bibcode:2012AuJES..59..807K. doi:10.1080/08120099.2012.708360. S2CID 128996831.
- Delescluse, Matthias; Chamot-Rooke, Nicolas (2007). "Instantaneous deformation and kinematics of the India–Australia Plate". Geophysical Journal International. 168 (2): 818–842. doi:10.1111/j.1365-246X.2006.03181.x.
- Delescluse, Matthias; Chamot-Rooke, Nicolas; Cattin, Rodolphe; Fleitout, Luce; Trubienko, Olga; Vigny, Christophe (26 September 2012). "April 2012 intra-oceanic seismicity off Sumatra boosted by the Banda-Aceh megathrust". Nature. 490 (7419): 240–4. Bibcode:2012Natur.490..240D. doi:10.1038/nature11520. PMID 23023134. S2CID 205230868.
- Stein, Seth; Sella, Giovanni; Okai, Emile A. (2002). "The January 26, 2001 Bhuj Earthquake and the Diffuse Western Boundary of the Indian Plate" (PDF). Plate Boundary Zones. Geodynamics Series. American Geophysical Union. pp. 243–254. doi:10.1029/GD030p0243. ISBN 9781118670446. Retrieved 26 December 2015.
- Yue, H.; Lay, T.; Koper, K. (2012). "En échelon and orthogonal fault ruptures of the 11 April 2012 great intraplate earthquakes". Nature. 490: 245–249. doi:10.1038/nature11492.
- "Earth cracking up under Indian Ocean". New Scientist. 26 September 2012. Retrieved 14 March 2018.
- Siegel, Lee (26 September 2012). "Sumatra quake was part of crustal plate breakup: Study shows huge jolt measured 8.7, ripped at least 4 faults". Phys.Org. Retrieved 6 October 2012.
- "Press Release: An Earth Plate Is Breaking in Two". www.columbia.edu.
- R. R. Hillis, R. D. Müller. Evolution and Dynamics of the Australian Plate