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Anatolian Sub-Plate

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Anatolian Sub-Plate
TypeMicro
Movement1south-west
Speed121 mm/year
FeaturesAnatolia
1Relative to the African Plate
Anatolian Plate

The Anatolian Sub-Plate[1][2] is a continental tectonic plate that is separated from the Eurasian plate and the Arabian plate by the North Anatolian Fault and the East Anatolian Fault respectively. Most of the country of Turkey is located on the Anatolian plate.[3] Most significant earthquakes in the region have historically occurred along the northern fault, such as the 1939 Erzincan earthquake. The devastating 2023 Turkey–Syria earthquake occurred along the active East Anatolian fault at a strike slip fault where the Arabian plate is sliding past the Anatolian plate horizontally.[4][5]

According to the American Museum of Natural History, the Anatolian transform fault system is "probably the most active in the world".[6] The East Anatolian Fault, a left lateral transform fault, forms a boundary with the Arabian Plate.[7] To the south and southwest is a convergent boundary with the African Plate. This convergence manifests in compressive features within the oceanic crust beneath the Mediterranean as well as within the continental crust of Anatolia itself, and also by what are generally considered to be subduction zones along the Hellenic and Cyprus arcs. The northern edge is a transform boundary with the Eurasian Plate, forming the North Anatolian Fault Zone (NAFZ).

Eurasian & Anatolian Plate

Research indicates that the Anatolian Plate is rotating counterclockwise as it is being pushed west by the Arabian Plate, impeded from any northerly movement by the Eurasian Plate.[8] In some references, the Anatolian Plate is referred to as a "block" of continental crust still coupled to the Eurasian Plate. But studies of the North Anatolian Fault indicate that Anatolia is de-coupled from the Eurasian Plate.[8] It is now being squeezed by the Arabian Plate from the east and forced toward the west as the Eurasian Plate to its north is blocking motion in that direction. The African Plate is subducting beneath the Anatolian Plate along the Cyprus and Hellenic Arcs offshore in the Mediterranean Sea.

See also

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References

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  1. ^ "Eastern Turkey IRIS Report".
  2. ^ Özalp, Selim; Kürçer, Akın; Özdemir, Ersin; Duman, Tamer Y. (2016). "The Bekten Fault: the palaeoseismic behaviour and kinematic characteristics of an intervening segment of the North Anatolian Fault Zone, Southern Marmara Region, Turkey". Geodinamica Acta. 28 (4): 347–362. Bibcode:2016GeoAc..28..347O. doi:10.1080/09853111.2016.1208524. The Anatolian tectonic block (sub-plate) is being affected by converging plate movements that occur between the Arabian-African and Eurasian plates (e.g. Armijo, Meyer, Hubert, & Barka, Citation1999; Bozkurt, Citation2001; Jackson & McKenzie, Citation1984; Le Pichon, Chamot-Rooke, Lallemant, Noomen, & Veis, Citation1995; McKenzie, Citation1972, 1978; Şengör, Citation1979, 1980; Sengör, Görür, & Saroglu, Citation1985; Taymaz, Jackson, & McKenzie, Citation1991). As a result of this collision, the North Anatolian (NAF) and East Anatolian (EAF) transform faults have been formed. The Anatolian sub-plate is bounded to the north and east by these faults. The impingement started to move the sub-plate westward and resulted compression and uplifts near the Karlıova triple junction in the Eastern Anatolia. As a result of anti-clockwise rotational movement of the Anatolian sub-plate in a westward direction four different neotectonic regions have been formed namely: (1) East Anatolian compressional region, (2) North Anatolian region, (3) Central Anatolian 'ova' region and (4) West Anatolian extensional region (Sengör et al., Citation1985).
  3. ^ Magazine, Smithsonian; Osborne, Margaret. "7.8-Magnitude Earthquake Felt 'Like the Apocalypse' in Turkey and Syria". Smithsonian Magazine.
  4. ^ "Here's what we know about what caused the Turkey earthquake". NPR. Retrieved 15 February 2023.
  5. ^ "Eastern Turkey IRIS Report". atlas.geo.cornell.edu.
  6. ^ "Anatolian Fault, Turkey | AMNH".
  7. ^ Dwivedi, S.K.; Hayashi, D. (August 2010). "Modeling the contemporary stress field and deformation pattern of eastern Mediterranean". Journal of Earth Science. 21 (4): 365–381. Bibcode:2010JEaSc..21..365D. doi:10.1007/s12583-010-0100-6. S2CID 128589145.
  8. ^ a b Reilinger, R.E.; McClusky, S.C.; Oral, M.B.; King, R.W.; Toksoz, M.N.; Barka, A.A.; Kinik, I.; Lenk, O.; Sanli, I. (May 10, 1997). "Global Positioning System measurements of present-day crustal movements in the Arabia-Africa-Eurasia plate collision zone". Journal of Geophysical Research: Solid Earth. 102 (B5): 9983–9999. Bibcode:1997JGR...102.9983R. doi:10.1029/96JB03736.
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