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Samail Ophiolite

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Arabian Plate map with Samail Ophiolite location on the eastern corner of the Arabian Peninsula
Close-up view of a section of the ophiolite.[1]

The Samail Ophiolite, also known as the Semail Ophiolite, is a large, ancient geological formation in Oman and the United Arab Emirates in the Arabian Peninsula.[2] It is one of the world's largest and best-exposed segments of oceanic crust, made of volcanic rocks and ultramafic rocks from the Earth's upper mantle that was overthrust onto the continental crust.[3] This ophiolite provides insight into the dynamics of oceanic crust formation and the tectonic processes involved in the creation of ocean basins.[3]

Formed during the Late Cretaceous period, approximately 95 million years ago,[4] the Samail Ophiolite represents a fragment of the Tethyan Oceanic crust that was thrust over continental crust due to the convergence of the African and Eurasian tectonic plates. This geological phenomenon, known as obduction, makes it a site for studying the processes of oceanic crust formation, subduction, and obduction.

It covers an area of around 100,000 square kilometers,[3] and is a complete and well-preserved stratigraphic section. This includes layers from the Earth's upper mantle, along with cumulate rocks, gabbros, sheeted dike complexes, and volcanic sequences, providing a vertical profile of oceanic lithosphere. It is primarily made of silicate rocks with (SiO2) content ranging from 45–77 wt%.[5]

Geologic formations

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The Arabian continental margin formed in the early Paleozoic and possibly the late Proterozoic. After that the thrust sheets are from low to high structurally: the autochthonous units, and the allochthonous units. The allochthonous units, from low to high structurally, are the Sumeini group, the Hawasina complex, the Haybi complex, the Ophiolite, and the Batinah complex.[6] From the Sumeini group to the Haybi Complex make up the continental slope with an age range from Middle Triassic to Late Cretaceous.[6] The ophiolite formed in the Late Cretaceous and consists of a basal metamorphic sole (150–200 m), peridotite tectonic (8–12 km), igneous peridotite and gabbro (0.5–6.5 km), sheeted dikes (1–1.5 km), and lavas (0.5–2.0 km).[6] The Batinah complex containing continental margin sediments came from beneath the ophiolite during late-stage extensional faulting and then slid into the ophiolite late in the emplacement history.[6]

Metamorphic Sole

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There are two locations where the metamorphic core of the ophiolite are exposed. These locations occur at the Sumeini Window and the Wadi Tayyin.[7] The Sumeini Window is located in northern Oman at the base of the ophiolite. The Wadi Tayyin is located in southwestern Oman near the classic Green Pool locality. The metamorphic rocks include garnet and clinopyroxene-bearing granulite, hornblende and plagioclase amphibolite, epidote, and greenschist facies sediments that include cherts, marbles, and quartzites. Although there have been many theories about the pressure-temperature environment of these metamorphic soles, Cowan et al. suggest that the formational temperatures and pressure of the metamorphic being 770-900 degrees celsius and 11-13 kbar respectively are representative of a subduction zone that was present before the emplacement of the ophiolite.[7]

Formation

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There are three different models that may explain how the Samail Ophiolite could form and overthrust a continental margin:

  • The gravity sliding model: A seven to 20 km thick ophiolitic terrane could slide onto a continental margin. This requires an elevated source region, which presents difficulties.[8]
  • The suprasubduction model: The obduction of an arc-trench gap ophiolite due to the collision of a volcanic arc and a passive continental margin (Fig. 2). Figure 2-A, older than 101 to 95 Ma the mid-ocean ridge is spreading and the ocean lithosphere subducted under the continental lithosphere on the right while the other side is overriding the oceanic lithosphere on the left. Also, that is where the proto Semail Ophiolite and volcanism starts to form a volcanic arc. Figure 2-B, from 95 to 87 Ma the mid-ocean ridge is spreading and a volcanic arc has formed. Figure 2-C, from 87 to 76  Ma the mid-ocean ridge is spreading and the ocean lithosphere being pushed and over thrust the continental lithosphere by the help of the volcanic arc.[3][9]
  • The obducting model: The oceanic lithosphere over thrust continental lithosphere (Fig. 3). Figure 3-A, older than 101 to 95 Ma the mid-ocean ridge is spreading and the oceanic lithosphere subducted under both continental lithosphere. The Samail Ophiolite initial place is marked on the right oceanic lithosphere. Figure 3-B, from 95 to 87 Ma the mid-ocean ridge stopped spreading and the intra-oceanic thrusting started. Where the left oceanic lithosphere subducted under the right oceanic lithosphere with the Samail Ophiolite, which are accreted at amphibolite facies conditions at the base of the Samail Ophiolite. Figure 3-C, from 87 to 76 Ma the Samail Ophiolite overthrusts the continental lithosphere and is emplaced onto the craton, which are accreted at greenschist-facies conditions at the base of the Samail Ophiolite. This model is more supported by geologists.[3][6]

References

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  1. ^ Deep Carbon Observatory (2019). Deep Carbon Observatory: A Decade of Discovery. Washington, DC. doi:10.17863/CAM.44064. Retrieved 13 December 2019.{{cite book}}: CS1 maint: location missing publisher (link)
  2. ^ Ágoston Sasvári; Tamás Pocsai; László Csontos; Gizella B. Árgyelán (2008). "Significance of the evaporite occurrences in the Hawasina Window, Oman Mountains" (PDF). MOL Scientific Magazine: 87–92.
  3. ^ a b c d e f Jan Schreurs; John Millson. "Ophiolites a natural wonder" (PDF). Retrieved 10 October 2013.
  4. ^ Wilson, H. Hugh (July 2000). "The Age Of The Hawasina And Other Problems Of Oman Mountain Geology". Journal of Petroleum Geology. 23 (3): 345–362. Bibcode:2000JPetG..23..345W. doi:10.1111/j.1747-5457.2000.tb01023.x. S2CID 128840838.
  5. ^ Rodney V. Metcalf; John W. Shervais (2008). "Suprasubduction-zone ophiolites: Is there really an ophiolite conundrum?" (PDF). In Wright, J.E.; Shervais, J.W. (eds.). Ophiolites, Arcs, and Batholiths: A Tribute to Cliff Hopson. Geological Society of America, Special Paper. Vol. 438. Geological Society of America. pp. 191–222. doi:10.1130/2008.2438(07). ISBN 978-0-8137-2438-6.
  6. ^ a b c d e f Hacker, Bradley R. (April 1991). "The Role Of Deformation In The Formation Of Metamorphic Gradients: Ridge Subduction Beneath The Oman Ophiolite". Tectonics. 10 (2): 455–473. Bibcode:1991Tecto..10..455H. doi:10.1029/90TC02779.
  7. ^ a b Cowan, R.J. "Structure of the metamorphic sole to the Oman Ophiolite, Sumeini Window and Wadi Tayyin: implications for ophiolite obduction processes".
  8. ^ "Reinhardt BM 1974 Geology of the Oman mountains". Verhandelingen Koninklijk Nederlands Geologisch Mijnbouwkundidg Genootschap. 31: 423.
  9. ^ a b Oxburgh, E. R. (1972). "Flake Tectonics and Continental Collision". Nature. 239 (5369): 202–204. Bibcode:1972Natur.239..202O. doi:10.1038/239202a0. S2CID 4186536.
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