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User:BZenith/Accretion (geology)

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Purpose of this page

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I am editing the Accretion (geology) page to be more accurate (as it includes misleading/incorrect terminology) and to have better citations. I am also adding a section with examples, although this is covered more thoroughly on some of the pages of linked topics.


Accretion, in geology, is a process by which material is added to a tectonic plate at a subduction zone, frequently on the edge of existing continental landmasses. The added material may be sediment, volcanic arcs, seamounts, oceanic crust or other igneous features.[1][2][3]

Description

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Accretion involves the addition of material to a tectonic plate via subduction, the process by which one plate is forced under the other when two plates collide.[3] The plate which is being forced down, the subducted plate, is pushed against the upper, over-riding plate. Sediment on the ocean floor of the subducting plate is often scraped off as the plate descends and accumulates as a mass of material called an accretionary wedge (accretionary prism), which is pushed against and attaches to the upper plate.[3] In addition to accumulated ocean sediments, volcanic island arcs or seamounts present on the subducting plate may be amalgamated onto existing continental crust on the on the upper plate, increasing the continental landmass.[3]

Continent Building

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Continental crust differs significantly from oceanic crust. Oceanic crust is primarily composed of basaltic rocks, which have a higher density than the rocks making up the majority of continental crust.[4] Island arcs and other volcanic rocks are also lower in density than the oceanic crust, and are therefor not easily subducted along with the oceanic crust that surrounds them. Instead, these less-dense bits of crust will collide with existing continental crust on the upper plate once the oceanic crust separating them is completely subducted.[3] Most continents are composed of multiple accreted "terranes," pieces of low-density continental crust with different origins. For example, North America is made up of multiple accreted terranes that collided with the Laurentian proto-continent, such as the Proterozoic Yavapai, Mazatzal, and Grenville Province Terranes.[5] Accreted terranes along modern subduction plate boundaries include the Nankai accretionary complex of Japan (subduction of the Philippine Plate beneath the Eurasian Plate) , the Barbados Ridge in the Caribbean (subduction of the Caribbean Plate beneath the North American Plate), and the Mediterranean Ridge (subduction of the African Plate beneath the Eurasian Plate). These examples of accreted terranes also all include accretionary wedges.[6][7][8]

Resources

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  • Robert, Ballard D. Exploring Our Living Planet. Washington D.C.: The National Geographic Society, 1983.
  • Watson, John. "This Dynamic Planet." US Geological Survey. 6 December 2004 [1]


References

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  1. ^ Ballard, Robert D. (1988). Exploring our living planet. National Geographic Book Service., National Geographic Society (U.S.) (Rev. ed.). Washington, D.C.: National Geographic Society. ISBN 0-87044-760-2. OCLC 18325626.
  2. ^ Sattler, Helen Roney (1995). Our patchwork planet : the story of plate tectonics. Maestro, Giulio (1st ed.). New York: Lothrop, Lee & Shepard Books. ISBN 0-688-09312-4. OCLC 21372888.
  3. ^ a b c d e Van der Pluijm, Ben A., 1955- (2004). Earth structure : an introduction to structural geology and tectonics. Marshak, Stephen, 1955- (2nd ed ed.). New York: W.W. Norton. ISBN 0-393-92467-X. OCLC 53231817. {{cite book}}: |edition= has extra text (help)CS1 maint: multiple names: authors list (link) CS1 maint: numeric names: authors list (link)
  4. ^ Davies, Geoffrey F. (Geoffrey Frederick), (2011). Mantle convection for geologists. Cambridge: Cambridge University Press. ISBN 978-0-511-99304-6. OCLC 705368249.{{cite book}}: CS1 maint: extra punctuation (link) CS1 maint: multiple names: authors list (link)
  5. ^ Whitmeyer, Steven J.; Karlstrom, Karl E. (2007). "Tectonic model for the Proterozoic growth of North America". Geosphere. 3 (4): 220–259. doi:10.1130/GES00055.1.
  6. ^ Moore, G. F.; Shipley, T. H.; Stoffa, P. L.; Karig, D. E.; Taira, A.; Kuramoto, S.; Tokuyama, H.; Suyehiro, K. (1990). "Structure of the Nankai Trough Accretionary Zone from multichannel seismic reflection data". Journal of Geophysical Research: Solid Earth. 95 (B6): 8753–8765. doi:10.1029/JB095iB06p08753. ISSN 2156-2202.
  7. ^ Deville, Eric; Mascle, Alain (2012-01-01), Roberts, D. G.; Bally, A. W. (eds.), "21 - The Barbados ridge: A mature accretionary wedge in front of the Lesser Antilles active margin", Regional Geology and Tectonics: Principles of Geologic Analysis, Elsevier, pp. 580–607, doi:10.1016/b978-0-444-53042-4.00021-2, ISBN 978-0-444-53042-4, retrieved 2020-03-09
  8. ^ Chaumillon, Eric; Mascle, Jean (1997). "From foreland to forearc domains: New multichannel seismic reflection survey of the Mediterranean ridge accretionary complex (Eastern Mediterranean)". Marine Geology. 138 (3–4): 237–259. doi:10.1016/s0025-3227(97)00002-9. ISSN 0025-3227.