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{{short description|A geological process at convergent tectonic plate boundaries where one plate moves under the other}}(File:Subduction-en.svg|thumb|upright=2.05|Diagram of the geological process of subduction)Subduction is a geological process that takes place at convergent boundaries of tectonic plates where one plate moves under another and is forced to sink due to gravity into the mantle.weblink Regions where this process occurs are known as subduction zones. Rates of subduction are typically in centimeters per year, with the average rate of convergence being approximately two to eight centimeters per year along most plate boundaries.BOOK, Defant, M. J., 1998, Voyage of Discovery: From the Big Bang to the Ice Age, Mancorp, 325, 978-0-931541-61-2, Plates include both oceanic crust and continental crust. Stable subduction zones involve the oceanic lithosphere of one plate sliding beneath the continental or oceanic lithosphere of another plate due to the higher density of the oceanic lithosphere. That is, the subducted lithosphere is always oceanic while the overriding lithosphere may or may not be oceanic. Subduction zones are sites that usually have a high rate of volcanism and earthquakes.JOURNAL, Martínez-López, M.R., Mendoza, C., 2016, Acoplamiento sismogénico en la zona de subducción de Michoacán-Colima-Jalisco,México, Boletín de la Sociedad Geológica Mexicana, Spanish, 68, 2, 199–214, 10.18268/BSGM2016v68n2a3, {{Better source|reason=A source in English is preferred - see WP:NONENG|date=October 2018}} Furthermore, subduction zones develop belts of deformation and metamorphism in the subducting crust, whose exhumation is part of orogeny and also leads to mountain building in addition to collisional thickening.

General description

Subduction zones are sites of gravitational sinking of Earth's lithosphere (the crust plus the top non-convecting portion of the upper mantle).JOURNAL, Zheng, YF, Chen, YX, 2016, Continental versus oceanic subduction zones, National Science Review, 3, 495–519, Subduction zones exist at convergent plate boundaries where one plate of oceanic lithosphere converges with another plate. The descending slab, the subducting plate, is over-ridden by the leading edge of the other plate. The slab sinks at an angle of approximately twenty-five to forty-five degrees to Earth's surface. This sinking is driven by the temperature difference between the subducting oceanic lithosphere and the surrounding mantle asthenosphere, as the colder oceanic lithosphere has, on average, a greater density. At a depth of greater than 60 kilometers, the basalt of the oceanic crust is converted to a metamorphic rock called eclogite. At that point, the density of the oceanic crust increases and provides additional negative buoyancy (downwards force). It is at subduction zones that Earth's lithosphere, oceanic crust and continental crust, sedimentary layers and some trapped water are recycled into the deep mantle.Earth is so far the only planet where subduction is known to occur. Subduction is the driving force behind plate tectonics, and without it, plate tectonics could not occur.(File:ConMarRJS.jpg|thumb|upright=1.75)Oceanic subduction zones dive down into the mantle beneath 55,000 kilometers of convergent plate margins (Lallemand, 1999), almost equal to the cumulative 60,000 kilometers of mid-ocean ridges. Subduction zones burrow deeply, but are imperfectly camouflaged, and geophysics and geochemistry can be used to study them. Not surprisingly, the shallowest portions of subduction zones are known best. Subduction zones are strongly asymmetric for the first several hundred kilometers of their descent. They start to go down at oceanic trenches. Their descents are marked by inclined zones of earthquakes that dip away from the trench beneath the volcanoes and extend down to the 660-kilometer discontinuity. Subduction zones are defined by the inclined array of earthquakes known as the Wadati–Benioff zone after the two scientists who first identified this distinctive aspect. Subduction zone earthquakes occur at greater depths (up to 600 km) than elsewhere on Earth (typically less than 20 km depth); such deep earthquakes may be driven by deep phase transformations, thermal runaway, or dehydration embrittlement.JOURNAL, Frolich, C., 1989, The Nature of Deep Focus Earthquakes, Annual Review of Earth and Planetary Sciences, 17, 227–254, 10.1146/annurev.ea.17.050189.001303, 1989AREPS..17..227F, JOURNAL, Hacker, B., etal, 2003, Subduction factory 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions?,weblink Journal of Geophysical Research, 108, B1, 2030, 10.1029/2001JB001129, 2003JGRB..108.2030H, The subducting basalt and sediment are normally rich in hydrous minerals and clays. Additionally, large quantities of water are introduced into cracks and fractures created as the subducting slab bends downward.JOURNAL, Fujie, Gou, etal, 2013, Systematic changes in the incoming plate structure at the Kuril trench, Geophysical Research Letters, 40, 1, 88–93, 10.1029/2012GL054340, 2013GeoRL..40...88F, During the transition from basalt to eclogite, these hydrous materials break down, producing copious quantities of water, which at such great pressure and temperature exists as a supercritical fluid. The supercritical water, which is hot and more buoyant than the surrounding rock, rises into the overlying mantle where it lowers the pressure in (and thus the melting temperature of) the mantle rock to the point of actual melting, generating magma. The magmas, in turn, rise (and become labeled diapirs) because they are less dense than the rocks of the mantle. The mantle-derived magmas (which are basaltic in composition) can continue to rise, ultimately to Earth's surface, resulting in a volcanic eruption. The chemical composition of the erupting lava depends upon the degree to which the mantle-derived basalt interacts with (melts) Earth's crust and/or undergoes fractional crystallization.Above subduction zones, volcanoes exist in long chains called volcanic arcs. Volcanoes that exist along arcs tend to produce dangerous eruptions because they are rich in water (from the slab and sediments) and tend to be extremely explosive. Krakatoa, Nevado del Ruiz, and Mount Vesuvius are all examples of arc volcanoes. Arcs are also known to be associated with precious metals such as gold, silver and copper believed to be carried by water and concentrated in and around their host volcanoes in rock called "ore".

Theory on origin

{{see also|Archean subduction}}


Although the process of subduction as it occurs today is fairly well understood, its origin remains a matter of discussion and continuing study. Subduction initiation can occur spontaneously if denser oceanic lithosphere is able to founder and sink beneath adjacent oceanic or continental lithosphere; alternatively, existing plate motions can induce new subduction zones by forcing oceanic lithosphere to rupture and sink into the asthenosphere.JOURNAL, Stern, R.J., 2004, Subduction initiation: spontaneous and induced, Earth and Planetary Science Letters, 226, 3–4, 275–292, 10.1016/j.epsl.2004.08.007, 2004E&PSL.226..275S, Both models can eventually yield self-sustaining subduction zones, as oceanic crust is metamorphosed at great depth and becomes denser than the surrounding mantle rocks. Results from numerical models generally favor induced subduction initiation for most modern subduction zones,JOURNAL, Hall, C.E., etal, 2003, Catastrophic initiation of subduction following forced convergence across fracture zones, Earth and Planetary Science Letters, 212, 1–2, 15–30, 10.1016/S0012-821X(03)00242-5, 2003E&PSL.212...15H, JOURNAL, Gurnis, M., etal, 2004, Evolving force balance during incipient subduction,weblink Geochemistry, Geophysics, Geosystems, 5, 7, Q07001, 10.1029/2003GC000681, 2004GGG.....5.7001G, which is supported by geologic studies,JOURNAL, Keenan, Timothy E., Encarnación, John, Buchwaldt, Robert, Fernandez, Dan, Mattinson, James, Rasoazanamparany, Christine, Luetkemeyer, P. Benjamin, Rapid conversion of an oceanic spreading center to a subduction zone inferred from high-precision geochronology, PNAS, 10.1073/pnas.1609999113, 27821756, 5127376, 113, 47, E7359–E7366, 2016PNAS..113E7359K, 2016, JOURNAL, House, M. A., Gurnis, M., Kamp, P. J. J., Sutherland, R., September 2002, Uplift in the Fiordland Region, New Zealand: Implications for Incipient Subduction, Science, 297, 5589, 2038–2041, 10.1126/science.1075328, 12242439, 2002Sci...297.2038H,weblink but other analogue modeling shows the possibility of spontaneous subduction from inherent density differences between two plates at passive margins,JOURNAL, 10.1111/j.1365-246X.2005.02544.x, Mart, Y., Aharonov, E., Mulugeta, G., Ryan, W.B.F., Tentler, T., Goren, L., 2005, Analog modeling of the initiation of subduction, Geophys. J. Int., 160, 1081–1091, 3, 2005GeoJI.160.1081M, JOURNAL, Goren, L., E. Aharonov, G. Mulugeta, H. A. Koyi, Y. Mart, 2008, Ductile Deformation of Passive Margins: A New Mechanism for Subduction Initiation, J. Geophys. Res., 113, B08411, 10.1029/2005JB004179, 2008JGRB..11308411G, and observations from the Izu-Bonin-Mariana subduction system are compatible with spontaneous subduction nucleation.JOURNAL, Stern, R.J., Bloomer, S.H., 1992, Subduction zone infancy: examples from the Eocene Izu-Bonin-Mariana and Jurassic California arcs, Geological Society of America Bulletin, 104, 12, 1621–1636, 10.1130/0016-7606(1992)1042.3.CO;2, 1992GSAB..104.1621S, JOURNAL, Arculus, R.J., etal, 2015, A record of spontaneous subduction initiation in the Izu–Bonin–Mariana arc, Nature Geoscience, 8, 9, 728–733, 10.1038/ngeo2515, 2015NatGe...8..728A,weblink Furthermore, subduction is likely to have spontaneously initiated at some point in Earth's history, as induced subduction nucleation requires existing plate motions, though an unorthodox proposal by A. Yin suggests that meteorite impacts may have contributed to subduction initiation on early Earth.JOURNAL, Yin, A., 2012, An episodic slab-rollback model for the origin of the Tharsis rise on Mars: Implications for initiation of local plate subduction and final unification of a kinematically linked global plate-tectonic network on Earth,weblink Lithosphere, 4, 6, 553–593, 10.1130/L195.1, 2012Lsphe...4..553Y, Geophysicist Don L. Anderson has hypothesized that plate tectonics could not happen without the calcium carbonate laid down by bioforms at the edges of subduction zones. The massive weight of these sediments could be softening the underlying rocks, making them pliable enough to plunge.BOOK, Harding, Stephan, Animated Earth Science, Intuition and Gaia, Chelsea Green Publishing, 2006, 114, 978-1-933392-29-5,

Modern-style subduction

Modern-style subduction is characterized by low geothermal gradients and the associated formation of high-pressure low temperature rocks such as eclogite and blueschist.JOURNAL, Stern, Robert J., Evidence from ophiolites, blueschists, and ultrahigh-pressure metamorphic terranes that the modern episode of subduction tectonics began in Neoproterozoic time, Geology, 33, 7, 557–560, 10.1130/G21365.1, 2005Geo....33..557S, 2005, Likewise, rock assemblages called ophiolites, associated to modern-style subduction, also indicate such conditions. Eclogite xenoliths found in the North China Craton provide evidence that modern-style subduction occurred at least as early as 1.8 Ga ago in the Paleoproterozoic Era. Nevertheless, the eclogite itself was produced by oceanic subdcution during the assembly of supercontinents at about 1.9–2.0 Ga.Blueschist is a rock typical for present-day subduction settings. Absence of blueschist older than Neoproterozoic reflect more magnesium-rich compositions of Earth's oceanic crust during that period. These more magnesium-rich rocks metamorphose into greenschist at conditions when modern oceanic crust rocks metamorphose into blueschist. The ancient magnesium-rich rocks means that Earth's mantle was once hotter, but not that subduction conditions were hotter. Previously, lack of pre-Neoproterozoic blueschist was thought to indicate a different type of subduction.JOURNAL, Palin, Richard M., White, Richard W., 2016, Emergence of blueschists on Earth linked to secular changes in oceanic crust composition, Nature Geoscience, 9, 1, 60, 10.1038/ngeo2605, 2016NatGe...9...60P, Both lines of evidence refutes previous conceptions of modern-style subduction having been initiated in the Neoproterozoic Era 1.0 Ga ago.JOURNAL, Xu, Cheng, Kynický, JindÅ™ich, Song, Wenlei, Tao, Renbiao, Lü, Zeng, Li, Yunxiu, Yang, Yueheng, Miroslav, Pohanka, Galiova, Michaela V., Zhang, Lifei, Fei, Yingwei, 2018, Cold deep subduction recorded by remnants of a Paleoproterozoic carbonated slab, Nature Communications, 9, 1, 2790, 10.1038/s41467-018-05140-5, 30018373, 6050299, 2018NatCo...9.2790X,



Volcanic activity

File:Oceanic spreading.svg|right|thumb|upright=1.35|Oceanic plates are subducted creating oceanic trenchoceanic trench Volcanoes that occur above subduction zones, such as Mount St. Helens, Mount Etna and Mount Fuji, lie at approximately one hundred kilometers from the trench in arcuate chains, hence the term volcanic arc. Two kinds of arcs are generally observed on Earth: island arcs that form on oceanic lithosphere (for example, the Mariana and the Tonga island arcs), and continental arcs such as the Cascade Volcanic Arc, that form along the coast of continents. Island arcs are produced by the subduction of oceanic lithosphere beneath another oceanic lithosphere (ocean-ocean subduction) while continental arcs formed during subduction of oceanic lithosphere beneath a continental lithosphere (ocean-continent subduction). An example of a volcanic arc having both island and continental arc sections is found behind the Aleutian Trench subduction zone in Alaska.The arc magmatism occurs one hundred to two hundred kilometers from the trench and approximately one hundred kilometers above the subducting slab. This depth of arc magma generation is the consequence of the interaction between hydrous fluids, released from the subducting slab, and the arc mantle wedge that is hot enough to melt with the addition of water. It has also been suggested that the mixing of fluids from a subducted tectonic plate and melted sediment is already occurring at the top of the slab before any mixing with the mantle takes place.NEWS,weblink Volcanic arcs form by deep melting of rock mixtures: Study changes our understanding of processes inside subduction zones, ScienceDaily, 2017-06-21, en, Arcs produce about 25% of the total volume of magma produced each year on Earth (approximately thirty to thirty-five cubic kilometers), much less than the volume produced at mid-ocean ridges, and they contribute to the formation of new continental crust. Arc volcanism has the greatest impact on humans because many arc volcanoes lie above sea level and erupt violently. Aerosols injected into the stratosphere during violent eruptions can cause rapid cooling of Earth's climate and affect air travel.

Earthquakes and tsunamis

The strains caused by plate convergence in subduction zones cause at least three types of earthquakes. Earthquakes mainly propagate in the cold subducting slab and define the Wadati–Benioff zone. Seismicity shows that the slab can be tracked down to the upper mantle/lower mantle boundary (approximately six hundred kilometer depth).Nine of the ten largest earthquakes of the last 100 years were subduction zone events, which included the 1960 Great Chilean earthquake, which, at M 9.5, was the largest earthquake ever recorded; the 2004 Indian Ocean earthquake and tsunami; and the 2011 Tōhoku earthquake and tsunami. The subduction of cold oceanic crust into the mantle depresses the local geothermal gradient and causes a larger portion of Earth to deform in a more brittle fashion than it would in a normal geothermal gradient setting. Because earthquakes can occur only when a rock is deforming in a brittle fashion, subduction zones can cause large earthquakes. If such a quake causes rapid deformation of the sea floor, there is potential for tsunamis, such as the earthquake caused by subduction of the Indo-Australian Plate under the Euro-Asian Plate on December 26, 2004 that devastated the areas around the Indian Ocean. Small tremors which cause small, nondamaging tsunamis, also occur frequently.A study published in 2016 suggested a new parameter to determine a subduction zone's ability to generate mega-earthquakes.JOURNAL, Bletery, Quentin, Thomas, Amanda M., Rempel, Alan W., Karlstrom, Leif, Sladen, Anthony, Barros, Louis De, 2016-11-25, Mega-earthquakes rupture flat megathrusts, Science, en, 354, 6315, 1027–1031, 10.1126/science.aag0482, 0036-8075, 27885027, 2016Sci...354.1027B, By examining subduction zone geometry and comparing the degree of curvature of the subducting plates in great historical earthquakes such as the 2004 Sumatra-Andaman and the 2011 Tōhoku earthquake, it was determined that the magnitude of earthquakes in subduction zones is inversely proportional to the degree of the fault's curvature, meaning that "the flatter the contact between the two plates, the more likely it is that mega-earthquakes will occur."NEWS,weblink Subduction zone geometry: Mega-earthquake risk indicator, ScienceDaily, 2017-06-21, en, Outer rise earthquakes occur when normal faults oceanward of the subduction zone are activated by flexure of the plate as it bends into the subduction zone.JOURNAL,weblink Slab pull effects from a flexural analysis of the Tonga and Kermadec Trenches (Pacific Plate)
author2=M. Torné, M. Fernàndez, Geophys. J. Int., 141, 2, 479–485, 10.1046/j.1365-246x.2000.00096.xbibcode = 2000GeoJI.141..479G, The 2009 Samoa earthquake is an example of this type of event. Displacement of the sea floor caused by this event generated a six-meter tsunami in nearby Samoa.Anomalously deep events are a characteristic of subduction zones, which produce the deepest quakes on the planet. Earthquakes are generally restricted to the shallow, brittle parts of the crust, generally at depths of less than twenty kilometers. However, in subduction zones, quakes occur at depths as great as seven hundred kilometers. These quakes define inclined zones of seismicity known as Wadati–Benioff zones which trace the descending lithosphere. Seismic tomography has helped detect subducted lithosphere, slabs, deep in the mantle where there are no earthquakes. About one hundred slabs have been described in terms of depth and their timing and location of subduction.WEB,weblink Atlas of the Underworld {{!, Van der Meer, D.G., van Hinsbergen, D.J.J., and Spakman, W., 2017, Atlas of the Underworld: slab remnants in the mantle, their sinking history, and a new outlook on lower mantle viscosity, Tectonophysics||language=en-GB|access-date=2017-12-02}} Some subducted slabs seem to have difficulty penetrating the major discontinuity in the mantle, marking the boundary between the upper mantle and lower mantle, that lies at a depth of about 670 kilometers. Other subducted oceanic plates can penetrate all the way to the core-mantle boundary. The great seismic discontinuities in the mantle, at 410 and 670 kilometer depth, are disrupted by the descent of cold slabs in deep subduction zones.


{{Expand section|date=June 2010}}Orogeny is the process of mountain building. Subducting plates can lead to orogeny by bringing oceanic islands, oceanic plateaus, and sediments to convergent margins. The material often does not subduct with the rest of the plate but instead is accreted (scraped off) to the continent, resulting in exotic terranes. The collision of this oceanic material causes crustal thickening and mountain-building. The accreted material is often referred to as an accretionary wedge, or prism. These accretionary wedges can be identified by ophiolites (uplifted ocean crust consisting of sediments, pillow basalts, sheeted dykes, gabbro, and peridotite).BOOK, Encyclopedia of Environmental Change, John A., Matthews, 1, Los Angeles, SAGE Reference, 2014, Subduction may also cause orogeny without bringing in oceanic material that collides with the overriding continent. When the subducting plate subducts at a shallow angle underneath a continent (something called "flat-slab subduction"), the subducting plate may have enough traction on the bottom of the continental plate to cause the upper plate to contract leading to folding, faulting, crustal thickening and mountain building. This flat-slab subduction process is thought to be one of the main causes of mountain building and deformation in South America.{{citation needed|date=October 2018}}The processes described above allow subduction to continue while mountain building happens progressively, which is in contrast to continent-continent collision orogeny, which often leads to the termination of subduction.

Subduction angle

Subduction typically occurs at a moderately steep angle right at the point of the convergent plate boundary. However, anomalous shallower angles of subduction are known to exist as well some that are extremely steep.JOURNAL, Zheng, YF, Chen, RX, Xu, Z, Zhang, SB, 2016, The transport of water in subduction zones, Science China Earth Sciences, 59, 4, 651–682, 10.1007/s11430-015-5258-4,
  • Flat-slab subduction (subducting angle less than 30°) occurs when subducting lithosphere, called a slab, subducts nearly horizontally. The relatively flat slab can extend for hundreds of kilometers. That is abnormal, as the dense slab typically sinks at a much steeper angle directly at the subduction zone. Because subduction of slabs to depth is necessary to drive subduction zone volcanism (through the destabilization and dewatering of minerals and the resultant flux melting of the mantle wedge), flat-slab subduction can be invoked to explain volcanic gaps. Flat-slab subduction is ongoing beneath part of the Andes causing segmentation of the Andean Volcanic Belt into four zones. The flat-slab subduction in northern Peru and the Norte Chico region of Chile is believed to be the result of the subduction of two buoyant aseismic ridges, the Nazca Ridge and the Juan Fernández Ridge, respectively. Around Taitao Peninsula flat-slab subduction is attributed to the subduction of the Chile Rise, a spreading ridge. The Laramide Orogeny in the Rocky Mountains of United States is attributed to flat-slab subduction.JOURNAL, W. P. Schellart, D. R. Stegman, R. J. Farrington, J. Freeman, L. Moresi, yes, Cenozoic Tectonics of Western North America Controlled by Evolving Width of Farallon Slab, Science, 16 July 2010, 329, 5989, 316–319, 10.1126/science.1190366, 20647465, 2010Sci...329..316S,

Then, a broad volcanic gap appeared at the southwestern margin of North America, and deformation occurred much farther inland; it was during this time that the basement-cored mountain ranges of Colorado, Utah, Wyoming, South Dakota, and New Mexico came into being. The most massive subduction zone earthquakes, so-called "megaquakes", have been found to occur in flat-slab subduction zones.JOURNAL,weblink Fault curvature may control where big quakes occur, Eurekalert 24-NOV-2016, Science, 354, 6315, 1027–1031, 10.1126/science.aag0482, 27885027, 2016-11-24, 2018-06-05, 2016Sci...354.1027B, Bletery, Quentin, Thomas, Amanda M., Rempel, Alan W., Karlstrom, Leif, Sladen, Anthony, De Barros, Louis,
  • Steep-angle subduction (subducting angle greater than 70°) occurs in subduction zones where Earth's oceanic crust and lithosphere are old and thick and have, therefore, lost buoyancy. The steepest dipping subduction zone lies in the Mariana Trench, which is also where the oceanic crust, of Jurassic age, is the oldest on Earth exempting ophiolites. Steep-angle subduction is, in contrast to flat-slab subduction, associated with back-arc extensionJOURNAL, Lallemand, Serge, Heuret, Arnauld, Boutelier, David, 8 September 2005,weblink On the relationships between slab dip, back-arc stress, upper plate absolute motion, and crustal nature in subduction zones, Geochemistry Geophysics Geosystems, 6, 9, Q09006, 10.1029/2005GC000917, 2005GGG.....609006L, of crust making volcanic arcs and fragments of continental crust wander away from continents over geological times leaving behind a marginal sea.


Subduction zones are important for several reasons:
  1. Subduction Zone Physics: Sinking of the oceanic lithosphere (sediments, crust, mantle), by contrast of density between the cold and old lithosphere and the hot asthenospheric mantle wedge, is the strongest force (but not the only one) needed to drive plate motion and is the dominant mode of mantle convection.
  2. Subduction Zone Chemistry: The subducted sediments and crust dehydrate and release water-rich (aqueous) fluids into the overlying mantle, causing mantle melting and fractionation of elements between surface and deep mantle reservoirs, producing island arcs and continental crust.
  3. Subduction zones drag down subducted oceanic sediments, oceanic crust, and mantle lithosphere that interact with the hot asthenospheric mantle from the over-riding plate to produce calc-alkaline series melts, ore deposits, and continental crust.
  4. Subduction zones pose significant threats to lives, property, economic vitality, cultural and natural resources, as well as quality of life. The tremendous magnitudes of earthquakes or volcanic eruptions can also have knock-on effects with global impact.WEB,weblink USGS publishes a new blueprint that can help make subduction zone areas more resilient,, en, 2017-06-21,
Subduction zones have also been considered as possible disposal sites for nuclear waste in which the action of subduction itself would carry the material into the planetary mantle, safely away from any possible influence on humanity or the surface environment. However, that method of disposal is currently banned by international agreement.BOOK, Hafemeister, David W., Physics of societal issues: calculations on national security, environment, and energy, Springer Science & Business Media, Berlin, 2007, 187, 978-0-387-95560-5,weblink BOOK, Kingsley, Marvin G., Rogers, Kenneth H., Calculated risks: highly radioactive waste and homeland security, Ashgate, Aldershot, Hants, England, 2007, 75–76, 978-0-7546-7133-6,weblink WEB,weblink Dumping and Loss overview, Oceans in the Nuclear Age, 18 September 2010,weblink" title="">weblink June 5, 2011, WEB, Storage and Disposal Options. World Nuclear Organization (date unknown),weblink February 8, 2012,weblink" title="">weblink July 19, 2011, Furthermore, plate subduction zones are associated with very large megathrust earthquakes, making the effects on using any specific site for disposal unpredictable and possibly adverse to the safety of longterm disposal.

See also

  • {{annotated link|Plate tectonics}}
  • {{annotated link|Divergent boundary}}
  • {{annotated link|Back-arc basin}}
  • {{annotated link|Divergent double subduction}}
  • {{annotated link|List of tectonic plate interactions}}
  • {{annotated link|Obduction}}
  • {{annotated link|Oceanic trench}}
  • {{annotated link|Paired metamorphic belts}}
  • {{annotated link|Slab window}}


  • BOOK, Lallemand, S, La Subduction Oceanique, Gordon and Breach, Newark, New Jersey, 1999, French,
  • JOURNAL, Stern, R.J., 1998, A Subduction Primer for Instructors of Introductory Geology Courses and Authors of Introductory Geology Textbooks, J. Geoscience Education, 46, 3, 221–228, 10.5408/1089-9995-46.3.221, 1998JGeEd..46..221S,
  • JOURNAL, Stern, R.J., 2002, Subduction zones, Reviews of Geophysics, 40, 1012, 10.1029/2001RG000108, 2002RvGeo..40.1012S, 4,
  • JOURNAL, 10.1130/1052-5173(2005)015[4:TSFHIO]2.0.CO;2, Tatsumi, Y., 2005, The Subduction Factory: How it operates on Earth, GSA Today, 15, 7, 4–10,
  • JOURNAL, Zheng, YF, Chen, YX, 2016, Continental versus oceanic subduction zones, National Science Review, 3, 495–519,

External links

{{commons category|Subduction}}{{Wiktionary}} {{Tectonic plates}}{{Geology}}{{physical oceanography|expanded=other}}

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