Magma Chamber M And Ms Generate X Y Plots Key
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11 – magma chamber

A magma chamber is a large pool of liquid rock beneath the surface of the Earth. The molten rock, or magma, in such a chamber is under great pressure. Given enough time, that pressure can gradually fracture the rock around it,[clarification needed][citation needed] creating a way for the magma to move upward. If it finds its way to the surface, then the result will be a volcanic eruption; consequently, many volcanoes are situated over magma chambers. These chambers are hard to detect deep within the Earth, and therefore most of those known are close to the surface, commonly between 1 km and 10 km down.

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Dynamics of magma chambers[edit]

Magma chambers above a subducting plate

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Wolfenstein 2 steam key generator download. Magma rises through cracks from beneath and across the crust because it is less dense than the surrounding rock. When the magma cannot find a path upwards it pools into a magma chamber. These chambers are commonly built up over time,[1][2] by successive horizontal[3] or vertical[4]Best key generator windows 7 ultimate reddit. magma injections. Influx of new magma causes reaction of pre-existing crystals[5] and the pressure in the chamber to increase.

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The residing magma starts to cool, with the higher melting point components such as olivine crystallizing out of the solution, particularly near to the cooler walls of the chamber, and forming a denser conglomerate of minerals which sinks (cumulative rock). Upon cooling, new mineral phases saturate and the rock type changes (e.g. fractional crystallization), typically forming (1) gabbro, diorite, tonalite and granite or (2) gabbro, diorite, syenite and granite. If magma resides in a chamber for a long period, then it can become stratified with lower density components rising to the top and denser materials sinking. Rocks accumulate in layers, forming a layered intrusion.[6] Any subsequent eruption may produce distinctly layered deposits; for example, the deposits from the 79 AD eruption of Mount Vesuvius include a thick layer of white pumice from the upper portion of the magma chamber overlaid with a similar layer of grey pumice produced from material erupted later from lower in the chamber.

Another effect of the cooling of the chamber is that the solidifying crystals will release the gas (primarily steam) previously dissolved when they were liquid, causing the pressure in the chamber to rise, possibly sufficiently to produce an eruption. Additionally, the removal of the lower melting point components will tend to make the magma more viscous (by increasing the concentration of silicates). Thus, stratification of a magma chamber may result in an increase in the amount of gas within the magma near the top of the chamber, and also make this magma more viscous, potentially leading to a more explosive eruption than would be the case had the chamber not become stratified.

If the magma is not vented to the surface in a volcanic eruption, it will slowly cool and crystallize at depth to form an intrusiveigneous body, one, for example, composed of granite or gabbro (see also pluton).

Often, a volcano may have a deep magma chamber many kilometers down, which supplies a shallower chamber near the summit. The location of magma chambers can be mapped using seismology: seismic waves from earthquakes move more slowly through liquid rock than solid, allowing measurements to pinpoint the regions of slow movement which identify magma chambers.[7]

As a volcano erupts, surrounding rock will collapse into the emptying chamber. If the chamber's size is reduced considerably, the resulting depression at the surface can form a caldera.

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See also[edit]

References[edit]

  1. ^Glazner, A.F., Bartley, J.M., Coleman, D.S., Gray, W., Taylor, Z. (2004). 'Are plutons assembled over millions of years by amalgamation from small magma chambers?'. GSA Today. 14 (4/5): 4–11. doi:10.1130/1052-5173(2004)014<0004:APAOMO>2.0.CO;2.CS1 maint: multiple names: authors list (link)
  2. ^Leuthold, Julien (2012). 'Time resolved construction of a bimodal laccolith (Torres del Paine, Patagonia)'. Earth and Planetary Science Letters. 325–326: 85–92. doi:10.1016/j.epsl.2012.01.032.
  3. ^Leuthold, Julien; Müntener, Othmar; Baumgartner, Lukas; Putlitz, Benita (2014). 'Petrological constraints on the recycling of mafic crystal mushes and intrusion of braided sills in the Torres del Paine Mafic Complex (Patagonia)'(PDF). Journal of Petrology. 55 (5): 917–949. doi:10.1093/petrology/egu011.
  4. ^Allibon, J., Ovtcharova, M., Bussy, F., Cosca, M., Schaltegger, U., Bussien, D., Lewin, E. (2011). 'The lifetime of an ocean island volcano feeder zone: constraints from U–Pb on coexisting zircon and baddeleyite, and 40Ar/39Ar age determinations (Fuerteventura, Canary Islands)'. Can. J. Earth Sci. 48 (2): 567–592. doi:10.1139/E10-032.CS1 maint: multiple names: authors list (link)
  5. ^Leuthold J, Blundy JD, Holness MB, Sides R (2014). 'Successive episodes of reactive liquid flow through a layered intrusion (Unit 9, Rum Eastern Layered Intrusion, Scotland)'. Contrib Mineral Petrol. 167: 1021. doi:10.1007/s00410-014-1021-7.
  6. ^McBirney AR (1996). 'The Skaergaard intrusion'. In Cawthorn RG (ed.). Layered intrusions. Developments in petrology. 15. pp. 147–180. ISBN9780080535401.
  7. ^Cashman, K. V.; Sparks, R. S. J. (2013). 'How volcanoes work: a 25 year perspective'. Geological Society of America Bulletin. 125 (5–6): 664. doi:10.1130/B30720.1.
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