Magmatic Bundle

Posted : admin | On 19-04-2021



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This Magmatic Bundle contains all the equipment and apparel skins to ready your survivors for the long journey ahead, once they escape The Forge. All Survivors Magmatic Chest As the survivors continue the battle, the fires of the Forge rage on. These flame-hardened warriors need to look the part. Also, according to the DST Shop in my country: The Magmatic Bundle is on sale for -25% which allows you to buy 18,330 Spools for 12.59€ (1455.63 Spools/€). It may be a good time to restock your spools for new skins or the new incoming characters.


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Related to magmatic: Magmatic Deposits, magmatic differentiation
Magmatic Bundle

mag·ma

(măg′mə)n.pl.mag·ma·ta(-mä′tə) or mag·mas
1. Geology The molten rock material under the earth's crust, from which igneous rock is formed by cooling.
2. Pharmacology A suspension of particles in a liquid, such as milk of magnesia.
3. A mixture of finely divided solids with enough liquid to produce a pasty mass.
4. Archaic The residue of fruits after the juice has been expressed; pomace.
[Middle English, sediment, dregs, from Latin, from Greek, unguent, from massein, mag-, to knead; see mag- in Indo-European roots.]
American Heritage® Dictionary of the English Language, Fifth Edition. Copyright © 2016 by Houghton Mifflin Harcourt Publishing Company. Published by Houghton Mifflin Harcourt Publishing Company. All rights reserved.

magma

(ˈmæɡmə) n, pl-masor-mata (-mətə)
1. (General Physics) a paste or suspension consisting of a finely divided solid dispersed in a liquid
2. (Geological Science) hot molten rock, usually formed in the earth's upper mantle, some of which finds its way into the crust and onto the earth's surface, where it solidifies to form igneous rock
[C15, from Latin: dregs (of an ointment), from Greek: salve made by kneading, from massein to knead]
ˈmagmatismn
Collins English Dictionary – Complete and Unabridged, 12th Edition 2014 © HarperCollins Publishers 1991, 1994, 1998, 2000, 2003, 2006, 2007, 2009, 2011, 2014

mag•ma

(ˈmæg mə)
n., pl. -mas, -ma•ta (-mə tə)
1. molten material beneath or within the earth's crust, from which igneous rock is formed.
2. a mixture or suspension of mineral or organic matter.
mag•mat′ic (-ˈmæt ɪk) adj.
Random House Kernerman Webster's College Dictionary, © 2010 K Dictionaries Ltd. Copyright 2005, 1997, 1991 by Random House, Inc. All rights reserved.

mag·ma

(măg′mə)
The molten rock material that originates under the Earth's crust and forms igneous rock when it has cooled. When magma cools and solidifies beneath the Earth's surface, it forms what are known as intrusive rocks. When it reaches the Earth's surface, it flows out as lava and forms extrusive (or volcanic) rocks.
The American Heritage® Student Science Dictionary, Second Edition. Copyright © 2014 by Houghton Mifflin Harcourt Publishing Company. Published by Houghton Mifflin Harcourt Publishing Company. All rights reserved.

magma

a pharmaceutical preparation in which precipitated matter is suspended in a watery substance. See also geology. — magmatic, adj.
See also: Drugs
-Ologies & -Isms. Copyright 2008 The Gale Group, Inc. All rights reserved.

magma

Molten rock that is formed below the surface of the Earth’s.
Dictionary of Unfamiliar Words by Diagram Group Copyright © 2008 by Diagram Visual Information Limited
Noun1.magma - molten rock in the earth's crust
rock, stone - material consisting of the aggregate of minerals like those making up the Earth's crust; 'that mountain is solid rock'; 'stone is abundant in New England and there are many quarries'
Based on WordNet 3.0, Farlex clipart collection. © 2003-2012 Princeton University, Farlex Inc.
magma
laava
lava
magma
magma
magma
magma
magma
magma

magma

[ˈmægmə]N (magmas or magmata (pl)) [ˈmægmətə]magmam
Collins Spanish Dictionary - Complete and Unabridged 8th Edition 2005 © William Collins Sons & Co. Ltd. 1971, 1988 © HarperCollins Publishers 1992, 1993, 1996, 1997, 2000, 2003, 2005

magma

Collins German Dictionary – Complete and Unabridged 7th Edition 2005. © William Collins Sons & Co. Ltd. 1980 © HarperCollins Publishers 1991, 1997, 1999, 2004, 2005, 2007
Collins Italian Dictionary 1st Edition © HarperCollins Publishers 1995

mag·ma

1. suspensión de partículas en una cantidad pequeña de agua;
2. sustancia viscosa compuesta de material orgánico.

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Geological map showing the Gangdese batholith, which is a product of magmatic activity about 100 million years ago.

Magmatism is the emplacement of magma within and at the surface of the outer layers of a terrestrial planet, which solidifies as igneous rocks. It does so through magmatic activity or igneous activity, the production, intrusion and extrusion of magma or lava. Volcanism is the surface expression of magmatism.

Magmatism is one of the main processes responsible for mountain formation. The nature of magmatism depends on the tectonic setting.[1] For example, andesitic magmatism associated with the formation of island arcs at convergent plate boundaries or basaltic magmatism at mid-ocean ridges during sea-floor spreading at divergent plate boundaries.

On Earth, magma forms by partial melting of silicate rocks either in the mantle, continental or oceanic crust. Evidence for magmatic activity is usually found in the form of igneous rocks – rocks that have formed from magma.


Convergent boundaries[edit]

Magmatism is associated with all stages of the development of convergent plate boundaries, from the initiation of subduction through to continental collision and its immediate aftermath.[2]

Subduction-related[edit]

The subduction of oceanic crust, whether beneath oceanic or continental crust, is associated in almost all cases with partial melting of the overlying asthenosphere due to the addition of volatiles (especially water) expelled from the downgoing slab. Only when the slab fails to reach sufficient depth as in the earliest stages of subduction or where there are periods of flat-slab subduction that completely pinch out the asthenosphere, is magmatism absent. The magmatism is mostly calc-alkaline in type along a well-defined curvilinear magmatic arc. Only the volcanic parts of modern arcs are exposed at the surface and the understanding of the underlying magma chambers relies on geophysical methods. Ancient arc sequences that formed on continental crust or that have become accreted to continental crust are often deeply eroded and the plutonic equivalents of the arc volcanoes become exposed.

Collision-related[edit]

Continental collisions are accompanied by major crustal thickening, leading to heating and anatexis within the crust, generally in the form of peraluminous granitic intrusions.

Post-collision[edit]

Post-collisional magmatism is a result of decompression melting associated with isostatic rebound and possible extensional collapse of the thickened crust formed during the collision.[3]Slab detachment has also been proposed as a cause of late to post-collisional magmatism.

Divergent boundaries[edit]

The new crust that is formed at divergent boundaries within oceanic crust is almost entirely magmatic in origin.

Mid-ocean ridges[edit]

Mid-ocean ridge spreading centres are the sites of almost continuous magmatism. The basalts erupted at mid-ocean ridges are tholeiitic in character and result from the partial melting of upwelling asthenosphere. The composition of Mid-Ocean Ridge Basalts (MORB) shows little variation globally as they come from a mostly homogeneous source.[4]

Back-arc basins[edit]

Back-arc extension often leads to the formation of oceanic crust and relatively short-lived spreading centres. As the asthenosphere behind the arc has been partly affected by volatiles from the downgoing slab, the typical back-arc basin basalts are intermediate in character between MORB type basalts and IAB type basalts.[5]

Intraplate[edit]

Magmatic activity away from plate boundaries forms an important part of the magmatism on earth, including the largest magmatic events known, Large Igneous Provinces.

Hotspots[edit]

Dst Magmatic Bundle

Hotspots are sites of upwelling of relatively hot mantle, possibly associated with mantle plumes, that cause partial melting of the asthenosphere. This type of magmatism forms volcanic seamounts or oceanic islands when they become emergent. Over short geological timescales the hotspots appear to be fixed relative to one another, forming a reference frame against which plate motions can be measured. As tectonic plates move relative to a hotspot, the location of magmatic activity on the plate shifts, causing the development of time-progressive chains of volcanoes such as the Hawaiian–Emperor seamount chain. The main product of hotspot volcanoes are Ocean Island Basalts (OIB), which are distinct from MORB and IAB type basalts.

Where hotspots are developed beneath the continents the products are different, as the mantle-derived magmas cause melting of the continental crust, forming granitic magmas that reach the surface as rhyolites. The Yellowstone hotspot is an example of continental hotspot magmatism, which also displays time-progressive shifts in magmatic activity.

Rifts[edit]

Many continental rift zones are associated with magmatism due to upwelling of the asthenosphere as the lithosphere is thinned, which leads to decompression melting.[6] The magmatism is often bimodal in character as the mantle-derived basaltic magmas cause partial melting of the continental crust.

Magmatic Bundle Model

Large Igneous Provinces[edit]

Large Igneous Provinces (LIPs) are defined as 'mainly mafic (+ ultramafic) magmatic provinces with an areal extent >0.1 Mkm2 and igneous volume >0.1Mkm3, that have intraplate characteristics, and are emplaced in a short duration pulse or multiple pulses (less than 1–5 Ma) with a maximum duration of <c.50 Ma'.[7]

References[edit]

Magmatic Bundle Vs

  1. ^Wilson M. (2012). Igneous petrogenesis. Springer. pp. 3–12. ISBN9789401093880.
  2. ^Harris N.B.W.; Pearce J.A.; Tindle A.G. (1986). Coward M.P.; Ries A.C. (eds.). Geochemical characteristics of collision-zone magmatism. Collision Tectonics. Special Publications. 19. Geological Society, London. ISBN9780632012114.
  3. ^Zhao Z.F.; Zheng Y.F. (2009). 'Remelting of subducted continental lithosphere: Petrogenesis of Mesozoic magmatic rocks in the Dabie-Sulu orogenic belt'. Science in China Series D: Earth Sciences. 52 (9): 1295–1318. doi:10.1007/s11430-009-0134-8. S2CID128737689.
  4. ^Schubert G.; Turcotte D.L.; Olsen P. (2001). Mantle Convection in the Earth and Planets. Cambridge University Press. pp. 69–71. ISBN9780521798365.
  5. ^Pearce J.A.; Stern R.J. (2006). Christie D.M.; Fisher C.R.; Lee S.-M.; Givens S. (eds.). Origin of Back-Arc Basin Magmas: Trace Element and Isotope Perspectives. Back-Arc Spreading Systems: Geological, Biological, Chemical, and Physical Interactions. Wiley. doi:10.1029/166GM06. ISBN9780875904313.
  6. ^Wright T.J.; Ayele A.; Ferguson D.; Kidane T.; Vye-Brown C., eds. (2016). Magmatic rifting and active volcanism: introduction. Magmatic Rifting and Active Volcanism. Special Publications. 420. Geological Society, London. pp. 1–9. doi:10.1144/SP420.18. ISBN9781862397293. S2CID73658389.
  7. ^Ernst R.E. (2014). Large Igneous Provinces. Cambridge University Press. p. 3. ISBN9780521871778.
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