Anatexis

Anatexis (via Latin from Greek roots meaning 'to melt down') in geology, refers to the differential, or partial, melting of rocks, especially in the forming of metamorphic rocks such as migmatites.El Bahariya, G.A., 2008.GEOLOGY AND PETROLOGY OF NEOPROTEROZOIC SYNTECTONIC ANATECTIC MIGMATITES AROUND WADI ABU HIGLIG, HAFAFIT REGION, EASTERN DESERT, EGYPT.Egyptian Journal of Geology, v.52, 2008, p.25-54. Anatexis (via Latin from Greek roots meaning 'to melt down') in geology, refers to the differential, or partial, melting of rocks, especially in the forming of metamorphic rocks such as migmatites. In order to have partial melting in the middle to lower continental crust, the continental geotherm must be steepened towards much higher temperatures. The minimum temperature needed to produce partial melting in metasedimentary rocks is about 650 °C. Under these conditions, water saturated metapelites reach their solidus and produce a melt of granite composition. The 'standard' geotherm at the Moho is in the 500-600 °C range which would not be optimally hot enough for anatectic melting. Situations when the continental geotherm is hotter and can induce partial melting of the crust is where 'orogenic processes such as crustal thickening, lithospheric mantle thinning, and underplating of mafic magma' occur (the transfer of heat from magma into the base of the continental crust). The amount of water in granitic systems controls the degree of melting at a given temperature. Very high temperatures are required to generate substantial melt if the water content of the system is low. Typical examples of anatexis would be the generation of granitic melts (partially melted aluminous crustal rocks), basalts (partially melted mantle peridotite), and migmatitic rock. Granitic rocks that come from the crust commonly contain xenoliths of metamorphic or sedimentary rocks when pieces of the wall rock are included into the magma during ascent or site of placement. Although a source of petrologic controversy, migmatites are thought to represent partial melting where melt and residual unmelted material are intertwined in layers (melt segregation). Migmatitic rocks 'provide an example of the close relation between metamorphism, deformation, and melt generation and emplacement (El Bahariya, G.A; 2008;2009). Granites 'are undoubtedly the result of extreme fractionation of mantle-derived parental basaltic magma, but it is also possible to derive granite magmas from the melting of metasedimentary and metavolcanic rocks of various compositions in orogenic belts (also called S-type granites).' Two questions that implicate 'the granite problem' are: Some in the field of petrology have considered migmatitic terranes as 'source areas for magmas, even referring to them as 'baby batholiths.'' Some regard 'granitic liquids are produced directly from partial melting of mantle peridotite or subducted oceanic crust ; otherwise we should find granitoids in the oceanic lithosphere.'