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Felsic magmas and lavas have lower temperatures of melting and solidification than mafic magmas and lavas. Felsic rocks are usually light in color and have specific gravities less than 3. The most common felsic rock is granite. Common felsic minerals include quartz, muscovite, orthoclase, and the sodium-rich plagioclase feldspars (albite-rich).
The mafic rocks also typically have a higher density than felsic rocks. The term roughly corresponds to the older basic rock class. [9] Mafic lava, before cooling, has a low viscosity, in comparison with felsic lava, due to the lower silica content in mafic magma. Water and other volatiles can more easily and gradually escape from mafic lava.
The calc-alkaline magma series is one of two main subdivisions of the subalkaline magma series, the other subalkaline magma series being the tholeiitic series. A magma series is a series of compositions that describes the evolution of a mafic magma, which is high in magnesium and iron and produces basalt or gabbro, as it fractionally crystallizes to become a felsic magma, which is low in ...
Whereas temperatures in common silicate lavas range from about 800 °C (1,470 °F) for felsic lavas to 1,200 °C (2,190 °F) for mafic lavas, [24] the viscosity of the same lavas ranges over seven orders of magnitude, from 10 4 cP (10 Pa⋅s) for mafic lava to 10 11 cP (10 8 Pa⋅s) for felsic magmas. [24]
[31] [37] Rarer magmas such as high-Mg andesite and boninite [38] can be observed, as well as the more common basalts, andesites and dacites. At continental arcs, fractional crystallisation is the dominant process in magma generation, and the melts formed are more evolved due to magmatic differentiation through the felsic continental crust. [37]
Large felsic intrusions likely form from melting of lower crust that has been heated by an intrusion of mafic magma from the upper mantle. The different densities of felsic and mafic magma limit mixing, so that the silicic magma floats on the mafic magma.
Mafic magma (fluid magma low in silica) usually reaches the surface through fissures, forming dikes. [4] At the shallowest depths, dikes form when magma rises into an existing fissure. [13] [3] In the young, shallow dikes of the Hawaiian Islands, there is no indication of forceful intrusion of magma. For example, there is little penetration of ...
Diapirism is considered as the main mechanism of magma transport in lower to middle crust [2] and it is one of the viable transportation mechanisms for both felsic and mafic magmas. [11] End members of magma segregation, ascent, and displacement: Diapirism and Channeled ascent (after Cruden, 2018). [4]