![]() Viscous magma doesn’t flow easily, so even if there is a way for it to move out, it may not flow out. ![]() If the magma is felsic, and therefore too viscous for gases to escape easily, or if it has a particularly high gas content, it is likely to be under high pressure. All we need to do is release the confining pressure and the gases come bubbling out. If you put the lid back on and shake the bottle (best to do this outside!), you’ll enhance the processes of bubble formation, and when you open the lid, the pop will come gushing out, just like an explosive volcanic eruption.Ī pop bottle is a better analogue for a volcano than the old baking soda and vinegar experiment that you did in elementary school, because pop bottles, like volcanoes, come pre-charged with gas pressure. The bottle will become soft because the pressure is released, and small bubbles will start forming. You’ll find that the bottle is hard because it was bottled under pressure, and you should be able to see that there are no gas bubbles inside.īuy a small bottle of pop (you don’t have to drink it!) and open it. Go to a supermarket and pick one up off the shelf (something not too dark). An eruption that involves a steady non-violent flow of magma is called effusive.Ī good analogy for a magma chamber in the upper crust is a plastic bottle of pop on the supermarket shelf. Assuming that it can break through to the surface, the magma will flow out relatively gently. If the gas content is low or the magma is runny enough for gases to rise up through it and escape to surface, the pressure will not become excessive. Gas bubbles start to form, and the more gas there is in the magma, the more bubbles form. As magma approaches the surface, the pressure exerted on it decreases. When magma is deep beneath the surface and under high pressure from the surrounding rocks, the gases remain dissolved. Figure 4.8 Variations in the volatile compositions of magmas as a function of silica content ĭifferences in viscosity and volatile level have significant implications for the nature of volcanic eruptions. Although there are many exceptions to this trend, mafic magmas typically have 1% to 3% volatiles, intermediate magmas have 3% to 4% volatiles, and felsic magmas have 4% to 7% volatiles. The general relationship between the SiO 2 content of magma and the amount of volatiles is shown in Figure 4.8. The most abundant volatile in magma is water (H 2O), followed typically by carbon dioxide (CO 2), and then by sulphur dioxide (SO 2). Second, felsic magmas tend to have higher levels of volatiles that is, components that behave as gases during volcanic eruptions. First, as we’ve already discussed, felsic magmas tend to be more viscous because they have more silica, and hence more polymerization. įrom the perspective of volcanism there are some important differences between felsic and mafic magmas. Figure 4.7 The important processes that lead to changes in the composition of magmas stored within magma chambers within relatively felsic rocks of the crust. ![]() Settling of ferromagnesian crystals from the upper part of the magma, and possible remelting of those crystals in the lower part can both contribute to the vertical zonation from relatively mafic at the bottom to more felsic at the top. Partial melting of country rock and country-rock xenoliths increases the overall felsic character of the magma first, because the country rocks tends to be more felsic than the magma, and second, because the more felsic components of the country rock melt preferentially. ![]() At subduction zones, where the magma ascends through significant thicknesses of crust, interaction between the magma and the crustal rock - some of which is quite felsic - leads to increases in the felsic character of the magma.Īs shown in Figure 4.7, several processes can make magma that is stored in a chamber within the crust more felsic, and can also contribute to development of vertical zonation from more mafic at the bottom to more felsic at the top. At divergent boundaries and oceanic mantle plumes, where there is little interaction with crustal materials and magma fractionation to create felsic melts does not take place, the magma tends to be consistently mafic. As noted in the previous section, the types of magma produced in the various volcanic settings can differ significantly. ![]()
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