isochemical: no change in the chemical composition - just a rearrangement

Metasomatic: significant changes in chemical comp

Decompression melting: decrease in pressure w/ no temperature change

Hydration melting: addition of a volatile that better distributes heat in cracks

Heat transfer/rising magma: buoyant magma rises to crust and melts rock there

Composition --> higher Si=more viscous

Temperature --> higher temp=lesss viscous

Chemical weathering occuring on newly exposed/unstable rock results in a concentration

obtain and sort minerals by smelting

Molten rock comes into contact with cooler rock

There's a series of alteration zones in adjacent rocks

-when there's gas in a viscous magma, as soon as the pressure is released the geological shift causes a release in pressure and allows the gases to expand even further and increase explosivity

deposit of heavy minerals that have been concentrated by a mechanical process

usually waves or currents

Moderate to high pressure and fluids, usually at fault zones

Fractional Crystallization: a temp drop causes denser and earlier formed materials to settle 

Assimilation: hot magma flows into and melts country rock --> leaves behind xenoliths 

Magma Mixing: two magma plumes of varying mafic quality meet and mix

Basaltic --> 50% SiO2, gas-poor, ketchup

Andesite --> 60% SiO2, gas-rich, asphalt

local concentration formed through sedimentation

evaporites, chemical precipitates