10.5 Metamorphic Hydrothermal Processes and Metasomatism

A hot body of magma in the upper crust can create a very dynamic situation that may have geologically interesting and economically important implications. In the simplest cases, water does not play a big role, and the main process is transfer of heat from the pluton to the surrounding rock, creating a zone of contact metamorphism (Figure 10.31a). In many cases, however, water is released from the magma body as crystallization takes place, and this water is dispersed along fractures in the country rock (Figure 10.31b). The water released from a magma chamber is typically rich in dissolved minerals. As this water cools, is chemically changed by the surrounding rocks, or boils because of a drop in pressure, minerals are deposited, forming veins within the fractures in the country rock. Quartz veins are common in this situation, and they might also include pyrite, hematite, calcite, and even silver and gold.

Figure 7.25 Depiction of metamorphism and alteration around a pluton in the upper crust. (a) Thermal metamorphism only (within the purple zone) (b) Thermal metamorphism plus veining (white) related to dispersal of magmatic fluids into the overlying rock (c) Thermal metamorphism plus veining from magmatic fluids plus alteration and possible formation of metallic minerals (hatched yellow areas) from convection of groundwater

Figure 10.31 Depiction of metamorphism and alteration around a pluton in the upper crust.
(a) Thermal metamorphism only (within the purple zone)
(b) Thermal metamorphism plus veining (white) related to dispersal of magmatic fluids into the overlying rock
(c) Thermal metamorphism plus veining from magmatic fluids plus alteration and possible formation of metallic minerals (hatched yellow areas) from convection of groundwater

Heat from the magma body will cause surrounding groundwater to expand and then rise toward the surface. In some cases, this may initiate a convection system where groundwater circulates past the pluton. Such a system could operate for thousands of years, resulting in the circulation of millions of tonnes of groundwater from the surrounding region past the pluton.

Hot water circulating through the rocks can lead to significant changes in the mineralogy of the rock, including alteration of feldspars to clays, and deposition of quartz, calcite, and other minerals in fractures and other open spaces (Figure 10.32). As with the magmatic fluids, the nature of this circulating groundwater can also change adjacent to, or above, the pluton, resulting in deposition of other minerals, including ore minerals. Metamorphism in which much of the change is derived from fluids passing through the rock is known as metasomatism. When hot water contributes to changes in rocks, including mineral alteration and formation of veins, it is known as hydrothermal alteration.

Calcite veins in limestone of the Comox Formation, Nanaimo, BC [SE]

Figure 10.32 Calcite veins in limestone of the Comox Formation, Nanaimo, B.C. [SE]

 

A special type of metasomatism takes place where a hot pluton intrudes into carbonate rock such as limestone. When magmatic fluids rich in silica, calcium, magnesium, iron, and other elements flow through the carbonate rock, their chemistry can change dramatically, resulting in the deposition of minerals that would not normally exist in either the igneous rock or limestone. These include garnet, epidote (another silicate), magnetite, pyroxene, and a variety of copper and other minerals (Figure 10.33). This type of metamorphism is known as skarn.

A skarn rock from Mount Monzoni, Northern Italy, with recrystallized calcite (blue) garnet (brown) and pyroxene (green). The rock is 6 cm across. [by Siim Sepp, from http://commons.wikimedia.org/wiki/File:00031_6_cm_grossular_calcite_augite_skarn.jpg]

Figure 10.33 A skarn rock from Mount Monzoni, Northern Italy, with recrystallized calcite (blue), garnet (brown), and pyroxene (green). The rock is 6 cm across. [by Siim Sepp, from http://commons.wikimedia.org/wiki/File:00031_6_cm_grossular_calcite_augite_skarn.jpg]

 

Exercise 10.5 Contact Metamorphism and Metasomatism

 

This diagram shows a pluton that has intruded into a series of sedimentary rocks.

This diagram shows a pluton that has intruded into a series of sedimentary rocks.

What type of metamorphic rock would you expect to see at each location: a, b, and c?

 

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