Metamorphism

Metamorphic reaction EN

Thin section of garnet-mica-schist

Metamorphic Pressure alignment-white

Basalt-hand-sample

Amphibolite (Archean, 3.1-3.2 Ga; Norris South roadcut, Madison County, Montana, USA) 1 (45574881922)

Mylonite Strona

Metamorphism refers to the process by which rocks undergo physical and chemical changes under the influence of temperature, pressure, and fluid activities, leading to the formation of metamorphic rocks. This geological process is a fundamental part of the rock cycle, which describes the transitions through geologic time among the three main rock types: igneous, sedimentary, and metamorphic. Metamorphism occurs below the Earth's surface, from a few kilometers to depths that reach the base of the crust.

Types of Metamorphism[edit | edit source]

There are several types of metamorphism, each characterized by the conditions under which it occurs and the resulting features of the metamorphic rocks.

Contact Metamorphism[edit | edit source]

Occurs when rocks are heated by the intrusion of hot magma from the Earth's mantle, without a significant change in pressure and in the presence of minimal fluids. This type of metamorphism typically results in the formation of hornfels.

Regional Metamorphism[edit | edit source]

This is the most common form of metamorphism, occurring over broad areas of the crust under conditions of high pressure and temperature, such as those found at tectonic plate boundaries. Regional metamorphism can lead to the formation of a wide range of metamorphic rocks, including schist, gneiss, and slate, depending on the degree of metamorphism.

Hydrothermal Metamorphism[edit | edit source]

Involves the alteration of rock by hot, chemically active water. This type of metamorphism is often associated with mid-ocean ridges and the alteration of oceanic crust. Quartz and serpentine are common minerals produced by hydrothermal metamorphism.

Burial Metamorphism[edit | edit source]

Occurs when rocks are buried to great depths in large sedimentary basins, leading to changes primarily due to the increase in temperature.

Shock Metamorphism[edit | edit source]

Results from the high-pressure, high-temperature conditions generated by meteorite impacts on the Earth's surface. This process can create unique forms of minerals and rocks, such as coesite and stishovite, which are high-pressure forms of quartz.

Factors Influencing Metamorphism[edit | edit source]

The main factors that influence metamorphism include temperature, pressure, the presence of fluids, and time.

Temperature and Pressure[edit | edit source]

Temperature and pressure increase with depth in the Earth's crust. The temperature range for metamorphism is generally between 200°C and 800°C, and the pressure range is from a few kilobars to over 10 kilobars. The combination of these factors determines the type of metamorphism and the resulting metamorphic rocks.

Fluids[edit | edit source]

Fluids, particularly water with dissolved ions, play a crucial role in facilitating chemical reactions that lead to the recrystallization of minerals during metamorphism.

Time[edit | edit source]

Metamorphism is a slow process that can span millions of years. The duration of exposure to metamorphic conditions can influence the extent and type of metamorphism.

Metamorphic Textures[edit | edit source]

Metamorphic rocks exhibit a variety of textures, which are classified based on the size, shape, and arrangement of the minerals. Common textures include foliated, non-foliated, and lineated textures.

Foliated Texture[edit | edit source]

Characterized by the parallel alignment of platy minerals (e.g., mica), giving the rock a layered appearance. This texture is typical of rocks subjected to differential pressure during regional metamorphism.

Non-Foliated Texture[edit | edit source]

Occurs in rocks where minerals have grown and recrystallized without a preferred orientation, often in the context of contact metamorphism.

Metamorphic Grade[edit | edit source]

The degree of metamorphism, or metamorphic grade, is determined by the peak conditions of temperature and pressure to which the rock was subjected. Low-grade metamorphic rocks have been subjected to relatively low temperatures and pressures, while high-grade metamorphic rocks have experienced high temperatures and pressures.

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