Introduction
Metamorphism involves the alteration of existing rocks by either excessive heat and pressure, or through the chemical action of fluids. This alteration can cause chemical changes or structural modification to the minerals making up the rock. Structural modification may involve the simple reorganization of minerals into layers or the aggregation of minerals into specific areas within the rock.
Much of the Earth's continental crust is composed of metamorphic and igneous rocks. Together, these two rock types form the base material at the core of the Earth's major continental masses. Overlying this core are often thick layers of sedimentary rocks. In some regions, this base rock is exposed to the atmosphere and is known as shields. On the Canadian Shield we can find some of the oldest rocks found on the planet (3.96 billion years old). These very old rocks are primarily metamorphic. Metamorphic rocks also are the rock type found at the core of the world's various mountain ranges.
Heat and Metamorphism
Heat is an important agent in the metamorphic modification of rock. Rocks begin to change chemically at temperatures above 200° Celsius. At these temperatures, the crystalline structure of the minerals in the rock are broken down and transformed using different combinations of the available elements and compounds. As a result, new minerals are created. The metamorphic process stops when the temperatures become high enough (600 to 1200° Celsius) to cause complete melting of the rock. If rocks are heated to the point where they become magma, the magma when cooled creates new igneous rocks. Thus, metamorphism only refers to the alteration of rock that takes place before complete melting occurs.
Heat can be applied to rock through two processes: tectonic subduction and the intrusion of magma. Some rocks that are formed at the surface are subsequently transported deep into the crust and the upper mantle at tectonic subduction zones. Temperatures beneath the Earth's surface increase with depth at a rate of about 25° Celsius per kilometer. Scientists estimate that the temperature at the base of the crust is about 800 to 1200° Celsius. This heat is generated from the decay of radioactive materials, mainly in the crust, and heat released from the Earth's core.
Magma can sometimes migrate up through the crust forming an igneous intrusion. This is especially true along continental boundaries, like the western side of North America, where subduction is taking place. Metamorphism takes place in the rock surrounding the magma body because of heat dissipation. Because of the nature of the dissipation process, the level of metamorphic alteration in the influenced rock decreases with distance from the igneous intrusion.