Tuesday, January 7, 2020

Plutons, Defined and Explained

A pluton (pronounced PLOO-tonn) is a deep-seated intrusion of igneous rock, a body that made its way into pre-existing rocks in a melted form (magma) several kilometers underground in the Earths crust and then solidified. At that depth, the magma cooled and crystallized very slowly, allowing the mineral grains to grow large and tightly interlocked — typical of plutonic rocks.   Shallower intrusions may be called subvolcanic or hypabyssal intrusions. There are a slew of partial synonyms based on a plutons size and shape, including batholith, diapir, intrusion, laccolith, and stock.   How Pluton Becomes Visible A pluton exposed at the Earths surface has had its overlying rock removed by erosion. It may represent the deep part of a magma chamber that once fed magma to a long-vanished volcano, like Ship Rock in northwestern New Mexico. It may also represent a magma chamber that never reached the surface, like Stone Mountain  in  Georgia.  The only true way to tell the difference is by mapping and analyzing the details of the rocks that are exposed along with the geology of the surrounding area. The Various Types of Plutons Pluton is a general term that covers the whole variety of shapes taken by bodies of magma. That is, plutons are defined by the presence of plutonic rocks. Narrow sheets of magma that form sills and igneous dikes may qualify as plutons if the rock inside them solidified at depth. Other plutons have fatter shapes that have a roof and a floor. This can be easy to see in a pluton that was tilted so that erosion could cut through it at an angle. Otherwise, it may take geophysical techniques to map the plutons three-dimensional shape. A blister-shaped pluton that raised the overlying rocks into a dome may be called a laccolith. A mushroom-shaped pluton may be called a lopolith, and a cylindrical one may be called a bysmalith. These have a conduit of some sort that fed magma into them, usually called a feeder dike (if its flat) or a stock (if its round). There used to be a whole set of names for other pluton shapes, but they arent really much use and have been abandoned. In 1953, Charles B. Hunt made fun of these in USGS Professional Paper 228 by proposing the name cactolith for a cactus-shaped pluton: A cactolith is a quasihorizontal chonolith composed of anastomosing ductoliths whose distal ends curl like a harpolith, thin like a sphenolith, or bulge discordantly like an akmolith or ethmolith. Who said geologists couldnt be funny?   Then there are plutons that have no floor, or at least no evidence of one. Bottomless plutons like these are called stocks if they are smaller than 100 square kilometers in extent, and batholiths if theyre larger.  In the United States, the Idaho, Sierra Nevada, and Peninsular batholiths are the largest. How Plutons Form The formation and fate of plutons is an important, long-standing scientific problem. Magma is less dense than rock and tends to rise as buoyant bodies. Geophysicists call such bodies diapirs (DYE-a-peers); salt domes are another example. Plutons may readily melt their way upward in the lower crust, but they have a hard time reaching the surface through the cold, strong upper crust. It appears that they need help from regional tectonics that pulls the crust apart—the same thing that favors volcanoes at the surface. Thus plutons, and especially batholiths, go along with subduction zones that create arc volcanism. For a few days in 2006, the International Astronomical Union considered giving the name plutons to large bodies in the outer part of the solar system, apparently thinking that it would signify Pluto-like objects. They also considered the term plutinos. The Geological Society of America, among other critics of the proposal, sent a quick protest, and a few days later the IAU decided on its epochal definition of dwarf planet that banished Pluto from the register of planets. (See What Is a Planet?) Edited by Brooks Mitchell

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