Plutonism is the geologic theory that the igneous rocks forming the Earth originated from intrusive magmatic activity, with a continuing gradual process of weathering and erosion wearing away rocks, which were then deposited on the sea bed, re-formed into layers of sedimentary rock by heat and pressure, and raised again. It proposes that basalt is solidified molten magma. The theory lead to plutonic (intrinsic) rock classification, which includes intrinsic igneous rocks such as gabbro, diorite, granite and pegmatite. The name plutonism references Pluto, the classical ruler of the underworld and the Roman god of wealth. A main reason Pluto was incorporated into the classification was due to the plutonic rocks commonly being present in gold and silver ore deposits (veins). [1]
The Oxford English Dictionary traces use of the word "plutonists" to 1799, [2] and the appearance of the word plutonism to 1842. [3]
Abbé Anton Moro, who had studied volcanic islands, first proposed the theory before 1750, and James Hutton subsequently developed it as part of his Theory of the Earth, [4] published in 1788, which used the Glen Tilt of Perthshire as the prime example supporting his theory; an example used by Neptunism to prove their theory as well. [5] The idea contested Abraham Werner's neptunist theory which proposed that the Earth had formed from a mass of water and suspended material which had formed rocks as layers of deposited sediment which became the continents when the water retreated, further layers being deposited by floods and some volcanic activity. [5]
Plutonists strongly disputed the neptunist view that rocks had formed by processes that no longer operated, instead supporting Hutton's theory. A key issue of the debate revolved around the neptunist belief that basalt was sedimentary, and some fossils had been found in it. Against this, Hutton's supporter John Playfair (1748–1819) argued that this rock contained no fossils as it had formed from molten magma, and it had been found cutting through other rocks in volcanic dykes. The arguments continued into the early 19th century, and eventually the plutonist views on the origin of rocks prevailed in the wake of the work of Charles Lyell in the 1830s, who incorporated this theory into uniformitarianism. [5] However, geologists regard sedimentary rocks such as limestone as having resulted from processes like those described by the neptunists. [6] [7]
Comparatively, plutonism within uniformitarianism is equivalent to neptunism within catastrophism, as both are used as core concepts within their respective theories, and hence similarly, neptunism opposes plutonism in the same way that catastrophism opposes uniformitarianism.
Plutonism is a geological theory proposed by James Hutton, where he proposed that the main cause of the current arrangement of rocks and the Earth's surface landscape was driven through the heat provided by magma concealed within surface of the Earth, which occurred over the course of thousands if not millions of years. [8] This process is influenced by the production of magma. [8] [5]
The process of magma production occurs during the process of mountain formation in which two specific locations where magma would be generated. [9] The first involves high-grade metamorphism occurring within “thickened continental crust” resulting in granitic magma, hence resulting in a direct formation. [9] The second method involves basaltic magma forming over a larger area, located above the subduction zone, though this magma fails to reach past the base of the continental crust due to its higher density. [9] However, when heat is applied to the crust, an area of granitic magma can be produced through the melting of the continental crust when contributing to metamorphism. [9]
Partial crystallization and magma mixing, among other igneous processes occur once the basaltic magma cools to a sufficient temperature, resulting in the formation of “a more silicic andesite” [9] composition, which is less dense than the original basaltic magma. [9] This allows magma to proceed through the crust, resulting in the occurrence of explosive volcanoes. Volcanic rocks form from the lava cooling on the Earth's surface. [9] However, in the event when the occurrence of subduction or temperature within the magma chamber is insufficient, the magma chamber within the volcano would crystallise, resulting in the extinction of the volcano and the formation of intrusive igneous rock, also referred to as plutonic rocks or “plutons”. [9] In some instances, a separate chamber may crystallise, hence not resulting in the extinction of the volcano. [9] In the event of uplift/erosion mountain building occurs, batholith rocks occur. [9]
Additionally, some of the magma within the Earth is produced without subduction, resulting in the formation of “sticky granite magma”, [9] and is without a conduit to reach the surface. Instead, it forces its way through rock crevices, resulting in a high-pressure environment. [9] Cooling then occurs, over a long period of time, resulting in large coarse-grained crystals which form bodies with distinctive textures, resulting in intrusive igneous/plutonic rocks. These rocks vary in size and colour. [8] [5] [10]
During the 18th century scientists enquired about the process and context in which the current rock landscape on the Earth's surface came into existence and why it was in the current arrangement. From this enquiry came about two prevailing theories: plutonism, which was proposed by James Hutton, and neptunism, which was proposed by Abraham Gottlob Werner. [5] It has been noted within the scientific community that they were not the first ones to propose such theories, but they were the ones credited with proposing their corresponding theories to the scientific community. [5]
One of the first notable scientists to propose an early theory of plutonism was Abbé Anton Moro, who in the first half of the 18th century was able to inform the scientific community how to differentiate between volcanic and sedimentary rocks. [4] Through observing crustaceans, it led him to discover that within mountains lied petrified fossils. [4] This suggested to him that at one point in the past, through the force of volcanic fire, islands and continents rose from the bottom of the sea. [4] He argued that this occurred over a long period of time as opposed to a relatively short amount of time, indicating some sort of continuous change that has and is occurring on the Earth’s surface, leading to the current formations viewed by humanity. [4]
In the 1780s, Hutton started opposing the neptunist view of previous catastrophic events being the cause of the current landscape, with no modern equivalency. [11] Hutton proposed the Earth was undergoing a slow but continuous changes, where such changes on the Earth namely occur through volcanism, erosion, transportation and deposition of sediments. [11] He used the Glen Tilt of Perthshire as evidence to support his argument, where the used location was used as an example of the neptunist theory prior to his hypothesis of the granite present there. [11] He published his theory and findings in an essay in 1788, which was followed by his two-volume work tilted Theory of the Earth in 1795, which expanded upon his 1788 work. [11]
In 1802, Illustrations of the Huttonian Theory was published by John Playfair, which attempted to siphon the influence of Neptunism at the time. [12] The Illustrations portrayed Hutton's “length and obscurely written book” in a concise, clear manner, “keeping Hutton's approach alive” following his death in 1797, as other scientists interpreted his theory in their own manner. [12] Additionally, John Playfair would argue Plutonism being the correct theory as opposed to Neptunism. [12]
In 1830, a scientist named Charles Lyell, founded uniformitarianism. [5] In 1830, Lyell published the Principles of Geology, in which the Earth is an equilibrium state, where biological, chemical and physical processes have occurred slowly over an extreme amount of time, resulting in the observed features on the Earth's surface. [5] The theory included aspects of plutonism as core concepts resulting in the de facto general acceptance of plutonism, as uniformitarianism became widely accepted within the scientific community, resulting in Hutton becoming the “Father of Geology”, due to the presence of Hutton's work as core concepts. [5] [11]
As mentioned prior, there were two prevailing theories during the 18th century to explain the current arrangement of the landscape and rock formations: plutonism and neptunism. The schism was pseudo-initiated through Moro’s differentiation of sedimentary and volcanic rocks, as well as his theory of volcanic fire lifting the islands and continents, as he argued it was a slow process, whilst others argued it was catastrophic and had no modern equivalences. [4] Neptunists believed that the Earth's surface initially only contained a turbid ocean, which led to deposits of sediments on the ocean resulting in the formation of crystalline rocks such as granites. [5] There were many opposing views between the two theories, one of the more notable oppositions of each theory was the formation of granite. [5] Hutton believed that the granites were injected within the Glen Tilt of Perthshire as they were intruded through Dalradian metasediments, indicated by the cut across sediment layers. [5] This indicated to Hutton that the sediments were older than the granite. [5] This contradicted Neptunism, as it believes granites to be precipitated out of the ocean, hence being the oldest rock type. [5]
In 1773, prior to Hutton’s observations, Abraham Gottlob Werner published his mineralogy book On the External Characteristics of Fossils, which categorised minerals through their physical characteristics alone, which allowed him to obtain the position of Curator of Freiburg School of Mining’s mineral collection and teacher of mining, where he was able to promote his theory of neptunism. [5] Through his prestigious position, he attracted many students where he was able to spread neptunism to general scientific community as they entered the field geology and any other connecting fields. [5]
As Hutton died in 1797, plutonism was less vocal within the scientific community at the time as it received scepticism from pro-neptunism individuals. [12] As mentioned above, John Playfair published his Illustrations of Huttonian Theory, which siphoned the influence of neptunism, as Playfair depicted Hutton’s theory in a more concise and clear manner that allowed the presence of plutonism to remain in the opposition of neptunism in the scientific community. [12]
Werner’s theory was developed through his observations of a selected group of rocks, as his position at the university prevented him from make observations and developing his theory on a wider array of rocks. [5] Hence, when other rocks were observed from different parts of the world, conformity to neptunism decreased with each type of rock being examined. [5] . This development was noticeable in the work of Alexander von Humboldt (1769–1859), who had studied with Werner in Freiberg and gradually departed from his teacher's theories. [13] Due to this trend, neptunism declined after Werner’s death in 1817, leaving the battle of neptunism and plutonism in a relative stagnation as pro-plutonism and pro-neptunism scientists attempted to ensure their respective theory became accepted. [5] Despite this stalemate, neptunism was partially favoured to plutonism due to Werner’s position allowing him to spread his theory due to a larger degree of individuals within the university and scientific community being influenced by him. [5] Hence, many of his students favoured neptunism over plutonism. [5]
Sometime in the early 19th century, prior to Lyell’s contributions, a French scientist named Georges Cuvier utilised Werner’s neptunism theory within his theory of catastrophism, which had neptunism as a core aspect, similar to how uniformitarianism implemented plutonism as a core aspect. [5] His theory suggested that the Earth’s landscape has come to be through volatile forces that the Earth system possess that come in and out of existence. [5] This theory was favoured by the scientific community at the time, and hence, neptunism by default was still maintaining its dominance over plutonism. [5]
However, the schism ended through Lyell's book Principles of Geology published in 1830, resulting in the formation of uniformitarianism, which incorporated Hutton's ideas of plutonism. [5] His findings, claims and ideas were accepted by the general scientific community, hence resulting in the end of the schism, and resulting in the general acceptance of plutonism over neptunism. [5]
James Hutton was a Scottish geologist, agriculturalist, chemical manufacturer, naturalist and physician. Often referred to as the "Father of Modern Geology," he played a key role in establishing geology as a modern science.
Uniformitarianism, also known as the Doctrine of Uniformity or the Uniformitarian Principle, is the assumption that the same natural laws and processes that operate in our present-day scientific observations have always operated in the universe in the past and apply everywhere in the universe. It refers to invariance in the metaphysical principles underpinning science, such as the constancy of cause and effect throughout space-time, but has also been used to describe spatiotemporal invariance of physical laws. Though an unprovable postulate that cannot be verified using the scientific method, some consider that uniformitarianism should be a required first principle in scientific research. Other scientists disagree and consider that nature is not absolutely uniform, even though it does exhibit certain regularities.
A batholith is a large mass of intrusive igneous rock, larger than 100 km2 (40 sq mi) in area, that forms from cooled magma deep in the Earth's crust. Batholiths are almost always made mostly of felsic or intermediate rock types, such as granite, quartz monzonite, or diorite.
Neptunism is a superseded scientific theory of geology proposed by Abraham Gottlob Werner (1749–1817) in the late 18th century, who proposed that rocks formed from the crystallisation of minerals in the early Earth's oceans.
Migmatite is a composite rock found in medium and high-grade metamorphic environments, commonly within Precambrian cratonic blocks. It consists of two or more constituents often layered repetitively: one layer is an older metamorphic rock that was reconstituted subsequently by partial melting ("neosome"), while the alternate layer has a pegmatitic, aplitic, granitic or generally plutonic appearance ("paleosome"). Commonly, migmatites occur below deformed metamorphic rocks that represent the base of eroded mountain chains.
Anorthosite is a phaneritic, intrusive igneous rock characterized by its composition: mostly plagioclase feldspar (90–100%), with a minimal mafic component (0–10%). Pyroxene, ilmenite, magnetite, and olivine are the mafic minerals most commonly present.
Deep time is a term introduced and applied by John McPhee to the concept of geologic time in his book Basin and Range (1981), parts of which originally appeared in The New Yorker magazine.
Abraham Gottlob Werner was a German geologist who set out an early theory about the stratification of the Earth's crust and propounded a history of the Earth that came to be known as Neptunism. While most tenets of Neptunism were eventually set aside, Werner is remembered for his demonstration of chronological succession in rocks; for the zeal with which he infused his pupils; and for the impulse he thereby gave to the study of geology. He has been called the "father of German geology".
Intrusive rock is formed when magma penetrates existing rock, crystallizes, and solidifies underground to form intrusions, such as batholiths, dikes, sills, laccoliths, and volcanic necks.
Relative dating is the science of determining the relative order of past events, without necessarily determining their absolute age. In geology, rock or superficial deposits, fossils and lithologies can be used to correlate one stratigraphic column with another. Prior to the discovery of radiometric dating in the early 20th century, which provided a means of absolute dating, archaeologists and geologists used relative dating to determine ages of materials. Though relative dating can only determine the sequential order in which a series of events occurred, not when they occurred, it remains a useful technique. Relative dating by biostratigraphy is the preferred method in paleontology and is, in some respects, more accurate. The Law of Superposition, which states that older layers will be deeper in a site than more recent layers, was the summary outcome of 'relative dating' as observed in geology from the 17th century to the early 20th century.
The geology of Scotland is unusually varied for a country of its size, with a large number of different geological features. There are three main geographical sub-divisions: the Highlands and Islands is a diverse area which lies to the north and west of the Highland Boundary Fault; the Central Lowlands is a rift valley mainly comprising Palaeozoic formations; and the Southern Uplands, which lie south of the Southern Uplands Fault, are largely composed of Silurian deposits.
Time's Arrow, Time's Cycle: Myth and Metaphor in the Discovery of Geological Time is a 1987 history of geology by the paleontologist Stephen Jay Gould, in which the author offers a historical account of the conceptualization of Deep Time and uniformitarianism using the works of the English theologian Thomas Burnet, and the Scottish geologists James Hutton and Charles Lyell.
The history of geology is concerned with the development of the natural science of geology. Geology is the scientific study of the origin, history, and structure of the Earth.
Principles of Geology: Being an Attempt to Explain the Former Changes of the Earth's Surface, by Reference to Causes Now in Operation is a book by the Scottish geologist Charles Lyell that was first published in 3 volumes from 1830 to 1833. Lyell used the theory of uniformitarianism to describe how the Earth's surface was changing over time. This theory was in direct contrast to the geological theory of catastrophism.
In geology, a chonolith is a type of igneous rock intrusion. Igneous rock intrusions are bodies of igneous rock that are formed by the crystallization of cooled magma below the Earth’s surface. These formations are termed intrusive rocks due the magma intruding rock layers but never reaching the surface. However, sometimes portions of plutons can become exposed at the Earth’s surface and thus the minerals can be observed since they are large enough. The different plutonic formations are named based on the different shapes that the cooled crystallized magma takes. However, all plutonic formations that have irregular shapes and do not share the same characteristics as other plutonic structures are termed chonoliths. Other plutonic structures that have specific shapes include: dikes, sills, laccoliths and sheets. Another unique characteristic of chonoliths is that there is a floor or base present which is typically absent in other types of intrusions.
Hutton's Unconformity is a name given to various notable geological sites in Scotland identified by the 18th-century Scottish geologist James Hutton as places where the junction between two types of rock formations can be seen. This geological phenomenon marks the location where rock formations created at different times and by different processes adjoin. For Hutton, such an unconformity provided evidence for his Plutonist theories of uniformitarianism and the age of Earth.
A geologist is a scientist who studies the structure, composition, and history of Earth. Geologists incorporate techniques from physics, chemistry, biology, mathematics, and geography to perform research in the field and the laboratory. Geologists work in the energy and mining sectors to exploit natural resources. They monitor environmental hazards such as earthquakes, volcanoes, tsunamis and landslides. Geologists are also important contributors to climate change discussions.
Igneous rock, or magmatic rock, is one of the three main rock types, the others being sedimentary and metamorphic. Igneous rocks are formed through the cooling and solidification of magma or lava.
The Vishnu Basement Rocks is the name recommended for all Early Proterozoic crystalline rocks exposed in the Grand Canyon region. They form the crystalline basement rocks that underlie the Bass Limestone of the Unkar Group of the Grand Canyon Supergroup and the Tapeats Sandstone of the Tonto Group. These basement rocks have also been called either the Vishnu Complex or Vishnu Metamorphic Complex. These Early Proterozoic crystalline rocks consist of metamorphic rocks that are collectively known as the Granite Gorge Metamorphic Suite; sections of the Vishnu Basement Rocks contain Early Paleoproterozoic granite, granitic pegmatite, aplite, and granodiorite that have intruded these metamorphic rocks, and also, intrusive Early Paleoproterozoic ultramafic rocks.
Volcanic and igneous plumbing systems (VIPS) consist of interconnected magma channels and chambers through which magma flows and is stored within Earth's crust. Volcanic plumbing systems can be found in all active tectonic settings, such as mid-oceanic ridges, subduction zones, and mantle plumes, when magmas generated in continental lithosphere, oceanic lithosphere, and in the sub-lithospheric mantle are transported. Magma is first generated by partial melting, followed by segregation and extraction from the source rock to separate the melt from the solid. As magma propagates upwards, a self-organised network of magma channels develops, transporting the melt from lower crust to upper regions. Channelled ascent mechanisms include the formation of dykes and ductile fractures that transport the melt in conduits. For bulk transportation, diapirs carry a large volume of melt and ascent through the crust. When magma stops ascending, or when magma supply stops, magma emplacement occurs. Different mechanisms of emplacement result in different structures, including plutons, sills, laccoliths and lopoliths.
[...] the dialectic synthesis of two opposite approaches: the historical view, inherited from neptunists, and the a historical standpoint of plutonists.
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(help)Nowadays, one and a half century after Hutton's death (in 1797) we are engaged in a similar struggle of opinions as that between the Volcanists and the Neptunists, namely the controversy between Magmatists and Transformists[...]). In fact, the problem no longer concerns the question whether Neptunists or Volcanists (Magmatists) are right; in the course of time a third possibility has come forward, that of the Transformists, which to a certain extent is a synthesis of both older views.