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62-634: The mountain is composed of an upper sill of dolerite and sandstone , with the harder dolerite forming cliffs and ridges. The dolerite sill and the sediments underlying it are probably part of the Umkondo Group. The Umkondo Group dolerite sill north of Nyangani, on the Kwaraguza Road, has been dated at 1099 Ma The mountain can be accessed from four base points within Nyanga National Park : (1) The official car park, at

124-554: A clue as to the temperatures and pressures at the time of metamorphism. These reactions are possible because of rapid diffusion of atoms at elevated temperature. Pore fluid between mineral grains can be an important medium through which atoms are exchanged. A particularly important group of neocrystallization reactions are those that release volatiles such as water and carbon dioxide . During metamorphism of basalt to eclogite in subduction zones , hydrous minerals break down, producing copious quantities of water. The water rises into

186-416: A decarbonation reaction is: In plastic deformation pressure is applied to the protolith , which causes it to shear or bend, but not break. In order for this to happen temperatures must be high enough that brittle fractures do not occur, but not so high that diffusion of crystals takes place. As with pressure solution, the early stages of plastic deformation begin during diagenesis. Regional metamorphism

248-546: A different mineral composition or texture . Metamorphism takes place at temperatures in excess of 150 °C (300 °F), and often also at elevated pressure or in the presence of chemically active fluids, but the rock remains mostly solid during the transformation. Metamorphism is distinct from weathering or diagenesis , which are changes that take place at or just beneath Earth's surface. Various forms of metamorphism exist, including regional , contact , hydrothermal , shock , and dynamic metamorphism. These differ in

310-462: A few kilometers), the pressure of overlying rock means few if any vesicles can form in a sill. Lava flows will also typically show evidence of weathering on their upper surface, whereas sills, if still covered by country rock, typically do not. Certain layered intrusions are a variety of sill that often contain important ore deposits. Precambrian examples include the Bushveld , Insizwa and

372-566: A large magma chamber at high magma flux . In contrast, a dike is a discordant intrusive sheet, which does cut across older rocks. Sills are fed by dikes, except in unusual locations where they form in nearly vertical beds attached directly to a magma source. The rocks must be brittle and fracture to create the planes along which the magma intrudes the parent rock bodies, whether this occurs along preexisting planes between sedimentary or volcanic beds or weakened planes related to foliation in metamorphic rock. These planes or weakened areas allow

434-517: A metabasalt. When the protolith cannot be determined, the rock is classified by its mineral composition or its degree of foliation. Metamorphic grade is an informal indication of the amount or degree of metamorphism. In the Barrovian sequence (described by George Barrow in zones of progressive metamorphism in Scotland), metamorphic grades are also classified by mineral assemblage based on

496-411: A metamorphic event. The facies are named after the metamorphic rock formed under those facies conditions from basalt . The particular mineral assemblage is somewhat dependent on the composition of that protolith, so that (for example) the amphibolite facies of a marble will not be identical with the amphibolite facies of a pellite. However, the facies are defined such that metamorphic rock with as broad

558-457: A rare type of magma called a carbonatite that is highly enriched in carbonates and low in silica . Cooling bodies of carbonatite magma give off highly alkaline fluids rich in sodium as they solidify, and the hot, reactive fluid replaces much of the mineral content in the aureole with sodium-rich minerals. A special type of contact metamorphism, associated with fossil fuel fires, is known as pyrometamorphism . Hydrothermal metamorphism

620-415: Is a common result of metamorphism, rock that is intensely deformed may eliminate strain energy by recrystallizing as a fine-grained rock called mylonite . Certain kinds of rock, such as those rich in quartz, carbonate minerals , or olivine, are particularly prone to form mylonites, while feldspar and garnet are resistant to mylonitization. Phase change metamorphism is the creating of a new mineral with

682-480: Is a general term for metamorphism that affects entire regions of the Earth's crust. It most often refers to dynamothermal metamorphism , which takes place in orogenic belts (regions where mountain building is taking place), but also includes burial metamorphism , which results simply from rock being buried to great depths below the Earth's surface in a subsiding basin. To many geologists, regional metamorphism

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744-664: Is called the metamorphic aureole , the contact aureole , or simply the aureole. Contact metamorphic rocks are usually known as hornfels . Rocks formed by contact metamorphism may not present signs of strong deformation and are often fine-grained and extremely tough. The Yule Marble used on the Lincoln Memorial exterior and the Tomb of the Unknown Soldier in Arlington National Cemetery

806-697: Is completed during early stages of metamorphism. For a sandstone protolith, the dividing line between diagenesis and metamorphism can be placed at the point where strained quartz grains begin to be replaced by new, unstrained, small quartz grains, producing a mortar texture that can be identified in thin sections under a polarizing microscope. With increasing grade of metamorphism, further recrystallization produces foam texture , characterized by polygonal grains meeting at triple junctions, and then porphyroblastic texture , characterized by coarse, irregular grains, including some larger grains ( porphyroblasts .) Metamorphic rocks are typically more coarsely crystalline than

868-488: Is composed of mylonite. Mylonite is distinguished by its strong foliation, which is absent in most cataclastic rock. It is distinguished from the surrounding rock by its finer grain size. There is considerable evidence that cataclasites form as much through plastic deformation and recrystallization as brittle fracture of grains, and that the rock may never fully lose cohesion during the process. Different minerals become ductile at different temperatures, with quartz being among

930-410: Is practically synonymous with dynamothermal metamorphism. This form of metamorphism takes place at convergent plate boundaries , where two continental plates or a continental plate and an island arc collide. The collision zone becomes a belt of mountain formation called an orogeny . The orogenic belt is characterized by thickening of the Earth's crust, during which the deeply buried crustal rock

992-539: Is subjected to high temperatures and pressures and is intensely deformed. Subsequent erosion of the mountains exposes the roots of the orogenic belt as extensive outcrops of metamorphic rock, characteristic of mountain chains. Metamorphic rock formed in these settings tends to shown well-developed foliation . Foliation develops when a rock is being shortened along one axis during metamorphism. This causes crystals of platy minerals, such as mica and chlorite , to become rotated such that their short axes are parallel to

1054-430: Is the most recognized metamorphic series in the world. However, Barrovian metamorphism is specific to pelitic rock, formed from mudstone or siltstone , and it is not unique even in pelitic rock. A different sequence in the northeast of Scotland defines Buchan metamorphism , which took place at lower pressure than the Barrovian. Burial metamorphism takes place simply through rock being buried to great depths below

1116-401: Is the result of the interaction of a rock with a high-temperature fluid of variable composition. The difference in composition between an existing rock and the invading fluid triggers a set of metamorphic and metasomatic reactions. The hydrothermal fluid may be magmatic (originate in an intruding magma), circulating groundwater , or ocean water. Convective circulation of hydrothermal fluids in

1178-610: Is the set of processes by which existing rock is transformed physically or chemically at elevated temperature, without actually melting to any great degree. The importance of heating in the formation of metamorphic rock was first recognized by the pioneering Scottish naturalist, James Hutton , who is often described as the father of modern geology. Hutton wrote in 1795 that some rock beds of the Scottish Highlands had originally been sedimentary rock , but had been transformed by great heat. Hutton also speculated that pressure

1240-600: Is the temperature at which the rock begins to melt. At this point, the process becomes an igneous process. The solidus temperature depends on the composition of the rock, the pressure, and whether the rock is saturated with water. Typical solidus temperatures range from 650 °C (1,202 °F) for wet granite at a few hundred megapascals (MPa) of pressure to about 1,080 °C (1,980 °F) for wet basalt at atmospheric pressure. Migmatites are rocks formed at this upper limit, which contains pods and veins of material that has started to melt but has not fully segregated from

1302-850: The Great Dyke complexes of southern Africa; and the Duluth intrusive complex along Lake Superior , and the Stillwater igneous complex of the United States. Phanerozoic examples are usually smaller and include the Rùm peridotite complex of Scotland and the Skaergaard igneous complex of east Greenland . These intrusions often contain concentrations of gold , platinum , chromium and other rare elements. Despite their concordant nature, many large sills change stratigraphic level within

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1364-564: The Whin Sill and sills within the Karoo basin . Volcanic rocks : Subvolcanic rocks : Plutonic rocks : Picrite basalt Peridotite Basalt Diabase (Dolerite) Gabbro Andesite Microdiorite Diorite Dacite Microgranodiorite Granodiorite Rhyolite Microgranite Granite Contact metamorphism Metamorphism is the transformation of existing rock (the protolith ) to rock with

1426-419: The Earth's surface in a subsiding basin. Here the rock is subjected to high temperatures and the great pressure caused by the immense weight of the rock layers above. Burial metamorphism tends to produce low-grade metamorphic rock. This shows none of the effects of deformation and folding so characteristic of dynamothermal metamorphism. Examples of metamorphic rocks formed by burial metamorphism include some of

1488-452: The Earth's surface. Impact metamorphism is, therefore, characterized by ultrahigh pressure conditions and low temperature. The resulting minerals (such as SiO 2 polymorphs coesite and stishovite ) and textures are characteristic of these conditions. Dynamic metamorphism is associated with zones of high strain such as fault zones. In these environments, mechanical deformation is more important than chemical reactions in transforming

1550-465: The Gairezi Falls are located on the east edge of the main plateau. The fauna of the area is described under Nyanga National Park . Additional information: Iron Age ruins have been found on Little Nyangani and on a hill west of the summit, the latter better-preserved, but not on the summit plateau itself. The film Mysteries of Mount Inyangani looks at some of the mysteries and myths about

1612-401: The albite-epidote hornfels is often not formed, even though it is the lowest temperature grade. Magmatic fluids coming from the intrusive rock may also take part in the metamorphic reactions . An extensive addition of magmatic fluids can significantly modify the chemistry of the affected rocks. In this case the metamorphism grades into metasomatism . If the intruded rock is rich in carbonate

1674-441: The appearance of key minerals in rocks of pelitic (shaly, aluminous) origin: Low grade ------------------- Intermediate --------------------- High grade A more complete indication of this intensity or degree is provided by the concept of metamorphic facies . Metamorphic facies are recognizable terranes or zones with an assemblage of key minerals that were in equilibrium under specific range of temperature and pressure during

1736-463: The atoms to move and form new bonds with other atoms . Pore fluid present between mineral grains is an important medium through which atoms are exchanged. This permits recrystallization of existing minerals or crystallization of new minerals with different crystalline structures or chemical compositions (neocrystallization). The transformation converts the minerals in the protolith into forms that are more stable (closer to chemical equilibrium ) under

1798-515: The aureoles around batholiths can be up to several kilometers wide. The metamorphic grade of an aureole is measured by the peak metamorphic mineral which forms in the aureole. This is usually related to the metamorphic temperatures of pelitic or aluminosilicate rocks and the minerals they form. The metamorphic grades of aureoles at shallow depth are albite - epidote hornfels, hornblende hornfels, pyroxene hornfels, and sillimanite hornfels, in increasing order of temperature of formation. However,

1860-777: The base of the Tourist Route. This is reached from Circular Drive. (2) The Mountain Club of Zimbabwe hut, on the Kwaraguza Road, accessed via Circular Drive. (3) Nyazengu Substation of Nyanga National Park, accessed via a road which goes south from just before the official car park. (4) Gleneagles Substation of Nyanga National Park, accessed via the Circular Drive, Kwaraguza Road and the Gleneagles road or from Troutbeck via Nyafaru . The peak can be reached within 1–3 hours by anyone of average fitness. This ascent brings

1922-528: The characteristic temperatures, pressures, and rate at which they take place and in the extent to which reactive fluids are involved. Metamorphism occurring at increasing pressure and temperature conditions is known as prograde metamorphism , while decreasing temperature and pressure characterize retrograde metamorphism . Metamorphic petrology is the study of metamorphism. Metamorphic petrologists rely heavily on statistical mechanics and experimental petrology to understand metamorphic processes. Metamorphism

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1984-403: The circulation of fluids through buried rock, to the list of processes that help bring about metamorphism. However, metamorphism can take place without metasomatism (isochemical metamorphism) or at depths of just a few hundred meters where pressures are relatively low (for example, in contact metamorphism). Rock can be transformed without melting because heat causes atomic bonds to break, freeing

2046-400: The conditions of pressure and temperature at which metamorphism takes place. Metamorphism is generally regarded to begin at temperatures of 100 to 200 °C (212 to 392 °F). This excludes diagenetic changes due to compaction and lithification , which result in the formation of sedimentary rocks. The upper boundary of metamorphic conditions lies at the solidus of the rock, which

2108-550: The crystals, while high pressures cause solution of the crystals within the rock at their points of contact ( pressure solution ) and redeposition in pore space. During recrystallization, the identity of the mineral does not change, only its texture. Recrystallization generally begins when temperatures reach above half the melting point of the mineral on the Kelvin scale. Pressure solution begins during diagenesis (the process of lithification of sediments into sedimentary rock) but

2170-400: The depth at which they were formed, as the temperature and confining pressure determine the deformation mechanisms which predominate. At the shallowest depths, a fault zone will be filled with various kinds of unconsolidated cataclastic rock , such as fault gouge or fault breccia . At greater depths, these are replaced by consolidated cataclastic rock, such as crush breccia , in which

2232-418: The direction of shortening. This results in a banded, or foliated, rock, with the bands showing the colors of the minerals that formed them. Foliated rock often develops planes of cleavage . Slate is an example of a foliated metamorphic rock, originating from shale , and it typically shows well-developed cleavage that allows slate to be split into thin plates. The type of foliation that develops depends on

2294-399: The first to become ductile, and sheared rock composed of different minerals may simultaneously show both plastic deformation and brittle fracture. The strain rate also affects the way in which rocks deform. Ductile deformation is more likely at low strain rates (less than 10 sec ) in the middle and lower crust, but high strain rates can cause brittle deformation. At the highest strain rates,

2356-422: The following routes which do not have paths or markings: The above are all walks or scrambles, without rock climbing involved. However, caution is advised, especially on unmarked routes, as the weather may change very rapidly: descent of cloud can result in visibility of less than 50 metres or 160 feet. This may well be the cause for a number of disappearances on the mountain, such as that of two teenage children of

2418-465: The hiker to an altitude of about 2,200 metres or 7,220 feet and the remainder is mostly walking across the gentler gradients of the summit plateau. The hazards here are produced by bewilderingly fast weather changes that can switch from sunny skies to thick fog, and under these conditions several fatalities have occurred due to hikers losing their way and falling down ravines. There are three ascents that follow paths: The mountain can also be ascended using

2480-429: The intruded sequence, with each concordant part of the intrusion linked by relatively short dike-like segments. Such sills are known as transgressive. The geometry of large sill complexes in sedimentary basins has become clearer with the availability of 3D seismic reflection data. Such data has shown that many sills have an overall saucer shape and that many others are at least in part transgressive. Examples include

2542-557: The intrusion of a thin sheet-like body of magma paralleling the existing bedding planes, concordant fracture zone, or foliations. Sills run parallel to beds (layers) and foliations in the surrounding country rock . They can be originally emplaced in a horizontal orientation, although tectonic processes may cause subsequent rotation of horizontal sills up to near vertical orientations. Sills can be confused with solidified lava flows; however, there are several differences between them. Intruded sills will show partial melting and incorporation of

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2604-403: The larger rock fragments are cemented together by calcite or quartz. At depths greater than about 5 kilometers (3.1 mi), cataclasites appear; these are quite hard rocks consist of crushed rock fragments in a flinty matrix, which forms only at elevated temperature. At still greater depths, where temperatures exceed 300 °C (572 °F), plastic deformation takes over, and the fault zone

2666-502: The metamorphic grade. For instance, starting with a mudstone , the following sequence develops with increasing temperature: The mudstone is first converted to slate, which is a very fine-grained, foliated metamorphic rock, characteristic of very low grade metamorphism. Slate in turn is converted to phyllite , which is fine-grained and found in areas of low grade metamorphism. Schist is medium to coarse-grained and found in areas of medium grade metamorphism. High-grade metamorphism transforms

2728-407: The metamorphic rock marble . In metamorphosed sandstone , recrystallization of the original quartz sand grains results in very compact quartzite , also known as metaquartzite, in which the often larger quartz crystals are interlocked. Both high temperatures and pressures contribute to recrystallization. High temperatures allow the atoms and ions in solid crystals to migrate, thus reorganizing

2790-400: The mountain. Sill (geology) In geology, a sill is a tabular sheet intrusion that has intruded between older layers of sedimentary rock , beds of volcanic lava or tuff , or along the direction of foliation in metamorphic rock . A sill is a concordant intrusive sheet , meaning that it does not cut across preexisting rock beds. Stacking of sills builds a sill complex and

2852-449: The ocean floor basalts produces extensive hydrothermal metamorphism adjacent to spreading centers and other submarine volcanic areas. The fluids eventually escape through vents on the ocean floor known as black smokers . The patterns of this hydrothermal alteration are used as a guide in the search for deposits of valuable metal ores. Shock metamorphism occurs when an extraterrestrial object (a meteorite for instance) collides with

2914-438: The overlying mantle, where it lowers the melting temperature of the mantle rock, generating magma via flux melting . The mantle-derived magmas can ultimately reach the Earth's surface, resulting in volcanic eruptions. The resulting arc volcanoes tend to produce dangerous eruptions, because their high water content makes them extremely explosive. Examples of dehydration reactions that release water include: An example of

2976-401: The protolith from which they formed. Atoms in the interior of a crystal are surrounded by a stable arrangement of neighboring atoms. This is partially missing at the surface of the crystal, producing a surface energy that makes the surface thermodynamically unstable. Recrystallization to coarser crystals reduces the surface area and so minimizes the surface energy. Although grain coarsening

3038-516: The protolith. Chemical reactions digest the minerals of the protolith which yields new minerals. This is a very slow process as it can also involve the diffusion of atoms through solid crystals. An example of a neocrystallization reaction is the reaction of fayalite with plagioclase at elevated pressure and temperature to form garnet . The reaction is: Many complex high-temperature reactions may take place between minerals without them melting, and each mineral assemblage produced provides us with

3100-435: The refractory residue. The metamorphic process can occur at almost any pressure, from near surface pressure (for contact metamorphism) to pressures in excess of 16 kbar (1600 MPa). The change in the grain size and orientation in the rock during the process of metamorphism is called recrystallization . For instance, the small calcite crystals in the sedimentary rocks limestone and chalk change into larger crystals in

3162-437: The result is a skarn . Fluorine -rich magmatic waters which leave a cooling granite may often form greisens within and adjacent to the contact of the granite. Metasomatic altered aureoles can localize the deposition of metallic ore minerals and thus are of economic interest. Fenitization , or Na-metasomatism , is a distinctive form of contact metamorphism accompanied by metasomatism. It takes place around intrusions of

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3224-413: The rock may be so strongly heated that it briefly melts, forming a glassy rock called pseudotachylite . Pseudotachylites seem to be restricted to dry rock, such as granulite. Metamorphic rocks are classified by their protolith, if this can be determined from the properties of the rock itself. For example, if examination of a metamorphic rock shows that its protolith was basalt, it will be described as

3286-428: The rock to gneiss , which is coarse to very coarse-grained. Rocks that were subjected to uniform pressure from all sides, or those that lack minerals with distinctive growth habits, will not be foliated. Marble lacks platy minerals and is generally not foliated, which allows its use as a material for sculpture and architecture. Collisional orogenies are preceded by subduction of oceanic crust. The conditions within

3348-548: The rock. The minerals present in the rock often do not reflect conditions of chemical equilibrium, and the textures produced by dynamic metamorphism are more significant than the mineral makeup. There are three deformation mechanisms by which rock is mechanically deformed. These are cataclasis , the deformation of rock via the fracture and rotation of mineral grains; plastic deformation of individual mineral crystals; and movement of individual atoms by diffusive processes. The textures of dynamic metamorphic zones are dependent on

3410-607: The rocks of the Midcontinent Rift System of North America, such as the Sioux Quartzite , and in the Hamersley Basin of Australia. Contact metamorphism occurs typically around intrusive igneous rocks as a result of the temperature increase caused by the intrusion of magma into cooler country rock . The area surrounding the intrusion where the contact metamorphism effects are present

3472-500: The same chemical formula as a mineral of the protolith. This involves a rearrangement of the atoms in the crystals. An example is provided by the aluminium silicate minerals, kyanite , andalusite , and sillimanite . All three have the identical composition, Al 2 SiO 5 . Kyanite is stable at surface conditions. However, at atmospheric pressure, kyanite transforms to andalusite at a temperature of about 190 °C (374 °F). Andalusite, in turn, transforms to sillimanite when

3534-414: The subducting slab as it plunges toward the mantle in a subduction zone produce their own distinctive regional metamorphic effects , characterized by paired metamorphic belts . The pioneering work of George Barrow on regional metamorphism in the Scottish Highlands showed that some regional metamorphism produces well-defined, mappable zones of increasing metamorphic grade. This Barrovian metamorphism

3596-445: The surrounding country rock. On both contact surfaces of the country rock into which the sill has intruded, evidence of heating will be observed ( contact metamorphism ). Lava flows will show this evidence only on the lower side of the flow. In addition, lava flows will typically show evidence of vesicles (bubbles) where gases escaped into the atmosphere. Because sills form below the surface, even though generally at shallow depths (up to

3658-426: The temperature reaches about 800 °C (1,470 °F). At pressures above about 4 kbar (400 MPa), kyanite transforms directly to sillimanite as the temperature increases. A similar phase change is sometimes seen between calcite and aragonite , with calcite transforming to aragonite at elevated pressure and relatively low temperature. Neocrystallization involves the creation of new mineral crystals different from

3720-711: The then Minister of Finance, Tichaendepi Masaya. Three rivers have their sources on Mount Nyangani: the Nyamuziwa River, the (Kairezi) Gairezi River and the Pungwe River . The first two are tributaries of the Mazowe River, which is itself a tributary of the Zambezi River . The Nyama River, a tributary of the Kayirezi, falls off the main plateau in a waterfall on the northeast of the mountain and

3782-419: Was formed by contact metamorphism. Contact metamorphism is greater adjacent to the intrusion and dissipates with distance from the contact. The size of the aureole depends on the heat of the intrusion, its size, and the temperature difference with the wall rocks. Dikes generally have small aureoles with minimal metamorphism, extending not more than one or two dike thicknesses into the surrounding rock, whereas

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3844-419: Was important in metamorphism. This hypothesis was tested by his friend, James Hall , who sealed chalk into a makeshift pressure vessel constructed from a cannon barrel and heated it in an iron foundry furnace. Hall found that this produced a material strongly resembling marble , rather than the usual quicklime produced by heating of chalk in the open air. French geologists subsequently added metasomatism ,

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