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W2028630457 endingPage "93" @default.
W2028630457 startingPage "35" @default.
W2028630457 abstract "Abstract Aluminium phosphates and sulphates of the alunite supergroup (APS minerals) occur in a wide range of environments of formation covering the metamorphic, igneous and sedimentary realms. Supergene processes, including mineral dressing and dumping when sulphide ores are mined, as well as hypogene alteration are also responsible for the precipitation of APS minerals. In these environments, complex solid solution series (s.s.s.) can form. The general formula of these alunite minerals is AB3 (XO4)2(OH)6, where A is a large cation (Na, U, K, Ag, NH4, Pb, Ca, Ba, Sr, REE). B sites are occupied by cations of the elements Al, Fe, Cu and Zn. In nature, the anion (XO4)x− is dominated by P and S. Mineral dressing and identification of APS minerals often needs a combination of highly sophisticated measures including Atterberg settling methods, XRD, DTA, TGA, TEM-EDX, SEM, EMPA and XRF. In sedimentary rocks APS minerals occur in various rocks and environments of deposition: calcareous, phosphorite-bearing, argillaceous–carbonaceous, arenaceous, coal-bearing environments, in soils and paleosols, in saprolite (bauxites, laterites) and in calcareous–argillaceous sequences hosting Carlin-type SHDG deposits. In igneous rocks, APS minerals may be encountered mainly in acidic through intermediate pyroclastic, volcanic and subvolcanic rocks. They occur in barren volcanic rocks and porphyry-type intrusions that have sparked epithermal Au–Ag-base metal deposits, Au–Sb mineralization, APS-bearing argillite and alunite deposits in their immediate surroundings. Granitic and pegmatitic rocks are rarely host of supergene APS mineralization. During low-grade stage regional metamorphism, peraluminous parent rocks originating from a sedimentary or igneous protolith may also give rise to APS mineralization. Peraluminous parent rocks enriched in S and/or P are a prerequisite for the formation of APS minerals that are stable up to a temperature of 400°C at moderately high fluid pressure of up to 1 kbar. The various APS mineralizations in nature occur in three zones; a fourth zone may be singled out when the enrichment of APS compounds in waste dumps, in acid mine drainage and during alum production is considered as part of the story. Zone I encompasses APS mineralization observed in metamorphic rocks of lowermost greenschist facies and igneous rocks that have undergone advanced argillic alteration with or without hydrothermal ore and non-metal mineralizations. Zone II following vertically upward in the earth crust is characterised by steam-heated, connate water- and ground water-related APS mineralization. This sort of APS mineralization forms close to the boundary between the vadose and phreatic hydraulic stockwork. The overlying zone III is confined to the topmost part of the vadose or infiltration zone. Its mineralization originated from meteoric waters and may be called supergene in the strict sense. Results obtained from the study of this kind of mineralization can directly be applied to artificial accumulation of APS compounds at the present-day surface. A combination of chemical measures such as S–O–H isotopes and REE variation together with experimentally based mineralogical data may be instrumental in the distinction of supergene and hypogene APS mineralization. This set of data may also assist in the assignment of APS mineralization either to hydrothermal magmatic or to steam-heated acid sulphate mineralizations. The K-bearing end members of the APS s.s.s. have proven to be an efficient tool to determine the age of formation of magmatic, weathering, diagenetic and alteration processes. APS minerals, however, can locally provide much more information to the origin of host and parent rocks than the rock-forming minerals themselves, which make up the host rocks of APS mineralization." @default.
W2028630457 created "2016-06-24" @default.
W2028630457 creator A5014655086 @default.
W2028630457 date "2001-03-01" @default.
W2028630457 modified "2023-10-11" @default.
W2028630457 title "The geology of aluminium phosphates and sulphates of the alunite group minerals: a review" @default.
W2028630457 cites W1479727629 @default.
W2028630457 cites W1872234488 @default.
W2028630457 cites W1894299310 @default.
W2028630457 cites W1964733635 @default.
W2028630457 cites W1966040467 @default.
W2028630457 cites W1973871973 @default.
W2028630457 cites W1981738009 @default.
W2028630457 cites W1982952195 @default.
W2028630457 cites W1984005435 @default.
W2028630457 cites W1985154339 @default.
W2028630457 cites W1985412845 @default.
W2028630457 cites W1985990292 @default.
W2028630457 cites W1990455510 @default.
W2028630457 cites W1994663214 @default.
W2028630457 cites W1996162611 @default.
W2028630457 cites W2001254765 @default.
W2028630457 cites W2002626246 @default.
W2028630457 cites W2005726506 @default.
W2028630457 cites W2009209011 @default.
W2028630457 cites W2009821564 @default.
W2028630457 cites W2010327799 @default.
W2028630457 cites W2018152130 @default.
W2028630457 cites W2018653465 @default.
W2028630457 cites W2027334880 @default.
W2028630457 cites W2028038371 @default.
W2028630457 cites W2028917031 @default.
W2028630457 cites W2029570044 @default.
W2028630457 cites W2034543802 @default.
W2028630457 cites W2035192203 @default.
W2028630457 cites W2036841295 @default.
W2028630457 cites W2038081055 @default.
W2028630457 cites W2038578983 @default.
W2028630457 cites W2039745264 @default.
W2028630457 cites W2039791126 @default.
W2028630457 cites W2040412640 @default.
W2028630457 cites W2050634215 @default.
W2028630457 cites W2055530215 @default.
W2028630457 cites W2057428924 @default.
W2028630457 cites W2061911166 @default.
W2028630457 cites W2064439615 @default.
W2028630457 cites W2067773319 @default.
W2028630457 cites W2068656861 @default.
W2028630457 cites W2075255304 @default.
W2028630457 cites W2080423790 @default.
W2028630457 cites W2081262003 @default.
W2028630457 cites W2082681775 @default.
W2028630457 cites W2086668159 @default.
W2028630457 cites W2088902710 @default.
W2028630457 cites W2092211789 @default.
W2028630457 cites W2093319651 @default.
W2028630457 cites W2095546263 @default.
W2028630457 cites W2096300807 @default.
W2028630457 cites W2096614340 @default.
W2028630457 cites W2096638055 @default.
W2028630457 cites W2096914859 @default.
W2028630457 cites W2098776744 @default.
W2028630457 cites W2101569776 @default.
W2028630457 cites W2105769874 @default.
W2028630457 cites W2109344986 @default.
W2028630457 cites W2119700412 @default.
W2028630457 cites W2122391182 @default.
W2028630457 cites W2123332463 @default.
W2028630457 cites W2124208501 @default.
W2028630457 cites W2126194343 @default.
W2028630457 cites W2133063434 @default.
W2028630457 cites W2149288621 @default.
W2028630457 cites W2160924590 @default.
W2028630457 cites W2161030782 @default.
W2028630457 cites W2164793693 @default.
W2028630457 cites W2167888210 @default.
W2028630457 cites W2168447921 @default.
W2028630457 cites W2171050848 @default.
W2028630457 cites W2321947086 @default.
W2028630457 cites W2330756480 @default.
W2028630457 cites W2497188726 @default.
W2028630457 cites W2911280765 @default.
W2028630457 cites W4230651527 @default.
W2028630457 cites W4239215438 @default.
W2028630457 cites W4300219558 @default.
W2028630457 cites W2018447911 @default.
W2028630457 doi "https://doi.org/10.1016/s0012-8252(00)00035-0" @default.
W2028630457 hasPublicationYear "2001" @default.
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