2018
DOI: 10.1515/geoca-2018-0028
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Accessory minerals and evolution of tin-bearing S-type granites in the western segment of the Gemeric Unit (Western Carpathians)

Abstract: The S-type accessory mineral assemblage of zircon, monazite-(Ce), fluorapatite and tourmaline in the cupolas of Permian granites of the Gemeric Unit underwent compositional changes and increased variability and volume due to intensive volatile flux. The extended S-type accessory mineral assemblage in the apical parts of the granite resulted in the formation of rare-metal granites from in-situ differentiation and includes abundant tourmaline, zircon, fluorapatite, monazite-(Ce), Nb–Ta–W minerals (Nb–Ta rutile, … Show more

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Cited by 24 publications
(9 citation statements)
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“…Cheralite substitution strongly prevails over the huttonite one in monazite from all these peraluminous rocks. The strong dominance of the cheralite substitution mechanism in peraluminous granites has also been stressed from Western Carpathians [49][50][51], from the Slavkovský Les area [52], from the Fichtelgebirge [53], and also for Alpine orthogneisses [54] and the strongly peraluminous and perphosphorous Belvís de Monroy pluton in the Iberian Variscan belt [55]. In contrast, Reference [56] established the huttonite substitution as dominant in both magnetite-and ilmenite-series granites from a subduction-related magmatic arc in Japan.…”
Section: Comparison With Other Areasmentioning
confidence: 93%
“…Cheralite substitution strongly prevails over the huttonite one in monazite from all these peraluminous rocks. The strong dominance of the cheralite substitution mechanism in peraluminous granites has also been stressed from Western Carpathians [49][50][51], from the Slavkovský Les area [52], from the Fichtelgebirge [53], and also for Alpine orthogneisses [54] and the strongly peraluminous and perphosphorous Belvís de Monroy pluton in the Iberian Variscan belt [55]. In contrast, Reference [56] established the huttonite substitution as dominant in both magnetite-and ilmenite-series granites from a subduction-related magmatic arc in Japan.…”
Section: Comparison With Other Areasmentioning
confidence: 93%
“…In fact, the visually obvious M-type shape of the 4 th tetrad in all these samples is unusually strong; Irber (1999) note that the effect is not usually visible in the 4 th tetrad. Clear M-type tetrad patterns are a typical feature of highly fractionated, volatile-rich granites that have undergone significant modification by hydrothermal activity (Jahn et al, 2001;Monecke et al, 2002;Broika, and Kubis, 2018).…”
Section: Rare Earth Elementsmentioning
confidence: 99%
“…The granitic rocks of the Gemeric Unit represent a distinct type of specialized (Sn-W-F), highly evolved suite with S-type affinity that differs from other granitoids occurring in the Veporic and Tatric Units of the Western Carpathian crystalline basement. They are enriched in fluorine, phosphorus and rare lithophile elements, such as Li, Rb, Cs, B, Ga, Sn, W, Nb, Ta and U (e.g., [23,[47][48][49][50][51] and others). More recent zircon U-Pb and molybdenite Re-Os isotopic dating, as well as the chemical ages of monazite, indicate emplacement of the Gemeric granites and related post-magmatic mineralization during Late Permian period.…”
Section: Genesis and Age Of U-mo Mineralizationmentioning
confidence: 99%