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Garnet-vesuvianite equilibrium in rodingites from Dobšiná (Western Carpathians)

  1. NázovGarnet-vesuvianite equilibrium in rodingites from Dobšiná (Western Carpathians)
    Aut.údajeJuraj Butek, Ján Spišiak, Stanislava Milovská
    Autor Butek Juraj 1993- (75%) UMBFP01 - Katedra geografie a geológie
    Spoluautori Spišiak Ján 1953- (20%) UMBFP01 - Katedra geografie a geológie
    Milovská Stanislava (5%)
    Zdroj.dok. Minerals : international, peer-reviewed, open access journal of natural mineral systems, mineral resources, mining, and mineral processing. Vol. 11, no. 2 (2021), pp. [1-16]. - Basel : Multidisciplinary Digital Publishing Institute, 2021
    Kľúč.slová minerály - minerals   granáty (minerály) - garnets (minerals)   chemické kompetencie  
    Heslá geogr. Dobšiná
    Form.deskr.články - journal articles
    Jazyk dok.angličtina
    KrajinaŠvajčiarsko
    AnotáciaIntensively metasomatized rocks from serpentinized ultramafic tectonic fragments in Dobšiná, Western Carpathians, consist of typical rodingite mineral association: hydrated garnet, vesuvianite, diopside and clinochlore. Electron microprobe analysis (EMPA) and Micro-Raman analyses of the main minerals evidence complex mineralogical evolution and variable mineral chemistry. Garnet solid solution is dominated by grossular-andradite series, which demonstrates a significant degree of hydration, mainly for grossular rich garnet cores. Garnet is locally enriched in TiO2 (up to 13 wt%), possibly indicating a chemical relic of a Ti-oxide mineral. Younger, andradite-richer garnet rims demonstrate a low degree of hydration, suggesting a harder incorporation of an (OH)− anion into its crystal structure. Garnet chemical variations display an ideal negative correlation between Al and (Fe3+ + Ti). The most recent mineral phase is represented by euhedral vesuvianite (± chlorite), which crystallizes at the expense of the garnet solid solution. This reaction shows a well-equilibrated character and indicates a high extent of rodingitization process. Chlorite thermometry models suggest an average temperature of late rodingite (trans) formation of about 265 °C.
    URLLink na zdrojový dokument
    Kategória publikačnej činnosti ADC
    Číslo archívnej kópie51200
    Katal.org.BB301 - Univerzitná knižnica Univerzity Mateja Bela v Banskej Bystrici
    Báza dátxpca - PUBLIKAČNÁ ČINNOSŤ
    OdkazyPERIODIKÁ-Súborný záznam periodika
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