Genetic aspects of barite mineralization related to rocks of the teschenite association in the Silesian Unit, Outer Western Carpathians, Czech Republic

Genetic aspects of barite mineralization related to rocks of the teschenite association in the Silesian Unit, Outer Western Carpathians, Czech Republic

Barite is a relatively uncommon phase in vein and amygdule mineralizations hosted by igneous rocks of the teschenite association in the Silesian Unit (Western Carpathians). In macroscopically observable sizes, it has been reported from 10 sites situated only in the Czech part of the Silesian Unit. M...

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Main Authors: Jirásek Jakub, Dolníček Zdeněk, Matýsek Dalibor, Urubek Tomáš
Format: Article
Language:English
Published: Earth Science Institute, Slovak Academy of Sciences, Slovakia 2017-04-01
Series:Geologica Carpathica
Subjects:
Silesian Unit
teschenite
barite
fluid inclusions
stable isotopes
Online Access:http://www.degruyter.com/view/j/geoca.2017.68.issue-2/geoca-2017-0010/geoca-2017-0010.xml?format=INT
id doaj-265801ceb95c4e0aa2b77d8b42cae037
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spelling doaj-265801ceb95c4e0aa2b77d8b42cae0372021-03-02T05:03:04ZengEarth Science Institute, Slovak Academy of Sciences, SlovakiaGeologica Carpathica1336-80522017-04-0168211912910.1515/geoca-2017-0010geoca-2017-0010Genetic aspects of barite mineralization related to rocks of the teschenite association in the Silesian Unit, Outer Western Carpathians, Czech RepublicJirásek Jakub0Dolníček Zdeněk1Matýsek Dalibor2Urubek Tomáš3Institute of Geological Engineering, Faculty of Mining and Geology, Vysoká škola báňská — Technical University of Ostrava, 17. listopadu 15/ 2172, 708 33 Ostrava-Poruba, CzechiaDepartment of Geology, Faculty of Science, Palacký University, 17. listopadu 1192/12, 771 46 Olomouc, CzechiaInstitute of Clean Technologies for Mining and Utilization of Raw Materials for Energy Use, Faculty of Mining and Geology, Vysoká škola báňská — Technical University of Ostrava, 17. listopadu 15/ 2172, 708 33 Ostrava-Poruba, Czech Republic CzechiaDepartment of Geology, Faculty of Science, Palacký University, 17. listopadu 1192/12, 771 46 Olomouc, Czech Republic CzechiaBarite is a relatively uncommon phase in vein and amygdule mineralizations hosted by igneous rocks of the teschenite association in the Silesian Unit (Western Carpathians). In macroscopically observable sizes, it has been reported from 10 sites situated only in the Czech part of the Silesian Unit. Microscopic barite produced by the hydrothermal alteration of rock matrix and also by the supergene processes is more abundant. We examined four samples of barite by mineralogical and geochemical methods. Electron microprobe analyses proved pure barites with up to 0.038 apfu Sr and without remarkable internal zonation. Fluid inclusion and sulphur isotope data suggests that multiple sources of fluid components have been involved during barite crystallization. Barite contains primary and secondary aqueous all-liquid (L) or less frequent two-phase (L+V) aqueous fluid inclusions with variable salinity (0.4-2.9 wt. % NaCl eq.) and homogenization temperatures between 77 and 152 °C. The higher-salinity fluid endmember was probably Cretaceous seawater and the lower-salinity one was probably diagenetic water derived from surrounding flysch sediments during compaction and thermal alteration of clay minerals. The δ34S values of barite samples range between -1.0 ‰ and +16.4 ‰ CDT suggesting participation of two sources of sulphate, one with a near-zero δ34S values probably derived from wall rocks and another with high δ34S values being most probably sulphate from the Cretaceous seawater. All results underline the role of externally derived fluids during post-magmatic alteration of bodies of rock of the teschenite association.http://www.degruyter.com/view/j/geoca.2017.68.issue-2/geoca-2017-0010/geoca-2017-0010.xml?format=INTSilesian Unitteschenitebaritefluid inclusionsstable isotopes
collection DOAJ
language English
format Article
sources DOAJ
author Jirásek Jakub
Dolníček Zdeněk
Matýsek Dalibor
Urubek Tomáš
spellingShingle Jirásek Jakub
Dolníček Zdeněk
Matýsek Dalibor
Urubek Tomáš
Genetic aspects of barite mineralization related to rocks of the teschenite association in the Silesian Unit, Outer Western Carpathians, Czech Republic
Geologica Carpathica
Silesian Unit
teschenite
barite
fluid inclusions
stable isotopes
author_facet Jirásek Jakub
Dolníček Zdeněk
Matýsek Dalibor
Urubek Tomáš
author_sort Jirásek Jakub
title Genetic aspects of barite mineralization related to rocks of the teschenite association in the Silesian Unit, Outer Western Carpathians, Czech Republic
title_short Genetic aspects of barite mineralization related to rocks of the teschenite association in the Silesian Unit, Outer Western Carpathians, Czech Republic
title_full Genetic aspects of barite mineralization related to rocks of the teschenite association in the Silesian Unit, Outer Western Carpathians, Czech Republic
title_fullStr Genetic aspects of barite mineralization related to rocks of the teschenite association in the Silesian Unit, Outer Western Carpathians, Czech Republic
title_full_unstemmed Genetic aspects of barite mineralization related to rocks of the teschenite association in the Silesian Unit, Outer Western Carpathians, Czech Republic
title_sort genetic aspects of barite mineralization related to rocks of the teschenite association in the silesian unit, outer western carpathians, czech republic
publisher Earth Science Institute, Slovak Academy of Sciences, Slovakia
series Geologica Carpathica
issn 1336-8052
publishDate 2017-04-01
description Barite is a relatively uncommon phase in vein and amygdule mineralizations hosted by igneous rocks of the teschenite association in the Silesian Unit (Western Carpathians). In macroscopically observable sizes, it has been reported from 10 sites situated only in the Czech part of the Silesian Unit. Microscopic barite produced by the hydrothermal alteration of rock matrix and also by the supergene processes is more abundant. We examined four samples of barite by mineralogical and geochemical methods. Electron microprobe analyses proved pure barites with up to 0.038 apfu Sr and without remarkable internal zonation. Fluid inclusion and sulphur isotope data suggests that multiple sources of fluid components have been involved during barite crystallization. Barite contains primary and secondary aqueous all-liquid (L) or less frequent two-phase (L+V) aqueous fluid inclusions with variable salinity (0.4-2.9 wt. % NaCl eq.) and homogenization temperatures between 77 and 152 °C. The higher-salinity fluid endmember was probably Cretaceous seawater and the lower-salinity one was probably diagenetic water derived from surrounding flysch sediments during compaction and thermal alteration of clay minerals. The δ34S values of barite samples range between -1.0 ‰ and +16.4 ‰ CDT suggesting participation of two sources of sulphate, one with a near-zero δ34S values probably derived from wall rocks and another with high δ34S values being most probably sulphate from the Cretaceous seawater. All results underline the role of externally derived fluids during post-magmatic alteration of bodies of rock of the teschenite association.
topic Silesian Unit
teschenite
barite
fluid inclusions
stable isotopes
url http://www.degruyter.com/view/j/geoca.2017.68.issue-2/geoca-2017-0010/geoca-2017-0010.xml?format=INT
work_keys_str_mv AT jirasekjakub geneticaspectsofbaritemineralizationrelatedtorocksofthetescheniteassociationinthesilesianunitouterwesterncarpathiansczechrepublic
AT dolnicekzdenek geneticaspectsofbaritemineralizationrelatedtorocksofthetescheniteassociationinthesilesianunitouterwesterncarpathiansczechrepublic
AT matysekdalibor geneticaspectsofbaritemineralizationrelatedtorocksofthetescheniteassociationinthesilesianunitouterwesterncarpathiansczechrepublic
AT urubektomas geneticaspectsofbaritemineralizationrelatedtorocksofthetescheniteassociationinthesilesianunitouterwesterncarpathiansczechrepublic
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