Sharyginite, Ca3TiFe2O8, A New Mineral from the Bellerberg Volcano, Germany

Sharyginite, Ca3TiFe2O8, A New Mineral from the Bellerberg Volcano, Germany

The new mineral sharyginite, Ca3TiFe2O8 (P21ma, Z = 2, a = 5.423(2) Å, b = 11.150(8) Å, c = 5.528(2) Å, V = 334.3(3) Å3), a member of the anion deficient perovskite group, was discovered in metacarbonate xenoliths in alkali basalt from the Caspar quarry, Belle...

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Main Authors: Rafał Juroszek, Hannes Krüger, Irina Galuskina, Biljana Krüger, Lidia Jeżak, Bernd Ternes, Justyna Wojdyla, Tomasz Krzykawski, Leonid Pautov, Evgeny Galuskin
Format: Article
Language:English
Published: MDPI AG 2018-07-01
Series:Minerals
Subjects:
sharyginite
new mineral
crystal structure
Raman spectroscopy
Bellerberg volcano
Germany
Online Access:http://www.mdpi.com/2075-163X/8/7/308
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spelling doaj-073ad4e5ab7a46c7b2895501dacf99eb2020-11-24T22:20:15ZengMDPI AGMinerals2075-163X2018-07-018730810.3390/min8070308min8070308Sharyginite, Ca3TiFe2O8, A New Mineral from the Bellerberg Volcano, GermanyRafał Juroszek0Hannes Krüger1Irina Galuskina2Biljana Krüger3Lidia Jeżak4Bernd Ternes5Justyna Wojdyla6Tomasz Krzykawski7Leonid Pautov8Evgeny Galuskin9Department of Geochemistry, Mineralogy and Petrography, Faculty of Earth Sciences, University of Silesia, Będzińska 60, 41-200 Sosnowiec, PolandInstitute of Mineralogy and Petrography, University of Innsbruck, Innrain 52, 6020 Innsbruck, AustriaDepartment of Geochemistry, Mineralogy and Petrography, Faculty of Earth Sciences, University of Silesia, Będzińska 60, 41-200 Sosnowiec, PolandInstitute of Mineralogy and Petrography, University of Innsbruck, Innrain 52, 6020 Innsbruck, AustriaInstitute of Geochemistry, Mineralogy and Petrology, University of Warsaw, Al. Żwirki and Wigury 93, 02-089 Warszawa, PolandDienstleistungszentrum Ländlicher Raum (DLR) Westerwald-Osteifel-Aussenstelle Mayen, Bahnhofstrasse 45, DE-56727 Mayen, GermanySwiss Light Source, Paul Scherrer Institute, 5232 Villigen, SwitzerlandDepartment of Geochemistry, Mineralogy and Petrography, Faculty of Earth Sciences, University of Silesia, Będzińska 60, 41-200 Sosnowiec, PolandFersman Mineralogical Museum RAS, Leninskiy pr, 18/2, 115162 Moscow, RussiaDepartment of Geochemistry, Mineralogy and Petrography, Faculty of Earth Sciences, University of Silesia, Będzińska 60, 41-200 Sosnowiec, PolandThe new mineral sharyginite, Ca3TiFe2O8 (P21ma, Z = 2, a = 5.423(2) Å, b = 11.150(8) Å, c = 5.528(2) Å, V = 334.3(3) Å3), a member of the anion deficient perovskite group, was discovered in metacarbonate xenoliths in alkali basalt from the Caspar quarry, Bellerberg volcano, Eifel, Germany. In the holotype specimen, sharyginite is widespread in the contact zone of xenolith with alkali basalt. Sharyginite is associated with fluorellestadite, cuspidine, brownmillerite, rondorfite, larnite and minerals of the chlormayenite-wadalite series. The mineral usually forms flat crystals up to 100 µm in length, which are formed by pinacoids {100}, {010} and {001}. Crystals are flattened on (010). Sharyginite is dark brown, opaque with a brown streak and has a sub-metallic lustre. In reflected light, it is light grey and exhibits rare yellowish-brown internal reflections. The calculated density of sharyginite is 3.943 g·cm-3. The empirical formula calculated on the basis of 8 O apfu is Ca3.00(Fe3+1.00Ti4+0.86Mn4+0.11Zr0.01Cr3+0.01Mg0.01)Σ2(Fe3+0.76Al0.20Si0.04)Σ1.00O8. The crystal structure of sharyginite, closely related to shulamitite Ca3TiFeAlO8 structure, consists of double layers of corner-sharing (Ti, Fe3+) O6 octahedra, which are separated by single layers of (Fe3+O4) tetrahedra. We suggest that sharyginite formed after perovskite at high-temperature conditions >1000°C.http://www.mdpi.com/2075-163X/8/7/308sharyginitenew mineralcrystal structureRaman spectroscopyBellerberg volcanoGermany
collection DOAJ
language English
format Article
sources DOAJ
author Rafał Juroszek
Hannes Krüger
Irina Galuskina
Biljana Krüger
Lidia Jeżak
Bernd Ternes
Justyna Wojdyla
Tomasz Krzykawski
Leonid Pautov
Evgeny Galuskin
spellingShingle Rafał Juroszek
Hannes Krüger
Irina Galuskina
Biljana Krüger
Lidia Jeżak
Bernd Ternes
Justyna Wojdyla
Tomasz Krzykawski
Leonid Pautov
Evgeny Galuskin
Sharyginite, Ca3TiFe2O8, A New Mineral from the Bellerberg Volcano, Germany
Minerals
sharyginite
new mineral
crystal structure
Raman spectroscopy
Bellerberg volcano
Germany
author_facet Rafał Juroszek
Hannes Krüger
Irina Galuskina
Biljana Krüger
Lidia Jeżak
Bernd Ternes
Justyna Wojdyla
Tomasz Krzykawski
Leonid Pautov
Evgeny Galuskin
author_sort Rafał Juroszek
title Sharyginite, Ca3TiFe2O8, A New Mineral from the Bellerberg Volcano, Germany
title_short Sharyginite, Ca3TiFe2O8, A New Mineral from the Bellerberg Volcano, Germany
title_full Sharyginite, Ca3TiFe2O8, A New Mineral from the Bellerberg Volcano, Germany
title_fullStr Sharyginite, Ca3TiFe2O8, A New Mineral from the Bellerberg Volcano, Germany
title_full_unstemmed Sharyginite, Ca3TiFe2O8, A New Mineral from the Bellerberg Volcano, Germany
title_sort sharyginite, ca3tife2o8, a new mineral from the bellerberg volcano, germany
publisher MDPI AG
series Minerals
issn 2075-163X
publishDate 2018-07-01
description The new mineral sharyginite, Ca3TiFe2O8 (P21ma, Z = 2, a = 5.423(2) Å, b = 11.150(8) Å, c = 5.528(2) Å, V = 334.3(3) Å3), a member of the anion deficient perovskite group, was discovered in metacarbonate xenoliths in alkali basalt from the Caspar quarry, Bellerberg volcano, Eifel, Germany. In the holotype specimen, sharyginite is widespread in the contact zone of xenolith with alkali basalt. Sharyginite is associated with fluorellestadite, cuspidine, brownmillerite, rondorfite, larnite and minerals of the chlormayenite-wadalite series. The mineral usually forms flat crystals up to 100 µm in length, which are formed by pinacoids {100}, {010} and {001}. Crystals are flattened on (010). Sharyginite is dark brown, opaque with a brown streak and has a sub-metallic lustre. In reflected light, it is light grey and exhibits rare yellowish-brown internal reflections. The calculated density of sharyginite is 3.943 g·cm-3. The empirical formula calculated on the basis of 8 O apfu is Ca3.00(Fe3+1.00Ti4+0.86Mn4+0.11Zr0.01Cr3+0.01Mg0.01)Σ2(Fe3+0.76Al0.20Si0.04)Σ1.00O8. The crystal structure of sharyginite, closely related to shulamitite Ca3TiFeAlO8 structure, consists of double layers of corner-sharing (Ti, Fe3+) O6 octahedra, which are separated by single layers of (Fe3+O4) tetrahedra. We suggest that sharyginite formed after perovskite at high-temperature conditions >1000°C.
topic sharyginite
new mineral
crystal structure
Raman spectroscopy
Bellerberg volcano
Germany
url http://www.mdpi.com/2075-163X/8/7/308
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