CR-BOHATÉ SPINELY Z ULTRAMAFICKÝCH HORNIN MOLDANUBIKA

ČOPJAKOVÁ, Renata, Radek ŠKODA and Jaroslava PERTOLDOVÁ. CR-BOHATÉ SPINELY Z ULTRAMAFICKÝCH HORNIN MOLDANUBIKA (CR-RICH SPINELS FROM MOLDANUBIAN ULTRAMAFIC ROCKS). Acta Mus. Moraviae, Sci. geol. Brno, 2005, LXXX, No 3, p. 87-96. ISSN 1211-8796.

Basic information

Original name

CR-BOHATÉ SPINELY Z ULTRAMAFICKÝCH HORNIN MOLDANUBIKA

Name in Czech

CR-BOHATÉ SPINELY Z ULTRAMAFICKÝCH HORNIN MOLDANUBIKA

Name (in English)

CR-RICH SPINELS FROM MOLDANUBIAN ULTRAMAFIC ROCKS

Authors

ČOPJAKOVÁ, Renata (203 Czech Republic, guarantor), Radek ŠKODA (203 Czech Republic) and Jaroslava PERTOLDOVÁ (203 Czech Republic)

Edition

Acta Mus. Moraviae, Sci. geol. Brno, 2005, 1211-8796

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Other information

Language

Czech

Type of outcome

Článek v odborném periodiku

Field of Study

10500 1.5. Earth and related environmental sciences

Country of publisher

Czech Republic

Confidentiality degree

není předmětem státního či obchodního tajemství

Organization unit

Faculty of Science

Keywords in English

Cr-spinels; peridotites; Moldanubian Zone; Bohemian Massif; Czech Republic

Tags

Bohemian massif, Cr-spinels, Czech Republic, Moldanubian Zone, peridotites

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Abstract

V originále

Cr-rich spinel is a common minor to accessory mineral in the Moldanubian spinel and garnet peridotites. Recently, Cr-rich spinels were found in the ultramafic tremolite rock near Nová Pec. Primary minerals of spinel group (MSG minerals of spinel group) from Moldanubian ultramafic rocks form grains disseminated in the rock, banded segregations or massive layers. Two principal compositional types of MSG from spinel peridotites have been identified: i) primary and ii) secondary. In general, the primary MSG exhibit a wide range of Cr# (0.15-0.87) and Mg# (0.35-0.79) with negative correlation between these parameters. They have characteristically low Fe2O3, TiO2, ZnO and MnO contents. MSG from dunites have higher Cr# than those from harzburgites and lherzolithes. The chemistry of primary MSG is controlled by the bulk rock composition and modal ratio of MSG and silicates in the rock. Primary Cr- spinels remain unaltered, occasionally with magnetite coatings formed during the serpentinization. Al-rich spinels are partly replaced by Cr-rich chlorite and mica. Secondary MSG were formed from primary ones by substitution Fe3+ (Cr3+, Al3+)-1 and (Fe2+, Zn2+,Ni2+,Mn2+)Mg2+-1 in peridotites during variscan metamorphism. Secondary MSG correspond to Fe3+-rich chromite and Cr-rich magnetite, usually with Cr-low magnetite rim. MSG from garnet peridotites have similar chemistry to primary MSG from spinel peridotites. Locally, Cr-poor spinels (Cr#<0.1) are found in kelyphites after garnet. MSG from tremolite rock exhibit the features of chromites metamorphosed under relatively low fO2. They are Cr-rich, Mg-low, with low Fe2O3, and elevated ZnO and MnO contents.

In English

Cr-rich spinel is a common minor to accessory mineral in the Moldanubian spinel and garnet peridotites. Recently, Cr-rich spinels were found in the ultramafic tremolite rock near Nová Pec. Primary minerals of spinel group (MSG minerals of spinel group) from Moldanubian ultramafic rocks form grains disseminated in the rock, banded segregations or massive layers. Two principal compositional types of MSG from spinel peridotites have been identified: i) primary and ii) secondary. In general, the primary MSG exhibit a wide range of Cr# (0.15-0.87) and Mg# (0.35-0.79) with negative correlation between these parameters. They have characteristically low Fe2O3, TiO2, ZnO and MnO contents. MSG from dunites have higher Cr# than those from harzburgites and lherzolithes. The chemistry of primary MSG is controlled by the bulk rock composition and modal ratio of MSG and silicates in the rock. Primary Cr- spinels remain unaltered, occasionally with magnetite coatings formed during the serpentinization. Al-rich spinels are partly replaced by Cr-rich chlorite and mica. Secondary MSG were formed from primary ones by substitution Fe3+ (Cr3+, Al3+)-1 and (Fe2+, Zn2+,Ni2+,Mn2+)Mg2+-1 in peridotites during variscan metamorphism. Secondary MSG correspond to Fe3+-rich chromite and Cr-rich magnetite, usually with Cr-low magnetite rim. MSG from garnet peridotites have similar chemistry to primary MSG from spinel peridotites. Locally, Cr-poor spinels (Cr#<0.1) are found in kelyphites after garnet. MSG from tremolite rock exhibit the features of chromites metamorphosed under relatively low fO2. They are Cr-rich, Mg-low, with low Fe2O3, and elevated ZnO and MnO contents.