Approaches to the Low Grade Metamorphic History of the Karakaya Complex by Chlorite Mineralogy and Geochemistry

Approaches to the Low Grade Metamorphic History of the Karakaya Complex by Chlorite Mineralogy and Geochemistry

In this study, chlorite is used to investigate the diagenetic-metamorphic evolution and accurate geological history of the different units belonging to the Karakaya complex, Turkey. Primary and secondary chlorite minerals in the very low-grade metamorphic rocks display interference colors of blue an...

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Main Authors: Sema Tetiker, Hüseyin Yalçın, Ömer Bozkaya
Format: Article
Language:English
Published: MDPI AG 2015-04-01
Series:Minerals
Subjects:
petrography
XRD
major and trace elements
geological evolution
Online Access:http://www.mdpi.com/2075-163X/5/2/221
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spelling doaj-eda17d7434ac41a6bb44074bdbe618332020-11-24T21:53:01ZengMDPI AGMinerals2075-163X2015-04-015222124610.3390/min5020221min5020221Approaches to the Low Grade Metamorphic History of the Karakaya Complex by Chlorite Mineralogy and GeochemistrySema Tetiker0Hüseyin Yalçın1Ömer Bozkaya2Department of Geological Engineering, Batman University, 72100 Batman, TurkeyDepartment of Geological Engineering, Cumhuriyet University, 58140 Sivas, TurkeyDepartment of Geological Engineering, Pamukkale University, 20070 Denizli, TurkeyIn this study, chlorite is used to investigate the diagenetic-metamorphic evolution and accurate geological history of the different units belonging to the Karakaya complex, Turkey. Primary and secondary chlorite minerals in the very low-grade metamorphic rocks display interference colors of blue and brown and an appearance of optical isotropy. Chlorites are present in the matrix, pores, and/or rocks units as platy/flaky and partly radial forms. X-ray diffraction (XRD) data indicate that Mg-Fe chlorites with entirely IIb polytype (trioctahedral) exhibit a variety of compositions, such as brunsvigite-diabantite-chamosite. The major element contents and structural formulas of chlorite also suggest these were derived from both felsic and metabasic source rocks. Trace and rare earth element (REE) concentrations of chlorites increase with increasing grade of metamorphism, and these geochemical changes can be related to the tectonic structures, formational mechanics, and environments present during their generation.http://www.mdpi.com/2075-163X/5/2/221petrographyXRDmajor and trace elementsgeological evolution
collection DOAJ
language English
format Article
sources DOAJ
author Sema Tetiker
Hüseyin Yalçın
Ömer Bozkaya
spellingShingle Sema Tetiker
Hüseyin Yalçın
Ömer Bozkaya
Approaches to the Low Grade Metamorphic History of the Karakaya Complex by Chlorite Mineralogy and Geochemistry
Minerals
petrography
XRD
major and trace elements
geological evolution
author_facet Sema Tetiker
Hüseyin Yalçın
Ömer Bozkaya
author_sort Sema Tetiker
title Approaches to the Low Grade Metamorphic History of the Karakaya Complex by Chlorite Mineralogy and Geochemistry
title_short Approaches to the Low Grade Metamorphic History of the Karakaya Complex by Chlorite Mineralogy and Geochemistry
title_full Approaches to the Low Grade Metamorphic History of the Karakaya Complex by Chlorite Mineralogy and Geochemistry
title_fullStr Approaches to the Low Grade Metamorphic History of the Karakaya Complex by Chlorite Mineralogy and Geochemistry
title_full_unstemmed Approaches to the Low Grade Metamorphic History of the Karakaya Complex by Chlorite Mineralogy and Geochemistry
title_sort approaches to the low grade metamorphic history of the karakaya complex by chlorite mineralogy and geochemistry
publisher MDPI AG
series Minerals
issn 2075-163X
publishDate 2015-04-01
description In this study, chlorite is used to investigate the diagenetic-metamorphic evolution and accurate geological history of the different units belonging to the Karakaya complex, Turkey. Primary and secondary chlorite minerals in the very low-grade metamorphic rocks display interference colors of blue and brown and an appearance of optical isotropy. Chlorites are present in the matrix, pores, and/or rocks units as platy/flaky and partly radial forms. X-ray diffraction (XRD) data indicate that Mg-Fe chlorites with entirely IIb polytype (trioctahedral) exhibit a variety of compositions, such as brunsvigite-diabantite-chamosite. The major element contents and structural formulas of chlorite also suggest these were derived from both felsic and metabasic source rocks. Trace and rare earth element (REE) concentrations of chlorites increase with increasing grade of metamorphism, and these geochemical changes can be related to the tectonic structures, formational mechanics, and environments present during their generation.
topic petrography
XRD
major and trace elements
geological evolution
url http://www.mdpi.com/2075-163X/5/2/221
work_keys_str_mv AT sematetiker approachestothelowgrademetamorphichistoryofthekarakayacomplexbychloritemineralogyandgeochemistry
AT huseyinyalcın approachestothelowgrademetamorphichistoryofthekarakayacomplexbychloritemineralogyandgeochemistry
AT omerbozkaya approachestothelowgrademetamorphichistoryofthekarakayacomplexbychloritemineralogyandgeochemistry
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