Mineralogical and geochemical characterization and implications for provenance of Roman granite columns in ancient Tripolis (Denizli, Turkey)

Roman granite columns of the monumental fountain (Nymphaeum) in Tripolis ancient city (Denizli, Western Turkey) have porphyro-phaneritic texture and are characterized by the presence of a K-feldspar megacrysts. The columns mainly consist of K-feldspar (microcline and orthoclase), quartz, plagioclase...

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Veröffentlicht in:	Arabian journal of geosciences 2021-03, Vol.14 (6), Article 420
Hauptverfasser:	Koralay, Tamer, Deniz, Kıymet, Duman, Bahadır, Kadıoğlu, Yusuf Kağan
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Sprache:	eng
Schlagworte:	Apatite Archaeology Biotite Columns (structural) Continental crust Earth and Environmental Science Earth science Earth Sciences Electron probe Electron probe microanalysis Feldspars Geochemistry Granite Historic sites Lava Magma Mica Mineralogy Minerals Original Paper Orogeny Orthoclase Plagioclase Tectonics Titanite Zircon
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description	Roman granite columns of the monumental fountain (Nymphaeum) in Tripolis ancient city (Denizli, Western Turkey) have porphyro-phaneritic texture and are characterized by the presence of a K-feldspar megacrysts. The columns mainly consist of K-feldspar (microcline and orthoclase), quartz, plagioclase, mafic minerals (biotite and amphibole), and minor amount of titanite, apatite, zircon, and opaque minerals. Electron probe microanalysis (EPMA) reveals that plagioclase is oligoclase (An 16–23 ), trioctahedral mica is ferro-biotite and siderophyllite (Mg#: 0.20–0.24), and amphibole is hastingsite (Mg#: 0.19–0.24) in composition. Calculated temperature and pressure values from amphibole–plagioclase mineral pairs are 933 to 1000 °C (average 971 ± 13.5 °C) and are 3.5 to 6.9 kbar (average 4.8 ± 0.7 kbar), respectively. Roman granite columns are mildly alkaline and characterized by metaluminous nature. In Primitive Mantle (PM), Oceanic Ridge Granite (ORG), and Continental Crust (CC) multi-element normalization diagrams, the columns show LILE enrichment relative to HFSE. Furthermore, they bear A-type parental magma characteristics that occurred in a late/post-orogenic tectonic setting. Detailed mineralogical–petrographic, mineral chemistry, geochemical, and some archeological data support the assumption that Roman granite columns have similar features to Red Aswan Granite in Egypt and were imported to Tripolis.
doi_str_mv	10.1007/s12517-021-06744-w
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subjects	Apatite Archaeology Biotite Columns (structural) Continental crust Earth and Environmental Science Earth science Earth Sciences Electron probe Electron probe microanalysis Feldspars Geochemistry Granite Historic sites Lava Magma Mica Mineralogy Minerals Original Paper Orogeny Orthoclase Plagioclase Tectonics Titanite Zircon
title	Mineralogical and geochemical characterization and implications for provenance of Roman granite columns in ancient Tripolis (Denizli, Turkey)
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