Please use this identifier to cite or link to this item: https://hdl.handle.net/11499/57563
Title: Menderes masifi'ndeki (Hacialiler/Çine-Aydin) Granat (Lal Tali) porfiroblastlarinin, Mineralojik-Jeokimyasal ve gemolojik incelenmesi
Authors: Ören, Ufuk
Koralay, Tamer
Keywords: Garnet
Gemstone
ICP-MS
Confocal raman spectroscopy
Hac & imath;aliler-& Ccedil;ine
Pelitic Rocks
Garnet
Fe
Mg
Biotite
Geothermometry
Spectroscopy
Spectra
Xrf
Ree
Publisher: Pamukkale Univ
Abstract: Ancient period naturalist Plinius referred that almandine composition Lal Stones (Granat) which had been widely used in the Hellenistic and Roman periods, were extracted from Alabanda (& Ccedil;ine) and Orthosia (Yenipazar) in Karia in Anatolia. The garnet samples, which are the subject of this study, are found in the middle -high grade, gneiss, and mica -schist in the Menderes Massif in Hacialiler (& Ccedil;ine-Aydin) region. Purplish -brown and matt garnet porphyroblasts, varying between 0.5-2 cm in size, have crystallized in dodecahedron form. Garnet minerals, display poikloblastic texture in microscopic examinations, are in a highly fractured structure and contain plenty of quartz, muscovite, and opaque mineral inclusions. In line with a non-destructive analysis technique, Confocal Raman Spectroscopy studies, it has been determined that garnets present a total of 10 different Raman vibrations, 910-912, 349 and 553-555 cm -1 strong, and are typically in almandine composition. According to the results of mineral chemistry, garnets have the chemical formula of Alm 0.72-0.87 Grs 0.07-0.19 Pyr 0.02-0.13 Sps 0.00-0.02 . In accordance with garnet -biotite geothermometer calculations, it was determined that garnets are formed at an average temperature of 565.3 +/- 20.8 degrees C and under the pressure of 6.6 kbar. It was concluded that Hacialiler garnets demonstrated depletion in terms of LIL elements (Cs, Rb, Ba, K, Sr, Pb) in the average continental crust (MCC) multi -element variation diagram. It was discovered that garnet samples demonstrated enrichment in terms of REE (& sum;REE: 192.2-212.1), (La/Sm) N ratio 2.62-2.89, (Sm/Yb) N ratio 0.31-0.38 and (Eu) /Eu*) N ratio vary between 0.41-0.44 in REE multi -element variation diagram normalized to chondrite. According to the nondestructive gemological tests, the specific gravity of garnet crystals varies between 3.33 and 3.64, and the refractive index values were found to be around 1.80-1.81. According to the L*a*b* color system, the color average of garnet crystals was determined to be as L*: 46.25 a*: 6.55 b*: 6.60 (purplish brown). As a result of mineralogical, geochemical, and gemological evaluations, it has been concluded that Hacialiler garnet samples have undergone multi -stage metamorphism and have lost their bright and transparent crystal forms through the subsequent geological processes (weathering, alteration, etc.); therefore, they do not present the characteristics of gemstones. In addition, it is thought that garnet samples may have an important potential in terms of their REE contents.
URI: https://doi.org/10.5505/pajes.2023.47598
https://hdl.handle.net/11499/57563
ISSN: 1300-7009
2147-5881
Appears in Collections:Mühendislik Fakültesi Koleksiyonu
WoS İndeksli Yayınlar Koleksiyonu / WoS Indexed Publications Collection

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