Investigation on the physical and chemical conditions of the formation of hexagonal colored quartz crystals in Qohrud area based on petrographic evidence and fluid and solid inclusion studies

Rezapour, M. R.; Simmonds, V.; Moazzen, M.; Hajialioghli, R.

doi:10.22071/gsj.2019.88144

Document Type : Original Research Paper

Authors

¹ M.Sc. of geochemistry, Department of Earth Sciences, University of Tabriz, Tabriz, Iran

² Associate Professor, Research Institute for Fundamental Sciences, University of Tabriz, Tabriz, Iran

³ Professor, Department of Earth Sciences, University of Tabriz, Tabriz, Iran

⁴ Associate Professor, Department of Earth Sciences, University of Tabriz, Tabriz, Iran

https://doi.org/10.22071/gsj.2019.88144

Abstract

The Qohrud granitoid body of Miocene age is located 40 km SW Kashan, ranging in composition from granite through granodiorite to tonalite. Hydrothermal activities following the magma intrusion have brought about formation of various coarse automorphic and colored quartz crystals within the fractures and cavities of different lithologies. The quartz crystal varieties include transparent, semi-transparent, pale green, yellow and black crystals, as well as those with smoky and reddish brown roots and also crystals containing tiny acicular rutile inclusions. Mineral chemistry, as well as fluid and solid inclusion studies on the colored and automorphic quartz crystals indicate that various physical and chemical factors, such as temperature, pressure, magma and host rock compositions, hydrothermal fluids and the associated alterations, as well as pH and Eh were involved in the formation of these automorphic colored crystals. The solid inclusions within these automorphic quartz crystals might have formed in two ways: 1) introduction of the necessary elements for the formation of quartz and the solid inclusions by the fluids and then, entrapment of these inclusions within the growth layers of quartz crystals; 2) direct introduction of very fine mineral particles within the growth layers of quartz, leading to occurrence of various colored crystals. Smoky crystals can be formed by the replacement of Si by Al and also by the presence of U and Th within them. The reddish color of quartz crystals was recognized as the result of the presence of fine rutile needles. Automorphic black-colored quartz crystals are formed at oxidant and almost high pH conditions by initial precipitation of magnetite and then, manganese oxides at the outermost growth layers. The green quartz crystals have been resulted from chloritic and epidotic alterations within the host and neighboring rocks.

Keywords

20.1001.1.10237429.1398.28.111.11.7

References

References

Bodnar, R. J. and Vityk, M. O., 1994- Short Course IMA: Fluid inclusions in minerals, methods and applications. p. 117- 130.

Deer, W. A., Howie, R. A. and Zussman, J., 2013- An introduction to the rock forming minerals. Longman, p. 496- 502.

Dibble, H. L., 2002- Quartz: An introduction to crystalline quartz. NY, USA, 100 p.

Fouriner, R. O. and Rowe, J. J., 1966- Estimation of underground temperature from silica content of water from hot springs and wet-steam wells. American Journal of Science, V. 264, p. 685- 697.

Guilbert, J. M. and Park, Jr. C. F.,1997- Geology of ore deposits. Freaman and Company, New York, 985 p.

Heber, L. B. and Rossman, G. R., 2008- Greenish quartz from the Thunder Bay Amethyst Mine Panorama, Thunder Bay, Ontario, Canada. The Canadian Mineralogist, V. 46, p. 61- 74.

Howard, M. J., 2008- Arkansas quartz crystals. Arkansas Geological Survey, Brochure Series 001.

Hurlbut, C. S. and Kammerling, R. C., 1991- Gemology. John Wiley and Sons, NY, 371 p.

Klein, C. and Hurberbut, C. S. Jr., 1985- The manual of mineralogy. 20^th ed., Johan Wiley and Sons, 681 p.

Kurt, N. and Betty, E. P., 1977- A unique green quartz. American Mineralogist, V. 62, p. 582- 590.

Maneta, V. and Voudouris, P., 2010- Quartz megacrysts in Greece: mineralogy and environment of formation. Bulletin of the Geological Society of Greece, Proceedings of the 12th International Congress Patras.

Maynard, J. B., 1983- Geochemistry of sedimentary ore deposits. Springer- Verlag, 305 p.

Rao, P. S., John, A., Weil, J. A. and Williams, J. A. S., 1989- EPR investigation of Carbonaceous natural quartz single crystals. The Canadian Mineralogist, V. 27, p. 219-224.

Rykart, R., 1995- Quartz-Monographie. Ott Verlag Thun, 461 p.

Sazaki, K., Tanaike, O. and Konno, H., 1998- Distinction of Jarosite-group compounds by Raman spectroscopy. The Canadian Mineralogist, V. 36, p. 1225- 1235.

Shepherd, T. J., Rankin, A. H. and Alderton, D. H., 1985- A practical guide to fluid inclusion studies. Blackie and Son, 239 p

Scientific Quarterly Journal of Geosciences

Investigation on the physical and chemical conditions of the formation of hexagonal colored quartz crystals in Qohrud area based on petrographic evidence and fluid and solid inclusion studies

References

References

Volume 28, Issue 111
Volume 28, Issue 111, spring 2019
May 2019
Pages 95-104

Investigation on the physical and chemical conditions of the formation of hexagonal colored quartz crystals in Qohrud area based on petrographic evidence and fluid and solid inclusion studies

References

References

Volume 28, Issue 111Volume 28, Issue 111, spring 2019May 2019Pages 95-104

Volume 28, Issue 111
Volume 28, Issue 111, spring 2019
May 2019
Pages 95-104