Sedimentary coppers as gemstone: a case study of copper mineralization in the alluvial sediments of the southern plain of Rafsanjan
Subject Areas :H. Zand-Moghadam 1 , Amir hossein Tahernia 2 , H. Ahmadipour 3
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Keywords: Copper mineralization, Gemstone, Pliocene-Quaternary deposits, Southern plain of Rafsanjan,
Abstract :
The Pliocene-Quaternary sediments of the southern plain of Rafsanjan (west of Kerman province), have a variety of sedimentary copper minerals which can be used as gemstones and suitable for minerals/rocks colledctioners. The most important copper identified minerals include malachite, azurite, atacamite and paratacamite. Copper mineralization in this sequence is observed in three forms: cement (in conglomerates), nodules (in sandstones and tuffaceous mudstones), and alternating parallel to cross-laminations with calcite (travertines). The first two groups have only a decorative value, but the third group has the potential for jewelry making and is therefore presented as a gemstone. The leaching of copper from porphyry copper deposits in the upstream area (related to the Dehj-Sardouyeh belt) followed by the enrichment and deposition of copper in the young deposits downstream is considered the most probable model for the copper mineralization in the studied deposits. These deposits are called as exotic copper deposits.
زهره بخش، ع. و وحدتی دانشمند، ف.، 1366. نقشه 250000/1 رفسنجان. شماره 10، سازمان زمینشناسی و اکتشافات معدنی کشور.
- شفیعی بافتی، ب.، رحمان زاده، ف.، زندمقدم، ح.، طاهری نیا، ح.، طالبی، م. و زین الدینی، ا.، 1400. گزارش اولین رخداد از کانیسازی مس نوع اگزاتیک در ایران. چهلمین گردهمایی ملی علوم زمین، تهران.
- طاهری نیا، ح.، 1399. بررسی ویژگیهای زمینشناسی و کانیشناسی سنگهای تزئینی و گوهرسنگهای منطقه رفسنجان (غرب استان کرمان) و معرفی آنها. پایاننامه کارشناسی ارشد زمینشناسی اقتصادی، دانشگاه شهید باهنر کرمان، 223.
- Aftabi, A. and Atapour, H., 2010. Alteration geochemistry of volcanic rocks around Sarcheshmeh porphyry copper deposit, Rafsanjan, Kerman, Iran: implications for re- gional exploration. Resource Geology. 61 (1), 76–90.
- Atapour, H. and Aftabi, A., 2007. The geochemistry of gossans associated with Sarcheshmeh porphyry copper deposit, Rafsanjan, Kerman, Iran: implications for exploration and the environment. Journal of Geochemical Exploration. 93, 47–65.
- Chavez, W.X., 2000. Supergene oxidation of copper deposits: zoning and distribution of copper oxide minerals. Society Economic Geologists. 41,10–21.
-Campos, E., Menzies, A.H., Hernandez, V., Sola, S., Barraza, M. and Riquelme, R., 2015. Understanding exotic-Cu mineralisation: Part I—characterization of chrysocolla. In 13th SGA Biennial meeting, Nancy, Proceedings 3,11-53.
- Dimitrijevic, M.D., Dimitrijevic, M. N. and Djordevic, M., 1971. Geological quadrangle map of rafsanjan,1/100000,Geological Survey of Iran Tehran ,sheetb 7150.
- Fernández-Mort, A., 2018. A genetic model based on evapoconcentration for sediment-hosted exotic-Cu mineralization in arid environments: the case of the El Tesoro Central copper deposit, Atacama Desert, Chile. Mineralium Deposita 53, 775-795.
- Nelson, M., Kyser, K., Clark, A. and Oates, C., 2007. Carbon isotope evidence for microbial involvement in exotic copper silicate mineralization, Huinquintipa and Mina Sur, northern Chile. Economic Geology 102(7): 1311–1320.
- Riquelme, R., Tapia, M., Campos, E., Mpodozis, C., Carretier, S., González, R., Muñoz, S., Fernández-Mort, A., Sanchez, C. and Marquardt, C., 2017. Supergene and exotic Cu mineralization occur during periods of landscape stability in the Centinela Mining District, Atacama Desert. Basin Research 30(3), 395-425.
- Mohamadi Nasab, S., Shafiei Bafti, B., Yarahmadi, M.R., Mahmoudi Maymand, M. and Kamalabadi Khorasani, J., 2022. Mineralogical Properties of the Copper Slags from the SarCheshmeh Smelter Plant, Iran, in View of Value Recovery. Minerals 12(9), 1153.
- Münchmeyer, C., 1996. Exotic deposits: products of lateral migration of supergene solutions from porphyry copper deposits. In Camus F, Sillitoe RH, Petersen R (eds) Andean Copper deposits: new Discoveries, mineralization styles and metallogeny. Society Economic Geologists. 5, 43–58.
- Safari, H.O., Bagas, L. and Shafiei Bafti, B., 2015. Structural controls on the localization of Cu deposits in the Kerman Cu metallogenic province of Iran using geoinformatic techniques. Ore Geology Reviews 67, 43–56.
- Sillitoe, R.H., 2005. Supergene oxidized and enriched porphyry copper and related deposits. Economic Geology 100th Anniversary 29, 723–768.
