Meiduk Group

Porphyry copper Group in Kerman, Iran

Names and other identifiers

Tract name Kerman (142pCu9016)
Group name Meiduk Group
Included sites Chah-Firuzeh and Meiduk deposits; Chah Messi, Darbiduye, Darbiduye silcat v., Dare Tangle, E- and W-Meiduk station, Hemashk, Kahtokarha, Lachah, Latela, N-Kamkoiye, NW-Bandovan, NW-Meiduk, Sara, SE-Chah Messi, S-Meiduk1+2, S-Silicate vein prospects
Site status Group

Geographic location

Country Iran
State or province Kerman
Geographic location 55.095, 30.412
Geologic map unit 55.095, 30.412
Nearby data

Geologic information

Deposit type Porphyry copper
Age (Ma) 12.5
Age determination method U-Pb zircon
Age range 12.5 ±0.1 Ma
Age reference McInnes and others (2005)
Minerals azurite/malachite, barite, biotite, bornite, carbonate, chalcanthite, chalcocite, chalcopyrite, chlorite, chrysocolla, chrystobalite, covellite, epidote, galena, hematite, limonite, magnetite, malachite, molybdenite, pyrite, rutile, sericite, sphalerite, tetrahedrite, turquoise, zeolite
Associated rocks basalt dike, diorite porphyry, quartz diorite porphyry, clastics, volcanics, andesite, andesite porphyry, dacite, rhyodacite, granodiorite, quartz diorite, diorite
Tectonic setting continental margin
Stratigraphic age late Miocene

Commodity and development information

Development status Producer
Major commodities Cu, Mo
Minor commodities Au
Tonnage (Mt) 325Mt
Cu grade (%) 0.52%
Mo grade (%) 0.004%
Ag grade (g/t) 0.97g/t
Contained copper 1,700,000t

Reference information

Comments This group record includes data for the Meiduk and Chah-Firuzeh deposits; Chah Messi, Darbiduye, Darbiduye silcat v., Dare Tangle, E-Meiduk station, Hemashk, Kahtokarha, Lachah, Latela, N-Kamkoiye, NW-Bandovan, NW-Meiduk, Sara, SE-Chah Messi, S-Meiduk1, S-Meiduk2, S-Silicate vein, and W-Meiduk station prospects; as such, the location information has been generalized, and the total weighted average resource data represent the two deposits in the group.
Study area name Tethys
References Aliani and others (2009); Arian and others (2011); Bazin and Hübner (1969a); Bazin and Hübner (1969b); Boomeri and others (2009); Derakhshani and Mehrabi (2009); Espanhod (1992); Hassanzadeh (1993); Honarmand and others (2011); InfoMine Inc. (2013z); Iran Geological Survey (2012a); Iran Geological Survey (2012b); Iran Geological Survey (2012e); Kirkham and Dunne (2000); Leaman and Staude (2002); McInnes and others (2005); National Iranian Copper Industries Co. (2012); Samani (1998); Shafiei and others (2009); Shafiei and Shahabpour (2008); Shahabpour (1992); Shahabpour (1999); Shahabpour (2005); Shahabpour (2007); Singer and others (2008); Taghipour and others (2008); Tangestani and Moore (2001); Tangestani and Moore (2002a); Tangestani and Moore (2002b); U.S. Geological Survey (2012)
Site reference Zürcher and others (in press)
Aliani, F., Alirezaei, A., Moradian, A., and Abbasloo, Z., 2009, Geochemistry and petrography of the Meiduk porphyry copper deposit, Kerman, Iran: Australian Journal of Basic and Applied Sciences, v. 3, p. 3786–3800. (Also available at, Mehran; Alizadeh, Hasan; and Noroozpour, Hamideh, 2011, Satellite geometry of faults and fractures and its relationship with porphyry deposits in northern parts of Dahaj-Sardoiyeh belt, south of Iran: Indian Journal of Science and Technology, v. 4, no. 10, p. 1303–1306. (Also available at
Bazin, D., and Hübner H., 1969a, Copper deposits in Iran: Iran Geological Survey Report 13, 232 p.
Bazin, Dominique, and Hübner, Helmuth, 1969b, La région cuprifère à gisements porphyriques de Kerman (Iran): Mineralium Deposita, v. 4, p. 200–212. (Also available at, Mohammad; Nakashima, Kazuo; and Lentz, D.R., 2009, The Miduk porphyry Cu deposit, Kerman, Iran—A geochemical analysis of the potassic zone including halogen element systematics related to Cu mineralization processes: Journal of GeochemicalExploration, v. 103, p. 17–29. (Also available at, R., and Mehrabi, A., 2009, Geologically constrained fuzzy mapping of porphyry copper mineralization potential, Meiduk district, Iran: Trends in Applied Sciences Research, v. 4, p. 229–240. (Also available at
Espanhod, M.R., 1992, Metallogenic consequences due to compressional stress of Cu–Mo–Au systems regarding to low-grade uranium mineralization in marginal part of ophiolite zone of central Iran: International Geological Congress, 29th, Tokyo, 1992 [Proceedings], Mineral Resources Symposia, v. A, Resource Geology Special Issue 15, p. 191–198.
Hassanzadeh, Jamshid, 1993, Metallogenic and tectono-magmatic events in the SE sector of the Cenozoic active continental margin of Iran (Shahr e Babak area, Kerman Province): Los Angeles, University of California, Ph.D. dissertation, 204 p.
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Shafiei, Behnam; Haschke, Michael; and Shahabpour, Jamshid, 2009, Recycling of orogenic arc crust triggers porphyry Cu mineralization in Kerman Cenozoic arc rocks, southeastern Iran: Mineralium Deposita, v. 44, p. 265–283. (Also available at, B., and Shahabpour, J., 2008, Gold distribution in porphyry copper deposits of Kerman region, southestern Iran: Iran, Journal of Sciences, v. 19, p. 247–260. (Also available at, J., 1992, Unroofing ""fragmentites"" as a reconnaissance exploration tool in the central Iranian porphyry copper belt: Economic Geology, v. 87, p. 1599–1606. (Also available at, J., 1999, The role of deep structures in the distribution of some major ore deposits in Iran, NE of the Zagros thrust zone: Geodynamics, v. 28, p. 237–250. (Also available at, J., 2005, Tectonic evolution of the orogenic belt in the region located between Kerman and Neyriz: Journal of Asian Earth Sciences, v. 24, p. 405–417. (Also available at, J., 2007, Island-arc affinity of the central Iranian volcanic belt: Journal of Asian Earth Sciences, v. 30, p. 652–665. (Also available at, D.A., Berger, V.I., and Moring, B.C., 2008, Porphyry copper deposits of the world—Database and grade and tonnage models, 2008: U.S. Geological Survey Open-File Report 2008-1155, [45] p. and digital data, accessed December 31, 2013, at, Nader; Aftabi, Alijan; and Mathur, Ryan, 2008, Geology and Re-Os geochronology of mineralization of the Miduk porphyry copper deposit, Iran: Resource Geology, v. 58, p. 143–160. (Also available at, M. H., and Moore, F., 2001, Porphyry copper potential mapping using the weights of evidence model in a GIS, northern Shahr e Babak, Iran: Australian Journal of Earth Sciences, v. 48, p. 695–701. (Also available at, M.H., and Moore, F., 2002a, Porphyry copper alteration mapping at the Meiduk area, Iran: International Journal of Remote Sensing, v. 23, p. 4815–4825. (Also available at, M.H., and Moore, Farid, 2002b, The use of Dempster–Shafer model and GIS in integration of geoscientific data for porphyry copper potential mapping, north of Shahr-e-Babak, Iran: International Journal of Applied Earth Observation and Geoinformation, v. 4, p. 65–74. (Also available at Geological Survey, 2012, Mineral resource data system (MRDS): U.S. Geological Survey database, accessed October 19, 2012, at