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Iran | |
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| [var. Sericite] Soughi, Fatemeh Hassani, Calagari, Ali Asghar, Sohrabi, Ghahraman, Sadeghi, Ramin (2023) The origin and evolution of hydrothermal fluids in the Gow-Kamar epithermal Pb-Zn-Cu (Au) occurrence, Tarom-Hashtjin metallogenic belt, Ardebil province, NW Iran. Periodico di Mineralogia , 92 (3) Italy. 335-355 |
| [var. Sericite] Fadaeian, Mohammad, Ahmad Jahangiri, Songjian Ao, Amin A. Kamali, and Wenjiao Xiao. (2022) "Geochemistry and Petrogenesis of Shoshonitic Dyke Swarm in the Northeast of Meshkinshahr, NW Iran" Minerals 12, no. 3: 309. https://doi.org/10.3390/min12030309 |
- Chaharmahal and Bakhtiari Province
| Salamab Ellahi, Somayeh, Batoul Taghipour, and Mostafa Nejadhadad. (2017) "The Role of Organic Matter in the Formation of High-Grade Al Deposits of the Dopolan Karst Type Bauxite, Iran: Mineralogy, Geochemistry, and Sulfur Isotope Data" Minerals 7, no. 6: 97. https://doi.org/10.3390/min7060097 Ellahi, Somayeh Salamab, Batoul Taghipour, Alireza Zarasvandi, Michael I. Bird, and Alireza K. Somarin. (2016) "Mineralogy, Geochemistry and Stable Isotope Studies of the Dopolan Bauxite Deposit, Zagros Mountain, Iran" Minerals 6, no. 1: 11. https://doi.org/10.3390/min6010011 |
| [var. Sericite] Zaheri–Abdehvand, N., Hassanpour, S., Rassa, I., & Rajabpour, S. (2022). Silicates chemistry as indicators of physicochemical and geothermometry conditions on porphyry ore system: A case study of the Haftcheshmeh Cu–Mo deposit, NW Iran. Ore Geology Reviews, 142, 104716. Rahnama, Z., Hassanpour, S., Lentz, D. R., & Nezafati, N. (2021). Platinum-group elements and gold distribution in ores of the Haftcheshmeh porphyry Cu-Mo-Au deposit, NW Iran. Ore Geology Reviews, 137, 104298. |
| [var. Sericite] Mollai, H., Sharma, R., and Pe-Piper, G. (2009): Ore Geology Reviews 35, 401-414. |
| [var. Illite] Abedini, Ali, and Maryam Khosravi. 2023. "REE Geochemical Characteristics of the Huri Karst-Type Bauxite Deposit, Irano–Himalayan Belt, Northwestern Iran" Minerals 13, no. 7: 926. https://doi.org/10.3390/min13070926 https://doi.org/10.3390/min13070926 |
| [var. Sericite] Fatemeh Jahangiryar, Samad Alipour, Vartan Simmonds, Alexander Tvalchrelidzeh (2022): Geochemical and fluids inclusion studies on gold-bearing quartz veins and the host andesitic rocks in the Miardan gold deposit, NW Iran. Periodico di Mineralogia 91, 89-111. |
| [var. Sericite] Mikaeili, Khadijeh, Mohammad Reza Hosseinzadeh, Mohsen Moayyed, and Sajjad Maghfouri. (2018) "The Shah-Ali-Beiglou Zn-Pb-Cu (-Ag) Deposit, Iran: An Example of Intermediate Sulfidation Epithermal Type Mineralization" Minerals 8, no. 4: 148. https://doi.org/10.3390/min8040148 |
| [var. Illite] Sadati, S. N., Yazdi, M., Mao, J., Behzadi, M., Adabi, M. H., Lingang, X., ... & Mokhtari, M. A. A. (2016). Sulfide mineral chemistry investigation of sediment-hosted stratiform copper deposits, Nahand-Ivand area, NW Iran. Ore Geology Reviews, 72, 760-776. |
| [var. Sericite] Kamali, Amin Allah, Mohsen Moayyed, Benoit M. Saumur, and Mohammad Fadaeian. (2022) "Mineralogy and Mineral Chemistry of Dioritic Dykes, Quartz Diorite Enclaves and Pyroxene of the Sungun Cu-Mo Porphyry Deposit, East Azerbaijan, Iran" Minerals 12, no. 10: 1218. https://doi.org/10.3390/min12101218 Kamali, Amin Allah, Mohsen Moayyed, Nasir Amel, Mohammad Reza Hosseinzadeh, Kourosh Mohammadiha, José Francisco Santos, and Marco Brenna. (2018) "Post-Mineralization, Cogenetic Magmatism at the Sungun Cu-Mo Porphyry Deposit (Northwest Iran): Protracted Melting and Extraction in an Arc System" Minerals 8, no. 12: 588. https://doi.org/10.3390/min8120588 Hezarkhani, A., Williams-Jones, A.E., and Gammons, C.H. (1999): Mineralium Deposita 34, 770-783. |
| [var. Sericite] Mousivand, F. (2007): N. Jahrb. Mineral. Abh. 183, 297-315. |
| [var. Sericite] Zamanian, H., Pazoki, A., Aref Alavi, S. (2008): Mineral chemistry of index minerals and their implication in the genesis of the Baba Ali magnetite skarn deposit, western Iran. Asian Journal of Chemistry 20, 556-562. |
| Nezafati, N., & Stöllner, T. (2017). Economic geology, mining archaeological and archaeometric investigations at the Veshnaveh ancient copper mine, Central Iran. Metalla, 23(2), 67-90. |
| Nezafati, N., & Stöllner, T. (2017). Economic geology, mining archaeological and archaeometric investigations at the Veshnaveh ancient copper mine, Central Iran. Metalla, 23(2), 67-90. |
| Nezafati, N., & Stöllner, T. (2017). Economic geology, mining archaeological and archaeometric investigations at the Veshnaveh ancient copper mine, Central Iran. Metalla, 23(2), 67-90. |
| [var. Sericite] Moradiani, Zahra, Ghaderi, Majid, Tajeddin, Hossein-Ali, Alfonso, Pura (2024) Genesis of the Mahour Base Metal Deposit, Iran: Constraints from Fluid Inclusions and Sulfur Isotopes. Minerals, 14 (4) doi:10.3390/min14040435 |
| [var. Illite] Econ Geol (1994) 89:1262-1278 |
- Mooteh District (Muteh District)
| [var. Sericite] Kouhestani, H., Rastad, E., & Omran, N. R. (2008). Auriferous sulfides from the Chah-Bagh gold occurrence, Muteh mining district. Journal of Sciences, Islamic Republic of Iran, 19(2), 125-136. Kouhestani, H., Rastad, E., Rashid Nezhad Omran, N.A., and Mohajel, M. (2006): Geosciences 15(60), 142-165 |
| [var. Sericite] Keshavarzi, B., Moore, F., Rastmanesh, F., & Kermani, M. (2012). Arsenic in the Muteh gold mining district, Isfahan, Iran. Environmental Earth Sciences, 67(4), 959-970. |
| Ahankoub, Maryam (2010) Mineralogy of the Ghohroud(Iran) LP/HT metamorphic rocks, EGU General Assembly 2010, held 2-7 May, 2010 in Vienna, Austria, p.1606. |
| [var. Sericite] Mousivand, F., Rastad, E., Peter, J. M., & Maghfouri, S. (2018). Metallogeny of volcanogenic massive sulfide deposits of Iran. Ore Geology Reviews, 95, 974-1007. |
| [var. Sericite] Nezafati, N., Momenzadeh, M., and Pernicka, E. (2005), In: Mao, J., and Bierlein, F.P. (eds.): Mineral Deposit Research: Meeting the Global Challenge, Vol. 1, Springer (Berlin, Heidelberg, New York), pp. 165-166 |
| [var. Phengite] Oberhänsli, R., Bousquet, R., Moinzadeh, H., Moazzen, M., & Arvin, M. (2007). The field of stability of blue jadeite: a new occurrence of jadeitite at Sorkhan, Iran, as a case study. The Canadian Mineralogist, 45(6), 1501-1509. |
| [var. Sericite] Tajeddin, H. A., Rastad, E., Yaghoubpour, A., Maghfouri, S., Peter, J. M., Goldfarb, R., & Mohajjel, M. (2019). The Barika gold-bearing Kuroko-type volcanogenic massive sulfide (VMS) deposit, Sanandaj-Sirjan zone, Iran. Ore Geology Reviews, 113, 103081. Zahra Badrzadeh, Timothy J. Barrett, Jan M. Peter, Domingo Gimeno und Mossaieb Sabzehei, et al. (2011): Geology, mineralogy, and sulfur isotope geochemistry of the Sargaz Cu–Zn volcanogenic massive sulfide deposit, Sanandaj–Sirjan Zone, Iran. Mineralium Deposita 46, 905-923. |
| [var. Sericite] Lu, Q., Sun, X., Li, D., Fu, Y., Zhou, F., Liang, Y., ... & Lao, Y. (2022). Fluid inclusion microthermometry and CHO-He-Ar isotopes of the Zartorosht gold deposit, SE Iran: Implications for ore-fluid nature and metallogenesis. Ore Geology Reviews, 140, 104600. Aliyari, F. and Rastad, E. (2014), Alteration Geochemistry and Stable Isotope Insights Into Orogenic Gold Mineralization at the Zartorosht Deposit, Southeastern Iran. Acta Geologica Sinica, 88: 716–717. Rastghou Moghadam, G.R., Rastad, E., Rashid Nezhad Omran, N.A., and Mohajel, M. (2008): Geosciences 17(68), 108-129 |
| [var. Sericite] Singer, D.A., Berger, V.I., Moring, B.C. (2008) Porphyry copper deposits of the world: Database and grade and tonnage models, 2008. Open-File Report 2008-1155 |
| [var. Illite] Altenberger, Florian, Johann G. Raith, Ronald J. Bakker, and Alireza Zarasvandi. "The Chah-Mesi epithermal Cu-Pb-Zn-(Ag-Au) deposit and its link to the Meiduk porphyry copper deposit, SE Iran: Evidence from sulfosalt chemistry and fluid inclusions." Ore Geology Reviews (2022): 104732. |
| [var. Sericite] Singer, D.A., Berger, V.I., Moring, B.C. (2008) Porphyry copper deposits of the world: Database and grade and tonnage models, 2008. Open-File Report 2008-1155 Taghipour, N., Aftabi, A., & Mathur, R. (2008). Geology and Re‐Os Geochronology of Mineralization of the Miduk Porphyry Copper Deposit, Iran. Resource Geology, 58(2), 143-160. |
| [var. Sericite] Mousivand, F., Rastad, E., Peter, J. M., & Maghfouri, S. (2018). Metallogeny of volcanogenic massive sulfide deposits of Iran. Ore Geology Reviews, 95, 974-1007. |
| [var. Sericite] Mousivand, F., Rastad, E., Peter, J. M., & Maghfouri, S. (2018). Metallogeny of volcanogenic massive sulfide deposits of Iran. Ore Geology Reviews, 95, 974-1007. |
| [var. Sericite] Derakhshani, R., and Abdolzadeh, M. (2009): Journal of Applied Sciences 9(9), 1628-1646 |
| [var. Sericite] Khorasanipour, M. (2015). Environmental mineralogy of Cu-porphyry mine tailings, a case study of semi-arid climate conditions, Sarcheshmeh mine, SE Iran. Journal of Geochemical Exploration, 153, 40-52. Singer, D.A., Berger, V.I., Moring, B.C. (2008) Porphyry copper deposits of the world: Database and grade and tonnage models, 2008. Open-File Report 2008-1155 K. J. Henley (1970) Cupriferous Sericite from the Sar Cheshmeh Porphyry Copper Ore, Kerman Province, Iran. Mineralogical Magazine 37:945-947. |
| [var. Sericite] Madani, N., Maleki, M., & Soltani-Mohammadi, S. (2022). Geostatistical modeling of heterogeneous geo-clusters in a copper deposit integrated with multinomial logistic regression: An exercise on resource estimation. Ore Geology Reviews, 105132. |
| [var. Sericite] Tajeddin, H., & Mohajjel, M. (2018). Geology, mineralogy and fluid inclusion studies of the Abdossamadi barite deposit, Northeast Marivan. Scientific Quarterly Journal Geosciences 38:97-108 (in Farsi) |
| Mirza, T. A., & Rashid, S. G. (2018). Mineralogy, Fluid inclusions and stable isotopes study constraints on genesis of sulfide ore mineral, Qaladiza area Qandil Series, Iraqi Kurdistan Region. Arabian Journal of Geosciences, 11(7), 146. |
| Daneshvar, Narges, Hossein Azizi, Yoshihiro Asahara, Motohiro Tsuboi, Masayo Minami, and Yousif O. Mohammad (2021) "Geochemistry and Genesis of Beryl Crystals in the LCT Pegmatite Type, Ebrahim-Attar Mountain, Western Iran" Minerals 11, no. 7: 717. https://doi.org/10.3390/min11070717 |
| [var. Sericite] Heydari, M., Rastad, E., Mohajel, M., and Shamsa, M.J. (2006): Geosciences 15(58), 18-37 |
| [var. Sericite] Aliyari, F., Rastad, E., Mohajjel, M., and Arehart, G.B. (2009): Ore Geology Reviews (accepted) |
| [var. Sericite] Mehrabi, B., Ghasemi Siani, M., & Fazeli, T. (2021). Fluid inclusions, mineralogy and mineral chemistry of the porphyry-epithermal Sari Gunay epithermal ore deposit-the Kurdistan province. Journal Of Economic Geology, 12(4), 509-530. |
| [var. Sericite] Asl, S. M., Jafari, M., Sahamiyeh, R. Z., & Shahrokhi, V. (2015). Geology, geochemistry, sulfur isotope composition, and fluid inclusion data of Farsesh barite deposit, Lorestan Province, Iran. Arabian Journal of Geosciences, 8(9), 7125-7139. |
| Masoudi, F., and Yardley, B.W.D. (2005): Journal of Sciences, Islamic Republic of Iran 16(1), 43-53 |
| Masoudi, F., and Yardley, B.W.D. (2005): Journal of Sciences, Islamic Republic of Iran 16(1), 43-53. |
| [var. Sericite] Singer, D.A., Berger, V.I., Moring, B.C. (2008) Porphyry copper deposits of the world: Database and grade and tonnage models, 2008. Open-File Report 2008-1155 |
| Ghadimi, F., & Ghomi, M. (2013). Geochemical and sedimentary changes of the Mighan Playa in Arak, Iran. Iran J Earth Sci, 5, 25-32. |
| [var. Sericite] Harouni, Pouya Asadi, Haroni, Hooshang Asadi, Carranza, Emmanuel John M., Asghari, Omid, Mirmohammadi, Mirsaleh, Abedi, Maysam (2024) A cell-based association data integration method for locating potential drilling targets: A case study at the Dalli Cu–Au porphyry deposit in Iran. Ore Geology Reviews, 165. 105859 doi:10.1016/j.oregeorev.2023.105859 https://mrdata.usgs.gov/sir20105090z/show-sir20105090z.php?id=9255 |
| Mahdavi, G. , Khakzad, A. and Lotfi, M. (2016) Conditions of Ore-Mineralization and Geochemical Correlation of Rare-Elements at the Robat Pb-Zn Deposit, West of Khomein, Central Iran. Open Journal of Geology, 6, 1118-1136. doi: 10.4236/ojg.2016.69083 |
| [var. Illite] Fazli, N., Ghaderi, M., Movahednia, M., Li, J. W., Lentz, D. R., & Yan, S. (2022). Geology and genesis of the North Narbaghi Cu-Ag deposit in the Urumieh-Dokhtar magmatic arc, Iran: Fluid inclusion and stable isotope constraints. Ore Geology Reviews, 144, 104801. |
| [var. Sericite] Nezafatis, N. (2006): Au-Sn-W-Cu Mineralization in the Astaneh-Sarband Area, West Central Iran. PhD thesis, University of Tübingen (Germany), 116 pp. |
| [var. Sericite] Nezafatis, N. (2006): Au-Sn-W-Cu Mineralization in the Astaneh-Sarband Area, West Central Iran. PhD thesis, University of Tübingen (Germany), 116 pp. |
| [var. Sericite] Nezafatis, N. (2006): Au-Sn-W-Cu Mineralization in the Astaneh-Sarband Area, West Central Iran. PhD thesis, University of Tübingen (Germany), 116 pp. |
| [var. Sericite] Mousivand, F., Rastad, E., Peter, J. M., & Maghfouri, S. (2018). Metallogeny of volcanogenic massive sulfide deposits of Iran. Ore Geology Reviews, 95, 974-1007. |
| [var. Sericite] Maghfouri, S., Rastad, E., Mousivand, F., Lin, Y., & Zaw, K. (2016) Geology, ore facies and sulfur isotopes geochemistry of the Nudeh Besshi-type volcanogenic massive sulfide deposit, southwest Sabzevar basin, Iran. Journal of Asian Earth Sciences, 125, 1-21. |
- Sistan and Baluchestan Province
| Ali Sholeh, Ebrahim Rastad, David Huston, J. Bruce Gemmell and Ryan D. Taylor (2016): The Chahnaly Low-Sulfidation Epithermal Gold Deposit, Western Makran Volcanic Arc, Southeast Iran. Economic Geology 111, 619-639. |
| [var. Sericite] Eshraghi, H., Rastad, E., Emami, M.H., and Asgari, A. (2008): Geosciences 18(69), 2-19 |
| [var. Sericite] Raeisi, Davood, Saeid Hajsadeghi, Elham Hosseinzadehsabeti, Shahrouz Babazadeh, David R. Lentz, and M. Santosh. (2023) "Exploration Targeting in the Shadan Porphyry Gold–Copper Deposit, Lut Block, Iran: Analysis of Spatial Distribution of Sheeted Veins and Lithogeochemical Data" Minerals 13, no. 4: 471. https://doi.org/10.3390/min13040471 |
| [var. Sericite] Pourkaseb, H., Zarasvandi, A., Adelpour, M., & Hoseini, M. (2017) Tectono-Magmatic Setting of the Divar Deposit, 2 Eastern Iran: Evidences for VMS Mineralzation 3. |
| [var. Illite] Kouhestani, H., Mokhtari, M. A. A., Qin, K., & Zhang, X. (2020). Genesis of the Abbasabad epithermal base metal deposit, NW Iran: Evidences from ore geology, fluid inclusion and O–S isotopes. Ore Geology Reviews, 126, 103752. |
| [var. Illite] Abedini, Ali, Khosravi, Maryam (2024) Geochemical Characteristics of Aluminum-Bearing Iron Ores: A Case Study from the Kolijan Karst-Type Bauxite Deposit, Northwestern Iran. Minerals, 14 (2) doi:10.3390/min14020151 |
| [var. Sericite] Shojaeddin Niroomand, Richard J. Goldfarb, Farid Moore, Mohammad Mohajjel und Erin E. Marsh (2011): The Kharapeh orogenic gold deposit: geological, structural, and geochemical controls on epizonal ore formation in West Azerbaijan Province, Northwestern Iran. Mineralium Deposita 46, 409-428. |
| [var. Sericite] Mousivand, F., Rastad, E., Peter, J. M., & Maghfouri, S. (2018). Metallogeny of volcanogenic massive sulfide deposits of Iran. Ore Geology Reviews, 95, 974-1007. |
| [var. Illite] Daliran, F. (2008): Mineralium Deposita 43, 383-404. |
| Ali Abedini, Ali Asghar Calagari (2016): Geochemical characteristics of the Arabshah kaolin deposit, Takab geothermal field, NW Iran. Arabian Journal of Geosciences 9, 548. |
| [var. Sericite] Asadi, H.H., Voncken, J.H.L, Kühnel, R.A., and Hale, M. (2000): Mineralium Deposita 35, 656-671. Mehrabi, B., Yardley, B.W.D., and Cann, J.R. (1999): Mineralium Deposita 34, 673-696. |
| [var. Sericite] Heidarian, Hassan, David R. Lentz, Saeed Alirezaei, Christopher R. M. McFarlane, and Sima Peighambari. (2018) "Multiple Stage Ore Formation in the Chadormalu Iron Deposit, Bafq Metallogenic Province, Central Iran: Evidence from BSE Imaging and Apatite EPMA and LA-ICP-MS U-Pb Geochronology" Minerals 8, no. 3: 87. https://doi.org/10.3390/min8030087 |
| [var. Sericite] Sepidbar, F., Ghorbani, G., Simon, A. C., Ma, J., Palin, R. M., & Homam, S. M. (2021). Formation of the Chah-Gaz iron oxide-apatite ore (IOA) deposit, Bafq District, Iran: Constraints from halogens, trace element concentrations, and Sr-Nd isotopes of fluorapatite. Ore Geology Reviews, 104599. |
| [var. Sericite] Iranmanesh, J., Rahmani, H., & Raziani, S. (2018). Geology, Mineralogy and Petrography of Rocks with Radioactive Element Mineralization in Anomaly 6 of the Khoshumi Area, Islamic Republic of Iran (No. IAEA-CN--261). |
| [var. Sericite] Abdorrahman Rajabi, Ebrahim Rastad, Carles Canet, Pura Alfonso (2015): The early Cambrian Chahmir shale-hosted Zn–Pb deposit, Central Iran: an example of vent-proximal SEDEX mineralization. Mineralium Deposita 50, 571-590. |
| USGS database |
| [var. Sericite] Singer, D.A., Berger, V.I., Moring, B.C. (2008) Porphyry copper deposits of the world: Database and grade and tonnage models, 2008. Open-File Report 2008-1155 Taghipour, B., & Noorbehesht, I. (2007, August). The occurrences of turquoise in advanced argillic alteration of Darreh-Zerresk and Ali-Abad porphyry copper deposits, Taft-Yazd Province, Central Iran. In Geochimica et Cosmochimica Acta (Vol. 71, No. 15, pp. A992-A992). |
| [var. Sericite] Taghipour, B., & Noorbehesht, I. (2007, August). The occurrences of turquoise in advanced argillic alteration of Darreh-Zerresk and Ali-Abad porphyry copper deposits, Taft-Yazd Province, Central Iran. In Geochimica et Cosmochimica Acta (Vol. 71, No. 15, pp. A992-A992). |
| [var. Sericite] Mehrabi, B., Siani, M. G., Goldfarb, R., Azizi, H., Ganerod, M., & Marsh, E. E. (2016). Mineral assemblages, fluid evolution, and genesis of polymetallic epithermal veins, Glojeh district, NW Iran. Ore Geology Reviews, 78, 41-57. |
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| [var. Sericite] Asadi, H. H., & Hale, M. (2001). A predictive GIS model for mapping potential gold and base metal mineralization in Takab area, Iran. Computers & Geosciences, 27(8), 901-912. |
| Gilg, H. A., Boni, M., Balassone, G., Allen, C. R., Banks, D., Moore, F. (2006): Mineralium Deposita 41, 1-16. |
| [var. Illite] Ghasemi Siani, Majid, Mehrabi, Behzad, Nazarian, Mahya, Lotfi, Mohammad, Corfu, Fernando (2022) Geology and genesis of the Chomalu polymetallic deposit, NW Iran. Ore Geology Reviews, 143. 104763 doi:10.1016/j.oregeorev.2022.104763 |