ابولی پور، م.، راستاد، ا.، رشید نژاد، ن.، 1394، کانهزایی مس چینهکران نوع مانتو در آندزیت پورفیر پیروبیتومندارکشکوییه رفسنجان، زیرپهنه دهج-ساردوییه، فصلنامه علوم زمین، بهار 1394، سال بیست و چهارم، شماره 95، ص 123-144. .
https://doi.org/10.22071/gsj.2015.42418
اعلمینیا، ز.، رحمتی، ز.، عزیزی، ح.، 1399، خاستگاه کانسار اسکارن آهن دوروجین (شمال خاور اصفهان): شواهد کانیشناسی و میانبارهای سیال، فصلنامه علوم زمین، بهار 1399، سال بیست و نهم، شماره 115، ص 3-16. .
https://doi.org/10.22071/gsj.2019.144085.1522
بحرودی، ع.، فنودی، م.، 1382، نقشه زمین شناسی شهراب، مقیاس 1:100000، سازمان زمین شناسی و اکتشافات معدنی کشور.
براتی، م.، استادحسینی، ا.، افضل، پ.، لی، ا.، 1402، سنگنگاری، زمینشیمی، کانیشناسی و ارزیابی نوع کانهزایی مس (نقره) در کانسار رحیمآباد، جنوب باختری اردسـتان، پترولوژی، زمستان 1402، سال چهاردهم، شماره 56، ص 147-176..doi:
10.22108/ijp.2024.140522.1319
خادمیان، ف.، اعلمینیا، ز.، قاسمی، ع. و ندیمی، ع.ر.، 1401، پترولوژی، ژئوشیمی عناصر کمیاب و کمیاب خاکی و زمینساخت سنگهای آتشفشانی بازیک- حدواسط شمال باختر نائین، اصفهان. پترولوژی، زمستان 1401، سال سیزدهم، شماره 52، ص 1 تا 34.. doi:
10.22108/IJP.2023.134625.1285
خادمیان، ف.، اعلمینیا، ز.، ندیمی، ع.ر.، قاسمی، ع. و شریفی، م.، 1402، بررسی تحولات ماگمایی سنگهای آتشفشانی جنوب شهراب (شمالباختر نائین) با تاکید بر نقش آلایش پوستهای. یافتههای نوین زمینشناسی کاربردی، (در نوبت چاپ). .
doi: 10.22084/NFAG.2024.28939.1604
خلجی، ز.، 1392، بررسی ژئوشیمی و پیدایش اکتشاف در رخداد سنگ شورهستان (جنوب اردستان). پایان نامه کارشناسی ارشد، دانشگاه اصفهان، 114 ص.
صالحی، ل.، رساء، ا.، علیرضایی، س. و کاظمی مهرنیا، ا.، 1394، کانسار معدن بزرگ با میزبان آتشفشانی، نمونهای از کانسارهای مس نوع مانتو، خاور شاهرود، فصلنامه علوم زمین، زمستان 1394، سال بیست و پنجم، شماره 98، ص 93-104.
https://doi.org/10.22071/gsj.2016.41166.
کنعانیان، ع.، حمزه ای، ز.، سرجوقیان، ف. و احمدیان، ج.، 1393، منشأ و جایگاه تکتونیکی سنگهای گرانیتی و دایکهای دلریتی توده نفوذی نصرند جنوب شرق اردستان، پترولوژی، بهار ۱۳۹۳، سال پنجم، شماره ۱۷، ص ۱۰۳-۱۱۸.
معینیفر، س.، طباطبایی، س.ح. و اسدی هارونی، ه.، 1390، مطالعات لیتوژئوشیمیایی اندیس مس پورفیری زفره. اولین همایش ملی مس، دانشگاه شهید باهنر کرمان، کرمان، ایران.
Abolipour, M., Rastad, E., Rashidnejad, N., 2015. Manto-type copper mineralization in pyrobitumen-bearing porphyritic andesite, Kashkouieh district of Rafsanjan, Dehaj-Sardoiye subzone, Scientific Quarterly Journal of Geosciences, 24 (95), 123-144. https://doi.org/10.22071/gsj.2015.42418.
(in Persian).
Agard, P., Omrani, J., Jolivet, L., Whitechurch, H., Vrielynck, B., Spakman, W., Monie, P., Meyer, B., and Wortel, R., 2011. Zagros orogeny: a subduction-dominated process, Geological Magazine, 148, 692e725. doi: 10.1017/ S001675681100046X.
Alaminia, Z., Rahmati, Z., and Azizi, H., 2020. Origin of the Dorojin iron skarn deposit, NE Isfahan: mineralogy and fluid inclusions evidences, Scientific Quarterly Journal of Geosciences, 29 (115), 3-16. https://doi.org/10.22071/gsj.2019.144085.1522. (in Persian).
Aminoroayaei Yamini, M., Futti, F., Haschke, M., Ahmadiam, J., and Murata, M., 2016. Synorogenic copper smineralisation during the Alpine-Himalayan orogeny in the Zafarghand copper exploration district, Central Iran: Petrography, geochemistry and alteration thermometry, Geological Journal, 25(2), 263–281. doi:
10.1002/gj.2755.
Asadi, S.S., Zavareh, M., Shokri, V.H., and Shahinrokhsar, P., 2014. Efect of foliar supplements of nitrogen and potassium on yield and yield components of hybrid rice (Oryza sativa cv. Daylam), Journal of Crop Improvement, 16, 693–706.
Asadi, S., Moore, F., and Zarasvandi, A., 2014. Discriminating productive and barren porphyry copper deposits in the southeastern part of the central Iranian volcano-plutonic belt, Kerman region, Iran: A review.
Earth-Science Reviews, 138, 25-46.
doi:10.1016/j.earscirev.2014.08.001.
Atapour, H., 2017. The exploration significance of Ag/Au, Au/Cu, Cu/Mo, (Ag×Au)/ (Cu×Mo) ratios, supra-ore and sub-ore halos and fluid inclusions in porphyry deposits: a review. J. Sci. Islam. Repub, 28, 133–146.
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. J. Geochem. Explor, 93, 47–76. doi:
10.1016/j.gexplo.2006.07.007.
Azizi, H., and Moinevaziri, H., 2009. Review of the tectonic setting of Cretaceous to Quaternary volcanism in northwestern Iran, Journal of Geodynamics, 47(4), 167-179. doi:
10.1016/j.jog.2008.12.002.
Bahroudi, A., and Fonoudi, M., 2003. Geological Map of Shahrab. Tehran, Geological Survey of Iran (scale 1:100,000). (in Persian).
Barati, M., Ostadhosseini, A., Afzal, P., and Lee, I., 2024. Petrography, geochemistry, mineralogy and type of Cu (Ag) mineralization study of Rahimabad ore deposit, southwest of Ardestan. Petrological Journal, 14(4), 147-176. (in Persian). doi:
10.22108/ijp.2024.140522.1319.
Benavides, J., Kyser, T.K., Clark, A.H., Oates, C.J., Zamora, R., Tarnovschi, R., and Castillo, B., 2007. The Mantoverde iron oxide–copper–gold district, III Region, Chile: the role of regionally derived, nonmagnetic fluids in chalcopyrite mineralization, Economic Geology, 102 (3), 415–440.
doi:10.2113/gsecongeo.102.3.415.
Boveiri, M., Rstad, E., Kojima, S., and Rashidnejad, N., 2013. Volcanic redbed-type copper mineralization in the Lower Cretaceous volcano-sedimentary sequence of the Keshtmahaki deposit, southern Sanandaj-Sirjan Zone, Iran, Neues Jahrbuch für Mineralogie - Abhandlungen Journal of Mineralogy and Geochemistry, 190(2), 107-121. doi:
10.1127/0077-7757/2013/0236.
Brown, P.E., and Lamb, W.M., 1989. P-V-T properties of fluids in the system H2O-CO2- NaCl: New graphical presentations and implications for fluid inclusion studies, Geochimica et Cosmochimica Acta, 53(6), 1209–1221.
doi:10.1016/0016-7037(89)90057-4.
Cai, Y.T., Ni, P., Wang, G.G., Pan, J.Y., Zhu, X.T., Chen, H., and Ding, J.Y., 2016. Fluid inclusion and H–O–S–Pb isotopic evidence for the Dongxiang Manto-type copper deposit, South China, Journal of Geochemical Exploration, 171, 71–82.
doi:10.1016/j.gexplo.2016.01.019.
Carrillo-Rosúa, J., Boyce, A.J., Morales-Ruano, S., Morata, D., Roberts, S., Munizaga, F., and Moreno-Rodríguez, V., 2014. Extremely negative and inhomogeneous sulfur isotope 638 signatures in Cretaceous Chilean manto-type Cu–(Ag) deposits, Coastal Range of central Chile, Ore Geology Reviews, 56, 13–24. doi:
10.1016/j.oregeorev.2013.06.013.
Chiu, H.Y., Chung, S.L., Zarrinkoub, M.H., Mohammadi, S.S., Khatib, M.M., and Iizuka, Y., 2013. Zircon U–Pb age constraints from Iran on the magmatic evolution related to Neotethyan subduction and Zagros orogeny, Lithos, 162–163, 70–87.
doi: 10.1016/j.lithos.2013.01.006.
Condie, K.C., 2001. Mantle Plumes and Their Record in Earth History. Cambridge University Press, Cambridge, 305 p.
Ghasemi, A., and Talbot, C.J., 2006. A new tectonic scenario for the Sanandaj-Sirjan Zone (Iran), Journal of Asian Earth Sciences, 26(6), 683-693.
doi:10.1016/j.jseaes.2005.01.003.
Guest, B., Horton, B.K., Axen, G.J., Hassanzadeh, J., and McIntosh, W.C., 2007. Middle to late Cenozoic basin evolution in the western Alborz Mountains: implications for the onset of collisional deformation in northern Iran. Tectonics, 26, 1-26.
doi:10.1029/2006TC002091.
Gusev, A.I., and Korobeinikov, A.F., 2009. Mantle–crustal interaction in the generation of different types of mineralization: geophysical and petrological aspects, Izv. Tomsk Polytechnic University, 315(1): 18-25.
Hassanzadeh, J., 1993. Metallogenic and tectonomagmatic events in the SE sector of the Cenozoic active continental margin of Iran (Shahre Babak area, Kerman Province). Unpublished PhD thesis, University of California, Los Angeles, 204pp.
Hoefs, J., 2009. Stable Isotope Geochemistry, Springer, Sixth Edition.
Hofmann, A. W., 1988. Chemical differentiation of the Earth: the relationship between mantle, continental crust, and oceanic crust, Earth and Planetary Science Letters, 90(3), 297-314.
doi: 10.1016/0012-821X(88)90132-X.
Kananian, A., Hamzei, Z., Sarjoughian, F., and Ahmadian, J., 2014. Origin and tectonic setting of granitic rocks and dolerite dikes in the Nasrand pluton, southeast of Ardestan, Iranian Journal of Petrology, 5(17), 103-118. (in Persian).
Kerrich, R., and Said, N., 2011. Extreme positive Ce-anomalies in a 3.0 Ga submarine volcanic sequence, Murchison Province: oxygenated marine bottom waters, Chemical Geology, 280, 232–241.
doi:10.1016/j.chemgeo.2010.11.012.
Kesler, S.E., 2005. Ore–forming fluids. Elements, 1, 13-18.
doi:10.2113/gselements.1.1.13.
Khademian, F., Alaminia, Z., Ghasemi, A., and Nadimi, A.R., 2023. Petrology, trace and rare earth elements geochemistry, and tectonic setting of basic- intermediate volcanic rocks from northwest of Nain, Isfahan, Petrological Journal, 52, 1-34. (in Persian). doi: 10.22108/IJP.2023.134625.1285
Khademian, F., Alaminia, Z., Nadimi, A.R., Ghasemi, A., and Sharifi, M., 2024b. Investigating the magmatic evolution of volcanic rocks south of Shahrab (NW of Nain) with emphasis on the role of crustal contamination. New Findings in Applied Geology, In press. (in Persian). doi: 10.22084/NFAG.2024.28939.1604.
Khademian, F., Alaminia, Z., Nadimi, A.R., Lentz, D.R., Ghasemi, A., and Sharifi, M., 2024a. Structural and Alteration Zones Controls on Cu Mineralisation in the Northwest of Nain (northeastern Isfahan, Iran): A Remote Sensing Perspective, Journal of African Earth Sciences, 211, 105151. doi:
10.1016/j.jafrearsci.2023.105151.
Khalaji, Z., 2013. Study of exploration geochemistry and genesis in Shoureghestan ore occurrence (South of Ardestan). M.Sc. Thesis, Isfahan University, Isfahan, Iran, 114 pp. (in Persian).
Kirkham, R.V., 1996. Volcanic red bed copper. Geol. Sur. of Canada, Canadian Mineral Deposit Types, 8, 241-252.
Kojima, S., Astudillo, J., Rojo, J., Trista´, D., and Hayashi, K., 2003, Ore mineralogy, fluid inclusion, and stable isotopic characteristics of stratiform copper deposits in the coastal Cordillera of northern Chile, Mineralium Deposita, 3, 208-216. doi:
10.1007/s00126-002-0304-5.
Kojima, S., Tristá-Aguilera, D., and Hayashi, K.I., 2009. Genetic aspects of the Manto-type copper deposits based on geochemical studies of north Chilean deposits. Resource Geology, 59(1), 87–98. doi:
10.1111/j.1751-3928.2008.00081.x.
Liu, S.W., Zhang, J., Li, Q.G., Zhang, L.F., Wang, W., and Yang, P.T., 2012. Geochemistry and U–Pb zircon ages of metamorphic volcanic rocks of the Paleoproterozoic Lüliang Complex and constraints on the evolution of the Trans-North China Orogen, North China Craton. Precambrian Research 222–223, 173–190.
doi:10.1016/j.precamres.2011.07.006.
Maghfouri, S., Hosseinzadeh, M.R., Moayyed, M., Movahednia, M., and Choulet, F., 2017, Geology, mineralization and sulfur isotopes geochemistry of the Mari Cu (Ag) Manto-type deposit, northern Zanjan, Iran, Ore Geology Review, 81, 10–22. doi:
10.1016/j.oregeorev.2016.10.025..
Maksaev V, and Zentilli M., 2002. Chilean stratabound Cu–(Ag) deposits: an overview. In: Hydrothermal iron oxide copper–gold and related deposits: a global perspective 2 (Ed. Porter, T.M). PCG, 185–205 p.
Miller, J.D., and Portillo, H.Q., 1981. Silver catalysis in ferric sulfate leaching of chalcopyrite. In: (Ed. Laskowski, J.), 13th International Mineral Processing Congress, Warsaw, 1979, Elsevier, Amsterdam, 851-898.
Mohajjel, M., and Fergusson, C.L., 2014. Jurassic to Cenozoic tectonics of the Zagros orogen in northwestern Iran. International Geology Review 56, 263-287. doi: 10.1080/00206814.2013.853919.
Mohajjel, M., Ferguson, C.L., and Sahandi, M.R., 2003. Cretaceous-Tertiary convergence and continental collision, Sanandaj-Sirjan Zone, western Iran, Journal of Asian Earth Sciences, 21, 397-412. doi: 10.1016/S1367-9120(02)00035-4.
Mohammadi, S., Nadimi, A., and Alaminia, Z., 2018. Analysis of the relationship between mineralization and alteration zones with tectonic structures using remote sensing studies in south Ardestan area (northeastern Isfahan), Tectonics Journal, 2(7), 29-49 (in Persian). doi:10.22077/JT.2020.2434.1013.
Moinifar, S., Tabatabai, S.H., and Asadi Harouni, H., 2011. Litho geochemistry studies of Zefreh copper porphyry index. 1st National Conference oncopper, Shahid Bahonar University of Kerman, Kerman, Iran. (in Persian).
Morley, C.K., Kongwung, B, Julapour, A.A., Abdolghafourian, M., Hajian, M., Waples, D., Warren, J., Otterdoom, H., Srisuriyon, K., and Kazemi, H., 2009. Structural development of a major late Cenozoic basin and transpressional belt in central Iran: The Central Basin in the Qom-Saveh area. Geosphere, 5, 325-362.
doi:10.1130/GES00223.1.
Movahednia, M., Maghfouri, S., Fazli, N., Rastad, E., Ghaderi, M., and Gonzalez ´, F.J., 2022. Metallogeny of Manto-type strata bound Cu-(Ag) mineralization in Iran: Relationship with NeoTethyan evolution and implications for future exploration, Ore Geology Reviews, 149, 105064. doi:
10.1016/j.oregeorev.2022.105064.
Oliveros, V., Feraud, G., Aguirre, L., and Fornari, M., 2006. The early Andean magmatic province (EAMP): 40Ar/39Ar dating on Mesozoic volcanic and plutonic rocks from the Coastal Cordillera, Northern Chile. Journal of Volcanology and Geothermal Research, 157, 311–330. doi:
10.1016/j.jvolgeores.2006.04.007.
Oliveros, V., Féraud, G., Aguirre, L., Ramírez, L., Fornari, M., Palacios, C., and Parada, M., 2008. Detailed 40Ar/39Ar dating of geologic events associated with the Mantos Blancos copper deposit, northern Chile, Mineralium Deposita, 43, 281–293. doi:
10.1007/s00126-007-0146-2.
Oyarzun, R., Ortega, L., Sierra, J., Lunar, R., and Oyarzun, J., 1998. Cu, Mn, and mineralization in the Quebrada Marquesa Quadrangle, Chile: the Talcuna and Arqueros districts, Mineralium Deposita, 33, 547-559.
Pearce, J.A., 2008. Geochemical fingerprinting of oceanic basalts with applications to ophiolite classification and the search for Archean oceanic crust, Lithos, 100, 14- 48.
doi:10.1016/j.lithos.2007.06.016.
Pirajno, F., 2009. Hydrothermal Processes and Mineral Systems. Springer, Berlin, Germany, 1250 p.
Pollard, P.J., 2006. An intrusion-related origin for Cu–Au mineralization in iron oxide–copper– gold (IOCG) provinces, Mineral. Deposita, 41 (2), 179–187.
Ramirez, L. E., Parada, M. A., Palacios, C., Wittenbrink, J., Lehmann, B., and Sial, A. N., 2006. Magma sources of Mantos Blancos copper deposit, Coastal range of Northern Chile, Mineralium Deposita, 41(3), 246-258. doi:
10.1007/s00126-006-0055-9.
Richards, J.P., Spell, T., Rameh, E., Razique, A., and Fletcher, T., 2012. High Sr/Y magmas reflect arc maturity, high magmatic water content, and porphyry Cu ± Mo ± Au potential: examples from the Tethyan arcs of central and eastern Iran and western Pakistan. Economic Geology, 107, 295–332.
doi:10.2113/econgeo.107.2.295
Salehi, L., Rasa, I., Alirezaei, S., Kazemi Mehrnia, A., 2016. The Madan Bozorg, volcanic-hosted copper deposit, East Shahroud; an example of Manto type copper deposits in Iran, Scientific Quarterly Journal of Geosciences, 98(25), p. 93-104. (in Persian). https://doi.org/10.22071/gsj.2016.41166.
Schiano, P., Monzier, M., Eissen, J.P., Martin, H., and Koga, K.T., 2010. Simple mixing as the major control of the evolution of volcanic suites in the Ecuadorian Andes, Contributions to Mineralogy and Petrology, 160, 297–312. doi:
10.1007/s00410-009-0478-2.
Shafiei, B., Haschke, M., and Shahabpour, J., 2009. Recycling of orogenic arc crust triggers porphyry Cu mineralization in Kerman Cenozoic arc rocks, southeastern Iran, Mineralium Deposita, 44, 265–283. doi:
10.1007/s00126-008-0216-0.
Shahsavari Alavijeh, B., Rashidnejad-Omran, N., Toksoy-Köksal, F., Xu, W., and Ghalamghash, J., 2019. Oligocene subduction-related plutonism in the Nodoushan area, Urumieh-Dokhtar magmatic belt: Petrogenetic constraints from U-Pb zircon geochronology and isotope geochemistry, Geoscience Frontiers, 10, 725-751.
doi:10.1016/j.gsf.2018.03.017.
Shen, P., Pan, H.D., Li, Z., Sun, J., Shen, Y., Li, C., Feng, H., and Cao, C., 2020. A Manto-type Cu deposit in the Central Asian Orogenic Belt: the Honggule‐ leng example (Xinjiang, China), Ore Geology Reviews, 124, 103656. doi:
10.1016/j.oregeorev.2020.103656.
Simmons, S.F., and Browne, P.R.L., 2000. Mineralogical indicators of boiling in two low sulfidation epithermal environments: the Broadlands-Ohaaki and Waiotapu geothermal systems. In: Cluer, J.K., Price, J.G., Struhsacker, E.M., Hardyman, R.F., Morris, C.L. (Eds.), Geology and Ore Deposits 2000: The Great Basin and Beyond. Geological Society of Nevada Symposium Proceedings, USA, 683–690.
Spies, O., Lensh, G., and Miha, A., 1984. Petrology and geochemistry of the post-ophiolithic Tertiary volcanics between Sabzevar and Quchan /NE Iran. Neues Jahrbuch für Geologie und Paläontologie, Abh, 168 (51), 247-265. doi:
10.1127/njgpa/168/1984/389.
Taylor, S.R., and
McLennan, S.M., 1995. The geochemical evolution of the continental crust, Reviews of Geophysics, 33(2), 241-265.
doi:10.1029/95RG00262.
Tristá-Aguilera, D., Barra, F., Ruiz, J., Morata, D., Talavera-Mendoza, O., Kojima, S., and Ferraria, F., 2006. Re–Os isotope systematics for the Lince–Estefanía deposit: constraints on the timing and source of copper mineralization in a stratabound copper deposit, Coastal Cordillera of Northern Chile, Mineralium Deposita, 41, 99–105. doi:
10.1007/s00126-006-0048-8.
Verdel, C.h., Wernicke, B.P., Hassanzadeh, J., and Guest, B., 2011. A Paleogene extensional arc flare - up in Iran, Tectonics, 30(3), TC3008.
doi: 10.1029/2010TC002809.
Wang, W., Liu, S., Bai, X., Li, Q., Yang, P., Zhao, Y., Zhang, S., and Guo, R., 2013. Geochemistry and zircon U–Pb–Hf isotopes of the late Paleoproterozoic Jianping diorite–monzonite–syenite suite of the North China Craton: Implications for petrogenesis and geodynamic setting, Lithos, 162-163, 175-194. doi:
10.1016/j.lithos.2013.01.005.
Whitney, D.L., and Evans, B.W., 2010. Abbreviations for Names of Rock-Forming Minerals, American Mineralogist, 95(1), 185- 187.
Wilkinson, J.J., 2001. Fluid inclusions in hydrothermal ore deposits, Lithos, 55(1–4), 229–272.
doi:10.1016/S0024-4937(00)00047-5.
Wilson, N.S.F., and Zentilli, M., 2006. Association of pyrobitumen with copper mineralization from the Uchumi and Talcuna districts, central Chile, International Journal of Coal Geology, 65, 158–169. doi:
10.1016/j.coal.2005.04.012.
Wilson, N.S.F., Zentilli, M., and Reynolds, P.H., 2003a. Age of mineralization by basinal fluids at the El Soldado manto-type Cu deposit, Chile: 40Ar/39Ar geochronology of K-feldspar, Chemical Geology, 197, 161–176. doi:
10.1016/S0009-2541(02)00350-9.
Wilson, N.S.F., Zentilli, M., and Spiro, B., 2003b. A sulfur, carbon, oxygen, and strontium isotope study of the volcanic-hosted El Soldado Manto type Cu deposit, Chile: the essential role of bacteria and petroleum. Economic Geology, 98, 163–174. doi:
10.2113/gsecongeo.98.1.163.
Yang, X., Liu, J., Zhai, D., Han, S., Wang, H., Yang, L., and Huo, D., 2012. Geochemistry of the Yangla volcanic rocks and its relationship to Cu mineralization in the Yangla copper deposit, western Yunnan, China, Journal of Volcanology and Geothermal Research, 243-244, 38-44. doi:
10.1016/j.jvolgeores.2012.06.026.
Zarasvandi, A., Liaghat, S., Lentz, D., and Hossaini, M., 2013. Characteristics of mineralizing fluids of the Darreh-Zerreshk and Ali-Abad porphyry copper deposits, Central Iran, determined by fluid inclusion microthermometry. Resour. Geol. 63, 188–209. doi:
10.1111/rge.12004
Zarasvandi, A., Rezaei, M., Raith, J.G., Asadi, S., and Lentz, D., 2018.
Hydrothermal fluid evolution in collisional Miocene porphyry copper deposits in Iran: Insights into factors controlling metal fertility. Ore Geology Reviews, 105, 183-200.
doi:10.1016/j.oregeorev.2018.12.027
Zarasvandi, A., Rezaei, M., Sadeghi, M., Lentz, D., and Pourkaseb, H., 2015, Rare earth element signatures of economic and sub-economic porphyry copper systems in Urumieh–Dokhtar Magmatic Arc (UDMA), Iran, Ore Geology Reviews, 70, 407–423. doi:
10.1016/j.oregeorev.2015.01.010.
Zhao, L., Han, J., Lu, W., Liang, P., and Jourdan, F., 2020. The Middle Permian Hongshanliang Manto-type copper deposit in the East Tianshan: Constraints from geology, geochronology, fluid inclusions and H–O–S isotopes, Ore Geology Reviews, 124, 103601. doi:
10.1016/j.oregeorev.2020.103601.
