[1] Houshmandzadeh A. M., Haghipour A., “Evolution of Geological Phenomena in the Toroud Region from Precambrian to Present”, Geological Survey and Mineral Exploration Organization of Iran, 138 pages (1978)(in Persian).
[2] “GSI-Geological Survey of Iran”, Geological map of Moalleman, 1:100,000 Series. 2006
[3] Alavi M., “Tectonostratigraphic synthesis and structural style of the Alborz mountain system in northern”, Iran. J. Geodyn. 21 (1996) 1–33.
[4] Jankovic S., “The Carpatho-Balkanides and adjacent area: a sector of the Tethyan Eurasian metallogenic belt”, Miner. Deposita 32 (1997) 426–433.
[5] Richards J.P., Wilkinson D., Ullrich T., “Geology of the Sari Gunay epithermal gold deposit”, northwest Iran. Econ. Geol. 101 (2006) 1455–1496.
[6] Axen G.J., Lam P.J., Grove M., Stockli D.F., Hassanzadeh J., “Exhumation of the west-central Alborz Mountains, Iran”, Caspian subsidence, and collision-related tectonics. Geology 29 (2001) 559–562.
[7] Shamanian G.H., Hedenquist J.W., Hattori K.H., Hassanzadeh J., “The Gandy and Abolhassani Epithermal Prospects in the Alborz Magmatic Arc”, Semnan Province Northern Iran. Econ. Geol. 99 (2004) 691–712.
[8] Fard M., Rastad E., Ghaderi M., “Epithermal gold and base metal mineralization at Gandy deposit, north of central Iran and the role of rhyolitic intrusions”, J. Sci. Univ. Tehran 17 (2006) 327–335 (in English with Persian abstract).
[10] Mehrabi B., Ghasemi Siani M., “Intermediate sulfidation epithermal Pb-Zn-Cu ( ± Ag-Au) mineralization at Cheshmeh Hafez deposit, Semnan province. Iran”, J. Geol. Soc India 80, (2012) 563–578.
[10] Niroomand S., Hassanzadeh J., Tajeddin H.A., Asadi S., “Hydrothermal evolution and isotope studies of the Baghu intrusion-related gold deposit, Semnan province”, north central Iran. Ore Geol. Rev (2018).
https://doi.org/10.1016/j.oregeorev.2018.01.015.
[11] TaleFazel E., Mehrabi B., GhasemiSiani M., “Epithermal systems of the Torud–Chah Shirin district, northern Iran: Ore-fluid evolution and geodynamic setting”, Ore Geology Reviews, 109 (2019) 253-275.
[12] Eskandari Shibi, Mosivand Fardin, Lehman Brand., “Dogan Copper (South Shahrood): Porphyry Copper-Molybdenum Mineralization in the Torud-Chah Shirin Magmatic Arc”, Economic Geology (in Persian) (2025).
[13] Sattari S., Hosseinzadeh M., Moayyed M., “Petrography, Petrology, and Geochemistry of Sub-Volcanic Bodies in the Dogan Porphyry Copper-Molybdenum deposit (Toroud-Chah Shirin Axis)”, Petrological Journa (in Persian) (Article in the process of printing) (2025).
[14] Nogol Sadat M.A., Almasian M., “Tectonic map of Iran at a scale of 1:1000000”, Geological Organization of the country (1993).
[15] Aghanabati A., “Geology of Iran. Geological Survey of Iran”, Tehran (in Persian) (2004).
[16] Abedini M., Ziaii M., Timkin T., Pour A. B., “Big data analytics for mining geochemistry of gold mineralization: The Gandy gold deposit, the Toroud-Chah Shirin (TCS) belt, north Iran”, Ore Geology Reviews, 161 (2023) 105653.
[17] Moeyyd M., Ali-Nejad S., “Geological Report of the 1:1000 Map of the Dogan Region”, (in Persian) (2020).
[18] Winchester J.A., Floyd P.A., “Geochemical discrimination of different magma series and their differentiation products using immobile elements”, Chem. Geol. 20 (1977) 325-343.
[19] Shand S.J., “Eruptive Rocks: Their Genesis, Composition, Classification, and Their Relation to Ore Deposits with a Chapter on Meteorites”, John Wiley and Sons, New York, No. 552.1 S43 1943.
[20] Brown G.C., Thorpe R.S., Webb P.C., “The geochemical characteristics of granitoids in contrasting arcs and comments on magma sources”, J. Geol. Soc. London. 141 (1984) 413–426.
[21] Temel A., Gündoğdu M.N., Gourgaud A., “Petrological and geochemical characteristics of Cenozoic high-K calc-alkaline volcanism in Konya, Central Anatolia, Turkey”, Journal of Volcanology and Geothermal Research 85 (1998) 327–354.
[22] Defant M.J., Drummond M.S., “Derivation of some modern magmas through melting of young subducted lithosphere”, Nature 347 (1990) 662–665.
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