Investigation on mineralogy,geochemistry and fluid inclusions of the Goushti hydrothermal magnetite deposit,Fars Province,SW Iran: A comparison with IOCGs

The Goushti iron deposit from Dehbid area located in the Sanandaj-Sirjan metamorphic Belt (SSB), SW Iran is hosted by the Early Mesozoic silicified dolomite. Mineralized zones are lithostructurally controlled and oriented NW-SE parallel to the Zagros Orogenic Belt (ZOB). Magnetite, the major ore mineral, occurs as open space fillings and is accompanied by the secondary mineral phases hematite, goethite and martite. Gangue minerals mainly include quartz, dolomite and K-feldspar are associated with minor hydrosilicates. Calc-silicates such as wollastonite and diopside, minerals typical of skarns, are virtually absent from the ore zones. Fe₂O₃ content in the mineralized zones varies in the range of 38–75 wt%. The concentrations of Au, Cu, P, Ti, Cr and V as well as Co/Ni, Cr/V, (LREE)/(HREE), Eu/Sm and La/Lu values and Eu-Ce anomalies of the studied ores indicate that the Goushti deposit is a hydrothermal magnetite type. The subvolcanic rhyolite and basalt in this area are regarded as the source of iron and heat in the mineralizing system. The fluid inclusion data showed that magnetite deposited from the ore-bearing fluid with salinities 1–7 wt% NaCl equivalent at temperatures of 130–200 °C. A decrease in temperature and pressure, supplemented by fluid mixing, is the major controlling factor in iron oxide precipitation. The field relationships and mineralogical–geochemical characteristics of iron ores indicate that the Goushti hydrothermal deposit could not be classified as a member of the IOCG (Iron Oxide-Copper-Gold) deposits.