Geochemistry and origin of orogenic gold in Qolqoleh area, Kurdistan: using fluid inclusion and stable isotope methods
Subject Areas :Taghipour 1 , Makizadeh 2 , فرهاد احمدنژاد 3
1 -
2 -
3 -
Keywords: Stable isotope Quartz vein Orogenic gold Qolqoleh Fluid inclusion.,
Abstract :
The Qolqoleh gold deposit is located in the northwestern part of the Sanandaj–Sirjan metamorphic belt, about 50 km south-west of Saqqez. The rocks in the vicinity of the Qolqoleh deposit consist predominantly of Mesozoic volcano-sedimentary sequences of phyllite, meta-limestone, cholorite- sericite schist, metavolcanic and granitic intrusive rocks that have undergone greenschist facies metamorphism. Geochemical studies indicate that gold mineralization occur in the sulfide-quartz veins. Based on the number of phases present at room temperature and their microthermometric behavior, three fluid inclusion types were recognized: type I mono phase aqueous inclusions, type II two-phase aqueous inclusions (aqueous + vapor), that based on Th could be subdivided into two groups: type IIa show salinities of 5–13 wt.% NaCl equivalent and Th-tot of 205 to 255 °C. Type IIb with salinities of 15–19 wt.% NaCl equivalent and Th-tot of 335 to 385 C. Type III three-phase shows carbonic–aqueous inclusions (aqueous–LCO2–VCO2) with salinities of 9–13 wt.% NaCl equivalent and Th-tot of 345–385 °C. Furthermore, the mean values of density of ore-forming fluids, pressure and depth of mineralization are 0.79-0.93 gr/cm3, 2 Kbar and 7 Km respectively. On the basis of these data, the Qolqoleh gold deposit is categorized in meso zonal orogenic gold deposit. The δ_0^18 values of the ore-forming fluids are in the range of 7.2‰ to 8‰ and the D values are from -35.27‰ to -40.23‰, which indicate a source of deep-originated metamorphic water that is partially mixed with shallow meteoric water. The change of tectonic regime from compressional to extensional in association with the continuously increasing geothermal gradient, results in remobilization of large amounts of metamorphic fluids. Mixing of ascending orogenic drive fluids with descending meteoric fluids led to deposition of gold by sulfide minerals.
