Home – Home – Jornals – Russian Geology and Geophysics 2020 number 8

We studied fluid inclusions, trace elements, and oxygen, carbon, and sulfur isotope ratios in minerals from stockwork sulfide-carbonate-quartz ores of the Nikolaevskoe gold deposit confined to volcanic island arc porphyry intrusions. The study shows that fluid inclusions in quartz were homogenized at 260-200 ºС and those in later formed calcite, at 227-205 ºС. The fluids contain aqueous K-Mg-Na chloride solutions with salinity of 4.1-9.6 wt. % NaCl eq. Raman spectroscopy revealed СO₂ (29-34 mol. %), CH₄ (40-55 mol. %), and N₂ (8-30 mol. %) in the fluids. According to LA-ICP-MS data, quartz has low contents of Al (11.7-102 ppm) and Ti (0.05-0.64 ppm), which indicates its deposition from weakly acid low-alumina fluids at <350 ºС. The REE patterns of calcite show accumulation of heavy lanthanides (La _N /Yb _N = 0.2-0.9), evident of high fluid alkalinity, and negative Ce (0.39-0.82) and positive Eu (1.99-5.25) anomalies. The negative Ce anomalies are due to meteoric water in the fluid and the fluid interaction with limestones. The positive Eu anomalies reflect the high-temperature (>250 ºC) environment that existed before the calcite crystallization. The Y/Ho ratio in calcite (28.7-54.1) suggests that the fluid has magmatic components and components extracted from limestones and contains seawater. The δ¹⁸О_H2O values (3.6 to 5.6 ‰) of the fluid testify to the participation of magmatic and meteoric waters in the ore formation. The δ¹³С_СO2 values (-4.1 to 1.4 ‰) point to carbon of magmatic nature and carbon extracted from limestones. The heavy sulfur isotope composition of pyrite (6.75-9.87 ‰) and arsenopyrite (8.7 ‰) might be due to sulfur supply from the host rocks or to the participation of [SO₄]^2- of seawater in the ore-forming process. According to the results obtained, the Nikolaevskoe gold deposit is an island arc (Au ± Cu)-quartz-sulfide deposit transitional between porphyry and epithermal types.