Geochronology (U-Pb and Re-Os) and H-O-S isotopes reveal ore fluid origin and crucial role of meteoric water for Laozuoshan quartz-vein-hosted gold metallogeny in Jiamusi, NE China

The Laozuoshan auriferous sulfide-quartz veins, which are hosted in the granodiorite, monzogranite, and quartz diorite, are the only Early Cretaceous gold deposit discovered in the central Jiamusi Massif, but its origin and ore forming processes remain unclear. Here, we integrate mineralogy, H-O-S isotopes, and U-Pb and Re-Os geochronology to unravel the formation of the Laozuoshan quartz-vein gold mineralization. Zircon and molybdenite from the monzogranite wallrock and gold ores yield weighted mean U-Pb and isochron Re-Os dates of 259.9 +/- 2.1 Ma and 103.3 +/- 2.3 Ma, respectively. Our radiometric dating suggests that the Laozuoshan quartz-vein gold mineralization was coeval with the quartz diorite (105-103 Ma) but after the monzogranite emplacement. Quartz grains from the auriferous veins of different stages yielded scattered delta 18O values (5.4 to 13.0 %o), with the delta D values (fluid inclusions) ranging from -99.9 to -74.9 %o. The delta 18O values of quartz (10.9-13.3 %o) and feldspar (9.4-11.0 %o) from the unaltered wallrocks are similar to those (delta 18Oquartz = 11.2-13.2 %o and delta 18Ofeldspar = 10.0-10.4 %o) from the potassic alteration halos. Meanwhile, the sericite-altered rocks have delta 18O values of 12.4-12.9 %o (quartz) and 3.4-5.2 %o (sericite). Sulfides from the gold ores yielded decreasing delta 34S values from 5.3 to 6.9 %o (early stage), through 1.0-3.5 %o (intermediate stage), to -4.9 to -4.4 % (late stage). The isotope data reflect a largely magmatic source for the early ore fluids, whilst the sulfur was possibly derived from the Mashan Group migmatite. The results, in combination with geologic evidence, indicate that the Laozuoshan quartz-vein gold mineralization was spatially, temporally, and genetically related to the Early Cretaceous quartz diorite, and thus can be classified as intrusion-related, magmatic-hydrothermal-vein type. In the ore-forming processes, the ascending Early Cretaceous magma may have acquired most of their sulfur and gold through assimilation of the Mashan Group migmatite. The early ore fluids derived from the quartz diorite magma may have initially focused into narrow cracks/fractures in the quartz diorite margin and then flow along the fracture system. Subsequently, meteoric water incursion led to temperature drop, boiling, oxygen fugacity increase, and chemical exchange of the resultant fluids, which facilitated gold scavenging by bismuth rich melts and rapid precipitation as arsenopyrite-hosted electrum and gold-bismuth mineral eutectic assemblage. This study highlights the crucial role of meteoric water in formation of the magmatic-hydrothermal-vein type gold deposit.