Iron isotope fractionation during skarn-type metallogeny: A case study of Xinqiao Cu-S-Fe-Au deposit in the Middle-Lower Yangtze valley

摘要

Fe isotope compositions of mineral separates and bulk samples from Xinqiao Cu-S-Fe-Au skam type deposit were investigated. An overall variation in δ~(57)Fe values from - 1.22‰ to +0.73‰ has been observed, which shows some regularity. The δ~(57)Fe values of endoskarn and the earliest formed Fe-mineral phase magnetite are ca. 1.2‰ and ca. 0.3‰ lower, respectively, relative to the quartz-monzodiorite stock, indicating that fluid exsolved from the stock is enriched in light Fe isotopes. Moreover, spatial and temporal variations in δ~(57)Fe values are observed, which suggest iron isotope fractionation during fluid evolution. Precipitation of Fe-bearing minerals results in the Fe isotope composition of residual fluids evolving with time. Precipitation of Fe (III) minerals incorporating heavy iron isotopes preferentially leaves the remaining fluid enriched in light isotopes, while precipitation of Fe (II) minerals preferentially taking-up light iron isotopes, and makes the Fe isotopic composition of the fluid progressively heavier. The regularity of Fe isotope variations occurred during fluid exsolution and evolution indicates that the dominant Fe source of Xinqiao deposit is magmatic. Overall, this study demonstrates that Fe isotope composition has great potential in unraveling ore-forming processes, as well as constraining the metal sources of ore deposits.