Enrichment of cobalt in the Xiarihamu Ni-Co sulfide deposit in the East Kunlun orogenic belt, Western China: Constraints from distribution of cobalt in sulfides and Fe and S isotopes of sulfides

Abstract

The Xiarihamu Ni-Co sulfide deposit in the East Kunlun orogenic belt (EKOB), western China, is the largest magmatic Ni-Cu-(Co) sulfide deposit found in the orogenic belts worldwide. The geochemical behavior of Co during the evolution of sulfide melt is key to understand the enrichment process of Co in the Xiarihamu deposit, however remains unclear. In this study, the Co contents of sulfide inclusions enclosed within olivine and pyroxene and those of the sulfides interstitial to olivine and pyroxene in the Xiarihamu deposit were examinated by the Scanning Electron Microscopy (SEM) -Energy Dispersive Spectroscopy (EDS) and Electron Probe Microanalyzer (EPMA). The Fe and S isotopic compositions of the sulfides were measured in situ by LA-MC-ICPMS. The results show that Co contents increase from silicate to sulfide and arsenide minerals, and from chalcopyrite to pyrrhotite and pentlandite in the sulfides. High Co contents in pentlandite of pyroxenite (av. 2.79 %) and gabbro (av. 7.34 %) indicate that Co is enriched in the pentlandite of pyroxenite in different stage of magma. The pyrrhotite and pentlandite show positive correlation of Co with Fe and Ni, and suggested isomorphic substitution of Co for Fe and Ni. The δ56Fe values increase from pyrrhotite to pentlandite due to kinetic fractionation of Fe isotopes of Fe valent and bond length/strength, because pyrrhotite has longer bond and weaker bond strength of Fe-S than pentlandite, and display lighter Fe isotopic compositions. The δ56Fe values of pentlandite increase substantially from host peridotite to pyroxenite, which could be related to subsolidus fractional crystallization processes of monosulfide solid solution (MSS). The sulfide segregated and crystallized early from the MSS is richen in light Fe isotope. The sulfides in gabbro have high δ34S values, similar to δ34S of the sulfides in the country rocks of Proterozoic granitic gneiss, indicating a continuous addition of external sulfur into magma chamber. The δ34S and δ56Fe values of the sulfides approximately increase with increasing Co contents. Higher δ56Fe and δ34S values and Co contents of pentlandite in the pyroxenite suggest that the Co enrichment is mainly associated with sulfide saturation of magmas by crustal contamination.