The Kharaelakh intrusion is one of several sill-like, multiphase gabbroic intrusions that host world-class Ni-Cu-PGE deposits in the Noril'sk-Talnakh region. The sulfide ores of the, Kharaelakh intrusion Lire characterized by elevated delta(34)S values (10-12 parts per thousand) and high PGE concentrations (e.g., up to 10 ppm Pt). The delta(34)S values require addition of crustal S with elevated isotope ratios such as evaporite-bearing country rocks (delta(34)S, similar to 20 parts per thousand) and R factors (magma/sulfide mass ratios) of <400 during sulfide Segregation, whereas the Pt concentration requires a much higher R factor (>2,000) if Pt content in the magma is similar to the values in the coeval, most undepleted lavas (similar to 10 ppb). Such a discrepancy call be explained by sulfide resorption by a new flux of mantle-derived magma into a deep staging chamber to form PGE-enriched magma. Interaction of the PGE-enriched magma with evaporite-bearing country rocks in the plumbing system at higher crustal levels could have produced sulfide liquids with high PGE contents as well as elevated delta(34)S values. Mass-balance calculations indicate that <0.9 wt percent anhydrite assimilation from evaporite-bearing country rocks is required to explain the elevated delta(34)S Values Of the sulfide ores. This model, although developed purely based oil data from the Kharaelakh deposit, can also be applied to other coeval Ni-Cu-PGE deposits. For the coeval Noril'sk-I and Talnakh deposits different depths of anhydrite assimilation ill the respective plumbing systems are required. This model differs from the previously proposed models in detail but reenforces the idea that chalcophile element depletion in continental flood basalts is a useful exploration tool for Ni-Cu-PCP deposits associated with coeval subvolcanic intrusions.

• 出版日期2009-4