Abstract

Magmatic Ni–Cu–platinum group element (PGE) sulfide deposits form as the result of segregation of immiscible sulfide liquid from mafic–ultramafic magma. Sulfide ores formed in this process commonly take their places in the lower part of mafic–ultramafic intrusion, and many researchers attribute this phenomenon to gravity settling of dense sulfide droplets within lighter silicate magma. Some laboratory experiments, however, suggest that not all the sulfide droplets can migrate downward through crystal mush, especially those forming disseminated ores. On the basis of geochemical analysis, we employ a multivariate statistical method to investigate whether downward motion of sulfide droplets can happen during formation of disseminated ores. Two typical magmatic Ni–Cu–PGE sulfide deposits, namely the Hongqiling and Kalatongke deposits, were selected, and the relationship between sulfide composition (bulk-rock Cu, Ni, S, and PGE contents) and silicate composition (bulk-rock SiO2, Al2O3, K2O, Na2O, CaO, and MgO contents) was investigated by canonical correlation analysis (CCA). The result shows that there is a strong relationship between the sulfide and silicate compositions in the disseminated ores, which indicates that the sulfide droplets may have formed from the local crystal mushes, and furthermore that they have not migrated away from the crystal mushes. Hence, we conclude that sulfide droplets that form disseminated ores may tend not to migrate downward for long distances after segregating from mafic–ultramafic magma.

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