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W2083348240 abstract "Magmatic NiCu sulphide deposits are often geometrically and compositionally complex, and it is important to understand this complexity at an early stage of their economic evaluation. The Kabanga Ni prospect in Tanzania consists of two deposits associated with cumulate-textured ultramafic intrusions. The Ni occurs in a typical magmatic sulphide assemblage of pyrrhotite-pentlanite-chalcopyrite-pyrite and magnetite, with net-textured, disseminated and massive textures. The sulphides occur as layers within, and at the lower boundary of small, elongate transgressive olivine-pyroxene cumulate bodies, which were derived from a high Mg basaltic magma. Different layers within the intrusions have distinct sulphide geochemistry, with Ni tenor varying from 0.5 to over 20% in 100% sulphide. Generally, the lowermost layers have higher metal tenors, higher NiCu, and lower SSe ratios than the upper ones, suggesting a temporal evolution of sulphide chemistry. These trends suggest that the earliest sulphide melts separated from a primitive basaltic melt with a relatively high ratio of silicate to sulphide melt (R factor). Later sulphides separated from a more fractionated silicate melt with a lower R factor, implying an increasing contribution of sedimentary sulphide by wall rock assimilation during fractionation in a lower magma chamber. Les gisements magmatiques de sulfures de NiCu montrent souvent une géométrie et une composition complexes et il est important de comprendre cette complexité à un stade précoce de leur évaluation en termes de rentabilité. Le prospect de Ni de Kabanga consiste en deux gisements associésà des intrusion ultramafiques à textures de cumulats. Le Ni se présente dans un assemblage magmatique typique de pyrrhotite-pentlandite-chalcopyrite-pyrite-magnétite, avec des textures en réseau, disséminées et massives. Les sulfures forment des couches à l'intérieur et à la limite inférieure de petits corps cumulatifs allongés de cumulats transgressifs à olivine-pyroxène, dérivés d'un magma basaltique riche en Mg. Les différentes couches dans les intrusions ont des sulfures de compositions chimiques distinctes, avec des teneurs en Ni variant de 0,5 à plus de 20% and 100% de sulfures. En général, les couches inférieures ont de plus fortes teneurs en métal, un rapport NiCu plus élevé et un rapport SSe plus bas que les couches supérieures, ce qui suggére une évolution dans le temps du chimisme des sulfures. Les tendances évolutives suggèrent que les liquides sulfureux les plus précoces se sont séparés d'un liquide basaltique primitif ayant un rapport liquide silicaté/liquide sulfureux (facteur R) relativement élevé. Les sulfures plus tardifs se sont séparés d'un liquide silicaté plus évolué avec un facteur R plus bas, ce qui implique la contribution croissante de sulfures sédimentaires par assimilation de l'encaissant, pendant le fractionnement de la chambre magmatique inférieure." @default.
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W2083348240 date "1999-08-01" @default.
W2083348240 modified "2023-09-27" @default.
W2083348240 title "Variability of magmatic sulphide compositions at the Kabanga nickel prospect, Tanzania" @default.
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W2083348240 doi "https://doi.org/10.1016/s0899-5362(99)00101-3" @default.
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