Sulfide saturation and magma emplacement in the formation of the Permian Huangshandong Ni-Cu sulfide deposit, Xinjiang, northwestern China

Sulfide saturation and magma emplacement in the formation of the Permian Huangshandong Ni-Cu sulfide deposit, Xinjiang, northwestern China

The eastern Tianshan orogenic belt, northwestern China, hosts approximately 120 mafic-ultramafic intrusions and at least six of them host significant Ni-Cu sulfide mineralization of which the Permian Huangshandong intrusion is the largest. The mafic-ultramafic rocks of the Huangshandong intrusion co...

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Bibliographic Details
Published in:Economic geology and the bulletin of the Society of Economic Geologists Vol. 108; no. 8; pp. 1833 - 1848
Main Authors: Gao Jianfeng, Gao Jianfeng, Zhou Meifu, Zhou Meifu, Lightfoot, Peter C, Wang, Christina Yan, Qi Liang, Qi Liang, Sun Min, Sun Min
Format: Journal Article
Language:English
Published: Economic Geology Publishing Company 01-12-2013
Subjects:
Asia
China
copper ores
crystallization
Economic geology
emplacement
Far East
Huangshandong Deposit
intrusions
isotope ratios
isotopes
magma chambers
magma contamination
magmas
metal ores
metals
mineral composition
mineral deposits, genesis
mineralization
mixing
nickel ores
northwestern China
ore bodies
Os-188/Os-187
osmium
Paleozoic
Permian
platinum group
radioactive isotopes
Re-187/Os-188
rhenium
saturation
stable isotopes
Tien Shan
trace elements
whole rock
Xinjiang China
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Summary:The eastern Tianshan orogenic belt, northwestern China, hosts approximately 120 mafic-ultramafic intrusions and at least six of them host significant Ni-Cu sulfide mineralization of which the Permian Huangshandong intrusion is the largest. The mafic-ultramafic rocks of the Huangshandong intrusion comprise lherzolite, gabbronorite, gabbro, and diorite. Individual orebodies are composed of pyrrhotite, pentlandite, and chalcopyrite as disseminated to net-textured or massive to semimassive sulfide mineralization. Oxide-bearing sulfide mineralization contains 1 to 5% magmatic magnetite that has ilmenite and spinel exsolution lamellae. Silicate rocks and sulfide mineralization have variable whole-rock platinum group elements (PGE; 0.38-362 ppb), Cu (42-97,000 ppm), and Ni (26-33,000 ppm) concentrations. The mineralization is broken out into two types termed oxide rich and oxide poor. The oxide-rich sulfide mineralization has high PGE concentrations with low 187Re/188Os ratios (38.9-151), whereas oxide-poor sulfide mineralization has low PGE concentrations with high 187Re/188Os (159-781). Both oxide-rich and -poor sulfide mineralization have highly variable γOs values (49-189 and 30-278, respectively). Oxide-rich sulfide mineralization contains magnetite with variable amounts of MgO, TiO2, Al2O3, FeOtotal, Cr, V, Zn, and Sn, indicating that they crystallized from different stages during magma differentiation. We propose that the host intrusion and associated sulfide mineralization were derived from high Mg basaltic magmas from a mantle source that was previously modified by subducted oceanic slab. Oxide-poor sulfide mineralization of the Huangshandong intrusion formed from a magma that underwent <0.03% sulfide removal before emplacement and was thus PGE depleted. Oxide-rich sulfide mineralization formed from magma that had much lower amounts of sulfide (<0.003%) removed in the early stage before entering the Huangshandong magma chamber. An early sulfide saturation event was likely associated with fractionation of silicate minerals in a deep-staging magma chamber. The second sulfide saturation event that formed the sulfide mineralization was probably triggered by selective crustal contamination and fractionation in the high-level chamber where mixing of magmas and accumulation of immiscible sulfide occurred.
ISSN:0361-0128
1554-0774
DOI:10.2113/econgeo.108.8.1833