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W2146263113 endingPage "100" @default.
W2146263113 startingPage "75" @default.
W2146263113 abstract "Trojan and Shangani mines are low-grade (<0.8 % Ni), komatiite-hosted nickel sulfide deposits associated with ca. 2.7 Ga volcano-sedimentary sequences of the Zimbabwe craton. At both mines, nickel sulfide mineralization is present in strongly deformed serpentinite bodies that are enveloped by a complex network of highly sheared, silicified, and sulfide-bearing metasedimentary rocks. Strong, polyphase structural–metamorphic–metasomatic overprints in both the Trojan and Shangani deposits make it difficult to ascertain if sulfide mineralization was derived from orthomagmatic or hydrothermal processes, or by a combination of both. Multiple S, Fe, and Ni isotope analyses were applied to test these competing models. Massive ores at Shangani Mine show mass-dependent fractionation of sulfur isotopes consistent with a mantle sulfur source, whereas S-isotope systematics of net-textured ore and disseminated ore in talcose serpentinite indicates mixing of magmatic and sedimentary sulfur sources, potentially via post-magmatic hydrothermal processes. A restricted range of strongly mass-independent Δ33S values in ore samples from Trojan Mine likely reflects high-temperature assimilation of sulfur from supracrustal rocks and later superimposed low-temperature hydrothermal remobilization. Iron isotope values for most Ni-bearing sulfides show a narrow range suggesting that, in contrast to sulfur, nearly all of iron was derived from an igneous source. Negative Ni isotope values also agree with derivation of Ni from ultramafic melt and a significant high-temperature fractionation of Ni isotopes. Fe isotope values of some samples from Shangani Mine are more fractionated than expected to occur in high-temperature magmatic systems, further suggesting that hydrothermal processes were involved in either low-grade ore formation (liberation of Ni from olivine by sulfur-bearing hydrothermal fluids) or remobilization of existing sulfides potentially inducing secondary Ni-sulfide mineralization." @default.
W2146263113 created "2016-06-24" @default.
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W2146263113 date "2013-06-28" @default.
W2146263113 modified "2023-10-17" @default.
W2146263113 title "Comparing orthomagmatic and hydrothermal mineralization models for komatiite-hosted nickel deposits in Zimbabwe using multiple-sulfur, iron, and nickel isotope data" @default.
W2146263113 cites W1524978295 @default.
W2146263113 cites W1963819833 @default.
W2146263113 cites W1964490562 @default.
W2146263113 cites W1964558195 @default.
W2146263113 cites W1964668579 @default.
W2146263113 cites W1974709242 @default.
W2146263113 cites W1979703659 @default.
W2146263113 cites W1979727721 @default.
W2146263113 cites W1981582501 @default.
W2146263113 cites W1991263091 @default.
W2146263113 cites W1998715544 @default.
W2146263113 cites W2011611022 @default.
W2146263113 cites W2012349602 @default.
W2146263113 cites W2014781187 @default.
W2146263113 cites W2021289303 @default.
W2146263113 cites W2021824695 @default.
W2146263113 cites W2027143279 @default.
W2146263113 cites W2030316857 @default.
W2146263113 cites W2031300486 @default.
W2146263113 cites W2031535992 @default.
W2146263113 cites W2031781283 @default.
W2146263113 cites W2032247271 @default.
W2146263113 cites W2034137153 @default.
W2146263113 cites W2036549191 @default.
W2146263113 cites W2037198536 @default.
W2146263113 cites W2039606412 @default.
W2146263113 cites W2042372974 @default.
W2146263113 cites W2042629715 @default.
W2146263113 cites W2044765374 @default.
W2146263113 cites W2047912772 @default.
W2146263113 cites W2054150386 @default.
W2146263113 cites W2054861741 @default.
W2146263113 cites W2055460259 @default.
W2146263113 cites W2057802580 @default.
W2146263113 cites W2067116349 @default.
W2146263113 cites W2071103381 @default.
W2146263113 cites W2072340522 @default.
W2146263113 cites W2075501732 @default.
W2146263113 cites W2078012005 @default.
W2146263113 cites W2080584766 @default.
W2146263113 cites W2080639740 @default.
W2146263113 cites W2081383679 @default.
W2146263113 cites W2082320566 @default.
W2146263113 cites W2087822101 @default.
W2146263113 cites W2090027771 @default.
W2146263113 cites W2090553280 @default.
W2146263113 cites W2092975944 @default.
W2146263113 cites W2099905989 @default.
W2146263113 cites W2101908907 @default.
W2146263113 cites W2107221436 @default.
W2146263113 cites W2115152967 @default.
W2146263113 cites W2116099728 @default.
W2146263113 cites W2119811890 @default.
W2146263113 cites W2120046361 @default.
W2146263113 cites W2122176277 @default.
W2146263113 cites W2123891996 @default.
W2146263113 cites W2129258230 @default.
W2146263113 cites W2130723340 @default.
W2146263113 cites W2133131747 @default.
W2146263113 cites W2134897250 @default.
W2146263113 cites W2136617541 @default.
W2146263113 cites W2139328602 @default.
W2146263113 cites W2149760611 @default.
W2146263113 cites W2153293026 @default.
W2146263113 cites W2160624515 @default.
W2146263113 cites W2162395880 @default.
W2146263113 cites W2165945199 @default.
W2146263113 cites W2169072530 @default.
W2146263113 cites W2169641074 @default.
W2146263113 cites W2171798366 @default.
W2146263113 cites W2325860424 @default.
W2146263113 cites W2998796631 @default.
W2146263113 cites W3108012054 @default.
W2146263113 cites W4236612094 @default.
W2146263113 cites W4247137165 @default.
W2146263113 cites W638753518 @default.
W2146263113 cites W85424119 @default.
W2146263113 doi "https://doi.org/10.1007/s00126-013-0476-1" @default.
W2146263113 hasPublicationYear "2013" @default.
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