Silicate-replacive high sulfidation massive sulfide orebodies in a porphyry Cu-Au system: Bor, Serbia
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Silicate-replacive high sulfidation massive sulfide orebodies in a porphyry Cu-Au system: Bor, Serbia Dina Klimentyeva 1
&
Thomas Driesner 1 & Albrecht von Quadt 1 & Trajča Tončić 2 & Christoph Heinrich 1
Received: 15 April 2020 / Accepted: 20 October 2020 # The Author(s) 2020
Abstract The Cu-Au deposit of Bor (Serbia) represents a continuum of mineralization styles, from porphyry-style ore occurring in quartzmagnetite-chalcopyrite veins and chalcopyrite disseminations to high-sulfidation epithermal Cu-Au ores in pyrite-chalcopyrite and anhydrite-sulfide veins. Decisive for the great economic importance of Bor is the presence of exceptionally rich highsulfidation massive sulfide orebodies, composed of pyrite + covellite + chalcocite/digenite and minor anhydrite and enargite. They form irregular bodies measuring 0.5–10 million tons of ore grading up to 7% Cu, hosted by andesites and surrounded by intense argillic alteration. This study focuses on a small but rich underground orebody mined out recently, where limited drillcore is preserved for quantitative geochemical study. This paper documents the vein relationships within the deep porphyry-style orebody of Borska Reka, the transitional porphyry-epithermal veins, and the overlying and laterally surrounding epithermal massive sulfides of the Bor deposit. Geological observations indicate that the formation of massive sulfide orebodies concludes the ore formation. Mass balance calculations, recast into geologically realistic bulk fluid-rock reactions, confirm textural evidence that near-isovolumetric replacement of andesite host rocks is the dominant formation mechanism of massive sulfide orebodies at Bor, whereby all lithophile elements including Si are dissolved and only Ti stays relatively immobile. While net volume changes for individual mineralization styles within the massive sulfide orebody vary from − 16% volume loss to + 127% volume gain, overall volume change for the whole massive sulfide orebody was probably slightly negative. Brecciation is important only as means of creating channelways for reactive fluid that turns the andesite protolith into massive sulfide, whereas net breccia infill occurred only locally. Keywords Porphyry Cu-Au . Massive sulfide . Mass balance
Introduction Porphyry Cu-Au systems (Hedenquist and Lowenstern 1994; Sillitoe 2010) are magmatic-hydrothermal ore systems that commonly include two spatially associated and genetically linked styles of Cu-Au ore. Porphyry-style mineralization Editorial handling: B. Lehmann Supplementary Information The online version contains supplementary material available at https://doi.org/10.1007/s00126-02001023-2. * Dina Klimentyeva [email protected] 1
Institute of Geochemistry and Petrology, ETH Zürich, 8092 Zürich, Switzerland
2
Zijin Bor Copper D.O.O., Bor 19210, Serbia
holds the bulk of the economic ore in large-tonnage but relatively low-grade orebodies dominated by chalcopyrite ± bornite in and around stockwork veinlets. Epithermal mineralization typically overlies or i
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