Morphology and geochemistry of different pyrite types from the Upper Witwatersrand System of the Klerksdorp Goldfield, South Africa

Abstract

The morphology of pyrites from the Proterozoic, auriferous and uraniferous conglomerates of the Upper Witwatersrand System of the Klerksdorp Goldfield (South Africa) was studied by means of scanning electron microscopy (SEM). The pyrite particles were recovered by hydrofluoric acid leaching, thus making a three-dimensional SEM examination possible. According to morphological criteria the pyrites were classified into three types. Trace-element analysis by atomic absorption spetrophotometry (Au, Co, Ni, Cu, Zn, Pb, Mn, As) and the statistical evaluation of the results confirmed the morphological classification: Type 1: Authigenic, idiomorphic to hypidiomorphic pyrites or pyrite accumulations, which were formed in the conglomerates during diagenesis or metamorphism. Type 2: Allogenic, rounded, compact pyrites. This type was eroded from primary deposits in the hinterland of the Witwatersrand basin and deposited with the Witwatersrand sediments. It shows the closest trace-element affinity to pyrites from the Barberton Mountain Land, the source area model for the Witwatersrand sediments. The recognition of this pyrite type from the Klerksdorp Goldfield is in agreement with observations on detrital compact pyrites described from other goldfields of the Witwatersrand. Type 3: Allogenic, rounded, porous pyrites. These were formed from pyritic muds and iron sulfide gels existing on the surface of the alluvial fan, and later were reworked as mud balls or fragments and deposited with the conglomerates. Indentations with radial fracture patterns point to transport partly in a plastic state. The occurrence of colloform pyrites among this type supports the postulation of pyritic muds or iron sulfide gels. Only in this type of pyrite various inclusions such as gold, quartz, silicates, brannerite, copper- and titanium-bearing minerals were found. It is suggested that these inclusions were trapped as dust-like particles in the pyritic muds or iron sulfide gels on the surface of the alluvial fan. Only the presence of the allogenic, porous pyrites could be correlated with high gold values in the conglomerates.