Genesis of late Proterozoic copper mineralization, Copper Claim, South Australia
Genesis of late Proterozoic copper mineralization, Copper Claim, South Australia
Economic Geology and the Bulletin of the Society of Economic Geologists (May 1984) 79 (3): 461-475
- Adelaide Geosyncline
- Australasia
- Australia
- C-13/C-12
- carbon
- copper ores
- diagenesis
- disseminated deposits
- economic geology
- fluid inclusions
- geochemical controls
- geologic thermometry
- inclusions
- isotopes
- metal ores
- metamorphism
- mineral deposits, genesis
- Neoproterozoic
- O-18/O-16
- oxygen
- Precambrian
- Proterozoic
- regional metamorphism
- S-34/S-32
- sebkha environment
- sedimentary processes
- South Australia
- stable isotopes
- sulfur
- terrestrial environment
- upper Precambrian
- Copper Claim
Bedded disseminations. No evidence for hydrothermal alteration. The disseminated sulfides have a delta (super 34) S range of -17.3 to 15.8 per mil, consistent with bacterial reduction of sulfate. Veinlet sulfides have a similar but smaller delta (super 34) S range, in accord with formation by remobilization of the disseminated sulfides. No significant delta (super 13) C differences between bedded and veinlet carbonates; marked variations in delta (super 18) O values, with magnesite values being generally higher than dolomite, and the median value for bedded carbonates being around 23 per mil, some 3 per mil higher than the median value for veinlet carbonates. Low-temperature oxygen isotope equilibration during early diagenetic carbonate reactions. Low-grade regional metamorphism caused minor recrystallization and formation of additional veinlets but did not extensively overprint the diagenetic isotopic trends. Isotopic similarities between the cupriferous and the unmineralized lithologies support introduction of the copper during sedimentation and/or early diagenesis. Veinlet carbonates contain small NaCl-rich fluid inclusions, formed at around 300 degrees C and 4 km depth, during the metamorphism. General trend of increasing mean delta (super 34) S values with decreasing age of the late Proterozoic strata in the Adelaide geosyncline and Stuart shelf. This trend may be the product of local environmental conditions which resulted in sulfate reduction outweighing sulfate replenishment; alternatively, it could be reflecting global processes which caused major (super 34) S enrichment of seawater sulfate.--Modified journal abstract.