Journal
NATURE COMMUNICATIONS
Volume 13, Issue 1, Pages -Publisher
NATURE PORTFOLIO
DOI: 10.1038/s41467-022-31447-5
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Funding
- University of Western Australia
- ARC [DE190101307, LP200200897]
- Hammond and Nisbet fellowship
- Australian Research Council [LP200200897] Funding Source: Australian Research Council
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This study presents new insights into the formation of gold-rich veins and highlights the essential contribution of metal nanoparticles associated with silica and carbon in efficient gold deposition. The formation of metal nanoparticles is crucial for the formation of high-grade gold deposits.
The authors present novel observations providing insights into the formation of extraordinary gold-rich veins. We discovered metal nanoparticles associated with amorphous silica and carbon indicating their essential contribution to efficient gold deposition. Economic gold deposits result from a 100- to 10,000-fold enrichment in gold relative to crustal background. In hydrothermal systems, this enrichment is achieved through the transport and accumulation of metals via deeply sourced fluids to a site of deposition. However, the generally low metal solubility of Au in aqueous solutions in orogenic systems requires additional processes in order to explain high-grade gold formation. Reports of Au nanoparticles in high-grade gold veins infer that their formation is linked to mineralisation. However, processes leading to nanoparticle nucleation and deposition remain poorly understood. Here we show that formation of metal nanoparticles (Au, AuAg, Cu, Ag2O) is one of the essential contributors to efficient and focused gold deposition. We report systematic and previously unrecognized metal nanoparticles preserved in amorphous silica and/or carbonic phases in five high-grade deposits. The association of metal, silica and carbonic phases helps to constrain the multiple reactive processes involved in Au, Cu and Ag metallogenesis and formation of high-grade gold mineralisation.
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