ESGold Corp has announced that its Ambient Noise Tomography survey results confirm earlier academic research, revealing significant parallels between the Montauban Gold-Silver Project and Australia's Broken Hill deposit. The seismic imaging has identified mineralized zones extending down to 1,200 metres, supporting a vertically stacked model previously outlined in studies by the University of Calgary and University of British Columbia. These findings validate sulphide melting, hydrothermal activity, and structural deformation as critical processes for the remobilization of precious metals, now substantiated by ESGold's deep geophysical data.
The Montauban project is being redefined as a complex, multi-lens system with potential to rival both the Broken Hill and Scandinavian massive sulfide systems in scale and significance. This geological similarity to world-class deposits suggests substantial economic potential for the project. ESGold is currently integrating academic insights with geophysical data into a comprehensive 3D model to guide future exploration efforts and accelerate its strategy for near-term production and cash flow generation from tailings. For additional information about these developments, visit https://ibn.fm/qcDTE.
The confirmation of mineralized zones at such depths represents a significant advancement in understanding the project's full potential. The alignment between ESGold's survey data and previous academic research provides strong validation for the geological model, reducing exploration risk and increasing confidence in the project's viability. The vertically stacked model indicates multiple mineralized horizons, which could substantially increase the resource potential beyond initial estimates.
This geological confirmation positions the Montauban project as a potentially major asset in the global mining landscape. The comparison to Broken Hill, one of the world's largest and richest silver-lead-zinc deposits, underscores the project's significant economic potential. The integration of these findings into a comprehensive 3D model will enable more targeted and efficient exploration, potentially accelerating the path to production and economic returns from both new discoveries and existing tailings resources.
