ESGold Corp. has announced results from its Ambient Noise Tomography survey conducted at the Montauban Gold-Silver Project in Quebec, revealing deep geological structures that indicate district-scale mineralization potential. The survey, performed by Caur Technologies, imaged geological features down to 1,200 meters and identified characteristics suggestive of a possible Volcanogenic Massive Sulphide system. This discovery includes a north-central feeder zone and structural contrasts that provide high-priority exploration targets for the company.
The company is now integrating these findings with historical data to create a new three-dimensional geological model. This integration aims to transform Montauban from a shallow deposit into a vertically integrated system with global-scale potential. André Gauthier, Director of ESGold Corp., emphasized the significance of these findings, noting the project's evolution toward becoming a major resource. The Montauban property, located 80 kilometers west of Quebec City, is advancing toward production while showcasing the company's commitment to sustainable mining practices and exploration innovation.
For more details about these developments, visit https://ibn.fm/IeTzk. The Ambient Noise Tomography technology represents an advanced geophysical method that allows for deep subsurface imaging without requiring active seismic sources. This approach provides valuable data about geological structures that traditional exploration methods might miss, particularly at significant depths where mineralization potential exists.
The identification of a possible Volcanogenic Massive Sulphide system at Montauban is particularly significant because such systems often host substantial mineral deposits containing gold, silver, copper, zinc, and lead. The north-central feeder zone identified through the survey represents a crucial geological feature that could channel mineralizing fluids from depth to shallower levels where economic mineralization might occur. These findings substantially alter the exploration paradigm for the Montauban property, shifting focus from near-surface targets to deeper, potentially more substantial mineralized systems.
The integration of these new geophysical data with historical exploration results will enable ESGold Corp. to develop more accurate geological models and prioritize drilling targets more effectively. This approach represents a significant advancement in exploration methodology for the Montauban project and demonstrates how modern geophysical techniques can reveal previously unrecognized mineralization potential in established mining districts. The company's commitment to combining innovative exploration technologies with sustainable mining practices positions the Montauban project as a potentially significant contributor to Quebec's mineral resource sector.
