ESGold Corp. has announced significant results from its Ambient Noise Tomography survey conducted at the Montauban Gold-Silver Project in Quebec, revealing deep geological structures that suggest district-scale mineralization potential. The survey, performed by Caur Technologies, successfully imaged geological features down to 1,200 meters depth, identifying characteristics indicative of a possible Volcanogenic Massive Sulphide system. This discovery includes a prominent north-central feeder zone and notable structural contrasts that provide high-priority exploration targets for future drilling campaigns.
The company is currently integrating these new findings with historical data into a comprehensive 3D 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 importance of these findings, noting the project's evolution toward becoming a major resource. The Montauban property, situated 80 kilometers west of Quebec City, continues to advance toward production while demonstrating ESGold's commitment to sustainable mining practices and exploration innovation.
The Ambient Noise Tomography technology represents a significant advancement in mineral exploration methodology, allowing for deeper subsurface imaging than traditional techniques. The identification of the VMS system characteristics particularly important because such systems often host substantial mineral deposits containing gold, silver, copper, zinc, and other valuable metals. The north-central feeder zone identified in the survey could represent a primary conduit for mineralizing fluids, making it a critical target for further investigation.
ESGold's approach combines modern geophysical techniques with historical data analysis, creating a robust foundation for future exploration decisions. The company's strategy focuses on developing Montauban into a comprehensive mining operation that leverages the property's full geological potential. For additional information about these developments, visit https://ibn.fm/IeTzk. The ongoing work at Montauban reflects the growing importance of advanced geophysical methods in modern mineral exploration and the potential for significant resource expansion in established mining districts.
