Argyle Resources Corp. Announces Preliminary Remote Sensing Results for Lac Comporte Silica Project, Quebec

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[{"type":"text","content":"Calgary, Alberta--(Newsfile Corp. - June 25, 2025) - Argyle Resources Corp. (CSE: ARGL) (OTCQB: ARLYF) (FSE: ME0) ("Argyle" or the "Company" ) is pleased to announce the results of a comprehensive preliminary remote sensing survey for the Lac Comporté, Silica Project, located in the Bas-Saint-Laurent region of Quebec, Canada. This integrated study marks a significant milestone in identifying and prioritizing high-purity quartzite exploration targets across the company's claim block.","length":511,"tagName":"p"},{"type":"list","items":[{"val":[{"type":"text","content":"Extensive Satellite and Geochemical Survey:The Lac Comporté, project is part of a 33,000-square-kilometre area where Sentinel-2A shortwave infrared (SWIR) and visible near-infrared (VNIR) data were collected, collated and processed, as well as ASTER long-wave infrared (LWIR) analysis over 2,500 square kilometers of high-priority areas. False-colour composite images were used to assess vegetation health, burned areas, water, and urban zones, supporting both environmental monitoring and mineral exploration.","length":511,"tagName":"p"}]}],"tagName":"ul","bulletedList":true,"length":511,"olType":false},{"type":"list","items":[{"val":[{"type":"text","content":"Integrated Exploration Approach:The project combined multispectral satellite imagery, gas surveys, gravity and magnetic data, and geological mapping to create a robust framework for exploration and target prioritization. Five gases-hydrogen, helium, radon, methane, and carbon dioxide-were mapped, with hydrogen showing the strongest spatial correlation with known quartzite outcrops and mapped faults. Gravity data and "gravity worms" were used to identify deep crustal structures potentially associated with fluid migration and mineralization.","length":556,"tagName":"p"}]},{"val":[{"type":"text","content":"Hydrogen as an Exploration Vector:Hydrogen gas anomalies were consistently detected and covered 76% of the claim block, indicating significant exploration potential. Deep hydrogen anomalies, mapped using adapted seismic imaging, suggest active migration pathways along regional faults, positioning hydrogen as a reliable vector for future silica and copper exploration on the property.","length":386,"tagName":"p"}]},{"val":[{"type":"text","content":"Advanced Mineral Mapping:SWIR and ...

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