Torr Metals Inc. announced preliminary results that have identified near-surface high priority geophysical resistivity anomalies extending up to >1.5 kilometers (km) depth that are coincident with highly anomalous copper (Cu), gold (Au), and molybdenum (Mo) mineralization at-surface. These compelling exploration drill targets have been identified using a newly completed 3D resistivity inversion voxel model, derived from the ZTEM geophysical survey completed over the entirety of the 100% owned ~140 km2Kolos Copper-Gold Project in late 2023. The geophysical survey data was analyzed in conjunction with recently published soil geochemistry, revealing a multi-centred cluster porphyry trend spanning 7 kilometers (km).

This trend encompasses 5 priority exploration targets for Cu-Au and Cu-Mo that delineate potential porphyry centres, all of which have never been drilled. Each target zone is defined by >200 parts per million (ppm) Cu in soil with concentrations reaching a peaks of 1175 ppm Cu and 725 ppb Au. All of the priority exploration targets are road-accessible from Highway 5, approximately 23 km north-northeast of the city of Merritt, British Columbia.

Highlights: Kilometre-scale Surface Exploration Targets Now Extended to Depth: The results of the 3D resistivity inversion have confirmed multiple untested sub-surface drilling opportunities with 3 major potential porphyry centres within the Lodi, Kirby, and Clapperton Zones together with 2 additional satellite Cu-Au porphyry epithermal targets within the Ace and Rea Zones. Multiple Broad Resistivity Anomalies Indicate Impressive Scale: Across the Lodi, Kirby, & Clapperton Zones, extensive low to moderate and high resistivity anomalies span multiple kilometers in the sub-surface, aligning with concentrated higher-grade Cu +- Au +- Mo mineralization at the surface. Copper-gold mineralization in both zones has a strong correlation to anomalous low to moderate resistivity, with anomalous signatures extending up to 1000 meters (m) in depth while measuring ~1850 m and ~500 m in strike-length within the Lodi and Kirby Zones respectively.

Anomalous copper-molybdenum in soil coincides with an at-surface high resistivity anomaly at the Clapperton Zone, attributed to an exposed quartz-rich domain, typical of the upper levels of a porphyry system, within a multi-phase diorite intrusive host; resulting in an anomalous geophysical signature measuring ~1400 m in width and >1500 m in depth. Kirby Zone Expansion Potential: The anomalous geophysical signature at the Kirby Zone extends >1900 m south of the 2023 soil grid, suggesting significant expansion potential with further soil sampling. ZTEM geophysics is a sophisticated technique for delineating expansive hydrothermal mineralization and alteration systems typically associated with porphyry deposits, often spanning kilometer-scale dimensions both vertically and vertically.

Moreover, its precision in defining intricate geological structures proves valuable, aiding in the identification and localization of mineralization; thereby enhancing exploration efficiency and success. Quality Assurance and Control: Results from samples were analyzed at ALS Global Laboratories (Ltd).