TDG Gold Corp. provided the third and final targeting from TDG's 100% owned Mets mining lease located in the Toodoggone District of north-central B.C. This news release describes additional targets resulting from interpretation of TDG's high-resolution geophysical program conducted at Mets in 2023 identifying ~1,400 metres ("m") of potential additional trends comprising two new target areas1 that have never been drill tested: Mets Southwest and Mets Northeast; and a third target with a distinct ?ring shape' geophysical feature (?Ringo') suggestive of an alteration feature rimming an intrusive or volcanic center. The high-grade gold within the Mets A-Zone, confirmed by TDG's drilling in 2023, appears to be coincident with certain distinct geophysical characteristics.

TDG has used these characteristics to define other target areas1 including potential northern and southern extensions to anomalies associated with the A-Zone and, in this news release, to two parallel trends. Mets Southwest Trend: This trend is defined by a very strong north-south conductive zone and coincident magnetic susceptibility low. The target area extends over ~900 m, and the geophysical features have similar magnitudes as over the Mets A-Zone.

The trend is characterized as a Very Low Frequency Electromagnetic ("VLF-EM") response that appears to be developing at depth, a coincident characteristic magnetic susceptibility low and a soil geochemical anomaly. This is a highly prospective trend with the same orientation and similar geophysical characteristics as the trend hosting the A-Zone and has nearly no historical work with the closest drillhole being over 500 m away. Mets Northeast Trend: This trend is defined by approximately 500 m of anomalous geophysics that is parallel to the trend hosting the high-grade Mets A-Zone.

This anomalous trend is along a larger regional silver ("Ag") in soil anomaly that extends beyond the Mets mining lease boundaries and may coincide with a larger regional structure through the area that aligns with other known epithermal Au-Ag occurrences. This feature has not been drilled to date.