Relevant Gold Corp. announced results from the 2023 soil sampling and geological mapping program at the company's 100% owned 3,884-hectare Golden Buffalo Project located in the South Pass Gold Field, Wyoming. The company's 2023 soil survey has highlighted a 3.5 km2 arsenic anomaly surrounding a newly mapped 2+ km western extension of the gold-rich Golden Buffalo Shear Zone (GBSZ).

Arsenic is a very powerful pathfinder for targeting gold mineralization in Abitibi-style orogenic gold systems and its importance is rapidly emerging at Golden Buffalo. The GBSZ is the primary host for high-grade gold discovered at Golden Buffalo, highlighted by Relevant Gold surface trench rock chip assays of 168 g/t Au, and drilling assays highlighted by 83.8 g/t Au over 1 metre. A 2021 pilot soil sampling program tested the known surface gold mineralization trenched at Golden Buffalo and confirmed a strong correlation between the shear structures, gold mineralization, and arsenic geochemistry throughout the central GBSZ.

Subsequent work has shown that arsenic is directly correlated to gold mineralization throughout the Golden Buffalo area and the entire South Pass Gold Field, which adds important discovery potential for Relevant Gold. The 2023 soil sampling program was part of a larger regional program designed to cover approximately 80% of the 3,884-hectare Golden Buffalo project and test the Eastern and Western extensions of the fertile Golden Buffalo Shear Zone. The 2023 regional soil sampling program identified a significant 3.5 km2 arsenic anomaly centered on a 2+ km western extension of the GBSZ.

Additionally, several other shear structures hosting arsenic anomalies have been identified in the northwest corner and southern end of the Golden Buffalo property. The 2023 soil sampling program comprised over 2,100 soil samples across N-S oriented lines utilizing a 400m line spacing and 25m sample spacing. The sample grid was designed to cover areas with soil cover over the favorable Miner's Delight metagraywacke host rock, while avoiding areas of Tertiary age sedimentary cover.

The samples were dried and analyzed using a portable NitonTM XL5 Plus XRF analyzer to test for arsenic (As) geochemistry.