Aston Minerals Limited provided an update on the resource definition drilling across the Bardwell Nickel-Cobalt Prospect, Edleston Project, Canada. Bardwell Drilling: A total of 43 holes covering 2,000m of strike have been completed across Bardwell to date with 5 holes remaining to be completed under this current program. Results are currently pending for ten of the 43 completed drill holes.

Recent significant results from drilling undertaken include: DDED22-104 intersected 149.5m at 0.36% Ni and 0.012% Co from 294m including: 18m at 0.58% Ni and 0.011% Co and 17m at 0.46% Ni and 0.015% Co. DDED22-096 intersected 213.35m at 0.31% Ni and 0.012% Co from 243.5m including: 58m at 0.4% Ni and 0.015% Co. DDED22-088 intersected 188.08m at 0.35% Ni and 0.012% Co from 174.5m including: 35.06m at 0.49% Ni and 0.015% Co.

DDED22-085 intersected 33.03m at 0.3% Ni and 0.011% Co from 235.47m. DDED22-087 intersected 85.5m at 0.33% Ni and 0.015% Co from 391.5m EOH in mineralisation. DDED22-105 intersected 85.5m at 0.33% Ni and 0.12% Co from 235.5m EOH in mineralisation including: 2m at 1.37% Ni and 0.02% Co.

Edleston Project Overview, Ontario, Canada (100% ASO): The Edleston Project is located approximately 60km via road to the south of Timmins, Ontario, Canada. The towns of Timmins and Kirkland Lake are located close by and host significant former and current producers, with required services and skilled labour available to support exploration and development of the Project. The Project is located within the Abitibi Greenstone Belt of Archean metavolcanic and medisedimentary units that have been steeply folded with axes trending in general east-west orientation.

The Boomerang Target is interpreted to be a Dunite/Peridotite unit which has undergone extensive serpentinisation. This process of is responsible for the reaction of olivine to produce magnetite and brucite, resulting in a strongly reducing environment whereby nickel is released from decomposition of olivine. The nickel which has been released is typically partitioned into low sulphur nickel sulphide minerals.

Due to the magnetite association with mineralisation, a 3D inversion model of magnetics has been generated and has been utilised to assist with targeting.