Alto Metals Limited reported further excellent high-grade gold results from ongoing drilling at the Indomitable Camp, within the Company's 100% owned, Sandstone Gold Project, in Western Australia. Mineralisation at the Indomitable Camp is hosted within a package of mafic-ultramafic rocks, cross-cut by interpreted major structures, with higher-grade gold mineralisation typically observed where the structures intersect the stratigraphy. Ongoing RC drilling at Indomitable and Indomitable North is targeting extensions of known mineralisation outside the current resources along the same major cross-cutting structures, for inclusion in an updated mineral resource estimate.

Drilling is currently focused along the +2 kilometre NW/SE trend, with recently announced results extending the trend a further 500m NW, and remains open in both directions. New assay results are from one-metre photon assays and relate to 29 extensional RC holes drilled at Indomitable and Indomitable North for a total of 5,067m drilled on a 40m x 40m spacing to an average downhole depth of 174m. Drilling has successfully extended known mineralisation outside the resource with 28 of the 29 RC holes reported in this release intersecting gold mineralisation.

Significant new near surface high-grade gold results including. 20m @ 6.9 g/t gold from 35m incl. 1m @ 97.8 g/t gold from 38m (SRC674); 10m @ 3.2 g/t gold from 69m incl.

2m @ 11.3 g/t gold from 72m (SRC687); 10m @ 2.8 g/t gold from 27m, incl. 1m @ 19.5 g/t gold from 34m (SRC664); 10m @ 1.1 g/t gold from 8m and 4m @ 9.1 g/t gold from 83m, incl. 1m @ 27.1 g/t gold from 84m (SRC665); 10m @ 1.8 g/t gold from 90m incl.

1m @ 6.5 g/t gold from 96m (SRC691); 12m @ 1.2 g/t gold from 51m, incl. 1m @ 6.3 g/t gold from 57m (SRC668); 4m @ 3.5 g/t gold from 146m, incl. 2m @ 6.5 g/t gold from 146m (SRC667); 6m @ 1.8 g/t gold from 12m incl.

1m @ 5.0 g/t gold from 15m (SRC688); 4m @ 3.9 g/t gold from 160m incl. 1m @ 12.2 g/t gold from 160m (SRC690); 11m @ 2.1 g/t gold from 147m incl. 1m @ 10.1 g/t gold from 155m (SRC692).