Marvel Discovery Corp. reported that the Company has partly completed drilling operations on its Ni-Cu-Co and Ti-V-Cr Duhamel property located 350 kilometers north of Quebec City, QC. The Company previously announced on December 04, 2023,that crews were being mobilized, but due to warmer temperatures an increase in water levels caused extreme flooding in nearby creeks and rivers causing the Company to pause drill operations before the Christmas season.

Date, three drill holes have been completed (813m done for total of 1,200m) which are targeting numerous priority airborne and ground EM conductors within the Houlière block. Historical work within the Property and surrounding areas have shown these conductors are the primary target horizons. Within the first target area, one historical hole drilled in 2000, within this 1km long x 400m wide target zone, intersected 0.64% Ni, 0.29% Cu and 0.06% Co over 4m (approx.

2.56m true width) which included 0.90% Ni and 0.40% Cu and 0.08% over 2.66m (1.71m true width and also included 1.55% Ni, 0.31% Cu and 0.14% Co over 1.0 m (0.64 m t.w.) from hole 1279-00-01 (from 21.00 to 25.00 m). The first hole drilled, DU24-01, intersected a wide, 28.6m, interval of disseminated mineralization from a hole depth 67.8m- 96.8m and within this are semi-massive stringers and massive sulphide zones ranging from widths of 15cm-60cm. For general information, the Duhamel Property currently contains seven occurrences of Ni-Cu-Co sulphides and one Fe-Ti-V iron oxide occurrence discovered between 1997 to 2001 by previous operators who defined a 13 km long mineralized rock corridor.

Drill intercept highlights include 1.27% Ni, 0.33% Cu, and 0.12% Co over 3.0 meters by Virginia Gold Mines in 2000 that contained massive sulfides. The recalculation of 100% sulfides from gave 2.42% Ni over 0.5m (hole 1279-2001-29 gave 1.4% Ni over 0.5m). Compilation of historic assessment reports to date reveals more than thirty Ni-Cu (Co) and four Fe-Ti (V, Cr) mineral occurrences which confirms this corridor to be highly prospective for new Ni-Cu-Co discoveries, as well as Fe-Ti (Cr, V) discoveries.