Fidelity Minerals Corp. provided an update regarding exploration of its 100% owned Porphyritic Copper Project ("Porphyritic Copper" or the "Project") in northern Peru. Porphyritic Copper comprises three contiguous concessions covering 4,000Ha, located in an active mining and development district in La Libertad, Northern Peru. The Project hosts near surface manifestations of visible copper mineralization, as well as small-scale artisanal gold workings. The Company mobilized its geological team to commence reconnaissance exploration and sampling during February 2021. The field program was cut short by a sudden country-wide mandatory quarantine order related to COVID-19. The team nevertheless was able to collect eleven rock samples. Infrastructure proximal to Porphyritic Copper excludes any significant towns or villages, and the team undertook initial reconnaissance based out of a mobile tent camp. Porphyritic Copper is mostly underlain by monzodioritic intrusive rocks members of the Coastal batholith. The initial field work identified NW-SE and E-W fault systems thought to be associated with mineralization. The mineralization occurs in veins and veinlets of quartz, calcite, tourmaline, magnetite, muscovite, chalcopyrite, epidote and malachite in varying proportions. Silicification and oxidation occurs near the veins and low-grade argillic alteration is also present near faults. Initial sampling of the mineralized structures confirms the occurrence of anomalous copper concentrations reaching 1.94% Cu over 0.30 m (C002820) and 1.56% Cu over 0.60 m. Sample C002820 is also characterized by an anomalous gold concentration of 0.82 g/t Au. The low sulphur concentrations indicate that the copper within the sampled rock mostly occurs in the form of copper oxides. Silver, lead and zinc concentrations are low with values ranging from below the detection limit to 7.1 ppm Ag, 5 ppm to 725 ppm Pb and 42 ppm to 273 ppm Zn respectively. Samples were shipped to the SGS laboratories in Lima for major and trace elements determination (PRP93, FAA313 Au and ICP14B analytical methods).