Northern Shield Resources Inc. provided the results of a scout diamond drilling program at Root & Cellar ("Root & Cellar" or the "Project"), including 10.4 g/t Au over 1.5 metres. Root & Cellar is located on the Burin Peninsula in southeastern Newfoundland and offers easy access for exploration work programs. The Company can earn up to a 100% interest in the Project, which is being explored for epithermal gold-silver and porphyry-copper type mineralization, both associated with tellurium (Te). The drilling program consisted of 8 drill holes totalling 687 metres.

The program intersected the top portions of two north-trending feeder zones (Figure 1). The westernmost structural zone was intersected three times: DDH 23RC-21 - 10.4 g/t Au over 1.5 m including 23.5 g/t Au over 0.5 metres DDH 23RC-21 - 3.1 g/t Au over 1 metre DDH 23RC-18 - 5.7 g/t Au over 2 metres This structure was not observed on surface; however, it is clearly identifiable by drilling, and at depth in both the 2021 (Figure 2) and 2023 IP geophysical surveys. The second structure, which had been previously identified on surface, was intersected in drill holes 23RC-15, 16, 17 and 20, returning grades of up to 9.1 g/t over 0.65 metres.

Of the 200 samples collected in the drilling program, 135 samples assayed greater than 0.1 g/t Au. Much of what was intersected in this drilling program is interpreted as stratabound mineralization which forms a lower grade "umbrella" or cap to the feeder structures, where fluids percolated into porous, and perhaps unconsolidated, volcanic ash layers. This has important implications for other large IP targets such as that in the Conquest North area.

The next drilling program, anticipated to commence in early February, will have 3 principal objectives: 1. Follow the new gold intersections in drill holes 23RC-18 and 23RC-21, down into the centre of the boiling zone, as shown by underlying strong IP anomalies coincident with the intersected structures. 2. Test two other nearby, sub-parallel, geophysical targets supported by anomalous surface gold values. 3. Test portions of the large IP anomaly in the northern Conquest area that coincide with the inner ring faults of the interpreted collapsed caldera (Figure 3).

Trench permits have now been received and trenching will start at the earliest opportunity, weather permitting, perhaps as soon as first week of December. Through on-going field and desk-top work, the developing geological model suggests Root & Cellar may be part of a large collapsed caldera complex (Figure 3). The caldera collapse caused a series of concentric ring faults, some of which are listric in nature.

These ring faults, particularly where they intersect other structures, became the focus for further volcanic and magmatic eruptions and abundant hydrothermal fluid flow. Considering its geological age, the stratigraphy at Root & Cellar is remarkably intact and up-right. This developing interpretation has important implications for exploration at Root & Cellar as follows: 1. Such collapsed caldera systems can produce very large deposits.

2. Mineralization is found in both sub-vertical and sub-horizontal structures and contacts. 3. There may be an overlap, or transition, from low, to intermediate, to high sulphidation mineralization due to on-going volcanic/magmatic activity. Hence the intermediate sulphidation mineralization of the Drop Zone, Windfall and Braxton Bradley showings, may all be part of the same system as Conquest.

The drilling project was overseen by, and this news release approved by Christine Vaillancourt, P. Geo., the Company's Chief Geologist and a Qualified Person under National Instrument 43-101. Samples were analyzed by ALS Global in Vancouver, BC, for Au by Fire Assay and multi-elements by four acid digestion and ICP-AES. All standards and duplicates by ALS Global meet targeted values.

The width of the assayed intervals given in this news release may not represent the true width of mineralization. Due to the coarse-grained nature of free-gold, some samples will be re- analysed by gold screened metallics, a method better suited to measuring free-gold concentration.