PRESS RELEASE

from Aston Bay Holdings Ltd (NASDAQ:ATBHF)

Aston Bay and American West Metals Report Multiple New Copper Targets Along the 110km-long Copper Belt at the Storm Project, Nunavut, Canada

Drilling, soil geochemistry and electromagnetics continue to highlight large-scale regional exploration potential

Seabreeze Prospect:

  • Greenfield exploration has defined a new base metal prospect at the far northwestern extent of the 110 kilometre ("km") long copper belt - this new area is named ‘Seabreeze' and covers an area of approximately 10 km x 2 km

  • Ground gravity survey at Seabreeze has identified dense features within the prospective Allen Bay Formation - the same stratigraphic host to the Storm copper deposits

Hailstorm Prospect:

  • Geological mapping and rock sampling have discovered chalcocite gossans grading >50% copper ("Cu") within an unexplored area at Storm to the south of the Southern Graben - now named ‘Hailstorm'

  • Follow-up geochemical sampling has defined a 250 m x 250 m copper anomaly along a major fault

  • The geological setting is identical to that of the near-surface, high-grade copper deposits at Chinook, Thunder, Lightning Ridge, and Corona

Tornado Prospect:

  • Deep searching Moving Loop Electromagnetics ("MLEM") has defined new conductors below the limit of current drilling at Tornado, 5 km along strike from the known Storm deposits

  • All Reverse Circulation ("RC") drill holes have intersected anomalous copper, silver, and zinc in favourable geological locations, confirming the Storm mineralization model at Tornado and providing compelling targets for follow-up drilling

Tempest Prospect:

  • Reconnaissance drilling at Tempest - located 40 km south of the known Storm copper deposits - has intersected anomalous copper, zinc, and silver within Storm-style stratigraphy

  • The area is defined by a 4km-long zone of gossans, grading up to 38.2% Cu and 30.8% Zinc ("Zn"), confirming Tempest as a high-priority prospect for follow-up drilling

TORONTO, ON / ACCESSWIRE / November 25, 2024 / Aston Bay Holdings Ltd. (TSXV:BAY)(OTCQB:ATBHF) ("Aston Bay" or the "Company") is pleased to provide an update on the 2024 drilling and regional exploration activities at the Storm Copper Project ("Storm" or the "Project") on Somerset Island, Nunavut. The exploration program is being conducted by American West Metals Limited ("American West"), the Project operator. Aston Bay and American West have formed a 20/80 unincorporated joint venture with respect to the Storm Project property, with Aston Bay maintaining a free carried interest until a decision to mine is made upon completion of a bankable feasibility study.

Thomas Ullrich, Chief Executive Officer of Aston Bay,commented:

"Greenfields regional exploration continues to deliver discoveries at Storm. In addition to the successful delineation drilling program this year, the geological team has discovered two new zones with copper, zinc and silver mineralization, reinforcing the belt-wide prospectivity of this 110 km-long trend. The successful prospecting, geophysics, geochemistry and drilling programs all point to the untapped potential for more copper at Storm, and we look forward to testing these new discoveries while advancing the known deposits toward development.

"Work is advancing well on the maiden resource for Storm as well as the development study work with news expected over the coming months."

Figure 1: Copper gossan from the Hailstorm Prospect. This is massive chalcocite (copper sulfide), yielding >50% Cu (50% is the upper limit of the assay technique used).

Figure 2: Prospect location map of the Storm Project highlighting the main prospective copper and zinc stratigraphic horizons.

New copper prospects discovered

Seabreeze

Detailed mapping, geochemical and ground gravity surveys have been completed over the northwestern extent of the 110 km-long prospective copper horizon (Figure 2). This area contains extensive outcrops of Allen Bay Formation rocks, the primary host to the known copper deposits in the Storm area. These surveys were the first detailed exploration of the area, now named ‘Seabreeze.'

Mapping within the prospect area confirms a geological setting similar to that of the Storm deposits, which are approximately 40 km to the east. The mapping at Seabreeze has identified the prospective contact between the Cape Storm and Allen Bay Formations and several fault zones that are known controls of the copper mineralization at the Project.

Soil geochemical sampling was completed within two targeted grids, with 76 soil samples collected at an average 400 m x 400 m spacing (21 samples in the north and 55 in the south, respectively), depicted in Figure 3.

The assays show an anomalous copper signature spatially associated with the northwest-southeast structural trend within the Allen Bay Formation and confirm the prospectivity of the northwestern extent of the copper belt. The results now confirm the potential for further discoveries of copper and zinc along the entire 110 km strike of the belt.

The ground gravity survey was completed at a nominal 200m line- x 50m station-spaced grid over an area of 6 km2 across the contact with the Allen Bay and Cape Storm formations. The survey aimed to screen for dense bodies that may represent accumulations of mineralization and to delineate favourable lithology that may host mineralization.

The gravity survey yielded strong gravity anomalies, likely within the Allen Bay Formation. This association between higher densities and the prospective Allen Bay stratigraphy is observed in the Storm area and is significant at Seabreeze due to the proximity of the Seal zinc-silver deposit (see December 6, 2017, Aston Bay news release), located approximately 3 km to the south: base metal mineralization is typically zoned, with a copper mineralized central core surrounded by zinc mineralization on the periphery. Follow-up exploration at the Seabreeze Prospect will include detailed ground EM and an expansion of the gravity surveys.

Figure 3: Seabreeze prospect showing soil sample locations, copper geochemistry, and the gravity imagery (Bouguer anomaly - hotter colours indicate an increase in density), overlaying regional geology. Note the location of the contact between the Cape Storm and Allen Bay Formations, and proximity to the Seal zinc-silver deposit.

Hailstorm

Reconnaissance mapping and rock sampling in the southern graben area of Storm has discovered a new zone of copper gossans proximal to a major interpreted fault (Figure 2). Follow-up soil sampling identified a 250 m x 250 m copper anomaly located along the strike of the fault, suggesting structural control to the mineralization as is typical at Storm (Figure 4).

Massive chalcocite boulders sampled from the copper gossans returned grades up to 50% Cu (Figure 1 - 50% is the upper detection limit of the assay method used). Massive copper sulfides are commonly associated with large structures in the Southern Graben area, an identical geological setting to the known copper deposits to the north. This new area has been named ‘Hailstorm.'

Follow-up exploration at the Hailstorm Prospect will include RC drilling.

Figure 4: Map of the Southern Graben area showing the location of the Hailstorm Prospect and copper soil geochemistry in relation to the known copper deposits, overlaying aerial photography and major faults.

High-priority EM targets defined at Tornado

The Tornado Prospect is located 5 km along strike from the Storm deposits to the east (Figure 2). It is centred on an area with abundant chalcocite and malachite boulders within a 3.2 km x 1.5 km geochemical copper anomaly. The large copper anomaly shares the same linear trend as the main structural features of the Storm Graben. Most of the anomalous copper samples are located proximal to the interpreted Northern Graben Fault, which is a similar setting to that of the large and laterally extensive Cyclone Deposit.

Exploration at Tornado during 2024 included deep-searching MLEM surveys and RC drilling.

The MLEM survey was conducted over six lines incorporating 115 stations, using a 400 m line-spacing and 100 m station-spacing for a total of 10.9 linear km. The survey aimed to screen the area for high-grade copper sulfides (which are successfully defined by EM at Storm) and to aid in mapping the stratigraphy and structures that could potentially host copper sulfide mineralization.

The survey defined two strong anomalies located within the prospective Allen Bay Formation. The 3D modelling suggests that the EM anomalies may be flat lying and located deeper than the current limit of the recent RC drilling (>150 m vertical depth, Figure 5). The strong positive correlation between the recent MLEM surveys, historical VTEM surveys, and copper mineralization supports the interpretation of the structural setting and deep copper potential at Tornado.

Figure 5: Oblique section view of the drill line at the Tornado prospect looking WNW. The image shows MLEM image (CH18BZ) and geology (map view, top - warmer colours indicating higher conductivity) above 3D inversion shells from the 2011 VTEM survey (cross-section view, bottom - cooler colours indicating higher conductivity). The section location is illustrated in Figure 6.

Historical drill hole AB18-07 was drilled to a downhole depth of 300 m, intersecting brecciated Allen Bay Formation throughout the entire hole and logged visual copper oxide mineralization (0.5% abundance between 19.35 m and 21.2 m downhole). Further to the east, though not covered by the recent MLEM survey, historical drill hole AB18-01/01B also intersected disseminated and veinlet-hosted visual chalcocite between 88.9 m and 110.3 m downhole (0.5 - 1% in abundance). These drill holes have not been assayed.

Five drill holes were completed by the helicopter-portable RC drill, and all holes intersected the prospective Allen Bay Formation. Drill hole SR24-131 was collared in the Douro Formation of the central Tornado graben and only just intersected the Allen Bay Formation at the end of the drill hole, indicating that the central block of the graben may have been faulted downwards approximately 175-200 vertical metres.

Anomalous copper, zinc or silver were observed in all drill holes. The highest copper and silver values were intersected in drill hole SR24-129, located proximal to the northern Tornado graben fault, a similar position to the copper-mineralized historical drill hole AB18-07 as described earlier (Table 2).

Drill hole SR24-133 was drilled 750 m north of the Tornado Graben Fault and intersected a 32 m thick interval of anomalous zinc mineralization from the surface with a maximum value of 1,040ppm Zn. This zonation of a copper mineralized core close to the graben faults (the presumed conduit of the mineralizing fluids) surrounded by peripheral zinc mineralization is typical at Storm.

The Tornado area contains a compelling coincidence of ideal structural and stratigraphic setting, strong gravity and EM anomalies, and copper geochemistry, located just 5 km along strike from Storm. These features rank the area as highly prospective for discovering additional copper mineralization. Follow-up exploration will include RC and deeper diamond drilling.

Visual estimates of mineral abundance, type or habit should never be considered a proxy or substitute for laboratory analyses where concentrations or grades are the factor of principal economic interest. Laboratory assays are required to determine the presence and grade of any contained mineralization within the reported visual intersections of copper sulfides.

Figure 6: MLEM image (CH18BZ) of the Tornado and Blizzard 400 m loop survey overlaying geology and interpreted major faults. Hotter colours indicate higher conductivity.

Drilling confirms copper and zinc at the Tempest Prospect

The Tempest Prospect is located approximately 40 kilometres south of the copper deposits at Storm (Figure 2). The area is defined by a 4km long zone of gossans, with up to 38.2% Cu and 30.8% Zn in surface grab samples (see November 27, 2023, Aston Bay press release).

This area is considered the southern extension of the highly prospective Storm Copper and Seal Zinc horizons. These formations overlap the much older Proterozoic rocks that outcrop in the Boothia Uplift to the west. This geological setting with an unconformity (an ancient weathered surface) between two geological terranes suggests a permeable zone close to potential source rocks, highly prospective for fluid migration and base metal mineralization.

Three shallow reconnaissance exploration drill holes were completed at Tempest in 2025. Each hole reached a downhole depth of 200 m and was designed to test the stratigraphy and potential source of the highly anomalous copper and zinc at the surface (Figure 7).

The drilling confirmed the presence of Storm-style stratigraphy with thick intervals of the Allen Bay Formation. Anomalous copper, silver and zinc were encountered in all three drill holes, with particularly thick intervals of zinc and silver in drill hole SR24-098 (137.3m @ 137ppm Zn, 1.2g/t Ag - Table 2).

Although the high grades of the surface gossans were not replicated with the current drilling, the 4 km strike length of the gossans and thick intervals of zinc and silver in the drilling suggest a significant mineralizing event. Furthermore, the copper deposits at Storm are typically confined to the upper sequence of the Allen Bay Formation near the contact with the Cape Storm Formation. This contact is mapped further east in the Tempest area, suggesting that the current drill holes have intersected the lower, less prospective part of the Allen Bay Formation.

Deep searching ground EM will next be used to screen the area in more detail and to highlight high-priority targets for follow-up drilling.

Figure 7: Map of the Tempest Prospect showing drilling, geochemical sampling locations, rock samples, and lithological unit boundaries overlaying aerial photography.

Hole ID

Prospect

Easting

Northing

RL (m)

Depth (m)

Azimuth

Inclination

SR24-098

Tempest

464948

8174283

302.8

149.4

179.71

-70.5

SR24-100

Tempest

473230

8137717

299.7

199.64

285

-50

SR24-102

Tempest

473634

8133161

296.6

199.6

109.19

-45.05

SR24-129

Tornado

471008

8170156

295.0

199.64

180

-60

SR24-130

Tornado

471012

8170973

277.9

199.64

200.27

-52.1

SR24-131

Tornado

470928

8169888

289.0

199.64

200.17

-60.26

SR24-132

Tornado

470866

8169491

291.4

199.64

200.25

-55.08

SR24-133

Tornado

470244

8171463

255.7

199.64

199.97

-59.97

SR24-134

Tornado

470273

8169986

268.0

199.64

199.97

-60.14

Table 1: Details for the 2024 regional exploration drill holes.

Hole ID

From (m)

To (m)

Width

Cu ppm

Zn ppm

Ag g/t

SR24-098

0

118.87

118.87

6.5

137.3

1.2

128.02

143.26

15.24

5.5

64

0.6

146.3

150.88

4.58

5

36.7

0.8

188.98

190.5

1.52

5

30

0.5

SR24-100

1.52

56.39

54.87

5.1

64.4

1.0

57.91

65.53

7.62

5

50

0.6

67.06

68.58

1.52

5

30

0.5

70.1

71.63

1.53

5

40

1.0

73.15

76.2

3.05

5

40

0.8

88.39

103.63

15.24

6.5

103.9

1.5

105.16

108.2

3.04

5

110

1.5

109.73

112.78

3.05

7.5

30

1.0

118.87

120.4

1.53

5

30

2.0

121.92

126.49

4.57

5

30

1.0

137.16

140.21

3.05

5

30

1.5

143.26

156.97

13.71

7.2

57.8

1.4

182.88

188.98

6.1

6.2

42.5

1.5

SR24-102

28.96

35.05

6.09

6.2

52.5

0.9

45.72

47.24

1.52

5

40

1.0

48.77

54.86

6.09

5

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