FIREWEED METALS CORP. (“
Fireweed” or the
“
Company”) (
TSXV: FWZ; OTCQX:
FWEDF) is pleased to report the results of an additional
nine drill holes from Boundary Zone as part of the 2024 drill
campaign at its Macpass Project, Yukon, Canada.
Highlights
-
Hole NB24-014 from 311.50 m downhole: 54.58 m of
8.68% zinc, 3.68% lead, and 87.4 g/t silver (31 m true width),
including 26.08 m of 13.15% zinc, 6.35% lead, and 139.9 g/t silver
(15 m true width).
-
Hole NB24-024 from 383.5 m downhole: step-out
intersection of 19.73 m of 9.40% zinc, 1.07% lead, and 49.7g/t
silver (15 m true width), including 10.79 m of 13.39% zinc, 1.30 %
lead, and 70.0 g/t silver (8.0 m true width)
-
Hole NB24-014 from 146.95 m downhole: 106.85 m of
4.61% zinc, 0.52% lead, and 11.88 g/t silver, including 16.32 m of
9.98% zinc, 0.28% lead, and 17.0 g/t silver.
-
Significant concentrations of germanium and gallium associated with
sphalerite mineralization (included within the full results in
table 1)
CEO Statement
Peter Hemstead, President and CEO, stated,
“Boundary zone continues to grow, delivering high-grade step-out
intersections outside of the recently announced Mineral Resource of
stratiform sulphide mineralization, along with notable vein and
replacement mineralization. Step-out results from hole NB24-024
confirm significant extensions of the high-grade Upper Zone towards
the East and down dip. Additionally, infill drilling at the massive
sulphide Prime Zone, including hole NB24-014, has delineated
greater thicknesses and higher grades of this zone than those
estimated in our current Mineral Resource. These results show great
potential for a material increase in the high-grade tonnage at
Boundary Zone.”
Summary
The drill holes in this release comprise
intervals of vein and replacement style mineralization as well as
massive (>50% sulphides) to stratiform (layer-parallel)
sulphides in the central portion of Boundary zone. Massive sulphide
mineralization at Boundary is split into three primary domains
based on location and geochemistry: BZFL (Boundary Zone Fuller
Lake), BZUZ (Boundary Zone Upper Zone) and BZPZ (Boundary Zone
Prime Zone). The intersections of massive and stratiform sulphides
in NB24-006, NB24-014, and NB24-021 are from BZPZ and the intercept
in NB24-024 correlates to BZUZ, while the broader intercepts in the
holes comprise vein and replacement style mineralization.
Results
Drill holes in this release are located in the
central portion of Boundary Zone and were targeting stratiform to
massive sulphides, as well as vein and replacement mineralization
with a focus on expanding mineralized domains and improving
confidence in mineralized bodies. All holes in this release were
successful in intersecting vein and replacement style
mineralization, with NB24-006, NB24-014, NB24-021, and NB24-24
intersecting broad (>10 m true width) zones of massive to
stratiform sulphides rich in sphalerite and galena.
Fireweed successfully intersected massive
sulphides in both NB24-014 and NB24-024 (Photos 1 and 2) as well as
stratiform to semi-massive sulphides, vein, and replacement
mineralization in all holes within this release. Summaries of the
intercepts from these holes are as follows:
-
Hole NB24-014
-
Intersected 54.58 m (estimated true width of 31 m) of BZPZ
laminated and massive sulphides grading 8.68% zinc, 3.68% lead, and
87.4 g/t silver, including 26.08 m (est. true width 15 m) of 13.15%
zinc, 6.35% lead, and 139.9 g/t silver. This strategic infill hole
was designed to test an area of the resource model where the BZPZ
was interpreted as wedging out against a fault between 2023 drill
holes NB23-037 and NB23-032. The hole successfully confirmed that
the fault wedge comprises a massive sulphide zone approximately 3.5
metres thicker and significantly higher grade than estimated within
the current Mineral Resource, interpreted as continuous with the
high-grade feeder style mineralization encountered previously in
hole NB23-037 (see Fireweed News Release January 22, 2024).
-
The hole also had a broad near surface interval of breccia and vein
mineralization 106.85 m in width grading 4.61% zinc, 0.52% lead,
and 11.88 g/t silver, including 16.32 m grading 9.98% zinc, 0.28%
lead, and 17.0 g/t silver. This intersection confirmed the extents
of a broad interval of mineralization approximately 150 m from
surface.
-
Hole NB24-024
-
Intersected a step-out intersection of 19.73 m (estimated true
width of 15 m) of stratiform to semi-massive sulphide grading 9.40%
zinc, 1.07% lead, and 49.7 g/t silver, including 10.79 m (estimated
true width of 8.0 m) grading 13.39% zinc, 1.30% lead, and 70.0 g/t
silver. This is interpreted as an extension of the Upper Zone and
is situated beyond the limits of the current Mineral Resource, as a
40 m step-out along strike and 100 m down dip from the nearest
Upper Zone intersections.
-
This hole also intersected another step-out intersection of 23.1 m
of 5.00% zinc, and 9.6 g/t silver from 146.3 m downhole within vein
and replacement style mineralization. This represents a 70-metre
step-out from the closest previously known mineralization.
-
Hole NB24-006 intersected 71.91 m of stratiform
sulphides, vein, and replacement mineralization grading 2.73% zinc,
0.53% lead, and 14.1 g/t silver, including 9.8 m of stratiform
sulphides (estimated true width 9.8 m) grading 9.34% zinc, 0.5%
lead, and 23.4 g/t silver. The hole also intersected an
interval from 23.4 m downhole, 39.61 m in length of vein and
replacement mineralization grading 5.42% zinc, and 14.3 g/t silver,
including 6.23 m of 13.66% zinc, 0.10% lead, and 27.9 g/t
silver.
-
Hole NB24-022 intersected 84.50 m of vein and
replacement sulphides grading 2.92% zinc, 0.14% lead, and 5.7 g/t
silver, including 11.70 m of 8.64% zinc, 0.71% lead, and 12.96g/t
silver.
-
Hole NB24-021 intersected 14.77 m of stratiform
sulphide (estimated true width 11 m) grading 3.40% zinc, 0.36%
lead, and 19.6 g/t silver, including 4.15 m (estimated true width
of 3.2 m) grading 7.28% zinc, 0.29% lead, and 22.7 g/t silver. The
hole also intercepted 35.40 m of vein and replacement style
mineralization grading 3.1% zinc and 4.8 g/t silver, including 12 m
of 6.19% zinc and 6.6 g/t silver; and, 32.74 m of vein and
replacement style mineralization grading 2.26% zinc, 0.56% lead,
and 5.2 g/t silver, including 4.45 m grading 6.84% zinc and 8.6 g/t
silver.
-
Hole NB24-011 intersected 26.81 m of vein and
replacement style mineralization grading 2.42% zinc, 0.47% lead,
and 11.5 g/t silver, including 6.46 m of 5.51% zinc, 0.65% lead,
and 15 g/t silver.
-
Hole NB24-010 was abandoned before reaching its
target; however, it still intersected three intervals of vein and
replacement mineralization: 4.65 m grading 3.62% zinc and 6.0 g/t
silver; 3.00 m grading 6.82% zinc and 7.6 g/t silver; and, 6.62 m
grading 3.19% zinc, 0.22% lead, and 21.6 g/t silver.
See Tables 1 to 3, Cross Sections C–C’, N–N’,
U–U’ and Map 2 below for further details.
The holes in this release are step-out and
infill holes that tested the vein and breccia mineralization,
laminated stratiform mineralization, and massive sulphide zones in
the central portion of Boundary Zone. No 2024 drill holes were
included in the 2024 Mineral Resource Estimate and represent growth
potential above and beyond Fireweed’s current Mineral Resource.
Next Steps
The Company has currently released 17 of 49
holes drilled in 2024. The assay results and interpretations for
the remaining holes will be released as they are received and
interpreted by the company.
Qualified Person Statement
Technical information in this news release has
been reviewed and approved by Fireweed Metals Senior Geologist, Ian
Carr, P.Geo. (BC), a ‘Qualified Person’ as defined under Canadian
National Instrument 43-101. Mr. Carr is not independent of the
Company in accordance with NI 43-101.
Fireweed Metals Corp. is an exploration company
focused on unlocking value in a new critical metals district
located in Northern Canada. Fireweed is 100% owner of the Macpass
District, a large and highly prospective 977 km2 land package. The
Macpass District includes the Macpass zinc-lead-silver project and
the Mactung tungsten project. A Lundin Group company, Fireweed is
strongly positioned to create meaningful value.
Fireweed trades on the TSX Venture Exchange
under the trading symbol “FWZ”, on the OTCQX Best
Market under the symbol “FWEDF”, and on the
Frankfurt Stock Exchange under the trading symbol
“M0G”.
Additional information about Fireweed and its
projects can be found on the Company’s website
at FireweedMetals.com and at www.sedarplus.com
ON BEHALF OF FIREWEED METALS CORP.
“Peter Hemstead”Interim CEO
& Director
Neither the TSX Venture Exchange nor its
Regulation Services Provider (as that term is defined in the
policies of the TSX Venture Exchange) accepts responsibility for
the adequacy or accuracy of this release.
Data Verification
The diamond drill core logging and sampling
program was carried out under a rigorous quality assurance /
quality control program using industry best practices. Drill
intersections in this release are NQ2 size (50.5 mm/ 1.99-inch
diameter) or HQ size (63.5 mm/ 2.50-inch diameter) core, with
recoveries typically above 85% unless otherwise noted in the
results tables. After drilling, core was cleaned, logged for
geology, structure, and geotechnical characteristics, then marked
for sampling and photographed on site. Certain cores were selected
for core scanning using light detection and ranging (LiDAR),
short-wave infrared (SWIR), X-ray fluorescence (XRF), and high
resolution RGB image capture. The cores for analyses were marked
for sampling based on geological intervals with individual samples
2 m or less in length, with 1 m samples within mineralized zones.
Drill core was cut lengthwise in half with a core saw; half-core
was sent for assays reported in this news release, and the other
half is stored on site for reference. Bulk density was determined
on site for the entire length of each assay sample by measurement
of mass in air and mass in water. Sample duplicate bulk density
determinations and in-house bulk density standard determinations
were each made at a rate of 5%. Since 2017, four in-house bulk
density standards (mineralized drill core from the Tom deposit that
span a range of densities) have been used and show an acceptable
long-term precision. Certified standard masses are used to
calibrate the scale balance used for bulk density
determinations.
A total of 5% assay standards or blanks and 5%
core duplicates are included in the sample stream as a quality
control measure and are reviewed after analyses are received.
Standards and blanks in 2024 drill results to date have been
approved as acceptable. Duplicate data add to the long-term
estimates of precision for assay data on the project and precision
for drill results reported is deemed to be within acceptable
levels. Samples were sent to the Bureau Veritas (BV) preparation
laboratory in Whitehorse, Yukon, where the samples were crushed and
a 500 g split was sent to the BV laboratory in Vancouver, B.C to be
pulverized to 85% passing 200 mesh size pulps. Clean crush material
was passed through the crusher and clean silica was pulverized
between each sample. The pulps were analyzed by 1:1:1 Aqua Regia
digestion followed by Inductively Coupled Plasma Mass Spectrometry
(ICP-ES/ICP-MS) multi-element analyses (BV Code AQ270). All samples
were also analyzed for multiple elements by lithium borate fusion
and X-ray fluorescence analysis (XRF) finish (BV Code LF725).
Over-limit lead (>25.0%) and zinc (>24.0%) were analyzed by
lithium borate fusion with XRF finish (BV Code LF726). For BV
samples, silver is reported in this news release by method AQ270,
and zinc and lead are reported by LF725 or LF726. Bureau Veritas
(Vancouver) is an independent, international ISO/IEC 17025:2017
accredited laboratory.
Assay values may appear rounded to one decimal
place but are given in full in Table 1, and Cross Sections where
zinc and lead grades are reported to two decimal places.
Results in this news release are length and
bulk-density weighted averages as would be used in a Mineral
Resource estimate. Length and bulk-density weighted averages have
been reported as these most accurately represent the average
metal-content of the intersections.
True widths for primary intervals are estimated
by measuring perpendicular to strike within the short axis of a
stratiform wireframe that has been constructed in 3D around the
mineralized intercepts at Boundary Zone based on assay results,
geological logging, stratigraphic correlation, and bedding
measurements from oriented core. The massive sulphide
mineralization and laminated mineralization at Boundary Zone are
mostly stratiform (oriented parallel to bedding), therefore the
true width, or thickness, of the zone is estimated perpendicular to
both the strike and dip direction of bedding. Vein and breccia
mineralization at Boundary Zone are interpreted to be stockworks
with variable shapes and true widths cannot be accurately
estimated, therefore only intersected widths are reported, and true
widths are marked as N/A in the assay tables. True widths are
rounded to the nearest metre for widths over 10 m and to the
nearest 0.1 m for widths less than 10 m, as this better reflects
the precision of the estimates. True widths should be regarded as
approximate as these are derived from an estimation that uses a
preliminary interpretation of the geological model. True widths for
nested intervals (marked as “Including” in results tables) are
estimated using a ratio of included to primary intersected widths
to attribute appropriate portions of the true width of the primary
interval to the nested intervals.
Cautionary Statements
Forward Looking Statements
This news release contains “forward-looking”
statements and information (“forward-looking statements”). All
statements, other than statements of historical facts, included
herein, including, without limitation, statements relating to
interpretation of drill results, targets for exploration, potential
extensions of mineralized zones, future work plans, the use of
funds, and the potential of the Company’s projects, are forward
looking statements. Forward-looking statements are frequently, but
not always, identified by words such as "expects”, "anticipates”,
"believes”, "intends”, "estimates”, "potential”, "possible”, and
similar expressions, or statements that events, conditions, or
results "will”, "may”, "could”, or "should” occur or be achieved.
Forward-looking statements are based on the beliefs of Company
management, as well as assumptions made by and information
currently available to Company management and reflect the beliefs,
opinions, and projections on the date the statements are made.
Forward-looking statements involve various risks and uncertainties
and accordingly, readers are advised not to place undue reliance on
forward-looking statements. There can be no assurance that such
statements will prove to be accurate, and actual results and future
events could differ materially from those anticipated in such
statements. Important factors that could cause actual results to
differ materially from the Company's expectations include but are
not limited to, exploration and development risks, unanticipated
reclamation expenses, expenditure and financing requirements,
general economic conditions, changes in financial markets, the
ability to properly and efficiently staff the Company’s operations,
the sufficiency of working capital and funding for continued
operations, title matters, First Nations relations, operating
hazards, political and economic factors, competitive factors, metal
prices, relationships with vendors and strategic partners,
governmental regulations and oversight, permitting, seasonality and
weather, technological change, industry practices, uncertainties
involved in the interpretation of drilling results and laboratory
tests, and one-time events. The Company assumes no obligation to
update forward‐looking statements or beliefs, opinions, projections
or other factors, except as required by law.
Footnotes and References
*Zinc equivalency is based on a price of
USD$1.40/lb Zn, USD$1.10/lb Pb, and USD$25/oz Ag, CAD:USD exchange
rate of 1.32, and a number of operating cost and metallurgical
assumptions specific to each deposit or domain2.
1References to relative size, grade, and metal
content of the Macpass resources and Mactung resources in
comparison to other tungsten, zinc, gallium, and germanium deposits
elsewhere in the world, respectively, are based on review of the
Standard & Poor’s Global Market Intelligence Capital IQ
database.
2: For Tom, Jason, End Zone, and Boundary Zone
Mineral Resources, see the technical report entitled “Technical
Report for NI 43-101, Macpass Project, Yukon, Canada” with
effective date September 4th, 2024 filed on Sedar+ here Pierre
Landry, P.Geo. is independent of Fireweed Metals Corp., and a
‘Qualified Person’ as defined under Canadian National Instrument
43-101. Pierre Landry, of SLR, is responsible for the Tom, Jason,
End Zone, and Boundary Zone Mineral Resource Estimates.
3: For Mactung Mineral Resources, see Fireweed’s
technical report entitled “NI 43-101 Technical Report, Mactung
Project, Yukon Territory, Canada,” with effective date July 28,
2023 filed on https://www.sedarplus.ca/. Garth Kirkham, P.Geo. is
independent of Fireweed Metals Corp., and a ‘Qualified Person’ as
defined under Canadian National Instrument 43-101. Garth Kirkham,
of Kirkham Geosystems Limited., is responsible for the Mactung
Mineral Resource Estimate.
Contact: Alex CampbellPhone: +1 (604) 689-7842
Email: info@fireweedmetals.com
Map 1: Macpass Project and
Mactung Project locationsMap 1 is available at
https://www.globenewswire.com/NewsRoom/AttachmentNg/b0b406b4-597e-4dfa-9f71-4fdd32a7daa2
Map 2: Composite intervals in
2024 drilling and pre-2024 drilling with constrained resource
projection to surface and proposed pit shellMap 2 is available at
https://www.globenewswire.com/NewsRoom/AttachmentNg/dd2f2ae8-da33-4f8a-b176-c41282d3587a
Figure 1: Cross section C to C' NB24-014 and
NB24-024Figure 1 is available at
https://www.globenewswire.com/NewsRoom/AttachmentNg/b14ec90c-c485-4ea0-86d6-0f1c3b869bee
Figure 2: Cross section N to N' NB24-006,
NB24-010, and NB24-011Figure 2 is available at
https://www.globenewswire.com/NewsRoom/AttachmentNg/f37e64f9-47be-429e-b530-53c1bcc61eea
Figure 3: Cross section U to U' NB24-021,
NB24-022, and NB24-023Figure 3 is available at
https://www.globenewswire.com/NewsRoom/AttachmentNg/f0c11ac1-4eb1-4d77-988f-7c189c6e1ea5
Photo 1: Galena and
sphalerite rich massive sulphides in NB24-014 360.3 to 366.0 mPhoto
1 is available at
https://www.globenewswire.com/NewsRoom/AttachmentNg/b2de0c42-ce55-4ab6-ad16-2c4425fe7c12
Photo 2: Galena and sphalerite
rich massive sulphides in NB24-024 389.9 to 396.0 mPhoto 2 is
available at
https://www.globenewswire.com/NewsRoom/AttachmentNg/43deeead-ed98-482d-9e7f-84976e09b3a3
Table 1: NB24-006, NB24-010, NB24-011,
NB24-012, NB24-014, NB24-021, NB24-022, NB24-023, and NB24-024
drill results
Drillhole |
Interval |
From (m) |
To (m) |
Interval Width (m) |
Est. True Width (m) ‡ |
Zinc (%) |
Lead (%) |
Silver (g/t) |
Gallium (g/t) |
Germanium (g/t) |
Bulk Density
(t/m3) |
NB24-006 |
Entire Hole† |
0.00 |
331.00 |
331.00 |
N/A |
1.88 |
0.29 |
8.7 |
8.48 |
10.93 |
3.01 |
NB24-006 |
Primary |
23.40 |
63.01 |
39.61 |
N/A |
5.42 |
0.06 |
14.3 |
8.17 |
15.59 |
3.40 |
NB24-006 |
Including |
51.52 |
57.75 |
6.23 |
N/A |
13.66 |
0.10 |
27.9 |
8.79 |
41.28 |
3.73 |
NB24-006 |
Primary |
73.36 |
81.49 |
8.13 |
N/A |
2.01 |
0.09 |
14.9 |
7.92 |
5.78 |
2.94 |
NB24-006 |
Primary |
104.28 |
128.70 |
24.42 |
N/A |
4.69 |
0.49 |
15.1 |
9.22 |
13.81 |
3.01 |
NB24-006 |
Including |
104.28 |
109.61 |
5.33 |
N/A |
12.08 |
0.02 |
26.5 |
17.54 |
39.80 |
2.90 |
NB24-006 |
Primary |
198.38 |
270.29 |
71.91 |
14 |
2.73 |
0.53 |
14.1 |
10.21 |
8.44 |
3.18 |
NB24-006 |
Including |
201.20 |
211.00 |
9.80 |
9.8 |
9.34 |
0.50 |
23.4 |
18.27 |
26.05 |
3.12 |
NB24-006 |
>Including |
206.69 |
211.00 |
4.31 |
4.3 |
11.36 |
0.82 |
20.5 |
19.90 |
19.92 |
3.01 |
NB24-006 |
Including |
234.22 |
239.97 |
5.75 |
N/A |
5.39 |
0.49 |
27.4 |
11.96 |
11.93 |
3.56 |
NB24-006 |
Primary |
281.43 |
294.92 |
13.49 |
N/A |
0.97 |
2.14 |
26.9 |
11.00 |
5.63 |
3.41 |
NB24-010 |
Entire Hole† |
0.00 |
125.00 |
125.00 |
N/A |
0.93 |
0.03 |
4.1 |
8.01 |
6.44 |
2.89 |
NB24-010 |
Primary |
26.85 |
31.50 |
4.65 |
N/A |
3.62 |
0.02 |
6.0 |
11.23 |
11.41 |
3.29 |
NB24-010 |
Primary |
71.00 |
74.00 |
3.00 |
N/A |
6.82 |
0.04 |
7.6 |
13.63 |
17.81 |
2.97 |
NB24-010 |
Primary |
101.00 |
107.62 |
6.62 |
N/A |
3.19 |
0.22 |
21.6 |
9.30 |
6.24 |
3.60 |
NB24-011 |
Entire Hole† |
0.00 |
300.00 |
300.00 |
N/A |
0.87 |
0.07 |
3.5 |
6.91 |
6.22 |
2.89 |
NB24-011 |
Primary |
32.25 |
61.82 |
29.57 |
N/A |
1.54 |
0.02 |
3.2 |
5.29 |
3.12 |
3.08 |
NB24-011 |
Primary |
79.24 |
88.45 |
9.21 |
N/A |
7.04 |
0.03 |
13.1 |
13.53 |
21.95 |
2.98 |
NB24-011 |
Including |
79.24 |
83.26 |
4.02 |
N/A |
12.69 |
0.05 |
23.0 |
13.61 |
31.84 |
2.99 |
NB24-011 |
Primary |
111.56 |
115.51 |
3.95 |
N/A |
3.69 |
0.24 |
17.9 |
10.65 |
9.43 |
3.09 |
NB24-011 |
Primary |
198.08 |
224.89 |
26.81 |
16 |
2.42 |
0.47 |
11.5 |
8.98 |
4.99 |
3.22 |
NB24-011 |
Including |
218.43 |
224.89 |
6.46 |
3.9 |
5.51 |
0.65 |
15.0 |
15.46 |
5.35 |
3.27 |
NB24-011 |
Primary |
239.22 |
246.12 |
6.90 |
N/A |
2.65 |
0.18 |
9.5 |
11.90 |
4.46 |
3.07 |
NB24-014 |
Entire Hole† |
0.00 |
445.00 |
445.00 |
N/A |
2.63 |
0.71 |
17.2 |
9.43 |
14.41 |
3.06 |
NB24-014 |
Primary |
146.95 |
253.80 |
106.85 |
N/A |
4.61 |
0.52 |
12.0 |
11.88 |
15.06 |
3.33 |
NB24-014 |
Including |
189.65 |
253.80 |
64.15 |
N/A |
6.14 |
0.51 |
15.1 |
13.13 |
19.72 |
3.27 |
NB24-014 |
>Including |
195.47 |
211.79 |
16.32 |
N/A |
9.98 |
0.28 |
17.0 |
18.63 |
23.94 |
3.41 |
NB24-014 |
Primary |
311.50 |
366.08 |
54.58 |
31 |
8.68 |
3.68 |
87.4 |
12.34 |
21.63 |
3.65 |
NB24-014 |
Including |
332.50 |
366.08 |
33.58 |
19 |
11.61 |
5.29 |
121.4 |
10.25 |
29.03 |
4.08 |
NB24-014 |
>Including |
340.00 |
366.08 |
26.08 |
15 |
13.15 |
6.35 |
139.9 |
10.92 |
32.98 |
4.29 |
NB24-021 |
Entire Hole† |
0.00 |
302.00 |
302.00 |
N/A |
1.17 |
0.11 |
5.3 |
6.27 |
3.82 |
2.98 |
NB24-021 |
Primary |
50.60 |
86.00 |
35.40 |
N/A |
3.10 |
0.02 |
4.8 |
8.19 |
4.79 |
3.05 |
NB24-021 |
Including |
74.00 |
86.00 |
12.00 |
N/A |
6.19 |
0.02 |
6.6 |
8.56 |
6.16 |
3.01 |
NB24-021 |
Primary |
102.08 |
134.82 |
32.74 |
N/A |
2.26 |
0.56 |
5.2 |
5.85 |
2.48 |
2.75 |
NB24-021 |
Including |
114.40 |
118.85 |
4.45 |
N/A |
6.84 |
0.01 |
8.6 |
8.38 |
10.68 |
2.80 |
NB24-021 |
Primary |
175.00 |
178.00 |
3.00 |
N/A |
3.98 |
0.37 |
19.7 |
5.93 |
8.36 |
3.15 |
NB24-021 |
Primary |
244.85 |
259.62 |
14.77 |
11 |
3.40 |
0.36 |
19.6 |
12.19 |
6.65 |
3.35 |
NB24-021 |
Including |
248.00 |
252.15 |
4.15 |
3.2 |
7.28 |
0.29 |
22.7 |
15.64 |
11.45 |
3.97 |
NB24-021 |
Primary |
282.00 |
290.00 |
8.00 |
N/A |
1.81 |
0.10 |
15.9 |
4.80 |
6.07 |
3.08 |
NB24-022 |
Entire Hole† |
0.00 |
289.00 |
289.00 |
N/A |
1.49 |
0.10 |
4.9 |
6.65 |
6.66 |
2.96 |
NB24-022 |
Primary |
19.50 |
104.00 |
84.50 |
N/A |
2.92 |
0.14 |
5.7 |
7.67 |
4.81 |
2.71 |
NB24-022 |
Including |
92.30 |
104.00 |
11.70 |
N/A |
8.64 |
0.71 |
17.1 |
12.96 |
11.48 |
2.80 |
NB24-022 |
>Including |
101.00 |
104.00 |
3.00 |
N/A |
20.92 |
2.54 |
49.2 |
17.28 |
19.84 |
2.90 |
NB24-022 |
Primary |
117.10 |
142.50 |
25.40 |
N/A |
1.70 |
0.08 |
8.8 |
5.10 |
2.44 |
3.04 |
NB24-022 |
Primary |
225.59 |
264.77 |
39.18 |
N/A |
3.07 |
0.14 |
5.7 |
11.06 |
9.70 |
3.31 |
NB24-022 |
Including |
250.00 |
263.50 |
13.50 |
N/A |
5.82 |
0.06 |
6.8 |
11.60 |
14.39 |
3.44 |
NB24-023 |
Entire Hole† |
0.00 |
229.00 |
229.00 |
N/A |
1.01 |
0.22 |
5.8 |
7.33 |
7.34 |
2.85 |
NB24-023 |
Primary |
34.00 |
36.00 |
2.00 |
N/A |
6.61 |
0.04 |
7.2 |
9.00 |
16.59 |
2.91 |
NB24-023 |
Primary |
62.50 |
108.00 |
45.50 |
N/A |
3.30 |
0.60 |
14.2 |
19.64 |
8.50 |
2.91 |
NB24-023 |
Including |
100.00 |
107.55 |
7.55 |
N/A |
6.22 |
1.74 |
28.7 |
16.68 |
19.08 |
3.28 |
NB24-023 |
Primary |
196.00 |
200.50 |
4.50 |
N/A |
2.39 |
0.55 |
12.7 |
8.00 |
4.69 |
3.44 |
NB24-024 |
Entire Hole† |
0.00 |
682.00 |
682.00 |
N/A |
0.70 |
0.10 |
4.1 |
4.70 |
10.94 |
2.81 |
NB24-024 |
Primary |
146.30 |
169.40 |
23.10 |
N/A |
5.00 |
0.02 |
9.6 |
7.98 |
15.05 |
2.91 |
NB24-024 |
Including |
146.30 |
153.99 |
7.69 |
N/A |
9.42 |
0.03 |
15.9 |
10.40 |
24.74 |
3.05 |
NB24-024 |
>Including |
146.30 |
149.52 |
3.22 |
N/A |
14.67 |
0.03 |
22.8 |
13.98 |
42.54 |
3.10 |
NB24-024 |
Primary |
182.32 |
185.08 |
2.76 |
N/A |
6.09 |
0.01 |
7.5 |
13.42 |
7.49 |
2.82 |
NB24-024 |
Primary |
293.02 |
296.41 |
3.39 |
N/A |
5.48 |
0.04 |
15.8 |
9.29 |
13.37 |
3.04 |
NB24-024 |
Primary |
383.50 |
403.23 |
19.73 |
15 |
9.40 |
1.07 |
49.7 |
14.15 |
28.23 |
3.59 |
NB24-024 |
Including |
383.50 |
397.63 |
14.13 |
10 |
11.79 |
1.24 |
61.6 |
15.29 |
31.93 |
3.84 |
NB24-024 |
>Including |
384.50 |
395.29 |
10.79 |
8.0 |
13.39 |
1.30 |
70.0 |
15.95 |
34.24 |
4.08 |
NB24-024 |
Primary |
582.31 |
589.21 |
6.90 |
N/A |
2.70 |
4.35 |
44.5 |
4.83 |
2.73 |
2.92 |
† Entire hole intervals contain large continuous
sections of very low grade or not mineralized material (below 1.41%
zinc)—intersections of continuous higher-grade material (>1.41%
zinc) are listed as Primary and Included intervals and represent
mineralized material.‡ See “Data Verification” for a description of
true width calculations
Table 2: 2024 Drilling
Summary
Hole ID |
Length (m) |
Target |
Significant Intersection |
Type |
NB24-001 |
685 |
Boundary |
Results Disclosed September 24, 2024 |
Step Out |
NB24-002 |
138 |
Popcorn |
Results Disclosed October 8, 2024 |
Exploration |
NB24-003 |
150 |
Popcorn |
Results Disclosed October 8, 2024 |
Exploration |
NB24-004 |
147 |
Popcorn |
Results Disclosed October 8, 2024 |
Exploration |
NB24-005 |
141 |
Popcorn |
Results Disclosed October 4, 2024 |
Exploration |
NB24-006 |
331 |
Boundary |
Moderate Zone Encountered |
Step Out/ Infill |
NB24-007 |
236 |
Popcorn |
Results Disclosed October 8, 2024 |
Exploration |
NB24-008 |
826 |
Boundary |
Results Disclosed September 24, 2024 |
Step Out |
NB24-009 |
328 |
Popcorn |
Results Disclosed October 8, 2024 |
Exploration |
NB24-010 |
125 |
Boundary |
Vein and Replacement Mineralization |
Step Out/ Infill |
NB24-011 |
300 |
Boundary |
Moderate Zone Encountered |
Step Out/ Infill |
NB24-012 |
337 |
Popcorn |
Results Disclosed October 8, 2024 |
Exploration |
NB24-014 |
445 |
Boundary |
Wide Zone Encountered |
Step Out/ Infill |
NB24-021 |
302 |
Boundary |
Vein and Replacement Mineralization |
Step Out/ Infill |
NB24-022 |
289 |
Boundary |
Vein and Replacement Mineralization |
Step Out/ Infill |
NB24-023 |
229 |
Boundary |
Vein and Replacement Mineralization |
Step Out/ Infill |
NB24-024 |
682 |
Boundary |
Wide Zone Encountered |
Step Out |
Table 3: Drill Hole Collar
Information
Drillhole |
Zone |
Length (m) |
Easting |
Northing |
Elevation (m.s.l) |
Azimuth (°) |
Dip (°) |
NB24-001 |
Boundary |
685 |
422106 |
7010813 |
1274 |
197.76 |
-68.95 |
NB24-002 |
Popcorn |
138 |
423367 |
7010711 |
1225 |
207.05 |
-49.69 |
NB24-003 |
Popcorn |
150 |
423367 |
7010711 |
1225 |
210.60 |
-80.11 |
NB24-004 |
Popcorn |
147 |
423485 |
7010680 |
1224 |
206.58 |
-49.73 |
NB24-005 |
Popcorn |
141 |
423485 |
7010680 |
1224 |
207.51 |
-79.50 |
NB24-006 |
Boundary |
331 |
422263 |
7010490 |
1188 |
208.61 |
-59.98 |
NB24-007 |
Popcorn |
236 |
423328 |
7010756 |
1242 |
212.24 |
-53.35 |
NB24-008 |
Boundary |
826 |
422106 |
7010814 |
1274 |
196.43 |
-81.81 |
NB24-009 |
Popcorn |
327 |
423328 |
7010756 |
1242 |
214.34 |
-70.84 |
NB24-010 |
Boundary |
125 |
422262 |
7010489 |
1187 |
208.61 |
-44.99 |
NB24-011 |
Boundary |
300 |
422262 |
7010490 |
1187 |
210.09 |
-49.88 |
NB24-012 |
Popcorn |
337 |
423472 |
7010768 |
1234 |
209.66 |
-62.90 |
NB24-014 |
Boundary |
445 |
422015 |
7010360 |
1153 |
027.80 |
-56.60 |
NB24-021 |
Boundary |
302 |
422187 |
7010527 |
1195 |
210.26 |
-80.00 |
NB24-022 |
Boundary |
289 |
422186 |
7010526 |
1195 |
207.70 |
-64.88 |
NB24-023 |
Boundary |
229 |
422186 |
7010526 |
1196 |
208.96 |
-49.65 |
NB24-024 |
Boundary |
682 |
422205 |
7010758 |
1264 |
204.43 |
-69.33 |
Coordinates listed in NAD83 UTM Zone 9N.
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