Western Exploration Inc. (TSXV: WEX; OTCQX: WEXPF) (the
"Company" or "Western Exploration") is pleased to
announce the results of 2023 metallurgical testing.
This press release features multimedia. View
the full release here:
https://www.businesswire.com/news/home/20240117631768/en/
Figure 1 : Location of 2022 PQ
Metallurgical test holes and key intercepts, relative to resource
zones and the modeled US$1,300 grade shell for the Doby George
deposit. (Graphic: Western Exploration)
Highlights from the work include:
- Column test work conducted by McClelland Laboratories, Inc.
("MLI") of Reno, Nevada on PQ core from 2022 drilling
returned (i) average leach recoveries of 65% (range 56.1% to 77.8%)
for -50 mm (2 inch) feed size, and (ii) average recoveries of 72%
(range 64% to 81.8%) for 80%-12.7 mm (1/2 inch) feed size.
- Cyanide consumption was low and expected to be below 0.4
kilogram NaCN/metric ton ("kgNaCN/mt") of ore for 12.7 mm
crush size and hydrated lime consumption of between 0.7 to 2.0
kilogram/metric ton ("kg/mt") of ore during commercial
leaching.
- "Load permeability" tests on residual leached 12.7 mm material
indicated adequate permeability for commercial heap leach stack
heights of up to 91 meters (300 feet) without any pretreatment
agglomeration.
Western Exploration CEO, Darcy Marud, said, "Western Exploration
is pleased that the Doby George metallurgical results report high
leach recovery rates that are consistent with past metallurgical
work. The completed test work is a key milestone identified in the
2021 technical report and a key component needed to advance the
Doby George deposits towards a pre-feasibility study."
2023 Column Leach Metallurgy Results
A detailed heap leach testing program was conducted on drill
composites representing gold bearing oxide and mixed materials
collected from the Doby George deposit with PQ drilling in 2022
(Figure 1). Agitated cyanidation bottle roll tests were conducted
on a total of 46 drill core composites to obtain preliminary
information regarding heap leach amenability and ore variability.
The results of the bottle roll tests were reported in the Company's
news release dated July 10, 2023 and entitled "Western Exploration
Reports Average of 69.3% Gold Extraction from First Round of
Metallurgical Test Work at Doby George, Aura Project, NV". Based on
the results of the bottle roll testing, a total of seven master
(column test) composites were prepared for column leach testing.
Five oxide and one blended oxide/mixed column leach tests were
conducted at -50 mm (2 inch) and 80%-12.7 mm (1/2inch) feed sizes.
A seventh composite, representing mixed material from deep within
the West Ridge area, was tested at an 80%-12.7 mm feed size. The
column tests were conducted to determine gold recovery, recovery
rate, reagent consumptions and feed size sensitivity under
simulated heap leaching conditions. Summary results are presented
in Table 1.
Table 1 : Summary Metallurgical Results, Cyanide Leach Tests,
Doby George Column Composites
Gram Au/metric ton ore
Reagent Requirements,
kilogram/metric ton ore
Feed Size
Test Type*
Leach Time, Days
Au Rec., %
Extracted
Tail
Calculated Head
Avg. Head
NaCN Consumed
Lime Added
4838-047, NW Ridge, DGC789,
Oxide
-50 mm
CLT
113
77.8
1.12
0.32
1.44
1.54
0.41
0.9
80%-12.7 mm
CLT
114
81.8
1.35
0.30
1.65
1.54
0.78
0.9
80%-1.7 mm
BRT
4
85.5
1.30
0.22
1.52
1.54
<0.10
0.9
4838-048, West Ridge Starter
Pit - Upper, DGC790/DGC791, Oxide
-50 mm
CLT
113
56.1
1.05
0.82
1.87
1.77
0.46
0.8
80%-12.7 mm
CLT
114
64.0
1.26
0.71
1.97
1.77
0.82
0.8
80%-12.7 mm
CLT
114
68.1
1.28
0.60
1.88
1.77
0.86
0.8
80%-1.7 mm
BRT
4
71.9
1.23
0.48
1.71
1.77
0.26
0.8
4838-049, West Ridge Starter
Pit - Lower, DGC790/791, Oxide
-50 mm
CLT
113
60.2
1.12
0.74
1.86
1.73
0.50
0.7
80%-12.7 mm
CLT
120
70.1
1.29
0.55
1.84
1.73
0.81
0.7
80%-1.7 mm
BRT
4
77.1
1.31
0.39
1.70
1.73
0.20
0.7
4838-050, Daylight, DGC792,
Oxide
-50 mm
CLT
133
69.9
1.14
0.49
1.63
1.50
0.95
2.0
80%-12.7 mm
CLT
134
78.8
1.30
0.35
1.65
1.50
1.11
2.0
80%-1.7 mm
BRT
4
80.1
1.25
0.31
1.56
1.50
0.12
2.0
4838-051, Daylight, DGC793,
Oxide
-50 mm
CLT
120
57.4
0.89
0.66
1.55
1.32
0.75
1.9
80%-12.7 mm
CLT
120
66.7
1.00
0.50
1.50
1.32
1.05
1.9
80%-1.7 mm
BRT
4
65.5
0.91
0.48
1.39
1.32
0.14
1.9
4838-054, Twilight,
DGC794/DGC795, Oxide/Mixed
-50 mm
CLT
113
67.9
1.65
0.78
2.43
2.42
0.64
0.9
80%-12.7 mm
CLT
120
72.9
1.83
0.68
2.51
2.42
0.96
0.9
80%-1.7 mm
BRT
4
71.4
1.80
0.72
2.52
2.42
0.19
0.9
4838-055, West Ridge Deep,
DGC796, Mixed
80%-12.7 mm
CLT
30
6.1
0.06
0.93
0.99
0.99
0.18
1.1
80%-1.7 mm
BRT
4
3.2
0.03
0.91
0.94
0.99
0.26
1.1
*CLT is Column Leach Test
BRT is Bottle Roll Test (previously reported in the Company's news
release dated July 10, 2023 and entitled "Western Exploration
Reports Average of 69.3% Gold Extraction from First Round of
Metallurgical Test Work at Doby George, Aura Project, NV")
All five oxide composites were amenable to simulated heap leach
cyanidation treatment at both feed sizes evaluated. This includes
composites from the West Ridge and Daylight areas. Gold recoveries
obtained at the -50 mm feed size ranged from 56.1% to 77.8% and
averaged 64.3% in 113 to 133 days of leaching. Crushing the
composites to 80%-12.7 mm in size was effective in increasing gold
recoveries. Gold recoveries obtained from the oxide composites at
the -12.7 mm feed size ranged from 64.0% to 81.8% and averaged
71.6% in 114 to 134 days.
A single composite of material from the Twilight area was
tested. That composite included a blend of oxide and mixed
material. Gold recoveries obtained from the composite at the -50 mm
and -12.7 mm feed sizes were 67.9% in 113 days and 72.9% in 120
days.
A single composite of deep mixed material from the West Ridge
area was column tested at the -12.7 mm size. That material was not
amenable to heap leaching at that feed size. The column test gold
recovery was only 6.1% and leaching was complete in less than 30
days. This composite had an elevated sulfide sulfur content (0.47%)
and relatively low CN/FA ratio (7.7% Au). Locking of gold in
sulfide minerals may be the cause for the refractory nature of the
material.
Gold recovery rates were moderate, and with the exception of
composite 4838-047, were not particularly sensitive to feed size
(Figure 2-Figure 4). In the case of composite 4838-047,
crushing from -50 mm to -12.7 mm in size significantly increased
the gold recovery rate. In all cases gold extraction was
progressing at a slow rate (~1%/month average). On average after 60
days of leaching, approximately 95% of the final gold recovery was
completed for the 80%-12.7 mm feed size and 92% of the final gold
recovery for the -50 mm feed size.
Oxide and oxide/mixed column test cyanide consumptions were
moderate and ranged from 0.41 to 1.11 kgNaCN/mt of ore. Commercial
consumptions should be significantly lower and would probably not
exceed 0.4 kgNaCN/mt ore for heap leaching of the oxide material at
an 80% -12.7 mm feed size. The 0.7 to 2.0 kg/mt hydrated lime added
before leaching was sufficient for maintaining protective
alkalinity during leaching.
Fixed wall hydraulic conductivity tests conducted on the -12.7
mm feed size column leached residues showed that the material types
tested are expected to be adequately permeable for commercial heap
stack heights to up to 91 meters (330 feet) without the need for
agglomeration.
MLI recommends additional column leach test work on low grade
drill composites to further study the relationship of grade and
recovery, the evaluation of high-pressure grinding roll crushing on
higher grade material and additional ore variability bottle roll
test work for geometalurigical modeling of the deposit.
About Doby George
Doby George is one of the highest-grade, undeveloped open pit
heap leach resources in Nevada and one of three mineral deposits on
Western Exploration's 100% owned Aura gold-silver project located
in Nevada (the "Aura Project"). The Aura Project is located 32
kilometers north of the Jerritt Canyon mine, which has been in
continual operation since 1981. The deposit is an outcropping,
high-grade sediment-hosted mineral deposit, with multiple zones of
mineralization identified by drilling in a 1.7 x 0.8 kilometer area
(see Figure 5). The zone of oxidation extends 150 to 200 meters
below surface, while limited deep drilling has encountered
unoxidized gold mineralization at depths of over 600 meters below
surface.
Homestake Mining Company initially discovered the deposit in the
mid-1980s. Since that time, 836 drill holes have been completed,
totaling 116,355 meters of drilling. This includes 83 drill holes
totaling 23,760 meters that were drilled by Western Exploration LLC
between 1998 and 2022. Metallurgical test work completed on
oxidized material by Homestake Mining Company, Independence Mining
Company, and Atlas Precious Metals Inc., has indicated favorable
metallurgy for standard cyanide heap leach processing. Results from
the previous metallurgical testing completed on 52 bottle rolls and
23 column leach samples indicate that heap leach gold recoveries
approaching seventy percent can be expected via a crush of 1 to 1.5
inches.
In addition to an established mineral resource estimate (as
determined in accordance with National Instrument 43-101 –
Standards of Disclosure for Mineral Projects ("NI 43-101")) as
outlined in the NI 43-101 technical report entitled "2021 Updated
Resource Estimates and Technical Report for the Aura Gold-Silver
Project, Elko County, Nevada" dated October 20, 2021 (with an
effective date of October 14, 2021) (the "Technical Report"), the
Aura Project has well established infrastructure including
year-round accessibility by highway and county-maintained road and
nearby access to water and electricity (see Figure 6). Western
Exploration has exploration, development, and mining rights on 930
hectares of privately owned land through a mineral lease agreement
with a local landowner and may purchase those fee lands at any time
for the development of Doby George.
The 6,000-hectare Aura Project has identified mineral resources
in three different deposits (Doby George, Gravel Creek, and Wood
Gulch), as supported by Technical Report (see Table 2 below).
Table 2: Updated mineral resource estimates for the Aura Project
as contained in the Technical Report.
MINERAL RESOURCE
ESTIMATE(1)
Indicated
Inferred
Tonnes
Au (g/t)
Au (ozs)
Ag (g/t)
Ag (ozs)
AuEq (g/t)
AuEq (oz.)
Tonnes
Au (g/t)
Au (ozs)
Ag (g/t)
Ag (ozs)
AuEq (g/t)
AuEq (oz.)
Doby George(2)
12,922,000
0.98
407,000
-
-
0.98
407,000
4,999,000
0.73
118,000
-
-
0.73
118,000
Wood Gulch(3)
-
-
-
-
-
-
-
4,359,000
0.66
93,000
5.80
808,000
0.74
104,543
Gravel Creek(4)
1,315,000
4.73
200,000
75.0
3,169,000
5.81
245,271
2,744,000
4.16
367,000
60.20
5,307,000
5.02
442,814
TOTAL
14,237,000
1.33
607,000
75.0
3,169,000
1.43
652,271
12,102,000
1.48
578,000
15.74
6,115,000
1.71
665,357
Notes:
(1) Au equivalent oz assumes US$1,800 per oz Au and 70:1 ratio of
Ag:Au. (2) Pit constrained 0.2 g/t AuEq cutoff for oxide, 0.4 g/t
Au cutoff for mixed and 1.4 g/t Au cutoff for unoxidized. (3) Pit
constrained 0.2 g/t AuEq cutoff. (4) 3.0 g/t Au cutoff.
See "Cautionary Statements Regarding Estimates of Mineral
Resources" below.
About Western Exploration
Born from a 25-year history of advancing exploration projects in
Nevada as a private company, today, Western Exploration is composed
of an experienced team of precious metals experts that aims to lead
Western Exploration to becoming a premiere gold and silver
development company in North America. The Company's principal asset
is the 100% owned Aura gold-silver project, located approximately
120 kilometers/75 miles north of the city of Elko, Nevada, and
includes three unique gold and silver deposits: Doby George, Gravel
Creek, and Wood Gulch. Additional information regarding Western
Exploration and the Aura Project can be found on the Company's
website and on SEDAR+ (www.sedarplus.ca) under the Company's issuer
profile.
Qualified Person Approval
The scientific and technical information in this news release
has been reviewed and approved by Mark Hawksworth, General Manager
of the Aura Project, and Jack McPartland of MLI, each of whom is a
"qualified person" within the meaning of NI 43-101.
Quality Assurance / Quality Control
Exploration program design, Quality Assurance/Quality Control
("QA/QC") and the interpretation of results is performed by
qualified persons employing a QA/QC program consistent with NI
43-101 and industry best practices. For Western Exploration legacy
samples, standards and blanks and duplicates were generally
included approximately every 20th sample for QA/QC purposes by the
Company as well as the lab. Approximately 5% of sample pulps are
sent to secondary laboratories for check assay. QA/QC controls are
not fully documented for legacy assays from the 1980s and 1990s but
Mine Development Associates conducted rigorous evaluation of
adjacent assay intervals as part of the Technical Report resource
calculations. Please see below under the heading "Cautionary Note
Regarding Forward-Looking Information" for further details
regarding the risks facing Western Exploration.
KLM Geophysics completed a three-line induced polarization &
resistivity (IP) survey over the Doby George area in July and
August 2023. Oversight of acquisition & processing was done by
Western Exploration LLC ("WEX") geologists and R. Ellis
acting as consultant to WEX. Data were collected using a
pole-dipole (PDP) array with electrode spacing of 200 metres
designed to acquire data to depths of 500 metres southwest of the
Doby George mineralization. Data processing and editing was done by
S. Walker of Campbell & Walker Geophysics Ltd. acting as
consultant to KLM Geophysics. 2D inversion modeling was done by S.
Walker using the UBC code and by R. Ellis using the Seequent VOXI
and Loki Res2DInv codes. The results were comparable although the
VOXI and UBC inversion were most similar and are used for
interpretation. Targeting comments in this press release are based
on recommendations presented by R. Ellis.
Metallurgical Test Work
Interval Preparation and Assay
A total of 431 drill hole interval samples were received for
preparation and assay. The samples were whole PQ drill core from
nine drill holes (DGC789 through DGC797) with an average length of
2.0 meters. Each interval sample was jaw-crushed to a nominal 50 mm
(2 inches) topsize. Crushed intervals were each thoroughly blended
by repeated coning and were quartered to obtain a split for finer
crushing. Each one-quarter split was crushed to approximately 2 mm
in size and was blended and split to obtain 0.3 kg for
pulverization. Each 0.3 kg split was pulverized to >95%-106µm
(150-mesh) and used for assay.
QC samples (blanks and standards) were provided by WEX, with the
drill hole interval samples. The blanks were crushed (-19 mm) rock
samples, which generally weighed <1 kg each. Those samples were
prepared with the corresponding drill interval samples in the order
specified by WEX (as reported in the assay certificates). Because
of their size and fineness, only the crushing to 2 mm in size,
splitting and pulverizing was required for the blanks. The
standards were received as assay pulps and were submitted for assay
with the drill hole interval assay pulps in the order specified by
WEX. MLI internal blanks and standards were also assayed as part of
MLI's normal QA/QC protocols.
Interval samples were assayed, using conventional fire assay
fusion (30 g)/AA method to determine gold and silver content.
Samples that assayed above 10 gAu/mt were reassayed using
conventional fire assay fusion (30 g)/gravimetric finish method to
determine gold content. All samples that assayed greater than 0.05
gAu/mt were analyzed using a standard cyanide shake analysis
procedure to determine gold content. The cyanide solubility
procedure used was an ambient, 1 hour shake test at 33.3% solids
with a 5.0 gNaCN/L solution.
Column Test Composite Preparation
Once bottle roll test results were reviewed, samples were
selected for preparation of seven column test composites. Coarsely
crushed (nominal 50 mm) drill interval rejects were combined to
produce composites 4838-047 through 4838-053 and 4838-055.
Each of composites 4838-052 and 4838-053 were thoroughly blended
by repeated coning and were quartered to obtain appropriately
weighted splits, which were combined to produce column test
composite 4838-054. Remaining material from composites 4838-052 and
4838-053 was retained for potential future testing.
Each column test composite was thoroughly blended by repeated
coning and was quartered to obtain approximately 300 kg for a
column leach test (210 kg from Comp. 4838-050, because of sample
limitations) and 50 to 75 kg for a head screen analysis.
Approximately 95 to 190 kg of each composite was also split for
crushing to 12.7 mm in size.
Each split for finer crushing (95 - 190 kg, depending on sample
availability) was stage-crushed to 80%-12.7 mm in size to obtain 75
kg for a column leach test, 20 kg for a head screen analysis and
triplicate 2 kg samples for head assay. A second 75 kg split was
also taken from composite 4838-048, for a duplicate column leach
test.
Each head assay split was crushed to minus 2mm in size and was
blended and split to obtain
0.3 kg for generation of an assay pulp. Each 0.3 kg sample was
pulverized to >95%-106µm in size and used for generation of head
assay pulps.
The ore charges did not require agglomeration pretreatment. Lime
(0.7 - 2.0 kg/mt) was mixed with the dry ore charges before column
loading procedures. Lime additions were based on bottle roll test
lime requirements. Ore charges were placed into the 30 cm I.D.
(-50mm feeds) or 15 cm I.D. (12.7mm feeds) x 3m (10') high leaching
columns in a manner to minimize particle segregation and
compaction.
Leaching was conducted by applying cyanide solution (0.5-gram
NaCN/Liter) over the ore charges at a rate of 9.6 Liter per hour/m2
(0.004 gallons per minute/ft2) of column cross-sectional area.
Pregnant effluent solutions were collected each 24-hour period.
Pregnant solution volumes were measured by weighing, and samples
were taken for gold and silver analysis using conventional ICP
methods. Free cyanide concentration and pH were determined for each
pregnant solution. Pregnant solutions were pumped through a
three-stage carbon circuit for adsorption of dissolved gold values.
Barren solution, with appropriate make-up reagent, was applied to
the ore charges daily. After leaching, freshwater rinsing was
conducted to remove residual cyanide (county requirement) and to
recover dissolved gold values. Moisture required to saturate the
ore charges (in process solution inventory), for agglomeration and
retained moistures were determined. Apparent ore bulk densities
were measured before and after leaching.
Drain down tests were conducted after rinsing was complete.
Tests were conducted by terminating solution application, and at
that time, measuring drain volume. Drain volumes were collected and
measured periodically by weighing until drain down was
complete.
After leaching, rinsing, and draining, residues were removed
from the columns and moisture samples were taken immediately.
Remaining leached residues were air dried, blended and split to
obtain a sample for a tail screen analysis. Tail screens were
conducted using the same procedures and size fractions as for the
head screens to determine residual gold and silver content and
distribution, and to obtain recovery by size fraction data. An
additional 20 kg split was taken from each 12.7mm feed size column
residue for load-permeability testing.
Load-permeability splits were shipped to NewFields in Elko, NV
for fixed-wall saturated hydraulic conductivity (load-permeability)
tests.
For additional information on the Aura Project, please see the
Technical Report, which has been prepared in accordance with the
requirements of NI 43-101, a copy of which is available on SEDAR+
(www.sedarplus.ca) under Western Exploration's issuer profile and
on Western Exploration's corporate website
(www.westernexploration.com).
Cautionary Statements Regarding Estimates of Mineral
Resources
This news release uses the terms measured mineral resources,
indicated mineral resources, and inferred mineral resources as a
relative measure of the level of confidence in the resource
estimate. Readers are cautioned that mineral resources are not
mineral reserves and that the economic viability of mineral
resources that are not mineral reserves has not been demonstrated.
The mineral resource estimate disclosed in this news release may be
materially affected by geology, environmental, permitting, legal,
title, socio-political, marketing, or other relevant issues. It
cannot be assumed that all or any part of the inferred mineral
resources will ever be upgraded to the category of indicated
mineral resource or measured mineral resource. The mineral resource
estimate is classified in accordance with the Canadian Institute of
Mining, Metallurgy and Petroleum's "CIM Definition Standards on
Mineral Resources and Mineral Reserves" (CIM) incorporated by
reference into NI 43-101. Under NI 43-101, estimates of inferred
mineral resources may not form the basis of feasibility or
pre-feasibility studies or economic studies except for preliminary
economic assessments. Readers are cautioned not to assume that
further work on the stated resources will lead to mineral reserves
that can be mined economically.
Inferred mineral resources have a great amount of uncertainty as
to their existence and as to whether they can be mined legally or
economically. On October 31, 2018, the U.S. Securities and Exchange
Commission adopted new mining disclosure rules ("S-K 1300") that
are more closely aligned with current industry and global
regulatory practices and standards, including NI 43-101, although
there are some differences in the two standards. Accordingly,
information concerning mineral deposits contain in this release may
not be comparable with information made public by U.S. companies
that report in accordance with S-K 1300.
Cautionary Note Regarding Forward-Looking Information
This news release may contain "forward-looking information" and
"forward-looking statements" within the meaning of the applicable
Canadian and United States securities legislation (collectively,
"forward-looking statements"). These forward-looking statements, by
their nature, require the Company to make certain assumptions and
involve known and unknown risks and uncertainties that could cause
actual results to differ materially from those expressed or implied
in such forward-looking statements. Any statement that involves
predictions, expectations, interpretations, beliefs, plans,
projections, objectives, assumptions, future events or performance
(often, but not always, using phrases such as "expects", or "does
not expect", "is expected", "interpreted", "management's view",
"anticipates" or "does not anticipate", "plans", "budget",
"scheduled", "forecasts", "estimates", "potential", "feasibility",
"believes" or "intends" or variations of such words and phrases or
stating that certain actions, events or results "may" or "could",
"would", "might" or "will" be taken to occur or be achieved) are
not statements of historical fact and may be forward-looking
information and are intended to identify forward-looking
information. This news release contains the forward-looking
information pertaining to, among other things: the focus and
results of the surface exploration program; the accuracy of results
from prior exploration activities conducted at the Aura Project;
the key assumptions, parameters and methods used to estimate the
mineral resource estimate disclosed in this news release; the
prospects, if any, of the Doby George, Wood Gulch and Gravel Creek
mineral deposits; future drilling at the Aura Project; the
significance of historic exploration activities, results and data;
and the ability to expand the existing mineral resources at the
Aura Project. Such factors include, among others, risks relating to
the ability of exploration activities (including drill results) to
accurately predict mineralization; errors in management's
geological modelling; management's perceptions of historical
trends, current conditions and expected future developments; the
ability to realize upon geological modelling; the ability of
Western Exploration to complete further exploration activities,
including drilling; property and royalty interests in respect of
the Aura Project; the ability of the Company to complete and
publish a pre-feasibility study on the Aura Project and the timing
thereof (if at all); the ability to expand mineral resources beyond
current mineral resource estimates; the ability to identify mineral
reserves on the Aura Project (if at all); the ability of the
Company to obtain required approvals; the results of exploration
activities; risks relating to mining activities; the global
economic climate; metal prices; dilution; environmental risks; and
community and non-governmental actions. Although the
forward-looking information contained in this news release is based
upon what management believes, or believed at the time, to be
reasonable assumptions, Western Exploration cannot assure
shareholders and prospective purchasers of securities of the
Company that actual results will be consistent with such
forward-looking information, as there may be other factors that
cause results not to be as anticipated, estimated or intended, and
neither Western Exploration nor any other person assumes
responsibility for the accuracy and completeness of any such
forward-looking information. Western Exploration does not
undertake, and assumes no obligation, to update or revise any such
forward-looking statements or forward-looking information contained
herein to reflect new events or circumstances, except as may be
required by law.
For additional information with respect to these and other
factors and assumptions underlying the forward‐looking statements
and forward-looking information made in this news release
concerning Western Exploration, please refer to the public
disclosure record of Western Exploration, including the management
information circular dated November 12, 2021 and the Company's most
recent annual and interim financial statements and related
management's discussion and analysis, which are available on SEDAR+
(www.sedarplus.ca) under Western Exploration's issuer profile. The
forward-looking statements set forth herein concerning Western
Exploration reflect management's expectations as at the date of
this news release and are subject to change after such date.
Western Exploration disclaims any intention or obligation to update
or revise any forward-looking statements, whether as a result of
new information, future events or otherwise, other than as required
by law.
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 news release. No stock exchange, securities
commission or other regulatory authority has approved or
disapproved the information contained herein.
View source
version on businesswire.com: https://www.businesswire.com/news/home/20240117631768/en/
Darcy Marud Chief Executive Officer Telephone: (775) 329-8119
Email: dmarud@westernexploration.com
Nichole Cowles Investor Relations Telephone: (775) 240-4172
Email: nicholecowles@westernexploration.com
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