Silvercorp Metals Inc. ("Silvercorp” or the “Company”) (TSX/NYSE
American: SVM) is pleased to report results from its exploration
program at the LME mine, Ying Mining District, Henan Province,
China. Extensive exploration drilling and tunneling are ongoing at
the LME mine, and all other mines at the Ying Mining District.
The exploration program from October 1, 2019 to
September 30, 2020 at the LME mine has targeted the down dip and
along-strike extensions of known mineralized vein structures in the
production areas. So far, 13,515 metres (“m”) from a total of 53
diamond drill holes, including 47 underground holes and six surface
holes, have been completed. Assay results for 32 holes have been
received with 21 holes intercepting mineralization.
Most of the infill underground drills were
focused on high grade drill intercepts from previous drill programs
where mining access tunnels were developed but the mineralization
was not mined. This drilling program intersected many higher grade
silver-lead ore zones, including veins LM5, LM5E, LM5E1, LM5E2,
LM5W, and LM6. Some new vein structures, including LM2E, LM5Ea and
LM5Ea1, were discovered in this production area. Most of the higher
grade silver-lead zones can be mined using existing access and
development tunnels, which is expected to substantially reduce
tunnel development costs at the LME mine going forward. Eight rigs
have been drilling at the LME mine since July 2020 to continue
identifying these types of easily accessible zones.
Low Angle Gold Structures
The step-out drilling also targeted the LM4E2
structure which is dipping at a 10-35 degree angle, along a
northeast strike of 60 degrees. The LM4E2 vein contains gold
mineralization characterized by quartz-pyrite banding and
K-feldspar-silicification alteration. Sporadic drill intercepts
from over 20 holes have defined a mineralized area of >1,500m in
length and >800m down dip. Holes ZKLDB2101, ZKL6713, ZKL58T1703
and ZKL5305_1 intersected intervals of 3.31m, 4.21m, 0.99m, and
1.10m of vein - LM4E2 with gold grades of 4.57 g/t, 4.53 g/t, 4.94
g/t and 3.31 g/t, respectively. Locally, LM4E2 is over-printed by
late stage sub-vertical silver-lead veins such as LM5 and LM6, as a
result, hole ZKL53S04_1 intercepted 6.08m of LM4E2 grading 375 g/t
Ag and 1.61% lead, with only 0.09 g/t Au. Further drilling is
ongoing to test the continuity of vein LM4E2.
Hole ZKL6713 discovered another low angle
dipping gold structure - LM66W. It returned a 4.51m intercept
(3.11m true thickness) grading 4.53 g/t Au without other metals
present. LM66W is believed to be another low angle dipping gold
structure located approximately 100m below the LM4E2 structure.
Additionally, the Company continues to test for
new vein structures in previously less explored areas. The step-out
drilling in the southeast part of the LME mine discovered new
veins, including LM61, LM62, LM66, LM66E, and LM66E3.
Highlights of selected drill hole
intersections:
-
Hole ZKL53S04_4 intersected two
major veins:
- A 2.46m interval (2.02m true width)
of vein LM6 grading 1,328 grams per tonne (“g/t”) silver (“Ag”),
0.76% lead (“Pb”), 0.64% zinc (“Zn”), 0.12 g/t gold (“Au”), and
0.11% copper (“Cu”), which includes a 0.45m interval (0.37m true
width) grading 7,131 g/t Ag, 3.35% Pb, 3.23% Zn, 0.42 g/t Au, and
0.55% Cu; and
- A 0.75m interval (0.71m true width)
of vein LM5E1 grading 495 g/t Ag, 3.88% Pb, 0.48% Zn, 0.19 g/t Au
and 0.10% Cu.
-
Hole ZKL5202SC intersected a
0.92m interval (0.91m true width) of vein LM5 grading 6,455 g/t Ag,
5.28% Pb, 1.19% Zn, 10.00 g/t Au and 0.29% Cu.
-
Hole ZKL51A21_1 intersected a
2.30m interval (2.04m true width) of vein LM5E1 grading 535 g/t Ag,
2.76% Pb, 0.55% Zn and 0.32% Cu, which includes a 1.05m interval
(0.93m true width) grading 1,004 g/t Ag, 5.75% Pb, 1.08% Zn and
0.65% Cu.
- Hole
ZKL53S04_1 intersected two major intersections:
- A 0.56m interval (0.53m true width)
of vein LM6E grading 692 g/t Ag, 0.11% Pb and 0.09% Zn; and
- A 6.08m interval (5.72m true width)
of vein LM4E2 grading 375 g/t Ag, 1.61% Pb, 0.55% Zn and 0.09 g/t
Au, which includes a 1.22m interval (1.15m true width) grading
1,019 g/t Ag, 1.01% Pb, 0.82% Zn, and 0.26 g/t Au.
- Hole
ZKL53S04_2 intersected a 0.87m interval (0.85m true width)
of vein LM4E grading 1,643 g/t Ag, 3,19% Pb, 0.25% Zn, and 0.52%
Cu.
In addition to drilling, a total of 4,180m of
exploration tunnels have been developed at the LME mine during the
period. This exploration tunnelling (comprising drifting,
cross-cutting and raising) was driven along and across major
mineralized vein structures to upgrade the drill-defined mineral
resources and test for new parallel and splay structures, and are
summarized in the following table:
Major Target Veins |
Total Tunneling (m) |
Channel Samples Collected |
Drift
Included(m) |
Total Mineralization [1]
Exposed by Drifts |
Length (m) |
Average True Width (m) |
Ag(g/t) |
Pb (%) |
Zn (%) |
Au (g/t) |
Cu (%) |
LM2, LM4, LM4W, LM5, LM5E, LM5E1, LM5W, LM6, LM6W, LM18, LM18E1,
LM60 |
4,180 |
2,020 |
1,923 |
844 |
0.68 |
392 |
1.85 |
0.50 |
0.12 |
0.04 |
[1] Mineralization is defined by silver equivalent value (AgEq)
greater than or equal to 120 g/t at the LME mine. (Formula used for
AgEq calculation: AgEq = Ag g/t + 34.17 * (Pb% + Cu%) + 11.92 * Zn%
+ 79.31 * Au g/t)
Highlights of selected mineralized zones exposed
in the drift tunnels:
- Drift Tunnel
PD900-LM5E-500-2_Stope_Ext exposed mineralization
30m long and 0.98m wide (true width) grading 867 g/t Ag, 2.69% Pb,
1.07% Zn and 0.26% Cu within vein structure LM5E;
- Drift Tunnel
PD900-LM6E2-500-56NYM exposed mineralization 40m
long and 0.45m wide (true width) grading 949 g/t Ag, 1.74% Pb,
0.82% Zn, 0.18 g/t Au and 0.18% Cu within vein structure LM6E;
- Drift Tunnel
PD900-LM5-510-54Nlink exposed mineralization 23m
long and 0.83m wide (true width) grading 761 g/t Ag, 3.72% Pb, and
0.83% Zn within vein structure LM5;
- Drift Tunnel
PD900-LM5-450-51SYM exposed mineralization 25m
long and 0.77m wide (true width) grading 700 g/t Ag, 1.89% Pb, and
0.81% Zn within vein structure LM5.
Table 1:
Selected results from the drill programs
at the LME
mine
Hole ID |
From(m) |
To (m) |
Width(m) |
True Width(m) |
Ag(g/t) |
Pb(%) |
Zn(%) |
Au(g/t) |
Cu(%) |
Veins |
ZKL5001SC |
14.39 |
15.03 |
0.64 |
0.62 |
616 |
2.26 |
0.39 |
0.05 |
0.16 |
LM5W |
ZKL5001SC |
22.27 |
23.18 |
0.91 |
0.88 |
801 |
3.41 |
0.38 |
0.28 |
0.18 |
LM5 |
ZKL5001SC |
76.96 |
78.31 |
1.35 |
1.30 |
150 |
0.30 |
0.09 |
0.10 |
0.04 |
LM5E2 |
including |
76.96 |
77.39 |
0.43 |
0.42 |
396 |
0.84 |
0.15 |
0.20 |
0.08 |
LM5E2 |
ZKL5103_8 |
16.33 |
18.21 |
1.88 |
1.14 |
157 |
0.36 |
0.13 |
0.06 |
0.03 |
LM5 |
including |
17.89 |
18.21 |
0.32 |
0.19 |
770 |
1.28 |
0.17 |
0.03 |
0.09 |
LM5 |
ZKL5103_8 |
77.88 |
82.28 |
4.40 |
2.65 |
248 |
0.39 |
0.40 |
0.07 |
0.06 |
LM5E |
including |
80.30 |
82.28 |
1.98 |
1.19 |
527 |
0.43 |
0.45 |
0.09 |
0.11 |
LM5E |
ZKL5103_9 |
56.78 |
58.13 |
1.35 |
1.16 |
225 |
7.96 |
0.99 |
0.32 |
0.01 |
LM5E1 |
including |
57.79 |
58.13 |
0.34 |
0.29 |
808 |
31.16 |
3.39 |
1.11 |
0.03 |
LM5E1 |
ZKL5103_9 |
65.18 |
65.63 |
0.45 |
0.39 |
336 |
2.32 |
0.18 |
0.14 |
0.02 |
LM5Ea [1] |
ZKL5103_10 |
55.63 |
56.44 |
0.81 |
0.70 |
264 |
0.47 |
0.41 |
0.02 |
0.02 |
LM5E1 |
ZKL5103_10 |
63.71 |
64.20 |
0.49 |
0.42 |
129 |
1.66 |
0.67 |
0.24 |
0.03 |
LM5Ea1 [1] |
ZKL51A21_1 |
20.08 |
22.54 |
2.46 |
2.19 |
279 |
0.43 |
0.29 |
0.12 |
0.08 |
LM5 |
including |
20.08 |
21.35 |
1.27 |
1.13 |
423 |
0.50 |
0.38 |
0.16 |
0.13 |
LM5 |
ZKL51A21_1 |
39.90 |
42.20 |
2.30 |
2.04 |
535 |
2.76 |
0.55 |
0.05 |
0.32 |
LM5E1 |
including |
41.15 |
42.20 |
1.05 |
0.93 |
1,004 |
5.75 |
1.08 |
0.05 |
0.65 |
LM5E1 |
ZKL5202SC |
21.50 |
22.42 |
0.92 |
0.91 |
6,455 |
5.28 |
1.19 |
10.00 |
0.29 |
LM5 |
ZKL5202SC |
52.83 |
55.55 |
2.72 |
2.68 |
216 |
0.45 |
0.05 |
0.02 |
0.05 |
LM5E |
ZKL5202SC |
63.30 |
64.24 |
0.94 |
0.92 |
345 |
1.30 |
0.10 |
0.05 |
0.04 |
LM5Ea |
ZKL5305_1 |
139.11 |
140.30 |
1.19 |
0.84 |
239 |
1.26 |
0.42 |
0.03 |
0.03 |
LM6 |
ZKL5305_1 |
147.73 |
148.83 |
1.10 |
0.78 |
84 |
1.83 |
0.84 |
3.31 |
0.02 |
LM4E2 |
ZKL5305_1 |
205.23 |
207.57 |
2.34 |
1.52 |
362 |
4.67 |
1.08 |
0.08 |
0.04 |
LM5 |
including |
205.23 |
206.14 |
0.91 |
0.59 |
884 |
11.83 |
2.70 |
0.18 |
0.11 |
LM5 |
ZKL53S04_1 |
104.44 |
105.00 |
0.56 |
0.53 |
692 |
0.11 |
0.09 |
0.05 |
0.02 |
LM6E |
ZKL53S04_1 |
167.23 |
173.31 |
6.08 |
5.72 |
375 |
1.61 |
0.55 |
0.09 |
0.02 |
LM4E2 |
including |
172.09 |
173.31 |
1.22 |
1.15 |
1,019 |
1.01 |
0.82 |
0.26 |
0.03 |
LM4E2 |
ZKL53S04_2 |
75.22 |
76.09 |
0.87 |
0.85 |
1,643 |
3.19 |
0.25 |
0.03 |
0.52 |
LM4E |
ZKL53S04_4 |
111.00 |
113.46 |
2.46 |
2.02 |
1,328 |
0.76 |
0.64 |
0.12 |
0.11 |
LM6 |
including |
111.00 |
111.45 |
0.45 |
0.37 |
7,131 |
3.35 |
3.23 |
0.42 |
0.55 |
LM6 |
ZKL53S04_4 |
235.92 |
236.67 |
0.75 |
0.71 |
495 |
3.88 |
0.48 |
0.19 |
0.10 |
LM5E1 |
ZKL58T1703 |
231.09 |
232.32 |
0.81 |
0.79 |
198 |
4.90 |
0.85 |
0.19 |
0.02 |
T17E |
ZKL58T1703 |
363.71 |
364.70 |
0.99 |
0.64 |
43 |
0.50 |
0.71 |
4.94 |
0.01 |
LM4E2 |
ZKL6713 |
347.95 |
352.16 |
4.21 |
3.11 |
1 |
0.01 |
0.01 |
4.53 |
0.07 |
LM66W [1] |
including |
349.33 |
350.78 |
1.45 |
1.07 |
1 |
0.01 |
0.01 |
9.80 |
0.09 |
LM66W |
ZKL7114 |
612.06 |
615.28 |
3.22 |
2.71 |
84 |
1.27 |
0.52 |
0.05 |
0.01 |
LM66E [1] |
including |
614.87 |
615.28 |
0.41 |
0.35 |
416 |
2.91 |
1.49 |
0.05 |
0.02 |
LM66E |
ZKLDB2101 |
158.70 |
162.01 |
3.31 |
2.99 |
30 |
1.15 |
0.02 |
4.57 |
0.01 |
LM4E2 |
including |
160.32 |
162.01 |
1.69 |
1.53 |
14 |
0.03 |
0.02 |
8.40 |
0.01 |
LM4E2 |
[1] Veins discovered between October 1, 2019 and September 30,
2020
Table 2:
Selected mineralized zones exposed by
drift
tunnelling
at the LME
mine
Tunnel ID |
Target Veins |
Ore
Length(m) |
True Width(m) |
Ag (g/t) |
Pb (%) |
Zn (%) |
Au (g/t) |
Cu (%) |
PD838-LM2-730-3NYM |
LM2 |
30.00 |
0.35 |
237 |
3.47 |
0.63 |
0.00 |
0.00 |
PD838-LM2-730-3SYM |
LM2 |
10.00 |
0.47 |
237 |
4.07 |
0.76 |
0.00 |
0.00 |
PD900-LM4-500-61SYM |
LM4 |
30.00 |
0.36 |
81 |
0.97 |
0.23 |
0.02 |
0.02 |
PD900-LM5-450-51SYM |
LM5 |
25.00 |
0.77 |
700 |
1.89 |
0.81 |
0.00 |
0.00 |
PD900-LM5-450-51NYM |
LM5 |
100.00 |
0.63 |
511 |
1.17 |
0.40 |
1.33 |
0.03 |
PD900-LM5-510-54Slink |
LM5 |
12.00 |
0.51 |
88 |
1.09 |
0.19 |
0.00 |
0.00 |
PD900-LM5-510-54Nlink |
LM5 |
23.00 |
0.83 |
761 |
3.72 |
0.83 |
0.00 |
0.02 |
PD900-LM5-650-70NYM |
LM5 |
20.00 |
0.72 |
139 |
2.03 |
0.95 |
0.00 |
0.00 |
PD900-LM5E-450-51NYM |
LM5E |
45.00 |
0.78 |
234 |
3.11 |
0.95 |
0.00 |
0.00 |
PD900-LM5E-500-2_Stope_Ext |
LM5E |
30.00 |
0.98 |
867 |
2.69 |
1.07 |
0.06 |
0.26 |
PD900-LM5E-600-68_Stope_Ext |
LM5E |
10.00 |
0.74 |
458 |
1.90 |
1.21 |
0.02 |
0.10 |
PD900-LM5E1-450-51NYM |
LM5E1 |
25.00 |
0.49 |
168 |
3.01 |
0.20 |
0.00 |
0.00 |
PD900-LM5E1-450-51SYM |
LM5E1 |
30.00 |
0.35 |
108 |
3.79 |
0.39 |
0.00 |
0.00 |
PD900-LM5W-550-68NYM |
LM5W |
35.00 |
0.37 |
266 |
1.22 |
0.35 |
0.00 |
0.00 |
PD900-LM5W-650-67SYM |
LM5W |
90.00 |
0.66 |
454 |
1.04 |
0.29 |
0.00 |
0.00 |
PD900-LM6-600-69NYM |
LM6 |
10.00 |
0.99 |
164 |
0.47 |
0.29 |
1.15 |
0.05 |
PD900-LM6-650-69NYM |
LM6 |
20.00 |
1.21 |
460 |
1.41 |
0.32 |
0.02 |
0.07 |
PD900-LM6-650-69SYM |
LM6 |
50.00 |
1.03 |
325 |
0.98 |
0.22 |
0.02 |
0.04 |
PD900-LM6-700-68NYM |
LM6 |
40.00 |
1.09 |
352 |
1.04 |
0.17 |
0.00 |
0.00 |
PD900-LM6W-600-70NYM |
LM6 |
10.00 |
0.98 |
405 |
1.61 |
0.27 |
0.02 |
0.05 |
PD900-LM6E2-500-56NYM |
LM6E |
40.00 |
0.45 |
949 |
1.74 |
0.82 |
0.18 |
0.18 |
PD900-LM18-930-56NYM |
LM18 |
10.00 |
0.58 |
707 |
2.29 |
0.23 |
0.02 |
0.10 |
PD900-LM18-930-56SYM |
LM18 |
25.00 |
0.58 |
264 |
3.87 |
0.60 |
0.02 |
0.04 |
PD900-LM18E1-915-52NYM |
LM18E1 |
65.00 |
0.40 |
366 |
1.46 |
0.90 |
0.00 |
0.00 |
PD900-LM18E1-915-56SYM |
LM18E1 |
25.00 |
1.14 |
240 |
0.42 |
0.06 |
0.00 |
0.00 |
PD838-LM18E1-845-54SYM |
LM18E1 |
15.00 |
0.33 |
64 |
2.05 |
0.16 |
0.00 |
0.00 |
PD838-LM18E1-845-54NYM |
LM18E1 |
19.00 |
0.47 |
377 |
1.34 |
0.42 |
0.01 |
0.04 |
Quality Control
Drill cores are NQ size. Drill core samples,
limited by apparent mineralization contacts or shear/alteration
contacts, were split into halves by saw cutting. The half cores are
stored in the Company's core shacks for future reference and
checks, and the other half core samples are shipped in securely
sealed bags to the Chengde Huakan 514 Geology and Minerals Test and
Research Institute in Chengde, Hebei Province, China, 226km
northeast of Beijing, the Zhengzhou Nonferrous Exploration
Institute Lab in Zhengzhou, Henan Province, China, and SGS-CSTC
Standards Technical Services (Tianjin) Co., Ltd., Tianjin, China.
All the three labs are ISO9000 certified analytical labs. For
analysis, the sample is dried and crushed to minus 1mm and then
split to a 200-300g subsample which is further pulverized to minus
200 mesh. Two subsamples are prepared from the pulverized sample.
One is digested with aqua regia for gold analysis with atomic
absorption spectroscopy (AAS), and the other is digested with
two-acids for analysis of silver, lead, zinc and copper with
AAS.
Channel samples are collected along sample lines
perpendicular to the mineralized vein structure in exploration
tunnels. Spacing between sampling lines is typically 5m along
strike. Both the mineralized vein and the altered wall rocks are
cut by continuous chisel chipping. Sample length ranges from 0.2m
to more than 1.0m, depending on the width of the mineralized vein
and the mineralization type. Channel samples are prepared and
assayed with AAS at Silvercorp’s mine laboratory (Ying Lab) located
at the mill complex in Luoning County, Henan Province, China. The
Ying lab is officially accredited by the Quality and Technology
Monitoring Bureau of Henan Province and is qualified to provide
analytical services. The channel samples are dried, crushed and
pulverized. A 200g sample of minus 160 mesh is prepared for assay.
A duplicate sample of minus 1mm is made and kept in the laboratory
archives. Gold is analysed by fire assay with AAS finish, and
silver, lead, zinc and copper are assayed by two-acid digestion
with AAS finish.
A routine quality assurance/quality control
(QA/QC) procedure is adopted to monitor the analytical quality at
each lab. Certified reference materials (CRMs), pulp duplicates and
blanks are inserted into each batch of lab samples. QA/QC data at
the lab are attached to the assay certificates for each batch of
samples.
The Company maintains its own comprehensive
QA/QC program to ensure best practices in sample preparation and
analysis of the exploration samples. Project geologists regularly
insert CRM, field duplicates and blanks to each batch of 30 core
samples to monitor the sample preparation and analysis procedures
at the labs. The analytical quality of the labs is further
evaluated with external checks by sending approximately 3-5% of the
pulp samples to higher level labs to check for lab
bias. Data from both the Company's and the labs' QA/QC
programs are reviewed on a timely basis by project geologists.
Guoliang Ma, P. Geo., Manager of Exploration and
Resource of the Company, is the Qualified Person for Silvercorp
under NI 43-101 and has reviewed and given consent to the technical
information contained in this news release.
About Silvercorp
Silvercorp is a profitable Canadian mining
company producing silver, lead and zinc metals in concentrates from
mines in China. The Company’s goal is to continuously create
healthy returns to shareholders through efficient management,
organic growth and the acquisition of profitable projects.
Silvercorp balances profitability, social and environmental
relationships, employees’ wellbeing, and sustainable development.
For more information, please visit our website at
www.silvercorp.ca.
For further information
Lon ShaverVice PresidentSilvercorp Metals
Inc.
Phone: (604) 669-9397Toll Free: 1 (888)
224-1881Email: investor@silvercorp.ca Website:
www.silvercorp.ca
CAUTIONARY DISCLAIMER - FORWARD LOOKING
STATEMENTS
Certain of the statements and information in
this news release constitute “forward-looking statements” within
the meaning of the United States Private Securities Litigation
Reform Act of 1995 and “forward-looking information” within the
meaning of applicable Canadian provincial securities laws. Any
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respect to predictions, expectations, beliefs, plans, projections,
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statements or information relate to, among other things: the price
of silver and other metals; the accuracy of mineral resource and
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sufficiency of the Company’s capital to finance the Company’s
operations; estimates of the Company’s revenues and capital
expenditures; estimated production from the Company’s mines in the
Ying Mining District; timing of receipt of permits and regulatory
approvals; availability of funds from production to finance the
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development of the Company’s properties.
Forward-looking statements or information are
subject to a variety of known and unknown risks, uncertainties and
other factors that could cause actual events or results to differ
from those reflected in the forward-looking statements or
information, including, without limitation, social and economic
impacts of COVID-19; risks relating to: fluctuating commodity
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precious and base metal recovery; interpretations and assumptions
of mineral resource and mineral reserve estimates; exploration and
development programs; feasibility and engineering reports; permits
and licenses; title to properties; property interests; joint
venture partners; acquisition of commercially mineable mineral
rights; financing; recent market events and conditions; economic
factors affecting the Company; timing, estimated amount, capital
and operating expenditures and economic returns of future
production; integration of future acquisitions into the Company’s
existing operations; competition; operations and political
conditions; regulatory environment in China and Canada;
environmental risks; foreign exchange rate fluctuations; insurance;
risks and hazards of mining operations; key personnel; conflicts of
interest; dependence on management; internal control over financial
reporting as per the requirements of the Sarbanes-Oxley Act; and
bringing actions and enforcing judgments under U.S. securities
laws.
This list is not exhaustive of the factors that
may affect any of the Company’s forward-looking statements or
information. Forward-looking statements or information are
statements about the future and are inherently uncertain, and
actual achievements of the Company or other future events or
conditions may differ materially from those reflected in the
forward-looking statements or information due to a variety of
risks, uncertainties and other factors, including, without
limitation, those referred to in the Company’s Annual Information
Form under the heading “Risk Factors”. Although the Company has
attempted to identify important factors that could cause actual
results to differ materially, there may be other factors that cause
results not to be as anticipated, estimated, described or intended.
Accordingly, readers should not place undue reliance on
forward-looking statements or information.
The Company’s forward-looking statements and
information are based on the assumptions, beliefs, expectations and
opinions of management as of the date of this news release, and
other than as required by applicable securities laws, the Company
does not assume any obligation to update forward-looking statements
and information if circumstances or management’s assumptions,
beliefs, expectations or opinions should change, or changes in any
other events affecting such statements or information. For the
reasons set forth above, investors should not place undue reliance
on forward-looking statements and information.
CAUTIONARY NOTE TO US
INVESTORS
This news release has been prepared in
accordance with the requirements of NI 43‐101 and the Canadian
Institute of Mining, Metallurgy and Petroleum Definition Standards,
which differ from the requirements of U.S. Securities laws. NI
43‐101 is a rule developed by the Canadian Securities
Administrators that establishes standards for all public disclosure
an issuer makes of scientific and technical information concerning
mineral projects.
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