Regulus Resources Inc. ("Regulus" or the
"Company", TSX-V: REG, OTCQX: RGLSF) is pleased to
report results from drill hole AK-22-052 from the AntaKori
copper-gold project in Peru. The goal of this drill hole was to
test the continuity of skarn mineralization to the north and search
for additional information on breccia and porphyry intercepts at
depth in nearby holes. Hole AK-22-052 was drilled to 1,385.80 m
before crossing the property boundary and the hole was stopped
shortly thereafter. Hole AK-22-052 intersected several intervals of
skarn mineralization that expand the mineralized footprint and
intersected attractive mineralization in crackle-brecciated
quartzites and porphyry dykes at depth.
Highlights
- 98.15 m of 0.63% CuEq in
skarn/base-metal carbonate mineralization from 212.55 m depth
- Including 11.60
m of 1.86% CuEq from 291.80 m depth
- 131.75 m of
0.36% CuEq hosted in a rhyolite intrusion overprinted by base-metal
carbonate mineralization from 650.75 m depth
- 178.85 of 0.38%
CuEq from 815.85 m depth
- 287.80 m of 0.46% CuEq in porphyry
dykes/crackle-brecciated quartzites/quartzites from 1,098 m depth
- The porphyry
dykes appear to be passive host rocks and are not the source of
mineralization, but rather are overprinted by mineralization from a
different source
- Including 32.15
m of 0.77% CuEq hosted in porphyry intrusive rocks from 1,102.5 m
depth
- And 16.70 m of
0.70% CuEq in quartz-healed breccias from 1,229.4 m depth
- And 41.80 m of
0.56% CuEq in quartz-healed breccias and porphyry dykes from 1,297
m depth
- The last 156.40 m of the hole runs
105 ppm Mo, suggesting we have may have entered the outer
molybdenite (“moly”) shell of a porphyry center
John Black, Chief Executive Officer of
Regulus, commented as follows:
“When we completed our resource update in 2019,
the strip ratio was already attractively low at 0.85/1. The
drilling completed recently to the north of the main resource to
date, including Hole 52, is providing us valuable data that should
allow us to grow the in-pit resource and convert areas treated as
waste in 2019 to resources upon a new resource update. This should
reduce the strip ratio even further. Hole 52 intersected several
intervals of skarn mineralization that continue to demonstrate the
skarn system is open to the north. Like nearby holes, recently
completed Hole 52 intersected strongly fractured (“crackled”),
silicified, quartz-healed and brecciated quartzites at depth that
are locally well mineralized (>1% CuEq), despite quartzites
typically being poor host rocks for mineralization. We also
intersected numerous porphyry dykes of varying widths, which
exhibit strong veining associated with chalcopyrite ± bornite
mineralization, which is encouraging. Hole 52 provides more
evidence there is a mineralizing source somewhere nearby. It could
be below us, or laterally in any direction. More drilling will be
required to search for the source.”
Dr. Kevin B. Heather, Chief Geological
Officer of Regulus, commented as follows:
“Geologically speaking, Hole 52 is very complex
and exhibits multiple, overprinting styles of mineralization, as is
common in most large ore deposits. The upper portion of the hole
consists of marble with incipient skarn development that progresses
downhole into prograde skarn with locally developed massive
magnetite-sulphide replacement bodies. This sequence is cross-cut
by multiple, likely sub-vertical, gold-zinc±copper±lead
intermediate-sulphidation (base-metal carbonate) veins and fault
structures. Locally, these vein/fault structures can run multiple
grams per tonne of gold across one-to-three-metre widths and can
coalesce into much wider zones of ten’s of metres. The lower
portion of the hole encountered very interesting silicified and
quartz-healed breccias developed within the Farrat Formation
quartzites that are cut by numerous feldspar porphyry dykes, all of
which exhibit more classic porphyry style mineralization consisting
of quartz-chalcopyrite-pyrite-molybdenite±bornite-anhydrite.”
Table 1 below provides more details on the
mineralized intercepts encountered in AK-22-052. The location of
the reported drill hole as well as active and completed holes are
indicated in Figure 1. Figure 2 displays a cross section of
AK-22-052. Figure 3 displays a closeup of the CuEq and Mo results
found in the bottom portion of the hole.
Table 1 – AntaKori Drill Hole Results |
|
From(m) |
To(m) |
Interval(m) |
Cu(%) |
Au(ppm) |
Ag(ppm) |
As(ppm) |
CuEq(%) |
AK-22-052 |
|
|
|
|
|
|
|
|
Interval |
70.10 |
92.45 |
22.35 |
0.08 |
0.50 |
7.47 |
1,381 |
0.51 |
Interval |
116.90 |
136.60 |
19.70 |
0.24 |
0.24 |
10.83 |
329 |
0.51 |
Interval |
212.55 |
310.70 |
98.15 |
0.29 |
0.37 |
8.17 |
852 |
0.63 |
incl |
291.80 |
303.40 |
11.60 |
0.70 |
1.19 |
33.41 |
5,181 |
1.86 |
Interval |
332.30 |
344.50 |
12.20 |
0.39 |
0.12 |
7.70 |
169 |
0.55 |
Interval |
650.75 |
782.50 |
131.75 |
0.17 |
0.21 |
4.42 |
538 |
0.36 |
incl |
651.55 |
662.80 |
11.25 |
0.50 |
0.26 |
15.21 |
1,983 |
0.83 |
Interval |
815.85 |
994.70 |
178.85 |
0.27 |
0.10 |
4.75 |
110 |
0.38 |
incl |
815.85 |
866.05 |
50.20 |
0.45 |
0.18 |
6.99 |
355 |
0.64 |
Interval |
1,010.75 |
1,038.85 |
28.10 |
0.13 |
0.07 |
2.77 |
119 |
0.21 |
Interval |
1,098.00 |
1,385.80 |
287.80 |
0.39 |
0.06 |
3.18 |
756 |
0.46 |
incl |
1,102.35 |
1,134.50 |
32.15 |
0.64 |
0.09 |
8.08 |
2,013 |
0.77 |
and |
1,229.40 |
1,246.10 |
16.70 |
0.63 |
0.05 |
4.52 |
299 |
0.70 |
and |
1,297.00 |
1,338.80 |
41.80 |
0.51 |
0.03 |
2.57 |
155 |
0.56 |
and |
1,356.75 |
1,367.92 |
11.17 |
0.57 |
0.05 |
2.69 |
261 |
0.64 |
and |
1,374.80 |
1,385.80 |
11.00 |
0.61 |
0.05 |
2.54 |
34 |
0.67 |
The grades are uncut. Cu Eq and Au Eq values were calculated using
copper, gold and silver. Metal prices utilized for the calculations
are Cu – US$2.25/lb, Au – US$1,100/oz, and Ag – US$14/oz. All
intervals presented above consist of sulphide mineralization. No
adjustments were made for recovery as the project is an early-stage
exploration project and metallurgical data to allow for estimation
of recoveries is not yet available. The formulas utilized to
calculate equivalent values are Cu Eq (%) = Cu% + (Au g/t * 0.7130)
+ (Ag g/t * 0.0091). |
Discussion of Results
Drill hole AK-22-052 was drilled at an azimuth
of 220 degrees and an inclination of -82 degrees.
Drill hole AK-22-052 starts with 1.20 m of
overburden material prior to entering calcareous sedimentary rocks
of Chulec Formation. From 1.20 m to 85.00 m, the hole encountered
Chulec Formation massive and banded marble intervals with weak
prograde garnet-vesuvianite skarn alteration and minor retrograde
chlorite-pyrite-magnetite-chalcopyrite veins overprint. This skarn
sequence is clearly overprinted by gold-zinc-silver ±lead ±copper
intermediate-sulphidation (base-metal carbonate) veins and fault
structures that are likely sub-vertical in geometry. These veins
can run multiple grams per tonne gold and multiple percent zinc
over one to three metres width and locally can coalesce into zones
measuring several ten’s of metres in width. The mineralogy of this
mineralization is dominated by sphalerite-galena-pyrite and likely
other sulphosalt minerals.
From 85.00 m to 210.00 m, the hole intersected
well-developed skarn intervals of Chulec Formation intercalated
with semi-massive pyrite-magnetite-chalcopyrite skarn horizons.
Skarn alteration in this zone is dominated mostly by prograde skarn
alteration assemblages with garnet-vesuvianite, but some intervals
are overprinted by massive retrograde epidote-chlorite skarn.
Mineralization in this interval consists of traces of
pyrite-chalcopyrite occurring as disseminations and veins
associated with retrograde skarn alteration.
From 210.00 m to 338.05 m, the hole intercepted
well-developed skarn intervals of Chulec Formation intercalated
with semi-massive pyrite-magnetite-chalcopyrite skarn horizons. In
this interval, retrograde epidote-chlorite skarn alteration is the
dominant assemblage and becomes stronger at depth. Skarn
mineralization in this interval is locally overprinted by 1-2 m
width structures with chalcopyrite-sphalerite-galena base-metal
carbonate mineralization that post-date the skarn alteration but
increase the overall grade in those areas.
The contact with Inca Formation is found at
338.05 m and consists of intercalations of hornfels and retrograde
chlorite-rich skarn horizons. Mineralization in this interval is
generally weak and occurs as disseminations, veins, and massive
magnetite-pyrite-chalcopyrite horizons with a notable increase of
magnetite content compared to the overlying Chulec Formation skarn
intervals.
From 415.40 m to 653.40 m, the hole encountered
Farrat Formation quartzites and arkoses that are strongly fractured
with quartz-pyrite veins and locally brecciated with the open
spaces in the veins and breccias healed with drusy quartz and
pyrite. This zone is cut by pyrite and molybdenite veins, as well
as sporadic sphalerite-galena-pyrite-chalcopyrite base-metal
carbonate veins. The last 50 m of the reported interval displays
well-developed crackle-breccia textures and stronger pyrite
mineralization within the quartzite host rock.
From 653.40 m to 782.50 m, the drill hole passes
through a rhyolite intrusion with well developed flow-banding and
auto-brecciation textures that are sub-parallel to the drill hole
axis, indicating it is likely a sub-vertical intrusive body. The
intrusion is affected by illite-kaolinite, quartz-sericite-pyrite
alteration, with some chloritic alteration relics with complex
overprinting textures. Mineralization in this interval has a
gold-silver-zinc ±copper base-metal carbonate signature consisting
of pyrite-chalcopyrite-tennantite-sphalerite-galena disseminations
and veins.
A 50-metre interval of Farrat Formation
quartzites is found at 782.50 m, prior to entering a major interval
of feldspar-hornblende-biotite porphyry intrusion from 821.73 m to
1,297.00 m. This porphyry intrusion is affected by chloritic
alteration overprinted by strong sericite-quartz-pyrite alteration
which is associated with moderate to locally strong mineralization
consisting of chalcopyrite-bornite-tennantite and galena-sphalerite
occurring as disseminations and veins. This intrusion has local
zones of abundant wall rock xenoliths, especially in the lower
parts of the reported interval. These wall rock xenoliths include
crackled quartzites and one 17-metre, clast-supported breccia
interval, with high-grade
pyrite-chalcopyrite-bornite-tennantite-enargite mineralization.
From 1,297.00 m to the end of the reported
interval at 1,385.80 m, the drill hole intercepted an intercalation
of strongly silicified, heterolithic, chaotic breccias developed
within the Farrat Formation quartzites and arkoses that are cut by
several feldspar-hornblende-biotite porphyry dykes that are
affected by strong sericite-quartz-pyrite alteration and
silicification. Mineralization in this interval is more classical
porphyry style mineralization consisting of
quartz-chalcopyrite-bornite-enargite-tennantite-anhydrite occurring
as disseminations and veins. The last 156.40 m of this interval
contains numerous quartz-molybdenite veins and averages 105 ppm Mo,
which suggests we may have entered the outer molybdenite (“moly”)
shell of a porphyry center.
Project Update
Hole AK-22-053 is complete and ended at 727.4 m
with assays pending. This hole was completed on Colquirrumi ground
where Regulus is earning up to a 70% interest. The goal of this
hole was to add meterage towards the 7,500 m necessary to trigger
the earn-in on Colquirrumi claims, and test for the eastern
extension of mineralization. Hole AK-22-054 is in progress and
testing the northern extension of mineralization on the property.
At the time of this release, AK-22-054 was at approximately 900 m
depth and AK-22-055 was just getting underway and is adding
meterage towards the Colquirrumi earn-in, as well as testing for
the extension of mineralization.
Upcoming Webinar
For more context, please join CEO John Black and Chief
Geological Office Dr. Kevin B. Heather in a live event on Monday
September 26th at 2 pm EST / 11 am PST. Q&A will follow the
presentation. Click here to register:
https://6ix.com/event/regulus-presents-corporate-update/.
Qualified Person
The scientific and technical data contained in
this news release pertaining to the AntaKori project has been
reviewed and approved by Dr. Kevin B. Heather, Chief Geological
Officer, FAusIMM, who serves as the qualified person (QP) under the
definition of National Instrument 43-101.
ON BEHALF OF REGULUS RESOURCES INC.
(signed) “John Black” John BlackCEO and Director
For further information, please visit our website at
regulusresoures.com or contact:
Ben CherringtonManager, Investor RelationsPhone:
+1 347 394-2728 or +44 7538 244 208Email:
ben.cherrington@regulusresources.com
About Regulus Resources Inc. and the
AntaKori Project
Regulus Resources Inc. is an international
mineral exploration company run by an experienced technical and
management team. The principal project held by Regulus is the
AntaKori copper-gold-silver project in northern Peru. The AntaKori
project currently hosts a resource with indicated mineral resources
of 250 million tonnes with a grade of 0.48 % Cu, 0.29 g/t Au and
7.5 g/t Ag and inferred mineral resources of 267 million tonnes
with a grade of 0.41 % Cu, 0.26 g/t Au, and 7.8 g/t Ag (independent
technical report prepared by AMEC Foster Wheeler (Peru) S.A. dated
February 22, 2019, see news release dated March 1, 2019).
Mineralization remains open in most directions.
Sampling and Analytical
Procedures
Regulus follows systematic and rigorous sampling
and analytical protocols which meet and exceed industry standards.
These protocols are summarized below and are available on the
Regulus website at www.regulusresources.com.
All drill holes are diamond core holes with PQ,
HQ or NQ core diameters. Drill core is collected at the drill site
where recovery and RQD (Rock Quality Designation) measurements are
taken before the core is transported by truck to the Regulus core
logging facility in Cajamarca, where it is photographed and
geologically logged. The core is then cut in half with a diamond
saw blade with half the sample retained in the core box for future
reference and the other half placed into a pre-labelled plastic
bag, sealed with a plastic zip tie, and identified with a unique
sample number. The core is typically sampled over a 1 to 2 metre
sample interval unless the geologist determines the presence of an
important geological contact. The bagged samples are then stored in
a secure area pending shipment to a certified laboratory sample
preparation facility. Samples are sent by batch to the ALS
laboratory in Lima for assay. Regulus independently inserts
certified control standards, coarse field blanks, and duplicates
into the sample stream to monitor data quality. These standards are
inserted “blindly” to the laboratory in the sample sequence prior
to departure from the Regulus core storage facilities. At the
laboratory samples are dried, crushed, and pulverized and then
analyzed using a fire assay-AA finish analysis for gold and a full
multi-acid digestion with ICP-AES analysis for other elements.
Samples with results that exceed maximum detection values for gold
are re-analyzed by fire assay with a gravimetric finish and other
elements of interest are re-analyzed using precise ore-grade ICP
analytical techniques.
Neither the TSX Venture Exchange nor its
Regulation Services Provider (as that term is defined in policies
of the TSX Venture Exchange) accepts responsibility for the
adequacy or accuracy of this release.
Forward Looking Information
Certain statements regarding Regulus, including
management's assessment of future plans and operations, may
constitute forward-looking statements under applicable securities
laws and necessarily involve known and unknown risks and
uncertainties, most of which are beyond Regulus' control. Often,
but not always, forward-looking statements or information can be
identified by the use of words such as "plans", "expects" or "does
not expect", "is expected", "budget", "scheduled", "estimates",
"forecasts", "intends", "anticipates" or "does not anticipate" or
"believes" or variations of such words and phrases or statements
that certain actions, events or results "may", "could", "would",
"might" or "will" be taken, occur or be achieved.
Specifically, and without limitation, all
statements included in this press release that address activities,
events or developments that Regulus expects or anticipates will or
may occur in the future, including the proposed exploration and
development of the AntaKori project described herein, the
completion of the anticipated drilling program, the completion of
an updated NI 43-101 resource estimate and management's assessment
of future plans and operations and statements with respect to the
completion of the anticipated exploration and development programs,
may constitute forward-looking statements under applicable
securities laws and necessarily involve known and unknown risks and
uncertainties, most of which are beyond Regulus' control. These
risks may cause actual financial and operating results,
performance, levels of activity and achievements to differ
materially from those expressed in, or implied by, such
forward-looking statements. Although Regulus believes that the
expectations represented in such forward-looking statements are
reasonable, there can be no assurance that such expectations will
prove to be correct. The forward-looking statements contained in
this press release are made as of the date hereof and Regulus does
not undertake any obligation to publicly update or revise any
forward-looking statements or information, whether as a result of
new information, future events or otherwise, unless so required by
applicable securities law.
Figure 1 – Plan Map showing the location
of drill hole collars and traces
Figure 2 – Cross Section displaying Hole
AK-22-052
Figure 3 – Close up of CuEq and Mo
results in bottom portion of AK-22-052. CuEq% (left), Lithology
(center), Mo_ppm (right)
Graphics accompanying this announcement are available
athttps://www.globenewswire.com/NewsRoom/AttachmentNg/84d5d7ef-8b4a-4ec9-8b6a-c502aae11a88
https://www.globenewswire.com/NewsRoom/AttachmentNg/f9df4a5e-7b64-428a-9b00-9ae24de7c876
https://www.globenewswire.com/NewsRoom/AttachmentNg/764c4686-6d1d-493a-855b-0a5f8968b9cf
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