Great Pacific Gold Corp. ("Great Pacific Gold,” “GPAC,” or the
"Company") (TSXV: GPAC) (OTCQX: FSXLF) (Germany: 4TU) is pleased to
announce new high-grade gold assays from a follow up diamond drill
hole of the Comet gold discovery at the Lauriston Gold Project in
Victoria, Australia (Figure 1). Diamond drill hole CDH10
intersected
4.0 at 22.3 g/t Gold from 101.9m.
This high-grade intercept, together with
additional gold assays received, occur within and below the
previously identified main zone of the initial high-grade reverse
circulation (RC) percussion discovery hole CRC07 (8m at 106
g/t Gold including 5m at 166 g/t Gold including 2m
at 413 g/t Gold including 1m at 468 g/t Gold and 1m at 358 g/t
Gold (from 95 metres) (see news release January 11,
2024)).
In addition to the high-grade gold assays from
CDH10, the Company also received a number of deeper high-grade gold
intervals from diamond drill hole CDH09 including 0.35m at
55.6 g/t Gold from 130.4m, 0.2m at 22.23 g/t Gold from 133.8m and
0.2m at 15.67 g/t Gold from 170.75m. These high-grade
assays at depth show the significant potential of the system being
drilled at Comet (see Figure 2 – Updated Comet Cross Section
below).
GPAC Chief Operating Officer and Director, Rex
Motton, states, “Our latest gold assays intersected stacked zones
of mineralization providing us with important geological
information on the potential scope of the system. Importantly,
high-grade gold at depth was associated with widespread quartz
veining. Drilling has focused on understanding the
controls of the gold mineralization and led to the development of a
structural geological framework. This structural setting highlights
several possible high-grade targets deeper and further west of the
current drilling pattern, as well as along strike. We are looking
forward to continuing drilling to better understand the controls on
this highly prospective set of gold mineralized structures and to
discover more high-grade gold mineralization.”
Figure 1 – Comet Location Maps
Figure 2 – Updated Comet Cross Section
5850093mN
Figure 3 - Visible Gold Contained within CDH10
Quartz Vein Associated with Arsenopyrite and Stibnite needles
Assays reported in this news release cover nine
diamond drill holes totalling 1,380m. See Table 1 for all gold
assay results received from the diamond drill program at Comet.
The Comet gold mineralization is hosted by
Ordovician slates and sandstones, which are folded in a series of
north-south striking concertina folds and regionally form part of
the Fosterville Sub-Domain, east of Bendigo. The west dipping
thrust fault at Comet, known as the Comet fault zone, is associated
with the gold mineralization at the prospect. This high-grade gold
discovery is located within the core of the Comet Anticline, where
it is intersected by the Comet Fault Zone, which is a similar
structural setting of the mineralization present at Fosterville.
Further diamond drilling has determined that the Comet anticlinal
fold is moved westerly with depth below the main Comet thrust
melange - fault zone and that a set of flat lying auriferous
extensional quartz veins occurs below the main thrust fault.
The Comet prospect has epizonal characteristics
of Au-As-Sb mineralization similar to the Fosterville gold deposit.
Other epizonal Victorian projects include the Costerfield and
Sunday Creek gold deposits.
A review of the drilling done to date has meant
that there remain sections of the drilling that require further
core cutting and assaying particularly in the lower part of CDH02
drillhole.
Figure 4 – Deformation model
An example of the mechanisms for the development
of this large structural framework is presented in Figure 4.
East-West compression causes the development of bedding plane slip
surfaces, thrusts and extension arrays through progressive coaxial
shortening (Sibson and Scott, 1998). West dipping thrust faults and
extensional flat lying quartz veining especially in the zone of
east dipping beds east of the anticline are dilational and create
foci for gold mineralization to occur. Later strike slip faulting
disrupted and fractured the gold mineralization previously
deposited.
The model indicates that further gold
mineralization will occur along the west dipping thrust faults
especially when in proximity to the core of the anticline, as well
as within the extensional quartz veined array.
Apart from planned drilling along strike,
further drilling is planned west of CDH02 to determine the location
of the Comet Anticline and Comet Thrust intersection repetition
(Figure 5).
Figure 5 – Comet drill targets for further
exploration.
Drill Results and
Intercepts:
HoleID |
East |
North |
Azimuth(deg.) |
Dip (deg.) |
From (m) |
To (m) |
DownholeInterval(m) |
Au g/t |
CDH02 |
263510.26 |
5850092.31 |
90.12 |
-78.7 |
117.0 |
124.1 |
5.1 |
0.71 |
and |
|
|
|
|
131.0 |
133.5 |
2.5 |
0.98 |
and |
|
|
|
|
136.45 |
140.0 |
3.55 |
1.29 |
and |
|
|
|
|
186.7 |
191.1 |
4.4 |
0.72 |
and |
|
|
|
|
217.7 |
218.9 |
1.2 |
0.68 |
CDH03 |
263526.67 |
5850125.28 |
84.22 |
-64.6 |
85.0 |
88.0 |
3.0 |
1.03 |
and |
|
|
|
|
101.0 |
102.0 |
1.0 |
1.04 |
CDH04 |
263524.08 |
5850124.16 |
82.72 |
-74.8 |
103.0 |
105.0 |
2.0 |
0.60 |
and |
|
|
|
|
112.0 |
115.0 |
3.0 |
0.36 |
and |
|
|
|
|
148.0 |
149.0 |
1.0 |
0.51 |
CDH05A |
263519.28 |
8580092.64 |
92.12 |
-65.6 |
81.50 |
84.10 |
2.6 |
0.48 |
and |
|
|
|
|
86.65 |
87.65 |
1.0 |
0.32 |
and |
|
|
|
|
90.95 |
92.95 |
2.0 |
4.79 |
CDH06 |
263514 |
5850093 |
75 |
-63 |
88.90 |
90.00 |
1.85 |
0.67 |
and |
|
|
|
|
97.45 |
98.00 |
0.55 |
0.97 |
and |
|
|
|
|
100.78 |
102.5 |
2.94 |
0.81 |
and |
|
|
|
|
104.95 |
105.30 |
0.4 |
10.90 |
CDH07 |
263514.03 |
5850093 |
68 |
-72 |
105.55 |
115.95 |
10.40 |
1.21 |
and |
|
|
|
|
119.25 |
120.65 |
1.4 |
0.64 |
CDH08 |
263511 |
5850090 |
107 |
-70 |
95.9 |
98.2 |
2.3 |
0.66 |
and |
|
|
|
|
99.8 |
105.3 |
5.5 |
0.92 |
and |
|
|
|
|
107.75 |
110.45 |
2.7 |
2.18 |
and |
|
|
|
|
114.6 |
116.9 |
2.3 |
0.35 |
and |
|
|
|
|
141.7 |
141.97 |
0.27 |
0.67 |
and |
|
|
|
|
151.35 |
151.70 |
0.35 |
0.33 |
and |
|
|
|
|
168.75 |
169.3 |
0.55 |
6.26 |
CDH09 |
263510 |
5850090 |
82 |
-73 |
117.45 |
118.45 |
1.0 |
10.62 |
and |
|
|
|
|
130.40 |
130.75 |
0.35 |
55.60 |
and |
|
|
|
|
133.8 |
134.0 |
0.2 |
22.63 |
and |
|
|
|
|
170.75 |
170.95 |
0.2 |
15.67 |
CDH10 |
263532 |
5850120 |
143 |
-69 |
101.9 |
105.9 |
4.0 |
22.3 |
Except for diamond drill holes CDH09 and CDH10
that use a 1.0 g/t Au cut off, the above results use a 0.3 g/t Au
cut-off grade and maximum 2m internal waste. True widths are not
known due to the complexities of the mineralization. Additional
drilling is required to determine true widths. The assays are
not capped.
Quality Assurance / Quality
Control
All assays were subject to quality control
measures appropriate for percussion drilling with duplicates,
blanks and commercially available standards with the expected
results from the samples submitted. All assays were conducted by
Onsite Laboratory Services Ltd (ISO: 9001), located in Bendigo,
Victoria, using fire assay techniques with a 25g or 50g charge and
ICP or AAS finish. The quality control results are consistent.
About GPAC
Great Pacific Gold has a portfolio of high-grade
gold projects in Papua New Guinea (“PNG”) and Australia.
In PNG, Great Pacific Gold recently assembled a
2500 sq. km mineral exploration land package in PNG. The land
package comprises of exploration licenses (EL). It includes both
early-stage and advanced-stage exploration targets with high-grade
epithermal vein and porphyry-style mineralization present.
The Arau Project consists of
two exploration licenses, located in the Kainantu region, and
includes the Mt. Victor Prospect, where previous drilling found a
multiple phase intrusion complex hosting copper and gold
mineralization.
The Wild Dog Project consists
of two granted exploration licenses, EL 2761 and 2516, located on
the island of New Britain and about 50 km southwest of Rabaul and
Kokopo, PNG.
The Kesar Creek Project
consists of one exploration license, EL 2711, and is contiguous
with the K92 Mining Inc. tenements.
The Tinga Valley Project
consists of one exploration license, EL 2720. The OK Tedi Copper
Gold Mine is 140km to the northwest along the same belt is a superb
geological comparison to the Tinga Valley Property.
In Australia, Great Pacific Gold began with two,
100% owned, high-grade gold projects called the
Lauriston and Golden Mountain
Projects, and has since acquired a large area of granted and
application tenements containing further epizonal (low-temperature)
high-grade gold mineralization and associated intrusion-related
gold mineralization all in the state of Victoria, Australia. The
Great Pacific Gold land package, assembled over a multi-year
period, notably includes the Lauriston Project
which is a 535 sq. km property immediately to the south of and
within the same geological framework that hosts Agnico Eagle Mines
Ltd’s Fosterville Gold Mine and associated exploration tenements.
The Golden Mountain Project is an
intrusion-related gold project on the edge of the Strathbogie
granite and occurs at the northern end of the Walhalla Gold Belt.
The acquired projects include the epizonal gold Providence
Project containing the Reedy Creek
goldfield which adjoins the Southern Cross Gold’s Sunday Creek
exploration project and a large group of recently consolidated
granted tenements called the Walhalla Gold Belt
Project, which contain a variety of epizonal and
intrusion related style gold mineralization. Additionally, Great
Pacific Gold has another gold-focused project called the
Moormbool Project which has
epizonal style gold mineralization and associated potential
intrusion-related gold mineralization, as well as the
Beechworth Project occurs in the
northeast of the state and contains intrusion related and mesozonal
gold mineralization.
All GPAC’s properties in Australia are 100%
owned and have had historical gold production from hard rock
sources despite limited modern exploration and drilling.
Qualified Person
The technical content of this news release has
been reviewed, verified and approved by Rex Motton, AusIMM (CP),
COO of GPAC, a Qualified Person under the meaning of National
Instrument 43-101 – Standards of Disclosure for Mineral Projects.
Mr. Motton is responsible for the technical content of this news
release.
On behalf of GPACRex MottonChief Operating Officer and
Director
ReferenceSibson and Scott,
1998, Stress/fault controls on the containment and release of
over-pressured fluids: Examples from gold-quartz vein systems in
Juneau, Alaska; Victoria, Australia and Otago, New Zealand. Ore
Geology reviews, Vol13, pp 293-306.
Forward-Looking Statements
Information set forth in this news release
contains forward-looking statements that are based on assumptions
as of the date of this news release. These statements reflect
management's current estimates, beliefs, intentions and
expectations. They are not guarantees of future performance. Great
Pacific Gold cautions that all forward looking statements are
inherently uncertain and that actual performance may be affected by
many material factors, many of which are beyond their respective
control. Such factors include, among other things: risks and
uncertainties relating to Great Pacific Gold's limited operating
history, its exploration and development activities on its mineral
properties and the need to comply with environmental and
governmental regulations. Accordingly, actual and future events,
conditions and results may differ materially from the estimates,
beliefs, intentions and expectations expressed or implied in the
forward looking information. Except as required under applicable
securities legislation, Great Pacific Gold does not undertake to
publicly update or revise forward-looking information.
Neither 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.
For further information: Adam
Ross, Investor Relations, Direct: (604) 229-9445, Toll Free: 1
(833) 923-3334, Email: info@greatpacificgoldcorp.com
Photos accompanying this announcement are available at:
https://www.globenewswire.com/NewsRoom/AttachmentNg/75608985-bb19-407f-9020-2ae53aa6a399
https://www.globenewswire.com/NewsRoom/AttachmentNg/61e9993d-f35e-415b-b4e9-89ad92150aa0
https://www.globenewswire.com/NewsRoom/AttachmentNg/735591fb-1d1d-4181-9fab-ef990bbff168
https://www.globenewswire.com/NewsRoom/AttachmentNg/e1465491-14e6-49ec-98d4-b141f25256d5
https://www.globenewswire.com/NewsRoom/AttachmentNg/c11b5b33-5b86-4b3f-a8c4-71f222503987
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