TIDMGGP
RNS Number : 5935Y
Greatland Gold PLC
10 September 2020
10 September 2020
Dissemination of a Regulatory Announcement that contains inside
information according to REGULATION (EU) No 596/2014 (MAR)
Greatland Gold plc
( " Greatland " or "the Company " )
Latest Drilling Results at Havieron Highlight Potential Bulk
Tonnage Target
On track to deliver initial resource at Havieron in Q4 2020 as
footprint of mineralisation is extended with the expansion of a new
mineralised breccia zone
Greatland Gold plc (AIM:GGP), the precious and base metals
exploration and development company, is pleased to provide an
update on Newcrest's drilling campaign at Greatland's Havieron
deposit in the Paterson region of Western Australia.
The new breccia zone ("Northern Breccia"), identified in step
out drilling in the north west part of the Havieron deposit,
continues to expand with further drilling. Currently, the Northern
Breccia has a footprint of 300m x 100m x 300m open at depth and
highlights a broad bulk tonnage target.
Greatland notes the release of an ASX announcement titled "
Exploration Update " by Newcrest Mining Ltd ("Newcrest") earlier
today.
Highlights
-- Further excellent results from the Northern Breccia highlight
the potential for a broad bulk tonnage target at Havieron.
-- Importantly, higher grade zones related to massive sulphide
mineralisation are also observed within the Northern Breccia.
-- Infill drilling results continue to demonstrate geological
and grade continuity within the high-grade crescent sulphide zone
and surrounding breccia.
-- Latest drill results provide additional support to the
ongoing investigation of both high-grade selective and bulk mining
methods.
-- These results further advance the geological understanding of
the system and indicate further potential for additional breccia
and higher-grade sulphide style mineralisation in the less explored
Northern Breccia region.
Best New Results (not previously reported)
-- HAD043W2: 116.2m @ 2.6g/t Au, 0.65% Cu from 607m, including
-- 18m @ 6.3g/t Au, 0.92% Cu from 671m
-- HAD047: 309m @ 0.99g/t Au, 0.07% Cu from 915m, including
-- 44m @ 3.3g/t Au, 0.15% Cu from 1157m
-- HAD055W1: 171m @ 1.5g/t Au, 0.10% Cu from 890m, including
-- 12.1m @ 4.5g/t Au, 0.04% Cu from 984.9m
-- HAD077: 127.6m @ 2.0g/t Au, 0.33% Cu from 551m, including
-- 29.8m @ 6.7g/t Au, 0.86% Cu from 616m
-- HAD078: 208.6m @ 1.2g/t Au, 0.22% Cu from 832.4m, including
-- 10.4m @ 4.0g/t Au, 0.11% Cu from 1002.6m
Next Steps
-- On track to deliver an initial resource for Havieron in calendar Q4 2020.
-- Exploration programmes at Havieron continue, with both infill
drilling to deliver a resource and step out drilling to define the
extent of the mineralised system.
-- Environmental and baseline studies progressing to support
potential commencement of decline at Havieron by end of calendar
year 2020 or early 2021, subject to market and operating conditions
and receipt of all necessary permits, consents and approvals.
-- Continuing to investigate potential to achieve commercial
production within two to three years from commencement of
decline.
Gervaise Heddle, Chief Executive Officer of Greatland Gold plc,
commented: "The expansion of the new Northern Breccia zone is an
important development that highlights the potential for a bulk
tonnage mining operation at Havieron. Significantly, excellent
results from step out drilling to date indicate the presence of
higher-grade, massive sulphide mineralisation within the breccia
bodies, which are yet to be fully defined by drilling and remain
open at depth.
"As Newcrest's ongoing exploration programmes continue to define
the extent of the mineralised system, we are also pleased to
confirm the expected delivery of an initial resource at Havieron in
Q4 2020. Alongside the progress at Havieron, we are continuing with
our exploration plans at our other assets in the Paterson region
and look forward to providing the market with further updates."
Analytical results for HAD031W1, HAD043W2, HAD047, HAD048,
HAD055W1, HAD065, HAD068W2, HAD069, HAD070, HAD072, HAD073, HAD074,
HAD075, HAD076, HAD077, HAD078, HAD079, HAD080, HAD081, HAD082 have
been received and are announced today. Selected significant
intercepts are presented in Table 1.
Table 1 - Selected Significant Havieron Intercepts
Hole ID From (m) To (m) Width Gold Copper
(m) (g/t) (%)
HAD043W2 607 723.2 116.2 2.6 0.65
--------- ------- ------ ------- -------
including 671 689 18 6.3 0.92
--------- ------- ------ ------- -------
HAD047 915 1224 309 0.99 0.07
--------- ------- ------ ------- -------
including 1157 1201 44 3.3 0.15
--------- ------- ------ ------- -------
including 1158 1159 1 100 0.85
--------- ------- ------ ------- -------
HAD048 960.6 1035.9 75.3 1.8 0.17
--------- ------- ------ ------- -------
including 973 1003 30 3.7 0.27
--------- ------- ------ ------- -------
HAD048 1141 1222.1 81.1 1.6 0.83
--------- ------- ------ ------- -------
HAD055W1 890 1061 171 1.5 0.10
--------- ------- ------ ------- -------
HAD068W2 1131.2 1191.3 60.1 1.3 0.14
--------- ------- ------ ------- -------
including 1131.9 1153.4 21.5 2.9 0.20
--------- ------- ------ ------- -------
HAD069 1006 1193 187 0.61 0.10
--------- ------- ------ ------- -------
HAD072 543.7 613.2 69.5 1.4 0.50
--------- ------- ------ ------- -------
including 548.8 573.4 24.6 3.5 1.40
--------- ------- ------ ------- -------
HAD074 710.9 876.6 165.7 0.62 0.35
--------- ------- ------ ------- -------
HAD075 913 1049 136 0.5 0.14
--------- ------- ------ ------- -------
HAD076 884.6 997 112.4 0.9 0.08
--------- ------- ------ ------- -------
HAD076 1049 1075 26 4.9 0.16
--------- ------- ------ ------- -------
including 1063 1063.7 0.7 178 0.53
--------- ------- ------ ------- -------
HAD077 551 678.6 127.6 2.0 0.33
--------- ------- ------ ------- -------
including 616 645.8 29.8 6.7 0.86
--------- ------- ------ ------- -------
HAD078 832.4 1041 208.6 1.2 0.22
--------- ------- ------ ------- -------
HAD079 1195 1277 82 1.0 0.13
--------- ------- ------ ------- -------
* Reporting Criteria are listed in Appendix II
In addition to this release, a PDF version of this report, with
supplementary information can be found at the
Company's website: www.greatlandgold.com/media/jorc/
Further Information on Newcrest Drilling and Operations at
Havieron
Exploration activities at Havieron are operated by Newcrest
under a Farm-in Agreement with Greatland. The Havieron deposit is
centered on a magnetic anomaly located 45km east of Telfer.
Exploration drilling by Greatland during 2018 resulted in the
discovery of significant gold and copper mineralisation under 400m
of post mineral cover. Newcrest commenced drilling at Havieron
during the June 2019 quarter.
A further 22,155m of new drilling has been completed since 30
June 2020 for a total of 98,698m of drilling by Newcrest. Results
reported today are from a further 20 holes including wedges.
Significant results are presented in Table 1. Infill and step out
drilling results announced today are considered excellent.
At Havieron, exploration programs have focused on an infill
drilling program to deliver an initial resource, and step out
drilling to define the extent of the Havieron mineralised system.
Additional drilling results since the 30 June 2020 Quarterly
Exploration Report have validated the expanded extent of the
Havieron mineralised system and drilling continues to define the
new "Northern Breccia" mineralised zone.
Overall, the step out drilling has defined a 650m x 350m NW
trending ovoid shaped variably mineralised breccia. On the margins
of the breccia is a higher grade sulphide zone.
The new breccia zone, the "Northern Breccia", identified in step
out drilling in the north west continues to expand with further
drilling. Currently the Northern Breccia has a footprint of 300m x
100m x 300m open at depth and highlights a broad bulk tonnage
target. Importantly internal higher grade zones related to massive
sulphide mineralisation are also observed within this breccia.
These results further advance the geological understanding of the
system and indicate further potential for both additional breccia
and higher grade sulphide style mineralisation in this less
explored region.
Infill drilling in the south-east continues to demonstrate
geological and grade continuity over the upper 600m vertical extent
of the high grade crescent sulphide zone and surrounding breccia
with infill hole HAD077 returning 127.6m @ 2.0g/t Au, 0.33% Cu from
551m including 29.8m @ 6.7g/t Au, 0.86% Cu from 616m. Ongoing
infill drilling is nearing completion, focused on the delivery of
an initial resource in calendar Q4 2020.
The high grade sulphide zone forms an ovate shape with a
south-eastern and north-western closure. The mineralisation is best
developed in the south-eastern closure.
-- In the south-eastern closure:
-- The upper levels of the system (-170m to -400mRL) have an
internal unfolded strike of 550m, an average width estimate of 20m
and a height of 230m.
-- The mid level of the system (-400m to -600mRL) has an
internal unfolded strike of 400m, an average width estimate of 20m
and a height of 200m.
-- The lower levels (-600m to -800mRL) where drill tested, has
the crescent zone which tapers in strike length to 200m, with a
width of approximately 20m and a height of 200m.
-- Breccia mineralisation adjoining the Crescent zone continues
to deliver strong results including HAD077.
-- In the north-western closure:
-- Initial drill testing indicates the sulphide zone
mineralisation is thinner and irregular (typically averages <5m,
with rare 10m intercepts).
-- At this early stage additional drill testing is required to determine ore shoot distribution.
-- Mineralisation on the limbs between the south-east and
north-west closure is irregularly developed.
Infill drilling of the south-east arcuate sulphide Crescent zone
(with nominal drill spacing of 50 - 100m laterally, and 100m
vertically) is nearing completion to support the delivery of an
initial resource in Q4 2020.
Ongoing extensional drilling has confirmed and further expanded
the footprint of the northern breccia hosted mineralisation.
Previously reported drill holes HAD066 and HAD046W1 intersected a
new breccia zone returning 128.7m^^ @ 1.0g/t Au and 0.13% Cu from
734.1m (HAD066) and 134.6m^^ @ 2.5g/t Au and 0.07% Cu from 923m
(HAD046W1). Importantly hole HAD046W1 internal to this interval
returned a higher grade zone including 27.3m^^ @ 10g/t Au and 0.13%
Cu from 944.7m associated with more intense sulphide development.
Drilling in the reporting period has continued to define this
mineralised northern breccia zone. Additional results during the
reporting period include HAD047, 309m @ 0.99g/t Au, 0.07% Cu from
915m including 44m @ 3.3g/t Au, 0.15% Cu from 1157m and HAD078,
208.6m @ 1.2g/t Au, 0.22% Cu from 832.4m including 10.4m @ 4.0g/t
Au & 0.11% Cu from 1002.6m.
^^ previously reported 11 June 2020
Mineralisation at the Havieron deposit remains open to the
north-west, has been observed to over 1,000m below post mineral
cover, and remains open at depth. The extents of the Havieron
system are still to be defined.
Ongoing drilling will be supported by surface exploration
activities including ground and airborne geophysics. A 31 line
kilometre seismic survey has recently been completed to de-risk
development activities and provide a better understanding of the
regional geological and mine scale structural setting. Acquisition
of SKYTEM over the JV Blocks is being considered.
Studies are ongoing and include mining methods, hydrogeology,
geotechnical, metallurgical, engineering and
environmental to support delivery of a mineral resource estimate in Q4 2020.
Newcrest continues to investigate the potential to commence an
exploration decline at Havieron by the end of calendar year 2020 or
early 2021, subject to market and operating conditions and receipt
of all necessary permits, consents and approvals, along with the
potential to achieve commercial production within two to three
years from commencement of decline.
Newcrest has implemented and maintained measures to reduce and
mitigate the risk of the COVID-19 pandemic to its project workforce
and key stakeholders. Potential impacts of the COVID-19 pandemic on
the drilling activity at Havieron are being actively managed and
considered as part of the studies underway. There have been no
COVID-19 cases at Havieron.
Stage 3 of the Farm-in is progressing including ongoing
exploration drilling and studies to support early development
options. Currently, nine drill rigs remain operational. A 100
person camp is on-site to support ongoing operations. In order to
complete Stage 3 of the Farm-in Agreement, Newcrest must spend an
additional US$25 million and deliver a Pre-Feasibility study for
the Havieron project.
Additional drill hole information is presented in Appendix I and
tabulated drill hole intercepts are presented in Appendix II.
Deposit mineralisation is hosted by metasedimentary
(meta-sandstones, meta-siltstones and meta-carbonate) and intrusive
rocks. Gold and copper mineralisation is hosted in breccia, vein
and massive sulphide replacement styles, typical of
intrusion-related and skarn types of mineralisation. The main
sulphide mineral assemblage contains well developed
pyrrhotite-chalcopyrite and pyrite. Alteration assemblages
associated with mineralisation are
amphibole-carbonate-biotite-sericite-chlorite. Higher grade gold
zones (+10g/t Au) are often associated with
quartz/chalcopyrite-pyrite veining.
Background to Havieron and Farm-in Agreement with Newcrest
In March 2019, Greatland entered into a Farm-in Agreement with
Newcrest Operations Limited, a wholly-owned subsidiary of Newcrest
Mining Limited (ASX:NCM), to explore and develop Greatland's
Havieron gold-copper discovery in the Paterson region of Western
Australia. Newcrest has the right to earn up to a 70% interest in a
12-block area within E45/4701 that covers the Havieron target by
spending up to US$65m. Newcrest may acquire an additional 5%
interest at the end of the Farm-in period at fair market value.
Newcrest has completed Stage 2 of the Farm-in Agreement. In
accordance with the terms of the Agreement, Newcrest has earned a
40% interest in the Havieron Project. Newcrest is now progressing
Stage 3 work programs including ongoing exploration drilling and
studies to support early development options. In order to complete
Stage 3 of the Farm-in, Newcrest must incur an additional US$25
million in expenditure and deliver a Pre-Feasibility study for the
Havieron Project. If Newcrest successfully completes Stage 3,
Newcrest will earn an additional 20% Farm-in Interest (cumulative
60% Farm-in interest).
During the Farm-in and Havieron Joint Venture periods, Newcrest
will have a right of first refusal over the remainder of the
Havieron licence. During the Farm-In period, Newcrest will have a
right of first refusal over Greatland's Black Hills and Paterson
Range East licences.
The Farm-in Agreement includes tolling principles reflecting the
intention of the parties that, subject to a successful exploration
programme and feasibility study, the resulting joint venture ore
will be processed at Telfer, located 45km west of Havieron.
A regional map showing the Havieron licence area with regional
targets and adjacent landholdings can be found at:
www.greatlandgold.com/paterson
Competent Person:
Information in this announcement that relates to exploration
results has been extracted from the following announcements:
"Newcrest Exploration Update", dated 10 September 2020
"Newcrest Quarterly Exploration Report", dated 23 July 2020
"Further Outstanding Drill Results from Havieron", dated 11 June
2020
"Newcrest Exploration Update", dated 11 June 2020
"Further Outstanding Drill Results at Havieron", dated 30 April
2020
"Newcrest Quarterly Exploration Report", dated 30 April 2020
"Newcrest Exploration and Guidance Update", dated 11 March
2020
"Further Outstanding Drill Results at Havieron", dated 11 March
2020
"Newcrest Quarterly Exploration Report", dated 30 January
2020
"Exploration Update - Drilling Returns High Grade Results at
Havieron", dated 2 December 2019
"Newcrest Quarterly Exploration Report - September 2019", dated
24 October 2019
"Exploration Update - Havieron", dated 10 September 2019
"Newcrest Quarterly Exploration Report - June 2019", dated 25
July 2019
Information in this announcement, which has been taken from
Newcrest Mining Limited's announcement "Exploration Update", dated
10 September 2020 , has been reviewed and approved by Mr Mick
Sawyer, a member of the Australian Institute of Geoscientists and a
Registered Professional Geoscientist (R.P.Geo #10194), who has more
than 15 years relevant industry experience. Mr Sawyer is
Exploration Manager and a full-time employee of Greatland Pty Ltd,
and holds employee options in Greatland Gold plc. Mr Sawyer, has
sufficient experience relevant to the style of mineralisation and
type of deposit under consideration, and to the activity which he
is undertaking to qualify as a Competent Person as defined by the
2012 Edition of the Australasian Code for Reporting of Exploration
Results, Mineral Resources and Ore Reserves (the JORC Code) and
under the AIM Rules - Note for Mining and Oil & Gas Companies ,
which outline standards of disclosure for mineral projects. Mr
Sawyer consents to the inclusion in this announcement of the
matters based on this information in the form and context in which
it appears. Mr Sawyer confirms that the Company is not aware of any
new information or data that materially affects the information
included in the relevant market announcements, and that the form
and context in which the information has been presented has not
been materially modified.
Additional information on the project can be found on the
Company's website at www.greatlandgold.com/paterson/
In addition to this release, a PDF version of this report, with
supplementary information can be found at the Company's website:
www.greatlandgold.com/media/jorc
Enquiries:
Greatland Gold PLC
Gervaise Heddle/Callum Baxter
Tel: +44 (0)20 3709 4900
Email: info@greatlandgold.com
www.greatlandgold.com
SPARK Advisory Partners Limited (Nominated Adviser)
Andrew Emmott/James Keeshan
Tel: +44 (0)20 3368 3550
Berenberg (Joint Corporate Broker and Financial Adviser)
Matthew Armitt/Jennifer Wyllie/Detlir Elezi
Tel: +44 (0)20 3207 7800
Hannam & Partners (Joint Corporate Broker and Financial
Adviser)
Andrew Chubb/Matt Hasson/Jay Ashfield
Tel: +44 (0)20 7907 8500
SI Capital Limited (Joint Broker)
Nick Emerson/Alan Gunn
Tel: +44 (0)14 8341 3500
Luther Pendragon (Media and Investor Relations)
Harry Chathli/Alexis Gore/Joe Quinlan
Tel: +44 (0)20 7618 9100
Notes for Editors:
Greatland Gold plc is a London Stock Exchange AIM-listed
(AIM:GGP) natural resource exploration and development company with
a current focus on precious and base metals. The Company has six
main projects; four situated in Western Australia and two in
Tasmania.
In March 2019, Greatland signed a Farm-in Agreement with
Newcrest Operations Limited, a wholly-owned subsidiary of Newcrest
Mining Limited (ASX:NCM), to explore and develop Greatland's
Havieron gold-copper deposit in the Paterson region of Western
Australia. Newcrest has the right to earn up to a 70% interest in a
12-block area within E45/4701 that covers the Havieron target by
spending up to US$65 million.
Greatland is seeking to identify large mineral deposits in areas
that have not been subject to extensive exploration previously. It
is widely recognised that the next generation of large deposits
will come from such under-explored areas and Greatland is applying
advanced exploration techniques to investigate a number of
carefully selected targets within its focused licence
portfolio.
The Company is also actively investigating a range of new
opportunities in precious and strategic metals and will update the
market on new opportunities as and when appropriate.
APPIX I
Havieron Project (Greatland Gold plc farm-in agreement): JORC
Table 1
Section 1 Sampling Techniques and Data
Criteria Commentary
Sampling techniques Diamond core samples are obtained from diamond
drilling in Proterozoic basement lithologies. PQ-HQ
and NQ diameter diamond core was drilled on a 6m
run. Diamond core was cut using an automated core-cutter
and half core sampled at 1m intervals with breaks
for major geological changes. Sampling intervals
range from 0.2 - 1.0m. Cover sequences were not
sampled.
--------------------------------------------------------------
Drilling techniques Permian Paterson Formation cover sequence was drilled
using mud rotary drilling. Depths of cover typically
observed to approximately 420m vertically below
surface. Steel casing was emplaced to secure the
pre-collar.
Diamond drilling was advanced from the base of
the cover sequence with PQ3, HQ3 and NQ2 diameter
coring configuration.
Diamond core from inclined drill holes are oriented
on 3m and 6m runs using an electronic core orientation
tool (Reflex ACTIII). At the end of each run, the
bottom of hole position is marked by the driller,
which is later transferred to the whole drill core
run length with a bottom of hole reference line.
--------------------------------------------------------------
Drill sample Diamond core recovery is systematically recorded
recovery from the commencement of diamond coring to end
of hole, by reconciling against driller's depth
blocks in each core tray with data recorded in
the database. Drillers depth blocks provided the
depth, interval of core recovered, and interval
of core drilled.
Diamond core recoveries were typically 100%, with
isolated zones of lower recovery.
Cover sequence drilling by the mud-rotary drilling
did not yield recoverable samples.
--------------------------------------------------------------
Logging Geological logging recorded qualitative descriptions
of lithology, alteration, mineralisation, veining,
and structure (for all diamond core drilled - 14,417m),
including orientation of key geological features.
Geotechnical measurements were recorded including
Rock Quality Designation (RQD) fracture frequency,
solid core recovery and qualitative rock strength
measurements.
Magnetic susceptibility measurements were recorded
every metre. The bulk density of selected drill
core intervals was determined at site on whole
core samples.
All geological and geotechnical logging was conducted
at Havieron site.
Digital data logging was captured on diamond drill
core intervals only, and all data validated and
stored in an AcQuire database.
All drill cores were photographed, prior to cutting
and/or sampling the core.
--------------------------------------------------------------
Sub-sampling Sampling, sample preparation and quality control
techniques protocols are considered appropriate for the material
and sample being sampled.
preparation Diamond core was cut and sampled at the Telfer
and Havieron core processing facility. Half core
samples were collected in pre-numbered calico bags
and grouped in plastic bags for dispatch to the
laboratory. Sample weights typically varied from
0.5 to 4kg. Sample sizes are considered appropriate
for the style of mineralisation. Drill core samples
were freighted by air and road to the laboratory.
Sample preparation was conducted at Intertek Laboratory,
Perth. Samples were dried at 105(o) C, and crushed
to 95% passing 4.75mm, and the split to obtain
up to 3kg sub-sample, which was pulverised (using
LM5) to produce a pulped product with the minimum
standard of 95% passing 106<MU>m.
Duplicate samples were collected from crush and
pulp samples at a rate of 1:20. Duplicate results
show an acceptable level of variability for the
material sampled and style of mineralisation.
Periodic size checks (1:20) for crush and pulp
samples and sample weights are provided by the
laboratory and recorded in the AcQuire database.
--------------------------------------------------------------
Quality of Assaying of diamond drill core samples was conducted
assay data at Intertek, Perth. All samples were assayed for
and laboratory 48 elements using a 4-acid digestion followed by
tests ICP-AES/ICP-MS determination (method 4A/MS907).
Gold analyses were determined by 50g fire assay
with AAS finish (method FA50N/AA).
Sampling and assaying quality control procedures
consisted of inclusion of certified reference material
(CRMs), coarse residue and pulp duplicates with
each batch (at least 1:20).
Assays of quality control samples were compared
with reference samples in AcQuire database and
verified as acceptable prior to use of data from
analysed batches.
Laboratory quality control data, including laboratory
standards, blanks, duplicates, repeats and grind
size results are captured in AcQuire database and
assessed for accuracy and precision for recent
data.
Extended quality control programs including pulp
samples submitted to an umpire laboratory and combined
with more extensive re-submission programs have
been completed.
Analysis of the available QC sample assay results
indicates that an acceptable level of accuracy
and precision has been achieved and the database
contains no analytical data that has been numerically
manipulated.
The assaying techniques and quality control protocols
used are considered appropriate for the data to
be used for reporting exploration drilling results.
--------------------------------------------------------------
Verification Sampling intervals defined by the Geologist are
of sampling electronically assigned sample identification numbers
and assaying prior to core cutting. Corresponding sample numbers
matching pre-labelled calico bags are assigned
to each interval.
All sampling and assay information were stored
in a secure AcQuire database with restricted access.
Electronically generated sample submission forms
providing the sample identification number accompany
each submission to the laboratory. Assay results
from the laboratory with corresponding sample identification
are loaded directly into the AcQuire database.
Assessment of reported significant assay intervals
was verified by re-logging of diamond drill core
intervals and assessment of high resolution core
photography. The verification of significant intersections
has been completed by company personnel and the
Competent Person.
No adjustments are made to assay data, and no twinned
holes have been completed. Drilling intersects
mineralisation at various angles.
--------------------------------------------------------------
Location of Drill collar locations were surveyed using a differential
data points GPS with GNSS with a stated accuracy of +/- 0.5m
for all drill holes reported.
Drill rig alignment was attained using an electronic
azimuth aligner. Downhole survey was collected
at 6-12m intervals in the cover sequence, and every
6 to 30m in diamond drill core segments of the
drill hole using single shot (Axis Mining Champ
Gyro). The single shot surveys have been validated
using continuous survey to surface (Axis Mining
Champ) along with a selection of drillholes re-surveyed
by an external survey contactor using a DeviGyro
tool - confirming sufficient accuracy for downhole
spatial recording.
Topographic control is established from SRTM (1
second) topographic data and derived digital elevation
model. The topography is generally low relief to
flat, with an average elevation of 265 m, within
dune corridors.
All collar coordinates are provided in the Geocentric
Datum of Australian (GDA94 Zone 51S). All relative
depth information is reported in Australian Height
Datum (AHD).
--------------------------------------------------------------
Data spacing The drill hole spacing ranges from 50 - 100m within
and distribution the south-eastern Crescent sulphide zone to 50-300m
in lateral extent within the breccia zone over
an area of 2km(2) .
Significant assay intercepts remain open. Further
drilling is required to determine the extent of
currently defined mineralisation. No sample compositing
is applied to samples.
--------------------------------------------------------------
Orientation Drill holes exploring the extents of the Havieron
of data in Mineral System intersect moderately dipping carbonate
relation to and siliclastic sedimentary facies, mineralised
geological breccia and sub-vertical intrusive lithologies.
structure Mineralised zones have been modelled to be steeply
dipping and have an arcuate shape, which remains
open, and at depth. Geological modelling has been
interpreted from historic and Newcrest drill holes.
Drilling direction has been oriented to intersect
perpendicular to modelled positions of the high
grade sulphide mineralisation zones; oriented to
intersect the mineralised zone at an intersection
angle of greater than 40 degrees.
The high grade arcuate crescent sulphide zone has
an average thickness of 20m and has been defined
over a strike length of up to 550m, and over 600m
in vertical extent below cover. Mineralised breccias
are observed within a footprint of 550m and widths
in excess of 100m, however the orientation and
extents of the breccia bodies are yet to be fully
defined by drilling and remain open at depth and
to the north west.
--------------------------------------------------------------
Sample security The security of samples is controlled by tracking
samples from drill rig to database.
Drill core was delivered from the drill rig to
the Havieron core yard every shift. On completion
of geological and geotechnical logging, core was
transported by vehicle to Telfer core processing
facility by Newcrest personnel.
High resolution core photography and cutting of
drill core was undertaken at the Havieron or Telfer
core processing facility.
Samples were freighted in sealed bags by air and
road to the Laboratory, and in the custody of Newcrest
representatives. Sample numbers are generated directly
from the database. All samples are collected in
pre-numbered calico bags.
Verification of sample numbers and identification
is conducted by the laboratory on receipt of samples,
and sample receipt advise issued to Newcrest.
Details of all sample movement are recorded in
a database table. Dates, Hole ID sample ranges,
and the analytical suite requested are recorded
with the dispatch of samples to analytical services.
Any discrepancies logged at the receipt of samples
into the analytical services are validated.
--------------------------------------------------------------
Audits or Due to the limited duration of the program, no
reviews external audits or reviews have been undertaken.
Internal verification and audit of Newcrest exploration
procedures and databases are periodically undertaken.
--------------------------------------------------------------
Section 2 Reporting of Exploration Results
Criteria Commentary
Mineral tenement The Havieron Project is entirely contained within
and land tenure 12 sub-blocks of E45/4701, which is 100% owned
status by Greatland Pty Ltd. Newcrest has entered into
an Exploration Farm-In (EFI) agreement with Greatland
Pty Ltd and Greatland Gold Plc effective 12 March
2019, with Newcrest as Manager of the Havieron
Project. The Stage 2 expenditure commitment of
US$20m under the Farm-in agreement with Greatland
Gold has been met. Newcrest has earned a 40% interest
in the project and is in stage three of a four
stage Farm-in, in which Newcrest has the right
to earn up to a 70% interest and acquire a further
5% at fair market value.
Newcrest and WDLAC are parties to an Indigenous
Land Use Agreement (ILUA) which relates to the
use of native title land for Newcrest's current
operations at Telfer and its activities within
a 60-km radius around Telfer, and includes its
exploration activities at Havieron. The parties
have agreed that the ILUA will apply to any future
development activities by the Joint Venture Participants
(Newcrest and Greatland) at Havieron.
All obligations with respect to legislative requirements
including minimum expenditure are maintained in
good standing. The exploration tenement E45/4701
was first granted 17 July 2017 for 5 years, expiring
16 July 2022.
------------------------------------------------------------------
Exploration Newcrest Mining Limited completed six diamond core
done by other holes in the vicinity of the Havieron Project from
parties 1991 to 2003. Greatland Gold completed drill targeting
and drilling of 9 Reverse Circulation (RC) drill
holes with diamond tails for a total of approximately
6,800m in 2018. Results of drilling programs conducted
by Greatland Gold have previously been reported.
Drilling has defined an intrusion-related mineral
system with evidence of breccia and massive sulphide-hosted
higher-grade gold-copper mineralisation.
------------------------------------------------------------------
Geology The Havieron Project is located within the north-western
exposure of the Palaeo-Proterozoic to Neoproterozoic
Paterson Orogen (formerly Paterson Province), 45
km east of Telfer. The Yeneena Supergroup hosts
the Havieron prospect and consists of a 9 km thick
sequence of marine sedimentary rocks, and is entirely
overlain by approximately 420m of Phanerozoic sediments
of the Paterson Formation and Quaternary aeolian
sediments.
Gold and copper mineralisation at Havieron consist
of breccia, vein and massive sulphide replacement
gold and copper mineralisation typical of intrusion-related
and skarn styles of mineralisation. Mineralisation
at the prospect is hosted by metasedimentary rocks
(meta-sandstones, meta-siltstones and meta-carbonate)
and intrusive rocks of an undetermined age. The
main mineral assemblage contains well developed
pyrrhotite-chalcopyrite and pyrite sulphide mineral
assemblages as breccia and vein infill, and massive
sulphide lenses. The main mineralisation event
is associated with amphibole-carbonate-biotite-sericite-chlorite
wall rock alteration. Drilling has partially defined
the extents of mineralisation which are observed
over 550m within an arcuate shaped mineralised
zone, and to depths of up to -1,100mRL.
------------------------------------------------------------------
Drill hole As provided.
Information
------------------------------------------------------------------
Data aggregation Significant assay intercepts are reported as (A)
methods length-weighted averages exceeding 1.0g/t Au greater
than or equal to 10 m, with less than 5m of consecutive
internal dilution; and (B) length-weighted averages
exceeding 0.2g/t Au for greater than or equal to
20m, with less than 10m of consecutive internal
dilution, and (C) and intervals of >30 gram metres
(calculated as the weighted average of consecutive
assayed interval multiplied by the Au grade in
ppm exceeding a value 30). No top cuts are applied
to intercept calculations.
------------------------------------------------------------------
Relationship Significant assay intervals reported represent
between mineralisation apparent widths. Drilling is not always perpendicular
widths and to the dip of mineralisation and true widths are
intercept less than downhole widths. Estimates of true widths
lengths will only be possible when all results are received,
and final geological interpretations have been
completed.
------------------------------------------------------------------
Diagrams As provided.
------------------------------------------------------------------
Balanced reporting This is the tenth release of Exploration Results
for this project made by Newcrest.
* The initial Newcrest release is dated 25 July 2019.
* The second release is dated 10 September 2019.
* The third release is dated 24 October 2019.
* The fourth release is dated 2 December 2019.
* The fifth release is dated 30 January 2020.
* The sixth release is dated 11 March 2020.
* The seventh release is dated 30 April 2020.
* The eighth release is dated 11 June 2020.
* The ninth release is dated the 23 July 2020.
Earlier reporting of exploration programs conducted
by Newcrest and Greatland Gold have previously
been reported. Exploration drilling programs are
ongoing and further material results will be reported
in subsequent Newcrest releases.
------------------------------------------------------------------
Other substantive Constrained 3D inversion modelling of the magnetic
exploration data was completed using MAG3D developed by the
data University of British Columbia Geophysical Inversion
Facility. The model cell size was 25m x 25m x 12.5m
(East x West x Z) at surface and then increasing
in thickness logarithmically to beyond 2,500m depth.
Topography data was included in the modelling.
The 3D inversion is constrained by the cover thickness,
where the susceptibility is set to zero within
the cover sequence and the inversion is constrained
to producing a positive susceptibility distribution
within basement only. This is consistent with physical
property data extracted from drill core. It should
also be noted that any magnetic inversion model
is a non-unique problem and should be treated with
some caution and not regarded as fact.
------------------------------------------------------------------
Further work Further work is planned to evaluate exploration
opportunities that extend the known mineralisation.
Initial drilling conducted by Newcrest has confirmed
higher grade mineralisation, broadened mineralised
extents defined by prior drilling and extended
the depth of observed mineralisation of the Havieron
project. The results of drilling to date indicate
the limits of mineralisation have been closed off
to the north east, south west and south east, and
remain open to the north west, and at depth. Drilling
programs at Havieron are ongoing with nine drill
rigs currently in operation.
------------------------------------------------------------------
APPIX II
Drillhole Data
Havieron Prospect, Paterson, Western Australia
Reporting Criteria: Intercepts reported are Au >0.20ppm
(0.2g/t Au) and minimum 20m downhole width with maximum consecutive
internal dilution of 10m. Also highlighted are high grade intervals
of Au >1.0ppm (1g/t Au) and minimum 10m downhole width with
maximum consecutive internal dilution of 5m, and intervals of
>30 gram metres (calculated as the weighted average of
consecutive assayed interval multiplied by the Au grade in ppm
exceeding a value 30) are tabled. Au grades are reported to two
significant figures. Samples are from diamond core drilling which
is PQ, HQ or NQ in diameter. Core is photographed and logged by the
geology team before being cut. Half core PQ, HQ and NQ samples are
prepared for assay and the remaining material is retained in the
core farm for future reference. Each assay batch is submitted with
duplicates and standards to monitor laboratory quality. Total depth
(end of hole) rounded to 1 decimal place for reporting
purposes.
Hole Hole Easting Northing RL Total Azimuth Dip From To Interval Au Cu Cut
ID Type (m) (m) (m) Depth (m) (m) (m) (ppm) (pct) off
(m)
0.2
g/t
HAD031W1 MR-DD 464303 7597748 258 1149.8 270 -64 720 773 53 0.79 0.11 Au
-------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
856 921 65 0.26 0.18 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
1093 1117 24 0.29 0.03 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
HAD043W2 MR-DD 463846 7597368 261 1029.7 45 -58 607 723.2 116.2 2.6 0.65 Au
-------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
1.0
g/t
incl 671 689 18 6.3 0.92 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
833.2 863.6 30.5 0.67 0.16 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
885 934 49 0.62 0.18 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
1.0
g/t
incl 899.4 909.7 10.3 1.9 0.69 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
HAD047 MR-DD 464320 7598168 257 1514.1 225 -59 540 578 38 0.4 0.05 Au
-------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
785 828.7 43.7 0.75 0.27 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
915 1224 309 0.99 0.07 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
1.0
g/t
incl 1157 1201 44 3.3 0.15 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
30
g.m
.
incl 1158 1159 1 100 0.85 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
1277 1305 28 0.72 0.02 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
1371.5 1422 50.5 0.55 0.05 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
1438 1458 20 0.51 0.51 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
HAD048 MR-DD 464274 7598204 257 1558.4 225 -67 791 832.7 41.7 0.48 0.01 Au
-------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
960.6 1035.9 75.3 1.8 0.17 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
1.0
g/t
incl 973 1003 30 3.7 0.27 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
30
g.m
.
incl 987 988 1 30 0.7 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
1141 1222.1 81.1 1.6 0.83 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
30
g.m
.
incl 1169.5 1170.4 0.9 76 0.73 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
1.0
g/t
incl 1188 1199.3 11.3 2.3 0.92 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
HAD055W1 MR-DD 463714 7597340 263 1452.5 47 -56 890 1061 171 1.5 0.1 Au
-------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
1.0
g/t
incl 984.9 997 12.1 4.5 0.04 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
HAD065 MR-DD 463661 7598393 256 1676.2 139 -60 899 949 50 0.31 0.42 Au
-------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
1052 1077 25 1.3 0.09 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
HAD068W2 MR-DD 464547 7597081 261 1545.9 323 -55 1131.2 1191.3 60.1 1.3 0.14 Au
-------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
1.0
g/t
incl 1131.9 1153.4 21.5 2.9 0.2 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
HAD069 MR-DD 464439 7598214 257 1327 222 -62 936.4 976.3 39.9 0.57 0.08 Au
-------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
1006 1193 187 0.61 0.1 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
1219 1249.3 30.3 0.27 0.04 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
HAD070 MR-DD 463473 7597743 258 1021 43 -61 762.4 803 40.6 1.1 0.15 Au
-------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
1.0
g/t
incl 787 798 11 1.6 0.25 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
HAD072 MR-DD 464434 7598082 257 708.9 221 -54 543.7 613.2 69.5 1.4 0.5 Au
-------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
1.0
g/t
incl 548.8 573.4 24.6 3.5 1.4 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
635.7 665.3 29.6 0.24 0.05 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
HAD073 MR-DD 464254 7598110 256 1177.1 224 -64 497.2 530.6 33.4 0.74 0.06 Au
-------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
672.3 709 36.7 0.47 0.09 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
762.2 807.7 45.4 0.52 0.29 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
954.9 1030 75.1 0.43 0.08 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
HAD074 MR-DD 464348 7598151 257 1279 223 -59 710.9 876.6 165.7 0.62 0.35 Au
-------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
891 938.9 47.9 0.25 0.05 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
972 1162 190 0.3 0.06 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
HAD075 MR-DD 464379 7597794 258 1239.9 256 -67 522.5 542.6 20.1 0.39 0.17 Au
-------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
735.8 779 43.3 0.25 0.06 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
850.5 899.1 48.6 0.55 0.04 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
913 1049 136 0.5 0.14 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
HAD076 MR-DD 464373 7598130 257 1143.5 229 -55 570.1 593 22.9 0.75 0.21 Au
-------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
676 758 82 0.29 0.05 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
884.6 997 112.4 0.9 0.08 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
1049 1075 26 4.9 0.16 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
30
g.m
.
incl 1063 1063.7 0.7 178 0.53 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
HAD077 MR-DD 463964 7597881 257 781.3 126 -60 512 540 28 2.1 0.08 Au
-------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
30
g.m
.
incl 527.8 528.4 0.6 88 0.63 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
551 678.6 127.6 2.0 0.33 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
1.0
g/t
incl 616 645.8 29.8 6.7 0.86 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
30
g.m
.
incl 631 631.8 0.8 44 1.3 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
HAD078 MR-DD 463575 7598307 255 1173.3 142 -57 604 626 22 0.85 0.24 Au
-------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
663.9 718.6 54.7 1.1 0.04 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
1.0
g/t
incl 698 714.7 16.8 1.7 0.03 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
729.3 798 68.7 1.2 0.13 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
1.0
g/t
incl 744.3 759 14.7 2.0 0.15 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
832.4 1041 208.6 1.2 0.22 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
1.0
g/t
incl 1002.6 1013 10.4 4.0 0.11 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
1110 1142 32 0.63 0.1 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
HAD079 MR-DD 463723 7598293 255 1430.6 144 -61 660 727 67 0.46 0.05 Au
-------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
911 1015 104 0.42 0.04 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
1028.4 1112.2 83.8 0.63 0.11 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
1135 1166 31 0.23 0.04 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
1195 1277 82 1.0 0.13 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
1.0
g/t
incl 1233 1257 24 2.9 0.33 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
1294.2 1323.2 29 0.36 0.02 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
1368 1390 22 0.67 0.04 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
HAD080 MR-DD 463657 7597508 262 1148.8 46 -60 578 610 32 0.4 0.09 Au
-------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
760.4 794 33.6 0.32 0.08 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
826.5 851 24.5 0.4 0.05 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
864.8 889 24.2 2.5 0.09 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
30
g.m
.
incl 874.4 875.3 1 50 0.72 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
934 977.5 43.5 0.84 0.15 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
HAD081 MR-DD 463407 7597521 263 1366.1 43 -57 1034 1073 39 0.25 0.05 Au
-------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
1122.8 1170 47.2 0.82 0.21 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
HAD082 MR-DD 464090 7597791 257 1027.1 303 -66 570 622.6 52.6 0.24 0.07 Au
-------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
641.4 694 52.7 0.24 0.02 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
740 807.7 67.7 0.28 0.06 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
0.2
g/t
903.7 951 47.3 1.4 0.03 Au
------------------- -------- --------- ---- ------- -------- ----- ------- ------- --------- ------ ------ ----
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(END) Dow Jones Newswires
September 10, 2020 02:00 ET (06:00 GMT)
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