Greatland Gold plc (AIM: GGP)
E: info@greatlandgold.com
W: https://greatlandgold.com
: twitter.com/greatlandgold
NEWS RELEASE | 19 June 2023
Havieron Exploration and Development Update
Continuing development at Havieron surpasses 2,400 metres
Drilling continues to intercept significant zones of high-grade gold and copper mineralisation
THIS ANNOUNCEMENT CONTAINS INSIDE INFORMATION AS STIPULATED UNDER THE UK MARKET ABUSE REGULATIONS. ON PUBLICATION OF THIS ANNOUNCEMENT VIA A REGULATORY INFORMATION SERVICE, THIS INFORMATION IS CONSIDERED TO BE IN THE PUBLIC DOMAIN.
Greatland Gold plc (AIM:GGP) (Greatland or the Company) is pleased to provide an exploration and development update for Havieron, its world class gold-copper project located in the Paterson Province of Western Australia (Newcrest Mining Limited (Newcrest) is Greatland's 70% joint venture partner in Havieron).
Highlights
§ Decline development: significant progress continues with total development to date now exceeding 2,400 metres including over 1,700 metres of advance in the main access decline (as at 16 June 2023)
§ Exciting drilling results: infill drilling continues to intersect high grade gold and copper mineralisation within the lower levels of the South East Crescent with the results to be incorporated into the ongoing Feasibility Study
§ Recent results from the South East Crescent include:
- 32m @ 6.6 g/t Au and 0.26% Cu from 1,317m
- 46m @ 4.2 g/t Au and 0.16% Cu from 1,229m
- 62m @ 2.2 g/t Au and 0.06% Cu from 1,349m
- 148m @ 1.7 g/t Au and 0.25% Cu from 1,205m
Greatland Managing Director, Shaun Day, commented:
"We continue to be very pleased with the ongoing progress of the Havieron development which has now surpassed a total of more than 2,400 metres.
Our most recent drilling affirms the impressive widths and high grade nature of the South East Crescent. Particularly encouraging is confirmation of continuous mineralisation through the link zone which connects the South East Crescent with the Eastern Breccia. The Havieron team is focused on incorporating these impressive results into an optimised Feasibility Study."
Development Update
The main decline continues to progress, having surpassed 1,700m. Decline support excavations for ventilation, services and materials handling takes the total development to over 2,400m.
Drilling Update
The infill drilling programme at Havieron, targeting the lower levels of the South East Crescent Mineral Resource was completed in May 2023. Since the last drilling update on 27 April 2023, a total of six holes were completed for 5,028m with all assay results now received. This most recent drilling takes total drilling at the project to 341 holes for 303,456m.
Work programmes are underway to incorporate these results into future Mineral Resource estimates to support the ongoing Feasibility Study.
Assay results have been received for all six new drill holes along with assays for four previously drilled holes (see Figures 1 and 2). Of these results, eight holes within the SE Crescent returned significant assay intercepts in excess of 50-gram metres of gold (Au ppm x length).
Results were received for HAD173 (Figure 2), testing a near mine exploration target, with no significant mineralisation intercepted.
Figure 1: 3D plan view schematic showing the spatial association of the current growth targets within the Havieron Deposit, South East Crescent, Northern Breccia, NW Pod and Eastern Breccia targets in relation to the existing mineralised extents. Also highlighted are all newly reported drilling result locations.
South East Crescent
At the South East Crescent, the final results from the infill drilling programme were received, with HAD133W11, HAD159W1, HAD171W3, HAD172W3 & HAD172W4 returning the following high-grade intercepts (see Figures 2, 3, 4 and 5):
§ HAD133W11
- 62m @ 2.2 g/t Au and 0.06% Cu from 1,349m
§ HAD159W1
- 46m @ 4.2 g/t Au and 0.16% Cu from 1,229m, including 22m @ 7.9 g/t Au and 0.27% Cu from 1,253m
§ HAD171W3
- 72m @ 1.6 g/t Au and 0.18% Cu from 1,554m
§ HAD172W3
- 148m @ 1.7 g/t Au and 0.25% Cu from 1,205m, including 30m @ 3.2 g/t Au and 0.51% Cu from 1,309m
§ HAD172W4
- 32m @ 6.6 g/t Au and 0.26% Cu from 1,317m and 28m @ 3.2 g/t Au and 0.06% Cu from 1,472m
Figure 2: Schematic plan view map showing announced section locations, drill hole locations and significant intercepts reported in this release superimposed on the interpreted geology horizontal slice at level 3,850mRL. (Previously reported holes are not shown for the sake of clarity. Note some holes and results appear on multiple sections due to the sections' orientation and overlap.)
Figure 3: Plan view schematic of a horizontal slice at 3,850mRL through the Havieron mineral system, showing the extents of the 0.5 g/t Au, 1.0 g/t Au and 2.0g/t Au Leapfrog™ grade shells with highlighted newly reported intercepts for this period. This diagram displays recent drilling and new assay results >50-gram metre intersections. Refer to the inset diagram for relationship to all Havieron drilling.
Figure 4: Schematic cross section of geology and recent drilling with significant new drillhole intercepts (looking northwest, Section Line S1, +/-50m section width, as shown in Figure 1 above). Due to section window size and orientation holes may appear on multiple sections. This diagram highlights >50-gram metres intersections drilled during the period.
Figure 5: Schematic cross section of geology and significant new drillhole intercepts (looking northwest, Section Line S2, +/-50m section width, as shown in Figure 1 above). Due to section window size and orientation holes may appear on multiple sections. This diagram highlights >50-gram metres intersections drilled during the period.
Contact
For further information, please contact:
Greatland Gold plc
Shaun Day, Managing Director | info@greatlandgold.com
Nominated Advisor
SPARK Advisory Partners
Andrew Emmott / James Keeshan / Neil Baldwin | +44 203 368 3550
Corporate Brokers
Berenberg | Matthew Armitt / Jennifer Lee | +44 203 368 3550
Canaccord Genuity | James Asensio / Patrick Dolaghan | +44 207 523 8000
SI Capital Limited | Nick Emerson / Sam Lomanto | +44 148 341 3500
Media Relations
UK - Gracechurch Group | Harry Chathli / Alexis Gore / Henry Gamble | +44 204 582 3500
Australia - Fivemark Partners | Michael Vaughan | +61 422 602 720
About Greatland
Greatland is a mining development and exploration company focused primarily on precious and base metals.
The Company's flagship asset is the world-class Havieron gold-copper project in the Paterson Province of Western Australia, discovered by Greatland and presently under development in joint venture with ASX gold major, Newcrest Mining Limited (which is the subject of a takeover by Newmont Corporation by way of a scheme of arrangement).
Havieron is located approximately 45km east of Newcrest's existing Telfer gold mine. The box cut and decline to the Havieron orebody commenced in February 2021. Significant progress continues with total development now exceeding 2,400m including over 1,700m of advance in the main access decline (as at 16 June 2023). Subject to a positive feasibility study and Decision to Mine, Havieron is intended to leverage the existing Telfer infrastructure and processing plant. Access to Telfer will de-risk the development and reduces capital expenditure.
Greatland has a proven track record of discovery and exploration success and is pursuing the next generation of tier-one mineral deposits by applying advanced exploration techniques in under-explored regions. Greatland has a number of exploration projects across Western Australia and in parallel to the development of Havieron is focused on becoming a multi-commodity miner of significant scale.
Competent Person's Statement
Information in this announcement has been reviewed and approved by Mr Damien Stephens, a Member of the Australian Institute of Mining and Metallurgy (AUSIMM), who has more than 25 years relevant industry experience. Mr Stephens, an employee of the Company, has sufficient experience relevant to the style of mineralisation, 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 Stephens consents to the inclusion in this announcement of the matters based on this information in the form and context in which it appears. Mr Stephens 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.
APPENDIX 1
Havieron Joint Venture: JORC Table 1
Section 1 Sampling Techniques and Data
Criteria |
Commentary |
Sampling techniques |
Core samples are obtained from core drilling in Proterozoic basement lithologies. PQ-HQ and NQ diameter core was drilled on a 6m run. 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. Depthof cover typically approximately 420m vertically below surface. Steel casing was emplaced to secure the pre-collar. Core drilling was advanced from the base of the cover sequence with PQ3, HQ3 and NQ2 diameter coring configuration. Core from inclined drill holes is oriented on 3m and 6m runs using an electronic core orientation tool (Reflex ACTIII or equivalent). 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 recovery |
Core recovery is systematically recorded from the commencement of 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. Core recoveries were typically 100%, with isolated zones of lower recovery. Cover sequence drilling by mud-rotary drilling did not yield recoverable samples. |
Logging |
Geological logging recorded qualitative descriptions of lithology, alteration, mineralisation, veining, and structure for all core drilled, 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 the 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 core was photographed prior to cutting and/or sampling. The logging is of sufficient quality to support Mineral Resource estimates. |
Sub-sampling techniques and sample preparation |
Sampling, sample preparation and quality control protocols are considered appropriate for the material being sampled. Core was cut and sampled at the Havieron core processing facility. Half core samples of between 0.2 and 2.0 m 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 8kg. 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 the independent ISO17025 accredited Intertek Laboratory, Perth (Intertek). Samples were dried at 105oC, and crushed to 95% passing 4.75mm, and then split to obtain an up to 3kg sub-sample, which was pulverised (using LM5) to produce a pulped product with the minimum standard of 95% passing 106μm. Routine grind size analysis is conducted. 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 assay data and laboratory tests |
Assaying of drill core samples was conducted at Intertek. All samples were assayed for 48 elements using a 4-acid digestion followed by ICP-AES/ICP-MS determination (method 4A/MS907), which is considered to provide a total assay for copper. Gold analyses were determined by 50g fire assay with AAS finish (method FA50N/AA), which is considered to provide a total assay for gold. 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 an 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 the acQuire database and assessed for accuracy and precision for recent data. Extended quality control programmes including pulp samples submitted to an umpire laboratory and combined with more extensive re-submission programmes have been completed. Analysis of the available quality control 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 of sampling and assaying |
Sampling intervals defined by the geologist are electronically assigned sample identification numbers 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/Qualified Person. No adjustments are made to assay data, and no twinned holes have been completed. There are no currently known drilling, sampling, recovery, or other factors that could materially affect the accuracy or reliability of the data. |
Location of data points |
Drill collars were surveyed using real time kinematic (RTK) GPS, with an accuracy of ±10mm E/N & ±20mm RL, for all drill holes reported. Drill rig alignment was attained using an electronic azimuth aligner. Downhole survey data were 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 drill holes re-surveyed by an external survey contactor using a DeviGyro tool - confirming sufficient accuracy for downhole spatial recording. A LIDAR survey was completed over the project area in Nov 2019 which was used to prepare a DEM / topographic model for the project with a spatial accuracy of +/- 0.1m vertical and +/- 0.3m horizontal. The topography is generally low relief to flat, elevation within the dune corridors in ranges between 250-265m Australian Height Datum (AHD) steepening to the southeast. All collar coordinates are provided in the Geocentric Datum of Australian (GDA20 Zone 51). All relative depth information is reported in AHD +5000m. |
Data spacing and distribution |
Within the South East Crescent and Breccia zone drill hole spacing ranges from 50 to 100m, to 50 by 50m within the resource extents. Outside the initial resource boundary drill hole spacing ranges from 50 to 200m in lateral extent within the breccia zone over an area of ~2km2. The data spacing is sufficient to establish the required degree of geological and grade continuity. Significant assay intercepts remain open. Further drilling is required to determine the extent of currently defined mineralisation. No sample compositing is applied to samples. Drilling intersects mineralisation at various angles. |
Orientation of data in relation to geological structure |
Drill holes exploring the extents of the Havieron mineral system intersect moderately dipping carbonate and siliciclastic sedimentary facies, mineralised breccia and sub-vertical intrusive lithologies. Geological modelling has been interpreted from historic and Newcrest drill holes. Variable brecciation, alteration and sulphide mineralisation is observed within a footprint with dimensions of 650m x 350m trending in a north west orientation and over 1000m in vertical extent below cover. The subvertical southeast 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 extended to over 1,000m in vertical extent below cover. Drilling direction is oriented to intersect the steeply dipping high-grade sulphide mineralisation zones at an intersection angle of greater than 40 degrees. The drilled length of reported intersections is typically greater than true width of mineralisation. |
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 processing was completed by Newcrest personnel at the Havieron facility. High resolution core photography and cutting of drill core was undertaken at the Havieron core processing facilities. 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 advice issued to Newcrest. Details of all sample movements 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 reviews |
Internal reviews of core handling, sample preparation and assays laboratories were conducted on a regular basis by both project personnel and owner representatives. In the Competent Person's opinion, the sample preparation, security and analytical procedures are consistent with current industry standards and are entirely appropriate and acceptable for the styles of mineralisation identified and will be appropriate for use in the reporting of exploration results and Mineral Resource estimates. There are no identified drilling, sampling or recovery factors that materially impact the adequacy and reliability of the results of the drilling programme in place at Havieron. |
Section 2 Reporting of Exploration Results
Criteria |
Commentary |
Mineral tenement and land tenure status |
Havieron is entirely contained within mining tenement M45/1287, which is jointly owned by Greatland Pty Ltd and Newcrest Operations Limited. Newcrest has entered into a Joint Venture Agreement (effective 30 November 2020) and Farm-In Agreement (effective 12 March 2019) with Greatland Pty Ltd and Greatland Gold plc. Newcrest is the manager of Havieron and holds a 70% interest (Greatland Gold holds a 30% interest). Newcrest and Jamukurnu-Yapalikurnu Aboriginal Corporation (JYAC, formerly WDLAC) are parties to an ILUA which relates to the use of native title land for Newcrest's current operations at Telfer and its activities within a 60km radius around Telfer including 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 Gold) at Havieron. The mining tenement M45/1287 wholly replaces the 12 sub-blocks of exploration tenement E45/4701 (former part of the exploration tenement on which the Havieron Project is based) and was granted on 10 September 2020. |
Exploration done by other parties |
Newcrest completed six core holes in the vicinity of Havieron from 1991 to 2003. Greatland Gold completed drill targeting and drilling of nine Reverse Circulation (RC) drill holes with core tails for a total of approximately 6,800m in 2018. Results of drilling programmes conducted by Greatland Gold have previously been reported on the Greatland Gold website. Drilling has defined an intrusion-related mineral system with breccia and massive sulphide-hosted higher-grade gold-copper mineralisation. |
Geology |
Havieron 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 9km 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 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 650m by 350m within an arcuate shaped mineralised zone, and to depths of over 1,400m below surface. |
Drill hole Information |
As provided. |
Data aggregation methods |
Significant assay intercepts are reported as (A) length-weighted averages exceeding 1.0g/t Au greater than or equal to 10m, with a maximum of 5m consecutive internal dilution; and (B) length-weighted averages exceeding 0.2g/t Au for greater than or equal to 20m, with a maximum of 10m consecutive internal dilution with a final grade greater than 0.5g/t Au, and (C) intervals of greater or equal to 30 gram metres (Au_ppm x length). No top cuts are applied to intercept calculations. |
Relationship between mineralisation widths and intercept lengths |
Significant assay intervals reported represent apparent widths. Drilling is not always perpendicular to the dip of mineralisation and true widths are less than downhole widths. Estimates of true widths will only be possible when all results are received, and final geological interpretations have been completed. |
Diagrams |
As provided. |
Balanced reporting |
Earlier results of exploration programmes conducted by Newcrest and Greatland Gold have previously been reported. Surface exploration drilling programmes are completed with further exploration drilling likely to occur utilizing underground drill cuddies. material results will be reported in subsequent Newcrest releases. |
Other substantive exploration data |
Nil |
Further work |
The most recent round of growth drilling has been completed, with these results to be incorporate into the ongoing FS Study, which will direct future drilling requirements. |
APPENDIX 2
Drillhole Data and Au-Cu Significant Intersections for Havieron Joint Venture
Reporting Criteria: Intercepts reported are downhole drill width (not true width) Au >0.20ppm (0.2g/t Au) and minimum 20m downhole width with maximum consecutive internal dilution of 10m. Average grades are based on length-weighting of samples grade, and only those intercepts with average grades above 0.5g/t Au are reported. 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 greater or equal to 30 gram metres (Au_ppm x length). Gold and copper grades are reported to two significant figures, the downhole lengths are rounded to 0.1m which may cause some apparent discrepancies in interval widths. Samples are from core drilling which is PQ, HQ or NQ in diameter. Total depth (end of hole) is rounded to one decimal place for reporting purposes.
Hole ID |
Hole Type |
Easting (m) |
Northing (m) |
RL (m) |
Total Depth (m) |
Azimuth |
Dip |
From (m) |
To (m) |
Interval (m) |
Au (ppm) |
Cu (pct) |
Cut off |
|
HAD133W11 |
DDH |
464072 |
7598317 |
5257 |
1588 |
171.3 |
-65.3 |
|
1275 |
1325 |
50 |
1.7 |
0.03 |
0.2 g/t Au |
HAD133W11 |
DDH |
464072 |
7598317 |
5257 |
1588 |
171.3 |
-65.3 |
incl |
1307 |
1309 |
2 |
35.1 |
0.09 |
30 g.m. Au |
HAD133W11 |
DDH |
464072 |
7598317 |
5257 |
1588 |
171.3 |
-65.3 |
|
1349 |
1411 |
62 |
2.2 |
0.06 |
0.2 g/t Au |
HAD159W1 |
DDH |
464076 |
7597251 |
5260 |
1322.4 |
28.9 |
-76.4 |
|
1229.3 |
1275 |
45.7 |
4.2 |
0.16 |
0.2 g/t Au |
HAD159W1 |
DDH |
464076 |
7597251 |
5260 |
1322.4 |
28.9 |
-76.4 |
incl |
1253 |
1275 |
22 |
7.9 |
0.27 |
1.0 g/t Au |
HAD159W1 |
DDH |
464076 |
7597251 |
5260 |
1322.4 |
28.9 |
-76.4 |
incl |
1263 |
1265 |
2 |
51.7 |
0.04 |
30 g.m. Au |
HAD171 |
MR_DDH |
463672 |
7596940 |
5255 |
1809.6 |
33.9 |
-62.5 |
|
1433.6 |
1536 |
102.4 |
0.7 |
0.12 |
0.2 g/t Au |
HAD171 |
MR_DDH |
463672 |
7596940 |
5255 |
1809.6 |
33.9 |
-62.5 |
|
1618 |
1700 |
82 |
0.5 |
0.16 |
0.2 g/t Au |
HAD171W1 |
DDH |
463672 |
7596940 |
5255 |
1782.6 |
33.9 |
-62.5 |
|
1494 |
1569 |
75 |
0.7 |
0.26 |
0.2 g/t Au |
HAD171W1 |
DDH |
463672 |
7596940 |
5255 |
1782.6 |
33.9 |
-62.5 |
|
1641 |
1663 |
22 |
0.9 |
0.04 |
0.2 g/t Au |
HAD171W1 |
DDH |
463672 |
7596940 |
5255 |
1782.6 |
33.9 |
-62.5 |
|
1728 |
1752 |
24 |
2.3 |
0.32 |
0.2 g/t Au |
HAD171W1 |
DDH |
463672 |
7596940 |
5255 |
1782.6 |
33.9 |
-62.5 |
incl |
1730 |
1740 |
10 |
5.3 |
0.53 |
1.0 g/t Au |
HAD171W2 |
DDH |
463672 |
7596940 |
5255 |
1815.6 |
33.9 |
-62.5 |
|
1504 |
1548 |
44 |
1.0 |
0.25 |
0.2 g/t Au |
HAD171W2 |
DDH |
463672 |
7596940 |
5255 |
1815.6 |
33.9 |
-62.5 |
incl |
1508 |
1520 |
12 |
2.6 |
0.63 |
1.0 g/t Au |
HAD171W2 |
DDH |
463672 |
7596940 |
5255 |
1815.6 |
33.9 |
-62.5 |
|
1718 |
1758 |
40 |
0.7 |
0.04 |
0.2 g/t Au |
HAD171W2 |
DDH |
463672 |
7596940 |
5255 |
1815.6 |
33.9 |
-62.5 |
incl |
1742 |
1758 |
16 |
0.8 |
0.05 |
1.0 g/t Au |
HAD171W3 |
DDH |
463672 |
7596940 |
5255 |
1736 |
33.9 |
-62.5 |
|
1510 |
1540 |
30 |
2.2 |
0.2 |
0.2 g/t Au |
HAD171W3 |
DDH |
463672 |
7596940 |
5255 |
1736 |
33.9 |
-62.5 |
incl |
1514 |
1538 |
24 |
2.6 |
0.24 |
1.0 g/t Au |
HAD171W3 |
DDH |
463672 |
7596940 |
5255 |
1736 |
33.9 |
-62.5 |
|
1554 |
1626 |
72 |
1.6 |
0.18 |
0.2 g/t Au |
HAD171W3 |
DDH |
463672 |
7596940 |
5255 |
1736 |
33.9 |
-62.5 |
incl |
1556 |
1558 |
2 |
37.8 |
1.63 |
30 g.m. Au |
HAD172W2 |
DDH |
464463 |
7598017 |
5258 |
1560.1 |
216.9 |
-72.0 |
|
1492 |
1522 |
30 |
0.9 |
0.32 |
0.2 g/t Au |
HAD172W3 |
DDH |
464463 |
7598017 |
5258 |
1549 |
216.9 |
-72.0 |
|
1205 |
1353 |
148 |
1.7 |
0.25 |
0.2 g/t Au |
HAD172W3 |
DDH |
464463 |
7598017 |
5258 |
1549 |
216.9 |
-72.0 |
incl |
1309 |
1339 |
30 |
3.2 |
0.51 |
1.0 g/t Au |
HAD172W3 |
DDH |
464463 |
7598017 |
5258 |
1549 |
216.9 |
-72.0 |
|
1502 |
1538 |
36 |
2.1 |
0.14 |
0.2 g/t Au |
HAD172W3 |
DDH |
464463 |
7598017 |
5258 |
1549 |
216.9 |
-72.0 |
incl |
1504 |
1520 |
16 |
4.4 |
0.21 |
1.0 g/t Au |
HAD172W4 |
DDH |
464463 |
7598017 |
5258 |
1552 |
216.9 |
-72.0 |
|
971 |
1003 |
32 |
1.5 |
0.08 |
0.2 g/t Au |
HAD172W4 |
DDH |
464463 |
7598017 |
5258 |
1552 |
216.9 |
-72.0 |
|
1236 |
1264 |
28 |
3.1 |
0.02 |
0.2 g/t Au |
HAD172W4 |
DDH |
464463 |
7598017 |
5258 |
1552 |
216.9 |
-72.0 |
incl |
1246 |
1256 |
10 |
6.3 |
0 |
1.0 g/t Au |
HAD172W4 |
DDH |
464463 |
7598017 |
5258 |
1552 |
216.9 |
-72.0 |
|
1317 |
1349 |
32 |
6.6 |
0.26 |
0.2 g/t Au |
HAD172W4 |
DDH |
464463 |
7598017 |
5258 |
1552 |
216.9 |
-72.0 |
incl |
1317 |
1319 |
2 |
91.1 |
0.30 |
30 g.m. Au |
HAD172W4 |
DDH |
464463 |
7598017 |
5258 |
1552 |
216.9 |
-72.0 |
|
1426 |
1458 |
32 |
1 |
0.03 |
0.2 g/t Au |
HAD172W4 |
DDH |
464463 |
7598017 |
5258 |
1552 |
216.9 |
-72.0 |
|
1472 |
1500 |
28 |
3.2 |
0.06 |
0.2 g/t Au |
HAD172W4 |
DDH |
464463 |
7598017 |
5258 |
1552 |
216.9 |
-72.0 |
incl |
1480 |
1492 |
12 |
7.1 |
0.12 |
1.0 g/t Au |
HAD172W4 |
DDH |
464463 |
7598017 |
5258 |
1552 |
216.9 |
-72.0 |
incl |
1490 |
1492 |
2 |
36.5 |
0.02 |
30 g.m. Au |