REG - Future Metals NL - Large Ni-Cu-(PGE) Sulphide Zone Identified
02/02/2023 09:00
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RNS Number : 7280O Future Metals NL 02 February 2023
2 February 2023
Future Metals NL
Large Ni-Cu-(PGE) Sulphide Zone Identified at Panton
Highlights
§ Drilling confirms Panton hosts broad zones of disseminated Ni-Cu-(PGE)
sulphides outside of the existing high-grade PGE reef system hosting the
existing JORC Resource
§ Untested 'embayment' target prospective for accumulation of shallow
sulphide mineralisation identified on Panton North tenement (right to 70%),
adjacent to sulphide-rich drill intercepts and coincident with geochemical and
geophysical anomalies
§ Drilling demonstrates a sulphide association within the high-grade reef
mineralisation with potential positive implications for resource growth and
metallurgy
§ Intersections demonstrating significant sulphide and PGE mineralisation
include:
o 53m @ 0.12 g/t PGE(3E)(1), 0.18% Ni, 158ppm Co, 0.10% Cu from 32m((PS413))
o 83m @ 0.49 g/t PGE(3E)(1), 0.25% Ni, 136ppm Co, 0.04% Cu from 53m((PS408))
o 19m @ 0.23 g/t PGE(3E)(1), 0.26% Ni, 158ppm Co, 0.09% Cu from
240m((PS410))
o 42m @ 1.43 g/t PGE(3E)(1), 0.16% Ni, 125ppm Co, 0.03% Cu (1.71 g/t
PdEq(2)) from 235m((PS407)), including:
§ 1.7m @ 8.4 g/t PGE(3E)(1), 0.36% Ni, 85ppm Co, 0.03% Cu (8.3 g/t PdEq(2))
§ 1.9m @ 6.5 g/t PGE(3E)(1), 0.16% Ni, 202ppm Co, 0.02% Cu (6.0 g/t PdEq(2))
§ Assay results from a recently completed deep drill hole into the keel
position (hole PS414) remain pending
§ Follow up drilling to test embayment at Panton North and any conductors
identified in downhole electromagnetic ("DHEM") to commence following the wet
season
§ Geology team strengthened with the addition of Barbara Duggan, an
experienced Ni sulphide exploration geologist
§ Update on metallurgical progress and scoping study to be provided shortly
Future Metals NL ("Future Metals" or the "Company", ASX | AIM: FME), is
pleased to report results from seven of eight holes in its 2022/23 drilling
programme at its Panton project ("Panton" or "the Project").
Assay results from PS408-410 & PS413 demonstrate a distinct and broad
Ni-Cu sulphide enriched zone within the Panton intrusive separate to the
high-grade reef and the surrounding bulk mineralisation in the Company's
6.9Moz PdEq JORC Resource. These results now confirm that Panton hosts
multiple styles of mineralisation, providing for a potential discovery of a
Ni-Cu sulphide deposit within the same intrusion as the existing high grade
chromitite PGE reefs.
Importantly these drill results, in conjunction with analysis of geophysics,
soil samples (MAGLAG), stream sediments and ground observations show a
potential embayment feature (sulphide trap) which sits under cover on the
Panton North permit adjacent to the existing JORC Resource (see Figure One).
The Company plans to test this embayment structure with shallow drilling once
the Kimberley wet season ends, following further ground mapping and sampling.
Drilling and historical analysis (refer Appendix 3) has demonstrated that
there is a sulphide association within sections of reef mineralisation
previously thought to be primarily chromite-hosted. A deep diamond hole
(PS414) was drilled through the entire stratigraphy of the Panton intrusion.
Assay results from this drill hole remain outstanding and will further inform
this analysis, with potential positive implications for resource growth and
metallurgy.
Drilling was completed in mid-January and recent flooding in the West
Kimberley region has delayed the ability to get DHEM contractors to site,
however this work is due to commence shortly. The Company will report on any
DHEM conductors after this work is completed.
Mr Jardee Kininmonth, Managing Director of Future Metals, commented:
"The purpose of the 2022 reconnaissance drill program was to determine whether
Panton could host a Ni-Cu-(PGE) sulphide orebody outside of the known chromite
mineralisation that the existing JORC Resource relates to, and to determine
where there may be a large accumulation of these sulphides. These latest drill
results demonstrate that the Panton intrusion hosts multiple styles of
mineralisation, including magmatic sulphides which host Ni-Cu-(PGE) sulphide
mineralisation.
The results are extremely encouraging as they show the potential for a further
high-grade discovery to be made, potentially with similar style geology to the
nearby Savannah Ni-Cu deposit, which was emplaced later than the Panton
intrusion, or a contact-style deposit such as the Flatreef.
Of particular interest is the identification of a potential embayment feature
which is coincident with the structures hosting anomalous sulphide
mineralisation, a large magnetic anomaly, and Ni-Cu anomalous stream sediment
samples. This feature is also heavily weathered relative to the surrounding
rocks, further suggesting the presence of increased sulphides. The Company
looks forward to further working up this exciting feature during the 2023
drill season. Aiding us with our exploration efforts is our new appointee,
Barbara Duggan, who brings significant experience in mafic-ultramafic
intrusive geology and exploring for magmatic nickel sulphides."
Figure One | Plan view showing drill holes completed / pending results
Drilling Results Interpretation
The Company has received assay results for seven drill holes (PS407-413) as
part of its exploration drilling programme testing for the occurrence of
magmatic Ni-Cu-(PGE) sulphide mineralisation. The assay results have confirmed
the presence of broad zones of magmatic sulphide mineralisation. These broad
zones demonstrate the potential for the Panton intrusion to host multiple
styles of mineralisation including potentially a high-grade Ni-Cu deposit
analogous to the nearby Savannah Ni-Cu deposit, and the significant PGM-Ni
chromite hosted deposit with an already defined JORC Resource.
Drill hole PS407 targeted a structure previously drilled by Pancontinental
Mining Limited in 1989 (hole PS053, previously announced on 27 July 2022)
which demonstrated high grade Ni, Cu and Au intercepts as shown below:
§ 4m @ 2.18 g/t Au & 1.18% Ni & 1.05% Cu from 242.5m including:
o 1m @ 6.80 g/t Au & 0.62% Ni & 2.05% Cu from 242.5m
o 2m @ 0.92 g/t Au & 1.93% Ni & 0.76% Cu from 243.5m
The Company was able to locate the historical drill core containing this
intercept and identified textures that were clearly indicative of magmatic
sulphide mineralisation which had been uplifted within a fault zone.
Drill hole PS407 was drilled above hole PS053 and intersected the fault zone
but did not intersect the same heavily disseminated sulphide mineralisation,
suggesting that the mineralisation has pinched out towards surface. Hole PS407
did intersect a broad zone of anomalous sulphide mineralisation, and high
grade chromite-associated PGM reef mineralisation. These results include:
§ 42m @ 1.43 g/t PGE(3E)(1), 0.16% Ni, 125ppm Co, 0.03% Cu (1.71 PdEq(2))
from 235m((PS407)), including:
o 1.7m @ 8.4 g/t PGE(3E)(1), 0.36% Ni, 85ppm Co, 0.03% Cu (8.3 g/t PdEq(2))
o 1.9m @ 6.5 g/t PGE(3E)(1), 0.16% Ni, 202ppm Co, 0.02% Cu (6.0 g/t PdEq(2))
Subsequent analysis of geophysical data and surface mapping, and information
from drill hole PS407 has determined that the mineralisation intersected in
hole PS053 is associated with the convergence of multiple structures. These
same structures are coincident with the geophysical targets drilled in holes
PS408-410 which all intersected similarly broad zones of anomalous Ni-Cu-(PGE)
sulphide mineralisation (refer to Figures Two and Four). The Company will
undertake a DHEM survey down the PS407 drill hole.
Photo One: Heavily disseminated magmatic-sulphide mineralisation in hole PS053
Figure Two | Cross Section for Drill Hole PS407
Drill holes PS408-410 & PS413 each targeted large magnetic anomalies the
Company interpreted to be associated with zones of increased sulphide
mineralisation, from analysis of historical intercepts coincident with these
anomalies, including holes PS157 and PS158 which intersected the following
sulphide-rich zones (previously announced on 27 July 2022):
§ 19m @ 0.51 g/t PGM(3E) 1 (#_ftn1) & 0.49% Ni & 0.28% Cu, 0.022%
Co & 1.47% S from 88m including:
o 3m @ 0.81 g/t PGM(3E)(1) & 1.16% Ni & 0.66% Cu, 0.053% Co &
4.29% S from 88m
o 1m @ 0.67 g/t PGM(3E)(1) & 0.46% Ni & 1.57% Cu, 0.022% Co &
2.47% S from 95m
o 2m @ 1.09 g/t PGM(3E)(1) & 1.01% Ni & 0.22% Cu, 0.044% Co &
3.19% S 104m
§ 7m @ 0.53 g/t PGM(3E)(1) & 0.33% Ni & 0.14% Cu, 0.015% Co &
0.74% S from 68m including:
o 2m @ 0.87 g/t PGM(3E)(1) & 0.33% Ni & 0.24% Cu, 0.019% Co &
0.81% S from 94m
These intersections demonstrate the significant metal tenor associated with
sulphides at Panton.
Each of these drill holes intersected broad zones of anomalous sulphide
mineralisation, validating the Company's targeting hypothesis. While the
majority of these intersections are not 'ore grade', they do demonstrate a
distinctive sulphide population that is anomalous relative to historical
drilling along strike in the Lower Zone, which was targeting the same
stratigraphic units. Anomalous intersections include:
§ 83m @ 0.49 g/t PGE(3E)(1), 0.25% Ni, 136ppm Co, 0.04% Cu, 0.24% S from
53m((PS408))
§ 1m @ 0.60 g/t PGE(3E)(1), 0.27% Ni, 0.23% Cu, 141ppm Co, 0.42% S from
84m((PS408))
§ 6m @ 0.07 g/t PGE(3E)(1), 0.21% Ni, 0.12% Cu, 171ppm Co, 0.55% S from
57m((PS409))
§ 10m @ 0.48 g/t PGE(3E)(1), 0.20% Ni, 0.03% Cu, 131ppm Co, 0.62% S from
198m((PS409))
§ 19m @ 0.23 g/t PGE(3E)(1), 0.26% Ni, 158ppm Co, 0.09% Cu, 0.34% S from
240m((PS410))
§ 5m @ 0.15 g/t PGE(3E)(1), 0.21% Ni, 153ppm Co, 0.08% Cu, 0.48% S from
343m((PS410))
§ 11m @ 0.03 g/t PGE(3E)(1), 0.11% Ni, 1149ppm Co, 0.10% Cu, 0.59% S from
146m((PS410))
§ 1m @ 0.97 g/t PGE(3E)(1), 0.25% Ni, 0.30% Cu, 161ppm Co, 0.49% S from
314m((PS410))
§ 53m @ 0.12 g/t PGE(3E)(1), 0.18% Ni, 158ppm Co, 0.10% Cu, 0.44% S from
32m((PS413))
Drill holes PS408-410 are adjacent to a potentially significant embayment
feature that the Company has identified (see Figure One). Embayment features
can act as 'sulphide traps', providing a confined localised volume in which
sulphide rich magma can settle. This untested embayment feature has been
identified along the northwest intrusion contact in multiple datasets,
including magnetics and short wave infra-red imagery. A desktop review of the
surface expression of this embayment area further indicates that it has been
subject to increased weathering which in turn can be an indicator of gossanous
material, potentially related to sulphide mineralisation. Historic stream
sediments have identified two highly anomalous coincident nickel-copper values
on the margin of the interpreted embayment feature ("BC1"). The BC1 target
represents a strike of approximately 1,000m.
As shown on Figure One, BC1 sits across the tenement boundary between Future
Metals' 100% owned Panton mining lease (M 80/105) and the Panton North
tenement (E 80/5455) which is subject to a farm-in and joint venture agreement
with Octava Minerals Limited ("Octava") (previously reported on 17 January
2023) whereby Future Metals can earn up to 70% interest in the Panton North
tenement. The Company plans to complete ground mapping over the BC1 area
during Q1 2023 to determine the optimal drilling strategy to test the target
once the wet season ends.
Figure Three | Embayment Feature and Ni-Cu-S anomalism in drilling, maglag and
stream sediments
Note the stream sediment Ni-Cu anomalism on the contact
Drill hole PS413 targeted a large magnetic anomaly north-east of drill holes
PS408-410, which is an interpreted portion of the keel position plunging
towards surface. Similar to the drilling in PS408-410, assay results
demonstrated highly anomalous sulphide mineralisation over significant
intervals. The drill hole was terminated in the basal contact, which was
intersected earlier than expected. The drill hole provides valuable
information for building up the structural model of the Panton intrusion at
depth. The results for PS413 are currently being reviewed in the context of
what has historically been drilled and how it relates to the geological model.
Drill holes PS411 and PS412 drilled EM conductors in the south of the Panton
project area which were broadly coincident with a large gravity anomaly.
Analytical results from both holes demonstrate a strong Ni-Cu-S association,
however results are below the minimum reporting thresholds. Both drill holes
were proximate to a high-strain shear zone and the sulphide mineralisation is
interpreted by the Company to possibly represent structural-hydrothermal
remobilisation from an underlying magmatic source. Further review and analysis
of the results in the context of magmatic sulphide exploration is underway to
determine if further drill testing is warranted.
Figure Four | Cross Section for Drill Hole PS409
Principal Geologist's Appointment
The Company recently strengthened its geology and exploration team with the
appointment of Barbara Duggan as Principal Geologist. Barbara is a geologist
with 20 years' experience in mineral exploration from project generation to
advanced project stage, encompassing targeting studies, project management and
evaluation. She has extensive experience in Australia and Canada with a focus
on nickel sulphide and magmatic hydrothermal mineral systems. Barbara
specialises in integrated mineral systems targeting at a district to deposit
scale. She previously worked for Peak Minerals and has held positions at CSA,
Panoramic Resources, Emmerson Resources, BHP Ni West and Inco Exploration.
Barbara completed her undergraduate degree at Queen's University in Kingston,
Canada and her Master's Degree in Economic Geology at the University of
Western Australia.
For further information, please contact:
Enquiries:
Future Metals NL +61 8 9480 0414
Jardee Kininmonth info@future-metals.com.au (mailto:info@future-metals.com.au)
Strand Hanson Limited (Nominated Adviser) +44 (0) 207 409 3494
James Harris/James Bellman
Panmure Gordon (UK) Limited (UK Broker) +44 (0)207 886 2500
John Prior/Hugh Rich/Soman Thakran
White Noise Communications (Australian IR/PR) +61 400 512 109
Fiona Marshall
FlowComms (UK IR/PR) +44 (0) 789 167 7441
Sasha Sethi
Competent Person's Statement
The information in this announcement that relates to Exploration Results is
based on, and fairly represents, information compiled by Ms Barbara Duggan,
who is a Member of the Australasian Institute of Mining and Metallurgy and the
Australian Institute of Geoscientists. Ms Duggan is the Company's Principal
Geologist and has sufficient experience which is relevant to the style of
mineralisation and type of deposit under consideration and to the activity she
is undertaking to qualify as a competent person as defined in the 2012 Edition
of the "Australasian Code for reporting of Exploration Results, Exploration
Targets, Mineral Resources and Ore Reserves" (JORC Code). Ms Duggan consents
to the inclusion in this announcement of the matters based upon her
information in the form and context in which it appears.
The information contained within this announcement is deemed by the Company to
constitute inside information as stipulated under the Market Abuse Regulation
(EU) No. 596/2014 as is forms part of United Kingdom domestic law pursuant to
the European Union (Withdrawal) Act 2018, as amended.
Notes to Editors:
About the Panton PGM-Ni Project
The 100% owned Panton PGM-Ni Project is located 60kms north of the town of
Halls Creek in the eastern Kimberly region of Western Australia, a tier one
mining jurisdiction. The project is located on three granted mining licences
and situated just 1km off the Great North Highway which accesses the Port of
Wyndham (refer to Figure Five).
The Project hosts an independent JORC Code (2012) MRE had increased to 129Mt @
1.20g/t PGM(3E)(1), 0.19% Ni, 0.04% Cu and 154ppm Co (1.66g/t PdEq(2)) at a
cut-off grade of 0.90g/t PdEq(2) for contained metal of 5.0Moz PGM(3E)(1),
239kt Ni, 48kt Cu and 20kt Co (6.9Moz PdEq(2)). The MRE includes a high-grade
reef of 25Mt @ 3.57g/t PGM(3E)(1), 0.24% Ni, 0.07% Cu and 192ppm Co (3.86g/t
PdEq(2)) for contained metal of 2.9Moz PGM(3E)(1), 60kt Ni, 18kt Cu and 5kt Co
(3.2Moz PdEq(2)).
PGM-Ni mineralisation occurs within a layered, differentiated mafic-ultramafic
intrusion referred to as the Panton intrusive which is a 12km long and 3km
wide, south-west plunging synclinal intrusion. PGM mineralisation is hosted
within a series of stratiform chromite reefs as well as a surrounding zone of
mineralised dunite within the ultramafic package.
Figure Five | Panton PGM Project Location
About Platinum Group Metals (PGMs)
PGMs are a group of six precious metals being Platinum (Pt), palladium (Pd),
iridium (Ir), osmium (Os), rhodium (Rh), and ruthenium (Ru). Exceptionally
rare, they have similar physical and chemical properties and tend to occur, in
varying proportions, together in the same geological deposit. The usefulness
of PGMs is determined by their unique and specific shared chemical and
physical properties.
PGMs have many desirable properties and as such have a wide variety of
applications. Most notably, they are used as auto-catalysts (pollution control
devices for ICE vehicles), but are also used in jewellery, electronics,
hydrogen production / purification and in hydrogen fuel cells. The unique
properties of PGMs help convert harmful exhaust pollutant emissions to
harmless compounds, improving air quality and thereby enhancing health and
wellbeing.
Appendix 1 | Panton Diamond Drill Hole Collar Details
Drill Hole EOH Easting Northing RL Azimuth Dip
PS407 300.8 376456 8036810 493 351 -82
PS408 200 375920 8037027 437 324 60
PS409 300 375860 8036770 455 290 -60
PS410 401 376070 8036930 437 38 -58
PS411 50 375505 8033370 390 340 -60
PS412 90 374687 8032799 400 135 -60
PS413 605.2 377410 8037690 465 90 60
PS414 1328.6 376653 8036506 485 340 -80
Appendix 2 | Diamond Drill Hole Results
Note: PdEq grades reported for only hole PS407 given this was drilled in the
same portion of the stratigraphy as the existing JORC Mineral Resource
Estimate.
Drill Hole From To Interval Au Co Cu Ni Pd Pt S 3E PdEq
(m)
(m)
(m)
ppb
ppm
%
%
ppb
ppb
%
g/t
g/t
PS407 1.00 2.00 1* 34.00 120.70 0.11 0.08 14.70 13.60 13.60 0.06 0.46
PS407 48 49 1 34 141.7 0.15 0.09 23 33.3 0.42 0.0903 0.57
PS407 64.00 66.00 2 71.50 131.35 0.19 0.08 23.50 32.40 0.29 0.13 0.64
PS407 78.00 79.00 1 45.00 151.10 0.12 0.10 28.70 39.00 0.33 0.11 0.57
PS407 83.00 84.00 1 33.00 140.10 0.13 0.09 33.60 45.40 0.26 0.11 0.56
PS407 106.00 110.00 4 213.50 148.40 0.12 0.15 32.55 52.73 0.45 0.30 0.83
PS407 119.00 120.00 1 70.00 158.90 0.11 0.17 30.90 39.60 0.29 0.14 0.73
PS407 127.00 130.00 3 110.67 145.53 0.22 0.14 29.23 31.90 0.40 0.17 0.85
PS407 149.00 155.00 6 118.00 137.38 0.12 0.12 21.58 36.75 0.22 0.18 0.66
PS407 179.00 180.00 1 10.00 146.70 0.00 0.19 324.90 223.60 0.09 0.56 0.99
PS407 195.00 199.00 4 31.50 128.40 0.01 0.17 443.33 194.33 0.06 0.67 1.06
PS407 204.00 206.00 2 20.00 143.70 0.01 0.18 620.10 155.50 0.08 0.80 1.23
PS407 235.00 277.00 42* 120.29 125.55 0.03 0.16 635.58 672.14 0.13 1.43 1.71
PS407 235.00 243.00 8 335.07 120.73 0.07 0.23 1199.23 1095.85 0.19 2.63 2.96
PS407 260.00 272.50 12.5* 44.73 117.14 0.02 0.12 694.16 860.82 0.09 1.60 1.75
PS407 286.00 300.80 14.8 160.41 161.74 0.03 0.21 374.29 472.03 0.12 1.01 1.44
PS408 0.00 16.00 16* 51.88 130.33 0.02 0.22 316.57 205.03 0.00 0.57 NR
PS408 24.00 47.00 23 73.83 140.57 0.03 0.24 321.20 235.44 0.17 0.63 NR
PS408 53.00 136.00 83 93.46 136.07 0.04 0.25 205.09 187.86 0.24 0.49 NR
PS408 84 85 1 359 141.6 0.23 0.27 116.1 122.3 0.42 0.5974 NR
PS408 103 104 1 304 136 0.14 0.26 246.6 270.6 0.27 0.8212 NR
PS408 142.00 143.00 1 405.00 130.90 0.05 0.22 301.20 170.00 0.20 0.88 NR
PS408 153.00 157.00 4 101.50 130.95 0.03 0.23 279.88 236.45 0.16 0.62 NR
PS409 0.00 1.00 1* 26.00 157.70 0.11 0.11 8.40 3.80 ND 0.04 NR
PS409 4.00 5.00 1* 12.00 176.70 0.10 0.13 4.30 4.60 ND 0.02 NR
PS409 12.00 13.00 1 9.00 177.40 0.11 0.13 4.50 5.10 0.07 0.02 NR
PS409 17.00 21.00 4 17.25 181.55 0.11 0.17 6.08 7.33 0.20 0.03 NR
PS409 25.00 30.00 5 43.00 175.18 0.11 0.17 5.02 6.40 0.21 0.05 NR
PS409 36.00 41.00 5 17.60 163.03 0.11 0.18 4.39 5.47 0.27 0.03 NR
PS409 57.00 63.00 6 46.17 170.88 0.12 0.21 8.77 13.37 0.55 0.07 NR
PS409 86.00 100.00 14 98.48 145.89 0.05 0.22 209.52 155.82 0.32 0.46 NR
PS409 107.00 126.00 19 155.76 149.08 0.06 0.23 254.69 202.12 0.34 0.61 NR
PS409 185.00 192.00 7 104.00 144.34 0.03 0.21 371.43 299.16 0.24 0.77 NR
PS409 198.00 208.00 10 67.00 130.84 0.03 0.20 237.98 174.06 0.62 0.48 NR
PS410 7.00 11.00 4* 46.75 163.93 0.10 0.19 8.95 12.80 0.00 0.07 NR
PS410 15.00 16.00 1* 99.00 153.10 0.13 0.15 28.40 18.50 ND 0.15 NR
PS410 25.00 26.00 1 29.00 185.40 0.06 0.26 131.40 103.00 0.10 0.26 NR
PS410 42.00 43.00 1 16.00 161.60 0.05 0.21 258.70 276.50 0.32 0.55 NR
PS410 63.00 66.00 3 123.00 154.07 0.06 0.21 277.07 229.00 0.34 0.63 NR
PS410 127.00 128.00 1 83.00 155.40 0.10 0.20 50.60 70.30 0.40 0.20 NR
PS410 209.00 210.00 1 46.00 152.10 0.11 0.20 31.50 46.50 0.35 0.12 NR
PS410 240.00 260.00 19 105.32 158.26 0.09 0.26 50.93 74.92 0.34 0.23 NR
PS410 270.00 287.00 17 67.18 148.73 0.05 0.24 282.95 271.41 0.23 0.62 NR
PS410 302.00 303.00 1 147.00 156.80 0.10 0.25 36.40 61.30 0.31 0.24 NR
PS410 314.00 315.00 1 878.00 161.00 0.30 0.25 38.80 49.90 0.49 0.97 NR
PS410 320.00 321.60 1.6 257.02 84.80 0.09 0.13 18.39 30.77 0.22 0.31 NR
PS410 325.00 326.00 1 180.00 150.00 0.10 0.24 35.70 75.90 0.34 0.29 NR
PS410 333.00 334.00 1 209.00 138.80 0.12 0.22 19.00 32.60 0.35 0.26 NR
PS410 338.00 340.00 2 339.50 152.60 0.24 0.23 28.90 43.15 0.50 0.41 NR
PS410 343.00 348.00 5 64.80 153.00 0.08 0.21 43.64 44.82 0.48 0.15 NR
PS411 16.00 18.00 2** 2.50 110.65 0.17 0.01 1.70 0.40 3.52 0.00 NR
PS411 35.00 36.00 1 4.00 53.90 0.10 0.01 1.00 0.90 1.20 0.01 NR
PS412 No Significant Assays
PS413 0.00 10.00 10.00 43.36 169.01 0.11 0.19 8.84 12.89 0.09 0.07 NR
PS413 19.00 20.00 1.00 35.00 151.10 0.12 0.17 4.60 9.70 0.35 0.05 NR
PS413 28.00 29.00 1.00 26.00 104.40 0.12 0.14 3.70 6.80 0.46 0.04 NR
PS413 32.00 85.00 53.00 59.08 158.30 0.10 0.18 24.14 37.73 0.44 0.12 NR
PS413 111.00 112.00 1.00 12.00 91.00 0.10 0.04 3.10 3.50 0.12 0.02 NR
PS413 114.00 116.00 2.00 18.50 164.25 0.11 0.13 6.65 8.85 0.47 0.03 NR
PS413 129.00 132.00 3.00 8.67 96.17 0.08 0.06 3.47 4.40 0.44 0.02 NR
PS413 146.00 157.00 11.00 21.95 148.54 0.10 0.11 5.60 6.14 0.59 0.03 NR
PS413 163.00 170.00 7.00 35.71 166.36 0.13 0.16 5.81 7.40 0.50 0.05 NR
PS413 187.00 188.00 1.00 25.00 168.20 0.13 0.12 4.50 4.80 0.36 0.03 NR
PS413 191.00 192.00 1.00 25.00 130.20 0.11 0.09 3.40 3.40 1.28 0.03 NR
PS413 197.00 198.00 1.00 46.00 167.10 0.15 0.12 3.90 4.50 0.44 0.05 NR
PS413 202.00 203.00 1.00 41.00 168.50 0.12 0.15 3.80 5.20 0.36 0.05 NR
PS413 206.00 207.00 1.00 71.00 184.70 0.17 0.17 5.00 6.40 0.47 0.08 NR
PS413 210.00 215.00 5.00 22.40 163.50 0.11 0.17 4.34 6.18 0.43 0.03 NR
PS413 227.00 228.00 1.00 60.00 170.50 0.15 0.15 24.90 15.60 0.39 0.10 NR
PS413 250.00 251.00 1.00 31.00 149.00 0.14 0.14 45.70 39.20 0.78 0.12 NR
PS413 253.00 254.00 1.00 108.00 150.10 0.05 0.19 221.10 199.50 0.38 0.53 NR
PS413 264.00 266.00 2.00 41.00 122.90 0.13 0.15 29.60 26.60 0.73 0.10 NR
PS413 301.00 302.00 1.00 35.00 177.90 0.06 0.27 30.60 41.80 0.60 0.11 NR
PS413 306.00 308.00 2.00 231.00 170.60 0.11 0.22 41.25 65.80 0.37 0.34 NR
PS413 322.00 326.00 4.00 89.75 161.95 0.06 0.21 283.80 255.00 0.22 0.63 NR
PS413 335.00 336.00 1.00 49.00 157.80 0.15 0.18 37.80 54.60 1.26 0.14 NR
PS413 353.00 355.00 2.00 40.50 167.40 0.04 0.21 347.00 255.45 0.29 0.64 NR
PS413 361.00 362.00 1.00 21.00 155.10 0.02 0.19 320.20 261.30 0.22 0.60 NR
PS413 366.00 367.00 1.00 59.00 162.30 0.05 0.25 113.50 154.80 0.32 0.33 NR
PS413 369.00 392.00 23.00 61.00 151.40 0.05 0.22 218.54 222.33 0.36 0.50 NR
PS413 399.00 400.00 1.00 142.00 134.00 0.13 0.19 116.60 138.40 0.77 0.40 NR
PS413 411.00 412.00 1.00 23.00 142.20 0.03 0.21 235.60 262.20 0.45 0.52 NR
PS413 427.00 428.00 1.00 42.00 118.50 0.02 0.19 287.70 246.40 0.16 0.58 NR
NB: * indicates not all samples in the interval contain S; ** indicates not
all samples in the interval contain Pt;
NR = Not reported
Table One | Drilling Assay Results
(1) 3E= Palladium (Pd) + Platinum (Pt) + Gold (Au)
Appendix 3 | Historic Surface Sampling Data
Historic Sample Location Cu Ni S Easting Northing Grid
Sample ID
Type
ppm
ppm
ppm
(m)
(m)
TK302665 Stream Sediment Embayment 138.00 476.00 not analysed 376002 8037561 AMG84 ZN52
TK302666 Stream Sediment Embayment 100.00 343.00 not analysed 375939 8037491 AMG84 ZN52
TK302667 Stream Sediment Embayment 114.00 345.00 not analysed 375760 8037408 AMG84 ZN52
TK302668 Stream Sediment Embayment 133.00 456.00 not analysed 375708 8037501 AMG84 ZN52
TK302669 Stream Sediment N of Panton 24.00 51.00 not analysed 375633 8037588 AMG84 ZN52
TK302670 Stream Sediment N of Panton 18.00 33.00 not analysed 375704 8037719 AMG84 ZN52
TK302671 Stream Sediment N of Panton 111.00 170.00 not analysed 375413 8038011 AMG84 ZN52
TK302672 Stream Sediment N of Panton 19.00 23.00 not analysed 375560 8038069 AMG84 ZN52
TK302673 Stream Sediment N of Panton 33.00 29.00 not analysed 375944 8037976 AMG84 ZN52
TK302674 Stream Sediment N of Panton 34.00 25.00 not analysed 375988 8038151 AMG84 ZN52
TK302680 Stream Sediment N of Panton 44.00 40.00 not analysed 376456 8038014 AMG84 ZN52
PMAG1499 MAGLAG Panton Sill 108 292 60 377003 8036750 AMG84 ZN52
PMAG1505 MAGLAG Panton Sill 114 210 60 376801 8036602 AMG84 ZN52
PMAG1506 MAGLAG Panton Sill 89.5 292 60 376803 8036551 AMG84 ZN52
PMAG1550 MAGLAG Panton Sill 80.5 284 10 376604 8035903 AMG84 ZN52
PMAG1498 MAGLAG Panton Sill 153 360 40 377002 8036700 AMG84 ZN52
PMAG1554 MAGLAG Panton Sill 91.5 242 80 376600 8036100 AMG84 ZN52
PMAG0588 MAGLAG Panton Sill 20 30 80 377000 8038000 AMG84 ZN52
PMAG1548 MAGLAG Panton Sill 59.5 302 40 376602 8035801 AMG84 ZN52
PMAG1549 MAGLAG Panton Sill 55 314 10 376601 8035852 AMG84 ZN52
PMAG1553 MAGLAG Panton Sill 76 240 80 376601 8036052 AMG84 ZN52
PMAG1456 MAGLAG Panton Sill 109 428 80 377202 8036249 AMG84 ZN52
PMAG1492 MAGLAG Panton Sill 117 312 60 377002 8036402 AMG84 ZN52
PMAG1555 MAGLAG Panton Sill 98.5 246 160 376601 8036150 AMG84 ZN52
PMAG1613 MAGLAG Panton Sill 103 216 80 376000 8035900 AMG84 ZN52
PMAG1602 MAGLAG Panton Sill 67 190 160 376201 8036249 AMG84 ZN52
PMAG1600 MAGLAG Panton Sill 95.5 208 100 376200 8036349 AMG84 ZN52
PMAG1609 MAGLAG Panton Sill 82.5 290 40 376200 8035901 AMG84 ZN52
PMAG0587 MAGLAG Panton Sill 24.5 40 100 377200 8038200 AMG84 ZN52
PMAG1517 MAGLAG Panton Sill 78 202 40 376799 8036001 AMG84 ZN52
PMAG1599 MAGLAG Panton Sill 87 198 100 376200 8036404 AMG84 ZN52
PMAG0432 MAGLAG Panton Sill 412 546 140 377800 8037800 AMG84 ZN52
PMAG0611 MAGLAG Panton Sill 68 92 140 376800 8036800 AMG84 ZN52
PMAG1453 MAGLAG Panton Sill 121 354 140 377202 8036401 AMG84 ZN52
PMAG1551 MAGLAG Panton Sill 51.5 112 100 376602 8035951 AMG84 ZN52
PMAG1601 MAGLAG Panton Sill 138 310 40 376199 8036301 AMG84 ZN52
PMAG1632 MAGLAG Panton Sill 95.5 218 100 375803 8035799 AMG84 ZN52
PMAG1496 MAGLAG Panton Sill 126 298 40 377002 8036602 AMG84 ZN52
PMAG0439 MAGLAG Panton Sill 259 380 120 377800 8038150 AMG84 ZN52
PMAG1606 MAGLAG Panton Sill 139 404 80 376200 8036050 AMG84 ZN52
PMAG0080 MAGLAG Panton Sill 150 250 150 376200 8035800 AMG84 ZN52
PMAG0389 MAGLAG Panton Sill 85.5 218 100 377600 8035850 AMG84 ZN52
PMAG1434 MAGLAG Panton Sill 101 286 40 377403 8035900 AMG84 ZN52
PMAG1457 MAGLAG Panton Sill 97.5 432 100 377201 8036200 AMG84 ZN52
PMAG1581 MAGLAG Panton Sill 73 348 10 376400 8035898 AMG84 ZN52
PMAG1458 MAGLAG Panton Sill 89.5 436 60 377200 8036148 AMG84 ZN52
PMAG0434 MAGLAG Panton Sill 359 516 80 377800 8037900 AMG84 ZN52
PMAG0441 MAGLAG Panton Sill 465 456 100 377800 8038250 AMG84 ZN52
PMAG1427 MAGLAG Panton Sill 122 548 120 377400 8036251 AMG84 ZN52
PMAG1439 MAGLAG Panton Sill 95 266 120 377600 8036051 AMG84 ZN52
PMAG1452 MAGLAG Panton Sill 169 400 120 377202 8036450 AMG84 ZN52
PMAG1556 MAGLAG Panton Sill 100 232 120 376600 8036200 AMG84 ZN52
PMAG0613 MAGLAG Panton Sill 120 304 120 376800 8036900 AMG84 ZN52
PMAG0651 MAGLAG Panton Sill 96 186 100 376600 8036800 AMG84 ZN52
PMAG1428 MAGLAG Panton Sill 134 490 60 377401 8036204 AMG84 ZN52
PMAG1445 MAGLAG Panton Sill 128 290 120 377199 8036804 AMG84 ZN52
PMAG1449 MAGLAG Panton Sill 134 252 120 377199 8036602 AMG84 ZN52
PMAG1454 MAGLAG Panton Sill 125 306 120 377199 8036348 AMG84 ZN52
PMAG1455 MAGLAG Panton Sill 104 444 40 377202 8036299 AMG84 ZN52
PMAG1459 MAGLAG Panton Sill 146 372 280 377200 8036100 AMG84 ZN52
PMAG1516 MAGLAG Panton Sill 102 214 80 376805 8036050 AMG84 ZN52
PMAG1598 MAGLAG Panton Sill 130 282 100 376199 8036449 AMG84 ZN52
PMAG0391 MAGLAG Panton Sill 66.5 222 80 377600 8035950 AMG84 ZN52
PMAG0419 MAGLAG Panton Sill 130 188 140 377800 8037150 AMG84 ZN52
PMAG0513 MAGLAG Panton Sill 392 440 60 377600 8037650 AMG84 ZN52
PMAG0591 MAGLAG Panton Sill 153 418 80 377000 8037850 AMG84 ZN52
PMAG0709 MAGLAG Panton Sill 166 428 100 375800 8037100 AMG84 ZN52
PMAG1451 MAGLAG Panton Sill 153 340 140 377202 8036500 AMG84 ZN52
PMAG1493 MAGLAG Panton Sill 113 392 80 377000 8036451 AMG84 ZN52
PMAG1563 MAGLAG Panton Sill 106 262 80 376601 8036550 AMG84 ZN52
PMAG1621 MAGLAG Panton Sill 124 220 120 375999 8036299 AMG84 ZN52
PMAG0420 MAGLAG Panton Sill 149 204 200 377800 8037200 AMG84 ZN52
PMAG0633 MAGLAG Panton Sill 131 392 80 376600 8037700 AMG84 ZN52
PMAG1444 MAGLAG Panton Sill 144 226 40 377199 8036850 AMG84 ZN52
PMAG1507 MAGLAG Panton Sill 105 314 80 376800 8036500 AMG84 ZN52
PMAG1603 MAGLAG Panton Sill 127 494 80 376201 8036201 AMG84 ZN52
PMAG1607 MAGLAG Panton Sill 104 218 40 376201 8036001 AMG84 ZN52
PMAG1619 MAGLAG Panton Sill 136 370 100 376006 8036200 AMG84 ZN52
PMAG1494 MAGLAG Panton Sill 115 244 40 377000 8036501 AMG84 ZN52
PMAG1570 MAGLAG Panton Sill 125 356 100 376401 8036451 AMG84 ZN52
PMAG0392 MAGLAG Panton Sill 100 280 120 377600 8036000 AMG84 ZN52
PMAG0433 MAGLAG Panton Sill 518 834 140 377800 8037850 AMG84 ZN52
PMAG1417 MAGLAG Panton Sill 97.5 340 40 377601 8036401 AMG84 ZN52
PMAG1460 MAGLAG Panton Sill 122 464 40 377199 8036050 AMG84 ZN52
PMAG1387 MAGLAG Panton Sill 63 156 80 375200 8036100 AMG84 ZN52
PMAG1502 MAGLAG Panton Sill 182 336 60 376803 8036748 AMG84 ZN52
PMAG1503 MAGLAG Panton Sill 123 380 100 376802 8036701 AMG84 ZN52
PMAG1628 MAGLAG Panton Sill 156 418 140 375803 8035998 AMG84 ZN52
PMAG0590 MAGLAG Panton Sill 55.5 150 60 377000 8037900 AMG84 ZN52
PMAG0405 MAGLAG Panton Sill 109 254 140 377800 8036450 AMG84 ZN52
PMAG0586 MAGLAG Panton Sill 29.5 112 120 377200 8038150 AMG84 ZN52
PMAG1426 MAGLAG Panton Sill 138 392 100 377402 8036299 AMG84 ZN52
PMAG1575 MAGLAG Panton Sill 110 228 60 376400 8036202 AMG84 ZN52
PMAG1610 MAGLAG Panton Sill 179 214 40 376203 8035850 AMG84 ZN52
PMAG0562 MAGLAG Panton Sill 211 472 80 377200 8036950 AMG84 ZN52
PMAG1448 MAGLAG Panton Sill 125 284 160 377202 8036649 AMG84 ZN52
PMAG0737 MAGLAG Panton Sill 653 964 280 375600 8036500 AMG84 ZN52
PMAG1372 MAGLAG Panton Sill 133 330 140 375400 8036600 AMG84 ZN52
PMAG1571 MAGLAG Panton Sill 101 338 60 376404 8036400 AMG84 ZN52
PMAG1611 MAGLAG Panton Sill 96 136 80 376003 8035801 AMG84 ZN52
PMAG1625 MAGLAG Panton Sill 147 332 100 375800 8036152 AMG84 ZN52
PMAG0589 MAGLAG Panton Sill 103 394 80 377000 8037950 AMG84 ZN52
PMAG0388 MAGLAG Panton Sill 108 336 160 377600 8035800 AMG84 ZN52
PMAG0404 MAGLAG Panton Sill 99 242 100 377800 8036400 AMG84 ZN52
PMAG1436 MAGLAG Panton Sill 85 346 140 377401 8035800 AMG84 ZN52
PMAG1489 MAGLAG Panton Sill 112 324 60 377002 8036256 AMG84 ZN52
PMAG1491 MAGLAG Panton Sill 128 318 180 376999 8036352 AMG84 ZN52
PMAG0425 MAGLAG Panton Sill 195 322 100 377800 8037450 AMG84 ZN52
PMAG0435 MAGLAG Panton Sill 324 718 120 377800 8037950 AMG84 ZN52
PMAG1510 MAGLAG Panton Sill 76 314 40 376799 8036351 AMG84 ZN52
PMAG0421 MAGLAG Panton Sill 165 302 100 377800 8037250 AMG84 ZN52
PMAG0729 MAGLAG Panton Sill 167 346 140 375600 8036100 AMG84 ZN52
PMAG0406 MAGLAG Panton Sill 109 276 140 377800 8036500 AMG84 ZN52
PMAG1369 MAGLAG Panton Sill 149 322 180 375400 8036450 AMG84 ZN52
PMAG1423 MAGLAG Panton Sill 114 382 40 377402 8036449 AMG84 ZN52
PMAG1504 MAGLAG Panton Sill 194 610 40 376800 8036650 AMG84 ZN52
PMAG1624 MAGLAG Panton Sill 202 420 80 375801 8036203 AMG84 ZN52
PMAG1630 MAGLAG Panton Sill 138 310 80 375800 8035899 AMG84 ZN52
PMAG0710 MAGLAG Panton Sill 154 554 60 375800 8037050 AMG84 ZN52
PMAG0727 MAGLAG Panton Sill 170 358 80 375800 8036181 AMG84 ZN52
PMAG0654 MAGLAG Panton Sill 349 624 80 376400 8036700 AMG84 ZN52
PMAG1367 MAGLAG Panton Sill 59.5 192 100 375400 8036350 AMG84 ZN52
PMAG1425 MAGLAG Panton Sill 151 292 180 377401 8036352 AMG84 ZN52
PMAG1435 MAGLAG Panton Sill 103 240 120 377397 8035852 AMG84 ZN52
PMAG0418 MAGLAG Panton Sill 228 302 100 377800 8037100 AMG84 ZN52
PMAG0631 MAGLAG Panton Sill 103 468 80 376800 8037800 AMG84 ZN52
PMAG1368 MAGLAG Panton Sill 102 268 160 375400 8036400 AMG84 ZN52
PMAG0652 MAGLAG Panton Sill 140 370 120 376400 8036600 AMG84 ZN52
PMAG1370 MAGLAG Panton Sill 346 628 280 375400 8036500 AMG84 ZN52
PMAG1418 MAGLAG Panton Sill 124 746 340 377602 8036450 AMG84 ZN52
PMAG1627 MAGLAG Panton Sill 225 380 140 375802 8036045 AMG84 ZN52
PMAG1440 MAGLAG Panton Sill 122 322 60 377599 8036104 AMG84 ZN52
PMAG1616 MAGLAG Panton Sill 141 256 100 376002 8036052 AMG84 ZN52
PMAG1463 MAGLAG Panton Sill 90 482 40 377199 8035902 AMG84 ZN52
PMAG0561 MAGLAG Panton Sill 249 448 100 377200 8036900 AMG84 ZN52
PMAG0675 MAGLAG Panton Sill 1420 2460 100 376200 8037300 AMG84 ZN52
PMAG0730 MAGLAG Panton Sill 312 754 180 375600 8036150 AMG84 ZN52
PMAG0736 MAGLAG Panton Sill 855 1260 440 375600 8036450 AMG84 ZN52
PMAG1709 MAGLAG Panton Sill 106 144 60 375003 8036501 AMG84 ZN52
PMAG0560 MAGLAG Panton Sill 147 324 100 377400 8036650 AMG84 ZN52
PMAG0674 MAGLAG Panton Sill 382 1140 60 376200 8037350 AMG84 ZN52
PMAG0747 MAGLAG Panton Sill 96.5 188 60 375600 8037000 AMG84 ZN52
PMAG1446 MAGLAG Panton Sill 192 312 80 377200 8036749 AMG84 ZN52
PMAG1562 MAGLAG Panton Sill 126 260 60 376599 8036498 AMG84 ZN52
PMAG1480 MAGLAG Panton Sill 144 132 120 377002 8035802 AMG84 ZN52
PMAG1495 MAGLAG Panton Sill 168 244 40 376998 8036552 AMG84 ZN52
PMAG0565 MAGLAG Panton Sill 376 636 120 377200 8037100 AMG84 ZN52
PMAG0585 MAGLAG Panton Sill 122 158 60 377200 8038100 AMG84 ZN52
PMAG1488 MAGLAG Panton Sill 126 280 220 377000 8036203 AMG84 ZN52
PMAG0720 MAGLAG Panton Sill 429 650 200 375800 8036550 AMG84 ZN52
PMAG1576 MAGLAG Panton Sill 112 336 40 376400 8036151 AMG84 ZN52
PMAG1605 MAGLAG Panton Sill 128 318 100 376197 8036098 AMG84 ZN52
PMAG1620 MAGLAG Panton Sill 137 258 100 376000 8036250 AMG84 ZN52
PMAG1441 MAGLAG Panton Sill 125 322 40 377604 8036151 AMG84 ZN52
PMAG1552 MAGLAG Panton Sill 56.5 394 40 376599 8036000 AMG84 ZN52
PMAG1708 MAGLAG Panton Sill 123 130 80 374999 8036452 AMG84 ZN52
PMAG0415 MAGLAG Panton Sill 192 284 120 377800 8036950 AMG84 ZN52
PMAG1389 MAGLAG Panton Sill 44.5 176 60 375200 8036000 AMG84 ZN52
PMAG1420 MAGLAG Panton Sill 206 502 80 377402 8036601 AMG84 ZN52
PMAG1564 MAGLAG Panton Sill 89.5 280 100 376599 8036601 AMG84 ZN52
PMAG0417 MAGLAG Panton Sill 143 334 100 377800 8037050 AMG84 ZN52
PMAG0436 MAGLAG Panton Sill 566 802 120 377800 8038000 AMG84 ZN52
PMAG0663 MAGLAG Panton Sill 383 560 80 376400 8037150 AMG84 ZN52
PMAG0424 MAGLAG Panton Sill 170 330 60 377800 8037400 AMG84 ZN52
PMAG1618 MAGLAG Panton Sill 134 322 40 375997 8036152 AMG84 ZN52
PMAG0564 MAGLAG Panton Sill 428 964 140 377200 8037050 AMG84 ZN52
PMAG1623 MAGLAG Panton Sill 186 346 80 376002 8036403 AMG84 ZN52
PMAG0429 MAGLAG Panton Sill 584 928 220 377800 8037650 AMG84 ZN52
PMAG1419 MAGLAG Panton Sill 158 496 80 377602 8036500 AMG84 ZN52
PMAG1629 MAGLAG Panton Sill 135 372 60 375800 8035952 AMG84 ZN52
PMAG1487 MAGLAG Panton Sill 116 314 80 377001 8036151 AMG84 ZN52
PMAG1519 MAGLAG Panton Sill 48.5 562 10 376799 8035901 AMG84 ZN52
PMAG0692 MAGLAG Panton Sill 357 828 140 376000 8036400 AMG84 ZN52
PMAG0691 MAGLAG Panton Sill 293 548 120 376200 8036500 AMG84 ZN52
PMAG1561 MAGLAG Panton Sill 158 356 80 376600 8036450 AMG84 ZN52
PMAG1580 MAGLAG Panton Sill 85.5 252 60 376400 8035949 AMG84 ZN52
PMAG0616 MAGLAG Panton Sill 281 616 120 376800 8037050 AMG84 ZN52
PMAG0621 MAGLAG Panton Sill 838 1660 160 376800 8037300 AMG84 ZN52
PMAG1615 MAGLAG Panton Sill 79.5 246 40 376001 8036002 AMG84 ZN52
PMAG0607 MAGLAG Panton Sill 433 748 140 377000 8037050 AMG84 ZN52
PMAG0718 MAGLAG Panton Sill 976 1330 300 375800 8036650 AMG84 ZN52
PMAG1424 MAGLAG Panton Sill 136 370 100 377402 8036401 AMG84 ZN52
PMAG0581 MAGLAG Panton Sill 307 672 140 377200 8037900 AMG84 ZN52
PMAG1514 MAGLAG Panton Sill 120 354 80 376803 8036153 AMG84 ZN52
PMAG0428 MAGLAG Panton Sill 216 382 60 377800 8037600 AMG84 ZN52
PMAG0622 MAGLAG Panton Sill 1420 1580 240 376800 8037350 AMG84 ZN52
PMAG0437 MAGLAG Panton Sill 946 1770 160 377800 8038050 AMG84 ZN52
PMAG0558 MAGLAG Panton Sill 234 398 160 377400 8036800 AMG84 ZN52
PMAG0650 MAGLAG Panton Sill 295 686 140 376600 8036850 AMG84 ZN52
PMAG0661 MAGLAG Panton Sill 328 624 160 376400 8037050 AMG84 ZN52
PMAG0514 MAGLAG Panton Sill 797 1740 280 377600 8037700 AMG84 ZN52
PMAG0681 MAGLAG Panton Sill 1770 2150 1200 376200 8037000 AMG84 ZN52
PMAG0403 MAGLAG Panton Sill 154 398 120 377800 8036350 AMG84 ZN52
PMAG0563 MAGLAG Panton Sill 541 890 180 377200 8037000 AMG84 ZN52
PMAG1362 MAGLAG Panton Sill 47.5 176 100 375400 8036100 AMG84 ZN52
PMAG0630 MAGLAG Panton Sill 225 672 140 376800 8037750 AMG84 ZN52
PMAG0557 MAGLAG Panton Sill 348 608 80 377400 8036850 AMG84 ZN52
PMAG1382 MAGLAG Panton Sill 137 326 100 375200 8036350 AMG84 ZN52
PMAG1490 MAGLAG Panton Sill 127 372 40 377002 8036303 AMG84 ZN52
PMAG0491 MAGLAG Panton Sill 162 400 120 377600 8036550 AMG84 ZN52
PMAG1380 MAGLAG Panton Sill 107 308 180 375200 8036450 AMG84 ZN52
PMAG1416 MAGLAG Panton Sill 103 336 60 377601 8036351 AMG84 ZN52
PMAG1604 MAGLAG Panton Sill 112 362 40 376193 8036149 AMG84 ZN52
PMAG1631 MAGLAG Panton Sill 107 322 10 375808 8035849 AMG84 ZN52
PMAG1706 MAGLAG Panton Sill 96 136 100 375001 8036352 AMG84 ZN52
PMAG1707 MAGLAG Panton Sill 101 152 100 375001 8036401 AMG84 ZN52
PMAG1462 MAGLAG Panton Sill 87 370 20 377200 8035952 AMG84 ZN52
PMAG1704 MAGLAG Panton Sill 88.5 162 140 374999 8036254 AMG84 ZN52
PMAG0494 MAGLAG Panton Sill 262 692 160 377600 8036700 AMG84 ZN52
PMAG0511 MAGLAG Panton Sill 194 406 80 377600 8037550 AMG84 ZN52
PMAG0700 MAGLAG Panton Sill 930 1690 260 376000 8036800 AMG84 ZN52
PMAG1378 MAGLAG Panton Sill 82.5 310 100 375200 8036550 AMG84 ZN52
PMAG0556 MAGLAG Panton Sill 432 834 180 377400 8036900 AMG84 ZN52
PMAG0614 MAGLAG Panton Sill 482 898 140 376800 8036950 AMG84 ZN52
PMAG0698 MAGLAG Panton Sill 957 958 420 376000 8036700 AMG84 ZN52
PMAG1644 MAGLAG Panton Sill 66.5 276 10 375399 8035949 AMG84 ZN52
PMAG1705 MAGLAG Panton Sill 89.5 138 100 374997 8036303 AMG84 ZN52
PMAG1442 MAGLAG Panton Sill 144 554 120 377580 8036202 AMG84 ZN52
PMAG1572 MAGLAG Panton Sill 145 424 80 376398 8036350 AMG84 ZN52
PMAG0554 MAGLAG Panton Sill 372 776 180 377400 8037000 AMG84 ZN52
PMAG0649 MAGLAG Panton Sill 287 688 80 376600 8036900 AMG84 ZN52
PMAG1608 MAGLAG Panton Sill 140 574 10 376200 8035949 AMG84 ZN52
PMAG0530 MAGLAG Panton Sill 184 690 120 377400 8038250 AMG84 ZN52
PMAG1483 MAGLAG Panton Sill 100 354 40 376999 8035953 AMG84 ZN52
PMAG1366 MAGLAG Panton Sill 59 174 60 375400 8036300 AMG84 ZN52
PMAG0397 MAGLAG Panton Sill 119 440 100 377800 8035800 AMG84 ZN52
PMAG1573 MAGLAG Panton Sill 110 322 100 376399 8036302 AMG84 ZN52
PMAG0599 MAGLAG Panton Sill 722 880 180 377000 8037450 AMG84 ZN52
PMAG0670 MAGLAG Panton Sill 295 1440 60 376400 8037500 AMG84 ZN52
PMAG1433 MAGLAG Panton Sill 119 368 160 377400 8035948 AMG84 ZN52
PMAG1379 MAGLAG Panton Sill 322 822 180 375200 8036500 AMG84 ZN52
PMAG1501 MAGLAG Panton Sill 93 340 60 377001 8036850 AMG84 ZN52
PMAG1622 MAGLAG Panton Sill 591 976 120 375999 8036351 AMG84 ZN52
PMAG0643 MAGLAG Panton Sill 515 932 160 376600 8037200 AMG84 ZN52
PMAG1647 MAGLAG Panton Sill 101 190 10 375402 8035800 AMG84 ZN52
PMAG1509 MAGLAG Panton Sill 116 504 40 376801 8036401 AMG84 ZN52
PMAG0662 MAGLAG Panton Sill 896 1990 220 376400 8037100 AMG84 ZN52
PMAG0426 MAGLAG Panton Sill 317 526 120 377800 8037500 AMG84 ZN52
PMAG0510 MAGLAG Panton Sill 453 438 60 377600 8037500 AMG84 ZN52
PMAG0525 MAGLAG Panton Sill 165 594 100 377600 8038250 AMG84 ZN52
PMAG0526 MAGLAG Panton Sill 190 800 160 377600 8038300 AMG84 ZN52
PMAG0745 MAGLAG Panton Sill 260 848 160 375600 8036900 AMG84 ZN52
PMAG1617 MAGLAG Panton Sill 160 306 80 376000 8036100 AMG84 ZN52
PMAG0620 MAGLAG Panton Sill 320 552 120 376800 8037250 AMG84 ZN52
PMAG1360 MAGLAG Panton Sill 67 244 60 375400 8036000 AMG84 ZN52
PMAG1381 MAGLAG Panton Sill 234 458 140 375200 8036400 AMG84 ZN52
PMAG0608 MAGLAG Panton Sill 281 690 120 377000 8037000 AMG84 ZN52
PMAG0423 MAGLAG Panton Sill 244 418 100 377800 8037350 AMG84 ZN52
PMAG0574 MAGLAG Panton Sill 1510 1760 160 377200 8037550 AMG84 ZN52
PMAG0680 MAGLAG Panton Sill 2620 2230 440 376200 8037050 AMG84 ZN52
PMAG1450 MAGLAG Panton Sill 222 386 420 377198 8036550 AMG84 ZN52
PMAG0605 MAGLAG Panton Sill 445 860 100 377000 8037150 AMG84 ZN52
PMAG0493 MAGLAG Panton Sill 137 482 120 377600 8036650 AMG84 ZN52
PMAG0685 MAGLAG Panton Sill 321 656 220 376200 8036800 AMG84 ZN52
PMAG0735 MAGLAG Panton Sill 554 894 200 375600 8036400 AMG84 ZN52
PMAG0559 MAGLAG Panton Sill 435 286 180 377400 8036750 AMG84 ZN52
PMAG1377 MAGLAG Panton Sill 83.5 346 100 375200 8036600 AMG84 ZN52
PMAG1653 MAGLAG Panton Sill 113 324 40 375202 8035802 AMG84 ZN52
PMAG0542 MAGLAG Panton Sill 1730 2250 140 377400 8037650 AMG84 ZN52
PMAG1486 MAGLAG Panton Sill 95.5 196 20 377002 8036100 AMG84 ZN52
PMAG0512 MAGLAG Panton Sill 648 1070 140 377600 8037600 AMG84 ZN52
PMAG0615 MAGLAG Panton Sill 419 930 160 376800 8037000 AMG84 ZN52
PMAG0683 MAGLAG Panton Sill 1470 1870 340 376200 8036900 AMG84 ZN52
PMAG0431 MAGLAG Panton Sill 750 1330 300 377800 8037750 AMG84 ZN52
PMAG1361 MAGLAG Panton Sill 45.5 160 60 375400 8036050 AMG84 ZN52
PMAG0427 MAGLAG Panton Sill 241 530 140 377800 8037550 AMG84 ZN52
PMAG0697 MAGLAG Panton Sill 298 584 160 376000 8036650 AMG84 ZN52
PMAG0726 MAGLAG Panton Sill 405 850 180 375800 8036250 AMG84 ZN52
PMAG1386 MAGLAG Panton Sill 95 246 120 375200 8036150 AMG84 ZN52
PMAG1698 MAGLAG Panton Sill 72 310 10 374998 8035951 AMG84 ZN52
PMAG0690 MAGLAG Panton Sill 350 862 180 376200 8036550 AMG84 ZN52
PMAG1461 MAGLAG Panton Sill 94.5 342 60 377201 8036000 AMG84 ZN52
PMAG1643 MAGLAG Panton Sill 119 392 40 375603 8035951 AMG84 ZN52
PMAG0600 MAGLAG Panton Sill 890 2180 200 377000 8037400 AMG84 ZN52
PMAG0642 MAGLAG Panton Sill 570 842 160 376600 8037250 AMG84 ZN52
PMAG1508 MAGLAG Panton Sill 203 422 80 376799 8036449 AMG84 ZN52
PMAG0566 MAGLAG Panton Sill 725 1100 240 377200 8037150 AMG84 ZN52
PMAG0672 MAGLAG Panton Sill 241 634 40 376200 8037450 AMG84 ZN52
PMAG1699 MAGLAG Panton Sill 74.5 294 100 374998 8036001 AMG84 ZN52
PMAG1429 MAGLAG Panton Sill 234 418 80 377400 8036150 AMG84 ZN52
PMAG0430 MAGLAG Panton Sill 1140 1510 360 377800 8037700 AMG84 ZN52
PMAG0414 MAGLAG Panton Sill 313 564 100 377800 8036900 AMG84 ZN52
PMAG1430 MAGLAG Panton Sill 213 478 160 377396 8036099 AMG84 ZN52
PMAG0728 MAGLAG Panton Sill 174 404 120 375600 8036050 AMG84 ZN52
PMAG1388 MAGLAG Panton Sill 51.5 126 60 375200 8036050 AMG84 ZN52
PMAG0572 MAGLAG Panton Sill 1220 2110 160 377200 8037450 AMG84 ZN52
PMAG0619 MAGLAG Panton Sill 264 610 100 376800 8037200 AMG84 ZN52
PMAG0495 MAGLAG Panton Sill 579 1410 380 377600 8036750 AMG84 ZN52
PMAG0738 MAGLAG Panton Sill 1530 1970 200 375600 8036550 AMG84 ZN52
PMAG1384 MAGLAG Panton Sill 67 214 60 375200 8036250 AMG84 ZN52
PMAG0438 MAGLAG Panton Sill 926 1730 160 377800 8038100 AMG84 ZN52
PMAG1376 MAGLAG Panton Sill 56 246 80 375400 8036800 AMG84 ZN52
PMAG0635 MAGLAG Panton Sill 201 830 100 376600 8037600 AMG84 ZN52
PMAG1431 MAGLAG Panton Sill 134 292 120 377401 8036050 AMG84 ZN52
PMAG1695 MAGLAG Panton Sill 85 272 80 375002 8035801 AMG84 ZN52
PMAG1464 MAGLAG Panton Sill 63.5 300 100 377201 8035854 AMG84 ZN52
PMAG1521 MAGLAG Panton Sill 181 380 80 376801 8035802 AMG84 ZN52
PMAG0673 MAGLAG Panton Sill 128 698 360 376200 8037400 AMG84 ZN52
PMAG1651 MAGLAG Panton Sill 66 286 40 375201 8035951 AMG84 ZN52
PMAG0582 MAGLAG Panton Sill 279 834 100 377200 8037950 AMG84 ZN52
PMAG1612 MAGLAG Panton Sill 114 542 10 376001 8035851 AMG84 ZN52
PMAG0527 MAGLAG Panton Sill 185 938 100 377600 8038350 AMG84 ZN52
PMAG0492 MAGLAG Panton Sill 585 940 140 377600 8036600 AMG84 ZN52
PMAG1385 MAGLAG Panton Sill 100 204 60 375200 8036200 AMG84 ZN52
PMAG0655 MAGLAG Panton Sill 851 1240 180 376400 8036750 AMG84 ZN52
PMAG0682 MAGLAG Panton Sill 371 682 100 376200 8036950 AMG84 ZN52
PMAG1696 MAGLAG Panton Sill 79 282 40 375003 8035850 AMG84 ZN52
PMAG0657 MAGLAG Panton Sill 606 1040 120 376400 8036850 AMG84 ZN52
PMAG1373 MAGLAG Panton Sill 120 468 120 375400 8036650 AMG84 ZN52
PMAG0634 MAGLAG Panton Sill 166 714 100 376600 8037650 AMG84 ZN52
PMAG0545 MAGLAG Panton Sill 340 560 140 377400 8037500 AMG84 ZN52
PMAG1500 MAGLAG Panton Sill 276 928 40 376999 8036795 AMG84 ZN52
PMAG0721 MAGLAG Panton Sill 582 1230 240 375800 8036500 AMG84 ZN52
PMAG1697 MAGLAG Panton Sill 82 202 60 375000 8035899 AMG84 ZN52
PMAG1652 MAGLAG Panton Sill 56.5 250 40 375199 8035850 AMG84 ZN52
PMAG1578 MAGLAG Panton Sill 85 530 20 376400 8036051 AMG84 ZN52
PMAG0746 MAGLAG Panton Sill 131 552 60 375600 8036950 AMG84 ZN52
PMAG1422 MAGLAG Panton Sill 225 688 80 377399 8036499 AMG84 ZN52
PMAG1371 MAGLAG Panton Sill 277 1080 140 375400 8036550 AMG84 ZN52
PMAG1577 MAGLAG Panton Sill 101 290 80 376400 8036100 AMG84 ZN52
PMAG1363 MAGLAG Panton Sill 75 296 80 375400 8036150 AMG84 ZN52
PMAG0543 MAGLAG Panton Sill 746 1140 240 377400 8037600 AMG84 ZN52
PMAG0671 MAGLAG Panton Sill 133 898 60 376400 8037550 AMG84 ZN52
PMAG1703 MAGLAG Panton Sill 134 386 40 375002 8036194 AMG84 ZN52
PMAG1512 MAGLAG Panton Sill 79.5 222 40 376797 8036250 AMG84 ZN52
PMAG0544 MAGLAG Panton Sill 1890 3100 220 377400 8037550 AMG84 ZN52
PMAG0555 MAGLAG Panton Sill 711 1320 200 377400 8036950 AMG84 ZN52
PMAG0664 MAGLAG Panton Sill 258 2530 360 376400 8037200 AMG84 ZN52
PMAG0708 MAGLAG Panton Sill 139 884 120 376000 8037200 AMG84 ZN52
PMAG0393 MAGLAG Panton Sill 334 928 100 377800 8036050 AMG84 ZN52
PMAG1375 MAGLAG Panton Sill 178 742 140 375400 8036750 AMG84 ZN52
PMAG0610 MAGLAG Panton Sill 191 650 160 377000 8036900 AMG84 ZN52
PMAG0632 MAGLAG Panton Sill 302 1090 80 376800 8037850 AMG84 ZN52
PMAG0573 MAGLAG Panton Sill 1100 2050 200 377200 8037500 AMG84 ZN52
PMAG0699 MAGLAG Panton Sill 1170 1920 740 376000 8036750 AMG84 ZN52
PMAG0606 MAGLAG Panton Sill 893 1510 240 377000 8037100 AMG84 ZN52
PMAG0641 MAGLAG Panton Sill 579 1760 140 376600 8037300 AMG84 ZN52
PMAG1364 MAGLAG Panton Sill 51 292 80 375400 8036200 AMG84 ZN52
PMAG1559 MAGLAG Panton Sill 88 226 80 376599 8036350 AMG84 ZN52
PMAG1558 MAGLAG Panton Sill 198 400 60 376603 8036300 AMG84 ZN52
PMAG1702 MAGLAG Panton Sill 112 448 40 375000 8036149 AMG84 ZN52
PMAG1701 MAGLAG Panton Sill 120 474 80 375002 8036100 AMG84 ZN52
PMAG0529 MAGLAG Panton Sill 297 1010 80 377400 8038300 AMG84 ZN52
PMAG0531 MAGLAG Panton Sill 539 1540 180 377400 8038200 AMG84 ZN52
PMAG1700 MAGLAG Panton Sill 126 534 60 374999 8036053 AMG84 ZN52
PMAG0684 MAGLAG Panton Sill 2230 2140 460 376200 8036850 AMG84 ZN52
PMAG0640 MAGLAG Panton Sill 1080 2780 180 376600 8037350 AMG84 ZN52
PMAG1365 MAGLAG Panton Sill 55.5 320 80 375400 8036250 AMG84 ZN52
PMAG0533 MAGLAG Panton Sill 130 1840 100 377400 8038100 AMG84 ZN52
PMAG1485 MAGLAG Panton Sill 191 248 120 377000 8036049 AMG84 ZN52
PMAG0416 MAGLAG Panton Sill 388 1000 100 377800 8037000 AMG84 ZN52
PMAG1443 MAGLAG Panton Sill 307 788 80 377603 8036249 AMG84 ZN52
PMAG1432 MAGLAG Panton Sill 134 356 60 377403 8036002 AMG84 ZN52
PMAG1626 MAGLAG Panton Sill 308 856 60 375802 8036102 AMG84 ZN52
PMAG0739 MAGLAG Panton Sill 611 2360 200 375600 8036600 AMG84 ZN52
PMAG1645 MAGLAG Panton Sill 76 300 40 375401 8035895 AMG84 ZN52
PMAG0553 MAGLAG Panton Sill 615 1430 240 377400 8037050 AMG84 ZN52
PMAG0623 MAGLAG Panton Sill 830 2140 140 376800 8037400 AMG84 ZN52
PMAG0399 MAGLAG Panton Sill 470 1200 100 377800 8036150 AMG84 ZN52
PMAG0644 MAGLAG Panton Sill 772 1500 200 376600 8037150 AMG84 ZN52
PMAG0602 MAGLAG Panton Sill 602 1330 180 377000 8037300 AMG84 ZN52
PMAG1383 MAGLAG Panton Sill 126 282 140 375200 8036300 AMG84 ZN52
PMAG0719 MAGLAG Panton Sill 1130 1880 220 375800 8036600 AMG84 ZN52
PMAG0515 MAGLAG Panton Sill 477 2030 180 377600 8037750 AMG84 ZN52
PMAG1520 MAGLAG Panton Sill 146 366 40 376803 8035852 AMG84 ZN52
PMAG1513 MAGLAG Panton Sill 161 348 40 376794 8036201 AMG84 ZN52
PMAG0648 MAGLAG Panton Sill 743 1260 140 376600 8036950 AMG84 ZN52
PMAG0658 MAGLAG Panton Sill 293 1490 140 376400 8036900 AMG84 ZN52
PMAG1642 MAGLAG Panton Sill 109 388 40 375599 8035904 AMG84 ZN52
PMAG1484 MAGLAG Panton Sill 139 270 100 377000 8036001 AMG84 ZN52
PMAG1640 MAGLAG Panton Sill 115 374 40 375601 8035801 AMG84 ZN52
PMAG0731 MAGLAG Panton Sill 492 1500 360 375600 8036200 AMG84 ZN52
PMAG0508 MAGLAG Panton Sill 56.5 886 80 377600 8037400 AMG84 ZN52
PMAG0603 MAGLAG Panton Sill 196 790 100 377000 8037250 AMG84 ZN52
PMAG1579 MAGLAG Panton Sill 99 478 10 376401 8036001 AMG84 ZN52
PMAG1560 MAGLAG Panton Sill 132 330 80 376600 8036401 AMG84 ZN52
PMAG1641 MAGLAG Panton Sill 176 832 160 375585 8035857 AMG84 ZN52
PMAG1374 MAGLAG Panton Sill 129 640 120 375400 8036700 AMG84 ZN52
PMAG1421 MAGLAG Panton Sill 282 930 160 377401 8036551 AMG84 ZN52
PMAG0532 MAGLAG Panton Sill 199 1010 80 377400 8038150 AMG84 ZN52
PMAG1482 MAGLAG Panton Sill 101 324 40 376999 8035899 AMG84 ZN52
PMAG0595 MAGLAG Panton Sill 714 1990 120 377000 8037650 AMG84 ZN52
PMAG1415 MAGLAG Panton Sill 144 870 220 377598 8036299 AMG84 ZN52
PMAG0503 MAGLAG Panton Sill 824 2710 200 377600 8037150 AMG84 ZN52
PMAG0740 MAGLAG Panton Sill 679 2420 180 375600 8036650 AMG84 ZN52
PMAG0645 MAGLAG Panton Sill 216 1900 80 376600 8037100 AMG84 ZN52
PMAG0713 MAGLAG Panton Sill 1160 2120 120 375800 8036900 AMG84 ZN52
PMAG0442 MAGLAG Panton Sill 557 1930 180 377800 8038300 AMG84 ZN52
PMAG0592 MAGLAG Panton Sill 587 1460 120 377000 8037800 AMG84 ZN52
PMAG1511 MAGLAG Panton Sill 110 290 40 376785 8036298 AMG84 ZN52
PMAG0567 MAGLAG Panton Sill 434 1370 200 377200 8037200 AMG84 ZN52
PMAG0583 MAGLAG Panton Sill 401 1610 140 377200 8038000 AMG84 ZN52
PMAG0724 MAGLAG Panton Sill 275 1740 180 375800 8036350 AMG84 ZN52
PMAG0412 MAGLAG Panton Sill 170 1680 100 377800 8036800 AMG84 ZN52
PMAG0524 MAGLAG Panton Sill 677 1770 100 377600 8038200 AMG84 ZN52
PMAG0440 MAGLAG Panton Sill 1440 1430 220 377800 8038200 AMG84 ZN52
PMAG0551 MAGLAG Panton Sill 487 2210 220 377400 8037150 AMG84 ZN52
PMAG0411 MAGLAG Panton Sill 89 1050 120 377800 8036750 AMG84 ZN52
PMAG1567 MAGLAG Panton Sill 398 900 80 376602 8036750 AMG84 ZN52
PMAG0401 MAGLAG Panton Sill 865 1540 160 377800 8036250 AMG84 ZN52
PMAG0413 MAGLAG Panton Sill 150 1950 120 377800 8036850 AMG84 ZN52
PMAG0534 MAGLAG Panton Sill 202 1530 100 377400 8038050 AMG84 ZN52
PMAG0407 MAGLAG Panton Sill 56 888 80 377800 8036550 AMG84 ZN52
PMAG0612 MAGLAG Panton Sill 340 1480 120 376800 8036850 AMG84 ZN52
PMAG0537 MAGLAG Panton Sill 1070 2420 100 377400 8037900 AMG84 ZN52
PMAG0678 MAGLAG Panton Sill 1010 2700 140 376200 8037150 AMG84 ZN52
PMAG0398 MAGLAG Panton Sill 537 1580 260 377800 8036100 AMG84 ZN52
PMAG0665 MAGLAG Panton Sill 1020 2230 280 376400 8037250 AMG84 ZN52
PMAG0410 MAGLAG Panton Sill 99 996 120 377800 8036700 AMG84 ZN52
PMAG0734 MAGLAG Panton Sill 641 1310 280 375600 8036350 AMG84 ZN52
PMAG0400 MAGLAG Panton Sill 393 1490 180 377800 8036200 AMG84 ZN52
PMAG0696 MAGLAG Panton Sill 726 1530 260 376000 8036600 AMG84 ZN52
PMAG0580 MAGLAG Panton Sill 333 2090 160 377200 8037850 AMG84 ZN52
PMAG0395 MAGLAG Panton Sill 87.5 1140 120 377800 8035900 AMG84 ZN52
PMAG1614 MAGLAG Panton Sill 90 314 40 376000 8035951 AMG84 ZN52
PMAG0716 MAGLAG Panton Sill 807 2720 140 375800 8036750 AMG84 ZN52
PMAG0584 MAGLAG Panton Sill 513 2220 120 377200 8038050 AMG84 ZN52
PMAG0711 MAGLAG Panton Sill 237 1480 100 375800 8037000 AMG84 ZN52
PMAG0703 MAGLAG Panton Sill 772 2660 120 376000 8036950 AMG84 ZN52
PMAG0598 MAGLAG Panton Sill 895 2450 140 377000 8037500 AMG84 ZN52
PMAG0717 MAGLAG Panton Sill 1250 2470 280 375800 8036700 AMG84 ZN52
PMAG0639 MAGLAG Panton Sill 425 1640 140 376600 8037400 AMG84 ZN52
PMAG0707 MAGLAG Panton Sill 241 1370 140 376000 8037150 AMG84 ZN52
PMAG1574 MAGLAG Panton Sill 138 392 40 376401 8036249 AMG84 ZN52
PMAG0689 MAGLAG Panton Sill 1020 2290 520 376200 8036600 AMG84 ZN52
PMAG1447 MAGLAG Panton Sill 465 1020 120 377203 8036700 AMG84 ZN52
PMAG0742 MAGLAG Panton Sill 712 1970 160 375600 8036750 AMG84 ZN52
PMAG0552 MAGLAG Panton Sill 1420 2810 560 377400 8037100 AMG84 ZN52
PMAG0396 MAGLAG Panton Sill 802 1070 140 377800 8035850 AMG84 ZN52
PMAG0394 MAGLAG Panton Sill 129 1320 200 377800 8036000 AMG84 ZN52
PMAG0618 MAGLAG Panton Sill 205 1350 120 376800 8037150 AMG84 ZN52
PMAG0706 MAGLAG Panton Sill 426 1890 80 376000 8037100 AMG84 ZN52
PMAG0509 MAGLAG Panton Sill 390 1130 80 377600 8037450 AMG84 ZN52
PMAG0521 MAGLAG Panton Sill 1400 2610 300 377600 8038050 AMG84 ZN52
PMAG0409 MAGLAG Panton Sill 102 1030 80 377800 8036650 AMG84 ZN52
PMAG1481 MAGLAG Panton Sill 74.5 262 20 377001 8035850 AMG84 ZN52
PMAG0733 MAGLAG Panton Sill 179 1710 140 375600 8036300 AMG84 ZN52
PMAG0576 MAGLAG Panton Sill 1160 3310 140 377200 8037650 AMG84 ZN52
PMAG0541 MAGLAG Panton Sill 767 2290 160 377400 8037700 AMG84 ZN52
PMAG0498 MAGLAG Panton Sill 1110 1730 240 377600 8036900 AMG84 ZN52
PMAG0714 MAGLAG Panton Sill 489 2590 100 375800 8036850 AMG84 ZN52
PMAG0656 MAGLAG Panton Sill 374 1280 80 376400 8036800 AMG84 ZN52
PMAG0571 MAGLAG Panton Sill 585 1970 160 377200 8037400 AMG84 ZN52
PMAG0402 MAGLAG Panton Sill 944 2000 200 377800 8036300 AMG84 ZN52
PMAG0669 MAGLAG Panton Sill 596 1910 100 376400 8037450 AMG84 ZN52
PMAG0629 MAGLAG Panton Sill 405 2400 140 376800 8037700 AMG84 ZN52
PMAG0732 MAGLAG Panton Sill 171 1630 160 375600 8036250 AMG84 ZN52
PMAG0516 MAGLAG Panton Sill 661 2690 200 377600 8037800 AMG84 ZN52
PMAG0550 MAGLAG Panton Sill 158 1910 100 377400 8037200 AMG84 ZN52
PMAG0593 MAGLAG Panton Sill 557 2910 160 377000 8037750 AMG84 ZN52
PMAG0694 MAGLAG Panton Sill 358 2160 180 376000 8036500 AMG84 ZN52
PMAG0517 MAGLAG Panton Sill 1220 3330 180 377600 8037850 AMG84 ZN52
PMAG0667 MAGLAG Panton Sill 535 1620 100 376400 8037350 AMG84 ZN52
PMAG0522 MAGLAG Panton Sill 718 3220 140 377600 8038100 AMG84 ZN52
PMAG0579 MAGLAG Panton Sill 563 2510 140 377200 8037800 AMG84 ZN52
PMAG0536 MAGLAG Panton Sill 273 2040 100 377400 8037950 AMG84 ZN52
PMAG1646 MAGLAG Panton Sill 68.5 288 10 375402 8035851 AMG84 ZN52
PMAG0408 MAGLAG Panton Sill 160 998 100 377800 8036600 AMG84 ZN52
PMAG0723 MAGLAG Panton Sill 209 1210 100 375800 8036400 AMG84 ZN52
PMAG0575 MAGLAG Panton Sill 955 2930 120 377200 8037600 AMG84 ZN52
PMAG0499 MAGLAG Panton Sill 204 1700 100 377600 8036950 AMG84 ZN52
PMAG0743 MAGLAG Panton Sill 603 3030 160 375600 8036800 AMG84 ZN52
PMAG0679 MAGLAG Panton Sill 1390 2810 160 376200 8037100 AMG84 ZN52
PMAG0668 MAGLAG Panton Sill 365 1990 60 376400 8037400 AMG84 ZN52
PMAG0744 MAGLAG Panton Sill 703 2570 200 375600 8036850 AMG84 ZN52
PMAG0693 MAGLAG Panton Sill 4010 1960 1100 376000 8036450 AMG84 ZN52
PMAG0659 MAGLAG Panton Sill 491 1870 80 376400 8036950 AMG84 ZN52
PMAG0497 MAGLAG Panton Sill 191 1030 140 377600 8036850 AMG84 ZN52
PMAG1557 MAGLAG Panton Sill 173 310 40 376602 8036252 AMG84 ZN52
PMAG0646 MAGLAG Panton Sill 84 1720 100 376600 8037050 AMG84 ZN52
PMAG0666 MAGLAG Panton Sill 653 2110 120 376400 8037300 AMG84 ZN52
PMAG0722 MAGLAG Panton Sill 843 2510 180 375800 8036450 AMG84 ZN52
PMAG0549 MAGLAG Panton Sill 139 2340 160 377400 8037250 AMG84 ZN52
PMAG0636 MAGLAG Panton Sill 403 2400 160 376600 8037550 AMG84 ZN52
PMAG0741 MAGLAG Panton Sill 567 2220 160 375600 8036700 AMG84 ZN52
PMAG0546 MAGLAG Panton Sill 110 1490 120 377400 8037450 AMG84 ZN52
PMAG0570 MAGLAG Panton Sill 105 1940 100 377200 8037350 AMG84 ZN52
PMAG0701 MAGLAG Panton Sill 727 2590 120 376000 8036850 AMG84 ZN52
PMAG0500 MAGLAG Panton Sill 459 1520 120 377600 8037000 AMG84 ZN52
PMAG0539 MAGLAG Panton Sill 729 2690 120 377400 8037800 AMG84 ZN52
PMAG0677 MAGLAG Panton Sill 2230 3880 220 376200 8037200 AMG84 ZN52
PMAG0686 MAGLAG Panton Sill 560 1650 240 376200 8036750 AMG84 ZN52
PMAG0535 MAGLAG Panton Sill 466 2150 100 377400 8038000 AMG84 ZN52
PMAG0518 MAGLAG Panton Sill 924 2930 200 377600 8037900 AMG84 ZN52
PMAG0501 MAGLAG Panton Sill 306 1440 140 377600 8037050 AMG84 ZN52
PMAG0617 MAGLAG Panton Sill 175 1570 80 376800 8037100 AMG84 ZN52
PMAG0578 MAGLAG Panton Sill 886 3030 140 377200 8037750 AMG84 ZN52
PMAG0712 MAGLAG Panton Sill 639 2430 80 375800 8036950 AMG84 ZN52
PMAG0507 MAGLAG Panton Sill 121 2300 100 377600 8037350 AMG84 ZN52
PMAG0687 MAGLAG Panton Sill 343 2250 140 376200 8036700 AMG84 ZN52
PMAG0637 MAGLAG Panton Sill 345 2440 200 376600 8037500 AMG84 ZN52
PMAG0695 MAGLAG Panton Sill 416 2070 220 376000 8036550 AMG84 ZN52
PMAG0538 MAGLAG Panton Sill 424 2800 160 377400 8037850 AMG84 ZN52
PMAG0568 MAGLAG Panton Sill 189 1540 140 377200 8037250 AMG84 ZN52
PMAG0688 MAGLAG Panton Sill 323 2130 120 376200 8036650 AMG84 ZN52
PMAG0504 MAGLAG Panton Sill 123 1680 120 377600 8037200 AMG84 ZN52
PMAG0577 MAGLAG Panton Sill 727 2880 160 377200 8037700 AMG84 ZN52
PMAG0676 MAGLAG Panton Sill 1560 2750 140 376200 8037250 AMG84 ZN52
PMAG0597 MAGLAG Panton Sill 544 2340 140 377000 8037550 AMG84 ZN52
PMAG0638 MAGLAG Panton Sill 373 2160 160 376600 8037450 AMG84 ZN52
PMAG0647 MAGLAG Panton Sill 206 1660 120 376600 8037000 AMG84 ZN52
PMAG0626 MAGLAG Panton Sill 139 2180 120 376800 8037550 AMG84 ZN52
PMAG0594 MAGLAG Panton Sill 294 2400 180 377000 8037700 AMG84 ZN52
PMAG0625 MAGLAG Panton Sill 442 1920 140 376800 8037500 AMG84 ZN52
PMAG0705 MAGLAG Panton Sill 401 2170 180 376000 8037050 AMG84 ZN52
PMAG0660 MAGLAG Panton Sill 73 1740 120 376400 8037000 AMG84 ZN52
PMAG0540 MAGLAG Panton Sill 748 3010 120 377400 8037750 AMG84 ZN52
PMAG0702 MAGLAG Panton Sill 410 2280 100 376000 8036900 AMG84 ZN52
PMAG0704 MAGLAG Panton Sill 881 2710 140 376000 8037000 AMG84 ZN52
PMAG0519 MAGLAG Panton Sill 962 3330 140 377600 8037950 AMG84 ZN52
PMAG0624 MAGLAG Panton Sill 881 2980 240 376800 8037450 AMG84 ZN52
PMAG0506 MAGLAG Panton Sill 55 1850 120 377600 8037300 AMG84 ZN52
PMAG0715 MAGLAG Panton Sill 569 2490 220 375800 8036800 AMG84 ZN52
PMAG0628 MAGLAG Panton Sill 730 2820 300 376800 8037650 AMG84 ZN52
PMAG0604 MAGLAG Panton Sill 319 2350 80 377000 8037200 AMG84 ZN52
PMAG0523 MAGLAG Panton Sill 336 2120 120 377600 8038150 AMG84 ZN52
PMAG0548 MAGLAG Panton Sill 522 2520 180 377400 8037300 AMG84 ZN52
PMAG0569 MAGLAG Panton Sill 389 1700 140 377200 8037300 AMG84 ZN52
PMAG0596 MAGLAG Panton Sill 732 1720 180 377000 8037600 AMG84 ZN52
PMAG0505 MAGLAG Panton Sill 130 1560 140 377600 8037250 AMG84 ZN52
PMAG0627 MAGLAG Panton Sill 226 2190 100 376800 8037600 AMG84 ZN52
PMAG0520 MAGLAG Panton Sill 498 2590 160 377600 8038000 AMG84 ZN52
PMAG0496 MAGLAG Panton Sill 381 1740 120 377600 8036800 AMG84 ZN52
PMAG0502 MAGLAG Panton Sill 284 1060 100 377600 8037100 AMG84 ZN52
PMAG0547 MAGLAG Panton Sill 276 654 80 377400 8037400 AMG84 ZN52
Appendix 4 | JORC Code (2012) Edition Table 1
Section 1 Sampling Techniques and Data
Criteria JORC Code explanation Commentary
Sampling techniques § Nature and quality of sampling (eg cut channels, random chips, or specific § PQ3/HQ3/NQ2 diamond core was submitted for analysis. All samples were
specialised industry standard measurement tools appropriate to the minerals half core and cut using a core saw. PQ3 core was cut in half and then one
under investigation, such as down hole gamma sondes, or handheld XRF half cut again to produce ¼ core samples using a core saw. The only
instruments, etc). These examples should not be taken as limiting the broad exception is for regular duplicates downhole that were cut into quarters so
meaning of sampling. that half the core remained in the tray. All sampling was either supervised
by, or undertaken by, qualified geologists.
§ Include reference to measures taken to ensure sample representivity and the
appropriate calibration of any measurement tools or systems used. § Core was cut into two equal halves, approximately 1 cm to left of the
orientation line where possible. The left side was always sent to the
§ Aspects of the determination of mineralisation that are Material to the laboratory to leave the orientation line in the tray.
Public Report. In cases where 'industry standard' work has been done this
would be relatively simple (eg 'reverse circulation drilling was used to § Sample intervals are based on geological observations (Lithological
obtain 1 m samples from which 3 kg was pulverised to produce a 30 g charge for contacts, mineralization, alteration, etc). Minimum core sampled was 0.2m
fire assay'). In other cases more explanation may be required, such as where with one exception for a vein in PS408 and a sample of 0.06m. A total of
there is coarse gold that has inherent sampling problems. Unusual commodities 1968 samples were sent to the laboratory including 61 CRM/Blanks and 28
or mineralisation types (eg submarine nodules) may warrant disclosure of duplicates.
detailed information.
Drilling techniques § Drill type (eg core, reverse circulation, open-hole hammer, rotary air § All drill holes were diamond cored, with either PQ3 or HQ3 collars. Once
blast, auger, Bangka, sonic, etc) and details (eg core diameter, triple or the hole was stable the hole was cased off and drilled with NQ2.
standard tube, depth of diamond tails, face-sampling bit or other type,
whether core is oriented and if so, by what method, etc). § PQ3 core diameter is 83.0mm, HQ3 core diameter is 61.1mm and NQ2 core is
50.6mm.
§ Future Metals NL drill holes HQ3 core is orientated using a BLY TruCore
UPIX Orientation Tool.
§ Future Metal NLs drilling contractor is Terra Drilling. Triple tubes are
utilised in the weathered horizon (less than 10m) and standard tubes for the
remainder of the drill hole.
Drill sample recovery § Method of recording and assessing core and chip sample recoveries and § Each core run is measured and checked against the drillers core blocks. Any
results assessed. core loss is noted. To date core recoveries have been excellent with very
little core loss reported.
§ Measures taken to maximise sample recovery and ensure representative nature
of the samples. § Exploration drilling is planned to be as close to orthogonal to the
mineralisation as practicable to get representative samples of the
§ Whether a relationship exists between sample recovery and grade and whether mineralisation.
sample bias may have occurred due to preferential loss/gain of fine/coarse
material. § No relationship between recovery and grade has been identified.
Logging § Whether core and chip samples have been geologically and geotechnically § All drill holes were logged qualitatively for lithology, alteration,
logged to a level of detail to support appropriate Mineral Resource mineralisation and weathering by a geologist. Data is then captured in a
estimation, mining studies and metallurgical studies. databased appropriate for mineral resource estimation.
§ Whether logging is qualitative or quantitative in nature. Core (or costean, § All drill holes are digitally photographed and logged in full.
channel, etc) photography.
§ The total length and percentage of the relevant intersections logged.
Sub-sampling techniques and sample preparation § If core, whether cut or sawn and whether quarter, half or all core taken. § Diamond drill core was cut in half. Half the core was submitted for
analysis and the remaining half was stored securely for future reference and
§ If non-core, whether riffled, tube sampled, rotary split, etc and whether potential further analysis.
sampled wet or dry.
§ Only diamond core drilling was completed.
§ For all sample types, the nature, quality and appropriateness of the sample
preparation technique. § Sample preparation was completed by Intertek Genalysis in Maddington, WA.
§ Quality control procedures adopted for all sub-sampling stages to maximise § CRM's including blanks were used in each drill hole with CRM's being
representivity of samples. comparable to the material analysed and ore grade CRM inserted in mineralized
intervals.
§ Measures taken to ensure that the sampling is representative of the in-situ
material collected, including for instance results for field § Duplicates were completed every 50 samples to ensure that the sampling is
duplicate/second-half sampling. representative of the material collected.
§ Whether sample sizes are appropriate to the grain size of the material § Samples ranged from a minimum of 0.2m to 1.2m to followed lithological,
being sampled. mineralization and or alteration contacts where possible. The only
exceptions are 7 samples, 1 which was 0.06m and was a vein, the other 6 where
between 1.25-1.6m and were of consistent composition.
Quality of assay data and laboratory tests § The nature, quality and appropriateness of the assaying and laboratory § All samples were sent to Intertek Genalysis in Maddington for multi-element
procedures used and whether the technique is considered partial or total. analysis (4 acid digestion with ICP-MS finish and Au, Pd, and Pt analysis (50g
lead fire assay with ICP-AES finish). This method is appropriate for
§ For geophysical tools, spectrometers, handheld XRF instruments, etc, the lithogeochemistry and determination of mineralization. All samples that
parameters used in determining the analysis including instrument make and exceeded the upper limit of detection were analysed for the appropriate ore
model, reading times, calibrations factors applied and their derivation, etc. grade values.
§ Nature of quality control procedures adopted (eg standards, blanks, § All analytical results listed are from an accredited laboratory.
duplicates, external laboratory checks) and whether acceptable levels of
accuracy (ie lack of bias) and precision have been established. § For all sampling, CRM's were utilized every 20-30 samples with duplicates
collected every 50 samples, approximately. CRM's also included blanks used
every 3(rd) sample. In addition, the QAQC data from the lab will be
collected and stored in the database.
Verification of sampling and assaying § The verification of significant intersections by either independent or § Results were reviewed by the principal geologist with the laboratory
alternative company personnel. repeating selected intervals. Significant results are a mix or combination
of the following: >0.5 g/t 3E (Au+Pt+Pd), 0.25% Ni and 0.1% Cu
§ The use of twinned holes.
§ No twinned holes were completed.
§ Documentation of primary data, data entry procedures, data verification,
data storage (physical and electronic) protocols. § Data was captured into digital spreadsheets. Data was checked and
verified. Digital files are imported into the electronic database. All
§ Discuss any adjustment to assay data. physical sampling sheets are filed on site.
§ No adjustments were made to the assay data but dilution was included up to
2m. The only exception is with the lower grade Ni-Cu-S intersections that
can have up to 3m of dilution.
Location of data points § Accuracy and quality of surveys used to locate drill holes (collar and § All drill holes were located with a handheld GPS which is accurate to
down-hole surveys), trenches, mine workings and other locations used in ±5m. All drill holes will be DGPS later in 2023.
Mineral Resource estimation.
§ Down hole surveys are taken with a north seeking gyroscope at regular
§ Specification of the grid system used. intervals of 30m down hole.
§ Quality and adequacy of topographic control. § Future Metals drilling is located using Map Grid of Australia 1994, Zone
52.
§ The topographic control is considered better than <3m and is considered
adequate.
Data spacing and distribution § Data spacing for reporting of Exploration Results. § Diamond drill holes were drilled to selectively target various exploration
targets including: FLEM anomalies (PS411-412), historic Ni-Cu mineralization
§ Whether the data spacing and distribution is sufficient to establish the (PS407-410) and potential keel position/feeder to the Panton Sill (PS413).
degree of geological and grade continuity appropriate for the Mineral Resource
and Ore Reserve estimation procedure(s) and classifications applied. § The drill spacing of this program was reconnaissance in orientation but
some holes have intersections that will be added in the future to the resource
§ Whether sample compositing has been applied. model (PS407).
§ Sampling compositing has been applied. Results reported are length
weighted averages.
Orientation of data in relation to geological structure § Whether the orientation of sampling achieves unbiased sampling of possible § Exploration and resource drilling is designed to be as close to orthogonal
structures and the extent to which this is known, considering the deposit as practicable to the dip and strike of the mineralized chromitite reefs
type. within the Panton Intrusion.
§ If the relationship between the drilling orientation and the orientation of § The drilling targeting historic intersections was drilled down dip to
key mineralised structures is considered to have introduced a sampling bias, determine orientation which has resulted some holes being drilled parallel to
this should be assessed and reported if material. interpreted structures and others orthogonal to the structure.
§ No sampling bias is present.
Sample security § The measures taken to ensure sample security. § All drill core was logged and sampled on site. It was transported in
secure bulka bags from Halls Creek to Intertek Genalysis in Maddington.
Audits or reviews § The results of any audits or reviews of sampling techniques and data. § No audits are documented to have occurred in relation to sampling
techniques or data.
Section 2 Reporting of Exploration Results
Criteria JORC Code explanation Commentary
Mineral tenement and land tenure status § Type, reference name/number, location and ownership including agreements or § The Panton PGM Project is located on three granted mining licenses M80/103,
material issues with third parties such as joint ventures, partnerships, M80/104 and M80/105 ('MLs'). The MLs are held 100% by Panton Sill Pty Ltd
overriding royalties, native title interests, historical sites, wilderness or which is a 100% owned subsidiary of Future Metals NL.
national park and environmental settings.
§ The MLs were granted on 17 March 1986 and are currently valid until 16
§ The security of the tenure held at the time of reporting along with any March 2028.
known impediments to obtaining a licence to operate in the area.
§ A 0.5% net smelter return royalty is payable to Elemental Royalties
Australia Pty Ltd in respect of any future production of chrome, cobalt,
copper, gold, iridium, palladium, platinum, nickel, rhodium and ruthenium.
§ A 2.0% net smelter return royalty is payable to Maverix Metals (Australia)
Pty Ltd on any PGMs produced from the MLs.
§ There are no impediments to working in the area.
Exploration done by other parties § Acknowledgment and appraisal of exploration by other parties. § The Panton deposit was discovered by the Geological Survey of Western
Australia from surface mapping conducted in the early 1960s.
§ Pickland Mather and Co. drilled the first hole to test the mafic-ultramafic
complex in 1970, followed by Minsaco Resources which drilled 30 diamond holes
between 1976 and 1987. Pickland Mather also completed stream sediment sampling
as part of a regional program.
§ In 1989, Pancontinental Mining Limited and Degrussa Exploration drilled a
further 32 drill holes and defined a non-JORC compliant resource.
§ Platinum Australia Ltd acquired the project in 2000 and conducted the
majority of the drilling, comprising 166 holes for 34,410 metres, leading to
the delineation of a maiden JORC Mineral Resource Estimate. The company also
completed an extensive maglag surface program on a 200m N-S grid with 50m
samples across the entire intrusion.
§ Panoramic Resources Ltd subsequently purchased the Panton PGM Project from
Platinum Australia Ltd in May 2012 and conducted a wide range of metallurgical
test work programs on the Panton ore.
Geology § Deposit type, geological setting and style of mineralisation. § The Panton intrusive is a layered, differentiated mafic to ultramafic body
that has been intruded into the sediments of the Proterozoic Lamboo Complex in
the Kimberley Region of Western Australia. The Panton intrusion has
undergone several folding and faulting events that have resulted in a south
westerly plunging synclinal structure some 10km long and 3km wide.
§ PGM mineralisation is associated with several thin cumulate Chromitite
reefs within the ultramafic sequence. In all there are three chromite
horizons, the Upper group Chromitite (situated within the upper gabbroic
sequence), the Middle group Chromitite (situated in the upper portion of the
ultramafic cumulate sequence) and the Lower group Chromitite (situated toward
the base of the ultramafic cumulate sequence). The top reef mineralised zone
has been mapped over approximately 12km.
§ Exploration drilling described in this release is targeting more conceptual
features, particularly an inferred feeder or conduit system to the layered
intrusion and the lowermost ultramafic stratigraphy proximal to such a
structure. These areas, by analogy to other similar intrusions prospective for
sulphide hosted nickel, copper, cobalt and PGE mineralisation. Such bodies of
mineralisation can be semi massive to massive and hence excellent
electromagnetic targets.
Drill hole Information § A summary of all information material to the understanding of the § Details of all drill holes reported in this announcement are provided in
exploration results including a tabulation of the following information for Appendix One.
all Material drill holes:
§ The stream sediment sampling anomalism shown does not have details on the
o easting and northing of the drill hole collar sampling methods present. The data is used to identify elemental anomalism
and relationships present.
o elevation or RL (Reduced Level - elevation above sea level in metres) of
the drill hole collar § The maglag data was collected using GPS points. The maglag is magnetic
fraction of a soil sample. The analysis completed was ICP-MS for As, Cu, Cr,
o dip and azimuth of the hole Ni, Pb, Zn, Co, Fe, Mn, Mg, S and V. Au-Pt-Pd was completed by FA. The
relationship of Ni-Cu-S relationship is what is shown on the map, not the
o down hole length and interception depth highest grades. This is based on a positive correlation across all 3
elements. Those without the correlation are not included.
o hole length.
§ If the exclusion of this information is justified on the basis that the
information is not Material and this exclusion does not detract from the
understanding of the report, the Competent Person should clearly explain why
this is the case.
Data aggregation methods § In reporting Exploration Results, weighting averaging techniques, maximum § Significant intercepts are reported as down-hole length weighted averages
and/or minimum grade truncations (eg cutting of high grades) and cut-off of grades above 0.50g/t PGM(3E) (Pt/Pd/Au) and/or Ni>0.25% and/or
grades are usually Material and should be stated. Cu>0.1%. No top cuts have been applied to the reporting of the assay
results.
§ Where aggregate intercepts incorporate short lengths of high-grade results
and longer lengths of low-grade results, the procedure used for such § Up to 3 metres of internal dilution is allowed in the reported intervals.
aggregation should be stated and some typical examples of such aggregations
should be shown in detail. § Higher grade intervals are included in the reported grade intervals; and
have also been split out on a case-by-case basis where relevant.
§ The assumptions used for any reporting of metal equivalent values should be
clearly stated.
Relationship between mineralisation widths and intercept lengths § These relationships are particularly important in the reporting of § Usually drilling is designed to be as close to orthogonal as practicable to
Exploration Results. the dip and strike of the mineralized chromitite reefs within the Panton
Intrusion.
§ If the geometry of the mineralisation with respect to the drill hole angle
is known, its nature should be reported. § Refer to the Figures in this announcement showing drill cross sections.
§ If it is not known and only the down hole lengths are reported, there
should be a clear statement to this effect (eg 'down hole length, true width
not known').
Diagrams § Appropriate maps and sections (with scales) and tabulations of intercepts § Appropriate sections included in the body of this announcement.
should be included for any significant discovery being reported These should
include, but not be limited to a plan view of drill hole collar locations and
appropriate sectional views.
Balanced reporting § Where comprehensive reporting of all Exploration Results is not § All results at hand at the time of this announcement have been reported.
practicable, representative reporting of both low and high grades and/or
widths should be practiced to avoid misleading reporting of Exploration
Results.
Other substantive exploration data § Other exploration data, if meaningful and material, should be reported § No other exploration data is relevant.
including (but not limited to): geological observations; geophysical survey
results; geochemical survey results; bulk samples - size and method of
treatment; metallurgical test results; bulk density, groundwater, geotechnical
and rock characteristics; potential deleterious or contaminating substances.
Further work § The nature and scale of planned further work (eg tests for lateral § Refer to main text and figures for exploration potential.
extensions or depth extensions or large-scale step-out drilling).
§ Further assay results for PS414 are pending.
§ Diagrams clearly highlighting the areas of possible extensions, including
the main geological interpretations and future drilling areas, provided this § Further work on the exploration potential for BC1 is ongoing as well as
information is not commercially sensitive. understanding the results and how they related to historic drilling. A
geological model based on geology and pXRF of historic drilling is underway
and will aid in further targeting for Nickel-Copper-Sulphide mineralization.
§ Exploration and resource definition drilling will continue in and around
the current resource area.
§ Mining, environmental and economic studies are underway
1 PGM(3E) = Palladium (Pd) + Platinum (Pt) + Gold (Au)
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