Large Ni-Cu-(PGE) Sulphide Zone Identified

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:

53m @ 0.12 g/t PGE3E1, 0.18% Ni, 158ppm Co, 0.10% Cu from 32m(PS413)

83m @ 0.49 g/t PGE3E1, 0.25% Ni, 136ppm Co, 0.04% Cu from 53m(PS408)

19m @ 0.23 g/t PGE3E1, 0.26% Ni, 158ppm Co, 0.09% Cu from 240m(PS410)

42m @ 1.43 g/t PGE3E1, 0.16% Ni , 125ppm Co, 0.03% Cu (1.71 g/t PdEq2) from 235m(PS407), including:

§ 1.7m @ 8.4 g/t PGE3E1, 0.36% Ni, 85ppm Co, 0.03% Cu (8.3 g/t PdEq2)

§ 1.9m @ 6.5 g/t PGE3E1, 0.16% Ni, 202ppm Co, 0.02% Cu (6.0 g/t PdEq2)

§ 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."

 

 

Diagram Description automatically generated

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:

1m @ 6.80 g/t Au & 0.62% Ni & 2.05% Cu from 242.5m

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 PGE3E1, 0.16% Ni , 125ppm Co, 0.03% Cu (1.71 PdEq2) from 235m(PS407), including:

1.7m @ 8.4 g/t PGE3E1, 0.36% Ni, 85ppm Co, 0.03% Cu (8.3 g/t PdEq2)

1.9m @ 6.5 g/t PGE3E1, 0.16% Ni, 202ppm Co, 0.02% Cu (6.0 g/t PdEq2)

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 PGM3E[1] & 0.49% Ni & 0.28% Cu, 0.022% Co & 1.47% S from 88m including:

3m @ 0.81 g/t PGM3E1 & 1.16% Ni & 0.66% Cu, 0.053% Co & 4.29% S from 88m

1m @ 0.67 g/t PGM3E1 & 0.46% Ni & 1.57% Cu, 0.022% Co & 2.47% S from 95m

2m @ 1.09 g/t PGM3E1 & 1.01% Ni & 0.22% Cu, 0.044% Co &3.19% S 104m

§ 7m @ 0.53 g/t PGM3E1 & 0.33% Ni & 0.14% Cu, 0.015% Co & 0.74% S from 68m including:

2m @ 0.87 g/t PGM3E1 & 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, v alidating 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 PGE3E1, 0.25% Ni, 136ppm Co, 0.04% Cu, 0.24% S from 53m(PS408)

§ 1m @ 0.60 g/t PGE3E1, 0.27% Ni, 0.23% Cu, 141ppm Co, 0.42% S from 84m(PS408)

§ 6m @ 0.07 g/t PGE3E1, 0.21% Ni, 0.12% Cu, 171ppm Co, 0.55% S from 57m(PS409)

§ 10m @ 0.48 g/t PGE3E1, 0.20% Ni, 0.03% Cu, 131ppm Co, 0.62% S from 198m(PS409)

§ 19m @ 0.23 g/t PGE3E1, 0.26% Ni, 158ppm Co, 0.09% Cu, 0.34% S from 240m(PS410)

§ 5m @ 0.15 g/t PGE3E1, 0.21% Ni, 153ppm Co, 0.08% Cu, 0.48% S from 343m(PS410)

§ 11m @ 0.03 g/t PGE3E1, 0.11% Ni, 1149ppm Co, 0.10% Cu, 0.59% S from 146m(PS410)

§ 1m @ 0.97 g/t PGE3E1, 0.25% Ni, 0.30% Cu, 161ppm Co, 0.49% S from 314m(PS410)

§ 53m @ 0.12 g/t PGE3E1, 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.

Diagram Description automatically generated

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

Strand Hanson Limited (Nominated Adviser)

+44 (0) 207 409 3494

James Harris/James Bellman




Panmure Gordon (UK) Limited (UK Broker)

John Prior/Hugh Rich/Soman Thakran

+44 (0)207 886 2500

White Noise Communications (Australian IR/PR)

Fiona Marshall

+61 400 512 109

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 PGM3E1, 0.19% Ni, 0.04% Cu and 154ppm Co (1.66g/t PdEq2) at a cut-off grade of 0.90g/t PdEq2 for contained metal of 5.0Moz PGM3E1, 239kt Ni, 48kt Cu and 20kt Co (6.9Moz PdEq2). The MRE includes a high-grade reef of 25Mt @ 3.57g/t PGM3E1, 0.24% Ni, 0.07% Cu and 192ppm Co (3.86g/t PdEq2) for contained metal of 2.9Moz PGM3E1, 60kt Ni, 18kt Cu and 5kt Co (3.2Moz PdEq2).

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.

 

Diagram Description automatically generated with medium confidence

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
(m)

To
(m)

Interval
(m)

Au
ppb

Co
ppm

Cu
%

Ni
%

Pd
ppb

Pt
ppb

S
%

3E
g/t

PdEq
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 ID

Sample
Type

Location

Cu
ppm

Ni
ppm

S
ppm

Easting
(m)

Northing
(m)

Grid

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 specialised industry standard measurement tools appropriate to the minerals under investigation, such as down hole gamma sondes, or handheld XRF instruments, etc). These examples should not be taken as limiting the broad meaning of sampling.

§ Include reference to measures taken to ensure sample representivity and the appropriate calibration of any measurement tools or systems used.

§ Aspects of the determination of mineralisation that are Material to the Public Report. In cases where 'industry standard' work has been done this would be relatively simple (eg 'reverse circulation drilling was used to obtain 1 m samples from which 3 kg was pulverised to produce a 30 g charge for fire assay'). In other cases more explanation may be required, such as where there is coarse gold that has inherent sampling problems. Unusual commodities or mineralisation types (eg submarine nodules) may warrant disclosure of detailed information.

§ PQ3/HQ3/NQ2 diamond core was submitted for analysis.  All samples were half core and cut using a core saw.  PQ3 core was cut in half and then one half cut again to produce ¼ core samples using a core saw.  The only exception is for regular duplicates downhole that were cut into quarters so that half the core remained in the tray.  All sampling was either supervised by, or undertaken by, qualified geologists.

§ 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 laboratory to leave the orientation line in the tray. 

§ Sample intervals are based on geological observations (Lithological contacts, mineralization, alteration, etc).  Minimum core sampled was 0.2m with one exception for a vein in PS408 and a sample of 0.06m.  A total of 1968 samples were sent to the laboratory including 61 CRM/Blanks and 28 duplicates.

 

Drilling techniques

§ Drill type (eg core, reverse circulation, open-hole hammer, rotary air blast, auger, Bangka, sonic, etc) and details (eg core diameter, triple or standard tube, depth of diamond tails, face-sampling bit or other type, whether core is oriented and if so, by what method, etc).

§ All drill holes were diamond cored, with either PQ3 or HQ3 collars. Once the hole was stable the hole was cased off and drilled with NQ2. 

§ 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 results assessed.

§ Measures taken to maximise sample recovery and ensure representative nature of the samples.

§ Whether a relationship exists between sample recovery and grade and whether sample bias may have occurred due to preferential loss/gain of fine/coarse material.

§ Each core run is measured and checked against the drillers core blocks. Any core loss is noted. To date core recoveries have been excellent with very little core loss reported.

§ Exploration drilling is planned to be as close to orthogonal to the mineralisation as practicable to get representative samples of the mineralisation.

§ No relationship between recovery and grade has been identified.

Logging

§ Whether core and chip samples have been geologically and geotechnically logged to a level of detail to support appropriate Mineral Resource estimation, mining studies and metallurgical studies.

§ Whether logging is qualitative or quantitative in nature. Core (or costean, channel, etc) photography.

§ The total length and percentage of the relevant intersections logged.

§ All drill holes were logged qualitatively for lithology, alteration, mineralisation and weathering by a geologist.  Data is then captured in a databased appropriate for mineral resource estimation.

§ All drill holes are digitally photographed and logged in full.

 

Sub-sampling techniques and sample preparation

§ If core, whether cut or sawn and whether quarter, half or all core taken.

§ If non-core, whether riffled, tube sampled, rotary split, etc and whether sampled wet or dry.

§ For all sample types, the nature, quality and appropriateness of the sample preparation technique.

§ Quality control procedures adopted for all sub-sampling stages to maximise representivity of samples.

§ Measures taken to ensure that the sampling is representative of the in-situ material collected, including for instance results for field duplicate/second-half sampling.

§ Whether sample sizes are appropriate to the grain size of the material being sampled.

§ 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 potential further analysis.

§ Only diamond core drilling was completed.

§ Sample preparation was completed by Intertek Genalysis in Maddington, WA.

§ CRM's including blanks were used in each drill hole with CRM's being comparable to the material analysed and ore grade CRM inserted in mineralized intervals.

§ Duplicates were completed every 50 samples to ensure that the sampling is representative of the material collected.

§ Samples ranged from a minimum of 0.2m to 1.2m to followed lithological, 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 procedures used and whether the technique is considered partial or total.

§ For geophysical tools, spectrometers, handheld XRF instruments, etc, the parameters used in determining the analysis including instrument make and model, reading times, calibrations factors applied and their derivation, etc.

§ Nature of quality control procedures adopted (eg standards, blanks, duplicates, external laboratory checks) and whether acceptable levels of accuracy (ie lack of bias) and precision have been established.

§ All samples were sent to Intertek Genalysis in Maddington for multi-element 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 lithogeochemistry and determination of mineralization.  All samples that exceeded the upper limit of detection were analysed for the appropriate ore grade values.

§ All analytical results listed are from an accredited laboratory.

§ 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 3rd 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 alternative company personnel.

§ The use of twinned holes.

§ Documentation of primary data, data entry procedures, data verification, data storage (physical and electronic) protocols.

§ Discuss any adjustment to assay data.

§ Results were reviewed by the principal geologist with the laboratory 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

§ No twinned holes were completed.

§ Data was captured into digital spreadsheets.  Data was checked and verified.  Digital files are imported into the electronic database.  All 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 down-hole surveys), trenches, mine workings and other locations used in Mineral Resource estimation.

§ Specification of the grid system used.

§ Quality and adequacy of topographic control.

§ All drill holes were located with a handheld GPS which is accurate to ±5m.  All drill holes will be DGPS later in 2023.

§ Down hole surveys are taken with a north seeking gyroscope at regular intervals of 30m down hole.

§ 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.

§ Whether the data spacing and distribution is sufficient to establish the degree of geological and grade continuity appropriate for the Mineral Resource and Ore Reserve estimation procedure(s) and classifications applied.

§ Whether sample compositing has been applied.

§ Diamond drill holes were drilled to selectively target various exploration targets including: FLEM anomalies (PS411-412), historic Ni-Cu mineralization (PS407-410) and potential keel position/feeder to the Panton Sill (PS413).

§ 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 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 structures and the extent to which this is known, considering the deposit type.

§ If the relationship between the drilling orientation and the orientation of key mineralised structures is considered to have introduced a sampling bias, this should be assessed and reported if material.

§ Exploration and resource drilling is designed to be as close to orthogonal as practicable to the dip and strike of the mineralized chromitite reefs within the Panton Intrusion.

§ The drilling targeting historic intersections was drilled down dip to determine orientation which has resulted some holes being drilled parallel to 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 material issues with third parties such as joint ventures, partnerships, overriding royalties, native title interests, historical sites, wilderness or national park and environmental settings.

§ The security of the tenure held at the time of reporting along with any known impediments to obtaining a licence to operate in the area.

§ The Panton PGM Project is located on three granted mining licenses M80/103, M80/104 and M80/105 ('MLs'). The MLs are held 100% by Panton Sill Pty Ltd which is a 100% owned subsidiary of Future Metals NL.

§ The MLs were granted on 17 March 1986 and are currently valid until 16 March 2028.

§ 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 exploration results including a tabulation of the following information for all Material drill holes:

easting and northing of the drill hole collar

elevation or RL (Reduced Level - elevation above sea level in metres) of the drill hole collar

dip and azimuth of the hole

down hole length and interception depth

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.

§ Details of all drill holes reported in this announcement are provided in Appendix One.

§ The stream sediment sampling anomalism shown does not have details on the sampling methods present.  The data is used to identify elemental anomalism and relationships present.

§ 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, 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 highest grades.  This is based on a positive correlation across all 3 elements.  Those without the correlation are not included.

Data aggregation methods

§ In reporting Exploration Results, weighting averaging techniques, maximum and/or minimum grade truncations (eg cutting of high grades) and cut-off grades are usually Material and should be stated.

§ Where aggregate intercepts incorporate short lengths of high-grade results and longer lengths of low-grade results, the procedure used for such aggregation should be stated and some typical examples of such aggregations should be shown in detail.

§ The assumptions used for any reporting of metal equivalent values should be clearly stated.

§ Significant intercepts are reported as down-hole length weighted averages of grades above 0.50g/t PGM 3E (Pt/Pd/Au) and/or Ni>0.25% and/or Cu>0.1%. No top cuts have been applied to the reporting of the assay results.

§ Up to 3 metres of internal dilution is allowed in the reported intervals.

§ Higher grade intervals are included in the reported grade intervals; and have also been split out on a case-by-case basis where relevant.

Relationship between mineralisation widths and intercept lengths

§ These relationships are particularly important in the reporting of Exploration Results.

§ If the geometry of the mineralisation with respect to the drill hole angle is known, its nature should be reported.

§ 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').

§ Usually drilling is designed to be as close to orthogonal as practicable to the dip and strike of the mineralized chromitite reefs within the Panton Intrusion.

§ Refer to the Figures in this announcement showing drill cross sections.

Diagrams

§ Appropriate maps and sections (with scales) and tabulations of intercepts 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.

§ Appropriate sections included in the body of this announcement.

Balanced reporting

§ Where comprehensive reporting of all Exploration Results is not practicable, representative reporting of both low and high grades and/or widths should be practiced to avoid misleading reporting of Exploration Results.

§ All results at hand at the time of this announcement have been reported.

Other substantive exploration data

§ Other exploration data, if meaningful and material, should be reported 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.

 

 

§ No other exploration data is relevant.

Further work

§ The nature and scale of planned further work (eg tests for lateral extensions or depth extensions or large-scale step-out drilling).

§ Diagrams clearly highlighting the areas of possible extensions, including the main geological interpretations and future drilling areas, provided this information is not commercially sensitive.

§ Refer to main text and figures for exploration potential.

§ Further assay results for PS414 are pending.

§ Further work on the exploration potential for BC1 is ongoing as well as 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] PGM3E = Palladium (Pd) + Platinum (Pt) + Gold (Au)

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