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CRITICA LIMITED Capital/Financing Update 2021

Oct 28, 2021

64706_rns_2021-10-28_09f86cc3-13c4-45ea-81a3-14776c8850d3.pdf

Capital/Financing Update

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Friday, 29 October 2021

ASX Announcement

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Downhole EM delineates large conductor under High Grade Zinc-Copper-Gold drill intersections at Golden Grove North

HIGHLIGHTS

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  • Downhole Transient Electromagnetic (DHTEM) survey has delineated a large (500m long x 240m depth extent) conductor under High Grade Zinc-Copper-Gold drill intersections with assays of up to 7.6% Zinc (Zn), 1.3% Copper (Cu), 2.2 g/t Gold (Au) & 22g/t Silver (Ag), at the Orcus prospect within the Golden Grove North Project (Refer to Figures 2 & 3 and to ASX announcement 2 December 2020).

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  • A recently completed ground based Moving Loop Electromagnetic (MLEM) survey has also identified three additional priority conductors within the Neptune Volcanic Massive Sulfide (VMS) Target zone (Refer to Figure 4 and to ASX announcement 28 April 2020).

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  • The additional targets generated by the two EM surveys have highlighted the exploration potential of the 5-kilometre-long VMS Target Zone at Orcus and the Neptune VMS Target Zone, both of which are geologically analogist to the Scuddles-Gossan Hill area within the worldclass Golden Grove Mine, now owned by 29Metals (ASX: 29M) (Refer to Page 2 and Figure 1);

Venture’s Managing Director commented “Further EM work has continued to highlight the exciting exploration potential of Venture’s Golden Grove North project which is well positioned being along strike to 29M’s world class Golden Grove Zinc-Copper-Gold Mine.

A large conductor under High Grade Zinc-Copper-Gold drill intersections at Orcus remains untested and presents an exciting VMS discovery opportunity to be drill tested in the near future. Meanwhile the Neptune VMS Target Zone, though still in the early stages of exploration, is suitably located immediately along strike from the Golden Grove Mine.”

Venture Minerals Limited (ASX: VMS) (“ Venture ” or the “ Company ”) is pleased to announce the results of the recently completed DHTEM survey which has delineated a large (500m long x 240m depth extent) conductor under High Grade Zinc-Copper-Gold drill intersections with assays of up to 7.6% Zn, 1.3% Cu, 2.2 g/t Au & 22g/t Ag, from the Maiden Drilling Program at the Orcus prospect which confirmed a VMS System with all three holes on the first drill line returning strong zones of VMS style mineralisation (see below). The DHTEM survey (on 5 drill holes) was done after the second phase of exploration drilling had been put on hold after 6 diamond core holes were completed earlier this year.

ORRC001 – 5m @ 1.3% Zn, 0.54% Cu, 1.1 g/t Au & 7 g/t Ag from 59m,

incl. 1m @ 6.1% Zn, 1.3% Cu, 0.80 g/t Au & 22 g/t Ag from 59m.

ORRC002 – 2m @ 4.4% Zn, 0.87% Cu, 0.94 g/t Au & 17 g/t Ag from 100m,

incl. 1m @ 7.6% Zn, 1.0% Cu, 0.17 g/t Au & 20 g/t Ag from 101m.

ORRC003 – 2m @ 2.4% Zn, 0.34% Cu, 1.0 g/t Au & 4 g/t Ag from 152m,

incl. 1m @ 4.2% Zn, 0.47% Cu, 1.6 g/t Au & 8 g/t Ag from 152m.

The DHTEM survey of ORRC003, the deepest hole on the first line of reconnaissance style drilling at the Orcus prospect during the Maiden Drilling Program (Refer to Figure 3), has led to a reinterpretation of this section

Venture Minerals Limited | ASX : VMS Level 3, Suite 3, 24 Outram Street, West Perth, Western Australia

ASX : BSX

T: + 61 8 6279 9428 | F: + 61 8 6500 9986 | [email protected] | www.ventureminerals.com.au

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that further defined this distinct untested EM target (500 m long x 240 m depth extent) sitting at depth below ORRC003 and between the two diamond core holes recently drilled at Orcus (ORDD001 & ORDD002) (Refer to Figure 2 and to Tables 1 & 2 for full set of drilling assay results).

Plans going forward for the Company at Golden Grove North include preparing to drill the EM conductor below ORRC003, further surface mapping and sampling along the Neptune VMS Target Zone to delineate drill targets and completion of a new airborne EM survey to west of Orcus to define potential new drill targets.

Highlights at the Golden Grove North Project include:

  • 288 km[2] located less than 10 kilometres from the Golden Grove Mine;

  • 25 strike kilometres of a largely untested , prospective geological sequence for VMS style mineralisation with early exploration success yielding the Vulcan and Neptune VMS targets;

  • EM surveys at Vulcan have discovered four high priority VMS drill targets at and around the CopperGold Prospect along strike to the Golden Grove Zinc-Copper-Gold Mine ( Refer to ASX Announcement 6 August 2020 );

  • Historic shallow gold drill intersections including 10 metres @ 1.4g/t gold from 16m, 8 metres @ 2.1g/t gold from 6m , 6 metres @2.3g/t gold from 6 metres and 3 metres @ 3.6g/t gold from 95 metres ( Refer to ASX Announcement 30 October 2018 );

  • Historic surface rock chip sampling has returned assays including 9.4g/t gold , 7.4g/t gold & 6.6% copper , 6.2g/t gold, 5.7g/t gold, 4.0 g/t gold, 3.8g/t gold & 3.1% lead, 7.6% copper & 0.1% zinc, 8.0% copper , 2.0% copper, 1.8% copper & 3g/t silver ( Refer to ASX Announcement 30 October 2018 ).

Golden Grove Camp (Mine)

The Golden Grove Camp, 370 kilometres north-northeast of Perth, is the prime VMS occurrence in the Archean Yilgarn Craton of Western Australia with over twelve deposits discovered over 13 kilometres of strike. The first significant deposit, Gossan Hill (15.9Mt @ 2.6% Cu, 1.5% Zn, 0.2% Pb, 21 g/t Ag & 0.6 g/t Au[1] ) was discovered in 1971, then in 1979 the second substantial find was identified at Scuddles (10.5Mt @ 1.2% Cu, 11.7% Zn, 0.8% Pb, 89 g/t Ag & 1.1 g/t Au[1] ) ( Refer to Figure 1 ). At the end of 2002, Golden Grove had an endowment (resources and production) of 40.2Mt @ 1.8% Cu, 0.9% Pb, 7.6% Zn, 103 g/t Ag & 0.8 g/t Au[1] .

I n February 2017, EMR Capital purchased Golden Grove for $US210 million , since then EMR has invested more than A$230 million in Golden Grove[2] and in June 2021 EMR included Golden Grove as the flagship asset of the ASX listing for 29 Metals where the Prospectus for the Initial Public Offer was to raise A$528 million which was listed on 2[nd] July 2021. The 29 Metals Prospectus states that after 30 years of continuous production there is over 10 years of mine life in reserves for the 1.8Mt per annum operation[2] .

The Prospectus also stated that Golden Grove has a number of in-mine and near-mine growth opportunities including Cervantes[2] (Mineral Resource: 2.3 Mt @ 1.1% Cu, 6.9% Zn, 0.5g/t Au, 34g/t Ag), Xantho Extended and Europa[2] (Mineral Resource: 9.0 Mt @ 8.1% Zn, 1.9% Cu, 34g/t Ag, 0.9g/t Au), Oizon[2] (Mineral Resource: 3.4 Mt @ 2.3% Cu, 2.1% Zn, 26g/t Ag, 0.5g/t Au; open at depth), Gossan Valley[2] (Mineral Resource: 6.1 Mt @ 0.9% Cu, 6.7% Zn, 0.5g/t Au, 16g/t Ag) and Xantho Extended North[2] (Priority target for exploration at Golden Grove). As of 30 June 2020, the Golden Grove Mineral Resources was 58Mt @ 1.6% Cu, 0.7 g/t Au, 4.5% Zn, 30 g/t Ag & 0.3% Pb.

  1. Department of Mines and Petroleum Report 165, VMS Mineralization in the Yilgarn Craton, Western Australia: A review of known deposits and prospectivity analysis of felsic volcanic rocks by SP Hollis, CJ Yeats, S Wyche, SJ Barnes and TJ Ivanic 2017.

  2. 29 Metals Replacement Prospectus 2[nd] July 2021.

Page 2

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Figure 1 | Golden Grove North Project - Geological setting with historic rock chip surface sample results, Vulcan geochemical copper anomaly, Gossan Hill historic geochemical copper anomaly and Venture’s priority VMS targets

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Page 3

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Figure 2 | Vulcan, Vulcan West, Vulcan North and Orcus priority VMS Drill Targets on a geological interpretation map with MLEM conductor models, maximum zinc in drill holes and copper in soil contours

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Page 4

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Figure 3 | Cross Section through the Orcus Priority VMS drill target with DHTEM conductor models

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Page 5

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Figure 4 | Neptune VMS Target and Priority EM Targets on Interpreted and Surface Geology with Copper RAB Drill intersections and MLEM conductor models.

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----- Start of picture text -----

Priority
EM Targets
Neptune
VMS Target
----- End of picture text -----

Page 6

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Table 1: Bridge Well, Orcus, Vulcan & Vulcan West Drill hole locations.

N.B. Shaded drill holes were previously reported. Refer to ASX Announcement 2 December 2020.

Hole
Number		 Drill Type East (m)
MGA Zone50
GDA94		 North (m)
MGA Zone50
GDA94		 RL AHD
(m)		 Azimuth (°)
MGA Zone50
GDA94		 Dip
(°)		 End of hole
(m)
BWDD001
DC		 482,893 6,866,215 355 90 -50 318.3
ORDD001 DC 481,620 6,868,800 367 90 -60 372.5
ORDD002 DC 481,230 6,868,000 351 90 -70 290.6
ORRC001 RC 481,590 6,868,298 377 90 -60 150
ORRC002 RC 481,546 6,868,306 377 90 -60 200
ORRC003 RC 481,494 6,868,302 375 90 -60 230
ORRC004 RC 481,477 6,868,012 367 90 -60 138
ORRC005 RC 481,399 6,868,003 369 90 -60 186
ORRC006 RC 481,324 6,868,001 352 90 -60 204
VUDD001 DC 481,998 6,865,717 367 115 -50 204.3
VWDD001 DC 481,113 6,866,803 345 90 -60 462.5
VWDD002 DC 481,607 6,867,398 359 90 -50 258.4
VWRC001 RC 481,264 6,866,400 340 90 -60 156
VWRC002 RC 481,161 6,866,401 339 90 -60 253

DC = Diamond Core

RC = Reverse Circulation

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Page 7

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Table 2: BWDD001, ORDD001, ORDD002, ORRC001, ORRC002, ORRC003, ORRC004, ORRC005, ORRC006, VUDD001, VWDD001, VWDD002, VWRC001 & VWRC002 assays. See Appendix One for information on sampling and analytical methods used.

N.B. Shaded intervals were previously reported. Refer to ASX Announcement 2 December 2020. na = not assayed

Hole From m To m Interval m Au g/t Cu ppm Zn ppm Pb ppm Co ppm Sn ppm Sb ppm
BWDD001 68 70 2 <0.005 30 60 <5 35 <5 <5
BWDD001 70 71.6 1.6 <0.005 28 46 <5 19 <5 <5
BWDD001 71.6 73 1.4 <0.005 15 37 <5 10 <5 <5
BWDD001 73 75 2 <0.005 11 41 <5 8 <5 <5
BWDD001 75 77 2 <0.005 17 29 <5 6 <5 <5
BWDD001 77 79 2 <0.005 19 30 <5 8 <5 <5
BWDD001 79 81 2 <0.005 12 36 <5 9 <5 <5
BWDD001 81 83 2 <0.005 123 38 <5 11 <5 <5
BWDD001 83 85 2 <0.005 18 33 <5 8 <5 <5
BWDD001 85 86 1 0.021 17 58 <5 23 <5 <5
BWDD001 86 87 1 <0.005 39 40 <5 10 <5 <5
BWDD001 87 89 2 <0.005 37 41 <5 8 <5 <5
BWDD001 89 91 2 <0.005 44 43 <5 8 <5 <5
BWDD001 91 93 2 <0.005 54 39 <5 8 <5 <5
BWDD001 93 95 2 <0.005 27 48 <5 13 <5 <5
BWDD001 95 97 2 0.006 43 43 <5 9 <5 <5
BWDD001 97 99 2 0.008 10 47 <5 8 <5 <5
BWDD001 99 101 2 <0.005 56 46 <5 10 <5 <5
BWDD001 101 103 2 <0.005 26 46 <5 8 <5 <5
BWDD001 103 105 2 <0.005 30 68 <5 14 <5 <5
BWDD001 105 107 2 <0.005 19 83 <5 14 <5 <5
BWDD001 107 109 2 0.01 20 54 <5 15 <5 <5
BWDD001 109 111 2 0.005 24 37 <5 12 <5 <5
BWDD001 111 113 2 <0.005 85 65 <5 18 <5 <5
BWDD001 113 115 2 <0.005 82 70 <5 18 <5 <5
BWDD001 115 117 2 0.006 97 73 <5 24 <5 <5
BWDD001 117 117.75 0.75 0.005 114 57 <5 13 <5 <5
BWDD001 125.55 127 1.45 0.009 80 78 <5 16 <5 <5
BWDD001 127 129 2 0.007 104 77 6 26 <5 <5
BWDD001 129 131.1 2.1 <0.005 64 71 6 20 <5 <5
BWDD001 137 139 2 0.005 102 79 13 28 <5 <5
BWDD001 139 141 2 0.005 63 49 8 17 <5 <5
BWDD001 141 143 2 0.008 109 90 7 28 <5 <5
BWDD001 143 145 2 0.009 71 79 <5 32 <5 <5
BWDD001 145 147 2 0.014 264 84 15 36 <5 <5
BWDD001 147 149 2 0.001 14 48 15 12 <5 <5
BWDD001 149 151 2 0.005 77 77 18 20 <5 <5
BWDD001 151 153 2 0.009 110 74 20 21 <5 <5

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Hole From m To m Interval m Au g/t Cu ppm Zn ppm Pb ppm Co ppm Sn ppm Sb ppm
BWDD001 153 155 2 0.009 70 69 18 20 <5 <5
BWDD001 155 157 2 0.002 81 68 16 22 <5 <5
BWDD001 157 160 3 0.001 89 67 15 19 <5 <5
BWDD001 160 162 2 0.005 85 67 7 20 <5 <5
BWDD001 162 164 2 0.001 9 49 18 8 <5 <5
BWDD001 164 165 1 0.003 19 56 16 7 <5 <5
BWDD001 165 166 1 0.009 39 48 9 8 <5 <5
BWDD001 166 167 1 0.023 41 40 14 7 <5 <5
BWDD001 167 168 1 0.003 18 50 12 12 <5 <5
BWDD001 168 169 1 0.054 90 49 11 10 <5 <5
BWDD001 169 170 1 0.071 30 50 <5 7 <5 <5
BWDD001 170 172 2 0.025 10 37 <5 8 <5 <5
BWDD001 172 174 2 0.011 15 45 <5 7 <5 <5
BWDD001 174 176 2 0.015 24 42 <5 8 <5 <5
BWDD001 176 178 2 0.018 12 37 <5 8 <5 <5
BWDD001 178 180 2 0.007 4 32 <5 7 <5 <5
BWDD001 180 182 2 0.017 11 42 <5 14 <5 <5
BWDD001 182 184 2 0.087 10 33 <5 9 <5 <5
BWDD001 184 186 2 0.012 15 33 <5 7 <5 <5
BWDD001 186 188 2 0.071 14 33 <5 7 <5 <5
BWDD001 188 189 1 0.081 14 51 <5 9 <5 <5
BWDD001 189 190 1 0.121 41 41 <5 9 <5 <5
BWDD001 190 192 2 0.021 30 66 8 11 <5 <5
BWDD001 196 199 3 0.009 19 45 10 9 <5 <5
BWDD001 199 202 3 0.004 23 40 10 9 <5 <5
BWDD001 202 204.4 2.4 0.003 24 39 7 10 <5 <5
BWDD001 204.4 206 1.6 0.178 118 44 7 11 <5 <5
BWDD001 206 208 2 0.018 61 69 11 15 <5 <5
BWDD001 208 211 3 0.004 26 47 9 10 <5 <5
BWDD001 211 214 3 0.001 25 48 12 9 <5 <5
BWDD001 214 217 3 0.003 31 49 18 10 <5 <5
BWDD001 217 220 3 <0.001 19 56 16 11 <5 <5
BWDD001 220 223 3 <0.001 24 51 9 10 <5 <5
BWDD001 223 226 3 <0.001 24 54 9 10 <5 <5
BWDD001 226 229 3 <0.001 23 52 9 10 <5 <5
BWDD001 229 232 3 <0.001 23 43 9 10 <5 <5
BWDD001 232 235 3 <0.001 22 46 12 10 <5 <5
BWDD001 235 238 3 0.007 20 41 11 10 <5 <5
BWDD001 238 241 3 0.004 25 45 17 10 <5 <5
BWDD001 241 244 3 0.002 16 37 11 8 <5 <5
BWDD001 244 247 3 0.002 18 38 11 9 <5 <5
BWDD001 247 249.55 2.55 0.001 31 43 10 9 <5 <5
BWDD001 249.55 252 2.45 0.039 71 79 17 11 <5 <5

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Hole From m To m Interval m Au g/t Cu ppm Zn ppm Pb ppm Co ppm Sn ppm Sb ppm
BWDD001 252 254 2 0.039 31 65 9 15 <5 <5
BWDD001 254 256 2 0.02 30 65 10 12 <5 <5
BWDD001 256 258 2 0.01 30 67 10 12 <5 <5
BWDD001 258 260 2 0.012 24 67 11 12 <5 <5
BWDD001 260 262 2 0.019 12 71 10 10 <5 <5
BWDD001 262 264 2 0.011 19 64 6 15 <5 <5
BWDD001 264 266 2 0.032 72 80 <5 15 <5 <5
BWDD001 266 268 2 0.012 22 63 <5 13 <5 <5
BWDD001 268 270 2 0.006 15 64 7 13 <5 <5
BWDD001 270 272 2 0.011 17 46 <5 10 <5 <5
BWDD001 272 274 2 0.005 52 66 6 15 <5 <5
BWDD001 274 276 2 0.003 41 70 8 19 <5 <5
BWDD001 276 278 2 0.002 43 75 8 19 <5 <5
BWDD001 278 280 2 0.006 35 66 6 16 <5 <5
BWDD001 280 282 2 0.004 34 69 7 16 <5 <5
BWDD001 282 284 2 0.004 33 68 6 17 <5 <5
BWDD001 284 286 2 0.005 28 70 6 13 <5 <5
BWDD001 286 288 2 0.004 36 78 6 16 <5 <5
BWDD001 288 290 2 0.008 29 70 6 16 <5 <5
BWDD001 290 292 2 0.007 47 89 6 15 <5 <5
BWDD001 290.95 291.1 0.15 0.007 18 84 10 14 <5 <5
BWDD001 292 294 2 0.004 36 69 6 14 <5 <5
BWDD001 294 296 2 0.003 22 82 6 16 8 <5
BWDD001 296 298 2 0.004 20 63 7 16 <5 <5
BWDD001 298 300 2 0.002 27 66 6 16 <5 <5
BWDD001 300 300.5 0.5 0.005 14 62 <5 18 <5 <5
BWDD001 300.5 301 0.5 0.222 202 58 <5 20 <5 <5
BWDD001 301 303 2 0.115 46 66 <5 22 <5 <5
BWDD001 303 305 2 0.006 59 70 <5 22 <5 <5
BWDD001 305 307 2 0.005 43 72 5 22 <5 <5
BWDD001 307 309 2 0.012 47 77 5 21 <5 <5
BWDD001 309 311 2 0.002 46 67 5 22 <5 <5
BWDD001 311 313 2 0.006 52 63 <5 27 <5 <5
BWDD001 313 315 2 0.005 63 63 <5 25 <5 <5
BWDD001 315 317 2 0.009 48 63 <5 27 <5 <5
BWDD001 317 318.3 1.3 0.009 88 67 <5 25 <5 <5
ORDD001 27.74 27.94 0.2 na <1 18 <5 80 <5 <5
ORDD001 76 77 1 <0.001 <1 98 <5 130 <5 <5
ORDD001 77 78 1 0.001 <1 84 <5 129 <5 <5
ORDD001 78 79 1 <0.001 <1 73 <5 127 <5 <5
ORDD001 79 80 1 0.001 <1 63 <5 132 <5 <5
ORDD001 80 81 1 <0.001 <1 53 <5 120 <5 <5
ORDD001 81 82 1 0.001 <1 39 <5 125 <5 <5

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Hole From m To m Interval m Au g/t Cu ppm Zn ppm Pb ppm Co ppm Sn ppm Sb ppm
ORDD001 82 83 1 0.001 11 28 <5 205 <5 <5
ORDD001 109.72 111.82 2.1 <0.001 17 46 <5 68 <5 <5
ORDD001 139.8 140.3 0.5 0.002 236 79 <5 82 <5 <5
ORDD001 140.3 142 1.7 0.003 27 88 <5 77 <5 <5
ORDD001 142 144 2 0.001 3 80 <5 73 <5 <5
ORDD001 144 146 2 <0.001 12 68 <5 79 <5 <5
ORDD001 146 148 2 <0.001 11 74 <5 77 <5 <5
ORDD001 148 149 1 0.001 2 64 <5 105 <5 <5
ORDD001 149 151 2 <0.001 <1 67 <5 110 <5 <5
ORDD001 151 153 2 <0.001 <1 60 <5 110 <5 <5
ORDD001 153 155 2 0.003 2 59 <5 114 <5 <5
ORDD001 155 157 2 <0.001 4 70 <5 107 <5 <5
ORDD001 157 158.2 1.2 <0.001 5 69 <5 110 <5 <5
ORDD001 158.2 159 0.8 0.003 258 132 <5 67 <5 <5
ORDD001 159 160 1 0.013 242 123 <5 32 <5 <5
ORDD001 160 161 1 0.026 355 428 14 52 6 <5
ORDD001 161 162 1 0.001 60 195 <5 41 <5 5
ORDD001 162 163 1 0.001 7 126 <5 53 <5 <5
ORDD001 163 164 1 0.006 27 194 <5 13 <5 <5
ORDD001 164 165 1 0.01 106 374 5 43 <5 <5
ORDD001 165 166 1 0.012 101 448 <5 35 <5 <5
ORDD001 166 167 1 0.001 68 149 <5 38 <5 <5
ORDD001 167 168 1 0.001 21 93 <5 43 <5 <5
ORDD001 168 170 2 <0.001 2 88 <5 41 <5 <5
ORDD001 170 172 2 <0.001 3 82 <5 41 <5 <5
ORDD001 172 174 2 <0.001 <1 77 <5 36 <5 <5
ORDD001 174 176.4 2.4 <0.001 18 75 <5 39 <5 <5
ORDD001 176.4 177.5 1.1 0.004 107 68 <5 41 <5 <5
ORDD001 177.5 180 2.5 0.002 37 79 <5 41 <5 <5
ORDD001 204 205 1 <0.001 <1 55 <5 77 <5 <5
ORDD001 228 229 1 <0.001 13 51 <5 79 <5 <5
ORDD001 233 233.85 0.85 <0.001 3 52 <5 81 <5 <5
ORDD001 238 239 1 0.007 53 47 <5 19 <5 <5
ORDD001 239 240 1 0.008 63 49 5 12 <5 <5
ORDD001 240 241 1 0.006 149 39 <5 15 <5 <5
ORDD001 241 242 1 0.019 272 38 <5 34 <5 <5
ORDD001 242 243 1 0.036 214 84 <5 51 <5 <5
ORDD001 243 244 1 0.039 884 163 <5 79 <5 <5
ORDD001 244 245 1 0.017 207 166 <5 39 6 <5
ORDD001 245 246 1 0.064 111 99 <5 50 11 <5
ORDD001 246 247 1 0.033 19 91 <5 26 11 <5
ORDD001 247 249 2 0.005 6 147 <5 34 <5 <5
ORDD001 289 290 1 0.003 146 86 <5 43 <5 <5

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Hole From m To m Interval m Au g/t Cu ppm Zn ppm Pb ppm Co ppm Sn ppm Sb ppm
ORDD001 294 295 1 0.007 381 78 <5 40 <5 <5
ORDD001 309.25 310.25 1 0.002 116 76 <5 39 <5 <5
ORDD001 313 314 1 <0.001 117 60 <5 37 <5 <5
ORDD001 314 315 1 <0.001 161 77 <5 45 <5 <5
ORDD001 315 316 1 <0.001 47 84 <5 41 <5 <5
ORDD002 57.38 58.87 1.49 0.003 <1 69 <5 107 <5 <5
ORDD002 84.95 85.45 0.5 <0.001 <1 89 <5 55 <5 <5
ORDD002 100.53 101.3 0.77 0.003 <1 38 <5 87 <5 <5
ORDD002 101.3 101.64 0.34 0.02 1148 65 <5 189 <5 <5
ORDD002 118 119 1 0.001 4 66 <5 103 <5 <5
ORDD002 132 133 1 0.002 19 113 5 118 <5 <5
ORDD002 165 166 1 0.007 120 96 8 146 <5 <5
ORDD002 166 167 1 <0.001 <1 88 6 100 <5 <5
ORDD002 177 178 1 0.005 96 96 6 170 <5 <5
ORDD002 199 200 1 0.006 14 142 6 62 <5 <5
ORDD002 200 200.95 0.95 <0.001 9 135 <5 55 <5 <5
ORDD002 202 203 1 0.047 264 649 11 67 <5 <5
ORDD002 203 204 1 0.008 1144 4076 13 128 <5 <5
ORDD002 204 207 3 0.017 194 198 10 44 <5 <5
ORDD002 207 210 3 0.018 227 321 8 43 <5 <5
ORDD002 210 212 2 0.018 179 349 8 38 <5 <5
ORDD002 212 213 1 0.037 390 290 9 46 <5 <5
ORDD002 213 214 1 0.023 430 91 14 36 <5 <5
ORDD002 214 215 1 0.037 421 141 14 33 <5 <5
ORDD002 215 218 3 0.018 492 202 15 36 <5 <5
ORDD002 218 221.63 3.63 0.06 497 119 11 57 <5 <5
ORDD002 221.63 222.13 0.5 0.011 1202 167 <5 148 7 <5
ORDD002 222.13 225 2.87 0.021 430 280 7 47 <5 <5
ORDD002 225 228 3 0.003 205 42 9 19 <5 <5
ORDD002 228 230 2 <0.001 19 9 7 13 <5 <5
ORDD002 230 231 1 0.003 398 51 7 58 <5 <5
ORDD002 231 232 1 0.003 590 90 8 38 <5 <5
ORDD002 232 233 1 0.006 276 108 7 34 <5 <5
ORDD002 240 241 1 0.027 376 1521 33 58 9 <5
ORDD002 241 242 1 0.063 657 1648 61 52 9 <5
ORDD002 242 243 1 0.025 481 997 73 43 10 <5
ORDD002 243 246 3 0.013 233 519 15 42 <5 <5
ORDD002 246 249 3 0.012 351 555 15 43 6 <5
ORDD002 249 252 3 0.006 200 379 19 29 6 <5
ORDD002 252 253 1 0.005 281 239 8 55 <5 <5
ORRC001 0 4 4 <0.005 92 82 25 24 <5 <5
ORRC001 4 8 4 0.007 70 210 9 19 <5 <5
ORRC001 8 12 4 <0.005 408 525 21 37 <5 <5

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Hole From m To m Interval m Au g/t Cu ppm Zn ppm Pb ppm Co ppm Sn ppm Sb ppm
ORRC001 12 16 4 <0.005 146 430 9 127 <5 <5
ORRC001 16 20 4 0.011 37 391 <5 271 <5 <5
ORRC001 20 24 4 <0.005 9 364 <5 204 <5 <5
ORRC001 24 28 4 <0.005 10 263 14 163 <5 <5
ORRC001 28 32 4 <0.005 11 152 6 151 <5 <5
ORRC001 32 36 4 <0.005 18 135 <5 147 <5 <5
ORRC001 36 40 4 <0.005 30 108 <5 114 <5 <5
ORRC001 40 44 4 <0.005 16 92 <5 107 <5 <5
ORRC001 44 48 4 <0.005 15 80 <5 99 <5 <5
ORRC001 48 52 4 <0.005 14 466 <5 107 <5 <5
ORRC001 52 56 4 <0.005 53 423 <5 101 <5 6
ORRC001 56 57 1 0.031 <1 2449 6 83 <5 12
ORRC001 57 58 1 0.029 976 5101 48 50 11 9
ORRC001 58 59 1 0.082 2780 1812 83 70 11 7
ORRC001 59 60 1 0.801 13371 60625 2556 364 53 12
ORRC001 60 61 1 0.694 3251 3477 86 39 14 9
ORRC001 61 62 1 0.601 2649 1337 53 40 16 6
ORRC001 62 63 1 2.189 4063 698 21 104 21 7
ORRC001 63 64 1 1.231 3606 876 27 65 17 8
ORRC001 64 65 1 0.748 1256 721 24 36 13 8
ORRC001 65 66 1 0.101 955 547 60 31 8 10
ORRC001 66 67 1 0.146 418 577 73 54 6 7
ORRC001 67 68 1 0.007 205 1138 39 53 <5 5
ORRC001 68 69 1 0.026 206 431 29 50 <5 6
ORRC001 69 70 1 0.017 140 649 28 40 <5 <5
ORRC001 70 71 1 0.009 199 946 27 53 <5 6
ORRC001 71 72 1 0.013 174 406 26 50 <5 6
ORRC001 72 73 1 0.005 156 528 33 53 <5 6
ORRC001 73 74 1 0.006 159 473 68 46 <5 <5
ORRC001 74 75 1 0.036 164 328 27 38 <5 7
ORRC001 75 76 1 0.006 196 674 53 54 <5 <5
ORRC001 76 77 1 0.011 370 2089 40 66 7 <5
ORRC001 77 78 1 0.016 433 1611 39 56 7 5
ORRC001 78 79 1 0.023 415 895 26 48 9 6
ORRC001 79 80 1 0.03 597 1138 27 78 11 <5
ORRC001 80 81 1 0.03 500 837 25 52 6 <5
ORRC001 81 82 1 0.018 364 946 42 42 6 6
ORRC001 82 83 1 0.039 155 259 11 45 <5 7
ORRC001 83 84 1 0.024 43 281 8 34 <5 7
ORRC001 84 85 1 0.011 84 348 8 51 <5 <5
ORRC001 85 86 1 <0.005 47 200 14 48 <5 <5
ORRC001 86 87 1 <0.005 33 235 7 47 <5 6
ORRC001 87 88 1 0.005 138 307 7 45 <5 6

==> picture [208 x 48] intentionally omitted <==

Hole From m To m Interval m Au g/t Cu ppm Zn ppm Pb ppm Co ppm Sn ppm Sb ppm
ORRC001 88 89 1 <0.005 111 191 7 17 <5 8
ORRC001 89 90 1 <0.005 268 196 6 34 <5 7
ORRC001 90 91 1 0.013 102 227 5 54 <5 <5
ORRC001 91 92 1 <0.005 4 147 <5 58 <5 <5
ORRC001 92 96 4 <0.005 9 76 <5 39 <5 <5
ORRC001 96 100 4 <0.005 41 91 <5 41 <5 <5
ORRC001 100 104 4 <0.005 7 73 <5 38 <5 <5
ORRC001 104 108 4 <0.005 15 84 <5 39 <5 <5
ORRC001 108 112 4 <0.005 10 79 <5 38 <5 <5
ORRC001 112 116 4 <0.005 8 73 <5 35 <5 <5
ORRC001 116 120 4 0.008 11 85 <5 36 <5 <5
ORRC001 120 124 4 <0.005 22 95 <5 39 <5 <5
ORRC001 124 128 4 <0.005 10 76 <5 38 <5 <5
ORRC001 128 132 4 <0.005 16 75 <5 39 <5 <5
ORRC001 132 136 4 0.005 43 75 <5 39 <5 <5
ORRC001 136 140 4 <0.005 20 83 <5 38 <5 <5
ORRC001 140 144 4 <0.005 18 71 <5 39 <5 <5
ORRC001 144 148 4 <0.005 24 56 <5 36 <5 <5
ORRC001 148 150 4 <0.005 37 53 <5 36 <5 <5
ORRC002 0 4 4 <0.005 41 212 6 144 <5 <5
ORRC002 4 8 4 <0.005 18 445 7 212 <5 <5
ORRC002 8 12 4 <0.005 9 335 5 205 <5 <5
ORRC002 12 16 4 <0.005 40 417 6 355 <5 <5
ORRC002 16 20 4 0.006 10 313 <5 199 <5 <5
ORRC002 20 24 4 <0.005 6 284 5 261 <5 <5
ORRC002 24 28 4 <0.005 36 205 <5 237 <5 <5
ORRC002 28 32 4 <0.005 8 177 <5 233 <5 <5
ORRC002 32 36 4 <0.005 4 125 <5 134 <5 <5
ORRC002 36 40 4 <0.005 <1 122 <5 128 <5 <5
ORRC002 40 44 4 <0.005 <1 130 <5 123 <5 <5
ORRC002 44 48 4 <0.005 5 143 <5 135 <5 <5
ORRC002 48 52 4 <0.005 3 112 <5 121 <5 <5
ORRC002 52 56 4 <0.005 1 112 <5 123 <5 <5
ORRC002 56 60 4 <0.005 3 150 <5 144 <5 <5
ORRC002 60 64 4 <0.005 3 97 <5 114 <5 <5
ORRC002 64 68 4 <0.005 3 113 <5 133 <5 <5
ORRC002 68 72 4 <0.005 <1 90 <5 121 <5 <5
ORRC002 72 76 4 <0.005 2 83 <5 111 <5 <5
ORRC002 76 80 4 <0.005 4 76 <5 109 <5 <5
ORRC002 80 84 4 <0.005 2 69 <5 111 <5 <5
ORRC002 84 88 4 <0.005 4 87 <5 111 <5 <5
ORRC002 88 92 4 <0.005 19 77 <5 98 <5 <5
ORRC002 92 93 1 <0.005 103 77 <5 89 <5 <5

==> picture [208 x 48] intentionally omitted <==

Hole From m To m Interval m Au g/t Cu ppm Zn ppm Pb ppm Co ppm Sn ppm Sb ppm
ORRC002 93 94 1 <0.005 362 77 <5 90 <5 5
ORRC002 94 95 1 <0.005 356 79 <5 90 <5 6
ORRC002 95 96 1 0.006 614 88 <5 83 <5 6
ORRC002 96 97 1 <0.005 142 102 <5 93 <5 7
ORRC002 97 98 1 <0.005 129 116 10 79 <5 6
ORRC002 98 99 1 0.005 37 155 <5 73 6 10
ORRC002 99 100 1 0.053 6 287 <5 66 16 19
ORRC002 100 101 1 1.704 7261 12469 773 110 41 16
ORRC002 101 102 1 0.17 10219 76148 5016 393 53 21
ORRC002 102 103 1 0.027 926 2882 277 49 18 10
ORRC002 103 104 1 <0.005 301 1276 184 34 9 6
ORRC002 104 105 1 <0.005 272 800 138 45 8 7
ORRC002 105 106 1 0.005 520 1957 257 53 6 8
ORRC002 106 107 1 <0.005 136 1086 168 35 5 8
ORRC002 107 108 1 <0.005 140 778 492 44 5 6
ORRC002 108 109 1 0.011 480 1443 140 45 8 7
ORRC002 109 110 1 0.006 170 748 52 51 <5 6
ORRC002 110 111 1 <0.005 265 534 115 68 <5 5
ORRC002 111 112 1 <0.005 316 810 71 52 7 <5
ORRC002 112 113 1 0.048 454 756 61 64 8 5
ORRC002 113 114 1 0.028 582 1617 67 59 9 5
ORRC002 114 115 1 0.007 260 715 51 43 <5 <5
ORRC002 115 116 1 <0.005 122 418 25 44 <5 <5
ORRC002 116 117 1 <0.005 80 325 21 35 <5 5
ORRC002 117 118 1 <0.005 69 185 18 43 <5 <5
ORRC002 118 119 1 0.006 125 380 25 45 <5 <5
ORRC002 119 120 1 0.008 136 367 32 44 <5 <5
ORRC002 120 121 1 0.008 157 518 44 47 <5 <5
ORRC002 121 122 1 0.006 119 248 17 43 <5 5
ORRC002 122 123 1 0.01 124 190 18 34 <5 6
ORRC002 123 124 1 0.009 107 131 10 22 <5 8
ORRC002 124 125 1 0.009 97 173 14 24 <5 8
ORRC002 125 126 1 <0.005 78 212 24 35 <5 6
ORRC002 126 127 1 <0.005 68 254 8 34 <5 6
ORRC002 127 128 1 <0.005 39 218 6 39 <5 5
ORRC002 128 129 1 <0.005 35 226 8 40 <5 <5
ORRC002 129 130 1 <0.005 236 1802 23 45 <5 5
ORRC002 130 131 1 <0.005 248 1462 27 48 <5 6
ORRC002 131 132 1 <0.005 153 725 22 45 <5 <5
ORRC002 132 136 4 <0.005 9 130 5 104 <5 <5
ORRC002 136 140 4 <0.005 22 158 7 38 <5 <5
ORRC002 140 144 4 <0.005 7 142 10 39 <5 <5
ORRC002 144 148 4 <0.005 1 114 6 37 <5 <5

==> picture [208 x 48] intentionally omitted <==

Hole From m To m Interval m Au g/t Cu ppm Zn ppm Pb ppm Co ppm Sn ppm Sb ppm
ORRC002 148 152 4 <0.005 2 104 5 36 <5 <5
ORRC002 152 156 4 <0.005 1 114 8 37 <5 <5
ORRC002 156 160 4 <0.005 3 128 5 34 <5 <5
ORRC002 160 164 4 <0.005 31 113 <5 40 <5 <5
ORRC002 164 168 4 <0.005 38 72 <5 38 <5 <5
ORRC002 168 172 4 <0.005 34 74 <5 51 <5 <5
ORRC002 172 176 4 <0.005 15 66 <5 36 <5 <5
ORRC002 176 180 4 <0.005 34 65 <5 37 <5 <5
ORRC002 180 184 4 <0.005 43 64 <5 36 <5 <5
ORRC002 184 188 4 <0.005 37 73 <5 36 <5 <5
ORRC002 188 192 4 <0.005 26 71 <5 37 <5 <5
ORRC002 192 196 4 <0.005 21 56 <5 40 <5 <5
ORRC002 196 200 4 <0.005 7 53 <5 56 <5 <5
ORRC003 0 4 4 <0.005 47 103 <5 133 <5 <5
ORRC003 4 8 4 <0.005 62 126 <5 217 <5 <5
ORRC003 8 12 4 <0.005 42 112 <5 126 <5 <5
ORRC003 12 16 4 <0.005 43 94 <5 125 <5 <5
ORRC003 16 20 4 <0.005 28 131 <5 157 <5 <5
ORRC003 20 24 4 <0.005 18 105 <5 140 <5 <5
ORRC003 24 28 4 <0.005 9 89 <5 129 <5 <5
ORRC003 28 32 4 <0.005 8 116 <5 130 <5 <5
ORRC003 32 36 4 <0.005 6 82 <5 116 <5 <5
ORRC003 36 40 4 <0.005 <1 83 <5 131 <5 <5
ORRC003 40 44 4 <0.005 11 95 <5 121 <5 <5
ORRC003 44 48 4 <0.005 4 97 <5 126 <5 <5
ORRC003 48 52 4 <0.005 1 80 <5 126 <5 <5
ORRC003 52 56 4 <0.005 <1 82 <5 126 <5 <5
ORRC003 56 60 4 <0.005 13 78 <5 124 <5 <5
ORRC003 60 64 4 <0.005 11 93 <5 115 <5 <5
ORRC003 64 68 4 <0.005 2 91 <5 126 <5 <5
ORRC003 68 72 4 <0.005 <1 86 <5 121 <5 <5
ORRC003 72 76 4 <0.005 <1 86 <5 121 <5 <5
ORRC003 76 80 4 <0.005 6 94 <5 122 <5 <5
ORRC003 80 84 4 <0.005 5 114 <5 131 <5 <5
ORRC003 84 88 4 <0.005 9 112 <5 133 <5 <5
ORRC003 88 92 4 <0.005 6 113 <5 131 <5 <5
ORRC003 92 96 4 <0.005 22 106 <5 122 <5 <5
ORRC003 96 100 4 <0.005 3 111 <5 131 <5 <5
ORRC003 100 104 4 <0.005 9 108 <5 127 <5 <5
ORRC003 104 108 4 <0.005 12 112 <5 127 <5 <5
ORRC003 108 112 4 <0.005 11 111 <5 123 <5 <5
ORRC003 112 116 4 <0.005 13 113 <5 125 <5 <5
ORRC003 116 120 4 <0.005 23 155 <5 125 <5 <5

==> picture [208 x 48] intentionally omitted <==

Hole From m To m Interval m Au g/t Cu ppm Zn ppm Pb ppm Co ppm Sn ppm Sb ppm
ORRC003 120 124 4 0.007 4 122 <5 119 <5 <5
ORRC003 124 128 4 <0.005 4 110 <5 119 <5 <5
ORRC003 128 132 4 <0.005 4 88 <5 114 <5 <5
ORRC003 132 136 4 <0.005 6 84 <5 117 <5 <5
ORRC003 136 140 4 <0.005 3 73 <5 105 <5 <5
ORRC003 140 144 4 <0.005 11 71 <5 102 <5 <5
ORRC003 144 148 4 <0.005 60 80 <5 93 <5 <5
ORRC003 148 149 1 <0.005 184 132 <5 96 <5 <5
ORRC003 149 150 1 <0.005 199 153 <5 85 <5 <5
ORRC003 150 151 1 <0.005 11 176 19 72 <5 <5
ORRC003 151 152 1 <0.005 8 222 8 55 18 <5
ORRC003 152 153 1 1.594 4678 42493 894 165 39 <5
ORRC003 153 154 1 0.434 2034 6135 238 66 19 <5
ORRC003 154 155 1 0.092 1083 1081 39 44 6 <5
ORRC003 155 156 1 0.145 696 582 38 38 5 <5
ORRC003 156 157 1 0.007 380 410 49 34 <5 <5
ORRC003 157 158 1 <0.005 125 692 55 38 <5 <5
ORRC003 158 159 1 <0.005 158 289 70 49 <5 <5
ORRC003 159 160 1 0.006 148 491 58 49 <5 <5
ORRC003 160 161 1 <0.005 151 330 74 48 <5 <5
ORRC003 161 162 1 0.104 260 535 52 35 <5 <5
ORRC003 162 163 1 0.036 747 329 23 51 7 <5
ORRC003 163 164 1 3.153 745 406 22 49 <5 <5
ORRC003 164 165 1 0.101 295 394 34 41 <5 <5
ORRC003 165 166 1 0.028 114 486 43 45 <5 <5
ORRC003 166 167 1 0.016 166 505 48 56 <5 <5
ORRC003 167 168 1 0.008 178 886 66 51 <5 <5
ORRC003 168 169 1 <0.005 198 535 43 53 <5 <5
ORRC003 169 170 1 <0.005 160 717 31 46 <5 <5
ORRC003 170 171 1 <0.005 253 841 32 57 <5 <5
ORRC003 171 172 1 0.029 422 212 38 53 <5 <5
ORRC003 172 173 1 <0.005 124 246 36 19 <5 <5
ORRC003 173 174 1 0.025 449 1196 69 59 5 <5
ORRC003 174 175 1 0.057 883 2486 84 71 12 <5
ORRC003 175 176 1 0.07 732 1699 96 59 12 <5
ORRC003 176 177 1 0.064 570 1361 82 56 11 <5
ORRC003 177 178 1 <0.005 128 255 52 25 <5 <5
ORRC003 178 179 1 <0.005 127 202 34 32 <5 <5
ORRC003 179 180 1 0.025 287 575 54 45 <5 <5
ORRC003 180 181 1 <0.005 204 579 46 25 <5 <5
ORRC003 181 182 1 0.02 344 775 38 51 <5 <5
ORRC003 182 183 1 <0.005 215 968 25 49 <5 <5
ORRC003 183 184 1 <0.005 79 359 57 14 <5 <5

==> picture [208 x 48] intentionally omitted <==

Hole From m To m Interval m Au g/t Cu ppm Zn ppm Pb ppm Co ppm Sn ppm Sb ppm
ORRC003 184 185 1 <0.005 34 82 15 11 <5 <5
ORRC003 185 186 1 0.019 105 202 31 33 <5 <5
ORRC003 186 187 1 0.016 323 1007 28 53 8 <5
ORRC003 187 188 1 0.011 209 550 22 40 <5 <5
ORRC003 188 189 1 <0.005 17 119 14 33 <5 <5
ORRC003 189 190 1 <0.005 31 84 13 28 <5 <5
ORRC003 190 191 1 <0.005 94 107 9 14 <5 <5
ORRC003 191 192 1 <0.005 135 115 10 22 <5 <5
ORRC003 192 193 1 <0.005 9 148 <5 40 <5 <5
ORRC003 193 194 1 <0.005 2 148 <5 30 <5 <5
ORRC003 194 195 1 <0.005 40 108 9 20 <5 <5
ORRC003 195 196 1 <0.005 9 112 <5 27 <5 <5
ORRC003 196 197 1 <0.005 3 126 <5 41 <5 <5
ORRC003 197 198 1 <0.005 <1 156 6 39 <5 <5
ORRC003 198 199 1 0.005 67 195 9 24 <5 <5
ORRC003 199 200 1 <0.005 271 221 20 21 <5 <5
ORRC003 200 201 1 <0.005 6 156 12 45 6 <5
ORRC003 201 202 1 <0.005 25 156 9 42 <5 <5
ORRC003 202 203 1 <0.005 8 164 7 48 <5 <5
ORRC003 203 204 1 <0.005 37 167 <5 48 <5 <5
ORRC003 204 205 1 <0.005 3 129 5 44 <5 <5
ORRC003 205 206 1 <0.005 <1 81 8 23 <5 <5
ORRC003 206 207 1 <0.005 27 105 7 29 <5 <5
ORRC003 207 208 1 0.015 11 120 12 36 <5 <5
ORRC003 208 209 1 <0.005 154 193 14 38 <5 <5
ORRC003 209 210 1 0.005 345 208 18 61 <5 <5
ORRC003 210 211 1 <0.005 132 341 16 42 <5 <5
ORRC003 211 212 1 <0.005 187 277 17 50 <5 <5
ORRC003 212 213 1 <0.005 36 164 12 29 <5 <5
ORRC003 213 214 1 <0.005 401 131 12 48 <5 <5
ORRC003 214 215 1 <0.005 64 74 7 25 <5 <5
ORRC003 215 216 1 <0.005 50 70 7 30 <5 <5
ORRC003 216 217 1 <0.005 132 88 9 28 <5 <5
ORRC003 217 218 1 0.02 424 68 69 68 <5 <5
ORRC003 218 219 1 0.01 440 72 69 64 <5 <5
ORRC003 219 220 1 <0.005 210 84 32 36 <5 <5
ORRC003 220 224 4 <0.005 118 146 26 46 <5 <5
ORRC003 224 228 4 <0.005 11 83 8 37 <5 <5
ORRC003 228 230 4 <0.005 18 69 6 38 <5 <5
ORRC004 0 4 4 <0.005 131 237 6 106 <5 <5
ORRC004 4 8 4 <0.005 89 448 15 305 <5 <5
ORRC004 8 12 4 <0.005 127 334 <5 253 <5 <5
ORRC004 12 16 4 <0.005 267 429 <5 225 <5 <5

==> picture [208 x 48] intentionally omitted <==

Hole From m To m Interval m Au g/t Cu ppm Zn ppm Pb ppm Co ppm Sn ppm Sb ppm
ORRC004 16 20 4 <0.005 313 445 <5 272 <5 <5
ORRC004 20 24 4 0.01 227 654 <5 283 <5 7
ORRC004 24 28 4 0.005 219 404 <5 157 <5 <5
ORRC004 28 32 4 <0.005 409 295 <5 93 <5 <5
ORRC004 32 33 1 0.007 917 417 <5 95 <5 <5
ORRC004 33 34 1 0.006 431 329 <5 73 <5 <5
ORRC004 34 35 1 <0.005 255 264 <5 54 <5 <5
ORRC004 35 36 1 0.038 68 187 14 48 <5 <5
ORRC004 36 37 1 0.021 453 127 7 48 <5 <5
ORRC004 37 38 1 0.027 373 96 7 44 <5 <5
ORRC004 38 39 1 0.057 726 130 8 31 <5 <5
ORRC004 39 40 1 0.006 55 53 7 8 <5 <5
ORRC004 40 41 1 0.007 37 45 6 12 <5 <5
ORRC004 41 42 1 0.008 34 44 6 11 <5 <5
ORRC004 42 43 1 0.037 559 107 <5 60 <5 <5
ORRC004 43 44 1 0.07 104 111 <5 37 <5 <5
ORRC004 44 45 1 0.07 256 112 7 41 <5 <5
ORRC004 45 46 1 0.006 165 138 8 37 <5 <5
ORRC004 46 47 1 0.007 202 240 8 75 <5 <5
ORRC004 47 48 1 0.012 346 280 7 88 <5 <5
ORRC004 48 49 1 0.025 53 185 <5 42 <5 <5
ORRC004 49 50 1 0.015 79 124 <5 37 <5 <5
ORRC004 50 51 1 0.093 169 75 <5 25 <5 <5
ORRC004 51 52 1 0.009 174 138 7 34 <5 <5
ORRC004 52 53 1 0.064 165 156 8 39 <5 <5
ORRC004 53 54 1 0.011 281 114 5 50 <5 <5
ORRC004 54 55 1 0.009 834 83 <5 85 <5 <5
ORRC004 55 56 1 0.023 62 62 <5 28 <5 <5
ORRC004 56 57 1 0.037 295 60 <5 27 <5 <5
ORRC004 57 58 1 0.022 504 125 <5 86 <5 <5
ORRC004 58 59 1 0.013 618 144 <5 86 <5 <5
ORRC004 59 60 1 0.015 408 139 <5 74 <5 <5
ORRC004 60 61 1 0.018 244 176 <5 50 <5 <5
ORRC004 61 62 1 0.013 1118 136 <5 120 <5 <5
ORRC004 62 63 1 0.084 554 128 <5 73 <5 <5
ORRC004 63 64 1 0.043 786 374 7 85 <5 <5
ORRC004 64 65 1 0.035 232 211 6 88 <5 <5
ORRC004 65 66 1 0.361 1029 242 7 102 <5 <5
ORRC004 66 67 1 0.063 421 439 10 70 <5 <5
ORRC004 67 68 1 0.024 292 488 12 60 <5 <5
ORRC004 68 69 1 0.028 148 378 12 44 <5 <5
ORRC004 69 70 1 0.02 228 305 13 46 <5 <5
ORRC004 70 71 1 0.033 208 326 12 45 <5 <5

==> picture [208 x 48] intentionally omitted <==

Hole From m To m Interval m Au g/t Cu ppm Zn ppm Pb ppm Co ppm Sn ppm Sb ppm
ORRC004 71 72 1 0.042 220 442 13 50 <5 <5
ORRC004 72 73 1 0.018 156 492 17 43 <5 <5
ORRC004 73 74 1 0.021 134 1984 24 39 <5 <5
ORRC004 74 75 1 0.006 195 1788 35 43 <5 <5
ORRC004 75 76 1 <0.005 133 479 32 43 <5 <5
ORRC004 76 77 1 0.005 129 533 35 48 <5 <5
ORRC004 77 78 1 0.069 143 316 35 50 <5 <5
ORRC004 78 79 1 <0.005 104 336 28 42 <5 <5
ORRC004 79 80 1 <0.005 221 318 28 49 <5 <5
ORRC004 80 81 1 <0.005 178 301 23 50 <5 <5
ORRC004 81 82 1 0.013 60 232 11 46 <5 <5
ORRC004 82 83 1 0.009 1101 132 7 76 9 <5
ORRC004 83 84 1 <0.005 736 108 8 84 10 <5
ORRC004 84 88 4 0.008 678 83 10 59 <5 <5
ORRC004 88 92 4 0.005 266 292 6 58 <5 <5
ORRC004 92 96 4 0.008 52 245 <5 48 <5 <5
ORRC004 96 100 4 <0.005 128 172 <5 60 <5 <5
ORRC004 100 104 4 <0.005 75 239 <5 57 <5 <5
ORRC004 104 108 4 0.01 211 480 19 58 5 <5
ORRC004 108 112 4 0.063 616 1637 46 59 12 <5
ORRC004 112 116 4 0.038 394 626 29 44 <5 <5
ORRC004 116 120 4 0.021 206 258 17 39 <5 <5
ORRC004 120 124 4 0.026 338 275 9 53 <5 <5
ORRC004 124 128 4 0.019 465 131 9 37 <5 <5
ORRC004 128 132 4 0.011 142 303 8 32 <5 <5
ORRC004 132 136 4 <0.005 160 195 12 17 <5 <5
ORRC004 136 138 2 <0.005 139 65 11 27 <5 <5
ORRC005 0 4 4 0.005 23 219 6 232 <5 <5
ORRC005 4 8 4 0.007 8 250 5 182 <5 <5
ORRC005 8 12 4 <0.005 1 162 6 166 <5 <5
ORRC005 12 16 4 <0.005 <1 131 <5 158 <5 <5
ORRC005 16 20 4 <0.005 <1 168 5 157 <5 <5
ORRC005 20 24 4 <0.005 <1 138 <5 155 <5 <5
ORRC005 24 28 4 0.008 <1 135 <5 140 <5 <5
ORRC005 28 32 4 0.009 1 126 <5 117 <5 <5
ORRC005 32 36 4 <0.005 10 229 7 150 <5 <5
ORRC005 36 40 4 <0.005 4 116 <5 132 <5 <5
ORRC005 40 44 4 <0.005 2 84 <5 113 <5 <5
ORRC005 44 48 4 <0.005 9 79 <5 108 <5 <5
ORRC005 48 52 4 <0.005 3 146 5 110 <5 <5
ORRC005 52 56 4 0.023 43 116 <5 74 <5 <5
ORRC005 56 60 4 <0.005 717 86 <5 66 <5 <5
ORRC005 60 64 4 <0.005 416 380 <5 104 <5 <5

==> picture [208 x 48] intentionally omitted <==

Hole From m To m Interval m Au g/t Cu ppm Zn ppm Pb ppm Co ppm Sn ppm Sb ppm
ORRC005 64 68 4 <0.005 319 197 24 56 <5 <5
ORRC005 68 72 4 0.007 44 107 6 42 <5 <5
ORRC005 72 76 4 0.005 22 176 5 44 <5 <5
ORRC005 76 80 4 0.012 282 77 6 45 <5 <5
ORRC005 80 84 4 0.006 153 55 <5 41 <5 <5
ORRC005 84 88 4 0.013 429 53 <5 33 <5 <5
ORRC005 88 92 4 0.047 948 181 <5 71 <5 <5
ORRC005 92 93 1 0.051 669 279 <5 56 <5 <5
ORRC005 93 94 1 0.026 541 212 <5 85 <5 <5
ORRC005 94 95 1 0.032 377 176 <5 41 <5 <5
ORRC005 95 96 1 0.085 304 173 <5 36 5 <5
ORRC005 96 97 1 0.028 86 142 <5 33 <5 <5
ORRC005 97 98 1 0.039 13 99 <5 28 <5 <5
ORRC005 98 99 1 0.02 21 56 <5 16 <5 <5
ORRC005 99 100 1 0.289 83 112 <5 30 <5 <5
ORRC005 100 101 1 0.011 819 141 <5 72 <5 <5
ORRC005 101 102 1 0.018 1254 150 <5 129 <5 <5
ORRC005 102 103 1 0.154 229 196 <5 42 <5 <5
ORRC005 103 104 1 0.014 212 210 <5 22 <5 <5
ORRC005 104 105 1 0.036 251 183 <5 59 <5 <5
ORRC005 105 106 1 0.041 269 154 <5 36 <5 <5
ORRC005 106 107 1 0.02 74 90 <5 32 <5 <5
ORRC005 107 108 1 0.011 56 77 <5 21 <5 <5
ORRC005 108 112 4 0.017 176 257 8 43 <5 <5
ORRC005 112 116 4 0.019 222 301 8 47 <5 <5
ORRC005 116 120 4 0.014 76 458 6 45 <5 <5
ORRC005 120 121 1 0.01 208 147 <5 46 <5 <5
ORRC005 121 122 1 0.012 97 112 <5 34 <5 <5
ORRC005 122 123 1 0.016 1143 120 <5 82 8 <5
ORRC005 123 124 1 0.021 327 105 <5 47 <5 <5
ORRC005 124 125 1 0.032 171 112 <5 38 <5 <5
ORRC005 125 126 1 0.034 904 80 <5 74 <5 <5
ORRC005 126 127 1 0.008 504 127 <5 47 6 <5
ORRC005 127 128 1 0.014 206 128 <5 31 <5 <5
ORRC005 128 129 1 0.03 87 165 <5 27 <5 <5
ORRC005 129 130 1 0.022 63 198 <5 42 <5 <5
ORRC005 130 131 1 0.017 43 292 <5 51 <5 <5
ORRC005 131 132 1 0.016 1242 232 <5 106 <5 <5
ORRC005 132 133 1 0.027 183 258 <5 56 <5 <5
ORRC005 133 134 1 0.026 17 336 <5 49 <5 <5
ORRC005 134 135 1 0.021 544 317 <5 46 10 <5
ORRC005 135 136 1 0.029 353 670 <5 38 <5 <5
ORRC005 136 137 1 0.037 544 954 13 68 10 <5

==> picture [208 x 48] intentionally omitted <==

Hole From m To m Interval m Au g/t Cu ppm Zn ppm Pb ppm Co ppm Sn ppm Sb ppm
ORRC005 137 138 1 0.008 437 200 <5 72 7 <5
ORRC005 138 139 1 0.008 64 247 <5 68 <5 <5
ORRC005 139 140 1 0.006 457 190 <5 52 6 <5
ORRC005 140 141 1 0.009 267 219 <5 60 6 <5
ORRC005 141 142 1 0.009 132 260 <5 60 <5 <5
ORRC005 142 146 4 0.009 256 137 22 46 <5 <5
ORRC005 146 150 4 0.008 175 108 27 44 <5 <5
ORRC005 150 154 4 0.018 423 1514 33 55 6 <5
ORRC005 154 155 1 0.035 342 1010 55 57 <5 <5
ORRC005 155 156 1 0.048 404 968 80 66 5 <5
ORRC005 156 157 1 0.039 437 1203 58 53 8 <5
ORRC005 157 158 1 0.011 119 211 80 21 5 <5
ORRC005 158 159 1 0.023 206 448 47 37 5 <5
ORRC005 159 160 1 0.014 350 432 20 32 <5 <5
ORRC005 160 161 1 0.016 257 888 44 44 <5 <5
ORRC005 161 162 1 0.08 221 625 34 40 5 <5
ORRC005 162 163 1 0.059 168 152 10 42 7 <5
ORRC005 163 164 1 0.041 337 84 10 62 <5 <5
ORRC005 164 165 1 0.008 30 53 17 30 6 <5
ORRC005 165 166 1 0.064 330 135 15 55 9 <5
ORRC005 166 167 1 0.035 495 222 17 57 9 <5
ORRC005 167 168 1 0.014 139 267 10 49 8 <5
ORRC005 168 169 1 0.042 652 194 8 65 <5 <5
ORRC005 169 173 4 <0.005 101 94 7 40 <5 <5
ORRC005 173 177 4 <0.005 35 53 6 36 <5 <5
ORRC005 177 181 4 0.07 28 47 5 41 <5 <5
ORRC005 181 186 5 <0.005 71 61 <5 40 <5 <5
ORRC006 0 4 4 <0.005 31 147 <5 112 <5 <5
ORRC006 4 8 4 <0.005 11 118 <5 140 <5 <5
ORRC006 8 12 4 <0.005 4 120 <5 157 <5 <5
ORRC006 12 16 4 <0.005 9 180 <5 150 <5 <5
ORRC006 16 20 4 <0.005 10 125 <5 154 <5 <5
ORRC006 20 24 4 <0.005 13 132 <5 148 <5 <5
ORRC006 24 28 4 <0.005 5 165 <5 121 <5 <5
ORRC006 28 32 4 <0.005 2 95 <5 130 <5 <5
ORRC006 32 36 4 <0.005 4 94 <5 119 <5 <5
ORRC006 36 40 4 <0.005 <1 83 <5 114 <5 <5
ORRC006 40 44 4 <0.005 15 105 <5 99 <5 <5
ORRC006 44 48 4 0.015 3 113 <5 113 <5 <5
ORRC006 48 52 4 <0.005 9 94 <5 117 <5 <5
ORRC006 52 56 4 0.007 9 97 <5 116 <5 <5
ORRC006 56 60 4 <0.005 <1 93 <5 110 <5 <5
ORRC006 60 64 4 <0.005 <1 113 <5 121 <5 <5

==> picture [208 x 48] intentionally omitted <==

Hole From m To m Interval m Au g/t Cu ppm Zn ppm Pb ppm Co ppm Sn ppm Sb ppm
ORRC006 64 68 4 <0.005 1 110 <5 125 <5 <5
ORRC006 68 72 4 <0.005 4 99 <5 111 <5 <5
ORRC006 72 76 4 <0.005 4 97 <5 120 <5 <5
ORRC006 76 80 4 <0.005 2 95 <5 118 <5 <5
ORRC006 80 84 4 <0.005 2 94 <5 115 <5 <5
ORRC006 84 88 4 <0.005 2 98 <5 115 <5 <5
ORRC006 88 92 4 <0.005 9 93 <5 119 <5 <5
ORRC006 92 96 4 <0.005 <1 91 <5 122 <5 <5
ORRC006 96 100 4 <0.005 2 87 <5 112 <5 <5
ORRC006 100 104 4 <0.005 4 79 <5 119 <5 <5
ORRC006 104 108 4 <0.005 2 73 <5 106 <5 <5
ORRC006 108 112 4 <0.005 8 66 <5 101 <5 <5
ORRC006 112 116 4 <0.005 14 63 <5 96 <5 <5
ORRC006 116 120 4 <0.005 102 143 <5 87 <5 <5
ORRC006 120 121 1 0.009 511 180 <5 41 <5 <5
ORRC006 121 122 1 0.01 603 107 <5 38 <5 <5
ORRC006 122 123 1 0.02 2106 231 7 60 <5 <5
ORRC006 123 124 1 0.22 5626 1126 19 173 <5 <5
ORRC006 124 125 1 0.261 3871 2192 19 55 <5 <5
ORRC006 125 126 1 0.131 1170 724 17 35 <5 <5
ORRC006 126 127 1 0.246 5876 1603 13 63 7 <5
ORRC006 127 128 1 0.032 561 725 13 33 <5 <5
ORRC006 128 129 1 0.073 581 806 12 37 <5 <5
ORRC006 129 130 1 0.053 773 847 10 45 <5 <5
ORRC006 130 131 1 0.076 210 635 16 24 <5 <5
ORRC006 131 132 1 0.037 774 759 14 45 <5 <5
ORRC006 132 133 1 0.032 1721 343 13 62 <5 <5
ORRC006 133 134 1 0.066 124 115 13 15 <5 <5
ORRC006 134 135 1 0.073 2015 931 8 57 <5 <5
ORRC006 135 136 1 0.034 734 651 11 81 <5 <5
ORRC006 136 140 4 0.021 341 407 6 44 <5 <5
ORRC006 140 144 4 0.031 362 264 <5 55 <5 <5
ORRC006 144 148 4 0.032 273 409 <5 39 <5 <5
ORRC006 148 152 4 0.022 409 326 <5 45 <5 <5
ORRC006 152 153 1 0.014 967 291 7 41 6 <5
ORRC006 153 154 1 0.023 402 113 6 23 <5 <5
ORRC006 154 155 1 <0.005 44 47 6 15 <5 <5
ORRC006 155 156 1 <0.005 14 16 <5 8 <5 <5
ORRC006 156 157 1 0.009 17 35 5 16 <5 <5
ORRC006 157 158 1 0.016 728 63 <5 34 <5 <5
ORRC006 158 159 1 <0.005 79 45 <5 28 <5 <5
ORRC006 159 160 1 0.009 57 49 <5 36 <5 <5
ORRC006 160 161 1 <0.005 108 71 <5 59 <5 <5

==> picture [208 x 48] intentionally omitted <==

Hole From m To m Interval m Au g/t Cu ppm Zn ppm Pb ppm Co ppm Sn ppm Sb ppm
ORRC006 161 162 1 0.009 56 28 6 18 <5 <5
ORRC006 162 163 1 0.009 503 25 8 18 <5 <5
ORRC006 163 164 1 0.006 188 17 6 15 <5 <5
ORRC006 164 165 1 0.014 748 69 <5 50 <5 <5
ORRC006 165 166 1 0.007 881 141 <5 86 <5 <5
ORRC006 166 167 1 0.006 296 167 <5 41 <5 <5
ORRC006 167 168 1 <0.005 338 200 <5 49 <5 <5
ORRC006 168 169 1 0.024 488 234 <5 63 7 <5
ORRC006 169 170 1 0.008 571 237 <5 69 <5 <5
ORRC006 170 174 4 <0.005 698 172 5 63 <5 <5
ORRC006 174 178 4 <0.005 137 180 <5 53 <5 <5
ORRC006 178 182 4 <0.005 289 161 12 53 <5 <5
ORRC006 182 186 4 0.071 330 676 45 49 7 <5
ORRC006 186 190 4 <0.005 56 115 6 27 <5 <5
ORRC006 190 194 4 <0.005 19 74 <5 36 <5 <5
ORRC006 194 198 4 <0.005 40 64 7 30 <5 <5
ORRC006 198 202 4 <0.005 21 64 <5 45 <5 <5
ORRC006 202 204 2 <0.005 43 65 <5 42 <5 <5
VUDD001 110 112 2 0.001 94 91 <5 47 <5 <5
VUDD001 112 114 2 0.007 256 112 <5 53 <5 5
VUDD001 114 116 2 0.004 121 111 <5 53 <5 7
VUDD001 116 118 2 0.006 230 218 44 45 <5 <5
VUDD001 118 120 2 0.004 279 132 24 52 <5 <5
VUDD001 120 122 2 0.003 242 190 10 40 <5 <5
VUDD001 122 124 2 0.004 255 133 <5 28 <5 <5
VUDD001 124 125 1 0.007 230 75 <5 17 <5 7
VUDD001 125 126 1 0.001 105 63 6 8 <5 11
VUDD001 126 127 1 0.002 89 61 <5 7 <5 14
VUDD001 127 128 1 0.004 108 42 <5 6 <5 8
VUDD001 128 129 1 <0.001 139 57 <5 9 <5 12
VUDD001 129 130 1 0.002 419 42 <5 15 <5 <5
VUDD001 130 131 1 0.007 138 49 <5 17 <5 <5
VUDD001 131 132 1 0.002 76 53 6 11 <5 13
VUDD001 132 133 1 0.002 107 59 <5 10 <5 13
VUDD001 133 133.5 0.5 0.001 250 137 7 15 <5 15
VUDD001 133.5 134 0.5 0.002 238 148 6 20 <5 12
VUDD001 134 134.5 0.5 0.004 393 137 <5 25 <5 7
VUDD001 134.5 135 0.5 0.007 45 124 <5 21 <5 6
VUDD001 135 135.5 0.5 0.002 287 80 6 40 <5 9
VUDD001 135.5 136 0.5 0.002 162 71 7 34 <5 8
VUDD001 136 136.5 0.5 0.001 368 70 6 32 <5 10
VUDD001 136.5 137 0.5 0.002 281 104 <5 63 <5 <5
VUDD001 137 137.5 0.5 0.012 1457 110 <5 106 <5 <5

==> picture [208 x 48] intentionally omitted <==

Hole From m To m Interval m Au g/t Cu ppm Zn ppm Pb ppm Co ppm Sn ppm Sb ppm
VUDD001 137.5 138 0.5 0.014 2237 108 <5 78 <5 <5
VUDD001 138 138.5 0.5 0.003 244 126 8 29 <5 <5
VUDD001 138.5 139 0.5 0.006 964 195 7 47 <5 <5
VUDD001 139 139.5 0.5 0.012 2527 482 <5 152 <5 <5
VUDD001 139.5 140 0.5 0.002 268 321 6 40 <5 <5
VUDD001 140 140.5 0.5 <0.001 12 242 8 42 <5 <5
VUDD001 140.5 141 0.5 0.005 205 127 <5 57 <5 <5
VUDD001 141 141.5 0.5 0.004 477 79 <5 70 <5 6
VUDD001 141.5 142 0.5 0.001 210 70 <5 34 <5 14
VUDD001 142 142.5 0.5 <0.001 134 78 5 26 <5 24
VUDD001 142.5 143 0.5 0.005 429 74 <5 32 <5 16
VUDD001 143 144 1 0.009 598 77 <5 37 <5 26
VUDD001 144 145 1 0.024 1505 88 <5 86 <5 <5
VUDD001 145 146 1 0.007 833 114 <5 52 <5 <5
VUDD001 146 147 1 0.005 740 200 <5 65 <5 <5
VUDD001 147 148 1 0.004 1018 225 <5 111 <5 5
VUDD001 148 149 1 0.006 1328 251 <5 84 <5 <5
VUDD001 171 173 2 0.01 480 259 <5 54 <5 <5
VUDD001 173 175 2 <0.001 104 168 <5 67 <5 <5
VUDD001 175 177 2 0.001 140 91 <5 59 <5 7
VUDD001 177 179 2 <0.001 132 88 <5 59 <5 5
VUDD001 179 181 2 0.002 172 103 <5 69 <5 6
VUDD001 186.3 187.4 1.1 0.002 147 103 <5 60 <5 <5
VUDD001 191 192 1 0.119 2167 200 <5 84 <5 <5
VUDD001 192 194 2 0.06 675 137 <5 61 <5 <5
VUDD001 194 196 2 0.012 378 133 <5 61 <5 <5
VWDD001 33 34 1 na 1 48 <5 85 <5 <5
VWDD001 57.8 59 1.2 na 90 50 <5 94 <5 <5
VWDD001 63.37 64.62 1.25 na 59 71 <5 78 <5 <5
VWDD001 64 65.03 1.03 na 200 64 8 50 <5 <5
VWDD001 75.8 78 2.2 na 29 102 6 102 <5 <5
VWDD001 78 80 2 na 8 68 <5 95 <5 <5
VWDD001 80 82 2 na 30 100 <5 98 <5 <5
VWDD001 86.5 86.9 0.4 na 2 193 <5 93 <5 <5
VWDD001 89.25 91 1.75 0.024 534 44 5 54 7 <5
VWDD001 91 93 2 0.043 751 41 5 74 8 <5
VWDD001 93 95 2 0.031 596 33 7 62 8 <5
VWDD001 95 97 2 0.027 300 56 7 50 7 <5
VWDD001 97 97.74 0.74 0.033 416 70 6 48 6 <5
VWDD001 97.74 98.7 0.96 0.03 755 52 8 95 8 <5
VWDD001 98.7 99.72 1.02 0.046 864 122 6 64 <5 <5
VWDD001 99.72 101.6 1.88 0.022 60 144 8 21 6 <5
VWDD001 101.6 102.7 1.1 0.012 77 68 14 19 6 <5

==> picture [208 x 48] intentionally omitted <==

Hole From m To m Interval m Au g/t Cu ppm Zn ppm Pb ppm Co ppm Sn ppm Sb ppm
VWDD001 102.7 103.7 1 0.014 679 496 17 66 5 <5
VWDD001 103.7 105.2 1.5 0.026 303 746 18 50 9 <5
VWDD001 105.2 107.7 2.5 0.018 375 1042 18 45 9 <5
VWDD001 107.7 109.7 2 <0.005 34 904 <5 6 <5 <5
VWDD001 109.7 111 1.3 0.012 86 851 <5 13 7 <5
VWDD001 111.7 113.7 2 0.012 17 893 <5 26 <5 <5
VWDD001 113.7 115.7 2 <0.005 50 1040 <5 9 6 <5
VWDD001 115.7 117 1.3 0.017 120 1069 <5 15 12 <5
VWDD001 117 118 1 0.02 156 890 <5 20 12 <5
VWDD001 118 120 2 <0.005 69 975 <5 6 <5 <5
VWDD001 120 122 2 0.007 51 898 <5 8 7 <5
VWDD001 122 124 2 0.015 91 821 <5 17 12 <5
VWDD001 124 126 2 0.008 91 775 <5 10 5 <5
VWDD001 126 128 2 0.01 29 677 <5 4 5 <5
VWDD001 128 130 2 0.011 51 687 <5 5 7 <5
VWDD001 130 132 2 0.01 80 845 <5 8 7 <5
VWDD001 132 134 2 0.013 130 1079 <5 13 13 <5
VWDD001 134 136 2 0.016 134 2784 5 37 11 <5
VWDD001 136 138 2 0.014 2 593 9 35 13 <5
VWDD001 138 140 2 0.012 178 940 12 40 11 <5
VWDD001 140 142 2 0.012 96 1322 <5 15 13 <5
VWDD001 142 144 2 0.008 130 1761 <5 22 13 <5
VWDD001 144 145 1 0.006 63 1230 <5 17 9 <5
VWDD001 145 146 1 0.013 114 3239 <5 30 9 <5
VWDD001 146 147 1 0.013 298 2040 8 56 9 <5
VWDD001 147 148 1 <0.005 127 416 <5 100 <5 <5
VWDD001 148 150 2 <0.005 88 178 <5 105 <5 <5
VWDD001 158 160 2 0.01 79 102 20 48 <5 <5
VWDD001 160 162 2 0.019 335 184 9 54 <5 <5
VWDD001 162 164 2 0.01 178 369 29 49 <5 <5
VWDD001 164 166 2 <0.005 171 705 49 55 5 <5
VWDD001 166 168 2 0.015 384 317 27 75 <5 <5
VWDD001 168 170 2 0.013 597 231 22 82 <5 <5
VWDD001 170 172 2 0.012 451 538 27 51 6 <5
VWDD001 172 174 2 0.005 464 169 17 61 5 <5
VWDD001 174 176 2 0.006 269 127 16 24 6 <5
VWDD001 176 178 2 <0.005 464 486 20 31 <5 <5
VWDD001 178 179.6 1.6 <0.005 260 476 10 37 <5 <5
VWDD001 179.6 181 1.4 0.034 429 856 110 48 <5 <5
VWDD001 181 182.3 1.3 <0.005 13 340 <5 43 6 <5
VWDD001 228.9 230 1.1 <0.005 92 547 <5 28 <5 <5
VWDD001 230 232 2 0.006 170 587 6 20 <5 <5
VWDD001 232 234 2 0.037 125 562 <5 13 <5 <5

==> picture [208 x 48] intentionally omitted <==

Hole From m To m Interval m Au g/t Cu ppm Zn ppm Pb ppm Co ppm Sn ppm Sb ppm
VWDD001 234 236 2 0.031 29 659 <5 5 <5 <5
VWDD001 236 238 2 0.012 58 633 <5 8 8 <5
VWDD001 238 240 2 0.016 46 1916 19 38 6 <5
VWDD001 240 242 2 0.007 44 915 <5 14 7 <5
VWDD001 242 244 2 0.007 87 861 6 26 7 <5
VWDD001 244 246 2 <0.005 85 705 8 18 6 <5
VWDD001 246 248 2 0.009 48 722 6 12 5 <5
VWDD001 248 250 2 0.007 154 625 11 35 6 <5
VWDD001 250 252 2 0.01 188 1734 84 52 13 6
VWDD001 252 254 2 0.015 211 3170 83 73 15 8
VWDD001 254 256 2 0.031 205 3042 94 72 12 9
VWDD001 256 258 2 <0.005 276 2309 67 50 11 6
VWDD001 258 260 2 0.028 253 2854 79 52 10 7
VWDD001 260 262 2 0.012 174 2870 71 68 12 8
VWDD001 262 264.75 2.75 <0.005 183 537 51 51 13 6
VWDD001 264.75 266.75 2 <0.005 9 114 26 18 9 <5
VWDD001 266.75 268.85 2.1 0.035 251 150 25 38 <5 <5
VWDD001 362.5 364.5 2 <0.005 198 133 6 66 <5 <5
VWDD001 364.5 366.3 1.8 0.006 230 169 <5 83 <5 <5
VWDD001 366.3 367.9 1.6 0.041 810 156 27 62 6 <5
VWDD001 367.9 369 1.1 0.032 237 254 7 43 <5 <5
VWDD001 369 370 1 0.035 295 330 <5 54 9 <5
VWDD001 370 372.25 2.25 0.048 676 311 11 63 6 <5
VWDD001 372.25 373 0.75 0.018 197 367 <5 30 <5 <5
VWDD001 373 374 1 0.06 69 425 <5 18 <5 <5
VWDD001 374 375 1 0.024 391 465 <5 48 27 <5
VWDD001 375 375.8 0.8 0.013 395 426 8 54 26 <5
VWDD001 377 379 2 0.059 76 375 12 53 7 6
VWDD001 379 381 2 0.019 102 523 6 30 10 <5
VWDD001 381 383 2 0.019 7 521 9 60 <5 6
VWDD001 383 385 2 0.036 46 337 10 56 <5 7
VWDD001 385 387 2 0.035 51 263 20 58 <5 12
VWDD001 387 389 2 0.062 200 260 8 40 14 9
VWDD001 389 391 2 0.021 288 229 5 38 7 <5
VWDD001 391 393 2 0.02 160 705 19 54 5 17
VWDD001 393 395 2 0.012 302 236 <5 28 5 <5
VWDD001 395 397 2 0.009 178 118 <5 14 <5 <5
VWDD001 397 398.6 1.6 0.007 225 69 <5 11 <5 <5
VWDD001 398.6 400 1.4 0.018 296 80 5 22 <5 <5
VWDD001 400 402 2 0.019 331 75 <5 28 <5 <5
VWDD001 402 404 2 0.026 252 102 <5 22 <5 10
VWDD001 414 416 2 <0.005 5 91 <5 32 <5 <5
VWDD001 416 418 2 <0.005 3 89 <5 35 <5 <5

==> picture [208 x 48] intentionally omitted <==

Hole From m To m Interval m Au g/t Cu ppm Zn ppm Pb ppm Co ppm Sn ppm Sb ppm
VWDD001 418 420 2 <0.005 8 98 <5 40 <5 <5
VWDD001 420 422 2 <0.005 6 101 <5 40 <5 <5
VWDD001 422 424 2 0.007 199 285 6 52 <5 <5
VWDD001 424 425 1 0.025 140 547 9 49 5 <5
VWDD001 425 426 1 0.014 168 178 <5 18 <5 <5
VWDD001 426 427 1 <0.005 190 148 <5 18 <5 <5
VWDD002 38.35 38.87 0.52 0.002 79 43 <5 42 <5 <5
VWDD002 56.08 56.6 0.52 na 26 42 <5 39 <5 <5
VWDD002 66.38 67 0.62 0.006 786 64 <5 59 <5 <5
VWDD002 75.4 76.05 0.65 na 19 58 <5 57 <5 <5
VWDD002 87.53 87.8 0.27 na <1 94 <5 58 <5 <5
VWDD002 104 106 2 0.002 14 88 <5 81 <5 <5
VWDD002 118 118.38 0.38 na 20 86 <5 82 <5 <5
VWDD002 126.1 127 0.9 na <1 83 <5 72 <5 <5
VWDD002 130 130.7 0.7 na 5 96 <5 67 <5 6
VWDD002 133.33 134.26 0.93 0.003 121 71 14 32 <5 <5
VWDD002 134.26 136 1.74 0.002 4 39 10 14 <5 <5
VWDD002 136 137.47 1.47 0.002 11 35 11 24 <5 <5
VWDD002 137.47 138.25 0.78 0.003 315 36 7 46 <5 <5
VWDD002 138.25 139.22 0.97 0.008 589 44 10 67 <5 <5
VWDD002 139.22 140.2 0.98 0.001 23 29 11 33 <5 <5
VWDD002 141.44 142 0.56 na 5 88 <5 83 <5 <5
VWDD002 154.3 155 0.7 na <1 106 <5 63 <5 <5
VWDD002 156.73 158 1.27 0.003 20 25 6 7 <5 <5
VWDD002 158 159 1 <0.001 41 29 16 17 <5 <5
VWDD002 159 160 1 0.002 406 52 <5 73 <5 <5
VWDD002 160 161 1 0.002 1103 72 12 58 <5 <5
VWDD002 161 162 1 0.004 191 39 7 24 <5 <5
VWDD002 162 163 1 0.008 1656 50 5 46 <5 <5
VWDD002 163 164 1 0.007 707 45 <5 81 <5 <5
VWDD002 164 165 1 0.003 190 47 6 44 <5 <5
VWDD002 165 165.55 0.55 0.008 757 74 <5 57 <5 <5
VWDD002 165.55 166.6 1.05 0.002 649 75 <5 74 <5 <5
VWDD002 166.6 167.7 1.1 0.018 743 74 <5 99 <5 <5
VWDD002 167.7 169 1.3 0.024 259 97 <5 22 <5 <5
VWDD002 169 170 1 0.008 248 115 <5 48 <5 <5
VWDD002 170 171 1 0.01 465 178 11 43 <5 <5
VWDD002 171 172 1 0.006 253 121 13 38 <5 <5
VWDD002 172 173.08 1.08 0.016 278 236 13 69 14 <5
VWDD002 173.08 174.1 1.02 <0.001 113 218 <5 57 5 <5
VWDD002 174.1 175 0.9 <0.001 22 136 <5 71 <5 <5
VWDD002 181 184 3 0.001 40 93 <5 80 <5 <5
VWDD002 184 186.6 2.6 0.001 27 83 <5 82 <5 <5

==> picture [208 x 48] intentionally omitted <==

Hole From m To m Interval m Au g/t Cu ppm Zn ppm Pb ppm Co ppm Sn ppm Sb ppm
VWDD002 188.92 189.44 0.52 0.003 174 92 <5 88 <5 <5
VWDD002 195 197 2 0.006 197 106 <5 69 <5 <5
VWDD002 197 198.75 1.75 <0.001 40 166 <5 65 <5 <5
VWDD002 198.75 200.72 1.97 0.001 59 57 11 31 <5 <5
VWDD002 200.72 202.15 1.43 0.002 158 50 7 38 <5 <5
VWDD002 202.15 203 0.85 0.003 833 67 11 76 <5 <5
VWDD002 203 203.92 0.92 0.102 2548 157 11 54 <5 <5
VWDD002 203.92 205 1.08 0.024 1009 117 <5 112 <5 <5
VWDD002 205 205.5 0.5 0.06 201 96 <5 72 <5 9
VWDD002 205.5 206.25 0.75 0.001 74 81 <5 54 <5 <5
VWDD002 206.25 206.88 0.63 0.005 687 94 <5 87 <5 <5
VWDD002 206.88 207.93 1.05 0.03 400 166 <5 92 <5 <5
VWDD002 207.93 209 1.07 0.034 117 102 <5 43 <5 <5
VWDD002 209 210 1 0.013 193 82 <5 53 <5 <5
VWDD002 210 211 1 0.006 240 86 <5 49 <5 <5
VWDD002 211 212 1 0.015 448 91 <5 69 <5 <5
VWDD002 212 213 1 0.005 11 106 <5 42 <5 <5
VWDD002 213 214 1 0.002 38 132 <5 48 <5 <5
VWDD002 214 215 1 <0.001 144 278 <5 43 <5 <5
VWDD002 215 216 1 0.001 16 115 <5 43 <5 <5
VWDD002 216 217 1 0.002 142 123 <5 43 <5 <5
VWDD002 217 218 1 0.002 8 81 <5 29 <5 <5
VWDD002 218 219 1 0.003 62 126 <5 49 <5 <5
VWDD002 219 221 2 0.007 155 101 <5 52 <5 <5
VWDD002 221 223 2 0.005 42 99 <5 40 <5 <5
VWDD002 223 225 2 0.003 22 95 <5 40 <5 <5
VWDD002 225 227.4 2.4 <0.001 112 118 <5 42 <5 <5
VWDD002 227.4 228 0.6 0.045 314 80 13 42 14 <5
VWDD002 228 229 1 0.021 254 139 11 27 9 <5
VWDD002 229 230 1 0.009 118 646 16 18 <5 <5
VWDD002 230 230.77 0.77 0.026 353 1231 25 57 9 <5
VWDD002 230.77 232 1.23 0.007 155 113 8 37 <5 <5
VWDD002 232 233 1 0.022 493 140 24 47 <5 <5
VWDD002 233 234 1 0.015 492 126 <5 42 <5 <5
VWDD002 234 235 1 0.008 287 81 <5 40 <5 <5
VWDD002 235 236.33 1.33 0.005 135 90 <5 35 <5 <5
VWDD002 236.33 237.85 1.52 0.001 7 65 <5 25 <5 <5
VWDD002 237.85 240 2.15 0.007 <1 71 <5 62 <5 <5
VWDD002 240 242 2 0.015 3 64 <5 76 <5 <5
VWDD002 242 243.4 1.4 0.111 20 71 <5 74 <5 <5
VWDD002 243.4 243.9 0.5 0.002 5 178 220 34 <5 <5
VWDD002 243.9 245 1.1 0.003 3 122 <5 85 <5 <5
VWDD002 245 246 1 0.018 5 124 <5 89 <5 <5

==> picture [208 x 48] intentionally omitted <==

Hole From m To m Interval m Au g/t Cu ppm Zn ppm Pb ppm Co ppm Sn ppm Sb ppm
VWDD002 246 247 1 0.003 5 107 <5 80 <5 <5
VWDD002 247 248 1 <0.001 8 95 <5 90 <5 <5
VWDD002 253.33 254 0.67 na 1 83 <5 75 <5 <5
VWRC001 0 4 4 0.02 38 49 6 25 <5 6
VWRC001 4 8 4 <0.005 23 72 <5 40 <5 <5
VWRC001 8 12 4 <0.005 21 74 <5 39 <5 <5
VWRC001 12 16 4 <0.005 10 79 <5 45 <5 <5
VWRC001 16 20 4 <0.005 34 69 <5 59 <5 <5
VWRC001 20 24 4 <0.005 36 58 <5 57 <5 <5
VWRC001 24 28 4 <0.005 34 61 <5 54 <5 <5
VWRC001 28 32 4 <0.005 34 72 <5 56 <5 <5
VWRC001 32 36 4 <0.005 60 119 <5 75 <5 <5
VWRC001 36 40 4 <0.005 36 106 <5 61 <5 <5
VWRC001 40 44 4 <0.005 34 66 <5 55 <5 <5
VWRC001 44 48 4 <0.005 34 62 <5 60 <5 5
VWRC001 48 52 4 <0.005 51 61 <5 66 <5 <5
VWRC001 52 56 4 <0.005 19 65 <5 64 <5 <5
VWRC001 56 60 4 <0.005 1 61 <5 64 <5 <5
VWRC001 60 64 4 <0.005 86 54 <5 86 <5 <5
VWRC001 64 68 4 <0.005 45 46 <5 84 <5 <5
VWRC001 68 72 4 <0.005 2 65 <5 78 <5 6
VWRC001 72 76 4 0.169 47 65 <5 91 <5 <5
VWRC001 76 80 4 <0.005 30 61 <5 94 <5 8
VWRC001 80 84 4 <0.005 60 62 <5 100 <5 8
VWRC001 84 88 4 <0.005 1 56 <5 67 <5 <5
VWRC001 88 92 4 <0.005 43 59 <5 81 <5 <5
VWRC001 92 96 4 <0.005 80 61 <5 90 <5 <5
VWRC001 96 100 4 <0.005 19 68 <5 92 <5 <5
VWRC001 100 104 4 <0.005 46 75 <5 91 <5 <5
VWRC001 104 108 4 <0.005 47 67 <5 82 <5 <5
VWRC001 108 112 4 <0.005 195 78 6 62 <5 5
VWRC001 112 116 4 0.016 162 102 18 52 6 <5
VWRC001 116 120 4 0.084 308 107 43 70 7 25
VWRC001 120 121 1 0.096 381 164 36 85 13 <5
VWRC001 121 122 1 0.129 534 195 50 77 12 9
VWRC001 122 123 1 0.125 639 517 34 57 18 <5
VWRC001 123 124 1 0.062 316 495 25 40 <5 <5
VWRC001 124 125 1 0.043 221 211 29 22 21 <5
VWRC001 125 126 1 0.072 198 1511 35 37 25 <5
VWRC001 126 127 1 0.12 542 761 74 106 14 10
VWRC001 127 128 1 0.13 417 2384 93 68 23 11
VWRC001 128 129 1 0.124 281 2694 86 51 34 10
VWRC001 129 130 1 0.058 348 1222 46 53 32 <5

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Hole From m To m Interval m Au g/t Cu ppm Zn ppm Pb ppm Co ppm Sn ppm Sb ppm
VWRC001 130 131 1 0.076 488 298 60 48 5 7
VWRC001 131 132 1 0.022 296 279 54 29 <5 <5
VWRC001 132 133 1 0.361 448 451 55 42 6 <5
VWRC001 133 134 1 0.082 395 1462 156 32 17 11
VWRC001 134 135 1 0.042 376 857 70 35 12 7
VWRC001 135 136 1 0.031 228 518 20 21 15 <5
VWRC001 136 137 1 0.017 160 1728 19 49 13 6
VWRC001 137 138 1 0.105 95 3304 24 59 14 7
VWRC001 138 139 1 0.07 147 3796 32 86 17 8
VWRC001 139 140 1 0.022 80 1547 24 70 13 11
VWRC001 140 141 1 0.032 429 1550 29 55 <5 <5
VWRC001 141 142 1 0.017 276 979 43 51 6 9
VWRC001 142 143 1 0.132 140 711 25 54 8 7
VWRC001 143 144 1 0.013 128 528 21 49 5 7
VWRC001 144 145 1 0.008 145 205 9 38 <5 <5
VWRC001 145 146 1 0.013 7 240 6 58 <5 <5
VWRC001 146 147 1 <0.005 255 209 8 39 <5 <5
VWRC001 147 148 1 <0.005 191 198 17 23 <5 <5
VWRC001 148 152 4 <0.005 8 120 <5 35 <5 <5
VWRC001 152 156 4 <0.005 18 95 <5 43 <5 5
VWRC002 0 4 4 <0.005 54 84 17 49 <5 <5
VWRC002 4 8 4 <0.005 60 249 20 58 <5 <5
VWRC002 8 12 4 <0.005 191 515 17 44 <5 5
VWRC002 12 16 4 <0.005 110 325 9 28 <5 <5
VWRC002 16 20 4 0.011 163 275 18 29 <5 <5
VWRC002 20 24 4 0.026 132 337 20 43 <5 5
VWRC002 24 28 4 0.005 164 365 29 45 <5 <5
VWRC002 28 32 4 0.009 224 337 24 47 <5 <5
VWRC002 32 36 4 0.012 247 299 27 29 <5 <5
VWRC002 36 40 4 <0.005 268 335 23 42 <5 <5
VWRC002 40 44 4 0.013 252 508 28 34 <5 <5
VWRC002 44 48 4 <0.005 231 239 12 55 <5 <5
VWRC002 48 52 4 <0.005 71 248 10 40 <5 <5
VWRC002 52 56 4 <0.005 202 148 8 41 <5 <5
VWRC002 56 60 4 0.041 232 89 10 37 <5 <5
VWRC002 60 64 4 0.022 57 120 9 26 <5 <5
VWRC002 64 68 4 <0.005 27 134 16 36 <5 <5
VWRC002 68 72 4 <0.005 <1 127 21 35 <5 5
VWRC002 72 76 4 <0.005 7 179 13 42 <5 <5
VWRC002 76 80 4 <0.005 19 180 34 41 <5 <5
VWRC002 80 84 4 <0.005 1 130 7 39 <5 <5
VWRC002 84 88 4 <0.005 6 113 6 36 <5 <5
VWRC002 88 92 4 <0.005 10 126 <5 41 <5 <5

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Hole From m To m Interval m Au g/t Cu ppm Zn ppm Pb ppm Co ppm Sn ppm Sb ppm
VWRC002 92 96 4 <0.005 <1 130 <5 38 <5 <5
VWRC002 96 100 4 0.019 67 137 5 42 <5 <5
VWRC002 100 104 4 <0.005 34 150 6 43 <5 <5
VWRC002 104 108 4 0.012 94 145 6 47 <5 <5
VWRC002 108 112 4 0.014 75 139 6 42 <5 <5
VWRC002 112 116 4 <0.005 43 126 <5 42 <5 5
VWRC002 116 120 4 <0.005 7 97 <5 35 <5 <5
VWRC002 120 124 4 <0.005 32 73 <5 38 <5 <5
VWRC002 124 128 4 <0.005 35 55 <5 49 <5 <5
VWRC002 128 132 4 <0.005 25 58 <5 55 <5 <5
VWRC002 132 136 4 0.011 42 70 7 52 <5 <5
VWRC002 136 140 4 <0.005 18 60 <5 50 <5 <5
VWRC002 140 144 4 <0.005 23 59 <5 52 <5 <5
VWRC002 144 148 4 <0.005 43 62 <5 54 <5 <5
VWRC002 148 152 4 <0.005 21 70 <5 61 <5 <5
VWRC002 152 156 4 <0.005 25 71 <5 50 <5 <5
VWRC002 156 160 4 <0.005 28 67 <5 59 <5 <5
VWRC002 160 164 4 <0.005 9 58 <5 52 <5 <5
VWRC002 164 168 4 0.006 189 70 <5 63 <5 <5
VWRC002 168 172 4 <0.005 218 68 <5 80 <5 <5
VWRC002 172 176 4 <0.005 16 77 <5 48 <5 <5
VWRC002 176 180 4 <0.005 76 74 <5 100 <5 6
VWRC002 180 184 4 <0.005 52 59 <5 85 <5 6
VWRC002 184 188 4 <0.005 23 56 <5 78 <5 9
VWRC002 188 192 4 <0.005 70 63 <5 65 <5 11
VWRC002 192 196 4 0.017 92 91 6 27 <5 <5
VWRC002 196 197 1 0.006 105 109 8 28 <5 <5
VWRC002 197 198 1 0.163 222 124 8 39 <5 <5
VWRC002 198 199 1 0.022 219 82 21 55 <5 14
VWRC002 199 200 1 0.016 127 95 19 60 5 14
VWRC002 200 201 1 0.009 136 98 18 57 <5 46
VWRC002 201 202 1 <0.005 79 98 13 25 <5 71
VWRC002 202 203 1 0.005 20 78 8 47 <5 157
VWRC002 203 204 1 0.01 137 100 14 53 <5 28
VWRC002 204 208 4 <0.005 114 96 19 38 <5 9
VWRC002 208 209 1 0.012 168 393 30 47 <5 10
VWRC002 209 210 1 0.013 132 259 50 45 <5 9
VWRC002 210 211 1 0.011 69 86 20 25 <5 <5
VWRC002 211 212 1 0.029 90 97 11 42 7 6
VWRC002 212 213 1 0.07 100 123 10 35 9 <5
VWRC002 213 214 1 0.023 163 101 6 36 <5 <5
VWRC002 214 218 4 <0.005 19 72 8 20 <5 <5
VWRC002 218 222 4 0.01 47 94 13 16 <5 <5

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Hole From m To m Interval m Au g/t Cu ppm Zn ppm Pb ppm Co ppm Sn ppm Sb ppm
VWRC002 222 223 1 <0.005 99 201 18 30 <5 5
VWRC002 223 224 1 0.074 143 838 47 39 10 <5
VWRC002 224 225 1 0.057 625 814 41 49 8 <5
VWRC002 225 226 1 0.056 130 1671 39 57 12 7
VWRC002 226 227 1 0.041 403 453 30 52 <5 5
VWRC002 227 228 1 0.06 308 880 35 51 9 <5
VWRC002 228 229 1 0.058 548 1017 28 59 7 <5
VWRC002 229 230 1 0.024 152 1133 47 60 10 5
VWRC002 230 234 4 0.053 259 737 78 61 18 12
VWRC002 234 235 1 0.039 510 493 35 72 9 5
VWRC002 235 236 1 0.116 285 579 46 24 <5 <5
VWRC002 236 237 1 0.098 1042 444 51 51 11 6
VWRC002 237 238 1 0.071 340 1206 326 60 21 12
VWRC002 238 239 1 0.075 336 1958 197 66 26 9
VWRC002 239 240 1 0.03 420 380 29 56 14 <5
VWRC002 240 241 1 0.047 229 1398 38 38 11 <5
VWRC002 241 242 1 0.054 146 2545 60 75 14 8
VWRC002 242 243 1 0.06 189 2318 54 61 13 9
VWRC002 243 244 1 0.031 549 471 38 66 <5 10
VWRC002 244 248 4 <0.005 98 394 19 22 7 10
VWRC002 248 252 4 0.026 197 610 29 57 7 7
VWRC002 252 253 1 0.006 120 401 11 39 <5 <5

Authorised by the Managing Director on behalf of the Board of Venture Minerals Limited:

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Andrew Radonjic

Managing Director

The information in this report that relates to Exploration Results, Exploration Targets and Minerals Resources is based on information compiled by Mr Andrew Radonjic, a fulltime employee of the company and who is a Member of The Australasian Institute of Mining and Metallurgy. Mr Andrew Radonjic has sufficient experience which is relevant to the style of mineralisation and type of deposits under consideration and to the activity which he is undertaking to qualify as a Competent Person as defined in the 2012 Edition of the ‘Australasian Code for Reporting of Exploration Results, Mineral Resources and Ore Reserves’. Mr Andrew Radonjic consents to the inclusion in the report of the matters based on his information in the form and context in which it appears.

The information in this report that relates to Mineral Resources for the Mount Lindsay Project is based on information compiled by Mr Andrew Radonjic, a fulltime employee of the company and who is a Member of The Australasian Institute of Mining and Metallurgy. Mr Andrew Radonjic has sufficient experience which is relevant to the style of mineralisation and type of deposits under consideration and to the activity which he is undertaking to qualify as a Competent Person as defined in the 2004 and 2012 Edition of the ‘Australasian Code for Reporting of Exploration Results, Mineral Resources and Ore Reserves’. Mr Andrew Radonjic consents to the inclusion in the report of the matters based on his information in the form and context in which it appears. This information was prepared and first disclosed under the JORC Code 2004. It has not been updated since to comply with the JORC Code 2012 on the basis that the information has not materially changed since it was last reported.

Notes: All material assumptions and technical parameters underpinning the Minerals Resource estimate referred to within previous ASX announcements continue to apply and have not materially changed since last reported. The company is not aware of any new information or data that materially affects the information included in this announcement.

Page 33

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About Venture

Venture Minerals Ltd (ASX: VMS) is entering an exciting phase as the Company moved from a highly successful explorer to producer with completion of the first shipment from the Riley Iron Ore Mine in northwest Tasmania. At the neighbouring Mount Lindsay Tin-Tungsten Project, higher Tin prices and the recognition of Tin as a fundamental metal to the battery revolution has refocused Venture’s approach to developing Mount Lindsay. Already one of the world's largest undeveloped Tin-Tungsten deposits, the Company has commenced an Underground Feasibility Study on Mount Lindsay that will leverage off the previously completed work. In Western Australia, Chalice Mining (ASX: CHN) recently committed to spend up to $3.7m in Venture’s South West Project, to advance previous exploration completed by Venture to test a Julimar lookalike Nickel-Copper-PGE target. At the Company’s Golden Grove North Project, it has already intersected up to 7% Zinc, 1.3% Copper and 2.1g/t Gold at Orcus and has identified several, strong EM conductors to be drill tested along the 5km long VMS (Volcanogenic Massive Sulfide) Target Zone, along strike to the world class Golden Grove Zinc-Copper-Gold Mine. Venture recently doubled the Nickel-Copper-PGE landholding at Kulin by securing two highly prospective 20-kilometre long Ni-Cu-PGE targets.

COVID-19 Business Update

Venture is responding to the COVID-19 pandemic to ensure impacts are mitigated across all aspects of Company operations. Venture continues to assess developments and update the Company’s response with the highest priority on the safety and wellbeing of employees, contractors and local communities. Venture will utilise a local workforce and contractors where possible, and for critical mine employees that are required to fly in and fly out, Venture has obtained the appropriate COVID-19 entry permits into Tasmania.

Authorised by: For more information, please contact

Andrew Radonjic Cameron Morse Managing Director Media enquiries Venture Minerals Limited FTI Consulting Telephone: +61 (0) 8 6279 9428 Telephone: +61 (0) 8 9321 8533 Email: [email protected] Mobile: +61 (0) 433 886 871 Email: [email protected]

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Page 34

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Appendix One

JORC Code, 2012 Edition | ‘Table 1’ Report

Section 1 Sampling Techniques and Data

(Criteria in this section apply to all succeeding sections)

Criteria JORC Code explanation Commentary
Sampling
techniques
Nature and quality of sampling (e.g.: 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.

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 (e.g.: ‘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 (e.g.:
submarine nodules) may warrant disclosure of detailed
information.
Six (6) diamond drill holes BWDD001, ORDD001,
ORDD002, VUDD001, VWDD001 and VWDD002 for
1,906.6 m and eight (8) RC drill holes ORRC001,
ORRC002, ORRC003, ORRC004, ORRC005,
ORRC006, VWRC001 and VWRC002 for 1,517 m were
drilled into the Bridge Well Gold target, the Orcus,
Vulcan and Vulcan West VMS targets. All assays
completed are reported.

Drill core was cut by diamond core saw and continuous
half or quarter core samples taken for assay in intervals
ranging from 0.15 m to 3.63 m according to lithological
criteria.

RC holes were entirely sampled by splitter in 1m
intervals, 4m composite samples and selected 1m
intervals were assayed.

Drilling and sampling was supervised by a suitably
qualified Venture Minerals geologist.

Vortex Geophysics was contracted to conduct a Down-
Hole Transient Electromagnetic (DHTEM) survey over
ORDD001, ORRC003, ORRC006, VUDD001 &
VWDD001 using the below:

10m with 5m station spacing

400m x 400m TX Loop, ~95A TX current

Vortex VTX-100 Transmitter, 0.25Hz frequency

EMIT SMART em24 Receiver

EMIT Digiatlantis RX-sensor

A, U and V component readings.
Data quality control was carried out on a daily basis by
Vortex on site. Supervision, data processing and the
production of GIS ready imagery and target modelling
was conducted by Core Geophysics Pty Ltd.

GEM Geophysics Pty Ltd (GEM) was contracted to
conduct a Moving Loop Electromagnetic (MLEM)
survey over the Neptune target using an 80A
transmitter, 200 m x 200 m loops, a high temperature
SQUID sensor and SMARTem24 receiver. A total of
21.6 line-km of MLEM data were acquired over the
broader Neptune VMS Target Zone. Receiver line
spacing was 400 m approximately perpendicular to the
known stratigraphy (090 and 110 degrees UTM), tie
lines were not designed. Data quality control was
carried out on a daily basis by GEM on site.
Supervision, data processing and the production of GIS
ready imagery and target modelling was conducted by
Core Geophysics Pty Ltd.
Drilling techniques
Drill type (e.g.: core, reverse circulation, open-hole
hammer, rotary air blast, auger, Bangka, sonic, etc..)
and details (e.g.: 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..).
Diamond drill holes were drilled by Terra Drilling Pty
Ltd Services using a truck mounted KWL 1600
diamond coring rig. The holes were rock rolled then
drilled HQ (64 mm) diameter to fresh rock, then NQ (48
mm) diameter for the remainder.

Drill core was orientated wherever possible, and all
holes were downhole surveyed with a single shot
camera.

The RC drilling was conducted for Venture Minerals by
K & J Drilling Pty Ltd using a 5.25-inch diameter face
sampling hammer and bit.

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Criteria JORC Code explanation Commentary
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.
Core recoveries were calculated by a Venture Minerals
geologist by measuring recovered core length vs
downhole interval length.

Average diamond drill core recovery was >99%.
Average diamond drill core recovery for the assayed
zones was also >99%.

RC drilling recovery was qualitatively determined and
considered acceptable.

Grade recovery relationships are not known in historic
sampling.
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 of the diamond drill core was geologically logged by
a suitably qualified Venture Minerals geologist.
Alteration and mineralisation mineral abundances were
visually estimated.

Diamond drill core was orientated using a Boart
Longyear Trucore Upix Orientation tool and structurally
logged by a suitably qualified Venture Minerals
geologist.

Diamond drill core was orientation surveyed using a
single shot survey tool.

The detail of geological logging for the diamond drill
holes is considered sufficient for mineral exploration.

All RC drill samples were qualitatively geologically
logged by a suitably qualified Venture Minerals
geologist. Observed sulfide mineralisation was verified
to contain Cu, Zn and Pb with a handheld portable
XRF.

Mineral Resources have not been estimated.
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.
The cutting and sampling of core samples was
conducted by a Venture Minerals field technician using
a diamond core saw under supervision of a suitably
qualified Venture Minerals geologist.

Potentially mineralised zones were ½ core sampled in
geological intervals ranging from 0.20 m to 2.50 m
length. Lower priority alteration zones were ¼ core
sampled in geological intervals ranging from 0.50 m to
3.63 m. Selected representative lithologies were either
½ core or ¼ core sampled.

Core samples were collected into calico bags and
submitted to Intertek Genalysis, Perth (“Intertek”)
where they were dried, crushed and entirely pulverised
to nominally 85% passing 75 microns for assay.

Core sampling was continuous leaving continuous
remnant half core (minimum) in the trays for future
reference.

Core sample weights for assay ranged from 0.4 kg to
7.2 kg each (mean 2.6 kg).

The assay results match observed mineralisation well
and the ½ or ¼ core sample sizes are considered
adequate for the observed mineralisation.

Core duplicate samples were collected at a minimum
rate of one duplicate per 38 samples.

RC holes were entirely sampled by splitter in 1m
intervals, 4m composite and selected 1m interval (1-5
kg) samples were submitted to Intertek.
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.
Assaying was conducted at Intertek, Perth. Gold was
analysed by industry standard 50g charge fire assay
with ICP-MS or with ICP-OES finish. Cu, Zn, Pb, Co,
Sn and Sb were determined by industry standard 4
acid (perchloric, nitric, hydrochloric and hydrofluoric)
digestion with ICP-OES finish.

Commercially certified multi element reference
materials of appropriate grades were included in the
assay sample submissions by Venture Minerals at a
minimum rate of one standard per 27 samples. Results
for Cu and Pb are within 10% of the certified values, Zn
and Sb are within 20% of the certified values, and Au
within 15 % of the certified values.
Verification of
samplingand
The verification of significant intersections by either
independent oralternative company personnel.
The assay results are compatible with observed
mineralogy.

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Criteria JORC Code explanation Commentary
assaying
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.
Twinned holes were not used and not considered
necessary at this early stage of exploration.

Primary data is stored and documented in industry
standard ways.

Venture Minerals assay data is as reported by Intertek
and has not been adjusted in any way.

Remnant assay pulps are held in storage by Venture
Minerals.
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.
Drill hole collars were determined by handheld GPS
considered accurate to ±5 m.

All co-ordinates were recorded in MGA Zone 50 datum
GDA94.

Survey control for the MLEM survey work is by GPS
using the MGA Zone 50 GDA94 grid and datum.

Topographic control provided by government 250,000
topographic map sheets and a Digital Terrain Model
based on the 30 m Shuttle Radar Topographic Mission
data.
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.
The drilling is of reconnaissance nature and not
conducted on a regular grid spacing.

The reported drill results are not sufficient to establish
mineral resources.

4m composite sampling was applied for the RC drilling
and anomalous composites were resampled by 1m
splits.
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.
Fabrics in orientated drill core indicate drilling was at a
moderate to high angle to stratigraphy and observed
sulfide zones in ORDD001, ORDD002, VUDD001,
VWDD001 & VWDD002.

Fabrics in orientated drill core indicate drilling was at a
moderate angle to stratigraphy and observed sulfide
zones in BWDD001.

ORRC001,002,003,004,005 & 006 and VWRC001 &
VWRC002 were drilled at a high angle to the known
stratigraphy.

The MLEM survey lines were perpendicular to
stratigraphy and the target mineralisation orientation.
Sample security
The measures taken to ensure sample security.
The chain of custody for all Venture samples from
collection to dispatch to assay laboratory is managed
by Venture personnel. Sample numbers are unique
and do not include any locational information useful to
non-Venture personnel. The level of security is
considered appropriate for such reconnaissance
sampling.
Audits or reviews
The results of any audits or reviews of sampling
techniques and data.
The assay results agree well with the observed
materials.

Section 2 Reporting of Exploration Results

(Criteria listed in the preceding section also apply to this section)

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 Golden Grove North Project consists of
Exploration Licences 59/2243, 59/2244, 59/2285,
59/2288, 59/2506, 59/1989, and Prospecting Licence
59/2116.

Exploration Licences 59/2243, 59/2244, 59/2285,
59/2288 and 59/2506 are 100% held by Venture Z Ltd
(a wholly owned subsidiary of Venture Minerals
Limited), whilst Prospecting Licence 59/2116 is 100%
held by Venture Minerals Limited.

Venture Minerals has entered into a Joint Venture
agreement with Bright Point Gold Ltd over E59/1989 as
outlined in previous Venture Minerals announcements
to the ASX and additionally available from
http://ventureminerals.com.au.

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Criteria JORC Code explanation Commentary
Exploration done
by other parties
Acknowledgment and appraisal of exploration by other
parties.
Documented previous explorers within the area now
covered by Golden Grove North most notably include
Merritt Mining NL, Prosperity Resources Ltd, Comet
Resources Ltd, Ferrowest Limited, Aurox Resources
Ltd and Arimco Mining Pty Ltd.

Refer to previous Venture Minerals announcements to
the ASX and additionally available from
http://ventureminerals.com.aufor historic drill holes
around Bridge Well, Orcus, Vulcan & Vulcan West and
soil sampling as announced to ASX on 15 September
2020 and 30 October 2018.

Refer to previous Venture Minerals announcements to
the ASX and additionally available from
http://ventureminerals.com.aufor the historic RAB
drilling within the Neptune VMS Target Zone as
announced to ASX on 28 April 2020.
Geology
Deposit type, geological setting and style of
mineralisation.
The exploration area is within the northern part of the
Yalgoo-Warriedar Greenstone Belt of the Western
Australian Archean Yilgarn Craton. The Yalgoo-
Warriedar Greenstone Belt consists of supracrustal
sediments including felsic volcaniclastics, mafic and
ultramafic volcanic and a variety of ultramafic to felsic
intrusives bounded by granitic batholiths. The fold belt
is characterised by narrow zones of high strain
separating weakly deformed zones. The Yalgoo-
Warriedar Greenstone Belt contains numerous gold,
BIF-hosted iron, and base metal prospects and
deposits. The southern part of the project is located
within the Golden Grove Domain and includes volcanic
and volcanogenic rocks broadly correlated with the
host stratigraphy at the Golden Grove Mine.

The southern section of the project is located in
northeast flank of the Warriedar Fold Belt in the Golden
Grove Domain. The Golden Grove Domain has a
layered stratigraphy that is laterally continuous over
some 30 kms. Within this, the Golden Grove Formation
is a layered rhyodacitic volcaniclastic succession that
underlies and hosts VMS deposits. Dacitic and
rhyodacitic volcanics of the Scuddles Formation are
the main rock types of the hanging wall. Bedded
tuffaceous volcaniclastic rocks of the Golden Grove
Formation are subdivided into six members, based on
facies, grain-size variation, abundance of volcanic
quartz grains and bedding characteristics.
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.
The reported drill hole coordinates, depths,
orientations, hole lengths and results are given in
Tables 1 and 2.

Coordinates are in MGA Zone 50 datum GDA94.

Collar location was determined by handheld Garmin
GPS64 and Garmin GPS64sx and are considered
accurate to c. 5m.

Elevation was determined from a DTM derived from
the SRTM 1 arc-second digital elevation data.
Data aggregation
methods
In reporting Exploration Results, weighting averaging
techniques, maximum and/or minimum grade
truncations (e.g. 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.
Assay results given in Table 2 represent the drill core
and the drill cuttings intervals as sampled and
assayed.

Upper cuts have not been applied.

Metal equivalents have not been applied.

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Criteria JORC Code explanation Commentary
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 (e.g. ‘down hole length, true width not known’).
The down hole thicknesses are estimated to represent
approximately 70% or more of the interpreted true
thicknesses.

Previous drilling at the Orcus Prospect includes RC
holes ORRC001, ORRC002 & ORRC003 as previously
announced to the ASX on 2 December 2020 and
additionally available from
http://ventureminerals.com.au.

Drill hole spacing ranges from c. 45 m to 1.0 km.
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.
An appropriate cross section and exploration plan is
included in the body of this release.

Coordinates and orientation of the core drill holes are
given in Table 1.
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.
Assay results and intervals as sampled are reported in
Table 2.
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.
The targets shown in the attached plans have been
defined by geological mapping, the Company’s
understanding of historic drilling (Refer to ASX
Announcement 15 September 2020) and by the
Moving Loop Electromagnetic (MLEM) surveying
referred to in this announcement and previous Venture
Minerals announcements to the ASX.

Significant historic drill hole and geochemical results
are represented in the accompanying map and section.
The project is at a reconnaissance exploration stage
and bulk density, geotechnical, hydrogeological and
metallurgical work has not been done.

An appropriate exploration plan is included in the body
of this release.
Further work
The nature and scale of planned further work (e.g. 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.
Venture is proposing follow-up drilling of the DHTEM
plate below ORRC003. The Company is also
proposing more surface sampling and geological
mapping over the Neptune VMS Target Zone and
follow-up drilling.

Appropriate cross section and exploration target plans
are included in the body of this release.

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Page 39

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