|
LSR ASX Announcement
ASX ANNOUNCEMENT
2nd February 2016 Electronic lodgement
COMPANY SNAPSHOT
LODESTAR MINERALS LIMITED ABN: 32 127 026 528
CONTACT DETAILS
Bill Clayton, Managing Director
+61 8 9423 3200
Registered and Principal Office Level 2, 55 Carrington Street
Nedlands, WA 6009
PO Box 985
Nedlands, WA, 6909 [email protected] www.lodestarminerals.com.au
CAPITAL STRUCTURE
Shares on Issue:
352,157,030 (LSR)
Options on Issue:
43,550,127 (unlisted)
34,067,203 (listed - 31 Mar 2016)
ASX: LSR
PROJECTS
Peak Hill - Doolgunna: Camel Hills - gold Neds Creek - gold Marymia - gold
Imbin - gold and base metals
TARGET EXTENDED TO 150M AT BIG SKY HIGH-GRADE GOLD SYSTEM
HIGHLIGHTS
-
Auger sampling returns widespread elevated gold mineralisation with results up to 11g/t.
-
A clear 150m trend identified west and south of the high-grade lode intersected in maiden Big Sky RC drill program.
-
High priority, 1,000m follow-up RC drill program of this area scheduled by end of March quarter, subject to statutory approval and seasonal weather conditions.
-
Further evidence gold mineralisation at Camel Hills is related to magnetic contact of Petter Calc-silicate unit - 6km of prospective contact west of Big Sky remains untested.
West Australian gold and base metal explorer Lodestar Minerals Limited (ASX:LSR, "Lodestar" or "the Company") advises that is has received assay results for the auger geochemical program completed in December 2015 at the Big Sky prospect, within the Company's wholly-owned Camel Hills project.
Camel Hills is located within the Errabiddy Shear Zone at the boundary of the Archaean Narryer Terrane and Palaeoproterozoic rocks of the Glenburgh Terrane, 200 kilometres northwest of Meekatharra (see Figure 1). Previous explorers identified strongly anomalous gold in soil and stream samples over a 6 kilometre by 2 kilometre area, centred on the Camel Hills tenement E09/20991.
1 See Desert Mines and Metals Limited (ASX:DSN) ASX release dated 22nd April 2013.
Big Sky
Figure 1 Location Plan - Camel Hills project tenements and Big Sky gold prospect.
Lodestar completed an extensive program of detailed, shallow auger sampling throughout the Big Sky area to identify potential extensions to the existing high-grade gold lode. The maiden RC drill program completed at Big Sky in September 2015 intersected numerous ore grade intervals including 6 metres at 6.6g/t gold from 13 metres, including 1 metre at 33.3g/t gold from 13 metres, and 6 metres at 20.3g/t gold from 21 metres, including 1 metre at 105g/t gold from 21 metres (see ASX release dated 20 October 2015).
Auger sampling, generally completed to a depth of less than 1 metre, was carried out on a 5 metre by 5 metre grid around the lode outcrop and on a 20 metre by 5 metre grid elsewhere. The high-grade lode intersected in RC drilling suggests a true width of approximately 3 metres and the auger spacing was designed to provide sufficient cover to identify any repeat lodes.
The sampling was intended to intersect the weakly weathered basement below colluvial cover of variable thickness. Auger sampling of this nature is designed to identify an area with elevated gold mineralisation above background levels which is typically only a small fraction of grades encountered in drilling, should mineralised structures exist.
Lodestar submitted over 1,000 auger samples and of these, 197 reported anomalous values of greater than 20ppb gold and 47 samples are regarded as highly anomalous, with values greater than 60ppb gold.
Full results of the auger program are listed in Table 1.
Sampling around the discovery high-grade lode reported strongly elevated gold, up to 11g/t, with higher values extending in a zone, oriented at a low angle to the magnetic contact, 150 metres west and south of the lode tested by RC drilling (see Figures 2 and 3).
70% of the highly anomalous samples occur within the trend extending from the discovery lode.
Inset Figure 3
Figure 2: Big Sky auger sample results showing gold distribution (MGA94 Zone 50)
LCC012 - 6m @20.3g/t Au from 21m, including 1m @ 105g/t Au from 21m
LCC011 - 6m @ 6.6g/t Au from 13m, including 1m @ 33.3g/t Au from 13m
LCR012 - 5m @1.3g/t Au from 5m
Figure 3: RC drill target defined by auger sampling.
A 1,000m RC program will be designed to test the auger geochemical target over a 150 metre strike length. Strong vertical lineation preserved in the vein system indicates potential for down-plunge extensions to high-grade shoots and the drilling will target depth extensions to the lode system in addition to the strike defined by the auger sampling. Drilling is planned by the end of the March quarter, subject to statutory approvals and weather conditions.
Samples from the auger program were assayed for sulphur as a proxy for sulphide mineralisation. The results define a zone of low-gold with elevated sulphur associated with the westerly projection of the magnetic contact. Sulphur is believed to represent part of a zoned hydrothermal event that gave rise to gold mineralisation and this finding adds further conviction to the belief that the Petter Calc-silicate contact is a key exploration target that is untested in the area west of Big Sky. A detailed magnetic survey of this contact is will be completed, extending 6 kilometres west of Big Sky, prior to commencing regional geochemical sampling.
Bill Clayton Media Enquiries:
Managing Director Michael Vaughan [email protected]
+61 422 602 720
Competent Person Statement
The information in this report that relates to Exploration Results is based on information compiled by Bill Clayton, Managing Director, who is a Member of the Australasian Institute of Geoscientists and has sufficient experience of relevance to the styles of mineralisation and the types of deposits under consideration, and to the activities undertaken, to qualify as a Competent Person as defined in the 2012 Edition of the Joint Ore Reserves Committee (JORC) Australasian Code for Reporting of Exploration Results, Mineral Resources and Ore Reserves. Mr Clayton consents to the inclusion in this report of the matters based on the information in the form and context in which it appears.
The information in this announcement that relates to previously released exploration results was disclosed under JORC 2012 in the ASX announcements dated 28th August 2015 "First Pass Drill Results from Big Sky Gold Prospect" and 20th October 2015 "Big Sky RC Drilling results high-grade gold". These announcements are available to view on the Lodestar website. The company confirms that it is not aware of any new information or data that materially affects the information included in the original market announcement. The company confirms that the form and context in which the Competent Person's findings are presented have not been materially modified from the original market announcement.
Table 1 Auger Sample Locations and Assay Results
HoleID
|
SampleID
|
DepthTo
|
nominal RL
|
East
|
North
|
Au_ppb
|
S_ppm
|
LCA0030
|
LSR28546
|
|
450
|
478,746.4
|
7,179,793.5
|
22
|
200
|
LCA0031
|
LSR28547
|
|
450
|
478,744.7
|
7,179,798.2
|
5
|
100
|
LCA0032
|
LSR28548
|
|
450
|
478,743.0
|
7,179,802.9
|
43
|
200
|
LCA0033
|
LSR28549
|
|
450
|
478,741.3
|
7,179,807.6
|
22
|
250
|
LCA0034
|
LSR28550
|
|
450
|
478,739.6
|
7,179,812.3
|
41
|
350
|
LCA0035
|
LSR28551
|
|
450
|
478,737.9
|
7,179,816.9
|
5
|
150
|
LCA0036
|
LSR28552
|
|
450
|
478,736.2
|
7,179,821.6
|
3
|
100
|
LCA0037
|
LSR28553
|
|
450
|
478,734.5
|
7,179,826.3
|
15
|
300
|
LCA0068
|
LSR28535
|
|
450
|
478,738.3
|
7,179,830.4
|
5
|
200
|
LCA0069
|
LSR28536
|
|
450
|
478,740.0
|
7,179,825.7
|
4
|
250
|
LCA0070
|
LSR28537
|
|
450
|
478,741.7
|
7,179,821.0
|
39
|
300
|
LCA0071
|
LSR28538
|
|
450
|
478,743.4
|
7,179,816.3
|
22
|
300
|
LCA0072
|
LSR28540
|
|
450
|
478,745.1
|
7,179,811.6
|
9
|
150
|
LCA0073
|
LSR28541
|
|
450
|
478,746.8
|
7,179,806.9
|
35
|
300
|
LCA0074
|
LSR28542
|
|
450
|
478,748.6
|
7,179,802.2
|
6
|
100
|
LCA0075
|
LSR28543
|
|
450
|
478,750.3
|
7,179,797.5
|
15
|
250
|
LCA0076
|
LSR28544
|
|
450
|
478,752.0
|
7,179,792.8
|
40
|
250
|
LCA0077
|
LSR28545
|
|
450
|
478,753.7
|
7,179,788.1
|
16
|
200
|
LCA0081
|
LSR28526
|
|
450
|
478,757.5
|
7,179,792.2
|
9
|
100
|
LCA0082
|
LSR28527
|
|
450
|
478,755.8
|
7,179,796.9
|
28
|
100
|
LCA0083
|
LSR28528
|
|
450
|
478,754.1
|
7,179,801.6
|
5
|
100
|
LCA0084
|
LSR28529
|
|
450
|
478,752.4
|
7,179,806.3
|
9
|
100
|
LCA0085
|
LSR28530
|
|
450
|
478,750.7
|
7,179,811.0
|
14
|
250
|
LCA0086
|
LSR28531
|
|
450
|
478,749.0
|
7,179,815.7
|
12
|
100
|
LCA0087
|
LSR28532
|
|
450
|
478,747.3
|
7,179,820.4
|
5
|
150
|
LCA0088
|
LSR28533
|
|
450
|
478,745.6
|
7,179,825.1
|
12
|
250
|
LCA0089
|
LSR28534
|
|
450
|
478,743.8
|
7,179,829.8
|
11
|
200
|
LCA0119
|
LSR28517
|
|
450
|
478,746.0
|
7,179,838.5
|
15
|
100
|
LCA0121
|
LSR28518
|
|
450
|
478,749.4
|
7,179,829.1
|
6
|
100
|
LCA0122
|
LSR28521
|
|
450
|
478,751.1
|
7,179,824.4
|
11
|
100
|
LCA0124
|
LSR28522
|
|
450
|
478,754.5
|
7,179,815.0
|
11
|
100
|
LCA0126
|
LSR28523
|
|
450
|
478,758.0
|
7,179,805.6
|
8
|
100
|
LCA0127
|
LSR28524
|
|
450
|
478,759.7
|
7,179,800.9
|
28
|
200
|
LCA0128
|
LSR28525
|
|
450
|
478,761.4
|
7,179,796.2
|
19
|
250
|
LCA0138
|
LSR28512
|
|
450
|
478,758.4
|
7,179,819.1
|
15
|
150
|
LCA0139
|
LSR28513
|
|
450
|
478,756.7
|
7,179,823.8
|
14
|
100
|
LCA0140
|
LSR28514
|
|
450
|
478,755.0
|
7,179,828.5
|
13
|
100
|
LCA0141
|
LSR28515
|
|
450
|
478,753.2
|
7,179,833.2
|
7
|
150
|
LCA0142
|
LSR28516
|
|
450
|
478,751.5
|
7,179,837.9
|
13
|
150
|
LCA0171
|
LSR28502
|
|
450
|
478,755.4
|
7,179,841.9
|
24
|
300
|
LCA0172
|
LSR28503
|
|
450
|
478,757.1
|
7,179,837.2
|
11
|
150
|
LCA0173
|
LSR28504
|
|
450
|
478,758.8
|
7,179,832.5
|
12
|
250
|
HoleID
|
SampleID
|
DepthTo
|
nominal RL
|
East
|
North
|
Au_ppb
|
S_ppm
|
LCA0174
|
LSR28505
|
|
450
|
478,760.5
|
7,179,827.8
|
10
|
100
|
LCA0175
|
LSR28506
|
|
450
|
478,762.2
|
7,179,823.2
|
10
|
100
|
LCA0176
|
LSR28507
|
|
450
|
478,763.9
|
7,179,818.5
|
110
|
100
|
LCA0177
|
LSR28508
|
|
450
|
478,765.6
|
7,179,813.8
|
31
|
150
|
LCA0178
|
LSR28509
|
|
450
|
478,767.4
|
7,179,809.1
|
10
|
100
|
LCA0179
|
LSR28510
|
|
450
|
478,769.1
|
7,179,804.4
|
50
|
100
|
LCA0180
|
LSR28511
|
|
450
|
478,770.8
|
7,179,799.7
|
10
|
150
|
LCA0186
|
LSR28492
|
|
450
|
478,774.6
|
7,179,803.7
|
15
|
150
|
LCA0187
|
LSR28493
|
|
450
|
478,772.9
|
7,179,808.4
|
20
|
150
|
LCA0188
|
LSR28494
|
|
450
|
478,771.2
|
7,179,813.1
|
18
|
100
|
LCA0189
|
LSR28495
|
|
450
|
478,769.5
|
7,179,817.8
|
33
|
250
|
LCA0190
|
LSR28496
|
|
450
|
478,767.8
|
7,179,822.5
|
15
|
300
|
LCA0191
|
LSR28497
|
|
450
|
478,766.1
|
7,179,827.2
|
123
|
350
|
LCA0192
|
LSR28498
|
|
450
|
478,764.4
|
7,179,831.9
|
5
|
100
|
LCA0193
|
LSR28500
|
|
450
|
478,762.6
|
7,179,836.6
|
7
|
100
|
LCA0194
|
LSR28501
|
|
450
|
478,760.9
|
7,179,841.3
|
9
|
100
|
LCA0223
|
LSR28482
|
|
450
|
478,764.8
|
7,179,845.4
|
38
|
400
|
LCA0224
|
LSR28483
|
|
450
|
478,766.5
|
7,179,840.7
|
12
|
100
|
LCA0225
|
LSR28484
|
|
450
|
478,768.2
|
7,179,836.0
|
5
|
100
|
LCA0226
|
LSR28485
|
|
450
|
478,769.9
|
7,179,831.3
|
22
|
150
|
LCA0227
|
LSR28486
|
|
450
|
478,771.6
|
7,179,826.6
|
21
|
200
|
LCA0228
|
LSR28487
|
|
450
|
478,773.3
|
7,179,821.9
|
29
|
250
|
LCA0229
|
LSR28488
|
|
450
|
478,775.0
|
7,179,817.2
|
43
|
350
|
LCA0230
|
LSR28489
|
|
450
|
478,776.7
|
7,179,812.5
|
28
|
350
|
LCA0231
|
LSR28490
|
|
450
|
478,778.5
|
7,179,807.8
|
46
|
200
|
LCA0232
|
LSR28491
|
|
450
|
478,780.2
|
7,179,803.1
|
65
|
250
|
LCA0238
|
LSR28473
|
|
450
|
478,784.0
|
7,179,807.1
|
11
|
150
|
LCA0239
|
LSR28474
|
|
450
|
478,782.3
|
7,179,811.8
|
49
|
250
|
LCA0240
|
LSR28475
|
|
450
|
478,780.6
|
7,179,816.5
|
55
|
100
|
LCA0241
|
LSR28476
|
|
450
|
478,778.9
|
7,179,821.2
|
117
|
250
|
LCA0242
|
LSR28477
|
|
450
|
478,777.2
|
7,179,825.9
|
69
|
250
|
LCA0243
|
LSR28478
|
|
450
|
478,775.5
|
7,179,830.6
|
34
|
150
|
LCA0244
|
LSR28480
|
|
450
|
478,773.8
|
7,179,835.3
|
26
|
250
|
LCA0245
|
LSR28481
|
|
450
|
478,772.0
|
7,179,840.0
|
7
|
100
|
LCA0275
|
LSR28463
|
|
450
|
478,774.2
|
7,179,848.8
|
41
|
300
|
LCA0276
|
LSR28464
|
|
450
|
478,775.9
|
7,179,844.1
|
22
|
300
|
LCA0277
|
LSR28465
|
|
450
|
478,777.6
|
7,179,839.4
|
33
|
100
|
LCA0278
|
LSR28466
|
|
450
|
478,779.3
|
7,179,834.7
|
15
|
300
|
LCA0279
|
LSR28467
|
|
450
|
478,781.0
|
7,179,830.0
|
179
|
350
|
LCA0280
|
LSR28468
|
|
450
|
478,782.7
|
7,179,825.3
|
18
|
150
|
LCA0281
|
LSR28469
|
|
450
|
478,784.4
|
7,179,820.6
|
15
|
100
|
LCA0282
|
LSR28470
|
|
450
|
478,786.1
|
7,179,815.9
|
20
|
250
|
LCA0283
|
LSR28471
|
|
450
|
478,787.9
|
7,179,811.2
|
25
|
150
|
LCA0284
|
LSR28472
|
|
450
|
478,789.6
|
7,179,806.5
|
25
|
100
|
LCA0290
|
LSR28453
|
|
450
|
478,793.4
|
7,179,810.6
|
16
|
250
|
LCA0291
|
LSR28454
|
|
450
|
478,791.7
|
7,179,815.3
|
55
|
300
|
HoleID
|
SampleID
|
DepthTo
|
nominal RL
|
East
|
North
|
Au_ppb
|
S_ppm
|
LCA0292
|
LSR28455
|
|
450
|
478,790.0
|
7,179,820.0
|
67
|
300
|
LCA0293
|
LSR28456
|
|
450
|
478,788.3
|
7,179,824.7
|
22
|
100
|
LCA0294
|
LSR28457
|
|
450
|
478,786.6
|
7,179,829.4
|
66
|
250
|
LCA0295
|
LSR28458
|
|
450
|
478,784.9
|
7,179,834.1
|
36
|
200
|
LCA0296
|
LSR28460
|
|
450
|
478,783.1
|
7,179,838.7
|
19
|
150
|
LCA0297
|
LSR28461
|
|
450
|
478,781.4
|
7,179,843.4
|
18
|
100
|
LCA0298
|
LSR28462
|
|
450
|
478,779.7
|
7,179,848.1
|
16
|
200
|
LCA0327
|
LSR28444
|
|
450
|
478,783.6
|
7,179,852.2
|
32
|
300
|
LCA0328
|
LSR28445
|
|
450
|
478,785.3
|
7,179,847.5
|
4
|
150
|
LCA0329
|
LSR28446
|
|
450
|
478,787.0
|
7,179,842.8
|
27
|
250
|
LCA0330
|
LSR28447
|
|
450
|
478,788.7
|
7,179,838.1
|
45
|
450
|
LCA0331
|
LSR28448
|
|
450
|
478,790.4
|
7,179,833.4
|
11
|
100
|
LCA0332
|
LSR28449
|
|
450
|
478,792.1
|
7,179,828.7
|
13
|
100
|
LCA0333
|
LSR28450
|
|
450
|
478,793.8
|
7,179,824.0
|
23
|
250
|
LCA0334
|
LSR28451
|
|
450
|
478,795.5
|
7,179,819.3
|
38
|
400
|
LCA0335
|
LSR28452
|
|
450
|
478,797.3
|
7,179,814.6
|
14
|
100
|
LCA0343
|
LSR28435
|
|
450
|
478,801.1
|
7,179,818.7
|
15
|
100
|
LCA0344
|
LSR28436
|
|
450
|
478,799.4
|
7,179,823.4
|
121
|
400
|
LCA0345
|
LSR28437
|
|
450
|
478,797.7
|
7,179,828.1
|
19
|
150
|
LCA0346
|
LSR28438
|
|
450
|
478,796.0
|
7,179,832.8
|
22
|
250
|
LCA0347
|
LSR28440
|
|
450
|
478,794.3
|
7,179,837.5
|
33
|
200
|
LCA0348
|
LSR28441
|
|
450
|
478,792.5
|
7,179,842.2
|
24
|
200
|
LCA0349
|
LSR28442
|
|
450
|
478,790.8
|
7,179,846.9
|
26
|
100
|
LCA0350
|
LSR28443
|
|
450
|
478,789.1
|
7,179,851.6
|
6
|
250
|
LCA0379
|
LSR28427
|
|
450
|
478,793.0
|
7,179,855.6
|
218
|
150
|
LCA0380
|
LSR28428
|
|
450
|
478,794.7
|
7,179,850.9
|
37
|
300
|
LCA0381
|
LSR28429
|
|
450
|
478,796.4
|
7,179,846.2
|
19
|
150
|
LCA0382
|
LSR28430
|
|
450
|
478,798.1
|
7,179,841.5
|
37
|
150
|
LCA0383
|
LSR28431
|
|
450
|
478,799.8
|
7,179,836.8
|
39
|
250
|
LCA0384
|
LSR28432
|
|
450
|
478,801.5
|
7,179,832.1
|
41
|
200
|
LCA0385
|
LSR28433
|
|
450
|
478,803.2
|
7,179,827.4
|
31
|
350
|
LCA0386
|
LSR28434
|
|
450
|
478,804.9
|
7,179,822.7
|
15
|
100
|
LCA0396
|
LSR28420
|
|
450
|
478,808.8
|
7,179,826.8
|
22
|
150
|
LCA0397
|
LSR28421
|
|
450
|
478,807.1
|
7,179,831.5
|
30
|
300
|
LCA0398
|
LSR28422
|
|
450
|
478,805.4
|
7,179,836.2
|
37
|
250
|
LCA0399
|
LSR28423
|
|
450
|
478,803.7
|
7,179,840.9
|
371
|
100
|
LCA0400
|
LSR28424
|
|
450
|
478,801.9
|
7,179,845.6
|
22
|
100
|
LCA0401
|
LSR28425
|
|
450
|
478,800.2
|
7,179,850.3
|
38
|
350
|
LCA0402
|
LSR28426
|
|
450
|
478,798.5
|
7,179,855.0
|
14
|
300
|
LCA0431
|
LSR28412
|
|
450
|
478,802.4
|
7,179,859.0
|
7
|
150
|
LCA0432
|
LSR28413
|
|
450
|
478,804.1
|
7,179,854.3
|
11
|
100
|
LCA0433
|
LSR28414
|
|
450
|
478,805.8
|
7,179,849.6
|
6
|
200
|
LCA0434
|
LSR28415
|
|
450
|
478,807.5
|
7,179,844.9
|
10
|
200
|
LCA0435
|
LSR28416
|
|
450
|
478,809.2
|
7,179,840.3
|
72
|
350
|
LCA0436
|
LSR28417
|
|
450
|
478,810.9
|
7,179,835.6
|
30
|
100
|
LCA0437
|
LSR28418
|
|
450
|
478,812.6
|
7,179,830.9
|
30
|
150
|
HoleID
|
SampleID
|
DepthTo
|
nominal RL
|
East
|
North
|
Au_ppb
|
S_ppm
|
LCA0449
|
LSR28405
|
|
450
|
478,816.5
|
7,179,834.9
|
12
|
100
|
LCA0450
|
LSR28406
|
|
450
|
478,814.8
|
7,179,839.6
|
35
|
350
|
LCA0451
|
LSR28407
|
|
450
|
478,813.0
|
7,179,844.3
|
12
|
150
|
LCA0452
|
LSR28408
|
|
450
|
478,811.3
|
7,179,849.0
|
329
|
150
|
LCA0453
|
LSR28409
|
|
450
|
478,809.6
|
7,179,853.7
|
14
|
150
|
LCA0454
|
LSR28410
|
|
450
|
478,807.9
|
7,179,858.4
|
16
|
100
|
LCA0455
|
LSR28411
|
|
450
|
478,806.2
|
7,179,863.1
|
19
|
250
|
LCA0483
|
LSR28398
|
|
450
|
478,811.8
|
7,179,862.5
|
9
|
300
|
LCA0484
|
LSR28400
|
|
450
|
478,813.5
|
7,179,857.8
|
26
|
250
|
LCA0485
|
LSR28401
|
|
450
|
478,815.2
|
7,179,853.1
|
17
|
350
|
LCA0486
|
LSR28402
|
|
450
|
478,816.9
|
7,179,848.4
|
28
|
200
|
LCA0487
|
LSR28403
|
|
450
|
478,818.6
|
7,179,843.7
|
31
|
450
|
LCA0488
|
LSR28404
|
|
450
|
478,820.3
|
7,179,839.0
|
13
|
150
|
LCA0502
|
LSR28393
|
|
450
|
478,824.2
|
7,179,843.0
|
9
|
250
|
LCA0503
|
LSR28394
|
|
450
|
478,822.4
|
7,179,847.7
|
30
|
200
|
LCA0504
|
LSR28395
|
|
450
|
478,820.7
|
7,179,852.4
|
13
|
150
|
LCA0505
|
LSR28396
|
|
450
|
478,819.0
|
7,179,857.1
|
13
|
200
|
LCA0506
|
LSR28397
|
|
450
|
478,817.3
|
7,179,861.8
|
14
|
150
|
LCA0535
|
LSR28388
|
|
450
|
478,821.2
|
7,179,865.9
|
12
|
200
|
LCA0536
|
LSR28389
|
|
450
|
478,822.9
|
7,179,861.2
|
49
|
300
|
LCA0537
|
LSR28390
|
|
450
|
478,824.6
|
7,179,856.5
|
84
|
150
|
LCA0538
|
LSR28391
|
|
450
|
478,826.3
|
7,179,851.8
|
21
|
200
|
LCA0539
|
LSR28392
|
|
450
|
478,828.0
|
7,179,847.1
|
12
|
200
|
LCA0553
|
LSR28381
|
|
450
|
478,835.3
|
7,179,841.8
|
32
|
200
|
LCA0554
|
LSR28382
|
|
450
|
478,833.6
|
7,179,846.5
|
12
|
100
|
LCA0555
|
LSR28383
|
|
450
|
478,831.8
|
7,179,851.2
|
12
|
200
|
LCA0556
|
LSR28384
|
|
450
|
478,830.1
|
7,179,855.8
|
26
|
300
|
LCA0557
|
LSR28385
|
|
450
|
478,828.4
|
7,179,860.5
|
13
|
200
|
LCA0558
|
LSR28386
|
|
450
|
478,826.7
|
7,179,865.2
|
17
|
200
|
LCA0559
|
LSR28387
|
|
450
|
478,825.0
|
7,179,869.9
|
120
|
150
|
LCA0587
|
LSR28374
|
|
450
|
478,830.6
|
7,179,869.3
|
15
|
100
|
LCA0588
|
LSR28375
|
|
450
|
478,832.3
|
7,179,864.6
|
20
|
150
|
LCA0589
|
LSR28376
|
|
450
|
478,834.0
|
7,179,859.9
|
35
|
250
|
LCA0590
|
LSR28377
|
|
450
|
478,835.7
|
7,179,855.2
|
14
|
100
|
LCA0591
|
LSR28378
|
|
450
|
478,837.4
|
7,179,850.5
|
16
|
250
|
LCA0592
|
LSR28380
|
|
450
|
478,839.1
|
7,179,845.8
|
10
|
100
|
LCA0606
|
LSR28368
|
|
450
|
478,842.9
|
7,179,849.9
|
6
|
100
|
LCA0607
|
LSR28369
|
|
450
|
478,841.2
|
7,179,854.6
|
21
|
200
|
LCA0608
|
LSR28370
|
|
450
|
478,839.5
|
7,179,859.3
|
155
|
150
|
LCA0609
|
LSR28371
|
|
450
|
478,837.8
|
7,179,864.0
|
46
|
150
|
LCA0610
|
LSR28372
|
|
450
|
478,836.1
|
7,179,868.7
|
23
|
150
|
LCA0611
|
LSR28373
|
|
450
|
478,834.4
|
7,179,873.4
|
73
|
200
|
LCA0639
|
LSR28363
|
|
450
|
478,840.0
|
7,179,872.7
|
102
|
200
|
LCA0640
|
LSR28364
|
|
450
|
478,841.7
|
7,179,868.0
|
63
|
100
|
LCA0641
|
LSR28365
|
|
450
|
478,843.4
|
7,179,863.3
|
179
|
100
|
LCA0642
|
LSR28366
|
|
450
|
478,845.1
|
7,179,858.6
|
17
|
200
|
HoleID
|
SampleID
|
DepthTo
|
nominal RL
|
East
|
North
|
Au_ppb
|
S_ppm
|
LCA0643
|
LSR28367
|
|
450
|
478,846.8
|
7,179,853.9
|
7
|
150
|
LCA0658
|
LSR28356
|
|
450
|
478,852.3
|
7,179,853.3
|
13
|
100
|
LCA0659
|
LSR28357
|
|
450
|
478,850.6
|
7,179,858.0
|
2
|
100
|
LCA0660
|
LSR28358
|
|
450
|
478,848.9
|
7,179,862.7
|
5
|
150
|
LCA0662
|
LSR28360
|
|
450
|
478,845.5
|
7,179,872.1
|
30
|
100
|
LCA0663
|
LSR28361
|
|
450
|
478,843.8
|
7,179,876.8
|
2380
|
150
|
LCA0690
|
LSR28352
|
|
450
|
478,847.6
|
7,179,880.8
|
940
|
250
|
LCA0691
|
LSR28353
|
|
450
|
478,849.3
|
7,179,876.1
|
583
|
200
|
LCA0693
|
LSR28354
|
|
450
|
478,852.8
|
7,179,866.7
|
227
|
100
|
LCA0694
|
LSR28355
|
|
450
|
478,854.5
|
7,179,862.1
|
31
|
100
|
LCA0711
|
LSR28346
|
|
450
|
478,860.0
|
7,179,861.4
|
21
|
150
|
LCA0712
|
LSR28347
|
|
450
|
478,858.3
|
7,179,866.1
|
102
|
100
|
LCA0713
|
LSR28348
|
|
450
|
478,856.6
|
7,179,870.8
|
58
|
100
|
LCA0714
|
LSR28349
|
|
450
|
478,854.9
|
7,179,875.5
|
206
|
150
|
LCA0715
|
LSR28350
|
|
450
|
478,853.2
|
7,179,880.2
|
306
|
150
|
LCA0716
|
LSR28351
|
|
450
|
478,851.5
|
7,179,884.9
|
11000
|
400
|
LCA0741
|
LSR28340
|
|
450
|
478,855.3
|
7,179,889.0
|
619
|
350
|
LCA0742
|
LSR28341
|
|
450
|
478,857.0
|
7,179,884.3
|
91
|
200
|
LCA0743
|
LSR28342
|
|
450
|
478,858.7
|
7,179,879.6
|
35
|
150
|
LCA0744
|
LSR28343
|
|
450
|
478,860.5
|
7,179,874.9
|
32
|
150
|
LCA0745
|
LSR28344
|
|
450
|
478,862.2
|
7,179,870.2
|
27
|
150
|
LCA0746
|
LSR28345
|
|
450
|
478,863.9
|
7,179,865.5
|
10
|
100
|
LCA0763
|
LSR28332
|
|
450
|
478,869.4
|
7,179,864.8
|
12
|
250
|
LCA0764
|
LSR28333
|
|
450
|
478,867.7
|
7,179,869.5
|
18
|
100
|
LCA0765
|
LSR28334
|
|
450
|
478,866.0
|
7,179,874.2
|
10
|
100
|
LCA0766
|
LSR28335
|
|
450
|
478,864.3
|
7,179,878.9
|
143
|
100
|
LCA0767
|
LSR28336
|
|
450
|
478,862.6
|
7,179,883.6
|
87
|
150
|
LCA0768
|
LSR28337
|
|
450
|
478,860.9
|
7,179,888.3
|
86
|
300
|
LCA0769
|
LSR28338
|
|
450
|
478,859.2
|
7,179,893.0
|
8
|
100
|
LCA0791
|
LSR28324
|
|
450
|
478,861.3
|
7,179,901.8
|
8
|
100
|
LCA0793
|
LSR28325
|
|
450
|
478,864.7
|
7,179,892.4
|
12
|
150
|
LCA0794
|
LSR28326
|
|
450
|
478,866.4
|
7,179,887.7
|
26
|
150
|
LCA0795
|
LSR28327
|
|
450
|
478,868.1
|
7,179,883.0
|
23
|
200
|
LCA0796
|
LSR28328
|
|
450
|
478,869.9
|
7,179,878.3
|
68
|
200
|
LCA0797
|
LSR28329
|
|
450
|
478,871.6
|
7,179,873.6
|
13
|
150
|
LCA0798
|
LSR28330
|
|
450
|
478,873.3
|
7,179,868.9
|
9
|
100
|
LCA0799
|
LSR28331
|
|
450
|
478,875.0
|
7,179,864.2
|
8
|
100
|
LCA0814
|
LSR28314
|
|
450
|
478,880.5
|
7,179,863.6
|
5
|
100
|
LCA0815
|
LSR28315
|
|
450
|
478,878.8
|
7,179,868.3
|
9
|
150
|
LCA0816
|
LSR28316
|
|
450
|
478,877.1
|
7,179,873.0
|
11
|
100
|
LCA0817
|
LSR28317
|
|
450
|
478,875.4
|
7,179,877.6
|
9
|
100
|
LCA0818
|
LSR28318
|
|
450
|
478,873.7
|
7,179,882.3
|
5
|
150
|
LCA0819
|
LSR28320
|
|
450
|
478,872.0
|
7,179,887.0
|
18
|
200
|
LCA0821
|
LSR28321
|
|
450
|
478,868.6
|
7,179,896.4
|
39
|
100
|
LCA0822
|
LSR28322
|
|
450
|
478,866.9
|
7,179,901.1
|
26
|
150
|
LCA0823
|
LSR28323
|
|
450
|
478,865.1
|
7,179,905.8
|
15
|
200
|
HoleID
|
SampleID
|
DepthTo
|
nominal RL
|
East
|
North
|
Au_ppb
|
S_ppm
|
LCA0842
|
LSR28306
|
|
450
|
478,869.0
|
7,179,909.9
|
15
|
100
|
LCA0843
|
LSR28307
|
|
450
|
478,870.7
|
7,179,905.2
|
17
|
150
|
LCA0844
|
LSR28308
|
|
450
|
478,872.4
|
7,179,900.5
|
13
|
200
|
LCA0845
|
LSR28309
|
|
450
|
478,874.1
|
7,179,895.8
|
9
|
100
|
LCA0846
|
LSR28310
|
|
450
|
478,875.8
|
7,179,891.1
|
55
|
150
|
LCA0847
|
LSR28311
|
|
450
|
478,877.5
|
7,179,886.4
|
23
|
200
|
LCA0848
|
LSR28312
|
|
450
|
478,879.2
|
7,179,881.7
|
7
|
100
|
LCA0849
|
LSR28313
|
|
450
|
478,881.0
|
7,179,877.0
|
8
|
100
|
LCA0866
|
LSR28296
|
|
450
|
478,889.9
|
7,179,867.0
|
5
|
100
|
LCA0867
|
LSR28297
|
|
450
|
478,888.2
|
7,179,871.7
|
5
|
150
|
LCA0869
|
LSR28298
|
|
450
|
478,884.8
|
7,179,881.1
|
10
|
100
|
LCA0870
|
LSR28300
|
|
450
|
478,883.1
|
7,179,885.8
|
14
|
100
|
LCA0873
|
LSR28302
|
|
450
|
478,878.0
|
7,179,899.9
|
12
|
150
|
LCA0874
|
LSR28303
|
|
450
|
478,876.3
|
7,179,904.6
|
42
|
100
|
LCA0875
|
LSR28304
|
|
450
|
478,874.5
|
7,179,909.3
|
12
|
100
|
LCA0876
|
LSR28305
|
|
450
|
478,872.8
|
7,179,914.0
|
25
|
100
|
LCA0893
|
LSR28285
|
|
450
|
478,876.7
|
7,179,918.0
|
11
|
200
|
LCA0894
|
LSR28286
|
|
450
|
478,878.4
|
7,179,913.3
|
2
|
250
|
LCA0895
|
LSR28287
|
|
450
|
478,880.1
|
7,179,908.6
|
8
|
100
|
LCA0896
|
LSR28288
|
|
450
|
478,881.8
|
7,179,903.9
|
6
|
100
|
LCA0897
|
LSR28289
|
|
450
|
478,883.5
|
7,179,899.2
|
50
|
100
|
LCA0898
|
LSR28290
|
|
450
|
478,885.2
|
7,179,894.5
|
15
|
100
|
LCA0899
|
LSR28291
|
|
450
|
478,886.9
|
7,179,889.8
|
11
|
150
|
LCA0900
|
LSR28292
|
|
450
|
478,888.6
|
7,179,885.1
|
8
|
100
|
LCA0902
|
LSR28293
|
|
450
|
478,892.1
|
7,179,875.7
|
48
|
200
|
LCA0903
|
LSR28294
|
|
450
|
478,893.8
|
7,179,871.0
|
12
|
150
|
LCA0904
|
LSR28295
|
|
450
|
478,895.5
|
7,179,866.3
|
10
|
100
|
LCA0916
|
LSR28272
|
|
450
|
478,902.8
|
7,179,861.0
|
61
|
100
|
LCA0917
|
LSR28273
|
|
450
|
478,901.0
|
7,179,865.7
|
13
|
100
|
LCA0918
|
LSR28274
|
|
450
|
478,899.3
|
7,179,870.4
|
12
|
150
|
LCA0919
|
LSR28275
|
|
450
|
478,897.6
|
7,179,875.1
|
14
|
150
|
LCA0920
|
LSR28276
|
|
450
|
478,895.9
|
7,179,879.8
|
43
|
100
|
LCA0923
|
LSR28277
|
|
450
|
478,890.8
|
7,179,893.9
|
10
|
100
|
LCA0924
|
LSR28278
|
|
450
|
478,889.1
|
7,179,898.6
|
35
|
100
|
LCA0925
|
LSR28280
|
|
450
|
478,887.4
|
7,179,903.3
|
30
|
150
|
LCA0926
|
LSR28281
|
|
450
|
478,885.6
|
7,179,908.0
|
36
|
150
|
LCA0927
|
LSR28282
|
|
450
|
478,883.9
|
7,179,912.7
|
9
|
100
|
LCA0928
|
LSR28283
|
|
450
|
478,882.2
|
7,179,917.4
|
8
|
150
|
LCA0929
|
LSR28284
|
|
450
|
478,880.5
|
7,179,922.1
|
9
|
300
|
LCA0945
|
LSR28261
|
|
450
|
478,886.1
|
7,179,921.4
|
9
|
200
|
LCA0946
|
LSR28262
|
|
450
|
478,887.8
|
7,179,916.7
|
7
|
100
|
LCA0947
|
LSR28263
|
|
450
|
478,889.5
|
7,179,912.0
|
8
|
150
|
LCA0948
|
LSR28264
|
|
450
|
478,891.2
|
7,179,907.3
|
12
|
150
|
LCA0949
|
LSR28265
|
|
450
|
478,892.9
|
7,179,902.6
|
33
|
100
|
LCA0950
|
LSR28266
|
|
450
|
478,894.6
|
7,179,897.9
|
15
|
200
|
LCA0951
|
LSR28267
|
|
450
|
478,896.3
|
7,179,893.2
|
13
|
50
|
HoleID
|
SampleID
|
DepthTo
|
nominal RL
|
East
|
North
|
Au_ppb
|
S_ppm
|
LCA0955
|
LSR28268
|
|
450
|
478,903.2
|
7,179,874.5
|
13
|
150
|
LCA0956
|
LSR28269
|
|
450
|
478,904.9
|
7,179,869.8
|
12
|
150
|
LCA0957
|
LSR28270
|
|
450
|
478,906.6
|
7,179,865.1
|
27
|
150
|
LCA0958
|
LSR28271
|
|
450
|
478,908.3
|
7,179,860.4
|
10
|
100
|
LCA0972
|
LSR28249
|
|
450
|
478,905.3
|
7,179,883.2
|
11
|
100
|
LCA0973
|
LSR28250
|
|
450
|
478,903.6
|
7,179,887.9
|
51
|
500
|
LCA0974
|
LSR28251
|
|
450
|
478,901.9
|
7,179,892.6
|
9
|
150
|
LCA0975
|
LSR28252
|
|
450
|
478,900.2
|
7,179,897.3
|
9
|
200
|
LCA0976
|
LSR28253
|
|
450
|
478,898.5
|
7,179,902.0
|
9
|
150
|
LCA0977
|
LSR28254
|
|
450
|
478,896.8
|
7,179,906.7
|
186
|
300
|
LCA0978
|
LSR28255
|
|
450
|
478,895.0
|
7,179,911.4
|
7
|
300
|
LCA0979
|
LSR28256
|
|
450
|
478,893.3
|
7,179,916.1
|
9
|
150
|
LCA0980
|
LSR28257
|
|
450
|
478,891.6
|
7,179,920.8
|
11
|
100
|
LCA0981
|
LSR28258
|
|
450
|
478,889.9
|
7,179,925.5
|
5
|
200
|
LCA0982
|
LSR28260
|
|
450
|
478,888.2
|
7,179,930.2
|
44
|
350
|
LCA0995
|
LSR28236
|
|
450
|
478,892.0
|
7,179,934.3
|
9
|
100
|
LCA0996
|
LSR28237
|
|
450
|
478,893.8
|
7,179,929.6
|
15
|
200
|
LCA0997
|
LSR28238
|
|
450
|
478,895.5
|
7,179,924.9
|
7
|
200
|
LCA0998
|
LSR28240
|
|
450
|
478,897.2
|
7,179,920.2
|
8
|
150
|
LCA0999
|
LSR28241
|
|
450
|
478,898.9
|
7,179,915.5
|
21
|
300
|
LCA1000
|
LSR28242
|
|
450
|
478,900.6
|
7,179,910.8
|
18
|
250
|
LCA1001
|
LSR28243
|
|
450
|
478,902.3
|
7,179,906.1
|
10
|
150
|
LCA1002
|
LSR28244
|
|
450
|
478,904.0
|
7,179,901.4
|
12
|
200
|
LCA1003
|
LSR28245
|
|
450
|
478,905.7
|
7,179,896.7
|
6
|
150
|
LCA1004
|
LSR28246
|
|
450
|
478,907.4
|
7,179,892.0
|
9
|
100
|
LCA1005
|
LSR28247
|
|
450
|
478,909.2
|
7,179,887.3
|
9
|
100
|
LCA1006
|
LSR28248
|
|
450
|
478,910.9
|
7,179,882.6
|
17
|
100
|
LCA1021
|
LSR28221
|
|
450
|
478,919.8
|
7,179,872.5
|
12
|
100
|
LCA1023
|
LSR28223
|
|
450
|
478,916.4
|
7,179,881.9
|
19
|
150
|
LCA1024
|
LSR28224
|
|
450
|
478,914.7
|
7,179,886.6
|
10
|
100
|
LCA1025
|
LSR28225
|
|
450
|
478,913.0
|
7,179,891.3
|
14
|
100
|
LCA1026
|
LSR28226
|
|
450
|
478,911.3
|
7,179,896.0
|
57
|
100
|
LCA1027
|
LSR28227
|
|
450
|
478,909.6
|
7,179,900.7
|
5
|
300
|
LCA1028
|
LSR28228
|
|
450
|
478,907.9
|
7,179,905.4
|
26
|
250
|
LCA1029
|
LSR28229
|
|
450
|
478,906.2
|
7,179,910.1
|
84
|
200
|
LCA1030
|
LSR28230
|
|
450
|
478,904.4
|
7,179,914.8
|
12
|
200
|
LCA1031
|
LSR28231
|
|
450
|
478,902.7
|
7,179,919.5
|
7
|
200
|
LCA1032
|
LSR28232
|
|
450
|
478,901.0
|
7,179,924.2
|
12
|
100
|
LCA1033
|
LSR28233
|
|
450
|
478,899.3
|
7,179,928.9
|
7
|
200
|
LCA1034
|
LSR28234
|
|
450
|
478,897.6
|
7,179,933.6
|
8
|
250
|
LCA1035
|
LSR28235
|
|
450
|
478,895.9
|
7,179,938.3
|
8
|
250
|
LCA1047
|
LSR28205
|
|
450
|
478,901.4
|
7,179,937.7
|
18
|
150
|
LCA1048
|
LSR28206
|
|
450
|
478,903.2
|
7,179,933.0
|
8
|
250
|
LCA1049
|
LSR28207
|
|
450
|
478,904.9
|
7,179,928.3
|
9
|
100
|
LCA1050
|
LSR28208
|
|
450
|
478,906.6
|
7,179,923.6
|
10
|
300
|
LCA1051
|
LSR28209
|
|
450
|
478,908.3
|
7,179,918.9
|
4
|
300
|
HoleID
|
SampleID
|
DepthTo
|
nominal RL
|
East
|
North
|
Au_ppb
|
S_ppm
|
LCA1052
|
LSR28210
|
|
450
|
478,910.0
|
7,179,914.2
|
20
|
150
|
LCA1053
|
LSR28211
|
|
450
|
478,911.7
|
7,179,909.5
|
20
|
250
|
LCA1054
|
LSR28212
|
|
450
|
478,913.4
|
7,179,904.8
|
24
|
250
|
LCA1055
|
LSR28213
|
|
450
|
478,915.1
|
7,179,900.1
|
9
|
100
|
LCA1056
|
LSR28214
|
|
450
|
478,916.8
|
7,179,895.4
|
9
|
150
|
LCA1057
|
LSR28215
|
|
450
|
478,918.5
|
7,179,890.7
|
26
|
250
|
LCA1058
|
LSR28216
|
|
450
|
478,920.3
|
7,179,886.0
|
12
|
100
|
LCA1059
|
LSR28217
|
|
450
|
478,922.0
|
7,179,881.3
|
20
|
100
|
LCA1060
|
LSR28218
|
|
450
|
478,923.7
|
7,179,876.6
|
65
|
100
|
LCA1061
|
LSR28220
|
|
450
|
478,925.4
|
7,179,871.9
|
30
|
150
|
LCA1072
|
LSR28188
|
|
450
|
478,930.9
|
7,179,871.3
|
20
|
150
|
LCA1073
|
LSR28189
|
|
450
|
478,929.2
|
7,179,876.0
|
18
|
100
|
LCA1074
|
LSR28190
|
|
450
|
478,927.5
|
7,179,880.7
|
33
|
100
|
LCA1075
|
LSR28191
|
|
450
|
478,925.8
|
7,179,885.4
|
120
|
150
|
LCA1076
|
LSR28192
|
|
450
|
478,924.1
|
7,179,890.1
|
33
|
200
|
LCA1077
|
LSR28193
|
|
450
|
478,922.4
|
7,179,894.8
|
11
|
150
|
LCA1078
|
LSR28194
|
|
450
|
478,920.7
|
7,179,899.4
|
10
|
50
|
LCA1079
|
LSR28195
|
|
450
|
478,919.0
|
7,179,904.1
|
14
|
200
|
LCA1080
|
LSR28196
|
|
450
|
478,917.3
|
7,179,908.8
|
36
|
200
|
LCA1081
|
LSR28197
|
|
450
|
478,915.6
|
7,179,913.5
|
11
|
350
|
LCA1082
|
LSR28198
|
|
450
|
478,913.8
|
7,179,918.2
|
12
|
250
|
LCA1083
|
LSR28200
|
|
450
|
478,912.1
|
7,179,922.9
|
7
|
200
|
LCA1084
|
LSR28201
|
|
450
|
478,910.4
|
7,179,927.6
|
21
|
50
|
LCA1085
|
LSR28202
|
|
450
|
478,908.7
|
7,179,932.3
|
7
|
150
|
LCA1086
|
LSR28203
|
|
450
|
478,907.0
|
7,179,937.0
|
35
|
150
|
LCA1087
|
LSR28204
|
|
450
|
478,905.3
|
7,179,941.7
|
8
|
300
|
LCA1098
|
LSR28171
|
|
450
|
478,909.1
|
7,179,945.8
|
5
|
100
|
LCA1099
|
LSR28172
|
|
450
|
478,910.8
|
7,179,941.1
|
10
|
250
|
LCA1100
|
LSR28173
|
|
450
|
478,912.6
|
7,179,936.4
|
6
|
150
|
LCA1101
|
LSR28174
|
|
450
|
478,914.3
|
7,179,931.7
|
31
|
250
|
LCA1102
|
LSR28175
|
|
450
|
478,916.0
|
7,179,927.0
|
12
|
200
|
LCA1103
|
LSR28176
|
|
450
|
478,917.7
|
7,179,922.3
|
10
|
100
|
LCA1104
|
LSR28177
|
|
450
|
478,919.4
|
7,179,917.6
|
19
|
300
|
LCA1105
|
LSR28178
|
|
450
|
478,921.1
|
7,179,912.9
|
12
|
200
|
LCA1106
|
LSR28180
|
|
450
|
478,922.8
|
7,179,908.2
|
15
|
300
|
LCA1107
|
LSR28181
|
|
450
|
478,924.5
|
7,179,903.5
|
9
|
100
|
LCA1108
|
LSR28182
|
|
450
|
478,926.2
|
7,179,898.8
|
206
|
100
|
LCA1109
|
LSR28183
|
|
450
|
478,927.9
|
7,179,894.1
|
17
|
250
|
LCA1110
|
LSR28184
|
|
450
|
478,929.7
|
7,179,889.4
|
9
|
150
|
LCA1111
|
LSR28185
|
|
450
|
478,931.4
|
7,179,884.7
|
24
|
100
|
LCA1112
|
LSR28186
|
|
450
|
478,933.1
|
7,179,880.0
|
20
|
100
|
LCA1113
|
LSR28187
|
|
450
|
478,934.8
|
7,179,875.3
|
14
|
100
|
LCA1124
|
LSR28154
|
|
450
|
478,940.3
|
7,179,874.7
|
27
|
100
|
LCA1125
|
LSR28155
|
|
450
|
478,938.6
|
7,179,879.4
|
21
|
100
|
LCA1126
|
LSR28156
|
|
450
|
478,936.9
|
7,179,884.1
|
6
|
100
|
LCA1127
|
LSR28157
|
|
450
|
478,935.2
|
7,179,888.8
|
16
|
300
|
HoleID
|
SampleID
|
DepthTo
|
nominal RL
|
East
|
North
|
Au_ppb
|
S_ppm
|
LCA1128
|
LSR28158
|
|
450
|
478,933.5
|
7,179,893.5
|
6
|
150
|
LCA1129
|
LSR28160
|
|
450
|
478,931.8
|
7,179,898.2
|
3
|
300
|
LCA1130
|
LSR28161
|
|
450
|
478,930.1
|
7,179,902.9
|
5
|
100
|
LCA1131
|
LSR28162
|
|
450
|
478,928.4
|
7,179,907.6
|
80
|
100
|
LCA1132
|
LSR28163
|
|
450
|
478,926.7
|
7,179,912.3
|
10
|
200
|
LCA1133
|
LSR28164
|
|
450
|
478,924.9
|
7,179,917.0
|
11
|
200
|
LCA1134
|
LSR28165
|
|
450
|
478,923.2
|
7,179,921.7
|
11
|
200
|
LCA1135
|
LSR28166
|
|
450
|
478,921.5
|
7,179,926.4
|
14
|
100
|
LCA1136
|
LSR28167
|
|
450
|
478,919.8
|
7,179,931.1
|
8
|
150
|
LCA1137
|
LSR28168
|
|
450
|
478,918.1
|
7,179,935.8
|
6
|
200
|
LCA1138
|
LSR28169
|
|
450
|
478,916.4
|
7,179,940.5
|
6
|
100
|
LCA1139
|
LSR28170
|
|
450
|
478,914.7
|
7,179,945.2
|
7
|
150
|
LCA1152
|
LSR28141
|
|
450
|
478,922.0
|
7,179,939.8
|
1760
|
100
|
LCA1153
|
LSR28142
|
|
450
|
478,923.7
|
7,179,935.1
|
11
|
200
|
LCA1154
|
LSR28143
|
|
450
|
478,925.4
|
7,179,930.4
|
38
|
400
|
LCA1155
|
LSR28144
|
|
450
|
478,927.1
|
7,179,925.7
|
39
|
250
|
LCA1156
|
LSR28145
|
|
450
|
478,928.8
|
7,179,921.0
|
8
|
250
|
LCA1157
|
LSR28146
|
|
450
|
478,930.5
|
7,179,916.3
|
8
|
150
|
LCA1158
|
LSR28147
|
|
450
|
478,932.2
|
7,179,911.6
|
10
|
200
|
LCA1159
|
LSR28148
|
|
450
|
478,933.9
|
7,179,906.9
|
9
|
100
|
LCA1161
|
LSR28149
|
|
450
|
478,937.3
|
7,179,897.5
|
25
|
100
|
LCA1162
|
LSR28150
|
|
450
|
478,939.1
|
7,179,892.8
|
10
|
150
|
LCA1163
|
LSR28151
|
|
450
|
478,940.8
|
7,179,888.1
|
9
|
100
|
LCA1164
|
LSR28152
|
|
450
|
478,942.5
|
7,179,883.4
|
15
|
150
|
LCA1165
|
LSR28153
|
|
450
|
478,944.2
|
7,179,878.7
|
20
|
300
|
LCA1177
|
LSR28128
|
|
450
|
478,948.0
|
7,179,882.8
|
37
|
250
|
LCA1178
|
LSR28129
|
|
450
|
478,946.3
|
7,179,887.5
|
8
|
100
|
LCA1179
|
LSR28130
|
|
450
|
478,944.6
|
7,179,892.2
|
5
|
150
|
LCA1180
|
LSR28131
|
|
450
|
478,942.9
|
7,179,896.9
|
6
|
200
|
LCA1182
|
LSR28132
|
|
450
|
478,939.5
|
7,179,906.3
|
21
|
150
|
LCA1183
|
LSR28133
|
|
450
|
478,937.8
|
7,179,911.0
|
429
|
200
|
LCA1184
|
LSR28134
|
|
450
|
478,936.1
|
7,179,915.7
|
14
|
150
|
LCA1185
|
LSR28135
|
|
450
|
478,934.3
|
7,179,920.4
|
8
|
100
|
LCA1186
|
LSR28136
|
|
450
|
478,932.6
|
7,179,925.1
|
79
|
100
|
LCA1187
|
LSR28137
|
|
450
|
478,930.9
|
7,179,929.8
|
37
|
300
|
LCA1188
|
LSR28138
|
|
450
|
478,929.2
|
7,179,934.5
|
59
|
200
|
LCA1189
|
LSR28140
|
|
450
|
478,927.5
|
7,179,939.2
|
6
|
150
|
LCA1206
|
LSR28116
|
|
450
|
478,934.8
|
7,179,933.8
|
15
|
300
|
LCA1207
|
LSR28117
|
|
450
|
478,936.5
|
7,179,929.1
|
4
|
100
|
LCA1208
|
LSR28118
|
|
450
|
478,938.2
|
7,179,924.4
|
14
|
150
|
LCA1209
|
LSR28120
|
|
450
|
478,939.9
|
7,179,919.7
|
29
|
250
|
LCA1210
|
LSR28121
|
|
450
|
478,941.6
|
7,179,915.0
|
19
|
250
|
LCA1211
|
LSR28122
|
|
450
|
478,943.3
|
7,179,910.3
|
10
|
200
|
LCA1212
|
LSR28123
|
|
450
|
478,945.0
|
7,179,905.6
|
9
|
100
|
LCA1214
|
LSR28124
|
|
450
|
478,948.4
|
7,179,896.3
|
14
|
250
|
LCA1215
|
LSR28125
|
|
450
|
478,950.2
|
7,179,891.6
|
11
|
100
|
HoleID
|
SampleID
|
DepthTo
|
nominal RL
|
East
|
North
|
Au_ppb
|
S_ppm
|
LCA1216
|
LSR28126
|
|
450
|
478,951.9
|
7,179,886.9
|
57
|
250
|
LCA1217
|
LSR28127
|
|
450
|
478,953.6
|
7,179,882.2
|
9
|
250
|
LCA1229
|
LSR28105
|
|
450
|
478,957.4
|
7,179,886.2
|
17
|
100
|
LCA1230
|
LSR28106
|
|
450
|
478,955.7
|
7,179,890.9
|
6
|
200
|
LCA1231
|
LSR28107
|
|
450
|
478,954.0
|
7,179,895.6
|
12
|
100
|
LCA1232
|
LSR28108
|
|
450
|
478,952.3
|
7,179,900.3
|
4
|
150
|
LCA1233
|
LSR28109
|
|
450
|
478,950.6
|
7,179,905.0
|
1
|
50
|
LCA1234
|
LSR28110
|
|
450
|
478,948.9
|
7,179,909.7
|
5
|
200
|
LCA1235
|
LSR28111
|
|
450
|
478,947.2
|
7,179,914.4
|
16
|
250
|
LCA1236
|
LSR28112
|
|
450
|
478,945.5
|
7,179,919.1
|
21
|
150
|
LCA1237
|
LSR28113
|
|
450
|
478,943.7
|
7,179,923.8
|
17
|
150
|
LCA1238
|
LSR28114
|
|
450
|
478,942.0
|
7,179,928.5
|
9
|
100
|
LCA1239
|
LSR28115
|
|
450
|
478,940.3
|
7,179,933.2
|
30
|
300
|
LCA1260
|
LSR28094
|
|
450
|
478,947.6
|
7,179,927.9
|
83
|
150
|
LCA1261
|
LSR28095
|
|
450
|
478,949.3
|
7,179,923.2
|
6
|
50
|
LCA1262
|
LSR28096
|
|
450
|
478,951.0
|
7,179,918.5
|
14
|
100
|
LCA1263
|
LSR28097
|
|
450
|
478,952.7
|
7,179,913.8
|
5
|
200
|
LCA1264
|
LSR28098
|
|
450
|
478,954.4
|
7,179,909.1
|
8
|
150
|
LCA1265
|
LSR28100
|
|
450
|
478,956.1
|
7,179,904.4
|
17
|
200
|
LCA1266
|
LSR28101
|
|
450
|
478,957.8
|
7,179,899.7
|
10
|
50
|
LCA1267
|
LSR28102
|
|
450
|
478,959.6
|
7,179,895.0
|
11
|
150
|
LCA1268
|
LSR28103
|
|
450
|
478,961.3
|
7,179,890.3
|
15
|
300
|
LCA1269
|
LSR28104
|
|
450
|
478,963.0
|
7,179,885.6
|
42
|
150
|
LCA1281
|
LSR28086
|
|
450
|
478,966.8
|
7,179,889.6
|
13
|
50
|
LCA1282
|
LSR28087
|
|
450
|
478,965.1
|
7,179,894.3
|
5
|
100
|
LCA1283
|
LSR28088
|
|
450
|
478,963.4
|
7,179,899.0
|
13
|
100
|
LCA1284
|
LSR28089
|
|
450
|
478,961.7
|
7,179,903.7
|
6
|
150
|
LCA1285
|
LSR28090
|
|
450
|
478,960.0
|
7,179,908.4
|
11
|
200
|
LCA1286
|
LSR28091
|
|
450
|
478,958.3
|
7,179,913.1
|
6
|
50
|
LCA1287
|
LSR28092
|
|
450
|
478,956.6
|
7,179,917.8
|
22
|
250
|
LCA1288
|
LSR28093
|
|
450
|
478,954.8
|
7,179,922.5
|
2
|
150
|
LCA1317
|
LSR28081
|
|
450
|
478,965.5
|
7,179,907.8
|
9
|
150
|
LCA1318
|
LSR28082
|
|
450
|
478,967.2
|
7,179,903.1
|
48
|
250
|
LCA1319
|
LSR28083
|
|
450
|
478,969.0
|
7,179,898.4
|
11
|
200
|
LCA1320
|
LSR28084
|
|
450
|
478,970.7
|
7,179,893.7
|
21
|
200
|
LCA1321
|
LSR28085
|
|
450
|
478,972.4
|
7,179,889.0
|
33
|
250
|
LCA1364
|
LSR28038
|
|
450
|
478,442.9
|
7,179,684.2
|
-1
|
100
|
LCA1365
|
LSR28040
|
|
450
|
478,441.2
|
7,179,688.9
|
-1
|
100
|
LCA1366
|
LSR28041
|
|
450
|
478,439.5
|
7,179,693.6
|
3
|
200
|
LCA1367
|
LSR28042
|
|
450
|
478,437.8
|
7,179,698.3
|
2
|
150
|
LCA1368
|
LSR28043
|
|
450
|
478,436.1
|
7,179,703.0
|
2
|
50
|
LCA1369
|
LSR28044
|
|
450
|
478,434.4
|
7,179,707.7
|
3
|
550
|
LCA1370
|
LSR28045
|
|
450
|
478,432.7
|
7,179,712.4
|
7
|
300
|
LCA1371
|
LSR28046
|
|
450
|
478,431.0
|
7,179,717.1
|
-1
|
200
|
LCA1372
|
LSR28047
|
|
450
|
478,429.3
|
7,179,721.8
|
-1
|
100
|
LCA1373
|
LSR28048
|
|
450
|
478,427.6
|
7,179,726.5
|
1
|
200
|
HoleID
|
SampleID
|
DepthTo
|
nominal RL
|
East
|
North
|
Au_ppb
|
S_ppm
|
LCA1374
|
LSR28049
|
|
450
|
478,425.8
|
7,179,731.2
|
3
|
250
|
LCA1375
|
LSR28050
|
|
450
|
478,424.1
|
7,179,735.9
|
-1
|
100
|
LCA1376
|
LSR28051
|
|
450
|
478,422.4
|
7,179,740.6
|
-1
|
150
|
LCA1377
|
LSR28052
|
|
450
|
478,420.7
|
7,179,745.3
|
2
|
250
|
LCA1378
|
LSR28053
|
|
450
|
478,419.0
|
7,179,750.0
|
-1
|
50
|
LCA1379
|
LSR28054
|
|
450
|
478,417.3
|
7,179,754.7
|
-1
|
50
|
LCA1380
|
LSR28055
|
|
450
|
478,415.6
|
7,179,759.4
|
-1
|
150
|
LCA1381
|
LSR28056
|
|
450
|
478,413.9
|
7,179,764.1
|
4
|
100
|
LCA1382
|
LSR28057
|
|
450
|
478,412.2
|
7,179,768.8
|
-1
|
100
|
LCA1383
|
LSR28058
|
|
450
|
478,410.5
|
7,179,773.5
|
-1
|
50
|
LCA1384
|
LSR28060
|
|
450
|
478,408.7
|
7,179,778.2
|
11
|
50
|
LCA1385
|
LSR28061
|
|
450
|
478,407.0
|
7,179,782.9
|
6
|
250
|
LCA1386
|
LSR28062
|
|
450
|
478,405.3
|
7,179,787.6
|
7
|
100
|
LCA1392
|
LSR28063
|
|
450
|
478,395.1
|
7,179,815.8
|
-1
|
50
|
LCA1393
|
LSR28064
|
|
450
|
478,393.4
|
7,179,820.5
|
3
|
100
|
LCA1394
|
LSR28065
|
|
450
|
478,391.6
|
7,179,825.1
|
-1
|
50
|
LCA1395
|
LSR28066
|
|
450
|
478,389.9
|
7,179,829.8
|
3
|
100
|
LCA1404
|
LSR28067
|
|
450
|
478,394.2
|
7,179,876.6
|
1
|
100
|
LCA1405
|
LSR28068
|
|
450
|
478,395.9
|
7,179,871.9
|
1
|
100
|
LCA1406
|
LSR28069
|
|
450
|
478,397.6
|
7,179,867.2
|
-1
|
100
|
LCA1407
|
LSR28070
|
|
450
|
478,399.3
|
7,179,862.5
|
-1
|
50
|
LCA1408
|
LSR28071
|
|
450
|
478,401.0
|
7,179,857.8
|
-1
|
100
|
LCA1409
|
LSR28072
|
|
450
|
478,402.7
|
7,179,853.1
|
-1
|
100
|
LCA1410
|
LSR28073
|
|
450
|
478,404.4
|
7,179,848.4
|
-1
|
150
|
LCA1411
|
LSR28074
|
|
450
|
478,406.2
|
7,179,843.7
|
-1
|
150
|
LCA1412
|
LSR28075
|
|
450
|
478,407.9
|
7,179,839.0
|
-1
|
50
|
LCA1413
|
LSR28076
|
|
450
|
478,409.6
|
7,179,834.3
|
-1
|
100
|
LCA1420
|
LSR28077
|
|
450
|
478,421.6
|
7,179,801.4
|
-1
|
150
|
LCA1421
|
LSR28078
|
|
450
|
478,423.3
|
7,179,796.8
|
1
|
150
|
LCA1422
|
LSR28080
|
|
450
|
478,425.0
|
7,179,792.1
|
1
|
100
|
LCA1423
|
LSR28037
|
|
450
|
478,426.7
|
7,179,787.4
|
5
|
300
|
LCA1424
|
LSR28036
|
|
450
|
478,428.4
|
7,179,782.7
|
-1
|
100
|
LCA1425
|
LSR28035
|
|
450
|
478,430.1
|
7,179,778.0
|
-1
|
100
|
LCA1426
|
LSR28034
|
|
450
|
478,431.8
|
7,179,773.3
|
-1
|
200
|
LCA1427
|
LSR28033
|
|
450
|
478,433.5
|
7,179,768.6
|
-1
|
100
|
LCA1428
|
LSR28032
|
|
450
|
478,435.2
|
7,179,763.9
|
3
|
100
|
LCA1429
|
LSR28031
|
|
450
|
478,436.9
|
7,179,759.2
|
-1
|
100
|
LCA1430
|
LSR28030
|
|
450
|
478,438.7
|
7,179,754.5
|
3
|
250
|
LCA1431
|
LSR28029
|
|
450
|
478,440.4
|
7,179,749.8
|
-1
|
100
|
LCA1432
|
LSR28028
|
|
450
|
478,442.1
|
7,179,745.1
|
-1
|
100
|
LCA1433
|
LSR28027
|
|
450
|
478,443.8
|
7,179,740.4
|
7
|
100
|
LCA1434
|
LSR28026
|
|
450
|
478,445.5
|
7,179,735.7
|
6
|
500
|
LCA1435
|
LSR28025
|
|
450
|
478,447.2
|
7,179,731.0
|
-1
|
100
|
LCA1436
|
LSR28024
|
|
450
|
478,448.9
|
7,179,726.3
|
3
|
200
|
LCA1437
|
LSR28023
|
|
450
|
478,450.6
|
7,179,721.6
|
3
|
100
|
LCA1438
|
LSR28022
|
|
450
|
478,452.3
|
7,179,716.9
|
5
|
300
|
HoleID
|
SampleID
|
DepthTo
|
nominal RL
|
East
|
North
|
Au_ppb
|
S_ppm
|
LCA1439
|
LSR28021
|
|
450
|
478,454.0
|
7,179,712.2
|
4
|
300
|
LCA1440
|
LSR28020
|
|
450
|
478,455.8
|
7,179,707.5
|
2
|
150
|
LCA1441
|
LSR28018
|
|
450
|
478,457.5
|
7,179,702.8
|
5
|
250
|
LCA1442
|
LSR28017
|
|
450
|
478,459.2
|
7,179,698.1
|
-1
|
250
|
LCA1443
|
LSR28016
|
|
450
|
478,460.9
|
7,179,693.4
|
-1
|
150
|
LCA1444
|
LSR28015
|
|
450
|
478,462.6
|
7,179,688.7
|
-1
|
150
|
LCA1446
|
LSR28014
|
|
450
|
478,480.5
|
7,179,697.9
|
12
|
450
|
LCA1447
|
LSR28013
|
|
450
|
478,478.8
|
7,179,702.6
|
6
|
1150
|
LCA1448
|
LSR28012
|
|
450
|
478,477.1
|
7,179,707.3
|
6
|
900
|
LCA1449
|
LSR28011
|
|
450
|
478,475.4
|
7,179,712.0
|
5
|
150
|
LCA1450
|
LSR28010
|
|
450
|
478,473.7
|
7,179,716.7
|
8
|
300
|
LCA1451
|
LSR28009
|
|
450
|
478,472.0
|
7,179,721.4
|
5
|
200
|
LCA1452
|
LSR28008
|
|
450
|
478,470.3
|
7,179,726.1
|
9
|
200
|
LCA1453
|
LSR28007
|
|
450
|
478,468.6
|
7,179,730.8
|
12
|
150
|
LCA1454
|
LSR28006
|
|
450
|
478,466.9
|
7,179,735.5
|
8
|
150
|
LCA1455
|
LSR28005
|
|
450
|
478,465.1
|
7,179,740.2
|
6
|
150
|
LCA1456
|
LSR28004
|
|
450
|
478,463.4
|
7,179,744.9
|
5
|
1450
|
LCA1457
|
LSR28003
|
|
450
|
478,461.7
|
7,179,749.6
|
3
|
100
|
LCA1458
|
LSR28002
|
|
450
|
478,460.0
|
7,179,754.3
|
6
|
200
|
LCA1459
|
LSR28001
|
|
450
|
478,458.3
|
7,179,759.0
|
7
|
300
|
LCA1460
|
LSR28000
|
|
450
|
478,456.6
|
7,179,763.7
|
3
|
150
|
LCA1461
|
LSR27999
|
|
450
|
478,454.9
|
7,179,768.4
|
-1
|
100
|
LCA1462
|
LSR27997
|
|
450
|
478,453.2
|
7,179,773.1
|
-1
|
150
|
LCA1463
|
LSR27996
|
|
450
|
478,451.5
|
7,179,777.7
|
2
|
150
|
LCA1464
|
LSR27995
|
|
450
|
478,449.7
|
7,179,782.4
|
1
|
100
|
LCA1465
|
LSR27994
|
|
450
|
478,448.0
|
7,179,787.1
|
3
|
100
|
LCA1466
|
LSR27993
|
|
450
|
478,446.3
|
7,179,791.8
|
-1
|
100
|
LCA1467
|
LSR27992
|
|
450
|
478,444.6
|
7,179,796.5
|
-1
|
100
|
LCA1468
|
LSR27991
|
|
450
|
478,442.9
|
7,179,801.2
|
1
|
150
|
LCA1469
|
LSR27990
|
|
450
|
478,441.2
|
7,179,805.9
|
2
|
100
|
LCA1470
|
LSR27989
|
|
450
|
478,439.5
|
7,179,810.6
|
1
|
150
|
LCA1471
|
LSR27988
|
|
450
|
478,437.8
|
7,179,815.3
|
1
|
100
|
LCA1472
|
LSR27987
|
|
450
|
478,436.1
|
7,179,820.0
|
-1
|
200
|
LCA1473
|
LSR27986
|
|
450
|
478,434.4
|
7,179,824.7
|
1
|
150
|
LCA1474
|
LSR27985
|
|
450
|
478,432.6
|
7,179,829.4
|
1
|
150
|
LCA1475
|
LSR27984
|
|
450
|
478,430.9
|
7,179,834.1
|
7
|
200
|
LCA1478
|
LSR27983
|
|
450
|
478,425.8
|
7,179,848.2
|
-1
|
100
|
LCA1479
|
LSR27982
|
|
450
|
478,424.1
|
7,179,852.9
|
-1
|
100
|
LCA1480
|
LSR27981
|
|
450
|
478,422.4
|
7,179,857.6
|
-1
|
100
|
LCA1481
|
LSR27980
|
|
450
|
478,420.7
|
7,179,862.3
|
-1
|
150
|
LCA1482
|
LSR27979
|
|
450
|
478,419.0
|
7,179,867.0
|
-1
|
100
|
LCA1483
|
LSR27978
|
|
450
|
478,417.3
|
7,179,871.7
|
-1
|
100
|
LCA1484
|
LSR27976
|
|
450
|
478,415.5
|
7,179,876.4
|
-1
|
150
|
LCA1485
|
LSR27975
|
|
450
|
478,413.8
|
7,179,881.1
|
-1
|
100
|
LCA1487
|
LSR27939
|
|
450
|
478,433.5
|
7,179,885.6
|
4
|
400
|
LCA1488
|
LSR27940
|
|
450
|
478,435.2
|
7,179,880.9
|
1
|
150
|
HoleID
|
SampleID
|
DepthTo
|
nominal RL
|
East
|
North
|
Au_ppb
|
S_ppm
|
LCA1489
|
LSR27941
|
|
450
|
478,436.9
|
7,179,876.2
|
1
|
100
|
LCA1495
|
LSR27942
|
|
450
|
478,447.2
|
7,179,848.0
|
4
|
150
|
LCA1496
|
LSR27943
|
|
450
|
478,448.9
|
7,179,843.3
|
3
|
150
|
LCA1497
|
LSR27944
|
|
450
|
478,450.6
|
7,179,838.6
|
5
|
100
|
LCA1498
|
LSR27945
|
|
450
|
478,452.3
|
7,179,833.9
|
6
|
100
|
LCA1499
|
LSR27946
|
|
450
|
478,454.0
|
7,179,829.2
|
3
|
100
|
LCA1500
|
LSR27947
|
|
450
|
478,455.7
|
7,179,824.5
|
2
|
100
|
LCA1501
|
LSR27948
|
|
450
|
478,457.4
|
7,179,819.8
|
1
|
100
|
LCA1502
|
LSR27949
|
|
450
|
478,459.1
|
7,179,815.1
|
6
|
150
|
LCA1503
|
LSR27950
|
|
450
|
478,460.8
|
7,179,810.4
|
3
|
200
|
LCA1504
|
LSR27951
|
|
450
|
478,462.6
|
7,179,805.7
|
2
|
250
|
LCA1505
|
LSR27952
|
|
450
|
478,464.3
|
7,179,801.0
|
4
|
150
|
LCA1506
|
LSR27953
|
|
450
|
478,466.0
|
7,179,796.3
|
2
|
200
|
LCA1507
|
LSR27954
|
|
450
|
478,467.7
|
7,179,791.6
|
2
|
100
|
LCA1508
|
LSR27955
|
|
450
|
478,469.4
|
7,179,786.9
|
1
|
100
|
LCA1509
|
LSR27956
|
|
450
|
478,471.1
|
7,179,782.2
|
3
|
100
|
LCA1510
|
LSR27958
|
|
450
|
478,472.8
|
7,179,777.5
|
6
|
200
|
LCA1511
|
LSR27959
|
|
450
|
478,474.5
|
7,179,772.8
|
4
|
100
|
LCA1512
|
LSR27960
|
|
450
|
478,476.2
|
7,179,768.1
|
3
|
150
|
LCA1513
|
LSR27961
|
|
450
|
478,477.9
|
7,179,763.4
|
6
|
350
|
LCA1514
|
LSR27962
|
|
450
|
478,479.7
|
7,179,758.7
|
6
|
350
|
LCA1515
|
LSR27963
|
|
450
|
478,481.4
|
7,179,754.0
|
6
|
450
|
LCA1516
|
LSR27964
|
|
450
|
478,483.1
|
7,179,749.4
|
9
|
200
|
LCA1517
|
LSR27965
|
|
450
|
478,484.8
|
7,179,744.7
|
11
|
200
|
LCA1518
|
LSR27966
|
|
450
|
478,486.5
|
7,179,740.0
|
10
|
400
|
LCA1519
|
LSR27967
|
|
450
|
478,488.2
|
7,179,735.3
|
6
|
400
|
LCA1520
|
LSR27968
|
|
450
|
478,489.9
|
7,179,730.6
|
10
|
450
|
LCA1521
|
LSR27969
|
|
450
|
478,491.6
|
7,179,725.9
|
5
|
550
|
LCA1522
|
LSR27970
|
|
450
|
478,493.3
|
7,179,721.2
|
12
|
450
|
LCA1523
|
LSR27971
|
|
450
|
478,495.1
|
7,179,716.5
|
7
|
150
|
LCA1524
|
LSR27972
|
|
450
|
478,496.8
|
7,179,711.8
|
15
|
350
|
LCA1525
|
LSR27973
|
|
450
|
478,498.5
|
7,179,707.1
|
14
|
350
|
LCA1526
|
LSR27974
|
|
450
|
478,500.2
|
7,179,702.4
|
11
|
200
|
LCA1527
|
LSR27900
|
|
450
|
478,519.8
|
7,179,706.9
|
11
|
250
|
LCA1528
|
LSR27901
|
|
450
|
478,518.1
|
7,179,711.6
|
9
|
500
|
LCA1529
|
LSR27902
|
|
450
|
478,516.4
|
7,179,716.3
|
10
|
1050
|
LCA1530
|
LSR27903
|
|
450
|
478,514.7
|
7,179,721.0
|
6
|
150
|
LCA1531
|
LSR27904
|
|
450
|
478,513.0
|
7,179,725.7
|
2
|
150
|
LCA1532
|
LSR27905
|
|
450
|
478,511.3
|
7,179,730.4
|
3
|
150
|
LCA1533
|
LSR27906
|
|
450
|
478,509.6
|
7,179,735.0
|
8
|
200
|
LCA1534
|
LSR27907
|
|
450
|
478,507.9
|
7,179,739.7
|
10
|
500
|
LCA1535
|
LSR27908
|
|
450
|
478,506.1
|
7,179,744.4
|
7
|
600
|
LCA1536
|
LSR27909
|
|
450
|
478,504.4
|
7,179,749.1
|
17
|
1000
|
LCA1537
|
LSR27910
|
|
450
|
478,502.7
|
7,179,753.8
|
9
|
450
|
LCA1538
|
LSR27911
|
|
450
|
478,501.0
|
7,179,758.5
|
7
|
550
|
LCA1539
|
LSR27912
|
|
450
|
478,499.3
|
7,179,763.2
|
9
|
350
|
HoleID
|
SampleID
|
DepthTo
|
nominal RL
|
East
|
North
|
Au_ppb
|
S_ppm
|
LCA1540
|
LSR27913
|
|
450
|
478,497.6
|
7,179,767.9
|
9
|
400
|
LCA1541
|
LSR27914
|
|
450
|
478,495.9
|
7,179,772.6
|
8
|
200
|
LCA1542
|
LSR27915
|
|
450
|
478,494.2
|
7,179,777.3
|
2
|
150
|
LCA1543
|
LSR27916
|
|
450
|
478,492.5
|
7,179,782.0
|
6
|
200
|
LCA1544
|
LSR27917
|
|
450
|
478,490.8
|
7,179,786.7
|
1
|
200
|
LCA1545
|
LSR27919
|
|
450
|
478,489.0
|
7,179,791.4
|
8
|
300
|
LCA1546
|
LSR27920
|
|
450
|
478,487.3
|
7,179,796.1
|
2
|
150
|
LCA1547
|
LSR27921
|
|
450
|
478,485.6
|
7,179,800.8
|
5
|
250
|
LCA1548
|
LSR27922
|
|
450
|
478,483.9
|
7,179,805.5
|
3
|
100
|
LCA1549
|
LSR27923
|
|
450
|
478,482.2
|
7,179,810.2
|
6
|
150
|
LCA1550
|
LSR27924
|
|
450
|
478,480.5
|
7,179,814.9
|
1
|
150
|
LCA1551
|
LSR27925
|
|
450
|
478,478.8
|
7,179,819.6
|
2
|
100
|
LCA1552
|
LSR27926
|
|
450
|
478,477.1
|
7,179,824.3
|
1
|
150
|
LCA1553
|
LSR27927
|
|
450
|
478,475.4
|
7,179,829.0
|
1
|
100
|
LCA1554
|
LSR27928
|
|
450
|
478,473.7
|
7,179,833.7
|
1
|
100
|
LCA1555
|
LSR27929
|
|
450
|
478,471.9
|
7,179,838.4
|
-1
|
150
|
LCA1556
|
LSR27930
|
|
450
|
478,470.2
|
7,179,843.1
|
-1
|
150
|
LCA1557
|
LSR27931
|
|
450
|
478,468.5
|
7,179,847.8
|
-1
|
150
|
LCA1558
|
LSR27932
|
|
450
|
478,466.8
|
7,179,852.5
|
-1
|
150
|
LCA1559
|
LSR27933
|
|
450
|
478,465.1
|
7,179,857.2
|
2
|
150
|
LCA1560
|
LSR27934
|
|
450
|
478,463.4
|
7,179,861.9
|
2
|
150
|
LCA1561
|
LSR27935
|
|
450
|
478,461.7
|
7,179,866.6
|
4
|
200
|
LCA1562
|
LSR27936
|
|
450
|
478,460.0
|
7,179,871.3
|
2
|
100
|
LCA1563
|
LSR27938
|
|
450
|
478,458.3
|
7,179,876.0
|
3
|
100
|
LCA1570
|
LSR27861
|
|
450
|
478,472.8
|
7,179,894.6
|
45
|
100
|
LCA1571
|
LSR27862
|
|
450
|
478,474.5
|
7,179,889.9
|
4
|
100
|
LCA1572
|
LSR27863
|
|
450
|
478,476.2
|
7,179,885.2
|
3
|
100
|
LCA1573
|
LSR27864
|
|
450
|
478,477.9
|
7,179,880.5
|
3
|
150
|
LCA1574
|
LSR27865
|
|
450
|
478,479.6
|
7,179,875.8
|
3
|
150
|
LCA1575
|
LSR27866
|
|
450
|
478,481.3
|
7,179,871.1
|
6
|
150
|
LCA1576
|
LSR27867
|
|
450
|
478,483.0
|
7,179,866.4
|
1
|
100
|
LCA1577
|
LSR27868
|
|
450
|
478,484.8
|
7,179,861.7
|
2
|
100
|
LCA1578
|
LSR27869
|
|
450
|
478,486.5
|
7,179,857.0
|
2
|
150
|
LCA1579
|
LSR27870
|
|
450
|
478,488.2
|
7,179,852.3
|
2
|
100
|
LCA1580
|
LSR27871
|
|
450
|
478,489.9
|
7,179,847.6
|
-1
|
100
|
LCA1581
|
LSR27872
|
|
450
|
478,491.6
|
7,179,842.9
|
1
|
100
|
LCA1582
|
LSR27873
|
|
450
|
478,493.3
|
7,179,838.2
|
1
|
100
|
LCA1583
|
LSR27874
|
|
450
|
478,495.0
|
7,179,833.5
|
2
|
250
|
LCA1584
|
LSR27875
|
|
450
|
478,496.7
|
7,179,828.8
|
1
|
100
|
LCA1585
|
LSR27876
|
|
450
|
478,498.4
|
7,179,824.1
|
4
|
100
|
LCA1586
|
LSR27878
|
|
450
|
478,500.1
|
7,179,819.4
|
3
|
150
|
LCA1589
|
LSR27879
|
|
450
|
478,505.3
|
7,179,805.3
|
4
|
150
|
LCA1590
|
LSR27880
|
|
450
|
478,507.0
|
7,179,800.6
|
6
|
100
|
LCA1591
|
LSR27881
|
|
450
|
478,508.7
|
7,179,795.9
|
5
|
150
|
LCA1593
|
LSR27883
|
|
450
|
478,512.1
|
7,179,786.5
|
4
|
100
|
LCA1594
|
LSR27884
|
|
450
|
478,513.8
|
7,179,781.8
|
3
|
150
|
HoleID
|
SampleID
|
DepthTo
|
nominal RL
|
East
|
North
|
Au_ppb
|
S_ppm
|
LCA1595
|
LSR27885
|
|
450
|
478,515.5
|
7,179,777.1
|
4
|
100
|
LCA1596
|
LSR27886
|
|
450
|
478,517.2
|
7,179,772.4
|
6
|
100
|
LCA1597
|
LSR27887
|
|
450
|
478,519.0
|
7,179,767.7
|
2
|
100
|
LCA1598
|
LSR27888
|
|
450
|
478,520.7
|
7,179,763.0
|
8
|
750
|
LCA1599
|
LSR27889
|
|
450
|
478,522.4
|
7,179,758.3
|
6
|
200
|
LCA1600
|
LSR27890
|
|
450
|
478,524.1
|
7,179,753.6
|
2
|
150
|
LCA1601
|
LSR27891
|
|
450
|
478,525.8
|
7,179,748.9
|
5
|
150
|
LCA1602
|
LSR27892
|
|
450
|
478,527.5
|
7,179,744.2
|
19
|
150
|
LCA1603
|
LSR27893
|
|
450
|
478,529.2
|
7,179,739.5
|
3
|
100
|
LCA1604
|
LSR27894
|
|
450
|
478,530.9
|
7,179,734.8
|
2
|
100
|
LCA1605
|
LSR27895
|
|
450
|
478,532.6
|
7,179,730.1
|
4
|
100
|
LCA1606
|
LSR27896
|
|
450
|
478,534.3
|
7,179,725.4
|
8
|
600
|
LCA1607
|
LSR27898
|
|
450
|
478,536.1
|
7,179,720.7
|
6
|
950
|
LCA1608
|
LSR27899
|
|
450
|
478,537.8
|
7,179,716.0
|
9
|
250
|
LCA1609
|
LSR27822
|
|
450
|
478,557.4
|
7,179,720.5
|
2
|
100
|
LCA1610
|
LSR27823
|
|
450
|
478,555.7
|
7,179,725.2
|
2
|
150
|
LCA1611
|
LSR27824
|
|
450
|
478,554.0
|
7,179,729.9
|
3
|
150
|
LCA1612
|
LSR27825
|
|
450
|
478,552.3
|
7,179,734.6
|
12
|
300
|
LCA1613
|
LSR27826
|
|
450
|
478,550.6
|
7,179,739.3
|
21
|
500
|
LCA1614
|
LSR27827
|
|
450
|
478,548.9
|
7,179,744.0
|
16
|
650
|
LCA1615
|
LSR27828
|
|
450
|
478,547.2
|
7,179,748.7
|
8
|
700
|
LCA1616
|
LSR27829
|
|
450
|
478,545.4
|
7,179,753.4
|
9
|
700
|
LCA1617
|
LSR27830
|
|
450
|
478,543.7
|
7,179,758.1
|
9
|
900
|
LCA1618
|
LSR27831
|
|
450
|
478,542.0
|
7,179,762.8
|
5
|
950
|
LCA1619
|
LSR27832
|
|
450
|
478,540.3
|
7,179,767.5
|
6
|
600
|
LCA1620
|
LSR27833
|
|
450
|
478,538.6
|
7,179,772.2
|
9
|
700
|
LCA1621
|
LSR27834
|
|
450
|
478,536.9
|
7,179,776.9
|
10
|
700
|
LCA1622
|
LSR27835
|
|
450
|
478,535.2
|
7,179,781.6
|
13
|
1250
|
LCA1623
|
LSR27836
|
|
450
|
478,533.5
|
7,179,786.3
|
7
|
1250
|
LCA1624
|
LSR27838
|
|
450
|
478,531.8
|
7,179,791.0
|
4
|
150
|
LCA1625
|
LSR27839
|
|
450
|
478,530.1
|
7,179,795.7
|
4
|
150
|
LCA1626
|
LSR27840
|
|
450
|
478,528.3
|
7,179,800.4
|
2
|
150
|
LCA1627
|
LSR27841
|
|
450
|
478,526.6
|
7,179,805.1
|
4
|
150
|
LCA1628
|
LSR27842
|
|
450
|
478,524.9
|
7,179,809.8
|
2
|
200
|
LCA1629
|
LSR27843
|
|
450
|
478,523.2
|
7,179,814.5
|
1
|
200
|
LCA1630
|
LSR27844
|
|
450
|
478,521.5
|
7,179,819.2
|
-1
|
100
|
LCA1631
|
LSR27845
|
|
450
|
478,519.8
|
7,179,823.9
|
1
|
100
|
LCA1632
|
LSR27846
|
|
450
|
478,518.1
|
7,179,828.6
|
1
|
100
|
LCA1633
|
LSR27847
|
|
450
|
478,516.4
|
7,179,833.3
|
-1
|
100
|
LCA1634
|
LSR27848
|
|
450
|
478,514.7
|
7,179,838.0
|
15
|
150
|
LCA1635
|
LSR27849
|
|
450
|
478,513.0
|
7,179,842.7
|
-1
|
100
|
LCA1636
|
LSR27850A
|
|
450
|
478,511.2
|
7,179,847.4
|
12
|
400
|
LCA1637
|
LSR27850
|
|
450
|
478,509.5
|
7,179,852.1
|
3
|
100
|
LCA1638
|
LSR27851
|
|
450
|
478,507.8
|
7,179,856.8
|
3
|
150
|
LCA1639
|
LSR27852
|
|
450
|
478,506.1
|
7,179,861.5
|
2
|
100
|
LCA1640
|
LSR27853
|
|
450
|
478,504.4
|
7,179,866.2
|
4
|
100
|
HoleID
|
SampleID
|
DepthTo
|
nominal RL
|
East
|
North
|
Au_ppb
|
S_ppm
|
LCA1641
|
LSR27854
|
|
450
|
478,502.7
|
7,179,870.9
|
1
|
150
|
LCA1642
|
LSR27855
|
|
450
|
478,501.0
|
7,179,875.6
|
1
|
100
|
LCA1643
|
LSR27856
|
|
450
|
478,499.3
|
7,179,880.3
|
1
|
200
|
LCA1644
|
LSR27858
|
|
450
|
478,497.6
|
7,179,885.0
|
11
|
100
|
LCA1645
|
LSR27859
|
|
450
|
478,495.9
|
7,179,889.7
|
6
|
100
|
LCA1646
|
LSR27860
|
|
450
|
478,494.1
|
7,179,894.4
|
4
|
100
|
LCA1653
|
LSR27779
|
|
450
|
478,512.1
|
7,179,903.6
|
-1
|
100
|
LCA1654
|
LSR27780
|
|
450
|
478,513.8
|
7,179,898.9
|
-1
|
100
|
LCA1655
|
LSR27781
|
|
450
|
478,515.5
|
7,179,894.2
|
-1
|
100
|
LCA1656
|
LSR27782
|
|
450
|
478,517.2
|
7,179,889.5
|
-1
|
100
|
LCA1657
|
LSR27783
|
|
450
|
478,518.9
|
7,179,884.8
|
-1
|
50
|
LCA1658
|
LSR27784
|
|
450
|
478,520.6
|
7,179,880.1
|
-1
|
100
|
LCA1659
|
LSR27785
|
|
450
|
478,522.3
|
7,179,875.4
|
-1
|
100
|
LCA1660
|
LSR27786
|
|
450
|
478,524.1
|
7,179,870.7
|
-1
|
100
|
LCA1661
|
LSR27787
|
|
450
|
478,525.8
|
7,179,866.0
|
2
|
100
|
LCA1662
|
LSR27788
|
|
450
|
478,527.5
|
7,179,861.3
|
-1
|
100
|
LCA1663
|
LSR27789
|
|
450
|
478,529.2
|
7,179,856.6
|
-1
|
100
|
LCA1664
|
LSR27790
|
|
450
|
478,530.9
|
7,179,851.9
|
2
|
100
|
LCA1665
|
LSR27792
|
|
450
|
478,532.6
|
7,179,847.2
|
-1
|
50
|
LCA1666
|
LSR27793
|
|
450
|
478,534.3
|
7,179,842.5
|
-1
|
150
|
LCA1667
|
LSR27794
|
|
450
|
478,536.0
|
7,179,837.8
|
-1
|
100
|
LCA1668
|
LSR27795
|
|
450
|
478,537.7
|
7,179,833.1
|
-1
|
100
|
LCA1669
|
LSR27796
|
|
450
|
478,539.4
|
7,179,828.4
|
-1
|
100
|
LCA1670
|
LSR27797
|
|
450
|
478,541.2
|
7,179,823.7
|
-1
|
100
|
LCA1671
|
LSR27798
|
|
450
|
478,542.9
|
7,179,819.0
|
-1
|
100
|
LCA1672
|
LSR27799
|
|
450
|
478,544.6
|
7,179,814.3
|
-1
|
100
|
LCA1673
|
LSR27800
|
|
450
|
478,546.3
|
7,179,809.6
|
-1
|
100
|
LCA1674
|
LSR27801
|
|
450
|
478,548.0
|
7,179,804.9
|
42
|
100
|
LCA1675
|
LSR27802
|
|
450
|
478,549.7
|
7,179,800.2
|
3
|
150
|
LCA1676
|
LSR27803
|
|
450
|
478,551.4
|
7,179,795.5
|
4
|
150
|
LCA1677
|
LSR27804
|
|
450
|
478,553.1
|
7,179,790.8
|
4
|
150
|
LCA1678
|
LSR27805
|
|
450
|
478,554.8
|
7,179,786.1
|
7
|
22300
|
LCA1679
|
LSR27806
|
|
450
|
478,556.5
|
7,179,781.4
|
11
|
550
|
LCA1680
|
LSR27807
|
|
450
|
478,558.3
|
7,179,776.7
|
17
|
900
|
LCA1681
|
LSR27808
|
|
450
|
478,560.0
|
7,179,772.0
|
17
|
1000
|
LCA1682
|
LSR27812
|
|
450
|
478,561.7
|
7,179,767.3
|
12
|
400
|
LCA1683
|
LSR27813
|
|
450
|
478,563.4
|
7,179,762.6
|
2
|
100
|
LCA1684
|
LSR27814
|
|
450
|
478,565.1
|
7,179,757.9
|
3
|
150
|
LCA1685
|
LSR27815
|
|
450
|
478,566.8
|
7,179,753.2
|
7
|
300
|
LCA1686
|
LSR27816
|
|
450
|
478,568.5
|
7,179,748.5
|
-1
|
100
|
LCA1687
|
LSR27818
|
|
450
|
478,570.2
|
7,179,743.8
|
12
|
250
|
LCA1688
|
LSR27819
|
|
450
|
478,571.9
|
7,179,739.1
|
32
|
400
|
LCA1689
|
LSR27820
|
|
450
|
478,573.6
|
7,179,734.4
|
10
|
4150
|
LCA1690
|
LSR27821
|
|
450
|
478,575.4
|
7,179,729.7
|
9
|
1150
|
LCA1693
|
LSR27741
|
|
450
|
478,591.6
|
7,179,743.6
|
9
|
200
|
LCA1694
|
LSR27742
|
|
450
|
478,589.9
|
7,179,748.3
|
6
|
200
|
HoleID
|
SampleID
|
DepthTo
|
nominal RL
|
East
|
North
|
Au_ppb
|
S_ppm
|
LCA1695
|
LSR27743
|
|
450
|
478,588.2
|
7,179,753.0
|
8
|
300
|
LCA1696
|
LSR27744
|
|
450
|
478,586.5
|
7,179,757.7
|
9
|
450
|
LCA1697
|
LSR27745
|
|
450
|
478,584.7
|
7,179,762.4
|
7
|
800
|
LCA1698
|
LSR27746
|
|
450
|
478,583.0
|
7,179,767.1
|
9
|
150
|
LCA1699
|
LSR27747
|
|
450
|
478,581.3
|
7,179,771.8
|
7
|
700
|
LCA1700
|
LSR27748
|
|
450
|
478,579.6
|
7,179,776.5
|
10
|
800
|
LCA1701
|
LSR27749
|
|
450
|
478,577.9
|
7,179,781.2
|
2
|
100
|
LCA1702
|
LSR27750
|
|
450
|
478,576.2
|
7,179,785.9
|
2
|
200
|
LCA1703
|
LSR27752
|
|
450
|
478,574.5
|
7,179,790.6
|
-1
|
100
|
LCA1704
|
LSR27753
|
|
450
|
478,572.8
|
7,179,795.3
|
-1
|
100
|
LCA1705
|
LSR27754
|
|
450
|
478,571.1
|
7,179,800.0
|
-1
|
100
|
LCA1706
|
LSR27755
|
|
450
|
478,569.4
|
7,179,804.7
|
-1
|
50
|
LCA1707
|
LSR27756
|
|
450
|
478,567.6
|
7,179,809.4
|
-1
|
100
|
LCA1708
|
LSR27757
|
|
450
|
478,565.9
|
7,179,814.1
|
22
|
100
|
LCA1709
|
LSR27758
|
|
450
|
478,564.2
|
7,179,818.8
|
1
|
100
|
LCA1710
|
LSR27759
|
|
450
|
478,562.5
|
7,179,823.5
|
3
|
100
|
LCA1711
|
LSR27760
|
|
450
|
478,560.8
|
7,179,828.2
|
-1
|
100
|
LCA1712
|
LSR27761
|
|
450
|
478,559.1
|
7,179,832.9
|
-1
|
50
|
LCA1713
|
LSR27762
|
|
450
|
478,557.4
|
7,179,837.6
|
-1
|
100
|
LCA1714
|
LSR27763
|
|
450
|
478,555.7
|
7,179,842.3
|
-1
|
100
|
LCA1715
|
LSR27764
|
|
450
|
478,554.0
|
7,179,847.0
|
-1
|
100
|
LCA1716
|
LSR27765
|
|
450
|
478,552.3
|
7,179,851.7
|
-1
|
50
|
LCA1717
|
LSR27766
|
|
450
|
478,550.5
|
7,179,856.4
|
-1
|
100
|
LCA1718
|
LSR27767
|
|
450
|
478,548.8
|
7,179,861.1
|
-1
|
100
|
LCA1719
|
LSR27768
|
|
450
|
478,547.1
|
7,179,865.8
|
-1
|
100
|
LCA1720
|
LSR27769
|
|
450
|
478,545.4
|
7,179,870.5
|
-1
|
100
|
LCA1721
|
LSR27770
|
|
450
|
478,543.7
|
7,179,875.2
|
-1
|
100
|
LCA1722
|
LSR27772
|
|
450
|
478,542.0
|
7,179,879.9
|
-1
|
50
|
LCA1723
|
LSR27773
|
|
450
|
478,540.3
|
7,179,884.6
|
1
|
100
|
LCA1724
|
LSR27774
|
|
450
|
478,538.6
|
7,179,889.3
|
2
|
100
|
LCA1725
|
LSR27775
|
|
450
|
478,536.9
|
7,179,894.0
|
2
|
100
|
LCA1726
|
LSR27776
|
|
450
|
478,535.2
|
7,179,898.7
|
2
|
50
|
LCA1727
|
LSR27777
|
|
450
|
478,533.4
|
7,179,903.4
|
2
|
50
|
LCA1728
|
LSR27778
|
|
450
|
478,531.7
|
7,179,908.1
|
2
|
100
|
LCA1736
|
LSR27705
|
|
450
|
478,551.4
|
7,179,912.6
|
-1
|
50
|
LCA1737
|
LSR27706
|
|
450
|
478,553.1
|
7,179,907.9
|
-1
|
50
|
LCA1738
|
LSR27707
|
|
450
|
478,554.8
|
7,179,903.2
|
-1
|
100
|
LCA1739
|
LSR27708
|
|
450
|
478,556.5
|
7,179,898.5
|
-1
|
100
|
LCA1740
|
LSR27709
|
|
450
|
478,558.2
|
7,179,893.8
|
3
|
100
|
LCA1741
|
LSR27710
|
|
450
|
478,559.9
|
7,179,889.1
|
2
|
100
|
LCA1742
|
LSR27712
|
|
450
|
478,561.6
|
7,179,884.4
|
-1
|
100
|
LCA1743
|
LSR27713
|
|
450
|
478,563.4
|
7,179,879.7
|
-1
|
50
|
LCA1744
|
LSR27714
|
|
450
|
478,565.1
|
7,179,875.0
|
1
|
100
|
LCA1745
|
LSR27715
|
|
450
|
478,566.8
|
7,179,870.3
|
-1
|
100
|
LCA1746
|
LSR27716
|
|
450
|
478,568.5
|
7,179,865.6
|
1
|
100
|
LCA1747
|
LSR27717
|
|
450
|
478,570.2
|
7,179,860.9
|
1
|
100
|
HoleID
|
SampleID
|
DepthTo
|
nominal RL
|
East
|
North
|
Au_ppb
|
S_ppm
|
LCA1748
|
LSR27718
|
|
450
|
478,571.9
|
7,179,856.2
|
1
|
100
|
LCA1749
|
LSR27719
|
|
450
|
478,573.6
|
7,179,851.5
|
-1
|
100
|
LCA1750
|
LSR27720
|
|
450
|
478,575.3
|
7,179,846.8
|
-1
|
100
|
LCA1751
|
LSR27721
|
|
450
|
478,577.0
|
7,179,842.1
|
-1
|
100
|
LCA1752
|
LSR27722
|
|
450
|
478,578.7
|
7,179,837.4
|
-1
|
100
|
LCA1753
|
LSR27723
|
|
450
|
478,580.5
|
7,179,832.7
|
1
|
100
|
LCA1754
|
LSR27724
|
|
450
|
478,582.2
|
7,179,828.0
|
-1
|
100
|
LCA1755
|
LSR27725
|
|
450
|
478,583.9
|
7,179,823.3
|
4
|
100
|
LCA1756
|
LSR27726
|
|
450
|
478,585.6
|
7,179,818.6
|
-1
|
100
|
LCA1757
|
LSR27727
|
|
450
|
478,587.3
|
7,179,813.9
|
-1
|
150
|
LCA1758
|
LSR27728
|
|
450
|
478,589.0
|
7,179,809.2
|
-1
|
50
|
LCA1759
|
LSR27729
|
|
450
|
478,590.7
|
7,179,804.5
|
-1
|
100
|
LCA1760
|
LSR27730
|
|
450
|
478,592.4
|
7,179,799.8
|
-1
|
50
|
LCA1761
|
LSR27732
|
|
450
|
478,594.1
|
7,179,795.1
|
-1
|
50
|
LCA1762
|
LSR27733
|
|
450
|
478,595.8
|
7,179,790.4
|
-1
|
50
|
LCA1763
|
LSR27734
|
|
450
|
478,597.6
|
7,179,785.7
|
9
|
200
|
LCA1764
|
LSR27735
|
|
450
|
478,599.3
|
7,179,781.0
|
2
|
100
|
LCA1765
|
LSR27736
|
|
450
|
478,601.0
|
7,179,776.3
|
5
|
100
|
LCA1766
|
LSR27737
|
|
450
|
478,602.7
|
7,179,771.6
|
7
|
250
|
LCA1769
|
LSR27738
|
|
450
|
478,607.8
|
7,179,757.5
|
-1
|
100
|
LCA1771
|
LSR27739
|
|
450
|
478,611.2
|
7,179,748.1
|
6
|
100
|
LCA1772
|
LSR27740
|
|
450
|
478,612.9
|
7,179,743.4
|
4
|
100
|
LCA1773
|
LSR27675
|
|
450
|
478,632.6
|
7,179,747.9
|
16
|
100
|
LCA1774
|
LSR27676
|
|
450
|
478,630.9
|
7,179,752.6
|
9
|
200
|
LCA1775
|
LSR27677
|
|
450
|
478,629.2
|
7,179,757.3
|
1
|
100
|
LCA1776
|
LSR27678
|
|
450
|
478,627.5
|
7,179,762.0
|
-1
|
100
|
LCA1777
|
LSR27679
|
|
450
|
478,625.8
|
7,179,766.7
|
4
|
100
|
LCA1778
|
LSR27680
|
|
450
|
478,624.0
|
7,179,771.4
|
6
|
100
|
LCA1779
|
LSR27682
|
|
450
|
478,622.3
|
7,179,776.1
|
8
|
200
|
LCA1780
|
LSR27683
|
|
450
|
478,620.6
|
7,179,780.8
|
6
|
100
|
LCA1782
|
LSR27684
|
|
450
|
478,617.2
|
7,179,790.2
|
-1
|
100
|
LCA1791
|
LSR27685
|
|
450
|
478,601.8
|
7,179,832.5
|
6
|
100
|
LCA1792
|
LSR27686
|
|
450
|
478,600.1
|
7,179,837.2
|
6
|
100
|
LCA1793
|
LSR27687
|
|
450
|
478,598.4
|
7,179,841.9
|
18
|
100
|
LCA1794
|
LSR27688
|
|
450
|
478,596.7
|
7,179,846.6
|
2
|
50
|
LCA1795
|
LSR27689
|
|
450
|
478,595.0
|
7,179,851.3
|
3
|
100
|
LCA1796
|
LSR27690
|
|
450
|
478,593.3
|
7,179,856.0
|
1
|
100
|
LCA1797
|
LSR27692
|
|
450
|
478,591.6
|
7,179,860.7
|
3
|
50
|
LCA1798
|
LSR27693
|
|
450
|
478,589.8
|
7,179,865.4
|
-1
|
50
|
LCA1799
|
LSR27694
|
|
450
|
478,588.1
|
7,179,870.1
|
-1
|
100
|
LCA1800
|
LSR27695
|
|
450
|
478,586.4
|
7,179,874.8
|
2
|
50
|
LCA1801
|
LSR27696
|
|
450
|
478,584.7
|
7,179,879.5
|
-1
|
100
|
LCA1802
|
LSR27697
|
|
450
|
478,583.0
|
7,179,884.2
|
1
|
100
|
LCA1803
|
LSR27698
|
|
450
|
478,581.3
|
7,179,888.9
|
-1
|
50
|
LCA1804
|
LSR27699
|
|
450
|
478,579.6
|
7,179,893.6
|
1
|
100
|
LCA1805
|
LSR27700
|
|
450
|
478,577.9
|
7,179,898.3
|
1
|
100
|
HoleID
|
SampleID
|
DepthTo
|
nominal RL
|
East
|
North
|
Au_ppb
|
S_ppm
|
LCA1806
|
LSR27701
|
|
450
|
478,576.2
|
7,179,902.9
|
-1
|
50
|
LCA1807
|
LSR27702
|
|
450
|
478,574.4
|
7,179,907.6
|
-1
|
100
|
LCA1808
|
LSR27703
|
|
450
|
478,572.7
|
7,179,912.3
|
2
|
100
|
LCA1809
|
LSR27704
|
|
450
|
478,571.0
|
7,179,917.0
|
1
|
50
|
LCA1819
|
LSR27637
|
|
450
|
478,590.7
|
7,179,921.5
|
-1
|
150
|
LCA1820
|
LSR27638
|
|
450
|
478,592.4
|
7,179,916.8
|
4
|
100
|
LCA1821
|
LSR27639
|
|
450
|
478,594.1
|
7,179,912.1
|
6
|
300
|
LCA1822
|
LSR27640
|
|
450
|
478,595.8
|
7,179,907.4
|
2
|
250
|
LCA1823
|
LSR27642
|
|
450
|
478,597.5
|
7,179,902.7
|
2
|
200
|
LCA1824
|
LSR27643
|
|
450
|
478,599.2
|
7,179,898.0
|
17
|
300
|
LCA1825
|
LSR27644
|
|
450
|
478,600.9
|
7,179,893.3
|
7
|
200
|
LCA1826
|
LSR27645
|
|
450
|
478,602.6
|
7,179,888.6
|
11
|
250
|
LCA1827
|
LSR27646
|
|
450
|
478,604.4
|
7,179,883.9
|
9
|
150
|
LCA1828
|
LSR27647
|
|
450
|
478,606.1
|
7,179,879.2
|
16
|
250
|
LCA1829
|
LSR27648
|
|
450
|
478,607.8
|
7,179,874.6
|
2
|
100
|
LCA1830
|
LSR27649
|
|
450
|
478,609.5
|
7,179,869.9
|
2
|
100
|
LCA1831
|
LSR27650
|
|
450
|
478,611.2
|
7,179,865.2
|
1
|
100
|
LCA1832
|
LSR27651
|
|
450
|
478,612.9
|
7,179,860.5
|
2
|
100
|
LCA1833
|
LSR27652
|
|
450
|
478,614.6
|
7,179,855.8
|
3
|
150
|
LCA1834
|
LSR27653
|
|
450
|
478,616.3
|
7,179,851.1
|
1
|
50
|
LCA1835
|
LSR27654
|
|
450
|
478,618.0
|
7,179,846.4
|
3
|
50
|
LCA1836
|
LSR27655
|
|
450
|
478,619.7
|
7,179,841.7
|
2
|
50
|
LCA1837
|
LSR27656
|
|
450
|
478,621.5
|
7,179,837.0
|
6
|
450
|
LCA1838
|
LSR27657
|
|
450
|
478,623.2
|
7,179,832.3
|
6
|
400
|
LCA1839
|
LSR27658
|
|
450
|
478,624.9
|
7,179,827.6
|
7
|
300
|
LCA1840
|
LSR27659
|
|
450
|
478,626.6
|
7,179,822.9
|
4
|
250
|
LCA1841
|
LSR27660
|
|
450
|
478,628.3
|
7,179,818.2
|
7
|
350
|
LCA1842
|
LSR27662
|
|
450
|
478,630.0
|
7,179,813.5
|
7
|
400
|
LCA1843
|
LSR27663
|
|
450
|
478,631.7
|
7,179,808.8
|
7
|
350
|
LCA1844
|
LSR27664
|
|
450
|
478,633.4
|
7,179,804.1
|
6
|
1500
|
LCA1845
|
LSR27665
|
|
450
|
478,635.1
|
7,179,799.4
|
6
|
650
|
LCA1846
|
LSR27666
|
|
450
|
478,636.9
|
7,179,794.7
|
8
|
2300
|
LCA1847
|
LSR27667
|
|
450
|
478,638.6
|
7,179,790.0
|
7
|
750
|
LCA1848
|
LSR27668
|
|
450
|
478,640.3
|
7,179,785.3
|
5
|
650
|
LCA1849
|
LSR27669
|
|
450
|
478,642.0
|
7,179,780.6
|
9
|
250
|
LCA1850
|
LSR27670
|
|
450
|
478,643.7
|
7,179,775.9
|
13
|
350
|
LCA1851
|
LSR27671
|
|
450
|
478,645.4
|
7,179,771.2
|
2
|
100
|
LCA1852
|
LSR27672
|
|
450
|
478,647.1
|
7,179,766.5
|
18
|
100
|
LCA1853
|
LSR27673
|
|
450
|
478,648.8
|
7,179,761.8
|
2
|
100
|
LCA1854
|
LSR27674
|
|
450
|
478,650.5
|
7,179,757.1
|
31
|
300
|
LCA1855
|
LSR27599
|
|
450
|
478,670.2
|
7,179,761.6
|
5
|
50
|
LCA1856
|
LSR27601
|
|
450
|
478,668.5
|
7,179,766.3
|
18
|
150
|
LCA1857
|
LSR27602
|
|
450
|
478,666.8
|
7,179,771.0
|
5
|
50
|
LCA1858
|
LSR27603
|
|
450
|
478,665.0
|
7,179,775.7
|
30
|
250
|
LCA1859
|
LSR27604
|
|
450
|
478,663.3
|
7,179,780.4
|
7
|
250
|
LCA1860
|
LSR27605
|
|
450
|
478,661.6
|
7,179,785.1
|
8
|
50
|
HoleID
|
SampleID
|
DepthTo
|
nominal RL
|
East
|
North
|
Au_ppb
|
S_ppm
|
LCA1861
|
LSR27606
|
|
450
|
478,659.9
|
7,179,789.8
|
10
|
100
|
LCA1862
|
LSR27607
|
|
450
|
478,658.2
|
7,179,794.5
|
10
|
250
|
LCA1863
|
LSR27608
|
|
450
|
478,656.5
|
7,179,799.2
|
2
|
250
|
LCA1864
|
LSR27609
|
|
450
|
478,654.8
|
7,179,803.9
|
6
|
150
|
LCA1865
|
LSR27610
|
|
450
|
478,653.1
|
7,179,808.6
|
6
|
150
|
LCA1866
|
LSR27611
|
|
450
|
478,651.4
|
7,179,813.3
|
1
|
50
|
LCA1867
|
LSR27612
|
|
450
|
478,649.7
|
7,179,818.0
|
1
|
50
|
LCA1868
|
LSR27613
|
|
450
|
478,647.9
|
7,179,822.7
|
-1
|
50
|
LCA1869
|
LSR27614
|
|
450
|
478,646.2
|
7,179,827.4
|
-1
|
50
|
LCA1870
|
LSR27615
|
|
450
|
478,644.5
|
7,179,832.1
|
6
|
150
|
LCA1871
|
LSR27616
|
|
450
|
478,642.8
|
7,179,836.8
|
6
|
450
|
LCA1872
|
LSR27617
|
|
450
|
478,641.1
|
7,179,841.5
|
6
|
500
|
LCA1873
|
LSR27618
|
|
450
|
478,639.4
|
7,179,846.2
|
15
|
350
|
LCA1874
|
LSR27619
|
|
450
|
478,637.7
|
7,179,850.9
|
6
|
200
|
LCA1875
|
LSR27620
|
|
450
|
478,636.0
|
7,179,855.6
|
3
|
100
|
LCA1876
|
LSR27622
|
|
450
|
478,634.3
|
7,179,860.2
|
9
|
250
|
LCA1877
|
LSR27623
|
|
450
|
478,632.6
|
7,179,864.9
|
8
|
200
|
LCA1878
|
LSR27624
|
|
450
|
478,630.8
|
7,179,869.6
|
8
|
200
|
LCA1879
|
LSR27625
|
|
450
|
478,629.1
|
7,179,874.3
|
7
|
250
|
LCA1880
|
LSR27626
|
|
450
|
478,627.4
|
7,179,879.0
|
2
|
200
|
LCA1881
|
LSR27627
|
|
450
|
478,625.7
|
7,179,883.7
|
-1
|
100
|
LCA1882
|
LSR27628
|
|
450
|
478,624.0
|
7,179,888.4
|
-1
|
100
|
LCA1883
|
LSR27629
|
|
450
|
478,622.3
|
7,179,893.1
|
-1
|
100
|
LCA1884
|
LSR27630
|
|
450
|
478,620.6
|
7,179,897.8
|
-1
|
100
|
LCA1885
|
LSR27631
|
|
450
|
478,618.9
|
7,179,902.5
|
-1
|
100
|
LCA1886
|
LSR27632
|
|
450
|
478,617.2
|
7,179,907.2
|
-1
|
150
|
LCA1887
|
LSR27633
|
|
450
|
478,615.5
|
7,179,911.9
|
-1
|
100
|
LCA1888
|
LSR27634
|
|
450
|
478,613.7
|
7,179,916.6
|
-1
|
100
|
LCA1889
|
LSR27635
|
|
450
|
478,612.0
|
7,179,921.3
|
-1
|
100
|
LCA1890
|
LSR27636
|
|
450
|
478,610.3
|
7,179,926.0
|
-1
|
100
|
LCA1902
|
LSR27562
|
|
450
|
478,630.0
|
7,179,930.5
|
30
|
200
|
LCA1903
|
LSR27563
|
|
450
|
478,631.7
|
7,179,925.8
|
4
|
100
|
LCA1904
|
LSR27564
|
|
450
|
478,633.4
|
7,179,921.1
|
1
|
50
|
LCA1905
|
LSR27565
|
|
450
|
478,635.1
|
7,179,916.4
|
10
|
250
|
LCA1906
|
LSR27566
|
|
450
|
478,636.8
|
7,179,911.7
|
3
|
200
|
LCA1907
|
LSR27567
|
|
450
|
478,638.5
|
7,179,907.0
|
9
|
250
|
LCA1908
|
LSR27568
|
|
450
|
478,640.2
|
7,179,902.3
|
6
|
200
|
LCA1909
|
LSR27569
|
|
450
|
478,641.9
|
7,179,897.6
|
1
|
50
|
LCA1910
|
LSR27570
|
|
450
|
478,643.7
|
7,179,892.9
|
6
|
250
|
LCA1911
|
LSR27571
|
|
450
|
478,645.4
|
7,179,888.2
|
16
|
250
|
LCA1912
|
LSR27572
|
|
450
|
478,647.1
|
7,179,883.5
|
-1
|
50
|
LCA1913
|
LSR27573
|
|
450
|
478,648.8
|
7,179,878.8
|
-1
|
50
|
LCA1914
|
LSR27574
|
|
450
|
478,650.5
|
7,179,874.1
|
4
|
50
|
LCA1915
|
LSR27575
|
|
450
|
478,652.2
|
7,179,869.4
|
3
|
200
|
LCA1916
|
LSR27576
|
|
450
|
478,653.9
|
7,179,864.7
|
14
|
400
|
LCA1917
|
LSR27578
|
|
450
|
478,655.6
|
7,179,860.0
|
16
|
500
|
HoleID
|
SampleID
|
DepthTo
|
nominal RL
|
East
|
North
|
Au_ppb
|
S_ppm
|
LCA1918
|
LSR27579
|
|
450
|
478,657.3
|
7,179,855.3
|
6
|
200
|
LCA1919
|
LSR27580
|
|
450
|
478,659.0
|
7,179,850.6
|
5
|
100
|
LCA1920
|
LSR27581
|
1.5
|
450
|
478,660.8
|
7,179,845.9
|
4
|
250
|
LCA1921
|
LSR27582
|
1
|
450
|
478,662.5
|
7,179,841.2
|
5
|
150
|
LCA1921
|
LSR27583
|
2
|
450
|
478,662.5
|
7,179,841.2
|
2
|
350
|
LCA1922
|
LSR27584
|
|
450
|
478,664.2
|
7,179,836.5
|
13
|
300
|
LCA1923
|
LSR27585
|
|
450
|
478,665.9
|
7,179,831.9
|
7
|
100
|
LCA1924
|
LSR27586
|
|
450
|
478,667.6
|
7,179,827.2
|
10
|
150
|
LCA1925
|
LSR27587
|
|
450
|
478,669.3
|
7,179,822.5
|
22
|
200
|
LCA1926
|
LSR27588
|
|
450
|
478,671.0
|
7,179,817.8
|
22
|
250
|
LCA1927
|
LSR27589
|
|
450
|
478,672.7
|
7,179,813.1
|
11
|
100
|
LCA1928
|
LSR27590
|
|
450
|
478,674.4
|
7,179,808.4
|
5
|
100
|
LCA1929
|
LSR27591
|
|
450
|
478,676.1
|
7,179,803.7
|
16
|
200
|
LCA1930
|
LSR27592
|
|
450
|
478,677.9
|
7,179,799.0
|
6
|
150
|
LCA1931
|
LSR27593
|
|
450
|
478,679.6
|
7,179,794.3
|
4
|
100
|
LCA1932
|
LSR27594
|
|
450
|
478,681.3
|
7,179,789.6
|
11
|
50
|
LCA1933
|
LSR27595
|
|
450
|
478,683.0
|
7,179,784.9
|
32
|
300
|
LCA1934
|
LSR27596
|
|
450
|
478,684.7
|
7,179,780.2
|
12
|
150
|
LCA1935
|
LSR27597
|
|
450
|
478,686.4
|
7,179,775.5
|
25
|
150
|
LCA1936
|
LSR27598
|
|
450
|
478,688.1
|
7,179,770.8
|
10
|
100
|
LCA1937
|
LSR27540
|
|
450
|
478,707.8
|
7,179,775.3
|
6
|
150
|
LCA1938
|
LSR27541
|
|
450
|
478,706.1
|
7,179,780.0
|
52
|
100
|
LCA1939
|
LSR27542
|
|
450
|
478,704.3
|
7,179,784.7
|
3
|
200
|
LCA1940
|
LSR27543
|
|
450
|
478,702.6
|
7,179,789.4
|
5
|
250
|
LCA1941
|
LSR27544
|
|
450
|
478,700.9
|
7,179,794.1
|
13
|
300
|
LCA1942
|
LSR27545
|
|
450
|
478,699.2
|
7,179,798.8
|
21
|
300
|
LCA1943
|
LSR27546
|
|
450
|
478,697.5
|
7,179,803.5
|
38
|
300
|
LCA1944
|
LSR27547
|
|
450
|
478,695.8
|
7,179,808.2
|
17
|
200
|
LCA1945
|
LSR27548
|
|
450
|
478,694.1
|
7,179,812.8
|
9
|
200
|
LCA1946
|
LSR27549
|
|
450
|
478,692.4
|
7,179,817.5
|
17
|
250
|
LCA1947
|
LSR27550
|
2
|
450
|
478,690.7
|
7,179,822.2
|
6
|
400
|
LCA1947
|
LSR27551
|
1
|
450
|
478,690.7
|
7,179,822.2
|
6
|
500
|
LCA1948
|
LSR27552
|
2.7
|
450
|
478,689.0
|
7,179,826.9
|
4
|
2400
|
LCA1948
|
LSR27553
|
1
|
450
|
478,689.0
|
7,179,826.9
|
6
|
300
|
LCA1949
|
LSR27554
|
|
450
|
478,687.2
|
7,179,831.6
|
14
|
350
|
LCA1950
|
LSR27555
|
|
450
|
478,685.5
|
7,179,836.3
|
3
|
100
|
LCA1951
|
LSR27556
|
|
450
|
478,683.8
|
7,179,841.0
|
12
|
150
|
LCA1952
|
LSR27558
|
|
450
|
478,682.1
|
7,179,845.7
|
14
|
200
|
LCA1953
|
LSR27559
|
1
|
450
|
478,680.4
|
7,179,850.4
|
10
|
200
|
LCA1953
|
LSR27560
|
2
|
450
|
478,680.4
|
7,179,850.4
|
5
|
250
|
LCA1954
|
LSR27561
|
1.8
|
450
|
478,678.7
|
7,179,855.1
|
5
|
250
|
LCA2002
|
LSR27520
|
|
450
|
478,698.3
|
7,179,859.6
|
12
|
400
|
LCA2003
|
LSR27521
|
|
450
|
478,700.1
|
7,179,854.9
|
2
|
50
|
LCA2004
|
LSR27522
|
|
450
|
478,701.8
|
7,179,850.2
|
3
|
50
|
LCA2005
|
LSR27523
|
|
450
|
478,703.5
|
7,179,845.5
|
7
|
150
|
LCA2006
|
LSR27524
|
|
450
|
478,705.2
|
7,179,840.8
|
2
|
50
|
HoleID
|
SampleID
|
DepthTo
|
nominal RL
|
East
|
North
|
Au_ppb
|
S_ppm
|
LCA2007
|
LSR27525
|
|
450
|
478,706.9
|
7,179,836.1
|
6
|
150
|
LCA2008
|
LSR27526
|
|
450
|
478,708.6
|
7,179,831.4
|
24
|
250
|
LCA2009
|
LSR27527
|
|
450
|
478,710.3
|
7,179,826.7
|
30
|
300
|
LCA2010
|
LSR27528
|
|
450
|
478,712.0
|
7,179,822.0
|
12
|
100
|
LCA2011
|
LSR27529
|
|
450
|
478,713.7
|
7,179,817.3
|
10
|
550
|
LCA2011
|
LSR27530
|
|
450
|
478,713.7
|
7,179,817.3
|
9
|
9850
|
LCA2012
|
LSR27531
|
|
450
|
478,715.4
|
7,179,812.6
|
16
|
450
|
LCA2013
|
LSR27532
|
|
450
|
478,717.2
|
7,179,807.9
|
3
|
100
|
LCA2014
|
LSR27533
|
|
450
|
478,718.9
|
7,179,803.2
|
5
|
100
|
LCA2015
|
LSR27534
|
|
450
|
478,720.6
|
7,179,798.5
|
6
|
50
|
LCA2016
|
LSR27535
|
|
450
|
478,722.3
|
7,179,793.8
|
18
|
50
|
LCA2017
|
LSR27536
|
|
450
|
478,724.0
|
7,179,789.1
|
6
|
50
|
LCA2018
|
LSR27538
|
|
450
|
478,725.7
|
7,179,784.5
|
18
|
150
|
LCA2018
|
LSR27539
|
|
450
|
478,725.7
|
7,179,784.5
|
27
|
400
|
LCA2034
|
LSR27519
|
|
450
|
478,719.7
|
7,179,859.4
|
16
|
1000
|
LCA2035
|
LSR27518
|
|
450
|
478,718.0
|
7,179,864.1
|
6
|
50
|
LCA2036
|
LSR27517
|
|
450
|
478,716.3
|
7,179,868.8
|
4
|
100
|
LCA2037
|
LSR28554
|
|
450
|
478,678.0
|
7,179,902.0
|
11
|
300
|
LCA2038
|
LSR28563
|
|
450
|
478,656.0
|
7,179,922.0
|
14
|
150
|
LCA2039
|
LSR28562
|
|
450
|
478,661.0
|
7,179,913.0
|
25
|
350
|
LCA2040
|
LSR28561
|
|
450
|
478,666.0
|
7,179,904.0
|
5
|
250
|
LCA2041
|
LSR28560
|
|
450
|
478,671.0
|
7,179,896.0
|
9
|
250
|
LCA2042
|
LSR28555
|
|
450
|
478,677.0
|
7,179,887.0
|
2
|
100
|
LCA2043
|
LSR28556
|
|
450
|
478,674.0
|
7,179,892.0
|
10
|
150
|
LCA2044
|
LSR28557
|
1.5
|
450
|
478,669.0
|
7,179,901.0
|
5
|
300
|
LCA2044
|
LSR28558
|
1.8
|
450
|
478,669.0
|
7,179,901.0
|
7
|
500
|
LCA2045
|
LSR28571
|
|
450
|
479,087.0
|
7,180,327.0
|
2
|
150
|
LCA2046
|
LSR28572
|
|
450
|
479,087.0
|
7,180,313.0
|
-1
|
100
|
LCA2047
|
LSR28573
|
|
450
|
479,088.0
|
7,180,300.0
|
-1
|
100
|
LCA2048
|
LSR28574
|
|
450
|
479,088.0
|
7,180,287.0
|
1
|
150
|
LCA2049
|
LSR28575
|
|
450
|
479,088.0
|
7,180,271.0
|
1
|
100
|
LCA2050
|
LSR28576
|
|
450
|
479,087.0
|
7,180,258.0
|
22
|
150
|
LCA2051
|
LSR28577
|
|
450
|
479,089.0
|
7,180,244.0
|
1
|
250
|
LCA2059
|
LSR28578
|
|
450
|
479,641.0
|
7,180,427.0
|
-1
|
100
|
LCA2060
|
LSR28580
|
|
450
|
479,641.0
|
7,180,399.0
|
2
|
150
|
LCA2061
|
LSR28581
|
|
450
|
479,641.0
|
7,180,377.0
|
3
|
100
|
LCA2063
|
LSR28588
|
|
450
|
478,935.0
|
7,181,404.0
|
-1
|
100
|
LCA2064
|
LSR28587
|
|
450
|
478,938.0
|
7,181,376.0
|
1
|
100
|
LCA2065
|
LSR28586
|
|
450
|
478,935.0
|
7,181,346.0
|
1
|
100
|
LCA2066
|
LSR28585
|
|
450
|
478,938.0
|
7,181,318.0
|
3
|
100
|
LCA2067
|
LSR28584
|
|
450
|
478,935.0
|
7,181,282.0
|
6
|
300
|
LCA2068
|
LSR28583
|
|
450
|
478,935.0
|
7,181,251.0
|
4
|
100
|
LCA2069
|
LSR28582
|
|
450
|
478,938.0
|
7,181,218.0
|
2
|
100
|
JORC Code, 2012
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.
|
-
Geochemical samples were collected by shallow auger drilling to blade refusal. The intention was to sample the interface between colluvium and bedrock. Samples were collected from the auger flights in a bucket, spear sampled and placed in numbered calico bags. Maximum depth per sample is 1 metre, only a few holes penetrated to greater than 1 metre depth. A 2.5kg sample is submitted for analysis.
-
Sample representivity is maintained by placing samples in a pre-numbered calico bag with a corresponding sample book entry. Certified reference materials, and laboratory repeat samples are analysed routinely.
-
Samples were collected on a systematic grid and drill hole locations were recorded using a hand-held DGPS.
|
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).
|
|
Drill sample recovery
|
-
Method of recording and assessing core and chip sample recoveries and results assessed.
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Measures taken to maximise sample recovery and ensure representative nature of the samples.
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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.
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Sample recovery was not recorded quantitatively, abbreviated description of the conditions note where hard ground was encountered and holes were completed at shallow depth.
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Rods and flights were cleaned regularly to minimise contamination.
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Samples were collected as bulk material that may contain particulate gold.
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Logging
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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.
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Whether logging is qualitative or quantitative in nature. Core (or costean, channel, etc.) photography.
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The total length and percentage of the relevant intersections logged.
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Samples are given a brief description; shallow sampling, generally less than 1 metre - not intended to define a mineral resource.
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Qualitative abbreviated description of sample material.
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Total hole/sample was logged.
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Sub-sampling techniques and sample preparation
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If core, whether cut or sawn and whether quarter, half or all core taken.
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If non-core, whether riffled, tube sampled, rotary split, etc. and whether sampled wet or dry.
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For all sample types, the nature, quality and appropriateness of the sample preparation technique.
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Quality control procedures adopted for all sub-sampling stages to maximise representivity of samples.
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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.
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Whether sample sizes are appropriate to the grain size of the
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Not applicable.
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Sample collected at surface and placed in bucket, sub-sample collected by PVC spear and placed in calico sample bag. Only dry samples were encountered.
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Sample preparation involves drying, crushing and grinding to 90% passing minus 75 microns.40g sub-sample collected by rotary splitter for assay. Replicate samples are included in the assay report.
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Field duplicates were not submitted
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Criteria
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JORC Code explanation
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Commentary
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material being sampled.
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for this program due to the close- spaced sample grid.
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Quality of assay data and laboratory tests
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The nature, quality and appropriateness of the assaying and laboratory procedures used and whether the technique is considered partial or total.
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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.
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Nature of quality control procedures adopted (e.g. standards, blanks, duplicates, external laboratory checks) and whether acceptable levels of accuracy (i.e. lack of bias) and precision have been established.
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A nominal 40 gramme charge is digested with aqua regia and gold is determined by ICP-MS (Method AR001). This is a partial digest although it is extremely efficient for the extraction of gold. Sulphur is analysed from the aqua regia solution by ICP- AES (method AR101).
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Laboratory QAQC involves the use of internal laboratory standards, duplicate and replicate samples. Lodestar's certified reference standards and blanks were inserted throughout the programme. Results indicate that sample
assay values are accurate and repeatable.
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Verification of sampling and assaying
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The verification of significant intersections by either independent or alternative company personnel.
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The use of twinned holes.
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Documentation of primary data, data entry procedures, data verification, data storage (physical and electronic) protocols.
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Discuss any adjustment to assay data.
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There has been no independent verification of geochemical data.
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No twinned holes have been completed.
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Field and laboratory data are collected electronically and entered into a relational database. Data collection protocols are recorded in Lodestar's operation manual.
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There has been no adjustment to assay data.
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Location of data points
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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.
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Specification of the grid system used.
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Quality and adequacy of topographic control.
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Sample locations were determined with a Navcom 3040 differential GNSS handheld receiver. Accuracy is +/-1 metres or less.
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Sample coordinates were recorded in GDA94 Zone 50 grid.
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Local elevation is recorded from the GPS; although this is subject to significant error it is unlikely to impact the validity o surface data.
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Data spacing and distribution
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Data spacing for reporting of Exploration Results.
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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.
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Whether sample compositing has been applied.
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Sample spacing varies from 5 metres by 5 metres to 20 metres by 5 metres.
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The sampling is part of an early exploration geochemical sampling programme with no relevance to resource estimation.
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No compositing was applied for the geochemical programme.
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Orientation of data in relation to geological structure
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Whether the orientation of sampling achieves unbiased sampling of possible structures and the extent to which this is known, considering the deposit type.
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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.
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Sample security
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Criteria
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JORC Code explanation
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Commentary
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staff to Bureau Veritas (Ultratrace) Laboratories.
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Audits or Reviews
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Section 2 Reporting of Exploration Results
(Criteria listed in the preceding section also apply to this section.)
Criteria
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JORC Code explanation
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Commentary
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Mineral tenement and land tenure status
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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.
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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.
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E52/2099 expires on 20/05/2020.
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Exploration done by other parties
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Gold exploration commenced at Camel Hills in the early 1990's, Newmont completed regional BLEG sampling of drainages, reporting visible gold from several creeks. A number of explorers have since completed in-fill stream and soil geochemistry, ultimately defining a strong surface gold anomaly in the Camel Hills-Big Sky area. This anomaly was partly tested by widely spaced RC drilling completed by Desert Mines and Metals Limited in 2013. Regional drainage sampling and prospectivity analysis of the Glenburgh 1:250 000 sheet by the GSWA indicates a large, low-level gold anomaly related to a strongly magnetic unit, mapped as the Petter Calc-silicate, within highly metamorphosed terrane of the Errabiddy Shear Zone at the northern boundary of the Yilgarn Craton.
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Geology
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The project area lies within the Errabiddy Shear Zone, at the northern margin of the Yilgarn Craton. The Errabiddy Shear Zone separates the Archaean Narryer Terrane from the Palaeoproterozoic Gascoyne Province to the north.
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The Errabiddy Shear Zone comprises the Warrigal Gneiss and the Camel Hill Metamorphics. The Camel Hills Metamorphics can be sub-divided into the Petter Calc- silicate and the Quartpot Pelite, the sequence is metamorphosed to upper amphibolite to granulite facies and the Quartpot Pelite displays evidence for widespread partial melting. Gold mineralisation appears to be related to a narrow lode system on the contact between strongly magnetic Petter Calc-silicate and the Quartpot Pelite.
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Drill hole Information
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easting and northing of the drill hole collar
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elevation or RL (Reduced Level - elevation above sea level in metres) of the drill hole collar
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dip and azimuth of the hole
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down hole length and interception depth
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hole length.
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Data aggregation
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Criteria
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JORC Code explanation
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Commentary
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methods
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grade truncations (e.g. cutting of high grades) and cut-off grades are usually Material and should be stated.
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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.
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The assumptions used for any reporting of metal equivalent values should be clearly stated.
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Relationship between mineralisation widths and intercept lengths
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These relationships are particularly important in the reporting of Exploration Results.
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If the geometry of the mineralisation with respect to the drill hole angle is known, its nature should be reported.
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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').
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Diagrams
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Balanced reporting
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Criteria
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JORC Code explanation
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Commentary
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Other substantive exploration data
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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.
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Further work
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The nature and scale of planned further work (e.g. tests for lateral extensions or depth extensions or large-scale step-out drilling).
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Diagrams clearly highlighting the areas of possible extensions, including the main geological interpretations and future drilling areas, provided this information is not commercially sensitive.
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The sampling program successfully outlined a surface gold anomaly in the area of known high-grade mineralisation defined by RC drilling completed in 2015. Step-out RC drilling will be planned on the results of the auger program.
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The sampling supports the concept that mineralisation is locally controlled by the Quartpot Pelite - Petter Calc- silicate contact, sulphide-poor gold mineralisation and gold-poor sulphide-rich zones have been identified along the 500 metres tested by this program.
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