North Vancouver, Canada –
Newsfile Corp. – June 6, 2022 –
Lion One Metals Limited (TSXV: LIO) (OTCQX: LOMLF) (ASX: LLO) (“Lion One” or the “Company”) is delighted to announce the discovery of a major new feeder structure at its Tuvatu Alkaline Gold Project in Fiji. Hole TUG-141, targeting a complex network of high-grade structures called the 500 Zone, has encountered the longest high-grade intercept yet recorded at Tuvatu,
20.86 g/t Au over 75.9m, including
43.62 g/t Au over 30.0m which includes
90.35 g/t Au over 7.2m. The new discovery is located at depth beneath the current resource fully within the permit boundaries of the Tuvatu mining lease.
High-grade intercepts from TUG-141 include:
20.86 g/t Au over 75.9m from 443.4-519.3m
including 35.25 g/t Au over 37.5m from 471.3-508.8m
including 43.62 g/t Au over 30.0m from 477.6-507.6m
including 90.35 g/t Au over 7.2m from 494.4-501.6m
and notable individual high-grade assay intervals including:
–
138.15 g/t Au over 0.30m from 450.9-451.2m
–
396.16 g/t Au over 0.30m from 479.1-479.4m
–
103.54 g/t Au over 0.30m from 498.6-498.9m
–
340.07 g/t Au over 0.30m from 498.9-499.2m
–
600.42 g/t Au over 0.30m from 499.5-499.8m
–
244.37 g/t Au over 0.30m from 502.5- 503.1m
–
230.18 g/t Au over 0.30m from 507.3-507.6m
–
105.58 g/t Au over 0.30m from 518.7-519.0m
Lion One CEO, Walter Berukoff, stated: “Like the initial discovery of the high-grade 500 Zone drilled two years ago, I believe this new robust high-grade gold feeder mineralization encountered by hole TUG-141 represents a substantial discovery for Lion One. The notable high grades and continuity of mineralization of this intercept demonstrate Tuvatu’s potential to become a large-scale, high-grade underground gold mine. I have long encouraged our team to find that “gold room” at Tuvatu, and hole TUG-141 leads me to believe they have found it. We have only to look at other notable large alkaline Au deposits as direct analogues to better understand what this latest discovery tells us, and it is clear that the discovery of a major high-grade feeder such as this should be viewed as very promising. I am confident that Tuvatu will one day fall in the ranks of notable multi-million ounce Au deposits such as Porgera and Vatukoula. I commend our team on this truly outstanding discovery and I look forward to continued successful execution of both our exploration strategy to realize growth at Tuvatu and our development strategy targeting the commencement of gold production in the second half of 2023.”
Lion One Senior VP of Exploration, Sergio Cattalani, commented: “The mineralized intercepts reported by TUG-141 represent a highly significant development. The grades and continuity observed by the intercepts in hole TUG-141 are of a magnitude not previously documented at Tuvatu, and highlights the largely untapped potential of this deposit. The significance of having identified what may be a new principal feeder conduit for Tuvatu confirms the model that has driven this deep exploration program since the discovery of hole TUDDH-500 in July 2020. Our immediate priority is to follow up of this significant discovery with additional drilling in what remains a relatively poorly drilled portion of the Tuvatu system. Lion One, is now more than ever, convinced of the potential of Tuvatu to become a prominent, multi-million ounce Au deposit at the top of the Au grade distribution worldwide.”
Lion One Technical Advisor, Quinton Hennigh, commented: “Alkaline gold systems tend to be deep-rooted and very structurally complex. Exploring them can be analogous to drilling a tree from the top down. In the shallow part of the system, one finds the upper “branches,” or gold-bearing lodes, but as exploration persists to depth, bigger and bigger “branches,” or lodes, are encountered ultimately leading to the “trunk,” the feeder. The way this remarkable discovery at Tuvatu has unfolded is quite similar to the experience at Porgera, where after approximately ten years of diligent drilling, the high-grade Romane Fault Zone was discovered beneath a myriad of smaller lodes. What is most exciting about this discovery is that now that we have a clear idea where the deep fluid-tapping conduit of this system is located, we can effectively chase it to depth, and alkaline gold systems are known to persist to great depths, sometimes as deep as 2 km. Considering this intercept is only approximately 500m below surface, this discovery is wide open for growth at depth.”
TUG-141 was drilled in the area between modelled 500 Zone lodes 500A, 500C and 500F (Figure 1) where it intersected continuous high-grade Au mineralization grading
20.86 g/t Au over 75.9m that is predominantly hosted by intensely altered, fractured and brecciated andesite. The highest grade core of this zone is characterized by hydrothermal breccia displaying extreme silicification, potassic alteration and sulfidation with regular occurrences of visible gold (Figure 2). In addition, the presence of abundant roscoelite (a vanadium mica mineral) is very encouraging and is a mineral synonymous with the high-grade zones of world-class alkali gold systems such as Cripple Creek in Colorado and Porgera in Papua New Guinea. Some fragments within portions of this breccia are visibly
milled, or rounded, indicating vigorous fluid flow. Observations of fracture patterns and textures ranging from
incipient and
in-situ to full-on brecciation (Figure 2) point to this zone being a dilational breccia that likely formed along a major structural intersection where stresses were being released at the time of mineralization. Rapid depressurisation accompanying seismic movement along such a dilational zone would allow rapid ascent of hydrothermal fluids resulting in silicification, K-metasomatism, sulfidation and rapid precipitation of Au. Textures of minerals observed in veins and open spaces is consistent with a rapid depositional regime.
Lion One is concurrently undertaking a two-pronged exploration drill campaign: 1) shallow infill drilling to enhance definition of its current resource in preparation for mine planning, and 2) deep drilling focussed on better understanding the geometry and extent of the underlying high-grade feeder network. As part of the latter program, hole TUG-141 targeted the upper portion of the 500 Zone at depths between approximately 450-550m where it is projected to connect with the base of lodes making up the Inferred resource. As discussed above, TUG-141 drilled into a very wide and exceptionally high-grade zone,
20.86 g/t Au over 75.9m, cored by hydrothermal breccia (Figure 2). Such a zone of extreme fracturing and brecciation has never before been observed at Tuvatu. It is significant to note that the bulk of this mineralized interval is hosted within andesite rather than by intrusive monzonite, the typical host rock for many lodes at Tuvatu. The significance of this observation has yet to be determined.
Furthermore, it is also notable that the nearest drill holes to TUG-141 are TUG-135 (70m below), TUG-136 (45m to the E), and TUG-138 (60m to the W), indicating that there is considerable space for a substantial increase in the ultimate size of the feeder conduit. All three of these holes have returned previously reported bonanza grade mineralization, similar in tenor and texture to that in TUG-141, including:
24.92 g/t Au over 3.70m from 415.7-419.4m in hole TUG-135 including
159.3 g/t Au over 0.30m;
87.83 g/t Au over 1.5m from 445.1-446.6m in hole TUG-136 including
108.41 g/t Au over 0.60m;
and 23.14 g/t Au over 3.0m from 571.5-574.5m in hole TUG-138 including
118.6 g/t Au over 0.30m.
The area remains open at depth. This target has now become of utmost importance for follow up drilling.
In addition to the impressive intercept of
20.86 g/t Au over 75.9m discussed above, hole TUG-141 encountered numerous other significant mineralized intercepts both above and below this interval including:
Above the high-grade intercept
3.93 g/t Au over 5.7m from 101.7-107.4m including
12.17 g/t Au over 0.30m
4.48 g/t Au over 10.2m from 109.8-120.0m including
38.27 g/t Au over 0.30m
10.98 g/t Au over 1.5m from 291.3-292.8m including
17.20 g/t Au over 0.60m
5.63 g/t Au over 19.2m from 311.7-330.9m including
20.50 g/t Au over 3.00m from 322.2-325.2m, which includes
71.01 g/t Au over 0.30m and
13.75 g/t Au over 0.60m
3.33 g/t Au over 4.50m from 366.3-370.8m including
7.40 g/t Au over 1.20m
11.38 g/t Au over 2.1m from 380.7-382.8m including
22.30 g/t Au over 0.90m
1.97 g/t Au over 13.5m from 391.8-405.3m including
15.25 g/t Au over 0.30m
2.82 g/t Au over 3.90m from 425.1-429.0m including
8.47 g/t Au over 0.30m
Below the high-grade intercept
3.08 g/t Au over 1.50m from 524.1-525.6m including
7.50 g/t Au over 0.30m
In aggregate, all mineralized intercepts reported from hole TUG-141 total 1,909 g/t Au-meters.
Complete results, received to date, from hole TUG-141 are summarized below in Table 1. This is the first drill hole in this part of the Tuvatu alkaline gold system, and as such, orientation and true thicknesses of mineralized intercepts discussed above are not known at this time. Further drilling is required to better understand this new discovery. At the time of writing, hole TUG-141 is still being drilled, and is currently >600m in depth with other mineralised structures yet to be assayed.
Figure 1. Plan view (upper) and vertical section looking E (lower) of the trace of TUG-141 and selected drill holes relative to the 500 Zone lodes modeled to date. TUG-141 was drilled from underground along the Tuvatu exploration decline. The traces of known lodes UR2 and UR4, and modelled lodes of the 500 Zone feeder are shown in red.
To view an enhanced version of Figure 1, please visit:
https://orders.newsfilecorp.com/files/2178/126617_fig%201ed%20lm.jpg.
Figure 2. Compilation of photographs from TUG-141. (A) Abundant visible gold grains (0.2-2mm) in highly altered potassium metasomatized groundmass and roscoelite. (B) Visible gold (~2mm grains) associated with coarse pyrite in a silicified breccia. (C & D) Intensely silicified and pyritized andesite with microfractures of visible gold (~0.5mm grains).
To view an enhanced version of Figure 2, please visit:
https://orders.newsfilecorp.com/files/2178/126617_81354d06c4e0dad0_003full.jpg.
Figure 2 (continued). (E) Vuggy breccia with coarse pyrite and silicified-sulfidized ground mass. Breccia clasts are angular to sub-rounded. (F) Coarse pyrite breccia with silicified-sulfidized ground mass. (G) Network fracture stockwork ~1-5mm veins with two generations of pyrite. The clasts are highly altered silicified andesite, with the veins containing quartz-pyrite. (H) Network fracture stockwork veins at multiple angles, with intense silicification, quartz-carbonate infill and pyrite.
To view an enhanced version of Figure 2 continued, please visit:
https://orders.newsfilecorp.com/files/2178/126617_81354d06c4e0dad0_004full.jpg.
Mineralization is observed as two generations of pyrite; an earlier bright euhedral pyrite that forms coarse crystals in the core of the veins and breccia, and a darker brownish, spongy pyrite that typically forms extremely fine-grained encrustations or overgrowths on earlier pyrite and wallrock fragments, as well as lining the edges of most veins (Figure 2). Quartz occurs commonly as bluish grey, amorphous to locally colloform silica. Open space vuggy textures are common, as are visible gold grains. Highest grades (up to 600 g/t Au) appear to be associated with an interval of intense pervasive silicification and sulfidation by up to 30% or more extremely fine-grained pyrite developed throughout the host rock, giving the rock an overall massive chocolate brown appearance (Figure 2). The intensity of replacement suggests this is a zone of very high and sustained fluid flux.
Table 1: Table showing all drilling intervals returning >0.5 g/t Au for hole TUG-141. Intervals > 3.0 g/t Au, which is the cutoff grade used for the current resource, are shown in red, and intervals >9.0 g/t Au, which is the average grade of the resource, are bolded.
Sample ID
From (m)
To (m)
Interval (m)
Grade (g/t Au)
TUG08584
71.7
72
0.3
0.96
TUG08535
101.7
102
0.3
3.96
TUG08536
102
102.3
0.3
12.17
TUG08537
102.3
102.6
0.3
5.35
TUG08538
102.6
102.9
0.3
1.42
TUG08539
102.9
103.2
0.3
3.09
TUG08541
103.5
103.8
0.3
1.19
TUG08542
103.8
104.1
0.3
8.64
TUG08543
104.1
104.4
0.3
7.67
TUG08544
104.4
104.7
0.3
7.56
TUG08545
104.7
105
0.3
7.90
TUG08546
105
105.3
0.3
3.53
TUG08548
105.6
105.9
0.3
0.60
TUG08549
105.9
106.5
0.6
4.83
TUG08452
107.1
107.4
0.3
1.42
TUG08456
109.8
110.1
0.3
15.41
TUG08457
110.1
110.4
0.3
0.74
TUG08458
110.4
110.7
0.3
1.12
TUG08459
110.7
111
0.3
5.28
TUG08460
111
111.3
0.3
0.80
TUG08462
111.6
111.9
0.3
2.66
TUG08463
111.9
112.2
0.3
1.45
TUG08464
112.2
112.5
0.3
1.22
TUG08466
112.5
112.8
0.3
1.50
TUG08467
112.8
113.1
0.3
2.67
TUG08468
113.1
113.4
0.3
3.47
TUG08469
113.4
113.7
0.3
2.92
TUG08470
113.7
114
0.3
2.93
TUG08471
114
114.3
0.3
8.74
TUG08473
114.6
114.9
0.3
7.36
TUG08474
114.9
115.5
0.6
0.90
TUG08475
115.5
115.8
0.3
7.20
TUG08476
115.8
116.1
0.3
3.14
TUG08477
116.1
116.4
0.3
0.92
TUG08479
116.7
117
0.3
3.62
TUG08481
117
117.3
0.3
15.85
TUG08482
117.3
117.6
0.3
2.06
TUG08483
117.6
117.9
0.3
1.95
TUG08484
117.9
118.2
0.3
0.58
TUG08485
118.2
118.5
0.3
5.51
TUG08486
118.5
118.8
0.3
6.35
TUG08487
118.8
119.1
0.3
38.27
TUG08488
119.1
119.4
0.3
3.02
TUG08489
119.4
119.7
0.3
1.41
TUG08490
119.7
120
0.3
2.19
TUG08494
122.4
122.7
0.3
1.35
TUG08946
213.6
213.9
0.3
2.11
TUG08947
213.9
214.2
0.3
0.97
TUG08948
214.2
214.5
0.3
3.03
TUG09446
214.5
214.8
0.3
0.82
TUG08949
214.8
215.1
0.3
1.50
TUG09401
215.1
215.4
0.3
1.61
TUG09402
215.4
215.7
0.3
1.75
TUG09407
216.9
217.2
0.3
3.22
TUG09408
217.2
217.5
0.3
0.18
TUG09409
217.5
217.8
0.3
0.62
TUG09423
222.9
223.2
0.3
0.72
TUG09432
226.5
226.8
0.3
1.41
TUG09444
233.4
233.7
0.3
1.32
TUG09445
233.7
234
0.3
3.13
TUG09447
234
234.3
0.3
6.30
TUG09448
234.3
234.6
0.3
2.08
TUG09529
274.8
275.1
0.3
0.77
TUG09536
276.6
276.9
0.3
0.59
TUG09540
277.8
278.1
0.3
0.64
TUG09566
291.3
291.6
0.3
14.77
TUG09567
291.6
291.9
0.3
4.01
TUG09568
291.9
292.2
0.3
16.55
TUG09569
292.2
292.5
0.3
17.85
TUG09570
292.5
292.8
0.3
1.75
TUG09582
299.1
299.4
0.3
2.12
TUG09583
299.4
299.7
0.3
1.94
TUG09584
299.7
300
0.3
0.63
TUG09585
300
300.3
0.3
1.13
TUG09586
300.3
300.6
0.3
0.99
TUG09587
300.6
300.9
0.3
0.79
TUG09588
300.9
301.2
0.3
4.31
TUG09591
301.8
302.1
0.3
1.58
TUG09594
302.7
303
0.3
0.92
TUG09595
303
303.3
0.3
0.78
TUG09605
308.1
308.4
0.3
1.28
TUG09614
311.7
312
0.3
1.35
TUG09616
312
312.3
0.3
2.61
TUG09617
312.3
312.6
0.3
0.08
TUG09619
313.2
313.5
0.3
4.56
TUG09620
313.5
313.8
0.3
3.54
TUG09621
313.8
314.1
0.3
2.47
TUG09622
314.1
314.4
0.3
1.65
TUG09625
315.3
315.6
0.3
1.25
TUG09626
315.6
315.9
0.3
7.71
TUG09628
316.8
317.1
0.3
0.54
TUG09629
317.1
317.4
0.3
2.57
TUG09631
317.4
317.7
0.3
1.00
TUG09633
318
318.3
0.3
1.42
TUG09634
318.3
318.6
0.3
3.11
TUG09635
318.6
318.9
0.3
5.42
TUG09636
318.9
319.2
0.3
4.25
TUG09637
319.2
319.5
0.3
7.68
TUG09638
319.5
319.8
0.3
5.78
TUG09639
319.8
320.1
0.3
0.85
TUG09641
320.4
320.7
0.3
3.19
TUG09642
320.7
321
0.3
3.49
TUG09643
321
321.3
0.3
7.93
TUG09644
321.3
321.6
0.3
2.40
TUG09645
321.6
321.9
0.3
2.04
TUG09646
321.9
322.2
0.3
7.42
TUG09647
322.2
322.5
0.3
18.75
TUG09648
322.5
322.8
0.3
12.75
TUG09650
322.8
323.1
0.3
12.55
TUG09651
323.1
323.4
0.3
15.64
TUG09652
323.4
323.7
0.3
19.67
TUG09653
323.7
324
0.3
13.55
TUG09654
324
324.3
0.3
15.18
TUG09655
324.3
324.6
0.3
11.27
TUG09656
324.6
324.9
0.3
14.62
TUG09657
324.9
325.2
0.3
71.01
TUG09658
325.2
325.5
0.3
5.61
TUG09659
325.5
326.4
0.9
0.60
TUG09660
326.4
326.7
0.3
3.97
TUG09661
326.7
327
0.3
4.93
TUG09662
327
327.3
0.3
11.64
TUG09663
327.3
327.6
0.3
15.86
TUG09667
328.5
329.4
0.9
0.98
TUG09668
329.4
329.7
0.3
2.77
TUG09669
329.7
330
0.3
2.58
TUG09670
330
330.3
0.3
6.51
TUG09671
330.3
330.6
0.3
4.28
TUG09672
330.6
330.9
0.3
6.21
TUG09694
345.3
345.6
0.3
0.60
TUG09695
345.6
345.9
0.3
4.62
TUG09696
345.9
346.2
0.3
4.07
TUG09697
346.2
346.5
0.3
1.76
TUG09699
346.8
347.1
0.3
2.13
TUG09703
348.3
348.6
0.3
33.25
TUG09704
348.6
348.9
0.3
3.52
TUG09703
348.3
348.6
0.3
33.25
TUG09707
350.1
350.4
0.3
12.62
TUG09710
351.3
351.6
0.3
3.20
TUG09711
351.6
351.9
0.3
0.51
TUG09733
366.3
366.6
0.3
1.26
TUG09734
366.6
366.9
0.3
2.37
TUG09736
367.5
367.8
0.3
0.80
TUG09737
367.8
368.1
0.3
11.02
TUG09738
368.1
368.4
0.3
7.96
TUG09739
368.4
368.7
0.3
3.68
TUG09740
368.7
369
0.3
6.95
TUG09741
369
369.3
0.3
1.82
TUG09742
369.3
369.6
0.3
1.29
TUG09744
369.9
370.2
0.3
4.11
TUG09745
370.2
370.5
0.3
3.89
TUG09746
370.5
370.8
0.3
4.54
TUG09759
380.7
381
0.3
2.63
TUG09760
381
381.6
0.6
23.15
TUG09761
381.6
381.9
0.3
20.60
TUG09762
381.9
382.2
0.3
6.13
TUG09763
382.2
382.5
0.3
3.37
TUG09764
382.5
382.8
0.3
0.64
TUG09777
391.8
392.1
0.3
1.08
TUG09778
392.1
392.4
0.3
1.08
TUG09779
392.4
392.7
0.3
0.89
TUG09781
392.7
393
0.3
0.55
TUG09783
393.6
393.9
0.3
0.65
TUG09784
393.9
394.2
0.3
0.54
TUG09785
394.2
394.5
0.3
2.90
TUG09786
394.5
394.8
0.3
2.34
TUG09787
394.8
395.1
0.3
3.74
TUG09788
395.1
395.4
0.3
2.82
TUG09789
395.4
395.7
0.3
1.98
TUG09790
395.7
396
0.3
1.55
TUG09792
396.3
396.6
0.3
2.25
TUG09794
396.9
397.2
0.3
0.44
TUG09795
397.2
397.5
0.3
1.78
TUG09796
397.5
397.8
0.3
3.20
TUG09797
397.8
398.1
0.3
1.27
TUG09798
398.1
398.4
0.3
15.27
TUG09799
398.4
398.7
0.3
2.96
TUG09801
398.7
399
0.3
5.34
TUG09802
399
399.3
0.3
2.38
TUG09803
399.3
399.6
0.3
2.93
TUG09804
399.6
400.5
0.9
4.00
TUG09805
400.5
400.8
0.3
0.68
TUG09806
400.8
401.1
0.3
2.41
TUG09807
401.1
401.4
0.3
2.06
TUG09808
401.4
401.7
0.3
1.61
TUG09809
401.7
402
0.3
1.67
TUG09811
402.3
402.6
0.3
1.46
TUG09812
402.6
402.9
0.3
0.91
TUG09814
403.2
403.5
0.3
3.71
TUG09817
403.8
404.1
0.3
0.77
TUG09819
405
405.3
0.3
1.56
TUG09811
402.3
402.6
0.3
1.40
TUG09812
402.6
402.9
0.3
0.95
TUG09814
403.2
403.5
0.3
3.57
TUG09817
403.8
404.1
0.3
0.83
TUG09819
405
405.3
0.3
1.61
TUG09824
406.8
407.1
0.3
2.78
TUG09827
408
408.3
0.3
1.21
TUG09828
408.3
408.6
0.3
0.72
TUG09829
408.6
409.2
0.6
1.14
TUG09831
409.2
409.5
0.3
3.27
TUG09832
409.5
409.8
0.3
0.90
TUG09836
410.7
411
0.3
1.86
TUG09837
411
411.3
0.3
2.11
TUG09838
411.3
411.6
0.3
3.40
TUG09839
411.6
411.9
0.3
0.70
TUG09842
412.8
413.1
0.3
0.93
TUG09843
413.1
413.4
0.3
0.76
TUG09848
416.1
417
0.9
0.63
TUG10354
418.8
419.1
0.3
0.82
TUG10355
419.1
419.4
0.3
0.65
TUG10360
420.6
420.9
0.3
0.75
TUG10361
420.9
421.2
0.3
1.05
TUG10362
421.2
421.5
0.3
1.59
TUG10363
421.5
421.8
0.3
1.23
TUG10367
422.7
423
0.3
0.68
TUG10368
423
423.3
0.3
0.72
TUG10373
425.1
425.4
0.3
2.48
TUG10374
425.4
425.7
0.3
2.83
TUG10375
425.7
426
0.3
3.52
TUG10376
426
426.3
0.3
3.77
TUG10377
426.3
426.6
0.3
8.47
TUG10378
426.6
426.9
0.3
1.64
TUG10379
426.9
427.2
0.3
1.53
TUG10381
427.2
427.8
0.6
4.11
TUG10382
427.8
428.1
0.3
1.65
TUG10383
428.1
429
0.9
0.86
TUG10387
429.9
430.2
0.3
0.72
TUG10393
433.2
433.5
0.3
2.04
TUG10394
433.5
433.8
0.3
0.85
TUG10395
433.8
434.1
0.3
0.76
TUG10408
440.4
440.7
0.3
2.36
TUG10413
443.1
443.4
0.3
1.02
TUG10414
443.4
443.7
0.3
6.82
TUG10417
444.9
445.2
0.3
17.94
TUG10418
445.2
445.5
0.3
5.83
TUG10423
447
447.3
0.3
1.16
TUG10425
448.2
448.5
0.3
4.54
TUG10426
448.5
448.8
0.3
0.76
TUG10428
450
450.3
0.3
4.94
TUG10429
450.3
450.6
0.3
1.53
TUG10431
450.6
450.9
0.3
0.97
TUG10432
450.9
451.2
0.3
138.15
TUG10434
451.5
451.8
0.3
0.76
TUG10435
451.8
452.1
0.3
1.25
TUG10436
452.1
452.4
0.3
1.35
TUG10438
452.7
453
0.3
1.65
TUG10439
453
453.3
0.3
4.70
TUG10440
453.3
453.6
0.3
2.57
TUG10441
453.6
453.9
0.3
4.99
TUG10444
454.8
455.1
0.3
14.02
TUG10445
455.1
455.4
0.3
2.07
TUG10446
455.4
455.7
0.3
1.09
TUG10447
455.7
456
0.3
1.28
TUG10448
456
456.3
0.3
2.55
TUG10453
459
460.2
1.2
1.14
TUG10454
460.2
460.8
0.6
1.00
TUG10455
460.8
462
1.2
1.74
TUG10456
462
462.3
0.3
1.28
TUG10457
462.3
462.6
0.3
24.98
TUG10458
462.6
462.9
0.3
87.13
TUG10459
462.9
463.8
0.9
11.34
TUG10461
464.4
465
0.6
0.67
TUG10463
465.9
466.2
0.3
0.91
TUG10464
466.2
466.5
0.3
1.36
TUG10466
466.5
466.8
0.3
1.27
TUG10467
466.8
467.1
0.3
1.28
TUG10468
467.1
467.4
0.3
3.79
TUG10469
467.4
467.7
0.3
20.93
TUG10470
467.7
468
0.3
20.64
TUG10471
468
468.3
0.3
19.40
TUG10473
468.6
468.9
0.3
3.46
TUG10474
468.9
469.2
0.3
2.78
TUG10475
469.2
469.5
0.3
2.10
TUG10482
471.3
471.6
0.3
0.81
TUG10483
471.6
471.9
0.3
1.03
TUG10484
471.9
472.2
0.3
6.72
TUG10485
472.2
472.5
0.3
0.88
TUG10486
472.5
472.8
0.3
1.45
TUG10487
472.8
473.1
0.3
9.05
TUG10488
473.1
473.4
0.3
1.35
TUG10490
473.7
474
0.3
0.48
TUG10492
474.3
474.6
0.3
0.78
TUG10493
474.6
474.9
0.3
1.37
TUG10494
474.9
475.2
0.3
1.43
TUG10496
475.5
475.8
0.3
1.67
TUG10497
475.8
477
1.2
1.80
TUG10498
477
477.6
0.6
2.64
TUG10500
477.6
477.9
0.3
93.49
TUG10501
477.9
478.2
0.3
1.01
TUG10502
478.2
478.5
0.3
34.17
TUG10503
478.5
478.8
0.3
94.57
TUG10504
478.8
479.1
0.3
35.04
TUG10505
479.1
479.4
0.3
396.16
TUG10506
479.4
479.7
0.3
25.06
TUG10507
479.7
480
0.3
7.09
TUG10508
480
480.3
0.3
4.06
TUG10509
480.3
480.6
0.3
31.63
TUG10510
480.6
480.9
0.3
5.3
TUG10511
480.9
481.2
0.3
114.95
TUG10512
481.2
481.5
0.3
1.90
TUG10513
481.5
481.8
0.3
0.83
TUG10514
481.8
482.1
0.3
9.99
TUG10516
482.1
482.4
0.3
0.71
TUG10517
482.4
482.7
0.3
6.64
TUG10518
482.7
483
0.3
6.05
TUG10519
483
483.3
0.3
6.64
TUG10520
483.3
483.6
0.3
2.47
TUG10521
483.6
483.9
0.3
0.93
TUG10522
483.9
484.2
0.3
5.15
TUG10523
484.2
484.5
0.3
10.90
TUG10524
484.5
484.8
0.3
14.76
TUG10525
484.8
485.1
0.3
20.24
TUG10526
485.1
485.4
0.3
21.93
TUG10527
485.4
485.7
0.3
20.79
TUG10528
485.7
486
0.3
32.89
TUG10529
486
486.3
0.3
16.13
TUG10531
486.3
486.6
0.3
2.55
TUG10532
486.6
486.9
0.3
13.04
TUG10533
486.9
487.2
0.3
5.42
TUG10534
487.2
487.5
0.3
3.95
TUG10535
487.5
487.8
0.3
4.89
TUG10536
487.8
488.1
0.3
4.24
TUG10537
488.1
488.4
0.3
4.41
TUG10538
488.4
488.7
0.3
5.21
TUG10539
488.7
489
0.3
1.80
TUG10540
489
489.3
0.3
16.42
TUG10541
489.3
489.6
0.3
7.17
TUG10542
489.6
489.9
0.3
6.47
TUG10543
489.9
490.2
0.3
4.07
TUG10544
490.2
490.5
0.3
4.75
TUG10545
490.5
490.8
0.3
4.86
TUG10546
490.8
491.1
0.3
7.13
TUG10547
491.1
491.4
0.3
11.64
TUG10548
491.4
491.7
0.3
35.68
TUG10549
491.7
492
0.3
22.53
TUG10551
492
492.3
0.3
10.72
TUG10552
492.3
492.6
0.3
25.23
TUG10553
492.6
492.9
0.3
16.77
TUG10554
492.9
493.2
0.3
20.86
TUG10555
493.2
493.5
0.3
23.61
TUG10556
493.5
493.8
0.3
5.85
TUG10557
493.8
494.1
0.3
6.41
TUG10558
494.1
494.4
0.3
4.25
TUG10559
494.4
494.7
0.3
36.13
TUG10560
494.7
495
0.3
19.66
TUG10561
495
495.3
0.3
72.65
TUG10562
495.3
495.6
0.3
241.21
TUG10563
495.6
495.9
0.3
31.77
TUG10564
495.9
496.2
0.3
51.52
TUG10566
496.2
496.5
0.3
25.17
TUG10567
496.5
496.8
0.3
100.35
TUG10568
496.8
497.1
0.3
12.86
TUG10569
497.1
497.4
0.3
4.68
TUG10570
497.4
497.7
0.3
33.81
TUG10571
497.7
498
0.3
37.11
TUG10572
498
498.3
0.3
20.74
TUG10573
498.3
498.6
0.3
26.29
TUG10574
498.6
498.9
0.3
103.54
TUG10575
498.9
499.2
0.3
340.07
TUG10576
499.2
499.5
0.3
269.25
TUG10577
499.5
499.8
0.3
600.42
TUG10578
499.8
500.1
0.3
73.02
TUG10579
500.1
500.4
0.3
13.41
TUG10581
500.4
500.7
0.3
1.85
TUG10582
500.7
501.3
0.6
13.32
TUG10583
501.3
501.6
0.3
26.54
TUG10584
501.6
501.9
0.3
9.04
TUG10585
501.9
502.2
0.3
4.79
TUG10586
502.2
502.5
0.3
3.93
TUG10587
502.5
502.8
0.3
126.85
TUG10588
502.8
503.1
0.3
361.90
TUG10589
503.1
503.4
0.3
1.95
TUG10590
503.4
503.7
0.3
3.27
TUG10591
503.7
504
0.3
32.78
TUG10592
504
504.3
0.3
23.63
TUG10596
505.2
505.5
0.3
8.07
TUG10598
505.8
506.1
0.3
18.51
TUG10599
506.1
506.4
0.3
53.78
TUG10602
506.7
507
0.3
7.50
TUG10604
507.3
507.6
0.3
234.39
TUG10605
507.6
507.9
0.3
2.22
TUG10606
507.9
508.8
0.9
0.58
TUG10612
510.3
510.6
0.3
3.37
TUG10613
510.6
510.9
0.3
1.32
TUG10614
510.9
511.2
0.3
5.53
TUG10616
511.2
511.5
0.3
24.91
TUG10617
511.5
511.8
0.3
64.47
TUG10618
511.8
512.1
0.3
72.56
TUG10619
512.1
512.4
0.3
13.35
TUG10620
512.4
512.7
0.3
2.08
TUG10621
512.7
513
0.3
1.59
TUG10622
513
513.3
0.3
0.74
TUG10623
513.3
513.6
0.3
0.94
TUG10624
513.6
513.9
0.3
0.53
TUG10625
513.9
514.2
0.3
1.17
TUG10626
514.2
514.5
0.3
23.17
TUG10627
514.5
514.8
0.3
0.85
TUG10628
514.8
515.1
0.3
2.39
TUG10629
515.1
515.4
0.3
1.03
TUG10631
515.4
515.7
0.3
0.83
TUG10632
515.7
516
0.3
1.74
TUG10633
516
516.3
0.3
3.50
TUG10634
516.3
516.6
0.3
0.59
TUG10636
516.9
517.2
0.3
0.80
TUG10637
517.2
517.5
0.3
2.99
TUG10638
517.5
517.8
0.3
0.76
TUG10639
517.8
518.1
0.3
3.34
TUG10640
518.1
518.4
0.3
8.94
TUG10641
518.4
518.7
0.3
12.80
TUG10642
518.7
519
0.3
105.58
TUG10643
519
519.3
0.3
34.42
TUG10644
519.3
519.6
0.3
0.55
TUG10645
519.6
519.9
0.3
0.80
TUG10656
522.6
522.9
0.3
0.59
TUG10657
522.9
523.2
0.3
0.88
TUG10658
523.2
523.5
0.3
0.76
TUG10659
523.5
523.8
0.3
1.09
TUG10660
523.8
524.1
0.3
0.61
TUG10661
524.1
524.4
0.3
2.11
TUG10664
525
525.3
0.3
5.56
TUG10666
525.3
525.6
0.3
7.50
TUG10667
525.6
525.9
0.3
0.87
TUG10668
525.9
526.2
0.3
0.78
TUG10693
543.9
544.2
0.3
0.63
TUG10695
544.5
544.8
0.3
0.75
TUG10696
544.8
545.1
0.3
0.59
TUG10699
545.7
546
0.3
0.81
TUG10701
546
546.3
0.3
0.63
TUG10702
546.3
546.6
0.3
0.59
TUG10706
547.5
547.8
0.3
0.52
TUG10719
554.1
554.4
0.3
0.84
Table 2: Survey details of diamond drill holes referenced in this release
Hole No
Coordinates (Fiji map grid)
RL
final depth
dip
azimuth
N
E
m
(TN)
TUG-135
3920759
1876459
139.2
689.4
-64
149
TUG-136
3920759
1876459
139.2
617.4
-58
151
TUG-138
3920759
1876459
139.2
746.4
-64
163
TUG-141
3920759
1876459
139.2
633.0 *
-55°
162°
* Current depth, hole is still drilling
Qualified Person
In accordance with National Instrument 43-101 – Standards of Disclosure for Mineral Projects (“NI 43-101”), Sergio Cattalani, P.Geo, Senior Vice President Exploration, is the Qualified Person for the Company and has reviewed and is responsible for the technical and scientific content of this news release.
QAQC Procedures
Lion One adheres to rigorous QAQC procedures above and beyond basic regulatory guidelines in conducting its sampling, drilling, testing, and analyses. The Company utilizes its own fleet of diamond drill rigs, using PQ, HQ and NQ sized drill core rods. Drill core is logged and split by Lion One personnel on site. Samples are delivered to and analysed at the Company’s geochemical and metallurgical laboratory in Fiji. Duplicates of all samples with grades above 0.5 g/t Au are both re-assayed at Lion One’s lab and delivered to ALS Global Laboratories in Australia (ALS) for check assay determinations. All samples for all high-grade intercepts are sent to ALS for check assays. All samples are pulverized to 80% passing through 75 microns. Gold analysis is carried out using fire assay with an AA finish. Samples that have returned grades greater than 10.00 g/t Au are then re-analysed by gravimetric method. For samples that return greater than 0.50 g/t Au, repeat fire assay runs are carried out and repeated until a result is obtained that is within 10% of the original fire assay run. For samples with multiple fire assay runs, the average of duplicate runs is presented. Lion One’s laboratory can also assay for a range of 71 other elements through Inductively Coupled Plasma Optical Emission Spectrometry (ICP-OES), but currently focuses on a suite of 9 important pathfinder elements. All duplicate anomalous samples are sent to ALS labs in Townsville QLD and are analysed by the same methods (Au-AA26, and Au-GRA22 where applicable). ALS also analyses for 33 pathfinder elements by HF-HNO3-HClO4 acid digestion, HCl leach and ICP-AES (method ME-ICP61).
About Lion One Metals Limited
Lion One’s flagship asset is 100% owned, fully permitted high grade Tuvatu Alkaline Gold Project, located on the island of Viti Levu in Fiji. Lion One envisions a low-cost high-grade underground gold mining operation at Tuvatu coupled with exciting exploration upside inside its tenements covering the entire Navilawa Caldera, an underexplored yet highly prospective 7km diameter alkaline gold system. Lion One’s CEO Walter Berukoff leads an experienced team of explorers and mine builders and has owned or operated over 20 mines in 7 countries. As the founder and former CEO of Miramar Mines, Northern Orion, and La Mancha Resources, Walter is credited with building over $3 billion of value for shareholders.
On behalf of the Board of Directors of
Lion One Metals Limited
“Walter Berukoff”
Chairman and CEO
For further information
Contact Investor Relations
Toll Free (North America) Tel: 1-855-805-1250
Email:
[email protected]
Website:
www.liononemetals.com
Neither the TSX Venture Exchange nor its Regulation Service Provider
accepts responsibility for the adequacy or accuracy of this release.
This press release may contain statements that may be deemed to be “forward-looking statements” within the meaning of applicable Canadian securities legislation. All statements, other than statements of historical fact, included herein are forward-looking information. Generally, forward-looking information may be identified by the use of forward-looking terminology such as “plans”, “expects” or “does not expect”, “proposed”, “is expected”, “budget”, “scheduled”, “estimates”, “forecasts”, “intends”, “anticipates” or “does not anticipate”, or “believes”, or variations of such words and phrases, or by the use of words or phrases which state that certain actions, events or results may, could, would, or might occur or be achieved. This forward-looking information reflects Lion One Metals Limited’s current beliefs and is based on information currently available to Lion One Metals Limited and on assumptions Lion One Metals Limited believes are reasonable. These assumptions include, but are not limited to, the actual results of exploration projects being equivalent to or better than estimated results in technical reports, assessment reports, and other geological reports or prior exploration results. Forward-looking information is subject to known and unknown risks, uncertainties and other factors that may cause the actual results, level of activity, performance or achievements of Lion One Metals Limited or its subsidiaries to be materially different from those expressed or implied by such forward-looking information. Such risks and other factors may include, but are not limited to: the stage development of Lion One Metals Limited, general business, economic, competitive, political and social uncertainties; the actual results of current research and development or operational activities; competition; uncertainty as to patent applications and intellectual property rights; product liability and lack of insurance; delay or failure to receive board or regulatory approvals; changes in legislation, including environmental legislation, affecting mining, timing and availability of external financing on acceptable terms; not realizing on the potential benefits of technology; conclusions of economic evaluations; and lack of qualified, skilled labour or loss of key individuals. Although Lion One Metals Limited has attempted to identify important factors that could cause actual results to differ materially from those contained in forward-looking information, there may be other factors that cause results not to be as anticipated, estimated or intended. Accordingly, readers should not place undue reliance on forward-looking information. Lion One Metals Limited does not undertake to update any forward-looking information, except in accordance with applicable securities laws.
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