2023 News Releases

North Vancouver, B.C., September 14, 2023 - Lion One Metals Limited (TSX-V: LIO) (OTCQX: LOMLF) (ASX: LLO) (“Lion One” or the “Company”) is pleased to report significant new high-grade gold results from ongoing grade control drilling at its 100% owned Tuvatu Alkaline Gold Project in Fiji.

Assay results are presented here for grade control drilling completed in the Zone 2 area of Tuvatu, focusing primarily on the URW1, URA1 and Murau lode systems. Mining of the URA1 lode and the URW1 lode system is ongoing and grade control drilling is being conducted in advance of future mining in these areas (see news releases dated April 3, 2023 and May 18, 2023). The results reported here represent material that is scheduled to be mined in Q4 2023 and throughout 2024.

Lion One Chairman and CEO Walter Berukoff commented: “The results from our grade control drill program continue to exceed expectations. The program is continuously returning very high-grade material with excellent mining widths. As we increase our drill density at Tuvatu we continue to identify very high-grade zones upon which to focus and prioritize our mining plan, and which will help us to add additional tonnage to our growing stockpile of high-grade material as we ramp up to our first gold production in Q4 2023”.

Highlights of new Zone 2 grade control drilling (3 g/t Au cutoff):

  • 19.78 g/t Au over 6.0 m (including 31.52 g/t Au over 3.0 m) (TGC-0071, from 114.0 m depth)
  • 14.83 g/t Au over 6.0 m (including 25.16 g/t Au over 2.4 m) (TGC-0055, from 90.9 m depth)
  • 18.08 g/t Au over 3.6 m (including 32.74 g/t Au over 1.5 m) (TGC-0073, from 90.0 m depth)
  • 25.25 g/t Au over 2.4 m (including 149.63 g/t Au over 0.3 m) (TGC-0078, from 95.2 m depth)
  • 45.89 g/t Au over 0.9 m (TGC-0080, from 23.4 m depth)
  • 8.00 g/t Au over 4.8 m (including 21.05 g/t Au over 0.9 m) (TGC-0080, from 47.4 m depth)
  • 8.52 g/t Au over 3.3 m (including 11.16 g/t Au over 1.8 m) (TGC-0053, from 13.8 m depth)
  • 17.73 g/t Au over 1.5 m (including 20.98 g/t Au over 0.9 m) (TGC-0053, from 56.4 m depth)
  • 14.13 g/t Au over 1.8 m (including 18.64 g/t Au over 1.2 m) (TGC-0062, from 67.5 m depth)

Note: Grade control drillhole composites are calculated using a 3 g/t Au cutoff with maximum internal dilution intervals of 1 m at < 3 g/t Au.

Figure 1. Location of Zone 2 Grade Control Drillholes. Left image: Plan view of Tuvatu showing Zone 2 grade control drillholes in relation to the mineralized lodes. Drillholes are shown in black, mineralized lodes in pale grey, and underground developments in red. The yellow dashed circle represents the Zone 2 area of the deposit.

Table 1. Highlights of composited grade control drill results in the Zone 2 area. Composites are calculated using a 3 g/t Au cutoff with maximum internal dilution intervals of 1 m at <3 g/t Au. For full results see Table 2 in the appendix. For full results using a 0.5 g/t cutoff see Table 3 in the appendix.

Hole ID

 

From

To

Interval (m)

Au (g/t)

TGC-0053

 

13.8

17.1

3.3

8.52

 

including

16.2

17.1

0.9

15.89

TGC-0053

 

56.4

57.9

1.5

17.73

 

including

56.4

57.3

0.9

20.98

 

and

57.3

57.9

0.6

12.86

TGC-0055

 

87

87.3

0.3

17.86

TGC-0055

 

90.9

96.9

6

14.83

 

including

90.9

92.7

1.8

12.22

 

which includes

90.9

91.5

0.6

10.93

 

and

91.5

91.8

0.3

23.82

 

and

91.8

92.7

0.9

9.22

 

and also including

94.5

96.9

2.4

25.16

 

which includes

94.5

95.4

0.9

35.76

 

and

95.4

96

0.6

10.87

 

and

96

96.3

0.3

30.26

 

and

96.3

96.9

0.6

20.98

TGC-0057

 

89.4

91.2

1.8

9.22

 

including

89.4

89.7

0.3

19.23

TGC-0057

 

113.7

115.2

1.5

10.84

 

including

114.3

115.2

0.9

15.86

TGC-0060

 

76.1

76.4

0.3

25.43

TGC-0062

 

67.5

69.3

1.8

14.13

 

including

68.1

68.7

0.6

15.29

 

and

68.7

69.3

0.6

21.99

TGC-0064

 

182.9

183.5

0.6

33.08

 

including

182.9

183.2

0.3

58.29

TGC-0066

 

163.5

163.8

0.3

12.85

TGC-0070

 

71.2

71.8

0.6

25.89

TGC-0071

 

114

120

6

19.78

 

including

114

114.3

0.3

30.17

 

and

114.3

114.9

0.6

8.32

 

and

115.5

115.8

0.3

10.68

 

and

115.8

116.4

0.6

9.96

 

and

117

120

3

31.52

 

which includes

117

117.6

0.6

33.78

 

and

117.6

118.5

0.9

20.88

 

and

118.5

119.4

0.9

42.75

 

and

119.4

120

0.6

28.35

TGC-0073

 

79.8

81.3

1.5

7.91

 

including

79.8

80.4

0.6

10.8

 

and

80.4

80.7

0.3

10.95

TGC-0073

 

87.9

88.2

0.3

10.85

TGC-0073

 

90

93.6

3.6

18.08

 

including

90

90.3

0.3

8.41

 

and

90.3

90.6

0.3

21.79

 

and

90.9

92.4

1.5

32.74

 

which includes

90.9

91.2

0.3

65.52

 

and

91.2

91.5

0.3

38.81

 

and

91.5

91.8

0.3

43.67

 

and

91.8

92.4

0.6

7.86

TGC-0074

 

80.8

81.4

0.6

41.5

 

including

80.8

81.1

0.3

35.63

 

and

81.1

81.4

0.3

47.38

TGC-0074

 

118.9

120.1

1.2

11.65

 

including

118.9

119.2

0.3

10.48

 

and

119.2

119.5

0.3

14.96

 

and

119.5

119.8

0.3

10.75

 

and

119.8

120.1

0.3

10.41

TGC-0078

 

14.5

14.8

0.3

18.52

TGC-0078

 

91.9

92.5

0.6

20.13

TGC-0078

 

95.2

97.6

2.4

25.25

 

including

95.2

95.5

0.3

149.63

 

and

96.1

97.6

1.5

9.28

 

which includes

96.1

97

0.9

11.85

TGC-0080

 

21

22.2

1.2

11.67

 

and

21.6

21.9

0.3

35.67

TGC-0080

 

23.4

24.3

0.9

45.89

TGC-0080

 

47.4

52.2

4.8

8

 

including

48.3

48.6

0.3

18.03

 

and

48.6

48.9

0.3

17.95

 

and

49.8

50.7

0.9

21.05

 

which includes

49.8

50.1

0.3

42.72

 

and

50.1

50.4

0.3

15.08

TGC-0082

 

15.5

16.7

1.2

16.96

 

including

16.1

16.7

0.6

29.06

 

which includes

16.1

16.4

0.3

34.23

 

and

16.4

16.7

0.3

23.89

TGC-0083

 

19.7

20

0.3

10.79

TGC-0083

 

43.7

45.2

0.6

11.32

 

including

43.7

44

0.3

10.41

 

and

44.9

45.2

0.3

12.23

TGC-0083

 

56.9

57.2

0.3

10.7

TGC-0083

 

65

65.6

0.6

25.12

 

including

65

65.3

0.3

18.58

 

and

65.3

65.6

0.3

31.67

Zone 2

The Zone 2 area of Tuvatu is located in the northwest part of the system along the western decline. It is the first part of the deposit scheduled for mining and encompasses a number of distinct lode systems, including the URW1, URA1, and Murau lode systems.

The URW1 lode system was the primary target for the current round of drilling. It consists predominantly of narrow, high-grade to locally bonanza-grade vein arrays and vein swarms that strike approximately N-S and dip sub-vertically to steeply east. Current modelling suggests that there are multiple separate lodes within the URW1 lode system. The first two of these lodes, URW1a and URW1b, are currently being mined. As reported on July 13, 2023 and July 27, 2023, mineralization in these lodes is both higher grade and more laterally extensive than initially anticipated. Grade control drilling in the URW1 area is targeting the up-dip and down-dip extensions of these lodes, 20 m to 40 m above and below the current mine drives. The URW1 lode system has a current strike length of approximately 300 m in the N-S direction, and a vertical extent of approximately 300 m.

Similarly, the URA1 lode is a narrow, steeply dipping, high-grade to locally bonanza-grade vein system. It was discovered during the development of the western decline and is intersected by the decline at approximately 75 m from the portal entrance. It trends approximately northeast-southwest and dips steeply to the southeast. It has a current strike length of approximately 100 m, and a vertical extent of approximately 120 m.

Figure 2. URA1 Lode and URW1 Lode System. Plan view (top) and view looking north (bottom) of the URA1 lode and the URW1 lode system in relation to the grade control holes reported here. Mining is ongoing in the URA1 lode (shown in purple) and the URW1a and URW1b lodes (shown in light brown). Additional lodes included in the URW1 lode system are shown in blue. Grade control drilling is targeting the up-dip and down-dip extensions of these lodes, focusing primarily on the URW1a and URW1b lodes, as evident in the bottom image.

The Murau lode system consists of a series of stacked relatively flat lying lodes that strike approximately east-west and dip moderately to the south. Mining is scheduled to begin on the upper part of the Murau lode system in Q4 2023. The portion of the Murau lode system that is currently targeted for mining consists of a 110 m strike length in the east-west direction, a vertical extent of 55 m, and a down-dip extension of 100 m.

Figure 3. Murau Lode System. Plan view (left) and view looking east (right) of the Murau lode system in relation to the grade control drillholes reported here. Mining on the upper part of the Murau lode system is scheduled to start in Q4 2023. The stacked nature of the Murau lodes and their moderate dip to the south is visible in the right-hand image.

Grade Control Drilling

Figure 4. Location of High-Grade Intercepts from Zone 2 Grade Control Drilling, 3.0 g/t Au cutoff. Plan view (top) and view looking north (bottom) of the URA1 lode, the URW1 lode system, and the Murau lode system in relation to the grade control drillholes reported here, with high-grade intercepts highlighted. Downhole composite intervals with grades between 3 and 10 g/t Au are shown in orange, intervals with grades between 10 and 30 g/t Au are shown in red, and intervals over 30 g/t Au are shown in purple. Select high-grade intervals are identified. Grades shown are gold grades in g/t. Underground developments are shown in pale transparent grey to increase visibility of the mineralized intervals.

Grade control drilling is being conducted from underground as well as from near the mine portal and is targeting near surface mineralization scheduled for mining in the next four to sixteen months. It is targeting 5-10 m centers and is designed to provide a detailed understanding of the geometry and mineralization of lode arrays in advance of underground development. Results from the grade control drill program will be used to help optimize mine development and mineral extraction in these areas. The Zone 2 grade control drill program is ongoing. Examples of mineralization observed in the Zone 2 drillholes reported here are shown in Figure 5.

A total of 83 grade control drillholes have been completed to date in the Zone 2 and Zone 5 areas at Tuvatu, including 24 grade control drillholes included in this news release. Previous grade control drill results are available in the news releases dated April 25, 2023 and June 14, 2023.

Figure 5. Example Mineralization from Zone 2 Grade Control Drilling. Left: Monzonite-hosted chalcedonic silica veins with abundant coarse grained honey sphalerite rimmed by fine-grained sooty pyrite (TGC-0064, 182.9-183.2 m) Width of core is 4.76 cm. Top center: Banded silica-roscoelite-pyrite vein with visible gold (TGC-0076, 89.7-90.0 m) Width of image is approximately 2 cm. Top right: Fracture face coated with silica, sphalerite, pyrite, and multiple grains of visible gold (TGC-0073, 91.5-91.8 m). Core diameter is 4.76 cm. Bottom right: Monzonite-hosted quartz veinlet with visible gold (TGC-0073, 90.3-90.6 m). Width of image is approximately 3 cm. Bottom center: Monzonite-hosted quartz veinlet with multiple flecks of visible gold (TGC-0083, 56.9-57.2 m). Width of image is approximately 3 cm.

About Tuvatu

The Tuvatu Alkaline Gold Project is located on the island of Viti Levu in Fiji. The January 2018 mineral resource for Tuvatu as disclosed in the technical report “Technical Report and Preliminary Economic Assessment for the Tuvatu Gold Project, Republic of Fiji”, dated September 25, 2020, and prepared by Mining Associates Pty Ltd of Brisbane Qld, comprises 1,007,000 tonnes indicated at 8.50 g/t Au (274,600 oz. Au) and 1,325,000 tonnes inferred at 9.0 g/t Au (384,000 oz. Au) at a cut-off grade of 3.0 g/t Au. The technical report is available on the Lion One website at www.liononemetals.com and on the SEDAR website at www.sedarplus.ca.

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 analyzed 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 85% 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-analyzed 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. 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 analyzed by the same methods (Au-AA26, and Au-GRA22 where applicable). ALS also analyses 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

Contact Investor Relations
Toll Free (North America) Tel: 1-855-805-1250 Email: info@liononemetals.com
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.

Appendix 1: Full Drill Results and Collar Information

Table 2. Composited results from grade control drillholes in the Zone 2 area, 3.0 g/t Au cutoff

Hole ID

 

From

To

Interval (m)

Au (g/t)

TGC-0053

 

13.8

17.1

3.3

8.52

TGC-0053

including

13.8

14.7

0.9

6.47

TGC-0053

and

15.3

16.2

0.9

6.43

TGC-0053

and

16.2

17.1

0.9

15.89

TGC-0053

 

56.4

57.9

1.5

17.73

TGC-0053

including

56.4

57.3

0.9

20.98

TGC-0053

and

57.3

57.9

0.6

12.86

TGC-0053

 

61.8

62.4

0.6

3.61

TGC-0053

 

67.5

71.7

4.2

3.87

TGC-0053

including

69

69.6

0.6

5.35

TGC-0053

and

69.6

70.2

0.6

5.89

TGC-0053

and

70.2

70.8

0.6

5.51

TGC-0053

and

71.4

71.7

0.3

5.07

TGC-0053

 

72.3

75.6

3.3

5.11

TGC-0053

including

72.3

72.6

0.3

5.39

TGC-0053

and

74.4

74.7

0.3

8.54

TGC-0053

and

74.7

75

0.3

7.24

TGC-0053

and

75

75.6

0.6

8.69

TGC-0054

 

82.8

83.4

0.6

4.92

TGC-0054

 

90.3

90.6

0.3

7.71

TGC-0055

 

13.2

13.8

0.6

8.21

TGC-0055

 

87

87.3

0.3

17.86

TGC-0055

 

90.9

96.9

6

14.83

TGC-0055

including

90.9

92.7

1.8

12.22

TGC-0055

which includes

90.9

91.5

0.6

10.93

TGC-0055

and

91.5

91.8

0.3

23.82

TGC-0055

and

91.8

92.7

0.9

9.22

TGC-0055

and also including

93.3

93.9

0.6

8.52

TGC-0055

and also including

94.5

96.9

2.4

25.16

TGC-0055

which includes

94.5

95.4

0.9

35.76

TGC-0055

and

95.4

96

0.6

10.87

TGC-0055

and

96

96.3

0.3

30.26

TGC-0055

and

96.3

96.9

0.6

20.98

TGC-0055

 

108

108.6

0.6

6.17

TGC-0057

 

11.4

12.6

1.2

3.4

TGC-0057

 

85.8

86.1

0.3

7.28

TGC-0057

 

89.4

91.2

1.8

9.22

TGC-0057

including

89.4

89.7

0.3

19.23

TGC-0057

and

89.7

90

0.3

5.34

TGC-0057

and

90

90.6

0.6

7.4

TGC-0057

and

90.6

91.2

0.6

7.98

TGC-0057

 

113.7

115.2

1.5

10.84

TGC-0057

including

114.3

115.2

0.9

15.86

TGC-0057

 

116.7

118.8

2.1

6.23

TGC-0057

including

116.7

117.6

0.9

8.19

TGC-0057

and

117.9

118.8

0.9

5.42

TGC-0060

 

76.1

76.4

0.3

25.43

TGC-0062

 

67.5

69.3

1.8

14.13

TGC-0062

including

67.5

68.1

0.6

5.11

TGC-0062

and

68.1

68.7

0.6

15.29

TGC-0062

and

68.7

69.3

0.6

21.99

TGC-0062

 

70.5

71.1

0.6

3.47

TGC-0064

 

182.9

183.5

0.6

33.08

TGC-0064

including

182.9

183.2

0.3

58.29

TGC-0064

and

183.2

183.5

0.3

7.88

TGC-0064

 

185.3

185.6

0.3

8.07

TGC-0066

 

163.5

164.1

0.6

8.62

TGC-0066

including

163.5

163.8

0.3

12.85

TGC-0070

 

71.2

71.8

0.6

25.89

TGC-0070

 

78.4

79

0.6

4.4

TGC-0070

 

82.9

83.5

0.6

3.94

TGC-0071

 

95.4

96

0.6

8.24

TGC-0071

 

114

120

6

19.78

TGC-0071

including

114

114.3

0.3

30.17

TGC-0071

and

114.3

114.9

0.6

8.32

TGC-0071

and

115.5

115.8

0.3

10.68

TGC-0071

and

115.8

116.4

0.6

9.96

TGC-0071

and

117

120

3

31.52

TGC-0071

which includes

117

117.6

0.6

33.78

TGC-0071

and

117.6

118.5

0.9

20.88

TGC-0071

and

118.5

119.4

0.9

42.75

TGC-0071

and

119.4

120

0.6

28.35

TGC-0071

 

157.2

157.8

0.6

5.57

TGC-0072

 

74.4

75

0.6

4.46

TGC-0073

 

79.8

81.3

1.5

7.91

TGC-0073

including

79.8

80.4

0.6

10.8

TGC-0073

and

80.4

80.7

0.3

10.95

TGC-0073

 

87.9

88.2

0.3

10.85

TGC-0073

 

90

93.6

3.6

18.08

TGC-0073

including

90

90.3

0.3

8.41

TGC-0073

and

90.3

90.6

0.3

21.79

TGC-0073

and

90.9

92.4

1.5

32.74

TGC-0073

which includes

90.9

91.2

0.3

65.52

TGC-0073

and

91.2

91.5

0.3

38.81

TGC-0073

and

91.5

91.8

0.3

43.67

TGC-0073

and

91.8

92.4

0.6

7.86

TGC-0073

and also including

93

93.6

0.6

6.49

TGC-0073

 

106.8

107.1

0.3

3.02

TGC-0074

 

13

13.3

0.3

4.43

TGC-0074

 

80.8

81.4

0.6

41.5

TGC-0074

including

80.8

81.1

0.3

35.63

TGC-0074

and

81.1

81.4

0.3

47.38

TGC-0074

 

118.9

120.1

1.2

11.65

TGC-0074

including

118.9

119.2

0.3

10.48

TGC-0074

and

119.2

119.5

0.3

14.96

TGC-0074

and

119.5

119.8

0.3

10.75

TGC-0074

and

119.8

120.1

0.3

10.41

TGC-0076

 

89.7

90

0.3

7.23

TGC-0076

 

100.2

101.1

0.9

6.35

TGC-0076

including

100.2

100.5

0.3

6.35

TGC-0076

and

100.5

100.8

0.3

7.25

TGC-0076

and

100.8

101.1

0.3

5.47

TGC-0076

 

121.8

122.1

0.3

5.04

TGC-0078

 

14.5

14.8

0.3

18.52

TGC-0078

 

16.6

17.2

0.6

4.42

TGC-0078

 

87.7

88.3

0.6

3.93

TGC-0078

 

91.9

92.5

0.6

20.13

TGC-0078

 

95.2

97.6

2.4

25.25

TGC-0078

including

95.2

95.5

0.3

149.63

TGC-0078

and

96.1

97.6

1.5

9.28

TGC-0078

which includes

96.1

97

0.9

11.85

TGC-0078

and

97

97.6

0.6

5.43

TGC-0079

 

102.9

103.5

0.6

5.02

TGC-0080

 

21

22.2

1.2

11.67

TGC-0080

including

21

21.3

0.3

7.26

TGC-0080

and

21.6

21.9

0.3

35.67

TGC-0080

 

23.4

24.3

0.9

45.89

TGC-0080

 

47.4

52.2

4.8

8

TGC-0080

including

47.4

47.7

0.3

5.46

TGC-0080

and

47.7

48

0.3

8.1

TGC-0080

and

48.3

48.6

0.3

18.03

TGC-0080

and

48.6

48.9

0.3

17.95

TGC-0080

and

49.8

50.7

0.9

21.05

TGC-0080

which includes

49.8

50.1

0.3

42.72

TGC-0080

and

50.1

50.4

0.3

15.08

TGC-0080

and

50.4

50.7

0.3

5.35

TGC-0080

 

53.4

54.3

0.9

9.88

TGC-0082

 

15.5

16.7

1.2

16.96

TGC-0082

including

16.1

16.7

0.6

29.06

TGC-0082

which includes

16.1

16.4

0.3

34.23

TGC-0082

and

16.4

16.7

0.3

23.89

TGC-0082

 

46.7

47.6

0.9

3.01

TGC-0082

 

83

83.3

0.3

3.61

TGC-0083

 

19.7

20

0.3

10.79

TGC-0083

 

42.5

45.2

2.7

4.95

TGC-0083

including

42.5

43.1

0.6

5.91

TGC-0083

and

43.7

44

0.3

10.41

TGC-0083

and

44.9

45.2

0.3

12.23

TGC-0083

 

48.5

49.4

0.9

3.9

TGC-0083

 

52.4

52.7

0.3

3.42

TGC-0083

 

55.4

55.7

0.3

4.53

TGC-0083

 

56.9

57.5

0.6

7.24

TGC-0083

including

56.9

57.2

0.3

10.7

TGC-0083

 

65

65.6

0.6

25.12

TGC-0083

including

65

65.3

0.3

18.58

TGC-0083

and

65.3

65.6

0.3

31.67

TGC-0083

 

110.6

110.9

0.3

9.08

Table 3. Composited results from grade control drillholes in the Zone 2 area, 0.5 g/t Au cutoff

Hole ID

 

From

To

Interval (m)

Au (g/t)

TGC-0053

 

13.8

17.1

3.3

8.52

TGC-0053

including

13.8

14.7

0.9

6.47

TGC-0053

and

15.3

16.2

0.9

6.43

TGC-0053

and

16.2

17.1

0.9

15.89

TGC-0053

 

21

22.2

1.2

0.62

TGC-0053

 

55.2

57.9

2.7

9.96

TGC-0053

including

56.4

57.3

0.9

20.98

TGC-0053

and

57.3

57.9

0.6

12.86

TGC-0053

 

60.3

63.3

3

1.1

TGC-0053

 

66.9

76.8

9.9

3.71

TGC-0053

including

69

69.6

0.6

5.35

TGC-0053

and

69.6

70.2

0.6

5.89

TGC-0053

and

70.2

70.8

0.6

5.51

TGC-0053

and

71.4

71.7

0.3

5.07

TGC-0053

and

72.3

72.6

0.3

5.39

TGC-0053

and

74.4

74.7

0.3

8.54

TGC-0053

and

74.7

75

0.3

7.24

TGC-0053

and

75

75.6

0.6

8.69

TGC-0053

 

93.9

96

2.1

1.07

TGC-0053

 

99

100.2

1.2

1.36

TGC-0054

 

82.8

83.4

0.6

4.92

TGC-0054

 

90

90.6

0.6

4.95

TGC-0054

including

90.3

90.6

0.3

7.71

TGC-0054

 

93.9

94.5

0.6

1.98

TGC-0054

 

96.3

97.8

1.5

1.17

TGC-0055

 

13.2

13.8

0.6

8.21

TGC-0055

 

87

87.3

0.3

17.86

TGC-0055

 

90.9

96.9

6

14.83

TGC-0055

including

90.9

92.7

1.8

12.22

TGC-0055

which includes

90.9

91.5

0.6

10.93

TGC-0055

and

91.5

91.8

0.3

23.82

TGC-0055

and

91.8

92.7

0.9

9.22

TGC-0055

and also including

93.3

93.9

0.6

8.52

TGC-0055

and also including

94.5

96.9

2.4

25.16

TGC-0055

which includes

94.5

95.4

0.9

35.76

TGC-0055

and

95.4

96

0.6

10.87

TGC-0055

and

96

96.3

0.3

30.26

TGC-0055

and

96.3

96.9

0.6

20.98

TGC-0055

 

99

100.2

1.2

0.85

TGC-0055

 

108

108.6

0.6

6.17

TGC-0055

 

117.9

118.2

0.3

2.13

TGC-0057

 

11.4

12.6

1.2

3.4

TGC-0057

 

80.4

82.8

2.4

0.76

TGC-0057

 

85.8

86.4

0.6

4.25

TGC-0057

 

87.9

93

5.1

3.66

TGC-0057

including

89.4

91.2

1.8

9.22

TGC-0057

which includes

89.4

89.7

0.3

19.23

TGC-0057

and

89.7

90

0.3

5.34

TGC-0057

and

90

90.6

0.6

7.4

TGC-0057

and

90.6

91.2

0.6

7.98

TGC-0057

 

106.5

107.4

0.9

0.64

TGC-0057

 

113.7

118.8

5.1

6.05

TGC-0057

including

114.3

115.2

0.9

15.86

TGC-0057

and

116.7

117.6

0.9

8.19

TGC-0057

and

117.9

118.8

0.9

5.42

TGC-0060

 

52.4

53

0.6

0.74

TGC-0060

 

75.5

76.7

1.2

6.97

TGC-0060

including

76.1

76.4

0.3

25.43

TGC-0060

 

82.4

82.7

0.3

0.65

TGC-0062

 

67.5

73.8

6.3

4.98

TGC-0062

including

67.5

69.3

1.8

14.13

TGC-0062

which includes

67.5

68.1

0.6

5.11

TGC-0062

and

68.1

68.7

0.6

15.29

TGC-0062

and

68.7

69.3

0.6

21.99

TGC-0064

 

69

69.6

0.6

1.59

TGC-0064

 

145.7

146.6

0.9

0.54

TGC-0064

 

149.9

150.8

0.9

0.51

TGC-0064

 

167.9

168.8

0.9

2.77

TGC-0064

 

174.2

174.8

0.6

0.96

TGC-0064

 

182.9

183.5

0.6

33.08

TGC-0064

including

182.9

183.2

0.3

58.29

TGC-0064

and

183.2

183.5

0.3

7.88

TGC-0064

 

185.3

185.6

0.3

8.07

TGC-0066

 

163.5

164.1

0.6

8.62

TGC-0066

including

163.5

163.8

0.3

12.85

TGC-0068

 

88.9

89.5

0.6

0.92

TGC-0068

 

98.6

99.2

0.6

0.73

TGC-0068

 

120.5

121.4

0.9

1.11

TGC-0068

 

172.4

175.1

2.7

0.83

TGC-0068

 

186.7

189.4

2.7

0.76

TGC-0068

 

191.2

192.7

1.5

0.57

TGC-0069

 

88.4

89

0.6

1.73

TGC-0070

 

71.2

71.8

0.6

25.89

TGC-0070

 

73

75.4

2.4

1.03

TGC-0070

 

78.4

81.1

2.7

2.23

TGC-0070

 

82.3

84.4

2.1

1.54

TGC-0071

 

95.4

96

0.6

8.24

TGC-0071

 

114

120.9

6.9

17.54

TGC-0071

including

114

114.3

0.3

30.17

TGC-0071

and

114.3

114.9

0.6

8.32

TGC-0071

and

115.5

115.8

0.3

10.68

TGC-0071

and

115.8

116.4

0.6

9.96

TGC-0071

and

117

120

3

31.52

TGC-0071

which includes

117

117.6

0.6

33.78

TGC-0071

and

117.6

118.5

0.9

20.88

TGC-0071

and

118.5

119.4

0.9

42.75

TGC-0071

and

119.4

120

0.6

28.35

TGC-0071

 

155.4

159.6

4.2

2.12

TGC-0071

including

157.2

157.8

0.6

5.57

TGC-0071

 

160.8

161.4

0.6

2.72

TGC-0071

 

201.3

202.5

1.2

1.56

TGC-0072

 

59.7

60.3

0.6

0.84

TGC-0072

 

74.4

75

0.6

4.46

TGC-0072

 

81.9

82.5

0.6

0.79

TGC-0072

 

94.5

95.1

0.6

0.9

TGC-0073

 

12

12.6

0.6

0.91

TGC-0073

 

79.8

81.3

1.5

7.91

TGC-0073

including

79.8

80.4

0.6

10.8

TGC-0073

and

80.4

80.7

0.3

10.95

TGC-0073

 

87.3

94.2

6.9

10.39

TGC-0073

including

87.9

88.2

0.3

10.85

TGC-0073

and

90

90.3

0.3

8.41

TGC-0073

and

90.3

90.6

0.3

21.79

TGC-0073

and

90.9

92.4

1.5

32.74

TGC-0073

which includes

90.9

91.2

0.3

65.52

TGC-0073

and

91.2

91.5

0.3

38.81

TGC-0073

and

91.5

91.8

0.3

43.67

TGC-0073

and

91.8

92.4

0.6

7.86

TGC-0073

and also including

93

93.6

0.6

6.49

TGC-0073

 

106.2

107.1

0.9

2.32

TGC-0074

 

12.7

13.3

0.6

2.71

TGC-0074

 

80.5

81.4

0.9

28.01

TGC-0074

including

80.8

81.4

0.6

41.51

TGC-0074

which includes

80.8

81.1

0.3

35.63

TGC-0074

and

81.1

81.4

0.3

47.38

TGC-0074

 

92.5

92.8

0.3

0.9

TGC-0074

 

118.9

120.1

1.2

11.65

TGC-0074

including

118.9

119.2

0.3

10.48

TGC-0074

and

119.2

119.5

0.3

14.96

TGC-0074

and

119.5

119.8

0.3

10.75

TGC-0074

and

119.8

120.1

0.3

10.41

TGC-0075

 

13.2

14.4

1.2

0.61

TGC-0075

 

16.2

16.8

0.6

0.6

TGC-0075

 

27

27.3

0.3

0.53

TGC-0075

 

43.5

44.4

0.9

0.93

TGC-0076

 

77.1

78

0.9

0.98

TGC-0076

 

81

81.3

0.3

1.57

TGC-0076

 

89.7

90

0.3

7.23

TGC-0076

 

93.3

93.6

0.3

0.72

TGC-0076

 

99.3

101.7

2.4

3.59

TGC-0076

including

100.2

100.5

0.3

6.35

TGC-0076

and

100.5

100.8

0.3

7.25

TGC-0076

and

100.8

101.1

0.3

5.47

TGC-0076

 

121.8

122.1

0.3

5.04

TGC-0077

 

15

16.5

1.5

0.92

TGC-0077

 

19.8

20.1

0.3

0.83

TGC-0077

 

54

54.6

0.6

1.38

TGC-0077

 

64.2

65.4

1.2

2.53

TGC-0077

 

72.9

74.4

1.5

1.11

TGC-0078

 

14.2

14.8

0.6

10.17

TGC-0078

including

14.5

14.8

0.3

18.52

TGC-0078

 

16

17.2

1.2

3.61

TGC-0078

 

52

52.6

0.6

1.55

TGC-0078

 

87.7

89.5

1.8

2.53

TGC-0078

 

91.9

92.5

0.6

20.13

TGC-0078

 

95.2

98.2

3

20.44

TGC-0078

including

95.2

95.5

0.3

149.63

TGC-0078

and

96.1

97.6

1.5

9.28

TGC-0078

which includes

96.1

97

0.9

11.85

TGC-0078

and

97

97.6

0.6

5.43

TGC-0079

 

98.1

98.7

0.6

0.53

TGC-0079

 

102.9

103.5

0.6

5.02

TGC-0080

 

21

22.2

1.2

11.67

TGC-0080

including

21

21.3

0.3

7.26

TGC-0080

and

21.6

21.9

0.3

35.67

TGC-0080

 

23.4

24.3

0.9

45.89

TGC-0080

 

45.3

55.2

9.9

5.16

TGC-0080

including

47.4

47.7

0.3

5.46

TGC-0080

and

47.7

48

0.3

8.1

TGC-0080

and

48.3

48.6

0.3

18.03

TGC-0080

and

48.6

48.9

0.3

17.95

TGC-0080

and

49.8

50.7

0.9

21.05

TGC-0080

which includes

49.8

50.1

0.3

42.72

TGC-0080

and

50.1

50.4

0.3

15.08

TGC-0080

and

50.4

50.7

0.3

5.35

TGC-0080

and also including

53.4

54.3

0.9

9.88

TGC-0080

 

70.2

71.4

1.2

0.9

TGC-0080

 

77.4

80.1

2.7

0.88

TGC-0082

 

15.5

16.7

1.2

16.96

TGC-0082

including

16.1

16.7

0.6

29.06

TGC-0082

which includes

16.1

16.4

0.3

34.23

TGC-0082

and

16.4

16.7

0.3

23.89

TGC-0082

 

43.7

45.5

1.8

0.99

TGC-0082

 

46.7

48.5

1.8

2.2

TGC-0082

 

49.7

50.6

0.9

0.58

TGC-0082

 

57.5

58.7

1.2

0.9

TGC-0082

 

67.7

68.6

0.9

1

TGC-0082

 

83

83.3

0.3

3.61

TGC-0083

 

19.4

20.3

0.9

4.12

TGC-0083

including

19.7

20

0.3

10.79

TGC-0083

 

41

46.4

5.4

3.13

TGC-0083

including

42.5

43.1

0.6

5.91

TGC-0083

and

43.7

44

0.3

10.41

TGC-0083

and

44.9

45.2

0.3

12.23

TGC-0083

 

48.2

49.4

1.2

3.35

TGC-0083

 

52.4

52.7

0.3

3.42

TGC-0083

 

55.4

57.5

2.1

3.04

TGC-0083

 

56.9

57.2

0.3

10.7

TGC-0083

 

63.5

65.6

2.1

8.24

TGC-0083

including

65

65.6

0.6

25.13

TGC-0083

which includes

65

65.3

0.3

18.58

TGC-0083

and

65.3

65.6

0.3

31.67

TGC-0083

 

67.4

69.5

2.1

0.74

TGC-0083

 

110.6

110.9

0.3

9.08

Table 4. Collar coordinates for grade control holes reported in this release. Coordinates are in Fiji map grid.

Hole ID

Easting

Northing

Elevation

Azimuth

Dip

Depth

TGC-0053

1876269

3920756

154

92.1

8.1

116.6

TGC-0054

1876437

3920744

139

296.3

-3.2

104.0

TGC-0055

1876269

3920756

152

96.2

-32.3

134.7

TGC-0057

1876269

3920755

152

116.2

-34.1

134.7

TGC-0060

1876182

3920858

167

130.5

-30.3

92.3

TGC-0062

1876182

3920858

167

114.3

-32.6

101.6

TGC-0063

1876182

3920858

167

114.1

-17.2

70.9

TGC-0064

1876183

3920858

168

103.5

-8.5

230.9

TGC-0066

1876184

3920858

168

103.5

0.1

210.0

TGC-0068

1876182

3920858

167

109.6

-22.1

231.4

TGC-0069

1876182

3920857

168

125.2

0.0

91.4

TGC-0070

1876182

3920858

167

116.6

-41.2

101.9

TGC-0071

1876180

3920857

166

39.4

-51.3

221.3

TGC-0072

1876183

3920859

167

104.3

-31.1

100.5

TGC-0073

1876268

3920756

152

114.4

-33.4

131.4

TGC-0074

1876268

3920757

152

96.5

-39.0

131.5

TGC-0075

1876269

3920756

153

102.2

8.1

106.7

TGC-0076

1876373

3920627

127

340.4

-24.6

137.0

TGC-0077

1876269

3920757

154

93.3

15.3

118.7

TGC-0078

1876268

3920757

154

90.5

-33.2

116.8

TGC-0079

1876373

3920627

128

333.6

-14.5

131.2

TGC-0080

1876269

3920758

152

76.2

-27.4

116.5

TGC-0082

1876269

3920758

152

80.3

-33.2

121.1

TGC-0083

1876268

3920758

152

67.1

-33.0

137.6


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