2024 News Releases

Drilling intersects multiple zones of extensive copper mineralization up to 210.8 m in length

North Vancouver, B.C., March 4, 2024 - Lion One Metals Limited (TSX-V: LIO) (OTCQX: LOMLF) (ASX: LLO) (“Lion One” or the “Company”) is pleased to announce the discovery of copper porphyry-style mineralization in a newly identified mineralized system 1 km northeast of the company’s 100% owned Tuvatu Alkaline Gold Project in Fiji.

Porphyry style mineralization was discovered from surface drilling at the Wailoaloa prospect as part of the company’s regional exploration program. Bench sampling in the area revealed a wide stockwork area of anomalous copper, gold and tellurium mineralization at surface. An initial drillhole (TUDDH-662) was designed to follow up the surface results. The Lion One geological team identified porphyry-style mineralization and alteration downhole and three subsequent drillholes were drilled to follow-up this discovery: TUDDH-669, TUDDH-679, and TUDDH-687. The last of these drillholes, TUDDH-687, intersected three separate zones of anomalous copper mineralization, ranging from over 120 m to over 200 m in downhole length. Copper mineralization is strongly correlated with anomalous gold mineralization downhole. Pervasive propylitic and potassic alteration was observed in TUDDH-687 with the intensity of potassic alteration increasing with depth down the hole. Copper mineralization occurs as chalcopyrite, bornite, and native copper. Mineralization remains open in all directions.

The discovery of copper porphyry mineralization at Tuvatu is an exciting development for the company. The Navilawa Caldera is known to host high-grade alkaline gold mineralization yet it has also been explored historically for copper. A large copper-gold system has long been hypothesized at depth. The drill holes included in this news release represent the first drill holes ever drilled to test for such a porphyry target. To have intersected multiple zones of extended copper mineralization at this stage of the Wailoaloa exploration program is very encouraging and indicates the potential for a much larger system nearby.

Table 1. Highlights of exploration drilling at Wailoaloa. For full results see Table 3 and Table 4 in the Appendix.

Hole ID

From

To

Interval (m)

Cu (%)

TUDDH-662

110.8

274.0

163.2

0.17

TUDDH-687

0.0

210.8

210.8

0.13

TUDDH-687

377.8

525.2

147.4

0.15

TUDDH-687

658.1

785.9

127.8

0.12

Figure 1. Plan View of Wailoaloa Drillholes in Relation to Tuvatu. The Wailoaloa discovery is approximately 1 km northeast of Tuvatu. Underground development at Tuvatu are shown in red.

Figure 2. Cross-Section of the Wailoaloa Drillholes, Looking East. Zones of elevated copper mineralization are shown in red boxes. Three zones of anomalous copper mineralization are observed in TUDDH-687, and one in TUDDH-662. TUDDH-662 and TUDDH-687 both terminated in anomalous copper mineralization. Assays are pending for drillholes TUDDH-669 and TUDDH-679.

Geology

Surface sampling in the Wailoaloa area led to the discovery of a widespread zone of weakly to moderately anomalous gold associated with a strong copper anomaly. Mineralization is controlled by a large stockwork system with a minimum proven surface extent of 150 m N-S by 100 m E-W. The stockwork system dips steeply to the south. Numerous copper showings have been identified in a wide halo around the Wailoaloa prospect, including strong malachite staining after chalcopyrite in the historic Qalibua adit 250 m to the northwest of Wailoaloa. This suggests a system of potentially considerable size. Additional copper showings have also been identified throughout the Navilawa Caldera, such as the historic Kingston adit as well as the Matanavatu showings, 1800 m northwest and 1500 m north of Wailoaloa respectively.

TUDDH-662

TUDDH-662 was the first drill hole designed to test the surface copper anomaly at Wailoaloa. The lithology down hole consists dominantly of alternating unsorted to poorly sorted polymictic volcanic breccia with lesser massive monzonite. The volcanic breccia includes alkaline monzonite, porphyry, and re-worked breccia clasts, with gradational zones of finer grain material. It is cross-cut locally by monomictic clast-supported hydrothermal breccias with strongly bleached angular to sub-rounded clasts, as well as monzonite intrusives and late-stage unaltered pyroxene porphyry dykes.

Drill hole TUDDH-662 intersected one major zone of elevated copper mineralization, averaging 0.17% Cu over 163.2 m from 110.8 m to 274.0 m depth with a peak copper value of 1.0%. This zone coincides both with an abundance of secondary cross-cutting stockwork veinlets and with intense bleaching that overprints the background propylitic alteration. Chalcopyrite mineralization occurs within the stockwork veinlets as well as finely disseminated throughout the zone.

TUDDH-687

TUDDH-687 was the fourth and final drillhole drilled at the Wailoaloa prospect before the onset of the wet season in Fiji. It was drilled in a south-southeast direction based on surface structural measurements and oriented drill core measurements from TUDDH-662.

The lithology in TUDDH-687 consists primarily of unsorted to poorly sorted, polymictic, matrix-supported volcanic breccia with an overall clast to matrix ratio of 70:30, with rare intervals of hydrothermal cement up to several meters in width. The volcanic breccia is locally intersected by monzonite dykes and late pyroxene porphyry dykes, similar to TUDDH-662.

Alteration throughout the hole progresses from outer propylitic in the upper part of the hole to potassic in the bottom part of the hole, with patches of intense bleaching. The outer propylitic alteration in the upper part of the hole occurs as widespread patchy to pervasive epidote-chlorite alteration with intervals of intense silica-sericite bleaching. Copper mineralization in this part of the hole occurs as cryptic hairline veinlets of chalcopyrite. This corresponds to the first major zone of copper mineralization in TUDDH-687, with the top 210.8 m of the hole returning a composite grade of 0.13% Cu.

The second major zone of copper mineralization occurs from 377.8 m to 525.2 m downhole and returned a composite grade of 0.15% Cu. This interval corresponds to an increase in alteration from pervasive bleaching (propylitic) to an assemblage of potassic feldspar, magnetite, and possibly tremolite (inner propylitic to potassic and calc-potassic alteration). Here, thin but distinct B-type veins of quartz-bornite and quartz-chalcopyrite-bornite are observed. The presence of blebby disseminated bornite and (rare) patchy native copper is a distinctive feature of TUDDH-687.

The third major zone of copper mineralization, grading 0.12% Cu from 658.1 m to 785.9 m, is dominated by intense texturally-destructive K-feldspar-magnetite alteration with coarse crystalline secondary anhedral “shreddy” biotite. Late, discrete sericite-silica-pyrite veinlets which overprint potassic alteration assemblages throughout the sequence suggest evidence of multiple overprinting alteration events.

Surface Sampling

Lion One Metals completed surface sampling programs in the Wailoaloa area in 2019 and again in 2023 as part of the regional exploration program, consisting primarily of bench sampling along newly excavated access trails. A total of 443 samples are included in this news release (Table 6), focused on the Wailoaloa drill area. Of these samples, 72 (16%) returned copper grades in excess of 2000 ppm, and 141 (32%) returned copper grades in excess of 1000 ppm. Copper grades above 500 ppm are considered anomalous. The Wailoaloa area is therefore strongly anomalous in copper. The surface copper anomaly outlined by the Wailoaloa sampling is 150 m by 100 m in size and may be expanded further with additional sampling.

Figure 3. Plan View of Wailoaloa Drillholes in Relation to Surface Sampling Results. Bench sampling in the Wailoaloa area from 2019 to 2023 revealed a strong surface copper anomaly approximately 150 m x 100 m in size.

Table 2. Top 10 Copper Results from Surface Sampling at Wailoaloa. For full results see Table 6 in the Appendix.

Sample ID

Cu (ppm)

Au (ppm)

TUS010518

7570

0.28

TUS010474

6540

0.30

TUS010475

6070

1.09

TUS010397

5750

0.18

TUS010183

5740

0.08

TUS010488

5280

0.11

TUS010520

5210

0.79

TUS010490

5130

0.09

TUS010207

4860

0.79

TUS010476

4810

0.92

Figure 4. Example Mineralization from Wailoaloa Drillholes. Top left: Coarse bornite veinlet within patch of intense potassic alteration (TUDDH-687, 709.5 m). Top middle: Inner propylitic alteration with silica stockwork veining and coarse blebs of chalcopyrite (TUDDH-687, 732.5 m). Top right: Stringers and blebs of magnetite (TUDDH-687, 739.9 m). Bottom left: Magnetite stringer crosscut by chalcopyrite-bornite veinlet (TUDDH-687, 758 m). Bottom center: Potassium feldspar vein with microcrystalline chalcopyrite within potassically altered host with secondary biotite alteration (TUDDH-687, 745 m). Bottom right: Specks of native copper (circled in red) associated with quartz-epidote vein with yellow sericite selvage (TUDDH-687, 703 m). Width of core is 4.76 cm in each photo.

Figure 5. Example Lithology and Alteration, TUDDH-687. Sharp change in alteration style from intense bleaching to strong potassic alteration at 383.90 m, within polymictic matrix supported breccia. The increase in potassic alteration coincides with a sharp increase in copper mineralization. The composite assay value for the interval shown from 383.9 m to 389.5 m is 0.21% Cu. An isolated clast of re-worked breccia is visible within the greater breccia unit at the top right of the image. Width of core is 4.76 cm in each photo.

Qualified Person (NI43-101)

In accordance with National Instrument 43-101 Standards of Disclosure for Mineral Projects (“NI 43- 101”), Alex Nichol, MAIG, VP Geology and Exploration, is the Qualified Person for the Company, and has reviewed, validated, and approved the technical and scientific content of this news release.

Lion One Laboratories / QAQC

Lion One adheres to rigorous QAQC procedures above and beyond basic regulatory guidelines in conducting its drilling, sampling, testing, and analyses. The Company operates its own geochemical assay laboratory and its own fleet of 7 diamond drill rigs using PQ, HQ and NQ sized drill rods.

Diamond drill core samples are logged and split by Lion One personnel on site and delivered to the Lion One Laboratory for preparation and analysis. All samples are pulverized at the Lion One lab to 85% passing through 75 microns and gold analysis is carried out using fire assay with an AA finish. Samples that return grades greater than 0.50 g/t Au are re-assayed three times to get two assays within 10% of each other. Samples that return grades greater than 10.00 g/t Au are re-analyzed by gravimetric method, which is considered more accurate for very high-grade samples.

Duplicates of all samples with grades above 0.5 g/t Au are also delivered to ALS Global Laboratories in Australia for check assay determinations using 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). The Lion One lab can test a range of up to 71 elements through Inductively Coupled Plasma Optical Emission Spectrometry (ICP-OES), but currently focuses on a suite of 33 important pathfinder elements with an aqua regia digest and ICP-OES finish.

About Lion One Metals Limited

Lion One Metals is an emerging Canadian gold producer headquartered in North Vancouver BC, with new operations established in late 2023 at its 100% owned Tuvatu Alkaline Gold Project in Fiji. The Tuvatu project comprises the high-grade Tuvatu Alkaline Gold Deposit, the Underground Gold Mine, the Pilot Plant, and the Assay Lab. The Company also has an extensive exploration license covering the entire Navilawa Caldera, which is host to multiple mineralized zones and highly prospective exploration targets.

As disclosed in its “Technical Report and PEA Update for the Tuvatu Gold Project” dated April 29, 2022, the 2018 Tuvatu resource estimate 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 under the Lion One profile on the SEDAR+ website at www.sedarplus.ca

On behalf of the Board of Directors,
Walter Berukoff, Chairman & CEO

Contact Information
Investor inquiries: info@liononemetals.com
Phone:1-855-805-1250 (toll free North America)
Website: www.liononemetals.com

 Neither the TSX-V nor its Regulation Service Provider accepts responsibility or 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 labor 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: Composite Drill Results, Collar Information, and Surface Sample Results

Table 3. Composited results from Wailoaloa exploration drillhole TUDDH-662 (grade >500 ppm Cu)

Hole ID

From

To

Interval (m)

Cu (ppm)

TUDDH-662

44.7

45.3

0.6

559.20

TUDDH-662

49.8

50.1

0.3

853.68

TUDDH-662

51.9

52.2

0.3

511.76

TUDDH-662

55.5

57.3

1.8

553.37

TUDDH-662

93.7

94.3

0.6

1015.72

TUDDH-662

110.8

274.0

163.2

1661.80

TUDDH-662

276.7

277.3

0.6

737.67

TUDDH-662

285.1

285.4

0.3

638.37

TUDDH-662

293.2

309.1

15.9

875.62

TUDDH-662

314.8

377.5

0.9

866.93

TUDDH-662

316.3

327.1

10.8

773.33

TUDDH-662

331.9

332.2

0.3

655.25

TUDDH-662

334.3

335.2

0.9

809.33

TUDDH-662

346.9

348.7

1.8

599.71

TUDDH-662

375.4

377.2

1.8

915.75

TUDDH-662

436.3

436.9

0.6

935.01

TUDDH-662

451.0

451.6

0.6

500.54

TUDDH-662

452.2

452.8

0.6

526.43

TUDDH-662

482.8

483.7

0.9

863.92

TUDDH-662

488.2

489.1

0.9

903.17

TUDDH-662

511.6

512.2

0.6

596.12

TUDDH-662

519.7

522.7

3.0

790.04

TUDDH-662

530.5

530.8

0.3

985.48

TUDDH-662

538.3

538.6

0.3

649.77

TUDDH-662

545.8

546.4

0.6

673.49

TUDDH-662

551.8

553.6

1.8

527.77

TUDDH-662

556.6

557.5

0.9

502.75

TUDDH-662

558.4

559.0

0.6

666.97

TUDDH-662

559.9

560.8

0.9

516.45

TUDDH-662

568.6

569.5

0.9

785.03

TUDDH-662

576.7

577.0

0.3

628.37

TUDDH-662

578.2

580.0

1.8

507.65

TUDDH-662

582.1

582.7

0.6

546.80

TUDDH-662

585.7

589.3

3.6

508.90

TUDDH-662

606.7

607.0

0.3

534.72

TUDDH-662

607.3

607.6

0.3

623.77

TUDDH-662

618.1

618.7

0.6

667.99

TUDDH-662

625.0

625.3

0.3

574.81

Table 4. Composited results from Wailoaloa exploration drillhole TUDDH-687 (grade >500 ppm Cu)

Hole ID

From

To

Interval (m)

Cu (ppm)

TUDDH-687

0.0

185.9

185.9

1414.63

TUDDH-687

197.3

210.8

13.5

1088.73

TUDDH-687

236.0

251.3

15.3

814.06

TUDDH-687

276.2

285.8

9.6

1065.79

TUDDH-687

374.8

376.0

1.2

577.26

TUDDH-687

377.8

525.2

147.4

1490.30

TUDDH-687

531.8

532.7

0.9

529.58

TUDDH-687

538.4

564.5

26.1

578.91

TUDDH-687

566.6

567.2

0.6

506.67

TUDDH-687

569.6

569.9

0.3

1004.56

TUDDH-687

579.8

581.6

1.8

539.24

TUDDH-687

605.3

622.7

17.4

556.68

TUDDH-687

632.3

632.9

0.6

703.30

TUDDH-687

634.1

639.2

5.1

506.38

TUDDH-687

640.1

640.4

0.3

721.15

TUDDH-687

642.5

643.4

0.9

515.92

TUDDH-687

658.1

682.4

24.3

1197.76

TUDDH-687

687.8

709.7

21.9

1252.12

TUDDH-687

723.8

785.9

62.1

1386.77

TUDDH-687

793.1

798.8

5.7

544.93

TUDDH-687

802.7

803.9

1.2

586.50

TUDDH-687

812.3

815.3

3.0

818.82

TUDDH-687

832.5

833.1

0.6

603.60

TUDDH-687

837.9

838.5

0.6

864.81

TUDDH-687

840.9

845.1

4.2

507.86

TUDDH-687

845.7

846.3

0.6

564.68

TUDDH-687

853.5

863.7

10.2

574.02

TUDDH-687

869.1

871.2

2.1

561.50

TUDDH-687

872.4

873.0

0.6

536.40

TUDDH-687

873.6

874.2

0.6

601.02

TUDDH-687

882.7

883.0

0.3

515.49

TUDDH-687

889.0

891.1

2.1

961.59

TUDDH-687

927.5

928.1

0.6

515.74

TUDDH-687

935.6

949.7

14.1

509.88

TUDDH-687

952.7

953.5

0.8

690.07

Table 5. Collar coordinates for Wailoaloa exploration drillholes reported in this release.  Coordinates are in Fiji map grid.

Hole ID

Easting

Northing

Elevation

Azimuth

Dip

Depth

TUDDH-662

1877586

3921045

314

21.5

-57.4

632.8

TUDDH-669

1877609

3921212

326

25.4

-57.4

683.0

TUDDH-679

1877607

3921211

326

356.2

-69.5

573.1

TUDDH-687

1877615

3921192

326

159.1

-70.1

953.5

Table 6. Surface sample results in the Wailoaloa area, in descending order (grade >1000 ppm Cu)

Sample ID

Easting

Northing

Elevation

Cu (ppm)

Au (ppm)

TUS010518

1877671

3921172

335

7570

0.28

TUS010474

1877666

3921211

335

6540

0.30

TUS010475

1877666

3921210

336

6070

1.09

TUS010397

1877620

3921179

324

5750

0.18

TUS010183

1877629

3921106

318

5740

0.08

TUS010488

1877665

3921199

333

5280

0.11

TUS010520

1877670

3921172

335

5210

0.79

TUS010490

1877666

3921194

334

5130

0.09

TUS010207

1877624

3921121

320

4860

0.79

TUS010476

1877666

3921210

336

4810

0.92

TUS010477

1877666

3921210

336

4790

0.48

TUS010441

1877622

3921214

330

4320

0.14

TUS010519

1877670

3921172

335

4290

0.36

TUS010517

1877671

3921173

335

4270

0.24

TUS010439

1877623

3921214

330

4130

0.03

TUS010178

1877629

3921105

318

4090

0.13

TUS010498

1877666

3921188

335

4060

0.19

TUS010522

1877672

3921167

336

3970

0.27

TUS010516

1877670

3921175

336

3930

0.10

TUS010491

1877666

3921194

334

3870

0.07

TUS010497

1877666

3921189

335

3870

0.08

TUS010514

1877670

3921175

336

3740

0.10

TUS010483

1877664

3921204

334

3680

0.04

TUS010479

1877664

3921205

334

3630

0.15

TUS010185

1877628

3921107

318

3530

0.11

TUS010523

1877672

3921167

337

3490

0.23

TUS010208

1877624

3921120

320

3460

0.22

TUS010493

1877666

3921190

334

3400

0.11

TUS010521

1877673

3921168

336

3400

0.17

TUS010495

1877666

3921190

334

3290

0.30

TUS010513

1877670

3921175

336

3100

0.09

TUS010496

1877666

3921189

334

3080

0.12

TUS010494

1877666

3921190

334

3070

0.16

TUS010148

1877631

3921096

318

3070

0.05

TUS010478

1877665

3921206

334

3030

0.16

TUS010306

1877622

3921175

325

2990

0.22

TUS010440

1877623

3921214

330

2950

1.98

TUS010487

1877665

3921199

333

2950

0.07

TUS010158

1877631

3921105

319

2940

0.11

TUS010160

1877633

3921109

318

2910

0.62

TUS010511

1877669

3921181

335

2910

0.10

TUS010509

1877667

3921184

336

2910

0.46

TUS010489

1877665

3921199

334

2760

0.21

TUS010438

1877621

3921215

330

2740

0.01

TUS010209

1877624

3921120

320

2710

1.85

TUS010486

1877664

3921201

334

2710

0.22

TUS010408

1877617

3921191

326

2690

0.07

TUS010484

1877664

3921202

334

2680

0.53

TUS010181

1877629

3921105

318

2670

0.11

TUS010156

1877631

3921106

319

2630

0.12

TUS010436

1877621

3921214

329

2590

0.05

TUS010155

1877631

3921107

318

2550

0.54

TUS010510

1877669

3921181

335

2550

0.06

TUS010512

1877669

3921180

336

2550

0.31

TUS010151

1877631

3921096

319

2540

0.04

TUS010507

1877667

3921184

335

2520

1.78

TUS010184

1877629

3921106

318

2420

0.06

TUS010492

1877666

3921193

334

2400

0.07

TUS010437

1877621

3921214

330

2390

0.06

TUS010506

1877667

3921185

335

2350

0.65

TUS010482

1877664

3921204

334

2340

0.20

TUS010149

1877631

3921096

319

2320

0.07

TUS010505

1877667

3921185

335

2320

0.40

TUS010153

1877630

3921101

319

2310

0.04

TUS010305

1877622

3921176

325

2310

0.38

TUS010502

1877666

3921187

336

2270

0.22

TUS010167

1877631

3921110

317

2230

0.18

TUS010508

1877667

3921184

336

2200

0.20

TUS010481

1877664

3921205

334

2180

1.03

TUS010161

1877633

3921109

318

2180

0.49

TUS010182

1877629

3921105

318

2110

0.10

TUS010302

1877621

3921177

324

2100

0.03

TUS010152

1877630

3921101

318

2090

0.06

TUS010447

1877640

3921218

332

1980

0.06

TUS010159

1877632

3921109

318

1950

0.67

TUS010307

1877623

3921175

325

1950

0.04

TUS010442

1877638

3921218

331

1940

0.17

TUS010398

1877620

3921179

324

1900

0.04

TUS010206

1877624

3921122

320

1880

0.11

TUS010444

1877637

3921217

332

1860

0.19

TUS010147

1877634

3921083

316

1840

0.11

TUS010504

1877667

3921185

334

1820

1.30

TUS010418

1877616

3921198

327

1820

0.03

TUS010154

1877631

3921101

319

1810

0.08

TUS010164

1877631

3921109

317

1770

0.46

TUS010423

1877616

3921201

327

1730

0.03

TUS010399

1877618

3921190

325

1700

0.06

TUS010445

1877640

3921219

331

1690

0.41

TUS010485

1877664

3921202

334

1670

0.52

TUS010406

1877620

3921188

326

1620

0.04

TUS010412

1877617

3921193

326

1620

0.04

TUS010166

1877631

3921110

317

1600

0.27

TUS010417

1877616

3921198

326

1600

0.01

TUS010407

1877617

3921191

326

1580

0.06

TUS010304

1877622

3921176

324

1570

0.14

TUS010409

1877617

3921191

326

1560

0.23

TUS010163

1877634

3921110

319

1550

0.04

TUS010429

1877615

3921211

327

1520

0.09

TUS010466

1877660

3921221

335

1510

0.08

TUS010179

1877629

3921105

318

1490

0.08

TUS010414

1877616

3921199

326

1460

0.02

TUS010211

1877625

3921119

320

1440

0.05

TUS010404

1877619

3921188

326

1440

0.04

TUS010299

1877623

3921173

324

1430

0.12

TUS010172

1877631

3921112

317

1420

0.03

TUS010410

1877617

3921194

326

1390

0.06

TUS010420

1877616

3921198

327

1390

0.09

TUS010461

1877655

3921222

334

1370

0.31

TUS010425

1877616

3921200

327

1360

0.02

TUS010416

1877616

3921199

326

1350

0.03

TUS010421

1877615

3921202

326

1350

0.02

TUS010451

1877646

3921220

333

1350

0.02

TUS010526

1877680

3921160

337

1330

0.08

TUS010173

1877631

3921115

318

1290

0.03

TUS010402

1877619

3921189

326

1270

0.06

TUS010169

1877631

3921111

317

1250

0.02

TUS010177

1877630

3921116

318

1230

0.04

TUS010170

1877631

3921111

317

1220

0.03

TUS010503

1877665

3921187

336

1220

0.58

TUS010223

1877623

3921128

322

1220

<0.01

TUS010424

1877616

3921201

327

1220

0.05

TUS010427

1877615

3921208

327

1210

0.02

TUS010428

1877615

3921207

328

1200

0.01

TUS010176

1877630

3921116

318

1180

0.03

TUS010411

1877617

3921194

326

1160

0.10

TUS010419

1877616

3921198

327

1160

0.02

TUS010464

1877660

3921221

335

1160

0.06

TUS010413

1877615

3921199

326

1150

0.01

TUS010446

1877640

3921218

332

1140

0.54

TUS010473

1877661

3921221

333

1140

0.17

TUS010448

1877646

3921221

332

1110

0.03

TUS010431

1877615

3921210

327

1100

0.01

TUS010533

1877690

3921139

339

1100

0.02

TUS010433

1877615

3921210

328

1090

0.04

TUS010191

1877626

3921121

322

1070

0.15

TUS010443

1877637

3921217

331

1060

0.04

TUS010171

1877631

3921112

317

1050

0.02

TUS010298

1877623

3921173

324

1030

0.06

TUS010210

1877625

3921119

320

1020

0.26

TUS010462

1877659

3921221

334

1020

0.10

TUS010531

1877690

3921140

339

1010

0.01


© 2024 Lion One Metals Limited
All rights reserved.
Disclaimer

Subscribe to our Email List