Fortuna intersects 88 g/t Au over 3.5m at the Séguéla Mine and provides exploration update

Fortuna intersects 88 g/t Au over 3.5m at the Séguéla Mine and provides exploration update

Article content

VANCOUVER, British Columbia, Dec. 12, 2023 (GLOBE NEWSWIRE) — Fortuna Silver Mines Inc. (NYSE: FSM) (TSX: FVI) is pleased to provide an update on its exploration programs at the Séguéla Mine in Côte d’Ivoire, the recently acquired Diamba Sud Gold Project in Senegal, and the San Jose Mine in Mexico.

Exploration program highlights

Article content

Badior prospect, Séguéla Mine, Côte d’Ivoire:

Advertisement 2

Story continues below

Article content

SGRD1683: 17.3 g/t Au over an estimated true width of 6.3 meters from 67 meters, including
49.5 g/t Au over an estimated true width of 1.4 meters from 67 meters
SGRC1682: 16.7 g/t Au over an estimated true width of 5.6 meters from 65 meters, including
121.0 g/t Au over an estimated true width of 0.7 meters from 70 meters, and
13.0 g/t Au over an estimated true width of 2.1 meters from 83 meters
SGRD1689: 10.7 g/t Au over an estimated true width of 2.1 meters from 159 meters, including
29.6 g/t Au over an estimated true width of 0.7 meters from 161 meters
   

Ancien deposit, Séguéla Mine, Côte d’Ivoire:

SGRD1657: 27.1 g/t Au over an estimated true width of 7.7 meters from 239 meters, including
138.5 g/t Au over an estimated true width of 1.4 meters from 241 meters
SGRC1661: 14.8 g/t Au over an estimated true width of 2.1 meters from 339 meters, and
22.9 g/t Au over an estimated true width of 15.4 meters from 347 meters, including
88.0 g/t Au over an estimated true width of 3.5 meters from 357 meters
SGRD1663: 6.0 g/t Au over an estimated true width of 19.6 meters from 346 meters, including
13.0 g/t Au over an estimated true width of 1.4 meters from 352meters, and
16.4 g/t Au over an estimated true width of 1.4 meters from 358 meters, and
36.4 g/t Au over an estimated true width of 1.4 meters from 362 meters
SGRD1664: 2.2 g/t Au over an estimated true width of 15.4 meters from 361 meters, including
11.3 g/t Au over an estimated true width of 0.7 meters from 368 meters, and
10.2 g/t Au over an estimated true width of 0.7 meters from 370 meters
   

Advertisement 3

Story continues below

Article content

Sunbird deposit, Séguéla Mine, Côte d’Ivoire:

SGRD1695: 5.0 g/t Au over an estimated true width of 14.7 meters from 341 meters, including
27.7 g/t Au over an estimated true width of 2.1 meters from 347 meters
SGRC1698: 4.9 g/t Au over an estimated true width of 8.4 meters from 200 meters
SGRD1696: 4.9 g/t Au over an estimated true width of 3.5 meters from 235 meters, including
16.9 g/t Au over an estimated true width of 0.7 meters from 236 meters, and
6.2 g/t Au over an estimated true width of 1.4 meters from 263 meters
   

Paul Weedon, Senior Vice President of Exploration at Fortuna, commented, “With the successful commissioning and ramp-up of the Séguéla Mine, the exploration focus has been directed towards the regional potential, featuring the emerging Badior prospect. Recent results include drill hole SGRC1683 intersecting 17.3 g/t Au over an estimated true width of 6.3 meters. In addition, the exploration teams are building the foundation for potential long term underground mining at the Ancien and Sunbird deposits, encouraged by results such as drill hole SGRD1661 intersecting 22.9 g/t Au over an estimated true width of 15.4 meters at Ancien.”

Article content

Advertisement 4

Story continues below

Article content

Diamba Sud Gold Project, Senegal:

DSR503: 7.5 g/t Au over an estimated true width of 16.2 meters from 75 meters
DSDD129: 9.9 g/t Au over an estimated true width of 11.7 meters from 12 meters
DSR491: 3.9 g/t Au over an estimated true width of 26.1 meters from 66 meters, and
5.8 g/t Au over an estimated true width of 13.5 meters from 104 meters
DSR490: 3.1 g/t Au over an estimated true width of 29.7 meters from 7 meters
DSR506: 3.0 g/t Au over an estimated true width of 23.4 meters from 36 meters, and
6.7 g/t Au over an estimated true width of 8.1 meters from 71 meters
DSDD131: 9.1 g/t Au over an estimated true width of 5.6 meters from 96.4 meters
   

Mr. Weedon continued, “Exploration drilling at the recently acquired Diamba Sud Gold Project has returned very encouraging results from the initial confirmatory drilling at Area A, with results such as drill hole DSR490 intersecting 3.1 g/t Au over an estimated true width of 29.7 meters from 7 meters, while hole DSR487 highlights the potential to increase the overall footprint of the Area A prospect with an interval of 2.3 g/t Au over an interval of 15.3 meters, extending beyond the historic mine design limit. With the team on the ground operating well after the conclusion of the Diamba Sud acquisition, I am very happy with the progress as we look forward to advancing the project in 2024.”

Advertisement 5

Story continues below

Article content

Yessi vein, San Jose Mine, Mexico:

SJOM-1357: 204 g/t Ag Eq over an estimated true width of 7.1 meters from 167.30 meters
SJOM-1366A: 153 g/t Ag Eq over an estimated true width of 1.5 meters from 573.45 meters, and
258 g/t Ag Eq over an estimated true width of 1.0 meters from 636.40 meters
SJO-1417: 858 g/t Ag Eq over an estimated true width of 0.5 meters from 579.55 meters
SJOM-1418: 185 g/t Ag Eq over an estimated true width of 0.8 meters from 406.00 meters
SJOM-1428: 545 g/t Ag Eq over an estimated true width of 17.0 meters from 342.75 meters
SJO-1430: 1,431 g/t Ag Eq over an estimated true width of 1.1 meters from 593.50 meters, and
250 g/t Ag Eq over an estimated true width of 4.0 meters from 668.85 meters
SJO-1431: 195 g/t Ag Eq over an estimated true width of 5.2 meters from 601.30 meters
   

Mr. Weedon also highlighted the continuing work at the San Jose Mine where drilling to define the recently discovered Yessi vein has provided further insights into the regional structural controls with encouraging results, including 1,431 g/t Ag Eq over an estimated true width of 1.1 meters and a further 250 g/t Ag Eq over an estimated true width of 4 meters from SJO-1430, and 545 g/t Ag Eq over an estimated true width of 17.0 meters from SJOM-1428. “The structural complexity of the Yessi vein helps validate the wider regional structural understanding and highlights opportunities for additional near-mine exploration targets.”

Advertisement 6

Story continues below

Article content

Séguéla Mine, Côte d’Ivoire

Drilling for increased geologic confidence and understanding of key high-grade controls at the Badior prospect was recently concluded, with 8 holes drilled totalling 1,691 meters (refer to Figure 1). Drilling has broadly outlined a gently northerly plunging high-grade lode which remains open at depth, with drill hole SGRD1689 intersecting 10.7 g/t Au over 2.1 meters from 159 meters downhole. The interpreted northerly plunge is unusual for mineralization at Séguéla which typically demonstrates a shallow to moderate southerly plunge, and which may represent a new or antithetic structural control. Further work is planned for 2024.

Figure 1: Badior long-section showing select recent results (looking west)

Badior long-section showing select recent results (looking west)

At Ancien, 9 holes for a total of 3,258 meters were completed (refer to Figure 2). This short program was designed to improve the understanding of the structural controls on the high-grade lodes hosting multiple intervals such as those intersected in drill holes SGRD1661 and SGRD1663. This increased geological confidence and understanding will help support an evaluation of the underground mining potential at Ancien, where the deposit remains open at depth. Further work is planned for 2024.

Advertisement 7

Story continues below

Article content

Figure
2: Ancien long-section showing select recent results (looking west)

Ancien long-section showing select recent results (looking west)

At Sunbird, a comprehensive infill drilling program consisting of 47 holes totaling 11,075 meters, was completed in August 2023 (refer to Fortuna news release dated August 8, 2023). The infill drilling was followed by a program to continue testing the extent of mineralization. Results were received for 8 holes totalling 2,100 meters completed in the southern section of the deposit (refer to Figure 3). This short program was designed to improve the understanding of the structural controls projected a further 200 meters down-plunge from the last drilling sections with encouraging results including SGRD1695 intersecting 5.0 g/t Au over an estimated true width of 14.7 meters from 341 meters downhole. This increased geological confidence and understanding will help support an evaluation of the underground mining potential at Sunbird, where the deposit remains open at depth. Further work is planned for 2024.

See also  London retailers count cost of ‘tourist tax’ as sales fall by £220m

Refer to Appendix 1 for full details of the Séguéla drill holes and assay results.

Advertisement 8

Story continues below

Article content

Figure
3: Sunbird long-section showing select recent results (looking west)

Sunbird long-section showing select recent results (looking west)

Diamba Sud Gold Project, Senegal

At Diamba Sud, a 10,945-meter, three-drill rig drilling program started on October 8, 2023, with 34 holes completed for 4,976 total meters drilled to date. The objectives of the program are as follows:

  • Selected confirmatory drilling of Area A, Area D, and Karakara to improve resource confidence
  • Drilling to test for extensions to the existing historic resource in support of project development and advancing further studies in 2024
  • Advancing prospective areas such as Gamba Gamba North, Southern Arc, Western Splay,
    Area A North, and others
  • Improved understanding of key geological controls including controlling structures, favorable lithologies, alteration and secondary enrichment zones

The Area A prospect is structurally complex with interpreted supergene mineralization overlaying primary mineralization preferentially hosted in a broad sedimentary package, which has been intersected by steeper mineralized structures and folding. Mineralization remains open along strike and at depth, as demonstrated by drill hole DSR490 intersecting 1.3 g/t Au over an estimated true width of 7.2 meters from 176 meters, and an additional 1.0 g/t Au over an estimated true width of 18.9 meters from 188 meters, extending mineralization beyond the historic pit design (refer to Figures 4 – 6).

Advertisement 9

Story continues below

Article content

This program will continue for the remainder of 2023 with additional drilling programs, including regional exploration and target generation budgeted for 2024.

Refer to Appendix 2 for full details of the Diamba Sud Gold Project drill holes and assay results.

Figure 4: Diamba Sud Gold Project location plan

Diamba Sud Gold Project location plan


Figure 5:
Area A drilling location plan

Area A drilling location plan


Figure 6:
Area A cross section A – A’; refer to Figure 5 for location

Area A cross section A - A’; refer to Figure 5 for location

Figure 7: Area A cross section B – B’; refer to Figure 5 for location

Area A cross section B - B’; refer to Figure 5 for location

San Jose Mine, Mexico

Drilling of the recently discovered Yessi vein (refer to Fortuna news release filed on SEDAR+ on September 5, 2023) has continued with the objective of defining the structural relationship between the Yessi vein and the various systems at the San Jose Mine with 13 additional holes completed for a total of 7,444 meters.

Initially interpreted as an approximately north-south trending vein, recent drilling has highlighted the likelihood of the Yessi vein forming a north-northwest orientated link structure between the Victoria Mineralized Zone and an as yet undefined structure further eastwards, an interpretation supported by regional geophysical data. Drilling has been re-orientated to better target this revised orientation, with drilling continuing.

Advertisement 10

Story continues below

Article content

Mineralization remains open along strike to the southeast, whereas to the northwest the Yessi vein intersects the Victoria Mineralized Zone.

Refer to Appendix 3 for full details of the Yessi vein drill holes and assay results.

Figure 8: Plan view of the Yessi vein, San Jose Mine. Refer Figure 9 for the long-section view (A-A’).

Plan view of the Yessi vein, San Jose Mine. Refer Figure 9 for the long-section view (A-A’).


Figure 9:

Long section view (A-A’) of the Yessi vein, San Jose Mine

Long section view (A-A’) of the Yessi vein, San Jose Mine

Quality Assurance & Quality Control (QA – QC)

Séguéla Mine, Côte d’Ivoire and Diamba Sud Gold Project, Senegal

All drilling data completed by the Company utilized the following procedures and methodologies. All drilling was carried out under the supervision of the Company’s personnel.

All RC drilling used a 5.25-inch face sampling pneumatic hammer with samples collected into 60-liter plastic bags. Samples were kept dry by maintaining enough air pressure to exclude groundwater inflow. If water ingress exceeded the air pressure, RC drilling was stopped, and drilling converted to diamond core tails. Once collected, RC samples were riffle split through a three-tier splitter to yield a
12.5% representative sample for submission to the analytical laboratory. The residual 87.5% samples were stored at the drill site until assay results were received and validated. Coarse reject samples for all mineralized samples corresponding to significant intervals are retained and stored on-site at the
Company-controlled core yard.

Advertisement 11

Story continues below

Article content

All diamond drilling (DD) drill holes at Séguéla were drilled with HQ sized diamond drill bits, whereas DD holes at Diamba Sud started with HQ sized diameter, before reducing to NQ diameter diamond drill bits on intersecting fresh rock. The core was logged, marked up for sampling using standard lengths of one meter or to a geological boundary. Samples were then cut into equal halves using a diamond saw. One half of the core was left in the original core box and stored in a secure location at the Company core yard at the project site. The other half was sampled, catalogued, and placed into sealed bags and securely stored at the site until shipment.

All Séguéla RC and DD core samples were shipped to ALS Laboratories’ preparation laboratory in Yamoussoukro for preparation and then, via commercial courier, to ALS’s facility in Ouagadougou, Burkina Faso for finishing. All Diamba Sud RC and DD samples were transported to ALS’s preparation laboratory in Kedougou, before also being transported via commercial courier, to ALS’s facility in Ouagadougou. Routine gold analysis using a 50-gram charge and fire assay with an atomic absorption finish was completed for all samples. Quality control procedures included the systematic insertion of blanks, duplicates, and sample standards into the sample stream. In addition, the ALS laboratory inserted its own quality control samples.

Advertisement 12

Story continues below

Article content

San Jose Mine, Mexico

All diamond drilling (DD) drill holes at San Jose were drilled with either NQ sized diameter (drilled from underground) or HQ sized diamond drill bits reducing to NQ sized diameter with greater depth. Following detailed geological and geotechnical logging, all diamond drill core samples are split on-site by diamond sawing. One half of the core is submitted to the internal laboratory located in the CMC facilities. The CMC laboratory has been accredited by the Standard Council of Canada (ISO 17025: 2017) for preparation, drying, gravimetry, fire assay, Inductively Coupled Plasma and Atomic Absorption processes. The remaining half core is retained on-site for verification and reference purposes. Following preparation, the samples are assayed for gold and silver by standard fire assay methods and for silver and base metals by Inductively Coupled Plasma and as well as three acid digestion at the same internal laboratory. The QA – QC program includes the blind insertion of certified reference standards and assay blanks at a frequency of approximately 1 per 20 normal samples as well as the inclusion of duplicate samples for verification of sampling and assay precision levels.

Advertisement 13

Story continues below

Article content

Qualified Person

Paul Weedon, Senior Vice President of Exploration for Fortuna Silver Mines Inc., is a Qualified Person as defined by National Instrument 43-101 being a member of the Australian Institute of Geoscientists (Membership #6001). Mr. Weedon has reviewed and approved the scientific and technical information contained in this news release. Mr. Weedon has verified the data disclosed, including the sampling, analytical and test data underlying the information or opinions contained herein by reviewing geochemical and geological databases and reviewing diamond drill core.  There were no limitations to the verification process.

About Fortuna Silver Mines Inc.

Fortuna Silver Mines Inc. is a Canadian precious metals mining company with five operating mines in Argentina, Burkina Faso, Côte d’Ivoire, Mexico, and Peru. Sustainability is integral to all our operations and relationships. We produce gold and silver and generate shared value over the long-term for our stakeholders through efficient production, environmental protection, and social responsibility. For more information, please visit our website.

Advertisement 14

Story continues below

Article content

ON BEHALF OF THE BOARD

Jorge A. Ganoza
President, CEO, and Director
Fortuna Silver Mines Inc.

Investor Relations:

Carlos Baca | info@fortunasilver.com | www.fortunasilver.com | X | LinkedIn | YouTube

Forward-looking Statements

This news release contains forward-looking statements which constitute “forward-looking information” within the meaning of applicable Canadian securities legislation and “forward-looking statements” within the meaning of the “safe harbor” provisions of the Private Securities Litigation Reform Act of 1995 (collectively, “Forward-looking Statements”). All statements included herein, other than statements of historical fact, are Forward-looking Statements and are subject to a variety of known and unknown risks and uncertainties which could cause actual events or results to differ materially from those reflected in the Forward-looking Statements. The Forward-looking Statements in this news release include, without limitation, statements about the potential to increase the overall footprint of the Area A prospect and the Company’s plans for the Diamba Sud Gold Project in 2024; statements regarding potential long term underground development at Ancien and at Sunbird at the Séguéla Mine; the Company’s plans to conduct further work at Ancien and at Sunbird during 2024; the Company’s objectives for the current drilling program at the Diamba Sud Gold Project and expectations regarding additional drilling programs budgeted for 2024; the Company’s business strategy, plans and outlook; the merit of the Company’s mines and mineral properties; mineral resource and reserve estimates; timelines; the future financial or operating performance of the Company; expenditures; approvals and other matters. Often, but not always, these Forward-looking Statements can be identified by the use of words such as “estimated”, “potential”, “open”, “future”, “assumed”, “projected”, “used”, “detailed”, “has been”, “gain”, “planned”, “reflecting”, “will”, “containing”, “remaining”, “to be”, or statements that events, “could” or “should” occur or be achieved and similar expressions, including negative variations. Forward-looking Statements involve known and unknown risks, uncertainties and other factors which may cause the actual results, performance, or achievements of the Company to be materially different from any results, performance or achievements expressed or implied by the Forward-looking Statements. Such uncertainties and factors include, among others, changes in general economic conditions and financial markets; changes in prices for silver, gold and other metals; the timing and success of the Company’s proposed exploration programs; technological and operational hazards in Fortuna’s mining and mine development activities; risks inherent in mineral exploration; fluctuations in prices for energy, labour, materials, supplies and services; fluctuations in currencies; uncertainties inherent in the estimation of mineral reserves, mineral resources, and metal recoveries; the possibility that the ruling in favor of Compañia Minera Cuzcatlan S.A. de C.V. to reinstate the environmental impact authorization at the San Jose Mine will be successfully appealed; the Company’s ability to obtain all necessary permits, licenses and regulatory approvals in a timely manner; governmental and other approvals; political unrest or instability in countries where Fortuna is active; labor relations issues; as well as those factors discussed under “Risk Factors” in the Company’s Annual Information Form for the financial year ended December 31, 2022. Although the Company has attempted to identify important factors that could cause actual actions, events, or results to differ materially from those described in Forward-looking Statements, there may be other factors that cause actions, events or results to differ from those anticipated, estimated or intended. Forward-looking Statements contained herein are based on the assumptions, beliefs, expectations and opinions of management, including but not limited to expectations regarding the results from the exploration programs conducted at the Séguéla Mine, the San Jose Mine, and the Diamba Sud Gold Project; expected trends in mineral prices and currency exchange rates; the accuracy of the Company’s information derived from its exploration programs at the Company’s mineral properties; current mineral resource and reserve estimates; the presence and continuity of mineralization at the Company’s properties; that the Company’s activities will be in accordance with the Company’s public statements and stated goals; that there will be no material adverse change affecting the Company or its properties; that all required approvals will be obtained; that there will be no significant disruptions affecting operations and such other assumptions as set out herein. Forward-looking Statements are made as of the date hereof and the Company disclaims any obligation to update any Forward-looking Statements, whether as a result of new information, future events or results or otherwise, except as required by law. There can be no assurance that Forward-looking Statements will prove to be accurate, as actual results and future events could differ materially from those anticipated in such statements. Accordingly, investors should not place undue reliance on Forward-looking Statements.

Advertisement 15

Article content

Cautionary Note to United States Investors Concerning Estimates of Reserves and Resources

Reserve and resource estimates included in this news release have been prepared in accordance with National Instrument 43-101 Standards of Disclosure for Mineral Projects (“NI 43-101”) and the Canadian Institute of Mining, Metallurgy, and Petroleum Definition Standards on Mineral Resources and Mineral Reserves. NI 43-101 is a rule developed by the Canadian Securities Administrators that establishes standards for public disclosure by a Canadian company of scientific and technical information concerning mineral projects. Unless otherwise indicated, all mineral reserve and mineral resource estimates contained in the technical disclosure have been prepared in accordance with NI 43-101 and the Canadian Institute of Mining, Metallurgy and Petroleum Definition Standards on Mineral Resources and Reserves. Canadian standards, including NI 43-101, differ significantly from the requirements of the Securities and Exchange Commission, and mineral reserve and resource information included in this news release may not be comparable to similar information disclosed by U.S. companies.

Advertisement 16

Story continues below

Article content

Appendix 1: Séguéla Mine, Côte d’Ivoire

Hole ID Easting
(WGS84_29N)
Northing
(WGS84_29N)
Elevation
(m)
EOH
Depth
(m)
UTM
Azimuth
Dip Depth
From
(m)
Depth
To
(m)
Drilled
Width
(m)
ETW
(m)
Au
(ppm)
Hole
Type
Area
SGRD1656 743307 888573 352 225.7 277 -60 180 182 2 1.4 5.54 RCD Ancien
            incl 180 181 1 0.7 10.30 RCD Ancien
SGRD1657 743346 888518 349 276.1 277 -60 228 231 3 2.1 2.76 RCD Ancien
              239 250 11 7.7 27.06 RCD Ancien
            incl 241 243 2 1.4 138.45 RCD Ancien
SGRD1658 743366 888467 348 348 277 -55 268 269 1 0.7 5.47 RCD Ancien
SGRD1659 743335 888395 354 336.3 277 -55 270 274 4 2.8 2.99 RCD Ancien
              306 322 16 11.2 1.14 RCD Ancien
SGRD1661 743409 888381 351 440.4 277 -55 339 342 3 2.1 14.76 RCD Ancien
            incl 339 340 1 0.7 37.80 RCD Ancien
              347 369 22 15.4 22.90 RCD Ancien
            incl 353 354 1 0.7 23.50 RCD Ancien
            incl 357 362 5 3.5 87.96 RCD Ancien
SGRD1663 888361 743405 356 400.4 277 -55 346 374 28 19.6 5.98 RCD Ancien
            incl 352 354 2 1.4 12.95 RCD Ancien
            and 358 360 2 1.4 16.38 RCD Ancien
            and 362 364 2 1.4 36.35 RCD Ancien
SGRD1664 743402.76 888335 371.24 400.2 2.77 -55 361 383 22 15.4 2.23 RCD Ancien
            incl 368 369 1 0.7 11.25 RCD Ancien
            and 370 371 1 0.7 10.15 RCD Ancien
SGRD1665 743419 888307 370 430.8 277 -55 NSI         RCD Ancien
SGRD1666 743368 888286 358 400.5 277 -55 362 370 8 5.6 1.60 RCD Ancien
SGRC1682 743089 901800 396 140 270 -55 65 73 8 5.6 16.70 RC Badior
            incl 70 71 1 0.7 121.00 RC Badior
              77 79 2 1.4 13.45 RC Badior
            incl 77 78 1 0.7 24.20 RC Badior
              83 86 3 2.1 13.01 RC Badior
            incl 85 86 1 0.7 33.00 RC Badior
SGRC1683 743095 901850 389 130 270 -55 59 63 4 2.8 1.66 RC Badior
              67 76 9 6.3 17.32 RC Badior
            incl 67 69 2 1.4 49.50 RC Badior
            and 71 72 1 0.7 44.60 RC Badior
              86 92 6 4.2 2.28 RC Badior
SGRC1685 743130 901950 385 190 270 -55 75 79 4 2.8 2.46 RC Badior
SGRD1686 743128 901851 386 192.1 268   142 144 2 1.4 4.86 RCD Badior
              189 192.1 3.1 2.2 1.79 RCD Badior
SGRD1687 743165 901950 383 270 270 -55 NSI         RCD Badior
SGRD1688 743161 902003 391 268 268 -51 NSI         RCD Badior
SGRD1689 743128 902003 393 190.7 270 -55 159 162 3 2.1 10.71 RCD Badior
            incl 161 162 1 0.7 29.60 RCD Badior
SGRD1690 743133 902003 396 310.3 268 -52 NSI         RCD Badior
SGRC1691 742887 893798 431 60 90 -60 NSI         RC Sunbird
SGRC1692 742861 893797 432 110 90 -60 NSI         RC Sunbird
SGRD1693 742584 892987 518 420.5 90   371 381 10 7.0 2.88 RCD Sunbird
              395 397 2 1.4 5.57 RCD Sunbird
            incl 395 396 1 0.7 10.10 RCD Sunbird
SGRD1694 742510 892710 539 134         0 0.0   RCD Sunbird
SGRD1695 742532 892511 538 375.1 90 -60 341 362 21 14.7 4.99 RCD Sunbird
            incl 347 350 3 2.1 27.70 RCD Sunbird
SGRD1696 742573 892512 547 310.3 90 -60 235 240 5 3.5 4.91 RCD Sunbird
            incl 236 237 1 0.7 16.90 RCD Sunbird
              263 265 2 1.4 6.17 RCD Sunbird
              280 285 5 3.5 2.82 RCD Sunbird
            incl 284 285 1 0.7 12.70 RCD Sunbird
SGRD1697 742534 892461 544 390 90 -60 NSI         RCD Sunbird
SGRD1698 742577 892460 520 300.4 90 -60 200 212 12 8.4 4.87 RCD Sunbird
            incl 200 201 1 0.7 14.15 RCD Sunbird
            and 203 204 1 0.7 24.50 RCD Sunbird
              218 236 18 12.6 1.54 RCD Sunbird
              242 253 11 7.7 0.98 RCD Sunbird

Advertisement 17

Story continues below

Article content

Notes:

  1. EOH: End of hole
  2. NSI: No significant intercepts
  3. ETW: Estimated true width
  4. Depths and widths reported to nearest significant decimal place

Appendix 2: Diamba Sud Gold Project, Senegal

Hole ID Easting
(WGS84_29N)
Northing
(WGS84_29N)
Elevation
(m)
EOH
Depth
(m)
UTM
Azimuth
Dip Depth
From
(m)
Depth
To
(m)
Drilled
Width
(m)
ETW
(m)
Au
(ppm)
Hole
Type
Area
DSDD129 233200 1429609 186 246 90 -60 12 25 13 11.7 9.91 DD Area A
            incl 16 18 2 1.8 43.45 DD Area A
              90 92.7 2.7 2.4 5.56 DD Area A
            incl 92 92.7 0.7 0.6 11.80 DD Area A
              122 135 13 11.7 0.90 DD Area A
              161 168 7 6.3 0.74 DD Area A
              188 193 5 4.5 1.57 DD Area A
DSDD130 233151 1429612 186 219 90 -60 63 76 13 11.7 2.62 DD Area A
            incl 69 70 1 0.9 10.35 DD Area A
              83 94 11 9.9 0.57 DD Area A
              155 187 32 28.8 1.02 DD Area A
              191 197 6 5.4 4.81 DD Area A
            incl 193 194 1 0.9 19.80 DD Area A
DSDD131 233283 1429607 184 162 90 -60 24 29 5 4.5 1.08 DD Area A
              96.4 102.6 6.2 5.6 9.07 DD Area A
            incl 96.4 98 1.6 1.4 14.35 DD Area A
              113 123.5 10.5 9.5 1.98 DD Area A
DSDD132 233161 1429583 185 210 90 -60 80 87.8 7.8 7.0 2.12 DD Area A
              147 157 10 9.0 0.71 DD Area A
DSDD133 233241 1429555 184 174 90 -60 89.5 95 5.5 5.0 8.67 DD Area A
            incl 90 92 2 1.8 16.46 DD Area A
              103 107.8 4.8 4.3 2.92 DD Area A
              111 112 1 0.9 21.50 DD Area A
              116 124 8 7.2 2.90 DD Area A
            incl 117 118.4 1.4 1.3 11.72 DD Area A
              144 147 3 2.7 2.25 DD Area A
DSDD134 233210 1429554 184 189 90 -60 9 16 7 6.3 5.83 DD Area A
            incl 11 13 2 1.8 11.75 DD Area A
              28 29.8 1.8 1.6 3.20 DD Area A
              40 52 12 10.8 1.36 DD Area A
              57 61 4 3.6 1.92 DD Area A
              106 117 11 9.9 2.08 DD Area A
            incl 106.6 107.5 0.9 0.8 13.30 DD Area A
              125 132.5 7.5 6.8 1.24 DD Area A
DSDD135 233184 1429510 184 200 90 -60 86 93.8 7.8 7.0 1.33 DD Area A
              106 107.65 1.65 1.5 5.21 DD Area A
              119 126 7 6.3 3.14 DD Area A
              183.7 189.05 5.35 4.8 1.14 DD Area A
DSDD136 233301 1429551 182 131 90 -60 54 62 8 7.2 0.83 DD Area A
              105.15 111 5.85 5.3 4.61 DD Area A
            incl 106 107 1 0.9 19.10 DD Area A
DSR486 233252 1429610 186 162 90 -60 9 13 4 3.6 1.31 RC Area A
              100 109 9 8.1 0.80 RC Area A
              122 142 20 18.0 1.65 RC Area A
DSR487 233313 1429609 182 132 90 -60 3 11 8 7.2 5.18 RC Area A
            incl 3 4 1 0.9 11.80 RC Area A
              97 114 17 15.3 2.26 RC Area A
DSR488 233301 1429580 182 138 90 -60 109 117 8 7.2 1.22 RC Area A
              122 126 4 3.6 2.09 RC Area A
DSR489 233247 1429582 185 156 90 -60 4 13 9 8.1 1.84 RC Area A
              47 50 3 2.7 19.78 RC Area A
              110 112 2 1.8 3.53 RC Area A
              118 125 7 6.3 1.37 RC Area A
              130 132 2 1.8 2.79 RC Area A
DSR490 233191 1429585 185 210 90 -60 7 40 33 29.7 3.09 RC Area A
              62 68 6 5.4 2.84 RC Area A
            incl 63 64 1 0.9 11.50 RC Area A
              116 138 22 19.8 1.83 RC Area A
            incl 117 118 1 0.9 11.05 RC Area A
              160 171 11 9.9 1.08 RC Area A
              176 184 8 7.2 1.27 RC Area A
              188 209 21 18.9 1.00 RC Area A
DSR491 233301 1429510 180 144 90 -60 66 95 29 26.1 3.89 RC Area A
            incl 68 69 1 0.9 22.30 RC Area A
            and 77 78 1 0.9 21.90 RC Area A
              104 119 15 13.5 5.79 RC Area A
            incl 114 117 3 2.7 17.52 RC Area A
DSR492 233245 1429511 181 162 90 -60 113 126 13 11.7 3.36 RC Area A
              145 158 13 11.7 0.89 RC Area A
DSR493 233281 1429438 180 120 90 -60 80 83 3 2.7 3.15 RC Area A
DSR494 233216 1429436 176 162 90 -60 140 144 4 3.6 1.41 RC Area A
DSR495 233170 1429412 175 123 90 -60 NSI         RC Area A
DSR496 233189 1429385 177 191 90 -60 116 120 4 3.6 2.47 RC Area A
              128 138 10 9.0 4.08 RC Area A
            incl 132 133 1 0.9 22.60 RC Area A
DSR497 233213 1429359 175 144 90 -60 NSI         RC Area A
DSR498 233239 1429385 174 150 90 -60 NSI         RC Area A
DSR499 233336 1429612 177 100 90 -60 22 25 3 2.7 3.21 RC Area A
DSR500 233357 1429581 179 120 90 -60 110 115 5 4.5 1.11 RC Area A
DSR501 233328 1429559 177 114 90 -60 NSI         RC Area A
DSR502 233313 1429534 178 126 90 -60 NSI         RC Area A
DSR503 233312 1429482 178 100 90 -60 75 93 18 16.2 7.51 RC Area A
            incl 76 78 2 1.8 19.63 RC Area A
            and 79 80 1 0.9 10.95 RC Area A
            and 84 85 1 0.9 10.15 RC Area A
            and 88 89 1 0.9 12.50 RC Area A
DSR504 233272 1429512 182 140 90 -60 75 77 2 1.8 2.79 RCD Area A
              128 131.5 3.5 3.2 2.29 RCD Area A
DSR505 233309 1429437 175 90 90 -60 NSI         RC Area A
DSR506 233181 1429554 184 193 90 -60 21 23 2 1.8 3.13 RCD Area A
              36 62 26 23.4 2.96 RCD Area A
              71 80 9 8.1 6.65 RCD Area A
            incl 71 72 1 0.9 13.15 RCD Area A
            and 75 76 1 0.9 12.60 RCD Area A
            and 78 79 1 0.9 14.40 RCD Area A
              147 149 2 1.8 2.52 RCD Area A
              171 177 6 5.4 2.11 RCD Area A
            incl 174 175 1 0.9 10.30 RCD Area A
DSR507 233116 1429538 184 168 90 -60 53 64 11 9.9 1.41 RC Area A
              109 129 20 18.0 1.45 RC Area A
            incl 127 128 1 0.9 10.75 RC Area A
DSR508 233078 1429554 185 120 90 -60 NSI         RC Area A
DSR509 233044 1429554 184 102 90 -60 15 33 18 16.2 0.54 RC Area A
DSR510 233082 1429577 183 78 90 -60 NSI         RC Area A
See also  VERSES Completes First Phase of Digital Twins Interoperability Project with JPL

Advertisement 18

Story continues below

Article content

Notes:

  1. EOH: End of hole
  2. NSI: No significant intercepts
  3. ETW: Estimated true width
  4. Depths and widths reported to nearest significant figure

Appendix 3: Yessi vein, San Jose Mine, Mexico

Hole ID Easting
(NAD27_14N)
Northing
(NAD27_14N)
Elevation
(m)
EOH
Depth
(m)
UTM
Azimuth
Dip Depth
From
(m)
Depth
To
(m)
Drilled
Width
(m)
ETW
(m)
Au
(ppm)
Ag
(ppm)
Ag
Eq
(ppm)
Hole Type
SJOM-1348 745297 1847651 1236 308 84 -39 256.32 307.65 55.68 33.3 0.72 90 147 DD
SJOM-1357 745297 1847650 1236 267 92 -26 167.30 190.18 22.88 7.1 1.80 60 204 DD
SJOM-1366A 745297 1847650 1236 868 95 -28 464.10 465.70 1.60 0.2 1.58 195 321 DD
              573.45 592.50 10.45 1.5 0.78 91 153 DD
              599.35 601.90 2.55 0.4 0.75 102 162 DD
              606.55 609.75 3.20 0.4 0.70 96 152 DD
              636.40 643.45 7.05 1.0 1.22 161 258 DD
SJOM-1399 745298 1847649 1237 479 104 -8 131.85 135.60 3.75 0.9 1.22 130 227 DD
SJOM-1404 745298 1847649 1237 433 109 -8 NSI              
SJOM-1408 745298 1847649 1236 540 106 -23 355.35 360.30 1.95 0.3 0.80 74 138 DD
              390.50 395.30 4.40 0.7 1.11 131 219 DD
              396.95 400.35 2.75 0.4 1.05 128 212 DD
              415.75 420.05 3.65 0.2 1.39 175 286 DD
              426.70 430.00 3.30 0.5 1.50 208 328 DD
              471.25 472.3 1.05 0.2 2.40 275 467 DD
SJO-1417 746050 1847647 1543 689 239 -51 579.55 580.35 0.80 0.5 4.61 489 858 DD
              600.35 601.40 1.05 0.6 1.40 140 252 DD
SJOM-1418 745298 1847649 1236 674 107 -30 406.00 407.50 1.50 0.8 1.13 95 185 DD
SJO-1420 746046 1847637 1543 796 237 -61 NSI              
SJOM-1422 745297 1847651 1236 456 91 -15 222.85 225.70 2.85 1.1 0.57 61 106 DD
SJO-1430 745885 1847912 1538 789 190 -61 532.10 533.75 1.65 0.9 0.61 84 133 DD
              593.50 595.65 2.15 1.1 8.26 770 1431 DD
              605.60 608.90 3.30 1.7 0.70 90 146 DD
              668.85 676.75 7.90 4.0 1.25 150 250 DD
              679.95 680.55 0.6 0.3 2.11 170 339 DD
SJOM-1428 745298 1847649 1236 479 114 -10 342.75 400.00 57.25 17.0 2.48 347 545 DD
            Incl 367.55 368.86 1.31 0.4 6.26 620 1121 DD
            and 382.95 384.00 1.05 0.3 1.98 307 465 DD
            and 384.73 386.30 1.57 0.5 11.27 1344 2246 DD
            and 391.85 393.37 1.52 0.5 11.07 1137 2023 DD
            and 393.37 394.50 1.13 0.3 2.50 314 514 DD
            and 394.50 395.33 0.83 0.2 9.42 774 1528 DD
            and 398.42 400.00 1.58 0.5 32.00 5905 8465 DD
SJO-1431 745885 1847912 1538 667 220 -45 554.20 554.50 0.30 0.3 5.38 576 1006 DD
              601.30 607.85 6.55 5.2 1.02 114 195 DD
            incl 602.85 603.15 0.30 0.2 7.16 838 1411 DD
            and 603.45 603.75 0.30 0.2 1.18 146 240 DD
            and 605.55 606.05 0.50 0.4 1.45 147 263 DD
            and 606.05 606.40 0.35 0.3 1.29 136 239 DD

Notes:

  1. EOH: End of hole
  2. NSI: No significant intercepts
  3. ETW: Estimated true width
  4. Ag Eq is calculated using a factor of 80:1 using metal prices of US$1,950/oz for gold with 90% metallurgical recovery and US$24.5/oz for silver with 91% metallurgical recovery
  5. Depths and widths reported to nearest significant decimal place


Article content

Comments

Join the Conversation

This Week in Flyers

Leave a Reply

Your email address will not be published. Required fields are marked *