High Grade Results Continue at Yaouré Gold Mine

PERTH, Western Australia, Jan. 19, 2022 (GLOBE NEWSWIRE) — Perseus Mining Limited (ASX/TSX: PRU) is pleased to report continued exploration success at its Yaouré Gold Mine in Côte d’Ivoire.


HIGHLIGHTS

  • Recent results from Perseus’s ongoing infill and down-dip extension drilling on the CMA structure at Yaouré confirm strong potential for further mineral resources beneath the CMA open pit (“

    CMA Underground prospect

    ”).
  • Infill drilling of the Inferred resource continues to confirm gold mineralisation consistent with previous results from this area, with recent drill intercepts including:


    • YRC1881D: 10m @ 6.61 g/t Au from 236m

    • YRC1883D: 8.10m @ 7.27 g/t Au from 328.10m

    • YRC1903D: 10m @ 3.03 g/t Au from 337, including 3m @ 8.76 g/t Au from 337m

    • YRC1904D: 13m @ 3.77 g/t Au from 294m

    • YRC1905D: 9.8m @ 4.18 g/t Au from 245m

    • YRC1909D: 6m @ 7.57 g/t Au from 304m

    • YRC1911D: 8m @ 4.40 g/t Au from 227m

    • YRC1913D: 6.3m @ 4.52 g/t from 194.7 and 5.1m @ 6.12 g/t from 305.9m

    • YRC1915D: 10.60m @ 4.36 g/t from 271.4m

    • YRC1916D: 4m @ 4.93 g/t Au from 214.4m, 5.2m @ 2.69 g/t Au from 221.7m, 4m @ 4.21 g/t Au from 235m & 13.2m @ 1.31 g/t Au from 242m

    • YRC1947D: 16.2m @ 5.58 g/t Au from 270m

    • YRC2019D: 15m @ 3.49 g/t Au from 268m including 7m @ 4.91 g/t Au from 268m

  • Results returned high-grade intersections in the CMA hanging-wall, reflecting either CMA splays or oblique S-structures:


    • YRC1883D: 1.67m @ 62.29 g/t Au from 314.80m

    • YRC1897D: 4m @ 17.09 g/t Au from 64m

    • YRC1989D: 8m @ 11.42 g/t Au from 60m

    • YRC2047D: 16m @ 3.39 g/t Au from 56m including 4m @ 10.75 g/t Au from 68m

  • Perseus will use results to upgrade the CMA Underground Inferred Mineral Resource estimate to Indicated status, enabling a Pre-Feasibility Study (PFS) for an underground mining operation to be completed by late June 2022, including an initial Ore Reserve estimate.
  • Step-out drilling on the down-dip extensions of the CMA structure also returned encouraging results, including:


    • YRC1850AD: 5m @ 3.93 g/t Au from 605m and 4m @ 3.98 g/t Au from 628m

    • YRC1855D: 11.10m @ 3.39 g/t Au from 450.40m, including 5m @ 7.16 g/t Au from 452m.



Perseus’s Managing Director and CEO Jeff Quartermaine said:


“With our three gold mines, Yaouré, Edikan and Sissingué, now producing gold at an annualised rate of over 500,000 ounces per year, Perseus’s focus has turned to maintaining this level of production out to the end of the current decade and beyond.


“Our latest infill and step out drilling results from below Yaouré’s CMA open pit confirm previous drill results that indicated that material quantities of additional Indicated Mineral Resources, capable of being economically mined using underground mining methods, may be delineated.


“We are aiming to complete a Preliminary Feasibility Study of this mining operation by the end of the June Quarter 2022, however, timing of the completion of this work will depend on the ultimate footprint size of the orebody as determined by the current drilling programme.”


CMA UNDERGROUND RESOURCE DRILLING, YAOURÉ

Perseus focused recent exploration activities on the Yaouré permits at CMA Underground and CMA down-dip extensions within 2 kilometres of the Yaouré mill


(Appendix 1 – Figure 1.1).


Results continue to demonstrate the potential for the Company to materially grow its gold inventory at Yaouré organically, through further drilling success.

As noted in Perseus’s ASX release “Positive Exploration Results at Perseus’s Yaouré Mine” dated 14 October 2021, recent drilling at the CMA Underground prospect focused on infill drilling to firm up previously defined underground resources extending below the currently planned CMA pit. Perseus defined an Inferred Mineral Resource of 1.8 million tonnes grading 6.1 g/t Au, extending to a maximum 275 metre down dip beneath the open pit resource (refer Resources and Reserves ASX announcement 24 August 2021), with potential to extend mineralisation further down dip beyond this


(Appendix 1 – Figure 1.2).


Perseus has also completed a Scoping Study which identified the potential to mine the CMA structure using underground mining methods (refer to “Perseus Mining Completes Scoping Study for Potential Underground Mine at Yaouré” dated 5th November 2018).

Following completion of drilling within the cutback zone of the CMA South open pit, Perseus extended infill drilling north along the CMA structure where grades are generally higher than at the southern end. Drilling during the last quarter comprised 12,437 metres in 56 reverse circulation (“RC”) pre-collared diamond (“DD”) holes, infilling the existing 50 x 50 metres coverage to a nominal 25 x 25 metres pattern to allow conversion of the Inferred resource to Indicated. Results continued to provide encouragement, with intercepts generally consistent with those previously encountered in both thickness and grade


(Appendix 1 – Figures 1.3-1.4)


. Of note has been the presence of 2-3 stacked lodes in places, either as a result of anastomosing of the main lode or structural repetition. This feature has also been noted in the open pit workings, locally significantly increasing the ounces of gold per vertical metre.

The style of mineralisation remains consistent with that encountered previously, comprising pervasive, moderate to strong, pink-pale brown albite and carbonate alteration developed within a well-defined structure marked by quartz carbonate veins, fault veins, multi dilatant fault breccia, cataclasis and shearing.

Better intercepts from the CMA infill drilling are shown in


Table 1


below, with a complete summary of significant results included in


Appendix




2









Table 2.1



.


CMA down-dip DRILLING, YAOURÉ

Perseus stepped up drilling to investigate the next 300 metre down-dip from the current CMA Underground resource, with 9,511 metres drilled in 18 RC pre-collared DD holes. This work focused within the “Magazine Zone” ahead of stocking of the magazine with explosives. The step-out program is also guided by Perseus’s early 2020 3D seismic survey that clearly identified the CMA structure extending to depth beyond the current drill coverage.

Perseus is undertaking drilling on an initial 100 x 200 metres pattern to better define the position of the CMA structure and the intensity of mineralisation. If results are encouraging, this will be infilled to 100 x 100 metres to allow an initial Inferred Mineral Resource Estimate.

Better intercepts from the Yaouré step out drilling are shown in


Table 1


below and in


Appendix 1 – Figures 1.5 & 1.6


, with a complete summary of significant results included in


Appendix




2









Table 2.2



.



Table 1: Intercepts from CMA Underground and CMA Down-dip Drilling


Hole ID


From (m)


To (m)


Gold Intercept


Comment


CMA Underground Resource Drilling

YRC1874D
237.15 245 7.85m @ 3.51 g/t CMA FW lode

YRC1876D
218 227 9m @ 2.63 g/t CMA FW lode

YRC1877D
170.1 172 1.9m @ 3.23 g/t CMA FW lode

YRC1877D
176 177.4 1.4m @ 4.13 g/t CMA FW lode

YRC1878D
285.8 288 2.2m @ 2.84 g/t CMA FW lode

YRC1878D
322 324 2m @ 2.9 g/t CMA FW lode

YRC1878D
338 345 7m @ 2.27 g/t CMA FW lode

YRC1879D
97 99 2m @ 2.27 g/t CMA HW lode

YRC1879D
282.7 286 3.3m @ 1.4 g/t CMA FW lode

YRC1880D
232 242 10m @ 3.71 g/t CMA FW lode

YRC1881D
236 246 10m @ 6.61 g/t CMA FW lode

YRC1882D
298 301 3m @ 3.86 g/t CMA FW lode

YRC1883D
314.8 316.47 1.67m @ 62.29 g/t S-structure

YRC1883D
328.1 336.2 8.1m @ 7.27 g/t CMA FW lode

YRC1885D
282.3 285.3 3m @ 2.04 g/t CMA FW lode

YRC1886D
279 293 14m @ 2.05 g/t CMA FW lode

Including
279 283 4m @ 6.34 g/t CMA FW lode

YRC1887D
297.7 298.8 1.1m @ 7.28 g/t CMA FW lode

YRC1888D
237 241 4m @ 2.17 g/t CMA FW lode

YRC1888D
282 287 5m @ 2.29 g/t CMA FW lode

Including
284 286 2m @ 5.18 g/t CMA FW lode

YRC1889D
283 286 3m @ 2.55 g/t CMA FW lode

YRC1891D
277 291 14m @ 2.83 g/t CMA FW lode

Including
277 286 9m @ 4.06 g/t CMA FW lode

YRC1897D
64 68 4m @ 17.09 g/t CMA HW Splay

YRC1899D
285 287 2m @ 8.58 g/t CMA FW lode

YRC1899D
295 297 2m @ 4.15 g/t CMA FW lode

YRC1900D
235 237 2m @ 2.48 g/t CMA FW lode

YRC1902D
280 288 8m @ 4.24 g/t CMA FW lode

YRC1903D
337 347 10m @ 3.03 g/t CMA FW lode

Including
337 340 3m @ 8.76 g/t CMA FW lode

YRC1904D
52 56 4m @ 8.14 g/t CMA HW Splay

YRC1904D
294 307 13m @ 3.77 g/t CMA FW lode

YRC1905D
245 254.8 9.8m @ 4.18 g/t CMA FW lode

YRC1906D
256 268 12m @ 3.16 g/t CMA FW lode

YRC1907D
255 262 7m @ 2.06 g/t CMA FW lode

Including
255 259 4m @ 3.48 g/t CMA FW lode

YRC1908D
289 291 2m @ 2.3 g/t CMA FW lode

YRC1909D
304 310 6m @ 7.57 g/t CMA FW lode

YRC1911D
227 235 8m @ 4.4 g/t CMA FW lode

YRC1912AD
240 244.3 4.3m @ 8.83 g/t CMA FW lode

YRC1913D
194 204 10m @ 2.95 g/t CMA FW lode

Including
194.7 201 6.3m @ 4.52 g/t CMA FW lode

YRC1913D
302 314 12m @ 2.82 g/t CMA FW lode

Including
305.9 311 5.1m @ 6.12 g/t CMA FW lode

YRC1914D
257 264 7m @ 4.82 g/t CMA FW lode

YRC1915D
165 167 2m @ 2.27 g/t CMA HW Splay

YRC1915D
271.4 282 10.6m @ 4.36 g/t CMA FW lode

YRC1916D
214.4 218.4 4m @ 4.93 g/t CMA FW lode

YRC1916D
221.7 226.9 5.2m @ 2.69 g/t CMA FW lode

YRC1916D
235 239 4m @ 4.21 g/t CMA FW lode

YRC1918D
261 263.1 2.1m @ 3.53 g/t CMA FW lode

YRC1921D
56 60 4m @ 2.67 g/t CMA HW Splay

YRC1922D
229 239.5 10.5m @ 4.36 g/t CMA FW lode

YRC1923D
258 267 9m @ 3.22 g/t CMA FW lode

YRC1929D
342.6 348 5.4m @ 2.16 g/t CMA FW lode

YRC1938D
281 286 5m @ 3.5 g/t CMA FW lode

YRC1939D
257 261 4m @ 2.1 g/t CMA FW lode

YRC1943D
314 320 6m @ 2.29 g/t CMA FW lode

YRC1943D
336.65 340 3.35m @ 5.87 g/t CMA FW lode

YRC1945D
305.8 312 6.2m @ 4.62 g/t CMA FW lode

YRC1945D
327 331.6 4.6m @ 3.64 g/t CMA FW lode

YRC1946D
267.6 270 2.4m @ 4.69 g/t CMA FW lode

YRC1946D
276 282 6m @ 5.26 g/t CMA FW lode

YRC1946D
285 288 3m @ 3.69 g/t CMA FW lode

YRC1947D
270 286.2 16.2m @ 5.58 g/t CMA FW lode

YRC1963D
290 296 6m @ 4.18 g/t CMA FW lode

YRC1989D
60 68 8m @ 11.42 g/t CMA HW Splay

YRC1990D
72 76 4m @ 3.75 g/t CMA HW Splay

YRC2005D
56 60 4m @ 3.08 g/t CMA HW Splay

YRC2019D
268 283 15m @ 3.49 g/t CMA FW lode

YRC2044D
278.4 284.6 6.2m @ 2.99 g/t CMA FW lode

YRC2045D
271 273 2m @ 4.36 g/t CMA FW lode

YRC2045D
278 283 5m @ 3.44 g/t CMA FW lode

YRC2047D
56 72 16m @ 3.39 g/t CMA HW Splay

Including
68 72 4m @ 10.75 g/t CMA HW Splay

YRC2047D
138.3 142 3.7m @ 3.11 g/t CMA FW lode

CMA Down-dip Drilling

YRC1850AD
604 612 8m @ 2.64 g/t CMA FW lode

Including
605 610 5m @ 3.93 g/t CMA FW lode

YRC1850AD
625 632 7m @ 2.52 g/t CMA FW lode

Including
628 632 4m @ 3.98 g/t CMA FW lode

YRC1854D
193 196 3m @ 1.87 g/t CMA HW Splay

Including
194 196 2m @ 2.59 g/t CMA HW Splay

YRC1855AD
450.4 461.5 11.1m @ 3.39 g/t CMA FW lode

Including
452 457 5m @ 7.16 g/t CMA FW lode

YRC1857D
464 470 6m @ 2.32 g/t CMA FW lode

YRC1858D
479 487 8m @ 2.22 g/t CMA FW lode

Including
482 485 3m @ 5.07 g/t CMA FW lode

YRC1859D
473 477 4m @ 2.2 g/t CMA FW lode

YRC1861D
549 555 6m @ 2.48 g/t CMA FW lode

Including
550 552 2m @ 6.9 g/t CMA FW lode

YRC1871D
532 534 2m @ 6.32 g/t CMA FW lode

YRC1871D
549 551 2m @ 2.66 g/t CMA FW lode

YRC2033D
586 588 2m @ 2.13 g/t CMA FW lode

YRC2043D
60 64 4m @ 3.8 g/t CMA HW Splay


NEXT STEPS AT CMA

Perseus’s ongoing exploration and study programmes at Yaouré will focus on:

  • Continuation of drilling to convert the Inferred Resource at CMA to an Ore Reserve to be potentially exploited by underground mining methods and drilling down dip of the Inferred Resource to identify the potential for further resource extensions.

    Perseus is completing drilling to convert the Inferred CMA resource to an Ore Reserve as the first part of a Pre-Feasibility Study (PFS). Geotechnical, hydrological, mining and metallurgical studies have commenced as drilling and assaying results become available. Target completion for the PFS remains the end of the June Quarter 2022, with timing dependent on the ultimate footprint size of the orebody.

  • Continuation of drill testing of targets generated from the 3D seismic survey, with an initial focus on near-surface targets.
  • Aircore drilling and augering at early-stage regional prospects such as Degbezere NE.



This announcement has been approved for release by Perseus’s Managing Director and Chief Executive Officer, Jeff Quartermaine.



Competent




Person




Statement:




The information in this report and the attachments that relate to exploration drilling results at the Yaouré Project is based on, and fairly represents, information and supporting documentation prepared by Dr Douglas Jones, a Competent Person who is a Chartered Professional Geologist. Dr Jones is the Group General Manager Exploration of the Company. Dr Jones has sufficient experience, which is relevant to the style of mineralisation and type of deposit under consideration and to the activity being undertaken, to qualify as a Competent Person as defined in the 2012 Edition of the ‘Australasian Code for Reporting of Exploration Results, Mineral Resources and Ore Reserves’”) and to qualify as a “Qualified Person” under National Instrument 43-101 – Standards of Disclosure for Mineral Projects (“NI 43-101”). Dr Jones consents to the inclusion in this report of the matters based on his information in the form and context in which it appears.



Caution




Regarding




Forward




Looking Information:




This report contains forward-looking information which is based on the assumptions, estimates, analysis and opinions of management made in light of its experience and its perception of trends, current conditions and expected developments, as well as other factors that management of the Company believes to be relevant and reasonable in the circumstances at the date that such statements are made, but which may prove to be incorrect. Assumptions have been made by the Company regarding, among other things: the price of gold, continuing commercial production at the Yaouré Gold Mine, the Edikan Gold Mine and the Sissingué Gold Mine without any major disruption due to the COVID-19 pandemic or otherwise, the receipt of required governmental approvals, the accuracy of capital and operating cost estimates, the ability of the Company to operate in a safe, efficient and effective manner and the ability of the Company to obtain financing as and when required and on reasonable terms. Readers are cautioned that the foregoing list is not exhaustive of all factors and assumptions which may have been used by the Company. Although management believes that the assumptions made by the Company and the expectations represented by such information are reasonable, there can be no assurance that the forward-looking information will prove to be accurate. Forward-looking information involves 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 anticipated future results, performance or achievements expressed or implied by such forward-looking information. Such factors include, among others, the actual market price of gold, the actual results of current exploration, the actual results of future exploration, changes in project parameters as plans continue to be evaluated, as well as those factors disclosed in the Company’s publicly filed documents. The Company believes that the assumptions and expectations reflected in the forward-looking information are reasonable. Assumptions have been made regarding, among other things, the Company’s ability to carry on its exploration and development activities, the timely receipt of required approvals, the price of gold, the ability of the Company to operate in a safe, efficient and effective manner and the ability of the Company to obtain financing as and when required and on reasonable terms. Readers should not place undue reliance on forward-looking information. Perseus does not undertake to update any forward-looking information, except in accordance with applicable securities laws.







ASX/TSX CODE: PRU


REGISTERED OFFICE:

Level 2

437 Roberts Road

Subiaco WA 6008

Telephone: +61 8 6144 1700

Email:

[email protected]



www.perseusmining.com


CONTACTS:


Jeff Quartermaine


Managing Director & CEO



[email protected]


Nathan Ryan


Media Relations


+61 4 20 582 887


[email protected]


Claire Hall


Corporate Communications



[email protected]


APPENDIX 1 – FIGURES



Figure 1.1: Yaouré Gold Project – Tenements and Prospects



available at


https://www.globenewswire.com/NewsRoom/AttachmentNg/934a845a-c310-4a17-bd62-6d89e36f3838






Figure 1.2: CMA Underground Resource Drilling and Results Summary available at



https://www.globenewswire.com/NewsRoom/AttachmentNg/ab386cda-1edd-4f78-bad8-a70fae422919



Figure 1.3: CMA Underground Resource – Long Section available at



https://www.globenewswire.com/NewsRoom/AttachmentNg/9c240f09-528a-4ddb-b0fc-32f402ccb69f



Figure 1.4: CMA Underground Resource – Drill Section 777485mN available at



https://www.globenewswire.com/NewsRoom/AttachmentNg/62f49aad-d19b-4859-8060-7df7d192d9a2



Figure 1.5: CMA Down-Dip Extensions Drilling & Results Summary available at



https://www.globenewswire.com/NewsRoom/AttachmentNg/a6145463-df02-4f1f-8037-83b6ef9890c1



Figure 1.6: CMA Down-Dip Extensions Drilling – Drill Section 777435mN available at



https://www.globenewswire.com/NewsRoom/AttachmentNg/2fa6858e-a513-4b9c-815d-43926d99c126


APPENDIX 2 – SIGNIFICANT INTERCEPTS TABLES



Table 2.1: CMA Underground Resource Drilling – drill holes and significant assays


(Based on lower cut-off of 0.5 g/t Au with maximum 2m internal waste <0.5 g/t)




Hole ID









East


North


Drill Type


Azimuth


Dip


Depth


No of samples


From


To


Width


Grade


YRC1874D
221644.55 777035.52 RC_DD 270
-60
253.5 1 16 20
4
0.22

YRC1874D
221644.55 777035.52 RC_DD 270
-60
253.5 10 154.6 163
8.4
0.45

YRC1874D
221644.55 777035.52 RC_DD 270
-60
253.5 3 170.8 173
2.2
0.42

YRC1874D
221644.55 777035.52 RC_DD 270
-60
253.5 7 178 185
7
0.41

YRC1874D
221644.55 777035.52 RC_DD 270
-60
253.5 5 191.7 196
4.3
0.37

YRC1874D
221644.55 777035.52 RC_DD 270
-60
253.5 2 204 206
2
0.37

YRC1874D
221644.55 777035.52 RC_DD 270
-60
253.5 8 237.2 245
7.85
3.51

YRC1875D
221701.84 777035.19 RC_DD 270
-60
270.7 2 74 76
2
0.57

YRC1875D
221701.84 777035.19 RC_DD 270
-60
270.7 2 118 120
2
0.32

YRC1875D
221701.84 777035.19 RC_DD 270
-60
270.7 10 133 141.3
8.3
3.49

YRC1875D
221701.84 777035.19 RC_DD 270
-60
270.7 4 158 161.15
3.15
0.46

YRC1875D
221701.84 777035.19 RC_DD 270
-60
270.7 4 196 200
4
0.47

YRC1875D
221701.84 777035.19 RC_DD 270
-60
270.7 2 264 266
2
0.7

YRC1876D
221631.3 776985.27 RC_DD 270
-60
240.4 1 16 20
4
0.29

YRC1876D
221631.3 776985.27 RC_DD 270
-60
240.4 1 28 32
4
0.27

YRC1876D
221631.3 776985.27 RC_DD 270
-60
240.4 1 40 44
4
0.23

YRC1876D
221631.3 776985.27 RC_DD 270
-60
240.4 3 180 183
3
0.4

YRC1876D
221631.3 776985.27 RC_DD 270
-60
240.4 4 204 208
4
0.3

YRC1876D
221631.3 776985.27 RC_DD 270
-60
240.4 12 216 228
12
2.01

YRC1877D
221859.52 776985.28 RC_DD 270
-60
387.7 2 0 8
8
0.57

YRC1877D
221859.52 776985.28 RC_DD 270
-60
387.7 6 124 130
6
0.62

YRC1877D
221859.52 776985.28 RC_DD 270
-60
387.7 2 138 140
2
0.24

YRC1877D
221859.52 776985.28 RC_DD 270
-60
387.7 2 144 146
2
0.34

YRC1877D
221859.52 776985.28 RC_DD 270
-60
387.7 14 166 177.4
11.4
1.33
Including
2 170.1
172
1.9 3.23
Including
2 176 177.4
1.4
4.13

YRC1877D
221859.52 776985.28 RC_DD 270
-60
387.7 5 237 242
5
0.69

YRC1877D
221859.52 776985.28 RC_DD 270
-60
387.7 6 257 262
5
0.28

YRC1877D
221859.52 776985.28 RC_DD 270
-60
387.7 5 268.8 273
4.2
0.98

YRC1878D
221790.83 776984.8 RC_DD 270
-60
354.3 1 16 20
4
0.43

YRC1878D
221790.83 776984.8 RC_DD 270
-60
354.3 33 268.2 298
29.8
0.7

Including
285.8 288
2.2
2.84

YRC1878D
221790.83 776984.8 RC_DD 270
-60
354.3 17 307 324
17
0.9

Including
322 324
2
2.9

YRC1878D
221790.83 776984.8 RC_DD 270
-60
354.3 2 329 331
2
2.27

YRC1878D
221790.83 776984.8 RC_DD 270
-60
354.3 7 338 345
7
2.27

YRC1879D
221862.13 776984.86 RC_DD 270
-60
396.7 1 0 4
4
0.4

YRC1879D
221862.13 776984.86 RC_DD 270
-60
396.7 4 97 101
4
1.21

Including
2 97 99
2
2.27

YRC1879D
221862.13 776984.86 RC_DD 270
-60
396.7 2 137 139
2
0.85

YRC1879D
221862.13 776984.86 RC_DD 270
-60
396.7 13 256 269
13
0.67

YRC1879D
221862.13 776984.86 RC_DD 270
-60
396.7 4 282.7 286
3.3
1.4

YRC1880D
221647.19 776934.85 RC_DD 270
-55
254.9 2 153 155
2
0.52

YRC1880D
221647.19 776934.85 RC_DD 270
-55
254.9 3 159 162
3
0.66

YRC1880D
221647.19 776934.85 RC_DD 270
-55
254.9 12 232 242
10
3.71

Including
10 232 240
8
4.52

YRC1881D
221650.05 776935.02 RC_DD 270
-60
255.6 2 44 52
8
0.43

YRC1881D
221650.05 776935.02 RC_DD 270
-60
255.6 1 64 68
4
0.72

YRC1881D
221650.05 776935.02 RC_DD 270
-60
255.6 10 236 246
10
6.61

YRC1882D
221862.21 776935.01 RC_DD 270
-65
378.3 1 0 4
4
0.39

YRC1882D
221862.21 776935.01 RC_DD 270
-65
378.3 3 298 301
3
3.86

YRC1882D
221862.21 776935.01 RC_DD 270
-65
378.3 6 321 327
6
0.99

YRC1882D
221862.21 776935.01 RC_DD 270
-65
378.3 6 330 336
6
0.66

YRC1883D
221780.17 776884.96 RC_DD 270
-50
354.7 2 0 8
8
0.36

YRC1883D
221780.17 776884.96 RC_DD 270
-50
354.7 9 328.1 336.2
8.1
7.27

YRC1884D
221785.13 776884.89 RC_DD 270
-65
346.8 1 0 4
4
0.38

YRC1884D
221785.13 776884.89 RC_DD 270
-65
346.8 4 142.5 146.7
4.2
0.68

YRC1884D
221785.13 776884.89 RC_DD 270
-65
346.8 25 269 294
25
0.54

YRC1884D
221785.13 776884.89 RC_DD 270
-65
346.8 23 316.4 339
22.6
0.85

YRC1885D
221713.76 776835.11 RC_DD 270
-60
301.9 1 0 4
4
0.28

YRC1885D
221713.76 776835.11 RC_DD 270
-60
301.9 1 56 60
4
0.42

YRC1885D
221713.76 776835.11 RC_DD 270
-60
301.9 8 279 287.3
8.3
0.91

Including
282.3 285.3
3
2.04

YRC1886D
221719.48 776785.18 RC_DD 270
-55
297 2 0 8
8
0.45

YRC1886D
221719.48 776785.18 RC_DD 270
-55
297 1 44 48
4
0.39

YRC1886D
221719.48 776785.18 RC_DD 270
-55
297 2 188 190
2
0.28

YRC1886D
221719.48 776785.18 RC_DD 270
-55
297 14 279 293
14
2.05

Including
4 279 283
4
6.34

YRC1887D
221723.44 776785.23 RC_DD 270
-65
303.2 2 0 8
8
0.27

YRC1887D
221723.44 776785.23 RC_DD 270
-65
303.2 1 40 44
4
0.49

YRC1887D
221723.44 776785.23 RC_DD 270
-65
303.2 1 72 76
4
0.5

YRC1887D
221723.44 776785.23 RC_DD 270
-65
303.2 2 249.5 251.5
2
0.67

YRC1887D
221723.44 776785.23 RC_DD 270
-65
303.2 10 288.5 298.8
10.3
1.33

Including
297.7 298.8
1.1
7.28

YRC1888D
221718.75 776735.16 RC_DD 270
-55
300.4 2 0 8
8
0.31

YRC1888D
221718.75 776735.16 RC_DD 270
-55
300.4 8 203 211
8
0.22

YRC1888D
221718.75 776735.16 RC_DD 270
-55
300.4 7 222 227
5
1.26

YRC1888D
221718.75 776735.16 RC_DD 270
-55
300.4 5 237 241
4
2.17

YRC1888D
221718.75 776735.16 RC_DD 270
-55
300.4 5 282 287
5
2.29

Including
284 286
2
5.18

YRC1889D
221714.49 776735.05 RC_DD 270
-45
300.1 2 0 8
8
0.46

YRC1889D
221714.49 776735.05 RC_DD 270
-45
300.1 2 249 251
2
0.59

YRC1889D
221714.49 776735.05 RC_DD 270
-45
300.1 7 282 289
7
1.35

Including
283 286
3
2.55

YRC1890D
221699.21 776685.04 RC_DD 270
-45
285 2 0 8
8
0.7

YRC1890D
221699.21 776685.04 RC_DD 270
-45
285 1 64 68
4
0.28

YRC1890D
221699.21 776685.04 RC_DD 270
-45
285 7 225 231
6
0.78

YRC1890D
221699.21 776685.04 RC_DD 270
-45
285 4 274 278
4
0.64

YRC1891D
221709.7 776834.9 RC_DD 270
-45
302.2 1 0 4
4
0.25

YRC1891D
221709.7 776834.9 RC_DD 270
-45
302.2 14 277 291
14
2.83

Including
277 286
9
4.06

YRC1892D
221649.74 776584.57 RC_DD 270
-65
252.1 1 44 48
4
0.4

YRC1892D
221649.74 776584.57 RC_DD 270
-65
252.1 1 72 76
4
0.29

YRC1892D
221649.74 776584.57 RC_DD 270
-65
252.1 3 227 230
3
1.45

YRC1893D
221658.13 776534.89 RC_DD 270
-55
267.8 1 4 8
4
0.72

YRC1893D
221658.13 776534.89 RC_DD 270
-55
267.8 2 28 36
8
0.77

YRC1893D
221658.13 776534.89 RC_DD 270
-55
267.8 1 44 48
4
0.26

YRC1893D
221658.13 776534.89 RC_DD 270
-55
267.8 2 112 114
2
0.2

YRC1893D
221658.13 776534.89 RC_DD 270
-55
267.8 3 240 243
3
1.59

YRC1893D
221658.13 776534.89 RC_DD 270
-55
267.8 5 247 252
5
0.56

YRC1894D
221662.28 776534.95 RC_DD 270
-65
275.9 1 8 12
4
0.3

YRC1894D
221662.28 776534.95 RC_DD 270
-65
275.9 1 16 20
4
1.11

YRC1894D
221662.28 776534.95 RC_DD 270
-65
275.9 11 161 172
11
0.81

YRC1894D
221662.28 776534.95 RC_DD 270
-65
275.9 9 176 185
9
0.36

YRC1894D
221662.28 776534.95 RC_DD 270
-65
275.9 3 237 240
3
0.88

YRC1895D
221821.37 777036.08 RC_DD 270
-65
369.5 1 28 32
4
1.05

YRC1895D
221821.37 777036.08 RC_DD 270
-65
369.5 1 56 60
4
0.22

YRC1895D
221821.37 777036.08 RC_DD 270
-65
369.5 5 140 144
4
0.43

YRC1895D
221821.37 777036.08 RC_DD 270
-65
369.5 2 335 337
2
2.95

YRC1895D
221821.37 777036.08 RC_DD 270
-65
369.5 6 357 362
5
1.94

YRC1896D
221776.01 777035.1 RC_DD 270
-65
327.3 1 12 16
4
0.25

YRC1896D
221776.01 777035.1 RC_DD 270
-65
327.3 2 310 312
2
0.52

YRC1897D
221569.43 776484.82 RC_DD 270
-55
210.7 1 4 8
4
0.22

YRC1897D
221569.43 776484.82 RC_DD 270
-55
210.7 1 12 16
4
0.36

YRC1897D
221569.43 776484.82 RC_DD 270
-55
210.7 1 56 60
4
0.93

YRC1897D
221569.43 776484.82 RC_DD 270
-55
210.7 1 64 68
4
17.09

YRC1897D
221569.43 776484.82 RC_DD 270
-55
210.7 2 144 146
2
0.42

YRC1897D
221569.43 776484.82 RC_DD 270
-55
210.7 5 196 201
5
0.58

YRC1898D
221572.09 776484.99 RC_DD 270
-65
219.7 2 0 8
8
0.43

YRC1898D
221572.09 776484.99 RC_DD 270
-65
219.7 2 108 110
2
0.8

YRC1898D
221572.09 776484.99 RC_DD 270
-65
219.7 4 154 158
4
0.23

YRC1898D
221572.09 776484.99 RC_DD 270
-65
219.7 3 173.3 176
2.7
0.57

YRC1898D
221572.09 776484.99 RC_DD 270
-65
219.7 7 180 186
6
0.47

YRC1898D
221572.09 776484.99 RC_DD 270
-65
219.7 9 196 205
9
0.68

YRC1899D
221741.49 777135.16 RC_DD 270
-65
312.7 1 40 44
4
0.45

YRC1899D
221741.49 777135.16 RC_DD 270
-65
312.7 2 285 287
2
8.58

YRC1899D
221741.49 777135.16 RC_DD 270
-65
312.7 9 294 303
9
1.29

Including
295 297
2
4.15

YRC1900D
221619.77 777184.91 RC_DD 270
-60
253.3 2 125 127
2
1.18

YRC1900D
221619.77 777184.91 RC_DD 270
-60
253.3 4 234 238
4
1.49

Including
235 237
2
2.48

YRC1901AD
221657.27 777185.2 RC_DD 270
-60
271.2 4 105 108
3
1.03

YRC1901AD
221657.27 777185.2 RC_DD 270
-60
271.2 6 252 258
6
0.72

YRC1902D
221711.18 777084.89 RC_DD 270
-63
300 1 0 4
4
1.44

YRC1902D
221711.18 777084.89 RC_DD 270
-63
300 1 60 64
4
0.2

YRC1902D
221711.18 777084.89 RC_DD 270
-63
300 16 277 293
16
2.27

Including
280 288
8
4.24

YRC1903D
221819.58 777084.87 RC_DD 270
-58
363.2 2 0 8
8
0.41

YRC1903D
221819.58 777084.87 RC_DD 270
-58
363.2 2 154 156
2
0.78

YRC1903D
221819.58 777084.87 RC_DD 270
-58
363.2 15 337 352
15
2.71

Including
337 347
10
3.03

YRC1904D
221765.22 777185.04 RC_DD 270
-71
327.2 1 36 40
4
0.4

YRC1904D
221765.22 777185.04 RC_DD 270
-71
327.2 1 52 56
4
8.14

YRC1904D
221765.22 777185.04 RC_DD 270
-71
327.2 2 85 87
2
0.46

YRC1904D
221765.22 777185.04 RC_DD 270
-71
327.2 13 294 307
13
3.77

Including
296 307
11
4.33

YRC1905D
221663.62 777285.32 RC_DD 270
-73
267.3 4 199 203
4
0.46

YRC1905D
221663.62 777285.32 RC_DD 270
-73
267.3 11 245 254.8
9.8
4.18

YRC1906D
221670.08 777334.56 RC_DD 270
-56
283.3 2 250 252
2
0.4

YRC1906D
221670.08 777334.56 RC_DD 270
-56
283.3 12 256 268
12
3.16

YRC1907D
221672.47 777334.47 RC_DD 270
-63
270.9 7 255 262
7
2.06

Including
255 259
4
3.48

YRC1907D
221672.47 777334.47 RC_DD 270
-63
270.9 2 266 268
2
0.24

YRC1908D
221738.52 777334.39 RC_DD 270
-70
306.2 1 36 40
4
0.23

YRC1908D
221738.52 777334.39 RC_DD 270
-70
306.2 6 125 131
6
0.88

YRC1908D
221738.52 777334.39 RC_DD 270
-70
306.2 2 289 291
2
2.3

YRC1909D
221762 777385.29 RC_DD 270
-66
315.4 2 168 170
2
0.72

YRC1909D
221762 777385.29 RC_DD 270
-66
315.4 6 304 310
6
7.57

Including
304 309
5
9.02

YRC1911D
221619.49 777434.94 RC_DD 270
-61
255.7 6 8 32
24
0.48

YRC1911D
221619.49 777434.94 RC_DD 270
-61
255.7 8 227 235
8
4.4

Including
227 232
5
6.85

YRC1911D
221619.49 777434.94 RC_DD 270
-61
255.7 11 238 249.4
11.4
0.3

YRC1911D
221619.49 777434.94 RC_DD 270
-61
255.7 2 252.5 254.6
2.1
0.76

YRC1912AD
221650.57 777435.08 RC_DD 270
-62
267.3 1 20 24
4
0.29

YRC1912AD
221650.57 777435.08 RC_DD 270
-62
267.3 4 240 244.3
4.3
8.83

YRC1913D
221761.56 777434.93 RC_DD 270
-62
317.9 2 134 136
2
0.5

YRC1913D
221761.56 777434.93 RC_DD 270
-62
317.9 11 194 204
10
2.95

Including
194.7 201
6.3
4.52

YRC1913D
221761.56 777434.93 RC_DD 270
-62
317.9 12 302 314
12
2.82

Including
305.9 311
5.1
6.12

YRC1914D
221669.2 777485.08 RC_DD 270
-59
270.9 3 168 171
3
0.45

YRC1914D
221669.2 777485.08 RC_DD 270
-59
270.9 8 257 264
7
4.82

YRC1914D
221669.2 777485.08 RC_DD 270
-59
270.9 4 267 270.9
3.9
0.22

YRC1915D
221700.01 777484.96 RC_DD 270
-61
294.7 1 8 12
4
0.23

YRC1915D
221700.01 777484.96 RC_DD 270
-61
294.7 1 48 52
4
0.26

YRC1915D
221700.01 777484.96 RC_DD 270
-61
294.7 2 165 167
2
2.27

YRC1915D
221700.01 777484.96 RC_DD 270
-61
294.7 2 180 182
2
0.23

YRC1915D
221700.01 777484.96 RC_DD 270
-61
294.7 11 271.4 282
10.6
4.36

YRC1916D
221564.91 777535.38 RC_DD 270
-61
261.3 3 44 56
12
0.37

YRC1916D
221564.91 777535.38 RC_DD 270
-61
261.3 14 213.2 226.9
13.7
2.6

Including
214.4 218.4
4
4.93

Including
221.7 226.9
5.2
2.69

YRC1916D
221564.91 777535.38 RC_DD 270
-61
261.3 32 229 261.3
32.3
1.24

YRC1917AD
221679.78 776634.68 RC_DD 270
-59
267.7 1 0 4
4
0.2

YRC1917AD
221679.78 776634.68 RC_DD 270
-59
267.7 2 91 93
2
1.77

YRC1917AD
221679.78 776634.68 RC_DD 270
-59
267.7 2 252 254
2
0.73

YRC1918D
221709.67 777534.61 RC_DD 270
-70
272.2 1 0 4
4
0.37

YRC1918D
221709.67 777534.61 RC_DD 270
-70
272.2 2 68 76
8
0.95

YRC1918D
221709.67 777534.61 RC_DD 270
-70
272.2 3 107.4 110
2.6
1.3

YRC1918D
221709.67 777534.61 RC_DD 270
-70
272.2 8 257 263.1
6.1
1.61

Including
261 263.1
2.1
3.53

YRC1922D
221639.72 777034.48 RC_DD 270
-60
249.2 1 4 8
4
0.2

YRC1922D
221639.72 777034.48 RC_DD 270
-60
249.2 5 177.2 181.9
4.7
0.33

YRC1922D
221639.72 777034.48 RC_DD 270
-60
249.2 3 216.2 219.2
3
0.55

YRC1922D
221639.72 777034.48 RC_DD 270
-60
249.2 21 225.7 246.2
20.5
2.56

Including
229 239.5
10.5
4.36

YRC1923D
221699.12 777034.43 RC_DD 270
-60
270.1 3 107 109.4
2.4
0.36

YRC1923D
221699.12 777034.43 RC_DD 270
-60
270.1 4 112 116
4
0.39

YRC1923D
221699.12 777034.43 RC_DD 270
-60
270.1 3 119 121.4
2.4
0.31

YRC1923D
221699.12 777034.43 RC_DD 270
-60
270.1 10 141 149
8
0.23

YRC1923D
221699.12 777034.43 RC_DD 270
-60
270.1 7 155.3 162
6.75
0.34

YRC1923D
221699.12 777034.43 RC_DD 270
-60
270.1 4 188 192
4
0.45

YRC1923D
221699.12 777034.43 RC_DD 270
-60
270.1 4 197.7 201
3.3
1.48

YRC1923D
221699.12 777034.43 RC_DD 270
-60
270.1 7 204 211
7
0.34

YRC1923D
221699.12 777034.43 RC_DD 270
-60
270.1 10 258 267
9
3.22

YRC1925D
221859.83 776934.23 RC_DD 270
-67
377 1 0 4
4
0.45

YRC1925D
221859.83 776934.23 RC_DD 270
-67
377 32 316.9 347.2
30.3
0.8

YRC1925D
221859.83 776934.23 RC_DD 270
-67
377 4 355 359
4
0.5

YRC1926D
221712.03 776834.49 RC_DD 270
-58
297.3 2 0 8
8
0.27

YRC1926D
221712.03 776834.49 RC_DD 270
-58
297.3 4 141.4 144
2.6
1.43

YRC1926D
221712.03 776834.49 RC_DD 270
-58
297.3 5 265 270
5
1.3

YRC1926D
221712.03 776834.49 RC_DD 270
-58
297.3 12 277 288.2
11.2
0.81

YRC1926D
221712.03 776834.49 RC_DD 270
-58
297.3 8 291 297.3
6.3
0.77

YRC1927D
221716.46 776834.78 RC_DD 270
-68
303.3 1 0 4
4
0.39

YRC1927D
221716.46 776834.78 RC_DD 270
-68
303.3 2 260.3 262.5
2.2
0.76

YRC1927D
221716.46 776834.78 RC_DD 270
-68
303.3 2 277.7 279.7
2
0.53

YRC1927D
221716.46 776834.78 RC_DD 270
-68
303.3 7 284.9 291.3
6.4
1.18

YRC1928D
221789.84 776984.54 RC_DD 270
-59
342 1 68 72
4
0.21

YRC1928D
221789.84 776984.54 RC_DD 270
-59
342 3 335.6 338.1
2.5
2.34

YRC1929D
221793.3 776985.16 RC_DD 270
-68
360.1 1 12 16
4
0.53

YRC1929D
221793.3 776985.16 RC_DD 270
-68
360.1 6 238.9 243.5
4.65
1.02

YRC1929D
221793.3 776985.16 RC_DD 270
-68
360.1 4 245.6 248
2.4
0.9

YRC1929D
221793.3 776985.16 RC_DD 270
-68
360.1 9 261 268.9
7.9
0.49

YRC1929D
221793.3 776985.16 RC_DD 270
-68
360.1 2 328 330
2
2

YRC1929D
221793.3 776985.16 RC_DD 270
-68
360.1 12 337 348
11
1.21

Including
342.6 348
5.4
2.16

YRC1929D
221793.3 776985.16 RC_DD 270
-68
360.1 3 353 355
2
1.97

YRC1938D
221721.76 776784.57 RC_DD 270
-63
297.5 2 0 8
8
0.38

YRC1938D
221721.76 776784.57 RC_DD 270
-63
297.5 1 44 48
4
0.75

YRC1938D
221721.76 776784.57 RC_DD 270
-63
297.5 1 64 68
4
0.43

YRC1938D
221721.76 776784.57 RC_DD 270
-63
297.5 5 281 286
5
3.5

YRC1939D
221716.49 776734.95 RC_DD 270
-55
296 2 0 8
8
0.29

YRC1939D
221716.49 776734.95 RC_DD 270
-55
296 4 257 261
4
2.1

YRC1939D
221716.49 776734.95 RC_DD 270
-55
296 5 285 290
5
0.35

YRC1940D
221701.83 776684.41 RC_DD 270
-66
288.4 2 0 8
8
0.48

YRC1940D
221701.83 776684.41 RC_DD 270
-66
288.4 3 132 135
3
0.76

YRC1940D
221701.83 776684.41 RC_DD 270
-66
288.4 4 183 187
4
1.36

YRC1940D
221701.83 776684.41 RC_DD 270
-66
288.4 6 273 279
6
0.53

YRC1943D
221779.59 776934.95 RC_DD 270
-66
348.2 2 0 8
8
0.28

YRC1943D
221779.59 776934.95 RC_DD 270
-66
348.2 1 28 32
4
0.51

YRC1943D
221779.59 776934.95 RC_DD 270
-66
348.2 1 40 44
4
0.22

YRC1943D
221779.59 776934.95 RC_DD 270
-66
348.2 5 104.2 109
4.8
0.56

YRC1943D
221779.59 776934.95 RC_DD 270
-66
348.2 2 284 286
2
0.44

YRC1943D
221779.59 776934.95 RC_DD 270
-66
348.2 2 308 310
2
0.46

YRC1943D
221779.59 776934.95 RC_DD 270
-66
348.2 15 313.1 326.4
13.3
1.44

Including
314 320
6
2.29

YRC1943D
221779.59 776934.95 RC_DD 270
-66
348.2 13 329 341
12
2.01

YRC1945D
221782.44 776884.65 RC_DD 270
-64
341.2 1 0 4
4
0.52

YRC1945D
221782.44 776884.65 RC_DD 270
-64
341.2 2 290 292
2
1.42

YRC1945D
221782.44 776884.65 RC_DD 270
-64
341.2 7 305.8 312
6.2
4.62

YRC1945D
221782.44 776884.65 RC_DD 270
-64
341.2 9 324.8 332.2
7.4
2.51

Including
327 331.6
4.6
3.64

YRC1946D
221717.4 776934.99 RC_DD 270
-70
291.8 4 267.6 270
2.4
4.69

YRC1946D
221717.4 776934.99 RC_DD 270
-70
291.8 17 275 291.8
16.8
2.72

Including
276 282
6
5.26

Including
285 288
3
3.69

YRC1947D
221715.51 776934.8 RC_DD 270
-65
294.4 1 0 4
4
0.23

YRC1947D
221715.51 776934.8 RC_DD 270
-65
294.4 2 125 127
2
0.21

YRC1947D
221715.51 776934.8 RC_DD 270
-65
294.4 17 270 286.2
16.2
5.58

YRC1947D
221715.51 776934.8 RC_DD 270
-65
294.4 4 289 293
4
0.23

YRC1948D
221648.15 776584.97 RC_DD 270
-65
243.2 1 28 32
4
0.62

YRC1948D
221648.15 776584.97 RC_DD 270
-65
243.2 1 36 40
4
0.24

YRC1948D
221648.15 776584.97 RC_DD 270
-65
243.2 2 77.6 80
2.4
0.58

YRC1948D
221648.15 776584.97 RC_DD 270
-65
243.2 2 97 99
2
0.21

YRC1948D
221648.15 776584.97 RC_DD 270
-65
243.2 6 225 231
6
1.56

YRC1950D
221656.25 776535.11 RC_DD 270
-52
270.6 3 24 36
12
0.59

YRC1950D
221656.25 776535.11 RC_DD 270
-52
270.6 9 239.6 247.6
8
0.43

YRC1950D
221656.25 776535.11 RC_DD 270
-52
270.6 2 262 264
2
0.23

YRC1963D
221762.89 777285.22 RC_DD 270
-66
310.2 1 20 24
4
0.47

YRC1963D
221762.89 777285.22 RC_DD 270
-66
310.2 6 290 296
6
4.18

YRC1989D
221646.97 776560.28 RC_DD 270
-58
258 1 0 4
4
0.27

YRC1989D
221646.97 776560.28 RC_DD 270
-58
258 2 60 68
8
11.42

YRC1989D
221646.97 776560.28 RC_DD 270
-58
258 4 134 138
4
0.66

YRC2019D
221700 776910 RC_DD 270
-50
299.8 2 159 161
2
0.33

YRC2019D
221700 776910 RC_DD 270
-50
299.8 17 268 283
15
3.49

YRC2044D
221701.26 776910.13 RC_DD 270
-55
293.8 2 90 92
2
1.09

YRC2044D
221701.26 776910.13 RC_DD 270
-55
293.8 14 271 284.6
13.6
1.68

Including
278.4 284.6
6.2
2.99

YRC2045D
221707.41 776857.18 RC_DD 270
-55
290.8 2 271 273
2
4.36

YRC2045D
221707.41 776857.18 RC_DD 270
-55
290.8 5 278 283
5
3.44

YRC2046D
221631.7 776509.84 RC_DD 270
-51
260.9 1 0 4
4
0.24

YRC2046D
221631.7 776509.84 RC_DD 270
-51
260.9 1 12 16
4
0.58

YRC2046D
221631.7 776509.84 RC_DD 270
-51
260.9 4 180.4 184.8
4.4
0.34

YRC2046D
221631.7 776509.84 RC_DD 270
-51
260.9 3 210.3 213
2.7
0.2

YRC2046D
221631.7 776509.84 RC_DD 270
-51
260.9 8 224 232
8
0.53

YRC2046D
221631.7 776509.84 RC_DD 270
-51
260.9 18 235 253
18
1.19

YRC2047D
221644.7 776559.8 RC_DD 270
-52
254.8 1 0 4
4
0.23

YRC2047D
221644.7 776559.8 RC_DD 270
-52
254.8 4 56 72
16
3.39

Including
68 72
4
10.75

YRC2047D
221644.7 776559.8 RC_DD 270
-52
254.8 4 138.3 142
3.7
3.11

YRC2047D
221644.7 776559.8 RC_DD 270
-52
254.8 7 226 233
7
0.52

YRC2047D
221644.7 776559.8 RC_DD 270
-52
254.8 5 236 241
5
1.33







Table 2.2: CMA Down-Dip Extension – drill holes and significant assays




Hole ID





East




North




Drill Type




Azimuth




Dip




Depth




No of samples




From




To




Width




Grade


YRC1850AD
222234.5 777335.2 RC_DD 270
-60
678.4 2 0 8
8
0.93

YRC1850AD
222234.5 777335.2 RC_DD 270
-60
678.4 1 76 80
4
0.25

YRC1850AD
222234.5 777335.2 RC_DD 270
-60
678.4 9 604 612
8
2.64

Including
6 605 610
5
3.93

YRC1850AD
222234.5 777335.2 RC_DD 270
-60
678.4 7 625 632
7
2.52

Including
4 628 632
4
3.98

YRC1850AD
222234.5 777335.2 RC_DD 270
-60
678.4 6 635 641
6
0.44

YRC1850AD
222234.5 777335.2 RC_DD 270
-60
678.4 2 653 655
2
1.37

YRC1850AD
222234.5 777335.2 RC_DD 270
-60
678.4 9 661 668
7
0.52

YRC1852D
222180.68 777135.16 RC_DD 270
-60
633.9 1 24 28
4
0.38

YRC1852D
222180.68 777135.16 RC_DD 270
-60
633.9 1 96 100
4
0.29

YRC1854D
222102.52 776934.69 RC_DD 270
-55
541.7 1 0 4
4
0.29

YRC1854D
222102.52 776934.69 RC_DD 270
-55
541.7 1 16 20
4
0.32

YRC1854D
222102.52 776934.69 RC_DD 270
-55
541.7 1 24 28
4
0.22

YRC1854D
222102.52 776934.69 RC_DD 270
-55
541.7 1 32 36
4
0.26

YRC1854D
222102.52 776934.69 RC_DD 270
-55
541.7 2 177 179
2
0.51

YRC1854D
222102.52 776934.69 RC_DD 270
-55
541.7 3 193 196
3
1.87

YRC1854D
222102.52 776934.69 RC_DD 270
-55
541.7 2 231 233
2
0.3

YRC1854D
222102.52 776934.69 RC_DD 270
-55
541.7 4 247 251
4.05
0.22

YRC1854D
222102.52 776934.69 RC_DD 270
-55
541.7 6 264 270
6
0.4

YRC1854D
222102.52 776934.69 RC_DD 270
-55
541.7 2 347 349
2
0.32

YRC1854D
222102.52 776934.69 RC_DD 270
-55
541.7 4 356 360
4
0.88

YRC1854D
222102.52 776934.69 RC_DD 270
-55
541.7 4 489 493
4
0.69

YRC1855AD
221973.92 777435.47 RC_DD 270
-60
486.2 1 48 52
4
0.24

YRC1855AD
221973.92 777435.47 RC_DD 270
-60
486.2 3 442 445
3
0.31

YRC1855AD
221973.92 777435.47 RC_DD 270
-60
486.2 12 450.4 461.5
11.1
3.39

Including
5 452 457
5
7.16

YRC1857D
221987.23 777535.06 RC_DD 270
-60
502.5 2 434 436
2
0.89

YRC1857D
221987.23 777535.06 RC_DD 270
-60
502.5 11 464 475
11
1.44

Including
6 464 470
6
2.32

YRC1858D
221978.02 777635.2 RC_DD 270
-60
528.1 3 473 476
3
1.17

YRC1858D
221978.02 777635.2 RC_DD 270
-60
528.1 11 479 487
8
2.22

Including
4 482 485
3
5.07

YRC1859D
221919.44 777734.92 RC_DD 270
-60
489.6 4 473 477
4
2.2

YRC1860D
222061.08 777735.27 RC_DD 270
-60
564.5 2 92 100
8
0.65

YRC1860D
222061.08 777735.27 RC_DD 270
-60
564.5 3 552 555
3
0.57

YRC1861D
222131.66 777635.59 RC_DD 270
-60
611.5 3 506 509
3
0.51

YRC1861D
222131.66 777635.59 RC_DD 270
-60
611.5 6 549 555
6
2.48

Including
2 550 552
2
6.9

YRC1862D
222021.17 777234.97 RC_DD 270
-60
510.1 1 40 44
4
0.31

YRC1862D
222021.17 777234.97 RC_DD 270
-60
510.1 7 460 467
7
0.35

YRC1871D
222133.11 777535.1 RC_DD 270
-60
588.5 1 36 40
4
0.2

YRC1871D
222133.11 777535.1 RC_DD 270
-60
588.5 1 88 92
4
0.52

YRC1871D
222133.11 777535.1 RC_DD 270
-60
588.5 2 525 527
2
0.3

YRC1871D
222133.11 777535.1 RC_DD 270
-60
588.5 2 532 534
2
6.32

YRC1871D
222133.11 777535.1 RC_DD 270
-60
588.5 5 546 551
5
1.25

YRC1871D
222133.11 777535.1 RC_DD 270
-60
588.5 4 554 558
4
0.53

YRC2033D
222145.53 777432.85 RC_DD 270
-60
603.3 1 4 8
4
0.32

YRC2033D
222145.53 777432.85 RC_DD 270
-60
603.3 4 24 40
16
0.28

YRC2033D
222145.53 777432.85 RC_DD 270
-60
603.3 5 48 68
20
0.39

YRC2033D
222145.53 777432.85 RC_DD 270
-60
603.3 2 72 80
8
0.42

YRC2033D
222145.53 777432.85 RC_DD 270
-60
603.3 2 84 90
6
0.24

YRC2033D
222145.53 777432.85 RC_DD 270
-60
603.3 2 545 547
2
0.34

YRC2033D
222145.53 777432.85 RC_DD 270
-60
603.3 3 569.5 572
2.5
1

YRC2033D
222145.53 777432.85 RC_DD 270
-60
603.3 2 586 588
2
2.13

YRC2036D
222203.35 777735.18 RC_DD 270
-60
619.5 3 76 88
12
0.57

YRC2036D
222203.35 777735.18 RC_DD 270
-60
619.5 1 92 96
4
0.3

YRC2037D
222210.18 777534.99 RC_DD 270
-60
648.2 2 0 8
8
0.43




APPENDIX 3 – JORC TABLE 1 – YAOURÉ EXPLORATION


JORC 2012 Table 1 – Section 1 sampling techniques and data

(Criteria in this section apply to all succeeding sections)


Criteria

JORC Code Explanation

Commentary


Sampling techniques


Nature and quality of sampling (e.g. cut channels, random chips, or specific specialised industry standard measurement tools appropriate to the minerals under investigation, such as down hole gamma sondes, or handheld XRF instruments, etc.). These examples should not be taken as limiting the broad meaning of sampling.


Include reference to measures taken to ensure sample representivity and the appropriate calibration of any measurement tools or systems used.


Aspects of the determination of mineralisation that are Material to the Public Report. In cases where ‘industry standard’ work has been done this would be relatively simple (e.g. ‘reverse circulation drilling was used to obtain 1 m samples from which 3 kg was pulverised to produce a 30 g charge for fire assay’). In other cases more explanation may be required, such as where there is coarse gold that has inherent sampling problems. Unusual commodities or mineralisation types (e.g. submarine nodules) may warrant disclosure of detailed information.

Drilling to define underground resources at CMA Lode commenced in July 2021 and is ongoing at the date of the report to which this table refers. Drilling completed in the period to 8 January 2022 comprises:

5,675 metres of RC drilling and 16,689 metres of core drilling in 78 completed pre-collared diamond core holes, and

6.997 metres of RC drilling in 95 pre-collars drilled ahead of core drilling.

Drilling to test down-dip of the CMA Lode Inferred resource commenced in August 2021. Drilling completed in the period to 8 January 2022 comprises:

1,551 metres of RC drilling and 6,655 metres of core drilling in 16 completed pre-collared diamond core holes, and

1,622 metres of RC drilling in 18 pre-collars drilled ahead of core drilling.

RC drilling used face-sampling hammers with 136mm hole diameter. Samples were collected at one metre intervals and logged visually for recovery, sample condition (dry, damp, wet) and contamination. Sample recoveries were measured by weighing bulk recovered samples. RC samples from pre-collars where mineralisation is not expected were normally composited to 4m intervals for assaying.

Diamond drilling utilised HQ triple-tube (61.1mm Ø) drilling in weathered materials and NQ2 (50.6mm Ø) or NQ (47.6mm Ø) core in fresh rock.



Drilling techniques


Drill type (e.g. core, reverse circulation, open-hole hammer, rotary air blast, auger, Bangka, sonic, etc.) and details (e.g. core diameter, triple or standard tube, depth of diamond tails, face-sampling bit or other type, whether core is oriented and if so, by what method, etc.).
RC drilling used face-sampling hammers with 136mm hole diameter. Samples were collected at one metre intervals. RC samples from pre-collars where mineralisation is not expected were normally composited to 4m intervals for assaying.

Diamond drilling utilised HQ triple-tube (61.1mm Ø) drilling in weathered materials and NQ2 (50.6mm Ø) or NQ (47.6mm Ø) core in fresh rock. Core in fresh rock was oriented using a MAGSHOT II (Wellforce) and an ORISHOT II (Reflex) device.



Drill sample recovery


Method of recording and assessing core and chip sample recoveries and results assessed.


Measures taken to maximise sample recovery and ensure representative nature of the samples.


Whether a relationship exists between sample recovery and grade and whether sample bias may have occurred due to preferential loss/gain of fine/coarse material.

RC drill samples were logged visually for sample condition (dry, damp, wet) and contamination. Sample recoveries were measured by weighing bulk recovered samples. Preliminary evaluation indicates that RC sample recoveries have been satisfactory. There were no wet samples logged in the CMA UG RC pre-collar holes.

Diamond core recoveries were measured linearly per drill run. Core recoveries average approximately 85% in weathered materials and 100% in fresh rock.

The Competent Person considers that there are presently insufficient data available to permit a meaningful examination of potential relationships between sample recovery and gold grade.



Logging


Whether core and chip samples have been geologically and geotechnically logged to a level of detail to support appropriate Mineral Resource estimation, mining studies and metallurgical studies.


Whether logging is qualitative or quantitative in nature. Core (or costean, channel, etc.) photography.


The total length and percentage of the relevant intersections logged.

Geological logs are available for the entire lengths of all drill holes. The logging is qualitative in nature.

Sieved samples of RC chips from each metre of drilling were logged for colour, rock type, alteration type and intensity, vein quartz content, sulphide mineralisation, weathering and oxidation. The chips are stored in plastic chip trays and the trays photographed.

Diamond drill core was logged for geology, structure and geotechnical characteristics. Geological logging included colour, lithology, weathering, oxidation, vein type and vein volume percentage, sulphide species and their estimated percentage, alteration and alteration intensity. Structural logging included fault, fold, cleavage and joint orientation, lithological contacts and vein orientations. Drill core was photographed prior to cutting.



Sub-sampling techniques and sample preparation


If core, whether cut or sawn and whether quarter, half or all core taken.


If non-core, whether riffled, tube sampled, rotary split, etc. and whether sampled wet or dry.


For all sample types, the nature, quality and appropriateness of the sample preparation technique.


Quality control procedures adopted for all sub-sampling stages to maximise representivity of samples.


Measures taken to ensure that the sampling is representative of the in-situ material collected, including for instance results for field duplicate/second-half sampling.


Whether sample sizes are appropriate to the grain size of the material being sampled.

RC drill samples were collected at drill sites over one metre intervals and manually split using multi-stage riffle splitters to produce assay sub-samples averaging around 3kg. All RC holes have been assayed in entirety. RC samples from pre-collars where mineralisation is not expected were normally composited to 4m intervals for assaying.

In weathered materials, diamond core was halved using spatulas or knives. In fresh rock, core was sawn in half using a diamond blade saw, with one half sent for assaying and the other half stored in core trays for reference. Samples were normally taken at 1 metre intervals. For CMA underground resource definition holes, only core intervals with visible alteration and mineralisation plus approximately 10m up- and down-hole were sampled. For exploration drill holes, all diamond drill core has been assayed.

All sample preparation has been undertaken at Perseus’s Yaouré sample preparation facility operated and supervised by Perseus personnel.

Preparation of core and RC samples followed a standard path of drying at 105 degrees C for at least 12 hours, crushing the entire sample to 85% passing -2mm and grinding a 1.5kg split to 85% passing 75 microns. 300g pulp subsamples are selected by multiple scoop passes.

Quality control measures adopted to confirm the representivity of samples from RC and diamond drilling include:

  • Field re-splits of RC samples at an average frequency of around one duplicate per 20 primary samples respectively.
  • Submission of coarse blanks at an average of around 1 blank per 20 primary samples
  • Use of quartz wash between every sample in crushing and pulverising equipment
  • Screening of approximately 1:20 pulp samples to check grind size

Sample preparation techniques are considered appropriate to the style of mineralisation. Available information indicates that sample sizes are appropriate to the grain size of the material being sampled.



Quality of assay data and laboratory tests


The nature, quality and appropriateness of the assaying and laboratory procedures used and whether the technique is considered partial or total.


For geophysical tools, spectrometers, handheld XRF instruments, etc., the parameters used in determining the analysis including instrument make and model, reading times, calibrations factors applied and their derivation, etc.


Nature of quality control procedures adopted (e.g. standards, blanks, duplicates, external laboratory checks) and whether acceptable levels of accuracy (i.e. lack of bias) and precision have been established.

All RC and diamond core samples have been assayed by 50g fire assay with AAS determination by Intertek Testing Services Ghana at their Tarkwa assay laboratory or by Bureau Veritas at their Abidjan laboratory. The technique is considered a total extraction technique.

Quality control procedures include submission of coarse blanks (1:20) and certified reference standards (1:20).

The available information indicates that the assaying of RC and core samples is free from any significant biases and is of acceptable accuracy.



Verification of sampling and assaying


The verification of significant intersections by either independent or alternative company personnel.


The use of twinned holes.


Documentation of primary data, data entry procedures, data verification, data storage (physical and electronic) protocols.


Discuss any adjustment to assay data.

Numerous significant mineralised intersections have been checked against visual alteration and sulphide mineralisation in drill chips and core.

None of the holes in the report to which this table relates have been deliberately twinned.

Geology, structure and geotechnical logs are paper based. Sample intervals are recorded in pre-numbered sample ticket books. All logging, sample interval and survey data are manually entered to digital form on site and stored in an acQuire relational database. Data exports are normally in the form of MS Access files.

Data verification procedures include automated checks to:

  • prevent repetition of sample numbers
  • prevent overlap of from-to intervals in logging and sample interval data
  • ensure that total hole depths in collar, assay and geology tables match
  • ensure that drill collar coordinates are within the project’s geographic limits

Down-hole survey data are examined for large deviations in dip or azimuth that may represent erroneous data or data entry errors and corrected on a case-by-case basis including estimates of dips and azimuths where the original data appear to be in error.

Additional data checks include viewing drill hole traces, geological logging and assays in plan and section views.



Location of data points


Accuracy and quality of surveys used to locate drill holes (collar and down-hole surveys), trenches, mine workings and other locations used in Mineral Resource estimation.


Specification of the grid system used.


Quality and adequacy of topographic control.

Drill hole collars have been surveyed by qualified mine surveyors using differential GPS equipment with coordinates recorded in UTM grid, WGS84 Zone 30N datum.

All RC and diamond core holes have been surveyed at 12m depth and at approximately 30m down-hole increments using digital compass instruments.

A topographic surface has been established by a LiDAR survey conducted in 2017. The topographic surface is reliable to +/- 0.2m.

Topographic control is adequate for the current work being undertaken at Yaouré.



Data spacing and distribution


Data spacing for reporting of Exploration Results.


Whether the data spacing and distribution is sufficient to establish the degree of geological and grade continuity appropriate for the Mineral Resource and Ore Reserve estimation procedure(s) and classifications applied.


Whether sample compositing has been applied.

The CMA Lode is delineated by regular drilling at 50mN x 25mE spaced holes to between 150 and 200 metres below natural surface. Partial coverage at 50mN x 50mE spacing extends to between 200 and 275 metres below surface. Holes have generally been drilled dipping at -55 to -75 degrees toward 270 degrees (UTM grid) azimuth.



Orientation of data in relation to geological structure


Whether the orientation of sampling achieves unbiased sampling of possible structures and the extent to which this is known, considering the deposit type.


If the relationship between the drilling orientation and the orientation of key mineralised structures is considered to have introduced a sampling bias, this should be assessed and reported if material.

Drill holes are oriented approximately orthogonal to the dip and strike of the CMA Lode. Drill intercept lengths closely approximate true widths of mineralisation.

The relationship between drill intercept lengths and true widths of mineralisation in the CMA East Seismic Target area is not known at the time of this report.



Sample security


The measures taken to ensure sample security.
RC and core samples were delivered to the secure core yard compound at Yaouré mine by Perseus personnel. RC field sample splits and samples of half diamond core were placed in numbered bags and those bags, in turn, placed into polywoven sacks that were closed with plastic cable ties prior to transport to the Yaouré sample preparation facility by Perseus personnel. Security guards were employed at drilling sites, the core yard compound and the sample preparation facility on a 24 hour per day basis.

Results of field duplicates along with the general consistency of assay results between neighbouring drill holes and drilling methods provide confidence in the general reliability of the assay data.



Audits or reviews


The results of any audits or reviews of sampling techniques and data.
The Yaouré sample preparation facility has previously been subject to formal audit, the last being in 2017. Standard operating procedures have not changed materially since that audit.

The Competent Person has reviewed the available sampling and assaying quality control data and found no errors or bias likely to significantly affect the reliability of the exploration data. These reviews included review of database consistency, comparisons between database records and laboratory source files, and review of QAQC information.

The Competent Person considers that the sample preparation, security and analytical procedures adopted for the CMA resource drilling provide an adequate basis for the reporting of Exploration Results.


JORC 2012 Table 1 – Section 2 Reporting of Exploration Results


(Criteria listed in the preceding section also apply to this section)


Criteria

JORC Code explanation

Commentary


Mineral tenement and land tenure status


Type, reference name/number, location and ownership including agreements or material issues with third parties such as joint ventures, partnerships, overriding royalties, native title interests, historical sites, wilderness or national park and environmental settings.



The security of the tenure held at the time of reporting along with any known impediments to obtaining a licence to operate in the area.
The drill holes discussed in the report to which this table relates are located within the Yaouré exploitation permit (PE50). The permit has an expiry date of 23 April 2030. The permit is held by Perseus’s subsidiary Perseus Mining Yaouré SA in which the government of Côte d’Ivoire holds 10% free carried interest.  Additionally, the Government of Côte d’Ivoire is entitled to a royalty on nett revenue (revenue minus transport and refining costs) as follows:

Spot price per ounce – London PM Fix Royalty Rate
Less than or equal to US$1,000 3%
Higher than US$1,000 and less than or equal to US$1,300 3.5%
Higher than US$1,300 and less than or equal to US$1,600 4%
Higher than US$1,600 and less than or equal to US$2,000 5%
Higher than US$2,000 6%
A further 0.5% of nett revenue is required to be paid to a local community development fund.

The reported exploration areas have no known exploration-specific environmental liabilities.



Exploration done by other parties


Acknowledgment and appraisal of exploration by other parties.
Exploration geochemical sampling, trenching and exploration and resource definition drilling have previously been carried out by BRGM, Cluff and Amara.  Drill hole data deriving from work by Cluff and Amara are considered reliable.



Geology


Deposit type, geological setting and style of mineralisation.
Yaouré may be described as orogenic lode-style gold mineralisation. The Yaouré project comprises two adjacent deposits, Yaouré and CMA, that occur near the south-eastern flank of the Bouaflé greenstone belt in central Côte d’Ivoire. Mineralisation is hosted by Paleoproterozoic aged metabasalts and felsic intrusive rocks of the Birimian Supergroup. The rocks are metamorphosed to lower greenschist facies and only locally feature penetrative deformation fabrics.

In both deposits, gold is associated with disseminated pyrite. At CMA deposit, mineralisation is associated with quartz-albite-carbonate veining in reverse fault structures that dip at 25 to 35 degrees to the east. Yaouré deposit comprises several mineralisation styles controlled by east-dipping structures, similar to CMA, in addition to mineralisation associated with quartz-tourmaline-chlorite-carbonate veining controlled by NE and NW striking, sub-vertical faults and also stockwork quartz veins with associated alteration selvages hosted by a granodiorite intrusive body.

The combined deposits extend over an area around 1.4 km east west by 2.1 km north-south.



Drill hole Information


A summary of all information material to the understanding of the exploration results including a tabulation of the following information for all Material drill holes:


  • easting and northing of the drill hole collar

  • elevation or RL (Reduced Level – elevation above sea level in metres) of the drill hole collar

  • dip and azimuth of the hole

  • down hole length and interception depth

  • hole length.


If the exclusion of this information is justified on the basis that the information is not Material and this exclusion does not detract from the understanding of the report, the Competent Person should clearly explain why this is the case.

A table of drill hole and intercept details is included in the report to which this table relates.


Data aggregation methods


In reporting Exploration Results, weighting averaging techniques, maximum and/or minimum grade truncations (e.g. cutting of high grades) and cut-off grades are usually Material and should be stated.



Where aggregate intercepts incorporate short lengths of high-grade results and longer lengths of low-grade results, the procedure used for such aggregation should be stated and some typical examples of such aggregations should be shown in detail.



The assumptions used for any reporting of metal equivalent values should be clearly stated.

The cut-off grade, minimum down-hole length and maximum included internal waste are clearly stated in the report to which this table relates.

Higher-grade “included” intercepts are clearly reported.

Drill hole intercepts have not been reported as metal equivalents.



Relationship between mineralization widths and intercept lengths


These relationships are particularly important in the reporting of Exploration Results.



If the geometry of the mineralisation with respect to the drill hole angle is known, its nature should be reported.



If it is not known and only the down hole lengths are reported, there should be a clear statement to this effect (e.g. ‘down hole length, true width not known’).

The geometry of the CMA Lode has been clearly demonstrated by previous drilling. The lengths of drill intercepts of that structure in the report to which this table relates closely approximate true widths.

The relationship between drill intercept lengths and true widths of mineralisation in the CMA East Seismic Target is not known at the time of this report.



Diagrams


Appropriate maps and sections (with scales) and tabulations of intercepts should be included for any significant discovery being reported These should include, but not be limited to a plan view of drill hole collar locations and appropriate sectional views.

Appropriate plans and sections are included in the report to which this table relates.


Balanced reporting


Where comprehensive reporting of all Exploration Results is not practicable, representative reporting of both low and high grades and/or widths should be practiced to avoid misleading reporting of Exploration Results.

Holes that did not intercept significant mineralisation are shown on plans and cross-sections and “NSI” holes are included in tables of intercepts.


Other substantive exploration data


Other exploration data, if meaningful and material, should be reported including (but not limited to): geological observations; geophysical survey results; geochemical survey results; bulk samples – size and method of treatment; metallurgical test results; bulk density, groundwater, geotechnical and rock characteristics; potential deleterious or contaminating substances.
The Yaouré property has been subject to extensive exploration, including:

  • Soil sampling, surface mapping
  • Approximately 300,000 metres of drilling
  • Previous mining by

    Compagnie Miniere d’Afrique

    (CMA) and Cluff Mining
  • Airborne EM, gravity, radiometrics and magnetic surveys
  • 2D & 3D seismic surveys.

The CMA Lode is presently being exploited by open pit mining.



Further work


The nature and scale of planned further work (e.g. tests for lateral extensions or depth extensions or large-scale step-out drilling).



Diagrams clearly highlighting the areas of possible extensions, including the main geological interpretations and future drilling areas, provided this information is not commercially sensitive.

Perseus intends to continue drilling at CMA to delineate an Indicated Mineral Resource and to undertake such studies as are required to complete an economic evaluation of material that may be exploited by underground mining.


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