Galiano Gold Provides Miradani North Phase 3 Drilling Update
Galiano Gold Inc. (GAU) has announced updates from its exploration program at the Asanko Gold Mine in Ghana. Recent drilling at the Miradani North target has confirmed a significant mineralized system extending to over 300m depth. A maiden Resource estimate is anticipated in Q3 2021, following over 17,300m of drilling across 59 holes. Key results include intercepts of up to 40m at 2.8 g/t and 20.1m at 4.8 g/t gold. Ongoing drilling along the 5-km Miradani trend aims to enhance resource estimates.
- Successful drilling results at Miradani North indicating a mineralized system present at depth.
- Upcoming maiden Resource estimate expected in Q3 2021.
- Recent drill results show substantial gold intercepts: 40m @ 2.8 g/t Au and 20.1m @ 4.8 g/t Au.
- Continued drilling program along the 5-km Miradani trend with plans to enhance resource estimates.
- None.
VANCOUVER, BC, May 20, 2021 /PRNewswire/ - Galiano Gold Inc. ("Galiano" or the "Company") (TSX: GAU) (NYSE American: GAU) is pleased to announce a further update from the exploration program underway at the Asanko Gold Mine ("AGM"), located in Ghana, West Africa. The AGM is a 50:50 joint venture ("JV") with Gold Fields Ltd (JSE, NYSE: GFI), with the JV managed and operated by Galiano.
The Miradani North target is located on the Datano Mining Lease, approximately 10 kilometres south of the Asanko Gold Mine's processing plant. Previous drill results were reported in news releases dated April 30, 2019, November 30, 2020, February 1, 2020, and February 25, 2021. To-date, over 17,300m of drilling have been completed in 59 holes over three phases of drilling from Q1 2019 to May 2021. Assays have been received for all drill holes that are expected to be included in the planned maiden Resource estimate for Miradani North, expected in Q3 2021, with highlights from the recent results shown in Table 1.
Table 1: Select intervals from drilling at Miradani North not previously released1
Hole ID | From | To | Interval | Grade | Intercept |
TTDD21-080 | 353 | 393 | 40 | 2.8 | 40m @ 2.8 g/t |
TTDD21-077 | 261.9 | 282 | 20.1 | 4.8 | 20.1m @4.8 g/t |
TTDD21-062 | 161 | 215 | 54 | 1.7 | 54m @ 1.7 g/t |
TTDD21-076 | 295.6 | 318 | 22.4 | 3.4 | 22.4m @ 3.4g/t |
TTDD21-060 | 142 | 178 | 36 | 1.6 | 36m @ 1.6 g/t |
TTDD21-064 | 197 | 211 | 14 | 4.4 | 14m @4.1 g/t |
TTDD21-064 | 115 | 148.9 | 33.6 | 1.6 | 33.9m @ 1.6 g/t |
"The latest set of results from Miradani North continue to indicate that a mineralized system is present at depth," said Greg McCunn, Chief Executive Officer. "Our drilling results indicate that mineralization extends to 300m vertical depth and beyond, with a +100 gram-meter shoot plunging steeply to the northeast, remaining open at depth (see Figure 8 below). Mineral Resource drilling of the deposit has been completed, and we are on track to deliver a maiden resource estimate by Q3 2021. Step-out drilling along the +5-km greater Miradani trend is underway with one rig with a second rig expected to be deployed to accelerate this drilling program."
About Miradani North - Geological Setting
The Miradani North target is situated along the Fromenda shear zone, a laterally extensive structure recognized from airborne VTEM and magnetic surveys and extensively mapped on the ground. The Fromenda shear zone forms part of the prominent northeast striking Asankrangwa gold belt which hosts all nine of AGM's gold deposits. Numerous historical geochemical anomalies and artisanal workings are associated with this feature, making it an attractive exploration target.
Mineralization at Miradani North is spatially associated with several narrow, sub-vertical granite bodies that have preferentially intruded along a northeast trending corridor. Mineralization occurs in the granite and in the surrounding deformed sandstone, siltstone and phyllite rock package. Stratigraphy and structure are both steeply dipping to the northwest as they do for most of the Asankrangwa Belt gold deposits. Gold mineralization at Miradani North occurs in quartz veins and in association with silica flooding, pyrite, arsenopyrite, and traces of base metal sulfides, within a broader envelope of quartz-sericite-pyrite and carbonate alteration.
Qualified Person and QA/QC
Greg Collins, MAusIMM CP (Geo) and SEG Fellow, Vice President Exploration of Galiano Gold Inc., is a Qualified Person as defined by Canadian NI 43-101 and has supervised the preparation of the scientific and technical information that forms the basis for this news release. Mr. Collins is responsible for all aspects of the work including the Data Verification and Quality Control/Quality Assurance programs and has verified the data disclosed. Mr. Collins is not independent of Galiano Gold Inc.
Certified Reference Materials and Blanks are inserted by Galiano Gold into the sample stream at the rate of 1:14 samples. Field duplicates are collected at the rate of 1:30 samples. All samples have been analysed by Intertek Minerals Ltd. in Tarkwa, Ghana with standard preparation methods and 50g fire assay with atomic absorption finish. Intertek Minerals Ltd. does their own introduction of QA/QC samples into the sample stream and reports them to Galiano for double checking. Higher grade samples are re-analysed from pulp or reject material or both. Intertek is an international company operating in 100 countries and is independent of Galiano. It provides testing for a wide range of industries including the mining, metals, and oil sectors.
Figure 1. Base map showing Miradani North, three stages of drill holes, and more recent results highlighted. Intersected granite is shown in pink and is surrounded by steeply dipping, northeast striking, interlayered sandstone, siltstone, and phyllite. Callout boxes highlight the recent intersections discussed above. Sections are at 40m intervals looking NE and commencing from southwest to northeast.
Figure 2. Section 691771 (see Figure 1 for location). Shows drill holes, mineralized intercepts, and a preliminary version of the expected mineralized domain based on current assay results as well as perceived controls on gold mineralization such as vein density and sulphide development. Of note, mineralization in this section attains noteworthy widths and remains open at depth.
Figure 3. Section 691830 (see Figure 1 for location). Shows drill holes, mineralized intercepts, and a preliminary version of the expected mineralized domain based on current assay results as well as perceived controls on gold mineralization such as vein density and sulphide development. Of note, gold grades continue at depth with noteworthy width and are open at depth.
Figure 4. Section 691860 (see Figure 1 for location). Shows drill holes, mineralized intercepts, and a preliminary version of the expected mineralized domain based on current assay results as well as perceived controls on gold mineralization such as vein density and sulphide development. This section illustrates a broad, coherent zone within the deposit and open at depth.
Figure 5. Section 691890. (see Figure 1 for location). Shows drill holes, mineralized intercepts, and a preliminary version of the expected mineralized domain based on current assay results as well as perceived controls on gold mineralization such as vein density and sulphide development. Mineralization is open at depth.
Figure 6. Section 691919. (also see Figure 1). Shows drill holes, mineralized intercepts, and a preliminary version of the expected mineralized domain based on current assay results as well as perceived controls on gold mineralization such as vein density and sulphide development. This section contains some noteworthy intersections and shows that results indicate that grades improve with depth and down plunge.
Figure 7. Section 691949. (see Figure 1 for location). Shows drill holes, mineralized intercepts, and a preliminary version of the expected mineralized domain based on current assay results as well as perceived controls on gold mineralization such as vein density and sulphide development.
Figure 8. Long section through Miradani North. Illustrates indicated steep northeast plunge to high grade (+100 GM) that is open at depth.
Table 2. Intercepts for Miradani North drilling1,2
Hole ID | From | To | Interval | Grade | Intercept | Year Drilled | |
TTPC19-001 | 87 | 89 | 2 | 3.2 | 2m @ 3.2 g/t | 2019 Phase 1 | |
TTPC19-001 | 128 | 141 | 13 | 2.6 | 13m @ 2.6 g/t | 2019 Phase 1 | |
TTPC19-001 | 152 | 154 | 2 | 1 | 2m @ 1.0 g/t | 2019 Phase 1 | |
TTPC19-001 | 162 | 172 | 10 | 1.1 | 10m @ 1.1 g/t | 2019 Phase 1 | |
TTPC19-001 | 197 | 206 | 9 | 0.7 | 9m @ 0.7 g/t | 2019 Phase 1 | |
TTPC19-002 | 68 | 85 | 17 | 1.1 | 17m @ 1.1 g/t | 2019 Phase 1 | |
TTPC19-002 | 91 | 107 | 16 | 1.7 | 16m @ 1.7 g/t | 2019 Phase 1 | |
TTPC19-002 | 114 | 116 | 2 | 1.8 | 2m @ 1.8 g/t | 2019 Phase 1 | |
TTPC19-002 | 120 | 122 | 2 | 1.2 | 2m @ 1.2 g/t | 2019 Phase 1 | |
TTPC19-002 | 149 | 152 | 3 | 25.5 | 3m @ 25.5 g/t | 2019 Phase 1 | |
TTPC19-002 | 156 | 178 | 22 | 1.2 | 22m @ 1.2 g/t | 2019 Phase 1 | |
TTPC19-002 | 189 | 228 | 39 | 1.8 | 39m @ 1.8 g/t | 2019 Phase 1 | |
TTPC19-004 | 32 | 38 | 6 | 0.6 | 6m @ 0.6 g/t | 2019 Phase 1 | |
TTPC19-004 | 84 | 88 | 4 | 1 | 4m @ 1.0 g/t | 2019 Phase 1 | |
TTPC19-004 | 105 | 107 | 2 | 1.9 | 2m @ 1.9 g/t | 2019 Phase 1 | |
TTPC19-004 | 150 | 152 | 2 | 1.1 | 2m @ 1.1 g/t | 2019 Phase 1 | |
TTPC19-004 | 160 | 174 | 14 | 0.8 | 14m @ 0.8 g/t | 2019 Phase 1 | |
TTPC19-004 | 182 | 189 | 7 | 1.5 | 7m @ 1.5 g/t | 2019 Phase 1 | |
TTPC19-004 | 199 | 211 | 12 | 1.4 | 12m @ 1.4 g/t | 2019 Phase 1 | |
TTPC19-005 | 229 | 231 | 2 | 1 | 2m @ 1.0 g/t | 2019 Phase 1 | |
TTPC19-005A | 294 | 296.5 | 2.5 | 1 | 2.5m @ 1.0 g/t | 2019 Phase 1 | |
TTPC19-005A | 307 | 309.3 | 2.3 | 0.8 | 2.3m @ 0.8 g/t | 2019 Phase 1 | |
TTPC19-005A | 312.73 | 321 | 8.27 | 1.1 | 8.27m @ 1.1 g/t | 2019 Phase 1 | |
TTPC19-005A | 342 | 353 | 11 | 1.2 | 11m @ 1.2 g/t | 2019 Phase 1 | |
TTPC19-005A | 357 | 377.75 | 20.75 | 1.4 | 20.75m @ 1.4 g/t | 2019 Phase 1 | |
TTPC19-005A | 389.5 | 399 | 9.5 | 0.7 | 9.5m @ 0.7 g/t | 2019 Phase 1 | |
TTPC19-005A | 402.7 | 416.9 | 14.2 | 0.5 | 14.2m @ 0.5 g/t | 2019 Phase 1 | |
TTPC19-006A | 17 | 19 | 2 | 0.6 | 2m @ 0.6 g/t | 2019 Phase 1 | |
TTPC19-006A | 36 | 39 | 3 | 1.7 | 3m @ 1.7 g/t | 2019 Phase 1 | |
TTPC19-006A | 182 | 193.8 | 11.8 | 1.7 | 11.8m @ 1.7 g/t | 2019 Phase 1 | |
TTPC19-006A | 201 | 203 | 2 | 0.8 | 2m @ 0.8 g/t | 2019 Phase 1 | |
TTPC19-006A | 242 | 264.9 | 22.9 | 1.5 | 22.9m @ 1.5 g/t | 2019 Phase 1 | |
TTPC19-006A | 270.6 | 275 | 4.4 | 9.2 | 4.4m @ 9.2 g/t | 2019 Phase 1 | |
TTPC19-006A | 280.6 | 297 | 16.4 | 2.4 | 16.4m @ 2.4 g/t | 2019 Phase 1 | |
TTPC19-006A | 305.1 | 309.3 | 4.2 | 1.7 | 4.2m @ 1.7 g/t | 2019 Phase 1 | |
TTPC19-006A | 315 | 319.1 | 4.1 | 2.2 | 4.1m @ 2.2 g/t | 2019 Phase 1 | |
TTPC19-008 | 90 | 94.8 | 4.8 | 1.4 | 4.8m @ 1.4 g/t | 2019 Phase 1 | |
TTPC19-008 | 98.17 | 108 | 9.83 | 2.3 | 9.83m @ 2.3 g/t | 2019 Phase 1 | |
TTPC19-008 | 113.55 | 122 | 8.45 | 1.8 | 8.45m @ 1.8 g/t | 2019 Phase 1 | |
TTPC19-008 | 187 | 198 | 11 | 2.1 | 11m @ 2.1 g/t | 2019 Phase 1 | |
TTPC19-008 | 202 | 244.6 | 42.6 | 2.2 | 42.6m @ 2.2 g/t | 2019 Phase 1 | |
TTPC19-008 | 248.7 | 259 | 10.3 | 2.2 | 10.3m @ 2.2 g/t | 2019 Phase 1 | |
TTPC19-008 | 270.9 | 273 | 2.1 | 1.3 | 2.1m @ 1.3 g/t | 2019 Phase 1 | |
TTPC19-009 | 80 | 84.3 | 4.3 | 2.3 | 4.3m @ 2.3 g/t | 2019 Phase 1 | |
TTPC19-009 | 99 | 155 | 56 | 3 | 56m @ 3.0 g/t | 2019 Phase 1 | |
TTPC19-009 | 166 | 173 | 7 | 0.8 | 7m @ 0.8 g/t | 2019 Phase 1 | |
TTPC19-009 | 192 | 200.53 | 8.53 | 1.2 | 8.53m @ 1.2 g/t | 2019 Phase 1 | |
TTPC19-009 | 204.46 | 223.2 | 18.74 | 1.1 | 18.74m @ 1.1 g/t | 2019 Phase 1 | |
TTPC19-009 | 234 | 239 | 5 | 0.4 | 5m @ 0.4 g/t | 2019 Phase 1 | |
TTPC19-010 | 145 | 151 | 6 | 1 | 6m @ 1.0 g/t | 2019 Phase 1 | |
TTPC19-010 | 175.5 | 181 | 5.5 | 0.8 | 5.5m @ 0.8 g/t | 2019 Phase 1 | |
TTPC19-010 | 192.4 | 229 | 36.6 | 2 | 36.6m @ 2.0 g/t | 2019 Phase 1 | |
TTPC19-010 | 244.8 | 251 | 6.2 | 0.8 | 6.2m @ 0.8 g/t | 2019 Phase 1 | |
TTPC19-010 | 257.7 | 264 | 6.3 | 0.5 | 6.3m @ 0.5 g/t | 2019 Phase 1 | |
TTPC19-010 | 268 | 270.3 | 2.3 | 0.8 | 2.3m @ 0.8 g/t | 2019 Phase 1 | |
TTPC19-010 | 288.8 | 295.2 | 6.4 | 1.4 | 6.4m @ 1.4 g/t | 2019 Phase 1 | |
TTDD20-019 | 263 | 265.75 | 2.75 | 0.3 | 2.75m @ 0.3 g/t | 2020 Phase 2 | |
TTDD20-019 | 301 | 303 | 2 | 1.5 | 2m @ 1.5 g/t | 2020 Phase 2 | |
TTPC20-022 | 288 | 290 | 2 | 2 | 2m @ 2.0 g/t | 2020 Phase 2 | |
TTPC20-022 | 301.3 | 304.5 | 3.2 | 1.7 | 3.2m @ 1.7 g/t | 2020 Phase 2 | |
TTPC20-022 | 382 | 389 | 7 | 1.5 | 7m @ 1.5 g/t | 2020 Phase 2 | |
TTPC20-026 | 19 | 28 | 9 | 2.5 | 9m @ 2.5 g/t | 2020 Phase 2 | |
TTDD20-027 | 0 | 2.3 | 2.3 | 0.6 | 2.3m @ 0.6 g/t | 2020 Phase 2 | |
TTDD20-027 | 5.5 | 11.4 | 5.9 | 0.7 | 5.9m @ 0.7 g/t | 2020 Phase 2 | |
TTDD20-027 | 177.37 | 181.75 | 4.38 | 0.6 | 4.38m @ 0.6 g/t | 2020 Phase 2 | |
TTDD20-027 | 302.1 | 305 | 2.9 | 5 | 2.9m @ 5.0 g/t | 2020 Phase 2 | |
TTDD20-029 | 183 | 192 | 9 | 1.6 | 9m @ 1.6 g/t | 2020 Phase 3 | |
TTDD20-029 | 241 | 250 | 9 | 0.5 | 9m @ 0.5 g/t | 2020 Phase 3 | |
TTDD20-029 | 257.67 | 261.89 | 4.22 | 0.5 | 4.22m @ 0.5 g/t | 2020 Phase 3 | |
TTDD20-029 | 272 | 285 | 13 | 1.6 | 13m @ 1.6 g/t | 2020 Phase 3 | |
TTDD20-032 | 0 | 8.1 | 8.1 | 0.6 | 8.1m @ 0.6 g/t | 2020 Phase 3 | |
TTDD20-032 | 188.16 | 201.4 | 13.24 | 1.7 | 13.24m @ 1.7 g/t | 2020 Phase 3 | |
TTDD20-032 | 232.85 | 240.14 | 7.29 | 4.5 | 7.29m @ 4.5 g/t | 2020 Phase 3 | |
TTDD20-032 | 244 | 253 | 9 | 0.8 | 9m @ 0.8 g/t | 2020 Phase 3 | |
TTDD20-032 | 266 | 272 | 6 | 2.3 | 6m @ 2.3 g/t | 2020 Phase 3 | |
TTDD20-032 | 301.09 | 309 | 7.91 | 1.6 | 7.91m @ 1.6 g/t | 2020 Phase 3 | |
TTDD20-032 | 325 | 337 | 12 | 0.6 | 12m @ 0.6 g/t | 2020 Phase 3 | |
TTDD20-032 | 342 | 358.7 | 16.7 | 6.3 | 16.7m @ 6.3 g/t | 2020 Phase 3 | |
TTPC20-024 | 86 | 126 | 40 | 2.1 | 40m @ 2.1 g/t | 2020 Phase 3 | |
TTPC20-024 | 134 | 146.6 | 12.6 | 2.4 | 12.6m @ 2.4 g/t | 2020 Phase 3 | |
TTPC20-024 | 153.2 | 155.44 | 2.24 | 0.6 | 2.24m @ 0.6 g/t | 2020 Phase 3 | |
TTPC20-024 | 167 | 176 | 9 | 1.8 | 9m @ 1.8 g/t | 2020 Phase 3 | |
TTPC20-024 | 181 | 189.09 | 8.09 | 0.9 | 8.09m @ 0.9 g/t | 2020 Phase 3 | |
TTPC20-024 | 193 | 195 | 2 | 5.1 | 2m @ 5.1 g/t | 2020 Phase 3 | |
TTPC20-024 | 210.5 | 227 | 16.5 | 1.1 | 16.5m @ 1.1 g/t | 2020 Phase 3 | |
TTDD20-025 | 165 | 172.16 | 7.16 | 0.8 | 7.16m @ 0.8 g/t | 2020 Phase 3 | |
TTPC20-028 | 232 | 241 | 9 | 0.6 | 9m @ 0.6 g/t | 2020 Phase 3 | |
TTPC20-028 | 287 | 306 | 19 | 2.2 | 19m @ 2.2 g/t | 2020 Phase 3 | |
TTDD20-030 | 238.67 | 256 | 17.33 | 2 | 17.33m @ 2.0 g/t | 2020 Phase 3 | |
TTDD20-030 | 274 | 283 | 9 | 3.8 | 9m @ 3.8 g/t | 2020 Phase 3 | |
TTDD20-030 | 291 | 294 | 3 | 2.3 | 3m @ 2.3 g/t | 2020 Phase 3 | |
TTDD20-030 | 299 | 308 | 9 | 0.6 | 9m @ 0.6 g/t | 2020 Phase 3 | |
TTPC20-033 | 56 | 60 | 4 | 1.1 | 4m @ 1.1 g/t | 2020 Phase 3 | |
TTPC20-033 | 66 | 84 | 18 | 1 | 18m @ 1.0 g/t | 2020 Phase 3 | |
TTPC20-033 | 249.46 | 252.15 | 2.69 | 2.4 | 2.69m @ 2.4 g/t | 2020 Phase 3 | |
TTPC20-033 | 268.8 | 286.1 | 17.3 | 1.2 | 17.3m @ 1.2 g/t | 2020 Phase 3 | |
TTPC20-033 | 298.35 | 300.61 | 2.26 | 1.3 | 2.26m @ 1.3 g/t | 2020 Phase 3 | |
TTPC20-033 | 334.44 | 347 | 12.56 | 0.7 | 12.56m @ 0.7 g/t | 2020 Phase 3 | |
TTPC20-033 | 362.9 | 365.5 | 2.6 | 2.5 | 2.6m @ 2.5 g/t | 2020 Phase 3 | |
TTPC20-034 | 104 | 112 | 8 | 2.5 | 8m @ 2.5 g/t | 2020 Phase 3 | |
TTPC20-034 | 148 | 154 | 6 | 1 | 6m @ 1.0 g/t | 2020 Phase 3 | |
TTPC20-034 | 175.1 | 191.4 | 16.3 | 3 | 16.3m @ 3.0 g/t | 2020 Phase 3 | |
TTPC20-034 | 200.2 | 202.7 | 2.5 | 0.6 | 2.5m @ 0.6 g/t | 2020 Phase 3 | |
TTPC20-035 | 73 | 76 | 3 | 3.9 | 3m @ 3.9 g/t | 2020 Phase 3 | |
TTPC20-035 | 90 | 97 | 7 | 0.6 | 7m @ 0.6 g/t | 2020 Phase 3 | |
TTPC20-035 | 106 | 119 | 13 | 1.4 | 13m @ 1.4 g/t | 2020 Phase 3 | |
TTPC20-035 | 125 | 134 | 9 | 1.1 | 9m @ 1.1 g/t | 2020 Phase 3 | |
TTPC20-035 | 142.68 | 147.11 | 4.43 | 0.8 | 4.43m @ 0.8 g/t | 2020 Phase 3 | |
TTPC20-035 | 150.27 | 158.48 | 8.21 | 0.7 | 8.21m @ 0.7 g/t | 2020 Phase 3 | |
TTPC20-035 | 165 | 173.94 | 8.94 | 2.7 | 8.94m @ 2.7 g/t | 2020 Phase 3 | |
TTDD20-036 | 215 | 217.4 | 2.4 | 0.8 | 2.4m @ 0.8 g/t | 2020 Phase 3 | |
TTDD20-036 | 242.2 | 267 | 24.8 | 1.5 | 24.8m @ 1.5 g/t | 2020 Phase 3 | |
TTPC20-039 | 41 | 50 | 9 | 0.6 | 9m @ 0.6 g/t | 2020 Phase 3 | |
TTPC20-039 | 70 | 75 | 5 | 0.7 | 5m @ 0.7 g/t | 2020 Phase 3 | |
TTPC20-039 | 85 | 120 | 35 | 2.1 | 35m @ 2.1 g/t | 2020 Phase 3 | |
TTPC20-039 | 129.4 | 140 | 10.6 | 3.3 | 10.6m @ 3.3 g/t | 2020 Phase 3 | |
TTPC20-039 | 146.86 | 150.5 | 3.64 | 1.3 | 3.64m @ 1.3 g/t | 2020 Phase 3 | |
TTPC20-039 | 155 | 161.32 | 6.32 | 0.5 | 6.32m @ 0.5 g/t | 2020 Phase 3 | |
TTPC20-039 | 169.18 | 173.25 | 4.07 | 2.9 | 4.07m @ 2.9 g/t | 2020 Phase 3 | |
TTDD20-040 | 0 | 4 | 4 | 1.1 | 4m @ 1.1 g/t | 2020 Phase 3 | |
TTDD20-040 | 130.2 | 132.8 | 2.6 | 1.1 | 2.6m @ 1.1 g/t | 2020 Phase 3 | |
TTDD20-040 | 142.7 | 153.3 | 10.6 | 1.6 | 10.6m @ 1.6 g/t | 2020 Phase 3 | |
TTDD20-040 | 156.6 | 159.7 | 3.1 | 0.4 | 3.1m @ 0.4 g/t | 2020 Phase 3 | |
TTDD20-040 | 170.8 | 188 | 17.2 | 1.3 | 17.2m @ 1.3 g/t | 2020 Phase 3 | |
TTPC20-041 | 71 | 107 | 36 | 1.9 | 36m @ 1.9 g/t | 2020 Phase 3 | |
TTPC20-041 | 113 | 115 | 2 | 10.7 | 2m @ 10.7 g/t | 2020 Phase 3 | |
TTDD20-044 | 181 | 186.7 | 5.7 | 1.6 | 5.7m @ 1.6 g/t | 2020 Phase 3 | |
TTDD20-044 | 189.8 | 202.3 | 12.5 | 3.2 | 12.5m @ 3.2 g/t | 2020 Phase 3 | |
TTDD20-044 | 207 | 228.6 | 21.6 | 2.3 | 21.6m @ 2.3 g/t | 2020 Phase 3 | |
TTPC20-045 | 123 | 125.37 | 2.37 | 1 | 2.37m @ 1.0 g/t | 2020 Phase 3 | |
TTPC20-045 | 136 | 156 | 20 | 1.5 | 20m @ 1.5 g/t | 2020 Phase 3 | |
TTPC20-045 | 171.85 | 182.44 | 10.59 | 3.2 | 10.59m @ 3.2 g/t | 2020 Phase 3 | |
TTPC20-045 | 191 | 195.23 | 4.23 | 4.4 | 4.23m @ 4.4 g/t | 2020 Phase 3 | |
TTPC20-047 | 30 | 34 | 4 | 0.6 | 4m @ 0.6 g/t | 2020 Phase 3 | |
TTDD20-049 | 1.2 | 8.2 | 7 | 0.7 | 7m @ 0.7 g/t | 2020 Phase 3 | |
TTDD20-049 | 189 | 200 | 11 | 1.4 | 11m @ 1.4 g/t | 2020 Phase 3 | |
TTDD20-049 | 205 | 210.4 | 5.4 | 2.3 | 5.4m @ 2.3 g/t | 2020 Phase 3 | |
TTDD20-049 | 225.18 | 248.5 | 23.32 | 1.8 | 23.32m @ 1.8 g/t | 2020 Phase 3 | |
TTDD20-049 | 259 | 280.9 | 21.9 | 2.7 | 21.9m @ 2.7 g/t | 2020 Phase 3 | |
TTDD20-049 | 286 | 314.4 | 28.4 | 1.5 | 28.4m @ 1.5 g/t | 2020 Phase 3 | |
TTDD20-049 | 318.4 | 322.3 | 3.9 | 3.1 | 3.9m @ 3.1 g/t | 2020 Phase 3 | |
TTDD20-050 | 163.5 | 173.6 | 10.1 | 6 | 10.1m @ 6.0 g/t | 2020 Phase 3 | |
TTRC20-051 | 0 | 2 | 2 | 8.4 | 2m @ 8.4 g/t | 2020 Phase 3 | |
TTRC20-051 | 58 | 62 | 4 | 0.5 | 4m @ 0.5 g/t | 2020 Phase 3 | |
TTRC20-051 | 69 | 74 | 5 | 0.7 | 5m @ 0.7 g/t | 2020 Phase 3 | |
TTDD20-052 | 94.7 | 97 | 2.3 | 1.2 | 2.3m @ 1.2 g/t | 2020 Phase 3 | |
TTDD20-052 | 117 | 139 | 22 | 1.4 | 22m @ 1.4 g/t | 2020 Phase 3 | |
TTDD20-052 | 146 | 174.1 | 28.1 | 2 | 28.1m @ 2.0 g/t | 2020 Phase 3 | |
TTDD20-052 | 182 | 198 | 16 | 1 | 16m @ 1.0 g/t | 2020 Phase 3 | |
TTDD20-052 | 203 | 251 | 48 | 2.3 | 48m @ 2.3 g/t | 2020 Phase 3 | |
TTDD20-052 | 272 | 275.28 | 3.28 | 0.7 | 3.28m @ 0.7 g/t | 2020 Phase 3 | |
TTDD20-054 | 231 | 233.2 | 2.2 | 2.5 | 2.2m @ 2.5 g/t | 2020 Phase 3 | |
TTDD20-054 | 240.4 | 249 | 8.6 | 0.8 | 8.6m @ 0.8 g/t | 2020 Phase 3 | |
TTDD20-054 | 269 | 272 | 3 | 0.6 | 3m @ 0.6 g/t | 2020 Phase 3 | |
TTDD20-055 | 1.4 | 8 | 6.6 | 0.7 | 6.6m @ 0.7 g/t | 2020 Phase 3 | |
TTDD20-055 | 196 | 202 | 6 | 1.1 | 6m @ 1.1 g/t | 2020 Phase 3 | |
TTDD20-055 | 268 | 277 | 9 | 0.9 | 9m @ 0.9 g/t | 2020 Phase 3 | |
TTDD20-055 | 307.5 | 315 | 7.5 | 0.6 | 7.5m @ 0.6 g/t | 2020 Phase 3 | |
TTDD20-055 | 319 | 323 | 4 | 0.7 | 4m @ 0.7 g/t | 2020 Phase 3 | |
TTDD21-059 | 79.8 | 84.2 | 4.4 | 0.7 | 4.4m @ 0.7 g/t | 2020 Phase 3 | |
TTDD21-059 | 164 | 170 | 6 | 0.7 | 6m @ 0.7 g/t | 2020 Phase 3 | |
TTDD21-060 | 35 | 40.4 | 5.4 | 1.3 | 5.4m @ 1.3 g/t | 2021 Phase 3 | |
TTDD21-060 | 46.4 | 60 | 13.6 | 1 | 13.6m @ 1.0 g/t | 2021 Phase 3 | |
TTDD21-060 | 67.4 | 70 | 2.6 | 1.1 | 2.6m @ 1.1 g/t | 2021 Phase 3 | |
TTDD21-060 | 128 | 133 | 5 | 0.4 | 5m @ 0.4 g/t | 2021 Phase 3 | |
TTDD21-060 | 142 | 178 | 36 | 1.6 | 36m @ 1.6 g/t | 2021 Phase 3 | |
TTDD21-061 | 276 | 282 | 6 | 5.9 | 6m @ 5.9 g/t | 2021 Phase 3 | |
TTDD21-062 | 49 | 51 | 2 | 1.7 | 2m @ 1.7 g/t | 2021 Phase 3 | |
TTDD21-062 | 70 | 77 | 7 | 2.3 | 7m @ 2.3 g/t | 2021 Phase 3 | |
TTDD21-062 | 84.8 | 91 | 6.2 | 0.9 | 6.2m @ 0.9 g/t | 2021 Phase 3 | |
TTDD21-062 | 110 | 113 | 3 | 2.3 | 3m @ 2.3 g/t | 2021 Phase 3 | |
TTDD21-062 | 124 | 133 | 9 | 0.8 | 9m @ 0.8 g/t | 2021 Phase 3 | |
TTDD21-062 | 145 | 153 | 8 | 1.9 | 8m @ 1.9 g/t | 2021 Phase 3 | |
TTDD21-062 | 161 | 215 | 54 | 1.7 | 54m @ 1.7 g/t | 2021 Phase 3 | |
TTDD21-062 | 219 | 221 | 2 | 1.2 | 2m @ 1.2 g/t | 2021 Phase 3 | |
TTPC21-063 | 109.2 | 112.6 | 3.4 | 1.5 | 3.4m @ 1.5 g/t | 2021 Phase 3 | |
TTPC21-063 | 120 | 132 | 12 | 1.8 | 12m @ 1.8 g/t | 2021 Phase 3 | |
TTPC21-063 | 148.9 | 155 | 6.1 | 1 | 6.1m @ 1.0 g/t | 2021 Phase 3 | |
TTPC21-063 | 180 | 203 | 23 | 1.7 | 23m @ 1.7 g/t | 2021 Phase 3 | |
TTPC21-063 | 229.5 | 243 | 13.5 | 1.3 | 13.5m @ 1.3 g/t | 2021 Phase 3 | |
TTDD21-064 | 24 | 26 | 2 | 10.2 | 2m @ 10.2 g/t | 2021 Phase 3 | |
TTDD21-064 | 46.4 | 50 | 3.6 | 0.5 | 3.6m @ 0.5 g/t | 2021 Phase 3 | |
TTDD21-064 | 56 | 61 | 5 | 1.3 | 5m @ 1.3 g/t | 2021 Phase 3 | |
TTDD21-064 | 78.9 | 80.9 | 2 | 1.8 | 2m @ 1.8 g/t | 2021 Phase 3 | |
TTDD21-064 | 93 | 105.2 | 12.2 | 0.8 | 12.2m @ 0.8 g/t | 2021 Phase 3 | |
TTDD21-064 | 115 | 148.9 | 33.9 | 1.6 | 33.9m @ 1.6 g/t | 2021 Phase 3 | |
TTDD21-064 | 152.1 | 158 | 5.9 | 1.6 | 5.9m @ 1.6 g/t | 2021 Phase 3 | |
TTDD21-064 | 168.85 | 189 | 20.15 | 1.3 | 20.15m @ 1.3 g/t | 2021 Phase 3 | |
TTDD21-064 | 197 | 211 | 14 | 4.1 | 14m @ 4.1 g/t | 2021 Phase 3 | |
TTDD21-064 | 217 | 225 | 8 | 1.2 | 8m @ 1.2 g/t | 2021 Phase 3 | |
TTDD21-066 | 6 | 10.4 | 4.4 | 1 | 4.4m @ 1.0 g/t | 2021 Phase 3 | |
TTDD21-066 | 196 | 209 | 13 | 0.9 | 13m @ 0.9 g/t | 2021 Phase 3 | |
TTDD21-066 | 263 | 268 | 5 | 0.6 | 5m @ 0.6 g/t | 2021 Phase 3 | |
TTDD21-066 | 273.7 | 276.6 | 2.9 | 1.6 | 2.9m @ 1.6 g/t | 2021 Phase 3 | |
TTDD21-066 | 297 | 303 | 6 | 1.4 | 6m @ 1.4 g/t | 2021 Phase 3 | |
TTDD21-066 | 306.5 | 320.8 | 14.3 | 1.2 | 14.3m @ 1.2 g/t | 2021 Phase 3 | |
TTPC21-067 | 121 | 126 | 5 | 0.7 | 5m @ 0.7 g/t | 2021 Phase 3 | |
TTPC21-067 | 137.1 | 146.1 | 9 | 0.6 | 9m @ 0.6 g/t | 2021 Phase 3 | |
TTRC21-071 | 128 | 132 | 4 | 1.9 | 4m @ 1.9 g/t | 2021 Phase 3 | |
TTRC21-072 | 120 | 125 | 5 | 0.4 | 5m @ 0.4 g/t | 2021 Phase 3 | |
TTDD21-076 | 295.6 | 318 | 22.4 | 3.4 | 22.4m @ 3.4 g/t | 2021 Phase 3 | |
TTDD21-076 | 321.2 | 327 | 5.8 | 1.4 | 5.8m @ 1.4 g/t | 2021 Phase 3 | |
TTDD21-077 | 190.4 | 192.4 | 2 | 0.9 | 2m @ 0.9 g/t | 2021 Phase 3 | |
TTDD21-077 | 196 | 198.4 | 2.4 | 4.2 | 2.4m @ 4.2 g/t | 2021 Phase 3 | |
TTDD21-077 | 205.8 | 213 | 7.2 | 0.6 | 7.2m @ 0.6 g/t | 2021 Phase 3 | |
TTDD21-077 | 243 | 257.7 | 14.7 | 1.6 | 14.7m @ 1.6 g/t | 2021 Phase 3 | |
TTDD21-077 | 261.9 | 282 | 20.1 | 4.8 | 20.1m @ 4.8 g/t | 2021 Phase 3 | |
TTDD21-077 | 288 | 294.6 | 6.6 | 0.8 | 6.6m @ 0.8 g/t | 2021 Phase 3 | |
TTDD21-077 | 303 | 323 | 20 | 1.1 | 20m @ 1.1 g/t | 2021 Phase 3 | |
TTDD21-077 | 328 | 336.3 | 8.3 | 0.6 | 8.3m @ 0.6 g/t | 2021 Phase 3 | |
TTDD21-080 | 270.8 | 282 | 11.2 | 2.7 | 11.2m @ 2.7 g/t | 2021 Phase 3 | |
TTDD21-080 | 285.3 | 305.6 | 20.3 | 1 | 20.3m @ 1.0 g/t | 2021 Phase 3 | |
TTDD21-080 | 328.4 | 343 | 14.6 | 1.5 | 14.6m @ 1.5 g/t | 2021 Phase 3 | |
TTDD21-080 | 353 | 393 | 40 | 2.8 | 40m @ 2.8 g/t | 2021 Phase 3 |
Notes: | ||||||||
1 | Intervals indicated are not true widths as there is insufficient information to calculate true widths. However, drill holes have been drilled to cross interpreted mineralized zones as close to perpendicular as possible. | |||||||
2 | Intervals shaded grey were not reported previously. |
About Galiano Gold Inc.
Galiano is focused on creating a sustainable business capable of long-term value creation for its stakeholders through exploration and disciplined deployment of its financial resources. The company currently operates and manages the Asanko Gold Mine, located in Ghana, West Africa which is jointly owned with Gold Fields Ltd. The Company is strongly committed to the highest standards for environmental management, social responsibility, and health and safety for its employees and neighbouring communities. For more information, please visit www.galianogold.com.
Cautionary Note Regarding Forward-Looking Statements
Certain statements and information contained in this news release constitute "forward-looking statements" within the meaning of applicable U.S. securities laws and "forward-looking information" within the meaning of applicable Canadian securities laws, which we refer to collectively as "forward-looking statements". Forward-looking statements are statements and information regarding possible events, conditions or results of operations that are based upon assumptions about future conditions and courses of action. All statements and information other than statements of historical fact may be forward looking statements. In some cases, forward-looking statements can be identified by the use of words such as "seek", "expect", "anticipate", "budget", "plan", "estimate", "continue", "forecast", "intend", "believe", "predict", "potential", "target", "may", "could", "would", "might", "will" and similar words or phrases (including negative variations) suggesting future outcomes or statements regarding an outlook.
Forward-looking statements in this news release include, but are not limited to statements regarding: the Company's planned resource estimate at Miridani North, including the scope and timing thereof; the expected area of mineralization at Miradani North; and the Company's planned exploration programs, including the timing and results thereof;. Such forward-looking statements are based on a number of material factors and assumptions, including, but not limited to: the preparation of the Company's planned resource estimate at Miridani North proceeding as currently anticipated; the Company's planned resource estimate conforming to the current scope expected by the Company; the Company's planned exploration programs proceeding as anticipated;that labour disputes or disruptions, flooding, ground instability, geotechnical failure, fire, failure of plant, equipment or processes to operate are as anticipated and other risks of the mining industry will not be encountered; and that contracted parties provide goods or services in a timely manner.
Forward-looking statements involve known and unknown risks, uncertainties and other factors which may cause actual results, performance or achievements to differ materially from those anticipated in such forward-looking statements. The Company believes the expectations reflected in such forward-looking statements are reasonable, but no assurance can be given that these expectations will prove to be correct and you are cautioned not to place undue reliance on forward-looking statements contained herein. Some of the risks and other factors which could cause actual results to differ materially from those expressed in the forward-looking statements contained in this news release, include, but are not limited to: the risk that the Company's planned resource estimate at Miridani North is not completed on the timeline currently anticipated, or at all, and/or that the scope of the planned resource estimate is different than currently anticipated; that the Company may not undertake planned future mining or exploration; the Company's and/or the AGM's operations may be curtailed or halted entirely as a result of the COVID-19 pandemic, whether as a result of governmental or regulatory law or pronouncement, or otherwise; andrisks related to the Company's use of contractors; the hazards and risks normally encountered in the exploration, development and production of gold;.
Although the Company has attempted to identify important factors that could cause actual results or events to differ materially from those described in the forward-looking statements, you are cautioned that this list is not exhaustive and there may be other factors that the Company has not identified. Furthermore, the Company undertakes no obligation to update or revise any forward-looking statements included in, or incorporated by reference in, this news release if these beliefs, estimates and opinions or other circumstances should change, except as otherwise required by applicable law.
Cautionary Note to US Investors Regarding Mineral Reporting Standards:
As a British Columbia corporation and a "reporting issuer" under Canadian securities laws, the Company is required to provide disclosure regarding its mineral properties, including the AGM, in accordance with Canadian National Instrument 43-101 Standards of Disclosure for Mineral Projects ("NI 43-101"). NI 43-101 is a rule developed by the Canadian Securities Administrators that establishes standards for all public disclosure an issuer makes of scientific and technical information concerning mineral projects. In accordance with NI 43-101, the Company uses the terms mineral reserves and resources as they are defined in accordance with the CIM Definition Standards on mineral reserves and resources (the "CIM Definition Standards") adopted by the Canadian Institute of Mining, Metallurgy and Petroleum. In particular, the terms "mineral reserve", "proven mineral reserve", "probable mineral reserve", "mineral resource", "measured mineral resource", "indicated mineral resource" and "inferred mineral resource" used in this press release are Canadian mining terms defined in accordance with CIM Definition Standards. These definitions differ from the definitions in the disclosure requirements promulgated by the SEC. Accordingly, information contained in this press release may not be comparable to similar information made public by U.S. companies reporting pursuant to SEC disclosure requirements.
United States investors are also cautioned that while the SEC will now recognize "measured mineral resources", "indicated mineral resources" and "inferred mineral resources", investors should not assume that any part or all of the mineralization in these categories will ever be converted into a higher category of mineral resources or into mineral reserves. Mineralization described using these terms has a greater amount of uncertainty as to their existence and feasibility than mineralization that has been characterized as reserves. Accordingly, investors are cautioned not to assume that any "measured mineral resources", "indicated mineral resources", or "inferred mineral resources" that the Company reports are or will be economically or legally mineable.
Further, "inferred resources" have a greater amount of uncertainty as to their existence and as to whether they can be mined legally or economically. Therefore, United States investors are also cautioned not to assume that all or any part of the inferred resources exist. In accordance with Canadian rules, estimates of "inferred mineral resources" cannot form the basis of feasibility or other economic studies, except in limited circumstances where permitted under NI 43-101.
Neither Toronto Stock Exchange nor the Investment Industry Regulatory Organization of Canada accepts responsibility for the adequacy or accuracy of this release.
View original content to download multimedia:http://www.prnewswire.com/news-releases/galiano-gold-provides-miradani-north-phase-3-drilling-update-301295576.html
SOURCE Galiano Gold Inc.
FAQ
What are the latest drill results from Galiano Gold's Miradani North target?
When is the maiden Resource estimate for Miradani North expected?
How deep does the mineralization extend at Miradani North?