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Exploration Permit Minerals EPM27017 “Percy Springs”Annual Report for Twelve Months Ending 31st January 2021(01st February 2020 to 31st January 2021)and Surrender Report for Period Ending 30th November 2020Author: M. J. HunterDate of Report: 30/11/2021Tenement Holder: W. MacPhersonPrepared By: M. J. HunterSubmitted By: W. MacPhersonStatement of ComplianceThe Submitter of this report warrants that it is prepared in accordance with the requirements of; Section 202 of the Mineral and Energy Resources (Common Provisions) Act 2014The Mineral Resources Act 1989.Mineral Resources Regulations 2013Contents TOC \o "1-3" \h \z \u 1.EXECUTIVE SUMMARY PAGEREF _Toc54936888 \h 42.INTRODUCTION PAGEREF _Toc54936889 \h 52.1LOCATION & ACCESS PAGEREF _Toc54936890 \h 52.2RESOURCE AUTHORITY INFORMATION PAGEREF _Toc54936891 \h 62.3EXPLORATION RATIONALE PAGEREF _Toc54936892 \h 72.4PREVIOUS EXPLORATION PAGEREF _Toc54936893 \h 7Australian Anglo American (Anglo) 1981 to 1983 PAGEREF _Toc54936894 \h 7Metals Exploration Limited (MEL) 1981 to 1983 PAGEREF _Toc54936895 \h 7Metals Exploration Limited (MEL)/Seltrust Mining Corp. (SMAC)1983 to 1984 PAGEREF _Toc54936896 \h 8The Broken Hill Proprietary Co Ltd (BHP) 1983 to 1984 PAGEREF _Toc54936897 \h 8Western Mining Corporation (WMC) 1986 to 1989 PAGEREF _Toc54936898 \h 8Mount Leyshon Gold Mines Limited (MLGM) 1993 to 1995 PAGEREF _Toc54936899 \h 9Newcrest Mining Limited (NML) 2006 to 2007 PAGEREF _Toc54936900 \h 9Charters Towers Gold Pty Ltd (CTG)/Anhui Geology & Mining Inv. Ltd (Anhui) 2011 to 2017 PAGEREF _Toc54936901 \h 9Wayne MacPherson 2019 to 2020 ?MacPherson PAGEREF _Toc54936902 \h 103.EPM27017 CURRENT WORK PROGRAM PAGEREF _Toc54936903 \h 103.1GEOLOGY PAGEREF _Toc54936904 \h 103.1.1 Regional Geology PAGEREF _Toc54936905 \h 103.1.2 Prospect Geology - Percy Springs “Mine” PAGEREF _Toc54936906 \h 113.1.3 Prospect Geology - Percy Springs North Prospect PAGEREF _Toc54936907 \h 123.2ROCK CHIP SAMPLING PAGEREF _Toc54936908 \h 123.3DIAMOND CORE DRILLING PAGEREF _Toc54936909 \h 134.CONCLUSIONS PAGEREF _Toc54936910 \h 155. REFERENCES PAGEREF _Toc54936911 \h 16Tables PAGEREF _Toc54936912 \h 214.1Table 1 EPM27017 Rock Chip Sampling results PAGEREF _Toc54936913 \h 214.2Table 2. EPM27017 Diamond Core Drilling ALS PAGEREF _Toc54936914 \h 21Figures PAGEREF _Toc54936915 \h 214.3Figure 1. EPM27017 (“Percy Springs”) Location & Access PAGEREF _Toc54936916 \h 214.4Figure 2. EPM27017 Block Identification Map – Block – Sub-Blocks PAGEREF _Toc54936917 \h 214.5Figure 3. Percy Springs Rock Chip Sample Locations PAGEREF _Toc54936918 \h 21Appendicies PAGEREF _Toc54936919 \h 214.6Appendix 1. PSDDH03 Lithology PAGEREF _Toc54936920 \h 214.7Appendix 2. PSDDH03 Alteration PAGEREF _Toc54936921 \h 214.8Appendix 3. PSDDH03 Veining & Mineralisation PAGEREF _Toc54936922 \h 214.9Appendix 4. PSDDH03 Sample Sheet PAGEREF _Toc54936923 \h 214.10Appendix 5. PSDDH04 Lithology PAGEREF _Toc54936924 \h 214.11Appendix 6. PSDDH04 Alteration PAGEREF _Toc54936925 \h 214.12Appendix 7. PSDDH04 Veining & Mineralisation PAGEREF _Toc54936926 \h 214.13Appendix 8. PSDDH04 Sample Sheet PAGEREF _Toc54936927 \h 214.14Appendix 9. PSDDH05 Lithology PAGEREF _Toc54936928 \h 214.15Appendix 10. PSDDH05 Alteration PAGEREF _Toc54936929 \h 214.16Appendix 11. PSDDH05 Veining & Mineralisation PAGEREF _Toc54936930 \h 214.17Appendix 12. PSDDH05 Sample Sheet PAGEREF _Toc54936931 \h 214.18Appendix 13. PSDDH06 Lithology PAGEREF _Toc54936932 \h 214.19Appendix 14. PSDDH06 Alteration PAGEREF _Toc54936933 \h 214.20Appendix 15. PSDDH06 Veining & Mineralisation PAGEREF _Toc54936934 \h 214.21Appendix 16. PSDDH06 Sample Sheet PAGEREF _Toc54936935 \h 214.22Appendix 17. PSDDH03 Core Photograph 0.0 – 10.4m PAGEREF _Toc54936936 \h 214.23Appendix 18. PSDDH03 Core Photograph 10.4 – 18.3m PAGEREF _Toc54936937 \h 214.24Appendix 19. PSDDH03 Core Photograph 18.3 – 26.4m PAGEREF _Toc54936938 \h 214.25Appendix 20. PSDDH03 Core Photograph 26.4 – 34.1m PAGEREF _Toc54936939 \h 214.26Appendix 21. PSDDH03 Core Photograph 34.1 – 42.2m PAGEREF _Toc54936940 \h 214.27Appendix 22. PSDDH03 Core Photograph 42.2 – 49.9m PAGEREF _Toc54936941 \h 214.28Appendix 23. PSDDH03 Core Photograph 49.9 – 53.0m EOH PAGEREF _Toc54936942 \h 214.29Appendix 17. PSDDH04 Core Photograph 0.0 – 6.6m PAGEREF _Toc54936943 \h 214.30Appendix 18. PSDDH04 Core Photograph 6.6 – 15.3m PAGEREF _Toc54936944 \h 214.31Appendix 19. PSDDH04 Core Photograph 15.3 – 23.4m PAGEREF _Toc54936945 \h 214.32Appendix 20. PSDDH04 Core Photograph 23.4 – 29.1m EOH PAGEREF _Toc54936946 \h 214.33Appendix 17. PSDDH05 Core Photograph 0.0 – 9.6m PAGEREF _Toc54936947 \h 214.34Appendix 18. PSDDH05 Core Photograph 9.6 – 18.1m PAGEREF _Toc54936948 \h 214.35Appendix 19. PSDDH05 Core Photograph 18.1 – 26.6m PAGEREF _Toc54936949 \h 214.36Appendix 20. PSDDH05 Core Photograph 26.6 – 32.3m EOH PAGEREF _Toc54936950 \h 214.37Appendix 17. PSDDH06 Core Photograph 0.0 – 8.4m PAGEREF _Toc54936951 \h 214.38Appendix 18. PSDDH06 Core Photograph 8.4 – 16.8m PAGEREF _Toc54936952 \h 214.39Appendix 19. PSDDH06 Core Photograph 16.8 – 24.9m PAGEREF _Toc54936953 \h 214.40Appendix 20. PSDDH06 Core Photograph 24.9 – 33.2m PAGEREF _Toc54936954 \h 224.41Appendix 21. PSDDH06 Core Photograph 33.2 – 41.7m PAGEREF _Toc54936955 \h 224.42Appendix 22. PSDDH06 Core Photograph 41.7 – 50.1m PAGEREF _Toc54936956 \h 224.43Appendix 23. PSDDH06 Core Photograph 50.1 – 50.3m EOH PAGEREF _Toc54936957 \h 224.44Appendix 24. A4COA_TV20142831_21846-63348315.pdf Percy Springs Drill Hole Assays PAGEREF _Toc54936958 \h 224.45Appendix 25. A4QC_TV20142831_21846-63348315.pdf Percy Springs Drill Hole QAQC Assays PAGEREF _Toc54936959 \h 224.46Appendix 26. ITEK_6_3_2016289.pdf Percy Springs Rock Chip Assays PAGEREF _Toc54936960 \h 224.47Appendix 27. Variation of permit conditions approval EPM27017 PAGEREF _Toc54936961 \h 224.48Appendix 28. Exploration Permit Expenditure Statement 01_20 to 01_21 EPM27017 PAGEREF _Toc54936962 \h 22EXECUTIVE SUMMARYExploration work on Exploration Permit Minerals EPM27017 during the reporting period involved a comprehensive review of previous exploration work, limited geological traversing, surface rock chip sampling, and diamond core drilling, designed to locate economically viable gold mineralisation associated with the historically mined gold deposit and associated outcropping and subcropping quartz stockwork and stringer veining at and near the Percy Springs Mine.Diamond core drilling at the Percy Springs Mine during the reporting period located significant quartz stockwork and stringer veining, much of which is intimately associated with a fine grained, in part quartz porphyritic, felsic (?quartz porphyry) intrusive containing abundant limonote pseudomorphs, probably after pyrite. No economically viable gold mineralisation was found in rock chip samples or drill core during the reporting period.Fine grained intrusive (?quartz porphyry), which is intimately associated with quartz stockwork and stringer veining in drill holes at Percy Sprigs Mine, outcrops near the Percy Springs Main shaft, and is associated with a NE trending shear zone extending some 600 metres to the north-east of the shaft. This shear zone, with associated fine grained intrusive (?quartz porphyry), parallels a dominant NE regional structural trend which previous workers have identified as controlling Permian-Carboniferous intrusives and mineralised systems. The abundant outcropping and subcropping quartz stockwork and stringer veining centred about 80 metres west of the Percy Springs Main shaft occurs near the intersection of the NE trending shear zone and an IP resistivity contact with a NW trending photo lineament. Despite the occurrence of significant quartz stockwork and stringer veining in outcrop and subcrop near the Percy Springs Mine, and in diamond core drill holes, particularly in hole PSDDH03, the prospectivity of the EPM is considered significantly downgraded due to the lack of economically viable gold values reported in assays of drill core and surface rock chip samples. Accordingly, Exploration Permit Minerals EPM27017 is surrendered.INTRODUCTIONLOCATION & ACCESSExploration Permit Minerals EPM27017 (Percy Springs), comprising eight sub-blocks, is centred at GDA94 19O 57’S/146O 04’E some 23km NW of Charters Towers, Queensland. (Figure 1).Figure 1. EPM27017 (Percy Springs) Location & Access.Access to Exploration Permit Minerals EPM27017 is from Charters Towers north via the Lynd Highway for 10.8km to the Percy Springs turn-off, thence for 17.8km via the Percy Springs Road to the Percy Springs boundary gate, thence for some 6.0km via station tracks to the Percy Springs Mine site on the EPM.RESOURCE AUTHORITY INFORMATIONExploration Permit Minerals EPM27017 (Percy Springs) comprising eight (8) sub-blocks, being Sub-Blocks: D,E,J,K,O,P,T,U on Block Identification Map: TOWN, Block: 3109, was granted to Wayne MacPherson on 31st January 2019 for the term of five (5) years. (Figure 2) Figure 2. EPM27017 (Percy Springs) Block Identification Map – Block – Sub-Blocks.EXPLORATION RATIONALEExploration Permit Minerals EPM27017 was acquired to search for gold mineralisation comprising extensions to that mined in the Percy Springs Mine workings, and associated with nearby extensive outcropping and subcropping quartz stockwork veining. Exploration work on EPM27017 during the twelve month reporting period to 31st January 2021 was directed towards this aim.Four (4) diamond core holes (PSDDH03, 04, 05 and 06) were drilled to test for possible extensions to gold mineralisation mined in the Percy Springs Mine “Main” shaft (Figure 3).PREVIOUS EXPLORATIONChenowith and Evans (1986) Western Mining Corp. note that by 1913 many of the occurrences of gold mineralisation in the Charters Towers Goldfield had been located by prospectors, and that workings at Percy Creek North, in the northern part of EPM27017, date back to this period. They also note that the Percy Creek prospect (Percy Springs Mine) was discovered during a resurgence in gold prospecting during the depression of the 1930s. Since those times numerous mining and exploration companies have carried out exploration work over and near the area now covered by current EPM27017. Brief summaries of that work follow.Australian Anglo American (Anglo) 1981 to 1983Anglo assessed the potential for detrital gold accumulations in Cainozoic Southern Cross Formation and Campaspe Beds sedimentary units on ATP2493M (CR8449, CR9265, CR10090, CR10091, CR10939) south of current EPM27017 and on ATP3102M (CR9950) which abuts the eastern boundary of current EPM27017. Interpretation of 1:250,000 Landsat imagery, 1:25,000 photogeological interpretation, reconnaissance geological mapping, and heavy mineral stream sediment geochemistry failed to locate significant gold accumulations in the Cainozoic formations.Metals Exploration Limited (MEL) 1981 to 1983MEL explored ATP2807M (CR9323, CR10933, CR10934, CR11966) and ATP3450M (CR13134, CR13664) both of which are centred some 10-15km to the south west of EPM27017, in the Fern Springs area.Recognising gold bearing intrusives at the Big Hit Mine (~260 tonnes @ 31.6g/t) and Newhaven Mine (~886 tonnes @ 22.0g/t) MEL considered the Fern Springs area prospective for gold and carried out regional reconnaissance geological mapping and rock-chip sampling, airborne magnetics and radiometrics, and heavy mineral stream sediment sampling. Visible and assayed gold in heavy mineral concentrate stream sediment samples was found to be confined to a north-south zone which extends for some 8km from the Newhaven mine in the north to the Big Hit South workings in the south. Gold mineralisation was noted as occurring in late stage sericitized igneous intrusives within an adamellite at the Big Hit mine, and all located prospecting pits in the Big Hit area were seen to be spatially related to sericite altered quartz diorites which intrude a north-south tension zone which was considered to be the locus of known mineralisation.Detailed lithological and structural mapping, grab sampling, ground magnetics and genetic modelling were carried out over the Big Hit Mine area, and Rotary Air Blast (RAB) drilling was carried out at the Big Hit and Newhaven Mines and the UB1 prospect. The best gold intersection in RAB drilling was 2.0m @ 4.3ppm gold at the Newhaven Mine.Metals Exploration Limited (MEL)/Seltrust Mining Corp. (SMAC)1983 to 1984In a joint venture with Seltrust Mining Corp. on ATP3450M (CR13134, CR13664) MEL conducted open hole and reverse circulation percussion drilling on the Big Hit Mine (12 holes) and the UB1 prospect (1 hole).Best intersections were 9.0m @ 0.50ppm Au including 2.0m @ 5.37ppm Au in hole FSP2, and 2.0m @ 5.06ppm Au in hole FSP4a at the Big Hit Mine.The Broken Hill Proprietary Co Ltd (BHP) 1983 to 1984BHP explored ATPs 3510M (CR14260) and 3557M (CR12966, CR13370), parts of each of which cover the entire area of current EPM27017, for Charters Towers style ore bodies or an intrusive hosted massive sulphide, bulk low-grade gold orebody covered by laterite or Campaspe Beds.Reconnaissance regional geological mapping, heavy mineral stream sediment geochemistry, bedrock and soil sampling, revealed four areas of gold anomalism, on which more detailed follow-up soil and rock chip sampling and some costeaning were carried out. The follow-up work failed to detect economically significant gold mineralisation and no further work was conducted.Western Mining Corporation (WMC) 1986 to 1989WMC searched for Charters Towers type gold in quartz fissure reefs, laterite hosted Boddington style gold deposits, and Permo-Carb gold systems related to high-level intrusives on ATP4203M (Percy Springs) (CR16249, CR16250, CR16547, CR16873, CR18186) which covered all of current EPM27017. WMC located and sampled all known gold occurrences including Percy North and Percy Creek (Percy Springs Mine) on current EPM27017, defined the Tertiary/Quaternary stratigraphy, and identified and mapped Palaeozoic exposures.Low-level airborne magnetics was flown over WMC’s ATPs and this data, together with previously flown airborne magnetic data of Metals Exploration Limited to the west, was interpreted in a synthesis of geology, airborne geophysics and landsat imagery, with the aim of discriminating between various stages of igneous activity, defining structural data, and relating mineralised areas to specific magnetic signatures. Minus 80mesh stream sediment geochemistry was conducted over ATP4203M and a 15ppb sample was located NNE of Percy Creek (Percy Springs Mine).Two minus 80mesh reconnaissance soil sampling traverses GAIN 2 & GAIN4, with10m sample spacing, at Percy Creek Mine located a maximum 19ppb value, and traverse GAIN3, which tested across a narrow lode between two groups of workings at the Percy North prospect returned a maximum value of 3ppb gold. Grid soil sampling at the Percy Creek Mine returned a 150ppb gold value adjacent to the “main” shaft. Geological mapping and four lines of dipole-dipole IP were completed at Percy Creek Mine.Dump samples at Percy Creek Mine returned up to 5,710ppb and 1,140ppb gold, and dump samples at Percy North returned up to 400ppb gold.Mount Leyshon Gold Mines Limited (MLGM) 1993 to 1995 MLGM searched for gold mineralisation in basement rocks below extensive Tertiary to Recent fluvial deposits and laterites of the Campaspe and Southern Cross Formations on EPMs 8759 (Hann Ck), EPM9693 (Barrington) and amalgamated EPM9251 (Towers).A literature review, aerial photography, and stream sediment sampling were carried out and gridding, ground magnetics and drilling were carried out on some prospects. At Percy Springs Mine 10 rock-chip samples returned a maximum value of 0.95ppm gold, and two BCL samples in stream below the mine failed to detect gold.At Percy North a stream sediment sample from a small drainage on south side of Hann Creek and east of the workings was slightly anomalous at 0.2ppb gold, a dump sample returned 14.0ppm gold, and a maximum rock chip value of 0.005ppm gold was recorded. Rock chip sampling at Percy Springs Mine returned a maximum of 0.10ppm gold.Newcrest Mining Limited (NML) 2006 to 2007NML explored on EPM14642 (CR43336, CR45233) to the west and south of current EPM27017 for Kidston, Mt Morgan, Mt Leyshon, Ravenswood type >2M Oz large tonnage economic gold deposit, and smaller tonnage, higher grade deposits such as epithermal Pajingo-style or mesothermal Charters Towers style veins. Targets included intrusive related deposits with brecciation, replacement, and stockwork vein styles of mineralization.NML identified several controls on the location of Permo-Carb intrusive and mineralised systems and considered NE trending Permo-Carb magmatic corridors, NE structural trends (e.g. Keelbottom Corridor), major geological contacts, and zones of mafic intrusive activity important in area selection. They note that, on a deposit scale, a strong northwest trend or northeast trend is very important in localising the ore deposits at Mt. Leyshon, Mt. Wright/Nolans, Scott Lode/Vera Nancy, and Charters Towers and suggest that it is the intersection points of these major NE & NW faults where large gold deposits preferentially develop. The NE trending Keelbottom Corridor crosses the northern part of current EPM27017 Percy Springs and is considered prospective for a mineralised Permo-Carb intrusive complex.NML suggested that strong NE control on Permo-Carb igneous activity represents crustal scale vertical transform faults, possibly related to the creation of the Drummond Basin by back arc extension, and note that a third phase of significant gold mineralisation in the Lolworth-Ravenswood Block is associated with rhyolitic to dioritic igneous intrusives and extrusives of Permo-Carb age.Charters Towers Gold Pty Ltd (CTG)/Anhui Geology & Mining Inv. Ltd (Anhui) 2011 to 2017CTG/Anhui explored EPM15966 (CR93633, CR106504) and EPM18820 (CR82514, 90380, 95616, 95617, 100695, 115987) for Charters Towers style narrow vein quartz sulphide gold mineralisation with alteration halos up to several meters thick in granitic rocks of the Lolworth Batholith.The northern part of EPM15966 covered the south easternmost sub-block of current EPM27017 and EPM18820 covered all but one sub-block of current EPM27017.Recognising that much prospective ground is covered by Tertiary-Recent cover CTG/Anhui re-assessed and re-processed all regional airborne magnetics data to develop geophysical tools to explore under cover and based their solid geology interpretation on airborne magnetics . They reviewed a TerraSearch soil sampling database and collated and reviewed documents describing historical prospects and conducted field traversing to define local-regional scale controls on the distribution of mineralisation.Wayne MacPherson 2019 to 2020Tamaduk (2020) reports that work on EPM27017 during the twelve month reporting period to 31st January 2020 comprised a review of previous exploration work, surface and underground rock chip sampling, and drilling of two diamond core drill holes (PSDDH01 and 02) for a total of 200.2 metres (Figure 3).Eleven (11) samples of surface dump material at the Main shaft (Figure 3) returned four assays greater than 1.0ppm gold, with a maximum value of 10.0ppm gold and 3.34ppm silver.Nine (9) samples from the “shaft floor” returned five assays greater than 1.0ppm gold, with a maximum value of 5.88ppm gold and 1.3ppm silver.Five (5) samples from the “shaft face” returned two values greater than 1.0ppm gold, with a maximum value of 2.02ppm gold and 0.8ppm silver.Eleven samples from the “Bottom shaft face” returned nine assays greater than 1.0ppm gold, with a maximum value of 14.95ppm gold (No silver assays). Diamond core drill hole PSDDH01 (Azim 045OT/-60O 58.8mTD) was drilled to test for extensions of gold mineralisation mined in the Percy Springs Mine workings (Figure 3). The hole intersected 9.2m of brecciated rock with very strong quartz stockwork/breccia-fill veining from 21.7m to 30.9m. Within this 9.2m zone of brecciation and very strong quartz veining the interval 21.0m to 25.0m (4.0m) averaged 0.76ppm gold, including 22.0m to 23.0m (1.0m) @ 2.59ppm gold. This intersection of gold bearing quartz veining is probably up-dip from gold mineralised material worked in a NE dipping underly in the mine. Diamond core drill hole PSDDH02 (Azim 045OT/-60O 82.7mTD) was drilled to test for extensions of gold mineralisation mined in the Percy Springs Mine workings (Figure 3). The hole intersected variably weathered granite to 27.0m. The interval 27.0m to 31.0m comprised “strongly bleached” granite “…with minor vugghs” which forms the hangingwall to a “…major fault zone” from 31.0m to 33.7m. This strongly bleached granite and major fault zone is probably the down-dip extension of the body mined in the NW dipping underly in the mine workings. The hole intersected slightly weathered granite to 60.1m where a 0.6m “fault zone” to 61.7 may be the decomposed altered hangingwall to a green “microdiorite” dyke from 61.7m to 64.8m. The interval 64.8m to EOH at 82.7m comprises weakly weathered granite. EPM27017 CURRENT WORK PROGRAMGEOLOGYLimited reconnaissance geological traversing was carried out to determine the distribution of quartz veining associated with the Percy Springs Mine workings and to define possible structural controls on gold mineralisation. 3.1.1 Regional GeologyTertiary to Recent sediments and laterites cover more than 60% of EPM27017 and much of the “basement” lithologies are thus interpreted from airborne magnetics data. The Paleozoic “basement” rocks on Exploration Permit Minerals EPM27017 comprise Ordovician to Devonian granitic and granodioritic rocks (“granitoids”) of the Ravenswood Batholith which LeBherz (2007) suggests have intruded and partitioned metamorphic basement.Van Eck (1998) shows the Barrington Granodiorite underlying the southern 75% of EPM27017 and the Schreiber’s Granodiorite underlying 25% across the NE corner of the EPM.LeBherz (2007) for Newcrest suggests small igneous complexes, stocks, high level plugs, vents and diatremes were intruded during a period of magmatism in the Late Carboniferous to Early Permianand notes a dominant northeast control is evident in the emplacement of these bodies. The NE trending Keelbottom Corridor, which intersects the northern portion of EPM27017, is thus considered prospective for a mineralised Permo-Carboniferous intrusive complex. This strong northeast control, LeBherz suggests, probably represents crustal scale vertical transform faults, possibly related to the creation of the Drummond Basin by back arc extension. 3.1.2 Prospect Geology - Percy Springs “Mine”Chenowith and Evans (1986) note that during the depression of the 1930s, at the site of the Percy Springs Mine workings, prospectors discovered “…a weakly pyritised breccia containing gold…” which was, they note, “…notable because of the lack of quartz in the mineralisation.” A nine (9) metre deep vertical shaft was sunk, presumably initially on the “…weakly pyritised breccia” discovery outcrop. Wilkinson (1987) for WMC reported that geological mapping at the Percy Springs Mine showed that the workings occur in “…a window of biotite hornblende granodiorite with abundant felsites.” He identified an area of “…strong silicification brecciation and sericitization…” adjacent to the workings, and noted that “The area contains a 150 metre diameter, roughly circular, brecciated greisen zone…”Broughton (1992) for MLGM described “…intense sericite alteration and considerable quartz float/subcrop…” at the Percy Springs Mine, and noted that “…the dump contains large quantities of pyritic breccia with very coarse dog tooth quartz”Richards (1994) for CTG/Anhui suggests that Percy Springs and Percy Springs North workings lie on two separate NE trending structures that link southwards with the Big Hit and UB1 historical mines in the Fern Springs area, noting that the NE trending structures are apparent on regional geophysics images and are also paralleled by third order streams. Patchy sericite alteration in granite near the Percy Springs Main shaft was recognised in reconnaissance traversing during the current reporting period and fine grained felsic intrusive (?quartz porphyry) outcropping immediately south of the Main shaft was identified. A NE trending (37.5OT) shear zone with associated fine grained felsic intrusive extends for some 600m NE from the mine workings before disappearing under Tertiary cover. The Percy Springs quartz outcrop/subcrop is situated at the intersection of this NE trending shear zone with a NW trending photo lineament identified by WMC. Four lines of dipole-dipole IP (3 east-west and 1 north-south) completed by WMC at Percy Creek Mine delineated two shallow anomalous zones, neither of which were near the “Main” shaft. A major resistivity contact trending at about 50OT with moderate resistivity to the south east and high resistivity (?silicification) to the north west was also delineated south of the Main shaft. This resistivity contact parallels the NE trending shear zone mentioned above.On top of the small hill about 70m. west of the Main shaft there is a 30m. diameter area of outcropping/subcropping quartz (?stockwork) veining, around which is an area of quartz float about 75m. in diameter.Outcrops of brown ferruginous (?originally pyritic) ?greisenised granite occur some 56m NNW (35m diam.) and 70m. NNE (15m diam.) of the Main shaft. Fine grained felsic intrusive (?quartz porphyry) intersected in PSDDH04, 05 and 06 outcrops some 20m south of the Main shaft. 3.1.3 Prospect Geology - Percy Springs North ProspectChenowith and Evans (1986 WMC) suggest the Percy North prospect was probably located by prospectors prior to 1913. Very little information exists regarding the geology of the Percy North prospect and recent attempts to locate these workings on the ground have failed. Peters, et al. (1988) show two groups of workings at 400,714E/7,797,046N and 401,230E/7,796,424N close to Hann Creek. WMC (Chenowith and Evans, 1986) report on a soil sampling traverse with 10m sample spacing at the Percy North prospect “…between two groups of workings” across “…a narrow lode…”. This traverse, which failed to detect the lode, returned a maximum gold value of 3ppb.Hodkinson (1993 – MLGM) noted “An area of small workings on the bank of Hann Creek” and sampled quartz veining on mullock heaps which returned 14.0ppm and 1.58ppm gold values.Broughton (1992 – MLGM) described “numerous quartz pyrite veins and several small pits in…schistose metasediments near the contact with the Lolworth Batholith.”As noted above, Richards (2014) suggests that Percy Springs and Percy Springs North workings lie on two separate NE trending structures that link southwards with the Big Hit and UB1 historical mines in the Fern Springs area. ROCK CHIP SAMPLINGSeven (7) rock chip samples of quartz were collected from the Percy Springs Mine area and assayed for gold. (See Table 1 below and Appendix 26 for assay results).Sample No."Prospect"mE (GDA94)mN (GDA94)LithologyAu ppmPS01Percy Springs400,9377,794,956vein quartz<0.005PS02Percy Springs400,9437,795,136vein quartz<0.005PS03Percy Springs400,9647,795,145vein quartz<0.005PS04Percy Springs400,9507,794,923vein quartz<0.005PS05Percy Springs401,5327,795,480Stockwork qtz in fgn felsic intrusive<0.005PS06Percy Springs401,5257,795,465Stockwork qtz in fgn felsic intrusive<0.005PS07Percy Springs400,9647,794,989quartz float with fgn felsic intrusive<0.005Table 1. EPM27017 Rock Chip Sample Locations and Assays (See Figure 3 below for sample locations)Figure 3. Percy Springs Rock Chip Sample Locations. (See Table 1 above for assay results)Rock chip samples were submitted to Intertek/Genalysis Townsville laboratory where they were crushed to minus 2mm., then pulverised to minus 75μm. A 50g minus 75μm pulp sample was subjected to lead collection fire assay by method FA50 with OES finish, Detection limit 0.005ppm. (Appendix 26).DIAMOND CORE DRILLINGFour diamond core drill holes (PSDDH03,04,05, and 06) were drilled during the reporting period.Hole ID:mE (GDA94)mN (GDA94)Elevation (mAHD)Azim MagAzim TCollar InclinationTotal Depth (m)PSDDH03401,0257,795,102328---9053.00PSDDH04401,1057,795,090323---9029.10PSDDH05401,1017,795,076324155162.5-6032.30PSDDH06401,1047,795,080323090097.5-7050.30Table 1. EPM27017 Diamond Core Drilling Percy Springs Mine. (See Appendix 24 for assay results).Figure 3. Percy Springs Mine Area Shafts and Diamond Drill HolesPSDDH03 (-90O/53.0m) was drilled to test sub-cropping and outcropping quartz stockwork veining near the top of the small hill about 80metres west of the Percy Springs Main shaft (Figure 3). The hole intersected variably sericite and clay altered and weathered granite with abundant quartz stockwork and quartz stringer veining to 35.0m. with some narrow (max. 1.0m) breccias with granite clasts. A 1.12m. quartz stockwork from 35.0m. formed the hangingwall to a 7.83m. thick granite clast breccia to 44.55m. Slightly weathered granite with no quartz veining occurs beneath the granite clast breccia to EOH at 53.0m.Gold assays are weakly anomalous in the granite breccia zones, with maximum values of 0.01ppm.PSDDH04 (-90O/29.1m) was drilled to test for extensions of gold mineralisation mined in the Percy Springs Main shaft (Figure 3). The hole intersected variably clay (minor silica-hematite) altered and weathered granite with quartz stringer veining to 13.30m. From 13.30m to 18.11m fine grained felsic intrusive with some quartz phenocrysts (?quartz porphyry) was intersected. From 18.11m to EOH at 29.10m granite and numerous “dykes” of fine grained (?quartz porphy) felsic intrusive was intersected.Gold assays are weakly anomalous (to 0.01ppm) throughout the porphyritic felsic intrusive, with maximum gold assay 0.03ppm. in granite.PSDDH05 (-60O/32.3m) was drilled to test for a southern extension of gold mineralisation mined in the Percy Springs Main shaft (Figure 3). The hole intersected variably clay altered and weathered granite with minor pegmatitic and aplitic dykes to 15.94m. From 15.94 to 27.66m the hole intersected fine grained felsic intrusive with quartz phenocrysts (?quartz porphyry) and small limonite pseudomorphs after ?pyrite. No quartz stockwork or stringer veining was intersected, and the maximum gold assay was 0.01ppm.PSDDH06 (-70O/50.3m) was drilled to test for south eastern extensions of gold mineralisation mined in the Percy Springs Main shaft (Figure 3). The hole intersected variably clay (minor hematite) altered and moderately weathered granite and thin fine grained felsic intrusive with limonite pseudomorphs after ?pyrite to 14.00m. From 14.0m. to 26.85m. quartz stockwork in variably clay (minor hematite) altered granite was intersected and 26.85 to36.6m is variably clay (minor hematite) altered and moderately weathered granite. 36.6m. to 42.85m. is granite and fine grained felsic intrusive (?quartz porphyry). 42.85 to EOH at 50.3m comprises granite. Weakly anomalous gold values to maximum 0.01ppm are possibly associated with fine grained felsic intrusive.CONCLUSIONSDue to the lack of economically viable gold values in assays of drill core or surface rock chip samples, despite the occurrence of significant quartz stockwork and stringer veining in outcrop/subcrop, and in diamond core drill holes, particularly in hole PSDDH03, Exploration Permit Minerals EPM27017 is surrendered.5. REFERENCESAcharya, S. and Lynch, M., 2018. Charters Towers Gold Project. Exploration Permit Minerals 15966. EPM 15966 Partial Relinquishment report, September 2017. CTG Report No. CT2018-07 (CR106504)Acharya, S. and Lynch, M., 2017. Charters Towers Gold Project. Exploration Permit Minerals 18820. EPM 18820 Annual report for the Year Ending 31st March 2017. CTG Report No. CT2017-06 (CR100695)Anonymous, 1984. The Broken Hill Proprietary Co. Ltd. Authorities to Prospect 3510M and 3557M Powlathanga West and East, Qld. Report for Six Months Ended 3 June, 1984. (CR13370)Anonymous, 1984. Metals Exploration Limited. Fern Spring Project A to P 3450M Charters Towers District, North Queensland, Final Report for the Period Ended May 13, 1984. Volume I. Report No. 768. (CR13664)Bain, J. H. C. and Draper, J. J., 1997. North Queensland Geology, Australian Geological Survey Organisation Bulletin 240 and Queensland Department of Mines and Energy, Queensland geology Survey of Queensland.Box, S., 1993. Annual report for 1992/1993 Twelve Months Ended 30th April and Final report EPM8759 Hann Creek. Volume II of II (CR24531B)Box, S., 1993. Annual report for 1992/1993 Twelve Months Ended 30th April and Final report EPM8759 Hann Creek. Volume I of II (CR24531A)Broughton, D., 1992. Mt Leyshon Gold Mines Limited. Report on Prospecting Work Hann Creek EPM 7497 Carried Out by Dave Broughton. July 1992.Broughton, D., 1992. Mt Leyshon Gold Mines Limited. Report on Prospecting Work Urdera/Barkla Area Southern Cross EPM 7497 Hann Creek EPM 8759 Carried Out by Dave Broughton. July 1992.Bush, A., 1990e. Western Mining Corporation limited, Exploration Division – Eastern Region. Final Report for As.T.P. 4202M Gains Creek, 4203M Percy Springs, 4332M Barkla, and Partial Relinquishment Report for 4421M Southern Cross 17.10.89 Vol II of II. (CR1915B)Bush, A., 1990d. Western Mining Corporation limited, Exploration Division – Eastern Region. Final Report for As.T.P. 4202M Gains Creek, 4203M Percy Springs, 4332M Barkla, and Partial Relinquishment Report for 4421M Southern Cross 17.10.89 Vol I of II. (CR1915A)Bush, A., 1990c. Western Mining Corporation limited, Exploration Division – Eastern Region. Annual Report Charters Towers Project to the Mines Department for the Period Ended 4th August, 1989. Volume III of III. (CR1841C)Bush, A., 1990b. Western Mining Corporation limited, Exploration Division – Eastern Region. Annual Report Charters Towers Project to the Mines Department for the Period Ended 4th August, 1989. Volume II of III. (CR1841B)Bush, A., 1990a. Western Mining Corporation limited, Exploration Division – Eastern Region. Annual Report Charters Towers Project to the Mines Department for the Period Ended 4th August, 1989. Volume I of III. (CR1841A)Buys, J. and Richards, S., 2015. Percy Springs. Exploration Permit Minerals 18820. EPM18820 Annual report for the Year Ending 10 February 2015. CTG Report No. CT2015-03 (CR90380)Chenoweth, L. M. and Evans, D. F., 1986. First Six Monthly Report on Exploration of A to Ps 4202M (Gains Ck), 4203M (Percy Springs), 4332M (Barkla) and 4421M (Southern Cross) to 5th August 1986. Volume 2. (CR16249B)Chenoweth, L. M. and Evans, D. F., 1986. First Six Monthly Report on Exploration of A to Ps 4202M (Gains Ck), 4203M (Percy Springs), 4332M (Barkla) and 4421M (Southern Cross) to 5th August 1986. Volume 1. (CR16249a)Clarke, D. E. and Paine, A. G. L., 1970. Explanatory Notes to Accompany the Charters Towers Sheet SF 55-2, 1:250,000 Scale Geological series.Department of Mines and Energy Brisbane. 1996. Townsville Queensland 1:100,000 Geological Series. Sheet 8157. Charters Towers.Dow, R. J. D., 2006. Annual Report on Work Conducted in the 12 months ending 26 March 2006 for Exploration Permits for Minerals 10937, 12124, 14591,14594,14595, 14596 and 14597 Newcrest Mining Ltd.Draper, J. J., Withnall, I. W. and Hill, R. B., 1995. Townsville Queensland. Sheet SE 55-14. Australia 1:250,000 Geological Series. Department of Mines and Energy Brisbane.Fortowski, D., 2012. EPM 15966 Annual report for the Period 29 October 2010 to 28 October 2011. Citigold Report No 2012-05 (Unpublished).Grimes, K. G., 1979. The stratigraphic sequences of old land surfaces in northern Queensland. BMR Journal of Aust. Geol. And Geophysics, 4, pp.33-46.Grimes, K. G., 1980. The Tertiary geology of north Queensland. In: The Geology and Geophysics of northeastern Australia. Geol. Soc. Aust. Qld. Div. pp.329-347.Hall, D. N., 1982. Australian Anglo American Searches Pty. Ltd. Final report to the Mines Department Queensland – A’s to P 2492, 2493 M. Southern Cross. (CR10939)Hall, D. N., 1982. Australian Anglo American Searches Pty. Ltd. Report to the Mines Department, Queensland for the Six Months ending 31st December, 1981. A’s to P 2492, 2493 M. Southern Cross. (CR10091) Hall, D. N., 1981. Australian Anglo American Searches Pty. Ltd. Authorities to Prospect 2492 and 2493 M, Southern Cross. Final Report to the Queensland Mines Department for Those Parts Relinquished on 30th June 1981. (CR10090) Hall, D. N., 1981. Australian Anglo American Searches Pty. Ltd. Report to the Department of Mines, Queensland for the Six Month Period Ending 30th June 1981. Authorities to Prospect 2492, 2493 M. Southern Cross. (CR9265) Hodkinson, I., 1993. Mt Leyshon Gold Mines Limited. Annual Report for 1992/1993 Twelve Month Period Ended 30th April and Final Report EPM8759 Hann Creek. Volume II of II. (CR24531B)Hodkinson, I., 1993. Mt Leyshon Gold Mines Limited. Annual Report for 1992/1993 Twelve Month Period Ended 30th April and Final Report EPM8759 Hann Creek. Volume I of II. (CR24531A)Kay, J. and Box, S., 1993. Mt Leyshon Gold Mines Limited. EPM8759 Hann Creek, EPM8123 Lincoln Hill, EPM7497 Southern Cross/Puzzler. Charters Towers, North Queensland. Combined Summary Exploration Report Upon Amalgamation Into EPM 9251 Towers, on 12th March 1993 (CR24769)Leckie, J. F., Date Unknown. Assessment of Metals Exploration Ltd. Fern Spring Prospect A. to P. 2806M and A. to P. 2807M, Charters Towers, Qld. BHP.Levingston, K. R., 1981. Geological evolution and economic geology of the Burdekin River Region, Qld. BMR Bulletin 208.Marks, E. O., 1913. Outside Mines of the Charters Towers Goldfield, Qld. Geol. Surv. Publ. No. 129 pp.1-21.MacConnell, W. D., 1991. Final Report for EPM4421 (Southern Cross), 4602 (Merrie Monarch) to February 1991. Western Mining Corporation. (CR22079)Morton, C. C., 1939. “Fern Springs, Charters Towers Goldfield” Queensland Min. Journal, 15 September, 1939.Morton, C. C., 1939. “Gold Discovery near Fern Springs – Charters Towers Goldfield” Queensland Min. Journal, 15 March, 1939.Newton-Smith, J., 1982. Australian Anglo American Limited. Report to the Department of Mines, Queensland for the Six Month Period Ending 13th January 1982. A to P 3102M – Pocket Well. (CR9950)MacLeod, C., 1982. A to Ps 2806M and 2807M Fern Spring Prospect, North Queensland. Report for Six Months Ending 19/6/82 Report No. 599. (CR10934)Macleod, C., 1982. A to Ps 2806M and 2807M Fern Spring, North Queensland. Report for Six Months Ending 19.12.81 report No. 559. (CR10933)MacLeod, C., 1981. Authorities to Prospect 2806M and 2807M “Fern Springs” Qld. Report Six Months Ending 19.6.1981. Report No. 544. (CR9323) Newton-Smith, J., 1981. Australian Anglo American Searches Pty. Ltd. Report to the Department of Mines, Queensland for the Six Month Period Ending 31st December 1980. As to P 2492M and 2493M Southern Cross. (CR8449) Oxenburgh, S., 1995. Barrington EPM 96936. Partial Relinquishment Report for the Twelve Months Ended 19 January 1995. Volume 1 of 1. (CR26754)Peters, S. G., 1989. Report on Partial relinquishment of A’s to P 4202M (Gains Ck), 4203M (Percy Springs), 4332M (Barkla) and 4421M (Southern Cross) Effective 5th February, 1989. (CR20016)Peters, S. G., Hayward, S., Webb, M. and Kelly, G., 1988. Fifth Six Monthly report on Exploration of A. to P.s 4202M (Gains Ck), 4203M (Percy Springs), 4332M (Barkla) and 4421M (Southern Cross) to 5th August, 1988. Volume 3 of 3. (CR18285C) Peters, S. G., Hayward, S., Webb, M. and Kelly, G., 1988. Fifth Six Monthly report on Exploration of A. to P.s 4202M (Gains Ck), 4203M (Percy Springs), 4332M (Barkla) and 4421M (Southern Cross) to 5th August, 1988. Volume 2 of 3. (CR18285B) Peters, S. G., Hayward, S., Webb, M. and Kelly, G., 1988. Fifth Six Monthly report on Exploration of A. to P.s 4202M (Gains Ck), 4203M (Percy Springs), 4332M (Barkla) and 4421M (Southern Cross) to 5th August, 1988. Volume 1 of 3. (CR18285A) Peters, S. G. and Wilkinson, C. S., 1987. Third Six Monthly Report on Exploration of A. to P.s 4202M (Gains Ck), 4203M (Percy Springs), 4332M (Barkla) and 4421M (Southern Cross) to 5th August, 1987. Volume Two. (CR16873B) Peters, S. G. and Wilkinson, C. S., 1987. Third Six Monthly Report on Exploration of A to Ps 4202M (Gains Ck), 4203M (Percy Springs), 4332M (Barkla) and 4421M (Southern Cross) to 5th August, 1987. Volume One. (CR16873A) Peters, S. G., 1987B. Geology and lode controls of the Charters towers Goldfield, northeastern Queensland. Econ. Geol. Res. Unit. James Cook Uni., EGRU Contrib. 19. 117p.Peters, S. G., 1987A. Geology, lode controls, fluid characteristics and ore shoot growth in mesothermal gold-quartz vein deposits, northeastern Queensland. PhD Thesis, James Cook University, Townsville. (Unpublished) 272p.Peters, S. G., Webb, M. and Kelly, G., 1988. Fourth Six Monthly Report on Exploration of A. to P.s 4202M (Gains Creek), 4203M (Percy Springs), 4332M (Barkla) and 4421M (Southern Cross) to 5th February, 1988. (CR18186)Peters, S. G., 1985. Gains Creek Mapping. In house WMC Report. (Unpublished). 50p.Richards, S., 2016. Charters Towers Gold Project. Percy Springs. Exploration Permit Minerals 18820. EPM 18820 Annual Report for the Year Ending 10 February 2016. CTG Report No. CT2016-06 (CR95617)Richards, S. and Buys, J., 2016. Charters Towers Gold Project. Exploration Permit Minerals 18820. Partial relinquishment Report EPM18820. CTG Report No. CT2016-02 (CR95616)Richards, S, Buys, J. and Tamaduk, P., 2015. Charters Towers Gold Project. Exploration Permit Minerals 15966. Partial Relinquishment Report EPM15966 CTG Report No. CT2015-10 (CR93633)Richards, S., 2014. EPM 18820 Charters Towers Gold Project. Annual Report for the Period February 2013 to February 2014. Report No. CT2014-02 (CR82514)Richards, S. and Buys, J., 2014. EPM 15966 Annual Report for the period 29 October 2013 to 28 October 2014. Citigold Report No. 2014-30 (Unpublished).Tamaduk, P., 2020. Percy Springs Gold Project. EPM27017. Annual Report for the Year Ending 31st January 2020. Unpublished.The Broken Hill Proprietary Co. Ltd., 1984. Authorities to Prospect 3510M and 3557M, Powlathanga West and East, Queensland. Report for the Six Months Ended 3 December, 1983.Van Eck, M., 1998. Myrrlumbing Project. Towers EPM9251, Barrington EPM9693 Annual Exploration Report for the Period Ending 16th March 1998. Volume 1 of 3: Text and Plates 1 to 8 (CR30386A)Towsey, C. A. J., 2017. EPM 18820 Partial Relinquishment report for 44 sub-blocks relinquished September 2017. (CR115987)Wilkinson, C. S., 1987B. Report on Partial Relinquishment from A.T.P. 4202M (Gains Creek) and A.T.P. 4203M (Percy Springs) Effective on 5th February 1987. (CR16547)Wilkinson, C. S., 1987. Second Six Monthly Report on A to Ps 4202M (Gains Ck), 4203M (Percy Springs), 4332M (Barkla) and 4421M (Southern Cross) to4/2/87. (CR16250) Wood, D. G. and Towsey, C. A., 1985. Authorities to Prospect 3510M & 3557M Powlathanga west and east, Qld. Report for Six Months Ended 3 December, 1984. And Final Report.Wyatt, H., et. al., 1971. Geology of the Charters Towers 1:250,000Sheet Area, Queensland. BMR Report 137.Queensland Government Department of Natural Resources, Mines and Energy. Variation of permit conditions approval EPM27017. 13 May 2020. TablesTable 1 EPM27017 Rock Chip Sampling resultsTable 2. EPM27017 Diamond Core Drilling ALSFiguresFigure 1. EPM27017 (“Percy Springs”) Location & AccessFigure 2. EPM27017 Block Identification Map – Block – Sub-BlocksFigure 3. Percy Springs Rock Chip Sample LocationsAppendicies Appendix 1. Percy Springs EPM27017 – Drill Hole Logging Legend Appendix 2. PSDDH03 Lithology Appendix 3. PSDDH03 Alteration Appendix 4. PSDDH03 Veining & MineralisationAppendix 5. PSDDH03 Sample SheetAppendix 6. PSDDH04 LithologyAppendix 7. PSDDH04 AlterationAppendix 8. PSDDH04 Veining & MineralisationAppendix 9. PSDDH04 Sample SheetAppendix 10. PSDDH05 LithologyAppendix 11. PSDDH05 AlterationAppendix 12. PSDDH05 Veining & MineralisationAppendix 13. PSDDH05 Sample SheetAppendix 14. PSDDH06 LithologyAppendix 15. PSDDH06 AlterationAppendix 16. PSDDH06 Veining & MineralisationAppendix 17. PSDDH06 Sample SheetAppendix 18. PSDDH03 Core Photograph 0.0 – 10.4mAppendix 19. PSDDH03 Core Photograph 10.4 – 18.3mAppendix 20. PSDDH03 Core Photograph 18.3 – 26.4mAppendix 21. PSDDH03 Core Photograph 26.4 – 34.1mAppendix 22. PSDDH03 Core Photograph 34.1 – 42.2mAppendix 23. PSDDH03 Core Photograph 42.2 – 49.9mAppendix 24. PSDDH03 Core Photograph 49.9 – 53.0m EOHAppendix 25. PSDDH04 Core Photograph 0.0 – 6.6mAppendix 26. PSDDH04 Core Photograph 6.6 – 15.3mAppendix 27. PSDDH04 Core Photograph 15.3 – 23.4mAppendix 28. PSDDH04 Core Photograph 23.4 – 29.1m EOHAppendix 29. PSDDH05 Core Photograph 0.0 – 9.6mAppendix 30. PSDDH05 Core Photograph 9.6 – 18.1mAppendix 31. PSDDH05 Core Photograph 18.1 – 26.6mAppendix 32. PSDDH05 Core Photograph 26.6 – 32.3m EOHAppendix 33. PSDDH06 Core Photograph 0.0 – 8.4mAppendix 34. PSDDH06 Core Photograph 8.4 – 16.8mAppendix 35. PSDDH06 Core Photograph 16.8 – 24.9mAppendix 36. PSDDH06 Core Photograph 24.9 – 33.2mAppendix 37. PSDDH06 Core Photograph 33.2 – 41.7mAppendix 38. PSDDH06 Core Photograph 41.7 – 50.1mAppendix 39. PSDDH06 Core Photograph 50.1 – 50.3m EOH HYPERLINK "" Appendix 40. A4COA_TV20142831_21846-63348315.pdf Percy Springs Drill Hole AssaysAppendix 41. A4QC_TV20142831_21846-63348315.pdf Percy Springs Drill Hole QAQC AssaysAppendix 42. ITEK_6_3_2016289.pdf Percy Springs Rock Chip AssaysAppendix 43. Variation of permit conditions approval EPM27017Appendix 44. Exploration Permit Expenditure Statement 01_20 to 01_21 EPM27017 ................
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