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Share Name | Share Symbol | Market | Type | Share ISIN | Share Description |
---|---|---|---|---|---|
First Tin Plc | LSE:1SN | London | Ordinary Share | GB00BNR45554 | ORD GBP0.001 |
Price Change | % Change | Share Price | Bid Price | Offer Price | High Price | Low Price | Open Price | Shares Traded | Last Trade | |
---|---|---|---|---|---|---|---|---|---|---|
0.00 | 0.00% | 5.375 | 5.25 | 5.50 | 5.375 | 5.25 | 5.375 | 0.00 | 08:00:23 |
Industry Sector | Turnover | Profit | EPS - Basic | PE Ratio | Market Cap |
---|---|---|---|---|---|
Miscellaneous Metal Ores,nec | 0 | -2.26M | -0.0085 | -6.32 | 14.26M |
TIDM1SN
RNS Number : 3239C
First Tin PLC
12 June 2023
12 June 2023
First Tin Plc
("First Tin" or "the Company")
Completion of Taronga Drilling and Assay Results
First Tin Plc ("First Tin"), a tin development company with advanced, low capex projects in Germany and Australia, is pleased to announce that all drilling, including "Phase 2" infill and extension drilling, at its Taronga tin project in Australia, is now complete and that the results from the programme have confirmed the approximately 400m extension to the southwest.
The project is owned by First Tin's 100% owned Australian subsidiary, Taronga Mines Pty Ltd ("TMPL").
Highlights
-- Infill and extension RC drilling "Phase 2": 2228m in 28 drillholes (3 abandoned)
-- When added to the "Phase 1" infill and extension drilling, a total of 4035m infill and extension RC drilling has been completed in 40 drillholes (3 abandoned)
-- The drilling has extended the Payback Zone mineralisation approximately 400m to the south and has provided indications the gap between the south and north zones contains some mineralisation
-- Significant drill intercepts from the southwest extension include:
o 35m @ 0.20% Sn including 15m @ 0.35% Sn
o 49m @ 0.12% Sn including 28m @ 0.17% Sn
o 25m @ 0.20% Sn including 14m @ 0.25% Sn
o 37m @ 0.15% Sn including 11m @ 0.35% Sn
o 58m @ 0.11% Sn including 31m @ 0.15% Sn
o 39m @ 0.15% Sn including 8m @ 0.51% Sn
o 17m @ 0.19% Sn including 3m @ 0.42% Sn
o 45m @ 0.13% Sn including 9m @ 0.22% Sn
-- Significant intercepts from the central area include:
o 15m @ 0.17% Sn
-- Significant intercepts from infill drilling include:
o 59m @ 0.12% Sn including 24m @ 0.16% Sn
o 11m @ 0.19% Sn including 8m @ 0.23% Sn
-- Now that all results have been received and compiled, a revised Mineral Resource Estimation (MRE) will be undertaken, with results expected within Q3 2023.
All results are presented in Table 1. The true width of intervals is around half the downhole width. Estimated true widths are included in Table 1.
The southern extension drilling is significant as it has extended the mineralisation to the southwest by around 400m (Figure 1). A typical cross section is shown in Figure 2 and this shows the interpreted mineralisation zone, which is approximately 20m true width. This is about average for the 400m strike tested to date.
The southernmost line of drilling still returned significant mineralisation, indicating potential extensions still exist even further to the southwest.
A single line of drilling was put through the centre of the "gap" zone that sits between the north and south zones identified by Newmont. This returned three zones of mineralisation which are moderately mineralised with intercepts of:
-- 15m @ 0.17% Sn incl. 9m @ 0.25% Sn -- 22m @ 0.09% Sn and 39m @ 0.08% Sn (incl. 18m @ 0.10% Sn) -- 19m @ 0.09% Sn
These are shown on a cross section in Figure 4, the location of which is shown in Figure 3. We expect that these zones are extensions of the Payback and Payback Extended zones which trend into the north zone. They suggest good potential to close the gap between the two Newmont mineralisation zones so that a single pit may be possible. We expect to drill this area out in FY2024 as part of an optimisation programme.
Several drillholes were placed in the gaps in the previous drilling in order to improve the resource category in those areas. These were generally successful as shown by drillhole TMRC041 (Figures 5 and 3), which tested a weakly defined northwest extension to the mineralisation in the north zone. That hole returned 59m @ 0.12% Sn including 24m @ 0.16% Sn. This northwest extension also requires additional drilling that may increase resources. This is planned as part of the FY2024 optimisation programme.
Hole No. Easting Northing Elevation Dip Azimuth Total From (m) To Interval Estimated Grade (GDA94 (GDA94 (m) (deg) (deg Depth (m) (m) True (% Sn) Z56) Z56) True) (m) Width (m) TMTARC014 359030.2 6747992.8 876.7 -60.5 325.0 31.0 abandoned --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- TMTARC014a 359025.7 6747994.7 876.8 -60.5 325.0 24.0 abandoned --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- TMTARC014b 359024.8 6747996.7 877.1 -60.5 325.0 21.0 abandoned --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- TMTARC015 358918.5 6747967.6 861.9 -59.5 322.0 150.0 24.0 35.0 11.0 6 0.20 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- incl. 24.0 29.0 5.0 3 0.34 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- 70.0 72.0 2.0 1 0.13 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- 91.0 96.0 5.0 3 0.15 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- 115.0 129.0 14.0 7 0.09 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- incl. 115.0 118.0 3.0 2 0.19 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- No significant TMTARC019 358842.4 6747848.6 861.0 -60.4 325.0 150.0 mineralisation --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- TMTARC021 357967.6 6747440.1 845.8 -60.5 144.0 121.0 63.0 98.0 35.0 22 0.20 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- incl. 82.0 97.0 15.0 9 0.35 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- TMTARC022 357885.2 6747382.9 854.6 -60.2 143.0 110 60.0 109.0 49.0 23 0.12 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- incl. 69.0 97.0 28.0 13 0.17 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- TMTARC023 357945.1 6747395.1 847.7 -59.9 143.0 100 10.0 16.0 6.0 3 0.05 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- 22.0 30.0 8.0 5 0.08 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- 33.0 58.0 25.0 15 0.20 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- incl. 37.0 51.0 14.0 8 0.25 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- 73.0 82.0 9.0 5 0.12 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- TMTARC024 357985.9 6747430.1 843.0 -59.8 144.0 80 41.0 78.0 37.0 23 0.15 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- incl. 53.0 64.0 11.0 7 0.35 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- TMTARC025 357809.1 6747318.6 843.7 -60.1 143.0 110 41.0 80.0 39.0 25 0.10 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- -------
incl. 72.0 79.0 7.0 4 0.15 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- TMTARC026 357821.5 6747299.2 838.7 -60.3 143.0 60 8.0 37.0 29.0 19 0.14 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- incl. 13.0 32.0 19.0 9 0.15 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- TMTARC027 357908.3 6747363.1 851.5 -60.3 143.0 70 10.0 68.0 58.0 30 0.11 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- incl. 20.0 51.0 31.0 16 0.15 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- TMTARC028 358061.5 6747408.3 827.6 -60.1 323.0 109 0.0 39.0 39.0 10 0.15 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- incl. 15.0 23.0 8.0 3 0.51 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- 46.0 83.0 37.0 12 0.16 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- incl. 55.0 76.0 21.0 7 0.21 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- 94.0 107.0 13.0 4 0.08 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- TMTARC029 358126.1 6747435.5 834.8 -60.3 324.0 79 37.0 60.0 23.0 12 0.19 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- incl. 41.0 58.0 17.0 8 0.24 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- 65.0 79.0 14.0 7 0.09 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- TMTARC030 358111.9 6747418.3 832.0 -60.3 323.0 80 63.0 80.0 17.0 9 0.19 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- incl. 66.0 72.0 6.0 3 0.42 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- TMTARC031 358181.2 6747454.1 837.6 -59.7 144.0 100 0.0 2.0 2.0 1 0.07 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- 29.0 30.0 1.0 1 0.15 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- TMTARC032 358142.6 6747413.8 826.0 -60.0 324.0 103 nsi --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- TMTARC033 358092.3 6747444.3 839.9 -59.9 323.0 80 2.0 47.0 45.0 27 0.13 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- incl. 38.0 47.0 9.0 0.22 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- TMTARC034 358077.0 6747467.8 847.3 -60.1 324.0 80 18.0 22.0 4.0 2 0.05 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- 71.0 80.0 9.0 4 0.07 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- TMTARC035 358125.0 6747537.4 866.1 -59.9 324.0 80 0.0 30.0 30.0 14 0.06 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- 42.0 46.0 4.0 2 0.12 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- 50.0 77.0 27.0 13 0.14 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- incl. 65.0 77.0 12.0 6 0.23 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- TMTARC036 359054.1 6748213.4 944.2 -60.2 324.0 50 48.0 50.0 2.0 1 0.07 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- TMTARC037 359112.1 6748138.2 936.4 -59.8 324.0 50 0.0 15.0 15.0 7 0.17 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- incl. 0.0 9.0 9.0 4 0.25 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- TMTARC038 359086.4 6748160.1 938.5 -60.1 324.0 50 0.0 5.0 5.0 2 0.07 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- TMTARC039 359123.2 6748111.7 927.3 -59.9 324.0 50 0.0 22.0 22.0 11 0.09 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- 43.0 50.0 7.0 3 0.06 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- TMTARC040 359137.8 6748088.4 919.6 -60.1 323.0 80 0.0 19.0 19.0 9 0.09 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- 36.0 75.0 39.0 20 0.08 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- incl. 45.0 63.0 18.0 9 0.10 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- 69.0 75.0 6.0 3 0.08 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- TMTARC041 359264.2 6748382.9 860.6 -59.5 143.0 80 11.0 70.0 59.0 30 0.12 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- incl. 19.0 43.0 24.0 12 0.16 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- TMTARC042 359863.2 6748499.5 938.6 -60.0 144.0 80 0.0 3.0 3.0 1 0.08
--------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- 10.0 15.0 5.0 2 0.09 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- 20.0 25.0 5.0 2 0.09 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- 65.0 73.0 8.0 4 0.07 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- TMTARC043 359832.3 6748437.1 932.3 -60.2 143.0 50 5.0 10.0 5.0 3 0.09 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- 18.0 29.0 11.0 6 0.19 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- incl. 20.0 28.0 8.0 4 0.23 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- 32.0 41.0 9.0 5 0.17 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- ------- incl. 34.0 41.0 7.0 4 0.19 --------- ---------- ---------- ------ -------- ------ --------------- ------ --------- ---------- -------
Table 1: Results of TMPL Phase 2 Infill and Extension RC Drilling
Figure 1: Taronga Drilling Summary Plan
Figure 2: Taronga Cross Section 3250N (see Figure 1 for Location)
Figure 3: Taronga Northern Zone Drilling Plan
Figure 4: Cross Section 4475N, Gap Area (see Figure 3 for location)
Figure 5: Cross Section 4850N, NW Extension Area (see Figure 3 for location)
First Tin CEO Thomas Buenger said: "The First Tin team in Taronga has made great progress over the past year and we are incredibly pleased to confirm that all drilling at our Taronga tin project in Australia is now complete and that the results from the programme have confirmed an approximately 400m extension to the southwest. This will be incorporated into a revised MRE, with results expected within Q3 2023.
The DFS continues at pace and the range of workstreams underway are progressing positively . We expect to undertake optimisation work at our Taronga asset, following the completion of the DFS, to confirm the final outline of the orebody. We look forward to next updating our shareholders as we continue to advance our world-class Taronga project further."
Enquiries:
First Tin Via SEC Newgate below Thomas Buenger - Chief Executive Officer Arlington Group Asset Management Limited (Financial Advisor and Joint Broker) Simon Catt 020 7389 5016 WH Ireland Limited (Joint Broker) Harry Ansell 020 7220 1670 SEC Newgate (Financial Communications) Elisabeth Cowell / Molly FirstTin@secnewgate.co.uk Gretton
Notes to Editors
First Tin is an ethical, reliable, and sustainable tin production company led by a team of renowned tin specialists. The Company is focused on becoming a tin supplier in conflict-free, low political risk jurisdictions through the rapid development of high value, low capex tin assets in Germany and Australia.
Tin is a critical metal, vital in any plan to decarbonise and electrify the world, yet Europe has very little supply. Rising demand, together with shortages, is expected to lead tin to experience sustained deficit markets for the foreseeable future. Its assets have been de-risked significantly, with extensive work undertaken to date.
First Tin's goal is to use best-in-class environmental standards to bring two tin mines into production in three years, providing provenance of supply to support the current global clean energy and technological revolutions.
APPIX 1
JORC Code, 2012 Edition - Table 1 Taronga Tin Project (TMPL)
Section 1 Sampling Techniques and Data
(Criteria in this section apply to all succeeding sections.)
Sampling techniques * Nature and quality of sampling (eg cut channels, * Diamond drilling was used to obtain 1m samples of HQ random chips, or specific specialised industry core which was sawn in half longitudinally. The half standard measurement tools appropriate to the core was broken to less than 10cm sized pieces, minerals under investigation, such as down hole gamma bagged and sent to the laboratory for assay. This is sondes, or handheld XRF instruments, etc). These industry standard work. examples should not be taken as limiting the broad meaning of sampling. * Reverse Circulation (RC) drilling was used to obtain 1m samples from a 4.5 inch diameter drill hole. * Include reference to measures taken to ensure sample Drilled material was split with an onboard riffle representivity and the appropriate calibration of any splitter connected to the cyclone to obtain an measurement tools or systems used. approximately 3-5kg representative sub-sample that was bagged and sent to the laboratory for assay. This is industry standard work. * Aspects of the determination of mineralisation that are Material to the Public Report. * All core and RC samples were sent for assay after being logged by the geologist. * In cases where 'industry standard' work has been done this would be relatively simple (eg 'reverse circulation drilling was used to obtain 1 m samples * The drill core and RC samples were sent to ALS from which 3 kg was pulverised to produce a 30 g Laboratories in Zillmere QLD. charge for fire assay'). In other cases more explanation may be required, such as where there is coarse gold that has inherent sampling problems. * Samples were crushed to sub 6mm, split and pulverised Unusual commodities or mineralisation types (eg to sub 75um in order to produce a representative submarine nodules) may warrant disclosure of detailed sub-sample for analysis. information. * Analysis of the diamond drill and RC samples consisted of a four-acid digest and Inductively Coupled Plasma Optical Emission Spectrometry (ICP-OES) for the following elements: Ag, Al, As, Ba, Be, Bi, Ca, Cd, Co, Cr, Cu, Fe, Ga, K, La, Li, Mg, Mn, Mo, Na, Ni, P, Pb, S, Sb, Sc, Sn, Sr, Th, Ti, Tl, U, V, W & Zn. The samples were also assayed for Nb, Sn, Ta, and W using a lithium borate fusion and ICP-MS technique. If over detection on the ICP was reached, then the samples were assayed using XRF. Standards and blanks were inserted at a rate of 10%. * All drilling samples were analysed and hence no prior determination of mineralisation was made. Drilling techniques * Drill type (eg core, reverse circulation, open-hole * Diamond drilling was undertaken by contractors DRC hammer, rotary air blast, auger, Bangka, sonic, etc) Drilling. All drilling used an HQ bit with a soft
and details (eg core diameter, triple or standard matrix. Drill rods were triple tube to ensure good tube, depth of diamond tails, face-sampling bit or core recovery and avoid washing out of cassiterite. other type, whether core is oriented and if so, by what method, etc). Percussion drilling was undertaken by contractors Schonknecht Drilling, using a face sampling 4.5 inch "Black Diamond" hammer, 137mm PED (polycarbonate diamond) bit and a 4.5 inch, 6m stainless steel rod. A tight shroud (3mm gap) ensured the holes remained as straight as possible. A 350psi, 900cfm compressor was used to keep holes dry and ensure all heavy minerals such as cassiterite are recovered. Drill sample recovery * Method of recording and assessing core and chip * All core intervals are measured and compared with sample recoveries and results assessed. drillers marks to determine actual recovery. Recovery was generally 100% apart from isolated intervals with poor ground conditions, generally either near surface * Measures taken to maximise sample recovery and ensure or in fault zones. representative nature of the samples. * Sample recovery is measured and recorded by company * Whether a relationship exists between sample recovery trained geology technicians and geologists. and grade and whether sample bias may have occurred due to preferential loss/gain of fine/coarse material. * Minimal sample loss has occurred. * All RC samples are weighed. This gives a good idea as to recovery for the 1m intervals sampled as the density does not vary significantly. Recovery is estimated to be very good in general. A high pressure and volume compressor is used to endure good sample return and to keep holes dry. No significant water was encountered meaning sample quality is good. The hole is cleaned out with compressed air after every rod change and no significant volume of material is returned via this process. * No relationship can be seen between recovery and grade. No sample bias is noted. Logging * Whether core and chip samples have been geologically * All drill core has been geologically and and geotechnically logged to a level of detail to geotechnically logged to a level of detail to support support appropriate Mineral Resource estimation, appropriate mineral estimation, mining, and mining studies and metallurgical studies. metallurgical studies. * Whether logging is qualitative or quantitative in * The six geotechnical holes were logged by qualified nature. Core (or costean, channel, etc) photography. specialist geotechnical engineers. * The total length and percentage of the relevant * All RC cuttings have been geologically logged to a intersections logged. level of detail to support appropriate mineral estimation, mining, and metallurgical studies. * All drill core has been photographed and logging is quantitative in nature, following a strict set of guidelines. The entire length of the core has been logged. Qualitative logging includes lithology, alteration and textures. * Quantitative logging includes sulphide and gangue mineral percentages. * All RC logging is semi-quantitative in nature, following a strict set of guidelines, with percentage estimates made. Representative sub-samples are collected, sieved and generally panned to estimate heavy mineral content. A sub-set of rock chips are kept in chip-trays for reference. Sub-sampling techniques * If core, whether cut or sawn and whether quarter, * All core is HQ3. This is sawn in half after fitting and sample half or all core taken. together of core across drillers breaks and a preparation reference line marked on the core. A consistent side of the core is taken for sampling as half core. This * If non-core, whether riffled, tube sampled, rotary is broken so it will fit in a bag and sent to the ALS split, etc and whether sampled wet or dry. laboratory in Brisbane. * For all sample types, the nature, quality and * All RC cuttings are weighed then riffle split to appropriateness of the sample preparation technique. obtain between 3kg and 5kg of sample. All samples are dry. The sub-sample is sent to ALS laboratory in Brisbane. * Quality control procedures adopted for all sub-sampling stages to maximise representivity of samples. * Sample sizes are considered appropriate for the material being sampled as the tin mineralisation occurs as cassiterite (SnO(2) ) within sub-vertical * Measures taken to ensure that the sampling is veins that are between 0.05mm and 0.5cm wide (rarely representative of the in situ material collected, to 5cm) and cassiterite crystals are smaller than including for instance results for field vein width. Vein density varies from about 5/m to duplicate/second-half sampling. greater than 20/m and hence several veins are sampled in each metre. This compares with sample size that is approximately 10,000 cm(3) for RC and 3,200cm(3) for * Whether sample sizes are appropriate to the grain HQ Core before sub-sampling.
size of the material being sampled. * Drilling is at an angle of -60deg or less and hence cuts across veins that are sub-vertical (-90deg). * At the ALS laboratory in Brisbane, the sample of core or RC chips is crushed and split to less than 3kg if appropriate using method CRU-21. The entire sample or sub-sample is then pulverized in a mill to 85% finer than 75um using method PUL-23. Quality of assay * The nature, quality and appropriateness of the * Tin is a difficult element to analyse as cassiterite data and assaying and laboratory procedures used and whether is not soluble in acid. Thus, a sub-sample of the laboratory the technique is considered partial or total. pulverized and mixed material is taken and fused with tests lithium borate. The fused bead is then analysed by a mass spectrometer using method ME-MS85 which reports * For geophysical tools, spectrometers, handheld XRF Sn, W, Ta and Nb. This returns a total tin content, instruments, etc, the parameters used in determining including tin as cassiterite. Over limit assays of the analysis including instrument make and model, tin are re-analysed using method ME-XRF15b which reading times, calibrations factors applied and their involves fusion with lithium metaborate with a derivation, etc. lithium tetraborate flux containing 20% NaNO(3) with an XRF finish. * Nature of quality control procedures adopted (eg standards, blanks, duplicates, external laboratory * Other elements are analysed by method ME-ICP61. This checks) and whether acceptable levels of accuracy (ie involves a 4 acid (HF-HNO(3) -HCLO(4) digest, HCl lack of bias) and precision have been established. leach and ICP-AES finish). This is an industry standard technique for Cu, Pb, Zn and Ag. A suite of 34 elements are reported, including tin, which is only acid soluble tin in this case and thus can be subtracted from the fusion tin assays to obtain tin as cassiterite. The acid soluble tin is generally associated with stannite and in the lattice of silicates. It is generally insignificant is relation to tin as cassiterite at Taronga. * Prior to dispatch of samples, the following QaQc samples are added: o Certified standards representative of the grades expected are added at the rate of 1 in 40 samples o Blanks are added at the rate of 1 in 40 samples o Duplicates are added at the rate of 1 in 20 samples for RC. These are riffle split from the original sample on site. o For diamond drilling, the half core is split into two quarter cores every 1 in 20 samples and these are sent as duplicates * All QAQC data is within acceptable limits, with re-assay of any out of specification batches undertaken. -- Verification of sampling * The verification of significant intersections by * Twinning of the previous Newmont drillholes has and assaying either independent or alternative company personnel. included: * The use of twinned holes. o 11 TMPL DD twins of Newmont DD Holes o 2 TMPL DD twins of Newmont percussion holes o 5 TMPL RC twins of Newmont percussion holes * Documentation of primary data, data entry procedures, * All data is recorded on site in Excel spreadsheets data verification, data storage (physical and and this is later transferred to an Access database - electronic) protocols. the main data repository. Detailed protocols for data recording, logging codes etc are used. * Discuss any adjustment to assay data. -- Location of data * Accuracy and quality of surveys used to locate drill * All drillholes are pre-planned and located by use of points holes (collar and down-hole surveys), trenches, mine handheld GPS. Holes were originally sited and angled workings and other locations used in Mineral Resource using compass and clinometer. This was changed to estimation. using Devico gyro navigation for the later drillholes in order to get an added level of accuracy. All hole collars are surveyed in accurately post drilling with * Specification of the grid system used. RTKGPS (+-0.1m). * Quality and adequacy of topographic control. * All DDH drillholes are surveyed using downhole gyroscopic surveys. * All RC holes are surveyed using downhole magnetic surveys. * All holes have surveys approximately every 30m downhole. * The grid system used is GDA94, zone 56. * Topography is obtained via a Lidar survey flown in late 2022 and is to sub 10cm accuracy. Data spacing
and * Data spacing for reporting of Exploration Results. * The original drilling undertaken was to better than distribution 50m x 50m spacing. * Whether the data spacing and distribution is sufficient to establish the degree of geological and * Twin drilling is selected to represent all 4 zones of grade continuity appropriate for the Mineral Resource mineralisation and the length of the known deposit. and Ore Reserve estimation procedure(s) and classifications applied. * The original data spacing is considered to be sufficient to establish the degree of geological and * Whether sample compositing has been applied. grade continuity appropriate for the JORC classifications applied. -- Orientation of data * Whether the orientation of sampling achieves unbiased * The drilling is oriented at 90deg to the orientation in relation sampling of possible structures and the extent to of the sheeted veins. to which this is known, considering the deposit type. geological structure * The veins are sub-vertical and the drilling is angled * If the relationship between the drilling orientation at between -25deg and -60deg to be as close as and the orientation of key mineralised structures is possible to cutting across the veins at 90deg. Due to considered to have introduced a sampling bias, this difficulties drilling at very shallow angles, should be assessed and reported if material. especially with RC, a default angle of -60deg was adopted for the later drillholes. * As drilling was designed to cut the main sheeted veins at as high an angle as possible. The potential for any introduced sampling bias is considered minor. Sample security * The measures taken to ensure sample security. * A chain of custody was maintained for all TMPL drilling. Audits or reviews * The results of any audits or reviews of sampling * An initial review of sampling procedures whilst techniques and data. drilling was in progress, with some recommendations, was completed by Simon Tear of independent consultants H&S Consultants Pty Ltd ============= ============================================================ =============================================================================
Section 2 Reporting of Exploration Results
(Criteria listed in the preceding section also apply to this section.)
Mineral tenement * Type, reference name/number, location and ownership * The project is secured by two granted tenements: and land including agreements or material issues with third EL8407 and ML 1774, both of which are currently in tenure status parties such as joint ventures, partnerships, good standing. These are held 100% by TMPL. overriding royalties, native title interests, historical sites, wilderness or national park and environmental settings. * No joint ventures or other encumbrances are known. The underlying properties are freehold land owned 100% by TMPL apart from a block of Crown Land that * The security of the tenure held at the time of covers part of the southern deposit area as defined reporting along with any known impediments to by Newmont. obtaining a licence to operate in the area. * The Crown Land is the only land subject to Native Title. No native title claims existed at the time the tenements were granted but a statewide native title claim on crown land is believed to exist. * No national parks, historical sites or environmental constraints are known. Recent surveys have identified the "vulnerable" flora species Velvet Wattle. This is currently being avoided as much as possible and is not considered to be a major constraint moving forward. * The only royalty is the state of NSW royalty of 4% on tin mined. Exploration done by * Acknowledgment and appraisal of exploration by other * Detailed exploration and feasibility studies were other parties parties. undertaken by Newmont between 1979 and 1984. These have been used where applicable. * This work was undertaken to a high standard and all data is considered to be usable. Geology * Deposit type, geological setting and style of * The deposit is a sheeted vein style tin +/- mineralisation. copper-silver deposit with horizontally and vertically extensive veins of quartz-mica-cassiterite-sulphide+/-fluorite-topaz occurring over a combined area of up to 2,600m by 270m. * The veins vary in thickness from less than 0.5mm to 100mm but are generally between 1mm and 10mm thick and average about 20 veins per metre. * The host rock is hornfels derived by contact metamorphism of Permian aged metasediments. * The source of mineralising fluids is interpreted to be an underlying intrusion of the Triassic Mole Leucogranite, a reduced, highly fractionated, A to I type granite. The metals of interest (Sn, Cu, Ag) are interpreted to have been enriched in the late magmatic fluid of this granite via enrichment of incompatible elements during fractional crystallisation. Breaching of the magma chamber
during brittle faulting in an ENE orientation has tapped these enriched fluids which have subsequently deposited the metals due to changing temperature and pressure conditions and/or mixing with meteoric fluids. Drill hole * See Attachment 1 - Drill Hole Details. 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: o easting and northing of the drill hole collar o elevation or RL (Reduced Level - elevation above sea level in metres) of the drill hole collar o dip and azimuth of the hole o down hole length and interception depth o 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. Data aggregation * In reporting Exploration Results, weighting averaging * All intercepts shown are weighted averages of uncut methods techniques, maximum and/or minimum grade truncations data. The intervals are based on a nominal lower (eg cutting of high grades) and cut-off grades are cut-off of 0.05% Sn. usually Material and should be stated. * The only high grades are due to very thick veins with * Where aggregate intercepts incorporate short lengths coarse cassiterite. These are shown in the table as of high grade results and longer lengths of low grade to leave them out would give an unrealistic view of results, the procedure used for such aggregation grade variability. should be stated and some typical examples of such aggregations should be shown in detail. * No metal equivalent grades are quoted. * The assumptions used for any reporting of metal equivalent values should be clearly stated. Relationship between * These relationships are particularly important in the * As mineralisation is sub-vertical and while holes dip mineralisation reporting of Exploration Results. at between -28deg and -60deg, actual true widths vary widths and from 88% to 50% of interval widths. intercept lengths * If the geometry of the mineralisation with respect to the drill hole angle is known, its nature should be * True widths are shown in the attached table. reported. * If it is not known and only the down hole lengths are reported, there should be a clear statement to this effect (eg 'down hole length, true width not known'). Diagrams * Appropriate maps and sections (with scales) and * Plan view provided. As results are twins of existing tabulations of intercepts should be included for any drilling, sections are not shown. significant discovery being reported These should include, but not be limited to a plan view of drill hole collar locations and appropriate sectional views. Balanced reporting * Where comprehensive reporting of all Exploration * Results are twins of old data and only the direct Results is not practicable, representative reporting comparison is of relevance here. of both low and high grades and/or widths should be practiced to avoid misleading reporting of Exploration Results. * The accompanying document is considered to represent a balanced report. Other * No other exploration data is reported here. substantive * Other exploration data, if meaningful and material, exploration should be reported including (but not limited to): data 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. Further work * The nature and scale of planned further work (eg * RC infill and extension drilling is in progress and tests for lateral extensions or depth extensions or will be reported separately when all results are to large-scale step-out drilling). hand. It is intended that a revised mineral resource estimate will be undertaken once all results are to hand. * Diagrams clearly highlighting the areas of possible extensions, including the main geological interpretations and future drilling areas, provided this information is not commercially sensitive. =============== =============================================================== ============================================================
Attachment 1: Complete drilling data Table
Hole No. Easting Northing Elevation Dip Azimuth Total From To Interval Estimated Grade (GDA94 (GDA94 (m) (deg) (deg True) Depth (m) (m) (m) True (% Sn) Z56) Z56) (m) Width (m) TWINS --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTADD001 358299.0 6747801.4 874.8 -49.5 147.2 155.4 51 72 21 14 0.11 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 113 137 24 15 0.40 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTADD002 358190.7 6747688.9 867.5 -35.0 145.6 89.1 53 80 27 22 0.14 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTADD003 359195.1 6748226.1 928.8 -38.8 144.7 119.7 54 112 58 45 0.10 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTADD004 359259.6 6748303.0 891.8 -32.8 146.6 190 19 37 18 15 0.08 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 60 102 42 35 0.08 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 108 171 63 53 0.13 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTADD005 359811.9 6748651.3 912.7 -46.9 147.2 183.4 69 115 46 31 0.15 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 122 156 34 23 0.07
--------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTADD006 358614.2 6747874.5 897.5 -37.5 324.8 135.1 8 38.6 30.6 24 0.18 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 46 55 9 7 0.06 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 85 104 19 15 0.11 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTADD007 358488.7 6747797.9 892.1 -28.4 328.3 122.4 1.3 33 31.9 28 0.14 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 66 83 17 15 0.16 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTADD008 358538.1 6747599.2 832.2 -49.9 324.2 95.6 65 87 22 14 0.18 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTADD009 358634.2 6747679.9 846.5 -49.6 324.4 89.8 41 58 17 11 0.39 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTADD010 358314.8 6747523.6 858.1 -44.8 324.7 77.5 38 68 30 21 0.19 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTADD011 359621.5 6748317.1 948.6 -60.6 323.9 119.9 8 120 112 55 0.14 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- incl. 8 67 59 29 0.19 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTADD012 359798.7 6748585.7 918.5 -55.0 144.1 110.2 13 110.2 97.2 56 0.13 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTADD013 359681.7 6748407.3 902.2 -54.8 136.4 131 10 29 19 11 0.08 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 34 87 53 31 0.21 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC013 358469.3 6747663.6 855.5 -59.8 331.6 131 0 13 13 7 0.17 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 20 32 12 6 0.05 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC016 358731.3 6748020.5 935.2 -60.3 146.0 105 34 73 39 20 0.16 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 83 91 8 4 0.12 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC017A 358616.2 6747964.5 934.9 -60.0 146.0 41.0 abandoned --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC017 358619.9 6747966.9 935.0 -60.4 146.1 156 7 48 41 21 0.10 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- incl. 7 29 22 11 0.13 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 77 128 51 26 0.18 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC018 359335.6 6748190.1 941.3 -59.9 318.0 150 9 96 88 44 0.13 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC020 359522.0 6748287.1 962.4 -60.4 326.4 145 1 126 125 63 0.20 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- EXT/INFILL PHASE 1 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC001 358010.8 6747470.4 849.7 -58.3 323.0 150.0 24 26 2 1 0.09 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 38 43 5 2 0.06 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC002 357938.5 6747407.1 848.7 -60.1 326.0 150.0 1 3 2 1 0.07 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 76 82 6 3 0.07 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 86 89 3 1 0.07 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC003 357960.0 6747368.8 843.3 -60.9 322.0 150.0 0 41 41 20 0.20 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- incl. 0 25 25 12 0.27 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- and 31 36 5 2 0.13 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC004 357847.1 6747353.6 849.9 -60.3 321.0 150.0 nsi --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC005 358139.0 6747515.1 858.8 -60.8 323.0 150.0 62 66 4 2 0.17 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 79 84 5 2 0.31 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 143 145 2 1 0.14 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC006 358045.7 6747426.3 835.1 -61.3 324.0 150.0 0 19 19 9 0.20 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 23 27 4 2 0.14 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 31 40 9 4 0.08 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 54 57 3 1 0.12
--------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 62 64 2 1 0.14 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC007 357999.7 6747326.9 828.7 -61.8 319.0 150.0 133 137 4 2 0.41 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC008 358068.2 6747383.9 820.7 -61.8 325.0 150.0 82 87 5 2 0.06 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 97 103 6 2 0.11 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 118 150 32 16 0.28 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- incl. 121 138 17 9 0.37 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC009 357900.3 6747283.6 826.8 -60.0 323.0 150.0 89 88 3 1 0.09 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 109 142 33 13 0.18 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- incl. 127 142 15 6 0.23 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC010 357892.5 6747315.6 837.9 -60.0 318.0 150.0 5 61 56 17 0.12 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- incl. 6 22 16 4 0.16 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC011 357982.2 6747511.0 848.0 -60.1 155.0 150.0 57 61 4 2 0.11 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 87 93 6 3 0.07 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC012 358202.9 6747421.7 829.8 -59.6 324.0 157.0 nsi --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- EXT/INFILL PHASE 2 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC014 359030.2 6747992.8 876.7 -60.5 325.0 31.0 abandoned --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC014a 359025.7 6747994.7 876.8 -60.5 325.0 24.0 abandoned --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC014b 359024.8 6747996.7 877.1 -60.5 325.0 21.0 abandoned --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC015 358918.5 6747967.6 861.9 -59.5 322.0 150.0 24.0 35.0 11.0 6 0.20 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- incl. 24.0 29.0 5.0 3 0.34 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 70.0 72.0 2.0 1 0.13 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 91.0 96.0 5.0 3 0.15 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 115.0 129.0 14.0 7 0.09 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- incl. 115.0 118.0 3.0 2 0.19 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC019 358842.4 6747848.6 861.0 -60.4 325.0 150.0 nsi --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC021 357967.6 6747440.1 845.8 -60.5 144.0 121.0 63.0 98.0 35.0 22 0.20 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- incl. 82.0 97.0 15.0 9 0.35 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC022 357885.2 6747382.9 854.6 -60.2 143.0 110 60.0 109.0 49.0 23 0.12 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- incl. 69.0 97.0 28.0 13 0.17 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC023 357945.1 6747395.1 847.7 -59.9 143.0 100 10.0 16.0 6.0 3 0.05 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 22.0 30.0 8.0 5 0.08 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 33.0 58.0 25.0 15 0.20 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- incl. 37.0 51.0 14.0 8 0.25 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 73.0 82.0 9.0 5 0.12 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC024 357985.9 6747430.1 843.0 -59.8 144.0 80 41.0 78.0 37.0 23 0.15 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- incl. 53.0 64.0 11.0 7 0.35 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC025 357809.1 6747318.6 843.7 -60.1 143.0 110 41.0 80.0 39.0 25 0.10 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- incl. 72.0 79.0 7.0 4 0.15 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC026 357821.5 6747299.2 838.7 -60.3 143.0 60 8.0 37.0 29.0 19 0.14 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- incl. 13.0 32.0 19.0 9 0.15 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- -------
TMTARC027 357908.3 6747363.1 851.5 -60.3 143.0 70 10.0 68.0 58.0 30 0.11 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- incl. 20.0 51.0 31.0 16 0.15 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC028 358061.5 6747408.3 827.6 -60.1 323.0 109 0.0 39.0 39.0 10 0.15 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- incl. 15.0 23.0 8.0 3 0.51 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 46.0 83.0 37.0 12 0.16 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- incl. 55.0 76.0 21.0 7 0.21 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 94.0 107.0 13.0 4 0.08 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC029 358126.1 6747435.5 834.8 -60.3 324.0 79 37.0 60.0 23.0 12 0.19 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- incl. 41.0 58.0 17.0 8 0.24 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 65.0 79.0 14.0 7 0.09 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC030 358111.9 6747418.3 832.0 -60.3 323.0 80 63.0 80.0 17.0 9 0.19 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- incl. 66.0 72.0 6.0 3 0.42 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC031 358181.2 6747454.1 837.6 -59.7 144.0 100 0.0 2.0 2.0 1 0.07 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 29.0 30.0 1.0 1 0.15 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC032 358142.6 6747413.8 826.0 -60.0 324.0 103 nsi --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC033 358092.3 6747444.3 839.9 -59.9 323.0 80 2.0 47.0 45.0 27 0.13 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- incl. 38.0 47.0 9.0 0.22 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC034 358077.0 6747467.8 847.3 -60.1 324.0 80 18.0 22.0 4.0 2 0.05 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 71.0 80.0 9.0 4 0.07 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC035 358125.0 6747537.4 866.1 -59.9 324.0 80 0.0 30.0 30.0 14 0.06 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 42.0 46.0 4.0 2 0.12 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 50.0 77.0 27.0 13 0.14 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- incl. 65.0 77.0 12.0 6 0.23 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC036 359054.1 6748213.4 944.2 -60.2 324.0 50 48.0 50.0 2.0 1 0.07 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC037 359112.1 6748138.2 936.4 -59.8 324.0 50 0.0 15.0 15.0 7 0.17 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- incl. 0.0 9.0 9.0 4 0.25 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC038 359086.4 6748160.1 938.5 -60.1 324.0 50 0.0 5.0 5.0 2 0.07 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC039 359123.2 6748111.7 927.3 -59.9 324.0 50 0.0 22.0 22.0 11 0.09 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 43.0 50.0 7.0 3 0.06 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC040 359137.8 6748088.4 919.6 -60.1 323.0 80 0.0 19.0 19.0 9 0.09 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 36.0 75.0 39.0 20 0.08 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- incl. 45.0 63.0 18.0 9 0.10 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 69.0 75.0 6.0 3 0.08 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC041 359264.2 6748382.9 860.6 -59.5 143.0 80 11.0 70.0 59.0 30 0.12 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- incl. 19.0 43.0 24.0 12 0.16 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC042 359863.2 6748499.5 938.6 -60.0 144.0 80 0.0 3.0 3.0 1 0.08 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 10.0 15.0 5.0 2 0.09 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 20.0 25.0 5.0 2 0.09 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 65.0 73.0 8.0 4 0.07 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- TMTARC043 359832.3 6748437.1 932.3 -60.2 143.0 50 5.0 10.0 5.0 3 0.09
--------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 18.0 29.0 11.0 6 0.19 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- incl. 20.0 28.0 8.0 4 0.23 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- 32.0 41.0 9.0 5 0.17 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- ------- incl. 34.0 41.0 7.0 4 0.19 --------- ---------- ---------- ------ ----------- ------ ---------- ------ --------- ---------- -------
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June 12, 2023 02:00 ET (06:00 GMT)
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