IRW-PRESS: Artemis Resources Ltd. : Artemis Resources Ltd.: Tiefere Bohrungen bei Carlow Castle zeigen Tiefenpotenzial auf Tiefere Bohrungen bei Carlow Castle zeigen Tiefenpotenzial auf 25 m mit 3,38g/t Au, 0,24 % Co, 0,77 % Cu ab 228 m Tiefe (ARC184) einschließlich: 5 m mit 9,62g/t Au, 0,65 % Co, 0,79 % Cu ab 238 m Tiefe (ARC 184) 25. September 2018, Artemis Resources Limited (Artemis oder das Unternehmen) (ASX:ARV, Frankfurt:ATY, US OTC:ARTTF) freut sich, die aktuellen Bohrergebnisse aus dem unternehmenseigenen Projekt Carlow Castle im Westen der Region Pilbara in Western Australia bekannt zu geben. WICHTIGSTE FAKTEN Aus dem unternehmenseigenen Projekt Carlow Castle warden weiterhin hochgradige Gold-, Kobalt- und Kupferproben aus flachen und tieferen Bohrlöchern gewonnen, wobei die neuen Durchschneidungen das Tiefenpotenzial des Systems in der mineralisierten Scherzone hervorheben. Zu den besten Abschnitten aus dem Bereich von Carlow Castle South East zählen: - 25 m mit 3,38g/t Au, 0,24 % Co, 0,77 % Cu ab 228 m Tiefe (ARC184) - einschließlich: 5 m mit 9,62g/t Au, 0,65 % Co, 0,79 % Cu ab 238 m Tiefe (ARC 184) - 43 m mit 0,99g/t Au, 0,16 % Co and 1,05 % Cu ab 66 m Tiefe (ARC 175) - einschließlich: 2 m mit 4,71g/t Au, 1,04 % Co, 1,44 % Cu ab 65 m Tiefe - 34 m mit 1,27g/t Au, 0,06 % Co, 1,34 % Cu ab 47 m Tiefe (ARC 164) - einschließlich: 5 m mit 4g/t Au, 0,03 % Co, 2,48 % Cu ab 71 m Tiefe - 9 m mit 3,45g/t Au, 0,21 % Co and 0,83 % Cu ab 50 m Tiefe (ARC 177) - einschließlich: 3 m mit 7,86g/t Au, 0,45 % Co and 1,42 % Cu ab 55 m Tiefe - 24 m mit 0,77g/t Au, 0,05 % Co and 1,80 % Cu ab 4 m Tiefe (ARC 162) - 14 m mit 3,21g/t Au, 0,07 % Co and 1,55 % Cu ab 25 m Tiefe (ARC 173) - Zusätzliche Analyseergebnisse stehen noch aus. Wayne Bramwell, Chief Executive Officer von Artemis, erklärt: Die aktuellen Ergebnisse bestätigen uns weiterhin in unserer Einschätzung, dass innerhalb des umfassenderen Systems bei Carlow Castle mehrere Mineralisierungsereignisse stattfanden und Erweiterungen in der Tiefe bestehen. Artemis liegt im Plan für eine aktuelle Ressourcenschätzung im vierten Quartal. Danach sind zusätzliche Erweiterungs- und Ergänzungsbohrungen (Infill) geplant, um den breiteren Umfang und die internen Ausgangsstrukturen dieser wachsenden Au-Co-Cu-Lagerstätte zu definieren. AKTUELLE BOHRERGEBNISSE Das Au-Co-Cu-Projekt Carlow Castle umfasst derzeit drei Lagerstätten (Carlow Castle South, Quod Est und Carlow Castle South East) und ist rund 35 km von der Verarbeitungsanlage Radio Hill entfernt, die sich ebenfalls zu 100 % in Besitz von Artemis befindet. Die Mineralisierung bei Carlow Castle ist innerhalb der vorwiegend aus dem Archaikum stammenden mafischen Gesteinssequenz in Chlorit-Scherungszonen eingebettet. Die Erzzonen haben oberhalb von 20 m Tiefe zum Teil oxidischen Charakter, während sich in der Tiefe die sulfidischen Erze ausbreiten. Die sulfidischen Erze sind in erster Linie Kupferkies, Kobaltit und Pyrit, wobei in einigen Proben auch Chalkosin und natives Kupfer zu finden ist, was auf eine supergene Anreicherung in den oberen Bereichen der Sulfidzone hindeutet. Dieses Bohrprogramm bei Carlow Castle konzentrierte sich auf den ersten 1,2 km langen Teilabschnitt eines 4 km langen Mineralisierungstrends, der mithilfe von geophysikalischen und geochemischen SAM-Messungen (Sub Audio Magnetics) erfasst wurde. Die Mineralisierung wurde in Nord-Süd-Richtung von Quod Est ausgehend bis Carlow Castle South (auf 500 Meter) durchteuft; die Hauptstreichrichtung der Mineralisierung bei Carlow Castle ist Ost-West. Ziel der Bohrungen war es, ergänzende Löcher niederzubringen (Infill) und die Streichlänge von 1,2 km in Ost-West-Richtung zu erweitern bzw. die Zonen Quod Est, Carlow Castle South und Carlow Castle South East zu einer größeren Ressource zusammenzufassen (Abbildung 1). Dieser in Ost-West-Richtung verlaufende Trend ist entlang des Streichens und in der Tiefe offen und die hierin veröffentlichten Ergebnisse bestätigten das Tiefenpotenzial am östlichen Ende des Systems. Abbildung 1: Bohrplan für Carlow Castle (mit Darstellung der jüngsten Abschnitte 507520mE und 507600mN) https://www.irw-press.at/prcom/images/messages/2018/44675/20180925_ Carlow Castle Drilling Update_v0_DE_PRCOM.001.png Abschnitt 507600mE (Carlow Castle South East) Mit zunehmendem Fortschreiten des Streichens von Carlow Castle South East nach Osten scheint die Neigung nach Süden beständiger zu werden (siehe Abbildung 2). Wichtig ist, dass dieser Streckenzug eine ausgeprägte Gold-Kupfer-Mineralisierung ab Oberflächenniveau in allen Löchern durchteuft hat, wobei sich die Kobaltwerte mit zunehmender Tiefe zu verbessern scheinen. Es wird angenommen, dass die Mineralisierung hier stark von einem ein Kupfermantel mit 1.000 ppm (0,1 %) definiert wird, ausgenommen in der Nähe der Oberfläche, wo ein supergener Einfluss besteht. +Abbildung 2 - Carlow Castle South East (Abschnitt 507600mE) (Neue Durchschneidungen sind gelb markiert) https://www.irw-press.at/prcom/images/messages/2018/44675/20180925_ Carlow Castle Drilling Update_v0_DE_PRCOM.002.jpeg Abschnitt 507520mE (Carlow Castle South East) Die zuvor gemeldete Mineralisierung, die in den Löchern ARC138 und ARC129 durchteuft wurde, wurde durch ein Scherenloch (ARC184) entlang von Abschnitt 507520mE bestätigt. Die Bohrungen deuten darauf hin, dass die hochgradigere Mineralisierung in eine breitere Scherzone eingebettet ist, die vom Kupfermantel mit 1.000 ppm (0,1 %) definiert ist (siehe Abbildung 3). Es wird angenommen, dass diese Scherzone linsenförmige Erzzonen mit variablen Neigungen erzeugt, wobei die Mineralisierung in der Tiefe bei 200 m ab Oberflächenniveau offen ist. Die geplanten zukünftigen Bohrungen werden weitere Diamantscherlöcher beinhalten, um die Mächtigkeit und Ausrichtung der Strukturen in dieser Scherzone besser definieren zu können. Abbildung 3 - Carlow Castle South East (Abschnitt 507520mE ) (Neue Durchschneidungen sind gelb markiert) https://www.irw-press.at/prcom/images/messages/2018/44675/20180925_ Carlow Castle Drilling Update_v0_DE_PRCOM.003.jpeg Alle wichtigen Durchschneidungen finden Sie in Appendix A. BLICK IN DIE ZUKUNFT Weitere Analyseergebnisse für diese Bohrrunde bei Carlow Castle stehen noch aus und werden veröffentlicht, wenn diese vorliegen. Von den bisher bei Carlow Castle absolvierten Bohrungen waren rund 6,5 % Diamantbohrungen; diese sollen weiter ausgebaut werden, um Datenmaterial für künftige Struktur- und Geotechnikstudien zu liefern. Im Zuge künftiger Bohrungen (im Anschluss an eine neue Ressourcenschätzung) wird gezielt untersucht, ob eine zusätzliche Streichenerweiterung möglich ist, und in einigen Bereichen werden Ergänzungsbohrungen niedergebracht, um die wichtigsten Ausgangsstrukturen der Mineralisierung zu definieren. https://www.irw-press.at/prcom/images/messages/2018/44675/20180925_ Carlow Castle Drilling Update_v0_DE_PRCOM.004.png Abbildung 4: Regionaler Lageplan von Carlow Castle Weitere Informationen über diese Meldung oder das Unternehmen generell erhalten Sie auf unserer Website unter www.artemisresources.com.au oder über: Edward Mead Executive Director Telefon: +61 407 445 351 Wayne Bramwell Chief Executive Officer Telefon: +61 417 953 073 David Tasker Berater - Chapter One Telefon : +61 433 112 936 ASX : ARV FRANKFURT : ATY US OTC : ARTTF Basis-, Batterie- und Edelmetalle aArtemis Resources Limited ist ein australisches Mineralerschließungsunternehmen, das seine Basis-, Batterie- und Edelmetallprojekte im Westen der australischen Region Pilbara zu Produktionsbetrieben erweitert. Artemis hat ausgedehnte Konzessionsflächen im Westen der Region Pilbara zusammengelegt und ist alleiniger Besitzer der Verarbeitungsanlage Radio Hill samt der dazugehörigen Infrastruktur, die sich in 30 km Entfernung von der Stadt Karratha, dem wirtschaftlichen Zentrum der Region Pilbara, befindet. Sie wollen mehr über Artemis erfahren? Dann kontaktieren Sie bitte: Edward Mead - Executive Director E: ed.mead@artemisresources.com.au Wayne Bramwell - Chief Executive Officer E: wayne.bramwell@artemisresources.com.au David Tasker - Media Advisor E: dtasker@chapteroneadvisors.com.au P : +61 433 112 936 oder besuchen Sie die Webseite von Artemis bzw. folgen Sie uns auf Twitter. Artemis Resources Limited Suite 1, 11 Ventnor Ave West Perth WA Australien, 6005 Tel: +61 8 6319 0000 E-Mail: info@artemisresources.com.au www.artemisresources.com.au Twitter - @Artemis_ARV Stellungnahme der Sachverständigen Die Informationen in dieser Mitteilung, die sich auf Explorationsergebnisse und Explorationsziele beziehen, basieren auf Informationen, die von Allan Younger, Mitglied des Australasian Institute of Mining and Metallurgy, zusammengestellt oder überprüft wurden. Herr Younger ist Berater des Unternehmens. Herr Younger verfügt über ausreichende Erfahrungen, wie sie für die Art der hier dargestellten Mineralisierung bzw. Lagerstätte und auch für die von ihm durchgeführten Tätigkeiten maßgeblich sind. Er hat somit die entsprechenden Qualifikationen, die ihn zum Sachverständigen gemäß den einschlägigen australischen Richtlinien der Berichterstattung (Australasian Code for Reporting of Exploration Results, Mineral Resources and Ore Reserves, Ausgabe 2012) befähigen. Herr Younger stimmt zu, dass die von ihm vorgelegten Informationen in dieser Form und in diesem Zusammenhang in der vorliegenden Meldung veröffentlicht werden. HINTERGRUNDINFORMATIONEN ZU ARTEMIS RESOURCES Artemis Resources Limited ist ein Explorations- und Erschließungsunternehmen, dessen Hauptaugenmerk auf seine großen (~2.400 km2) und aussichtsreichen Basis-, Batterie- und Edelmetallprojekte in der Region Pilbara in Western Australia gerichtet ist. Die Verarbeitungsanlage Radio Hill mit 500.000 Tonnen pro Tag Kapazität und die dazugehörige Infrastruktur, die rund 35 km südlich der Stadt Karratha liegt, steht zu 100 % im Besitz von Artemis. Das Unternehmen bewertet die JORC Code-konformen Gold-, Nickel-, Kupfer-Kobalt-, Platingruppenelement- und Zinkressourcen aus den Jahren 2004 und 2012, die sich allesamt in einem Umkreis von 40 km von der Anlage Radio Hill befinden. Artemis hat mit Novo Resources Corp. (Novo), das an der kanadischen TSX Venture Exchange (TSXV:NVO) notiert ist, definitive Vereinbarungen unterzeichnet. Gemäß diesen Vereinbarungen hat Novo seine Ausgabeverpflichtung erfüllt und 50 % der Rechte an der Goldmineralisierung (und anderen Mineralen, die notwendigerweise mit dem Gold abgebaut werden) aus Konglomerat- und/oder Paläo-Seifenlagerstätten in den Konzessionen von Artemis innerhalb eines Umkreises von 100 km von der Stadt Karratha, einschließlich Purdys Reward, erworben (die Goldrechte). Die Goldrechte beinhalten nicht: (i)-Goldmineralisierungen in den bestehenden (Stand: 18. Mai 2017) JORC Code-konformen Ressourcen und Reserven von Artemis; oder (ii)-Goldmineralisierungen, die nicht aus Konglomerat- und/oder Paläo-Seifenlagerstätten stammen; oder (iii)-andere Mineralienvorkommen als Gold. Die Konzession Mt Oscar von Artemis ist von den definitiven Vereinbarungen ausgenommen. Die definitiven Vereinbarungen betreffen 36 Konzessionen/Konzessionsanträge, die sich zu 100 % im Besitz von Artemis befinden. Nach dem erfolgreichen Earn-in von Novo wurden zwei 50:50-Joint Ventures zwischen Novos Tochtergesellschaft, Karratha Gold Pty Ltd (Karratha Gold), und zwei Tochtergesellschaften von Artemis (KML No 2 Pty Ltd und Fox Radio Hill Pty Ltd) gegründet. Die Joint Ventures werden von Karratha Gold als ein Projekt verwaltet, wobei Artemis und Novo jeweils 50 % zur weiteren Exploration oder der möglichen Förderung der Goldrechte beitragen. Zukunftsgerichtete Aussagen und wichtiger Hinweis Diese Mitteilung enthält Prognosen, Vorhersagen und zukunftsgerichtete Informationen. Obwohl das Unternehmen der Ansicht ist, dass seine Erwartungen, Schätzungen und Prognoseergebnisse auf vernünftigen Annahmen beruhen, kann es nicht garantieren, dass diese erreicht werden. Erwartungen, Schätzungen und Prognosen sowie vom Unternehmen bereitgestellte Informationen sind keine Garantie für zukünftige Entwicklungen und beinhalten unbekannte Risiken und Unsicherheiten, von denen viele nicht im Einflussbereich von Artemis liegen. Die tatsächlichen Ergebnisse und Entwicklungen werden mit ziemlicher Sicherheit wesentlich von den geäußerten oder implizierten Erwartungen abweichen. Artemis hat die Richtigkeit und Vollständigkeit der in dieser Mitteilung enthaltenen Informationen, Aussagen und Meinungen weder geprüft noch untersucht. Artemis gibt keine Zusicherungen, Garantien oder Gewährleistungen, weder ausdrücklich noch stillschweigend, ab und übernimmt keine Verantwortung oder Haftung für die Echtheit, Gültigkeit, Genauigkeit, Eignung oder Vollständigkeit der in dieser Mitteilung enthaltenen Informationen, Aussagen oder Meinungen sowie für die Allgemeingültigkeit des Vorstehenden, das Erreichen oder die Genauigkeit von Prognosen, Vorhersagen oder anderen zukunftsgerichteten Informationen, auf die in dieser Mitteilung Bezug genommen wird. Anleger sollten eigene Auskünfte einholen und sich auf diese verlassen, bevor sie sich für einen Erwerb von oder Handel mit Wertpapieren des Unternehmens entscheiden. Die Ausgangssprache (in der Regel Englisch), in der der Originaltext veröffentlicht wird, ist die offizielle, autorisierte und rechtsgültige Version. Diese Übersetzung wird zur besseren Verständigung mitgeliefert. Die deutschsprachige Fassung kann gekürzt oder zusammengefasst sein. Es wird keine Verantwortung oder Haftung für den Inhalt, die Richtigkeit, die Angemessenheit oder die Genauigkeit dieser Übersetzung übernommen. Aus Sicht des Übersetzers stellt die Meldung keine Kauf- oder Verkaufsempfehlung dar! Bitte beachten Sie die englische Originalmeldung auf www.sedar.com, www.sec.gov, www.asx.com.au/ oder auf der Firmenwebsite! APPENDIX A Table 1: Significant Intersections in Carlow Castle Project Hole_CommentFrom To m Au Co % Cu % Zn % ID s (m) (m) g/t ARC15 32 39 7 0.5 0.08 1.01 6 ARC15 143 146 3 3.88 0.37 0.02 6 ARC16 4 28 24 0.77 0.05 1.8 2 ARC16 24 56 32 0.93 0.03 1.25 3 ARC16 24 26 2 2.75 0.11 3.8 3 ARC16 47 81 34 1.27 0.06 1.34 4 ARC16includi71 76 5 4 0.03 2.48 4 ng ARC16NSI 7 ARC17NSI 1 ARC17 5 9 4 0.43 0.07 0.61 2 ARC17 25 39 14 3.21 0.07 1.55 3 ARC17 43 52 9 0.84 0.1 2.54 4 ARC17 66 109 43 0.99 0.16 1.05 5 ARC17includi70 72 2 4.71 1.04 1.44 5 ng ARC17includi105 108 3 2.67 0.11 2.71 5 ng ARC17NSI 6 ARC17 50 59 9 3.45 0.21 0.83 7 ARC17includi55 58 3 7.86 0.45 1.42 7 ng ARC17NSI 8 ARC17NSI 9 ARC18 100 101 1 1.41 0.1 1.12 0 ARC18NSI 1 ARC18 51 54 3 0.46 0.01 1.00 2 ARC18NSI 3 ARC18 228 263 25 3.38 0.24 0.77 4 ARC18includi230 231 1 16.050.4 2.18 4 ng ARC18includi238 243 5 9.62 0.65 0.79 4 ng ARC18NSI 5 ARC18NSI 92 95 3 - - - 1.06 6 ARC18NSI 7 ARC18NSI 8 ARC18Pending 9 Table 2: Drill Collar Locations Hole Id MGA East MGA NorthRL (m) Depth (m)Dip Azimuth ARC001 506929.957698920.040.28 72 -60 270 9 ARC002 506959.147698916.239.75 90 -60 270 7 ARC003 506909.937698896.839.14 54 -60 270 0 ARC004 506925.687698896.539.24 78 -60 270 0 ARC005 506888.517698919.840.25 60 -60 90 0 ARC006 506947.247698894.239.03 90 -60 270 6 ARC007 506911.187698937.741.59 48 -60 270 9 ARC008 506933.107698937.941.14 78 -60 270 4 ARC009 506904.797698960.542.71 48 -60 270 7 ARC010 506922.987698961.942.84 78 -60 270 3 ARC011 506917.247698917.540.60 48 -60 270 8 ARC012 506902.247698878.738.33 48 -60 270 3 ARC013 506922.617698879.338.36 72 -60 270 2 ARC014 506944.977698880.038.84 90 -60 270 9 ARC015 506899.237698837.938.58 48 -60 270 7 ARC016 506919.317698838.341.38 78 -60 270 2 ARC017 506869.797698799.036.64 48 -60 270 7 ARC018 506887.957698799.837.70 48 -60 270 3 ARC019 506906.807698800.939.10 60 -60 270 6 ARC020 506927.687698801.941.30 90 -60 270 1 ARC021 506868.387698761.935.54 48 -60 270 9 ARC022 506887.747698761.436.24 48 -60 270 4 ARC023 506907.537698760.637.49 78 -60 270 4 ARC024 506579.857698699.734.80 60 -60 180 7 ARC025 506619.197698698.134.79 66 -60 180 3 ARC026 506659.407698699.234.97 66 -60 180 9 ARC027 506699.067698699.634.80 60 -60 180 7 ARC028 506742.047698701.134.55 60 -60 180 8 ARC029 506944.147698957.642.43 84 -60 270 4 ARC030 506952.307698938.340.81 90 -60 270 3 ARC031 506973.277698916.839.68 102 -60 270 7 ARC032 506969.777698896.339.26 108 -60 270 4 ARC033 506895.777698937.541.27 23 -60 90 9 ARC033a 506893.237698937.441.35 90 -60 90 8 ARC034 506973.317698940.140.47 137 -60 270 6 ARC036 506579.187698677.434.66 60 -60 180 2 ARC037 506579.807698718.935.06 84 -60 180 5 ARC038 506579.567698740.735.44 120 -60 180 3 ARC039 506777.667698676.134.67 60 -60 180 5 ARC040 506778.787698700.734.92 84 -60 180 5 ARC041 506779.347698720.735.06 120 -60 180 4 ARC042 506780.187698740.835.26 150 -60 180 4 ARC043 506897.417698636.033.75 60 -60 180 5 ARC044 506898.757698660.934.02 84 -60 180 7 ARC045 506899.477698682.434.15 126 -60 180 7 ARC046 506900.757698701.734.15 162 -60 180 3 ARC047 507477.907698581.029.79 60 -60 180 8 ARC048 507478.817698623.530.78 114 -60 180 1 ARC049 507478.897698663.230.84 144 -60 180 1 ARC050 507321.287698921.035.26 120 -60 0 4 ARC051 507237.307699007.937.79 136 -60 0 7 ARC052 507119.907698982.038.80 162 -60 0 4 ARC053 507120.277699027.241.43 126 -60 0 2 ARC054 507239.937698930.536.32 102 -60 0 5 ARC055 506536.057698688.934.65 78 -60 180 0 ARC056 506537.237698708.534.91 90 -60 180 4 ARC057 506538.587698729.535.07 120 -60 180 7 ARC058 506619.047698677.534.60 60 -60 180 0 ARC059 506619.967698720.234.95 120 -60 180 7 ARC060 506659.807698720.735.00 84 -60 180 8 ARC061 506660.867698740.435.30 126 -60 180 6 ARC062 506700.167698720.635.02 84 -60 180 4 ARC063 506700.767698738.635.31 120 -60 180 1 ARC064 506741.507698676.034.75 60 -60 180 8 ARC065 506742.697698719.435.01 102 -60 180 9 ARC066 506743.537698738.335.25 126 -60 180 6 ARC067 506817.457698682.434.68 84 -60 180 0 ARC068 506818.237698698.134.79 120 -60 180 2 ARC069 506819.537698717.735.00 24 -60 180 9 ARC069a 506821.177698740.735.24 162 -59 180 4 ARC070 506859.977698659.934.30 60 -60 180 5 ARC071 506860.657698679.634.44 84 -60 180 7 ARC072 506861.287698695.734.57 126 -60 180 3 ARC073 506935.817698638.233.73 60 -60 180 3 ARC074 506937.987698657.333.72 84 -60 180 2 ARC075 506941.877698698.133.99 150 -60 180 5 ARC076 507400.587698609.330.48 66 -60 180 0 ARC077 507400.507698650.731.23 162 -60 180 7 ARC078 506815.367698661.734.44 60 -60 180 3 ARC079 507478.027698559.529.86 108 -60 0 4 ARC080 507262.217698939.035.53 84 -60 270 0 ARC081 506781.507698779.736.00 264 -60 180 5 ARC082 506620.497698740.635.31 150 -60 180 7 ARC083 506934.497698679.833.85 150 -60 180 1 ARC084 506979.137698619.133.21 72 -60 180 5 ARC085 506979.647698641.433.61 112 -60 180 4 ARC086 506980.157698660.833.67 142 -60 180 8 ARC087 506980.267698682.033.58 196 -60 180 7 ARC088 507016.437698621.533.25 70 -60 180 0 ARC089 507017.157698642.733.28 112 -60 180 2 ARC090 507018.637698663.133.48 150 -60 180 3 ARC091 507019.247698682.133.39 192 -60 180 5 ARC092 507056.177698600.932.85 72 -60 180 9 ARC093 507056.247698620.132.91 114 -60 180 3 ARC094 507057.267698639.333.03 150 -60 180 1 ARC095 507058.557698659.633.05 204 -60 180 5 ARC096 507399.317698630.430.83 168 -60 180 8 ARC097 507398.347698593.030.44 108 -60 180 1 ARC098 507476.267698602.429.74 96 -60 180 9 ARC099 506534.827698675.034.35 66 -60 180 9 ARC100 506533.667698649.434.61 42 -60 180 3 ARC101 506744.207698758.635.66 156 -60 180 5 18CCAD001 506701.457698757.335.65 151.9 -60 180 3 18CCAD002 506778.937698694.934.86 128.1 -60 180 2 18CCAD003 506698.197698680.934.86 119.7 -75 0 6 18CCAD004 506819.627698709.634.97 141 -60 180 8 18CCAD005 506863.167698712.434.65 123 -60 180 2 18CCAD006 506901.247698720.434.82 168.2 -60 180 2 18CCAD007 506857.877698633.233.98 117.3 -60 0 8 18CCAD008 506932.997698937.941.15 81.5 -60 270 3 18CCAD009 506942.277698937.241.00 79.5 -60 270 4 18CCAD010 507480.507698641.330.88 171 -60 180 9 18CCAD011 507476.277698549.630.03 100.4 -50 0 5 18CCAD012 506935.007698900.041.00 122.9 -60 270 0 ARC102 507480 7698490 30 186 -60 360 ARC103 507140 7698640 32 66 -60 360 ARC104 507140 7698620 32 100 -60 360 ARC105 507180 7698630 32 66 -60 360 ARC106 507180 7698610 32 100 -60 360 ARC107 507020 7698700 34 200 -60 180 ARC108 507060 7698680 33.5 180 -60 180 ARC109 507100 7698620 32.5 60 -60 180 ARC110 507100 7698640 32.5 100 -60 180 ARC111 507100 7698660 32.5 140 -60 180 ARC112 507100 7698680 34 192 -60 180 ARC113 507220 7698600 31.5 60 -60 180 ARC114 507220 7698620 31.5 100 -60 180 ARC115 507220 7698640 31.5 174 -60 180 ARC116 507220 7698660 31.5 198 -60 180 ARC117 507260 7698600 30.5 126 -60 180 ARC118 507260 7698620 31 126 -60 180 ARC119 507260 7698640 31 180 -60 180 ARC120 507260 7698660 31 222 -60 180 ARC121 507300 7698590 30.5 108 -60 180 ARC122 507300 7698610 30.5 144 -60 180 ARC123 507300 7698630 31 180 -60 180 ARC124 507300 7698650 31 234 -60 180 ARC125 507340 7698610 30.5 144 -60 180 ARC126 507340 7698630 30.5 180 -60 180 ARC127 507340 7698650 31 234 -60 180 ARC128 507340 7698670 31 240 -60 180 ARC129 507440 7698580 30 108 -60 180 ARC130 507440 7698600 30 102 -60 180 ARC131 507440 7698620 30.5 156 -60 180 ARC132 507440 7698640 30.5 204 -60 180 ARC133 507440 7698660 31.5 228 -60 180 ARC134 507400 7698670 31.5 204 -60 180 ARC135 507520 7698580 29.5 100 -60 180 ARC136 507520 7698600 29.5 108 -60 180 ARC137 507520 7698620 30.5 168 -60 180 ARC138 507520 7698640 30.5 228 -60 180 ARC139 507520 7698660 30.5 240 -60 180 ARC140 506460 7698640 34.5 150 -60 180 ARC141 506460 7698680 34.5 120 -60 180 ARC142 506460 7698720 35 120 -60 180 ARC143 506460 7698760 35.5 120 -60 180 ARC144 506540 7698600 34.5 120 -60 360 ARC145 506580 7698640 35 120 -60 360 ARC146 506580 7698620 34.5 162 -60 360 ARC147 507560 7698600 29.5 114 -60 180 ARC148 507560 7698620 29.5 192 -60 180 ARC149 507560 7698640 30.5 192 -60 180 ARC150 507560 7698660 30 179 -60 180 ARC151 506620 7698760 35.5 144 -60 180 ARC152 506620 7698780 36 174 -60 180 ARC153 506660 7698760 35.5 162 -60 180 ARC154 506660 7698780 36 198 -60 180 ARC155 506700 7698780 36 192 -60 180 ARC156 506740 7698780 36 200 -60 180 ARC157 506780 7698760 35.5 180 -60 180 ARC158 506820 7698760 35.5 200 -60 180 ARC159 506860 7698730 35 160 -60 180 ARC160 506940 7698720 35.5 180 -60 180 ARC161 506980 7698700 34 180 -60 180 ARC162 507260 7698580 29 90 -60 180 ARC163 507600 7698630 29 90 -60 360 ARC164 507600 7698610 29 120 -60 360 ARC165 507600 7698590 30.5 144 -60 360 ARC166 507300 7698570 30.5 150 -60 180 ARC167 507340 7698590 30.5 90 -60 180 ARC168 507015 7698940 40 100 -60 270 ARC169 507050 7698940 39 120 -60 270 ARC170 507090 7698940 38 120 -60 270 ARC171 507130 7698980 38 102 -60 270 ARC172 507140 7698640 29 84 -60 360 ARC173 507640 7698620 29 120 -60 360 ARC174 507640 7698600 29 130 -60 360 ARC175 507600 7698570 29 138 -60 360 ARC176 507180 7698600 33 150 -60 180 ARC177 507180 7698620 33 144 -60 180 ARC178 507180 7698640 33 186 -60 180 ARC179 507180 7698660 33 200 -60 180 ARC180 507640 7698580 33 114 -60 360 ARC181 507680 7698650 33 72 -60 360 ARC182 507680 7698630 33 90 -60 360 ARC183 507680 7698610 33 114 -60 360 ARC184 507520 7698420 33 330 -60 360 ARC185 507640 7698720 33 102 -60 360 ARC186 507640 7698700 33 114 -60 360 ARC187 507640 7698680 33 126 -60 360 ARC188 507640 7698660 33 102 -60 360 ARC189 507480 7698420 33 330 -60 360 Note: Holes ARC102 to ARC189 are GPS located only and subject to survey. Table 3: Significant Assays: >0.5g/t Au, >500ppm Co (0.05%), >5000ppm Cu (0.5%). Hole Sample FromTo Au Co Cu Ag As Id No g/t ppm ppm ppm ppm ARC15ARV026217 18 1.34 142 1530 0.5 101 6 85 ARC15ARV026220 21 4.15 174 2000 1.1 128 6 88 ARC15ARV026224 25 0.73 126 3180 1.1 119 6 92 ARC15ARV026332 33 1.35 914 9140 1.9 3040 6 00 ARC15ARV026333 34 0.61 556 2740 0.25 814 6 03 ARC15ARV026334 35 0.15 1050 4650 0.7 817 6 04 ARC15ARV026335 36 0.16 1500 6240 1.1 577 6 05 ARC15ARV026336 37 0.29 534 167007 343 6 06 ARC15ARV026337 38 0.83 886 238007.1 389 6 07 ARC15ARV026338 39 0.1 699 7190 1.5 190 6 08 ARC15ARV026339 40 0.07 631 5870 1.3 142 6 09 ARC15ARV0263104 1050.91 390 153005 495 6 80 ARC15ARV0263107 1080.32 543 3480 0.9 702 6 85 ARC15ARV0263108 1090.65 1230 6820 2.5 1620 6 86 ARC15ARV0263110 1110.37 98 6240 1.9 72 6 88 ARC15ARV0263112 1130.82 1080 6800 3.8 1390 6 90 ARC15ARV0263113 1140.61 164 2710 0.8 87 6 91 ARC15ARV0264123 1240.53 592 856 0.25 743 6 03 ARC15ARV0264143 1449.01 8750 304 0.5 13050 6 25 ARC15ARV0264144 1451.19 997 128 0.25 1420 6 26 ARC15ARV0264145 1461.45 1330 197 0.5 1850 6 27 ARC15ARV0264169 1701.4 1120 1900 0.25 1380 6 53 ARC15ARV0264196 1971.06 176 1210 0.7 256 6 84 ARC15ARV026510 11 0.21 165 152004.5 82 7 16 ARC15ARV026511 12 3.18 166 259005.1 134 7 17 ARC15ARV026513 14 2.39 227 190002 503 7 19 ARC15ARV026525 26 0.12 977 372 0.6 757 7 33 ARC15ARV026693 94 0.72 258 3030 1.1 349 7 09 ARC15ARV026694 95 0.98 109 3250 1 110 7 10 ARC15ARV026695 96 2.5 198 3850 1.2 248 7 11 ARC15ARV0266100 1010.53 2660 1320 0.6 3460 7 16 ARC15ARV0266101 1021.37 3690 177005.4 4810 7 17 ARC15ARV0266103 1040.14 537 994 0.25 697 7 19 ARC15ARV0266108 1090.14 676 1140 0.25 945 7 26 ARC15ARV0266109 1104.69 4350 154005.3 5900 7 27 ARC15ARV0266110 11120.9 9410 6370022.1 12250 7 28 ARC15ARV0266111 11216.659730 7240023.9 12800 7 29 ARC15ARV0266112 1137.08 4800 3360011.9 6450 7 30 ARC15ARV0266113 1142.13 2570 153004.9 3360 7 31 ARC15ARV0266114 1151.05 2150 9480 3 2820 7 32 ARC15ARV0266115 1160.74 2720 4890 1.6 3520 7 33 ARC15ARV0266116 1171.42 7700 1990 0.8 10300 7 34 ARC15ARV0266117 1180.34 2760 1520 0.6 3470 7 35 ARC15ARV0266118 1190.64 323 4060 1.3 397 7 36 ARC15ARV0266119 1200.66 986 6100 2 1300 7 37 ARC15ARV0266122 1230.42 541 1670 0.6 690 7 40 ARC15ARV0266126 1271.12 632 1850 0.9 807 7 46 ARC15ARV0266127 1280.62 276 1130 0.25 334 7 47 ARC15ARV0266133 1342.76 3570 4180 1.3 4380 7 53 ARC15ARV0266134 1353.91 6160 6140 2 7800 7 54 ARC15ARV0266135 1360.97 1460 2140 0.7 1880 7 55 ARC15ARV0266136 1370.48 534 1270 0.6 695 7 56 ARC15ARV0266137 1380.59 695 1090 0.25 893 7 57 ARC15ARV0266139 1401.1 109 124004.2 75 7 59 ARC15ARV0266142 1431.22 1820 686 0.25 2310 7 64 ARC15ARV0266143 1440.57 167 3790 1.1 199 7 65 ARC15ARV0266147 1480.43 851 612 0.25 1085 7 69 ARC15ARV0266148 1490.27 610 503 0.25 818 7 70 ARC15ARV0266149 1500.64 2150 1120 0.6 2720 7 71 ARC15ARV0266151 1522.43 3250 3060 1.4 3980 7 73 ARC15ARV0266152 1531.24 984 1510 0.5 1230 7 74 ARC15ARV0266153 1541.5 1350 3610 1.3 1705 7 75 ARC15ARV0266154 1550.27 726 3950 1.4 940 7 76 ARC15ARV0266155 1560.15 195 5690 2 257 7 77 ARC15ARV0266156 1570.26 502 2940 1 659 7 78 ARC15ARV0266157 1580.74 931 2690 1.1 1190 7 79 ARC15ARV0266158 1592.48 469 7110 2.8 592 7 80 ARC15ARV026730 31 2.5 1795 5880 0.7 2170 8 46 ARC15ARV026744 45 0.13 109 5450 1.4 86 8 60 ARC15ARV026752 53 0.96 125 977 0.25 119 8 70 ARC15ARV0268101 1021 540 136003.8 648 8 25 ARC15ARV0268116 1172.32 313 3290 0.9 391 8 40 ARC15ARV0268117 1182.9 76 857 0.25 79 8 43 ARC15ARV0268129 1301.78 3940 3990 1 4860 8 55 ARC15ARV0268130 1310.35 621 1765 0.25 807 8 56 ARC15ARV0268131 1327.74 881 1930 0.25 1105 8 57 ARC15ARV0268133 1340.59 1310 1880 0.25 1605 8 59 ARC15ARV0268135 1362.86 1300 140003.6 1715 8 63 ARC15ARV0268136 1371.05 152 2440 0.6 213 8 64 ARC15ARV0268148 1497.02 1220 1065 0.8 1565 8 76 ARC15ARV0268149 1500.73 234 548 0.25 299 8 77 ARC15ARV0268157 1583.19 1880 134003.9 2380 8 87 ARC15ARV0268158 1590.92 591 2340 0.25 713 8 88 ARC15ARV0268161 1620.68 244 570 0.25 284 8 91 ARC15ARV0268162 1630.81 3040 488 0.25 3680 8 92 ARC15ARV0268164 1650.47 1055 536 0.25 1285 8 94 ARC15ARV0269175 1760.27 1060 1005 0.25 1285 8 07 ARC15ARV0269177 1780.23 433 7590 2.2 532 8 09 ARC15ARV0269179 1800.18 191 7380 2.2 195 8 11 ARC15ARV02693 4 0.07 178 5100 0.7 147 9 35 ARC15ARV026932 33 0.35 86 101002.1 79 9 68 ARC15ARV026933 34 1.65 221 191008.2 184 9 69 ARC15ARV026934 35 1.71 228 196007.8 115 9 70 ARC15ARV026935 36 0.33 107 7360 3.6 45 9 71 ARC15ARV026936 37 0.5 152 9880 3.4 74 9 72 ARC15ARV026959 60 0.69 304 116004.1 69 9 97 ARC15ARV027067 68 0.33 140 8950 3.3 112 9 07 ARC15ARV027068 69 0.79 1015 119003.7 1380 9 08 ARC15ARV027069 70 0.9 350 162005.5 360 9 09 ARC15ARV0270113 1140.09 620 1025 0.25 846 9 57 ARC15ARV0270114 1150.51 2960 5930 1.8 4140 9 58 ARC15ARV0270125 1260.44 1785 1675 0.6 2490 9 71 ARC15ARV0270141 1420.46 696 1790 0.7 892 9 89 ARC15ARV0270142 1430.5 115 5280 2.2 118 9 90 ARC16ARV027171 72 0.16 539 345 0.25 682 0 91 ARC16ARV027296 97 0.29 797 2110 0.6 1080 0 18 ARC16ARV027297 98 0.12 1530 877 0.25 2030 0 19 ARC16ARV0272130 1311.15 135 212005.7 68 0 56 ARC16ARV0272131 1320.88 227 122003.1 253 0 57 ARC16ARV0272133 1341.11 661 6720 2 871 0 59 ARC16ARV0272134 1352.74 686 2400 0.6 932 0 60 ARC16ARV0272138 1391.87 1290 8340 2.1 1720 0 66 ARC16ARV0272142 1430.93 2770 1885 0.9 3580 0 70 ARC16ARV0272155 1560.25 765 2960 0.8 1000 0 85 ARC16ARV0272163 1640.44 74 5390 1.8 36 0 93 ARC16ARV0274111 1120.2 816 1530 0.25 1080 1 35 ARC16ARV0274119 1201.52 756 2600 0.5 962 1 45 ARC16ARV0274122 1231.2 112 4730 1.2 97 1 48 ARC16ARV0274129 1305.01 606 8070 2.1 787 1 55 ARC16ARV0274130 1310.8 275 2150 0.5 351 1 56 ARC16ARV0274132 1332.66 601 3450 1.1 759 1 58 ARC16ARV0274133 1341.03 372 4850 1.2 467 1 59 ARC16ARV0274135 1360.62 158 1300 0.25 219 1 63 ARC16ARV0274136 1371.95 2150 5740 1.6 2800 1 64 ARC16ARV0274137 1381.6 1010 3340 0.8 1300 1 65 ARC16ARV02753 4 0.11 745 1610 0.25 255 2 16 ARC16ARV02754 5 0.4 1075 197002.5 174 2 17 ARC16ARV02755 6 0.61 438 102002.9 157 2 18 ARC16ARV02756 7 0.52 339 3410 1.2 183 2 19 ARC16ARV02758 9 1.09 803 159008.8 389 2 23 ARC16ARV02759 10 0.68 515 237005.9 402 2 24 ARC16ARV027510 11 0.94 938 271007.3 499 2 25 ARC16ARV027511 12 0.81 450 137003 329 2 26 ARC16ARV027512 13 1.3 166 185006 105 2 27 ARC16ARV027513 14 0.39 565 8550 1.6 373 2 28 ARC16ARV027514 15 0.35 375 9980 2.1 329 2 29 ARC16ARV027515 16 0.59 658 187003.8 619 2 30 ARC16ARV027516 17 0.53 231 103001.7 277 2 31 ARC16ARV027517 18 0.58 244 123002.7 244 2 32 ARC16ARV027518 19 0.85 518 206004.7 627 2 33 ARC16ARV027519 20 0.55 1355 170003.2 974 2 34 ARC16ARV027520 21 1.31 191 3650017.3 213 2 35 ARC16ARV027521 22 0.87 170 159004.4 259 2 36 ARC16ARV027522 23 0.46 163 9110 5.1 274 2 37 ARC16ARV027523 24 1.87 172 2310010.7 327 2 38 ARC16ARV027524 25 1.41 231 6170025.8 296 2 39 ARC16ARV027525 26 1.18 251 3380013.8 223 2 40 ARC16ARV027526 27 0.53 923 110004.6 1220 2 43 ARC16ARV027527 28 0.6 669 8940 2.3 797 2 44 ARC16ARV027619 20 0.99 585 2280 0.25 413 3 34 ARC16ARV027620 21 0.65 622 2660 0.6 566 3 35 ARC16ARV027624 25 4.1 1505 5130016.7 1230 3 39 ARC16ARV027625 26 1.41 785 2470010 484 3 40 ARC16ARV027626 27 0.57 249 9840 3.5 142 3 43 ARC16ARV027627 28 0.39 101 8310 1.3 86 3 44 ARC16ARV027629 30 3.73 86 4640 1.8 119 3 46 ARC16ARV027633 34 0.52 159 6400 1.2 211 3 50 ARC16ARV027635 36 0.19 176 5840 1.6 335 3 52 ARC16ARV027636 37 0.56 183 7730 3.2 138 3 53 ARC16ARV027638 39 0.28 204 6310 2.7 230 3 55 ARC16ARV027639 40 0.66 224 5890 2.4 193 3 56 ARC16ARV027640 41 0.4 174 7710 3.7 116 3 57 ARC16ARV027641 42 0.79 276 2490010.5 280 3 58 ARC16ARV027642 43 1.83 258 203009.3 99 3 59 ARC16ARV027643 44 2.11 180 110005.2 83 3 60 ARC16ARV027644 45 0.75 255 161006.7 204 3 63 ARC16ARV027645 46 0.8 210 135005.9 140 3 64 ARC16ARV027646 47 0.98 216 2620011.2 96 3 65 ARC16ARV027647 48 1.82 304 212009.5 191 3 66 ARC16ARV027648 49 0.73 156 195008.8 63 3 67 ARC16ARV027649 50 1.42 794 9800 4.5 929 3 68 ARC16ARV027650 51 0.5 129 6510 2.8 87 3 69 ARC16ARV027651 52 0.72 182 219009.1 123 3 70 ARC16ARV027652 53 0.78 171 140006.5 168 3 71 ARC16ARV027653 54 1.38 212 163007.4 171 3 72 ARC16ARV027654 55 0.86 689 8470 4.3 993 3 73 ARC16ARV027655 56 0.56 299 8320 3.3 498 3 74 ARC16ARV027656 57 0.2 378 5090 1.6 485 3 75 ARC16ARV027738 39 0.05 694 716 0.9 341 4 89 ARC16ARV027740 41 0.05 656 732 0.8 334 4 91 ARC16ARV027747 48 0.73 526 3670 1.4 742 4 98 ARC16ARV027748 49 7.36 3350 190006.4 4800 4 99 ARC16ARV027850 51 0.33 351 5240 1.4 75 4 03 ARC16ARV027852 53 0.7 1260 109004.4 1615 4 05 ARC16ARV027853 54 1.22 291 169006.3 252 4 06 ARC16ARV027854 55 0.28 174 5860 2.2 105 4 07 ARC16ARV027857 58 0.24 171 5530 1.6 126 4 10 ARC16ARV027858 59 0.94 1235 159005.5 1480 4 11 ARC16ARV027859 60 0.33 331 8500 2.8 343 4 12 ARC16ARV027860 61 0.37 207 7050 2.7 213 4 13 ARC16ARV027861 62 0.19 218 5780 2 281 4 14 ARC16ARV027862 63 0.76 2160 128004.7 2970 4 15 ARC16ARV027863 64 0.25 561 8220 3 729 4 16 ARC16ARV027864 65 0.23 436 5640 2.2 558 4 17 ARC16ARV027865 66 1.14 122 191007.5 91 4 18 ARC16ARV027867 68 0.22 329 150005.3 429 4 20 ARC16ARV027868 69 0.43 1040 2970010.8 1360 4 23 ARC16ARV027869 70 0.74 732 2560013.1 769 4 24 ARC16ARV027870 71 0.71 312 194008.2 229 4 25 ARC16ARV027871 72 6.78 492 3110014.2 196 4 26 ARC16ARV027872 73 0.19 134 210008.6 127 4 27 ARC16ARV027873 74 6.13 187 2530010.1 234 4 28 ARC16ARV027874 75 1.11 249 2930012.7 206 4 29 ARC16ARV027875 76 5.79 359 173007.4 192 4 30 ARC16ARV027876 77 0.83 346 213009.4 211 4 31 ARC16ARV027877 78 3.04 1270 226009.8 1380 4 32 ARC16ARV027878 79 0.77 159 115004.9 83 4 33 ARC16ARV027879 80 0.3 162 8730 3.9 98 4 34 ARC16ARV027880 81 0.3 556 7630 3.6 534 4 35 ARC16ARV027969 70 0.15 53 5780 1.6 63 5 84 ARC16ARV027970 71 0.2 62 6990 2 88 5 85 ARC16ARV028038 39 0.41 195 121005.2 273 6 49 ARC16ARV0281109 1100.47 77 7380 3.8 3590 6 28 ARC16ARV028110 11 1.26 109 5860 0.25 454 7 85 ARC16ARV028111 12 0.82 92 3110 0.25 392 7 86 ARC16ARV028112 13 0.18 122 109000.25 240 7 87 ARC16ARV028114 15 0.15 621 4970 2.5 660 7 89 ARC16ARV028115 16 0.08 625 3410 2.1 539 7 90 ARC16ARV028116 17 0.09 892 2540 1.1 629 7 91 ARC16ARV028118 19 0.04 794 1310 0.25 476 7 93 ARC16ARV028123 24 0.89 248 3790 0.6 299 7 98 ARC16ARV028226 27 0.24 1230 2010 0.9 744 7 03 ARC16ARV028238 39 0.35 531 763 0.25 451 7 15 ARC16ARV028239 40 2.92 906 5580 1.9 986 7 16 ARC16ARV028252 53 3.28 666 2520 0.7 221 7 31 ARC16ARV028267 68 0.78 69 976 0.25 67 7 48 ARC16ARV028291 92 0.26 112 9690 3.4 104 7 74 ARC16ARV028377 78 0.005585 198 0.25 263 8 72 ARC16ARV028388 89 1.15 8830 410 0.25 13300 8 85 ARC16ARV028389 90 9.71 32300378 1.3 44800 8 86 ARC16ARV028390 91 8.32 16100350 0.9 22400 8 87 ARC16ARV028391 92 1.76 3760 574 0.5 4780 8 88 ARC16ARV028392 93 0.16 553 385 0.25 743 8 89 ARC16ARV028395 96 0.98 3160 329 0.5 4140 8 92 ARC16ARV028396 97 5.75 241002080 1.3 36200 8 93 ARC16ARV028397 98 0.23 1600 157 0.25 2140 8 94 ARC16ARV028398 99 0.31 1970 181 0.25 2520 8 95 ARC16ARV028399 1000.18 953 368 0.25 1300 8 96 ARC16ARV0283101 1020.67 3090 390 0.25 3960 8 98 ARC16ARV0283102 1031.65 4920 836 0.6 6640 8 99 ARC16ARV0284103 1040.11 513 613 0.25 746 8 00 ARC16ARV0284104 1050.19 677 964 0.5 887 8 03 ARC16ARV0284109 1100.35 1555 178 0.25 1910 8 08 ARC16ARV028592 93 0.09 803 54 0.25 5930 9 15 ARC17ARV02852 3 0.04 531 1880 0.8 487 0 49 ARC17ARV02855 6 1.57 183 2940 0.25 217 0 52 ARC17ARV028535 36 0.01 59 5860 1.8 180 0 86 ARC17ARV028687 88 0.22 848 681 0.25 1190 0 44 ARC17ARV028692 93 9.79 2930 4250013.4 4360 0 49 ARC17ARV028693 94 2.03 830 155004.6 1340 0 50 ARC17ARV028694 95 0.77 509 7120 2.6 983 0 51 ARC17ARV028696 97 0.09 145 5920 2.1 223 0 53 ARC17ARV028698 99 0.17 208 124004.9 319 0 55 ARC17ARV028699 1000.12 350 5300 2 570 0 56 ARC17ARV0286101 1020.05 602 4390 1.7 907 0 58 ARC17ARV028745 46 0.64 92 1025 0.25 89 1 30 ARC17ARV028756 57 0.88 141 993 0.25 106 1 43 ARC17ARV028757 58 1.71 476 1500 0.25 524 1 44 ARC17ARV028797 98 0.34 1440 143 0.25 2030 1 88 ARC17ARV02874 5 0.06 687 2510 0.25 278 2 97 ARC17ARV02875 6 0.29 917 4690 0.25 331 2 98 ARC17ARV02876 7 0.27 617 6110 0.25 233 2 99 ARC17ARV02887 8 0.77 577 9110 0.25 772 2 00 ARC17ARV02888 9 0.37 762 4620 0.25 774 2 03 ARC17ARV028814 15 0.26 102 7080 0.8 164 2 09 ARC17ARV028823 24 0.22 327 8000 1.6 363 2 18 ARC17ARV028824 25 0.09 964 2910 1.3 519 2 19 ARC17ARV028834 35 0.28 170 5230 1 217 2 31 ARC17ARV028875 76 0.04 974 236 0.25 703 2 76 ARC17ARV028925 26 0.99 503 1120 0.25 827 3 14 ARC17ARV028926 27 0.44 562 6750 13.4 571 3 15 ARC17ARV028927 28 0.37 783 2840 0.25 1140 3 16 ARC17ARV028928 29 0.34 917 3650 0.25 1190 3 17 ARC17ARV028929 30 3.08 1370 225009.9 951 3 18 ARC17ARV028930 31 2.78 1530 4290019.7 891 3 19 ARC17ARV028931 32 6.24 604 151003.5 774 3 20 ARC17ARV028932 33 2.12 453 247006.8 494 3 23 ARC17ARV028933 34 11.9 404 304006.4 486 3 24 ARC17ARV028934 35 5.38 528 214008.1 353 3 25 ARC17ARV028935 36 10.4 650 277 11.4 1090 3 26 ARC17ARV028936 37 0.54 581 7450 3.4 1280 3 27 ARC17ARV028937 38 0.12 965 2930 0.8 1090 3 28 ARC17ARV028938 39 0.29 456 8290 4.4 476 3 29 ARC17ARV028946 47 0.55 92 5730 1.5 265 3 37 ARC17ARV029043 44 0.2 1100 4590 2 1050 4 60 ARC17ARV029045 46 1.02 1890 159007.1 2270 4 64 ARC17ARV029046 47 0.22 688 170007.1 259 4 65 ARC17ARV029047 48 0.54 1040 2320012.7 384 4 66 ARC17ARV029048 49 0.29 758 287007.5 840 4 67 ARC17ARV029049 50 1.29 1010 3730017.5 880 4 68 ARC17ARV029050 51 3.01 1300 7060023.1 1520 4 69 ARC17ARV029051 52 0.87 932 2890015 973 4 70 ARC17ARV029052 53 0.18 333 5340 2.5 349 4 71 ARC17ARV029189 90 0.94 193 465 0.25 967 4 12 ARC17ARV029190 91 1.74 148 338 0.25 782 4 13 ARC17ARV029266 67 0.57 2480 253006.6 2420 5 31 ARC17ARV029267 68 0.39 1710 4290 1.4 1995 5 32 ARC17ARV029268 69 1.1 2130 7350 3.4 2260 5 33 ARC17ARV029269 70 1.54 6880 9330 3.4 8040 5 34 ARC17ARV029270 71 5.27 12600128004 17500 5 35 ARC17ARV029271 72 4.14 8160 160005.5 11550 5 36 ARC17ARV029272 73 0.37 993 5500 2.5 740 5 37 ARC17ARV029273 74 0.42 1920 4760 1.8 1430 5 38 ARC17ARV029274 75 0.36 1190 7810 2.9 754 5 39 ARC17ARV029275 76 0.96 5970 6270 2.3 4970 5 40 ARC17ARV029276 77 0.39 2450 3380 1.4 1575 5 43 ARC17ARV029277 78 0.34 2220 4790 1.8 1070 5 44 ARC17ARV029278 79 0.72 1970 3370 1.3 951 5 45 ARC17ARV029279 80 0.36 1780 7270 2.7 1595 5 46 ARC17ARV029281 82 0.27 831 6450 2.5 1050 5 48 ARC17ARV029282 83 0.41 236 117003.9 290 5 49 ARC17ARV029283 84 0.73 412 225008.2 438 5 50 ARC17ARV029284 85 2.55 318 2730011.4 167 5 51 ARC17ARV029285 86 0.85 92 112004.1 53 5 52 ARC17ARV029288 89 1.56 1075 130006 1310 5 55 ARC17ARV029289 90 0.32 538 110003.7 587 5 56 ARC17ARV029290 91 0.54 2420 6330 2.4 3210 5 57 ARC17ARV029291 92 0.14 606 3850 1.5 789 5 58 ARC17ARV029292 93 0.13 486 6990 2.5 584 5 59 ARC17ARV029293 94 0.45 337 7410 4 124 5 60 ARC17ARV029294 95 0.58 368 210008 216 5 63 ARC17ARV029295 96 1.66 743 179007.5 628 5 64 ARC17ARV029296 97 1.44 713 137006.6 1360 5 65 ARC17ARV029297 98 1.29 559 121005.5 935 5 66 ARC17ARV029298 99 1.09 468 6710 3.9 1160 5 67 ARC17ARV029299 1001.24 579 9280 3.1 2090 5 68 ARC17ARV0292100 1010.42 687 5970 1.5 1735 5 69 ARC17ARV0292101 1020.21 554 3250 0.8 723 5 70 ARC17ARV0292102 1030.31 595 4420 1.2 1465 5 71 ARC17ARV0292103 1040.62 539 9380 2.9 1470 5 72 ARC17ARV0292104 1050.31 628 7590 4.7 2100 5 73 ARC17ARV0292105 1063.89 727 5030026.5 1905 5 74 ARC17ARV0292106 1070.76 944 178008.2 1120 5 75 ARC17ARV0292107 1083.35 1525 131006.2 1785 5 76 ARC17ARV0292108 1090.3 444 6130 1.6 1170 5 77 ARC17ARV0292112 1130.07 520 1965 0.5 311 5 83 ARC17ARV029311 12 0.52 123 3570 0.25 169 6 24 ARC17ARV029312 13 0.85 213 4860 0.25 122 6 25 ARC17ARV029314 15 0.59 380 2000 0.25 218 6 27 ARC17ARV029315 16 0.6 395 3840 0.25 195 6 28 ARC17ARV029489 90 0.44 93 2770010.3 48 6 10 ARC17ARV0294142 1430.03 56 113006.3 53 6 69 ARC17ARV029549 50 0.4 507 3760 1.4 611 7 32 ARC17ARV029550 51 0.5 738 5310 1.9 899 7 33 ARC17ARV029551 52 0.71 809 5500 2.2 983 7 34 ARC17ARV029552 53 0.56 664 5060 1.8 818 7 35 ARC17ARV029553 54 0.6 203 1360 0.7 293 7 36 ARC17ARV029554 55 0.88 610 5390 1.8 766 7 37 ARC17ARV029555 56 10.5 7620 144005.5 9940 7 38 ARC17ARV029556 57 3.18 1090 103003.7 1310 7 39 ARC17ARV029557 58 9.9 4900 179008.2 6490 7 40 ARC17ARV029558 59 4.22 1900 9600 3.9 2410 7 43 ARC17ARV0298174 1750.12 23 6890 4.1 2.5 8 31 ARC17ARV0298175 1760.12 41 7720 4.5 16 8 32 ARC17ARV0298176 1770.26 31 7280 4.2 2.5 8 33 ARC17ARV0298177 1780.09 37 6140 3.6 15 8 34 ARC17ARV0299111 1120.24 121 5650 1.4 12 9 68 ARC17ARV0300160 1610.85 165 4230 1.2 161 9 23 ARC17ARV0300161 1620.37 130 5950 1.8 40 9 24 ARC17ARV0300167 1680.17 48 6840 2 7 9 30 ARC18ARV0301100 1011.41 1040 112007.3 1470 0 95 ARC18ARV030351 52 0.46 126 8560 1.7 454 2 48 ARC18ARV030352 53 0.81 191 131004.2 404 2 49 ARC18ARV030353 54 0.12 114 8360 2.2 184 2 50 ARC18ARV030677 78 0.51 478 1300 1.6 869 4 04 ARC18ARV0307171 1720.18 51 6870 1.9 7 4 08 ARC18ARV0307172 1730.16 63 7560 2.2 12 4 09 ARC18ARV0307185 1862.58 113 3930 1.4 127 4 24 ARC18ARV0307226 2270.27 249 6660 1.6 308 4 69 ARC18ARV0307227 2280.28 235 7790 2.8 286 4 70 ARC18ARV0307228 2290.47 1560 121003.8 2050 4 71 ARC18ARV0307229 2301.33 3660 4230 0.9 4800 4 72 ARC18ARV0307230 23116.054000 218007.3 5360 4 73 ARC18ARV0307233 2340.39 430 9370 2.5 531 4 76 ARC18ARV0307234 2350.97 1130 133003.8 1485 4 77 ARC18ARV0307235 2360.37 110 9800 2.5 115 4 78 ARC18ARV0307236 2373.52 1340 156004 1690 4 79 ARC18ARV0307237 2382.03 1820 3590 0.7 2390 4 80 ARC18ARV0307238 2399.7 3600 9110 2.4 4740 4 83 ARC18ARV0307239 2402.29 926 4950 1.4 1195 4 84 ARC18ARV0307240 24115.55103507210 2.9 13800 4 85 ARC18ARV0307241 24214.6 12350136004.9 16550 4 86 ARC18ARV0307242 2435.95 5120 4790 1.5 6810 4 87 ARC18ARV0307243 2442.93 2540 123003.6 3280 4 88 ARC18ARV0307244 2452.38 2400 7080 2.1 3100 4 89 ARC18ARV0307245 2460.4 883 915 0.25 1170 4 90 ARC18ARV0307248 2491.82 5030 7790 2.5 6810 4 93 ARC18ARV0307249 2500.92 1220 9890 2.8 1580 4 94 ARC18ARV0307250 2510.31 246 7090 2.2 297 4 95 ARC18ARV0307251 2520.35 540 2250 0.5 686 4 96 ARC18ARV0307252 2530.78 506 5490 1.6 622 4 97 ARC18ARV0308256 2570.3 121 6680 1.6 84 4 03 ARC18ARV0308274 2750.15 109 6890 2.2 82 4 23 ARC18ARV0308292 2930.93 82 2820 0.8 72 4 43 ARC18ARV030942 43 0.21 185 5540 1.5 41 5 31 ARC18ARV030943 44 0.04 160 5400 1.2 42 5 32 ARC18ARV030982 83 0.31 845 652 0.25 1415 5 75 ARC18ARV030983 84 1.02 2400 121 0.25 3600 5 76 ARC18ARV031037 38 0.23 154 4990 0.8 175 6 38 ARC18ARV031156 57 0.63 59 432 0.25 93 7 87 ARC18ARV031159 60 0.93 58 1670 0.6 14 7 90 ORC Code, 2012 Edition - Table 1 Section 1 Sampling Techniques and Data (Criteria in this section apply to all succeeding sections.) CriteriaJORC Code Commentary explanation Sampling· Nature and · Reverse Circulation (RC) and quality of diamond drilling were carried sampling out on the Carlow Castle techniqu ( Co-Cu-Au Project. es e.g. cut channels, random chips, · This RC component of the or specific drilling was designed to obtain specialised drill chip samples from one industry metre intervals, from which a standard 2-4 kilogram sub-sample was measurement collected for laboratory tools multi-element analysis appropriate to including: the minerals under Ag, Al, As, Ba, Be, Bi, Ca, Cd, investigation, Co, Cr, Cu, Fe, Ga, K, La, Mg, such as down Mn, Mo, Na, Ni, P, Pb, S, Sb, Sc, Sr, Th, Ti, Tl, U, V, W, hole gamma Zn sondes, or . handheld XRF · All samples were analysed using instruments, a portable XRF instrument etc). These (Innovex Delta). Initial examples methodology should not be taken as trialling the units has been to limiting the make a single randomly placed broad meaning measurement on the drill sample of bag. For more intensive sampling. evaluation a minimum of 4 measurements at regular · Include intervals around the sample bag reference to will be required. Optimum measures taken sampling time appears to be 90 to ensure seconds per sample measurement. representivity · Mineralised zones were and the identified visually during appropriate calibration of field logging, and sample any intervals selected by the measurement supervising tools or geologist. systems used. · Samples from each metre were collected through a rig-mounted · Aspects of cyclone and split using a the rig-mounted static cone determination splitter. of mineralisation · Field duplicates were taken that are and submitted for Material to analysis. the Public Report. · Substantial historic drilling has been completed in the · In cases vicinity of the drilling where completed by Artemis. The most industry significant work was completed standard work by Consolidated Gold Mining has been done Areas (1969), Open Pit Mining this would be Limited (Open Pit) between 1985 relatively and 1987, and Legend Mining NL simple (Legend) between 1995 and 2008. ( Compilation of this data has e.g. reverse been completed based on Annual circulation Exploration Reports available drilling was through WAMEX. Although limited used to obtain information is available 1 m samples regarding procedures from which 3 implemented during this period, kg was work completed by Artemis to pulverised to date has validated much of this produce a 30 g historic data. It is considered charge for that the historic work was fire assay). completed professionally, and In other that certain assumptions can reasonably be based on results cases, more reported throughout this explanation period. may be required, such as where there is coarse gold that has inherent sampling problems. Unusual commodities or mineralisation types ( e.g. submarine nodules) may warrant disclosure of detailed information. Drilling· Drill type (e.· Reverse Circulation drilling g. at Carlow Castle was completed core, reverse by a truck-mounted Schramm T685 techniqu circulation, RC drilling rig using a 5Œ inch es open-hole diameter face sampling hammer. hammer, rotary air blast, auger, Bangka, sonic, etc) and details ( e.g. core diameter, triple or standard tube, depth of diamond tails, face-sampling bit or other type, whether core is oriented and if so, by what method, etc). Drill · Method of · Sample recoveries are recorded sample recording and by the geologist in the field assessing core during logging and and chip sampling. recovery sample recoveries and · If poor sample recovery is results encountered during drilling, assessed. the supervising geologist and driller · Measures taken to endeavour to rectify the problem maximise to ensure maximum sample sample recovery. recovery and ensure · Visual assessments are made representative for recovery, moisture, and nature of the possible samples. contamination. · Whether a · A cyclone and static cone relationship splitter were used to ensure exists between representative sample recovery and sampling and were routinely grade and inspected and whether sample cleaned. bias may have occurred due · Sample recoveries during to drilling completed by Artemis were high, and all samples were preferential dry. loss/gain of fine/coarse material. · Insufficient data exists at present to determine whether a relationship exists between grade and recovery. This will be assessed once a statistically representative amount of data is available. Logging · Whether core · All drill chip samples are and chip geologically logged at 1m samples have intervals from surface to the been bottom of each geologically and drill hole. It is considered geotechnically that geological logging is logged to a completed at an adequate level level of to allow appropriate future detail to Mineral Resource support estimation. appropriate Mineral · Geological logging is Resource considered semi-quantitative estimation, due to the limited geological mining studies information available from the and Reverse Circulation method of metallurgical drilling. studies. · Whether · All RC drill holes completed logging is by Artemis during the current qualitative or program have been logged in quantitative full. in nature. Core (or · All diamond core is costean, lithologically logged and channel, etc) sample intervals defined by photography. mineralisation. · The total length and percentage of the relevant intersections logged. Sub-samp· If core, · The RC drilling rig was ling whether cut or equipped with a rig-mounted techniq sawn and cyclone and static cone ues and whether splitter, which provided one sample quarter, half bulk sample of approximately or all core 20-30 kilograms, and a taken. representative sub-sample of preparat approximately 2-4 kilograms for ion · If non-core, every metre whether drilled. riffled, tube sampled, · The sample size of 2-4 rotary split, kilograms etc and whether is appropriate and sampled wet or representative of the grain dry. size and mineralisation style of the · For all deposit. sample types, the nature, · The majority of samples were quality and dry. Where wet sample was appropriateness encountered, the cleanliness of of the sample the cyclone and splitter were preparation closely monitored by the technique. supervising · Quality geologist and maintained to a control satisfactory level to avoid procedures contamination and ensure adopted for representative samples were all being sub-sampling collected. stages to maximise · Diamond core is cut in half representivity with an Almondite automated of core cutting machine using samples. cradles. · Measures · Duplicate samples were taken to collected and submitted for ensure that analysis. Reference standards the sampling inserted during drilling. is representative of the in-situ material collected, including for instance results for field duplicate/secon d-half sampling. · Whether sample sizes are appropriate to the grain size of the material being sampled. Quality · The nature, · ALS (Perth) were used for all of quality and analysis of drill samples assay appropriateness submitted by Artemis. The of the laboratory techniques data and assaying and below are for all samples laboratory submitted to ALS and are procedures considered appropriate for the laborato used and style of mineralisation defined ry whether the within the Carlow Castle tests technique is Project considered area: partial or total. · Samples above 3Kg riffle split. · Pulverise to 95% passing 75 · For microns geophysical tools, · 50-gram Fire Assay (Au-AA26) spectrometers, with ICP finish handheld XRF instruments, - Au. etc, the · 4 Acid Digest ICP-AES Finish parameters (ME-ICP61) - used in determining Ag, Al, As, Ba, Be, Bi, Ca, Cd, the analysis Co, Cr, Cu, Fe, Ga, K, La, Mg, including Mn, Mo, Na, Ni, P, Pb, S, Sb, instrument Sc, Sr, Th, Ti, Tl, U, V, W, make and Zn model, reading . times, · Ore Grade 4 Acid Digest calibrations ICP-AES Finish (ME-OG62) factors applied and their · Standards were used for derivation, external laboratory checks by etc. Artemis. · Nature of · Duplicates were used for quality external laboratory checks by control Artemis. procedures adopted · Portable XRF (pXRF) analysis ( was completed e.g. standards, blanks, using Innovex Delta unit. XRF duplicates, analysis was completed on the external single metre sample bulk drill laboratory ample retained on site. Further checks) and statistical analysis will be whether completed to better determine acceptable the accuracy and precision of levels of the pXRF unit based on accuracy laboratory assay ( results. i.e. lack of bias) and · Portable XRF results are precision have considered semi-quantitative been and act as a guide to established. mineralised zones and sampling. Verifica· The · At least two company personnel tion of verification verify all significant samplin of significant results. g and intersections assayin by either · All geological logging and g independent or sampling information is alternative completed firstly on to paper company logs before being transferred personnel. to Microsoft Excel spreadsheets. Physical logs and · The use of sampling data are returned to twinned the Hastings head office for holes. scanning and storage. · Documentation of primary · No adjustments of assay data data, data are considered entry necessary. procedures, data verification, data storage (physical and electronic) protocols. · Discuss any adjustment to assay data. Location· Accuracy and · A Garmin GPSMap62 hand-held of quality of GPS was used to define the data surveys used location of the points to locate drill holes drill hole collars. Standard (collar and practice is for the GPS to be down-hole left at the site of the collar surveys), for a period of 5 minutes to trenches, mine obtain a steady reading. Collar workings and locations are considered to be other accurate to within 5m. Collars locations used will be picked up by DGPS in in Mineral the future. Resource estimation. · Downhole surveys were captured · Specification at 30 metre intervals for the of the grid system drill holes completed by Artemis. used. · The grid system used for all Artemis drilling is GDA94 (MGA · Quality and 94 Zone adequacy of 50) topographic control. · Topographic control is obtained from surface profiles created by drill hole collar data. Data · Data spacing · Current drill hole spacing is spacing for variable and reporting of dependent on specific and Exploration geological, and geophysical distrib Results. targets, and access ution requirements for each · Whether the data spacing drill hole. and · No sample compositing has been distribution used for drilling completed by is sufficient Artemis. All results reported to establish are the result of 1 metre the degree of downhole sample geological and intervals. grade continuity appropriate for the Mineral Resource and Ore Reserve estimation procedure(s) and classifications applied. · Whether sample compositing has been applied. Orientat· Whether the · Drill holes were located in ion of orientation of order to intersect the target sampling at an angle perpendicular to achieves strike direction. As the target data in unbiased structures were considered to relatio sampling of be steep to moderately dipping, n possible all Artemis structures and the extent to drill holes were angled at -55 to which this is or -60 degrees. geologi known, cal considering structu the deposit re type. · If the relationship between the drilling orientation and the orientation of key mineralised structures is considered to have introduced a sampling bias, this should be assessed and reported if material. Sample · The measures · The chain of custody is securit taken to managed by the supervising y ensure sample geologist who places calico security. sample bags in polyweave sacks. Up to 10 calico sample bags are placed in each sack. Each sack is clearly labelled with: o Artemis Resources Ltd o Address of laboratory o Sample range · Samples were delivered by Artemis personnel to the transport company in Karratha and shrink wrapped onto pallets. · The transport company then delivers the samples directly to the laboratory. Audits · The results · Data is validated upon or of any audits up-loading into the master reviews or reviews of database. Any validation issues sampling identified are investigated techniques and prior to reporting of data. results. Section 2 Reporting of Exploration Results (Criteria listed in the preceding section also apply to this section.) Criteria JORC Code Commentary explanation Mineral te· Type, · RC drilling by Artemis was nement reference carried out on and land tenure name/number, E47/1797 - 100% owned by status location and Artemis Resources Ltd. This ownership tenement forms a part of a including broader tenement package that agreements or comprises the West Pilbara material Project. issues with third parties · This tenement is in good such as joint standing and no known ventures, impediments exist (see map partnerships, provided in this report for overriding location). royalties, native title interests, historical sites, wilderness or national park and environmental settings. · The security of the tenure held at the time of reporting along with any known impediments to obtaining a licence to operate in the area. Exploratio· Acknowledgment· The most significant work to n done by and appraisal have been completed other of exploration historically in the Carlow parties by other Castle area, including the parties. Little Fortune and Good Luck prospects, was completed by Open Pit Mining Limited between 1985 and 1987, and subsequently Legend Mining NL between 1995 and 2008. · Work completed by Open Pit consisted of geological mapping, geophysical surveying (IP), and RC drilling and sampling. · Work completed by Legend Mining Ltd consisted of geological mapping and further RC drilling. · Legend also completed an airborne ATEM survey over the project area, with follow up ground-based FLTEM surveying. Re-processing of this data was completed by Artemis and was critical in developing drill targets for the completed RC drilling. · Compilation and assessment of historic drilling and mapping data completed by both Open Pit and Legend has indicated that this data is compares well with data collected to date by Artemis. Validation and compilation of historic data is ongoing. · All exploration and analysis techniques conducted by both Open Pit and Legend are considered to have been appropriate for the style of deposit. Geology · Deposit type, · The Carlow Castle Co-Cu-Au geological prospect includes a number of setting and mineralised shear zones, style of located on the northern mineralisation. margin of the Andover Intrusive Complex. Mineralisation is exposed in numerous workings at surface along numerous quartz rich shear zones. Both oxide and sulphide mineralisation are evident at surface associated with these shear zones. · Sulphide mineralisation appears to consist of Chalcopyrite, chalcocite, cobaltite and pyrite Drill · A summary of · Collar information for all dr hole all ill Informati holes on information reported is provided in the material to body of this report. 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 · In reporting · All intervals reported are aggregati Exploration composed of 1 metre down on Results, methods weighting hole intervals for Reverse averaging Circulation techniques, drilling maximum and/or , and lithologically intervals minimum grade are used for Diamond truncations core ( and are therefore length e.g. cutting of weighted. high grades) and cut-off grades are · No upper or lower cut-off gra usually des have been used in Material and reporting should be results. stated. · No metal equivalent · Where calculations are used in this aggregate report. intercepts incorporate short lengths of high grade results and longer lengths of low grade results, the procedure used for such aggregation should be stated and some typical examples of such aggregations should be shown in detail. · The assumptions used for any reporting of metal equivalent values should be clearly stated. Relationsh· These · True widths of ip relationships mineralisation have not been between are calculated for this report, mineralis particularly and as such all intersections ation important in reported are down-hole widths the reporting thicknesses. and of Exploration intercept Results. · A better understanding of lengths the deposit geometry will be · If the achieved on thorough geometry of interpretation of the data. the True thicknesses may be mineralisation reported at a later date if with respect warranted. Due to the to the drill moderately to steeply dipping nature of the mineralised hole angle is zones, it is expected that known, its true thicknesses will be less nature should than the reported down-hole be thicknesses. reported. · If it is not known and only the down hole lengths are reported, there should be a clear statement to this effect ( e.g. down hole length, true width not known). Diagrams · Appropriate · Appropriate maps and maps and sections are available in the sections (with body of this scales) and announcement. tabulations of intercepts should be included for any significant discovery being reported These should include, but not be limited to a plan view of drill hole collar locations and appropriate sectional views. Balanced · Where · Reporting of results in this reporting comprehensive report is considered reporting of balanced. all Exploration Results is not practicable, representative reporting of both low and high grades and/or widths should be practiced to avoid misleading reporting of Exploration Results. Other · Other · Targeting for the RC substanti exploration drilling completed by Artemis ve data, if was based on compilation of explorati meaningful and historic exploration on material, data should be data, and the surface expressio reported n of the targeted including (but mineralis not limited ed shear zones and associated to): historic workings. 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 · The nature · The results at the Carlow work and scale of Castle Co-Cu-Au project planned warrant further drilling. further work ( The drill program results to e.g. tests for date are considered lateral excellent. extensions, depth extensions or large-scale step-out drilling). · Diagrams clearly highlighting the areas of possible extensions, including the main geological interpretations and future drilling areas, provided this information is not commercially sensitive. Die englische Originalmeldung finden Sie unter folgendem Link: https://www.irw-press.at/press_html.aspx?messageID=44675 Die übersetzte Meldung finden Sie unter folgendem Link: https://www.irw-press.at/press_html.aspx?messageID=44675&tr=1NEWSLETTER REGISTRIERUNG:
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