HOLE_ID From To Geol Code Wart Lith Altn 1 Altn 2 Mineralisation Comment check SDH1 2 46 Cfl LQR Ser SDH1 46 52.8 Ccb LB Ch SDH1 52.8 179 Cfl LQR SDH1 179 191.2 Cv VB Ser Ch local semi massive pyrite SDH1 191.2 207 Cfl LQR Ser SDH1 207 306 Cveb VQLSst Ch Ser SDH1 306 310.5 Cvc VC Si SDH1 310.5 339 Cflq LQR Ser SDH1 339 352 Cv VB Ch SDH2 0 30 Cv VQLSst Ch Ser SDH2 30 122 Cv VB Ch Ser SDH2 122 207 Cveb VPLSst Ch SDH2 207 229 Cv VQSst Ch Cfl?+VSst SDH2 229 230.3 Cflq LQR Ch SDH2 230.3 359.8 Cv VQSst SDH2 359.8 369.3 Cv VQSst Ser SDH2 369.3 398.5 Cv VQSst Ch SDH2 398.5 400 Cv VSst Ch Ser 2-3% detrital and dss py V19/1 2.38 40 Cv VSst Ser V19/1 40 93 Cveb VPLSst Ser Cb V19/1 93 97 Cv VSst Ser V19/1 97 102 Cveb VPLSst Ser Cb py band V19/1 102 107 Cv VSst Ser V19/1 107 112 Cveb VPLSst Cb V19/1 112 114 Ccb LB Cb Ser V19/1 114 155 Cfl LQFBD Cb V19/1 155 159 Ccb LB Ch Cb V19/1 159 167 Cveb VMPLSst V19/1 167 168 Ccb LB Cb V19/1 168 190 Cveb VMPLSst py clasts V19/1 190 198 Ccb LB Ch Cb V19/1 198 198.5 Cv VLSst V19/1 198.5 200.36 Ccb LB Cb Ch V19/2 0 12 Cqvs VQQSst V19/2 12 18 Cv VQFSst V19/2 18 22.5 SiSX SiSX Si Ser SiSX V19/2 22.5 27 Cv VSst Ser V19/2 27 31 Cv VQFSst Ser Cb V19/2 31 34 SMSX SMSX Ser V19/2 34 39 Cv VSst V19/2 39 57.2 Cv VQFSst Si py V19/2 57.2 57.3 MSSX MSSX Si py V19/2 57.3 62 Cv VFQSst Si V19/2 62 64 Cqvs VQQSst Ser Si V19/2 64 70 Cv VFQSst Ser Ch V19/2 70 80 Cv VQFSst Ch Si V19/2 80 83 Cv VFQSst Ch Ser V19/2 83 100 Cv VQFSst Ser footwall? V19/2 100 106.5 Cv VFQSst Ch Ser V19/2 106.5 107.5 Ccb LB Ch V19/2 107.5 115.6 Cveb VPLSst Ser V19/2 115.6 123 Cveb VPB Ser Ch V19/2 123 140.4 Cveb VMPLSst Ser Cb V19/2 140.4 154.5 Cv VQFSst Ser Cb V19/2 154.5 164.2 Cqvs VQQLSst Ser Ch basal conglomerate? V19/3 3 13 Cveb VPLSst Ser V19/3 13 29 Cv VQFSst Ser Cb V19/3 29 47.7 Cveb VPLSst Ser V19/3 47.7 50.4 SiSX SiSX Si V19/3 50.4 52.1 Cv VLSst Si V19/3 52.1 52.7 Ccb LB Ch V19/3 52.7 60.8 Cv VSst Si Ser V19/3 60.8 63 Cveb VPLSst Si V19/3 63 83.6 Cv VLSst Cb V19/3 83.6 87.16 Cv VLSst Si V19/3 87.16 101 Cveb VPLSst V19/3 101 102.5 Ccb LB Ch Cb V19/3 102.5 112.3 Cv VLSst Ser Cb V19/3 112.3 120 SiSX SiSX Si V19/3 120 122 Cv VQSst Ch DSS py V19/3 122 149.4 Cv VQSst Ser Cb V19/3 149.4 154 Cflq LQR Ser Cb V19/3 154 168 Cflq LQR Cb Ser flow banding V19/3 168 177.6 Cv VSst Ser Cb V19/3 177.6 184 Cv VSst Ser Ch V19/3 184 189.5 Ccb LB Ch Cb V19/3 189.5 193.5 Cv VSst Ser Cb V19/3 193.5 194.5 Cv VQSst Ch Cb V19/3 194.5 206.2 Cv VQFSst Ser Cb V19/3 206.2 218 Cveb VPSst Cb ? V19/3 218 219 Ccb LB Ch V19/3 219 291 Cv VQFSst Ser Cb V19/3 291 300 Cv VQFSst Cb Ser V19/4 0.5 14 Cv VLSst Cb V19/4 14 19 Cv VSst V19/4 19 23.5 Cv VQFLSst Ser V19/4 23.5 26.5 Cv VQLSst Ser V19/4 26.5 28 Cv VQLSst Ser Si V19/4 28 29 Cveb VMPLSst Ch V19/4 29 34 Cv VQLSst Ch Si V19/4 34 41 Cv VQSst Si Cb V19/4 41 47.5 Cv VQSst Si V19/4 47.5 49 Cv VQFSst Si V19/4 49 50 Cv VQSst Si V19/4 50 57 Cv VFQSst Si Ch V19/4 57 63 Cv VFQSst Ch Ser V19/4 63 64.25 Cv VQSst Si V19/4 64.25 68 Cv VQFSst Si Ch V19/4 68 70 Cv VFQSst Ch WD001 0 9.45 Cfl LQFBD Ser WD001 9.45 9.8 Cfl LQFBD WD001 9.8 12 Cve ESst WD001 12 13 Cfl LQFBD WD001 13 16.8 Cve VPLLSst WD001 16.8 18 Cveb VPLLSst WD001 18 21.2 Cfl LQFHD ? WD001 21.2 42.15 Cveb VPBLSst Si WD001 42.15 42.45 SMSX SMSX Si Ch WD001 42.45 46.2 Cveb VCPB WD001 46.2 47.05 SMSX SMSX Si WD001 47.05 50 Cveb VCPB WD001 50 55.2 Cveb VPLLSst Si WD001 55.2 56.3 Cveb VLSst Ch WD001 56.3 58.9 MSSX MSSX Cb WD001 58.9 61 Cveb VMPLSst Ch Cb WD001 61 99.5 Cveb VLSst Si WD001 99.5 113 Cqvs VQQLSst Cb QVN WD001 113 119.8 Cv VLSlst Cb QVN WD002 2.5 21.8 Cfl LQFBD Ser WD002 21.8 25.2 Cfl VH Si QVN WD002 25.2 36.05 Cve VSst Ser WD002 36.05 48 Cveb VSst WD002 48 51 Cveb VMPLSst Si Ser WD002 51 53.5 Cve VSlst WD002 53.5 61.4 Cveb VMPLSst Si WD002 61.4 62.85 Cve VSst Cb WD002 62.85 66.75 SMSX SMSX Cb WD002 66.75 70.75 Cve VSst WD002 70.75 71.05 MSSX MSSX WD002 71.05 80.7 Cve VSst Si Ser WD002 80.7 83.7 Cv VSst Si Ser WD003 1.3 25.3 Cfl LQFR Ser Ch WD003 25.3 27.7 FALT FALT Si Ser WD003 27.7 28 Cveb VMPLSst WD003 28 28.2 Cveb VMPLSst WD003 28.2 34.7 Cveb VMPB WD003 34.7 34.9 Cvl Lmst WD003 34.9 35 FALT FALT Si WD003 35 39 Cveb VLSst WD003 39 42 Cveb VLSst WD003 42 42.5 Cve VSst WD003 42.5 42.95 Cvl Lmst WD003 42.95 43.65 Cv VSst WD003 43.65 44.6 Cveb VSst Si Ser WD003 44.6 47.7 Cveb VCPLSst WD003 47.7 48.7 Cv VSst Ser WD003 48.7 49.2 Cveb VSst Ser Cb WD003 49.2 50.85 Cveb VLLSst Ser WD003 50.85 58.8 Cveb VSst Cb WD003 58.8 64 Cvc VC WD003 64 64.55 Cveb VCPB WD003 64.55 69.65 Cveb VMPB WD003 69.65 70.8 Cveb VMdst Ser WD003 70.8 71.8 Cveb VPB WD003 71.8 72.35 Cv VSst Ser Ch WD003 72.35 75.45 Cveb VMPB WD003 75.45 75.5 SiSx SiSx Si WD003 75.5 75.7 Cve Esst WD003 75.7 78.15 Cv VSst WD003 78.15 78.5 Cv VSst Ser WD003 78.5 81.15 Cveb VSst WD003 81.15 81.35 Cveb VMdst WD003 81.35 82.2 Cve ESst WD003 82.2 90.55 Cveb VCPB WD003 90.55 92.65 Cveb VSst WD003 92.65 93.5 Cve Esst WD003 93.5 93.8 Cvl Lmst WD003 93.8 96 Cveb VSst WD004 2.8 30.7 Cfl LQFR WD004 30.7 31.7 Cve ESst WD004 31.7 32.45 FALT FALT WD004 32.45 33.5 Cve ESst WD004 33.5 37.7 Cve ESst WD004 37.7 37.9 Cvl Lmst WD004 37.9 41.5 Cveb VSst WD004 41.5 41.8 Cveb VMPLSst Ser Cb WD004 41.8 42.55 Cve VSlst WD004 42.55 42.7 Cveb VMdst WD004 42.7 49.5 Cveb VMPB WD004 49.5 56.55 Cveb VSst WD004 56.55 66.95 Cfl LQFBD WD004 66.95 69.25 Cveb VB WD004 69.25 71.5 Ccb LB WD004 71.5 74 Cve VSst WD004 74 81.2 Ccb LB WD004 81.2 89.95 Cveb VMdst WD004 89.95 101.5 Ccb LB Cb WD004 101.5 102.3 Cv VSst WD004 102.3 108.05 Cveb VMPB WD004 108.05 113 Cveb VMPB WD004 113 113.4 Cv VMdst Si WD004 113.4 118.7 Cveb VMPB WD005 0 39 Cfl LQFBD Ser WD005 39 40.5 FALT FALT Cb WD005 40.5 41.8 Cv VMdst WD005 41.8 49.7 Cveb VMPLSst WD005 49.7 59.05 Ccb LB Cb WD005 59.05 61.3 Cveb VMPLSst Cb WD005 61.3 67.4 Cveb VMPLSst WD005 67.4 75 Cve VFQSst Si Ser WD005 75 78.45 Cve ESst Si WD005 78.45 83.45 Cve VQFSst WD005 83.45 90.9 Cve ESst WD005 90.9 99 Cve VQFSst WD006 0 41.7 Cfl LQFBD Ser Ch WD006 41.7 44.8 FALT FALT WD006 44.8 49.3 Cveb VQFSlst ? WD006 49.3 61 Cveb VMPLSst WD006 61 68.8 Cve ESst WD006 68.8 91.5 Cveb VMPLSst WD006 91.5 113.9 Cve VQQLSst WD007 0 71 Cfl LQFBD Si Ser WD007 71 75.55 Cfl LQFBD Ch Si WD007 75.55 76.9 Cve VFQSst WD007 76.9 79 QVN QVN Si Ch WD007 79 97.8 Cveb VCPLSst WD007 97.8 99 Ccb LB WD007 99 102.85 Cveb VCPLSst WD007 102.85 104.5 Cfl LQFBD Ser Ch WD007 104.5 106.75 Cveb VCPLSst WD007 106.75 111.05 Cfl LQFBD Ch Ser WD007 111.05 123.25 Cveb VMPLSst Si WD007 123.25 127.1 Cve VFQSst Ch Ser WD007 127.1 128 Cveb VMPLSst Ch WD007 128 135.6 Cve ESst WD007 135.6 136.65 SiSX SiSX Si WD007 136.65 137.25 Cveb VMPLSst WD007 137.25 137.4 MSSX MSSX WD007 137.4 140.8 Cveb VMPLSst WD007 140.8 143.5 SMSX SMSX Si WD007 143.5 143.75 Cveb VMPLSst WD007 143.75 144.1 Cve VQFSst WD007 144.1 144.6 FALT FALT WD007 144.6 157.5 Cve VQFSst WD008 2.1 21 Cfl LQBFD WD008 21 23.55 Cfl LQBFD QVN trace gal WD008 23.55 24 Cv VSlst Fk WD008 24 30 Cv VSst Fk DSS py WD008 30 30.6 Cve ESst Fk DSS py ? WD008 30.6 33.55 Cv VSst DSS py WD008 33.55 34.6 Cveb VCPLSst WD008 34.6 35.2 Cveb VBLSst Ser ? WD008 35.2 36.9 Cv VLLSst WD008 36.9 37 Cveb VBLSst ? WD008 37 39 Cv VLLSst WD008 39 39.55 Cv VLSst WD008 39.55 44.9 Cveb VCPLSst WD008 44.9 45.25 Cv VMdst WD008 45.25 46.35 Cv VSst WD008 46.35 47.7 Cveb VB WD008 47.7 47.85 Cve Slst Ch DSS py WD008 47.85 48.15 Cv VLSst DSS py WD008 48.15 49.4 Cv VLSst WD008 49.4 49.5 Cv VSlst Ch DSS py WD008 49.5 50.3 Cv VLSst WD008 50.3 52.4 Cv VLLSst MSSX clasts WD008 52.4 53.4 Cv VLSst WD008 53.4 54 Cv VSlst Ch DSS py WD008 54 56.5 Cveb VMPLSst MSSX clasts WD008 56.5 56.7 Cv VSlst Ch DSS to 10% py WD008 56.7 57.2 Cveb VCPLSst Ser Cb WD008 57.2 59.3 Cveb VPLB WD008 59.3 59.35 Cv VMdst WD008 59.35 59.7 Cv VSlst Ch WD008 59.7 66 Cveb VMPLSst WD008 66 72 Cve VSst WD008 72 72.6 Cve VLSst 3cm MSSX band WD008 72.6 72.9 Cve VSst WD008 72.9 73.1 Cve VSst Cb WD008 73.1 73.3 Cv VSlst Ch WD008 73.3 77 Cve VLSst WD008 77 77.5 Cve VSlst Ch WD008 77.5 78 Cve VSst WD008 78 78.2 Cve VSst Ch WD008 78.2 79.7 Cve VSst Cb WD008 79.7 85.5 Cveb VPLB Ser WD008 85.5 99.7 Cve VLSst Cb Si smoky py WD008 99.7 100.7 Cveb VPLLSst Ser Si WD009 0 94.5 Cfl LQFBD WD009 94.5 96 Cfl LQFBD Ser WD009 96 96.7 FALT FALT Si WD009 96.7 102 SiSX SiSX Si WD009 102 105 Cveb VPB WD009 105 105.2 Cveb VPB Py 3% WD009 105.2 111.4 Cv VH WD009 111.4 120.4 Cv VB WD009 120.4 152 Cveb VPB WD009 152 153 MSSX MSSX "0.5m low grade sph, 0.3m MS sph & gal" WD009 153 155.5 Cve VMdst WD009 155.5 171.8 Cveb VPB WD009 171.8 177.9 Ccb LB WD009 177.9 186 Cveb VPB WD009 186 195 Cv VSst WD009 195 197.7 Cv VMdst WD009 197.7 198.7 MSSX MSSX WD009 198.7 202.7 SiSX SiSX Si ser WD009 202.7 203 MSSX MSSX WD009 203 203.85 SMSX SMSX WD009 203.85 208.2 Cv VSst ser WD009 208.2 209.2 Cveb VPLSst py WD009 209.2 219.4 Cv VSst WH1 0 9.5 Cveb VPLSst Ser Ch WH1 9.5 9.9 Cveb VSlst WH1 9.9 14 Cveb VPLSst Ser Ch WH1 14 16.6 Cveb VLLSst Ser WH1 16.6 17.9 Cveb VLLSst Ser WH1 17.9 18 MSSX MSSX MS band or stretched clast WH1 18 23.5 Cveb VMPLSst Ser WH1 23.5 25.1 Cfl LQFBD Ser WH1 25.1 28 Cveb VMPB Ser WH1 28 35 Cveb VSst Ser Poss Right way up WH1 35 37.8 Cveb VMPB Ser WH1 37.8 69.4 Cveb VLSst Si Ser WH1 69.4 73.8 Cveb VLSst Si Cb DSS py-sphal WH1 73.8 76.9 Cve VSst Ser WH1 76.9 78.5 Cfl LQFBD Si Ser cb vn fine sphal WH10 0 65 Cfl LQBFD Si Ser WH10 65 71.9 Cfl LQBFD Cb WH10 71.9 73.4 Cve VSst Si Ser py-sphal-gal stringer WH10 73.4 74.5 Ccb LB WH10 74.5 81.3 Cveb VPLLSst Si Ser WH10 81.3 85 Cveb VPLLSst Si Ser py-sphal-gal stringer WH10 85 99.5 Cveb VPLLSst Si Ser WH10 99.5 110.3 Cveb VPLLSst Ch Si WH10 110.3 111.9 Ccb LB Cb Ch WH10 111.9 114.85 Cveb VPLLSst Si Ser WH10 114.85 121.05 Ccb LB WH10 121.05 124.5 Cveb VPLLSst Ch Ser WH10 124.5 124.8 Ccb LB Ch WH10 124.8 128.5 Cveb VPLLSst Ch Ser WH10 128.5 163.2 Cveb VPLLSst Ser Ch WH10 163.2 174.1 Cveb VPLLSst Si Cb "Py-sphal to 4% Stringer?, recrsyallised si upgrade" WH10 174.1 175.6 Cveb VPLLSst Ch Cb WH10 175.6 185.6 Cveb VPLLSst Ser Cb WH10 185.6 189.65 MSSX MSSX Ser Si-Cb MS 25% and barite WH10 189.65 190.5 Cv VLLSst Ser Si-Cb WH10 190.5 194 Cv VLLSst Si Ch WH10 194 240.7 Cv VLLSst Si Ser WH10 240.7 241.2 Ccb LB WH10 241.2 244.5 Cv VH Si Ser WH11 0 44.7 Cfl LQR Ser Ccb=basalt/dolerite WH11 44.7 44.9 Ccd IB Ch LB? WH11 44.9 66 Ccb LB Ch CO=epiclastics WH11 66 77.6 Cv VQSst Ser WH11 77.6 103.63 Cveb VMPLSst Ch Ser WH11 103.63 103.76 FALT FALT Ser WH11 103.76 148.25 Cv VQFSst Ser WH11 148.25 149.25 Cfl LQFBD Ser WH11 149.25 151.4 Cveb VMPLSst Si Ser WH11 151.4 172.8 Cv VSst Si Ser WH11 172.8 182.8 Cveb VCPLSst Ser Si WH11 182.8 251.4 Cv VSst Si Ser Overturned WH11 251.4 264.7 Cv VQQB Ser Si ? WH12A 1 136 Cfl LQR Ser Si WH12A 136 138.4 Cv VQFSst Ser Cb WH12A 138.4 150.5 Cv VLLSst Ser Ch WH12A 150.5 185.9 Cveb VPB Ch Cb WH12A 185.9 196.2 Cv VSst Ser WH12A 196.2 217.5 Cv VLLSst Ch Cb WH12A 217.5 259.1 Cv VQQSst Ser Cb 225 pink cb WH12A 259.1 259.8 Cveb VPB Ser Ch basal tyndall WH12A 259.8 263 Cve ESst Ser WH12A 263 268.55 Cve ESst Ser QVN ? WH12A 268.55 269.7 Cvc VC facing down hole - right way up WH12A 269.7 271 Csh Sh WH12A 271 274.2 Cveb VSst WH12A 274.2 275.8 Cvl Lmst WH12A 275.8 278.75 Cveb VSlst WH12A 278.75 279.4 Cvl Lmst WH12A 279.4 282.2 Cveb VPBB WH12A 282.2 291 Cqvs VQQLSst WH12A 291 322.5 SiSx VQFSst Si Ser py -si stockwork WH12A 322.5 343.2 Cqvs VQQLSst WH12A 343.2 359 Cflq LQR Si Ser WH2 0 10.4 Cv VQFLSst Ser WH2 10.4 11 FALT FALT QVN WH2 11 37.1 Cveb VMPLSst hangwall - clast rich WH2 37.1 51 SMSX SMSX MSSX bands WH2 51 64 Cv VSst Ch footwall - well sorted sst WH3 2 20 Cv LQFBD Ct? ********* WH3 20 26.7 Cveb VMPLSst WH3 26.7 42.9 Cve VQFLSst WH3 42 42.9 MEX MEX WH3 42.9 48.7 Ccb LB WH3 48.7 69.2 Cfl LQFBD WH4 1.8 2.1 Cv VMdst WH4 2.1 36 Cveb VQLB WH4 36 45.4 Cveb VPLLSst WH4 45.4 46.5 FALT FALT WH4 46.5 46.8 MSSX MSSX primary ms band in fault WH4 46.8 49 FALT FALT WH4 49 54.35 Cveb VMPLSst WH4 54.35 55.5 Cveb VMPB WH4 55.5 84 Cveb VMPLSst WH4 84 84.55 Cveb VMPLSst WH4 84.55 84.9 MSSX MSSX WH4 84.9 85.4 Cveb VSst WH4 85.4 95.1 Cveb VSst WH5 1.5 7.5 Cveb VPSst WH5 7.5 25 Cveb VQFLSst WH5 25 27.5 Cveb VMPLSst WH5 27.5 30.5 FALT FALT WH5 30.5 43 Cveb VSst WH5 43 46 Cveb VQFSst WH5 46 60.3 Cveb VQFSst Cb WH5 60.3 63 Cveb VLSst WH5 63 74.4 Cveb VPSst WH5 74.4 74.5 Cv VPSst WH5 74.5 77.8 Cveb VPSst WH5 77.8 81.7 Cveb VQFLSst WH5 81.7 82.5 Cve VQFSst WH6 1.5 35.5 Cve VQFSst WH6 35.5 42 Cveb VLSst WH6 42 68.8 Cveb VMPLSst WH7 1.5 90.5 Cveb VQFSst WH7 90.5 117.5 Cveb VMPLSst WH7 117.5 120 Cv VQFLSst WH8 0 9.9 Cfl LQFBD WH8 9.9 18.9 Ccb LB WH8 18.9 65.2 Cfl LQFHD WH8 65.2 69.2 Cv VLSst Wispy py WH8 69.2 70.1 Cv VLSst WH8 70.1 70.6 Cv VLSst Wispy py WH8 70.6 85.4 Cv VLSst WH8 85.4 110.2 Cveb VMPLSst WH8 110.2 111.8 Ccb LB WH8 111.8 112.85 Cv VLSst Dev overprint and veins WH8 112.85 113.5 Ccb LB WH8 113.5 157.4 Cveb VCPLSst WH8 157.4 170.95 Cfl LQFBD WH8 170.95 184.85 Cveb VMPLSst WH8 184.85 185.95 MSSX MSSX WH8 185.95 233.95 Cveb VMPLSst WH8 233.95 272.1 Cfl LQFBD WH8 272.1 283.4 Cvc VC WH9 0 82.55 Cfl LQFR Ser Cb WH9 82.55 96.85 Cv VSst WH9 96.85 101.25 Ccb LB Cb Ch WH9 101.25 115.65 Cveb VMPB WH9 115.65 117.1 Ccb LB Cb Ser WH9 117.1 118.2 Cfl LQFBD Ser Si hangwall autobx dacite? WH9 118.2 120.2 Ccb LB Cb WH9 120.2 122.8 Cveb VMPB tr SX clasts WH9 122.8 136.5 Ccb LB Cb Ser WH9 136.5 138.45 Cv VB Si Ser WH9 138.45 146.85 Ccb LB WH9 146.85 148.15 Cv VLLSst Si Ser WH9 148.15 152.1 Ccb LB WH9 152.1 171.5 Cv VSst Si Ser WH9 171.5 174.2 Ccb LB edge of basalt flow WH9 174.2 203.6 Cveb VLLSst Si Ser WH9 203.6 203.7 FALT FALT Ch WH9 203.7 205.1 Cvc VC base of Tyndall? WH9 205.1 223 Os Ssst facing down hole - right way up ?