H0002 Version 4 H0003 Date_generated 23-Feb-20 H0004 Reporting_period_end_date 28-Dec-19 H0005 State NT H0100 Tenement_no/Combind_report_no EL31306 H0101 Tenement_holder Bacchus Resources H0102 Project_name Woolwonga H0106 Tenement_operator Bacchus Resources H0150 250K_map_sheet_number SD5208 H0151 100K_map_sheet_number 5271 H0152 50K_map_sheet_number H0153 25K_map_sheet_number H0200 Start_date_of_data_acquisition 20-Aug-17 H0201 End_date_of_data_acquisition 19-Dec-19 H0202 Data_format DL4 H0203 Number_of_data_records 6368 H0204 Date_of_metadata_update 23-Feb-19 H0300 Related_data_file H0301 Location_data_file EL31306_2019_02_drillcollars.txt H0302 Lithology_data_file EL31306_2019_03_drilllith.txt H0303 Assay_data_file EL31306_2019_05_drillassay.txt H0304 Survey_data_file EL31306_2019_04_drillsurvey.txt H0305 SurfGeochem_Data_File H0307 Lithology_code_file Logging_Codes H0308 File verification List EL31306_2019_07_Verification_List.txt H0310 Water_data_file H0311 Water data incl in lithology file No H0313 Alteration_data_file H0314 Magsusc_data_file H0315 Vein_data_file H0316 Recovery_data_file H0317 Weathering_data_file H0318 DHQAQC_data_file H0319 SURFQAQC_data_file H0320 Other event_data_file H0400 Drill_code DD H0401 Drill_contractor AMWD H0402 Description Diamond Drilling H0500 Feature_located Drillhole_collar H0501 Geodetic_datum GDA94 H0502 Vertical_datum AHD H0503 Projection Map Grid of Australia (MGA) H0508 Local Grid Name H0530 Coordinate_system Projected H0531 Projection_zone 52 H0532 Surface_Location_Survey_Instrument Hand Held GPS Differential GPS H0533 Surface_Location_Survey_Company Bacchus Resources Cross Solutions H0536 Downhole_Geophysical_Survey_Instrument H0537 Downhole_Geophysical_Survey_Company H0900 Remarks H1000 HOLE_ID DEPTH_FROM DEPTH_TO STRUCTURE_TYPE DIP DIP_DIRECTION ORI_CONFIDENCE STRUCTURE_SHAPE STRUCTURE_ROUGHNESS MIN1 MIN2 SHEAR_SENSE DISPLACEMENT_AMOUNT_mm YOUNGING_DIRECTION COMMENTS H1001 metres metres H1004 0.1 0.1 D BWD001 69.9 69.91 JOO 77 141 2 P R D BWD001 69.95 69.96 ZRO 41 285 2 P D BWD001 70.36 70.37 ZRO 80 309 2 C R VO PY Minor fracture coating of sulphide and other 'webbed' soft creamy white mineral D BWD001 70.74 70.75 ZRO 75 310 2 C S D BWD001 71.05 71.06 ZRO 8 245 2 C S D BWD001 73.85 73.86 SBO 63 62 2 P R D BWD001 73.86 73.87 ZRO 85 308 2 C S VO PY Minor fracture coating of sulphide and other 'webbed' soft creamy white mineral D BWD001 97 97.01 ZRO 85 330 2 P S VO PY Minor fracture coating of sulphide and other 'webbed' soft creamy white mineral D BWD001 97.33 97.34 ZVQS 44 64 2 I R VQ PY Vein is similar orientation to bedding D BWD001 97.91 97.92 SBO 68 79 2 P R D BWD001 99.9 99.91 ZRO 81 168 2 U R VO Minor clay on fracture surface D BWD001 100.55 100.56 ZVQ 50 127 2 U VQ Between 89.050 to 125.05 metres could have orientation marked on top of core by mistake D BWD001 100.73 100.74 JOD 41 53 2 P R D BWD001 100.89 100.9 JOD 51 116 2 U R D BWD001 103.84 103.85 JOD 30 281 2 P S D BWD001 106.57 106.58 JOD 41 142 2 I R VO PY Minor sulphides on joint surface and possibly chlorite D BWD001 110.4 110.41 JOD 78 182 2 P S VO PY Minor sulphides on joint surface and graphite D BWD001 110.57 110.58 JOD 61 98 2 I R VO CL Minor ?chlorite D BWD001 110.9 110.91 JOD 87 7 2 P S VO PY Joint surface is subparallel to the core axis and extends for 40cm. Minor sulphides on joint surface D BWD001 111.11 111.12 SCS 43 140 2 U D BWD001 111.37 111.38 JOD 87 320 2 P S VO PY Minor sulphides on joint surface and graphite D BWD001 111.72 111.73 JOD 46 119 2 U S VO PY Minor sulphides on joint surface and graphite D BWD001 111.97 111.98 ZVQS 16 1 2 I VQ PY D BWD001 112.03 112.04 JOD 72 84 2 I S VO PY Minor sulphides on joint surface and graphite D BWD001 112.35 112.36 JOD 72 84 2 P R PY Minor sulphides and chlorite? D BWD001 112.48 112.49 SCS 61 58 2 U SL VO PY Graphitic w/ slickenside D BWD001 112.74 112.75 JOD 75 147 2 U R D BWD001 112.84 112.85 ZVQ 51 37 2 U R VQ D BWD001 113.07 113.08 JOD 78 200 2 U S PY Smooth graphitic fracture surface with traces of PY coating D BWD001 113.32 113.33 JOD 51 37 2 C SL PY Foliation fracture took place along the contact zone of Silts/Mudstone. Smooth to slickenside graphitic surface with traces of PY coating D BWD001 113.66 113.67 JOD 12 173 2 I R VO PY Fracture is perpendicular to foliations and jointing. Surface is predominantly mudstone with two qtz veins containing sulphides approx 1cm thick D BWD001 114.3 114.31 JOD 85 127 2 P S PY Smooth/planar graphitic fracture surface with traces of PY coating D BWD001 114.58 114.59 JOD 72 154 2 P R D BWD001 114.68 114.69 JOD 80 149 2 P R D BWD001 114.78 114.79 JOD 81 119 2 U R APY Lines of graphite forming on the surface of the fracture as well as some APY coating D BWD001 114.9 114.91 JOD 32 174 2 S S Fracture has taken place along a graphitic foliation but non-conform fracture from a strong sandstone zone creating a step D BWD001 114.98 114.99 JOD 64 166 2 U S PY Contact zone between siltstone and qtz vein with PY coating the surface D BWD001 115.08 115.09 ZVQ 76 318 2 I R VQ APY Qtz vein with traces of chloritisation within the matrix and along the fracture surfaces D BWD001 115.73 115.74 JOD 79 328 2 P S PY PY Fracture coating on the surface of the joint D BWD001 115.86 115.87 JOD 22 60 2 P R PY PY Fracture coating on the surface of the joint D BWD001 118.72 118.73 JOD 31 73 2 P P D BWD001 121.32 121.33 ZVQS 64 176 2 U R VQ PY Large qtz vein with extensive sulphides forming within the vein D BWD001 121.58 121.59 ZVQS 85 127 2 I R VS APY Fracture surface is 95% sulphides D BWD001 121.91 121.92 ZVQS 43 158 2 U R VQ APY Fracture surface is predominantly qtz with some sulphides D BWD001 129.97 129.98 SBO 39 41 2 U Upper siltstone lower mudstone D BWD001 130.16 130.17 JOD 68 33 2 P P Graphite on joint D BWD001 130.26 130.27 JOD 85 67 2 P P Graphite on joint D BWD001 131 131.01 JOD 59 146 2 P R D BWD001 134.8 134.81 ZVO 57 159 2 P VO SERI D BWD001 135 135.01 JOD 64 157 2 P S D BWD001 135.2 135.21 JOD 61 180 2 P S D BWD001 135.9 135.91 SBO 5 300 2 I Contact between upper greywacke and lower siltstone D BWD001 136 136.01 JOD 90 291 2 I S D BWD001 136.76 136.77 JOD 57 138 2 P R D BWD001 137.45 137.46 JOD 74 41 2 I R D BWD001 137.85 137.86 JOD 77 248 2 P S VO PY Spots of pyrite onn fracture surface D BWD001 138.23 138.24 JOD 83 326 2 P P D BWD001 138.8 138.81 ZVQS 68 170 2 P P VQ PY Graphite on fracture surface (edge of vein) D BWD001 139.1 139.11 ZVQS 41 344 2 P S VQ PY D BWD001 139.18 139.19 JOD 90 64 2 P S D BWD001 139.69 139.7 JOD 46 154 2 P R D BWD001 139.86 139.87 JOD 88 325 2 U S D BWD001 140.24 140.25 JOD 86 67 2 P R Sulphides on fracture surface D BWD001 141.14 141.15 JOD 84 3 2 P P Pyrite and graphite of fracture surface D BWD001 141.64 141.65 JOD 89 135 2 P P Graphite on fracture surface D BWD001 142 142.01 ZVQS 47 11 2 I VQ PY D BWD001 142.34 142.35 JOD 81 317 2 U P D BWD001 144.35 144.36 JOD 86 263 2 U R Pyrite on fracture surface D BWD001 145.9 145.91 ZVQS 70 194 2 U VQ PY Runs sub parallel to core axis D BWD001 146.7 146.71 JOD 68 151 2 P S Sulphides on fracture surface D BWD001 147.4 147.41 JOD 68 180 2 I R D BWD001 147.55 147.56 SBO 64 133 2 I Contact between upper greywacke and lower mudstone D BWD001 148 148.01 JOD 90 176 2 P S D BWD001 148.32 148.33 JOD 61 325 2 P S D BWD001 148.35 148.36 ZVQS 46 87 2 U VQ PY Also forms boundary between upper greywacke and lower mudstone D BWD001 150 150.01 JOD 64 13 2 P P D BWD001 150.47 150.48 JOD 41 74 2 U R D BWD001 150.57 150.58 ZVQS 60 51 2 P VQ PY Also forms boundary between upper siltstone and lower greywacke D BWD001 151.38 151.39 ZVQS 64 40 2 P R VQ PY D BWD001 151.81 151.82 JOD 74 332 2 U R D BWD001 152.76 152.77 JOU 83 275 3 U VO Unidentified fill possibly sericite? D BWD001 153 153.01 JOD 18 80 3 P R D BWD001 153.7 153.71 ZVQS 84 195 3 P VQ PY D BWD001 153.83 153.84 ZVO 67 275 3 I VO SERI D BWD001 155.5 155.51 JOD 21 93 3 P R D BWD001 155.65 155.66 JOU 74 332 3 P VO SERI D BWD001 156.27 156.28 JOD 83 329 3 I P D BWD001 156.46 156.47 JOD 86 320 3 P S Sulphides on fracture surface D BWD001 156.7 156.71 JOD 71 129 3 I R D BWD001 157.74 157.75 JOD 27 169 3 I R D BWD001 161.76 161.77 ZVQS 62 191 2 I R VQ PY D BWD001 162.1 162.11 JOD 81 116 2 P R D BWD001 163.9 163.91 JOD 1 123 2 U R D BWD001 164 164.01 SBO 44 47 2 I Contact bounndary between upper greywacke and lower mudstone D BWD001 164.53 164.54 JOD 27 230 2 U R D BWD001 165.1 165.11 ZVO 59 221 2 I VO SERI D BWD001 166.93 166.94 JOD 68 141 2 U R D BWD001 167.45 167.46 JOD 33 38 1 P R Ori mark between this run and run above is 30 deg off in anticlockwise direction D BWD001 168.44 168.45 JOD 58 76 1 P R D BWD001 168.87 168.88 SBO 41 53 1 U Boundary between upper mudstone and lower siltstone D BWD001 169.69 169.7 SBO 33 55 1 U Boundary between upper greywacke and lower siltstone D BWD001 170.05 170.06 ZVQS 60 44 1 U VQ PY D BWD001 170.27 170.28 JOD 77 327 1 P S Iredescent pyrite on fracture surface D BWD001 171.17 171.18 ZVQS 80 193 1 U S VQ PY D BWD001 171.89 171.9 JOD 84 138 1 P R D BWD001 174.16 174.17 JOD 48 73 2 P S D BWD001 175.44 175.45 ZVS 75 288 2 U VS D BWD001 175.54 175.55 JOD 88 329 2 P S D BWD001 175.74 175.75 ZVQS 82 39 2 U VQ PY Thickness of vein unknown as parallel with core axis D BWD001 179.6 179.61 JOD 62 217 2 P R D BWD001 180 180.01 JOD 36 215 2 P P D BWD001 180.87 180.88 SBO 71 85 2 P D BWD001 181.08 181.09 JOD 59 242 2 I R APY Disseminated sulphides throughout the matrix on the fracture zone as well as one distinct vein of sulphides on the joint D BWD001 181.3 181.31 JOD 77 180 2 P R PY PY fracture coating D BWD001 181.42 181.43 JOD 75 110 2 C S PY PY fracture coating D BWD001 181.55 181.56 SCS 71 97 2 U S APY APY fracture coating and fracture has taken place on the contact zone between a minor lithology change D BWD001 181.74 181.75 JOD 76 116 2 C S PY PY fracture coating D BWD001 181.84 181.85 JOD 81 172 2 S S PY PY fracture coating D BWD001 184.59 184.6 JOD 43 102 2 U S D BWD001 184.63 184.64 JOD 6 123 2 I S D BWD001 184.85 184.86 JOD 56 123 2 S S D BWD001 184.93 184.94 JOD 78 204 2 I P PY PY seen on the fracture surface as single cluster D BWD001 187.44 187.45 JOD 12 200 2 I R D BWD001 187.89 187.9 JOD 64 139 2 S R CL Chlorite films and specs of PY on fracture surface D BWD001 195.7 195.71 JOD 61 79 2 P S Planar fracture in the centre of a qtz vein w/graphitic filling D BWD001 196.1 196.11 JOD 28 112 2 U R APY Arsenopyrite forming along the fracture surface and in the matrix of the qtz vein D BWD001 196.2 196.21 JOD 86 257 2 I R APY A small amolunt of sulphides on the fracture surface with dominating graphitic material. D BWD001 196.49 196.5 JOD 72 88 2 C S D BWD001 196.58 196.59 JOD 32 106 2 I R D BWD001 196.62 196.63 JOD 17 111 2 I R D BWD001 196.7 196.71 JOD 81 84 2 U S APY Blobs of arsenopyrite forming on the fracture surface D BWD001 196.83 196.84 JOD 62 102 2 U S APY Traces of arsenopyrite forming on the fracture surface D BWD001 197.01 197.02 JOD 39 82 2 I R D BWD001 202.85 202.86 ZVQS 40 91 2 C S VQ APY Contact zone between a qtz vein and a carbonaceous/siltstone layer D BWD001 213.26 213.27 ZVQS D BWD001 213.38 213.39 JOD 86 123 2 P P APY Traces of sulphides on fracture coating D BWD001 213.48 213.49 JOD 40 108 2 C S D BWD001 213.57 213.58 JOD 35 167 2 P S D BWD001 213.66 213.67 JOD 14 267 2 C S D BWD001 213.7 213.71 JOD 33 145 2 C R D BWD001 213.76 213.77 JOD 47 138 2 C R PY Traces of sulphides on fracture coating D BWD001 213.88 213.89 JOD 59 101 2 P S PY Traces of sulphides on fracture coating D BWD001 214.14 214.15 JOD 50 97 2 P R D BWD001 214.24 214.25 JOD 45 148 2 S P D BWD001 214.38 214.39 JOD 82 300 2 C S D BWD001 214.5 214.51 ZVQS 88 120 2 C S VS PY Some small clusters as well as sulphide veins dispersed throughout siltstone. The siltstone is a small layer of bedding in between a finer grain ss and a slightly more coarse grained ss D BWD001 214.7 214.71 JOD 89 316 2 P S D BWD001 217.81 217.82 JOD 70 70 2 P S D BWD001 217.84 217.85 JOD 62 77 2 P S D BWD001 220.2 220.21 JOD 69 180 2 U S D BWD001 220.28 220.29 JOD 53 67 2 P S Traces of graphitic material along the fracture surface D BWD001 220.4 220.41 JOD 32 163 2 C S D BWD001 220.57 220.58 JOD 44 133 2 P S D BWD001 220.77 220.78 JOD 72 301 2 P S PY Pyrite forming on the fracture surfaces D BWD001 220.86 220.87 JOD 49 28 2 P S PY Pyrite forming on the fracture surfaces D BWD001 225.92 225.93 JOD 55 156 2 P S D BWD001 226.08 226.09 JOD 45 100 2 C S D BWD001 226.3 226.31 JOD 49 105 2 C S D BWD001 226.4 226.41 ZVQS 78 64 2 C S VQ APY Smaller qtz vein with predominantly APY as the sulphide D BWD001 226.64 226.65 ZVQS 73 57 2 C S VQ PY Thicker qtz veins with predominantly PY as the sulphide D BWD001 226.97 226.98 JOD 65 64 2 P S D BWD001 227.76 227.77 JOD 46 112 2 P S D BWD001 229.27 229.28 JOD 58 121 2 U R D BWD001 229.3 229.31 JOD 55 136 2 C S D BWD001 229.34 229.35 JOD 48 86 2 C S D BWD001 229.62 229.63 JOD 22 301 2 P S D BWD001 230 230.01 JOD 55 352 2 P S D BWD001 232.97 232.98 JOD 55 97 2 C S D BWD001 233.09 233.1 JOD 17 62 2 C S D BWD001 233.16 233.17 ZVQS 21 277 2 I R VQ PY Qtz vein with about 15% PY sulphides D BWD001 235.62 235.63 JOD 35 165 2 I R PY Pyrite fracture coating D BWD001 235.84 235.85 JOD 36 173 2 U S D BWD001 236 236.01 JOD 34 156 2 U S PY PY flakes on the fracture surface D BWD001 238.52 238.53 JOD 58 57 2 P S Graphitic surface on the fractures D BWD001 238.57 238.58 JOD 36 173 2 P S D BWD001 238.72 238.73 JOD 62 189 2 I R PY PY crystals forming around a sulphide vein D BWD001 238.8 238.81 JOD 36 193 2 I S D BWD001 238.89 238.9 JOD 44 176 2 U R D BWD001 238.98 238.99 JOD 72 165 2 S R D BWD001 239.14 239.15 JOD 58 135 2 U S D BWD001 246.7 246.71 JOD 35 181 2 S R PY PY fracture coating D BWD001 247.05 247.06 ZVS 69 144 2 U R VS PY Thin sulphide veinlet D BWD001 247.2 247.21 JOD 52 160 2 I R D BWD001 247.45 247.46 JOD 29 141 2 P P D BWD001 247.53 247.54 JOD 29 141 2 P S D BWD001 247.58 247.59 JOD 25 161 2 U S PY PY fracture coating D BWD001 247.64 247.65 JOD 19 131 2 I R PY Specks of sulphides on the fracture surface D BWD001 247.94 247.95 JOD 41 160 2 U R D BWD001 247.99 248 JOD 30 128 2 I R PY Minute blobs of APY on about 10% of the fracture surface D BWD001 253.17 253.18 JOD 29 141 2 C R D BWD001 253.4 253.41 ZVQS 85 48 2 C R VS PY Irregular in thickness sulphide vein almost paralell to the core axis D BWD001 253.48 253.49 JOD 77 54 2 P P PY fracture coating D BWD001 253.76 253.77 JOD 40 152 2 I R APY APY fracture coating along with a veinlet of PY cross cutting the core D BWD001 254.02 254.03 JOD 58 113 2 S R APY Dense vein of APY about 6mm thick cross cutting the core. Very vitreous luster D BWD001 260.68 260.69 JOD 55 37 2 I P D BWD001 261.15 261.16 JOD 39 269 2 U S D BWD001 262 262.01 JOD 34 336 2 U R D BWD001 262.5 262.51 JOD 75 330 2 P P Patches of PY on fracture surfaces D BWD001 262.76 262.77 ZVQS 64 187 2 P VQ PY D BWD001 262.87 262.88 JOD 74 249 2 P R Patches of PY on fracture surfaces D BWD001 264.35 264.36 JOD 52 42 2 P R D BWD001 264.71 264.72 JOD 21 27 2 U S D BWD001 264.98 264.99 JOD 42 41 2 U S Chlorite on fracture surface D BWD001 265.55 265.56 JOD 36 34 2 U S PY on fraacture surfaces D BWD001 265.72 265.73 JOD 54 268 2 P S PY on fraacture surfaces D BWD001 265.96 265.97 ZVQS 55 205 2 P VQ PY D BWD001 266.26 266.27 JOD 64 76 2 P S D BWD001 266.7 266.71 JOD 48 95 2 U R D BWD001 267.5 267.51 ZVQS 73 223 2 U VQ PY Vein runs ~1m down core axis D BWD001 267.65 267.66 JOD 79 65 2 U R D BWD001 268.37 268.38 JOD 85 194 2 U R D BWD001 268.6 268.61 JOD 89 113 2 P S D BWD001 269.22 269.23 JOD 84 358 2 P S D BWD001 269.37 269.38 JOD 75 44 2 P P D BWD001 270.4 270.41 JOD 34 355 2 U S D BWD001 270.85 270.86 ZVQS 70 181 2 P VQ PY D BWD001 271.1 271.11 JOD 43 330 2 U R D BWD001 271.55 271.56 ZVQS 75 44 2 P VQ PY D BWD001 271.97 271.98 JOD 55 38 2 I S D BWD001 272.7 272.71 JOD 76 292 2 P S Minor sulphides on fraccture surface D BWD001 273.51 273.52 SBO 66 65 2 P Contact between upper greywacke and lower 50mm interval of siltstone D BWD001 273.61 273.62 JOD 61 45 2 P S Sulphides on fracture surface D BWD001 274.04 274.05 JOD 65 41 2 P S Minor sulphides on fraccture surface D BWD001 274.5 274.51 JOD 86 34 2 I S Polished surface in part D BWD001 280.28 280.29 JOD 49 31 2 P S Sulphides on fracture surface D BWD001 280.6 280.61 ZVQS 89 184 2 P VQ SP Possibly sphalerite? With pyrite also D BWD001 280.8 280.81 SBO 45 36 2 P Contact between upper greywacke and lower siltstone D BWD001 281 281.01 ZVQ 81 314 2 P VQ D BWD001 281.28 281.29 JOD 72 321 2 U S D BWD001 281.7 281.71 JOD 52 17 2 U S D BWD001 281.78 281.79 JOD 67 263 2 I S Sulphiides on fracture surfaces D BWD001 282.23 282.24 JOD 89 80 2 P S D BWD001 282.56 282.57 JOD 79 329 2 P S D BWD001 283.35 283.36 JOD 82 337 2 P S Sulphides on fracture surfaces D BWD001 283.65 283.66 JOD 49 48 2 P S D BWD001 283.8 283.81 JOD 45 36 2 P P Graphitic with minor sulphides on fracture surface D BWD001 284.4 284.41 JOD 82 337 2 P S D BWD001 284.95 284.96 ZVQS 76 212 2 P VQ PY D BWD001 285.08 285.09 JOD 89 197 2 U S Minor sulphides on fracture surface D BWD001 285.95 285.96 ZVQS 69 220 2 P VS QZ D BWD001 288.44 288.45 ZVQS 82 38 2 P VQ PY D BWD001 288.57 288.58 JOD 86 317 2 P S D BWD001 288.9 288.91 JOD 84 301 2 P S D BWD001 288.95 288.96 JOD 88 153 2 P S D BWD001 289.18 289.19 JOD 77 187 2 P S D BWD001 289.46 289.47 JOD 74 330 2 I R D BWD001 289.56 289.57 JOD 83 62 2 I R D BWD001 290 290.01 JOD 84 139 2 U S D BWD001 290.5 290.51 JOD 82 323 2 U S D BWD001 290.67 290.68 ZVQS 45 37 2 I VQ PY Upper contact of massive qtz-sulphide vein D BWD001 291.8 291.81 ZVQS 87 59 2 I VQ PY Lower contact of massive qtz-sulphide vein D BWD001 291.98 291.99 ZVQS 79 177 2 I VQ PY D BWD001 292.65 292.66 JOD 89 106 2 P R D BWD001 295.1 295.11 JOD 79 310 2 P S D BWD001 297 297.01 JOD 85 82 2 P S D BWD001 297.1 297.11 ZVQS 36 217 2 P VQ PY D BWD001 297.6 297.61 JOD 84 309 2 I R D BWD001 297.8 297.81 JOD 89 106 2 U R D BWD001 298.21 298.22 JOD 85 82 2 I R D BWD001 298.39 298.4 JOD 84 107 2 I R Minor sulphides on fracture surface D BWD001 299.65 299.66 JOD 89 309 2 P S D BWD001 299.75 299.76 JOD 89 301 2 U R D BWD001 300.52 300.53 JOD 89 294 2 U S Minor sulphides on fracture surface D BWD001 301.86 301.87 ZVQ 59 35 2 P VQ D BWD001 302.36 302.37 JOD 66 27 2 U R VQ PY Fracture along qtz-sulphide vevin D BWD001 303.17 303.18 SBO 62 46 2 P Contact between upper greywacke and lower mudstone D BWD001 303.5 303.51 JOD 49 14 2 I S D BWD001 304 304.01 JOD 45 37 2 U S D BWD001 304.87 304.88 JOD 82 255 2 P P Graphitic with minor pyrite on fracture surface D BWD001 305.16 305.17 JOD 86 111 2 U P Graphitic with minor pyrite on fracture surface D BWD001 305.8 305.81 JOD 76 283 2 P R D BWD001 306.3 306.31 JOD 58 42 2 P S D BWD001 307.45 307.46 JOD 68 52 2 U S D BWD001 307.95 307.96 JOD 69 333 2 U R D BWD001 316.93 316.94 JOD 76 279 2 U R D BWD001 318.1 318.11 JOD 83 359 2 U R D BWD001 318.25 318.26 JOD 78 188 2 U R D BWD001 318.5 318.51 JOD 71 181 2 U R D BWD001 318.94 318.95 ZVQS 74 184 2 P VQ PY Minor sulphides D BWD001 319.65 319.66 JOD 69 38 2 P P D BWD001 321.46 321.47 ZVQS 68 191 2 P VQ PY D BWD001 321.69 321.7 ZVQS 62 212 2 P VQ PY Increase of sulphides D BWD001 322 322.01 JOD 59 208 2 P P D BWD001 323.27 323.28 ZVQS 52 18 2 U VQ PY D BWD001 324.24 324.25 JOD 65 57 2 U P D BWD001 324.25 324.26 ZVQS 61 75 2 P VQ PY D BWD001 324.59 324.6 JOD 65 43 2 P P D BWD001 325.84 325.85 JOD 86 209 2 U P Sulphides on fracture surface D BWD001 326.41 326.42 JOD 75 46 2 P S D BWD001 327 327.01 JOD 78 188 2 P S D BWD001 327.67 327.68 JOD 88 310 2 P P D BWD001 327.9 327.91 ZVQS 69 198 2 P VQ PY D BWD001 328.01 328.02 JOD 87 122 2 U R D BWD001 329.7 329.71 ZVQS 72 35 2 P VQ PY D BWD001 330.56 330.57 ZVQS 72 50 2 P VQ PY 40% sulphides D BWD001 330.95 330.96 ZVQS 62 47 2 P VS QZ D BWD001 333.73 333.74 JOD 81 266 2 U R D BWD001 334.26 334.27 JOD 72 50 2 P S D BWD001 334.66 334.67 JOD 82 77 2 P R D BWD001 335.08 335.09 JOU 78 57 2 U D BWD001 335.2 335.21 JOD 80 67 2 U R D BWD001 335.48 335.49 JOD 81 185 2 P P D BWD001 336.4 336.41 JOD 85 347 2 P P D BWD001 337.15 337.16 JOD 77 97 2 P S D BWD001 337.66 337.67 JOD 76 264 2 U S D BWD001 337.9 337.91 JOD 85 336 2 P P D BWD001 337.91 337.92 JOD 83 39 2 P R D BWD001 341.3 341.31 JOD 67 346 2 U P Graphitic with arsenopyrite on fracture surfaces D BWD001 341.6 341.61 JOD 62 48 2 U S D BWD001 342.2 342.21 JOD 78 57 2 U S D BWD001 343.1 343.11 JOD 62 33 2 U P D BWD001 343.7 343.71 JOD 86 74 2 P P D BWD001 344.25 344.26 JOD 78 188 2 U P D BWD001 345.47 345.48 JOD 49 43 2 U P Follows ?bedding plane D BWD001 345.77 345.78 JOD 59 67 2 U S D BWD001 345.8 345.81 JOD 76 47 2 P P Graphitic D BWD001 346.4 346.41 JOD 68 68 2 P P Graphitic no striations D BWD001 347.7 347.71 JOD 69 54 2 I S D BWD001 348.7 348.71 ZVQS 79 202 2 I VQ PY D BWD001 349.15 349.16 JOD 58 164 2 P P D BWD001 349.43 349.44 JOD 39 60 2 P P D BWD001 356.3 356.31 JOD 79 43 2 P S D BWD001 357.12 357.13 JOD 86 106 2 U R D BWD001 357.6 357.61 JOD 59 38 2 P S D BWD001 358 358.01 JOD 80 281 2 U S D BWD001 358.5 358.51 JOD 56 58 2 P S D BWD001 358.53 358.54 ZVQS 50 52 2 U VQ PY Top contact of qtz vein D BWD001 361.5 361.51 JOD 79 43 2 U S D BWD001 361.85 361.86 JOD 69 93 2 U R D BWD002 63.4 63.41 JOD 2 P S D BWD002 64.85 64.86 JOD 2 U R Abundant sulphides on fracture surface D BWD002 74.4 74.41 JOU 2 I R Qtz-sulphide veining affected by structure D BWD002 74.6 74.61 JOD 2 U R D BWD002 74.92 74.93 JOD 2 U R D BWD002 75.05 75.06 JOD 2 P R D BWD002 76.15 76.16 JOD 2 P R D BWD002 76.6 76.61 JOD 2 U R D BWD002 77.13 77.14 JOD 2 P R D BWD002 77.7 77.71 JOU 2 P D BWD002 77.98 77.99 JOD 2 U S D BWD002 82.3 82.31 JOD 2 P R D BWD002 85.1 85.11 ZVQS 2 P VQ D BWD002 85.66 85.67 JOD 2 I R D BWD002 87.27 87.28 JOD 2 U R D BWD002 89.8 89.81 JOD 2 U R D BWD002 92.08 92.09 JOD 2 P S D BWD002 92.24 92.25 JOD 2 U U D BWD002 92.64 92.65 JOD 2 U R D BWD002 93.1 93.11 JOD 2 P R D BWD002 95.6 95.61 JOD 2 U S D BWD002 96 96.01 JOD 2 P R D BWD002 96.3 96.31 JOD 2 U R D BWD002 98.73 98.74 ZVC 2 P S VC Also a fracture D BWD002 101.2 101.21 JOD 2 I R D BWD002 103.6 103.61 JOD 2 U S D BWD002 104.57 104.58 ZVC 2 P R VC PY Also fracture D BWD002 109.76 109.77 JOD 2 P R D BWD002 109.77 109.78 JOD 2 P R D BWD002 111.13 111.14 JOD 2 U R D BWD002 113.8 113.81 JOD 2 P R D BWD002 114.07 114.08 JOD 2 P R D BWD002 116 116.01 JOD 2 P P D BWD002 116.01 116.02 LIS D BWD002 116.3 116.31 JOD 3 P S D BWD002 116.54 116.55 JOD 3 P R D BWD002 116.75 116.76 JOD 3 U R D BWD002 119.6 119.61 JOD 3 P R D BWD002 119.83 119.84 JOD 3 S R D BWD002 123.6 123.61 JOD 2 P R D BWD002 123.7 123.71 JOD 2 P R D BWD002 124.3 124.31 JOD 3 P R Clayey in fracture D BWD002 124.5 124.51 JOD 3 P P D BWD002 124.65 124.66 JOD 3 P R D BWD002 124.88 124.89 JOD 3 P R D BWD002 125.54 125.55 JOD 3 P R D BWD002 125.7 125.71 JOD 3 U R D BWD002 126 126.01 JOD 3 P R D BWD002 126.05 126.06 JOD 3 P R D BWD002 129.75 129.76 JOD 2 P R D BWD002 129.85 129.86 JOD 2 P R D BWD002 131.1 131.11 JOD 2 P R D BWD002 131.7 131.71 JOD 2 I R D BWD002 132 132.01 ZVQS 2 P VQ PY D BWD002 132.62 132.63 ZVQ 2 P VQ D BWD002 133.16 133.17 JOU 2 U D BWD002 133.44 133.45 JOD 2 P R D BWD002 133.6 133.61 ZVQS 2 P VQ PY D BWD002 133.9 133.91 JOD 2 P R D BWD002 147.18 147.19 JOD 2 P R D BWD002 153.96 153.97 JOD 2 P R D BWD002 154.33 154.34 JOD 2 I R D BWD002 154.93 154.94 JOD 2 I R D BWD002 155.23 155.24 ZVQS 2 P VQ PY D BWD002 155.62 155.63 JOD 2 P S D BWD002 155.7 155.71 ZVQS 2 P VQ PY D BWD002 156.1 156.11 JOD 2 P S D BWD002 158.51 158.52 JOD 2 P S D BWD002 160.8 160.81 JOD 2 U S D BWD002 161.02 161.03 JOD 2 P R Fracture following bedding plane D BWD002 161.28 161.29 ZVQS 2 P VQ GL D BWD002 161.78 161.79 JOD 2 U S D BWD002 162.37 162.38 JOD 2 P S D BWD002 168.95 168.96 JOD 2 U R D BWD002 169.38 169.39 JOD 2 P R D BWD002 169.6 169.61 JOD 2 P R Possibly fracture along bedding plane D BWD002 171.1 171.11 JOD 2 P R D BWD002 172.52 172.53 JOD 2 P R D BWD002 173.46 173.47 JOD 2 P S D BWD002 173.63 173.64 JOD 2 P R D BWD002 174.3 174.31 JOD 2 P R D BWD002 174.4 174.41 JOD 2 P R D BWD002 175.1 175.11 JOD 2 P R D BWD002 176.95 176.96 ZVQS 2 P VQ PY D BWD002 185.7 185.71 JOD 2 U S D BWD002 185.73 185.74 ZVQS 2 P VQ PY D BWD002 186.8 186.81 JOD 2 P R D BWD002 186.95 186.96 JOD 2 U R D BWD002 187.34 187.35 JOD 2 P S D BWD002 188.28 188.29 JOD 2 P R D BWD002 188.9 188.91 JOD 2 P S D BWD002 189 189.01 ZVQS 2 P VQ PY D BWD002 189.67 189.68 JOD 2 P R D BWD002 191.28 191.29 JOD 2 U R D BWD002 191.79 191.8 JOD 2 P R D BWD002 191.9 191.91 ZVQS 2 P VQ PY D BWD002 192.4 192.41 JOD 2 U S D BWD002 192.55 192.56 JOD 2 P P D BWD002 218 218.01 ZVQS 2 P P VQ PY Bottom contact of qtz vein with metased D BWD002 218.3 218.31 JOD 2 I S D BWD002 218.53 218.54 JOU 2 P P Partially divided D BWD002 219.4 219.41 JOD 2 P P D BWD002 255.95 255.96 JOD 2 P P D BWD002 256 256.01 JOD 2 P P D BWD002 256.52 256.53 JOD 2 U R D BWD002 256.6 256.61 JOD 2 P R D BWD002 257.53 257.54 JOD 1 P VQ PY Partly deformed and ptygmatic on downhole apex D BWD002 257.63 257.64 JOD 1 P S D BWD002 257.9 257.91 JOD 1 U R D BWD002 259.7 259.71 SBO 63 143 1 P D BWD002 260.34 260.35 ZVQS 1 P VQ PY Lower limit of qtz-sulphide vein D BWD002 260.35 260.36 JOD 1 P P D BWD002 260.8 260.81 JOD 1 U P D BWD002 261.8 261.81 ZVQS 1 U VQ PY Planar vein with irregular wavy edges D BWD002 262.4 262.41 SBO 84 180 1 P D BWD002 263.3 263.31 JOD 1 S R D BWD002 264.3 264.31 JOD 1 I R D BWD002 264.84 264.85 ZVQS 2 P VQ PY Minor pyrrhotite D BWD002 265 265.01 JOD 2 P P D BWD002 265.01 265.02 LIS D BWD002 265.73 265.74 JOD 2 U P D BWD002 267.58 267.59 JOD 2 U R D BWD002 267.8 267.81 JOD 2 P R D BWD002 268.17 268.18 SBO 30 301 2 P D BWD002 269.23 269.24 ZVQS 2 I VQ PO Lower limit of qtz-pyrrhotite-pyrite vein D BWD002 270.77 270.78 ZVQS 2 I VQ PO Upper contact of qtz-pyrrhotite vein. Different from vein above D BWD002 271.24 271.25 SBO 55 304 2 P D BWD002 271.36 271.37 ZVS 2 P VS PO D BWD002 271.93 271.94 SBO 49 302 2 P D BWD002 272 272.01 ZVS 2 P VS PO D BWD002 272.28 272.29 SBO 49 302 2 P D BWD002 272.63 272.64 ZVQS 2 P VQ PO D BWD002 272.8 272.81 ZVS 2 P VS PO D BWD002 272.9 272.91 JOD 2 P R D BWD002 273.02 273.03 JOU 2 P Filled with yellowish ?feldspar D BWD002 273.29 273.3 JOD 2 S R D BWD002 274.6 274.61 ZVQS 2 P VO SP Filled predominantly with yellowish ?feldspar D BWD002 274.7 274.71 JOD 2 U R D BWD002 274.8 274.81 JOD 2 U P D BWD002 274.88 274.89 JOD 2 P R D BWD002 275.9 275.91 ZVQS 2 P VS PO Also lithological boundary between upper mudtstone and lower siltstone D BWD002 277.61 277.62 JOD 2 P R D BWD002 277.85 277.86 ZVQS 2 P VS PO D BWD002 278.4 278.41 JOD 2 P R D BWD002 279.1 279.11 JOD 2 P R D BWD002 279.55 279.56 JOD 2 P S D BWD002 282.5 282.51 SBO 79 349 2 P D BWD002 282.64 282.65 JOD 2 P S D BWD002 282.94 282.95 JOD 2 P S D BWD002 283.4 283.41 SBO 87 355 2 P D BWD002 283.5 283.51 JOD 2 P S D BWD002 284.16 284.17 JOD 2 P P D BWD002 284.25 284.26 SBO 80 183 2 P D BWD002 285.06 285.07 JOD 2 P S D BWD002 285.5 285.51 JOU 2 P Also bedding amd limit of yellowish crystaline ?feldspsar D BWD002 285.93 285.94 JOD 2 U R D BWD002 287.74 287.75 JOD 2 P P D BWD002 287.75 287.76 LIS D BWD002 287.94 287.95 ZVQS 2 P VS SP Upper limit of vein D BWD002 288.45 288.46 JOD 2 I R D BWD002 288.65 288.66 JOD 2 P S D BWD002 289 289.01 JOD 2 P S D BWD002 290.1 290.11 JOD 2 P R D BWD002 290.44 290.45 JOD 2 P R D BWD002 290.87 290.88 SBO 69 37 2 P D BWD002 291 291.01 JOD 2 U R D BWD002 291.7 291.71 JOD 2 P S D BWD002 291.8 291.81 JOD 2 P P D BWD002 291.85 291.86 JOD 2 P S D BWD002 292.4 292.41 JOD 2 S R D BWD002 293.2 293.21 JOD 2 P R D BWD002 293.33 293.34 JOD 2 P S D BWD002 293.35 293.36 JOD 2 P S D BWD002 294.18 294.19 JOD 2 P R D BWD002 294.95 294.96 SBO 75 28 2 P D BWD002 295.15 295.16 JOD 2 U S D BWD002 295.84 295.85 JOD 2 P R D BWD002 296.1 296.11 JOD 2 P R D BWD002 296.45 296.46 ZVQS 2 P VQ PY D BWD002 296.65 296.66 JOD 2 U R D BWD002 297 297.01 SBO 77 54 2 P D BWD002 300.6 300.61 JOD 2 P R D BWD002 301.5 301.51 SBO 79 63 2 P D BWD002 301.6 301.61 JOD 2 P S D BWD002 302.52 302.53 JOD 2 I R D BWD002 303.11 303.12 JOD 2 P S D BWD002 303.9 303.91 SBO 77 54 2 P D BWD002 305 305.01 ZVQS 2 P VQ PY D BWD002 307.6 307.61 JOD 2 P R D BWD002 309.86 309.87 JOD 2 U R D BWD002 314 314.01 JOD 2 P R D BWD002 314.97 314.98 JOD 2 P S D BWD002 315.8 315.81 JOD 2 P S D BWD002 316.4 316.41 JOD 2 P R D BWD002 316.64 316.65 JOD 2 I R D BWD002 317.4 317.41 JOD 2 U R D BWD002 318.5 318.51 JOD 2 P S D BWD002 319.4 319.41 JOD 2 U R D BWD002 319.9 319.91 JOD 2 P S D BWD002 320.05 320.06 SBO 81 53 2 P D BWD002 321.72 321.73 SBO 77 54 2 P D BWD002 322.84 322.85 ZVQS 2 I VQ PY D BWD002 322.88 322.89 JOD 2 P R D BWD002 322.89 322.9 LIS D BWD002 323.92 323.93 JOD 2 I R D BWD002 324.05 324.06 JOD 2 P R D BWD002 324.18 324.19 JOD 2 P S D BWD002 324.78 324.79 SBO 80 32 2 P D BWD002 325.3 325.31 JOD 2 P S D BWD002 325.61 325.62 JOD 2 P S D BWD002 325.83 325.84 JOD 2 U R D BWD002 326.2 326.21 JOD 2 P S D BWD002 326.4 326.41 JOD 2 U R D BWD002 326.5 326.51 JOD 2 S R D BWD002 326.95 326.96 JOD 2 U R D BWD002 327 327.01 JOD 2 P R CARB D BWD002 327.05 327.06 JOD 2 P R D BWD002 327.5 327.51 JOD 2 P S D BWD002 327.73 327.74 JOD 2 P R D BWD002 328.5 328.51 ZVC 2 P R VC D BWD002 337.2 337.21 JOD 2 P R D BWD002 338.63 338.64 JOD 2 P R D BWD002 338.95 338.96 JOD 2 P R D BWD002 339.28 339.29 JOD 2 I R D BWD002 339.53 339.54 JOD 2 P S D BWD002 339.78 339.79 JOD 2 P S D BWD002 341.81 341.82 JOD 2 P S D BWD002 342.3 342.31 JOD 2 U R D BWD002 343.16 343.17 JOD 2 P S D BWD002 343.6 343.61 JOD 2 P S D BWD002 344.24 344.25 SBO 54 37 2 P D BWD002 344.5 344.51 JOD 2 P S D BWD002 345.35 345.36 JOD 2 I R S 10 Displacing bedding by ~10mm D BWD002 345.36 345.37 SBO 70 46 2 P D BWD002 346.76 346.77 JOD 2 P S D BWD002 347.36 347.37 JOD 2 P S D BWD002 347.56 347.57 JOD 2 P R D BWD002 347.9 347.91 JOD 2 P S D BWD002 348.15 348.16 SBO 84 37 2 P D BWD002 348.64 348.65 JOD 2 P S D BWD002 349.5 349.51 JOD 2 P S CL D BWD002 349.6 349.61 JOD 2 P S Also bedding plane D BWD002 350 350.01 JOD 2 P P D BWD002 350.01 350.02 LIS D BWD002 350.4 350.41 JOD 2 P S D BWD002 351.05 351.06 JOD 2 P S D BWD002 352.1 352.11 JOD 2 P R D BWD002 353.24 353.25 JOD 2 P R D BWD002 353.5 353.51 SBO 80 28 2 P D BWD002 353.68 353.69 JOD 2 P S D BWD002 353.9 353.91 JOD 2 P S D BWD002 363.9 363.91 JOD 2 U R D BWD002 363.92 363.93 SBO 75 41 2 P D BWD002 364.4 364.41 JOD 2 U R D BWD002 365.3 365.31 JOD 2 P R CARB D BWD002 365.45 365.46 ZVQS 2 P VS QZ D BWD002 365.8 365.81 JOD 2 P S Parallel to bedding and qtz-sulphide vein D BWD002 366 366.01 JOD 2 P S D BWD002 367.58 367.59 JOD 2 P S D BWD002 368.13 368.14 JOD 2 P S D BWD002 368.14 368.15 LIS D BWD002 368.4 368.41 JOD 2 P S D BWD002 369.15 369.16 JOD 2 P R D BWD002 369.2 369.21 JOD 2 P R D BWD002 371.12 371.13 JOD 2 P S D BWD002 371.42 371.43 JOD 2 P R D BWD002 372.2 372.21 SBO 77 54 2 P D BWD003 4.6 4.61 ZVQ 20 0 I R Highly brecciated qz vein that has been deformed after formation. Vein is oxidised and weathered in sections and almost runs sub-parallel to the core axis. There is no sinistral or dextral movement D BWD003 5.76 5.77 SCS 50 0 U R The contact between a finegrained sedimentary rock and sandstone D BWD003 6.3 6.31 SCS 80 0 I R Sandstone to claystone contact running downhole D BWD003 6.47 6.48 SHZ 70 0 I R Rubble zone consisting of broken up transported clay D BWD003 7.1 7.11 SCS 80 0 I R Stratigraphic contact D BWD003 7.33 7.34 YGB 60 0 I R D BWD003 8.1 8.11 ZVQ 20 0 U R Qz vein with fracturing perpendicular to vein dip D BWD003 8.57 8.58 ZVK 70 0 U S Kaolinitic filled veins/veinlets? D BWD003 9.7 9.71 ZVQ 10 0 U R Highly weathered and oxidised qz vein sub-parallel to the core axis D BWD003 9.9 9.91 SCS 80 0 I R Stratigraphic contact D BWD003 10.5 10.51 ZFG 90 0 I R Gouge consisting of broken up transported clay D BWD003 11.47 11.48 SCS 90 0 U R Sandstone filled void approx 2cm thick secondary to the foarmation of the finer grained sediments on wither side of the sandstone D BWD003 12.6 12.61 SBO 50 0 P S Fractured planar foliations formed by laminated sedimentary layers D BWD003 13.2 13.21 YGB 40 0 U S D BWD003 13.87 13.88 SCS 30 0 P S Stratigraphic contact D BWD003 15 15.01 ZFG 80 0 I R Gouge consisting of broken up transported clay D BWD003 17.07 17.08 SCS 30 0 U S Stratigraphic contact D BWD003 20.22 20.23 SBO 20 0 P S Planar bedding within fine grained sedimentary stratigraphy D BWD003 20.85 20.86 SFCC 10 0 U S Crenualtion cleavage forming on the limbs of a micro fold D BWD003 21.66 21.67 ZVQ 10 0 U R Qz vein running sub-paralell to the core axis D BWD003 23.8 23.81 SBO 60 0 P S Graded bedding with confomity in sedimentary layers and foliations D BWD003 24.4 24.41 ZFG 0 I R Gouge consisitng of clay minerals D BWD003 25.7 25.71 SHZ 0 I R Brecciated angular fragments in what looks like a high strain zone D BWD003 26.3 26.31 ZFG 90 0 I R High strain zone with transported clay minerals gouge D BWD003 26.32 26.33 ZFG 80 0 I R Gouge almost perpendicular to core axis D BWD003 27.48 27.49 SBO 40 0 P S Planar bedding and foliations D BWD003 28.3 28.31 ZFG 80 0 I R Gouge almost perpendicular to core axis D BWD003 29.55 29.56 ZFG 90 0 I R Large gouge with surrounding transported clay sediments in quite a large zone D BWD003 33.4 33.41 ZVQ 80 0 I S Qz vein intrusion in between to unconsilidated clay mineral zones D BWD003 35.28 35.29 SFCC 50 0 I R Crenualtion cleavage influenced by minor folding and bedding foliation D BWD003 35.66 35.67 SFO 80 0 I R Foliation cleavages caused by bedding D BWD003 35.78 35.79 SCI 50 0 U R Intrusive related contact D BWD003 37.23 37.24 SBO 60 0 P R Transition from the sedimentary stratigraphy into the intrusive related dolerite. The foliations and colour of the core suggest that this lowest zone of overlying sandstone before the dolerite D BWD003 38.13 38.14 SFO 70 0 U R Remaining sediments being transported into a dolerite fracture and undergoing secondary deformation D BWD003 39.06 39.07 JOD 40 0 P R Joint fracture filling of iron oxides and clayminerals D BWD003 43.85 43.86 JOD 20 0 I R Joint fracutre with a crenulated cleave D BWD003 51.7 51.71 JOD 72 274 2 P R D BWD003 53 53.01 JOD 75 251 2 U R D BWD003 57.5 57.51 JOD 71 134 2 U R D BWD003 58.6 58.61 JOD 82 291 2 P R D BWD003 64.8 64.81 JOD 50 98 2 U R D BWD003 68.6 68.61 JOD 30 290 2 P R D BWD003 69.4 69.41 JOD 73 145 2 P R D BWD003 71.75 71.76 JOD 21 28 2 P R CARB Carbonate filling 2mm D BWD003 98.6 98.61 SBO 16 207 2 P D BWD003 100.7 100.71 JOD 88 51 2 P R D BWD003 105.4 105.41 ZVQS 76 232 2 P QZ PY D BWD003 106.7 106.71 JOD 73 68 2 P R PY ASSOCIATED WITH QZ-SULPHIDE VEIN D BWD003 108.6 108.61 ZVQS 72 134 2 P PY APY D BWD003 109.7 109.71 SBO 36 209 2 U D BWD003 120.1 120.11 JOD 49 125 2 P R D BWD003 121 121.01 JOD 42 57 2 P R D BWD003 123 123.01 JOD 85 178 2 P S D BWD003 128.3 128.31 SBO 50 214 2 P D BWD003 171.3 171.31 JOD 73 353 2 P R D BWD003 193.9 193.91 SBO 15 255 2 U D BWD003 193.95 193.96 JOD 84 204 2 P P D BWD003 195.45 195.46 ZVQS 87 76 2 P PY QZ 20MM THICK D BWD003 198.55 198.56 SBO 21 104 2 P D BWD003 198.6 198.61 ZVQS 82 230 2 P PY QZ 5MM THICK D BWD003 198.9 198.91 JOD 77 231 2 P S D BWD003 202.25 202.26 ZVQS 81 208 2 P QZ PY 400MM THICK D BWD003 204.1 204.11 JOD 83 65 2 P R D BWD003 204.15 204.16 ZVQS 81 47 3 U QZ PY 60MM THICK D BWD003 206.95 206.96 SBO 33 187 3 P D BWD003 208.5 208.51 SBO 7 239 3 P D BWD003 209.9 209.91 JOD 68 150 3 P R D BWD003 210.9 210.91 SBO 14 132 3 P D BWD003 211.6 211.61 JOD 89 225 3 P R D BWD003 212.2 212.21 JOD 75 233 3 P R D BWD003 216.3 216.31 ZVQS 12 347 3 P QZ PY 100MM THICK D BWD003 218.1 218.11 JOD 48 170 2 P R D BWD003 218.4 218.41 JOD 89 27 2 P P D BWD003 221.8 221.81 SBO 57 54 2 P D BWD003 223.3 223.31 JOD 62 249 2 P R D BWD003 227 227.01 SBO 63 40 3 P D BWD003 230.2 230.21 JOD 58 41 3 P S D BWD003 230.35 230.36 ZVQS 70 49 3 P QZ PY 50MM THICK D BWD003 234.2 234.21 SBO 88 216 3 I U POSSIBLE FLAME STRUCTURES D BWD003 235.5 235.51 JOD 41 183 3 I R D BWD003 235.8 235.81 JOD 84 240 3 P R D BWD003 237.8 237.81 ZVQS 73 16 3 P QZ PY 40MM WIDE D BWD003 238.9 238.91 JOD 89 99 3 P R D BWD003 243.3 243.31 SBO 80 50 3 P D BWD003 247.15 247.16 SBO 77 26 3 P D BWD003 249.55 249.56 SBO 87 37 3 P D BWD003 250.97 250.98 SBO 82 54 3 P D BWD003 252.6 252.61 JOD 56 160 3 P S D BWD003 258.4 258.41 JOD 20 90 3 P R D BWD003 258.6 258.61 JOD 38 184 3 P R D BWD003 263.65 263.66 SBO 78 42 3 P D BWD003 266 266.01 JOD 77 41 3 P S ALONG BEDDING PLANE D BWD003 268.25 268.26 JOD 72 42 3 P S D BWD003 270.15 270.16 JOD 35 204 3 P S D BWD003 274.15 274.16 SBO 73 47 3 I D FLAME STRUCTURES INDICATE DOWNHOLE YOUNGING D BWD003 276.45 276.46 ZVQS 63 17 3 I QZ PY 100MM THICK D BWD003 280.5 280.51 JOD 89 50 3 P S D BWD003 288.2 288.21 SBO 72 28 3 P D BWD003 290.24 290.25 JOU 58 312 3 P CARB 100 OFFSETTING BEDDING D BWD003 290.25 290.26 SBO 76 33 3 P D BWD003 290.45 290.46 JOD 80 264 3 P R D BWD003 291.7 291.71 JOD 70 36 3 P S D BWD003 292 292.01 JOD 76 177 3 P S D BWD003 293.3 293.31 SBO 75 32 3 P D FLAME STRUCTURES D BWD003 293.5 293.51 JOD 78 259 3 P R D BWD003 296 296.01 JOD 66 74 3 P R D BWD003 298.24 298.25 JOD 82 248 3 P S D BWD003 300.1 300.11 ZVQS 24 237 3 P QZ PY D BWD003 301.9 301.91 JOD 49 294 3 S R D BWD003 302 302.01 JOD 78 151 3 P R D BWD003 303 303.01 JOD 54 154 3 P R D BWD003 303.3 303.31 JOD 66 74 3 P S D BWD003 304.1 304.11 SBO 79 24 3 P D BWD003 306.85 306.86 SBO 71 45 3 P D BWD003 307.74 307.75 JOD 78 52 3 P S D BWD003 309.4 309.41 JOD 40 148 3 P S D BWD003 317.2 317.21 JOD 72 147 3 P S D BWD003 318.5 318.51 JOD 88 330 3 P S D BWD003 321.7 321.71 SBO 69 37 3 P D BWD003 322.6 322.61 JOD 74 41 3 P R D BWD003 328.8 328.81 SBO 74 41 3 P D BWD003 333.5 333.51 JOD 79 180 3 P R CARB D BWD003 337.8 337.81 SBO 74 41 3 P D BWD003 338.25 338.26 JOD 85 245 3 P S D BWD003 338.3 338.31 JOD 75 45 3 P S D BWD003 339 339.01 JOD 58 157 3 P R D BWD003 340.7 340.71 JOD 74 41 3 P S D BWD003 344.25 344.26 JOD 56 149 3 P S D BWD003 344.8 344.81 SBO 74 41 3 P D BWD003 348.9 348.91 SBO 80 61 3 P D BWD003 350.7 350.71 JOD 62 165 3 P R D BWD004 52.7 52.71 SBO 78 69 2 P D BWD004 64.8 64.81 SBO 66 71 2 P D BWD004 69.8 69.81 JOD 79 173 2 p S D BWD004 70.15 70.16 SBO 75 85 2 U D BWD004 81 81.01 SBO 60 60 2 U D BWD004 84.6 84.61 JOD 86 340 2 P S D BWD004 98.6 98.61 JOD 84 186 2 P S D BWD004 107.3 107.31 SBO 78 55 2 P D BWD004 107.4 107.41 JOD 46 297 2 P S D BWD004 112.3 112.31 JOD 21 272 2 P R D BWD004 126.75 126.76 SBO 48 60 2 P D BWD004 133.2 133.21 SBO 49 67 2 P D BWD004 136.45 136.46 SBO 60 85 3 U U FLAME STRUCTURES D BWD004 137.1 137.11 JOD 33 145 3 P S D BWD004 137.35 137.36 JOD 79 260 3 U R D BWD004 139.2 139.21 SBO 48 85 3 U D BWD004 140.15 140.16 SBO 39 66 3 P LESS WAVY BOUNDARY LIMIT THAN ABOVE D BWD004 143.8 143.81 JOD 22 199 3 P R D BWD004 143.81 143.82 SBO 50 66 3 P D BWD004 145.1 145.11 SBO 43 72 3 P D BWD004 149.2 149.21 JOD 40 70 3 P S D BWD004 158.2 158.21 JOD 61 211 2 P R CARBONATE VEINING ASSOCIATED D BWD004 161.2 161.21 JOD 73 339 2 P R D BWD004 164.45 164.46 SBO 39 91 2 P U FLAME STRUCTURES D BWD004 169.8 169.81 SBO 27 71 2 P D BWD004 174.5 174.51 SBO 17 58 2 P D BWD004 195.1 195.11 JOD 80 16 2 P P GRAPHITIC D BWD004 199.6 199.61 ZVQS 24 104 3 P QZ APY FOLLOWS BEDDING? D BWD004 201.5 201.51 JOD 69 123 3 P R D BWD004 204 204.01 ZVQS 74 212 3 P D BWD004 204.7 204.71 SBO 16 188 2 U D BWD004 204.8 204.81 SBO 60 210 3 P D BWD004 205.6 205.61 SBO 55 209 2 P D BWD004 222 222.01 JOD 84 228 2 P P D BWD004 234.8 234.81 SBO 23 183 2 U U FLAME STRUCTURE D BWD004 240 240.01 JOD 85 77 2 P S D BWD004 253 253.01 JOD 12 265 2 U R D BWD004 256.35 256.36 SBO 60 210 2 P D BWD004 263.28 263.29 SCI 47 48 2 P D BWD005 53.64 53.65 SBO 76 62 2 P D BWD005 53.84 53.85 JOD 44 283 2 P R D BWD005 61.5 61.51 SBO 73 54 2 P D BWD005 70.4 70.41 SBO 67 58 2 P D BWD005 70.45 70.46 JOD 77 204 2 P S D BWD005 78.2 78.21 SBO 71 62 2 P D BWD005 88.65 88.66 SBO 50 66 2 P D BWD005 95.3 95.31 SBO 63 67 2 P D BWD005 110.26 110.27 JOD 39 298 2 P S D BWD005 110.3 110.31 JOD 89 34 2 P S D BWD005 110.77 110.78 SBO 56 57 2 D BWD005 112.7 112.71 JOD 70 108 2 P S D BWD005 112.9 112.91 SBO 67 57 2 P D BWD005 123.66 123.67 SBO 77 60 2 P D BWD005 127.15 127.16 ZVS 61 232 2 P PY D BWD005 127.16 127.17 JOD 61 232 2 U P GR D BWD005 135.5 135.51 SBO 55 60 2 P D BWD005 138 138.01 SBO 53 63 2 P D BWD005 138.6 138.61 JOD 70 231 2 P R D BWD005 140.7 140.71 JOD 80 338 2 P R D BWD005 146.95 146.96 SBO 52 53 2 P D BWD005 151.05 151.06 SBO 64 50 2 P D BWD005 151.2 151.21 JOD 83 342 2 P S D BWD005 154 154.01 SBO 57 56 2 P D BWD005 156.7 156.71 SBO 61 59 2 P D BWD005 166.3 166.31 SBO 56 67 2 P D BWD005 169 169.01 SBO 57 76 2 P D BWD005 173.2 173.21 JOD 35 221 2 P S D BWD005 173.23 173.24 JOD 87 188 2 P S D BWD005 179.15 179.16 SBO 59 64 2 P D BWD005 181.7 181.71 SBO 59 64 2 P D BWD005 187.8 187.81 ZVQS 60 71 2 P PY APY UPPER CONTACT OF QTZ-SULPHIDE VEIN WITH OVERLYING SEDIMENTS D BWD005 195.1 195.11 ZVQS 53 71 2 P PY APY LOWER CONTACT OF QTZ-SULPHIDE VEIN WITH UNDERLYING SEDIMENTS D BWD005 195.7 195.71 SBO 50 74 2 P D BWD005 197.27 197.28 SBO 52 78 2 P D BWD005 204.3 204.31 JOD 43 293 2 P S D BWD005 207.2 207.21 JOD 33 288 2 P R D BWD005 222.46 222.47 SBO 55 101 2 P D BWD005 224 224.01 SBO 40 114 2 P D BWD005 224.34 224.35 JOD 90 221 2 P S D BWD005 236.4 236.41 JOD 61 103 2 U S D BWD005 248.1 248.11 ZVQS 86 60 2 P QZ PY FOLLOWING BEDDING? 5MM THICK D BWD005 261.75 261.76 ZVQS 24 188 2 U QZ PY UPPER LIMIT OF QTZ SULPHIDE VEN D BWD005 262.8 262.81 SFO 77 54 2 P PY FABRIC DEFINES BY SULPHIDE PORPHYROBLASTS D BWD005 265.2 265.21 SBO 24 160 2 P D BWD005 265.9 265.91 SBO 40 145 2 P D BWD005 278.8 278.81 JOD 86 102 2 P S D BWD005 284 284.01 SBO 86 271 3 P D BWD005 291 291.01 JOD 65 191 3 P R D BWD006 46.4 46.41 SBO 76 60 2 P D BWD006 53.5 53.51 SBO 58 53 2 P D BWD006 54.6 54.61 JOU 81 168 2 P R D BWD006 71.1 71.11 JOD 64 38 2 U R D BWD006 71.15 71.16 SBO 73 55 2 P D BWD006 71.85 71.86 JOD 83 259 2 P R D BWD006 74 74.01 SBO 66 61 2 P D BWD006 90 90.01 SBO 72 60 2 P D BWD006 90.2 90.21 JOD 85 330 2 P S D BWD006 96.7 96.71 JOD 45 317 2 P S D BWD006 97.6 97.61 SBO 61 38 2 P D BWD006 98.8 98.81 JOD 15 256 2 P S D BWD006 102.15 102.16 SBO 76 18 2 P D BWD006 104.5 104.51 SBO 66 48 2 P D BWD006 105 105.01 JOD 35 297 2 P S D BWD006 109.6 109.61 JOD 20 197 2 P R D BWD006 119.3 119.31 JOD 89 231 2 P S D BWD006 119.4 119.41 SBO 61 49 2 P D BWD006 123.2 123.21 JOD 50 287 2 P D BWD006 124.25 124.26 ZVQS 66 34 2 P QZ PY D BWD006 128 128.01 ZVQS 76 52 2 P QZ PY D BWD006 141.4 141.41 JOD 43 286 2 P S D BWD006 148.17 148.18 JOD 18 224 2 P S D BWD006 151.4 151.41 SBO 32 80 2 P D BWD006 151.9 151.91 JOD 13 158 2 P S D BWD006 158.2 158.21 JOD 45 165 2 P S D BWD006 162.4 162.41 SBO 35 51 2 P D BWD006 171.67 171.68 JOD 7 304 2 U R D BWD006 173.6 173.61 JOD 78 344 2 P R D BWD006 188.55 188.56 JOD 89 181 2 P R D BWD006 208.3 208.31 SBO 77 31 2 P D BWD006 208.6 208.61 JOD 76 15 2 P S D BWD006 221.4 221.41 JOD 41 333 2 P S D BWD006 229.05 229.06 JOD 77 232 2 P S D BWD006 230.05 230.06 SBO 8 344 2 U D BWD006 230.5 230.51 JOD 81 347 2 P S D BWD006 243.7 243.71 JOD 30 300 2 P S D BWD006 252 252.01 JOD 55 315 2 P R D BWD006 252.75 252.76 SBO 76 224 2 U D BWD006 253.8 253.81 JOD 35 148 2 P S D BWD006 254.1 254.11 JOD 70 62 2 P R D BWD006 256.15 256.16 SBO 72 215 2 P D BWD006 258.5 258.51 ZVQS 88 51 2 P QZ PY D BWD006 260 260.01 JOD 59 77 2 P R D BWD006 261.5 261.51 JOD 68 350 2 P R D BWD006 269.5 269.51 JOU 69 321 2 P QZ D BWD007 36.85 36.86 JOD 13 335 2 P R D BWD007 40.1 40.11 JOD 88 225 2 P R D BWD007 40.15 40.16 JOD 27 176 2 P R D BWD007 40.5 40.51 JOD 33 1 2 P R D BWD007 44.3 44.31 SBO 79 58 2 P D BWD007 44.5 44.51 JOD 22 218 2 P R D BWD007 46.5 46.51 JOD 80 269 2 P R D BWD007 49.45 49.46 SBO 68 54 2 P D BWD007 56.7 56.71 SBO 68 51 2 P D BWD007 57.1 57.11 JOD 61 34 2 P S D BWD007 60.4 60.41 SBO 68 51 2 P D BWD007 61 61.01 JOD 88 208 2 P S D BWD007 65.3 65.31 SBO 69 59 2 P D BWD007 67 67.01 JOD 27 321 2 P R D BWD007 82.2 82.21 JOD 72 47 2 P S D BWD007 86.4 86.41 SBO 68 54 2 P D BWD007 91.15 91.16 JOD 36 312 2 P S D BWD007 95.5 95.51 SBO 59 66 2 P D BWD007 96.7 96.71 JOD 86 40 2 P S D BWD007 96.85 96.86 SBO 69 70 2 P D BWD007 98.1 98.11 JOD 13 125 2 P S D BWD007 100.5 100.51 SBO 54 56 2 P D BWD007 103.2 103.21 SBO 69 57 2 P D BWD007 104.85 104.86 JOD 78 224 2 P S D BWD007 106.1 106.11 JOD 70 285 2 P S D BWD007 106.4 106.41 SBO 67 49 2 P D BWD007 108.5 108.51 JOD 34 12 2 P S D BWD007 110.3 110.31 ZVQ 83 225 2 P QZ CL D BWD007 112.4 112.41 JOD 38 22 2 P S D BWD007 115.4 115.41 SBO 67 49 2 P D BWD007 118.4 118.41 JOD 54 64 2 P S D BWD007 125.35 125.36 SBO 69 55 2 P D BWD007 134.25 134.26 SBO 59 63 2 P D BWD007 137.2 137.21 JOD 86 243 2 P S D BWD007 143.25 143.26 JOD 81 42 2 P R D BWD007 143.8 143.81 SBO 59 60 2 P D BWD007 151.6 151.61 JOD 76 40 2 P R D BWD007 157 157.01 SBO 59 56 2 P D BWD007 159.8 159.81 SBO 66 47 2 P D BWD007 166 166.01 JOD 48 45 2 P R D BWD007 168.1 168.11 JOD 74 18 2 P P GR D BWD007 171 171.01 SBO 49 38 2 P D BWD007 171.1 171.11 JOD 23 169 2 P R D BWD007 175.36 175.37 SBO 54 63 2 P D BWD007 178.25 178.26 JOD 58 15 2 P S D BWD007 178.8 178.81 SBO 63 48 2 P D BWD007 183.1 183.11 SBO 66 44 2 P D BWD007 183.9 183.91 SBO 61 34 2 P D BWD007 194.7 194.71 JOD 79 144 2 P S GR D BWD007 200.36 200.37 SBO 32 94 2 P D BWD007 201.6 201.61 ZVQ 83 22 2 P QZ PY D BWD007 202.8 202.81 JOD 55 12 2 U P GR D BWD007 204.6 204.61 ZVQ 28 92 2 U PY D BWD007 205 205.01 SBO 33 85 2 P D BWD007 205.8 205.81 JOD 65 233 2 P P GR D BWD007 206 206.01 JOD 84 236 2 P P GR D BWD007 207.8 207.81 SBO 84 78 2 P D BWD007 208.7 208.71 JOD 61 125 2 P P GR D BWD007 213.15 213.16 JOD 85 214 2 P S D BWD007 216.7 216.71 SBO 36 121 2 P D BWD007 216.75 216.76 JOD 85 15 2 P S D BWD007 219.8 219.81 JOD 89 23 2 P S D BWD007 224.5 224.51 ZVQ 80 34 2 P PY D BWD007 225.3 225.31 JOD 65 339 2 P S GR D BWD007 225.7 225.71 SBO 20 120 2 U D BWD007 226.1 226.11 SBO 28 100 2 U D BWD007 226.5 226.51 JOD 89 203 2 P S D BWD007 228.55 228.56 ZVQ 68 35 2 P QZ PY D BWD007 229.9 229.91 SBO 73 70 2 S D BWD007 231 231.01 JOD 89 213 2 P S D BWD007 232.6 232.61 ZVQ 87 207 2 P QZ PY D BWD007 234 234.01 JOD 69 342 2 P S D BWD007 239.75 239.76 JOD 59 355 2 P P GR D BWD007 258.5 258.51 SBO 36 147 2 P D BWD007 258.6 258.61 JOD 42 160 2 P P GR D BWD007 260.2 260.21 SBO 30 154 2 P D BWD007 263 263.01 JOD 90 193 2 P P GR D BWD007 264 264.01 SBO 10 295 2 S D BWD007 266.7 266.71 SBO 50 136 2 P D BWD007 269.6 269.61 SBO 50 133 3 S D BWD007 270.18 270.19 ZVQ 80 58 3 P QZ PY D BWD007 270.65 270.66 ZVQ 81 42 3 P QZ PY D BWD007 270.8 270.81 SBO 39 150 3 P D BWD007 272.05 272.06 ZVQ 90 237 3 P QZ PY D BWD007 272.4 272.41 ZVQ 77 47 3 P QZ PY D BWD007 273.25 273.26 ZVQ 30 148 3 P QZ PY D BWD007 273.4 273.41 SBO 89 267 3 P QUESTION THIS MEASUREMENT BEFORE YOU BELIEVE IT D BWD007 274.25 274.26 ZVQ 68 293 3 P QZ PY D BWD007 275.1 275.11 ZVQ 89 50 3 P QZ PY D BWD007 275.22 275.23 ZVQ 66 64 3 P QZ PY D BWD007 275.75 275.76 SBO 48 105 3 P BEDDING PARALLE QZ VEIN ON HWALL CONTACT D BWD007 276.5 276.51 ZVQ 84 51 3 P QZ PY D BWD007 276.8 276.81 JOD 86 229 3 P S D BWD007 277.3 277.31 SBO 37 125 3 S D BWD007 278.85 278.86 ZVQ 31 127 3 P QZ PY 30CM QZ VEIN D BWD007 279.1 279.11 JOD 82 34 3 P S PY D BWD007 279.5 279.51 SBO 25 140 3 P D BWD007 280.8 280.81 JOD 65 323 3 P S CL D BWD007 280.9 280.91 ZVQ 89 50 3 P QZ PY D BWD007 283.85 283.86 SBO 45 0 D BWD007 284.3 284.31 JOD 62 320 2 P S CL D BWD007 284.5 284.51 JOD 80 232 2 P S CL D BWD007 285.3 285.31 ZVQ 56 42 2 QZ APY D BWD007 285.35 285.36 SBO 70 132 2 D BWD007 285.9 285.91 ZVQ 37 143 2 QZ PY FW CONTACT OF VEIN D BWD007 286.9 286.91 ZVQ 49 37 2 QZ PY D BWD007 288.15 288.16 SBO 66 135 2 U SOFT SED DEFORMATION? WORMY CONTACT D BWD007 288.5 288.51 ZVQ 63 138 2 QZ PY THICK QV VEIN D BWD007 289.9 289.91 JOD 15 0 P S CL D BWD007 292.8 292.81 ZVQ 35 0 P QZ PY D BWD007 296 296.01 ZVQ 40 0 P QZ PY D BWD007 296.3 296.31 JOD 45 0 P S CL D BWD007 296.55 296.56 SBO 45 0 P D BWD007 296.7 296.71 JOD 35 0 P P GR D BWD007 297.2 297.21 ZFG 50 0 P S CLAY WITH ROCK FRAGS 1.5CM WIDE D BWD007 297.55 297.56 ZRO 15 0 P P GR FRACTURE ZONE WITHIN GRAPHITIC MUDSTONE D BWD007 299.45 299.46 ZFG 50 0 P S GR CLAY 1CM WIDE D BWD007 301 301.01 ZVQ 35 0 P QZ PY D BWD007 301.25 301.26 JOD 40 0 P P CL D BWD007 301.7 301.71 SBO 30 0 P D BWD007 303.5 303.51 ZVQ 35 0 P FOOTWALL CONTACT IE LOWER D BWD007 303.9 303.91 ZVQ 60 0 P QZ APY D BWD007 304.2 304.21 ZVQ 70 0 P QZ D BWD007 307.6 307.61 ZVQ 45 0 P QZ D BWD007 308.8 308.81 SBO 60 0 P MUDSTONE-GREYWACKE CONTACT D BWD007 309.4 309.41 ZVQ 55 0 QZ FOOTWALL CONTACT D BWD007 310.15 310.16 ZVQ 50 0 P QZ D BWD007 311.9 311.91 JOD 25 0 P S D BWD007 312.1 312.11 ZVQ 55 0 P QZ HANGING WALL CONTACT D BWD007 313 313.01 JOD 52 154 2 P S D BWD007 313.15 313.16 ZVQ 85 37 2 P QZ D BWD007 313.5 313.51 ZVQ 81 227 2 D BWD007 313.95 313.96 ZVQ 83 220 2 D BWD007 314.25 314.26 JOD 7 348 2 P S D BWD007 314.35 314.36 ZVQ 76 211 2 P QZ D BWD007 314.45 314.46 JOD 76 64 2 P D BWD007 314.8 314.81 ZVQ 89 218 2 P QZ D BWD007 314.9 314.91 ZVQ 49 105 2 P QZ D BWD007 314.91 314.92 ZVQ 47 98 0 P QZ D BWD007 315.13 315.14 JOD 71 64 2 P SL D SLICKS MEASURE 280 D BWD007 315.25 315.26 JOD 77 25 2 P SL D SLICKS MEASURE 300 D BWD007 315.5 315.51 SBO 39 115 2 D BWD007 315.58 315.59 ZVQ 88 15 2 D BWD007 315.6 315.61 JOD 64 12 2 D BWD007 316 316.01 JOD 83 199 2 P SL D BWD007 316.3 316.31 JOD 87 352 2 P S D BWD007 316.4 316.41 JOD 73 205 2 P S D BWD007 316.55 316.56 JOD 15 327 2 P S D BWD007 316.65 316.66 JOD 64 5 2 P S D BWD007 316.7 316.71 JOD 61 10 2 P S D BWD007 316.8 316.81 JOD 87 352 2 P S D SLICKS 260DEG DEXTRAL MOVEMENT D BWD007 317.5 317.51 ZFX 20 0 S CL CLAY MATRIX SUPPORTED AND SEMI CONSOLIDATED D BWD007 319.1 319.11 JOD 45 0 P D BWD007 321 321.01 ZVQ 37 115 2 P QZ FOOTWALL OF VEIN D BWD007 321.02 321.03 ZVQ 40 107 2 P QZ D BWD007 321.1 321.11 SBO 44 121 2 P D BWD007 321.35 321.36 JOD 40 114 2 P S D BWD007 321.4 321.41 SBO 49 104 2 P D BWD007 321.85 321.86 JOD 72 108 2 P D BWD007 321.9 321.91 JOD 51 356 2 P D BWD007 322.1 322.11 ZVQ 77 56 2 P D BWD007 322.13 322.14 SBO 60 139 2 P D BWD007 322.3 322.31 ZVC 77 25 2 P D BWD007 322.45 322.46 SBO 49 148 2 P D BWD007 322.5 322.51 ZVQ 90 25 2 P QZ D BWD007 322.8 322.81 SBO 76 16 2 D BWD007 323 323.01 SBO 47 119 2 D BWD007 323.03 323.04 JOD 61 10 2 D BWD007 323.1 323.11 JOD 52 38 2 D BWD007 323.5 323.51 JOD 89 218 2 P R D BWD007 323.8 323.81 ZFX 70 0 P S CL CLAY 1CM WIDE D BWD007 327.4 327.41 ZVQ 90 QZ D BWD007 329.65 329.66 JOD 46 113 2 P S D BWD007 330.5 330.51 JOD 30 104 2 P D BWD007 330.9 330.91 SBO 40 107 2 D BWD007 331.1 331.11 SBO 40 107 2 D BWD007 331.4 331.41 JOD 42 36 2 P S D BWD007 331.95 331.96 SCI 67 60 2 P SEDS-DOLERITE CONTACT D BWD007 332.85 332.86 JOD 41 138 2 P R D BWD007 336 336.01 JOD 49 293 2 P S CL D BWD007 337.85 337.86 IFA 77 66 2 P APLITE VEIN/DYKE 1.5CM WIDE D BWD007 338.25 338.26 JOD 40 114 2 P R CL D BWD007 338.5 338.51 JOD 86 202 2 P R CL D BWD007 339.3 339.31 JOD 80 28 2 P R D BWD007 339.9 339.91 JOD 65 223 2 P R D BWD007 341.3 341.31 IFA 52 11 2 P D BWD008 9.5 9.51 JT 10 C S ALPHA D BWD008 10.9 10.91 ZRO 30 CLAY FRACTURE ZONE D BWD008 12.7 12.71 JT 40 P R D BWD008 15.1 15.11 JT 60 P R D BWD008 16.4 16.41 JT 45 P R D BWD008 21.5 21.51 SBO 10 P D BWD008 23.1 23.11 JT 45 P R FEOX D BWD008 25.4 25.41 SBO 50 P D BWD008 30.9 30.91 ZFG 40 P S CLAY 40MM WIDE D BWD008 31.2 31.21 ZRO 70 FEOX CLAY FRACTURE ZONE D BWD008 32.7 32.71 ZFX 40 P FEOX CLAY 80MM WIDE D BWD008 35.05 35.06 JT 35 P R FEOX D BWD008 35.1 35.11 JT 70 P R FEOX D BWD008 36.8 36.81 JT 55 P R FEOX D BWD008 40 40.01 SBO 60 P D BWD008 41.1 41.11 JT 10 P S FEOX D BWD008 45 45.01 JT 65 P S D BWD008 45.3 45.31 ZRO 40 FRACTURE ZONE WITH RESULTING CORE LOSS D BWD008 47.9 47.91 JT 15 P R D BWD008 49.6 49.61 JT 50 C R D BWD008 53 53.01 SBO 45 P D BWD008 56.1 56.11 JT 20 170 1 P R CL NEEDS CONVERTING. COARSE CHLORITE ? ON SURFACE D BWD008 56.6 56.61 JT 60 25 1 P S CL NOTHING TO COMPare ori LINE TO HENCE THE LOW CONFIDENCE D BWD008 57.65 57.66 SBO 45 20 1 P D BWD008 60.1 60.11 SBO 63 D BWD008 67.5 67.51 SBO 35 30 1 P D BWD008 68.3 68.31 ZVQ 60 160 2 QZ 1MM WIDE D BWD008 71.15 71.16 SBO 10 D BWD008 71.3 71.31 JT 60 S D BWD008 71.7 71.71 ZRO 45 FRACTURE ZONE D BWD008 74.05 74.06 SBO 55 D BWD008 74.9 74.91 JT 60 D BWD008 79.1 79.11 SBO 50 D BWD008 81.3 81.31 SBO 15 D BWD008 85 85.01 JT 55 220 S R CAL D BWD008 85.2 85.21 SBO 55 340 D BWD008 88.08 88.09 ZVC 25 P CAL WELL CEMENTED BRECCIA VEIN 5CM THICK D BWD008 88.85 88.86 SBO 10 P D BWD008 90.6 90.61 JOD 60 230 3 P S D BWD008 92.3 92.31 JOD 55 250 3 P S CL D BWD008 93.1 93.11 JOD 55 35 3 P S CAL CL D BWD008 101.7 101.71 SBO 60 0 P D BWD008 104.5 104.51 SBO 30 10 2 P U SILTSTONE BED D BWD008 107.3 107.31 SBO 30 25 3 P U D BWD008 108.6 108.61 JOD 40 345 3 P S CL CAL D BWD008 109.5 109.51 ZVC 60 320 3 P CAL D BWD008 109.9 109.91 ZVQ 55 160 3 P QZ D BWD008 111.1 111.11 SBO 10 345 D BWD008 113.9 113.91 SBO 55 340 1 P D BWD008 115.2 115.21 JOD 25 280 1 P S CL D BWD008 115.5 115.51 SBO 30 345 1 P D BWD008 122.2 122.21 JOD 30 0 3 P S CAL D BWD008 123.5 123.51 SBO 35 5 3 P D BWD008 125.2 125.21 ZVQ 35 345 3 P QZ PY D BWD008 129.8 129.81 ZFX 55 180 1 S S CLAY CL BEST GUESS OF ORIENTATION COMBO OF BX AND SHEAR APPROX 25CM WIDE D BWD008 130.05 130.06 ZRO 60 0 P FRACTURE ZONE FROM 130.05 TO 133.4M DH D BWD008 133.4 133.41 ZFX 60 0 P CLAY CL 15CM WIDE POSSIBLY RELATED TO STRUCTURE AT 129.8 D BWD008 133.6 133.61 ZRO 25 0 P 133.6 TO 142.3 FRACTURED ROCK POSSIBLY RELATED TO STRUCTURES? D BWD008 145.1 145.11 SBO 30 0 P D BWD008 145.7 145.71 SBO 50 20 3 P U D BWD008 148.8 148.81 SBO 50 20 3 P D BWD008 150.5 150.51 ZVC 65 235 3 P CAL D BWD008 151.8 151.81 ZRO 35 0 SHATTER ZONE 20CM WIDE D BWD008 152.4 152.41 ZFX 60 0 P CL CLAY 3CM WIDE D BWD008 153.05 153.06 SBO 35 20 3 P U D BWD008 155.4 155.41 SBO 60 15 3 D BWD008 157.3 157.31 JOD 55 345 3 P S CL CAL D BWD008 159.25 159.26 SBO 40 15 3 P D BWD008 159.5 159.51 JOD 70 40 3 P S CL D BWD008 162.5 162.51 ZVQ 40 15 3 QZ CL 3CM WIDE D BWD008 166.45 166.46 SBO 55 15 3 U D BWD008 168.45 168.46 ZVC 15 20 3 P CAL THIN CAL VEINS D BWD008 170.2 170.21 ZVQ 35 195 3 QZ CCP 10MM VEIN WITH POSS CHALCO BLEBS D BWD008 173.25 173.26 ZVQ 55 230 3 QZ PY D BWD008 173.8 173.81 SBO 15 190 3 U D BWD008 175.2 175.21 ZVC 70 80 3 CAL THIN CALCITE VEIN D BWD008 177.7 177.71 ZVC 40 320 3 CAL D BWD008 178.6 178.61 SBO 30 10 D BWD008 180.4 180.41 JOD 40 P R D BWD008 183.2 183.21 SBO 20 D BWD008 184.6 184.61 JOD 55 P S SERI CL D BWD008 187.15 187.16 JOD 55 220 1 P S CL CAL D BWD008 188.6 188.61 JOD 30 105 1 P S CAL D BWD008 188.75 188.76 JOD 30 215 1 P S CL D BWD008 188.95 188.96 SBO 60 25 1 D BWD008 191.2 191.21 SBO 65 20 1 P D BWD008 192.7 192.71 ZSO 60 320 3 P R CL HANGING WALL BOUNDING STRUCTURE TO SERICITE ALT ZONE. ONLY 8MM WIDE AND VEY INTACT NOT A CLASSIC SHEAR D BWD008 192.88 192.89 ZVQ 65 355 3 QZ SERI D BWD008 193 193.01 SBO 40 25 3 FOOTWALL BOUNDING STRUCTURE OF SERICITE ALT ZONE D BWD008 194.1 194.11 SBO 35 15 3 P D BWD008 195.15 195.16 ZVQ 45 0 3 D BWD008 195.9 195.91 SBO 55 0 3 D BWD008 196.2 196.21 ZVQ 60 10 3 P QZ PY D BWD008 196.95 196.96 JOD 40 340 3 P S D BWD008 197.65 197.66 ZVC 65 345 3 P CAL QZ D BWD008 198.1 198.11 SBO 45 30 3 P D BWD008 198.7 198.71 SBO 5 40 3 P D BWD008 198.8 198.81 JOD 60 10 3 P S CL D BWD008 200.1 200.11 SBO 25 70 3 D BWD008 202.35 202.36 SBO 55 70 3 D BWD008 203 203.01 JOD 20 335 3 P R CL CAL D BWD008 204.5 204.51 SBO 40 70 3 P D BWD008 207 207.01 JOD 30 325 3 P S CL D BWD008 208.1 208.11 ZVC 50 20 3 P CAL D BWD008 208.4 208.41 JOD 20 280 3 P S CL D BWD008 210.15 210.16 ZVQ 55 160 3 P QZ PY D BWD008 210.8 210.81 JOD 60 170 3 P R D BWD008 212.6 212.61 SBO 30 20 3 P D BWD008 214 214.01 JOD 60 160 3 P S CL CAL D BWD008 220.2 220.21 ZVQ 55 45 3 QZ PY BEDDING PARALLEL VEIN D BWD008 220.45 220.46 SBO 65 30 3 P D BWD008 221.7 221.71 JOD 20 350 3 P S CL D BWD008 226.4 226.41 SBO 30 40 3 P D BWD008 228.7 228.71 SBO 35 30 3 P CORDIERITE SPOTS WITHIN A FINER GRAINED MATIRX D BWD008 231.4 231.41 JOD 20 230 3 P P CL CAL D BWD008 231.9 231.91 ZVQ 55 10 3 P QZ D BWD008 234.4 234.41 ZVQ 60 345 3 P QZ D BWD008 237.08 237.09 SBO 65 350 3 P D BWD008 237.9 237.91 ZVC 55 310 3 P CAL D BWD008 238.1 238.11 SBO 60 40 3 P D BWD008 240.2 240.21 ZVQ 25 320 3 P QZ PY D BWD008 241.8 241.81 SBO 55 0 3 P D BWD008 242.75 242.76 ZVQ 25 310 3 P QZ PY D BWD008 244.9 244.91 SBO 10 30 3 P D BWD008 246.7 246.71 ZVQ 45 285 3 P QZ CL D BWD008 248 248.01 SBO 55 0 3 P D BWD008 251.5 251.51 ZVQ 40 350 3 P QZ CL D BWD008 254.5 254.51 JOD 25 150 3 P R CL CAL D BWD008 254.7 254.71 SBO 20 340 3 P D BWD008 263.05 263.06 ZVQ 80 15 3 P QZ PY D BWD008 263.1 263.11 ZVO 15 195 3 P CAL D BWD008 277 277.01 JOD 35 222 3 I R APY APY FORMING IN CLUSTERS ALOND THE ROUGH FRACTURE SURFACE D BWD008 296 296.01 ZFG 5 0 U CLAY CL ANASTOMOSING FAULT GOUGE UP TO 2CM WIDE D BWD008 296.5 296.51 ZVQS 45 0 S PY QZ MASSIVE PYRITE VEIN D BWD008 298 298.01 ZVQS 55 0 S QZ PY D BWD008 299.65 299.66 JOD 15 0 P S CL D BWD008 300 300.01 ZVQS 55 0 S QZ PY HANGING WALL CONTACT D BWD008 301.2 301.21 JOD 5 0 S S CL D BWD008 302.8 302.81 ZFG 60 0 P CL CLAY FOLIATED WITH ROCK FRAGS ABOUT 5CM WIDE D BWD008 303.5 303.51 JOD 35 310 1 P S CL D BWD008 306 306.01 ZVQ 25 0 P QZ CL SNOW WHITE QZ D BWD008 306.7 306.71 JOD 20 10 1 U S CL D BWD008 308 308.01 ZFX 55 0 P CL CLAY 3CM WIDE WITH ROCK FRAGS D BWD008 309.9 309.91 ZVQS 40 0 1 P QZ PY D BWD008 315.1 315.11 JOD 45 320 1 P CL D BWD008 317.15 317.16 ZVQS 65 350 3 P QZ PY D BWD008 319.5 319.51 SBO 25 90 3 P D BWD008 324.6 324.61 ZVQ 30 340 2 P QZ PY D BWD008 325.4 325.41 JOD 70 330 3 P S CL D BWD008 325.75 325.76 ZVQ 60 0 QZ PY D BWD008 327.6 327.61 ZVQ 30 320 2 P S QZ PY PLUS CL ON SELVAGE D BWD008 327.9 327.91 ZVQS 64 0 U SL GR CL D BWD008 328.48 328.49 SBO 59 0 P S D BWD008 329.17 329.18 LIO 65 0 U S GR D BWD008 329.37 329.38 ZVQS 65 0 U R QZ PY D BWD008 329.65 329.66 ZVS 50 32 2 U S D BWD008 330.37 330.38 JOD 25 57 3 P D BWD008 330.8 330.81 ZVQS 44 0 U R QZ PY D BWD008 331.88 331.89 ZFG 60 0 U SHEAR/FAULTW/ BRECCIATED FRAGMENTS AND CLAY MINERALS D BWD008 332.9 332.91 SFCC 50 0 U S CRENUALTIONS OF BEDDING INSIDE QZ-SULPHIDE VEIN D BWD008 333.6 333.61 JOD 56 0 P D BWD008 338.1 338.11 SHZ 55 0 I HIGHLY FRACTURED SHEAR ZONE D BWD008 343.2 343.21 ZSO 11 0 I 1.1M THICK FAULT ZONE W/INTENSE GOUGING AND SHEARING D BWD008 344 344.01 SFCC 58 34 2 U D BWD008 344.01 344.02 SFCC 85 85 2 U R D BWD008 345.76 345.77 SFCC 75 68 0 U S D BWD008 346 346.01 JOU 36 82 3 U S D BWD008 347.5 347.51 JOD 49 53 3 U S D BWD008 347.51 347.52 LIS 75 124 3 U R D BWD008 347.9 347.91 SBO 56 191 3 U D BWD008 348.3 348.31 JOD 33 45 3 U D BWD008 348.8 348.81 ZVQS 48 111 3 P QZ PY D BWD008 349.7 349.71 ZVQS 69 158 3 U QZ PY D BWD008 350.37 350.38 ZVQS 52 45 3 U R QZ PY D BWD008 351.57 351.58 ZVQS 41 82 3 U R QZ PY D BWD008 353.12 353.13 JOD 49 84 3 U D BWD008 353.21 353.22 JOD 41 311 3 P R D BWD008 353.7 353.71 JOD 60 360 3 P D BWD008 354.62 354.63 SBO 49 108 3 U D BWD008 355.53 355.54 ZVS 75 94 3 U D BWD008 356.36 356.37 SBO 31 105 3 P D BWD008 357.3 357.31 SBO 45 94 3 U D BWD008 357.95 357.96 ZVQS 26 45 3 U QZ PY D BWD008 358.65 358.66 SBO 69 144 3 U D BWD008 359 359.01 ZVQS 15 45 3 U QZ PY D BWD008 359.3 359.31 ZVQ 10 5 3 P QZ SP D BWD008 361.6 361.61 SBO 38 117 3 U D BWD008 362.44 362.45 SBO 74 140 3 U D BWD008 362.83 362.84 JOD 37 14 3 U S D BWD008 363.3 363.31 JOU 58 339 3 U D BWD008 364.45 364.46 JOD 38 282 3 U S D BWD008 365.09 365.1 JOD 90 2 3 U R D BWD008 366.23 366.24 JOD 85 30 3 U S D BWD008 366.77 366.78 SBO 47 142 3 U D BWD008 367.52 367.53 SBO 51 73 3 U D BWD008 367.78 367.79 ZFT 12 75 3 S QZ VEIN UNDERGONE THRUST FAULT D BWD008 368 368.01 SFO 48 51 3 P D BWD008 368.28 368.29 JOD 45 26 3 P S D BWD008 368.57 368.58 ZVQ 45 60 3 I QZ APY D BWD008 369.03 369.04 JOD 48 76 3 P R D BWD008 369.13 369.14 JOD 49 296 3 U R D BWD008 369.2 369.21 ZVQS 45 81 3 S R QZ PY PY FRACTURE COATING ON THE FRACTURE SURFACE D BWD008 369.37 369.38 JOD 75 64 3 U R PY PY FRACTURE COATING ON THE FRACTURE SURFACE D BWD008 369.65 369.66 ZVQ 20 76 3 U QZ D BWD008 369.82 369.83 ZVS 87 112 3 U PY D BWD008 370.07 370.08 SBO 40 141 3 U D BWD008 370.4 370.41 ZFX 33 86 3 I R GR BRECCIATED CARBONACEOUS FRAGMENTS INSIDE A QZ VEIN D BWD008 370.6 370.61 JOD 25 0 U JOD PARALLEL TO THE CORE AXIS D BWD008 370.9 370.91 JOD 31 0 I R QZ APY D BWD008 370.95 370.96 ZVQ 31 0 U QZ APY D BWD008 371.2 371.21 ZVQS 79 0 I APY D BWD008 371.37 371.38 JOD 36 0 U SL GR D BWD008 371.66 371.67 ZVS 36 14 3 U APY D BWD008 371.85 371.86 JOD 38 138 3 I R QZ APY D BWD008 372.25 372.26 ZVQS 23 114 3 I PY APY D BWD008 372.7 372.71 JOD 86 352 3 P S D BWD008 372.75 372.76 ZVQ 33 27 3 U QZ D BWD008 373.34 373.35 SBO 5 108 3 U D BWD008 373.35 373.36 ZVS 18 108 3 U PY D BWD008 373.53 373.54 SBO 7 120 3 D BWD008 373.77 373.78 ZVQ 11 98 3 P QZ D BWD008 373.85 373.86 ZVQS 27 12 3 P QZ PY THIS SULPHIDE-QZ VEIN IS CROSSCUTTING THE PREVIOUS VEIN THAT WAS LOGGED STRUCTURALLY WHICH HAS SIMILAR ORIENTATION AND DIP ACCORDING TO FOLIATION-VEINS-BEDDING IN THIS SMALL SECTION D BWD008 373.97 373.98 SBO 33 136 3 P D BWD008 374.14 374.15 JOD 82 316 3 S D BWD008 374.18 374.19 JOD 31 66 3 I R D BWD008 374.27 374.28 JOD 23 273 3 P R APY D BWD008 374.36 374.37 JOD 38 188 3 P R PY D BWD008 374.47 374.48 ZVS 77 120 3 U APY PY D BWD008 374.65 374.66 JOD 42 255 3 I D BWD008 375.08 375.09 JOD 37 339 3 P S APY GR D BWD008 375.1 375.11 SFO 42 114 3 P D BWD008 375.11 375.12 LIS 45 3 P S APY GR STRIATIONS ON FRACTURE SURFACE @100 DEGREES D BWD008 375.46 375.47 JOD 33 159 3 U R D BWD008 375.6 375.61 SBO 50 128 3 P D BWD008 375.67 375.68 ZVQS 30 352 3 I QZ PY QZ VEIN CROSS CUTS BEDDING AND THEREFORE IS A SECONDARY STRUCTURE D BWD008 375.87 375.88 JOD 5 133 3 P R APY D BWD008 375.9 375.91 SBO 23 118 3 P D BWD008 376.38 376.39 ZVS 29 137 3 U APY PY D BWD008 376.4 376.41 SFCC 64 133 3 U D BWD008 376.64 376.65 JOD 60 136 3 S R D BWD008 376.76 376.77 ZVS 71 17 3 U PY QZ D BWD008 376.89 376.9 SFCC 72 62 3 U PY QZ CRENULATIONS ON SULPHIDE AND QZ VEINLETS D BWD008 377.2 377.21 JOD 50 85 3 S S APY APY FORMING IN VEINLETS/STRINGERS PARALLEL WITH CORE AXIS AND SEEN ON THE FRACTURE SURFACE D BWD008 377.37 377.38 JOD 48 105 3 I R D BWD008 377.4 377.41 ZVQ 73 188 3 U QZ PY D BWD008 377.55 377.56 ZVS 48 113 3 U PY SSYMASIVE SULPHIDE VEIN SYSTEM D BWD008 377.74 377.75 ZVS 52 94 3 U S PY FRACTURE SURFACE HAS EVIDENCE OF STRIATIONS AND LINEAMENT GRAVITY WORMS D BWD008 377.85 377.86 LGW 47 80 3 U S D BWD008 378.2 378.21 JOD 87 40 3 I R PY SCUBES PF SULPHIDES ON THE FRACTURE SURFACE D BWD008 378.21 378.22 LIS 59 3 U S STRIATIONS @160 DEGREES D BWD008 378.8 378.81 JOD 64 315 3 U R PY D BWD008 379 379.01 JOD 70 343 3 I R PY D BWD008 379.46 379.47 ZVQ 45 90 3 U QZ PY QZ VEIN IS CRENULATED D BWD008 379.7 379.71 JOD 87 101 3 P SL GR D BWD008 379.9 379.91 JOD 80 339 3 I D BWD008 380.07 380.08 SBO 85 125 3 P D BWD008 380.62 380.63 JOD 56 30 3 U S PY D BWD008 381.48 381.49 JOD 70 16 3 U S D BWD008 382.5 382.51 JOD 56 42 3 U R D BWD008 383.44 383.45 JOD 33 180 3 P S D BWD008 383.45 383.46 LIS 69 3 P S STRIATIONS @90 DEGREES D BWD008 384.06 384.07 JOD 60 8 3 S S PL D BWD008 385.54 385.55 ZVQ 69 16 3 U CL GR D BWD008 386.18 386.19 SBO 16 109 3 P D BWD008 386.25 386.26 SFO 31 34 3 P D BWD008 386.56 386.57 JOD 38 49 3 I S D BWD008 386.6 386.61 JOD 63 34 3 U S APY D BWD008 386.66 386.67 ZVQ 67 109 3 U QZ D BWD008 386.95 386.96 JOD 90 101 3 S SL CL D BWD008 388.17 388.18 ZVQ 73 108 3 P QZ D BWD008 388.82 388.83 ZVQ 63 113 3 U QZ D BWD008 388.91 388.92 JOD 89 108 3 P SL PL PY D BWD008 389.55 389.56 JOD 90 205 3 I R D BWD008 389.62 389.63 ZVQ 72 23 3 I QZ D BWD008 391.22 391.23 ZVS 72 81 3 I PY D BWD008 391.44 391.45 JOD 75 65 3 U R D BWD008 391.7 391.71 ZFT 42 136 3 THRUST FAULT ALONG A BEDDING PLANBE D BWD008 392.32 392.33 SBO 64 3 U D BWD008 393.1 393.11 ZVQ 79 354 3 U PY QZ D BWD008 393.42 393.43 SBO 59 61 3 U D BWD008 393.8 393.81 ZVQ 47 59 3 U QZ D BWD008 393.83 393.84 SBO 58 3 U D BWD008 394.2 394.21 ZVQS 65 4 3 U QZ PY D BWD008 394.44 394.45 ZVQ 59 4 3 U QZ D BWD008 394.64 394.65 ZVQ 38 11 3 U QZ D BWD008 394.92 394.93 JOD 58 3 3 P R D BWD008 395.04 395.05 JOD 38 317 3 U S PY D BWD008 395.44 395.45 JOD 47 49 3 I R D BWD008 395.8 395.81 JOD 56 54 3 P R D BWD008 396.09 396.1 JOD 39 72 3 U R D BWD008 396.13 396.14 ZVK 43 3 U POTASSIUM FELDSPAR PARALLEL TO THE CORE AXIS D BWD008 396.2 396.21 JOD 84 73 3 P R D BWD008 396.3 396.31 JOD 39 69 3 U R PY D BWD008 396.52 396.53 ZVQS 41 30 3 U S QZ PY D BWD008 396.78 396.79 JOD 58 75 3 U R D BWD008 396.94 396.95 JOD 67 11 3 U R D BWD008 397.52 397.53 JOD 43 52 3 U R D BWD008 397.6 397.61 JOD 72 60 3 U R D BWD008 397.69 397.7 JOD 58 88 3 U R D BWD008 397.83 397.84 JOD 67 63 3 P SL GR PY D BWD008 398.14 398.15 JOD 62 68 3 I R QZ PY D BWD008 398.15 398.16 ZVQ 64 8 3 U QZ GR D BWD008 398.26 398.27 JOD 30 50 3 P S GR D BWD008 398.44 398.45 JOD 30 71 3 U R CL D BWD008 398.53 398.54 ZFN 25 73 3 I FAULT DISPLACING BEDDING BY 5MM PARALLEL TO THE CORE AXIS D BWD008 398.68 398.69 JOD 23 78 3 I R PY D BWD008 399.24 399.25 JOD 70 324 3 I S GR D BWD008 399.25 399.26 LIS 37 3 I S GR STRIATIONS @90 DEGREES D BWD008 399.36 399.37 JOD 85 20 3 U S D BWD008 399.47 399.48 JOD 31 25 3 I S D BWD008 399.9 399.91 ZVQ 27 22 3 U S QZ D BWD008 401.85 401.86 SFO 22 163 3 P BEDDING FOLIATIONS ORIENTATION D BWD008 402.02 402.03 SCI 42 29 3 P S DOLERITE CONTACT D BWD008 402.46 402.47 JOD 29 32 3 U R DOLERITE JOINT W/ NO DEFINITE FRACTURE PLANE D BWD008 403.1 403.11 JOD 82 129 3 P R D BWD008 403.4 403.41 JOD 17 97 3 P R CAL JOINTING W/ CALCIUM CARBONATE FRACTURE COATING D BWD008 403.78 403.79 JOD 20 98 3 P S CAL D BWD008 404.17 404.18 JOD 75 114 3 I S D BWD008 404.57 404.58 JOD 22 142 3 U R CAL D BWD008 404.74 404.75 JOU 10 34 3 U D BWD008 405.03 405.04 JOD 20 92 3 P R CAL D BWD008 405.13 405.14 JOD 79 96 3 U R D BWD008 405.5 405.51 JOD 15 55 3 U R D BWD008 406 406.01 JOD 10 133 3 U R D BWD008 406.24 406.25 JOD 89 105 3 U R D BWD008 406.44 406.45 JOU 15 18 3 U D BWD008 406.84 406.85 JOD 11 136 3 U R D BWD008 408 408.01 JOD 55 115 3 P S D BWD008 408.48 408.49 JOU 36 35 3 U D BWD008 408.6 408.61 JOD 25 127 3 U R D BWD008 409.4 409.41 JOD 45 222 3 U R D BWD008 409.5 409.51 ZVC 28 115 3 P S CAL D BWD008 409.6 409.61 JOD 82 27 3 P R D BWD008 410.45 410.46 JOD 10 119 3 U R D BWD008 410.87 410.88 JOD 20 123 3 P R D BWD008 411.33 411.34 JOU 5 25 3 U D BWD008 411.36 411.37 JOD 56 119 3 P R D BWD008 412.06 412.07 JOD 33 256 3 U R D BWD008 412.27 412.28 JOD 42 37 3 U R D BWD008 413 413.01 JOD 24 158 3 U R D BWD008 413.1 413.11 JOD 75 138 3 U R D BWD008 413.9 413.91 JOD 20 151 3 U R D BWD008 414.92 414.93 ZVC 11 160 3 P S CAL D BWD008 415.22 415.23 JOD 58 116 3 U S D BWD008 417.32 417.33 JOD 69 222 3 P R D BWD008 417.37 417.38 JOD 64 222 3 P R D BWD008 417.46 417.47 JOD 6 109 3 U R D BWD008 417.76 417.77 JOD 56 136 3 P R D BWD008 417.86 417.87 JOD 63 95 3 I R D BWD008 418.08 418.09 JOD 65 133 3 U R APY TRACES OF SULPHIDE NEELDS ON THE FRACTURE SURFACE D BWD008 418.44 418.45 JOD 80 263 3 U R D BWD008 418.64 418.65 JOD 15 73 3 U R D BWD008 419.17 419.18 JOD 48 25 3 P R D BWD008 419.28 419.29 JOD 69 222 3 U R D BWD008 419.62 419.63 JOD 16 8 3 U R D BWD008 419.7 419.71 JOD 51 188 3 P S CAL D BWD008 419.71 419.72 LIS 45 3 P S STRIATIONS @170 DEGREES D BWD008 419.9 419.91 JOD 11 10 3 P S CAL D BWD008 422.32 422.33 JOD 7 84 3 P R D BWD008 423.37 423.38 JOD 86 8 3 U R CAL D BWD008 425 425.01 JOD 84 109 3 P R D BWD008 426.27 426.28 JOD 60 15 3 P R D BWD008 427.45 427.46 JOD 55 42 3 P R D BWD008 430.33 430.34 JOD 30 165 3 P R CAL D BWD008 430.4 430.41 JOD 78 357 3 U R D BWD008 430.57 430.58 JOD 25 117 3 P R D BWD008 430.64 430.65 JOD 19 293 3 U R D BWD008 430.98 430.99 JOD 60 101 3 P R D BWD008 431.37 431.38 JOD 43 81 3 U S D BWD008 431.68 431.69 JOD 12 60 3 U S D BWD008 431.72 431.73 JOD 42 80 3 U R D BWD008 432.36 432.37 JOD 74 259 3 U S D BWD008 433.5 433.51 JOD 77 250 3 U S D BWD008 436.68 436.69 JOD 73 0 P R D BWD008 436.78 436.79 JOD 30 0 P R D BWD008 436.98 436.99 JOD 43 271 3 P R D BWD008 437.26 437.27 JOD 67 7 3 P R D BWD008 437.57 437.58 JOD 22 261 3 P R D BWD008 438.66 438.67 JOD 89 273 3 P R D BWD008 439.58 439.59 JOD 85 240 3 P R D BWD008 440.43 440.44 JOD 8 209 3 U R D BWD008 441.33 441.34 JOD 79 351 3 P R D BWD008 441.34 441.35 LIS 87 3 P R STRIATIONS @170 DEGREES D BWD008 441.87 441.88 JOD 36 290 3 P R D BWD008 442.95 442.96 ZVC 38 185 3 I CAL D BWD008 443.38 443.39 JOD 43 179 3 P R D BWD008 444.34 444.35 JOD 67 182 3 U R D BWD008 445.15 445.16 JOD 32 304 3 U R D BWD008 445.37 445.38 JOD 73 272 3 U R D BWD008 445.99 446 JOD 24 181 3 U R D BWD008 446.28 446.29 JOD 64 286 3 P R D BWD008 446.68 446.69 ZVK 69 252 3 I PL K-FELDSPAR ALTERATION VEIN D BWD008 447.7 447.71 JOD 6 203 3 P R D BWD008 447.9 447.91 JOD 81 257 3 U R D BWD008 448.24 448.25 ZVC 77 197 3 P CAL D BWD008 448.32 448.33 JOD 77 14 3 U R CAL D BWD008 448.77 448.78 JOD 32 307 3 P R D BWD008 449.1 449.11 SFCC 37 267 3 U SILICA OR K-FELDSPAR ALTERATION IN W/ CRENULATION D BWD008 450.84 450.85 JOD 74 272 3 I R D BWD008 451.63 451.64 ZVC 77 181 3 I CAL D BWD008 452.73 452.74 JOD 65 280 3 P R CAL D BWD008 452.95 452.96 JOD 57 182 3 P R CAL D BWD008 453.18 453.19 JOD 75 330 3 U R D BWD008 453.29 453.3 ZVK 49 201 3 U PL K-FELDSPAR ALTERATION VEIN D BWD008 453.75 453.76 JOD 71 199 3 P R D BWD008 454.07 454.08 JOD 75 296 3 P R D BWD008 454.15 454.16 ZVK 62 189 3 P PL CAL D BWD008 454.18 454.19 ZVC 70 191 3 S R CAL D BWD008 454.34 454.35 JOD 44 191 3 P R CAL D BWD008 454.46 454.47 ZVK 42 251 3 I R PL D BWD008 454.87 454.88 JOD 77 266 3 P R D BWD008 455.15 455.16 ZVK 30 30 3 U PL D BWD008 455.25 455.26 ZVC 27 23 3 P CAL D BWD008 455.37 455.38 ZVC 66 11 3 U CAL D BWD008 455.4 455.41 JOD 40 27 3 U R D BWD008 456.1 456.11 ZVK 12 42 3 U PL D BWD008 456.59 456.6 JOD 77 99 3 P R CAL CALCIUM CARBONATE FORMING ON THE FRACTURE SURFACE D BWD008 456.9 456.91 ZVK 80 22 3 U PL D BWD008 457.1 457.11 JOD 25 36 3 P R D BWD008 457.5 457.51 JOD 22 310 3 U R D BWD008 457.77 457.78 ZVK 71 205 3 U PL D BWD008 457.92 457.93 JOD 53 240 3 I R D BWD008 457.98 457.99 ZVC 52 248 3 P CAL D BWD008 458.1 458.11 ZVK 39 129 3 P PL D BWD008 458.34 458.35 JOD 64 251 3 P R CAL CALCIUM VEINLET CROSSCUTTING FRACTURE SURFACE ALMOST PERPENDICULAR TO JOINT D BWD008 458.57 458.58 JOD 33 261 3 P S D BWD008 459.16 459.17 JOD 28 192 3 U R D BWD008 459.63 459.64 JOD 54 218 3 U R D BWD008 461.24 461.25 ZVC 79 183 3 I R CAL D BWD008 462.33 462.34 JOD 14 23 3 U R CAL D BWD008 463.47 463.48 JOD 53 42 3 U R GR CL CHLORITE AND GRAPHITIC CARBONACEOUS ON THE JOINT SURFACE D BWD008 464 464.01 JOD 50 116 3 U R D BWD008 464.47 464.48 JOD 89 92 3 P S D BWD008 464.7 464.71 JOD 55 22 3 P R D BWD008 465.61 465.62 JOD 40 201 3 U R D BWD008 466.05 466.06 JOD 55 273 3 P S CL D BWD008 466.23 466.24 JOD 80 62 3 U R D BWD008 466.24 466.25 ZVK 80 283 3 U PL D BWD008 466.41 466.42 JOD 45 30 3 P S CL D BWD008 466.43 466.44 JOD 60 282 3 I S D BWD008 466.78 466.79 JOD 50 263 3 P R D BWD008 466.91 466.92 JOD 45 223 3 P R D BWD008 467.03 467.04 JOD 35 313 3 U R D BWD008 467.09 467.1 JOD 20 33 3 U R D BWD008 467.12 467.13 JOD 60 210 3 U S D BWD008 467.19 467.2 ZVC 60 54 3 P CAL CROSSCUTTING CARBONATE VEINS D BWD008 467.36 467.37 JOD 40 207 3 S S CAL SILTSTONE CONTACT ZONE D BWD008 467.42 467.43 JOD 90 218 3 I R CAL D BWD008 467.54 467.55 JOD 36 0 U SL CL D BWD008 467.66 467.67 JOD 59 0 U SL PY D BWD008 467.74 467.75 JOD 34 0 U S APY D BWD008 467.8 467.81 ZVQ 61 0 I QZ SMALL CROSS CUTTING QZ VEIN LETS D BWD008 468.23 468.24 JOD 68 0 U S APY D BWD008 468.3 468.31 JOD 42 0 U R APY D BWD008 468.4 468.41 JOD 71 0 U S D BWD008 468.67 468.68 SFO 19 0 P D BWD008 469.14 469.15 ZVQ 82 0 I QZ MULTIPLE QZ VEINS ALONG THE SAME ORIENTATION WITH SOME EVIDENCE OF MINOR FAULTING AND DISPLACEMENT ON SOME OF THE VEINS D BWD008 469.44 469.45 JOD 69 0 S S PY D BWD008 469.64 469.65 ZVQ 53 0 P QZ D BWD008 470.26 470.27 JOD 75 50 2 I R QZ D BWD008 470.32 470.33 JOD 83 2 I R QZ PY D BWD008 470.64 470.65 JOD 68 37 2 U S D BWD008 470.9 470.91 JOD 52 20 2 I R PY D BWD008 470.92 470.93 ZFSS 58 56 2 I QZ QZ VEINLET W/ OBVIOUS SINSISTRAL SLIP MOVEMENT. WAS DIFFICULT TO OBTAIN BETA ANGLE D BWD008 471.07 471.08 ZVQ 84 340 2 I QZ D BWD008 471.26 471.27 JOD 66 5 2 I R D BWD008 471.75 471.76 JOD 57 4 2 U S D BWD008 472 472.01 JOD 68 11 3 U R QZ CL D BWD008 472.15 472.16 ZVQ 25 120 3 P QZ APY D BWD008 472.42 472.43 JOD 25 205 3 U R D BWD008 472.67 472.68 JOD 20 31 3 U S D BWD008 472.9 472.91 JOD 30 72 3 S S D BWD008 473.32 473.33 JOD 39 48 3 P S D BWD008 473.36 473.37 LIS 22 3 P S STRIATIONS @ 180 DEGREES D BWD008 473.47 473.48 JOU 57 186 3 P D BWD008 473.56 473.57 JOD 21 68 3 P S APY D BWD008 473.64 473.65 JOD 62 30 3 I PL K-FELDSPARS VEINLETS CROSSCUTTING FRACTURE SURFACE D BWD008 473.95 473.96 JOD 72 74 3 U R D BWD008 473.96 473.97 LIS 20 3 U R STRIATIONS @ 220 DEGREES D BWD008 474.36 474.37 JOD 20 196 3 I R PY D BWD008 474.53 474.54 JOD 46 82 3 P S D BWD008 474.59 474.6 SFO 49 99 3 U D BWD008 474.67 474.68 JOD 86 79 3 P S D BWD008 474.9 474.91 JOD 33 0 P S APY D BWD008 475.17 475.18 JOD 24 0 P S APY D BWD008 475.75 475.76 ZVQ 59 0 P S D BWD008 476.27 476.28 ZVQS 88 0 I R QZ APY HIGHLY FRACTURED (ALMOST RUBBLE) QZ-SULPHIDE VEIN D BWD008 477.23 477.24 JOD 56 254 3 I R APY D BWD008 477.56 477.57 SFCC 83 7 3 U QZ D BWD008 477.75 477.76 JOD 25 345 3 I S D BWD008 477.85 477.86 JOD 47 134 3 P S APY D BWD008 478.21 478.22 JOD 30 200 3 P S D BWD008 478.57 478.58 JOU 85 202 3 P PY D BWD008 478.9 478.91 ZVQ 47 90 3 I QZ PY D BWD008 479.04 479.05 SBO 50 90 3 U D BWD008 479.2 479.21 ZVK 45 288 3 I PL D BWD008 479.5 479.51 ZVQS 85 99 3 U QZ PY D BWD008 479.85 479.86 JOD 45 357 3 U S D BWD008 479.86 479.87 LIS 60 3 U S STRIATIONS @ 310 DEGREES D BWD008 480 480.01 SBO 43 132 3 P APY D BWD008 480.07 480.08 SFO 45 130 3 U APY D BWD008 480.5 480.51 ZVK 46 298 3 I PL D BWD008 480.9 480.91 ZVQS 64 0 I R QZ APY HIGHLY FRACTURED QZ-SULPHIDE VEIN W/ A DISTINCT ARSENIC SMELL D BWD008 481.65 481.66 ZVQS 40 10 3 I QZ PY D BWD008 481.72 481.73 JOD 42 359 3 I S D BWD008 481.85 481.86 JOD 78 343 3 U S D BWD008 482.55 482.56 SBO 88 116 3 I D BWD008 482.76 482.77 JOD 76 69 3 P S PY D BWD008 482.82 482.83 SBO 80 124 3 U D BWD008 483.8 483.81 ZVQS 80 30 3 U QZ APY D BWD008 484.18 484.19 ZVQS 56 220 3 U QZ PY D BWD008 484.6 484.61 JOD 83 243 3 P R D BWD008 485.04 485.05 JOD 75 231 3 P S D BWD008 485.28 485.29 ZVQS 16 203 3 P QZ PY D BWD008 485.44 485.45 JOD 67 63 3 S S D BWD008 485.9 485.91 ZVQ 79 42 3 P QZ D BWD008 486.03 486.04 JOD 63 64 3 P S D BWD008 486.33 486.34 JOD 76 63 3 I R D BWD008 486.87 486.88 JOD 73 86 3 P S PY D BWD008 487.06 487.07 ZVQS 89 33 3 P QZ PY D BWD008 487.12 487.13 JOD 85 42 3 P SL PY D BWD008 487.28 487.29 JOD 49 89 3 P S D BWD008 487.9 487.91 ZVQS 70 68 3 U QZ PY D BWD008 488.2 488.21 ZVQS 35 64 3 P QZ D BWD008 488.33 488.34 JOD 49 151 3 P R APY D BWD008 489.18 489.19 JOD 55 173 3 S S D BWD008 489.44 489.45 ZVQS 71 217 3 I R APY QZ D BWD008 489.65 489.66 JOD 79 193 3 U R D BWD008 490.2 490.21 ZVQS 30 196 3 P S QZ PY D BWD008 490.45 490.46 JOD 36 157 3 U S D BWD008 490.96 490.97 ZVQS 83 290 3 P QZ PY D BWD008 492.12 492.13 JOD 45 194 3 U S D BWD008 492.41 492.42 JOD 83 179 3 P S D BWD008 492.71 492.72 JOD 88 198 3 I R D BWD008 493 493.01 SBO 52 267 3 P D BWD008 494.18 494.19 JOD 32 356 3 P S D BWD008 494.3 494.31 ZVQ 90 31 3 P QZ D BWD008 494.36 494.37 ZVQS 85 67 3 P QZ PY D BWD008 494.54 494.55 SBO 18 99 3 U D BWD008 494.74 494.75 JOD 75 19 3 P R D BWD008 495.07 495.08 JOD 6 352 3 S R APY D BWD008 495.18 495.19 SBO 32 133 3 U D BWD008 495.23 495.24 ZVQS 70 42 3 U QZ PY D BWD008 495.34 495.35 ZVQS 26 212 3 P QZ PY D BWD008 495.68 495.69 JOD 80 14 3 P R D BWD008 495.87 495.88 JOD 33 308 3 P S D BWD008 496 496.01 JOD 63 296 3 P S D BWD008 496.23 496.24 JOD 23 12 3 U S D BWD008 496.6 496.61 JOD 63 316 3 U S D BWD008 497.4 497.41 ZVQS 83 200 3 U QZ PY D BWD008 497.63 497.64 ZVQS 65 27 3 P QZ PY D BWD008 498.68 498.69 ZVQ 61 331 3 I QZ D BWD008 499 499.01 ZVQ 72 112 3 U QZ D BWD008 500.34 500.35 ZVQ 74 3 U QZ VEIN IS PERPENDICULAR TO CORE AXIS D BWD008 501.23 501.24 ZVQS 65 68 3 U APY QZ D BWD008 501.7 501.71 JOD 50 69 3 S R APY D BWD008 501.85 501.86 ZVQ 8 42 3 U QZ D BWD008 502.54 502.55 ZVQS 40 5 3 U QZ PY D BWD008 502.58 502.59 ZVS 44 128 3 U APY D BWD008 502.69 502.7 JOD 55 52 3 P S D BWD008 503 503.01 JOD 50 19 3 I R D BWD008 503.17 503.18 SBO 71 201 3 P D BWD008 503.73 503.74 JOD 42 288 3 U S D BWD008 504.37 504.38 JOD 46 16 3 U R D BWD008 504.44 504.45 JOD 36 298 3 P S D BWD008 504.77 504.78 JOD 35 16 3 I R D BWD008 505.02 505.03 JOD 50 12 3 P R SSG TO SILTSTONE CONTACT D BWD008 505.47 505.48 JOD 55 252 3 P R D BWD008 505.68 505.69 JOD 55 240 3 U S D BWD008 505.72 505.73 JOD 80 24 3 U R D BWD008 505.86 505.87 JOD 90 30 3 U R D BWD008 505.92 505.93 ZVQ 55 0 P D BWD008 506.12 506.13 SBO 56 0 U D BWD008 507.02 507.03 SBO 39 89 3 P D BWD008 507.24 507.25 JOD 87 37 3 P S D BWD008 507.28 507.29 JOD 80 42 3 U S D BWD008 507.33 507.34 JOD 70 40 3 U S D BWD008 507.68 507.69 ZVQ 86 62 3 U QZ APY D BWD008 508.45 508.46 SBO 50 0 U D BWD008 509.19 509.2 JOD 50 49 3 U S D BWD008 509.32 509.33 JOD 55 334 3 S S D BWD008 509.38 509.39 JOD 21 293 3 I S D BWD008 509.51 509.52 JOD 37 42 3 P SL D BWD008 509.61 509.62 JOD 79 42 3 I R APY CL D BWD008 509.72 509.73 JOD 22 319 3 P D BWD008 509.73 509.74 ZVQ 10 319 3 P QZ D BWD008 509.78 509.79 ZVQS 76 35 3 P QZ D BWD008 510.08 510.09 JOD 85 42 3 P S D BWD008 510.1 510.11 JOD 18 319 3 S S QZ D BWD008 510.17 510.18 ZVQ 56 327 3 P S D BWD008 510.26 510.27 JOD 50 58 3 P S QZ D BWD008 510.31 510.32 ZVQ 83 238 3 P PY D BWD008 510.48 510.49 ZVS 85 35 3 P PL D BWD008 510.6 510.61 ZVK 21 37 3 U QZ D BWD008 510.66 510.67 ZVQ 14 65 3 P D BWD008 511 511.01 JOD 76 0 U R D BWD008 511.35 511.36 JOD 11 0 U R QZ D BWD008 511.5 511.51 JOU 85 3 P APY D BWD008 513.98 513.99 SFO 73 170 3 P D BWD008 514.1 514.11 JOD 77 336 3 P SL QZ APY D BWD008 514.36 514.37 ZVQ 32 29 3 P R D BWD008 514.47 514.48 JOD 85 105 3 I R D BWD008 514.56 514.57 JOD 18 42 3 P S D BWD008 514.73 514.74 JOD 31 343 3 P D BWD008 514.8 514.81 JOD 21 42 3 P R D BWD008 515.58 515.59 JOD 77 139 3 P R D BWD008 515.95 515.96 ZVQ 90 54 3 P QZ APY D BWD008 516.48 516.49 JOU 72 284 3 U D BWD008 516.92 516.93 ZVQ 74 244 3 P S QZ D BWD008 516.93 516.94 LIS 74 3 P STRIATIONS @80 DEGREES D BWD008 516.98 516.99 JOD 72 214 3 P SL D BWD008 517.2 517.21 SFO 39 198 3 P D BWD008 517.37 517.38 JOD 82 299 3 U R D BWD008 517.52 517.53 JOD 87 359 3 P S D BWD008 517.83 517.84 JOD 80 68 3 I R APY D BWD008 518.04 518.05 JOD 29 35 3 P S CL D BWD008 518.1 518.11 JOD 67 339 3 P S APY D BWD008 518.2 518.21 JOD 11 336 3 P S D BWD008 518.27 518.28 ZVQ 65 64 3 U QZ D BWD008 518.48 518.49 ZVQS 43 42 3 P QZ PY D BWD008 518.56 518.57 JOD 27 15 3 S S APY D BWD008 518.63 518.64 JOD 80 49 3 P SL CL D BWD008 518.67 518.68 JOD 17 32 3 P SL D BWD008 518.92 518.93 ZVQ 60 61 3 U R D BWD008 518.93 518.94 LIS 70 3 U R STRIATIONS @270 DEGREES D BWD008 519.1 519.11 ZVQS 62 50 3 P QZ PY D BWD008 519.2 519.21 JOD 49 322 3 P SL D BWD008 519.6 519.61 ZVQ 64 30 3 U QZ D BWD008 519.9 519.91 ZVQ 79 54 3 U QZ D BWD008 520.2 520.21 ZVQS 46 242 3 U QZ APY D BWD008 520.46 520.47 ZVQS 60 190 3 U QZ APY D BWD008 520.51 520.52 JOD 80 239 3 I S D BWD008 520.52 520.53 LIS 27 3 I S STRIATIONS @50 DEGREES D BWD008 520.58 520.59 ZVQS 58 238 3 U QZ PY D BWD008 520.73 520.74 JOD 88 222 3 P S D BWD008 520.84 520.85 JOD 80 12 3 S S D BWD008 521.32 521.33 JOD 75 332 3 P S D BWD008 521.5 521.51 SBO 30 68 3 P D BWD008 521.65 521.66 JOD 80 37 3 P S APY D BWD008 522.11 522.12 JOD 78 48 3 I R D BWD008 522.21 522.22 JOD 36 71 3 U S D BWD008 522.27 522.28 JOD 68 35 3 P S D BWD008 522.36 522.37 SBO 86 160 3 U D BWD008 522.46 522.47 JOD 86 42 3 P S D BWD008 523.06 523.07 JOD 82 222 3 U S D BWD008 523.21 523.22 JOD 85 134 3 U S D BWD008 523.65 523.66 YGB 20 133 3 U UP SEDIMENTS WERE GETTING FINER AS YOU MOVED UP THE HOLE D BWD008 523.66 523.67 JOD 47 51 3 U S D BWD008 524.05 524.06 ZVQ 50 29 3 U QZ D BWD008 524.35 524.36 SBO 55 102 3 U D BWD008 524.46 524.47 ZVQS 26 42 3 U QZ APY D BWD008 524.9 524.91 JOD 36 222 3 P S D BWD008 525 525.01 SBO 74 127 3 U D BWD008 525.1 525.11 JOD 60 314 3 I R APY D BWD008 525.3 525.31 JOD 75 27 3 P S APY D BWD008 525.75 525.76 ZVS 90 213 3 P APY PY D BWD008 525.9 525.91 YGB 65 308 3 U UP SEDIMENTS WERE FINING IN AN UPWARDS DIRECTION D BWD008 525.91 525.92 JOD 87 95 3 P S QZ D BWD008 526.2 526.21 JOD 41 79 3 U S CAL D BWD008 526.25 526.26 JOD 42 82 3 U R D BWD008 526.26 526.27 SFCC 26 316 3 U QZ D BWD008 526.86 526.87 JOD 74 79 3 S R D BWD008 527.2 527.21 JOD 29 77 3 U S D BWD008 527.3 527.31 JOD 75 77 3 P S D BWD008 527.64 527.65 ZVQS 55 95 3 P QZ PY D BWD008 528 528.01 ZVQS 36 49 3 U QZ PY D BWD008 528.2 528.21 SBO 68 222 3 P QZ PY D BWD008 528.38 528.39 JOD 80 32 3 U R D BWD008 528.57 528.58 JOD 20 44 3 U R D BWD008 528.63 528.64 JOD 50 45 3 I R D BWD008 528.88 528.89 JOD 55 50 3 S S CAL D BWD008 528.9 528.91 SFO 65 141 3 P D BWD008 529.05 529.06 JOD 74 46 3 U R D BWD008 529.35 529.36 JOD 70 5 3 P SL CAL D BWD008 529.47 529.48 JOD 79 38 3 U R D BWD008 529.66 529.67 SBO 90 222 3 U R D BWD008 530.45 530.46 JOD 55 206 3 U S D BWD008 530.57 530.58 ZVQS 83 37 3 P QZ PY D BWD008 530.66 530.67 JOD 70 57 3 U R D BWD008 530.71 530.72 JOD 60 65 3 P S D BWD008 531 531.01 JOD 79 54 3 U R CAL D BWD008 531.07 531.08 JOD 86 30 3 U R CAL D BWD008 531.35 531.36 JOD 49 72 3 U P CAL D BWD008 531.44 531.45 ZVQS 80 42 3 P APY QZ D BWD008 531.63 531.64 JOD 50 42 3 I R D BWD008 532.21 532.22 JOD 75 66 3 I R D BWD008 532.4 532.41 JOU 85 55 3 I D BWD008 532.49 532.5 JOD 49 35 3 U R D BWD008 532.57 532.58 ZVQS 60 10 3 U QZ PY D BWD008 532.67 532.68 ZVQ 76 40 3 U QZ D BWD008 533 533.01 ZVQS 55 42 3 U QZ D BWD008 533.3 533.31 ZVQS 74 30 3 P QZ PY D BWD008 533.35 533.36 ZVQ 80 47 3 P QZ D BWD008 533.57 533.58 ZVQS 84 70 3 P QZ PY D BWD008 533.74 533.75 JOD 33 50 3 I S D BWD008 533.92 533.93 JOD 27 45 3 I R D BWD008 534.21 534.22 JOD 34 42 3 I S D BWD008 534.3 534.31 JOU 8 269 3 P QZ PY D BWD008 534.67 534.68 JOD 47 45 3 U R D BWD008 534.7 534.71 ZVQ 39 42 3 U QZ D BWD008 535.07 535.08 ZVQS 55 55 3 P QZ PY D BWD008 535.23 535.24 ZVQS 74 65 3 P QZ PY D BWD008 535.63 535.64 ZVQS 75 49 3 U QZ PY D BWD008 535.9 535.91 ZVQ 64 49 3 P QZ D BWD008 536.37 536.38 JOD 79 42 3 U R D BWD008 536.66 536.67 ZVQ 37 42 3 U QZ D BWD008 536.7 536.71 JOD 42 42 3 S R D BWD008 537.56 537.57 JOU 45 48 3 U D BWD008 537.9 537.91 ZVQS 60 42 3 I QZ APY D BWD008 538.12 538.13 ZVQS 80 231 3 U QZ APY D BWD008 538.46 538.47 JOD 41 39 3 U D BWD008 538.62 538.63 ZVQS 38 340 3 P QZ APY D BWD008 538.81 538.82 JOD 45 213 3 P S CAL D BWD008 539.2 539.21 JOD 44 196 3 U S D BWD008 541.63 541.64 JOD 41 30 3 P SL D BWD008 541.87 541.88 JOD 39 104 3 S R D BWD008 541.97 541.98 SFCC 44 121 3 U CRENULATIONS OF SMALL INTERBEDDED LAYERS OF SILTSTONE D BWD008 542.17 542.18 ZVQ 55 165 3 U QZ D BWD008 542.65 542.66 JOD 54 32 3 U GR D BWD008 542.67 542.68 ZVQ 40 34 3 U QZ D BWD008 542.8 542.81 JOD 60 42 3 U S D BWD008 542.92 542.93 JOD 5 5 3 U S D BWD008 543.2 543.21 JOD 20 193 3 P S CAL D BWD008 543.67 543.68 JOD 23 336 3 P R D BWD008 544.78 544.79 JOU 55 322 3 U D BWD008 544.89 544.9 JOD 60 10 3 P S D BWD008 545.06 545.07 JOD 60 4 3 U S D BWD008 545.19 545.2 JOD 45 42 3 U S D BWD008 545.24 545.25 ZVQS 49 42 3 U QZ PY D BWD008 545.49 545.5 ZVQ 46 42 3 U QZ D BWD008 545.59 545.6 JOD 82 11 3 U S D BWD008 545.72 545.73 JOD 62 2 3 U S D BWD008 545.87 545.88 JOD 30 42 3 U S D BWD008 546.27 546.28 JOD 52 12 3 P S D BWD008 546.31 546.32 ZVQ 89 11 3 P QZ D BWD008 546.37 546.38 JOD 42 354 3 P S D BWD008 546.48 546.49 ZVQ 77 12 3 P QZ D BWD008 546.64 546.65 JOD 48 357 3 U S CAL D BWD008 546.8 546.81 JOD 50 349 3 P S CAL D BWD008 547.03 547.04 JOD 37 19 3 U S D BWD008 547.3 547.31 JOD 65 42 3 U R D BWD008 547.45 547.46 JOD 44 42 3 P S APY D BWD008 548.27 548.28 ZVQS 41 42 3 U QZ PY 8CM THICK QZ VEIN WITH SOME PYRITIC MINERALISATION D BWD008 549.09 549.1 JOU 46 146 3 U D BWD008 549.17 549.18 JOD 37 45 3 U S D BWD008 549.19 549.2 ZVQS 50 46 3 U QZ PY D BWD008 549.47 549.48 ZVQ 60 22 3 U QZ D BWD008 549.98 549.99 JOD 61 337 3 P R D BWD008 550.16 550.17 JOD 50 345 3 U R CL CAL D BWD008 550.56 550.57 JOD 44 351 3 U R D BWD008 550.6 550.61 SBO 45 126 3 U D BWD008 550.7 550.71 JOD 31 94 3 U S D BWD008 550.97 550.98 JOD 46 42 3 U S CAL D BWD008 551.2 551.21 JOD 90 54 3 U S D BWD008 551.34 551.35 JOD 46 198 3 U S D BWD008 551.85 551.86 JOD 34 65 3 U S D BWD008 552.09 552.1 ZVQS 77 23 3 U QZ PY D BWD008 552.17 552.18 JOD 73 84 3 P SL D BWD008 552.3 552.31 JOD 58 75 3 U SL D BWD008 552.34 552.35 ZVQS 53 18 3 U QZ PY D BWD008 552.72 552.73 JOD 39 47 3 I R D BWD008 552.88 552.89 JOD 64 87 3 U S D BWD008 553.12 553.13 JOD 71 97 3 P S D BWD008 553.23 553.24 JOD 54 93 3 U S D BWD008 553.29 553.3 ZVQS 38 74 3 U QZ APY D BWD008 553.55 553.56 JOD 46 67 3 P S D BWD008 553.84 553.85 ZVQS 45 38 3 U QZ PY D BWD008 553.91 553.92 JOD 46 357 3 P S CAL D BWD008 553.97 553.98 JOD 46 67 3 U R D BWD008 554.21 554.22 JOD 10 87 3 U R CAL D BWD008 554.71 554.72 JOD 69 42 3 U R D BWD008 554.82 554.83 JOD 64 49 3 U S D BWD008 555.04 555.05 JOD 24 93 3 U S D BWD008 555.14 555.15 SBO 40 3 U D BWD008 555.41 555.42 ZVQS 67 53 3 U QZ PY D BWD008 555.45 555.46 JOD 84 83 3 P S D BWD008 555.53 555.54 JOD 51 23 3 U S CAL APY D BWD008 555.61 555.62 JOD 55 356 3 U R CAL D BWD008 556.05 556.06 JOD 46 74 3 U S D BWD008 556.51 556.52 JOU 82 51 3 U D BWD008 556.8 556.81 JOD 45 74 3 U S D BWD008 556.88 556.89 JOD 22 19 3 P S D BWD008 557.1 557.11 JOD 60 11 3 P S D BWD008 557.25 557.26 JOD 31 349 3 U R D BWD008 557.32 557.33 JOD 52 82 3 P S D BWD008 557.5 557.51 SHZ 53 54 3 HIGHLY FRACTURED SHEARZONE W/CLAY MINERALS D BWD008 557.6 557.61 JOD 38 63 3 U S D BWD008 557.66 557.67 JOD 33 78 3 U S D BWD008 557.73 557.74 JOD 32 93 3 P S D BWD008 557.83 557.84 JOD 28 42 3 P S D BWD008 558.11 558.12 JOD 21 53 3 U S D BWD008 558.38 558.39 ZVQS 53 108 3 U QZ PY D BWD008 558.49 558.5 ZVQS 67 66 3 U QZ PY D BWD008 558.9 558.91 JOD 25 115 3 U S D BWD008 559.7 559.71 JOD 49 71 3 S S D BWD008 559.88 559.89 SBO 33 196 3 P D BWD008 560.23 560.24 JOD 41 89 3 U S D BWD008 560.32 560.33 ZVQ 39 78 3 P QZ D BWD008 560.5 560.51 JOD 39 86 3 U S D BWD008 561.37 561.38 SBO 42 205 3 U D BWD008 561.44 561.45 JOU 45 128 3 U D BWD008 561.7 561.71 ZVQS 22 24 3 U QZ APY D BWD008 562 562.01 ZVQS 60 3 3 U QZ APY D BWD008 562.2 562.21 JOD 31 73 3 P S D BWD008 562.57 562.58 JOD 52 20 3 U R D BWD008 562.69 562.7 JOD 53 33 3 U R D BWD008 562.97 562.98 JOD 38 58 3 U R D BWD008 563.5 563.51 ZVQ 33 140 3 U QZ D BWD008 563.6 563.61 JOD 32 64 3 P SL D BWD008 563.71 563.72 JOD 28 58 3 P SL D BWD008 563.86 563.87 ZVQS 21 134 3 U QZ APY D BWD008 564.69 564.7 JOD 53 51 3 U R D BWD008 568.2 568.21 ZFSD 67 356 3 S QZ FAULT DEXTRAL SLIP D BWD008 568.41 568.42 JOD 25 36 3 P S D BWD008 568.6 568.61 JOD 49 49 3 U S D BWD008 568.9 568.91 JOD 33 54 3 U R D BWD008 569.9 569.91 JOD 41 73 3 P S D BWD008 571.87 571.88 JOD 39 58 3 U R D BWD008 572.51 572.52 JOD 39 50 3 U R D BWD008 574.32 574.33 JOD 42 65 3 U R D BWD009 31 31.01 JOD 32 351 2 I S FE SAPROLITIC ROCK WITH FE OXIDISATION ON THE FRACTURE SURFACE D BWD009 31.44 31.45 JOD 73 70 2 U R D BWD009 31.54 31.55 JOD 70 85 2 U R D BWD009 31.8 31.81 JOD 51 89 2 S R D BWD009 32.31 32.32 SBO 17 284 2 P GREYWACKE-SILTSTONE CONTACT D BWD009 32.49 32.5 ZVQ 25 222 2 U QZ D BWD009 32.66 32.67 JOD 8 279 2 U R D BWD009 32.84 32.85 JOD 60 42 2 U R D BWD009 33.16 33.17 JOD 30 351 2 P S D BWD009 33.2 33.21 ZFSS 30 22 2 U SMALL SINISTRAL STRIKE SLIP FAULT ON WHAT LOOKS TO EITHER BE BEDDING OR SECONDARY SURFACE FOLIATIONS D BWD009 33.38 33.39 JOD 27 351 2 S D BWD009 33.48 33.49 JOD 38 271 2 U R D BWD009 33.75 33.76 JOD 80 49 2 S R D BWD009 33.85 33.86 JOD 17 284 2 U R D BWD009 34.07 34.08 JOD 64 360 2 U S D BWD009 34.3 34.31 SFO 64 360 2 P FOLIATIONS ORIENTATIONS D BWD009 34.32 34.33 JOD 57 27 2 I S D BWD009 34.4 34.41 JOD 57 18 2 U R D BWD009 34.6 34.61 JOD 13 320 2 U S D BWD009 34.8 34.81 JOD 25 266 2 U S D BWD009 37.25 37.26 JOD 80 222 2 I S D BWD009 37.37 37.38 JOD 57 352 2 U S D BWD009 37.55 37.56 ZVQ 66 301 2 P QZ MODERATELY WEATHERED QZ VEIN D BWD009 38 38.01 ZVQ 39 125 2 U QZ D BWD009 38.18 38.19 JOD 46 334 2 U S D BWD009 38.26 38.27 JOD 41 73 2 I D BWD009 38.4 38.41 SFO 82 239 2 P D BWD009 38.8 38.81 SBO 73 70 2 U D BWD009 38.85 38.86 JOD 58 1 2 P S D BWD009 39 39.01 JOD 88 256 2 P S D BWD009 39.2 39.21 JOD 56 8 2 U S D BWD009 39.26 39.27 JOD 60 12 2 S S D BWD009 39.45 39.46 JOD 35 44 2 P S D BWD009 41.47 41.48 JOD 80 213 2 U R D BWD009 41.57 41.58 JOD 60 222 2 U R D BWD009 41.7 41.71 JOD 85 222 2 U R D BWD009 47.85 47.86 JOD 78 260 2 P S D BWD009 47.86 47.87 LIS 2 P STRIATIONS @ 290 DEGREES D BWD009 48.15 48.16 JOD 13 102 2 U R D BWD009 48.47 48.48 ZVQ 34 10 2 P QZ D BWD009 48.72 48.73 ZVQ 85 262 2 U QZ CL D BWD009 48.9 48.91 JOU 83 258 2 U D BWD009 49.04 49.05 JOD 62 58 2 U S FE D BWD009 49.2 49.21 JOD 81 254 2 U S APY D BWD009 49.21 49.22 LIS 2 U STRIATIONS @ 340 DEGREES D BWD009 49.65 49.66 ZVQ 88 202 1 I QZ D BWD009 49.8 49.81 JOD 70 47 1 I D BWD009 50.28 50.29 JOD 55 42 1 P SL PY D BWD009 50.56 50.57 JOD 80 49 1 U S D BWD009 50.67 50.68 ZVQ 85 230 2 P QZ D BWD009 51.19 51.2 JOD 52 56 2 U S D BWD009 51.42 51.43 ZVQ 88 202 2 U QZ PY D BWD009 55.43 55.44 SBO 60 0 P NO ORIENTATION LINE THERE FOR CAN NOT GIVE TRUE DIP AND DIRECTION D BWD009 56.42 56.43 JOD 35 92 2 I R D BWD009 57 57.01 SBO 76 85 2 U QZ BRECCIATED QZ FRAGMENTS ON THE CONTACT OF THE SILTSTONE AND GREYWACKE. QZ FRAGMENTS ARE IN THE MATRIX OF THE GW D BWD009 57.71 57.72 JOD 60 22 2 P S D BWD009 57.8 57.81 SBO 80 35 2 P D BWD009 57.96 57.97 SBO 75 42 2 U D BWD009 58 58.01 JOD 21 32 2 P S D BWD009 58.06 58.07 SBO 70 42 2 P D BWD009 61.9 61.91 SHZ 0 I R APY SHEERZONE WITH NO DEFINITE TRUE DIP AND DIRECTION D BWD009 62.28 62.29 JOD 25 48 2 P S PY PY FALLING ON THE FRACTURE SERVICE D BWD009 62.42 62.43 JOD 33 300 2 U S D BWD009 62.45 62.46 ZVQ 5 222 2 I QZ D BWD009 62.53 62.54 SBO 60 62 2 I D BWD009 62.8 62.81 JOD 26 54 2 P S PY D BWD009 62.89 62.9 SBO 70 37 2 U D BWD009 63.32 63.33 ZVS 69 53 2 U PY D BWD009 63.58 63.59 JOD 52 121 2 U R D BWD009 63.75 63.76 JOD 13 102 2 I R D BWD009 63.99 64 JOD 70 37 2 U SL D BWD009 64.05 64.06 JOD 70 39 2 P SL D BWD009 64.55 64.56 JOD 57 286 2 I R D BWD009 65.02 65.03 JOU 72 202 2 P D BWD009 65.49 65.5 JOD 18 15 2 P SL D BWD009 65.85 65.86 JOD 60 38 2 U S D BWD009 65.94 65.95 JOD 60 38 2 I R D BWD009 68.73 68.74 SBO 65 42 2 U D BWD009 69.48 69.49 JOD 64 51 2 I R D BWD009 69.6 69.61 JOD 90 34 2 U S D BWD009 69.9 69.91 JOD 69 53 2 P SL D BWD009 70.08 70.09 JOD 59 50 2 P SL D BWD009 70.15 70.16 JOD 70 42 2 P SL D BWD009 70.45 70.46 JOU 30 83 2 U D BWD009 70.52 70.53 JOD 35 42 2 P SL D BWD009 70.84 70.85 SBO 70 42 2 U D BWD009 71.04 71.05 JOD 70 42 2 P SL D BWD009 71.28 71.29 ZVQ 65 47 2 U D BWD009 71.58 71.59 JOD 21 32 2 P SL D BWD009 71.8 71.81 JOD 69 265 2 P R D BWD009 72.27 72.28 JOU 35 222 2 U D BWD009 72.6 72.61 JOD 88 320 2 P S D BWD009 73.55 73.56 JOD 81 151 2 P S D BWD009 75.13 75.14 JOD 64 19 2 U R D BWD009 75.4 75.41 ZVQ 85 222 2 I QZ CL D BWD009 81 81.01 YGB 3 U SEDIMENTS ARE FINING IN THE UPWORDS DIRECTION D BWD009 81.28 81.29 SBO 69 50 3 U D BWD009 81.36 81.37 JOD 85 42 3 P SL D BWD009 81.67 81.68 ZFSD 50 75 3 I QZ D BWD009 81.71 81.72 JOD 43 64 3 I R D BWD009 82.28 82.29 SBO 74 54 3 I D BWD009 82.29 82.3 JOD 79 55 3 P S D BWD009 82.53 82.54 JOD 50 67 3 U S D BWD009 82.71 82.72 JOD 25 48 3 P S D BWD009 83 83.01 JOD 74 54 3 I R D BWD009 83.97 83.98 SBO 60 42 3 U D BWD009 84.15 84.16 JOD 56 76 3 U S D BWD009 84.25 84.26 JOD 79 55 3 I S D BWD009 84.45 84.46 JOD 20 354 3 U R D BWD009 85.07 85.08 JOD 75 48 3 P SL D BWD009 85.31 85.32 YGB 3 U SEDIMENTS ARE FINING IN THE UPWORDS DIRECTION D BWD009 85.52 85.53 JOD 80 49 3 U S D BWD009 85.65 85.66 JOD 32 20 3 S S PY CL D BWD009 86.06 86.07 JOD 82 239 3 U R D BWD009 86.6 86.61 ZFSS 74 79 3 QZ D BWD009 86.87 86.88 JOD 40 50 3 U R D BWD009 87.51 87.52 JOU 87 238 3 U D BWD009 87.97 87.98 JOD 83 56 3 U S D BWD009 88.15 88.16 JOD 3 130 3 P R PY PYRITE CRYSTALS FORMING ON THE FRACTURE SURFACE D BWD009 89.29 89.3 SBO 64 65 3 U D BWD009 89.4 89.41 JOD 72 60 3 P SL PY D BWD009 89.5 89.51 JOD 17 252 3 I R CAL D BWD009 89.71 89.72 JOD 58 330 3 U R D BWD009 89.92 89.93 JOD 15 274 3 P R D BWD009 91.29 91.3 JOD 24 18 3 U R D BWD009 91.48 91.49 ZVQ 24 18 3 P QZ D BWD009 91.57 91.58 JOD 77 241 3 P S CAL D BWD009 91.83 91.84 SBO 68 55 3 U D BWD009 92.24 92.25 SBO 69 53 3 P D BWD009 92.4 92.41 JOD 85 230 3 P SL D BWD009 92.52 92.53 JOD 21 32 3 U R D BWD009 92.61 92.62 JOD 10 42 3 P S D BWD009 93.14 93.15 ZVQ 84 353 3 U QZ D BWD009 93.69 93.7 JOD 50 75 3 U S D BWD009 94.1 94.11 ZVQ 24 282 3 U QZ D BWD009 94.2 94.21 JOD 21 32 3 I R D BWD009 94.74 94.75 SBO 88 10 3 U S GR D BWD009 94.82 94.83 JOD 63 101 3 U S PY D BWD009 94.93 94.94 JOD 70 47 3 U S CAL D BWD009 95.1 95.11 YGB 3 U SEDIMENTS FINING IN THE UPWARDS DIRECTION D BWD009 95.4 95.41 JOD 55 45 3 P S D BWD009 95.6 95.61 SBO 77 61 3 U D BWD009 95.87 95.88 JOD 18 305 3 U S CAL D BWD009 96.2 96.21 ZVQ 27 317 3 I QZ D BWD009 96.63 96.64 YGB 3 D SEDIMENTS FINING IN THE DOWNWARDS DIRECTION D BWD009 96.68 96.69 ZVS 69 34 3 U PY D BWD009 97.18 97.19 SBO 45 42 3 U D BWD009 97.42 97.43 ZVQ 19 324 3 P QZ D BWD009 97.97 97.98 SBO 60 48 3 P D BWD009 98.12 98.13 ZVQ 23 298 3 I QZ D BWD009 98.2 98.21 JOD 75 42 3 U S D BWD009 98.42 98.43 JOD 60 350 3 P S APY D BWD009 98.75 98.76 JOD 21 52 3 I S D BWD009 98.8 98.81 ZVS 64 33 3 I PY D BWD009 98.83 98.84 JOD 90 34 3 I PY D BWD009 99.07 99.08 SBO 85 35 3 D BWD009 99.85 99.86 ZVQS 55 42 3 I MASSIVE QZ VEIN 37 CM THICK WITH SULPHITES FORMING ON EITHER SIDE OF THE CONTACTS D BWD009 100.23 100.24 JOD 25 339 3 P S D BWD009 100.36 100.37 JOD 8 355 3 U R D BWD009 100.47 100.48 JOD 30 351 3 P R D BWD009 101 101.01 JOD 20 152 3 P R CAL APY D BWD009 101.18 101.19 JOD 60 46 3 P S CAL PY D BWD009 101.3 101.31 JOD 47 52 3 P S CAL D BWD009 101.47 101.48 JOD 30 93 3 P R CAL D BWD009 101.72 101.73 JOD 65 21 3 U S PY CAL D BWD009 102.57 102.58 JOD 85 42 3 P S D BWD009 102.9 102.91 JOD 80 222 3 U CAL D BWD009 103.28 103.29 JOD 71 62 3 P R CAL D BWD009 103.54 103.55 SBO 57 57 3 D BWD009 103.82 103.83 JOD 34 83 3 P R D BWD009 103.9 103.91 JOD 39 90 3 P S D BWD009 106.15 106.16 SBO 40 10 3 P NEED TO CONVERT FROM HERE ON D BWD009 107.9 107.91 JOD 40 225 3 P S D BWD009 108.15 108.16 JOD 45 190 3 P S CL CARB D BWD009 109.2 109.21 JOD 45 290 3 P S CAL PY D BWD009 109.5 109.51 SBO 62 10 3 P D BWD009 111.08 111.09 JOD 81 0 3 P S D BWD009 111.6 111.61 SBO 87 5 3 P D BWD009 112.5 112.51 JOD 67 225 3 P S CL D BWD009 115.2 115.21 ZVQ 62 330 1 P QZ INFERRED OFF BEDDING CAUTION NEEDED D BWD009 116.8 116.81 JOD 58 15 3 P S SERI D BWD009 117.4 117.41 ZVC 62 155 3 P S CAL D BWD009 117.7 117.71 SBO 54 355 3 P D BWD009 118.3 118.31 JOD 54 250 3 P S CAL D BWD009 118.8 118.81 ZVQ 79 200 3 P QZ PY D BWD009 119.5 119.51 SBO 62 0 3 P U D BWD009 120.15 120.16 ZVC 61 310 3 P CAL QZ INTERNAL BRECCIA TEXTURE. 1CM WIDE VEIN D BWD009 121.07 121.08 SBO 62 20 3 P U D BWD009 121.08 121.09 ZFSS 71 320 3 P CAL S D BWD009 121.37 121.38 JOD 56 20 3 P S CL CAL D BWD009 122.09 122.1 JOD 86 170 3 P S CL CAL D BWD009 122.15 122.16 SBO 37 340 3 P U D BWD009 122.72 122.73 JOD 64 30 3 P S CAL D BWD009 122.8 122.81 JOU 43 45 3 P CL POSSIBLE CLEAVAGE????? D BWD009 122.9 122.91 JOD 62 190 3 P S CAL CL D BWD009 123.56 123.57 JOD 64 340 3 P S CAL APY D BWD009 123.57 123.58 LIS 86 3 P S 120DEG LINEATIONS D BWD009 124.08 124.09 ZVC 54 270 3 U CAL QZ D BWD009 124.32 124.33 ZVQ 56 320 3 QZ CAL D BWD009 124.63 124.64 ZVC 57 345 3 P CAL D BWD009 124.9 124.91 SBO 90 10 3 P D BWD009 125.06 125.07 JOD 42 200 3 U R PY D BWD009 125.8 125.81 SBO 56 330 3 SOFT SED DEFORMATION SLUMP/FLAME D BWD009 127.05 127.06 ZVQ 56 170 3 P QZ CL 0.5CM DISPLACEMENT. CHLORITE ALONG CENTRE LINE D BWD009 127.45 127.46 SBO 83 30 3 P U D BWD009 127.47 127.48 SBO 73 20 3 P D BWD009 127.62 127.63 JOD 75 0 3 P S CAL CL D BWD009 128.6 128.61 ZVC 57 330 3 P CAL CL D BWD009 128.7 128.71 SBO 57 10 3 P D BWD009 129.62 129.63 JOD 12 240 3 P CAL D BWD009 129.77 129.78 SBO 54 0 3 P D BWD009 130.35 130.36 JOD 62 270 3 P R D BWD009 130.47 130.48 SBO 77 10 3 P D BWD009 131.9 131.91 SBO 55 5 3 P U D BWD009 132.6 132.61 JOD 54 230 3 P D BWD009 132.85 132.86 ZVC 72 10 3 P S CAL D BWD009 133.91 133.92 JOD 79 40 3 P S CAL D BWD009 134.72 134.73 JOD 62 160 3 P S CAL CL D BWD009 135.41 135.42 JOD 56 170 3 P S CAL APY D BWD009 136.08 136.09 SBO 87 350 3 P D BWD009 136.27 136.28 JOD 83 340 3 P S CL PY D BWD009 136.88 136.89 JOU 56 10 3 P D BWD009 137.15 137.16 SBO 85 U D BWD009 137.34 137.35 SBO 58 350 3 P D BWD009 137.58 137.59 ZVQS 73 350 3 P QZ APY D BWD009 139.18 139.19 JOD 77 350 3 P CL CLAY D BWD009 139.9 139.91 ZVC 60 0 3 P CAL PY D BWD009 140.83 140.84 JOD 65 135 3 I R D BWD009 141.53 141.54 ZVC 78 120 3 U CAL D BWD009 142.37 142.38 JOD 51 250 3 P S CAL CL D BWD009 143.36 143.37 JOD 53 240 3 P S PY D BWD009 143.56 143.57 SBO 45 10 3 P D BWD009 144.27 144.28 ZVC 51 130 3 U CAL D BWD009 144.75 144.76 JOD 21 90 3 I CAL PY D BWD009 147 147.01 ZFX 82 I CLAY CONJUGATE FAULTS D BWD009 147.36 147.37 ZFX 44 I CLAY D BWD009 149.45 149.46 ZVQ 39 350 3 P QZ D BWD009 149.68 149.69 JOD 40 90 3 P S CAL APY D BWD009 150.25 150.26 JOD 65 20 3 P S CAL PY D BWD009 151.25 151.26 SBO 88 10 3 P D BWD009 152.18 152.19 SBO 51 0 3 P D BWD009 152.61 152.62 ZVC 55 350 3 P CAL QZ D BWD009 153.12 153.13 SBO 50 350 3 P D BWD009 153.94 153.95 SBO 55 70 3 P D BWD009 154.74 154.75 ZVQS 45 350 3 P PY QZ D BWD009 155.3 155.31 JOD 70 0 3 P S CL PY D BWD009 156.79 156.8 JOD 58 0 3 P D BWD009 157.47 157.48 SBO 85 350 3 P D BWD009 158.36 158.37 ZVQS 78 0 3 P QZ PY D BWD009 158.65 158.66 JOD 11 340 3 P R CAL D BWD009 159.47 159.48 ZVQS 78 340 3 P D BWD009 159.96 159.97 SBO 52 0 3 U D BWD009 160.29 160.3 JOD 66 40 3 P S CAL CL D BWD009 160.72 160.73 JOD 75 180 3 P CAL APY D BWD009 161.12 161.13 ZVQ 58 160 3 P QZ CARB D BWD009 162.72 162.73 JOD 39 240 3 P R PY CAL D BWD009 163.05 163.06 JOD 40 10 3 P S CL PY D BWD009 165.5 165.51 SBO 82 10 3 P D BWD009 165.8 165.81 JOD 35 195 3 U R CAL D BWD009 166.4 166.41 ZVC 80 345 3 P CAL PY D BWD009 167.05 167.06 JOD 15 255 3 P S CAL CL D BWD009 168.1 168.11 JOD 8 180 3 P S CAL D BWD009 168.9 168.91 JOD 88 10 3 P S CAL CL D BWD009 169.45 169.46 ZVC 47 200 3 P CAL D BWD009 169.5 169.51 JOD 70 215 3 P S CAL D BWD009 171.2 171.21 SBO 89 20 3 P D BWD009 173.02 173.03 ZVQ 71 0 P QZ PY D BWD009 173.4 173.41 ZFG 46 0 1 P S CLAY CL 1CM WIDE !!!CAUTION!!! ORI LINE INFERRED OFF BEDDING TREAT WITH CAUTION D BWD009 173.8 173.81 ZVQ 64 20 1 QZ INFERRED ORI LINE !!!CAUTION!!! D BWD009 173.95 173.96 SBO 76 0 P D BWD009 176.35 176.36 SBO 63 0 D BWD009 176.5 176.51 JOD 71 0 U S CL CAL D BWD009 180.12 180.13 ZFG 88 225 3 P S CLAY CL NOT ALL GOUGE 3CM WIDE STRUCTURE D BWD009 182.75 182.76 SBO 74 10 3 P D BWD009 183.55 183.56 ZVC 75 0 3 P CAL D BWD009 185.1 185.11 JOD 71 20 3 P S D BWD009 185.35 185.36 JOD 70 300 3 P S CAL CL D BWD009 186.2 186.21 SBO 59 345 3 P D BWD009 188.33 188.34 JOD 77 140 3 P S CL D BWD009 191.7 191.71 SBO 67 350 3 P D BWD009 196.3 196.31 JOD 67 290 3 U S CL D BWD009 197.15 197.16 ZVQ 67 170 3 p QZ D BWD009 197.2 197.21 JOD 76 30 3 P R D BWD009 197.55 197.56 ZVC 17 95 3 P CAL SUB MM THICK VEINS WITH 2MM LIGHT/MED GREY SELVAGES D BWD009 199.4 199.41 JOD 85 0 P S D BWD009 200.1 200.11 JOD 21 0 P S D BWD009 201.45 201.46 SBO 87 0 3 P D BWD009 204.24 204.25 ZFX 69 0 3 P CAL CL UNUSUAL WELDED MOSAIC BX WITH CALCITE INFILL NOT A MAJOR STRUCTURE LOOKS BIGGER THAN WHAT IT IS D BWD009 205.3 205.31 SBO 85 10 3 P D BWD009 207.7 207.71 SBO 90 10 3 P D BWD009 207.95 207.96 JOD 54 15 3 P S D BWD009 210.6 210.61 SBO 28 15 3 P OFFSET BY THIN CALCITE VEINLETS D BWD009 212.9 212.91 SBO 59 0 3 P U D BWD009 215.75 215.76 SBO 22 5 3 P D BWD009 215.8 215.81 ZVQ 49 5 3 P QZ CL BEDDING PARALLEL VEIN 1CM WIDE D BWD009 217.3 217.31 JOD 52 190 3 P S CL CAL D BWD009 220.4 220.41 ZVC 40 170 3 P CAL CL 2MM WIDE WITH SMEAR OF CHLORITE ALONG CENTRE LINE. 1CM WIDE SUBTLE SELVAGE D BWD009 225 225.01 SBO 37 40 3 P D BWD009 226.55 226.56 ZVC 28 230 3 P CAL D BWD009 228.95 228.96 ZVQ 26 35 3 P QZ CL 3CM WIDE ALSO CONTAINS PY APPEARS LAMINATED D BWD009 232.15 232.16 JOD 76 25 3 P D BWD009 233.1 233.11 SBO 62 50 3 P D BWD009 235.85 235.86 JOD 55 204 3 P S CL CAL D BWD009 237.1 237.11 JOD 11 187 3 P S CL D BWD009 238 238.01 SBO 11 55 3 P D BWD009 239.05 239.06 ZVC 22 54 3 P CAL D BWD009 240.45 240.46 SBO 88 66 3 P D BWD009 240.6 240.61 SBO 59 47 3 P D BWD009 240.63 240.64 JOD 68 63 3 P S CL D BWD009 241.1 241.11 JOD 83 47 3 P S CL D BWD009 242 242.01 JOD 66 14 3 P S D BWD009 243.95 243.96 SBO 60 52 3 P D BWD009 244.45 244.46 ZVC 58 59 3 P CAL D BWD009 245.15 245.16 SBO 20 47 3 P D BWD009 245.9 245.91 JOD 6 350 3 U CL D BWD009 248.7 248.71 ZVC 75 55 3 P CAL 1CM WIDE D BWD009 248.8 248.81 JOD 84 355 3 U S CL CAL D SLICKS PRESENT INDICATING DEXT MOVEMENT D BWD009 250.15 250.16 ZVC 49 295 3 CAL CALCITE VEIN CLUSTER D BWD009 250.9 250.91 SBO 69 29 3 P D BWD009 251.3 251.31 JOD 79 305 3 P S CL D BWD009 252.08 252.09 ZFO 62 47 3 P P GR WELDED AND VERY SUBTLE. MAYBE BECAUSE IT'S BLACK COLOUR AND SOLID. TREAT WITH CAUTION. 4CM WIDE BUT VERY SOLID. AT CORE RUN BREAK SO SOMETHING MIGHT HAVE WASHED/GROUND AWAY D BWD009 253.15 253.16 ZVQ 70 66 3 P QZ PY 2CM WIDE D BWD009 253.6 253.61 JOD 77 206 3 P S GR D BWD009 253.7 253.71 JOD 65 63 3 P P GR D BWD009 253.75 253.76 ZVQ 26 55 3 P QZ D BWD009 254.5 254.51 SBO 75 47 3 P D BWD009 255.9 255.91 JOD 60 27 D BWD009 256.1 256.11 JOD 57 343 3 P S CL CAL D BWD009 257.15 257.16 SBO 75 59 3 P D BWD009 257.7 257.71 SBO 17 59 3 P D BWD009 257.75 257.76 JOD 64 24 3 P S CL D BWD009 258.7 258.71 JOD 57 30 3 P S CL D BWD009 258.85 258.86 JOD 52 47 3 P S CL D BWD009 259.25 259.26 SBO 78 51 3 P D BWD009 262 262.01 SBO 61 53 3 P PY CL SULPHIDE BED D BWD009 262.05 262.06 JOD 64 108 3 P S CL PY GAMMA 30 LEFT D BWD009 263.2 263.21 SBO 32 63 3 P D BWD009 267.55 267.56 JOD 61 314 3 P S CL D BWD009 267.8 267.81 JOD 40 19 3 P S CL D BWD009 269.05 269.06 SBO 21 61 3 P U D BWD009 269.95 269.96 SBO 54 74 3 P D BWD009 272.3 272.31 SBO 72 21 3 P D BWD009 272.37 272.38 ZVC 79 26 3 P D BWD009 273.15 273.16 ZVQ 62 52 3 P QZ PY D BWD009 273.5 273.51 SBO 56 57 3 P D BWD009 273.68 273.69 JOD 87 5 3 P D BWD009 274.85 274.86 SFC 83 47 3 P PORPHYROBLASTS DEFINING POSSIBLE CLEAVAGE? D BWD009 274.9 274.91 SBO 56 57 3 P D BWD009 276.15 276.16 JOD 85 205 3 P S CL CAL D BWD009 276.3 276.31 JOD 58 325 3 P S CL D BWD009 276.35 276.36 SFC 77 256 3 P D BWD009 276.85 276.86 SBO 73 0 3 P D BWD009 277 277.01 ZVQ 60 61 3 P QZ PY 15CM WIDE QZ WIDE D BWD009 278 278.01 SBO 65 63 3 P D BWD009 278.6 278.61 JOD 78 227 3 P S CL PY D BWD009 279.5 279.51 SBO 51 78 3 P D BWD009 281.2 281.21 ZVQ 53 84 3 P QZ PY D BWD009 281.85 281.86 ZVQ 45 67 3 P QZ PY D BWD009 283.2 283.21 SBO 51 78 3 P D BWD009 283.5 283.51 JOD 21 308 3 P S CL D BWD009 283.75 283.76 ZVQ 82 36 3 P QZ PY 16CM WIDE VEIN D BWD009 284.2 284.21 SBO 44 84 3 P U SERICITE?-CARBONATE? ALT BED D BWD009 284.6 284.61 ZVQ 39 79 3 P QZ PY VERY UNUSUAL BEDDING PARALLEL VEIN SUGARY TEXTURE WITH TRACE SPHALERITE D BWD009 284.9 284.91 SBO 40 87 3 P D BWD009 286.2 286.21 ZVQ 65 63 3 P QZ PY D BWD009 288.2 288.21 SBO 88 257 3 P VERY WEIRD TEXTURE. VERY SOLID CORE. WEIRD ALTERATION???? D BWD009 289.3 289.31 SBO 51 77 3 P D BWD009 294 294.01 ZVQ 55 82 3 P QZ PY 2CM WIDE D BWD009 296.5 296.51 ZFX 50 0 P CLAY CL 1-2 WIDE COMPOSED OF FINE GRAINED CHLORITE D BWD009 296.9 296.91 ZRO 55 0 U CL 10CM WIDE FRACTURE ZONE D BWD009 297.1 297.11 ZFX 45 0 U CL CLAY 3CM WIDE ALMOST A CATACLASITE D BWD009 298.2 298.21 ZRO 70 0 P CL CLAY 40CM WIDE FRACTURE ZONE. 1CM CLAY-CHLORITE ON FOOTWALL D BWD009 299 299.01 JOD 58 16 3 P S CL D BWD009 302.1 302.11 SBO 85 191 3 P D BWD009 303.4 303.41 JOD 78 10 3 P CL D BWD009 306.3 306.31 ZVQ 11 6 3 P QZ 0.5MM WIDE D BWD009 306.35 306.36 ZVC 78 10 3 P CAL D BWD009 306.5 306.51 SBO 52 40 3 P D BWD009 307.8 307.81 JOD 66 93 3 P CL D BWD009 308.7 308.71 ZVC 75 78 3 P CAL D BWD009 310.25 310.26 JOD 58 358 3 P S CL D BWD009 312.05 312.06 SBO 39 132 3 P D BWD009 314.8 314.81 ZFX 40 0 U S CL SUBTLE AND NOT VERY PRONOUNCED OR WIDE 20CM ZONE OF FRACTURING D BWD009 315.3 315.31 ZRO 82 347 3 U S CL PERHAPS SOME ALINGMENT AS ABOVE?? D BWD009 318.2 318.21 ZVC 35 310 3 CAL NEEDS CALCS DONE FROM HERE D BWD009 318.85 318.86 SBO 80 325 3 D BWD009 319 319.01 JOD 15 280 3 P S CL CAL D BWD009 319.2 319.21 ZVQ 88 340 3 QZ THIS AND NEXT RECORD SAME STRUCTURE HINGE OF FOLDED VEIN? D BWD009 319.25 319.26 ZVQ 47 160 3 QZ D BWD009 319.55 319.56 SBO 8 330 3 P D BWD009 321.9 321.91 SBO 70 90 3 P D BWD009 323.7 323.71 SBO 46 220 3 U D BWD009 323.95 323.96 ZVS 89 125 3 P PY 3MM WIDE D BWD009 324.6 324.61 SBO 71 120 3 P D BWD009 327 327.01 ZFX 76 140 3 P S CL CLAY 2CM WIDE D BWD009 328.7 328.71 SBO 64 120 3 P D BWD009 329.35 329.36 ZRO 63 310 3 P S CL FRACT ZONE 10CM WIDE D BWD009 330.75 330.76 ZVQ 71 335 3 P QZ PY 1CM WIDE D BWD009 331.2 331.21 SBO 88 130 3 P D BWD009 331.85 331.86 ZRO 74 320 3 U S CL FISSILE FRACTURES D BWD009 335.3 335.31 ZVQ 75 0 QZ PY HANG WALL CONTACT OF VEIN D BWD009 336.8 336.81 ZVQ 59 0 U QZ PY FOOT WALL VEIN CONTACT D BWD009 338.1 338.11 SBO 71 0 P D BWD009 339 339.01 ZRO 70 0 U FRACTURE ZONE 10CM WIDE D BWD009 342.6 342.61 ZFX 77 0 U CL CLAY DOWN HOLE INTERCEPT OF 80CM. SOME INTACT CORE (WELDED) D BWD009 345.2 345.21 SBO 67 289 3 P D BWD009 346.25 346.26 ZVQ 67 66 3 P QZ PY 2CM WIDE D BWD009 348.75 348.76 ZVQ 67 24 3 P QZ PY D BWD009 349.55 349.56 SBO 76 51 3 P D BWD009 350.25 350.26 JOD 17 352 3 P SL CL CAL D BWD009 351.55 351.56 JOD 85 39 3 P S CL PY D BWD009 351.7 351.71 ZVC 21 102 3 P CAL 2MM WIDE D BWD009 354.4 354.41 ZVQ 87 246 3 P QZ D BWD009 357.75 357.76 ZVQ 69 29 3 P QZ PY D BWD009 359.7 359.71 ZVQ 85 0 P QZ D BWD009 360 360.01 ZRO 90 0 U CL FRACT ZONE 30CM WIDE D BWD009 363.5 363.51 SBO 54 0 P NOT SURE D BWD009 364.2 364.21 ZFX 28 0 P CL REL INTACT WITH A LOT OF SOLID CORE INBETWEEN. FISSILE 1CM BANDS AT BOTH CONTACTS. 20CM DH WIDTH D BWD009 364.8 364.81 ZRO 59 0 U CL 20CM WIDE FRACT ZONE D BWD009 366.5 366.51 JOD 22 345 3 P CL D BWD009 368.4 368.41 ZVQ 49 25 3 P QZ D BWD009 370.45 370.46 JOD 52 0 P SL CL D BWD009 372.3 372.31 JOD 37 211 3 P S CL PY D BWD009 372.4 372.41 ZVQ 40 20 3 P QZ PY D BWD009 372.55 372.56 ZVQ 28 63 3 P QZ PY D BWD009 373.95 373.96 ZVQ 26 51 3 P QZ PY D BWD009 374.55 374.56 JOD 76 98 3 P CL D BWD009 376 376.01 ZVQ 62 20 3 P QZ PY D BWD009 376.65 376.66 ZVQ 55 46 3 P QZ PY D BWD009 378.1 378.11 ZFX 11 32 3 U CL 15CM DOWNHOLE WIDTH. VERY WELDED…COMPLETELY INTACT. POSSIBLE IT'S NOT A FAULT BUT IT IS A BRECCIA D BWD009 378.95 378.96 ZVQ 11 22 3 P QZ ON CONTACT WITH MUDSTONE D BWD009 378.96 378.97 SBO 22 22 3 P I THINK THE VEIN IS BEDDING PARALLEL D BWD009 382.3 382.31 JOD 88 22 3 U R CL PY D BWD009 382.4 382.41 ZVQ 83 29 3 P QZ D BWD009 382.65 382.66 ZVQ 68 51 3 U QZ D BWD009 382.8 382.81 SCI 59 29 3 U SEDIMENT-DOLERITE CONTACT D BWD009 397.8 397.81 JOD 66 179 3 P SL CL GAMMA 140 SLICKS D BWD009 398.3 398.31 JOD 60 275 3 P R PY CL FLATTENED PY CUBES 5MM D BWD009 407.45 407.46 JOD 58 25 3 P SL CL SLICKS 15 DEG D BWD009 409.3 409.31 IFA 20 45 3 U 3CM DYKE D BWD009 413.25 413.26 JOD 6 210 3 U S CL CAL D BWD009 417.8 417.81 JOD 75 60 3 U S CL D BWD009 419.5 419.51 JOD 84 140 3 U S CL D BWD009 420.9 420.91 JOD 49 60 3 U S CL CAL D BWD009 424.3 424.31 IFA 69 320 3 P APLITE DYKE MAYBE SEPARATES 2 PHASES OF DOLERITE D BWD009 426.75 426.76 JOD 79 165 3 P R D BWD009 433.3 433.31 JOD 62 60 3 P SL CL SLICKS 140DEG D BWD009 433.65 433.66 SCI 70 320 3 P FOOTWALL CONTACT OF DOLERITE TO GREYWACKE D BWD009 434.4 434.41 JOD 77 5 3 P R D BWD009 434.45 434.46 ZVQ 65 275 3 P 5MM VEIN D BWD009 434.95 434.96 JOD 26 15 3 P R D BWD009 435 435.01 SBO 75 59 3 . START OF CONVERSION TO REAL WORLD DIP DIP DIR SSG TO SIO BEDDING D BWD009 435.25 435.26 ZVQ 60 61 3 FOOTWALL OF QZ VEIN D BWD009 436.3 436.31 ZVS 75 199 3 PY 2MM PYRITE VEIN D BWD009 436.32 436.33 ZVS 17 345 3 PY RELATED TO VEIN ABOVE D BWD009 436.6 436.61 SBO 57 195 3 D BWD009 437.98 437.99 ZVQ 64 197 3 QZ CL 6CM VEIN D BWD009 438.3 438.31 SBO 57 75 3 I D BWD009 438.8 438.81 ZVQ 52 197 3 PY QZ 5MM WIDE D BWD009 440.4 440.41 SBO 78 208 2 P D BWD009 440.5 440.51 JOD 61 135 3 P R D BWD009 440.9 440.91 JOD 64 341 3 P R D BWD009 441.3 441.31 JOD 32 167 3 P R D BWD009 442 442.01 SBO 61 172 2 D BWD009 442.3 442.31 JOD 40 180 3 P R D BWD009 445.8 445.81 SBO 21 152 3 P D BWD009 448.5 448.51 JOD 76 321 2 P R D BWD009 448.9 448.91 SBO 62 215 2 P D BWD009 449 449.01 JOD 55 9 2 P S D BWD009 449.9 449.91 SBO 11 165 2 P D BWD009 450.7 450.71 SBO 11 165 2 P D BWD009 451.3 451.31 SBO 22 208 2 P D BWD009 458.3 458.31 ZVQS 88 212 2 P QZ PY D BWD009 459.6 459.61 JOD 83 66 2 P S D BWD009 460.6 460.61 JOD 59 22 2 P S D BWD009 463.2 463.21 JOD 68 328 2 P P D BWD009 467.4 467.41 SBO 66 222 D BWD009 471.35 471.36 JOD 60 350 2 P P D BWD009 473.7 473.71 SBO 58 38 2 P D BWD009 480.8 480.81 JOD 20 287 2 U R D BWD009 482.8 482.81 SBO 6 53 2 P D BWD009 484.1 484.11 ZVQS 75 247 2 P QZ PY D BWD009 486.2 486.21 SBO 84 36 2 U D BWD009 488 488.01 JOD 49 340 2 P S D BWD009 488.05 488.06 JOD 69 243 2 U R D BWD009 493.35 493.36 JOD 79 333 2 P R D BWD009 501.85 501.86 JOD 62 337 2 P R D BWD009 501.86 501.87 JOD 70 112 2 P R D BWD009 503.2 503.21 JOD 77 354 2 P S D BWD009 507.7 507.71 SBO 65 199 3 P D BWD009 510 510.01 JOD 26 302 3 P R D BWD009 512 512.01 JOD 75 336 3 P P D BWD009 512.01 512.02 JOD 60 216 3 P P D BWD009 515 515.01 ZVQS 57 209 3 P QZ PY D BWD009 518.5 518.51 JOD 75 16 3 P R D BWD009 521 521.01 JOD 17 299 3 P S D BWD009 524.3 524.31 JOD 64 118 3 P S D BWD009 527.15 527.16 SBO 57 209 3 P D BWD009 527.16 527.17 JOD 52 343 3 P R D BWD009 529.3 529.31 JOD 78 166 3 P P D BWD009 530.15 530.16 SBO 61 210 3 P D BWD009 535 535.01 ZVQS 64 222 3 P PY QZ D BWD009 535.2 535.21 JOD 32 122 3 P R D BWD009 536.3 536.31 SBO 61 210 3 P D BWD009 536.35 536.36 JOD 40 125 3 P R D BWD009 541.3 541.31 SBO 21 324 3 P D BWD010 19.7 19.71 JOD 50 0 P R GT Sandstone unit more consolidated than surrounding clay zones D BWD010 19.8 19.81 JOD 25 0 U R GT Sandstone unit more consolidated than surrounding clay zones D BWD010 21.4 21.41 JOD 60 0 S S CLAY Clay budding with a thickness of 25cm D BWD010 21.64 21.65 JOD 85 0 U R GT Joint corresponds to the sandstone bedding which is 60cm thick with noticable bedding lineations D BWD010 22.34 22.35 JOD 40 0 U R GT D BWD010 23.7 23.71 JOD 20 0 P S D BWD010 24.76 24.77 JOD 40 0 P S CLAY GT D BWD010 28.76 28.77 YGB 70 0 I S D Younging in a downwards direction from coarser sandstone sediments to finer siltstone grain size D BWD010 29.98 29.99 YGB 70 0 U S D Younging in a downwards direction from coarser sandstone sediments to finer siltstone grain size D BWD010 30.2 30.21 YGB 70 0 U S D Younging in a downwards direction from coarser sandstone sediments to finer siltstone grain size D BWD010 30.3 30.31 JOD 25 0 U R D BWD010 30.4 30.41 YGB 85 0 U S D Younging in a downwards direction from coarser sandstone sediments to finer siltstone grain size D BWD010 31.5 31.51 YGB 75 0 U S D Younging in a downwards direction from coarser sandstone sediments to finer siltstone grain size D BWD010 31.6 31.61 JOD 70 0 P R Fracturing inside a fine grained sedimentary unit in a planar fashion D BWD010 31.65 31.66 YGB 70 0 P S U Younging in a upwards direction D BWD010 31.9 31.91 JOD 30 0 U R D BWD010 32.46 32.47 JOD 17 192 1 S R First orientation line in this whole therefore confidence is somewhat low D BWD010 32.68 32.69 JOD 25 328 1 P S GT Iron oxides forming on the surface of the planar fracture D BWD010 32.83 32.84 JOD 37 18 1 U R D BWD010 32.95 32.96 JOD 39 309 1 S R D BWD010 33.08 33.09 JOD 75 36 1 P S GT Iron oxides forming on the surface of the planar fracture D BWD010 33.33 33.34 JOD 70 37 1 P S GT Iron oxides forming on the surface of the planar fracture D BWD010 33.63 33.64 JOD 54 39 1 P S GT Iron oxides forming on the surface of the planar fracture D BWD010 33.71 33.72 JOD 21 170 1 I R D BWD010 34.58 34.59 JOD 21 52 D BWD010 34.66 34.67 YGB 39 309 2 U S U Younging in the upwards direction from greywacke to siltstone D BWD010 35.03 35.04 JOD 54 36 2 U R D BWD010 35.1 35.11 JOD 53 33 2 I R D BWD010 35.44 35.45 JOD 49 25 2 U R D BWD010 35.47 35.48 JOD 21 32 2 P S Iron oxides forming on the surface of the planar fracture D BWD010 35.71 35.72 JOD 45 41 2 U S D BWD010 35.75 35.76 JOD 50 42 2 U R D BWD010 36.05 36.06 JOD 15 222 2 S R GT HEM Iron oxides forming on the fracture surfaces. Looks like haematite but scratches a rusty colour which indicates that its geothite D BWD010 36.2 36.21 JOD 5 42 2 I R GT GR There is a small layer of black soft crystals that scracth off quite easily in amongst the sedimentary material that looks to be slightly carbonaceous and graphitic D BWD010 36.36 36.37 JOD 6 316 2 P S GT D BWD010 36.5 36.51 JOD 24 66 2 S R Fracture zone is coarse and abbrasive D BWD010 36.74 36.75 JOD 65 42 2 I R D BWD010 36.8 36.81 JOD 80 35 2 S R D BWD010 36.97 36.98 JOD 45 44 2 U R Fracture filling is soft and brittle of a 10ml thickness D BWD010 37.06 37.07 JOD 85 49 2 I R D BWD010 37.18 37.19 JOD 80 49 2 I R GT D BWD010 37.28 37.29 JOD 35 44 2 S R GT Traces of graphitic carbonaceous material D BWD010 37.5 37.51 JOD 52 64 2 I R GR GT Traces of graphitic carbonaceous material D BWD010 37.72 37.73 JOD 34 56 3 I R D BWD010 37.77 37.78 JOD 25 339 3 S R GT D BWD010 37.8 37.81 JOD 27 13 3 I R Boxwork forming on the fracture zones and parallel to the core axis in voids with small beige terminated qtz crystals? D BWD010 37.88 37.89 JOD 54 36 3 I R GR GT D BWD010 37.92 37.93 JOD 27 13 3 U R Shallow voids forming with similar terminated qtz crystals? D BWD010 38.05 38.06 JOD 45 40 3 U S D BWD010 38.08 38.09 JOD 22 60 3 U S D BWD010 38.15 38.16 JOD 88 27 3 I R D BWD010 38.47 38.48 SCS 75 0 U R Coarse sedimentary silicified band no orientation line D BWD010 40.07 40.08 ZVC 22 0 CARB Carbonate infill vein running parallel to the core axis D BWD010 41.49 41.5 JOD 17 77 3 S S D BWD010 41.92 41.93 JOD 43 252 3 S S D BWD010 42.13 42.14 JOD 67 340 3 S S D BWD010 42.27 42.28 JOD 85 26 3 U R D BWD010 42.95 42.96 JOD 79 222 3 U S D BWD010 42.98 42.99 JOD 80 29 3 I S Fracture has some traces of PY coating and is largely of a carbonaceous graphitic material D BWD010 43.08 43.09 JOD 83 5 3 U S D BWD010 43.15 43.16 JOD 38 12 3 I S D BWD010 43.82 43.83 JOD 75 173 3 I S D BWD010 43.83 43.84 JOD 67 222 3 U R D BWD010 43.95 43.96 JOD 70 26 3 U R D BWD010 44.12 44.13 JOD 60 19 3 I R D BWD010 44.16 44.17 SHZ 50 0 U S High stress zone in a fine grained mudstone with obvious shearing D BWD010 44.96 44.97 JOD 70 42 2 U S D BWD010 45.06 45.07 JOD 80 40 2 U S D BWD010 45.13 45.14 JOD 35 47 2 I S D BWD010 45.2 45.21 JOD 84 49 2 P S D BWD010 47.17 47.18 JOD 83 0 U S D BWD010 47.52 47.53 JOD 18 165 2 U R SERI D BWD010 48.07 48.08 JOD 10 72 2 I S D BWD010 48.2 48.21 JOD 13 15 2 I R D BWD010 50.52 50.53 LIO 68 0 P S D BWD010 52.09 52.1 JOD 57 102 2 I S D BWD010 52.2 52.21 JOD 80 79 2 U S D BWD010 52.24 52.25 JOD 30 57 2 U S D BWD010 52.33 52.34 JOD 55 79 2 I R D BWD010 54.1 54.11 JOD 54 136 3 I R D BWD010 54.21 54.22 JOD 55 42 3 I S D BWD010 54.28 54.29 JOD 55 48 3 U S D BWD010 54.34 54.35 JOD 45 42 3 U R D BWD010 54.48 54.49 JOD 26 39 3 P S D BWD010 54.58 54.59 JOD 32 44 3 U S Striations on the fracture surface in a direction of 30 degrees D BWD010 54.72 54.73 JOD 75 155 3 U R D BWD010 55.13 55.14 JOD 15 112 3 U R D BWD010 56.17 56.18 JOD 67 36 3 I R D BWD010 56.66 56.67 JOD 53 222 3 U R D BWD010 57.25 57.26 JOD 49 58 3 U S Fracture service was smooth due to carbonacous graphitc zone D BWD010 57.33 57.34 JOD 26 80 3 P S D BWD010 57.75 57.76 JOD 15 49 3 I S D BWD010 57.8 57.81 SFO 90 3 2 U S D BWD010 58.5 58.51 JOD 21 83 2 P S D BWD010 58.73 58.74 JOD 26 42 2 U S D BWD010 58.83 58.84 JOD 75 246 2 I R D BWD010 58.98 58.99 JOD 71 243 2 P R D BWD010 59.12 59.13 JOD 90 42 2 U R D BWD010 59.3 59.31 JOD 23 232 3 U R D BWD010 59.5 59.51 JOD 77 42 3 I R D BWD010 59.9 59.91 ZVQ 75 298 3 I R QZ 5 Unconformity in the vein that might be due to displacement or in fact the qz alteration took place post deformation D BWD010 60.7 60.71 JOD 72 23 3 U R D BWD010 60.95 60.96 JOD 41 222 3 U R D BWD010 61.1 61.11 JOD 80 24 3 U S D BWD010 62 62.01 ZVQ 30 237 3 I R D BWD010 62.18 62.19 ZVO 13 49 3 I R Undevided lineation/vein with a qz vein running perpendicular to its orientation D BWD010 62.45 62.46 JOD 88 162 3 I R D BWD010 62.55 62.56 ZVQ 63 342 3 U R 5 Relatively conform qtz vein with sulphides forming on the contact of the qtz and sedimentary rock D BWD010 62.72 62.73 JOD 38 27 3 U R D BWD010 63.9 63.91 JOD 76 28 3 I R D BWD010 64.22 64.23 JOD 54 271 3 I R D BWD010 64.4 64.41 JOU 74 213 3 U R D BWD010 65.12 65.13 JOD 65 36 3 U S D BWD010 65.84 65.85 JOU 12 262 3 U R D BWD010 66.1 66.11 JOD 63 63 3 U S D BWD010 66.22 66.23 JOD 80 261 3 U R D BWD010 66.61 66.62 JOD 40 28 3 U S D BWD010 66.68 66.69 JOD 56 5 3 U S D BWD010 66.77 66.78 JOD 75 288 3 U S D BWD010 66.96 66.97 JOD 75 359 3 U S D BWD010 68.17 68.18 SBO 75 0 U S Foliaiton bedding has changed from a coarser grained rock to a more fine grained rock that has squeezed gravity workms in the same orientation as the bedding foliations D BWD010 70 70.01 SFL 20 0 U S Darker bedding laminations are running parallel to the core axis D BWD010 71.9 71.91 ZVQS 55 0 S R QZ PY 10ml qtz vein D BWD010 72.05 72.06 ZVQS 40 0 U R QZ PY Massive qtz vein with sulphide and silica alteration and vein is 20cm thick D BWD010 72.95 72.96 ZVQ 40 0 U R 7 Qtz alteration vein D BWD010 73.6 73.61 ZVQS 75 0 I R QZ PY D BWD010 74.75 74.76 ZVQS 70 0 I R QZ PY Qtz altered veinlet with a major displacement as well as sulphides present in the contact of the qtz and sedimentary rocks as well as disseminated sulphides in the surrounding matrix D BWD010 75.45 75.46 JOU 60 0 U R D BWD010 76.45 76.46 SUD 30 0 U S Finer grained bedding contact that has undivided jointing throughout in various directions D BWD010 77 77.01 JOD 75 0 P S GR D BWD010 77.37 77.38 JOD 45 0 I S GR D BWD010 77.64 77.65 ZVC 55 0 U R CARB D BWD010 78.24 78.25 ZFQDR 50 0 S R 2 Fault of a dextral type?? D BWD010 78.56 78.57 ZVC 55 0 I R CARB D BWD010 78.74 78.75 SBO 60 0 P S GR D BWD010 79.09 79.1 JOD 88 0 P S GR D BWD010 79.21 79.22 ZVC 49 0 U R CARB D BWD010 79.8 79.81 SBO 70 0 P S GR D BWD010 80.72 80.73 ZVC 65 277 2 U R CARB D BWD010 80.87 80.88 JOD 80 38 2 I S D BWD010 80.95 80.96 JOD 75 37 2 U S PY D BWD010 81.1 81.11 JOD 70 37 2 U R CARB D BWD010 81.11 81.12 LIS 45 200 2 CARB Lineations on the fracture surface in the direction of 300 degrees D BWD010 81.23 81.24 ZFQDR 80 0 P S What looks to be another dextral slip/fault on a carbonate vein D BWD010 81.55 81.56 ZVS 74 0 U S PY D BWD010 82.32 82.33 JOD 70 0 P R PY D BWD010 83.5 83.51 ZVS 56 0 U R PY D BWD010 83.65 83.66 ZVC 50 0 P S CARB D BWD010 85 85.01 JOD 40 30 1 I R D BWD010 85.24 85.25 ZVC 52 0 I R CARB D BWD010 86 86.01 JOD 34 302 2 U R PY D BWD010 86.2 86.21 JOD 70 42 2 I R PY CARB D BWD010 86.5 86.51 JOD 41 329 2 P S D BWD010 86.51 86.52 LIS 81 120 D BWD010 86.84 86.85 JOD 51 339 2 P S D BWD010 87.01 87.02 JOD 70 323 2 U S D BWD010 87.33 87.34 ZVC 65 222 2 P S CARB Carbonate vein D BWD010 87.72 87.73 JOD 35 50 2 I S D BWD010 87.9 87.91 ZVC 30 332 2 I R Carbonate vein D BWD010 88.03 88.04 JOD 58 57 2 U S GR CARB D BWD010 88.38 88.39 ZVC 47 0 U S CARB Carbonate vein D BWD010 88.83 88.84 ZVC 81 0 U S CARB PY Carbonate vein D BWD010 92.67 92.68 ZVC 31 0 U R CARB Carbonate vein D BWD010 94.31 94.32 ZVC 49 0 U R CARB Carbonate vein D BWD010 96.23 96.24 ZVC 45 0 I R CARB Carbonate vein runs parallel to the core axis D BWD010 96.75 96.76 ZFQDR 49 30 2 S S QZ 10 Dextral strike slip movement on a small qtz vein D BWD010 97.01 97.02 JOD 85 52 2 I R QZ D BWD010 97.28 97.29 ZVC 50 332 2 U R CARB Carbonate vein forming inside a foliation fracture. Inside the vein there was a slight green tinge amongst the white matrix D BWD010 97.35 97.36 JOD 59 11 2 U S PY GR D BWD010 97.37 97.38 JOD 49 38 2 U S PY CARB Carbonate and pyrite fracture coating on the surface of the fracture D BWD010 97.6 97.61 JOD 50 11 2 I R CARB D BWD010 97.63 97.64 ZVQ 85 25 2 U R QZ PY Qtz vein with patches of sulphides within the vein D BWD010 97.78 97.79 JOD 65 115 2 P R CARB PY Planar fracture surface with carbonate and pyrite fracture coating D BWD010 99.07 99.08 ZVQ 5 40 2 U R QZ PY Qtz vein with patches of sulphides within the vein D BWD010 100.38 100.39 JOD 47 34 2 I R D BWD010 100.61 100.62 JOD 60 38 2 I R D BWD010 100.62 100.63 LIS 70 200 2 Striations on the fracture surface are indicating that they are facing 200 degrees D BWD010 100.63 100.64 ZVQ 40 40 2 U R QZ PY 22mm qtz vein with the same dip and direction as the previous divided joint at 100.61m D BWD010 100.8 100.81 ZVQ 49 42 2 U R QZ PY D BWD010 101.28 101.29 JOD 25 322 3 I R D BWD010 101.5 101.51 JOD 50 222 3 P S CARB D BWD010 101.9 101.91 JOD 43 61 3 P S PY D BWD010 102.5 102.51 JOD 87 42 3 I R D BWD010 104 104.01 JOD 60 37 3 I R D BWD010 104.2 104.21 JOD 50 222 3 U S D BWD010 104.43 104.44 ZVC 11 49 3 U S CARB PY Carbonate vein with traces of sulphide specks D BWD010 105 105.01 JOD 43 178 3 U S PY Pyrite forming on the fracture surfaces D BWD010 105.7 105.71 JOD 31 42 3 P S D BWD010 106.06 106.07 ZVQ 16 27 3 U R QZ PY Ptygmatic folding in a qtz vein with containing specks of sulphides D BWD010 106.56 106.57 JOU 15 104 3 P R CARB Undivided foliation joint containing carbonate D BWD010 106.92 106.93 JOD 72 38 3 U S D BWD010 107.6 107.61 ZVQ 10 40 3 I R QZ Small qtz vein on the contact between a fine and coarser grained sedimentary rock D BWD010 108.1 108.11 ZVQ 36 16 3 P S QZ PY Qtz vein with a patch of sulphides D BWD010 108.43 108.44 SCS 13 27 3 U S Contact between greywacke and siltstone D BWD010 109.26 109.27 ZVQ 48 240 3 P S QZ Qtz vein D BWD010 109.67 109.68 JOD 81 58 3 U R D BWD010 109.76 109.77 JOD 33 22 3 P R D BWD010 109.95 109.96 ZVQ 32 202 3 P S QZ Qtz vein D BWD010 110.58 110.59 JOD 42 222 3 I R D BWD010 110.68 110.69 JOD 55 344 3 P S PY CARB Some sulphides and carbonate forming on the surface of the fracture in patches D BWD010 111.02 111.03 JOD 60 102 3 U R D BWD010 111.27 111.28 JOD 70 33 3 I R D BWD010 111.4 111.41 JOD 44 63 3 U S D BWD010 111.45 111.46 JOD 64 54 3 P S PY D BWD010 111.6 111.61 JOD 45 32 3 P S D BWD010 111.66 111.67 JOD 17 19 3 U R D BWD010 112.28 112.29 JOD 39 61 3 U R QZ Qtz vein cross cutting the fracture surface D BWD010 112.38 112.39 JOD 60 42 3 I R D BWD010 112.6 112.61 JOD 80 42 3 U S D BWD010 112.65 112.66 YGB 85 66 3 U S Up Ptygmatic layering of finer grained sediment into more coarse grained sediment D BWD010 113.1 113.11 JOD 79 33 3 U R D BWD010 113.35 113.36 SCS 54 40 3 U R Contact point between greywacke and siltstone D BWD010 114.18 114.19 ZVQ 81 284 3 U R APY Ptygmatic qtz/sulphide veinlet moving into the coarser grained sedimentary zone D BWD010 114.78 114.79 JOD 55 50 3 U S CARB D BWD010 115.02 115.03 ZVQ 64 38 3 U S QZ PY D BWD010 115.05 115.06 LIS 50 190 3 S R QZ PY Striations found on the fracture surface with carbonates qtz and patches of sulphides D BWD010 115.75 115.76 JOD 60 213 3 I R CARB D BWD010 115.97 115.98 JOD 69 42 3 P R CARB D BWD010 116.08 116.09 JOD 69 29 3 S S D BWD010 116.66 116.67 JOD 75 48 3 U S GR D BWD010 116.74 116.75 ZVC 60 332 3 U S Carbonate vein running sub parallel to the core axis along a foliation cleavage D BWD010 116.81 116.82 JOD 81 39 3 U R CARB D BWD010 117.48 117.49 JOD 50 33 3 P R D BWD010 117.68 117.69 JOD 56 42 3 U R D BWD010 118.24 118.25 JOD 85 42 3 S R Largely stepped joint fracture D BWD010 118.44 118.45 JOD 49 31 3 P S CARB PY D BWD010 118.54 118.55 JOD 47 31 3 P S CARB D BWD010 118.81 118.82 ZVC 45 250 3 U S CARB D BWD010 119.08 119.09 ZVQ 75 42 3 U R QZ PY Massive qtz/sulphide vein about 5cm thick D BWD010 119.2 119.21 JOD 55 21 3 S S D BWD010 119.55 119.56 JOD 75 67 3 P S CARB D BWD010 119.7 119.71 JOD 35 85 3 S S GR D BWD010 119.78 119.79 ZVQ 85 42 3 U S QZ Qtz vein D BWD010 120.05 120.06 JOD 71 35 3 U R CAL D BWD010 120.29 120.3 JOD 60 23 3 S S D BWD010 120.72 120.73 ZVC 64 0 I R Calcium carbonate vein with no orientation so unable to determine true dip and direction D BWD010 121.12 121.13 JOD 45 0 U R CARB D BWD010 121.24 121.25 JOD 60 0 P R D BWD010 121.94 121.95 ZVQ 75 0 U R QZ PY Massive qtz vein with sulphide mineralisation D BWD010 122.5 122.51 ZSO 56 0 High strain zone maybe a result from a fault shear. Broken up fragments and minor weathering D BWD010 123.3 123.31 ZSO 25 0 QZ High strain zone with major weathering and broken fragments D BWD010 123.68 123.69 ZVQ 67 0 U S QZ PY Qtz vein with a joint divided running through the contact between the vein and the sedimentary matrix D BWD010 123.96 123.97 ZVQ 55 0 U R QZ APY Massive qtz vein with arsenopyrite mineralisation D BWD010 124.18 124.19 JOD 75 11 3 I R GR D BWD010 124.45 124.46 ZVQ 80 38 3 I R QZ PY Massive qtz vein with sulphide mineralisation D BWD010 124.81 124.82 JOD 81 33 3 U R CARB PY D BWD010 124.95 124.96 SCS 25 40 3 U R The contact between a carbonaceous mudstone and a siltstone layer D BWD010 125.27 125.28 JOD 70 12 3 P S GR D BWD010 125.57 125.58 JOD 75 193 3 S S GR CARB D BWD010 125.95 125.96 JOD 71 16 3 U S GR D BWD010 126.3 126.31 JOD 60 178 3 U R D BWD010 126.6 126.61 JOD 80 356 3 U R CARB D BWD010 126.8 126.81 ZVQ 55 39 3 U R QZ PY Massive qtz vein with semi-massive sulphide mineralisation of arsenopyrite and pyrite approximately 10cm thick D BWD010 126.9 126.91 JOD 78 42 3 U S GR PY D BWD010 127.36 127.37 ZVS 35 213 3 U R PY APY A thin sulphide vein with traces of what looks to be arsenopyrite D BWD010 127.6 127.61 ZVQ 45 21 3 U R QZ APY A qtz vein with arsenopyrite mineralisation D BWD010 128.26 128.27 ZVQ 55 0 U R QZ Massive qtz vein amongst a graphitic carbonaceous mudstone with multpile qtz veins running in all direction through several minor undivided fractures D BWD010 128.8 128.81 ZSO 65 GR QZ Extremely high stress zone resulting highly fractured and broken up rubble zone D BWD010 128.9 128.91 ZVC 44 0 U R CARB Brecciated carbonate vein inside a high strain zone amongst graphitic carbonaceous material D BWD010 129.3 129.31 JOD 38 36 2 U S GR D BWD010 129.5 129.51 JOD 76 352 2 I R D BWD010 129.95 129.96 ZVQ 25 0 I S QZ PY I cm thick qtz vein with sulpides presemt in the form of patches D BWD010 130.65 130.66 JOD 59 88 3 P S CARB D BWD010 131.05 131.06 JOD 48 23 3 P R D BWD010 131.15 131.16 JOD 56 184 3 I R PY CARB Very irregular and rough fracture surface with a coarse grained matrix and traces of calium carbonate crystalisation as well as traces of sulphides in small fracture voids D BWD010 131.37 131.38 JOD 75 42 3 U S GR D BWD010 131.54 131.55 LIS 58 280 3 CARB Striations in a direction of 280 degrees mag D BWD010 132 132.01 JOD 40 42 3 P S GR D BWD010 132.01 132.02 LIS 38 190 3 Striations in a direction of 180 degrees mag D BWD010 132.24 132.25 ZVQ 63 39 3 U R QZ PY 2.5cm thick qtz vein with sulphide mineralisation inside the cleavages of the qtz vein D BWD010 132.6 132.61 JOD 52 47 3 U R PY D BWD010 132.95 132.96 JOD 68 47 3 U S D BWD010 133.1 133.11 JOD 60 58 3 U R CARB D BWD010 133.22 133.23 JOD 52 8 3 U S PY CARB D BWD010 133.23 133.24 LIS 55 200 Striations in a direction of 200 degrees mag D BWD010 133.67 133.68 JOD 37 351 3 U S D BWD010 133.95 133.96 JOD 34 50 3 U R CARB D BWD010 134.13 134.14 JOD 90 84 3 P S CARB D BWD010 134.14 134.15 LIS 280 Striations in a direction of 280 degrees mag D BWD010 134.23 134.24 JOD 56 85 3 U S D BWD010 134.75 134.76 ZVQ 75 251 3 P S QZ PY Qtz veinlet running sub-parallel to the core axis with a consistent planar dip D BWD010 134.8 134.81 JOD 58 54 3 U R QZ PY Dark milky opaque silica alteredmatrix D BWD010 134.88 134.89 JOD 40 19 3 U R PY GR Dark milky opaque silica alteredmatrix D BWD010 134.99 135 JOD 38 2 3 U S PY CARB Dark milky opaque silica alteredmatrix sulphide forming on the contact between a qtz vein let and fracture service D BWD010 135.47 135.48 JOD 63 68 3 I S GR D BWD010 135.7 135.71 JOD 52 64 3 S R GR D BWD010 135.81 135.82 JOD 68 5 3 U S D BWD010 136.08 136.09 JOD 60 42 3 I S CARB D BWD010 136.38 136.39 JOD 52 54 3 I S CARB D BWD010 136.96 136.97 JOD 55 39 3 P S CARB Patches of carbonate coating on the fracture surface D BWD010 137.13 137.14 LIS 37 200 3 P S Subtle striations in the direction of 200 degrees D BWD010 137.27 137.28 JOD 34 48 3 I S Carbonate veinlets cross cutting the joint surface D BWD010 137.5 137.51 SFO 90 353 3 P S Secondary surface foliation undivided D BWD010 138.24 138.25 ZVC 90 34 3 P S CARB D BWD011 12.23 12.24 ZRO 80 C R CLAY Fracture zone plus rock flour D BWD011 13.15 13.16 ZVQ 50 P QZ CL INTERNALLY BX'D D BWD011 20.45 20.46 ZRO 65 P R CLAY Fracture zone plus rock flour D BWD011 27.4 27.41 JT 55 P R D BWD011 29.6 29.61 JT 20 P R FEOX D BWD011 31.85 31.86 ZRO 35 P R CLAY 20mm wide plus rock flour D BWD011 34.05 34.06 JT 40 P R FEOX D BWD011 36.5 36.51 JT 5 C R FEOX Subparallel to LCA D BWD011 39.5 39.51 JT 35 P R FEOX D BWD011 42.1 42.11 SBO 65 P BEDDING PLANE SILT/MUD TO SANDSTONE CONTACT D BWD011 42.65 42.66 JT 40 P R FEOX D BWD011 43.3 43.31 IOO 70 40MM DYKE???? OR VEIN???? WITH A 10MM ALT SELVAGE D BWD011 43.7 43.71 JT 40 P R FEOX JT SET D BWD011 44.6 44.61 SBO 70 P D BWD011 45.8 45.81 ZVC 20 P R CARB CARB INFILLING FAULT??? MINOR STOCKWORK ON FOOTWALL D BWD011 46.2 46.21 ZRO 55 C R CARB RUBBLY FRACTURE ZONE WITH CARB INFILL 50MM WIDE D BWD011 46.6 46.61 ZVC 45 P CARB SET OF VEINS 46.6 TO 49 ASS WITH JT SET D BWD011 49 49.01 JT 70 P JT SET D BWD011 51 51.01 JT 50 P S JT SET D BWD011 58.8 58.81 SBO 75 P TYPICAL CONTACT D BWD011 66 66.01 jt 25 P R D BWD011 72.5 72.51 JT 40 P S D BWD011 76.18 76.19 ZVQS 70 QZ PY ONCE HAD CARBONATE BUT IT HAS BEEN STRIPED AWAY D BWD011 77.8 77.81 SBO 65 typical contact D BWD011 79.9 79.91 JT 25 P R D BWD011 81.5 81.51 SBO 70 P D BWD011 85.6 85.61 LIM 40 UNK PORPHYROBLASTS LINEATION D BWD011 85.8 85.81 JT 55 P S D BWD011 85.85 85.86 ZVO 55 UNK PY 4MM VEINS OF UNKNOWN HARD MINERAL D BWD011 86.15 86.16 JT 65 P S D BWD011 88.3 88.31 SBO 70 P D BWD011 90.6 90.61 JT 10 C R CARB D BWD011 99.85 99.86 SBO 70 P TYPICAL CONTACT D BWD011 102.8 102.81 JT 15 P R CARB D BWD011 104.5 104.51 ZVQ 70 QZ CL D BWD011 107.35 107.36 SBO 60 D BWD011 107.9 107.91 ZVQ 35 QZ SAME ALPHA AS NEARBY JTS D BWD011 109.5 109.51 JT 35 P R CAL D BWD011 111.35 111.36 ZVQ 65 QZ PY D BWD011 112.5 112.51 ZVC 30 CAL DISPLACES QVN D BWD011 114.9 114.91 ZVQ 30 QZ D BWD011 118.6 118.61 ZVQ 80 QZ CL QV CONTAINS PY &PO D BWD011 122.9 122.91 ZVQ 70 QZ PY D BWD011 125.2 125.21 ZVQ 70 QZ CL D BWD011 127.5 127.51 ZVQ 80 QZ PY D BWD011 128.5 128.51 JT 40 P S D BWD011 130.1 130.11 JT 50 C S CL D BWD011 130.12 130.13 ZRO 25 P S CLAY CL SMALL FAULT? 1MM WIDE D BWD011 130.55 130.56 ZVQ 70 P QZ CL GRAPHITE VEIN 40MM IN FOOTWALL. NOT PURE GRAPHITE D BWD011 132.4 132.41 ZFX 75 P S CLAY UNK 20MM WIDE UNK=ROCK FRAGS + FLOUR D BWD011 133.05 133.06 ZVQ 80 C S CL 30MM WIDE VEIN D BWD011 133.5 133.51 JT 55 P S CL D BWD011 135 135.01 JT 25 P S CL D BWD011 135.6 135.61 ZVC 35 P S CAL CL CALCITE VEIN AND JOINT D BWD011 136.1 136.11 JT 45 P P CL GR GREASYBACK D BWD011 137.6 137.61 ZVQ 35 P QZ CAL SERIES OF MICRO VEINS CONTAINING TR PY D BWD011 137.8 137.81 SBO 85 BEDDING BASICALLY FLAT D BWD011 140.05 140.06 ZVC 87 CAL CL 3MM WIDE D BWD011 140.2 140.21 SBO 87 P BEDDING BASICALLY FLAT D BWD011 141.5 141.51 ZVQ 45 P QZ CAL 5MM BLEACHED ALT SELVAGE D BWD011 142.6 142.61 JT 40 P R CAL D BWD011 143.95 143.96 ZVQ 50 QZ CL WORMY LOOKING VEIN LIKE DUCTILE DEFORMED? ODD D BWD011 144.35 144.36 ZRO 85 CL UNK FRACTURE ZONE OR WHERE AN OFFSIDER HAS BELTED THE CORE TO REMOVE THE CATCHER. UNK=FRAGS + FLOUR D BWD011 144.5 144.51 ZVQ 60 QZ PY 1MM CLAY-CHLORITE BAND ON FOOTWALL D BWD011 145.2 145.21 ZRO CL ASS WITH 10CM CORE LOSS. MAYBE 20-30CM WIDE ZONE OF VERY BROKEN CORE FRACTURE ZONE MORE THAN A FAULT BX D BWD011 146.7 146.71 JT 30 P S CL D BWD011 147.05 147.06 JT 45 P S CL D BWD011 147.2 147.21 ZVQ 45 QZ CAL 2MM WIDE CHLORITE+CALCITE ON MARGINS X-CUT BY LATER QZ-CAL-CHLORITE VEINS D BWD011 147.3 147.31 ZVQ 30 QZ CL X-CUT BY MICRO VEINS OF QZ-CHLORITE-CAL? WITH 5MM BLEACHED SELVAGES D BWD011 148.2 148.21 ZVQ 40 QZ CL D BWD011 148.62 148.63 SBO 80 YOUNGING UPHOLE D BWD011 148.7 148.71 ZVQ 70 QZ APY 10MM QZ VEINS D BWD011 150 150.01 ZRO 5 C R CAL CL D BWD011 152.4 152.41 SBO 80 D BWD011 153.5 153.51 ZVQ 55 QZ PY CUT ACROSS BEDDING D BWD011 154 154.01 SBO 70 D BWD011 156.25 156.26 JT 40 P R CL D BWD011 156.8 156.81 ZVQ 70 QZ PY D BWD011 158.7 158.71 ZVC 30 CAL BLEACHED 5MM UNIFORM SELVAGES D BWD011 158.9 158.91 ZVC 60 CAL BLEACHED 5MM UNIFORM SELVAGES CONJUGATE TO THOSE ABOVE THESE VEINS HAVE BEEN SLIGHTLY DISPLACE BY THOSE ABOVE INDICATING THESE ARE EARLIER? D BWD011 159.6 159.61 JT 35 P S CL D BWD011 160.45 160.46 ZVQ 45 QZ PY D BWD011 162.2 162.21 SBO 65 D BWD011 162.3 162.31 ZVC 35 CAL CCP OPEN SPACE VEIN POSSIBLE CHALCOPYRITE BLEBS IN VEIN??? WELL HEALED BX ON FOOTWALL. VEIN IS 30MM WIDE D BWD011 163 163.01 ZVC 45 CAL D BWD011 163.05 163.06 ZVC 45 CAL FORMS CONJUGATE SET TO ONE ABOVE OTHERWISE IDENTICAL VEINS D BWD011 163.6 163.61 SBO 70 YOUNGING UP HOLE D BWD011 164.7 164.71 ZVC 65 CAL BEDDING PARALLEL VEIN 20MM WIDE D BWD011 165.9 165.91 JT 35 P S CL D BWD011 166 166.01 JT 35 P S CL CONJUGATE WITH ABOVE D BWD011 167.55 167.56 SBO 55 P D BWD011 168.1 168.11 ZVQ 85 QZ 3MM WIDE D BWD011 168.27 168.28 SBO 60 D BWD011 168.33 168.34 ZVQ 80 QZ PY D BWD011 168.36 168.37 ZVC 45 CAL OPEN SPACE CALCITE VEIN 10MM WIDE D BWD011 169.6 169.61 JT 40 P S D BWD011 170.7 170.71 SBO 50 P SILT-SAND CONTACT D BWD011 171.5 171.51 JT 35 P S CL CAL D BWD011 171.92 171.93 ZVQ 80 D BWD011 172.8 172.81 JT 40 P S CL CAL D BWD011 173.9 173.91 SBO 50 P SILT TO SAND CONTACT FROM START TO HERE ALL DIP IS ALPHA-*******IMPORTANT***** D BWD011 175.36 175.37 ZVC 64 50 3 CAL D BWD011 175.55 175.56 JT 56 119 3 P S CL D BWD011 176.2 176.21 JT 6 226 3 P S CL D BWD011 176.5 176.51 ZVC 89 38 3 CAL D BWD011 176.7 176.71 SBO 89 42 3 D BWD011 176.9 176.91 JT 81 218 3 P S CL D BWD011 177.5 177.51 ZVQ 7 138 3 D BWD011 178.4 178.41 SBO 89 42 3 D BWD011 178.7 178.71 ZVC 89 53 3 QZ D BWD011 179.3 179.31 SBO 89 39 3 D BWD011 179.45 179.46 JT 87 215 3 P S CL D BWD011 180.5 180.51 JT 4 46 3 P S D BWD011 181.05 181.06 ZVC 89 46 3 CAL D BWD011 182.15 182.16 ZVQ 9 170 3 QZ D BWD011 182.9 182.91 JT 52 130 3 P S D BWD011 183.1 183.11 JT 90 11 3 P S D BWD011 184.7 184.71 ZVQ 19 78 3 QZ D BWD011 185.5 185.51 SBO 74 203 3 D BWD011 185.9 185.91 ZVQ 19 164 3 QZ D BWD011 186.1 186.11 ZVQ 51 64 3 QZ D BWD011 186.35 186.36 ZVQ 39 47 3 QZ D BWD011 191.4 191.41 ZVQ 70 0 QZ ALPHA ONLY FOR HERE TO 194.3 D BWD011 192.8 192.81 ZVQ 75 0 QZ D BWD011 194.15 194.16 SBO 20 0 D BWD011 194.3 194.31 JT 20 0 P S D BWD011 196.7 196.71 JT 17 113 2 P S D BWD011 197.5 197.51 JT 50 0 P S ALPHA ONLY FROM HERE TO 212.05 D BWD011 198.2 198.21 ZFX 55 0 CLAY UNK MAJOR STRUCTRE DOWN HOLE INTERCEPT 198.2-199.0 UNK=FRAGS + FLOUR D BWD011 199.9 199.91 ZRO 50 0 CLAY UNK UNK=FRAGS + FLOUR D BWD011 202 202.01 ZVQ 50 0 D BWD011 205 205.01 ZVQ 60 0 QZ D BWD011 205.6 205.61 JT 70 0 P S CL D BWD011 208.65 208.66 ZFX 0 GR 10CM WIDE IN GRAPHITE MIGHT BE A FRACTURE ZONE D BWD011 210.6 210.61 JT 30 0 P S CL D BWD011 210.8 210.81 JT 65 0 P S D BWD011 212.05 212.06 ZFX 50 0 CLAY UNK MAJOR STRUCTURE FROM 212.05 TO 213 M DH. UNK=FLOUR + FRAGS D BWD011 214.3 214.31 ZVQ 55 245 3 NEEDS CALCULATING ONCE YOU GET SURVEYS -BOOK GOT WET D BWD011 214.9 214.91 JT 45 145 3 D BWD011 214.95 214.96 JT 65 130 3 P S D BWD011 215.85 215.86 ZVC 35 110 3 CAL D BWD011 216.2 216.21 SBO 25 335 3 D BWD011 217.2 217.21 JT 55 320 3 P S D BWD011 219.5 219.51 ZVQ 15 180 3 QZ D BWD011 219.55 219.56 JT 35 110 3 P S D BWD011 219.6 219.61 JT 25 240 3 P S D BWD011 220.5 220.51 JT 35 10 3 P S D BWD011 221.3 221.31 JT 55 190 P S CL D BWD011 221.8 221.81 ZVQ 70 340 D BWD011 222.3 222.31 ZVQ 50 15 D BWD011 222.45 222.46 SBO 40 350 D BWD011 222.6 222.61 JT 15 160 P S CL D BWD011 223.9 223.91 ZVC 75 290 CAL SHEETED CAL VEINLETS D BWD011 224.4 224.41 JT 40 340 S S CL D BWD011 224.5 224.51 ZVC 20 200 D BWD011 225.7 225.71 JT 50 95 P S CL D BWD011 226.05 226.06 ZVC 65 260 D BWD011 226.2 226.21 JT 65 40 P R D BWD011 226.4 226.41 SBO 10 220 D BWD011 227.3 227.31 ZVQ 70 30 D BWD011 227.4 227.41 ZVQ 25 320 D BWD011 227.55 227.56 ZVQ 85 310 HARD TO GET BETA D BWD011 227.6 227.61 ZVQ 55 340 D BWD011 228.05 228.06 ZVQ 15 210 D BWD011 228.3 228.31 ZVQ 60 250 D BWD011 229.1 229.11 JT 35 170 P S D SLICKS 170 D BWD011 229.9 229.91 SBO 25 350 D BWD011 230.2 230.21 JT 40 110 D BWD011 230.85 230.86 JT 35 340 D BWD011 231.1 231.11 JT 10 0 P R CAL D BWD011 232.1 232.11 JT 35 105 P R D BWD011 233.5 233.51 JT 55 140 D BWD011 234.9 234.91 JT 45 65 P S CL D BWD011 236.3 236.31 ZVC 30 0 CAL QZ D BWD011 236.4 236.41 JT 35 305 P R CAL D BWD011 237.45 237.46 ZVQ 35 350 D BWD011 237.9 237.91 JT 35 95 D BWD011 240.6 240.61 JT 35 75 P R CAL D BWD011 240.9 240.91 JT 75 250 P R D BWD011 241.1 241.11 JT 55 290 P S CL D BWD011 243.3 243.31 SFO 55 FOLIATION OR BEDDING??? D BWD011 246.8 246.81 JT 35 P P CL D BWD011 248.1 248.11 JT 65 110 D BWD011 249.3 249.31 JT 25 190 P S CL D BWD011 249.7 249.71 SBO 25 185 D BWD011 249.85 249.86 ZVQ 15 180 FOOTWALL VEIN ORI MAJOR QZ VEIN D BWD011 250.9 250.91 ZRO 25 CL 10CM WIDE FRACTURE ZONE-FOLIATED D BWD011 251.5 251.51 SBO 25 165 3 D BWD011 251.9 251.91 JT 30 90 3 P S CL D BWD011 253.15 253.16 SBO 25 165 3 D BWD011 253.9 253.91 ZVC 35 75 3 CAL D BWD011 254.25 254.26 ZVC 40 210 3 D BWD011 255.3 255.31 ZFX 50 65 3 CAL CL WELL HEALED BX 3-4CM WIDE D BWD011 255.8 255.81 ZVC 60 10 3 CAL D BWD011 257.55 257.56 JT 50 80 P S D BWD011 258 258.01 SBO 25 D BWD011 258.25 258.26 ZVQ 30 BEDDING PARALLEL HANGING WALL CONTAINS 20CM OF VERY FRACTURED WEAK ROCK D BWD011 260.85 260.86 SBO 25 D BWD011 261.6 261.61 JT 35 P S CL D BWD011 262.4 262.41 ZVC 40 0 2 CAL D BWD011 262.45 262.46 ZVC 40 0 CAL D BWD011 262.85 262.86 ZVC 35 70 2 D BWD011 262.9 262.91 ZVC 35 70 D BWD011 263.85 263.86 JT 50 300 P S CL D BWD011 289 289.01 SBO 62 88 3 D BWD011 300 300.01 SBO 59 59 3 D BWD012 50.28 50.29 JOD 24 150 2 P R D BWD012 52.6 52.61 JOD 70 114 2 P R D BWD012 59 59.01 JOD 16 34 2 P R D BWD012 63.8 63.81 JOD 30 118 2 P R D BWD012 65.75 65.76 JOD 16 19 3 P R D BWD012 68.75 68.76 JOD 88 54 3 P R D BWD012 69.15 69.16 JOD 89 328 3 P R D BWD012 72.54 72.55 JOD 45 118 2 P R D BWD012 72.57 72.58 JOD 75 266 2 P R D BWD012 79 79.01 JOD 27 54 2 P R PY D BWD012 86.3 86.31 JOD 63 50 2 P S D BWD012 87.45 87.46 SBO 74 214 2 P D BWD012 111 111.01 JOD 27 323 2 P S D BWD012 111.1 111.11 JOD 81 28 2 P S D BWD012 117.9 117.91 JOD 63 199 2 P S D BWD012 140.8 140.81 SBO 52 197 2 P D BWD012 141 141.01 JOD 71 44 2 P S D BWD012 142.3 142.31 JOD 55 204 2 P S D BWD012 143.4 143.41 ZVQS 67 50 2 P PY GN 10MM WIDE D BWD012 149.5 149.51 JOD 77 10 2 P R D BWD012 163.5 163.51 JOD 33 95 2 P R D BWD012 163.55 163.56 JOD 67 255 2 P R D BWD012 167.2 167.21 JOD 88 224 2 P S D BWD012 168.05 168.06 JOD 47 236 2 P S D BWD012 173 173.01 ZVQS 70 275 2 P PY APY 50MM WIDE D BWD012 174 174.01 JOD 70 29 2 P R D BWD012 180.85 180.86 SBO 65 34 2 P D POSSIBLY YOUNGIN DOWNHOLE RIP UP CLASTS PRESENT D BWD012 183.4 183.41 JOD 88 83 2 P R D BWD012 183.5 183.51 JOD 44 238 2 P R D BWD012 188.89 188.9 SBO 87 45 2 U D LOAD CASTS - YOUNGING DOWNHOLE D BWD012 189.7 189.71 JOD 85 212 2 P R D BWD012 191.05 191.06 JOD 37 160 2 P R D BWD012 191.15 191.16 SBO 67 8 2 U D BWD012 192.7 192.71 JOD 64 185 2 P S D BWD012 193.5 193.51 SBO 64 30 2 U D LOAD CASTS - YOUNGING DOWNHOLE D BWD012 194.15 194.16 ZVQS 81 234 2 U QZ PY D BWD012 195.7 195.71 JOD 76 262 2 S R PY D BWD012 197 197.01 ZVQS 59 30 2 P PO 5MM WIDE D BWD012 200.5 200.51 JOD 89 229 2 P R D BWD012 207.6 207.61 SBO 66 51 2 P D BWD012 216.4 216.41 SBO 65 46 2 P D BWD012 216.85 216.86 JOD 16 358 2 P S D BWD012 219.9 219.91 SBO 66 51 2 P D BWD012 220.9 220.91 JOD 54 239 2 P R D BWD012 221 221.01 JOD 49 137 2 P S D BWD012 223.05 223.06 SBO 79 25 2 P D BWD012 224.2 224.21 JOD 69 111 2 P S D BWD012 227.25 227.26 ZVQS 23 243 2 P PY 250MM WIDE D BWD012 232 232.01 JOD 79 34 2 P R D BWD012 235.1 235.11 SBO 69 40 2 P D BWD012 237 237.01 JOD 55 262 2 P R D BWD012 237.01 237.02 JOD 25 161 2 P R D BWD012 239.2 239.21 JOD 52 132 2 P R D BWD012 240 240.01 SBO 78 38 2 U D FLAME STRUCTURES AND LOAD CASTS - YOUNGING DOWNHOLE D BWD012 241.8 241.81 JOD 61 256 2 P R D BWD012 244 244.01 JOD 89 45 2 P S D BWD012 244.15 244.16 JOD 78 210 2 P R D BWD012 244.95 244.96 JOD 59 265 2 P R D BWD012 247.3 247.31 SBO 67 35 2 P D BWD012 248.25 248.26 JOD 72 30 2 P R D BWD012 248.6 248.61 JOD 68 264 2 P R D BWD012 250 250.01 ZVQS 68 40 3 P PY PO 150MM THICK D BWD012 250.9 250.91 SBO 84 46 3 P D BWD012 252.26 252.27 JOD 84 177 3 P S D BWD012 254.9 254.91 JOD 63 40 3 P R D BWD012 260.65 260.66 SBO 64 46 3 U D LOAD CASTS AND FLAME STRUCTURES INDICATE YOUNGING DOWNHOLE D BWD012 261.9 261.91 JOD 15 260 3 P S D BWD012 265.25 265.26 JOD 30 70 3 P R D BWD012 271 271.01 JOD 81 241 3 P R D BWD012 271.85 271.86 SBO 71 40 3 P D BWD012 278 278.01 JOD 40 189 3 P R D BWD012 279.65 279.66 JOD 25 329 3 P R CARB D BWD012 281.35 281.36 JOD 72 261 3 P S D BWD012 283 283.01 SBO 70 25 3 P D BWD012 289.7 289.71 SBO 81 38 3 U D LOAD CASTS AND FLAME STRUCTURES D BWD012 293.55 293.56 JOD 46 134 2 P R D BWD012 299.6 299.61 SBO 77 28 2 P D BWD012 301.6 301.61 SBO 74 50 2 P D BWD012 304.75 304.76 JOD 2 32 2 P R D BWD012 308.15 308.16 JOD 87 205 3 P R D BWD012 309.3 309.31 JOD 82 32 2 P D BWD012 312.05 312.06 JOD 78 19 2 P S D BWD012 314.8 314.81 JOD 79 1 3 P S D BWD012 315.05 315.06 SBO 67 27 3 P D BWD012 317.55 317.56 JOD 80 147 3 P R D BWD012 318.6 318.61 JOD 13 12 3 P S D BWD012 320 320.01 JOD 90 337 3 P R D BWD012 323.05 323.06 SBO 68 42 3 P D BWD012 326.1 326.11 SBO 68 42 3 P D BWD012 329.25 329.26 JOD 17 32 3 P S D BWD012 329.9 329.91 SBO 70 67 3 U D FLAME STRUCTURES AND LOAD CASTS INDICATE YOUNGING DOWNHOLE D BWD012 330.6 330.61 JOD 79 48 3 P S D BWD012 334.5 334.51 SBO 64 48 2 P D BWD012 335.3 335.31 JOD 11 341 2 P S D BWD013 44 44.01 JOD 77 253 2 P R D BWD013 44.3 44.31 JOD 43 132 2 P R D BWD013 50.85 50.86 JOD 71 342 2 P R D BWD013 50.85 50.86 JOD 39 119 2 P R D BWD013 51.8 51.81 ZVQS 80 83 2 P QZ PY 10MM THICK D BWD013 62 62.01 JOD 74 182 2 P S D BWD013 62.05 62.06 JOD 61 214 2 P S D BWD013 68.3 68.31 JOD 77 7 2 P R D BWD013 68.65 68.66 ZVQS 3 30 2 P QZ PY 30MM THICK D BWD013 71.55 71.56 JOD 20 136 2 P R D BWD013 73.8 73.81 JOD 72 161 2 P R D BWD013 74.6 74.61 JOD 34 179 2 P R D BWD013 75.05 75.06 JOD 60 47 2 P R D BWD013 79.5 79.51 JOD 68 192 2 P R D BWD013 83.2 83.21 JOD 54 89 2 P S D BWD013 83.9 83.91 SBO 32 171 2 U D BWD013 84.8 84.81 JOD 66 176 2 P R D BWD013 89.1 89.11 ZVQS 26 243 2 U QZ PY D BWD013 89.65 89.66 SBO 50 219 2 P D BWD013 95.1 95.11 JOD 80 7 2 P R D BWD013 100.6 100.61 SBO 58 206 2 U U LOADCASTS INDICATE YOUNGING UPHOLE D BWD013 103 103.01 JOD 23 340 2 S S D BWD013 103.4 103.41 JOD 56 199 2 P R D BWD013 104.15 104.16 SBO 61 198 2 P D BWD013 104.4 104.41 JOD 74 63 2 P R D BWD013 106.15 106.16 JOD 25 101 2 P R D BWD013 108.2 108.21 JOD 87 25 2 P R D BWD013 108.85 108.86 JOD 52 311 2 P R D BWD013 109.5 109.51 JOD 18 44 2 P R D BWD013 111.1 111.11 JOD 63 211 2 P R D BWD013 111.5 111.51 JOD 41 77 2 P R D BWD013 114.9 114.91 JOD 83 37 2 P R D BWD013 116.5 116.51 JOD 37 137 2 P R D BWD013 116.6 116.61 JOD 90 48 2 P R D BWD013 132.6 132.61 JOD 42 327 2 P R D BWD013 135.25 135.26 JOD 67 221 2 P R CARB D BWD013 135.55 135.56 JOD 59 129 2 P R CARB D BWD013 137.9 137.91 JOD 44 133 2 P R D BWD013 138.7 138.71 JOD 86 37 2 P R D BWD013 143 143.01 JOD 9 86 2 P R D BWD013 144.7 144.71 JOD 86 37 2 P R D BWD013 150.8 150.81 JOD 73 134 2 P R D BWD013 152.45 152.46 JOD 69 131 2 P R D BWD013 153.76 153.77 JOD 77 8 2 P R D BWD013 155.35 155.36 ZVC 80 126 2 P CARB D BWD013 160.25 160.26 JOD 41 319 2 P R D BWD013 166.3 166.31 JOD 21 127 2 P R D BWD013 167.85 167.86 JOD 38 313 2 P R D BWD013 172 172.01 JOD 28 336 2 P R D BWD013 173.1 173.11 JOD 15 270 2 P R D BWD013 179.75 179.76 SBO 42 198 2 U D BWD013 180.45 180.46 JOD 53 285 2 P R D BWD013 182.05 182.06 SBO 41 167 2 P D BWD013 182.3 182.31 JOD 63 180 2 P R D BWD013 183.1 183.11 JOD 79 27 2 P R D BWD013 183.65 183.66 JOD 37 183 2 P R D BWD013 184.15 184.16 JOU 80 333 2 P PY 40 D BWD013 184.4 184.41 SBO 36 175 2 S OFFSET BY FRACTURE D BWD013 190.3 190.31 ZVQS 61 235 2 QZ PY 35CM WIDDE D BWD013 190.45 190.46 JOD 71 50 2 P R D BWD013 193.7 193.71 JOD 36 184 2 P R D BWD013 193.8 193.81 JOD 82 250 2 P R D BWD013 193.95 193.96 JOD 62 9 2 P S D BWD013 194.15 194.16 SBO 42 182 2 P D BWD013 202.15 202.16 JOD 82 55 2 P S D BWD013 202.2 202.21 JOD 78 181 2 P R D BWD013 202.75 202.76 JOD 81 253 2 P S D BWD013 203.7 203.71 JOD 89 42 2 P S D BWD013 205.15 205.16 SBO 18 168 2 P D BWD013 208.7 208.71 JOD 76 126 3 P R D BWD013 209.5 209.51 SBO 38 191 3 P D BWD013 209.55 209.56 JOD 87 208 3 P R D BWD013 212.5 212.51 JOD 83 24 3 P S D BWD013 213.35 213.36 SBO 30 168 3 P D BWD013 213.55 213.56 ZVQS 19 118 3 I APY PY 20CM VEIN D BWD013 214.2 214.21 JOD 84 189 3 P S D BWD013 214.55 214.56 JOD 84 56 3 P R D BWD013 219.68 219.69 SBO 15 134 2 P D BWD013 219.7 219.71 JOD 84 227 2 P S D BWD013 220.25 220.26 JOD 59 196 2 P R D BWD013 220.6 220.61 JOD 85 253 2 P R D BWD013 221.15 221.16 SBO 38 114 2 P D BWD013 222 222.01 JOD 74 338 2 P S D BWD013 223.45 223.46 JOD 78 341 2 P R D BWD013 225.2 225.21 SBO 34 157 2 P D BWD013 227.85 227.86 SBO 28 190 2 P D BWD013 228 228.01 JOD 34 307 2 P R D BWD013 236.2 236.21 JOD 77 226 2 P R D BWD013 237.5 237.51 JOD 49 294 2 P R D BWD013 237.7 237.71 ZVQS 71 3 2 P PY 2CM THICK D BWD013 237.75 237.76 JOD 80 7 2 P R D BWD013 247.8 247.81 JOD 80 76 2 P S D BWD013 248 248.01 JOD 82 43 2 P S D BWD013 248.5 248.51 JOD 69 356 2 P R D BWD013 249 249.01 JOD 82 70 2 P R D BWD013 249.15 249.16 JOD 46 245 2 P R D BWD013 249.7 249.71 JOD 64 180 2 P R D BWD013 251 251.01 JOD 40 321 3 P R D BWD013 251.7 251.71 JOD 34 287 3 P R D BWD013 252.6 252.61 SBO 31 32 2 U U LOADCASTS D BWD013 253 253.01 JOD 61 26 2 P S D BWD013 255 255.01 JOD 40 310 2 P R D BWD013 256.25 256.26 JOD 86 28 2 P S D BWD013 259.9 259.91 JOD 71 36 2 P S D BWD013 260.4 260.41 JOD 71 251 2 P R D BWD013 260.5 260.51 JOD 85 9 2 P P D BWD013 261.1 261.11 ZVQS 65 235 2 P PY 2CM THICK D BWD013 261.55 261.56 JOD 77 224 2 P P D BWD013 263 263.01 ZVQS 87 42 2 P PY 13 CM THICK D BWD013 263.1 263.11 JOD 84 51 2 P S D BWD013 264.8 264.81 SBO 4 116 2 P D BWD013 264.8 264.81 JOD 89 208 2 P R D BWD013 267.8 267.81 ZSO 84 28 2 P P GR CLAY MAJOR STRUCTURE ALSO ASSOC WITH ABUNDANT GALENA. THIS IS FOOTWALL MEASUREMENT >1M WIDTH DOWNHOLE D BWD013 268.05 268.06 JOD 55 177 2 P S CL D BWD013 270.5 270.51 SBO 53 74 2 U LOW CONFIDENCE. FLAME STRUCTURES D BWD013 272.7 272.71 ZVQS 68 64 3 U QZ PY THE BIG VEINS ARE WOBBLY AND NOT LINEAR HARD TO GET A STRUCTURAL MEASUREMENT D BWD013 273.3 273.31 ZVQS 70 215 D BWD013 274 274.01 JOD 75 33 3 P P GR D BWD013 274.1 274.11 SBO 58 51 3 P D BWD013 274.3 274.31 ZVQS 90 35 3 P QZ PY D BWD013 275.1 275.11 JOD 19 128 3 P D BWD013 275.3 275.31 ZVQS 76 208 3 P QZ SP LARGE CHUNKS OF SPHALERITE? D BWD013 275.45 275.46 SBO 75 228 3 P D BWD013 276.4 276.41 SBO 65 38 3 P D BWD013 277 277.01 ZVC 53 53 3 P CAL GR GRAPHITE ON CALCITE VEIN MARGIN D BWD013 277.6 277.61 ZVQS 79 53 3 P QZ PY D BWD013 277.7 277.71 JOD 79 53 3 P GR SAME AS VEIN D BWD013 279.3 279.31 SBO 50 41 3 P D BWD013 280.6 280.61 ZVQS 63 287 3 P QZ PY D BWD013 281.7 281.71 JOD 36 321 3 P S D BWD013 283.5 283.51 SBO 72 46 3 P D BWD013 286.5 286.51 SBO 73 51 3 P D BWD013 286.7 286.71 ZVQS 85 39 3 P QZ PY D BWD013 287.1 287.11 ZVQS 86 208 3 P QZ PY D BWD013 287.85 287.86 ZVQS 69 28 3 P QZ PY D BWD013 290.2 290.21 SBO 61 44 3 P D BWD013 291.95 291.96 ZVQS 52 170 3 P APY QZ D BWD013 292.8 292.81 SBO 32 293 3 P D BWD013 293.1 293.11 ZVQS 88 244 3 P QZ PY D BWD013 293.3 293.31 ZVQS 41 224 3 P PY APY D BWD013 293.6 293.61 ZVQS 84 166 3 P QZ PY 40CM WIDE QZ VEIN HANGING WALL CONTACT D BWD013 300.25 300.26 JOD 26 76 3 P S CL D BWD013 302.6 302.61 SBO 75 228 3 P D BWD013 303.5 303.51 ZVQS 70 57 3 P QZ PY D BWD013 304.5 304.51 SBO 75 55 3 P D BWD013 305.5 305.51 ZVQS 89 49 3 P QZ PY D BWD013 306.95 306.96 SBO 75 55 3 P D BWD013 310 310.01 SBO 78 49 3 P D BWD013 311.7 311.71 JOD 1 208 3 P S CAL CL D BWD013 315 315.01 SBO 77 45 3 P S D BWD013 316.75 316.76 ZVC 79 53 3 P CARB PY 2CM WIDE VEIN D BWD013 320.6 320.61 SBO 72 46 3 P D BWD013 323.6 323.61 SBO 73 51 3 P QZ VEIN ON BEDDING PLANE D BWD013 325.4 325.41 ZVQS 76 41 3 P QZ PY 1CM WIDE D BWD013 327.1 327.11 SBO 72 46 3 P D BWD013 328 328.01 ZVQS 72 46 3 P QZ PY VEIN IS A BIT WOBBLY D BWD013 329.7 329.71 SBO 83 47 3 P D BWD013 331.5 331.51 JOD 58 51 3 U S D BWD013 332 332.01 SBO 81 44 3 P D BWD013 336.1 336.11 SBO 77 30 3 p D BWD013 338.9 338.91 ZVQS 16 288 3 P QZ PY 5MM WIDE D BWD013 343.25 343.26 JOD 80 89 3 P S CL D BWD013 344.6 344.61 SBO 72 34 3 P D BWD013 345.8 345.81 ZVQS 44 261 3 P QZ PY D BWD013 346.6 346.61 SBO 77 35 3 P D BWD013 351.25 351.26 ZFX -30 0 P CLAY PY 35CM DOWNHOLE WIDTH. NOT A TRUE BRECCIA AND NOT A SHEAR SORT OF 1/2 WAY BETWEEN. KIND OF INTACT BUT POOR ROCK MASS IN VICINITY D BWD013 353 353.01 ZRO 0 CLAY FRACTURE ZONE MAYBE 5 TO 10CM WIDE D BWD013 354.1 354.11 SBO -40 D BWD013 359.5 359.51 SBO 78 47 3 P D BWD013 361.3 361.31 ZVQS 32 163 3 P QZ PY 5CM DH WIDTH D BWD013 361.7 361.71 SBO 82 42 3 P D BWD013 362 362.01 JOD 80 98 3 P S CL PY D BWD013 362.7 362.71 SBO 79 51 3 P D BWD013 365 365.01 JOD 67 159 3 P S CL D BWD013 366 366.01 ZVQS 77 43 P QZ PY 1CM WIDE BEDDING PARALLEL BEDDING D BWD013 366.1 366.11 ZVQS 63 217 3 P QZ PY 1CM WIDE D BWD013 366.3 366.31 SBO 77 43 3 P D BWD013 367.25 367.26 SBO 87 42 3 P D BWD013 368.7 368.71 ZVQS 35 268 3 P QZ PY 5CM WIDE D BWD013 370.7 370.71 JOD 17 35 3 P CL D BWD013 370.9 370.91 ZVQS 8 1 3 P QZ 3MM WIDE VEIN D BWD013 373.5 373.51 SBO 82 35 3 P D BWD013 373.6 373.61 ZVQ 20 302 3 P QZ CL MILKY QZ. 8CM DH WIDTH D BWD013 375.2 375.21 ZVQ 58 217 3 P QZ 6CM DH WIDTH D BWD013 375.65 375.66 SBO 83 24 3 P D BWD013 376.5 376.51 JOD 86 150 3 P R D BWD013 377 377.01 JOD 80 335 3 P S CL D BWD013 377.3 377.31 ZVQS 12 130 3 P QZ PY 1CM WIDE D BWD013 378.1 378.11 SBO 86 44 3 P D BWD013 382.4 382.41 SBO 82 49 3 P D BWD013 382.41 382.42 ZVQS 82 49 3 P QZ PY 1CM WIDE D BWD013 384.7 384.71 JOD 75 269 3 P S CL D BWD013 384.8 384.81 ZVQS 78 261 3 P QZ PY 1CM WIDE D BWD013 384.9 384.91 ZVQS 76 46 3 P QZ PY 1CM WIDE. SLIGHTLY SUGARY D BWD013 384.91 384.92 SBO 81 31 3 P D BWD013 386.7 386.71 ZVQS 18 270 3 P QZ PY 3MM WIDE D BWD013 387.75 387.76 ZVQS 76 38 3 P QZ PY D BWD013 387.77 387.78 SBO 76 30 3 P D BWD013 390.35 390.36 SBO 88 207 3 P U MED GREYWACKE BED FINING UP HOLE D BWD013 390.95 390.96 ZVQS 16 150 3 P QZ PY D BWD013 391 391.01 JOD 26 265 3 P S CL D BWD013 393.5 393.51 SBO 76 30 3 P D BWD013 398 398.01 ZVQS 76 30 3 P QZ PY 4CM WIDE. LAMINATED D BWD013 401.1 401.11 SBO 81 39 3 P D BWD013 403.6 403.61 ZVQ 14 215 3 P QZ PY 3MM WIDE D BWD013 405.5 405.51 SBO 83 21 3 P D D BWD013 407.6 407.61 SBO 71 44 3 P D BWD013 410.2 410.21 SBO 62 87 3 P D BWD013 411.3 411.31 JOD 14 353 3 P D BWD013 411.95 411.96 ZVC 87 11 3 P CAL D BWD013 416.5 416.51 SBO 76 35 3 P D BWD013 417.15 417.16 SBO 76 35 3 P CL CRD 10CM WIDE ALTERED BED D BWD013 417.2 417.21 SBO 76 35 3 P D BWD013 417.4 417.41 SBO 71 44 3 P D BWD013 418.2 418.21 SBO 76 39 3 P CRD CL 10CM WIDE ALTERED BED D BWD013 418.5 418.51 ZVQ 76 27 3 P QZ PY 2CM WIDE D BWD013 419.55 419.56 SBO 86 29 3 P CRD D CORDIERITE SPOTTED BED D BWD013 422.3 422.31 SBO 78 19 3 P D BWD013 422.4 422.41 JOD 89 143 3 P CL D BWD013 424.1 424.11 SBO 76 35 3 P CRD CL D BWD013 424.5 424.51 SBO 86 41 3 P D BWD013 427.5 427.51 SBO 81 35 3 P D BWD013 430.25 430.26 ZVQ 76 35 3 P QZ CL 1CM WIDE VEIN WITHIN A 25CM ZONE OF VEINING D BWD013 431.3 431.31 JOD 78 166 3 P D BWD013 432.15 432.16 ZVQ 86 38 3 P QZ PY D BWD013 432.45 432.46 SBO 86 38 3 P D BWD013 437.8 437.81 SBO 75 36 3 P D BWD013 440.5 440.51 SBO 80 36 3 P D BWD013 442.35 442.36 SBO 76 44 3 P D BWD013 445.3 445.31 JOD 68 142 3 P CL D BWD013 446.5 446.51 SBO 79 37 3 P D BWD013 449 449.01 JOD 9 107 3 P D BWD013 449.6 449.61 ZVQS 61 89 3 P QZ PY 1CM WIDE D BWD013 450.4 450.41 JOD 24 37 3 P S CAL CL D BWD013 454.05 454.06 SBO 79 44 3 P D D BWD013 458.1 458.11 SBO 85 24 3 P D BWD014 9.2 9.21 ZVQ -75 D BWD014 20.9 20.91 JOD -70 D BWD014 23.5 23.51 JOD -50 D BWD014 27.6 27.61 JOD -25 D BWD014 30.45 30.46 ZVQ -30 FOOTWALL CONTACT OF 4CM QZ VEIN D BWD014 34.1 34.11 JOD -50 D BWD014 38.7 38.71 ZVQ -75 5CM QZ VEIN D BWD014 43 43.01 ZVQ -10 2CM QZ VEIN WITH DARK SELVAGE D BWD014 44.8 44.81 JOD 80 187 2 P R FEOX D BWD014 45.4 45.41 ZVQ 40 255 2 P 5MM WIDE D BWD014 45.7 45.71 ZVQ 78 257 2 P 2MM WIDE D BWD014 46.2 46.21 JOD 54 65 2 P S CL D BWD014 48 48.01 JOD -80 D BWD014 49.9 49.91 ZVQ -60 QZ PY D BWD014 50.1 50.11 ZFX -40 P GR CL INTACT STRUCTURE. CARB ALT COINCIDENTALY? ON HANGING WALL D BWD014 51.95 51.96 JOD 64 166 2 P S CL D BWD014 55.7 55.71 JOD 57 230 2 P S CL D BWD014 55.75 55.76 ZVQ 69 217 2 P D BWD014 56.2 56.21 JOD 68 172 2 P S CL D BWD014 57.5 57.51 ZVQ 53 142 2 P QZ CL D BWD014 57.65 57.66 SBO 64 131 2 GREYWACKE->MUDSTONE BED D BWD014 61.95 61.96 ZVE -25 EP NOT AN EPIDOTE VEIN BUT NOT SURE WHAT TO CALL IT D BWD014 64 64.01 ZFX -40 P CLAY CARB 5CM WIDE REL INTACT D BWD014 64.15 64.16 ZVQ -40 QZ WHITE QZ D BWD014 66.05 66.06 ZVQ 27 131 2 QZ D BWD014 66.5 66.51 JOD 12 69 2 P S CL D BWD014 67.7 67.71 SBO 47 75 D BWD014 70.25 70.26 SBO 42 94 D BWD014 71 71.01 ZVQ 41 137 D BWD014 72 72.01 JOD 82 334 3 P S CL D BWD014 72.2 72.21 ZVQ 47 144 3 QZ D BWD014 75.45 75.46 SBO 40 135 GREYWACKE TO MUDSTONE CONTACT D BWD014 79.65 79.66 JOD 71 246 2 P S D BWD014 81.9 81.91 JOD 45 166 2 U S CL D BWD014 85 85.01 ZVQ 79 201 2 P QZ D BWD014 86.3 86.31 SBO 38 178 2 P SILT TO MUDSTONE CONTACT D BWD014 86.8 86.81 ZFX -30 0 CL 30+ CM DOWNHOLE WIDTH. INTACT CORE D BWD014 88.5 88.51 ZVQ 30 133 2 P QZ PY 20CM WIDE VEIN D BWD014 89.5 89.51 SBO -65 D BWD014 90.2 90.21 SBO 48 161 3 P VERY SUBTLE SO SOME DOUBT D BWD014 90.9 90.91 SCI 80 212 3 SUBTLE D BWD014 92.65 92.66 ZRO 61 298 3 P R CL CAL D BWD014 100.7 100.71 ZVQ 41 180 3 P D BWD014 101.6 101.61 JOD 35 194 3 P S CL D BWD014 105.05 105.06 ZVC 45 166 3 P CAL QZ D BWD014 106.3 106.31 IFO 66 266 3 U KFS 1CM K-FSPAR DYKE D BWD014 110.15 110.16 JOD 87 249 3 P S CL D BWD014 110.4 110.41 IFO 35 212 3 P KFS D BWD014 110.9 110.91 IFO 35 176 3 P KFS D BWD014 111 111.01 JOD 15 212 3 P S CL D BWD014 111.2 111.21 IFO 38 281 3 P D BWD014 112.25 112.26 JOD 63 154 3 P S CL D BWD014 113.4 113.41 JOD 85 40 3 P S CL D BWD014 115.15 115.16 JOD 52 195 3 P S D BWD014 120.3 120.31 JOD 41 269 3 P S CL D BWD014 122 122.01 JOD 46 273 3 P S CL D BWD014 126.7 126.71 JOD 36 118 3 P S CL D BWD014 131.95 131.96 JOD 44 275 3 P S CL D BWD014 132.2 132.21 JOD 51 99 3 P S CL D BWD014 135.7 135.71 JOD 89 224 3 P R CL D BWD014 137.15 137.16 JOD 51 294 3 P S CL D BWD014 140.6 140.61 JOD 88 313 3 P R CL D BWD014 144.65 144.66 JOD 78 293 3 P R CL D BWD014 144.8 144.81 JOD 75 36 3 P R CAL D BWD014 146.5 146.51 ZVC 8 337 3 P CAL D BWD014 154.8 154.81 JOD 42 297 3 P S CL D BWD014 157.25 157.26 ZFG 60 315 3 P S CL 1CM WIDE MORE FISSILE CHLORITE THAN CLAY BUT INFIL STILL SOFT AND RETAINING MOISTURE D BWD014 160.9 160.91 JOD 24 116 3 P S CL D BWD014 163.4 163.41 JOD 85 216 3 P R D BWD014 166.85 166.86 IFA 17 240 3 P VERY FINE GRAINED D BWD014 168.5 168.51 JOD 86 133 3 U SL CL D BWD014 170 170.01 JOD 72 309 3 P SL CL D BWD014 178.5 178.51 JOD 46 158 3 P R CL CAL D BWD014 181.43 181.44 IFA 41 278 3 P 2X APLITE DYKES 1CM WIDE EACH D BWD014 189.5 189.51 JOD 72 274 3 P S CL D BWD014 200.7 200.71 ZVQS 89 229 3 P QZ PY 1.8 M DOWN HOLE WIDTH VEIN. THIS IS HANGING WALL CONTACT D BWD014 202.5 202.51 ZVQS 88 59 3 P QZ PY AS ABOVE THIS IS FOOTWALL CONTACT D BWD014 205.6 205.61 ZVQS 88 59 3 P QZ PY 10CM WIDE. GREY QZ CORE WHITE QZ OUTER D BWD014 205.8 205.81 ZFX 28 180 3 P R CL 2CM WIDE. COARSE SAND INFILL D BWD014 207.1 207.11 JOD 74 167 3 P S CL JT SET D BWD014 207.75 207.76 ZVQ 72 271 3 P QZ D BWD014 208.75 208.76 SBO 27 135 3 P D BWD014 208.8 208.81 JOD 81 46 3 P S CL D BWD014 210.4 210.41 ZVQS 89 63 3 P QZ PY 1.5CM WIDE D BWD014 212.15 212.16 SBO 38 147 3 P D BWD014 213.7 213.71 ZVQS 36 144 3 P QZ PY 1.5CM WIDE D BWD014 213.9 213.91 SBO 30 138 3 P D BWD014 216.3 216.31 ZVQS 77 48 3 P QZ PY D BWD014 216.9 216.91 ZVQS 46 152 3 P PY QZ ALMOST PURE PYRITE 50CM DH WIDTH D BWD014 217.8 217.81 ZVG 54 248 3 P CLAY CL 2CM WIDE D BWD014 218.4 218.41 SBO 24 113 3 P D BWD014 219.85 219.86 ZVQS 81 25 3 P QZ PY D BWD014 220.5 220.51 SBO 27 118 3 P D BWD014 222.85 222.86 SBO 36 75 3 P D BWD014 223.7 223.71 SBO 36 34 3 P APY BED DEFINED BY APY XALS D BWD014 223.95 223.96 ZVQS 85 186 3 P QZ PY 45 CM DH WIDTH. HANGING WALL CONTACT D BWD014 226.25 226.26 SBO 30 110 3 P APY BED DEFINED BY APY XALS D BWD014 226.3 226.31 ZVQS 86 238 3 P QZ PY D BWD014 226.75 226.76 ZVQS 85 186 3 P QZ PY HANGING WALL OF 80CM WIDE DH QZ VEIN D BWD014 227.8 227.81 ZVQS 43 109 3 P QZ PY HANGING WALL OF 2M WIDE QZ VEIN D BWD014 229.8 229.81 ZVQS 36 287 3 P QZ PY FOOTWALL OF VEIN ABOVE D BWD014 230.3 230.31 ZVQS 26 34 3 P QZ APY HANGING WALL OF VEIN D BWD014 232.6 232.61 ZVQS 31 157 3 P QZ PY FOOTWALL OF 1M QZ VEIN D BWD014 232.95 232.96 SBO 29 180 3 U D BWD014 233.9 233.91 ZVQ 64 212 3 P QZ D BWD014 235.8 235.81 ZVQS 36 182 3 P QZ PY D BWD014 237 237.01 ZVQS 76 37 3 P QZ PY D BWD014 238 238.01 SBO 63 159 3 U D BWD014 238.7 238.71 SBO 22 169 3 U D BWD014 239.15 239.16 ZVQ 85 217 3 P QZ D BWD014 239.63 239.64 SBO 33 152 3 P D BWD014 240 240.01 ZVQS 40 168 3 P QZ PY D BWD014 242.4 242.41 YGB U YOUNGING UPWARDS D BWD014 244.1 244.11 ZVQS 25 98 3 P QZ PY D BWD014 244.26 244.27 SBO 40 164 3 P D BWD014 244.53 244.54 SBO 7 168 3 P D BWD014 245.7 245.71 ZVQS 71 278 3 P QZ PY D BWD014 246.9 246.91 SBO 46 152 3 P D BWD014 248.2 248.21 ZVQS 45 178 2 P QZ APY 12CM QZ VEIN WITH EXTENSIVE APY MINERALISATION D BWD014 250.2 250.21 SBO 43 158 3 P D BWD014 250.3 250.31 ZVS 78 73 3 U APY D BWD014 250.5 250.51 SBO 26 154 3 P D BWD014 253.9 253.91 ZVQS 88 230 3 P APY SPH SULFIDE VEIN D BWD014 253.98 253.99 SBO 48 172 3 P D BWD014 255.22 255.23 SBO 48 155 3 P D BWD014 257.05 257.06 ZVQS 60 134 3 P QZ APY D BWD014 257.74 257.75 SBO 43 158 3 P D BWD014 258.62 258.63 ZVQS 68 127 3 U QZ PY D BWD014 259.05 259.06 JOD 78 199 3 P S D BWD014 259.72 259.73 YGB U YOUNGING UPWARDS D BWD014 259.9 259.91 ZVQS 87 51 3 P QZ PY D BWD014 260.37 260.38 ZVQS 40 164 3 U QZ PY D BWD014 262.1 262.11 JOD 19 119 3 P S D BWD014 263.4 263.41 ZVC 86 34 3 P CAL D BWD014 265.67 265.68 SBO 48 163 3 P GREYWACKE-SILTSTONE CONTACT D BWD014 265.9 265.91 JOD 72 258 3 P R APY D BWD014 266.1 266.11 ZVQS 69 188 3 P QZ PY D BWD014 266.15 266.16 JOD 63 175 3 P S D BWD014 266.6 266.61 SBO 41 146 3 P D BWD014 267.75 267.76 ZVS 25 98 3 P APY D BWD014 268.8 268.81 JOD 6 305 3 P R D BWD014 268.9 268.91 SBO 48 172 3 P D BWD014 269.76 269.77 YGB 3 U YOUNGING UPWARDS D BWD014 270.87 270.88 ZVS 70 188 3 I PY MASSIVE SULPIDES OF PYRITE D BWD014 271.05 271.06 ZVS 33 139 3 P PY PYRITIC VEINLET D BWD014 271.22 271.23 ZVQS 30 135 3 P QZ PY 20CM QZ-SULPHIDE VEIN D BWD014 271.6 271.61 JOD 43 158 3 P S PY D BWD014 271.6 271.61 LIS 280 3 P STRIATIONS @ 280 DEGREES D BWD014 272.15 272.16 SBO 22 167 3 U D BWD014 272.88 272.89 ZVS 19 102 3 P PY D BWD014 273.1 273.11 JOD 41 281 3 U R D BWD014 273.26 273.27 JOD 70 214 3 U R D BWD014 274.45 274.46 ZFG 56 164 3 P R GOUGE FILLED WITH CLAY MINERALS D BWD014 274.55 274.56 JOD 56 164 3 P S D BWD014 275.37 275.38 SBO 56 164 3 P D BWD014 275.9 275.91 JOD 70 240 3 P R PY MASSIVE SULPHIDES FORMING ON THE FRACTURE SURFACE D BWD014 277.07 277.08 JOD 49 173 3 P R D BWD014 277.46 277.47 ZVQS 44 141 3 P QZ PY D BWD014 279.33 279.34 ZVQS 83 246 3 P QZ PY D BWD014 280.12 280.13 SBO 36 141 3 P D BWD014 280.82 280.83 ZVQS 67 247 3 U QZ PY D BWD014 281.09 281.1 SBO 46 153 3 P BEDDING CONTACT D BWD014 282.04 282.05 JOD 56 164 3 P R PY CAL D BWD014 282.19 282.2 SBO 49 148 3 U D BWD014 284.73 284.74 SBO 31 197 3 U GW-SILTSTONE BEDDING D BWD014 284.83 284.84 JOD 81 191 3 U R D BWD014 284.9 284.91 SBO 45 169 3 P D BWD014 286 286.01 ZVQS 74 186 3 U QZ PY D BWD014 286.35 286.36 SBO 22 153 3 U D BWD014 287.48 287.49 ZVQS 85 214 3 U QZ PY D BWD014 287.7 287.71 ZVQS 65 34 3 U QZ PY MASSIVE SULPHIDE MINERALISATION D BWD014 291.15 291.16 SBO 30 111 3 U D BWD014 291.33 291.34 ZVQS 85 256 3 U QZ PY QZ VEIN IS SECONDARY TO THE BEDDING IE AT A LATER STAGE AS IT OVER CUTS D BWD014 292.83 292.84 ZVQS 85 24 3 U QZ PY D BWD014 293.26 293.27 SBO 44 141 3 U D BWD014 295.27 295.28 ZFN 77 15 3 I FAULT WITH SOME MINOR GOUGING D BWD014 296.43 296.44 JOD 64 225 3 P R D BWD014 297.41 297.42 JOD 70 188 3 U S D BWD014 299.23 299.24 ZVQS 19 308 3 P QZ PY D BWD014 300.98 300.99 JOD 3 U SL GR D BWD014 302.05 302.06 ZVQS 30 0 U QZ PY NO ORIENTATION LINE D BWD014 303.28 303.29 JOD 10 219 3 P R APY BRECIATED SUB-EUHEDRAL ARSENOPYRITE FRAGMENTS ALONG THE FRACTURE SURFACE D BWD014 304.13 304.14 SBO 63 55 3 P BEDDING CONTACT FROM GREYWACKE TO SIC D BWD014 304.3 304.31 ZVC 7 357 3 P APY SMALL ARSENOPYRITE VEINLET D BWD014 305.1 305.11 SBO 79 190 3 P DISPLACEMENT DUE TO SECONDARY SEDIMENTARY LAYERING D BWD014 305.76 305.77 ZVQS 20 219 3 U QZ PY D BWD014 305.85 305.86 JOD 63 68 3 P S CL CHLORITE STAINING ON THE FRACTURE SURFACE D BWD014 306.5 306.51 ZVQS 0 39 3 U QZ PY D BWD014 306.75 306.76 JOU 71 334 3 U UNDIVIDED JOINT D BWD014 307 307.01 ZVQS 13 295 3 P QZ PY D BWD014 307.7 307.71 SBO 36 173 3 U D BWD014 308 308.01 JOD 15 219 3 P R CAL PY CALCITE FRACTURE COATING AND D BWD014 308.69 308.7 SBO 87 14 3 P D BWD014 308.9 308.91 ZVQS 16 279 3 U QZ PY 15CM QZ-SULPHIDE VEIN D BWD014 309.9 309.91 SBO 56 359 3 U GREYQACKE TO FINE GRAINED SEDIMENTARY ZON WTH A CRENULATED CONTACT D BWD014 310.6 310.61 SBO 80 32 3 I D BWD014 310.71 310.72 ZVQS 15 219 3 P QZ PY D BWD014 310.82 310.83 JOD 46 74 3 I R BEDDING CUTS THROUGH PARALLEL TO THE CORE AXIS D BWD014 311.03 311.04 SBO 89 193 3 I IREGULAR BEDDING CONTACT D BWD014 311.32 311.33 JOD 56 70 3 P R D BWD014 311.68 311.69 ZVQS 38 250 3 U QZ PY D BWD014 312.35 312.36 JOD 25 123 3 P D BWD014 313.17 313.18 ZVQS 13 295 3 U QZ PY D BWD014 315.32 315.33 JOD 42 314 3 P CAL PY D BWD014 315.72 315.73 ZVC 43 295 3 P PY D BWD014 316.08 316.09 SBO 81 349 3 P D BWD014 316.55 316.56 ZVQS 12 181 3 P QZ PY D BWD014 316.84 316.85 ZVQS 24 262 3 P QZ PY D BWD014 317.16 317.17 JOD 76 76 3 P R APY D BWD014 317.38 317.39 JOD 21 242 3 U D BWD014 318.15 318.16 SBO 77 199 3 P DISTINCT CONTACT FROM GREYWACKE TO SILTSTONE D BWD014 319.1 319.11 ZVQ 14 3 3 S QZ 5 DISPLACEMENT FROM A MINOR FRACTURE-FAULT D BWD014 321.6 321.61 ZVQS 20 269 3 U QZ PY D BWD014 322.46 322.47 SBO 20 190 3 P S GR D BWD014 323.05 323.06 ZVQS 8 275 3 U PY QZ MASSIVE SULPHIDE VEIN D BWD014 323.68 323.69 JOD 25 219 3 P SL PY CL SLICKENSIDE FRACTURE SURFACE D BWD014 324.25 324.26 JOD 72 83 3 P R PY D BWD014 325.54 325.55 JOD 15 219 3 P S PY D BWD014 327.18 327.19 ZVQ 72 355 3 U QZ PY D BWD014 327.72 327.73 JOD 68 163 3 P S D BWD014 329.5 329.51 ZVQS 3 I QZ APY 90CM QZ VEIN WITH APY AND PY MINERALISATION- BROKEN UP AND FRACTURED D BWD014 330.45 330.46 JOD 45 308 3 U CAL D BWD014 331.32 331.33 ZVQS 27 304 3 U QZ PY D BWD014 331.71 331.72 ZVQS 27 304 3 U QZ PY 3 QZ-SULPHIDE VEINS ALL WITH DISPLACEMENT OF ABOUT 4MM AND SITUATED 3CM APART FROM EACH OTHER D BWD014 331.9 331.91 SBO 45 202 3 P D BWD014 332.16 332.17 ZVQS 22 349 3 P QZ PY D BWD014 332.62 332.63 JOD 49 301 3 P S D BWD014 333.85 333.86 ZVQ 38 150 3 U QZ APY BRECCIATED SILTSTONE FRAGMENTS IN AROUND THE QZ VEIN MATIRX WITH APY FORMING FRACTURE COATING ON THE FRACTURE SURFACE D BWD014 334.58 334.59 SBO 35 216 3 P QZ CONTACT ZONE BETWEEN SILTSTONE AND A COARSER GRAIN SEDIMENTARY ROCK D BWD014 335.5 335.51 ZFX 3 I CAL QZ HIGH STRESS ZONE WITH MULTIPLE MINOR DISPLACEMENTS WITHIN QZ VEINS AND CARBONATE VEINS D BWD014 335.8 335.81 ZVC 12 178 3 I CAL D BWD014 336.9 336.91 JOD 12 340 3 P S D BWD014 337.4 337.41 JOD 57 220 3 I S D BWD014 338.36 338.37 ZVQS 30 206 3 P QZ APY 10 QZ VEIN WITH 10MM DISPLACEMENT D BWD014 338.56 338.57 SBO 45 216 3 U CONTACT FROM SILTSTONE TO GREYWACKE D BWD014 338.9 338.91 SBO 41 170 3 U SL GR D BWD014 339.14 339.15 ZVQ 12 340 3 S QZ 4 D BWD014 340.22 340.23 ZVQ 8 159 0 D BWD014 342.5 342.51 ZFN 0 I R FAULT ZONE WITH HIGH STRESS DEFORMATION AND EXTENSIVE CARBONATE AND QZ VEINING D BWD014 343 343.01 ZFG 0 I R GOUGE FILLED WITH CLAY MINERALS D BWD014 345.88 345.89 ZVQ 41 261 0 U D BWD014 345.9 345.91 JOD 46 96 0 P S D BWD014 346.4 346.41 JOD 40 3 3 P S D BWD014 346.64 346.65 ZVQ 72 1 3 U QZ D BWD014 346.73 346.74 JOD 68 17 3 P S D BWD014 347.55 347.56 JOU 85 344 3 U D BWD014 347.68 347.69 ZVQ 56 4 3 P D BWD014 348.38 348.39 JOD 16 277 3 P D BWD014 349.8 349.81 ZFN 0 P HIGHLY FRACTURED BUT CONSISTENT IN FRACTURE ORIENTATION ZONE THAT LOOKS TO BE A RESULT FROM A FAULT D BWD014 351.9 351.91 SBO 45 202 3 P CONTACT FROM A SILTSTONE TO A GREYWACKE D BWD014 353.1 353.11 JOD 12 340 3 I R D BWD014 353.3 353.31 ZVQ 75 64 3 U QZ D BWD014 353.59 353.6 JOD 25 311 3 P R D BWD014 353.9 353.91 JOD 49 76 3 I R CAL D BWD014 356.27 356.28 SBO 50 203 3 U CONTACT FROM SILTSTONE TO GREYWACKE D BWD014 356.53 356.54 ZVQS 25 311 3 P QZ APY D BWD014 358.55 358.56 SFO 55 165 3 P FOLIATION BEDDING SLIGHTLY OVERTURNED COMPARED TO ACTUAL BEDDING D BWD014 359.54 359.55 SBO 47 188 3 P D BWD014 360.09 360.1 ZVQS 14 214 3 U QZ PY D BWD014 360.73 360.74 ZVQS 33 248 3 P QZ PY D BWD014 362.8 362.81 SBO 40 198 3 P D BWD014 363 363.01 SBO 46 171 3 P CONTACT BETWEEN SILTSTONE AND GREYWACKE D BWD014 365.6 365.61 ZVQS 5 10 3 P QZ PY D BWD014 367.1 367.11 ZVQS 79 3 3 P QZ PY D BWD014 367.25 367.26 ZVQS 20 214 3 P QZ PY D BWD014 368.35 368.36 SBO 40 206 3 P CONTACT BETWEEN SILTSTONE AND GREYWACKE D BWD014 368.9 368.91 SBO 40 214 3 P CONTACT BETWEEN SILTSTONE BEDDING AND GREYWACKE D BWD014 370 370.01 SBO 34 285 3 P CONTACT BETWEEN SILTSTONE BEDDING AND GREYWACKE D BWD014 370.85 370.86 ZVQS 13 291 3 P QZ PY D BWD014 371.2 371.21 JOD 64 346 3 I R D BWD014 371.75 371.76 ZVQS 5 34 3 P QZ PY D BWD014 372.7 372.71 SFO 40 214 3 P FOLIATION BEDDING D BWD014 373.35 373.36 JOD 30 357 3 I R D BWD014 373.41 373.42 ZVQS 40 214 3 P QZ PY D BWD014 373.8 373.81 SBO 30 214 3 I QZ BEDDING PLANE BETWEEN GREYWACKE AND SILTSTONE WITH A QZ VEIN CROSSCUTTING IT D BWD014 374.85 374.86 JOD 30 319 3 P R D BWD014 375.2 375.21 JOD 28 255 3 U R D BWD014 375.5 375.51 ZVQS 34 288 3 U QZ PY D BWD014 375.84 375.85 JOD 31 63 3 P R D BWD014 376.15 376.16 JOD 29 350 3 U R D BWD014 376.62 376.63 SBO 35 217 3 P SILTSTONE TO GREYWACKE CONTACT D BWD014 377.1 377.11 SBO 40 217 3 U SILTSTONE TO GREYWACKE CONTACT WITH A QZ VEIN CROSSCUTTING THE FOLIATION BEDDING D BWD014 378.29 378.3 JOD 42 75 3 P R D BWD014 378.65 378.66 ZVQS 40 69 3 U QZ PY D BWD014 378.98 378.99 SBO 38 248 3 P D BWD014 379.46 379.47 SBO 42 246 3 U QZ SILTSTONE TO GREYWACKE CONTACT D BWD014 380.39 380.4 SBO 40 217 3 U D BWD014 380.53 380.54 JOD 52 53 3 P R QZ D BWD014 381.25 381.26 JOD 41 103 3 P S SERI CAL D BWD014 381.8 381.81 ZVQS 69 24 3 U QZ PY D BWD014 381.9 381.91 JOD 79 326 3 P S D BWD014 382.6 382.61 SBO 45 217 3 P SILTSTONE TO GREYWACKE CONTACT D BWD014 383.6 383.61 JOD 20 66 3 I R D BWD014 383.7 383.71 YGB 3 U YOUNGING IN THE UPWARDS DIRECTION D BWD014 383.75 383.76 ZVQS 74 50 3 I QZ PY 10 DISPLACEMENT FROM A SECONDARY CROSSCUTTING QZ VEIN D BWD014 384.36 384.37 JOD 20 66 3 U R D BWD014 384.6 384.61 SBO 45 230 3 P MUDSTONE TO GREYWACKE CONTACT D BWD014 385.16 385.17 JOD 51 75 3 U S D BWD014 385.5 385.51 SBO 46 274 3 P GREYWACKE TO SILTSTONE CONTACT D BWD014 385.72 385.73 ZVQ 27 144 3 P QZ D BWD014 386 386.01 ZVQS 33 182 3 U QZ PY 25CM THICK QZ VEIN- SULPHIDE VEIN D BWD014 387.28 387.29 JOD 41 85 3 U R CAL D BWD014 387.9 387.91 ZVQS 44 27 3 U QZ LARGE VUDDY QZ VEIN SEPERATED BY SEDIMENTARY LAYER WITH MASSIVE SULPHIDES FORMING ON THE DOWNHOLE SECTION OF THE VEIN D BWD014 389.72 389.73 JOD 53 107 3 U R D BWD014 391.33 391.34 JOD 46 97 3 U R D BWD014 392.17 392.18 ZVQS 54 24 3 U QZ PY D BWD014 393.23 393.24 ZVQ 64 343 3 U QZ D BWD014 393.36 393.37 JOU 68 8 3 P SILICA ALTERATION AROUND THE FRCTURE SELVAGE D BWD014 393.64 393.65 ZVQS 41 88 3 U PY SP SPHALERITE MINERALISATION INSIDE QZ-SULPHIDE VEIN D BWD014 395 395.01 SBO 36 195 3 U GREYWACKE TO SILTSTONE CONTACT D BWD014 395.47 395.48 JOD 64 2 3 U D BWD014 397.2 397.21 JOD 37 6 3 I R D BWD014 397.47 397.48 JOD 61 84 3 P R D BWD014 398.2 398.21 ZVQS 40 235 3 U QZ PY D BWD014 398.94 398.95 JOD 31 353 3 P R D BWD014 399.5 399.51 JOD 41 88 3 S R D BWD014 399.68 399.69 JOD 71 66 3 P S D BWD014 400.97 400.98 SBO 39 220 3 U GREYWACKE TO SILTSTONE CONTACT D BWD014 401.4 401.41 ZVQS 44 220 3 U QZ PY 10CM THICK QZ-SULPHIDE VEIN D BWD014 402.44 402.45 JOD 19 310 3 P R D BWD014 403.74 403.75 JOD 48 82 3 P R D BWD014 404.56 404.57 SBO 49 134 3 U GREYWACKE TO SILTSTONE BEDDING CONTACT D BWD014 404.67 404.68 ZVQS 42 190 3 U QZ PY D BWD014 407.83 407.84 JOD 24 220 3 P S PLANAR FRACTURE PLANE D BWD014 408.1 408.11 ZVS 44 213 3 P R APY ROUGH CRYSTALLINE SURFACE FORMING ON THE FRACTURE SURFACE AS AN EXPOSED SULPHIDE VEIN D BWD014 408.15 408.16 SBO 44 213 3 P D BWD014 409.75 409.76 SBO 41 197 3 P SILTSTONE TO GREYWACKE CONTACT D BWD014 410.1 410.11 SFO 46 199 3 P SECONDARY SURFACE FOLIATIONS SEEN THROUGHOUT THE BEDDING LAMINATIONS D BWD014 411.49 411.5 SBO 37 188 3 P SILTSTONE TO GREYWACKE CONTACT D BWD014 411.75 411.76 SBO 35 203 3 P SILTSTONE BAND OF ABOUT 2.5CM D BWD014 411.9 411.91 JOD 55 202 3 P D BWD014 412.57 412.58 JOD 60 30 3 P D BWD014 413.25 413.26 JOD 71 46 3 P S D BWD014 414.17 414.18 ZVQS 44 220 3 U QZ PY D BWD014 414.26 414.27 SBO 39 220 3 P SILTSTONE TO GREYWACKE CONTACT D BWD014 414.62 414.63 JOD 37 92 3 I R D BWD014 415.07 415.08 ZVQ 55 48 3 U QZ VUGGY QZ VEIN D BWD014 417.12 417.13 SBO 40 205 3 P 6 SILTSTONE TO GREYWACKE CONTACT D BWD014 419.55 419.56 ZVQ 34 220 3 P QZ D BWD014 419.63 419.64 SBO 34 220 3 I SILTSTONE TO GREYWACKE CONTACT D BWD014 420.16 420.17 ZVQS 84 55 3 P QZ APY SMALL QZ-SULPHIDE VEIN D BWD014 420.3 420.31 JOD 25 317 3 I R D BWD014 421.98 421.99 ZVQS 50 33 3 U QZ PY MASSIVE SULPHIDES FORMING ON THE FRACTURE SURFACE OF THE QZ VEIN D BWD014 422.52 422.53 ZVQ 74 143 3 U QZ QZ VEIN RUNNING SUB-PARALLEL TO THE CORE AXIS D BWD014 422.99 423 JOD 65 310 3 P D BWD014 423.41 423.42 ZVQ 72 104 3 P QZ D BWD014 424.13 424.14 YGB 3 U YOUNGING IN THE UPWARDS DIRECTION D BWD014 424.13 424.14 JOD 60 321 3 P S D BWD014 424.22 424.23 ZVQS 66 40 3 U QZ PY PYRITE FORMING ON THE DOWNWARD CONTACT BETWEEN THE QZ VEIN AND THE GREYWACKE D BWD014 427 427.01 SFO 42 190 3 P FOLIATION LAMINATIONS D BWD014 427.84 427.85 SBO 37 188 3 P D BWD014 428.44 428.45 SBO 50 200 3 U SILTSTONE TO GREYWACKE CONTACT D BWD014 430.16 430.17 JOD 10 198 3 U S D BWD014 430.34 430.35 JOD 68 314 3 P S D BWD014 431.52 431.53 SBO 34 212 3 P SILTSTONE TO GREYWACKE CONTACT D BWD014 432.28 432.29 ZVQ 41 197 3 P QZ CL SERICITE-QZ-CHLORITE VEIN D BWD014 432.74 432.75 ZVQS 55 100 3 P QZ PY D BWD014 433.2 433.21 SBO 69 133 3 P SILTSTONE TO GREYWACKE CONTACT D BWD014 433.82 433.83 JOD 59 104 3 P S D BWD014 434.84 434.85 ZVQS 65 259 3 P QZ APY D BWD014 435.2 435.21 ZVQS 85 283 3 U QZ PY BANDED QZ-PYRITE VEIN ABOUT 5 CM THICK D BWD014 436.77 436.78 SBO 75 271 3 U D BWD014 437.6 437.61 JOD 77 258 3 P R D BWD014 439.85 439.86 ZVQS 69 41 3 P QZ APY D BWD014 440.43 440.44 ZVQS 74 41 3 P QZ APY D BWD014 440.8 440.81 JOD 76 21 3 U D BWD014 441.39 441.4 SBO 74 51 3 P SILTSTONE TO GREWACKE CONTACT D BWD014 442.35 442.36 JOD 74 237 3 U S D BWD014 442.77 442.78 ZVQS 70 56 3 P QZ APY D BWD014 443.07 443.08 SBO 86 273 3 P SILTSTONE TO GREYWACKE CONTACT D BWD014 445.94 445.95 SBO 84 41 3 P SILTSTONE TO GREYWACKE CONTACT D BWD014 447.13 447.14 SBO 74 31 3 P 10 BEDDING CONTACT WITH A DISPLACEMENT OF ABOUT 10MM D BWD014 447.65 447.66 YGB 3 U YOUNGING IN THE UPWARDS DIRECTION D BWD014 449.07 449.08 SBO 84 41 3 P MUDSTONE TO GREYWACKE CONTACT D BWD014 449.77 449.78 ZVQ 31 256 3 U QZ D BWD014 450.4 450.41 SFO 69 30 3 P FOLIATION LAMINATIONS IN THE BEDDING D BWD014 450.57 450.58 JOD 61 221 3 P S SERI SERICITE FORMING ON THE FRACTURE SURFACE OF A CONTACT BETWEEN SILTSTONE AND MUDSTONE D BWD014 451 451.01 JOD 56 221 3 P S CONTACT BETWEEN THE MUDSTONE AND GREYWACKE D BWD014 451.3 451.31 JOD 33 147 3 P S D BWD014 451.8 451.81 ZVQ 57 270 3 P QZ D BWD014 452.9 452.91 JOD 63 153 3 P R D BWD014 453.22 453.23 JOD 46 265 3 U R D BWD014 454 454.01 JOD 65 268 3 U S D BWD014 455.15 455.16 ZVQS 65 259 3 U QZ APY D BWD014 455.17 455.18 SBO 71 247 3 U SILTSTONE AND GREYWACKE CO NTACT D BWD014 456.37 456.38 SBO 79 32 3 U SL GR MUDSTONE AND GREYWACKE CONTACT D BWD014 458.31 458.32 JOD 69 180 3 U S D BWD014 458.59 458.6 SBO 69 41 3 P SL GR CL D BWD014 461 461.01 SBO 74 41 3 P SL SILTSTONE AND GREYWACKE CONTACT D BWD014 462.1 462.11 ZVQ 81 341 3 I QZ D BWD014 463.65 463.66 SBO 74 41 3 P SILTSTONE AND GREYWACKE CONTACT D BWD014 464.51 464.52 SBO 74 41 3 P 20 BEDDING CONTACT WITH A 20MM DISPLACEMENT D BWD015 39.2 39.21 ZFN 50 0 U R SERI FAULT ZONE/ RUBBLE WITH NO ORI LINE D BWD015 41.7 41.71 ZFN 20 0 U S SI INTENSE FRACTURING IN SAME DIRECTION/PERHAPS FOLIATION FRACTURES D BWD015 42.3 42.31 ZFN 0 I R RUBBLE ZONE D BWD015 50 50.01 ZFO 25 0 I R CAL SERI INTENSE VEINING AND DEFORMATION FOR APPROX 48.5M TO 51M WITH INTENSE SHEARING WITHIN ZONE D BWD015 51.2 51.21 JOD 88 340 1 FIRST ORIENTATION LINE MARKED D BWD015 53 53.01 ZFO 30 0 I R CAL SERI INTENSE VEINING AND DEFORMATION FOR APPROX 52M TO 53.7M WITH INTENSE SHEARING WITHIN ZONE D BWD015 53.9 53.91 JOD 79 350 2 U S SERI D BWD015 54.1 54.11 JOD 26 18 2 P R SERI PLANAR DIVIDED FRACTURE D BWD015 56.31 56.32 JOD 40 118 2 U R ROUGH JOINT SURFACE WITHIN A FAULT D BWD015 56.6 56.61 ZFO 45 2 I R CAL SERI SHEAR ZONE IS FROM 56M TO 57.3M D BWD015 56.7 56.71 JOD 77 137 2 U R D BWD015 58.24 58.25 ZVQ 72 336 2 I QZ QZ VEIN WITH MINOR CRENULATIONS AND VARYING BETWEEN OPAQUE AND TRANSLUCENT QZ D BWD015 61.32 61.33 JOD 21 199 2 P S CAL SERI PLANAR FRACTURE PLANE WITHIN A FINER GRAINED MATRIX D BWD015 64.09 64.1 JOD 58 293 2 U R SERI D BWD015 64.34 64.35 SBO 15 348 1 U D BWD015 64.6 64.61 JOD 20 3 1 P S CAL PLANAR JOINT D BWD015 65.2 65.21 JOD 82 139 1 P S CAL PLANAR JOINT D BWD015 65.55 65.56 JOD 68 75 1 P R CAL PLANAR JOINT D BWD015 65.9 65.91 JOD 69 64 1 P S CAL PLANAR JOINT D BWD015 66.35 66.36 JOD 29 62 1 P R APY PLANAR JOINT D BWD015 66.97 66.98 ZVQ 83 101 2 U QZ D BWD015 67.02 67.03 JOD 31 59 2 P S D BWD015 67.1 67.11 JOU 40 118 3 P UNDIVIDED JOINT D BWD015 67.36 67.37 JOU 64 314 3 P UNDIVIDED JOINT D BWD015 68.07 68.08 JOD 52 93 3 U R APY D BWD015 68.15 68.16 JOD 76 317 3 P R CAL APY D BWD015 68.95 68.96 ZVQS 74 327 3 P QZ APY 30CM QZ VEIN WITH BRECCIATED SUBHEDRAL - ANHEDRAL ARSENOPYRITE FRGMENTS D BWD015 69.9 69.91 JOU 25 178 3 P D BWD015 70.3 70.31 ZVQ 79 350 3 I QZ D BWD015 70.35 70.36 JOD 77 307 3 P S APY D BWD015 70.65 70.66 JOD 82 216 3 P S CAL PY PLANAR JOINT D BWD015 70.66 70.67 JOD 84 206 3 P S CAL D BWD015 70.72 70.73 JOD 36 12 3 P S CAL D BWD015 72.25 72.26 JOD 37 21 3 P S D BWD015 72.39 72.4 JOD 34 353 3 U R APY D BWD015 72.55 72.56 JOU 79 350 3 P D BWD015 72.78 72.79 JOD 60 332 3 U S CAL APY ARSENOPYRITE FRACTURE COATING ON THE FRACTURE SURFACE D BWD015 72.78 72.79 LIS 270 3 D BWD015 72.92 72.93 SBO 39 352 3 S SMALL AMOUNT OF DISPLACEMENT ALONG THE JOINT OF THE BEDDING PLANE D BWD015 74 74.01 JOD 10 178 3 I R D BWD015 74.15 74.16 ZVQ 43 23 3 P QZ D BWD015 74.33 74.34 SBO 47 13 3 I BEDDING DISPLACEMENT ALONG AN UNDIVIDED JOINT FRACTURE D BWD015 74.52 74.53 JOD 45 80 3 I R APY D BWD015 74.75 74.76 ZVQ 43 206 3 U QZ APY D BWD015 75.15 75.16 JOD 25 178 3 U S SERI CAL SERICITE AND CALCIUM CARBONATE TRACES ON THE FRACTURE SURFACE D BWD015 75.73 75.74 ZVQ 28 213 3 P QZ CL D BWD015 76.4 76.41 SBO 34 77 3 I CONTACT HAD BEEN DISPLACED SOMEWHAT AND WAS DIFFICULT TO DETERMINE THE ALPHA ANGLE D BWD015 77.2 77.21 ZVQ 82 159 3 P QZ PL PLAGIOCLASE STAINING WITHIN THE QZ VEIN D BWD015 77.82 77.83 SBO 38 8 3 U CANTACT APPEARS TO HAVE UNDERGONE SOME THRUST DISPLACEMENT D BWD015 78.07 78.08 ZVQ 67 338 3 P QZ PL D BWD015 78.2 78.21 YGB 3 U YOUNGING IN THE UPWARDS DIRECTION D BWD015 79.03 79.04 ZVQ 33 145 3 P QZ CL D BWD015 80.59 80.6 ZVQ 71 100 3 P QZ PL D BWD015 80.61 80.62 SBO 39 70 3 U CONTACT BETWEEN A GREYWACKE AND SILTSTONE D BWD015 81.28 81.29 ZVQ 87 140 3 I QZ 10 QZ VEINLET WITH A 10MM DISPLACEMENT D BWD015 81.92 81.93 YGB 3 U YOUNGING IN THE UPWARDS DIRECTION D BWD015 82.08 82.09 JOD 11 195 3 U S APY D BWD015 82.4 82.41 ZVQ 20 71 3 P QZ D BWD015 82.65 82.66 ZVQS 3 U QZ APY QZ VEIN IS PERPENDICULAR TO THE CORE AXIS D BWD015 83.47 83.48 JOD 38 120 3 P S D BWD015 83.77 83.78 ZVQS 58 130 3 P QZ APY D BWD015 84.3 84.31 YGB 3 U YOUNGING IN THE UPWARDS DIRECTION D BWD015 84.8 84.81 JOD 33 26 3 P S PY D BWD015 85.16 85.17 JOD 54 308 3 P S PY CAL D BWD015 85.5 85.51 ZVQS 67 321 3 P QZ PY D BWD015 86.43 86.44 JOD 38 314 3 I R PY CL D BWD015 86.71 86.72 JOD 15 76 3 I R PY CL D BWD015 87 87.01 ZFN 0 87.00M TO 91.40M IS ONE BIG FAULT ZONE THAT HAS BEEN REWORKED WITH EXTENSIVE CHLORITE VEINING AND SOME AREAS OF BROKEN UP FRAGMENTS D BWD015 89.7 89.71 JOD 6 38 3 U S D BWD015 89.95 89.96 JOU 85 178 3 P D BWD015 92.45 92.46 JOD 15 180 3 U S D BWD015 95 95.01 ZFG 0 FAULT GOUGE WITH A LOT OF FRAGMENTATION ON EITHER SIDE OF THE FAULT GOUGE D BWD015 97.64 97.65 ZFG 0 FAULT GOUGE WITH A LOT OF FRAGMENTATION ON EITHER SIDE OF THE FAULT GOUGE D BWD015 98.3 98.31 ZFN 0 QZ PY LARGE FAULT ZONE THAT EXPANDS FROM DEPTHS 87M TO 128M OF HIGHLY FRACTURED SEDIMENTARY LAYERS AS WELL AS THICK QZ VEINS D BWD015 102 102.01 ZVQS 10 0 QZ APY D BWD015 102.6 102.61 ZVQ 10 0 QZ QZ-GREYWACKE CONTACT D BWD015 109.88 109.89 ZVQ 84 244 3 U QZ QZ VEIN IS SUB-PARALLEL TO THE CORE AXIS D BWD015 112.3 112.31 ZVQS 25 0 QZ PY D BWD015 116 116.01 ZVQS 25 0 QZ PY QZ VEIN CONTACT W/ SOFT HIGH STRESS SEDIMENTARY ROCK D BWD015 129 129.01 JOD 60 0 P S D BWD015 129.75 129.76 JOD 21 353 0 U S D BWD015 130.47 130.48 JOD 63 329 3 P R D BWD015 130.54 130.55 ZVQ 73 294 3 U QZ CL D BWD015 130.85 130.86 JOD 49 304 3 I R D BWD015 131.2 131.21 JOD 46 24 3 P S D BWD015 131.8 131.81 JOD 61 313 3 U S D BWD015 131.92 131.93 JOD 42 93 3 U S PY D BWD015 133.42 133.43 JOD 49 61 3 U S D BWD015 133.64 133.65 SBO 27 355 3 U GEYWACKE TO SILTSTONE BEDDING CONTACT AND CONTACT IS UNDULATING AND ALMOST PERPENDICULAR TO THE CORE AXIS D BWD015 133.95 133.96 SBO 28 106 3 U GREYWACKE TO SILTSTONE CONTACT D BWD015 133.98 133.99 JOD 45 141 3 P S APY APY FRACTURE COATING ON THE FRACTURE SURFACE D BWD015 136.25 136.26 JOD 20 0 U S PY D BWD015 137.75 137.76 JOD 86 220 3 P D BWD015 138.67 138.68 JOD 32 149 3 P S D BWD015 138.9 138.91 JOD 32 113 3 U S D BWD015 141.04 141.05 JOD 38 26 3 P S CAL D BWD015 141.26 141.27 SBO 27 343 3 U GREYWACKE TO SILTSTONE CONTACT D BWD015 141.43 141.44 JOD 31 333 3 P S D BWD015 142.82 142.83 SBO 75 0 P NO ORI LINE AND THEREFORE CANNOT DETERMINE TRUE DIP AND DIRECTION D BWD015 144 144.01 JOD 59 332 3 P R D BWD015 144.14 144.15 SBO 55 13 3 P GREYWACKE BAND INSIDE AX SILTSTONE LAYER D BWD015 144.51 144.52 JOD 54 334 3 P S D BWD015 145.13 145.14 SBO 50 0 U GREYWACKE BAND INSIDE AX SILTSTONE LAYER D BWD015 148 148.01 JOD 53 132 3 U R D BWD015 148.47 148.48 JOD 80 14 3 U R D BWD015 148.73 148.74 JOD 79 18 3 P S D BWD015 150.49 150.5 JOD 38 187 3 U S D BWD015 150.74 150.75 JOD 65 310 3 I R D BWD015 153.62 153.63 JOD 19 88 3 P S D BWD015 155.17 155.18 ZVQS 75 0 U QZ PY QZ VEIN WITH NO ORIENTATION LINE BUT SITS ALMOST PERPENDICULAR TO THE CORE AXIS D BWD015 158.13 158.14 JOD 60 0 U D BWD015 160.28 160.29 JOD 50 0 P S PY D BWD015 161.2 161.21 ZVQS 60 0 U PY QZ QZ-SULPHIDE VEIN SITS IN A DARKER FINER GRAINED MATRIX THAT COULD BE A MUDSTONE WITH W/ TRACES OF CARBONACEOUS MATERIAL D BWD015 161.98 161.99 SFO 75 0 P PLANAR BEDDING PLANES NEAR AND NEXT TO WHAT LOOKS TO BE A SERICITE ALTERATION D BWD015 163.24 163.25 SBO 65 0 P SMALL GREYWACK BAND INSIDE A FINER GRAINED MATRIX D BWD015 163.86 163.87 ZVQS 78 25 3 U QZ PY CRENULATED QZ VEIN WITH TRACES OF APY-PY-CHLORITE-SERICITE TRHOUGHOUT THE VEIN D BWD015 164.05 164.06 JOD 49 323 3 S R D BWD015 165.09 165.1 SFO 80 0 P SERICITE ALTERED BAND D BWD015 166 166.01 SCS 0 APY GR THICK CARBONACEOUS ZONE WITHIN 166M AND 168.1M WITH EXTENSIVE ARSENOPYRITE MINERALISATION AND BOXWORK IN SECTIONS OF THE CORE ALONG WITH SULPHIDE DISSEMINATED WITHIN THE SURROUNDING FINER GRAINED SEDIMENTARY ROCK D BWD015 166.7 166.71 ZVS 30 0 I APY D BWD015 169.96 169.97 JOD 10 78 3 U R D BWD015 170.32 170.33 JOD 24 182 3 P R D BWD015 170.44 170.45 SBO 46 358 3 U GREYWACKE TO SILTSTONE CONTACT D BWD015 172.2 172.21 JOD 40 0 P S D BWD015 173.8 173.81 ZVC 49 182 1 P CAL CL D BWD015 174.68 174.69 SBO 15 75 1 U GREYWACKE TO SILTSTONE CONTACT D BWD015 174.75 174.76 ZVQ 71 358 1 P QZ CAL D BWD015 175.42 175.43 ZVQS 75 171 1 P QZ PY D BWD015 176.1 176.11 ZVQS 0 1 U QZ PY VN RUNS PARALLEL TO THE CORE AXIS AND THE ORIENTATION LINE HERE IS 90 DEGREES OFF THE ORIENTATION LINE ON THE NEXT RUN SO THEREFORE IT HAS POOR CONFIDENCE REGARDING THE ORI ACCURACY D BWD015 177.73 177.74 ZVQS 84 177 1 U QZ PY D BWD015 178.08 178.09 JOD 14 332 2 P S D BWD015 178.18 178.19 SFCC 90 37 2 U QZ PY D BWD015 178.32 178.33 ZVQS 53 44 2 P QZ PY D BWD015 178.68 178.69 ZVC 6 2 2 P CAL SERI D BWD015 180.87 180.88 JOD 34 185 2 P S CAL PY D BWD015 181.31 181.32 JOD 85 348 2 P S CAL D BWD015 181.58 181.59 JOD 40 139 2 P R CAL D BWD015 181.75 181.76 JOD 49 34 2 U R SERI D BWD015 182.02 182.03 JOD 14 336 2 I R SERI D BWD015 182.32 182.33 ZVQS 66 355 2 U PY SERI QZ VEIN WITH TRACES OF PY AND SERICITE WITHIN THE VEIN D BWD015 182.61 182.62 JOD 34 327 2 P R D BWD015 182.86 182.87 ZVQ 40 15 2 P P QZ 2 SMALL QZ VEINLET WITH A DISPLACEMENT FROM A SECONDARY FAULT OF ABOUT 2MM D BWD015 183.5 183.51 SBO 46 6 3 U GREYWACKE TO SILTSTONE CONTACT D BWD015 183.9 183.91 YGB 3 U YOUNGING IN THE UPWARDS DIRECTION D BWD015 184.42 184.43 JOD 49 335 3 U R APY QZ D BWD015 184.73 184.74 JOD 32 74 3 U R PY D BWD015 184.88 184.89 JOD 49 34 3 P S CAL D BWD015 185.8 185.81 JOD 46 48 3 P R D BWD015 186.11 186.12 ZVQ 39 200 3 P QZ SERI D BWD015 187.25 187.26 ZVQ 53 67 3 U QZ GR QZ VEIN CONTACT WITH A BAND OF SILTSTONE OF ABOUT 2.5CM THICK D BWD015 188.15 188.16 JOD 46 48 3 U R D BWD015 188.22 188.23 SBO 20 59 3 P GREYWACKE TO MUDSTONE CONTACT D BWD015 188.45 188.46 ZVS 58 110 3 P PY D BWD015 188.85 188.86 SBO 36 59 3 U GREYWACKE TO MUDSTONE CONTACT D BWD015 189.33 189.34 ZVQ 66 57 3 I QZ D BWD015 190.26 190.27 JOD 80 20 3 P S CAL D BWD015 190.48 190.49 JOD 24 164 3 P S PY D BWD015 190.5 190.51 ZVQ 32 150 3 P PY D BWD015 191.4 191.41 JOD 60 353 3 P R CAL SERI D BWD015 191.46 191.47 ZVQ 60 353 3 P QZ D BWD015 191.71 191.72 SBO 52 5 3 U GREYWACKE TO SILTSTONE CONTACT D BWD015 192.42 192.43 SBO 48 22 3 U GREYWACKE TO SILTSTONE CONTACT D BWD015 192.85 192.86 SBO 90 3 U GREYWACKE TO SILTSTONE BEDDING ORIENTATED PERPENDICULAR TO THE CORE AXIS D BWD015 193.09 193.1 JOD 40 114 3 U S D BWD015 193.6 193.61 ZVQ 76 334 3 P QZ D BWD015 194.03 194.04 JOD 30 44 3 U R CAL D BWD015 194.55 194.56 JOD 30 66 3 P R QZ D BWD015 194.72 194.73 ZVQ 66 358 3 S QZ CL QZ VEIN HAS UNDERGONE SECONDARY STRUCTURAL CHANGE AND HAS EITHER BEEN DISPLACED TWICE OR HAS FORMED WITHIN A STEPPED FRACTURE SURFACE D BWD015 195.2 195.21 ZVQ 57 5 3 P QZ CL D BWD015 195.88 195.89 ZVQ 29 185 3 P QZ D BWD015 196.13 196.14 SBO 51 29 3 I R JOINT HAS FRACTURED AT THE BEDDING CONTACT D BWD015 196.29 196.3 ZVC 45 14 3 I CAL D BWD015 196.43 196.44 ZVQ 39 185 3 P QZ D BWD015 197.65 197.66 SBO 46 10 3 U BEDDING CONTACT BETWEEN A GREYWACKE AND A SILTSTONE D BWD015 197.81 197.82 ZVQ 39 185 3 P QZ CL D BWD015 198.19 198.2 ZVQS 81 332 3 U QZ PY D BWD015 199 199.01 SBO 56 355 3 S GREYWACKE AND FINE GRAINED SILTSTONE CONTACT D BWD015 199.08 199.09 ZVQS 59 22 3 I QZ PY D BWD015 200.3 200.31 JOD 74 343 3 P S D BWD015 201.09 201.1 SBO 20 311 3 P GREYWACKE AND FINE GRAINED SILTSTONE CONTACT D BWD015 201.14 201.15 ZVC 57 342 3 U CAL SERI D BWD015 201.69 201.7 JOD 7 22 3 U R D BWD015 203.1 203.11 SBO 60 0 U GREYWACKE TO SILTSTONE BEDDING CONTACT D BWD015 204.08 204.09 ZVQ 45 0 U QZ SERI QZ VEIN IS APPROXIMATELY 1.1M THICK AND HAS NOT BEEN ORIENTATED AND THEREFORE A TRUE DIP AND DIRECTION CANNOT BE CALCULATED D BWD015 206.1 206.11 JOD 15 76 2 U GR SERI D BWD015 206.34 206.35 ZVC 61 10 2 I CAL D BWD015 208.35 208.36 ZVQ 15 0 P QZ SERI D BWD015 208.8 208.81 JOD 46 157 0 U GR PY D BWD015 209.1 209.11 JOD 39 123 2 U P GR CAL D BWD015 209.32 209.33 JOD 35 82 3 U S SERI PL D BWD015 209.5 209.51 ZVC 38 88 3 I QZ CL 12 QZ VEIN HAS BEEN DISPLACED BY ABOUT 12MM FROM A SMALL FAULT D BWD015 210.42 210.43 JOD 52 132 3 U QZ GR D BWD015 210.85 210.86 JOD 64 70 3 U S D BWD015 211 211.01 ZVQ 0 3 U QZ QZ VEIN IS RUNNING PARALLEL TO THE CORE AXIS D BWD015 211.23 211.24 ZVQ 34 328 3 I QZ 4 VEIN HAS UNDERGONE DISPLACEMEMENT BY 4MM D BWD015 211.68 211.69 JOD 42 307 3 I S CAL CL D BWD015 211.86 211.87 ZVQ 83 46 3 I QZ CL 5 IRREGULAR QZ VEIN UNDERGONE CRENULATION STRESS AS WELL AS A DEXTRAL DISPLACEMENT OF ABOUT 5MM. ALSO CROSSCUT BY QZ VEIN DOWNHOLE D BWD015 211.95 211.96 ZVQ 47 284 3 I QZ CL D BWD015 212.8 212.81 ZVQ 74 73 3 U QZ CL D BWD015 213.3 213.31 JOD 30 130 3 S S CAL D BWD015 214.24 214.25 SBO 63 340 3 I S D BWD015 214.62 214.63 JOD 2 185 3 S S D BWD015 214.96 214.97 ZVQ 57 14 3 U QZ PY QZ VEIN HAS CLEAVAGE PLANES RUNNING PERPENDICULAR TO THE VEINS ORIENTATION AND THE VEIN CONTAINS TRACES OF CHLORITE AND SULPHIDES D BWD015 215.1 215.11 YGB 3 U YOUNGING IN THE UPWARDS DIRECTION D BWD015 215.15 215.16 JOD 30 305 3 P S D BWD015 215.38 215.39 ZVQ 74 26 3 U QZ CL D BWD015 215.5 215.51 JOD 18 238 3 P S D BWD015 216.05 216.06 ZVQS 30 0 P PY QZ MASSIVE SULPHIDES IN A QZ VEIN D BWD015 219.17 219.18 JOD 11 296 3 U S CAL D BWD015 220.12 220.13 ZVQS 34 234 3 P QZ APY 3 SMALL QZ VEIN WITH TRACES OF ARSENOPYRITE AND A DISPLACEMENT OF ABIUT 3MM D BWD015 220.91 220.92 JOD 50 42 3 U S D BWD015 221.8 221.81 SFCC 83 175 3 U QZ PY QZ VEIN UNDERGONE CRENULATIONS AND AS A RESULT HAVE DUPLICATED FOLDING OCCURING AS A SECONDARY STRUCTURAL CHANGE D BWD015 222.6 222.61 JOD 26 245 3 I S PY D BWD015 223.2 223.21 JOD 20 246 3 U S CAL D BWD015 224.3 224.31 ZVQ 56 273 3 P QZ SERI D BWD015 225.22 225.23 ZVQ 78 219 3 U QZ SERI D BWD015 225.5 225.51 JOD 22 253 3 P R D BWD015 227.47 227.48 JOD 27 265 3 P S SERI D BWD015 228.5 228.51 ZVQ 61 295 3 P QZ SERI D BWD015 229.07 229.08 ZVQ 24 274 3 I QZ SERI D BWD015 229.9 229.91 ZVQ 41 286 3 P QZ CL CHLORITISED VEIN SELVAGES AROUND THE CONTACT OF THE QZ VEIN AND THE SEDIMENTARY ROCK D BWD015 230.09 230.1 JOD 14 343 3 P S D BWD015 231.17 231.18 JOD 12 48 3 P S CAL SERI CL ALSO PRESENT AS FC D BWD015 231.23 231.24 JOD 41 117 3 C R CAL SERI D BWD015 231.46 231.47 JOD 11 73 3 P S CAL CL D BWD015 231.5 231.51 JOD 28 5 3 I R D BWD015 231.51 231.52 ZVQ 9 336 3 C QZ D 10 QZ VEINLET D BWD015 231.78 231.79 ZVC 12 48 3 U CAL CL CL ON VS AND DISSEMINATED THROUGH VEIN D BWD015 231.85 231.86 ZVQ 31 111 3 C QZ CL D BWD015 232.02 232.03 JOD 14 118 3 P S CAL SERI D BWD015 232.27 232.28 JOU 32 296 3 I CAL D BWD015 232.52 232.53 JOU 13 20 3 P S SERI CAL D BWD015 232.87 232.88 ZVQ 12 48 3 C CL QZ D BWD015 232.9 232.91 JOD 26 145 3 U R SERI CAL D BWD015 233.19 233.2 JOD 6 65 3 P S SERI CL D BWD015 233.27 233.28 ZVQ 12 128 3 I QZ D BWD015 233.6 233.61 JOD 17 90 3 P R SERI CAL D BWD015 233.72 233.73 ZVQ 21 71 3 I QZ CL D BWD015 234.16 234.17 JOD 22 84 3 S R CAL SERI D BWD015 234.38 234.39 ZVQ 24 95 3 C QZ CL D BWD015 234.71 234.72 ZVQ 9 105 3 C CAL CL CL VS ON DOWNHOLE SIDE OF VEIN D BWD015 235.52 235.53 JOD 14 118 3 P R CL SERI D BWD015 235.78 235.79 ZVQ 22 139 3 U QZ CL D BWD015 236.29 236.3 JOD 10 142 3 P S CL SERI D BWD015 236.45 236.46 JOD 2 185 3 I R CAL SERI D BWD015 236.5 236.51 JOD 16 296 3 I R CAL SERI D BWD015 236.57 236.58 ZVC 14 118 3 P S CAL D BWD015 236.61 236.62 ZVQ 52 97 3 P QZ APY MAY BE SPECKS OF APY WITHIN VEIN D BWD015 236.69 236.7 JOD 12 128 3 P S CAL KFS PATCHES OF BRICK RED MINERAL ON FC PERHAPS IDENTIFIED AS K-FELDSPAR D BWD015 236.77 236.78 JOU 18 131 3 S CAL D BWD015 236.9 236.91 ZVQ 45 98 3 P QZ D BWD015 237.14 237.15 JOD 6 65 3 P R CAL CL D BWD015 237.19 237.2 JOD 33 95 3 P R CAL D BWD015 237.25 237.26 JOD 11 99 3 I R CL CAL D BWD015 237.6 237.61 JOD 22 230 3 P S CL CAL D BWD015 238.24 238.25 JOD 14 215 3 U S CL CAL D BWD015 238.44 238.45 JOD 27 291 3 I R CAL KFS KFS AS SMALL PATCH D BWD015 238.57 238.58 ZVC 13 201 3 P CAL CL D BWD015 239.07 239.08 JOD 14 154 3 U CAL CL D BWD015 239.44 239.45 JOD 82 37 3 I CAL SERI KFS PATCHES ON FRACTURE SURFACE D BWD015 239.8 239.81 ZVQ 13 168 3 P QZ D BWD015 240.13 240.14 ZVQ 83 189 3 P QZ CROSS CUTTING RELATIONSHIP WITH AN OLDER QZ VEIN D BWD015 240.14 240.15 ZVQ 51 89 3 P QZ OLDER CROSS CUTTING VEIN AS MENTIONED IN PREVIOUS POINT D BWD015 240.27 240.28 ZVQ 35 117 3 C QZ D BWD015 240.42 240.43 JOD 8 5 3 I CAL D BWD015 240.68 240.69 ZVC 79 342 3 P CAL D BWD015 241.03 241.04 JOD 66 352 3 P CAL CL D BWD015 241.77 241.78 JOD 52 356 3 P CAL D BWD015 241.86 241.87 ZVC 82 37 3 C CAL D BWD015 241.92 241.93 ZVC 51 280 3 C CAL D BWD015 242.04 242.05 JOD 47 38 3 I R CAL SERI D BWD015 242.4 242.41 SBO 71 158 3 I BEDDING CONTACT BETWEEN COURSE GRAINED GREYWACKE AND FINE GRAINED SILTSTONE D BWD015 242.7 242.71 SBO 72 153 3 I CONTINUATION OF BEDDING PLANE FROM PREVIOUS POINT D BWD015 243.09 243.1 JOD 48 344 3 P S CAL D BWD015 243.21 243.22 JOD 52 29 3 I S CAL D BWD015 243.34 243.35 JOD 66 352 3 P S D BWD015 243.43 243.44 JOD 70 25 3 U S CAL D BWD015 243.87 243.88 JOD 32 84 3 P S CL SERI D BWD015 244.57 244.58 ZVQ 57 135 3 C QZ CL D BWD015 244.8 244.81 JOD 29 11 3 U S CAL BASICALLY A PERPENDICULAR FRACTURE D BWD015 244.9 244.91 JOD 33 14 3 I S CAL BASICALLY A PERPENDICULAR FRACTURE D BWD015 245.43 245.44 ZVQ 48 115 3 P QZ D BWD015 245.62 245.63 JOD 32 73 3 C S CL CAL D BWD015 246.06 246.07 JOD 30 64 3 P S SERI CAL D BWD015 246.3 246.31 ZVQ 32 123 3 I QZ D BWD015 246.86 246.87 ZVQ 46 76 3 P QZ D BWD015 247.3 247.31 SCO 43 141 3 U CONTACT BETWEEN FINE GRAINED UNIT AND COURSE GRAINED UNIT D BWD015 247.35 247.36 ZVQ 34 135 3 P QZ D BWD015 247.55 247.56 JOD 39 97 3 P S D BWD015 247.8 247.81 JOD 34 135 3 S S CAL D BWD015 248.12 248.13 JOD 48 144 3 U CAL CL D BWD015 248.4 248.41 JOD 88 29 3 I CAL D BWD015 249.48 249.49 SCO 74 164 3 I CONTACT BETWEEN FINE GRAINED UNIT AND COURSE GRAINED UNIT D BWD015 249.85 249.86 SCO 59 130 3 I CONTACT BETWEEN FINE GRAINED UNIT AND COURSE GRAINED UNIT D BWD015 250.12 250.13 JOD 60 35 3 P S CAL D BWD015 250.2 250.21 JOD 29 54 3 U S CAL CL D BWD015 250.6 250.61 ZVQ 46 121 3 P QZ D BWD015 250.77 250.78 JOD 47 331 3 U S CAL CL D BWD015 250.95 250.96 JOD 67 14 3 S R CAL D BWD015 251.5 251.51 SCO 69 163 3 I CONTACT BETWEEN FINE GRAINED UNIT AND COURSE GRAINED UNIT D BWD015 252 252.01 JOD 9 33 3 U CAL SERI D BWD015 252.3 252.31 JOD 49 21 3 C S CAL D BWD015 253.03 253.04 JOD 39 37 3 I R CAL D BWD015 253.14 253.15 JOD 48 344 3 U R CAL D BWD015 254.09 254.1 JOD 58 27 3 I R CAL D BWD015 254.4 254.41 ZVC 37 128 3 I R CAL D BWD015 254.86 254.87 JOD 6 304 3 S R CAL D BWD015 255.34 255.35 JOD 88 231 3 P S D BWD015 256.3 256.31 JOD 82 358 3 I S CAL D BWD015 256.9 256.91 ZVC 53 223 3 P CAL D BWD015 257.91 257.92 JOD 34 41 3 U R D BWD015 258.57 258.58 ZVQ 57 234 3 I QZ CL D BWD015 258.87 258.88 JOD 53 172 3 S S D BWD015 259.04 259.05 JOD 31 43 3 C S CAL KFS D BWD015 259.17 259.18 JOD 40 107 3 P S CAL D BWD015 259.6 259.61 JOD 48 5 3 I R CAL D BWD015 259.95 259.96 JOD 30 305 3 I R CAL D BWD015 260.5 260.51 JOD 49 348 3 I S D BWD015 260.82 260.83 JOD 21 343 3 I R D BWD015 261.14 261.15 JOD 39 138 3 U S CAL D BWD015 261.15 261.16 ZVC 28 127 3 C CAL CL MINOR QZ D BWD015 261.35 261.36 JOD 10 142 3 C S CAL D BWD015 262.02 262.03 ZVC 36 101 3 P CAL D BWD015 262.08 262.09 JOD 55 19 3 C S CAL D BWD015 262.28 262.29 JOD 17 90 3 S S CAL D BWD015 262.5 262.51 ZVQ 17 90 3 U QZ D BWD015 262.62 262.63 ZVC 30 282 3 P CAL D BWD015 262.86 262.87 ZVC 30 282 3 P CAL D BWD015 262.98 262.99 JOD 21 343 3 I S D BWD015 263.65 263.66 SFO 35 80 3 P D BWD015 263.74 263.75 JOD 37 112 3 I S CAL D BWD015 264.78 264.79 JOD 58 27 3 U R CAL KFS D BWD015 265.48 265.49 JOD 89 30 3 U S D BWD015 265.87 265.88 JOD 71 18 3 P S CAL KFS D BWD015 266 266.01 ZVC 44 111 3 P CAL D BWD015 266.03 266.04 JOD 45 98 3 S S CAL SERI D BWD015 266.94 266.95 JOD 21 343 3 I S D BWD015 267.2 267.21 JOD 42 359 3 I S D BWD015 267.35 267.36 JOD 61 16 3 S R CAL KFS D BWD015 267.47 267.48 JOD 35 117 3 S S CAL D BWD015 267.48 267.49 ZVC 31 111 3 C CAL D BWD015 267.7 267.71 JOD 22 139 3 I S CAL SERI D BWD015 267.81 267.82 ZVQ 43 126 3 P QZ D BWD015 268.38 268.39 JOD 70 49 3 S S CAL D BWD015 268.67 268.68 JOD 37 145 3 C S CAL KFS D BWD015 269.4 269.41 JOD 27 104 3 C S CAL D BWD015 269.5 269.51 ZVQ 82 12 3 C CAL CL D BWD015 269.62 269.63 JOD 40 295 3 S D BWD015 269.71 269.72 JOD 63 5 3 P S D BWD015 269.8 269.81 JOD 42 93 3 P S CAL CL D BWD015 270.09 270.1 JOD 24 274 3 P S CAL D BWD015 270.22 270.23 JOD 62 7 3 C D BWD015 274 274.01 JOD 19 209 3 I R CAL D BWD015 274.3 274.31 ZVC 10 142 3 U CAL D BWD015 274.78 274.79 JOD 58 97 3 P S D BWD015 274.9 274.91 JOD 58 97 3 S S CAL D BWD015 275 275.01 JOD 54 93 3 P S CAL D BWD015 275.06 275.07 JOD 54 24 3 U S D BWD015 275.18 275.19 JOD 24 95 3 U S CAL D BWD015 275.3 275.31 JOD 39 112 3 U S D BWD015 275.45 275.46 JOD 83 323 3 U S D BWD015 275.6 275.61 JOD 48 115 3 S S D BWD015 275.7 275.71 JOD 48 115 3 P S D BWD015 275.79 275.8 JOD 31 149 3 I R CAL D BWD015 275.93 275.94 JOD 19 209 3 I R D BWD015 276.47 276.48 JOD 67 103 3 U S D BWD015 276.5 276.51 JOD 64 108 3 P S D BWD015 277.17 277.18 JOD 54 93 3 U KFS D BWD015 277.41 277.42 JOD 39 56 3 I S D BWD015 277.57 277.58 JOD 48 115 3 C S D BWD015 278.13 278.14 ZVC 64 88 3 P CAL CL D BWD015 278.61 278.62 JOD 61 74 3 P S CAL CL D BWD015 278.77 278.78 ZVQ 52 97 3 P QZ D BWD015 278.84 278.85 JOD 53 106 3 P S KFS CAL D BWD015 279.17 279.18 JOD 46 106 3 C S CAL D BWD015 279.28 279.29 JOD 28 185 3 P S CAL D BWD015 279.62 279.63 JOD 69 80 3 P S D BWD015 279.7 279.71 JOD 46 76 3 I R D BWD015 280.08 280.09 JOD 87 356 3 C S D BWD015 280.33 280.34 JOD 49 102 3 C S D BWD015 280.48 280.49 ZVC 32 227 3 C CAL D BWD015 280.53 280.54 JOD 21 343 3 I S CAL CL D BWD015 280.67 280.68 SBO 50 124 3 P CL CONTACT BETWEEN FINE GRAINED UNIT OVERLAYING A COURSE GRAINED UNIT D BWD015 280.83 280.84 ZVC 51 110 3 C CAL SERI D BWD015 281.11 281.12 JOD 8 161 3 P S D BWD015 281.27 281.28 JOD 68 92 3 P S D BWD015 281.57 281.58 JOD 57 122 3 P S D BWD015 281.74 281.75 JOD 23 30 3 I R D BWD015 282.2 282.21 ZVC 51 110 3 P CAL D BWD015 282.25 282.26 JOD 10 142 3 C S CAL D BWD015 282.43 282.44 JOD 46 76 3 I S D BWD015 282.6 282.61 JOD 35 117 3 P S SERI CL D BWD015 283.32 283.33 JOD 16 73 3 I R CAL D BWD015 283.62 283.63 JOD 56 81 3 U S D BWD015 283.72 283.73 JOD 75 317 3 P S CAL D BWD015 283.94 283.95 ZVC 45 68 3 P R CAL CL 2 MM CAL VEIN AT SAME LOCATION D BWD015 284.19 284.2 JOD 48 344 3 U S CAL D BWD015 284.62 284.63 JOD 54 46 3 C P SERI D BWD015 284.83 284.84 JOD 46 340 3 P S D BWD015 284.91 284.92 JOD 11 73 3 U R D BWD015 285.1 285.11 JOD 47 359 3 P S D BWD015 285.14 285.15 JOD 47 38 3 P S D BWD015 285.22 285.23 JOD 57 14 3 S S D BWD015 285.3 285.31 JOD 47 65 3 S S D BWD015 285.32 285.33 JOD 74 73 3 C S CAL D BWD015 286.21 286.22 JOD 16 296 3 P S D BWD015 286.83 286.84 JOD 11 296 3 P S D BWD015 287.07 287.08 JOD 12 321 3 U S CAL D BWD015 287.33 287.34 JOD 31 149 3 P S CAL D BWD015 287.37 287.38 JOD 11 296 3 P S D BWD015 287.67 287.68 JOD 34 135 3 P S D BWD015 287.75 287.76 JOD 36 152 3 P S D BWD015 287.96 287.97 JOD 16 111 3 P S D BWD015 288.24 288.25 JOD 40 27 3 C S D BWD015 288.43 288.44 JOD 26 145 3 U R D BWD015 288.58 288.59 ZVC 33 95 3 U CAL CL D BWD015 288.76 288.77 JOD 39 138 3 U S CAL D BWD015 289.45 289.46 JOD 36 101 3 P S CAL D BWD015 289.65 289.66 JOD 42 62 3 P S D BWD015 289.77 289.78 ZVC 49 102 3 U CAL D BWD015 290.21 290.22 JOD 22 116 3 U R D BWD015 290.43 290.44 SFO 39 122 3 C CAL PY D BWD015 290.5 290.51 JOD 21 42 3 S R D BWD015 290.58 290.59 JOD 18 185 3 S R D BWD015 290.64 290.65 JOD 34 135 3 U R APY GR D BWD015 290.74 290.75 ZVQS 40 107 3 U APY QZ D BWD015 290.8 290.81 JOD 23 195 3 I P GR CL D BWD015 290.82 290.83 JOD 14 215 3 C S D BWD015 290.86 290.87 JOD 25 109 3 U S D BWD015 290.9 290.91 JOD 19 87 3 U R D BWD015 290.95 290.96 JOD 31 149 3 C S CL SERI D BWD015 291.03 291.04 JOD 39 169 3 C S SERI CL D BWD015 291.3 291.31 JOD 16 342 3 U S SERI CAL D BWD015 291.5 291.51 JOD 26 147 3 U S SERI CAL D BWD015 291.75 291.76 ZVC 36 272 3 C CAL D BWD015 291.82 291.83 JOD 19 105 3 P S SERI CAL D BWD015 292.06 292.07 ZVQS 36 92 3 I APY QZ SEVERAL SMALLER SULFIDE VEINS CONTAINING REPLACEMENT APR FOLLOW THIS VEIN IN A SIMILAR ORIENTAION WITHIN 140 MM DOWNHOLE OF THIS VEIN. D BWD015 292.18 292.19 ZVQS 17 132 3 C APY QZ D BWD015 292.3 292.31 SFO 21 141 3 P D BWD015 292.7 292.71 JOD 62 328 3 C S SERI CAL D BWD015 293 293.01 ZVC 53 267 3 I CAL D BWD015 293.45 293.46 JOD 22 116 3 U S SERI CAL D BWD015 293.7 293.71 JOD 30 151 3 I R SERI CAL D BWD015 293.87 293.88 JOD 46 343 3 I S SERI CAL D BWD015 294.05 294.06 JOD 87 244 3 I S SERI CAL D BWD015 294.33 294.34 JOD 59 322 3 U S SERI CAL D BWD015 294.43 294.44 JOD 71 229 3 P S SERI CAL D BWD015 294.43 294.44 JOD 38 88 3 P S SERI CAL D BWD015 295.23 295.24 JOD 22 116 3 P S SERI CAL D BWD015 295.39 295.4 JOD 77 22 3 I S SERI CAL D BWD015 295.75 295.76 ZVC 32 250 3 I CAL D BWD015 296.05 296.06 JOD 13 72 3 I S SERI CAL D BWD015 296.07 296.08 JOU 44 159 3 C D BWD015 296.45 296.46 ZVC 57 111 3 I CAL QZ D BWD015 296.78 296.79 JOU 56 291 3 I CAL D BWD015 296.82 296.83 JOD 67 316 3 U S SERI CAL D BWD015 297.5 297.51 JOU 72 295 3 P CAL D BWD015 297.65 297.66 ZVC 62 309 3 I CAL SERI D BWD015 298.44 298.45 JOD 64 302 3 S R SERI CAL D BWD015 298.73 298.74 SFO 43 107 3 P D BWD015 299.77 299.78 SFO 45 99 3 P D BWD015 300.9 300.91 JOD 45 99 3 P S SERI CAL D BWD015 301.67 301.68 JOD 43 2 3 I S SERI CAL D BWD015 301.7 301.71 ZVQ 83 11 3 U QZ D BWD015 301.8 301.81 JOD 62 18 3 U S SERI CAL D BWD015 302.3 302.31 JOD 35 293 3 P R SERI CAL D BWD015 302.45 302.46 SFO 38 124 3 P D BWD015 302.63 302.64 SFO 34 119 3 P D BWD015 302.7 302.71 SFO 36 147 3 P D BWD015 303.2 303.21 JOD 85 31 3 P S D BWD015 303.85 303.86 JOD 56 250 3 C R SERI CAL D BWD015 303.9 303.91 SFO 43 128 3 P D BWD015 304.55 304.56 SFO 38 124 3 P D BWD015 304.65 304.66 ZVC 47 288 3 P CAL D BWD015 305.05 305.06 JOD 45 275 3 C S SERI CAL D BWD015 305.5 305.51 SFO 41 113 3 P D BWD015 305.67 305.68 ZVC 38 251 3 I CAL D BWD015 306.32 306.33 JOD 42 280 3 I S SERI CAL D BWD015 308.2 308.21 JOD 55 121 3 P S CL CAL D BWD015 311.9 311.91 JOD 54 269 3 P S D BWD015 313.25 313.26 JOD 51 316 3 P S CAL D BWD015 313.9 313.91 JOD 88 352 3 P R D BWD015 316 316.01 JOD 46 290 3 P R CAL CL D BWD015 323.8 323.81 JOD 89 233 3 P S D BWD015 325.1 325.11 JOD 49 210 3 P S D BWD015 326 326.01 JOD 87 237 3 P R D BWD015 326.15 326.16 JOD 40 315 3 P S D BWD015 327.4 327.41 JOD 89 49 3 P S D BWD015 333.2 333.21 JOD 72 354 3 P R D BWD015 338.2 338.21 JOD 25 306 3 P R D BWD015 342 342.01 JOD 9 279 3 P R D BWD015 346.9 346.91 JOU 88 223 3 P CL D BWD015 348.6 348.61 JOD 65 280 3 P S D BWD015 353.5 353.51 JOD 33 245 3 P R D BWD015 358 358.01 JOD 53 89 3 P R D BWD015 360.55 360.56 JOD 45 304 3 P S D BWD015 360.65 360.66 JOD 62 121 3 P R D BWD015 364.3 364.31 JOD 81 42 3 P R D BWD015 366.5 366.51 JOD 83 201 3 P R D BWD015 367.45 367.46 JOD 13 81 2 P R D BWD015 367.7 367.71 JOD 83 174 2 P R CAL D BWD015 369 369.01 JOD 86 214 2 P S D BWD015 371.8 371.81 JOD 82 235 2 P S D BWD015 374.1 374.11 JOD 67 128 3 P R D BWD015 376.7 376.71 JOD 46 233 3 P R D BWD015 379.15 379.16 JOD 55 157 3 P R D BWD015 382.15 382.16 JOD 80 229 3 P R D BWD015 386.7 386.71 JOD 59 244 3 P R D BWD015 392.6 392.61 SBO 72 46 3 U D FLAME STRUCTURES D BWD015 396.55 396.56 JOD 84 161 3 P R D BWD015 399.5 399.51 SBO 70 41 3 P D BWD015 400.6 400.61 JOD 57 293 3 P R D BWD015 404.2 404.21 JOD 49 256 3 P R D BWD015 408.25 408.26 JOD 83 174 3 P R D BWD016 65.05 65.06 JOD 84 48 2 P R D BWD016 66.9 66.91 JOD 34 138 2 P R D BWD016 67.05 67.06 JOD 18 328 2 P R D BWD016 68.6 68.61 SBO 70 225 3 P D BWD016 70.1 70.11 JOD 78 14 3 P S D BWD016 70.8 70.81 JOD 59 57 3 P R D BWD016 72.52 72.53 SBO 77 211 2 P D BWD016 73.2 73.21 JOD 67 41 2 P S D BWD016 74.3 74.31 JOD 88 213 2 P R D BWD016 74.8 74.81 JOU 83 203 2 P D BWD016 90.2 90.21 ZVS 71 58 2 P PY 3MM WIDE D BWD016 90.25 90.26 JOD 34 131 2 P R D BWD016 90.8 90.81 JOD 66 34 2 P R D BWD016 90.9 90.91 JOD 51 152 2 P R D BWD016 91.5 91.51 JOD 46 126 2 P R D BWD016 91.65 91.66 JOD 67 43 2 P R D BWD016 92.4 92.41 JOD 69 55 2 I S D BWD016 92.5 92.51 JOD 63 123 2 P S D BWD016 93.4 93.41 JOD 72 33 2 P R D BWD016 93.55 93.56 ZVQS 81 123 2 P PY 15CM WDE 20-40% SULPHIDES D BWD016 93.75 93.76 JOD 87 225 2 P S D BWD016 99.5 99.51 JOD 49 155 2 P P D BWD016 99.52 99.53 JOD 60 28 2 P R D BWD016 100.1 100.11 JOD 58 9 2 P S D BWD016 108.3 108.31 JOD 23 194 2 P S D BWD016 108.5 108.51 ZVQS 57 32 2 P PY 1CM WDE ~15%SULPHIDES D BWD016 108.9 108.91 JOD 57 32 2 P S D BWD016 117.1 117.11 JOD 30 46 2 I R D BWD016 117.6 117.61 JOD 58 359 2 P S D BWD016 117.65 117.66 JOD 65 38 2 P R D BWD016 118 118.01 JOD 52 16 2 P R D BWD016 118.5 118.51 ZVQS 63 61 2 P QZ PY 7CM WIDE D BWD016 118.9 118.91 JOD 54 34 2 P S D BWD016 120.2 120.21 JOD 54 27 2 P R D BWD016 121 121.01 SBO 86 7 2 P D BWD016 121.15 121.16 JOD 50 54 2 P R D BWD016 121.8 121.81 JOD 78 160 2 P S D BWD016 122.45 122.46 JOD 62 35 2 P R D BWD016 122.9 122.91 SBO 85 199 2 I D BWD016 123.8 123.81 JOD 64 21 2 P R D BWD016 125.1 125.11 JOD 34 137 2 P R D BWD016 125.5 125.51 JOD 21 354 2 P S D BWD016 125.55 125.56 JOD 73 24 2 P R D BWD016 129.45 129.46 JOD 46 19 2 P R D BWD016 129.9 129.91 ZVC 25 311 2 P CARB 0.5 CM WIDE D BWD016 130.3 130.31 JOD 43 25 2 P R D BWD016 131.1 131.11 JOD 60 25 2 P P D BWD016 133.6 133.61 JOD 59 39 2 P S D BWD016 134.7 134.71 JOD 70 28 2 P R D BWD016 136 136.01 JOD 62 3 2 P S D BWD016 136.5 136.51 JOD 85 335 2 P S D BWD016 136.6 136.61 JOD 71 14 2 P S D BWD016 138.4 138.41 JOD 78 218 2 I S D BWD016 139 139.01 SBO 58 75 2 P D BWD016 139.5 139.51 JOD 33 64 2 P R D BWD016 140.5 140.51 JOD 62 179 2 P S D BWD016 140.95 140.96 JOD 32 64 2 P S D BWD016 141.25 141.26 JOD 41 141 2 P S D BWD016 141.4 141.41 JOD 33 98 2 P R D BWD016 141.45 141.46 JOD 63 60 2 P S D BWD016 141.55 141.56 ZVQS 69 96 3 P QZ PY 3CM WIDE D BWD016 142.75 142.76 JOD 19 149 2 P R D BWD016 143.05 143.06 JOD 12 227 2 P R D BWD016 144.5 144.51 JOD 55 58 2 P R D BWD016 145.85 145.86 JOD 62 354 2 P R D BWD016 147.6 147.61 JOD 70 152 2 P P D BWD016 148.5 148.51 JOD 33 344 3 P R D BWD016 148.8 148.81 JOD 40 332 3 P R D BWD016 149.15 149.16 ZVQS 74 98 3 P QZ PY 8CM WIDE D BWD016 149.6 149.61 JOD 34 320 3 P S D BWD016 149.7 149.71 JOD 49 159 3 P R D BWD016 151 151.01 JOU 79 358 3 P D BWD016 151.55 151.56 JOD 41 117 3 P S D BWD016 152 152.01 JOD 30 256 3 P S D BWD016 152.75 152.76 JOD 42 63 3 P R D BWD016 154.2 154.21 JOD 43 195 3 P S D BWD016 155 155.01 JOD 43 337 3 P R D BWD016 155.35 155.36 JOD 52 64 3 P R D BWD016 156 156.01 JOD 42 175 3 P R D BWD016 156.8 156.81 JOD 70 20 3 P R D BWD016 158.15 158.16 JOD 49 355 3 P R D BWD016 160.4 160.41 SBO 79 206 2 I D BWD016 165.5 165.51 JOD 60 116 2 P R D BWD016 165.52 165.53 JOD 36 337 2 P R D BWD016 166.2 166.21 JOD 52 23 2 P R D BWD016 166.25 166.26 JOD 78 13 2 P R D BWD016 167.3 167.31 JOD 52 359 2 P R D BWD016 169.5 169.51 JOD 39 298 2 P R D BWD016 169.6 169.61 SBO 72 174 3 P D BWD016 170.2 170.21 JOD 68 49 3 P S D BWD016 171.2 171.21 SBO 66 181 3 U D BWD016 172 172.01 JOD 76 26 3 P S D BWD016 173.6 173.61 JOD 65 0 2 P S D BWD016 174.15 174.16 ZVQS 68 4 2 P APY PY 13CM THICK D BWD016 174.5 174.51 JOD 53 110 2 P R D BWD016 176.6 176.61 JOD 46 116 2 P R D BWD016 176.8 176.81 SBO 77 154 2 P D BWD016 177.35 177.36 JOD 88 19 2 P R D BWD016 177.45 177.46 JOD 39 145 2 P S D BWD016 177.98 177.99 JOD 66 32 2 P R D BWD016 178.2 178.21 JOD 59 136 3 P R D BWD016 180.5 180.51 JOD 30 129 3 P R D BWD016 181.15 181.16 JOD 30 280 3 P S D BWD016 182.9 182.91 JOD 65 8 3 P R D BWD016 183 183.01 JOD 86 65 3 P R D BWD016 183.7 183.71 JOD 49 39 3 P R D BWD016 184.3 184.31 SBO 75 165 2 P D BWD016 184.4 184.41 JOD 68 172 2 P R D BWD016 186.7 186.71 SBO 86 329 2 P D BWD016 187.35 187.36 ZVQS 62 356 2 P PY APY 2CM THICK D BWD016 187.6 187.61 JOD 56 45 2 P R D BWD016 189.4 189.41 JOD 82 140 2 P R D BWD016 189.6 189.61 SBO 82 172 3 P D BWD016 190 190.01 JOD 52 9 3 P R D BWD016 191.1 191.11 JOD 70 93 3 P S D BWD016 191.5 191.51 ZVQS 57 31 3 P PO PY 8CM THICK D BWD016 191.6 191.61 SBO 82 164 3 P D BWD016 191.9 191.91 JOD 67 25 3 P R D BWD016 193 193.01 JOD 15 47 3 P R D BWD016 194 194.01 ZVQS 76 29 3 P PY 8CM THICK D BWD016 194.1 194.11 JOD 77 107 3 P R D BWD016 194.3 194.31 JOD 72 168 3 P R D BWD016 196.1 196.11 JOD 76 122 3 P R D BWD016 196.6 196.61 JOD 62 356 3 U R D BWD016 197 197.01 SBO 75 165 3 P D BWD016 197.7 197.71 ZVQS 76 356 3 P APY PY 3CM THICK RUNNNG 35CM DOWN CORE D BWD016 198 198.01 JOD 71 160 3 P R D BWD016 198.7 198.71 JOD 82 54 3 P R D BWD016 199.3 199.31 JOD 68 50 3 P S D BWD016 200.45 200.46 JOD 49 315 3 P P D BWD016 200.5 200.51 JOD 68 41 3 P R D BWD016 202 202.01 JOD 62 71 3 P S D BWD016 202.6 202.61 JOD 86 87 3 P R D BWD016 203.9 203.91 ZVQS 82 54 3 P PO PY 15 2CM THICK. HAS BEEN OFFSET ~15MM D BWD016 204.35 204.36 JOD 65 174 3 I R D BWD016 209.3 209.31 JOD 75 163 2 P R D BWD016 209.7 209.71 JOD 81 17 2 P R D BWD016 211.75 211.76 SBO 74 149 2 P D BWD016 213 213.01 JOD 74 40 2 P R D BWD016 214 214.01 JOD 54 96 2 P R D BWD016 215.1 215.11 JOD 52 55 2 P S D BWD016 215.45 215.46 JOD 61 25 2 P R D BWD016 216.9 216.91 JOD 82 3 3 P P D BWD016 217 217.01 SBO 56 186 3 P D BWD016 218.05 218.06 JOD 61 11 3 P P D BWD016 218.35 218.36 JOD 41 23 3 P P D BWD016 220.2 220.21 JOD 26 95 2 P R D BWD016 220.9 220.91 JOD 63 194 2 P R D BWD016 221.05 221.06 SBO 57 203 2 P D BWD016 221.25 221.26 JOD 77 21 2 P S D BWD016 222.35 222.36 JOD 25 111 2 P R D BWD016 222.55 222.56 JOD 65 38 2 P R D BWD016 223.15 223.16 SBO 53 199 2 P R D BWD016 223.9 223.91 JOD 55 19 2 P R D BWD016 225.85 225.86 JOD 17 330 2 I R D BWD016 229 229.01 JOD 79 31 2 I R D BWD016 229.8 229.81 JOD 85 159 2 P R D BWD016 233.65 233.66 JOD 67 58 2 P R D BWD016 239.4 239.41 JOD 85 217 2 P P D BWD016 239.5 239.51 SBO 44 215 2 P D BWD016 240.15 240.16 JOD 89 72 2 P S D BWD016 241.77 241.78 JOD 53 125 2 P S D BWD016 242.26 242.27 JOD 76 45 2 I R D BWD016 242.65 242.66 ZVQS 83 45 2 P PY 5MM WIDE D BWD016 242.8 242.81 JOD 41 111 2 P R D BWD016 243.2 243.21 SBO 45 191 2 P D BWD016 243.25 243.26 JOD 65 15 2 P S D BWD016 243.65 243.66 JOD 33 137 2 P P D BWD016 245 245.01 JOD 49 23 2 P R D BWD016 245.05 245.06 SBO 44 215 2 P D BWD016 246.6 246.61 JOD 18 67 2 P R D BWD016 246.7 246.71 JOD 55 21 2 P R D BWD016 247.25 247.26 ZVQS 80 60 3 P PO GN 10MM WIDE CROSSCUTTING LARGER PYTGMATIC VEINING D BWD016 247.7 247.71 JOD 44 27 3 P R PY D BWD016 248 248.01 JOD 36 195 3 P R D BWD016 248.2 248.21 JOD 35 21 3 P P D BWD016 248.35 248.36 JOD 51 112 3 P R D BWD016 248.57 248.58 JOD 89 56 3 P S D BWD016 248.75 248.76 SBO 49 186 3 P D BWD016 249.8 249.81 SBO 46 200 2 P D BWD016 250 250.01 JOD 58 8 2 P S D BWD016 250.26 250.27 JOD 42 103 2 P R D BWD016 250.45 250.46 ZVQS 89 56 2 P APY PY 8MM WIDE D BWD016 250.95 250.96 JOD 53 100 2 P S D BWD016 252 252.01 JOD 23 346 2 I R D BWD016 252.3 252.31 ZVQS 89 56 2 P QZ PY ~1-2% PYRITE 70MM WIDE D BWD016 252.4 252.41 SBO 49 195 2 P D BWD016 254.4 254.41 JOD 67 290 2 I R GR D BWD016 254.9 254.91 JOD 52 166 2 P R D BWD016 255.65 255.66 JOD 88 69 2 P R D BWD016 255.75 255.76 JOD 64 62 2 P S D BWD016 256.25 256.26 JOD 82 108 2 P S D BWD016 259 259.01 JOD 41 49 2 P S D BWD016 259.1 259.11 JOD 14 349 2 P R D BWD016 271.2 271.21 JOD 62 179 2 P D BWD016 271.25 271.26 JOD 85 39 2 P S D BWD016 273.15 273.16 JOD 81 42 2 P S D BWD016 273.4 273.41 ZVQS 89 140 2 P QZ PY 20MM WIDE D BWD016 273.8 273.81 JOD 45 191 2 P R D BWD016 274.15 274.16 SBO 49 196 2 P D BWD016 274.3 274.31 JOD 81 52 2 P R D BWD016 274.33 274.34 JOD 81 52 2 P R D BWD016 274.85 274.86 JOD 46 200 2 P R D BWD016 274.85 274.86 JOD 88 231 2 P S D BWD016 276.45 276.46 SBO 65 175 2 P D BWD016 277.4 277.41 JOD 82 232 2 P S D BWD016 278.3 278.31 JOD 45 172 2 P R D BWD016 280.23 280.24 JOD 67 33 3 P R D BWD016 280.4 280.41 SBO 47 210 3 P D BWD016 280.97 280.98 JOD 20 14 3 P R D BWD016 282 282.01 JOD 53 200 3 P S D BWD016 282.3 282.31 SBO 44 216 3 P D BWD016 283 283.01 ZFG 56 195 3 P S D BWD016 283.4 283.41 JOD 19 29 3 P S D BWD016 283.95 283.96 JOD 62 179 3 P R D BWD016 284.05 284.06 JOD 68 43 3 P R D BWD016 284.6 284.61 ZVQS 58 17 3 P GN PO 5MM WIDE D BWD016 285.6 285.61 ZVQS 81 42 2 P PO 10MM WIDE D BWD016 288.8 288.81 ZVQS 87 214 2 P GN PY 10MM WIDE D BWD016 289.9 289.91 SBO 42 204 2 P D BWD016 290.1 290.11 JOD 26 31 2 P R D BWD016 290.85 290.86 JOD 61 43 2 P R D BWD016 291.75 291.76 JOD 23 31 2 P R D BWD016 291.85 291.86 JOD 67 35 2 P S D BWD016 293 293.01 JOD 44 30 3 P R D BWD016 293.15 293.16 JOD 85 225 3 P R D BWD016 293.6 293.61 SBO 49 205 3 P D BWD016 293.8 293.81 JOD 60 76 3 P R D BWD016 294.15 294.16 JOD 32 307 3 P R D BWD016 295.4 295.41 JOD 53 209 3 P R D BWD016 295.75 295.76 JOD 77 84 3 P R D BWD016 297.1 297.11 SBO 66 206 3 P D BWD016 297.15 297.16 JOD 86 41 3 P S D BWD016 298.2 298.21 JOD 79 10 3 P S D BWD016 298.8 298.81 JOD 41 300 3 P R D BWD016 299 299.01 JOD 82 20 3 P R D BWD016 299.4 299.41 JOD 59 192 3 P R D BWD016 299.85 299.86 JOD 52 183 3 P R D BWD016 300.1 300.11 JOD 74 27 3 P R D BWD016 300.15 300.16 ZVQS 82 20 3 P PY GN 15MM WIDE D BWD016 300.35 300.36 JOD 7 156 3 P S D BWD016 300.7 300.71 SBO 52 192 3 P D BWD016 301.9 301.91 JOD 56 343 3 P R D BWD016 302.25 302.26 JOD 56 204 3 P R D BWD016 302.75 302.76 JOD 8 296 3 P S D BWD016 303.6 303.61 JOD 50 214 3 P S D BWD016 304.42 304.43 JOD 88 221 3 P S D BWD016 304.55 304.56 SBO 50 214 3 P D BWD016 305.2 305.21 JOD 11 350 3 P S D BWD016 305.85 305.86 ZVQS 67 69 3 P PY 10MM WIDE D BWD016 307.85 307.86 SBO 56 204 3 P D BWD016 308.62 308.63 JOD 20 147 3 P R D BWD016 308.8 308.81 JOD 4 36 3 P S D BWD016 309.8 309.81 JOD 31 11 3 P S D BWD016 312 312.01 JOD 8 296 3 P R D BWD016 312.2 312.21 ZVQS 66 56 3 P PY PY SET OF 6 10MM QTZ VEINS WITH ~1% SULPHIDES D BWD016 312.55 312.56 JOD 46 118 3 P R D BWD016 312.8 312.81 JOD 26 341 3 P R D BWD016 313.9 313.91 JOD 47 147 3 P R D BWD016 315.1 315.11 JOD 67 35 3 P R D BWD016 315.6 315.61 JOD 46 338 3 P S D BWD016 315.8 315.81 JOD 40 327 3 P R D BWD016 316 316.01 JOD 52 114 3 P R D BWD016 316.3 316.31 ZVQS 56 55 3 P PO PY 30MM WIDE ~ 5% SULPHIDES D BWD016 316.35 316.36 JOD 69 54 3 P S D BWD016 316.7 316.71 JOD 48 320 3 P R D BWD016 318 318.01 JOD 7 198 3 P S D BWD016 322 322.01 JOD 13 288 3 P R D BWD016 322.9 322.91 JOD 21 4 3 P R D BWD016 322.95 322.96 JOD 63 196 3 P S D BWD016 323.8 323.81 ZVQS 85 24 3 P PO PY 10-20MM WIDE ~ 30% SULPHIDES D BWD016 324 324.01 SBO 63 196 3 P D BWD016 324.95 324.96 JOD 73 41 3 P S D BWD016 326.4 326.41 JOD 53 330 3 P R D BWD016 328.5 328.51 SBO 62 188 3 P D BWD016 328.65 328.66 JOD 40 161 3 P R D BWD016 330.7 330.71 JOD 52 122 3 P R D BWD016 330.88 330.89 JOD 35 69 3 P R D BWD016 331.5 331.51 JOD 57 92 3 P R D BWD016 332.35 332.36 ZVQS 87 246 3 P PY 10MM WIDE 85% SULPHIDES D BWD016 333 333.01 SBO 66 192 3 P D BWD016 333.25 333.26 JOD 69 62 3 P R D BWD016 335.25 335.26 JOD 43 120 3 P R D BWD016 337.1 337.11 JOD 46 76 3 P R D BWD016 337.5 337.51 JOD 26 341 3 P R D BWD016 339.85 339.86 JOD 88 205 3 P R D BWD016 340.3 340.31 JOD 42 83 3 P S D BWD016 340.75 340.76 JOD 65 48 3 P R D BWD016 343 343.01 JOD 82 328 3 P S D BWD016 344.45 344.46 JOD 28 82 3 P S D BWD016 344.66 344.67 ZVQS 77 47 3 P PO PY OVERPRINTED BY ANOTHER QZ VEIN. 80MM THICK. PO>PY D BWD016 344.8 344.81 SBO 88 205 3 P D BWD016 345.17 345.18 JOD 15 120 3 P D BWD016 345.6 345.61 ZVQS 78 48 3 P PO SP 10MM WIDE WITH 30-40% SULPHIDES D BWD016 347.1 347.11 JOD 66 58 3 P R D BWD016 348.1 348.11 JOD 33 119 3 P S D BWD016 349.1 349.11 JOD 130 60 3 P R D BWD016 350.66 350.67 JOD 15 141 3 P R CARB D BWD016 351.55 351.56 JOD 42 197 3 P R D BWD016 351.6 351.61 JOD 29 148 3 P R D BWD016 351.88 351.89 JOD 17 126 3 P R D BWD016 356 356.01 SBO 86 11 2 P D BWD016 357.4 357.41 ZVQS 78 57 2 P PO PY 10MM WIDE D BWD016 360.55 360.56 JOD 21 115 2 P R D BWD016 362.17 362.18 ZVQS 51 73 2 P QZ PY 100MM WIDE 1-2% SULPHIDE D BWD016 362.32 362.33 ZVQS 42 4 2 P PO PY 15-20% SULPHIDES. 20MM THICK D BWD016 362.9 362.91 JOD 53 94 2 P R D BWD016 364.1 364.11 JOD 28 126 3 P R D BWD016 366 366.01 ZVQS 70 75 3 P QZ PO 80MM WIDE VEIN WITH ~2% SULPHIDES D BWD016 372.8 372.81 JOD 42 128 2 P R D BWD016 373.45 373.46 ZVQS 74 51 2 P SP PO 20-30MM WIDE WITH ~40% SULPHIDES D BWD016 374.15 374.16 JOD 31 138 2 P R D BWD016 374.65 374.66 SBO 78 210 2 P D BWD016 376.9 376.91 ZVQ 64 73 3 P QZ CARB 80MM WIDE D BWD016 377.1 377.11 JOD 62 345 3 P R D BWD016 378.7 378.71 JOD 62 53 2 P R D BWD016 379.45 379.46 JOD 19 298 2 P R D BWD016 380.3 380.31 JOD 78 25 2 P S D BWD016 380.5 380.51 SBO 88 205 2 P D BWD016 381.4 381.41 ZVQS 78 32 2 U SP PY 40-50MM WIDE. 15% SULPHIDES D BWD016 385.27 385.28 JOD 42 187 2 P S D BWD016 386 386.01 SBO 72 218 2 P D BWD016 389.8 389.81 JOD 54 113 2 P R D BWD016 391.35 391.36 SBO 72 218 2 P D BWD016 391.8 391.81 JOD 88 29 2 P R D BWD016 391.9 391.91 ZVQS 83 217 2 I PY PO 160MM WIDE. ~15% SULPHIDES. MEASUREMENT TAKEN FROM UPHOLE CONTACT AS OTHER CONTACT IS VERY IRREGULAR D BWD016 392.55 392.56 JOD 43 157 2 P P D BWD016 392.65 392.66 SBO 52 181 2 P D BWD016 395 395.01 SBO 79 214 2 P D BWD016 395.5 395.51 JOD 86 138 2 P S D BWD016 397 397.01 JOD 86 207 2 U P D BWD016 401 401.01 SBO 50 199 2 P D BWD016 401.5 401.51 JOD 8 355 2 P R D BWD016 401.55 401.56 JOD 83 101 2 P R D BWD016 403 403.01 SBO 75 211 2 P D BWD016 403.15 403.16 JOD 69 4 2 U R D BWD016 403.8 403.81 JOD 42 3 3 P S D BWD016 406.15 406.16 JOD 65 35 3 P R D BWD016 407.4 407.41 SBO 57 261 2 P D BWD016 407.9 407.91 JOD 63 240 2 U R D BWD016 418.55 418.56 ZSO 75 211 2 P FAULT CONTACT. PARALLEL TO BEDDING D BWD016 419.28 419.29 JOD 61 104 2 P S D BWD016 456.2 456.21 SBO 83 45 2 P D BWD016 467.05 467.06 SBO 79 48 2 P D BWD016 468.1 468.11 JOD 16 218 2 P R D BWD016 469 469.01 JOD 69 173 2 U R D BWD016 469.05 469.06 SBO 22 246 2 P S D BWD016 471.1 471.11 SBO 72 25 2 P D BWD016 472 472.01 JOD 4 191 2 P R D BWD016 473.1 473.11 JOD 62 1 2 P R D BWD016 473.65 473.66 JOD 32 211 2 I R D BWD016 473.9 473.91 JOD 73 251 2 P S D BWD016 478.55 478.56 JOD 22 246 2 P S D BWD016 478.95 478.96 SBO 68 36 2 P D BWD016 480.65 480.66 JOD 75 35 2 P S D BWD016 483 483.01 JOD 69 0 2 P S D BWD016 483.3 483.31 JOU 83 45 2 P D BWD016 484.6 484.61 SBO 81 262 2 P U FLAME STRUCTURE D BWD016 485.25 485.26 JOD 79 248 2 P R D BWD016 485.67 485.68 JOD 78 216 2 P S D BWD016 486 486.01 JOD 36 216 2 P S D BWD016 486.25 486.26 JOD 86 18 2 P S D BWD016 487 487.01 JOD 77 257 2 P R D BWD016 488.5 488.51 SBO 81 262 2 P D BWD016 490.35 490.36 JOD 45 148 2 P R D BWD016 491.84 491.85 SBO 85 48 2 P D BWD016 492.45 492.46 JOD 81 35 2 P R D BWD016 495.05 495.06 JOD 85 215 2 P S D BWD016 495.35 495.36 SBO 87 42 2 P D BWD016 502.5 502.51 JOD 25 115 2 P R D BWD016 504.8 504.81 JOD 15 349 2 P R D BWD016 508.1 508.11 JOD 86 57 2 P S D BWD016 508.55 508.56 SBO 86 57 2 P D BWD016 509.6 509.61 JOD 88 51 2 P S D BWD016 512.5 512.51 JOD 43 46 2 P S D BWD016 516.5 516.51 JOD 80 56 2 P R D BWD016 518.4 518.41 ZVQS 79 65 2 P QZ PY D BWD016 518.6 518.61 SBO 84 54 2 P D BWD016 518.65 518.66 JOD 0 90 2 P R D BWD016 520.9 520.91 JOD 68 49 2 P R D BWD016 521.75 521.76 JOD 49 145 2 P S D BWD016 521.9 521.91 JOD 55 45 2 P R D BWD016 524.9 524.91 JOD 21 154 2 P R D BWD016 525.1 525.11 JOD 78 53 2 P R D BWD016 525.6 525.61 JOD 76 7 3 P R D BWD016 526.7 526.71 SBO 75 42 3 P D BWD016 528 528.01 JOD 86 170 3 P R D BWD016 528.9 528.91 JOD 14 9 3 P S D BWD016 533.4 533.41 SBO 72 177 3 P BELOW ALTERED AREAA D BWD016 534.5 534.51 JOD 83 202 3 U R D BWD016 535.6 535.61 JOD 26 179 3 P R D BWD016 537 537.01 SBO 69 188 3 P D BWD016 537.8 537.81 JOD 62 52 3 P R D BWD016 537.9 537.91 JOD 80 133 3 P R D BWD016 538.1 538.11 SBO 82 29 3 P ABOVE ALTERED AREA D BWD016 538.55 538.56 JOD 86 149 3 U R D BWD016 540.05 540.06 SBO 75 42 3 P DIRETY AFTER ALTERED AREA D BWD016 540.6 540.61 JOD 31 17 3 P R D BWD016 542.05 542.06 JOD 46 10 3 P S D BWD016 542.35 542.36 JOD 34 235 3 P R D BWD016 543 543.01 SBO 89 105 3 P D BWD016 544.23 544.24 JOD 83 107 3 P R D BWD016 544.8 544.81 JOD 32 243 3 P R D BWD016 546.1 546.11 JOD 89 105 3 P S ALONG MUDSTONE BEDING PLANE? D BWD016 546.65 546.66 JOD 90 316 3 P S D BWD016 548.8 548.81 SBO 71 46 2 P D BWD016 550 550.01 JOD 80 170 2 P R D BWD016 552.85 552.86 SBO 82 51 2 P D BWD016 553.85 553.86 JOD 82 130 2 P S D BWD016 557.9 557.91 JOD 60 282 2 P P D BWD017 36.37 36.38 IMD -70 not orientated core D BWD017 52.35 52.36 JOD 62 134 3 P R CL CARB D BWD017 59.8 59.81 JOD 81 260 3 P R CARB D BWD017 78.4 78.41 JOD 30 9 3 P R CL D BWD017 84.6 84.61 ZVQ 83 94 3 U R CL D BWD017 88.6 88.61 JOD 54 114 3 P R CL D BWD017 90 90.01 ZVQ 80 105 3 U R CL QZ 5MM WIDE. ABUNDANT CHLORITE IN CENTRE OF VEIN D BWD017 92.3 92.31 ZVQ 76 316 3 P R CL QZ D BWD017 98.4 98.41 IMD -30 0 P NOT ORI'ED CORE. Footwall contact D BWD017 101.8 101.81 SBO 61 262 D BWD017 101.85 101.86 ZVQ 73 272 2 U QZ CL D BWD017 108.45 108.46 ZVQ 27 326 3 P QZ 5MM THICK D BWD017 114.4 114.41 SBO 55 199 2 P D BWD017 115.3 115.31 ZVQ 1 45 3 P QZ D BWD017 116.5 116.51 SBO 57 193 3 P D BWD017 117.8 117.81 SBO 50 184 3 P D BWD017 119.85 119.86 JOD 65 313 3 P S CL D BWD017 121.3 121.31 JOD 52 84 3 P S CL D BWD017 121.75 121.76 ZVQ 55 181 3 P QZ PY D BWD017 122.95 122.96 SBO 52 186 3 P D BWD017 125.1 125.11 SBO 54 188 3 P D BWD017 131.3 131.31 SBO 54 188 3 P D BWD017 136.1 136.11 SBO 57 193 3 P D BWD017 139.6 139.61 JOD 36 335 3 P S CL D BWD017 140.5 140.51 SBO 65 185 3 P D BWD017 143.2 143.21 ZVQ 53 189 3 P QZ CL D BWD017 144.4 144.41 SBO 61 197 3 P D BWD017 145.3 145.31 ZFC 78 207 1 P S CL CLAY SHATTER ZONE 10CM WIDTH D BWD017 147.5 147.51 SBO 78 207 3 P in SIC D BWD017 147.55 147.56 SFO 82 25 3 P CLEAVAGE? PORPHYROBLAST ALINGMENT D BWD017 149.2 149.21 SBO 74 198 3 P D BWD017 152.8 152.81 SBO 42 181 3 P D BWD017 157.6 157.61 SBO 41 164 3 P D BWD017 160 160.01 ZVQ 29 156 1 P QZ GN QZ-GALENA-CHALCOPYRITE-PYRITE VEIN CLAY SMEAR ON HANGING WALL. INFERRED FROM BEDDING NO SUCCESSFUL ORI D BWD017 162 162.01 SBO 48 185 3 P D BWD017 163.6 163.61 ZVQ 21 141 3 P QZ D BWD017 164.2 164.21 ZFC -60 0 P CLAY 5CM WIDE. INTACT CLAST SUPPORTED BRECCIA. VERY INTACT D BWD017 165.55 165.56 JOD 73 187 3 P CLAY D BWD017 166.5 166.51 SBO 35 162 3 P SUBTLE FEATURE D BWD017 167.65 167.66 SBO 52 195 3 P SUBTLE FEATURE BOTH LOOK LIKE BEDDING D BWD017 167.9 167.91 SBO 82 191 3 P D BWD017 168.1 168.11 ZVQ 20 170 3 P QZ PY D BWD017 169 169.01 ZVQ 59 298 3 P D BWD017 169.3 169.31 ZVQ 29 137 3 P QZ PY D BWD017 172.2 172.21 SBO 84 194 3 P LOW CONFIDENCE. SUBTLE FEATURE D BWD017 174.5 174.51 SBO 42 174 3 P D BWD017 175.3 175.31 ZVQ 90 259 3 P QZ CCP 4CM TRUE WIDTH VEIN D BWD017 175.4 175.41 SBO 54 190 3 P THIS IS REAL BEDDING! D BWD017 176.4 176.41 SBO 69 191 3 P SSG-SIC CONTACT D BWD017 179.4 179.41 ZVQ -55 0 U LARGE QZ-PY VEIN D BWD017 182 182.01 SBO 58 178 3 P D BWD017 184.3 184.31 ZVQ 62 137 3 P QZ PY ODD LAMINATED QZ-PY VEIN D BWD017 184.8 184.81 ZVQ 37 171 3 P PY QZ D BWD017 186.3 186.31 SBO 50 171 3 P D BWD017 189.25 189.26 SBO 47 169 3 P D BWD017 189.3 189.31 ZVQ 46 184 3 P QZ PY D BWD017 194 194.01 SBO 77 184 3 P D BWD017 196 196.01 ZVQ 31 179 3 P QZ PY QZ-PY-GALENA VEIN D BWD017 198.35 198.36 ZFC 87 220 3 P CLAY GR HANGING WALL CONTACT OF A MAJOR STRUCTURE 1.7M DOWN HOLE INTERESECTION D BWD017 203.65 203.66 ZFC 82 191 2 P CLAY CLAST SUPPORTED BRECCIA 8CM WIDE D BWD017 207 207.01 ZVQ 79 60 2 P QZ PY D BWD017 212.4 212.41 ZVQ 69 32 2 P GN D BWD017 213.3 213.31 SBO 83 55 2 P D BWD017 214.2 214.21 SBO 38 180 3 P D BWD017 217.9 217.91 JOD 42 140 3 P SL CL D BWD017 218.6 218.61 ZVQ 83 47 3 P QZ PY D BWD017 219.1 219.11 ZVQ 59 156 3 P QZ PY D BWD017 219.11 219.12 SFO 83 47 3 P VAGUE FOLIATION??? OUTLINED BY PORPHRYOBLASTS D BWD017 221.3 221.31 SBO 38 87 3 P THINK IT'S BEDDING. FEATURE REPLICATED NEARBY D BWD017 223.1 223.11 ZVQ 7 123 3 P QZ PY D BWD017 230.2 230.21 JOD 52 149 2 P S CL D BWD017 231.4 231.41 SBO 41 93 2 P D BWD017 238.25 238.26 ZVQ 25 333 2 P QZ PY D BWD017 241.1 241.11 ZFC -30 P P GR HIGH STRAIN ZONE IN GRAPHITIC UNIT. NO ORI ASS WITH QZ VEINS PYRITE D BWD017 242.9 242.91 SFO 75 102 2 P PY FOLIATION DEFINED BY PYRITE STRINGERS D BWD017 243.8 243.81 SBO 66 201 2 P D BWD017 248.2 248.21 SBO 29 168 2 P D BWD017 251.7 251.71 SBO 88 237 3 P D BWD017 251.85 251.86 ZVQ 61 99 3 P QZ PY D BWD017 252.35 252.36 ZVQ 89 27 3 P D BWD017 253.7 253.71 SBO 67 78 3 P D BWD017 255.3 255.31 SBO 62 57 3 P D BWD017 262.5 262.51 SBO 77 51 3 P D BWD017 266.75 266.76 SBO 69 66 3 P D BWD017 271 271.01 JOD 66 268 3 P S CL D BWD017 271.03 271.04 ZVQ 72 213 3 P QZ PY D BWD017 271.6 271.61 SBO 62 57 3 P D BWD017 273.5 273.51 SBO 67 56 3 P D BWD017 276.5 276.51 ZFC 87 8 3 P S CL CLAY CLAY=ROCK FLOUR. 2 CM WIDE HIGH STRAIN ZONE D BWD017 278.3 278.31 ZVQ 78 184 3 P QZ PY D BWD017 280.2 280.21 SBO 72 41 3 P D BWD017 282.2 282.21 ZVQ 89 226 3 P QZ PY D BWD017 285.6 285.61 JOD 82 213 3 P D BWD017 290.9 290.91 SBO 66 46 3 P D BWD017 295.1 295.11 SBO 67 41 3 P D BWD017 300 300.01 ZVC 76 129 3 P S CAL CL D BWD017 305 305.01 SBO 68 61 3 P D BWD017 306 306.01 ZVQ 27 182 3 P QZ PY TRACE PY IN VEIN D BWD017 306.65 306.66 SBO 79 64 3 P D BWD017 307.05 307.06 JOD 58 268 3 P S CL D BWD017 307.55 307.56 ZVQ 59 251 3 P QZ PY D BWD017 309.5 309.51 SBO 72 56 3 P D BWD017 313 313.01 SBO 72 56 3 P D BWD017 317.7 317.71 ZVQ 1 46 3 P APY CCP QZ VEIN WITH INTERGROWN APY AND CHALCO D BWD017 318.8 318.81 ZVQ 20 213 3 P QZ D BWD017 319.75 319.76 ZVQ 49 238 3 P QZ PY D BWD017 319.9 319.91 ZVQ 20 158 3 P QZ PY D BWD017 322.5 322.51 SBO 72 60 3 P D BWD017 325.5 325.51 JOD 87 256 3 P D BWD017 329.15 329.16 SBO 67 56 3 P D BWD017 333.2 333.21 SBO 72 56 3 P D BWD017 333.55 333.56 JOD 79 299 3 P R CAL D BWD017 338 338.01 SBO 71 51 3 P D BWD017 341.7 341.71 ZVQ 76 46 3 P QZ D BWD017 347.1 347.11 SBO 82 38 3 P D BWD017 354.7 354.71 SBO 81 46 3 P D BWD018 27.6 27.61 ZFC 71 67 3 P S CL INTACT ROCK 3-4CM WIDE SUBTLE STRUCTURE D BWD018 29.95 29.96 ZFC 70 45 3 P S CL CLAY INTACT ROCK ABOUT 30CM WIDE. D BWD018 31.4 31.41 ZFC 53 359 2 P S CL CLAY 3 CM WIDE D BWD018 37.3 37.31 SBO 12 234 2 P LOWISH CONFIDENCE D BWD018 45.41 45.42 JOD 85 313 2 P S CL D BWD018 49.4 49.41 ZVC 57 42 2 P CAL D BWD018 53.4 53.41 ZFC -20 0 P P CL CLAY 20CM DOWN HOLE INTERSEPT D BWD018 54.6 54.61 JOD 68 189 3 U S CL D BWD018 59.15 59.16 ZVQ 57 196 3 P QZ D BWD018 62.95 62.96 JOD 49 71 3 P R CL D BWD018 63.7 63.71 ZVQ 59 193 2 P QZ D BWD018 63.75 63.76 ZFC 55 189 2 P S CL CLAY 10CM DOWN HOLE INTERESECT. CLAST SUPPORTED BX D BWD018 66.27 66.28 ZVQ 47 191 2 P QZ D BWD018 66.3 66.31 JOD 35 52 2 P S CL D BWD018 69.2 69.21 SBO 63 186 2 P D BWD018 71.1 71.11 SBO 37 194 2 P D BWD018 72.65 72.66 ZVO 49 52 2 P CL CAL THIN 2MM WIDE PLUS MOVEMENT??? PARALLEL STRUYCT 22CM DEEPER D BWD018 78.4 78.41 SBO 47 191 3 P D BWD018 81 81.01 SBO 45 183 3 P D BWD018 81.7 81.71 ZFC 85 164 1 P S CL CLAY D BWD018 87.15 87.16 JOD 42 198 3 P S CL D BWD018 88.55 88.56 SBO 29 203 3 P D BWD018 89.7 89.71 SBO 26 183 3 P D BWD018 93.1 93.11 SBO 48 199 3 P D BWD018 98.3 98.31 SBO 57 176 3 P D BWD018 98.5 98.51 ZVC 17 222 3 P CAL INTERNAL TEXTURE IS A MOSAIC BRECCIA D BWD018 100.3 100.31 JOD 54 59 3 P S CL D BWD018 102 102.01 ZVQ 86 272 3 P QZ PY 5CM WIDE VEIN D BWD018 104.9 104.91 ZVQ 37 205 3 P QZ 3MM WIDE D BWD018 106.9 106.91 SBO 48 200 3 P U THINK UP YOUNGING D BWD018 110.1 110.11 ZVC 54 119 3 P CAL 1CM WIDE D BWD018 111.65 111.66 SBO 36 195 3 P D BWD018 113.5 113.51 SBO 48 203 3 P D BWD018 115.1 115.11 JOD 52 69 3 P S CL D BWD018 117.51 117.52 SBO 52 207 3 P D BWD018 118.4 118.41 ZVQ 47 184 3 P QZ CL D BWD018 120.2 120.21 SBO 35 211 3 P D BWD018 123.3 123.31 ZVC 89 150 3 P CAL D BWD018 128 128.01 SBO 53 185 3 P D BWD018 129.9 129.91 SBO 45 206 3 P D BWD018 130.2 130.21 ZVQ 83 341 3 P QZ D BWD018 132.6 132.61 SBO 33 191 3 P D BWD018 136.7 136.71 ZVC 30 34 3 P CAL D BWD018 144.3 144.31 ZVQ 34 201 3 P QZ CL D BWD018 145 145.01 SBO 59 214 3 P U GRADED BEDDING D BWD019 8 8.01 SBO -75 0 P D BWD019 13.5 13.51 SBO -70 0 P D BWD019 27.9 27.91 ZVQ -20 0 P QZ D BWD019 29.8 29.81 ZFC -15 0 P CL FAIRLY INTACT CORE D BWD019 34.3 34.31 ZRO -45 0 P CL 40CM WIDE FRACTURE ZONE D BWD019 36.9 36.91 ZFC -15 0 P CL CLAY 3CM WIDE STRUCTURE PLUS ASSOC FRACTURE ZONE D BWD019 39 39.01 ZFC -45 0 P CL CLAY 10CM WIDE STRUCTURE D BWD019 39.1 39.11 ZRO -45 0 P CL 39.1 TO 54.4 M WIDE FRACTURE ZONE D BWD019 44 44.01 ZFX -20 0 P CL CLAY CLAST SUPPORTED BRECCIA D BWD019 49.5 49.51 ZFC 84 22 2 P P CL CLAY MATRIX SUPPORTED BX D BWD019 50.2 50.21 SBO 30 193 3 P D BWD019 52 52.01 JOD 53 256 3 P S CL D BWD019 53.6 53.61 SBO 52 176 3 P D BWD019 54.9 54.91 SBO 46 207 3 P D BWD019 55.6 55.61 ZFC 22 17 3 P P CL D BWD019 57.8 57.81 ZFC -5 0 U S CL D BWD019 59.4 59.41 JOD 45 218 2 P S CL D BWD019 62.5 62.51 ZFC -10 0 U P CL CLAY D BWD019 65.8 65.81 SBO -45 0 P D BWD019 68.2 68.21 ZFC -20 0 U CL FAIRLY INTACT ROCK MASS WITH FAIRLY EVENLY SPACED BREAKS D BWD019 70.8 70.81 JOD 53 216 2 P S CL D BWD019 71.5 71.51 JOD 53 73 2 P P CL D BWD019 72.6 72.61 ZFX -65 0 P P CL 72.6 TO 76.84 FRACTURE ZONE D BWD019 73 73.01 SBO -75 0 P D BWD019 78.15 78.16 JOD 83 206 2 U S CL D BWD019 78.7 78.71 ZVQS 28 205 2 P QZ PY 5 SMALL QZ VEIN WITH A PATCH OF PYRITE FORMING WITHIN THE VEIN AS WELL AS A SLIGHT DEXTRAL DISPLACEMENT D BWD019 78.75 78.76 JOD 25 89 2 I R D BWD019 78.8 78.81 ZVQS 43 171 2 I QZ PY CLORITE FORMING ON THE SELVAGE OF THE QZ VEIN D BWD019 78.95 78.96 ZVQS 53 134 2 I QZ PY D BWD019 79.16 79.17 JOD 42 106 2 U CL APY SPECS OF APY FRACTURE COATING D BWD019 79.65 79.66 JOD 62 154 2 U R D BWD019 79.75 79.76 ZVQ 38 79 2 U QZ CL HANGING WALL OF A FAULT WITH A SMALL QZ VEIN AND ON THE CONTACT IS A SERICITISED SEDIMENTARY ZONE D BWD019 80.5 80.51 ZFN 0 QZ GR 1M FAULT WITH QZ VEINLETS AND SOME CARBONACEOUS RUBBLE D BWD019 82.8 82.81 JOD -35 0 U S D BWD019 83.44 83.45 ZVQ 0 I QZ SERI PTIGMATIC AND IRREGULAR VEINS SUPPORTED BY A SERICITISED SEDMENTARY MATRIX D BWD019 84.6 84.61 JOD 82 13 0 U R D BWD019 84.65 84.66 ZVQ 68 126 0 U QZ 40CM SERICITISED AND QZ VEIN SECTION WITH CHLORITE FORMING ON THE VEIN SELVAGES D BWD019 85.2 85.21 ZVQS -50 0 I QZ PY D BWD019 85.8 85.81 JOD -50 0 I R D BWD019 87.07 87.08 SBO -50 0 U BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD019 87.6 87.61 JOD -40 0 P S CAL QZ STRIATIONS ON THE FRACTURE SURFACE FROM STRIKE SLIP D BWD019 88.48 88.49 ZFC -20 0 CL BRECCIATED FRAGMENTS INSIDE A CHLORITIC MATRIX THAT HAS INTRUDED INTO WHAT LOOKS TO BE A SERICITISED GREYWACKE D BWD019 89.8 89.81 ZFX -30 0 I D BWD019 90 90.01 ZFN 0 I R GR 2 M FAULT ZONE WITH BRECCIATED FRAGMENTS AND PARTS OF THIS SECTION ARE RUBBLE D BWD019 92.15 92.16 SBO -75 0 U BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD019 92.95 92.96 ZVQS 32 140 2 P QZ PY 15CM THICK QZ VEIN WITH TRACES OF SULPHIDES D BWD019 93.16 93.17 JOD 55 246 2 U PY PY FRACTURE COATING D BWD019 93.22 93.23 SBO 39 226 2 U BEDDING PLANE FROM SILTSTONE TO GREYWACKE D BWD019 93.5 93.51 JOD 82 263 3 P S CAL PY D BWD019 93.67 93.68 JOD 50 280 3 P S GR D BWD019 93.68 93.69 LIS 100 3 P S GR STRIATIONS ARE AT 100 DEGREES OF ORIENTATION D BWD019 94.7 94.71 ZVC 80 173 3 P QZ CAL QZ-CALCITE VEINLET D BWD019 94.8 94.81 ZVQ 34 160 3 U QZ CL D BWD019 95 95.01 JOD 90 345 3 U R D BWD019 95.6 95.61 JOD 78 177 3 I R CAL D BWD019 96 96.01 JOD 76 161 3 P S PL PY DISSEMINATED PYRITE CRYSTALS ON THE JOINT FACE D BWD019 96.3 96.31 JOD 51 69 3 P S GR D BWD019 96.52 96.53 SBO 33 135 3 BEDDING PLANE FROM SILTSTONE TO GREYWACKE D BWD019 97.1 97.11 JOD 78 83 3 P S D BWD019 97.46 97.47 SBO 32 164 3 I BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD019 98 98.01 JOD 37 179 3 P S CAL D BWD019 98.37 98.38 JOD 76 15 3 U S D BWD019 98.55 98.56 ZVQS -55 0 U QZ PY D BWD019 99.9 99.91 JOD -50 0 P D BWD019 100.72 100.73 ZFN 0 FAULT WITHIN A FINER GRAINED SEDIMENTARY MATRIX D BWD019 102 102.01 ZVQ -15 0 U QZ D BWD019 103 103.01 JOD -5 0 U R D BWD019 104.9 104.91 JOD 20 208 3 P S PY CAL D BWD019 105 105.01 JOD 50 190 3 P S CL D BWD019 105.5 105.51 JOD 81 69 3 P S GR D BWD019 105.88 105.89 JOD 57 176 3 P S CAL D BWD019 105.95 105.96 ZVQ 23 41 3 P QZ PY D BWD019 106.34 106.35 SBO 49 125 3 U BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD019 106.8 106.81 JOD 78 83 3 U D BWD019 107.22 107.23 JOD 62 154 3 U R D BWD019 107.7 107.71 JOD 83 102 3 U S GR CL D BWD019 108.7 108.71 ZVO 53 174 3 U CL D BWD019 109.66 109.67 SBO 10 81 3 S 15 BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD019 109.92 109.93 ZVQ 2 154 3 P QZ D BWD019 110.05 110.06 SBO 10 27 3 P BEDDING PLANE FROM A GREYWACKE TO A FINER GRAINED SANDSTONE D BWD019 110.55 110.56 JOD 46 197 3 P S D BWD019 110.84 110.85 SBO 30 193 3 U BEDDING PLANE FROM A GREYWACKE TO A FINER GRAINED SANDSTONE D BWD019 111.07 111.08 ZVQ 52 199 3 P QZ CL D BWD019 111.5 111.51 ZVQ 35 77 3 P QZ CL D BWD019 111.7 111.71 SBO 27 242 3 P S BEDDING PLANE FROM GREYWACKE TO MUDSTONE D BWD019 112 112.01 SBO 11 253 3 P BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD019 112.2 112.21 ZVQ 80 353 3 P QZ SERI 2 D BWD019 112.8 112.81 SBO 25 219 3 I CAL BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD019 113.7 113.71 ZVO 79 35 3 U CL D BWD019 114.25 114.26 ZVQS 62 46 3 I QZ APY D BWD019 114.8 114.81 SBO 31 173 3 I BEDDING PLANE FROM GREYWACKE TO SILT-MUDSTONE D BWD019 115 115.01 JOD 64 70 3 U CL D BWD019 115.65 115.66 ZVQ 53 52 3 I QZ D BWD019 116.7 116.71 ZVQ 85 11 3 U QZ THE QZ VEIN SITS AT A 20 DEGREE ANGLE TOMTHE CORE AXIS BUT IT THEN BENDS BACK AROUND IN AN OVAL SHAPE D BWD019 117 117.01 SBO 47 154 3 I BEDDING PLANE FROM MUDSTONE TO GREYWACKE D BWD019 117.23 117.24 SBO 35 190 3 P BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD019 118 118.01 ZVC -60 0 U CAL CL D BWD019 118.3 118.31 ZVQ -35 0 U QZ CL D BWD019 119.25 119.26 ZVQ -20 0 P R CAL D BWD019 119.72 119.73 ZVC 18 333 3 P CAL CL BRECCIATED PLAGIOCLASE WITHIN THE CARBONATE VEIN D BWD019 120 120.01 JOD 72 156 3 U S D BWD019 120.25 120.26 ZVQ 85 351 3 U QZ D BWD019 120.75 120.76 SBO 27 193 3 U BEDDING PLANE OF SILTSTONE INETWEEN TWO GREYWACKE BANDS D BWD019 121.05 121.06 SBO 25 217 3 I CLEAR BEDDING PLANE FROM SILTSTONE TO GREYWACKE D BWD019 121.43 121.44 JOD 22 126 3 U S D BWD019 121.75 121.76 SBO 20 206 3 U BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD019 122.2 122.21 ZVC 32 7 3 P CL PY CARBONATE VEIN WITH SOME SPECKS OF PY AS WELL AS CHLORITE D BWD019 123 123.01 JOD 53 268 3 P S GR CAL D BWD019 123.9 123.91 SBO -80 0 U S CL CAL D BWD019 124.62 124.63 SBO -35 0 U D BWD019 125 125.01 ZVQ -35 0 I PL QZ D BWD019 126.2 126.21 SBO -70 0 U D BWD019 126.5 126.51 YGB 0 U YOUNGING IN AN UPWARDS SUBTLE DIRECTION D BWD019 127.1 127.11 SBO -60 0 I BEDDING PLANE IS GOING FROM GREYWACKE TO MUDSTONE DOWNHOLE D BWD019 127.88 127.89 ZVQ 53 24 3 U QZ D BWD019 127.9 127.91 JOD 53 24 3 U GR D BWD019 128.14 128.15 JOU 80 12 3 P U UNDIVIDED JOINT D BWD019 128.5 128.51 ZVQ 45 59 3 S GR ALMOST A SLICKENSIDE SURFACE D BWD019 129.2 129.21 JOD 42 64 3 S CAL PL D BWD019 129.95 129.96 JOD 71 15 3 P S CAL CL CARBONATE VEIN RUNNING ALONT THE SELVAGE OF A FRACTURE D BWD019 130.08 130.09 ZVQ 54 204 3 U QZ D BWD019 130.3 130.31 JOD 79 203 3 I R PY D BWD019 130.85 130.86 JOD 41 211 3 P S D BWD019 131.54 131.55 ZVQS 48 170 3 U QZ PY SPECKS OF BOTH APY AND PY D BWD019 132.59 132.6 SBO 50 191 3 P BEDDING PLANE FROM MUDSTONE TO FINER GRAINED SANDSTONE D BWD019 133 133.01 JOD 49 54 3 U S CAL PY D BWD019 133.67 133.68 ZVQ 8 333 3 P S QZ CL D BWD019 134.08 134.09 JOD 82 195 3 S S QZ APY D BWD019 135.1 135.11 ZFN 0 RUBBLE ZONE D BWD019 136.4 136.41 ZVQS -80 0 QZ PY D BWD019 137.2 137.21 ZFN 0 RUBBLE ZONE D BWD019 137.8 137.81 JOD 70 108 1 CAL D BWD019 138.2 138.21 ZVS -30 0 PY FRACTURED SULPHIDE VEIN D BWD019 138.52 138.53 ZFN 0 HIGHLY FRACTURED UNDIVIDED ZONE D BWD019 139 139.01 ZVQ -60 0 QZ SERI QZ VEIN WITH A PATCH OF SERICITE ON THE FOOTWALL D BWD019 140 140.01 ZFG 0 SMALL FAULT GOUGE D BWD019 140.75 140.76 ZFN 0 PY HIGHLY FRACTURE FAULT WITH SOME CHUNCKS OF PY D BWD019 141.02 141.03 ZFG -35 0 SMALL 1 CM THICK D BWD019 141.52 141.53 JOD 24 206 3 U S D BWD019 141.92 141.93 SBO 2 153 3 P BEDDING PLANE FROM GREYWACKE TO MUDSTONE D BWD019 142.5 142.51 ZVQS 0 0 QZ PY QTZ VEIN IS RUNNING PARALLEL TO THE CORE AXIS D BWD019 143.7 143.71 ZVQS 0 0 QZ PY QTZ VEIN IS RUNNING PARALLEL TO THE CORE AXIS D BWD019 143.75 143.76 ZFN 0 D BWD019 145.1 145.11 ZVQS 0 0 QZ PY QTZ VEIN IS RUNNING PARALLEL TO THE CORE AXIS D BWD019 146.62 146.63 ZVQ -20 0 QZ SERI D BWD019 147.7 147.71 ZFN -35 0 3M FAULT ZONE CONSISTING OG GOUGE MATERIAL AND RECONSOLIDATED FRACTURED MATERIAL D BWD019 150.28 150.29 JOD 30 94 2 I R D BWD019 150.47 150.48 ZVQ 35 171 2 QZ CL QZ VEIN IS PERPENDICULAR TO THE QZ VEIN D BWD019 150.9 150.91 JOD 27 133 2 I CAL D BWD019 151.27 151.28 ZVQS 89 255 2 QZ APY QZ-SULPHIDE VEIN RUNS SUB PARALLEL TO THE CORE AXIS D BWD019 152 152.01 JOD 30 215 2 U R CAL CL D BWD019 153 153.01 JOD 82 227 2 U R D BWD019 155.45 155.46 JOD -15 0 D BWD019 155.65 155.66 SBO -75 0 BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD019 158.43 158.44 JOD -50 0 U S D BWD019 160.85 160.86 ZFG -30 0 CL PLANAR GOUGE D BWD019 161.41 161.42 ZFN 0 FAULT ZONE FROM 160.15M TO 164M D BWD019 164.58 164.59 ZVQS -30 0 QZ PY D BWD019 165.2 165.21 ZFN 0 FAULT ZONE D BWD019 166.9 166.91 JOD -40 0 PY D BWD019 167.7 167.71 JOD 71 182 2 U S PY D BWD019 168.06 168.07 JOD 72 154 2 I R D BWD019 168.18 168.19 JOD 81 146 2 P S D BWD019 168.54 168.55 ZVQS 37 188 2 QZ PY 2 PTIGMATIC AND DISPLACED QTZ VEIN WITH TRACES OF SULPHIDES D BWD019 168.62 168.63 ZVQ 76 14 2 P QZ CL D BWD019 169.02 169.03 JOD 34 191 2 PY D BWD019 169.67 169.68 ZVQS -20 0 U QZ PO D BWD019 170.2 170.21 JOD -25 0 I R QZ PY MASSIVE QZ VEIN WITH SOME SULPHIDISATION D BWD019 170.4 170.41 ZVQS -10 0 U QZ PY D BWD019 170.85 170.86 JOU 81 186 0 U QZ D BWD019 171.8 171.81 JOD 87 208 2 U R D BWD019 172.17 172.18 JOD 24 182 2 P S D BWD019 172.6 172.61 JOD 57 199 2 P S D BWD019 173.15 173.16 ZVQ -25 0 U QZ D BWD019 173.55 173.56 SBO -80 0 BEDDING PLANE FROM GREYWACKE TO MUDSTONE D BWD019 174.25 174.26 SBO 15 82 2 U BEDDING PLANE FROM GREYWACKE TO MUDSTONE D BWD019 174.9 174.91 ZVQS -50 0 U QZ APY D BWD019 175.6 175.61 ZVQS -10 0 U QZ APY D BWD019 176.36 176.37 ZVQS -5 0 U QZ APY QZ VEIN IS ALMOST RUNNING PARALLEL TO THE CORE AXIS D BWD019 177.31 177.32 JOD 12 170 2 P D BWD019 177.54 177.55 JOD 48 28 2 U R D BWD019 178.13 178.14 ZVQS 84 33 2 U QZ APY D BWD019 178.35 178.36 ZVQ 20 357 2 U QZ D BWD019 178.9 178.91 JOD 48 28 2 U S D BWD019 179.9 179.91 JOD 82 227 2 U S D BWD019 180.02 180.03 JOD 31 115 3 P R QZ PY D BWD019 180.12 180.13 ZVQS 85 297 3 P QZ PY D BWD019 180.45 180.46 ZVQ 13 334 3 P QZ D BWD019 180.72 180.73 SBO 21 293 3 U BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD019 181 181.01 ZVQS 22 159 3 U QZ APY D BWD019 181.33 181.34 SBO 22 180 3 U BEDDING PLANE FROM MUDSTONE TO GREYWACKE D BWD019 182.18 182.19 SBO 17 189 3 U APY BEDDING PLANE FROM GREYWACKE TO MUDSTONE D BWD019 182.24 182.25 ZVQ 20 207 3 P QZ QZ VEINS ARE CROSSCUTTING EACH OTHER D BWD019 182.4 182.41 ZVQS 84 286 3 P QZ PY QZ VEINS ARE CROSSCUTTING EACH OTHER D BWD019 182.6 182.61 JOD 69 119 3 P S D BWD019 183.14 183.15 ZVQ 79 204 3 P QZ D BWD019 183.75 183.76 JOD 72 147 3 P S PY PY FRACTURE COATING D BWD019 183.9 183.91 SBO 37 154 3 U BEDDING PLANE FROM GREYWACKE TO MUDSTONE D BWD019 184.24 184.25 ZVQ 30 28 3 P QZ CL D BWD019 184.62 184.63 JOD 48 29 3 P R CAL D BWD019 185.4 185.41 SBO 27 194 3 U BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD019 185.8 185.81 ZVQS 43 192 3 P QZ APY MASSIVE QZ-SULPHIDE VEIN D BWD019 185.9 185.91 SBO 37 157 3 P BEDDING PLANE FROM MUDSTONE TO GREYWACKE D BWD019 186.02 186.03 JOD 35 220 3 U S CAL D BWD019 186.28 186.29 ZVQS 87 230 3 P QZ APY D BWD019 186.45 186.46 SBO 40 186 3 U APY BEDDING PLANE FROM APY- DISSEMINATED GREYWACKE TO SILTSTONE D BWD019 186.7 186.71 JOD 87 198 3 P S APY D BWD019 187.74 187.75 JOD 35 23 3 P D BWD019 188.24 188.25 SBO 76 184 3 P BEDDING PLANE FROM GREYWACKE TO SILTSTONE WITH A QZ CONTACT D BWD019 188.98 188.99 JOD 76 184 3 P S CAL D BWD019 190.46 190.47 JOD 21 193 3 P S CAL D BWD019 190.69 190.7 JOD 45 3 3 P CAL D BWD019 191.67 191.68 JOD 83 196 3 P CAL D BWD019 192.05 192.06 ZVQ 28 216 3 P QZ PY D BWD019 192.22 192.23 JOD 80 169 3 P PY CL D BWD019 193.54 193.55 JOD 35 161 3 U S D BWD019 193.75 193.76 JOD 61 193 3 P S D BWD019 195.15 195.16 JOU 78 339 3 P UNDIVIDED JOINT D BWD019 195.47 195.48 ZVQ 21 193 3 U QZ D BWD019 196.1 196.11 JOD 55 169 3 P S CAL PY D BWD019 196.95 196.96 SBO 76 184 3 I BEDDING PLANE FROM COARSE GRAINED GREYWACKE TO SILTSTONE D BWD019 197.31 197.32 JOD 50 192 3 P S D BWD019 197.41 197.42 ZVQ 26 34 3 U QZ D BWD019 197.71 197.72 ZVQS 20 101 3 U QZ PY D BWD019 198.75 198.76 ZVQ 84 22 3 P QZ D BWD019 199.52 199.53 JOD 87 219 3 P CAL PY D BWD019 200.14 200.15 ZVQ 16 103 3 P QZ PY D BWD019 200.6 200.61 ZVQ 79 204 3 I QZ SLIGHTLY PTIGMATIC QZ VEIN D BWD019 200.7 200.71 SBO 28 205 3 P BEDDING PLANE GREYWACKE TO MUDSTONE D BWD019 200.8 200.81 JOD 40 186 3 P S D BWD019 201.1 201.11 ZVQS 79 204 3 U QZ D BWD019 201.15 201.16 ZVQS 85 11 3 U QZ PY D BWD019 201.58 201.59 ZVO 86 120 3 P CL CHLORITE VEIN WITH SOME TRACES OF QZ FORMING D BWD019 202 202.01 ZVQ 0 3 U QZ VEIN RUNS ALMOST PARALLEL TO THE CORE AXIS D BWD019 202.2 202.21 ZFN -65 0 P SMALL 10CM FAULT ZONE WITH SOME PYRITE FORMING ON THE FRACTRUE SURFACES AS WELL AS A HIGHER ABUNDANCE OF CARBONACEOUS MATERIAL D BWD019 203.6 203.61 ZVQ -5 0 U QZ D BWD019 204.17 204.18 JOD 90 351 2 P SERI SERICITE FORMING ON THE FRACTURE SURFACE D BWD019 205.06 205.07 JOD 43 192 2 P S D BWD019 206.07 206.08 SBO 49 183 2 P BEDDING PLANE FROM GREYWACKE TO MUDSTONE D BWD019 206.21 206.22 ZVC 35 77 2 P CAL D BWD019 206.25 206.26 ZVQS 80 353 2 U QZ PY 5 QZ VEIN DISPLACED BY CROSSCUTTING CARBONATE VEINS D BWD019 206.44 206.45 JOD 25 90 3 U S D BWD019 206.68 206.69 SBO 52 158 3 I BEDDING PLANE FROM GREYWACKE TO MUDSTONE D BWD019 206.83 206.84 ZVQ 60 197 3 I QZ CAL 5 QZ VEIN DISPLACED BY CROSSCUTTING CARBONATE VEINS D BWD019 207.1 207.11 JOD 51 69 3 I R CAL BRECCIATED CARBONATE VEINS AND FRAGMENTS D BWD019 207.23 207.24 JOD 30 135 3 U R D BWD019 207.64 207.65 ZVQ 19 358 3 P QZ D BWD019 207.95 207.96 ZVQ 24 194 3 U QZ D BWD019 208.38 208.39 JOD 64 187 3 I S D BWD019 208.75 208.76 ZVQ 40 84 3 U QZ D BWD019 209.76 209.77 JOD 83 196 3 P D BWD019 209.8 209.81 ZVC 70 199 3 P CAL D BWD019 210.23 210.24 ZVQ 10 226 3 U QZ D BWD019 210.9 210.91 JOD 20 240 3 P S D BWD019 211.8 211.81 SBO 28 336 3 U BEDDING PLANE FROM GREYWACK TO SILTSTONE D BWD019 212 212.01 JOD 88 336 3 P S CAL PY D BWD019 212.57 212.58 JOD 37 190 3 P R PY CAL D BWD019 212.68 212.69 SBO 54 207 3 P INTERBEDDED SILTSTONE AND SANDSTONE D BWD019 212.8 212.81 ZVQ 40 187 3 U QZ D BWD019 213.7 213.71 SBO 2 156 3 U BEDDING PLANE FROM GREYWACKE TO SILSTONE D BWD019 214.45 214.46 ZVQ 85 13 3 U QZ D BWD019 215.4 215.41 JOD 90 353 3 P R D BWD019 215.88 215.89 JOD 24 64 3 P S CAL D BWD019 216.69 216.7 JOD 26 35 3 P S SERI CAL D BWD019 217.2 217.21 ZVQ 45 62 3 P S QZ D BWD019 218.7 218.71 ZVQS 83 35 3 P QZ PY D BWD019 218.75 218.76 SBO 62 161 3 U BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD019 219.68 219.69 ZVQS 15 86 3 U QZ PY D BWD019 220.03 220.04 JOD 21 194 3 P R CAL SERI D BWD019 220.5 220.51 ZVQ 16 207 3 U QZ SERI D BWD019 221.56 221.57 ZVQ 83 35 3 P QZ D BWD019 221.8 221.81 ZVQS 11 59 3 U QZ PY D BWD019 223.05 223.06 ZVQS 74 224 3 P QZ PY D BWD019 223.43 223.44 ZVQ 44 48 3 P QZ D BWD019 223.72 223.73 SBO 88 22 3 P BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD019 224.24 224.25 ZVQS 23 147 3 U QZ PY D BWD019 224.58 224.59 SBO 31 194 3 P BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD019 224.6 224.61 ZVQS 31 194 3 P QZ PY D BWD019 225.83 225.84 ZVQS 25 78 3 S QZ PY D BWD019 226.76 226.77 SBO 54 197 3 P BEDDING PLANE GREYWACKE TO SILTSTONE D BWD019 227.56 227.57 ZVQ 24 64 3 P QZ D BWD019 227.8 227.81 SBO 37 180 3 U BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD019 228.2 228.21 ZVO 40 187 3 P CHLORITIC VEIN D BWD019 228.65 228.66 ZVQS 39 194 3 U QZ PY 20CM THICK QZ VEIN WITH SOME SULPHIDES D BWD019 228.83 228.84 JOD 52 156 3 U R D BWD019 291.5 291.51 JOD 49 98 3 P S CAL D BWD019 291.74 291.75 JOD 40 197 3 P S D BWD019 295 295.01 JOD 59 177 3 U S D BWD019 298.9 298.91 JOD 82 189 3 P S D BWD019 300.65 300.66 SBO 71 171 3 P D BWD019 302.3 302.31 SBO 77 169 3 P D BWD019 305.05 305.06 SBO 76 172 3 P D BWD019 311 311.01 SBO 88 350 3 P D BWD019 311.1 311.11 JOD 72 164 3 P S D BWD019 317 317.01 SBO 82 169 3 P D BWD019 322.15 322.16 SBO 66 173 3 P D BWD019 322.7 322.71 JOD 62 166 3 P D BWD020 8.3 8.31 ZVQ -70 0 QZ QZ VEIN WITHIN SAPROROCK D BWD020 13.6 13.61 ZVQ -60 0 QZ QZ VEIN WITHIN SAPROROCK D BWD020 15 15.01 JOD -20 0 P R D BWD020 16.7 16.71 ZFG 0 QZ FAULT GOUGE WITH BROKEN UP QZ FRAGMENTS D BWD020 19.73 19.74 SBO 26 315 3 U BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD020 22 22.01 JOD -40 0 S R D BWD020 22.7 22.71 SBO -45 0 BEDDING PLANE BETWEEN A CAORSER GRAINED SANDSTONE AND A FINER GRAINED SANDSTONE D BWD020 26.5 26.51 SCS -60 0 P S CONTACT BETWEEN WEATHERED ROCK AND FRESH ROCK D BWD020 26.6 26.61 ZVQ -30 0 I QZ 5 PTIGMATIC VEIN THAT HAS BEEN DISPLACED IN SECTIONS D BWD020 27.4 27.41 JOD -45 0 U R D BWD020 27.9 27.91 ZVQ -30 0 P QZ MODERATELY WEATHERED AND HIGHLY FRACTURED QZ VEIN D BWD020 29.3 29.31 JOD -30 0 P S FE IRON OXIDES ON FRACTURE SURFACE D BWD020 34.15 34.16 SBO -40 0 U BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD020 35.35 35.36 ZVO 86 304 2 P CL CHLORITIC VEIN D BWD020 35.65 35.66 JOD 21 190 2 I R D BWD020 35.9 35.91 ZVQS 69 341 2 I QZ APY CHLORITE FORMING ON THE VEIN SELAGES IN SOME PLACES D BWD020 37 37.01 ZVQ 85 131 3 I QZ 8 GREATEST DISTANCE OF DISPLACEMENT IN THE VEIN IS ROUGHLY 8MM D BWD020 38.16 38.17 JOD 29 154 3 U R D BWD020 38.63 38.64 SBO 22 169 3 U BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD020 39 39.01 SBO 16 190 3 U BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD020 39.38 39.39 ZVQ 41 131 3 I QZ D BWD020 40.4 40.41 JOD 16 135 3 P D BWD020 41.1 41.11 ZVQS 69 303 3 U QZ APY 40 CHLORITE TRACES IN VEIN D BWD020 41.64 41.65 JOD 89 10 3 S D BWD020 42.88 42.89 JOD 33 106 3 I R D BWD020 43.34 43.35 ZVQS 47 298 3 I QZ CL TRACES OF APY IN THE QZ VEIN D BWD020 43.68 43.69 JOU 46 106 3 P UNDIVIDED JOINT D BWD020 43.78 43.79 JOD 24 150 3 P R D BWD020 44.3 44.31 SBO 54 140 3 P BEDDING PLANE IS PLANAR AND IRREGULAR IN VARYING SECTIONS OF THE CORE D BWD020 45.45 45.46 JOD 68 356 3 U D BWD020 46.72 46.73 JOD 29 349 3 U D BWD020 47.3 47.31 SBO 41 131 3 P BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD020 47.78 47.79 JOU 24 150 3 P D BWD020 49.7 49.71 JOD 37 143 3 P S D BWD020 49.98 49.99 SBO 31 190 3 P BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD020 50.9 50.91 SBO 21 190 3 P BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD020 51.75 51.76 JOD 52 63 3 P D BWD020 52.25 52.26 ZVC 58 117 3 P CAL D BWD020 52.67 52.68 SBO 20 120 3 U S CAL D BWD020 52.85 52.86 SFO 46 106 3 P D BWD020 53.2 53.21 SBO 68 236 3 P D BWD020 54.05 54.06 JOD 32 122 3 P CAL D BWD020 54.23 54.24 SBO 69 256 3 P BEDDING PLANE FROM GREYWACKE TO MUDSTONE D BWD020 55.05 55.06 JOD 27 42 3 U S D BWD020 55.75 55.76 ZVQS 82 116 3 I QZ PY D BWD020 56 56.01 ZFG 87 47 3 P GR CLAY MINERALS MIXED WITH GRAPHITIC MATERIAL FILLED FAULT D BWD020 56.65 56.66 JOD 28 135 3 U R D BWD020 56.9 56.91 ZFN 0 FAULT FROM 56.90M TO 59.7M D BWD020 60.39 60.4 JOD 77 211 3 U R D BWD020 60.47 60.48 SBO 69 202 3 U S D BWD020 62.16 62.17 JOD 80 181 3 U R D BWD020 62.66 62.67 SBO 60 194 3 U BEDDING PLANE FROM MUDSTONE TO GREYWACKE D BWD020 64.4 64.41 JOD 73 236 3 U D BWD020 64.45 64.46 SBO 60 228 3 U BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD020 64.68 64.69 SBO 64 219 3 P BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD020 65.48 65.49 JOD 59 200 3 P S D BWD020 69 69.01 ZVS 82 251 3 U PY SULPHIDE VEIN SITS QUITE CLOSELY TO THE CONTACT OF A SILTSTONE AND GREYWACKE D BWD020 69.46 69.47 JOD 87 254 3 P R D BWD020 69.68 69.69 JOD 58 252 3 U R D BWD020 70.37 70.38 JOD 51 244 3 U R D BWD020 71.62 71.63 JOD 67 224 3 U S D BWD020 75.95 75.96 JOD 84 37 3 I R D BWD020 77.02 77.03 JOD 69 202 3 U R D BWD020 78.18 78.19 JOD 82 27 3 D BWD020 79.36 79.37 ZVQS 52 34 3 U QZ PY 80 D BWD020 80.25 80.26 JOD 55 183 3 U S D BWD020 80.29 80.3 JOD 28 219 3 U S D BWD020 80.6 80.61 ZVQS 75 219 3 P QZ PY QZ-SULPHIDE VEIN D BWD020 80.9 80.91 ZVS 77 49 3 P PY SULPHIDE VEIN D BWD020 81.17 81.18 JOD 82 251 3 P S D BWD020 81.53 81.54 SBO 74 203 3 P P BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD020 81.8 81.81 ZVQS 40 68 3 P QZ APY D BWD020 82 82.01 JOD 60 228 3 P S D BWD020 83.02 83.03 SBO 60 228 3 P D BWD020 83.52 83.53 JOD 64 231 3 P S D BWD020 83.8 83.81 ZFN 0 NORMAL FAULT ZONE FOR APPROXIMATELY 2.5M D BWD020 85.56 85.57 JOD 45 0 P D BWD020 86.2 86.21 ZFN 0 NORMAL FAULT D BWD020 86.78 86.79 JOD 77 228 2 U S D BWD020 87.17 87.18 JOD 36 72 2 I R D BWD020 87.38 87.39 SBO 79 219 2 P BEDDING PLANE FROM MUDSTONE TO SILTSTONE D BWD020 87.72 87.73 SBO 16 150 2 U BEDDING PLANE FROM ALTERATION ZONE (COARSER GRAINED) TO SILTSTONE D BWD020 88.8 88.81 JOD 50 0 U S D BWD020 89.9 89.91 SBO 50 0 BEDDING PLANE FROM MUDSTONE TO GREYWACKE D BWD020 90 90.01 JOD 15 137 2 I R D BWD020 90.5 90.51 JOD 71 192 2 U S D BWD020 92 92.01 ZVQ 50 0 U QZ D BWD020 94.14 94.15 ZFG 60 0 P FAULT GOUGE AND FAULT ZONE IS FROM DEPTH 92.6M TO 100.6M D BWD020 95.6 95.61 ZVQS 20 0 QZ APY D BWD020 96.5 96.51 JOD 81 107 1 U R D BWD020 97.43 97.44 SBO 70 0 U BEDDING PLANE FROM GREYWACKE TO MUDSTONE D BWD020 98 98.01 JOD 50 0 P S D BWD020 98.48 98.49 SBO 70 0 P BEDDING PLANE FROM SILTSTONE TO MUDSTONE D BWD020 99.3 99.31 ZFG 0 GR FAULT GOUGE FILLED WITH CARBONACEOUS GRAPHITIC MATERIAL D BWD020 99.7 99.71 ZVQ 30 0 U QZ D BWD020 100.1 100.11 JOD 25 0 I D BWD020 101.6 101.61 ZFN 50 0 I R FAULT FROM 101.6 TO 103.4M IN DEPTH D BWD020 103 103.01 JOD 0 0 I R JOINT RUNS PARALLEL TO THE CORE AXIS D BWD020 103.4 103.41 ZVQS 85 21 2 U QZ APY MASSIVE QZ FROM 1.7M IN LENGTH D BWD020 103.7 103.71 ZVS 35 208 2 U QZ PY D BWD020 104.22 104.23 JOD 89 174 2 U QZ PY D BWD020 104.37 104.38 JOD 42 240 2 U QZ D BWD020 105 105.01 ZFN 0 FAULT FROM 105M TO 108.8M IN DEPTH D BWD020 106.6 106.61 ZVQ 20 0 QZ GR D BWD020 109.02 109.03 JOD 25 0 P S D BWD020 109.74 109.75 SBO 70 0 BEDDING PLANE FROM SILTSTONE TO MUDSTONE D BWD020 109.92 109.93 JOD 70 0 I R D BWD020 110.7 110.71 JOD 70 0 U R D BWD020 110.76 110.77 SBO 70 0 BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD020 111.35 111.36 JOD 31 191 2 U R D BWD020 112.35 112.36 JOD 86 29 2 U S D BWD020 117.25 117.26 SBO 89 57 3 P D BWD020 120.6 120.61 JOD 64 45 3 P S D BWD020 121.1 121.11 SBO 66 79 3 P D BWD020 122.55 122.56 JOD 12 167 3 S R D BWD020 123.6 123.61 JOD 87 216 3 P S D BWD020 124.9 124.91 JOD 85 225 3 P R D BWD020 126.6 126.61 SBO 62 70 3 P D BWD020 128.7 128.71 JOD 71 65 3 P R CARB D BWD020 132.4 132.41 JOD 64 45 3 P P GR D BWD020 134 134.01 SBO 89 57 3 P D BWD020 134.05 134.06 JOD 26 160 3 P S D BWD020 136.3 136.31 JOD 80 72 3 P S D BWD020 138.5 138.51 SBO 83 63 3 P U D BWD020 138.55 138.56 ZVQS 83 63 3 P QZ PY D BWD020 139 139.01 JOD 21 184 3 P R PY D BWD020 141.4 141.41 SBO 79 73 3 P D BWD020 141.9 141.91 JOD 88 68 3 P S PY D BWD020 145.85 145.86 SBO 35 198 2 P D BWD020 152.7 152.71 JOD 71 66 1 U R D BWD020 157.3 157.31 JOD 31 192 2 P R D BWD020 158 158.01 JOD 76 199 2 P S D BWD020 160.2 160.21 SBO 44 106 2 P D BWD020 164.8 164.81 JOD 32 153 2 P R D BWD020 168.9 168.91 JOD 83 40 2 P S D BWD020 169.15 169.16 SBO 88 68 3 P D BWD020 170.8 170.81 SBO 81 248 3 P U D BWD020 171.8 171.81 JOD 50 200 3 P R PY D BWD020 173.45 173.46 JOD 24 176 3 P S D BWD020 174.8 174.81 SBO 83 244 3 P D BWD020 175 175.01 JOD 36 195 3 U R CARB PY D BWD020 178.05 178.06 SBO 82 77 3 P D BWD020 178.25 178.26 JOD 40 201 3 P R CARB D BWD020 182.1 182.11 SBO 70 64 3 U U D BWD020 183.6 183.61 ZFR 71 196 3 P CARB 200 OFFSET FROM ?REVERSE FAULT 200MM. SATELLITE DISPACEMENT 5-10MM (MOVEMENT SHOWN IN BEDDING) D BWD020 186.25 186.26 SBO 87 244 3 P D BWD020 187.7 187.71 SBO 80 82 3 P D BWD020 190.95 190.96 JOD 74 46 3 P R D BWD020 191.4 191.41 JOD 84 69 3 P R ALONG BEDDING PLANE D BWD020 194.4 194.41 SBO 90 240 3 P D BWD020 200.05 200.06 JOD 75 224 2 P R D BWD020 200.45 200.46 SBO 87 234 2 P D BWD020 201.45 201.46 JOD 79 210 3 P R D BWD020 201.75 201.76 SBO 77 53 3 P D BWD020 205.3 205.31 SBO 82 51 3 P D BWD020 205.6 205.61 JOD 81 62 3 P S D BWD020 207.6 207.61 JOD 51 39 3 P R CARB CL D BWD020 209.85 209.86 JOD 88 242 3 P R D BWD020 210.05 210.06 SBO 75 235 3 P D BWD020 211.25 211.26 JOD 54 207 3 P R D BWD020 211.4 211.41 SBO 79 237 3 P U D BWD020 213 213.01 JOD 81 203 3 P R HEM PY D BWD020 213.45 213.46 JOD 61 201 3 P S D BWD020 217.7 217.71 JOD 31 80 3 P S D BWD020 220.85 220.86 JOD 78 214 3 P R D BWD020 223.4 223.41 JOD 70 232 3 P P GR D BWD020 224.3 224.31 JOD 32 187 2 P S D BWD020 227.25 227.26 ZFG 69 223 2 P 1CM THICK FAULT GOUGE/PLUG WITH BRECCIATED QTZ VEINING SURROUNDING ZONE D BWD020 228.15 228.16 JOD 61 54 2 P R D BWD020 233.3 233.31 JOD 42 195 3 P R D BWD020 233.55 233.56 JOD 50 216 3 P S D BWD020 234 234.01 JOD 58 223 3 P S D BWD020 240.55 240.56 SBO 86 236 3 P D BWD020 241 241.01 JOD 76 65 3 P S D BWD020 241.8 241.81 SBO 85 60 3 P D BWD020 242.65 242.66 SBO 81 62 3 P D BWD020 243.4 243.41 JOD 55 205 3 P R D BWD020 244.65 244.66 SBO 88 54 3 P D BWD020 249.4 249.41 JOD 25 174 3 P R D BWD020 251.7 251.71 JOD 61 201 2 P R D BWD020 254 254.01 JOD 51 200 3 P R D BWD020 254.7 254.71 SBO 81 233 3 P D BWD020 263.7 263.71 JOD 23 183 2 P R CARB D BWD020 269.5 269.51 SBO 87 39 2 P D BWD020 270.1 270.11 JOD 61 56 2 P R D BWD020 271.15 271.16 ZVQ 86 223 3 P QZ CL 20CM THICK D BWD020 271.5 271.51 JOD 59 211 3 P S D BWD020 272.8 272.81 SBO 90 59 3 P D BWD020 274.2 274.21 JOD 67 42 3 U S D BWD020 276.2 276.21 JOD 70 64 3 P S ALONG BEDDING PLANE? D BWD020 278 278.01 SBO 88 55 3 P D BWD020 278.8 278.81 JOD 56 217 3 P R D BWD020 279.6 279.61 SBO 70 224 3 P D BWD020 285.6 285.61 JOD 79 239 3 P R D BWD020 292.2 292.21 JOD 33 189 3 U R D BWD020 292.45 292.46 JOD 50 204 3 P R D BWD020 292.7 292.71 SBO 71 221 3 P D BWD020 296 296.01 JOD 57 214 3 P R D BWD020 296.5 296.51 SBO 30 45 3 P D BWD020 296.6 296.61 JOD 59 211 3 P S D BWD020 298.7 298.71 JOD 72 230 3 P S D BWD020 301.05 301.06 JOD 57 219 3 P S CL PY D BWD020 301.4 301.41 SBO 76 225 3 P D BWD020 302.05 302.06 JOD 40 203 3 P R D BWD020 304.2 304.21 JOD 79 231 3 P S D BWD020 305.15 305.16 JOD 47 198 3 P R D BWD020 305.8 305.81 SBO 73 232 3 P D BWD020 307.28 307.29 JOD 35 116 3 P S D BWD020 309.7 309.71 SBO 84 243 3 P D BWD020 310.87 310.88 JOD 46 203 3 P S D BWD020 312.6 312.61 JOD 85 64 3 P R D BWD020 313.55 313.56 JOD 83 71 3 P S D BWD020 316.9 316.91 JOD 61 75 3 P S D BWD020 317.8 317.81 SBO 83 237 3 P D BWD020 319.1 319.11 ZVQ 18 162 2 P QZ CARB D BWD020 319.85 319.86 JOD 37 200 2 U S D BWD020 320.25 320.26 JOD 70 70 2 P P GR D BWD020 320.55 320.56 ZFG 81 241 2 P 15CM FAULT GOUGE/BRECCIA D BWD020 324.75 324.76 SBO 81 70 3 P D BWD020 326.2 326.21 JOD 64 55 3 P R D BWD020 328.45 328.46 JOD 68 221 3 P R D BWD020 332.6 332.61 JOD 41 205 2 S D BWD020 333.25 333.26 SBO 88 239 2 P D BWD020 336.9 336.91 SBO 72 75 2 P D BWD020 337.35 337.36 JOD 79 65 2 P S D BWD020 339.05 339.06 JOD 88 250 2 P S D BWD020 340.45 340.46 SBO 84 247 2 P D BWD020 343.8 343.81 JOD 86 254 3 P S D BWD020 346.2 346.21 SBO 86 243 3 P D BWD020 346.25 346.26 JOD 22 85 3 P R CARB D BWD020 348.75 348.76 JOD 74 233 3 P R CARB D BWD020 355 355.01 JOD 88 250 2 P R D BWD020 355.1 355.11 SBO 72 75 2 P D BWD020 358.75 358.76 JOD 64 82 2 P S D BWD020 359.8 359.81 SBO 57 87 2 P D BWD020 360 360.01 JOD 46 45 2 P R D BWD020 363.5 363.51 JOD 73 241 3 P S D BWD020 364 364.01 JOD 67 220 3 P R D BWD020 365.05 365.06 JOD 65 108 3 P S D BWD020 366 366.01 JOD 55 210 3 P S D BWD020 366.7 366.71 JOD 77 45 3 U R D BWD020 367.45 367.46 JOD 33 191 3 S R D BWD020 368 368.01 SBO 87 57 3 P D BWD020 369.1 369.11 JOD 59 213 3 P R D BWD020 372 372.01 JOD 29 173 3 P R D BWD020 373.7 373.71 SBO 81 77 2 P D BWD020 375.1 375.11 JOD 30 184 2 P R D BWD020 383.9 383.91 JOD 46 47 2 P S D BWD020 384.75 384.76 JOD 64 34 2 P S D BWD020 387.5 387.51 JOD 84 220 2 P R D BWD020 388.1 388.11 SBO 88 25 2 P D BWD020 388.35 388.36 JOD 32 183 2 P R D BWD020 388.95 388.96 JOD 33 192 2 P R D BWD020 390.6 390.61 JOD 81 40 2 P R D BWD020 397.5 397.51 JOD 33 192 2 U R D BWD020 397.8 397.81 JOD 58 228 2 P S D BWD020 400.6 400.61 JOD 11 72 2 P R D BWD020 400.75 400.76 JOD 54 37 3 P S HEM CL D BWD020 402.8 402.81 JOD 62 231 3 P S D BWD020 408.3 408.31 JOD 26 74 2 P S CL D BWD020 410.1 410.11 JOD 74 76 2 P R CARB D BWD020 412.2 412.21 JOD 62 97 2 P S D BWD020 413.25 413.26 SBO 50 116 2 P D BWD020 415.25 415.26 SBO 42 105 3 P D BWD020 417.45 417.46 JOD 68 50 3 P S D BWD020 418.2 418.21 JOD 64 38 3 U R D BWD020 418.5 418.51 JOD 34 159 3 P R D BWD020 419.25 419.26 SBO 32 186 3 P D BWD020 429.5 429.51 JOD 87 212 1 U R D BWD020 429.9 429.91 JOD 87 47 1 P R D BWD020 430.45 430.46 SBO 81 231 2 P D BWD020 431 431.01 JOD 81 215 2 P S D BWD020 431.05 431.06 JOD 70 42 2 P S D BWD020 435.5 435.51 JOD 55 215 2 P S D BWD020 435.7 435.71 JOD 78 226 2 P S D BWD020 437.7 437.71 JOD 88 239 2 P S D BWD020 439.6 439.61 JOD 63 204 2 P R D BWD020 440.05 440.06 JOD 61 226 2 P R D BWD020 441.35 441.36 JOD 13 87 2 P P D BWD020 442.95 442.96 JOD 25 123 2 P S D BWD020 443.6 443.61 JOD 14 112 2 P P D BWD020 444.4 444.41 JOD 74 81 2 P S D BWD020 445.3 445.31 JOD 50 215 2 P P D BWD020 447.7 447.71 JOD 30 116 2 P P D BWD020 451.7 451.71 ZVQS 83 54 3 P QZ PY 4CM THICK D BWD020 452.8 452.81 ZVQ 88 209 3 P QZ 100CM THICK D BWD020 453.2 453.21 JOD 13 87 3 P S D BWD020 455 455.01 SBO 88 205 3 U D BWD020 456.15 456.16 JOD 19 82 3 P R CARB D BWD020 457.2 457.21 JOD 26 184 3 P R D BWD020 460 460.01 ZVQS 24 193 2 P QZ PY 3CM THICK RUNNING SUBPARALLEL TO CORE AXIS D BWD020 460.55 460.56 SBO 14 183 2 U D BWD020 461.5 461.51 JOD 90 57 2 U R D BWD020 463.7 463.71 JOD 87 30 2 P S D BWD020 464.55 464.56 ZVQS 84 225 2 P QZ PY 20CM THICK D BWD020 466.2 466.21 SBO 78 208 2 P D BWD020 467.7 467.71 SBO 87 30 2 U D BWD020 470.7 470.71 JOD 32 179 2 P R D BWD020 477.4 477.41 JOD 28 88 2 U R D BWD020 478.7 478.71 SBO 87 214 2 P D BWD020 479.5 479.51 JOD 43 217 2 P R D BWD020 480.7 480.71 JOD 54 89 3 P S D BWD020 481.4 481.41 SBO 76 27 3 P D BWD020 481.6 481.61 JOD 89 97 3 P S D BWD020 482.4 482.41 JOD 63 206 3 P R STRIATIONS PERPENDICULAR TO FRACTURE SURFACE D BWD020 482.45 482.46 SBO 76 27 3 P D BWD020 483.5 483.51 JOD 78 241 3 P S D BWD020 485.25 485.26 JOD 14 135 3 P S D BWD020 486.55 486.56 JOD 79 268 3 P S D BWD020 487.5 487.51 SBO 62 35 3 P D BWD020 488 488.01 JOD 87 246 3 P R D BWD020 489.95 489.96 SBO 77 32 3 P D BWD020 490.5 490.51 JOD 42 207 3 P R D BWD020 491.3 491.31 ZVQS 77 32 3 P PY QZ 3CM THICK D BWD020 491.4 491.41 ZVQS 38 202 3 P QZ PY 5MM THICK WITH BRIGHT PYRITE D BWD020 491.45 491.46 SBO 77 32 3 P D BWD020 491.5 491.51 JOD 83 55 3 P R D BWD020 504.1 504.11 JOD 74 239 2 P S D BWD020 504.9 504.91 SBO 83 214 2 P D BWD020 505 505.01 JOD 89 242 2 P S D BWD020 505.8 505.81 JOD 81 32 3 P S D BWD020 506.85 506.86 SBO 77 38 3 P D BWD020 507.7 507.71 ZVQS 84 46 2 P QZ PY D BWD020 508.2 508.21 JOD 58 246 2 P R CARB PY D BWD020 510.8 510.81 JOD 45 225 2 P S D BWD020 511.3 511.31 JOD 62 218 3 P R D BWD020 512.15 512.16 JOD 74 239 3 P S D BWD020 514.2 514.21 JOD 78 252 3 P R D BWD020 515.05 515.06 JOD 84 82 3 P R D BWD020 515.35 515.36 JOD 83 244 3 P R D BWD020 515.75 515.76 SBO 85 202 3 P D BWD020 517.6 517.61 JOD 88 232 3 P R D BWD020 518 518.01 SBO 90 207 3 P D BWD020 518.5 518.51 JOD 71 221 3 P R D BWD020 521.05 521.06 JOD 30 162 3 P R D BWD020 522.6 522.61 JOD 40 213 3 P S D BWD020 525.5 525.51 SBO 89 44 3 P D BWD020 525.9 525.91 JOD 89 242 3 P R D BWD020 527 527.01 SBO 73 44 3 P D BWD020 527.5 527.51 JOD 81 52 3 P S D BWD020 534.8 534.81 JOD 65 52 3 U S D BWD020 535.5 535.51 JOD 84 230 3 P R D BWD020 536.5 536.51 JOD 52 225 3 U R D BWD020 536.9 536.91 JOD 71 79 3 P S D BWD020 537.9 537.91 JOD 72 216 3 S R D BWD020 539.95 539.96 JOD 63 41 3 P S D BWD020 542.1 542.11 SBO 56 31 3 P D BWD020 542.5 542.51 SBO 55 50 3 P D BWD020 544.8 544.81 JOD 82 266 3 P R D BWD020 548.8 548.81 JOD 53 127 2 P R D BWD020 549.2 549.21 JOD 78 81 2 P R D BWD020 550 550.01 JOD 89 69 2 P R D BWD020 555.55 555.56 JOD 49 66 2 P S D BWD020 556.75 556.76 SBO 77 263 2 U U FLAME STRUCTURES D BWD020 558.45 558.46 SBO 69 257 2 P R D BWD020 559.1 559.11 JOU 7 151 2 P D BWD020 559.4 559.41 JOD 86 237 2 P R D BWD020 560.65 560.66 JOD 63 257 3 P S D BWD020 564 564.01 JOD 76 88 3 P R D BWD020 566.45 566.46 JOD 49 46 3 P R D BWD020 569.7 569.71 JOD 49 103 3 P S D BWD020 569.9 569.91 JOD 89 40 3 P R D BWD020 572.4 572.41 JOD 43 206 3 P S D BWD020 572.8 572.81 JOD 54 208 2 P S D BWD020 573 573.01 JOD 34 188 2 P R D BWD020 577.2 577.21 JOD 44 215 2 P R D BWD020 578.6 578.61 JOD 70 95 2 P S D BWD020 583 583.01 JOD 64 49 2 P S D BWD020 584.9 584.91 JOD 28 183 2 P R D BWD020 585 585.01 JOD 25 175 2 P R D BWD020 587.6 587.61 SBO 77 66 2 P D BWD020 588.2 588.21 JOD 74 62 2 P S D BWD020 590.6 590.61 JOD 36 196 2 P S D BWD020 591 591.01 JOD 89 45 2 P S D BWD020 592 592.01 SBO 70 253 2 P D BWD020 593.65 593.66 JOD 76 85 2 P S D BWD020 595.6 595.61 SBO 70 89 2 U D BWD020 597.8 597.81 JOD 63 44 2 P R D BWD020 598.8 598.81 JOD 22 76 2 U R D BWD020 599.8 599.81 JOD 80 49 2 P R D BWD020 601.4 601.41 SBO 75 110 2 P D BWD020 604.18 604.19 SBO 56 245 2 U D BWD020 607.2 607.21 JOD 86 33 2 P R D BWD020 610.3 610.31 JOD 60 33 2 U R D BWD020 611.2 611.21 JOD 79 60 2 P R D BWD020 614.75 614.76 JOD 22 164 2 P R D BWD020 615 615.01 SBO 76 263 2 P D BWD020 616.6 616.61 JOD 84 241 2 P S D BWD020 621.35 621.36 JOD 31 150 2 P R D BWD020 622 622.01 JOD 30 140 2 P R D BWD020 622.8 622.81 JOD 74 25 2 P R D BWD020 624 624.01 SBO 68 110 2 U D BWD020 624.05 624.06 JOD 55 80 2 P S D BWD021 43.4 43.41 JOD 50 84 3 U R D BWD021 45.9 45.91 JOD 63 88 3 U R D BWD021 47 47.01 JOD 50 84 3 U R D BWD021 48.1 48.11 JOD 30 121 3 U R D BWD021 48.4 48.41 JOD 69 224 3 P R D BWD021 53 53.01 JOD 52 89 3 P R CLAY D BWD021 55.3 55.31 JOD 66 93 3 P R CLAY D BWD021 58.2 58.21 JOD 25 207 3 P R CLAY D BWD021 61.4 61.41 JOD 36 210 3 P R D BWD021 64.75 64.76 JOD 66 102 3 P R D BWD021 65.5 65.51 JOD 77 79 3 P R CLAY D BWD021 66.1 66.11 JOD 37 87 2 P R PY D BWD021 66.9 66.91 JOD 77 101 3 P R PY D BWD021 68.65 68.66 JOD 73 81 3 U R D BWD021 70.2 70.21 JOD 81 87 3 P R PY D BWD021 71 71.01 JOD 24 134 3 P R D BWD021 72.8 72.81 JOD 76 245 3 P R CLAY D BWD021 72.85 72.86 JOD 39 225 3 P R D BWD021 73.9 73.91 JOD 37 104 3 P R D BWD021 76.6 76.61 JOD 77 79 3 P R D BWD021 81 81.01 JOD 59 69 3 P R D BWD021 85.4 85.41 JOD 51 78 3 P R D BWD021 87.3 87.31 JOD 43 90 3 P R D BWD021 87.35 87.36 JOD 21 160 3 P R D BWD021 91.2 91.21 JOD 78 255 3 P R D BWD021 92.8 92.81 JOD 34 224 3 P R D BWD021 97.5 97.51 JOD 73 94 3 U R D BWD021 99.15 99.16 JOD 39 227 3 U R D BWD021 101.5 101.51 JOD 53 100 3 P R D BWD021 103.7 103.71 JOD 88 91 3 P R D BWD021 105.2 105.21 JOD 19 176 3 P R D BWD021 107.45 107.46 JOD 51 164 3 P R D BWD021 108.6 108.61 JOD 68 85 2 P R D BWD021 109.4 109.41 JOD 76 110 2 P R D BWD021 109.45 109.46 JOD 53 235 3 U R D BWD021 109.8 109.81 JOD 48 233 3 P R PY D BWD021 111.2 111.21 JOD 87 279 3 P S D BWD021 112.75 112.76 JOD 58 65 3 P R D BWD021 112.95 112.96 JOD 42 233 3 P R D BWD021 114 114.01 JOD 39 132 3 P S D BWD021 115.5 115.51 JOD 44 240 3 P S D BWD021 116.35 116.36 JOD 24 218 3 U R D BWD021 116.6 116.61 SBO 45 76 3 P D BWD021 117 117.01 JOD 45 149 3 P S D BWD021 120.5 120.51 JOD 24 221 3 P R D BWD021 122.35 122.36 SBO 90 89 3 P D BWD021 122.55 122.56 JOD 65 76 3 P R D BWD021 123.2 123.21 JOD 68 87 3 P R D BWD021 125.1 125.11 JOD 61 269 3 P S D BWD021 128.6 128.61 SBO 67 111 3 P D BWD021 129 129.01 JOD 45 76 3 P R PY D BWD021 132.5 132.51 JOD 49 259 3 I R D BWD021 133.85 133.86 JOD 37 235 3 P R D BWD021 134.2 134.21 JOD 66 245 3 P R D BWD021 137.3 137.31 JOD 55 149 3 I R D BWD021 138 138.01 JOD 62 101 2 P S D BWD021 139 139.01 SBO 43 247 3 P D BWD021 140 140.01 JOD 47 239 3 P R D BWD021 140.3 140.31 JOD 44 246 3 P R D BWD021 140.6 140.61 JOD 75 251 3 P R D BWD021 140.85 140.86 JOD 65 251 3 P R D BWD021 141.8 141.81 SBO 51 256 3 P S D BWD021 142.6 142.61 JOD 26 215 3 P S D BWD021 143.05 143.06 JOD 76 79 3 P S D BWD021 145.6 145.61 SBO 64 264 3 P D BWD021 146.45 146.46 JOD 62 101 3 P S D BWD021 149.15 149.16 JOD 54 93 3 P R D BWD021 149.8 149.81 ZVQS 84 68 3 P QZ PY D BWD021 150.7 150.71 JOD 73 257 3 P S D BWD021 151.85 151.86 SBO 55 249 3 P D BWD021 152.6 152.61 JOD 65 272 3 P R D BWD021 153.6 153.61 JOD 59 78 3 P R D BWD021 155.3 155.31 JOD 42 236 3 P S D BWD021 157.1 157.11 JOD 80 265 3 P S D BWD021 157.8 157.81 JOD 48 76 3 I S D BWD021 158.8 158.81 ZVQS 76 58 3 P QZ PY D BWD021 159.5 159.51 JOD 66 81 3 P R D BWD021 165.8 165.81 JOD 85 99 3 P S D BWD021 169.7 169.71 SBO 29 177 3 P D BWD021 169.9 169.91 JOD 34 178 3 P R PY D BWD021 172.8 172.81 JOD 56 85 3 P R D BWD021 173 173.01 SBO 38 210 3 P D BWD021 174 174.01 JOD 64 65 3 P R D BWD021 175.4 175.41 JOD 36 202 3 P R D BWD021 176.25 176.26 JOD 80 79 3 P S D BWD021 177.1 177.11 JOD 34 204 3 P S D BWD021 178 178.01 JOD 10 162 3 P P D BWD021 178.4 178.41 JOD 62 253 3 P R D BWD021 179.6 179.61 JOD 21 125 3 P P D BWD021 180.35 180.36 ZVS 34 91 3 P PY 15CM THICK D BWD021 180.8 180.81 JOD 49 234 3 P R D BWD021 181.25 181.26 ZVS 88 249 3 P 20CM THICK D BWD021 181.8 181.81 JOD 79 64 3 P P D BWD021 181.85 181.86 JOD 33 115 3 P P D BWD021 182.65 182.66 JOD 34 185 3 P R D BWD021 183.2 183.21 JOD 11 107 3 P P 25 BEDDING DISPLACED D BWD021 184.2 184.21 SBO 37 211 3 P D BWD021 184.6 184.61 JOD 35 194 3 P S ALONG BEDDING D BWD021 186.25 186.26 JOD 61 97 3 P S D BWD021 190 190.01 JOD 49 85 2 I R D BWD021 190.9 190.91 JOD 56 74 2 P S D BWD021 200 200.01 ZVQS 61 54 3 I APY PY D BWD021 200.1 200.11 JOD 63 77 3 P S D BWD021 200.75 200.76 ZVQS 46 119 3 P QZ PY D BWD021 201.15 201.16 SBO 72 62 3 P D BWD021 201.5 201.51 SBO 78 263 3 P D BWD021 201.55 201.56 JOD 42 89 3 P R D BWD021 202.4 202.41 SBO 62 259 3 P D BWD021 204 204.01 ZVQS 66 254 3 I QZ PY D BWD021 204.6 204.61 JOD 11 115 3 P S PY D BWD021 205 205.01 SBO 67 251 3 P D BWD021 206.7 206.71 JOD 26 111 3 P S D BWD021 207.65 207.66 SBO 90 251 3 P P D BWD021 209.8 209.81 JOD 52 236 2 P S D BWD021 211.2 211.21 SBO 34 200 2 P D BWD021 211.25 211.26 SBO 59 245 2 P D BWD021 211.5 211.51 ZVQS 87 245 2 I QZ PY D BWD021 212.1 212.11 SBO 62 239 2 P D BWD021 212.85 212.86 ZVQS 76 245 2 P PY QZ 10CM WIDE D BWD021 214.4 214.41 SBO 73 251 3 P D BWD021 215.05 215.06 JOD 45 79 3 P R D BWD021 218.8 218.81 JOD 75 232 3 P S D BWD021 220.47 220.48 JOD 31 216 3 P S D BWD021 220.75 220.76 JOD 49 114 3 P R D BWD021 222.35 222.36 SBO 36 126 3 P D BWD021 222.8 222.81 JOD 26 149 3 P R D BWD021 226 226.01 JOD 67 241 3 P R D BWD021 226.1 226.11 JOD 34 78 3 P S D BWD021 226.35 226.36 ZVQS 62 239 3 P PY D BWD021 227 227.01 SBO 50 239 3 P D BWD021 228.05 228.06 JOD 73 67 3 P R D BWD021 229.4 229.41 JOD 69 85 3 I R D BWD021 229.5 229.51 SBO 39 140 3 P D BWD021 229.8 229.81 SBO 30 182 3 P D BWD021 238 238.01 JOD 65 255 3 P R D BWD021 239.25 239.26 SBO 53 245 3 P D BWD021 239.75 239.76 JOD 45 237 3 P R D BWD021 240.3 240.31 JOD 29 162 3 P R D BWD021 241 241.01 JOD 69 53 3 P S D BWD021 241.8 241.81 SBO 59 245 3 P D BWD021 242 242.01 JOD 41 232 3 P R D BWD021 243 243.01 SBO 72 263 3 P D BWD021 243.3 243.31 JOD 35 96 3 P S D BWD021 244.75 244.76 SBO 72 263 3 P D BWD021 246.35 246.36 JOD 14 200 3 P S D BWD021 247 247.01 JOD 29 113 3 P P GR D BWD021 248.25 248.26 JOD 30 182 3 P P GR D BWD021 249.35 249.36 JOD 51 92 2 P R D BWD021 250.25 250.26 JOD 48 242 2 P R D BWD021 251.15 251.16 SBO 85 281 2 P D BWD021 253.05 253.06 ZVS 41 232 2 P SP OVERLAPPING SP/PY VEINING D BWD021 253.1 253.11 ZVS 64 85 2 P PY OVERLAPPING SP/PY VEINING D BWD021 253.15 253.16 SBO 75 86 2 P D BWD021 255.1 255.11 JOD 64 117 2 P R D BWD021 258.15 258.16 JOD 52 137 2 P R D BWD021 259.1 259.11 JOD 87 267 2 P R D BWD021 261.9 261.91 ZVQS 49 86 2 P PY 1% SULPHIDES D BWD021 263.6 263.61 ZVQS 40 109 2 U PY 30CM WISE ~5% SULPHIDES D BWD021 264.15 264.16 JOD 30 203 2 P S D BWD021 266.4 266.41 JOD 68 250 2 P R PY D BWD021 267.05 267.06 JOD 37 234 3 P S D BWD021 267.2 267.21 JOD 66 259 3 P S SLICKENSIDES D BWD021 272.25 272.26 JOD 30 106 3 P R D BWD021 272.4 272.41 SBO 69 67 3 P D BWD021 275.2 275.21 JOD 32 169 3 P R D BWD021 277 277.01 ZVQS 25 216 3 P QZ PY ~3% SULPHIDES D BWD021 277.8 277.81 JOD 67 267 3 P R D BWD021 281.1 281.11 JOD 29 132 3 I S D BWD021 282.25 282.26 JOD 64 122 3 P R D BWD021 282.35 282.36 JOD 36 214 3 P R D BWD021 288.1 288.11 JOD 61 79 2 U P GR D BWD021 288.65 288.66 JOD 36 119 2 P R D BWD021 289 289.01 JOD 71 244 2 P S PY D BWD021 289.8 289.81 ZVQS 72 116 2 P QZ PY 50CM THICK 1% SULPHIDES D BWD021 290.25 290.26 JOD 61 244 2 P S D BWD021 290.6 290.61 JOD 80 88 2 P R D BWD021 293.7 293.71 SBO 39 72 2 P D BWD021 300.5 300.51 JOD 60 73 2 I R D BWD021 301.2 301.21 SBO 75 75 2 P D BWD021 302 302.01 ZVQS 69 66 2 P PY SP 3CM THICK SUBPARALLEL TO CORE AXIS D BWD021 302.4 302.41 JOD 35 171 3 P S D BWD021 302.8 302.81 ZVQS 40 80 3 P PY SP PY SP APY VEIN 180CM THICK D BWD021 305.6 305.61 JOD 50 245 3 P S D BWD021 306.4 306.41 SBO 39 72 3 P D BWD021 307.4 307.41 JOD 28 226 3 P R D BWD021 308.1 308.11 JOD 52 142 3 P R D BWD021 308.6 308.61 SBO 45 78 3 P D BWD021 310.6 310.61 JOD 45 78 3 P R D BWD021 311.5 311.51 JOD 39 156 3 P R D BWD021 312.1 312.11 SBO 61 79 3 P D BWD021 315.75 315.76 SBO 69 71 3 P D BWD021 317.6 317.61 JOD 65 114 3 P R D BWD021 319.4 319.41 JOD 32 169 3 P R D BWD021 321.3 321.31 SBO 56 81 3 P D BWD021 323.65 323.66 JOD 73 256 3 P R D BWD021 325.5 325.51 JOD 15 206 3 P S GR D BWD021 328.3 328.31 JOD 79 99 3 P S D BWD021 328.4 328.41 SBO 53 89 3 P D BWD021 330.7 330.71 JOD 26 143 3 P R CARB D BWD021 330.75 330.76 JOD 68 89 3 P S D BWD021 331 331.01 SBO 59 75 3 P D BWD021 333.8 333.81 JOD 39 98 3 P S D BWD021 335.4 335.41 SBO 85 251 3 P D BWD021 339.27 339.28 JOD 38 223 3 P S D BWD021 340.55 340.56 JOD 89 289 3 P R D BWD021 343.1 343.11 JOD 51 112 3 I R D BWD021 345.8 345.81 SBO 26 90 3 P D BWD021 346.75 346.76 JOD 53 117 3 P R D BWD021 348.15 348.16 SBO 14 143 3 P D BWD021 350 350.01 JOD 81 283 3 P R D BWD021 353 353.01 JOD 28 227 3 P R D BWD021 353.95 353.96 JOD 36 120 3 P R D BWD021 358.6 358.61 SBO 41 88 3 P D BWD021 359.1 359.11 SBO 41 89 3 P D BWD021 359.7 359.71 JOD 26 145 3 P S D BWD021 360.9 360.91 JOD 45 80 3 P R D BWD021 361.6 361.61 ZVQS 32 200 3 U QZ PY D BWD021 364.5 364.51 JOD 29 181 3 P S D BWD021 367.5 367.51 JOD 29 122 3 P R D BWD021 367.8 367.81 JOD 41 193 3 P R D BWD021 368.1 368.11 SBO 60 82 3 P D BWD022 53.8 53.81 SBO 75 111 2 P D BWD022 54 54.01 JOD 43 254 2 P R D BWD022 56 56.01 JOD 20 157 2 P R D BWD022 59.35 59.36 SBO 28 208 2 U D BWD022 59.55 59.56 JOD 57 273 2 P S D BWD022 59.9 59.91 JOD 18 97 3 P S D BWD022 60.65 60.66 JOD 23 214 3 P S D BWD022 60.95 60.96 JOD 49 87 3 U S D BWD022 61.6 61.61 JOD 31 227 3 P R D BWD022 63 63.01 SBO 55 267 3 P D BWD022 63.2 63.21 JOD 76 134 3 P R D BWD022 64.5 64.51 SBO 81 66 3 I D BWD022 66.1 66.11 JOU 70 85 3 P D BWD022 67.35 67.36 JOD 35 232 3 P R CARB D BWD022 68.25 68.26 JOD 72 73 3 S R D BWD022 71.1 71.11 JOD 62 94 3 P S D BWD022 73.5 73.51 SBO 75 111 3 U D BWD022 73.75 73.76 JOD 13 204 3 P R CARB D BWD022 73.9 73.91 SBO 75 111 3 P D BWD022 74.15 74.16 ZVQS 65 87 3 P QZ PY MAIN VEIN CONTACT D BWD022 77.15 77.16 JOD 75 99 3 P R D BWD022 79.85 79.86 SBO 73 95 3 P D BWD022 80 80.01 JOD 63 273 3 P R D BWD022 81.2 81.21 JOD 29 112 3 P R D BWD022 84.37 84.38 SBO 69 94 2 P D BWD022 84.6 84.61 JOD 69 280 2 P S D BWD022 89.75 89.76 JOD 57 69 2 P R D BWD022 90.1 90.11 JOD 82 299 2 P S D BWD022 92.2 92.21 JOD 35 241 2 P R D BWD022 93.95 93.96 JOD 12 146 2 P S D BWD022 97 97.01 SBO 82 288 2 U D BWD022 98.75 98.76 JOD 84 104 2 P R D BWD022 99.6 99.61 JOD 28 183 2 P S D BWD022 100.8 100.81 SBO 50 261 2 U D BWD022 101.45 101.46 JOD 55 274 2 P R D BWD022 104.7 104.71 JOD 47 121 2 P R D BWD022 105.3 105.31 JOD 79 240 3 P R D BWD022 106.85 106.86 JOD 32 70 3 P R D BWD022 109.9 109.91 SBO 40 256 3 U D BWD022 114 114.01 JOD 38 75 2 U R D BWD022 131.2 131.21 SBO 15 55 2 P D BWD022 132.5 132.51 SBO 25 42 3 P D BWD022 133.9 133.91 ZVC 82 169 3 P CAL D BWD022 134.05 134.06 JOD 33 316 3 P S D BWD022 134.3 134.31 JOD 43 196 3 P D BWD022 136.7 136.71 ZVQS 85 42 3 P QZ CAL D BWD022 137 137.01 SBO 25 42 3 P D BWD022 138.5 138.51 JOD 85 222 3 P P CL COINCIDENTAL WITH CARB VEIN D BWD022 139.7 139.71 JOD 85 42 3 P D BWD022 140.6 140.61 ZVQS 90 222 3 P QZ PY D BWD022 142.4 142.41 ZSO 30 0 P P CL GR NO ORI. 10CM WIDE ZONE D BWD022 145.55 145.56 JOD 75 222 3 P S CAL D BWD022 146.75 146.76 ZVQS 69 211 3 P QZ APY D BWD022 147.3 147.31 ZVQS 71 57 3 P QZ CL D BWD022 148.9 148.91 JOD 29 170 3 P S D BWD022 151.6 151.61 ZVQS 87 24 3 P QZ D BWD022 152.9 152.91 JOD 42 249 3 P S D BWD022 153.5 153.51 ZVQS 80 42 3 P QZ PY D BWD022 155.15 155.16 JOD 52 179 3 P S D BWD022 156.7 156.71 SBO 50 42 3 P D BWD022 158.05 158.06 ZVQS 85 222 3 P QZ PY D BWD022 162.55 162.56 JOD 73 290 3 P S CAL D BWD022 169.1 169.11 ZVC 69 156 3 P CAL D BWD022 169.3 169.31 JOD 79 189 3 P S CAL CL D BWD022 170.15 170.16 ZVC 72 200 3 P CAL D BWD022 170.4 170.41 JOD 71 170 3 P P CL D BWD022 174.7 174.71 JOD 70 222 3 P S D BWD022 180.45 180.46 JOD 43 279 3 U S D BWD022 183.2 183.21 ZVC 86 147 3 P CAL D BWD022 188.8 188.81 ZVQS 75 254 3 P QZ PY D BWD022 190.25 190.26 JOD 63 158 3 P S CL D BWD022 191.5 191.51 ZVC 61 165 3 CAL D BWD022 193.6 193.61 JOD 20 183 3 P R D BWD022 195.9 195.91 SBO 44 45 3 P LOWISH CONFIDENCE D BWD022 196.3 196.31 JOD 71 253 3 P S CL D BWD022 199.3 199.31 ZVQS 69 257 3 P QZ PY D BWD022 206 206.01 JOD 85 40 3 P S CL CAL D BWD022 207.1 207.11 JOD 66 225 3 P R D BWD022 211.4 211.41 JOD 30 62 3 P S CL D BWD023 31.6 31.61 SBO 16 195 1 P D BWD023 32.55 32.56 ZVQ 74 72 2 P QZ D BWD023 44.05 44.06 JOD 47 318 2 U R D BWD023 46.05 46.06 JOD 50 314 2 P S CL D BWD023 49.2 49.21 SBO 19 270 2 P D BWD023 50.6 50.61 SBO 26 293 1 P D BWD023 51.3 51.31 ZVQ 83 81 2 P QZ PY D BWD023 53.4 53.41 JOD 38 106 2 P S CL D BWD023 55.8 55.81 SBO 20 150 2 P D BWD023 58.8 58.81 SBO 22 191 2 P D BWD023 62 62.01 JOD 71 330 3 P S CL CAL D BWD023 62.5 62.51 SBO 21 167 3 P D BWD023 68.4 68.41 SBO 21 201 3 P D BWD023 70.55 70.56 JOD 56 332 3 U S CL CAL D BWD023 73.9 73.91 SBO 32 122 3 P D BWD023 74.4 74.41 JOD 39 327 3 P S CL CAL D BWD023 75.9 75.91 SBO 28 182 3 P D BWD023 80.4 80.41 ZFC 84 51 1 P S CLAY SERI 6CM WIDE FISSILE D BWD023 84.9 84.91 ZFC 23 155 2 P S CL CLAY REASONABLY INTACT BUT 30CM WIDE WITH ASSOCIATED QZ VEINS AND POSS CHALCOPYRITE D BWD023 89.25 89.26 SBO 58 158 3 P D BWD023 91.3 91.31 JOD 42 191 3 P S CL D BWD023 95.35 95.36 ZVC 58 335 3 P CAL PARALLEL TO JOINT SET D BWD023 95.9 95.91 JOD 46 101 3 P S CL D BWD023 99.2 99.21 JOD 36 172 3 P S CL ALMOST POLISHED D BWD023 100 100.01 ZFX 80 39 3 P CL WELL HEALED BUT 20CM WIDE. CHLORITE MATRIX D BWD023 101.5 101.51 ZVQS 70 39 3 P QZ PY D BWD023 103.5 103.51 JOD 71 14 3 P S CL ALMOST ROUGH D BWD023 103.7 103.71 ZVQS 43 96 3 P QZ PY D BWD023 106.5 106.51 SBO 47 192 3 P D BWD023 107 107.01 JOD 54 309 3 P P CAL CL D BWD023 110.3 110.31 SBO 42 191 3 P D BWD023 113.3 113.31 JOD 69 338 3 P S CAL D BWD023 117.3 117.31 JOD 90 35 3 U R CAL D BWD023 123.1 123.11 ZVQ 53 322 3 P QZ 1MM THICK D BWD023 128 128.01 SBO 37 193 3 P D BWD023 130.4 130.41 ZVQ 68 27 3 P QZ CL 5CM THICK. NOT LAMINATED BUT NOT A SINGLE PHASE EITHER D BWD023 133.95 133.96 JOD 62 326 3 P S CL D BWD023 139 139.01 ZVQS 40 217 3 P QZ CL D BWD023 139.8 139.81 ZFC 47 286 3 P S CL CLAY 20CM WIDE. FISSILE. POSSIBLY GRAPHITIC D BWD023 140.5 140.51 SBO 45 182 3 P D BWD023 141.9 141.91 JOD 53 326 3 P P CL D BWD023 143.25 143.26 SBO 37 198 3 P D BWD023 147.4 147.41 JOD 15 229 3 P S CL CAL D BWD023 151.6 151.61 SBO 45 229 3 U D BWD023 154.9 154.91 SBO 52 203 3 P D BWD023 159.3 159.31 ZVQ 45 187 3 U QZ CL D BWD023 165.1 165.11 ZVQ 23 187 3 P QZ CL ALMOST LOOKS LIKE BEDDING D BWD023 165.4 165.41 JOD 60 338 3 P P CL D BWD023 167.1 167.11 ZFG 40 184 3 P P CLAY CL 3MM WIDE WITH SOME CALCITE AS WELL D BWD024 26.5 26.51 SBO -60 U INTERBEDDED MUD SILT SAND D BWD024 30.6 30.61 JOD 88 42 2 D BWD024 32.1 32.11 SBO 62 34 3 D BWD024 33.4 33.41 JOD 12 239 3 P S CL D BWD024 33.5 33.51 ZVQ 75 355 3 1MM WIDE VEIN. QZ-CAL VEIN D BWD024 35.5 35.51 ZVQ 62 3 3 QZ CAL 2MM WIDE D BWD024 36.5 36.51 ZVQ 77 338 3 P QZ CAL D BWD024 39.1 39.11 SBO 68 42 3 P D BWD024 41.1 41.11 SBO 63 37 3 P HIGHER CONFIDENCE CF TO PREVIOUS RECORD D BWD024 42.3 42.31 JOD 85 275 3 P S CL D BWD024 46.2 46.21 SBO 62 71 3 P D BWD024 48.7 48.71 SBO 53 44 3 P MUDSTONE BED D BWD024 49.3 49.31 SBO 62 71 3 P MUDSTONE BED D BWD024 52.9 52.91 ZVC 85 19 3 P CAL QZ D BWD024 53 53.01 JOD 40 335 3 P S CL D BWD024 54.7 54.71 ZVQ 84 186 3 P QZ CAL WITH JOINT AT SAME ORI D BWD024 55.6 55.61 ZVQ 68 47 3 P QZ CL WITH TRACE PY D BWD024 56.7 56.71 SBO 61 58 3 P D BWD024 57.4 57.41 JOD 81 8 3 P P CL D BWD024 58.3 58.31 SBO 68 50 3 P D BWD024 61.5 61.51 SBO 68 50 3 P D BWD024 65.5 65.51 JOD 86 102 3 P SL CL CAL GAMMA 40 ON SLICKS D BWD024 68.45 68.46 JOD 83 2 3 P P CL D BWD024 69.75 69.76 SBO 68 38 3 P D BWD024 73.55 73.56 SBO 67 34 3 P D BWD024 77.3 77.31 SBO 73 54 3 P D BWD024 79.2 79.21 SBO 68 53 3 P D BWD024 83.5 83.51 SBO 58 34 3 P D BWD024 86.8 86.81 SBO 68 31 3 P D BWD024 87.3 87.31 JOD 63 328 3 P S CL D BWD024 87.7 87.71 ZVQ 58 51 3 P QZ CL ALSO CONTAINS ASPY AND PY APPROX 20CM WIDE D BWD024 92.5 92.51 SBO 59 44 3 p D BWD024 95.8 95.81 SBO 63 33 3 P D BWD024 96.7 96.71 SBO 64 49 3 P D BWD024 98.25 98.26 ZFX 69 38 3 P S CL GR 3 CM WIDE D BWD024 100 100.01 SBO 73 34 3 P D BWD024 101.6 101.61 JOD 88 338 3 P S CL D BWD024 103.5 103.51 SBO 68 31 3 P D BWD024 106.15 106.16 JOD 33 171 3 P R D BWD024 107.3 107.31 ZVQ 31 49 3 P QZ CL 10CM WIDE D BWD024 107.5 107.51 SBO 65 44 3 P D BWD024 108.3 108.31 JOD 30 301 3 P R CL CAL D BWD024 108.45 108.46 ZVQ 85 215 3 P CAL QZ 5MM WIDE D BWD024 109.9 109.91 JOD 85 36 3 P R CL D BWD024 110.1 110.11 SBO 59 34 3 U U LOAD CASTS? LOW CONFIDENCE ON DIP DIRECTION DUE TO GEOMETRY OF CONTACT D BWD024 110.5 110.51 ZVQ 50 50 3 P QZ PY LOW CONFIDENCE OF ACTUAL DIP DIP-DIRECTION D BWD024 110.7 110.71 JOD 82 186 3 P S CL D BWD024 112.7 112.71 JOD 41 202 3 P P CL D BWD024 113.5 113.51 SBO 65 44 3 P D BWD024 113.8 113.81 ZVQ 84 32 3 P QZ PY D BWD024 114.85 114.86 JOD 60 285 3 P S CL CAL D BWD024 114.9 114.91 ZVQ 65 38 3 P D BWD024 115.2 115.21 SBO 63 30 3 P D BWD024 118.85 118.86 SBO 65 52 3 P D BWD024 120.2 120.21 JOD 43 195 3 U S CL CAL D BWD024 122.65 122.66 ZVQS 50 50 3 P QZ PY D BWD024 124.4 124.41 SBO 70 44 3 P D BWD024 124.5 124.51 JOD 44 15 3 P R CAL CL D BWD024 126.6 126.61 ZVQ 60 44 3 P QZ PY D BWD024 127.9 127.91 SBO 65 46 3 P D BWD024 131.2 131.21 SBO 65 35 3 P D BWD024 131.7 131.71 ZVQ 65 45 3 P QZ PY D BWD024 134.35 134.36 SBO 55 44 3 P U SMALL DEWATERING STRUCTURES. SSG ON TOP MUD UNDERNEATH GOING DOWNHOLE. SMALL PROJECTIONS OF MUD INTO SSG D BWD024 137.8 137.81 SBO 55 44 3 P D BWD024 143.2 143.21 JOD 60 324 3 P S CL D BWD024 144.5 144.51 SBO 35 17 3 P D BWD024 145.5 145.51 SBO 40 20 3 P D BWD024 147.4 147.41 ZVQ 41 337 3 P QZ PY 2CM WIDE D BWD024 149.75 149.76 SBO 44 49 3 P D BWD024 151.1 151.11 ZVQ 79 33 3 P QZ CL D BWD024 153.2 153.21 JOD 86 211 3 P S CL CAL D BWD024 154.8 154.81 SBO 48 54 3 P D BWD024 155.15 155.16 SBO 45 44 3 P D BWD024 155.3 155.31 ZVQ 81 21 3 P QZ CAL D BWD024 158.3 158.31 SBO 45 44 3 P D BWD024 158.4 158.41 ZVQ 80 44 3 P QZ D BWD024 161.4 161.41 SBO 40 44 3 P D BWD024 163.8 163.81 JOD 49 308 3 P S CL D BWD024 169.7 169.71 SBO 47 68 3 P D BWD024 169.8 169.81 JOD 62 112 3 P S CL D BWD024 171.5 171.51 SBO 23 78 3 P D BWD024 172.6 172.61 ZVQ 33 109 3 P QZ PY D BWD024 180.1 180.11 JOD 81 210 3 P S CL D BWD024 183.2 183.21 SBO 33 276 3 P D BWD024 184.9 184.91 ZVQ 65 79 3 P S QZ CL PART OF A MASSIVE QZ VEIN SYSTEM D BWD024 186.15 186.16 SBO 73 31 3 P D BWD024 187.7 187.71 SBO 33 171 3 P D BWD024 190.3 190.31 ZVQ 82 283 3 P D BWD024 192.4 192.41 SBO 11 158 3 P D BWD024 199 199.01 SBO 35 183 3 P D BWD024 204.9 204.91 SBO 24 177 3 P D BWD024 206.05 206.06 ZVQ 15 229 3 QZ CL D BWD024 207.9 207.91 JOD 63 98 3 P P CL D BWD024 210.9 210.91 SBO 50 144 3 P LOW CONFIDENCE. HARD TO SEE BEDDING BUT? D BWD024 212 212.01 ZRO -45 0 P FRACTURE ZONE FROM 212 TO 224 NOT SMASHED BUT MUCH MORE FRACTURED THAN NORMAL D BWD024 213.5 213.51 ZVQ 75 40 3 P QZ PY D BWD024 215.6 215.61 ZVQ 60 16 3 P QZ D BWD024 218.3 218.31 SBO 26 240 3 P D BWD024 222.4 222.41 JOD 26 200 3 U S CL CAL D BWD024 223.8 223.81 SBO 25 155 3 P D BWD024 227.2 227.21 ZVC 82 18 3 P CAL CL LIGHT PINK CALCITE D BWD024 230.9 230.91 ZRO -15 0 230.9 TO 231.7 D BWD024 236.8 236.81 SBO 74 27 3 P D BWD024 237.8 237.81 SBO 29 182 3 P DEF BEDDING PLANE D BWD024 242.15 242.16 JOD 89 28 3 U S CL D BWD024 244.4 244.41 JOD 47 322 3 P S CL D BWD024 251 251.01 JOD 70 40 3 P S CL D BWD024 255.2 255.21 SBO 41 205 3 P I'M NOT SURE IF THIS IS BEDDING OR NOT. VERY HARD TO GET A BEDDING PLANE AT PRESENT IN THIS AREA D BWD024 259.6 259.61 SBO 36 237 3 P S I THINK THIS IS BEDDING. LOOKS LIKE IT BUT…? CONFUSED. YES IT'S BEDDING. D BWD024 266.95 266.96 SBO 40 208 3 P D BWD024 281.5 281.51 SBO 82 200 3 P D BWD024 285.5 285.51 JOD 40 223 3 P P CL MIRROR FINISH ON THE CHLORITE D BWD024 291.6 291.61 JOD 80 214 3 P S CL D BWD024 293 293.01 JOD 85 223 3 P S CL D BWD024 303.25 303.26 SBO 39 167 3 P D BWD024 304.8 304.81 JOD 89 219 3 P S CL D BWD024 305 305.01 JOD 62 335 3 P S CL D BWD024 305.5 305.51 SBO 17 118 3 P D BWD024 308.85 308.86 JOD 37 95 3 P D BWD024 310.6 310.61 SBO 35 181 3 U WAVY BEDDING. MICRO FOLDS? D BWD024 313.7 313.71 JOD 58 356 3 P S CL D BWD024 317.5 317.51 ZVQ 73 63 3 P QZ CL 5MM WIDE D BWD024 318.5 318.51 JOD 78 124 3 P S CL D BWD024 321 321.01 ZRO -80 0 P S CL JOINTED ZONE FROM 321 TO 327 D BWD024 323 323.01 JOD 71 107 3 P S CL REPRESENTATIVE JOINT FROM ZONE LOGGED ABOVE D BWD024 323.5 323.51 SBO 28 187 3 P D BWD024 323.7 323.71 ZVQS 66 286 3 U QZ CCP D BWD024 325.5 325.51 JOD 81 54 3 P S CL D BWD025 11.12 11.13 ZVS 26 88 3 P APY D BWD025 12.8 12.81 JOD 25 0 P S D BWD025 16.6 16.61 JOD 40 0 P S D BWD025 17.47 17.48 SBO 60 0 P S CONTACT BETWEEN THE OVERLYING CLAY AND HIGHLY WEATHERED SANDSTONE AS WELL AS THE LOWER LYING MODERATELY WEATHERED GREYWACKE D BWD025 18.8 18.81 ZFG 0 S NOT QUITE A GOUGE BUT AN INFILL OF CLAY MINERALS WITHIN A FAULT ZONE D BWD025 19.5 19.51 JOD 40 0 P R SERIES OF PLANAR FRACTURES WITHIN A 30CM ZONE OF ALL THE SAME DIP AND ORIENTATION D BWD025 21.35 21.36 JOD 40 0 P S D BWD025 22.15 22.16 SBO 65 0 P BEDDING PLANE BETWEEN A MODERATELY WEATHERED SANDSTONE AND A MODERATELY WEATEHRED SILTSTONE D BWD025 24.75 24.76 JOD 30 0 P S D BWD025 27.58 27.59 ZVQ 60 0 P QZ D BWD025 28.05 28.06 JOD 20 0 P S D BWD025 31.4 31.41 JOD 66 55 1 U R D BWD025 31.7 31.71 JOD 86 3 1 I R D BWD025 32 32.01 JOD 74 337 1 P R CAL D BWD025 32.5 32.51 SBO 19 183 1 P S D BWD025 32.7 32.71 ZVQ 79 225 1 P S QZ D BWD025 32.9 32.91 ZVQ 13 155 1 I QZ CAL D BWD025 33.3 33.31 JOD 60 133 2 S R D BWD025 33.66 33.67 JOD 60 357 2 P S D BWD025 34.04 34.05 JOD 88 209 2 P S D BWD025 34.56 34.57 JOD 60 133 2 P S D BWD025 34.82 34.83 JOD 81 5 2 P S D BWD025 36.24 36.25 JOD 48 338 3 P S D BWD025 37.45 37.46 ZVQ 66 213 3 P QZ CL D BWD025 38.04 38.05 ZVQ 65 44 3 U QZ CL D BWD025 38.1 38.11 SBO 28 274 3 P BEDDING FROM FINE GRAINED SIO TO SSG D BWD025 39.11 39.12 SBO 75 41 3 P D BWD025 39.52 39.53 SBO 54 42 3 U BEDDING FROM SSG TO A SMALL BAND OF SIO D BWD025 39.7 39.71 ZVQ 81 216 3 P CAL QZ D BWD025 39.9 39.91 JOD 22 356 3 P S D BWD025 40.6 40.61 SBO 66 31 3 P BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 41.08 41.09 JOD 19 287 3 P R D BWD025 41.86 41.87 ZVQ 86 3 3 P QZ CL D BWD025 42.14 42.15 SBO 80 40 3 P BEDDING FROM GREYWACKE TO SILTSTONE D BWD025 42.48 42.49 ZVQ 89 21 3 P QZ D BWD025 43.24 43.25 JOD 71 29 3 P R D BWD025 43.56 43.57 ZVQ 64 38 3 P QZ CL D BWD025 43.81 43.82 SBO 56 23 3 P BEDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 43.9 43.91 YGB 3 U COARSER GRAINED SEDIMENTS ARE ON THE LOWER END OF CORE D BWD025 44.45 44.46 SBO 59 40 3 P BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 45.07 45.08 SBO 57 36 3 P BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 45.08 45.43 SBO 19 190 3 P BEDDING PLANE FROM SILTSTONE TO GREYWACKE D BWD025 45.57 45.58 ZVQ 86 217 3 P QZ PY PYRITE SPECS FORMING ON THE LOWER VEIN SELVAGE D BWD025 46.17 46.18 JOD 51 166 3 U R D BWD025 46.51 46.52 SBO 54 52 3 P BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 46.9 46.91 JOD 68 37 3 P S D BWD025 47.03 47.04 JOD 16 264 3 P S CAL D BWD025 47.35 47.36 ZVQ 74 38 3 I CAL D BWD025 47.63 47.64 SBO 68 22 3 P D BWD025 48.41 48.42 ZVC 68 37 3 P CAL PL D BWD025 48.98 48.99 SBO 59 40 3 P BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 49.4 49.41 ZVC 77 18 3 U CAL D BWD025 50.5 50.51 ZVC 64 201 3 U CAL D BWD025 51.34 51.35 ZVC 87 30 3 U CAL D BWD025 51.7 51.71 ZVC 47 162 3 P CAL D BWD025 52.32 52.33 ZVC 72 209 3 U CAL D BWD025 52.92 52.93 ZVC 81 186 3 U CAL D BWD025 53.14 53.15 JOD 75 41 3 P R CAL CL D BWD025 54.22 54.23 SBO 56 50 3 P BEDDING PLANE FROM SILTSTONE TO GREYWACKE D BWD025 54.73 54.74 SBO 66 55 3 P BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 55.12 55.13 JOD 75 41 3 U S D BWD025 56.34 56.35 ZVC 64 41 3 P CAL D BWD025 58.34 58.35 SBO 49 45 3 P BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 59.98 59.99 SFO 65 45 3 P FOLIATIONS WITHIN A MORE GRAPHITIC CARBONACEOUS ZONE D BWD025 61.28 61.29 SBO 60 45 3 P BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 61.32 61.33 JOD 71 29 3 P S D BWD025 64.3 64.31 ZVC 66 335 3 U CAL D BWD025 65 65.01 JOD 49 332 3 P S D BWD025 65.64 65.65 SBO 67 22 0 P CAL D BWD025 66.35 66.36 ZVQ 12 143 0 P QZ APY D BWD025 67 67.01 ZVQ 34 246 0 P QZ PY D BWD025 67.34 67.35 SBO 6 66 0 P BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 67.66 67.67 ZVC 15 216 0 P CAL QZ D BWD025 68.2 68.21 JOD 86 282 0 P S D BWD025 68.59 68.6 SBO 1 66 0 P BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 69.56 69.57 SBO 62 45 3 P BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 69.72 69.73 ZVC 80 36 3 P CAL D BWD025 69.9 69.91 JOD 34 256 3 P R D BWD025 70.82 70.83 SBO 66 61 3 P BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 71.48 71.49 JOD 35 263 3 P S D BWD025 72.05 72.06 SBO 70 54 3 U BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 72.2 72.21 ZVC 86 229 3 I D BWD025 73.36 73.37 JOU 81 306 3 P D BWD025 74.4 74.41 ZVQS 64 50 3 U QZ PY D BWD025 75.38 75.39 ZVC 83 219 3 P CAL D BWD025 76.98 76.99 JOD 36 158 3 P R CAL D BWD025 77.88 77.89 SBO 76 59 3 U BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 78.35 78.36 ZVC 88 220 3 U CAL D BWD025 79.31 79.32 SBO 60 31 3 P D BWD025 80.39 80.4 JOD 62 145 3 U CAL D BWD025 80.88 80.89 ZVQS 76 59 3 P QZ PY D BWD025 81.6 81.61 SBO 66 42 3 P BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 82.86 82.87 ZVC 50 286 3 U CAL D BWD025 84.05 84.06 ZVC 41 292 3 U CAL D BWD025 84.82 84.83 JOD 42 79 3 I S D BWD025 85.3 85.31 JOD 41 292 3 P S CAL SERI D BWD025 87.65 87.66 JOD 27 233 3 P S CAL D BWD025 87.78 87.79 ZVQ 53 50 3 P QZ D BWD025 88.6 88.61 ZVQS 55 43 3 P QZ SP D BWD025 90.85 90.86 JOD -50 0 P R CAL D BWD025 91.9 91.91 ZVC 45 203 3 U CAL D BWD025 92.26 92.27 JOD 85 81 3 P S D BWD025 93.21 93.22 JOD 55 74 3 U S D BWD025 93.6 93.61 JOD 53 50 3 U S D BWD025 94.53 94.54 ZVQ 85 50 3 U QZ CL D BWD025 95.54 95.55 JOD 45 350 3 P S D BWD025 96.74 96.75 SBO 57 47 3 P BEDDING PLANE OF A SNALL 2CM SILTSTONE BAND D BWD025 97.7 97.71 ZFSS 75 53 3 P 10 SMALL BEDDING PLANE WITH A SINISTRAL FAULT OBLIQUE TO THE ORIENTATION D BWD025 97.9 97.91 JOD 65 55 3 P S D BWD025 99.7 99.71 SBO 62 44 3 P D BWD025 101.14 101.15 SBO 53 50 3 P BEDDING PLANE FROM COARSER GRAINED SILTSTONE TO FINER GRAINED SILTSTONE D BWD025 101.9 101.91 JOD 75 79 3 U D BWD025 102.9 102.91 JOD 40 261 3 P S D BWD025 104.63 104.64 JOD 60 320 3 U S CAL D BWD025 105.36 105.37 JOD 62 44 3 P S D BWD025 105.53 105.54 ZVQ 88 220 3 P QZ 2 SAMLL QZ VEIN WITH A MINOR 2MM DISPLACEMENT FROM A SECONDARY CROSSCUTTING QZ VEIN D BWD025 106.44 106.45 SBO 69 25 3 P BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 107.3 107.31 JOD 88 167 3 P S CAL D BWD025 108.33 108.34 ZVQS 52 28 3 U QZ CL QZ VEIN HAS TRACES OF APY WITHIN IT D BWD025 109.56 109.57 ZVQ 85 34 3 P QZ D BWD025 109.6 109.61 ZVC 68 151 3 I CAL D BWD025 109.87 109.88 ZVQ 86 228 3 U QZ D BWD025 110.38 110.39 JOU 73 276 3 I D BWD025 110.9 110.91 ZVQ 73 22 3 P QZ D BWD025 111.75 111.76 JOD 36 127 3 I S D BWD025 112.07 112.08 JOD 17 9 3 U S D BWD025 112.47 112.48 ZVC 8 103 3 P CAL D BWD025 112.87 112.88 JOD 42 131 3 P S D BWD025 114.41 114.42 ZVC 20 221 3 U CAL CL D BWD025 114.7 114.71 JOD 57 351 3 P R D BWD025 115.12 115.13 JOD 50 106 3 P S D BWD025 115.17 115.18 ZVQS 28 206 3 P QZ PY D BWD025 116.08 116.09 ZVQ 44 37 3 I QZ 2 SMALL QZ VEIN THAT HAS BEEN DISPLACED BY A FAULT-FRACTURE BY 2MM D BWD025 117.27 117.28 ZVQS 64 50 3 U QZ PY D BWD025 117.47 117.48 JOD 62 44 3 P S PY D BWD025 118.51 118.52 ZVC 37 99 3 I CAL D BWD025 118.73 118.74 SBO 65 28 3 P BEDDING PLANE FROM SILTSTONE TO GREYWACKE D BWD025 119.27 119.28 JOD 47 173 3 U R CAL D BWD025 120.84 120.85 JOD 66 41 3 P R D BWD025 121.46 121.47 SBO 71 39 3 P BEDDING PLANE FROM SILTSTONE TO GREYWACKE D BWD025 121.95 121.96 SBO 71 39 3 P BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 122.15 122.16 JOD 75 52 3 I R D BWD025 123.34 123.35 SBO 76 37 3 P BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 123.65 123.66 SBO 66 30 3 P BEDDING PLANE D BWD025 123.88 123.89 ZVQS 61 21 3 U QZ PY 8CM THICK QZ-SULPHIDE VEIN D BWD025 124.3 124.31 SBO 66 60 3 U BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 125.13 125.14 SBO 65 27 3 P S BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 126.12 126.13 SBO 57 34 3 P 7 BEDDING PLANE FROM GREYWACKE TO SILTSTONE WITH A SMALL DISPLACEMENT CAUSED BY A FAULT D BWD025 127.15 127.16 JOD 30 166 3 U R D BWD025 127.7 127.71 JOD 27 61 3 P S CAL D BWD025 128.26 128.27 JOD 20 90 3 P S CAL D BWD025 128.31 128.32 SBO 49 42 3 P S BEDDING PLANE FROM SILTSTONE TO MUDSTONE D BWD025 129.4 129.41 JOD 80 35 3 P S D BWD025 130.35 130.36 ZVQ 81 196 3 P QZ D BWD025 130.57 130.58 SBO 62 44 3 U BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 130.95 130.96 SBO 72 30 3 P BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 131.22 131.23 SBO 65 27 3 P SILTSTONE BAND BEDDING D BWD025 131.8 131.81 SBO 47 125 3 U BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 132.25 132.26 SBO 47 39 3 U BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 132.5 132.51 SBO 57 46 3 P BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 132.67 132.68 ZVQS 83 42 3 P QZ APY APY FORMING ON THE LOWER QZ-VEIN SELVAGE D BWD025 132.85 132.86 ZVQS 64 49 3 P QZ PY D BWD025 134.31 134.32 ZVC 69 116 3 P CAL D BWD025 135.13 135.14 SBO 77 28 3 P BEDDING PLANE FROM SILTSTONE TO GREYWACKE D BWD025 135.79 135.8 SBO 75 52 3 P 5 D BWD025 136.62 136.63 SBO 62 44 3 P BEDDING PLANE D BWD025 136.85 136.86 ZVC 77 112 3 P CAL D BWD025 138.49 138.5 SBO 44 11 3 U BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 139.25 139.26 JOD 65 27 3 I S D BWD025 139.93 139.94 ZVQS 47 39 3 U QZ APY D BWD025 140.1 140.11 ZVQS 90 191 3 P QZ APY D BWD025 141.1 141.11 SBO 65 27 3 U BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 142.08 142.09 JOD 53 49 3 P S D BWD025 143.28 143.29 JOD 59 39 3 P S D BWD025 143.4 143.41 SBO 57 34 3 P BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 145.61 145.62 ZVQS 53 49 3 U QZ APY D BWD025 146.43 146.44 JOD 47 30 3 P S D BWD025 149.14 149.15 ZVQS 85 50 3 U QZ PY D BWD025 150.36 150.37 SBO 49 40 3 P BEDDING PLANE OF INTERBEDDED MUDSTONE D BWD025 150.66 150.67 ZVQ 9 98 3 P QZ D BWD025 151.7 151.71 JOD 50 32 3 P S D BWD025 152.33 152.34 SBO 44 42 3 P BEDDING PLANE D BWD025 153.34 153.35 ZVQ 12 63 3 U QZ D BWD025 153.8 153.81 ZVQ 84 350 3 P QZ VEIN IS SUB-PARALLEL TO CORE AXIS D BWD025 154.62 154.63 JOD 53 353 3 P S D BWD025 154.77 154.78 ZVQ 62 42 3 P QZ D BWD025 156.7 156.71 JOD 74 43 3 P S D BWD025 156.73 156.74 ZVC 11 201 3 P CAL D BWD025 158.44 158.45 JOD 79 45 3 P D BWD025 158.6 158.61 ZVQ 76 53 3 P QZ D BWD025 159.15 159.16 JOD 23 107 3 P R CAL D BWD025 160.7 160.71 ZVQS -55 0 U QZ PY LARGER QZ-SULPHIDE VEIN D BWD025 161.2 161.21 ZVC 51 3132 3 P CAL D BWD025 161.57 161.58 ZVQS 44 34 3 U QZ PY D BWD025 162.82 162.83 SBO 47 37 3 U BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 163.2 163.21 ZVQS 61 28 3 P QZ PY D BWD025 163.85 163.86 JOD 81 205 3 P CAL D BWD025 166.31 166.32 JOD 86 105 3 P S CAL D BWD025 166.5 166.51 SBO 33 79 3 U BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 166.73 166.74 ZVQS 67 63 3 U QZ PY D BWD025 167.8 167.81 JOD 36 332 3 P S CAL D BWD025 169.3 169.31 JOD -30 0 I S D BWD025 170.55 170.56 JOD 78 243 3 U S PY D BWD025 170.64 170.65 SBO 13 326 3 P P D BWD025 171.28 171.29 ZVQ 0 3 U QZ QZ VEIN IS RUNNING PARALLEL TO THE CORE AXIS D BWD025 171.48 171.49 ZVQ 63 356 3 P QZ D BWD025 171.83 171.84 JOD 37 38 3 I S CAL D BWD025 172.8 172.81 JOD 67 66 3 P R D BWD025 173 173.01 SBO 27 203 3 U BEDDING PLANE FROM COARSER GRAINED TO FINER GRAINED SILTSTONE D BWD025 173.66 173.67 ZVQS 49 40 3 U QZ PY PYRITE FORMING ON THE QZ VEIN SELVAGES D BWD025 174.23 174.24 JOD 77 100 3 U R PY D BWD025 174.42 174.43 JOD 75 43 3 U S D BWD025 175.55 175.56 ZVC 51 217 3 P CAL D BWD025 176 176.01 ZVC 36 332 3 P CAL D BWD025 176.5 176.51 ZVS 40 197 3 P PY QZ 0.5MM TO 1CM THICK SULPHIDE VEIN INCREASING WITH THICKNESS TOWARDS THE APEX D BWD025 177.17 177.18 JOD 90 188 3 U PY D BWD025 177.7 177.71 SBO 34 226 3 U BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 177.9 177.91 JOD 83 243 3 P S D BWD025 178.4 178.41 ZVQS 51 56 3 U QZ PY 21CM THICK QZ VEIN D BWD025 179.25 179.26 ZVQS 46 107 3 U QZ PY D BWD025 179.4 179.41 JOD 64 47 3 U S D BWD025 180.14 180.15 ZVQ 86 205 3 I QZ BRECCIATED QZ VEIN D BWD025 180.26 180.27 ZVQS 40 20 3 I QZ PY 22 LARGER DISPLACEMENT D BWD025 180.6 180.61 ZFX 86 19 3 P GR QZ D BWD025 181.22 181.23 ZVQ -30 0 P QZ D BWD025 182.16 182.17 ZVQ 9 265 3 P QZ D BWD025 183.34 183.35 JOD 83 241 3 P S D BWD025 183.75 183.76 SBO 42 144 3 U BEDDING PLANE FROM SILTSTONE TO MUDSTONE D BWD025 183.9 183.91 ZVQS 83 241 3 P QZ APY D BWD025 184.11 184.12 JOD 41 30 3 I S D BWD025 184.52 184.53 ZVQS 90 27 3 P QZ PY D BWD025 186.82 186.83 SBO 41 179 3 P BEDDING PLANE FROM GREYWACKE TO SILTSTONE-MUDSTONE D BWD025 187.24 187.25 JOD 46 17 3 I S D BWD025 188 188.01 SBO 19 149 3 P BEDDING PLANE FROM GREYWACKE TO SILTSTONE-MUDSTONE D BWD025 188.58 188.59 ZVQS 65 263 3 P QZ PY D BWD025 189.25 189.26 JOD 70 347 3 P S CAL PY D BWD025 190.72 190.73 ZVQS 86 19 3 P QZ PY D BWD025 191.1 191.11 ZVQS 76 281 3 P QZ PY D BWD025 191.73 191.74 JOD 36 131 3 I R CAL PY D BWD025 191.9 191.91 SBO 31 137 3 P BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 192.19 192.2 ZVS 15 272 3 I PY D BWD025 192.2 192.21 SBO 15 272 3 I BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 192.53 192.54 ZVQS 64 45 3 P QZ PY D BWD025 193.71 193.72 JOD 30 161 3 U R D BWD025 195 195.01 ZVQS 40 54 3 P QZ PY D BWD025 195.68 195.69 SBO 21 205 3 P BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 196.56 196.57 ZVQS 23 195 3 P QZ PY OPAQUE QZ-SULPHIDE VEIN WITHIN A TRANSLUCENT QZ-SULPHIDE VEIN D BWD025 197.1 197.11 SBO 41 179 3 P PY BEDDING PLANE ROM SILTSTONE TO MUDSTONE D BWD025 198.9 198.91 ZVQS 75 261 3 U QZ PY D BWD025 200.6 200.61 ZVC 32 205 3 P CAL D BWD025 201 201.01 SBO 37 174 3 U BEDDING PLANE ROM SILTSTONE TO MUDSTONE D BWD025 201.82 201.83 SBO 45 183 3 U BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 202.12 202.13 ZVQ 66 350 3 P QZ D BWD025 202.7 202.71 SBO 72 125 3 U BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 204 204.01 ZVQ 19 187 3 P SI PY SMALL SILICIFIED VEIN WITH TRACES OF PYRITE D BWD025 205.15 205.16 JOD 52 42 3 P S D BWD025 205.53 205.54 ZVC 77 24 3 S CAL 8 D BWD025 205.78 205.79 JOD 56 355 3 U S CAL APY D BWD025 206.55 206.56 JOD 24 310 3 U S D BWD025 207 207.01 SBO 43 164 3 P QZ CONTACT OF BEDDING DOESN’T DIFFER IN GRAIN SIZE BUT DIFFERS IN COLOUR D BWD025 207.1 207.11 ZVQ 50 126 3 P QZ D BWD025 207.46 207.47 ZVQ 45 332 3 P QZ CL D BWD025 208.5 208.51 JOD 49 84 3 U S D BWD025 209.55 209.56 ZVQ 46 43 3 U QZ CAL D BWD025 210.33 210.34 JOD 67 65 3 P S D BWD025 210.9 210.91 ZVQ 89 196 3 U QZ D BWD025 211.63 211.64 JOD 57 29 3 P S D BWD025 212.34 212.35 JOD 52 60 3 P S PY D BWD025 213.53 213.54 JOD 65 22 3 P S PY D BWD025 214.24 214.25 ZVQS 65 22 3 U QZ PY D BWD025 214.66 214.67 ZFG 58 41 3 P D BWD025 214.88 214.89 ZVQS 59 44 3 U QZ PY D BWD025 216 216.01 ZFN 0 HIGHLY FRACTURED ZONE COMPRISED OF ANGULAR ROCK FRAGMENTS IN A FAULT D BWD025 217.85 217.86 ZVQ 76 47 2 P QZ D BWD025 218.4 218.41 ZVQS 88 210 2 P QZ PY D BWD025 221.9 221.91 ZVQ -30 0 P QZ CL D BWD025 224.9 224.91 JOD 89 196 3 P S D BWD025 225.31 225.32 ZVQ 83 240 3 U QZ D BWD025 225.64 225.65 ZVC 23 240 3 P D BWD025 227.67 227.68 JOD 78 339 3 U R CAL D BWD025 228.08 228.09 ZVC 80 130 3 I CAL 6 CARBONATE VEIN BEING DISPLACED BY 6MM D BWD025 228.44 228.45 JOD 55 48 3 U R D BWD025 229.9 229.91 JOD 62 327 3 P S D BWD025 230.65 230.66 JOD 76 280 3 U R CAL D BWD025 231.4 231.41 SBO 24 170 3 U BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 235.75 235.76 JOD 27 165 3 S S D BWD025 235.88 235.89 SBO 27 200 3 U BEDDING PLANE FROM LIGHTER GREY SILTSTONE TO A DARKER GREY MUDSTONE D BWD025 236.5 236.51 ZVQS 58 41 3 I QZ PY 4CM THICK QZ VEIN WITH TRACES OF SULPHIDES D BWD025 237.31 237.32 JOD 64 31 3 P R D BWD025 238.87 238.88 JOD 66 323 3 P S PY D BWD025 239.3 239.31 ZVQ 74 16 3 P QZ D BWD025 240.11 240.12 JOD 33 314 3 P R D BWD025 242.2 242.21 JOD 74 16 3 P R CAL D BWD025 242.54 242.55 ZVQ 69 21 3 U QZ D BWD025 243.06 243.07 SBO 81 48 3 P BEDDING PLANE FROM FINER GRAINED TO COARSER GRAINED SEDIMENTARY LAYERS D BWD025 243.32 243.33 ZVQS 73 27 3 U QZ PY D BWD025 244.24 244.25 ZVQS 69 30 3 P QZ PY D BWD025 244.72 244.73 JOD 45 285 3 P S CAL PY D BWD025 245.1 245.11 ZVC 85 299 3 P S CAL D BWD025 246 246.01 SBO 28 242 3 U BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 246.75 246.76 SBO 49 187 3 U BEDDING PLANE FROM COARSER GRAINED TO FINER GRAINED SEDIMENTARY LAYERS D BWD025 247.24 247.25 ZVQS 61 52 3 U QZ APY D BWD025 248.4 248.41 JOD 50 357 3 S S D BWD025 249.5 249.51 ZFN -25 0 FAULT WITH HIGHLY ANGULAR FRAGMENTS D BWD025 250.8 250.81 JOD 85 360 3 U S D BWD025 251.86 251.87 ZFG 72 126 3 P FAULT GOUGE D BWD025 252.4 252.41 ZVQS 32 186 3 U QZ PY D BWD025 254.1 254.11 JOD 66 351 3 P S PY D BWD025 255.24 255.25 SBO 71 143 3 U BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 255.3 255.31 ZVC 0 3 U CAL VEIN RUNS PARALLEL TO THE CORE AXIS D BWD025 257.4 257.41 JOD 24 312 3 P S CAL D BWD025 258.54 258.55 ZVC 65 24 3 U CAL D BWD025 259.5 259.51 ZVC 64 340 3 U CAL D BWD025 262.64 262.65 SBO 41 272 3 U PY GR BEDDING PLANE FROM GREYWACKE TO MUDSTONE D BWD025 264.54 264.55 SBO 49 201 3 U BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 266.7 266.71 JOD 80 352 3 P D BWD025 270.7 270.71 ZVC 50 311 3 P S CAL PY CHLORITE STAINING ON THE CARBONATE VEIN D BWD025 272.51 272.52 ZVC 56 104 3 P CAL D BWD025 273.18 273.19 ZVQS 84 39 3 P QZ PY PLANAR QZ VEIN WITH TRACES OF SULPHIDES D BWD025 275.46 275.47 JOD 40 289 3 P R CAL D BWD025 276 276.01 SBO 37 174 3 U BEDDING PLANE FROM GREYWACKE TO SILTSTONE WITH MIRCO FOLIATIONS ALONG THE CONTACT D BWD025 278.2 278.21 ZVQ 89 296 3 I QZ D BWD025 280.52 280.53 ZVQ 60 320 3 P QZ D BWD025 281.1 281.11 JOD 42 112 3 P S CAL D BWD025 281.42 281.43 ZVQ 59 48 3 P QZ D BWD025 282.04 282.05 JOU 68 276 3 P D BWD025 282.51 282.52 ZVQ 55 330 3 P QZ D BWD025 283.17 283.18 JOD 62 331 3 U S CAL D BWD025 283.7 283.71 ZVQS 63 43 3 P QZ PY D BWD025 284.39 284.4 JOD 42 17 3 I R D BWD025 285.06 285.07 JOD 66 53 3 P R D BWD025 285.88 285.89 ZVC 80 134 3 U CAL D BWD025 286.44 286.45 JOU 63 43 3 P D BWD025 286.52 286.53 JOD 18 75 3 I R D BWD025 287.87 287.88 JOD 64 48 3 P R D BWD025 288.51 288.52 ZVC 55 339 3 P CAL D BWD025 289.08 289.09 JOD 64 48 3 P S CAL D BWD025 289.3 289.31 JOD 33 244 3 P S CAL D BWD025 290.26 290.27 ZVQS 67 40 3 P QZ PY D BWD025 290.4 290.41 JOD 83 87 3 P S D BWD025 290.52 290.53 JOD 52 335 3 S S D BWD025 291.16 291.17 ZVQ 85 2 3 U QZ D BWD025 291.95 291.96 ZVQS 74 45 3 P QZ PY D BWD025 292.16 292.17 JOD 60 319 3 P S CAL D BWD025 293.11 293.12 ZVQ 74 45 3 P QZ D BWD025 294.17 294.18 ZVQ 78 111 3 U QZ D BWD025 294.56 294.57 JOD 64 342 3 P S CAL D BWD025 294.88 294.89 JOD 54 100 3 U S CAL D BWD025 295.72 295.73 ZVQ 66 53 3 P QZ D BWD025 295.9 295.91 ZVQS 58 45 3 P QZ PY D BWD025 297.2 297.21 ZVC 79 311 3 S CAL D BWD025 297.83 297.84 JOD 90 30 3 P S CAL D BWD025 297.84 297.85 ZVC 81 94 3 P CAL D BWD025 298.4 298.41 JOD 58 335 3 P S CAL D BWD025 299.09 299.1 ZVC 50 104 3 P CAL D BWD025 299.75 299.76 JOD 33 118 3 P S CAL D BWD025 300.32 300.33 JOD 63 44 3 P S CAL D BWD025 301.2 301.21 JOD 81 36 3 P S CAL D BWD025 301.5 301.51 SBO 60 171 3 U BEDDING PLANE FROM COARSE GRAINED GREYWACKE TO SILTSTONE D BWD025 302.63 302.64 ZVC 61 143 3 P CAL D BWD025 303.06 303.07 ZVC 27 87 3 U CAL D BWD025 303.48 303.49 ZVC 84 139 3 P CAL D BWD025 304.4 304.41 ZVC 55 151 2 P CAL D BWD025 304.71 304.72 JOD 63 133 2 P S CAL CL D BWD025 305.29 305.3 SBO 59 94 2 P BEDDING PLANE FROM SILTSTONE TO COARSE GRAINED GREYWACKE D BWD025 305.6 305.61 JOD 62 109 2 I S D BWD025 305.93 305.94 ZVQS 67 66 2 P QZ PY D BWD025 306.8 306.81 ZVO 67 68 2 P SI SILICA ALTERATION OF A VEIN D BWD025 307.21 307.22 ZVQS 73 43 2 P QZ PY D BWD025 307.47 307.48 JOD 42 148 2 U S CAL D BWD025 308.22 308.23 ZVQ 66 28 2 U QZ D BWD025 308.34 308.35 JOD 24 175 2 P PY D BWD025 308.41 308.42 SBO 61 151 2 U BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 310 310.01 ZVC 77 274 2 U CAL D BWD025 310.93 310.94 SBO 66 162 2 U BEDDING PLANE FROM COARSE GRAINED GREYWACKE TO SILTSTONE D BWD025 311.6 311.61 ZVC 90 279 2 U CAL D BWD025 314.44 314.45 ZVQ 72 40 2 P QZ CL D BWD025 315.96 315.97 JOD 56 108 2 P S D BWD025 316.87 316.88 ZVQ 69 34 2 U QZ D BWD025 317.61 317.62 SBO 37 177 2 I BEDDING PLANE FROM GREYWACKE TO SILTSTONE AND DUE TO THE IRREGULAR NATURE OF THE BEDDING ORIENTATION IT IS DIFFICULT TO AQUIRE A CLEAR DIP-DIRECTION D BWD025 317.62 317.63 SBO 65 340 3 P D BWD025 318.47 318.48 ZVQ 81 36 3 P QZ D BWD025 318.81 318.82 ZVQS 86 81 3 P QZ PY D BWD025 319.56 319.57 SBO 23 199 3 P BEDDING PLANE FROM GREYWACK TO SILTSTONE D BWD025 320.16 320.17 JOD 90 279 3 P R D BWD025 321.45 321.46 ZVQ 72 2 3 P QZ D BWD025 321.56 321.57 ZVQ 87 107 3 P QZ D BWD025 321.65 321.66 JOD 64 344 3 P SL D BWD025 322.38 322.39 SBO 68 340 3 U BEDDING PLANE FROM SILTSTONE TO GREYWACKE D BWD025 323.26 323.27 JOD 81 36 3 P S D BWD025 324.48 324.49 JOD 49 332 3 U S D BWD025 325.21 325.22 ZVQ 81 36 3 P QZ D BWD025 326.24 326.25 JOD 49 332 3 P S D BWD025 328.45 328.46 SBO 13 246 3 U BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 328.5 328.51 JOD 19 301 3 S S CAL D BWD025 329.58 329.59 ZVC 32 301 3 P CAL D BWD025 330.3 330.31 SBO 50 178 3 U BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 331.14 331.15 SBO 19 153 3 U BEDDING PLANE FROM GREYWACKE TO SILTSTONE D BWD025 332.5 332.51 ZVQ 69 35 3 P QZ PL INCREASE TRACES OF K-FELDSPAR TOWARDS THE END OF THE HOLE D BWD025 333.76 333.77 JOD 62 334 3 P S D BWD025 334.66 334.67 JOD 59 130 3 U S D BWD025 335.54 335.55 ZVQ 23 24 3 I QZ PL D BWD025 335.64 335.65 JOD 87 109 3 I R PL D BWD026 31 31.01 JOD 38 273 3 P R D BWD026 32.28 32.29 SBO 33 346 3 P D BWD026 32.6 32.61 JOD 35 61 3 P R D BWD026 34.9 34.91 SBO 27 340 3 P D BWD026 36.4 36.41 JOD 28 5 2 P R D BWD026 37.1 37.11 JOD 45 66 2 P R D BWD026 38.05 38.06 JOD 68 76 2 P R D BWD026 40.2 40.21 SBO 37 317 3 P D BWD026 41.95 41.96 JOD 33 294 3 P S D BWD026 46.05 46.06 JOD 73 282 3 P R D BWD026 50.4 50.41 JOD 48 72 3 P R D BWD026 51.15 51.16 JOD 33 275 3 P S D BWD026 53.8 53.81 JOD 63 77 3 P R D BWD026 55.15 55.16 JOD 46 298 3 P R D BWD026 57.83 57.84 JOD 50 318 2 P R D BWD026 59.1 59.11 SBO 30 344 2 P D BWD026 60.9 60.91 JOD 60 277 2 P R D BWD026 62.8 62.81 JOD 56 260 2 P R D BWD026 64.05 64.06 SBO 48 305 2 P D BWD026 66.8 66.81 SBO 33 336 2 P D BWD026 66.85 66.86 JOD 65 275 2 P R D BWD026 67.4 67.41 JOD 79 270 2 P R D BWD026 68.2 68.21 SBO 27 341 2 P D BWD026 68.3 68.31 JOD 62 81 2 P S D BWD026 70.2 70.21 JOD 36 329 2 P R D BWD026 73.65 73.66 ZVQS 45 332 2 P APY PY D BWD026 74.77 74.78 SBO 30 344 2 P D BWD026 75.2 75.21 JOD 32 45 2 P R D BWD026 78.45 78.46 JOD 30 7 2 P S D BWD026 79.4 79.41 JOD 36 331 2 P R D BWD026 82.15 82.16 SBO 36 342 3 P R D BWD026 84.3 84.31 JOD 33 327 3 U R D BWD026 86.37 86.38 JOD 39 335 3 P R D BWD026 88.53 88.54 JOD 41 289 3 P S D BWD026 92 92.01 SBO 39 345 3 P D BWD026 97.95 97.96 JOD 72 85 3 P R D BWD026 101 101.01 JOD 38 71 3 P R D BWD026 101.6 101.61 JOD 35 304 3 U S D BWD026 101.9 101.91 JOD 15 348 3 P S D BWD026 102.3 102.31 JOD 47 292 3 P S D BWD026 103.8 103.81 SBO 47 315 2 P D BWD026 104.76 104.77 JOD 39 282 2 P S D BWD026 105.65 105.66 JOD 79 287 2 P S D BWD026 107.46 107.47 JOD 86 264 2 P S D BWD026 108.25 108.26 JOD 48 277 2 P S D BWD026 110.2 110.21 JOD 48 277 2 P R D BWD026 110.42 110.43 SBO 52 324 2 P D BWD026 113.73 113.74 JOD 52 289 2 P R D BWD026 117.53 117.54 JOD 17 6 2 P R D BWD026 118.43 118.44 SBO 31 358 2 P D BWD026 119.7 119.71 JOD 30 322 2 P R D BWD026 123.9 123.91 JOD 33 327 2 P S D BWD026 126.4 126.41 SBO 48 346 2 P D BWD026 129.4 129.41 JOD 46 67 3 P R CARB PY D BWD026 132 132.01 SBO 39 345 3 P D BWD026 135.3 135.31 JOD 37 310 2 P S D BWD026 136.5 136.51 JOD 36 331 2 P R D BWD026 137.58 137.59 JOD 41 15 2 P R D BWD026 139 139.01 JOD 88 122 2 P S D BWD026 140.56 140.57 JOD 56 84 2 P S D BWD026 141.6 141.61 SBO 35 47 2 P D BWD026 145.55 145.56 JOD 35 47 2 P R D BWD026 146.25 146.26 SBO 78 318 2 P D BWD026 147 147.01 SBO 75 313 2 P D BWD026 149.6 149.61 JOD 88 140 2 U R D BWD026 156.15 156.16 ZVQ 74 44 2 P QZ D BWD026 156.25 156.26 SBO 66 56 3 P qz vein on contact D BWD026 158.8 158.81 JOD 27 169 3 p S D BWD026 161 161.01 ZFX 36 194 1 P S CL CLAY YES. CORRECT @ DEPTH. D BWD026 164.5 164.51 SBO 21 164 3 P D BWD026 166.9 166.91 ZVQ 60 38 3 P QZ D BWD026 167.6 167.61 SBO 15 178 3 P D BWD026 168 168.01 JOD 61 346 3 P S CL D BWD026 171.5 171.51 JOD 15 178 3 P GWK-SIC CONTACT D BWD026 174.15 174.16 SBO 18 136 3 P D BWD026 175.9 175.91 JOD 77 8 3 P S CL D BWD026 176.9 176.91 ZVQ 18 135 3 P QZ D BWD026 181.1 181.11 SBO 23 198 3 P D BWD026 185 185.01 SBO 28 182 3 P D BWD026 191.5 191.51 JOD 72 1 2 P S CL D BWD026 191.9 191.91 ZFX 22 37 1 U S CL CLAY 10CM WIDE. V HARD TO GET A MEASUREMENT D BWD026 200.9 200.91 ZFX 75 45 1 P CL CLAY 35CM DOWN HOLE INTERSEPT. CORE LARGELY INTACT. POOR CONFIDENCE ON MEASUREMENT. FISSILE D BWD026 203.45 203.46 SBO 40 197 2 P D BWD026 203.8 203.81 ZVQ 10 292 2 P QZ PY D BWD026 205.2 205.21 JOD 70 33 3 P S CL D BWD026 205.55 205.56 ZVQ 18 218 3 P S QZ D BWD026 209 209.01 JOD 7 245 3 P D BWD026 210.7 210.71 SBO 30 162 3 P A BIT DISRUPTED BEDDING PLANE D BWD026 218.5 218.51 SBO 37 176 3 P D BWD026 219.7 219.71 ZVQ 53 45 3 P QZ D BWD026 222.3 222.31 SBO 79 226 3 P D BWD026 223 223.01 JOD 35 193 3 P S CL D BWD026 223.3 223.31 SBO 29 216 3 P D BWD026 227.8 227.81 ZVQ 83 25 3 P QZ D BWD026 228.2 228.21 JOD 78 344 3 P S CL D BWD026 232 232.01 ZVQ 68 59 3 P QZ PY D BWD026 232.9 232.91 JOD 69 4 3 P S CL D BWD026 238.1 238.11 JOD 55 232 3 P P GR D BWD026 240.5 240.51 SBO 42 230 3 P P MOVEMENT ALONG BEDDING PLANE. SIC-SBO CONTACT D BWD026 244 244.01 SBO 42 252 3 P D BWD026 247.5 247.51 JOD 77 36 3 P S D BWD026 256.3 256.31 SBO 53 192 3 P D BWD026 257 257.01 SBO 50 291 3 P D BWD026 260.5 260.51 ZVQ 69 282 3 P QZ D BWD026 261.4 261.41 ZFX 82 34 3 P CL INTACT MATRIX SUPPORTED BX ON FOOTWALL OF MILKY QZ VEIN D BWD026 261.9 261.91 SBO 31 207 3 P D BWD026 264.3 264.31 JOD 58 113 3 P D BWD026 270.7 270.71 SBO 89 40 3 P D BWD026 277.5 277.51 ZVC 85 120 3 P CAL D BWD026 279 279.01 SBO 67 212 3 P D BWD026 281.5 281.51 ZVQ 63 64 3 P QZ PY D BWD026 284.9 284.91 JOD 50 96 3 P S CL D BWD026 288.25 288.26 JOD 67 320 3 P S CL D BWD026 292.9 292.91 JOD 63 358 3 P S CL D BWD026 297.1 297.11 ZVQ 66 27 3 P QZ MILKY QZ D BWD026 309.6 309.61 JOD 33 146 3 P S CL D BWD026 309.85 309.86 JOD 88 228 3 P S CL