CURATORIAL DATA FEATURE POSITION VEINS APPARENT DIPS PLANAR CALCULATED COMMENTS Hole Core Section Piece mbsf Oriented Identifier Intensity Top Bottom Mineralogy Width wall rock App Dip/Dir1 App Dip/Dir2 Strike Dip Strike Dip Dip Direction 1035A 6H 3 48.89 Y v 39 42 Anh 1 SED 20/270 Disrupted in drilling breccia 1035A 6H 3 48.92 Y v 42 44 Anh 1 SED 20/271 Disrupted in drilling breccia 1035A 6H 3 48.97 Y v 47 48 Anh 1 SED 20/272 Disrupted in drilling breccia 1035A 6H 3 49 Y v 50 52 Anh 1 SED 20/273 Disrupted in drilling breccia 1035A 6H 4 51.3 Y v 130 140 Anh 1 SED 52/090 Disrupted in drilling breccia 1035A 6H 4 51.4 Y v 140 149 Anh 1 SED 55/090 Disrupted in drilling breccia 1035A 6H 5 52.1 Y v 60 71 Anh 3 SED 58/270 1035A 8X 2 63.74 Y v 124 124 Anh 1 SED 00/000 1035A 8X 2 63.82 Y v 132 132 Anh 1 SED 00/001 1035A 8X 2 63.92 Y v 142 142 Anh 1 SED 00/002 1035A 9X 6 78.27 Y v 17 23 Anh 1 SED 40/090 1035A 13X 1 109.1 N 10 25 Anh 3 SED Near vertical in laminated silty sandstone 1035A 14X 4 123.7 N V1a 60 63 Anh 3 SED Near vertical 1035A 14X 4 123.7 N V1b 60 63 Anh 1 SED "Near vertical anhydrite veins occur within silty sandstone drilling biscuits, disseminated anhydrite within drilling biscuits and matrix" 1035A 14X 4 123.8 N V1c 70 72 Anh 1 SED "Near vertical anhydrite veins occur within silty sandstone drilling biscuits, disseminated anhydrite within drilling biscuits and matrix" 1035A 14X 4 123.86 N V1d 76 79 Anh 2 SED "Near vertical anhydrite veins occur within silty sandstone drilling biscuits, disseminated anhydrite within drilling biscuits and matrix" 1035A 14X 4 123.9 N V1e 80 84 Anh 2 SED "Near vertical anhydrite veins occur within silty sandstone drilling biscuits, disseminated anhydrite within drilling biscuits and matrix" 1035A 17X CC 147.64 Y V 24 31 Anh 1 SED 68/090 1035A 19X CC 169.58 Y 5V 11 22 Po 1 SED 90/090 Several tension gash veinlets in drilling disturbed sediments. 1035D 6X CC 40.73 N 4V 13 16 Anh 1 MAS 1035D 7X CC 48.29 Y V 19 24 Mt 1 MAS 45/270 1035D 9X 1 1A 60.81 Y Va 1 8 Py 1 MAS 90 90 1035D 9X 1 2A 60.96 Y Vb 16 26 Anh 1 MAS 67/270 1035D 9X 1 2A 61 Y V 20 23 Mt 1 MAS 44/270 65/000 246 67 N 1035D 10X 1 1 66.51 N xV 1 6 PyPo 1 SED Anastomosed set of pyrite-pyrrhotite veins 1035D 10X 1 2 66.58 N xV 8 11 PyPo 1 SED Anastomosed set of pyrite-pyrrhotite veins 1035D 10X 1 13 67.21 Y 4V 71 76 PyPo 1 SED 90 90 "Very small subvertical veinlets cutting ""clasts"" of sediment in strongly sulfide impregnated sediment" 1035D 12X 1 3 77.56 N V 16 19 Anh 1 MAS 1035D 15X 1 1 106.37 Y V 17 21 Cpy 1 SED 90 90 1035D 17X 1 1 120.44 N V1 4 5 Po 1 SED Bedding parallel 1035D 17X 1 3 120.52 Y V1 12 17 Po 1 SED 79/270 05/180 179 79 W 1035D 17X 1 4 120.61 Y V1 21 27 Po 1 SED 0 90 0 90 1035D 17X 1 5 120.68 Y V1 28 34 Po 1 SED 69/090 48/180 23 71 E Bedding parallel disseminated pyrrhotite 1035D 17X 1 6 121.02 Y V1a 62 64 Po 1 SED 68/270 58/180 147 71 W 1035D 17X 1 6 121.02 Y V1b 62 72 Po 2 SED 78/090 76/180 40 81 E Disseminated pyrrhotite throughout piece 1035D 18X CC 125.55 N 3V 15 20 Po 1 SED 1035D 20X 1 2 144.75 Y 3V 5 7 Po 1 SED 10/270 00/000 0 10W 0 10 W Parallel bedding anastomosed set of veins 1035D 20X 1 2 144.79 Y V 9 9 Po 1 SED 10/270 00/000 0 10W 0 10 W 1035D 20X 1 2 144.89 Y V 19 20 PoQtz 1 SED 10/270 00/000 0 10W 0 10 W Small relay veins 1035D 20X 1 3 144.88 Y Va 18 20 Po 1 SED 40/270 12/000 194 41 W 1035D 20X 1 3 144.96 Y Vb 26 29 Po 1 SED 68/090 58/180 33 71 W 1035D 20X 1 6 145.28 Y V 58 58 Po 1 SED 00/270 00/180 0 0 0 0 1035D 20X 1 14 145.76 Y V 106 106 Po 1 SED 10/270 00/180 0 10W 0 10 W 1035D 21X 1 2 154.38 Y V 8 12 Po 1 SED 90/270 90/000 90 90 Parallel to the cut face 1035D 21X 1 11 155.14 Y V 84 85 Po 1 SED 000/270 00/000 0 0 1035F 4R 1 4 32.27 Y V 17 51 PySph 1 MAS 0 90 0 90 "Grain size of pyrite-sphalerite banding, mm to cm wide, very vuggy <3 mm x 20 mm pararell banding" 1035F 5R 1 2 41.82 Y V 12 27 Py 30 MAS 10 90 10 90 Pyrite-marcassite band with <5 mm wide pores in the center 1035F 5R 1 2 41.92 Y V 22 27 Anh 2 MAS 10 90 10 90 Anhydrite vein with cm long anhydrite laths 1035F 5R 1 11 42.49 Y V 79 86 Py 2 MAS 40/090 75/000 283 75 E Pyrite-anhydrite-vug banding 1035F 5R 1 12 42.57 Y V 87 99 Py 10 MAS 65/270 70/000 232 74 W Vein with vuggy core 1035F 5R 2 44.33 Y V 120 131 Py 2 MAS 33/270 00/000 0 33 E Pyrite vein crosscutting sphalerite-pyrite banding 1035F 6R 1 1 52.75 Y V 135 140 Py MAS 0 0 30% horizontal vugs 1035F 7R 1 1 61.01 Y V 1 9 Py MAS 0 90 0 90 "Pyrite banding with up to 20% vugs, <5 x 30 mm" 1035F 7R 1 1 61.01 Y V 1 5 Sph 1 MAS 0 90 0 90 Sphalerite vein 1035F 8R 1 5 70.87 N V 27 30 Sph 8 MAS "Zoned sphalerite vein (Fe-poor in center, Fe-rich margin). Vein cut by <1 mm anhydrite veins with probably shear." 1035F 8R 1 11 71.24 N V 64 64 Po 2 MAS Cuts massive vuggy pyrite 1035F 8R 1 14 71.4 N V1a 80 84 Po 20 MAS Pyrrhotite crosscuts massive vuggy pyrite 1035F 8R 1 14 71.44 N V1b 84 84 Py 5 MAS Pyrrhotite crosscuts massive vuggy pyrite 1035F 9R 1 5 80.53 N V1a 33 35 An 4 MAS Anhydrite cuts pyrite and sphalerite 1035F 9R 1 5 80.55 N V1b 35 38 PySph 2 MAS 1035F 9R 1 Y S 14/090 20/180 56 24 E Bedding orientation 1035F 10R 1 89.95 Y V 5 5 Py 2 SED Bedding parallel replacement 1035F 10R 1 89.97 Y V 7 7 Py 2 SED 02/090 08/180 76 8 E Bedding parallel replacement 1035F 10R 1 89.99 Y V 9 9 Py 4 SED 09/090 08/180 42 12 E 1035F 10R 1 90 Y V 10 10 An 1 SED Pyrite and sphalerite replace anhydrite within the vein 1035F 10R 1 90.1 Y V 20 21 Sph 6 SED 12/090 20/180 60 23 E 1035F 10R 1 90.25 Y F 35 35 06/090 25/180 77 26 E Shear fracture surface; slickenlines 1035F 10R 1 90.26 Y V 36 42 An 2 SED 74/270 77/000 231 80 W Pyrite and sphalerite replace anhydrite 1035F 10R 1 90.26 Y V 36 37 Py 2 SED 14/090 04/180 16 15 E 1035F 10R 1 90.44 Y V 54 74 An 5 SED 74/090 Anhydrite along fracture looks recrystallized 1035F 10R 1 90.54 Y V 64 64 Py 1 SED 10/090 14/180 55 17 E 1035F 10R 1 90.64 Y V 74 74 Sph 3 SED 14/180 09/090 58 16 E 1035F 10R 1 90.7 Y S 80 80 SED 16/090 13/180 39 20 E Bedding orientation 1035F 10R 1 90.71 Y V 81 81 Py 2 SED 15/090 20/180 54 24 E Pyrite replaces sandy lens 1035F 10R 1 90.75 Y V 85 85 SphPy 2 SED 18/180 04/090 78 18 E 1035F 10R 1 90.79 Y V 89 91 SphPy 4 SED 11/090 07/180 32 13 E Pyrite center with sphalerite rim 1035F 10R 1 91.02 Y V 112 112 Sph 5 SED 10/090 07/180 35 12 E 1035F 10R 1 91.14 Y V 124 124 Py 3 SED 10/090 08/180 39 13 E Pyrite replaces worm burrows 1035F 10R 1 91.19 Y V 129 130 SphPoPy 4 SED 14/090 13/180 43 19 E Bedding parallel replacement 1035F 10R 2 91.21 Y F 0 10 An 2 SED 57/090 74/180 66 75 E Reverse fault filled with anhydrite; 10 mm offset 1035F 10R 2 91.23 Y V 2 2 PySph 3 SED 13/000 05/090 291 14 E Bedding parallel replacement 1035F 10R 2 91.27 Y V 6 6 Py 2 SED 02/090 13/000 279 13 E 1035F 10R 2 91.34 Y V 13 13 Py 1 SED 04/090 09/000 294 10 E 5-10 mm alteration halo which penetrates cross beds 1035F 10R 2 91.37 Y V 16 16 PySph 2 SED 14/000 04/090 286 15 E 1035F 10R 2 91.39 Y V1a 18 20 1 SED 16/090 20/000 308 25 E "V1a,b,c dark alteration bands crosscut sediment layers but do not offset them; chlorite" 1035F 10R 2 91.41 Y V1b 20 22 1 SED 28/090 66/000 283 67 E 1035F 10R 2 91.43 Y V1c 22 24 1 SED 41/090 33/000 323 47 E 1035F 10R 2 91.41 Y V2 20 24 PySph 2 SED 63/270 68/180 128 72 W 1035F 10R 2 91.45 Y V1d 24 24 PySph 3 SED 11/000 04/090 290 12 E 1035F 10R 2 91.53 Y V 32 32 SphPyAn 6 SED 06/090 04/180 34 7 E Contact between sandstone and mudstone; sphalerite vein <1 mm shoots off main vein 1035F 10R 2 91.67 Y V 46 46 SphPy 4 SED 06/090 05/000 320 8 E 1035F 10R CC 91.85 N 4V 9 20 PySph 3 SED 1035F 11R 1 3 99.81 Y V 11 12 Po 1 SED 07/270 02/000 196 7 W Bedding parallel replacement with pyrrhotite 1035F 11R 1 3 99.82 Y V 12 13 Po 2 SED 10/270 02/000 191 10 W Bedding parallel replacement with pyrrhotite 1035F 11R 1 3 99.91 Y V 21 21 Po 2 SED 12/270 02/000 189 12 W Bedding parallel replacement with pyrrhotite 1035F 11R 1 3 99.93 Y V 23 23 Po 1 SED 08/270 04/180 154 9 W Bedding parallel replacement with pyrrhotite 1035F 11R 1 3 99.96 Y V 26 26 Po 2 SED 05/270 01/180 169 5 W Bedding parallel replacement with pyrrhotite 1035F 11R 1 10 100.38 Y V 68 92 AnCpy 15 SED Near vertical vein cuts bedding parallel replacement; sedimentary clasts within vein network 1035F 11R 1 14 100.69 N 2V 99 102 PyCpy 1 SED 1035F 11R 1 18 100.9 Y V1a 120 121 Cpy 3 SED 12/270 45/180 102 46 W Vein network filled with pyrite <1 mm 1035F 11R 1 18 100.94 Y V1b 124 126 Cpy 2 SED 28/090 10/000 342 29 E 1035F 11R 1 18 100.96 Y V1c 126 128 Cpy 2 SED 23/270 08/000 198 24 W 1035F 11R 1 19 101.08 Y V 138 138 Py 1 SED 14/090 06/180 23 15 E Pyrite replaces worm burrows 1035F 11R 1 20 101.1 Y V1a 140 149 Cpy 3 SED 26 85 26 85 Anastamosing vein network with possible crack seal; dark green selvages chlorite probable 1035F 11R 1 20 101.1 Y V1b 140 149 CpyQtz 3 SED 74/090 52/180 20 75 E 1035F 11R 1 20 101.12 Y V1c 142 148 CpyQtz 2 SED 86/090 24/000 358 86 E 1035F 11R 2 1 101.23 Y V 3 8 CpyPo 3 SED 90 90 1035F 11R 2 2 101.3 Y V2 10 23 Po 10 SED 90 90 1035F 11R 2 2 101.31 Y V1b 11 23 PoCpy 2 SED Chlorite selvages 1 mm 1035F 11R 2 2 101.42 Y V1c 22 23 Po 2 SED 22/270 42/180 114 45 W Bedding parallel replacement 1035F 11R 2 3 101.47 N V 27 28 PoSph SED Bedding parallel pyrrhotite vein cut by sphalerite 1035F 11R 2 4 101.52 N V 32 35 PoSphAn 1 SED Vertical vein of pyrrhotite-sphalerite-anhydrite cut chlorite; chlorite selvage 2 mm 1035F 11R 2 9 101.79 N V 59 63 Po 7 SED 1035F 12R 1 2 109.45 Y V 15 28 Po 1 SED 61/270 77/000 247 78 W 1035F 12R 1 2 109.54 Y V 24 27 Po 1 SED 16/090 05/000 343 17 E 1035F 12R 1 2 109.38 Y V 8 15 Po 2 SED 73/270 56/000 204 74 W 1035F 12R 1 2 109.38 Y V 8 14 Anh 2 SED 73/270 56/000 204 74 W 1035F 12R 1 4 109.65 Y 7V 35 42 Po 1 SED 0 90 0 90 1035F 12R 1 4 109.65 Y 7V 35 42 Anh 1 SED 0 90 0 90 1035F 12R 1 5 109.74 Y 4V 44 54 Po 1 SED 0 82 0 82 E 1035F 12R 1 8 109.96 Y V 66 74 Po 2 SED 42 90 42 90 Crosscut by anhydrite 1035F 12R 1 9 110.1 Y V 80 85 Po 1 SED 38/270 26/180 148 43 W 1035F 12R 1 10 110.17 Y V 87 98 Po 1 SED 30 85 30 85 W 1035F 12R 1 12 110.35 Y V 105 110 Py 1 SED 72/090 30/000 349 72 E 1035F 12R 1 12 110.38 Y V 108 109 Po 1 SED 0 6 0 6 E 1035F 12R 1 12 110.4 Y 4V 110 114 Po 1 SED 0 72 0 72 W 1035F 12R 1 13 110.45 Y V 115 120 Po 1 SED 38/090 30/000 324 44 E 1035F 12R 1 13 110.54 Y V 124 125 Po 1 SED 0 0 0 0 Pyrrhotite impregnation 1035F 12R 1 14 110.6 Y V 130 131 Po 1 SED 0 0 0 0 Pyrrhotite impregnation parallel to banding 1035F 12R 2 1 110.83 Y V 3 11 PyCpy 1 SED 0 82 0 82 E Crack seal 1035F 12R 2 1 110.88 Y V 8 9 Po 1 SED 0 0 0 0 Bedding parallel impregnation 1035F 12R 2 2 110.93 Y V 13 15 Po 1 SED 11/090 38/180 76 39 E 1035F 12R 2 6 111.21 Y V 41 42 Po 3 SED 35/270 80/000 263 80 W 1035F 12R 2 6 111.16 Y V 36 41 Po 2 SED 10/270 13/000 233 16 W 1035F 12R 2 7 111.23 Y V 43 57 Po 1 SED 52 90 52 90 1035F 12R 2 7 111.29 Y V 49 49 Po 1 SED 0 4 0 4 W Bedding parallel impregnation 1035F 12R 2 10 111.59 Y V 79 84 Po 1 SED 22/090 12/000 332 25 E 1035F 12R 2 14 111.89 Y V 109 114 Po 2 SED 44/270 34/000 215 50 W 1035F 12R 3 1 112.34 Y V 4 4 Po 1 SED 0 0 0 0 Bedding parallel impregnation 1035F 13R 1 1 119.16 Y V 16 19 Cpy 1 SED 35/270 14/180 160 37 W 1035F 13R 1 1 119.16 Y V 16 19 Anh 1 SED 35/270 14/180 160 37 W 1035F 13R 1 1 119.19 Y V 19 21 Cpy 1 SED 90 58 90 58 N 1035F 13R 2 1 120.89 Y V 39 42 CpyPo 4 SED 0 37 0 37 W 1035F 13R 2 1 121.3 Y V 80 90 Cpy 1 SED 60/090 78/180 70 79 E 1035F 13R CC 1 122.06 Y V 6 6 CpyAnh 3 SED 0 0 0 0 1035F 13R CC 1 122.03 Y V 3 8 Anh 3 SED 28/090 41/000 301 46 E 1035F 14R 1 1 128.88 Y Br 28 36 AnhCpy 20 SED 0 0 0 0 Horizontal hydraulic breccia with chalcopyrite replaced by anhydrite 1035F 14R 1 1 128.96 Y F 36 42 CpyAnh 1 SED 70/090 Normal fracture (3 mm displacement) associated with breccia 1035F 14R 1 1 129.1 Y V 50 66 CpyAnh 1 SED 72/270 82/000 247 83 W 1035F 14R 1 1 129.54 Y V 94 98 CpyPo 1 SED 53/090 32/180 25 56 E 1035F 14R CC 1 129.97 Y V 15 18 CpyPo 1 SED 35/090 1035F 15R 1 1 138.29 Y V 9 9 Cpy 1 SED 0 0 0 0 1035F 15R 1 1 138.32 Y So 12 24 SED 0 17 0 17 E Cross lamination 1035F 15R 1 1 138.49 Y V 29 32 Cpy 1 SED 0 32 0 32 E 1035F 15R 1 1 138.82 Y V 62 69 CpyPo 1 SED 25 90 25 90 1035F 16R 1 11 148.55 Y V 65 65 Po 1 SED 0 0 0 0 1035F 18R 1 "1,2" 167.1 N F 0 13 AnhChloSulf >50 SED "Possible fault filling (larger than 5 cm); no host rock preserved, vuggy (10%, <1 cm)" 1035F 19R 1 177.62 Y V 82 85 Anh 2 SED 28/270 52/000 247 54 W 1035F 20R 1 186.65 Y V1b 25 28 Qtz 1 SED 42/270 48/180 129 55 W 1035F 22R 1 1 205.65 Y V 5 10 Py 1 SED 62/270 72/180 121 75 W 1035F 22R 1 3 205.8 N V 20 23 Py 1 SED Anastamosing pyrite vein 1035F 22R 1 5 205.98 N V 38 43 Py 1 SED Near vertical anastamosing pyrite vein 1035G 5 1 1 73.98 Y F 38 45 no 0 SED 0 47 0 47 W Strike-slip fault; slickensides strike N0 1035G 5 1 1 74.34 Y F 74 80 no 0 SED 5 46 5 46 W Strike-slip fault; slickensides strike N1 1035G 7 1 1 140.9 Y V 0 36 CpySphAnh 1 SED 25 88 25 88 E 1035G 7 2 1 143.79 Y V 137 147 CpySph 1 SED 0 48 0 48 E 1035G 7 CC 145.73 Y F 5 35 Cpy 2 SED 0 85 0 85 E Small vein with a normal component 1035G 9 1 160.41 Y V 31 45 AnhCpySph 5 SED ## 90 Quartz intergrown with sphalerite 1035G 9 2 161.06 N V 4 4 Anh 1 SED Bedding parallel 1035G 9 2 Y So SED 12/090 18/180 57 21 S Bedding orientation 1035G 9 2 161.42 N V 40 46 QtzCpy 1 SED 1035G 10 1 1 169.84 N V 4 6 Qtz? 5 SED Quartz vein with probable zeolite subhorizontal 1035G 10 1 7 Y So SED 14/090 08/180 29 16 E Bedding orientation; hydraulic breccia parallel to bedding 1035G 10 1 10 170.57 Y V 77 77 Po 1 SED Pyrrhotite veins bedding parallel 1035G 10 1 12 170.89 Y V1a 109 109 Po 1 SED 08/270 12/000 237 14 N 1035G 10 1 12 170.72 Y V1b 92 92 Po 1 SED 06/090 12/180 64 13 S 1035G 11 1 2 Y So 02/090 02/000 351 12 E 1035G 11 1 5 179.71 Y V1a 21 27 Py 1 SED 65/090 63/180 42 71 E 1035G 11 1 5 179.71 Y V1b 21 25 Py 1 SED 70/090 13/000 355 70 E 1035G 11 1 7 179.83 Y V1a 33 36 Py 2 SED 90 58 1035G 11 1 7 179.83 Y V1b 33 36 Py 2 SED 195 80 1035G 11 1 9 179.99 Y V 49 49 Py 1 SED 02/090 02/000 270 3 N 1035G 11 1 13 180.36 Y V 86 95 Py 2 SED 90 90 Anastamosing pyrite vein 1035G 11 1 15 180.6 Y V 110 110 Po 2 SED 04/090 02/000 270 4 N Pyrrhotite replacement subparallel to bedding plane 1035G 12 1 2 189.29 N V1a 9 9 Py 2 SED 1035G 12 1 2 189.31 N V1b 11 11 Py 2 SED 1035G 12 1 2 189.43 N V 23 24 Py 3 SED Bedding parallel replacement 1035G 12 1 14 190.02 Y V 82 82 Py 1 SED 0 0 Bedding parallel replacement 1035G 12 1 15 190.08 Y V 88 88 Py 2 SED 0 0 Bedding parallel replacement 1035G 13 1 1 198.93 N V 3 3 Py 2 SED 1035G 13 1 1 199.12 Y V 22 22 Py 4 SED 02/090 02/180 45 3 E Bedding parallel replacement in coarser-grained sandstone 1035G 13 1 6 199.34 N V 44 44 PySph 2 SED Bedding parallel replacement 1035G 13 1 7 199.44 N V 54 54 PySph 1 SED 1035H 4 1 4 26.64 Y 5V 24 31 Anh 0 SED 0 90 1035H 4 1 4 26.71 Y 2V 31 31 Anh 1 SED 0 0 1035H 4 1 5 26.73 Y 5V 33 35 Anh 0 SED 0 10 W Network of small veinlets 1035H 4 1 5 26.73 Y 5V 33 39 Anh 0 SED 10 90 1035H 4 1 5 26.77 Y 3V 37 39 Anh 0 SED 0 25 E 1035H 4 1 6 26.8 Y 10V 40 44 Qtz 0 SED 0 0 Crosscuts pyrite veins 1035H 4 1 6 26.95 Y 4V 55 59 PySph 1 SED 0 0 Wavy and discontinuous pyrite+sphalerite veins 1035H 4 1 10 27.11 Y 6V 71 75 Py 1 SED 0 0 1035H 4 1 12 27.23 Y 5V 83 89 Py 1 SED 0 0 1035H 4 1 19 27.73 Y V 133 133 Py 1 SED 0 0 1035H 4 1 21 27.83 Y 8V 143 150 PoSphCpyAnh 1 SED 0 0 Wavy veinlets - 2 Generations (Pyrrhotite-sphalerite-chalcopyrite + anhydrite) 1035H 4 2 1 27.92 N V 2 6 PoCpy 2 SED Bedding parallel impregnation follow bioturbation 1035H 4 2 1 27.92 N V 2 5 Anh 1 SED Follows bioturbation 1035H 4 2 3 28.01 Y V 11 13 Po 1 SED 14/090 02/000 1035H 4 2 5 28.24 Y V 34 36 PoSphCpy 2 SED 02/090 02/000 Sulfides with quartz after anhydrite 1035H 4 2 28.24 Y V 34 34 Anh 1 SED Anhydrite pre-sulfide + quartz 1035H 4 2 28.34 Y 5V 44 51 Cpy 2 SED Subparallel to bedding; sulfides likely follow bioturbation in sediments 1035H 4 2 28.56 N V 66 70 Po 1 SED Subvertical pyrrhotite vein feeding bedding parallel 1035H 5 1 36.05 N V 5 10 PoCpyMarcWur 5 SED Euheral marcasite and wurtzite crystals occur in extension fracture 1035H 5 1 36.11 N V 11 13 Po 1 SED Bedding parallel 1035H 5 1 36.19 Y V1a 19 21 Po 2 SED 04/090 04/180 1035H 5 1 36.2 Y V1b 20 22 Po 1 SED 02/270 04/000 Anastomosing <1 mm veins 1035H 5 1 36.33 Y V 33 47 PoSph 4 SED 90 90 Euhedral crystals indicating extension fracture later mineralized 1035H 5 1 36.55 N V 55 56 PoSph 2 SED Anastomosing bedding parallel veins 1035H 5 1 36.63 N V 63 63 Po 3 SED 1035H 5 1 36.65 Y V1a 65 70 Po 2 SED 39/090 20/000 1035H 5 1 36.72 Y V1b 72 73 Po 2 SED 11/270 03/000 Pyrrhotite replacement along soft sedimentary deformation 1035H 5 1 36.83 Y "V1,So" 83 83 Po 1 SED 05/090 04/000 Pyrrhotite replacement along bedding 1035H 5 1 36.76 Y V2 76 85 Po 1 SED 74/270 80/000 Pyrrhotite along fracture 1035H 5 1 36.9 Y V 90 94 MarcSphPo 4 SED 08/090 38/180 1035H 5 1 36.99 Y V 99 103 MarcCpy 6 SED 51/270 67/180 If bedding assumed horizontal orientations are correct marcasite-chalcopyrite cuts pyrrhotite 1035H 5 1 37.11 Y V 111 114 Po 1 SED 54/270 84/000 1035H 6 1 45.68 Y V 8 20 MarcPo 3 SED 88/090 64/180 Marcasite rims the vein; pyrrhotite also occurs in linear blebs bedding parallel; possible bioturbation 1035H 6 1 46.5 Y V 90 97 Po 2 SED 44/090 68/180 Pyrrhotite replaces burrows 1035H 7 1 55.34 Y V 14 23 Po 1 SED 77/090 84/180 Anastomosing 1035H 7 1 55.54 N V 34 34 Po 2 SED Pyrrhotite replacement in sandy lamination 1035H 7 2 55.66 N V 3 6 Po 1 SED 1035H 7 2 55.71 Y V 8 11 Po 2 SED 35/090 64/180 1035H 7 2 55.88 Y V 25 33 Po 1 SED 57/090 28/180 Anastomosing 1035H 8 1 65.14 Y V 24 35 Po 1 SED 74/270 88/000 1035H 9 1 Possible breccia; sulfide replacement around clasts of sediment 1035H 11 1 94.75 Y V 75 80 Po 2 SED 88/090 52/180 Tension gashes filled with pyrrhotite 1035H 11 1 94.83 N V 83 86 Po 2 SED Pyrrhotite veins with original anhydrite dissolved 1035H 12 1 104.32 N V 62 65 Prehnite? 1 SED Bedding parallel prehnite veins in greenschist altered sediments 1035H 13 1 113.51 N V 11 17 PoAnh 3 SED 1035H 13 1 113.58 N V 18 23 Po 3 SED Clay alteration halo 1035H 13 1 113.82 N V 42 45 Po 3 SED Pyrrhotite impregnation in medium sandstone; possible replacement of crossbeds 1035H 13 1 114 N V 60 63 Po 2 SED Becoming like ganglion texture described in 856H 1035H 14 1 123.03 N V 3 5 Iss 2 SED 1035H 14 1 123.07 N V 7 10 Iss 3 SED 1035H 14 1 123.18 N V 18 23 Iss 3 SED 1035H 14 1 123.3 Y V 30 32 Iss 3 SED 09/090 02/180 1035H 16 3 9 136.24 Y 3V 77 80 Py 0 SED 0 90 1035H 17 1 6 142.56 Y V 26 32 Py 2 SED 15 65 E 1035H 17 1 16 143.21 Y V 91 98 PyChlo 1 SED 0 85 W 1035H 17 2 144.74 N V 97 103 Py 1 SED 1035H 17 3 146.01 Y V 79 79 Py 2 SED 90 50 S 1035H 17 3 146.02 Y V 80 84 Py 5 SED 0 45 W 1035H 17 3 146.23 Y V 101 109 Py 2 SED 5 85 E 1035H 17 3 146.65 Y V 143 147 Py 2 SED 0 45 E 1035H 18 1 3 152.02 N 4V 12 14 Sph 1 SED Anastomosing 1035H 22 1 8 190.68 N V 38 42 Qtz 3 SED Euhedral quartz crystals in void 1035H 22 1 22 191.56 Y V 126 129 Cpy 2 SED 0 90 Vertical vein feeds bedding parallel impregnation 1035H 22 1 24 191.63 Y V 133 139 Cpy 2 SED 0 76 E 856H 18W 1 1 N V 0 7 Cpy 2 MAS Set of veins 856H 18W 1 2 N V 7 10 Cpy 2 MAS Set of veins 856H 18W 1 3 N V 10 17 Cpy 2 MAS Set of veins 856H 19R 1 2 93.85 N V 5 9 Cpy 1 MAS 856H 19R 1 3 93.89 N V 9 17 Cpy 1 MAS 856H 19R 1 5 94.05 N V 25 31 Cpy 3 MAS Set of veins 856H 20R 1 3 103.75 Y 4v 15 43 Cpy 2 MAS 0 90 0 90 Set of veins 856H 20R 1 3 103.75 Y 4v 15 43 Po 1 MAS 0 90 0 90 Set of veins 856H 20R 1 4 104.06 N V 46 51 Carb 3 MAS 856H 20R 1 5 104.15 N V 55 Carb 1 MAS 856H 21R 1 1 113.4 N 3V 0 4 Cpy 1 SED Crack seal 856H 21R 1 2 113.44 N 10v 4 12 CpyPo 1 SED Crack seal 856H 21R 1 3 113.52 Y 12v 12 22 CpyPo 1 SED 0 90 0 90 Crack seal 856H 21R 1 4 113.62 Y V 22 50 CpyPo 1 SED Anastomosed network 856H 21R 1 5 113.9 Y V 50 115 CpyPo 1 SED 0 90 0 90 Crack seal 856H 21R 1 6 114.55 N 5V 115 120 CpyPo 1 SED Crack seal 856H 21R 1 8 114.63 N 10v 123 132 CpyPo 1 SED Crack seal 856H 21R 1 10 114.76 N >10v 136 142 CpyPo 1 SED Crack seal 856H 21R 1 1 113.4 N 5V 0 5 CpyPo 1 SED Crack seal 856H 21R 1 2 113.45 N 4V 5 12 CpyPo 3 SED 856H 21R 1 3 113.52 N V 12 19 CpyPo 1 SED Anastomosed 856H 21R 1 4 113.59 N V 19 25 CpyPo 1 SED Anastomosed 856H 21R 1 5 113.65 Y 5V 25 36 CpyPo 1 SED 0 90 0 90 Crack seal 856H 21R 1 6 113.76 N V 36 41 CpyPo 1 SED Anastomosed 856H 21R 1 7 113.81 N 3V 41 45 CpyPo 1 SED 856H 21R 1 8 113.85 N 3V 45 53 CpyPo 1 SED 856H 21R 1 9 113.93 N 5V 53 60 CpyPo 1 SED Anastomosed 856H 21R 1 11 114.1 Y V 70 79 CpyPo 2 SED 0 90 0 90 856H 21R 1 12 114.19 N 3V 79 83 CpyPo 1 SED 856H 21R 1 13 114.23 N 3V 83 87 CpyPo 1 SED 856H 21R 1 14 114.27 N 3V 87 91 CpyPo 1 SED 856H 22R 1 1 117.1 N V 0 3 CpyPo 1 SED 856H 22R 1 2 117.14 N 3V 4 9 CpyPo 1 SED 856H 22R 1 3 117.19 Y V 9 12 Cpy 20 SED 45/090 28/000 332 49 E Dense crack seal 856H 22R 1 3 117.24 Y V 14 18 Cpy 3 SED 58/270 51/180 142 64 W 856H 22R 1 3 117.24 Y V 14 18 Cpy 1 SED 0 90 0 90 W 856H 22R 1 3 117.2 Y V 10 17 Cpy 2 SED 0 90 0 90 W 856H 22R 1 5 117.33 Y V 23 24 Cpy 10 SED 90 10 90 10 W Dense crack seal 856H 22R 1 5 117.34 Y V 24 30 Cpy 1 SED 58/270 90/000 90 90 W 856H 22R 1 7 117.45 Y V 35 40 Cpy 1 SED 0 90 0 90 W 856H 22R 1 7 117.46 Y V 36 40 Cpy 1 SED 41/090 39/000 317 50 E 856H 22R 1 7 117.48 Y V 38 44 Cpy 1 SED 0 66 0 66 W 856H 22R 1 11 117.86 Y V 76 79 Cpy SED 61/090 80/000 288 80 E 856H 22R 1 11 117.87 Y V 77 84 Cpy SED 64/270 49/180 151 67 W 856H 22R 1 11 117.9 Y V 80 84 Cpy SED 49/270 45/180 139 57 W 856H 22R 1 11 117.92 Y V 82 90 Cpy SED 59/270 50/180 144 64 W 856H 22R 1 12 118.05 Y V 95 102 Cpy 20 SED 55/270 60/180 130 66 W Dense crack seal 856H 22R 1 16 118.38 Y V 128 143 Cpy 20 SED 0 90 0 90 W Rotation/dense crack seal 856H 22R 1 16 118.37 Y V 127 142 Cpy 1 SED 0 90 0 90 W 856H 22R 2 5 118.81 Y >10v 21 32 CpyPo SED 0 90 0 90 W 856H 22R 2 7 119 Y >10v 43 60 CpyPo SED 70/270 73/180 130 77 W 856H 22R 2 8 119 Y >10v 62 74 Cpy SED 0 90 0 90 W 856H 22R 2 9 119.36 Y >10v 76 86 Cpy SED 0 90 0 90 W 856H 22R 2 11 119.53 Y V 93 100 Cpy 30 SED 60/270 54/180 142 66 W Chalcopyrite a pyrrhotite zoned 856H 22R 2 12 119.61 Y V 101 111 Cpy SED 82/090 80/180 39 84 E 856H 23R 1 1 124.1 Y V1 0 9 Cpy 1 SED 86/090 70/180 11 86 E 856H 23R 1 1 124.17 Y V2 7 11 Cpy 7 SED 64/090 46/180 27 66 E 856H 23R 1 2 124.22 N V1 12 17 Cpy 2 SED 856H 23R 1 2 124.22 N V2 12 17 Cpy 2 SED 856H 23R 1 3 124.27 N V 17 20 Cpy 2 SED 856H 23R 1 4 124.32 N V1 22 26 Cpy 1 SED 856H 23R 1 3 124.34 N V2 24 26 Cpy 1 SED 856H 23R 1 5 124.38 N V1 28 31 Cpy 2 SED 856H 23R 1 5 124.37 N V2 27 31 Cpy 2 SED 856H 23R 1 5 124.36 N V3 26 28 Cpy 3 SED 856H 23R 1 6 124.43 N V1 33 33 Cpy 1 SED 856H 23R 1 7 124.48 N 38 41 Cpy 1 SED 856H 23R 1 8 124.52 Y V1 42 45 Cpy 5 SED 84/270 66/000 193 84 W 856H 23R 1 8 124.52 Y V2-4 42 46 Cpy 1 SED 78/270 38/000 189 78 W Anastomosing array of chalcopyrite 856H 23R 1 8 124.52 Y V3 42 42 Cpy 7 SED 08/090 25/000 287 26 E Alteration halo 856H 23R 1 8 124.52 Y V4 42 44 An 2 SED Anyhydrite vein within chalcopyrite 856H 23R 1 9 124.58 N V1 48 48 Cpy 1 SED 856H 23R 1 9 124.59 N V2 49 52 Cpy 2 SED 856H 23R 1 9 124.61 N V2b 51 51 Cpy 3 SED Chalcopyrite border 856H 23R 1 10 124.63 N V 53 56 Cpy 1 SED Chalcopyrite veins with blebs of chalcopyrite; multiple generations of veining 856H 23R 1 11 124.68 N V 58 60 Cpy 1 SED Massive chalcopyrite with sedimentary remnants 856H 23R 1 12 124.72 N V 62 62 Cpy 1 SED 2 chalcopyrite veins within sediments 856H 23R 1 13 124.75 N v 65 68 Cpy 1 SED Minor chalcopyrite replacement of sed 856H 23R 1 14 124.8 N v 70 71 Cpy 1 SED Dark alteration halo (possible chlorite) < 1 mm 856H 23R 1 14 124.79 Y V2a 69 72 Cpy 1 SED 60/270 55/000 220 66 W 856H 23R 1 14 124.79 Y V2b 69 74 Cpy 2 SED 72/090 84/000 288 84 E Dark alteration halo (possible chlorite) < 1 mm 856H 23R 1 14 124.8 Y V3 70 75 Cpy 5 SED 180 90 180 90 W 1 mm anhydrite vein within chalcopyrite 856H 23R 1 15 124.86 N V 76 82 Cpy 1 SED Vertical veins cut horizontal 856H 23R 1 16 124.92 N V 82 88 Cpy 1 SED 856H 23R 1 17 124.98 N V1a 88 94 Cpy 2 SED Mottled texture created by worm burrows 856H 23R 1 17 124.98 N V1b 88 94 Cpy 2 SED 856H 23R 1 17 124.98 N V1c 88 94 Cpy 2 SED 856H 23R 1 18 125.04 N V1 94 99 Cpy 2 SED 856H 23R 1 18 125.04 N V1b 94 99 Cpy 3 SED 856H 23R 1 18 125.04 N V1c 94 99 Cpy 2 SED 856H 23R 1 19 125.09 Y V1a 99 107 Cpy 5 SED 78/090 72/180 33 80 E 856H 23R 1 19 125.09 Y V1b 99 107 Cpy 4 SED 70/090 78/000 300 80 E 856H 23R 1 19 125.09 Y V1c 99 107 Cpy 3 SED 75/090 50/000 342 76 E 856H 23R 1 21 125.22 N V 112 117 Cpy 3 SED 856H 23R 1 22 125.27 N V1a 117 122 Cpy 3 SED 856H 23R 1 22 125.27 N V1b-4 117 122 Cpy 2 SED Anastomosing array of 4 veins <1mm 856H 23R 1 23 125.33 N V 123 127 Cpy 1 SED 856H 23R 1 24 125.37 N V1 127 132 Cpy 1 SED 856H 23R 1 24 125.37 N V2 127 132 Cpy 2 SED Dark alteration halo (possible chlorite) <1 mm; mottled chalcopyrite 856H 23R 1 25 125.45 Y Va 135 140 Cpy 3 SED 70/090 58/000 330 73 E Chalcopyrite cuts background alteration 856H 23R 1 25 125.39 Y Vb 129 131 Cpy 1 SED 33/270 47/180 121 51 W 856H 23R 2 1 125.5 Y V1 0 21 Cpy 2 SED 55/270 45/180 145 60 W Crack seal 856H 23R 2 1 Y V1a Cpy 2 SED 73/270 76/180 129 79 W 856H 23R 2 1 Y V2 Cpy 4 SED 74/090 64/180 30 76 E 856H 23R 2 2 125.71 N V 21 26 Cpy 1 SED Chalcopyrite worm burrows 856H 23R 2 3 125.76 N V 26 32 Cpy 1 SED Chalcopyrite with pyrite; pyrite later stage; bleached alteration with possible anhydrite 856H 23R 2 4 125.83 Y V1a 33 36 Cpy 1 SED 63/270 44/180 154 65 W 856H 23R 2 4 125.86 Y V1b 36 40 Cpy 1 SED 56/270 54/180 137 64 W Cataclasis with minute alteration halo <1 mm 856H 23R 2 4 125.83 Y V2a 33 40 Cpy 3 SED 68/090 46/000 337 70 E 856H 23R 2 4 125.83 Y V2b 33 36 Cpy 1 SED Crack seal veining 856H 23R 2 5 125.93 N V 43 43 Cpy 1 SED White alteration around chalcopyrite clast 856H 23R 2 6 125.97 N V 47 51 Cpy 1 SED 856H 23R 2 9 126.1 N V-4 60 65 Cpy 9 SED 72/270 72/000 225 77 W Laminated siltstone with worm burrows; vein bundle 856H 23R 2 13 126.32 N V1-5 82 95 Cpy 3 SED 72/270 58/180 153 74 W Laminated siltstone with chalcopyrite burrows; laminations show chalcopyrite and pyrrhotite 856H 23R 2 13 126.39 N V1a 89 94 Cpy 1 SED 54/270 34/180 154 57 W 856H 24R 1 1A 133.73 Y V1a 3 3 Cpy 1 SED 05/090 05/180 45 7 E Finely laminated hemipelagic muds; veins show <1 mm alteration halo; chalcopyrite controlled by laminations 856H 24R 1 1A 133.73 Y V1b 3 5 Cpy 1 SED 46/270 34/000 213 51 W 856H 24R 1 1A 133.72 Y V2 2 7 CpyPo 5 SED 60/090 70/180 58 73 E 856H 24R 1 1B 133.83 Y V1a 13 13 Cpy 1 SED 25/270 05/180 169 25 W 856H 24R 1 1B 133.8 Y V2a 10 20 Cpy 5 SED 65/090 68/180 49 73 E "Alteration halo; clast of mud within vein, anastomosing network" 856H 24R 1 1B 133.8 Y V2b 10 18 Cpy 2 SED 74/090 72/000 319 78 E 856H 24R 1 1B 133.87 Y V2c 17 20 Cpy 1 SED 78/090 65/180 25 79 E 856H 24R 1 2 133.91 Y 21 37 CpyPo Chalcopyrite block of contorted replaced sediments; probable slump structure 856H 24R 1 3A 134.07 Y V1a-7 37 50 Cpy 8 SED 08/270 76/180 92 76 W 856H 24R 1 3A 134.19 Y V1b 49 50 Cpy 1 SED 76/180 80/090 35 82 E 856H 24R 1 3A 134.17 Y V1c 47 50 Cpy 1 SED 48/270 14/180 167 49 W 856H 24R 1 3B 134.25 Y V1a 55 60 Cpy 1 SED 330 90 330 90 W 856H 24R 1 3B 134.2 Y V1c 50 54 Cpy 1 SED 74/270 14/180 90 90 W 856H 24R 1 3B 134.25 Y V1d 55 57 Cpy 1 SED 68/270 54/000 176 74 W 856H 24R 1 3B 134.2 Y V2 50 70 CpyPoSphAn 15 SED 78/270 74/180 209 71 W "Vein with sphalerite and distinct anhydrite vein; pyrite, pyrrhotite, chalcopyrite main mineralogy" 856H 24R 1 3C 134.37 Y V1a 67 69 Cpy 3 SED 50/090 30/180 143 80 W Crack seal 856H 24R 1 3C 134.31 Y V1b 61 70 Cpy 1 SED 90/090 26 53 E 856H 24R 1 3D 134.47 Y V1b 77 80 Cpy 6 SED 82/270 77/180 180 90 W 856H 24R 1 3D 134.45 Y V2 75 78 Cpy 1 SED 37/090 33/180 149 83 W 856H 24R 1 3D 134.45 Y V3 75 80 Cpy 3 SED 76/270 67/180 41 45 E 856H 24R 1 5 134.57 N V1a 87 93 Cpy 8 SED 150 78 W 856H 24R 1 5 134.57 N V1b 87 93 Cpy 3 SED 856H 24R 1 6 134.65 N V-2 95 95 Cpy 1 SED AnastomoSing 856H 24R 1 6 134.73 V 103 104 Cpy 2 SED Crack seal 856H 24R 1 7 134.74 N V 104 110 Cpy 4 SED "Perpendicular cracks of dark altered minerals; alteration halo; pyrite, chalcopyrite replacement along laminae" 856H 24R 1 9 134.88 Y V1 118 121 Cpy 1 SED follows bedding 856H 24R 1 9 134.86 Y V2 116 127 Cpy 4 SED 83/090 80/000 325 84 E 856H 24R 2 1 135.23 Y V1 3 6 Cpy 3 SED 78/270 85/180 112 85 W Dark alteration halo 856H 24R 2 1 135.21 Y V1b 1 3 Cpy 1 SED 75/270 15/000 184 75 W 856H 24R 2 1 135.3 Y V1c 10 10 Cpy 1 SED 03/090 04/180 53 5 E Along laminae 856H 24R 2 1 135.31 Y V1d 11 11 Cpy 1 SED 04/270 08/180 116 9 W Along laminae 856H 24R 2 5A 135.56 Y V1a 36 36 Cpy 1 SED 08/270 06/180 143 10 W Along laminae 856H 24R 2 5A 135.59 Y V1b 39 40 Cpy 1 SED 06/270 02/000 198 6 W Along laminae 856H 24R 2 5A 135.6 Y V1c 40 40 Cpy 1 SED 06/270 02/000 198 6 W Along laminae 856H 24R 2 5A 135.56 Y V1f 36 38 Cpy 3 SED 60/090 60/000 315 68 E Along laminae 856H 24R 2 5B 135.66 Y V1d 46 46 Cpy 1 SED 09/090 08/090 270 90 E Along laminae 856H 24R 2 5B 135.68 Y V1e 48 50 Cpy 3 SED 72/090 74/000 311 78 E Along laminae 856H 24R 2 9 135.99 Y V1a 79 79 Cpy 1 SED 03/270 04/180 127 5 W Along laminae 856H 24R 2 9 136.01 Y V1b 81 81 Cpy 1 SED 0 0 0 0 Along laminae 856H 24R 2 9 136.03 Y V1c 83 83 Cpy 1 SED 04/270 03/000 217 5 W Along laminae 856H 24R 2 11 136.2 Y V1a 100 100 Cpy 1 SED 03/090 06/180 63 7 E Along laminae 856H 24R 2 11 136.29 Y V1b 109 109 Cpy 2 SED 0 0 0 0 Along laminae 856H 24R 2 11 136.43 Y V1c 123 123 Cpy 1 SED 03/090 01/000 342 3 E Along laminae 856H 24R 2 11 136.46 Y V1d 126 126 Cpy 1 SED 03/090 02/000 326 4 E Along laminae 856H 25R 1 143.34 N V 4 35 CpyPo 3 SED 90 90 W 856H 25R 1 144.17 Y V 87 93 Po 4 SED 58/270 60/000 227 67 W Pyrrhotite vein 856H 25R 2 145.58 N R 78 100 Po SED Pyrrhotite vein (string-of-pearls texture); siltstone to silty sandstone 856H 25R 3 146.12 N R 0 20 Cpy SED Chalcopyrite blebs in non- laminated silty sandstone 856H 26R 1 153.31 N V1a 41 54 Po 1 SED 856H 26R 1 153.44 Y V1b 54 57 Cpy 1 SED 28/090 06/180 11 28 E 856H 26R 1 153.53 Y V1c 63 70 CpyPo 6 SED 36/090 74/000 282 74 E Dark alteration halo 856H 26R 2 153.96 Y V1 0 10 Po 3 SED 68/090 53/180 28 70 E 856H 27R 1 162.57 Y V 7 10 PoHm 2 SED 84/090 82/180 37 85 E Interbedded siltstone; pyrrhotite veins occur along beds or laminae 856H 27R 1 162.82 N V 32 32 Po 1 SED 856H 27R 1 162.95 N V1 45 55 Po 1 SED 0 0 0 0 856H 27R 1 162.95 Y V1 45 50 Po 2 SED 44/090 32/000 327 49 E Offset pyrrhotite vein 856H 27R 1 163.18 Y V1 68 68 Po 1 SED 07/270 04/180 150 8 W Change to coarser grained sand 856H 27R 2 163.48 Y V1 0 20 Po 1 SED 74/090 76/180 49 79 E 856H 28R 1 172.21 Y V1a 11 11 Po 2 SED 05/270 17/180 106 18 W Laminated siltstone 856H 28R 1 172.29 Y V1b 19 19 Po 1 SED 04/270 02/000 207 4 W 856H 28R 1 172.31 Y V 21 21 Po 1 SED 05/270 06/000 230 8 W 856H 28R 1 172.33 Y V 23 23 Po 2 SED 04/270 12/180 108 13 W 856H 28R 1 172.36 Y V 26 26 Po 1 SED 03/270 12/180 104 12 W 856H 28R 1 172.46 Y V 36 36 Po 2 SED 07/270 08/000 229 11 W 856H 28R 1 172.5 Y V 40 41 Po 3 SED 13/090 09/000 326 16 E Dipping beds with veins parallel; siltstone 856H 28R 1 172.53 Y V 43 45 Po 1 SED 16/090 04/180 14 16 E Dipping beds with veins parallel; siltstone 856H 28R 1 172.54 Y V 44 45 Po 2 SED 27/090 06/180 12 27 E Dipping beds with veins parallel; siltstone 856H 28R 1 172.6 Y V 50 50 Po 2 SED 13/090 02/180 9 13 E Pyrrhotite blebs along laminae 856H 28R 2 172.76 Y 0 20 Po SED Pyrrhotite blebs along laminae 856H 29R 1 4 181.88 Y So 18 27 SED 22/270 11/180 154 24 W 856H 29R 1 4 181.89 Y V 19 21 Py 1 SED 22/270 11/180 154 24 W Vuggy pyrite + quartz vein 856H 29R 1 9 182.34 Y V 64 64 PyPo 1 SED 0 0 0 0 Pyrite vein 856H 30R 1 3 191.56 Y V 16 16 Py 1 SED 0 0 0 0 Pyrite vein 856H 30R 1 9 191.88 Y V 48 55 Py 1 SED 80/270 80/180 135 83 W Pyrite vein 856H 30R 1 13 192.13 Y V 73 78 SED 0 0 0 0 856H 31R 2 9 203.24 Y V 80 86 Py 1 SED 60/090 01/180 1 60 E 856H 31R 2 10 203.31 Y V 87 96 Py 1 SED 0 90 0 90 856H 32R 1 12 210.6 Y V 0 11 Qtz 1 SED 0 90 0 90 Vuggy quartz vein 856H 33R 1 1 220.2 Y V 0 11 Po 1 SED 0 90 0 90 Zeolite vein(?) and pyrrhotite 856H 35R 1 18 240.51 Y V 111 119 AnPy 1 SED 0 90 0 90 Anhydrite + traces of sulfide joints 856H 39R 1 7 278.56 Y V 56 66 An 1 SED 66/270 65/180 136 72 W Silty sandstone 856H 39R 1 9 278.74 Y V 74 86 An 1 SED 88/090 88/180 45 89 E Silty sandstone w/ dipping beds 12/090 856H 41R 1 9 297.77 Y V 47 55 An 2 SED 82/090 80/180 39 84 E Terminated quartz crystals along bedding cut by anhydrite 856H 42R 1 2 306.96 Y F 6 19 An 1 SED 74/270 74/000 225 79 W Anhydrite vein filling normal fault with 5-mm offset; silty sandstone 856H 44R 1 5 326.41 Y V 21 66 An 1 SED 0 90 0 90 856H 44R 1 9 327.2 Y V 100 100 An 1 SED 0 0 0 0 856H 54R 1 5 422.4 Y V1a 20 20 EpPo 2 SED 07/270 16/000 247 17 W 856H 54R 1 422.41 Y V1b 21 21 EpPo 2 SED 10/270 18/000 242 20 W 856H 54R 1 422.43 Y V1c 23 23 EpPo 3 SED 10/270 09/000 222 13 W 856H 54R 1 422.45 Y V1d 25 25 EpPo 3 SED 16/090 30/000 296 33 E 856H 54R 1 11 Y V1 856H 55R 1 1 431.7 Y V 0 12 chl 3 SED Anastomosing network of chlorite veins 856H 55R 1 5 431.99 Y V1 29 32 chl 1 SED 35/090 56/000 295 59 E 856H 55R 1 5 431.99 Y V2 29 40 chl 3 SED 64/270 67/000 229 72 W Anastomosing network 856H 55R 1 15 432.73 Y V1 103 106 chl 2 SED 67/090 64/000 319 72 E 856H 55R 1 18 432.96 Y V1a 126 128 chl 2 SED 53/090 86/000 275 86 E 856H 55R 1 18 432.98 Y V2 128 128 chl 3 SED 02/270 05/180 112 5 W 856H 56R 1 5 434.6 Y V 30 30 QtzPo 2 DIA 0 0 0 0 856H 56R 1 5 434.58 Y 4v 28 35 Qtz 1 DIA 0 90 0 90 856H 58R 1 5 451.26 Y V 26 33 PoQtz 1 SED 80/270 89/180 96 89 W 856H 58R 1 16 451.97 Y V1 97 102 ChloQtz 1 DIA 70/270 80/180 116 81 W 856H 58R 1 16 451.97 Y V2 97 100 ChloQtz 1 DIA 75/090 89/180 86 89 E 856H 59R 1 7 461.1 Y V 40 47 QtzPy 2 DIA 90/090 89/180 180 90 W Vuggy 856H 59R 1 12 461.49 Y V 79 87 Qtz 1 DIA 0 90 0 90 856H 59R 1 12 461.57 Y V 87 87 Qtz 1 DIA 0 0 0 0 856H 59R 1 14 461.65 Y V 95 109 Qtz 1 SED 0 90 0 90 Vuggy 856H 59R 1 15 461.79 Y V 109 115 Qtz 1 SED 73/090 89/180 87 89 E 856H 59R 1 15 461.79 Y V 109 115 Qtz 1 SED 75/090 89/000 274 89 E 856H 60R 1 4 465.82 Y V 12 18 Chlo 1 DIA 0 90 0 90 856H 60R 1 5 465.89 Y V 19 24 Chlo 1 DIA 80/090 89/000 276 89 E 856H 60R 1 465.89 Y V 19 19 pink 1 DIA 0 0 0 0 856H 60R 1 14 466.56 Y V 86 92 Chlo 1 DIA 80/090 89/180 84 89 E 856H 60R 1 19 466.9 Y V 120 130 QtzCarbPy 4 DIA 78/270 80/000 230 82 W Chloritic alteration halo 856H 60R 2 3 467.38 Y V 18 20 Chlo 1 DIA 30/090 25/000 321 37 E 856H 61R 1 4 468.5 Y V1a 30 33 Chlo 2 DIA 27/090 06/180 12 27 E 856H 61R 1 4 468.53 Y V1b 33 34 Chlo 3 DIA 12/090 11/000 318 16 E 856H 61R 1 4 468.53 Y V1c 33 33 Chlo 1 DIA 02/180 12/090 9 12 E Anastomosing network 856H 61R 1 11 469.12 Y V 92 95 Po 2 SED 22/090 37/180 62 41 E 856H 61R 2 4 469.94 Y V 31 35 Po 1 SED 82/090 62/180 15 82 E 856H 62R 1 20 471.5 Y V1a 120 125 ChloQtz 3 DIA 42/270 16/180 162 43 W 3 to 8 mm alteration halo with epidote and actinolite 856H 62R 1 20 471.5 Y V1b 120 125 ChloQtz 2 DIA 180 77 180 77 W 856H 62R 1 20 471.55 Y V1c 125 125 ChloQtz 2 DIA 04/090 32/000 276 32 E 856H 63R 1 5 480.14 Y V1a 24 26 Chlo 1 BAS 19/090 49/000 287 50 E 856H 63R 1 5 480.15 Y V1b 25 27 Chlo 1 BAS 04/270 05/180 129 6 W 856H 63R 1 6A 480.24 Y V1 34 34 ChloCpy 1 BAS 03/090 57/000 272 57 E 856H 63R 1 6A 480.21 Y V2 31 48 Chlo 2 BAS 180 90 180 90 W 856H 63R 1 6B 480.27 Y V1 37 37 ChloCpy 3 BAS 03/090 57/000 272 57 E 7 to10 mm alteration halo 856H 63R 1 7A 480.4 Y V1 50 62 Chlo 2 BAS 82/270 58/000 193 82 W 856H 63R 1 9 480.6 Y V1a 70 74 Chlo 1 BAS 126 90 856H 63R 1 9 480.6 Y V1b 70 72 Chlo 1 BAS 24/090 04/180 126 90 W 856H 63R 1 9 480.65 Y V2a 75 80 Chlo 2 BAS 13/090 63/000 277 63 E 856H 63R 1 9 480.65 Y V2b 75 83 Chlo 2 BAS 52/090 73/180 69 74 E 856H 63R 1 9 480.7 Y V2c 80 83 Chlo 1 BAS 46/090 23/180 22 48 E 856H 63R 1 10 480.76 Y V1a 86 87 Chlo 1 BAS 02/090 44/180 88 44 E 856H 63R 1 10 480.75 Y V2 85 95 ChloCpy 3 BAS 85/270 85/000 856H 63R 1 11A 480.86 Y V1a 96 105 QtzCpy 3 BAS 07/270 68/000 267 68 W 856H 63R 1 11A 480.87 Y V1b 97 98 QtzCpy 1 BAS 63/180 84/090 12 84 E 856H 63R 1 11D 481.03 Y V1 113 118 ChloCpy 2 BAS 27/090 52/000 292 54 E 856H 63R 1 11E 481.14 Y V1a 124 126 Chlo 1 BAS 06/090 10/000 301 12 E 856H 63R 1 11E 481.13 Y V2a 123 124 Chlo 1 BAS 09/090 57/180 84 57 E 856H 63R 1 11E 481.18 Y V2b 128 130 Chlo 1 BAS 33/270 36/000 228 44 W 856H 63R 1 11F 481.2 Y V 130 132 Chlo 1 BAS 50/090 55/000 310 62 E 856H 63R 2 8 481.78 Y V 38 44 Chlo 2 BAS 81/270 72/000 206 82 W 856H 63R 2 11 481.99 Y V1a 59 62 ChloCpy 1 BAS 57/270 14/180 171 57 W 856H 63R 2 482.01 Y V1b 61 63 ChloCpy 1 BAS 64/270 13/180 174 64 W Quench chilled margin of pillow basalts; vein margins radiating and circular possible folling pillows 856H 63R 2 16 482.24 Y v 84 85 ChloCpy 1 BAS 13/090 52/180 80 52 E 856H 64R 1 3 489.61 Y V1 11 16 ChloCpy 1 BAS 86/090 86/180 45 87 E 856H 64R 1 489.65 Y V2 15 17 ChloCpy 1 BAS 23/090 31/180 55 36 E 856H 64R 1 6 489.83 Y V1a 33 33 ChloCpy 2 BAS 06/090 31/180 80 31 E Hyaloclastite margin with radiating chlorite veins 856H 64R 1 489.86 Y V1b 36 36 ChloCpy 1 BAS 16/090 11/000 326 19 E 856H 64R 1 8 N V Cpy 1 BAS 856H 64R 1 9 N V-2 Cpy 1 BAS 856H 64R 1 10 490.06 Y V1a 56 60 ChloCpy 1 BAS 44/090 05/180 5 44 E 856H 64R 1 10 490.08 Y V1b 58 64 ChloCpy 2 BAS 82/090 71/180 22 83 E 856H 64R 1 12 490.21 N V 71 72 Cpy 1 BAS 856H 64R 1 13 490.25 Y V1a 75 80 Chlo 1 BAS 48/090 48/180 45 58 E Veins cut quench texture in pillow 856H 64R 1 13 490.28 Y V1b 78 80 ChloCpy 2 BAS 82/270 74/180 154 83 W 856H 64R 1 15 490.42 Y V1 92 95 Chlo 1 BAS 57/270 08/000 90 90 W 856H 64R 1 15 490.39 Y V2 89 93 Chlo 1 BAS 67/090 38/000 90 90 W 856H 64R 1 18 490.57 Y V 107 111 ChloCpy 1 BAS 78/090 86/000 288 86 E 856H 64R 1 19 490.65 Y V 115 120 Chlo 1 BAS 71/270 63/180 146 74 W 856H 64R 1 20 N V Chlo 1 BAS 90 90 W 856H 64R 1 23 490.95 Y V 145 145 Chlo 1 BAS 11/090 21/180 63 23 E 856H 64R 2 1 491.02 Y V1 2 11 Chlo 1 BAS 70/270 79/180 118 80 W With chloritic alteration halo 856H 64R 2 1 491.05 N V2a 5 10 Chlo 1 BAS 0 76 0 76 W 856H 64R 2 1 491.08 N V2b 8 10 Chlo 1 BAS 0 76 0 76 W 856H 64R 2 1 491.1 Y V2c 10 10 Chlo 1 BAS 17/090 70/180 84 70 E 856H 64R 2 7 491.43 Y V1a 43 45 ChloCpy 1 BAS 62/090 72/000 301 75 E 856H 64R 2 7 491.43 Y V1b 43 50 Chlo 1 BAS 38/270 72/000 256 73 W 856H 64R 2 7 491.47 Y V1c 47 48 Chlo 1 BAS 05/090 28/180 81 28 E 856H 64R 2 8 491.52 Y V1a 52 53 Chlo 1 BAS 05/270 33/180 98 33 W 856H 64R 2 8 491.52 Y V1b 52 58 Chlo 1 BAS 85/090 70/000 346 85 E 856H 64R 2 8 491.79 Y V1c 79 80 Chlo 1 BAS 21/090 70/180 82 70 E 856H 64R 2 8 491.8 Y V1d 80 81 Chlo 1 BAS 21/090 70/180 82 70 E 856H 64R 2 9 491.62 Y V1a 62 70 Chlo 1 BAS 43/090 10/180 11 44 E 856H 64R 2 10 491.72 Y V1a 72 77 Chlo 1 BAS 38/270 80/000 262 80 W 856H 64R 2 10 491.75 Y V1a 75 77 Chlo 1 BAS 28/270 10/180 162 29 W 856H 64R 2 12 491.92 Y V 92 94 ChloCpy 1 BAS 18/270 21/180 130 27 W 856H 64R 2 18 492.25 Y V 125 125 Chlo 1 BAS 10/270 65/180 95 65 W 856H 64R 2 20 492.33 Y V 133 138 Chlo 1 BAS 65/270 62/000 221 71 W 856H 65R 1 1 494.25 Y V1a 5 5 Chlo 1 BAS 12/270 22/180 118 25 W 856H 65R 1 1 494.25 Y V1b 5 7 Chlo 1 BAS 29/270 10/180 162 30 W 856H 65R 1 1 494.26 Y V1c 6 10 Chlo 1 BAS 89/270 89/000 225 89 W 856H 65R 1 4 494.44 Y V1a 24 28 Chlo 1 BAS 66/090 85/000 281 85 E 856H 65R 1 4 494.47 Y V1b 27 30 Chlo 1 BAS 24/270 24/180 135 32 W 856H 65R 1 4 494.49 Y V1c 29 31 Chlo 1 BAS 19/090 40/000 292 42 E 856H 65R 1 4 494.5 Y V1d 30 51 Chlo 1 BAS 0 88 0 88 W 856H 65R 1 4 494.51 Y V1e 31 42 Chlo 1 BAS 135 85 135 85 W 856H 65R 1 4 494.53 Y V1f 33 38 Chlo 1 BAS 135 80 135 80 W 856H 65R 1 4 494.57 Y V1g 37 38 Chlo 1 BAS 19/90 55/180 76 56 E 856H 65R 1 4 494.57 Y V1h 37 40 Chlo 1 BAS 36/090 45/180 54 51 E 856H 65R 1 4 494.66 Y V1i 46 51 Chlo 1 BAS 37/090 45/000 307 51 E 856H 65R 1 4 494.69 Y V1j 49 52 Chlo 1 BAS 35/090 30/000 320 42 E 856H 65R 1 12 495.17 Y V1a 97 100 Chlo 1 BAS 44/270 30/180 149 48 W 856H 65R 1 12 495.2 Y V1b 100 108 Chlo 1 BAS 0 85 0 85 W 856H 65R 1 13 495.28 Y V1a 108 112 Chlo 1 BAS 58/090 48/000 325 63 E 856H 65R 1 13 495.32 Y V1b 112 119 Chlo 1 BAS 62/270 19/180 170 62 W 856H 65R 1 15 495.48 Y V1a 128 128 Chlo 1 BAS 90 5 90 5 W 856H 65R 1 15 495.49 Y V1b 129 133 Chlo 1 BAS 32/270 22/180 147 37 W 856H 65R 2 1 495.63 Y V1a 5 7 Chlo 1 BAS 46/270 17/180 164 47 W 856H 65R 2 3 495.78 Y V1a 20 29 Chlo 1 BAS 63/090 45/180 27 66 E 856H 65R 2 3 495.81 Y V1b 23 23 Chlo 1 BAS 05/090 10/000 296 11 E 856H 65R 2 3 495.78 Y V1c 20 24 Chlo 1 BAS 57/270 80/180 105 80 W 856H 65R 2 3 495.85 Y V1d 27 28 Chlo 1 BAS 16/090 10/000 328 19 E 856H 65R 2 5 495.97 Y V1a 39 42 Chlo 1 BAS 54/090 85/000 277 85 E 856H 65R 2 5 495.99 Y V1b 41 45 Chlo 1 BAS 55/090 05/000 356 55 E 856H 65R 2 7 496.1 Y V1a 52 57 Chlo 1 BAS 53/090 50/000 318 61 E 856H 65R 2 11 496.5 Y V1a 92 95 Chlo 1 BAS 52/270 05/270 184 52 W