"Tabl 17. Expanded version of structural measurements for Holes 1035A, 1035D, 1035F, 1035G, and 1035H." 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 Dec-00 194 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 Feb-90 08/180 76 8 E Bedding parallel replacement 1035F 10R 1 89.99 Y V 9 9 Py 4 SED Sep-90 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 Dec-90 20/180 60 23 E 1035F 10R 1 90.25 Y F 35 35 Jun-90 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 Oct-90 14/180 55 17 E 1035F 10R 1 90.64 Y V 74 74 Sph 3 SED 14/180 Sep-90 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 Apr-90 78 18 E 1035F 10R 1 90.79 Y V 89 91 SphPy 4 SED Nov-90 07/180 32 13 E Pyrite center with sphalerite rim 1035F 10R 1 91.02 Y V 112 112 Sph 5 SED Oct-90 07/180 35 12 E 1035F 10R 1 91.14 Y V 124 124 Py 3 SED Oct-90 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 May-90 291 14 E Bedding parallel replacement 1035F 10R 2 91.27 Y V 6 6 Py 2 SED Feb-90 13/000 279 13 E 1035F 10R 2 91.34 Y V 13 13 Py 1 SED Apr-90 Sep-00 294 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 Apr-90 286 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 Nov-00 Apr-90 290 12 E 1035F 10R 2 91.53 Y V 32 32 SphPyAn 6 SED Jun-90 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 Jun-90 May-00 320 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 Feb-00 196 7 W Bedding parallel replacement with pyrrhotite 1035F 11R 1 3 99.82 Y V 12 13 Po 2 SED 10/270 Feb-00 191 10 W Bedding parallel replacement with pyrrhotite 1035F 11R 1 3 99.91 Y V 21 21 Po 2 SED 12/270 Feb-00 189 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 Oct-00 342 29 E 1035F 11R 1 18 100.96 Y V1c 126 128 Cpy 2 SED 23/270 Aug-00 198 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 May-00 343 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 Nov-90 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 Dec-00 332 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 Dec-90 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 Dec-00 237 14 N 1035G 10 1 12 170.72 Y V1b 92 92 Po 1 SED Jun-90 12/180 64 13 S 1035G 11 1 2 Y So Feb-90 Feb-00 351 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 Feb-90 Feb-00 270 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 Apr-90 Feb-00 270 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 Feb-90 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 Feb-00 1035H 4 2 5 28.24 Y V 34 36 PoSphCpy 2 SED Feb-90 Feb-00 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 Apr-90 04/180 1035H 5 1 36.2 Y V1b 20 22 Po 1 SED 02/270 Apr-00 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 Mar-00 Pyrrhotite replacement along soft sedimentary deformation 1035H 5 1 36.83 Y "V1,So" 83 83 Po 1 SED May-90 Apr-00 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 Aug-90 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 Sep-90 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