leg site hole core section top interval depth(cm) bottom interval depth(cm) sample midpoint depth(m) analyst volume chapters analytical method 1 analytical method 2 analytical method 3 alteration rock type rock name li be b f cl sc v cr co ni cu zn ga ge ag se br rb sr y zr nb mo pd ag cd sn sb cs ba la ce pr nd sm eu gd tb dy ho er tm yb lu hf ta w ir pt au tl pb bi th u comments 37 334 15 2 14.0 17.0 253.00 254.66 Gunn,B. 37 2, 3, 4, 5 XRF IGNEOUS PLAG-AUGITE-OL SPARSELY PHYRIC BASALT 110. 6.00 86.0 89. 37 334 15 2 14.0 17.0 253.00 254.66 Muysson,J. 37 2, 3, 4 ATOMIC ABSORPTION IGNEOUS PLAG-AUGITE-OL SPARSELY PHYRIC BASALT 6.5 230. 8.20 85.0 110. 0.035 37 334 15 2 30.0 0.0 253.00 254.80 Bougault,H. 37 2, 3, 4, 5 4 XRF ATOMIC ABSORPTION IGNEOUS PLAG SPARSELY PHYRIC BASALT 235. 275. 41. 118. 75. 71. 37 334 15 2 30.0 32.0 253.00 254.81 Dostal,J. 37 4 4 INSTRUMENTAL NEUTRON ACTIVATION ANALYSES IGNEOUS PLAG SPARSELY PHYRIC BASALT 36. 220. 44. 4.450 10.70 1.950 0.680 0.550 2.38 0.360 1.30 0.46 37 334 16 1 22.0 0.0 262.50 262.72 Bougault,H. 37 2, 3, 4, 5 XRF ATOMIC ABSORPTION IGNEOUS PLAG MOD PHYRIC BASALT 255. 262. 44. 110. 74. 78. 37 334 16 1 22.0 25.0 262.50 262.74 Aumento,F. 37 2, 3, 4, 5 2 FISSION TRACK IGNEOUS PLAG MOD PHYRIC BASALT 0.110 37 334 16 1 22.0 25.0 262.50 262.74 Gunn,B. 37 2, 3, 4, 5 2 XRF IGNEOUS PLAG MOD PHYRIC BASALT 116. 7.00 80.0 80. 37 334 16 1 40.0 42.0 262.50 262.91 Gunn,B. 37 2, 3, 4, 5 XRF IGNEOUS PLAG-AUGITE-OL SPARSELY PHYRIC BASALT 141. 6.00 86.0 89. 37 334 16 1 40.0 42.0 262.50 262.91 Muysson,J. 37 2, 3, 4 ATOMIC ABSORPTION IGNEOUS PLAG-AUGITE-OL SPARSELY PHYRIC BASALT 7.0 230. 2.70 93.0 45. -.001 37 334 16 1 110.0 113.0 262.50 263.62 Aumento,F. 37 2, 3, 4, 5 10 FISSION TRACK IGNEOUS PLAG SPARSELY PHYRIC BASALT 0.140 37 334 16 1 110.0 113.0 262.50 263.62 Gunn,B. 37 2, 3, 4, 5 10 XRF IGNEOUS PLAG SPARSELY PHYRIC BASALT 118. 6.00 81.0 85. 37 334 16 2 109.0 0.0 262.50 265.09 Bougault,H. 37 2, 3, 4, 5 12A XRF ATOMIC ABSORPTION IGNEOUS PLAG MOD PHYRIC BASALT 245. 265. 44. 124. 71. 71. 37 334 16 2 109.0 112.0 262.50 265.11 Aumento,F. 37 2, 3, 4, 5 12A FISSION TRACK IGNEOUS PLAG MOD PHYRIC BASALT 0.140 37 334 16 2 109.0 112.0 262.50 265.11 Gunn,B. 37 2, 3, 4, 5 12A XRF IGNEOUS PLAG MOD PHYRIC BASALT 170. 4.00 89.0 95. 37 334 16 2 109.0 112.0 262.50 265.11 Gunn,B. 37 2, 3, 4, 5 12A XRF IGNEOUS PLAG MOD PHYRIC BASALT 170. 4.00 88.0 93. 37 334 16 3 16.0 0.0 262.50 265.66 Bougault,H. 37 2, 3, 4, 5 XRF ATOMIC ABSORPTION IGNEOUS PLAG MOD PHYRIC BASALT 260. 270. 43. 113. 67. 75. 37 334 16 3 24.0 31.0 262.50 265.78 Thompson,G. 37 2, 3, 4, 5 EMISSIONS SPECTROMETRY INSTRUMENTAL NEUTRON ACTIVATION ANALYSES IGNEOUS PLAG-AUGITE-OL SPARSELY PHYRIC BASALT 5.0 -1. 40. 270. 295. 49. 135. 67. 60.0 23.0 55. 40. 4.600 7.90 4.700 1.860 0.640 0.420 0.74 2.45 0.370 37 334 16 3 29.0 31.0 262.50 265.80 Anoshin,G. 37 2, 4 IGNEOUS PLAG-AUGITE-OL SPARSELY PHYRIC BASALT 2.10 37 334 16 3 29.0 31.0 262.50 265.80 Bannich,L. 37 2, 4 IGNEOUS PLAG-AUGITE-OL SPARSELY PHYRIC BASALT 5.0 4.00 37 334 16 3 29.0 31.0 262.50 265.80 Chernogorova,S. 37 2, 4 IGNEOUS PLAG-AUGITE-OL SPARSELY PHYRIC BASALT 5.0 90. 37 334 16 3 29.0 31.0 262.50 265.80 Flower,M. 37 2, 3, 4 XRF IGNEOUS PLAG-AUGITE-OL SPARSELY PHYRIC BASALT 37. 249. 43. 114. 64. 2.70 87.0 22.7 49. 0.64 3. 84. 5.680 9.72 55.000 1.670 0.690 2.640 3.35 0.350 1.70 0.64 0.96 1.040 37 334 16 3 29.0 31.0 262.50 265.80 Savinova,E. 37 2, 4 IGNEOUS PLAG-AUGITE-OL SPARSELY PHYRIC BASALT 0.029 37 334 16 3 31.0 0.0 262.50 265.81 Bannich,L. 37 2, 4 IGNEOUS PLAG-AUGITE-OL SPARSELY PHYRIC BASALT 50. 110. 74. 120. 37 334 16 3 31.0 0.0 262.50 265.81 Chernogorova,S. 37 2, 4 IGNEOUS PLAG-AUGITE-OL SPARSELY PHYRIC BASALT 380. 400. 47. 150. 430. 37 334 16 4 7.0 0.0 262.50 267.07 Bougault,H. 37 2, 3, 4, 5 XRF ATOMIC ABSORPTION IGNEOUS PLAG MOD PHYRIC BASALT 245. 200. 47. 142. 87. 72. 37 334 16 4 7.0 10.0 262.50 267.09 Dostal,J. 37 4 1 INSTRUMENTAL NEUTRON ACTIVATION ANALYSES IGNEOUS PLAG MOD PHYRIC BASALT 38. 148. 51. 3.880 9.25 1.730 0.620 0.470 2.04 0.330 0.99 0.42 37 334 16 4 110.0 0.0 262.50 268.10 Bougault,H. 37 2, 3, 4, 5 7D XRF ATOMIC ABSORPTION IGNEOUS APHYRIC BASALT 245. 200. 47. 86. 86. 67. 37 334 16 4 110.0 113.0 262.50 268.12 Aumento,F. 37 2, 3, 4, 5 7D FISSION TRACK IGNEOUS APHYRIC BASALT 0.160 37 334 16 4 110.0 113.0 262.50 268.12 Gunn,B. 37 2, 3, 4, 5 7D XRF IGNEOUS APHYRIC BASALT 93. 4.00 67.0 64. 37 334 16 5 19.0 21.0 262.50 268.70 Aumento,F. 37 2, 3, 4, 5 2A FISSION TRACK IGNEOUS APHYRIC BASALT 0.280 37 334 16 5 19.0 21.0 262.50 268.70 Gunn,B. 37 2, 3, 4, 5 2A XRF IGNEOUS APHYRIC BASALT 106. 3.00 75.0 37 334 17 1 77.0 80.0 272.00 272.79 Aumento,F. 37 2, 3, 4, 5 8 FISSION TRACK IGNEOUS APHYRIC BASALT 0.500 37 334 17 1 77.0 80.0 272.00 272.79 Gunn,B. 37 2, 3, 4, 5 8 XRF IGNEOUS APHYRIC BASALT 273. 2.00 74.0 69. 37 334 17 1 77.0 80.0 272.00 272.79 Gunn,B. 37 2, 3, 4, 5 8 XRF IGNEOUS APHYRIC BASALT 270. 2.00 74.0 64. 37 334 17 2 140.0 143.0 272.00 274.92 Aumento,F. 37 2, 3, 4, 5 12 FISSION TRACK IGNEOUS APHYRIC BASALT 0.130 37 334 17 2 140.0 143.0 272.00 274.92 Gunn,B. 37 2, 3, 4, 5 12 XRF IGNEOUS APHYRIC BASALT 115. 3.00 67.0 54. 37 334 17 3 3.0 0.0 272.00 275.03 Bougault,H. 37 2, 3, 4, 5 1 XRF ATOMIC ABSORPTION IGNEOUS APHYRIC BASALT 220. 192. 47. 78. 90. 66. 37 334 17 3 3.0 6.0 272.00 275.05 Gunn,B. 37 2, 3, 4, 5 1 XRF IGNEOUS APHYRIC BASALT 103. 3.00 67.0 61. 37 334 17 3 57.0 59.0 272.00 275.58 Anoshin,G. 37 2, 4 IGNEOUS APHYRIC BASALT 8. 3.30 37 334 17 3 57.0 59.0 272.00 275.58 Bannich,L. 37 2, 4 IGNEOUS APHYRIC BASALT 6.0 3.00 37 334 17 3 57.0 59.0 272.00 275.58 Chernogorova,S. 37 2, 4 IGNEOUS APHYRIC BASALT 88.0 120. 37 334 17 3 57.0 59.0 272.00 275.58 Flower,M. 37 2, 3, 4 XRF IGNEOUS APHYRIC BASALT 180. 102. 94. 2.70 77.0 20.6 41. 69. 37 334 17 3 57.0 59.0 272.00 275.58 Savinova,E. 37 2, 4 IGNEOUS APHYRIC BASALT 0.01 37 334 17 3 59.0 0.0 272.00 275.59 Bannich,L. 37 2, 4 IGNEOUS APHYRIC BASALT 70. 100. 80. 100. 37 334 17 3 59.0 0.0 272.00 275.59 Chernogorova,S. 37 2, 4 IGNEOUS APHYRIC BASALT 320. 225. 32. 120. 130. 37 334 17 3 95.0 98.0 272.00 275.97 Aumento,F. 37 2, 3, 4, 5 8 FISSION TRACK IGNEOUS APHYRIC BASALT 0.160 37 334 17 3 95.0 98.0 272.00 275.97 Gunn,B. 37 2, 3, 4, 5 8 XRF IGNEOUS APHYRIC BASALT 226. 2.00 76.0 66. 37 334 17 3 95.0 98.0 272.00 275.97 Gunn,B. 37 2, 3, 4, 5 8 XRF IGNEOUS APHYRIC BASALT 222. 2.00 75.0 75. 37 334 18 1 20.0 23.0 281.50 281.72 Aumento,F. 37 2, 3, 4, 5 2 FISSION TRACK IGNEOUS APHYRIC BASALT 0.140 37 334 18 1 20.0 23.0 281.50 281.72 Gunn,B. 37 2, 3, 4, 5 2 XRF IGNEOUS APHYRIC BASALT 103. 3.00 65.0 37 334 18 2 31.0 33.0 281.50 283.32 Flower,M. 37 2, 3, 4 XRF IGNEOUS APHYRIC BASALT 102. 104. 2.10 73.0 20.8 42. 49. 37 334 19 1 6.0 9.0 291.00 291.08 Aumento,F. 37 2, 3, 4, 5 1 FISSION TRACK IGNEOUS APHYRIC BASALT 0.120 37 334 19 1 6.0 9.0 291.00 291.08 Gunn,B. 37 2, 3, 4, 5 1 XRF IGNEOUS APHYRIC BASALT 99. 3.00 69.0 69. 37 334 19 2 6.0 0.0 291.00 292.56 Schilling,J.-G. 37 2, 4, 5 INSTRUMENTAL NEUTRON ACTIVATION ANALYSES IGNEOUS APHYRIC BASALT 42. 155. 46. 5.100 11.00 6.800 3.000 0.710 0.540 0.48 2.40 0.340 37 334 19 2 17.0 19.0 291.00 292.68 Thompson,G. 37 2, 3, 4, 5 EMISSIONS SPECTROMETRY INSTRUMENTAL NEUTRON ACTIVATION ANALYSES IGNEOUS APHYRIC BASALT 6.0 -1. 250. 180. 55. 100. 90. 50.0 21.0 45. 16. 37 334 19 2 47.0 49.0 291.00 292.98 Aumento,F. 37 2, 3, 4, 5 5 FISSION TRACK IGNEOUS APHYRIC BASALT 0.190 37 334 19 2 47.0 49.0 291.00 292.98 Gunn,B. 37 2, 3, 4, 5 5 XRF IGNEOUS APHYRIC BASALT 115. 3.00 72.0 37 334 19 2 95.0 101.0 291.00 293.48 Anoshin,G. 37 2, 4 IGNEOUS APHYRIC BASALT 8. 7.70 37 334 19 2 95.0 101.0 291.00 293.48 Bannich,L. 37 2, 4 IGNEOUS APHYRIC BASALT 7.0 4.00 37 334 19 2 95.0 101.0 291.00 293.48 Chernogorova,S. 37 2, 4 IGNEOUS APHYRIC BASALT 88.0 60. 37 334 19 2 95.0 101.0 291.00 293.48 Savinova,E. 37 2, 4 IGNEOUS APHYRIC BASALT 0.024 37 334 19 2 101.0 0.0 291.00 293.51 Bannich,L. 37 2, 4 IGNEOUS APHYRIC BASALT 70. 170. 80. 75. 37 334 19 2 101.0 0.0 291.00 293.51 Chernogorova,S. 37 2, 4 IGNEOUS APHYRIC BASALT 330. 220. 32. 125. 250. 37 334 19 2 102.0 111.0 291.00 293.57 Dostal,J. 37 4 INSTRUMENTAL NEUTRON ACTIVATION ANALYSES IGNEOUS APHYRIC BASALT 39. 142. 52. 3.760 8.85 1.840 0.650 0.470 2.15 0.350 1.10 0.43 37 334 19 3 19.0 29.0 291.00 294.24 Anoshin,G. 37 2, 4 IGNEOUS APHYRIC BASALT 3.37 37 334 19 3 19.0 29.0 291.00 294.24 Bannich,L. 37 2, 4 IGNEOUS APHYRIC BASALT 10.0 4.00 37 334 19 3 19.0 29.0 291.00 294.24 Chernogorova,S. 37 2, 4 IGNEOUS APHYRIC BASALT 80.0 60. 37 334 19 3 19.0 29.0 291.00 294.24 Savinova,E. 37 2, 4 IGNEOUS APHYRIC BASALT 0.020 37 334 19 3 29.0 0.0 291.00 294.29 Bannich,L. 37 2, 4 IGNEOUS APHYRIC BASALT 70. 150. 84. 75. 37 334 19 3 29.0 0.0 291.00 294.29 Chernogorova,S. 37 2, 4 IGNEOUS APHYRIC BASALT 320. 175. 32. 100. 140. 37 334 19 3 93.0 95.0 291.00 294.94 Aumento,F. 37 2, 3, 4, 5 11 FISSION TRACK IGNEOUS APHYRIC BASALT 0.130 37 334 19 3 99.0 105.0 291.00 295.02 Gunn,B. 37 2, 3, 4, 5 XRF IGNEOUS APHYRIC BASALT 92. 4.00 70.0 82. 37 334 19 3 99.0 105.0 291.00 295.02 Lambert,R. 37 2, 3, 4, 5 XRF IGNEOUS APHYRIC BASALT 56. 105. 75. 88. 3.00 77.0 23.0 36. 7. 60. 37 334 19 3 99.0 105.0 291.00 295.02 Muysson,J. 37 2, 3, 4 ATOMIC ABSORPTION IGNEOUS APHYRIC BASALT 5.6 210. 6.40 85.0 -.001 99. 0.02 -1. 2.20 0.044 0.170 37 334 19 3 99.0 105.0 291.00 295.02 Strong,D.F. 37 2, 3, 4, 5 ATOMIC ABSORPTION IGNEOUS APHYRIC BASALT 198. 90. 71. 73. 6.00 69.0 39. 9. 112. 37 334 20 1 98.0 100.0 300.50 301.49 Gunn,B. 37 2, 3, 4, 5 10C XRF IGNEOUS APHYRIC BASALT 94. 4.00 69.0 80. 37 334 20 1 121.0 123.0 300.50 301.72 Anoshin,G. 37 2, 4 IGNEOUS APHYRIC BASALT 9. 2.40 37 334 20 1 121.0 123.0 300.50 301.72 Bannich,L. 37 2, 4 IGNEOUS APHYRIC BASALT 15.0 8.00 37 334 20 1 121.0 123.0 300.50 301.72 Chernogorova,S. 37 2, 4 IGNEOUS APHYRIC BASALT 84.0 57. 37 334 20 1 121.0 123.0 300.50 301.72 Savinova,E. 37 2, 4 IGNEOUS APHYRIC BASALT 0.022 37 334 20 1 123.0 0.0 300.50 301.73 Bannich,L. 37 2, 4 IGNEOUS APHYRIC BASALT 70. 170. 84. 90. 37 334 20 1 123.0 0.0 300.50 301.73 Chernogorova,S. 37 2, 4 IGNEOUS APHYRIC BASALT 330. 195. 32. 120. 140. 37 334 20 2 16.0 0.0 300.50 302.16 Bougault,H. 37 2, 3, 4, 5 1A XRF ATOMIC ABSORPTION IGNEOUS APHYRIC BASALT 245. 180. 46. 89. 87. 76. 37 334 20 2 16.0 18.0 300.50 302.17 Dostal,J. 37 4 1A INSTRUMENTAL NEUTRON ACTIVATION ANALYSES IGNEOUS APHYRIC BASALT 39. 136. 46. 3.410 8.69 1.640 0.600 0.465 1.92 0.300 0.98 0.41 37 334 20 2 23.0 25.0 300.50 302.24 Flower,M. 37 2, 3, 4 XRF IGNEOUS APHYRIC BASALT 155. 97. 89. 76.0 19.8 41. 59. 37 334 20 2 26.0 28.0 300.50 302.27 Lambert,R. 37 2, 3, 4, 5 XRF IGNEOUS APHYRIC BASALT 49. 137. 98. 77. 4.00 83.0 23.0 35. 9. 43. 37 334 20 2 26.0 28.0 300.50 302.27 Muysson,J. 37 2, 3, 4 ATOMIC ABSORPTION IGNEOUS APHYRIC BASALT 14.0 220. 5.50 85.0 -.001 72. 0.03 -1. 0.92 0.017 0.190 37 334 20 2 26.0 28.0 300.50 302.27 Strong,D.F. 37 2, 3, 4, 5 ATOMIC ABSORPTION IGNEOUS APHYRIC BASALT 166. 114. 93. 68. 2.00 72.0 37. 10. 89. 37 334 20 2 32.0 34.0 300.50 302.33 Anoshin,G. 37 2, 4 IGNEOUS APHYRIC BASALT 8. 2.59 37 334 20 2 32.0 34.0 300.50 302.33 Bannich,L. 37 2, 4 IGNEOUS APHYRIC BASALT 11.0 12.70 37 334 20 2 32.0 34.0 300.50 302.33 Chernogorova,S. 37 2, 4 IGNEOUS APHYRIC BASALT 88.0 60. 37 334 20 2 32.0 34.0 300.50 302.33 Savinova,E. 37 2, 4 IGNEOUS APHYRIC BASALT 0.026 37 334 20 2 34.0 0.0 300.50 302.34 Bannich,L. 37 2, 4 IGNEOUS APHYRIC BASALT 50. 100. 84. 100. 37 334 20 2 34.0 0.0 300.50 302.34 Chernogorova,S. 37 2, 4 IGNEOUS APHYRIC BASALT 320. 185. 93. 140. 37 334 20 2 38.0 40.0 300.50 302.39 Gunn,B. 37 2, 3, 4, 5 1C XRF IGNEOUS APHYRIC BASALT 88. 5.00 72.0 64. 37 334 20 2 140.0 145.0 300.50 303.43 Dostal,J. 37 4 INSTRUMENTAL NEUTRON ACTIVATION ANALYSES IGNEOUS APHYRIC BASALT 39. 409. 46. 2.250 6.69 1.540 0.540 0.470 2.29 0.360 0.88 0.24 37 334 21 1 0.0 10.0 310.00 310.05 Anoshin,G. 37 2, 4 IGNEOUS APHYRIC BASALT 3.30 37 334 21 1 0.0 10.0 310.00 310.05 Bannich,L. 37 2, 4 IGNEOUS APHYRIC BASALT 13.0 3.80 37 334 21 1 0.0 10.0 310.00 310.05 Chernogorova,S. 37 2, 4 IGNEOUS APHYRIC BASALT 5.0 20. 37 334 21 1 0.0 10.0 310.00 310.05 Savinova,E. 37 2, 4 IGNEOUS APHYRIC BASALT 0.01 37 334 21 1 10.0 0.0 310.00 310.10 Bannich,L. 37 2, 4 IGNEOUS APHYRIC BASALT 50. 100. 80. 75. 37 334 21 1 36.0 47.0 310.00 310.42 Thompson,G. 37 2, 3, 4, 5 EMISSIONS SPECTROMETRY INSTRUMENTAL NEUTRON ACTIVATION ANALYSES IGNEOUS GABBRO 70.0 70. 36. 100. 570. 45. 230. 73. 26.0 -1.0 -1. -1. -1.00 -1.000 0.170 0.170 0.060 0.22 0.57 0.110 37 334 21 1 36.0 47.0 310.00 310.42 Thompson,G. 37 2, 3, 4, 5 EMISSIONS SPECTROMETRY INSTRUMENTAL NEUTRON ACTIVATION ANALYSES IGNEOUS GABBRO 4.0 -1. 100. 600. 65. 210. 80. 30.0 11.0 -1. -1. 37 334 21 1 47.0 0.0 310.00 310.47 Bougault,H. 37 2, 3, 4, 5 XRF ATOMIC ABSORPTION IGNEOUS GABBRO 135. 700. 38. 202. 83. 34. 37 334 21 1 47.0 49.0 310.00 310.48 Dostal,J. 37 4 5 INSTRUMENTAL NEUTRON ACTIVATION ANALYSES IGNEOUS GABBRO 31. 542. 39. 0.180 0.470 0.190 0.135 0.370 0.080 0.52 0.083 -1.0 -1.00 37 334 22 1 26.0 33.0 319.50 319.80 Anoshin,G. 37 2, 4 IGNEOUS GABBRO 8. 2.10 37 334 22 1 26.0 33.0 319.50 319.80 Bannich,L. 37 2, 4 IGNEOUS GABBRO 4.00 37 334 22 1 26.0 33.0 319.50 319.80 Chernogorova,S. 37 2, 4 IGNEOUS GABBRO 60.0 34. 37 334 22 1 26.0 33.0 319.50 319.80 Savinova,E. 37 2, 4 IGNEOUS GABBRO 0.0046 37 334 22 1 33.0 0.0 319.50 319.83 Bannich,L. 37 2, 4 IGNEOUS GABBRO 70. 220. 130. 75. 37 334 22 1 33.0 0.0 319.50 319.83 Chernogorova,S. 37 2, 4 IGNEOUS GABBRO 250. 300. 150. 80. 37 334 22 1 52.0 57.0 319.50 320.05 Anoshin,G. 37 2, 4 IGNEOUS GABBRO 8. 5.40 37 334 22 1 52.0 57.0 319.50 320.05 Bannich,L. 37 2, 4 IGNEOUS GABBRO 6.0 3.00 37 334 22 1 52.0 57.0 319.50 320.05 Chernogorova,S. 37 2, 4 IGNEOUS GABBRO 26.0 30. 37 334 22 1 52.0 57.0 319.50 320.05 Savinova,E. 37 2, 4 IGNEOUS GABBRO 0.0046 37 334 22 1 57.0 0.0 319.50 320.07 Bannich,L. 37 2, 4 IGNEOUS GABBRO 55. 240. 90. 70. 37 334 22 1 57.0 0.0 319.50 320.07 Chernogorova,S. 37 2, 4 IGNEOUS GABBRO 250. 1000. 250. 160. 37 334 22 2 14.0 21.0 319.50 321.18 Anoshin,G. 37 2, 4 IGNEOUS GABBRO 8. 9.60 37 334 22 2 14.0 21.0 319.50 321.18 Bannich,L. 37 2, 4 IGNEOUS GABBRO 6.0 3.00 37 334 22 2 14.0 21.0 319.50 321.18 Chernogorova,S. 37 2, 4 IGNEOUS GABBRO 5.0 20. 37 334 22 2 14.0 21.0 319.50 321.18 Flower,M. 37 2, 3, 4 XRF IGNEOUS GABBRO 10. 5701. 101. 2061. 33. 1.40 2.7 1.4 4. 0.16 0. 6. 0.047 1.87 13.000 0.032 0.028 0.059 1.01 0.018 0.16 0.19 0.230 37 334 22 2 14.0 21.0 319.50 321.18 Savinova,E. 37 2, 4 IGNEOUS GABBRO 0.01 37 334 22 2 21.0 0.0 319.50 321.21 Bannich,L. 37 2, 4 IGNEOUS GABBRO 80. 1400. 77. 50. 37 334 22 2 21.0 0.0 319.50 321.21 Chernogorova,S. 37 2, 4 IGNEOUS GABBRO 130. 1000. 1000. 140. 37 334 22 2 34.0 35.0 319.50 321.35 Thompson,G. 37 2, 3, 4, 5 EMISSIONS SPECTROMETRY INSTRUMENTAL NEUTRON ACTIVATION ANALYSES IGNEOUS GABBRO 7.0 28. 16. -1. 2500. 135. 2000. 35. -1.0 15.0 -1. -1. 0.070 -1.00 -1.000 0.050 0.050 -1.000 0.07 0.30 37 334 22 2 61.0 0.0 319.50 321.61 Bougault,H. 37 2, 3, 4, 5 XRF ATOMIC ABSORPTION IGNEOUS SERPENTINIZED PERIDOTITE 35. 4474. 80. 1340. 46. 36. 37 334 22 2 61.0 63.0 319.50 321.62 Dostal,J. 37 4 INSTRUMENTAL NEUTRON ACTIVATION ANALYSES IGNEOUS SERPENTINIZED PERIDOTITE 14. 4360. 106. 0.058 0.029 0.024 0.073 0.015 0.15 0.026 -1.0 -1.00 37 334 22 2 70.0 75.0 319.50 321.72 Flower,M. 37 2, 3, 4 XRF IGNEOUS SERPENTINIZED PERIDOTITE 10. 5252. 89. 2279. 34. 2.7 3.8 6. 0.11 0. 0.170 4.15 25.000 0.023 0.039 0.039 1.01 0.037 0.19 0.12 0.210 37 334 22 2 77.0 79.0 319.50 321.78 Anoshin,G. 37 2, 4 IGNEOUS SERPENTINIZED PERIDOTITE 8. 6.20 37 334 22 2 77.0 79.0 319.50 321.78 Bannich,L. 37 2, 4 IGNEOUS SERPENTINIZED PERIDOTITE 5.5 2.00 37 334 22 2 77.0 79.0 319.50 321.78 Chernogorova,S. 37 2, 4 IGNEOUS SERPENTINIZED PERIDOTITE 5.0 20. 37 334 22 2 77.0 79.0 319.50 321.78 Savinova,E. 37 2, 4 IGNEOUS SERPENTINIZED PERIDOTITE 0.01 37 334 22 2 79.0 0.0 319.50 321.79 Bannich,L. 37 2, 4 IGNEOUS SERPENTINIZED PERIDOTITE 100. 1770. 78. 60. 37 334 22 2 79.0 0.0 319.50 321.79 Chernogorova,S. 37 2, 4 IGNEOUS SERPENTINIZED PERIDOTITE 140. 1000. 1000. 90. 37 334 22 2 80.0 82.0 319.50 321.81 Aumento,F. 37 2, 3, 4, 5 FISSION TRACK IGNEOUS SERPENTINIZED PERIDOTITE 62.000 0.55 39. 10.00 0.130 37 334 22 2 80.0 82.0 319.50 321.81 Gunn,B. 37 2, 3, 4, 5 XRF IGNEOUS SERPENTINIZED PERIDOTITE 1992. 1.00 2.0 33. 37 334 22 2 80.0 82.0 319.50 321.81 Strong,D.F. 37 2, 3, 4, 5 ATOMIC ABSORPTION IGNEOUS SERPENTINIZED PERIDOTITE 3759. 1704. 48. 61. 5.00 14.0 13. 0. 8. 37 334 22 2 110.0 120.0 319.50 322.15 Anoshin,G. 37 2, 4 IGNEOUS SERPENTINIZED PERIDOTITE 8. 3.70 37 334 22 2 110.0 120.0 319.50 322.15 Bannich,L. 37 2, 4 IGNEOUS SERPENTINIZED PERIDOTITE 6.0 4.00 37 334 22 2 110.0 120.0 319.50 322.15 Chernogorova,S. 37 2, 4 IGNEOUS SERPENTINIZED PERIDOTITE 34.0 21. 37 334 22 2 110.0 120.0 319.50 322.15 Savinova,E. 37 2, 4 IGNEOUS SERPENTINIZED PERIDOTITE 0.0046 37 334 22 2 120.0 0.0 319.50 322.20 Bannich,L. 37 2, 4 IGNEOUS GABBRO 85. 120. 74. 90. 37 334 22 2 120.0 0.0 319.50 322.20 Chernogorova,S. 37 2, 4 IGNEOUS GABBRO 245. 860. 200. 240. 37 334 23 1 8.0 22.0 329.00 329.15 Anoshin,G. 37 2, 4 IGNEOUS GABBRO 3.90 37 334 23 1 8.0 22.0 329.00 329.15 Bannich,L. 37 2, 4 IGNEOUS GABBRO 3.0 4.00 37 334 23 1 8.0 22.0 329.00 329.15 Chernogorova,S. 37 2, 4 IGNEOUS GABBRO 32.0 26. 37 334 23 1 8.0 22.0 329.00 329.15 Savinova,E. 37 2, 4 IGNEOUS GABBRO 0.0060 37 334 23 1 22.0 0.0 329.00 329.22 Bannich,L. 37 2, 4 IGNEOUS GABBRO 90. 220. 50. 70. 37 334 23 1 22.0 0.0 329.00 329.22 Chernogorova,S. 37 2, 4 IGNEOUS GABBRO 245. 480. 290. 70. 37 334 23 1 30.0 35.0 329.00 329.33 Anoshin,G. 37 2, 4 IGNEOUS GABBRO 8. 6.00 37 334 23 1 30.0 35.0 329.00 329.33 Bannich,L. 37 2, 4 IGNEOUS GABBRO 6.0 2.00 37 334 23 1 30.0 35.0 329.00 329.33 Chernogorova,S. 37 2, 4 IGNEOUS GABBRO 5.0 16. 37 334 23 1 30.0 35.0 329.00 329.33 Savinova,E. 37 2, 4 IGNEOUS GABBRO 0.01 37 334 23 1 35.0 0.0 329.00 329.35 Bannich,L. 37 2, 4 IGNEOUS GABBRO 100. 1720. 30. 50. 37 334 23 1 35.0 0.0 329.00 329.35 Chernogorova,S. 37 2, 4 IGNEOUS GABBRO 135. 1000. 1000. 34. 37 334 23 1 78.0 82.0 329.00 329.80 Aumento,F. 37 2, 3, 4, 5 FISSION TRACK IGNEOUS GABBRO 0.120 37 334 23 1 83.0 85.0 329.00 329.84 Anoshin,G. 37 2, 4 IGNEOUS GABBRO 8. 4.70 37 334 23 1 83.0 85.0 329.00 329.84 Bannich,L. 37 2, 4 IGNEOUS GABBRO 5.0 2.00 37 334 23 1 83.0 85.0 329.00 329.84 Chernogorova,S. 37 2, 4 IGNEOUS GABBRO 14.0 22. 37 334 23 1 83.0 85.0 329.00 329.84 Savinova,E. 37 2, 4 IGNEOUS GABBRO 0.0046 37 334 23 1 85.0 0.0 329.00 329.85 Bannich,L. 37 2, 4 IGNEOUS GABBRO 35. 210. 80. 20. 37 334 23 1 85.0 0.0 329.00 329.85 Chernogorova,S. 37 2, 4 IGNEOUS GABBRO 220. 1000. 210. 105. 37 334 23 1 127.0 0.0 329.00 330.27 Bougault,H. 37 2, 3, 4, 5 13 XRF ATOMIC ABSORPTION IGNEOUS GABBRO 160. 415. 40. 158. 40. 47. 37 334 23 1 127.0 129.0 329.00 330.28 Aumento,F. 37 2, 3, 4, 5 13 FISSION TRACK IGNEOUS GABBRO 0.015 37 334 23 1 127.0 129.0 329.00 330.28 Dostal,J. 37 4 13 INSTRUMENTAL NEUTRON ACTIVATION ANALYSES IGNEOUS GABBRO 33. 309. 45. 0.230 0.600 0.230 0.170 0.450 0.100 0.68 0.100 -1.0 -1.00 37 334 23 1 127.0 129.0 329.00 330.28 Gunn,B. 37 2, 3, 4, 5 13 XRF IGNEOUS GABBRO 1.00 30.0 43. 37 334 23 1 127.0 129.0 329.00 330.28 Aumento,F. 37 2, 3, 4, 5 13 FISSION TRACK IGNEOUS GABBRO 0.015 37 334 23 1 127.0 129.0 329.00 330.28 Gunn,B. 37 2, 3, 4, 5 13 XRF IGNEOUS GABBRO 156. 2.00 30.0 47. 37 334 23 1 134.0 143.0 329.00 330.39 Flower,M. 37 2, 3, 4 XRF IGNEOUS GABBRO 299. 173. 100. 0.30 36.0 6.0 8. 16. 37 334 23 1 139.0 143.0 329.00 330.41 Savinova,E. 37 2, 4 IGNEOUS GABBRO 0.0046 37 334 23 1 143.0 0.0 329.00 330.43 Bannich,L. 37 2, 4 IGNEOUS GABBRO 100. 260. 110. 50. 37 334 23 1 143.0 0.0 329.00 330.43 Chernogorova,S. 37 2, 4 IGNEOUS GABBRO 240. 760. 200. 250. 37 334 23 2 52.0 62.0 329.00 331.07 Anoshin,G. 37 2, 4 IGNEOUS GABBRO 8. 7.10 37 334 23 2 52.0 62.0 329.00 331.07 Bannich,L. 37 2, 4 IGNEOUS GABBRO 11.0 7.00 37 334 23 2 52.0 62.0 329.00 331.07 Chernogorova,S. 37 2, 4 IGNEOUS GABBRO 5.0 17. 37 334 23 2 52.0 62.0 329.00 331.07 Savinova,E. 37 2, 4 IGNEOUS GABBRO 0.0086 37 334 23 2 62.0 0.0 329.00 331.12 Bannich,L. 37 2, 4 IGNEOUS GABBRO 130. 1670. 40. 50. 37 334 23 2 62.0 0.0 329.00 331.12 Chernogorova,S. 37 2, 4 IGNEOUS GABBRO 150. 1000. 1000. 50. 37 334 23 2 78.0 82.0 329.00 331.30 Aumento,F. 37 2, 3, 4, 5 FISSION TRACK IGNEOUS GABBRO 19.000 0.72 31. 4.40 0.022 37 334 23 2 78.0 82.0 329.00 331.30 Gunn,B. 37 2, 3, 4, 5 XRF IGNEOUS GABBRO 1649. 1.00 5.0 79. 37 334 23 2 78.0 82.0 329.00 331.30 Lambert,R. 37 2, 3, 4, 5 XRF IGNEOUS GABBRO 117. 2080. 17. 54. 3.00 6.0 2.0 1. 5. 35. 37 334 23 2 78.0 82.0 329.00 331.30 Strong,D.F. 37 2, 3, 4, 5 ATOMIC ABSORPTION IGNEOUS GABBRO 3446. 1426. 21. 59. 3.00 15.0 12. 0. 69. 37 334 24 1 40.0 0.0 338.50 338.90 Dostal,J. 37 4 INSTRUMENTAL NEUTRON ACTIVATION ANALYSES IGNEOUS GABBRO 0.160 0.41 0.450 0.180 0.120 0.310 0.067 0.43 0.068 37 334 24 1 110.0 117.0 338.50 339.64 Anoshin,G. 37 2, 4 IGNEOUS GABBRO 8. 3.80 37 334 24 1 110.0 117.0 338.50 339.64 Bannich,L. 37 2, 4 IGNEOUS GABBRO 24.0 3.00 37 334 24 1 110.0 117.0 338.50 339.64 Chernogorova,S. 37 2, 4 IGNEOUS GABBRO 6.0 17. 37 334 24 1 110.0 117.0 338.50 339.64 Savinova,E. 37 2, 4 IGNEOUS GABBRO 0.01 37 334 24 1 117.0 0.0 338.50 339.67 Bannich,L. 37 2, 4 IGNEOUS GABBRO 60. 360. 110. 150. 37 334 24 1 117.0 0.0 338.50 339.67 Chernogorova,S. 37 2, 4 IGNEOUS GABBRO 150. 1000. 370. 165. 37 334 24 3 72.0 79.0 338.50 342.26 Anoshin,G. 37 2, 4 IGNEOUS GABBRO 8. 9.10 37 334 24 3 72.0 79.0 338.50 342.26 Bannich,L. 37 2, 4 IGNEOUS GABBRO 19.0 3.60 37 334 24 3 72.0 79.0 338.50 342.26 Chernogorova,S. 37 2, 4 IGNEOUS GABBRO 10.0 17. 37 334 24 3 79.0 0.0 338.50 342.29 Bannich,L. 37 2, 4 IGNEOUS GABBRO 50. 400. 120. 40. 37 334 24 3 79.0 0.0 338.50 342.29 Chernogorova,S. 37 2, 4 IGNEOUS GABBRO 150. 1000. 370. 210. 37 334 24 3 112.0 0.0 338.50 342.62 Bougault,H. 37 2, 3, 4, 5 XRF ATOMIC ABSORPTION IGNEOUS GABBRO 110. 1800. 38. 475. 79. 26. 37 334 24 3 112.0 114.0 338.50 342.63 Aumento,F. 37 2, 3, 4, 5 10 FISSION TRACK IGNEOUS GABBRO 0.004 37 334 24 3 112.0 114.0 338.50 342.63 Dostal,J. 37 4 INSTRUMENTAL NEUTRON ACTIVATION ANALYSES IGNEOUS GABBRO 29. 1560. 49. 0.095 0.25 0.280 0.110 0.068 0.230 0.052 0.34 0.053 -1.0 -1.00 37 334 24 3 112.0 114.0 338.50 342.63 Gunn,B. 37 2, 3, 4, 5 XRF IGNEOUS GABBRO 447. 0.00 13.0 63. 37 334 24 3 112.0 114.0 338.50 342.63 Aumento,F. 37 2, 3, 4, 5 10 FISSION TRACK IGNEOUS GABBRO 0.012 37 334 24 3 112.0 114.0 338.50 342.63 Gunn,B. 37 2, 3, 4, 5 XRF IGNEOUS GABBRO 465. 1.00 10.0 44. 37 334 24 3 136.0 0.0 338.50 342.86 Lambert,R. 37 2, 3, 4, 5 XRF IGNEOUS GABBRO 1260. 43. 43. 37 334 24 4 81.0 83.0 338.50 343.82 Anoshin,G. 37 2, 4 IGNEOUS OL GABBRO 15. 8.40 37 334 24 4 81.0 83.0 338.50 343.82 Bannich,L. 37 2, 4 IGNEOUS OL GABBRO 6.0 3.00 37 334 24 4 81.0 83.0 338.50 343.82 Savinova,E. 37 2, 4 IGNEOUS OL GABBRO 0.0046 37 334 24 4 81.0 83.0 338.50 343.82 Bannich,L. 37 2, 4 IGNEOUS OL GABBRO 5.0 26. 37 334 24 4 83.0 0.0 338.50 343.83 Bannich,L. 37 2, 4 IGNEOUS GABBRO 80. 900. 77. 60. 37 334 24 4 83.0 0.0 338.50 343.83 Chernogorova,S. 37 2, 4 IGNEOUS GABBRO 150. 1000. 620. 90. 37 334 24 4 95.0 0.0 338.50 343.95 Bougault,H. 37 2, 3, 4, 5 XRF ATOMIC ABSORPTION IGNEOUS GABBRO 80. 1900. 49. 755. 102. 28. 37 334 24 4 95.0 0.0 338.50 343.95 Dostal,J. 37 4 INSTRUMENTAL NEUTRON ACTIVATION ANALYSES IGNEOUS GABBRO 0.038 0.12 0.170 0.099 0.070 0.200 0.045 0.30 0.048 37 334 24 4 95.0 97.0 338.50 343.96 Aumento,F. 37 2, 3, 4, 5 10 FISSION TRACK IGNEOUS GABBRO 0.022 37 334 24 4 95.0 97.0 338.50 343.96 Gunn,B. 37 2, 3, 4, 5 10 XRF IGNEOUS GABBRO 627. 1.00 14.0 37 334 24 4 111.0 113.0 338.50 344.12 Flower,M. 37 2, 3, 4 XRF IGNEOUS OL GABBRO 1164. 277. 80. 23.0 4.6 6. 19. 37 334 25 1 52.0 58.0 348.00 348.55 Anoshin,G. 37 2, 4 IGNEOUS OL GABBRO 8. 6.30 37 334 25 1 52.0 58.0 348.00 348.55 Bannich,L. 37 2, 4 IGNEOUS OL GABBRO 4.0 2.00 37 334 25 1 52.0 58.0 348.00 348.55 Chernogorova,S. 37 2, 4 IGNEOUS OL GABBRO 5.0 15. 37 334 25 1 52.0 58.0 348.00 348.55 Savinova,E. 37 2, 4 IGNEOUS OL GABBRO 0.0046 37 334 25 1 58.0 0.0 348.00 348.58 Bannich,L. 37 2, 4 IGNEOUS GABBRO 100. 2100. 50. 50. 37 334 25 1 58.0 0.0 348.00 348.58 Chernogorova,S. 37 2, 4 IGNEOUS GABBRO 120. 1000. 1000. 50. 37 334 26 1 20.0 0.0 357.50 357.70 Bougault,H. 37 2, 3, 4, 5 3 XRF ATOMIC ABSORPTION IGNEOUS GABBRO 35. 6170. 58. 1856. 16. 32. 37 334 26 1 20.0 0.0 357.50 357.70 Dostal,J. 37 4 3 INSTRUMENTAL NEUTRON ACTIVATION ANALYSES IGNEOUS GABBRO 0.030 0.097 0.040 0.021 0.060 0.015 0.13 0.023 37 334 26 1 20.0 22.0 357.50 357.71 Aumento,F. 37 2, 3, 4, 5 3 FISSION TRACK IGNEOUS GABBRO 0.074 37 334 26 1 20.0 22.0 357.50 357.71 Gunn,B. 37 2, 3, 4, 5 3 XRF IGNEOUS GABBRO 1829. 1.00 4.0 47. 37 334 26 1 118.0 125.0 357.50 358.72 Anoshin,G. 37 2, 4 IGNEOUS GABBRO 8. 2.60 37 334 26 1 118.0 125.0 357.50 358.72 Bannich,L. 37 2, 4 IGNEOUS GABBRO 9.0 4.00 37 334 26 1 118.0 125.0 357.50 358.72 Chernogorova,S. 37 2, 4 IGNEOUS GABBRO 7.0 18. 37 334 26 1 118.0 125.0 357.50 358.72 Savinova,E. 37 2, 4 IGNEOUS GABBRO 0.0046 37 334 26 1 125.0 0.0 357.50 358.75 Bannich,L. 37 2, 4 IGNEOUS GABBRO 100. 870. 170. 40. 37 334 26 1 125.0 0.0 357.50 358.75 Chernogorova,S. 37 2, 4 IGNEOUS GABBRO 165. 1000. 760. 270. 37 334 26 2 5.0 0.0 357.50 359.05 Dostal,J. 37 4 INSTRUMENTAL NEUTRON ACTIVATION ANALYSES IGNEOUS GABBRO 0.087 0.30 0.280 0.110 0.084 0.190 0.041 0.28 0.047 37 334 26 2 59.0 64.0 357.50 359.62 Aumento,F. 37 2, 3, 4, 5 FISSION TRACK IGNEOUS GABBRO 49.000 0.46 -1. 34.00 0.031 37 334 26 2 59.0 64.0 357.50 359.62 Gunn,B. 37 2, 3, 4, 5 XRF IGNEOUS GABBRO 779. 1.00 13.0 58. 37 334 26 2 59.0 64.0 357.50 359.62 Gunn,B. 37 2, 3, 4, 5 XRF IGNEOUS GABBRO 782. 1.00 13.0 60. 37 334 26 2 64.0 67.0 357.50 359.66 Anoshin,G. 37 2, 4 IGNEOUS GABBRO 8. 2.20 37 334 26 2 64.0 67.0 357.50 359.66 Bannich,L. 37 2, 4 IGNEOUS GABBRO 11.0 3.00 37 334 26 2 64.0 67.0 357.50 359.66 Chernogorova,S. 37 2, 4 IGNEOUS GABBRO 9.0 21. 37 334 26 2 64.0 67.0 357.50 359.66 Savinova,E. 37 2, 4 IGNEOUS GABBRO 0.01 37 334 26 2 67.0 0.0 357.50 359.67 Bannich,L. 37 2, 4 IGNEOUS GABBRO 60. 740. 130. 50. 37 334 26 2 67.0 0.0 357.50 359.67 Chernogorova,S. 37 2, 4 IGNEOUS GABBRO 140. 1000. 600. 210. 37 334 26 2 93.0 103.0 357.50 359.98 Anoshin,G. 37 2, 4 IGNEOUS GABBRO 8. 2.10 37 334 26 2 93.0 103.0 357.50 359.98 Bannich,L. 37 2, 4 IGNEOUS GABBRO 5.0 2.20 37 334 26 2 93.0 103.0 357.50 359.98 Chernogorova,S. 37 2, 4 IGNEOUS GABBRO 8.0 22. 37 334 26 2 93.0 103.0 357.50 359.98 Savinova,E. 37 2, 4 IGNEOUS GABBRO 0.0046 37 334 26 2 103.0 0.0 357.50 360.03 Bannich,L. 37 2, 4 IGNEOUS GABBRO 65. 680. 120. 40. 37 334 26 2 103.0 0.0 357.50 360.03 Chernogorova,S. 37 2, 4 IGNEOUS GABBRO 135. 1000. 600. 230. 37 334 27 1 3.0 12.0 367.00 367.08 Anoshin,G. 37 2, 4 IGNEOUS GABBRO 8. 2.40 37 334 27 1 3.0 12.0 367.00 367.08 Bannich,L. 37 2, 4 IGNEOUS GABBRO 4.0 2.00 37 334 27 1 3.0 12.0 367.00 367.08 Chernogorova,S. 37 2, 4 IGNEOUS GABBRO 5.0 17. 37 334 27 1 3.0 12.0 367.00 367.08 Savinova,E. 37 2, 4 IGNEOUS GABBRO 0.0046 37 334 27 1 12.0 0.0 367.00 367.12 Bannich,L. 37 2, 4 IGNEOUS GABBRO 100. 1860. 70. 50. 37 334 27 1 12.0 0.0 367.00 367.12 Chernogorova,S. 37 2, 4 IGNEOUS GABBRO 125. 1000. 1000. 12. 37 334 27 1 38.0 50.0 367.00 367.44 Anoshin,G. 37 2, 4 IGNEOUS GABBRO 18. 5.20 37 334 27 1 38.0 50.0 367.00 367.44 Bannich,L. 37 2, 4 IGNEOUS GABBRO 6.0 2.30 37 334 27 1 38.0 50.0 367.00 367.44 Chernogorova,S. 37 2, 4 IGNEOUS GABBRO 6.0 22. 37 334 27 1 38.0 50.0 367.00 367.44 Savinova,E. 37 2, 4 IGNEOUS GABBRO 0.0046 37 334 27 1 38.0 50.0 367.00 367.44 Thompson,G. 37 2, 3, 4, 5 EMISSIONS SPECTROMETRY INSTRUMENTAL NEUTRON ACTIVATION ANALYSES IGNEOUS GABBRO 8.0 27. 28. 40. 1600. 108. 1400. 200. 6.0 13.0 -1. -1. 0.090 0.047 0.07 0.23 0.050 37 334 27 1 50.0 0.0 367.00 367.50 Bannich,L. 37 2, 4 IGNEOUS GABBRO 85. 900. 210. 40. 37 334 27 1 50.0 0.0 367.00 367.50 Chernogorova,S. 37 2, 4 IGNEOUS GABBRO 135. 1000. 840. 320.