Moore, Gregory; Kanagawa, Kyuichi; Strasser, Michael; Dugan, Brandon; Maeda, Lena; Toczko, Sean; Expedition 338 Scientists (2014): Electrical conductivity from IODP Hole 338-C0002L [dataset]. SIO7 Data Center, J-CORES Database; Ocean Drilling Program, Center for Deep Earth Exploration (JAMSTEC), PANGAEA, https://doi.org/10.1594/PANGAEA.829889
Always quote citation above when using data! You can download the citation in several formats below.
Related to:
Moore, Gregory; Kanagawa, Kyuichi; Strasser, Michael; Dugan, Brandon; Maeda, Lena; Toczko, Sean; Expedition 338 Scientists (2013): NanTroSEIZE Stage 3: NanTroSEIZE plate boundary deep riser 2. Integrated Ocean Drilling Program Management International, Inc., for the Integrated Ocean Drilling Program, 17, 1-12, https://doi.org/10.5194/sd-17-1-2014
Project(s):
Coverage:
Latitude: 33.299950 * Longitude: 136.637000
Date/Time Start: 2012-12-22T00:00:00 * Date/Time End: 2012-12-24T00:00:00
Minimum DEPTH, sediment/rock: 277.300 m * Maximum DEPTH, sediment/rock: 502.055 m
Event(s):
338-C0002L * Latitude: 33.299950 * Longitude: 136.637000 * Date/Time Start: 2012-12-22T00:00:00 * Date/Time End: 2012-12-24T00:00:00 * Elevation: -1937.5 m * Penetration: 505 m * Recovery: 186.4 m * Location: Nankai Trough * Campaign: Exp338 (NanTroSEIZE Plate Boundary Deep Riser 2) * Basis: Chikyu * Method/Device: Drilling/drill rig (DRILL) * Comment: 24 cores; 228 m Interval cored; 81.8 % recovered
Comment:
Geocode = [m CSF-A] Top Core depth (below sea floor)
Parameter(s):
# | Name | Short Name | Unit | Principal Investigator | Method/Device | Comment |
---|---|---|---|---|---|---|
1 | Sample code/label | Sample label | Expedition 338 Scientists | DSDP/ODP/IODP sample designation | Sample top | |
2 | DEPTH, sediment/rock | Depth sed | m | Geocode | ||
3 | Depth, top/min | Depth top | m | Expedition 338 Scientists | [m CSF-B] Top Core depth (below sea floor) | |
4 | Sample code/label 2 | Sample label 2 | Expedition 338 Scientists | DSDP/ODP/IODP sample designation | Sample bottom | |
5 | Depth, bottom/max | Depth bot | m | Expedition 338 Scientists | [m CSF-A] Bottom Core depth (below sea floor) | |
6 | Depth, bottom/max | Depth bot | m | Expedition 338 Scientists | [m CSF-B] Bottom Core depth (below sea floor) | |
7 | Electrical impedance magnitude Y | Elec imp mag Y | Ohm | Expedition 338 Scientists | Impedance analysis | Seawater |
8 | Electrical impedance phase angle Y | Elec imp phase angle Y | deg | Expedition 338 Scientists | Impedance analysis | Seawater |
9 | Electrical impedance magnitude Y | Elec imp mag Y | Ohm | Expedition 338 Scientists | Impedance analysis | |
10 | Electrical impedance phase angle Y | Elec imp phase angle Y | deg | Expedition 338 Scientists | Impedance analysis | |
11 | Formation factor | F | Expedition 338 Scientists | Impedance analysis | Formation factor Y | |
12 | Conductivity along Y-axis | Cond Y | S/m | Expedition 338 Scientists | Impedance analysis | |
13 | Resistivity along Y-axis | Resistivity Y | Ohm m | Expedition 338 Scientists | Impedance analysis | |
14 | Temperature, technical | T tech | °C | Expedition 338 Scientists | Impedance analysis | Room temperature |
15 | Comment | Comment | Expedition 338 Scientists | Comment on measurement | ||
16 | Comment | Comment | Expedition 338 Scientists | Continued | ||
17 | Time Stamp | Time Stamp | Expedition 338 Scientists | Impedance analysis | Registration |
License:
Creative Commons Attribution 3.0 Unported (CC-BY-3.0)
Size:
4974 data points
Data
1 Sample label (Sample top, DSDP/ODP/IODP sam...) | 2 Depth sed [m] | 3 Depth top [m] ([m CSF-B] Top Core depth (bel...) | 4 Sample label 2 (Sample bottom, DSDP/ODP/IODP ...) | 5 Depth bot [m] ([m CSF-A] Bottom Core depth (...) | 6 Depth bot [m] ([m CSF-B] Bottom Core depth (...) | 7 Elec imp mag Y [Ohm] (Seawater, Impedance analysis) | 8 Elec imp phase angle Y [deg] (Seawater, Impedance analysis) | 9 Elec imp mag Y [Ohm] (Impedance analysis) | 10 Elec imp phase angle Y [deg] (Impedance analysis) | 11 F (Formation factor Y, Impedance...) | 12 Cond Y [S/m] (Impedance analysis) | 13 Resistivity Y [Ohm m] (Impedance analysis) | 14 T tech [°C] (Room temperature, Impedance a...) | 15 Comment (Comment on measurement) | 16 Comment (Continued) | 17 Time Stamp (Registration, Impedance analysis) |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
338-C0002L-1X-1,30.0 | 277.300 | 277.300 | 338-C0002L-1X-1,30.0 | 277.300 | 277.300 | 6.575930 | 0.912141 | 16.92570 | -0.26574400 | 2.576 | 1.433 | 0.698 | 23.10 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:28:52 | |
338-C0002L-1X-2,7.0 | 278.260 | 278.260 | 338-C0002L-1X-2,7.0 | 278.260 | 278.260 | 6.575930 | 0.912141 | 16.09100 | -0.19552300 | 2.446 | 1.508 | 0.663 | 23.10 | SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:29:02 | |
338-C0002L-1X-2,70.0 | 278.890 | 278.890 | 338-C0002L-1X-2,70.0 | 278.890 | 278.890 | 6.575930 | 0.912141 | 19.40210 | -0.12154500 | 2.952 | 1.250 | 0.800 | 23.10 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:29:02 | |
338-C0002L-1X-3,90.0 | 280.125 | 280.125 | 338-C0002L-1X-3,90.0 | 280.125 | 280.125 | 6.575930 | 0.912141 | 19.10900 | -0.25223300 | 2.908 | 1.269 | 0.788 | 23.10 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:29:12 | |
338-C0002L-1X-5,48.0 | 281.310 | 281.310 | 338-C0002L-1X-5,48.0 | 281.310 | 281.310 | 6.575930 | 0.912141 | 19.44290 | -0.22681000 | 2.956 | 1.248 | 0.801 | 23.10 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:29:21 | |
338-C0002L-1X-6,104.0 | 283.285 | 283.285 | 338-C0002L-1X-6,104.0 | 283.285 | 283.285 | 6.575930 | 0.912141 | 20.29660 | -0.46437900 | 3.089 | 1.195 | 0.837 | 23.10 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:29:31 | |
338-C0002L-1X-7,71.0 | 284.305 | 284.305 | 338-C0002L-1X-7,71.0 | 284.305 | 284.305 | 6.575930 | 0.912141 | 22.81450 | -2.33685000 | 3.469 | 1.064 | 0.940 | 23.10 | SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:29:41 | |
338-C0002L-1X-7,110.0 | 284.695 | 284.695 | 338-C0002L-1X-7,110.0 | 284.695 | 284.695 | 6.575930 | 0.912141 | 22.17610 | -0.43564200 | 3.373 | 1.094 | 0.914 | 23.10 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:29:41 | |
338-C0002L-2X-1,3.0 | 286.530 | 286.530 | 338-C0002L-2X-1,3.0 | 286.530 | 286.530 | 6.652710 | 0.766800 | 14.16860 | -0.10980000 | 2.129 | 1.733 | 0.577 | 23.10 | SOUPY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:34:19 | |
338-C0002L-2X-1,19.0 | 286.690 | 286.690 | 338-C0002L-2X-1,19.0 | 286.690 | 286.690 | 6.652710 | 0.766800 | 29.40560 | -0.65878900 | 4.421 | 0.835 | 1.198 | 23.10 | DARK SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:34:19 | |
338-C0002L-2X-1,23.0 | 286.730 | 286.730 | 338-C0002L-2X-1,23.0 | 286.730 | 286.730 | 6.652710 | 0.766800 | 24.81290 | -0.44180000 | 3.731 | 0.989 | 1.011 | 23.10 | SILTY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:34:19 | |
338-C0002L-2X-2,43.0 | 287.410 | 287.410 | 338-C0002L-2X-2,43.0 | 287.410 | 287.410 | 6.652710 | 0.766800 | 20.98910 | -0.26880000 | 3.155 | 1.170 | 0.855 | 23.10 | SILTY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:34:28 | |
338-C0002L-3X-1,3.0 | 296.030 | 296.030 | 338-C0002L-3X-1,3.0 | 296.030 | 296.030 | 7.110740 | 0.063390 | 14.64990 | 0.24020000 | 2.059 | 1.792 | 0.558 | 23.10 | SILTY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:34:37 | |
338-C0002L-3X-1,32.0 | 296.320 | 296.320 | 338-C0002L-3X-1,32.0 | 296.320 | 296.320 | 7.110740 | 0.063390 | 19.46750 | 0.27620000 | 2.738 | 1.348 | 0.742 | 23.10 | SOUPY SILTY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:34:37 | |
338-C0002L-3X-1,72.0 | 296.720 | 296.720 | 338-C0002L-3X-1,72.0 | 296.720 | 296.720 | 7.110740 | 0.063390 | 19.49110 | -0.08190000 | 2.742 | 1.346 | 0.743 | 23.10 | DARK CLAY RICH MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:34:37 | |
338-C0002L-3X-3,25.0 | 297.640 | 297.640 | 338-C0002L-3X-3,25.0 | 297.640 | 297.640 | 7.110740 | 0.063390 | 20.24370 | -0.00931000 | 2.849 | 1.295 | 0.772 | 23.10 | SILTY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:34:47 | |
338-C0002L-3X-3,120.0 | 298.590 | 298.590 | 338-C0002L-3X-3,120.0 | 298.590 | 298.590 | 7.110740 | 0.063390 | 23.77770 | 0.27720000 | 3.343 | 1.104 | 0.906 | 23.10 | ASH Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:34:47 | |
338-C0002L-3X-4,35.0 | 299.040 | 299.040 | 338-C0002L-3X-4,35.0 | 299.040 | 299.040 | 7.110740 | 0.063390 | 31.38540 | 0.04060000 | 4.413 | 0.836 | 1.196 | 23.10 | ASH Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:34:56 | |
338-C0002L-3X-4,58.0 | 299.270 | 299.270 | 338-C0002L-3X-4,58.0 | 299.270 | 299.270 | 7.110740 | 0.063390 | 26.81560 | -0.06180000 | 3.771 | 0.978 | 1.022 | 23.10 | SILTY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:34:56 | |
338-C0002L-4X-1,25.0 | 305.750 | 305.750 | 338-C0002L-4X-1,25.0 | 305.750 | 305.750 | 6.966970 | 0.837059 | 22.28620 | 0.30869900 | 3.199 | 1.153 | 0.867 | 23.10 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:35:06 | |
338-C0002L-4X-3,80.0 | 307.850 | 307.850 | 338-C0002L-4X-3,80.0 | 307.850 | 307.850 | 6.966970 | 0.837059 | 18.17030 | -0.12159900 | 2.609 | 1.414 | 0.707 | 23.10 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:35:15 | |
338-C0002L-4X-4,44.0 | 308.740 | 308.740 | 338-C0002L-4X-4,44.0 | 308.740 | 308.740 | 6.966970 | 0.837059 | 19.02850 | -0.18537400 | 2.731 | 1.351 | 0.740 | 23.10 | MUDSTONE Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:35:24 | |
338-C0002L-4X-6,100.0 | 311.905 | 311.905 | 338-C0002L-4X-6,100.0 | 311.905 | 311.905 | 6.966970 | 0.837059 | 19.90480 | -0.96779500 | 2.856 | 1.292 | 0.774 | 23.10 | MUDSTONE Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:35:34 | |
338-C0002L-4X-7,29.0 | 312.570 | 312.570 | 338-C0002L-4X-7,29.0 | 312.570 | 312.570 | 6.966970 | 0.837059 | 23.45870 | -0.49336100 | 3.369 | 1.095 | 0.913 | 23.10 | MUDSTONE Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:35:44 | |
338-C0002L-5X-1,35.0 | 315.350 | 315.350 | 338-C0002L-5X-1,35.0 | 315.350 | 315.350 | 6.549780 | 0.476800 | 20.98980 | -0.74060000 | 3.203 | 1.152 | 0.868 | 23.10 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:35:53 | |
338-C0002L-5X-1,79.0 | 315.790 | 315.790 | 338-C0002L-5X-1,79.0 | 315.790 | 315.790 | 6.549780 | 0.476800 | 17.34580 | -0.36340000 | 2.649 | 1.393 | 0.718 | 23.10 | SOUPY SILTY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:35:53 | |
338-C0002L-5X-2,15.0 | 316.550 | 316.550 | 338-C0002L-5X-2,15.0 | 316.550 | 316.550 | 6.549780 | 0.476800 | 22.36890 | 0.13430000 | 3.417 | 1.080 | 0.926 | 23.10 | SILTY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:36:02 | |
338-C0002L-5X-2,32.0 | 316.720 | 316.720 | 338-C0002L-5X-2,32.0 | 316.720 | 316.720 | 6.549780 | 0.476800 | 22.25290 | -0.34800000 | 3.399 | 1.086 | 0.921 | 23.10 | DARK SILTY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:36:02 | |
338-C0002L-5X-4,7.0 | 317.765 | 317.765 | 338-C0002L-5X-4,7.0 | 317.765 | 317.765 | 6.549780 | 0.476800 | 21.03690 | -0.54440000 | 3.210 | 1.149 | 0.870 | 23.10 | DARK SILTY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:36:12 | |
338-C0002L-5X-4,20.0 | 317.895 | 317.895 | 338-C0002L-5X-4,20.0 | 317.895 | 317.895 | 6.549780 | 0.476800 | 24.05390 | -0.08616000 | 3.672 | 1.005 | 0.995 | 23.10 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:36:12 | |
338-C0002L-5X-4,73.0 | 318.425 | 318.425 | 338-C0002L-5X-4,73.0 | 318.425 | 318.425 | 6.549780 | 0.476800 | 23.35940 | -0.65900000 | 3.565 | 1.035 | 0.966 | 23.10 | DARK SOUPY SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:36:12 | |
338-C0002L-5X-5,45.0 | 319.200 | 319.200 | 338-C0002L-5X-5,45.0 | 319.200 | 319.200 | 6.549780 | 0.476800 | 26.05070 | -0.01166000 | 3.978 | 0.928 | 1.078 | 23.10 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:36:22 | |
338-C0002L-5X-5,56.0 | 319.310 | 319.310 | 338-C0002L-5X-5,56.0 | 319.310 | 319.310 | 6.549780 | 0.476800 | 33.01890 | -0.57300000 | 5.041 | 0.732 | 1.366 | 23.10 | DARK SOUPY SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:36:22 | |
338-C0002L-5X-5,70.0 | 319.450 | 319.450 | 338-C0002L-5X-5,70.0 | 319.450 | 319.450 | 6.549780 | 0.476800 | 23.00110 | -0.00850000 | 3.513 | 1.050 | 0.952 | 23.10 | SILTY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:36:22 | |
338-C0002L-5X-5,81.0 | 319.560 | 319.560 | 338-C0002L-5X-5,81.0 | 319.560 | 319.560 | 6.549780 | 0.476800 | 25.89560 | -0.28770000 | 3.952 | 0.934 | 1.071 | 23.10 | DARK SOUPY SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:36:22 | |
338-C0002L-5X-5,95.0 | 319.700 | 319.700 | 338-C0002L-5X-5,95.0 | 319.700 | 319.700 | 6.549780 | 0.476800 | 24.66300 | -0.10830000 | 3.764 | 0.980 | 1.020 | 23.10 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:36:22 | |
338-C0002L-5X-5,108.0 | 319.830 | 319.830 | 338-C0002L-5X-5,108.0 | 319.830 | 319.830 | 6.549780 | 0.476800 | 28.44740 | -0.70500000 | 4.343 | 0.850 | 1.177 | 23.10 | DARK SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:36:22 | |
338-C0002L-5X-5,122.0 | 319.970 | 319.970 | 338-C0002L-5X-5,122.0 | 319.970 | 319.970 | 6.549780 | 0.476800 | 22.76980 | -0.11430000 | 3.476 | 1.062 | 0.942 | 23.10 | SILTY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:36:22 | |
338-C0002L-5X-6,25.0 | 320.235 | 320.235 | 338-C0002L-5X-6,25.0 | 320.235 | 320.235 | 6.549780 | 0.476800 | 22.97140 | -0.08375000 | 3.506 | 1.053 | 0.950 | 23.10 | SILTY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:36:32 | |
338-C0002L-5X-6,50.0 | 320.485 | 320.485 | 338-C0002L-5X-6,50.0 | 320.485 | 320.485 | 6.549780 | 0.476800 | 25.44730 | -0.22020000 | 3.886 | 0.950 | 1.053 | 23.10 | DARK SOUPY SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:36:32 | |
338-C0002L-5X-6,60.0 | 320.585 | 320.585 | 338-C0002L-5X-6,60.0 | 320.585 | 320.585 | 6.549780 | 0.476800 | 22.64960 | -0.02660000 | 3.458 | 1.067 | 0.937 | 23.10 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:36:32 | |
338-C0002L-5X-7,21.0 | 321.305 | 321.305 | 338-C0002L-5X-7,21.0 | 321.305 | 321.305 | 6.549780 | 0.476800 | 26.25110 | -0.15680000 | 4.007 | 0.921 | 1.086 | 23.10 | DARK SOUPY SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:36:41 | |
338-C0002L-5X-7,40.0 | 321.495 | 321.495 | 338-C0002L-5X-7,40.0 | 321.495 | 321.495 | 6.549780 | 0.476800 | 21.71500 | -0.10820000 | 3.314 | 1.114 | 0.898 | 23.10 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:36:41 | |
338-C0002L-5X-7,53.0 | 321.625 | 321.625 | 338-C0002L-5X-7,53.0 | 321.625 | 321.625 | 6.549780 | 0.476800 | 22.41690 | -1.12900000 | 3.421 | 1.079 | 0.927 | 23.10 | DARK SOUPY SILTY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:36:41 | |
338-C0002L-5X-7,65.0 | 321.745 | 321.745 | 338-C0002L-5X-7,65.0 | 321.745 | 321.745 | 6.549780 | 0.476800 | 24.28440 | -0.56300000 | 3.708 | 0.995 | 1.005 | 23.10 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:36:41 | |
338-C0002L-5X-8,68.0 | 322.525 | 322.525 | 338-C0002L-5X-8,68.0 | 322.525 | 322.525 | 6.549780 | 0.476800 | 27.54570 | -0.38030000 | 4.207 | 0.877 | 1.140 | 23.10 | DARK SOUPY SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:36:51 | |
338-C0002L-5X-9,50.0 | 323.325 | 323.325 | 338-C0002L-5X-9,50.0 | 323.325 | 323.325 | 6.549780 | 0.476800 | 28.58880 | -0.09960000 | 4.365 | 0.845 | 1.183 | 23.10 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:37:00 | |
338-C0002L-6X-1,11.0 | 324.610 | 324.609 | 338-C0002L-6X-1,11.0 | 324.610 | 324.609 | 6.434590 | 1.163880 | 23.76980 | 0.21169700 | 3.696 | 1.029 | 0.972 | 21.40 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:37:10 | |
338-C0002L-6X-1,65.0 | 325.150 | 325.145 | 338-C0002L-6X-1,65.0 | 325.150 | 325.145 | 6.434590 | 1.163880 | 20.61370 | 0.11998000 | 3.205 | 1.186 | 0.843 | 21.40 | SOUPY SILTY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:37:10 | |
338-C0002L-6X-2,68.0 | 325.995 | 325.983 | 338-C0002L-6X-2,68.0 | 325.995 | 325.983 | 6.434590 | 1.163880 | 33.22140 | 0.08970120 | 5.163 | 0.736 | 1.358 | 21.40 | SOUPY SILTY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:37:19 | |
338-C0002L-6X-2,105.0 | 326.365 | 326.350 | 338-C0002L-6X-2,105.0 | 326.365 | 326.350 | 6.434590 | 1.163880 | 26.79640 | -1.10096000 | 4.163 | 0.913 | 1.095 | 21.40 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:37:19 | |
338-C0002L-6X-5,103.0 | 328.475 | 328.444 | 338-C0002L-6X-5,103.0 | 328.475 | 328.444 | 6.434590 | 1.163880 | 29.32670 | -0.11247600 | 4.559 | 0.834 | 1.199 | 21.40 | SOUPY SILTY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:37:28 | |
338-C0002L-6X-6,12.0 | 328.790 | 328.756 | 338-C0002L-6X-6,12.0 | 328.790 | 328.756 | 6.434590 | 1.163880 | 24.14220 | 0.49204900 | 3.753 | 1.013 | 0.987 | 21.40 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:37:38 | |
338-C0002L-6X-7,16.0 | 330.060 | 330.017 | 338-C0002L-6X-7,16.0 | 330.060 | 330.017 | 6.434590 | 1.163880 | 21.17180 | 0.42288800 | 3.293 | 1.155 | 0.866 | 21.40 | ASH Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:37:47 | |
338-C0002L-6X-7,46.0 | 330.360 | 330.314 | 338-C0002L-6X-7,46.0 | 330.360 | 330.314 | 6.434590 | 1.163880 | 28.93160 | 0.10573200 | 4.498 | 0.845 | 1.183 | 21.40 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:37:47 | |
338-C0002L-6X-8,56.0 | 331.860 | 331.802 | 338-C0002L-6X-8,56.0 | 331.860 | 331.802 | 6.434590 | 1.163880 | 20.88670 | 0.31099200 | 3.247 | 1.171 | 0.854 | 21.40 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:37:57 | |
338-C0002L-6X-9,100.0 | 333.420 | 333.350 | 338-C0002L-6X-9,100.0 | 333.420 | 333.350 | 6.434590 | 1.163880 | 28.14100 | 0.19243200 | 4.373 | 0.870 | 1.150 | 21.40 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:38:07 | |
338-C0002L-7X-1,23.0 | 334.230 | 334.230 | 338-C0002L-7X-1,23.0 | 334.230 | 334.230 | 6.434590 | 1.163880 | 21.45270 | -0.44780000 | 3.335 | 1.140 | 0.877 | 21.40 | SILTY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:38:17 | |
338-C0002L-7X-3,37.0 | 335.730 | 335.730 | 338-C0002L-7X-3,37.0 | 335.730 | 335.730 | 6.434590 | 1.163880 | 27.37560 | 0.18090000 | 4.255 | 0.894 | 1.119 | 21.40 | SILTY MUD MESS PARTIALLY CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; | A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:38:26 |
338-C0002L-7X-CC,20.0 | 336.670 | 336.670 | 338-C0002L-7X-CC,20.0 | 336.670 | 336.670 | 6.434590 | 1.163880 | 29.99840 | 0.04480000 | 4.662 | 0.816 | 1.226 | 21.40 | SILTY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:38:35 | |
338-C0002L-8X-1,11.0 | 343.610 | 343.610 | 338-C0002L-8X-1,11.0 | 343.610 | 343.610 | 8.485170 | -0.548700 | 28.16260 | 0.65790000 | 3.318 | 1.142 | 0.876 | 21.70 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:38:45 | |
338-C0002L-8X-2,8.0 | 343.885 | 343.885 | 338-C0002L-8X-2,8.0 | 343.885 | 343.885 | 8.485170 | -0.548700 | 25.83800 | 0.75060000 | 3.045 | 1.244 | 0.804 | 21.70 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:38:54 | |
338-C0002L-8X-2,28.0 | 344.085 | 344.085 | 338-C0002L-8X-2,28.0 | 344.085 | 344.085 | 8.485170 | -0.548700 | 44.74780 | -0.23120000 | 5.273 | 0.718 | 1.392 | 21.70 | SOUPY DARK SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:38:54 | |
338-C0002L-8X-2,95.0 | 344.755 | 344.755 | 338-C0002L-8X-2,95.0 | 344.755 | 344.755 | 8.485170 | -0.548700 | 26.37060 | 0.78960000 | 3.106 | 1.220 | 0.820 | 21.70 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:38:54 | |
338-C0002L-8X-3,54.0 | 345.520 | 345.520 | 338-C0002L-8X-3,54.0 | 345.520 | 345.520 | 8.485170 | -0.548700 | 26.03820 | 0.18420000 | 3.068 | 1.235 | 0.810 | 21.70 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:39:03 | |
338-C0002L-8X-5,24.0 | 346.940 | 346.940 | 338-C0002L-8X-5,24.0 | 346.940 | 346.940 | 8.485170 | -0.548700 | 28.12330 | 0.87900000 | 3.314 | 1.143 | 0.875 | 21.70 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:39:12 | |
338-C0002L-8X-5,73.0 | 347.430 | 347.430 | 338-C0002L-8X-5,73.0 | 347.430 | 347.430 | 8.485170 | -0.548700 | 51.51640 | 0.61370000 | 6.072 | 0.624 | 1.603 | 21.70 | SOUPY DARK SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:39:12 | |
338-C0002L-8X-5,100.0 | 347.700 | 347.700 | 338-C0002L-8X-5,100.0 | 347.700 | 347.700 | 8.485170 | -0.548700 | 29.48180 | 1.05040000 | 3.473 | 1.091 | 0.917 | 21.70 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:39:12 | |
338-C0002L-8X-5,113.0 | 347.830 | 347.830 | 338-C0002L-8X-5,113.0 | 347.830 | 347.830 | 8.485170 | -0.548700 | 50.10180 | 0.96080000 | 5.905 | 0.641 | 1.559 | 21.70 | DARK SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:39:12 | |
338-C0002L-8X-6,125.0 | 349.355 | 349.355 | 338-C0002L-8X-6,125.0 | 349.355 | 349.355 | 8.485170 | -0.548700 | 29.65810 | 0.88460000 | 3.496 | 1.083 | 0.923 | 21.70 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:39:21 | |
338-C0002L-8X-7,50.0 | 350.015 | 350.015 | 338-C0002L-8X-7,50.0 | 350.015 | 350.015 | 8.485170 | -0.548700 | 24.61750 | 0.69880000 | 2.902 | 1.305 | 0.766 | 21.70 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:39:31 | |
338-C0002L-8X-8,49.0 | 351.410 | 351.410 | 338-C0002L-8X-8,49.0 | 351.410 | 351.410 | 8.485170 | -0.548700 | 24.43940 | 0.96600000 | 2.879 | 1.316 | 0.760 | 21.70 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:39:40 | |
338-C0002L-8X-9,25.0 | 351.870 | 351.870 | 338-C0002L-8X-9,25.0 | 351.870 | 351.870 | 8.485170 | -0.548700 | 136.54700 | 4.50301000 | 16.042 | 0.236 | 4.235 | 21.70 | DARK SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:39:50 | |
338-C0002L-8X-9,67.0 | 352.290 | 352.290 | 338-C0002L-8X-9,67.0 | 352.290 | 352.290 | 8.485170 | -0.548700 | 26.90430 | 0.60310000 | 3.170 | 1.195 | 0.837 | 21.70 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:39:50 | |
338-C0002L-8X-CC,15.0 | 352.750 | 352.750 | 338-C0002L-8X-CC,15.0 | 352.750 | 352.750 | 8.485170 | -0.548700 | 29.73500 | 0.56680000 | 3.504 | 1.081 | 0.925 | 21.70 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:39:59 | |
338-C0002L-9X-1,10.0 | 353.100 | 353.100 | 338-C0002L-9X-1,10.0 | 353.100 | 353.100 | 7.690140 | -0.577700 | 24.09840 | 0.22480000 | 3.132 | 1.205 | 0.830 | 21.80 | SOUPY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:40:08 | |
338-C0002L-9X-1,25.0 | 353.250 | 353.250 | 338-C0002L-9X-1,25.0 | 353.250 | 353.250 | 7.690140 | -0.577700 | 21.41120 | 0.26230000 | 2.785 | 1.355 | 0.738 | 21.80 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:40:08 | |
338-C0002L-9X-3,25.0 | 354.530 | 354.530 | 338-C0002L-9X-3,25.0 | 354.530 | 354.530 | 7.690140 | -0.577700 | 22.12320 | -0.06540000 | 2.875 | 1.312 | 0.762 | 21.80 | SOUPY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:40:18 | |
338-C0002L-9X-3,55.0 | 354.830 | 354.830 | 338-C0002L-9X-3,55.0 | 354.830 | 354.830 | 7.690140 | -0.577700 | 19.72840 | -0.36900000 | 2.566 | 1.471 | 0.680 | 21.80 | SOUPY MUD gh? Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:40:18 | |
338-C0002L-9X-3,80.0 | 355.080 | 355.080 | 338-C0002L-9X-3,80.0 | 355.080 | 355.080 | 7.690140 | -0.577700 | 21.36370 | -0.13410000 | 2.777 | 1.359 | 0.736 | 21.80 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:40:18 | |
338-C0002L-9X-6,10.0 | 356.825 | 356.825 | 338-C0002L-9X-6,10.0 | 356.825 | 356.825 | 7.690140 | -0.577700 | 26.58690 | -0.11880000 | 3.457 | 1.092 | 0.916 | 21.80 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:40:28 | |
338-C0002L-9X-7,82.0 | 358.540 | 358.540 | 338-C0002L-9X-7,82.0 | 358.540 | 358.540 | 7.690140 | -0.577700 | 119.62000 | -8.41824000 | 15.389 | 0.245 | 4.078 | 21.80 | DARK SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:40:38 | |
338-C0002L-9X-7,95.0 | 358.670 | 358.670 | 338-C0002L-9X-7,95.0 | 358.670 | 358.670 | 7.690140 | -0.577700 | 24.83570 | -0.07003000 | 3.230 | 1.168 | 0.856 | 21.80 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:40:38 | |
338-C0002L-9X-8,75.0 | 359.455 | 359.455 | 338-C0002L-9X-8,75.0 | 359.455 | 359.455 | 7.690140 | -0.577700 | 19.42900 | -0.41500000 | 2.528 | 1.493 | 0.670 | 21.80 | SOUPY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:40:47 | |
338-C0002L-9X-8,95.0 | 359.655 | 359.655 | 338-C0002L-9X-8,95.0 | 359.655 | 359.655 | 7.690140 | -0.577700 | 27.86980 | 0.29989000 | 3.623 | 1.042 | 0.960 | 21.80 | SOUPY SILTY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:40:47 | |
338-C0002L-9X-8,120.0 | 359.905 | 359.905 | 338-C0002L-9X-8,120.0 | 359.905 | 359.905 | 7.690140 | -0.577700 | 24.27280 | 0.19169000 | 3.155 | 1.196 | 0.836 | 21.80 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:40:47 | |
338-C0002L-9X-CC,40.0 | 360.325 | 360.325 | 338-C0002L-9X-CC,40.0 | 360.325 | 360.325 | 7.690140 | -0.577700 | 37.00720 | -0.09760000 | 4.811 | 0.784 | 1.275 | 21.80 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:40:56 | |
338-C0002L-10X-1,28.0 | 362.780 | 362.780 | 338-C0002L-10X-1,28.0 | 362.780 | 362.780 | 7.939788 | -4.125433 | 26.42380 | -1.50032000 | 3.335 | 1.127 | 0.887 | 22.10 | SILT Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:16:58 | |
338-C0002L-10X-1,32.0 | 362.820 | 362.820 | 338-C0002L-10X-1,32.0 | 362.820 | 362.820 | 7.939788 | -4.125433 | 24.52450 | -0.96732700 | 3.098 | 1.214 | 0.824 | 22.10 | SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:16:58 | |
338-C0002L-10X-1,49.0 | 362.990 | 362.990 | 338-C0002L-10X-1,49.0 | 362.990 | 362.990 | 7.939788 | -4.125433 | 23.28460 | -0.19984800 | 2.940 | 1.279 | 0.782 | 22.10 | CLAY Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:16:58 | |
338-C0002L-10X-1,99.0 | 363.490 | 363.490 | 338-C0002L-10X-1,99.0 | 363.490 | 363.490 | 7.939788 | -4.125433 | 11.34530 | -1.60416000 | 1.432 | 2.625 | 0.381 | 22.10 | SOUPY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:16:58 | |
338-C0002L-10X-2,15.0 | 363.785 | 363.785 | 338-C0002L-10X-2,15.0 | 363.785 | 363.785 | 7.939788 | -4.125433 | 29.50560 | 0.39003100 | 3.726 | 1.009 | 0.991 | 22.10 | CLAY Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:17:07 | |
338-C0002L-10X-4,9.0 | 365.130 | 365.130 | 338-C0002L-10X-4,9.0 | 365.130 | 365.130 | 7.939788 | -4.125433 | 23.41300 | -0.23953800 | 2.955 | 1.272 | 0.786 | 22.10 | SOUPY SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:17:16 | |
338-C0002L-10X-4,32.0 | 365.360 | 365.360 | 338-C0002L-10X-4,32.0 | 365.360 | 365.360 | 7.939788 | -4.125433 | 20.99810 | 0.34510200 | 2.650 | 1.418 | 0.705 | 22.10 | CLAY Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:17:16 | |
338-C0002L-10X-5,57.0 | 365.970 | 365.970 | 338-C0002L-10X-5,57.0 | 365.970 | 365.970 | 7.939788 | -4.125433 | 27.52510 | 0.13927700 | 3.477 | 1.081 | 0.925 | 22.10 | CLAY Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:17:26 | |
338-C0002L-10X-5,87.0 | 366.270 | 366.270 | 338-C0002L-10X-5,87.0 | 366.270 | 366.270 | 7.939788 | -4.125433 | 26.34740 | 0.24005300 | 3.327 | 1.130 | 0.885 | 22.10 | SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:17:26 | |
338-C0002L-10X-6,45.0 | 367.070 | 367.070 | 338-C0002L-10X-6,45.0 | 367.070 | 367.070 | 7.939788 | -4.125433 | 24.06120 | -0.38115300 | 3.038 | 1.238 | 0.808 | 22.10 | SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:17:36 | |
338-C0002L-10X-6,72.0 | 367.340 | 367.340 | 338-C0002L-10X-6,72.0 | 367.340 | 367.340 | 7.939788 | -4.125433 | 29.56360 | 0.22353300 | 3.733 | 1.007 | 0.993 | 22.10 | CLAY Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:17:36 | |
338-C0002L-10X-7,15.0 | 367.590 | 367.590 | 338-C0002L-10X-7,15.0 | 367.590 | 367.590 | 7.939788 | -4.125433 | 29.91380 | 0.38047100 | 3.778 | 0.995 | 1.005 | 22.10 | CLAY Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:17:46 | |
338-C0002L-10X-7,122.0 | 368.660 | 368.660 | 338-C0002L-10X-7,122.0 | 368.660 | 368.660 | 7.939788 | -4.125433 | 19.19420 | 0.00570827 | 2.425 | 1.550 | 0.645 | 22.10 | SOUPY SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:17:46 | |
338-C0002L-10X-8,56.0 | 369.245 | 369.245 | 338-C0002L-10X-8,56.0 | 369.245 | 369.245 | 7.939788 | -4.125433 | 25.59190 | 0.21423900 | 3.233 | 1.163 | 0.860 | 22.10 | CLAY Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:17:55 | |
338-C0002L-10X-CC,8.0 | 369.635 | 369.635 | 338-C0002L-10X-CC,8.0 | 369.635 | 369.635 | 7.939788 | -4.125433 | 28.33560 | 0.79193100 | 3.579 | 1.050 | 0.952 | 22.10 | SANDY SILT Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:18:05 | |
338-C0002L-10X-CC,15.0 | 369.705 | 369.705 | 338-C0002L-10X-CC,15.0 | 369.705 | 369.705 | 7.939788 | -4.125433 | 34.92200 | 0.18695000 | 4.410 | 0.853 | 1.173 | 22.10 | CLAY Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:18:05 | |
338-C0002L-11X-1,20.0 | 372.200 | 372.200 | 338-C0002L-11X-1,20.0 | 372.200 | 372.200 | 7.294040 | 0.295800 | 21.89900 | 0.19180000 | 3.004 | 1.242 | 0.805 | 22.50 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:18:15 | |
338-C0002L-11X-1,83.0 | 372.830 | 372.830 | 338-C0002L-11X-1,83.0 | 372.830 | 372.830 | 7.294040 | 0.295800 | 22.54640 | 0.35830000 | 3.090 | 1.208 | 0.828 | 22.50 | SOUPY DARK SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:18:15 | |
338-C0002L-11X-2,63.0 | 373.825 | 373.825 | 338-C0002L-11X-2,63.0 | 373.825 | 373.825 | 7.294040 | 0.295800 | 15.96790 | -0.07680000 | 2.190 | 1.704 | 0.587 | 22.50 | SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:18:25 | |
338-C0002L-11X-2,80.0 | 373.995 | 373.995 | 338-C0002L-11X-2,80.0 | 373.995 | 373.995 | 7.294040 | 0.295800 | 33.85940 | -2.61400000 | 4.638 | 0.805 | 1.243 | 22.50 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:18:25 | |
338-C0002L-11X-3,20.0 | 374.830 | 374.830 | 338-C0002L-11X-3,20.0 | 374.830 | 374.830 | 7.294040 | 0.295800 | 12.37980 | -0.46669000 | 1.698 | 2.198 | 0.455 | 22.50 | SOUPY SILTY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:18:35 | |
338-C0002L-11X-6,13.0 | 376.345 | 376.345 | 338-C0002L-11X-6,13.0 | 376.345 | 376.345 | 7.294040 | 0.295800 | 19.18100 | -0.18250000 | 2.631 | 1.418 | 0.705 | 22.50 | SOUPY SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:18:45 | |
338-C0002L-11X-CC,16.0 | 377.440 | 377.440 | 338-C0002L-11X-CC,16.0 | 377.440 | 377.440 | 7.294040 | 0.295800 | 31.19250 | 0.04794000 | 4.276 | 0.873 | 1.146 | 22.50 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:18:55 | |
338-C0002L-12X-1,13.0 | 381.630 | 381.630 | 338-C0002L-12X-1,13.0 | 381.630 | 381.630 | 7.730130 | 0.277098 | 32.92290 | -0.03012950 | 4.257 | 0.876 | 1.141 | 22.50 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:19:04 | |
338-C0002L-12X-1,103.0 | 382.530 | 382.530 | 338-C0002L-12X-1,103.0 | 382.530 | 382.530 | 7.730130 | 0.277098 | 18.47670 | 0.31275600 | 2.392 | 1.560 | 0.641 | 22.50 | SOUPY Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:19:04 | |
338-C0002L-12X-2,19.0 | 382.920 | 382.920 | 338-C0002L-12X-2,19.0 | 382.920 | 382.920 | 7.730130 | 0.277098 | 46.66280 | 0.33531800 | 6.037 | 0.618 | 1.618 | 22.50 | SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:19:15 | |
338-C0002L-12X-2,60.0 | 383.330 | 383.330 | 338-C0002L-12X-2,60.0 | 383.330 | 383.330 | 7.730130 | 0.277098 | 25.92180 | 0.12949800 | 3.354 | 1.112 | 0.899 | 22.50 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:19:15 | |
338-C0002L-12X-2,86.0 | 383.590 | 383.590 | 338-C0002L-12X-2,86.0 | 383.590 | 383.590 | 7.730130 | 0.277098 | 37.25120 | 0.24982400 | 4.817 | 0.775 | 1.291 | 22.50 | SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:19:15 | |
338-C0002L-12X-3,70.0 | 384.440 | 384.440 | 338-C0002L-12X-3,70.0 | 384.440 | 384.440 | 7.730130 | 0.277098 | 28.01170 | 0.37269800 | 3.623 | 1.030 | 0.971 | 22.50 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:19:25 | |
338-C0002L-12X-4,25.0 | 385.090 | 385.090 | 338-C0002L-12X-4,25.0 | 385.090 | 385.090 | 7.730130 | 0.277098 | 26.86950 | -0.80747800 | 3.474 | 1.074 | 0.931 | 22.50 | SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:19:34 | |
338-C0002L-12X-4,104.0 | 385.880 | 385.880 | 338-C0002L-12X-4,104.0 | 385.880 | 385.880 | 7.730130 | 0.277098 | 26.76480 | -0.20127200 | 3.463 | 1.078 | 0.928 | 22.50 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:19:34 | |
338-C0002L-12X-6,82.0 | 387.920 | 387.920 | 338-C0002L-12X-6,82.0 | 387.920 | 387.920 | 7.730130 | 0.277098 | 51.28200 | -1.09952000 | 6.634 | 0.562 | 1.778 | 22.50 | SANDY Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:19:43 | |
338-C0002L-12X-8,23.0 | 388.595 | 388.595 | 338-C0002L-12X-8,23.0 | 388.595 | 388.595 | 7.730130 | 0.277098 | 27.29220 | -0.10961600 | 3.530 | 1.057 | 0.946 | 22.50 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:19:53 | |
338-C0002L-12X-8,63.0 | 388.995 | 388.995 | 338-C0002L-12X-8,63.0 | 388.995 | 388.995 | 7.730130 | 0.277098 | 35.98560 | -1.13778000 | 4.653 | 0.802 | 1.247 | 22.50 | SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:19:53 | |
338-C0002L-13X-1,18.0 | 391.180 | 391.179 | 338-C0002L-13X-1,18.0 | 391.180 | 391.179 | 7.771420 | 1.637090 | 219.26200 | -1.88752000 | 28.209 | 0.132 | 7.560 | 22.50 | SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:20:03 | |
338-C0002L-13X-1,47.0 | 391.470 | 391.468 | 338-C0002L-13X-1,47.0 | 391.470 | 391.468 | 7.771420 | 1.637090 | 30.60200 | 0.93650000 | 3.940 | 0.947 | 1.056 | 22.50 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:20:03 | |
338-C0002L-13X-2,60.0 | 392.720 | 392.714 | 338-C0002L-13X-2,60.0 | 392.720 | 392.714 | 7.771420 | 1.637090 | 29.76420 | 0.22200000 | 3.832 | 0.974 | 1.027 | 22.50 | SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:20:13 | |
338-C0002L-13X-2,80.0 | 392.920 | 392.913 | 338-C0002L-13X-2,80.0 | 392.920 | 392.913 | 7.771420 | 1.637090 | 27.51110 | 0.22300000 | 3.541 | 1.054 | 0.949 | 22.50 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:20:13 | |
338-C0002L-13X-3,81.0 | 394.345 | 394.333 | 338-C0002L-13X-3,81.0 | 394.345 | 394.333 | 7.771420 | 1.637090 | 26.08250 | -1.00808000 | 3.358 | 1.111 | 0.900 | 22.50 | GLAUCONISED MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:20:23 | |
338-C0002L-13X-3,100.0 | 394.535 | 394.522 | 338-C0002L-13X-3,100.0 | 394.535 | 394.522 | 7.771420 | 1.637090 | 23.70060 | -0.17103000 | 3.052 | 1.222 | 0.818 | 22.50 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:20:23 | |
338-C0002L-13X-4,45.0 | 395.255 | 395.239 | 338-C0002L-13X-4,45.0 | 395.255 | 395.239 | 7.771420 | 1.637090 | 21.10370 | 0.15860000 | 2.716 | 1.374 | 0.728 | 22.50 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:20:32 | |
338-C0002L-13X-5,32.0 | 396.455 | 396.435 | 338-C0002L-13X-5,32.0 | 396.455 | 396.435 | 7.771420 | 1.637090 | 23.20960 | -0.38790000 | 2.989 | 1.248 | 0.801 | 22.50 | SOUPY SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:20:41 | |
338-C0002L-13X-6,28.0 | 397.015 | 396.993 | 338-C0002L-13X-6,28.0 | 397.015 | 396.993 | 7.771420 | 1.637090 | 20.78110 | -0.76110000 | 2.675 | 1.395 | 0.717 | 22.50 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:20:51 | |
338-C0002L-13X-7,30.0 | 398.455 | 398.428 | 338-C0002L-13X-7,30.0 | 398.455 | 398.428 | 7.771420 | 1.637090 | 21.58150 | -0.43710000 | 2.780 | 1.342 | 0.745 | 22.50 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:21:00 | |
338-C0002L-13X-7,75.0 | 398.905 | 398.876 | 338-C0002L-13X-7,75.0 | 398.905 | 398.876 | 7.771420 | 1.637090 | 34.43480 | 0.14960000 | 4.433 | 0.842 | 1.188 | 22.50 | ASH Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:21:00 | |
338-C0002L-13X-CC,61.0 | 399.745 | 399.713 | 338-C0002L-13X-CC,61.0 | 399.745 | 399.713 | 7.771420 | 1.637090 | 26.86050 | -1.01465000 | 3.459 | 1.079 | 0.927 | 22.50 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:21:10 | |
338-C0002L-14X-1,33.0 | 400.830 | 400.815 | 338-C0002L-14X-1,33.0 | 400.830 | 400.815 | 6.447630 | 1.929850 | 19.06560 | -0.47153200 | 2.959 | 1.266 | 0.790 | 22.30 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:21:19 | |
338-C0002L-14X-2,13.0 | 402.030 | 401.959 | 338-C0002L-14X-2,13.0 | 402.030 | 401.959 | 6.447630 | 1.929850 | 25.86040 | -0.04428580 | 4.015 | 0.933 | 1.072 | 22.30 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:21:29 | |
338-C0002L-14X-2,43.0 | 402.330 | 402.246 | 338-C0002L-14X-2,43.0 | 402.330 | 402.246 | 6.447630 | 1.929850 | 24.13580 | -0.05980990 | 3.745 | 1.000 | 1.000 | 22.30 | SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:21:29 | |
338-C0002L-14X-4,21.0 | 403.665 | 403.519 | 338-C0002L-14X-4,21.0 | 403.665 | 403.519 | 6.447630 | 1.929850 | 25.86950 | -0.54919500 | 4.015 | 0.933 | 1.072 | 22.30 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:21:38 | |
338-C0002L-14X-5,61.0 | 405.465 | 405.236 | 338-C0002L-14X-5,61.0 | 405.465 | 405.236 | 6.447630 | 1.929850 | 26.50650 | -0.38323300 | 4.112 | 0.911 | 1.098 | 22.30 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:21:47 | |
338-C0002L-14X-5,90.0 | 405.755 | 405.512 | 338-C0002L-14X-5,90.0 | 405.755 | 405.512 | 6.447630 | 1.929850 | 22.34220 | -0.25511400 | 3.468 | 1.080 | 0.926 | 22.30 | SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:21:47 | |
338-C0002L-14X-6,14.0 | 406.405 | 406.132 | 338-C0002L-14X-6,14.0 | 406.405 | 406.132 | 6.447630 | 1.929850 | 31.21030 | -0.39455400 | 4.843 | 0.773 | 1.293 | 22.30 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:21:56 | |
338-C0002L-14X-6,59.0 | 406.855 | 406.562 | 338-C0002L-14X-6,59.0 | 406.855 | 406.562 | 6.447630 | 1.929850 | 28.68050 | -0.26711400 | 4.449 | 0.842 | 1.188 | 22.30 | SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:21:56 | |
338-C0002L-14X-7,30.0 | 407.965 | 407.620 | 338-C0002L-14X-7,30.0 | 407.965 | 407.620 | 6.447630 | 1.929850 | 35.23750 | -0.30274900 | 5.468 | 0.685 | 1.460 | 22.30 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:22:06 | |
338-C0002L-14X-7,63.0 | 408.295 | 407.935 | 338-C0002L-14X-7,63.0 | 408.295 | 407.935 | 6.447630 | 1.929850 | 26.18040 | -0.20789700 | 4.064 | 0.922 | 1.085 | 22.30 | SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:22:06 | |
338-C0002L-14X-7,88.0 | 408.545 | 408.173 | 338-C0002L-14X-7,88.0 | 408.545 | 408.173 | 6.447630 | 1.929850 | 29.11810 | -0.24153200 | 4.517 | 0.829 | 1.206 | 22.30 | SILTY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:22:06 | |
338-C0002L-14X-8,30.0 | 409.380 | 408.970 | 338-C0002L-14X-8,30.0 | 409.380 | 408.970 | 6.447630 | 1.929850 | 30.96290 | -0.12533300 | 4.805 | 0.779 | 1.283 | 22.30 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:22:15 | |
338-C0002L-14X-8,88.0 | 409.960 | 409.523 | 338-C0002L-14X-8,88.0 | 409.960 | 409.523 | 6.447630 | 1.929850 | 29.95690 | -0.32565900 | 4.648 | 0.806 | 1.241 | 22.30 | SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:22:15 | |
338-C0002L-14X-CC,14.0 | 410.200 | 409.752 | 338-C0002L-14X-CC,14.0 | 410.200 | 409.752 | 6.447630 | 1.929850 | 36.57120 | -0.08872610 | 5.674 | 0.660 | 1.515 | 22.30 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:22:25 | |
338-C0002L-15X-1,64.0 | 410.640 | 410.628 | 338-C0002L-15X-1,64.0 | 410.640 | 410.628 | 7.615480 | 0.253798 | 28.31900 | 0.31691100 | 3.719 | 1.007 | 0.993 | 22.30 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:22:43 | |
338-C0002L-15X-2,9.0 | 410.945 | 410.928 | 338-C0002L-15X-2,9.0 | 410.945 | 410.928 | 7.615480 | 0.253798 | 28.08900 | 0.32374900 | 3.689 | 1.015 | 0.985 | 22.30 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:22:54 | |
338-C0002L-15X-3,10.0 | 411.885 | 411.851 | 338-C0002L-15X-3,10.0 | 411.885 | 411.851 | 7.615480 | 0.253798 | 15.52660 | -0.84226100 | 2.037 | 1.838 | 0.544 | 22.30 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:23:03 | |
338-C0002L-15X-3,27.0 | 412.055 | 412.018 | 338-C0002L-15X-3,27.0 | 412.055 | 412.018 | 7.615480 | 0.253798 | 28.29270 | 0.32505600 | 3.715 | 1.008 | 0.992 | 22.30 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:23:03 | |
338-C0002L-15X-5,12.0 | 412.695 | 412.646 | 338-C0002L-15X-5,12.0 | 412.695 | 412.646 | 7.615480 | 0.253798 | 29.36510 | 0.35226300 | 3.858 | 0.971 | 1.030 | 22.30 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:23:12 | |
338-C0002L-15X-5,31.0 | 412.885 | 412.833 | 338-C0002L-15X-5,31.0 | 412.885 | 412.833 | 7.615480 | 0.253798 | 23.63370 | 0.22561400 | 3.105 | 1.206 | 0.829 | 22.30 | SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:23:12 | |
338-C0002L-15X-6,21.0 | 413.575 | 413.510 | 338-C0002L-15X-6,21.0 | 413.575 | 413.510 | 7.615480 | 0.253798 | 28.81240 | 0.23227700 | 3.783 | 0.990 | 1.010 | 22.30 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:23:22 | |
338-C0002L-15X-7,8.0 | 414.845 | 414.757 | 338-C0002L-15X-7,8.0 | 414.845 | 414.757 | 7.615480 | 0.253798 | 34.59340 | -1.41080000 | 4.539 | 0.825 | 1.212 | 22.30 | SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:23:32 | |
338-C0002L-15X-7,26.0 | 415.025 | 414.934 | 338-C0002L-15X-7,26.0 | 415.025 | 414.934 | 7.615480 | 0.253798 | 24.48670 | 0.49692000 | 3.213 | 1.166 | 0.858 | 22.30 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:23:32 | |
338-C0002L-15X-7,44.0 | 415.205 | 415.111 | 338-C0002L-15X-7,44.0 | 415.205 | 415.111 | 7.615480 | 0.253798 | 19.55760 | 0.43615100 | 2.569 | 1.458 | 0.686 | 22.30 | SOUPY SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:23:32 | |
338-C0002L-15X-7,62.0 | 415.385 | 415.288 | 338-C0002L-15X-7,62.0 | 415.385 | 415.288 | 7.615480 | 0.253798 | 27.29100 | 0.39007300 | 3.584 | 1.045 | 0.957 | 22.30 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:23:32 | |
338-C0002L-15X-7,70.0 | 415.465 | 415.366 | 338-C0002L-15X-7,70.0 | 415.465 | 415.366 | 7.615480 | 0.253798 | 17.55330 | -0.46276400 | 2.303 | 1.626 | 0.615 | 22.30 | SOUPY SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:23:32 | |
338-C0002L-15X-7,116.0 | 415.925 | 415.818 | 338-C0002L-15X-7,116.0 | 415.925 | 415.818 | 7.615480 | 0.253798 | 26.79160 | 0.05279760 | 3.517 | 1.065 | 0.939 | 22.30 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:23:32 | |
338-C0002L-15X-7,137.0 | 416.135 | 416.024 | 338-C0002L-15X-7,137.0 | 416.135 | 416.024 | 7.615480 | 0.253798 | 28.83900 | 0.06266500 | 3.787 | 0.989 | 1.011 | 22.30 | SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:23:32 | |
338-C0002L-15X-8,30.0 | 416.465 | 416.348 | 338-C0002L-15X-8,30.0 | 416.465 | 416.348 | 7.615480 | 0.253798 | 29.65950 | 0.96779200 | 3.895 | 0.962 | 1.040 | 22.30 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:23:41 | |
338-C0002L-15X-8,68.0 | 416.845 | 416.721 | 338-C0002L-15X-8,68.0 | 416.845 | 416.721 | 7.615480 | 0.253798 | 30.31287 | -0.93395940 | 3.981 | 0.941 | 1.063 | 22.30 | SILTY SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:23:41 | |
338-C0002L-15X-8,108.0 | 417.245 | 417.114 | 338-C0002L-15X-8,108.0 | 417.245 | 417.114 | 7.615480 | 0.253798 | 26.87040 | -0.19337200 | 3.528 | 1.062 | 0.942 | 22.30 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:23:41 | |
338-C0002L-15X-8,130.0 | 417.465 | 417.330 | 338-C0002L-15X-8,130.0 | 417.465 | 417.330 | 7.615480 | 0.253798 | 26.96890 | -0.26236900 | 3.543 | 1.057 | 0.946 | 22.30 | SOUPY SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:23:41 | |
338-C0002L-15X-9,20.0 | 417.685 | 417.546 | 338-C0002L-15X-9,20.0 | 417.685 | 417.546 | 7.615480 | 0.253798 | 31.99580 | -1.29519000 | 4.202 | 0.891 | 1.122 | 22.30 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:23:51 | |
338-C0002L-15X-9,46.0 | 417.945 | 417.801 | 338-C0002L-15X-9,46.0 | 417.945 | 417.801 | 7.615480 | 0.253798 | 36.25880 | -1.35916000 | 4.760 | 0.787 | 1.271 | 22.30 | SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:23:51 | |
338-C0002L-15X-9,82.0 | 418.305 | 418.155 | 338-C0002L-15X-9,82.0 | 418.305 | 418.155 | 7.615480 | 0.253798 | 29.28430 | 0.80131600 | 3.846 | 0.974 | 1.027 | 22.30 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:23:51 | |
338-C0002L-15X-10,7.0 | 418.545 | 418.391 | 338-C0002L-15X-10,7.0 | 418.545 | 418.391 | 7.615480 | 0.253798 | 33.41830 | 0.65653100 | 4.390 | 0.853 | 1.172 | 22.30 | MUD CONSOLDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:22:34 | |
338-C0002L-15X-10,36.0 | 418.835 | 418.675 | 338-C0002L-15X-10,36.0 | 418.835 | 418.675 | 7.615480 | 0.253798 | 73.48370 | -3.70735000 | 9.629 | 0.389 | 2.571 | 22.30 | BLACK SAND WITH LOTS OF FINE PYRITES WITH NO ORGANIC MATTERS Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be | 2013-05-15T05:22:34 | |
338-C0002L-15X-CC,20.0 | 419.465 | 419.294 | 338-C0002L-15X-CC,20.0 | 419.465 | 419.294 | 7.610000 | 0.253798 | 36.99460 | -0.12874100 | 4.861 | 0.770 | 1.298 | 22.30 | Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:24:01 | |
338-C0002L-16X-1,50.0 | 420.000 | 419.979 | 338-C0002L-16X-1,50.0 | 420.000 | 419.979 | 7.645960 | 0.066400 | 26.35990 | 0.40420000 | 3.448 | 1.082 | 0.924 | 22.60 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:24:12 | |
338-C0002L-16X-2,44.0 | 420.915 | 420.856 | 338-C0002L-16X-2,44.0 | 420.915 | 420.856 | 7.645960 | 0.066400 | 27.35210 | 0.42160000 | 3.578 | 1.043 | 0.959 | 22.60 | SOUPY SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:24:21 | |
338-C0002L-16X-2,65.0 | 421.125 | 421.057 | 338-C0002L-16X-2,65.0 | 421.125 | 421.057 | 7.645960 | 0.066400 | 22.86040 | 0.40010000 | 2.989 | 1.248 | 0.801 | 22.60 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:24:21 | |
338-C0002L-16X-2,114.0 | 421.615 | 421.527 | 338-C0002L-16X-2,114.0 | 421.615 | 421.527 | 7.645960 | 0.066400 | 29.91000 | -0.32340000 | 3.910 | 0.954 | 1.048 | 22.60 | DARK THIN SAND LAYERS Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:24:21 | |
338-C0002L-16X-3,42.0 | 422.290 | 422.173 | 338-C0002L-16X-3,42.0 | 422.290 | 422.173 | 7.645960 | 0.066400 | 28.10180 | 0.50840000 | 3.675 | 1.015 | 0.985 | 22.60 | SILTY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:24:31 | |
338-C0002L-16X-3,47.0 | 422.340 | 422.221 | 338-C0002L-16X-3,47.0 | 422.340 | 422.221 | 7.645960 | 0.066400 | 30.16560 | -0.10720000 | 3.944 | 0.946 | 1.057 | 22.60 | SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:24:31 | |
338-C0002L-16X-4,33.0 | 422.710 | 422.576 | 338-C0002L-16X-4,33.0 | 422.710 | 422.576 | 7.645960 | 0.066400 | 27.75360 | 1.80011000 | 3.627 | 1.029 | 0.972 | 22.60 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:24:41 | |
338-C0002L-16X-4,49.0 | 422.870 | 422.729 | 338-C0002L-16X-4,49.0 | 422.870 | 422.729 | 7.645960 | 0.066400 | 34.85780 | 0.52010000 | 4.560 | 0.818 | 1.222 | 22.60 | SILTY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:24:41 | |
338-C0002L-16X-4,54.0 | 422.920 | 422.777 | 338-C0002L-16X-4,54.0 | 422.920 | 422.777 | 7.645960 | 0.066400 | 40.97570 | 0.36850000 | 5.358 | 0.696 | 1.436 | 22.60 | DARK SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:24:41 | |
338-C0002L-16X-4,76.0 | 423.140 | 422.988 | 338-C0002L-16X-4,76.0 | 423.140 | 422.988 | 7.645960 | 0.066400 | 36.01720 | -1.28017000 | 4.709 | 0.792 | 1.262 | 22.60 | DARK SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:24:41 | |
338-C0002L-16X-4,94.0 | 423.320 | 423.160 | 338-C0002L-16X-4,94.0 | 423.320 | 423.160 | 7.645960 | 0.066400 | 30.27690 | 0.72360000 | 3.959 | 0.943 | 1.061 | 22.60 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:24:41 | |
338-C0002L-16X-4,108.0 | 423.460 | 423.294 | 338-C0002L-16X-4,108.0 | 423.460 | 423.294 | 7.645960 | 0.066400 | 30.96920 | 0.19250000 | 4.052 | 0.921 | 1.086 | 22.60 | SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:24:41 | |
338-C0002L-16X-5,20.0 | 423.980 | 423.793 | 338-C0002L-16X-5,20.0 | 423.980 | 423.793 | 7.645960 | 0.066400 | 23.99900 | 0.32420000 | 3.138 | 1.189 | 0.841 | 22.60 | SILTY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:24:53 | |
338-C0002L-16X-5,26.0 | 424.040 | 423.850 | 338-C0002L-16X-5,26.0 | 424.040 | 423.850 | 7.645960 | 0.066400 | 28.63530 | 0.57410000 | 3.746 | 0.996 | 1.004 | 22.60 | SANDY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:24:53 | |
338-C0002L-16X-5,64.0 | 424.420 | 424.214 | 338-C0002L-16X-5,64.0 | 424.420 | 424.214 | 7.645960 | 0.066400 | 28.20400 | 0.40060000 | 3.690 | 1.011 | 0.989 | 22.60 | SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:24:53 | |
338-C0002L-16X-5,75.0 | 424.530 | 424.320 | 338-C0002L-16X-5,75.0 | 424.530 | 424.320 | 7.645960 | 0.066400 | 22.29130 | 0.31200000 | 2.914 | 1.280 | 0.781 | 22.60 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:24:53 | |
338-C0002L-16X-5,85.0 | 424.630 | 424.415 | 338-C0002L-16X-5,85.0 | 424.630 | 424.415 | 7.645960 | 0.066400 | 23.33730 | 0.28960000 | 3.052 | 1.222 | 0.818 | 22.60 | SANDY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:24:53 | |
338-C0002L-16X-5,88.0 | 424.660 | 424.444 | 338-C0002L-16X-5,88.0 | 424.660 | 424.444 | 7.645960 | 0.066400 | 19.93750 | 0.55620000 | 2.608 | 1.431 | 0.699 | 22.60 | ASH Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:24:53 | |
338-C0002L-16X-5,89.0 | 424.670 | 424.454 | 338-C0002L-16X-5,89.0 | 424.670 | 424.454 | 7.645960 | 0.066400 | 17.36970 | 4.63909000 | 2.265 | 1.647 | 0.607 | 22.60 | BASE OF MUD WHITE Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:24:53 | |
338-C0002L-16X-6,12.0 | 425.105 | 424.870 | 338-C0002L-16X-6,12.0 | 425.105 | 424.870 | 7.645960 | 0.066400 | 21.81700 | -1.23000000 | 2.854 | 1.307 | 0.765 | 22.60 | SANDY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:25:03 | |
338-C0002L-16X-6,20.0 | 425.185 | 424.947 | 338-C0002L-16X-6,20.0 | 425.185 | 424.947 | 7.645960 | 0.066400 | 30.26770 | 0.12510000 | 3.959 | 0.943 | 1.061 | 22.60 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:25:03 | |
338-C0002L-16X-6,110.0 | 426.085 | 425.809 | 338-C0002L-16X-6,110.0 | 426.085 | 425.809 | 7.645960 | 0.066400 | 33.78300 | 0.60590000 | 4.418 | 0.845 | 1.184 | 22.60 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:25:03 | |
338-C0002L-16X-7,38.0 | 426.785 | 426.480 | 338-C0002L-16X-7,38.0 | 426.785 | 426.480 | 7.645960 | 0.066400 | 1.08470 | 14.16580000 | 0.138 | 27.027 | 0.037 | 22.60 | SOUPY MUD GH? Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:25:14 | |
338-C0002L-16X-7,96.0 | 427.365 | 427.036 | 338-C0002L-16X-7,96.0 | 427.365 | 427.036 | 7.645960 | 0.066400 | 21.68760 | 0.24170000 | 2.836 | 1.316 | 0.760 | 22.60 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:25:14 | |
338-C0002L-16X-7,105.0 | 427.455 | 427.122 | 338-C0002L-16X-7,105.0 | 427.455 | 427.122 | 7.516000 | 0.213730 | 1.29517 | 19.13080000 | 0.164 | 22.727 | 0.044 | 22.60 | SOUPY MUD GH? Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:25:14 | |
338-C0002L-16X-8,18.0 | 427.755 | 427.410 | 338-C0002L-16X-8,18.0 | 427.755 | 427.410 | 7.516000 | 0.213730 | 28.78860 | -1.33900000 | 3.828 | 0.975 | 1.026 | 22.60 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:25:24 | |
338-C0002L-16X-8,22.0 | 427.795 | 427.448 | 338-C0002L-16X-8,22.0 | 427.795 | 427.448 | 7.516000 | 0.213730 | 33.95110 | -0.85070000 | 4.515 | 0.826 | 1.210 | 22.60 | SANDY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:25:24 | |
338-C0002L-16X-8,69.0 | 428.265 | 427.898 | 338-C0002L-16X-8,69.0 | 428.265 | 427.898 | 7.516000 | 0.213730 | 28.73290 | -2.22570000 | 3.821 | 0.977 | 1.024 | 22.60 | SANDY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:25:24 | |
338-C0002L-16X-8,80.0 | 428.375 | 428.004 | 338-C0002L-16X-8,80.0 | 428.375 | 428.004 | 7.516000 | 0.213730 | 31.02200 | -2.76907000 | 4.123 | 0.905 | 1.105 | 22.60 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:25:24 | |
338-C0002L-17X-1,25.0 | 429.250 | 429.231 | 338-C0002L-17X-1,25.0 | 429.250 | 429.231 | 7.765110 | 0.693300 | 27.18180 | 0.53270000 | 3.500 | 1.066 | 0.938 | 22.60 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:25:33 | |
338-C0002L-17X-1,107.0 | 430.070 | 429.987 | 338-C0002L-17X-1,107.0 | 430.070 | 429.987 | 7.765110 | 0.693300 | 18.28430 | 0.54477000 | 2.354 | 1.585 | 0.631 | 22.60 | SOUPY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:25:33 | |
338-C0002L-17X-2,10.0 | 430.250 | 430.154 | 338-C0002L-17X-2,10.0 | 430.250 | 430.154 | 7.765110 | 0.693300 | 24.91110 | -0.45830000 | 3.209 | 1.163 | 0.860 | 22.60 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:25:42 | |
338-C0002L-17X-2,61.0 | 430.760 | 430.624 | 338-C0002L-17X-2,61.0 | 430.760 | 430.624 | 7.765110 | 0.693300 | 24.75860 | -2.64200000 | 3.187 | 1.171 | 0.854 | 22.60 | SANDY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:25:42 | |
338-C0002L-17X-3,44.0 | 431.365 | 431.182 | 338-C0002L-17X-3,44.0 | 431.365 | 431.182 | 7.765110 | 0.693300 | 28.90420 | 0.81930000 | 3.724 | 1.002 | 0.998 | 22.60 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:25:52 | |
338-C0002L-17X-5,105.0 | 433.305 | 432.973 | 338-C0002L-17X-5,105.0 | 433.305 | 432.973 | 7.765110 | 0.693300 | 25.48370 | -0.27660000 | 3.284 | 1.136 | 0.880 | 22.60 | SANDY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:26:01 | |
338-C0002L-17X-5,120.0 | 433.455 | 433.111 | 338-C0002L-17X-5,120.0 | 433.455 | 433.111 | 7.765110 | 0.693300 | 24.26780 | 0.26100000 | 3.127 | 1.193 | 0.838 | 22.60 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:26:01 | |
338-C0002L-17X-6,25.0 | 433.775 | 433.406 | 338-C0002L-17X-6,25.0 | 433.775 | 433.406 | 7.765110 | 0.693300 | 25.27810 | 0.65290000 | 3.254 | 1.147 | 0.872 | 22.60 | SOUPY MUD GH? Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:26:11 | |
338-C0002L-17X-6,65.0 | 434.175 | 433.775 | 338-C0002L-17X-6,65.0 | 434.175 | 433.775 | 7.765110 | 0.693300 | 30.42780 | 0.10310000 | 3.918 | 0.952 | 1.050 | 22.60 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:26:11 | |
338-C0002L-17X-7,25.0 | 435.155 | 434.680 | 338-C0002L-17X-7,25.0 | 435.155 | 434.680 | 7.765110 | 0.693300 | 28.62020 | -0.14530000 | 3.687 | 1.012 | 0.988 | 22.60 | SOUPY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:26:21 | |
338-C0002L-17X-7,68.0 | 435.585 | 435.077 | 338-C0002L-17X-7,68.0 | 435.585 | 435.077 | 7.765110 | 0.693300 | 27.11900 | -0.27100000 | 3.493 | 1.068 | 0.936 | 22.60 | SOUPY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:26:21 | |
338-C0002L-17X-8,7.0 | 435.885 | 435.353 | 338-C0002L-17X-8,7.0 | 435.885 | 435.353 | 7.765110 | 0.693300 | 33.37040 | 0.37200000 | 4.299 | 0.868 | 1.152 | 22.60 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:26:30 | |
338-C0002L-17X-8,59.0 | 436.405 | 435.833 | 338-C0002L-17X-8,59.0 | 436.405 | 435.833 | 7.765110 | 0.693300 | 38.44180 | 0.42060000 | 4.951 | 0.754 | 1.327 | 22.60 | SANDY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:26:30 | |
338-C0002L-17X-9,10.0 | 437.105 | 436.479 | 338-C0002L-17X-9,10.0 | 437.105 | 436.479 | 7.765110 | 0.693300 | 28.21210 | -0.43160000 | 3.634 | 1.027 | 0.974 | 22.60 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:26:39 | |
338-C0002L-17X-9,43.0 | 437.435 | 436.784 | 338-C0002L-17X-9,43.0 | 437.435 | 436.784 | 7.765110 | 0.693300 | 36.38400 | -0.14660000 | 4.687 | 0.796 | 1.256 | 22.60 | SANDY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:26:39 | |
338-C0002L-17X-9,60.0 | 437.605 | 436.941 | 338-C0002L-17X-9,60.0 | 437.605 | 436.941 | 7.765110 | 0.693300 | 39.36060 | 0.58010000 | 5.067 | 0.736 | 1.358 | 22.60 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:26:39 | |
338-C0002L-18X-1,64.0 | 439.140 | 439.140 | 338-C0002L-18X-1,64.0 | 439.140 | 439.140 | 7.999000 | 0.388700 | 38.10580 | -2.07600000 | 4.760 | 0.775 | 1.290 | 23.20 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:26:48 | |
338-C0002L-18X-4,27.0 | 440.970 | 440.970 | 338-C0002L-18X-4,27.0 | 440.970 | 440.970 | 7.999000 | 0.388700 | 31.85800 | -0.58060000 | 3.982 | 0.927 | 1.079 | 23.20 | THIN BLACK LAYERS Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:26:57 | |
338-C0002L-18X-4,74.0 | 441.440 | 441.440 | 338-C0002L-18X-4,74.0 | 441.440 | 441.440 | 7.999000 | 0.388700 | 31.40900 | -1.92874000 | 3.926 | 0.940 | 1.064 | 23.20 | BLACK SILTY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:26:57 | |
338-C0002L-18X-4,93.0 | 441.630 | 441.630 | 338-C0002L-18X-4,93.0 | 441.630 | 441.630 | 7.999000 | 0.388700 | 34.80560 | -0.09850000 | 4.351 | 0.848 | 1.179 | 23.20 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:26:57 | |
338-C0002L-18X-4,111.0 | 441.810 | 441.810 | 338-C0002L-18X-4,111.0 | 441.810 | 441.810 | 7.999000 | 0.388700 | 31.61810 | 0.39260000 | 3.952 | 0.934 | 1.071 | 23.20 | BLACK SILTY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:26:57 | |
338-C0002L-18X-5,90.0 | 443.000 | 443.000 | 338-C0002L-18X-5,90.0 | 443.000 | 443.000 | 7.999000 | 0.388700 | 32.82750 | 0.03140000 | 4.103 | 0.899 | 1.112 | 23.20 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:27:06 | |
338-C0002L-18X-5,123.0 | 443.330 | 443.330 | 338-C0002L-18X-5,123.0 | 443.330 | 443.330 | 7.999000 | 0.388700 | 46.22970 | 1.19090000 | 5.779 | 0.639 | 1.566 | 23.20 | SOUPY SANDY LAMINAE Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:27:06 | |
338-C0002L-18X-6,86.0 | 444.365 | 444.365 | 338-C0002L-18X-6,86.0 | 444.365 | 444.365 | 7.999000 | 0.388700 | 40.01960 | 1.13160000 | 5.004 | 0.737 | 1.356 | 23.20 | SANDY LAMINAE Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:27:16 | |
338-C0002L-18X-7,80.0 | 445.715 | 445.715 | 338-C0002L-18X-7,80.0 | 445.715 | 445.715 | 7.999000 | 0.388700 | 31.86520 | -0.29900000 | 3.985 | 0.926 | 1.080 | 23.20 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:27:26 | |
338-C0002L-18X-8,18.0 | 446.505 | 446.505 | 338-C0002L-18X-8,18.0 | 446.505 | 446.505 | 7.999000 | 0.388700 | 31.69640 | 0.02098000 | 3.963 | 0.931 | 1.074 | 23.20 | SANDY LAMINAE Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:27:35 | |
338-C0002L-18X-8,57.0 | 446.895 | 446.895 | 338-C0002L-18X-8,57.0 | 446.895 | 446.895 | 7.999000 | 0.388700 | 38.87350 | 0.83330000 | 4.860 | 0.759 | 1.317 | 23.20 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:27:35 | |
338-C0002L-19X-1,65.0 | 448.650 | 448.650 | 338-C0002L-19X-1,65.0 | 448.650 | 448.650 | 7.992600 | 0.180000 | 36.16980 | 1.64970000 | 4.524 | 0.816 | 1.226 | 23.22 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:27:45 | |
338-C0002L-19X-2,80.0 | 450.015 | 450.015 | 338-C0002L-19X-2,80.0 | 450.015 | 450.015 | 7.992600 | 0.180000 | 34.72640 | 1.15730000 | 4.343 | 0.850 | 1.177 | 23.22 | BLACK SANDY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:27:54 | |
338-C0002L-19X-2,95.0 | 450.165 | 450.165 | 338-C0002L-19X-2,95.0 | 450.165 | 450.165 | 7.992600 | 0.180000 | 34.56990 | -0.14200000 | 4.325 | 0.853 | 1.172 | 23.22 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:27:54 | |
338-C0002L-19X-4,60.0 | 451.500 | 451.500 | 338-C0002L-19X-4,60.0 | 451.500 | 451.500 | 7.992600 | 0.180000 | 30.89320 | 0.10700000 | 3.863 | 0.955 | 1.047 | 23.22 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:28:03 | |
338-C0002L-19X-4,115.0 | 452.050 | 452.050 | 338-C0002L-19X-4,115.0 | 452.050 | 452.050 | 7.992600 | 0.180000 | 23.10000 | 0.25440000 | 2.889 | 1.277 | 0.783 | 23.22 | LIGHT MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:28:03 | |
338-C0002L-19X-5,6.0 | 452.225 | 452.225 | 338-C0002L-19X-5,6.0 | 452.225 | 452.225 | 7.992600 | 0.180000 | 27.78570 | 0.79390000 | 3.476 | 1.062 | 0.942 | 23.22 | SOUPY MUD AND ASH Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:28:13 | |
338-C0002L-19X-5,13.0 | 452.295 | 452.295 | 338-C0002L-19X-5,13.0 | 452.295 | 452.295 | 7.992600 | 0.180000 | 25.17670 | -0.10570000 | 3.151 | 1.171 | 0.854 | 23.22 | ASH Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:28:13 | |
338-C0002L-19X-5,18.0 | 452.345 | 452.345 | 338-C0002L-19X-5,18.0 | 452.345 | 452.345 | 7.992600 | 0.180000 | 38.68090 | -1.61120000 | 4.838 | 0.763 | 1.311 | 23.22 | BASE OF ASH Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:28:13 | |
338-C0002L-19X-5,20.0 | 452.365 | 452.365 | 338-C0002L-19X-5,20.0 | 452.365 | 452.365 | 7.992600 | 0.180000 | 34.71220 | 1.15008000 | 4.343 | 0.850 | 1.177 | 23.22 | BASE OF ASH IN MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:28:13 | |
338-C0002L-19X-5,80.0 | 452.965 | 452.965 | 338-C0002L-19X-5,80.0 | 452.965 | 452.965 | 7.992600 | 0.180000 | 40.74680 | 0.36540000 | 5.100 | 0.724 | 1.382 | 23.22 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:28:13 | |
338-C0002L-19X-5,100.0 | 453.165 | 453.165 | 338-C0002L-19X-5,100.0 | 453.165 | 453.165 | 7.992600 | 0.180000 | 40.58740 | 0.81800000 | 5.077 | 0.727 | 1.376 | 23.22 | BLACK SANDY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:28:13 | |
338-C0002L-19X-6,70.0 | 454.120 | 454.120 | 338-C0002L-19X-6,70.0 | 454.120 | 454.120 | 7.992600 | 0.180000 | 66.93560 | 2.28330000 | 8.369 | 0.441 | 2.268 | 23.22 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:28:23 | |
338-C0002L-19X-7,5.0 | 454.800 | 454.800 | 338-C0002L-19X-7,5.0 | 454.800 | 454.800 | 7.992600 | 0.180000 | 19.76300 | 0.03120000 | 2.472 | 1.493 | 0.670 | 23.22 | SOUPY BLACK SANDY LAMINAE Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:28:33 | |
338-C0002L-19X-7,48.0 | 455.230 | 455.230 | 338-C0002L-19X-7,48.0 | 455.230 | 455.230 | 7.992600 | 0.180000 | 19.75300 | -0.08870000 | 2.472 | 1.493 | 0.670 | 23.22 | SOUPY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:28:33 | |
338-C0002L-19X-7,80.0 | 455.550 | 455.550 | 338-C0002L-19X-7,80.0 | 455.550 | 455.550 | 7.992600 | 0.180000 | 30.54010 | -0.01980000 | 3.823 | 0.965 | 1.036 | 23.22 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:28:33 | |
338-C0002L-19X-CC,5.0 | 456.150 | 456.150 | 338-C0002L-19X-CC,5.0 | 456.150 | 456.150 | 7.992600 | 0.180000 | 41.00390 | -0.31380000 | 5.129 | 0.719 | 1.390 | 23.22 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:28:43 | |
338-C0002L-19X-CC,13.0 | 456.230 | 456.230 | 338-C0002L-19X-CC,13.0 | 456.230 | 456.230 | 7.992600 | 0.180000 | 76.55290 | 0.09203800 | 9.579 | 0.385 | 2.596 | 23.22 | SANDY LAMINAE Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:28:43 | |
338-C0002L-20X-1,17.0 | 457.670 | 457.664 | 338-C0002L-20X-1,17.0 | 457.670 | 457.664 | 8.485950 | 0.240600 | 35.37530 | -0.90600000 | 4.167 | 0.889 | 1.125 | 22.90 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:29:50 | |
338-C0002L-20X-1,34.0 | 457.840 | 457.827 | 338-C0002L-20X-1,34.0 | 457.840 | 457.827 | 8.485950 | 0.240600 | 28.47740 | -0.97020000 | 3.356 | 1.104 | 0.906 | 22.90 | SOUPY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:29:50 | |
338-C0002L-20X-3,42.0 | 459.465 | 459.392 | 338-C0002L-20X-3,42.0 | 459.465 | 459.392 | 8.485950 | 0.240600 | 37.60910 | -0.20430000 | 4.433 | 0.835 | 1.197 | 22.90 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:29:59 | |
338-C0002L-20X-3,49.0 | 459.535 | 459.460 | 338-C0002L-20X-3,49.0 | 459.535 | 459.460 | 8.485950 | 0.240600 | 40.62640 | -0.62300000 | 4.789 | 0.773 | 1.293 | 22.90 | SILTY MUD LAMINAE Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:29:59 | |
338-C0002L-20X-3,80.0 | 459.845 | 459.758 | 338-C0002L-20X-3,80.0 | 459.845 | 459.758 | 8.485950 | 0.240600 | 43.11940 | 1.00870000 | 5.081 | 0.729 | 1.372 | 22.90 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:29:59 | |
338-C0002L-20X-3,101.0 | 460.055 | 459.961 | 338-C0002L-20X-3,101.0 | 460.055 | 459.961 | 8.485950 | 0.240600 | 34.26190 | -0.36880000 | 4.037 | 0.917 | 1.090 | 22.90 | SILTY MUD LAMINAE Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:29:59 | |
338-C0002L-20X-4,10.0 | 460.555 | 460.442 | 338-C0002L-20X-4,10.0 | 460.555 | 460.442 | 8.485950 | 0.240600 | 37.68070 | -0.13800000 | 4.441 | 0.834 | 1.199 | 22.90 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:30:09 | |
338-C0002L-20X-4,22.0 | 460.675 | 460.558 | 338-C0002L-20X-4,22.0 | 460.675 | 460.558 | 8.485950 | 0.240600 | 27.51780 | -1.92556000 | 3.241 | 1.143 | 0.875 | 22.90 | DARK MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:30:09 | |
338-C0002L-20X-4,70.0 | 461.155 | 461.020 | 338-C0002L-20X-4,70.0 | 461.155 | 461.020 | 8.485950 | 0.240600 | 45.51530 | 1.24769000 | 5.363 | 0.691 | 1.448 | 22.90 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:30:09 | |
338-C0002L-20X-4,76.0 | 461.215 | 461.078 | 338-C0002L-20X-4,76.0 | 461.215 | 461.078 | 8.485950 | 0.240600 | 29.39730 | -0.02550000 | 3.463 | 1.070 | 0.935 | 22.90 | DARK MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:30:09 | |
338-C0002L-20X-4,110.0 | 461.555 | 461.405 | 338-C0002L-20X-4,110.0 | 461.555 | 461.405 | 8.485950 | 0.240600 | 30.57550 | 0.14840000 | 3.604 | 1.028 | 0.973 | 22.90 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:30:09 | |
338-C0002L-20X-5,50.0 | 462.365 | 462.185 | 338-C0002L-20X-5,50.0 | 462.365 | 462.185 | 8.485950 | 0.240600 | 32.83860 | 0.40520000 | 3.870 | 0.957 | 1.045 | 22.90 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:30:18 | |
338-C0002L-20X-6,40.0 | 463.675 | 463.447 | 338-C0002L-20X-6,40.0 | 463.675 | 463.447 | 8.485950 | 0.240600 | 31.19290 | 0.13290000 | 3.674 | 1.008 | 0.992 | 22.90 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:30:28 | |
338-C0002L-20X-6,47.0 | 463.745 | 463.514 | 338-C0002L-20X-6,47.0 | 463.745 | 463.514 | 8.485950 | 0.240600 | 40.51250 | -0.34120000 | 4.774 | 0.776 | 1.289 | 22.90 | SANDY MUD LAMINAE Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:30:28 | |
338-C0002L-20X-6,105.0 | 464.325 | 464.073 | 338-C0002L-20X-6,105.0 | 464.325 | 464.073 | 8.485950 | 0.240600 | 34.77760 | 0.04790000 | 4.100 | 0.903 | 1.107 | 22.90 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:30:28 | |
338-C0002L-20X-7,13.0 | 464.655 | 464.390 | 338-C0002L-20X-7,13.0 | 464.655 | 464.390 | 8.485950 | 0.240600 | 52.19170 | 0.88010000 | 6.148 | 0.602 | 1.660 | 22.90 | SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:30:37 | |
338-C0002L-20X-7,105.0 | 465.575 | 465.276 | 338-C0002L-20X-7,105.0 | 465.575 | 465.276 | 8.485950 | 0.240600 | 28.79160 | 0.02645000 | 3.393 | 1.092 | 0.916 | 22.90 | SILTY MUD LAMINAE Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:30:37 | |
338-C0002L-20X-7,110.0 | 465.625 | 465.324 | 338-C0002L-20X-7,110.0 | 465.625 | 465.324 | 8.485950 | 0.240600 | 19.97460 | 8.01840000 | 2.330 | 1.590 | 0.629 | 22.90 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:30:37 | |
338-C0002L-20X-8,55.0 | 466.400 | 466.071 | 338-C0002L-20X-8,55.0 | 466.400 | 466.071 | 8.485950 | 0.240600 | 37.51710 | 0.54060000 | 4.422 | 0.838 | 1.194 | 22.90 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:30:47 | |
338-C0002L-20X-8,80.0 | 466.650 | 466.312 | 338-C0002L-20X-8,80.0 | 466.650 | 466.312 | 8.485950 | 0.240600 | 30.19390 | 0.24730000 | 3.559 | 1.041 | 0.961 | 22.90 | SANDY MUD LAMINAE Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:30:47 | |
338-C0002L-20X-CC,35.0 | 467.060 | 466.706 | 338-C0002L-20X-CC,35.0 | 467.060 | 466.706 | 8.485950 | 0.240600 | 45.69150 | 1.13321000 | 5.385 | 0.688 | 1.454 | 22.90 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:30:56 | |
338-C0002L-20X-CC,44.0 | 467.150 | 466.793 | 338-C0002L-20X-CC,44.0 | 467.150 | 466.793 | 8.485950 | 0.240600 | 55.75440 | 2.60820000 | 6.563 | 0.564 | 1.772 | 22.90 | SAND + MICA ? Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:30:56 | |
338-C0002L-21X-1,19.0 | 467.190 | 467.189 | 338-C0002L-21X-1,19.0 | 467.190 | 467.189 | 9.259580 | 0.657320 | 13.05430 | 5.62657000 | 1.404 | 2.667 | 0.375 | 22.20 | SOUPY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:31:06 | |
338-C0002L-21X-1,31.0 | 467.310 | 467.308 | 338-C0002L-21X-1,31.0 | 467.310 | 467.308 | 9.259580 | 0.657320 | 33.08480 | 1.20497000 | 3.573 | 1.048 | 0.954 | 22.20 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:31:06 | |
338-C0002L-21X-1,54.0 | 467.540 | 467.536 | 338-C0002L-21X-1,54.0 | 467.540 | 467.536 | 9.259580 | 0.657320 | 24.95750 | 0.70671700 | 2.697 | 1.389 | 0.720 | 22.20 | SOUPY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:31:06 | |
338-C0002L-21X-1,71.0 | 467.710 | 467.705 | 338-C0002L-21X-1,71.0 | 467.710 | 467.705 | 9.259580 | 0.657320 | 32.77310 | 0.57386400 | 3.539 | 1.058 | 0.945 | 22.20 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:31:06 | |
338-C0002L-21X-1,88.0 | 467.880 | 467.874 | 338-C0002L-21X-1,88.0 | 467.880 | 467.874 | 9.259580 | 0.657320 | 25.57740 | -0.53088900 | 2.764 | 1.355 | 0.738 | 22.20 | SOUPY SILT Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:31:06 | |
338-C0002L-21X-1,104.0 | 468.040 | 468.032 | 338-C0002L-21X-1,104.0 | 468.040 | 468.032 | 9.259580 | 0.657320 | 23.51160 | -0.61093000 | 2.539 | 1.475 | 0.678 | 22.20 | SOUPY SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:31:06 | |
338-C0002L-21X-1,107.0 | 468.070 | 468.062 | 338-C0002L-21X-1,107.0 | 468.070 | 468.062 | 9.259580 | 0.657320 | 32.74370 | 1.96479000 | 3.536 | 1.059 | 0.944 | 22.20 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:31:06 | |
338-C0002L-21X-1,112.0 | 468.120 | 468.112 | 338-C0002L-21X-1,112.0 | 468.120 | 468.112 | 9.259580 | 0.657320 | 22.53880 | 0.15449600 | 2.434 | 1.538 | 0.650 | 22.20 | SOUPY SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:31:06 | |
338-C0002L-21X-1,134.0 | 468.340 | 468.330 | 338-C0002L-21X-1,134.0 | 468.340 | 468.330 | 9.259580 | 0.657320 | 34.93990 | 1.22650000 | 3.772 | 0.993 | 1.007 | 22.20 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:31:06 | |
338-C0002L-21X-2,11.0 | 468.525 | 468.514 | 338-C0002L-21X-2,11.0 | 468.525 | 468.514 | 9.259580 | 0.657320 | 33.29600 | 0.94810000 | 3.596 | 1.042 | 0.960 | 22.20 | BLACK LAYER IN MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:31:16 | |
338-C0002L-21X-2,14.0 | 468.555 | 468.544 | 338-C0002L-21X-2,14.0 | 468.555 | 468.544 | 9.259580 | 0.657320 | 28.27450 | 0.23022400 | 3.052 | 1.227 | 0.815 | 22.20 | SOUPY SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:31:16 | |
338-C0002L-21X-2,21.0 | 468.625 | 468.613 | 338-C0002L-21X-2,21.0 | 468.625 | 468.613 | 9.259580 | 0.657320 | 25.51350 | 0.06324640 | 2.757 | 1.359 | 0.736 | 22.20 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:31:16 | |
338-C0002L-21X-2,28.0 | 468.695 | 468.683 | 338-C0002L-21X-2,28.0 | 468.695 | 468.683 | 9.259580 | 0.657320 | 23.31740 | 0.28449300 | 2.517 | 1.488 | 0.672 | 22.20 | SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:31:16 | |
338-C0002L-21X-2,30.0 | 468.715 | 468.703 | 338-C0002L-21X-2,30.0 | 468.715 | 468.703 | 9.259580 | 0.657320 | 21.07930 | -0.49776500 | 2.277 | 1.645 | 0.608 | 22.20 | SOUPY SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:31:16 | |
338-C0002L-21X-2,34.0 | 468.755 | 468.742 | 338-C0002L-21X-2,34.0 | 468.755 | 468.742 | 9.259580 | 0.657320 | 34.26100 | 1.31476000 | 3.700 | 1.012 | 0.988 | 22.20 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:31:16 | |
338-C0002L-21X-2,36.0 | 468.775 | 468.762 | 338-C0002L-21X-2,36.0 | 468.775 | 468.762 | 9.259580 | 0.657320 | 23.89420 | -1.00947000 | 2.581 | 1.451 | 0.689 | 22.20 | SOUPY SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:31:16 | |
338-C0002L-21X-2,45.0 | 468.865 | 468.851 | 338-C0002L-21X-2,45.0 | 468.865 | 468.851 | 9.259580 | 0.657320 | 19.93560 | -0.16940400 | 2.154 | 1.739 | 0.575 | 22.20 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:31:16 | |
338-C0002L-21X-2,54.0 | 468.955 | 468.941 | 338-C0002L-21X-2,54.0 | 468.955 | 468.941 | 9.259580 | 0.657320 | 34.58260 | 0.71199800 | 3.734 | 1.003 | 0.997 | 22.20 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:31:16 | |
338-C0002L-21X-2,78.0 | 469.195 | 469.179 | 338-C0002L-21X-2,78.0 | 469.195 | 469.179 | 9.259580 | 0.657320 | 19.54030 | 0.26847600 | 2.109 | 1.776 | 0.563 | 22.20 | SOUPY SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:31:16 | |
338-C0002L-21X-2,86.0 | 469.275 | 469.258 | 338-C0002L-21X-2,86.0 | 469.275 | 469.258 | 9.259580 | 0.657320 | 35.99490 | 0.27962700 | 3.888 | 0.963 | 1.038 | 22.20 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:31:16 | |
338-C0002L-21X-2,95.0 | 469.365 | 469.348 | 338-C0002L-21X-2,95.0 | 469.365 | 469.348 | 9.259580 | 0.657320 | 20.71320 | -1.17098000 | 2.236 | 1.675 | 0.597 | 22.20 | SOUPY SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:31:16 | |
338-C0002L-21X-2,99.0 | 469.405 | 469.387 | 338-C0002L-21X-2,99.0 | 469.405 | 469.387 | 9.259580 | 0.657320 | 34.38170 | 0.76726400 | 3.712 | 1.009 | 0.991 | 22.20 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:31:16 | |
338-C0002L-21X-3,16.0 | 469.775 | 469.755 | 338-C0002L-21X-3,16.0 | 469.775 | 469.755 | 9.259580 | 0.657320 | 39.17700 | 1.34718000 | 4.228 | 0.886 | 1.129 | 22.20 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:31:27 | |
338-C0002L-21X-3,28.0 | 469.895 | 469.874 | 338-C0002L-21X-3,28.0 | 469.895 | 469.874 | 9.259580 | 0.657320 | 23.87210 | 0.04414380 | 2.577 | 1.453 | 0.688 | 22.20 | SOUPY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:31:27 | |
338-C0002L-21X-3,41.0 | 470.025 | 470.003 | 338-C0002L-21X-3,41.0 | 470.025 | 470.003 | 9.259580 | 0.657320 | 26.95040 | 0.32269200 | 2.910 | 1.287 | 0.777 | 22.20 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:31:27 | |
338-C0002L-21X-5,18.0 | 471.245 | 471.214 | 338-C0002L-21X-5,18.0 | 471.245 | 471.214 | 9.259580 | 0.657320 | 26.09820 | 4.60600000 | 2.809 | 1.333 | 0.750 | 22.20 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:31:36 | |
338-C0002L-21X-7,7.0 | 473.855 | 473.805 | 338-C0002L-21X-7,7.0 | 473.855 | 473.805 | 9.259580 | 0.657320 | 28.63480 | -0.13182000 | 3.094 | 1.211 | 0.826 | 22.20 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:31:45 | |
338-C0002L-21X-7,13.0 | 473.915 | 473.864 | 338-C0002L-21X-7,13.0 | 473.915 | 473.864 | 9.259580 | 0.657320 | 20.77070 | 0.83693000 | 2.243 | 1.669 | 0.599 | 22.20 | SPOUPY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:31:45 | |
338-C0002L-21X-7,33.0 | 474.115 | 474.063 | 338-C0002L-21X-7,33.0 | 474.115 | 474.063 | 9.259580 | 0.657320 | 24.01180 | 0.77433500 | 2.592 | 1.445 | 0.692 | 22.20 | ASH Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:31:45 | |
338-C0002L-21X-7,42.0 | 474.205 | 474.152 | 338-C0002L-21X-7,42.0 | 474.205 | 474.152 | 9.259580 | 0.657320 | 26.99480 | 0.58614400 | 2.914 | 1.285 | 0.778 | 22.20 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:31:45 | |
338-C0002L-21X-7,44.0 | 474.225 | 474.172 | 338-C0002L-21X-7,44.0 | 474.225 | 474.172 | 9.259580 | 0.657320 | 19.35640 | 0.24300400 | 2.090 | 1.792 | 0.558 | 22.20 | SOUPY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:31:45 | |
338-C0002L-21X-7,63.0 | 474.415 | 474.361 | 338-C0002L-21X-7,63.0 | 474.415 | 474.361 | 9.259580 | 0.657320 | 29.73640 | 0.88867400 | 3.210 | 1.167 | 0.857 | 22.20 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:31:45 | |
338-C0002L-21X-7,116.0 | 474.945 | 474.887 | 338-C0002L-21X-7,116.0 | 474.945 | 474.887 | 9.259580 | 0.657320 | 30.13684 | 0.87709510 | 3.255 | 1.151 | 0.869 | 22.20 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:31:45 | |
338-C0002L-21X-8,99.0 | 476.115 | 476.048 | 338-C0002L-21X-8,99.0 | 476.115 | 476.048 | 9.259580 | 0.657320 | 29.60420 | 0.37058300 | 3.199 | 1.171 | 0.854 | 22.20 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:31:56 | |
338-C0002L-22X-1,10.0 | 476.600 | 476.600 | 338-C0002L-22X-1,10.0 | 476.600 | 476.600 | 9.743090 | -0.559102 | 37.36940 | -1.32749000 | 3.835 | 0.980 | 1.020 | 21.99 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:32:06 | |
338-C0002L-22X-1,37.0 | 476.870 | 476.870 | 338-C0002L-22X-1,37.0 | 476.870 | 476.870 | 9.743090 | -0.559102 | 27.76030 | -0.22107600 | 2.850 | 1.319 | 0.758 | 21.99 | BLACK LAYER IN MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:32:06 | |
338-C0002L-22X-2,22.0 | 477.380 | 477.380 | 338-C0002L-22X-2,22.0 | 477.380 | 477.380 | 9.743090 | -0.559102 | 26.45870 | 0.66698200 | 2.714 | 1.385 | 0.722 | 21.99 | SOUPY SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:32:16 | |
338-C0002L-22X-2,30.0 | 477.460 | 477.460 | 338-C0002L-22X-2,30.0 | 477.460 | 477.460 | 9.743090 | -0.559102 | 32.27270 | 0.10991500 | 3.312 | 1.135 | 0.881 | 21.99 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:32:16 | |
338-C0002L-22X-3,14.0 | 477.725 | 477.725 | 338-C0002L-22X-3,14.0 | 477.725 | 477.725 | 9.743090 | -0.559102 | 23.90350 | -5.54809000 | 2.444 | 1.538 | 0.650 | 21.99 | SOUPY SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:32:25 | |
338-C0002L-22X-3,26.0 | 477.845 | 477.845 | 338-C0002L-22X-3,26.0 | 477.845 | 477.845 | 9.743090 | -0.559102 | 30.42540 | 0.72476000 | 3.124 | 1.203 | 0.831 | 21.99 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:32:25 | |
338-C0002L-22X-4,9.0 | 478.080 | 478.080 | 338-C0002L-22X-4,9.0 | 478.080 | 478.080 | 9.743090 | -0.559102 | 33.68160 | -0.54251300 | 3.459 | 1.087 | 0.920 | 21.99 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:32:34 | |
338-C0002L-22X-4,15.0 | 478.140 | 478.140 | 338-C0002L-22X-4,15.0 | 478.140 | 478.140 | 9.743090 | -0.559102 | 6.77160 | 18.39488000 | 0.658 | 5.714 | 0.175 | 21.99 | SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:32:34 | |
338-C0002L-22X-4,63.0 | 478.620 | 478.620 | 338-C0002L-22X-4,63.0 | 478.620 | 478.620 | 9.743090 | -0.559102 | 25.73740 | -0.06221270 | 2.643 | 1.422 | 0.703 | 21.99 | SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:32:34 | |
338-C0002L-22X-4,81.0 | 478.800 | 478.800 | 338-C0002L-22X-4,81.0 | 478.800 | 478.800 | 9.743090 | -0.559102 | 31.60738 | 1.07440100 | 3.244 | 1.159 | 0.863 | 21.99 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:32:34 | |
338-C0002L-22X-4,90.0 | 478.890 | 478.890 | 338-C0002L-22X-4,90.0 | 478.890 | 478.890 | 9.743090 | -0.559102 | 17.78170 | -0.33632900 | 1.823 | 2.062 | 0.485 | 21.99 | SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:32:34 | |
338-C0002L-22X-5,18.0 | 479.400 | 479.400 | 338-C0002L-22X-5,18.0 | 479.400 | 479.400 | 9.743090 | -0.559102 | 34.39200 | 0.55480300 | 3.530 | 1.065 | 0.939 | 21.99 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:32:44 | |
338-C0002L-22X-5,52.0 | 479.740 | 479.740 | 338-C0002L-22X-5,52.0 | 479.740 | 479.740 | 9.743090 | -0.559102 | 22.68560 | -1.45525000 | 2.327 | 1.616 | 0.619 | 21.99 | SOUPY SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:32:44 | |
338-C0002L-22X-5,97.0 | 480.190 | 480.190 | 338-C0002L-22X-5,97.0 | 480.190 | 480.190 | 9.743090 | -0.559102 | 17.95320 | -0.37492500 | 1.842 | 2.041 | 0.490 | 21.99 | SOUPY SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:32:44 | |
338-C0002L-22X-5,115.0 | 480.370 | 480.370 | 338-C0002L-22X-5,115.0 | 480.370 | 480.370 | 9.743090 | -0.559102 | 32.32080 | -0.34298200 | 3.316 | 1.134 | 0.882 | 21.99 | GREENISH MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:32:44 | |
338-C0002L-22X-7,3.0 | 480.835 | 480.835 | 338-C0002L-22X-7,3.0 | 480.835 | 480.835 | 9.743090 | -0.559102 | 34.60620 | 0.74622800 | 3.553 | 1.058 | 0.945 | 21.99 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:32:54 | |
338-C0002L-22X-7,19.0 | 480.995 | 480.995 | 338-C0002L-22X-7,19.0 | 480.995 | 480.995 | 21.99 | SOUPY SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:32:54 | ||||||||
338-C0002L-22X-8,11.0 | 481.340 | 481.340 | 338-C0002L-22X-8,11.0 | 481.340 | 481.340 | 9.743090 | -0.559102 | 32.21610 | 0.46824400 | 3.308 | 1.136 | 0.880 | 21.99 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:33:03 | |
338-C0002L-22X-8,16.0 | 481.390 | 481.390 | 338-C0002L-22X-8,16.0 | 481.390 | 481.390 | 9.743090 | -0.559102 | 21.20650 | -1.16899000 | 2.177 | 1.727 | 0.579 | 21.99 | SOUPY SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:33:03 | |
338-C0002L-23X-CC,16.0 | 486.160 | 486.160 | 338-C0002L-23X-CC,16.0 | 486.160 | 486.160 | 9.743090 | -0.559102 | 33.00300 | 0.61197500 | 3.387 | 1.110 | 0.901 | 21.99 | MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:33:13 | |
338-C0002L-23X-CC,25.0 | 486.250 | 486.250 | 338-C0002L-23X-CC,25.0 | 486.250 | 486.250 | 9.743090 | -0.559102 | 44.98420 | 1.06739000 | 4.617 | 0.814 | 1.228 | 21.99 | SAND Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:33:13 | |
338-C0002L-24X-1,35.0 | 495.850 | 495.850 | 338-C0002L-24X-1,35.0 | 495.850 | 495.850 | 7.810000 | -0.537000 | 17.00410 | 1.63450000 | 2.177 | 1.695 | 0.590 | 23.10 | SOUPY MUD Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:33:22 | |
338-C0002L-24X-1,100.0 | 496.500 | 496.500 | 338-C0002L-24X-1,100.0 | 496.500 | 496.500 | 7.810000 | -0.537000 | 10.12160 | 0.34380000 | 1.295 | 2.849 | 0.351 | 23.10 | SOUPY MUD GH? Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:33:22 | |
338-C0002L-24X-2,20.0 | 497.095 | 497.095 | 338-C0002L-24X-2,20.0 | 497.095 | 497.095 | 7.810000 | -0.537000 | 13.91690 | 1.19204000 | 1.782 | 2.070 | 0.483 | 23.10 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:33:31 | |
338-C0002L-24X-2,85.0 | 497.745 | 497.745 | 338-C0002L-24X-2,85.0 | 497.745 | 497.745 | 7.810000 | -0.537000 | 11.81630 | 1.44495000 | 1.513 | 2.439 | 0.410 | 23.10 | SOUPY MUD GH? Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:33:31 | |
338-C0002L-24X-3,30.0 | 498.560 | 498.560 | 338-C0002L-24X-3,30.0 | 498.560 | 498.560 | 7.810000 | -0.537000 | 12.13660 | 1.27879000 | 1.554 | 2.375 | 0.421 | 23.10 | SOUPY MUD GH? Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:33:41 | |
338-C0002L-24X-3,75.0 | 499.010 | 499.010 | 338-C0002L-24X-3,75.0 | 499.010 | 499.010 | 7.810000 | -0.537000 | 22.44880 | -0.56140000 | 2.875 | 1.284 | 0.779 | 23.10 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:33:41 | |
338-C0002L-24X-4,10.0 | 499.760 | 499.760 | 338-C0002L-24X-4,10.0 | 499.760 | 499.760 | 7.810000 | -0.537000 | 10.64140 | -0.04928000 | 1.362 | 2.710 | 0.369 | 23.10 | SOUPY MUD GH? Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:33:50 | |
338-C0002L-24X-4,68.0 | 500.340 | 500.340 | 338-C0002L-24X-4,68.0 | 500.340 | 500.340 | 7.810000 | -0.537000 | 13.79910 | 0.02759000 | 1.768 | 2.088 | 0.479 | 23.10 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:33:50 | |
338-C0002L-24X-6,25.0 | 501.225 | 501.225 | 338-C0002L-24X-6,25.0 | 501.225 | 501.225 | 7.810000 | -0.537000 | 14.42450 | 0.06054000 | 1.849 | 1.996 | 0.501 | 23.10 | SILTY MUD LAMINAE Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:34:00 | |
338-C0002L-24X-7,15.0 | 501.825 | 501.825 | 338-C0002L-24X-7,15.0 | 501.825 | 501.825 | 7.810000 | -0.537000 | 16.63430 | 0.99100000 | 2.129 | 1.733 | 0.577 | 23.10 | SILTY MUD LAMINAE Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:34:09 | |
338-C0002L-24X-7,38.0 | 502.055 | 502.055 | 338-C0002L-24X-7,38.0 | 502.055 | 502.055 | 7.810000 | -0.537000 | 23.54290 | -0.22680000 | 3.015 | 1.224 | 0.817 | 23.10 | MUD CONSOLIDATED Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater; A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape. | 2013-05-15T05:34:09 |