Citation:

PANGAEA.829889

Always quote citation above when using data! You can download the citation in several formats below.

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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

Other version:

IODP Hole 338-C0002L, snapshot taken on 2014-02-11, J-CORES, SIO7 Data Center

Project(s):

Integrated Ocean Drilling Program / International Ocean Discovery Program (IODP)

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: (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

Download dataset as tab-delimited text — use the following character encoding:

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