Citation:

PANGAEA.830531

Name: Electrical conductivity from IODP Hole 338-C0022B
Published: 2014-03-12
License: https://creativecommons.org/licenses/by/3.0/

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

Published: 2014-03-12 • DOI registered: 2015-04-15

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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-C0022B, snapshot taken on 2014-02-11, J-CORES, SIO7 Data Center

Project(s):

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

Coverage:

Latitude: 33.218050 * Longitude: 136.724440

Date/Time Start: 2012-12-29T00:00:00 * Date/Time End: 2012-12-29T00:00:00

Minimum DEPTH, sediment/rock: 4.180 m * Maximum DEPTH, sediment/rock: 413.390 m

Event(s):

338-C0022B * Latitude: 33.218050 * Longitude: 136.724440 * Date/Time: 2012-12-29T00:00:00 * Elevation: -2674.0 m * Penetration: 419.5 m * Recovery: 305.5 m * Location: Nankai Trough * Campaign: (NanTroSEIZE Plate Boundary Deep Riser 2) * Basis: * Method/Device: Drilling/drill rig (DRILL) * Comment: 41 cores; 345 m Interval cored; 88.6 % recovered

Comment:

Geocode = [m CSF-A]

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
2	DEPTH, sediment/rock	Depth sed	m			Geocode
3	Depth, top/min	Depth top	m	Expedition 338 Scientists		[m CSF-B]
4	Electrical impedance magnitude filter paper	Elec imp mag f paper	Ohm	Expedition 338 Scientists	Impedance analysis
5	Electrical impedance phase angle filter paper	Elec imp phase angle f paper	deg	Expedition 338 Scientists	Impedance analysis
6	Electrical impedance magnitude X	Elec imp mag X	Ohm	Expedition 338 Scientists	Impedance analysis
7	Electrical impedance phase angle X	Elec imp phase angle X	deg	Expedition 338 Scientists	Impedance analysis
8	Electrical impedance magnitude Y	Elec imp mag Y	Ohm	Expedition 338 Scientists	Impedance analysis
9	Electrical impedance phase angle Y	Elec imp phase angle Y	deg	Expedition 338 Scientists	Impedance analysis
10	Electrical impedance magnitude Z	Elec imp mag Z	Ohm	Expedition 338 Scientists	Impedance analysis
11	Electrical impedance phase angle Z	Elec imp phase angle Z	deg	Expedition 338 Scientists	Impedance analysis
12	Formation factor X	F X		Expedition 338 Scientists	Impedance analysis	Derived by impedance analysis
13	Formation factor Y	F Y		Expedition 338 Scientists	Impedance analysis	Derived by impedance analysis
14	Formation factor Z	F Z		Expedition 338 Scientists	Impedance analysis	Derived by impedance analysis
15	Resistivity along X-axis	Resistivity X	Ohm m	Expedition 338 Scientists	Impedance analysis
16	Resistivity along Y-axis	Resistivity Y	Ohm m	Expedition 338 Scientists	Impedance analysis
17	Resistivity along Z-axis	Resistivity Z	Ohm m	Expedition 338 Scientists	Impedance analysis
18	Conductivity along X-axis	Cond X	S/m	Expedition 338 Scientists	Impedance analysis
19	Conductivity along Y-axis	Cond Y	S/m	Expedition 338 Scientists	Impedance analysis
20	Conductivity along Z-axis	Cond Z	S/m	Expedition 338 Scientists	Impedance analysis
21	Anisotropy, impedance horizontal	Aniso imp h		Expedition 338 Scientists	Impedance analysis
22	Temperature, technical	T tech	°C	Expedition 338 Scientists	Impedance analysis	Room temperature
23	Anisotropy, impedance vertical	Aniso imp v		Expedition 338 Scientists	Impedance analysis
24	Time Stamp	Time Stamp		Expedition 338 Scientists		Registration
25	Electrical impedance magnitude standard seawater	Elec imp mag standard seawater	Ohm	Expedition 338 Scientists	Impedance analysis	Section
26	Electrical impedance phase angle standard seawater	Elec imp mag standard seawater	deg	Expedition 338 Scientists	Impedance analysis	Section
27	Electrical impedance magnitude Y	Elec imp mag Y	Ohm	Expedition 338 Scientists	Impedance analysis	Section
28	Electrical impedance phase angle Y	Elec imp phase angle Y	deg	Expedition 338 Scientists	Impedance analysis	Section
29	Formation factor Y	F Y		Expedition 338 Scientists	Impedance analysis	Section
30	Conductivity along Y-axis	Cond Y	S/m	Expedition 338 Scientists	Impedance analysis	Section
31	Resistivity along Y-axis	Resistivity Y	Ohm m	Expedition 338 Scientists	Impedance analysis	Section
32	Temperature, technical	T tech	°C	Expedition 338 Scientists	Impedance analysis	Room temperature, section
33	Comment	Comment		Expedition 338 Scientists		On measurement of section analysis
34	Comment	Comment		Expedition 338 Scientists		Continued
35	Time Stamp	Time Stamp		Expedition 338 Scientists		Section analysis registration

License:

Creative Commons Attribution 3.0 Unported (CC-BY-3.0)

Size:

4913 data points

Data

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

1 Sample label (DSDP/ODP/IODP sample designation)	2 Depth sed [m]	3 Depth top [m] ([m CSF-B])	4 Elec imp mag f paper [Ohm] (Impedance analysis)	5 Elec imp phase angle f paper [deg] (Impedance analysis)	6 Elec imp mag X [Ohm] (Impedance analysis)	7 Elec imp phase angle X [deg] (Impedance analysis)	8 Elec imp mag Y [Ohm] (Impedance analysis)	9 Elec imp phase angle Y [deg] (Impedance analysis)	10 Elec imp mag Z [Ohm] (Impedance analysis)	11 Elec imp phase angle Z [deg] (Impedance analysis)	12 F X (Derived by impedance analysis...)	13 F Y (Derived by impedance analysis...)	14 F Z (Derived by impedance analysis...)	15 Resistivity X [Ohm m] (Impedance analysis)	16 Resistivity Y [Ohm m] (Impedance analysis)	17 Resistivity Z [Ohm m] (Impedance analysis)	18 Cond X [S/m] (Impedance analysis)	19 Cond Y [S/m] (Impedance analysis)	20 Cond Z [S/m] (Impedance analysis)	21 Aniso imp h (Impedance analysis)	22 T tech [°C] (Room temperature, Impedance a...)	23 Aniso imp v (Impedance analysis)	24 Time Stamp (Registration)	25 Elec imp mag standard seawater [Ohm] (Section, Impedance analysis)	26 Elec imp mag standard seawater [deg] (Section, Impedance analysis)	27 Elec imp mag Y [Ohm] (Section, Impedance analysis)	28 Elec imp phase angle Y [deg] (Section, Impedance analysis)	29 F Y (Section, Impedance analysis)	30 Cond Y [S/m] (Section, Impedance analysis)	31 Resistivity Y [Ohm m] (Section, Impedance analysis)	32 T tech [°C] (Room temperature, section, Im...)	33 Comment (On measurement of section ana...)	34 Comment (Continued)	35 Time Stamp (Section analysis registration)
338-C0022B-1H-4,122.0	4.180	4.174																						10.681810	-6.5076100	4.193080	-2.7132000	0.395	9.709	0.103	21.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:49:53
338-C0022B-1H-4,128.0	4.240	4.234																						10.681810	-6.5076100	8.985950	-2.6703200	0.844	4.505	0.222	21.5	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:49:53
338-C0022B-1H-5,71.0	5.080	5.073																						7.502740	-0.1102370	6.498670	2.8093600	0.866	4.425	0.226	21.0	MUD + GLAUCONITE, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:50:03
338-C0022B-1H-5,82.0	5.190	5.183																						7.502740	-0.1102370	6.868380	-0.2320510	0.916	4.184	0.239	21.0	MUD + GLAUCONITE, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:50:03
338-C0022B-1H-5,105.0	5.420	5.412																						7.502740	-0.1102370	6.785840	0.6682740	0.904	4.237	0.236	21.0	SILTY MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:50:03
338-C0022B-2H-1,10.0	19.600	19.594																						5.604270	6.6158600	5.026900	1.2289500	0.904	4.237	0.236	21.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:58:58
338-C0022B-2H-1,90.0	20.400	20.342																						5.604270	6.6158600	6.100820	5.2745000	1.092	3.509	0.285	21.0	SOUPY MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:58:58
338-C0022B-2H-3,113.0	21.830	21.680																						5.604270	6.6158600	7.221530	2.0824300	1.295	2.959	0.338	21.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:59:07
338-C0022B-2H-4,60.0	22.615	22.414																						5.604270	6.6158600	6.233790	6.5299100	1.111	3.448	0.290	21.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:59:16
338-C0022B-2H-5,60.0	23.955	23.668																						5.604270	6.6158600	7.665660	5.2634600	1.372	2.793	0.358	21.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:59:25
338-C0022B-2H-6,100.0	25.680	25.281																						5.604270	6.6158600	7.939620	4.3180400	1.421	2.695	0.371	21.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:59:34
338-C0022B-2H-7,100.0	27.030	26.544																						5.604270	6.6158600	7.529500	2.9222400	1.352	2.833	0.353	21.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:59:43
338-C0022B-2H-8,102.0	28.420	27.845																						5.604270	6.6158600	8.791070	1.7847500	1.579	2.427	0.412	21.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:59:54
338-C0022B-3H-1,10.0	29.100	29.091																						7.221760	2.7191800	5.891030	4.0748000	0.815	4.545	0.220	22.9	SOUPY MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:03:43
338-C0022B-3H-1,100.0	30.000	29.909																						7.221760	2.7191800	9.098020	5.2008000	1.256	2.950	0.339	22.9	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:03:43
338-C0022B-3H-3,2.0	30.475	30.341																						7.221760	2.7191800	10.265900	1.7487000	1.422	2.604	0.384	22.9	SILTY MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:03:52
338-C0022B-3H-3,35.0	30.805	30.641																						7.221760	2.7191800	9.021280	2.4626000	1.248	2.967	0.337	22.9	MUD + GLAUCONITE, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:03:52
338-C0022B-3H-4,120.0	33.030	32.664																						7.221760	2.7191800	25.966700	2.9562500	3.596	1.030	0.971	22.9	SAND, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:04:01
338-C0022B-3H-5,10.0	33.275	32.886																						7.221760	2.7191800	9.151240	2.5757400	1.267	2.924	0.342	22.9	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:04:11
338-C0022B-3H-6,120.0	35.730	35.118																						7.221760	2.7191800	13.970000	2.8965900	1.933	1.916	0.522	22.9	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:04:21
338-C0022B-3H-6,135.0	35.880	35.255																						7.221760	2.7191800	10.751600	2.8275800	1.489	2.488	0.402	22.9	SILTY MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:04:21
338-C0022B-3H-7,105.0	36.960	36.236																						7.221760	2.7191800	10.259300	1.5517400	1.422	2.604	0.384	22.9	MUD + GLAUCONITE, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:04:31
338-C0022B-3H-8,110.0	38.355	37.505																						7.221760	2.7191800	10.772000	2.4380400	1.493	2.481	0.403	22.9	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:04:40
338-C0022B-3H-9,20.0	38.765	37.877																						7.221760	2.7191800	10.776600	2.0884300	1.493	2.481	0.403	22.9	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:04:49
338-C0022B-4H-1,30.0	38.800	38.784																						8.096050	-3.2895200	7.640210	-4.4645100	0.941	3.937	0.254	22.9	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:04:58
338-C0022B-4H-3,120.0	40.915	40.785																						8.096050	-3.2895200	11.960500	-5.8417700	1.470	2.519	0.397	22.9	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:05:08
338-C0022B-4H-4,40.0	41.425	41.268																						8.096050	-3.2895200	9.994060	-4.4212100	1.233	3.003	0.333	22.9	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:05:17
338-C0022B-4H-5,50.0	42.825	42.592																						8.096050	-3.2895200	10.327500	-3.8589700	1.274	2.907	0.344	22.9	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:05:27
338-C0022B-4H-6,70.0	44.330	44.016																						8.096050	-3.2895200	8.041190	-4.1237200	0.993	3.731	0.268	22.9	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:05:36
338-C0022B-4H-7,23.0	45.165	44.807																						8.096050	-3.2895200	10.662300	-5.6953900	1.311	2.825	0.354	22.9	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:05:46
338-C0022B-4H-8,36.0	46.600	46.164																						8.096050	-3.2895200	9.463170	-3.7244000	1.167	3.175	0.315	22.9	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:05:55
338-C0022B-4H-9,55.0	48.100	47.584																						8.096050	-3.2895200	11.226000	-5.3019100	1.381	2.681	0.373	22.9	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:06:04
338-C0022B-5H-1,6.0	48.060	48.055																						8.033890	-9.3451400	8.524514	-5.1196910	1.070	3.448	0.290	23.2	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:06:14
338-C0022B-5H-3,5.0	49.635	49.510																						8.033890	-9.3451400	8.981970	-5.1998500	1.129	3.268	0.306	23.2	MUD BROWN, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:06:23
338-C0022B-5H-4,29.0	51.185	50.941																						8.033890	-9.3451400	9.162400	-4.7311700	1.151	3.205	0.312	23.2	MUD GREEN, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:06:32
338-C0022B-5H-4,52.0	51.415	51.153																						8.033890	-9.3451400	13.979900	-8.2394800	1.745	2.114	0.473	23.2	ASH, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:06:32
338-C0022B-5H-5,35.0	52.550	52.201																						8.033890	-9.3451400	10.062200	-5.5674800	1.262	2.924	0.342	23.2	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:06:41
338-C0022B-5H-6,33.0	53.835	53.387																						8.033890	-9.3451400	9.217660	-5.7180790	1.159	3.185	0.314	23.2	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:06:51
338-C0022B-5H-6,61.0	54.115	53.646																						8.033890	-9.3451400	12.853200	-6.5102500	1.613	2.288	0.437	23.2	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:06:51
338-C0022B-5H-7,17.0	54.980	54.444																						8.033890	-9.3451400	10.849200	-5.0557400	1.362	2.710	0.369	23.2	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:07:00
338-C0022B-5H-8,15.0	56.270	55.635																						8.033890	-9.3451400	9.749000	-5.5488000	1.225	3.012	0.332	23.2	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:07:09
338-C0022B-5H-8,96.0	57.080	56.383																						8.033890	-9.3451400	10.485860	-4.3252160	1.317	2.801	0.357	23.2	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:07:09
338-C0022B-5H-8,97.5	57.095	56.397																						8.033890	-9.3451400	16.741160	-9.7482110	2.081	1.773	0.564	23.2	ASH TOP, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:07:09
338-C0022B-5H-8,98.5	57.105	56.406																						8.033890	-9.3451400	19.794000	-10.9144600	2.450	1.506	0.664	23.2	ASH MIDDLE, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:07:09
338-C0022B-5H-8,100.0	57.120	56.420																						8.033890	-9.3451400	18.371300	-14.0844400	2.247	1.642	0.609	23.2	ASH BOTTOM + MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:07:09
338-C0022B-5H-8,105.0	57.170	56.466																						8.033890	-9.3451400	12.016320	-5.3215120	1.509	2.445	0.409	23.2	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:07:09
338-C0022B-5H-9,9.0	57.515	56.785																						8.033890	-9.3451400	11.100000	-5.1682900	1.395	2.646	0.378	23.2	MUD GREEN, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:07:19
338-C0022B-5H-9,12.0	57.545	56.812																						8.033890	-9.3451400	13.091100	-5.6055600	1.642	2.247	0.445	23.2	MUD BROWN, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:07:19
338-C0022B-6H-1,19.0	57.690	57.678																						8.033890	-9.3451400	9.338480	-4.5789100	1.173	3.145	0.318	23.2	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:07:28
338-C0022B-6H-3,31.0	59.080	58.977																						8.033890	-9.3451400	10.111700	-3.7873600	1.273	2.899	0.345	23.2	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:07:37
338-C0022B-6H-4,30.0	60.470	60.277																						8.033890	-9.3451400	8.777630	-3.4406700	1.107	3.333	0.300	23.2	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:07:47
338-C0022B-6H-5,34.0	61.915	61.628																						8.033890	-9.3451400	8.082830	-3.1209100	1.018	3.623	0.276	23.2	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:07:56
338-C0022B-6H-6,35.0	63.330	62.951																						8.033890	-9.3451400	9.146230	-4.8036000	1.151	3.205	0.312	23.2	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:08:06
338-C0022B-6H-7,33.0	64.715	64.246																						8.033890	-9.3451400	8.669600	-4.2282000	1.092	3.378	0.296	23.2	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:08:15
338-C0022B-6H-8,37.0	66.155	65.593																						8.033890	-9.3451400	10.316200	-5.4434800	1.295	2.849	0.351	23.2	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:08:25
338-C0022B-7H-2,22.0	67.470	67.428																						7.350600	0.0530000	8.455430	-0.7708420	1.151	3.205	0.312	23.2	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:08:34
338-C0022B-7H-3,100.0	69.645	69.408																						7.350600	0.0530000	7.605740	-1.1703000	1.033	3.571	0.280	23.2	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:08:43
338-C0022B-7H-4,69.0	70.745	70.409																						7.350600	0.0530000	9.261400	-1.3109800	1.258	2.933	0.341	23.2	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:08:53
338-C0022B-7H-5,90.0	72.360	71.880																						7.350600	0.0530000	10.835400	-1.6803400	1.472	2.506	0.399	23.2	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:09:02
338-C0022B-7H-6,21.0	73.100	72.553																						7.350600	0.0530000	10.780500	-0.6883900	1.465	2.519	0.397	23.2	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:09:11
338-C0022B-7H-8,106.0	75.225	74.488																						7.350600	0.0530000	12.190700	-2.0676500	1.657	2.227	0.449	23.2	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:09:21
338-C0022B-7H-9,82.0	76.375	75.535																						7.350600	0.0530000	13.892500	-1.7457600	1.889	1.953	0.512	23.2	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:09:30
338-C0022B-8H-1,45.0	76.950	76.903																						7.703230	0.8270000	10.947000	-0.2170000	1.422	2.558	0.391	24.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:09:39
338-C0022B-8H-1,85.0	77.350	77.262																						7.703230	0.8270000	7.789000	-1.6288600	1.011	3.597	0.278	24.0	SOUPY SANDY MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:09:39
338-C0022B-8H-2,2.0	77.400	77.307																						7.703230	0.8270000	21.553300	-3.2100000	2.793	1.302	0.768	24.0	SAND, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:09:49
338-C0022B-8H-2,52.0	77.900	77.755																						7.703230	0.8270000	13.726700	0.0363000	1.782	2.041	0.490	24.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:09:49
338-C0022B-8H-3,20.0	78.210	78.033																						7.703230	0.8270000	15.499500	-1.0350000	2.011	1.808	0.553	24.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:09:58
338-C0022B-8H-5,20.0	79.970	79.610																						7.703230	0.8270000	10.425800	-0.1160000	1.353	2.688	0.372	24.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:08
338-C0022B-8H-5,31.0	80.080	79.709																						7.703230	0.8270000	26.434800	-1.9130000	3.429	1.060	0.943	24.0	SAND, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:08
338-C0022B-8H-5,51.0	80.280	79.888																						7.703230	0.8270000	12.407800	-0.6910000	1.611	2.257	0.443	24.0	SILTY MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:08
338-C0022B-8H-5,130.0	81.070	80.596																						7.703230	0.8270000	11.509000	-0.6270000	1.495	2.433	0.411	24.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:08
338-C0022B-8H-6,18.0	81.375	80.870																						7.703230	0.8270000	11.690400	0.2410000	1.516	2.398	0.417	24.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:18
338-C0022B-8H-6,21.0	81.405	80.897																						7.703230	0.8270000	12.298200	-1.0930000	1.596	2.278	0.439	24.0	MUD SAND GRADIENT, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:18
338-C0022B-8H-6,22.0	81.415	80.906																						7.703230	0.8270000	15.062800	-0.5090000	1.956	1.859	0.538	24.0	MUD SAND GRADIENT, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:18
338-C0022B-8H-6,23.0	81.425	80.915																						7.703230	0.8270000	20.852000	-1.8408000	2.705	1.344	0.744	24.0	MUD SAND GRADIENT, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:18
338-C0022B-8H-6,24.0	81.435	80.924																						7.703230	0.8270000	30.079900	-3.9200000	3.895	0.934	1.071	24.0	SAND, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:18
338-C0022B-8H-6,25.0	81.445	80.933																						7.703230	0.8270000	19.193600	1.1560000	2.491	1.460	0.685	24.0	SAND + MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:18
338-C0022B-8H-6,26.0	81.455	80.942																						7.703230	0.8270000	12.600400	0.8690000	1.636	2.222	0.450	24.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:18
338-C0022B-8H-6,27.0	81.465	80.950																						7.703230	0.8270000	11.930400	-2.3716000	1.549	2.347	0.426	24.0	MUD SAND GRADIENT, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:18
338-C0022B-8H-6,29.0	81.485	80.968																						7.703230	0.8270000	10.455100	0.6969000	1.356	2.681	0.373	24.0	MUD SAND GRADIENT, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:18
338-C0022B-8H-6,31.0	81.505	80.986																						7.703230	0.8270000	10.107500	0.5826000	1.313	2.770	0.361	24.0	MUD SAND GRADIENT, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:18
338-C0022B-8H-6,33.0	81.525	81.004																						7.703230	0.8270000	10.998500	-0.4987000	1.429	2.545	0.393	24.0	MUD SAND GRADIENT, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:18
338-C0022B-8H-6,35.0	81.545	81.022																						7.703230	0.8270000	13.161600	0.0125600	1.709	2.128	0.470	24.0	MUD SAND GRADIENT, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:18
338-C0022B-8H-6,37.0	81.565	81.040																						7.703230	0.8270000	14.464300	-0.1103000	1.876	1.938	0.516	24.0	MUD SAND GRADIENT, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:18
338-C0022B-8H-6,39.0	81.585	81.058																						7.703230	0.8270000	11.631200	-0.1330000	1.509	2.410	0.415	24.0	MUD SAND GRADIENT, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:18
338-C0022B-8H-6,41.0	81.605	81.076																						7.703230	0.8270000	11.017800	0.4335000	1.429	2.545	0.393	24.0	MUD SAND GRADIENT, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:18
338-C0022B-8H-6,43.0	81.625	81.094																						7.703230	0.8270000	13.279200	-0.6610000	1.724	2.110	0.474	24.0	MUD SAND GRADIENT, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:18
338-C0022B-8H-6,45.0	81.645	81.112																						7.703230	0.8270000	13.882600	-0.8630000	1.804	2.016	0.496	24.0	MUD SAND GRADIENT, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:18
338-C0022B-8H-6,46.0	81.655	81.121																						7.703230	0.8270000	15.974100	0.2810000	2.073	1.754	0.570	24.0	MUD SAND GRADIENT, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:18
338-C0022B-8H-6,47.0	81.665	81.130																						7.703230	0.8270000	24.033000	-0.9412000	3.120	1.166	0.858	24.0	SAND, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:18
338-C0022B-8H-6,48.0	81.675	81.139																						7.703230	0.8270000	25.729300	0.0722900	3.342	1.088	0.919	24.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:18
338-C0022B-8H-6,49.0	81.685	81.148																						7.703230	0.8270000	14.600900	0.2008000	1.895	1.919	0.521	24.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:18
338-C0022B-8H-6,78.0	81.975	81.408																						7.703230	0.8270000	16.889100	-0.5957000	2.193	1.658	0.603	24.0	MUD + ASH, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:18
338-C0022B-8H-6,92.0	82.115	81.533																						7.703230	0.8270000	11.440600	0.1725000	1.484	2.451	0.408	24.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:18
338-C0022B-8H-6,96.0	82.155	81.569																						7.703230	0.8270000	22.462600	-1.8015000	2.916	1.247	0.802	24.0	SAND, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:18
338-C0022B-8H-6,100.0	82.195	81.605																						7.703230	0.8270000	11.112100	-0.4440000	1.444	2.519	0.397	24.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:18
338-C0022B-8H-6,106.0	82.255	81.659																						7.703230	0.8270000	17.039100	-0.6750000	2.211	1.645	0.608	24.0	SAND, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:18
338-C0022B-8H-6,115.0	82.345	81.739																						7.703230	0.8270000	11.661000	0.0659900	1.513	2.404	0.416	24.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:18
338-C0022B-8H-6,120.0	82.395	81.784																						7.703230	0.8270000	16.991300	0.1703000	2.207	1.647	0.607	24.0	SAND, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:18
338-C0022B-8H-6,135.0	82.545	81.919																						7.703230	0.8270000	12.472400	-0.3499000	1.618	2.247	0.445	24.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:18
338-C0022B-8H-7,5.0	82.675	82.035																						7.703230	0.8270000	11.632400	0.9311000	1.509	2.410	0.415	24.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:28
338-C0022B-8H-7,13.0	82.755	82.107																						7.703230	0.8270000	12.327200	-0.1426000	1.600	2.273	0.440	24.0	ASH, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:28
338-C0022B-8H-7,29.0	82.915	82.250																						7.703230	0.8270000	12.305100	-2.0390000	1.596	2.278	0.439	24.0	MUD + SAND FAULTED, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:28
338-C0022B-8H-7,38.0	83.005	82.331																						7.703230	0.8270000	12.105300	0.7277000	1.571	2.315	0.432	24.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:28
338-C0022B-8H-7,44.0	83.065	82.385																						7.703230	0.8270000	28.271000	-5.7155000	3.651	0.996	1.004	24.0	SAND, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:28
338-C0022B-8H-7,50.0	83.125	82.438																						7.703230	0.8270000	11.126000	-0.6124000	1.444	2.519	0.397	24.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:28
338-C0022B-8H-7,54.0	83.165	82.474																						7.703230	0.8270000	16.347800	0.0781900	2.124	1.712	0.584	24.0	MUD SAND GRADIENT, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:28
338-C0022B-8H-7,55.0	83.175	82.483																						7.703230	0.8270000	37.821100	-1.1109000	4.909	0.741	1.350	24.0	MUD SAND GRADIENT, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:28
338-C0022B-8H-7,56.0	83.185	82.492																						7.703230	0.8270000	20.929300	-0.3670000	2.716	1.339	0.747	24.0	MUD SAND GRADIENT, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:28
338-C0022B-8H-7,57.0	83.195	82.501																						7.703230	0.8270000	19.047400	-1.3980000	2.473	1.471	0.680	24.0	MUD SAND GRADIENT, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:28
338-C0022B-8H-7,58.0	83.205	82.510																						7.703230	0.8270000	6.900000	0.2623000	0.895	4.065	0.246	24.0	MUD SAND GRADIENT, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:28
338-C0022B-8H-7,59.0	83.215	82.519																						7.703230	0.8270000	14.208600	-0.2214000	1.844	1.972	0.507	24.0	SAND TRANSITION, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:28
338-C0022B-8H-7,78.0	83.405	82.689																						7.703230	0.8270000	12.794900	-0.4459000	1.662	2.188	0.457	24.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:28
338-C0022B-8H-7,79.0	83.415	82.698																						7.703230	0.8270000	13.545900	-0.4120000	1.760	2.066	0.484	24.0	MUD SAND GRADIENT, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:28
338-C0022B-8H-7,80.0	83.425	82.707																						7.703230	0.8270000	13.135700	-0.0361000	1.705	2.132	0.469	24.0	MUD SAND GRADIENT, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:28
338-C0022B-8H-7,81.0	83.435	82.716																						7.703230	0.8270000	13.929300	-0.4240000	1.807	2.012	0.497	24.0	MUD SAND GRADIENT, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:28
338-C0022B-8H-7,82.0	83.445	82.725																						7.703230	0.8270000	16.464100	-1.0450000	2.138	1.701	0.588	24.0	MUD SAND GRADIENT, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:28
338-C0022B-8H-7,83.0	83.455	82.734																						7.703230	0.8270000	17.660300	-0.3530000	2.295	1.585	0.631	24.0	MUD SAND GRADIENT, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:28
338-C0022B-8H-7,84.0	83.465	82.743																						7.703230	0.8270000	28.725500	-1.7475000	3.727	0.976	1.025	24.0	MUD SAND GRADIENT, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:28
338-C0022B-8H-7,85.0	83.475	82.752																						7.703230	0.8270000	23.966100	-0.6525000	3.113	1.168	0.856	24.0	SAND, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:28
338-C0022B-8H-7,86.0	83.485	82.761																						7.703230	0.8270000	29.312500	-9.0490000	3.760	0.967	1.034	24.0	SAND TRANSITION, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:28
338-C0022B-8H-7,87.0	83.495	82.770																						7.703230	0.8270000	20.203400	-0.3467000	2.622	1.387	0.721	24.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:28
338-C0022B-8H-7,90.0	83.525	82.797																						7.703230	0.8270000	14.003000	-0.4523000	1.818	2.000	0.500	24.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:28
338-C0022B-8H-7,94.0	83.565	82.833																						7.703230	0.8270000	22.392800	-2.0303000	2.905	1.252	0.799	24.0	SAND, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:28
338-C0022B-8H-7,105.0	83.675	82.931																						7.703230	0.8270000	14.138700	0.4490000	1.836	1.980	0.505	24.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:28
338-C0022B-8H-7,113.0	83.755	83.003																						7.703230	0.8270000	23.242200	-2.6770000	3.015	1.206	0.829	24.0	SAND, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:28
338-C0022B-8H-7,120.0	83.825	83.066																						7.703230	0.8270000	13.850800	-0.1748000	1.800	2.020	0.495	24.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:28
338-C0022B-8H-7,134.0	83.965	83.191																						7.703230	0.8270000	15.577400	-0.4817000	2.022	1.799	0.556	24.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:28
338-C0022B-8H-8,5.0	84.105	83.317																						7.703230	0.8270000	11.722800	0.2633000	1.524	2.387	0.419	24.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:38
338-C0022B-8H-8,12.0	84.175	83.380																						7.703230	0.8270000	29.965900	-1.0506000	3.891	0.935	1.070	24.0	SAND, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:38
338-C0022B-8H-8,20.0	84.255	83.451																						7.703230	0.8270000	12.691500	-0.3148000	1.647	2.208	0.453	24.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:38
338-C0022B-8H-8,29.0	84.345	83.532																						7.703230	0.8270000	25.759500	-0.0990000	3.345	1.087	0.920	24.0	SAND, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:38
338-C0022B-8H-8,44.0	84.495	83.666																						7.703230	0.8270000	29.683200	-3.2980000	3.847	0.945	1.058	24.0	SAND, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:38
338-C0022B-8H-8,50.0	84.555	83.720																						7.703230	0.8270000	12.413100	-0.1739000	1.611	2.257	0.443	24.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:38
338-C0022B-8H-8,75.0	84.805	83.944																						7.703230	0.8270000	12.105100	-0.5616000	1.571	2.315	0.432	24.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:38
338-C0022B-8H-8,85.0	84.905	84.034																						7.703230	0.8270000	12.444300	-0.9367000	1.615	2.252	0.444	24.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:38
338-C0022B-9T-1,2.0	84.520	84.519																						7.703230	0.8270000	8.619200	0.3280000	1.120	3.247	0.308	24.1	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:48
338-C0022B-9T-1,18.0	84.680	84.666																						7.703230	0.8270000	7.902000	0.1540000	1.025	3.546	0.282	24.1	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:48
338-C0022B-9T-3,10.0	85.130	85.081																						7.703230	0.8270000	7.777960	1.0180000	1.011	3.597	0.278	24.1	MUD + SAND, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:57
338-C0022B-9T-3,20.0	85.230	85.173																						7.703230	0.8270000	13.473200	-1.6134400	1.749	2.079	0.481	24.1	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:57
338-C0022B-9T-3,33.0	85.360	85.293																						7.703230	0.8270000	10.401000	0.1382000	1.349	2.695	0.371	24.1	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:57
338-C0022B-9T-3,75.0	85.780	85.681																						7.703230	0.8270000	11.050500	-0.5432000	1.436	2.532	0.395	24.1	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:10:57
338-C0022B-9T-4,25.0	86.685	86.516																						7.703230	0.8270000	9.701620	-0.1039000	1.258	2.890	0.346	24.1	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:11:07
338-C0022B-9T-5,25.0	88.085	87.807																						7.703230	0.8270000	10.467400	0.8107000	1.360	2.674	0.374	24.1	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:11:16
338-C0022B-9T-6,25.0	89.090	88.734																						7.703230	0.8270000	13.526400	-0.3430000	1.756	2.070	0.483	24.1	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:11:25
338-C0022B-9T-CC,20.0	89.820	89.408																						7.703230	0.8270000	9.522380	0.0146000	1.236	2.941	0.340	24.1	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:11:34
338-C0022B-10T-1,52.0	90.020	89.975																						5.148070	1.1821100	8.845060	-7.2952400	1.705	2.132	0.469	24.1	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:41:06
338-C0022B-10T-3,36.0	90.910	90.789																						5.148070	1.1821100	8.442850	-1.1880400	1.640	2.217	0.451	24.1	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:41:15
338-C0022B-10T-4,41.0	92.365	92.119																						5.148070	1.1821100	10.108100	-1.5296800	1.964	1.852	0.540	24.1	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:41:24
338-C0022B-10T-5,14.0	93.500	93.156																						6.801661	0.4415078	10.961070	-3.6537080	1.607	2.262	0.442	24.1	CORRECT Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:41:34
338-C0022B-10T-5,14.0	93.500	93.156																						6.528587	2.2465810	11.045070	-12.4312000	1.655	2.198	0.455	24.1	INCORRECT, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:41:34
338-C0022B-10T-5,87.0	94.230	93.824																						6.801661	0.4415078	14.236470	9.5884310	2.065	1.761	0.568	24.1	CORRECT Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:41:34
338-C0022B-10T-5,87.0	94.230	93.824																						6.528587	2.2465810	12.089080	16.9868600	1.771	2.053	0.487	24.1	INCORRECT, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:41:34
338-C0022B-11T-1,42.0	94.920	94.920																						6.801661	0.4415078	4.088062	15.0345800	0.582	6.250	0.160	24.1	CORRECT Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:41:43
338-C0022B-11T-1,42.0	94.920	94.920																						6.528587	2.2465810	8.444278	-0.3663670	1.295	2.809	0.356	24.1	INCORRECT, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:41:43
338-C0022B-11T-CC,2.0	95.380	95.380																						5.745337	0.2091237	12.303100	-7.9750700	2.120	1.715	0.583	24.0	INCORRECT, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:41:53
338-C0022B-11T-CC,2.0	95.380	95.380																						7.492470	0.6518670	14.987600	-0.7526560	2.000	1.818	0.550	24.0	CORRECT Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:41:53
338-C0022B-11T-CC,2.0	95.380	95.380																						7.880000	0.2300000	15.000000	-4.0000000	1.898	1.916	0.522	24.0	CORRECT Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:41:53
338-C0022B-12X-1,32.0	99.820	99.707																						5.387220	1.4060000	7.285820	1.2588000	1.353	2.688	0.372	24.1	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:42:02
338-C0022B-12X-2,20.0	101.105	100.539																						5.387220	1.4060000	9.067410	0.6018000	1.684	2.160	0.463	24.1	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:42:12
338-C0022B-12X-3,35.0	102.440	101.403																						5.387220	1.4060000	7.469340	-0.3451000	1.385	2.625	0.381	24.1	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:42:21
338-C0022B-12X-4,12.0	102.850	101.668																						5.387220	1.4060000	10.442700	0.2460000	1.938	1.876	0.533	24.1	BROWN MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:42:31
338-C0022B-12X-4,36.0	103.090	101.824																						5.387220	1.4060000	10.681100	-0.9885000	1.982	1.835	0.545	24.1	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:42:31
338-C0022B-12X-5,28.0	104.440	102.697																						5.387220	1.4060000	9.464500	-0.1462000	1.756	2.070	0.483	24.1	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:42:40
338-C0022B-12X-6,17.0	105.735	103.536																						5.387220	1.4060000	9.796130	-0.3206000	1.818	2.000	0.500	24.1	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:42:49
338-C0022B-12X-6,20.0	105.765	103.555																						5.387220	1.4060000	10.041000	0.2300000	1.865	1.949	0.513	24.1	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:42:49
338-C0022B-13X-1,71.0	105.210	105.000																						5.305570	-0.7124880	8.718850	-1.8422400	1.644	2.252	0.444	22.9	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:42:59
338-C0022B-13X-2,9.0	105.990	105.550																						5.305570	-0.7124880	9.418922	-1.3505780	1.774	2.088	0.479	22.9	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:43:08
338-C0022B-13X-3,138.0	108.070	107.016																						5.305570	-0.7124880	8.469370	0.5912940	1.596	2.320	0.431	22.9	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:43:17
338-C0022B-13X-4,27.0	108.380	107.234																						5.305570	-0.7124880	8.791200	-0.6934290	1.656	2.237	0.447	22.9	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:43:27
338-C0022B-13X-6,25.0	110.715	108.880																						5.305570	-0.7124880	11.394600	-0.8441400	2.148	1.724	0.580	22.9	SILTY MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:43:37
338-C0022B-14X-1,40.0	109.900	109.712																						5.249780	-0.3652460	9.696760	-0.6475450	1.848	2.004	0.499	22.9	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:43:46
338-C0022B-14X-2,97.0	111.670	110.652																						5.249780	-0.3652460	10.024900	-0.5013290	1.911	1.938	0.516	22.9	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:43:55
338-C0022B-14X-3,100.0	113.100	111.411																						5.249780	-0.3652460	10.422300	-0.4734460	1.985	1.866	0.536	22.9	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:44:04
338-C0022B-14X-4,119.0	114.690	112.255																						5.249780	-0.3652460	7.524040	0.2570910	1.433	2.584	0.387	22.9	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:44:14
338-C0022B-14X-5,70.0	115.620	112.748																						5.249780	-0.3652460	8.989340	-0.2566290	1.711	2.165	0.462	22.9	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:44:23
338-C0022B-14X-6,66.0	116.980	113.470																						5.249780	-0.3652460	9.719310	0.1026400	1.852	2.000	0.500	22.9	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:44:32
338-C0022B-15X-1,89.0	115.390	115.390																						5.466910	0.4760000	9.923710	-1.2333410	1.815	2.033	0.492	23.1	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:44:42
338-C0022B-15X-2,2.0	115.920	115.920																						5.466910	0.4760000	9.581110	-1.8496300	1.753	2.105	0.475	23.1	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:44:51
338-C0022B-15X-2,56.0	116.460	116.460																						5.466910	0.4760000	8.556620	-1.2577900	1.565	2.358	0.424	23.1	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:44:51
338-C0022B-15X-3,18.0	117.570	117.570																						5.466910	0.4760000	11.806800	-1.9890900	2.159	1.709	0.585	23.1	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:45:01
338-C0022B-15X-4,50.0	119.290	119.290																						5.466910	0.4760000	9.553920	-1.6272000	1.745	2.114	0.473	23.1	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:45:11
338-C0022B-15X-5,13.0	120.330	120.330																						5.466910	0.4760000	9.906550	-2.2043100	1.812	2.037	0.491	23.1	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:45:20
338-C0022B-15X-6,30.0	121.910	121.910																						5.466910	0.4760000	10.181500	-1.9462100	1.860	1.984	0.504	23.1	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:45:29
338-C0022B-15X-7,37.0	122.985	122.985																						5.466910	0.4760000	10.057900	-2.9685400	1.838	2.008	0.498	23.1	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:45:39
338-C0022B-15X-7,48.0	123.095	123.095																						5.466910	0.4760000	11.316200	-2.3606300	2.066	1.786	0.560	23.1	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:45:39
338-C0022B-15X-7,62.0	123.235	123.235																						5.466910	0.4760000	13.265600	-2.4591600	2.424	1.522	0.657	23.1	BLACK SAND, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:45:39
338-C0022B-16X-1,75.0	124.750	124.750																						5.482820	-1.5568500	11.868700	-11.8362000	2.118	1.742	0.574	23.1	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:45:49
338-C0022B-16X-2,12.0	125.500	125.500																						5.482820	-1.5568500	9.137310	-2.5045000	1.664	2.217	0.451	23.1	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:45:58
338-C0022B-16X-3,30.0	126.990	126.990																						5.482820	-1.5568500	10.363000	-0.5893730	1.889	1.953	0.512	23.1	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:46:08
338-C0022B-16X-5,38.0	128.100	128.100																						5.482820	-1.5568500	11.524800	-0.2281150	2.103	1.754	0.570	23.1	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:46:18
338-C0022B-16X-6,81.0	129.500	129.500																						5.482820	-1.5568500	8.590150	-0.4696100	1.568	2.353	0.425	23.1	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:46:28
338-C0022B-16X-7,35.0	130.450	130.450																						5.482820	-1.5568500	10.536700	-1.1541600	1.923	1.919	0.521	23.1	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:46:38
338-C0022B-16X-8,58.0	131.680	131.680																						5.482820	-1.5568500	9.565430	-0.5934390	1.745	2.114	0.473	23.1	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:46:49
338-C0022B-17X-1,42.0	133.920	133.920																						5.668540	-0.6810000	8.455440	-1.5740100	1.493	2.500	0.400	22.6	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:47:00
338-C0022B-17X-3,22.0	135.240	135.240																						5.668540	-0.6810000	9.100580	-1.8664700	1.604	2.326	0.430	22.6	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:47:10
338-C0022B-17X-4,20.0	136.630	136.630																						5.668540	-0.6810000	9.322450	-1.0018700	1.646	2.268	0.441	22.6	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:47:20
338-C0022B-17X-5,15.0	137.995	137.995																						5.668540	-0.6810000	11.291400	-1.6584600	1.993	1.873	0.534	22.6	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:47:30
338-C0022B-17X-6,33.0	139.575	139.575																						5.668540	-0.6810000	9.120980	-1.3674800	1.608	2.320	0.431	22.6	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:47:40
338-C0022B-17X-7,16.0	140.505	140.505																						5.668540	-0.6810000	8.730000	-0.1443000	1.541	2.421	0.413	22.6	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:47:51
338-C0022B-17X-7,25.0	140.595	140.595																						5.668540	-0.6810000	10.012300	-0.4945000	1.765	2.114	0.473	22.6	ASH, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:47:51
338-C0022B-17X-7,41.0	140.755	140.755																						5.668540	-0.6810000	8.305690	0.8340000	1.466	2.545	0.393	22.6	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:47:51
338-C0022B-17X-7,47.0	140.815	140.815																						5.668540	-0.6810000	9.668350	-1.0245300	1.705	2.188	0.457	22.6	ASH + MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:47:51
338-C0022B-17X-7,69.0	141.035	141.035																						5.668540	-0.6810000	10.846200	-0.0485000	1.914	1.949	0.513	22.6	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:47:51
338-C0022B-17X-8,37.0	141.745	141.745																						5.668540	-0.6810000	8.833840	-0.2859000	1.560	2.392	0.418	22.6	LIGHT MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:48:02
338-C0022B-17X-8,50.0	141.875	141.875																						5.668540	-0.6810000	9.743950	0.4800000	1.720	2.169	0.461	22.6	DARK MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:48:02
338-C0022B-17X-8,67.0	142.045	142.045																						5.668540	-0.6810000	11.803500	-2.3050000	2.082	1.792	0.558	22.6	BLACK SAND, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:48:02
338-C0022B-17X-8,71.0	142.085	142.085																						5.668540	-0.6810000	8.049180	-0.3221000	1.422	2.625	0.381	22.6	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:48:02
338-C0022B-18X-1,7.0	143.070	143.070																						5.524930	0.2168480	8.954070	-1.0276300	1.619	2.304	0.434	22.4	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:48:12
338-C0022B-18X-1,24.0	143.240	143.240																						5.524930	0.2168480	7.633760	-1.1047900	1.381	2.703	0.370	22.4	BLACK SAND, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:48:12
338-C0022B-18X-2,8.0	143.580	143.580																						5.524930	0.2168480	10.665190	-0.7802553	1.929	1.934	0.517	22.4	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:48:23
338-C0022B-18X-2,28.0	143.780	143.780																						5.524930	0.2168480	10.114600	-1.5916100	1.828	2.041	0.490	22.4	BLACK SOUPY MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:48:23
338-C0022B-18X-2,37.0	143.870	143.870																						5.524930	0.2168480	6.661180	-3.6770000	1.201	3.106	0.322	22.4	GRAY SOUPY MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:48:23
338-C0022B-18X-3,3.0	144.820	144.820																						5.524930	0.2168480	7.006020	-0.5327090	1.269	2.941	0.340	22.4	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:48:33
338-C0022B-18X-3,28.0	145.070	145.070																						5.524930	0.2168480	8.614410	-0.7955270	1.560	2.392	0.418	22.4	SOUPY MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:48:33
338-C0022B-18X-3,57.0	145.360	145.360																						5.524930	0.2168480	10.208400	-2.3204300	1.847	2.020	0.495	22.4	BLACK SAND, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:48:33
338-C0022B-18X-5,44.0	146.335	146.335																						5.524930	0.2168480	10.004500	-1.0542800	1.810	2.062	0.485	22.4	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:48:43
338-C0022B-18X-6,21.0	146.765	146.765																						5.524930	0.2168480	9.598570	-0.4092850	1.739	2.146	0.466	22.4	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:48:53
338-C0022B-19X-1,10.0	152.600	152.600																						5.904350	0.3114170	10.223300	-1.5099700	1.730	2.165	0.462	22.2	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:49:03
338-C0022B-19X-1,21.0	152.710	152.710																						5.904350	0.3114170	11.269800	-1.7972170	1.906	1.965	0.509	22.2	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:49:03
338-C0022B-19X-1,23.0	152.730	152.730																						5.904350	0.3114170	10.149500	-1.6482100	1.719	2.179	0.459	22.2	SAND, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:49:03
338-C0022B-19X-1,30.0	152.800	152.800																						5.904350	0.3114170	11.134200	-0.9055740	1.884	1.988	0.503	22.2	ASH, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:49:03
338-C0022B-19X-3,25.0	153.870	153.870																						5.904350	0.3114170	13.958700	-0.3118500	2.363	1.585	0.631	22.2	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:49:13
338-C0022B-19X-4,20.0	154.270	154.270																						5.904350	0.3114170	21.314400	-1.4440500	3.610	1.037	0.964	22.2	SAND, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:49:23
338-C0022B-19X-4,52.0	154.590	154.590																						5.904350	0.3114170	11.833400	-1.2951000	2.004	1.869	0.535	22.2	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:49:23
338-C0022B-19X-5,15.0	154.755	154.755																						5.904350	0.3114170	12.301100	-0.3356810	2.082	1.799	0.556	22.2	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:49:33
338-C0022B-19X-6,16.0	155.570	155.570																						5.904350	0.3114170	10.498600	-0.7924420	1.779	2.105	0.475	22.2	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:49:43
338-C0022B-20X-1,31.0	190.810	190.802																						4.818170	3.9051200	9.872600	-0.2316810	2.053	1.832	0.546	22.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:50:23
338-C0022B-20X-1,47.0	190.970	190.957																						4.818170	3.9051200	5.424470	-0.7477160	1.128	3.333	0.300	22.0	BLACK SAND, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:50:23
338-C0022B-20X-2,9.0	191.335	191.312																						4.818170	3.9051200	10.832900	-1.0543100	2.252	1.669	0.599	22.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:50:32
338-C0022B-20X-2,11.0	191.355	191.332																						4.818170	3.9051200	9.751170	-2.3907900	2.026	1.855	0.539	22.0	SOUPY SAND, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:50:32
338-C0022B-20X-3,17.0	192.465	192.412																						4.818170	3.9051200	10.476900	-0.8348670	2.180	1.724	0.580	22.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:50:41
338-C0022B-20X-3,59.0	192.885	192.820																						4.818170	3.9051200	10.816800	-0.1038630	2.252	1.669	0.599	22.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:50:41
338-C0022B-20X-5,6.0	193.930	193.837																						4.818170	3.9051200	28.625350	-7.5095800	5.902	0.637	1.570	22.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:50:51
338-C0022B-20X-6,17.0	194.645	194.533																						4.818170	3.9051200	31.426400	-1.5587900	6.534	0.575	1.738	22.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:51:00
338-C0022B-20X-7,46.0	196.050	195.899																						4.818170	3.9051200	10.768600	-2.7649400	2.237	1.681	0.595	22.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:51:11
338-C0022B-20X-8,10.0	197.085	196.906																						4.818170	3.9051200	10.404800	-2.4601800	2.162	1.739	0.575	22.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:51:20
338-C0022B-20X-9,17.0	197.740	197.544																						4.818170	3.9051200	10.416000	-1.1270900	2.165	1.736	0.576	22.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:51:29
338-C0022B-20X-10,27.0	199.150	198.915																						4.818170	3.9051200	10.916200	-1.0577600	2.271	1.656	0.604	22.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:50:13
338-C0022B-21X-2,70.0	200.935	200.935																						6.036590	-0.0893372	8.541100	-0.5982520	1.416	2.646	0.378	22.3	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:51:49
338-C0022B-21X-3,28.0	201.855	201.855																						6.036590	-0.0893372	8.522870	0.2501130	1.412	2.653	0.377	22.3	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:51:58
338-C0022B-21X-4,77.0	202.910	202.910																						6.036590	-0.0893372	9.458480	-0.7120780	1.566	2.392	0.418	22.3	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:52:08
338-C0022B-21X-5,35.0	203.680	203.680																						6.036590	-0.0893372	10.120700	-0.3339660	1.678	2.232	0.448	22.3	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:52:17
338-C0022B-21X-7,18.0	204.710	204.710																						6.036590	-0.0893372	9.815660	-0.3994860	1.625	2.304	0.434	22.3	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:52:26
338-C0022B-21X-8,29.0	206.195	206.195																						6.036590	-0.0893372	9.413800	-1.9291500	1.558	2.404	0.416	22.3	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:52:36
338-C0022B-21X-9,31.0	207.480	207.480																						6.036590	-0.0893372	11.076200	-2.2775400	1.835	2.041	0.490	22.3	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:52:45
338-C0022B-21X-10,60.0	208.440	208.440																						6.036590	-0.0893372	11.551200	-0.4336860	1.914	1.957	0.511	22.3	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:51:39
338-C0022B-22X-1,59.0	210.090	210.090																						6.425330	3.8714400	9.752300	-0.1251000	1.522	2.451	0.408	22.5	MUD (*LIGHT), Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:52:54
338-C0022B-22X-1,77.0	210.270	210.270																						6.425330	3.8714400	9.091050	-1.3626600	1.418	2.632	0.380	22.5	MUD (GREENSIGH), Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:52:54
338-C0022B-22X-1,128.0	210.780	210.780																						6.425330	3.8714400	16.807500	-1.0181400	2.623	1.422	0.703	22.5	SAND, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:52:54
338-C0022B-22X-1,133.0	210.830	210.830																						6.425330	3.8714400	12.962400	-1.0566000	2.022	1.845	0.542	22.5	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:52:54
338-C0022B-22X-CC,12.0	210.960	210.960																						6.425330	3.8714400	11.403400	-1.2034300	1.780	2.096	0.477	22.5	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:53:04
338-C0022B-23X-1,17.0	219.170	219.159																						6.124510	-0.6134310	16.898000	-3.3531200	2.755	1.350	0.741	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:53:23
338-C0022B-23X-2,56.0	219.910	219.853																						6.124510	-0.6134310	9.624520	-0.5298370	1.572	2.364	0.423	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:53:32
338-C0022B-23X-3,17.0	220.935	220.814																						6.124510	-0.6134310	8.581750	0.1844790	1.401	2.653	0.377	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:53:42
338-C0022B-23X-5,37.0	221.975	221.789																						6.124510	-0.6134310	12.639300	-0.8979540	2.063	1.802	0.555	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:53:51
338-C0022B-23X-6,75.0	223.755	223.457																						6.124510	-0.6134310	11.009600	-0.4666450	1.799	2.066	0.484	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:54:00
338-C0022B-23X-7,77.0	225.135	224.751																						6.124510	-0.6134310	11.721700	-1.6303000	1.914	1.942	0.515	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:54:09
338-C0022B-23X-8,97.0	226.555	226.082																						6.124510	-0.6134310	9.797000	-0.5921820	1.599	2.326	0.430	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:54:18
338-C0022B-23X-9,35.0	227.275	226.757																						6.124510	-0.6134310	11.305000	-0.1127070	1.848	2.012	0.497	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:54:27
338-C0022B-23X-10,57.0	228.575	227.975																						6.124510	-0.6134310	10.981200	-1.4774500	1.792	2.075	0.482	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:53:13
338-C0022B-24X-1,37.0	266.870	266.870																						6.468230	4.5146400	12.776900	-1.2358500	1.981	1.876	0.533	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:54:37
338-C0022B-24X-2,12.0	268.000	268.000																						6.468230	4.5146400	12.703900	-1.5066400	1.970	1.887	0.530	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:54:46
338-C0022B-24X-4,97.0	270.075	270.075																						6.468230	4.5146400	11.396800	-1.7773500	1.766	2.105	0.475	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:54:55
338-C0022B-24X-5,49.0	271.035	271.035																						6.468230	4.5146400	11.805500	-0.8738810	1.829	2.033	0.492	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:55:04
338-C0022B-24X-6,56.0	272.460	272.460																						6.468230	4.5146400	12.050700	-0.5072200	1.870	1.988	0.503	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:55:15
338-C0022B-24X-7,50.0	273.760	273.760																						6.468230	4.5146400	14.425100	-1.3136300	2.238	1.661	0.602	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:55:24
338-C0022B-24X-8,69.0	275.350	275.350																						6.468230	4.5146400	12.123300	-1.1550200	1.881	1.976	0.506	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:55:33
338-C0022B-25X-1,44.0	276.440	276.440																						6.435000	-0.4328410	14.023200	-3.2901300	2.175	1.709	0.585	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:55:42
338-C0022B-26X-1,24.0	285.740	285.682																						6.524030	-0.7120000	17.463800	-2.9117600	2.673	1.391	0.719	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:55:51
338-C0022B-26X-1,106.0	286.560	286.306																						6.524030	-0.7120000	13.431500	-2.5069200	2.056	1.808	0.553	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:55:51
338-C0022B-26X-2,28.0	287.150	286.754																						6.524030	-0.7120000	12.075500	-2.6087600	1.848	2.012	0.497	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:56:01
338-C0022B-26X-2,123.0	288.100	287.476																						6.524030	-0.7120000	11.734900	-2.0159200	1.799	2.066	0.484	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:56:01
338-C0022B-26X-3,25.0	288.525	287.799																						6.524030	-0.7120000	11.038200	-1.7980000	1.691	2.198	0.455	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:56:10
338-C0022B-26X-3,108.0	289.355	288.429																						6.524030	-0.7120000	13.880100	-2.2891400	2.126	1.748	0.572	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:56:10
338-C0022B-26X-4,20.0	289.885	288.832																						6.524030	-0.7120000	12.841200	-1.7134600	1.967	1.890	0.529	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:56:20
338-C0022B-26X-4,108.0	290.765	289.501																						6.524030	-0.7120000	15.910400	-1.8342300	2.439	1.524	0.656	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:56:20
338-C0022B-26X-5,29.0	291.080	289.740																						6.524030	-0.7120000	12.693000	-1.3438100	1.944	1.912	0.523	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:56:29
338-C0022B-26X-6,40.0	291.505	290.063																						6.524030	-0.7120000	11.619700	-2.2301100	1.781	2.088	0.479	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:56:38
338-C0022B-26X-CC,16.0	291.885	290.352																						6.524030	-0.7120000	12.770300	-2.2467500	1.955	1.901	0.526	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:56:48
338-C0022B-26X-CC,22.0	291.945	290.397																						6.524030	-0.7120000	13.524200	-2.3372600	2.071	1.795	0.557	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:56:48
338-C0022B-27X-1,19.0	290.690	290.687																						6.524030	-0.7120000	13.930200	-1.6676000	2.134	1.742	0.574	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:56:57
338-C0022B-27X-1,95.0	291.450	291.433																						6.524030	-0.7120000	13.567200	-2.4541100	2.078	1.789	0.559	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:56:57
338-C0022B-27X-2,7.0	291.970	291.944																						6.524030	-0.7120000	18.052800	-3.2436800	2.762	1.346	0.743	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:57:07
338-C0022B-27X-2,31.0	292.210	292.180																						6.524030	-0.7120000	10.949900	-2.6278600	1.677	2.217	0.451	22.7	LIGHT MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:57:07
338-C0022B-27X-3,76.0	294.070	294.007																						6.524030	-0.7120000	12.126000	-3.6280400	1.855	2.004	0.499	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:57:16
338-C0022B-27X-5,5.0	294.705	294.631																						6.524030	-0.7120000	11.761100	-2.2246400	1.803	2.062	0.485	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:57:25
338-C0022B-27X-5,29.0	294.945	294.866																						6.524030	-0.7120000	13.345800	-1.9352500	2.045	1.818	0.550	22.7	SANDY MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:57:25
338-C0022B-28X-1,30.0	295.800	295.759																						6.598710	-0.5293390	16.252300	-4.3218400	2.457	1.513	0.661	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:57:34
338-C0022B-28X-2,15.0	296.875	296.688																						6.598710	-0.5293390	8.988580	-2.2383900	1.361	2.732	0.366	22.7	BLACK SOUPY SAND, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:57:44
338-C0022B-28X-2,35.0	297.075	296.861																						6.598710	-0.5293390	14.665500	-2.2253900	2.219	1.675	0.597	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:57:44
338-C0022B-28X-2,43.0	297.155	296.930																						6.598710	-0.5293390	7.382870	-0.8039140	1.119	3.322	0.301	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:57:44
338-C0022B-28X-4,98.0	298.875	298.417																						6.598710	-0.5293390	14.036000	-2.7270500	2.126	1.748	0.572	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:57:53
338-C0022B-28X-4,105.0	298.945	298.478																						6.598710	-0.5293390	10.541050	-2.0154330	1.595	2.331	0.429	22.7	BLACK SAND, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:57:53
338-C0022B-28X-5,34.0	299.505	298.962																						6.598710	-0.5293390	9.318250	1.1220900	1.413	2.632	0.380	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:58:02
338-C0022B-28X-5,40.0	299.565	299.013																						6.598710	-0.5293390	10.629400	-1.0834000	1.610	2.309	0.433	22.7	SAND, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:58:02
338-C0022B-28X-6,1.0	300.335	299.679																						6.598710	-0.5293390	3.368760	2.2541400	0.509	7.299	0.137	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:58:11
338-C0022B-29X-1,25.0	300.750	300.750																						6.416730	-0.2025600	9.105130	-3.4052200	1.416	2.625	0.381	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:58:20
338-C0022B-29X-1,28.0	300.780	300.780																						6.416730	-0.2025600	9.444200	-7.1016200	1.461	2.545	0.393	22.7	BLACK SOUPY MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:58:20
338-C0022B-29X-3,22.0	302.015	302.015																						6.416730	-0.2025600	13.670900	-1.6438400	2.130	1.745	0.573	22.7	SAND, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:58:29
338-C0022B-29X-3,50.0	302.295	302.295																						6.416730	-0.2025600	11.605600	-1.4894700	1.807	2.058	0.486	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:58:29
338-C0022B-29X-4,18.0	303.380	303.380																						6.416730	-0.2025600	8.841360	-1.0456100	1.379	2.695	0.371	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:58:39
338-C0022B-29X-4,35.0	303.550	303.550																						6.416730	-0.2025600	11.060000	-1.7199500	1.721	2.160	0.463	22.7	SAND, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:58:39
338-C0022B-29X-5,14.0	304.255	304.255																						6.416730	-0.2025600	11.233800	-2.2390400	1.751	2.123	0.471	22.7	SAND, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:58:48
338-C0022B-29X-5,26.0	304.375	304.375																						6.416730	-0.2025600	14.566200	-3.6905200	2.264	1.642	0.609	22.7	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:58:48
338-C0022B-29X-5,74.0	304.855	304.855																						6.416730	-0.2025600	11.252100	-1.6036600	1.752	2.114	0.473	23.0	SAND, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T05:58:48
338-C0022B-30X-1,14.0	305.640	305.640																						6.416730	-0.2025600	7.150810	-0.5111080	1.115	3.322	0.301	23.0	ASH, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:00:03
338-C0022B-30X-1,55.0	306.050	306.050																						6.416730	-0.2025600	9.247870	-3.1684000	1.441	2.571	0.389	23.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:00:03
338-C0022B-30X-2,30.0	307.010	307.010																						6.416730	-0.2025600	11.216700	-1.8714200	1.748	2.119	0.472	23.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:00:13
338-C0022B-30X-4,115.0	308.830	308.830																						6.416730	-0.2025600	10.402500	-1.7996300	1.619	2.288	0.437	23.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:00:22
338-C0022B-30X-4,117.0	308.850	308.850																						6.416730	-0.2025600	11.324100	-2.0138000	1.763	2.101	0.476	23.0	SAND, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:00:22
338-C0022B-30X-5,47.0	309.560	309.560																						6.416730	-0.2025600	8.756180	-1.2891500	1.363	2.717	0.368	23.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:00:32
338-C0022B-30X-5,49.0	309.580	309.580																						6.416730	-0.2025600	10.943200	-1.8599500	1.704	2.174	0.460	23.0	SAND, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:00:32
338-C0022B-30X-5,127.0	310.360	310.360																						6.416730	-0.2025600	8.116360	-1.9252900	1.263	2.933	0.341	23.0	SOUPY ASH, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:00:32
338-C0022B-30X-6,125.0	311.760	311.760																						6.416730	-0.2025600	10.517400	-1.5386000	1.637	2.262	0.442	23.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:00:41
338-C0022B-30X-7,72.0	312.630	312.630																						6.416730	-0.2025600	21.594200	-2.3066900	3.363	1.101	0.908	23.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:00:51
338-C0022B-30X-8,4.0	313.300	313.300																						6.416730	-0.2025600	12.098400	-1.8871800	1.885	1.965	0.509	23.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:01:01
338-C0022B-31X-1,15.0	315.150	315.143																						4.350890	1.7396300	13.990300	-2.1976600	3.215	1.152	0.868	23.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:01:10
338-C0022B-31X-3,49.0	316.840	316.752																						4.350890	1.7396300	13.078700	-1.1466500	3.007	1.232	0.812	23.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:01:19
338-C0022B-31X-4,16.0	317.820	317.686																						4.350890	1.7396300	11.781000	-0.9985530	2.707	1.368	0.731	23.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:01:29
338-C0022B-31X-5,50.0	319.490	319.276																						4.350890	1.7396300	13.473600	-3.2737600	3.093	1.198	0.835	23.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:01:38
338-C0022B-31X-6,22.0	320.620	320.352																						4.350890	1.7396300	12.950500	-3.8182700	2.970	1.247	0.802	23.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:01:48
338-C0022B-31X-7,22.0	322.020	321.686																						4.350890	1.7396300	14.799800	-1.8414000	3.400	1.089	0.918	23.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:01:57
338-C0022B-31X-8,23.0	323.410	323.010																						4.350890	1.7396300	12.070700	-1.6358300	2.774	1.335	0.749	23.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:02:06
338-C0022B-32X-1,5.0	324.550	324.550																						5.878200	-5.7171400	8.404520	-1.3644300	1.438	2.558	0.391	23.4	SOUPY SAND, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:02:15
338-C0022B-32X-1,88.0	325.380	325.380																						5.878200	-5.7171400	8.659660	-1.4860400	1.482	2.481	0.403	23.4	BLACK SAND + MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:02:15
338-C0022B-32X-1,135.0	325.850	325.850																						5.878200	-5.7171400	11.790900	-4.3088800	2.011	1.828	0.547	23.4	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:02:15
338-C0022B-32X-CC,15.0	326.080	326.080																						5.878200	-5.7171400	11.075400	-1.9353000	1.893	1.942	0.515	23.4	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:02:25
338-C0022B-33X-1,15.0	334.150	334.150																						5.451700	-0.1868000	12.740600	-3.5656700	2.333	1.587	0.630	23.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:02:34
338-C0022B-33X-1,130.0	335.300	335.300																						5.451700	-0.1868000	13.416500	-1.6256100	2.459	1.506	0.664	23.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:02:34
338-C0022B-33X-2,40.0	335.805	335.805																						5.451700	-0.1868000	11.708500	-2.2704000	2.144	1.727	0.579	23.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:02:43
338-C0022B-33X-2,99.0	336.395	336.395																						5.451700	-0.1868000	6.963920	-1.4221300	1.278	2.899	0.345	23.0	SOUPY ASH + MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:02:43
338-C0022B-33X-2,102.0	336.425	336.425	11.84800	-78.79	57.8700	-15.6110	72.4800	-11.1130	60.3300	-11.56000	40.082	39.052	44.802	0.934	0.910	1.044	1.071	1.099	0.958	2.6	23.1	-12.4	2013-05-15T05:08:37
338-C0022B-33X-2,105.0	336.455	336.455																						5.451700	-0.1868000	18.124500	-6.8890000	3.300	1.122	0.891	23.0	MUD VERY CONSOLIDATED, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:02:43
338-C0022B-33X-3,30.0	337.110	337.110																						5.451700	-0.1868000	12.191300	-1.3468900	2.237	1.656	0.604	23.0	MUD VERY CONSOLIDATED (BROKE), Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:02:53
338-C0022B-33X-3,101.0	337.820	337.820																						5.451700	-0.1868000	9.678220	-1.4987800	1.774	2.088	0.479	23.0	MUD + ASH, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:02:53
338-C0022B-33X-3,102.0	337.830	337.830																						5.451700	-0.1868000	8.984910	-1.7798000	1.648	2.247	0.445	23.0	SOUPY SAND + MUD + ASH?, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:02:53
338-C0022B-33X-3,103.0	337.840	337.840																						5.451700	-0.1868000	8.776000	-0.8464000	1.611	2.299	0.435	23.0	MUD + ASH, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:02:53
338-C0022B-33X-3,104.0	337.850	337.850																						5.451700	-0.1868000	7.842330	-1.4383000	1.437	2.577	0.388	23.0	TRANSITION ASH, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:02:53
338-C0022B-33X-3,105.0	337.860	337.860																						5.451700	-0.1868000	10.822900	-1.3883400	1.985	1.866	0.536	23.0	SOUPY ASH, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:02:53
338-C0022B-33X-4,1.0	337.870	337.870																						5.451700	-0.1868000	11.247400	-1.3724200	2.063	1.795	0.557	23.0	SOUPY ASH EDGE OF CORE, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:03:03
338-C0022B-33X-4,2.0	337.880	337.880																						5.451700	-0.1868000	9.139080	-0.6537000	1.678	2.208	0.453	23.0	SOUPY ASH, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:03:03
338-C0022B-33X-4,3.0	337.890	337.890																						5.451700	-0.1868000	7.064700	-1.8269600	1.296	2.857	0.350	23.0	SOUPY ASH, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:03:03
338-C0022B-33X-4,4.0	337.900	337.900																						5.451700	-0.1868000	7.425540	-0.7340000	1.363	2.717	0.368	23.0	SOUPY ASH, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:03:03
338-C0022B-33X-4,5.0	337.910	337.910																						5.451700	-0.1868000	7.336550	-0.1264000	1.344	2.755	0.363	23.0	SOUPY ASH, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:03:03
338-C0022B-33X-4,6.0	337.920	337.920																						5.451700	-0.1868000	8.640040	-1.4748400	1.585	2.336	0.428	23.0	SOUPY ASH, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:03:03
338-C0022B-33X-4,7.0	337.930	337.930																						5.451700	-0.1868000	8.641460	-1.3579700	1.585	2.336	0.428	23.0	SOUPY ASH, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:03:03
338-C0022B-33X-4,8.0	337.940	337.940																						5.451700	-0.1868000	9.659260	-1.9336600	1.770	2.092	0.478	23.0	SOUPY ASH, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:03:03
338-C0022B-33X-4,9.0	337.950	337.950																						5.451700	-0.1868000	7.905120	-2.1013100	1.448	2.558	0.391	23.0	SOUPY ASH, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:03:03
338-C0022B-33X-4,10.0	337.960	337.960																						5.451700	-0.1868000	8.154040	-0.9577000	1.496	2.475	0.404	23.0	SOUPY ASH, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:03:03
338-C0022B-33X-4,11.0	337.970	337.970																						5.451700	-0.1868000	8.498870	-1.0774300	1.559	2.375	0.421	23.0	SOUPY ASH, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:03:03
338-C0022B-33X-4,12.0	337.980	337.980																						5.451700	-0.1868000	8.879370	-1.1355400	1.630	2.273	0.440	23.0	SOUPY ASH, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:03:03
338-C0022B-33X-4,13.0	337.990	337.990																						5.451700	-0.1868000	9.061750	-0.7803000	1.663	2.227	0.449	23.0	SOUPY ASH, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:03:03
338-C0022B-33X-4,14.0	338.000	338.000																						5.451700	-0.1868000	8.730200	-0.2823240	1.600	2.315	0.432	23.0	SOUPY ASH, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:03:03
338-C0022B-33X-4,15.0	338.010	338.010																						5.451700	-0.1868000	8.200140	-1.5344200	1.504	2.463	0.406	23.0	SOUPY ASH, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:03:03
338-C0022B-33X-4,16.0	338.020	338.020																						5.451700	-0.1868000	10.424200	-1.6954800	1.911	1.938	0.516	23.0	SOUPY ASH, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:03:03
338-C0022B-33X-4,17.0	338.030	338.030																						5.451700	-0.1868000	10.388700	-1.4674500	1.904	1.946	0.514	23.0	SOUPY ASH, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:03:03
338-C0022B-33X-4,18.0	338.040	338.040																						5.451700	-0.1868000	8.882610	-1.6034000	1.630	2.273	0.440	23.0	SOUPY ASH, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:03:03
338-C0022B-33X-4,19.0	338.050	338.050																						5.451700	-0.1868000	10.089300	-1.1174900	1.852	2.000	0.500	23.0	TRANSITION MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:03:03
338-C0022B-33X-4,75.0	338.610	338.610																						5.451700	-0.1868000	10.059800	-1.4415600	1.844	2.008	0.498	23.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:03:03
338-C0022B-33X-6,30.0	340.835	340.835																						5.451700	-0.1868000	11.998200	-2.7807000	2.200	1.684	0.594	23.0	MUD SUPER CONSOLIDATED (BROKE), Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:03:13
338-C0022B-33X-8,40.0	342.585	342.585																						5.451700	-0.1868000	11.434200	-2.5590400	2.096	1.767	0.566	23.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:03:23
338-C0022B-34X-1,18.0	343.680	343.680	11.84800	-78.79	48.6270	-12.5390	50.5520	-12.3000	72.5351	-11.75450	37.378	37.936	51.282	0.871	0.884	1.195	1.148	1.131	0.837	-1.5	23.1	-30.6	2013-05-15T05:08:37
338-C0022B-35X-3,26.0	355.825	355.611	11.84800	-78.79	66.4376	-11.6653	64.1556	-12.1338	65.8365	-10.23980	50.810	52.613	54.672	1.184	1.226	1.274	0.844	0.815	0.785	-3.5	23.1	-5.6	2013-05-15T05:08:37
338-C0022B-36X-CC,13.0	369.975	369.975																						5.451700	-0.1868000	12.798100	-1.0029000	2.348	1.577	0.634	23.0	MUD, Current/Voltage pins were switched. Lower resistivity and higher conductivity values comes from unusual higher impedance value of standard seawater;	A smaller beaker was used for seawater container, so that measured value could be affected with the beaker shape.	2013-05-15T06:03:33
338-C0022B-37X-3,46.0	373.765	373.765	9.59723	-73.63	114.8240	-16.0600	33.5810	-12.8667	127.1760	-11.99660	68.662	18.882	73.083	1.600	0.440	1.703	0.625	2.272	0.587	113.7	23.1	-50.2	2013-05-15T05:08:37
338-C0022B-38X-5,32.0	386.650	386.397	9.59723	-73.63	66.5099	-13.6477	81.5887	-14.9757	91.3612	-11.25560	48.192	71.409	54.458	1.123	1.664	1.269	0.891	0.601	0.788	-38.8	23.1	9.4	2013-05-15T05:08:37
338-C0022B-38X-5,35.0	386.680	386.426	9.59723	-73.63	74.0743	-13.9001	63.2248	-15.3935	70.3364	-13.30230	46.690	43.343	49.222	1.088	1.010	1.147	0.919	0.990	0.872	7.4	23.1	-8.9	2013-05-15T05:08:37
338-C0022B-39X-3,52.0	393.335	393.335	9.59723	-73.63	58.7559	-11.7900	53.8947	-12.4807	58.9151	-11.23240	44.502	44.845	46.690	1.037	1.045	1.088	0.965	0.957	0.919	-0.8	23.1	-4.4	2013-05-15T05:08:37
338-C0022B-40X-1,63.0	401.130	401.130	9.59723	-73.63	67.9524	-10.5025	69.3513	-10.8939	68.7384	-9.70253	51.111	57.247	55.273	1.191	1.334	1.288	0.840	0.749	0.776	-11.3	23.1	-2.0	2013-05-15T05:08:37
338-C0022B-41X-3,123.0	413.390	413.390	9.59723	-73.63	70.3974	-14.4064	61.0154	-11.9897	70.9870	-12.25740	55.831	49.265	57.376	1.301	1.148	1.337	0.769	0.871	0.748	12.5	23.1	-8.8	2013-05-15T05:08:37