Search the data

Metadata Report for BODC Series Reference Number 860337


Metadata Summary

Data Description

Data Category CTD or STD cast
Instrument Type
NameCategories
Neil Brown MK3 CTD  CTD; water temperature sensor; salinity sensor; dissolved gas sensors
SeaTech transmissometer  transmissometers
Chelsea Technologies Group Aquatracka fluorometer  fluorometers
Chelsea Technologies Group 2-pi PAR irradiance sensor  radiometers
Instrument Mounting research vessel
Originating Country United Kingdom
Originator Prof John Simpson
Originating Organization University of Wales, Bangor School of Ocean Sciences (now Bangor University School of Ocean Sciences)
Processing Status banked
Online delivery of data Download available - Ocean Data View (ODV) format
Project(s) Land Ocean Interaction Study (LOIS)
 

Data Identifiers

Originator's Identifier CP40
BODC Series Reference 860337
 

Time Co-ordinates(UT)

Start Time (yyyy-mm-dd hh:mm) 1996-07-18 07:15
End Time (yyyy-mm-dd hh:mm) -
Nominal Cycle Interval 2.0 decibars
 

Spatial Co-ordinates

Latitude 56.45900 N ( 56° 27.5' N )
Longitude 9.52200 W ( 9° 31.3' W )
Positional Uncertainty 0.0 to 0.01 n.miles
Minimum Sensor or Sampling Depth 2.97 m
Maximum Sensor or Sampling Depth 100.05 m
Minimum Sensor or Sampling Height 1204.05 m
Maximum Sensor or Sampling Height 1301.12 m
Sea Floor Depth 1304.1 m
Sea Floor Depth Source DATAHEAD
Sensor or Sampling Distribution Variable common depth - All sensors are grouped effectively at the same depth, but this depth varies significantly during the series
Sensor or Sampling Depth Datum Instantaneous - Depth measured below water line or instantaneous water body surface
Sea Floor Depth Datum Instantaneous - Depth measured below water line or instantaneous water body surface
 

Parameters

BODC CODERankUnitsTitle
ATTNZR011per metreAttenuation (red light wavelength) per unit length of the water body by transmissometer
CPHLPR011Milligrams per cubic metreConcentration of chlorophyll-a {chl-a CAS 479-61-8} per unit volume of the water body [particulate >unknown phase] by in-situ chlorophyll fluorometer
DOXYPR011Micromoles per litreConcentration of oxygen {O2 CAS 7782-44-7} per unit volume of the water body [dissolved plus reactive particulate phase] by in-situ Beckmann probe
IRRDPP011MicroEinsteins per square metre per secondDownwelling 2-pi scalar irradiance as photons of electromagnetic radiation (PAR wavelengths) in the water body by 2-pi scalar radiometer
IRRUPP011MicroEinsteins per square metre per secondUpwelling 2-pi scalar irradiance as photons of electromagnetic radiation (PAR wavelengths) in the water body by 2-pi scalar radiometer
OXYSBB011PercentSaturation of oxygen {O2 CAS 7782-44-7} in the water body [dissolved plus reactive particulate phase] by in-situ Beckmann probe and computation from concentration using Benson and Krause algorithm
POATCV011per metrePotential attenuance (unspecified wavelength) per unit length of the water body by transmissometer and computation using P-EXEC algorithm
POTMCV011Degrees CelsiusPotential temperature of the water body by computation using UNESCO 1983 algorithm
PRESPR011DecibarsPressure (spatial coordinate) exerted by the water body by profiling pressure sensor and correction to read zero at sea level
PSALST011DimensionlessPractical salinity of the water body by CTD and computation using UNESCO 1983 algorithm
SIGTPR011Kilograms per cubic metreSigma-theta of the water body by CTD and computation from salinity and potential temperature using UNESCO algorithm
TEMPST011Degrees CelsiusTemperature of the water body by CTD or STD

Definition of Rank

  • Rank 1 is a one-dimensional parameter
  • Rank 2 is a two-dimensional parameter
  • Rank 0 is a one-dimensional parameter describing the second dimension of a two-dimensional parameter (e.g. bin depths for moored ADCP data)

Problem Reports

No Problem Report Found in the Database


Data Access Policy

Open Data

These data have no specific confidentiality restrictions for users. However, users must acknowledge data sources as it is not ethical to publish data without proper attribution. Any publication or other output resulting from usage of the data should include an acknowledgment.

If the Information Provider does not provide a specific attribution statement, or if you are using Information from several Information Providers and multiple attributions are not practical in your product or application, you may consider using the following:

"Contains public sector information licensed under the Open Government Licence v1.0."


Narrative Documents

Neil Brown MK3 CTD

The Neil Brown MK3 conductivity-temperature-depth (CTD) profiler consists of an integral unit containing pressure, temperature and conductivity sensors with an optional dissolved oxygen sensor in a pressure-hardened casing. The most widely used variant in the 1980s and 1990s was the MK3B. An upgrade to this, the MK3C, was developed to meet the requirements of the WOCE project.

The MK3C includes a low hysteresis, titanium strain gauge pressure transducer. The transducer temperature is measured separately, allowing correction for the effects of temperature on pressure measurements. The MK3C conductivity cell features a free flow, internal field design that eliminates ducted pumping and is not affected by external metallic objects such as guard cages and external sensors.

Additional optional sensors include pH and a pressure-temperature fluorometer. The instrument is no longer in production, but is supported (repair and calibration) by General Oceanics.

Specifications

These specification apply to the MK3C version.

Pressure Temperature Conductivity
Range

6500 m

3200 m (optional)

-3 to 32°C 1 to 6.5 S cm-1
Accuracy

0.0015% FS

0.03% FS < 1 msec

0.0005°C

0.003°C < 30 msec

0.0001 S cm-1

0.0003 S cm-1 < 30 msec

Further details can be found in the specification sheet.

Aquatracka fluorometer

The Chelsea Instruments Aquatracka is a logarithmic response fluorometer. It uses a pulsed (5.5 Hz) xenon light source discharging between 320 and 800 nm through a blue filter with a peak transmission of 420 nm and a bandwidth at half maximum of 100 nm. A red filter with sharp cut off, 10% transmission at 664 nm and 678 nm, is used to pass chlorophyll-a fluorescence to the sample photodiode.

The instrument may be deployed either in a through-flow tank, on a CTD frame or moored with a data logging package.

Further details can be found in the manufacturer's specification sheet.

Chelsea Technologies Photosynthetically Active Radiation (PAR) Irradiance Sensor

This sensor was originally designed to assist the study of marine photosynthesis. With the use of logarithmic amplication, the sensor covers a range of 6 orders of magnitude, which avoids setting up the sensor range for the expected signal level for different ambient conditions.

The sensor consists of a hollow PTFE 2-pi collector supported by a clear acetal dome diverting light to a filter and photodiode from which a cosine response is obtained. The sensor can be used in moorings, profiling or deployed in towed vehicles and can measure both upwelling and downwelling light.

Specifications

Operation depth 1000 m
Range 2000 to 0.002 µE m-2 s-1
Angular Detection Range ± 130° from normal incidence
Relative Spectral Sensitivity

flat to ± 3% from 450 to 700 nm

down 8% of 400 nm and 36% at 350 nm

Further details can be found in the manufacturer's specification sheet.

SeaTech Transmissometer

Introduction

The transmissometer is designed to accurately measure the the amount of light transmitted by a modulated Light Emitting Diode (LED) through a fixed-length in-situ water column to a synchronous detector.

Specifications

  • Water path length: 5 cm (for use in turbid waters) to 1 m (for use in clear ocean waters).
  • Beam diameter: 15 mm
  • Transmitted beam collimation: <3 milliradians
  • Receiver acceptance angle (in water): <18 milliradians
  • Light source wavelength: usually (but not exclusively) 660 nm (red light)

Notes

The instrument can be interfaced to Aanderaa RCM7 current meters. This is achieved by fitting the transmissometer in a slot cut into a customized RCM4-type vane.

A red LED (660 nm) is used for general applications looking at water column sediment load. However, green or blue LEDs can be fitted for specilised optics applications. The light source used is identified by the BODC parameter code.

Further details can be found in the manufacturer's Manual.

RRS Challenger 128A CTD Data Documentation

Components of the CTD data set

The CTD data set for cruise CH128A consists of 88 vertical profiles. The data parameters are temperature, salinity, upwelling and downwelling irradiance, dissolved oxygen, chlorophyll and optical attenuance.

Data Acquisition and On-Board Processing

Instrumentation

The CTD profiles were taken with an RVS Neil Brown Mk3B CTD incorporating a pressure sensor, conductivity cell, platinum resistance thermometer and a Beckmann dissolved oxygen sensor. Water was forced over the oxygen membrane by a SeaBird submersible pump. The CTD unit was mounted vertically in the centre of a protective cage approximately 1.5m square. Attached to the bars of the frame were a Chelsea Instruments Aquatracka fluorometer and a SeaTech red light (661 nm) transmissometer with a 25cm path length.

Above the frame was a General Oceanics rosette sampler fitted with twelve 10-litre Niskin water bottles. The bases of the bottles were 0.75 metres above the pressure head and their tops 1.55 metres above it. One bottle was fitted with a holder for twin digital reversing thermometers mounted 1.38 metres above the CTD temperature sensor.

Above the rosette was a PML 2pi PAR (photosynthetically available radiation) sensor pointing upwards to measure downwelling scalar irradiance. A second 2pi PAR sensor, pointing downwards, was fitted to the bottom of the cage to measure upwelling scalar irradiance. It should be noted that these sensors were vertically separated by 2 metres with the upwelling sensor 0.2 metres below the pressure head and the downwelling sensor 1.75 metres above it.

No account has been taken of rig geometry in the compilation of the CTD data set. However, all water bottle sampling depths have been corrected for rig geometry and represent the true position of the midpoint of the water bottle in the water column.

Data Acquisition

On each cast, the CTD was lowered continuously at 0.5 to 1.0 ms-1 to the closest comfortable proximity to the sea floor. The upcast was done in stages between the bottle firing depths.

Data were logged by the RVS ABC data logging system. Output channels from the deck unit were logged at 32 Hz by a microprocessor interface (the Level A) which passed time-stamped averaged cycles at 1 Hz to a Sun workstation (the Level C) via a buffering system (the Level B).

On-Board Data Processing

The raw data comprised ADC counts. These were converted into engineering units (volts for PAR meters, fluorometer and transmissometer; ml/l for oxygen; mmho/cm for conductivity; °C for temperature; decibars for pressure) by the application of laboratory determined calibrations. Salinity (Practical Salinity Units as defined in Fofonoff and Millard, 1983) was calculated from the conductivity ratios (conductivity/42.914) and a time lagged temperature using the function described in UNESCO Report 37 (1981).

The data set was submitted to BODC in this form on Quarter Inch Cartridge tapes in RVS internal format for post-cruise processing and data banking.

Post-Cruise Processing and Calibration at BODC

Reformatting

The data were converted into the BODC internal format (PXF) to allow the use of in-house software tools, notably the workstation graphics editor. In addition to reformatting, the transfer program applied the following modifications to the data:

  • Dissolved oxygen was converted from ml/l to µM by multiplying the values by 44.66.
  • Transmissometer voltages were corrected to the manufacturer's specified voltage by ratio using transmissometer air readings taken during the cruise.
  • Transmissometer voltages were converted to percentage transmission by multiplying them by a factor of 20.
  • The transmissometer data were converted to attenuance using the algorithm:-
attenuance (m-1) = -4 loge (% transmission/100)

Editing

Reformatted CTD data were transferred onto a high-speed graphics workstation. Using a custom in-house graphics editor, downcasts and upcasts were differentiated and the limits of the downcasts and upcasts were manually flagged.

Spikes on all the downcast channels were manually flagged. No data values were edited or deleted; flagging was achieved by modification of the associated quality control flag.

The pressure ranges over which the bottle samples had been collected were logged by manual interaction with the software. Usually, clusters of points recorded while the CTD was held stationary were used to determine this. These pressure ranges were subsequently used, in conjunction with a geometrical correction for the position of the water bottles with respect to the CTD pressure transducer, to determine the pressure range of data to be averaged for calibration values.

For this cruise, the RVS Neil Brown Mk 3B CTD system was equipped with a SeaBird pump, which sent water at a constant rate through the housing containing the existing Beckman oxygen electrode. Problems associated with the plumbing of the pump to the oxygen probe resulted in many profiles only recording good oxygen data on upcasts. To overcome this, the upcast data for oxygen, temperature and salinity channels were flagged to remove any spikes. The downcast oxygen values loaded into ORACLE were then replaced where necessary by upcast oxygen data using isopycnal (rather than pressure) matching to determine the replacement values to be used.

Once screened on the workstation, the CTD downcasts were loaded into a database under the ORACLE Relational Database Management System.

Calibration

With the exception of pressure, calibrations were done by comparison of CTD data against measurements made on water bottle samples or from the reversing thermometers mounted on the water bottles as in the case of temperature. In general, values were averaged from the CTD downcasts but where visual inspection of the data showed significant hysteresis values were manually extracted from the CTD upcasts.

All calibrations described here have been applied to the data except for the calibration to express attenuance in terms of suspended matter concentration.

Pressure

The pressure offset was determined by looking at the pressures recorded when the CTD was clearly logging in air (readily apparent from the conductivity channel). The following correction was calculated from 14 values:

Pcorr = P - 0.16
Temperature

The CTD temperature was compared with readings from the digital reversing thermometers attached to the water bottles. Normal BODC practice is to use this comparison as a check to ensure against CTD malfunction rather than a calibration because the Neil Brown CTD thermometer is considered more accurate than the SIS digital reversing thermometers.

However, the CTD used on this cruise had not been accurately calibrated by RVS and the temperature data supplied to BODC were based on a nominal calibration. Consequently, the reversing thermometer data were used to recalibrate the CTD temperature data and the following correction has been applied:

Tcorr = T - 0.032 (standard deviation 0.006)
Salinity

During screening an offset was noted in the salinity trace. This was attributed to the conductivity cell contamination. The following correction has been applied:

CP57 0.041 PSU added between 158.0 db and 355.6 db

Salinity was calibrated against water bottle samples measured on the Guildline 55358 AutoLab Salinometer during the cruise. Samples were collected in glass bottles filled to just below the neck and sealed with plastic stoppers. Batches of samples were left for at least 24 hours to reach thermal equilibrium in the lab containing the salinometer before analysis.

The correction determined for this cruise was:

Scorr = S + 0.088 (standard deviation 0.003)
Upwelling and Downwelling Irradiance

The PAR voltages were converted to W m-2 using the following equations determined in August 1995 supplied by RVS.

Upwelling (#10): PAR (W m-2) = exp (-4.98*volts + 6.565)/100.0
Downwelling (#12): PAR (W m-2) = exp (-4.92*volts + 6.506)/100.0

Note that these sensors have been empirically calibrated to obtain a conversion from W/m2 into µE/m2/s, which may be effected by multiplying the data given by 3.75.

Optical Attenuance and Suspended Matter

The air correction applied for this cruise was based on an air reading obtained during the cruise (4.736V). The manufacturer's voltage for the instrument used (SN079D) was 4.744V.

Large volume samples were taken for gravimetric analysis of the suspended particulate matter concentration. These were used to generate calibrations that expressed attenuance in terms of suspended particulate matter concentrations.

Robin McCandliss (University of Wales, Bangor) undertook this work, under the supervision of Sarah Jones. The optimal approach developed was to base the calibration on samples taken from near the seabed (i.e. those with the minimum content of fluorescent material). The data from all SES cruises where SPM samples were taken were pooled to derive the calibration equation:

SPM (mg/l) = (2.368*Atten) - 0.801 (R2 = 79%)

This calibration is valid for all SES cruises after and including cruise Charles Darwin CD93A. The clear water attenuance predicted by the equation is 0.336 per m, which agrees well with literature values.

No attempt has been made to replace attenuance by SPM concentration in the final data set. However, users may use the equation above to compute an estimated SPM channel from attenuance when required.

Chlorophyll

200ml of seawater collected at several depths on each cast were filtered and the papers frozen for acetone extraction and fluorometric analysis on land. A relatively small number of samples were taken on CH128B. Consequently, the data from both legs of CH128 were pooled for the calibration.

The extracted chlorophyll concentrations (range 0.1 to 2.94 mg m-3) were regressed against the corresponding fluorometer voltages, giving the following calibration which has been applied to the data:

Chlorophyll (mg m-3) = exp (1.33 * volts - 2.75) (R2 = 56.7%, n = 176)
Dissolved Oxygen

Dissolved oxygen concentrations were determined by micro-Winkler titration of seawater samples taken from a range of depths on several CTD casts. These values were compared with oxygen readings derived from the oxygen sensor membrane current, oxygen sensor temperature, sea temperature and salinity values recorded by the CTD on the upcast. Hilary Wilson (University of Wales, Bangor), under the supervision of Dr. Paul Tett, carried out this work. The following equation was supplied to BODC and the coefficients A and B were applied to the data:

[O2] = (A*C + B)* S' ml/l
where A = 2.1507689 (casts CP1-CP80) or 3.39847069 (casts CP81-CP90)
  C = oxygen sensor current (µA)
  B = -0.1448435 (casts CP1-CP80) or -1.2152591 (casts CP81-CP90)
  S'= oxygen saturation concentration (a function of water temperature and salinity).

Finally, the data were converted to µM by multiplication by 44.66.

The calibration coefficients used for casts CP1-CP80 were derived using the pooled data from 4 of the profiles from which bottle oxygen samples were taken. The calibration for CP81-CP90 was based on data from cast CP81. Individual calibrations were derived for each of these profiles. These are included below for reference. However, please note that the whole cruise coefficients given above were applied to all profiles in the database.

CP5  2.33219833  -0.2623257
CP64  2.15424386  -0.1062559
CP65  2.34197522  -0.2343615
CP69  2.03641103  -0.0567426
CP81  3.39847069  -1.2152591

Considerable manipulation of the oxygen data, such as the substitution of downcast data by isopycnal-matched upcast data, was required to produce the oxygen data channel in the final data set. This, combined with the uncertainties involved in the calibration of oxygen data, might mean that some users would wish to re-examine the oxygen processing. To facilitate this, BODC have systematically archived the raw data (including oxygen current and temperature) from both upcasts and downcasts. These data are available on request.

During the visual inspection of the oxygen data from this cruise it was noticed that there was a significant difference between the downcast and upcast data (sometimes 1-200 µM different at the surface). This difference was far greater than other SES cruises and was present, though it diminished in magnitude with depth, for the whole cast. Consequently, all the data in the final data set have been derived from the upcast rather than the odd 'patch' as in CH121B and CH126B. Looking at the data leaves a nagging doubt that the oxygen sensor was being very slow to equilibrate and there is no concrete evidence that it had reached equilibrium by the start of the upcast. Users are therefore recommended to use the CTD oxygen data from this cruise with a degree of caution.

Data Reduction

Once all screening and calibration procedures were completed, the data set was binned to 2 db (casts deeper than 100 db) or 1 db (casts shallower than 100 db). The binning algorithm excluded any data points flagged suspect and attempted linear interpolation over gaps up to 3 bins wide. If any gaps larger than this were encountered, the data in the gaps were set null.

Oxygen saturation has been computed using the algorithm of Benson and Krause (1984).

Data Warnings

There is strong evidence that the oxygen sensor was exceptionally slow to equilibrate. Although the data presented in the final data set have been taken from the upcast, users are recommended to use the oxygen data from this cruise with caution.

References

Benson B.B. and Krause D. jnr. 1984. The concentration and isotopic fractionation of oxygen dissolved in fresh water and sea water in equilibrium with the atmosphere. Limnol. Oceanogr. 29 pp.620-632.

Fofonoff N.P., and Millard Jr., R.C. 1982. Algorithms for Computation of Fundamental Properties of Seawater. UNESCO Technical Papers in Marine Science 44.


Project Information

Land Ocean Interaction Study (LOIS)

Introduction

The Land Ocean Interaction Study (LOIS) was a Community Research Project of the Natural Environment Research Council (NERC). The broad aim of LOIS was to gain an understanding of, and an ability to predict, the nature of environmental change in the coastal zone around the UK through an integrated study from the river catchments through to the shelf break.

LOIS was a collaborative, multidisciplinary study undertaken by scientists from NERC research laboratories and Higher Education institutions. The LOIS project was managed from NERC's Plymouth Marine Laboratory.

The project ran for six years from April 1992 until April 1998 with a further modelling and synthesis phase beginning in April 1998 and ending in April 2000.

Project Structure

LOIS consisted of the following components:

  • River-Atmosphere-Coast Study (RACS)
    • RACS(A) - Atmospheric sub-component
    • RACS(C) - Coasts sub-component
    • RACS(R) - Rivers sub-component
    • BIOTA - Terrestrial salt marsh study
  • Land Ocean Evolution Perspective Study (LOEPS)
  • Shelf-Edge Study (SES)
  • North Sea Modelling Study (NORMS)
  • Data Management (DATA)

Marine Fieldwork

Marine field data were collected between September 1993 and September 1997 as part of RACS(C) and SES. The RACS data were collected throughout this period from the estuaries and coastal waters of the UK North Sea coast from Great Yarmouth to the Tweed. The SES data were collected between March 1995 and September 1996 from the Hebridean slope. Both the RACS and SES data sets incorporate a broad spectrum of measurements collected using moored instruments and research vessel surveys.


Data Activity or Cruise Information

Cruise

Cruise Name CH128A
Departure Date 1996-07-10
Arrival Date 1996-07-26
Principal Scientist(s)John H Simpson (University of Wales, Bangor School of Ocean Sciences)
Ship RRS Challenger

Complete Cruise Metadata Report is available here


Fixed Station Information

Fixed Station Information

Station NameLOIS (SES) Repeat Section S
CategoryOffshore route/traverse

LOIS (SES) Repeat Section S

Section S was one of four repeat sections sampled during the Land-Ocean Interaction Study (LOIS) Shelf Edge Study (SES) project between March 1995 and September 1996.

The CTD measurements collected at repeat section S, on the Hebridean Slope, lie within a box bounded by co-ordinates 56° 16.8' N, 9° 40.2 W at the southwest corner and 56° 30.0' N, 8° 10.8' W at the northeast corner.

Cruises occupying section S

Cruise Start Date End Date
Charles Darwin 91B 22/03/1995 02/04/1995
Charles Darwin 92B 13/04/1995 02/05/1995
Charles Darwin 93A 07/05/1995 16/05/1995
Charles Darwin 93B 16/05/1995 30/05/1995
Challenger 120 18/07/1995 06/08/1995
Challenger 121A 10/08/1995 18/08/1995
Tydeman SESAME-1 10/08/1995 11/09/1995
Challenger 121B 18/08/1995 01/09/1995
Challenger 121C 01/09/1995 10/09/1995
Challenger 123A 15/11/1995 29/11/1995
Challenger 123B 01/12/1995 15/12/1995
Challenger 124 08/01/1996 27/01/1996
Challenger 125A 31/01/1996 12/02/1996
Challenger 125B 13/02/1996 03/03/1996
Challenger 126A 11/04/1996 26/04/1996
Challenger 126B 27/04/1996 12/05/1996
Challenger 128A 10/07/1996 26/07/1996
Challenger 128B 26/07/1996 08/08/1996

Related Fixed Station activities are detailed in Appendix 1


BODC Quality Control Flags

The following single character qualifying flags may be associated with one or more individual parameters with a data cycle:

Flag Description
Blank Unqualified
< Below detection limit
> In excess of quoted value
A Taxonomic flag for affinis (aff.)
B Beginning of CTD Down/Up Cast
C Taxonomic flag for confer (cf.)
D Thermometric depth
E End of CTD Down/Up Cast
G Non-taxonomic biological characteristic uncertainty
H Extrapolated value
I Taxonomic flag for single species (sp.)
K Improbable value - unknown quality control source
L Improbable value - originator's quality control
M Improbable value - BODC quality control
N Null value
O Improbable value - user quality control
P Trace/calm
Q Indeterminate
R Replacement value
S Estimated value
T Interpolated value
U Uncalibrated
W Control value
X Excessive difference

SeaDataNet Quality Control Flags

The following single character qualifying flags may be associated with one or more individual parameters with a data cycle:

Flag Description
0 no quality control
1 good value
2 probably good value
3 probably bad value
4 bad value
5 changed value
6 value below detection
7 value in excess
8 interpolated value
9 missing value
A value phenomenon uncertain
B nominal value
Q value below limit of quantification

Appendix 1: LOIS (SES) Repeat Section S

Related series for this Fixed Station are presented in the table below. Further information can be found by following the appropriate links.

If you are interested in these series, please be aware we offer a multiple file download service. Should your credentials be insufficient for automatic download, the service also offers a referral to our Enquiries Officer who may be able to negotiate access.

Series IdentifierData CategoryStart date/timeStart positionCruise
847962CTD or STD cast1995-03-27 19:46:0056.449 N, 9.16683 WRRS Charles Darwin CD91B
1671109Water sample data1995-03-27 20:13:0056.44897 N, 9.16678 WRRS Charles Darwin CD91B
847925CTD or STD cast1995-03-28 16:35:0056.49017 N, 9.048 WRRS Charles Darwin CD91B
1671110Water sample data1995-03-28 16:50:0056.49014 N, 9.04807 WRRS Charles Darwin CD91B
847986CTD or STD cast1995-03-29 12:04:0056.47167 N, 9.15317 WRRS Charles Darwin CD91B
1671122Water sample data1995-03-29 12:30:0056.47169 N, 9.1532 WRRS Charles Darwin CD91B
848001CTD or STD cast1995-03-31 14:29:0056.48383 N, 8.97217 WRRS Charles Darwin CD91B
1671134Water sample data1995-03-31 14:43:0056.48389 N, 8.9721 WRRS Charles Darwin CD91B
847937CTD or STD cast1995-04-01 13:47:0056.466 N, 9.05317 WRRS Charles Darwin CD91B
1671066Water sample data1995-04-01 14:02:0056.46593 N, 9.05325 WRRS Charles Darwin CD91B
434781CTD or STD cast1995-04-16 12:27:0056.4523 N, 9.0483 WRRS Charles Darwin CD92B
434793CTD or STD cast1995-04-16 15:41:0056.4523 N, 8.9712 WRRS Charles Darwin CD92B
434800CTD or STD cast1995-04-16 16:37:0056.4523 N, 9.0667 WRRS Charles Darwin CD92B
434812CTD or STD cast1995-04-16 17:36:0056.4523 N, 9.1167 WRRS Charles Darwin CD92B
434824CTD or STD cast1995-04-16 18:30:0056.4523 N, 9.1583 WRRS Charles Darwin CD92B
434836CTD or STD cast1995-04-16 19:47:0056.45 N, 9.25 WRRS Charles Darwin CD92B
434848CTD or STD cast1995-04-16 21:51:0056.45 N, 9.3333 WRRS Charles Darwin CD92B
434861CTD or STD cast1995-04-17 00:23:0056.4523 N, 9.65 WRRS Charles Darwin CD92B
434965CTD or STD cast1995-04-19 08:14:0056.4508 N, 9.6423 WRRS Charles Darwin CD92B
434977CTD or STD cast1995-04-19 12:41:0056.4523 N, 9.3333 WRRS Charles Darwin CD92B
434989CTD or STD cast1995-04-19 14:17:0056.4523 N, 9.25 WRRS Charles Darwin CD92B
434990CTD or STD cast1995-04-19 16:16:0056.4523 N, 9.1583 WRRS Charles Darwin CD92B
435004CTD or STD cast1995-04-19 18:37:0056.4523 N, 9.1167 WRRS Charles Darwin CD92B
435016CTD or STD cast1995-04-21 01:25:0056.4523 N, 9.0667 WRRS Charles Darwin CD92B
435028CTD or STD cast1995-04-21 03:16:0056.4523 N, 9.0483 WRRS Charles Darwin CD92B
435041CTD or STD cast1995-04-21 04:41:0056.4523 N, 8.9712 WRRS Charles Darwin CD92B
852337CTD or STD cast1995-05-08 09:18:0056.4605 N, 8.96467 WRRS Charles Darwin CD93A
852349CTD or STD cast1995-05-08 12:42:0056.458 N, 9.0515 WRRS Charles Darwin CD93A
852731CTD or STD cast1995-05-08 17:15:0056.45183 N, 9.08617 WRRS Charles Darwin CD93A
852350CTD or STD cast1995-05-09 01:18:0056.47483 N, 9.17417 WRRS Charles Darwin CD93A
852860CTD or STD cast1995-05-09 03:03:0056.46367 N, 9.09933 WRRS Charles Darwin CD93A
852743CTD or STD cast1995-05-09 04:22:0056.46117 N, 9.06217 WRRS Charles Darwin CD93A
852675CTD or STD cast1995-05-09 05:32:0056.46 N, 9.04567 WRRS Charles Darwin CD93A
852687CTD or STD cast1995-05-09 06:54:0056.46333 N, 8.969 WRRS Charles Darwin CD93A
852755CTD or STD cast1995-05-09 10:02:0056.4775 N, 8.967 WRRS Charles Darwin CD93A
852546CTD or STD cast1995-05-09 13:03:0056.46083 N, 9.0695 WRRS Charles Darwin CD93A
852558CTD or STD cast1995-05-09 18:39:0056.46017 N, 9.07233 WRRS Charles Darwin CD93A
852767CTD or STD cast1995-05-09 21:20:0056.4625 N, 9.06983 WRRS Charles Darwin CD93A
852571CTD or STD cast1995-05-10 00:27:0056.46367 N, 9.64417 WRRS Charles Darwin CD93A
852583CTD or STD cast1995-05-10 02:26:0056.45883 N, 9.5765 WRRS Charles Darwin CD93A
852779CTD or STD cast1995-05-10 05:11:0056.45567 N, 9.295 WRRS Charles Darwin CD93A
852595CTD or STD cast1995-05-10 05:19:0056.4545 N, 9.29183 WRRS Charles Darwin CD93A
852602CTD or STD cast1995-05-10 07:32:0056.4615 N, 9.04317 WRRS Charles Darwin CD93A
852780CTD or STD cast1995-05-10 10:12:0056.4515 N, 9.052 WRRS Charles Darwin CD93A
852614CTD or STD cast1995-05-10 15:02:0056.45717 N, 9.0475 WRRS Charles Darwin CD93A
852626CTD or STD cast1995-05-10 16:59:0056.45067 N, 9.044 WRRS Charles Darwin CD93A
852792CTD or STD cast1995-05-10 21:09:0056.46383 N, 9.15883 WRRS Charles Darwin CD93A
852638CTD or STD cast1995-05-11 00:32:0056.46217 N, 9.50833 WRRS Charles Darwin CD93A
852651CTD or STD cast1995-05-11 02:41:0056.45967 N, 9.4025 WRRS Charles Darwin CD93A
852663CTD or STD cast1995-05-11 04:55:0056.46283 N, 9.21683 WRRS Charles Darwin CD93A
852811CTD or STD cast1995-05-11 08:51:0056.46183 N, 9.15817 WRRS Charles Darwin CD93A
852362CTD or STD cast1995-05-11 10:21:0056.45583 N, 9.16833 WRRS Charles Darwin CD93A
852374CTD or STD cast1995-05-11 16:17:0056.46167 N, 8.9455 WRRS Charles Darwin CD93A
852301CTD or STD cast1995-05-15 04:28:0056.46 N, 9.0645 WRRS Charles Darwin CD93A
852823CTD or STD cast1995-05-15 05:47:0056.44883 N, 8.97783 WRRS Charles Darwin CD93A
852706CTD or STD cast1995-05-15 11:22:0056.46433 N, 8.95833 WRRS Charles Darwin CD93A
848836CTD or STD cast1995-05-17 11:29:0056.2845 N, 8.50233 WRRS Charles Darwin CD93B
849366CTD or STD cast1995-05-17 14:37:0056.47 N, 8.96317 WRRS Charles Darwin CD93B
848848CTD or STD cast1995-05-17 15:41:0056.4695 N, 8.95567 WRRS Charles Darwin CD93B
848861CTD or STD cast1995-05-17 16:41:0056.46783 N, 8.95367 WRRS Charles Darwin CD93B
849378CTD or STD cast1995-05-17 19:10:0056.462 N, 8.95883 WRRS Charles Darwin CD93B
848873CTD or STD cast1995-05-17 21:01:0056.46217 N, 8.9585 WRRS Charles Darwin CD93B
848885CTD or STD cast1995-05-17 22:54:0056.4625 N, 8.96367 WRRS Charles Darwin CD93B
848897CTD or STD cast1995-05-18 00:37:0056.46283 N, 8.9575 WRRS Charles Darwin CD93B
849391CTD or STD cast1995-05-18 02:59:0056.46167 N, 8.95883 WRRS Charles Darwin CD93B
848904CTD or STD cast1995-05-18 04:40:0056.46517 N, 8.958 WRRS Charles Darwin CD93B
848916CTD or STD cast1995-05-18 04:50:0056.46467 N, 8.9575 WRRS Charles Darwin CD93B
849409CTD or STD cast1995-05-18 06:46:0056.46333 N, 8.9545 WRRS Charles Darwin CD93B
848928CTD or STD cast1995-05-18 06:56:0056.46233 N, 8.953 WRRS Charles Darwin CD93B
848941CTD or STD cast1995-05-18 07:06:0056.46233 N, 8.95167 WRRS Charles Darwin CD93B
849410CTD or STD cast1995-05-18 09:15:0056.4635 N, 8.95583 WRRS Charles Darwin CD93B
848953CTD or STD cast1995-05-18 10:19:0056.45817 N, 8.95917 WRRS Charles Darwin CD93B
848965CTD or STD cast1995-05-18 11:10:0056.459 N, 8.968 WRRS Charles Darwin CD93B
849422CTD or STD cast1995-05-18 14:43:0056.46217 N, 9.16367 WRRS Charles Darwin CD93B
848977CTD or STD cast1995-05-18 15:21:0056.47517 N, 9.16633 WRRS Charles Darwin CD93B
848707CTD or STD cast1995-05-21 01:38:0056.46067 N, 9.63483 WRRS Charles Darwin CD93B
848719CTD or STD cast1995-05-21 03:45:0056.46333 N, 9.50533 WRRS Charles Darwin CD93B
849250CTD or STD cast1995-05-21 05:29:0056.46533 N, 9.39417 WRRS Charles Darwin CD93B
848720CTD or STD cast1995-05-21 07:23:0056.464 N, 9.295 WRRS Charles Darwin CD93B
848732CTD or STD cast1995-05-21 09:27:0056.46967 N, 9.21983 WRRS Charles Darwin CD93B
848744CTD or STD cast1995-05-21 11:16:0056.47 N, 9.15783 WRRS Charles Darwin CD93B
849262CTD or STD cast1995-05-21 13:09:0056.46633 N, 9.09267 WRRS Charles Darwin CD93B
848756CTD or STD cast1995-05-21 14:18:0056.46417 N, 9.05383 WRRS Charles Darwin CD93B
848768CTD or STD cast1995-05-21 15:29:0056.46317 N, 9.04033 WRRS Charles Darwin CD93B
849274CTD or STD cast1995-05-21 16:39:0056.46133 N, 9.0105 WRRS Charles Darwin CD93B
848781CTD or STD cast1995-05-21 17:44:0056.46 N, 8.954 WRRS Charles Darwin CD93B
848467CTD or STD cast1995-05-24 21:00:0056.46367 N, 9.6465 WRRS Charles Darwin CD93B
848479CTD or STD cast1995-05-24 23:45:0056.46233 N, 9.30883 WRRS Charles Darwin CD93B
849330CTD or STD cast1995-05-25 01:31:0056.4705 N, 9.1035 WRRS Charles Darwin CD93B
848480CTD or STD cast1995-05-25 03:07:0056.465 N, 9.0445 WRRS Charles Darwin CD93B
848492CTD or STD cast1995-05-25 04:14:0056.46317 N, 9.04583 WRRS Charles Darwin CD93B
849089CTD or STD cast1995-05-25 06:08:0056.462 N, 9.0435 WRRS Charles Darwin CD93B
848511CTD or STD cast1995-05-25 08:12:0056.46417 N, 9.047 WRRS Charles Darwin CD93B
848523CTD or STD cast1995-05-25 09:23:0056.463 N, 9.042 WRRS Charles Darwin CD93B
849090CTD or STD cast1995-05-25 10:47:0056.4645 N, 9.04367 WRRS Charles Darwin CD93B
848535CTD or STD cast1995-05-25 10:56:0056.46683 N, 9.042 WRRS Charles Darwin CD93B
848547CTD or STD cast1995-05-25 12:48:0056.46433 N, 9.0455 WRRS Charles Darwin CD93B
849194CTD or STD cast1995-05-27 15:45:0056.465 N, 9.05683 WRRS Charles Darwin CD93B
849502CTD or STD cast1995-05-27 16:55:0056.46217 N, 9.05567 WRRS Charles Darwin CD93B
848302CTD or STD cast1995-05-27 17:57:0056.46417 N, 9.05917 WRRS Charles Darwin CD93B
848314CTD or STD cast1995-05-27 19:32:0056.46283 N, 9.06283 WRRS Charles Darwin CD93B
848326CTD or STD cast1995-05-27 21:02:0056.4655 N, 9.068 WRRS Charles Darwin CD93B
849483CTD or STD cast1995-05-27 22:09:0056.46417 N, 9.07017 WRRS Charles Darwin CD93B
848338CTD or STD cast1995-05-27 23:02:0056.4675 N, 9.06067 WRRS Charles Darwin CD93B
848351CTD or STD cast1995-05-28 00:03:0056.46867 N, 9.06 WRRS Charles Darwin CD93B
849495CTD or STD cast1995-05-28 01:10:0056.46667 N, 9.05983 WRRS Charles Darwin CD93B
848363CTD or STD cast1995-05-28 02:08:0056.46633 N, 9.061 WRRS Charles Darwin CD93B
848375CTD or STD cast1995-05-28 03:12:0056.465 N, 9.06 WRRS Charles Darwin CD93B
848166CTD or STD cast1995-05-28 04:12:0056.46533 N, 9.05583 WRRS Charles Darwin CD93B
848387CTD or STD cast1995-05-28 05:09:0056.46617 N, 9.053 WRRS Charles Darwin CD93B
848013CTD or STD cast1995-05-28 06:18:0056.46283 N, 9.06067 WRRS Charles Darwin CD93B
848178CTD or STD cast1995-05-28 07:13:0056.4625 N, 9.06417 WRRS Charles Darwin CD93B
848037CTD or STD cast1995-05-28 13:20:0056.45483 N, 9.05283 WRRS Charles Darwin CD93B
848049CTD or STD cast1995-05-28 21:55:0056.4655 N, 9.15983 WRRS Charles Darwin CD93B
848191CTD or STD cast1995-05-28 23:32:0056.46833 N, 9.16317 WRRS Charles Darwin CD93B
848050CTD or STD cast1995-05-29 00:46:0056.469 N, 9.16117 WRRS Charles Darwin CD93B
848062CTD or STD cast1995-05-29 02:05:0056.46767 N, 9.16267 WRRS Charles Darwin CD93B
848209CTD or STD cast1995-05-29 03:07:0056.468 N, 9.16417 WRRS Charles Darwin CD93B
848074CTD or STD cast1995-05-29 04:06:0056.46717 N, 9.16117 WRRS Charles Darwin CD93B
848086CTD or STD cast1995-05-29 05:40:0056.46367 N, 9.302 WRRS Charles Darwin CD93B
848210CTD or STD cast1995-05-29 07:01:0056.46133 N, 9.22517 WRRS Charles Darwin CD93B
848098CTD or STD cast1995-05-29 08:20:0056.46733 N, 9.10217 WRRS Charles Darwin CD93B
848105CTD or STD cast1995-05-29 09:27:0056.46267 N, 9.04617 WRRS Charles Darwin CD93B
848222CTD or STD cast1995-05-29 11:02:0056.46217 N, 8.969 WRRS Charles Darwin CD93B
848117CTD or STD cast1995-05-29 13:30:0056.28767 N, 8.50267 WRRS Charles Darwin CD93B
390223CTD or STD cast1995-07-27 04:19:0056.4517 N, 9.65 WRRS Challenger CH120
390235CTD or STD cast1995-07-27 11:54:0056.4537 N, 9.2515 WRRS Challenger CH120
390247CTD or STD cast1995-07-27 14:35:0056.4812 N, 9.1477 WRRS Challenger CH120
1287248Water sample data1995-07-27 14:35:0056.4812 N, 9.1477 WRRS Challenger CH120
390259CTD or STD cast1995-07-27 19:47:0056.4572 N, 9.1117 WRRS Challenger CH120
390260CTD or STD cast1995-07-27 22:28:0056.4582 N, 9.0683 WRRS Challenger CH120
390272CTD or STD cast1995-07-27 23:33:0056.4587 N, 9.05 WRRS Challenger CH120
849575CTD or STD cast1995-08-11 09:33:0056.46517 N, 8.88233 WRRS Challenger CH121A
849587CTD or STD cast1995-08-11 14:21:0056.45733 N, 8.95683 WRRS Challenger CH121A
849599CTD or STD cast1995-08-11 19:45:0056.45717 N, 8.953 WRRS Challenger CH121A
849606CTD or STD cast1995-08-12 08:48:0056.4525 N, 9.081 WRRS Challenger CH121A
849618CTD or STD cast1995-08-12 14:18:0056.4565 N, 9.05867 WRRS Challenger CH121A
849631CTD or STD cast1995-08-12 18:13:0056.4385 N, 9.05383 WRRS Challenger CH121A
849643CTD or STD cast1995-08-12 20:16:0056.45567 N, 9.13433 WRRS Challenger CH121A
849655CTD or STD cast1995-08-12 21:23:0056.4745 N, 9.167 WRRS Challenger CH121A
849667CTD or STD cast1995-08-12 23:08:0056.45883 N, 9.29967 WRRS Challenger CH121A
849679CTD or STD cast1995-08-13 01:44:0056.45333 N, 9.647 WRRS Challenger CH121A
849680CTD or STD cast1995-08-13 07:03:0056.43633 N, 9.05533 WRRS Challenger CH121A
849827CTD or STD cast1995-08-13 09:57:0056.4535 N, 9.08 WRRS Challenger CH121A
849692CTD or STD cast1995-08-13 16:52:0056.4675 N, 9.16733 WRRS Challenger CH121A
849514CTD or STD cast1995-08-14 14:21:0056.4585 N, 9.06967 WRRS Challenger CH121A
849711CTD or STD cast1995-08-14 17:41:0056.4535 N, 9.0545 WRRS Challenger CH121A
849723CTD or STD cast1995-08-14 21:32:0056.44983 N, 9.16367 WRRS Challenger CH121A
849526CTD or STD cast1995-08-15 10:01:0056.445 N, 9.03883 WRRS Challenger CH121A
849735CTD or STD cast1995-08-15 14:17:0056.451 N, 8.97367 WRRS Challenger CH121A
849747CTD or STD cast1995-08-15 17:18:0056.46767 N, 8.959 WRRS Challenger CH121A
849538CTD or STD cast1995-08-15 19:56:0056.46733 N, 8.97267 WRRS Challenger CH121A
849796CTD or STD cast1995-08-16 08:42:0056.44633 N, 9.05717 WRRS Challenger CH121A
851819CTD or STD cast1995-08-20 14:02:0056.4515 N, 9.06283 WRRS Challenger CH121B
1287273Water sample data1995-08-20 14:18:0056.4515 N, 9.06287 WRRS Challenger CH121B
1288307Water sample data1995-08-20 14:18:0056.4515 N, 9.06287 WRRS Challenger CH121B
851684CTD or STD cast1995-08-21 00:25:0056.467 N, 9.093 WRRS Challenger CH121B
1287377Water sample data1995-08-21 00:48:0056.46696 N, 9.09294 WRRS Challenger CH121B
851162CTD or STD cast1995-08-21 02:01:0056.467 N, 9.15733 WRRS Challenger CH121B
1287389Water sample data1995-08-21 02:32:0056.46704 N, 9.15739 WRRS Challenger CH121B
851174CTD or STD cast1995-08-21 03:33:0056.4655 N, 9.21383 WRRS Challenger CH121B
851696CTD or STD cast1995-08-21 05:00:0056.465 N, 9.29117 WRRS Challenger CH121B
851592CTD or STD cast1995-08-25 17:09:0056.449 N, 8.9755 WRRS Challenger CH121B
1287678Water sample data1995-08-25 17:13:0056.44896 N, 8.97548 WRRS Challenger CH121B
850933CTD or STD cast1995-08-25 18:00:0056.46 N, 9.02667 WRRS Challenger CH121B
1287691Water sample data1995-08-25 18:05:0056.45999 N, 9.02659 WRRS Challenger CH121B
1288320Water sample data1995-08-25 18:05:0056.45999 N, 9.02659 WRRS Challenger CH121B
850945CTD or STD cast1995-08-25 18:55:0056.4585 N, 9.04633 WRRS Challenger CH121B
1287709Water sample data1995-08-25 19:01:0056.45852 N, 9.0464 WRRS Challenger CH121B
851611CTD or STD cast1995-08-25 22:27:0056.462 N, 9.06267 WRRS Challenger CH121B
1287710Water sample data1995-08-25 22:36:0056.46202 N, 9.06274 WRRS Challenger CH121B
1288332Water sample data1995-08-25 22:36:0056.46202 N, 9.06274 WRRS Challenger CH121B
850957CTD or STD cast1995-08-25 23:39:0056.4595 N, 9.10217 WRRS Challenger CH121B
1287722Water sample data1995-08-25 23:54:0056.4595 N, 9.1021 WRRS Challenger CH121B
1288344Water sample data1995-08-25 23:54:0056.4595 N, 9.1021 WRRS Challenger CH121B
850969CTD or STD cast1995-08-26 01:10:0056.46167 N, 9.13333 WRRS Challenger CH121B
1287734Water sample data1995-08-26 01:34:0056.46168 N, 9.13338 WRRS Challenger CH121B
851623CTD or STD cast1995-08-26 02:29:0056.4655 N, 9.15717 WRRS Challenger CH121B
1287746Water sample data1995-08-26 02:48:0056.46549 N, 9.15718 WRRS Challenger CH121B
1288356Water sample data1995-08-26 02:48:0056.46549 N, 9.15718 WRRS Challenger CH121B
850970CTD or STD cast1995-08-26 04:06:0056.46 N, 9.213 WRRS Challenger CH121B
1287758Water sample data1995-08-26 04:23:0056.46001 N, 9.21296 WRRS Challenger CH121B
850982CTD or STD cast1995-08-26 05:40:0056.46017 N, 9.29883 WRRS Challenger CH121B
1287771Water sample data1995-08-26 06:00:0056.46024 N, 9.29876 WRRS Challenger CH121B
1288368Water sample data1995-08-26 06:00:0056.46024 N, 9.29876 WRRS Challenger CH121B
850994CTD or STD cast1995-08-26 09:21:0056.45733 N, 9.40117 WRRS Challenger CH121B
1287783Water sample data1995-08-26 09:46:0056.45727 N, 9.40125 WRRS Challenger CH121B
850503CTD or STD cast1995-08-26 10:50:0056.458 N, 9.52117 WRRS Challenger CH121B
1287795Water sample data1995-08-26 11:22:0056.45808 N, 9.52116 WRRS Challenger CH121B
850515CTD or STD cast1995-08-26 12:33:0056.45683 N, 9.66167 WRRS Challenger CH121B
1287802Water sample data1995-08-26 13:09:0056.45685 N, 9.66175 WRRS Challenger CH121B
850527CTD or STD cast1995-08-26 14:06:0056.46017 N, 9.65083 WRRS Challenger CH121B
1287814Water sample data1995-08-26 14:14:0056.46017 N, 9.65076 WRRS Challenger CH121B
850619CTD or STD cast1995-08-28 06:16:0056.466 N, 9.163 WRRS Challenger CH121B
1287955Water sample data1995-08-28 06:51:0056.46603 N, 9.163 WRRS Challenger CH121B
850632CTD or STD cast1995-08-28 15:15:0056.46083 N, 9.09317 WRRS Challenger CH121B
1287979Water sample data1995-08-28 15:28:0056.46084 N, 9.09324 WRRS Challenger CH121B
850644CTD or STD cast1995-08-29 04:19:0056.43733 N, 9.07617 WRRS Challenger CH121B
1288006Water sample data1995-08-29 04:28:0056.43732 N, 9.07613 WRRS Challenger CH121B
851531CTD or STD cast1995-08-29 12:16:0056.45717 N, 9.05017 WRRS Challenger CH121B
1288018Water sample data1995-08-29 12:29:0056.45724 N, 9.0501 WRRS Challenger CH121B
850656CTD or STD cast1995-08-29 19:24:0056.45983 N, 9.045 WRRS Challenger CH121B
1288031Water sample data1995-08-29 19:32:0056.45978 N, 9.04494 WRRS Challenger CH121B
850668CTD or STD cast1995-08-29 22:23:0056.46 N, 9.04317 WRRS Challenger CH121B
1288043Water sample data1995-08-29 22:30:0056.46004 N, 9.04324 WRRS Challenger CH121B
851739CTD or STD cast1995-08-30 00:24:0056.45867 N, 9.044 WRRS Challenger CH121B
1288055Water sample data1995-08-30 00:24:0056.45873 N, 9.04392 WRRS Challenger CH121B
851788CTD or STD cast1995-08-30 02:54:0056.46 N, 9.04967 WRRS Challenger CH121B
1288067Water sample data1995-08-30 03:06:0056.46006 N, 9.04966 WRRS Challenger CH121B
850681CTD or STD cast1995-08-30 05:20:0056.461 N, 9.04483 WRRS Challenger CH121B
1288079Water sample data1995-08-30 05:32:0056.46104 N, 9.04482 WRRS Challenger CH121B
851543CTD or STD cast1995-08-30 07:46:0056.4605 N, 9.04333 WRRS Challenger CH121B
1288080Water sample data1995-08-30 07:56:0056.46046 N, 9.0434 WRRS Challenger CH121B
850693CTD or STD cast1995-08-30 09:48:0056.46017 N, 9.04417 WRRS Challenger CH121B
1288092Water sample data1995-08-30 10:01:0056.46012 N, 9.04424 WRRS Challenger CH121B
850700CTD or STD cast1995-08-30 12:04:0056.4595 N, 9.04333 WRRS Challenger CH121B
1288111Water sample data1995-08-30 12:13:0056.45951 N, 9.04334 WRRS Challenger CH121B
850712CTD or STD cast1995-08-30 14:13:0056.45783 N, 9.04333 WRRS Challenger CH121B
1288123Water sample data1995-08-30 14:20:0056.45777 N, 9.0433 WRRS Challenger CH121B
851555CTD or STD cast1995-08-30 17:22:0056.4485 N, 8.97317 WRRS Challenger CH121B
1288135Water sample data1995-08-30 17:28:0056.44844 N, 8.97322 WRRS Challenger CH121B
850724CTD or STD cast1995-08-30 19:51:0056.4495 N, 8.97417 WRRS Challenger CH121B
1288147Water sample data1995-08-30 19:57:0056.44944 N, 8.97416 WRRS Challenger CH121B
850736CTD or STD cast1995-08-30 22:08:0056.449 N, 8.97383 WRRS Challenger CH121B
1288159Water sample data1995-08-30 22:13:0056.44894 N, 8.97385 WRRS Challenger CH121B
851242CTD or STD cast1995-08-31 02:02:0056.45067 N, 8.97333 WRRS Challenger CH121B
1288160Water sample data1995-08-31 02:09:0056.45069 N, 8.97341 WRRS Challenger CH121B
850472CTD or STD cast1995-08-31 04:32:0056.44917 N, 8.97033 WRRS Challenger CH121B
1288172Water sample data1995-08-31 04:38:0056.44917 N, 8.97035 WRRS Challenger CH121B
850484CTD or STD cast1995-08-31 07:22:0056.45033 N, 8.974 WRRS Challenger CH121B
1288184Water sample data1995-08-31 07:27:0056.45036 N, 8.97395 WRRS Challenger CH121B
850496CTD or STD cast1995-08-31 09:42:0056.45017 N, 8.97317 WRRS Challenger CH121B
851868CTD or STD cast1995-09-02 08:59:0056.46667 N, 8.97117 WRRS Challenger CH121C
851881CTD or STD cast1995-09-02 12:12:0056.4725 N, 9.0835 WRRS Challenger CH121C
852104CTD or STD cast1995-09-02 17:07:0056.4505 N, 9.07433 WRRS Challenger CH121C
851900CTD or STD cast1995-09-02 20:01:0056.47567 N, 9.16317 WRRS Challenger CH121C
851912CTD or STD cast1995-09-03 02:34:0056.46083 N, 9.30017 WRRS Challenger CH121C
852116CTD or STD cast1995-09-03 07:27:0056.45283 N, 9.06317 WRRS Challenger CH121C
852190CTD or STD cast1995-09-03 19:24:0056.44683 N, 9.038 WRRS Challenger CH121C
852208CTD or STD cast1995-09-04 15:35:0056.4645 N, 8.96333 WRRS Challenger CH121C
852024CTD or STD cast1995-09-06 01:13:0056.45833 N, 9.65017 WRRS Challenger CH121C
854694CTD or STD cast1995-11-19 10:36:0056.46817 N, 8.9805 WRRS Challenger CH123A
854701CTD or STD cast1995-11-19 14:43:0056.50733 N, 9.01033 WRRS Challenger CH123A
854750CTD or STD cast1995-11-21 11:46:0056.454 N, 9.042 WRRS Challenger CH123A
854762CTD or STD cast1995-11-21 12:32:0056.45833 N, 9.06317 WRRS Challenger CH123A
854829CTD or STD cast1995-11-26 22:02:0056.41817 N, 8.97467 WRRS Challenger CH123A
854842CTD or STD cast1995-11-27 12:58:0056.45633 N, 9.08683 WRRS Challenger CH123A
854854CTD or STD cast1995-11-27 15:07:0056.43617 N, 9.00133 WRRS Challenger CH123A
854866CTD or STD cast1995-11-27 21:38:0056.4535 N, 8.964 WRRS Challenger CH123A
854878CTD or STD cast1995-11-27 23:06:0056.46733 N, 9.14967 WRRS Challenger CH123A
854891CTD or STD cast1995-11-28 00:55:0056.47933 N, 9.139 WRRS Challenger CH123A
855520CTD or STD cast1995-12-03 22:16:0056.464 N, 8.98117 WRRS Challenger CH123B
855532CTD or STD cast1995-12-03 23:13:0056.46167 N, 9.02717 WRRS Challenger CH123B
855151CTD or STD cast1995-12-03 23:57:0056.46183 N, 9.04467 WRRS Challenger CH123B
855544CTD or STD cast1995-12-04 00:52:0056.465 N, 9.07317 WRRS Challenger CH123B
855556CTD or STD cast1995-12-04 01:55:0056.46233 N, 9.10017 WRRS Challenger CH123B
855789CTD or STD cast1995-12-04 03:22:0056.46283 N, 9.16967 WRRS Challenger CH123B
855568CTD or STD cast1995-12-04 04:59:0056.47 N, 9.17333 WRRS Challenger CH123B
855581CTD or STD cast1995-12-04 06:36:0056.46467 N, 9.1715 WRRS Challenger CH123B
855593CTD or STD cast1995-12-04 08:44:0056.4625 N, 9.17717 WRRS Challenger CH123B
854909CTD or STD cast1995-12-04 10:57:0056.463 N, 9.22533 WRRS Challenger CH123B
854910CTD or STD cast1995-12-04 21:06:0056.46117 N, 9.2895 WRRS Challenger CH123B
855624CTD or STD cast1995-12-04 23:15:0056.4635 N, 9.38517 WRRS Challenger CH123B
855636CTD or STD cast1995-12-06 15:07:0056.46417 N, 9.0375 WRRS Challenger CH123B
854922CTD or STD cast1995-12-06 15:55:0056.46133 N, 9.0405 WRRS Challenger CH123B
855648CTD or STD cast1995-12-06 16:44:0056.46017 N, 9.04417 WRRS Challenger CH123B
855661CTD or STD cast1995-12-06 18:36:0056.46183 N, 9.043 WRRS Challenger CH123B
854934CTD or STD cast1995-12-06 21:05:0056.46867 N, 9.50133 WRRS Challenger CH123B
855673CTD or STD cast1995-12-07 02:11:0056.46483 N, 9.63633 WRRS Challenger CH123B
855403CTD or STD cast1995-12-09 19:23:0056.47117 N, 8.95983 WRRS Challenger CH123B
855071CTD or STD cast1995-12-09 20:33:0056.465 N, 8.94 WRRS Challenger CH123B
855415CTD or STD cast1995-12-09 21:20:0056.468 N, 8.96333 WRRS Challenger CH123B
855243CTD or STD cast1995-12-13 02:06:0056.46567 N, 9.0515 WRRS Challenger CH123B
855777CTD or STD cast1995-12-13 05:29:0056.47417 N, 9.17633 WRRS Challenger CH123B
855255CTD or STD cast1995-12-13 06:52:0056.475 N, 9.175 WRRS Challenger CH123B
855267CTD or STD cast1995-12-13 08:12:0056.48567 N, 9.1575 WRRS Challenger CH123B
855010CTD or STD cast1995-12-13 17:01:0056.47683 N, 9.06233 WRRS Challenger CH123B
855279CTD or STD cast1995-12-13 18:06:0056.4755 N, 9.06017 WRRS Challenger CH123B
855323CTD or STD cast1995-12-14 10:26:0056.461 N, 8.966 WRRS Challenger CH123B
856295CTD or STD cast1996-02-01 07:22:0056.459 N, 9.04833 WRRS Challenger CH125A
855937CTD or STD cast1996-02-01 11:11:0056.456 N, 8.97917 WRRS Challenger CH125A
855949CTD or STD cast1996-02-01 18:01:0056.46433 N, 8.9585 WRRS Challenger CH125A
856302CTD or STD cast1996-02-01 18:38:0056.46033 N, 8.957 WRRS Challenger CH125A
855950CTD or STD cast1996-02-01 19:23:0056.46017 N, 8.989 WRRS Challenger CH125A
855962CTD or STD cast1996-02-01 20:12:0056.4685 N, 9.04233 WRRS Challenger CH125A
856314CTD or STD cast1996-02-01 21:17:0056.47483 N, 9.05567 WRRS Challenger CH125A
855974CTD or STD cast1996-02-01 22:32:0056.466 N, 9.08117 WRRS Challenger CH125A
855986CTD or STD cast1996-02-01 23:55:0056.4725 N, 9.10267 WRRS Challenger CH125A
856326CTD or STD cast1996-02-02 01:09:0056.476 N, 9.16033 WRRS Challenger CH125A
855998CTD or STD cast1996-02-02 03:12:0056.47133 N, 9.2325 WRRS Challenger CH125A
856001CTD or STD cast1996-02-02 04:45:0056.45333 N, 9.29917 WRRS Challenger CH125A
856013CTD or STD cast1996-02-02 22:15:0056.464 N, 9.654 WRRS Challenger CH125A
856338CTD or STD cast1996-02-03 00:47:0056.47083 N, 9.587 WRRS Challenger CH125A
856025CTD or STD cast1996-02-03 01:31:0056.46767 N, 9.5955 WRRS Challenger CH125A
856037CTD or STD cast1996-02-03 03:06:0056.46683 N, 9.5045 WRRS Challenger CH125A
856351CTD or STD cast1996-02-03 04:39:0056.45333 N, 9.4045 WRRS Challenger CH125A
857089CTD or STD cast1996-02-14 10:16:0056.45133 N, 8.97433 WRRS Challenger CH125B
1290219Water sample data1996-02-14 10:23:0056.45136 N, 8.97426 WRRS Challenger CH125B
1700042Water sample data1996-02-14 10:23:0056.45136 N, 8.97426 WRRS Challenger CH125B
1867703Water sample data1996-02-14 10:23:0056.45136 N, 8.97426 WRRS Challenger CH125B
857090CTD or STD cast1996-02-14 12:50:0056.45983 N, 9.02467 WRRS Challenger CH125B
1290220Water sample data1996-02-14 12:56:0056.45977 N, 9.02459 WRRS Challenger CH125B
1867715Water sample data1996-02-14 12:56:0056.45977 N, 9.02459 WRRS Challenger CH125B
857575CTD or STD cast1996-02-14 13:45:0056.45317 N, 9.05433 WRRS Challenger CH125B
1290232Water sample data1996-02-14 13:56:0056.45311 N, 9.05436 WRRS Challenger CH125B
1700054Water sample data1996-02-14 13:56:0056.45311 N, 9.05436 WRRS Challenger CH125B
1867727Water sample data1996-02-14 13:56:0056.45311 N, 9.05436 WRRS Challenger CH125B
857108CTD or STD cast1996-02-14 18:06:0056.45683 N, 9.66017 WRRS Challenger CH125B
1290244Water sample data1996-02-14 18:49:0056.45687 N, 9.6601 WRRS Challenger CH125B
1867739Water sample data1996-02-14 18:49:0056.45687 N, 9.6601 WRRS Challenger CH125B
857121CTD or STD cast1996-02-14 20:28:0056.4515 N, 9.59917 WRRS Challenger CH125B
1290256Water sample data1996-02-14 21:05:0056.45152 N, 9.5992 WRRS Challenger CH125B
1700066Water sample data1996-02-14 21:05:0056.45152 N, 9.5992 WRRS Challenger CH125B
1867740Water sample data1996-02-14 21:05:0056.45152 N, 9.5992 WRRS Challenger CH125B
857133CTD or STD cast1996-02-14 22:41:0056.45417 N, 9.5145 WRRS Challenger CH125B
1290268Water sample data1996-02-14 23:13:0056.45414 N, 9.51442 WRRS Challenger CH125B
1700078Water sample data1996-02-14 23:13:0056.45414 N, 9.51442 WRRS Challenger CH125B
1867752Water sample data1996-02-14 23:13:0056.45414 N, 9.51442 WRRS Challenger CH125B
857286CTD or STD cast1996-02-19 18:53:0056.465 N, 9.06417 WRRS Challenger CH125B
1290385Water sample data1996-02-19 18:53:0056.46497 N, 9.0642 WRRS Challenger CH125B
1700195Water sample data1996-02-19 18:53:0056.46497 N, 9.0642 WRRS Challenger CH125B
1867997Water sample data1996-02-19 18:53:0056.46497 N, 9.0642 WRRS Challenger CH125B
857213CTD or STD cast1996-02-19 20:01:0056.47183 N, 9.07583 WRRS Challenger CH125B
1290397Water sample data1996-02-19 20:14:0056.47175 N, 9.07588 WRRS Challenger CH125B
1700202Water sample data1996-02-19 20:14:0056.47175 N, 9.07588 WRRS Challenger CH125B
1868000Water sample data1996-02-19 20:14:0056.47175 N, 9.07588 WRRS Challenger CH125B
857225CTD or STD cast1996-02-19 21:23:0056.46267 N, 9.0985 WRRS Challenger CH125B
1290404Water sample data1996-02-19 21:41:0056.4627 N, 9.09847 WRRS Challenger CH125B
1700214Water sample data1996-02-19 21:41:0056.4627 N, 9.09847 WRRS Challenger CH125B
1868012Water sample data1996-02-19 21:41:0056.4627 N, 9.09847 WRRS Challenger CH125B
857298CTD or STD cast1996-02-19 22:27:0056.4655 N, 9.14133 WRRS Challenger CH125B
1290416Water sample data1996-02-19 22:45:0056.46555 N, 9.14135 WRRS Challenger CH125B
1700226Water sample data1996-02-19 22:45:0056.46555 N, 9.14135 WRRS Challenger CH125B
1868024Water sample data1996-02-19 22:45:0056.46555 N, 9.14135 WRRS Challenger CH125B
857631CTD or STD cast1996-02-19 23:45:0056.46717 N, 9.18217 WRRS Challenger CH125B
1290428Water sample data1996-02-20 00:14:0056.46711 N, 9.18213 WRRS Challenger CH125B
1700238Water sample data1996-02-20 00:14:0056.46711 N, 9.18213 WRRS Challenger CH125B
1868036Water sample data1996-02-20 00:14:0056.46711 N, 9.18213 WRRS Challenger CH125B
857237CTD or STD cast1996-02-20 02:15:0056.46283 N, 9.2135 WRRS Challenger CH125B
1290441Water sample data1996-02-20 02:38:0056.46284 N, 9.21349 WRRS Challenger CH125B
1700251Water sample data1996-02-20 02:38:0056.46284 N, 9.21349 WRRS Challenger CH125B
1868048Water sample data1996-02-20 02:38:0056.46284 N, 9.21349 WRRS Challenger CH125B
857723CTD or STD cast1996-02-20 04:22:0056.4665 N, 9.305 WRRS Challenger CH125B
1290453Water sample data1996-02-20 04:56:0056.46642 N, 9.30506 WRRS Challenger CH125B
1700263Water sample data1996-02-20 04:56:0056.46642 N, 9.30506 WRRS Challenger CH125B
1868061Water sample data1996-02-20 04:56:0056.46642 N, 9.30506 WRRS Challenger CH125B
857760CTD or STD cast1996-02-20 07:31:0056.45583 N, 9.40383 WRRS Challenger CH125B
1290477Water sample data1996-02-20 08:02:0056.45578 N, 9.40386 WRRS Challenger CH125B
1700287Water sample data1996-02-20 08:02:0056.45578 N, 9.40386 WRRS Challenger CH125B
1868085Water sample data1996-02-20 08:02:0056.45578 N, 9.40386 WRRS Challenger CH125B
857981CTD or STD cast1996-04-15 14:56:0056.45567 N, 9.0315 WRRS Challenger CH126A
1675553Water sample data1996-04-15 15:02:0056.4557 N, 9.03143 WRRS Challenger CH126A
857993CTD or STD cast1996-04-15 15:51:0056.47083 N, 8.96567 WRRS Challenger CH126A
1675657Water sample data1996-04-15 16:01:0056.47081 N, 8.96566 WRRS Challenger CH126A
858007CTD or STD cast1996-04-17 11:22:0056.46567 N, 8.95117 WRRS Challenger CH126A
858019CTD or STD cast1996-04-17 11:44:0056.46933 N, 8.94933 WRRS Challenger CH126A
1675934Water sample data1996-04-17 11:54:0056.46935 N, 8.94929 WRRS Challenger CH126A
858357CTD or STD cast1996-04-17 16:25:0056.47283 N, 9.17133 WRRS Challenger CH126A
1675946Water sample data1996-04-17 16:45:0056.47276 N, 9.17138 WRRS Challenger CH126A
858020CTD or STD cast1996-04-17 21:33:0056.42633 N, 8.97567 WRRS Challenger CH126A
1675958Water sample data1996-04-17 21:40:0056.42636 N, 8.97565 WRRS Challenger CH126A
858032CTD or STD cast1996-04-17 22:53:0056.4285 N, 9.05083 WRRS Challenger CH126A
1675971Water sample data1996-04-17 23:02:0056.42845 N, 9.05082 WRRS Challenger CH126A
858369CTD or STD cast1996-04-17 23:39:0056.43167 N, 9.08467 WRRS Challenger CH126A
1675983Water sample data1996-04-17 23:56:0056.43171 N, 9.08469 WRRS Challenger CH126A
858044CTD or STD cast1996-04-18 01:27:0056.45433 N, 9.104 WRRS Challenger CH126A
1675565Water sample data1996-04-18 01:48:0056.4544 N, 9.10396 WRRS Challenger CH126A
858056CTD or STD cast1996-04-18 03:12:0056.44167 N, 9.16183 WRRS Challenger CH126A
1675577Water sample data1996-04-18 03:43:0056.44165 N, 9.16191 WRRS Challenger CH126A
858370CTD or STD cast1996-04-18 15:31:0056.48433 N, 9.14683 WRRS Challenger CH126A
858068CTD or STD cast1996-04-18 22:05:0056.45867 N, 9.21367 WRRS Challenger CH126A
1675589Water sample data1996-04-18 22:25:0056.45871 N, 9.21371 WRRS Challenger CH126A
858265CTD or STD cast1996-04-18 23:53:0056.45617 N, 9.30833 WRRS Challenger CH126A
1675590Water sample data1996-04-19 00:31:0056.45614 N, 9.30829 WRRS Challenger CH126A
858081CTD or STD cast1996-04-19 03:56:0056.45717 N, 9.65267 WRRS Challenger CH126A
1675608Water sample data1996-04-19 04:51:0056.45722 N, 9.65268 WRRS Challenger CH126A
858093CTD or STD cast1996-04-19 13:22:0056.44933 N, 9.0675 WRRS Challenger CH126A
1675621Water sample data1996-04-19 13:34:0056.44936 N, 9.06742 WRRS Challenger CH126A
858161CTD or STD cast1996-04-23 23:44:0056.43767 N, 8.98617 WRRS Challenger CH126A
1675762Water sample data1996-04-23 23:51:0056.43772 N, 8.9862 WRRS Challenger CH126A
858173CTD or STD cast1996-04-24 01:09:0056.44733 N, 9.05133 WRRS Challenger CH126A
1675774Water sample data1996-04-24 01:19:0056.44731 N, 9.0513 WRRS Challenger CH126A
858425CTD or STD cast1996-04-24 02:02:0056.44767 N, 9.10983 WRRS Challenger CH126A
1675786Water sample data1996-04-24 02:24:0056.44774 N, 9.10986 WRRS Challenger CH126A
858308CTD or STD cast1996-04-24 03:24:0056.44433 N, 9.0735 WRRS Challenger CH126A
1675798Water sample data1996-04-24 03:43:0056.44438 N, 9.07354 WRRS Challenger CH126A
858185CTD or STD cast1996-04-24 10:04:0056.45117 N, 9.04017 WRRS Challenger CH126A
1675805Water sample data1996-04-24 10:12:0056.45116 N, 9.04009 WRRS Challenger CH126A
860036CTD or STD cast1996-04-28 11:54:0056.44317 N, 8.93567 WRRS Challenger CH126B
858554CTD or STD cast1996-04-28 14:13:0056.4435 N, 8.91733 WRRS Challenger CH126B
860048CTD or STD cast1996-04-28 16:14:0056.44567 N, 8.93067 WRRS Challenger CH126B
860061CTD or STD cast1996-04-28 18:05:0056.44133 N, 8.93583 WRRS Challenger CH126B
858566CTD or STD cast1996-04-28 20:03:0056.43783 N, 8.946 WRRS Challenger CH126B
860073CTD or STD cast1996-04-28 22:03:0056.44233 N, 8.94067 WRRS Challenger CH126B
860085CTD or STD cast1996-04-29 00:04:0056.44117 N, 8.92417 WRRS Challenger CH126B
860097CTD or STD cast1996-04-29 02:01:0056.44367 N, 8.95 WRRS Challenger CH126B
860153CTD or STD cast1996-04-29 04:03:0056.44067 N, 8.93 WRRS Challenger CH126B
860104CTD or STD cast1996-04-29 06:06:0056.443 N, 8.936 WRRS Challenger CH126B
860116CTD or STD cast1996-04-29 08:03:0056.44467 N, 8.9405 WRRS Challenger CH126B
858578CTD or STD cast1996-04-29 10:02:0056.4435 N, 8.93383 WRRS Challenger CH126B
860128CTD or STD cast1996-04-29 12:04:0056.44833 N, 8.93017 WRRS Challenger CH126B
859103CTD or STD cast1996-04-29 16:07:0056.43333 N, 9.64133 WRRS Challenger CH126B
859115CTD or STD cast1996-04-29 16:33:0056.43433 N, 9.65 WRRS Challenger CH126B
859127CTD or STD cast1996-04-29 20:45:0056.46383 N, 9.3125 WRRS Challenger CH126B
859139CTD or STD cast1996-04-29 23:39:0056.44533 N, 9.17217 WRRS Challenger CH126B
858609CTD or STD cast1996-04-30 01:22:0056.4455 N, 9.15633 WRRS Challenger CH126B
859140CTD or STD cast1996-04-30 03:22:0056.44633 N, 9.15767 WRRS Challenger CH126B
859152CTD or STD cast1996-04-30 05:03:0056.48733 N, 9.1665 WRRS Challenger CH126B
858610CTD or STD cast1996-04-30 11:51:0056.44883 N, 9.16667 WRRS Challenger CH126B
859164CTD or STD cast1996-04-30 15:30:0056.45683 N, 9.17867 WRRS Challenger CH126B
859176CTD or STD cast1996-04-30 17:24:0056.46367 N, 9.09567 WRRS Challenger CH126B
858622CTD or STD cast1996-04-30 18:39:0056.46833 N, 9.05783 WRRS Challenger CH126B
859188CTD or STD cast1996-04-30 19:37:0056.46617 N, 9.04267 WRRS Challenger CH126B
859207CTD or STD cast1996-04-30 22:07:0056.4775 N, 9.05367 WRRS Challenger CH126B
858634CTD or STD cast1996-05-01 00:03:0056.46817 N, 9.04217 WRRS Challenger CH126B
859219CTD or STD cast1996-05-01 02:04:0056.46867 N, 9.04283 WRRS Challenger CH126B
859220CTD or STD cast1996-05-01 04:04:0056.46833 N, 9.04233 WRRS Challenger CH126B
859650CTD or STD cast1996-05-01 06:02:0056.468 N, 9.04467 WRRS Challenger CH126B
859662CTD or STD cast1996-05-01 08:06:0056.47183 N, 9.04967 WRRS Challenger CH126B
859404CTD or STD cast1996-05-05 04:08:0056.447 N, 8.96167 WRRS Challenger CH126B
858702CTD or STD cast1996-05-05 04:55:0056.4625 N, 9.021 WRRS Challenger CH126B
859416CTD or STD cast1996-05-05 05:30:0056.44717 N, 9.05 WRRS Challenger CH126B
859428CTD or STD cast1996-05-05 06:06:0056.44833 N, 9.06783 WRRS Challenger CH126B
859441CTD or STD cast1996-05-05 06:46:0056.46167 N, 9.09683 WRRS Challenger CH126B
858714CTD or STD cast1996-05-05 07:52:0056.48283 N, 9.16683 WRRS Challenger CH126B
859453CTD or STD cast1996-05-05 09:15:0056.46367 N, 9.21467 WRRS Challenger CH126B
859465CTD or STD cast1996-05-05 10:48:0056.46083 N, 9.3065 WRRS Challenger CH126B
858726CTD or STD cast1996-05-05 13:09:0056.4445 N, 9.04983 WRRS Challenger CH126B
858738CTD or STD cast1996-05-05 23:30:0056.46333 N, 9.66317 WRRS Challenger CH126B
859490CTD or STD cast1996-05-06 01:54:0056.46183 N, 9.52383 WRRS Challenger CH126B
859508CTD or STD cast1996-05-06 03:41:0056.46033 N, 9.5185 WRRS Challenger CH126B
858879CTD or STD cast1996-05-10 00:09:0056.46383 N, 9.02317 WRRS Challenger CH126B
858880CTD or STD cast1996-05-10 03:44:0056.4615 N, 9.02467 WRRS Challenger CH126B
858911CTD or STD cast1996-05-10 07:13:0056.486 N, 9.04667 WRRS Challenger CH126B
858935CTD or STD cast1996-05-10 12:32:0056.46767 N, 9.0315 WRRS Challenger CH126B
858972CTD or STD cast1996-05-10 22:52:0056.47417 N, 9.2975 WRRS Challenger CH126B
858984CTD or STD cast1996-05-11 00:54:0056.48717 N, 9.16717 WRRS Challenger CH126B
858996CTD or STD cast1996-05-11 02:20:0056.46533 N, 9.098 WRRS Challenger CH126B
859011CTD or STD cast1996-05-11 03:21:0056.4725 N, 9.0605 WRRS Challenger CH126B
859023CTD or STD cast1996-05-11 04:11:0056.46783 N, 9.04533 WRRS Challenger CH126B
859035CTD or STD cast1996-05-11 04:49:0056.46167 N, 9.024 WRRS Challenger CH126B
859047CTD or STD cast1996-05-11 05:39:0056.47417 N, 8.96333 WRRS Challenger CH126B
860583CTD or STD cast1996-07-11 21:15:0056.46767 N, 9.05533 WRRS Challenger CH128A
1292447Water sample data1996-07-11 21:26:0056.46774 N, 9.05535 WRRS Challenger CH128A
860614CTD or STD cast1996-07-12 14:34:0056.47567 N, 8.20367 WRRS Challenger CH128A
1292042Water sample data1996-07-12 14:45:0056.47571 N, 8.20369 WRRS Challenger CH128A
860405CTD or STD cast1996-07-13 20:40:0056.46367 N, 8.97617 WRRS Challenger CH128A
1292066Water sample data1996-07-13 20:46:0056.46361 N, 8.97625 WRRS Challenger CH128A
860208CTD or STD cast1996-07-14 03:21:0056.44783 N, 8.9645 WRRS Challenger CH128A
860429CTD or STD cast1996-07-14 12:18:0056.47217 N, 8.97833 WRRS Challenger CH128A
1292146Water sample data1996-07-14 12:30:0056.47223 N, 8.97834 WRRS Challenger CH128A
860687CTD or STD cast1996-07-14 17:49:0056.45483 N, 9.04717 WRRS Challenger CH128A
1292158Water sample data1996-07-14 18:00:0056.45476 N, 9.04714 WRRS Challenger CH128A
860699CTD or STD cast1996-07-15 01:49:0056.45283 N, 8.98183 WRRS Challenger CH128A
1292171Water sample data1996-07-15 01:55:0056.4529 N, 8.98178 WRRS Challenger CH128A
860430CTD or STD cast1996-07-15 11:41:0056.461 N, 8.9845 WRRS Challenger CH128A
860706CTD or STD cast1996-07-15 18:20:0056.46833 N, 8.193 WRRS Challenger CH128A
1292183Water sample data1996-07-15 18:27:0056.46836 N, 8.193 WRRS Challenger CH128A
860221CTD or STD cast1996-07-16 02:44:0056.46567 N, 8.19767 WRRS Challenger CH128A
1292195Water sample data1996-07-16 02:52:0056.46564 N, 8.19773 WRRS Challenger CH128A
860442CTD or STD cast1996-07-16 06:41:0056.452 N, 8.19667 WRRS Challenger CH128A
1292202Water sample data1996-07-16 06:52:0056.45196 N, 8.19664 WRRS Challenger CH128A
860718CTD or STD cast1996-07-16 13:27:0056.45333 N, 8.18567 WRRS Challenger CH128A
1292214Water sample data1996-07-16 13:36:0056.45334 N, 8.18572 WRRS Challenger CH128A
861039CTD or STD cast1996-07-17 20:51:0056.45367 N, 8.98267 WRRS Challenger CH128A
860233CTD or STD cast1996-07-17 23:26:0056.46133 N, 9.40367 WRRS Challenger CH128A
1292299Water sample data1996-07-17 23:58:0056.46127 N, 9.40367 WRRS Challenger CH128A
860755CTD or STD cast1996-07-18 01:44:0056.4525 N, 9.658 WRRS Challenger CH128A
1292306Water sample data1996-07-18 02:26:0056.45253 N, 9.658 WRRS Challenger CH128A
860454CTD or STD cast1996-07-18 03:51:0056.44233 N, 9.67533 WRRS Challenger CH128A
860767CTD or STD cast1996-07-18 05:07:0056.45817 N, 9.5245 WRRS Challenger CH128A
1292318Water sample data1996-07-18 05:54:0056.45822 N, 9.52454 WRRS Challenger CH128A
1292343Water sample data1996-07-18 07:19:0056.459 N, 9.52201 WRRS Challenger CH128A
860349CTD or STD cast1996-07-18 09:42:0056.4655 N, 9.30317 WRRS Challenger CH128A
1292355Water sample data1996-07-18 10:11:0056.46549 N, 9.30317 WRRS Challenger CH128A
860350CTD or STD cast1996-07-18 11:51:0056.46783 N, 9.21867 WRRS Challenger CH128A
1292367Water sample data1996-07-18 12:16:0056.46788 N, 9.21874 WRRS Challenger CH128A
860362CTD or STD cast1996-07-18 14:04:0056.4575 N, 9.15317 WRRS Challenger CH128A
1292379Water sample data1996-07-18 14:13:0056.45747 N, 9.15317 WRRS Challenger CH128A
860374CTD or STD cast1996-07-18 14:44:0056.44483 N, 9.157 WRRS Challenger CH128A
1292380Water sample data1996-07-18 15:09:0056.44489 N, 9.15708 WRRS Challenger CH128A
860386CTD or STD cast1996-07-18 16:17:0056.46433 N, 9.08767 WRRS Challenger CH128A
1292392Water sample data1996-07-18 16:37:0056.46429 N, 9.08774 WRRS Challenger CH128A
860398CTD or STD cast1996-07-18 18:53:0056.46717 N, 9.03767 WRRS Challenger CH128A
860779CTD or STD cast1996-07-18 19:44:0056.46683 N, 9.06033 WRRS Challenger CH128A
1292411Water sample data1996-07-18 19:59:0056.4668 N, 9.06039 WRRS Challenger CH128A
860780CTD or STD cast1996-07-18 20:38:0056.46767 N, 9.0405 WRRS Challenger CH128A
1292423Water sample data1996-07-18 20:43:0056.46774 N, 9.04046 WRRS Challenger CH128A
860245CTD or STD cast1996-07-18 21:37:0056.47067 N, 8.9775 WRRS Challenger CH128A
1292435Water sample data1996-07-18 21:45:0056.47064 N, 8.97756 WRRS Challenger CH128A
860792CTD or STD cast1996-07-18 23:15:0056.4815 N, 9.17467 WRRS Challenger CH128A
860522CTD or STD cast1996-07-22 19:38:0056.45417 N, 8.9805 WRRS Challenger CH128A
861015CTD or STD cast1996-07-23 01:35:0056.45283 N, 8.98383 WRRS Challenger CH128A
860988CTD or STD cast1996-07-23 06:54:0056.45517 N, 8.97967 WRRS Challenger CH128A
1292681Water sample data1996-07-23 07:03:0056.45515 N, 8.9796 WRRS Challenger CH128A
860534CTD or STD cast1996-07-23 13:17:0056.4625 N, 8.9715 WRRS Challenger CH128A
861003CTD or STD cast1996-07-23 17:18:0056.46967 N, 8.19783 WRRS Challenger CH128A
860325CTD or STD cast1996-07-24 01:27:0056.46833 N, 8.1995 WRRS Challenger CH128A
860546CTD or STD cast1996-07-24 06:50:0056.4785 N, 8.20033 WRRS Challenger CH128A
1292693Water sample data1996-07-24 06:57:0056.47858 N, 8.20037 WRRS Challenger CH128A
860478CTD or STD cast1996-07-24 12:41:0056.45467 N, 8.17933 WRRS Challenger CH128A
860558CTD or STD cast1996-07-24 17:51:0056.48317 N, 9.097 WRRS Challenger CH128A
1292700Water sample data1996-07-24 18:04:0056.48313 N, 9.09704 WRRS Challenger CH128A
860165CTD or STD cast1996-07-25 06:24:0056.47167 N, 9.01783 WRRS Challenger CH128A
861316CTD or STD cast1996-07-29 03:17:0056.46933 N, 9.2995 WRRS Challenger CH128B
861168CTD or STD cast1996-07-29 05:22:0056.451 N, 9.15717 WRRS Challenger CH128B
861328CTD or STD cast1996-07-29 18:10:0056.44083 N, 9.155 WRRS Challenger CH128B
861341CTD or STD cast1996-07-29 23:49:0056.4625 N, 9.09533 WRRS Challenger CH128B
861181CTD or STD cast1996-07-30 01:02:0056.4625 N, 8.964 WRRS Challenger CH128B
861353CTD or STD cast1996-07-30 01:57:0056.45283 N, 9.04883 WRRS Challenger CH128B
861365CTD or STD cast1996-07-30 02:48:0056.46717 N, 9.0525 WRRS Challenger CH128B
861377CTD or STD cast1996-08-01 14:40:0056.46333 N, 9.30467 WRRS Challenger CH128B
861193CTD or STD cast1996-08-01 20:43:0056.45467 N, 9.65683 WRRS Challenger CH128B
861501CTD or STD cast1996-08-04 02:09:0056.45183 N, 9.05317 WRRS Challenger CH128B
861470CTD or STD cast1996-08-04 03:24:0056.44633 N, 9.05767 WRRS Challenger CH128B
861494CTD or STD cast1996-08-06 19:27:0056.443 N, 9.17017 WRRS Challenger CH128B
861248CTD or STD cast1996-08-06 20:37:0056.44267 N, 9.16683 WRRS Challenger CH128B