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Metadata Report for BODC Series Reference Number 847685

Metadata Summary

Data Description

Data Category CTD or STD cast
Instrument Type
Sea-Bird SBE 43 Dissolved Oxygen Sensor  dissolved gas sensors
Chelsea Technologies Group Aquatracka fluorometer  fluorometers
Sea-Bird SBE 911plus CTD  CTD; water temperature sensor; salinity sensor
Chelsea Technologies Group Alphatracka transmissometer  transmissometers
Instrument Mounting lowered unmanned submersible
Originating Country United Kingdom
Originator Prof Toby Sherwin
Originating Organization Scottish Association for Marine Science
Processing Status banked
Online delivery of data Download available - Ocean Data View (ODV) format
Project(s) Oceans 2025

Data Identifiers

Originator's Identifier CTD047
BODC Series Reference 847685

Time Co-ordinates(UT)

Start Time (yyyy-mm-dd hh:mm) 2007-09-02 22:31
End Time (yyyy-mm-dd hh:mm) 2007-09-02 22:48
Nominal Cycle Interval 2.0 decibars

Spatial Co-ordinates

Latitude 60.54961 N ( 60° 33.0' N )
Longitude 8.19440 W ( 8° 11.7' W )
Positional Uncertainty Unspecified
Minimum Sensor or Sampling Depth 7.92 m
Maximum Sensor or Sampling Depth 828.39 m
Minimum Sensor or Sampling Height 20.61 m
Maximum Sensor or Sampling Height 841.08 m
Sea Floor Depth 849.0 m
Sea Floor Depth Source -
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


BODC CODERankUnitsTitle
ACYCAA011DimensionlessSequence number
CPHLPM011Milligrams 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 and manufacturer's calibration applied
DOXYSC011Micromoles per litreConcentration of oxygen {O2 CAS 7782-44-7} per unit volume of the water body [dissolved plus reactive particulate phase] by Sea-Bird SBE 43 sensor and calibration against sample data
POPTDR011PercentTransmittance (red light wavelength) per 25cm of the water body by 25cm path length red light transmissometer
PRESPR011DecibarsPressure (spatial coordinate) exerted by the water body by profiling pressure sensor and correction to read zero at sea level
PSALCC011DimensionlessPractical salinity of the water body by CTD and computation using UNESCO 1983 algorithm and calibration against independent measurements
TEMPCU011Degrees CelsiusTemperature of the water body by CTD and NO verification against independent measurements

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

Severe contamination of the CTD data has been identified by the data originator due to a surging problem affecting the temperature, salinity and oxygen (and possibly other) channels on all casts from the cruise D321B. A number of regular blips were identified in the profiles and have been attributed to the roll of the ship in the swell due to the winch system adopted on board not compensating for ship heave. These parts of the dataset have not been removed during data processing and have not been flagged as it is difficult to establish which data are erroneous but users should be aware that this problem exists.

Data Access Policy

Open Data supplied by Natural Environment Research Council (NERC)

You must always use the following attribution statement to acknowledge the source of the information: "Contains data supplied by Natural Environment Research Council."

Narrative Documents

Sea-Bird Dissolved Oxygen Sensor SBE 43 and SBE 43F

The SBE 43 is a dissolved oxygen sensor designed for marine applications. It incorporates a high-performance Clark polarographic membrane with a pump that continuously plumbs water through it, preventing algal growth and the development of anoxic conditions when the sensor is taking measurements.

Two configurations are available: SBE 43 produces a voltage output and can be incorporated with any Sea-Bird CTD that accepts input from a 0-5 volt auxiliary sensor, while the SBE 43F produces a frequency output and can be integrated with an SBE 52-MP (Moored Profiler CTD) or used for OEM applications. The specifications below are common to both.


Housing Plastic or titanium

0.5 mil- fast response, typical for profile applications

1 mil- slower response, typical for moored applications

Depth rating

600 m (plastic) or 7000 m (titanium)

10500 m titanium housing available on request

Measurement range 120% of surface saturation
Initial accuracy 2% of saturation
Typical stability 0.5% per 1000 h

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

Sea-Bird Electronics SBE 911 and SBE 917 series CTD profilers

The SBE 911 and SBE 917 series of conductivity-temperature-depth (CTD) units are used to collect hydrographic profiles, including temperature, conductivity and pressure as standard. Each profiler consists of an underwater unit and deck unit or SEARAM. Auxiliary sensors, such as fluorometers, dissolved oxygen sensors and transmissometers, and carousel water samplers are commonly added to the underwater unit.

Underwater unit

The CTD underwater unit (SBE 9 or SBE 9 plus) comprises a protective cage (usually with a carousel water sampler), including a main pressure housing containing power supplies, acquisition electronics, telemetry circuitry, and a suite of modular sensors. The original SBE 9 incorporated Sea-Bird's standard modular SBE 3 temperature sensor and SBE 4 conductivity sensor, and a Paroscientific Digiquartz pressure sensor. The conductivity cell was connected to a pump-fed plastic tubing circuit that could include auxiliary sensors. Each SBE 9 unit was custom built to individual specification. The SBE 9 was replaced in 1997 by an off-the-shelf version, termed the SBE 9 plus, that incorporated the SBE 3 plus (or SBE 3P) temperature sensor, SBE 4C conductivity sensor and a Paroscientific Digiquartz pressure sensor. Sensors could be connected to a pump-fed plastic tubing circuit or stand-alone.

Temperature, conductivity and pressure sensors

The conductivity, temperature, and pressure sensors supplied with Sea-Bird CTD systems have outputs in the form of variable frequencies, which are measured using high-speed parallel counters. The resulting count totals are converted to numeric representations of the original frequencies, which bear a direct relationship to temperature, conductivity or pressure. Sampling frequencies for these sensors are typically set at 24 Hz.

The temperature sensing element is a glass-coated thermistor bead, pressure-protected inside a stainless steel tube, while the conductivity sensing element is a cylindrical, flow-through, borosilicate glass cell with three internal platinum electrodes. Thermistor resistance or conductivity cell resistance, respectively, is the controlling element in an optimized Wien Bridge oscillator circuit, which produces a frequency output that can be converted to a temperature or conductivity reading. These sensors are available with depth ratings of 6800 m (aluminium housing) or 10500 m (titanium housing). The Paroscientific Digiquartz pressure sensor comprises a quartz crystal resonator that responds to pressure-induced stress, and temperature is measured for thermal compensation of the calculated pressure.

Additional sensors

Optional sensors for dissolved oxygen, pH, light transmission, fluorescence and others do not require the very high levels of resolution needed in the primary CTD channels, nor do these sensors generally offer variable frequency outputs. Accordingly, signals from the auxiliary sensors are acquired using a conventional voltage-input multiplexed A/D converter (optional). Some Sea-Bird CTDs use a strain gauge pressure sensor (Senso-Metrics) in which case their pressure output data is in the same form as that from the auxiliary sensors as described above.

Deck unit or SEARAM

Each underwater unit is connected to a power supply and data logging system: the SBE 11 (or SBE 11 plus) deck unit allows real-time interfacing between the deck and the underwater unit via a conductive wire, while the submersible SBE 17 (or SBE 17 plus) SEARAM plugs directly into the underwater unit and data are downloaded on recovery of the CTD. The combination of SBE 9 and SBE 17 or SBE 11 are termed SBE 917 or SBE 911, respectively, while the combinations of SBE 9 plus and SBE 17 plus or SBE 11 plus are termed SBE 917 plus or SBE 911 plus.


Specifications for the SBE 9 plus underwater unit are listed below:

Parameter Range Initial accuracy Resolution at 24 Hz Response time
Temperature -5 to 35°C 0.001°C 0.0002°C 0.065 sec
Conductivity 0 to 7 S m-1 0.0003 S m-1 0.00004 S m-1 0.065 sec (pumped)
Pressure 0 to full scale (1400, 2000, 4200, 6800 or 10500 m) 0.015% of full scale 0.001% of full scale 0.015 sec

Further details can be found in the manufacturer's 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 Group ALPHAtracka and ALPHAtracka II transmissometers

The Chelsea Technologies Group ALPHAtracka (the Mark I) and its successor, the ALPHAtracka II (the Mark II), are both accurate (< 0.3 % fullscale) transmissometers that measure the beam attenuation coefficient at 660 nm. Green (565 nm), yellow (590 nm) and blue (470 nm) wavelength variants are available on special order.

The instrument consists of a Transmitter/Reference Assembly and a Detector Assembly aligned and spaced apart by an open support frame. The housing and frame are both manufactured in titanium and are pressure rated to 6000 m depth.

The Transmitter/Reference housing is sealed by an end cap. Inside the housing an LED light source emits a collimated beam through a sealed window. The Detector housing is also sealed by an end cap. A signal photodiode is placed behind a sealed window to receive the collimated beam from the Transmitter.

The primary difference between the ALPHAtracka and ALPHAtracka II is that the Alphatracka II is implemented with surface-mount technology; this has enabled a much smaller diameter pressure housing to be used while retaining exactly the same optical train as in the Mark I. Data from the Mark II version are thus fully compatible with that already obtained with the Mark I. The performance of the Mark II is further enhanced by two electronic developments from Chelsea Technologies Group - firstly, all items are locked in a signal nulling loop of near infinite gain and, secondly, the signal output linearity is inherently defined by digital circuitry only.

Among other advantages noted above, these features ensure that the optical intensity of the Mark II, indicated by the output voltage, is accurately represented by a straight line interpolation between a reading near full-scale under known conditions and a zero reading when blanked off.

For optimum measurements in a wide range of environmental conditions, the Mark I and Mark II are available in 5 cm, 10 cm and 25 cm path length versions. Output is default factory set to 2.5 volts but can be adjusted to 5 volts on request.

Further details about the Mark II instrument are available from the Chelsea Technologies Group ALPHAtrackaII specification sheet.

D321B CTD Instrumentation

CTD unit and auxiliary sensors (stainless steel frame)

The primary CTD system used on cruise D340A was the Sea-Bird 911 plus. This was mounted on a stainless steel rosette frame, equipped with 24 20-litre Niskin bottles until CTD020, after which 10-litre bottles were used until the end of the cruise. The CTD was fitted with the following scientific sensors:

Sensor Serial Number Last calibration date
Primary Temperature SBE-3P 4105 19 March 2009
Secondary Temperature SBE-3P 4116 31 March 2009
Primary Conductivity SBE-4C 3052 13 March 2009
Secondary Conductivity SBE-4C 2580 13 March 2009
Pressure-Digiquartz 90573 20 October 2008
Sea-Bird SBE 43 oxygen sensor 0709 28 May 2008
Chelsea Alphatracka Mk II transmissometer 161048 28 May 2009
Chelsea Aquatracka Mk III (chlorophyll a) fluorometer 088195 27 May 2008
Benthos PSA-916TD altimeter - -
Primary PAR 5 14 April 2008
Secondary Par 5 14 April 2008

The salinity samples from the CTD were analysed during the cruise in a constant temperature laboratory using the Guildline Autosal model 8400B. Dissolved oxygen concentrations were determined using a Winkler titration technique

D321B CTD Originator Processing (Stainless Steel)

Sampling Strategy

A total of 61 CTD casts were performed during the cruise which sailed between Reykjavík in Iceland and Fairlie on the Clyde in Scotland, incorporating the Extended Ellett Line and Wyville Thomson Ridge. 54 of the casts deployed during the cruise were housed in a stainless steel frame equipped with dual temperature and conductivity sensors. The CTDs were located within and near the bottom of the rosette frame which held 24 20-litre Niskin water sampling bottles. The CTD was deployed from amidship on the starboard side using a winch without a functioning heave compensation system. Bottles were fired during the ascent with descent and ascent speeds reaching a maximum of 60 m / minute during long stretches below the upper 100 m of the water column.

Data Processing

Following the completion of each CTD cast the data were saved to the deck unit PC and transferred over the network to a Unix data disk. SBE Seasave Win32 V 5.35 software was used to perform all processing steps.

Raw data files were converted to engineering units and ASCII (.CNV) files using the DATCNV program. SeaBird bottle data files (.BTL), with information on pressure and other readings logged at the time of bottle firing, were also generated during the data conversion process. The WILDEDIT program was run to remove any large pressure spikes and then the SeaSoft program ALIGNCTD was run to advance the oxygen measurements by 4 seconds (within the typical range given by the SeaBird manual). CELLTM was run, according to Sea-Bird's recommendations, to remove conductivity cell thermal mass effects from the measured conductivity and FILTER was run on the pressure channel using a low-pass filter value of 0.2 which, following tests was deemed to give the best results for D321B data. Finally salinity and density were calculated using the DERIVE program and TRANSLATE wrote the data to an output.CNV file. Despiking was carried out by visualising the data in MATLAB. If a spike occured in pressure, temperature or salinity the whole corresponding scan is deleted. If the spike occurs in the other channels, the value is set to NaN and all remaining channels are left unedited. Following despiking of the data in MATLAB the program LOOPEDIT was run with a minimum CTD velocity of 0.25 m/s. Finally the data were binned to 2 db intervals using the BINAVERAGE program thus being formatted according to the WHP (WOCE Hydrographic Programme) standards.

Comparison between primary and secondary temperature and conductivity sensors on the stainless steel casts suggested primary sensors functioned well for the duration of the cruise so for all casts the primary temperature and conductivity sensors were used during the processing steps outlined above.


For the stainless steel CTD casts the salinity and oxygen data were later calibrated using the following equations:

  • Sal1calibrated = 0.9969 Sal1uncalibrated + 0.0908
  • Oxcalibrated = 0.9142 Oxuncalibrated + 6.6769 (units: µmol/l)
  • Oxcalibrated = 0.9142 Oxuncalibrated + 0.2137 (units: mg/l)

The oxygen data were converted from mg/l to µmol/kg using the following equation:

  • Ox[µmol/kg] = (Ox[mg/l]/1.42903) * 44660/(sigma-theta + 1000)


Sherwin, T. A. et al, (2007). 'Cruise D321B Reykjavic to Clyde via Rockall, Scotland and the Wyville Thomson Ridge', Internal Report No 255, Scottish Association for Marine Science.

Available - Cruise D321B Internal Report

Dumont, E. and Sherwin, T. (2008). 'SAMS CTD data processing protocol Issue 1', Internal Report No 257, Scottish Association for Marine Science.

Available - SAMS CTD data processing protocol

D321B CTD Processing undertaken by BODC

Data arrived at BODC in a total of 61 ASCII, WHP (WOCE Hydrographic Program) standard files with 54 of these files representing the CTD casts from the titanium frame deployed during cruise D321B. These files contain 2db-bin averaged data including temperature, salinity and dissolved oxygen channels processed to WOCE standards alongside concurrent fluorometer and transmissometer data.

Additional 24 Hz ASCII files containing data sampled at their original density were also supplied to BODC. These files contain some additional parameters compared to the 2db-bin averaged data files but due to having fewer quality control procedures applied these data have not undergone any further BODC processing. They have however been archived at BODC in their original format and are available upon request.

The lodged WHPO standard casts were reformatted to BODC's internal QXF format. The following table shows the mapping of variables within the ASCII files to appropriate BODC parameter codes:

Originator' Variable Units Description BODC Parameter Code Units Comments
Pressure dbar Pressure exerted by the water column PRESPR01 dbar Manufacturer's calibration applied
Temperature °C Temperature of the water column by CTD TEMPCU01 °C -
Salinity - Practical salinity of the water column PSALCC01 - Calibrated by data originator using discrete water samples from CTD bottles
Dissolved Oxygen Concentration umol/l Concentration of oxygen per unit volume of the water column DOXYSC01 umol/l Calibrated by data originator using discrete water samples from CTD bottles
Transmittance % Transmittance per unspecified length of the water column by transmissometer POPTDR01 % -
Fluorescence mg/m3 Concentration of chlorophyll-a per unit volume of the water column CPHLPM01 mg/m3 -

The reformatted data were visualised using the in-house EDSERPLO software. Suspect data were marked by adding an appropriate quality control flag, and missing data marked by both setting the data to an appropriate value and setting the quality control flag.

Project Information

Oceans 2025 - The NERC Marine Centres' Strategic Research Programme 2007-2012

Who funds the programme?

The Natural Environment Research Council (NERC) funds the Oceans 2025 programme, which was originally planned in the context of NERC's 2002-2007 strategy and later realigned to NERC's subsequent strategy (Next Generation Science for Planet Earth; NERC 2007).

Who is involved in the programme?

The Oceans 2025 programme was designed by and is to be implemented through seven leading UK marine centres. The marine centres work together in coordination and are also supported by cooperation and input from government bodies, universities and other partners. The seven marine centres are:

  • National Oceanography Centre, Southampton (NOCS)
  • Plymouth Marine Laboratory (PML)
  • Marine Biological Association (MBA)
  • Sir Alister Hardy Foundation for Marine Science (SAHFOS)
  • Proudman Oceanographic Laboratory (POL)
  • Scottish Association for Marine Science (SAMS)
  • Sea Mammal Research Unit (SMRU)

Oceans2025 provides funding to three national marine facilities, which provide services to the wider UK marine community, in addition to the Oceans 2025 community. These facilities are:

  • British Oceanographic Data Centre (BODC), hosted at POL
  • Permanent Service for Mean Sea Level (PSMSL), hosted at POL
  • Culture Collection of Algae and Protozoa (CCAP), hosted at SAMS

The NERC-run Strategic Ocean Funding Initiative (SOFI) provides additional support to the programme by funding additional research projects and studentships that closely complement the Oceans 2025 programme, primarily through universities.

What is the programme about?

Oceans 2025 sets out to address some key challenges that face the UK as a result of a changing marine environment. The research funded through the programme sets out to increase understanding of the size, nature and impacts of these changes, with the aim to:

  • improve knowledge of how the seas behave, not just now but in the future;
  • help assess what that might mean for the Earth system and for society;
  • assist in developing sustainable solutions for the management of marine resources for future generations;
  • enhance the research capabilities and facilities available for UK marine science.

In order to address these aims there are nine science themes supported by the Oceans 2025 programme:

  • Climate, circulation and sea level (Theme 1)
  • Marine biogeochemical cycles (Theme 2)
  • Shelf and coastal processes (Theme 3)
  • Biodiversity and ecosystem functioning (Theme 4)
  • Continental margins and deep ocean (Theme 5)
  • Sustainable marine resources (Theme 6)
  • Technology development (Theme 8)
  • Next generation ocean prediction (Theme 9)
  • Integration of sustained observations in the marine environment (Theme 10)

In the original programme proposal there was a theme on health and human impacts (Theme 7). The elements of this Theme have subsequently been included in Themes 3 and 9.

When is the programme active?

The programme started in April 2007 with funding for 5 years.

Brief summary of the programme fieldwork/data

Programme fieldwork and data collection are to be achieved through:

  • physical, biological and chemical parameters sampling throughout the North and South Atlantic during collaborative research cruises aboard NERC's research vessels RRS Discovery, RRS James Cook and RRS James Clark Ross;
  • the Continuous Plankton Recorder being deployed by SAHFOS in the North Atlantic and North Pacific on 'ships of opportunity';
  • physical parameters measured and relayed in near real-time by fixed moorings and ARGO floats;
  • coastal and shelf sea observatory data (Liverpool Bay Coastal Observatory (LBCO) and Western Channel Observatory (WCO)) using the RV Prince Madog and RV Quest.

The data is to be fed into models for validation and future projections. Greater detail can be found in the Theme documents.

Data Activity or Cruise Information


Cruise Name D321B
Departure Date 2007-08-24
Arrival Date 2007-09-09
Principal Scientist(s)Toby J Sherwin (Scottish Association for Marine Science)
Ship RRS Discovery

Complete Cruise Metadata Report is available here

Fixed Station Information

Fixed Station Information

Station NameWyville Thomson Ridge
CategoryOffshore area
Latitude60° 14.70' N
Longitude7° 27.00' W
Water depth below MSL

Wyville Thomson Ridge

The Wyville Thomson Ridge marks the boundary between the Rockall Trough and the Faroe-Shetland Channel. The Ridge is an important area for the study of deep ocean circulation and has been the focus of many studies (particularly CTD surveys), by various institutions, since 1975.

The Wyville Thomson Ridge is also a location of focused mooring activities led by the Scottish Association for Marine Science (SAMS). See Wyville Thomson Ridge Moored ADCP for specific details.

Measurements made along and around the Wyville Thomson Ridge lie within a box bounded by co-ordinates 59° 40' N, 9° 54' W at the southwest corner and 60° 50' N, 5° 00' W at the northeast corner.

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: Wyville Thomson Ridge

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
626899CTD or STD cast2003-04-20 03:13:0059.9437 N, 8.1305 WFRV Scotia 0703S
626906CTD or STD cast2003-04-20 04:00:0059.955 N, 8.1967 WFRV Scotia 0703S
626918CTD or STD cast2003-04-20 04:47:0059.9663 N, 8.2597 WFRV Scotia 0703S
626931CTD or STD cast2003-04-20 05:32:0059.9792 N, 8.3025 WFRV Scotia 0703S
626943CTD or STD cast2003-04-20 07:12:0059.9972 N, 8.3603 WFRV Scotia 0703S
626955CTD or STD cast2003-04-20 08:24:0059.9943 N, 8.376 WFRV Scotia 0703S
626967CTD or STD cast2003-04-20 09:36:0060.001 N, 8.4297 WFRV Scotia 0703S
626979CTD or STD cast2003-04-20 10:43:0060.0072 N, 8.4618 WFRV Scotia 0703S
626980CTD or STD cast2003-04-20 11:42:0060.011 N, 8.4943 WFRV Scotia 0703S
626992CTD or STD cast2003-04-20 12:53:0060.0182 N, 8.5375 WFRV Scotia 0703S
627006CTD or STD cast2003-04-20 13:43:0060.0252 N, 8.5728 WFRV Scotia 0703S
627018CTD or STD cast2003-04-20 14:42:0060.0407 N, 8.6428 WFRV Scotia 0703S
627031CTD or STD cast2003-04-20 15:35:0060.0655 N, 8.5973 WFRV Scotia 0703S
627043CTD or STD cast2003-04-20 16:22:0060.0853 N, 8.5553 WFRV Scotia 0703S
627055CTD or STD cast2003-04-20 17:12:0060.106 N, 8.5227 WFRV Scotia 0703S
627067CTD or STD cast2003-04-20 18:05:0060.118 N, 8.5005 WFRV Scotia 0703S
627079CTD or STD cast2003-04-20 19:01:0060.1338 N, 8.4765 WFRV Scotia 0703S
627080CTD or STD cast2003-04-20 20:03:0060.1508 N, 8.4478 WFRV Scotia 0703S
627092CTD or STD cast2003-04-20 21:09:0060.162 N, 8.4237 WFRV Scotia 0703S
627111CTD or STD cast2003-04-20 22:38:0060.1813 N, 8.4073 WFRV Scotia 0703S
627123CTD or STD cast2003-04-20 23:51:0060.2005 N, 8.384 WFRV Scotia 0703S
627135CTD or STD cast2003-04-21 01:50:0060.2177 N, 8.3677 WFRV Scotia 0703S
627147CTD or STD cast2003-04-21 02:12:0060.24 N, 8.3435 WFRV Scotia 0703S
627159CTD or STD cast2003-04-21 03:19:0060.2483 N, 8.3317 WFRV Scotia 0703S
627160CTD or STD cast2003-04-21 04:25:0060.2598 N, 8.3207 WFRV Scotia 0703S
627172CTD or STD cast2003-04-21 05:31:0060.278 N, 8.3028 WFRV Scotia 0703S
627184CTD or STD cast2003-04-21 06:25:0060.294 N, 8.2863 WFRV Scotia 0703S
627196CTD or STD cast2003-04-21 07:31:0060.315 N, 8.2677 WFRV Scotia 0703S
627203CTD or STD cast2003-04-21 09:03:0060.355 N, 8.2293 WFRV Scotia 0703S
627215CTD or STD cast2003-04-21 12:37:0060.3955 N, 9.1597 WFRV Scotia 0703S
627227CTD or STD cast2003-04-21 13:34:0060.3458 N, 9.1788 WFRV Scotia 0703S
627239CTD or STD cast2003-04-21 14:27:0060.3262 N, 9.1877 WFRV Scotia 0703S
627240CTD or STD cast2003-04-21 15:30:0060.3102 N, 9.1952 WFRV Scotia 0703S
627252CTD or STD cast2003-04-21 16:44:0060.2928 N, 9.205 WFRV Scotia 0703S
627264CTD or STD cast2003-04-21 18:33:0060.2698 N, 9.2032 WFRV Scotia 0703S
627276CTD or STD cast2003-04-21 20:19:0060.2537 N, 9.2555 WFRV Scotia 0703S
627288CTD or STD cast2003-04-21 22:18:0060.2255 N, 9.3653 WFRV Scotia 0703S
627307CTD or STD cast2003-04-22 00:26:0060.2002 N, 9.4585 WFRV Scotia 0703S
627319CTD or STD cast2003-04-22 02:23:0060.1778 N, 9.5617 WFRV Scotia 0703S
627320CTD or STD cast2003-04-22 04:06:0060.1458 N, 9.6712 WFRV Scotia 0703S
627332CTD or STD cast2003-04-22 05:44:0060.1642 N, 9.8153 WFRV Scotia 0703S
627344CTD or STD cast2003-04-22 07:10:0060.2138 N, 9.8157 WFRV Scotia 0703S
627356CTD or STD cast2003-04-22 08:34:0060.2682 N, 9.8153 WFRV Scotia 0703S
627368CTD or STD cast2003-04-22 09:53:0060.321 N, 9.8142 WFRV Scotia 0703S
627381CTD or STD cast2003-04-22 11:16:0060.352 N, 9.8158 WFRV Scotia 0703S
627393CTD or STD cast2003-04-22 12:31:0060.375 N, 9.8165 WFRV Scotia 0703S
627400CTD or STD cast2003-04-22 13:51:0060.4305 N, 9.814 WFRV Scotia 0703S
627412CTD or STD cast2003-04-22 14:48:0060.447 N, 9.817 WFRV Scotia 0703S
627424CTD or STD cast2003-04-22 19:35:0060.4005 N, 8.5665 WFRV Scotia 0703S
627436CTD or STD cast2003-04-22 20:45:0060.3623 N, 8.4053 WFRV Scotia 0703S
627448CTD or STD cast2003-04-22 22:02:0060.3165 N, 8.2693 WFRV Scotia 0703S
627461CTD or STD cast2003-04-22 23:22:0060.2787 N, 8.1137 WFRV Scotia 0703S
627473CTD or STD cast2003-04-23 00:35:0060.2423 N, 7.954 WFRV Scotia 0703S
627485CTD or STD cast2003-04-23 01:45:0060.203 N, 7.815 WFRV Scotia 0703S
627497CTD or STD cast2003-04-23 02:47:0060.1907 N, 7.7233 WFRV Scotia 0703S
627504CTD or STD cast2003-04-23 03:52:0060.1787 N, 7.6223 WFRV Scotia 0703S
627516CTD or STD cast2003-04-23 05:10:0060.1357 N, 7.4828 WFRV Scotia 0703S
627528CTD or STD cast2003-04-23 06:25:0060.0737 N, 7.3432 WFRV Scotia 0703S
627541CTD or STD cast2003-04-23 07:37:0060.0397 N, 7.1873 WFRV Scotia 0703S
627553CTD or STD cast2003-04-23 08:56:0060.0032 N, 6.9805 WFRV Scotia 0703S
627565CTD or STD cast2003-04-23 09:48:0059.9945 N, 6.8983 WFRV Scotia 0703S
627577CTD or STD cast2003-04-23 10:52:0059.9922 N, 6.7567 WFRV Scotia 0703S
627589CTD or STD cast2003-04-23 12:04:0059.9608 N, 6.5878 WFRV Scotia 0703S
627590CTD or STD cast2003-04-23 13:08:0059.9173 N, 6.438 WFRV Scotia 0703S
627608CTD or STD cast2003-04-23 14:06:0059.8697 N, 6.3035 WFRV Scotia 0703S
627621CTD or STD cast2003-04-23 15:08:0059.8132 N, 6.2093 WFRV Scotia 0703S
627633CTD or STD cast2003-04-23 16:05:0059.7498 N, 6.1825 WFRV Scotia 0703S
627645CTD or STD cast2003-04-25 18:19:0060.0425 N, 6.5553 WFRV Scotia 0703S
627657CTD or STD cast2003-04-25 19:25:0060.049 N, 6.6513 WFRV Scotia 0703S
627669CTD or STD cast2003-04-25 20:33:0060.0512 N, 6.7603 WFRV Scotia 0703S
627670CTD or STD cast2003-04-25 21:48:0060.044 N, 6.87 WFRV Scotia 0703S
627682CTD or STD cast2003-04-25 23:07:0060.076 N, 6.9695 WFRV Scotia 0703S
627694CTD or STD cast2003-04-26 00:23:0060.0898 N, 7.0712 WFRV Scotia 0703S
627701CTD or STD cast2003-04-26 01:35:0060.1097 N, 7.1728 WFRV Scotia 0703S
627713CTD or STD cast2003-04-26 02:50:0060.1325 N, 7.2478 WFRV Scotia 0703S
627725CTD or STD cast2003-04-26 04:10:0060.152 N, 7.3427 WFRV Scotia 0703S
627737CTD or STD cast2003-04-26 05:43:0060.1725 N, 7.4442 WFRV Scotia 0703S
627749CTD or STD cast2003-04-26 06:45:0060.1993 N, 7.513 WFRV Scotia 0703S
627750CTD or STD cast2003-04-26 07:50:0060.2232 N, 7.6033 WFRV Scotia 0703S
627762CTD or STD cast2003-04-26 12:44:0060.4238 N, 9.2537 WFRV Scotia 0703S
627774CTD or STD cast2003-04-26 13:17:0060.4063 N, 9.3028 WFRV Scotia 0703S
627786CTD or STD cast2003-04-26 13:52:0060.3992 N, 9.3275 WFRV Scotia 0703S
627798CTD or STD cast2003-04-26 14:35:0060.3898 N, 9.3512 WFRV Scotia 0703S
627805CTD or STD cast2003-04-26 15:39:0060.3755 N, 9.3962 WFRV Scotia 0703S
627817CTD or STD cast2003-04-26 16:51:0060.3558 N, 9.447 WFRV Scotia 0703S
627829CTD or STD cast2003-04-26 18:16:0060.3848 N, 9.573 WFRV Scotia 0703S
627830CTD or STD cast2003-04-26 19:27:0060.3998 N, 9.6482 WFRV Scotia 0703S
627842CTD or STD cast2003-04-26 20:29:0060.4075 N, 9.6843 WFRV Scotia 0703S
627854CTD or STD cast2003-04-26 21:30:0060.415 N, 9.7168 WFRV Scotia 0703S
627866CTD or STD cast2003-04-26 22:31:0060.4253 N, 9.7618 WFRV Scotia 0703S
627878CTD or STD cast2003-04-26 23:29:0060.454 N, 9.764 WFRV Scotia 0703S
627891CTD or STD cast2003-04-27 00:16:0060.457 N, 9.6963 WFRV Scotia 0703S
627909CTD or STD cast2003-04-27 01:11:0060.4598 N, 9.6118 WFRV Scotia 0703S
627910CTD or STD cast2003-04-27 03:13:0060.4667 N, 9.5283 WFRV Scotia 0703S
627922CTD or STD cast2003-04-27 03:53:0060.4702 N, 9.4908 WFRV Scotia 0703S
627934CTD or STD cast2003-04-27 04:37:0060.4723 N, 9.4308 WFRV Scotia 0703S
627946CTD or STD cast2003-04-27 05:30:0060.482 N, 9.2873 WFRV Scotia 0703S
627958CTD or STD cast2003-04-27 06:48:0060.4942 N, 9.0017 WFRV Scotia 0703S
627971CTD or STD cast2003-04-27 07:50:0060.4307 N, 8.8362 WFRV Scotia 0703S
627983CTD or STD cast2003-04-27 08:39:0060.3682 N, 8.8527 WFRV Scotia 0703S
627995CTD or STD cast2003-04-27 09:18:0060.3363 N, 8.8638 WFRV Scotia 0703S
628009CTD or STD cast2003-04-27 10:05:0060.3005 N, 8.8818 WFRV Scotia 0703S
628010CTD or STD cast2003-04-27 11:11:0060.267 N, 8.8903 WFRV Scotia 0703S
628022CTD or STD cast2003-04-27 12:05:0060.2442 N, 8.9063 WFRV Scotia 0703S
628034CTD or STD cast2003-04-27 13:22:0060.224 N, 8.9128 WFRV Scotia 0703S
628046CTD or STD cast2003-04-27 14:11:0060.2093 N, 8.9155 WFRV Scotia 0703S
628058CTD or STD cast2003-04-27 15:02:0060.179 N, 8.9295 WFRV Scotia 0703S
628071CTD or STD cast2003-04-27 16:28:0060.2712 N, 9.2132 WFRV Scotia 0703S
628083CTD or STD cast2003-04-27 17:52:0060.282 N, 9.1667 WFRV Scotia 0703S
628095CTD or STD cast2003-04-27 19:28:0060.292 N, 9.1312 WFRV Scotia 0703S
628102CTD or STD cast2003-04-27 20:31:0060.2993 N, 9.0868 WFRV Scotia 0703S
628114CTD or STD cast2003-04-27 21:23:0060.3128 N, 9.0282 WFRV Scotia 0703S
628126CTD or STD cast2003-04-27 22:48:0060.2952 N, 9.018 WFRV Scotia 0703S
628138CTD or STD cast2003-04-27 23:32:0060.2785 N, 9.0142 WFRV Scotia 0703S
628151CTD or STD cast2003-04-28 00:23:0060.2622 N, 9.01 WFRV Scotia 0703S
628163CTD or STD cast2003-04-28 01:25:0060.2495 N, 9.0072 WFRV Scotia 0703S
628175CTD or STD cast2003-04-28 02:38:0060.2302 N, 8.9903 WFRV Scotia 0703S
628187CTD or STD cast2003-04-28 03:45:0060.2085 N, 8.9617 WFRV Scotia 0703S
628199CTD or STD cast2003-04-28 04:52:0060.148 N, 8.8472 WFRV Scotia 0703S
628206CTD or STD cast2003-04-28 05:37:0060.1795 N, 8.763 WFRV Scotia 0703S
628218CTD or STD cast2003-04-28 06:26:0060.1982 N, 8.6935 WFRV Scotia 0703S
628231CTD or STD cast2003-04-28 07:23:0060.223 N, 8.6103 WFRV Scotia 0703S
628243CTD or STD cast2003-04-28 08:18:0060.264 N, 8.5852 WFRV Scotia 0703S
628255CTD or STD cast2003-04-28 09:16:0060.3072 N, 8.5597 WFRV Scotia 0703S
628267CTD or STD cast2003-04-28 10:05:0060.3422 N, 8.5412 WFRV Scotia 0703S
628279CTD or STD cast2003-04-28 10:53:0060.3888 N, 8.5135 WFRV Scotia 0703S
628280CTD or STD cast2003-04-28 14:35:0060.1753 N, 9.5588 WFRV Scotia 0703S
628292CTD or STD cast2003-04-28 15:40:0060.1757 N, 9.4652 WFRV Scotia 0703S
628311CTD or STD cast2003-04-28 16:49:0060.1782 N, 9.375 WFRV Scotia 0703S
628323CTD or STD cast2003-04-28 18:09:0060.1783 N, 9.2328 WFRV Scotia 0703S
628335CTD or STD cast2003-04-28 19:34:0060.1775 N, 9.0308 WFRV Scotia 0703S
628347CTD or STD cast2003-04-28 21:55:0060.1493 N, 8.452 WFRV Scotia 0703S
845261CTD or STD cast2003-07-27 18:51:0059.71597 N, 7.15278 WFS Poseidon PO300_2
845273CTD or STD cast2003-07-28 20:39:0059.8202 N, 6.95063 WFS Poseidon PO300_2
845285CTD or STD cast2003-07-28 22:15:0059.86838 N, 6.83345 WFS Poseidon PO300_2
845297CTD or STD cast2003-07-29 00:00:0059.91805 N, 6.7241 WFS Poseidon PO300_2
845304CTD or STD cast2003-07-29 01:29:0059.96848 N, 6.61855 WFS Poseidon PO300_2
845316CTD or STD cast2003-07-29 02:52:0060.01832 N, 6.5087 WFS Poseidon PO300_2
845328CTD or STD cast2003-07-29 20:02:0060.168 N, 6.16677 WFS Poseidon PO300_2
845341CTD or STD cast2003-07-29 22:13:0060.11595 N, 6.27883 WFS Poseidon PO300_2
845353CTD or STD cast2003-07-30 00:03:0060.06682 N, 6.39653 WFS Poseidon PO300_2
845365CTD or STD cast2003-07-30 01:24:0060.0279 N, 6.48653 WFS Poseidon PO300_2
845377CTD or STD cast2003-07-30 02:49:0060.05145 N, 6.63285 WFS Poseidon PO300_2
845389CTD or STD cast2003-07-30 09:46:0060.10163 N, 6.09385 WFS Poseidon PO300_2
845390CTD or STD cast2003-07-30 16:22:0060.0508 N, 6.81967 WFS Poseidon PO300_2
845408CTD or STD cast2003-07-30 17:41:0060.08522 N, 6.93385 WFS Poseidon PO300_2
845421CTD or STD cast2003-07-30 19:03:0060.11207 N, 7.06995 WFS Poseidon PO300_2
845433CTD or STD cast2003-07-30 20:52:0060.14212 N, 7.23043 WFS Poseidon PO300_2
845445CTD or STD cast2003-07-30 22:24:0060.1744 N, 7.38717 WFS Poseidon PO300_2
845457CTD or STD cast2003-07-30 23:43:0060.20735 N, 7.53108 WFS Poseidon PO300_2
845469CTD or STD cast2003-07-31 00:56:0060.2355 N, 7.6598 WFS Poseidon PO300_2
845470CTD or STD cast2003-07-31 02:13:0060.26925 N, 7.80108 WFS Poseidon PO300_2
845482CTD or STD cast2003-07-31 03:32:0060.2949 N, 7.9169 WFS Poseidon PO300_2
845494CTD or STD cast2003-08-01 05:17:0060.1811 N, 7.73665 WFS Poseidon PO300_2
1014447Currents -subsurface Eulerian2003-08-01 09:30:0060.183 N, 7.7338 WFS Poseidon PO300_2
1014435Currents -subsurface Eulerian2003-09-28 19:30:0060.23917 N, 8.86833 WFRV Scotia 1403S
896598CTD or STD cast2005-10-14 09:31:0060.2159 N, 6.19836 WRRS Charles Darwin CD176
896605CTD or STD cast2005-10-14 11:20:0060.21326 N, 6.20296 WRRS Charles Darwin CD176
896617CTD or STD cast2005-10-14 13:53:0060.29942 N, 6.11356 WRRS Charles Darwin CD176
896629CTD or STD cast2005-10-14 23:59:0060.08054 N, 6.32135 WRRS Charles Darwin CD176
896630CTD or STD cast2005-10-15 02:04:0060.0144 N, 6.34818 WRRS Charles Darwin CD176
896642CTD or STD cast2005-10-15 23:45:0060.33948 N, 9.0409 WRRS Charles Darwin CD176
896654CTD or STD cast2005-10-16 01:45:0060.28932 N, 9.02996 WRRS Charles Darwin CD176
896666CTD or STD cast2005-10-16 03:38:0060.27818 N, 9.01476 WRRS Charles Darwin CD176
896678CTD or STD cast2005-10-16 05:30:0060.26256 N, 9.0105 WRRS Charles Darwin CD176
896691CTD or STD cast2005-10-16 07:55:0060.24946 N, 9.00726 WRRS Charles Darwin CD176
896709CTD or STD cast2005-10-16 10:51:0060.22923 N, 8.99213 WRRS Charles Darwin CD176
896710CTD or STD cast2005-10-16 12:46:0060.18908 N, 8.96128 WRRS Charles Darwin CD176
1014459Currents -subsurface Eulerian2005-10-16 15:30:0060.23942 N, 8.86997 WRRS Charles Darwin CD176
896722CTD or STD cast2005-10-16 21:16:0060.4263 N, 8.24386 WRRS Charles Darwin CD176
1014460Currents -subsurface Eulerian2006-05-07 08:02:4160.2495 N, 8.91 WFRV Scotia 0706S
776793CTD or STD cast2006-10-28 04:24:4460.34267 N, 8.99217 WRRS Discovery D312
776800CTD or STD cast2006-10-28 05:48:1760.3115 N, 8.94867 WRRS Discovery D312
776812CTD or STD cast2006-10-28 07:45:5360.298 N, 8.932 WRRS Discovery D312
776824CTD or STD cast2006-10-28 09:33:3260.26583 N, 8.91833 WRRS Discovery D312
776836CTD or STD cast2006-10-28 12:38:4360.284 N, 8.92417 WRRS Discovery D312
776848CTD or STD cast2006-10-28 14:06:3560.255 N, 8.91567 WRRS Discovery D312
1014472Currents -subsurface Eulerian2006-10-28 16:33:0860.25 N, 8.9165 WRRS Discovery D312
776861CTD or STD cast2006-10-28 16:54:1060.2365 N, 8.91617 WRRS Discovery D312
776873CTD or STD cast2006-10-28 19:32:1460.22717 N, 8.917 WRRS Discovery D312
847673CTD or STD cast2007-09-02 15:12:5160.24698 N, 9.00905 WRRS Discovery D321B
1014484Currents -subsurface Eulerian2007-09-02 17:45:0060.24517 N, 9.01267 WRRS Discovery D321B
847697CTD or STD cast2007-09-03 03:34:5860.59987 N, 8.28802 WRRS Discovery D321B
847704CTD or STD cast2007-09-03 04:13:2360.60423 N, 8.28849 WRRS Discovery D321B
847901CTD or STD cast2007-09-04 08:08:3360.59981 N, 8.1302 WRRS Discovery D321B
847716CTD or STD cast2007-09-04 17:39:3760.57216 N, 7.48264 WRRS Discovery D321B
847728CTD or STD cast2007-09-05 00:40:4860.3882 N, 7.25541 WRRS Discovery D321B
847741CTD or STD cast2007-09-05 08:32:5360.26364 N, 6.84096 WRRS Discovery D321B
847753CTD or STD cast2007-09-07 01:58:2560.16545 N, 6.16475 WRRS Discovery D321B
847765CTD or STD cast2007-09-07 04:20:2260.11849 N, 6.27459 WRRS Discovery D321B
847777CTD or STD cast2007-09-07 06:23:3460.06818 N, 6.38362 WRRS Discovery D321B
847789CTD or STD cast2007-09-07 08:13:0060.0348 N, 6.41938 WRRS Discovery D321B
847790CTD or STD cast2007-09-07 11:03:0060.01627 N, 6.50561 WRRS Discovery D321B
847808CTD or STD cast2007-09-07 12:27:3859.96778 N, 6.62012 WRRS Discovery D321B
847821CTD or STD cast2007-09-07 13:46:3559.91902 N, 6.73161 WRRS Discovery D321B
847833CTD or STD cast2007-09-07 15:43:4359.8233 N, 6.95149 WRRS Discovery D321B
1623433Currents -subsurface Eulerian2008-05-18 20:55:0060.24517 N, 9.01267 WFRV Scotia 0508S
1623445Currents -subsurface Eulerian2008-06-18 00:10:0060.24517 N, 9.01267 WFRV Scotia 0508S
1623457Currents -subsurface Eulerian2008-07-18 00:10:0060.24517 N, 9.01267 WFRV Scotia 0508S
1623469Currents -subsurface Eulerian2008-08-18 00:10:0060.24517 N, 9.01267 WFRV Scotia 0508S
1623470Currents -subsurface Eulerian2008-09-18 00:10:0060.24517 N, 9.01267 WFRV Scotia 0508S
1623482Currents -subsurface Eulerian2008-10-18 00:10:0060.24517 N, 9.01267 WFRV Scotia 0508S
1623494Currents -subsurface Eulerian2008-11-18 00:10:0060.24517 N, 9.01267 WFRV Scotia 0508S
1623501Currents -subsurface Eulerian2008-12-18 00:10:0060.24517 N, 9.01267 WFRV Scotia 0508S
1623513Currents -subsurface Eulerian2009-01-18 00:10:0060.24517 N, 9.01267 WFRV Scotia 0508S
1623525Currents -subsurface Eulerian2009-02-18 00:10:0060.24517 N, 9.01267 WFRV Scotia 0508S
1623537Currents -subsurface Eulerian2009-03-18 00:10:0060.24517 N, 9.01267 WFRV Scotia 0508S
1623549Currents -subsurface Eulerian2009-04-18 00:10:0060.24517 N, 9.01267 WFRV Scotia 0508S
1623550Currents -subsurface Eulerian2009-05-18 00:10:0060.24517 N, 9.01267 WFRV Scotia 0508S
954401CTD or STD cast2009-06-21 16:07:5060.20665 N, 8.95695 WRRS Discovery D340A
954413CTD or STD cast2009-06-21 17:20:2760.2186 N, 8.97383 WRRS Discovery D340A
954425CTD or STD cast2009-06-21 18:21:5660.22989 N, 8.99 WRRS Discovery D340A
954437CTD or STD cast2009-06-21 19:58:1860.24991 N, 9.00529 WRRS Discovery D340A
954449CTD or STD cast2009-06-21 21:11:5660.26127 N, 9.00824 WRRS Discovery D340A
954450CTD or STD cast2009-06-21 22:24:2360.2783 N, 9.01223 WRRS Discovery D340A
954462CTD or STD cast2009-06-22 00:03:1660.29325 N, 9.01763 WRRS Discovery D340A
954474CTD or STD cast2009-06-22 01:20:5760.33382 N, 9.02786 WRRS Discovery D340A
954486CTD or STD cast2009-06-22 03:05:4460.38812 N, 9.03649 WRRS Discovery D340A
954498CTD or STD cast2009-06-22 04:49:3360.26206 N, 9.00946 WRRS Discovery D340A
954505CTD or STD cast2009-06-22 07:35:0960.23988 N, 8.99759 WRRS Discovery D340A
954517CTD or STD cast2009-06-22 10:33:5660.29171 N, 9.12969 WRRS Discovery D340A
954529CTD or STD cast2009-06-22 11:52:2360.26806 N, 9.20608 WRRS Discovery D340A
954530CTD or STD cast2009-06-22 14:20:1060.24754 N, 9.28554 WRRS Discovery D340A
954542CTD or STD cast2009-06-22 16:21:1860.22707 N, 9.36207 WRRS Discovery D340A
954554CTD or STD cast2009-06-22 18:09:2460.19218 N, 9.49349 WRRS Discovery D340A
954566CTD or STD cast2009-06-22 20:32:1260.35444 N, 9.44191 WRRS Discovery D340A
954578CTD or STD cast2009-06-22 22:40:1460.31848 N, 9.35247 WRRS Discovery D340A
954591CTD or STD cast2009-06-23 00:28:5960.29054 N, 9.27921 WRRS Discovery D340A
954609CTD or STD cast2009-06-23 02:46:2060.25009 N, 9.15898 WRRS Discovery D340A
954610CTD or STD cast2009-06-23 04:30:2660.22413 N, 9.07486 WRRS Discovery D340A
954622CTD or STD cast2009-06-23 07:27:2860.25882 N, 9.12326 WRRS Discovery D340A
954634CTD or STD cast2009-06-23 09:32:5260.24685 N, 9.06133 WRRS Discovery D340A
954646CTD or STD cast2009-06-23 11:27:5960.24213 N, 8.91099 WRRS Discovery D340A
954658CTD or STD cast2009-06-23 13:21:4260.24256 N, 8.81257 WRRS Discovery D340A
954671CTD or STD cast2009-06-23 15:41:2260.24605 N, 9.0164 WRRS Discovery D340A
1639619Currents -subsurface Eulerian2011-05-12 08:30:0060.2475 N, 8.92166 WFRV Scotia 0511S
1639620Currents -subsurface Eulerian2011-06-12 00:00:0060.2475 N, 8.92166 WFRV Scotia 0511S
1639632Currents -subsurface Eulerian2011-07-12 00:00:0060.2475 N, 8.92166 WFRV Scotia 0511S
1639644Currents -subsurface Eulerian2011-08-12 00:00:0060.2475 N, 8.92166 WFRV Scotia 0511S
1639656Currents -subsurface Eulerian2011-09-12 00:00:0060.2475 N, 8.92166 WFRV Scotia 0511S
1639668Currents -subsurface Eulerian2011-10-12 00:00:0060.2475 N, 8.92166 WFRV Scotia 0511S
1639681Currents -subsurface Eulerian2011-11-12 00:00:0060.2475 N, 8.92166 WFRV Scotia 0511S
1639693Currents -subsurface Eulerian2011-12-12 00:00:0060.2475 N, 8.92166 WFRV Scotia 0511S
1639700Currents -subsurface Eulerian2012-01-12 00:14:5960.2475 N, 8.92166 WFRV Scotia 0511S
1639712Currents -subsurface Eulerian2012-02-12 00:14:5960.2475 N, 8.92166 WFRV Scotia 0511S
1639724Currents -subsurface Eulerian2012-03-12 00:14:5960.2475 N, 8.92166 WFRV Scotia 0511S
1639736Currents -subsurface Eulerian2012-04-12 00:14:5960.2475 N, 8.92166 WFRV Scotia 0511S
1639748Currents -subsurface Eulerian2012-05-12 00:14:5960.2475 N, 8.92166 WFRV Scotia 0511S
1203661CTD or STD cast2012-08-06 18:18:0060.38833 N, 8.51243 WRRS Discovery D379
1203673CTD or STD cast2012-08-06 19:59:0060.34098 N, 8.53872 WRRS Discovery D379
1203685CTD or STD cast2012-08-06 21:42:0060.308 N, 8.55094 WRRS Discovery D379
1203697CTD or STD cast2012-08-06 23:36:0060.26418 N, 8.57292 WRRS Discovery D379
1203704CTD or STD cast2012-08-07 01:02:0060.21951 N, 8.60904 WRRS Discovery D379
1203716CTD or STD cast2012-08-07 03:03:0060.19408 N, 8.69338 WRRS Discovery D379
1203728CTD or STD cast2012-08-07 04:39:0060.17799 N, 8.762 WRRS Discovery D379
1203741CTD or STD cast2012-08-07 06:05:0060.14615 N, 8.84574 WRRS Discovery D379
1203753CTD or STD cast2012-08-07 07:43:0060.20816 N, 8.96124 WRRS Discovery D379
1203765CTD or STD cast2012-08-07 09:21:0060.25059 N, 8.90955 WRRS Discovery D379
1203777CTD or STD cast2012-08-07 12:28:0060.23005 N, 8.98769 WRRS Discovery D379
1203789CTD or STD cast2012-08-07 14:08:0060.24506 N, 9.00491 WRRS Discovery D379
1639515Currents -subsurface Eulerian2012-08-07 17:00:0060.24996 N, 8.90965 WRRS Discovery D379
1203790CTD or STD cast2012-08-07 17:35:0060.26122 N, 9.00856 WRRS Discovery D379
1640669Hydrography time series at depth2012-08-07 18:14:5860.24996 N, 8.90965 WRRS Discovery D379
1203808CTD or STD cast2012-08-07 19:24:0060.27805 N, 9.01287 WRRS Discovery D379
1203821CTD or STD cast2012-08-07 20:47:0060.2944 N, 9.01618 WRRS Discovery D379
1203833CTD or STD cast2012-08-07 22:06:0060.31188 N, 9.02541 WRRS Discovery D379
1639527Currents -subsurface Eulerian2012-09-07 00:14:5960.24996 N, 8.90965 WRRS Discovery D379
1639539Currents -subsurface Eulerian2012-10-07 00:14:5960.24996 N, 8.90965 WRRS Discovery D379
1639540Currents -subsurface Eulerian2012-11-07 00:14:5960.24996 N, 8.90965 WRRS Discovery D379
1639552Currents -subsurface Eulerian2012-12-07 00:14:5960.24996 N, 8.90965 WRRS Discovery D379
1639564Currents -subsurface Eulerian2013-01-07 00:14:5960.24996 N, 8.90965 WRRS Discovery D379
1639576Currents -subsurface Eulerian2013-02-07 00:14:5960.24996 N, 8.90965 WRRS Discovery D379
1639588Currents -subsurface Eulerian2013-03-07 00:14:5960.24996 N, 8.90965 WRRS Discovery D379
1639607Currents -subsurface Eulerian2013-04-07 00:14:5960.24996 N, 8.90965 WRRS Discovery D379
1219964CTD or STD cast2013-05-08 10:50:0060.2078 N, 8.9611 WRRS James Cook JC086
1219976CTD or STD cast2013-05-08 12:27:0860.23 N, 8.99 WRRS James Cook JC086
1219988CTD or STD cast2013-05-08 14:45:5260.2558 N, 9.0073 WRRS James Cook JC086
1220001CTD or STD cast2013-05-08 16:38:4360.2611 N, 9.008 WRRS James Cook JC086
1220013CTD or STD cast2013-05-08 18:38:0460.277 N, 9.0131 WRRS James Cook JC086
1220025CTD or STD cast2013-05-08 20:22:1260.295 N, 9.0161 WRRS James Cook JC086