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Metadata Report for BODC Series Reference Number 1884270


Metadata Summary

Data Description

Data Category CTD or STD cast
Instrument Type
NameCategories
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
WETLabs ECO FL fluorometer  fluorometers
WETLabs ECO-FLNTU combined fluorometer and turbidity sensor  fluorometers; optical backscatter sensors
Sea-Bird SBE 3plus (SBE 3P) temperature sensor  water temperature sensor
Sea-Bird SBE 4C conductivity sensor  salinity sensor
Paroscientific Digiquartz depth sensors  water pressure sensors
Instrument Mounting lowered unmanned submersible
Originating Country United Kingdom
Originator Ms Jenny Hindson
Originating Organization Marine Scotland Aberdeen Marine Laboratory
Processing Status banked
Online delivery of data Download available - Ocean Data View (ODV) format
Project(s) -
 

Data Identifiers

Originator's Identifier SC05/15/99
BODC Series Reference 1884270
 

Time Co-ordinates(UT)

Start Time (yyyy-mm-dd hh:mm) 2015-04-27 08:03
End Time (yyyy-mm-dd hh:mm) -
Nominal Cycle Interval 1.0 decibars
 

Spatial Co-ordinates

Latitude 59.28367 N ( 59° 17.0' N )
Longitude 0.32200 W ( 0° 19.3' W )
Positional Uncertainty Unspecified
Minimum Sensor or Sampling Depth 1.98 m
Maximum Sensor or Sampling Depth 133.69 m
Minimum Sensor or Sampling Height 8.31 m
Maximum Sensor or Sampling Height 140.02 m
Sea Floor Depth 142.0 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 Unspecified -
Sea Floor Depth Datum Unspecified -
 

Parameters

BODC CODERankUnitsTitle
ACYCAA011DimensionlessSequence number
CCOMD0011Parts per billionConcentration of coloured dissolved organic matter {CDOM Gelbstoff} per unit volume of the water body [dissolved plus reactive particulate phase] by in-situ UV Aquatracka fluorometer
CNDCST011Siemens per metreElectrical conductivity of the water body by CTD
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
CPHLZZXX1Milligrams per cubic metreConcentration of chlorophyll-a {chl-a CAS 479-61-8} per unit volume of the water body [particulate >unknown phase]
DOXYZZ011Micromoles per litreConcentration of oxygen {O2 CAS 7782-44-7} per unit volume of the water body [dissolved plus reactive particulate phase] by in-situ sensor
OXYSSU011PercentSaturation of oxygen {O2 CAS 7782-44-7} in the water body [dissolved plus reactive particulate phase] by Sea-Bird SBE 43 sensor and computation from concentration using Benson and Krause 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
TURBXXXX1Nephelometric Turbidity UnitsTurbidity of water in the water body

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 quality report for CTD data from FRV Scotia cruises 0515S, 1315S and 1815S

During BODC quality control, data were screened using in house visualisation software. The data were screened and any obvious outliers and spikes were looked at in closer detail and flagged if necessary. The originator provided quality flags for all data and so minimal flags were added during BODC processing as data had already been through originator QC. The originator's flags were converted to 'L' flags during processing.

There were a number of profiles where CPHLZZXX and CPHLPR01 are negative for the duration of the cast and so the whole of these casts have been flagged 'M'.

CCOMD002

The first cycle of the series 1886252 has the value -95.292503 ppb which was flagged by the originator. During BODC processing this value was set to null.


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

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.

Specifications

Housing Plastic or titanium
Membrane

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.

CTD data from FRV Scotia cruises 0215S, 0315S, 0515S, 0815S, 1015S, 1115S, 1315S, 1415S, 1715S and 1815S: Instrumentation

Cruise Manufacturer Model Sensor Serial Number
0215S, 0315S, 0815S Sea-Bird SBE 19plus V2 SEACAT CTD 6028
WETLabs ECO-FLNTU Combined fluorometer and turbidity sensor 0942
1015S, 1115S, 1415S, 1715S Sea-Bird SBE 19plus V2 SEACAT CTD 6029
WETLabs ECO-FLNTU Combined fluorometer and turbidity sensor 0947
0515S, 1315S, 1815S Sea-Bird SBE 911plus CTD
Paroscientific Digiquartz Depth sensors Pressure 64240
Sea-Bird SBE 3plus Temperature 2041
Sea-Bird SBE 4C Conductivity 1615
Sea-Bird SBE 43 Dissolved Oxygen 0504
WETLabs ECO-FLNTU Combined fluorometer and turbidity sensor 2542
Chelsea Technologies Group UV Aquatracka Fluorometer 9644
WETLabs ECO FL Fluorometer 3700

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

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.

WETLabs ECO FLNTU fluorescence and turbidity sensor

The Environmental Characterization Optics (ECO) Fluorometer and Turbidity (FLNTU) sensor is a dual wavelength, single-angle instrument that simultaneously determines chlorophyll fluorescence and turbidity. It is easily integrated in CTD packages and provides a reliable turbidity measurement that is not affected by Colored Dissolved Organic Matter (CDOM) concentration.

The FLNTU can operate continuously or periodically and has two different types of connectors to output the data. There are 5 other models that operate the same way as this instrument but have slight differences, as stated below:

  • FLNTU(RT) - has an analog an RS-232 serial output and operates continuously, when power is supplied
  • FLNTU(RT)D - similar to the FLNTU(RT) but has a depth rating of 6000 m
  • FLNTUB - has internal batteries for autonomous operation
  • FLNTUS - has an integrated anti-fouling bio-wiper
  • FLNTUSB - has the same characteristics as the FLNTUS but with internal batteries for autonomous operation

Specifications

Temperature range 0 to 30°C
Depth rating

600 m (standard)

6000 m (deep)

Turbidity
Wavelength 700 nm
Sensitivity 0.01 NTU
Typical range 0.01 to 25 NTU
Fluorescence
Wavelength 470 nm (excitation), 695 nm (emission)
Sensitivity 0.01 µg L-1
Typical range 0.01 to 50 µg L-1
Linearity 99% R2

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

WETLabs ECO-FL Fluorometer

The Environmental Characterization Optics series of single channel fluorometers are designed to measure concentrations of natural and synthetic substances in water, and are therefore useful for biological monitoring and dye trace studies. Selected excitation and emission filters allow detection of the following substances: chlorophyll-a, coloured dissolved organic matter (CDOM), uranine (fluorescein), rhodamine, phycoerythrin and phycocyanin.

The ECO-FL can operate continuously or periodically and has two different types of connectors to output the data (analogue and RS-232 serial output). The potted optics block results in long term stability of the instrument and the optional anti-biofouling technology delivers truly long term field measurements.

In addition to the standard model, five variants are available, and the differences between these and the basic ECO-FL are listed below:

  • FL(RT): similar to the FL but operates continuously when power is supplied
  • FL(RT)D: similar model to the (RT) but has a depth rating of 6000 m
  • FLB: includes internal batteries for autonomous operation and periodic sampling
  • FLS: similar to FLB but has an integrated anti-fouling bio-wiper
  • FLSB: similar to the FLS, but includes internal batteries for autonomous operation

Specifications

Temperature range 0 to 30°C
Depth rating

600 m (standard)

6000 m (deep)

Linearity 99 % R2
Chlorophyll-a
Wavelength (excitation/emission) 470/695 nm
Sensitivity 0.01 µg L-1
Typical range 0.01 to 125 µg L-1
CDOM
Wavelength (excitation/emission) 370/460 nm
Sensitivity 0.01 ppb
Typical range 0.09 to 500 ppb
Uranine
Wavelength (excitation/emission) 470/530 nm
Sensitivity 0.07 ppb
Typical range 0.12 to 230 ppb
Rhodamine
Wavelength (excitation/emission) 540/570 nm
Sensitivity 0.01 ppb
Typical range 0.01 to 230 ppb
Phycoerythrin
Wavelength (excitation/emission) 540/570 nm
Sensitivity 0.01 ppb
Typical range 0.01 to 230 ppb
Phycocyanin
Wavelength (excitation/emission) 630/680 nm
Sensitivity 0.15 ppt
Typical range 0.15 to 400 ppt

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

BODC Processing of CTD data from FRV Scotia cruises 0215S, 0315S, 0515S, 0815S, 1015S, 1115S, 1315S, 1415S, 1715S and 1815S.

Data Processing

Data were submitted to BODC as 10 ASCII files by SFT and following BODC procedures the data were archived. The files contained all CTD casts from each of the following FRV Scotia cruises: 0215S (49 casts), 0315S (47 casts), 0515S (57 casts), 0815S (32 casts), 1015S (65 casts), 1115S (20 casts), 1315S (125 casts), 1415S (6 casts), 1715S (40 casts) and 1815S (108 casts). The data from cruises 0515S, 1315S and 1815S were also accompanied by a file of quality control flags. The header of each file contained the type of CTD used for each cruise, the sensors on the CTD and their serial numbers, an explanation of the format of the file and details of any calibrations.

The concatenated files were sub-divided into individual files for each cast using in house BODC Matlab software. The divided files were then transferred to BODC internal format using standard BODC processing procedures. The originator's variables were mapped to BODC parameter codes as follows:

Originator's Variable Units BODC Parameter Code Units Comment
Pressure dbar PRESPR01 dbar
Temperature (edit) °C TEMPST01 °C This channel has had QC applied by the originator.
Conductivity (edit) mS cm-1 CNDCST01 S m-1 Conversion of /10 applied. This channel has had QC applied by the originator.
Temperature (pri) °C TEMPST01 °C Channel not transferred. The edited channel has been through originator's editing procedures and is of a better quality.
Conductivity (pri) mS cm-1 CNDCST01 S cm-1 Channel not transferred. The edited channel has been through originator's editing procedures and is of a better quality.
Temperature (sec) °C TEMPST02 °C Channel not transferred. The edited channel has been through originator's editing procedures and is of a better quality.
Conductivity (sec) mS cm-1 CNDCST02 S cm-1 Channel not transferred. The edited channel has been through originator's editing procedures and is of a better quality.
Fluorescence μg L-1 CPHLPR01 mg m-3 Equivalent units
Turbidity NTU TURBXXXX NTU
Oxygen mL L-1 DOXYZZ01 μmol L-1 Conversion of * 44.66 applied. Series from cruises 0515S, 1315S and 1815S only.
Fluorescence CDOM-AQ μg L-1 CCOMD001 mg m-3 Series from cruises 0515S, 1315S and 1815S only.
Fluorescence CDOM-WL μg L-1 CCOMD002 mg m-3 Series from cruises 1315S and 1815S only.
PSALST01 dimensionless Channel derived during transfer using Fofonoff and Millard (1983).
SIGTPR01 kg m-3 Channel derived during transfer using Fofonoff and Millard (1983).
OXYSSU01 % Channel derived during transfer using Benson and Krause (1984) if oxygen channel is present.

Channels that were not transferred are available on request.

Screening

Post transfer analysis and crosschecks were applied according to BODC procedures. This involved the screening of data using BODC's in house visualisation software where any suspect data were flagged but not removed.

References

Benson B.B. and Krause D., 1984. The concentration and isotopic fractionation of oxygen dissolved in freshwater and seawater in equilibrium with the atmosphere. Limnol. Oceanogr., 29(3), 620-632.

Fofonoff N.P. and Millard R.C., 1983. Algorithms for computations of fundamental properties of seawater. UNESCO Technical Papers in Marine Science No. 44, 53pp.

Originator Processing of CTD data from FRV Scotia cruises 0215S, 0315S, 0515S, 0815S, 1015S, 1115S, 1315S, 1415S, 1715S and 1815S.

Sampling Strategy

During 2015 a number of cruises occurred on the FRV Scotia were objectives covered trawl sampling, fish sampling and hydrographic sampling. As part of the hydrographic sampling numerous CTD casts were completed on each cruise. The time channel of these casts was recorded in GMT.

Cruise Cruise Dates Number of CTD Casts
0215S 23 JAN 2015 - 13 FEB 2015 49
0315S 16 FEB 2015 - 09 MAR 2015 47
0515S 25 APR 2015 - 8 MAY 2015 57
0815S 25 JUN 2015 - 14 JUL 2015 32
1015S 30 JUL 2015 - 20 AUG 2015 65
1115S 23 AUG 2015 - 3 SEPT 2015 20
1315S 19 SEPT 2015 - 02 OCT 2015 125
1415S 5 OCT 2015 - 16 OCT 2015 6
1715S 18 NOV 2015 - 8 DEC 2015 40
1815S 10 DEC 2015 -23 DEC 2015 108

Data Processing

The CTD data were processed by Marine Scotland using the Sea-Bird SeaSoft routines as recommended in the SeaSoft manual for model type Sea-Bird SBE19plus V2 SEACAT.

Pressure data were binned to 1 dbar using SeaSoft and the primary temperature and conductivity channels were adjusted to produce 'edit' channels. Marine Scotland regards the 'edit' channels as the definitive version of the data.

The adjustments consisted of a de-spiking process using Marine Scotland in-house visualisation software and, as necessary, application of a low pass filter as described in Sy (1985).

Field Calibrations

For a number of the cruises Marine Scotland used water samples collected during the CTD casts to generate a calibration equations for the conductivity and fluorescence channels. However, these calibrations were not applied to the data by the originator.

Conductivity

Cruise Number of samples used in calibration Calibration Equation
0215S 98 Calibrated Conductivity (mS cm-1) = measured conductivity x 1.000403 - 0.008508
0315S 94 Calibrated Conductivity (mS cm-1) = measured conductivity x 1.0012 - 0.0397
0515S 324 Calibrated Conductivity (mS cm-1) = measured conductivity x 0.99909 + 0.034932
0815S 51 Calibrated Conductivity (mS cm-1) = measured conductivity x 1.000135 + 0.004973
1015S 108 Calibrated Conductivity (mS cm-1) = measured conductivity x 0.998795 + 0.051757
1115S 39 Calibrated Conductivity (mS cm-1) = measured conductivity x 1.000269 - 0.006588
1315S 280 Calibrated Conductivity (mS cm-1) = measured conductivity x 0.99924 + 0.025999
1415S 9 Calibrated Conductivity (mS cm-1) = measured conductivity x 0.999563 + 0.017777
1715S 73 Calibrated Conductivity (mS cm-1) = measured conductivity x 1.002776 - 0.101829
1815S 274 Calibrated Conductivity (mS cm-1) = measured conductivity x 1 - 0.00065

Fluorescence

Cruise Number of samples used in calibration Calibration Equation
0515S 101 Calibrated Fluorescence (µg L-1) = measured fluorescence x 0.000889 + 0.034492
1315S 102 Calibrated Fluorescence (µg L-1) = measured fluorescence x 0.000261 + 0.3669
1815S 107 Calibrated Fluorescence (µg L-1) = measured fluorescence x 0.001304 - 0.067764

Reference

Sy A., 1985. An alternative editing technique for oceanographic data. Deep Sea Research, 32 (12), 1591-1599.


Project Information


No Project Information held for the Series

Data Activity or Cruise Information

Cruise

Cruise Name 0515S
Departure Date 2015-04-25
Arrival Date 2015-05-08
Principal Scientist(s)Rory O'Hara Murray (Marine Scotland Aberdeen Marine Laboratory)
Ship FRV Scotia

Complete Cruise Metadata Report is available here


Fixed Station Information

Fixed Station Information

Station NameJONSIS Line
CategoryOffshore route/traverse

Joint North Sea Information System (JONSIS)

As part of the Joint Oceanographic North Sea Data Acquisition Project (JONSDAP), a line of sample stations east of Orkney to the centre of the North Sea was established (1976). This section is commonly known as the JONSIS (Joint Oceanographic North Sea Information System) line and has been sampled annually over the past 30 years. Initially, there were only 10 stations 1-10, two further stations were added, 1a and 6a, in later years.

At present Marine Scotland monitors this line three times a year: Sampling is usually conducted in April, September and December.

These data provide information on long term variations in key variables.
Monitoring data include: Ocean profiles of temperature, salinity and nutrients.

Map of standard stations

BODC image

JONSIS Line stations

Listed below are details of the standard hydrographic stations that form the JONSIS line (start Point on Orkney to the centre of the North Sea). This transect is monitored by Marine Scotland.

Station name Latitude Longitude Depth Spacing
JO 1 59°17.00'N 02°14.00'W 75 m -
JO 1A 59°17.00'N 02°5.00'W 90 m 4.59 nm
JO 2 59°17.00'N 01°56.00'W 100 m 4.59 nm
JO 3 59°17.00'N 01°56.00'W 80 m 4.08 nm
JO 4 59°17.00'N 01°40.00'W 90 m 4.08 nm
JO 5 59°17.00'N 01°30.00'W 95 m 5.10 nm
JO 6 59°17.00'N 01°20.00'W 110 m 5.10 nm
JO 6A 59°17.00'N 01°10.00'W 120 m 5.10 nm
JO 7 59°17.00'N 01°0.00'W 125 m 5.10 nm
JO 8 59°17.00'N 00°40.00'W 120 m 10.20 nm
JO 9 59°17.00'N 00°20.00'W 140 m 10.20 nm
JO10 59°17.00'N 00°0.00'W 135 m 10.20 nm

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
Q value below limit of quantification

Appendix 1: JONSIS Line

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
462930CTD or STD cast1995-11-25 14:46:0059.2783 N, 5.0E-4 WFRV Scotia 1695S
462942CTD or STD cast1995-11-25 16:02:0059.2838 N, 0.3347 WFRV Scotia 1695S
462954CTD or STD cast1995-11-25 17:30:0059.2873 N, 0.6752 WFRV Scotia 1695S
462966CTD or STD cast1995-11-25 19:12:0059.285 N, 1.0013 WFRV Scotia 1695S
462978CTD or STD cast1995-11-25 20:01:0059.2853 N, 1.1668 WFRV Scotia 1695S
462991CTD or STD cast1995-11-25 20:52:0059.284 N, 1.3335 WFRV Scotia 1695S
463005CTD or STD cast1995-11-25 21:44:0059.2833 N, 1.4985 WFRV Scotia 1695S
463017CTD or STD cast1995-11-25 22:36:0059.2823 N, 1.664 WFRV Scotia 1695S
463029CTD or STD cast1995-11-25 23:24:0059.2807 N, 1.7972 WFRV Scotia 1695S
463030CTD or STD cast1995-11-26 00:18:0059.2795 N, 1.9283 WFRV Scotia 1695S
463042CTD or STD cast1995-11-26 01:09:0059.279 N, 2.0845 WFRV Scotia 1695S
463054CTD or STD cast1995-11-26 01:55:0059.2788 N, 2.2402 WFRV Scotia 1695S
558495CTD or STD cast2000-05-09 03:42:0059.2833 N, 0.0017 EFRV Scotia 0700S
558502CTD or STD cast2000-05-09 05:30:0059.28 N, 0.33 WFRV Scotia 0700S
558514CTD or STD cast2000-05-09 06:52:0059.2833 N, 0.6683 WFRV Scotia 0700S
558526CTD or STD cast2000-05-09 08:03:0059.2817 N, 1.0 WFRV Scotia 0700S
558538CTD or STD cast2000-05-09 08:50:0059.2817 N, 1.1683 WFRV Scotia 0700S
558551CTD or STD cast2000-05-09 09:34:0059.295 N, 1.3317 WFRV Scotia 0700S
558563CTD or STD cast2000-05-09 10:20:0059.2833 N, 1.5 WFRV Scotia 0700S
558575CTD or STD cast2000-05-09 11:03:0059.2833 N, 1.6633 WFRV Scotia 0700S
558587CTD or STD cast2000-05-09 11:48:0059.2967 N, 1.7933 WFRV Scotia 0700S
558599CTD or STD cast2000-05-09 13:14:0059.2817 N, 1.93 WFRV Scotia 0700S
558606CTD or STD cast2000-05-09 14:04:0059.2783 N, 2.0817 WFRV Scotia 0700S
558618CTD or STD cast2000-05-09 14:50:0059.2783 N, 2.2367 WFRV Scotia 0700S
615933CTD or STD cast2002-05-16 09:36:0059.283 N, 3.0E-4 WRV Cirolana 2302H (CIR2Y/02)
615945CTD or STD cast2002-05-16 11:00:0059.2827 N, 0.334 WRV Cirolana 2302H (CIR2Y/02)
615957CTD or STD cast2002-05-16 13:10:0059.2828 N, 0.6695 WRV Cirolana 2302H (CIR2Y/02)
615969CTD or STD cast2002-05-16 14:37:0059.2835 N, 1.002 WRV Cirolana 2302H (CIR2Y/02)
615970CTD or STD cast2002-05-16 15:46:0059.2827 N, 1.1658 WRV Cirolana 2302H (CIR2Y/02)
615982CTD or STD cast2002-05-16 16:45:0059.2837 N, 1.337 WRV Cirolana 2302H (CIR2Y/02)
615994CTD or STD cast2002-05-16 17:35:0059.2843 N, 1.5058 WRV Cirolana 2302H (CIR2Y/02)
616008CTD or STD cast2002-05-16 18:20:0059.2845 N, 1.6693 WRV Cirolana 2302H (CIR2Y/02)
616021CTD or STD cast2002-05-16 19:01:0059.285 N, 1.803 WRV Cirolana 2302H (CIR2Y/02)
616033CTD or STD cast2002-05-16 19:48:0059.2847 N, 1.936 WRV Cirolana 2302H (CIR2Y/02)
616045CTD or STD cast2002-05-16 20:29:0059.2848 N, 2.0853 WRV Cirolana 2302H (CIR2Y/02)
616057CTD or STD cast2002-05-16 21:19:0059.284 N, 2.2335 WRV Cirolana 2302H (CIR2Y/02)
619184CTD or STD cast2002-09-24 01:06:0059.2745 N, 0.0102 WFRV Scotia 1402S
619196CTD or STD cast2002-09-24 02:22:0059.281 N, 0.3285 WFRV Scotia 1402S
619203CTD or STD cast2002-09-24 03:36:0059.2838 N, 0.666 WFRV Scotia 1402S
619215CTD or STD cast2002-09-24 04:50:0059.2843 N, 1.0027 WFRV Scotia 1402S
619227CTD or STD cast2002-09-24 05:41:0059.2843 N, 1.1662 WFRV Scotia 1402S
619239CTD or STD cast2002-09-24 06:32:0059.2838 N, 1.3323 WFRV Scotia 1402S
619240CTD or STD cast2002-09-24 07:19:0059.2868 N, 1.4965 WFRV Scotia 1402S
619252CTD or STD cast2002-09-24 08:32:0059.2837 N, 1.6573 WFRV Scotia 1402S
619264CTD or STD cast2002-09-24 09:23:0059.2867 N, 1.7908 WFRV Scotia 1402S
619276CTD or STD cast2002-09-24 10:14:0059.2803 N, 1.9735 WFRV Scotia 1402S
619288CTD or STD cast2002-09-24 11:20:0059.2755 N, 2.0828 WFRV Scotia 1402S
619307CTD or STD cast2002-09-24 12:08:0059.2737 N, 2.2305 WFRV Scotia 1402S
621533CTD or STD cast2002-12-08 02:20:0059.2837 N, 0.0042 WFRV Scotia 1802S
621545CTD or STD cast2002-12-08 04:15:0059.2873 N, 0.3612 WFRV Scotia 1802S
621557CTD or STD cast2002-12-08 05:40:0059.285 N, 0.6655 WFRV Scotia 1802S
621569CTD or STD cast2002-12-08 06:55:0059.29 N, 0.993 WFRV Scotia 1802S
621570CTD or STD cast2002-12-08 07:42:0059.285 N, 1.1697 WFRV Scotia 1802S
621582CTD or STD cast2002-12-08 08:40:0059.285 N, 1.3313 WFRV Scotia 1802S
621594CTD or STD cast2002-12-08 09:24:0059.2842 N, 1.4967 WFRV Scotia 1802S
621601CTD or STD cast2002-12-08 10:10:0059.2862 N, 1.6655 WFRV Scotia 1802S
621613CTD or STD cast2002-12-08 10:49:0059.2813 N, 1.7968 WFRV Scotia 1802S
621625CTD or STD cast2002-12-08 11:29:0059.2823 N, 1.927 WFRV Scotia 1802S
621637CTD or STD cast2002-12-08 12:17:0059.2795 N, 2.085 WFRV Scotia 1802S
621649CTD or STD cast2002-12-08 13:05:0059.274 N, 2.2412 WFRV Scotia 1802S
626549CTD or STD cast2003-04-16 04:12:0059.2832 N, 0.0013 EFRV Scotia 0703S
626550CTD or STD cast2003-04-16 05:46:0059.2853 N, 0.332 WFRV Scotia 0703S
626562CTD or STD cast2003-04-16 07:00:0059.2813 N, 0.6657 WFRV Scotia 0703S
626574CTD or STD cast2003-04-16 08:14:0059.2828 N, 0.9962 WFRV Scotia 0703S
626586CTD or STD cast2003-04-16 09:02:0059.2847 N, 1.156 WFRV Scotia 0703S
626598CTD or STD cast2003-04-16 09:53:0059.2822 N, 1.3248 WFRV Scotia 0703S
626605CTD or STD cast2003-04-16 10:45:0059.28 N, 1.4948 WFRV Scotia 0703S
626617CTD or STD cast2003-04-16 11:46:0059.2773 N, 1.6685 WFRV Scotia 0703S
626629CTD or STD cast2003-04-16 12:32:0059.281 N, 1.7912 WFRV Scotia 0703S
626630CTD or STD cast2003-04-16 13:11:0059.2863 N, 1.9273 WFRV Scotia 0703S
626642CTD or STD cast2003-04-16 14:01:0059.2873 N, 2.0822 WFRV Scotia 0703S
626654CTD or STD cast2003-04-16 14:45:0059.2868 N, 2.2332 WFRV Scotia 0703S
629953CTD or STD cast2003-09-17 05:15:0059.2833 N, 0.0023 EFRV Scotia 1403S
629965CTD or STD cast2003-09-17 06:30:0059.2842 N, 0.3327 WFRV Scotia 1403S
629977CTD or STD cast2003-09-17 08:01:0059.2847 N, 0.6668 WFRV Scotia 1403S
629989CTD or STD cast2003-09-17 09:54:0059.284 N, 0.9997 WFRV Scotia 1403S
629990CTD or STD cast2003-09-17 10:38:0059.2842 N, 1.1705 WFRV Scotia 1403S
630002CTD or STD cast2003-09-17 11:31:0059.2817 N, 1.3285 WFRV Scotia 1403S
630014CTD or STD cast2003-09-17 12:24:0059.283 N, 1.495 WFRV Scotia 1403S
630026CTD or STD cast2003-09-17 13:21:0059.282 N, 1.6605 WFRV Scotia 1403S
630038CTD or STD cast2003-09-17 14:12:0059.282 N, 1.7932 WFRV Scotia 1403S
630051CTD or STD cast2003-09-17 14:54:0059.2838 N, 1.9307 WFRV Scotia 1403S
630063CTD or STD cast2003-09-17 15:40:0059.282 N, 2.0812 WFRV Scotia 1403S
630075CTD or STD cast2003-09-17 16:26:0059.2845 N, 2.2297 WFRV Scotia 1403S
632229CTD or STD cast2003-12-09 06:21:0059.2878 N, 0.001 EFRV Scotia 1803S
632230CTD or STD cast2003-12-09 07:59:0059.2867 N, 0.317 WFRV Scotia 1803S
632242CTD or STD cast2003-12-09 09:30:0059.2822 N, 0.6562 WFRV Scotia 1803S
632254CTD or STD cast2003-12-09 11:08:0059.2818 N, 0.9863 WFRV Scotia 1803S
632266CTD or STD cast2003-12-09 12:13:0059.2782 N, 1.1635 WFRV Scotia 1803S
632278CTD or STD cast2003-12-09 13:10:0059.2857 N, 1.3353 WFRV Scotia 1803S
632291CTD or STD cast2003-12-09 14:06:0059.2868 N, 1.4958 WFRV Scotia 1803S
632309CTD or STD cast2003-12-09 15:00:0059.2875 N, 1.6637 WFRV Scotia 1803S
632310CTD or STD cast2003-12-09 15:51:0059.2893 N, 1.7907 WFRV Scotia 1803S
632322CTD or STD cast2003-12-09 16:39:0059.282 N, 1.9287 WFRV Scotia 1803S
632334CTD or STD cast2003-12-09 17:32:0059.283 N, 2.0832 WFRV Scotia 1803S
710179CTD or STD cast2005-05-08 02:52:0059.29217 N, 2.21317 WFRV Scotia 0705S_1
710180CTD or STD cast2005-05-08 03:48:0059.29133 N, 2.0765 WFRV Scotia 0705S_1
710192CTD or STD cast2005-05-08 05:33:0059.28433 N, 1.935 WFRV Scotia 0705S_1
710211CTD or STD cast2005-05-08 06:25:0059.28483 N, 1.80117 WFRV Scotia 0705S_1
710223CTD or STD cast2005-05-08 07:13:0059.28283 N, 1.66917 WFRV Scotia 0705S_1
710235CTD or STD cast2005-05-08 08:10:0059.28033 N, 1.50083 WFRV Scotia 0705S_1
710247CTD or STD cast2005-05-08 09:03:0059.279 N, 1.338 WFRV Scotia 0705S_1
710259CTD or STD cast2005-05-08 10:02:0059.27983 N, 1.16967 WFRV Scotia 0705S_1
710260CTD or STD cast2005-05-08 10:53:0059.2835 N, 1.00517 WFRV Scotia 0705S_1
710272CTD or STD cast2005-05-08 12:22:0059.285 N, 0.67067 WFRV Scotia 0705S_1
710284CTD or STD cast2005-05-08 13:50:0059.2835 N, 0.33533 WFRV Scotia 0705S_1
710296CTD or STD cast2005-05-08 15:21:0059.28483 N, 0.00683 WFRV Scotia 0705S_1
712752CTD or STD cast2005-09-27 15:56:0059.284 N, 2.22883 WFRV Scotia 1405S
712764CTD or STD cast2005-09-27 16:58:0059.28117 N, 2.07933 WFRV Scotia 1405S
712776CTD or STD cast2005-09-27 17:57:0059.28067 N, 1.92717 WFRV Scotia 1405S
712788CTD or STD cast2005-09-28 08:25:0059.27683 N, 1.78633 WFRV Scotia 1405S
712807CTD or STD cast2005-09-28 09:09:0059.284 N, 1.66317 WFRV Scotia 1405S
714200CTD or STD cast2005-12-11 00:06:0059.279 N, 0.00517 WFRV Scotia 1805S
714212CTD or STD cast2005-12-11 01:27:0059.28517 N, 0.32817 WFRV Scotia 1805S
714224CTD or STD cast2005-12-11 02:48:0059.284 N, 0.66467 WFRV Scotia 1805S
714236CTD or STD cast2005-12-11 04:11:0059.28467 N, 0.99733 WFRV Scotia 1805S
714248CTD or STD cast2005-12-11 05:15:0059.283 N, 1.15983 WFRV Scotia 1805S
714261CTD or STD cast2005-12-11 06:22:0059.28317 N, 1.32867 WFRV Scotia 1805S
714273CTD or STD cast2005-12-11 07:22:0059.28183 N, 1.49533 WFRV Scotia 1805S
714285CTD or STD cast2005-12-11 08:30:0059.28283 N, 1.66133 WFRV Scotia 1805S
714297CTD or STD cast2005-12-11 09:21:0059.28183 N, 1.796 WFRV Scotia 1805S
714304CTD or STD cast2005-12-11 10:12:0059.28367 N, 1.92833 WFRV Scotia 1805S
714316CTD or STD cast2005-12-11 11:01:0059.2845 N, 2.07833 WFRV Scotia 1805S
714328CTD or STD cast2005-12-11 12:07:0059.2855 N, 2.22917 WFRV Scotia 1805S
730144CTD or STD cast2006-04-23 23:31:0059.27883 N, 0.003 EFRV Scotia 0706S
730156CTD or STD cast2006-04-24 00:51:0059.28183 N, 0.32533 WFRV Scotia 0706S
730168CTD or STD cast2006-04-24 02:24:0059.285 N, 0.66117 WFRV Scotia 0706S
730181CTD or STD cast2006-04-24 03:44:0059.28217 N, 0.99717 WFRV Scotia 0706S
730193CTD or STD cast2006-04-24 04:38:0059.28283 N, 1.15983 WFRV Scotia 0706S
730200CTD or STD cast2006-04-24 05:30:0059.282 N, 1.32967 WFRV Scotia 0706S
730212CTD or STD cast2006-04-24 06:26:0059.2815 N, 1.4945 WFRV Scotia 0706S
730224CTD or STD cast2006-04-24 07:16:0059.284 N, 1.65833 WFRV Scotia 0706S
730236CTD or STD cast2006-04-24 08:05:0059.28467 N, 1.8 WFRV Scotia 0706S
730248CTD or STD cast2006-04-24 08:50:0059.28367 N, 1.93383 WFRV Scotia 0706S
730261CTD or STD cast2006-04-24 09:33:0059.285 N, 2.0815 WFRV Scotia 0706S
730273CTD or STD cast2006-04-24 10:16:0059.28417 N, 2.234 WFRV Scotia 0706S
725965CTD or STD cast2006-10-04 01:58:0059.2825 N, 0.0015 EFRV Scotia 1506S
725977CTD or STD cast2006-10-04 03:21:0059.2825 N, 0.33583 WFRV Scotia 1506S
725989CTD or STD cast2006-10-04 04:36:0059.28333 N, 0.664 WFRV Scotia 1506S
725990CTD or STD cast2006-10-04 05:52:0059.2835 N, 0.99883 WFRV Scotia 1506S
726004CTD or STD cast2006-10-04 06:47:0059.2825 N, 1.168 WFRV Scotia 1506S
726016CTD or STD cast2006-10-04 07:41:0059.2825 N, 1.33233 WFRV Scotia 1506S
726028CTD or STD cast2006-10-04 08:32:0059.28317 N, 1.50117 WFRV Scotia 1506S
726041CTD or STD cast2006-10-04 09:18:0059.28267 N, 1.6675 WFRV Scotia 1506S
726053CTD or STD cast2006-10-04 09:58:0059.28083 N, 1.80067 WFRV Scotia 1506S
726065CTD or STD cast2006-10-04 10:49:0059.28267 N, 1.93283 WFRV Scotia 1506S
726077CTD or STD cast2006-10-04 11:36:0059.283 N, 2.085 WFRV Scotia 1506S
726089CTD or STD cast2006-10-04 12:27:0059.28433 N, 2.23233 WFRV Scotia 1506S
728188CTD or STD cast2006-12-13 23:10:0059.28283 N, 8.3E-4 WFRV Scotia 1906S
728207CTD or STD cast2006-12-14 01:00:0059.2845 N, 0.33133 WFRV Scotia 1906S
728219CTD or STD cast2006-12-14 02:33:0059.28333 N, 0.66517 WFRV Scotia 1906S
728220CTD or STD cast2006-12-14 04:11:0059.28433 N, 0.99817 WFRV Scotia 1906S
728232CTD or STD cast2006-12-14 05:19:0059.28167 N, 1.16033 WFRV Scotia 1906S
728244CTD or STD cast2006-12-15 09:20:0059.27917 N, 1.3305 WFRV Scotia 1906S
728256CTD or STD cast2006-12-15 10:31:0059.28633 N, 1.5 WFRV Scotia 1906S
728268CTD or STD cast2006-12-15 11:43:0059.28317 N, 1.66217 WFRV Scotia 1906S
728281CTD or STD cast2006-12-15 12:45:0059.28367 N, 1.7975 WFRV Scotia 1906S
728293CTD or STD cast2006-12-15 13:31:0059.28467 N, 1.934 WFRV Scotia 1906S
728300CTD or STD cast2006-12-15 14:21:0059.28367 N, 2.0815 WFRV Scotia 1906S
728312CTD or STD cast2006-12-15 15:05:0059.28383 N, 2.23283 WFRV Scotia 1906S
1035685CTD or STD cast2009-05-31 11:33:0059.28383 N, 2.23083 WFRV Scotia 0709S
1035697CTD or STD cast2009-05-31 13:17:0059.28367 N, 2.08283 WFRV Scotia 0709S
1035704CTD or STD cast2009-05-31 14:39:0059.28317 N, 1.93167 WFRV Scotia 0709S
1035716CTD or STD cast2009-05-31 15:40:0059.28283 N, 1.79983 WFRV Scotia 0709S
1035728CTD or STD cast2009-05-31 16:50:0059.28067 N, 1.66533 WFRV Scotia 0709S
1035741CTD or STD cast2009-05-31 18:00:0059.282 N, 1.502 WFRV Scotia 0709S
1035753CTD or STD cast2009-05-31 19:06:0059.2835 N, 1.33467 WFRV Scotia 0709S
1035765CTD or STD cast2009-05-31 20:15:0059.28367 N, 1.16667 WFRV Scotia 0709S
1035777CTD or STD cast2009-05-31 21:29:0059.28317 N, 0.9995 WFRV Scotia 0709S
1035789CTD or STD cast2009-05-31 23:09:0059.284 N, 0.66783 WFRV Scotia 0709S
1035790CTD or STD cast2009-06-01 01:12:0059.28333 N, 0.334 WFRV Scotia 0709S
1035808CTD or STD cast2009-06-01 02:55:0059.282 N, 0.002 EFRV Scotia 0709S
1035882CTD or STD cast2009-10-02 03:43:0059.281 N, 0.00117 EFRV Scotia 1309S
1035894CTD or STD cast2009-10-02 05:34:0059.28383 N, 0.33167 WFRV Scotia 1309S
1035901CTD or STD cast2009-10-02 07:22:0059.28317 N, 0.6675 WFRV Scotia 1309S
1035913CTD or STD cast2009-10-02 09:12:0059.282 N, 0.99983 WFRV Scotia 1309S
1035925CTD or STD cast2009-10-02 10:26:0059.28233 N, 1.16767 WFRV Scotia 1309S
1035937CTD or STD cast2009-10-02 12:14:0059.2815 N, 1.33633 WFRV Scotia 1309S
1035949CTD or STD cast2009-10-02 13:22:0059.28483 N, 1.50417 WFRV Scotia 1309S
1035950CTD or STD cast2009-10-02 14:37:0059.28483 N, 1.67117 WFRV Scotia 1309S
1035962CTD or STD cast2009-10-02 15:41:0059.28433 N, 1.80183 WFRV Scotia 1309S
1035974CTD or STD cast2009-10-02 16:46:0059.285 N, 1.93233 WFRV Scotia 1309S
1035986CTD or STD cast2009-10-02 17:56:0059.283 N, 2.08133 WFRV Scotia 1309S
1035998CTD or STD cast2009-10-02 19:05:0059.28317 N, 2.23117 WFRV Scotia 1309S
1037723CTD or STD cast2009-12-04 08:33:0059.284 N, 1.5025 WFRV Scotia 1609S
1037735CTD or STD cast2009-12-04 09:43:0059.28283 N, 1.3395 WFRV Scotia 1609S
1037747CTD or STD cast2009-12-04 11:16:0059.28283 N, 1.17067 WFRV Scotia 1609S
1037759CTD or STD cast2009-12-04 12:35:0059.28267 N, 1.004 WFRV Scotia 1609S
1037760CTD or STD cast2009-12-04 14:32:0059.28417 N, 0.66933 WFRV Scotia 1609S
1037772CTD or STD cast2009-12-04 16:26:0059.284 N, 0.335 WFRV Scotia 1609S
1037784CTD or STD cast2009-12-04 18:34:0059.28467 N, 0.00583 WFRV Scotia 1609S
1180040CTD or STD cast2012-05-09 16:24:0059.2825 N, 0.00283 WFRV Scotia 0512S
1180052CTD or STD cast2012-05-09 18:16:0059.27983 N, 0.32833 WFRV Scotia 0512S
1180064CTD or STD cast2012-05-09 20:02:0059.28433 N, 0.66567 WFRV Scotia 0512S
1180076CTD or STD cast2012-05-09 21:44:0059.28383 N, 1.00117 WFRV Scotia 0512S
1180088CTD or STD cast2012-05-09 22:34:0059.28333 N, 1.16917 WFRV Scotia 0512S
1180107CTD or STD cast2012-05-09 23:26:0059.282 N, 1.33117 WFRV Scotia 0512S
1180119CTD or STD cast2012-05-10 00:30:0059.27967 N, 1.49867 WFRV Scotia 0512S
1180120CTD or STD cast2012-05-10 01:26:0059.27967 N, 1.667 WFRV Scotia 0512S
1180132CTD or STD cast2012-05-10 02:10:0059.28033 N, 1.7995 WFRV Scotia 0512S
1180144CTD or STD cast2012-05-10 02:58:0059.2815 N, 1.9365 WFRV Scotia 0512S
1180156CTD or STD cast2012-05-10 03:48:0059.28383 N, 2.08983 WFRV Scotia 0512S
1180168CTD or STD cast2012-05-10 04:37:0059.28367 N, 2.23367 WFRV Scotia 0512S
1182728CTD or STD cast2012-09-30 09:15:0059.27967 N, 0.00467 EFRV Scotia 1312S
1182741CTD or STD cast2012-09-30 11:00:0059.28367 N, 0.32367 WFRV Scotia 1312S
1182753CTD or STD cast2012-09-30 12:30:0059.28083 N, 0.6645 WFRV Scotia 1312S
1182765CTD or STD cast2012-09-30 13:48:0059.28283 N, 1.00183 WFRV Scotia 1312S
1182777CTD or STD cast2012-09-30 14:37:0059.28517 N, 1.16233 WFRV Scotia 1312S
1182789CTD or STD cast2012-09-30 15:26:0059.2835 N, 1.33333 WFRV Scotia 1312S
1182790CTD or STD cast2012-09-30 16:17:0059.28433 N, 1.49967 WFRV Scotia 1312S
1182808CTD or STD cast2012-09-30 17:04:0059.28733 N, 1.659 WFRV Scotia 1312S
1182821CTD or STD cast2012-09-30 17:52:0059.28417 N, 1.79783 WFRV Scotia 1312S
1182833CTD or STD cast2012-09-30 18:39:0059.28317 N, 1.93367 WFRV Scotia 1312S
1182845CTD or STD cast2012-09-30 19:25:0059.2835 N, 2.0775 WFRV Scotia 1312S
1182857CTD or STD cast2012-09-30 20:12:0059.281 N, 2.2245 WFRV Scotia 1312S
1184747CTD or STD cast2012-12-08 02:57:0059.28417 N, 1.7E-4 EFRV Scotia 1712S
1184759CTD or STD cast2012-12-08 04:21:0059.28333 N, 0.33333 WFRV Scotia 1712S
1184760CTD or STD cast2012-12-08 05:44:0059.28283 N, 0.66883 WFRV Scotia 1712S
1184772CTD or STD cast2012-12-08 07:06:0059.2835 N, 1.0 WFRV Scotia 1712S
1184784CTD or STD cast2012-12-08 08:07:0059.28383 N, 1.16483 WFRV Scotia 1712S
1184796CTD or STD cast2012-12-08 09:00:0059.28333 N, 1.333 WFRV Scotia 1712S
1184803CTD or STD cast2012-12-08 09:53:0059.285 N, 1.49917 WFRV Scotia 1712S
1184815CTD or STD cast2012-12-08 11:00:0059.2825 N, 1.66417 WFRV Scotia 1712S
1184827CTD or STD cast2012-12-08 11:47:0059.28367 N, 1.79783 WFRV Scotia 1712S
1184839CTD or STD cast2012-12-08 12:34:0059.2835 N, 1.93367 WFRV Scotia 1712S
1184840CTD or STD cast2012-12-08 13:23:0059.28417 N, 2.08267 WFRV Scotia 1712S
1184852CTD or STD cast2012-12-08 14:15:0059.28417 N, 2.2325 WFRV Scotia 1712S
1884269CTD or STD cast2015-04-27 06:43:0059.28033 N, 0.00233 WFRV Scotia 0515S
1884282CTD or STD cast2015-04-27 09:30:0059.284 N, 0.6615 WFRV Scotia 0515S
1884294CTD or STD cast2015-04-27 11:13:0059.284 N, 0.9955 WFRV Scotia 0515S
1884301CTD or STD cast2015-04-27 12:16:0059.284 N, 1.16267 WFRV Scotia 0515S
1884313CTD or STD cast2015-04-27 13:21:0059.2845 N, 1.3325 WFRV Scotia 0515S
1884325CTD or STD cast2015-04-27 14:16:0059.2845 N, 1.49883 WFRV Scotia 0515S
1884337CTD or STD cast2015-04-27 15:09:0059.28317 N, 1.66617 WFRV Scotia 0515S
1884349CTD or STD cast2015-04-27 16:04:0059.278 N, 1.7965 WFRV Scotia 0515S
1884350CTD or STD cast2015-04-27 17:13:0059.2815 N, 1.929 WFRV Scotia 0515S
1884362CTD or STD cast2015-04-27 18:06:0059.28083 N, 2.085 WFRV Scotia 0515S
1884374CTD or STD cast2015-04-27 18:59:0059.27933 N, 2.23083 WFRV Scotia 0515S
1884884CTD or STD cast2015-09-20 00:52:0059.2825 N, 8.3E-4 EFRV Scotia 1315S
1884896CTD or STD cast2015-09-20 03:03:0059.28317 N, 0.33083 WFRV Scotia 1315S
1884903CTD or STD cast2015-09-20 05:05:0059.28417 N, 0.6665 WFRV Scotia 1315S
1884915CTD or STD cast2015-09-20 06:37:0059.28333 N, 1.00267 WFRV Scotia 1315S
1884927CTD or STD cast2015-09-20 07:40:0059.28267 N, 1.16567 WFRV Scotia 1315S
1884939CTD or STD cast2015-09-20 08:38:0059.28333 N, 1.33333 WFRV Scotia 1315S
1884940CTD or STD cast2015-09-20 09:34:0059.28417 N, 1.49867 WFRV Scotia 1315S
1884952CTD or STD cast2015-09-20 10:29:0059.28367 N, 1.66683 WFRV Scotia 1315S
1884964CTD or STD cast2015-09-20 11:46:0059.28367 N, 1.79867 WFRV Scotia 1315S
1884976CTD or STD cast2015-09-20 12:52:0059.283 N, 1.93283 WFRV Scotia 1315S
1884988CTD or STD cast2015-09-20 14:07:0059.2815 N, 2.08317 WFRV Scotia 1315S
1885003CTD or STD cast2015-09-20 15:18:0059.2805 N, 2.23417 WFRV Scotia 1315S
1886264CTD or STD cast2015-12-11 02:42:0059.28517 N, 0.00417 EFRV Scotia 1815S
1886276CTD or STD cast2015-12-11 03:38:0059.285 N, 0.00417 EFRV Scotia 1815S
1886288CTD or STD cast2015-12-11 05:21:0059.28533 N, 0.328 WFRV Scotia 1815S
1886307CTD or STD cast2015-12-11 07:07:0059.28583 N, 0.66333 WFRV Scotia 1815S
1886319CTD or STD cast2015-12-11 08:45:0059.2835 N, 0.99383 WFRV Scotia 1815S
1886320CTD or STD cast2015-12-11 09:54:0059.28133 N, 1.16233 WFRV Scotia 1815S
1886332CTD or STD cast2015-12-11 10:47:0059.28133 N, 1.16083 WFRV Scotia 1815S
1886344CTD or STD cast2015-12-11 11:58:0059.28133 N, 1.32917 WFRV Scotia 1815S
1886356CTD or STD cast2015-12-11 13:09:0059.28317 N, 1.49583 WFRV Scotia 1815S
1886368CTD or STD cast2015-12-11 14:17:0059.2845 N, 1.66483 WFRV Scotia 1815S
1886381CTD or STD cast2015-12-11 15:22:0059.2855 N, 1.79833 WFRV Scotia 1815S
1886393CTD or STD cast2015-12-11 15:44:0059.2855 N, 1.79817 WFRV Scotia 1815S
1886400CTD or STD cast2015-12-11 16:40:0059.2865 N, 1.92983 WFRV Scotia 1815S
1886412CTD or STD cast2015-12-11 17:33:0059.28483 N, 2.0795 WFRV Scotia 1815S
1886424CTD or STD cast2015-12-11 18:30:0059.28117 N, 2.2265 WFRV Scotia 1815S
1886436CTD or STD cast2015-12-11 18:54:0059.28167 N, 2.2265 WFRV Scotia 1815S