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Metadata Report for BODC Series Reference Number 876493


Metadata Summary

Data Description

Data Category Fluorescence or pigments
Instrument Type
NameCategories
HOBI HydroScat-2 Optical Backscatter Fluorometer  fluorometers; optical backscatter sensors
Instrument Mounting subsurface mooring
Originating Country United Kingdom
Originator Ms Maureen Pagnani
Originating Organization Southampton Oceanography Centre (now National Oceanography Centre, Southampton)
Processing Status QC in progress
Online delivery of data Download not available
Project(s) ANIMATE
 

Data Identifiers

Originator's Identifier PAP1_072003_CHL_H2020343
BODC Series Reference 876493
 

Time Co-ordinates(UT)

Start Time (yyyy-mm-dd hh:mm) 2003-07-12 14:22
End Time (yyyy-mm-dd hh:mm) 2003-11-16 06:22
Nominal Cycle Interval 7200.0 seconds
 

Spatial Co-ordinates

Latitude 48.99750 N ( 48° 59.9' N )
Longitude 16.44920 W ( 16° 27.0' W )
Positional Uncertainty 0.05 to 0.1 n.miles
Minimum Sensor or Sampling Depth 30.0 m
Maximum Sensor or Sampling Depth 30.0 m
Minimum Sensor or Sampling Height 4806.0 m
Maximum Sensor or Sampling Height 4806.0 m
Sea Floor Depth 4836.0 m
Sea Floor Depth Source SCILOG
Sensor or Sampling Distribution Fixed common depth - All sensors are grouped effectively at the same depth which is effectively fixed for the duration of the series
Sensor or Sampling Depth Datum Sea floor reference - Depth measured as a height above sea floor but converted into a depth relative to the sea surface according to the same datum as used for sea floor depth (applicable to instrument depths not bathymetric depths)
Sea Floor Depth Datum Instantaneous - Depth measured below water line or instantaneous water body surface
 

Parameters

BODC CODERankUnitsTitle
CNDCPR011Siemens per metreElectrical conductivity of the water body by in-situ conductivity cell
CPHLPR011Milligrams per cubic metreConcentration of chlorophyll-a {chl-a CAS 479-61-8} per unit volume of the water body [particulate >unknown phase] by in-situ chlorophyll fluorometer
DOXYPR011Micromoles per litreConcentration of oxygen {O2 CAS 7782-44-7} per unit volume of the water body [dissolved plus reactive particulate phase] by in-situ Beckmann probe
PRESPR011DecibarsPressure (spatial coordinate) exerted by the water body by profiling pressure sensor and correction to read zero at sea level
PSALPR011DimensionlessPractical salinity of the water body by conductivity cell and computation using UNESCO 1983 algorithm
TEMPST011Degrees CelsiusTemperature of the water body by CTD or STD

Definition of Rank

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

Problem Reports

No Problem Report Found in the Database


Data Access Policy

Open Data 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

HOBI Labs HydroScat 2 Backscattering sensor and Fluorometer

The HydroScat 2 (HS2) is a submersible sensor designed to measure optical backscattering in natural waters at two wavelengths. It provides simultaneous measurements of the fluorescence excited at the longer wavelength by the shorter wavelength source.

The HS2 includes two independent channels that are sensitive to a different narrow range of optical wavelengths. Each channel consists of separate source and receiver optics. Each source beam originates from a light-emitting diode (LED) which enters the water at an angle approximately 20° from normal. The receiver consists of a prism that bends the field of view toward the source beam, a band-pass interference filter that determines the exact wavelength range of the measurement and lens that focuses the received rays onto a silicon detector. The range of scattering angles over which the measurement is made is determined by the divergences of the source beam and receiver field of view, the angles of the prisms and the distance between the source and receiver windows.

Despite being optimised for elastic backscattering measurements, the HS2 is also able to measure fluorescence. Because each LED is modulated at its own frequency, fluorescence excited by a particular channel can be identified by the excitation channel's characteristic frequency, even though its emission falls into the optical bandwidth of another channel. The HS2 receiver channels can be controlled via software to the frequency of another channel's source, allowing them to detect fluorescence instead of backscattering.

This instrument includes a depth transducer, a data logger with real time clock and an external switch to control logging. The data logger supports a wide range of sampling rates, as well as burst mode sampling for collection over long periods.

Specifications

Wavelengths

420, 700 nm (standard)

550,590,620,676,700,852 nm (optional)

Spectral bandwidth 10 nm (20 nm for 676 and 40 nm for 700)
Nominal backscattering angle 140°
Noise in backscatter 2 x 10-5 to 2 x 10-4 RMS (wavelength-dependent)
Offset uncertainty of backscatter 5 x 10-5 to 5 x 10-4 m-1 (wavelength-dependent)
Operating temperature 0 to 35°C
Maximum depth 300 m (500 and 4000 m optional)
Maximum sampling rate 10 Hz

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

Instrument Description

HydroScat-2 Backscattering Sensor- Fluorometer

The HydroScat-2 (HS2) was deployed on the PAP01 moorings as part of a package of sensors situated approximately 40 m below the sea surface.

The HydroScat-2 is a fully autonomous in-situ optical backscattering sensor that measures the backscattering coefficient at two wavelengths (420 and 700 nm standard) and fluorescence at one wavelength (676 nm). It can be deployed to 500m. The system includes a copper shutter with its own motor which successfully reduces biofouling on the lens. The HS2 is used with an external battery pack containing D-cells. A burst of measurements were made once every two hours providing a description of the particles in the water column and the chlorophyll concentration. A copper shutter opens just prior to the measurement burst.

Further information on the HS2 can be found in the manufacturer's website.

Originator's information about HydroScat-2 from cruise reports

PO300_1 cruise report:

The HydroScat-2 is a fully autonomous in-situ optical backscattering sensor that measures the backscattering coefficient at two wavelengths and fluorescence at one wavelength. A burst of measurements were made once every two hours providing a description of the particles in the water column and the chlorophyll concentration. A copper shutter opens just prior to the measurement burst. The gap between the shutter and the lenses was about 1mm but this caused a massive deposit of copper oxide on the lenses such that they were totally opaque on recovery and as the rate of deposition is unknown the data obtained are of dubious value.

A fresh unit (serial number H2020342) was prepared for the redeployment and appeared to function perfectly during the calibration deployment. However, just before deployment it could not be made to awaken from the sleep mode. The manufacturers subsequently advised in future we could try shorting all the terminal contacts!! The unit with copper deposit was therefore rapidly cleaned and prepared for deployment and the gap between the shutter and the lenses increased to 3mm. This unit has serial number H2020343.

No further useful information from PO306 or CD158 cruise report.

BODC Processing

The data arrived at BODC as three .csv files. They were reformatted to the internal BODC format.

The following table shows how the originator's variables were mapped to the BODC parameter codes.

Originator's
variable
Units Description BODC
Parameter
code
Units Comments
Depth metres Average depth measured by HS2 sensor PPSAPS01 metres -
Fluorescence none Average fluorescence 676 nm FLUOZZZZ Dimensionless -
Chl-a Micrograms per litre Average chlorophyll-a CPHLPR01 Milligrams per cubic metre Externally calibrated

The backscatter data was not converted to the BODC format, on the advice of the originator, as it had not been calibrated and fully processed.

The data were then visualised using the in-house EDSERPLO software. Suspect data were marked by adding an appropriate quality control flag. Missing data were marked by setting the data to an appropriate absent data value and absent data quality control flag.

Originator's Data Processing

Introduction

During the PAP deployments, direct measurement of chlorophyll concentrations present in the water passing over the fluorometers was made, generally, at the start of each deployment. This enabled the relationship between the fluorescence and chlorophyll concentration to be assessed.

Intrument Calibrations

At the start of each deployment the fluorometer was attached to a CTD rosette. Chlorophyll samples were collected from the Niskin bottles and filtered and frozen onboard. Chlorophyll was acetone extracted and analysed ashore using the Welschmeyer (1994) method. The fluorescence data are extracted from the data file sent back from the ship and compared against the bottle chlorophyll measurements for each depth that samples were taken. Comparisons of the fluorescence output were made with bottle chlorophyll measurements to provide an initial calibration for the fluorometers specific to each site and instrument.

Initial Data Inspection

All three deployments produced either good or usable data. The third deployment shows a comparatively large variation in the depth of the instrument throughout the deployment: the sensor frame on this mooring descended to 160m on occasions as a result of high current speeds knocking down the mooring, for more information please refer to the mooring recovery cruise report.

References

Welschmeyer N.A., 1994. Fluorometric analysis of chlorophyll-a in the presence of chlorophyll-b and phaeopigments. Limnology and Oceanography, 39:1985-1992


Project Information

ANIMATE- Atlantic Network on Interdisciplinary Moorings and Time-series for Europe

Scientific Rationale

The objective of the ANIMATE program is to make time series measurements from deep water observatories in the North Atlantic. ANIMATE is a European program coordinated by Prof. Uwe Send at IFM, Kiel and will establish deep ocean observing sites at three contrasting locations. The locations are CIS (Central Irminger Sea) east of Greenland, ESTOC (Estación Europea de Series Temporales del Oceano, Islas Canarias) about 100km north of the Canary Islands, and PAP (Porcupine Abyssal Plain). The measurements in the first instance are somewhat basic but nevertheless encapsulate the crucial processes that drive the biogeochemistry of any oceanic region.

At all three sites at about 15m depth (100m off the Canary Islands) there are frequent measurements of CO2 concentration, nutrients and fluorescence as a proxy for phytoplankton concentration. Throughout the top 100m there are measurements at about a dozen depths of salinity and temperature and this will enable us to characterise the complete annual cycle of the physics of the upper ocean. It is this physics which determines to a great extent the concentrations of limiting nutrients in the upper sunlit zone and the growth of phytoplankton. Phytoplankton are responsible for about half of the oceanic CO2 uptake and, as such, a better understanding of the relationship between physics, nutrients, phytoplankton growth and CO2 concentration is essential if we are to understand the processes and predict future responses of the oceans to anthropogenic CO2 release.

The ANIMATE project is funded by the EU in 2002-2004 as the 5th framework project EVR1-CT-2001-40014 and also funded in part by EU-funded projects Mersea IP and Carbo-Ocean.

References

Billett, D.S.M., Bett B.J., Reid, W.D.K., Boorman, B. and Priede, M. Long-term change in the abyssal NE Atlantic: The 'Amperima Event' revisited. Deep Sea Research II; PAP special volume (Submitted)

Hartman. S., Larkin. K. E., Lampitt, R. S, Koeve, W., Yool, A., Körtzinger, A., Hydes, D.J. (This volume) Seasonal and inter-annual biogeochemical variations at PAP (49°N, 16.5°W) 2003-2005. Deep Sea Research II; PAP special volume (Submitted)

Gooday, A et al. Long term change in foraminiferans Deep Sea Research II, PAP special volume (Submitted)

Martin, A.P., Lucas, M.I., Painter, S.C., Pidcock, R., Prandke H., Prandke,H., Stinchcombe, M.C. (2008) The supply of nutrients due to vertical turbulent mixing: a study at the Porcupine Abyssal Plain study site (49° 50'n 16° 30'w) in the northeast Atlantic. Deep Sea Research II, PAP special volume (Submitted)


Data Activity or Cruise Information

Data Activity

Start Date (yyyy-mm-dd) 2003-07-12
End Date (yyyy-mm-dd) 2003-11-16
Organization Undertaking ActivitySouthampton Oceanography Centre (now National Oceanography Centre, Southampton)
Country of OrganizationUnited Kingdom
Originator's Data Activity IdentifierPAP1_072003
Platform Categorysubsurface mooring

Moored Instrument Rig PAP1_072003

This rig was deployed as part of the Porcupine Abyssal Plain (PAP) observatory project. 'PAP1_072003' refers to the deployment of mooring number 1 in July 2003 ('072003') located at the PAP Observatory. This was the second deployment of this mooring configuration at the PAP site, under this project.

Data summary

Deployment cruise RV Poseidon 300/1
Recovery cruise RV Poseidon 306

Instrumentation

This rig was anchored by a 1200 kg weight and was kept erect by groups of sub-surface floats attached along the mooring.

Instrument Serial number Nominal depth
EnviroTech LLC NAS-2E Nutrient Analyser (NAS2) 2404 32m
HOBI Labs HydroScat-2 (HS2) H2020343 32m
Sea-Bird SBE 37-IM with pressure sensor 2486 32m
Sunburst Sensors LLC, SAMI Carbon Dioxide sensor (SAMI) 35 32m
Sea-Bird SBE 37-IM 2809 57m
Sea-Bird SBE 37-IM 2933 70m
45" syntactic + 300kHz ADCP
150kHz ADCP
Sea-Bird SBE 37-IM with pressure sensor 2974 166m
Sea-Bird SBE 37-IM 2934 217m
Sea-Bird SBE 37-IM 2812 290m
Sea-Bird SBE 37-IM with pressure sensor 2718 370m

Related Data Activity activities are detailed in Appendix 1

Cruise

Cruise Name PO300_1
Departure Date 2003-07-04
Arrival Date 2003-07-16
Principal Scientist(s)Richard Stephen Lampitt (Southampton Oceanography Centre)
Ship FS Poseidon

Complete Cruise Metadata Report is available here


Fixed Station Information

Fixed Station Information

Station NamePorcupine Abyssal Plain (PAP)
CategoryOffshore location
Latitude49° 0.00' N
Longitude16° 30.00' W
Water depth below MSL4800.0 m

Porcupine Abyssal Plain (PAP) Observatory

The Porcupine Abyssal Plain (PAP) observatory is a site at which moorings were deployed in the Northeastern Atlantic, as part of the ANIMATE (Atlantic Network of Interdisciplinary Moorings and Time-series for Europe), MERSEA (Marine Environment and Security for the European Area), EuroSITES, Oceans2025, Fix03 and CLASS projects. The PAP site is centred at latitude 49° N and longitude 16.5° W. Moorings have occupied this region since 2002 and are typically deployed for 12 months.

Please note: Near Real Time data is not stored at BODC. This data can be found at the OceanSites GDA and through IFREMER.

Data summary

Mooring deployment Deployment Cruise Temperature salinity pressure ADCP Chlorophyll Sediment trap Current meter Nitrate Carbon dioxide Oxygen Irradience
Real time Delayed mode Real time Delayed mode Real time Delayed mode Real time Delayed mode Real time Delayed mode Real time Delayed mode Real time Delayed mode
PAP 2002 D266 Data Data Data NT UD Data - Data NT Data NT SF - ND - ND
PAP 2003 P0300_1 CF Data Data NT Data Data - Data NT Data NT Data - - - -
PAP 2003 P0306 Data Data Data NT Data Data - Data NT Data NT Data - - - -
PAP 2004 CD158 Data Data Data NT Data Data - Data NT UD NT Data - - - -
PAP 2005 D296 Data ND ND NT ND Data - Data NT Pending NT Pending - ND - ND
PAP 2006 D306 ND ND ND ND ND Data - Data ND ND ND ND - Pending - ND
PAP 2007 CE0716 Data Data Data Data Data Data - Pending SF SF NT Pending - ND - ND
PAP 2009 D341 Data Data - Data Data - - - Data Data SF SF - Data - -
PAP 2010 CE10005 - Data Data - Pending Data - Pending - Pending - Data - Pending Data ND
PAP 2011 JC062 - Pending Pending - Pending Data - Data - Pending - Data - Pending - ND
PAP 2012 JC071 - Data ND - Pending Data - Pending - Data - Data - Data - ND
PAP 2013 JC085 - Data ND - Data Data - ND - Data - Data - Data - ND
PAP 2013 JC087 - Data ND - Data ND - ND - Data - ND - Data - ND
PAP 2014 M108 - Data ND - ND Data - ND - Pending - Data - Data - Pending
PAP 2015 DY032 - Data ND - Pending Data - Data - Data - Data - Data - Pending
PAP 2016 DY050 - Data ND - Data Data - Data - Data - Pending - Data - Pending
PAP 2017 DY077 - Data ND - Data Pending - Data - Data - Data - Data - Data
PAP 2018 JC165 - Pending Pending - Pending Pending - Pending - -Pending - Pending - Pending - Pending

Status Indicators

Indicator Description
Data Data received from mooring
Pending Data not yet received
SF Sensor failed
ND No data
NYR Not yet recovered
CF Communications failure
UD Unusable data
NT Not telemetered

Related Fixed Station activities are detailed in Appendix 2


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: PAP1_072003

Related series for this Data Activity 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
1226057Hydrography time series at depth2003-07-12 14:30:0048.9975 N, 16.4492 WFS Poseidon PO300_1
1226069Hydrography time series at depth2003-07-12 14:30:0048.9975 N, 16.4492 WFS Poseidon PO300_1
1226070Hydrography time series at depth2003-07-12 14:30:0048.9975 N, 16.4492 WFS Poseidon PO300_1
1226082Hydrography time series at depth2003-07-12 14:30:0048.9975 N, 16.4492 WFS Poseidon PO300_1
1226094Hydrography time series at depth2003-07-12 14:30:0048.9975 N, 16.4492 WFS Poseidon PO300_1
1226101Hydrography time series at depth2003-07-12 14:30:0048.9975 N, 16.4492 WFS Poseidon PO300_1
1226113Hydrography time series at depth2003-07-12 14:30:0048.9975 N, 16.4492 WFS Poseidon PO300_1
876407Water column chemistry2003-07-13 00:00:0048.9975 N, 16.44917 WFS Poseidon PO300_1
895638Water column chemistry2003-07-13 09:35:1949.0417 N, 16.5267 WFS Poseidon PO300_1

Appendix 2: Porcupine Abyssal Plain (PAP)

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
1225957Hydrography time series at depth2002-10-06 20:00:0048.9833 N, 16.468 WRRS Discovery D266
1225970Hydrography time series at depth2002-10-06 20:00:0048.9833 N, 16.468 WRRS Discovery D266
1225982Hydrography time series at depth2002-10-06 20:00:0048.9833 N, 16.468 WRRS Discovery D266
1225969Hydrography time series at depth2002-10-07 02:00:0048.9833 N, 16.468 WRRS Discovery D266
1225994Hydrography time series at depth2002-10-07 02:00:0048.9833 N, 16.468 WRRS Discovery D266
1226008Hydrography time series at depth2002-10-07 02:00:0048.9833 N, 16.468 WRRS Discovery D266
1226021Hydrography time series at depth2002-10-07 02:00:0048.9833 N, 16.468 WRRS Discovery D266
1226033Hydrography time series at depth2002-10-07 02:00:0048.9833 N, 16.468 WRRS Discovery D266
1226045Hydrography time series at depth2002-10-07 02:00:0048.9833 N, 16.468 WRRS Discovery D266
1225945Hydrography time series at depth2002-10-09 00:00:0048.9833 N, 16.424 WRRS Discovery D266
895626Water column chemistry2002-10-09 10:28:2048.9833 N, 16.424 WRRS Discovery D266
1226057Hydrography time series at depth2003-07-12 14:30:0048.9975 N, 16.4492 WFS Poseidon PO300_1
1226069Hydrography time series at depth2003-07-12 14:30:0048.9975 N, 16.4492 WFS Poseidon PO300_1
1226070Hydrography time series at depth2003-07-12 14:30:0048.9975 N, 16.4492 WFS Poseidon PO300_1
1226082Hydrography time series at depth2003-07-12 14:30:0048.9975 N, 16.4492 WFS Poseidon PO300_1
1226094Hydrography time series at depth2003-07-12 14:30:0048.9975 N, 16.4492 WFS Poseidon PO300_1
1226101Hydrography time series at depth2003-07-12 14:30:0048.9975 N, 16.4492 WFS Poseidon PO300_1
1226113Hydrography time series at depth2003-07-12 14:30:0048.9975 N, 16.4492 WFS Poseidon PO300_1
774750Currents -subsurface Eulerian2003-07-12 19:00:0049.0 N, 16.5 WFS Poseidon PO300_1
774762Currents -subsurface Eulerian2003-07-12 19:01:0049.0 N, 16.5 WFS Poseidon PO300_1
876407Water column chemistry2003-07-13 00:00:0048.9975 N, 16.44917 WFS Poseidon PO300_1
895638Water column chemistry2003-07-13 09:35:1949.0417 N, 16.5267 WFS Poseidon PO300_1
1226137Hydrography time series at depth2003-11-17 16:30:0049.0755 N, 16.4963 WFS Poseidon PO306
1226149Hydrography time series at depth2003-11-17 16:30:0049.0755 N, 16.4963 WFS Poseidon PO306
1226150Hydrography time series at depth2003-11-17 16:30:0049.0755 N, 16.4963 WFS Poseidon PO306
1226162Hydrography time series at depth2003-11-17 16:30:0049.0755 N, 16.4963 WFS Poseidon PO306
1226174Hydrography time series at depth2003-11-17 16:30:0049.0755 N, 16.4963 WFS Poseidon PO306
1226186Hydrography time series at depth2003-11-17 16:30:0049.0755 N, 16.4963 WFS Poseidon PO306
1226198Hydrography time series at depth2003-11-17 16:30:0049.0755 N, 16.4963 WFS Poseidon PO306
1226205Hydrography time series at depth2003-11-17 16:30:0049.0755 N, 16.4963 WFS Poseidon PO306
1226217Hydrography time series at depth2003-11-17 16:30:0049.0755 N, 16.4963 WFS Poseidon PO306
1226229Hydrography time series at depth2003-11-17 16:30:0049.0755 N, 16.4963 WFS Poseidon PO306
1226125Hydrography time series at depth2003-11-18 16:15:0049.0417 N, 16.5267 WFS Poseidon PO306
876419Water column chemistry2003-11-18 17:00:0049.0417 N, 16.5267 WFS Poseidon PO306
876500Fluorescence or pigments2003-11-18 17:00:2549.0417 N, 16.5267 WFS Poseidon PO306
895651Water column chemistry2003-11-19 09:14:1949.0417 N, 16.5267 WFS Poseidon PO306
1226242Hydrography time series at depth2004-06-22 22:00:0049.1192 N, 16.4935 WRRS Charles Darwin CD158
1226254Hydrography time series at depth2004-06-22 22:00:0049.1192 N, 16.4935 WRRS Charles Darwin CD158
1226266Hydrography time series at depth2004-06-22 22:00:0049.1192 N, 16.4935 WRRS Charles Darwin CD158
1226278Hydrography time series at depth2004-06-22 22:00:0049.1192 N, 16.4935 WRRS Charles Darwin CD158
1226291Hydrography time series at depth2004-06-22 22:00:0049.1192 N, 16.4935 WRRS Charles Darwin CD158
1226309Hydrography time series at depth2004-06-22 22:00:0049.1192 N, 16.4935 WRRS Charles Darwin CD158
1226310Hydrography time series at depth2004-06-22 22:00:0049.1192 N, 16.4935 WRRS Charles Darwin CD158
1226322Hydrography time series at depth2004-06-22 22:00:0049.1192 N, 16.4935 WRRS Charles Darwin CD158
1226334Hydrography time series at depth2004-06-22 22:00:0049.1192 N, 16.4935 WRRS Charles Darwin CD158
1226346Hydrography time series at depth2004-06-22 22:00:0049.1192 N, 16.4935 WRRS Charles Darwin CD158
1226230Hydrography time series at depth2004-06-23 20:00:0049.0432 N, 16.529 WRRS Charles Darwin CD158
876420Water column chemistry2004-06-23 20:00:0049.0497 N, 16.5169 WRRS Charles Darwin CD158
876512Fluorescence or pigments2004-06-23 22:44:2249.04317 N, 16.529 WRRS Charles Darwin CD158
945170Currents -subsurface Eulerian2007-06-19 22:47:5148.915 N, 16.5458 WCeltic Explorer CE0716
888088CTD or STD cast2007-06-21 10:38:3648.999 N, 16.502 WCeltic Explorer CE0716
888107CTD or STD cast2007-06-21 13:51:3048.999 N, 16.502 WCeltic Explorer CE0716
1868602Water sample data2007-06-21 14:07:0048.999 N, 16.502 WCeltic Explorer CE0716
888119CTD or STD cast2007-06-21 14:51:4948.999 N, 16.501 WCeltic Explorer CE0716
888120CTD or STD cast2007-06-21 18:24:1848.999 N, 16.502 WCeltic Explorer CE0716
888132CTD or STD cast2007-06-21 19:44:4748.999 N, 16.501 WCeltic Explorer CE0716
888144CTD or STD cast2007-06-21 20:03:4848.999 N, 16.502 WCeltic Explorer CE0716
888156CTD or STD cast2007-06-22 12:27:4149.002 N, 16.4545 WCeltic Explorer CE0716
1083405Fluorescence or pigments2007-06-22 16:02:4549.0 N, 16.419 WCeltic Explorer CE0716
1225816Hydrography time series at depth2007-06-22 18:00:0049.0163 N, 16.402 WCeltic Explorer CE0716
1225828Hydrography time series at depth2007-06-22 18:00:0049.0163 N, 16.402 WCeltic Explorer CE0716
1225841Hydrography time series at depth2007-06-22 18:00:0049.0163 N, 16.402 WCeltic Explorer CE0716
1225853Hydrography time series at depth2007-06-22 18:00:0049.0163 N, 16.402 WCeltic Explorer CE0716
1225865Hydrography time series at depth2007-06-22 18:00:0049.0163 N, 16.402 WCeltic Explorer CE0716
1225877Hydrography time series at depth2007-06-22 18:00:0049.0163 N, 16.402 WCeltic Explorer CE0716
1225889Hydrography time series at depth2007-06-22 18:00:0049.0163 N, 16.402 WCeltic Explorer CE0716
1225890Hydrography time series at depth2007-06-22 18:00:0049.0163 N, 16.402 WCeltic Explorer CE0716
1225908Hydrography time series at depth2007-06-22 18:00:0049.0163 N, 16.402 WCeltic Explorer CE0716
1225921Hydrography time series at depth2007-06-22 18:00:0049.0163 N, 16.402 WCeltic Explorer CE0716
1225933Hydrography time series at depth2007-06-22 18:00:0049.0163 N, 16.402 WCeltic Explorer CE0716
888168CTD or STD cast2007-06-22 20:09:0449.084 N, 16.401 WCeltic Explorer CE0716
888181CTD or STD cast2007-06-23 01:04:5448.9165 N, 16.3 WCeltic Explorer CE0716
888193CTD or STD cast2007-06-23 03:44:4048.9165 N, 16.5002 WCeltic Explorer CE0716
1225804Hydrography time series at depth2007-06-23 14:00:0049.0163 N, 16.402 WCeltic Explorer CE0716
888200CTD or STD cast2007-06-23 15:27:5148.9767 N, 16.5116 WCeltic Explorer CE0716
1058137Water column chemistry2007-06-28 15:00:0049.0 N, 16.419 WCeltic Explorer CE0716
1842200Fluorescence or pigments2009-05-23 16:00:0049.07167 N, 16.38167 WRRS James Cook JC034T
1851461Hydrography time series at depth2009-05-23 16:00:0049.07167 N, 16.38167 WRRS James Cook JC034T
1851473Hydrography time series at depth2009-05-23 16:00:0049.07167 N, 16.38167 WRRS James Cook JC034T
1851485Hydrography time series at depth2009-05-23 16:00:0049.07167 N, 16.38167 WRRS James Cook JC034T
1919019Currents -subsurface Eulerian2009-05-23 16:15:0049.07167 N, 16.38167 WRRS James Cook JC034T
1620712Water column chemistry2009-05-23 16:15:0049.07167 N, 16.38167 WRRS James Cook JC034T
1640682Water column chemistry2009-05-23 16:15:0049.07167 N, 16.38167 WRRS James Cook JC034T
1620700Water column chemistry2009-05-23 17:00:3949.07167 N, 16.38167 WRRS James Cook JC034T
1640670Water column chemistry2009-05-24 04:00:0049.07167 N, 16.38167 WRRS James Cook JC034T
1170739Currents -subsurface Eulerian2009-07-09 18:41:2055.10983 N, 5.302 WRRS Discovery D341
1170740Currents -subsurface Eulerian2009-07-10 09:50:4852.32233 N, 6.02167 WRRS Discovery D341
1170752Currents -subsurface Eulerian2009-07-11 10:02:1750.63183 N, 11.19833 WRRS Discovery D341
1170764Currents -subsurface Eulerian2009-07-12 09:50:5649.919 N, 13.46283 WRRS Discovery D341
1170776Currents -subsurface Eulerian2009-07-13 06:54:4949.04683 N, 16.48233 WRRS Discovery D341
1170788Currents -subsurface Eulerian2009-07-14 04:55:1948.94567 N, 16.882 WRRS Discovery D341
1170807Currents -subsurface Eulerian2009-07-15 04:57:3849.023 N, 16.562 WRRS Discovery D341
1170819Currents -subsurface Eulerian2009-07-16 04:53:1149.1025 N, 16.41267 WRRS Discovery D341
1170820Currents -subsurface Eulerian2009-07-17 04:57:2848.8335 N, 16.598 WRRS Discovery D341
1170832Currents -subsurface Eulerian2009-07-18 04:55:0048.82283 N, 16.50567 WRRS Discovery D341
1170844Currents -subsurface Eulerian2009-07-19 04:50:5148.99767 N, 16.51133 WRRS Discovery D341
1170856Currents -subsurface Eulerian2009-07-20 04:57:2148.81283 N, 16.72583 WRRS Discovery D341
1170868Currents -subsurface Eulerian2009-07-20 17:08:1849.07317 N, 16.389 WRRS Discovery D341
1170881Currents -subsurface Eulerian2009-07-21 04:53:2648.725 N, 17.184 WRRS Discovery D341
1170893Currents -subsurface Eulerian2009-07-22 04:53:0249.191 N, 16.89683 WRRS Discovery D341
1170900Currents -subsurface Eulerian2009-07-23 04:55:5549.07417 N, 16.63433 WRRS Discovery D341
1170912Currents -subsurface Eulerian2009-07-24 04:58:3148.91383 N, 16.35767 WRRS Discovery D341
1170924Currents -subsurface Eulerian2009-07-25 04:48:5249.463 N, 16.06033 WRRS Discovery D341
1170936Currents -subsurface Eulerian2009-07-26 04:57:0749.184 N, 16.022 WRRS Discovery D341
1170948Currents -subsurface Eulerian2009-07-27 07:57:1649.13833 N, 16.284 WRRS Discovery D341
1170961Currents -subsurface Eulerian2009-07-28 04:51:1848.814 N, 16.46 WRRS Discovery D341
1170973Currents -subsurface Eulerian2009-07-29 04:46:4348.97817 N, 16.91267 WRRS Discovery D341
1170985Currents -subsurface Eulerian2009-07-30 04:59:2748.83417 N, 16.485 WRRS Discovery D341
1170997Currents -subsurface Eulerian2009-07-31 04:58:4048.60483 N, 16.601 WRRS Discovery D341
1171000Currents -subsurface Eulerian2009-08-01 04:54:1748.7355 N, 16.54017 WRRS Discovery D341
1171012Currents -subsurface Eulerian2009-08-02 04:44:1448.64567 N, 16.5675 WRRS Discovery D341
1171024Currents -subsurface Eulerian2009-08-03 04:52:5248.99783 N, 16.4255 WRRS Discovery D341
1171036Currents -subsurface Eulerian2009-08-04 04:51:2048.82417 N, 16.91783 WRRS Discovery D341
1171048Currents -subsurface Eulerian2009-08-05 04:52:1848.90333 N, 16.87867 WRRS Discovery D341
1171061Currents -subsurface Eulerian2009-08-06 04:48:4048.907 N, 16.08783 WRRS Discovery D341
1171073Currents -subsurface Eulerian2009-08-07 04:49:1649.00783 N, 16.48933 WRRS Discovery D341
1171085Currents -subsurface Eulerian2009-08-08 04:52:3948.79867 N, 16.98883 WRRS Discovery D341
1171097Currents -subsurface Eulerian2009-08-09 04:51:2848.9835 N, 16.50517 WRRS Discovery D341
1171104Currents -subsurface Eulerian2009-08-10 04:54:1849.26467 N, 15.59733 WRRS Discovery D341
1171116Currents -subsurface Eulerian2009-08-10 22:47:2450.53633 N, 11.35417 WRRS Discovery D341
1839394Water column chemistry2010-06-03 12:00:0048.993 N, 16.369 WRRS James Clark Ross JR20100526 (JR221)
1839401Water column chemistry2010-09-21 12:00:0048.993 N, 16.369 WCeltic Explorer CE10005
1839413Water column chemistry2011-08-02 00:00:0048.0135 N, 16.3698 WRRS James Cook JC062
1177289Bathymetry2012-05-01 21:59:0048.6223 N, 16.3579 WRRS James Cook JC071
1839425Water column chemistry2012-05-06 00:00:0048.0049 N, 16.3763 WRRS James Cook JC071
1177290Bathymetry2012-05-07 20:59:0049.1075 N, 17.0159 WRRS James Cook JC071
1759923CTD or STD cast2013-04-19 06:38:0048.67517 N, 16.3365 WRRS James Cook JC085
1928139Water sample data2013-04-19 08:50:0048.67523 N, 16.33658 WRRS James Cook JC085
1759935CTD or STD cast2013-04-21 21:10:0048.991 N, 16.48083 WRRS James Cook JC085
1928140Water sample data2013-04-21 22:18:0048.991 N, 16.48083 WRRS James Cook JC085
1759947CTD or STD cast2013-04-23 13:51:0048.61683 N, 16.2995 WRRS James Cook JC085
1928152Water sample data2013-04-23 15:13:0048.61797 N, 16.29808 WRRS James Cook JC085
1759959CTD or STD cast2013-04-25 17:29:0448.58717 N, 16.333 WRRS James Cook JC085
1759960CTD or STD cast2013-04-25 18:59:0548.587 N, 16.34333 WRRS James Cook JC085
1759972CTD or STD cast2013-04-25 19:49:0348.58683 N, 16.35167 WRRS James Cook JC085
1928164Water sample data2013-04-25 20:40:0048.58575 N, 16.36107 WRRS James Cook JC085
1759984CTD or STD cast2013-04-25 22:37:0148.56283 N, 16.44867 WRRS James Cook JC085
1759996CTD or STD cast2013-04-25 23:23:0048.56267 N, 16.45617 WRRS James Cook JC085
1760008CTD or STD cast2013-04-26 00:16:0248.562 N, 16.4655 WRRS James Cook JC085
1928176Water sample data2013-04-26 01:05:0048.55927 N, 16.47843 WRRS James Cook JC085
1836556CTD or STD cast2013-04-26 01:05:4548.96667 N, 16.36667 WRRS James Cook JC085
1880601Water sample data2013-06-03 12:31:0048.69983 N, 16.03367 WRRS James Cook JC087
1927702Water sample data2013-06-03 12:31:0048.69983 N, 16.03367 WRRS James Cook JC087
1880625Water sample data2013-06-03 20:38:0048.64867 N, 16.14267 WRRS James Cook JC087
1927726Water sample data2013-06-03 20:38:0048.64867 N, 16.14267 WRRS James Cook JC087
1880717Water sample data2013-06-05 04:10:0048.64867 N, 16.143 WRRS James Cook JC087
1927831Water sample data2013-06-05 04:10:0048.64867 N, 16.143 WRRS James Cook JC087
1880729Water sample data2013-06-05 07:58:0048.65017 N, 16.13883 WRRS James Cook JC087
1927843Water sample data2013-06-05 07:58:0048.65017 N, 16.13883 WRRS James Cook JC087
1880730Water sample data2013-06-05 10:23:0048.64867 N, 16.143 WRRS James Cook JC087
1927855Water sample data2013-06-05 10:23:0048.64867 N, 16.143 WRRS James Cook JC087
1880742Water sample data2013-06-05 13:24:0048.64862 N, 16.14292 WRRS James Cook JC087
1880754Water sample data2013-06-06 03:58:0048.64862 N, 16.1429 WRRS James Cook JC087
1927867Water sample data2013-06-06 03:58:0048.64862 N, 16.1429 WRRS James Cook JC087
1880766Water sample data2013-06-06 08:23:0048.64867 N, 16.14267 WRRS James Cook JC087
1880778Water sample data2013-06-06 19:45:0048.6485 N, 16.14267 WRRS James Cook JC087
1927879Water sample data2013-06-06 19:45:0048.6485 N, 16.14267 WRRS James Cook JC087
1880613Water sample data2013-06-07 08:36:0048.6485 N, 16.14283 WRRS James Cook JC087
1927714Water sample data2013-06-07 08:36:0048.6485 N, 16.14283 WRRS James Cook JC087
1880791Water sample data2013-06-08 03:42:0048.64865 N, 16.1434 WRRS James Cook JC087
1927880Water sample data2013-06-08 03:42:0048.64865 N, 16.1434 WRRS James Cook JC087
1880809Water sample data2013-06-08 10:26:0048.65067 N, 16.48833 WRRS James Cook JC087
1927892Water sample data2013-06-08 10:26:0048.65067 N, 16.48833 WRRS James Cook JC087
1880810Water sample data2013-06-09 07:18:0048.6485 N, 16.14283 WRRS James Cook JC087
1927911Water sample data2013-06-09 07:18:0048.6485 N, 16.14283 WRRS James Cook JC087
1880822Water sample data2013-06-09 15:07:0048.64847 N, 16.14132 WRRS James Cook JC087
1927923Water sample data2013-06-09 15:07:0048.64847 N, 16.14132 WRRS James Cook JC087
1880834Water sample data2013-06-09 19:08:0048.64 N, 16.143 WRRS James Cook JC087
1927935Water sample data2013-06-09 19:08:0048.64 N, 16.143 WRRS James Cook JC087
1880637Water sample data2013-06-10 03:46:0048.64867 N, 16.14283 WRRS James Cook JC087
1927738Water sample data2013-06-10 03:46:0048.64867 N, 16.14283 WRRS James Cook JC087
1880649Water sample data2013-06-10 08:35:0048.6485 N, 16.14283 WRRS James Cook JC087
1927751Water sample data2013-06-10 08:35:0048.6485 N, 16.14283 WRRS James Cook JC087
1880650Water sample data2013-06-11 08:53:0048.64917 N, 16.14317 WRRS James Cook JC087
1927763Water sample data2013-06-11 08:53:0048.64917 N, 16.14317 WRRS James Cook JC087
1880662Water sample data2013-06-13 04:43:0048.6485 N, 16.14283 WRRS James Cook JC087
1927775Water sample data2013-06-13 04:43:0048.6485 N, 16.14283 WRRS James Cook JC087
1880674Water sample data2013-06-13 08:38:0048.64867 N, 16.14283 WRRS James Cook JC087
1927787Water sample data2013-06-13 08:38:0048.64867 N, 16.14283 WRRS James Cook JC087
1880686Water sample data2013-06-14 04:16:0048.6485 N, 16.14283 WRRS James Cook JC087
1927799Water sample data2013-06-14 04:16:0048.6485 N, 16.14283 WRRS James Cook JC087
1880698Water sample data2013-06-14 08:41:0048.6485 N, 16.143 WRRS James Cook JC087
1927806Water sample data2013-06-14 08:41:0048.6485 N, 16.143 WRRS James Cook JC087
1880705Water sample data2013-06-14 11:43:0048.6485 N, 16.143 WRRS James Cook JC087
1927818Water sample data2013-06-14 11:43:0048.6485 N, 16.143 WRRS James Cook JC087
1920820Fluorescence or pigments2014-07-13 10:43:5849.02977 N, 16.31897 WFS Meteor M108
1778785Water column chemistry2014-07-15 23:59:1249.02977 N, 16.31897 WFS Meteor M108
1927984Water sample data2015-06-24 00:32:0049.02783 N, 16.415 WRRS Discovery DY032
1879544Water sample data2015-06-24 15:55:0049.04167 N, 16.41017 WRRS Discovery DY032
1927996Water sample data2015-06-24 15:55:0049.04167 N, 16.41017 WRRS Discovery DY032
1879556Water sample data2015-06-25 09:40:0048.84117 N, 16.522 WRRS Discovery DY032
1928011Water sample data2015-06-25 09:40:0048.84117 N, 16.522 WRRS Discovery DY032
1879568Water sample data2015-06-25 17:20:0048.94417 N, 16.59916 WRRS Discovery DY032
1927947Water sample data2015-06-25 17:20:0048.94417 N, 16.59916 WRRS Discovery DY032
1928023Water sample data2015-06-25 17:20:0048.94417 N, 16.59916 WRRS Discovery DY032
1879581Water sample data2015-06-25 21:12:0048.89167 N, 16.58556 WRRS Discovery DY032
1927959Water sample data2015-06-25 21:12:0048.89167 N, 16.58556 WRRS Discovery DY032
1928035Water sample data2015-06-25 21:12:0048.89167 N, 16.58556 WRRS Discovery DY032
1879593Water sample data2015-06-26 10:00:0048.84 N, 16.52583 WRRS Discovery DY032
1928047Water sample data2015-06-26 10:00:0048.84 N, 16.52583 WRRS Discovery DY032
1879600Water sample data2015-06-27 15:54:0049.074 N, 16.26133 WRRS Discovery DY032
1928059Water sample data2015-06-27 15:54:0049.074 N, 16.26133 WRRS Discovery DY032
1928060Water sample data2015-06-27 19:00:0049.07667 N, 16.25833 WRRS Discovery DY032
1928072Water sample data2015-06-27 22:00:0049.07367 N, 16.26383 WRRS Discovery DY032
1879612Water sample data2015-06-28 09:30:0049.01283 N, 16.3955 WRRS Discovery DY032
1879624Water sample data2015-06-29 15:20:0048.81917 N, 16.52067 WRRS Discovery DY032
1928084Water sample data2015-06-29 15:20:0048.81917 N, 16.52067 WRRS Discovery DY032
1879636Water sample data2015-06-30 20:21:0049.21278 N, 16.47028 WRRS Discovery DY032
1927960Water sample data2015-06-30 20:21:0049.21278 N, 16.47028 WRRS Discovery DY032
1928096Water sample data2015-06-30 20:21:0049.21278 N, 16.47028 WRRS Discovery DY032
1851006Water column chemistry2015-07-01 11:59:3849.03056 N, 16.37222 WRRS Discovery DY032
1879648Water sample data2015-07-01 14:10:0048.98567 N, 16.285 WRRS Discovery DY032
1928103Water sample data2015-07-01 14:10:0048.98567 N, 16.285 WRRS Discovery DY032
1850992Water column chemistry2015-07-01 23:58:0549.03056 N, 16.37222 WRRS Discovery DY032
1928115Water sample data2015-07-02 15:00:0048.68217 N, 17.059 WRRS Discovery DY032
1879661Water sample data2015-07-03 18:40:0049.18277 N, 16.60056 WRRS Discovery DY032
1927972Water sample data2015-07-03 18:40:0049.18277 N, 16.60056 WRRS Discovery DY032
1928127Water sample data2015-07-03 18:40:0049.18277 N, 16.60056 WRRS Discovery DY032
1874226Water sample data2016-04-20 08:55:0049.6017 N, 8.3605 WRRS Discovery DY050
1874238Water sample data2016-04-22 16:25:0049.0055 N, 16.397 WRRS Discovery DY050
1874251Water sample data2016-04-24 09:22:0049.00813 N, 16.453 WRRS Discovery DY050
1922826CTD or STD cast2016-04-24 15:00:0049.00738 N, 16.49232 WRRS Discovery DY050
1922838CTD or STD cast2016-04-24 15:00:0049.00738 N, 16.49232 WRRS Discovery DY050
1874263Water sample data2016-04-27 15:27:0049.00578 N, 16.39743 WRRS Discovery DY050
1920832Water column chemistry2016-04-28 12:20:2449.04717 N, 16.30117 WRRS Discovery DY050
1874275Water sample data2016-04-28 13:55:0049.00523 N, 16.39695 WRRS Discovery DY050
1874287Water sample data2016-04-29 16:19:0049.00535 N, 16.39745 WRRS Discovery DY050
1874299Water sample data2016-04-30 13:22:0049.00533 N, 16.39667 WRRS Discovery DY050
1874306Water sample data2016-05-01 19:39:0049.0055 N, 16.39683 WRRS Discovery DY050
1874318Water sample data2016-05-02 20:36:0049.0118 N, 16.39683 WRRS Discovery DY050
1874331Water sample data2016-05-05 13:30:0049.0053 N, 16.39702 WRRS Discovery DY050
1816715CTD or STD cast2017-04-16 20:39:3549.0544 N, 16.3395 WRRS Discovery DY077
1874343Water sample data2017-04-16 20:52:0049.05438 N, 16.33946 WRRS Discovery DY077
1816727CTD or STD cast2017-04-16 22:27:4849.0544 N, 16.3395 WRRS Discovery DY077
1816739CTD or STD cast2017-04-17 00:34:2049.0544 N, 16.3395 WRRS Discovery DY077
1874355Water sample data2017-04-17 02:51:0049.05433 N, 16.3395 WRRS Discovery DY077
1922863Water column chemistry2017-04-18 00:20:2549.04717 N, 16.30117 WRRS Discovery DY077
1922851Fluorescence or pigments2017-04-18 16:11:2749.04717 N, 16.30117 WRRS Discovery DY077
1816740CTD or STD cast2017-04-19 09:02:3348.9938 N, 16.3247 WRRS Discovery DY077
1874367Water sample data2017-04-19 09:18:0048.99381 N, 16.32473 WRRS Discovery DY077
1816752CTD or STD cast2017-04-19 12:22:3248.9528 N, 16.4322 WRRS Discovery DY077
1874379Water sample data2017-04-19 12:47:0048.95238 N, 16.43128 WRRS Discovery DY077
1816764CTD or STD cast2017-04-19 15:19:3749.0257 N, 16.4298 WRRS Discovery DY077
1816776CTD or STD cast2017-04-20 22:11:0648.9688 N, 16.4679 WRRS Discovery DY077
1874380Water sample data2017-04-21 00:03:0048.96882 N, 16.46792 WRRS Discovery DY077
1816788CTD or STD cast2017-04-21 05:22:4249.1176 N, 16.6171 WRRS Discovery DY077
1816807CTD or STD cast2017-04-21 08:55:2949.1881 N, 16.7005 WRRS Discovery DY077
1816819CTD or STD cast2017-04-21 12:35:5349.2009 N, 16.5667 WRRS Discovery DY077
1816820CTD or STD cast2017-04-22 16:26:2448.8358 N, 16.5213 WRRS Discovery DY077
1874392Water sample data2017-04-22 16:49:0048.83577 N, 16.52133 WRRS Discovery DY077
1816832CTD or STD cast2017-04-23 12:04:3149.0065 N, 16.3977 WRRS Discovery DY077
1816844CTD or STD cast2017-04-24 12:39:5148.9391 N, 16.2624 WRRS Discovery DY077
1816856CTD or STD cast2017-04-24 15:47:4848.9391 N, 16.2624 WRRS Discovery DY077
1816868CTD or STD cast2017-04-24 17:46:4348.9965 N, 16.3681 WRRS Discovery DY077
1816881CTD or STD cast2017-04-24 19:37:5048.9066 N, 16.3951 WRRS Discovery DY077
1816893CTD or STD cast2017-04-25 14:22:0448.9888 N, 16.3956 WRRS Discovery DY077
1874411Water sample data2017-04-25 15:06:0048.98882 N, 16.39555 WRRS Discovery DY077
1816900CTD or STD cast2017-04-26 12:01:4248.8679 N, 16.5862 WRRS Discovery DY077
1816912CTD or STD cast2017-04-26 14:56:1548.9147 N, 16.7024 WRRS Discovery DY077
1816924CTD or STD cast2017-04-26 18:01:1748.8255 N, 16.7048 WRRS Discovery DY077
1816936CTD or STD cast2017-04-28 08:48:3248.7853 N, 16.7799 WRRS Discovery DY077
1816948CTD or STD cast2017-04-28 10:57:3248.7487 N, 16.6749 WRRS Discovery DY077
1928987Water sample data2018-05-22 14:30:0049.00328 N, 16.3946 WRRS James Cook JC165
1928999Water sample data2018-05-23 14:58:0048.988 N, 16.38878 WRRS James Cook JC165
1929002Water sample data2018-05-25 07:38:0049.00407 N, 16.49312 WRRS James Cook JC165
1929014Water sample data2018-05-25 14:08:0048.99448 N, 16.4008 WRRS James Cook JC165
1929026Water sample data2018-05-27 14:17:0049.00638 N, 16.47153 WRRS James Cook JC165
1929038Water sample data2018-05-27 17:29:0049.00638 N, 16.47152 WRRS James Cook JC165
1929051Water sample data2018-05-29 14:08:0048.00093 N, 16.50327 WRRS James Cook JC165
1929063Water sample data2018-06-01 13:23:0049.00237 N, 16.50855 WRRS James Cook JC165
1929075Water sample data2018-06-01 16:44:0049.00235 N, 16.50855 WRRS James Cook JC165
1928188Water sample data2018-06-07 08:17:0048.94508 N, 16.8184 WRRS James Cook JC165
1929087Water sample data2018-06-07 12:21:0048.94508 N, 16.4267 WRRS James Cook JC165
1929099Water sample data2018-06-07 14:27:0048.94508 N, 16.4267 WRRS James Cook JC165