Metadata Report for BODC Series Reference Number 1777825
Metadata Summary
Problem Reports
Data Access Policy
Narrative Documents
Project Information
Data Activity or Cruise Information
Fixed Station Information
BODC Quality Flags
SeaDataNet Quality Flags
Metadata Summary
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Problem Reports
No Problem Report Found in the Database
Data Access Policy
Open Data
These data have no specific confidentiality restrictions for users. However, users must acknowledge data sources as it is not ethical to publish data without proper attribution. Any publication or other output resulting from usage of the data should include an acknowledgment.
If the Information Provider does not provide a specific attribution statement, or if you are using Information from several Information Providers and multiple attributions are not practical in your product or application, you may consider using the following:
"Contains public sector information licensed under the Open Government Licence v1.0."
Narrative Documents
Instrument Description for ES031, ES038, ES048 CTD
CTD Unit and Auxiliary Sensors
The CTD unit comprised a Sea-Bird Electronics 911plus with two pairs of temperature and conductivity sensors and a SBE43 oxygen sensor. The CTD frame also incorporated a Tritech altimeter.
Sampling device
A rosette sampling system equipped with 12-10 l General Oceanics sampling bottles was used to collect samples for oxygen isotopes and salinity measurements.
Sensor | Model | Serial Number |
---|---|---|
Pressure | - | 0480 |
Temperature | SBE3 plus | 2705, 2679: for casts 1 to 110 2705 and 4235: from cast 111 onwards |
Conductivity | SBE4 plus | 2222 and 2248 |
Oxygen | SBE43 | 43-0363 |
Altimeter | Tritech | 6196.112522 |
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.
BODC processing of Ernest Shackleton Cruise ES031, ES038, ES048 CTD Data
The data were sent to BODC as fully processed and calibrated casts. The originator's variables were matched against BODC codes and all data was transferred to BODC internal format, a subset of netcdf. There was no need to apply for unit conversions as originator's parameters were identical to the ones used on the BODC vocabulary.
Originator's Parameter Name | Units | Description | BODC Parameter Code | Units | Comments |
---|---|---|---|---|---|
Pressure | dbar | CTD pressure | PRESPR01 | dbar | - |
Temperature | °C | Temperature of the water body by CTD or STD | TEMPST01 | °C | - |
Salinity | - | Practical salinity of the water body by CTD and computation using UNESCO 1983 algorithm | PSALST01 | - | Generated by Sea-Bird software from CTD temperature and conductivity data |
- | - | Sigma-theta | SIGTPR01 | kg m-3 | Generated at BODC using the Fofonoff and Millard (1982) algorithm |
- | - | Potential temperature | POTMCV01 | °C | Generated by BODC using UNESCO Report 38 (1981) algorithm with parameters PSALST01 and TEMPST01 |
- | - | Conversion factor (volume to mass) | TOKGPR01 | °C | Generated by BODC using SIGTPR01 |
Reformatted CTD data were visually screened using the in-house editor EDSERPLO. No data values were edited or deleted. Flagging was achieved by modification of the associated quality control flag to 'M' for suspect values and 'N' for nulls.
Originator's processing document for Ernest Shackleton Cruise ES031, ES038, ES048
Originator's Data Processing
Sampling Strategy
A total of 117 CTD casts were performed throughout the cruise. Preventive measures to protect against ice forming on the sensors were in place, but despite the efforts, the SBE43 gave spurious values after freezing up. Both temperature sensors had to be replaced as they failed just before the last casts. The altimeter did not work properly throughout the cruise.
Salinity samples were collected in 200 ml bottles and sealed with a rubber cap, which was held in place with a crimped foil. These were used to calibrate the CTD data. The oxygen isotopes samples were collected in 20 ml bottles using the same sealing mechanism as described above.
The originator applied quality control procedures to the casts resulting in several cycles being assigned a Null flag at the start or end of the cast.
References
Benson, BB 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, NP and Millard, RC., 1983. Algorithms for computations of fundamental properties of seawater. UNESCO Technical Papers in Marine Science No. 44, 53pp.
UNESCO, 1981. Background papers and supporting data on the International Equation of State of Seawater 1980. UNESCO Technical Papers in Marine Science No. 38, 192pp
Project Information
No Project Information held for the Series
Data Activity or Cruise Information
Cruise
Cruise Name | ES033b |
Departure Date | 2009-03-13 |
Arrival Date | 2009-03-26 |
Principal Scientist(s) | Keith Nicholls (British Antarctic Survey) |
Ship | RRS Ernest Shackleton |
Complete Cruise Metadata Report is available here
Fixed Station Information
No Fixed Station Information held for the Series
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 |