Metadata Report for BODC Series Reference Number 1223533
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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Data Identifiers |
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Time Co-ordinates(UT) |
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Parameters |
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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
Sea-Bird SBE 37-SM MicroCAT
The SBE 37-SM MicroCAT is a high accuracy conductivity and temperature recorder (pressure optional). Designed for moorings and other long-duration, fixed-site deployments, MicroCATs have non-corroding titanium housings rated for operation to 7000 metres or pressure sensor full scale-range. Communication with the MicroCAT is over an internal, 3-wire, RS-232C link. The MicroCAT's aged and pressure-protected thermistor has a long history of exceptional accuracy and stability (typical drift is less than 0.002° per year). Electrical isolation of the conductivity electronics eliminates any possibility of ground-loop noise.
Specifications
Temperature (°C) | Conductivity (S m-1) | Optional Pressure | |
---|---|---|---|
Measurement Range | -5 to +35 | 0 to 7 (0 to 70 mS cm-1) | 0 to full scale range: 20 / 100 / 350 / 1000 / 2000 / 3500 / 7000 metres |
Initial accuracy | 0.002 | 0.0003 | 0.1% of full scale range |
Typical Stability | 0.0002 per month | 0.0003 per month | 0.05% of full scale range per year |
Resolution | 0.0001 | 0.00001 | 0.002% of full scale range |
Sensor Calibration | +1 to +32 | 0 to 6; physical calibration over range 2.6 to 6 S m-1, plus zero conductivity (air) | Ambient pressure to full scale range in 5 steps |
Memory | 8 Mbyte non-volatile FLASH memory | ||
Data Storage | Converted temperature and conductivity: 6 bytes per sample (3 bytes each) Time: 4 bytes per sample Pressure (optional): 5 bytes per sample | ||
Real-Time Clock | 32,768 Hz TCXO accurate to ±1 minutes year-1 | ||
Standard Internal Batteries | Nominal 10.6 Ampere-hour pack consisting of 12 AA lithium batteries. Provides sufficient capacity for more than 630,000 samples for a typical sampling scheme | ||
Housing | Titanium pressure case rated at 7000 metres | ||
Weight (without pressure) | In water: 2.3 kg In air: 3.8 kg |
Further information can be found via the following link: SBE 37-SM MicroCAT Datasheet
Data Processing Notes
Data submitted to BODC were transferred using standardised procedures and originator's parameters were matched to the BODC parameter vocabulary. Unit conversions were applied when originator's units did not match the ones specified on the dictionary.
Once data were transferred, several checks were performed on the file's header and data cycles. These include:
- Irregularities such as unfeasible values
- Inconsistencies between related information, namely depths of meter and sea bed (when available), times for mooring deployment and for start/end of data series, length of record or number of data cycles, cycle interval, clock error, parameters stated as measured and the parameters actually present in the data cycles
- Originator's comments on instruments/mooring performance
- Data quality
Data were inspected visually for anomalous values, spikes, jumps, effects of mooring "knock-down" and quality flags applied where appropriate. The term 'knock-down' refers to the situation when the 'drag' exerted on a mooring at high current speeds may cause instruments to tilt beyond the angle at which they are intended to operate. At this point the efficiency of the current sensors to accurately record the flow is reduced.
Inconsistencies between the characteristics of the data set and those of its neighbours are sought, and where necessary, documented. This covers inconsistencies in the following:
- Maximum and minimum values of parameters (spikes excluded)
- The orientation and symmetry of the current vector scatter plot
- The direction of rotation of the current vectors
- The approximate amplitude and periodicity of the tidal currents
- The occurrence of meteorological events
- The presence of water masses captured by similar instruments
Originator's Data processing
Sampling strategy
Sampling was carried out as part of the BAS LTMS (British Antarctic Survey Long Term Monitoring and Survey) until 2016. From 2016 onwards the moorings are split between 'The Ocean Regulation of Climate by Heat and Carbon Sequestration and Transports (ORCHESTRA)' project and 'Dynamics of the Orkney Passage Outflow (DynOPO)' project.
The projects involve the deployment of moorings CI1, CI2, OP1, OP2, OP3, OP4, OP5, OP6 and OP7 in the Southern Ocean, situated north of Coronation Island and the Orkney Passage in the Weddell and Scotia Sea.
Moorings CI1 and CI2 were deployed from 2005 to 2007 and moorings OP1, OP2, OP3, OP4, OP5 and OP6 have been continuously maintained since 2007 with the addition of OP7 in 2015.
SBE 37 and SBE39 instruments were deployed on the moorings. Data have been collected at variable intervals: 5 minutes interval on the Coronation Island moorings, 7.5 minute interval on the instruments deployed on OP2 and OP3 in 2007 and 15 minute intervals since then. Gaps in the series may be caused by either instruments not being recovered, or data not being collected due to instrument malfunction.
Data processing
Little information is known with regards to the exact details of the calibrations carried out on the mooring data. Data processing, visualisation and calibration were carried out through the use of scripts for Matlab version R2014b produced and ran by the originator.
An offset has been applied some of the channels. The values for each deployment/instrument/channel combination are shown in the table below:
Mooring | Time period (UT) | Depth (m) | Serial Number | Offset Applied | Channel |
---|---|---|---|---|---|
2009 - 2011 Deployment | |||||
OP3 | 2009-03-02 - 2011-02-25 | 1516 | 2956 | 0.-0.0036 | Conductivity |
2011 - 2013 Deployment | |||||
OP1 | 2011-03-26 - 2013-04-01 | 2170 | 7386 | 0.0136 | Conductivity |
OP1 | 2011-03-26 - 2013-04-01 | 2944 | 7385 | 0.0157 | Conductivity |
OP1 | 2011-03-26 - 2013-04-01 | 3633 | 7387 | 0.0121 | Conductivity |
OP2 | 2011-03-27 - 2013-03-31 | 1450 | 2707 | 0.0036 | Conductivity |
OP2 | 2011-03-27 - 2013-03-31 | 1594 | 2956 | 0.0071 | Conductivity |
OP2 | 2011-03-27 - 2013-03-31 | 1733 | 7384 | 0.0107 | Conductivity |
OP2 | 2011-03-27 - 2013-03-31 | 3090 | 7380 | 0.0079 | Conductivity |
OP4 | 2011-03-27 - 2013-03-03 | 2201 | 7383 | 0.0036 | Conductivity |
OP4 | 2011-03-27 - 2013-03-03 | 2935 | 7382 | 0.0086 | Conductivity |
OP6 | 2012-04-01 - 2013-03-30 | 2290 | 8267 | 0.0093 | Conductivity |
2013 - 2015 Deployment | |||||
OP1 | 2013-04-02 - 2015-03-20 | 2144 | 7386 | -6.0*10-4 -0.0018 | Temperature Conductivity |
OP1 | 2013-04-02 - 2015-03-20 | 2917 | 7387 | -4.0*10-4 0.0081 | Temperature Conductivity |
OP1 | 2013-04-02 - 2015-03-20 | 3605 | 7385 | 0.0091 | Conductivity |
OP2 | 2013-04-01 - 2015-03-20 | 1510 | 2956 | -0.0019 -0.0051 | Temperature Conductivity |
OP2 | 2013-04-01 - 2015-03-20 | 2269 | 7381 | 4.0*10-4 0.0018 | Temperature Conductivity |
OP2 | 2013-04-01 - 2015-03-20 | 3002 | 7380 | 9.0*10-4 0.0032 | Temperature Conductivity |
OP3 | 2013-04-01 - 2015-03-20 | 1450 | 2707 | 9.0*10-4 1.4*10-4 | Temperature Conductivity |
OP4 | 2013-04-03 - 2015-03-21 | 2196 | 7382 | -0.50 0.0011 0.0041 | Pressure Temperature Conductivity |
OP4 | 2013-04-03 - 2015-03-21 | 2930 | 7383 | 9.0*10-4 0.0024 | Temperature Conductivity |
OP6 | 2013-03-30 - 2015-03-21 | 2321 | 8267 | 0.0011 0.0154 | Temperature Conductivity |
2015 - 2017 Deployment | |||||
OP1 | 2015-04-02 - 2017-04-05 | 3590 | 7316 | 0.8 0.0017 0.0003 | Pressure Conductivity Temperature |
OP1 | 2015-04-02 - 2017-04-05 | 3510 | 7297 | -1 0.0035 0.0004 | Pressure Conductivity Temperature |
OP1 | 2015-04-02 - 2017-04-05 | 4310 | 7314 | 0.3 -0.0028 0.0009 | Pressure Conductivity Temperature |
OP1 | 2015-04-02 - 2017-04-05 | 3310 | 7299 | -0.0003 0.0004 | Conductivity Temperature |
OP1 | 2015-04-02 - 2017-04-05 | 3210 | 7294 | 0.1 0.0005 0.0004 | Pressure Conductivity Temperature |
OP1 | 2015-04-02 - 2017-04-05 | 3110 | 7311 | -0.7 -0.005 0.0004 | Pressure Conductivity Temperature |
OP1 | 2015-04-02 - 2017-04-05 | 3010 | 8076 | 0.4 -0.0045 0.0016 | Pressure Conductivity Temperature |
OP1 | 2015-04-02 - 2017-04-05 | 2910 | 7310 | -0.0035 0.0002 | Conductivity Temperature |
OP1 | 2015-04-02 - 2017-04-05 | 2810 | 7302 | -0.3 -0.0017 0.0014 | Pressure Conductivity Temperature |
OP1 | 2015-04-02 - 2017-04-05 | 2610 | 9379 | -0.2 0.001 0.0061 | Pressure Conductivity Temperature |
OP1 | 2015-04-02 - 2017-04-05 | 2509 | 7307 | -0.4 -0.0015 -0.0003 | Pressure Conductivity Temperature |
OP1 | 2015-04-02 - 2017-04-05 | 2260 | 7313 | -3.8 -0.0033 0.0006 | Pressure Conductivity Temperature |
OP1 | 2015-04-02 - 2017-04-05 | 2110 | 9394 | -1.5 -0.0031 0.0005 | Pressure Conductivity Temperature |
OP1 | 2015-04-02 - 2017-04-05 | 1960 | 7309 | 0.0007 -0.0002 | Conductivity Temperature |
OP1 | 2015-04-02 - 2017-04-05 | 1810 | 7308 | -0.2 0.0013 -0.0009 | Pressure Conductivity Temperature |
OP2 | 2015-04-04 - 2017-04-14 | 2991 | 7288 | -0.5 -0.0058 0.0002 | Pressure Conductivity Temperature |
OP2 | 2015-04-04 - 2017-04-14 | 2808 | 7290 | -0.0017 0.0002 | Conductivity Temperature |
OP2 | 2015-04-04 - 2017-04-14 | 2708 | 7291 | -0.5 -0.0025 0.0002 | Pressure Conductivity Temperature |
OP2 | 2015-04-04 - 2017-04-14 | 2608 | 7289 | -0.5 -0.0005 0.0002 | Pressure Conductivity Temperature |
OP2 | 2015-04-04 - 2017-04-14 | 2408 | 7292 | 0.5 -0.0036 -0.0001 | Pressure Conductivity Temperature |
OP2 | 2015-04-04 - 2017-04-14 | 2258 | 7293 | -0.0038 0.0001 | Conductivity Temperature |
OP2 | 2015-04-04 - 2017-04-14 | 2108 | 7295 | 0.5 -0.0006 0.0006 | Pressure Conductivity Temperature |
OP2 | 2015-04-04 - 2017-04-14 | 1958 | 8075 | -0.0045 0.0006 | Conductivity Temperature |
OP2 | 2015-04-04 - 2017-04-14 | 1808 | 7303 | 0.1 0.015 0.0001 | Pressure Conductivity Temperature |
OP2 | 2015-04-04 - 2017-04-14 | 1658 | 7382 | 0.003 0.0016 | Conductivity Temperature |
OP2 | 2015-04-04 - 2017-04-14 | 1508 | 7387 | 0.004 0.0002 | Conductivity Temperature |
OP3 | 2015-04-03 - 2017-04-15 | 1230 | 4897 | 15.2261 | Pressure |
OP3 | 2015-04-02 - 2017-04-03 | 1722 | 7386 | -0.003 0.0001 | Conductivity Temperature |
OP3 | 2015-04-02 - 2017-04-03 | 1439 | 7383 | 0.0026 0.0015 | Conductivity Temperature |
OP4 | 2015-04-02 - 2017-04-07 | 2931 | 2956 | 9 -0.0056 -0.0012 | Pressure Conductivity Temperature |
OP4 | 2015-04-02 - 2017-04-07 | 1838 | 2707 | -1 -0.0018 -0.0003 | Pressure Conductivity Temperature |
OP5 | 2015-04-02 - 2017-04-06 | 3377 | 12458 | -1.6 0.0005 0.001 | Pressure Conductivity Temperature |
OP5 | 2015-04-02 - 2017-04-06 | 3297 | 12456 | -1.2 0.0005 0.0015 | Pressure Conductivity Temperature |
OP5 | 2015-04-02 - 2017-04-06 | 3197 | 12455 | -0.4 0.0005 0.0006 | Pressure Conductivity Temperature |
OP5 | 2015-04-02 - 2017-04-06 | 3097 | 12464 | -0.7 0.0005 0.0011 | Pressure Conductivity Temperature |
OP5 | 2015-04-02 - 2017-04-06 | 2947 | 12469 | -1.4 0.0005 0.0009 | Pressure Conductivity Temperature |
OP5 | 2015-04-02 - 2017-04-06 | 2797 | 12476 | -1.5 0.0005 0.0007 | Pressure Conductivity Temperature |
OP5 | 2015-04-02 - 2017-04-06 | 2647 | 12475 | -0.9 0.0005 0.0015 | Pressure Conductivity Temperature |
OP5 | 2015-04-02 - 2017-04-06 | 2497 | 12473 | -0.9 0.0005 0.0015 | Pressure Conductivity Temperature |
OP6 | 2015-04-02 - 2017-04-06 | 2319 | 8267 | 0.012 0.001 | Conductivity Temperature |
OP7 | 2015-04-02 - 2017-04-09 | 3016 | 7298 | 0.2 0.0024 0.0002 | Pressure Conductivity Temperature |
OP7 | 2015-04-02 - 2017-04-09 | 2836 | 12462 | -1.7 -0.0008 0.0012 | Pressure Conductivity Temperature |
OP7 | 2015-04-02 - 2017-04-09 | 2736 | 7385 | 0.0025 0.0004 | Pressure Conductivity Temperature |
OP7 | 2015-04-02 - 2017-04-09 | 2636 | 7312 | -0.2 0.0008 0.0008 | Pressure Conductivity Temperature |
OP7 | 2015-04-02 - 2017-04-09 | 2436 | 7304 | -0.4 -0.0005 0.0008 | Pressure Conductivity Temperature |
OP7 | 2015-04-02 - 2017-04-09 | 2286 | 7381 | 0.003 0.0009 | Conductivity Temperature |
OP7 | 2015-04-02 - 2017-04-09 | 2136 | 7305 | -0.3 0.0032 0.0009 | Pressure Conductivity Temperature |
OP7 | 2015-04-02 - 2017-04-09 | 1986 | 7306 | 0.0053 0.0008 | Conductivity Temperature |
OP7 | 2015-04-02 - 2017-04-09 | 1836 | 7315 | 0.5928 0.0045 0.0012 | Pressure Conductivity Temperature |
OP7 | 2015-04-02 - 2017-04-09 | 1686 | 7380 | 0.0045 0.0013 | Conductivity Temperature |
OP7 | 2015-04-02 - 2017-04-09 | 1536 | 12463 | -1 -0.0015 0.0012 | Pressure Conductivity Temperature |
2017 - 2019 Deployment | |||||
OP1 | 2017-04-18 - 2019-01-29 | 3674 | 7382 | 0 0.0033 0.0011 | Pressure Conductivity Temperature |
OP1 | 2017-04-18 - 2019-01-29 | 2984 | 7381 | 0 1.0*10-3 4.0*10-4 | Pressure Conductivity Temperature |
OP1 | 2017-04-18 - 2019-01-29 | 2630 | 4413 | - | - |
OP1 | 2017-04-18 - 2019-01-29 | 2211 | 7380 | 0 0.0028 8.0*10-4 | Pressure Conductivity Temperature |
OP1 | 2017-04-18 - 2019-01-29 | 1877 | 4409 | - | - |
OP2 | 2017-04-18 - 2019-01-27 | 3037 | 7386 | 0 -0.0058 -3.0*10-4 | Pressure Conductivity Temperature |
OP2 | 2017-04-18 - 2019-01-27 | 2333 | 7385 | 0 -7.0*10-4 0 | Pressure Conductivity Temperature |
OP2 | 2017-04-18 - 2019-01-27 | 1937 | 0083 | - | - |
OP2 | 2017-04-18 - 2019-01-27 | 1538 | 7383 | 0 0.0030 0.0012 | Pressure Conductivity Temperature |
OP3 | 2017-04-19 - 2019-01-29 | 1718 | 8541 | 1 0.0022 4.0*10-4 | Pressure Conductivity Temperature |
OP3 | 2017-04-19 - 2019-01-29 | 1718 | 8540 | 1 7.0*10-4 4.0*10-4 | Pressure Conductivity Temperature |
OP4 | 2017-04-21 - 2019-01-29 | 2930 | 2678 | -1.5 5.0*10-4 4.0*10-4 | Pressure Conductivity Temperature |
OP4 | 2017-04-21 - 2019-01-29 | 2200 | 4713 | - | - |
OP4 | 2017-04-21 - 2019-01-29 | 1842 | 4418 | - | - |
OP5 | 2017-04-19 - 2019-01-29 | 3369 | 7387 | 0 0.0022 -3.0*10-4 | Pressure Conductivity Temperature |
OP5 | 2017-04-19 - 2019-01-29 | 2988 | 4716 | - | - |
OP6 | 2017-04-20 - 2019-01-30 | 2292 | 8267 | -1.0*10-3 1.0*10-3 | Conductivity Temperature |
Several instruments deployed in the 2013/15 period show evidence of knock-down but the data colleaction seems to be unnafected. According to the originator some of the moorings were deployed with insufficient buyoancy which caused the knockdowns. These instances are especially visible on moorings OP1 and OP2, Series Reference number 1840205, 1840229, 1840254, 1840266 and 1840278
Several instruments deployed in the 2015/17 period did not have a pressure sensor and used inferred pressure calculated from the closest neigbhouring pressure sensor. This includes five SBE39 instruments (s/n 4413, 4716, 4713, 4418 and 4409) and one SBE37 instrument (s/n 8267).
Several instruments deployed in the 2017/19 period did not have a pressure sensor, therefore no pressure channel was transferred with the data and only a nominal depth is used in the metadata. This includes all SBE39 instruments (s/n 4413, 4409, 0083, 4713, 4418 and 4716) and one SBE37 instrument (s/n 8267).
General Data Screening carried out by BODC
BODC screen both the series header qualifying information and the parameter values in the data cycles themselves.
Header information is inspected for:
- Irregularities such as unfeasible values
- Inconsistencies between related information, for example:
- Times for instrument deployment and for start/end of data series
- Length of record and the number of data cycles/cycle interval
- Parameters expected and the parameters actually present in the data cycles
- Originator's comments on meter/mooring performance and data quality
Documents are written by BODC highlighting irregularities which cannot be resolved.
Data cycles are inspected using time or depth series plots of all parameters. Currents are additionally inspected using vector scatter plots and time series plots of North and East velocity components. These presentations undergo intrinsic and extrinsic screening to detect infeasible values within the data cycles themselves and inconsistencies as seen when comparing characteristics of adjacent data sets displaced with respect to depth, position or time. Values suspected of being of non-oceanographic origin may be tagged with the BODC flag denoting suspect value; the data values will not be altered.
The following types of irregularity, each relying on visual detection in the plot, are amongst those which may be flagged as suspect:
- Spurious data at the start or end of the record.
- Obvious spikes occurring in periods free from meteorological disturbance.
- A sequence of constant values in consecutive data cycles.
If a large percentage of the data is affected by irregularities then a Problem Report will be written rather than flagging the individual suspect values. Problem Reports are also used to highlight irregularities seen in the graphical data presentations.
Inconsistencies between the characteristics of the data set and those of its neighbours are sought and, where necessary, documented. This covers inconsistencies such as the following:
- Maximum and minimum values of parameters (spikes excluded).
- The occurrence of meteorological events.
This intrinsic and extrinsic screening of the parameter values seeks to confirm the qualifying information and the source laboratory's comments on the series. In screening and collating information, every care is taken to ensure that errors of BODC making are not introduced.
Project Information
No Project Information held for the Series
Data Activity or Cruise Information
Data Activity
Start Date (yyyy-mm-dd) | 2012-04-02 |
End Date (yyyy-mm-dd) | 2013-03-30 |
Organization Undertaking Activity | British Antarctic Survey |
Country of Organization | United Kingdom |
Originator's Data Activity Identifier | OP6 |
Platform Category | subsurface mooring |
Orkney Passage mooring 6 (OP6)
The mooring was deployed at the following positions:
Organisation Undertaking Activity | British Antarctic Survey, Cambridge |
---|---|
Country of Organisation | United Kingdom |
Originator's Data Activity Identifier | OP6 |
Platform Category | Subsurface mooring |
Latitude (+ve N) | -60.5623 |
Longitude (+ve E) | -41.6322 |
Water Depth (m) | 2309 |
The mooring was deployed on the Orkney Passage on cruise JR20120326 (JR254E, JR257, JR272A) on 02 April 2012 and recovery was done on cruise JR20130317 (JR272B, JR273A, JR281, UKD-4) on 30 March 2013.
The table below lists the instruments deployed on this mooring:
Instrument type | Serial Number | Data start (UT) | Data end (UT) | Instrument depth (m) |
---|---|---|---|---|
Aquadopp | 9250 | 2012-04-02 20:15:00 | 2013-03-30 10:30:00 | 2009 |
Aquadopp | 9264 | 2012-04-02 20:15:00 | 2013-03-30 10:30:00 | 2259 |
Sea Bird SBE37 | 8267 | 2012-04-02 20:15:00 | 2013-03-30 10:29:47 | 2290 |
Related Data Activity activities are detailed in Appendix 1
Cruise
Cruise Name | JR20120327 (JR254E, JR257, JR272A) |
Departure Date | 2012-03-27 |
Arrival Date | 2012-04-24 |
Principal Scientist(s) | Claire S Allen (British Antarctic Survey), Hugh J Venables (British Antarctic Survey), Margaret J Yelland (National Oceanography Centre, Southampton) |
Ship | RRS James Clark Ross |
Complete Cruise Metadata Report is available here
Fixed Station Information
Fixed Station Information
Station Name | Orkney Passage OP6 |
Category | Offshore location |
Latitude | 60° 33.74' S |
Longitude | 41° 37.93' W |
Water depth below MSL | 2309.0 m |
Orkney Passage OP6 site
Site OP6 is part of the Orkney Passage mooring array which is an activity covered by the Long Term Monitoring and Survey British Antarctic Survey's (BAS) programme. The data collection is the result of an ongoing collaboration between BAS and the Lamont-Doherty Earth Observatory (LDEO).
This site has been occupied since 2012, the recovery/deployment history, including position details, is presented below:
Deployed | Recovered | |||||
---|---|---|---|---|---|---|
Year | Cruise | Year | Cruise | Latitude (+veN) | Longitude (+ve E) | Water Depth (m) |
2012 | JR20120326 (JR254E, JR257, JR272A) | 2013 | JR20130317 (JR272B, JR273A, JR281, UKD-4) | -60.5623 | -41.6322 | 2309 |
2013 | JR20130317 (JR272B, JR273A, JR281, UKD-4) | 2015 | JR20150309 (JR272D, JR310) | -60.5629 | -41.6327 | 2309 |
2015 | JR20150309 (JR272D, JR310) | 2017 | JR16005 | -60.5621 | -41.6339 | 2338 |
Detailed information for each deployment can be accessed from the OP6 Data Activity document.
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 |
B | nominal value |
Q | value below limit of quantification |
Appendix 1: OP6
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 Identifier | Data Category | Start date/time | Start position | Cruise |
---|---|---|---|---|
1362834 | Currents -subsurface Eulerian | 2012-04-02 20:15:00 | 60.56315 S, 41.63217 W | RRS James Clark Ross JR20120327 (JR254E, JR257, JR272A) |
1362846 | Currents -subsurface Eulerian | 2012-04-02 20:15:00 | 60.56315 S, 41.63217 W | RRS James Clark Ross JR20120327 (JR254E, JR257, JR272A) |
Appendix 2: Orkney Passage OP6
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 Identifier | Data Category | Start date/time | Start position | Cruise |
---|---|---|---|---|
1362834 | Currents -subsurface Eulerian | 2012-04-02 20:15:00 | 60.56315 S, 41.63217 W | RRS James Clark Ross JR20120327 (JR254E, JR257, JR272A) |
1362846 | Currents -subsurface Eulerian | 2012-04-02 20:15:00 | 60.56315 S, 41.63217 W | RRS James Clark Ross JR20120327 (JR254E, JR257, JR272A) |
1840948 | Currents -subsurface Eulerian | 2013-03-30 19:15:00 | 60.56278 S, 41.63393 W | RRS James Clark Ross JR20130317 (JR252B, JR272B, JR273A, JR281, UKD-4) |
1840371 | Hydrography time series at depth | 2013-03-30 19:15:01 | 60.56278 S, 41.63393 W | RRS James Clark Ross JR20130317 (JR252B, JR272B, JR273A, JR281, UKD-4) |
1840936 | Currents -subsurface Eulerian | 2013-03-30 19:15:16 | 60.56278 S, 41.63393 W | RRS James Clark Ross JR20130317 (JR252B, JR272B, JR273A, JR281, UKD-4) |
1814106 | CTD or STD cast | 2015-03-21 06:42:08 | 60.5711 S, 41.6281 W | RRS James Clark Ross JR20150309 (JR272D, JR310) |
1805766 | Currents -subsurface Eulerian | 2015-03-21 06:42:31 | 60.57106 S, 41.6281 W | RRS James Clark Ross JR20150309 (JR272D, JR310) |
1814616 | CTD or STD cast | 2015-04-06 09:52:47 | 60.5624 S, 41.633 W | RRS James Clark Ross JR20150309 (JR272D, JR310) |
1806272 | Currents -subsurface Eulerian | 2015-04-06 09:53:02 | 60.56171 S, 41.63373 W | RRS James Clark Ross JR20150309 (JR272D, JR310) |
1894762 | Currents -subsurface Eulerian | 2015-04-06 13:40:00 | 60.56212 S, 41.63388 W | RRS James Clark Ross JR20150309 (JR272D, JR310) |
1894774 | Currents -subsurface Eulerian | 2015-04-06 13:40:00 | 60.56212 S, 41.63388 W | RRS James Clark Ross JR20150309 (JR272D, JR310) |
1881272 | Hydrography time series at depth | 2015-04-06 13:40:01 | 60.56212 S, 41.63388 W | RRS James Clark Ross JR20150309 (JR272D, JR310) |
2022408 | Currents -subsurface Eulerian | 2017-04-20 14:40:00 | 60.56277 S, 41.63182 W | RRS James Clark Ross JR16005 |
2022421 | Currents -subsurface Eulerian | 2017-04-20 14:40:00 | 60.56277 S, 41.63182 W | RRS James Clark Ross JR16005 |
2022549 | Hydrography time series at depth | 2017-04-20 14:40:01 | 60.56277 S, 41.63182 W | RRS James Clark Ross JR16005 |