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Metadata Report for BODC Series Reference Number 770411

Metadata Summary
Problem Reports
Data Access Policy
Narrative Documents
Project Information
Data Activity or Cruise Information
Fixed Station Information
BODC Quality Flags

Metadata Summary

Data Description

Data Category

Hydrography time series at depth

Instrument Type

Name	Categories
Sea-Bird SBE 16Plus SEACAT C-T Recorder	water temperature sensor; salinity sensor

Instrument Mounting

fixed benthic node

Originating Country

United Kingdom

Originator

Mr John Howarth

Originating Organization

Proudman Oceanographic Laboratory (now National Oceanography Centre, Liverpool)

Processing Status

banked

Project(s)

Oceans 2025
Oceans 2025 Theme 10
Oceans 2025 Theme 10 SO11

Data Identifiers

Originator's Identifier	MX04848.1024
BODC Series Reference	770411

Time Co-ordinates(UT)

Start Time (yyyy-mm-dd hh:mm)	2008-01-11 10:30
End Time (yyyy-mm-dd hh:mm)	2008-03-13 21:20
Nominal Cycle Interval	600.0 seconds

Spatial Co-ordinates

Latitude	53.53283 N ( 53° 32.0' N )
Longitude	3.36250 W ( 3° 21.7' W )
Positional Uncertainty	0.01 to 0.05 n.miles
Minimum Sensor Depth	21.9 m
Maximum Sensor Depth	21.9 m
Minimum Sensor Height	0.5 m
Maximum Sensor Height	0.5 m
Sea Floor Depth	22.4 m
Sensor Distribution	Fixed common depth - All sensors are grouped effectively at the same depth which is effectively fixed for the duration of the series
Sensor Depth Datum	Instantaneous - Depth measured below water line or instantaneous water body surface
Sea Floor Depth Datum	Instantaneous - Depth measured below water line or instantaneous water body surface

Parameters

BODC CODE	Rank	Units	Title
AADYAA01	1	Days	Date (time from 00:00 01/01/1760 to 00:00 UT on day)
AAFDZZ01	1	Days	Time (time between 00:00 UT and timestamp)
ACYCAA01	1	Dimensionless	Sequence number
CNDCPR01	1	Siemens per metre	Electrical conductivity of the water body by in-situ conductivity cell
PREXPS01	1	Decibars	Pressure (measured variable) exerted by the water body by fixed in-situ pressure sensor and corrected to read zero at sea level
PSALPR01	1	Dimensionless	Practical salinity of the water body by conductivity cell and computation using UNESCO 1983 algorithm
TEMPPR01	1	Degrees Celsius	Temperature of the water body
TURBSP01	1	Nephelometric Turbidity Units	Turbidity of the water body by SeaPoint turbidity meter and laboratory calibration against formazin

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

POLRIG1024 Sea-Bird 16plus 04848 Data Quality Report

Pressure

There are a number of sections in the dataset (most noticeably on 01/02/08, 01/03/08 and between 12/03/08 - 13/03/08) where it appears the sensor is becoming saturated at values greater than 120.48 NTU, possibly as a result of fouling of the transmission window. Turbidity values do not reach a clear peak however so data have not been flagged but should still be used with caution.

Data Access Policy

Public domain 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.

The recommended acknowledgment is

"This study uses data from the data source/organisation/programme, provided by the British Oceanographic Data Centre and funded by the funding body."

Narrative Documents

Sea-Bird SBE 16plus SEACAT with RS-232 Interface

The SBE 16plus is a high accuracy conductivity and temperature recorder (pressure optional). It is designed for moorings and other long-duration, fixed-site deployments. The SBE 16plus has 6 amplified A/D input channels and conditioned power of 500 ma is avaliable for auxiliary sensors, dissolved oxygen, turbidity, fluorescence, PAR etc.

Specifications

	Temperature (°C)	Conductivity (S m^-1)	Optional Pressure - strain Gauge	Optional Pressure - Quartz
Measurement Range	-5 to +35	0 to 9	0 to full scale range: 20 / 100 / 350 / 600 / 1000 / 2000 / 3500 / 7000 metres	0 to full scale range: 20 / 60 / 130 / 200 / 270 / 680 / 1400 / 2000 / 4200 / 7000 / 10500 metres
Initial accuracy	0.005	0.0005	0.1% of full scale range	0.02% of full scale range
Typical Stability	0.0002 month^-1	0.0003 month^-1	0.05% of full scale range	0.025% of full scale range
Resolution	0.0001	0.00005 typical	0.002% of full scale range	Depends on sample integration, 0.0006% of full scale range for 1 s integration
Sensor Calibration	+1 to +32	0 to 9; physical calibration over range 2.6 to 65 m^-1 plus zero conductivity (air)	Ambient pressure to full scale range in 5 steps	Ambient pressure to full scale range in 5 steps
Memory	8 MB FLASH memory
Data Storage	Converted temperature and conductivity: 6 bytes per sample Time: 4 bytes per sample Pressure (optional): 5 bytes per sample
Real-Time Clock	Watch-crystal type 32,768 Hz; accuracy (±1 minutes/year)
Standard Internal Batteries	9 alkaline D-cells. Provides sufficient capacity for 145,000 samples for a CTD and 5M pump
Housing	Titanium pressure case rated at 7000 metres
Weight (without pressure)	In water: 8.6 kg In air: 13.7 kg

Further information can be found via the following link:Official SBE 16plus Manual

SeaBird 16plus Data Processing

Data Originator's Processing

The following procedures were carried out before the data were supplied to BODC.

Data were downloaded from the instrument logger, and factory calibrations were applied to the pressure, conductivity and temperature channels and to the turbidity sensor when fitted.

BODC Data Processing and Quality Control

Pressure sensors: the data record was compared with the pressure computed from the water depth on deployment and rig geometry. The time series was visually screened for evidence of rig movement (e.g. trawling) and excessive leaning (perhaps due to strong currents).

Temperature sensors: the data record was compared with other temperature data taken in the vicinity and checked for agreement within a few tenths of a degree Celsius. Obvious spikes were flagged. Periods of excessively noisy data were noted.

Conductivity sensors: salinity (PSS-78) was computed during transfer using the Matlab sw_salt routine:

salinity=sw_salt((cond(*10)/sw_c3515,temp*1.00024,pres)

where

cond = in-situ conductivity

sw_c3515 = Matlab function that returns conductivity at Salinity = 35, Temperature = 15 degrees Celsius (ITPS-68) and Pressure = 0 db

temp = in-situ temperature (ITS-90)

1.00024 = factor to convert temperature from ITS-90 into IPTS-68 (http://www.ices.dk/ocean/procedures/its.htm), which is required for the calculation of salinity using this routine.

pres = pressure. If pressure was present as a channel, the routine used pressure from this source. However, users should note: If pressure was not present, a nominal pressure was computed from the instrument depth and latitude and this constant was used in the calculation of salinity.

Where turbidity sensors were fitted: the data record was compared with other turbidity data taken in the vicinity and checked for agreement. Obvious spikes were flagged along with any periods where the instrument became saturated (due to bio-fouling etc). Periods of excessively noisy data were noted.

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

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

Who funds the programme?

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

Who is involved in the programme?

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

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

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

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

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

What is the programme about?

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

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

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

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

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

When is the programme active?

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

Brief summary of the programme fieldwork/data

Programme fieldwork and data collection are to be achieved through:

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

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

Oceans 2025 Theme 10

Oceans 2025 is a strategic marine science programme, bringing marine researchers together to increase people's knowledge of the marine environment so that they are better able to protect it for future generations.

Theme 10: Integration of Sustained Observations in the Marine Environment spans all marine domains from the sea-shore to the global ocean, providing data and knowledge on a wide range of ecosystem properties and processes (from ocean circulation to biodiversity) that are critical to understanding Earth system behaviour and identifying change. They have been developed not merely to provide long-term data sets, but to capture extreme or episodic events, and play a key role in the initialisation and validation of models. Many of these SOs will be integrated into the newly developing UK Marine Monitoring Strategy - evolving from the Defra reports Safeguarding our Seas (2002) and Charting Progress (2005), thus contributing to the underpinning knowledge for national marine stewardship. They will also contribute to the UK GOOS Strategic Plan (IACMST, 2006) and the Global Marine Assessment.

Weblink: http://www.oceans2025.org/

Oceans 2025 Theme 10, Sustained Observation Activity 11: Liverpool Bay and Irish Sea Coastal Observatory

Sustained, systematic observations of the ocean and continental shelf seas at appropriate time and space scales allied to numerical models are key to understanding and prediction. In shelf seas these observations address issues as fundamental as 'what is the capacity of shelf seas to absorb change?' encompassing the impacts of climate change, biological productivity and diversity, sustainable management, pollution and public health, safety at sea and extreme events. Advancing understanding of coastal processes to use and manage these resources better is challenging; important controlling processes occur over a broad range of spatial and temporal scales which cannot be simultaneously studied solely with satellite or ship-based platforms.

Considerable effort has been spent by the Proudman Oceangraphic Laboratory (POL) in the years 2001 - 2006 in setting up an integrated observational and now-cast modelling system in Liverpool Bay (see Figure), with the recent POL review stating the observatory was seen as a leader in its field and a unique 'selling' point of the laboratory. Cost benefit analysis (IACMST, 2004) shows that benefits really start to accrue after 10 years. In 2007 - 2012 exploitation of (i) the time series being acquired, (ii) the model-data synthesis and (iii) the increasingly available quantities of real-time data (e.g. river flows) can be carried out through Sustained Observation Activity (SO) 11, to provide an integrated assessment and short term forecasts of the coastal ocean state.

BODC image

Overall Aims and Purpose of SO 11

To continue and enlarge the scope of the existing coastal observatory in Liverpool Bay to routinely monitor the northern Irish Sea
To develop the synthesis of measurements and models in the coastal ocean to optimize measurement arrays and forecast products. Driving forward shelf seas' operational oceanography with the direct objective of improving the national forecasting capability, expressed through links to the National Centre for Ocean Forecasting (NCOF)
To exploit the long time-series of observations and model outputs to: a) identify the roles of climate and anthropogenic inputs on the coastal ocean's physical and biological functioning (including impacts of nutrient discharges, offshore renewable energy installations and fishing activity) taking into consideration the importance of events versus mean storms / waves, river discharge / variable salinity stratification / horizontal gradients; b) predict the impacts of climate change scenarios; and c) provide new insights to Irish Sea dynamics for variables either with seasonal cycles and interannual variability, or which show weak or no seasonal cycles
To provide and maintain a 'laboratory' within which a variety of observational and model experiments can be undertaken (Oceans 2025 Themes 3, 6, 8, 9), including capture of extreme events
Demonstrate the value of an integrated approach in assessment and forecasting
Demonstrate the coastal observatory as a tool for marine management strategies through collaboration with the Environment Agency (EA), Department for Environment, Food and Rural Affairs (DEFRA), Joint Nature Conservation Commmittee (JNCC), English Nature (EN), Department of Agriculture and Rural Development (DARD), and Local Authorities, providing management information pertinent to policy (e.g. Water Framework Directive)

Measurement and Modelling Activities

East Mooring Site: Bottom frame with full suite of physical measurements (high frequency Acoustic Doppler Current Profiler (ADCP), conductivity, temperature, turbidity and fluorescence), a Centre for Environment, Fisheries and Aquaculture Science (CEFAS) directional wavebuoy, and a CEFAS Smartbuoy collecting surface properties including salinity, temperature, turbidity, nutrients, irradiance and chlorophyll. All transmit data in real-time via Orbcomm. The Smartbuoy also collects daily water samples.
West Mooring Site: Bottom frame with full suite of physical measurements (high frequency ADCP, conductivity, temperature, turbidity and fluorescence), CEFAS Smartbuoy.
Spatial Survey: Four - six week intervals (determined by biofouling of optical sensors). Spatial surveys comprise of vertical profiles of CTD, suspended particulate material (SPM), some bed sediment sampling and surface and bed nutrients, phytoplankton, zooplankton.
Ferry: The Birkenhead - Belfast ferry samples near surface (5 m depth) temperature, salinity, turbidity, chlorophyll, with data transmitted by Orbcomm. The route is scientifically varied passing through six completely different hydrodynamic regions, which significantly impact on their ecological function.
Tide gauges: Real-time data are obtained from tide gauges operated by Mersey Docks and Harbour Company (MDHC) and the UK tide gauge network.
Satellite imagery: Weekly composite satellite data, Advanced Very High Resolution Radiometer (AVHRR) sea surface temperature (SST) and ocean colour (chlorophyll and suspended sediment), are provided by the Remote Sensing Data Analysis Service (RSDAS) based at Plymouth Marine Laboratory (PML).
HF radar: A phased array HF radar system (a 12-16MHz WERA HF radar) measuring surface currents and waves with maximum range 75km at a resolution of 4km for sea surface currents and for 2-D wave spectra.
Meteorology station: With web camera, located on Hilbre Island at the mouth of the Dee Estuary
Operational models: The Coastal Observatory uses Proudman Oceanographic Laboratory Coastal Ocean Modelling System (POLCOMS), which is part of Oceans 2025 Theme 9.

More detailed information on this Work Package is available at pages 32 - 35 of the official Oceans 2025 Theme 10 document: Oceans 2025 Theme 10

Weblink: http://www.oceans2025.org/

References:

IACMST., 2004. The Economics of Sustained Marine Measurements. IACMST Information Document, N0.11, Southampton: IACMST, 96 pp

Data Activity or Cruise Information

Data Activity

Start Date (yyyy-mm-dd)	2008-01-11
End Date (yyyy-mm-dd)	2008-03-13
Organization Undertaking Activity	Proudman Oceanographic Laboratory (now National Oceanography Centre, Liverpool)
Country of Organization	United Kingdom
Originator's Data Activity Identifier	POLRIG1024
Platform Category	fixed benthic node

Proudman Oceanographic Laboratory Rig#1024

Deployment and Recovery

This rig was deployed as part of the Liverpool Bay Coastal Observatory during R.V. Prince Madog cruise PD01_08. Due to a forecast of extreme bad weather the originally planned cruise dates of 9th-10th January were changed to 10th-11th January. By utilizing the 11th January contingency day the majority of the cruise objectives were accomplished. Recovery of the rig took place during R.V. Prince Madog cruise PD07_08.

Rig Position	53° 32.024'N 3° 21.435'W
Water Depth	25.4 m
Deployed	11 January 2008 10:46 GMT
Recovered	14 March 2008 08:18 GMT
No. of days	63

Rig Description

This rig is a bottom frame comprising of the following instruments 0.5 m above the seabed: Acoustic Doppler Current Profiler (ADCP); Sea-Bird 16plus; and a SonTek ADV (Acoustic Doppler Velocimeter). The frame D6 was fitted with two Benthos releases 72382 - Rx 10.0 kHz, Tx 12.0 kHz, release A and 71904 - Rx 10.0 kHz, Tx 12.0 kHz, release C both with a fizz link, and a spooler with 200m of rope for recovery of the ballast weight.

Instrument	Serial Number	Parameters Measured	Sampling Description	Comments
RDI ADCP 600 kHz	5803	Horizontal current velocity components Vertical current velocity components Temperature Pressure	Mode 1: 100 pings every 10 minutes (velocity standard deviation 0.007 m s-1). 35 x 1 m bins (2.65 - 36.65 m above the bed).	Sound velocity calculated from temperature, depth and salinity of 32. Clock set at 14:20:00 on 8 January 2008; delayed start 12:00:00 on 9 January 2008.
Sea-Bird 16plus RS232	4848	Temperature Conductivity Pressure Turbidity	Sample interval 600 s; digiquartz integration time 40 s, range 400; run pump 0.5 s, 1 s delay.	Fitted to base of frame with pumped conductivity sensor underneath. SeaPoint turbidity sensor 10538 taped to roll bar; set up for 0 - 125 FTU range. Clock set at 13:57:00 on 8 January 2008; delayed start at 12:00:00 on 9 January 2008. Batteries ran out and replaced for calibration dip at station 7.
SonTek ADV (Acoustic Doppler Velocimeter)	ADV Logger G250; head B252	3D current velocity at a small sampling volume at a fixed (10cm) distance from probe. Vertical velocity components	Sample rate 16 Hz; burst interval 3600 s; samples in each burst 19200; burst length 1200 s	Time reset to 10:01:00 on 11 January 2008, logging set to start at 11:00:00 on 11 January 2008 Stopped 14 March 2008 at 08:57:30. Clock drift GMT -7 seconds.

Cruise

Cruise Name	PD01/08
Departure Date	2008-01-10
Arrival Date	2008-01-11
Principal Scientist(s)	Matthew Palmer (Proudman Oceanographic Laboratory)
Ship	RV Prince Madog

Complete Cruise Metadata Report is available here

Fixed Station Information

Station Name	COA
Category	Offshore area
Latitude	53° 31.51' N
Longitude	3° 23.00' W
Water depth below MSL	26.0 m

Liverpool Bay Coastal Observatory Mooring Site A (COA/Site 1/Site 9)

This station is the main mooring site for the Proudman Oceanographic Laboratory (POL) Liverpool Bay Coastal Observatory and was first occupied in 2002. It is also known both as Coastal Observatory Site 1 and Site 9. POL perform two main types of activities at this station: they deploy moorings; and in addition, they take CTD profiles during each site visit. The station lies within a box of mean water depth 22.5 m with the following co-ordinates:

Box Corner	Latitude (+ve North)	Longitude (+ve East)
North-west corner	53.54097	-3.42958
South-east corner	53.50945	-3.33714

The position of this station relative to the other POL Coastal Observatory sites can be seen from the figure below.

BODC image

Mooring Deployment History

2011

Rig Type	Typical Instruments	Rig IDs	Comment
Frame	ADCP, CTD, OBS, OXY	1117 for January cruise. Other frame IDs not available at this time.	January - September
SmartBuoy	CTD x 2, AC-S, CT x 2, FL x 3, OBS x 2, PAR x 2, WMS, NAS, OXY, T x 2	1116 for January cruise. Other frame IDs not available at this time.	January - September
SparBuoy	AC-S, FL, CTD x 2, T	Frame ID not available at this time.	September

2010

Rig Type	Typical Instruments	Rig IDs	Comment
Frame	ADCP, CTD, ADV, OBS	1086, 1090, 1094, 1098, 1102, 1106, 1109	January - December
SmartBuoy	CT x 2, FL x 2, OBS, PAR x 2, WMS, NAS, CTD, OXY, BD, T	1085, 1089, 1093, 1097, 1101, 1105, 1108, 1112	January - December

2009

Rig Type	Typical Instruments	Rig IDs	Comment
Frame	ADCP, CTD, ADV, OBS	1055, 1062, 1067, 1071, 1074, 1078, 1082	January - December
SmartBuoy	CT x 2, FL x 2, OBS, PAR x 2, WMS, NAS, CTD, OXY, BD, T	1054, 1061, 1066, 1070, 1073, 1077, 1081	January - December

2008

Rig Type	Typical Instruments	Rig IDs	Comment
Frame	ADCP, CTD, ADV, OBS	1024, 1028, 1032, 1036, 1041, 1044, 1047, 1051	January - December
SmartBuoy	CT x 2, FL x 2, OBS, PAR x 2, WMS, NAS, CTD, OXY, BD, T	LB1_047/1023, LB1_048/1027, LB1_049/1031, LB1_050/1035, 1040, 1043, LB1_053/1050	January - December

2007

Rig Type	Typical Instruments	Rig IDs	Comment
Frame	ADCP, CTD, ADV, OBS	990, 997, 1001, 1005, 1010, 1014, 1017, 1021	January - December
SmartBuoy	CT x 2, FL x 2, OBS, PAR x 2, WMS, NAS, CTD, OXY, BD, T	LB1_039/989, LB1_040/996, LB1_041/1000, LB1_042/1004, LB1_043/1009, LB1_044/1013, LB1_045/1016, LB1_046/1020	January - December

2006

Rig Type	Typical Instruments	Rig IDs	Comment
Frame	ADCP, CTD, ADV, OBS	951, 962, 966, 970, 974, 978, 982, 986	January - December
SmartBuoy	CT x 2, FL x 2, OBS, PAR x 2, WMS, NAS, CTD, OXY, BD	958, 961, 965, 969, 973, 977, LB1_037/981, LB1_038/985	January - December

2005

Rig Type	Typical Instruments	Rig IDs	Comment
Frame	ADCP, CT	913, 914, 921, 925, 929, 933, 938, 942, 945, 949	January - December
SmartBuoy	CT, FL, OBS, PAR, WMS, NAS, OXY	912, 920, 924, 928, 932, 937, LB1_028/941, LB1_029/944, LB1_030/948	January - December
Frame with telemetry buoy	ADCP	914	March - April

2004

Rig Type	Typical Instruments	Rig IDs	Comment
Frame	BPR, ADCP, TR, CT	890, 892, 893, 896, 898, 900, 902, 904, 907, 908, 910, 911	January - December
SmartBuoy	CT, FL, OBS, PAR, WMS, NAS	889, 891, 895, 897, 899, 901, 903, 906, 909	January - December
Frame with telemetry buoy	ADCP	893, 908, 911	April - May, October - December

2003

Rig Type	Instruments	Rig IDs	Comment
Frame	BPR, ADCP, TR, CT	861, 864, 866, 869, 872, 878, 880, 883, 885, 887, 888	January - December
SmartBuoy	CT, FL, OBS, PAR, WMS, NAS	863, 865, 867, 870, 871, 877, 879, 882, 884, 886	January - December

2002

Rig Type	Instruments	Rig IDs	Comment
Frame	BPR, ADCP, TR, CT	851, 854, 856, 858	August - December
Line mooring	CT x 3	853, 855	August - November
SmartBuoy	CT, FL, OBS, PAR, WMS, NAS	857, 860	November - December

2001

Rig Type	Instruments	Rig IDs	Comment
Frame	ADCP, OBS	838, 839, 840, 841, 843, 844, 845, 846, 848, 849	September

CTD Sampling History

Year	Number of Cruises	Total Casts per year
2011	6	116 including a 46 cast tidal cycle from 2011-04-18 to 2011-04-19 and a 51 cast tidal cycle station from 2011-07-27 to 2011-07-28
2010	7	69 including a 52 cast tidal cycle station from 2010-04-28 to 2010-04-29
2009	7	21
2008	9	75 including a 54 cast tidal cycle station from 2008-05-13 to 2008-05-14
2007	8	71 including a 51 cast tidal cycle station from 2007-05-15 to 2007-05-16
2006	9	72 including a 53 cast tidal cycle station from 2006-05-09 to 2006-05-10
2005	9	41 including a 22 cast tidal cycle station from 2005-04-05 to 2005-04-06
2004	9	77 including a 54 cast tidal cycle station from 2004-05-11 to 2004-05-12
2003	10	28
2002	4	13

The CTD instrument package for these cruises was a Sea-Bird 911plus, with beam transmissometer, fluorometer, LICOR PAR sensor, LISST-25, and oxygen sensor.

Key

AC-S = Absorption and attenuation spectrophotometer
ADCP = Acoustic Doppler Current Profiler
ADV = Acoustic Doppler Velocimeter
BD = Bacterial degradation experiment
BPR = Bottom Pressure Recorder
CT = Conductivity and temperature logger
CTD = Conductivity, temperature, depth sensor
FL = Fluorometer
NAS = in-situ nutrient analyser
OBS = Optical Backscatter Turbidity meter
OXY = Oxygen sensor
PAR = PAR sensor
T = Temperature logger
TR = Transmissometer
WMS = Automatic water sampler

Other Series linked to this Fixed Station for this cruise - 770435 770459 770460 770496 862079 862276 862497 862701 862805 862910 946775 946867 946879 1082358 1082506

Other Cruises linked to this Fixed Station (with the number of series) - PD01/08 (15) PD02/03 (4) PD02/05 (3) PD02/07 (14) PD02/09B (16) PD02/10 (9) PD05/10 (10) PD06/07 (15) PD07/08 (14) PD09/06 (11) PD09/07 (63) PD09/08 (15) PD10/03 (3) PD10/10 (8) PD11/05 (1) PD11/11 (48) PD12/05 (2) PD12/09 (10) PD13/07 (13) PD14/08 (67) PD16/06 (8) PD16/07 (14) PD17/03 (4) PD17/10 (9) PD18/04 (5) PD18/05 (3) PD18/09 (11) PD19/08 (2) PD20/02 (5) PD20/06 (8) PD20/07 (16) PD21/05 (3) PD21/10 (9) PD22/04 (5) PD22/06 (8) PD23/03A (4) PD23/07 (15) PD23/08 (12) PD24/02 (1) PD24/09 (11) PD25/03B (4) PD25/05 (3) PD25/06 (8) PD25/11 (4) PD27/07 (16) PD29/04 (4) PD29/06 (8) PD29/08 (13) PD29/10 (11) PD30/05 (2) PD31/02 (4) PD31/03 (4) PD32/04 (4) PD33/08 (4) PD33/09 (10) PD34/03 (4) PD34/05 (9) PD35/02 (4) PD35/06 (13) PD36/10 (10) PD37/06 (13) PD37/08 (17) PD38/03 (5) PD38/04 (4) PD38/09 (10) PD41/05 (10) PD43/11 (3) PD47/09 (9) PD48/05 (10) PD49/10 (7)

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