Metadata Report for BODC Series Reference Number 1015647

• Metadata Summary

• Problem Reports

• Data Access Policy

• Narrative Documents

• Project Information

• Data Activity or Cruise Information

• Fixed Station Information

• BODC Quality Flags

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Metadata Summary

Data Description

Data Category Currents -subsurface Eulerian Instrument Type Name Categories Teledyne RDI Workhorse Long-Ranger ADCP   current profilers Instrument Mounting subsurface mooring Originating Country United Kingdom Originator Dr Stuart Cunningham Originating Organization National Oceanography Centre, Southampton Processing Status banked Project(s) Rapid Climate Change Programme RAPIDMOC RAPID-WATCH

Data Identifiers

Originator's Identifier WBADCP#6/5817 BODC Series Reference 1015647

Time Co-ordinates(UT)

Start Time (yyyy-mm-dd hh:mm) 2009-04-18 15:00 End Time (yyyy-mm-dd hh:mm) 2010-04-02 11:30 Nominal Cycle Interval 1800.0 seconds

Spatial Co-ordinates

Latitude 26.52570 N ( 26° 31.5' N ) Longitude 76.86800 W ( 76° 52.1' W ) Positional Uncertainty 0.05 to 0.1 n.miles Minimum Sensor Depth 332.31 m Maximum Sensor Depth 568.07 m Minimum Sensor Height 24.92 m Maximum Sensor Height 260.69 m Sea Floor Depth 593.0 m Sensor Distribution Sensor fixed, measurements made at fixed depths - The sensor is at a fixed depth, but measurements are made remotely from the sensor over a range of depths (e.g. ADCP measurements) Sensor Depth Datum Approximate - Depth is only approximate Sea Floor Depth Datum Approximate - Depth is only approximate

Parameters

BODC CODE Rank Units Title DBINAA01 0 Metres Depth below sea surface (ADCP bin) 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 LCEWAP01 2 Centimetres per second Eastward current velocity (Eulerian) in the water body by moored acoustic doppler current profiler (ADCP) LCNSAP01 2 Centimetres per second Northward current velocity (Eulerian) in the water body by moored acoustic doppler current profiler (ADCP) PPSAADCP 2 Metres Depth below surface of the water body by acoustic doppler current profiler (ADCP) and computation from travel time averaged from all operational beams and unknown sound velocity profile

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)

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Problem Reports

No Problem Report Found in the Database

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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."

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Narrative Documents

Teledyne RDI's Workhorse Long Ranger ADCP

The Workhorse Long-Ranger acoustic doppler current profler (Teledyne RD Instruments) is a long-range and long-term self contained ADCP. It has a patented broadband signal (75 kHz) and a standard depth rating of 1500m. It operates effectively between temperatures of -5°C and 45°C and has a velocity accuracy of ±1% ±5mm/s.

The instrument comprises:

• An aluminium transducer head with four beams at 20^o from the vertical in a convex configuration, temperature sensor, electronic assemblies, fluxgate compass, pitch and roll sensors
• 4 x 28 D-cell alkaline battery packs
• 40 MB PC card internal memory (upgradeable to 440 MB)
• 1500m depth rated 6061 aluminium pressure case. End cap with wet material connector and dummy plug

RAPIDMOC ADCP data processing document

This document outlines the procedures undertaken to process and quality assure ADCP data collected under the RAPIDMOC project.

Originator's processing

The raw data are downloaded from the instrument and converted to ASCII format.

Corrections

Once in ASCII format the data are corrected for the following -

• Bin mapping
• Sound speed
• Magnetic variation

A 40 hour low pass filter is also applied to the data.

Calculating and applying calibrations

Manufacturers calibrations are applied.

Quality control

Data were visually inspected for out-lying data and instrument electrical spikes removed.

BODC processing

Data are received after quality checks have been made and calibrations have been applied. The data files are submitted in ASCII format as one file per bin.

Once the submitted data files are safely archived, the data undergo reformatting and banking procedures:

• The data files are concatenated and transferred into one file per instrument in a common format, a NetCDF subset.

• Standard parameter codes are assigned that accurately describe the data (see Parameter mapping section below).

• Unit conversions are applied, if necessary, so that units are standardised (see Parameter mapping section below).

• The data are screened visually and any spikes or instrument malfunctions can be clearly labelled with quality control flags.

• Comprehensive documentation is prepared describing the collection, processing and quality of each data series.

• Detailed metadata and documents are loaded to the database and linked to each series so that the information is readily available to future users.

Parameter mapping

The following describes the parameters contained in the originator's files and their mapping to BODC parameter codes:

Identifier	Unit	Definition	BODC parameter code	Units	Unit conversion	Comments
YY	year	Year	AADYAA01	days	-	Combined with MM and DD to form a date and transferred
MM	month	Month	AADYAA01	days	-	Combined with MM and DD to form a date and transferred
DD	day	Day	AADYAA01	days	-	Combined with MM and DD to form a date and transferred
HH	hour	Decimal hours	AAFDZZ01	days	/24	Transferred
Z	metres	Depth below surface	PPSAADCP	metres	-	Transferred
U	cm/s	Eastward velocity	LCEWAP01	cm/s	-	Transferred
V	cm/s	Northward velocity	LCNSAP01	cm/s	-	Transferred

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Project Information

Rapid Climate Change (RAPID) Programme

Rapid Climate Change (RAPID) is a £20 million, six-year (2001-2007) programme of the Natural Environment Research Council (NERC). The programme aims to improve our ability to quantify the probability and magnitude of future rapid change in climate, with a main (but not exclusive) focus on the role of the Atlantic Ocean's Thermohaline Circulation.

Scientific Objectives

• To establish a pre-operational prototype system to continuously observe the strength and structure of the Atlantic Meridional Overturning Circulation (MOC).
• To support long-term direct observations of water, heat, salt, and ice transports at critical locations in the northern North Atlantic, to quantify the atmospheric and other (e.g. river run-off, ice sheet discharge) forcing of these transports, and to perform process studies of ocean mixing at northern high latitudes.
• To construct well-calibrated and time-resolved palaeo data records of past climate change, including error estimates, with a particular emphasis on the quantification of the timing and magnitude of rapid change at annual to centennial time-scales.
• To develop and use high-resolution physical models to synthesise observational data.
• To apply a hierarchy of modelling approaches to understand the processes that connect changes in ocean convection and its atmospheric forcing to the large-scale transports relevant to the modulation of climate.
• To understand, using model experimentation and data (palaeo and present day), the atmosphere's response to large changes in Atlantic northward heat transport, in particular changes in storm tracks, storm frequency, storm strengths, and energy and moisture transports.
• To use both instrumental and palaeo data for the quantitative testing of models' abilities to reproduce climate variability and rapid changes on annual to centennial time-scales. To explore the extent to which these data can provide direct information about the thermohaline circulation (THC) and other possible rapid changes in the climate system and their impact.
• To quantify the probability and magnitude of potential future rapid climate change, and the uncertainties in these estimates.

Projects

Overall 38 projects have been funded by the RAPID programme. These include 4 which focus on Monitoring the Meridional Overturning Circulation (MOC), and 5 international projects jointly funded by the Netherlands Organisation for Scientific Research, the Research Council of Norway and NERC.

The RAPID effort to design a system to continuously monitor the strength and structure of the North Atlantic Meridional Overturning Circulation is being matched by comparative funding from the US National Science Foundation (NSF) for collaborative projects reviewed jointly with the NERC proposals. Three projects were funded by NSF.

A proportion of RAPID funding as been made available for Small and Medium Sized Enterprises (SMEs) as part of NERC's Small Business Research Initiative (SBRI). The SBRI aims to stimulate innovation in the economy by encouraging more high-tech small firms to start up or to develop new research capacities. As a result 4 projects have been funded.

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Monitoring the Meridional Overturning Circulation at 26.5N (RAPIDMOC)

Scientific Rationale

There is a northward transport of heat throughout the Atlantic, reaching a maximum of 1.3PW (25% of the global heat flux) around 24.5°N. The heat transport is a balance of the northward flux of a warm Gulf Stream, and a southward flux of cooler thermocline and cold North Atlantic Deep Water that is known as the meridional overturning circulation (MOC). As a consequence of the MOC northwest Europe enjoys a mild climate for its latitude: however abrupt rearrangement of the Atlantic Circulation has been shown in climate models and in palaeoclimate records to be responsible for a cooling of European climate of between 5-10°C. A principal objective of the RAPID programme is the development of a pre-operational prototype system that will continuously observe the strength and structure of the MOC. An initiative has been formed to fulfill this objective and consists of three interlinked projects:

• A mooring array spanning the Atlantic at 26.5°N to measure the southward branch of the MOC (Hirschi et al., 2003 and Baehr et al., 2004).
• Additional moorings deployed in the western boundary along 26.5°N (by Prof. Bill Johns, University of Miami) to resolve transport in the Deep Western Boundary Current (Bryden et al., 2005). These moorings allow surface-to-bottom density profiles along the western boundary, Mid-Atlantic Ridge, and eastern boundary to be observed. As a result, the transatlantic pressure gradient can be continuously measured.
• Monitoring of the northward branch of the MOC using submarine telephone cables in the Florida Straits (Baringer et al., 2001) led by Dr Molly Baringer (NOAA/AOML/PHOD).

The entire monitoring array system created by the three projects will be recovered and redeployed annually until 2008 under RAPID funding. From 2008 until 2014 the array will continue to be serviced annually under RAPID-WATCH funding.

The array will be focussed on three regions, the Eastern Boundary (EB), the Mid Atlantic Ridge (MAR) and the Western Boundary (WB). The geographical extent of these regions are as follows:

• Eastern Boundary (EB) array defined as a box with the south-east corner at 23.5°N, 25.5°W and the north-west corner at 29.0°N, 12.0°W
• Mid Atlantic Ridge (MAR) array defined as a box with the south-east corner at 23.0°N, 52.1°W and the north-west corner at 26.5°N, 40.0°W
• Western Boundary (WB) array defined as a box with the south-east corner at 26.0°N, 77.5°W and the north-west corner at 27.5°N, 69.5°W

References

Baehr, J., Hirschi, J., Beismann, J.O. and Marotzke, J. (2004) Monitoring the meridional overturning circulation in the North Atlantic: A model-based array design study. Journal of Marine Research, Volume 62, No 3, pp 283-312.

Baringer, M.O'N. and Larsen, J.C. (2001) Sixteen years of Florida Current transport at 27N Geophysical Research Letters, Volume 28, No 16, pp3179-3182

Bryden, H.L., Johns, W.E. and Saunders, P.M. (2005) Deep Western Boundary Current East of Abaco: Mean structure and transport. Journal of Marine Research, Volume 63, No 1, pp 35-57.

Hirschi, J., Baehr, J., Marotzke J., Stark J., Cunningham S.A. and Beismann J.O. (2003) A monitoring design for the Atlantic meridional overturning circulation. Geophysical Research Letters, Volume 30, No 7, article number 1413 (DOI 10.1029/2002GL016776)

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RAPID- Will the Atlantic Thermohaline Circulation Halt? (RAPID-WATCH)

RAPID-WATCH (2007-2014) is a continuation programme of the Natural Environment Research Council's (NERC) Rapid Climate Change (RAPID) programme. It aims to deliver a robust and scientifically credible assessment of the risk to the climate of UK and Europe arising from a rapid change in the Atlantic Meridional Overturning Circulation (MOC). The programme will also assess the need for a long-term observing system that could detect major MOC changes, narrow uncertainty in projections of future change, and possibly be the start of an 'early warning' prediction system.

The effort to design a system to continuously monitor the strength and structure of the North Atlantic MOC is being matched by comparative funding from the US National Science Foundation (NSF) for the existing collaborations started during RAPID for the observational arrays.

Scientific Objectives

• To deliver a decade-long time series (2004-2014) of calibrated and quality-controlled measurements of the Atlantic MOC from the RAPID-WATCH arrays.
• To exploit the data from the RAPID-WATCH arrays and elsewhere to determine and interpret recent changes in the Atlantic MOC, assess the risk of rapid climate change, and investigate the potential for predictions of the MOC and its impacts on climate.

This work will be carried out in collaboration with the Hadley Centre in the UK and through international partnerships.

Mooring Arrays

The RAPID-WATCH arrays are the existing 26°N MOC observing system array (RAPIDMOC) and the WAVE array that monitors the Deep Western Boundary Current. The data from these arrays will work towards meeting the first scientific objective.

The RAPIDMOC array consists of moorings focused in three geographical regions (sub-arrays) along 26.5° N: Eastern Boundary, Mid-Atlantic Ridge and Western Boundary. The Western Boundary sub-array has moorings managed by both the UK and US scientists. The other sub-arrays are solely led by the UK scientists. The lead PI is Dr Stuart Cunningham of the National Oceanography Centre, Southampton, UK.

The WAVE array consists of one line of moorings off Halifax, Nova Scotia. The line will be serviced in partnership with the Bedford Institute of Oceanography (BIO), Halifax, Canada. The lead PI is Dr Chris Hughes of the Proudman Oceanographic Laboratory, Liverpool, UK.

All arrays will be serviced (recovered and redeployed) either on an annual or biennial basis using Research Vessels from the UK, US and Canada.

Modelling Projects

The second scientific objective will be addressed through numerical modelling studies designed to answer four questions:

• How can we exploit data from the RAPID-WATCH arrays to obtain estimates of the MOC and related variables?
• What do the observations from the RAPID-WATCH arrays and other sources tell us about the nature and causes of recent changes in the Atlantic Ocean?
• What are the implications of RAPID-WATCH array data and other recent observations for estimates of the risk due to rapid change in the MOC?
• Could we use RAPID-WATCH and other observations to help predict future changes in the MOC and climate?

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Data Activity or Cruise Information

Data Activity

Start Date (yyyy-mm-dd)	2009-04-18
End Date (yyyy-mm-dd)	2010-04-02
Organization Undertaking Activity	National Oceanography Centre, Southampton
Country of Organization	United Kingdom
Originator's Data Activity Identifier	WBADCP#6
Platform Category	subsurface mooring

RAPID Moored Instrument Rig WBADCP#6

This rig was deployed as part of the Western Boundary (WB) array of the RAPIDMOC project

Deployment cruise	RV Ronald H. Brown cruise RB09-01
Recovery cruise	RV Oceanus cruise OC459-1

The rig was anchored to the sea bed by 850kg of railway wheels and kept erect by a glass subsurface buoyancy sphere.

Instruments deployed on the rig

Depth	Instrument
578m	RD Instruments 75kHz Workhorse Long Ranger ADCP (#5817)

Cruise

Cruise Name	RB0901
Departure Date	2009-04-15
Arrival Date	2009-05-05
Principal Scientist(s)	Christopher S Meinen (NOAA Atlantic Oceanographic and Meteorological Laboratory)
Ship	NOAA Ship Ronald H. Brown

Complete Cruise Metadata Report is available here

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Fixed Station Information

Fixed Station Information

Station Name	Western Boundary Array
Category	Offshore area
Latitude	26° 37.50' N
Longitude	73° 37.50' W
Water depth below MSL

RAPIDMOC Western Boundary (WB) Array

The Western Boundary Array defines a box in which moorings were deployed at the western side of the North Atlantic as part of the RAPIDMOC project and the collaborative project Meridional Overturning Circulation and Heatflux Array (MOCHA). The box region has latitudinal limits of 26° N to 27.5° N and longitudinal limits of 69.5° W to 77.5° W. Moorings have occupied this region since 2004 and are typically deployed for 6 to 18 months.

Moored data summary

Year	Cruise ID	Number of moorings	Data types (number of instruments)
2004	D278	9 (6 RAPIDMOC, 3 MOCHA)	ADCP (2), BPR (8), CM (29), MCTD (52), MMP (1)
2005	KN182_2	11 (6 RAPIDMOC, 5 MOCHA)	ADCP (2), BPR (6), CM (27), MCTD (56)
2006	RB06-02, SJ14-06	11 (6 RAPIDMOC, 5 MOCHA)	ADCP (1), BPR (3), CM (22), IES (7), MCTD (60)
2007	RB07-01	7 (7 RAPIDMOC)	ADCP (1), BPR (4), CM (16), MCTD (47)
2008	SJ08-03	11 (8 RAPIDMOC, 3 MOCHA)	ADCP (2), BPR (3), CM (40), MCTD (80)
2009	RB0901, D344, D345	16 (11 RAPIDMOC, 5 MOCHA)	ADCP (2), BPR (5), CM (39), MCTD (91), DVS (1)
2010	OC459-1, RB1009	9 (8 RAPIDMOC, 1 MOCHA)	ADCP (1), BPR (7), CM (23), MCTD (54)
2011	KN200-4	7 (7 RAPIDMOC, 6 MOCHA)	ADCP (2), BPR (7), CM (43), MCTD (86), DVS (1), IES (1)

Cruise data summary

During the cruises to service the moored array, a variety of data types are collected. The table below is a summary of these data. The number of CTD profiles performed on these cruises within the box region defined above is also included. Trans-Atlantic hydrographic CTD sections have also been performed since 2004 and are included in the table.

Cruise ID	Cruise description	Data types	Number of CTD profiles performed within the box region
D277	Initial array deployment	DIS, MET, NAV, SADCP, SURF	1
D278	Initial array deployment	DIS, MET, NAV, SADCP, SURF	16
D279	Hydrographic section	CTD, DIS, LADCP, MET, NAV, SADCP, SURF	31
KN182_2	Array service	CTD, DIS, MET, NAV, SADCP, SURF	64
RB0601	Array service	CTD, DIS, LADCP, MET, NAV, SADCP, SURF	39
SJ14-06	Array service	CTD, DIS, LADCP, MET, NAV, SADCP, SURF	33
RB07-01	Array service	CTD, DIS, LADCP, MET, NAV, SADCP, SURF	36
SJ08-03	Array service	CTD, DIS, LADCP, MET, NAV, SADCP, SURF	33
RB0901	Array service	CTD, DIS, LADCP, MET, NAV, SADCP, SURF	35
D344	Array service	CTD, DIS, MET, NAV, SADCP, SURF	3
D345	Array service	CTD, DIS, LADCP, MET, NAV, SADCP, SURF	24
OC459-1	Array service	CTD, DIS, MET, NAV, SADCP, SURF	9
OC459-2	Western Boundary Hydrographic section	CTD, DIS, LADCP, MET, NAV, SADCP, SURF	27
D346	Hydrographic section	CTD, DIS, LADCP, MET, NAV, SADCP, SURF	31
RB1009	WB4 service	CTD, MET, SURF, NAV	2
KN200-4	Array service	CTD, DIS, MET, NAV, SURF	34

Data type ID and description

Data type ID	Description
ADCP	Acoustic Doppler Current Profiler
BATH	Bathymetry
BPR	Bottom Pressure Recorder
CM	Current Meter
CTD	Conductivity-Temperature-Depth profiler
DIS	Discrete water bottle samples
DVS	Doppler Volume sampler
IES	Inverted Echo Sounder
LADCP	Lowered Acoustic Doppler Current Profiler
MET	Meteorology
MCTD	Moored Conductivity-Temperature-Depth sensor
MMP	McLane Moored Profiler - profiling CTD and current meter
NAV	Navigation
SADCP	Shipborne Acoustic Doppler Current Profiler
SURF	Sea surface data

Other Series linked to this Fixed Station for this cruise - 946093 973816 973828 973841 973853 973865 1015764 1015776 1015868 1015881 1015893 1015900 1015912 1015924 1015936 1016000 1016012 1016024 1016036 1091823 1091835 1091847 1091859 1091860 1091872 1091884 1091896 1091903 1091915 1091927 1091939 1091940 1091952 1091964 1091976 1091988 1092003 1092015 1092027 1092039 1092040 1092052 1092064 1092076 1092088 1092107 1092119 1092120 1092132 1092144 1092156 1092168 1092181 1092193 1092200 1092212 1092224 1092236 1092248 1092261 1092273 1092285 1092297 1092304 1092316 1092328 1092341 1092353 1097542 1097554 1097566 1097578 1097591 1097609

Other Cruises linked to this Fixed Station (with the number of series) - D278 (90) D344 (8) D345 (41) D346 (31) KN182_2 (85) KN200-4 (86) OC459-1 (56) RB0602 (42) RB0701 (58) RB0901 (74) RB1009 (24) RB1201 (55) SJ-08-03 Leg 1 (37) SJ-08-03 Leg 2 (75) SJ-14-06 (62)

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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

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