The RAPID-AMOC (Rapid Climate Change - Atlantic Meridional Overturning Circulation) data set consists of pressure, current velocities, temperature, salinity, density, oxygen, alkalinity, pH, PCO2 and inorganic carbon time series. Measurements are collected by moored instruments deployed in arrays across the Atlantic at approximately 26.5N for the Monitoring the Atlantic Meridional Overturning Circulation at 26.5N (MOC) project and the Atlantic BiogeoChemical Fluxes (ABC Fluxes) project. The data set also consists of conductivity- temperature-depth (CTD) profiles, and ships' underway monitoring system meteorology and surface hydrography collected during the mooring deployment and servicing cruises. The RAPID-AMOC data set follows on from the original Rapid Climate Change (RAPID) Programme oceanographic dataset and the RAPID-WATCH dataset. It spans data collected from 2015 to the present and is intended to continue to collect data until approximately 2020. The main aims of the RAPID-AMOC Programme are to provide oceanographic measurements that continue the long time series of the Atlantic Meridional Overturning Circulation to be derived for use in climate change research. The MOC and ABC Fluxes projects are led by scientists at the National Oceanography Centre in Southampton.

The RAPID-AMOC (Rapid Climate Change - Atlantic Meridional Overturning Circulation) data set consists of pressure, current velocities, temperature, salinity, density, oxygen, alkalinity, pH, PCO2 and inorganic carbon time series. Measurements are collected by moored instruments deployed in arrays across the Atlantic at approximately 26.5N for the Monitoring the Atlantic Meridional Overturning Circulation at 26.5N (MOC) project and the Atlantic BiogeoChemical Fluxes (ABC Fluxes) project. The data set also consists of conductivity- temperature-depth (CTD) profiles, and ships' underway monitoring system meteorology and surface hydrography collected during the mooring deployment and servicing cruises. The RAPID-AMOC data set follows on from the original Rapid Climate Change (RAPID) Programme oceanographic dataset and the RAPID-WATCH dataset. It spans data collected from 2015 to the present and is intended to continue to collect data until approximately 2020. The main aims of the RAPID-AMOC Programme are to provide oceanographic measurements that continue the long time series of the Atlantic Meridional Overturning Circulation to be derived for use in climate change research. The MOC and ABC Fluxes projects are led by scientists at the National Oceanography Centre in Southampton.

The Porcupine Abyssal Plain (PAP) Observatory is a sustained, multidisciplinary observatory. Key time-series datasets include measurements of sea temperature, air temperature, air pressure, waves, wind, CO2, salinity, Megafauna (Species diversity, abundance and biomass), geochemistry, humidity, chlorophyll, nitrate, PAR and currents. The PAP observatory is situated in the Northeast Atlantic away from the continental slope and mid Atlantic ridge (49N,16.5W, depth 4800m). Since 1989, this environmental study site in the Northeast Atlantic has become a major focus for international and interdisciplinary scientific research and monitoring including water column biogeochemistry, physics and benthic biology. Since 2002, a mooring has been in place with sensors taking a diverse set of biogeochemical and physical measurements of the upper 1000m of the water column. Some of these data are transmitted in near real-time via satellite. A diverse range of Essential Climate variables are measured and sampled at the PAP site from the atmosphere and surface ocean to the seafloor. The instruments used include CTD + Backscatter; ADCP (2 way, re-programmable for water profiling as well as burst sampling), Seismometer (2 way, retrieval of selected time period - 1 Minute - in the past e.g. seismic event), Bottom Pressure Sensor, Sediment trap (2 way, re-programmable for change sampling interval), Boxcores, Mega- and Multicores, Optode, Digital Camera and Stand-alone hydrophone. Seafloor sampling includes trawling, coring, towed camera systems from a research ship and time-lapse photography. Since 2002 many of the upper ocean measurements (0-1000m) have been transmitted in near real-time. There is a growing need for ever more accurate climatic models to predict future climate change and the impact this will have on human settlement, the insurance industry, fisheries, agriculture and nature at large. Long term observations at fixed points in the open oceans are essential to provide high quality and high resolution data to increase our knowledge of how our oceans function, how they are changing and how this may impact on the climate. The observatory is coordinated by the National Oceanography Centre. In 2010, a collaboration between NERC and UK Met Office has led to the first atmospheric measurements at the site.

This dataset contains data collected during the integration and demonstration of the newly developed SenseOCEAN multifunctional sensor package. The data were collected from field tests in Kiel Fjord (Germany), the Baltic Sea and the Mediterranean Sea in September 2016 and May 2017. New marine chemical sensors (such as optode sensors (O2, CO2, NH3, pH), lab on chip (LOC) sensors (NO3-, NO2-, PO43-, Fe2+, pH) and electrochemical sensors (silicate, N2O)), an integrated multifunctional sensor, plug and play Modbus module and data assembly centre were developed by the EU consortia, SenseOCEAN. The consortia consisted of TU Graz, Pyro Science GmbH, Chelsea Technology Group, Aarhus University, Alfred Wegener Institute (AWI), CNRS-LEGOS, Max Planck Institute, nke Instrumentation, TE Laboratories, University of Southampton, National Oceanography Centre (NOC), Unisense A/S and the British Oceanographic Data Centre (BODC). The sensors and Modbus module were deployed for demonstrations on various platforms including CTD Rosettes, fixed-position pontoons and NKE PROVOR profiling (ARGO) floats. The data were collected as part of the SenseOCEAN Collaborative Project funded by the European Union Seventh Framework Programme (FP7/2007–2013) under grant agreement No. 614141. The main aim of the SenseOCEAN project was to develop new chemical sensors for in situ measurements of the marine environment and to combine these to produce an integrated multifunctional biogeochemical sensor package. The coordinator was Professor Douglas Connelly at the National Oceanography Centre, Southampton, UK. The data are held by BODC as a series of ASCII data files conforming to the NASA AMES 1001 format together with a PDF document that describes the data set.

The data set comprises those data collected on UK World Ocean Circulation Experiment (WOCE) cruises. The cruises completed to date have collected data either in the North Atlantic (RRS Charles Darwin 58, 59, 62, 62a, 68 and 78; RRS Discovery 223, 230 and 233) or in the Southern Ocean (RRS Discovery 199, 200, 201, 207, 213 and 214; RRS James Clark Ross 0a, 0b, 10, 16 and 27). Conductivity-temperature-depth (CTD) data are held from all 20 cruises. 14 out of the 16 shipborne acoustic Doppler current profiler (ADCP) data sets are held, those from RRS Discovery 230 and RRS James Clark Ross 0b are still to be received. 4 out of the 6 lowered ADCP data sets are held, those from RRS Discovery 230 and 233 are still to be received. 3 out of the 4 SeaSoar data sets are held, with that from RRS Discovery 223 still to be received. 12 out of 13 eXpendable BathyThermograph (XBT) data sets are held, with that from RRS James Clark Ross 0a still awaited. All main water bottle data sets have been received apart from chlorofluorocarbon (CFC) tracer data from RRS Discovery 223, 230 and 233. All of the main underway data sets thermosalinograph, meteorology, etc.) are held apart from thermosalinograph data from RRS James Clark Ross 0b.

The dataset comprises 11 hydrographic data profiles, collected by a conductivity-temperature-depth (CTD) sensor package, from across the North East Atlantic Ocean (limit 40W) area specifically just north of the West European Basin, during June of 2007. A complete list of all data parameters are described by the SeaDataNet Parameter Discovery Vocabulary (PDV) keywords assigned in this metadata record. The data were collected by the National University of Ireland, Galway as part of the Oceans 2025 programme.

The dataset contains physical, biological and chemical oceanographic measurements, and meteorological data. Hydrographic measurements include temperature, salinity, attenuance and backscatter, pH and dissolved oxygen concentrations, while water samples were analysed for concentrations of carbon, nitrogen, hydrocarbons, nutrients and pigments. Samples were also collected for phytoplankton and zooplankton analyses, while results from production experiments are also included in the data set. These oceanographic data are supplemented by surface meteorological measurements. Measurements were taken at sites in the Bellinghausen Sea as part of a 2-ship Eulerian experiment between the 28th of October and the 17th of December 1992. The data were collected via (i) underway sampling (SeaSoar Undulating Oceanographic Recorder (UOR), lightfish, hull-mounted acoustic Doppler current profiler (ADCP), meteorology and surface ocean parameters) of which there are 121179 records and (ii) discrete sampling (conductivity-temperature-depth (CTD) and expendable bathythermograph (XBT) casts, bottle stations, net hauls, productivity incubations) of which there are over 1000 deployments and experiments. The study aimed to measure the magnitude and variability of carbon and nitrogen fluxes during early summer in the Southern Ocean, with particular emphasis on rates and processes in the marginal ice zone. The data were collected and supplied by UK participants in the Joint Global Ocean Flux Study (JGOFS). The British Oceanographic Data Centre (BODC) are responsible for calibrating, processing, quality controlling and documenting the data and assembling the final data set. Underway data are stored as 1 minute interval time series for each cruise with all parameters merged on date/time. The data are fully quality controlled; checks were made for instrument malfunction, fouling, constancy, spikes, spurious values, calibration errors, baseline and salt-water corrections. The discrete data are stored in a relational database (Oracle RDBMS), chiefly as vertical profiles and are uniquely identified by a combination of deployment number and depth.

The CARBON-OPS data set comprises partial pressure of carbon dioxide (pCO2) and ancilliary parameters, measured aboard selected UK research vessels between 2007 and 2008. The parameter suite includes geographical position; partial pressure and fugacity of CO2; sea surface temperature, salinity, and dissolved oxygen concentration; air pressure, temperature and humidity; occasionally the parameter suite also includes fluorescence, transmittance, wind speed and direction. CARBON-OPS, led by Nick Hardman-Mountford at Plymouth Marine Laboratory, was funded by the Natural Environment Research Council under the Knowledge Transfer initiative (2007-2009). The aim of the project was to develop an automated supply chain of ocean surface and atmospheric carbon dioxide measurements from research ships to operational end-users. The data were first provided in near real-time following an initial level of automated quality control and processing. Following a secondary level of manual quality control and processing (delayed mode) the data are integrated into the BODC National Oceanographic Database. Measurements were taken aboard five UK research vessels: RRS Discovery, RRS James Clark Ross; RRS James Cook; RV Plymouth Quest; and RV Prince Madog.

This dataset comprises the following water body parameters: pressure; density; salinity; temperature; fluorescence; oxygen; dissolved inorganic nutrients; dissolved inorganic carbon (DIC); particulate carbon (PC); particulate organic carbon (POC); particulate nitrogen (PN); alkalinity; pH; chlorophyll; photosynthetically active radiation (PAR); delta 15 N isotopic composition of PN and nitrate; delta 13 C isotopic composition of POC; delta 18 O isotopic composition of nitrate; ratio of oxygen isotopes. This dataset also includes dissolved inorganic nutrients in sediment pore water, and major and minor element concentrations in sediment. Data were sampled on the West Antarctic Peninsula (WAP), more specifically in Ryder and Marguerite Bays. Measurements were obtained from either in situ sensors, samples collected by box coring, or by Niskin bottles mounted on the CTD rosette of RRS James Clark Ross during cruises JR20141231 (JR307, JR308) and JR15003 which took place from 31 December 2014 to 07 January 2015 and from 17 December 2015 to 13 January 2016 respectively. Samples were also collected from Niskin bottles deployed with a hand-cranked winch or 12 V electric bilge pump from a rigid-hulled inflatable boat between 16 November 2013 and 21 March 2016. Sediment samples were analysed for major and minor element composition by X-ray fluorescence spectroscopy at the School of Geosciences, University of Edinburgh. This research project aimed to examine the ways in which ongoing climate change and sea ice decline at the WAP impact upon nutrient budgets and biogeochemical cycling throughout the region, and to trace the movement and modification of circumpolar deep water across the WAP shelf and its influence on macronutrient and inorganic carbon supply to productive coastal regions. Data were generated by Sian Henley (University of Edinburgh), Hugh Venables and Michael Meredith (British Antarctic Survey), Elizabeth Jones (University of Groningen), Katharine Hendry (University of Bristol), and Yvonne Firing (NOC Southampton), with funding from NERC Independent Research Fellowship (NE/K010034/1), the University of Edinburgh School of Geosciences, the British Antarctic Survey Polar Oceans Program, the Netherlands Polar Program (NOW), British Antarctic Survey CGS-109, and NERC NC Funding for SR1b repeat transect (PI Firing). Additional contributors to the dataset were Malcolm Woodward (Plymouth Marine Laboratory), Melanie Leng (British Geological Survey) and Colin Chilcott and Nicholas Odling (University of Edinburgh).

The Antarctic Deep Water Rates of Export (ANDREX) dataset comprises hydrographic and biogeochemical data. Measurments include temperature; salinity; currents; concentrations of geochemical tracers such as chlorofluorocarbons (CFCs), sulphur hexafluoride (SF6), freon, tritium, radiocarbon and noble gases; alkalinity; dissolved oxygen and partial pressure of carbon dioxide (pCO2); and nutrient concentrations (nitrate, silicate and phosphate). These data are supplemented by meteorological (air pressure, air temperature, wind velocity, relative humidity, radiation) and bathymetric measurements. The data were collected along a track running from the tip of the Antarctic Peninsula to 30 deg E that corresponds to the northern limb of the Weddell gyre within the Atlantic sector of the Southern Ocean. Data collection was undertaken in December 2008-January 2009 and March-April 2010 over two UK research cruises. In 2008 the section was aborted approximately halfway due to a medical evacuation. The track was completed during the second cruise in March-April 2010. Data were collected via the deployment of conductivity-temperature-depth (CTD) profilers, accompanied by lowered acoustic Doppler current profilers (LADCPs), at numerous stations along the cruise track. This permitted the collection of water samples for biogeochemical analyses. In addition to measurements at individual stations, various parameters were measured continuously throughout each cruise, including current velocities (using a vessel mounted ADCP, VMADCP), water depth and surface ocean and meteorological properties. These data will be supplemented by measurements collected on a US CLIVAR section (a WOCE I6S repeat) between South Africa and Antarctica along 30deg E in January-February 2008. The ANDREX project aims to enhance our understanding of the role of the Weddell gyre in the meridional overturning circulation, in ventilating the deep ocean and in sequestering carbon and nutrients in the global deep ocean. ANDREX is a joint effort between UK, German and US research institutes, including the National Oceanography Centre (UK), the University of East Anglia (UK), British Antarctic Survey (UK), the University of Manchester (UK), Woods Hole Oceanographic Institution (USA) and the Alfred Wegener Institute (Germany). The UK principal investigator (PI) is A. Naveira Garabato from the School of Ocean and Earth Science, NOC. Data collected during the UK cruises will be managed by the British Oceanographic Data Centre (BODC) but those collected on the US CLIVAR section will not be held at BODC.