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Raw fluorometer output

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  • The Marine Autonomous Systems in Support of Marine Observations (MASSMO) campaign 4 dataset includes data collected by 8 submarine gliders, 2 wavegliders and one autonomous surface vehicle. The dataset comprises recovery version data. i.e. the data downloaded from a vehicle at the end of its mission. The data obtained from gliders operated by the University of East Anglia (UEA) is fully quality controlled. No quality control procedures have been applied to the data obtained from all other autonomous vehicles. Parameters observed include, temperature, salinity, chlorophyll fluorescence, optical backscatter, oxygen, acoustic noise and video data. The dataset was collected within the UK sector of the Faroe-Shetland Channel, focussing on the outer shelf and upper shelf. The work area had a bounding box of 58-62 degrees north and 2-9 degrees west. The MASSMO 4 campaign was run between 1st June 2017 until 7th June 2017 while platforms were deployed they were collecting data continuously. The dataset was collected using a mixture of three autonomous surface vehicles and eight submarine gliders. Glider sensor suites included CTD, bio-optics, oxygen optodes, and passive acoustic sensors. Additionally the surface vehicles were equipped with meteorological sensors and cameras. The campaign comprised a range of oceanographic data collection, but had a particular focus on passive acoustic monitoring of marine mammals and oceanographic features, and included development of near-real-time data delivery to operational data users. MASSMO 4 was co-ordinated by the National Oceanography Centre (NOC) in partnership with University of East Anglia (UEA), Plymouth Marine Laboratory (PML) and Scottish Association for Marine Science (SAMS). The mission was sponsored by Defence Science and Technology Laboratory (Dstl) and involved close co-operation with the NATO Centre for Maritime Research and Experimentation (CMRE) and UK Royal Navy, and was supported by several additional commercial, government and research partners.

  • The MASSMO 5 dataset includes the near real time transmitted EGO (Everyone’s Gliding Observatories) NetCDF versions of glider data collected by five submarine gliders across three deployment campaigns. Recovery versions of data downloaded from the all gliders with no quality assurance are also available on request. Glider sensor suites included CTD, bio-optics, and oxygen optodes. Parameters observed include, temperature, salinity, chlorophyll fluorescence, optical backscatter, and oxygen data. The MASSMO 5a mission focused on the period 23 Jun 2018 to 06 Jul 2018 and included three submarine glider deployments (UK glider deployments only are included in this dataset). All assets were deployed from NRV Alliance in partnership with NATO-CMRE, but were recovered prematurely due to vessel technical issues. The primary geographic focus of MASSMO 5 was the outer shelf and upper slope off northern Norway, in the region between Bear Island and southern Spitsbergen, but outside the 12 mile territorial limits of these islands. The MASSMO 5b mission occurred within the period 17-24 Oct 2018, a total of three ocean gliders were deployed. The primary geographic focus of MASSMO5b was the northern North Sea to the east of the Orkney archipelago. The MASSMO 5c mission was aborted and no data were collected. The MASSMO 5d mission occurred within period 26 Apr 2019 to 6 May 2019, there was deployment of a single ocean glider. The primary geographic focus of MASSMO 5d was the Faroe Shetland Channel. MASSMO 5 was co-ordinated by the National Oceanography Centre (NOC) in partnership with University of East Anglia (UEA), Plymouth Marine Laboratory (PML) and Scottish Association for Marine Science (SAMS). The mission was sponsored by Defence Science and Technology Laboratory (DSTL) and involved close co-operation with the NATO Centre for Maritime Research and Experimentation (CMRE) and UK Royal Navy, and was supported by several additional commercial, government and research partners.

  • This dataset contains CTD, chlorophyll, and phytoplankton abundance and biomass data gathered through analysis of discrete water samples collected from multiple sailings of the RV Callista. The data were collected offshore of Falmouth, UK to explore the seasonally stratified waters of the Western English Channel in June and July 2013. Discrete water samples were taken with CTD profiles to examine the phytoplankton communities of subsurface chlorophyll maxima. Phytoplankton taxa/groups were identified, counted, and converted to a measure of biomass to analyse phyotplankton communities to determine if subsurface chlorophyll maximum thin layers (<5m thick) have a distinct phytoplankton community structure to that of broader maxima. The data were collected by Michelle Barnett as part of her PhD study funded by the Graduate School of the National Oceanography Centre, Southampton.

  • Rothera Oceanographic and Biological Time Series (RaTS) in Antarctica began in 1997 and involves regular sampling of the water column undertaken by CTD (conductivity, temperature and depth) casts with associated collection of discrete water samples and the deployment of four moorings. The RaTS site is located in Marguerite Bay, approximately 4 km from shore and over a water depth of approximately 520 m. Marguerite Bay is enclosed by Adelaide Island to the north, Alexander Island to the south and the Antarctic Peninsula to the east. When optimal conditions are not available a secondary site is occupied. In times when fast ice prevents sampling at both the primary and secondary site, a third site is utilised close to the Rothera Research Station. However, only a water sample is collected during this time as the water is too shallow to allow for a cast to be conducted. An upper ocean CTD cast is made every five days in the summer and every seven days in the winter, except when weather, ice or logistic constraints intervene. A CTD unit is lowered from an inflatable boat by use of a hand-cranked winch during summer months and through a hole in the ice during the winter. As well as conductivity, temperature and depth other variables measured from the CTD cast include fluorescence and down-welling irradiance. Measurements are typically binned to 1 metre increments with a varying maximum depth typically ranging between 200 and 500 metres. Subsequent data processing involves the calculation of salinity from the conductivity channel (applying the UNESCO 1983 algorithm), calculation of chlorophyll from raw fluorescence and calibration, plus calculating depth from the pressure output. Discrete water samples are taken from a depth of 15 m using a Niskin bottle closed with a brass messenger. Water samples collected are measured for macronutrients (nitrate, nitrite, phosphate, ammonia and silicate), chlorophyll (both whole and size fractionated), dissolved oxygen isotopes, dissolved organic carbon and microbial community analysis. There are two extended periods during which no data could be collected. August to December, in both 2000 and 2001. In 2000, there was an unusually extended period of unfavourable ice conditions which were too heavy for boat operations and unsafe for sledge operations. Then in the period during 2001 a fire occurred which resulted in loss of use of the laboratory at Rothera. It was not possible to restart observations until replacement equipment arrived with the relief of the Rothera Research Station the following December. The mooring deployments took place in January 2005 (13 months), February 2006 (10 months) and December 2006 (4 months). A further mooring was deployed in the Marguerite trough in January 2005 for approximately 13 months. Mooring instrumentation included current meters, acoustic Doppler current profilers (ADCP), temperature and depth recorders, a CTD and a sediment trap. These sensors were strung out from the surface down to approximately 390 m (sediment trap). Data was collected in 15 minute intervals from the ADCP and once every hour from all the other sensors. Data processing included calibration of the pressure, conductivity and pressure channels and calculation of salinity (from conductivity channel) and depth (from pressure channel). This time series is continuously monitored by the British Antarctic Survey in an attempt to gain a suite of oceanographic data which provide an environmental background to aid interpretation of the near-shore marine ecology and to test a series of broad hypothesis concerned with pelagic-benthic coupling and environmental forcing of the near-shore oceanographic environment. The project has previously been managed by Prof. Andrew Clarke and Prof. Mike Meredith. At present (November 2021), the project and dataset is directed and managed by Mr. Hugh Venables of the British Antarctic Survey and data are available on request from the British Oceanographic Data Centre.

  • The dataset comprises 54 hydrographic data profiles, collected by a conductivity-temperature-depth (CTD) sensor package, from across the North Sea area specifically the north-east coast and Dogger Bank, during June and July of 1999. 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 Centre for Environment, Fisheries and Aquaculture Science Lowestoft Laboratory.

  • The dataset comprises 12 hydrographic data profiles, collected by a conductivity-temperature-depth (CTD) sensor package, from across the North Sea area specifically the Dogger Bank area, during June and July of 2001. 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 Centre for Environment, Fisheries and Aquaculture Science Lowestoft Laboratory.

  • The dataset comprises 35 hydrographic data profiles, collected by a conductivity-temperature-depth (CTD) sensor package, from across the North Sea area specifically the Outer Thames Estuary and Dogger Bank, during August of 2001. 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 Centre for Environment, Fisheries and Aquaculture Science Lowestoft Laboratory.

  • The dataset comprises 19 hydrographic data profiles, collected by a conductivity-temperature-depth (CTD) sensor package, from across the Inner Seas off the west coast of Scotland area including specifically the Kyle of Lochalsh, Loch Torridon, Loch Duich and Loch Sunart. The data were collected during April of 2001. 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 Fisheries Research Services Aberdeen Marine Laboratory.

  • The dataset comprises 56 hydrographic data profiles, collected by a conductivity-temperature-depth (CTD) sensor package, from across the North Sea area including specifically along a transect offshore of Stonehaven, during May and June of 2001. 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 Fisheries Research Services Aberdeen Marine Laboratory.

  • The dataset comprises 102 hydrographic data profiles, collected by a conductivity-temperature-depth (CTD) sensor package, from across the North Sea and the Inner Seas off the west coast of Scotland area specifically the 13 lochs: Ewe, Torridon, Snizort Beg, Uig, Grimshader, Sandsound Voe, Vaila Sound, Aith Voe, Olna Firth, Swinning Voe, Collafirth Voe, Busta Voe, Dales Voe. The data were collected during August and September of 2002. 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 Fisheries Research Services Aberdeen Marine Laboratory.