Source: \\tjalve.uib.no\home\ngfif\work\Projects\ProVoLo\DataSubmit_NMDC\Cruise\PROVOLO_CTD.nc Format: netcdf4_classic Global Attributes: title = 'PROVOLO: Cruise hydrography (CTD) data' history = 'Version 1' summary = 'Shipboard salinity, temperature and density profiles from three PROVOLO cruises: - Cruise HM2016611, R.V. Haakon Mosby, 26 May-15 June 2016, 46 profiles - Cruise KB2017606, R.V. Kristine Bonnevie, 10-24 March 2017, 45 profiles - Cruise HB2017618, R.V. Kristine Bonnevie, 2-15 September 2017, 16 profiles to the Lofoten Basin of the Norwegian Sea. PROVOLO (Watermass transformation processes and vortex dynamics in the Lofoten Basin of the Norwegian Sea) is led at the Geophysical Institute, University of Bergen (PI: Ilker Fer) and is funded by the Research Council of Norway (project number 250784) for the period 01.01.2016-31.12.2019 to describe and quantify the processes and pathways of energy transfer and mixing in the Lofoten Basin and their role in water mass transformation. The data set includes 1-decibar vertically averaged profiles of in situ temperature (ITS-90 scale) and salinity (practical salinity scale). A SBE911+ system is used to collect data down to 5-20 m from seabed during both down and upcast. Data are processed using the standard Seabird Electronics software (SBEDataProcessing-Win32), using the recommended procedures. Only downcast profiles are used to avoid turbulence caused by rosette package on the upcast. The data set is quality-controlled but can include some spikes and irregularities left for the user to screen. Details on the processing, an overview of the data, and a detailed list of stations are provided in the attached cruise reports.' comment = 'Shipboard salinity, temperature and density profiles from three PROVOLO cruises: - Cruise HM2016611, R.V. Haakon Mosby, 26 May-15 June 2016, 46 profiles - Cruise KB2017606, R.V. Kristine Bonnevie, 10-24 March 2017, 45 profiles - Cruise HB2017618, R.V. Kristine Bonnevie, 2-15 September 2017, 16 profiles to the Lofoten Basin of the Norwegian Sea. The data set includes 1-decibar vertically averaged profiles of in situ temperature (ITS-90 scale), salinity (practical salinity scale) and potential density anomaly. The data set is quality-controlled but includes some spikes and irregularities left for the user to screen. ' type = 'CTD 1-dbar pressure averaged data' creation_time = '2019-03-01T14:53:03Z' date_update = '2019-03-01T14:53:04Z' Conventions = 'CF-1.6, ACDD-1.3' data_mode = 'D' platform_type = 'Research Vessel' area = 'Norwegian Sea, Lofoten Basin' geospatial_lat_min = 68 geospatial_lat_max = 73 geospatial_lon_min = -4 geospatial_lon_max = 14 time_coverage_start = '2016-05-29T20:44:19Z' time_coverage_end = '2017-09-12T02:22:56Z' institution = 'University of Bergen' principal_investigator = 'Ilker Fer' author = 'Ilker Fer, Anthony Bosse and Henrik Soiland' contact = 'ilker.fer@uib.no' project_name = 'PROVOLO, Watermass transformation processes and vortex dynamics in the Lofoten Basin of the Norwegian Sea' source = 'https://nmdc.no/' references = 'Fer, I., A. Bosse, B.Ferron, and P. Bouruet-Aubertot (2018): The dissipation of kinetic energy in the Lofoten Basin Eddy, J. Phys. Oceanogr., https://doi.org/10.1175/JPO-D-17-0244.1 Bosse A., I. Fer, H. Soiland and T. Rossby (2018): Atlantic water transformation along its poleward pathway across the Nordic Seas, J. Geophys Res., https://doi.org/10.1029/2018JC014147 Bosse A., I. Fer, J.M. Lilly and H. Soiland (submitted): Dynamical controls on the longevity of a non-linear vortex: The case of the Lofoten Basin Eddy' keywords = 'Lofoten Basin, eddies, hydrography, CTD' creator_name = 'Ilker Fer' creator_email = 'ilker.fer@uib.no' creator_url = 'https://www.uib.no/gfi' acknowledgement = 'This data set is made possible by the funding from the Research Council of Norway' date_created = '2019-03-01' Dimensions: TIME = 107 Z = 3283 Variables: TIME Size: 107x1 Dimensions: TIME Datatype: double Attributes: standard_name = 'time' long_name = 'Decimal day' units = 'Days since 2016-01-01T00:00:00Z' axis = 'T' LATITUDE Size: 107x1 Dimensions: TIME Datatype: double Attributes: standard_name = 'latitude' long_name = 'Measurement position, latitude' units = 'degree_north' axis = 'Y' LONGITUDE Size: 107x1 Dimensions: TIME Datatype: double Attributes: standard_name = 'longitude' long_name = 'Measurement position, longitude' units = 'degree_east' axis = 'X' BDEPTH Size: 107x1 Dimensions: TIME Datatype: double Attributes: standard_name = 'sea_floor_depth_below_sea_surface' units = 'm' long_name = 'Depth at sea floor at measurement time.' PRES Size: 107x3283 Dimensions: TIME,Z Datatype: double Attributes: standard_name = 'sea_water_pressure' units = 'decibar' long_name = 'Sea water pressure, equals 0 at sea-level' axis = 'Z' TEMP Size: 107x3283 Dimensions: TIME,Z Datatype: double Attributes: standard_name = 'sea_water_temperature' units = 'degree_Celsius' long_name = 'sea water temperature in-situ ITS-90 scale' PSAL Size: 107x3283 Dimensions: TIME,Z Datatype: double Attributes: standard_name = 'sea_water_practical_salinity' units = '1' long_name = 'Practical salinity on the PSS-78 scale' SIGTH Size: 107x3283 Dimensions: TIME,Z Datatype: double Attributes: standard_name = 'sea_water_sigma_theta' units = 'kg/m3' long_name = 'Potential density anomaly referenced to surface pressure'