Source: \\tjalve.uib.no\home\ngfif\work\Projects\ProVoLo\DataSubmit_NMDC\Cruise\PROVOLO_SADCP.nc Format: netcdf4_classic Global Attributes: title = 'PROVOLO: Current profiles from vessel-mounted acoustic Doppler current profilers' history = 'Version 1' summary = 'Current profiles from the vessel-mounted acoustic Doppler current profiler (SADCP) from three PROVOLO cruises to the Lofoten Basin of the Norwegian Sea: - Cruise HM2016611, R.V. Haakon Mosby, 26 May-15 June 2016, - Cruise KB2017606, R.V. Kristine Bonnevie, 10-24 March 2017, - Cruise HB2017618, R.V. Kristine Bonnevie, 2-15 September 2017, PROVOLO (Watermass transformation processes and vortex dynamics in the Lofoten Basin of the Norwegian Sea) is led by 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. PROVOLO studies the processes and pathways of energy transfer and mixing in the Lofoten Basin and their role in water mass transformation. The dataset is quality controlled and includes the east and north components of the velocities. Tides are not removed. The SADCP systems, vertical bin size and processing methods are: June 2016 : 75 kHz RDI, 16 m vertical bins. 2 min time averages. Collected using the VmDAS software. Post-processing is done using the U. Hawaii CODAS software Mar and Sep 2017: 150 kHz RDI, 8 m vertical bins. 3 min time averages. Collected and processed using the UHDAS software. Further details are provided in the attached cruise reports.' comment = 'Current profiles from the vessel-mounted acoustic Doppler current profiler (SADCP) from three PROVOLO cruises to the Lofoten Basin of the Norwegian Sea: - Cruise HM2016611, R.V. Haakon Mosby, 26 May-15 June 2016, - Cruise KB2017606, R.V. Kristine Bonnevie, 10-24 March 2017, - Cruise HB2017618, R.V. Kristine Bonnevie, 2-15 September 2017, The dataset is quality controlled and includes the east and north components of the velocities. Tides are not removed. The SADCP systems, vertical bin size and processing methods are: June 2016 : 75 kHz RDI, 16 m vertical bins. 2 min time averages. Collected using the VmDAS software. Post-processing is done using the U. Hawaii CODAS software Mar and Sep 2017: 150 kHz RDI, 8 m vertical bins. 3 min time averages. Collected and processed using the UHDAS software. Further details are provided in the attached cruise reports.' type = 'vessel-mounted Acustic Doppler Curent profiler data.' creation_time = '2019-03-01T15:25:48Z' date_update = '2019-03-01T15:25:48Z' Conventions = 'CF-1.6, ACDD-1.3' data_mode = 'D' platform_type = 'Research Vessel' area = 'Norwegian Sea, Lofoten Basin' geospatial_lat_min = 60 geospatial_lat_max = 73 geospatial_lon_min = -6 geospatial_lon_max = 18 time_coverage_start = '2016-05-27T16:31:12Z' time_coverage_end = '2017-09-13T18:11:08Z' institution = 'University of Bergen' principal_investigator = 'Ilker Fer' author = 'Ilker Fer 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, ocean currents, LADCP' 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 = 23164 DEPTH = 55 Variables: TIME Size: 23164x1 Dimensions: TIME Datatype: double Attributes: standard_name = 'time' long_name = 'Decimal day' units = 'Days since 2016-01-01T00:00:00Z' axis = 'T' LATITUDE Size: 23164x1 Dimensions: TIME Datatype: double Attributes: standard_name = 'latitude' long_name = 'Measurement position, latitude' units = 'degree_north' axis = 'Y' LONGITUDE Size: 23164x1 Dimensions: TIME Datatype: double Attributes: standard_name = 'longitude' long_name = 'Measurement position, longitude' units = 'degree_east' axis = 'X' DEPTH Size: 55x23164 Dimensions: DEPTH,TIME Datatype: double Attributes: standard_name = 'depth' units = 'm' long_name = 'Vetical distance below sea surface' v Size: 55x23164 Dimensions: DEPTH,TIME Datatype: double Attributes: standard_name = 'northward_sea_water_velocity' units = 'm s-1' long_name = 'Absolute northward sea water velocity' u Size: 55x23164 Dimensions: DEPTH,TIME Datatype: double Attributes: standard_name = 'eastward_sea_water_velocity' units = 'm s-1' long_name = 'Absolute eastward sea water velocity'