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| griddap | Subset | tabledap | Make A Graph | wms | files | Title | Summary | FGDC | ISO 19115 | Info | Background Info | RSS | Institution | Dataset ID | |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| https://erddap.s4polarin.eu/erddap-cnr/erddap/tabledap/ARICE_Amundsen_AVOS_v1 | https://erddap.s4polarin.eu/erddap-cnr/erddap/tabledap/ARICE_Amundsen_AVOS_v1.graph | https://erddap.s4polarin.eu/erddap-cnr/erddap/files/ARICE_Amundsen_AVOS_v1/ | AVOS Meteorological Data collected by the CCGS Amundsen in the Canadian Arctic | Environment Canada installed a meteorological system on the Voluntary Observing Ship (VOS) scheme part of the CCGS Amundsen. The system is composed of a Digital Barometer (Vaisala PTB-210), an R.M Anemometer (Young 05103) and a Humidity-Temperature Meteorological sensor (Rotronic MP101). The system continuously recorded Atmospheric pressure, Wind Speed and Direction, Air temperature and Humidity every 4 seconds for the CCGS Amundsen expeditions between 2004 and 2017. No data was collected in 2012 since the vessel was undergoing maintenance (dry docks). The true wind was directly calculated by the system using the ship's gyrocompass, the recorded apparent wind and Global Positioning System (GPS) data (speed and track of the ship from POS-MV and C-NAV Differential Global Navigation Satellite System (DGNSS) Precise Point positioning systems). Then the AVOS system averaged the data at 10 minute or hourly intervals. Outliers and suspicious measurements were removed from the dataset and the resulting controlled data are provided at 10 minute or hourly intervals for each day of the expeditions. Research programs participating in the Amundsen expeditions between 2004 and 2017 include CASES, ArcticNet, CFL, Geotraces, Malina, IOL and BP, BREA, Weston, Netcare, JAMSTEC, Statoil and iBO and GreenEdge.\n\ncdm_data_type = Point\nVARIABLES:\nlatitude (degrees_north)\nlongitude (degrees_east)\nWDIR (wind from direction relative true north, degree)\nWSPD (horizontal wind speed, m/s)\nDRYT (air temperature in dry bulb, degree_Celsius)\nDEWT (dew point temperature, degree_Celsius)\nATMS (atmospheric pressure at sea level, hPa)\ntime (Valid Time GMT, seconds since 1970-01-01T00:00:00Z)\nWDIR_QC (WDIR quality flag, 1)\nWSPD_QC (WSPD quality flag, 1)\nDRYT_QC (DRYT quality flag, 1)\nDEWT_QC (DEWT quality flag, 1)\nATMS_QC (ATMS quality flag, 1)\n | https://erddap.s4polarin.eu/erddap-cnr/erddap/metadata/fgdc/xml/ARICE_Amundsen_AVOS_v1_fgdc.xml | https://erddap.s4polarin.eu/erddap-cnr/erddap/metadata/iso19115/xml/ARICE_Amundsen_AVOS_v1_iso19115.xml | https://erddap.s4polarin.eu/erddap-cnr/erddap/info/ARICE_Amundsen_AVOS_v1/index.htmlTable | https://metadata.arice-h2020.eu/geonetwork/srv/eng/catalog.search#/metadata/6905b1bf-0562-4d22-8963-9c71f3f9bf21
| https://erddap.s4polarin.eu/erddap-cnr/erddap/rss/ARICE_Amundsen_AVOS_v1.rss | https://erddap.s4polarin.eu/erddap-cnr/erddap/subscriptions/add.html?datasetID=ARICE_Amundsen_AVOS_v1&showErrors=false&email= | Canadian Cryospheric Information Network | ARICE_Amundsen_AVOS_v1 | |||
| https://erddap.s4polarin.eu/erddap-cnr/erddap/tabledap/cnr_iadc_0b93_a452_852a.subset | https://erddap.s4polarin.eu/erddap-cnr/erddap/tabledap/cnr_iadc_0b93_a452_852a | https://erddap.s4polarin.eu/erddap-cnr/erddap/tabledap/cnr_iadc_0b93_a452_852a.graph | CH4 and CO2 turbulent flux at Ny Alesund (cct output p5ys9m) | Measurement of the concentration and turbulent flux of CO2 and CH4 at 15 m above sea level on the CCT.\n\ncdm_data_type = TimeSeries\nVARIABLES:\ntime (seconds since 1970-01-01T00:00:00Z)\nH (Sensible Heat Flux, W m-2)\nLE (Latent Heat Flux, W m-2)\nco2_flux (µmol s-1 m-2)\nch4_flux (µmol s-1 m-2)\nco2_mixing_ratio (µmol s-1 m-2)\nch4_mixing_ratio (µmol s-1 m-2)\nsonic_temperature (K)\nair_temperature (degree_C)\nair_pressure (Pa)\nRH (percent)\nwind_speed (m s-1)\nwind_dir (Wind From Direction, degree)\nustar (Friction Velocity, m s-1)\nTKE (Turbulent Kinetic Energy, m s-2)\nL (Monin Obokhov Length, m)\nstability_index (1)\nTG1 (Soil Temperature 5 cm, degree_C)\nTG2 (Soil Temperature 10 cm, degree_C)\nsnow_h_m (Snow Depth, m)\nco2_flux_mass (gC m-2 s-1)\nch4_flux_mass (gC m-2 s-1)\nco2_mass_ex (CO2 Exchange Mass, gC m-2)\nch4_mass_ex (CH4 Exchange Mass, gC m-2)\nustar_f (Friction Velocity gap filled, m s-1)\nLE_f (Latent Heat Flux gap filled, W m-2)\n... (12 more variables)\n | https://erddap.s4polarin.eu/erddap-cnr/erddap/metadata/fgdc/xml/cnr_iadc_0b93_a452_852a_fgdc.xml | https://erddap.s4polarin.eu/erddap-cnr/erddap/metadata/iso19115/xml/cnr_iadc_0b93_a452_852a_iso19115.xml | https://erddap.s4polarin.eu/erddap-cnr/erddap/info/cnr_iadc_0b93_a452_852a/index.htmlTable | https://metadata.iadc.cnr.it/geonetwork/srv/api/records/a4848f34-1063-4ee0-b0ed-b358ca30a651
| https://erddap.s4polarin.eu/erddap-cnr/erddap/rss/cnr_iadc_0b93_a452_852a.rss | https://erddap.s4polarin.eu/erddap-cnr/erddap/subscriptions/add.html?datasetID=cnr_iadc_0b93_a452_852a&showErrors=false&email= | CNR | cnr_iadc_0b93_a452_852a | |||
| https://erddap.s4polarin.eu/erddap-cnr/erddap/tabledap/cnr_iadc_aa28_010e_cd20 | https://erddap.s4polarin.eu/erddap-cnr/erddap/tabledap/cnr_iadc_aa28_010e_cd20.graph | Climate Change Tower Meteorological Data (D2, 30 minutes average) (cct meteo d2) | Climate Change Tower Meteorological Data (D2 - 30 minutes average). The Climate Change Tower Integrated Project (CCT-IP) represents the guide lines of the italian research in the arctic and aims to study the interaction between all the components of the climate system in the Arctic. The Amundsen-Nobile Climate Change Tower (CCT) is the key infrastructure of the project, and provides continuous acquisition of the atmospheric parameters at different heights as well as at the interface between the surface and the atmosphere.\n\ncdm_data_type = TimeSeries\nVARIABLES:\nstation_id (Id of the station in the TimeSeries)\nlatitude (latitude position of the station, degrees_north)\nlongitude (longitude position of the station, degrees_east)\ntime (Mean Date, seconds since 1970-01-01T00:00:00Z)\nTemperature_average_at_33m (average of air temperature measurements at 33m, degree_C)\nTemperature_standard_deviation_at_33m (standard deviation of air temperature measurements at 33m, degree_C)\nTemperature_n_values_at_33m (number of measurements every 30 minutes of air temperature at 33m)\nTemperature_average_at_10m (average of air temperature measurements at 10m, degree_C)\nTemperature_standard_deviation_at_10m (standard deviation of air temperature measurements at 10m, degree_C)\nTemperature_n_values_at_10m (number of measurements every 30 minutes of air temperature at 10m)\nTemperature_average_at_5m (average of air temperature measurements at 5m, degree_C)\nTemperature_standard_deviation_at_5m (standard deviation of air temperature measurements at 5m, degree_C)\nTemperature_n_values_at_5m (number of measurements every 30 minutes of air temperature at 5m)\nTemperature_average_at_2m (average of air temperature measurements at 2m, degree_C)\nTemperature_standard_deviation_at_2m (standard deviation of air temperature measurements at 2m, degree_C)\nTemperature_n_values_at_2m (number of measurements every 30 minutes of air temperature at 2m)\nRelative_humidity_average_at_33m (average of relative humidity at 33 meters above ground level, percent)\nRelative_humidity_standard_deviation_at_33m (standard deviation of relative humidity at 33 meters above ground level, percent)\nRelative_humidity_n_values_at_33m (number of measurements every 30 minutes of relative humidity at 2m)\nRelative_humidity_average_at_10m (average of relative humidity at 10 meters above ground level, percent)\nRelative_humidity_standard_deviation_at_10m (standard deviation of relative humidity at 10 meters above ground level, percent)\nRelative_humidity_n_values_at_10m (number of measurements every 30 minutes of relative humidity at 10m)\n... (37 more variables)\n | https://erddap.s4polarin.eu/erddap-cnr/erddap/metadata/fgdc/xml/cnr_iadc_aa28_010e_cd20_fgdc.xml | https://erddap.s4polarin.eu/erddap-cnr/erddap/metadata/iso19115/xml/cnr_iadc_aa28_010e_cd20_iso19115.xml | https://erddap.s4polarin.eu/erddap-cnr/erddap/info/cnr_iadc_aa28_010e_cd20/index.htmlTable | https://metadata.iadc.cnr.it/geonetwork/srv/api/records/cb5b0a66-5c66-4c19-8de9-b1a7b7373f34
| https://erddap.s4polarin.eu/erddap-cnr/erddap/rss/cnr_iadc_aa28_010e_cd20.rss | https://erddap.s4polarin.eu/erddap-cnr/erddap/subscriptions/add.html?datasetID=cnr_iadc_aa28_010e_cd20&showErrors=false&email= | CNR | cnr_iadc_aa28_010e_cd20 | ||||
| https://erddap.s4polarin.eu/erddap-cnr/erddap/tabledap/cnr_iadc_f6fc_9dff_619a.subset | https://erddap.s4polarin.eu/erddap-cnr/erddap/tabledap/cnr_iadc_f6fc_9dff_619a | https://erddap.s4polarin.eu/erddap-cnr/erddap/tabledap/cnr_iadc_f6fc_9dff_619a.graph | Climate Change Tower Radiation Data (D2, 30 minutes average) (cct radiazione d2) | Climate Change Tower Radiation Data (D2 - 30 minutes average). The Climate Change Tower Integrated Project (CCT-IP) represents the guide lines of the italian research in the arctic and aims to study the interaction between all the components of the climate system in the Arctic. The Amundsen-Nobile Climate Change Tower (CCT) is the key infrastructure of the project, and provides continuous acquisition of the atmospheric parameters at different heights as well as at the interface between the surface and the atmosphere.\n\ncdm_data_type = TimeSeries\nVARIABLES:\nstation_id (Id of the station in the TimeSeries)\nlatitude (latitude position of the station, degrees_north)\nlongitude (longitude position of the station, degrees_east)\ntime (Mean Date, seconds since 1970-01-01T00:00:00Z)\nShortwave_downwelling_radiation_average_at_33m (average of shortwave downwelling radiation at 33 m from CNR1, W m-2)\nShortwave_downwelling_radiation_standard_deviation_at_33m (standard deviation of shortwave downwelling radiation at 33 m from CNR1, W m-2)\nShortwave_downwelling_radiation_n_values_at_33m (number of measurements every 30 minutes of shortwave downwelling radiation at 33 m from CNR1)\nShortwave_upwelling_radiation_average_at_33m (average of shortwave upwelling radiation at 33 m from CNR1, W m-2)\nShortwave_upwelling_radiation_standard_deviation_at_33m (standard deviation of shortwave upwelling radiation at 33 m from CNR1, W m-2)\nShortwave_upwelling_radiation_n_values_at_33m (number of measurements every 30 minutes of shortwave upwelling radiation at 33 m from CNR1)\nShortwave_upwelling_radiation_average_at_25m (average of shortwave upwelling radiation at 33 m from CM11, W m-2)\nShortwave_upwelling_radiation_standard_deviation_at_25m (standard deviation of shortwave upwelling radiation at 33 m from CM11, W m-2)\nShortwave_upwelling_radiation_n_values_at_25m (number of measurements every 30 minutes of shortwave upwelling radiation at 33 m from CM11)\nLongwave_downwelling_radiation_average_at_33m (average of longwave downwelling radiation at 33 m from CNR1, W m-2)\nLongwave_downwelling_radiation_standard_deviation_at_33m (standard deviation of longwave downwelling radiation at 33 m from CNR1, W m-2)\nLongwave_downwelling_radiation_n_values_at_33m (number of measurements every 30 minutes of longwave downwelling radiation at 33 m from CNR1, degrees_east)\nLongwave_upwelling_radiation_average_at_33m (average of longwave upwelling radiation at 33 m from CNR1, W m-2)\nLongwave_upwelling_radiation_standard_deviation_at_33m (standard deviation of longwave upwelling radiation at 33 m from CNR1, W m-2)\nLongwave_upwelling_radiation_n_values_at_33m (number of measurements every 30 minutes of longwave upwelling radiation at 33 m from CNR1, degrees_east)\nLongwave_upwelling_radiation_average_at_25m (average of longwave upwelling radiation at 33 m from CG4, W m-2)\nLongwave_upwelling_radiation_standard_deviation_at_25m (standard deviation of longwave upwelling radiation at 33 m from CG4, W m-2)\nLongwave_upwelling_radiation_n_values_at_25m (number of measurements every 30 minutes of longwave upwelling radiation at 33 m from CG4, degrees_east)\n... (4 more variables)\n | https://erddap.s4polarin.eu/erddap-cnr/erddap/metadata/fgdc/xml/cnr_iadc_f6fc_9dff_619a_fgdc.xml | https://erddap.s4polarin.eu/erddap-cnr/erddap/metadata/iso19115/xml/cnr_iadc_f6fc_9dff_619a_iso19115.xml | https://erddap.s4polarin.eu/erddap-cnr/erddap/info/cnr_iadc_f6fc_9dff_619a/index.htmlTable | https://metadata.iadc.cnr.it/geonetwork/srv/api/records/e4872959-4cf2-48df-8195-e8065411be49
| https://erddap.s4polarin.eu/erddap-cnr/erddap/rss/cnr_iadc_f6fc_9dff_619a.rss | https://erddap.s4polarin.eu/erddap-cnr/erddap/subscriptions/add.html?datasetID=cnr_iadc_f6fc_9dff_619a&showErrors=false&email= | CNR | cnr_iadc_f6fc_9dff_619a | |||
| https://erddap.s4polarin.eu/erddap-cnr/erddap/tabledap/cnr_iadc_5f86_f76a_5cb9.subset | https://erddap.s4polarin.eu/erddap-cnr/erddap/tabledap/cnr_iadc_5f86_f76a_5cb9 | https://erddap.s4polarin.eu/erddap-cnr/erddap/tabledap/cnr_iadc_5f86_f76a_5cb9.graph | Climate Change Tower Soil Temperature Data (D2) (cct soil d2) | The Climate Change Tower Integrated Project (CCT-IP) represents the guide lines of the italian research in the arctic and aims to study the interaction between all the components of the climate system in the Arctic. The Amundsen-Nobile Climate Change Tower (CCT) is the key infrastructure of the project, and provides continuous acquisition of the atmospheric parameters at different heights as well as at the interface between the surface and the atmosphere.\n\ncdm_data_type = TimeSeries\nVARIABLES:\nstation_id (Id of the station in the TimeSeries)\nlatitude (latitude position of the station, degrees_north)\nlongitude (longitude position of the station, degrees_east)\ntime (Mean Date, seconds since 1970-01-01T00:00:00Z)\nSoil_temperature_average_at_5cm (average of soil temperature at 5 cm under the surface, degree_Celsius)\nSoil_temperature_standard_deviation_at_5cm (standard deviation of soil temperature at 5 cm under the surface, degree_Celsius)\nSoil_temperature_n_values_at_5cm (number of measurements every 30 minutes of soil temperature at 5 cm under the surface)\nSoil_temperature_average_at_10cm (average of soil temperature at 10 cm under the surface, degree_Celsius)\nSoil_temperature_standard_deviation_at_10cm (standard deviation of soil temperature at 10 cm under the surface, degree_Celsius)\nSoil_temperature_n_values_at_10cm (number of measurements every 30 minutes of soil temperature at 10 cm under the surface)\n | https://erddap.s4polarin.eu/erddap-cnr/erddap/metadata/fgdc/xml/cnr_iadc_5f86_f76a_5cb9_fgdc.xml | https://erddap.s4polarin.eu/erddap-cnr/erddap/metadata/iso19115/xml/cnr_iadc_5f86_f76a_5cb9_iso19115.xml | https://erddap.s4polarin.eu/erddap-cnr/erddap/info/cnr_iadc_5f86_f76a_5cb9/index.htmlTable | http://iadc.cnr.it
| https://erddap.s4polarin.eu/erddap-cnr/erddap/rss/cnr_iadc_5f86_f76a_5cb9.rss | https://erddap.s4polarin.eu/erddap-cnr/erddap/subscriptions/add.html?datasetID=cnr_iadc_5f86_f76a_5cb9&showErrors=false&email= | CNR | cnr_iadc_5f86_f76a_5cb9 | |||
| https://erddap.s4polarin.eu/erddap-cnr/erddap/tabledap/cnr_iadc_71d7_3c35_4bfe.subset | https://erddap.s4polarin.eu/erddap-cnr/erddap/tabledap/cnr_iadc_71d7_3c35_4bfe | https://erddap.s4polarin.eu/erddap-cnr/erddap/tabledap/cnr_iadc_71d7_3c35_4bfe.graph | Climate Change Tower Soil Temperature Data (D2) (zhigyy) | The Climate Change Tower Integrated Project (CCT-IP) represents the guide lines of the italian research in the arctic and aims to study the interaction between all the components of the climate system in the Arctic. The Amundsen-Nobile Climate Change Tower (CCT) is the key infrastructure of the project, and provides continuous acquisition of the atmospheric parameters at different heights as well as at the interface between the surface and the atmosphere.\n\ncdm_data_type = TimeSeries\nVARIABLES:\nstation_id (Id of the station in the TimeSeries)\nlatitude (latitude position of the station, degrees_north)\nlongitude (longitude position of the station, degrees_east)\nrowSize (Number of Observations for this TimeSeries)\ntime (Mean Date, seconds since 1970-01-01T00:00:00Z)\nSoil_temperature_average_at_5cm (average of soil temperature at 5 cm under the surface, degree_Celsius)\nSoil_temperature_standard_deviation_at_5cm (standard deviation of soil temperature at 5 cm under the surface, degree_Celsius)\nSoil_temperature_n_values_at_5cm (number of measurements every 30 minutes of soil temperature at 5 cm under the surface)\nSoil_temperature_average_at_10cm (average of soil temperature at 10 cm under the surface, degree_Celsius)\nSoil_temperature_standard_deviation_at_10cm (standard deviation of soil temperature at 10 cm under the surface, degree_Celsius)\nSoil_temperature_n_values_at_10cm (number of measurements every 30 minutes of soil temperature at 10 cm under the surface)\n | https://erddap.s4polarin.eu/erddap-cnr/erddap/metadata/fgdc/xml/cnr_iadc_71d7_3c35_4bfe_fgdc.xml | https://erddap.s4polarin.eu/erddap-cnr/erddap/metadata/iso19115/xml/cnr_iadc_71d7_3c35_4bfe_iso19115.xml | https://erddap.s4polarin.eu/erddap-cnr/erddap/info/cnr_iadc_71d7_3c35_4bfe/index.htmlTable | http://iadc.cnr.it
| https://erddap.s4polarin.eu/erddap-cnr/erddap/rss/cnr_iadc_71d7_3c35_4bfe.rss | https://erddap.s4polarin.eu/erddap-cnr/erddap/subscriptions/add.html?datasetID=cnr_iadc_71d7_3c35_4bfe&showErrors=false&email= | CNR | cnr_iadc_71d7_3c35_4bfe | |||
| https://erddap.s4polarin.eu/erddap-cnr/erddap/tabledap/cnr_iadc_3457_70fb_6b7c.subset | https://erddap.s4polarin.eu/erddap-cnr/erddap/tabledap/cnr_iadc_3457_70fb_6b7c | https://erddap.s4polarin.eu/erddap-cnr/erddap/tabledap/cnr_iadc_3457_70fb_6b7c.graph | Daily equivalent black carbon from aerosol absorption coefficient data for\nACPD submission | Daily averages of equivalent black carbon from aerosol absorption coefficient at 660nm measured using a Particle Soot Absorption Photometer (PSAP), manufactured by Radiance Research. MAC equal to 10 m^2/g.\n\ncdm_data_type = TimeSeries\nVARIABLES:\nstation_id (Id of the station in the TimeSeries)\nlatitude (latitude position of the station, degrees_north)\nlongitude (longitude position of the station, degrees_east)\ntime (Date of the measurement, seconds since 1970-01-01T00:00:00Z)\nEquivalent_black_carbon (ng/m^3)\nAir_temperature (Air temperature at 5 meters above ground level, K)\nRelative_humidity (Relative humidity at 5 meters above ground level, percent)\nPressure (Atmospheric pressure, hPa)\nShortwave_downwelling_radiation (Shortwave radiation, downwelling, W m-2)\nWind_speed (Wind speed at 5 meters above ground level, m s-1)\nWind_direction (Wind direction at 5 meters above ground level, degree)\n | https://erddap.s4polarin.eu/erddap-cnr/erddap/metadata/fgdc/xml/cnr_iadc_3457_70fb_6b7c_fgdc.xml | https://erddap.s4polarin.eu/erddap-cnr/erddap/metadata/iso19115/xml/cnr_iadc_3457_70fb_6b7c_iso19115.xml | https://erddap.s4polarin.eu/erddap-cnr/erddap/info/cnr_iadc_3457_70fb_6b7c/index.htmlTable | https://data.iadc.cnr.it/erddap/tabledap/gilardoni_acdp_2018_2021.html
| https://erddap.s4polarin.eu/erddap-cnr/erddap/rss/cnr_iadc_3457_70fb_6b7c.rss | https://erddap.s4polarin.eu/erddap-cnr/erddap/subscriptions/add.html?datasetID=cnr_iadc_3457_70fb_6b7c&showErrors=false&email= | CNR-ISP | cnr_iadc_3457_70fb_6b7c | |||
| https://erddap.s4polarin.eu/erddap-cnr/erddap/tabledap/cnr_isp_b8da_dc99_fadd.subset | https://erddap.s4polarin.eu/erddap-cnr/erddap/tabledap/cnr_isp_b8da_dc99_fadd | https://erddap.s4polarin.eu/erddap-cnr/erddap/tabledap/cnr_isp_b8da_dc99_fadd.graph | EMSO E2M3A Particulate Matter (EMSO PM E2M3A 2013 2020) | N.2 sediment traps are mounted on E2M3A mooring at 120m and 1150 m depth. Automated Technicap model PPS 3/3 are used for studying downward particulate matter transport in the ocean, both organic and inorganic fractions.\n\ncdm_data_type = TimeSeries\nVARIABLES:\nstation (Station name)\nlatitude (latitude of measurements, degrees_north)\nlongitude (longitude of measurements, degrees_east)\nsample_name (Name of the sample)\ntime (start time of measurements, seconds since 1970-01-01T00:00:00Z)\nend_time (end time of measurements, seconds since 1970-01-01T00:00:00Z)\nDuration_in_number_of_days (Sample acquisition Duration, days)\nTotal_mass_flux_1150m (Total mass flux at 1150m, mg m-2 day-1)\nQC_TMF_1150m (Total mass flux at 1150m quality flag)\nC_org_flux_1150m (org flux at 1150m, mg m-2 day-1)\nQC_Corg_flux_1150m (Particulate organic carbon mass flux at 1150 m quality flag)\nCaCO3_flux_1150m (CaCO3 flux at 1150m, mg m-2 day-1)\nQC_CaCO3_flux_1150m (Calcium carbonate mass flux at 1150 m quality flag)\nbSiO2_flux_1150m (bSiO2 flux at 1150m, mg m-2 day-1)\nQC_bSiO2_flux_1150m (Particulate Biogenic silica mass flux at 1150 m quality flag)\nTotal_mass_flux_120m (Total mass flux at 120m, mg m-2 day-1)\nQC_TMF_120m (Total mass flux at 120m quality flag)\nC_org_flux_120m (C org flux at 120m, mg m-2 day-1)\nQC_Corg_flux_120m (Particulate organic carbon mass flux at 120 m quality flag)\nCaCO3_flux_120m (CaCO3 flux at 120m, mg m-2 day-1)\nQC_CaCO3_flux_120m (Calcium carbonate mass flux at 120 m quality flag)\nBioSi_flux_120m (bSiO2 flux at 120m, mg m-2 day-1)\nQC_bSiO2_flux_120m (Particulate Biogenic silica mass flux at 120 m quality flag)\n | https://erddap.s4polarin.eu/erddap-cnr/erddap/metadata/fgdc/xml/cnr_isp_b8da_dc99_fadd_fgdc.xml | https://erddap.s4polarin.eu/erddap-cnr/erddap/metadata/iso19115/xml/cnr_isp_b8da_dc99_fadd_iso19115.xml | https://erddap.s4polarin.eu/erddap-cnr/erddap/info/cnr_isp_b8da_dc99_fadd/index.htmlTable | https://www.isp.cnr.it/index.php/en/science/other-activities/adriatic-sea#mooring-southern-adriatic-msa
| https://erddap.s4polarin.eu/erddap-cnr/erddap/rss/cnr_isp_b8da_dc99_fadd.rss | https://erddap.s4polarin.eu/erddap-cnr/erddap/subscriptions/add.html?datasetID=cnr_isp_b8da_dc99_fadd&showErrors=false&email= | CNR-ISP | cnr_isp_b8da_dc99_fadd | |||
| https://erddap.s4polarin.eu/erddap-cnr/erddap/tabledap/cnr_iadc_833c_89bd_34ae.subset | https://erddap.s4polarin.eu/erddap-cnr/erddap/tabledap/cnr_iadc_833c_89bd_34ae | https://erddap.s4polarin.eu/erddap-cnr/erddap/tabledap/cnr_iadc_833c_89bd_34ae.graph | Inter-comparison of UV radiometers at Svalbard (icare) | The main goal of the UltraViolet (UV)-ICARE project was to establish a network of UV-monitoring stations on Svalbard, which is optimally coordinated and homogenised. This implies harmonization of operational routines, data analysis and storage, including a thorough instrument inter-comparison. The latter was a central element of activities.\n\ncdm_data_type = TimeSeries\nVARIABLES:\nstation_id (Id of the station in the TimeSeries)\nlatitude (latitude position of the station, degrees_north)\nlongitude (longitude position of the station, degrees_east)\ntime (Date and time of the measurement, seconds since 1970-01-01T00:00:00Z)\nSolar_zenith_angle (Angular distance of the Sun regarding the zenith calculated at the corresponding time, degree)\nGUV_UVE (Erythemally weighted solar UV irradiance in mW m-2 provided by GUV radiometer (based in Ny-Ålesund) during the intercomparison campaign in Ny-Ålesund, mW m-2)\nUVS_E_T (Erythemally weighted solar UV irradiance in mW m-2 provided by Kipp and Zonen UVS-E-T radiometer (based in Longyearbyen) during the intercomparison campaign in Ny-Ålesund, mW m-2)\nUV_AE_T (Erythemally weighted solar UV irradiance in mW m-2 provided by Kipp and Zonen UVS-AE-T radiometer (based in Hornsund) during the intercomparison campaign in Ny-Ålesund, mW m-2)\nUV_RAD_UVE (Erythemally weighted solar UV irradiance in mW m-2 provided by UV-RAD radiometer (based in Ny-Ålesund) during the intercomparison campaign in Ny-Ålesund, mW m-2)\nBrewer050_UVE (Erythemally weighted solar UV irradiance in mW m-2 provided by Brewer #050 spectroradiometer (based in Ny-Ålesund) during the intercomparison campaign in Ny-Ålesund, mW m-2)\nGUV_ozone_column (Columnar ozone content in Dobson Units (DU) provided by GUV radiometer (based in Ny-Ålesund) during the intercomparison campaign in Ny-Ålesund, DU)\nUV_RAD_ozone_column (Columnar ozone content in Dobson Units (DU) provided by UV-RAD radiometer (based in Ny-Ålesund) during the intercomparison campaign in Ny-Ålesund, DU)\nBrewer050_ozone_column (Columnar ozone content in Dobson Units (DU) provided by Brewer #050 spectroradiometer (based in Ny-Ålesund) during the intercomparison campaign in Ny-Ålesund, DU)\nBrewer050_ozone_column_error (The error of the columnar ozone content in Dobson Units (DU) determined by Brewer #050 spectroradiometer (based in Ny-Ålesund) during the intercomparison campaign in Ny-Ålesund, DU)\nBrewer050_type_of_measurements (Type of the measurements to determine the columnar ozone content determined by Brewer #050 spectroradiometer (based in Ny-Ålesund) during the intercomparison campaign in Ny-Ålesund (?ds? is the direct sun measurements, ?zs? is the zenith sky measurements and ?fz? is the focused sun measurements))\n | https://erddap.s4polarin.eu/erddap-cnr/erddap/metadata/fgdc/xml/cnr_iadc_833c_89bd_34ae_fgdc.xml | https://erddap.s4polarin.eu/erddap-cnr/erddap/metadata/iso19115/xml/cnr_iadc_833c_89bd_34ae_iso19115.xml | https://erddap.s4polarin.eu/erddap-cnr/erddap/info/cnr_iadc_833c_89bd_34ae/index.htmlTable | https://www.isp.cnr.it/index.php/it/
| https://erddap.s4polarin.eu/erddap-cnr/erddap/rss/cnr_iadc_833c_89bd_34ae.rss | https://erddap.s4polarin.eu/erddap-cnr/erddap/subscriptions/add.html?datasetID=cnr_iadc_833c_89bd_34ae&showErrors=false&email= | CNR-ISP | cnr_iadc_833c_89bd_34ae |