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| griddap | Subset | tabledap | Make A Graph | wms | files | Accessible | Title | Summary | FGDC | ISO 19115 | Info | Background Info | RSS | Institution | Dataset ID | |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| https://data.iadc.cnr.it/erddap/tabledap/aerosol_optical_gvb | https://data.iadc.cnr.it/erddap/tabledap/aerosol_optical_gvb.graph | https://data.iadc.cnr.it/erddap/files/aerosol_optical_gvb/ | public | Aerosol scattering and absorption coefficients at the Gruvebadet Aerosol Laboratory (Svalbard) | At the Gruvebadet Aerosol Laboratory (GAL) aerosol scattering coefficient is measured at a single wavelength (530 nm) using a Radiance Research nephelometer. Data is acquired continuously at 1-minute time resolution. Aerosol light absorption is measured at three wavelengths with a Radiance Research PSAP at 1-minute time resolution at 467 nm, 530 nm, and 660 nm.\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)\naerosol_absorption_coefficient_467nm (Aerosol absorption coefficient (1 hour average) measured at 467 nm and standard temperature and pressure, m^-1)\naerosol_absorption_coefficient_530nm (Aerosol absorption coefficient (1 hour average) measured at 530 nm and standard temperature and pressure, m^-1)\naerosol_absorption_coefficient_660nm (Aerosol absorption coefficient (1 hour average) measured at 660 nm and standard temperature and pressure, m^-1)\naerosol_scattering_coefficient_530nm (Aerosol scattering coefficient (1 hour average) measured at 530 nm and standard temperature and pressure, m^-1)\n | https://data.iadc.cnr.it/erddap/metadata/fgdc/xml/aerosol_optical_gvb_fgdc.xml | https://data.iadc.cnr.it/erddap/metadata/iso19115/xml/aerosol_optical_gvb_iso19115.xml | https://data.iadc.cnr.it/erddap/info/aerosol_optical_gvb/index.htmlTable | https://iadc.cnr.it
| https://data.iadc.cnr.it/erddap/rss/aerosol_optical_gvb.rss | https://data.iadc.cnr.it/erddap/subscriptions/add.html?datasetID=aerosol_optical_gvb&showErrors=false&email= | CNR | aerosol_optical_gvb | |||
| https://data.iadc.cnr.it/erddap/tabledap/aerosol_optical_gvb_2022 | https://data.iadc.cnr.it/erddap/tabledap/aerosol_optical_gvb_2022.graph | https://data.iadc.cnr.it/erddap/files/aerosol_optical_gvb_2022/ | public | Aerosol scattering and absorption coefficients at the Gruvebadet Aerosol Laboratory (Svalbard), from 2022 | At the Gruvebadet Aerosol Laboratory (GAL) aerosol scattering coefficient is measured at a single wavelength (530 nm) using a Radiance Research nephelometer. Aerosol light absorption is measured 7 wavelengths (370, 470, 520, 590, 660, 880, 950 nm) measured using an AETHALOMETER AE33 from Aerosol Magee Scientific. Data is acquired continuously at 1-minute time resolution by both instruments.\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)\naerosol_absorption_coefficient_370nm (Aerosol absorption coefficient (1 hour average) measured at 370 nm and standard temperature and pressure, m^-1)\naerosol_absorption_coefficient_470nm (Aerosol absorption coefficient (1 hour average) measured at 470 nm and standard temperature and pressure, m^-1)\naerosol_absorption_coefficient_520nm (Aerosol absorption coefficient (1 hour average) measured at 520 nm and standard temperature and pressure, m^-1)\naerosol_absorption_coefficient_590nm (Aerosol absorption coefficient (1 hour average) measured at 590 nm and standard temperature and pressure, m^-1)\naerosol_absorption_coefficient_660nm (Aerosol absorption coefficient (1 hour average) measured at 660 nm and standard temperature and pressure, m^-1)\naerosol_absorption_coefficient_880nm (Aerosol absorption coefficient (1 hour average) measured at 880 nm and standard temperature and pressure, m^-1)\nblack_carbon_880nm (Mass concentration (1 hour average) of equivalent black carbon from absorption measured at 880 nm and at standard temperature and pressure, g^m-3)\naerosol_scattering_coefficient_530nm (Aerosol scattering coefficient (1 hour average) measured at 530 nm and standard temperature and pressure, m^-1)\n | https://data.iadc.cnr.it/erddap/metadata/fgdc/xml/aerosol_optical_gvb_2022_fgdc.xml | https://data.iadc.cnr.it/erddap/metadata/iso19115/xml/aerosol_optical_gvb_2022_iso19115.xml | https://data.iadc.cnr.it/erddap/info/aerosol_optical_gvb_2022/index.htmlTable | https://iadc.cnr.it
| https://data.iadc.cnr.it/erddap/rss/aerosol_optical_gvb_2022.rss | https://data.iadc.cnr.it/erddap/subscriptions/add.html?datasetID=aerosol_optical_gvb_2022&showErrors=false&email= | CNR | aerosol_optical_gvb_2022 | |||
| https://data.iadc.cnr.it/erddap/tabledap/cct_output_p5ys9m | https://data.iadc.cnr.it/erddap/tabledap/cct_output_p5ys9m.graph | https://data.iadc.cnr.it/erddap/files/cct_output_p5ys9m/ | public | CH4 and CO2 turbulent flux at Ny Alesund | 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 (%)\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://data.iadc.cnr.it/erddap/metadata/fgdc/xml/cct_output_p5ys9m_fgdc.xml | https://data.iadc.cnr.it/erddap/metadata/iso19115/xml/cct_output_p5ys9m_iso19115.xml | https://data.iadc.cnr.it/erddap/info/cct_output_p5ys9m/index.htmlTable | https://metadata.iadc.cnr.it/geonetwork/srv/api/records/a4848f34-1063-4ee0-b0ed-b358ca30a651
| https://data.iadc.cnr.it/erddap/rss/cct_output_p5ys9m.rss | https://data.iadc.cnr.it/erddap/subscriptions/add.html?datasetID=cct_output_p5ys9m&showErrors=false&email= | CNR | cct_output_p5ys9m | |||
| https://data.iadc.cnr.it/erddap/tabledap/iadc_d1_5_meteo_cct.graph | graphs | Climate Change Tower Meteorological Data (D1.5 - QC one minute data, under request) | 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 = Other\nVARIABLES:\ntime (Date Time, seconds since 1970-01-01T00:00:00Z)\nAir_temperature_at_33_m (Air temperature at 33 meters above ground level, degree_C)\nAir_temperature_at_10_m (Air temperature at 10 meters above ground level, degree_C)\nAir_temperature_at_5_m (Air temperature at 5 meters above ground level, degree_C)\nAir_temperature_at_2_m (Air temperature at 2 meters above ground level, degree_C)\nRelative_humidity_at_33_m (Relative humidity at 33 meters above ground level, %)\nRelative_humidity_at_10_m (Relative humidity at 10 meters above ground level, %)\nRelative_humidity_at_5_m (Relative humidity at 5 meters above ground level, %)\nRelative_humidity_at_2_m (Relative humidity at 2 meters above ground level, %)\nPressure (Mean atmospheric pressure, hPa)\nScalar_mean_wind_speed_at_33_m (Scalar mean wind speed at 33 meters above ground level, m s-1)\nScalar_mean_wind_speed_at_10_m (Scalar mean wind speed at 10 meters above ground level, m s-1)\nScalar_mean_wind_speed_at_5_m (Scalar mean wind speed at 5 meters above ground level, m s-1)\nScalar_mean_wind_speed_at_2_m (Scalar mean wind speed at 2 meters above ground level, m s-1)\nMean_wind_vector_direction_at_33_m (Mean wind vector direction at 33 meters above ground level, degree)\nMean_wind_vector_direction_at_10_m (Mean wind vector direction at 10 meters above ground level, degree)\nMean_wind_vector_direction_at_5_m (Mean wind vector direction at 5 meters above ground level, degree)\nMean_wind_vector_direction_at_2_m (Mean wind vector direction at 2 meters above ground level, degree)\n | https://data.iadc.cnr.it/erddap/info/iadc_d1_5_meteo_cct/index.htmlTable | https://metadata.iadc.cnr.it/geonetwork/srv/api/records/cb5b0a66-5c66-4c19-8de9-b1a7b7373f34
| https://data.iadc.cnr.it/erddap/rss/iadc_d1_5_meteo_cct.rss | https://data.iadc.cnr.it/erddap/subscriptions/add.html?datasetID=iadc_d1_5_meteo_cct&showErrors=false&email= | CNR | iadc_d1_5_meteo_cct | |||||||
| https://data.iadc.cnr.it/erddap/tabledap/cct_meteo_d2 | https://data.iadc.cnr.it/erddap/tabledap/cct_meteo_d2.graph | https://data.iadc.cnr.it/erddap/files/cct_meteo_d2/ | public | 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, %)\nRelative_humidity_standard_deviation_at_33m (standard deviation of relative humidity at 33 meters above ground level, %)\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, %)\nRelative_humidity_standard_deviation_at_10m (standard deviation of relative humidity at 10 meters above ground level, %)\nRelative_humidity_n_values_at_10m (number of measurements every 30 minutes of relative humidity at 10m)\nRelative_humidity_average_at_5m (average of relative humidity at 5 meters above ground level, %)\n... (36 more variables)\n | https://data.iadc.cnr.it/erddap/metadata/fgdc/xml/cct_meteo_d2_fgdc.xml | https://data.iadc.cnr.it/erddap/metadata/iso19115/xml/cct_meteo_d2_iso19115.xml | https://data.iadc.cnr.it/erddap/info/cct_meteo_d2/index.htmlTable | https://metadata.iadc.cnr.it/geonetwork/srv/api/records/cb5b0a66-5c66-4c19-8de9-b1a7b7373f34
| https://data.iadc.cnr.it/erddap/rss/cct_meteo_d2.rss | https://data.iadc.cnr.it/erddap/subscriptions/add.html?datasetID=cct_meteo_d2&showErrors=false&email= | CNR | cct_meteo_d2 | |||
| https://data.iadc.cnr.it/erddap/tabledap/iadc_d1_5_radiazione_cct.graph | graphs | Climate Change Tower Radiation Data (D1.5 - QC one minute data) | 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. D1.5 means quality assured data.\n\ncdm_data_type = Other\nVARIABLES:\ntime (Date Time, seconds since 1970-01-01T00:00:00Z)\nLongwave_downwelling_CNR1_at_33m (Longwave radiation, downwelling from CNR1 at 33 m, W m-2)\nLongwave_upwelling_CNR1_at_33m (Longwave radiation, upwelling from CNR1 at 33 m, W m-2)\nShortwave_downwelling_CNR1_at_33m (Shortwave radiation, downwelling from CNR1 at 33 m, W m-2)\nShortwave_upwelling_CNR1_at_33m (Shortwave radiation, upwelling from CNR1 at 33 m, W m-2)\nShortwave_upwelling_CM11_at_25m (Shortwave radiation, upwelling from CM11 at 25 m, W m-2)\nLongwave_upwelling_CG4_at_25m (Longwave radiation, upwelling from CG4 at 25 m, W m-2)\n | https://data.iadc.cnr.it/erddap/info/iadc_d1_5_radiazione_cct/index.htmlTable | https://metadata.iadc.cnr.it/geonetwork/srv/api/records/e4872959-4cf2-48df-8195-e8065411be49
| https://data.iadc.cnr.it/erddap/rss/iadc_d1_5_radiazione_cct.rss | https://data.iadc.cnr.it/erddap/subscriptions/add.html?datasetID=iadc_d1_5_radiazione_cct&showErrors=false&email= | CNR | iadc_d1_5_radiazione_cct | |||||||
| https://data.iadc.cnr.it/erddap/tabledap/cct_radiazione_d2 | https://data.iadc.cnr.it/erddap/tabledap/cct_radiazione_d2.graph | https://data.iadc.cnr.it/erddap/files/cct_radiazione_d2/ | public | 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)\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)\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)\nShortwave_net_radiation_average_at_33m (average of shortwave net radiation at 33 m from CNR1, W m-2)\nLongwave_net_radiation_average_at_33m (average of longwave net radiation at 33 m from CNR1, W m-2)\nTotal_net_radiation_average_at_33m (average of total net radiation at 33 m from CNR1, W m-2)\nShortwave_albedo_at_33m (average of shortwave albedo at 33 m from CNR1)\n | https://data.iadc.cnr.it/erddap/metadata/fgdc/xml/cct_radiazione_d2_fgdc.xml | https://data.iadc.cnr.it/erddap/metadata/iso19115/xml/cct_radiazione_d2_iso19115.xml | https://data.iadc.cnr.it/erddap/info/cct_radiazione_d2/index.htmlTable | https://metadata.iadc.cnr.it/geonetwork/srv/api/records/e4872959-4cf2-48df-8195-e8065411be49
| https://data.iadc.cnr.it/erddap/rss/cct_radiazione_d2.rss | https://data.iadc.cnr.it/erddap/subscriptions/add.html?datasetID=cct_radiazione_d2&showErrors=false&email= | CNR | cct_radiazione_d2 | |||
| https://data.iadc.cnr.it/erddap/tabledap/cct_soil_d2 | https://data.iadc.cnr.it/erddap/tabledap/cct_soil_d2.graph | https://data.iadc.cnr.it/erddap/files/cct_soil_d2/ | public | Climate Change Tower Soil Temperature Data (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://data.iadc.cnr.it/erddap/metadata/fgdc/xml/cct_soil_d2_fgdc.xml | https://data.iadc.cnr.it/erddap/metadata/iso19115/xml/cct_soil_d2_iso19115.xml | https://data.iadc.cnr.it/erddap/info/cct_soil_d2/index.htmlTable | http://iadc.cnr.it
| https://data.iadc.cnr.it/erddap/rss/cct_soil_d2.rss | https://data.iadc.cnr.it/erddap/subscriptions/add.html?datasetID=cct_soil_d2&showErrors=false&email= | CNR | cct_soil_d2 | |||
| https://data.iadc.cnr.it/erddap/griddap/salzano_fractional | https://data.iadc.cnr.it/erddap/griddap/salzano_fractional.graph | https://data.iadc.cnr.it/erddap/files/salzano_fractional/ | public | Fractional snow-covered area in the Ny-Alesund area | The gridded datasets is a ensembled product obtained processing imagery acquired by different time-lapse cameras located at the Zeppelin Observatory, at the Gruvebadet Snow Research Site and at the Amundsen-Nobile Climate Change Tower.\n\ncdm_data_type = Grid\nVARIABLES (all of which use the dimensions [time][Y][X]):\nfsca (Fractional snow covered area, 1)\n | https://data.iadc.cnr.it/erddap/info/salzano_fractional/index.htmlTable | https://metadata.iadc.cnr.it/geonetwork/srv/api/records/236a77a6-58e4-438e-8636-01d466db7037
| https://data.iadc.cnr.it/erddap/rss/salzano_fractional.rss | https://data.iadc.cnr.it/erddap/subscriptions/add.html?datasetID=salzano_fractional&showErrors=false&email= | CNR | salzano_fractional | |||||
| https://data.iadc.cnr.it/erddap/tabledap/salzano_snow_height_cct | https://data.iadc.cnr.it/erddap/tabledap/salzano_snow_height_cct.graph | https://data.iadc.cnr.it/erddap/files/salzano_snow_height_cct/ | public | Snow height at the Admunsen-Nobile Climate Change Tower (Svalbard, Norway) | The automated station is operating at the Amundsen-Nobile Climate Change Tower since 2010, which is in a tundra site almost flat, located in the Kolhaugen area. The station is part of a complex infrastructure where multi-disciplinary observations are routinely performed.\n\ncdm_data_type = TimeSeries\nVARIABLES:\nlatitude (degrees_north)\nstation_name\ntime (seconds since 1970-01-01T00:00:00Z)\nsh (Snow height, m)\nlongitude (degrees_east)\nalt (Altitude, m)\n | https://data.iadc.cnr.it/erddap/metadata/fgdc/xml/salzano_snow_height_cct_fgdc.xml | https://data.iadc.cnr.it/erddap/metadata/iso19115/xml/salzano_snow_height_cct_iso19115.xml | https://data.iadc.cnr.it/erddap/info/salzano_snow_height_cct/index.htmlTable | https://metadata.iadc.cnr.it/geonetwork/srv/api/records/7d99d6e5-a0ba-4eb7-8ce2-07d2c98ae56a
| https://data.iadc.cnr.it/erddap/rss/salzano_snow_height_cct.rss | https://data.iadc.cnr.it/erddap/subscriptions/add.html?datasetID=salzano_snow_height_cct&showErrors=false&email= | CNR | salzano_snow_height_cct | |||
| https://data.iadc.cnr.it/erddap/tabledap/salzano_snow_height_gruvebadet | https://data.iadc.cnr.it/erddap/tabledap/salzano_snow_height_gruvebadet.graph | https://data.iadc.cnr.it/erddap/files/salzano_snow_height_gruvebadet/ | public | Snow height at the Gruvebadet Snow Research Site (NY-Alesund, Svalbard, Norway) | The automated nivological station was installed in November 2020 in a flat area over the tundra about 80 meters far from the Gruvebadet Atmospheric Laboratory and nearby a snow sampling site from where weekly snow samples are collected for chemical analysis. Sensors have been calibrated by their companies before installation and are connected to a datalogger for continuous acquisition. For all the parameters, data are logged with 10-minute time resolution and then averaged over 1 hour.\n\ncdm_data_type = TimeSeries\nVARIABLES:\nlatitude (degrees_north)\nstation_name\ntime (seconds since 1970-01-01T00:00:00Z)\nsh (Snow height, m)\nlongitude (degrees_east)\nalt (Altitude, m)\n | https://data.iadc.cnr.it/erddap/metadata/fgdc/xml/salzano_snow_height_gruvebadet_fgdc.xml | https://data.iadc.cnr.it/erddap/metadata/iso19115/xml/salzano_snow_height_gruvebadet_iso19115.xml | https://data.iadc.cnr.it/erddap/info/salzano_snow_height_gruvebadet/index.htmlTable | https://metadata.iadc.cnr.it/geonetwork/srv/eng/catalog.search#/metadata/1e6cd3cf-de17-4f5e-a3d7-163de46da806
| https://data.iadc.cnr.it/erddap/rss/salzano_snow_height_gruvebadet.rss | https://data.iadc.cnr.it/erddap/subscriptions/add.html?datasetID=salzano_snow_height_gruvebadet&showErrors=false&email= | CNR | salzano_snow_height_gruvebadet | |||
| https://data.iadc.cnr.it/erddap/tabledap/salzano_snow_temperature_cct | https://data.iadc.cnr.it/erddap/tabledap/salzano_snow_temperature_cct.graph | https://data.iadc.cnr.it/erddap/files/salzano_snow_temperature_cct/ | public | Snow temperature at the Admunsen-Nobile Climate Change Tower (Svalbard, Norway) | The automated station is operating at the Amundsen-Nobile Climate Change Tower since 2010, which is in a tundra site almost flat, located in the Kolhaugen area. The station is part of a complex infrastructure where multi-disciplinary observations are routinely performed.\n\ncdm_data_type = TimeSeries\nVARIABLES:\nlatitude (degrees_north)\nstation_name\ntime (seconds since 1970-01-01T00:00:00Z)\nst (Snow temperature, degree_Celsius)\nlongitude (degrees_east)\nalt (Altitude, m)\n | https://data.iadc.cnr.it/erddap/metadata/fgdc/xml/salzano_snow_temperature_cct_fgdc.xml | https://data.iadc.cnr.it/erddap/metadata/iso19115/xml/salzano_snow_temperature_cct_iso19115.xml | https://data.iadc.cnr.it/erddap/info/salzano_snow_temperature_cct/index.htmlTable | https://metadata.iadc.cnr.it/geonetwork/srv/eng/catalog.search#/metadata/a0c3433d-44de-4c71-b6a5-461f7a442596
| https://data.iadc.cnr.it/erddap/rss/salzano_snow_temperature_cct.rss | https://data.iadc.cnr.it/erddap/subscriptions/add.html?datasetID=salzano_snow_temperature_cct&showErrors=false&email= | CNR | salzano_snow_temperature_cct | |||
| https://data.iadc.cnr.it/erddap/tabledap/salzano_snow_temperature_gruvebadet | https://data.iadc.cnr.it/erddap/tabledap/salzano_snow_temperature_gruvebadet.graph | https://data.iadc.cnr.it/erddap/files/salzano_snow_temperature_gruvebadet/ | public | Snow temperature at the Gruvebadet Snow Research Site (NY-Alesund, Svalbard, Norway) | The automated nivological station was installed in November 2020 in a flat area over the tundra about 80 meters far from the Gruvebadet Atmospheric Laboratory and nearby a snow sampling site from where weekly snow samples are collected for chemical analysis. Sensors have been calibrated by their companies before installation and are connected to a datalogger for continuous acquisition. For all the parameters, data are logged with 10-minute time resolution and then averaged over 1 hour.\n\ncdm_data_type = TimeSeries\nVARIABLES:\nlatitude (degrees_north)\nstation_name\ntime (seconds since 1970-01-01T00:00:00Z)\nst (Snow temperature, degree_Celsius)\nlongitude (degrees_east)\nalt (Altitude, m)\n | https://data.iadc.cnr.it/erddap/metadata/fgdc/xml/salzano_snow_temperature_gruvebadet_fgdc.xml | https://data.iadc.cnr.it/erddap/metadata/iso19115/xml/salzano_snow_temperature_gruvebadet_iso19115.xml | https://data.iadc.cnr.it/erddap/info/salzano_snow_temperature_gruvebadet/index.htmlTable | https://metadata.iadc.cnr.it/geonetwork/srv/api/records/3a9d751d-1b4e-4da3-acb6-9f98257688a7
| https://data.iadc.cnr.it/erddap/rss/salzano_snow_temperature_gruvebadet.rss | https://data.iadc.cnr.it/erddap/subscriptions/add.html?datasetID=salzano_snow_temperature_gruvebadet&showErrors=false&email= | CNR | salzano_snow_temperature_gruvebadet | |||
| https://data.iadc.cnr.it/erddap/tabledap/turbulence_cct | https://data.iadc.cnr.it/erddap/tabledap/turbulence_cct.graph | https://data.iadc.cnr.it/erddap/files/turbulence_cct/ | public | Turbulent parameters at the Amundsen-Nobile Climate Change Tower (Svalbard) | Turbulent parameters are measured at the Amundsen-Nobile Climate Change Tower (CCT) by means of a Gill R3 sonic anemometer installed at 7.5 m from the ground since 2010. It measures the three components of the wind (u, v and w measured in m/s) and the sonic temperature (expressed in Kelvin degrees) at a rate of 20 Hz. These micro-meteorological measurements are complemented by standard meteorological ones at 4 levels: 2, 5, 10 and 33 m (acquisition time step 1 minute).\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)\nWind_speed_average_30min (Wind speed vectorial average over 30 min measured at 10 m a.g.l., m/s)\nWind_direction_average_30min (Wind direction average over 30 min measured at 10 m a.g.l., degrees)\nFriction_velocity_30 (Friction velocity over 30 min, m/s)\nFriction_velocity_2 (Friction velocity over 30 min, obtained from 2 min values, m/s)\nHeat_flux_30 (Turbulent heat flux over 30 min, W/m^2)\nHeat_flux_2 (Turbulent heat flux over 30 min, obtained from 2 min values, W/m^2)\nNaN_percentage (Percentage of not valid values, excluded on the basis of the quality control checks., percentage)\nFlag_dir (Boolean value that indicates if values are disturbed by CCT structure due to the wind direction., 1)\nRoughness_length (Roughness length assuming a typical log wind profile under statically neutral conditions., m)\n | https://data.iadc.cnr.it/erddap/metadata/fgdc/xml/turbulence_cct_fgdc.xml | https://data.iadc.cnr.it/erddap/metadata/iso19115/xml/turbulence_cct_iso19115.xml | https://data.iadc.cnr.it/erddap/info/turbulence_cct/index.htmlTable | https://iadc.cnr.it
| https://data.iadc.cnr.it/erddap/rss/turbulence_cct.rss | https://data.iadc.cnr.it/erddap/subscriptions/add.html?datasetID=turbulence_cct&showErrors=false&email= | CNR | turbulence_cct |