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Erddap est un produit développé par : NOAA ERD |
| griddap | Subset | tabledap | Make A Graph | wms | files | Accessible | Title | Summary | FGDC | ISO 19115 | Info | Background Info | RSS | Institution | Dataset ID | |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| https://erddap.osupytheas.fr/erddap/tabledap/GIPREB_SondeCTD.subset | https://erddap.osupytheas.fr/erddap/tabledap/GIPREB_SondeCTD | https://erddap.osupytheas.fr/erddap/tabledap/GIPREB_SondeCTD.graph | https://erddap.osupytheas.fr/erddap/files/GIPREB_SondeCTD/ | public | BERRE Observatoire GIPREB : donnees hydrologiques sonde CTD 1994-2021 (CSV) | Evolution hydrologique et biologique de l'etang de Berre (France) données Sonde CTD\n\ncdm_data_type = Point\nVARIABLES:\nnom_station\ntime (Date Time, seconds since 1970-01-01T00:00:00Z)\nlatitude (degrees_north)\nlongitude (degrees_east)\nprofondeur_m (m)\ntemp_degreeC (Temp Degree C, degree_C)\npH (Sea Water Ph Reported On Total Scale)\nConductivity (Sea Water Electrical Conductivity, S.m-1)\nSalinite (mg.l-1)\nturbidity (1)\nO2Saturation (O2 Saturation, %)\nO2_ug_l (ug.l-1)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/GIPREB_SondeCTD_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/GIPREB_SondeCTD_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/GIPREB_SondeCTD/index.htmlTable | https://dataset.osupytheas.fr/geonetwork/srv/fre/catalog.search#/metadata/20384474-8051-4ada-a33d-d16aea5d3a36
| http://erddap.osupytheas.fr/erddap/rss/GIPREB_SondeCTD.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=GIPREB_SondeCTD&showErrors=false&email= | GIPREB - OSU Pytheas | GIPREB_SondeCTD | ||
| https://erddap.osupytheas.fr/erddap/tabledap/CLAPP_CTD_OutCSV_a803.subset | https://erddap.osupytheas.fr/erddap/tabledap/CLAPP_CTD_OutCSV_a803 | https://erddap.osupytheas.fr/erddap/tabledap/CLAPP_CTD_OutCSV_a803.graph | https://erddap.osupytheas.fr/erddap/files/CLAPP_CTD_OutCSV_a803/ | public | CLAPPP : New Caledonian lagoons: CTD Profiles (CSV files) | CLAPPP Project : Conductivity, Temperature, Depth (CTD) profile (Network Common Data Format (NetCDF) files) station voh1-6. The New Caledonia lagoons show high seasonal and interannual variability (related to El Nino - Southern Oscillation (ENSO) - variability). They present a great diversity of local situations linked to differences in their geomorphology, to the nature of terrigenous inputs and to varied anthropogenic pressure\n\ncdm_data_type = Point\nVARIABLES:\ntime (seconds since 1970-01-01T00:00:00Z)\nstation\nlatitude (degrees_north)\nlongitude (degrees_east)\ndepth (m)\nTemperature\nConductivity (Sea Water Electrical Conductivity)\nSalinity (Sea Water Practical Salinity, PSU)\nFluorescence\nIrradiance\nDensity\nTurbidity\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/CLAPP_CTD_OutCSV_a803_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/CLAPP_CTD_OutCSV_a803_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/CLAPP_CTD_OutCSV_a803/index.htmlTable | https://dataset.osupytheas.fr/geonetwork/srv/fre/catalog.search#/metadata/2b52defe-e5f3-4fe2-9f2f-741d90e624ea
| http://erddap.osupytheas.fr/erddap/rss/CLAPP_CTD_OutCSV_a803.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=CLAPP_CTD_OutCSV_a803&showErrors=false&email= | MIO UMR7294 CNRS - OSU Pytheas | CLAPP_CTD_OutCSV_a803 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/CLAPP_CTD_OutNetCDF_6c83.subset | https://erddap.osupytheas.fr/erddap/tabledap/CLAPP_CTD_OutNetCDF_6c83 | https://erddap.osupytheas.fr/erddap/tabledap/CLAPP_CTD_OutNetCDF_6c83.graph | https://erddap.osupytheas.fr/erddap/files/CLAPP_CTD_OutNetCDF_6c83/ | public | CLAPPP : New Caledonian lagoons: CTD Profiles (NetCDF files) | CLAPPP Project : Conductivity, Temperature, Depth (CTD) profile (Network Common Data Format (NetCDF) files) station voh1-6. The New Caledonia lagoons show high seasonal and interannual variability (related to El Nino - Southern Oscillation (ENSO) - variability). They present a great diversity of local situations linked to differences in their geomorphology, to the nature of terrigenous inputs and to varied anthropogenic pressure.\n\ncdm_data_type = Profile\nVARIABLES:\ntime (date de prelevement, seconds since 1970-01-01T00:00:00Z)\nstationname (station name)\nlatitude (degrees_north)\nlongitude (degrees_east)\ndepth (Profondeur, m)\ntemperature (degree_C)\nconductivity (S.m^-1)\nsalinity (PSU)\nfluorescence (ug/l)\nirradiance\ndensity (kg.m-3)\nturbidity (1)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/CLAPP_CTD_OutNetCDF_6c83_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/CLAPP_CTD_OutNetCDF_6c83_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/CLAPP_CTD_OutNetCDF_6c83/index.htmlTable | https://dataset.osupytheas.fr/geonetwork/srv/fre/catalog.search#/metadata/2b52defe-e5f3-4fe2-9f2f-741d90e624ea
| http://erddap.osupytheas.fr/erddap/rss/CLAPP_CTD_OutNetCDF_6c83.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=CLAPP_CTD_OutNetCDF_6c83&showErrors=false&email= | MIO UMR7294 CNRS - OSU Pytheas | CLAPP_CTD_OutNetCDF_6c83 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/CTD_Antares_NC_6fad_a064_dc26.subset | https://erddap.osupytheas.fr/erddap/tabledap/CTD_Antares_NC_6fad_a064_dc26 | https://erddap.osupytheas.fr/erddap/tabledap/CTD_Antares_NC_6fad_a064_dc26.graph | https://erddap.osupytheas.fr/erddap/files/CTD_Antares_NC_6fad_a064_dc26/ | public | CTD profile ANTARES station (NetCDF files) (lat/long : 42.485/6.06) | CTD profile (Network Common Data Format (NetCDF) files) station ANTARES - Service d'Observation en Milieu Littoral (SOMLIT). Conductivity, Temperature, Depth (CTD) profile Data for station ANTARES\n\ncdm_data_type = Profile\nVARIABLES:\ntime (date de prelevement, seconds since 1970-01-01T00:00:00Z)\nstationname (station name)\nlatitude (degrees_north)\nlongitude (degrees_east)\ndepth (Profondeur, m)\npressure (dbar)\ntemperature (degree_C)\nconductivity (S.m^-1)\nsalinity (PSU)\nfluorescence (ug/l)\ntimeJ (s)\nirradiance\ntransmission (beam transmission, percent)\ndensity (kg.m-3)\noxygenml (oxygen ml/l, mol m-3)\noxygenmol (oxygen umol/kg, mol kg-1)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/CTD_Antares_NC_6fad_a064_dc26_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/CTD_Antares_NC_6fad_a064_dc26_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/CTD_Antares_NC_6fad_a064_dc26/index.htmlTable | http://www.mio.osupytheas.fr
| http://erddap.osupytheas.fr/erddap/rss/CTD_Antares_NC_6fad_a064_dc26.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=CTD_Antares_NC_6fad_a064_dc26&showErrors=false&email= | MIO UMR 7294 CNRS / OSU Pytheas UMS 3470 CNRS | CTD_Antares_NC_6fad_a064_dc26 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/CTD_Antares_CSV_2286_9e49_8e66.subset | https://erddap.osupytheas.fr/erddap/tabledap/CTD_Antares_CSV_2286_9e49_8e66 | https://erddap.osupytheas.fr/erddap/tabledap/CTD_Antares_CSV_2286_9e49_8e66.graph | https://erddap.osupytheas.fr/erddap/files/CTD_Antares_CSV_2286_9e49_8e66/ | public | CTD Profiles ANTARES station (CSV files) (lat/long : 42.485/6.06) | Conductivity, Temperature, Depth (CTD) profile data from ANTARES station (lat/long : 42.485/6.06)\n\ncdm_data_type = Point\nVARIABLES:\ntime (seconds since 1970-01-01T00:00:00Z)\nPressure\ndepth (m)\nTemperature\nConductivity (Sea Water Electrical Conductivity)\nSalinity (Sea Water Practical Salinity, PSU)\nFluorescence\ntimeJ (Time J)\nlatitude (degrees_north)\nlongitude (degrees_east)\nIrradiance\nTransmission\nDensity\nOxygen_ml_l\nOxygen\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/CTD_Antares_CSV_2286_9e49_8e66_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/CTD_Antares_CSV_2286_9e49_8e66_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/CTD_Antares_CSV_2286_9e49_8e66/index.htmlTable | http://www.mio.osupytheas.fr
| http://erddap.osupytheas.fr/erddap/rss/CTD_Antares_CSV_2286_9e49_8e66.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=CTD_Antares_CSV_2286_9e49_8e66&showErrors=false&email= | MIO UMR 7294 CNRS / OSU Pytheas UMS 3470 CNRS | CTD_Antares_CSV_2286_9e49_8e66 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/JULIO_a3cf_97b7_7d21.subset | https://erddap.osupytheas.fr/erddap/tabledap/JULIO_a3cf_97b7_7d21 | https://erddap.osupytheas.fr/erddap/tabledap/JULIO_a3cf_97b7_7d21.graph | https://erddap.osupytheas.fr/erddap/files/JULIO_a3cf_97b7_7d21/ | public | CTD Profiles station JULIO (CSV files) lat 43.13 Lon 5.25 - programme Romarin | Conductivity, Temperature, Depth (CTD) Profiles station JULIO lat 43.13 Lon 5.25\n\ncdm_data_type = Point\nVARIABLES:\ntime (seconds since 1970-01-01T00:00:00Z)\nPressure (bar)\ndepth (m)\nTemperature (degree Celsius)\nConductivity (Sea Water Electrical Conductivity, S/m)\nSalinity (Sea Water Practical Salinity, PSU)\nFluorescence (ug/l)\ntimeJ (Time J, Julian day)\nlatitude (degrees_north)\nlongitude (degrees_east)\nIrradiance (uE/cm2)\nTransmission (%)\nDensity (Kg/m^3)\nOxygen_ml_l (ml/l)\nOxygen_umol_kg (umol/Kg)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/JULIO_a3cf_97b7_7d21_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/JULIO_a3cf_97b7_7d21_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/JULIO_a3cf_97b7_7d21/index.htmlTable | http://www.mio.osupytheas.fr
| http://erddap.osupytheas.fr/erddap/rss/JULIO_a3cf_97b7_7d21.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=JULIO_a3cf_97b7_7d21&showErrors=false&email= | MIO UMR7294 CNRS / OSU Pytheas | JULIO_a3cf_97b7_7d21 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/JULIOnc_b9da_4b1e_3b01.subset | https://erddap.osupytheas.fr/erddap/tabledap/JULIOnc_b9da_4b1e_3b01 | https://erddap.osupytheas.fr/erddap/tabledap/JULIOnc_b9da_4b1e_3b01.graph | https://erddap.osupytheas.fr/erddap/files/JULIOnc_b9da_4b1e_3b01/ | public | CTD Profiles station JULIO (NetCDF files) lat 43.13 Lon 5.25 - programme Romarin | Conductivity, Temperature, Depth (CTD) profile Data for station JULIO - Service d'Observation en Milieu Littoral (SOMLIT). ctd profile. MIO Observatoire Sciences Univers (OSU) Pytheas data from a local source.\n\ncdm_data_type = Profile\nVARIABLES:\ntime (date de prelevement, seconds since 1970-01-01T00:00:00Z)\nstationname (station name)\nlatitude (degrees_north)\nlongitude (degrees_east)\ndepth (Profondeur, m)\npressure (dbar)\ntemperature (degree_C)\nconductivity (S.m^-1)\nsalinity (PSU)\nfluorescence (ug/l)\ntimeJ (s)\nirradiance\ntransmission (beam transmission, percent)\ndensity (kg.m-3)\noxygenml (oxygen ml/l, mol m-3)\noxygenmol (oxygen umol/kg, mol kg-1)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/JULIOnc_b9da_4b1e_3b01_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/JULIOnc_b9da_4b1e_3b01_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/JULIOnc_b9da_4b1e_3b01/index.htmlTable | http://www.mio.osupytheas.fr/
| http://erddap.osupytheas.fr/erddap/rss/JULIOnc_b9da_4b1e_3b01.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=JULIOnc_b9da_4b1e_3b01&showErrors=false&email= | MIO UMR7294 CNRS / OSU Pytheas | JULIOnc_b9da_4b1e_3b01 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/SOLEMIO_55ba_fe63_7e4a.subset | https://erddap.osupytheas.fr/erddap/tabledap/SOLEMIO_55ba_fe63_7e4a | https://erddap.osupytheas.fr/erddap/tabledap/SOLEMIO_55ba_fe63_7e4a.graph | https://erddap.osupytheas.fr/erddap/files/SOLEMIO_55ba_fe63_7e4a/ | public | CTD Profiles station SOLEMIO (CSV files) lat 43.24 Lon 5.29 (SOMLIT) | Conductivity, Temperature, Depth (CTD) Profiles station SOLEMIO Lat 43.24 Lon 5.29\n\ncdm_data_type = Point\nVARIABLES:\ntime (seconds since 1970-01-01T00:00:00Z)\nPressure (bar)\ndepth (m)\nTemperature (degree C)\nConductivity (Sea Water Electrical Conductivity, S/m)\nSalinity (Sea Water Practical Salinity, PSU)\nFluorescence (ug/l)\ntimeJ (Time J)\nlatitude (degrees_north)\nlongitude (degrees_east)\nIrradiance (uE/cm2)\nTransmission (%)\nDensity (\"kg.m-3\")\nOxygen_ml_l (ml/l)\nOxygen_umol_kg (umol/kg)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/SOLEMIO_55ba_fe63_7e4a_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/SOLEMIO_55ba_fe63_7e4a_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/SOLEMIO_55ba_fe63_7e4a/index.htmlTable | http://www.mio.univ-amu.fr/
| http://erddap.osupytheas.fr/erddap/rss/SOLEMIO_55ba_fe63_7e4a.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=SOLEMIO_55ba_fe63_7e4a&showErrors=false&email= | MIO UMR7294 CNRS / OSU Pytheas | SOLEMIO_55ba_fe63_7e4a | ||
| https://erddap.osupytheas.fr/erddap/tabledap/SOLEMIOnc_daad_5e27_e39a.subset | https://erddap.osupytheas.fr/erddap/tabledap/SOLEMIOnc_daad_5e27_e39a | https://erddap.osupytheas.fr/erddap/tabledap/SOLEMIOnc_daad_5e27_e39a.graph | https://erddap.osupytheas.fr/erddap/files/SOLEMIOnc_daad_5e27_e39a/ | public | CTD Profiles station SOLEMIO (NetCDF files), Service d'Observation en Milieu Littoral (SOMLIT) | Conductivity, Temperature, Depth (CTD) profile (Network Common Data Format (NetCDF) files) station SOLEMIO - Service d'Observation en Milieu Littoral (SOMLIT). ctd profile. MIO Observatoire Sciences Univers (OSU) Pytheas data from a local source.\n\ncdm_data_type = Profile\nVARIABLES:\ntime (date de prelevement, seconds since 1970-01-01T00:00:00Z)\nstationname (station name)\nlatitude (degrees_north)\nlongitude (degrees_east)\ndepth (Profondeur, m)\npressure (dbar)\ntemperature (degree_C)\nconductivity (S.m^-1)\nsalinity (PSU)\nfluorescence (ug/l)\ntimeJ (s)\nirradiance\ntransmission (beam transmission, percent)\ndensity (kg.m-3)\noxygenml (oxygen ml/l, mol m-3)\noxygenmol (oxygen umol/kg, mol kg-1)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/SOLEMIOnc_daad_5e27_e39a_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/SOLEMIOnc_daad_5e27_e39a_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/SOLEMIOnc_daad_5e27_e39a/index.htmlTable | http://www.mio.osupytheas.fr/
| http://erddap.osupytheas.fr/erddap/rss/SOLEMIOnc_daad_5e27_e39a.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=SOLEMIOnc_daad_5e27_e39a&showErrors=false&email= | MIO UMR7294 CNRS / OSU Pytheas | SOLEMIOnc_daad_5e27_e39a | ||
| https://erddap.osupytheas.fr/erddap/tabledap/EMSO_Marmara_BPR_Maregami1.subset | https://erddap.osupytheas.fr/erddap/tabledap/EMSO_Marmara_BPR_Maregami1 | https://erddap.osupytheas.fr/erddap/tabledap/EMSO_Marmara_BPR_Maregami1.graph | https://erddap.osupytheas.fr/erddap/files/EMSO_Marmara_BPR_Maregami1/ | public | EMSO / MAREGAMI Marmara BPR1 station Lat:40.8703 Long:28.5244 Depth:805m | Bottom Pressure Recorder: Time series acquired with RBR BPR #52665, sensor : Paroscientific #140758. SeaFloor Depth:805m\n\ncdm_data_type = Point\nVARIABLES:\ntime (seconds since 1970-01-01T00:00:00Z)\nPeriod_1_ps (Period 1 [ps])\nPeriod_2_ps (Period 2 [ps])\nSea_water_pressure_dbar (Sea Water Pressure [dbar], dbar)\nTemperature_degree_C (Temperature [degree C], degrees_C)\nlatitude (degrees_north)\nlongitude (degrees_east)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/EMSO_Marmara_BPR_Maregami1_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/EMSO_Marmara_BPR_Maregami1_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/EMSO_Marmara_BPR_Maregami1/index.htmlTable | http://www.emso-fr.org/EMSO-France
| http://erddap.osupytheas.fr/erddap/rss/EMSO_Marmara_BPR_Maregami1.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=EMSO_Marmara_BPR_Maregami1&showErrors=false&email= | CEREGE UMR 7330 CNRS | EMSO_Marmara_BPR_Maregami1 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/EMSO_Marmara_BPR_Maregami2.subset | https://erddap.osupytheas.fr/erddap/tabledap/EMSO_Marmara_BPR_Maregami2 | https://erddap.osupytheas.fr/erddap/tabledap/EMSO_Marmara_BPR_Maregami2.graph | https://erddap.osupytheas.fr/erddap/files/EMSO_Marmara_BPR_Maregami2/ | public | EMSO / MAREGAMI Marmara BPR2 station Lat:40.7934 Long:29.0312 Depth:1225m | MAREGAMI Marmara BPR2 station Lat:40.7934 Long:29.0312 Depth:1225m\n\ncdm_data_type = Point\nVARIABLES:\ntime (seconds since 1970-01-01T00:00:00Z)\nPeriod_1_ps (Period 1 [ps])\nPeriod_2_ps (Period 2 [ps])\nSea_water_pressure_dbar (Sea Water Pressure [dbar])\nTemperature_degree_C (Temperature [degree C])\nlatitude (degrees_north)\nlongitude (degrees_east)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/EMSO_Marmara_BPR_Maregami2_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/EMSO_Marmara_BPR_Maregami2_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/EMSO_Marmara_BPR_Maregami2/index.htmlTable | http://www.emso-fr.org/EMSO-France
| http://erddap.osupytheas.fr/erddap/rss/EMSO_Marmara_BPR_Maregami2.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=EMSO_Marmara_BPR_Maregami2&showErrors=false&email= | CEREGE UMR 7330 CNRS | EMSO_Marmara_BPR_Maregami2 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/EMSO_Marmara_RCM_Maregami2.subset | https://erddap.osupytheas.fr/erddap/tabledap/EMSO_Marmara_RCM_Maregami2 | https://erddap.osupytheas.fr/erddap/tabledap/EMSO_Marmara_RCM_Maregami2.graph | https://erddap.osupytheas.fr/erddap/files/EMSO_Marmara_RCM_Maregami2/ | public | EMSO / MAREGAMI Marmara BPR2 station Lat:40.7934 Long:29.0312 Depth:1225m, Seaguard RCM data | Seaguard RCM: Time series acquired with Seaguard RCM #155, sensors: DCS #146, Conductivity #788, Tide (P,T) #393\n\ncdm_data_type = Point\nVARIABLES:\ntime (seconds since 1970-01-01T00:00:00Z)\nnorthward_seawater_velocity (m.s-1)\neastward_seawater_velocity (m.s-1)\nInstrument_heading_Deg (degree)\nTilt_X_Deg (degree)\nTilt_Y_Deg (degree)\nSingle_ping_Std_cm_s_1 (cm.s-1)\nSignal_Strength_dB (dB)\nsea_water_electrical_conductivity (S.m-1)\nsea_water_temperature (degree_C)\nsea_water_pressure (dbar)\nlatitude (degrees_north)\nlongitude (degrees_east)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/EMSO_Marmara_RCM_Maregami2_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/EMSO_Marmara_RCM_Maregami2_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/EMSO_Marmara_RCM_Maregami2/index.htmlTable | http://www.emso-fr.org/EMSO-France
| http://erddap.osupytheas.fr/erddap/rss/EMSO_Marmara_RCM_Maregami2.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=EMSO_Marmara_RCM_Maregami2&showErrors=false&email= | CEREGE UMR 7330 CNRS | EMSO_Marmara_RCM_Maregami2 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/EMSO_Marmara_BPR_Maregami3.subset | https://erddap.osupytheas.fr/erddap/tabledap/EMSO_Marmara_BPR_Maregami3 | https://erddap.osupytheas.fr/erddap/tabledap/EMSO_Marmara_BPR_Maregami3.graph | https://erddap.osupytheas.fr/erddap/files/EMSO_Marmara_BPR_Maregami3/ | public | EMSO / MAREGAMI Marmara BPR3 station Lat:40.8568 Long:28.1523 Depth:1184m | Bottom Pressure Recorder: Time series acquired with RBR BPR #52665, sensor : Paroscientific #140758. SeaFloor Depth:1184m\n\ncdm_data_type = Point\nVARIABLES:\ntime (seconds since 1970-01-01T00:00:00Z)\nPeriod_1_ps (Period 1 [ps])\nPeriod_2_ps (Period 2 [ps])\nSea_water_pressure_dbar (Sea Water Pressure [dbar])\nTemperature_Degree_C (Temperature [Degree C])\nlatitude (degrees_north)\nlongitude (degrees_east)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/EMSO_Marmara_BPR_Maregami3_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/EMSO_Marmara_BPR_Maregami3_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/EMSO_Marmara_BPR_Maregami3/index.htmlTable | http://www.emso-fr.org/EMSO-France
| http://erddap.osupytheas.fr/erddap/rss/EMSO_Marmara_BPR_Maregami3.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=EMSO_Marmara_BPR_Maregami3&showErrors=false&email= | CEREGE UMR 7330 CNRS | EMSO_Marmara_BPR_Maregami3 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/EMSO_Marmara_RCM_Maregami3.subset | https://erddap.osupytheas.fr/erddap/tabledap/EMSO_Marmara_RCM_Maregami3 | https://erddap.osupytheas.fr/erddap/tabledap/EMSO_Marmara_RCM_Maregami3.graph | https://erddap.osupytheas.fr/erddap/files/EMSO_Marmara_RCM_Maregami3/ | public | EMSO / MAREGAMI Marmara BPR3 station Lat:40.8568, Long:28.1523, Depth:1184m Seaguard RCM data | Seaguard RCM: Time series acquired with Seaguard RCM #155, sensors: DCS #146, Conductivity #788, Tide (P,T) #393\n\ncdm_data_type = Point\nVARIABLES:\ntime (seconds since 1970-01-01T00:00:00Z)\nnorthward_seawater_velocity (m.s-1)\neastward_seawater_velocity (m.s-1)\nInstrument_heading_Deg (degree)\nTilt_X_Deg (degree)\nTilt_Y_Deg (degree)\nStd_Tilt_Deg (degree)\nSingle_ping_Std_cm_s_1 (cm.s-1)\nSignal_Strength_dB (Signal Strength D B, dB)\nsea_water_temperature (degree_C)\nsea_water_pressure (dbar)\nmole_concentration_of_dissolved_molecular_oxygen_in_sea_water (mol.m-3)\nlatitude (degrees_north)\nlongitude (degrees_east)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/EMSO_Marmara_RCM_Maregami3_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/EMSO_Marmara_RCM_Maregami3_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/EMSO_Marmara_RCM_Maregami3/index.htmlTable | http://www.emso-fr.org/EMSO-France
| http://erddap.osupytheas.fr/erddap/rss/EMSO_Marmara_RCM_Maregami3.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=EMSO_Marmara_RCM_Maregami3&showErrors=false&email= | CEREGE UMR 7330 CNRS | EMSO_Marmara_RCM_Maregami3 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2014.subset | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2014 | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2014.graph | https://erddap.osupytheas.fr/erddap/files/Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2014/ | public | EMSO Western Ligurian : Albatross mooring, AQUADOPP sensor (CSV 2014-2015) | The European Multidisciplinary Seafloor and water column Observatory (EMSO) is a research infrastructure distributed throughout Europe for seabed and water column observatories. It aims to further explore the oceans, better understand the phenomena that occur on the seabed, and elucidate the critical role that these phenomena play in global Earth systems. This observatory is based on observation sites (or nodes) that have been deployed in strategic locations in European seas, from the Arctic to the Atlantic, from the Mediterranean to the Black Sea. There are currently eleven deep water nodes plus four shallow water test nodes. EMSO Western Ligurian is one of these permanent underwater observatories located in the Ligurian Sea and is deployed off Toulon, France. This region was chosen for its particular scientific interests such as: seismicity, topography, turbidity, biodiversity, water mass dynamics and organic matter flow. This underwater observation network is also part of KM3NeT (https://www.km3net.org/) which has a modular topology designed to connect up to 120 neutrino detection units. Earth and Sea Science (ESS) instrumentation connected to KM3NeT is based on two complementary components: an instrumented interface module (MII) and an autonomous instrumented line (ALBATROSS). The ALBATROSS line is an inductive line (2000 m) composed of an acoustic communication system, two inductive cables equipped with Conductivity, Temperature, Depth (CTD)-O2 sensors, current meters and two instrumented buoys. This line is deployed at a distance of 2-3 kilometers from the MII, and communication on land is done by an acoustic link with the MII, and electro-optical cable via the KM3NeT node.\n\ncdm_data_type = Other\nVARIABLES:\ntime (seconds since 1970-01-01T00:00:00Z)\nDEPH\nX_East\nY_North\nZ_Up\nAmplitude_X\nAmplitude_Y\nAmplitude_Z\nBattery\nSVEL\n... (7 more variables)\n | https://erddap.osupytheas.fr/erddap/info/Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2014/index.htmlTable | http://www.emso-fr.org/EMSO-France
| http://erddap.osupytheas.fr/erddap/rss/Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2014.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2014&showErrors=false&email= | MIO UMR 7294 CNRS / OSU Pytheas | Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2014 | ||||
| https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2015.subset | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2015 | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2015.graph | https://erddap.osupytheas.fr/erddap/files/Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2015/ | public | EMSO Western Ligurian : Albatross mooring, AQUADOPP sensor (CSV 2015-2016) | The European Multidisciplinary Seafloor and water column Observatory (EMSO) is a research infrastructure distributed throughout Europe for seabed and water column observatories. It aims to further explore the oceans, better understand the phenomena that occur on the seabed, and elucidate the critical role that these phenomena play in global Earth systems. This observatory is based on observation sites (or nodes) that have been deployed in strategic locations in European seas, from the Arctic to the Atlantic, from the Mediterranean to the Black Sea. There are currently eleven deep water nodes plus four shallow water test nodes. EMSO Western Ligurian is one of these permanent underwater observatories located in the Ligurian Sea and is deployed off Toulon, France. This region was chosen for its particular scientific interests such as: seismicity, topography, turbidity, biodiversity, water mass dynamics and organic matter flow. This underwater observation network is also part of KM3NeT (https://www.km3net.org/) which has a modular topology designed to connect up to 120 neutrino detection units. Earth and Sea Science (ESS) instrumentation connected to KM3NeT is based on two complementary components: an instrumented interface module (MII) and an autonomous instrumented line (ALBATROSS). The ALBATROSS line is an inductive line (2000 m) composed of an acoustic communication system, two inductive cables equipped with Conductivity, Temperature, Depth (CTD)-O2 sensors, current meters and two instrumented buoys. This line is deployed at a distance of 2-3 kilometers from the MII, and communication on land is done by an acoustic link with the MII, and electro-optical cable via the KM3NeT node.\n\ncdm_data_type = Other\nVARIABLES:\ntime (seconds since 1970-01-01T00:00:00Z)\nID\nDEPH\nPRES (Pressure)\nTEMP (Temperature)\nX_East\nY_North\nZ_Up\nSVEL\nHeading\n... (4 more variables)\n | https://erddap.osupytheas.fr/erddap/info/Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2015/index.htmlTable | http://www.emso-fr.org/EMSO-France
| http://erddap.osupytheas.fr/erddap/rss/Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2015.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2015&showErrors=false&email= | MIO UMR 7294 CNRS / OSU Pytheas | Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2015 | ||||
| https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2016.subset | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2016 | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2016.graph | https://erddap.osupytheas.fr/erddap/files/Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2016/ | public | EMSO Western Ligurian : Albatross mooring, AQUADOPP sensor (CSV 2016-2017) | The European Multidisciplinary Seafloor and water column Observatory (EMSO) is a research infrastructure distributed throughout Europe for seabed and water column observatories. It aims to further explore the oceans, better understand the phenomena that occur on the seabed, and elucidate the critical role that these phenomena play in global Earth systems. This observatory is based on observation sites (or nodes) that have been deployed in strategic locations in European seas, from the Arctic to the Atlantic, from the Mediterranean to the Black Sea. There are currently eleven deep water nodes plus four shallow water test nodes. EMSO Western Ligurian is one of these permanent underwater observatories located in the Ligurian Sea and is deployed off Toulon, France. This region was chosen for its particular scientific interests such as: seismicity, topography, turbidity, biodiversity, water mass dynamics and organic matter flow. This underwater observation network is also part of KM3NeT (https://www.km3net.org/) which has a modular topology designed to connect up to 120 neutrino detection units. Earth and Sea Science (ESS) instrumentation connected to KM3NeT is based on two complementary components: an instrumented interface module (MII) and an autonomous instrumented line (ALBATROSS). The ALBATROSS line is an inductive line (2000 m) composed of an acoustic communication system, two inductive cables equipped with Conductivity, Temperature, Depth (CTD)-O2 sensors, current meters and two instrumented buoys. This line is deployed at a distance of 2-3 kilometers from the MII, and communication on land is done by an acoustic link with the MII, and electro-optical cable via the KM3NeT node.\n\ncdm_data_type = Other\nVARIABLES:\nId\ntime (seconds since 1970-01-01T00:00:00Z)\nDepth\nX_East\nY_North\nZ_Up\nAmplitude_X\nAmplitude_Y\nAmplitude_Z\nBatterie\n... (8 more variables)\n | https://erddap.osupytheas.fr/erddap/info/Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2016/index.htmlTable | http://www.emso-fr.org/EMSO-France
| http://erddap.osupytheas.fr/erddap/rss/Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2016.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2016&showErrors=false&email= | MIO UMR 7294 CNRS / OSU Pytheas | Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2016 | ||||
| https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2018.subset | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2018 | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2018.graph | https://erddap.osupytheas.fr/erddap/files/Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2018/ | public | EMSO Western Ligurian : Albatross mooring, AQUADOPP sensor (CSV 2018-2019) | The European Multidisciplinary Seafloor and water column Observatory (EMSO) is a research infrastructure distributed throughout Europe for seabed and water column observatories. It aims to further explore the oceans, better understand the phenomena that occur on the seabed, and elucidate the critical role that these phenomena play in global Earth systems. This observatory is based on observation sites (or nodes) that have been deployed in strategic locations in European seas, from the Arctic to the Atlantic, from the Mediterranean to the Black Sea. There are currently eleven deep water nodes plus four shallow water test nodes. EMSO Western Ligurian is one of these permanent underwater observatories located in the Ligurian Sea and is deployed off Toulon, France. This region was chosen for its particular scientific interests such as: seismicity, topography, turbidity, biodiversity, water mass dynamics and organic matter flow. This underwater observation network is also part of KM3NeT (https://www.km3net.org/) which has a modular topology designed to connect up to 120 neutrino detection units. Earth and Sea Science (ESS) instrumentation connected to KM3NeT is based on two complementary components: an instrumented interface module (MII) and an autonomous instrumented line (ALBATROSS). The ALBATROSS line is an inductive line (2000 m) composed of an acoustic communication system, two inductive cables equipped with Conductivity, Temperature, Depth (CTD)-O2 sensors, current meters and two instrumented buoys. This line is deployed at a distance of 2-3 kilometers from the MII, and communication on land is done by an acoustic link with the MII, and electro-optical cable via the KM3NeT node.\n\ncdm_data_type = Other\nVARIABLES:\nId\ntime (seconds since 1970-01-01T00:00:00Z)\nDepth\nX_East\nY_North\nZ_Up\nAmplitude_X\nAmplitude_Y\nAmplitude_Z\nBatterie\n... (8 more variables)\n | https://erddap.osupytheas.fr/erddap/info/Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2018/index.htmlTable | http://www.emso-fr.org/EMSO-France
| http://erddap.osupytheas.fr/erddap/rss/Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2018.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2018&showErrors=false&email= | MIO UMR 7294 CNRS / OSU Pytheas | Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2018 | ||||
| https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2021.subset | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2021 | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2021.graph | https://erddap.osupytheas.fr/erddap/files/Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2021/ | public | EMSO Western Ligurian : Albatross mooring, AQUADOPP sensor (CSV files from 2021-07) | The European Multidisciplinary Seafloor and water column Observatory (EMSO) is a research infrastructure distributed throughout Europe for seabed and water column observatories. It aims to further explore the oceans, better understand the phenomena that occur on the seabed, and elucidate the critical role that these phenomena play in global Earth systems. This observatory is based on observation sites (or nodes) that have been deployed in strategic locations in European seas, from the Arctic to the Atlantic, from the Mediterranean to the Black Sea. There are currently eleven deep water nodes plus four shallow water test nodes. EMSO Western Ligurian is one of these permanent underwater observatories located in the Ligurian Sea and is deployed off Toulon, France. This region was chosen for its particular scientific interests such as: seismicity, topography, turbidity, biodiversity, water mass dynamics and organic matter flow. This underwater observation network is also part of KM3NeT (https://www.km3net.org/) which has a modular topology designed to connect up to 120 neutrino detection units. Earth and Sea Science (ESS) instrumentation connected to KM3NeT is based on two complementary components: an instrumented interface module (MII) and an autonomous instrumented line (ALBATROSS). The ALBATROSS line is an inductive line (2000 m) composed of an acoustic communication system, two inductive cables equipped with Conductivity, Temperature, Depth (CTD)-O2 sensors, current meters and two instrumented buoys. This line is deployed at a distance of 2-3 kilometers from the MII, and communication on land is done by an acoustic link with the MII, and electro-optical cable via the KM3NeT node.\n\ncdm_data_type = Point\nVARIABLES:\nId\ntime (seconds since 1970-01-01T00:00:00Z)\nProfondeur\nlatitude (degrees_north)\nlongitude (degrees_east)\nX_East\nY_North\nZ_Up\nAmplitude_X\nAmplitude_Y\n... (10 more variables)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2021_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2021_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2021/index.htmlTable | http://www.emso-fr.org/EMSO-France
| http://erddap.osupytheas.fr/erddap/rss/Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2021.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2021&showErrors=false&email= | MIO UMR 7294 CNRS / OSU Pytheas | Emso_Western_Ligurian_Albatross_Aquadopp_CSV_2021 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2014.subset | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2014 | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2014.graph | https://erddap.osupytheas.fr/erddap/files/Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2014/ | public | EMSO Western Ligurian : Albatross mooring, AQUADOPP sensor (NetCDF 2014-2015) | The European Multidisciplinary Seafloor and water column Observatory (EMSO) is a research infrastructure distributed throughout Europe for seabed and water column observatories. It aims to further explore the oceans, better understand the phenomena that occur on the seabed, and elucidate the critical role that these phenomena play in global Earth systems. This observatory is based on observation sites (or nodes) that have been deployed in strategic locations in European seas, from the Arctic to the Atlantic, from the Mediterranean to the Black Sea. There are currently eleven deep water nodes plus four shallow water test nodes. EMSO Western Ligurian is one of these permanent underwater observatories located in the Ligurian Sea and is deployed off Toulon, France. This region was chosen for its particular scientific interests such as: seismicity, topography, turbidity, biodiversity, water mass dynamics and organic matter flow. This underwater observation network is also part of KM3NeT (https://www.km3net.org/) which has a modular topology designed to connect up to 120 neutrino detection units. Earth and Sea Science (ESS) instrumentation connected to KM3NeT is based on two complementary components: an instrumented interface module (MII) and an autonomous instrumented line (ALBATROSS). The ALBATROSS line is an inductive line (2000 m) composed of an acoustic communication system, two inductive cables equipped with Conductivity, Temperature, Depth (CTD)-O2 sensors, current meters and two instrumented buoys. This line is deployed at a distance of 2-3 kilometers from the MII, and communication on land is done by an acoustic link with the MII, and electro-optical cable via the KM3NeT node.\n\ncdm_data_type = TimeSeries\nVARIABLES:\nstationname (station name)\nlatitude (Latitude of measurements, degrees_north)\nlongitude (Longitude of measurements, degrees_east)\ntime (time of measurements, seconds since 1970-01-01T00:00:00Z)\nTIME_QC (Time quality flag)\nDEPH (depth of measurements, Metres)\nTEMP (temperature, degree_C)\nTEMP_QC (Temperature quality flag)\nPRES (pressure, Decibars)\nPRES_QC (Pressure quality flag)\n... (22 more variables)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2014_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2014_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2014/index.htmlTable | http://www.emso-fr.org/EMSO-France
| http://erddap.osupytheas.fr/erddap/rss/Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2014.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2014&showErrors=false&email= | MIO UMR 7294 CNRS / OSU Pytheas | Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2014 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2015.subset | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2015 | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2015.graph | https://erddap.osupytheas.fr/erddap/files/Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2015/ | public | EMSO Western Ligurian : Albatross mooring, AQUADOPP sensor (NetCDF 2015-2016) | The European Multidisciplinary Seafloor and water column Observatory (EMSO) is a research infrastructure distributed throughout Europe for seabed and water column observatories. It aims to further explore the oceans, better understand the phenomena that occur on the seabed, and elucidate the critical role that these phenomena play in global Earth systems. This observatory is based on observation sites (or nodes) that have been deployed in strategic locations in European seas, from the Arctic to the Atlantic, from the Mediterranean to the Black Sea. There are currently eleven deep water nodes plus four shallow water test nodes. EMSO Western Ligurian is one of these permanent underwater observatories located in the Ligurian Sea and is deployed off Toulon, France. This region was chosen for its particular scientific interests such as: seismicity, topography, turbidity, biodiversity, water mass dynamics and organic matter flow. This underwater observation network is also part of KM3NeT (https://www.km3net.org/) which has a modular topology designed to connect up to 120 neutrino detection units. Earth and Sea Science (ESS) instrumentation connected to KM3NeT is based on two complementary components: an instrumented interface module (MII) and an autonomous instrumented line (ALBATROSS). The ALBATROSS line is an inductive line (2000 m) composed of an acoustic communication system, two inductive cables equipped with Conductivity, Temperature, Depth (CTD)-O2 sensors, current meters and two instrumented buoys. This line is deployed at a distance of 2-3 kilometers from the MII, and communication on land is done by an acoustic link with the MII, and electro-optical cable via the KM3NeT node.\n\ncdm_data_type = TimeSeries\nVARIABLES:\nstationname (station name)\nlatitude (Latitude of measurements, degrees_north)\nlongitude (Longitude of measurements, degrees_east)\ntime (time of measurements, seconds since 1970-01-01T00:00:00Z)\nTIME_QC (Time quality flag)\nDEPH (depth of measurements, Metres)\nTEMP (temperature, degree_C)\nTEMP_QC (Temperature quality flag)\nPRES (pressure, Decibars)\nPRES_QC (Pressure quality flag)\n... (16 more variables)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2015_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2015_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2015/index.htmlTable | http://www.emso-fr.org/EMSO-France
| http://erddap.osupytheas.fr/erddap/rss/Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2015.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2015&showErrors=false&email= | MIO UMR 7294 CNRS / OSU Pytheas | Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2015 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2016.subset | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2016 | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2016.graph | https://erddap.osupytheas.fr/erddap/files/Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2016/ | public | EMSO Western Ligurian : Albatross mooring, AQUADOPP sensor (NetCDF 2016-2017) | The European Multidisciplinary Seafloor and water column Observatory (EMSO) is a research infrastructure distributed throughout Europe for seabed and water column observatories. It aims to further explore the oceans, better understand the phenomena that occur on the seabed, and elucidate the critical role that these phenomena play in global Earth systems. This observatory is based on observation sites (or nodes) that have been deployed in strategic locations in European seas, from the Arctic to the Atlantic, from the Mediterranean to the Black Sea. There are currently eleven deep water nodes plus four shallow water test nodes. EMSO Western Ligurian is one of these permanent underwater observatories located in the Ligurian Sea and is deployed off Toulon, France. This region was chosen for its particular scientific interests such as: seismicity, topography, turbidity, biodiversity, water mass dynamics and organic matter flow. This underwater observation network is also part of KM3NeT (https://www.km3net.org/) which has a modular topology designed to connect up to 120 neutrino detection units. Earth and Sea Science (ESS) instrumentation connected to KM3NeT is based on two complementary components: an instrumented interface module (MII) and an autonomous instrumented line (ALBATROSS). The ALBATROSS line is an inductive line (2000 m) composed of an acoustic communication system, two inductive cables equipped with Conductivity, Temperature, Depth (CTD)-O2 sensors, current meters and two instrumented buoys. This line is deployed at a distance of 2-3 kilometers from the MII, and communication on land is done by an acoustic link with the MII, and electro-optical cable via the KM3NeT node.\n\ncdm_data_type = TimeSeries\nVARIABLES:\nstationname (station name)\nlatitude (Latitude of measurements, degrees_north)\nlongitude (Longitude of measurements, degrees_east)\nDEPH (depth of measurements, Metres)\ntime (time of measurements, seconds since 1970-01-01T00:00:00Z)\nTIME_QC (Time quality flag)\nRFVL_X (Metres per second)\nRFVL_Y (Y_North, Metres per second)\nLRZA (Metres per second)\nXYZ_QC\n... (22 more variables)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2016_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2016_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2016/index.htmlTable | http://www.emso-fr.org/EMSO-France
| http://erddap.osupytheas.fr/erddap/rss/Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2016.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2016&showErrors=false&email= | MIO UMR 7294 CNRS / OSU Pytheas | Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2016 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2018.subset | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2018 | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2018.graph | https://erddap.osupytheas.fr/erddap/files/Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2018/ | public | EMSO Western Ligurian : Albatross mooring, AQUADOPP sensor (NetCDF 2018-2019) | The European Multidisciplinary Seafloor and water column Observatory (EMSO) is a research infrastructure distributed throughout Europe for seabed and water column observatories. It aims to further explore the oceans, better understand the phenomena that occur on the seabed, and elucidate the critical role that these phenomena play in global Earth systems. This observatory is based on observation sites (or nodes) that have been deployed in strategic locations in European seas, from the Arctic to the Atlantic, from the Mediterranean to the Black Sea. There are currently eleven deep water nodes plus four shallow water test nodes. EMSO Western Ligurian is one of these permanent underwater observatories located in the Ligurian Sea and is deployed off Toulon, France. This region was chosen for its particular scientific interests such as: seismicity, topography, turbidity, biodiversity, water mass dynamics and organic matter flow. This underwater observation network is also part of KM3NeT (https://www.km3net.org/) which has a modular topology designed to connect up to 120 neutrino detection units. Earth and Sea Science (ESS) instrumentation connected to KM3NeT is based on two complementary components: an instrumented interface module (MII) and an autonomous instrumented line (ALBATROSS). The ALBATROSS line is an inductive line (2000 m) composed of an acoustic communication system, two inductive cables equipped with Conductivity, Temperature, Depth (CTD)-O2 sensors, current meters and two instrumented buoys. This line is deployed at a distance of 2-3 kilometers from the MII, and communication on land is done by an acoustic link with the MII, and electro-optical cable via the KM3NeT node.\n\ncdm_data_type = TimeSeries\nVARIABLES:\nstationname (station name)\nlatitude (Latitude of measurements, degrees_north)\nlongitude (Longitude of measurements, degrees_east)\nDEPH (depth of measurements, Metres)\ntime (time of measurements, seconds since 1970-01-01T00:00:00Z)\nTIME_QC (Time quality flag)\nRFVL_X (Metres per second)\nRFVL_Y (Y_North, Metres per second)\nLRZA (Metres per second)\nXYZ_QC\n... (22 more variables)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2018_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2018_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2018/index.htmlTable | http://www.emso-fr.org/EMSO-France
| http://erddap.osupytheas.fr/erddap/rss/Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2018.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2018&showErrors=false&email= | MIO UMR 7294 CNRS / OSU Pytheas | Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2018 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2021.subset | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2021 | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2021.graph | https://erddap.osupytheas.fr/erddap/files/Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2021/ | public | EMSO Western Ligurian : Albatross mooring, AQUADOPP sensor (NetCDF files from 2021-07) | The European Multidisciplinary Seafloor and water column Observatory (EMSO) is a research infrastructure distributed throughout Europe for seabed and water column observatories. It aims to further explore the oceans, better understand the phenomena that occur on the seabed, and elucidate the critical role that these phenomena play in global Earth systems. This observatory is based on observation sites (or nodes) that have been deployed in strategic locations in European seas, from the Arctic to the Atlantic, from the Mediterranean to the Black Sea. There are currently eleven deep water nodes plus four shallow water test nodes. EMSO Western Ligurian is one of these permanent underwater observatories located in the Ligurian Sea and is deployed off Toulon, France. This region was chosen for its particular scientific interests such as: seismicity, topography, turbidity, biodiversity, water mass dynamics and organic matter flow. This underwater observation network is also part of KM3NeT (https://www.km3net.org/) which has a modular topology designed to connect up to 120 neutrino detection units. Earth and Sea Science (ESS) instrumentation connected to KM3NeT is based on two complementary components: an instrumented interface module (MII) and an autonomous instrumented line (ALBATROSS). The ALBATROSS line is an inductive line (2000 m) composed of an acoustic communication system, two inductive cables equipped with Conductivity, Temperature, Depth (CTD)-O2 sensors, current meters and two instrumented buoys. This line is deployed at a distance of 2-3 kilometers from the MII, and communication on land is done by an acoustic link with the MII, and electro-optical cable via the KM3NeT node.\n\ncdm_data_type = TimeSeries\nVARIABLES:\nstationname (station name)\nlatitude (Latitude of measurements, degrees_north)\nlongitude (Longitude of measurements, degrees_east)\nDEPH (depth of measurements, Metres)\ntime (time of measurements, seconds since 1970-01-01T00:00:00Z)\nTIME_QC (Time quality flag)\nRFVL_X (Metres per second)\nRFVL_Y (Y_North, Metres per second)\nLRZA (Metres per second)\nXYZ_QC\n... (22 more variables)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2021_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2021_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2021/index.htmlTable | http://www.emso-fr.org/EMSO-France
| http://erddap.osupytheas.fr/erddap/rss/Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2021.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2021&showErrors=false&email= | MIO UMR 7294 CNRS / OSU Pytheas | Emso_Western_Ligurian_Albatross_Aquadopp_NetCDF_2021 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Microcat_CSV_2014.subset | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Microcat_CSV_2014 | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Microcat_CSV_2014.graph | https://erddap.osupytheas.fr/erddap/files/Emso_Western_Ligurian_Albatross_Microcat_CSV_2014/ | public | EMSO Western Ligurian : Albatross mooring, MICROCAT sensor (CSV 2014-2015) | The European Multidisciplinary Seafloor and water column Observatory (EMSO) is a research infrastructure distributed throughout Europe for seabed and water column observatories. It aims to further explore the oceans, better understand the phenomena that occur on the seabed, and elucidate the critical role that these phenomena play in global Earth systems. This observatory is based on observation sites (or nodes) that have been deployed in strategic locations in European seas, from the Arctic to the Atlantic, from the Mediterranean to the Black Sea. There are currently eleven deep water nodes plus four shallow water test nodes. EMSO Western Ligurian is one of these permanent underwater observatories located in the Ligurian Sea and is deployed off Toulon, France. This region was chosen for its particular scientific interests such as: seismicity, topography, turbidity, biodiversity, water mass dynamics and organic matter flow. This underwater observation network is also part of KM3NeT (https://www.km3net.org/) which has a modular topology designed to connect up to 120 neutrino detection units. Earth and Sea Science (ESS) instrumentation connected to KM3NeT is based on two complementary components: an instrumented interface module (MII) and an autonomous instrumented line (ALBATROSS). The ALBATROSS line is an inductive line (2000 m) composed of an acoustic communication system, two inductive cables equipped with Conductivity, Temperature, Depth (CTD)-O2 sensors, current meters and two instrumented buoys. This line is deployed at a distance of 2-3 kilometers from the MII, and communication on land is done by an acoustic link with the MII, and electro-optical cable via the KM3NeT node.\n\ncdm_data_type = Other\nVARIABLES:\ntime (seconds since 1970-01-01T00:00:00Z)\nID\nDEPH\nPRES (Pressure)\nTEMP (Temperature)\nCNDC\nDOX1\nTPOT\nDOX2\nPSAL\nDENS\n | https://erddap.osupytheas.fr/erddap/info/Emso_Western_Ligurian_Albatross_Microcat_CSV_2014/index.htmlTable | http://www.emso-fr.org/EMSO-France
| http://erddap.osupytheas.fr/erddap/rss/Emso_Western_Ligurian_Albatross_Microcat_CSV_2014.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=Emso_Western_Ligurian_Albatross_Microcat_CSV_2014&showErrors=false&email= | MIO UMR 7294 CNRS / OSU Pytheas | Emso_Western_Ligurian_Albatross_Microcat_CSV_2014 | ||||
| https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Microcat_CSV_2015.subset | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Microcat_CSV_2015 | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Microcat_CSV_2015.graph | https://erddap.osupytheas.fr/erddap/files/Emso_Western_Ligurian_Albatross_Microcat_CSV_2015/ | public | EMSO Western Ligurian : Albatross mooring, MICROCAT sensor (CSV 2015-2016) | The European Multidisciplinary Seafloor and water column Observatory (EMSO) is a research infrastructure distributed throughout Europe for seabed and water column observatories. It aims to further explore the oceans, better understand the phenomena that occur on the seabed, and elucidate the critical role that these phenomena play in global Earth systems. This observatory is based on observation sites (or nodes) that have been deployed in strategic locations in European seas, from the Arctic to the Atlantic, from the Mediterranean to the Black Sea. There are currently eleven deep water nodes plus four shallow water test nodes. EMSO Western Ligurian is one of these permanent underwater observatories located in the Ligurian Sea and is deployed off Toulon, France. This region was chosen for its particular scientific interests such as: seismicity, topography, turbidity, biodiversity, water mass dynamics and organic matter flow. This underwater observation network is also part of KM3NeT (https://www.km3net.org/) which has a modular topology designed to connect up to 120 neutrino detection units. Earth and Sea Science (ESS) instrumentation connected to KM3NeT is based on two complementary components: an instrumented interface module (MII) and an autonomous instrumented line (ALBATROSS). The ALBATROSS line is an inductive line (2000 m) composed of an acoustic communication system, two inductive cables equipped with Conductivity, Temperature, Depth (CTD)-O2 sensors, current meters and two instrumented buoys. This line is deployed at a distance of 2-3 kilometers from the MII, and communication on land is done by an acoustic link with the MII, and electro-optical cable via the KM3NeT node.\n\ncdm_data_type = Other\nVARIABLES:\ntime (seconds since 1970-01-01T00:00:00Z)\nID\nDEPH\nPRES (Pressure)\nTEMP (Temperature)\nCNDC\nDOX1\nTPOT\nDOX2\nPSAL\nDENS\n | https://erddap.osupytheas.fr/erddap/info/Emso_Western_Ligurian_Albatross_Microcat_CSV_2015/index.htmlTable | http://www.emso-fr.org/EMSO-France
| http://erddap.osupytheas.fr/erddap/rss/Emso_Western_Ligurian_Albatross_Microcat_CSV_2015.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=Emso_Western_Ligurian_Albatross_Microcat_CSV_2015&showErrors=false&email= | MIO UMR 7294 CNRS / OSU Pytheas | Emso_Western_Ligurian_Albatross_Microcat_CSV_2015 | ||||
| https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Microcat_CSV_2016.subset | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Microcat_CSV_2016 | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Microcat_CSV_2016.graph | https://erddap.osupytheas.fr/erddap/files/Emso_Western_Ligurian_Albatross_Microcat_CSV_2016/ | public | EMSO Western Ligurian : Albatross mooring, MICROCAT sensor (CSV 2016-2017) | The European Multidisciplinary Seafloor and water column Observatory (EMSO) is a research infrastructure distributed throughout Europe for seabed and water column observatories. It aims to further explore the oceans, better understand the phenomena that occur on the seabed, and elucidate the critical role that these phenomena play in global Earth systems. This observatory is based on observation sites (or nodes) that have been deployed in strategic locations in European seas, from the Arctic to the Atlantic, from the Mediterranean to the Black Sea. There are currently eleven deep water nodes plus four shallow water test nodes. EMSO Western Ligurian is one of these permanent underwater observatories located in the Ligurian Sea and is deployed off Toulon, France. This region was chosen for its particular scientific interests such as: seismicity, topography, turbidity, biodiversity, water mass dynamics and organic matter flow. This underwater observation network is also part of KM3NeT (https://www.km3net.org/) which has a modular topology designed to connect up to 120 neutrino detection units. Earth and Sea Science (ESS) instrumentation connected to KM3NeT is based on two complementary components: an instrumented interface module (MII) and an autonomous instrumented line (ALBATROSS). The ALBATROSS line is an inductive line (2000 m) composed of an acoustic communication system, two inductive cables equipped with Conductivity, Temperature, Depth (CTD)-O2 sensors, current meters and two instrumented buoys. This line is deployed at a distance of 2-3 kilometers from the MII, and communication on land is done by an acoustic link with the MII, and electro-optical cable via the KM3NeT node.\n\ncdm_data_type = Other\nVARIABLES:\ntime (seconds since 1970-01-01T00:00:00Z)\nTIME_QC\nDEPH\nCNDC\nCNDC_QC\nPRES (Pressure)\nPRES_QC\nTEMP (Temperature)\nTEMP_QC\nTPOT\n... (6 more variables)\n | https://erddap.osupytheas.fr/erddap/info/Emso_Western_Ligurian_Albatross_Microcat_CSV_2016/index.htmlTable | http://www.emso-fr.org/EMSO-France
| http://erddap.osupytheas.fr/erddap/rss/Emso_Western_Ligurian_Albatross_Microcat_CSV_2016.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=Emso_Western_Ligurian_Albatross_Microcat_CSV_2016&showErrors=false&email= | MIO UMR 7294 CNRS / OSU Pytheas | Emso_Western_Ligurian_Albatross_Microcat_CSV_2016 | ||||
| https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Microcat_CSV_2018.subset | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Microcat_CSV_2018 | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Microcat_CSV_2018.graph | https://erddap.osupytheas.fr/erddap/files/Emso_Western_Ligurian_Albatross_Microcat_CSV_2018/ | public | EMSO Western Ligurian : Albatross mooring, MICROCAT sensor (CSV 2018-2019) | The European Multidisciplinary Seafloor and water column Observatory (EMSO) is a research infrastructure distributed throughout Europe for seabed and water column observatories. It aims to further explore the oceans, better understand the phenomena that occur on the seabed, and elucidate the critical role that these phenomena play in global Earth systems. This observatory is based on observation sites (or nodes) that have been deployed in strategic locations in European seas, from the Arctic to the Atlantic, from the Mediterranean to the Black Sea. There are currently eleven deep water nodes plus four shallow water test nodes. EMSO Western Ligurian is one of these permanent underwater observatories located in the Ligurian Sea and is deployed off Toulon, France. This region was chosen for its particular scientific interests such as: seismicity, topography, turbidity, biodiversity, water mass dynamics and organic matter flow. This underwater observation network is also part of KM3NeT (https://www.km3net.org/) which has a modular topology designed to connect up to 120 neutrino detection units. Earth and Sea Science (ESS) instrumentation connected to KM3NeT is based on two complementary components: an instrumented interface module (MII) and an autonomous instrumented line (ALBATROSS). The ALBATROSS line is an inductive line (2000 m) composed of an acoustic communication system, two inductive cables equipped with Conductivity, Temperature, Depth (CTD)-O2 sensors, current meters and two instrumented buoys. This line is deployed at a distance of 2-3 kilometers from the MII, and communication on land is done by an acoustic link with the MII, and electro-optical cable via the KM3NeT node.\n\ncdm_data_type = Other\nVARIABLES:\ntime (seconds since 1970-01-01T00:00:00Z)\nTIME_QC\nCNDC\nDEPH\nCNDC_QC\nPRES (Pressure)\nDENS\nDENS_QC\nPRES_QC\nTEMP (Temperature)\n... (8 more variables)\n | https://erddap.osupytheas.fr/erddap/info/Emso_Western_Ligurian_Albatross_Microcat_CSV_2018/index.htmlTable | http://www.emso-fr.org/EMSO-France
| http://erddap.osupytheas.fr/erddap/rss/Emso_Western_Ligurian_Albatross_Microcat_CSV_2018.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=Emso_Western_Ligurian_Albatross_Microcat_CSV_2018&showErrors=false&email= | MIO UMR 7294 CNRS / OSU Pytheas | Emso_Western_Ligurian_Albatross_Microcat_CSV_2018 | ||||
| https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Microcat_CSV_2019.subset | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Microcat_CSV_2019 | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Microcat_CSV_2019.graph | https://erddap.osupytheas.fr/erddap/files/Emso_Western_Ligurian_Albatross_Microcat_CSV_2019/ | public | EMSO Western Ligurian : Albatross mooring, MICROCAT sensor (CSV 2019-2020) | The European Multidisciplinary Seafloor and water column Observatory (EMSO) is a research infrastructure distributed throughout Europe for seabed and water column observatories. It aims to further explore the oceans, better understand the phenomena that occur on the seabed, and elucidate the critical role that these phenomena play in global Earth systems. This observatory is based on observation sites (or nodes) that have been deployed in strategic locations in European seas, from the Arctic to the Atlantic, from the Mediterranean to the Black Sea. There are currently eleven deep water nodes plus four shallow water test nodes. EMSO Western Ligurian is one of these permanent underwater observatories located in the Ligurian Sea and is deployed off Toulon, France. This region was chosen for its particular scientific interests such as: seismicity, topography, turbidity, biodiversity, water mass dynamics and organic matter flow. This underwater observation network is also part of KM3NeT (https://www.km3net.org/) which has a modular topology designed to connect up to 120 neutrino detection units. Earth and Sea Science (ESS) instrumentation connected to KM3NeT is based on two complementary components: an instrumented interface module (MII) and an autonomous instrumented line (ALBATROSS). The ALBATROSS line is an inductive line (2000 m) composed of an acoustic communication system, two inductive cables equipped with Conductivity, Temperature, Depth (CTD)-O2 sensors, current meters and two instrumented buoys. This line is deployed at a distance of 2-3 kilometers from the MII, and communication on land is done by an acoustic link with the MII, and electro-optical cable via the KM3NeT node.\n\ncdm_data_type = Other\nVARIABLES:\ntime (seconds since 1970-01-01T00:00:00Z)\nSensor_serial_number\nDEPH\nTEMP (Temperature)\nCNDC\nPRES (Pressure)\nDOX1\nPSAL\nTPOT\nOSAT\nDENS\n | https://erddap.osupytheas.fr/erddap/info/Emso_Western_Ligurian_Albatross_Microcat_CSV_2019/index.htmlTable | http://www.emso-fr.org/EMSO-France
| http://erddap.osupytheas.fr/erddap/rss/Emso_Western_Ligurian_Albatross_Microcat_CSV_2019.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=Emso_Western_Ligurian_Albatross_Microcat_CSV_2019&showErrors=false&email= | MIO UMR 7294 CNRS / OSU Pytheas | Emso_Western_Ligurian_Albatross_Microcat_CSV_2019 | ||||
| https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Microcat_CSV_2021.subset | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Microcat_CSV_2021 | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Microcat_CSV_2021.graph | https://erddap.osupytheas.fr/erddap/files/Emso_Western_Ligurian_Albatross_Microcat_CSV_2021/ | public | EMSO Western Ligurian : Albatross mooring, MICROCAT sensor (CSV files from 2021-07) | The European Multidisciplinary Seafloor and water column Observatory (EMSO) is a research infrastructure distributed throughout Europe for seabed and water column observatories. It aims to further explore the oceans, better understand the phenomena that occur on the seabed, and elucidate the critical role that these phenomena play in global Earth systems. This observatory is based on observation sites (or nodes) that have been deployed in strategic locations in European seas, from the Arctic to the Atlantic, from the Mediterranean to the Black Sea. There are currently eleven deep water nodes plus four shallow water test nodes. EMSO Western Ligurian is one of these permanent underwater observatories located in the Ligurian Sea and is deployed off Toulon, France. This region was chosen for its particular scientific interests such as: seismicity, topography, turbidity, biodiversity, water mass dynamics and organic matter flow. This underwater observation network is also part of KM3NeT (https://www.km3net.org/) which has a modular topology designed to connect up to 120 neutrino detection units. Earth and Sea Science (ESS) instrumentation connected to KM3NeT is based on two complementary components: an instrumented interface module (MII) and an autonomous instrumented line (ALBATROSS). The ALBATROSS line is an inductive line (2000 m) composed of an acoustic communication system, two inductive cables equipped with Conductivity, Temperature, Depth (CTD)-O2 sensors, current meters and two instrumented buoys. This line is deployed at a distance of 2-3 kilometers from the MII, and communication on land is done by an acoustic link with the MII, and electro-optical cable via the KM3NeT node.\n\ncdm_data_type = Other\nVARIABLES:\ntime (seconds since 1970-01-01T00:00:00Z)\nSensor_serial_number\nDEPH\nTEMP (Temperature)\nCNDC\nPRES (Pressure)\nDOX1\nDOX2\nPSAL\nTPOT\nOSAT\nDENS\n | https://erddap.osupytheas.fr/erddap/info/Emso_Western_Ligurian_Albatross_Microcat_CSV_2021/index.htmlTable | http://www.emso-fr.org/EMSO-France
| http://erddap.osupytheas.fr/erddap/rss/Emso_Western_Ligurian_Albatross_Microcat_CSV_2021.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=Emso_Western_Ligurian_Albatross_Microcat_CSV_2021&showErrors=false&email= | MIO UMR 7294 CNRS / OSU Pytheas | Emso_Western_Ligurian_Albatross_Microcat_CSV_2021 | ||||
| https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2014.subset | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2014 | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2014.graph | https://erddap.osupytheas.fr/erddap/files/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2014/ | public | EMSO Western Ligurian : Albatross mooring, MICROCAT sensor (NetCDF 2014-2015) | The European Multidisciplinary Seafloor and water column Observatory (EMSO) is a research infrastructure distributed throughout Europe for seabed and water column observatories. It aims to further explore the oceans, better understand the phenomena that occur on the seabed, and elucidate the critical role that these phenomena play in global Earth systems. This observatory is based on observation sites (or nodes) that have been deployed in strategic locations in European seas, from the Arctic to the Atlantic, from the Mediterranean to the Black Sea. There are currently eleven deep water nodes plus four shallow water test nodes. EMSO Western Ligurian is one of these permanent underwater observatories located in the Ligurian Sea and is deployed off Toulon, France. This region was chosen for its particular scientific interests such as: seismicity, topography, turbidity, biodiversity, water mass dynamics and organic matter flow. This underwater observation network is also part of KM3NeT (https://www.km3net.org/) which has a modular topology designed to connect up to 120 neutrino detection units. Earth and Sea Science (ESS) instrumentation connected to KM3NeT is based on two complementary components: an instrumented interface module (MII) and an autonomous instrumented line (ALBATROSS). The ALBATROSS line is an inductive line (2000 m) composed of an acoustic communication system, two inductive cables equipped with Conductivity, Temperature, Depth (CTD)-O2 sensors, current meters and two instrumented buoys. This line is deployed at a distance of 2-3 kilometers from the MII, and communication on land is done by an acoustic link with the MII, and electro-optical cable via the KM3NeT node.\n\ncdm_data_type = TimeSeries\nVARIABLES:\nstationname (station name)\nlatitude (Latitude of measurements, degrees_north)\nlongitude (Longitude of measurements, degrees_east)\ntime (time of measurements, seconds since 1970-01-01T00:00:00Z)\nTIME_QC (Time quality flag)\nDEPH (depth of measurements, Metres)\nTEMP (temperature, degree_C)\nTEMP_QC (Temperature quality flag)\nDOX2 (Dissolved oxygen, Micromoles per kilogram)\nDOX_QC (Oxygen quality flag)\n... (8 more variables)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2014_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2014_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2014/index.htmlTable | http://www.emso-fr.org/EMSO-France
| http://erddap.osupytheas.fr/erddap/rss/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2014.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2014&showErrors=false&email= | MIO UMR 7294 CNRS / OSU Pytheas | Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2014 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2015.subset | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2015 | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2015.graph | https://erddap.osupytheas.fr/erddap/files/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2015/ | public | EMSO Western Ligurian : Albatross mooring, MICROCAT sensor (NetCDF 2015-2016) | The European Multidisciplinary Seafloor and water column Observatory (EMSO) is a research infrastructure distributed throughout Europe for seabed and water column observatories. It aims to further explore the oceans, better understand the phenomena that occur on the seabed, and elucidate the critical role that these phenomena play in global Earth systems. This observatory is based on observation sites (or nodes) that have been deployed in strategic locations in European seas, from the Arctic to the Atlantic, from the Mediterranean to the Black Sea. There are currently eleven deep water nodes plus four shallow water test nodes. EMSO Western Ligurian is one of these permanent underwater observatories located in the Ligurian Sea and is deployed off Toulon, France. This region was chosen for its particular scientific interests such as: seismicity, topography, turbidity, biodiversity, water mass dynamics and organic matter flow. This underwater observation network is also part of KM3NeT (https://www.km3net.org/) which has a modular topology designed to connect up to 120 neutrino detection units. Earth and Sea Science (ESS) instrumentation connected to KM3NeT is based on two complementary components: an instrumented interface module (MII) and an autonomous instrumented line (ALBATROSS). The ALBATROSS line is an inductive line (2000 m) composed of an acoustic communication system, two inductive cables equipped with Conductivity, Temperature, Depth (CTD)-O2 sensors, current meters and two instrumented buoys. This line is deployed at a distance of 2-3 kilometers from the MII, and communication on land is done by an acoustic link with the MII, and electro-optical cable via the KM3NeT node.\n\ncdm_data_type = TimeSeries\nVARIABLES:\nstationname (station name)\nlatitude (Latitude of measurements, degrees_north)\nlongitude (Longitude of measurements, degrees_east)\ntime (time of measurements, seconds since 1970-01-01T00:00:00Z)\nTIME_QC (Time quality flag)\nDEPH (depth of measurements, Metres)\nTEMP (temperature, degree_C)\nTEMP_QC (Temperature quality flag)\nDOX2 (Dissolved oxygen, Micromoles per kilogram)\nDOX_QC (Oxygen quality flag)\n... (8 more variables)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2015_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2015_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2015/index.htmlTable | http://www.emso-fr.org/EMSO-France
| http://erddap.osupytheas.fr/erddap/rss/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2015.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2015&showErrors=false&email= | MIO UMR 7294 CNRS / OSU Pytheas | Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2015 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2016.subset | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2016 | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2016.graph | https://erddap.osupytheas.fr/erddap/files/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2016/ | public | EMSO Western Ligurian : Albatross mooring, MICROCAT sensor (NetCDF 2016-2017) | The European Multidisciplinary Seafloor and water column Observatory (EMSO) is a research infrastructure distributed throughout Europe for seabed and water column observatories. It aims to further explore the oceans, better understand the phenomena that occur on the seabed, and elucidate the critical role that these phenomena play in global Earth systems. This observatory is based on observation sites (or nodes) that have been deployed in strategic locations in European seas, from the Arctic to the Atlantic, from the Mediterranean to the Black Sea. There are currently eleven deep water nodes plus four shallow water test nodes. EMSO Western Ligurian is one of these permanent underwater observatories located in the Ligurian Sea and is deployed off Toulon, France. This region was chosen for its particular scientific interests such as: seismicity, topography, turbidity, biodiversity, water mass dynamics and organic matter flow. This underwater observation network is also part of KM3NeT (https://www.km3net.org/) which has a modular topology designed to connect up to 120 neutrino detection units. Earth and Sea Science (ESS) instrumentation connected to KM3NeT is based on two complementary components: an instrumented interface module (MII) and an autonomous instrumented line (ALBATROSS). The ALBATROSS line is an inductive line (2000 m) composed of an acoustic communication system, two inductive cables equipped with Conductivity, Temperature, Depth (CTD)-O2 sensors, current meters and two instrumented buoys. This line is deployed at a distance of 2-3 kilometers from the MII, and communication on land is done by an acoustic link with the MII, and electro-optical cable via the KM3NeT node.\n\ncdm_data_type = TimeSeries\nVARIABLES:\nPRES (pressure, Decibars)\nTPOT (temperature potentielle, degree_C)\nCNDC (conductivity, Siemens per metre)\nPSAL (Practical salinity)\nDEPH (depth of measurements, Metres)\nTEMP (temperature, degree_C)\ntime (time of measurements, seconds since 1970-01-01T00:00:00Z)\nOSAT (Oxygen saturation, Percent)\nDOX2 (Dissolved oxygen, Micromoles per kilogram)\nDOX1 (Dissolved oxygen, Micromoles per litre)\n... (10 more variables)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2016_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2016_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2016/index.htmlTable | http://www.emso-fr.org/EMSO-France
| http://erddap.osupytheas.fr/erddap/rss/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2016.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2016&showErrors=false&email= | MIO UMR 7294 CNRS / OSU Pytheas | Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2016 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2018.subset | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2018 | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2018.graph | https://erddap.osupytheas.fr/erddap/files/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2018/ | public | EMSO Western Ligurian : Albatross mooring, MICROCAT sensor (NetCDF 2018-2019) | The European Multidisciplinary Seafloor and water column Observatory (EMSO) is a research infrastructure distributed throughout Europe for seabed and water column observatories. It aims to further explore the oceans, better understand the phenomena that occur on the seabed, and elucidate the critical role that these phenomena play in global Earth systems. This observatory is based on observation sites (or nodes) that have been deployed in strategic locations in European seas, from the Arctic to the Atlantic, from the Mediterranean to the Black Sea. There are currently eleven deep water nodes plus four shallow water test nodes. EMSO Western Ligurian is one of these permanent underwater observatories located in the Ligurian Sea and is deployed off Toulon, France. This region was chosen for its particular scientific interests such as: seismicity, topography, turbidity, biodiversity, water mass dynamics and organic matter flow. This underwater observation network is also part of KM3NeT (https://www.km3net.org/) which has a modular topology designed to connect up to 120 neutrino detection units. Earth and Sea Science (ESS) instrumentation connected to KM3NeT is based on two complementary components: an instrumented interface module (MII) and an autonomous instrumented line (ALBATROSS). The ALBATROSS line is an inductive line (2000 m) composed of an acoustic communication system, two inductive cables equipped with Conductivity, Temperature, Depth (CTD)-O2 sensors, current meters and two instrumented buoys. This line is deployed at a distance of 2-3 kilometers from the MII, and communication on land is done by an acoustic link with the MII, and electro-optical cable via the KM3NeT node\n\ncdm_data_type = TimeSeries\nVARIABLES:\ntime (time of measurements, seconds since 1970-01-01T00:00:00Z)\nPRES (pressure, Decibars)\nDEPH (depth of measurements, Metres)\nTEMP (temperature, degree_C)\nTPOT (temperature potentielle, degree_C)\nCNDC (conductivity, Siemens per metre)\nPSAL (Practical salinity)\nDOX1 (Dissolved oxygen, Micromoles per litre)\nDOX2 (Dissolved oxygen, Micromoles per kilogram)\nOSAT (Oxygen saturation, Micromoles per kilogram)\n... (12 more variables)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2018_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2018_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2018/index.htmlTable | http://www.emso-fr.org/EMSO-France
| http://erddap.osupytheas.fr/erddap/rss/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2018.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2018&showErrors=false&email= | MIO UMR 7294 CNRS / OSU Pytheas | Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2018 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2019.subset | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2019 | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2019.graph | https://erddap.osupytheas.fr/erddap/files/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2019/ | public | EMSO Western Ligurian : Albatross mooring, MICROCAT sensor (NetCDF 2019-2020) | The European Multidisciplinary Seafloor and water column Observatory (EMSO) is a research infrastructure distributed throughout Europe for seabed and water column observatories. It aims to further explore the oceans, better understand the phenomena that occur on the seabed, and elucidate the critical role that these phenomena play in global Earth systems. This observatory is based on observation sites (or nodes) that have been deployed in strategic locations in European seas, from the Arctic to the Atlantic, from the Mediterranean to the Black Sea. There are currently eleven deep water nodes plus four shallow water test nodes. EMSO Western Ligurian is one of these permanent underwater observatories located in the Ligurian Sea and is deployed off Toulon, France. This region was chosen for its particular scientific interests such as: seismicity, topography, turbidity, biodiversity, water mass dynamics and organic matter flow. This underwater observation network is also part of KM3NeT (https://www.km3net.org/) which has a modular topology designed to connect up to 120 neutrino detection units. Earth and Sea Science (ESS) instrumentation connected to KM3NeT is based on two complementary components: an instrumented interface module (MII) and an autonomous instrumented line (ALBATROSS). The ALBATROSS line is an inductive line (2000 m) composed of an acoustic communication system, two inductive cables equipped with Conductivity, Temperature, Depth (CTD)-O2 sensors, current meters and two instrumented buoys. This line is deployed at a distance of 2-3 kilometers from the MII, and communication on land is done by an acoustic link with the MII, and electro-optical cable via the KM3NeT node.\n\ncdm_data_type = TimeSeries\nVARIABLES:\nstationname (station name)\nlatitude (Latitude of measurements, degrees_north)\nlongitude (Longitude of measurements, degrees_east)\ntime (time of measurements, seconds since 1970-01-01T00:00:00Z)\nTIME_QC (Time quality flag)\nDEPH (depth of measurements, Metres)\nTEMP (temperature, degree_C)\nTEMP_QC (Temperature quality flag)\nCNDC (conductivity, Siemens per metre)\nCNDC_QC (Conductivity quality flag)\n... (10 more variables)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2019_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2019_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2019/index.htmlTable | http://www.emso-fr.org/EMSO-France
| http://erddap.osupytheas.fr/erddap/rss/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2019.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2019&showErrors=false&email= | MIO UMR 7294 CNRS / OSU Pytheas | Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2019 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2021.subset | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2021 | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2021.graph | https://erddap.osupytheas.fr/erddap/files/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2021/ | public | EMSO Western Ligurian : Albatross mooring, MICROCAT sensor (NetCDF files from 2021-07) | The European Multidisciplinary Seafloor and water column Observatory (EMSO) is a research infrastructure distributed throughout Europe for seabed and water column observatories. It aims to further explore the oceans, better understand the phenomena that occur on the seabed, and elucidate the critical role that these phenomena play in global Earth systems. This observatory is based on observation sites (or nodes) that have been deployed in strategic locations in European seas, from the Arctic to the Atlantic, from the Mediterranean to the Black Sea. There are currently eleven deep water nodes plus four shallow water test nodes. EMSO Western Ligurian is one of these permanent underwater observatories located in the Ligurian Sea and is deployed off Toulon, France. This region was chosen for its particular scientific interests such as: seismicity, topography, turbidity, biodiversity, water mass dynamics and organic matter flow. This underwater observation network is also part of KM3NeT (https://www.km3net.org/) which has a modular topology designed to connect up to 120 neutrino detection units. Earth and Sea Science (ESS) instrumentation connected to KM3NeT is based on two complementary components: an instrumented interface module (MII) and an autonomous instrumented line (ALBATROSS). The ALBATROSS line is an inductive line (2000 m) composed of an acoustic communication system, two inductive cables equipped with Conductivity, Temperature, Depth (CTD)-O2 sensors, current meters and two instrumented buoys. This line is deployed at a distance of 2-3 kilometers from the MII, and communication on land is done by an acoustic link with the MII, and electro-optical cable via the KM3NeT node\n\ncdm_data_type = TimeSeries\nVARIABLES:\nstationname (station name)\nlatitude (Latitude of measurements, degrees_north)\nlongitude (Longitude of measurements, degrees_east)\ntime (time of measurements, seconds since 1970-01-01T00:00:00Z)\nTIME_QC (Time quality flag)\nTPOT (temperature potentielle, degree_C)\nTEMP (temperature, degree_C)\nTEMP_QC (Temperature quality flag)\nCNDC (conductivity, Siemens per metre)\nCNDC_QC (Conductivity quality flag)\n... (12 more variables)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2021_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2021_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2021/index.htmlTable | http://www.emso-fr.org/EMSO-France
| http://erddap.osupytheas.fr/erddap/rss/Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2021.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2021&showErrors=false&email= | MIO UMR 7294 CNRS / OSU Pytheas | Emso_Western_Ligurian_Albatross_Microcat_NetCDF_2021 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_MII_Aquadopp_NetCDF_2017.subset | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_MII_Aquadopp_NetCDF_2017 | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_MII_Aquadopp_NetCDF_2017.graph | https://erddap.osupytheas.fr/erddap/files/Emso_Western_Ligurian_MII_Aquadopp_NetCDF_2017/ | public | EMSO Western Ligurian : MII, AQUADOPP sensor (NetCDF files from 2017-09) | The European Multidisciplinary Seafloor and water column Observatory (EMSO) is a research infrastructure distributed throughout Europe for seabed and water column observatories. It aims to further explore the oceans, better understand the phenomena that occur on the seabed, and elucidate the critical role that these phenomena play in global Earth systems. This observatory is based on observation sites (or nodes) that have been deployed in strategic locations in European seas, from the Arctic to the Atlantic, from the Mediterranean to the Black Sea. There are currently eleven deep water nodes plus four shallow water test nodes. EMSO Western Ligurian is one of these permanent underwater observatories located in the Ligurian Sea and is deployed off Toulon, France. This region was chosen for its particular scientific interests such as: seismicity, topography, turbidity, biodiversity, water mass dynamics and organic matter flow. This underwater observation network is also part of KM3NeT (https://www.km3net.org/) which has a modular topology designed to connect up to 120 neutrino detection units. Earth and Sea Science (ESS) instrumentation connected to KM3NeT is based on two complementary components: an instrumented interface module (MII) and an autonomous instrumented line (ALBATROSS). The ALBATROSS line is an inductive line (2000 m) composed of an acoustic communication system, two inductive cables equipped with Conductivity, Temperature, Depth (CTD)-O2 sensors, current meters and two instrumented buoys. This line is deployed at a distance of 2-3 kilometers from the MII, and communication on land is done by an acoustic link with the MII, and electro-optical cable via the KM3NeT node.\n\ncdm_data_type = TimeSeries\nVARIABLES:\nstationname (station name)\nlatitude (Latitude of measurements, degrees_north)\nlongitude (Longitude of measurements, degrees_east)\ntime (time of measurements, seconds since 1970-01-01T00:00:00Z)\nTIME_QC (Time quality flag)\nDEPH (depth of measurements, Metres)\nRFVL_X (Metres per second)\nRFVL_Y (Y_North, Metres per second)\nLRZA (Metres per second)\nXYZ_QC\n... (22 more variables)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/Emso_Western_Ligurian_MII_Aquadopp_NetCDF_2017_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/Emso_Western_Ligurian_MII_Aquadopp_NetCDF_2017_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/Emso_Western_Ligurian_MII_Aquadopp_NetCDF_2017/index.htmlTable | http://www.emso-fr.org/EMSO-France
| http://erddap.osupytheas.fr/erddap/rss/Emso_Western_Ligurian_MII_Aquadopp_NetCDF_2017.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=Emso_Western_Ligurian_MII_Aquadopp_NetCDF_2017&showErrors=false&email= | MIO UMR 7294 CNRS / OSU Pytheas | Emso_Western_Ligurian_MII_Aquadopp_NetCDF_2017 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_MII_Microcat_CSV_2017.subset | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_MII_Microcat_CSV_2017 | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_MII_Microcat_CSV_2017.graph | https://erddap.osupytheas.fr/erddap/files/Emso_Western_Ligurian_MII_Microcat_CSV_2017/ | public | EMSO Western Ligurian : MII, MICROCAT sensor (CSV files from 2017-09) | The European Multidisciplinary Seafloor and water column Observatory (EMSO) is a research infrastructure distributed throughout Europe for seabed and water column observatories. It aims to further explore the oceans, better understand the phenomena that occur on the seabed, and elucidate the critical role that these phenomena play in global Earth systems. This observatory is based on observation sites (or nodes) that have been deployed in strategic locations in European seas, from the Arctic to the Atlantic, from the Mediterranean to the Black Sea. There are currently eleven deep water nodes plus four shallow water test nodes. EMSO Western Ligurian is one of these permanent underwater observatories located in the Ligurian Sea and is deployed off Toulon, France. This region was chosen for its particular scientific interests such as: seismicity, topography, turbidity, biodiversity, water mass dynamics and organic matter flow. This underwater observation network is also part of KM3NeT (https://www.km3net.org/) which has a modular topology designed to connect up to 120 neutrino detection units. Earth and Sea Science (ESS) instrumentation connected to KM3NeT is based on two complementary components: an instrumented interface module (MII) and an autonomous instrumented line (ALBATROSS). The ALBATROSS line is an inductive line (2000 m) composed of an acoustic communication system, two inductive cables equipped with Conductivity, Temperature, Depth (CTD)-O2 sensors, current meters and two instrumented buoys. This line is deployed at a distance of 2-3 kilometers from the MII, and communication on land is done by an acoustic link with the MII, and electro-optical cable via the KM3NeT node.\n\ncdm_data_type = Point\nVARIABLES:\ntime (Date Time Computer, seconds since 1970-01-01T00:00:00Z)\nlatitude (degrees_north)\nlongitude (degrees_east)\nTemperature\nConductivity (Sea Water Electrical Conductivity)\nPressure\nDateTime_Instrument (Date Time Instrument, seconds since 1970-01-01T00:00:00Z)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/Emso_Western_Ligurian_MII_Microcat_CSV_2017_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/Emso_Western_Ligurian_MII_Microcat_CSV_2017_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/Emso_Western_Ligurian_MII_Microcat_CSV_2017/index.htmlTable | http://www.emso-fr.org/EMSO-France
| http://erddap.osupytheas.fr/erddap/rss/Emso_Western_Ligurian_MII_Microcat_CSV_2017.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=Emso_Western_Ligurian_MII_Microcat_CSV_2017&showErrors=false&email= | MIO UMR 7294 CNRS / OSU Pytheas | Emso_Western_Ligurian_MII_Microcat_CSV_2017 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_MII_Microcat_NetCDF_2017.subset | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_MII_Microcat_NetCDF_2017 | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_MII_Microcat_NetCDF_2017.graph | https://erddap.osupytheas.fr/erddap/files/Emso_Western_Ligurian_MII_Microcat_NetCDF_2017/ | public | EMSO Western Ligurian : MII, MICROCAT sensor (NetCDF files from 2017-09) | The European Multidisciplinary Seafloor and water column Observatory (EMSO) is a research infrastructure distributed throughout Europe for seabed and water column observatories. It aims to further explore the oceans, better understand the phenomena that occur on the seabed, and elucidate the critical role that these phenomena play in global Earth systems. This observatory is based on observation sites (or nodes) that have been deployed in strategic locations in European seas, from the Arctic to the Atlantic, from the Mediterranean to the Black Sea. There are currently eleven deep water nodes plus four shallow water test nodes. EMSO Western Ligurian is one of these permanent underwater observatories located in the Ligurian Sea and is deployed off Toulon, France. This region was chosen for its particular scientific interests such as: seismicity, topography, turbidity, biodiversity, water mass dynamics and organic matter flow. This underwater observation network is also part of KM3NeT (https://www.km3net.org/) which has a modular topology designed to connect up to 120 neutrino detection units. Earth and Sea Science (ESS) instrumentation connected to KM3NeT is based on two complementary components: an instrumented interface module (MII) and an autonomous instrumented line (ALBATROSS). The ALBATROSS line is an inductive line (2000 m) composed of an acoustic communication system, two inductive cables equipped with Conductivity, Temperature, Depth (CTD)-O2 sensors, current meters and two instrumented buoys. This line is deployed at a distance of 2-3 kilometers from the MII, and communication on land is done by an acoustic link with the MII, and electro-optical cable via the KM3NeT node.\n\ncdm_data_type = TimeSeries\nVARIABLES:\nstationname (station name)\nlatitude (Latitude of measurements, degrees_north)\nlongitude (Longitude of measurements, degrees_east)\ntime (time of measurements, seconds since 1970-01-01T00:00:00Z)\nTIME_QC (Time quality flag)\nTEMP (temperature, degree_C)\nTEMP_QC (Temperature quality flag)\nCNDC (conductivity, Siemens per metre)\nCNDC_QC (Conductivity quality flag)\nPRES (pressure, Decibars)\nPRES_QC (Pressure quality flag)\nDEPH (depth of measurements, Metres)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/Emso_Western_Ligurian_MII_Microcat_NetCDF_2017_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/Emso_Western_Ligurian_MII_Microcat_NetCDF_2017_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/Emso_Western_Ligurian_MII_Microcat_NetCDF_2017/index.htmlTable | http://www.emso-fr.org/EMSO-France
| http://erddap.osupytheas.fr/erddap/rss/Emso_Western_Ligurian_MII_Microcat_NetCDF_2017.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=Emso_Western_Ligurian_MII_Microcat_NetCDF_2017&showErrors=false&email= | MIO UMR 7294 CNRS / OSU Pytheas | Emso_Western_Ligurian_MII_Microcat_NetCDF_2017 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_MII_Oxygen_CSV_2017.subset | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_MII_Oxygen_CSV_2017 | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_MII_Oxygen_CSV_2017.graph | https://erddap.osupytheas.fr/erddap/files/Emso_Western_Ligurian_MII_Oxygen_CSV_2017/ | public | EMSO Western Ligurian : MII, OXYGEN sensor (CSV files from 2017-09) | The European Multidisciplinary Seafloor and water column Observatory (EMSO) is a research infrastructure distributed throughout Europe for seabed and water column observatories. It aims to further explore the oceans, better understand the phenomena that occur on the seabed, and elucidate the critical role that these phenomena play in global Earth systems. This observatory is based on observation sites (or nodes) that have been deployed in strategic locations in European seas, from the Arctic to the Atlantic, from the Mediterranean to the Black Sea. There are currently eleven deep water nodes plus four shallow water test nodes. EMSO Western Ligurian is one of these permanent underwater observatories located in the Ligurian Sea and is deployed off Toulon, France. This region was chosen for its particular scientific interests such as: seismicity, topography, turbidity, biodiversity, water mass dynamics and organic matter flow. This underwater observation network is also part of KM3NeT (https://www.km3net.org/) which has a modular topology designed to connect up to 120 neutrino detection units. Earth and Sea Science (ESS) instrumentation connected to KM3NeT is based on two complementary components: an instrumented interface module (MII) and an autonomous instrumented line (ALBATROSS). The ALBATROSS line is an inductive line (2000 m) composed of an acoustic communication system, two inductive cables equipped with Conductivity, Temperature, Depth (CTD)-O2 sensors, current meters and two instrumented buoys. This line is deployed at a distance of 2-3 kilometers from the MII, and communication on land is done by an acoustic link with the MII, and electro-optical cable via the KM3NeT node.\n\ncdm_data_type = Point\nVARIABLES:\ntime (Date Time, seconds since 1970-01-01T00:00:00Z)\nlatitude (degrees_north)\nlongitude (degrees_east)\nOptode_Type\nOptode_Serial\nOxygen\nSaturation_Oxygen\nTemperature\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/Emso_Western_Ligurian_MII_Oxygen_CSV_2017_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/Emso_Western_Ligurian_MII_Oxygen_CSV_2017_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/Emso_Western_Ligurian_MII_Oxygen_CSV_2017/index.htmlTable | http://www.emso-fr.org/EMSO-France
| http://erddap.osupytheas.fr/erddap/rss/Emso_Western_Ligurian_MII_Oxygen_CSV_2017.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=Emso_Western_Ligurian_MII_Oxygen_CSV_2017&showErrors=false&email= | MIO UMR 7294 CNRS / OSU Pytheas | Emso_Western_Ligurian_MII_Oxygen_CSV_2017 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_MII_Oxygen_NetCDF_2017.subset | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_MII_Oxygen_NetCDF_2017 | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_MII_Oxygen_NetCDF_2017.graph | https://erddap.osupytheas.fr/erddap/files/Emso_Western_Ligurian_MII_Oxygen_NetCDF_2017/ | public | EMSO Western Ligurian : MII, OXYGEN sensor (NetCDF files from 2017-09) | The European Multidisciplinary Seafloor and water column Observatory (EMSO) is a research infrastructure distributed throughout Europe for seabed and water column observatories. It aims to further explore the oceans, better understand the phenomena that occur on the seabed, and elucidate the critical role that these phenomena play in global Earth systems. This observatory is based on observation sites (or nodes) that have been deployed in strategic locations in European seas, from the Arctic to the Atlantic, from the Mediterranean to the Black Sea. There are currently eleven deep water nodes plus four shallow water test nodes. EMSO Western Ligurian is one of these permanent underwater observatories located in the Ligurian Sea and is deployed off Toulon, France. This region was chosen for its particular scientific interests such as: seismicity, topography, turbidity, biodiversity, water mass dynamics and organic matter flow. This underwater observation network is also part of KM3NeT (https://www.km3net.org/) which has a modular topology designed to connect up to 120 neutrino detection units. Earth and Sea Science (ESS) instrumentation connected to KM3NeT is based on two complementary components: an instrumented interface module (MII) and an autonomous instrumented line (ALBATROSS). The ALBATROSS line is an inductive line (2000 m) composed of an acoustic communication system, two inductive cables equipped with Conductivity, Temperature, Depth (CTD)-O2 sensors, current meters and two instrumented buoys. This line is deployed at a distance of 2-3 kilometers from the MII, and communication on land is done by an acoustic link with the MII, and electro-optical cable via the KM3NeT node.\n\ncdm_data_type = TimeSeries\nVARIABLES:\nstationname (station name)\nlatitude (Latitude of measurements, degrees_north)\nlongitude (Longitude of measurements, degrees_east)\ntime (time of measurements, seconds since 1970-01-01T00:00:00Z)\nTIME_QC (Time quality flag)\nDOX1 (Dissolved oxygen, Micromoles per litre)\nDOX_QC (Oxygen quality flag)\nOSAT (Oxygen saturation, Percent)\nOSAT_QC (Oxygen Saturation quality flag)\nTEMP (temperature, degree_C)\n... (5 more variables)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/Emso_Western_Ligurian_MII_Oxygen_NetCDF_2017_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/Emso_Western_Ligurian_MII_Oxygen_NetCDF_2017_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/Emso_Western_Ligurian_MII_Oxygen_NetCDF_2017/index.htmlTable | http://www.emso-fr.org/EMSO-France
| http://erddap.osupytheas.fr/erddap/rss/Emso_Western_Ligurian_MII_Oxygen_NetCDF_2017.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=Emso_Western_Ligurian_MII_Oxygen_NetCDF_2017&showErrors=false&email= | MIO UMR 7294 CNRS / OSU Pytheas | Emso_Western_Ligurian_MII_Oxygen_NetCDF_2017 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Bathybot_Optodes_CSV_2023.subset | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Bathybot_Optodes_CSV_2023 | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Bathybot_Optodes_CSV_2023.graph | https://erddap.osupytheas.fr/erddap/files/Emso_Western_Ligurian_Bathybot_Optodes_CSV_2023/ | public | EMSO-LO Western Ligurian : BJS_Bathydock Optode sensors (CSV files from 2023-09-20) | The European Multidisciplinary Seafloor and water column Observatory (EMSO) is a research infrastructure distributed throughout Europe for seabed and water column observatories. It aims to further explore the oceans, better understand the phenomena that occur on the seabed, and elucidate the critical role that these phenomena play in global Earth systems. This observatory is based on observation sites (or nodes) that have been deployed in strategic locations in European seas, from the Arctic to the Atlantic, from the Mediterranean to the Black Sea. There are currently eleven deep water nodes plus four shallow water test nodes. EMSO Western Ligurian (EMSO-WL) is one of these permanent underwater observatories located in the Ligurian Sea and is deployed off Toulon, France. This region was chosen for its particular scientific interests such as: seismicity, topography, turbidity, biodiversity, water mass dynamics and organic matter flow. This underwater observation network is located close by KM3NeT (https://www.km3net.org/) which has a modular topology designed to connect up to 120 neutrino detection units. Earth and Sea Science (ESS) instrumentation at the EMSO-WL station is based on two complementary components: an instrumented interface module (MII) and an autonomous instrumented line (ALBATROSS) as well as a junction box (BJS). The BathyFamily is a package of innovative multi-instrumented platforms to observe the deep sea. BathyBot is an Internet Operated Vehicle (IOV) deployed from a landing station (BathyDock), and close to BathyReef a 3D-printed biomimetic colonizer\n\ncdm_data_type = Point\nVARIABLES:\ntime (Datetime, seconds since 1970-01-01T00:00:00Z)\nProfondeur\nlatitude (degrees_north)\nlongitude (degrees_east)\noptode_type\nserial\nO2_concentration\nO2_saturation\nTemperature\nCalibrated_Phase\nTemp_Compensated_Phase\n... (5 more variables)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/Emso_Western_Ligurian_Bathybot_Optodes_CSV_2023_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/Emso_Western_Ligurian_Bathybot_Optodes_CSV_2023_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/Emso_Western_Ligurian_Bathybot_Optodes_CSV_2023/index.htmlTable | http://www.emso-fr.org/EMSO-France
| http://erddap.osupytheas.fr/erddap/rss/Emso_Western_Ligurian_Bathybot_Optodes_CSV_2023.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=Emso_Western_Ligurian_Bathybot_Optodes_CSV_2023&showErrors=false&email= | MIO UMR 7294 CNRS / OSU Pytheas | Emso_Western_Ligurian_Bathybot_Optodes_CSV_2023 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Bathybot_Optodes_NetCDF_2023.subset | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Bathybot_Optodes_NetCDF_2023 | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Bathybot_Optodes_NetCDF_2023.graph | https://erddap.osupytheas.fr/erddap/files/Emso_Western_Ligurian_Bathybot_Optodes_NetCDF_2023/ | public | EMSO-LO Western Ligurian : BJS_Bathydock Optode sensors (NetCDF files from 2023-09-20) | The European Multidisciplinary Seafloor and water column Observatory (EMSO) is a research infrastructure distributed throughout Europe for seabed and water column observatories. It aims to further explore the oceans, better understand the phenomena that occur on the seabed, and elucidate the critical role that these phenomena play in global Earth systems. This observatory is based on observation sites (or nodes) that have been deployed in strategic locations in European seas, from the Arctic to the Atlantic, from the Mediterranean to the Black Sea. There are currently eleven deep water nodes plus four shallow water test nodes. EMSO Western Ligurian (EMSO-WL) is one of these permanent underwater observatories located in the Ligurian Sea and is deployed off Toulon, France. This region was chosen for its particular scientific interests such as: seismicity, topography, turbidity, biodiversity, water mass dynamics and organic matter flow. This underwater observation network is located close by KM3NeT (https://www.km3net.org/) which has a modular topology designed to connect up to 120 neutrino detection units. Earth and Sea Science (ESS) instrumentation at the EMSO-WL station is based on two complementary components: an instrumented interface module (MII) and an autonomous instrumented line (ALBATROSS) as well as a junction box (BJS). The BathyFamily is a package of innovative multi-instrumented platforms to observe the deep sea. BathyBot is an Internet Operated Vehicle (IOV) deployed from a landing station (BathyDock), and close to BathyReef a 3D-printed biomimetic colonizer\n\ncdm_data_type = TimeSeries\nVARIABLES:\nstation_id (station name, not applicable)\nlatitude (Latitude of measurements, degrees_north)\nlongitude (Longitude of measurements, degrees_east)\nPOSITION_QC (quality flag for position)\ndepth (depth of measurements, m)\nDEPH_QC (Profondeur quality flag)\ntime (time of measurements, seconds since 1970-01-01T00:00:00Z)\nTIME_QC (Time quality flag)\nTEMP (temperature, degree_C)\nTEMP_QC (Temperature quality flag)\nDOX1 (oxygen concentration, Micromoles per litre)\n... (10 more variables)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/Emso_Western_Ligurian_Bathybot_Optodes_NetCDF_2023_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/Emso_Western_Ligurian_Bathybot_Optodes_NetCDF_2023_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/Emso_Western_Ligurian_Bathybot_Optodes_NetCDF_2023/index.htmlTable | http://www.emso-fr.org/EMSO-France
| http://erddap.osupytheas.fr/erddap/rss/Emso_Western_Ligurian_Bathybot_Optodes_NetCDF_2023.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=Emso_Western_Ligurian_Bathybot_Optodes_NetCDF_2023&showErrors=false&email= | MIO UMR 7294 CNRS / OSU Pytheas | Emso_Western_Ligurian_Bathybot_Optodes_NetCDF_2023 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/EMSO_LO_BJS_ADCP_NCF_2023.subset | https://erddap.osupytheas.fr/erddap/tabledap/EMSO_LO_BJS_ADCP_NCF_2023 | https://erddap.osupytheas.fr/erddap/tabledap/EMSO_LO_BJS_ADCP_NCF_2023.graph | https://erddap.osupytheas.fr/erddap/files/EMSO_LO_BJS_ADCP_NCF_2023/ | public | EMSO-LO Western Ligurian : BJS_Bathydock, ADCP sensor (NetCDF files from 2023-09-20 | The European Multidisciplinary Seafloor and water column Observatory (EMSO) is a research infrastructure distributed throughout Europe for seabed and water column observatories. It aims to further explore the oceans, better understand the phenomena that occur on the seabed, and elucidate the critical role that these phenomena play in global Earth systems. This observatory is based on observation sites (or nodes) that have been deployed in strategic locations in European seas, from the Arctic to the Atlantic, from the Mediterranean to the Black Sea. There are currently eleven deep water nodes plus four shallow water test nodes. EMSO Western Ligurian (EMSO-WL) is one of these permanent underwater observatories located in the Ligurian Sea and is deployed off Toulon, France. This region was chosen for its particular scientific interests such as: seismicity, topography, turbidity, biodiversity, water mass dynamics and organic matter flow. This underwater observation network is located close by KM3NeT (https://www.km3net.org/) which has a modular topology designed to connect up to 120 neutrino detection units. Earth and Sea Science (ESS) instrumentation at the EMSO-WL station is based on two complementary components: an instrumented interface module (MII) and an autonomous instrumented line (ALBATROSS) as well as a junction box (BJS). The BathyFamily is a package of innovative multi-instrumented platforms to observe the deep sea. BathyBot is an Internet Operated Vehicle (IOV) deployed from a landing station (BathyDock), and close to BathyReef a 3D-printed biomimetic colonizer.\n\ncdm_data_type = TimeSeries\nVARIABLES:\nlatitude (degrees_north)\nlongitude (degrees_east)\nPOSITION_QC (quality flag for position)\ndepth (depth of measurements, m)\nDEPH_QC (Profondeur quality flag)\ntime (time of measurements, seconds since 1970-01-01T00:00:00Z)\nTIME_QC (Time quality flag)\nHEAD (Heading, degrees)\nHead_QC (Heading quality code)\nPITCH (degrees)\nPitch_QC (Pitch quality code)\n... (26 more variables)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/EMSO_LO_BJS_ADCP_NCF_2023_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/EMSO_LO_BJS_ADCP_NCF_2023_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/EMSO_LO_BJS_ADCP_NCF_2023/index.htmlTable | https://www.seadatanet.org/
| http://erddap.osupytheas.fr/erddap/rss/EMSO_LO_BJS_ADCP_NCF_2023.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=EMSO_LO_BJS_ADCP_NCF_2023&showErrors=false&email= | MIO UMR 7294 CNRS / OSU Pytheas | EMSO_LO_BJS_ADCP_NCF_2023 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Bathybot_Aquadopp_CSV_2023.subset | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Bathybot_Aquadopp_CSV_2023 | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Bathybot_Aquadopp_CSV_2023.graph | https://erddap.osupytheas.fr/erddap/files/Emso_Western_Ligurian_Bathybot_Aquadopp_CSV_2023/ | public | EMSO-LO Western Ligurian : BJS_Bathydock_Bathybot Aquadopp sensor (CSV files from 2023-09-20) | EMSO-LO Western Ligurian : BathyBot, Aquadopp sensor (Network Common Data Format (NetCDF) files from 2023-04-28). The European Multidisciplinary Seafloor and water column Observatory (EMSO) is a research infrastructure distributed throughout Europe for seabed and water column observatories. It aims to further explore the oceans, better understand the phenomena that occur on the seabed, and elucidate the critical role that these phenomena play in global Earth systems. This observatory is based on observation sites (or nodes) that have been deployed in strategic locations in European seas, from the Arctic to the Atlantic, from the Mediterranean to the Black Sea. There are currently eleven deep water nodes plus four shallow water test nodes. EMSO Western Ligurian (EMSO-WL) is one of these permanent underwater observatories located in the Ligurian Sea and is deployed off Toulon, France. This region was chosen for its particular scientific interests such as: seismicity, topography, turbidity, biodiversity, water mass dynamics and organic matter flow. This underwater observation network is located close by KM3NeT (https://www.km3net.org/) which has a modular topology designed to connect up to 120 neutrino detection units. Earth and Sea Science (ESS) instrumentation at the EMSO-WL station is based on two complementary components: an instrumented interface module (MII) and an autonomous instrumented line (ALBATROSS) as well as a junction box (BJS). The BathyFamily is a package of innovative multi-instrumented platforms to observe the deep sea. BathyBot is an Internet Operated Vehicle (IOV) deployed from a landing station (BathyDock), and close to BathyReef a 3D-printed biomimetic colonizer\n\ncdm_data_type = Point\nVARIABLES:\ntime (Datetime, seconds since 1970-01-01T00:00:00Z)\nProfondeur\nlatitude (degrees_north)\nlongitude (degrees_east)\nX_East (m.s-1)\nY_North (m.s-1)\nZ_up (m.s-1)\nAmplitude_X (1)\nAmplitude_Y (1)\nAmplitude_Z (1)\n... (10 more variables)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/Emso_Western_Ligurian_Bathybot_Aquadopp_CSV_2023_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/Emso_Western_Ligurian_Bathybot_Aquadopp_CSV_2023_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/Emso_Western_Ligurian_Bathybot_Aquadopp_CSV_2023/index.htmlTable | http://www.emso-fr.org/EMSO-France
| http://erddap.osupytheas.fr/erddap/rss/Emso_Western_Ligurian_Bathybot_Aquadopp_CSV_2023.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=Emso_Western_Ligurian_Bathybot_Aquadopp_CSV_2023&showErrors=false&email= | MIO UMR 7294 CNRS / OSU Pytheas | Emso_Western_Ligurian_Bathybot_Aquadopp_CSV_2023 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Bathybot_Aquadopp_NetCDF_2023.subset | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Bathybot_Aquadopp_NetCDF_2023 | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Bathybot_Aquadopp_NetCDF_2023.graph | https://erddap.osupytheas.fr/erddap/files/Emso_Western_Ligurian_Bathybot_Aquadopp_NetCDF_2023/ | public | EMSO-LO Western Ligurian : BJS_Bathydock_Bathybot Aquadopp sensor (NetCDF files from 2023-09-20) | EMSO-LO Western Ligurian : BathyBot, Aquadopp sensor (Network Common Data Format (NetCDF) files from 2023-04-28). The European Multidisciplinary Seafloor and water column Observatory (EMSO) is a research infrastructure distributed throughout Europe for seabed and water column observatories. It aims to further explore the oceans, better understand the phenomena that occur on the seabed, and elucidate the critical role that these phenomena play in global Earth systems. This observatory is based on observation sites (or nodes) that have been deployed in strategic locations in European seas, from the Arctic to the Atlantic, from the Mediterranean to the Black Sea. There are currently eleven deep water nodes plus four shallow water test nodes. EMSO Western Ligurian (EMSO-WL) is one of these permanent underwater observatories located in the Ligurian Sea and is deployed off Toulon, France. This region was chosen for its particular scientific interests such as: seismicity, topography, turbidity, biodiversity, water mass dynamics and organic matter flow. This underwater observation network is located close by KM3NeT (https://www.km3net.org/) which has a modular topology designed to connect up to 120 neutrino detection units. Earth and Sea Science (ESS) instrumentation at the EMSO-WL station is based on two complementary components: an instrumented interface module (MII) and an autonomous instrumented line (ALBATROSS) as well as a junction box (BJS). The BathyFamily is a package of innovative multi-instrumented platforms to observe the deep sea. BathyBot is an Internet Operated Vehicle (IOV) deployed from a landing station (BathyDock), and close to BathyReef a 3D-printed biomimetic colonizer\n\ncdm_data_type = TimeSeries\nVARIABLES:\nstation_id (station name, Not applicable)\nlatitude (Latitude of measurements, degrees_north)\nlongitude (Longitude of measurements, degrees_east)\nPosition_QC (quality flag for position)\nDEPH (depth of measurements, Metres)\nDeph_QC (Profondeur quality flag)\ntime (time of measurements, seconds since 1970-01-01T00:00:00Z)\nTime_QC (Time quality flag)\nEWCT (X_East eastward_sea_water_velocity, Metres per second)\nNSCT (Y_North northward_sea_water_velocity, Metres per second)\n... (26 more variables)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/Emso_Western_Ligurian_Bathybot_Aquadopp_NetCDF_2023_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/Emso_Western_Ligurian_Bathybot_Aquadopp_NetCDF_2023_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/Emso_Western_Ligurian_Bathybot_Aquadopp_NetCDF_2023/index.htmlTable | http://www.emso-fr.org/EMSO-France
| http://erddap.osupytheas.fr/erddap/rss/Emso_Western_Ligurian_Bathybot_Aquadopp_NetCDF_2023.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=Emso_Western_Ligurian_Bathybot_Aquadopp_NetCDF_2023&showErrors=false&email= | MIO UMR 7294 CNRS / OSU Pytheas | Emso_Western_Ligurian_Bathybot_Aquadopp_NetCDF_2023 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Bathybot_Microcat_NetCDF_2023.subset | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Bathybot_Microcat_NetCDF_2023 | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Bathybot_Microcat_NetCDF_2023.graph | https://erddap.osupytheas.fr/erddap/files/Emso_Western_Ligurian_Bathybot_Microcat_NetCDF_2023/ | public | EMSO-LO Western Ligurian : BJS_Bathydock_Bathybot Microcat sensor (NetCDF files from 2023-09-20) | The European Multidisciplinary Seafloor and water column Observatory (EMSO) is a research infrastructure distributed throughout Europe for seabed and water column observatories. It aims to further explore the oceans, better understand the phenomena that occur on the seabed, and elucidate the critical role that these phenomena play in global Earth systems. This observatory is based on observation sites (or nodes) that have been deployed in strategic locations in European seas, from the Arctic to the Atlantic, from the Mediterranean to the Black Sea. There are currently eleven deep water nodes plus four shallow water test nodes. EMSO Western Ligurian (EMSO-WL) is one of these permanent underwater observatories located in the Ligurian Sea and is deployed off Toulon, France. This region was chosen for its particular scientific interests such as: seismicity, topography, turbidity, biodiversity, water mass dynamics and organic matter flow. This underwater observation network is located close by KM3NeT (https://www.km3net.org/) which has a modular topology designed to connect up to 120 neutrino detection units. Earth and Sea Science (ESS) instrumentation at the EMSO-WL station is based on two complementary components: an instrumented interface module (MII) and an autonomous instrumented line (ALBATROSS) as well as a junction box (BJS). The BathyFamily is a package of innovative multi-instrumented platforms to observe the deep sea. BathyBot is an Internet Operated Vehicle (IOV) deployed from a landing station (BathyDock), and close to BathyReef a 3D-printed biomimetic colonizer\n\ncdm_data_type = TimeSeries\nVARIABLES:\nstation_id (station name, N/A)\nlatitude (Latitude of measurements, degrees_north)\nlongitude (Longitude of measurements, degrees_east)\nPOSITION_QC (quality flag for position)\ndepth (depth of measurements, m)\nDEPH_QC (Profondeur quality flag)\ntime (time of measurements, seconds since 1970-01-01T00:00:00Z)\nTIME_QC (Time quality flag)\nTEMP (temperature, degree_C)\nTEMP_QC (Temperature quality flag)\nCNDC (conductivity, Siemens per metre)\n... (5 more variables)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/Emso_Western_Ligurian_Bathybot_Microcat_NetCDF_2023_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/Emso_Western_Ligurian_Bathybot_Microcat_NetCDF_2023_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/Emso_Western_Ligurian_Bathybot_Microcat_NetCDF_2023/index.htmlTable | http://www.emso-fr.org/EMSO-France
| http://erddap.osupytheas.fr/erddap/rss/Emso_Western_Ligurian_Bathybot_Microcat_NetCDF_2023.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=Emso_Western_Ligurian_Bathybot_Microcat_NetCDF_2023&showErrors=false&email= | MIO UMR 7294 CNRS / OSU Pytheas | Emso_Western_Ligurian_Bathybot_Microcat_NetCDF_2023 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Bathybot_Microcat_CSV_2023.subset | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Bathybot_Microcat_CSV_2023 | https://erddap.osupytheas.fr/erddap/tabledap/Emso_Western_Ligurian_Bathybot_Microcat_CSV_2023.graph | https://erddap.osupytheas.fr/erddap/files/Emso_Western_Ligurian_Bathybot_Microcat_CSV_2023/ | public | EMSO-LO Western Ligurian : BJS_Bathydock_Bathybot Microcat sensors (CSV files from 2023-09-20) | The European Multidisciplinary Seafloor and water column Observatory (EMSO) is a research infrastructure distributed throughout Europe for seabed and water column observatories. It aims to further explore the oceans, better understand the phenomena that occur on the seabed, and elucidate the critical role that these phenomena play in global Earth systems. This observatory is based on observation sites (or nodes) that have been deployed in strategic locations in European seas, from the Arctic to the Atlantic, from the Mediterranean to the Black Sea. There are currently eleven deep water nodes plus four shallow water test nodes. EMSO Western Ligurian (EMSO-WL) is one of these permanent underwater observatories located in the Ligurian Sea and is deployed off Toulon, France. This region was chosen for its particular scientific interests such as: seismicity, topography, turbidity, biodiversity, water mass dynamics and organic matter flow. This underwater observation network is located close by KM3NeT (https://www.km3net.org/) which has a modular topology designed to connect up to 120 neutrino detection units. Earth and Sea Science (ESS) instrumentation at the EMSO-WL station is based on two complementary components: an instrumented interface module (MII) and an autonomous instrumented line (ALBATROSS) as well as a junction box (BJS). The BathyFamily is a package of innovative multi-instrumented platforms to observe the deep sea. BathyBot is an Internet Operated Vehicle (IOV) deployed from a landing station (BathyDock), and close to BathyReef a 3D-printed biomimetic colonizer\n\ncdm_data_type = Point\nVARIABLES:\ntime (Datetime, seconds since 1970-01-01T00:00:00Z)\nProfondeur (metre)\nlatitude (degrees_north)\nlongitude (degrees_east)\nTemperature (degree_C)\nConductivite (Sea Water Electrical Conductivity, Siemens per metre)\nPression (decibars)\nSalinite (PSU)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/Emso_Western_Ligurian_Bathybot_Microcat_CSV_2023_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/Emso_Western_Ligurian_Bathybot_Microcat_CSV_2023_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/Emso_Western_Ligurian_Bathybot_Microcat_CSV_2023/index.htmlTable | http://www.emso-fr.org/EMSO-France
| http://erddap.osupytheas.fr/erddap/rss/Emso_Western_Ligurian_Bathybot_Microcat_CSV_2023.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=Emso_Western_Ligurian_Bathybot_Microcat_CSV_2023&showErrors=false&email= | MIO UMR 7294 CNRS / OSU Pytheas | Emso_Western_Ligurian_Bathybot_Microcat_CSV_2023 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/EUREC4A_fc8e_b4d5_9836.subset | https://erddap.osupytheas.fr/erddap/tabledap/EUREC4A_fc8e_b4d5_9836 | https://erddap.osupytheas.fr/erddap/tabledap/EUREC4A_fc8e_b4d5_9836.graph | https://erddap.osupytheas.fr/erddap/files/EUREC4A_fc8e_b4d5_9836/ | public | EUREC4A-OA 2020 experiment, level 2 surface and air-sea turbulent fluxes | FLUX MAST EUREC4A-OA 2020 experiment, level 2 surface and air-sea turbulent fluxes\n\ncdm_data_type = TimeSeries\nVARIABLES:\ntime (seconds since 1970-01-01T00:00:00Z)\nlongitude (degrees_east)\nlatitude (degrees_north)\npair (Air pressure, hPa)\ntair (Air Temperature, degree_C)\nhur (Relative air humidity, 1)\nsst (degree_C)\nrho (Density of air, kg m-3)\nrlds (downwelling longwave radiation flux, positive downward, W m-2)\nrlus (upwelling longwave radiation flux, positive upward, W m-2)\nrsds (downwelling shortwave radiation flux, positive downward, W m-2)\nrsus (upwelling shortwave radiation flux, positive upward, W m-2)\nwspd (Magnitude of wind velocity with respect to ground, m s-1)\nu10n (Equivalent neutral wind extrapolated at a 10-m height, from bulk calculation, m s-1)\nt10n (Equivalent neutral air temperature extrapolated at a 10-m height, from bulk calculation, degree_C)\nq10n (Equivalent neutral specific humidity extrapolated at a 10-m height, from bulk calculation, g kg-1)\nustar_bulk (Turbulent surface friction velocity, COARE 3.0 (please see header) zo parameterization from Smith (1988), m s-1)\nhsv_bulk (Turbulent surface buoyancy flux, positive upward, from bulk calculation, W m-2)\nhfss_bulk (Turbulent surface sensible heat flux, positive upward, from bulk calculation, W m-2)\nhfls_bulk (Turbulent surface latent heat flux, positive upward, from bulk calculation, W m-2)\nzL_bulk (Monin-Obukhov ratio, which quantifies surface boundary layer stability, from bulk calculation, 1)\ndepth (Height above sea level for wind data (sonic anemometer), m)\nzt (Height above sea level for weather station data (temperature, pressure, and humidity), m)\nzd (Depth of SST data, m)\nstation_name\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/EUREC4A_fc8e_b4d5_9836_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/EUREC4A_fc8e_b4d5_9836_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/EUREC4A_fc8e_b4d5_9836/index.htmlTable | https://doi.org/10.17882/77341
| http://erddap.osupytheas.fr/erddap/rss/EUREC4A_fc8e_b4d5_9836.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=EUREC4A_fc8e_b4d5_9836&showErrors=false&email= | MIO UMR7294 CNRS | EUREC4A_fc8e_b4d5_9836 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/lastDay_cf2a_1330_42fa.subset | https://erddap.osupytheas.fr/erddap/tabledap/lastDay_cf2a_1330_42fa | https://erddap.osupytheas.fr/erddap/tabledap/lastDay_cf2a_1330_42fa.graph | https://erddap.osupytheas.fr/erddap/files/lastDay_cf2a_1330_42fa/ | public | HTMNET: Hydrodynamique et Transport de Matieres en Suspension: Niveaux Eau et Temperature | This project consists in providing original measurement data for a better understanding and modelling of interactions and couplings between coastal dynamics and coastal dynamics at bay scale (currently the area of the Toulon conurbation with a project to extend it on a larger scale along the Mediterranean coast), by developing a long-term observation system (several years)\n\ncdm_data_type = TimeSeries\nVARIABLES:\ntime (seconds since 1970-01-01T00:00:00Z)\nstation_name\nlatitude (station latitude, degrees_north)\nlongitude (station longitude, degrees_east)\ntmer (SST, degree_C)\npmer (1m pressure, hPa)\ntair (Air Temperature, degree_C)\npair (Air pressure, hPa)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/lastDay_cf2a_1330_42fa_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/lastDay_cf2a_1330_42fa_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/lastDay_cf2a_1330_42fa/index.htmlTable | https://htmnet.mio.osupytheas.fr/
| http://erddap.osupytheas.fr/erddap/rss/lastDay_cf2a_1330_42fa.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=lastDay_cf2a_1330_42fa&showErrors=false&email= | MIO UMR7294 CNRS / OSU Pytheas | lastDay_cf2a_1330_42fa | ||
| log in | ICOS Meteo files (CSV files) station OHP ICOS, Projet ICOS Observatoire Haute Provence. | ICOS Meteo files (CSV files) station OHP ICOS - Projet ICOS Observatoire Haute Provence. fchier MTO. Observatoire Sciences Univers\n\ncdm_data_type = Point\nVARIABLES:\nstation\nlatitude (degrees_north)\nlongitude (degrees_east)\ntime (seconds since 1970-01-01T00:00:00Z)\nair_temp10_degree_C (Air Temp10 [degree C])\nair_pressure10_hpa (Air Pressure)\nhumidity10_percent (Humidity10 [percent %])\nwind_speed10_m_s_1 (Wind Speed)\nwind_direction10_degree (Wind From Direction)\nair_temp50_degree_C (Air Temp50 [degree C])\nhumidity50_percent (Humidity50 [percent %])\nwind_speed50_m_s_1 (Wind Speed)\nwind_direction50_degree (Wind From Direction)\nair_temp100_degree_C (Air Temp100 [degree C])\nhumidity100_percent (Humidity100 [percent %])\nwind_speed100_m_s_1 (Wind Speed)\nwind_direction100_degree (Wind From Direction)\n | OSU Pytheas institut - Observatoire de Haute Provence | CSV_3d66_7f82_fe2d | ||||||||||||
| log in | ICOS Meteo files (NetCDF files) station OHP ICOS, Projet ICOS Observatoire Haute Provence | ICOS Meteo files (Network Common Data Format (NetCDF) files) station OHP ICOS - Projet ICOS Observatoire Haute Provence. fchier MTO. Observatoire Sciences Univers (OSU) Pytheas institut data from a local source.\n\ncdm_data_type = TimeSeries\nVARIABLES:\nstationname (station name)\nlatitude (degrees_north)\nlongitude (degrees_east)\ntime (measurement time, seconds since 1970-01-01T00:00:00Z)\nair_pressure10 (Pression Air 10m, hpa)\nair_temp10 (air temperature 10m, degree_C)\nair_temp50 (air temperature 50m, degree_C)\nair_temp100 (air temperature 100m, degree_C)\nair_humidity10 (relative humidity 10m, percent)\nair_humidity50 (relative humidity 50m, percent)\nair_humidity100 (relative humidity 100m, percent)\nwind_speed10 (vitesse du vent 10m, m.s-1)\nwind_speed50 (vitesse du vent 50m, m.s-1)\nwind_speed100 (vitesse du vent 100m, m.s-1)\nwind_direction10 (direction du vent 10m, degree)\nwind_direction50 (direction du vent 50m, degree)\nwind_direction100 (direction du vent 100m, degree)\n | OSU Pytheas institut | mto_c5ff_5ade_e512 | ||||||||||||
| https://erddap.osupytheas.fr/erddap/tabledap/meteo_frioul_osu_pytheas.subset | https://erddap.osupytheas.fr/erddap/tabledap/meteo_frioul_osu_pytheas | https://erddap.osupytheas.fr/erddap/tabledap/meteo_frioul_osu_pytheas.graph | https://erddap.osupytheas.fr/erddap/files/meteo_frioul_osu_pytheas/ | public | Meteorologie locale en baie de Marseille : Frioul | Meteorological data from the Bay of Marseille based on the measurements taken on the site located on the Pomegues island\n\ncdm_data_type = Point\nVARIABLES:\ntime (Datetime, seconds since 1970-01-01T00:00:00Z)\nlatitude (degrees_north)\nlongitude (degrees_east)\nDirection_Max (degree)\nRafale_m_s (Rafale(m/s), m.s-1)\nVitesse_moyenne_max (Vitesse Moyenne Max (m/s), m.s-1)\nDirection (Direction (degree), degree)\nTemperature (Temperature (degree C), degree_C)\nHumidite_relative (Humidite Relative (%), %)\nRayonnement_J_cm2 (Rayonnement(J/cm2), J.cm-2)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/meteo_frioul_osu_pytheas_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/meteo_frioul_osu_pytheas_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/meteo_frioul_osu_pytheas/index.htmlTable | https://dataset.osupytheas.fr/geonetwork/srv/fre/catalog.search#/metadata/5c9f6377-726b-436b-aa0f-ecc32803ef88
| http://erddap.osupytheas.fr/erddap/rss/meteo_frioul_osu_pytheas.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=meteo_frioul_osu_pytheas&showErrors=false&email= | OSU Pytheas UMS 3470 CNRS | meteo_frioul_osu_pytheas | ||
| https://erddap.osupytheas.fr/erddap/tabledap/meteo_endoume_1236 | https://erddap.osupytheas.fr/erddap/tabledap/meteo_endoume_1236.graph | https://erddap.osupytheas.fr/erddap/files/meteo_endoume_1236/ | public | Meteorologie locale en baie de Marseille : site Endoume | Meteorological data from Marseille based on the measurements taken from Endoume site\n\ncdm_data_type = Point\nVARIABLES:\ntime (Datetime, seconds since 1970-01-01T00:00:00Z)\ntemperature_C (Temperature[C], degrees C)\nhumidity (Humidity[%], %)\ndew_point_C (Dew Point[C], degree C)\nsealevel_pressure_hPa (Sealevel Pressure[h Pa], hPa)\navg_wind_speed_m_s (Wind Speed, m.s-1)\ngust_speed_m_s (Wind Speed Of Gust, m.s-1)\nwinddir_degree (Wind From Direction, degree)\nrainfall00 (mm)\nlongitude (degrees_east)\nlatitude (degrees_north)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/meteo_endoume_1236_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/meteo_endoume_1236_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/meteo_endoume_1236/index.htmlTable | http://dataset.osupytheas.fr/
| http://erddap.osupytheas.fr/erddap/rss/meteo_endoume_1236.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=meteo_endoume_1236&showErrors=false&email= | OSU Pytheas UAR 3470 CNRS | meteo_endoume_1236 | |||
| https://erddap.osupytheas.fr/erddap/tabledap/meteo_climed_8bcc.subset | https://erddap.osupytheas.fr/erddap/tabledap/meteo_climed_8bcc | https://erddap.osupytheas.fr/erddap/tabledap/meteo_climed_8bcc.graph | https://erddap.osupytheas.fr/erddap/files/meteo_climed_8bcc/ | public | Meteorologie locale site \"climed\" chaine de l'Etoile | Meteorological data from Marseille based on the measurements taken on \"CLIMED\" site chaine de l'Etoile\n\ncdm_data_type = Point\nVARIABLES:\ntime (Datetime, seconds since 1970-01-01T00:00:00Z)\nlongitude (degrees_east)\nlatitude (degrees_north)\nHumidity (Humidity (%), percent %)\nTemperature_Air (Temperature Air (degree C), degree C)\nSolar_radiation (Solar Radiation (W.m^-2), W.m-2)\nWind_direction (degree)\nWind_speed (m.s-1)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/meteo_climed_8bcc_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/meteo_climed_8bcc_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/meteo_climed_8bcc/index.htmlTable | http://dataset.osupytheas.fr
| http://erddap.osupytheas.fr/erddap/rss/meteo_climed_8bcc.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=meteo_climed_8bcc&showErrors=false&email= | OSU Pytheas UAR 3470 CNRS | meteo_climed_8bcc | ||
| https://erddap.osupytheas.fr/erddap/tabledap/meteo_toulon_2ce5.subset | https://erddap.osupytheas.fr/erddap/tabledap/meteo_toulon_2ce5 | https://erddap.osupytheas.fr/erddap/tabledap/meteo_toulon_2ce5.graph | https://erddap.osupytheas.fr/erddap/files/meteo_toulon_2ce5/ | public | Meteorologie locale site Toulon | Meteorological data from Toulon France (Var)\n\ncdm_data_type = Point\nVARIABLES:\ntime (Datetime, seconds since 1970-01-01T00:00:00Z)\nTemperature (Temperature (degree C))\nHumidity (Humidity (%))\nRainfall (Rainfall (6mn))\nSolar_radiation (Solar Radiation (W.m^-2))\nWind_Direction (Wind From Direction)\nWind_speed\nGust_Speed (Wind Speed Of Gust)\nGust_Direction (Gust Direction (degree))\nAir_pressure_at_station_level (Air Pressure)\nAir_pressure_at_sea_levele (Air Pressure)\nlatitude (degrees_north)\nlongitude (degrees_east)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/meteo_toulon_2ce5_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/meteo_toulon_2ce5_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/meteo_toulon_2ce5/index.htmlTable | https://dataset.osupytheas.fr/
| http://erddap.osupytheas.fr/erddap/rss/meteo_toulon_2ce5.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=meteo_toulon_2ce5&showErrors=false&email= | OSU Pytheas UAR 3470 CNRS | meteo_toulon_2ce5 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/NDACC_2017_40c1_6fe7_88fe.subset | https://erddap.osupytheas.fr/erddap/tabledap/NDACC_2017_40c1_6fe7_88fe | https://erddap.osupytheas.fr/erddap/tabledap/NDACC_2017_40c1_6fe7_88fe.graph | https://erddap.osupytheas.fr/erddap/files/NDACC_2017_40c1_6fe7_88fe/ | public | NDACC 2017 netcdf files (Network for Detection of Atmospheric Composition Change) | reseau international de surveillance sur le long terme de la stratosphere et de la haute troposphere cree en 1991. Il a pour objectifs la detection des changements de composition chimique et de temperature d'origine naturelle ou anthropique ainsi que l'etude des interactions entre chimie et climat, et la validation sur le long terme des observations des memes parametres par les nombreux satellites mis en orbite depuis lors. Les activites francaises composent le Service d'Observation NDACC-France du CNRS /INSU coordonne au niveau national par l'Observatoire de l'universite de Versailles Saint-Quentin\n\ncdm_data_type = Other\nVARIABLES:\naltitude (m)\nO3_NUMBER_DENSITY_ABSORPTION_DIFFERENTIAL (molec m-3)\nO3_NUMBER_DENSITY_ABSORPTION_DIFFERENTIAL_UNCERTAINTY_COMBINED_STANDARD (molec m-3)\nO3_NUMBER_DENSITY_ABSORPTION_DIFFERENTIAL_UNCERTAINTY_RANDOM_STANDARD (molec m-3)\nO3_NUMBER_DENSITY_ABSORPTION_DIFFERENTIAL_UNCERTAINTY_SYSTEMATIC_STANDARD (molec m-3)\nO3_NUMBER_DENSITY_ABSORPTION_DIFFERENTIAL_RESOLUTION_ALTITUDE_IMPULSE_RESPONSE_FWHM (m)\nO3_MIXING_RATIO_VOLUME_DERIVED (ppmv)\nO3_MIXING_RATIO_VOLUME_DERIVED_UNCERTAINTY_COMBINED_STANDARD (ppmv)\nO3_MIXING_RATIO_VOLUME_DERIVED_UNCERTAINTY_RANDOM_STANDARD (ppmv)\nO3_MIXING_RATIO_VOLUME_DERIVED_UNCERTAINTY_SYSTEMATIC_STANDARD (ppmv)\nPRESSURE_INDEPENDENT (hPa)\nTEMPERATURE_INDEPENDENT (K)\nPRESSURE_INDEPENDENT_SOURCE\nTEMPERATURE_INDEPENDENT_SOURCE\nO3_NUMBER_DENSITY_ABSORPTION_DIFFERENTIAL_RESOLUTION_ALTITUDE_DF_CUTOFF (m)\nO3_NUMBER_DENSITY_ABSORPTION_DIFFERENTIAL_RESOLUTION_ALTITUDE_ORIGINATOR (m)\nO3_NUMBER_DENSITY_ABSORPTION_DIFFERENTIAL_UNCERTAINTY_ORIGINATOR (molec m-3)\nO3_MIXING_RATIO_VOLUME_DERIVED_UNCERTAINTY_ORIGINATOR (ppmv)\nO3_NUMBER_DENSITY_ABSORPTION_DIFFERENTIAL_RESOLUTION_ALTITUDE_DF_NORMALIZED_FREQUENCY (1)\nO3_NUMBER_DENSITY_ABSORPTION_DIFFERENTIAL_RESOLUTION_ALTITUDE_DF_TRANSFER_FUNCTION (1)\nO3_NUMBER_DENSITY_ABSORPTION_DIFFERENTIAL_RESOLUTION_ALTITUDE_DISTANCE_FROM_IMPULSE (1)\nO3_NUMBER_DENSITY_ABSORPTION_DIFFERENTIAL_RESOLUTION_ALTITUDE_IMPULSE_RESPONSE (1)\n | https://erddap.osupytheas.fr/erddap/info/NDACC_2017_40c1_6fe7_88fe/index.htmlTable | http://www.insu.cnrs.fr/en/node/1240
| http://erddap.osupytheas.fr/erddap/rss/NDACC_2017_40c1_6fe7_88fe.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=NDACC_2017_40c1_6fe7_88fe&showErrors=false&email= | OSU PYTHEAS - Observatoire Haute Provence - Institut Pierre-Simon Laplace | NDACC_2017_40c1_6fe7_88fe | ||||
| https://erddap.osupytheas.fr/erddap/tabledap/NDACC_2018_f1a2_608f_01f2.subset | https://erddap.osupytheas.fr/erddap/tabledap/NDACC_2018_f1a2_608f_01f2 | https://erddap.osupytheas.fr/erddap/tabledap/NDACC_2018_f1a2_608f_01f2.graph | https://erddap.osupytheas.fr/erddap/files/NDACC_2018_f1a2_608f_01f2/ | public | NDACC 2018 (Network for Detection of Atmospheric Composition Change) | reseau international de surveillance sur le long terme de la stratosphere et de la haute troposphere cree en 1991. Il a pour objectifs la detection des changements de composition chimique et de temperature d'origine naturelle ou anthropique ainsi que l'etude des interactions entre chimie et climat, et la validation sur le long terme des observations des memes parametres par les nombreux satellites mis en orbite depuis lors. Les activites francaises composent le Service d'Observation NDACC-France du CNRS /INSU coordonne au niveau national par l'Observatoire de l'universite de Versailles Saint-Quentin\n\ncdm_data_type = Other\nVARIABLES:\naltitude (m)\nO3_NUMBER_DENSITY_ABSORPTION_DIFFERENTIAL (molec m-3)\nO3_NUMBER_DENSITY_ABSORPTION_DIFFERENTIAL_UNCERTAINTY_COMBINED_STANDARD (molec m-3)\nO3_NUMBER_DENSITY_ABSORPTION_DIFFERENTIAL_UNCERTAINTY_RANDOM_STANDARD (molec m-3)\nO3_NUMBER_DENSITY_ABSORPTION_DIFFERENTIAL_UNCERTAINTY_SYSTEMATIC_STANDARD (molec m-3)\nO3_NUMBER_DENSITY_ABSORPTION_DIFFERENTIAL_RESOLUTION_ALTITUDE_IMPULSE_RESPONSE_FWHM (m)\nO3_MIXING_RATIO_VOLUME_DERIVED (ppmv)\nO3_MIXING_RATIO_VOLUME_DERIVED_UNCERTAINTY_COMBINED_STANDARD (ppmv)\nO3_MIXING_RATIO_VOLUME_DERIVED_UNCERTAINTY_RANDOM_STANDARD (ppmv)\nO3_MIXING_RATIO_VOLUME_DERIVED_UNCERTAINTY_SYSTEMATIC_STANDARD (ppmv)\nPRESSURE_INDEPENDENT (hPa)\nTEMPERATURE_INDEPENDENT (K)\nPRESSURE_INDEPENDENT_SOURCE\nTEMPERATURE_INDEPENDENT_SOURCE\nO3_NUMBER_DENSITY_ABSORPTION_DIFFERENTIAL_RESOLUTION_ALTITUDE_DF_CUTOFF (m)\nO3_NUMBER_DENSITY_ABSORPTION_DIFFERENTIAL_RESOLUTION_ALTITUDE_ORIGINATOR (m)\nO3_NUMBER_DENSITY_ABSORPTION_DIFFERENTIAL_UNCERTAINTY_ORIGINATOR (molec m-3)\nO3_MIXING_RATIO_VOLUME_DERIVED_UNCERTAINTY_ORIGINATOR (ppmv)\nO3_NUMBER_DENSITY_ABSORPTION_DIFFERENTIAL_RESOLUTION_ALTITUDE_DF_NORMALIZED_FREQUENCY (1)\nO3_NUMBER_DENSITY_ABSORPTION_DIFFERENTIAL_RESOLUTION_ALTITUDE_DF_TRANSFER_FUNCTION (1)\nO3_NUMBER_DENSITY_ABSORPTION_DIFFERENTIAL_RESOLUTION_ALTITUDE_DISTANCE_FROM_IMPULSE (1)\nO3_NUMBER_DENSITY_ABSORPTION_DIFFERENTIAL_RESOLUTION_ALTITUDE_IMPULSE_RESPONSE (1)\n | https://erddap.osupytheas.fr/erddap/info/NDACC_2018_f1a2_608f_01f2/index.htmlTable | http://www.insu.cnrs.fr/en/node/1240
| http://erddap.osupytheas.fr/erddap/rss/NDACC_2018_f1a2_608f_01f2.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=NDACC_2018_f1a2_608f_01f2&showErrors=false&email= | OSU PYTHEAS - Observatoire Haute Provence - Institut Pierre-Simon Laplace | NDACC_2018_f1a2_608f_01f2 | ||||
| https://erddap.osupytheas.fr/erddap/tabledap/AMOP_3b75_05e1_8951.subset | https://erddap.osupytheas.fr/erddap/tabledap/AMOP_3b75_05e1_8951 | https://erddap.osupytheas.fr/erddap/tabledap/AMOP_3b75_05e1_8951.graph | https://erddap.osupytheas.fr/erddap/files/AMOP_3b75_05e1_8951/ | public | OCARINA AMOP 2014 experiment, prototype 1, level 2 surface and air-sea turbulent fluxes | OCARINA level 2 data, calibrated. Turbulent air-sea fluxes and associated variables from the OCARINA wave-following and drifting platform (Bourras et al. 2014, DOI: 10.1175/JTECH-D-13-00055.)\n\ncdm_data_type = TimeSeries\nVARIABLES:\ntime2 (Time)\ntime (seconds since 1970-01-01T00:00:00Z)\nlongitude (degrees_east)\nlatitude (degrees_north)\npair (Air pressure, hPa)\ntair (Air Temperature, degree_C)\nhur (Relative air humidity, 1)\nsst (degree_C)\nrho (Density of air, kg m-3)\nrlds (downwelling longwave radiation flux, positive downward, W m-2)\nrlus (upwelling longwave radiation flux, positive upward, W m-2)\nrsds (downwelling shortwave radiation flux, positive downward, W m-2)\nrsus (upwelling shortwave radiation flux, positive upward, W m-2)\nwdir (Direction of the wind vector with respect to ground, measured positive clockwise from due north, degrees)\nwspd (Magnitude of wind velocity with respect to ground, m s-1)\nu10n (Equivalent neutral wind extrapolated at a 10-m height, from eddy-covariance calculation, m s-1)\nhsw (Significant wave height, calculated as four times the square root of the integration of the vertical platform velocity, m)\nhsw_day (daily estimate of the significant wave height, calculated as four times the square root of the integration of the vertical platform velocity, m)\nTsw (Inverse of the frequency at the maximum of the power spectrum of the vertical platform velocity (experimental), s)\nTsw_day (Daily estimate of the inverse of the frequency at the maximum of the power spectrum of the vertical platform velocity (experimental), s)\ntauu (Eastward component of the surface wind stress vector, from eddy-covariance calculation, Pa)\ntauv (Northward component of the surface wind stress vector, from eddy-covariance calculation, Pa)\nustar (Turbulent surface friction velocity, from eddy-covariance calculation, m s-1)\nhsv (Turbulent surface buoyancy flux, from eddy-covariance calculation, W m-2)\nzL (Monin-Obukhov ratio, which quantifies surface boundary layer stability, from eddy-covariance calculation, 1)\nustar_bulk (Turbulent surface friction velocity, COARE 3.0 (please see header) drag parameterization adjusted to OCARINA data, m s-1)\n... (12 more variables)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/AMOP_3b75_05e1_8951_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/AMOP_3b75_05e1_8951_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/AMOP_3b75_05e1_8951/index.htmlTable | http://dataset.osupytheas.fr/geonetwork/srv/fre/catalog.search#/metadata/9d2f74a1-a7af-4062-a4e9-bd63b904856a
| http://erddap.osupytheas.fr/erddap/rss/AMOP_3b75_05e1_8951.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=AMOP_3b75_05e1_8951&showErrors=false&email= | MIO UMR7294 CNRS | AMOP_3b75_05e1_8951 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/BBWAVES_2015_proto1_02c1_999c_aa46.subset | https://erddap.osupytheas.fr/erddap/tabledap/BBWAVES_2015_proto1_02c1_999c_aa46 | https://erddap.osupytheas.fr/erddap/tabledap/BBWAVES_2015_proto1_02c1_999c_aa46.graph | https://erddap.osupytheas.fr/erddap/files/BBWAVES_2015_proto1_02c1_999c_aa46/ | public | OCARINA BBWAVES 2015 experiment, prototype 1, level 2 surface and air-sea turbulent fluxes | Turbulent air-sea fluxes and associated variables from the OCARINA wave-following and drifting platform (Bourras et al. 2014, DOI: 10.1175/JTECH-D-13-00055.)\n\ncdm_data_type = TimeSeries\nVARIABLES:\ntime2 (Time)\ntime (seconds since 1970-01-01T00:00:00Z)\nlongitude (degrees_east)\nlatitude (degrees_north)\npair (Air pressure, hPa)\ntair (Air Temperature, degree_C)\nhur (Relative air humidity, 1)\nsst (degree_C)\nrho (Density of air, kg m-3)\nrlds (downwelling longwave radiation flux, positive downward, W m-2)\nrlus (upwelling longwave radiation flux, positive upward, W m-2)\nrsds (downwelling shortwave radiation flux, positive downward, W m-2)\nrsus (upwelling shortwave radiation flux, positive upward, W m-2)\nwdir (Direction of the wind vector with respect to ground, measured positive clockwise from due north, degrees)\nwspd (Magnitude of wind velocity with respect to ground, m s-1)\nu10n (Equivalent neutral wind extrapolated at a 10-m height, from eddy-covariance calculation, m s-1)\nhsw (Significant wave height, calculated as four times the square root of the integration of the vertical platform velocity, m)\nhsw_day (daily estimate of the significant wave height, calculated as four times the square root of the integration of the vertical platform velocity, m)\nTsw (Inverse of the frequency at the maximum of the power spectrum of the vertical platform velocity (experimental), s)\nTsw_day (Daily estimate of the inverse of the frequency at the maximum of the power spectrum of the vertical platform velocity (experimental), s)\ntauu (Eastward component of the surface wind stress vector, from eddy-covariance calculation, Pa)\ntauv (Northward component of the surface wind stress vector, from eddy-covariance calculation, Pa)\nustar (Turbulent surface friction velocity, from eddy-covariance calculation, m s-1)\nhsv (Turbulent surface buoyancy flux, from eddy-covariance calculation, W m-2)\nzL (Monin-Obukhov ratio, which quantifies surface boundary layer stability, from eddy-covariance calculation, 1)\nustar_bulk (Turbulent surface friction velocity, COARE 3.0 (please see header) drag parameterization adjusted to OCARINA data, m s-1)\n... (12 more variables)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/BBWAVES_2015_proto1_02c1_999c_aa46_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/BBWAVES_2015_proto1_02c1_999c_aa46_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/BBWAVES_2015_proto1_02c1_999c_aa46/index.htmlTable | http://dataset.osupytheas.fr/geonetwork/srv/fre/catalog.search#/metadata/9d2f74a1-a7af-4062-a4e9-bd63b904856a
| http://erddap.osupytheas.fr/erddap/rss/BBWAVES_2015_proto1_02c1_999c_aa46.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=BBWAVES_2015_proto1_02c1_999c_aa46&showErrors=false&email= | MIO UMR7294 CNRS | BBWAVES_2015_proto1_02c1_999c_aa46 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/BBWAVES_2016_proto1_5ecc_9507_edad.subset | https://erddap.osupytheas.fr/erddap/tabledap/BBWAVES_2016_proto1_5ecc_9507_edad | https://erddap.osupytheas.fr/erddap/tabledap/BBWAVES_2016_proto1_5ecc_9507_edad.graph | https://erddap.osupytheas.fr/erddap/files/BBWAVES_2016_proto1_5ecc_9507_edad/ | public | OCARINA BBWAVES 2016 experiment, prototype 1, level 2 surface and air-sea turbulent fluxes | Turbulent air-sea fluxes and associated variables from the OCARINA wave-following and drifting platform (Bourras et al. 2014, DOI: 10.1175/JTECH-D-13-00055.)\n\ncdm_data_type = TimeSeries\nVARIABLES:\ntime2 (Time)\ntime (seconds since 1970-01-01T00:00:00Z)\nlongitude (degrees_east)\nlatitude (degrees_north)\npair (Air pressure, hPa)\ntair (Air Temperature, degree_C)\nhur (Relative air humidity, 1)\nsst (degree_C)\nrho (Density of air, kg m-3)\nrlds (downwelling longwave radiation flux, positive downward, W m-2)\nrlus (upwelling longwave radiation flux, positive upward, W m-2)\nrsds (downwelling shortwave radiation flux, positive downward, W m-2)\nrsus (upwelling shortwave radiation flux, positive upward, W m-2)\nwdir (Direction of the wind vector with respect to ground, measured positive clockwise from due north, degrees)\nwspd (Magnitude of wind velocity with respect to ground, m s-1)\nu10n (Equivalent neutral wind extrapolated at a 10-m height, from eddy-covariance calculation, m s-1)\nhsw (Significant wave height, calculated as four times the square root of the integration of the vertical platform velocity, m)\nhsw_day (daily estimate of the significant wave height, calculated as four times the square root of the integration of the vertical platform velocity, m)\nTsw (Inverse of the frequency at the maximum of the power spectrum of the vertical platform velocity (experimental), s)\nTsw_day (Daily estimate of the inverse of the frequency at the maximum of the power spectrum of the vertical platform velocity (experimental), s)\ntauu (Eastward component of the surface wind stress vector, from eddy-covariance calculation, Pa)\ntauv (Northward component of the surface wind stress vector, from eddy-covariance calculation, Pa)\nustar (Turbulent surface friction velocity, from eddy-covariance calculation, m s-1)\nhsv (Turbulent surface buoyancy flux, from eddy-covariance calculation, W m-2)\nzL (Monin-Obukhov ratio, which quantifies surface boundary layer stability, from eddy-covariance calculation, 1)\nustar_bulk (Turbulent surface friction velocity, COARE 3.0 (please see header) drag parameterization adjusted to OCARINA data, m s-1)\n... (12 more variables)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/BBWAVES_2016_proto1_5ecc_9507_edad_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/BBWAVES_2016_proto1_5ecc_9507_edad_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/BBWAVES_2016_proto1_5ecc_9507_edad/index.htmlTable | http://dataset.osupytheas.fr/geonetwork/srv/fre/catalog.search#/metadata/9d2f74a1-a7af-4062-a4e9-bd63b904856a
| http://erddap.osupytheas.fr/erddap/rss/BBWAVES_2016_proto1_5ecc_9507_edad.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=BBWAVES_2016_proto1_5ecc_9507_edad&showErrors=false&email= | MIO UMR7294 CNRS | BBWAVES_2016_proto1_5ecc_9507_edad | ||
| https://erddap.osupytheas.fr/erddap/tabledap/FROMVAR_142e_219c_c4aa.subset | https://erddap.osupytheas.fr/erddap/tabledap/FROMVAR_142e_219c_c4aa | https://erddap.osupytheas.fr/erddap/tabledap/FROMVAR_142e_219c_c4aa.graph | https://erddap.osupytheas.fr/erddap/files/FROMVAR_142e_219c_c4aa/ | public | OCARINA FROMVAR 2011 experiment, prototype 1, level 2 surface and air-sea turbulent fluxes | Turbulent air-sea fluxes and associated variables from the OCARINA wave-following and drifting platform (Bourras et al. 2014, DOI: 10.1175/JTECH-D-13-00055.)\n\ncdm_data_type = TimeSeries\nVARIABLES:\ntime2 (Time)\ntime (seconds since 1970-01-01T00:00:00Z)\nlongitude (degrees_east)\nlatitude (degrees_north)\npair (Air pressure, hPa)\ntair (Air Temperature, degree_C)\nhur (Relative air humidity, 1)\nsst (degree_C)\nrho (Density of air, kg m-3)\nrlds (downwelling longwave radiation flux, positive downward, W m-2)\nrlus (upwelling longwave radiation flux, positive upward, W m-2)\nrsds (downwelling shortwave radiation flux, positive downward, W m-2)\nrsus (upwelling shortwave radiation flux, positive upward, W m-2)\nwdir (Direction of the wind vector with respect to ground, measured positive clockwise from due north, degrees)\nwspd (Magnitude of wind velocity with respect to ground, m s-1)\nu10n (Equivalent neutral wind extrapolated at a 10-m height, from eddy-covariance calculation, m s-1)\nhsw (Significant wave height, calculated as four times the square root of the integration of the vertical platform velocity, m)\nhsw_day (daily estimate of the significant wave height, calculated as four times the square root of the integration of the vertical platform velocity, m)\nTsw (Inverse of the frequency at the maximum of the power spectrum of the vertical platform velocity (experimental), s)\nTsw_day (Daily estimate of the inverse of the frequency at the maximum of the power spectrum of the vertical platform velocity (experimental), s)\ntauu (Eastward component of the surface wind stress vector, from eddy-covariance calculation, Pa)\ntauv (Northward component of the surface wind stress vector, from eddy-covariance calculation, Pa)\nustar (Turbulent surface friction velocity, from eddy-covariance calculation, m s-1)\nhsv (Turbulent surface buoyancy flux, from eddy-covariance calculation, W m-2)\nzL (Monin-Obukhov ratio, which quantifies surface boundary layer stability, from eddy-covariance calculation, 1)\nustar_bulk (Turbulent surface friction velocity, COARE 3.0 (please see header) drag parameterization adjusted to OCARINA data, m s-1)\n... (12 more variables)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/FROMVAR_142e_219c_c4aa_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/FROMVAR_142e_219c_c4aa_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/FROMVAR_142e_219c_c4aa/index.htmlTable | http://dataset.osupytheas.fr/geonetwork/srv/fre/catalog.search#/metadata/9d2f74a1-a7af-4062-a4e9-bd63b904856a
| http://erddap.osupytheas.fr/erddap/rss/FROMVAR_142e_219c_c4aa.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=FROMVAR_142e_219c_c4aa&showErrors=false&email= | MIO UMR7294 CNRS | FROMVAR_142e_219c_c4aa | ||
| https://erddap.osupytheas.fr/erddap/tabledap/STRASSE_89bd_108e_d909.subset | https://erddap.osupytheas.fr/erddap/tabledap/STRASSE_89bd_108e_d909 | https://erddap.osupytheas.fr/erddap/tabledap/STRASSE_89bd_108e_d909.graph | https://erddap.osupytheas.fr/erddap/files/STRASSE_89bd_108e_d909/ | public | OCARINA STRASSE 2012 experiment, prototype 1, level 2 surface and air-sea turbulent fluxes | Turbulent air-sea fluxes and associated variables from the OCARINA wave-following and drifting platform (Bourras et al. 2014, DOI: 10.1175/JTECH-D-13-00055.)\n\ncdm_data_type = TimeSeries\nVARIABLES:\ntime2 (Time)\ntime (seconds since 1970-01-01T00:00:00Z)\nlongitude (degrees_east)\nlatitude (degrees_north)\npair (Air pressure, hPa)\ntair (Air Temperature, degree_C)\nhur (Relative air humidity, 1)\nsst (degree_C)\nrho (Density of air, kg m-3)\nrlds (downwelling longwave radiation flux, positive downward, W m-2)\nrlus (upwelling longwave radiation flux, positive upward, W m-2)\nrsds (downwelling shortwave radiation flux, positive downward, W m-2)\nrsus (upwelling shortwave radiation flux, positive upward, W m-2)\nwdir (Direction of the wind vector with respect to ground, measured positive clockwise from due north, degrees)\nwspd (Magnitude of wind velocity with respect to ground, m s-1)\nu10n (Equivalent neutral wind extrapolated at a 10-m height, from eddy-covariance calculation, m s-1)\nhsw (Significant wave height, calculated as four times the square root of the integration of the vertical platform velocity, m)\nhsw_day (daily estimate of the significant wave height, calculated as four times the square root of the integration of the vertical platform velocity, m)\nTsw (Inverse of the frequency at the maximum of the power spectrum of the vertical platform velocity (experimental), s)\nTsw_day (Daily estimate of the inverse of the frequency at the maximum of the power spectrum of the vertical platform velocity (experimental), s)\ntauu (Eastward component of the surface wind stress vector, from eddy-covariance calculation, Pa)\ntauv (Northward component of the surface wind stress vector, from eddy-covariance calculation, Pa)\nustar (Turbulent surface friction velocity, from eddy-covariance calculation, m s-1)\nhsv (Turbulent surface buoyancy flux, from eddy-covariance calculation, W m-2)\nzL (Monin-Obukhov ratio, which quantifies surface boundary layer stability, from eddy-covariance calculation, 1)\nustar_bulk (Turbulent surface friction velocity, COARE 3.0 (please see header) drag parameterization adjusted to OCARINA data, m s-1)\n... (12 more variables)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/STRASSE_89bd_108e_d909_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/STRASSE_89bd_108e_d909_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/STRASSE_89bd_108e_d909/index.htmlTable | http://dataset.osupytheas.fr/geonetwork/srv/fre/catalog.search#/metadata/9d2f74a1-a7af-4062-a4e9-bd63b904856a
| http://erddap.osupytheas.fr/erddap/rss/STRASSE_89bd_108e_d909.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=STRASSE_89bd_108e_d909&showErrors=false&email= | MIO UMR7294 CNRS | STRASSE_89bd_108e_d909 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/UPCAST_b0e2_399c_6fd2.subset | https://erddap.osupytheas.fr/erddap/tabledap/UPCAST_b0e2_399c_6fd2 | https://erddap.osupytheas.fr/erddap/tabledap/UPCAST_b0e2_399c_6fd2.graph | https://erddap.osupytheas.fr/erddap/files/UPCAST_b0e2_399c_6fd2/ | public | OCARINA UPCAST 2017 experiment, prototype 1, level 2 surface and air-sea turbulent fluxes | Turbulent air-sea fluxes and associated variables from the OCARINA wave-following and drifting platform (Bourras et al. 2014, DOI: 10.1175/JTECH-D-13-00055.)\n\ncdm_data_type = TimeSeries\nVARIABLES:\ntime2 (Time)\ntime (seconds since 1970-01-01T00:00:00Z)\nlongitude (degrees_east)\nlatitude (degrees_north)\npair (Air pressure, hPa)\ntair (Air Temperature, degree_C)\nhur (Relative air humidity, 1)\nsst (degree_C)\nrho (Density of air, kg m-3)\nrlds (downwelling longwave radiation flux, positive downward, W m-2)\nrlus (upwelling longwave radiation flux, positive upward, W m-2)\nrsds (downwelling shortwave radiation flux, positive downward, W m-2)\nrsus (upwelling shortwave radiation flux, positive upward, W m-2)\nwdir (Direction of the wind vector with respect to ground, measured positive clockwise from due north, degrees)\nwspd (Magnitude of wind velocity with respect to ground, m s-1)\nu10n (Equivalent neutral wind extrapolated at a 10-m height, from eddy-covariance calculation, m s-1)\nhsw (Significant wave height, calculated as four times the square root of the integration of the vertical platform velocity, m)\nhsw_day (daily estimate of the significant wave height, calculated as four times the square root of the integration of the vertical platform velocity, m)\nTsw (Inverse of the frequency at the maximum of the power spectrum of the vertical platform velocity (experimental), s)\nTsw_day (Daily estimate of the inverse of the frequency at the maximum of the power spectrum of the vertical platform velocity (experimental), s)\ntauu (Eastward component of the surface wind stress vector, from eddy-covariance calculation, Pa)\ntauv (Northward component of the surface wind stress vector, from eddy-covariance calculation, Pa)\nustar (Turbulent surface friction velocity, from eddy-covariance calculation, m s-1)\nhsv (Turbulent surface buoyancy flux, from eddy-covariance calculation, W m-2)\nzL (Monin-Obukhov ratio, which quantifies surface boundary layer stability, from eddy-covariance calculation, 1)\nustar_bulk (Turbulent surface friction velocity, COARE 3.0 (please see header) drag parameterization adjusted to OCARINA data, m s-1)\n... (12 more variables)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/UPCAST_b0e2_399c_6fd2_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/UPCAST_b0e2_399c_6fd2_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/UPCAST_b0e2_399c_6fd2/index.htmlTable | http://dataset.osupytheas.fr/geonetwork/srv/fre/catalog.search#/metadata/9d2f74a1-a7af-4062-a4e9-bd63b904856a
| http://erddap.osupytheas.fr/erddap/rss/UPCAST_b0e2_399c_6fd2.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=UPCAST_b0e2_399c_6fd2&showErrors=false&email= | MIO UMR7294 CNRS | UPCAST_b0e2_399c_6fd2 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/dataOSCAHR_dd2c_0f9d_b6b0.subset | https://erddap.osupytheas.fr/erddap/tabledap/dataOSCAHR_dd2c_0f9d_b6b0 | https://erddap.osupytheas.fr/erddap/tabledap/dataOSCAHR_dd2c_0f9d_b6b0.graph | https://erddap.osupytheas.fr/erddap/files/dataOSCAHR_dd2c_0f9d_b6b0/ | public | OSCAHR CRUISE SADCP Tethys data | The scientific objectives of the OSCAHR (Observing Submesoscale Coupling At High Resolution) project are to characterize a submesoscale dynamical structure and to study its influence on the distribution of biogenic elements and on the structure and dynamics of the first trophic levels associated with it\n\ncdm_data_type = TrajectoryProfile\nVARIABLES:\nREFERENCE_DATE_TIME (Date of reference julian day)\nJULD (Julian day relative to REFERENCE_DATE_TIME)\ntime (ADCP Julian day relative to REFERENCE_DATE_TIME, seconds since 1970-01-01T00:00:00Z)\nJULD_j1 (Begin Ensemble Julian day relative to REFERENCE_DATE_TIME)\nJULD_j2 (End Ensemble Julian day relative to REFERENCE_DATE_TIME)\nDATE_TIME_UTC (ASCII gregorian date and time)\nCAS_DATE_FLAG (Flag on date)\nlatitude (Latitude of each location, degrees_north)\nlongitude (Longitude of each location, degrees_east)\nUVEL_SHIP (Eastward Sea Water Velocity At Sea Floor, meter per second)\nVVEL_SHIP (Northward Sea Water Velocity At Sea Floor, meter per second)\ndepth (Depth of bin center, m)\nTEMP_ADCP (ADCP transducer temperature, Degree_Celsius)\nHDG (Ship Heading, Degree)\nHDG_G1 (Ship Heading G1, Degree)\nHDG_G2 (Ship Heading G2, Degree)\nPTCH (Ship Pitch, Degree)\nROLL (Ship Roll, Degree)\nNB_ENS_AVE (Number of averaged pings per ensemble)\nU_BOTTOM (Bottom Track Eastward velocity, meter per second)\nV_BOTTOM (Bottom Track Northward velocity, meter per second)\nW_BOTTOM (Bottom Track Vertical velocity, meter per second)\nRNG_BOTTOM (Bottom Range, meter)\nUVEL_ADCP (Eastward Sea Water Velocity, meter per second)\n... (29 more variables)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/dataOSCAHR_dd2c_0f9d_b6b0_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/dataOSCAHR_dd2c_0f9d_b6b0_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/dataOSCAHR_dd2c_0f9d_b6b0/index.htmlTable | https://oscahr.mio.osupytheas.fr/
| http://erddap.osupytheas.fr/erddap/rss/dataOSCAHR_dd2c_0f9d_b6b0.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=dataOSCAHR_dd2c_0f9d_b6b0&showErrors=false&email= | MIO UMR 7294 CNRS / OSU Pytheas | dataOSCAHR_dd2c_0f9d_b6b0 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/Rhone_STPS_6938_d111_dd80.subset | https://erddap.osupytheas.fr/erddap/tabledap/Rhone_STPS_6938_d111_dd80 | https://erddap.osupytheas.fr/erddap/tabledap/Rhone_STPS_6938_d111_dd80.graph | https://erddap.osupytheas.fr/erddap/files/Rhone_STPS_6938_d111_dd80/ | public | Rhone : Suivi des eaux du panache du Rhone en zone cotiere (CSV files) | Suivi des eaux du Rhone en zone cotiere par mesure haute frequence de la temperature et de la salinite de surface\n\ncdm_data_type = TimeSeries\nVARIABLES:\nStation\nlatitude (degrees_north)\nlongitude (degrees_east)\ntime (DateTime, seconds since 1970-01-01T00:00:00Z)\nTemperature (degree_C)\nSalinite (PSU)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/Rhone_STPS_6938_d111_dd80_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/Rhone_STPS_6938_d111_dd80_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/Rhone_STPS_6938_d111_dd80/index.htmlTable | https://dataset.osupytheas.fr/geonetwork/srv/fre/catalog.search#/metadata/79c421c5-9335-4957-88fa-804fb4ae4b43
| http://erddap.osupytheas.fr/erddap/rss/Rhone_STPS_6938_d111_dd80.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=Rhone_STPS_6938_d111_dd80&showErrors=false&email= | MIO UMR7294 CNRS | Rhone_STPS_6938_d111_dd80 | ||
| https://erddap.osupytheas.fr/erddap/tabledap/Rhone_STPS_918a_9052_8a7e.subset | https://erddap.osupytheas.fr/erddap/tabledap/Rhone_STPS_918a_9052_8a7e | https://erddap.osupytheas.fr/erddap/tabledap/Rhone_STPS_918a_9052_8a7e.graph | https://erddap.osupytheas.fr/erddap/files/Rhone_STPS_918a_9052_8a7e/ | public | Rhone : Suivi des eaux du panache du Rhone en zone cotiere (Netcdf files) | Rhone : Suivi des eaux du panache du Rhone en zone cotiere. Suivi des eaux du Rhone en zone cotiere par mesure haute frequence de la temperature et de la salinite de surface\n\ncdm_data_type = TimeSeries\nVARIABLES:\nstation_name\nstation (string)\nlatitude (degrees_north)\nlongitude (degrees_east)\ntime (datetime, seconds since 1970-01-01T00:00:00Z)\ntemperature (degree_C)\nSalinite (PSU)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/Rhone_STPS_918a_9052_8a7e_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/Rhone_STPS_918a_9052_8a7e_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/Rhone_STPS_918a_9052_8a7e/index.htmlTable | https://dataset.osupytheas.fr/geonetwork/srv/fre/catalog.search#/metadata/79c421c5-9335-4957-88fa-804fb4ae4b43
| http://erddap.osupytheas.fr/erddap/rss/Rhone_STPS_918a_9052_8a7e.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=Rhone_STPS_918a_9052_8a7e&showErrors=false&email= | MIO UMR7294 CNRS | Rhone_STPS_918a_9052_8a7e | ||
| https://erddap.osupytheas.fr/erddap/griddap/SIM7_3km_2001_2009_z1 | https://erddap.osupytheas.fr/erddap/griddap/SIM7_3km_2001_2009_z1.graph | https://erddap.osupytheas.fr/erddap/files/SIM7_3km_2001_2009_z1/ | public | Symphonie 3D (time, Z1, X, Y) outputs \"SIM7_3km_2001_2009\" experiment. | These simulations are performed in the framework of the LATEX project\n Project Web Site:\n http://www.mio.univ-amu.fr/LATEX\n Review Paper:\n Petrenko, A.A., Doglioli, A.M., Nencioli, F., Kersale, M., Hu, Z., d'Ovidio, F. (accepted). A review of the LATEX project: mesoscale to submesoscale processes in a coastal environment. Ocean Dynam., doi:10.1007/s10236-017-1040-9.\n\n For detailed information on the model implementation the reader is referred to:\n - Hu, Z.H., Petrenko, A.A., Doglioli, A.M., Dekeyser, I. (2011). Numerical study of eddy generation in the western part of the Gulf of Lion. J. Geophys. Res., Vol.116, C12030, doi:10.1029/2011JC007074.\n - Kersale, M., Petrenko, A.A., Doglioli, A.M., Dekeyser, I., Nencioli, F. (2013). Physical characteristics and dynamics of the coastal Latex09 Eddy derived from in situ data and numerical modeling. J. Geophys. Res., Vol.118, pp.1-11, doi:10.1029/2012JC008229\n\ncdm_data_type = Grid\nVARIABLES (all of which use the dimensions [time][Z1][Y][X]):\nDIFH_oi (horizontal diffusivity oi, m2/s)\nDIFH_oj (horizontal diffusivity oj, m2/s)\nRHO (sea water density, kg/m3)\nSavg (sea water salinity_avg, PSU)\nSinst (sea water salinity_instant, PSU)\nTavg (sea water temperature_avg, C)\nTinst (sea water temperature_instant, C)\nUavg (xward seawater velocity avg, m/s)\nUinst (xward seawater velocity inst, m/s)\nVavg (yward seawater velocity avg, m/s)\nVinst (yward seawater velocity inst, m/s)\n | https://erddap.osupytheas.fr/erddap/info/SIM7_3km_2001_2009_z1/index.htmlTable | https://dx.doi.org/10.1029/2011JC007074
| http://erddap.osupytheas.fr/erddap/rss/SIM7_3km_2001_2009_z1.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=SIM7_3km_2001_2009_z1&showErrors=false&email= | MIO UMR7294 CNRS / OSU Pytheas | SIM7_3km_2001_2009_z1 | |||||
| https://erddap.osupytheas.fr/erddap/tabledap/Ragas_Arfib_0a71_cf9c_8d81.subset | https://erddap.osupytheas.fr/erddap/tabledap/Ragas_Arfib_0a71_cf9c_8d81 | https://erddap.osupytheas.fr/erddap/tabledap/Ragas_Arfib_0a71_cf9c_8d81.graph | https://erddap.osupytheas.fr/erddap/files/Ragas_Arfib_0a71_cf9c_8d81/ | public | Vallee du Las (Toulon), eau souterraine | Vallee du Las (Toulon) - eau souterraine. projets de recherche KarstEAU et Dardennes, toutes les sources de la vallee du Las sont instrumentees entre les sources amont et la mer : Gouffre du Ragas, source de la retenue de Dardennes\n\ncdm_data_type = Point\nVARIABLES:\ntime (seconds since 1970-01-01T00:00:00Z)\nlatitude (degrees_north)\nlongitude (degrees_east)\nDardennes_Reservoir_Water_level_elevation (Dardennes Reservoir Water Level Elevation (m Asl) Daily Average)\nRagas_karst_Water_level_elevation (Ragas Karst Water Level Elevation (m Asl) Daily Average)\nRagas_karst_Water_Temperature (Ragas Karst Water Temperature (degree C) Daily Average)\nSaint_Antoine_spring_Discharge (Saint Antoine Spring Discharge (m3/s) Daily Average)\n | https://erddap.osupytheas.fr/erddap/metadata/fgdc/xml/Ragas_Arfib_0a71_cf9c_8d81_fgdc.xml | https://erddap.osupytheas.fr/erddap/metadata/iso19115/xml/Ragas_Arfib_0a71_cf9c_8d81_iso19115.xml | https://erddap.osupytheas.fr/erddap/info/Ragas_Arfib_0a71_cf9c_8d81/index.htmlTable | http://www.karsteau.fr/
| http://erddap.osupytheas.fr/erddap/rss/Ragas_Arfib_0a71_cf9c_8d81.rss | https://erddap.osupytheas.fr/erddap/subscriptions/add.html?datasetID=Ragas_Arfib_0a71_cf9c_8d81&showErrors=false&email= | CEREGE UMR 7330 CNRS | Ragas_Arfib_0a71_cf9c_8d81 |