Dataset
PRIMAVERA: the CNRM-CERFACS team CNRM-CM6-1 model output for the "highres-future" experiment
Abstract
PRIMAVERA Project data from the the CNRM-CERFACS team CNRM-CM6-1 model output for the "coupled future 2015-2050 using a scenario as close to CMIP5 RCP8.5 as possible within CMIP6" (highres-future) experiment. These are available at the following frequencies: Prim1hr, Prim3hr, Prim3hrPt, Prim6hrPt, PrimO6hr, PrimOday, PrimOmon, PrimSIday, Primday, PrimdayPt, Primmon and PrimmonZ. The runs included the ensemble member: r1i1p1f2.
PRIMAVERA was a European Union Horizon2020 (grant agreement 641727) project.
The the CNRM-CERFACS team team consisted of the following agencies: Centre National de Recherches Météorologiques (CNRM) and Centre Européen de Recherche et Formation Avancée en Calcul Scientifique (CERFACS).
Details
Previous Info: |
No news update for this record
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Previously used record identifiers: |
No related previous identifiers.
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Access rules: |
Public data: access to these data is available to both registered and non-registered users.
Use of these data is covered by the following licence(s): https://artefacts.ceda.ac.uk/licences/specific_licences/CMIP6_Terms_of_Use.pdf When using these data you must cite them correctly using the citation given on the CEDA Data Catalogue record. |
Data lineage: |
Data were produced and verified by the CNRM-CERFACS team scientists before upload to the Centre for Environmental Data Analysis (CEDA) and publication via the Earth Systems Grid Federation (ESGF). |
File Format: |
Data are netCDF formatted.
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Related Documents
PRIMAVERA Home Page |
Process overview
Title | the CNRM-CERFACS team running: experiment highres-future using the CNRM-CM6-1 model. |
Abstract | The the CNRM-CERFACS team team consisted of the following agencies: Centre National de Recherches Météorologiques (CNRM) and Centre Européen de Recherche et Formation Avancée en Calcul Scientifique (CERFACS).the CNRM-CERFACS team running the "coupled future 2015-2050 using a scenario as close to CMIP5 RCP8.5 as possible within CMIP6" (highres-future) experiment using the CNRM-CM6-1 model. See linked documentation for available information for each component. |
Input Description | None |
Output Description | None |
Software Reference | None |
- units: K
- standard_name: air_temperature
- long_name: Air Temperature
- var_id: ta10
- units: m s-1
- standard_name: air_temperature
- long_name: Air Temperature at 100 hPa
- var_id: ta100
- units: kg m-2
- var_id: clwvic
- standard_name: atmosphere_convective_cloud_condensed_water_content
- long_name: Convective condensed water path
- units: s-1
- standard_name: divergence_of_sea_ice_velocity
- long_name: Divergence of the sea-ice velocity field
- var_id: sidivvel
- units: m s-1
- standard_name: eastward_wind
- var_id: uas
- long_name: Eastward Near-Surface Wind
- units: m s-1
- standard_name: eastward_wind
- long_name: Eastward Wind
- var_id: ua10
- units: m s-1
- standard_name: eastward_wind
- long_name: Eastward Wind at 100 hPa
- var_id: ua100
- units: m s-1
- standard_name: eastward_wind
- long_name: Eastward Wind at 1000 hPa
- var_id: ua1000
- units: kg m-2 s-1
- standard_name: water_evaporation_flux
- long_name: Evaporation
- var_id: evspsbl
- units: 1.0
- var_id: sitimefrac
- long_name: Fraction of time steps with sea ice
- standard_name: sea_ice_time_fraction
- units: m
- standard_name: geopotential_height
- long_name: Geopotential Height
- var_id: zg10
- units: N m-2
- long_name: Internal stress term in force balance (x-component)
- standard_name: internal_stress_in_sea_ice_x
- var_id: siforceintstrx
- units: N m-2
- long_name: Internal stress term in force balance (y-component)
- standard_name: internal_stress_in_sea_ice_y
- var_id: siforceintstry
- units: m s-1
- standard_name: wind_speed
- long_name: Near-Surface Wind Speed
- var_id: sfcWind
- units: m s-1
- standard_name: northward_wind
- var_id: vas
- long_name: Northward Near-Surface Wind
- units: m s-1
- standard_name: northward_wind
- long_name: Northward Wind
- var_id: va10
- units: m s-1
- standard_name: northward_wind
- long_name: Northward Wind at 100 hPa
- var_id: va100
- units: m s-1
- standard_name: northward_wind
- long_name: Northward Wind at 1000 hPa
- var_id: va1000
- units: m
- var_id: zos
- standard_name: sea_surface_height_above_geoid
- long_name: Sea Surface Height Above Geoid
- standard_name: sea_water_salinity
- var_id: so
- long_name: Sea Water Salinity
- units: 0.001
- units: m s-1
- var_id: uo
- long_name: Sea Water X Velocity
- standard_name: sea_water_x_velocity
- units: m s-1
- var_id: vo
- long_name: Sea Water Y Velocity
- standard_name: sea_water_y_velocity
- units: kg s-1
- standard_name: sea_ice_transport_across_line
- var_id: simassacrossline
- long_name: Sea ice mass flux through straits
- standard_name: specific_humidity
- long_name: Specific Humidity
- units: 1.0
- var_id: hus1000
- standard_name: specific_humidity
- units: 1.0
- long_name: Specific Humidity at 1000 hPa
- var_id: hus1000
- units: m s-1
- standard_name: specific_humidity
- long_name: Specific humidity at 100 hPa
- var_id: hus100
- units: Pa
- standard_name: surface_air_pressure
- var_id: ps
- long_name: Surface Air Pressure
- units: N m-2
- standard_name: surface_downward_x_stress
- long_name: Surface Downward X Stress
- var_id: tauuo
- units: N m-2
- standard_name: surface_downward_y_stress
- long_name: Surface Downward Y Stress
- var_id: tauvo
- units: W m-2
- standard_name: surface_downwelling_shortwave_flux_in_air
- var_id: rsds
- long_name: Surface Downwelling Shortwave Radiation
- units: K
- standard_name: surface_temperature
- var_id: ts
- long_name: Surface Temperature
- units: K
- standard_name: surface_temperature
- long_name: Surface Temperature Where Land or Sea Ice
- var_id: tslsi
- units: %
- standard_name: cloud_area_fraction
- var_id: clt
- long_name: Total Cloud Fraction
- units: kg m-2
- standard_name: soil_moisture_content
- long_name: Total Soil Moisture Content
- var_id: mrso
- units: m
- var_id: lev
- long_name: Vertical T levels
- units: m
- var_id: lev
- long_name: Vertical U levels
- units: m
- var_id: lev
- long_name: Vertical V levels
- units: m
- var_id: lev
- long_name: Vertical W levels
- units: m s-1
- standard_name: upward_sea_water_velocity
- var_id: wo
- long_name: W
- units: N m-2
- standard_name: surface_downward_x_stress
- long_name: X-component of atmospheric stress on sea ice
- var_id: sistrxdtop
- units: N m-2
- long_name: X-component of ocean stress on sea ice
- var_id: sistrxubot
- standard_name: sea_ice_base_upward_x_stress
- units: N m-2
- standard_name: surface_downward_y_stress
- long_name: Y-component of atmospheric stress on sea ice
- var_id: sistrydtop
- units: N m-2
- long_name: Y-component of ocean stress on sea ice
- var_id: sistryubot
- standard_name: sea_ice_base_upward_y_stress
- units: 1
- standard_name: atmosphere_hybrid_sigma_pressure_coordinate
- var_id: lev_bounds
- units: 1
- standard_name: atmosphere_hybrid_sigma_pressure_coordinate
- var_id: lev
- long_name: atmospheric model level
- var_id: bounds_lat
- var_id: bounds_lon
- units: kg m-2
- var_id: lwp
- standard_name: atmosphere_cloud_liquid_water_content
- long_name: cloud liquid water path
- standard_name: atmosphere_optical_thickness_due_to_cloud
- var_id: cod
- units: 1.0
- long_name: cloud optical depth
- units: m
- standard_name: height
- var_id: height
- long_name: height
- units: m
- var_id: lev_bounds
- units: -
- standard_name: region
- long_name: ocean passage
- var_id: sector
- units: Pa s-1
- standard_name: lagrangian_tendency_of_air_pressure
- long_name: omega (=dp/dt)
- var_id: wap10
- units: Pa
- standard_name: air_pressure
- long_name: pressure
- var_id: plev
- var_id: time_bounds
Co-ordinate Variables
- units: degrees_north
- standard_name: latitude
- var_id: lat
- long_name: Latitude
- units: degrees_east
- standard_name: longitude
- var_id: lon
- long_name: Longitude
- standard_name: time
- var_id: time
- long_name: Time axis
- units: degrees_north
- standard_name: latitude
- var_id: lat_bounds
Temporal Range
2015-01-01T00:30:00
2051-01-01T00:00:00
Geographic Extent
90.0000° |
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-180.0000° |
180.0000° |
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-90.0000° |