de.dkrz.wdcc.iso2761484
series
IPILlg
Masa Kageyama
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Sébastien Denvil
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Marie Alice Foujols
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Arnaud Caubel
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Olivier Marti
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Dr. Jean-Louis Dufresne
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Laurent Bopp
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Patricia Cadule
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Christian Ethé
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Abderrahmane Idelkadi
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Martial Mancip
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Sébastien Masson
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Juliette Mignot
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Musat Ionela
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Yves Balkanski
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Slimane Bekki
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Sandrine Bony
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Pascale Braconnot
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Patrick Brockman
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Francis Codron
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Anne Cozic
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
David Cugnet
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Laurent Fairhead
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Thierry Fichefet
Université Catholique de Louvain
author
Simona Flavoni
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Lionel Guez
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Eric Guilyardi
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Frédéric Hourdin
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Josefine Ghattas
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Myriam Khodri
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Sonia Labetoulle
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Marie-Pierre Lefebvre
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Claire Levy
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Laurent Li
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Francois Lott
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Gurvan Madec
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Marion Marchand
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Yann Meurdesoif
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Catherine Rio
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Michael Schulz
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Didier Swingedouw
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Sophie Szopa
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Nicolas Viovy
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Nicolas Vuichard
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Masa Kageyama
Institut Pierre Simon Laplace
http://www.ipsl.fr/
pointOfContact
Arnaud Caubel
Institut Pierre Simon Laplace
http://www.ipsl.fr/
originator
2019-04-21T04:52:53
ISO 19115
ISO 19139 / DKRZ ISO Simple Profile V1.0
http://doi.org/doi:10.1594/WDCC/CMIP5.IPILlg
cmip5 output1 IPSL IPSL-CM5A-LR lgm
cmip5 output1 IPSL IPSL-CM5A-LR lgm
2013-09-17
creation
None
IPSL-CM5A-LR model output prepared for CMIP5 lgm experiment, served by ESGF
doi:10.1594/WDCC/CMIP5.IPILlg
Arnaud Caubel
Institut Pierre Simon Laplace
http://www.ipsl.fr/
originator
doi:10.1594/WDCC/CMIP5.IPILlg
lgm is an experiment of the CMIP5 - Coupled Model Intercomparison Project Phase 5 ( https://pcmdi.llnl.gov/mips/cmip5 ). CMIP5 is meant to provide a framework for coordinated climate change experiments for the next five years and thus includes simulations for assessment in the AR5 as well as others that extend beyond the AR5.
lgm (3.5 Last glacial maximum) - Version 2: Consistent with PMIP (Paleo Model Intercomparison Project) requirements. Impose Last Glacial Maximum (21 kyrs ago) conditions including ice sheets and atmospheric concentrations of well-mixed greenhouse gasses.
Experiment design: https://pcmdi.llnl.gov/mips/cmip5/experiment_design.html
List of output variables: https://pcmdi.llnl.gov/mips/cmip5/datadescription.html
Output: time series per variable in model grid spatial resolution in netCDF format
Earth System model and the simulation information: CIM repository
Entry name/title of data are specified according to the Data Reference Syntax ( https://pcmdi.llnl.gov/mips/cmip5/docs/cmip5_data_reference_syntax.pdf ) as activity/product/institute/model/experiment/frequency/modeling realm/MIP table/ensemble member/version number/variable name/CMOR filename.nc .
Masa Kageyama
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Sébastien Denvil
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Marie Alice Foujols
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Arnaud Caubel
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Olivier Marti
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Dr. Jean-Louis Dufresne
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Laurent Bopp
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Patricia Cadule
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Christian Ethé
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Abderrahmane Idelkadi
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Martial Mancip
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Sébastien Masson
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Juliette Mignot
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Musat Ionela
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Yves Balkanski
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Slimane Bekki
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Sandrine Bony
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Pascale Braconnot
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Patrick Brockman
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Francis Codron
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Anne Cozic
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
David Cugnet
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Laurent Fairhead
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Thierry Fichefet
Université Catholique de Louvain
author
Simona Flavoni
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Lionel Guez
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Eric Guilyardi
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Frédéric Hourdin
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Josefine Ghattas
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Myriam Khodri
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Sonia Labetoulle
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Marie-Pierre Lefebvre
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Claire Levy
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Laurent Li
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Francois Lott
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Gurvan Madec
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Marion Marchand
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Yann Meurdesoif
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Catherine Rio
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Michael Schulz
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Didier Swingedouw
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Sophie Szopa
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Nicolas Viovy
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Nicolas Vuichard
Institut Pierre Simon Laplace
http://www.ipsl.fr/
author
Masa Kageyama
Institut Pierre Simon Laplace
http://www.ipsl.fr/
pointOfContact
IPCC
theme
CMIP5
theme
IPCC-DDC
theme
IPSL-CM5A-LR
theme
climate simulation
theme
IPCC-AR5
theme
eng
0.0
360.0
-90.0
90.0
2601-07-02
2800-07-02
0
2601-01-16
2800-12-16
0
air_pressure_at_convective_cloud_base
modelResult
Pa
air_pressure_at_convective_cloud_top
modelResult
Pa
air_pressure_at_sea_level
modelResult
Pa
air_temperature
modelResult
K
air_temperature
modelResult
K
air_temperature
modelResult
K
air_temperature
modelResult
K
air_temperature
modelResult
K
area_fraction
modelResult
0.01
area_fraction
modelResult
0.01
area_fraction
modelResult
0.01
area_fraction
modelResult
0.01
area_fraction
modelResult
0.01
area_fraction
modelResult
0.01
area_fraction
modelResult
0.01
area_fraction
modelResult
0.01
area_fraction
modelResult
0.01
area_fraction
modelResult
0.01
atmosphere_absorption_optical_thickness_due_to_ambient_aerosol
modelResult
1
atmosphere_cloud_condensed_water_content
modelResult
kg m-2
atmosphere_mass_content_of_black_carbon_dry_aerosol
modelResult
kg m-2
atmosphere_mass_content_of_cloud_ice
modelResult
kg m-2
atmosphere_mass_content_of_dust_dry_aerosol
modelResult
kg m-2
atmosphere_mass_content_of_particulate_organic_matter_dry_aerosol
modelResult
kg m-2
atmosphere_mass_content_of_seasalt_dry_aerosol
modelResult
kg m-2
atmosphere_mass_content_of_sulfate_dry_aerosol
modelResult
kg m-2
atmosphere_optical_thickness_due_to_ambient_aerosol
modelResult
1
atmosphere_optical_thickness_due_to_pm1_ambient_aerosol
modelResult
1
atmosphere_updraft_convective_mass_flux
modelResult
kg m-2 s-1
atmosphere_water_vapor_content
modelResult
kg m-2
carbon_content_of_products_of_anthropogenic_land_use_change
modelResult
kg m-2
carbon_mass_flux_into_soil_from_litter
modelResult
kg m-2 s-1
cell_area
modelResult
m2
cell_thickness
modelResult
m
cloud_area_fraction
modelResult
0.01
cloud_area_fraction_in_atmosphere_layer
modelResult
0.01
convective_cloud_area_fraction_in_atmosphere_layer
modelResult
0.01
convective_precipitation_flux
modelResult
kg m-2 s-1
depth_at_shallowest_local_minimum_in_vertical_profile_of_mole_concentration_of_dissolved_molecular_oxygen_in_sea_water
modelResult
m
downward_sea_ice_basal_salt_flux
modelResult
kg m-2 s-1
eastward_wind
modelResult
m s-1
eastward_wind
modelResult
m s-1
effective_radius_of_cloud_liquid_water_particle_at_liquid_water_cloud_top
modelResult
m
effective_radius_of_convective_cloud_liquid_water_particle
modelResult
m
effective_radius_of_stratiform_cloud_liquid_water_particle
modelResult
m
fast_soil_pool_carbon_content
modelResult
kg m-2
geopotential_height
modelResult
m
global_average_sea_level_change
modelResult
m
global_average_steric_sea_level_change
modelResult
m
global_average_thermosteric_sea_level_change
modelResult
m
gross_primary_productivity_of_carbon
modelResult
kg m-2 s-1
heat_flux_correction
modelResult
W m-2
heat_flux_into_sea_water_due_to_sea_ice_thermodynamics
modelResult
W m-2
heterotrophic_respiration_carbon_flux
modelResult
kg m-2 s-1
lagrangian_tendency_of_air_pressure
modelResult
Pa s-1
land_area_fraction
modelResult
0.01
land_ice_area_fraction
modelResult
0.01
leaf_area_index
modelResult
1
leaf_carbon_content
modelResult
kg m-2
litter_carbon_content
modelResult
kg m-2
litter_carbon_flux
modelResult
kg m-2 s-1
mass_concentration_of_black_carbon_dry_aerosol_in_air
modelResult
kg m-3
mass_concentration_of_black_carbon_dry_aerosol_in_air
modelResult
kg m-3
mass_concentration_of_diatoms_expressed_as_chlorophyll_in_sea_water
modelResult
kg m-3
mass_concentration_of_dust_dry_aerosol_in_air
modelResult
kg m-3
mass_concentration_of_dust_dry_aerosol_in_air
modelResult
kg m-3
mass_concentration_of_miscellaneous_phytoplankton_expressed_as_chlorophyll_in_sea_water
modelResult
kg m-3
mass_concentration_of_particulate_organic_matter_dry_aerosol_in_air
modelResult
kg m-3
mass_concentration_of_particulate_organic_matter_dry_aerosol_in_air
modelResult
kg m-3
mass_concentration_of_phytoplankton_expressed_as_chlorophyll_in_sea_water
modelResult
kg m-3
mass_concentration_of_phytoplankton_expressed_as_chlorophyll_in_sea_water
modelResult
kg m-3
mass_concentration_of_seasalt_dry_aerosol_in_air
modelResult
kg m-3
mass_concentration_of_seasalt_dry_aerosol_in_air
modelResult
kg m-3
mass_concentration_of_sulfate_dry_aerosol_in_air
modelResult
kg m-3
mass_concentration_of_sulfate_dry_aerosol_in_air
modelResult
kg m-3
mass_fraction_of_cloud_ice_in_air
modelResult
1
mass_fraction_of_cloud_liquid_water_in_air
modelResult
1
mass_fraction_of_convective_cloud_liquid_water_in_air
modelResult
1
mass_fraction_of_stratiform_cloud_liquid_water_in_air
modelResult
1
medium_soil_pool_carbon_content
modelResult
kg m-2
miscellaneous_living_matter_carbon_content
modelResult
kg m-2
moisture_content_of_soil_layer
modelResult
kg m-2
mole_concentration_of_ammonium_in_sea_water
modelResult
mol m-3
mole_concentration_of_ammonium_in_sea_water
modelResult
mol m-3
mole_concentration_of_calcite_expressed_as_carbon_in_sea_water
modelResult
mol m-3
mole_concentration_of_calcite_expressed_as_carbon_in_sea_water
modelResult
mol m-3
mole_concentration_of_calcite_expressed_as_carbon_in_sea_water_at_saturation
modelResult
mol m-3
mole_concentration_of_calcite_expressed_as_carbon_in_sea_water_at_saturation
modelResult
mol m-3
mole_concentration_of_carbonate_expressed_as_carbon_in_sea_water
modelResult
mol m-3
mole_concentration_of_carbonate_expressed_as_carbon_in_sea_water
modelResult
mol m-3
mole_concentration_of_diatoms_expressed_as_carbon_in_sea_water
modelResult
mol m-3
mole_concentration_of_dissolved_inorganic_carbon_in_sea_water
modelResult
mol m-3
mole_concentration_of_dissolved_inorganic_carbon_in_sea_water
modelResult
mol m-3
mole_concentration_of_dissolved_iron_in_sea_water
modelResult
mol m-3
mole_concentration_of_dissolved_iron_in_sea_water
modelResult
mol m-3
mole_concentration_of_dissolved_molecular_oxygen_in_sea_water_at_shallowest_local_minimum_in_vertical_profile
modelResult
mol m-3
mole_concentration_of_dissolved_organic_carbon_in_sea_water
modelResult
mol m-3
mole_concentration_of_dissolved_organic_carbon_in_sea_water
modelResult
mol m-3
mole_concentration_of_mesozooplankton_expressed_as_carbon_in_sea_water
modelResult
mol m-3
mole_concentration_of_microzooplankton_expressed_as_carbon_in_sea_water
modelResult
mol m-3
mole_concentration_of_miscellaneous_phytoplankton_expressed_as_carbon_in_sea_water
modelResult
mol m-3
mole_concentration_of_molecular_oxygen_in_sea_water
modelResult
mol m-3
mole_concentration_of_molecular_oxygen_in_sea_water
modelResult
mol m-3
mole_concentration_of_nitrate_in_sea_water
modelResult
mol m-3
mole_concentration_of_nitrate_in_sea_water
modelResult
mol m-3
mole_concentration_of_organic_detritus_expressed_as_carbon_in_sea_water
modelResult
mol m-3
mole_concentration_of_organic_detritus_expressed_as_carbon_in_sea_water
modelResult
mol m-3
mole_concentration_of_particulate_matter_expressed_as_silicon_in_sea_water
modelResult
mol m-3
mole_concentration_of_particulate_organic_matter_expressed_as_iron_in_sea_water
modelResult
mol m-3
mole_concentration_of_phosphate_in_sea_water
modelResult
mol m-3
mole_concentration_of_phosphate_in_sea_water
modelResult
mol m-3
mole_concentration_of_phytoplankton_expressed_as_carbon_in_sea_water
modelResult
mol m-3
mole_concentration_of_phytoplankton_expressed_as_carbon_in_sea_water
modelResult
mol m-3
mole_concentration_of_phytoplankton_expressed_as_iron_in_sea_water
modelResult
mol m-3
mole_concentration_of_phytoplankton_expressed_as_silicon_in_sea_water
modelResult
mol m-3
mole_concentration_of_silicate_in_sea_water
modelResult
mol m-3
mole_concentration_of_silicate_in_sea_water
modelResult
mol m-3
mole_concentration_of_zooplankton_expressed_as_carbon_in_sea_water
modelResult
mol m-3
mole_concentration_of_zooplankton_expressed_as_carbon_in_sea_water
modelResult
mol m-3
net_downward_radiative_flux_at_top_of_atmosphere_model
modelResult
W m-2
net_downward_shortwave_flux_at_sea_water_surface
modelResult
W m-2
net_primary_mole_productivity_of_carbon_by_diatoms
modelResult
mol m-2 s-1
net_primary_mole_productivity_of_carbon_by_miscellaneous_phytoplankton
modelResult
mol m-2 s-1
net_primary_mole_productivity_of_carbon_by_phytoplankton
modelResult
mol m-2 s-1
net_primary_mole_productivity_of_carbon_due_to_nitrate_utilization
modelResult
mol m-2 s-1
net_primary_productivity_of_carbon
modelResult
kg m-2 s-1
net_primary_productivity_of_carbon_accumulated_in_leaves
modelResult
kg m-2 s-1
net_primary_productivity_of_carbon_accumulated_in_roots
modelResult
kg m-2 s-1
net_primary_productivity_of_carbon_accumulated_in_wood
modelResult
kg m-2 s-1
northward_wind
modelResult
m s-1
northward_wind
modelResult
m s-1
number_concentration_of_cloud_liquid_water_particles_in_air
modelResult
m-3
number_concentration_of_cloud_liquid_water_particles_in_air_at_liquid_water_cloud_top
modelResult
m-3
ocean_heat_x_transport
modelResult
W
ocean_heat_x_transport_due_to_bolus_advection
modelResult
W
ocean_heat_x_transport_due_to_diffusion
modelResult
W
ocean_heat_y_transport
modelResult
W
ocean_heat_y_transport_due_to_bolus_advection
modelResult
W
ocean_heat_y_transport_due_to_diffusion
modelResult
W
ocean_mass_content_of_dissolved_inorganic_carbon
modelResult
kg m-2
ocean_mixed_layer_thickness_defined_by_mixing_scheme
modelResult
m
plant_respiration_carbon_flux
modelResult
kg m-2 s-1
precipitation_flux
modelResult
kg m-2 s-1
precipitation_flux_onto_canopy
modelResult
kg m-2 s-1
rainfall_flux
modelResult
kg m-2 s-1
relative_humidity
modelResult
0.01
root_carbon_content
modelResult
kg m-2
runoff_flux
modelResult
kg m-2 s-1
sea_ice_albedo
modelResult
1
sea_ice_area_fraction
modelResult
0.01
sea_ice_thickness
modelResult
m
sea_ice_x_transport
modelResult
kg s-1
sea_ice_y_transport
modelResult
kg s-1
sea_surface_height_above_geoid
modelResult
m
sea_surface_salinity
modelResult
psu
sea_surface_temperature
modelResult
K
sea_water_alkalinity_expressed_as_mole_equivalent
modelResult
mol m-3
sea_water_alkalinity_expressed_as_mole_equivalent
modelResult
mol m-3
sea_water_mass
modelResult
kg
sea_water_ph_reported_on_total_scale
modelResult
1
sea_water_ph_reported_on_total_scale
modelResult
1
sea_water_potential_temperature
modelResult
K
sea_water_potential_temperature
modelResult
K
sea_water_pressure_at_sea_floor
modelResult
dbar
sea_water_salinity
modelResult
psu
sea_water_salinity
modelResult
psu
sea_water_volume
modelResult
m3
sea_water_x_velocity
modelResult
m s-1
sea_water_y_velocity
modelResult
m s-1
sinking_mole_flux_of_calcite_expressed_as_carbon_in_sea_water
modelResult
mol m-2 s-1
sinking_mole_flux_of_particulate_iron_in_sea_water
modelResult
mol m-2 s-1
sinking_mole_flux_of_particulate_organic_matter_expressed_as_carbon_in_sea_water
modelResult
mol m-2 s-1
sinking_mole_flux_of_particulate_silicon_in_sea_water
modelResult
mol m-2 s-1
slow_soil_pool_carbon_content
modelResult
kg m-2
snowfall_flux
modelResult
kg m-2 s-1
snowfall_flux
modelResult
kg m-2 s-1
soil_carbon_content
modelResult
kg m-2
soil_moisture_content
modelResult
kg m-2
soil_temperature
modelResult
K
specific_humidity
modelResult
1
specific_humidity
modelResult
1
specific_humidity
modelResult
1
square_of_sea_surface_height_above_geoid
modelResult
m2
square_of_sea_surface_temperature
modelResult
K2
square_of_upward_ocean_mass_transport
modelResult
kg2 s-2
subsurface_litter_carbon_content
modelResult
kg m-2
surface_air_pressure
modelResult
Pa
surface_air_pressure
modelResult
not filled
surface_altitude
modelResult
m
surface_carbon_dioxide_partial_pressure_difference_between_sea_water_and_air
modelResult
Pa
surface_downward_eastward_stress
modelResult
Pa
surface_downward_mass_flux_of_carbon_dioxide_expressed_as_carbon
modelResult
kg m-2 s-1
surface_downward_mole_flux_of_molecular_oxygen
modelResult
mol m-2 s-1
surface_downward_northward_stress
modelResult
Pa
surface_downward_x_stress
modelResult
N m-2
surface_downward_x_stress
modelResult
N m-2
surface_downward_y_stress
modelResult
N m-2
surface_downward_y_stress
modelResult
N m-2
surface_downwelling_longwave_flux_in_air
modelResult
W m-2
surface_downwelling_longwave_flux_in_air_assuming_clear_sky
modelResult
W m-2
surface_downwelling_shortwave_flux_in_air
modelResult
W m-2
surface_downwelling_shortwave_flux_in_air
modelResult
W m-2
surface_downwelling_shortwave_flux_in_air_assuming_clear_sky
modelResult
W m-2
surface_litter_carbon_content
modelResult
kg m-2
surface_molecular_oxygen_partial_pressure_difference_between_sea_water_and_air
modelResult
Pa
surface_net_downward_mass_flux_of_carbon_dioxide_expressed_as_carbon_due_to_all_land_processes
modelResult
kg m-2 s-1
surface_net_downward_mass_flux_of_carbon_dioxide_expressed_as_carbon_due_to_all_land_processes_excluding_anthropogenic_land_use_change
modelResult
kg m-2 s-1
surface_net_upward_mass_flux_of_carbon_dioxide_expressed_as_carbon_due_to_emission_from_anthropogenic_land_use_change
modelResult
kg m-2 s-1
surface_runoff_flux
modelResult
kg m-2 s-1
surface_snow_and_ice_sublimation_flux
modelResult
kg m-2 s-1
surface_snow_melt_flux
modelResult
kg m-2 s-1
surface_temperature
modelResult
K
surface_temperature
modelResult
K
surface_upward_carbon_mass_flux_due_to_plant_respiration_for_biomass_growth
modelResult
kg m-2 s-1
surface_upward_carbon_mass_flux_due_to_plant_respiration_for_biomass_maintenance
modelResult
kg m-2 s-1
surface_upward_mass_flux_of_carbon_dioxide_expressed_as_carbon_due_to_emission_from_crop_harvesting
modelResult
kg m-2 s-1
surface_upward_mass_flux_of_carbon_dioxide_expressed_as_carbon_due_to_emission_from_fires_excluding_anthropogenic_land_use_change
modelResult
kg m-2 s-1
surface_upward_sensible_heat_flux
modelResult
W m-2
surface_upwelling_longwave_flux_in_air
modelResult
W m-2
surface_upwelling_shortwave_flux_in_air
modelResult
W m-2
surface_upwelling_shortwave_flux_in_air_assuming_clear_sky
modelResult
W m-2
temperature_flux_due_to_evaporation_expressed_as_heat_flux_out_of_sea_water
modelResult
W m-2
temperature_flux_due_to_rainfall_expressed_as_heat_flux_into_sea_water
modelResult
W m-2
tendency_of_ocean_mole_content_of_calcite_expressed_as_carbon_due_to_biological_production
modelResult
mol m-2 s-1
tendency_of_ocean_mole_content_of_elemental_nitrogen_due_to_fixation
modelResult
mol m-2 s-1
tendency_of_ocean_mole_content_of_iron_due_to_biological_production
modelResult
mol m-2 s-1
tendency_of_ocean_mole_content_of_iron_due_to_deposition_and_runoff_and_sediment_dissolution
modelResult
mol m-2 s-1
tendency_of_ocean_mole_content_of_silicon_due_to_biological_production
modelResult
mol m-2 s-1
tendency_of_sea_ice_amount_due_to_basal_melting
modelResult
kg m-2 s-1
tendency_of_sea_ice_amount_due_to_lateral_growth_of_ice_floes
modelResult
kg m-2 s-1
tendency_of_sea_ice_amount_due_to_snow_conversion
modelResult
kg m-2 s-1
tendency_of_sea_ice_amount_due_to_surface_melting
modelResult
kg m-2 s-1
toa_incoming_shortwave_flux
modelResult
W m-2
toa_outgoing_longwave_flux
modelResult
W m-2
toa_outgoing_longwave_flux_assuming_clear_sky
modelResult
W m-2
toa_outgoing_shortwave_flux
modelResult
W m-2
toa_outgoing_shortwave_flux_assuming_clear_sky
modelResult
W m-2
transpiration_flux
modelResult
kg m-2 s-1
upward_ocean_mass_transport
modelResult
kg s-1
vegetation_carbon_content
modelResult
kg m-2
virtual_salt_flux_into_sea_water_due_to_sea_ice_thermodynamics
modelResult
kg m-2 s-1
volume_extinction_coefficient_in_air_due_to_ambient_aerosol
modelResult
m-1
water_evaporation_flux
modelResult
kg m-2 s-1
water_evaporation_flux
modelResult
kg m-2 s-1
water_evaporation_flux
modelResult
kg m-2 s-1
water_evaporation_flux_from_canopy
modelResult
kg m-2 s-1
water_evaporation_flux_from_soil
modelResult
kg m-2 s-1
water_flux_correction
modelResult
kg m-2 s-1
water_flux_into_sea_water
modelResult
kg m-2 s-1
water_flux_into_sea_water_due_to_sea_ice_thermodynamics
modelResult
kg m-2 s-1
water_flux_into_sea_water_from_rivers
modelResult
kg m-2 s-1
wind_speed
modelResult
m s-1
wood_carbon_content
modelResult
kg m-2
NetCDF
network Common Data Format
distributor
Mb
185450
http://doi.org/doi:10.1594/WDCC/CMIP5.IPILlg
series