1.1
1
743510648
info:srw/schema/1/example-v1.1
xml:ISO19139:F
de.dkrz.wdcc.iso3475119
series
CSA3hxv2015
Dave Bi
Commonwealth Scientific & Industrial Research Organisation
http://www.cmar.csiro.au
author
Martin Dix
Commonwealth Scientific & Industrial Research Organisation
http://www.cmar.csiro.au
author
Simon Marsland
Commonwealth Scientific & Industrial Research Organisation
http://www.cmar.csiro.au
author
Siobhan O'Farrell
Commonwealth Scientific & Industrial Research Organisation
http://www.cmar.csiro.au
author
Petteri Uotila
Finnish Meteorological Institute
http://en.ilmatieteenlaitos.fi/
author
Dr. Tony Hirst
Commonwealth Scientific & Industrial Research Organisation
http://www.cmar.csiro.au
author
Eva Kowalczyk
Commonwealth Scientific & Industrial Research Organisation
http://www.cmar.csiro.au
author
Harun Rashid
Commonwealth Scientific & Industrial Research Organisation
http://www.cmar.csiro.au
author
Zhian Sun
Bureau of Meteorology
http://www.bom.gov.au/
author
Mark Collier
Commonwealth Scientific & Industrial Research Organisation
http://www.cmar.csiro.au
author
Katja Dommenget
University of Melbourne
http://www.unimelb.edu.au/
author
Maciej Golebiewski
Commonwealth Scientific & Industrial Research Organisation
http://www.cmar.csiro.au
author
Nicholas Hannah
ARC Centre of Excellence for Climate System Science
http://www.climatescience.org.au/tags/arccss
author
Russell Fiedler
Commonwealth Scientific & Industrial Research Organisation
http://www.cmar.csiro.au
author
Charmaine Franklin
Commonwealth Scientific & Industrial Research Organisation
http://www.cmar.csiro.au
author
Sophie Lewis
ARC Centre of Excellence for Climate System Science
http://www.climatescience.org.au/tags/arccss
author
Yimin Ma
Bureau of Meteorology
http://www.bom.gov.au/
author
Paola Petrelli
ARC Centre of Excellence for Climate System Science
http://www.climatescience.org.au/tags/arccss
author
Lauren Stevens
Commonwealth Scientific & Industrial Research Organisation
http://www.cmar.csiro.au
author
Arnold Sullivan
Commonwealth Scientific & Industrial Research Organisation
http://www.cmar.csiro.au
author
Peter Uhe
Commonwealth Scientific & Industrial Research Organisation
http://www.cmar.csiro.au
author
Peter Vohralik
Commonwealth Scientific & Industrial Research Organisation
http://www.cmar.csiro.au
author
Ian Watterson
Commonwealth Scientific & Industrial Research Organisation
http://www.cmar.csiro.au
author
Hailin Yan
Commonwealth Scientific & Industrial Research Organisation
http://www.cmar.csiro.au
author
Xiaobing Zhou
Bureau of Meteorology
http://www.bom.gov.au/
author
Dr. Tony Hirst
Commonwealth Scientific & Industrial Research Organisation
http://www.cmar.csiro.au
pointOfContact
Dr. Tony Hirst
Commonwealth Scientific & Industrial Research Organisation
http://www.cmar.csiro.au
originator
Peter Uhe
Commonwealth Scientific & Industrial Research Organisation
http://www.cmar.csiro.au
originator
2019-04-21T09:51:36
ISO 19115
ISO 19139 / DKRZ ISO Simple Profile V1.0
http://doi.org/doi:10.1594/WDCC/CMIP5.CSA3hxv2015
cmip5 output1 CSIRO-BOM ACCESS1-3 historicalExt v2015
cmip5 output1 CSIRO-BOM ACCESS1-3 historicalExt v2015
2015-05-11
creation
None
ACCESS1-3 model output prepared for CMIP5 historicalExt (Version 2015), served by ESGF
doi:10.1594/WDCC/CMIP5.CSA3hxv2015
Dr. Tony Hirst
Commonwealth Scientific & Industrial Research Organisation
http://www.cmar.csiro.au
originator
Peter Uhe
Commonwealth Scientific & Industrial Research Organisation
http://www.cmar.csiro.au
originator
doi:10.1594/WDCC/CMIP5.CSA3hxv2015
The experiment includes the latest CMIP5 data of CSIRO for January 2015. The data is a newer version of the IPCC DDC AR5 data of CSIRO.
historicalExt 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.
7.4 historicalExt (7.4 Historical Extension) - Version 1: Extend the CMIP5 historical runs to the near-present (as we have for AMIP), rather than ending them in 2005. Simulations extended to at least the end of 2012 using some estimate of recent and future forcing. Groups are free to use whatever concentrations, solar forcing, SO2 emissions etc. they want to use in extending these runs. It is recommended that if an ensemble of "all-forcings" historical simulations have been run, then *each* member of the ensemble should be carried to the end of 2012. If some other forcing is used or if the run is an RCP run that is truncated after a few years, then the run should be considered a "historical extension" experiment with its output placed in a directory named historicalExt. For these historicalExt experiments, the ensemble member (designated by the "rip" value appearing in the filename and recorded as netCDF global attributes) will be identical to the historical run it extends.
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 .
Dave Bi
Commonwealth Scientific & Industrial Research Organisation
http://www.cmar.csiro.au
author
Martin Dix
Commonwealth Scientific & Industrial Research Organisation
http://www.cmar.csiro.au
author
Simon Marsland
Commonwealth Scientific & Industrial Research Organisation
http://www.cmar.csiro.au
author
Siobhan O'Farrell
Commonwealth Scientific & Industrial Research Organisation
http://www.cmar.csiro.au
author
Petteri Uotila
Finnish Meteorological Institute
http://en.ilmatieteenlaitos.fi/
author
Dr. Tony Hirst
Commonwealth Scientific & Industrial Research Organisation
http://www.cmar.csiro.au
author
Eva Kowalczyk
Commonwealth Scientific & Industrial Research Organisation
http://www.cmar.csiro.au
author
Harun Rashid
Commonwealth Scientific & Industrial Research Organisation
http://www.cmar.csiro.au
author
Zhian Sun
Bureau of Meteorology
http://www.bom.gov.au/
author
Mark Collier
Commonwealth Scientific & Industrial Research Organisation
http://www.cmar.csiro.au
author
Katja Dommenget
University of Melbourne
http://www.unimelb.edu.au/
author
Maciej Golebiewski
Commonwealth Scientific & Industrial Research Organisation
http://www.cmar.csiro.au
author
Nicholas Hannah
ARC Centre of Excellence for Climate System Science
http://www.climatescience.org.au/tags/arccss
author
Russell Fiedler
Commonwealth Scientific & Industrial Research Organisation
http://www.cmar.csiro.au
author
Charmaine Franklin
Commonwealth Scientific & Industrial Research Organisation
http://www.cmar.csiro.au
author
Sophie Lewis
ARC Centre of Excellence for Climate System Science
http://www.climatescience.org.au/tags/arccss
author
Yimin Ma
Bureau of Meteorology
http://www.bom.gov.au/
author
Paola Petrelli
ARC Centre of Excellence for Climate System Science
http://www.climatescience.org.au/tags/arccss
author
Lauren Stevens
Commonwealth Scientific & Industrial Research Organisation
http://www.cmar.csiro.au
author
Arnold Sullivan
Commonwealth Scientific & Industrial Research Organisation
http://www.cmar.csiro.au
author
Peter Uhe
Commonwealth Scientific & Industrial Research Organisation
http://www.cmar.csiro.au
author
Peter Vohralik
Commonwealth Scientific & Industrial Research Organisation
http://www.cmar.csiro.au
author
Ian Watterson
Commonwealth Scientific & Industrial Research Organisation
http://www.cmar.csiro.au
author
Hailin Yan
Commonwealth Scientific & Industrial Research Organisation
http://www.cmar.csiro.au
author
Xiaobing Zhou
Bureau of Meteorology
http://www.bom.gov.au/
author
Dr. Tony Hirst
Commonwealth Scientific & Industrial Research Organisation
http://www.cmar.csiro.au
pointOfContact
CMIP5
theme
ACCESS1-3
theme
IPCC-AR5
theme
IPCC
theme
climate simulation
theme
IPCC-DDC
theme
eng
0.0
360.0
-90.0
90.0
2006-01-01
2020-12-31
0
2006-01-16
2006-01-16
0
2006-01-16
2020-12-16
0
air_pressure_at_sea_level
modelResult
Pa
air_pressure_at_sea_level
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
air_temperature
modelResult
K
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
area_fraction
modelResult
0.01
atmosphere_cloud_condensed_water_content
modelResult
kg m-2
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_cloud_ice
modelResult
kg m-2
atmosphere_mass_content_of_primary_particulate_organic_matter_dry_aerosol
modelResult
kg m-2
atmosphere_mass_content_of_seasalt_dry_aerosol
modelResult
kg m-2
atmosphere_mass_content_of_secondary_particulate_organic_matter_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_ambient_aerosol
modelResult
1
atmosphere_water_vapor_content
modelResult
kg m-2
atmosphere_water_vapor_content
modelResult
kg m-2
cell_thickness
modelResult
m
cloud_area_fraction
modelResult
0.01
cloud_area_fraction
modelResult
0.01
cloud_area_fraction_in_atmosphere_layer
modelResult
0.01
cloud_area_fraction_in_atmosphere_layer
modelResult
0.01
compressive_strength_of_sea_ice
modelResult
N m-1
convective_precipitation_flux
modelResult
kg m-2 s-1
convective_precipitation_flux
modelResult
kg m-2 s-1
divergence_of_sea_ice_velocity
modelResult
s-1
downwelling_shortwave_flux_in_sea_water
modelResult
W m-2
eastward_wind
modelResult
m s-1
eastward_wind
modelResult
m s-1
eastward_wind
modelResult
m s-1
eastward_wind
modelResult
m s-1
geopotential_height
modelResult
m
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
lagrangian_tendency_of_air_pressure
modelResult
Pa s-1
lagrangian_tendency_of_air_pressure
modelResult
Pa s-1
leaf_area_index
modelResult
1
mass_concentration_of_biomass_burning_dry_aerosol_in_air
modelResult
kg m-3
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_primary_particulate_organic_matter_dry_aerosol_in_air
modelResult
kg m-3
mass_concentration_of_primary_particulate_organic_matter_dry_aerosol_in_air
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_secondary_particulate_organic_matter_dry_aerosol_in_air
modelResult
kg m-3
mass_concentration_of_secondary_particulate_organic_matter_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_ice_in_air
modelResult
1
mass_fraction_of_cloud_liquid_water_in_air
modelResult
1
mass_fraction_of_cloud_liquid_water_in_air
modelResult
1
moisture_content_of_soil_layer
modelResult
kg m-2
moisture_content_of_soil_layer
modelResult
kg m-2
mole_fraction_of_dimethyl_sulfide_in_air
modelResult
1
mole_fraction_of_sulfur_dioxide_in_air
modelResult
1
net_downward_radiative_flux_at_top_of_atmosphere_model
modelResult
W m-2
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
northward_ocean_heat_transport
modelResult
W
northward_wind
modelResult
m s-1
northward_wind
modelResult
m s-1
northward_wind
modelResult
m s-1
northward_wind
modelResult
m s-1
ocean_barotropic_mass_streamfunction
modelResult
kg s-1
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_x_transport
modelResult
kg s-1
ocean_mass_y_transport
modelResult
kg s-1
ocean_mixed_layer_thickness_defined_by_mixing_scheme
modelResult
m
ocean_mixed_layer_thickness_defined_by_mixing_scheme
modelResult
m
ocean_mixed_layer_thickness_defined_by_mixing_scheme
modelResult
m
ocean_mixed_layer_thickness_defined_by_sigma_t
modelResult
m
ocean_y_overturning_mass_streamfunction
modelResult
kg s-1
ocean_y_overturning_mass_streamfunction
modelResult
kg s-1
ocean_y_overturning_mass_streamfunction_due_to_bolus_advection
modelResult
kg s-1
ocean_y_overturning_mass_streamfunction_due_to_bolus_advection
modelResult
kg s-1
precipitation_flux
modelResult
kg m-2 s-1
precipitation_flux
modelResult
kg m-2 s-1
precipitation_flux
modelResult
kg m-2 s-1
rainfall_flux
modelResult
kg m-2 s-1
rainfall_flux
modelResult
kg m-2 s-1
relative_humidity
modelResult
0.01
relative_humidity
modelResult
0.01
relative_humidity
modelResult
0.01
relative_humidity
modelResult
0.01
sea_ice_and_surface_snow_amount
modelResult
kg m-2
sea_ice_area_fraction
modelResult
0.01
sea_ice_area_fraction
modelResult
0.01
sea_ice_thickness
modelResult
m
sea_ice_thickness
modelResult
m
sea_ice_transport_across_line
modelResult
kg s-1
sea_ice_x_velocity
modelResult
m s-1
sea_ice_y_transport
modelResult
kg s-1
sea_ice_y_velocity
modelResult
m s-1
sea_surface_height_above_geoid
modelResult
m
sea_surface_salinity
modelResult
psu
sea_surface_temperature
modelResult
K
sea_water_age_since_surface_contact
modelResult
yr
sea_water_mass
modelResult
kg
sea_water_mass_per_unit_area
modelResult
kg m-2
sea_water_potential_density
modelResult
kg m-3
sea_water_potential_temperature
modelResult
K
sea_water_potential_temperature
modelResult
K
sea_water_pressure_at_sea_floor
modelResult
dbar
sea_water_pressure_at_sea_water_surface
modelResult
dbar
sea_water_salinity
modelResult
psu
sea_water_salinity
modelResult
psu
sea_water_transport_across_line
modelResult
kg s-1
sea_water_volume
modelResult
m3
sea_water_x_velocity
modelResult
m s-1
sea_water_y_velocity
modelResult
m s-1
shallow_convection_time_fraction
modelResult
1
shallow_convection_time_fraction
modelResult
1
snowfall_flux
modelResult
kg m-2 s-1
snowfall_flux
modelResult
kg m-2 s-1
snowfall_flux
modelResult
kg m-2 s-1
snowfall_flux
modelResult
kg m-2 s-1
soil_moisture_content
modelResult
kg m-2
soil_temperature
modelResult
K
specific_humidity
modelResult
1
specific_humidity
modelResult
1
specific_humidity
modelResult
1
specific_humidity
modelResult
1
specific_humidity
modelResult
1
square_of_ocean_mixed_layer_thickness_defined_by_sigma_t
modelResult
m2
square_of_sea_surface_height_above_geoid
modelResult
m2
square_of_upward_ocean_mass_transport
modelResult
kg2 s-2
surface_air_pressure
modelResult
Pa
surface_air_pressure
modelResult
Pa
surface_downward_eastward_stress
modelResult
Pa
surface_downward_eastward_stress
modelResult
Pa
surface_downward_heat_flux_in_sea_water
modelResult
W m-2
surface_downward_latent_heat_flux
modelResult
W m-2
surface_downward_northward_stress
modelResult
Pa
surface_downward_northward_stress
modelResult
Pa
surface_downward_sensible_heat_flux
modelResult
W m-2
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
modelResult
W m-2
surface_downwelling_longwave_flux_in_air_assuming_clear_sky
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_downwelling_shortwave_flux_in_air_assuming_clear_sky
modelResult
W m-2
surface_net_downward_longwave_flux
modelResult
W m-2
surface_runoff_flux
modelResult
kg m-2 s-1
surface_snow_amount
modelResult
kg m-2
surface_snow_area_fraction
modelResult
0.01
surface_snow_thickness
modelResult
m
surface_temperature
modelResult
K
surface_temperature
modelResult
K
surface_temperature
modelResult
K
surface_upward_latent_heat_flux
modelResult
W m-2
surface_upward_latent_heat_flux
modelResult
W m-2
surface_upward_sensible_heat_flux
modelResult
W m-2
surface_upward_sensible_heat_flux
modelResult
W m-2
surface_upwelling_longwave_flux_in_air
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
modelResult
W m-2
surface_upwelling_shortwave_flux_in_air_assuming_clear_sky
modelResult
W m-2
surface_upwelling_shortwave_flux_in_air_assuming_clear_sky
modelResult
W m-2
temperature_flux_due_to_runoff_expressed_as_heat_flux_into_sea_water
modelResult
W m-2
tendency_of_atmosphere_mass_content_of_black_carbon_dry_aerosol_due_to_dry_deposition
modelResult
kg m-2 s-1
tendency_of_atmosphere_mass_content_of_black_carbon_dry_aerosol_due_to_emission
modelResult
kg m-2 s-1
tendency_of_atmosphere_mass_content_of_black_carbon_dry_aerosol_due_to_wet_deposition
modelResult
kg m-2 s-1
tendency_of_atmosphere_mass_content_of_dimethyl_sulfide_due_to_emission
modelResult
kg m-2 s-1
tendency_of_atmosphere_mass_content_of_primary_particulate_organic_matter_dry_aerosol_due_to_dry_deposition
modelResult
kg m-2 s-1
tendency_of_atmosphere_mass_content_of_primary_particulate_organic_matter_dry_aerosol_due_to_emission
modelResult
kg m-2 s-1
tendency_of_atmosphere_mass_content_of_primary_particulate_organic_matter_dry_aerosol_due_to_emission
modelResult
kg m-2 s-1
tendency_of_atmosphere_mass_content_of_primary_particulate_organic_matter_dry_aerosol_due_to_wet_deposition
modelResult
kg m-2 s-1
tendency_of_atmosphere_mass_content_of_sulfate_dry_aerosol_due_to_dry_deposition
modelResult
kg m-2 s-1
tendency_of_atmosphere_mass_content_of_sulfate_expressed_as_sulfur_dry_aerosol_due_to_wet_deposition
modelResult
kg m-2 s-1
tendency_of_atmosphere_mass_content_of_sulfur_dioxide_due_to_dry_deposition
modelResult
kg m-2 s-1
tendency_of_atmosphere_mass_content_of_sulfur_dioxide_due_to_emission
modelResult
kg m-2 s-1
tendency_of_atmosphere_mass_content_of_sulfur_dioxide_due_to_wet_deposition
modelResult
kg m-2 s-1
tendency_of_sea_ice_amount_due_to_frazil_ice_accumulation_in_leads
modelResult
kg m-2 s-1
tendency_of_sea_ice_area_fraction_due_to_ridging
modelResult
s-1
toa_incoming_shortwave_flux
modelResult
W m-2
toa_incoming_shortwave_flux
modelResult
W m-2
toa_outgoing_longwave_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_longwave_flux_assuming_clear_sky
modelResult
W m-2
toa_outgoing_shortwave_flux
modelResult
W m-2
toa_outgoing_shortwave_flux
modelResult
W m-2
toa_outgoing_shortwave_flux_assuming_clear_sky
modelResult
W m-2
toa_outgoing_shortwave_flux_assuming_clear_sky
modelResult
W m-2
upward_ocean_mass_transport
modelResult
kg s-1
upward_x_stress_at_sea_ice_base
modelResult
N m-2
upward_y_stress_at_sea_ice_base
modelResult
N m-2
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_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
wind_speed
modelResult
m s-1
wind_speed
modelResult
m s-1
NetCDF
network Common Data Format
distributor
Mb
178835
http://doi.org/doi:10.1594/WDCC/CMIP5.CSA3hxv2015
series
]]>
1
1.1
de.dkrz.wdcc.iso3475119
1
5
xml
https://sru.dwd.de/SRU2JDBC/