Dataset
Control run for the HadCM3 model
Abstract
The Control Run simulation contained in this dataset was used to initialise transient coupled HadCM3 simulations using a variety of emission scenarios. It uses fixed forcing representative of late nineteenth century atmospheric conditions. The control run was initialised and spun up as defined in Johns et al. (2003).
The Control Run simulation contained in this dataset were used to initialise transient coupled model simulations using HadCM3 for a variety of scenarios. It uses fixed forcing representative of late nineteenth conditions. The control run was initialised and spun up as defined in Johns et al. (2003). The HadCM3 model was used by the Hadley Centre to provide input for the IPCC Third Assessment Report.
Data members run for this experiment: aaxzc aaxzk aaxzp aaxzw abxpa abxpb abxpf abxpg abxph abxpi
Boundary conditions: Fixed forcing representative of late nineteenth century atmospheric conditions.
References:
Johns, T.C., J.M. Gregory, W.J. Ingram, C.E. Johnson, A. Jones, J.A. Lowe, J.F.B. Mitchell, D.L. Roberts, D.M.H Sexton, D.S Stevenson, S.F.B. Tett, M.J. Woodage (2003) Anthropogenic climate change for 1860 to 2100 simulated with the HadCM3 model under updated emissions scenarios. Climate Dynamics, pp583-612.
Initial conditions: The model is initialised directly from the Levitus observed ocean state (Levitus and Boyer 1994; Levitus et al. 1995). There is no spinup with surface or interior ocean relaxation; the model runs freely from the start.
More detailed metadata on the model configuration and parameters is available in XML format.
List of climate variables:
SURFACE TEMPERATURE AFTER TIMESTEP
SURFACE ZONAL CURRENT AFTER TIMESTEP
SURFACE MERID CURRENT AFTER TIMESTEP
FRAC OF SEA ICE IN SEA AFTER TSTEP
SEA ICE DEPTH (MEAN OVER ICE) M
GEOPOTENTIAL HEIGHT: PRESSURE LEVELS
RELATIVE HUMIDITY WRT ICE ON P LVS
PRESSURE AT MEAN SEA LEVEL
U COMPNT OF WIND AFTER TIMESTEP
V COMPNT OF WIND AFTER TIMESTEP
THETA AFTER TIMESTEP
SPECIFIC HUMIDITY AFTER TIMESTEP
CONV CLOUD AMOUNT AFTER TIMESTEP
CONV CLOUD LIQUID WATER PATH
SNOW AMOUNT OVER LAND AFT TSTP KG/M2
SURFACE TEMPERATURE AFTER TIMESTEP
BOUNDARY LAYER DEPTH AFTER TIMESTEP
FRAC OF SEA ICE IN SEA AFTER TSTEP
SEA ICE DEPTH (MEAN OVER ICE) M
NET DOWN SURFACE SW FLUX: SW TS ONLY
NET DN SW RAD FLUX:OPEN SEA:SEA MEAN
NET DOWN SURFACE SW FLUX BELOW 690NM
INCOMING SW RAD FLUX (TOA): ALL TSS
OUTGOING SW RAD FLUX (TOA)
CLEAR-SKY (II) UPWARD SW FLUX (TOA)
CLEAR-SKY (II) DOWN SURFACE SW FLUX
CLEAR-SKY (II) UP SURFACE SW FLUX
SW HEATING RATES: ALL TIMESTEPS
CLEAR-SKY SW HEATING RATES
TOTAL DOWNWARD SURFACE SW FLUX
NET DOWNWARD SW FLUX AT THE TROP.
UPWARD SW FLUX AT THE TROP.
NET DOWN SURFACE LW RAD FLUX
NET DN LW RAD FLUX:OPEN SEA:SEA MEAN
TOTAL CLOUD AMOUNT IN LW RADIATION
OUTGOING LW RAD FLUX (TOA)
CLEAR-SKY (II) UPWARD LW FLUX (TOA)
DOWNWARD LW RAD FLUX: SURFACE
CLEAR-SKY (II) DOWN SURFACE LW FLUX
LW HEATING RATES
CLEAR-SKY LW HEATING RATES
NET DOWNWARD LW FLUX AT THE TROP.
TOTAL DOWNWARD LW FLUX AT THE TROP.
OZONE MASS MIXING RATIO AFTER LW
HT FLUX THROUGH SEAICE:SEA MEAN W/M2
HT FLUX FROM SURF TO DEEP SOIL LEV 1
SURFACE HEAT FLUX W/M2
X-COMP OF SURF & BL WIND STRESS N/M2
Y-COMP OF SURF & BL WIND STRESS N/M2
SURFACE TOTAL MOISTURE FLUX KG/M2/S
WIND MIX EN'GY FL TO SEA:SEA MN W/M2
10 METRE WIND U-COMP B GRID
10 METRE WIND V-COMP B GRID
SFC SH FLX FROM OPEN SEA:SEA MN W/M2
EVAP FROM OPEN SEA: SEA MEAN KG/M2/S
SURFACE LATENT HEAT FLUX W/M2
SEAICE TOP MELT LH FLX:SEA MEAN W/M2
TEMPERATURE AT 1.5M
SPECIFIC HUMIDITY AT 1.5M
DEEP SOIL TEMPERATURE AFTER B.LAYER
RELATIVE HUMIDITY AT 1.5M
CANOPY CONDUCTANCE M/S
GROSS PRIMARY PRODUCTIVITY KG C/M2/S
NET PRIMARY PRODUCTIVITY KG C/M2/S
PLANT RESPIRATION KG/M2/S
EVAP FROM SOIL SURF : RATE KG/M2/S
EVAP FROM CANOPY : RATE KG/M2/S
SUBLIM. SURFACE (GBM) : RATE KG/M2/S
LARGE SCALE RAINFALL RATE KG/M2/S
LARGE SCALE SNOWFALL RATE KG/M2/S
CONVECTIVE RAINFALL RATE KG/M2/S
CONVECTIVE SNOWFALL RATE KG/M2/S
CONV. CLOUD AMOUNT ON EACH MODEL LEV
TOTAL RAINFALL RATE: LS+CONV KG/M2/S
TOTAL SNOWFALL RATE: LS+CONV KG/M2/S
TOTAL PRECIPITATION RATE KG/M2/S
X COMPONENT OF GRAVITY WAVE STRESS
Y COMPONENT OF GRAVITY WAVE STRESS
LAND SNOW MELT HEAT FLUX W/M2
SOIL MOISTURE CONTENT
CANOPY WATER CONTENT
SOIL MOISTURE CONTENT IN A LAYER
UNFROZEN SOIL MOISTURE FRACTION
FROZEN SOIL MOISTURE FRACTION
CANOPY THROUGHFALL RATE KG/M2/S
SURFACE RUNOFF RATE KG/M2/S
SUB-SURFACE RUNOFF RATE KG/M2/S
BULK CLOUD AMOUNT AFTER MAIN CLOUD
CLOUD LIQUID WATER AFTER MAIN CLOUD
CLOUD ICE CONTENT AFTER DYNAM CLOUD
ATMOS ENERGY CORR'N IN COLUMN W/M2
U WIND ON PRESSURE LEVELS B GRID
V WIND ON PRESSURE LEVELS B GRID
GEOPOTENTIAL HEIGHT: PRESSURE LEVELS
TEMPERATURE ON PRESSURE LEVELS
RELATIVE HUMIDITY WRT ICE ON P LVS
PRESSURE AT MEAN SEA LEVEL
SURFACE HEAT FLUX W/M2
X-COMP OF SURF & BL WIND STRESS N/M2
Y-COMP OF SURF & BL WIND STRESS N/M2
SURFACE TOTAL MOISTURE FLUX KG/M2/S
SPECIFIC HUMIDITY AFTER TIMESTEP
CLOUD LIQUID WATER AFTER MAIN CLOUD
CLOUD ICE CONTENT AFTER DYNAM CLOUD
Indicator of local q diffusion
TEMPERATURE AT 1.5M
TEMPERATURE AT 1.5M
Details
| Previous Info: |
No news update for this record
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|---|---|
| Previously used record identifiers: |
http://badc.nerc.ac.uk/view/badc.nerc.ac.uk__ATOM__ACTIVITY_f59878ea-40d3-11e4-b4ff-00163e251233
http://badc.nerc.ac.uk/view/badc.nerc.ac.uk__ATOM__ACTIVITY_0b839bae-40d3-11e4-8677-00163e251233
|
| Access rules: |
Restricted data: please submit an application using the REQUEST ACCESS link for access.
Use of these data is covered by the following licence(s): https://artefacts.ceda.ac.uk/licences/missing_licence.pdf When using these data you must cite them correctly using the citation given on the CEDA Data Catalogue record. |
| Data lineage: |
Data from the UK Met Office Hadley Centre. Dataset directory structure was reordered by CEDA staff in November 2023 to place experiment runs within a directory of their associated experiment. |
| Data Quality: |
Model data.
|
| File Format: |
HadCM3 data is provided in PP (post processing) format.
|
Related Documents
Process overview
| Title | Hadley Centre Hadley Centre Coupled Model Version 3 |
| Abstract | The Hadley Centre Hadley Centre Coupled Model Version 3 was developed from the earlier HadCM2 model in the period 1997-2000. Various improvements were applied to the 19 level atmosphere model and the 20 level ocean model and as a result the model requires no artificial flux adjustments to prevent excessive climate drift. The atmosphere and ocean exchange information once per day, heat and water fluxes being conserved exactly. The main differences from the previous HadCM2 model are a significantly more sophisticated radiation scheme; the inclusion of the direct impact of convection on momentum; and the inclusion of a new land surface scheme that includes a better representation of evaporation, freezing and melting of soil moisture. It improved on the resolution available from previous Hadley Centre models and included support for interactive couplings between the atmosphere and ocean and the biosphere, atmospheric chemistry, the sulphur cycle and atmospheric aerosols. The HadCM3 model was used by the Hadley Centre to provide input for the IPCC Third Assessment Report. |
| Input Description | None |
| Output Description | None |
| Software Reference | None |
- units: m s-1
- standard_name: wind_speed
- var_id: UM_m01s03i249_vn405
- long_name: 10 METRE WIND SPEED M/S
- units: m s-1
- standard_name: eastward_wind
- long_name: 10 METRE WIND U-COMP
- var_id: UM_m01s03i225_vn405_true_latitude_longitude
- units: m s-1
- standard_name: northward_wind
- long_name: 10 METRE WIND V-COMP
- var_id: UM_m01s03i226_vn405_true_latitude_longitude
- units: W m-2
- var_id: UM_m01s14i201_vn405
- long_name: ATMOS ENERGY CORR'N IN COLUMN W/M2
- units: m
- long_name: BOUNDARY LAYER DEPTH AFTER TIMESTEP
- standard_name: atmosphere_boundary_layer_thickness
- var_id: UM_m01s00i025_vn405
- long_name: CANOPY CONDUCTANCE M/S
- var_id: UM_m01s03i259_vn405
- units: kg m-2 s-1
- var_id: UM_m01s08i233_vn405
- long_name: CANOPY THROUGHFALL RATE KG/M2/S
- units: kg m-2
- long_name: CANOPY WATER CONTENT
- standard_name: canopy_water_amount
- var_id: UM_m01s08i209_vn405
- units: W m-2
- long_name: CLEAR-SKY (II) DOWN SURFACE LW FLUX
- standard_name: surface_downwelling_longwave_flux_in_air_assuming_clear_sky
- var_id: UM_m01s02i208_vn405
- units: W m-2
- long_name: CLEAR-SKY (II) DOWN SURFACE SW FLUX
- standard_name: surface_downwelling_shortwave_flux_in_air_assuming_clear_sky
- var_id: UM_m01s01i210_vn405
- units: W m-2
- long_name: CLEAR-SKY (II) UP SURFACE SW FLUX
- standard_name: surface_upwelling_shortwave_flux_in_air_assuming_clear_sky
- var_id: UM_m01s01i211_vn405
- units: W m-2
- long_name: CLEAR-SKY (II) UPWARD LW FLUX (TOA)
- standard_name: toa_outgoing_longwave_flux_assuming_clear_sky
- var_id: UM_m01s02i206_vn405
- units: W m-2
- long_name: CLEAR-SKY (II) UPWARD SW FLUX (TOA)
- standard_name: toa_outgoing_shortwave_flux_assuming_clear_sky
- var_id: UM_m01s01i209_vn405
- units: K s-1
- long_name: CLEAR-SKY LW HEATING RATES
- standard_name: tendency_of_air_temperature_due_to_longwave_heating_assuming_clear_sky
- var_id: UM_m01s02i233_vn405
- units: K s-1
- long_name: CLEAR-SKY SW HEATING RATES
- standard_name: tendency_of_air_temperature_due_to_shortwave_heating_assuming_clear_sky
- var_id: UM_m01s01i233_vn405
- units: 1
- long_name: CLOUD ICE CONTENT AFTER DYNAM CLOUD
- standard_name: mass_fraction_of_cloud_ice_in_air
- var_id: UM_m01s09i207_vn405
- units: 1
- long_name: CLOUD LIQUID WATER AFTER DYN CLOUD
- standard_name: mass_fraction_of_cloud_liquid_water_in_air
- var_id: UM_m01s09i206_vn405
- units: 1
- long_name: CONV CLOUD AMOUNT AFTER TIMESTEP
- standard_name: convective_cloud_area_fraction
- var_id: UM_m01s00i013_vn405
- long_name: CONV CLOUD LIQUID WATER PATH
- var_id: UM_m01s00i016_vn405
- units: 1
- long_name: CONV. CLOUD AMOUNT ON EACH MODEL LEV
- standard_name: convective_cloud_area_fraction_in_atmosphere_layer
- var_id: UM_m01s05i212_vn405
- units: kg m-2 s-1
- standard_name: convective_rainfall_flux
- var_id: UM_m01s05i205_vn405
- long_name: CONVECTIVE RAINFALL RATE KG/M2/S
- units: kg m-2 s-1
- standard_name: convective_snowfall_flux
- var_id: UM_m01s05i206_vn405
- long_name: CONVECTIVE SNOWFALL RATE KG/M2/S
- units: K
- long_name: DEEP SOIL TEMPERATURE AFTER B.LAYER
- standard_name: soil_temperature
- var_id: UM_m01s03i238_vn405
- units: W m-2
- long_name: DOWNWARD LW RAD FLUX: SURFACE
- standard_name: surface_downwelling_longwave_flux_in_air
- var_id: UM_m01s02i207_vn405
- units: kg m-2 s-1
- standard_name: water_evaporation_flux_from_canopy
- var_id: UM_m01s03i297_vn405
- long_name: EVAP FROM CANOPY : RATE KG/M2/S
- units: kg m-2 s-1
- standard_name: water_evaporation_flux_from_soil
- var_id: UM_m01s03i296_vn405
- long_name: EVAP FROM SOIL SURF : RATE KG/M2/S
- units: kg m-2 s-1
- var_id: UM_m01s03i232_vn405
- long_name: EVAPORATION FROM SEA (GBM) KG/M2/S
- units: 1
- long_name: FROZEN SOIL MOISTURE FRACTION
- standard_name: mass_fraction_of_frozen_water_in_soil_moisture
- var_id: UM_m01s08i230_vn405
- units: m
- long_name: GEOPOTENTIAL HEIGHT: PRESSURE LEVELS
- standard_name: geopotential_height
- var_id: UM_m01s16i202_vn405
- long_name: GRIDBOX MEAN CONV. CLOUD WATER PATH
- var_id: UM_m01s05i234_vn405
- units: 1
- long_name: GRIDBOX MEAN CONVECTIVE CLOUD WATER
- standard_name: mass_fraction_of_convective_cloud_liquid_water_in_air
- var_id: UM_m01s05i233_vn405
- units: kg m-2 s-1
- long_name: GROSS PRIMARY PRODUCTIVITY KG C/M2/S
- standard_name: gross_primary_productivity_of_carbon
- var_id: UM_m01s03i261_vn405
- units: W m-2
- long_name: HEAT FLUX THROUGH SEA ICE (GBM) W/M2
- standard_name: downward_heat_flux_in_sea_ice
- var_id: UM_m01s03i201_vn405
- units: W m-2
- long_name: HT FLUX FROM SURF TO DEEP SOIL LEV 1
- standard_name: downward_heat_flux_in_soil
- var_id: UM_m01s03i202_vn405
- units: W m-2
- long_name: INCOMING SW RAD FLUX (TOA): ALL TSS
- standard_name: toa_incoming_shortwave_flux
- var_id: UM_m01s01i207_vn405
- units: W m-2
- standard_name: surface_snow_melt_heat_flux
- var_id: UM_m01s08i202_vn405
- long_name: LAND SNOW MELT HEAT FLUX W/M2
- units: kg m-2 s-1
- standard_name: stratiform_rainfall_flux
- var_id: UM_m01s04i203_vn405
- long_name: LARGE SCALE RAINFALL RATE KG/M2/S
- units: kg m-2 s-1
- standard_name: stratiform_snowfall_flux
- var_id: UM_m01s04i204_vn405
- long_name: LARGE SCALE SNOWFALL RATE KG/M2/S
- units: 1
- long_name: LAYER CLOUD AMOUNT IN EACH LAYER
- standard_name: stratiform_cloud_area_fraction_in_atmosphere_layer
- var_id: UM_m01s09i201_vn405
- units: K s-1
- long_name: LW HEATING RATES
- standard_name: tendency_of_air_temperature_due_to_longwave_heating
- var_id: UM_m01s02i232_vn405
- units: W m-2
- long_name: NET DOWN LW RAD FLUX: OPEN SEA
- standard_name: surface_net_downward_longwave_flux
- var_id: UM_m01s02i203_vn405
- units: W m-2
- long_name: NET DOWN SURFACE LW RAD FLUX
- standard_name: surface_net_downward_longwave_flux
- var_id: UM_m01s02i201_vn405
- long_name: NET DOWN SURFACE SW FLUX BELOW 690NM
- var_id: UM_m01s01i204_vn405
- long_name: NET DOWN SURFACE SW FLUX: SW TS ONLY
- units: W m-2
- standard_name: surface_net_downward_shortwave_flux
- var_id: UM_m01s01i201_vn405
- units: W m-2
- long_name: NET DOWN SW RAD FLUX: OPEN SEA
- standard_name: surface_net_downward_shortwave_flux
- var_id: UM_m01s01i203_vn405
- units: W m-2
- long_name: NET DOWNWARD LW FLUX AT THE TROP.
- standard_name: tropopause_net_downward_longwave_flux
- var_id: UM_m01s02i237_vn405
- units: W m-2
- long_name: NET DOWNWARD SW FLUX AT THE TROP.
- standard_name: tropopause_net_downward_shortwave_flux
- var_id: UM_m01s01i237_vn405
- units: kg m-2 s-1
- long_name: NET PRIMARY PRODUCTIVITY KG C/M2/S
- standard_name: net_primary_productivity_of_carbon
- var_id: UM_m01s03i262_vn405
- units: Pa s-1
- long_name: OMEGA ON MODEL LEVELS
- standard_name: lagrangian_tendency_of_air_pressure
- var_id: UM_m01s12i201_vn405
- units: W m-2
- long_name: OUTGOING LW RAD FLUX (TOA)
- standard_name: toa_outgoing_longwave_flux
- var_id: UM_m01s02i205_vn405
- units: W m-2
- long_name: OUTGOING SW RAD FLUX (TOA)
- standard_name: toa_outgoing_shortwave_flux
- var_id: UM_m01s01i208_vn405
- units: kg m-2 s-1
- long_name: PLANT RESPIRATION KG/M2/S
- standard_name: plant_respiration_carbon_flux
- var_id: UM_m01s03i263_vn405
- units: Pa
- long_name: PRESSURE AT MEAN SEA LEVEL
- standard_name: air_pressure_at_sea_level
- var_id: UM_m01s16i222_vn405
- units: Pa
- long_name: PSTAR AFTER TIMESTEP
- standard_name: surface_air_pressure
- var_id: UM_m01s00i001_vn405
- units: kg m-2 s-1
- var_id: UM_m01s13i201_vn405
- long_name: QT SOURCE/SINK IN QT_POS KG/M2/S
- standard_name: relative_humidity
- units: %
- long_name: RELATIVE HUMIDITY AT 1.5M
- var_id: UM_m01s03i245_vn405
- standard_name: relative_humidity
- units: %
- long_name: RELATIVE HUMIDITY ON PRESSURE LEVELS
- var_id: UM_m01s16i204_vn405
- units: m
- standard_name: sea_ice_thickness
- var_id: UM_m01s00i032_vn405
- long_name: SEA ICE DEPTH (MEAN OVER ICE) M
- units: 1
- long_name: SEA ICE FRACTION AFTER TIMESTEP
- standard_name: sea_ice_area_fraction
- var_id: UM_m01s00i031_vn405
- units: W m-2
- long_name: SEAICE TOP MELTING LH FLUX(GBM) W/M2
- var_id: UM_m01s03i235_vn405
- units: kg m-2
- standard_name: snowfall_amount
- var_id: UM_m01s00i023_vn405
- long_name: SNOW AMOUNT AFTER TIMESTEP KG/M2
- units: kg m-2
- long_name: SOIL MOISTURE CONTENT
- var_id: UM_m01s08i208_vn405
- units: kg m-2
- long_name: SOIL MOISTURE CONTENT IN A LAYER
- standard_name: moisture_content_of_soil_layer
- var_id: UM_m01s08i223_vn405
- units: 1
- long_name: SPECIFIC HUMIDITY AFTER TIMESTEP
- standard_name: specific_humidity
- var_id: UM_m01s00i010_vn405
- units: kg m-2 s-1
- standard_name: subsurface_runoff_flux
- var_id: UM_m01s08i235_vn405
- long_name: SUB-SURFACE RUNOFF RATE KG/M2/S
- units: kg m-2 s-1
- long_name: SUBLIM. SURFACE (GBM) : RATE KG/M2/S
- standard_name: water_sublimation_flux
- var_id: UM_m01s03i298_vn405
- units: kg m-2 s-1
- long_name: SURF & BL TOTL MOISTURE FLUX KG/M2/S
- var_id: UM_m01s03i223_vn405
- standard_name: upward_water_vapor_flux_in_air
- units: W m-2
- var_id: UM_m01s03i217_vn405
- long_name: SURFACE & B.LAYER HEAT FLUXES W/M2
- units: W m-2
- standard_name: surface_upward_latent_heat_flux
- var_id: UM_m01s03i234_vn405
- long_name: SURFACE LATENT HEAT FLUX W/M2
- units: kg m-2 s-1
- standard_name: surface_runoff_flux
- var_id: UM_m01s08i234_vn405
- long_name: SURFACE RUNOFF RATE KG/M2/S
- units: W m-2
- standard_name: surface_upward_sensible_heat_flux
- var_id: UM_m01s03i228_vn405
- long_name: SURFACE SH FLUX FROM SEA (GBM) W/M2
- units: K
- long_name: SURFACE TEMPERATURE AFTER TIMESTEP
- standard_name: surface_temperature
- var_id: UM_m01s00i024_vn405
- units: K s-1
- long_name: SW HEATING RATES: ALL TIMESTEPS
- standard_name: tendency_of_air_temperature_due_to_shortwave_heating
- var_id: UM_m01s01i232_vn405
- units: K
- standard_name: air_temperature
- long_name: TEMPERATURE AT 1.5M
- var_id: UM_m01s03i236_vn405
- units: K
- standard_name: air_temperature
- long_name: TEMPERATURE ON PRESSURE LEVELS
- var_id: UM_m01s16i203_vn405
- units: K
- long_name: THETA AFTER TIMESTEP
- standard_name: air_potential_temperature
- var_id: UM_m01s00i004_vn405
- units: 1
- long_name: TOTAL CLOUD AMOUNT IN LW RADIATION
- standard_name: cloud_area_fraction
- var_id: UM_m01s02i204_vn405
- units: W m-2
- long_name: TOTAL DOWNWARD LW FLUX AT THE TROP.
- standard_name: tropopause_downwelling_longwave_flux
- var_id: UM_m01s02i238_vn405
- units: W m-2
- long_name: TOTAL DOWNWARD SURFACE SW FLUX
- standard_name: surface_downwelling_shortwave_flux_in_air
- var_id: UM_m01s01i235_vn405
- units: kg m-2 s-1
- standard_name: precipitation_flux
- var_id: UM_m01s05i216_vn405
- long_name: TOTAL PRECIPITATION RATE KG/M2/S
- units: kg m-2 s-1
- long_name: TOTAL RAINFALL RATE: LS+CONV KG/M2/S
- standard_name: rainfall_flux
- var_id: UM_m01s05i214_vn405
- units: kg m-2 s-1
- long_name: TOTAL SNOWFALL RATE: LS+CONV KG/M2/S
- standard_name: snowfall_flux
- var_id: UM_m01s05i215_vn405
- units: kg m-2 s-1
- var_id: UM_m01s03i299_vn405
- long_name: TRANSPIRATION RATE KG/M2/S
- units: m s-1
- standard_name: eastward_wind
- long_name: U COMPNT OF WIND AFTER TIMESTEP
- var_id: UM_m01s00i002_vn405_true_latitude_longitude
- units: m s-1
- standard_name: eastward_wind
- long_name: U COMPNT OF WIND ON PRESSURE LEVELS
- var_id: UM_m01s15i201_vn405
- units: Pa
- long_name: U COMPONENT OF GRAVITY WAVE STRESS
- var_id: UM_m01s06i201_vn405_true_latitude_longitude
- standard_name: atmosphere_eastward_stress_due_to_gravity_wave_drag
- var_id: UM_m01s01i239_vn405
- long_name: UM_m01s01i239_vn405
- var_id: UM_m01s01i240_vn405
- long_name: UM_m01s01i240_vn405
- var_id: UM_m01s02i239_vn405
- long_name: UM_m01s02i239_vn405
- var_id: UM_m01s02i240_vn405
- long_name: UM_m01s02i240_vn405
- var_id: UM_m01s02i241_vn405
- long_name: UM_m01s02i241_vn405
- units: 1
- long_name: UNFROZEN SOIL MOISTURE FRACTION
- standard_name: mass_fraction_of_unfrozen_water_in_soil_moisture
- var_id: UM_m01s08i229_vn405
- units: W m-2
- long_name: UPWARD SW FLUX AT THE TROP.
- standard_name: tropopause_upwelling_shortwave_flux
- var_id: UM_m01s01i238_vn405
- units: m s-1
- standard_name: northward_wind
- long_name: V COMPNT OF WIND AFTER TIMESTEP
- var_id: UM_m01s00i003_vn405_true_latitude_longitude
- units: m s-1
- standard_name: northward_wind
- long_name: V COMPNT OF WIND ON PRESSURE LEVELS
- var_id: UM_m01s15i202_vn405
- units: Pa
- long_name: V COMPONENT OF GRAVITY WAVE STRESS
- var_id: UM_m01s06i202_vn405_true_latitude_longitude
- standard_name: atmosphere_northward_stress_due_to_gravity_wave_drag
- units: W m-2
- long_name: WIND MIXING EN'GY FLUX INTO SEA W/M2
- var_id: UM_m01s03i224_vn405
- standard_name: wind_mixing_energy_flux_into_sea_water
- units: Pa
- long_name: X-COMP OF SURF & BL WIND STRESS N/M2
- standard_name: surface_downward_eastward_stress
- var_id: UM_m01s03i219_vn405_true_latitude_longitude
- units: Pa
- long_name: Y-COMP OF SURF & BL WIND STRESS N/M2
- standard_name: surface_downward_northward_stress
- var_id: UM_m01s03i220_vn405_true_latitude_longitude
- standard_name: mass_fraction_of_ozone_in_air
- var_id: UM_m01s02i260_vn405
Co-ordinate Variables
Temporal Range
1849-12-01T00:00:00
2159-01-01T00:00:00
Geographic Extent
90.0000° |
||
-180.0000° |
180.0000° |
|
-90.0000° |