table_id: Table OImon modeling_realm: ocean frequency: mon cmor_version: 2.0 ! version of CMOR that can read this table cf_version: 1.4 ! version of CF that output conforms to project_id: CMIP5 ! project id table_date: 02 April 2010 ! date this table was constructed missing_value: 1.e20 ! value used to indicate a missing value ! in arrays output by netCDF as 32-bit IEEE ! floating-point numbers (float or real) baseURL: http://cmip-pcmdi.llnl.gov/CMIP5/dataLocation product: output required_global_attributes: creation_date tracking_id forcing model_id parent_experiment_id branch_time contact ! space separated required global attribute forcings: N/A Nat Ant GHG SD SI SA TO SO Oz LU Sl Vl SS Ds BC MD OC AA expt_id_ok: '10- or 30-year run initialized in year XXXX' 'decadalXXXX' expt_id_ok: 'volcano-free hindcasts XXXX' 'noVolcXXXX' expt_id_ok: 'prediction with 2010 volcano' 'volcIn2010' expt_id_ok: 'pre-industrial control' 'piControl' expt_id_ok: 'Historical' 'historical' expt_id_ok: 'mid-Holocene' 'midHolocene' expt_id_ok: 'last glacial maximum' 'lgm' expt_id_ok: 'last millennium' 'past1000' expt_id_ok: 'RCP4.5' 'rcp45' expt_id_ok: 'RCP8.5' 'rcp85' expt_id_ok: 'RCP2.6' 'rcp26' expt_id_ok: 'RCP6' 'rcp60' expt_id_ok: 'ESM pre-industrial control' 'esmControl' expt_id_ok: 'ESM historical' 'esmHistorical' expt_id_ok: 'ESM RCP8.5' 'esmrcp85' expt_id_ok: 'ESM fixed climate 1' 'esmFixClim1' expt_id_ok: 'ESM fixed climate 2' 'esmFixClim2' expt_id_ok: 'ESM feedback 1' 'esmFdbk1' expt_id_ok: 'ESM feedback 2' 'esmFdbk2' expt_id_ok: '1 percent per year CO2' '1pctCO2' expt_id_ok: 'abrupt 4XCO2' 'abrupt4xCO2' expt_id_ok: 'natural-only' 'historicalNat' expt_id_ok: 'GHG-only' 'historicalGHG' expt_id_ok: 'anthropogenic-only' 'historicalAnt' expt_id_ok: 'anthropogenic sulfate aerosol direct effect only' 'historicalSD' expt_id_ok: 'anthropogenic sulfate aerosol indirect effect only' 'historicalSI' expt_id_ok: 'anthropogenic sulfate aerosol only' 'historicalSA' expt_id_ok: 'tropospheric ozone only' 'historicalTO' expt_id_ok: 'stratospheric ozone' 'historicalSO' expt_id_ok: 'ozone only' 'historicalOz' expt_id_ok: 'land-use change only' 'historicalLU' expt_id_ok: 'solar irradiance only' 'historicalSl' expt_id_ok: 'volcanic aerosol only' 'historicalVl' expt_id_ok: 'sea salt only' 'historicalSS' expt_id_ok: 'dust' 'historicalDs' expt_id_ok: 'black carbon only' 'historicalBC' expt_id_ok: 'mineral dust only' 'historicalMD' expt_id_ok: 'organic carbon only' 'historicalOC' expt_id_ok: 'anthropogenic aerosols only' 'historicalAA' expt_id_ok: 'AMIP' 'amip' expt_id_ok: '2030 time-slice' 'sst2030' expt_id_ok: 'control SST climatology' 'sstClim' expt_id_ok: 'CO2 forcing' 'sstClim4xCO2' expt_id_ok: 'all aerosol forcing' 'sstClimAerosol' expt_id_ok: 'sulfate aerosol forcing' 'sstClimSulfate' expt_id_ok: '4xCO2 AMIP' 'amip4xCO2' expt_id_ok: 'AMIP plus patterned anomaly' 'amipFuture' expt_id_ok: 'aqua planet control' 'aquaControl' expt_id_ok: '4xCO2 aqua planet' 'aqua4xCO2' expt_id_ok: 'aqua planet plus 4K anomaly' 'aqua4K' expt_id_ok: 'AMIP plus 4K anomaly' 'amip4K' expt_id_ok: 'GEOS5 ' 'CMIP5' approx_interval: 30.000000 ! approximate spacing between successive time ! samples (in units of the output time ! coordinate. !============ axis_entry: longitude !============ !---------------------------------- ! Axis attributes: !---------------------------------- standard_name: longitude units: degrees_east axis: X ! X, Y, Z, T (default: undeclared) long_name: longitude !---------------------------------- ! Additional axis information: !---------------------------------- out_name: lon valid_min: 0 valid_max: 360 stored_direction: increasing type: double must_have_bounds: yes !---------------------------------- ! !============ axis_entry: latitude !============ !---------------------------------- ! Axis attributes: !---------------------------------- standard_name: latitude units: degrees_north axis: Y ! X, Y, Z, T (default: undeclared) long_name: latitude !---------------------------------- ! Additional axis information: !---------------------------------- out_name: lat valid_min: -90 valid_max: 90 stored_direction: increasing type: double must_have_bounds: yes !---------------------------------- ! !============ axis_entry: time !============ !---------------------------------- ! Axis attributes: !---------------------------------- standard_name: time units: days since ? axis: T ! X, Y, Z, T (default: undeclared) long_name: time !---------------------------------- ! Additional axis information: !---------------------------------- out_name: time stored_direction: increasing type: double must_have_bounds: yes !---------------------------------- ! !============ variable_entry: sic !============ modeling_realm: seaIce ocean !---------------------------------- ! Variable attributes: !---------------------------------- standard_name: sea_ice_area_fraction units: % cell_methods: time: mean cell_measures: area: areacello long_name: Sea Ice Area Fraction comment: fraction of grid cell covered by sea ice. !---------------------------------- ! Additional variable information: !---------------------------------- dimensions: longitude latitude time out_name: sic type: real !---------------------------------- ! !============ variable_entry: sit !============ modeling_realm: seaIce ocean !---------------------------------- ! Variable attributes: !---------------------------------- standard_name: sea_ice_thickness units: m cell_methods: time: mean area: mean where sea cell_measures: area: areacello long_name: Sea Ice Thickness comment: Compute the mean thickness of sea ice in the ocean portion of the grid cell (averaging over the entire ocean portion, including the ice-free fraction). Report as 0.0 in regions free of sea ice. !---------------------------------- ! Additional variable information: !---------------------------------- dimensions: longitude latitude time out_name: sit type: real !---------------------------------- ! !============ variable_entry: sim !============ modeling_realm: seaIce ocean !---------------------------------- ! Variable attributes: !---------------------------------- standard_name: Frozen_Water_Mass units: kg m-2 cell_methods: time: mean area: mean where sea cell_measures: area: areacello long_name: Frozen Water Mass comment: Compute the mass per unit area of sea ice plus snow in the ocean portion of the grid cell (averaging over the entire ocean portion_ including the ice-free fraction). Report as 0.0 in regions free of sea ice. !---------------------------------- ! Additional variable information: !---------------------------------- dimensions: longitude latitude time out_name: sim type: real !---------------------------------- ! !============ variable_entry: evap !============ modeling_realm: seaIce !---------------------------------- ! Variable attributes: !---------------------------------- standard_name: water_evaporation_flux units: kg m-2 s-1 cell_methods: time: mean area: mean where sea_ice over sea cell_measures: area: areacello long_name: Water Evaporation Flux from Sea Ice comment: Compute the average rate that water mass evaporates (or sublimates) from the sea ice surface (i.e., kg/s) divided by the area of the ocean (i.e., open ocean + sea ice) portion of the grid cell. This quantity multiplied both by the oean area of the grid cell and by the length of the month should yield the total mass of water evaporated (or sublimated) from the sea ice. Report as 0.0 in regions free of sea ice. [This was computed differently in CMIP3 !---------------------------------- ! Additional variable information: !---------------------------------- dimensions: longitude latitude time out_name: evap type: real positive: up !---------------------------------- ! !============ variable_entry: snd !============ modeling_realm: seaIce !---------------------------------- ! Variable attributes: !---------------------------------- standard_name: surface_snow_thickness units: m cell_methods: time: mean area: mean where sea cell_measures: area: areacello long_name: Snow Depth comment: Compute the mean thickness of snow in the ocean portion of the grid cell (averaging over the entire ocean portion, including the snow-free ocean fraction). Report as 0.0 in regions free of snow-covered sea ice. !---------------------------------- ! Additional variable information: !---------------------------------- dimensions: longitude latitude time out_name: snd type: real !---------------------------------- ! !============ variable_entry: snc !============ modeling_realm: seaIce !---------------------------------- ! Variable attributes: !---------------------------------- standard_name: surface_snow_area_fraction units: % cell_methods: time: mean cell_measures: area: areacello long_name: Surface Snow Area Fraction comment: Fraction of entire grid cell covered by snow that lies on sea ice; exclude snow that lies on land or land ice. !---------------------------------- ! Additional variable information: !---------------------------------- dimensions: longitude latitude time out_name: snc type: real !---------------------------------- ! !============ variable_entry: ialb !============ modeling_realm: seaIce !---------------------------------- ! Variable attributes: !---------------------------------- units: 1 cell_methods: time: mean area: mean where sea_ice cell_measures: area: areacello long_name: Bare Sea Ice Albedo comment: "Report as ""missing"" if there is no sunlight or if a region is free of sea ice. " !---------------------------------- ! Additional variable information: !---------------------------------- dimensions: longitude latitude time out_name: ialb type: real !---------------------------------- ! !============ variable_entry: ssi !============ modeling_realm: seaIce !---------------------------------- ! Variable attributes: !---------------------------------- units: psu cell_methods: time: mean (weighted by mass of sea ice) cell_measures: area: areacello long_name: Sea Ice Salinity comment: When computing the time-mean here, the time-samples, weighted by the mass of sea ice in the grid cell, are accumulated and then divided by the sum of the weights. Report as ""missing"" in regions free of sea ice. !---------------------------------- ! Additional variable information: !---------------------------------- dimensions: longitude latitude time out_name: ssi type: real !---------------------------------- ! !============ variable_entry: tsice !============ modeling_realm: seaIce !---------------------------------- ! Variable attributes: !---------------------------------- units: K cell_methods: time: mean (weighted by area of sea ice) cell_measures: area: areacello long_name: Surface Temperature of Sea Ice comment: When computing the time-mean here, the time-samples, weighted by the area of sea ice in the grid cell, are accumulated and then divided by the sum of the weights. Report as ""missing"" in regions free of sea ice. Note this will be the surface snow temperature in regions where snow covers the sea ice. !---------------------------------- ! Additional variable information: !---------------------------------- dimensions: longitude latitude time out_name: tsice type: real !---------------------------------- ! !============ variable_entry: tsnint !============ modeling_realm: seaIce !---------------------------------- ! Variable attributes: !---------------------------------- units: K cell_methods: time: mean (weighted by area of snow-covered sea ice) cell_measures: area: areacello long_name: Temperature at Interface Between Sea Ice and Snow comment: When computing the time-mean here, the time-samples, weighted by the area of snow-covered sea ice in the grid cell, are accumulated and then divided by the sum of the weights. Report as ""missing"" in regions free of snow-covered sea ice. !---------------------------------- ! Additional variable information: !---------------------------------- dimensions: longitude latitude time out_name: tsnint type: real !---------------------------------- ! !============ variable_entry: pr !============ modeling_realm: seaIce !---------------------------------- ! Variable attributes: !---------------------------------- units: kg m-2 s-1 cell_methods: time: mean area: mean where sea_ice over sea cell_measures: area: areacello long_name: Surface Rainfall Rate into the Sea Ice Portion of the Grid Cell comment: where sea ice over sea: compute the the water mass per unit time falling as rain onto the sea ice portion of a grid cell divided by the area of the ocean portion of the grid cell (including both ice-free and sea-ice covered fractions). Report as 0. in regions free of sea ice. !---------------------------------- ! Additional variable information: !---------------------------------- dimensions: longitude latitude time out_name: pr type: real !---------------------------------- ! !============ variable_entry: prsn !============ modeling_realm: seaIce !---------------------------------- ! Variable attributes: !---------------------------------- units: kg m-2 s-1 cell_methods: time: mean area: mean where sea_ice over sea cell_measures: area: areacello long_name: Surface Snowfall Rate into the Sea Ice Portion of the Grid Cell comment: where sea ice over sea: compute the the water mass per unit time falling as snow onto the sea ice portion of a grid cell divided by the area of the ocean portion of the grid cell (including both ice-free and sea-ice covered fractions). Report as 0. in regions free of sea ice. !---------------------------------- ! Additional variable information: !---------------------------------- dimensions: longitude latitude time out_name: prsn type: real !---------------------------------- ! !============ variable_entry: ageice !============ modeling_realm: seaIce !---------------------------------- ! Variable attributes: !---------------------------------- units: years cell_methods: time: mean (weighted b mass of sea ice) cell_measures: area: areacello long_name: Age of Sea Ice comment: When computing the time-mean here, the time samples, weighted by the mass of sea ice in the grid cell, are accumulated and then divided by the sum of the weights. Report as ""missing"" in regions free of sea ice. !---------------------------------- ! Additional variable information: !---------------------------------- dimensions: longitude latitude time out_name: ageice type: real !---------------------------------- ! !============ variable_entry: grFrazil !============ modeling_realm: seaIce !---------------------------------- ! Variable attributes: !---------------------------------- units: kg m-2 s-1 cell_methods: time: mean area: mean where sea cell_measures: area: areacello long_name: Frazil Sea Ice Growth (Leads) Rate comment: Compute the rate of change of sea ice mass due to frazil sea ice formation divided by the area of the ocean portion of the grid cell. Report as 0.0 in regions free of sea ice. !---------------------------------- ! Additional variable information: !---------------------------------- dimensions: longitude latitude time out_name: grFrazil type: real !---------------------------------- ! !============ variable_entry: grCongel !============ modeling_realm: seaIce !---------------------------------- ! Variable attributes: !---------------------------------- units: kg m-2 s-1 cell_methods: time: mean area: mean where sea cell_measures: area: areacello long_name: Congelation Sea Ice Growth Rate comment: Compute the rate of change of sea ice mass due to congelation sea ice divided by the area of the ocean portion of the grid cell. Report as 0.0 in regions free of sea ice. !---------------------------------- ! Additional variable information: !---------------------------------- dimensions: longitude latitude time out_name: grCongel type: real !---------------------------------- ! !============ variable_entry: grLateral !============ modeling_realm: seaIce !---------------------------------- ! Variable attributes: !---------------------------------- units: kg m-2 s-1 cell_methods: time: mean area: mean where sea cell_measures: area: areacello long_name: Lateral Sea Ice Growth Rate comment: Compute the rate of change of sea ice mass due to lateral growth alone of the sea ice divided by the area of the ocean portion of the grid cell. Report as 0.0 in regions free of sea ice. !---------------------------------- ! Additional variable information: !---------------------------------- dimensions: longitude latitude time out_name: grLateral type: real !---------------------------------- ! !============ variable_entry: snoToIce !============ modeling_realm: seaIce !---------------------------------- ! Variable attributes: !---------------------------------- units: kg m-2 s-1 cell_methods: time: mean area: mean where sea cell_measures: area: areacello long_name: Snow-Ice Formation Rate comment: Compute the rate of change of sea ice mass due to transformation of snow to sea ice, divided by the area of the ocean portion of the grid cell. Report as 0.0 in regions free of snow-covered sea ice. !---------------------------------- ! Additional variable information: !---------------------------------- dimensions: longitude latitude time out_name: snoToIce type: real !---------------------------------- ! !============ variable_entry: snomelt !============ modeling_realm: seaIce !---------------------------------- ! Variable attributes: !---------------------------------- units: kg m-2 s-1 cell_methods: time: mean area: mean where sea cell_measures: area: areacello long_name: Snow Melt Rate comment: Compute the rate of change of snow mass due to melting, divided by the area of the ocean portion of the grid cell. Report as 0.0 in regions free of sea ice. Include falling snow that melts on impact with the surface. !---------------------------------- ! Additional variable information: !---------------------------------- dimensions: longitude latitude time out_name: snomelt type: real !---------------------------------- ! !============ variable_entry: tmelt !============ modeling_realm: seaIce !---------------------------------- ! Variable attributes: !---------------------------------- units: kg m-2 s-1 cell_methods: time: mean area: mean where sea cell_measures: area: areacello long_name: Rate of Melt at Upper Surface of Sea Ice comment: Compute the rate of change of sea ice mass due to melting at its upper surface, divided by the area of the ocean portion of the grid cell. Report as 0.0 in regions free of sea ice. !---------------------------------- ! Additional variable information: !---------------------------------- dimensions: longitude latitude time out_name: tmelt type: real !---------------------------------- ! !============ variable_entry: bmelt !============ modeling_realm: seaIce !---------------------------------- ! Variable attributes: !---------------------------------- units: kg m-2 s-1 cell_methods: time: mean area: mean where sea cell_measures: area: areacello long_name: Rate of Melt at Sea Ice Base comment: Compute the rate of change of sea ice mass due to melting at its lower surface, divided by the area of the ocean portion of the grid cell. Report as 0.0 in regions free of sea ice. !---------------------------------- ! Additional variable information: !---------------------------------- dimensions: longitude latitude time out_name: bmelt type: real !---------------------------------- ! !============ variable_entry: hcice !============ modeling_realm: seaIce !---------------------------------- ! Variable attributes: !---------------------------------- units: J cell_methods: time: mean (weighted by mass of sea ice) cell_measures: area: areacello long_name: Sea Ice Total Heat Content comment: Ice at 0 Celsius is assumed taken to have a heat content of 0 J. When averaging over time, this quantity is weighted by the mass of sea ice. Report as ""missing in regions free of snow on land. !---------------------------------- ! Additional variable information: !---------------------------------- dimensions: longitude latitude time out_name: hcice type: real !---------------------------------- ! !============ variable_entry: rsdssi !============ modeling_realm: seaIce !---------------------------------- ! Variable attributes: !---------------------------------- standard_name: surface_downwelling_shortwave_flux_in_air units: W m-2 cell_methods: time: mean area: mean where sea_ice over sea cell_measures: area: areacello long_name: Downward Shortwave over Sea Ice comment: Compute the downward shortwave flux in regions of sea ice divided by the area of the ocean portion of the grid cell. !---------------------------------- ! Additional variable information: !---------------------------------- dimensions: longitude latitude time out_name: rsdssi type: real positive: down !---------------------------------- ! !============ variable_entry: rsussi !============ modeling_realm: seaIce !---------------------------------- ! Variable attributes: !---------------------------------- standard_name: surface_upwelling_shortwave_flux_in_air units: W m-2 cell_methods: time: mean area: mean where sea_ice over sea cell_measures: area: areacello long_name: Upward Shortwave over Sea Ice comment: Compute the upward shortwave flux in regions of sea ice divided by the area of the ocean portion of the grid cell. !---------------------------------- ! Additional variable information: !---------------------------------- dimensions: longitude latitude time out_name: rsussi type: real positive: up !---------------------------------- ! !============ variable_entry: rldssi !============ modeling_realm: seaIce !---------------------------------- ! Variable attributes: !---------------------------------- standard_name: surface_downwelling_longwave_flux_in_air units: W m-2 cell_methods: time: mean area: mean where sea_ice over sea cell_measures: area: areacello long_name: Downward Long Wave over Sea Ice comment: Compute the downward longwave flux in regions of sea ice divided by the area of the ocean portion of the grid cell. !---------------------------------- ! Additional variable information: !---------------------------------- dimensions: longitude latitude time out_name: rldssi type: real positive: down !---------------------------------- ! !============ variable_entry: rlussi !============ modeling_realm: seaIce !---------------------------------- ! Variable attributes: !---------------------------------- standard_name: surface_upwelling_longwave_flux_in_air units: W m-2 cell_methods: time: mean area: mean where sea_ice over sea cell_measures: area: areacello long_name: Upward Long Wave over Sea Ice comment: Compute the upward longwave flux in regions of sea ice divided by the area of the ocean portion of the grid cell. !---------------------------------- ! Additional variable information: !---------------------------------- dimensions: longitude latitude time out_name: rlussi type: real positive: up !---------------------------------- ! !============ variable_entry: hfssi !============ modeling_realm: seaIce !---------------------------------- ! Variable attributes: !---------------------------------- standard_name: surface_upward_sensible_heat_flux units: W m-2 cell_methods: time: mean area: mean where sea_ice over sea cell_measures: area: areacello long_name: Surface Upward Sensible Heat Flux over Sea Ice comment: Compute the upward sensible heat flux in regions of sea ice divided by the area of the ocean portion of the grid cell. !---------------------------------- ! Additional variable information: !---------------------------------- dimensions: longitude latitude time out_name: hfssi type: real positive: up !---------------------------------- ! !============ variable_entry: hflssi !============ modeling_realm: seaIce !---------------------------------- ! Variable attributes: !---------------------------------- standard_name: surface_upward_latent_heat_flux units: W m-2 cell_methods: time: mean area: mean where sea_ice over sea cell_measures: area: areacello long_name: Surface Upward Latent Heat Flux over Sea Ice comment: Compute the upward latent heat flux in regions of sea ice divided by the area of the ocean portion of the grid cell. !---------------------------------- ! Additional variable information: !---------------------------------- dimensions: longitude latitude time out_name: hflssi type: real positive: up !---------------------------------- ! !============ variable_entry: sblsi !============ modeling_realm: seaIce !---------------------------------- ! Variable attributes: !---------------------------------- standard_name: surface_snow_and_ice_sublimation_flux units: kg m-2 cell_methods: time: mean area: mean where sea_ice over sea cell_measures: area: areacello long_name: Sublimation over Sea Ice comment: Compute the upward flux of water vapor to the atmosphere due to sublimation of snow and sea ice in regions of sea ice divided by the area of the ocean portion of the grid cell. !---------------------------------- ! Additional variable information: !---------------------------------- dimensions: longitude latitude time out_name: sblsi type: real positive: up !---------------------------------- ! !============ variable_entry: transix !============ modeling_realm: seaIce !---------------------------------- ! Variable attributes: !---------------------------------- units: kg s-1 cell_methods: time: mean cell_measures: area: areacello long_name: Eastward Sea Ice Transport comment: The sea ice transport is 0.0 in ice-free regions of the ocean. !---------------------------------- ! Additional variable information: !---------------------------------- dimensions: longitude latitude time out_name: transix type: real !---------------------------------- ! !============ variable_entry: transiy !============ modeling_realm: seaIce !---------------------------------- ! Variable attributes: !---------------------------------- units: kg s-1 cell_methods: time: mean cell_measures: area: areacello long_name: Northward Sea Ice Transport comment: The sea ice transport is 0.0 in ice-free regions of the ocean. !---------------------------------- ! Additional variable information: !---------------------------------- dimensions: longitude latitude time out_name: transiy type: real !---------------------------------- ! !============ variable_entry: transifs !============ modeling_realm: seaIce !---------------------------------- ! Variable attributes: !---------------------------------- units: kg s-1 cell_methods: time: mean cell_measures: area: areacello long_name: Sea Ice Mass Transport Through Fram Strait !---------------------------------- ! Additional variable information: !---------------------------------- dimensions: time out_name: transifs type: real !---------------------------------- ! !============ variable_entry: strairx !============ modeling_realm: seaIce !---------------------------------- ! Variable attributes: !---------------------------------- units: N m-2 cell_methods: time: mean (weighted by area of sea ice) cell_measures: area: areacello long_name: Eastward Atmospheric Stress On Sea Ice comment: When computing the time-mean here, the time samples, weighted by the area of sea ice, are accumulated and then divided by the sum of the weights. Report as ""missing"" in regions free of sea ice. !---------------------------------- ! Additional variable information: !---------------------------------- dimensions: longitude latitude time out_name: strairx type: real positive: down !---------------------------------- ! !============ variable_entry: strairy !============ modeling_realm: seaIce !---------------------------------- ! Variable attributes: !---------------------------------- units: N m-2 cell_methods: time: mean (weighted by area of sea ice) cell_measures: area: areacello long_name: Northward Atmospheric Stress On Sea Ice comment: When computing the time-mean here, the time samples, weighted by the area of sea ice, are accumulated and then divided by the sum of the weights. Report as ""missing"" in regions free of sea ice. !---------------------------------- ! Additional variable information: !---------------------------------- dimensions: longitude latitude time out_name: strairy type: real positive: down !---------------------------------- ! !============ variable_entry: strocnx !============ modeling_realm: seaIce ocean !---------------------------------- ! Variable attributes: !---------------------------------- units: N m-2 cell_methods: time: mean (weighted by area of sea ice) cell_measures: area: areacello long_name: Eastward Ocean Stress On Sea Ice comment: When computing the time-mean here, the time samples, weighted by the area of sea ice, are accumulated and then divided by the sum of the weights. Report as ""missing"" in regions free of sea ice. !---------------------------------- ! Additional variable information: !---------------------------------- dimensions: longitude latitude time out_name: strocnx type: real !---------------------------------- ! !============ variable_entry: strocny !============ modeling_realm: seaIce ocean !---------------------------------- ! Variable attributes: !---------------------------------- units: N m-2 cell_methods: time: mean (weighted by area of sea ice) cell_measures: area: areacello long_name: Northward Ocean Stress On Sea Ice comment: When computing the time-mean here, the time samples, weighted by the area of sea ice, are accumulated and then divided by the sum of the weights. Report as ""missing"" in regions free of sea ice. !---------------------------------- ! Additional variable information: !---------------------------------- dimensions: longitude latitude time out_name: strocny type: real !---------------------------------- ! !============ variable_entry: streng !============ modeling_realm: seaIce !---------------------------------- ! Variable attributes: !---------------------------------- units: N m-2 cell_methods: time: mean (weighted by area of sea ice) cell_measures: area: areacello long_name: Compressive Sea Ice Strength comment: When computing the time-mean here, the time samples, weighted by the area of sea ice, are accumulated and then divided by the sum of the weights. Report as ""missing"" in regions free of sea ice. !---------------------------------- ! Additional variable information: !---------------------------------- dimensions: longitude latitude time out_name: streng type: real !---------------------------------- ! !============ variable_entry: divice !============ modeling_realm: seaIce !---------------------------------- ! Variable attributes: !---------------------------------- units: s-1 cell_methods: time: mean (weighted by area of sea ice) cell_measures: area: areacello long_name: Strain Rate Divergence of Sea Ice comment: When computing the time-mean here, the time samples, weighted by the area of sea ice, are accumulated and then divided by the sum of the weights. Report as ""missing"" in regions free of sea ice. !---------------------------------- ! Additional variable information: !---------------------------------- dimensions: longitude latitude time out_name: divice type: real !---------------------------------- ! !============ variable_entry: shrice !============ modeling_realm: seaIce !---------------------------------- ! Variable attributes: !---------------------------------- units: s-1 cell_methods: time: mean (weighted by area of sea ice) cell_measures: area: areacello long_name: Strain Rate Shear of Sea Ice comment: When computing the time-mean here, the time samples, weighted by the area of sea ice, are accumulated and then divided by the sum of the weights. Report as ""missing"" in regions free of sea ice. !---------------------------------- ! Additional variable information: !---------------------------------- dimensions: longitude latitude time out_name: shrice type: real !---------------------------------- ! !============ variable_entry: ridgice !============ modeling_realm: seaIce !---------------------------------- ! Variable attributes: !---------------------------------- units: s-1 cell_methods: time: mean cell_measures: area: areacello long_name: Sea Ice Ridging Rate !---------------------------------- ! Additional variable information: !---------------------------------- dimensions: longitude latitude time out_name: ridgice type: real !---------------------------------- !