Changeset 314 for clipcs


Ignore:
Timestamp:
10/04/15 11:51:12 (5 years ago)
Author:
mjuckes
Message:

fixed data file

Location:
clipcs/trunk/html/trial
Files:
2 edited

Legend:

Unmodified
Added
Removed
  • clipcs/trunk/html/trial/header-row2.html

    r310 r314  
    2323    } 
    2424  </style> 
    25 <script src="slickData.js" type="text/javascript"></script> 
     25 
    2626</head> 
    2727<body> 
     
    5353<script src="/js/SlickGrid/slick.grid.js"></script> 
    5454 
     55<script src="slickData.js"></script> 
    5556 
    5657<script> 
     
    7273 
    7374 
     75  var data = getData(); 
    7476  function colFilter( t, s ) { 
    7577          var res = t.split(" "); 
     
    9496      if (columnId !== undefined && columnFilters[columnId] !== "") { 
    9597        var c = grid.getColumns()[grid.getColumnIndex(columnId)]; 
    96         var t = columnFilters[columnId] 
    97         var s = item[c.field] 
     98        var t = columnFilters[columnId].toLowerCase() 
     99        var s = item[c.field].toLowerCase() 
    98100        if (t.substr(0,1) == '$') { 
    99101          if ( s.substr(0,t.length-1) != t.substr(1,t.length) ) { 
  • clipcs/trunk/html/trial/slickData.js

    r310 r314  
    1  
     1function getData() { 
    22var data = []; 
    3 data = [ 
    4 { "id":0, 0:"ch4tbrdn",  1:"Tendency of Atmospheric Burden of CH4", 2:"tendency_of_atmosphere_moles_of_methane", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }, 
    5 { "id":1, 0:"wetdms",  1:"Wet Deposition Rate of DMS", 2:"tendency_of_atmosphere_mass_content_of_dimethyl_sulfide_due_to_wet_deposition", 3:"'unset'", 4:"CMIP5_aero" }, 
    6 { "id":2, 0:"tnsclw",  1:"Tendency of Mass Fraction of Stratiform Cloud Liquid Water In Air", 2:"tendency_of_mass_fraction_of_stratiform_cloud_liquid_water_in_air", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    7 { "id":3, 0:"sfcWindmax",  1:"Daily Maximum Near-Surface Wind Speed", 2:"wind_speed", 3:"'near-surface (usually, 10 meters) wind speed.'", 4:"CORDEX_day,CORDEX_mon,CORDEX_sem" }, 
    8 { "id":4, 0:"clmcalipso",  1:"CALIPSO Mid Level Cloud Fraction", 2:"cloud_area_fraction_in_atmosphere_layer", 3:"'unset'", 4:"CMIP5_cf3hr,CMIP5_cfDay,CMIP5_cfMon,CMIP5_cfOff" }, 
    9 { "id":5, 0:"tnsclwa",  1:"Tendency of Mass Fraction of Stratiform Cloud Liquid Water due to Advection", 2:"tendency_of_mass_fraction_of_stratiform_cloud_liquid_water_in_air_due_to_advection", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    10 { "id":6, 0:"ch4globalClim",  1:"Global Mean Mole Fraction of CH4", 2:"mole_fraction_of_methane_in_air", 3:"'unset'", 4:"CMIP5_Amon" }, 
    11 { "id":7, 0:"pbsi",  1:"Biogenic Silica Production", 2:"tendency_of_mole_concentration_of_silicon_in_sea_water_due_to_biological_production", 3:"'unset'", 4:"CMIP5_Oyr" }, 
    12 { "id":8, 0:"cltc",  1:"Convective Cloud Fraction", 2:"convective_cloud_area_fraction", 3:"'for the whole atmospheric column, as seen from the surface or the top of the atmosphere. Includes only convective cloud.'", 4:"CMIP5_cf3hr" }, 
    13 { "id":9, 0:"rsut",  1:"TOA Outgoing Shortwave Radiation", 2:"toa_outgoing_shortwave_flux", 3:"'at the top of the atmosphere'", 4:"CCMI1_monthly,CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites,SPECS_Amon" }, 
    14 { "id":10, 0:"dfe",  1:"Dissolved Iron Concentration at Surface", 2:"mole_concentration_of_dissolved_iron_in_sea_water", 3:"'dissolved iron in sea water is meant to include both Fe2+ and Fe3+ ions (but not, e.g., particulate detrital iron)'", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    15 { "id":11, 0:"vmrco50sa700",  1:"co_50_sa Volume Mixing Ratio at 700 hPa", 2:"unset", 3:"'daily mean, emitted as anthropogenic CO over South Asia (5N-35N; 50E-95E) (emission file available from HTAP), uniform fixed 50-day exponential decay.'", 4:"CCMI1_daily" }, 
    16 { "id":12, 0:"ccl4brdn",  1:"Atmospheric Burden of CCl4", 2:"atmosphere_moles_of_carbon_tetrachloride", 3:"'total yearly average burden'", 4:"CCMI1_annual" }, 
    17 { "id":13, 0:"wetbc",  1:"Wet Deposition Rate of Black Carbon Aerosol Mass", 2:"tendency_of_atmosphere_mass_content_of_black_carbon_dry_aerosol_due_to_wet_deposition", 3:"''", 4:"CCMI1_monthly" }, 
    18 { "id":14, 0:"vmrcl2o2",  1:"ClOOCl Volume Mixing Ratio", 2:"mole_fraction_of_dichlorine_peroxide_in_air", 3:"''", 4:"CCMI1_daily" }, 
    19 { "id":15, 0:"vmrch4",  1:"CH4 Volume Mixing Ratio", 2:"mole_fraction_of_methane_in_air", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }, 
    20 { "id":16, 0:"mmrpm10",  1:"PM10 Mass Mixing Ratio at 50 Percent RH", 2:"mass_fraction_of_pm10_ambient_aerosol_in_air", 3:"'Must include scalar dimension relh50p specifying relative_humidity of 50%'", 4:"CCMI1_monthly" }, 
    21 { "id":17, 0:"orog",  1:"Surface Altitude", 2:"surface_altitude", 3:"'height above the geoid; as defined here, ''the geoid'' is a surface of constant geopotential that, if the ocean were at rest, would coincide with mean sea level. Under this definition, the geoid changes as the mean volume of the ocean changes (e.g., due to glacial melt, or global warming of the ocean).  Reported here is the height above the present-day geoid (0.0 over ocean).'", 4:"CMIP5_fx,SPECS_fx" }, 
    22 { "id":18, 0:"ua1000",  1:"Eastward Wind at 1000 hPa", 2:"eastward_wind", 3:"'Zonal wind on the 1000 hPa surface'", 4:"CCMI1_daily" }, 
    23 { "id":19, 0:"sconcno3",  1:"Surface Concentration of NO3", 2:"mass_concentration_of_nitrate_dry_aerosol_in_air", 3:"'Mass concentration in model lowest layer'", 4:"CMIP5_aero" }, 
    24 { "id":20, 0:"hfnorthba",  1:"Northward Ocean Heat Transport Due to Bolus Advection", 2:"northward_ocean_heat_transport_due_to_bolus_advection", 3:"'unset'", 4:"SPECS_Omon" }, 
    25 { "id":21, 0:"vmrbr",  1:"Atomic Br Volume Mixing Ratio", 2:"mole_fraction_of_atomic_bromine_in_air", 3:"''", 4:"CCMI1_daily" }, 
    26 { "id":22, 0:"snm",  1:"Surface Snow Melt", 2:"surface_snow_melt_flux", 3:"'Compute as the total surface melt water on the land portion of the grid cell divided by the land area in the grid cell; report as 0.0 for snow-free land regions; report as 0.0 where the land fraction is 0.'", 4:"CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem" }, 
    27 { "id":23, 0:"msftmyzba",  1:"Ocean Meridional Overturning Mass Streamfunction due to Bolus Advection", 2:"ocean_meridional_overturning_mass_streamfunction_due_to_bolus_advection", 3:"'unset'", 4:"CMIP5_Omon" }, 
    28 { "id":24, 0:"mrro",  1:"Total Runoff", 2:"runoff_flux", 3:"'the total runoff (including ''drainage'' through the base of the soil model) leaving the land portion of the grid cell divided by the land area in the grid cell, averaged over the 3-hour interval.'", 4:"CMIP5_3hr" }, 
    29 { "id":25, 0:"drybc",  1:"Dry Deposition Rate of Black Carbon Aerosol Mass", 2:"tendency_of_atmosphere_mass_content_of_black_carbon_dry_aerosol_due_to_dry_deposition", 3:"'unset'", 4:"CMIP5_aero" }, 
    30 { "id":26, 0:"cLitterBelow",  1:"Carbon Mass in Below-Ground Litter", 2:"subsurface_litter_carbon_content", 3:"'unset'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    31 { "id":27, 0:"sos",  1:"Sea Water Salinity", 2:"sea_water_salinity", 3:"'unset'", 4:"SPECS_Omon" }, 
    32 { "id":28, 0:"snc",  1:"Surface Snow Area Fraction", 2:"surface_snow_area_fraction", 3:"'Fraction of entire grid cell covered by snow that lies on sea ice; exclude snow that lies on land or land ice.'", 4:"CMIP5_OImon" }, 
    33 { "id":29, 0:"vmrst8025",  1:"st80_25 Volume Mixing Ratio", 2:"unset", 3:"'Fixed mixing ratio above 80hPa (200ppbv), uniform fixed 25-day exponential decay in the troposphere only.'", 4:"CCMI1_monthly" }, 
    34 { "id":30, 0:"ch2fcf3brdn",  1:"Atmospheric Burden of CH2FCF3", 2:"unset", 3:"'total yearly average burden'", 4:"CCMI1_annual" }, 
    35 { "id":31, 0:"emiavoc",  1:"Total Emission Rate of Anthropogenic NMVOC", 2:"unset", 3:"'Includes agricultural waste burning but no other biomass burning.  Integrate 3D emission field vertically to 2d field.  _If_ fixed molecular weight of NMVOC is not available in model, please provide in units of kilomole m-2 s-1 (i.e. kg m-2 s-1 as if model NMVOC had molecular weight of 1) and add a comment to your file.'", 4:"CCMI1_monthly" }, 
    36 { "id":32, 0:"uas",  1:"Eastward Near-Surface Wind", 2:"eastward_wind", 3:"'near-surface (usually, 10 meters) eastward component of wind.'", 4:"CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem" }, 
    37 { "id":33, 0:"tauucorr",  1:"Surface Downward X Stress Correction", 2:"surface_downward_x_stress_correction", 3:"'This is the stress on the liquid ocean from overlying atmosphere, sea ice, ice shelf, etc.'", 4:"CMIP5_Omon" }, 
    38 { "id":34, 0:"hfrainds",  1:"Temperature Flux due to Rainfall Expressed as Heat Flux into Sea Water", 2:"temperature_flux_due_to_rainfall_expressed_as_heat_flux_into_sea_water", 3:"'This is defined as ''where ice_free_sea over sea''; i.e., the total flux (considered here) entering the ice-free portion of the grid cell divided by the area of the ocean portion of the grid cell.'", 4:"CMIP5_Omon" }, 
    39 { "id":35, 0:"clhcalipso",  1:"CALIPSO High Level Cloud Fraction", 2:"cloud_area_fraction_in_atmosphere_layer", 3:"'unset'", 4:"CMIP5_cf3hr,CMIP5_cfDay,CMIP5_cfMon,CMIP5_cfOff" }, 
    40 { "id":36, 0:"vmrbro",  1:"BrO Volume Mixing Ratio", 2:"mole_fraction_of_bromine_monoxide_in_air", 3:"''", 4:"CCMI1_daily" }, 
    41 { "id":37, 0:"stoo3",  1:"Dry Deposition Rate of O3 in Stomata", 2:"tendency_of_atmosphere_mass_content_of_ozone_due_to_dry_deposition_into_stomata", 3:"'Only for year 2006'", 4:"CCMI1_hourly" }, 
    42 { "id":38, 0:"tnsccwacr",  1:"Tendency of Mass Fraction of Stratiform Cloud Condensed Water due to Autoconversion to Rain", 2:"tendency_of_mass_fraction_of_stratiform_cloud_condensed_water_in_air_due_to_autoconversion_to_rain", 3:"'condensed water includes both liquid and ice.'", 4:"CMIP5_cfMon" }, 
    43 { "id":39, 0:"tossq",  1:"Square of Sea Surface Temperature", 2:"square_of_sea_surface_temperature", 3:"'square of temperature of liquid ocean, averaged over the day.'", 4:"CMIP5_day" }, 
    44 { "id":40, 0:"prcprof",  1:"Convective Rainfall Flux", 2:"convective_rainfall_flux", 3:"'unset'", 4:"CMIP5_cf3hr" }, 
    45 { "id":41, 0:"swtoacsaer",  1:"Clear-Sky SW-RF Aerosols at TOA", 2:"unset", 3:"'proposed name: toa_instantaneous_shortwave_forcing_due_to_ambient_aerosol_assuming_clear_sky'", 4:"CCMI1_monthly" }, 
    46 { "id":42, 0:"cfc113global",  1:"Global Mean Mole Fraction of CFC113", 2:"mole_fraction_of_cfc113_in_air", 3:"'unset'", 4:"CMIP5_Amon" }, 
    47 { "id":43, 0:"pbo",  1:"Sea Water Pressure at Sea floor", 2:"sea_water_pressure_at_sea_floor", 3:"'unset'", 4:"CMIP5_Omon" }, 
    48 { "id":44, 0:"dispkevfo",  1:"Ocean Kinetic Energy Dissipation Per Unit Area due to Vertical Friction", 2:"ocean_kinetic_energy_dissipation_per_unit_area_due_to_vertical_friction", 3:"'unset'", 4:"CMIP5_Oclim" }, 
    49 { "id":45, 0:"chepsoa",  1:"Production Rate of Dry Aerosol Secondary Organic Matter", 2:"tendency_of_atmosphere_mass_content_of_secondary_particulate_organic_matter_dry_aerosol_due_to_net_chemical_production", 3:"'tendency of atmosphere mass content of secondary organic matter_dry aerosol due to net production:  If model lumps SOA emissions with POA, then the sum of POA and SOA emissions is reported as POA emissions.  ''mass'' refers to the mass of primary organic matter, not mass of organic carbon alone.'", 4:"CMIP5_aero" }, 
    50 { "id":46, 0:"expcfe",  1:"Sinking Particulate Iron Flux", 2:"sinking_mole_flux_of_particulate_iron_in_sea_water", 3:"'unset'", 4:"CMIP5_Oyr" }, 
    51 { "id":47, 0:"sos",  1:"Sea Surface Salinity", 2:"sea_surface_salinity", 3:"'unset'", 4:"CMIP5_Omon" }, 
    52 { "id":48, 0:"soga",  1:"Global Mean Sea Water Salinity", 2:"sea_water_salinity", 3:"'unset'", 4:"CMIP5_Omon" }, 
    53 { "id":49, 0:"concdust",  1:"Concentration of Dust", 2:"mass_concentration_of_dust_dry_aerosol_in_air", 3:"'unset'", 4:"CMIP5_aero" }, 
    54 { "id":50, 0:"fbddtdin",  1:"Rate of Change of Dissolved Inorganic Nitrogen due to Biological Activity", 2:"tendency_of_ocean_mole_content_of_dissolved_inorganic_nitrogen_due_to_biological_processes", 3:"'vertical integral of net biological terms in time rate of change of nitrogen nutrients (e.g. NO3+NH4)'", 4:"CMIP5_Omon" }, 
    55 { "id":51, 0:"cclf2cclf2tbrdn",  1:"Tendency of Atmospheric Burden of CFC-114", 2:"tendency_of_atmosphere_moles_of_cfc114", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }, 
    56 { "id":52, 0:"o3steflx",  1:"STE Ozone Flux", 2:"unset", 3:"'estimated strat-trop flux of ozone, i.e., the reset tendency of o3ste to o3 in the lowermost layers. See tracer o3ste on the monthly-mean 3d sheet for details.'", 4:"CCMI1_monthly" }, 
    57 { "id":53, 0:"zmchbr3",  1:"Zonal mean CHBr3 Volume Mixing Ratio", 2:"unset", 3:"''", 4:"CCMI1_monthly" }, 
    58 { "id":54, 0:"darag",  1:"Aragonite Dissolution", 2:"tendency_of_mole_concentration_of_aragonite_expressed_as_carbon_in_sea_water_due_to_dissolution", 3:"'unset'", 4:"CMIP5_Oyr" }, 
    59 { "id":55, 0:"masscello",  1:"Sea Water Mass Per Unit Area", 2:"sea_water_mass_per_unit_area", 3:"'unset'", 4:"CMIP5_Omon" }, 
    60 { "id":56, 0:"loadsoa",  1:"Load of Dry Aerosol Secondary Organic Matter", 2:"atmosphere_mass_content_of_secondary_particulate_organic_matter_dry_aerosol", 3:"'unset'", 4:"CMIP5_aero" }, 
    61 { "id":57, 0:"vmrh2o",  1:"Water Vapour Volume Mixing Ratio", 2:"mole_fraction_of_water_vapor_in_air", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }, 
    62 { "id":58, 0:"dpo2",  1:"Delta PO2", 2:"surface_molecular_oxygen_partial_pressure_difference_between_sea_water_and_air", 3:"'unset'", 4:"CMIP5_Omon" }, 
    63 { "id":59, 0:"vmroclo",  1:"OClO Volume Mixing Ratio", 2:"mole_fraction_of_chlorine_dioxide_in_air", 3:"''", 4:"CCMI1_daily" }, 
    64 { "id":60, 0:"chepsoa",  1:"Production Rate of Dry Aerosol Secondary Organic Matter", 2:"tendency_of_atmosphere_mass_content_of_secondary_particulate_organic_matter_dry_aerosol_due_to_net_chemical_production", 3:"'Tendency of atmosphere mass content of secondary organic matter_dry aerosol due to net production:  If model lumps SOA emissions with POA, then the sum of POA and SOA emissions is reported as POA emissions. 'mass' refers to the mass of primary organic matter, not mass of organic carbon alone. Instead of emi_soa in original ACCMIP Excel spreadsheet. That variable had notes: This can be a pseudo-emission flux as used in AEROCOM (Dentener et al, ACP, 2006) or the net.'", 4:"CCMI1_monthly" }, 
    65 { "id":61, 0:"expp",  1:"Sinking Particulate Organic Phosphorus Flux", 2:"sinking_mole_flux_of_particulate_organic_phosphorus_in_sea_water", 3:"'unset'", 4:"CMIP5_Oyr" }, 
    66 { "id":62, 0:"ang5087aer",  1:"Angstrom Exponent 500/870nm", 2:"angstrom_exponent_of_ambient_aerosol_in_air", 3:"'general standard name is angstrom_exponent_of_ambient_aerosol_in_air'", 4:"CCMI1_monthly" }, 
    67 { "id":63, 0:"diftrxybo2d",  1:"Ocean Tracer XY Biharmonic Diffusivity", 2:"ocean_tracer_xy_biharmonic_diffusivity", 3:"'unset'", 4:"CMIP5_Oclim" }, 
    68 { "id":64, 0:"dpocdtcalc",  1:"Tendency of Mole Concentration of Organic Carbon in Sea Water due to Net Primary Production by Calcareous Phytoplankton", 2:"tendency_of_mole_concentration_of_particulate_organic_matter_expressed_as_carbon_in_sea_water_due_to_net_primary_production_by_calcareous_phytoplankton", 3:"'Primary (organic carbon) production by the calcite-producing phytoplankton component alone'", 4:"CMIP5_Oyr" }, 
    69 { "id":65, 0:"hfy",  1:"Ocean Heat Y Transport", 2:"ocean_heat_y_transport", 3:"'unset'", 4:"CMIP5_Omon" }, 
    70 { "id":66, 0:"ohloss",  1:"Total Loss of OH", 2:"unset", 3:"'rate of OH loss from all reactions'", 4:"CCMI1_monthly" }, 
    71 { "id":67, 0:"pr",  1:"Rainfall Flux where Ice Free Ocean over Sea", 2:"rainfall_flux", 3:"'computed as the total mass of liquid water falling as liquid rain  into the ice-free portion of the ocean divided by the area of the ocean portion of the grid cell.'", 4:"CMIP5_Omon" }, 
    72 { "id":68, 0:"rsutcs",  1:"TOA Outgoing Clear-Sky Shortwave Radiation", 2:"toa_outgoing_shortwave_flux_assuming_clear_sky", 3:"''", 4:"CCMI1_monthly" }, 
    73 { "id":69, 0:"ogwflux",  1:"Zonal Component of Upward Momentum Flux by Oro-GWs", 2:"upward_eastward_momentum_flux_in_air_due_to_orographic_gravity_waves", 3:"'Zonal (positive eastward) orographic gravity wave stress (momentum flux), including any flux out of the top of the model (e.g., add additional level to the output file for model top. Set flux at this level to zero if nothing escapes to outer space in your model), derived either from daily means or 6hr fields (use instantaneous daily fields or 12 hr fields if the 6 hr data are not available).'", 4:"CCMI1_monthly" }, 
    74 { "id":70, 0:"tnsclwbfpcli",  1:"Tendency of Mass Fraction of Stratiform Cloud Liquid Water In Air Due To Bergeron Findeisen Process To Cloud Ice", 2:"tendency_of_mass_fraction_of_stratiform_cloud_liquid_water_in_air_due_to_bergeron_findeisen_process_to_cloud_ice", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    75 { "id":71, 0:"emidms",  1:"Total Emission Rate of DMS", 2:"tendency_of_atmosphere_mass_content_of_dimethyl_sulfide_due_to_emission", 3:"'unset'", 4:"CMIP5_aero" }, 
    76 { "id":72, 0:"acceldivf",  1:"Tendency of Eastward Wind from EPF Divergence", 2:"tendency_of_eastward_wind_due_to_eliassen_palm_flux_divergence", 3:"'Transformed Eulerian Mean Diagnostics Acceleration from the EP-flux divergence (D) derived from 6hr or higher frequency fields (use daily fields or 12 hr fields if the 6 hr are not available).  Please use the definitions given by equation 3.5.2a of Andrews, Holton and Leovy text book.'", 4:"CCMI1_daily,CCMI1_monthly" }, 
    77 { "id":73, 0:"cobrdn",  1:"Atmospheric Burden of CO", 2:"atmosphere_moles_of_carbon_monoxide", 3:"'total yearly average burden'", 4:"CCMI1_annual" }, 
    78 { "id":74, 0:"areacella",  1:"Atmosphere Grid-Cell Area", 2:"cell_area", 3:"'unset'", 4:"CMIP5_fx,SPECS_fx" }, 
    79 { "id":75, 0:"msftmrhoz",  1:"Ocean Meridional Overturning Mass Streamfunction", 2:"ocean_meridional_overturning_mass_streamfunction", 3:"'unset'", 4:"CMIP5_Omon" }, 
    80 { "id":76, 0:"wetsoa",  1:"Wet Deposition Rate of Dry Aerosol Secondary Organic Matter", 2:"tendency_of_atmosphere_mass_content_of_secondary_particulate_organic_matter_dry_aerosol_due_to_wet_deposition", 3:"'unset'", 4:"CMIP5_aero" }, 
    81 { "id":77, 0:"intpbfe",  1:"Iron Production", 2:"tendency_of_ocean_mole_content_of_iron_due_to_biological_production", 3:"'Vertically integrated biogenic iron production'", 4:"CMIP5_Omon" }, 
    82 { "id":78, 0:"calc",  1:"Calcite Concentration at Surface", 2:"mole_concentration_of_calcite_expressed_as_carbon_in_sea_water", 3:"'sum of particulate calcite component concentrations (e.g. Phytoplankton, Detrital, etc.)'", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    83 { "id":79, 0:"dissoc",  1:"Dissolved Organic Carbon Concentration at Surface", 2:"mole_concentration_of_dissolved_organic_carbon_in_sea_water", 3:"'unset'", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    84 { "id":80, 0:"fco2fos",  1:"Carbon Mass Flux into Atmosphere Due to Fossil Fuel Emissions of CO2", 2:"tendency_of_atmosphere_mass_content_of_carbon_dioxide_expressed_as_carbon_due_to_emission_from_fossil_fuel_combustion", 3:"'This is the prescribed anthropogenic CO2 flux from fossil fuel use, including cement production, and flaring (but not from land-use changes, agricultural burning, forest regrowth, etc.)'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites" }, 
    85 { "id":81, 0:"rsds",  1:"Surface Downwelling Shortwave Radiation", 2:"surface_downwelling_shortwave_flux_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    86 { "id":82, 0:"msftmyz",  1:"Meridional Mass Streamfunction", 2:"ocean_meridional_overturning_mass_streamfunction", 3:"'unset'", 4:"SPECS_Omon" }, 
    87 { "id":83, 0:"pnitrate",  1:"Primary Carbon Production by Phytoplankton due to Nitrate Uptake Alone", 2:"tendency_of_mole_concentration_of_particulate_organic_matter_expressed_as_carbon_in_sea_water_due_to_nitrate_utilization", 3:"'Primary (organic carbon) production by phytoplankton due to nitrate uptake alone'", 4:"CMIP5_Oyr" }, 
    88 { "id":84, 0:"pbfe",  1:"Biogenic Iron Production", 2:"tendency_of_mole_concentration_of_iron_in_sea_water_due_to_biological_production", 3:"'unset'", 4:"CMIP5_Oyr" }, 
    89 { "id":85, 0:"rldssi",  1:"Downwelling Long Wave over Sea Ice", 2:"surface_downwelling_longwave_flux_in_air", 3:"'the downwelling longwave flux in regions of sea ice divided by the area of the ocean portion of the grid cell.'", 4:"CMIP5_OImon" }, 
    90 { "id":86, 0:"swtoaaso3",  1:"All-Sky SW-RF O3 at TOA", 2:"unset", 3:"'proposed name: toa_instantaneous_shortwave_forcing_due_to_ozone'", 4:"CCMI1_monthly" }, 
    91 { "id":87, 0:"dtaus",  1:"Stratiform Cloud Optical Depth", 2:"atmosphere_optical_thickness_due_to_stratiform_cloud", 3:"'This is the in-cloud optical depth obtained by considering only the cloudy portion of the grid cell.'", 4:"CMIP5_cf3hr" }, 
    92 { "id":88, 0:"cclf2cf3tbrdn",  1:"Tendency of Atmospheric Burden of CFC-115", 2:"tendency_of_atmosphere_moles_of_cfc115", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }, 
    93 { "id":89, 0:"od550aerh2o",  1:"Aerosol Water AOD at 550nm", 2:"atmosphere_optical_thickness_due_to_water_in_ambient_aerosol", 3:"'proposed name: atmosphere_optical_thickness_due_to_water_ambient_aerosol'", 4:"CCMI1_monthly" }, 
    94 { "id":90, 0:"emivoc",  1:"Total Emission Rate of NMVOC", 2:"unset", 3:"'Integrate 3D emission field vertically to 2d field.  _If_ fixed molecular weight of NMVOC is not available in model, please provide in units of kilomole m-2 s-1 (i.e. kg m-2 s-1 as if model NMVOC had molecular weight of 1) and add a comment to your file.'", 4:"CCMI1_monthly" }, 
    95 { "id":91, 0:"rsdsdiff",  1:"Surface Diffuse Downwelling Shortwave Radiation", 2:"surface_diffuse_downwelling_shortwave_flux_in_air", 3:"'unset'", 4:"CMIP5_aero" }, 
    96 { "id":92, 0:"tsnint",  1:"Temperature at Interface Between Sea Ice and Snow", 2:"sea_ice_surface_temperature", 3:"'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.  Reported as ''missing'' in regions free of snow-covered sea ice.'", 4:"CMIP5_OImon" }, 
    97 { "id":93, 0:"dryso4",  1:"Dry Deposition Rate of SO4", 2:"tendency_of_atmosphere_mass_content_of_sulfate_dry_aerosol_due_to_dry_deposition", 3:"'unset'", 4:"CMIP5_aero" }, 
    98 { "id":94, 0:"sfmmraerh2o",  1:"Aerosol Water Mass Mixing Ratio in Lowest Model Layer", 2:"mass_fraction_of_water_in_ambient_aerosol_in_air", 3:"'aerosol water'", 4:"CCMI1_daily" }, 
    99 { "id":95, 0:"flashrate",  1:"Lightning Flash Rate", 2:"unset", 3:"'proposed name: lightning_flash_rate (units to be interpreted as counts km-2 s-1)'", 4:"CCMI1_monthly" }, 
    100 { "id":96, 0:"vmrno2",  1:"NO2 Volume Mixing Ratio", 2:"mole_fraction_of_nitrogen_dioxide_in_air", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }, 
    101 { "id":97, 0:"lwtoaaso3",  1:"All-Sky LW-RF O3 at TOA", 2:"unset", 3:"'proposed name: toa_instantaneous_longwave_forcing_due_to_ozone'", 4:"CCMI1_monthly" }, 
    102 { "id":98, 0:"masso",  1:"Sea Water Mass", 2:"sea_water_mass", 3:"'unset'", 4:"CMIP5_Omon" }, 
    103 { "id":99, 0:"vmro3cnp",  1:"Ozone Volume Mixing Ratio at Canopy Height", 2:"mole_fraction_of_ozone_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    104 { "id":100, 0:"ch3clbrdn",  1:"Atmospheric Burden of CH3Cl", 2:"atmosphere_moles_of_methyl_chloride", 3:"'total yearly average burden'", 4:"CCMI1_annual" }, 
    105 { "id":101, 0:"vmrch3ooh",  1:"CH3OOH Volume Mixing Ratio", 2:"mole_fraction_of_methyl_hydroperoxide_in_air", 3:"''", 4:"CCMI1_daily" }, 
    106 { "id":102, 0:"rlucs4co2",  1:"Upwelling Clear-Sky Longwave Radiation 4XCO2 Atmosphere", 2:"upwelling_longwave_flux_in_air_assuming_clear_sky", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    107 { "id":103, 0:"nh4",  1:"Dissolved Ammonium Concentration at Surface", 2:"mole_concentration_of_ammonium_in_sea_water", 3:"'unset'", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    108 { "id":104, 0:"co3satcalc",  1:"Mole Concentration of Calcite expressed as Carbon in Sea Water at Saturation at Surface", 2:"mole_concentration_of_calcite_expressed_as_carbon_in_sea_water_at_saturation", 3:"'unset'", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    109 { "id":105, 0:"fHarvest",  1:"Carbon Mass Flux into Atmosphere due to Crop Harvesting", 2:"surface_upward_mass_flux_of_carbon_dioxide_expressed_as_carbon_due_to_emission_from_crop_harvesting", 3:"'unset'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    110 { "id":106, 0:"h2o",  1:"Mass Fraction of Water", 2:"mass_fraction_of_water_in_air", 3:"'includes all phases of water'", 4:"CMIP5_cf3hr" }, 
    111 { "id":107, 0:"clt",  1:"Total Cloud Fraction", 2:"cloud_area_fraction", 3:"'for the whole atmospheric column, as seen from the surface or the top of the atmosphere. Include both large-scale and convective cloud.  This is a 3-hour mean.'", 4:"CMIP5_3hr" }, 
    112 { "id":108, 0:"reffgrpls",  1:"Hydrometeor Effective Radius of Stratiform Graupel", 2:"effective_radius_of_stratiform_cloud_graupel_particle", 3:"'This is defined as the in-cloud ratio of the third moment over the second moment of the particle size distribution (obtained by considering only the cloudy portion of the grid cell).'", 4:"CMIP5_cf3hr" }, 
    113 { "id":109, 0:"hfss",  1:"Surface Downward Sensible Heat Flux", 2:"surface_downward_sensible_heat_flux", 3:"''This is defined as ''where ice_free_sea over sea''''", 4:"CMIP5_Omon" }, 
    114 { "id":110, 0:"tnscliemi",  1:"Tendency of Mass Fraction of Stratiform Cloud Ice due to Evaporation of Melting Ice", 2:"tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_evaporation_of_melting_ice", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    115 { "id":111, 0:"evspsblveg",  1:"Evaporation from Canopy", 2:"water_evaporation_flux_from_canopy", 3:"'the canopy evaporation+sublimation (if present in model).'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    116 { "id":112, 0:"chlcalc",  1:"Mass Concentration of Calcareous Phytoplankton expressed as Chlorophyll in Sea Water at Surface", 2:"mass_concentration_of_calcareous_phytoplankton_expressed_as_chlorophyll_in_sea_water", 3:"'chlorophyll concentration from the calcite-producing phytoplankton component alone'", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    117 { "id":113, 0:"nppLeaf",  1:"Carbon Mass Flux due to NPP Allocation to Leaf", 2:"net_primary_productivity_of_carbon_accumulated_in_leaves", 3:"'This is the rate of carbon uptake by leaves due to NPP'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    118 { "id":114, 0:"ccl2fcclf2tbrdn",  1:"Tendency of Atmospheric Burden of CFC-113", 2:"tendency_of_atmosphere_moles_of_cfc113", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }, 
    119 { "id":115, 0:"prAdjust",  1:"Bias-Corrected Precipitation", 2:"precipitation_flux", 3:"'at surface; includes both liquid and solid phases from all types of clouds (both large-scale and convective)'", 4:"CMIP5_Amon" }, 
    120 { "id":116, 0:"wap",  1:"omega (=dp/dt)", 2:"lagrangian_tendency_of_air_pressure", 3:"'commonly referred to as ''omega'', this represents the vertical component of velocity in pressure coordinates (positive down)'", 4:"CMIP5_Amon,CMIP5_cfDay,CMIP5_cfSites,CMIP5_day" }, 
    121 { "id":117, 0:"rld",  1:"Downwelling Longwave Radiation", 2:"downwelling_longwave_flux_in_air", 3:"'Includes also the fluxes at the surface and TOA.'", 4:"CMIP5_cfMon" }, 
    122 { "id":118, 0:"vmre90s",  1:"e90s Volume Mixing Ratio", 2:"unset", 3:"'Synthetic tracer e90s, same as e90, but emitted only 40S to 90S.'", 4:"CCMI1_daily,CCMI1_monthly" }, 
    123 { "id":119, 0:"minpblz",  1:"Daily Minimum PBL Height", 2:"atmosphere_boundary_layer_thickness", 3:"''", 4:"CCMI1_daily" }, 
    124 { "id":120, 0:"ssi",  1:"Sea Ice Salinity", 2:"sea_ice_salinity", 3:"'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.  Reported as ''missing'' in regions free of sea ice.'", 4:"CMIP5_OImon" }, 
    125 { "id":121, 0:"cbrf3brdn",  1:"Atmospheric Burden of Halon 1301", 2:"atmosphere_moles_of_halon1301", 3:"'total yearly average burden'", 4:"CCMI1_annual" }, 
    126 { "id":122, 0:"cVeg",  1:"Carbon Mass in Vegetation", 2:"vegetation_carbon_content", 3:"'unset'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    127 { "id":123, 0:"mmrdust",  1:"Dust Aerosol Mass Mixing Ratio", 2:"mass_fraction_of_dust_dry_aerosol_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    128 { "id":124, 0:"pso",  1:"Sea Water Pressure at Sea Water Surface", 2:"sea_water_pressure_at_sea_water_surface", 3:"'unset'", 4:"CMIP5_Omon" }, 
    129 { "id":125, 0:"rlutcs4co2",  1:"TOA Outgoing Clear-Sky Longwave Radiation 4XCO2 Atmosphere", 2:"toa_outgoing_longwave_flux_assuming_clear_sky", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    130 { "id":126, 0:"wetso2",  1:"Wet Deposition Rate of SO2", 2:"tendency_of_atmosphere_mass_content_of_sulfur_dioxide_due_to_wet_deposition", 3:"'unset'", 4:"CMIP5_aero" }, 
    131 { "id":127, 0:"difvmto",  1:"Ocean Vertical Momentum Diffusivity due to Tides", 2:"ocean_vertical_momentum_diffusivity_due_to_tides", 3:"'unset'", 4:"CMIP5_Oclim" }, 
    132 { "id":128, 0:"rlus",  1:"Surface Upwelling Longwave Radiation", 2:"surface_upwelling_longwave_flux_in_air", 3:"'unset'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfDay,CMIP5_cfSites,CMIP5_day,CORDEX_3h,CORDEX_day,CORDEX_mon,CORDEX_sem,SPECS_day" }, 
    133 { "id":129, 0:"mmraernh4",  1:"NH4 Mass Mixing Ratio", 2:"mass_fraction_of_ammonium_dry_aerosol_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    134 { "id":130, 0:"cRoot",  1:"Carbon Mass in Roots", 2:"root_carbon_content", 3:"'including fine and coarse roots.'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    135 { "id":131, 0:"drypoa",  1:"Dry Deposition Rate of Dry Aerosol Primary Organic Matter", 2:"tendency_of_atmosphere_mass_content_of_primary_particulate_organic_matter_dry_aerosol_due_to_dry_deposition", 3:"'unset'", 4:"CMIP5_aero" }, 
    136 { "id":132, 0:"diftrebo2d",  1:"Ocean Tracer Epineutral Biharmonic Diffusivity", 2:"ocean_tracer_epineutral_biharmonic_diffusivity", 3:"'unset'", 4:"CMIP5_Oclim" }, 
    137 { "id":133, 0:"phyc",  1:"Phytoplankton Carbon Concentration at Surface", 2:"mole_concentration_of_phytoplankton_expressed_as_carbon_in_sea_water", 3:"'sum of phytoplankton carbon component concentrations.  In most (all?) cases this is the sum of phycdiat and phycmisc (i.e., ''Diatom Carbon Concentration'' and ''Non-Diatom Phytoplankton Carbon Concentration'''", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    138 { "id":134, 0:"zg200",  1:"Geopotential Height", 2:"geopotential_height", 3:"'unset'", 4:"CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem" }, 
    139 { "id":135, 0:"ccmi_day",  1:"CCMI Day", 2:"unset", 3:"'These are what each model believes the date/time (Gregorian calendar) to be at the middle of each time interval in the output (GMT, not local time).'", 4:"CCMI1_annual,CCMI1_daily,CCMI1_hourly,CCMI1_monthly" }, 
    140 { "id":136, 0:"mlotst",  1:"Ocean Mixed Layer Thickness Defined by Sigma T", 2:"ocean_mixed_layer_thickness_defined_by_sigma_t", 3:"'unset'", 4:"CMIP5_Omon" }, 
    141 { "id":137, 0:"clisccp",  1:"ISCCP Cloud Area Fraction", 2:"cloud_area_fraction_in_atmosphere_layer", 3:"'unset'", 4:"CMIP5_cfDay" }, 
    142 { "id":138, 0:"wfonocorr",  1:"Water Flux into Sea Water Without Flux Correction", 2:"water_flux_into_sea_water_without_flux_correction", 3:"'computed as the water  flux (without flux correction) into the ocean divided by the area of the ocean portion of the grid cell.'", 4:"CMIP5_Omon" }, 
    143 { "id":139, 0:"tasmax",  1:"Daily Maximum Near-Surface Air Temperature", 2:"air_temperature", 3:"'maximum near-surface (usually, 2 meter) air temperature (add cell_method attribute time: max)'", 4:"CCMI1_daily" }, 
    144 { "id":140, 0:"tasmin",  1:"Daily Minimum Near-Surface Air Temperature", 2:"air_temperature", 3:"'minimum near-surface (usually, 2 meter) air temperature (add cell_method attribute time: min)'", 4:"CCMI1_daily" }, 
    145 { "id":141, 0:"vas",  1:"Northward Near-Surface Wind Speed", 2:"northward_wind", 3:"'This is sampled synoptically.'", 4:"CMIP5_3hr" }, 
    146 { "id":142, 0:"abs550aer",  1:"Ambient Aerosol Absorption Optical Thickness at 550 nm", 2:"atmosphere_absorption_optical_thickness_due_to_ambient_aerosol", 3:"''", 4:"CCMI1_monthly" }, 
    147 { "id":143, 0:"cltisccp",  1:"ISCCP Total Total Cloud Fraction", 2:"cloud_area_fraction", 3:"'unset'", 4:"CMIP5_cfDay,CMIP5_cfMon" }, 
    148 { "id":144, 0:"evu",  1:"Eddy Viscosity Coefficient for Momentum Variables", 2:"atmosphere_momentum_diffusivity", 3:"'unset'", 4:"CMIP5_cfSites" }, 
    149 { "id":145, 0:"ch3cclf2smtbrdn",  1:"Tendency of Middle Atmosphere Burden of CH3CClF2", 2:"unset", 3:"'total yearly averaged stratospheric and mesospheric loss'", 4:"CCMI1_annual" }, 
    150 { "id":146, 0:"ta70",  1:"Air Temperature at 70 hPa", 2:"air_temperature", 3:"'Temperature on the 70 hPa surface'", 4:"CCMI1_daily" }, 
    151 { "id":147, 0:"zos",  1:"Sea Surface Height Above Geoid", 2:"sea_surface_height_above_geoid", 3:"'unset'", 4:"CMIP5_Omon" }, 
    152 { "id":148, 0:"huss",  1:"Near-Surface Specific Humidity", 2:"specific_humidity", 3:"'unset'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites,CMIP5_day" }, 
    153 { "id":149, 0:"tnsclibl",  1:"Tendency of Mass Fraction of Stratiform Cloud Ice In Air Due To Boundary Layer Mixing", 2:"tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_boundary_layer_mixing", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    154 { "id":150, 0:"bddtdip",  1:"Rate of Change of Dissolved Phosphate due to Biological Activity", 2:"tendency_of_mole_concentration_of_dissolved_inorganic_phosphate_in_sea_water_due_to_biological_processes", 3:"'Net of biological terms in time rate of change of dissolved phosphate'", 4:"CMIP5_Oyr" }, 
    155 { "id":151, 0:"va1000",  1:"Northward Wind at 1000 hPa", 2:"northward_wind", 3:"'Meridional wind on the 1000 hPa surface'", 4:"CCMI1_daily" }, 
    156 { "id":152, 0:"fbddtdic",  1:"Rate of Change of Dissolved Inorganic Carbon due to Biological Activity", 2:"tendency_of_ocean_mole_content_of_dissolved_inorganic_carbon_due_to_biological_processes", 3:"'vertical integral of net biological terms in time rate of change of dissolved inorganic carbon'", 4:"CMIP5_Omon" }, 
    157 { "id":153, 0:"zos",  1:"Sea surface height above geoid", 2:"sea_surface_height_above_geoid", 3:"'unset'", 4:"SPECS_Omon" }, 
    158 { "id":154, 0:"sootsn",  1:"Snow Soot Content", 2:"soot_content_of_surface_snow", 3:"'the entire land portion of the grid cell is considered, with snow soot content set to 0.0 in regions free of snow.'", 4:"CMIP5_LImon" }, 
    159 { "id":155, 0:"orog",  1:"Surface Altitude", 2:"surface_altitude", 3:"'height above the geoid; as defined here, ''the geoid'' is a surface of constant geopotential that, if the ocean were at rest, would coincide with mean sea level. Under this definition, the geoid changes as the mean volume of the ocean changes (e.g., due to glacial melt, or global warming of the ocean).  Report here the height above the present-day geoid.  Over ocean, report as 0.0'", 4:"CCMI1_annual,CCMI1_daily,CCMI1_fixed,CCMI1_hourly,CCMI1_monthly,CMIP5_6hrLev,CMIP5_Amon,CMIP5_aero,CMIP5_cf3hr,CMIP5_cfDay,CMIP5_cfMon,CMIP5_cfSites,CORDEX_fx,SPECS_6hr,SPECS_Amon" }, 
    160 { "id":156, 0:"cf2cl2tbrdn",  1:"Tendency of Atmospheric Burden of CFC-12", 2:"tendency_of_atmosphere_moles_of_cfc12", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }, 
    161 { "id":157, 0:"ts",  1:"Surface Temperature", 2:"surface_temperature", 3:"'skin temperature - i.e SST for open ocean'", 4:"CCMI1_daily" }, 
    162 { "id":158, 0:"zostoga",  1:"Global Average Thermosteric Sea Level Change", 2:"global_average_thermosteric_sea_level_change", 3:"'unset'", 4:"CMIP5_Omon" }, 
    163 { "id":159, 0:"frc",  1:"Downward Carbon Flux at Ocean Bottom", 2:"tendency_of_ocean_mole_content_of_carbon_due_to_sedimentation", 3:"'Carbon loss to sediments'", 4:"CMIP5_Omon" }, 
    164 { "id":160, 0:"rhs",  1:"Near-Surface Relative Humidity", 2:"relative_humidity", 3:"'This is the relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C.'", 4:"CMIP5_day" }, 
    165 { "id":161, 0:"concaerh2o",  1:"Concentration of Aerosol Water", 2:"mass_concentration_of_water_in_ambient_aerosol_in_air", 3:"''''ambient'' means ''wetted''''", 4:"CMIP5_aero" }, 
    166 { "id":162, 0:"zmbr",  1:"Zonal Mean Br Volume Mixing Ratio", 2:"mole_fraction_of_atomic_bromine_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    167 { "id":163, 0:"cotbrdn",  1:"Tendency of Atmospheric Burden of CO", 2:"tendency_of_atmosphere_moles_of_carbon_monoxide", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }, 
    168 { "id":164, 0:"od550lt1aer",  1:"Ambient Fine Aerosol Optical Thickness at 550 nm", 2:"atmosphere_optical_thickness_due_to_pm1_ambient_aerosol", 3:"'od550 due to particles with wet diameter less than 1 um  ('ambient' means 'wetted'). When models do not include explicit size information, it can be assumed that all anthropogenic aerosols and natural secondary aerosols have diameter less than 1 um.'", 4:"CCMI1_monthly" }, 
    169 { "id":165, 0:"areacella",  1:"Atmosphere Grid-Cell Area", 2:"cell_area", 3:"'For atmospheres with more than 1 mesh (e.g., staggered grids), report areas that apply to surface vertical fluxes of energy.'", 4:"CCMI1_fixed,CORDEX_fx" }, 
    170 { "id":166, 0:"clw",  1:"Mass Fraction of Cloud Liquid Water", 2:"mass_fraction_of_cloud_liquid_water_in_air", 3:"'Includes both large-scale and convective cloud. Calculate as the mass of cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cells.  Precipitating hydrometeors are included ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.'", 4:"CCMI1_monthly" }, 
    171 { "id":167, 0:"sic",  1:"Sea Ice Area Fraction", 2:"sea_ice_area_fraction", 3:"'fraction of grid cell covered by sea ice. Report on ocean's grid.'", 4:"CORDEX_day" }, 
    172 { "id":168, 0:"ch3cclf2brdn",  1:"Atmospheric Burden of CH3CClF2", 2:"atmosphere_moles_of_hcfc142b", 3:"'total yearly average burden'", 4:"CCMI1_annual" }, 
    173 { "id":169, 0:"cfadLidarsr532",  1:"CALIPSO Scattering Ratio CFAD", 2:"histogram_of_backscattering_ratio_over_height_above_reference_ellipsoid", 3:"'CFADs (Cloud Frequency Altitude Diagrams) are joint height - radar reflectivity (or lidar scattering ratio) distributions.'", 4:"CMIP5_cf3hr,CMIP5_cfOff" }, 
    174 { "id":170, 0:"nep",  1:"Net Carbon Mass Flux out of Atmophere due to Net Ecosystem Productivity on Land.", 2:"surface_net_downward_mass_flux_of_carbon_dioxide_expressed_as_carbon_due_to_all_land_processes_excluding_anthropogenic_land_use_change", 3:"'Natural flux of CO2 (expressed as a mass flux of carbon) from the atmosphere to the land calculated as the difference between uptake associated will photosynthesis and the release of CO2 from the sum of plant and soil respiration and fire.  Positive flux is into the land.  emissions from natural fires + human ignition fires as calculated by the fire module of the DGVM, but excluding any CO2 flux from fire included in fLuc, defined below (CO2 Flux to Atmosphere from Land Use Change).'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    175 { "id":171, 0:"eminh3",  1:"Total Emission Rate of NH3", 2:"tendency_of_atmosphere_mass_content_of_ammonia_due_to_emission", 3:"'unset'", 4:"CMIP5_aero" }, 
    176 { "id":172, 0:"fddtdin",  1:"Rate of Change of Net Dissolved Inorganic Nitrogen", 2:"tendency_of_ocean_mole_content_of_dissolved_inorganic_nitrogen", 3:"'Net time rate of change of nitrogen nutrients (e.g. NO3+NH4)'", 4:"CMIP5_Omon" }, 
    177 { "id":173, 0:"od550dust",  1:"Dust AOD at 550nm", 2:"atmosphere_optical_thickness_due_to_dust_ambient_aerosol", 3:"''", 4:"CCMI1_monthly" }, 
    178 { "id":174, 0:"cSoil",  1:"Carbon Mass in Soil Pool", 2:"soil_carbon_content", 3:"'unset'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    179 { "id":175, 0:"tossq",  1:"Square of Sea Surface Temperature", 2:"square_of_sea_surface_temperature", 3:"'unset'", 4:"CMIP5_Omon" }, 
    180 { "id":176, 0:"cldnci",  1:"Ice Crystal Number Concentration of Cloud Tops", 2:"number_concentration_of_ice_crystals_in_air_at_ice_cloud_top", 3:"'concentration ''as seen from space'' over ice-cloud portion of grid cell.  This is the value from uppermost model layer with ice cloud or, if available, it is the sum over all ice cloud tops, no matter where they occur, as long as they are seen from the top of the atmosphere. Weight by total ice cloud top fraction (as seen from TOA) of each time sample when computing monthly mean.'", 4:"CMIP5_aero" }, 
    181 { "id":177, 0:"emibc",  1:"Emission Rate of Black Carbon Aerosol Mass", 2:"tendency_of_atmosphere_mass_content_of_black_carbon_dry_aerosol_due_to_emission", 3:"'unset'", 4:"CMIP5_aero" }, 
    182 { "id":178, 0:"rsdcs",  1:"Downwelling Clear-Sky Shortwave Radiation", 2:"downwelling_shortwave_flux_in_air_assuming_clear_sky", 3:"'Includes also the fluxes at the surface and TOA.'", 4:"CMIP5_cfMon" }, 
    183 { "id":179, 0:"grLateral",  1:"Lateral Sea Ice Growth Rate", 2:"tendency_of_sea_ice_amount_due_to_lateral_growth_of_ice_floes", 3:"'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.  Reported as 0.0 in regions free of sea ice.'", 4:"CMIP5_OImon" }, 
    184 { "id":180, 0:"tnsclwce",  1:"Tendency of Mass Fraction of Stratiform Cloud Liquid Water due to Condensation and Evaporation", 2:"tendency_of_mass_fraction_of_stratiform_cloud_liquid_water_in_air_due_to_condensation_and_evaporation", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    185 { "id":181, 0:"snld",  1:"snow depth", 2:"lwe_thickness_of_surface_snow_amount", 3:"'unset'", 4:"SPECS_Amon" }, 
    186 { "id":182, 0:"uas",  1:"Eastward Near-Surface Wind Speed", 2:"eastward_wind", 3:"'This is sampled synoptically.'", 4:"CMIP5_3hr" }, 
    187 { "id":183, 0:"swtoacsbcff",  1:"Clear-Sky SW-RF BCFF at TOA", 2:"unset", 3:"'proposed name: toa_instantaneous_shortwave_forcing_due_to_black_carbon_ambient_aerosol_from_fossil_fuels_assuming_clear_sky'", 4:"CCMI1_monthly" }, 
    188 { "id":184, 0:"wp",  1:"Wilting Point", 2:"volume_fraction_of_condensed_water_in_soil_at_wilting_point", 3:"''Condensed water' means liquid and ice. 'Volume fraction' is used in the construction volume_fraction_of_X_in_Y, where X is a material constituent of Y. The wilting point of soil is the water content below which plants cannot extract sufficient water to balance their loss through transpiration.'", 4:"SPECS_fx" }, 
    189 { "id":185, 0:"prodo1d",  1:"Chemical Gross Production Rate of O_1D", 2:"unset", 3:"'proposed name: tendency_of_mole_concentration_of_O1D_by_chemical_gross_production'", 4:"CCMI1_monthly" }, 
    190 { "id":186, 0:"wetpoa",  1:"Wet Deposition Rate of Dry Aerosol Primary Organic Matter", 2:"tendency_of_atmosphere_mass_content_of_primary_particulate_organic_matter_dry_aerosol_due_to_wet_deposition", 3:"'unset'", 4:"CMIP5_aero" }, 
    191 { "id":187, 0:"mmrsoa",  1:"SOA Mass Mixing Ratio", 2:"mass_fraction_of_secondary_particulate_organic_matter_dry_aerosol_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    192 { "id":188, 0:"tnhusscpbl",  1:"Tendency of Specific Humidity due to Stratiform Cloud Condensation and Evaporation", 2:"tendency_of_specific_humidity_due_to_stratiform_cloud_and_precipitation_and_boundary_layer_mixing", 3:"'unset'", 4:"CMIP5_cfMon,CMIP5_cfSites" }, 
    193 { "id":189, 0:"bsi",  1:"Particulate Biogenic Silica Concentration at Surface", 2:"mole_concentration_of_particulate_matter_expressed_as_silicon_in_sea_water", 3:"'sum of particulate silica component concentrations'", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    194 { "id":190, 0:"lai",  1:"Leaf Area Index", 2:"leaf_area_index", 3:"''", 4:"CCMI1_monthly" }, 
    195 { "id":191, 0:"rsut",  1:"TOA Outgoing Shortwave Radiation", 2:"toa_outgoing_shortwave_flux", 3:"'unset'", 4:"CMIP5_cfDay,CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem" }, 
    196 { "id":192, 0:"sbl",  1:"Surface Snow and Ice Sublimation Flux", 2:"surface_snow_and_ice_sublimation_flux", 3:"'The snow and ice sublimation flux is the loss of snow and ice mass from the surface resulting from their conversion to water vapor that enters the atmosphere.'", 4:"CMIP5_Amon" }, 
    197 { "id":193, 0:"detoc",  1:"Detrital Organic Carbon Concentration at Surface", 2:"mole_concentration_of_organic_detritus_expressed_as_carbon_in_sea_water", 3:"'sum of detrital organic carbon component concentrations'", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    198 { "id":194, 0:"sfmmraerno3",  1:"Aerosol Nitrate Mass Mixing Ratio in the Lowest Model Layer", 2:"mass_fraction_of_nitrate_dry_aerosol_in_air", 3:"'NO3 aerosol'", 4:"CCMI1_daily" }, 
    199 { "id":195, 0:"zmch3ooh",  1:"Zonal Mean CH3OOH Volume Mixing Ratio", 2:"mole_fraction_of_methyl_hydroperoxide_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    200 { "id":196, 0:"od550aer",  1:"Ambient Aerosol Optical Thickness at 550 nm", 2:"atmosphere_optical_thickness_due_to_ambient_aerosol", 3:"'AOD from the ambient aerosols (i.e., includes aerosol water).  Does not include AOD from stratospheric aerosols if these are prescribed but includes other possible background aerosol types. Needs a comment attribute 'wavelength: 550 nm'.'", 4:"CCMI1_monthly" }, 
    201 { "id":197, 0:"zg1000",  1:"Geopotential Height at 1000 hPa", 2:"geopotential_height", 3:"'Geopotential height on the 1000 hPa surface'", 4:"CCMI1_daily" }, 
    202 { "id":198, 0:"dispkexyfo2d",  1:"Ocean Kinetic Energy Dissipation Per Unit Area due to XY Friction", 2:"ocean_kinetic_energy_dissipation_per_unit_area_due_to_xy_friction", 3:"'unset'", 4:"CMIP5_Oclim" }, 
    203 { "id":199, 0:"ta",  1:"Air Temperature", 2:"air_temperature", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }, 
    204 { "id":200, 0:"emiasoa",  1:"Total Emission of Anthropogenic SOA", 2:"unset", 3:"'integrate 3D emission field vertically to 2d field. This can be a pseudo-emission flux as used in AEROCOM (Dentener et al, ACP, 2006) or the net production of SOA in the atmosphere resulting from the oxidation of terpenes'", 4:"CCMI1_monthly" }, 
    205 { "id":201, 0:"fLuc",  1:"Net Carbon Mass Flux into Atmosphere due to Land Use Change", 2:"surface_net_upward_mass_flux_of_carbon_dioxide_expressed_as_carbon_due_to_emission_from_anthropogenic_land_use_change", 3:"'human changes to land (excluding forest regrowth) accounting possibly for different time-scales related to fate of the wood, for example.'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    206 { "id":202, 0:"hfls",  1:"Surface Upward Latent Heat Flux", 2:"surface_upward_latent_heat_flux", 3:"'unset'", 4:"CMIP5_cfDay" }, 
    207 { "id":203, 0:"od550lt1aer",  1:"Ambient Fine Aerosol Optical Thickness at 550 nm", 2:"atmosphere_optical_thickness_due_to_pm1_ambient_aerosol", 3:"'od550 due to particles with wet diameter less than 1 um  (''ambient'' means ''wetted''). When models do not include explicit size information, it can be assumed that all anthropogenic aerosols and natural secondary aerosols have diameter less than 1 um.'", 4:"CMIP5_aero" }, 
    208 { "id":204, 0:"fgo2",  1:"Surface Downward O2 Flux", 2:"surface_downward_mole_flux_of_molecular_oxygen", 3:"'Gas exchange flux of O2 (positive into ocean)'", 4:"CMIP5_Omon" }, 
    209 { "id":205, 0:"rhopoto",  1:"Sea Water Potential Density", 2:"sea_water_potential_density", 3:"'unset'", 4:"CMIP5_Omon" }, 
    210 { "id":206, 0:"vmrbrcl",  1:"BrCl Volume Mixing Ratio", 2:"mole_fraction_of_bromine_chloride_in_air", 3:"''", 4:"CCMI1_daily" }, 
    211 { "id":207, 0:"wetdms",  1:"Wet Deposition Rate of DMS", 2:"tendency_of_atmosphere_mass_content_of_dimethyl_sulfide_due_to_wet_deposition", 3:"''", 4:"CCMI1_monthly" }, 
    212 { "id":208, 0:"vsfsit",  1:"Virtual Salt Flux into Sea Water due to Sea Ice Thermodynamics", 2:"virtual_salt_flux_into_sea_water_due_to_sea_ice_thermodynamics", 3:"'This variable measures the virtual salt flux into sea water due to the melting of sea ice. It is set to zero in models which receive a real water flux.'", 4:"CMIP5_Omon" }, 
    213 { "id":209, 0:"difvmo",  1:"Ocean Vertical Momentum Diffusivity", 2:"ocean_vertical_momentum_diffusivity", 3:"'unset'", 4:"CMIP5_Oclim" }, 
    214 { "id":210, 0:"difvtrbo",  1:"Ocean Vertical Tracer Diffusivity due to Background", 2:"ocean_vertical_tracer_diffusivity_due_to_background", 3:"'unset'", 4:"CMIP5_Oclim" }, 
    215 { "id":211, 0:"drydms",  1:"Dry Deposition Rate of DMS", 2:"tendency_of_atmosphere_mass_content_of_dimethyl_sulfide_due_to_dry_deposition", 3:"'dry deposition includes gravitational settling, impact scavenging, and turbulent deposition'", 4:"CCMI1_monthly" }, 
    216 { "id":212, 0:"concdms",  1:"Mole Fraction of DMS", 2:"mole_fraction_of_dimethyl_sulfide_in_air", 3:"'unset'", 4:"CMIP5_aero" }, 
    217 { "id":213, 0:"wa50",  1:"Upward Wind at 50 hPa", 2:"upward_air_velocity", 3:"'Upward wind on the 50 hPa surface'", 4:"CCMI1_daily" }, 
    218 { "id":214, 0:"tnhusmp",  1:"Tendency of Specific Humidity due to Model Physics", 2:"tendency_of_specific_humidity_due_to_model_physics", 3:"'unset'", 4:"CMIP5_cfSites" }, 
    219 { "id":215, 0:"tnsclicm",  1:"Tendency of Mass Fraction of Stratiform Cloud Ice In Air Due To Cloud Microphysics", 2:"tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_cloud_microphysics", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    220 { "id":216, 0:"prsn",  1:"Snowfall Flux", 2:"snowfall_flux", 3:"'at surface; includes precipitation of all forms of water in the solid phase'", 4:"CMIP5_Amon" }, 
    221 { "id":217, 0:"tsn",  1:"Snow Internal Temperature", 2:"temperature_in_surface_snow", 3:"'This temperature is averaged over all the snow in the grid cell that rests on land or land ice.  When computing the time-mean here, the time samples, weighted by the mass of snow on the land portion of the grid cell, are accumulated and then divided by the sum of the weights.   Reported as ''missing in regions free of snow on land.'", 4:"CMIP5_LImon" }, 
    222 { "id":218, 0:"fGrazing",  1:"Carbon Mass Flux into Atmosphere due to Grazing on Land", 2:"surface_upward_mass_flux_of_carbon_dioxide_expressed_as_carbon_due_to_emission_from_grazing", 3:"'unset'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    223 { "id":219, 0:"od550ss",  1:"Seasalt AOD at 550nm", 2:"atmosphere_optical_thickness_due_to_seasalt_ambient_aerosol", 3:"''", 4:"CCMI1_monthly" }, 
    224 { "id":220, 0:"tnsccwa",  1:"Tendency of Mass Fraction of Stratiform Cloud Condensed Water due to Advection", 2:"tendency_of_mass_fraction_of_stratiform_cloud_condensed_water_in_air_due_to_advection", 3:"'condensed water includes both liquid and ice.'", 4:"CMIP5_cfMon" }, 
    225 { "id":221, 0:"dissic",  1:"Dissolved Inorganic Carbon Concentration at Surface", 2:"mole_concentration_of_dissolved_inorganic_carbon_in_sea_water", 3:"'Dissolved inorganic carbon (CO3+HCO3+H2CO3) concentration'", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    226 { "id":222, 0:"rlds",  1:"Surface Downwelling Longwave Radiation", 2:"surface_downwelling_longwave_flux_in_air", 3:"'unset'", 4:"CMIP5_Amon" }, 
    227 { "id":223, 0:"zmchclf2",  1:"Zonal Mean CHClF2 Volume Mixing Ratio", 2:"mole_fraction_of_hcfc22_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    228 { "id":224, 0:"hflssi",  1:"Surface Upward Latent Heat Flux over Sea Ice", 2:"surface_upward_latent_heat_flux", 3:"'the upward latent heat flux in regions of sea ice divided by the area of the ocean portion of the grid cell.'", 4:"CMIP5_OImon" }, 
    229 { "id":225, 0:"vmrhcl",  1:"HCl Volume Mixing Ratio", 2:"mole_fraction_of_hydrogen_chloride_in_air", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }, 
    230 { "id":226, 0:"difmxylo2d",  1:"Ocean Momentum XY Laplacian Diffusivity", 2:"ocean_momentum_xy_laplacian_diffusivity", 3:"'unset'", 4:"CMIP5_Oclim" }, 
    231 { "id":227, 0:"clt",  1:"Total Cloud Fraction", 2:"cloud_area_fraction", 3:"'for the whole atmospheric column, as seen from the surface or the top of the atmosphere. Include both large-scale and convective cloud.'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites,CORDEX_3h,CORDEX_day,CORDEX_mon,CORDEX_sem,SPECS_6hr,SPECS_Amon,SPECS_day" }, 
    232 { "id":228, 0:"fsfe",  1:"Surface Downward Net Flux of Iron", 2:"tendency_of_ocean_mole_content_of_iron_due_to_deposition_and_runoff_and_sediment_dissolution", 3:"'Iron supply through deposition flux onto sea surface, runoff, coasts, sediments, etc'", 4:"CMIP5_Omon" }, 
    233 { "id":229, 0:"dyrlut",  1:"TOA Outgoing Longwave Radiation", 2:"toa_outgoing_longwave_flux", 3:"'outgoing longwave irradiance'", 4:"CCMI1_daily" }, 
    234 { "id":230, 0:"cfcl3tbrdn",  1:"Tendency of Atmospheric Burden of CFC-11", 2:"tendency_of_atmosphere_moles_of_cfc11", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }, 
    235 { "id":231, 0:"lwclrefc",  1:"Clouds TOA LW-RF With Reference Composition", 2:"unset", 3:"'proposed name: toa_instantaneous_longwave_forcing_due_to_clouds_with_reference_composition'", 4:"CCMI1_monthly" }, 
    236 { "id":232, 0:"loadbc",  1:"Load of Black Carbon Aerosol", 2:"atmosphere_mass_content_of_black_carbon_dry_aerosol", 3:"'unset'", 4:"CMIP5_aero" }, 
    237 { "id":233, 0:"no3",  1:"Dissolved Nitrate Concentration at Surface", 2:"mole_concentration_of_nitrate_in_sea_water", 3:"'unset'", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    238 { "id":234, 0:"difmxybo",  1:"Ocean Momentum XY Biharmonic Diffusivity", 2:"ocean_momentum_xy_biharmonic_diffusivity", 3:"'unset'", 4:"CMIP5_Oclim" }, 
    239 { "id":235, 0:"zmhno3",  1:"Zonal Mean HNO3 Volume Mixing Ratio", 2:"mole_fraction_of_nitric_acid_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    240 { "id":236, 0:"vmrco25",  1:"co_25 Volume Mixing Ratio", 2:"unset", 3:"'Emitted as anthropogenic CO (emission file available from HTAP, ftp://ftp.retro.enes.org/pub/emissions/aggregated/anthro/0.5x0.5/2000/RETRO_ANTHRO_V2_2000_CO_aggregated.nc but only use annual mean), uniform fixed 25-day exponential decay.'", 4:"CCMI1_monthly" }, 
    241 { "id":237, 0:"rldcs",  1:"Downwelling Clear-Sky Longwave Radiation", 2:"downwelling_longwave_flux_in_air_assuming_clear_sky", 3:"'Includes also the fluxes at the surface and TOA.'", 4:"CMIP5_cfMon" }, 
    242 { "id":238, 0:"ts",  1:"Surface Temperature", 2:"surface_temperature", 3:"'''skin'' temperature (i.e., SST for open ocean)'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites,CORDEX_6h,CORDEX_day,SPECS_Amon" }, 
    243 { "id":239, 0:"hurs",  1:"Near-Surface Relative Humidity", 2:"relative_humidity", 3:"'This is the relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C.'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites" }, 
    244 { "id":240, 0:"vmrco",  1:"CO Volume Mixing Ratio", 2:"mole_fraction_of_carbon_monoxide_in_air", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }, 
    245 { "id":241, 0:"reffrains",  1:"Hydrometeor Effective Radius of Stratiform Rainfall", 2:"effective_radius_of_stratiform_cloud_rain_particle", 3:"'This is defined as the in-cloud ratio of the third moment over the second moment of the particle size distribution (obtained by considering only the cloudy portion of the grid cell).'", 4:"CMIP5_cf3hr" }, 
    246 { "id":242, 0:"tnsclwcm",  1:"Tendency of Mass Fraction of Stratiform Cloud Liquid Water In Air Due To Cloud Microphysics", 2:"tendency_of_mass_fraction_of_stratiform_cloud_liquid_water_in_air_due_to_cloud_microphysics", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    247 { "id":243, 0:"zmhcl",  1:"Zonal mean HCl Volume Mixing Ratio", 2:"mole_fraction_of_hydrogen_chloride_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    248 { "id":244, 0:"snw",  1:"Surface Snow Amount", 2:"surface_snow_amount", 3:"'Compute as the mass of surface snow on the land portion of the grid cell divided by the land area in the grid cell; report 0.0 where the land fraction is 0; exclude snow on vegetation canopy or on sea ice.'", 4:"CCMI1_daily" }, 
    249 { "id":245, 0:"bddtdic",  1:"Rate of Change of Dissolved Inorganic Carbon due to Biological Activity", 2:"tendency_of_mole_concentration_of_dissolved_inorganic_carbon_in_sea_water_due_to_biological_processes", 3:"'Net of biological terms in time rate of change of dissolved inorganic carbon'", 4:"CMIP5_Oyr" }, 
    250 { "id":246, 0:"msftmyza",  1:"Meridional Mass Streamfunction in the Atlantic", 2:"ocean_meridional_overturning_mass_streamfunction", 3:"'unset'", 4:"SPECS_Omon" }, 
    251 { "id":247, 0:"rh",  1:"Carbon Mass Flux into Atmosphere due to Heterotrophic Respiration on Land", 2:"heterotrophic_respiration_carbon_flux", 3:"'unset'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    252 { "id":248, 0:"cSoilSlow",  1:"Carbon Mass in Slow Soil Pool", 2:"slow_soil_pool_carbon_content", 3:"'fast is meant as lifetime of more than 100 years for  reference climate conditions (20 C, no water limitations)'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    253 { "id":249, 0:"va850",  1:"Northward Wind", 2:"northward_wind", 3:"'unset'", 4:"CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem" }, 
    254 { "id":250, 0:"zg500",  1:"Geopotential Height", 2:"geopotential_height", 3:"'unset'", 4:"CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem" }, 
    255 { "id":251, 0:"hfydiff",  1:"Ocean Heat Y Transport due to Diffussion", 2:"ocean_heat_y_transport_due_to_diffusion", 3:"'unset'", 4:"CMIP5_Omon" }, 
    256 { "id":252, 0:"c2hf3cl2smtbrdn",  1:"Tendency of Middle Atmosphere Burden of C2HF3Cl2", 2:"unset", 3:"'total yearly averaged stratospheric and mesospheric loss'", 4:"CCMI1_annual" }, 
    257 { "id":253, 0:"swtoacsoaff",  1:"Clear-Sky SW-RF OAFF at TOA Anthropogenic", 2:"unset", 3:"'proposed name: toa_instantaneous_shortwave_forcing_due_to_particulate_organic_matter_ambient_aerosol_from_fossil_fuels_assuming_clear_sky'", 4:"CCMI1_monthly" }, 
    258 { "id":254, 0:"do3chm",  1:"Layer-Integrated Net Chemistry Tendency of O3", 2:"unset", 3:"'Calculated as the O3 mass after the chemistry operator less the O3 mass before the chemistry operator excluding surface deposition'", 4:"CCMI1_monthly" }, 
    259 { "id":255, 0:"tos",  1:"Sea Surface Temperature", 2:"sea_surface_temperature", 3:"'this may differ from 'surface temperature' in regions of sea ice.'", 4:"CCMI1_monthly" }, 
    260 { "id":256, 0:"fLitterSoil",  1:"Total Carbon Mass Flux from Litter to Soil", 2:"carbon_mass_flux_into_soil_from_litter", 3:"'unset'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    261 { "id":257, 0:"rtmt",  1:"Net Downward Flux at Top of Model", 2:"net_downward_radiative_flux_at_top_of_atmosphere_model", 3:"'i.e., at the top of that portion of the atmosphere where dynamics are explicitly treated by the model. This is reported only if it differs from the net downward radiative flux at the top of the atmosphere.'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites" }, 
    262 { "id":258, 0:"fescav",  1:"Nonbiogenic Iron Scavenging", 2:"tendency_of_mole_concentration_of_dissolved_iron_in_sea_water_due_to_scavenging_by_inorganic_particles", 3:"'Dissolved Fe removed through nonbiogenic scavenging onto particles'", 4:"CMIP5_Oyr" }, 
    263 { "id":259, 0:"reffclwc",  1:"Convective Cloud Droplet Effective Radius", 2:"effective_radius_of_convective_cloud_liquid_water_particle", 3:"'Droplets are liquid.  The effective radius is defined as the ratio of the third moment over the second moment of the particle size distribution and the time-mean should be calculated, weighting the individual samples by the cloudy fraction of the grid cell.'", 4:"CMIP5_aero" }, 
    264 { "id":260, 0:"rsu",  1:"Upwelling Shortwave Radiation", 2:"upwelling_shortwave_flux_in_air", 3:"'Includes also the fluxes at the surface and TOA.'", 4:"CMIP5_cfMon" }, 
    265 { "id":261, 0:"ua200",  1:"Eastward Wind", 2:"eastward_wind", 3:"'unset'", 4:"CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem" }, 
    266 { "id":262, 0:"mrso",  1:"Total Soil Moisture Content", 2:"soil_moisture_content", 3:"'the mass per unit area  (summed over all soil layers) of water in all phases.'", 4:"CMIP5_Lmon" }, 
    267 { "id":263, 0:"lts",  1:"Lower Tropospheric Stability", 2:"unset", 3:"'proposed name: potential_temperature_difference_between_700hPa_and_1000hPa (Lower Tropospheric Stability)'", 4:"CCMI1_monthly" }, 
    268 { "id":264, 0:"zmch3ccl3",  1:"Zonal Mean CH3CCl3 Volume Mixing Ratio", 2:"mole_fraction_of_hcc140a_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    269 { "id":265, 0:"zmco",  1:"Zonal Mean CO Volume Mixing Ratio", 2:"mole_fraction_of_carbon_monoxide_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    270 { "id":266, 0:"rsdssi",  1:"Downwelling Shortwave over Sea Ice", 2:"surface_downwelling_shortwave_flux_in_air", 3:"'the downwelling shortwave flux in regions of sea ice divided by the area of the ocean portion of the grid cell.'", 4:"CMIP5_OImon" }, 
    271 { "id":267, 0:"clcalipso",  1:"CALIPSO Cloud Area Fraction", 2:"cloud_area_fraction_in_atmosphere_layer", 3:"'unset'", 4:"CMIP5_cf3hr,CMIP5_cfDay,CMIP5_cfMon,CMIP5_cfOff" }, 
    272 { "id":268, 0:"rsutcs4co2",  1:"TOA Outgoing Clear-Sky Shortwave Radiation 4XCO2 Atmosphere", 2:"toa_outgoing_shortwave_flux_assuming_clear_sky", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    273 { "id":269, 0:"n2oClim",  1:"Mole Fraction of N2O", 2:"mole_fraction_of_nitrous_oxide_in_air", 3:"'unset'", 4:"CMIP5_Amon" }, 
    274 { "id":270, 0:"wmo",  1:"Upward Ocean Mass Transport", 2:"upward_ocean_mass_transport", 3:"'differs from CMIP3, which only had upward velocity.'", 4:"CMIP5_Omon,SPECS_Omon" }, 
    275 { "id":271, 0:"cLeaf",  1:"Carbon Mass in Leaves", 2:"leaf_carbon_content", 3:"'unset'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    276 { "id":272, 0:"cod",  1:"Cloud Optical Depth", 2:"atmosphere_optical_thickness_due_to_cloud", 3:"'This is the in-cloud optical depth obtained by considering only the cloudy portion of the grid cell.'", 4:"CCMI1_daily" }, 
    277 { "id":273, 0:"lwsnl",  1:"Liquid Water Content of Snow Layer", 2:"liquid_water_content_of_snow_layer", 3:"'where land over land: this is computed as the total mass of liquid water contained interstitially within the snow layer of the land portion of a grid cell divided by the area of the land portion of the cell.'", 4:"CMIP5_LImon" }, 
    278 { "id":274, 0:"rlut",  1:"TOA Outgoing Longwave Radiation", 2:"toa_outgoing_longwave_flux", 3:"'at the top of the atmosphere.'", 4:"CMIP5_day,CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem,SPECS_day" }, 
    279 { "id":275, 0:"fbddtdip",  1:"Rate of Change of Dissolved Inorganic Phosphate due to Biological Activity", 2:"tendency_of_ocean_mole_content_of_dissolved_inorganic_phosphorus_due_to_biological_processes", 3:"'vertical integral of net biological terms in time rate of change of phosphate'", 4:"CMIP5_Omon" }, 
    280 { "id":276, 0:"zmn2o5",  1:"Zonal Mean N2O5 Volume Mixing Ratio", 2:"mole_fraction_of_dinitrogen_pentoxide_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    281 { "id":277, 0:"hfsifrazil",  1:"Heat Flux into Sea Water due to Frazil Ice Formation", 2:"heat_flux_into_sea_water_due_to_freezing_of_frazil_ice", 3:"'unset'", 4:"CMIP5_Omon" }, 
    282 { "id":278, 0:"clwvi",  1:"Condensed Water Path", 2:"atmosphere_cloud_condensed_water_content", 3:"'mass of condensed (liquid + ice) water in the column divided by the area of the column (not just the area of the cloudy portion of the column). Includes precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites" }, 
    283 { "id":279, 0:"rldscs",  1:"Surface Downwelling Clear-Sky Longwave Radiation", 2:"surface_downwelling_longwave_flux_in_air_assuming_clear_sky", 3:"'unset'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfDay,CMIP5_cfSites" }, 
    284 { "id":280, 0:"hfbasin",  1:"Northward Ocean Heat Transport", 2:"northward_ocean_heat_transport", 3:"'unset'", 4:"CMIP5_Omon" }, 
    285 { "id":281, 0:"diftrbbo",  1:"Ocean Tracer Bolus Biharmonic Diffusivity", 2:"ocean_tracer_bolus_biharmonic_diffusivity", 3:"'unset'", 4:"CMIP5_Oclim" }, 
    286 { "id":282, 0:"cl",  1:"Cloud Area Fraction", 2:"cloud_area_fraction_in_atmosphere_layer", 3:"'Includes both large-scale and convective cloud.'", 4:"CMIP5_Amon,CMIP5_cfSites" }, 
    287 { "id":283, 0:"emibb",  1:"Total Emission of Primary Aerosol from Biomass Burning", 2:"tendency_of_atmosphere_mass_content_of_primary_particulate_organic_matter_dry_aerosol_due_to_emission", 3:"'tendency of atmosphere mass content of primary organic matter dry aerosol due to emission: This does not include sources of secondary aerosols from biomass burning aerosols, such as SO2 or SOA.'", 4:"CMIP5_aero" }, 
    288 { "id":284, 0:"tnsccwce",  1:"Tendency of Mass Fraction of Stratiform Cloud Condensed Water due to Condensation and Evaporation", 2:"tendency_of_mass_fraction_of_stratiform_cloud_condensed_water_in_air_due_to_condensation_and_evaporation", 3:"'condensed water includes both liquid and ice.'", 4:"CMIP5_cfMon" }, 
    289 { "id":285, 0:"sh50area188k",  1:"Area over the Antarctic at 50 hPa with Air Temperature Less and 188K", 2:"unset", 3:"'Daily Area where the Temperature poleward of 60 degrees is below 188 K at 50 hPa for July-Dec in SH'", 4:"CCMI1_daily" }, 
    290 { "id":286, 0:"mmrpm1",  1:"PM1.0 Mass Mixing Ratio at 50 Percent RH", 2:"mass_fraction_of_pm1_ambient_aerosol_in_air", 3:"'Must include scalar dimension relh50p specifying relative_humidity of 50%'", 4:"CCMI1_monthly" }, 
    291 { "id":287, 0:"evap",  1:"Water Evaporation Flux from Sea Ice", 2:"water_evaporation_flux", 3:"'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.  Reported as 0.0 in regions free of sea ice.  [This was computed differently in CMIP3.]'", 4:"CMIP5_OImon" }, 
    292 { "id":288, 0:"cllcalipso",  1:"CALIPSO Low Level Cloud Fraction", 2:"cloud_area_fraction_in_atmosphere_layer", 3:"'unset'", 4:"CMIP5_cf3hr,CMIP5_cfDay,CMIP5_cfMon,CMIP5_cfOff" }, 
    293 { "id":289, 0:"nh50area188k",  1:"Area over the Arctic at 50 hPa with Air Temperature Less than 188K", 2:"unset", 3:"'Daily Area where the Temperature poleward of 60 degrees is below 188 K at 50 hPa for Nov-April in NH'", 4:"CCMI1_daily" }, 
    294 { "id":290, 0:"cLitterAbove",  1:"Carbon Mass in Above-Ground Litter", 2:"surface_litter_carbon_content", 3:"'unset'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    295 { "id":291, 0:"rsntds",  1:"Net Downward Shortwave Radiation at Sea Water Surface", 2:"net_downward_shortwave_flux_at_sea_water_surface", 3:"'This is the flux into the surface of liquid sea water only. This excludes shortwave flux absorbed by sea ice, but includes any light that passes through the ice and is absorbed by the ocean.'", 4:"CMIP5_Omon" }, 
    296 { "id":292, 0:"rsdcs4co2",  1:"Downwelling Clear-Sky Shortwave Radiation 4XCO2 Atmosphere", 2:"downwelling_shortwave_flux_in_air_assuming_clear_sky", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    297 { "id":293, 0:"cclf2cf3brdn",  1:"Atmospheric Burden of CFC-115", 2:"atmosphere_moles_of_cfc115", 3:"'total yearly average burden'", 4:"CCMI1_annual" }, 
    298 { "id":294, 0:"dryo3",  1:"Dry Deposition Rate of O3", 2:"tendency_of_atmosphere_mass_content_of_ozone_due_to_dry_deposition", 3:"'Only for year 2006. dry deposition includes gravitational settling, impact scavenging, and turbulent deposition.'", 4:"CCMI1_hourly" }, 
    299 { "id":295, 0:"vmrhbr",  1:"HBr Volume Mixing Ratio", 2:"mole_fraction_of_hydrogen_bromide_in_air", 3:"''", 4:"CCMI1_daily" }, 
    300 { "id":296, 0:"pflw",  1:"Liquid Water Content of Permafrost Layer", 2:"liquid_water_content_of_permafrost_layer", 3:"'''where land over land'', i.e., this is the total mass of liquid water contained within the permafrost layer within the land portion of a grid cell divided by the area of the land portion of the cell.'", 4:"CMIP5_LImon" }, 
    301 { "id":297, 0:"wetnh4",  1:"Wet Deposition Rate of NH4+NH3", 2:"tendency_of_atmosphere_mass_content_of_ammonium_dry_aerosol_due_to_wet_deposition", 3:"'unset'", 4:"CMIP5_aero" }, 
    302 { "id":298, 0:"cropFrac",  1:"Crop Fraction", 2:"area_fraction", 3:"'fraction of entire grid cell  that is covered by crop.'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    303 { "id":299, 0:"tpp",  1:"Tropopause Pressure", 2:"unset", 3:"'Only required for the first day 00:00 UTC of each month. The tropopause follows the WMO definition and should be consistent with the the tropopause definition used for tpo3chm and lso3chm.'", 4:"CCMI1_daily" }, 
    304 { "id":300, 0:"cbr2f2brdn",  1:"Atmospheric Burden of Halon 1202", 2:"atmosphere_moles_of_halon1202", 3:"'total yearly average burden'", 4:"CCMI1_annual" }, 
    305 { "id":301, 0:"emipcb153",  1:"Total Emission of PCB-153", 2:"tendency_of_atmosphere_mass_content_of_hexachlorobiphenyl_due_to_emission", 3:"'integrate 3D emission field vertically to 2d field'", 4:"CCMI1_monthly" }, 
    306 { "id":302, 0:"ficeberg2d",  1:"Water Flux into Sea Water From Icebergs", 2:"water_flux_into_sea_water_from_icebergs", 3:"'computed as the iceberg melt water  flux into the ocean divided by the area of the ocean portion of the grid cell.'", 4:"CMIP5_Omon" }, 
    307 { "id":303, 0:"vorpot840",  1:"Potential Vorticity on 840K", 2:"ertel_potential_vorticity", 3:"'potential vorticity at 840 K'", 4:"CCMI1_daily" }, 
    308 { "id":304, 0:"chlpico",  1:"Mass Concentration of Picophytoplankton expressed as Chlorophyll in Sea Water at Surface", 2:"mass_concentration_of_picophytoplankton_expressed_as_chlorophyll_in_sea_water", 3:"'chlorophyll concentration from the picophytoplankton (<2 um) component alone'", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    309 { "id":305, 0:"ccmi_minute",  1:"CCMI Minute", 2:"unset", 3:"'These are what each model believes the date/time (Gregorian calendar) to be at the middle of each time interval in the output (GMT, not local time).'", 4:"CCMI1_annual,CCMI1_daily,CCMI1_hourly,CCMI1_monthly" }, 
    310 { "id":306, 0:"tasmin",  1:"Daily Minimum Near-Surface Air Temperature", 2:"air_temperature", 3:"'unset'", 4:"CMIP5_day,SPECS_day" }, 
    311 { "id":307, 0:"ch4brdn",  1:"Atmospheric Burden of CH4", 2:"atmosphere_moles_of_methane", 3:"'total yearly average burden'", 4:"CCMI1_annual" }, 
    312 { "id":308, 0:"intdic",  1:"Dissolved Inorganic Carbon Content", 2:"ocean_mass_content_of_dissolved_inorganic_carbon", 3:"'Vertically integrated DIC'", 4:"CMIP5_Omon" }, 
    313 { "id":309, 0:"wmosq",  1:"Square of Upward Ocean Mass Transport", 2:"square_of_upward_ocean_mass_transport", 3:"'unset'", 4:"CMIP5_Omon" }, 
    314 { "id":310, 0:"hur",  1:"Relative Humidity", 2:"relative_humidity", 3:"'This is the relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C.'", 4:"CMIP5_Amon,CMIP5_cfDay,CMIP5_cfMon,CMIP5_cfSites,CMIP5_day" }, 
    315 { "id":311, 0:"cl",  1:"Cloud Area Fraction in Atmosphere Layer", 2:"cloud_area_fraction_in_atmosphere_layer", 3:"'unset'", 4:"CMIP5_cfDay" }, 
    316 { "id":312, 0:"diftrxybo",  1:"Ocean Tracer XY Biharmonic Diffusivity", 2:"ocean_tracer_xy_biharmonic_diffusivity", 3:"'unset'", 4:"CMIP5_Oclim" }, 
    317 { "id":313, 0:"diabdrag",  1:"Tendency of Eastward Wind from Numerical Artefacts", 2:"tendency_of_eastward_wind_due_to_numerical_artefacts", 3:"'Other sub-grid scale/numerical zonal drag excluding that already provided for the parameterized orographic and non-ororgraphic gravity waves. This would be used to calculate the total 'diabatic drag'. Contributions to this additional drag such Rayleigh friction and diffusion that can be calculated from the monthly mean wind fields should not be included, but details (e.g. coefficients) of the friction and/or diffusion used in the model should be provided separately.'", 4:"CCMI1_monthly" }, 
    318 { "id":314, 0:"rsu",  1:"Upwelling Shortwave Radiation", 2:"upwelling_shortwave_flux_in_air", 3:"'unset'", 4:"CMIP5_cfSites" }, 
    319 { "id":315, 0:"rsu4co2",  1:"Upwelling Shortwave Radiation 4XCO2 Atmosphere", 2:"upwelling_shortwave_flux_in_air", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    320 { "id":316, 0:"ch3ccl2fbrdn",  1:"Atmospheric Burden of CH3CCl2F", 2:"atmosphere_moles_of_hcfc141b", 3:"'total yearly average burden'", 4:"CCMI1_annual" }, 
    321 { "id":317, 0:"pastureFrac",  1:"Anthropogenic Pasture Fraction", 2:"area_fraction", 3:"'fraction of entire grid cell  that is covered by anthropogenic pasture.'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    322 { "id":318, 0:"emico",  1:"Total Emission Rate of CO", 2:"tendency_of_atmosphere_mass_content_of_carbon_monoxide_due_to_emission", 3:"'Integrate 3D emission field vertically to 2d field.'", 4:"CCMI1_monthly" }, 
    323 { "id":319, 0:"clc",  1:"Convective Cloud Area Fraction", 2:"convective_cloud_area_fraction_in_atmosphere_layer", 3:"'Include only convective cloud.'", 4:"CCMI1_daily" }, 
    324 { "id":320, 0:"concnh4",  1:"Concentration of NH4", 2:"mass_concentration_of_ammonium_dry_aerosol_in_air", 3:"'unset'", 4:"CMIP5_aero" }, 
    325 { "id":321, 0:"emiisop",  1:"Total Emission Rate of Isoprene", 2:"tendency_of_atmosphere_mass_content_of_isoprene_due_to_emission", 3:"'Integrate 3D emission field vertically to 2d field'", 4:"CCMI1_monthly" }, 
    326 { "id":322, 0:"msftyyzba",  1:"Ocean Y Overturning Mass Streamfunction due to Bolus Advection", 2:"ocean_y_overturning_mass_streamfunction_due_to_bolus_advection", 3:"'unset'", 4:"CMIP5_Omon" }, 
    327 { "id":323, 0:"rldcs",  1:"Downwelling Clear-Sky Longwave Radiation", 2:"downwelling_longwave_flux_in_air_assuming_clear_sky", 3:"'unset'", 4:"CMIP5_cfSites" }, 
    328 { "id":324, 0:"rls",  1:"Net longwave surface radiation", 2:"surface_net_downward_longwave_flux", 3:"'unset'", 4:"SPECS_Amon,SPECS_day" }, 
    329 { "id":325, 0:"n2otbrdn",  1:"Tendency of Atmospheric Burden of Nitrous Oxide", 2:"tendency_of_atmosphere_moles_of_nitrous_oxide", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }, 
    330 { "id":326, 0:"ps",  1:"Surface Air Pressure", 2:"surface_air_pressure", 3:"'sampled synoptically to diagnose atmospheric tides, this is better than mean sea level pressure.'", 4:"CMIP5_3hr" }, 
    331 { "id":327, 0:"graz",  1:"Total Grazing of Phytoplankton by Zooplankton", 2:"tendency_of_mole_concentration_of_dissolved_iron_in_sea_water_due_to_grazing_of_phytoplankton", 3:"'unset'", 4:"CMIP5_Oyr" }, 
    332 { "id":328, 0:"tnkebto2d",  1:"Tendency of Ocean Eddy Kinetic Energy Content due to Bolus Transport", 2:"tendency_of_ocean_eddy_kinetic_energy_content_due_to_bolus_transport", 3:"'unset'", 4:"CMIP5_Oclim" }, 
    333 { "id":329, 0:"clws",  1:"Mass Fraction of Stratiform Cloud Liquid Water", 2:"mass_fraction_of_stratiform_cloud_liquid_water_in_air", 3:"'Calculated as the mass of stratiform cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.'", 4:"CMIP5_cf3hr,CMIP5_cfMon" }, 
    334 { "id":330, 0:"eparag100",  1:"Downward Flux of Aragonite", 2:"sinking_mole_flux_of_aragonite_expressed_as_carbon_in_sea_water", 3:"'unset'", 4:"CMIP5_Omon" }, 
    335 { "id":331, 0:"concoa",  1:"Concentration of Dry Aerosol Organic Matter", 2:"mass_concentration_of_particulate_organic_matter_dry_aerosol_in_air", 3:"'unset'", 4:"CMIP5_aero" }, 
    336 { "id":332, 0:"airmass",  1:"Vertically Integrated Mass Content of Air in Layer", 2:"atmosphere_mass_of_air_per_unit_area", 3:"''", 4:"CCMI1_monthly" }, 
    337 { "id":333, 0:"mmraerso4",  1:"Aerosol Sulfate Mass Mixing Ratio", 2:"mass_fraction_of_sulfate_dry_aerosol_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    338 { "id":334, 0:"thetao",  1:"Sea Water Potential Temperature", 2:"sea_water_potential_temperature", 3:"'unset'", 4:"CMIP5_Omon" }, 
    339 { "id":335, 0:"gpp",  1:"Carbon Mass Flux out of Atmosphere due to Gross Primary Production on Land", 2:"gross_primary_productivity_of_carbon", 3:"'unset'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    340 { "id":336, 0:"lossch4",  1:"Rate of CH4 Oxidation", 2:"unset", 3:"'proposed name: tendency_of_mole_concentration_of_methane_due_to_chemical_gross_destruction'", 4:"CCMI1_monthly" }, 
    341 { "id":337, 0:"rsutcs",  1:"TOA Outgoing Clear-Sky Shortwave Radiation", 2:"toa_outgoing_shortwave_flux_assuming_clear_sky", 3:"'unset'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfDay,CMIP5_cfSites" }, 
    342 { "id":338, 0:"ccl2fcclf2brdn",  1:"Atmospheric Burden of CFC-113", 2:"atmosphere_moles_of_cfc113", 3:"'total yearly average burden'", 4:"CCMI1_annual" }, 
    343 { "id":339, 0:"vmrco50eu700",  1:"co_50_eu Volume Mixing Ratio at 700 hPa", 2:"unset", 3:"'daily mean, emitted as anthropogenic CO over Europe (25N-65N; 10W-50E) (emission file available from HTAP), uniform fixed 50-day exponential decay.'", 4:"CCMI1_daily" }, 
    344 { "id":340, 0:"strocny",  1:"Y-Component of Ocean Stress On Sea Ice", 2:"upward_y_stress_at_sea_ice_base", 3:"'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.   Reported as ''missing'' in regions free of sea ice.'", 4:"CMIP5_OImon,SPECS_OImon" }, 
    345 { "id":341, 0:"rld4co2",  1:"Downwelling Longwave Radiation 4XCO2 Atmosphere", 2:"downwelling_longwave_flux_in_air", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    346 { "id":342, 0:"longitude",  1:"Longitude", 2:"longitude", 3:"'unset'", 4:"CMIP5_cf3hr,CMIP5_cfSites" }, 
    347 { "id":343, 0:"prodo3viach3o2",  1:"Chemical Production Rate of O3 via CH3O2+NO", 2:"unset", 3:"'proposed name: tendency_of_mole_concentration_of_ozone_due_to_chemical_production_by_CH3O2_plus_NO'", 4:"CCMI1_monthly" }, 
    348 { "id":344, 0:"reffclwtop",  1:"Cloud-Top Effective Droplet Radius", 2:"effective_radius_of_cloud_liquid_water_particle_at_liquid_water_cloud_top", 3:"'Droplets are liquid only.  This is the effective radius ''as seen from space'' over liquid cloudy portion of grid cell.  This is the value from uppermost model layer with liquid cloud or, if available, or for some models it is the sum over all liquid cloud tops, no matter where they occur, as long as they are seen from the top of the atmosphere. Reported values are weighted by total liquid cloud top fraction of  (as seen from TOA) each time sample when computing monthly mean.'", 4:"CMIP5_aero" }, 
    349 { "id":345, 0:"tdps",  1:"2m dewpoint temperature", 2:"dew_point_temperature", 3:"'unset'", 4:"SPECS_6hr" }, 
    350 { "id":346, 0:"concbb",  1:"Concentration of Biomass Burning Aerosol", 2:"mass_concentration_of_biomass_burning_dry_aerosol_in_air", 3:"'unset'", 4:"CMIP5_aero" }, 
    351 { "id":347, 0:"dryss",  1:"Dry Deposition Rate of Seasalt", 2:"tendency_of_atmosphere_mass_content_of_seasalt_dry_aerosol_due_to_dry_deposition", 3:"'unset'", 4:"CMIP5_aero" }, 
    352 { "id":348, 0:"co2massClim",  1:"Total Atmospheric Mass of CO2", 2:"atmosphere_mass_of_carbon_dioxide", 3:"'unset'", 4:"CMIP5_Amon" }, 
    353 { "id":349, 0:"difmxybo2d",  1:"Ocean Momentum XY Biharmonic Diffusivity", 2:"ocean_momentum_xy_biharmonic_diffusivity", 3:"'unset'", 4:"CMIP5_Oclim" }, 
    354 { "id":350, 0:"emiso4",  1:"Total Direct Emission Rate of SO4", 2:"tendency_of_atmosphere_mass_content_of_sulfate_dry_aerosol_due_to_emission", 3:"'expressed as a tendency of atmosphere mass content of SO4.  Direct emission does not include secondary sulfate production.'", 4:"CMIP5_aero" }, 
    355 { "id":351, 0:"intpp",  1:"Primary Organic Carbon Production by All Types of Phytoplankton", 2:"net_primary_mole_productivity_of_carbon_by_phytoplankton", 3:"'Vertically integrated total primary (organic carbon) production by phytoplankton.  This should equal the sum of intpdiat+intpphymisc, but those individual components may be unavailable in some models.'", 4:"CMIP5_Omon" }, 
    356 { "id":352, 0:"asyaer",  1:"Asymmetry Parameter", 2:"unset", 3:"''", 4:"CCMI1_monthly" }, 
    357 { "id":353, 0:"vmrch3cn",  1:"CH3CN Volume Mixing Ratio", 2:"mole_fraction_of_aceto_nitrile_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    358 { "id":354, 0:"va",  1:"Northward Wind", 2:"northward_wind", 3:"'unset'", 4:"CMIP5_6hrLev,CMIP5_6hrPlev,CMIP5_Amon,CMIP5_cfDay,CMIP5_cfSites,CMIP5_day,SPECS_Amon,SPECS_day" }, 
    359 { "id":355, 0:"swtoacsbb",  1:"Clear-Sky SW-RF BB at TOA", 2:"unset", 3:"'proposed name: toa_instantaneous_shortwave_forcing_due_to_biomass_burning_ambient_aerosol_assuming_clear_sky'", 4:"CCMI1_monthly" }, 
    360 { "id":356, 0:"po4",  1:"Dissolved Phosphate Concentration at Surface", 2:"mole_concentration_of_phosphate_in_sea_water", 3:"'unset'", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    361 { "id":357, 0:"so",  1:"Sea Water Salinity", 2:"sea_water_salinity", 3:"'unset'", 4:"CMIP5_Omon" }, 
    362 { "id":358, 0:"ua",  1:"Eastward Wind", 2:"eastward_wind", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }, 
    363 { "id":359, 0:"ch2fcf3trtbrdn",  1:"Tendency of Tropospheric Burden of CH2FCF3", 2:"unset", 3:"'total yearly averaged tropospheric loss'", 4:"CCMI1_annual" }, 
    364 { "id":360, 0:"zmhno4",  1:"Zonal Mean HNO4 Volume Mixing Ratio", 2:"mole_fraction_of_peroxynitric_acid_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    365 { "id":361, 0:"sit",  1:"Sea Ice Thickness", 2:"sea_ice_thickness", 3:"'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).  Reported as 0.0 in regions free of sea ice.'", 4:"CMIP5_OImon,CMIP5_day,SPECS_OImon,SPECS_day" }, 
    366 { "id":362, 0:"thetaoga",  1:"Global Average Sea Water Potential Temperature", 2:"sea_water_potential_temperature", 3:"'unset'", 4:"CMIP5_Omon" }, 
    367 { "id":363, 0:"tas",  1:"Near-Surface Air Temperature", 2:"air_temperature", 3:"'near-surface (usually, 2 meter) air temperature'", 4:"CCMI1_daily" }, 
    368 { "id":364, 0:"tauv",  1:"Surface Downward Northward Wind Stress", 2:"surface_downward_northward_stress", 3:"'unset'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites,CORDEX_6h,CORDEX_day,SPECS_Amon,SPECS_day" }, 
    369 { "id":365, 0:"evspsblpot",  1:"Potential Evapotranspiration", 2:"water_potential_evaporation_flux", 3:"'at surface; potential flux of water into the atmosphere due to conversion of both liquid and solid phases to vapor (from underlying surface and vegetation)'", 4:"CORDEX_6h,CORDEX_day" }, 
    370 { "id":366, 0:"drynoy",  1:"Dry Deposition Rate of NOy", 2:"unset", 3:"'NOy is the sum of all simulated oxidized nitrogen species out of NO, NO2, HNO3, HNO4, NO3aerosol, NO3(radical), N2O5, PAN, other organic nitrates. Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition.'", 4:"CCMI1_monthly" }, 
    371 { "id":367, 0:"rlu4co2",  1:"Upwelling Longwave Radiation 4XCO2 Atmosphere", 2:"upwelling_longwave_flux_in_air", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    372 { "id":368, 0:"rGrowth",  1:"Carbon Mass Flux into Atmosphere due to Growth Autotrophic Respiration on Land", 2:"surface_upward_carbon_mass_flux_due_to_plant_respiration_for_biomass_growth", 3:"'unset'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    373 { "id":369, 0:"edt",  1:"Eddy Diffusivity Coefficient for Temperature Variable", 2:"atmosphere_heat_diffusivity", 3:"'unset'", 4:"CMIP5_cfSites" }, 
    374 { "id":370, 0:"phyp",  1:"Phytoplankton Phosphorus Concentration at Surface", 2:"mole_concentration_of_phytoplankton_expressed_as_phosphorus_in_sea_water", 3:"'sum of phytoplankton phosphorus components'", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    375 { "id":371, 0:"pp",  1:"Primary Carbon Production by Phytoplankton", 2:"tendency_of_mole_concentration_of_particulate_organic_matter_expressed_as_carbon_in_sea_water_due_to_net_primary_production", 3:"'total primary (organic carbon) production by phytoplankton'", 4:"CMIP5_Oyr" }, 
    376 { "id":372, 0:"va500",  1:"Northward Wind at 500 hPa", 2:"northward_wind", 3:"'Meridional wind on the 500 hPa surface'", 4:"CCMI1_daily" }, 
    377 { "id":373, 0:"zmua",  1:"Zonal Mean Eastward Wind", 2:"eastward_wind", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }, 
    378 { "id":374, 0:"sfmmrdust",  1:"Dust Aerosol Mass Mixing Ratio in Lowest Model Layer", 2:"mass_fraction_of_dust_dry_aerosol_in_air", 3:"'dust'", 4:"CCMI1_daily" }, 
    379 { "id":375, 0:"od550no3",  1:"Nitrate AOD at 550nm", 2:"unset", 3:"'proposed name: atmosphere_optical_thickness_due_to_nitrate_ambient_aerosol'", 4:"CCMI1_monthly" }, 
    380 { "id":376, 0:"accelnogw",  1:"Tendency of Eastward Wind from Non-Oro GWD", 2:"tendency_of_eastward_wind_due_to_nonorographic_gravity_wave_drag", 3:"'Eastward acceleration from the parameterized non-orographic gravity wave drag (NOGWD) derived either from daily means or 6hr fields (use instantaneous daily fields or 12 hr fields if the 6 hr data are not available). Use the accelerations as applied in your model.'", 4:"CCMI1_monthly" }, 
    381 { "id":377, 0:"tnsclimcl",  1:"Tendency of Mass Fraction of Stratiform Cloud Ice due to Melting to Cloud Liquid", 2:"tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_melting_to_cloud_liquid_water", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    382 { "id":378, 0:"vmrn2o5",  1:"N2O5 Volume Mixing Ratio", 2:"mole_fraction_of_dinitrogen_pentoxide_in_air", 3:"''", 4:"CCMI1_daily" }, 
    383 { "id":379, 0:"demc",  1:"Convective Cloud Emissivity", 2:"convective_cloud_longwave_emissivity", 3:"'This is the in-cloud emissivity obtained by considering only the cloudy portion of the grid cell.'", 4:"CMIP5_cf3hr" }, 
    384 { "id":380, 0:"swtoaasch4",  1:"All-Sky SW-RF CH4 at TOA", 2:"unset", 3:"'proposed name: toa_instantaneous_shortwave_forcing_due_to_methane'", 4:"CCMI1_monthly" }, 
    385 { "id":381, 0:"zsatcalc",  1:"Calcite Saturation Depth", 2:"minimum_depth_of_calcite_undersaturation_in_sea_water", 3:"'Depth of calcite saturation horizon (0 if < surface, ''missing'' if > bottom, if two, then the shallower)'", 4:"CMIP5_Omon" }, 
    386 { "id":382, 0:"ra",  1:"Carbon Mass Flux into Atmosphere due to Autotrophic (Plant) Respiration on Land", 2:"plant_respiration_carbon_flux", 3:"'unset'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    387 { "id":383, 0:"wetso4",  1:"Wet Deposition Rate of SO4", 2:"tendency_of_atmosphere_mass_content_of_sulfate_expressed_as_sulfur_dry_aerosol_due_to_wet_deposition", 3:"'unset'", 4:"CMIP5_aero" }, 
    388 { "id":384, 0:"nogwfluxw",  1:"Zonal Component of Upward Momentum Flux by Westward Propagating Non-Oro GWs", 2:"upward_eastward_momentum_flux_in_air_due_to_nonorographic_westward_gravity_waves", 3:"'Zonal component (positive eastward) of the non-orographic gravity wave momentum flux carried by westward propagating waves, including any flux out of the top of the model (e.g., add additional level to the output file for model top. Set flux at this level to zero if nothing escapes to outer space in your model). Derived either from daily means or 6hr fields (use instantaneous daily fields or 12 hr fields if the 6 hr data are not available).'", 4:"CCMI1_monthly" }, 
    389 { "id":385, 0:"cltcalipso",  1:"CALIPSO Total Cloud Fraction", 2:"cloud_area_fraction", 3:"'unset'", 4:"CMIP5_cf3hr,CMIP5_cfDay,CMIP5_cfMon,CMIP5_cfOff" }, 
    390 { "id":386, 0:"zossga",  1:"Global Average Steric Sea Level Change", 2:"global_average_steric_sea_level_change", 3:"'unset'", 4:"CMIP5_Omon" }, 
    391 { "id":387, 0:"vmrhno4",  1:"HNO4 Volume Mixing Ratio", 2:"mole_fraction_of_peroxynitric_acid_in_air", 3:"''", 4:"CCMI1_daily" }, 
    392 { "id":388, 0:"concsoa",  1:"Concentration of Dry Aerosol Secondary Organic Matter", 2:"mass_concentration_of_secondary_particulate_organic_matter_dry_aerosol_in_air", 3:"'unset'", 4:"CMIP5_aero" }, 
    393 { "id":389, 0:"sconcso4",  1:"Surface Concentration of SO4", 2:"mass_concentration_of_sulfate_dry_aerosol_in_air", 3:"'mass concentration of sulfate dry aerosol in air in model lowest layer.'", 4:"CMIP5_aero" }, 
    394 { "id":390, 0:"tnsclwhon",  1:"Tendency of Mass Fraction of Stratiform Cloud Liquid Water due to Homogeneous Nucleation", 2:"tendency_of_mass_fraction_of_stratiform_cloud_liquid_water_in_air_due_to_homogeneous_nucleation", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    395 { "id":391, 0:"vmrhno3",  1:"HNO3 Volume Mixing Ratio", 2:"mole_fraction_of_nitric_acid_in_air", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }, 
    396 { "id":392, 0:"pmlev",  1:"Air Pressure", 2:"air_pressure", 3:"'The atmospheric pressure at the model layer midpoints for all times and levels in the associated output variables'", 4:"CCMI1_daily,CCMI1_monthly" }, 
    397 { "id":393, 0:"va500",  1:"Northward Wind", 2:"northward_wind", 3:"'unset'", 4:"CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem" }, 
    398 { "id":394, 0:"dryso4",  1:"Dry Deposition Rate of SO4", 2:"tendency_of_atmosphere_mass_content_of_sulfate_dry_aerosol_due_to_dry_deposition", 3:"'dry deposition includes gravitational settling, impact scavenging, and turbulent deposition'", 4:"CCMI1_monthly" }, 
    399 { "id":395, 0:"zmtnt",  1:"Zonal Mean Diabatic Heating Rates", 2:"tendency_of_air_temperature_due_to_diabatic_processes", 3:"'The diabatic heating rates due to all the processes that may change potential temperature'", 4:"CCMI1_monthly" }, 
    400 { "id":396, 0:"ch3brbrdn",  1:"Atmospheric Burden of CH3Br", 2:"atmosphere_moles_of_methyl_bromide", 3:"'total yearly average burden'", 4:"CCMI1_annual" }, 
    401 { "id":397, 0:"swtoaassoa",  1:"All-Sky SW-RF SOA at TOA", 2:"unset", 3:"'proposed name: toa_instantaneous_shortwave_forcing_due_to_secondary_particulate_organic_matter_ambient_aerosol'", 4:"CCMI1_monthly" }, 
    402 { "id":398, 0:"tnsclia",  1:"Tendency of Mass Fraction of Stratiform Cloud Ice due to Advection", 2:"tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_advection", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    403 { "id":399, 0:"chclf2brdn",  1:"Atmospheric Burden of CHClF2", 2:"atmosphere_moles_of_hcfc22", 3:"'total yearly average burden'", 4:"CCMI1_annual" }, 
    404 { "id":400, 0:"dpco2",  1:"Delta PCO2", 2:"surface_carbon_dioxide_partial_pressure_difference_between_sea_water_and_air", 3:"'unset'", 4:"CMIP5_Omon" }, 
    405 { "id":401, 0:"diftrelo2d",  1:"Ocean Tracer Epineutral Laplacian Diffusivity", 2:"ocean_tracer_epineutral_laplacian_diffusivity", 3:"'unset'", 4:"CMIP5_Oclim" }, 
    406 { "id":402, 0:"cls",  1:"Stratiform Cloud Area Fraction", 2:"stratiform_cloud_area_fraction_in_atmosphere_layer", 3:"'unset'", 4:"CMIP5_cf3hr,CMIP5_cfMon" }, 
    407 { "id":403, 0:"emipom",  1:"Total Emission of POM", 2:"unset", 3:"'Integrate 3D emission field vertically to 2d field. we recommend a scale factor of POM=1.4*OC; unless your model has more detailed info available'", 4:"CCMI1_monthly" }, 
    408 { "id":404, 0:"vmrhocl",  1:"HOCl Volume Mixing Ratio", 2:"mole_fraction_of_hypochlorous_acid_in_air", 3:"''", 4:"CCMI1_daily" }, 
    409 { "id":405, 0:"vmrch3ccl3",  1:"CH3CCl3 Volume Mixing Ratio", 2:"mole_fraction_of_hcc140a_in_air", 3:"'for the period 1980-2011 by ACTM.'", 4:"CCMI1_monthly" }, 
    410 { "id":406, 0:"vmrcl",  1:"Atomic Cl Volume Mixing Ratio", 2:"mole_fraction_of_atomic_chlorine_in_air", 3:"''", 4:"CCMI1_daily" }, 
    411 { "id":407, 0:"ch3ccl3trtbrdn",  1:"Tendency of Tropospheric Burden of CH3CCl3", 2:"tendency_of_troposphere_moles_of_hcc140a", 3:"'total yearly averaged tropospheric loss'", 4:"CCMI1_annual" }, 
    412 { "id":408, 0:"cldncl",  1:"Cloud Droplet Number Concentration of Cloud Tops", 2:"number_concentration_of_cloud_liquid_water_particles_in_air_at_liquid_water_cloud_top", 3:"'Droplets are liquid only.  Report concentration ''as seen from space'' over liquid cloudy portion of grid cell.  This is the value from uppermost model layer with liquid cloud or, if available, it is better to sum over all liquid cloud tops, no matter where they occur, as long as they are seen from the top of the atmosphere. Weight by total liquid cloud top fraction of  (as seen from TOA) each time sample when computing monthly mean.'", 4:"CMIP5_aero" }, 
    413 { "id":409, 0:"intpmisc",  1:"Primary Organic Carbon Production by Other Phytoplankton", 2:"net_primary_mole_productivity_of_carbon_by_miscellaneous_phytoplankton", 3:"'Vertically integrated total primary (organic carbon) production by other phytoplankton components alone'", 4:"CMIP5_Omon" }, 
    414 { "id":410, 0:"wetnoy",  1:"Wet Deposition of NOy incl aerosol nitrate", 2:"unset", 3:"'proposed name: tendency_of_atmosphere_mass_content_of_all_nitrogen_oxides_due_to_wet_deposition. NOy is the sum of all simulated oxidized nitrogen species, out of NO, NO2, HNO3, HNO4, NO3aerosol, NO3(radical), N2O5, PAN, other organic nitrates.'", 4:"CCMI1_monthly" }, 
    415 { "id":411, 0:"wap500",  1:"omega (=dp/dt)", 2:"lagrangian_tendency_of_air_pressure", 3:"'at 500 hPa level; commonly referred to as ''omega'', this represents the vertical component of velocity in pressure coordinates (positive down)'", 4:"CMIP5_cfDay" }, 
    416 { "id":412, 0:"msftmyzaba",  1:"Meridional Mass Streamfunction in the Atlantic Due to Bolus Advection", 2:"ocean_meridional_overturning_mass_streamfunction_due_to_bolus_advection", 3:"'unset'", 4:"SPECS_Omon" }, 
    417 { "id":413, 0:"sh50area195k",  1:"Area over the Antarctic at 50 hPa with Air Temperature Less and 195K", 2:"unset", 3:"'Daily Area where the Temperature poleward of 60 degrees is below 195 K at 50 hPa for July-Dec in SH'", 4:"CCMI1_daily" }, 
    418 { "id":414, 0:"va10",  1:"Northward Wind at 10 hPa", 2:"northward_wind", 3:"'Meridional wind on the 10 hPa surface'", 4:"CCMI1_daily" }, 
    419 { "id":415, 0:"rsus",  1:"Surface Upwelling Shortwave Radiation", 2:"surface_upwelling_shortwave_flux_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    420 { "id":416, 0:"cbr2f2tbrdn",  1:"Tendency of Atmospheric Burden of Halon 1202", 2:"tendency_of_atmosphere_moles_of_halon1202", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }, 
    421 { "id":417, 0:"prhmax",  1:"Daily Maximum Hourly Precipitation Rate", 2:"precipitation_flux", 3:"''", 4:"CORDEX_day" }, 
    422 { "id":418, 0:"tasmax",  1:"Daily Maximum Near-Surface Air Temperature", 2:"air_temperature", 3:"'daily-maximum near-surface (usually, 2 meter) air temperature.'", 4:"CORDEX_day,CORDEX_mon,CORDEX_sem" }, 
    423 { "id":419, 0:"vsf",  1:"Virtual Salt Flux into Sea Water", 2:"virtual_salt_flux_into_sea_water", 3:"'unset'", 4:"CMIP5_Omon" }, 
    424 { "id":420, 0:"sftgif",  1:"Fraction of Grid Cell Covered with Glacier", 2:"land_ice_area_fraction", 3:"'fraction of grid cell occupied by ''permanent'' ice (i.e., glaciers).'", 4:"CMIP5_fx,SPECS_fx" }, 
    425 { "id":421, 0:"ttop",  1:"Air Temperature at Cloud Top", 2:"air_temperature_at_cloud_top", 3:"''", 4:"CCMI1_monthly" }, 
    426 { "id":422, 0:"eminh3",  1:"Total Emission Rate of NH3", 2:"tendency_of_atmosphere_mass_content_of_ammonia_due_to_emission", 3:"'Integrate 3D emission field vertically to 2d field.'", 4:"CCMI1_monthly" }, 
    427 { "id":423, 0:"rss",  1:"Net shortwave surface radiation", 2:"surface_net_downward_shortwave_flux", 3:"'unset'", 4:"SPECS_day" }, 
    428 { "id":424, 0:"tntlw",  1:"Longwave Heating Rate", 2:"tendency_of_air_temperature_due_to_longwave_heating", 3:"'longwave heating rates'", 4:"CCMI1_daily,CCMI1_monthly" }, 
    429 { "id":425, 0:"cCwd",  1:"Carbon Mass in Coarse Woody Debris", 2:"wood_debris_carbon_content", 3:"'unset'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    430 { "id":426, 0:"tsl",  1:"Temperature of Soil", 2:"soil_temperature", 3:"''Temperature of each soil layer.  Reported as ''missing'' for grid cells occupied entirely by ''sea''.''", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    431 { "id":427, 0:"evspsblsoi",  1:"Water Evaporation from Soil", 2:"water_evaporation_flux_from_soil", 3:"'includes sublimation.'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    432 { "id":428, 0:"bacc",  1:"Bacterial Carbon Concentration at Surface", 2:"mole_concentration_of_bacteria_expressed_as_carbon_in_sea_water", 3:"'sum of bacterial carbon component concentrations'", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    433 { "id":429, 0:"lwtropaso3",  1:"All-Sky LW-RF O3 at Tropopause", 2:"unset", 3:"'proposed name: tropopause_instantaneous_longwave_forcing_due_to_ozone'", 4:"CCMI1_monthly" }, 
    434 { "id":430, 0:"dispkexyfo",  1:"Ocean Kinetic Energy Dissipation Per Unit Area due to XY Friction", 2:"ocean_kinetic_energy_dissipation_per_unit_area_due_to_xy_friction", 3:"'unset'", 4:"CMIP5_Oclim" }, 
    435 { "id":431, 0:"vmroh",  1:"OH Volume Mixing Ratio", 2:"mole_fraction_of_hydroxyl_radical_in_air", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }, 
    436 { "id":432, 0:"emiaso2",  1:"Anthropogenic Emission Rate of SO2", 2:"unset", 3:"'Includes agricultural waste burning but no other biomass burning. proposed name: tendency_of_atmosphere_mass_content_of_anthropogenic_sulfur_dioxide_due_to_emission. Integrate 3D emission field vertically to 2d field.'", 4:"CCMI1_monthly" }, 
    437 { "id":433, 0:"fediss",  1:"Particle Source of Dissolved Iron", 2:"tendency_of_mole_concentration_of_dissolved_iron_in_sea_water_due_to_dissolution_from_inorganic_particles", 3:"'Dissolution, remineralization and desorption of iron back to the dissolved phase'", 4:"CMIP5_Oyr" }, 
    438 { "id":434, 0:"swtoaasbb",  1:"All-Sky SW-RF BB at TOA", 2:"unset", 3:"'proposed name: toa_instantaneous_shortwave_forcing_due_to_biomass_burning_ambient_aerosol'", 4:"CCMI1_monthly" }, 
    439 { "id":435, 0:"hfnorthba",  1:"Northward Ocean Heat Transport due to Bolus Advection", 2:"northward_ocean_heat_transport_due_to_bolus_advection", 3:"'unset'", 4:"CMIP5_Omon" }, 
    440 { "id":436, 0:"n2obrdn",  1:"Atmospheric Burden of Nitrous Oxide", 2:"atmosphere_moles_of_nitrous_oxide", 3:"'total yearly average burden'", 4:"CCMI1_annual" }, 
    441 { "id":437, 0:"tnt",  1:"Tendency of Air Temperature", 2:"tendency_of_air_temperature", 3:"'unset'", 4:"CMIP5_cfMon,CMIP5_cfSites" }, 
    442 { "id":438, 0:"snd",  1:"Snow Depth", 2:"surface_snow_thickness", 3:"'where land over land, this is computed as the mean thickness of snow in the land portion of the grid cell (averaging over the entire land portion, including the snow-free fraction).  Reported as 0.0 where the land fraction is 0.'", 4:"CMIP5_LImon" }, 
    443 { "id":439, 0:"mrlsl",  1:"Water Content of Soil Layer", 2:"moisture_content_of_soil_layer", 3:"'in each soil layer, the mass of water in all phases, including ice.  Reported as ''missing'' for grid cells occupied entirely by ''sea'''", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    444 { "id":440, 0:"clh",  1:"High Level Cloud Fraction", 2:"cloud_area_fraction_in_atmosphere_layer", 3:"'p<440 hPa'", 4:"CORDEX_6h,CORDEX_day" }, 
    445 { "id":441, 0:"hus",  1:"Specific Humidity", 2:"specific_humidity", 3:"''", 4:"CCMI1_monthly" }, 
    446 { "id":442, 0:"vmrco50",  1:"co_50 Volume Mixing Ratio", 2:"unset", 3:"'emitted as anthropogenic CO (emission file available from HTAP), uniform fixed 50-day exponential decay.'", 4:"CCMI1_monthly" }, 
    447 { "id":443, 0:"basin",  1:"Region Selection Index", 2:"region", 3:"'unset'", 4:"CMIP5_fx,SPECS_fx" }, 
    448 { "id":444, 0:"swtoaasno3",  1:"All-Sky SW-RF NO3 at TOA", 2:"unset", 3:"'proposed name: toa_instantaneous_shortwave_forcing_due_to_nitrate_ambient_aerosol'", 4:"CCMI1_monthly" }, 
    449 { "id":445, 0:"sci",  1:"Fraction of Time Shallow Convection Occurs", 2:"shallow_convection_time_fraction", 3:"'Fraction of time that shallow convection occurs in the grid cell.'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites" }, 
    450 { "id":446, 0:"vmrcfcl3",  1:"CFCl3 Volume Mixing Ratio", 2:"mole_fraction_of_cfc11_in_air", 3:"''", 4:"CCMI1_daily" }, 
    451 { "id":447, 0:"lossro2viaro2",  1:"Reaction Rate of RO2+RO2", 2:"unset", 3:"'3-d distribution of RO2+RO2 reaction fluxes. R refers to the organic peroxy radical pool.'", 4:"CCMI1_monthly" }, 
    452 { "id":448, 0:"tnsclwar",  1:"Tendency of Mass Fraction of Stratiform Cloud Liquid Water due to Accretion to Rain", 2:"tendency_of_mass_fraction_of_stratiform_cloud_liquid_water_in_air_due_to_accretion_to_rain", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    453 { "id":449, 0:"losso1dviah2o",  1:"Rate of O1D+H2O", 2:"unset", 3:"'3-d distribution of k*[O1D]*[H2O]'", 4:"CCMI1_monthly" }, 
    454 { "id":450, 0:"sfcWind",  1:"Near-Surface Wind Speed", 2:"wind_speed", 3:"'near-surface (usually, 10 meters) wind speed.'", 4:"CORDEX_3h,CORDEX_day,CORDEX_mon,CORDEX_sem" }, 
    455 { "id":451, 0:"phypico",  1:"Mole Concentration of Picophytoplankton expressed as Carbon in Sea Water at Surface", 2:"mole_concentration_of_picophytoplankton_expressed_as_carbon_in_sea_water", 3:"'carbon concentration from the picophytoplankton (<2 um) component alone'", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    456 { "id":452, 0:"vmrso2",  1:"SO2 Volume Mixing Ratio", 2:"mole_fraction_of_sulfur_dioxide_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    457 { "id":453, 0:"exparag",  1:"Sinking Aragonite Flux", 2:"sinking_mole_flux_of_aragonite_expressed_as_carbon_in_sea_water", 3:"'unset'", 4:"CMIP5_Oyr" }, 
    458 { "id":454, 0:"zmo3",  1:"Zonal Mean Ozone Volume Mixing Ratio", 2:"mole_fraction_of_ozone_in_air", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }, 
    459 { "id":455, 0:"vo",  1:"Sea water Y velocity", 2:"sea_water_y_velocity", 3:"'unset'", 4:"SPECS_Omon" }, 
    460 { "id":456, 0:"vmro3ste",  1:"O3ste Volume Mixing Ratio", 2:"unset", 3:"'Ozone tracer intended to map out STE of ozone:  (a) set o3ste to O3 at top layer; (b) use standard O3 P-L terms to change o3ste every chemistry time step for 'stratospheric' air grid boxes; (c) reset o3ste to O3 in the lowermost layers (fix these layers to be up to sigma=0.9, ~1 km altitude) and record this tropospheric reset only as a 2-D (lat,long) monthly mean tendency (Tg/s or Tg per month pergird cell).  Determine 'statropsheric' air in any way that is most convenient (e90, O3, PV-theta, etc).'", 4:"CCMI1_monthly" }, 
    461 { "id":457, 0:"mrso",  1:"Total Soil Moisture Content", 2:"soil_moisture_content", 3:"'Compute the mass per unit area  (summed over all soil layers) of water in all phases.'", 4:"CORDEX_6h" }, 
    462 { "id":458, 0:"bddtdin",  1:"Rate of Change of Nitrogen Nutrient due to Biological Activity", 2:"tendency_of_mole_concentration_of_dissolved_inorganic_nitrogen_in_sea_water_due_to_biological_processes", 3:"'Net of biological terms in time rate of change of nitrogen nutrients (e.g. NO3+NH4)'", 4:"CMIP5_Oyr" }, 
    463 { "id":459, 0:"sconcpoa",  1:"Surface Concentration of Dry Aerosol Primary Organic Matter", 2:"mass_concentration_of_primary_particulate_organic_matter_dry_aerosol_in_air", 3:"'mass concentration of primary particulate organic matter dry aerosol in air in model lowest layer'", 4:"CMIP5_aero" }, 
    464 { "id":460, 0:"intpcalc",  1:"Net Primary Mole Productivity of Carbon by Calcareous Phytoplankton", 2:"net_primary_mole_productivity_of_carbon_by_calcareous_phytoplankton", 3:"'unset'", 4:"CMIP5_Omon" }, 
    465 { "id":461, 0:"msftmrhozba",  1:"Ocean Meridional Overturning Mass Streamfunction due to Bolus Advection", 2:"ocean_meridional_overturning_mass_streamfunction_due_to_bolus_advection", 3:"'unset'", 4:"CMIP5_Omon" }, 
    466 { "id":462, 0:"clivi",  1:"Ice Water Path", 2:"atmosphere_cloud_ice_content", 3:"'calculate mass of ice water in the column divided by the area of the column (not just the area of the cloudy portion of the column). This includes precipitating frozen hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.'", 4:"CMIP5_cfDay" }, 
    467 { "id":463, 0:"msftmyz",  1:"Ocean Meridional Overturning Mass Streamfunction", 2:"ocean_meridional_overturning_mass_streamfunction", 3:"'differs from CMIP3 because it includes mass.'", 4:"CMIP5_Omon" }, 
    468 { "id":464, 0:"difvho",  1:"Ocean Vertical Heat Diffusivity", 2:"ocean_vertical_heat_diffusivity", 3:"'unset'", 4:"CMIP5_Oclim" }, 
    469 { "id":465, 0:"swclrefc",  1:"Clouds TOA SW-RF With Reference Composition", 2:"unset", 3:"'proposed name: toa_instantaneous_shortwave_forcing_due_to_clouds_with_reference_composition'", 4:"CCMI1_monthly" }, 
    470 { "id":466, 0:"tntr",  1:"Tendency of Air Temperature due to Radiative Heating", 2:"tendency_of_air_temperature_due_to_radiative_heating", 3:"'unset'", 4:"CMIP5_cfMon,CMIP5_cfSites" }, 
    471 { "id":467, 0:"zmch3cclf2",  1:"Zonal Mean CH3CClF2 Volume Mixing Ratio", 2:"mole_fraction_of_hcfc142b_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    472 { "id":468, 0:"msftyrhozba",  1:"Ocean Y Overturning Mass Streamfunction due to Bolus Advection", 2:"ocean_y_overturning_mass_streamfunction_due_to_bolus_advection", 3:"'unset'", 4:"CMIP5_Omon" }, 
    473 { "id":469, 0:"mrro",  1:"Total Runoff", 2:"runoff_flux", 3:"''computed as the total runoff (including ''drainage'' through the base of the soil model) leaving the land portion of the grid cell divided by the land area in the grid cell.''", 4:"CMIP5_day" }, 
    474 { "id":470, 0:"ta700",  1:"Air Temperature", 2:"air_temperature", 3:"'unset'", 4:"CMIP5_cfDay" }, 
    475 { "id":471, 0:"hfnorthdiff",  1:"Northward Ocean Heat Transport due to Diffusion", 2:"northward_ocean_heat_transport_due_to_diffusion", 3:"'unset'", 4:"CMIP5_Omon" }, 
    476 { "id":472, 0:"c2hf3cl2trtbrdn",  1:"Tendency of Tropospheric Burden of C2HF3Cl2", 2:"unset", 3:"'total yearly averaged tropospheric loss'", 4:"CCMI1_annual" }, 
    477 { "id":473, 0:"rlucs",  1:"Upwelling Clear-Sky Longwave Radiation", 2:"upwelling_longwave_flux_in_air_assuming_clear_sky", 3:"'unset'", 4:"CMIP5_cfSites" }, 
    478 { "id":474, 0:"o2",  1:"Dissolved Oxygen Concentration at Surface", 2:"mole_concentration_of_molecular_oxygen_in_sea_water", 3:"'unset'", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    479 { "id":475, 0:"va",  1:"Northward Wind", 2:"northward_wind", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }, 
    480 { "id":476, 0:"mrfso",  1:"Soil Frozen Water Content", 2:"soil_frozen_water_content", 3:"'Compute the mass (summed over all all layers) of frozen water.'", 4:"CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem" }, 
    481 { "id":477, 0:"si",  1:"Dissolved Silicate Concentration at Surface", 2:"mole_concentration_of_silicate_in_sea_water", 3:"'unset'", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    482 { "id":478, 0:"intpbsi",  1:"Silica Production", 2:"tendency_of_ocean_mole_content_of_silicon_due_to_biological_production", 3:"'Vertically integrated biogenic silica production'", 4:"CMIP5_Omon" }, 
    483 { "id":479, 0:"emipoa",  1:"Emission Rate of Dry Aerosol Primary Organic Matter", 2:"tendency_of_atmosphere_mass_content_of_primary_particulate_organic_matter_dry_aerosol_due_to_emission", 3:"'tendency of atmosphere mass content of primary organic aerosol due to emission:  ''mass'' refers to the mass of primary organic matter, not mass of organic carbon alone.'", 4:"CMIP5_aero" }, 
    484 { "id":480, 0:"loadso4",  1:"Load of SO4", 2:"atmosphere_mass_content_of_sulfate_dry_aerosol", 3:"'unset'", 4:"CMIP5_aero" }, 
    485 { "id":481, 0:"pr",  1:"Precipitation", 2:"precipitation_flux", 3:"'at surface; includes both liquid and solid phases.  This is the 3-hour mean precipitation flux.'", 4:"CMIP5_3hr" }, 
    486 { "id":482, 0:"vmrhobr",  1:"HOBr Volume Mixing Ratio", 2:"mole_fraction_of_hypobromous_acid_in_air", 3:"''", 4:"CCMI1_daily" }, 
    487 { "id":483, 0:"ccmi_month",  1:"CCMI Month", 2:"unset", 3:"'These are what each model believes the date/time (Gregorian calendar) to be at the middle of each time interval in the output (GMT, not local time).'", 4:"CCMI1_annual,CCMI1_daily,CCMI1_hourly,CCMI1_monthly" }, 
    488 { "id":484, 0:"ta850",  1:"Air Temperature", 2:"air_temperature", 3:"'unset'", 4:"CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem" }, 
    489 { "id":485, 0:"tauvcorr",  1:"Surface Downward Y Stress Correction", 2:"surface_downward_y_stress_correction", 3:"'This is the stress on the liquid ocean from overlying atmosphere, sea ice, ice shelf, etc.'", 4:"CMIP5_Omon" }, 
    490 { "id":486, 0:"ch3cclf2trtbrdn",  1:"Tendency of Tropospheric Burden of CH3CClF2", 2:"unset", 3:"'total yearly averaged tropospheric loss'", 4:"CCMI1_annual" }, 
    491 { "id":487, 0:"h2trtbrdn",  1:"Tendency of Tropospheric Burden of H2", 2:"tendency_of_troposphere_moles_of_molecular_hydrogen", 3:"'total yearly averaged tropospheric loss'", 4:"CCMI1_annual" }, 
    492 { "id":488, 0:"ch3ccl3smtbrdn",  1:"Tendency of Middle Atmosphere Burden of CH3CCl3", 2:"tendency_of_middle_atmosphere_moles_of_hcc140a", 3:"'total yearly averaged stratospheric and mesospheric loss'", 4:"CCMI1_annual" }, 
    493 { "id":489, 0:"gf90aer",  1:"Aerosol Growth Factor at 90 Percent RH", 2:"unset", 3:"'proposed name: aerosol_growth_factor_at_90_percent_relative_humidity'", 4:"CCMI1_monthly" }, 
    494 { "id":490, 0:"ch3cltrtbrdn",  1:"Tendency of Tropospheric Burden of CH3Cl", 2:"tendency_of_troposphere_moles_of_methyl_chloride", 3:"'total yearly averaged tropospheric loss'", 4:"CCMI1_annual" }, 
    495 { "id":491, 0:"loadpoa",  1:"Load of Dry Aerosol Primary Organic Matter", 2:"atmosphere_mass_content_of_primary_particulate_organic_matter_dry_aerosol", 3:"'unset'", 4:"CMIP5_aero" }, 
    496 { "id":492, 0:"hfsithermds2d",  1:"Heat Flux into Sea Water due to Sea Ice Thermodynamics", 2:"heat_flux_into_sea_water_due_to_sea_ice_thermodynamics", 3:"'unset'", 4:"CMIP5_Omon" }, 
    497 { "id":493, 0:"tauvo",  1:"Surface Downward Y Stress", 2:"surface_downward_y_stress", 3:"'This is the stress on the liquid ocean from overlying atmosphere, sea ice, ice shelf, etc.'", 4:"CMIP5_Omon" }, 
    498 { "id":494, 0:"ageice",  1:"Age of Sea Ice", 2:"age_of_sea_ice", 3:"'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.  Reported as ''missing'' in regions free of sea ice.'", 4:"CMIP5_OImon" }, 
    499 { "id":495, 0:"lai",  1:"Leaf Area Index", 2:"leaf_area_index", 3:"'a ratio obtained by dividing the total upper leaf surface area of vegetation by the (horizontal) surface area of the land on which it grows.'", 4:"CMIP5_Lmon" }, 
    500 { "id":496, 0:"vsfriver",  1:"Virtual Salt Flux into Sea Water From Rivers", 2:"virtual_salt_flux_into_sea_water_from_rivers", 3:"'unset'", 4:"CMIP5_Omon" }, 
    501 { "id":497, 0:"ccmi_hour",  1:"CCMI Hour", 2:"unset", 3:"'These are what each model believes the date/time (Gregorian calendar) to be at the middle of each time interval in the output (GMT, not local time).'", 4:"CCMI1_annual,CCMI1_daily,CCMI1_hourly,CCMI1_monthly" }, 
    502 { "id":498, 0:"drysoa",  1:"Dry Deposition Rate of Dry Aerosol Secondary Organic Matter", 2:"tendency_of_atmosphere_mass_content_of_secondary_particulate_organic_matter_dry_aerosol_due_to_dry_deposition", 3:"'unset'", 4:"CMIP5_aero" }, 
    503 { "id":499, 0:"vgd",  1:"Vegetation Distribution", 2:"unset", 3:"'Lump your vegetation scheme into 9 categories: 1) tropf 2) decid 3) conif 4) crops 5) grass 6) tundra 7) desert 8) snow/ice 9) water.  Does not need to add to 100% due to bare soil.'", 4:"CCMI1_monthly" }, 
    504 { "id":500, 0:"tnsccwif",  1:"Tendency of Mass Fraction of Stratiform Cloud Condensed Water due to Icefall", 2:"tendency_of_mass_fraction_of_stratiform_cloud_condensed_water_in_air_due_to_icefall", 3:"'condensed water includes both liquid and ice.'", 4:"CMIP5_cfMon" }, 
    505 { "id":501, 0:"bddtalk",  1:"Rate of Change of Alkalinity due to Biological Activity", 2:"tendency_of_sea_water_alkalinity_expressed_as_mole_equivalent_due_to_biological_processes", 3:"'Net of biological terms in time rate of change of alkalinity'", 4:"CMIP5_Oyr" }, 
    506 { "id":502, 0:"evs",  1:"Water Evaporation Flux Where Ice Free Ocean over Sea", 2:"water_evaporation_flux", 3:"'computed as the total mass of water vapor evaporating from the ice-free portion of the ocean  divided by the area of the ocean portion of the grid cell.'", 4:"CMIP5_Omon" }, 
    507 { "id":503, 0:"tasAdjust",  1:"Bias-Corrected Near-Surface Air Temperature", 2:"air_temperature", 3:"'unset'", 4:"CMIP5_Amon" }, 
    508 { "id":504, 0:"maxpblz",  1:"Daily Maximum PBL Height", 2:"atmosphere_boundary_layer_thickness", 3:"''", 4:"CCMI1_daily" }, 
    509 { "id":505, 0:"sfdsi",  1:"Downward Sea Ice Basal Salt Flux", 2:"downward_sea_ice_basal_salt_flux", 3:"'This field is physical, and it arises since sea ice has a nonzero salt content, so it exchanges salt with the liquid ocean upon melting and freezing.'", 4:"CMIP5_Omon" }, 
    510 { "id":506, 0:"wetnh3",  1:"Wet Deposition Rate of NH3", 2:"tendency_of_atmosphere_mass_content_of_ammonia_due_to_wet_deposition", 3:"''", 4:"CCMI1_monthly" }, 
    511 { "id":507, 0:"abs550aer",  1:"Ambient Aerosol Absorption Optical Thickness at 550 nm", 2:"atmosphere_absorption_optical_thickness_due_to_ambient_aerosol", 3:"'unset'", 4:"CMIP5_aero" }, 
    512 { "id":508, 0:"areacello",  1:"Ocean Grid-Cell Area", 2:"cell_area", 3:"'unset'", 4:"CMIP5_fx,SPECS_fx" }, 
    513 { "id":509, 0:"emiaco",  1:"Total Emission Rate of Anthropogenic CO", 2:"unset", 3:"'Includes agricultural waste burning but no other biomass burning. proposed name: tendency_of_atmosphere_mass_content_of_anthropogenic_carbon_monoxide_due_to_emission. Integrate 3D emission field vertically to 2d field.'", 4:"CCMI1_monthly" }, 
    514 { "id":510, 0:"losso3viaoh",  1:"Chemical Loss Rate of O3 via O3+OH", 2:"unset", 3:"'proposed name: tendency_of_mole_concentration_of_ozone_due_to_chemical_destruction_by_OH'", 4:"CCMI1_monthly" }, 
    515 { "id":511, 0:"sblsi",  1:"Sublimation over Sea Ice", 2:"surface_snow_and_ice_sublimation_flux", 3:"'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.'", 4:"CMIP5_OImon" }, 
    516 { "id":512, 0:"tnhusa",  1:"Tendency of Specific Humidity due to Advection", 2:"tendency_of_specific_humidity_due_to_advection", 3:"'unset'", 4:"CMIP5_cfMon,CMIP5_cfSites" }, 
    517 { "id":513, 0:"concso4",  1:"Concentration of SO4", 2:"mass_concentration_of_sulfate_dry_aerosol_in_air", 3:"'unset'", 4:"CMIP5_aero" }, 
    518 { "id":514, 0:"vmre90n",  1:"e90n Volume Mixing Ratio", 2:"unset", 3:"'Synthetic tracer e90n, same as e90, but emitted only 40N to 90N.'", 4:"CCMI1_daily,CCMI1_monthly" }, 
    519 { "id":515, 0:"rlu",  1:"Upwelling Longwave Radiation", 2:"upwelling_longwave_flux_in_air", 3:"'unset'", 4:"CMIP5_cfSites" }, 
    520 { "id":516, 0:"zmhobr",  1:"Zonal Mean HOBr Volume Mixing Ratio", 2:"mole_fraction_of_hypobromous_acid_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    521 { "id":517, 0:"dryoa",  1:"Dry Deposition Rate of Dry Aerosol Organic Matter", 2:"tendency_of_atmosphere_mass_content_of_particulate_organic_matter_dry_aerosol_due_to_dry_deposition", 3:"'This is the sum of dry deposition of POA and dry deposition of SOA (see next two entries). 'Mass' refers to the mass of organic matter, not mass of organic carbon alone. We recommend a scale factor of POM=1.4*OC, unless your model has more detailed info available. Was called dry_pom in old ACCMIP Excel table. Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition.'", 4:"CCMI1_monthly" }, 
    522 { "id":518, 0:"ccmi_year",  1:"CCMI Year", 2:"unset", 3:"'These are what each model believes the date/time (Gregorian calendar) to be at the middle of each time interval in the output (GMT, not local time).'", 4:"CCMI1_annual,CCMI1_daily,CCMI1_hourly,CCMI1_monthly" }, 
    523 { "id":519, 0:"pr",  1:"Surface Rainfall Rate into the Sea Ice Portion of the Grid Cell", 2:"rainfall_flux", 3:"'where sea ice over sea: this is 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).  Reported as 0. in regions free of sea ice.'", 4:"CMIP5_OImon" }, 
    524 { "id":520, 0:"cheaqpso4",  1:"Aqueous-Phase Production Rate of SO4", 2:"unset", 3:"'proposed name: tendency_of_atmosphere_mass_content_of_sulfate_dry_aerosol_due_to_aqueous_phase_net_chemical_production'", 4:"CCMI1_monthly" }, 
    525 { "id":521, 0:"pon",  1:"Particulate Organic Nitrogen Concentration at Surface", 2:"mole_concentration_of_particulate_organic_matter_expressed_as_nitrogen_in_sea_water", 3:"'sum of particulate organic nitrogen component concentrations'", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    526 { "id":522, 0:"dtauc",  1:"Convective Cloud Optical Depth", 2:"atmosphere_optical_thickness_due_to_convective_cloud", 3:"'This is the in-cloud optical depth obtained by considering only the cloudy portion of the grid cell'", 4:"CMIP5_cf3hr" }, 
    527 { "id":523, 0:"vmrh2",  1:"H2 Volume Mixing Ratio", 2:"mole_fraction_of_molecular_hydrogen_in_air", 3:"''", 4:"CCMI1_daily" }, 
    528 { "id":524, 0:"emioa",  1:"Rate of Emission and Production of Dry Aerosol Total Organic Matter", 2:"tendency_of_atmosphere_mass_content_of_particulate_organic_matter_dry_aerosol_due_to_net_chemical_production_and_emission", 3:"'tendency of atmosphere mass content of organic matter dry aerosol due to net production and emission.  This is the sum of total emission of POA and total production of SOA (see next two entries). ''Mass'' refers to the mass of organic matter, not mass of organic carbon alone.'", 4:"CMIP5_aero" }, 
    529 { "id":525, 0:"phypmisc",  1:"Other Phytoplankton Carbon Production", 2:"tendency_of_mole_concentration_of_particulate_organic_matter_expressed_as_carbon_in_sea_water_due_to_net_primary_production_by_miscellaneous_phytoplankton", 3:"'Primary (organic carbon) production by other phytoplankton components alone'", 4:"CMIP5_Oyr" }, 
    530 { "id":526, 0:"reemiahch",  1:"Total Re-Emission of a-HCH", 2:"tendency_of_atmosphere_mass_content_of_alpha_hexachlorocyclohexane_due_to_re_emission", 3:"'integrate 3D emission field vertically to 2d field'", 4:"CCMI1_monthly" }, 
    531 { "id":527, 0:"c2hf3cl2tbrdn",  1:"Tendency of Atmospheric Burden of C2HF3Cl2", 2:"unset", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }, 
    532 { "id":528, 0:"difvmfdo",  1:"Ocean Vertical Momentum Diffusivity due to Form Drag", 2:"ocean_vertical_momentum_diffusivity_due_to_form_drag", 3:"'unset'", 4:"CMIP5_Oclim" }, 
    533 { "id":529, 0:"icc",  1:"Ice Cloud Area Fraction", 2:"unset", 3:"'proposed name: ice_cloud_area_fraction'", 4:"CCMI1_monthly" }, 
    534 { "id":530, 0:"tntmp",  1:"Tendency of Air Temperature due to Diabatic Processes", 2:"tendency_of_air_temperature_due_to_model_physics", 3:"'All physics'", 4:"CCMI1_monthly" }, 
    535 { "id":531, 0:"loadoa",  1:"Load of Dry Aerosol Organic Matter", 2:"atmosphere_mass_content_of_particulate_organic_matter_dry_aerosol", 3:"'atmosphere dry organic content: This is the vertically integrated sum of atmosphere_primary_organic_content and atmosphere_secondary_organic_content (see next two table entries).'", 4:"CMIP5_aero" }, 
    536 { "id":532, 0:"smc",  1:"Shallow Convective Mass Flux", 2:"atmosphere_net_upward_shallow_convective_mass_flux", 3:"'The net mass flux represents the difference between the updraft and downdraft components.  For models with a distinct shallow convection scheme, this is calculated as convective mass flux divided by the area of the whole grid cell (not just the area of the cloud).'", 4:"CMIP5_cfMon" }, 
    537 { "id":533, 0:"clw",  1:"Mass Fraction of Cloud Liquid Water", 2:"mass_fraction_of_cloud_liquid_water_in_air", 3:"'Calculated as the mass of  cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.'", 4:"CMIP5_cfDay" }, 
    538 { "id":534, 0:"zmva",  1:"Zonal Mean Northward Wind", 2:"northward_wind", 3:"''", 4:"CCMI1_monthly" }, 
    539 { "id":535, 0:"n2oglobalClim",  1:"Global Mean Mole Fraction of N2O", 2:"mole_fraction_of_nitrous_oxide_in_air", 3:"'unset'", 4:"CMIP5_Amon" }, 
    540 { "id":536, 0:"zg500",  1:"Geopotential Height at 500 hPa", 2:"geopotential_height", 3:"'geopotential height on the 500 hPa surface'", 4:"CCMI1_daily" }, 
    541 { "id":537, 0:"clc",  1:"Convective Cloud Area Fraction", 2:"convective_cloud_area_fraction_in_atmosphere_layer", 3:"'Report on model layers.  Include only convective cloud fraction.'", 4:"CCMI1_monthly" }, 
    542 { "id":538, 0:"loaddust",  1:"Load of Dust", 2:"atmosphere_mass_content_of_dust_dry_aerosol", 3:"'unset'", 4:"CMIP5_aero" }, 
    543 { "id":539, 0:"sr",  1:"Roughness length", 2:"surface_roughness_length", 3:"'unset'", 4:"SPECS_fx" }, 
    544 { "id":540, 0:"sfvmrco25",  1:"co_25 Mass Mixing Ratio in Surface Layer", 2:"unset", 3:"'daily mean or instantaneous? emitted as anthropogenic CO (emission file available from HTAP, ftp://ftp.retro.enes.org/pub/emissions/aggregated/anthro/0.5x0.5/2000/RETRO_ANTHRO_V2_2000_CO_aggregated.nc but only use annual mean), uniform fixed 25-day exponential decay.'", 4:"CCMI1_daily" }, 
    545 { "id":541, 0:"zmch3br",  1:"Zonal Mean CH3Br Volume Mixing Ratio", 2:"mole_fraction_of_methyl_bromide_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    546 { "id":542, 0:"mrsos",  1:"Moisture in Upper Portion of Soil Column", 2:"moisture_content_of_soil_layer", 3:"'the mass of water in all phases in a thin surface soil layer.'", 4:"CMIP5_3hr,CMIP5_Lmon,CMIP5_day,SPECS_Lmon" }, 
    547 { "id":543, 0:"tatp",  1:"Tropopause Air Temperature", 2:"tropopause_air_temperature", 3:"'2D monthly mean thermal tropopause calculated using WMO tropopause definition on 3d temperature'", 4:"CCMI1_monthly" }, 
    548 { "id":544, 0:"fz",  1:"Upward EPF", 2:"upward_eliassen_palm_flux_in_air", 3:"'Transformed Eulerian Mean Diagnostics Meridional component Fz of EP-flux (Fy, Fz) derived from 6hr or higher frequency fields (use daily fields or 12 hr fields if the 6 hr are not available).  Please use the definitions given by equation 3.5.3b of Andrews, Holton and Leovy text book.'", 4:"CCMI1_daily,CCMI1_monthly" }, 
    549 { "id":545, 0:"snomelt",  1:"Snow Melt Rate", 2:"surface_snow_melt_flux", 3:"'the rate of change of snow mass  due to melting, divided by the area of the ocean portion of the grid cell.  Reported as 0.0 in regions free of sea ice.  Includes falling snow that melts on impact with the surface.'", 4:"CMIP5_OImon" }, 
    550 { "id":546, 0:"clivi",  1:"Ice Water Path", 2:"atmosphere_cloud_ice_content", 3:"'mass of ice water in the column divided by the area of the column (not just the area of the cloudy portion of the column). Includes precipitating frozen hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.'", 4:"CMIP5_Amon" }, 
    551 { "id":547, 0:"h2smtbrdn",  1:"Tendency of Middle Atmosphere Burden of H2", 2:"tendency_of_middle_atmosphere_moles_of_molecular_hydrogen", 3:"'total yearly averaged stratospheric and mesospheric loss'", 4:"CCMI1_annual" }, 
    552 { "id":548, 0:"chldiaz",  1:"Mass Concentration of Diazotrophs expressed as Chlorophyll in Sea Water at Surface", 2:"mass_concentration_of_diazotrophs_expressed_as_chlorophyll_in_sea_water", 3:"'chlorophyll concentration from the diazotrophic phytoplankton component alone'", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    553 { "id":549, 0:"fVegLitter",  1:"Total Carbon Mass Flux from Vegetation to Litter", 2:"litter_carbon_flux", 3:"'unset'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    554 { "id":550, 0:"losso3viaalkenes",  1:"Chemical Loss Rate of O3 via O3+alkenes", 2:"unset", 3:"'proposed name: tendency_of_mole_concentration_of_ozone_due_to_chemical_destruction_by_alkenes'", 4:"CCMI1_monthly" }, 
    555 { "id":551, 0:"reemipcb153",  1:"Total Re-Emission of PCB-153", 2:"tendency_of_atmosphere_mass_content_of_hexachlorobiphenyl_due_to_re_emission", 3:"'integrate 3D emission field vertically to 2d field'", 4:"CCMI1_monthly" }, 
    556 { "id":552, 0:"phydiat",  1:"Mole Concentration of Diatoms expressed as Carbon in Sea Water at Surface", 2:"mole_concentration_of_diatoms_expressed_as_carbon_in_sea_water", 3:"'carbon from the diatom phytoplankton component concentration alone'", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    557 { "id":553, 0:"od550oa",  1:"POM AOD at 550nm", 2:"atmosphere_optical_thickness_due_to_particulate_organic_matter_ambient_aerosol", 3:"''", 4:"CCMI1_monthly" }, 
    558 { "id":554, 0:"swtoaasso4",  1:"All-Sky SW-RF SO4 at TOA", 2:"unset", 3:"'proposed name: toa_instantaneous_shortwave_forcing_due_to_sulfate_ambient_aerosol'", 4:"CCMI1_monthly" }, 
    559 { "id":555, 0:"emidms",  1:"Total Emission Rate of DMS", 2:"tendency_of_atmosphere_mass_content_of_dimethyl_sulfide_due_to_emission", 3:"'Integrate 3D emission field vertically to 2d field.'", 4:"CCMI1_monthly" }, 
    560 { "id":556, 0:"vmrco50sa",  1:"co_50_sa Volume Mixing Ratio", 2:"unset", 3:"'emitted as anthropogenic CO over South Asia (5N-35N; 50E-95E) (emission file available from HTAP), uniform fixed 50-day exponential decay.'", 4:"CCMI1_monthly" }, 
    561 { "id":557, 0:"zmh2",  1:"Zonal Mean H2 Volume Mixing Ratio", 2:"mole_fraction_of_molecular_hydrogen_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    562 { "id":558, 0:"tnhus",  1:"Tendency of Specific Humidity", 2:"tendency_of_specific_humidity", 3:"'unset'", 4:"CMIP5_cfMon,CMIP5_cfSites" }, 
    563 { "id":559, 0:"sconcbc",  1:"Surface Concentration of Black Carbon Aerosol", 2:"mass_concentration_of_black_carbon_dry_aerosol_in_air", 3:"'mass concentration of black carbon dry aerosol in air in model lowest layer'", 4:"CMIP5_aero" }, 
    564 { "id":560, 0:"cSoilMedium",  1:"Carbon Mass in Medium Soil Pool", 2:"medium_soil_pool_carbon_content", 3:"'medium is meant as lifetime of more than than 10 years and less than 100 years for  reference climate conditions (20 C, no water limitations)'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    565 { "id":561, 0:"vmrhcn",  1:"HCN Volume Mixing Ratio", 2:"mole_fraction_of_hydrogen_cyanide_in_air", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }, 
    566 { "id":562, 0:"sbl",  1:"Surface Snow and Ice Sublimation Flux", 2:"surface_snow_and_ice_sublimation_flux", 3:"'The snow and ice sublimation flux is the loss of snow and ice mass resulting from their conversion to water vapor.  Computed as the total sublimation on the land portion of the grid cell divided by the land area in the grid cell; reported as 0.0 for snow-free land regions; reported as 0.0 where the land fraction is 0.'", 4:"CMIP5_LImon" }, 
    567 { "id":563, 0:"tro3Clim",  1:"Mole Fraction of O3", 2:"mole_fraction_of_ozone_in_air", 3:"'unset'", 4:"CMIP5_Amon" }, 
    568 { "id":564, 0:"sh50psca",  1:"Area of PSCs at 50 hPa over the Antarctic", 2:"unset", 3:"'Daily PSC Area that is calculated by the model's PSC scheme poleward of 60 degrees at 50 hPa for July-Dec in SH'", 4:"CCMI1_daily" }, 
    569 { "id":565, 0:"fVegSoil",  1:"Total Carbon Mass Flux from Vegetation Directly to Soil", 2:"carbon_mass_flux_into_soil_from_vegetation_excluding_litter", 3:"'In some models part of carbon (e.g., root exudate) can go directly into the soil pool without entering litter.'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    570 { "id":566, 0:"sfvmro3",  1:"Ozone Volume Mixing Ratio in Lowest Model Layer", 2:"mole_fraction_of_ozone_in_air", 3:"''", 4:"CCMI1_daily" }, 
    571 { "id":567, 0:"swtoaasoaff",  1:"All-Sky SW-RF OAFF at TOA Anthropogenic", 2:"unset", 3:"'proposed name: toa_instantaneous_shortwave_forcing_due_to_particulate_organic_matter_ambient_aerosol_from_fossil_fuels'", 4:"CCMI1_monthly" }, 
    572 { "id":568, 0:"rsds",  1:"Downwelling Shortwave Radiation in Sea Water", 2:"downwelling_shortwave_flux_in_sea_water", 3:"'unset'", 4:"CMIP5_Omon" }, 
    573 { "id":569, 0:"tnsclwri",  1:"Tendency of Mass Fraction of Stratiform Cloud Liquid Water due to Riming", 2:"tendency_of_mass_fraction_of_stratiform_cloud_liquid_water_in_air_due_to_riming", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    574 { "id":570, 0:"tas",  1:"Near-Surface Air Temperature", 2:"air_temperature", 3:"'unset'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites,CMIP5_day,SPECS_Amon" }, 
    575 { "id":571, 0:"dyrsds",  1:"Surface Downwelling Shortwave Radiation", 2:"surface_downwelling_shortwave_flux_in_air", 3:"'surface solar irradiance for UV calculations'", 4:"CCMI1_daily" }, 
    576 { "id":572, 0:"rsus",  1:"Surface Upwelling Shortwave Radiation", 2:"surface_upwelling_shortwave_flux_in_air", 3:"'This is the 3-hour mean flux.'", 4:"CMIP5_3hr" }, 
    577 { "id":573, 0:"emibc",  1:"Emission Rate of Black Carbon Aerosol Mass", 2:"tendency_of_atmosphere_mass_content_of_black_carbon_dry_aerosol_due_to_emission", 3:"'Integrate 3D emission field vertically to 2d field.'", 4:"CCMI1_monthly" }, 
    578 { "id":574, 0:"dryhno3",  1:"Dry Deposition Rate of HNO3", 2:"tendency_of_atmosphere_mass_content_of_nitric_acid_due_to_dry_deposition", 3:"'dry deposition includes gravitational settling, impact scavenging, and turbulent deposition.'", 4:"CCMI1_monthly" }, 
    579 { "id":575, 0:"pilev",  1:"Air Pressure at Interfaces", 2:"unset", 3:"'The atmospheric pressure at the model layer interfaces for all times and levels in the associated output variables'", 4:"CCMI1_daily,CCMI1_monthly" }, 
    580 { "id":576, 0:"tnhusd",  1:"Tendency of Specific Humidity due to Diffusion", 2:"tendency_of_specific_humidity_due_to_diffusion", 3:"'unset'", 4:"CMIP5_cfMon,CMIP5_cfSites" }, 
    581 { "id":577, 0:"zmch3cl",  1:"Zonal Mean CH3Cl Volume Mixing Ratio", 2:"mole_fraction_of_methyl_chloride_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    582 { "id":578, 0:"zmc2br2f4",  1:"Zonal Mean CBrF2CBrF2 Volume Mixing Ratio", 2:"mole_fraction_of_halon2402_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    583 { "id":579, 0:"swtoaasdust",  1:"All-Sky SW-RF Dust at TOA", 2:"unset", 3:"'proposed name: toa_instantaneous_shortwave_forcing_due_to_dust_ambient_aerosol'", 4:"CCMI1_monthly" }, 
    584 { "id":580, 0:"vmrnoy",  1:"Total Reactive Nitrogen (NOy) Volume Mixing Ratio", 2:"mole_fraction_of_total_reactive_nitrogen_in_air", 3:"'Total family (the sum of all appropriate species in the model); list the species in the netCDF header, e.g. NOy = N + NO + NO2 + NO3 + HNO3 + 2N2O5 + HNO4 + ClONO2 + BrONO2.  Definition: Total reactive nitrogen; usually includes atomic nitrogen (N), nitric oxide (NO), NO2, nitrogen trioxide (NO3), dinitrogen radical (N2O5), nitric acid (HNO3), peroxynitric acid (HNO4), BrONO2, ClONO2.'", 4:"CCMI1_daily" }, 
    585 { "id":581, 0:"fsitherm",  1:"Water Flux into Sea Water due to Sea Ice Thermodynamics", 2:"water_flux_into_sea_water_due_to_sea_ice_thermodynamics", 3:"'computed as the sea ice thermodynamic water flux into the ocean divided by the area of the ocean portion of the grid cell.'", 4:"CMIP5_Omon" }, 
    586 { "id":582, 0:"ph",  1:"pH at Surface", 2:"sea_water_ph_reported_on_total_scale", 3:"'negative log of hydrogen ion concentration with the concentration expressed as mol H kg-1.'", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    587 { "id":583, 0:"snm",  1:"Surface Snow Melt", 2:"surface_snow_melt_flux", 3:"'Computed as the total surface melt water on the land portion of the grid cell divided by the land area in the grid cell; report as 0.0 for snow-free land regions; report as 0.0 where the land fraction is 0.'", 4:"CMIP5_LImon" }, 
    588 { "id":584, 0:"snc",  1:"Snow Area Fraction", 2:"surface_snow_area_fraction", 3:"'Fraction of each grid cell that is occupied by snow that rests on land portion of cell.'", 4:"CMIP5_LImon" }, 
    589 { "id":585, 0:"uo",  1:"Sea Water X Velocity", 2:"sea_water_x_velocity", 3:"'unset'", 4:"CMIP5_Omon,SPECS_Omon" }, 
    590 { "id":586, 0:"sftlf",  1:"Land Area Fraction", 2:"land_area_fraction", 3:"'For atmospheres with more than 1 mesh (e.g., staggered grids), report areas that apply to surface vertical fluxes of energy.'", 4:"CCMI1_fixed" }, 
    591 { "id":587, 0:"zmoclo",  1:"Zonal Mean OClO Volume Mixing Ratio", 2:"mole_fraction_of_chlorine_dioxide_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    592 { "id":588, 0:"co3satarag",  1:"Mole Concentration of Aragonite expressed as Carbon in Sea Water at Saturation at Surface", 2:"mole_concentration_of_aragonite_expressed_as_carbon_in_sea_water_at_saturation", 3:"'unset'", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    593 { "id":589, 0:"lwp",  1:"Liquid Water Path", 2:"atmosphere_mass_content_of_cloud_liquid_water", 3:"''", 4:"CCMI1_monthly" }, 
    594 { "id":590, 0:"vmrclo",  1:"ClO Volume Mixing Ratio", 2:"mole_fraction_of_chlorine_monoxide_in_air", 3:"''", 4:"CCMI1_daily" }, 
    595 { "id":591, 0:"zmhocl",  1:"Zonal Mean HOCl Volume Mixing Ratio", 2:"mole_fraction_of_hypochlorous_acid_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    596 { "id":592, 0:"clis",  1:"Mass Fraction of Stratiform Cloud Ice", 2:"mass_fraction_of_stratiform_cloud_ice_in_air", 3:"'Calculated as the mass of stratiform cloud ice  in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.'", 4:"CMIP5_cfMon" }, 
    597 { "id":593, 0:"tnpeot",  1:"Tendency of Ocean Potential Energy Content due to Tides", 2:"tendency_of_ocean_potential_energy_content_due_to_tides", 3:"'unset'", 4:"CMIP5_Oclim" }, 
    598 { "id":594, 0:"emidust",  1:"Total Emission Rate of Dust", 2:"tendency_of_atmosphere_mass_content_of_dust_dry_aerosol_due_to_emission", 3:"'Integrate 3D emission field vertically to 2d field.'", 4:"CCMI1_monthly" }, 
    599 { "id":595, 0:"epcalc100",  1:"Downward Flux of Calcite", 2:"sinking_mole_flux_of_calcite_expressed_as_carbon_in_sea_water", 3:"'unset'", 4:"CMIP5_Omon" }, 
    600 { "id":596, 0:"strairy",  1:"Y-Component of Atmospheric Stress On Sea Ice", 2:"surface_downward_y_stress", 3:"'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.   Reported as ''missing'' in regions free of sea ice.'", 4:"CMIP5_OImon,SPECS_OImon" }, 
    601 { "id":597, 0:"prc",  1:"Convective Precipitation", 2:"convective_precipitation_flux", 3:"'at surface; includes both liquid and solid phases.'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites,CMIP5_day,CORDEX_3h,CORDEX_day,SPECS_Amon,SPECS_day" }, 
    602 { "id":598, 0:"loadnh4",  1:"Load of NH4", 2:"atmosphere_mass_content_of_ammonium_dry_aerosol", 3:"'unset'", 4:"CMIP5_aero" }, 
    603 { "id":599, 0:"hfls",  1:"Surface Upward Latent Heat Flux", 2:"surface_upward_latent_heat_flux", 3:"'includes both evaporation and sublimation'", 4:"CMIP5_Amon" }, 
    604 { "id":600, 0:"mmraerh2o",  1:"Aerosol Water Mass Mixing Ratio", 2:"mass_fraction_of_water_in_ambient_aerosol_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    605 { "id":601, 0:"diftrelo",  1:"Ocean Tracer Epineutral Laplacian Diffusivity", 2:"ocean_tracer_epineutral_laplacian_diffusivity", 3:"'unset'", 4:"CMIP5_Oclim" }, 
    606 { "id":602, 0:"rss",  1:"Net Shortwave Surface Radiation", 2:"surface_net_downward_shortwave_flux", 3:"'unset'", 4:"SPECS_Amon" }, 
    607 { "id":603, 0:"evspsbl",  1:"Evaporation", 2:"water_evaporation_flux", 3:"'at surface; flux of water into the atmosphere due to conversion of both liquid and solid phases to vapor (from underlying surface and vegetation)'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites,CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem,SPECS_Amon" }, 
    608 { "id":604, 0:"rlut",  1:"TOA Outgoing Longwave Radiation", 2:"toa_outgoing_longwave_flux", 3:"'unset'", 4:"CMIP5_cfDay" }, 
    609 { "id":605, 0:"cProduct",  1:"Carbon Mass in Products of Land Use Change", 2:"carbon_content_of_products_of_anthropogenic_land_use_change", 3:"'unset'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    610 { "id":606, 0:"cMisc",  1:"Carbon Mass in Other Living Compartments on Land", 2:"miscellaneous_living_matter_carbon_content", 3:"'e.g., labile, fruits, reserves, etc.'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    611 { "id":607, 0:"rlds",  1:"Surface Downwelling Longwave Radiation", 2:"surface_downwelling_longwave_flux_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    612 { "id":608, 0:"eviscu",  1:"Eddy Viscosity Coefficients for Momentum", 2:"atmosphere_momentum_diffusivity", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    613 { "id":609, 0:"psl",  1:"Sea Level Pressure", 2:"air_pressure_at_sea_level", 3:"'unset'", 4:"CMIP5_6hrPlev,CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites,CMIP5_day,CORDEX_3h,CORDEX_day,CORDEX_mon,CORDEX_sem,SPECS_6hr,SPECS_Amon,SPECS_day" }, 
    614 { "id":610, 0:"vmro3ste",  1:"O3ste Volume Mixing Ratio", 2:"unset", 3:"'Ozone tracer intended to map out strat-trop exchange (STE) of ozone: (a) set o3ste to O3 at top layer; (b) use standard O3 P-L terms to change o3ste every chemistry time step for 'stratospheric' air grid boxes; (c) reset o3ste to O3 in the lowermost layers (fix these layers to be up to sigma=0.9, ~1 km altitude) and record this tropospheric reset only as a 2-D (lat,long) monthly mean tendency (Tg/s or Tg per month pergird cell).  Determine 'stratospheric' air in any way that is most convenient (e90, O3, PV-theta, etc).'", 4:"CCMI1_daily" }, 
    615 { "id":611, 0:"cLitter",  1:"Carbon Mass in Litter Pool", 2:"litter_carbon_content", 3:"'unset'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    616 { "id":612, 0:"sfcWindmax",  1:"Daily Maximum Near-Surface Wind Speed", 2:"wind_speed", 3:"'unset'", 4:"CMIP5_day" }, 
    617 { "id":613, 0:"mc",  1:"Convective Mass Flux", 2:"atmosphere_net_upward_convective_mass_flux", 3:"'The net mass flux should represent the difference between the updraft and downdraft components.  The flux is computed as the mass divided by the area of the grid cell.'", 4:"CMIP5_Amon,CMIP5_cfDay,CMIP5_cfSites" }, 
    618 { "id":614, 0:"reffclis",  1:"Hydrometeor Effective Radius of Stratiform Cloud Ice", 2:"effective_radius_of_stratiform_cloud_ice_particle", 3:"'This is defined as the in-cloud ratio of the third moment over the second moment of the particle size distribution (obtained by considering only the cloudy portion of the grid cell).'", 4:"CMIP5_cf3hr" }, 
    619 { "id":615, 0:"tsAdjust",  1:"Bias-Corrected Surface Temperature", 2:"surface_temperature", 3:"'''skin'' temperature (i.e., SST for open ocean)'", 4:"CMIP5_Amon" }, 
    620 { "id":616, 0:"nh50psca",  1:"Area of PSC at 50 hPa over the Arctic", 2:"unset", 3:"'Daily PSC Area that is calculated by the model's PSC scheme poleward of 60 degrees at 50 hPa for Nov-April in NH'", 4:"CCMI1_daily" }, 
    621 { "id":617, 0:"vmrco50na",  1:"co_50_na Volume Mixing Ratio", 2:"unset", 3:"'emitted as anthropogenic CO over North America (15N-55N; 60W-125W) (emission file available from HTAP), uniform fixed 50-day exponential decay.'", 4:"CCMI1_monthly" }, 
    622 { "id":618, 0:"snd",  1:"Snow Depth", 2:"surface_snow_thickness", 3:"'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).  Reported as 0.0 in regions free of snow-covered sea ice.'", 4:"CMIP5_OImon" }, 
    623 { "id":619, 0:"zmbro",  1:"Zonal mean BrO Volume Mixing Ratio", 2:"mole_fraction_of_bromine_monoxide_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    624 { "id":620, 0:"ch4",  1:"Mole Fraction of CH4", 2:"mole_fraction_of_methane_in_air", 3:"'unset'", 4:"CMIP5_Amon" }, 
    625 { "id":621, 0:"mmroa",  1:"POM Mass Mixing Ratio", 2:"mass_fraction_of_particulate_organic_matter_dry_aerosol_in_air", 3:"'We recommend a scale factor of POM=1.4*OC, unless your model has more detailed info available.'", 4:"CCMI1_monthly" }, 
    626 { "id":622, 0:"inc",  1:"Ice Crystal Number Concentration", 2:"number_concentration_of_ice_crystals_in_air", 3:"'Ice Crystal number concentration in ice clouds'", 4:"CMIP5_aero" }, 
    627 { "id":623, 0:"goro",  1:"Orography", 2:"surface_geopotential", 3:"'unset'", 4:"SPECS_fx" }, 
    628 { "id":624, 0:"emiaoa",  1:"Anthropogenic Emission Rate of Dry Aerosol Total Organic Matter", 2:"unset", 3:"'Includes agricultural waste burning but no other biomass burning. We recommend a scale factor of POM=1.4*OC, unless your model has more detailed info available. Tendency of atmosphere mass content of total organic aerosol due to emission: 'mass' refers to the mass of organic matter, not mass of organic carbon alone. Was called emi_apom in old ACCMIP Excel table.  Integrate 3D emission field vertically to 2d field.'", 4:"CCMI1_monthly" }, 
    629 { "id":625, 0:"sfmmrss",  1:"Sea Salt Mass Mixing Ratio in Lowest Model Layer", 2:"mass_fraction_of_seasalt_dry_aerosol_in_air", 3:"'seasalt'", 4:"CCMI1_daily" }, 
    630 { "id":626, 0:"rsucs",  1:"Upwelling Clear-Sky Shortwave Radiation", 2:"upwelling_shortwave_flux_in_air_assuming_clear_sky", 3:"'unset'", 4:"CMIP5_cfSites" }, 
    631 { "id":627, 0:"ta10",  1:"Air Temperature at 10 hPa", 2:"air_temperature", 3:"'Temperature on the 10 hPa surface'", 4:"CCMI1_daily" }, 
    632 { "id":628, 0:"clt",  1:"Total Cloud Fraction", 2:"cloud_area_fraction", 3:"'For the whole atmospheric column, as seen from the surface or the top of the atmosphere. Include both large-scale and convective cloud.'", 4:"CCMI1_monthly" }, 
    633 { "id":629, 0:"reffclwtop",  1:"Cloud-Top Effective Droplet Radius", 2:"effective_radius_of_cloud_liquid_water_particle_at_liquid_water_cloud_top", 3:"'Droplets are liquid only.  This is the effective radius 'as seen from space' over liquid cloudy portion of grid cell. This is the value from the uppermost model layer with liquid cloud or, if available, or for some models it is the sum over all liquid cloud tops, no matter where they occur, as long as they are seen from the top of the atmosphere.  Reported values are weighted by total liquid cloud top fraction (as seen from TOA) of each time sample when computing monthly mean.'", 4:"CCMI1_monthly" }, 
    634 { "id":630, 0:"hfnortha",  1:"Atlantic Northward Ocean Heat Transport", 2:"northward_ocean_heat_transport", 3:"'unset'", 4:"SPECS_Omon" }, 
    635 { "id":631, 0:"htovgyre",  1:"Northward Ocean Heat Transport due to Gyre", 2:"northward_ocean_heat_transport_due_to_gyre", 3:"'unset'", 4:"CMIP5_Omon" }, 
    636 { "id":632, 0:"burntArea",  1:"Burnt Area Fraction", 2:"area_fraction", 3:"'fraction of entire grid cell  that is covered by burnt vegetation.'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    637 { "id":633, 0:"clc",  1:"Convective Cloud Area Fraction", 2:"convective_cloud_area_fraction_in_atmosphere_layer", 3:"'unset'", 4:"CMIP5_cf3hr,CMIP5_cfMon" }, 
    638 { "id":634, 0:"zmnoy",  1:"Zonal Mean Total Reactive Nitrogen (NOy) Volume Mixing Ratio", 2:"mole_fraction_of_total_reactive_nitrogen_in_air", 3:"'Total reactive nitrogen; usually includes atomic nitrogen (N), nitric oxide (NO), NO2, nitrogen trioxide (NO3), dinitrogen radical (N2O5), nitric acid (HNO3), peroxynitric acid (HNO4), BrONO2, ClONO2.  Add comment attribute with detailed description about how the model calculates these fields e.g. NOy = N + NO + NO2 + NO3 + HNO3 + 2N2O5 + HNO4 + ClONO2 + BrONO2'", 4:"CCMI1_monthly" }, 
    639 { "id":635, 0:"tnkebto",  1:"Tendency of Ocean Eddy Kinetic Energy Content due to Bolus Transport", 2:"tendency_of_ocean_eddy_kinetic_energy_content_due_to_bolus_transport", 3:"'unset'", 4:"CMIP5_Oclim" }, 
    640 { "id":636, 0:"zoocmisc",  1:"Other Zooplankton Carbon Concentration at Surface", 2:"mole_concentration_of_miscellaneous_zooplankton_expressed_as_carbon_in_sea_water", 3:"'carbon from additional zooplankton component concentrations alone (e.g. Micro, meso).  Since the models all have different numbers of components, this variable has been included to provide a check for intercomparison between models since some phytoplankton groups are supersets.'", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    641 { "id":637, 0:"hus",  1:"Specific Humidity", 2:"specific_humidity", 3:"'unset'", 4:"CMIP5_6hrLev,CMIP5_Amon,CMIP5_cfDay,CMIP5_cfMon,CMIP5_cfSites,CMIP5_day,SPECS_Amon" }, 
    642 { "id":638, 0:"clcalipso2",  1:"CALIPSO Cloud Fraction Undetected by CloudSat", 2:"cloud_area_fraction_in_atmosphere_layer", 3:"'Clouds detected by CALIPSO but below the detectability threshold of CloudSat'", 4:"CMIP5_cf3hr,CMIP5_cfOff" }, 
    643 { "id":639, 0:"sfmmrpm2p5",  1:"PM2.5 Mass Mixing Ratio in the Lowest Model Layer", 2:"mass_fraction_of_pm2p5_ambient_aerosol_in_air", 3:"''", 4:"CCMI1_hourly" }, 
    644 { "id":640, 0:"fco2antt",  1:"Carbon Mass Flux into Atmosphere Due to All Anthropogenic Emissions of CO2", 2:"tendency_of_atmosphere_mass_content_of_carbon_dioxide_expressed_as_carbon_due_to_anthropogenic_emission", 3:"'This is requested only for the emission-driven coupled carbon climate model runs.  Does not include natural fire sources but, includes all anthropogenic sources, including fossil fuel use, cement production, agricultural burning, and sources associated with anthropogenic land use change excluding forest regrowth.'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites" }, 
    645 { "id":641, 0:"hfibthermds2d",  1:"Heat Flux into Sea Water due to Iceberg Thermodynamics", 2:"heat_flux_into_sea_water_due_to_iceberg_thermodynamics", 3:"'unset'", 4:"CMIP5_Omon" }, 
    646 { "id":642, 0:"wetnh4",  1:"Wet Deposition Rate of NH4", 2:"tendency_of_atmosphere_mass_content_of_ammonium_dry_aerosol_due_to_wet_deposition", 3:"''", 4:"CCMI1_monthly" }, 
    647 { "id":643, 0:"cdnc",  1:"Cloud Droplet Number Concentration", 2:"number_concentration_of_cloud_liquid_water_particles_in_air", 3:"'Cloud droplet number concentration in liquid clouds'", 4:"CMIP5_aero" }, 
    648 { "id":644, 0:"vmrno",  1:"NO Volume Mixing Ratio", 2:"mole_fraction_of_nitrogen_monoxide_in_air", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }, 
    649 { "id":645, 0:"mlotst",  1:"Ocean mixed layer thickness defined by sigma T", 2:"ocean_mixed_layer_thickness_defined_by_sigma_t", 3:"'unset'", 4:"SPECS_Omon,SPECS_day" }, 
    650 { "id":646, 0:"wetso4",  1:"Wet Deposition Rate of SO4", 2:"unset", 3:"'proposed name: tendency_of_atmosphere_mass_content_of_sulfate_dry_aerosol_due_to_wet_deposition'", 4:"CCMI1_monthly" }, 
    651 { "id":647, 0:"reffclwc",  1:"Hydrometeor Effective Radius of Convective Cloud Liquid Water", 2:"effective_radius_of_convective_cloud_liquid_water_particle", 3:"'This is defined as the in-cloud ratio of the third moment over the second moment of the particle size distribution (obtained by considering only the cloudy portion of the grid cell).'", 4:"CMIP5_cf3hr" }, 
    652 { "id":648, 0:"mmrss",  1:"Sea Salt Mass Mixing Ratio", 2:"mass_fraction_of_seasalt_dry_aerosol_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    653 { "id":649, 0:"pctisccp",  1:"ISCCP Mean Cloud Top Pressure", 2:"air_pressure_at_cloud_top", 3:"'time-means are weighted by the ISCCP Total Cloud Fraction - see  http://cfmip.metoffice.com/COSP.html'", 4:"CMIP5_cfDay,CMIP5_cfMon" }, 
    654 { "id":650, 0:"omldamax",  1:"Mean Daily Maximum Ocean Mixed Layer Thickness Defined by Mixing Scheme", 2:"ocean_mixed_layer_thickness_defined_by_mixing_scheme", 3:"'unset'", 4:"CMIP5_Omon,CMIP5_day" }, 
    655 { "id":651, 0:"altaoa",  1:"Alternate Stratospheric Age of Air", 2:"age_of_stratospheric_air", 3:"'Stratospheric mean age-of-air. Use existing implementation or implement the same as AOA_NH except fixed surface layer mixing ratio is set to 0ppbv over the surface of the whole globe.  For method using linearly increasing tracer include a method attribute: 'linearly increasing tracer'.  For method using uniform source (1yr/yr) include a method attribute: 'uniform source'.  For details see website XXXXX'", 4:"CCMI1_monthly" }, 
    656 { "id":652, 0:"dryss",  1:"Dry Deposition Rate of Seasalt", 2:"tendency_of_atmosphere_mass_content_of_seasalt_dry_aerosol_due_to_dry_deposition", 3:"'Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition.'", 4:"CCMI1_monthly" }, 
    657 { "id":653, 0:"rsucs4co2",  1:"Upwelling Clear-Sky Shortwave Radiation 4XCO2 Atmosphere", 2:"upwelling_shortwave_flux_in_air_assuming_clear_sky", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    658 { "id":654, 0:"msftyrhoz",  1:"Ocean Y Overturning Mass Streamfunction", 2:"ocean_y_overturning_mass_streamfunction", 3:"'unset'", 4:"CMIP5_Omon" }, 
    659 { "id":655, 0:"ch4Clim",  1:"Mole Fraction of CH4", 2:"mole_fraction_of_methane_in_air", 3:"'unset'", 4:"CMIP5_Amon" }, 
    660 { "id":656, 0:"spco2",  1:"Surface Aqueous Partial Pressure of CO2", 2:"surface_partial_pressure_of_carbon_dioxide_in_sea_water", 3:"'unset'", 4:"CMIP5_Omon" }, 
    661 { "id":657, 0:"tntmp",  1:"Tendency of Air Temperature due to Diabatic Processes", 2:"tendency_of_air_temperature_due_to_model_physics", 3:"'unset'", 4:"CMIP5_cfMon,CMIP5_cfSites" }, 
    662 { "id":658, 0:"cll",  1:"Low Level Cloud Fraction", 2:"cloud_area_fraction_in_atmosphere_layer", 3:"'p>680 hPa'", 4:"CORDEX_6h,CORDEX_day" }, 
    663 { "id":659, 0:"hfss",  1:"Surface Upward Sensible Heat Flux", 2:"surface_upward_sensible_heat_flux", 3:"'unset'", 4:"CMIP5_Amon" }, 
    664 { "id":660, 0:"jno2",  1:"Photolysis Rate of NO2", 2:"unset", 3:"''", 4:"CCMI1_monthly" }, 
    665 { "id":661, 0:"hfssi",  1:"Surface Upward Sensible Heat Flux over Sea Ice", 2:"surface_upward_sensible_heat_flux", 3:"'the upward sensible heat flux in regions of sea ice divided by the area of the ocean portion of the grid cell.'", 4:"CMIP5_OImon" }, 
    666 { "id":662, 0:"c2br2f4brdn",  1:"Atmospheric Burden of Halon 2402", 2:"atmosphere_moles_of_halon2402", 3:"'total yearly average burden'", 4:"CCMI1_annual" }, 
    667 { "id":663, 0:"dpocdtpico",  1:"Tendency of Mole Concentration of Organic Carbon in Sea Water due to Net Primary Production by Picophytoplankton", 2:"tendency_of_mole_concentration_of_particulate_organic_matter_expressed_as_carbon_in_sea_water_due_to_net_primary_production_by_picophytoplankton", 3:"'Primary (organic carbon) production by the picophytoplankton (<2 um) component alone'", 4:"CMIP5_Oyr" }, 
    668 { "id":664, 0:"lcc",  1:"Liquid Water Cloud Area Fraction", 2:"unset", 3:"'proposed name: liquid_water_cloud_area_fraction'", 4:"CCMI1_monthly" }, 
    669 { "id":665, 0:"tnsclids",  1:"Tendency of Mass Fraction of Stratiform Cloud Ice due to Deposition and Sublimation", 2:"tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_deposition_and_sublimation", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    670 { "id":666, 0:"concso2",  1:"Mole Fraction of SO2", 2:"mole_fraction_of_sulfur_dioxide_in_air", 3:"'unset'", 4:"CMIP5_aero" }, 
    671 { "id":667, 0:"od550bc",  1:"Black Carbon AOD at 550nm", 2:"atmosphere_optical_thickness_due_to_black_carbon_ambient_aerosol", 3:"''", 4:"CCMI1_monthly" }, 
    672 { "id":668, 0:"va50",  1:"Northward Wind at 50 hPa", 2:"northward_wind", 3:"'Meridional wind on the 50 hPa surface'", 4:"CCMI1_daily" }, 
    673 { "id":669, 0:"snw",  1:"Surface Snow Amount", 2:"surface_snow_amount", 3:"'the mass of surface snow on the land portion of the grid cell divided by the land area in the grid cell; reported as 0.0 where the land fraction is 0; excludes snow on vegetation canopy or on sea ice.'", 4:"CMIP5_day" }, 
    674 { "id":670, 0:"rlut",  1:"TOA Outgoing Longwave Radiation", 2:"toa_outgoing_longwave_flux", 3:"'at the top of the atmosphere (to be compared with satellite measurements)'", 4:"CCMI1_monthly,CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites,SPECS_Amon" }, 
    675 { "id":671, 0:"hfrunoffds",  1:"Temperature Flux due to Runoff Expressed as Heat Flux into Sea Water", 2:"temperature_flux_due_to_runoff_expressed_as_heat_flux_into_sea_water", 3:"'unset'", 4:"CMIP5_Omon" }, 
    676 { "id":672, 0:"ccn",  1:"Cloud Condensation Nuclei Concentration at Liquid Cloud Top", 2:"unset", 3:"'proposed name: number_concentration_of_ambient_aerosol_in_air_at_liquid_water_cloud_top'", 4:"CCMI1_monthly" }, 
    677 { "id":673, 0:"cbrclf2tbrdn",  1:"Tendency of Atmospheric Burden of Halon 1211", 2:"tendency_of_atmosphere_moles_of_halon1211", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }, 
    678 { "id":674, 0:"agesno",  1:"Snow Age", 2:"age_of_surface_snow", 3:"'When computing the time-mean here, the time samples, weighted by the mass of snow on the land portion of the grid cell, are accumulated and then divided by the sum of the weights.  Reported as ''missing in regions free of snow on land.'", 4:"CMIP5_LImon" }, 
    679 { "id":675, 0:"rsdcs",  1:"Downwelling Clear-Sky Shortwave Radiation", 2:"downwelling_shortwave_flux_in_air_assuming_clear_sky", 3:"'unset'", 4:"CMIP5_cfSites" }, 
    680 { "id":676, 0:"thetao",  1:"Sea water potential temperature", 2:"sea_water_potential_temperature", 3:"'unset'", 4:"SPECS_Omon" }, 
    681 { "id":677, 0:"intpdiat",  1:"Primary Organic Carbon Production by Diatoms", 2:"net_primary_mole_productivity_of_carbon_by_diatoms", 3:"'Vertically integrated primary (organic carbon) production by the diatom phytoplankton component alone'", 4:"CMIP5_Omon" }, 
    682 { "id":678, 0:"vmrbrono2",  1:"BrONO2 Volume Mixing Ratio", 2:"mole_fraction_of_bromine_nitrate_in_air", 3:"''", 4:"CCMI1_daily" }, 
    683 { "id":679, 0:"sadsulf",  1:"Surface Area Density of Sulfate Aerosol", 2:"unset", 3:"'sulfate aerosol surface area density used in heterogeneous activation of ClOx and BrOx. Defined as the area of aerosol per volume of atmosphere (i.e., m2 m-3 = m-1). This is the total sulfate SAD (i.e., sum of binary and ternary aerosol).'", 4:"CCMI1_daily" }, 
    684 { "id":680, 0:"snd",  1:"Snow Depth", 2:"surface_snow_thickness", 3:"'where land over land.  Compute the mean thickness of snow in the land portion of the grid cell (averaging over the entire land portion, including the snow-free fraction.  Report as 0.0 where the land fraction is 0.'", 4:"CORDEX_6h" }, 
    685 { "id":681, 0:"reffclitop",  1:"Ice Cloud-Top Effective Crystal Radius", 2:"unset", 3:"'This is the value from uppermost model layer with ice cloud or, if available, or for some models it is the sum over all ice cloud tops, no matter where they occur, as long as they are seen from the top of the atmosphere.  Reported values are weighted by total cwiceliquid cloud top fraction of  (as seen from TOA) each time sample when computing monthly mean. proposed name: effective_radius_of_cloud_crystal_at_ice_cloud_top'", 4:"CCMI1_monthly" }, 
    686 { "id":682, 0:"sftlf",  1:"Land Area Fraction", 2:"land_area_fraction", 3:"'This is the area fraction at the ocean surface.'", 4:"SPECS_fx" }, 
    687 { "id":683, 0:"lso3chm",  1:"Net Chemistry Tendency of O3 in the Lower-Most Stratosphere", 2:"unset", 3:"'The tropopause follows the WMO definition. The tendency has to be calculated online for all the grid boxes above the tropopause (excluding the boxes containing the tropopause) and below 100 hPa, as tropopause fluctuates rapidly.  Integrate 3D tendency field vertically to 2d field for every time step, then do the monthly average.'", 4:"CCMI1_monthly" }, 
    688 { "id":684, 0:"zmta",  1:"Zonal Mean Air Temperature", 2:"air_temperature", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }, 
    689 { "id":685, 0:"cWood",  1:"Carbon Mass in Wood", 2:"wood_carbon_content", 3:"'including sapwood and hardwood.'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    690 { "id":686, 0:"cli",  1:"Mass Fraction of Cloud Ice", 2:"mass_fraction_of_cloud_ice_in_air", 3:"'Includes both large-scale and convective cloud. This is calculated as the mass of cloud ice in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  It includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.'", 4:"CCMI1_monthly" }, 
    691 { "id":687, 0:"dems",  1:"Stratiform Cloud Emissivity", 2:"stratiform_cloud_longwave_emissivity", 3:"'This is the in-cloud emissivity obtained by considering only the cloudy portion of the grid cell.'", 4:"CMIP5_cf3hr" }, 
    692 { "id":688, 0:"ta5",  1:"Air Temperature at 5 hPa", 2:"air_temperature", 3:"'Temperature on the 5 hPa surface'", 4:"CCMI1_daily" }, 
    693 { "id":689, 0:"concbc",  1:"Concentration of Black Carbon Aerosol", 2:"mass_concentration_of_black_carbon_dry_aerosol_in_air", 3:"'unset'", 4:"CMIP5_aero" }, 
    694 { "id":690, 0:"tmelt",  1:"Rate of Melt at Upper Surface of Sea Ice", 2:"tendency_of_sea_ice_amount_due_to_surface_melting", 3:"'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.  Reported as 0.0 in regions free of sea ice. Does not include rate of change of snow mass.'", 4:"CMIP5_OImon" }, 
    695 { "id":691, 0:"prlsprof",  1:"Stratiform Rainfall Flux", 2:"large_scale_rainfall_flux", 3:"'unset'", 4:"CMIP5_cf3hr" }, 
    696 { "id":692, 0:"hfnorthaba",  1:"Atlantic Northward Ocean Heat Transport Due to Bolus Advection", 2:"northward_ocean_heat_transport_due_to_bolus_advection", 3:"'unset'", 4:"SPECS_Omon" }, 
    697 { "id":693, 0:"ccb",  1:"Air Pressure at Convective Cloud Base", 2:"air_pressure_at_convective_cloud_base", 3:"'unset'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfDay,CMIP5_cfSites" }, 
    698 { "id":694, 0:"zossq",  1:"Square of Sea Surface Height Above Geoid", 2:"square_of_sea_surface_height_above_geoid", 3:"'unset'", 4:"CMIP5_Omon" }, 
    699 { "id":695, 0:"tnscliif",  1:"Tendency of Mass Fraction of Stratiform Cloud Ice due to Icefall", 2:"tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_icefall", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    700 { "id":696, 0:"bfe",  1:"Particulate Biogenic Iron Concentration at Surface", 2:"mole_concentration_of_particulate_organic_matter_expressed_as_iron_in_sea_water", 3:"'sum of particulate organic iron component concentrations'", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    701 { "id":697, 0:"prodhpx",  1:"Production Rate of all Hydrogen Peroxides", 2:"unset", 3:"'Summed 3-d distritbution of production rate of H2O2 and ROOH'", 4:"CCMI1_monthly" }, 
    702 { "id":698, 0:"baresoilFrac",  1:"Bare Soil Fraction", 2:"area_fraction", 3:"'fraction of entire grid cell  that is covered by bare soil.'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    703 { "id":699, 0:"expcalc",  1:"Sinking Calcite Flux", 2:"sinking_mole_flux_of_calcite_expressed_as_carbon_in_sea_water", 3:"'unset'", 4:"CMIP5_Oyr" }, 
    704 { "id":700, 0:"rlutcs",  1:"TOA Outgoing Clear-Sky Longwave Radiation", 2:"toa_outgoing_longwave_flux_assuming_clear_sky", 3:"'unset'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfDay,CMIP5_cfSites" }, 
    705 { "id":701, 0:"snw",  1:"Surface Snow Amount", 2:"surface_snow_amount", 3:"'Computed as the mass of surface snow on the land portion of the grid cell divided by the land area in the grid cell; reported as 0.0 where the land fraction is 0; excluded is snow on vegetation canopy or on sea ice.'", 4:"CMIP5_LImon" }, 
    706 { "id":702, 0:"ch3brsmtbrdn",  1:"Tendency of Middle Atmosphere Burden of CH3Br", 2:"tendency_of_middle_atmosphere_moles_of_methyl_bromide", 3:"'total yearly averaged stratospheric and mesospheric loss'", 4:"CCMI1_annual" }, 
    707 { "id":703, 0:"hfxba",  1:"Ocean Heat X Transport due to Bolus Advection", 2:"ocean_heat_x_transport_due_to_bolus_advection", 3:"'unset'", 4:"CMIP5_Omon" }, 
    708 { "id":704, 0:"tntc",  1:"Tendency of Air Temperature due to Moist Convection", 2:"tendency_of_air_temperature_due_to_convection", 3:"'unset'", 4:"CMIP5_cfMon,CMIP5_cfSites" }, 
    709 { "id":705, 0:"ua850",  1:"Eastward Wind at 850 hPa", 2:"eastward_wind", 3:"'Zonal wind on the 850 hPa surface'", 4:"CCMI1_daily" }, 
    710 { "id":706, 0:"dryo3",  1:"Dry Deposition Rate of Ozone", 2:"tendency_of_atmosphere_mass_content_of_ozone_due_to_dry_deposition", 3:"'dry deposition includes gravitational settling, impact scavenging, and turbulent deposition.'", 4:"CCMI1_monthly" }, 
    711 { "id":707, 0:"fddtalk",  1:"Rate of Change of Alkalinity", 2:"integral_wrt_depth_of_tendency_of_sea_water_alkalinity_expressed_as_mole_equivalent", 3:"'vertical integral of net time rate of change of alkalinity'", 4:"CMIP5_Omon" }, 
    712 { "id":708, 0:"zmoh",  1:"Zonal Mean OH Volume Mixing Ratio", 2:"mole_fraction_of_hydroxyl_radical_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    713 { "id":709, 0:"snc",  1:"Snow Area Fraction", 2:"surface_snow_area_fraction", 3:"''", 4:"CCMI1_monthly" }, 
    714 { "id":710, 0:"tnscli",  1:"Tendency of Mass Fraction of Stratiform Cloud Ice In Air", 2:"tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    715 { "id":711, 0:"hfds",  1:"Downward Heat Flux at Sea Water Surface", 2:"surface_downward_heat_flux_in_sea_water", 3:"''This is the net flux of heat entering the liquid water column through its upper surface (excluding any ''flux adjustment'') .''", 4:"CMIP5_Omon" }, 
    716 { "id":712, 0:"clt",  1:"Total Cloud Fraction", 2:"cloud_area_fraction", 3:"'For the whole atmospheric column, as seen from the surface or the top of the atmosphere.  Include both large-scale and convective cloud.'", 4:"CCMI1_daily" }, 
    717 { "id":713, 0:"huss",  1:"Near-Surface Specific Humidity", 2:"specific_humidity", 3:"'near-surface (usually, 2 meter) specific humidity.'", 4:"CORDEX_3h,CORDEX_day,CORDEX_mon,CORDEX_sem" }, 
    718 { "id":714, 0:"sconcsoa",  1:"Surface Concentration of Dry Aerosol Secondary Organic Matter", 2:"mass_concentration_of_secondary_particulate_organic_matter_dry_aerosol_in_air", 3:"'mass concentration of secondary particulate organic matter dry aerosol in air in model lowest layer.  If the model lumps SOA with POA, then their sum is reported as POA.'", 4:"CMIP5_aero" }, 
    719 { "id":715, 0:"strocnx",  1:"X-Component of Ocean Stress On Sea Ice", 2:"upward_x_stress_at_sea_ice_base", 3:"'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.'", 4:"CMIP5_OImon,SPECS_OImon" }, 
    720 { "id":716, 0:"bddtdife",  1:"Rate of Change of Dissolved Inorganic Iron due to Biological Activity", 2:"tendency_of_mole_concentration_of_dissolved_inorganic_iron_in_sea_water_due_to_biological_processes", 3:"'Net of biological terms in time rate of change of dissolved inorganic iron'", 4:"CMIP5_Oyr" }, 
    721 { "id":717, 0:"sftlf",  1:"Land Area Fraction", 2:"land_area_fraction", 3:"'unset'", 4:"CMIP5_fx" }, 
    722 { "id":718, 0:"strairx",  1:"X-Component of Atmospheric Stress On Sea Ice", 2:"surface_downward_x_stress", 3:"'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.   Reported as ''missing'' in regions free of sea ice.'", 4:"CMIP5_OImon,SPECS_OImon" }, 
    723 { "id":719, 0:"evlwr",  1:"evaporation", 2:"lwe_water_evaporation_rate", 3:"'unset'", 4:"SPECS_Amon" }, 
    724 { "id":720, 0:"mmraerno3",  1:"NO3 Aerosol Mass Mixing Ratio", 2:"mass_fraction_of_nitrate_dry_aerosol_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    725 { "id":721, 0:"cnpz",  1:"Canopy Height", 2:"canopy_height", 3:"''", 4:"CCMI1_monthly" }, 
    726 { "id":722, 0:"zmcf2cl2",  1:"Zonal Mean CF2Cl2 Volume Mixing Ratio", 2:"mole_fraction_of_cfc12_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    727 { "id":723, 0:"wetss",  1:"Wet Deposition Rate of Seasalt", 2:"tendency_of_atmosphere_mass_content_of_seasalt_dry_aerosol_due_to_wet_deposition", 3:"'unset'", 4:"CMIP5_aero" }, 
    728 { "id":724, 0:"ta100",  1:"Air Temperature at 100 hPa", 2:"air_temperature", 3:"'Temperature on the 100 hPa surface'", 4:"CCMI1_daily" }, 
    729 { "id":725, 0:"emiaso4",  1:"Anthropogenic Direct Emission Rate of SO4", 2:"unset", 3:"'Includes agricultural waste burning but no other biomass burning. Expressed as a tendency of atmosphere mass content of SO4.  Direct emission does not include secondary sulfate production.  proposed name: tendency_of_atmosphere_mass_content_of_anthropogenic_sulfate_dry_aerosol_due_to_emission. Integrate 3D emission field vertically to 2d field.'", 4:"CCMI1_monthly" }, 
    730 { "id":726, 0:"tos",  1:"Sea Surface Temperature", 2:"sea_surface_temperature", 3:"'temperature of liquid ocean.  Note that the correct standard_name for this variable is ''sea_surface_temperature'', not ''surface_temperature'', but this was discovered too late to correct.  To maintain consistency across CMIP5 models, the wrong standard_name will continue to be used.'", 4:"CMIP5_day" }, 
    731 { "id":727, 0:"prsn",  1:"Snowfall Flux", 2:"snowfall_flux", 3:"'at surface.  Includes precipitation of all forms water in the solid phase.  This is the 3-hour mean snowfall flux.'", 4:"CMIP5_3hr" }, 
    732 { "id":728, 0:"c2hf3cl2brdn",  1:"Atmospheric Burden of C2HF3Cl2", 2:"unset", 3:"'total yearly average burden'", 4:"CCMI1_annual" }, 
    733 { "id":729, 0:"hfls",  1:"Surface Downward Latent Heat Flux", 2:"surface_downward_latent_heat_flux", 3:"''This is defined as ''where ice_free_sea over sea''''", 4:"CMIP5_Omon" }, 
    734 { "id":730, 0:"vmrisop",  1:"Isoprene Volume Mixing Ratio", 2:"mole_fraction_of_isoprene_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    735 { "id":731, 0:"tnsclwbl",  1:"Tendency of Mass Fraction of Stratiform Cloud Liquid Water In Air Due To Boundary Layer Mixing", 2:"tendency_of_mass_fraction_of_stratiform_cloud_liquid_water_in_air_due_to_boundary_layer_mixing", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    736 { "id":732, 0:"thetaot",  1:"Vertically averaged ocean temperature", 2:"sea_water_potential_temperature", 3:"'unset'", 4:"SPECS_Omon" }, 
    737 { "id":733, 0:"nshrice",  1:"Northward Derivative of Eastward Sea Ice Velocity", 2:"northward_derivative_of_eastward_sea_ice_velocity", 3:"'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.   Reported as ''missing'' in regions free of sea ice.'", 4:"CMIP5_OImon,SPECS_OImon" }, 
    738 { "id":734, 0:"concno3",  1:"Concentration of NO3 Aerosol", 2:"mass_concentration_of_nitrate_dry_aerosol_in_air", 3:"'unset'", 4:"CMIP5_aero" }, 
    739 { "id":735, 0:"vmraoanh",  1:"aoa_nh Volume Mixing Ratio", 2:"unset", 3:"'Fixed surface layer mixing ratio over latitudes 30-50N (0 ppbv), uniform fixed source (at all levels) everywhere else.  (source is unspecified but must be constant in space and time and documented). Note that the source could be 1yr/yr, so the tracer concentration provides mean age in years.  For method using linearly increasing tracer include a method attribute: 'linearly increasing tracer'.  For method using uniform source (1yr/yr) include a method attribute: 'uniform source'.  For details see website: XXXXX'", 4:"CCMI1_monthly" }, 
    740 { "id":736, 0:"chl",  1:"Total Chlorophyll Mass Concentration at Surface", 2:"mass_concentration_of_phytoplankton_expressed_as_chlorophyll_in_sea_water", 3:"'sum of chlorophyll from all phytoplankton group concentrations.  In most models this is equal to chldiat+chlmisc, that is the sum of ''Diatom Chlorophyll Mass Concentration'' plus ''Other Phytoplankton Chlorophyll Mass Concentration'''", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    741 { "id":737, 0:"vt100",  1:"Meridional Heat Flux", 2:"northward_heat_flux_in_air_due_to_eddy_advection", 3:"'Zonally averaged meridional heat flux at 100 hPa as monthly means derived from daily (or higher frequency) fields.'", 4:"CCMI1_monthly" }, 
    742 { "id":738, 0:"hcice",  1:"Sea Ice Heat Content", 2:"integral_of_sea_ice_temperature_wrt_depth_expressed_as_heat_content", 3:"'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.   Reported as ''missing in regions free of sea ice.  Does not include heat content of snow.'", 4:"CMIP5_OImon" }, 
    743 { "id":739, 0:"transiy",  1:"Y-Component of Sea Ice Mass Transport", 2:"sea_ice_y_transport", 3:"'The sea ice mass transport is 0.0 in ice-free regions of the ocean.  Snow is included in calculation of mass.'", 4:"CMIP5_OImon,SPECS_OImon" }, 
    744 { "id":740, 0:"rsdscsdiff",  1:"Surface Diffuse Downwelling Clear Sky Shortwave Radiation", 2:"surface_diffuse_downwelling_shortwave_flux_in_air_assuming_clear_sky", 3:"'unset'", 4:"CMIP5_aero" }, 
    745 { "id":741, 0:"od550so4",  1:"Sulfate AOD at 550nm", 2:"unset", 3:"'proposed name: atmosphere_optical_thickness_due_to_sulfate_ambient_aerosol'", 4:"CCMI1_monthly" }, 
    746 { "id":742, 0:"tso",  1:"Sea Surface Temperature", 2:"sea_surface_temperature", 3:"'temperature of surface of open ocean, sampled synoptically.'", 4:"CMIP5_3hr" }, 
    747 { "id":743, 0:"wetdust",  1:"Wet Deposition Rate of Dust", 2:"tendency_of_atmosphere_mass_content_of_dust_dry_aerosol_due_to_wet_deposition", 3:"''", 4:"CCMI1_monthly" }, 
    748 { "id":744, 0:"treeFracSecEver",  1:"Total Secondary Evergreen Tree Cover Fraction", 2:"area_fraction", 3:"'fraction of entire grid cell  that is covered by secondary evergreen trees.'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    749 { "id":745, 0:"chclf2smtbrdn",  1:"Tendency of Middle Atmosphere Burden of CHClF2", 2:"unset", 3:"'total yearly averaged stratospheric and mesospheric loss'", 4:"CCMI1_annual" }, 
    750 { "id":746, 0:"hfxdiff",  1:"Ocean Heat X Transport due to Diffusion", 2:"ocean_heat_x_transport_due_to_diffusion", 3:"'unset'", 4:"CMIP5_Omon" }, 
    751 { "id":747, 0:"cli",  1:"Mass Fraction of Cloud Ice", 2:"mass_fraction_of_cloud_ice_in_air", 3:"'Includes both large-scale and convective cloud.  This is calculated as the mass of cloud ice in the grid cell divided by the mass of air (including the water in all phases) in the grid cell. It includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.'", 4:"CMIP5_Amon" }, 
    752 { "id":748, 0:"ch3ccl2ftrtbrdn",  1:"Tendency of Tropospheric Burden of CH3CCl2F", 2:"unset", 3:"'total yearly averaged tropospheric loss'", 4:"CCMI1_annual" }, 
    753 { "id":749, 0:"sftof",  1:"Sea Area Fraction", 2:"sea_area_fraction", 3:"'This is the area fraction at the ocean surface.'", 4:"CMIP5_fx" }, 
    754 { "id":750, 0:"cotrtbrdn",  1:"Tendency of Tropospheric Burden of CO", 2:"tendency_of_troposphere_moles_of_carbon_monoxide", 3:"'total yearly averaged tropospheric loss'", 4:"CCMI1_annual" }, 
    755 { "id":751, 0:"ch3cclf2tbrdn",  1:"Tendency of Atmospheric Burden of CH3CClF2", 2:"tendency_of_atmosphere_moles_of_hcfc142b", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }, 
    756 { "id":752, 0:"omlmax",  1:"Monthly Maximum Ocean Mixed Layer Thickness Defined by Mixing Scheme", 2:"ocean_mixed_layer_thickness_defined_by_mixing_scheme", 3:"'unset'", 4:"CMIP5_Omon" }, 
    757 { "id":753, 0:"treeFracSecDec",  1:"Total Secondary Deciduous Tree Cover Fraction", 2:"area_fraction", 3:"'fraction of entire grid cell  that is covered by secondary deciduous trees.'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    758 { "id":754, 0:"wetoa",  1:"Wet Deposition Rate of Dry Aerosol Organic Matter", 2:"tendency_of_atmosphere_mass_content_of_particulate_organic_matter_dry_aerosol_due_to_wet_deposition", 3:"'tendency of atmosphere mass content of organic matter dry aerosols due to wet deposition: This is the sum of wet deposition of POA and wet deposition of SOA (see next two entries). ''Mass'' refers to the mass of organic matter, not mass of organic carbon alone.'", 4:"CMIP5_aero" }, 
    759 { "id":755, 0:"grCongel",  1:"Congelation Sea Ice Growth Rate", 2:"tendency_of_sea_ice_amount_due_to_congelation_ice_accumulation", 3:"'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.  Reported as 0.0 in regions free of sea ice.'", 4:"CMIP5_OImon" }, 
    760 { "id":756, 0:"ch2fcf3smtbrdn",  1:"Tendency of Middle Atmosphere Burden of CH2FCF3", 2:"unset", 3:"'total yearly averaged stratospheric and mesospheric loss'", 4:"CCMI1_annual" }, 
    761 { "id":757, 0:"vstar",  1:"Northward TEM air velocity", 2:"northward_transformed_eulerian_mean_air_velocity", 3:"'Transformed Eulerian Mean Diagnostics v*, meridional component of the residual meridional circulation (v*, w*) derived from 6 hr or higher frequency data fields (use instantaneous daily fields or 12 hr fields if the 6 hr data are not available).'", 4:"CCMI1_daily,CCMI1_monthly" }, 
    762 { "id":758, 0:"htovovrt",  1:"Northward Ocean Heat Transport due to Overturning", 2:"northward_ocean_heat_transport_due_to_overturning", 3:"'unset'", 4:"CMIP5_Omon" }, 
    763 { "id":759, 0:"vmro3cnp",  1:"Ozone Volume Mixing Ratio at Canopy Height", 2:"mole_fraction_of_ozone_in_air", 3:"'Only for year 2006'", 4:"CCMI1_hourly" }, 
    764 { "id":760, 0:"rsd",  1:"Downwelling Shortwave Radiation", 2:"downwelling_shortwave_flux_in_air", 3:"'unset'", 4:"CMIP5_cfSites" }, 
    765 { "id":761, 0:"rldscs",  1:"Surface Downwelling Clear-Sky Longwave Radiation", 2:"surface_downwelling_longwave_flux_in_air_assuming_clear_sky", 3:"'This is a 3-hour mean flux.'", 4:"CMIP5_3hr" }, 
    766 { "id":762, 0:"shrubFrac",  1:"Shrub Fraction", 2:"area_fraction", 3:"'fraction of entire grid cell  that is covered by shrub.'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    767 { "id":763, 0:"zmbro",  1:"Zonal Mean BrO volume mixing ratio", 2:"mole_fraction_of_bromine_monoxide_in_air", 3:"''", 4:"CCMI1_daily" }, 
    768 { "id":764, 0:"ua500",  1:"Eastward Wind at 500 hPa", 2:"eastward_wind", 3:"'Zonal wind on the 500 hPa surface'", 4:"CCMI1_daily" }, 
    769 { "id":765, 0:"prsnc",  1:"Convective Snowfall Flux", 2:"convective_snowfall_flux", 3:"'convective precipitation of all forms of water in the solid phase.'", 4:"CMIP5_cf3hr" }, 
    770 { "id":766, 0:"zg100",  1:"Geopotential Height at 100 hPa", 2:"geopotential_height", 3:"'Geopotential height on the 100 hPa surface'", 4:"CCMI1_daily" }, 
    771 { "id":767, 0:"swtoaasaer",  1:"All-Sky SW-RF Aerosols at TOA", 2:"unset", 3:"'proposed name: toa_instantaneous_shortwave_forcing_due_to_ambient_aerosol'", 4:"CCMI1_monthly" }, 
    772 { "id":768, 0:"va100",  1:"Northward Wind at 100 hPa", 2:"northward_wind", 3:"'Meridional wind on the 100 hPa surface'", 4:"CCMI1_daily" }, 
    773 { "id":769, 0:"emiapom",  1:"Total Emission of Anthropogenic POM", 2:"unset", 3:"'Integrate 3D emission field vertically to 2d field. we recommend a scale factor of POM=1.4*OC; unless your model has more detailed info available'", 4:"CCMI1_monthly" }, 
    774 { "id":770, 0:"hfls",  1:"Surface Upward Latent Heat Flux", 2:"surface_upward_latent_heat_flux", 3:"'This is the 3-hour mean flux.'", 4:"CMIP5_3hr" }, 
    775 { "id":771, 0:"tslsi",  1:"Surface Temperature Where Land or Sea Ice", 2:"surface_temperature", 3:"''''skin'' temperature of all surfaces except open ocean.  ''", 4:"CMIP5_day" }, 
    776 { "id":772, 0:"clivi",  1:"Ice Water Path", 2:"atmosphere_mass_content_of_cloud_ice", 3:"''", 4:"CCMI1_monthly" }, 
    777 { "id":773, 0:"diftrxylo2d",  1:"Ocean Tracer XY Laplacian Diffusivity", 2:"ocean_tracer_xy_laplacian_diffusivity", 3:"'unset'", 4:"CMIP5_Oclim" }, 
    778 { "id":774, 0:"sconcoa",  1:"Surface Concentration of Dry Aerosol Organic Matter", 2:"mass_concentration_of_particulate_organic_matter_dry_aerosol_in_air", 3:"'mass concentration of particulate organic matter dry aerosol in air in model lowest layer'", 4:"CMIP5_aero" }, 
    779 { "id":775, 0:"wetdust",  1:"Wet Deposition Rate of Dust", 2:"tendency_of_atmosphere_mass_content_of_dust_dry_aerosol_due_to_wet_deposition", 3:"'unset'", 4:"CMIP5_aero" }, 
    780 { "id":776, 0:"ta",  1:"Air Temperature", 2:"air_temperature", 3:"'unset'", 4:"CMIP5_6hrLev,CMIP5_6hrPlev,CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfDay,CMIP5_cfMon,CMIP5_cfSites,CMIP5_day,SPECS_Amon,SPECS_day" }, 
    781 { "id":777, 0:"huss",  1:"Near-Surface Specific Humidity", 2:"specific_humidity", 3:"'This is sampled synoptically.'", 4:"CMIP5_3hr" }, 
    782 { "id":778, 0:"emidust",  1:"Total Emission Rate of Dust", 2:"tendency_of_atmosphere_mass_content_of_dust_dry_aerosol_due_to_emission", 3:"'unset'", 4:"CMIP5_aero" }, 
    783 { "id":779, 0:"tnscliricl",  1:"Tendency of Mass Fraction of Stratiform Cloud Ice due to Riming From Cloud Liquid", 2:"tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_riming_from_cloud_liquid_water", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    784 { "id":780, 0:"fco2nat",  1:"Surface Carbon Mass Flux into the Atmosphere Due to Natural Sources", 2:"surface_upward_mass_flux_of_carbon_dioxide_expressed_as_carbon_due_to_emission_from_natural_sources", 3:"'This is what the atmosphere sees (on its own grid).  This field should be equivalent to the combined natural fluxes of carbon (requested in the L_mon and O_mon tables) that account for natural exchanges between the atmosphere and land or ocean reservoirs (i.e., ''net ecosystem biospheric productivity'', for land, and ''air to sea CO2 flux'', for ocean.)'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites" }, 
    785 { "id":781, 0:"ch4global",  1:"Global Mean Mole Fraction of CH4", 2:"mole_fraction_of_methane_in_air", 3:"'unset'", 4:"CMIP5_Amon" }, 
    786 { "id":782, 0:"divice",  1:"Strain Rate Divergence of Sea Ice", 2:"divergence_of_sea_ice_velocity", 3:"'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.   Reported as ''missing'' in regions free of sea ice.'", 4:"CMIP5_OImon" }, 
    787 { "id":783, 0:"tnsccw",  1:"Tendency of Mass Fraction of Stratiform Cloud Condensed Water In Air", 2:"tendency_of_mass_fraction_of_stratiform_cloud_condensed_water_in_air", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    788 { "id":784, 0:"fbddtalk",  1:"Rate of Change of Biological Alkalinity due to Biological Activity", 2:"integral_wrt_depth_of_tendency_of_sea_water_alkalinity_expressed_as_mole_equivalent_due_to_biological_processes", 3:"'vertical integral of net biological terms in time rate of change of alkalinity'", 4:"CMIP5_Omon" }, 
    789 { "id":785, 0:"zmho2",  1:"Zonal Mean HO2 Volume Mixing Ratio", 2:"mole_fraction_of_hydroperoxyl_radical_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    790 { "id":786, 0:"ch3cltbrdn",  1:"Tendency of Atmospheric Burden of CH3Cl", 2:"tendency_of_atmosphere_moles_of_methyl_chloride", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }, 
    791 { "id":787, 0:"treeFracPrimEver",  1:"Total Primary Evergreen Tree Cover Fraction", 2:"area_fraction", 3:"'fraction of entire grid cell  that is covered by primary evergreen trees.'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    792 { "id":788, 0:"emiss",  1:"Total Emission Rate of Seasalt", 2:"tendency_of_atmosphere_mass_content_of_seasalt_dry_aerosol_due_to_emission", 3:"'unset'", 4:"CMIP5_aero" }, 
    793 { "id":789, 0:"bddtdisi",  1:"Rate of Change of Dissolved Inorganic Silicate due to Biological Activity", 2:"tendency_of_mole_concentration_of_dissolved_inorganic_silicate_in_sea_water_due_to_biological_processes", 3:"'Net of biological terms in time rate of change of dissolved inorganic silicate'", 4:"CMIP5_Oyr" }, 
    794 { "id":790, 0:"hfibthermds",  1:"Heat Flux into Sea Water due to Iceberg Thermodynamics", 2:"heat_flux_into_sea_water_due_to_iceberg_thermodynamics", 3:"'unset'", 4:"CMIP5_Omon" }, 
    795 { "id":791, 0:"n2o",  1:"Mole Fraction of N2O", 2:"mole_fraction_of_nitrous_oxide_in_air", 3:"'unset'", 4:"CMIP5_Amon" }, 
    796 { "id":792, 0:"rsd4co2",  1:"Downwelling Shortwave Radiation 4XCO2 Atmosphere", 2:"downwelling_shortwave_flux_in_air", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    797 { "id":793, 0:"cli",  1:"Mass Fraction of Cloud Ice", 2:"mass_fraction_of_cloud_ice_in_air", 3:"'Calculated as the mass of cloud ice  in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.'", 4:"CMIP5_cfDay" }, 
    798 { "id":794, 0:"conccmcn",  1:"Number Concentration Coarse Mode Aerosol", 2:"number_concentration_of_coarse_mode_ambient_aerosol_in_air", 3:"'includes all particles with diameter larger than 1 micron'", 4:"CMIP5_aero" }, 
    799 { "id":795, 0:"zmch3ccl2f",  1:"Zonal Mean CH3CCl2F Volume Mixing Ratio", 2:"mole_fraction_of_hcfc141b_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    800 { "id":796, 0:"zmnoy",  1:"Zonal Mean Total Reactive Nitrogen (NOy) Volume Mixing Ratio", 2:"mole_fraction_of_total_reactive_nitrogen_in_air", 3:"'Total family (the sum of all appropriate species in the model); list the species in the netCDF header, e.g. NOy = N + NO + NO2 + NO3 + HNO3 + 2N2O5 + HNO4 + ClONO2 + BrONO2.  Definition: Total reactive nitrogen; usually includes atomic nitrogen (N), nitric oxide (NO), NO2, nitrogen trioxide (NO3), dinitrogen radical (N2O5), nitric acid (HNO3), peroxynitric acid (HNO4), BrONO2, ClONO2'", 4:"CCMI1_daily" }, 
    801 { "id":797, 0:"eshrice",  1:"Eastward Derivative of Northward Sea Ice Velocity", 2:"eastward_derivative_of_northward_sea_ice_velocity", 3:"'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.   Reported as ''missing'' in regions free of sea ice.'", 4:"CMIP5_OImon,SPECS_OImon" }, 
    802 { "id":798, 0:"emioa",  1:"Rate of Emission and Production of Dry Aerosol Total Organic Matter", 2:"tendency_of_atmosphere_mass_content_of_particulate_organic_matter_dry_aerosol_due_to_net_chemical_production_and_emission", 3:"'Tendency of atmosphere mass content of organic matter dry aerosol due to net production and emission.  This is the sum of total emission of POA and total production of SOA (emipoa+chepsoa). 'Mass' refers to the mass of organic matter, not mass of organic carbon alone. We recommend a scale factor of POM=1.4*OC, unless your model has more detailed info available. Was called emi_pom in old ACCMIP Excel table. Integrate 3D emission field vertically to 2d field.'", 4:"CCMI1_monthly" }, 
    803 { "id":799, 0:"vmrco50na700",  1:"co_50_na Volume Mixing Ratio at 700 hPa", 2:"unset", 3:"'daily mean, emitted as anthropogenic CO over North America (15N-55N; 60W-125W) (emission file available from HTAP), uniform fixed 50-day exponential decay.'", 4:"CCMI1_daily" }, 
    804 { "id":800, 0:"vsfevap",  1:"Virtual Salt Flux into Sea Water due to Evaporation", 2:"virtual_salt_flux_into_sea_water_due_to_evaporation", 3:"'unset'", 4:"CMIP5_Omon" }, 
    805 { "id":801, 0:"wsgsmax",  1:"Daily Maximum Near-Surface Wind Speed of Gust", 2:"wind_speed_of_gust", 3:"'near-surface (usually, 10 meters) wind speed of gust'", 4:"CORDEX_day" }, 
    806 { "id":802, 0:"vmrnh5",  1:"nh_5 Volume Mixing Ratio", 2:"unset", 3:"'Fixed surface layer mixing ratio over latitudes 30-50N (100ppbv), uniform fixed 5-day exponential decay (e-folding time=4.32x105s).'", 4:"CCMI1_monthly" }, 
    807 { "id":803, 0:"dryoa",  1:"Dry Deposition Rate of Dry Aerosol Organic Matter", 2:"tendency_of_atmosphere_mass_content_of_particulate_organic_matter_dry_aerosol_due_to_dry_deposition", 3:"'tendency of atmosphere mass content of organic dry aerosol due to dry deposition: This is the sum of dry deposition of POA and dry deposition of SOA (see next two entries). ''Mass'' refers to the mass of organic matter, not mass of organic carbon alone.'", 4:"CMIP5_aero" }, 
    808 { "id":804, 0:"zmla",  1:"Height of Boundary Layer", 2:"atmosphere_boundary_layer_thickness", 3:"''", 4:"CORDEX_6h,CORDEX_day" }, 
    809 { "id":805, 0:"co3",  1:"Mole Concentration of Carbonate expressed as Carbon in Sea Water at Surface", 2:"mole_concentration_of_carbonate_expressed_as_carbon_in_sea_water", 3:"'unset'", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    810 { "id":806, 0:"snd",  1:"Snow Depth", 2:"surface_snow_thickness", 3:"'snow depth'", 4:"CCMI1_daily" }, 
    811 { "id":807, 0:"tpo3chm",  1:"Net Chemistry Tendency of O3 in the Troposphere", 2:"unset", 3:"'The tropopause follows the WMO definition. The tendency has to be calculated online for all the grid boxes below the tropopause (including the boxes containing the tropopause), as tropopause fluctuates rapidly.  Integrate 3D tendency field vertically to 2d field for every time step, then do the monthly average.'", 4:"CCMI1_monthly" }, 
    812 { "id":808, 0:"clic",  1:"Mass Fraction of Convective Cloud Ice", 2:"mass_fraction_of_convective_cloud_ice_in_air", 3:"'Calculated as the mass of convective cloud ice  in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.'", 4:"CMIP5_cf3hr,CMIP5_cfMon" }, 
    813 { "id":809, 0:"va200",  1:"Northward Wind", 2:"northward_wind", 3:"'unset'", 4:"CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem" }, 
    814 { "id":810, 0:"tnsclwmi",  1:"Tendency of Mass Fraction of Stratiform Cloud Liquid Water due to Melting From Cloud Ice", 2:"tendency_of_mass_fraction_of_stratiform_cloud_liquid_water_in_air_due_to_melting_from_cloud_ice", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    815 { "id":811, 0:"chclf2tbrdn",  1:"Tendency of Atmospheric Burden of CHClF2", 2:"tendency_of_atmosphere_moles_of_hcfc22", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }, 
    816 { "id":812, 0:"talk",  1:"Total Alkalinity at Surface", 2:"sea_water_alkalinity_expressed_as_mole_equivalent", 3:"'total alkalinity equivalent concentration (including carbonate, nitrogen, silicate, and borate components)'", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    817 { "id":813, 0:"ta200",  1:"Air Temperature", 2:"air_temperature", 3:"'unset'", 4:"CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem" }, 
    818 { "id":814, 0:"vmrch3br",  1:"CH3Br Volume Mixing Ratio", 2:"mole_fraction_of_methyl_bromide_in_air", 3:"''", 4:"CCMI1_daily" }, 
    819 { "id":815, 0:"stoo3",  1:"Dry Deposition Rate of Ozone in Stomata", 2:"tendency_of_atmosphere_mass_content_of_ozone_due_to_dry_deposition_into_stomata", 3:"'(dry deposition includes gravitational settling, impact scavenging, and turbulent deposition).'", 4:"CCMI1_monthly" }, 
    820 { "id":816, 0:"mcd",  1:"Downdraft Convective Mass Flux", 2:"atmosphere_downdraft_convective_mass_flux", 3:"'Calculated as the convective mass flux divided by the area of the whole grid cell (not just the area of the cloud).'", 4:"CMIP5_cfMon" }, 
    821 { "id":817, 0:"c4PftFrac",  1:"Total C4 PFT Cover Fraction", 2:"area_fraction", 3:"'fraction of entire grid cell  that is covered by C4 PFTs (including grass and crops).'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    822 { "id":818, 0:"hfyba",  1:"Ocean Heat Y Transport due to Bolus Advection", 2:"ocean_heat_y_transport_due_to_bolus_advection", 3:"'unset'", 4:"CMIP5_Omon" }, 
    823 { "id":819, 0:"rsdt",  1:"TOA Incident Shortwave Radiation", 2:"toa_incoming_shortwave_flux", 3:"'at the top of the atmosphere'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfDay,CMIP5_cfSites,CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem,SPECS_Amon,SPECS_day" }, 
    824 { "id":820, 0:"rlussi",  1:"Upward Long Wave over Sea Ice", 2:"surface_upwelling_longwave_flux_in_air", 3:"'the upward longwave flux in regions of sea ice divided by the area of the ocean portion of the grid cell.'", 4:"CMIP5_OImon" }, 
    825 { "id":821, 0:"vmrch2o",  1:"CH2O Volume Mixing Ratio", 2:"mole_fraction_of_formaldehyde_in_air", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }, 
    826 { "id":822, 0:"ch3ccl3brdn",  1:"Atmospheric Burden of CH3CCl3", 2:"atmosphere_moles_of_hcc140a", 3:"'total yearly average burden'", 4:"CCMI1_annual" }, 
    827 { "id":823, 0:"sltovovrt",  1:"Northward Ocean Salt Transport due to Overturning", 2:"northward_ocean_salt_transport_due_to_overturning", 3:"'unset'", 4:"CMIP5_Omon" }, 
    828 { "id":824, 0:"vmrch3cl",  1:"CH3Cl Volume Mixing Ratio", 2:"mole_fraction_of_methyl_chloride_in_air", 3:"''", 4:"CCMI1_daily" }, 
    829 { "id":825, 0:"drybc",  1:"Dry Deposition Rate of Black Carbon Aerosol Mass", 2:"tendency_of_atmosphere_mass_content_of_black_carbon_dry_aerosol_due_to_dry_deposition", 3:"'Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition.'", 4:"CCMI1_monthly" }, 
    830 { "id":826, 0:"epfe100",  1:"Downward Flux of Particulate Iron", 2:"sinking_mole_flux_of_particulate_iron_in_sea_water", 3:"'unset'", 4:"CMIP5_Omon" }, 
    831 { "id":827, 0:"swtoaasbcff",  1:"All-Sky SW-RF BCFF at TOA Anthropogenic", 2:"unset", 3:"'proposed name: toa_instantaneous_shortwave_forcing_due_to_black_carbon_ambient_aerosol_from_fossil_fuels'", 4:"CCMI1_monthly" }, 
    832 { "id":828, 0:"tnpeo",  1:"Tendency of Ocean Potential Energy Content", 2:"tendency_of_ocean_potential_energy_content", 3:"'unset'", 4:"CMIP5_Oclim" }, 
    833 { "id":829, 0:"hfrunoffds2d",  1:"Temperature Flux due to Runoff Expressed as Heat Flux into Sea Water", 2:"temperature_flux_due_to_runoff_expressed_as_heat_flux_into_sea_water", 3:"'unset'", 4:"CMIP5_Omon" }, 
    834 { "id":830, 0:"vmrcly",  1:"Total Inorganic Chlorine (Cly) Volume Mixing Ratio", 2:"mole_fraction_of_inorganic_chlorine_in_air", 3:"'Total family (the sum of all appropriate species in the model) ; list the species in the netCDF header, e.g. Cly = HCl + ClONO2 + HOCl + ClO + Cl + 2*Cl2O2 +2Cl2 + OClO + BrCl.  Definition: Total inorganic stratospheric chlorine (e.g., HCl, ClO) resulting from degradation of chlorine-containing source gases (CFCs, HCFCs, VSLS), and natural inorganic chlorine sources (e.g., sea salt and other aerosols).'", 4:"CCMI1_daily" }, 
    835 { "id":831, 0:"zmclono2",  1:"Zonal Mean ClONO2 Volume Mixing Ratio", 2:"mole_fraction_of_chlorine_nitrate_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    836 { "id":832, 0:"tas",  1:"Air Temperature", 2:"air_temperature", 3:"'unset'", 4:"SPECS_6hr,SPECS_day" }, 
    837 { "id":833, 0:"mrso",  1:"Total soil moisture content", 2:"soil_moisture_content", 3:"'the mass per unit area  (summed over all soil layers) of water in all phases.'", 4:"SPECS_Lmon" }, 
    838 { "id":834, 0:"hfevapds",  1:"Temperature Flux due to Evaporation Expressed as Heat Flux Out of Sea Water", 2:"temperature_flux_due_to_evaporation_expressed_as_heat_flux_out_of_sea_water", 3:"''This is defined as ''where ice_free_sea over sea''''", 4:"CMIP5_Omon" }, 
    839 { "id":835, 0:"rlut4co2",  1:"TOA Outgoing Longwave Radiation 4XCO2 Atmosphere", 2:"toa_outgoing_longwave_flux", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    840 { "id":836, 0:"fddtdife",  1:"Rate of Change of Net Dissolved Inorganic Iron", 2:"tendency_of_ocean_mole_content_of_dissolved_inorganic_iron", 3:"'vertical integral of net time rate of change of dissolved inorganic iron'", 4:"CMIP5_Omon" }, 
    841 { "id":837, 0:"lwtoacsaer",  1:"Clear-Sky LW-RF Aerosols at TOA", 2:"unset", 3:"'proposed name: toa_instantaneous_longwave_forcing_due_to_ambient_aerosol_assuming_clear_sky'", 4:"CCMI1_monthly" }, 
    842 { "id":838, 0:"cfc11",  1:"Moles Per Unit Mass of CFC-11 in Sea Water", 2:"moles_of_cfc11_per_unit_mass_in_sea_water", 3:"'unset'", 4:"CMIP5_Omon" }, 
    843 { "id":839, 0:"rhsmax",  1:"Surface Daily Maximum Relative Humidity", 2:"relative_humidity", 3:"'This is the relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C.'", 4:"CMIP5_day" }, 
    844 { "id":840, 0:"vmo",  1:"Ocean Mass Y Transport", 2:"ocean_mass_y_transport", 3:"'unset'", 4:"CMIP5_Omon" }, 
    845 { "id":841, 0:"cl",  1:"Cloud Area Fraction", 2:"cloud_area_fraction_in_atmosphere_layer", 3:"'Include both large-scale and convective clouds.'", 4:"CCMI1_daily" }, 
    846 { "id":842, 0:"ec550aer",  1:"Ambient Aerosol Extinction at 550 nm", 2:"volume_extinction_coefficient_in_air_due_to_ambient_aerosol", 3:"''''ambient'' means ''wetted''.  ''", 4:"CMIP5_aero" }, 
    847 { "id":843, 0:"nogwfluxe",  1:"Zonal Component of Upward Momentum Flux by Eastward Propagating Non-Oro GWs", 2:"upward_eastward_momentum_flux_in_air_due_to_nonorographic_eastward_gravity_waves", 3:"'Zonal component (positive eastward) of the non-orographic gravity wave momentum flux carried by eastward propagating waves, including any flux out of the top of the model (e.g., add additional level to the output file for model top. Set flux at this level to zero if nothing escapes to outer space in your model). Derived either from daily means or 6hr fields (use instantaneous daily fields or 12 hr fields if the 6 hr data are not available).'", 4:"CCMI1_monthly" }, 
    848 { "id":844, 0:"clis",  1:"Mass Fraction of Stratiform Cloud Ice", 2:"mass_fraction_of_stratiform_cloud_ice_in_air", 3:"'Calculate as the mass of stratiform cloud ice  in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  Include precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.'", 4:"CMIP5_cf3hr" }, 
    849 { "id":845, 0:"wo",  1:"W", 2:"upward_sea_water_velocity", 3:"''", 4:"SPECS_Omon" }, 
    850 { "id":846, 0:"drydust",  1:"Dry Deposition Rate of Dust", 2:"tendency_of_atmosphere_mass_content_of_dust_dry_aerosol_due_to_dry_deposition", 3:"'Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition.'", 4:"CCMI1_monthly" }, 
    851 { "id":847, 0:"residualFrac",  1:"Fraction of Grid Cell that is Land but Neither Vegetation-Covered nor Bare Soil", 2:"area_fraction", 3:"'fraction of entire grid cell  that is land and is covered by ''non-vegetation'' and ''non-bare-soil'' (e.g., urban, ice, lakes, etc.)'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    852 { "id":848, 0:"emianh3",  1:"Anthropogenic Emission Rate of NH3", 2:"unset", 3:"'Includes agricultural waste burning but no other biomass burning. proposed name: tendency_of_atmosphere_mass_content_of_anthropogenic_ammonia_due_to_emission. Integrate 3D emission field vertically to 2d field.'", 4:"CCMI1_monthly" }, 
    853 { "id":849, 0:"hfgeou",  1:"Upward Geothermal Heat Flux at Sea Floor", 2:"upward_geothermal_heat_flux_at_sea_floor", 3:"'unset'", 4:"CMIP5_Omon,CMIP5_fx" }, 
    854 { "id":850, 0:"cheaqph2o2so4",  1:"Aqueous-Phase Production Rate of SO4 via S(iv)+H2O2", 2:"unset", 3:"'proposed name: tendency_of_atmosphere_mass_content_of_sulfate_dry_aerosol_due_to_aqueous_phase_net_chemical_production_by_Siv_plus_H2O2'", 4:"CCMI1_monthly" }, 
    855 { "id":851, 0:"diftrebo",  1:"Ocean Tracer Epineutral Biharmonic Diffusivity", 2:"ocean_tracer_epineutral_biharmonic_diffusivity", 3:"'unset'", 4:"CMIP5_Oclim" }, 
    856 { "id":852, 0:"nbp",  1:"Carbon Mass Flux out of Atmosphere due to Net Biospheric Production on Land", 2:"surface_net_downward_mass_flux_of_carbon_dioxide_expressed_as_carbon_due_to_all_land_processes", 3:"'This is the net mass flux of carbon between land and atmosphere calculated as photosynthesis MINUS the sum of  plant and soil respiration, carbonfluxes  from fire, harvest, grazing  and land use change. Positive flux  is into the land.'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    857 { "id":853, 0:"clisccp",  1:"ISCCP Cloud Area Fraction", 2:"isccp_cloud_area_fraction", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    858 { "id":854, 0:"ta30",  1:"Air Temperature at 30 hPa", 2:"air_temperature", 3:"'Temperature on the 30 hPa surface'", 4:"CCMI1_daily" }, 
    859 { "id":855, 0:"pdi",  1:"Diatom Primary Carbon Production", 2:"tendency_of_mole_concentration_of_particulate_organic_matter_expressed_as_carbon_in_sea_water_due_to_net_primary_production_by_diatoms", 3:"'Primary (organic carbon) production by the diatom component alone'", 4:"CMIP5_Oyr" }, 
    860 { "id":856, 0:"sim",  1:"Sea Ice Plus Surface Snow Amount", 2:"sea_ice_and_surface_snow_amount", 3:"'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).  Reported as 0.0 in regions free of sea ice.'", 4:"CMIP5_OImon" }, 
    861 { "id":857, 0:"tauuo",  1:"Surface Downward X Stress", 2:"surface_downward_x_stress", 3:"'This is the stress on the liquid ocean from overlying atmosphere, sea ice, ice shelf, etc.'", 4:"CMIP5_Omon" }, 
    862 { "id":858, 0:"ta40",  1:"Air Temperature at 40 hPa", 2:"air_temperature", 3:"'Temperature on the 40 hPa surface'", 4:"CCMI1_daily" }, 
    863 { "id":859, 0:"rsdscs",  1:"Surface Downwelling Clear-Sky Shortwave Radiation", 2:"surface_downwelling_shortwave_flux_in_air_assuming_clear_sky", 3:"'unset'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfDay,CMIP5_cfSites" }, 
    864 { "id":860, 0:"rsucs",  1:"Upwelling Clear-Sky Shortwave Radiation", 2:"upwelling_shortwave_flux_in_air_assuming_clear_sky", 3:"'Includes also the fluxes at the surface and TOA.'", 4:"CMIP5_cfMon" }, 
    865 { "id":861, 0:"vmrco50eu",  1:"co_50_eu Volume Mixing Ratio", 2:"unset", 3:"'emitted as anthropogenic CO over Europe (25N-65N; 10W-50E) (emission file available from HTAP), uniform fixed 50-day exponential decay.'", 4:"CCMI1_monthly" }, 
    866 { "id":862, 0:"dryso2",  1:"Dry Deposition Rate of SO2", 2:"tendency_of_atmosphere_mass_content_of_sulfur_dioxide_due_to_dry_deposition", 3:"'dry deposition includes gravitational settling, impact scavenging, and turbulent deposition'", 4:"CCMI1_monthly" }, 
    867 { "id":863, 0:"gsto",  1:"Stomatal Conductance of Water Vapour", 2:"unset", 3:"'(m2 is the projected leaf area)  Full units are mmol H2O/m^2 leaf area/sec.'", 4:"CCMI1_monthly" }, 
    868 { "id":864, 0:"cheaqpo3so4",  1:"Aqueous-Phase Production Rate of SO4 via S(iv)+O3", 2:"unset", 3:"'proposed name: tendency_of_atmosphere_mass_content_of_sulfate_dry_aerosol_due_to_aqueous_phase_net_chemical_production_by_Siv_plus_O3'", 4:"CCMI1_monthly" }, 
    869 { "id":865, 0:"tnsclwcd",  1:"Tendency of Mass Fraction of Stratiform Cloud Liquid Water Due to Convective Detrainment", 2:"tendency_of_mass_fraction_of_stratiform_cloud_liquid_water_in_air_due_to_convective_detrainment", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    870 { "id":866, 0:"fddtdip",  1:"Rate of Change of Net Dissolved Inorganic Phosphate", 2:"tendency_of_ocean_mole_content_of_dissolved_inorganic_phosphorus", 3:"'vertical integral of net  time rate of change of phosphate'", 4:"CMIP5_Omon" }, 
    871 { "id":867, 0:"tslsi",  1:"Surface Temperature Where Land or Sea Ice", 2:"surface_temperature", 3:"'''skin'' temperature of all surfaces except open ocean, sampled synoptically.'", 4:"CMIP5_3hr" }, 
    872 { "id":868, 0:"wetbc",  1:"Wet Deposition Rate of Black Carbon Aerosol Mass", 2:"tendency_of_atmosphere_mass_content_of_black_carbon_dry_aerosol_due_to_wet_deposition", 3:"'unset'", 4:"CMIP5_aero" }, 
    873 { "id":869, 0:"volo",  1:"Sea Water Volume", 2:"sea_water_volume", 3:"'unset'", 4:"CMIP5_Omon" }, 
    874 { "id":870, 0:"hfbasinba",  1:"Northward Ocean Heat Transport due to Bolus Advection", 2:"northward_ocean_heat_transport_due_to_bolus_advection", 3:"'unset'", 4:"CMIP5_Omon" }, 
    875 { "id":871, 0:"drynh3",  1:"Dry Deposition Rate of NH3", 2:"tendency_of_atmosphere_mass_content_of_ammonia_due_to_dry_deposition", 3:"'dry deposition includes gravitational settling, impact scavenging, and turbulent deposition'", 4:"CCMI1_monthly" }, 
    876 { "id":872, 0:"vmrc2h6",  1:"C2H6 Volume Mixing Ratio", 2:"mole_fraction_of_ethane_in_air", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }, 
    877 { "id":873, 0:"ps",  1:"Surface Air Pressure", 2:"surface_air_pressure", 3:"'surface pressure (not mean sea-level pressure), 2-D field to calculate the 3-D pressure field from hybrid coordinates'", 4:"CCMI1_daily,CCMI1_hourly,CCMI1_monthly" }, 
    878 { "id":874, 0:"chegpso4",  1:"Gas-Phase Production Rate of SO4", 2:"unset", 3:"'proposed name: tendency_of_atmosphere_mass_content_of_sulfate_dry_aerosol_due_to_gas_phase_net_chemical_production'", 4:"CCMI1_monthly" }, 
    879 { "id":875, 0:"difmxylo",  1:"Ocean Momentum XY Laplacian Diffusivity", 2:"ocean_momentum_xy_laplacian_diffusivity", 3:"'unset'", 4:"CMIP5_Oclim" }, 
    880 { "id":876, 0:"drynh4",  1:"Dry Deposition Rate of NH4", 2:"tendency_of_atmosphere_mass_content_of_ammonium_dry_aerosol_due_to_dry_deposition", 3:"'dry deposition includes gravitational settling, impact scavenging, and turbulent deposition'", 4:"CCMI1_monthly" }, 
    881 { "id":877, 0:"ps",  1:"Surface Air Pressure", 2:"surface_air_pressure", 3:"'unset'", 4:"CMIP5_cfDay,CORDEX_3h,CORDEX_day" }, 
    882 { "id":878, 0:"lwtoaasn2o",  1:"All-Sky LW-RF N2O at TOA", 2:"unset", 3:"'proposed name: toa_instantaneous_longwave_forcing_due_to_nitrous_oxide'", 4:"CCMI1_monthly" }, 
    883 { "id":879, 0:"cfc12global",  1:"Global Mean Mole Fraction of CFC12", 2:"mole_fraction_of_cfc12_in_air", 3:"'unset'", 4:"CMIP5_Amon" }, 
    884 { "id":880, 0:"ch4smtbrdn",  1:"Tendency of Middle Atmosphere Burden of CH4", 2:"tendency_of_middle_atmosphere_moles_of_methane", 3:"'total yearly averaged stratospheric and mesospheric loss'", 4:"CCMI1_annual" }, 
    885 { "id":881, 0:"zsatarag",  1:"Aragonite Saturation Depth", 2:"minimum_depth_of_aragonite_undersaturation_in_sea_water", 3:"'Depth of aragonite saturation horizon (0 if < surface, ''missing''  if > bottom, if two, then the shallower)'", 4:"CMIP5_Omon" }, 
    886 { "id":882, 0:"wetoa",  1:"Wet Deposition Rate of Dry Aerosol Organic Matter", 2:"tendency_of_atmosphere_mass_content_of_particulate_organic_matter_dry_aerosol_due_to_wet_deposition", 3:"'This is the sum of wet deposition of POA and wet deposition of SOA (see next two entries). 'Mass' refers to the mass of organic matter, not mass of organic carbon alone. We recommend a scale factor of POM=1.4*OC, unless your model has more detailed info available. Was called wet_pom in old ACCMIP Excel spreadsheet.'", 4:"CCMI1_monthly" }, 
    887 { "id":883, 0:"diftrxylo",  1:"Ocean Tracer XY Laplacian Diffusivity", 2:"ocean_tracer_xy_laplacian_diffusivity", 3:"'unset'", 4:"CMIP5_Oclim" }, 
    888 { "id":884, 0:"fgco2",  1:"Surface Downward CO2 Flux", 2:"surface_downward_mass_flux_of_carbon_dioxide_expressed_as_carbon", 3:"'Gas exchange flux of CO2 (positive into ocean)'", 4:"CMIP5_Omon" }, 
    889 { "id":885, 0:"zmh2o",  1:"Zonal Mean Water Vapour Volume Mixing Ratio", 2:"mole_fraction_of_water_vapor_in_air", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }, 
    890 { "id":886, 0:"emiso2",  1:"Total Emission Rate of SO2", 2:"tendency_of_atmosphere_mass_content_of_sulfur_dioxide_due_to_emission", 3:"'unset'", 4:"CMIP5_aero" }, 
    891 { "id":887, 0:"zmbrono2",  1:"Zonal Mean BrONO2 Volume Mixing Ratio", 2:"mole_fraction_of_bromine_nitrate_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    892 { "id":888, 0:"tntscpbl",  1:"Tendency of Air Temperature Due to Stratiform Cloud and Precipitation and Boundary Layer Mixing", 2:"tendency_of_air_temperature_due_to_stratiform_cloud_and_precipitation_and_boundary_layer_mixing", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    893 { "id":889, 0:"rsuscs",  1:"Surface Upwelling Clear-Sky Shortwave Radiation", 2:"surface_upwelling_shortwave_flux_in_air_assuming_clear_sky", 3:"'This is a 3-hour mean flux.'", 4:"CMIP5_3hr" }, 
    894 { "id":890, 0:"concpoa",  1:"Concentration of Dry Aerosol Primary Organic Matter", 2:"mass_concentration_of_primary_particulate_organic_matter_dry_aerosol_in_air", 3:"'unset'", 4:"CMIP5_aero" }, 
    895 { "id":891, 0:"frn",  1:"Nitrogen Loss to Sediments and through Denitrification", 2:"tendency_of_ocean_mole_content_of_elemental_nitrogen_due_to_denitrification_and_sedimentation", 3:"'unset'", 4:"CMIP5_Omon" }, 
    896 { "id":892, 0:"tasmax",  1:"Daily Maximum Near-Surface Air Temperature", 2:"air_temperature", 3:"'monthly mean of the daily-maximum near-surface air temperature.'", 4:"CMIP5_Amon,SPECS_Amon" }, 
    897 { "id":893, 0:"zg",  1:"Geopotential Height", 2:"geopotential_height", 3:"'unset'", 4:"CMIP5_Amon,CMIP5_cfDay,CMIP5_cfSites,CMIP5_day,SPECS_Amon,SPECS_day" }, 
    898 { "id":894, 0:"drydms",  1:"Dry Deposition Rate of DMS", 2:"tendency_of_atmosphere_mass_content_of_dimethyl_sulfide_due_to_dry_deposition", 3:"'unset'", 4:"CMIP5_aero" }, 
    899 { "id":895, 0:"cl",  1:"Cloud Area Fraction", 2:"cloud_area_fraction_in_atmosphere_layer", 3:"'Report on model layers. Include both large-scale and convective clouds.'", 4:"CCMI1_monthly" }, 
    900 { "id":896, 0:"hcfc22global",  1:"Global Mean Mole Fraction of HCFC22", 2:"mole_fraction_of_hcfc22_in_air", 3:"'unset'", 4:"CMIP5_Amon" }, 
    901 { "id":897, 0:"intppico",  1:"Net Primary Mole Productivity of Carbon by Picophytoplankton", 2:"net_primary_mole_productivity_of_carbon_by_picophytoplankton", 3:"'unset'", 4:"CMIP5_Omon" }, 
    902 { "id":898, 0:"zosga",  1:"Global Average Sea Level Change", 2:"global_average_sea_level_change", 3:"'unset'", 4:"CMIP5_Omon" }, 
    903 { "id":899, 0:"diftrblo2d",  1:"Ocean Tracer Bolus Laplacian Diffusivity", 2:"ocean_tracer_bolus_laplacian_diffusivity", 3:"'unset'", 4:"CMIP5_Oclim" }, 
    904 { "id":900, 0:"od870aer",  1:"Ambient Aerosol Optical Thickness at 870 nm", 2:"atmosphere_optical_thickness_due_to_ambient_aerosol", 3:"'AOD from the ambient aerosls (i.e., includes aerosol water).  Does not include AOD from stratospheric aerosols if these are prescribed but includes other possible background aerosol types.'", 4:"CMIP5_aero" }, 
    905 { "id":901, 0:"ps",  1:"Surface Air Pressure", 2:"surface_air_pressure", 3:"'surface pressure, not mean sea level pressure'", 4:"CMIP5_6hrLev" }, 
    906 { "id":902, 0:"ua10",  1:"Eastward Wind at 10 hPa", 2:"eastward_wind", 3:"'Zonal wind on the 10 hPa surface'", 4:"CCMI1_daily" }, 
    907 { "id":903, 0:"dytoz",  1:"Total Column Ozone", 2:"equivalent_thickness_at_stp_of_atmosphere_ozone_content", 3:"'total ozone column in DU'", 4:"CCMI1_daily" }, 
    908 { "id":904, 0:"zmn2o",  1:"Zonal Mean N2O Volume Mixing Ratio", 2:"mole_fraction_of_nitrous_oxide_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    909 { "id":905, 0:"phycalc",  1:"Mole Concentration of Calcareous Phytoplankton expressed as Carbon in Sea Water at Surface", 2:"mole_concentration_of_calcareous_phytoplankton_expressed_as_carbon_in_sea_water", 3:"'carbon concentration from calcareous (calcite-producing) phytoplankton component alone'", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    910 { "id":906, 0:"ztp",  1:"Tropopause Altitude", 2:"tropopause_altitude", 3:"'2D monthly mean thermal tropopause calculated using WMO tropopause definition on 3d temperature'", 4:"CCMI1_monthly" }, 
    911 { "id":907, 0:"nppRoot",  1:"Carbon Mass Flux due to NPP Allocation to Roots", 2:"net_primary_productivity_of_carbon_accumulated_in_roots", 3:"'This is the rate of carbon uptake by roots due to NPP'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    912 { "id":908, 0:"rlds",  1:"Surface Downwelling Longwave Radiation", 2:"surface_downwelling_longwave_flux_in_air", 3:"'This is the 3-hour mean flux.'", 4:"CMIP5_3hr" }, 
    913 { "id":909, 0:"tas",  1:"Near-Surface Air Temperature", 2:"air_temperature", 3:"'This is sampled synoptically.'", 4:"CMIP5_3hr" }, 
    914 { "id":910, 0:"sfvmro3",  1:"Ozone Volume Mixing Ratio in the Lowest Model Layer", 2:"mole_fraction_of_ozone_in_air", 3:"''", 4:"CCMI1_hourly" }, 
    915 { "id":911, 0:"wstar",  1:"Upward TEM air velocity", 2:"unset", 3:"'Transformed Eulerian Mean Diagnostics w*, meridional component of the residual meridional circulation (v*, w*) derived from 6 hr or higher frequency data fields (use instantaneous daily fields or 12 hr fields if the 6 hr data are not available). Scale height: 6950 m'", 4:"CCMI1_daily,CCMI1_monthly" }, 
    916 { "id":912, 0:"hus850",  1:"Specific Humidity", 2:"specific_humidity", 3:"'unset'", 4:"CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem" }, 
    917 { "id":913, 0:"fal",  1:"Forecast Albedo", 2:"surface_albedo", 3:"'unset'", 4:"SPECS_Amon,SPECS_day" }, 
    918 { "id":914, 0:"ps",  1:"Surface Air Pressure", 2:"surface_air_pressure", 3:"'not, in general, the same as mean sea-level pressure'", 4:"CMIP5_Amon,CMIP5_aero,CMIP5_cf3hr,CMIP5_cfMon,CMIP5_cfSites,SPECS_Amon" }, 
    919 { "id":915, 0:"co2Clim",  1:"Mole Fraction of CO2", 2:"mole_fraction_of_carbon_dioxide_in_air", 3:"'unset'", 4:"CMIP5_Amon" }, 
    920 { "id":916, 0:"zmh2o2",  1:"Zonal Mean H2O2 Volume Mixing Ratio", 2:"mole_fraction_of_hydrogen_peroxide_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    921 { "id":917, 0:"swtoaasss",  1:"All-Sky SW-RF SS at TOA", 2:"unset", 3:"'proposed name: toa_instantaneous_shortwave_forcing_due_to_seasalt_ambient_aerosol'", 4:"CCMI1_monthly" }, 
    922 { "id":918, 0:"wetso2",  1:"Wet Deposition Rate of SO2", 2:"tendency_of_atmosphere_mass_content_of_sulfur_dioxide_due_to_wet_deposition", 3:"''", 4:"CCMI1_monthly" }, 
    923 { "id":919, 0:"fFire",  1:"Carbon Mass Flux into Atmosphere due to CO2 Emission from Fire", 2:"surface_upward_mass_flux_of_carbon_dioxide_expressed_as_carbon_due_to_emission_from_fires_excluding_anthropogenic_land_use_change", 3:"'CO2 emissions (expressed as a carbon mass flux) from natural fires + human ignition fires as calculated by the fire module of the DGVM, but excluding any CO2 flux from fire included in fLuc, defined below (CO2 Flux to Atmosphere from Land Use Change).'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    924 { "id":920, 0:"drynh3",  1:"Dry Deposition Rate of NH3", 2:"tendency_of_atmosphere_mass_content_of_ammonia_due_to_dry_deposition", 3:"'unset'", 4:"CMIP5_aero" }, 
    925 { "id":921, 0:"cclf2cclf2brdn",  1:"Atmospheric Burden of CFC-114", 2:"atmosphere_moles_of_cfc114", 3:"'total yearly average burden'", 4:"CCMI1_annual" }, 
    926 { "id":922, 0:"rsdscs",  1:"Surface Downwelling Clear-Sky Shortwave Radiation", 2:"surface_downwelling_shortwave_flux_in_air_assuming_clear_sky", 3:"'This is a 3-hour mean flux.'", 4:"CMIP5_3hr" }, 
    927 { "id":923, 0:"ch3brtbrdn",  1:"Tendency of Atmospheric Burden of CH3Br", 2:"tendency_of_atmosphere_moles_of_methyl_bromide", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }, 
    928 { "id":924, 0:"zmcly",  1:"Zonal Mean Total Inorganic Chlorine (Cly) Volume Mixing Ratio", 2:"mole_fraction_of_inorganic_chlorine_in_air", 3:"'Total inorganic stratospheric chlorine (e.g., HCl, ClO) resulting from degradation of chlorine-containing source gases (CFCs, HCFCs, VSLS), and natural inorganic chlorine sources (e.g., sea salt and other aerosols).  Add comment attribute with detailed description about how the model calculates these fields e.g. Cly = HCl + ClONO2 + HOCl + ClO + Cl + 2*Cl2O2 +2Cl2 + OClO + BrCl'", 4:"CCMI1_monthly" }, 
    929 { "id":925, 0:"prodhno3viano2oh",  1:"Production Rate of HNO3", 2:"unset", 3:"'3-d distritbution of HNO3 production from NO2+OH (all channels)'", 4:"CCMI1_monthly" }, 
    930 { "id":926, 0:"prodh2o2viaho2",  1:"Production Rate of H2O2", 2:"unset", 3:"'3-d distribution of k*[HO2]*[HO2]'", 4:"CCMI1_monthly" }, 
    931 { "id":927, 0:"rsuscs",  1:"Surface Upwelling Clear-Sky Shortwave Radiation", 2:"surface_upwelling_shortwave_flux_in_air_assuming_clear_sky", 3:"'unset'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfDay,CMIP5_cfSites" }, 
    932 { "id":928, 0:"sadnat",  1:"Surface Area Density of NAT PSC Particles", 2:"unset", 3:"'nitric acid trihydrate (NAT) surface area density used in heterogeneous activation of ClOx and BrOx. Defined as the area of aerosol per volume of atmosphere (i.e., m2 m-3 = m-1).'", 4:"CCMI1_daily" }, 
    933 { "id":929, 0:"t20d",  1:"20C isotherm depth", 2:"depth_of_isosurface_of_sea_water_potential_temperature", 3:"'unset'", 4:"SPECS_Omon,SPECS_day" }, 
    934 { "id":930, 0:"rsd",  1:"Downwelling Shortwave Radiation", 2:"downwelling_shortwave_flux_in_air", 3:"'Includes also the fluxes at the surface and TOA.'", 4:"CMIP5_cfMon" }, 
    935 { "id":931, 0:"albsrfc",  1:"Surface Albedo", 2:"surface_albedo", 3:"''", 4:"CCMI1_monthly" }, 
    936 { "id":932, 0:"clivi",  1:"Ice Water Path", 2:"atmosphere_cloud_ice_content", 3:"'calculate mass of ice water in the column divided by the area of the column (not just the area of the cloudy portion of the column). Include precipitating frozen hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.'", 4:"CORDEX_6h" }, 
    937 { "id":933, 0:"dyrsdscs",  1:"Surface Downwelling Clear-Sky Shortwave Radiation", 2:"surface_downwelling_shortwave_flux_in_air_assuming_clear_sky", 3:"'surface solar irradiance clear sky for UV calculations'", 4:"CCMI1_daily" }, 
    938 { "id":934, 0:"tnsccwbl",  1:"Tendency of Mass Fraction of Stratiform Cloud Condensed Water In Air Due To Boundary Layer Mixing", 2:"tendency_of_mass_fraction_of_stratiform_cloud_condensed_water_in_air_due_to_boundary_layer_mixing", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    939 { "id":935, 0:"epc100",  1:"Downward Flux of Particle Organic Carbon", 2:"sinking_mole_flux_of_particulate_organic_matter_expressed_as_carbon_in_sea_water", 3:"'unset'", 4:"CMIP5_Omon" }, 
    940 { "id":936, 0:"vas",  1:"Northward Near-Surface Wind", 2:"northward_wind", 3:"'unset'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites,CMIP5_day,SPECS_6hr,SPECS_Amon" }, 
    941 { "id":937, 0:"sltovgyre",  1:"Northward Ocean Salt Transport due to Gyre", 2:"northward_ocean_salt_transport_due_to_gyre", 3:"'unset'", 4:"CMIP5_Omon" }, 
    942 { "id":938, 0:"tnscliag",  1:"Tendency of Mass Fraction of Stratiform Cloud Ice due to Aggregation", 2:"tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_aggregation", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    943 { "id":939, 0:"emiss",  1:"Total Emission Rate of Seasalt", 2:"tendency_of_atmosphere_mass_content_of_seasalt_dry_aerosol_due_to_emission", 3:"'Integrate 3D emission field vertically to 2d field.'", 4:"CCMI1_monthly" }, 
    944 { "id":940, 0:"clwc",  1:"Mass Fraction of Convective Cloud Liquid Water", 2:"mass_fraction_of_convective_cloud_liquid_water_in_air", 3:"'Calculated as the mass of convective cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.'", 4:"CMIP5_cf3hr,CMIP5_cfMon" }, 
    945 { "id":941, 0:"dmc",  1:"Deep Convective Mass Flux", 2:"atmosphere_net_upward_deep_convective_mass_flux", 3:"'The net mass flux  represents the difference between the updraft and downdraft components.   This is calculated as the convective mass flux divided by the area of the whole grid cell (not just the area of the cloud).'", 4:"CMIP5_cfMon" }, 
    946 { "id":942, 0:"ch2fcf3tbrdn",  1:"Tendency of Atmospheric Burden of CH2FCF3", 2:"unset", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }, 
    947 { "id":943, 0:"zmhbr",  1:"Zonal Mean HBr Volume Mixing Ratio", 2:"mole_fraction_of_hydrogen_bromide_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    948 { "id":944, 0:"sfmmrpom",  1:"POM Mass Mixing Ratio in the Lowest Model Layer", 2:"mass_fraction_of_particulate_organic_matter_dry_aerosol_in_air", 3:"'POM'", 4:"CCMI1_daily" }, 
    949 { "id":945, 0:"ccl4tbrdn",  1:"Tendency of Atmospheric Burden of CCl4", 2:"tendency_of_atmosphere_moles_of_carbon_tetrachloride", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }, 
    950 { "id":946, 0:"cbrclf2brdn",  1:"Atmospheric Burden of Halon 1211", 2:"atmosphere_moles_of_halon1211", 3:"'total yearly average burden'", 4:"CCMI1_annual" }, 
    951 { "id":947, 0:"vsfpr",  1:"Virtual Salt Flux into Sea Water due to Rainfall", 2:"virtual_salt_flux_into_sea_water_due_to_rainfall", 3:"'unset'", 4:"CMIP5_Omon" }, 
    952 { "id":948, 0:"transix",  1:"X-Component of Sea Ice Mass Transport", 2:"sea_ice_x_transport", 3:"'The sea ice mass transport is 0.0 in ice-free regions of the ocean.  Snow is included in calculation of mass.'", 4:"CMIP5_OImon" }, 
    953 { "id":949, 0:"tnsclihenv",  1:"Tendency of Mass Fraction of Stratiform Cloud Ice due to Heterogeneous Nucleation From Water Vapor", 2:"tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_heterogeneous_nucleation_from_water_vapor", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    954 { "id":950, 0:"lossso2viaoh",  1:"Reaction Rate of SO2+OH", 2:"unset", 3:"''", 4:"CCMI1_monthly" }, 
    955 { "id":951, 0:"tsice",  1:"Surface Temperature of Sea Ice", 2:"surface_temperature", 3:"'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.  Reported as ''missing'' in regions free of sea ice.  Note this will be the surface snow temperature in regions where snow covers the sea ice.'", 4:"CMIP5_OImon,SPECS_OImon,SPECS_day" }, 
    956 { "id":952, 0:"prsn",  1:"Snowfall Flux where Ice Free Ocean over Sea", 2:"snowfall_flux", 3:"'computed as the total mass per unit time of solid-phase precipitation falling into the ice-free portion of the ocean divided by the area of the ocean portion of the grid cell.   (Snowfall flux includes all types of solid-phase precipitation.)'", 4:"CMIP5_Omon" }, 
    957 { "id":953, 0:"zmn",  1:"Zonal Mean N Volume Mixing Ratio", 2:"mole_fraction_of_atomic_nitrogen_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    958 { "id":954, 0:"losso3viaho2",  1:"Chemical Loss Rate of O3 via O3+HO2", 2:"unset", 3:"'proposed name: tendency_of_mole_concentration_of_ozone_due_to_chemical_destruction_by_HO2'", 4:"CCMI1_monthly" }, 
    959 { "id":955, 0:"epsi100",  1:"Downward Flux of Particulate Silica", 2:"sinking_mole_flux_of_particulate_silicon_in_sea_water", 3:"'unset'", 4:"CMIP5_Omon" }, 
    960 { "id":956, 0:"wfo",  1:"Water Flux into Sea Water", 2:"water_flux_into_sea_water", 3:"'computed as the water  flux into the ocean divided by the area of the ocean portion of the grid cell.  This is the sum of the next two variables in this table.'", 4:"CMIP5_Omon" }, 
    961 { "id":957, 0:"wethno3",  1:"Wet Deposition Rate of HNO3", 2:"tendency_of_atmosphere_mass_content_of_nitric_acid_due_to_wet_deposition", 3:"''", 4:"CCMI1_monthly" }, 
    962 { "id":958, 0:"sfmmraerso4",  1:"Aerosol Sulfate Mass Mixing Ratio in the Lowest Model Layer", 2:"mass_fraction_of_sulfate_dry_aerosol_in_air", 3:"'SO4'", 4:"CCMI1_daily" }, 
    963 { "id":959, 0:"dh",  1:"Atmosphere Model Cell Geometric Thickness", 2:"unset", 3:"'proposed name: model_level_geometric_thickness. (e.g. grid_cell_height)'", 4:"CCMI1_monthly" }, 
    964 { "id":960, 0:"zooc",  1:"Zooplankton Carbon Concentration at Surface", 2:"mole_concentration_of_zooplankton_expressed_as_carbon_in_sea_water", 3:"'sum of zooplankton carbon component concentrations'", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    965 { "id":961, 0:"vmrc2h2",  1:"C2H2 Volume Mixing Ratio", 2:"mole_fraction_of_ethyne_in_air", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }, 
    966 { "id":962, 0:"ua850",  1:"Eastward Wind", 2:"eastward_wind", 3:"'unset'", 4:"CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem" }, 
    967 { "id":963, 0:"mrsofc",  1:"Capacity of Soil to Store Water", 2:"soil_moisture_content_at_field_capacity", 3:"''reported ''where land'': divide the total water holding capacity of all the soil in the grid cell by the land area in the grid cell;  reported as ''missing'' where the land fraction is 0.''", 4:"CMIP5_fx,SPECS_fx" }, 
    968 { "id":964, 0:"phyn",  1:"Phytoplankton Nitrogen Concentration at Surface", 2:"mole_concentration_of_phytoplankton_expressed_as_nitrogen_in_sea_water", 3:"'sum of phytoplankton nitrogen component concentrations'", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    969 { "id":965, 0:"intpnitrate",  1:"Primary Organic Carbon Production by Phytoplankton Based on Nitrate Uptake Alone", 2:"net_primary_mole_productivity_of_carbon_due_to_nitrate_utilization", 3:"'Vertically integrated primary (organic carbon) production by phytoplankton based on nitrate uptake alone'", 4:"CMIP5_Omon" }, 
    970 { "id":966, 0:"accelogw",  1:"Tendency of Eastward Wind from Oro-GWD", 2:"tendency_of_eastward_wind_due_to_orographic_gravity_wave_drag", 3:"'Eastward acceleration from the parameterized orographic gravity wave drag (OGWD) derived either from daily means or 6hr fields (use instantaneous daily fields or 12 hr fields if the 6 hr data are not available). Use the accelerations as applied in your model.'", 4:"CCMI1_monthly" }, 
    971 { "id":967, 0:"sfmmrsoa",  1:"SOA Mass Mixing Ratio in the Lowest Model Layer", 2:"mass_fraction_of_secondary_particulate_organic_matter_dry_aerosol_in_air", 3:"'SOA'", 4:"CCMI1_daily" }, 
    972 { "id":968, 0:"prodoh",  1:"Chemical Gross Production Rate of OH", 2:"unset", 3:"'proposed name: tendency_of_mole_concentration_of_hydroxyl_radical_due_to_chemical_gross_production'", 4:"CCMI1_monthly" }, 
    973 { "id":969, 0:"rhsmin",  1:"Surface Daily Minimum Relative Humidity", 2:"relative_humidity", 3:"'This is the relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C.'", 4:"CMIP5_day" }, 
    974 { "id":970, 0:"mnstrage",  1:"Mean Age of Stratospheric Air", 2:"age_of_stratospheric_air", 3:"'The mean age of air is defined as the mean time that a stratospheric air mass has been out of contact with the well-mixed troposphere.'", 4:"CCMI1_daily,CCMI1_monthly" }, 
    975 { "id":971, 0:"lwtoaasch4",  1:"All-Sky LS-RF CH4 at TOA", 2:"unset", 3:"'proposed name: toa_instantaneous_longwave_forcing_due_to_methane'", 4:"CCMI1_monthly" }, 
    976 { "id":972, 0:"vorpot480",  1:"Potential Vorticity on 480K", 2:"ertel_potential_vorticity", 3:"'potential vorticity at 480 K'", 4:"CCMI1_daily" }, 
    977 { "id":973, 0:"vo",  1:"Sea Water Y Velocity", 2:"sea_water_y_velocity", 3:"'unset'", 4:"CMIP5_Omon" }, 
    978 { "id":974, 0:"vmrco50ea700",  1:"co_50_ea Volume Mixing Ratio at 700 hPa", 2:"unset", 3:"'daily mean, emitted as anthropogenic CO over East Asia (15N-50N; 95E-160E),  (emission file available from HTAP), uniform fixed 50-day exponential decay.'", 4:"CCMI1_daily" }, 
    979 { "id":975, 0:"fgdms",  1:"Surface Upward DMS Flux", 2:"surface_upward_mole_flux_of_dimethyl_sulfide", 3:"'Gas exchange flux of DMS (positive into atmosphere)'", 4:"CMIP5_Omon" }, 
    980 { "id":976, 0:"emiabc",  1:"Anthropogenic Emission Rate of Black Carbon Aerosol Mass", 2:"unset", 3:"'Includes agricultural waste burning but no other biomass burning. proposed name: tendency_of_atmosphere_mass_content_of_anthropogenic_black_carbon_dry_aerosol_due_to_emission. Integrate 3D emission field vertically to 2d field.'", 4:"CCMI1_monthly" }, 
    981 { "id":977, 0:"rlutcs",  1:"TOA Outgoing Clear-Sky Longwave Radiation", 2:"toa_outgoing_longwave_flux_assuming_clear_sky", 3:"''", 4:"CCMI1_monthly" }, 
    982 { "id":978, 0:"al",  1:"Albedo", 2:"surface_albedo", 3:"'unset'", 4:"SPECS_Amon" }, 
    983 { "id":979, 0:"msftyyz",  1:"Ocean Y Overturning Mass Streamfunction", 2:"ocean_y_overturning_mass_streamfunction", 3:"'unset'", 4:"CMIP5_Omon" }, 
    984 { "id":980, 0:"rlu",  1:"Upwelling Longwave Radiation", 2:"upwelling_longwave_flux_in_air", 3:"'Includes also the fluxes at the surface and TOA.'", 4:"CMIP5_cfMon" }, 
    985 { "id":981, 0:"mmrbc",  1:"BC Mass Mixing Ratio", 2:"mass_fraction_of_black_carbon_dry_aerosol_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    986 { "id":982, 0:"vmro3",  1:"Ozone Volume Mixing Ratio", 2:"mole_fraction_of_ozone_in_air", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }, 
    987 { "id":983, 0:"nh50area195k",  1:"Area over the Arctic at 50 hPa with Air Temperature Less than 195K", 2:"unset", 3:"'Daily Area where the Temperature poleward of 60 degrees is below 195 K at 50 hPa for Nov-April in NH'", 4:"CCMI1_daily" }, 
    988 { "id":984, 0:"emiso2",  1:"Total Emission Rate of SO2", 2:"tendency_of_atmosphere_mass_content_of_sulfur_dioxide_due_to_emission", 3:"'Integrate 3D emission field vertically to 2d field.'", 4:"CCMI1_monthly" }, 
    989 { "id":985, 0:"clw",  1:"Mass Fraction of Cloud Liquid Water", 2:"mass_fraction_of_cloud_liquid_water_in_air", 3:"'Includes both large-scale and convective cloud.  This is the mass of  cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.'", 4:"CMIP5_cfSites" }, 
    990 { "id":986, 0:"tnsclirir",  1:"Tendency of Mass Fraction of Stratiform Cloud Ice due to Riming From Rain", 2:"tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_riming_from_rain", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    991 { "id":987, 0:"cfc11global",  1:"Global Mean Mole Fraction of CFC11", 2:"mole_fraction_of_cfc11_in_air", 3:"'unset'", 4:"CMIP5_Amon" }, 
    992 { "id":988, 0:"chclf2trtbrdn",  1:"Tendency of Tropospheric Burden of CHClF2", 2:"tendency_of_troposphere_moles_of_hcfc22", 3:"'total yearly averaged tropospheric loss'", 4:"CCMI1_annual" }, 
    993 { "id":989, 0:"c2br2f4tbrdn",  1:"Tendency of Atmospheric Burden of Halon 2402", 2:"tendency_of_atmosphere_moles_of_halon2402", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }, 
    994 { "id":990, 0:"sfmmrso2t",  1:"so2t Mass Mixing Ratio in Surface Layer", 2:"unset", 3:"'daily mean or instantaneous? emitted as anthropogenic year 2000 SO2 (as specified in REF-C1, wet removal as SO2.'", 4:"CCMI1_daily" }, 
    995 { "id":991, 0:"c3PftFrac",  1:"Total C3 PFT Cover Fraction", 2:"area_fraction", 3:"'fraction of entire grid cell  that is covered by C3 PFTs (including grass, crops, and trees).'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    996 { "id":992, 0:"concnmcn",  1:"Number Concentration of Nucleation Mode Aerosol", 2:"number_concentration_of_nucleation_mode_ambient_aerosol_in_air", 3:"'includes all particles with diameter smaller than 3 nm'", 4:"CMIP5_aero" }, 
    997 { "id":993, 0:"tnsclihencl",  1:"Tendency of Mass Fraction of Stratiform Cloud Ice due to Heterogeneous Nucleation From Cloud Liquid", 2:"tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_heterogeneous_nucleation_from_cloud_liquid_water", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    998 { "id":994, 0:"ua500",  1:"Eastward Wind", 2:"eastward_wind", 3:"'unset'", 4:"CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem" }, 
    999 { "id":995, 0:"wap",  1:"omega (=dp/dt)", 2:"lagrangian_tendency_of_air_pressure", 3:"'omega'", 4:"CCMI1_daily" }, 
    1000 { "id":996, 0:"rsds",  1:"Surface Downwelling Shortwave Radiation", 2:"surface_downwelling_shortwave_flux_in_air", 3:"'This is the 3-hour mean flux.'", 4:"CMIP5_3hr" }, 
    1001 { "id":997, 0:"expsi",  1:"Sinking Particulate Silica Flux", 2:"sinking_mole_flux_of_particulate_silicon_in_sea_water", 3:"'unset'", 4:"CMIP5_Oyr" }, 
    1002 { "id":998, 0:"snc",  1:"Snow Area Fraction", 2:"surface_snow_area_fraction", 3:"'unset'", 4:"CMIP5_day" }, 
    1003 { "id":999, 0:"hfls",  1:"Surface Upward Latent Heat Flux", 2:"surface_upward_latent_heat_flux", 3:"''", 4:"CCMI1_monthly" }, 
    1004 { "id":1000, 0:"lwtoaashc",  1:"All-Sky LW-RF Halocarbons at TOA", 2:"unset", 3:"'CFCs/HCFCs/PFCs/HFCs/SF6. proposed name: toa_instantaneous_shortwave_forcing_due_to_halocarbons'", 4:"CCMI1_monthly" }, 
    1005 { "id":1001, 0:"zmcl",  1:"Zonal Mean Cl Volume Mixing Ratio", 2:"mole_fraction_of_atomic_chlorine_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    1006 { "id":1002, 0:"fbddtdife",  1:"Rate of Change of Dissolved Inorganic Iron due to Biological Activity", 2:"tendency_of_ocean_mole_content_of_dissolved_inorganic_iron_due_to_biological_processes", 3:"'vertical integral of net biological terms in time rate of change of dissolved inorganic iron'", 4:"CMIP5_Omon" }, 
    1007 { "id":1003, 0:"vmro3psv",  1:"Passive Ozone Volume Mixing Ratio", 2:"unset", 3:"'Passive O3 (if available): The model runs should include a tracer to diagnose polar chemical ozone loss in winter and spring. As most models will advect (and integrate) O3 as part of the 'odd oxygen' (Ox=O3 + O(3P) + O(1D)) family we will call this the 'passive Ox tracer'. This will be a global tracer which is reset during each polar winter (i.e. twice per year). Given the relatively slow transport and long chemical lifetime (without PSC processing etc) of O3 in the polar regions this will provide a useful diagnostic over the timescale of a few months in the lower stratosphere. The model tracer should be set equal to your advected 'odd oxygen' tracer on December 1 and June 1 every year. Then, the tracer is simply advected without any further chemical change. If your advection scheme stores other variables for each tracer (e.g. higher order moments) remember to set sum of these species. The passive Ox tracer should be ouput according to the other instructions. The re-initialisation dates are selected so that we diagnose most of the chemical loss over the course of the winter, some of which would be missed by a later date.'", 4:"CCMI1_daily" }, 
    1008 { "id":1004, 0:"volcello",  1:"Ocean Grid-Cell Volume", 2:"ocean_volume", 3:"'grid-cell volume ca. 2000.'", 4:"CMIP5_fx,SPECS_fx" }, 
    1009 { "id":1005, 0:"diftrblo",  1:"Ocean Tracer Bolus Laplacian Diffusivity", 2:"ocean_tracer_bolus_laplacian_diffusivity", 3:"'unset'", 4:"CMIP5_Oclim" }, 
    1010 { "id":1006, 0:"rsut4co2",  1:"TOA Outgoing Shortwave Radiation in 4XCO2 Atmosphere", 2:"toa_outgoing_shortwave_flux", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    1011 { "id":1007, 0:"prw",  1:"Water Vapor Path", 2:"atmosphere_water_vapor_content", 3:"'vertically integrated through the atmospheric column'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites" }, 
    1012 { "id":1008, 0:"h2tbrdn",  1:"Tendency of Atmospheric Burden of H2", 2:"tendency_of_atmosphere_moles_of_molecular_hydrogen", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }, 
    1013 { "id":1009, 0:"rlus",  1:"Surface Upwelling Longwave Radiation", 2:"surface_upwelling_longwave_flux_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    1014 { "id":1010, 0:"mmrpm2p5",  1:"PM2.5 Mass Mixing Ratio at 50 Percent RH", 2:"mass_fraction_of_pm2p5_ambient_aerosol_in_air", 3:"'Must include scalar dimension relh50p specifying relative_humidity of 50%'", 4:"CCMI1_monthly" }, 
    1015 { "id":1011, 0:"vmrco50ea",  1:"co_50_ea Volume Mixing Ratio", 2:"unset", 3:"'emitted as anthropogenic CO over East Asia (15N-50N; 95E-160E),  (emission file available from HTAP), uniform fixed 50-day exponential decay.'", 4:"CCMI1_monthly" }, 
    1016 { "id":1012, 0:"mrros",  1:"Surface Runoff", 2:"surface_runoff_flux", 3:"'the total surface runoff leaving the land portion of the grid cell.'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    1017 { "id":1013, 0:"accelgw",  1:"Tendency of Eastward Wind from GWD", 2:"tendency_of_eastward_wind_due_to_gravity_wave_drag", 3:"'Eastward acceleration from the total (orographic + non-orographic) parameterized gravity wave drag (GWD) derived either from daily means or 6hr fields (use instantaneous daily fields or 12 hr fields if the 6 hr data are not available). Use the accelerations as applied in your model.'", 4:"CCMI1_monthly" }, 
    1018 { "id":1014, 0:"swtoaashc",  1:"All-Sky SW-RF Halocarbons at TOA", 2:"unset", 3:"'CFCs/HCFCs/PFCs/HFCs/SF6. proposed name: toa_instantaneous_shortwave_forcing_due_to_halocarbons'", 4:"CCMI1_monthly" }, 
    1019 { "id":1015, 0:"od550soa",  1:"SOA AOD at 550nm", 2:"unset", 3:"'proposed name: atmosphere_optical_thickness_due_to_secondary_particulate_organic_matter_ambient_aerosol'", 4:"CCMI1_monthly" }, 
    1020 { "id":1016, 0:"mcu",  1:"Updraft Convective Mass Flux", 2:"atmosphere_updraft_convective_mass_flux", 3:"'In accordance with common usage in geophysical disciplines, 'flux' implies per unit area, called 'flux density' in physics. The atmosphere convective mass flux is the vertical transport of mass for a field of cumulus clouds or thermals, given by the product of air density and vertical velocity.  For an area-average, cell_methods should specify whether the average is over all the area or the area of updrafts only.'", 4:"CCMI1_monthly" }, 
    1021 { "id":1017, 0:"reffclic",  1:"Hydrometeor Effective Radius of Convective Cloud Ice", 2:"effective_radius_of_convective_cloud_ice_particle", 3:"'This is defined as the in-cloud ratio of the third moment over the second moment of the particle size distribution (obtained by considering only the cloudy portion of the grid cell).'", 4:"CMIP5_cf3hr" }, 
    1022 { "id":1018, 0:"mfo",  1:"Sea Water Transport", 2:"sea_water_transport_across_line", 3:"'unset'", 4:"CMIP5_Omon" }, 
    1023 { "id":1019, 0:"tnsclwhen",  1:"Tendency of Mass Fraction of Stratiform Cloud Liquid Water due to Heterogeneous Nucleation", 2:"tendency_of_mass_fraction_of_stratiform_cloud_liquid_water_in_air_due_to_heterogeneous_nucleation", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    1024 { "id":1020, 0:"dpocdtdiaz",  1:"Tendency of Mole Concentration of Organic Carbon in Sea Water due to Net Primary Production by Diazotrophs", 2:"tendency_of_mole_concentration_of_particulate_organic_matter_expressed_as_carbon_in_sea_water_due_to_net_primary_production_by_diazotrophs", 3:"'Primary (organic carbon) production by the diazotrophic phytoplankton component alone'", 4:"CMIP5_Oyr" }, 
    1025 { "id":1021, 0:"albs",  1:"Planetary Albedo", 2:"planetary_albedo", 3:"''", 4:"CCMI1_monthly" }, 
    1026 { "id":1022, 0:"concss",  1:"Concentration of Seasalt", 2:"mass_concentration_of_seasalt_dry_aerosol_in_air", 3:"'unset'", 4:"CMIP5_aero" }, 
    1027 { "id":1023, 0:"sltnortha",  1:"Atlantic Northward Ocean Salt Transport", 2:"northward_ocean_salt_transport", 3:"'unset'", 4:"SPECS_Omon" }, 
    1028 { "id":1024, 0:"pslAdjust",  1:"Bias-Corrected Sea Level Pressure", 2:"air_pressure_at_sea_level", 3:"'not, in general, the same as surface pressure'", 4:"CMIP5_Amon" }, 
    1029 { "id":1025, 0:"ua100",  1:"Eastward Wind at 100 hPa", 2:"eastward_wind", 3:"'Zonal wind on the 100 hPa surface'", 4:"CCMI1_daily" }, 
    1030 { "id":1026, 0:"mrfso",  1:"Soil Frozen Water Content", 2:"soil_frozen_water_content", 3:"'the mass (summed over all all layers) of frozen water.'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    1031 { "id":1027, 0:"vmrco2",  1:"CO2 Volume Mixing Ratio", 2:"mole_fraction_of_carbon_dioxide_in_air", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }, 
    1032 { "id":1028, 0:"ficeberg",  1:"Water Flux into Sea Water From Icebergs", 2:"water_flux_into_sea_water_from_icebergs", 3:"'computed as the iceberg melt water  flux into the ocean divided by the area of the ocean portion of the grid cell.'", 4:"CMIP5_Omon" }, 
    1033 { "id":1029, 0:"tnhusmp",  1:"Tendency of Specific Humidity due to Model Physics", 2:"tendency_of_specific_humidity_due_to_model_physics", 3:"'This includes sources and sinks from parametrized physics (e.g. convection, stratiform condensation/evaporation, etc.) and excludes sources and sinks from resolved dynamics and diffusion.'", 4:"CMIP5_cfMon" }, 
    1034 { "id":1030, 0:"swtoaasn2o",  1:"All-Sky SW-RF N2O at TOA", 2:"unset", 3:"'proposed name: toa_instantaneous_shortwave_forcing_due_to_nitrous_oxide'", 4:"CCMI1_monthly" }, 
    1035 { "id":1031, 0:"zmccl4",  1:"Zonal Mean CCl4 Volume Mixing Ratio", 2:"mole_fraction_of_carbon_tetrachloride_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    1036 { "id":1032, 0:"tropoz",  1:"Tropospheric Ozone Column", 2:"unset", 3:"''", 4:"CCMI1_monthly" }, 
    1037 { "id":1033, 0:"vsi",  1:"Y-Component of Sea Ice Velocity", 2:"sea_ice_y_velocity", 3:"''Reported as ''missing'' in regions free of sea ice.''", 4:"CMIP5_day,SPECS_OImon" }, 
    1038 { "id":1034, 0:"cbrf3tbrdn",  1:"Tendency of Atmospheric Burden of Halon 1301", 2:"tendency_of_atmosphere_moles_of_halon1301", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }, 
    1039 { "id":1035, 0:"emiso4",  1:"Total Direct Emission Rate of SO4", 2:"tendency_of_atmosphere_mass_content_of_sulfate_dry_aerosol_due_to_emission", 3:"'expressed as a tendency of atmosphere mass content of SO4.  Direct emission does not include secondary sulfate production. Integrate 3D emission field vertically to 2d field.'", 4:"CCMI1_monthly" }, 
    1040 { "id":1036, 0:"vmrho2",  1:"HO2 Volume Mixing Ratio", 2:"mole_fraction_of_hydroperoxyl_radical_in_air", 3:"''", 4:"CCMI1_daily" }, 
    1041 { "id":1037, 0:"emibvoc",  1:"Total Emission Rate of Biogenic NMVOC", 2:"unset", 3:"'Integrate 3D emission field vertically to 2d field.  _If_ fixed molecular weight of NMVOC is not available in model, please provide in units of kilomole m-2 s-1 (i.e. kg m-2 s-1 as if model NMVOC had molecular weight of 1) and add a comment to your file.'", 4:"CCMI1_monthly" }, 
    1042 { "id":1038, 0:"grFrazil",  1:"Frazil Sea Ice Growth (Leads) Rate", 2:"tendency_of_sea_ice_amount_due_to_frazil_ice_accumulation_in_leads", 3:"'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.  Reported as 0.0 in regions free of sea ice.'", 4:"CMIP5_OImon" }, 
    1043 { "id":1039, 0:"zmicro",  1:"Mole Concentration of Microzooplankton expressed as Carbon in Sea Water at Surface", 2:"mole_concentration_of_microzooplankton_expressed_as_carbon_in_sea_water", 3:"'carbon  concentration from the microzooplankton (<20 um) component alone'", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    1044 { "id":1040, 0:"tnsclimr",  1:"Tendency of Mass Fraction of Stratiform Cloud Ice due to Melting to Rain", 2:"tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_melting_to_rain", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    1045 { "id":1041, 0:"msftmyzba",  1:"Meridional Mass Streamfunction Due to Bolus Advection", 2:"ocean_meridional_overturning_mass_streamfunction_due_to_bolus_advection", 3:"'unset'", 4:"SPECS_Omon" }, 
    1046 { "id":1042, 0:"vmrh2o2",  1:"H2O2 Volume Mixing Ratio", 2:"mole_fraction_of_hydrogen_peroxide_in_air", 3:"''", 4:"CCMI1_daily" }, 
    1047 { "id":1043, 0:"leadtime",  1:"Time elapsed since the start of the forecast", 2:"forecast_period", 3:"'unset'", 4:"SPECS_6hr" }, 
    1048 { "id":1044, 0:"transifs",  1:"Sea Ice Mass Transport Through Fram Strait", 2:"sea_ice_transport_across_line", 3:"'unset'", 4:"CMIP5_OImon,SPECS_OImon" }, 
    1049 { "id":1045, 0:"lwtoaasaer",  1:"All-Sky LW-RF Aerosols at TOA", 2:"unset", 3:"'proposed name: toa_instantaneous_longwave_forcing_due_to_ambient_aerosol'", 4:"CCMI1_monthly" }, 
    1050 { "id":1046, 0:"albisccp",  1:"ISCCP Mean Cloud Albedo", 2:"cloud_albedo", 3:"'time-means are weighted by the ISCCP Total Cloud Fraction - see  http://cfmip.metoffice.com/COSP.html'", 4:"CMIP5_cfDay,CMIP5_cfMon" }, 
    1051 { "id":1047, 0:"mcu",  1:"Updraft Convective Mass Flux", 2:"atmosphere_updraft_convective_mass_flux", 3:"'Calculated as the convective mass flux divided by the area of the whole grid cell (not just the area of the cloud).'", 4:"CMIP5_cfMon" }, 
    1052 { "id":1048, 0:"prodo3viaro2",  1:"Chemical Production Rate of O3 via RO2+NO", 2:"unset", 3:"'proposed name: tendency_of_mole_concentration_of_ozone_due_to_chemical_production_by_RO2_plus_NO'", 4:"CCMI1_monthly" }, 
    1053 { "id":1049, 0:"sfcWind",  1:"Daily-Mean Near-Surface Wind Speed", 2:"wind_speed", 3:"'unset'", 4:"CMIP5_day" }, 
    1054 { "id":1050, 0:"cct",  1:"Air Pressure at Convective Cloud Top", 2:"air_pressure_at_convective_cloud_top", 3:"'unset'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfDay,CMIP5_cfSites" }, 
    1055 { "id":1051, 0:"difvso",  1:"Ocean Vertical Salt Diffusivity", 2:"ocean_vertical_salt_diffusivity", 3:"'unset'", 4:"CMIP5_Oclim" }, 
    1056 { "id":1052, 0:"vmrcf2cl2",  1:"CF2Cl2 Volume Mixing Ratio", 2:"mole_fraction_of_cfc12_in_air", 3:"''", 4:"CCMI1_daily" }, 
    1057 { "id":1053, 0:"evisct",  1:"Eddy Diffusivity Coefficients for Temperature", 2:"atmosphere_heat_diffusivity", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    1058 { "id":1054, 0:"eminox",  1:"Total Emission Rate of NOx", 2:"tendency_of_atmosphere_mass_content_of_nox_expressed_as_nitrogen_due_to_emission", 3:"'NOx=NO+NO2. Integrate 3D emission field vertically to 2d field.'", 4:"CCMI1_monthly" }, 
    1059 { "id":1055, 0:"lossro2viano",  1:"Reaction Rate of RO2+NO", 2:"unset", 3:"'This is sum of prodo3viaho2, prodo3viach3o2 and prodo3viaro2'", 4:"CCMI1_monthly" }, 
    1060 { "id":1056, 0:"friver",  1:"Water Flux into Sea Water From Rivers", 2:"water_flux_into_sea_water_from_rivers", 3:"'computed as the river flux of water into the ocean divided by the area of the ocean portion of the grid cell.'", 4:"CMIP5_Omon" }, 
    1061 { "id":1057, 0:"lossrcoo2viano2",  1:"Reaction Rate of RC(O)O2+NO2", 2:"unset", 3:"'3-d distribution of RC(O)O2+NO2 reaction fluxes (e.g. PAN production). R refers to the organic peroxy radical pool.'", 4:"CCMI1_monthly" }, 
    1062 { "id":1058, 0:"expc",  1:"Sinking Particulate Organic Carbon Flux", 2:"sinking_mole_flux_of_particulate_organic_matter_expressed_as_carbon_in_sea_water", 3:"'unset'", 4:"CMIP5_Oyr" }, 
    1063 { "id":1059, 0:"co2",  1:"Mole Fraction of CO2", 2:"mole_fraction_of_carbon_dioxide_in_air", 3:"'unset'", 4:"CMIP5_Amon" }, 
    1064 { "id":1060, 0:"prc",  1:"Convective Precipitation", 2:"convective_precipitation_flux", 3:"'unset'", 4:"CMIP5_cfDay" }, 
    1065 { "id":1061, 0:"growseas",  1:"Growing Season", 2:"unset", 3:"''", 4:"CCMI1_annual" }, 
    1066 { "id":1062, 0:"treeFracPrimDec",  1:"Total Primary Deciduous Tree Fraction", 2:"area_fraction", 3:"''This is the fraction of the entire grid cell  that is covered by ''total primary deciduous trees.''''", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    1067 { "id":1063, 0:"lossco",  1:"Rate of CO Oxidation", 2:"unset", 3:"'proposed name: tendency_of_mole_concentration_of_carbon_monoxide_due_to_chemical_gross_destruction'", 4:"CCMI1_monthly" }, 
    1068 { "id":1064, 0:"tasmax",  1:"Daily Maximum Near-Surface Air Temperature", 2:"air_temperature", 3:"'unset'", 4:"CMIP5_day,SPECS_day" }, 
    1069 { "id":1065, 0:"h2brdn",  1:"Atmospheric Burden of H2", 2:"atmosphere_moles_of_molecular_hydrogen", 3:"'total yearly average burden'", 4:"CCMI1_annual" }, 
    1070 { "id":1066, 0:"tnpeotb",  1:"Tendency of Ocean Potential Energy Content due to Background", 2:"tendency_of_ocean_potential_energy_content_due_to_background", 3:"'unset'", 4:"CMIP5_Oclim" }, 
    1071 { "id":1067, 0:"tnsclicd",  1:"Tendency of Mass Fraction of Stratiform Cloud Ice Due Convective Detrainment", 2:"tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_convective_detrainment", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    1072 { "id":1068, 0:"snoToIce",  1:"Snow-Ice Formation Rate", 2:"tendency_of_sea_ice_amount_due_to_snow_conversion", 3:"'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.  Reported as 0.0 in regions free of snow-covered sea ice.'", 4:"CMIP5_OImon" }, 
    1073 { "id":1069, 0:"swtropaso3",  1:"All-Sky SW-RF O3 at Tropopause", 2:"unset", 3:"'proposed name: tropopause_instantaneous_shortwave_forcing_due_to_ozone'", 4:"CCMI1_monthly" }, 
    1074 { "id":1070, 0:"sfvmrno2",  1:"NO2 Volume Mixing Ratio in the Lowest Model Layer", 2:"mole_fraction_of_nitrogen_dioxide_in_air", 3:"''", 4:"CCMI1_hourly" }, 
    1075 { "id":1071, 0:"vmrn2o",  1:"N2O Volume Mixing Ratio", 2:"mole_fraction_of_nitrous_oxide_in_air", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }, 
    1076 { "id":1072, 0:"difvtrto",  1:"Ocean Vertical Tracer Diffusivity due to Tides", 2:"ocean_vertical_tracer_diffusivity_due_to_tides", 3:"'unset'", 4:"CMIP5_Oclim" }, 
    1077 { "id":1073, 0:"msftbarot",  1:"Ocean Barotropic Mass Streamfunction", 2:"ocean_barotropic_mass_streamfunction", 3:"'differs from CMIP3 because it includes mass.'", 4:"CMIP5_Omon" }, 
    1078 { "id":1074, 0:"tnsccwcm",  1:"Tendency of Mass Fraction of Stratiform Cloud Condensed Water In Air Due To Cloud Microphysics", 2:"tendency_of_mass_fraction_of_stratiform_cloud_condensed_water_in_air_due_to_cloud_microphysics", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    1079 { "id":1075, 0:"lossro2viaho2",  1:"Reaction Rate of RO2+HO2", 2:"unset", 3:"'3-d distribution of RO2+HO2 reaction fluxes. Similar to prodhpx, but without HO2+HO2. R refers to the organic peroxy radical pool.'", 4:"CCMI1_monthly" }, 
    1080 { "id":1076, 0:"o2min",  1:"Oxygen Minimum Concentration", 2:"mole_concentration_of_dissolved_molecular_oxygen_in_sea_water_at_shallowest_local_minimum_in_vertical_profile", 3:"'unset'", 4:"CMIP5_Omon" }, 
    1081 { "id":1077, 0:"zmclo",  1:"Zonal Mean ClO volume mixing ratio", 2:"mole_fraction_of_chlorine_monoxide_in_air", 3:"''", 4:"CCMI1_daily" }, 
    1082 { "id":1078, 0:"zmbry",  1:"Zonal Mean Total Inorganic Bromine (Bry) Volume Mixing Ratio", 2:"mole_fraction_of_total_inorganic_bromine_in_air", 3:"'Total inorganic bromine (e.g., HBr and inorganic bromine oxides and radicals (e.g., BrO, atomic bromine (Br), bromine nitrate (BrONO2)) resulting from degradation of bromine-containing organic source gases (halons, methyl bromide, VSLS), and natural inorganic bromine sources (e.g., volcanoes, sea salt, and other aerosols).  Add comment attribute with detailed description about how the model calculates these fields e.g. Bry = Br + BrO + HOBr + HBr + BrONO2 + BrCl.'", 4:"CCMI1_monthly" }, 
    1083 { "id":1079, 0:"hfcorr",  1:"Heat Flux Correction", 2:"heat_flux_correction", 3:"'unset'", 4:"CMIP5_Omon" }, 
    1084 { "id":1080, 0:"ci",  1:"Fraction of Time Convection Occurs", 2:"convection_time_fraction", 3:"'Fraction of time that convection occurs in the grid cell .'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites" }, 
    1085 { "id":1081, 0:"deptho",  1:"Sea Floor Depth", 2:"sea_floor_depth_below_geoid", 3:"'Ocean bathymetry.   Reported here is the sea floor depth for present day. Reported as missing for land grid cells.'", 4:"CMIP5_fx,SPECS_fx" }, 
    1086 { "id":1082, 0:"sadice",  1:"Surface Area Density of Water Ice PSC Particles", 2:"unset", 3:"'water-ice surface area density used in heterogeneous activation of ClOx and BrOx. Defined as the area of aerosol per volume of atmosphere (i.e., m2 m-3 = m-1).'", 4:"CCMI1_daily" }, 
    1087 { "id":1083, 0:"streng",  1:"Compressive Sea Ice Strength", 2:"compressive_strength_of_sea_ice", 3:"'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.   Reported as ''missing'' in regions free of sea ice.'", 4:"CMIP5_OImon,SPECS_OImon" }, 
    1088 { "id":1084, 0:"ptp",  1:"Tropopause Air Pressure", 2:"tropopause_air_pressure", 3:"'2D monthly mean thermal tropopause calculated using WMO tropopause definition on 3d temperature'", 4:"CCMI1_monthly" }, 
    1089 { "id":1085, 0:"rsus",  1:"Surface Upwelling Shortwave Radiation", 2:"surface_upwelling_shortwave_flux_in_air", 3:"'unset'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfDay,CMIP5_cfSites,CMIP5_day,CORDEX_3h,CORDEX_day,CORDEX_mon,CORDEX_sem,SPECS_day" }, 
    1090 { "id":1086, 0:"thkcello",  1:"Ocean Model Cell Thickness", 2:"cell_thickness", 3:"'unset'", 4:"CMIP5_Omon,CMIP5_fx" }, 
    1091 { "id":1087, 0:"convclt",  1:"Convective Cloud Fraction", 2:"convective_cloud_area_fraction", 3:"'For the whole atmospheric column, as seen from the surface or the top of the atmosphere. Include only convective cloud.'", 4:"CCMI1_monthly" }, 
    1092 { "id":1088, 0:"tnsclibfpcl",  1:"Tendency of Mass Fraction of Stratiform Cloud Ice In Air Due To Bergeron Findeisen Process from Cloud Liquid", 2:"tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_bergeron_findeisen_process_from_cloud_liquid", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    1093 { "id":1089, 0:"ch4trtbrdn",  1:"Tendency of Tropospheric Burden of CH4", 2:"tendency_of_troposphere_moles_of_methane", 3:"'total yearly averaged tropospheric loss'", 4:"CCMI1_annual" }, 
    1094 { "id":1090, 0:"tauu",  1:"Surface Downward Eastward Wind Stress", 2:"surface_downward_eastward_stress", 3:"'unset'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites,CORDEX_6h,CORDEX_day,SPECS_Amon,SPECS_day" }, 
    1095 { "id":1091, 0:"zmbrcl",  1:"Zonal mean BrCl Volume Mixing Ratio", 2:"mole_fraction_of_bromine_chloride_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    1096 { "id":1092, 0:"ch3ccl2ftbrdn",  1:"Tendency of Atmospheric Burden of CH3CCl2F", 2:"tendency_of_atmosphere_moles_of_hcfc141b", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }, 
    1097 { "id":1093, 0:"od550bb",  1:"BB AOD at 550nm", 2:"unset", 3:"'proposed name: atmosphere_optical_thickness_due_to_biomass_burning_ambient_aerosol'", 4:"CCMI1_monthly" }, 
    1098 { "id":1094, 0:"phydiaz",  1:"Mole Concentration of Diazotrophs Expressed as Carbon in Sea Water at Surface", 2:"mole_concentration_of_diazotrophs_expressed_as_carbon_in_sea_water", 3:"'carbon concentration from the diazotrophic phytoplankton component alone'", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    1099 { "id":1095, 0:"rlus",  1:"Surface Upwelling Longwave Radiation", 2:"surface_upwelling_longwave_flux_in_air", 3:"'This is the 3-hour mean flux.'", 4:"CMIP5_3hr" }, 
    1100 { "id":1096, 0:"umo",  1:"Ocean Mass X Transport", 2:"ocean_mass_x_transport", 3:"'unset'", 4:"CMIP5_Omon" }, 
    1101 { "id":1097, 0:"o3prod",  1:"O3 Production Rate", 2:"unset", 3:"'ONLY provide the sum of all the HO2/RO2 + NO reactions (as k*[HO2]*[NO])'", 4:"CCMI1_monthly" }, 
    1102 { "id":1098, 0:"zmmnstrage",  1:"Zonal Mean Mean Age of Stratospheric Air", 2:"age_of_stratospheric_air", 3:"'The mean age of air is defined as the mean time that a stratospheric air mass has been out of contact with the well-mixed troposphere.'", 4:"CCMI1_monthly" }, 
    1103 { "id":1099, 0:"ch3clsmtbrdn",  1:"Tendency of Middle Atmosphere Burden of CH3Cl", 2:"tendency_of_middle_atmosphere_moles_of_methyl_chloride", 3:"'total yearly averaged stratospheric and mesospheric loss'", 4:"CCMI1_annual" }, 
    1104 { "id":1100, 0:"diftrbbo2d",  1:"Ocean Tracer Bolus Biharmonic Diffusivity", 2:"ocean_tracer_bolus_biharmonic_diffusivity", 3:"'unset'", 4:"CMIP5_Oclim" }, 
    1105 { "id":1101, 0:"rsussi",  1:"Upward Shortwave over Sea Ice", 2:"surface_upwelling_shortwave_flux_in_air", 3:"'the upward shortwave flux in regions of sea ice divided by the area of the ocean portion of the grid cell.'", 4:"CMIP5_OImon" }, 
    1106 { "id":1102, 0:"emilnox",  1:"Layer-Integrated Lightning Production of NOx", 2:"unset", 3:"'Integrate the NOx production for lightning over model layer.  Express as mass of nitrogen.'", 4:"CCMI1_monthly" }, 
    1107 { "id":1103, 0:"zmcbrf3",  1:"Zonal Mean CBrF3 Volume Mixing Ratio", 2:"mole_fraction_of_halon1301_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    1108 { "id":1104, 0:"intpn2",  1:"Nitrogen Fixation Rate in Ocean", 2:"tendency_of_ocean_mole_content_of_elemental_nitrogen_due_to_fixation", 3:"'Vertically integrated nitrogen fixation'", 4:"CMIP5_Omon" }, 
    1109 { "id":1105, 0:"zmeso",  1:"Mole Concentration of Mesozooplankton expressed as Carbon in Sea Water at Surface", 2:"mole_concentration_of_mesozooplankton_expressed_as_carbon_in_sea_water", 3:"'carbon  concentration from mesozooplankton (20-200 um) component alone'", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    1110 { "id":1106, 0:"rlucs",  1:"Upwelling Clear-Sky Longwave Radiation", 2:"upwelling_longwave_flux_in_air_assuming_clear_sky", 3:"'Includes also the fluxes at the surface and TOA.'", 4:"CMIP5_cfMon" }, 
    1111 { "id":1107, 0:"dms",  1:"Dimethyl Sulphide Concentration at Surface", 2:"mole_concentration_of_dimethyl_sulfide_in_sea_water", 3:"'unset'", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    1112 { "id":1108, 0:"tran",  1:"Transpiration", 2:"transpiration_flux", 3:"'unset'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    1113 { "id":1109, 0:"phymisc",  1:"Mole Concentration of Miscellaneous Phytoplankton expressed as Carbon in Sea Water at Surface", 2:"mole_concentration_of_miscellaneous_phytoplankton_expressed_as_carbon_in_sea_water", 3:"'carbon concentration from additional phytoplankton component alone'", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    1114 { "id":1110, 0:"tnsclwas",  1:"Tendency of Mass Fraction of Stratiform Cloud Liquid Water due to Accretion to Snow", 2:"tendency_of_mass_fraction_of_stratiform_cloud_liquid_water_in_air_due_to_accretion_to_snow", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    1115 { "id":1111, 0:"od870aer",  1:"Ambient Aerosol Optical Thickness at 870 nm", 2:"atmosphere_optical_thickness_due_to_ambient_aerosol", 3:"'AOD from the ambient aerosols (i.e., includes aerosol water).  Does not include AOD from stratospheric aerosols if these are prescribed but includes other possible background aerosol types.  Needs a comment attribute 'wavelength: 870 nm'.'", 4:"CCMI1_monthly" }, 
    1116 { "id":1112, 0:"ta1000",  1:"Air Temperature at 1000 hPa", 2:"air_temperature", 3:"'Temperature on the 1000 hPa surface'", 4:"CCMI1_daily" }, 
    1117 { "id":1113, 0:"uas",  1:"Eastward Near-Surface Wind", 2:"eastward_wind", 3:"'unset'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites,CMIP5_day,SPECS_6hr,SPECS_Amon,SPECS_day" }, 
    1118 { "id":1114, 0:"zmch2o",  1:"Zonal Mean CH2O Volume Mixing Ratio", 2:"mole_fraction_of_formaldehyde_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    1119 { "id":1115, 0:"ridgice",  1:"Sea Ice Ridging Rate", 2:"tendency_of_sea_ice_area_fraction_due_to_ridging", 3:"'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.   Reported as ''missing'' in regions free of sea ice.'", 4:"CMIP5_OImon,SPECS_OImon" }, 
    1120 { "id":1116, 0:"lwtoaasdust",  1:"All-Sky LW-RF Dust at TOA", 2:"unset", 3:"'proposed name: toa_instantaneous_longwave_forcing_due_to_dust_ambient_aerosol'", 4:"CCMI1_monthly" }, 
    1121 { "id":1117, 0:"grpllsprof",  1:"Stratiform Graupel Flux", 2:"large_scale_graupel_flux", 3:"'unset'", 4:"CMIP5_cf3hr" }, 
    1122 { "id":1118, 0:"vmrn",  1:"Atomic N Volume Mixing Ratio", 2:"mole_fraction_of_atomic_nitrogen_in_air", 3:"''", 4:"CCMI1_daily" }, 
    1123 { "id":1119, 0:"chldiat",  1:"Diatom Chlorophyll Mass Concentration at Surface", 2:"mass_concentration_of_diatoms_expressed_as_chlorophyll_in_sea_water", 3:"'chlorophyll from diatom phytoplankton component concentration alone'", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    1124 { "id":1120, 0:"fbddtdisi",  1:"Rate of Change of Dissolved Inorganic Silicate due to Biological Activity", 2:"tendency_of_ocean_mole_content_of_dissolved_inorganic_silicon_due_to_biological_processes", 3:"'vertical integral of net biological terms in time rate of change of dissolved inorganic silicate'", 4:"CMIP5_Omon" }, 
    1125 { "id":1121, 0:"phyfe",  1:"Phytoplankton Iron Concentration at Surface", 2:"mole_concentration_of_phytoplankton_expressed_as_iron_in_sea_water", 3:"'sum of phytoplankton iron component concentrations'", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    1126 { "id":1122, 0:"zmclo",  1:"Zonal Mean ClO Volume Mixing Ratio", 2:"mole_fraction_of_chlorine_monoxide_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    1127 { "id":1123, 0:"bmelt",  1:"Rate of Melt at Sea Ice Base", 2:"tendency_of_sea_ice_amount_due_to_basal_melting", 3:"'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.  Reported as 0.0 in regions free of sea ice.'", 4:"CMIP5_OImon" }, 
    1128 { "id":1124, 0:"tasmin",  1:"Daily Minimum Near-Surface Air Temperature", 2:"air_temperature", 3:"'monthly mean of the daily-minimum near-surface air temperature.'", 4:"CMIP5_Amon,SPECS_Amon" }, 
    1129 { "id":1125, 0:"physi",  1:"Phytoplankton Silica Concentration at Surface", 2:"mole_concentration_of_phytoplankton_expressed_as_silicon_in_sea_water", 3:"'sum of phytoplankton silica component concentrations'", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    1130 { "id":1126, 0:"drynh4",  1:"Dry Deposition Rate of NH4", 2:"tendency_of_atmosphere_mass_content_of_ammonium_dry_aerosol_due_to_dry_deposition", 3:"'unset'", 4:"CMIP5_aero" }, 
    1131 { "id":1127, 0:"sic",  1:"Sea Ice Area Fraction", 2:"sea_ice_area_fraction", 3:"'fraction of grid cell covered by sea ice.'", 4:"CCMI1_daily" }, 
    1132 { "id":1128, 0:"tntscpbl",  1:"Tendency of Air Temperature due to Stratiform Cloud Condensation and Evaporation", 2:"tendency_of_air_temperature_due_to_stratiform_cloud_and_precipitation_and_boundary_layer_mixing", 3:"'unset'", 4:"CMIP5_cfSites" }, 
    1133 { "id":1129, 0:"cldnvi",  1:"Column Integrated Cloud Droplet Number", 2:"atmosphere_number_content_of_cloud_droplets", 3:"'Droplets are liquid only.  Values are weighted by liquid cloud fraction in each layer when vertically integrating, and for monthly means the samples are weighted by total liquid cloud fraction (as seen from TOA).'", 4:"CMIP5_aero" }, 
    1134 { "id":1130, 0:"sfmmraernh4",  1:"Aerosol Ammonium Mass Mixing Ratio in the Lowest Model Layer", 2:"mass_fraction_of_ammonium_dry_aerosol_in_air", 3:"'Aerosol NH4'", 4:"CCMI1_daily" }, 
    1135 { "id":1131, 0:"reffclws",  1:"Hydrometeor Effective Radius of Stratiform Cloud Liquid Water", 2:"effective_radius_of_stratiform_cloud_liquid_water_particle", 3:"'This is defined as the in-cloud ratio of the third moment over the second moment of the particle size distribution (obtained by considering only the cloudy portion of the grid cell).'", 4:"CMIP5_cf3hr" }, 
    1136 { "id":1132, 0:"intpcalcite",  1:"Calcite Production", 2:"tendency_of_ocean_mole_content_of_calcite_expressed_as_carbon_due_to_biological_production", 3:"'Vertically integrated calcite production'", 4:"CMIP5_Omon" }, 
    1137 { "id":1133, 0:"wfcorr",  1:"Water Flux Correction", 2:"water_flux_correction", 3:"'Positive flux implies correction adds water to ocean.'", 4:"CMIP5_Omon" }, 
    1138 { "id":1134, 0:"hfss",  1:"Surface Upward Sensible Heat Flux", 2:"surface_upward_sensible_heat_flux", 3:"'This is the 3-hour mean flux.'", 4:"CMIP5_3hr" }, 
    1139 { "id":1135, 0:"vmre90",  1:"e90 Volume Mixing Ratio", 2:"unset", 3:"'Synthetic tracer e90 has 90-day e-fold everywhere; emitted uniformly (g/m2) over all land/ocean/ice; see Prather et al. 2011 JGR 116, D04306, doi:10.1029/2010JD014939; any normalization can be used if defined, but UCI chooses: mol.wt = 28.97(dry air), emissions = 2074 Tg/y (kg/m2/s) , thus steady-state mean mole fraction = 100 ppb (for ECMWF dry air mass).'", 4:"CCMI1_daily,CCMI1_monthly" }, 
    1140 { "id":1136, 0:"treeFrac",  1:"Tree Cover Fraction", 2:"area_fraction", 3:"'fraction of entire grid cell  that is covered by trees.'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    1141 { "id":1137, 0:"hfsithermds",  1:"Heat Flux into Sea Water due to Sea Ice Thermodynamics", 2:"heat_flux_into_sea_water_due_to_sea_ice_thermodynamics", 3:"'unset'", 4:"CMIP5_Omon" }, 
    1142 { "id":1138, 0:"hfsifrazil2d",  1:"Heat Flux into Sea Water due to Frazil Ice Formation", 2:"heat_flux_into_sea_water_due_to_freezing_of_frazil_ice", 3:"'unset'", 4:"CMIP5_Omon" }, 
    1143 { "id":1139, 0:"prc",  1:"Convective Precipitation", 2:"convective_precipitation_flux", 3:"'at surface.  This is a 3-hour mean convective precipitation flux.'", 4:"CMIP5_3hr" }, 
    1144 { "id":1140, 0:"ang4487aer",  1:"Angstrom Exponent 440/870nm", 2:"angstrom_exponent_of_ambient_aerosol_in_air", 3:"'general standard name is angstrom_exponent_of_ambient_aerosol_in_air'", 4:"CCMI1_monthly" }, 
    1145 { "id":1141, 0:"reffsnowc",  1:"Hydrometeor Effective Radius of Convective Snowfall", 2:"effective_radius_of_convective_cloud_snow_particle", 3:"'This is defined as the in-cloud ratio of the third moment over the second moment of the particle size distribution (obtained by considering only the cloudy portion of the grid cell).'", 4:"CMIP5_cf3hr" }, 
    1146 { "id":1142, 0:"ch3ccl2fsmtbrdn",  1:"Tendency of Middle Atmosphere Burden of CH3CCl2F", 2:"unset", 3:"'total yearly averaged stratospheric and mesospheric loss'", 4:"CCMI1_annual" }, 
    1147 { "id":1143, 0:"dryso2",  1:"Dry Deposition Rate of SO2", 2:"tendency_of_atmosphere_mass_content_of_sulfur_dioxide_due_to_dry_deposition", 3:"'unset'", 4:"CMIP5_aero" }, 
    1148 { "id":1144, 0:"vmrdms",  1:"DMS Volume Mixing Ratio", 2:"mole_fraction_of_dimethyl_sulfide_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    1149 { "id":1145, 0:"emianox",  1:"Anthropogenic Emission Rate of NOx", 2:"unset", 3:"'NOx=NO+NO2, Includes agricultural waste burning but no other biomass burning. proposed name: tendency_of_atmosphere_mass_content_of_anthropogenic_nox_expressed_as_nitrogen_due_to_emission. Integrate 3D emission field vertically to 2d field.'", 4:"CCMI1_monthly" }, 
    1150 { "id":1146, 0:"vas",  1:"Northward Near-Surface Wind Velocity", 2:"northward_wind", 3:"'unset'", 4:"SPECS_day" }, 
    1151 { "id":1147, 0:"dryno2",  1:"Dry Deposition Rate of NO2", 2:"tendency_of_atmosphere_mass_content_of_nitrogen_dioxide_due_to_dry_deposition", 3:"'dry deposition includes gravitational settling, impact scavenging, and turbulent deposition.'", 4:"CCMI1_monthly" }, 
    1152 { "id":1148, 0:"intparag",  1:"Aragonite Production", 2:"tendency_of_ocean_mole_content_of_aragonite_expressed_as_carbon_due_to_biological_production", 3:"'Vertically integrated aragonite production'", 4:"CMIP5_Omon" }, 
    1153 { "id":1149, 0:"o3loss",  1:"O3 Destruction Rate", 2:"unset", 3:"'ONLY provide the sum of the following reactions: (i) O(1D)+H2O; (ii) O3+HO2; (iii) O3+OH; (iv) O3+alkenes (isoprene, ethene,...)'", 4:"CCMI1_monthly" }, 
    1154 { "id":1150, 0:"zmcl2o2",  1:"Zonal Mean ClOOCl Volume Mixing Ratio", 2:"mole_fraction_of_dichlorine_peroxide_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    1155 { "id":1151, 0:"fddtdic",  1:"Rate of Change of Net Dissolved Inorganic Carbon", 2:"tendency_of_ocean_mole_content_of_dissolved_inorganic_carbon", 3:"'unset'", 4:"CMIP5_Omon" }, 
    1156 { "id":1152, 0:"prlsns",  1:"Stratiform Snowfall Flux", 2:"large_scale_snowfall_flux", 3:"'large-scale precipitation of all forms of water in the solid phase.'", 4:"CMIP5_cf3hr" }, 
    1157 { "id":1153, 0:"rlds",  1:"Surface Net Downward Longwave Radiation", 2:"surface_net_downward_longwave_flux", 3:"''This is defined as ''where ice_free_sea over sea''''", 4:"CMIP5_Omon" }, 
    1158 { "id":1154, 0:"tro3",  1:"Mole Fraction of O3", 2:"mole_fraction_of_ozone_in_air", 3:"'unset'", 4:"CMIP5_Amon" }, 
    1159 { "id":1155, 0:"sfriver",  1:"Salt Flux into Sea Water from Rivers", 2:"salt_flux_into_sea_water_from_rivers", 3:"'unset'", 4:"CMIP5_Omon" }, 
    1160 { "id":1156, 0:"arag",  1:"Aragonite Concentration at Surface", 2:"mole_concentration_of_aragonite_expressed_as_carbon_in_sea_water", 3:"'sum of particulate aragonite components (e.g. Phytoplankton, Detrital, etc.)'", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    1161 { "id":1157, 0:"co2mass",  1:"Total Atmospheric Mass of CO2", 2:"atmosphere_mass_of_carbon_dioxide", 3:"'unset'", 4:"CMIP5_Amon" }, 
    1162 { "id":1158, 0:"tas",  1:"Near-Surface Air Temperature", 2:"air_temperature", 3:"'mean near-surface (usually, 2 meter) air temperature.'", 4:"CORDEX_3h" }, 
    1163 { "id":1159, 0:"frfe",  1:"Iron Loss to Sediments", 2:"tendency_of_ocean_mole_content_of_iron_due_to_sedimentation", 3:"'unset'", 4:"CMIP5_Omon" }, 
    1164 { "id":1160, 0:"rsds",  1:"Surface Downwelling Shortwave Radiation", 2:"surface_downwelling_shortwave_flux_in_air", 3:"'unset'", 4:"CMIP5_Amon" }, 
    1165 { "id":1161, 0:"tnsclias",  1:"Tendency of Mass Fraction of Stratiform Cloud Ice due to Accretion to Snow", 2:"tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_accretion_to_snow", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    1166 { "id":1162, 0:"sfcWind",  1:"Near-Surface Wind Speed", 2:"wind_speed", 3:"'This is the mean of the speed, not the speed computed from the mean u and v components of wind'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites" }, 
    1167 { "id":1163, 0:"tnsccwacs",  1:"Tendency of Mass Fraction of Stratiform Cloud Condensed Water due to Autoconversion to Snow", 2:"tendency_of_mass_fraction_of_stratiform_cloud_condensed_water_in_air_due_to_autoconversion_to_snow", 3:"'condensed water includes both liquid and ice.'", 4:"CMIP5_cfMon" }, 
    1168 { "id":1164, 0:"clt",  1:"Total Cloud Fraction", 2:"cloud_area_fraction", 3:"'for the whole atmospheric column, as seen from the surface or the top of the atmosphere. Includes both large-scale and convective cloud.'", 4:"CMIP5_cfDay,CMIP5_day" }, 
    1169 { "id":1165, 0:"reffclws",  1:"Stratiform Cloud Droplet Effective Radius", 2:"effective_radius_of_stratiform_cloud_liquid_water_particle", 3:"'Droplets are liquid.  The effective radius is defined as the ratio of the third moment over the second moment of the particle size distribution and the time-mean should be calculated, weighting the individual samples by the cloudy fraction of the grid cell.'", 4:"CMIP5_aero" }, 
    1170 { "id":1166, 0:"expn",  1:"Sinking Particulate Organic Nitrogen Flux", 2:"sinking_mole_flux_of_particulate_organic_nitrogen_in_sea_water", 3:"'unset'", 4:"CMIP5_Oyr" }, 
    1171 { "id":1167, 0:"ang4467aer",  1:"Angstrom Exponent 440/670nm", 2:"angstrom_exponent_of_ambient_aerosol_in_air", 3:"'general standard name is angstrom_exponent_of_ambient_aerosol_in_air'", 4:"CCMI1_monthly" }, 
    1172 { "id":1168, 0:"sund",  1:"Duration of Sunshine", 2:"duration_of_sunshine", 3:"''", 4:"CORDEX_3h,CORDEX_day,CORDEX_mon,CORDEX_sem" }, 
    1173 { "id":1169, 0:"loadno3",  1:"Load of NO3", 2:"atmosphere_mass_content_of_nitrate_dry_aerosol", 3:"'unset'", 4:"CMIP5_aero" }, 
    1174 { "id":1170, 0:"chepasoa",  1:"Production Rate of Anthropogenic Dry Aerosol Secondary Organic Matter", 2:"unset", 3:"'If model lumps SOA emissions with POA, then the sum of POA and SOA emissions is reported as POA emissions.  'mass' refers to the mass of primary organic matter, not mass of organic carbon alone. proposed name: tendency_of_atmosphere_mass_content_of_anthropogenic_secondary_particulate_organic_matter_dry_aerosol_due_to_net_chemical_production.  Used instead of emi_asoa in original ACCMIP Excel spreadsheet. That variable had notes: This can be a pseudo-emission flux as used in AEROCOM (Dentener et al, ACP, 2006) or the net.'", 4:"CCMI1_monthly" }, 
    1175 { "id":1171, 0:"mrro",  1:"Total Runoff", 2:"runoff_flux", 3:"''the total runoff (including ''drainage'' through the base of the soil model) leaving the land portion of the grid cell.''", 4:"CMIP5_Lmon" }, 
    1176 { "id":1172, 0:"pcalc",  1:"Calcite Production", 2:"tendency_of_mole_concentration_of_calcite_expressed_as_carbon_in_sea_water_due_to_biological_production", 3:"'unset'", 4:"CMIP5_Oyr" }, 
    1177 { "id":1173, 0:"zmch2br2",  1:"Zonal Mean CH2Br2 Volume Mixing Ratio", 2:"unset", 3:"''", 4:"CCMI1_monthly" }, 
    1178 { "id":1174, 0:"hfx",  1:"Ocean Heat X Transport", 2:"ocean_heat_x_transport", 3:"'unset'", 4:"CMIP5_Omon" }, 
    1179 { "id":1175, 0:"zg10",  1:"Geopotential Height at 10 hPa", 2:"geopotential_height", 3:"'Geopotential height on the 10 hPa surface'", 4:"CCMI1_daily" }, 
    1180 { "id":1176, 0:"rMaint",  1:"Carbon Mass Flux into Atmosphere due to Maintenance Autotrophic Respiration on Land", 2:"surface_upward_carbon_mass_flux_due_to_plant_respiration_for_biomass_maintenance", 3:"'unset'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    1181 { "id":1177, 0:"hfnorth",  1:"Northward Ocean Heat Transport", 2:"northward_ocean_heat_transport", 3:"'unset'", 4:"CMIP5_Omon" }, 
    1182 { "id":1178, 0:"tas",  1:"Near-Surface Air Temperature", 2:"air_temperature", 3:"'daily-mean near-surface (usually, 2 meter) air temperature.'", 4:"CORDEX_day,CORDEX_mon,CORDEX_sem" }, 
    1183 { "id":1179, 0:"loadss",  1:"Load of Seasalt", 2:"atmosphere_mass_content_of_seasalt_dry_aerosol", 3:"'unset'", 4:"CMIP5_aero" }, 
    1184 { "id":1180, 0:"zmcbrclf2",  1:"Zonal mean CBrClF2 Volume Mixing Ratio", 2:"mole_fraction_of_halon1211_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    1185 { "id":1181, 0:"zg",  1:"Geopotential Height", 2:"geopotential_height", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }, 
    1186 { "id":1182, 0:"mrsofc",  1:"Capacity of Soil to Store Water", 2:"soil_moisture_content_at_field_capacity", 3:"''''where land'': divide the total water holding capacity of all the soil in the grid cell by the land area in the grid cell;  report as ''missing'' where the land fraction is 0.''", 4:"CORDEX_fx" }, 
    1187 { "id":1183, 0:"cosmtbrdn",  1:"Tendency of Middle Atmosphere Burden of CO", 2:"tendency_of_middle_atmosphere_moles_of_carbon_monoxide", 3:"'total yearly averaged stratospheric and mesospheric loss'", 4:"CCMI1_annual" }, 
    1188 { "id":1184, 0:"sfmmrbc",  1:"BC Mass Mixing Ratio in the Lowest Model Layer", 2:"mass_fraction_of_black_carbon_dry_aerosol_in_air", 3:"'BC'", 4:"CCMI1_daily" }, 
    1189 { "id":1185, 0:"cli",  1:"Mass Fraction of Cloud Ice", 2:"mass_fraction_of_cloud_ice_in_air", 3:"'Includes both large-scale and convective cloud. This is the mass of  cloud ice  in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.'", 4:"CMIP5_cfSites" }, 
    1190 { "id":1186, 0:"sfvmrco",  1:"CO Volume Mixing Ratio in the Lowest Model Layer", 2:"mole_fraction_of_carbon_monoxide_in_air", 3:"''", 4:"CCMI1_hourly" }, 
    1191 { "id":1187, 0:"zmzg",  1:"Zonal Mean Geopotential Height", 2:"geopotential_height", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }, 
    1192 { "id":1188, 0:"agessc",  1:"Sea Water Age Since Surface Contact", 2:"sea_water_age_since_surface_contact", 3:"'unset'", 4:"CMIP5_Omon" }, 
    1193 { "id":1189, 0:"drydust",  1:"Dry Deposition Rate of Dust", 2:"tendency_of_atmosphere_mass_content_of_dust_dry_aerosol_due_to_dry_deposition", 3:"'unset'", 4:"CMIP5_aero" }, 
    1194 { "id":1190, 0:"toffset",  1:"Offset Time", 2:"time", 3:"''this ''offset time'' should be added to the value stored in the ''time dimension'' to get the actual time.  This actual time is the time (UTC) of the corresponding point in the satellite orbit used to extract the model data.''", 4:"CMIP5_cf3hr" }, 
    1195 { "id":1191, 0:"lossro2viano3",  1:"Reaction Rate of RO2+NO3", 2:"unset", 3:"'3-d distribution of sum of RO2+NO3 reaction fluxes. R refers to the organic peroxy radical pool.'", 4:"CCMI1_monthly" }, 
    1196 { "id":1192, 0:"sftgif",  1:"Fraction of Grid Cell Covered with Glacier", 2:"land_ice_area_fraction", 3:"'fraction of grid cell occupied by ''permanent'' ice (i.e., glaciers).  If time varying, report annual values for each year of simulation. For atmospheres with more than 1 mesh (e.g., staggered grids), report areas that apply to surface vertical fluxes of energy.'", 4:"CORDEX_fx" }, 
    1197 { "id":1193, 0:"intpdiaz",  1:"Net Primary Mole Productivity of Carbon by Diazotrophs", 2:"net_primary_mole_productivity_of_carbon_by_diazotrophs", 3:"'unset'", 4:"CMIP5_Omon" }, 
    1198 { "id":1194, 0:"conccn",  1:"Aerosol Number Concentration", 2:"number_concentration_of_ambient_aerosol_in_air", 3:"'unset'", 4:"CMIP5_aero" }, 
    1199 { "id":1195, 0:"clwvi",  1:"Condensed Water Path", 2:"atmosphere_cloud_condensed_water_content", 3:"'calculate mass of condensed (liquid + ice) water in the column divided by the area of the column (not just the area of the cloudy portion of the column). This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.'", 4:"CMIP5_cfDay" }, 
    1200 { "id":1196, 0:"grassFrac",  1:"Natural Grass Fraction", 2:"area_fraction", 3:"'fraction of entire grid cell that is covered by natural grass.'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    1201 { "id":1197, 0:"reffsnows",  1:"Hydrometeor Effective Radius of Stratiform Snowfall", 2:"effective_radius_of_stratiform_cloud_snow_particle", 3:"'This is defined as the in-cloud ratio of the third moment over the second moment of the particle size distribution (obtained by considering only the cloudy portion of the grid cell).'", 4:"CMIP5_cf3hr" }, 
    1202 { "id":1198, 0:"sltnorth",  1:"Northward Ocean Salt Transport", 2:"northward_ocean_salt_transport", 3:"'unset'", 4:"SPECS_Omon" }, 
    1203 { "id":1199, 0:"zmno",  1:"Zonal Mean NO Volume Mixing Ratio", 2:"mole_fraction_of_nitrogen_monoxide_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    1204 { "id":1200, 0:"reffrainc",  1:"Hydrometeor Effective Radius of Convective Rainfall", 2:"effective_radius_of_convective_cloud_rain_particle", 3:"'This is defined as the in-cloud ratio of the third moment over the second moment of the particle size distribution (obtained by considering only the cloudy portion of the grid cell).'", 4:"CMIP5_cf3hr" }, 
    1205 { "id":1201, 0:"tos",  1:"Sea Surface Temperature", 2:"sea_surface_temperature", 3:"''this may differ from ''surface temperature'' in regions of sea ice.''", 4:"CMIP5_Omon" }, 
    1206 { "id":1202, 0:"photo1d",  1:"Photolysis Rate of O3 to O1D", 2:"unset", 3:"'proposed name: photolysis_rate_of_ozone_to_O1D'", 4:"CCMI1_monthly" }, 
    1207 { "id":1203, 0:"clwvi",  1:"Condensed Water Path", 2:"atmosphere_cloud_condensed_water_content", 3:"'calculate mass of condensed (liquid + ice) water in the column divided by the area of the column (not just the area of the cloudy portion of the column). Include precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.'", 4:"CORDEX_6h,CORDEX_day" }, 
    1208 { "id":1204, 0:"od550aer",  1:"Ambient Aerosol Optical Thickness at 550 nm", 2:"atmosphere_optical_thickness_due_to_ambient_aerosol", 3:"'AOD from the ambient aerosls (i.e., includes aerosol water).  Does not include AOD from stratospheric aerosols if these are prescribed but includes other possible background aerosol types.'", 4:"CMIP5_aero" }, 
    1209 { "id":1205, 0:"pr",  1:"Precipitation", 2:"precipitation_flux", 3:"'at surface; includes both liquid and solid phases from all types of clouds (both large-scale and convective)'", 4:"CCMI1_daily" }, 
    1210 { "id":1206, 0:"cfcl3brdn",  1:"Atmospheric Burden of CFC-11", 2:"atmosphere_moles_of_cfc11", 3:"'total yearly average burden'", 4:"CCMI1_annual" }, 
    1211 { "id":1207, 0:"parag",  1:"Aragonite Production", 2:"tendency_of_mole_concentration_of_aragonite_expressed_as_carbon_in_sea_water_due_to_biological_production", 3:"'unset'", 4:"CMIP5_Oyr" }, 
    1212 { "id":1208, 0:"vmrnh50",  1:"nh_50 Volume Mixing Ratio", 2:"unset", 3:"'Fixed surface layer mixing ratio over latitudes 30-50N (100ppbv), uniform fixed 50-day exponential decay.'", 4:"CCMI1_monthly" }, 
    1213 { "id":1209, 0:"gsto",  1:"Stomatal Conductance of Water Vapour", 2:"unset", 3:"'Only for year 2006.  Full units are mmol H2O/m^2 leaf area/sec.'", 4:"CCMI1_hourly" }, 
    1214 { "id":1210, 0:"nppWood",  1:"Carbon Mass Flux due to NPP Allocation to Wood", 2:"net_primary_productivity_of_carbon_accumulated_in_wood", 3:"'This is the rate of carbon uptake by wood due to NPP'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    1215 { "id":1211, 0:"ialb",  1:"Sea Ice Albedo", 2:"sea_ice_albedo", 3:"''Reported as ''missing'' if there is no sunlight or if a region is free of sea ice. ''", 4:"CMIP5_OImon" }, 
    1216 { "id":1212, 0:"n2oglobal",  1:"Global Mean Mole Fraction of N2O", 2:"mole_fraction_of_nitrous_oxide_in_air", 3:"'unset'", 4:"CMIP5_Amon" }, 
    1217 { "id":1213, 0:"mlotstsq",  1:"Square of Ocean Mixed Layer Thickness Defined by Sigma T", 2:"square_of_ocean_mixed_layer_thickness_defined_by_sigma_t", 3:"'unset'", 4:"CMIP5_Omon,SPECS_Omon" }, 
    1218 { "id":1214, 0:"dcalc",  1:"Calcite Dissolution", 2:"tendency_of_mole_concentration_of_calcite_expressed_as_carbon_in_sea_water_due_to_dissolution", 3:"'unset'", 4:"CMIP5_Oyr" }, 
    1219 { "id":1215, 0:"vmrpan",  1:"PAN Volume Mixing Ratio", 2:"mole_fraction_of_peroxyacetyl_nitrate_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    1220 { "id":1216, 0:"vas",  1:"Northward Near-Surface Wind", 2:"northward_wind", 3:"'near-surface (usually, 10 meters) northward component of wind.'", 4:"CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem" }, 
    1221 { "id":1217, 0:"swtoacsdust",  1:"Clear-Sky SW-RF Dust at TOA", 2:"unset", 3:"'proposed name: toa_instantaneous_shortwave_forcing_due_to_dust_ambient_aerosol_assuming_clear_sky'", 4:"CCMI1_monthly" }, 
    1222 { "id":1218, 0:"tnta",  1:"Tendency of Air Temperature due to Advection", 2:"tendency_of_air_temperature_due_to_advection", 3:"'unset'", 4:"CMIP5_cfMon,CMIP5_cfSites" }, 
    1223 { "id":1219, 0:"prodo3viaho2",  1:"Chemical Production Rate of O3 via HO2+NO", 2:"unset", 3:"'proposed name: tendency_of_mole_concentration_of_ozone_due_to_chemical_production_by_HO2_plus_NO'", 4:"CCMI1_monthly" }, 
    1224 { "id":1220, 0:"prsn",  1:"Surface Snowfall Rate into the Sea Ice Portion of the Grid Cell", 2:"snowfall_flux", 3:"'where sea ice over sea: this is computed as the total mass per unit time of solid-phase precipitation falling 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).  Reported as 0. in regions free of sea ice. (Snowfall flux includes all types of solid-phase precipitation.)'", 4:"CMIP5_OImon" }, 
    1225 { "id":1221, 0:"ch3ccl3tbrdn",  1:"Tendency of Atmospheric Burden of CH3CCl3", 2:"tendency_of_atmosphere_moles_of_hcc140a", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }, 
    1226 { "id":1222, 0:"zmcfcl3",  1:"Zonal Mean CFCl3 Volume Mixing Ratio", 2:"mole_fraction_of_cfc11_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    1227 { "id":1223, 0:"cSoilFast",  1:"Carbon Mass in Fast Soil Pool", 2:"fast_soil_pool_carbon_content", 3:"'fast is meant as lifetime of less than 10 years for  reference climate conditions (20 C, no water limitations).'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    1228 { "id":1224, 0:"prw",  1:"Water Vapor Path", 2:"atmosphere_water_vapor_content", 3:"'vertically integrated for a column'", 4:"CORDEX_6h,CORDEX_day" }, 
    1229 { "id":1225, 0:"hfsnthermds2d",  1:"Heat Flux into Sea Water due to Snow Thermodynamics", 2:"heat_flux_into_sea_water_due_to_snow_thermodynamics", 3:"'unset'", 4:"CMIP5_Omon" }, 
    1230 { "id":1226, 0:"vmrnh50w",  1:"nh_50w Volume Mixing Ratio", 2:"unset", 3:"'Fixed surface layer mixing ratio over latitudes 30-50N (100ppbv), uniform fixed 50-day exponential decay, wet removal as  HNO3.'", 4:"CCMI1_monthly" }, 
    1231 { "id":1227, 0:"mrro",  1:"Total Runoff", 2:"runoff_flux", 3:"''compute the total runoff (including ''drainage'' through the base of the soil model) leaving the land portion of the grid cell.''", 4:"CORDEX_6h" }, 
    1232 { "id":1228, 0:"rld",  1:"Downwelling Longwave Radiation", 2:"downwelling_longwave_flux_in_air", 3:"'unset'", 4:"CMIP5_cfSites" }, 
    1233 { "id":1229, 0:"clw",  1:"Mass Fraction of Cloud Liquid Water", 2:"mass_fraction_of_cloud_liquid_water_in_air", 3:"'Includes both large-scale and convective cloud.  Calculate as the mass of cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cells. Precipitating hydrometeors are included ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.'", 4:"CMIP5_Amon" }, 
    1234 { "id":1230, 0:"fddtdisi",  1:"Rate of Change of Net Dissolved Inorganic Silicate", 2:"tendency_of_ocean_mole_content_of_dissolved_inorganic_silicon", 3:"'vertical integral of net time rate of change of dissolved inorganic silicate'", 4:"CMIP5_Omon" }, 
    1235 { "id":1231, 0:"zmch4",  1:"Zonal Mean CH4 Volume Mixing Ratio", 2:"mole_fraction_of_methane_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    1236 { "id":1232, 0:"wetss",  1:"Wet Deposition Rate of Seasalt", 2:"tendency_of_atmosphere_mass_content_of_seasalt_dry_aerosol_due_to_wet_deposition", 3:"''", 4:"CCMI1_monthly" }, 
    1237 { "id":1233, 0:"vmrbry",  1:"Total Inorganic Bromine (Bry) Volume Mixing Ratio", 2:"mole_fraction_of_total_inorganic_bromine_in_air", 3:"'Total family (the sum of all appropriate species in the model) ; list the species in the netCDF header, e.g. Bry = Br + BrO + HOBr + HBr + BrONO2 + BrCl.  Definition: Total inorganic bromine (e.g., HBr and inorganic bromine oxides and radicals (e.g., BrO, atomic bromine (Br), bromine nitrate (BrONO2)) resulting from degradation of bromine-containing organic source gases (halons, methyl bromide, VSLS), and natural inorganic bromine sources (e.g., volcanoes, sea salt, and other aerosols).'", 4:"CCMI1_daily" }, 
    1238 { "id":1234, 0:"ta500",  1:"Air Temperature", 2:"air_temperature", 3:"'unset'", 4:"CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem" }, 
    1239 { "id":1235, 0:"chlmisc",  1:"Other Phytoplankton Chlorophyll Mass Concentration at Surface", 2:"mass_concentration_of_miscellaneous_phytoplankton_expressed_as_chlorophyll_in_sea_water", 3:"'chlorophyll from additional phytoplankton component concentrations alone'", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    1240 { "id":1236, 0:"emibisop",  1:"Total Emission Rate of Biogenic Isoprene", 2:"unset", 3:"''", 4:"CCMI1_monthly" }, 
    1241 { "id":1237, 0:"cfadDbze94",  1:"CloudSat Radar Reflectivity CFAD", 2:"histogram_of_equivalent_reflectivity_factor_over_height_above_reference_ellipsoid", 3:"'CFADs (Cloud Frequency Altitude Diagrams) are joint height - radar reflectivity (or lidar scattering ratio) distributions.'", 4:"CMIP5_cf3hr,CMIP5_cfOff" }, 
    1242 { "id":1238, 0:"tntsw",  1:"Shortwave Heating Rate", 2:"tendency_of_air_temperature_due_to_shortwave_heating", 3:"'shortwave heating rates'", 4:"CCMI1_daily,CCMI1_monthly" }, 
    1243 { "id":1239, 0:"zmno2",  1:"Zonal Mean NO2 Volume Mixing Ratio", 2:"mole_fraction_of_nitrogen_dioxide_in_air", 3:"''", 4:"CCMI1_monthly" }, 
    1244 { "id":1240, 0:"ch3brtrtbrdn",  1:"Tendency of Tropospheric Burden of CH3Br", 2:"tendency_of_troposphere_moles_of_methyl_bromide", 3:"'total yearly averaged tropospheric loss'", 4:"CCMI1_annual" }, 
    1245 { "id":1241, 0:"toz",  1:"Total Ozone Column", 2:"equivalent_thickness_at_stp_of_atmosphere_ozone_content", 3:"'total ozone column in DU'", 4:"CCMI1_monthly" }, 
    1246 { "id":1242, 0:"sconcss",  1:"Surface Concentration of Seasalt", 2:"mass_concentration_of_seasalt_dry_aerosol_in_air", 3:"'mass concentration of seasalt dry aerosol in air in model lowest layer'", 4:"CMIP5_aero" }, 
    1247 { "id":1243, 0:"fsc",  1:"Flux of Carbon Into Ocean Surface by Runoff and Sediment Dissolution", 2:"tendency_of_ocean_mole_content_of_carbon_due_to_runoff_and_sediment_dissolution", 3:"'Carbon supply to ocean through runoff and sediment dissolution (neglects gas exchange)'", 4:"CMIP5_Omon" }, 
    1248 { "id":1244, 0:"vmrsf6",  1:"SF6 Volume Mixing Ratio", 2:"unset", 3:"'Specified using emissions from http://edgar.jrc.ec.europa.eu/datasets_grid_list.php#d. Note that these emissions are available only as annual averages (1970-2008; emissions before 1970 should be set to 0 while emissions after 2008 should be kept at their 2008 level). Monthly emissions should be built using the available annual file and assigning the value as representative of July 15. Special care should be made that the annual global integral at the model resolution matches the EDGAR generated total (available as argument from the netCDF v42 files)'", 4:"CCMI1_monthly" }, 
    1249 { "id":1245, 0:"tpf",  1:"Permafrost Layer Thickness", 2:"permafrost_layer_thickness", 3:"'where land over land: This is the mean thickness of the permafrost layer in the land portion of the grid cell.  Reported as 0.0 in permafrost-free regions.'", 4:"CMIP5_LImon" }, 
    1250 { "id":1246, 0:"tnsclihon",  1:"Tendency of Mass Fraction of Stratiform Cloud Ice due to Homogeneous Nucleation", 2:"tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_homogeneous_nucleation", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    1251 { "id":1247, 0:"cod",  1:"Cloud Optical Depth", 2:"atmosphere_optical_thickness_due_to_cloud", 3:"''", 4:"CCMI1_monthly" }, 
    1252 { "id":1248, 0:"vsfcorr",  1:"Virtual Salt Flux Correction", 2:"virtual_salt_flux_correction", 3:"'unset'", 4:"CMIP5_Omon" }, 
    1253 { "id":1249, 0:"mrros",  1:"Surface Runoff", 2:"surface_runoff_flux", 3:"'Compute the total surface runoff leaving the land portion of the grid cell.'", 4:"CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem" }, 
    1254 { "id":1250, 0:"sconcnh4",  1:"Surface Concentration of NH4", 2:"mass_concentration_of_ammonium_dry_aerosol_in_air", 3:"'Mass concentration in model lowest layer'", 4:"CMIP5_aero" }, 
    1255 { "id":1251, 0:"od440aer",  1:"Ambient Aerosol Optical Thickness at 440 nm", 2:"atmosphere_optical_thickness_due_to_ambient_aerosol", 3:"'AOD from the ambient aerosols (i.e., includes aerosol water).  Does not include AOD from stratospheric aerosols if these are prescribed but includes other possible background aerosol types. Needs a comment attribute 'wavelength: 440 nm'.'", 4:"CCMI1_monthly" }, 
    1256 { "id":1252, 0:"fy",  1:"Northward EPF", 2:"northward_eliassen_palm_flux_in_air", 3:"'Transformed Eulerian Mean Diagnostics Meridional component Fy of EP-flux (Fy, Fz) derived from 6hr or higher frequency fields (use daily fields or 12 hr fields if the 6 hr are not available).  Please use the definitions given by equation 3.5.3a of Andrews, Holton and Leovy text book.'", 4:"CCMI1_daily,CCMI1_monthly" }, 
    1257 { "id":1253, 0:"vmrclono2",  1:"ClONO2 Volume Mixing Ratio", 2:"mole_fraction_of_chlorine_nitrate_in_air", 3:"''", 4:"CCMI1_daily" }, 
    1258 { "id":1254, 0:"cf2cl2brdn",  1:"Atmospheric Burden of CFC-12", 2:"atmosphere_moles_of_cfc12", 3:"'total yearly average burden'", 4:"CCMI1_annual" }, 
    1259 { "id":1255, 0:"hfbasindiff",  1:"Northward Ocean Heat Transport due to Diffussion", 2:"northward_ocean_heat_transport_due_to_diffusion", 3:"'unset'", 4:"CMIP5_Omon" }, 
    1260 { "id":1256, 0:"emiahch",  1:"Total Emission of a-HCH", 2:"tendency_of_atmosphere_mass_content_of_alpha_hexachlorocyclohexane_due_to_emission", 3:"'integrate 3D emission field vertically to 2d field'", 4:"CCMI1_monthly" }, 
    1261 { "id":1257, 0:"parasolRefl",  1:"PARASOL Reflectance", 2:"toa_bidirectional_reflectance", 3:"'Simulated reflectance from PARASOL as seen at the top of the atmosphere for 5 solar zenith angles. Valid only over ocean and for one viewing direction (viewing zenith angle of 30 degrees and relative azimuth angle 320 degrees).'", 4:"CMIP5_cf3hr,CMIP5_cfDay,CMIP5_cfMon,CMIP5_cfOff" }, 
    1262 { "id":1258, 0:"tasmin",  1:"Daily Minimum Near-Surface Air Temperature", 2:"air_temperature", 3:"'daily-minimum near-surface (usually, 2 meter) air temperature.'", 4:"CORDEX_day,CORDEX_mon,CORDEX_sem" }, 
    1263 { "id":1259, 0:"hno3hetprod",  1:"Aerosol Reactions Rates as Separate Diagnostics", 2:"unset", 3:"'as an example, the MOZART reactions are listed, N2O5 -> 2HNO3, NO3 -> HNO3, NO2 -> 0.5*OH + 0.5*NO + 0.5*HNO3, HO2 -> 0.5*H2O2'", 4:"CCMI1_monthly" }, 
    1264 { "id":1260, 0:"vmro3s",  1:"o3s Volume Mixing Ratio", 2:"unset", 3:"'Stratospheric ozone tracer set to ozone in the stratosphere, then destroyed in the troposphere using the ozone chemical loss rate. Specify the tropopause definition.'", 4:"CCMI1_monthly" }, 
    1265 { "id":1261, 0:"fsn",  1:"Surface Downward Net Flux of Nitrogen", 2:"tendency_of_ocean_mole_content_of_elemental_nitrogen_due_to_deposition_and_fixation_and_runoff", 3:"'unset'", 4:"CMIP5_Omon" }, 
    1266 { "id":1262, 0:"zo2min",  1:"Depth of Oxygen Minimum Concentration", 2:"depth_at_shallowest_local_minimum_in_vertical_profile_of_mole_concentration_of_dissolved_molecular_oxygen_in_sea_water", 3:"'Depth of vertical minimum concentration of dissolved oxygen gas (if two, then the shallower)'", 4:"CMIP5_Omon" }, 
    1267 { "id":1263, 0:"pop",  1:"Particulate Organic Phosphorus Concentration at Surface", 2:"mole_concentration_of_particulate_organic_matter_expressed_as_phosphorus_in_sea_water", 3:"'sum of particulate organic phosphorus component concentrations'", 4:"CMIP5_Omon,CMIP5_Oyr" }, 
    1268 { "id":1264, 0:"tnsclwac",  1:"Tendency of Mass Fraction of Stratiform Cloud Liquid Water due to Autoconversion", 2:"tendency_of_mass_fraction_of_stratiform_cloud_liquid_water_in_air_due_to_autoconversion", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    1269 { "id":1265, 0:"tnhusc",  1:"Tendency of Specific Humidity due to Convection", 2:"tendency_of_specific_humidity_due_to_convection", 3:"'unset'", 4:"CMIP5_cfMon,CMIP5_cfSites" }, 
    1270 { "id":1266, 0:"ta50",  1:"Air Temperature at 50 hPa", 2:"air_temperature", 3:"'Temperature on the 50 hPa surface'", 4:"CCMI1_daily" }, 
    1271 { "id":1267, 0:"latitude",  1:"Latitude", 2:"latitude", 3:"'unset'", 4:"CMIP5_cf3hr,CMIP5_cfSites" }, 
    1272 { "id":1268, 0:"hfsnthermds",  1:"Heat Flux into Sea Water due to Snow Thermodynamics", 2:"heat_flux_into_sea_water_due_to_snow_thermodynamics", 3:"'unset'", 4:"CMIP5_Omon" }, 
    1273 { "id":1269, 0:"hfss",  1:"Surface Upward Sensible Heat Flux", 2:"surface_upward_sensible_heat_flux", 3:"''", 4:"CCMI1_monthly" }, 
    1274 { "id":1270, 0:"hfdsn",  1:"Downward Heat Flux into Snow Where Land over Land", 2:"surface_downward_heat_flux_in_snow", 3:"'the net downward heat flux from the atmosphere into the snow that lies on land divided by the land area in the grid cell; reported as 0.0 for snow-free land regions or where the land fraction is 0.'", 4:"CMIP5_LImon" }, 
    1275 { "id":1271, 0:"wa",  1:"Upward Air Velocity", 2:"upward_air_velocity", 3:"''", 4:"CCMI1_monthly" }, 
    1276 { "id":1272, 0:"prveg",  1:"Precipitation onto Canopy", 2:"precipitation_flux_onto_canopy", 3:"'the precipitation flux that is intercepted by the vegetation canopy (if present in model) before reaching the ground.'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    1277 { "id":1273, 0:"npp",  1:"Carbon Mass Flux out of Atmosphere due to Net Primary Production on Land", 2:"net_primary_productivity_of_carbon", 3:"'unset'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    1278 { "id":1274, 0:"clm",  1:"Mid Level Cloud Fraction", 2:"cloud_area_fraction_in_atmosphere_layer", 3:"'440 hPa < p < 680 hPa'", 4:"CORDEX_6h,CORDEX_day" }, 
    1279 { "id":1275, 0:"difvmbo",  1:"Ocean Vertical Momentum Diffusivity due to Background", 2:"ocean_vertical_momentum_diffusivity_due_to_background", 3:"'unset'", 4:"CMIP5_Oclim" }, 
    1280 { "id":1276, 0:"ua",  1:"Eastward Wind", 2:"eastward_wind", 3:"'unset'", 4:"CMIP5_6hrLev,CMIP5_6hrPlev,CMIP5_Amon,CMIP5_cfDay,CMIP5_cfSites,CMIP5_day,SPECS_Amon" }, 
    1281 { "id":1277, 0:"rootd",  1:"Maximum Root Depth", 2:"root_depth", 3:"'report the maximum soil depth reachable by plant roots (if defined in model), i.e., the maximum soil depth from which they can extract moisture; report as ''missing'' where the land fraction is 0.'", 4:"CMIP5_fx,CORDEX_fx,SPECS_fx" }, 
    1282 { "id":1278, 0:"vmrso2t",  1:"so2t Volume Mixing Ratio", 2:"unset", 3:"'emitted as anthropogenic year 2000 SO2 (as specified in REF-C1, wet removal as SO2.'", 4:"CCMI1_monthly" }, 
    1283 { "id":1279, 0:"rldcs4co2",  1:"Downwelling Clear-Sky Longwave Radiation 4XCO2 Atmosphere", 2:"downwelling_longwave_flux_in_air_assuming_clear_sky", 3:"'unset'", 4:"CMIP5_cfMon" }, 
    1284 { "id":1280, 0:"sconcdust",  1:"Surface Concentration of Dust", 2:"mass_concentration_of_dust_dry_aerosol_in_air", 3:"'mass concentration of dust dry aerosol in air in model lowest layer'", 4:"CMIP5_aero" }, 
    1285 { "id":1281, 0:"rsdsdiff",  1:"Surface Diffuse Downwelling Shortwave Radiation", 2:"surface_diffuse_downwelling_shortwave_flux_in_air", 3:"'This is a 3-hour mean flux.'", 4:"CMIP5_3hr" }, 
    1286 { "id":1282, 0:"landCoverFrac",  1:"Plant Functional Type Grid Fraction", 2:"area_fraction", 3:"'The categories may differ from model to model, depending on their  PFT definitions.   This may include natural PFTs, anthropogenic PFTs, bare soil, lakes, urban areas, etc.   Sum of all should equal the fraction of the grid-cell that is land.'", 4:"CMIP5_Lmon,SPECS_Lmon" }, 
    1287 { "id":1283, 0:"usi",  1:"X-Component of Sea Ice Velocity", 2:"sea_ice_x_velocity", 3:"''Reported as ''missing'' in regions free of sea ice.''", 4:"CMIP5_day,SPECS_OImon" }, 
    1288 { "id":1285, 0:"mrsol",  1:"Total water content of soil layer", 2:"total_moisture_content_of_soil_layer[-1.0]", 3:"in each soil layer, the mass of water in all phases, including ice.  Reported as 'missing' for grid cells occupied entirely by 'sea'", 4:"CMIP6[C4MIP]" }, 
    1289 { "id":1286, 0:"mrsll",  1:"Liquid water content of soil layer", 2:"liquid_moisture_content_of_soil_layer[-1.0]", 3:"in each soil layer, the mass of water in liquid phase.  Reported as 'missing' for grid cells occupied entirely by 'sea'", 4:"CMIP6[C4MIP]" }, 
    1290 { "id":1287, 0:"mrsfl",  1:"Frozen water content of soil layer", 2:"frozen_moisture_content_of_soil_layer[-1.0]", 3:"in each soil layer, the mass of water in ice phase.  Reported as 'missing' for grid cells occupied entirely by 'sea'", 4:"CMIP6[C4MIP]" }, 
    1291 { "id":1288, 0:"mrtws",  1:"Total water storage in a grid cell", 2:"total_water_storage[-1.0]", 3:"Mass of water in all phases and in all components including soil, canopy, vegetation, ice sheets, rivers and ground water.", 4:"CMIP6[C4MIP]" }, 
    1292 { "id":1289, 0:"",  1:"", 2:"Physical land surface fluxes[]", 3:"", 4:"CMIP6[]" }, 
    1293 { "id":1290, 0:"",  1:"", 2:"Specified or dynamically modelled land cover fractions[]", 3:"", 4:"CMIP6[]" }, 
    1294 { "id":1291, 0:"vegFrac",  1:"Total vegetated fraction", 2:"total_vegetated_fraction[-1.0]", 3:"fraction of grid cell that is covered by vegetation.This SHOULD be the sum of tree, grass, crop and shrub fractions.", 4:"CMIP6[C4MIP]" }, 
    1295 { "id":1292, 0:"treeFracNdlEvg",  1:"Needleleaf evergreen tree fraction", 2:"tree_fraction_needleleaf_evergreen[-1.0]", 3:"This is the fraction of the entire grid cell  that is covered by needleleaf evergreen trees.", 4:"CMIP6[C4MIP]" }, 
    1296 { "id":1293, 0:"treeFracNdlDcd",  1:"Needleleaf deciduous tree fraction", 2:"tree_fraction_needleleaf_deciduous[-1.0]", 3:"This is the fraction of the entire grid cell  that is covered by needleleaf deciduous trees.", 4:"CMIP6[C4MIP]" }, 
    1297 { "id":1294, 0:"treeFracBdlEvg",  1:"Broadleaf evergreen tree fraction", 2:"tree_fraction_broadleaf_evergreen[-1.0]", 3:"This is the fraction of the entire grid cell  that is covered by broadleaf evergreen trees.", 4:"CMIP6[C4MIP]" }, 
    1298 { "id":1295, 0:"treeFracBdlDcd",  1:"Broadleaf deciduous tree fraction", 2:"tree_fraction_broadleaf_deciduous[-1.0]", 3:"This is the fraction of the entire grid cell  that is covered by broadleaf deciduous trees.", 4:"CMIP6[C4MIP]" }, 
    1299 { "id":1296, 0:"grassFracC3",  1:"C3 grass fraction", 2:"grass_fraction_c3[-1.0]", 3:"Fraction of entire grid cell covered by C3 grass.", 4:"CMIP6[C4MIP]" }, 
    1300 { "id":1297, 0:"grassFracC4",  1:"C4 grass fraction", 2:"grass_fraction_c4[-1.0]", 3:"Fraction of entire grid cell covered by C4 grass.", 4:"CMIP6[C4MIP]" }, 
    1301 { "id":1298, 0:"cropFracC3",  1:"C3 crop fraction", 2:"crop_fraction_c3[-1.0]", 3:"Fraction of entire grid cell covered by C3 crops", 4:"CMIP6[C4MIP]" }, 
    1302 { "id":1299, 0:"cropFracC4",  1:"C4 crop fraction", 2:"crop_fraction_c4[-1.0]", 3:"Fraction of entire grid cell covered by C4 crops", 4:"CMIP6[C4MIP]" }, 
    1303 { "id":1300, 0:"",  1:"", 2:"Land carbon state variables - stocks and pool sizes[]", 3:"", 4:"CMIP6[]" }, 
    1304 { "id":1301, 0:"cLand",  1:"Total carbon in all terrestrial carbon pools", 2:"total_land_carbon[-1.0]", 3:"Report missing data over ocean grid cells. For fractional land report value averaged over the land fraction.", 4:"CMIP6[C4MIP]" }, 
    1305 { "id":1302, 0:"cStem",  1:"Carbon Mass in Stem", 2:"stem_carbon_content[-1.0]", 3:"including sapwood and hardwood.", 4:"CMIP6[C4MIP]" }, 
    1306 { "id":1303, 0:"cOther",  1:"Carbon mass in vegetation components other than leaves, stem and root", 2:"other_vegegtation_components_carbon_content[-1.0]", 3:"E.g. fruits, seeds, etc.", 4:"CMIP6[C4MIP]" }, 
    1307 { "id":1304, 0:"cLitterCwd",  1:"Carbon Mass in Coarse Woody Debris", 2:"litter_wood_debris_carbon_content[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1308 { "id":1305, 0:"cLitterSurf",  1:"Carbon Mass in Above-Ground Litter", 2:"litter_wood_debris_carbon_content[-1.0]", 3:"Surface or near-surface litter pool fed by leaf and above-ground litterfall", 4:"CMIP6[C4MIP]" }, 
    1309 { "id":1306, 0:"cLitterSubSurf",  1:"Carbon Mass in Below-Ground Litter", 2:"litter_wood_debris_carbon_content[-1.0]", 3:"sub-surface litter pool fed by root inputs.", 4:"CMIP6[C4MIP]" }, 
    1310 { "id":1307, 0:"cSoil1m",  1:"Carbon mass in soil pool from surface to 1m depth", 2:"soil_carbon_content_to_1m_depth[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1311 { "id":1308, 0:"cSoilBelow1m",  1:"Carbon mass in soil pool below 1m depth", 2:"soil_carbon_content_below_1m_depth[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1312 { "id":1309, 0:"",  1:"", 2:"Land carbon fluxes[]", 3:"", 4:"CMIP6[]" }, 
    1313 { "id":1310, 0:"netAtmosLandCO2Flux",  1:"Net flux of CO2 between atmosphere and land (positive into land) as a result of all processes.", 2:"net_atmos_to_land_CO2_flux[-1.0]", 3:"This flux should be reproducible by differencing the sum of all carbon pools (cVeg, cLitter, cSoil, and cProducts or equivalently cLand) from one time step to the next, except in the case of lateral transfer of carbon due to harvest, riverine transport of dissolved organic and/or inorganic carbon, or any other process (in which case the lateral_carbon_transfer_over_land term, see below, will be zero data).", 4:"CMIP6[C4MIP]" }, 
    1314 { "id":1311, 0:"fCLandToOcean",  1:"Lateral transfer of carbon out of gridcell that eventually goes into ocean", 2:"carbon_mass_flux_into_ocean_from_rivers[-1.0]", 3:"leached carbon etc that goes into run off or river routing and finds its way into ocean should be reported here. ", 4:"CMIP6[C4MIP]" }, 
    1315 { "id":1312, 0:"fFireNat",  1:"Carbon Mass Flux into Atmosphere due to CO2 Emission from natural Fire", 2:"fire_CO2_emissions_from_wildfire[-1.0]", 3:"CO2 emissions from natural fires", 4:"CMIP6[C4MIP]" }, 
    1316 { "id":1313, 0:"fFireAll",  1:"Carbon Mass Flux into Atmosphere due to CO2 emissions from Fire resulting from all sources including natural, anthropogenic and land use change.", 2:"fire_CO2_emissions_from_all_sources[-1.0]", 3:"Only total fire emissions can be compared to observations.", 4:"CMIP6[C4MIP]" }, 
    1317 { "id":1314, 0:"fVegFire",  1:"Carbon Mass Flux from Vegetation into Atmosphere due to CO2 Emission from all Fire", 2:"fire_CO2_emissions_from_vegetation_carbon[-1.0]", 3:"Required for unambiguous separation of vegetation and soil + litter turnover times, since total fire flux draws from both sources", 4:"CMIP6[C4MIP]" }, 
    1318 { "id":1315, 0:"fLitterFire",  1:"Carbon Mass Flux from Litter, CWD or any non-living pool into Atmosphere due to CO2 Emission from all Fire", 2:"fire_CO2_emissions_from_litter_carbon[-1.0]", 3:"Required for unambiguous separation of vegetation and soil + litter turnover times, since total fire flux draws from both sources", 4:"CMIP6[C4MIP]" }, 
    1319 { "id":1316, 0:"fVegLitterSenescence",  1:"Total Carbon Mass Flux from Vegetation to Litter as a result of leaf, branch, and root senescence", 2:"senescence_litter_carbon_flux[-1.0]", 3:"needed to separate changing vegetation C turnover times resulting from changing allocation versus changing mortality", 4:"CMIP6[C4MIP]" }, 
    1320 { "id":1317, 0:"fVegLitterMortality",  1:"Total Carbon Mass Flux from Vegetation to Litter as a result of mortality", 2:"mortality_litter_carbon_flux[-1.0]", 3:"needed to separate changing vegetation C turnover times resulting from changing allocation versus changing mortality", 4:"CMIP6[C4MIP]" }, 
    1321 { "id":1318, 0:"raRoot",  1:"Total respiration from roots", 2:"autotrophic_respiration_from_roots[-1.0]", 3:"Total autotrophic respiration from all belowground plant parts.  This has benchmarking value because the sum of Rh and root respiration can be compared to observations of total soil respiration.", 4:"CMIP6[C4MIP]" }, 
    1322 { "id":1319, 0:"raStem",  1:"Total respiration from stem", 2:"autotrophic_respiration_from_stem[-1.0]", 3:"added for completeness with Ra_root", 4:"CMIP6[C4MIP]" }, 
    1323 { "id":1320, 0:"raLeaf",  1:"Total respiration from leaves", 2:"autotrophic_respiration_from_leaves[-1.0]", 3:"added for completeness with Ra_root", 4:"CMIP6[C4MIP]" }, 
    1324 { "id":1321, 0:"rhLitter",  1:"Carbon Mass Flux into Atmosphere due to Heterotrophic Respiration from Litter on Land", 2:"heterotrophic_respiration_carbon_flux_from_litter[-1.0]", 3:"Needed to calculate litter bulk turnover time. Includes respiration from CWD as well.", 4:"CMIP6[C4MIP]" }, 
    1325 { "id":1322, 0:"rhSoil",  1:"Carbon Mass Flux into Atmosphere due to Heterotrophic Respiration from Soil on Land", 2:"heterotrophic_respiration_carbon_flux_from_soil[-1.0]", 3:"Needed to calculate soil bulk turnover time", 4:"CMIP6[C4MIP]" }, 
    1326 { "id":1323, 0:"fCleach",  1:"Total C loss to leaching or runoff as DIC or DOC that eventually makes way to ocean.", 2:"land_carbon_lost_to_leaching[-1.0]", 3:"Needed to close C budget at each grid cell", 4:"CMIP6[C4MIP]" }, 
    1327 { "id":1324, 0:"fProductDecomp",  1:"decomposition out of product pools to CO2 in atmos", 2:"Carbon_flux_out_of_storage_product_pools_into_atmos[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1328 { "id":1325, 0:"fAnthDisturb",  1:"carbon mass flux into atmosphere due to any human activity", 2:"Carbon_flux_into_atmos_due_to_direct_human_disturbance[-1.0]", 3:"will require some careful definition to make sure we capture everything - any human activity that releases carbon to the atmosphere instead of into product pool goes here. E.g. Deforestation fire, harvest assumed to decompose straight away, grazing...", 4:"CMIP6[C4MIP]" }, 
    1329 { "id":1326, 0:"fDeforestToProduct",  1:"Deforested biomass that goes into product pool as a result of anthropogenic land use change", 2:"deforested_biomass_into_product_pool_due_to_anthorpogenic_land_use_change[-1.0]", 3:"When land use change results in deforestation of natural vegetation (trees or grasslands) then natural biomass is removed. The treatment of deforested biomass differs significantly across models, but it shoule be straight-forward to compare deforested biomass across models.", 4:"CMIP6[C4MIP]" }, 
    1330 { "id":1327, 0:"fHarvestToProduct",  1:"Harvested biomass that goes into product pool", 2:"harvested_biomass_into_product_pool[-1.0]", 3:"be it food or wood harvest, any carbon that is subsequently stored is reported here", 4:"CMIP6[C4MIP]" }, 
    1331 { "id":1328, 0:"fHarvestToAtmos",  1:"Harvested biomass that goes straight into atmosphere", 2:"harvested_biomass_into_atmos[-1.0]", 3:"any harvested carbon that is assumed to decompose immediately into the atmospehre is reported here", 4:"CMIP6[C4MIP]" }, 
    1332 { "id":1329, 0:"fDeforestToAtmos",  1:"Deforested biomass that goes into atmosphere as a result of anthropogenic land use change", 2:"deforested_biomass_into_atmos_due_to_anthorpogenic_land_use_change[-1.0]", 3:"When land use change results in deforestation of natural vegetation (trees or grasslands) then natural biomass is removed. The treatment of deforested biomass differs significantly across models, but it shoule be straight-forward to compare deforested biomass across models.", 4:"CMIP6[C4MIP]" }, 
    1333 { "id":1330, 0:"",  1:"", 2:"Land - Other biogeochemical quantities - state variables[]", 3:"", 4:"CMIP6[]" }, 
    1334 { "id":1331, 0:"burntFractionAll",  1:"Fraction of grid cell burned due to all fires including natural and anthropogenic fires and those associated with anthropogenic land use change", 2:"fraction_burned_due_to_all_fires[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1335 { "id":1332, 0:"vegHeight",  1:"Vegetation height averaged over all vegetation types and over the vegetated fraction of a grid cell.", 2:"vegetation_height[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1336 { "id":1333, 0:"vegHeightTree",  1:"Vegetation height averaged over the tree fraction of a grid cell.", 2:"tree_vegetation_height[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1337 { "id":1334, 0:"vegHeightGrass",  1:"Vegetation height averaged over the grass fraction of a grid cell.", 2:"grass_vegetation_height[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1338 { "id":1335, 0:"vegHeightShrub",  1:"Vegetation height averaged over the shrub fraction of a grid cell.", 2:"shrub_vegetation_height[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1339 { "id":1336, 0:"vegHeightCrop",  1:"Vegetation height averaged over the crop fraction of a grid cell.", 2:"crop_vegetation_height[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1340 { "id":1337, 0:"wetlandFrac",  1:"Fraction of a grid cell covered by wetland.", 2:"wetland_fraction[-1.0]", 3:"Report only one year if specified fraction is used, or time series if values are determined dynamically.", 4:"CMIP6[C4MIP]" }, 
    1341 { "id":1338, 0:"c14Veg",  1:"Mass of 14C in Vegetation", 2:"vegetation_c14_content[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1342 { "id":1339, 0:"c14Litter",  1:"Mass of 14C in Litter Pool", 2:"litter_c14_content[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1343 { "id":1340, 0:"c14Soil",  1:"Mass of 14C in Soil Pool", 2:"soil_c14_content[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1344 { "id":1341, 0:"c14Land",  1:"Mass of 14C in all terrestrial carbon pools", 2:"total_land_c14[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1345 { "id":1342, 0:"c13Veg",  1:"Mass of 13C in Vegetation", 2:"vegetation_c13_content[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1346 { "id":1343, 0:"c13Litter",  1:"Mass of 13C in Litter Pool", 2:"litter_c13_content[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1347 { "id":1344, 0:"c13Soil",  1:"Mass of 13C in Soil Pool", 2:"soil_c13_content[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1348 { "id":1345, 0:"c13Land",  1:"Mass of 13C in all terrestrial carbon pools", 2:"total_land_c13[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1349 { "id":1346, 0:"nVeg",  1:"Nitrogen Mass in Vegetation", 2:"vegetation_nitrogen_content[-1.0]", 3:"Report missing data over ocean grid cells. For fractional land report value averaged over the land fraction.", 4:"CMIP6[C4MIP]" }, 
    1350 { "id":1347, 0:"nLitter",  1:"Nitrogen Mass in Litter Pool", 2:"litter_nitrogen_content[-1.0]", 3:"Report missing data over ocean grid cells. For fractional land report value averaged over the land fraction.", 4:"CMIP6[C4MIP]" }, 
    1351 { "id":1348, 0:"nSoil",  1:"Nitrogen Mass in Soil Organic Pool", 2:"soil_nitrogen_content[-1.0]", 3:"Report missing data over ocean grid cells. For fractional land report value averaged over the land fraction.", 4:"CMIP6[C4MIP]" }, 
    1352 { "id":1349, 0:"nProduct",  1:"Nitrogen Mass in Products of Land Use Change", 2:"nitrogen_content_of_products_of_anthropogenic_land_use_change[-1.0]", 3:"Report missing data over ocean grid cells. For fractional land report value averaged over the land fraction.", 4:"CMIP6[C4MIP]" }, 
    1353 { "id":1350, 0:"nLand",  1:"Total nitrogen in all terrestrial nitrogen pools including mineral N", 2:"total_land_nitrogen[-1.0]", 3:"Report missing data over ocean grid cells. For fractional land report value averaged over the land fraction.", 4:"CMIP6[C4MIP]" }, 
    1354 { "id":1351, 0:"nLeaf",  1:"Nitrogen Mass in Leaves", 2:"leaf_nitrogen_content[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1355 { "id":1352, 0:"nStem",  1:"Nitrogen Mass in Stem", 2:"stem_nitrogen_content[-1.0]", 3:"including sapwood and hardwood.", 4:"CMIP6[C4MIP]" }, 
    1356 { "id":1353, 0:"nRoot",  1:"Nitrogen Mass in Roots", 2:"root_nitrogen_content[-1.0]", 3:"including fine and coarse roots.", 4:"CMIP6[C4MIP]" }, 
    1357 { "id":1354, 0:"nOther",  1:"Nitrogen mass in vegetation components other than leaves, stem and root", 2:"other_vegegtation_components_nitrogen_content[-1.0]", 3:"E.g. fruits, seeds, etc.", 4:"CMIP6[C4MIP]" }, 
    1358 { "id":1355, 0:"nLitterCwd",  1:"Nitrogen Mass in Coarse Woody Debris", 2:"litter_wood_debris_nitrogen_content[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1359 { "id":1356, 0:"nLitterFine",  1:"Nitrogen Mass in fine litter (non CWD)", 2:"fine_litter_nitrogen_content[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1360 { "id":1357, 0:"nMineral",  1:"Mineral nitrogen in the soil", 2:"mineral_soil_nitrogen_content[-1.0]", 3:"SUM of ammonium, nitrite, nitrate, etc over all soil layers", 4:"CMIP6[C4MIP]" }, 
    1361 { "id":1358, 0:"nMineralNH4",  1:"Mineral ammonium in the soil", 2:"mineral_nh4_soil_nitrogen_content[-1.0]", 3:"SUM of ammonium over all soil layers", 4:"CMIP6[C4MIP]" }, 
    1362 { "id":1359, 0:"nMineralNO3",  1:"Mineral nitrate in the soil", 2:"mineral_no3_soil_nitrogen_content[-1.0]", 3:"SUM of nitrate over all soil layers", 4:"CMIP6[C4MIP]" }, 
    1363 { "id":1360, 0:"",  1:"", 2:"Land - Other biogeochemical quantities - fluxes[]", 3:"", 4:"CMIP6[]" }, 
    1364 { "id":1361, 0:"wetlandCH4",  1:"Grid averaged methane emissions from wetlands", 2:"wetland_methane_emissions[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1365 { "id":1362, 0:"waterDpth",  1:"Water table depth from surface.", 2:"water_table_depth[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1366 { "id":1363, 0:"gpp_c14",  1:"Mass Flux of 14C out of Atmosphere due to Gross Primary Production on Land", 2:"gross_primary_productivity_of_c14[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1367 { "id":1364, 0:"ra_c14",  1:"Mass Flux of 14C into Atmosphere due to Autotrophic (Plant) Respiration on Land", 2:"plant_respiration_c14_flux[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1368 { "id":1365, 0:"rh_c14",  1:"Mass Flux of 14C into Atmosphere due to Heterotrophic Respiration on Land", 2:"heterotrophic_respiration_c14_flux[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1369 { "id":1366, 0:"netAtmosLandC14Flux",  1:"Net Mass Flux of 14C between atmosphere and land (positive into land) as a result of all processes.", 2:"net_atmos_to_land_C14_flux[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1370 { "id":1367, 0:"gpp_c13",  1:"Mass Flux of 13C out of Atmosphere due to Gross Primary Production on Land", 2:"gross_primary_productivity_of_c13[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1371 { "id":1368, 0:"ra_c13",  1:"Mass Flux of 13C into Atmosphere due to Autotrophic (Plant) Respiration on Land", 2:"plant_respiration_c13_flux[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1372 { "id":1369, 0:"rh_c13",  1:"Mass Flux of 13C into Atmosphere due to Heterotrophic Respiration on Land", 2:"heterotrophic_respiration_c13_flux[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1373 { "id":1370, 0:"netAtmosLandC13Flux",  1:"Net Mass Flux of 13C between atmosphere and land (positive into land) as a result of all processes.", 2:"net_atmos_to_land_C13_flux[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1374 { "id":1371, 0:"fNleach",  1:"Total N loss to leaching or runoff (including ammonium, nitrite and nitrate)", 2:"land_nitrogen_lost_to_leaching[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1375 { "id":1372, 0:"fNgas",  1:"Total N lost to the atmosphere (including NHx, NOx, N2O, N2) from all processes including fire.", 2:"land_nitrogen_lost_to_atmosphere[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1376 { "id":1373, 0:"fNloss",  1:"Total N lost (including NHx, NOx, N2O, N2 and leaching)", 2:"land_nitrogen_lost[-1.0]", 3:"Not all models split losses into gasesous and leaching", 4:"CMIP6[C4MIP]" }, 
    1377 { "id":1374, 0:"fN2O",  1:"Total land N2O flux ", 2:"land_net_n2o_flux[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1378 { "id":1375, 0:"fNOx",  1:"Total land NOx flux ", 2:"land_net_nox_flux[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1379 { "id":1376, 0:"fNdep",  1:"dry and wet deposition of  reactive nitrogen onto land", 2:"deposition_of_nitrogen_onto_land[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1380 { "id":1377, 0:"fBNF",  1:"biological nitrogen fixation", 2:"biological_nitrogen_fixation[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1381 { "id":1378, 0:"fNup",  1:"total plant nitrogen uptake (sum of ammonium and nitrate), irrespective of the source of nitrogen", 2:"plant_nitrogen_uptake[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1382 { "id":1379, 0:"fNnetmin",  1:"Net nitrogen release from soil and litter as the outcome of nitrogen immobilisation and gross mineralisation", 2:"net_nitrogen_mineralisation[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1383 { "id":1380, 0:"fNVegLitter",  1:"Total Nitrogen Mass Flux from Vegetation to Litter", 2:"litter_nitrogen_flux[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1384 { "id":1381, 0:"fNLitterSoil",  1:"Total Nitrogen Mass Flux from Litter to Soil", 2:"nitrogen_mass_flux_into_soil_from_litter[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1385 { "id":1382, 0:"fNVegSoil",  1:"Total Nitrogen Mass Flux from Vegetation Directly to Soil", 2:"nitrogen_mass_flux_into_soil_from_vegetation_excluding_litter[-1.0]", 3:"In some models part of nitrogen (e.g., root exudate) can go directly into the soil pool without entering litter.", 4:"CMIP6[C4MIP]" }, 
    1386 { "id":1383, 0:"fNProduct",  1:"Deforested or harvested biomass as a result of anthropogenic land use or change", 2:"nitrogen_mass_flux_to_product_pool_due_to_anthorpogenic_activity[-1.0]", 3:"When land use change results in deforestation of natural vegetation (trees or grasslands) then natural biomass is removed. The treatment of deforested biomass differs significantly across models, but it shoule be straight-forward to compare deforested biomass across models.", 4:"CMIP6[C4MIP]" }, 
    1387 { "id":1384, 0:"fNLandToOcean",  1:"Lateral transfer of nitrogen out of gridcell that eventually goes into ocean", 2:"nitrogen_mass_flux_into_ocean_from_rivers[-1.0]", 3:"leached nitrogen etc that goes into run off or river routing and finds its way into ocean should be reported here. ", 4:"CMIP6[C4MIP]" }, 
    1388 { "id":1385, 0:"",  1:"", 2:"[]", 3:"", 4:"CMIP6[]" }, 
    1389 { "id":1386, 0:"",  1:"", 2:"Ocean biogeochemistry[]", 3:"", 4:"CMIP6[]" }, 
    1390 { "id":1387, 0:"Short name",  1:"Long Name", 2:"CF standard_name[-1.0]", 3:"description/comments", 4:"CMIP6[C4MIP]" }, 
    1391 { "id":1388, 0:"o2sat!",  1:"Dissolved Oxygen Concentration at Saturation", 2:"mole_concentration_of_molecular_oxygen_in_sea_water_at_saturation[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1392 { "id":1389, 0:"dissicnat!",  1:"Natural Concentration of Inogranic Carbon", 2:"mole_concentration_of_dissolved_inorganic_carbon_in_sea_water_natural_component[-1.0]", 3:"Dissolved inorganic carbon (CO3+HCO3+H2CO3) concentration at preindustrial atmospheric xCO2", 4:"CMIP6[C4MIP]" }, 
    1393 { "id":1390, 0:"talknat!",  1:"Natural Total Alkalinity", 2:"sea_water_alkalinity_expressed_as_mole_equivalent_natural_component[-1.0]", 3:"total alkalinity equivalent concentration (including carbonate, nitrogen, silicate, and borate components) at preindustrial atmospheric xCO2", 4:"CMIP6[C4MIP]" }, 
    1394 { "id":1391, 0:"dissi14c!",  1:"Concentration of DI14C", 2:"mole_concentration_of_dissolved_inorganic_c14_in_sea_water[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1395 { "id":1392, 0:"dissi13c!",  1:"Concentration of DI13C", 2:"mole_concentration_of_dissolved_inorganic_c13_in_sea_water[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1396 { "id":1393, 0:"",  1:"", 2:"[]", 3:"", 4:"CMIP6[]" }, 
    1397 { "id":1394, 0:"intpbn",  1:"Nitrogen Production", 2:"tendency_of_ocean_mole_content_of_nitrogen_due_to_biological_production[-1.0]", 3:"Vertically integrated biogenic nitrogen production", 4:"CMIP6[C4MIP]" }, 
    1398 { "id":1395, 0:"intpbp",  1:"Phosphorus Production", 2:"tendency_of_ocean_mole_content_of_phosphorus_due_to_biological_production[-1.0]", 3:"Vertically integrated biogenic phosphorus production", 4:"CMIP6[C4MIP]" }, 
    1399 { "id":1396, 0:"epn100",  1:"Downward Flux of Particulate Nitrogen", 2:"sinking_mole_flux_of_particulate_nitrogen_in_sea_water[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1400 { "id":1397, 0:"epp100",  1:"Downward Flux of Particulate Phosphorus", 2:"sinking_mole_flux_of_particulate_phosphorus_in_sea_water[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1401 { "id":1398, 0:"o2sat!",  1:"Dissolved Oxygen Concentration at Saturation", 2:"mole_concentration_of_molecular_oxygen_in_sea_water_at_saturation[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1402 { "id":1399, 0:"cfc12",  1:"Moles Per Unit Mass of CFC12 in Sea Water ", 2:"moles_of_cfc12_per_unit_mass_in_sea_water[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1403 { "id":1400, 0:"sf6",  1:"Moles Per Unit Mass of SF6 in Sea Water ", 2:"moles_of_sf6_per_unit_mass_in_sea_water[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1404 { "id":1401, 0:"icfriver",  1:"Flux of Inorganic Carbon Into Ocean Surface by Runoff", 2:"tendency_of_ocean_mole_content_of_inorganic_carbon_due_to_runoff_and_sediment_dissolution[-1.0]", 3:"Inorganic Carbon supply to ocean through runoff (separate from gas exchange)", 4:"CMIP6[C4MIP]" }, 
    1405 { "id":1402, 0:"fric",  1:"Downward Inorganic Carbon Flux at Ocean Bottom", 2:"tendency_of_ocean_mole_content_of_inorganic_carbon_due_to_sedimentation[-1.0]", 3:"Inorganic Carbon loss to sediments", 4:"CMIP6[C4MIP]" }, 
    1406 { "id":1403, 0:"ocfriver",  1:"Flux of Organic Carbon Into Ocean Surface by Runoff", 2:"tendency_of_ocean_mole_content_of_organic_carbon_due_to_runoff_and_sediment_dissolution[-1.0]", 3:"Organic Carbon supply to ocean through runoff (separate from gas exchange)", 4:"CMIP6[C4MIP]" }, 
    1407 { "id":1404, 0:"froc",  1:"Downward Organic Carbon Flux at Ocean Bottom", 2:"tendency_of_ocean_mole_content_of_organic_carbon_due_to_sedimentation[-1.0]", 3:"Organic Carbon loss to sediments", 4:"CMIP6[C4MIP]" }, 
    1408 { "id":1405, 0:"limndiat",  1:"Nitrogen limitation of Diatoms", 2:"nitrogen_limitation_of_diatoms[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1409 { "id":1406, 0:"limndiaz",  1:"Nitrogen limitation of Diazotrophs", 2:"nitrogen_limitation_of_diazotrophs[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1410 { "id":1407, 0:"limncalc",  1:"Nitrogen limitation of Calcareous Phytoplankton", 2:"nitrogen_limitation_of_calcareous_phytoplankton[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1411 { "id":1408, 0:"limnpico",  1:"Nitrogen limitation of Picophytoplankton", 2:"nitrogen_limitation_of_picophytoplankton[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1412 { "id":1409, 0:"limnmisc",  1:"Nitrogen Limitation of Other Phytoplankton", 2:"nitrogen_limitation_of_miscellaneous_phytoplankton[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1413 { "id":1410, 0:"limirrdiat",  1:"Irradiance limitation of Diatoms", 2:"irradiance_limitation_of_diatoms[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1414 { "id":1411, 0:"limirrdiaz",  1:"Irradiance limitation of Diazotrophs", 2:"irradiance_limitation_of_diazotrophs[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1415 { "id":1412, 0:"limirrcalc",  1:"Irradiance limitation of Calcareous Phytoplankton", 2:"irradiance_limitation_of_calcareous_phytoplankton[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1416 { "id":1413, 0:"limirrpico",  1:"Irradiance limitation of Picophytoplankton", 2:"irradiance_limitation_of_picophytoplankton[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1417 { "id":1414, 0:"limirrmisc",  1:"Irradiance Limitation of Other Phytoplankton", 2:"irradiance_limitation_of_miscellaneous_phytoplankton[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1418 { "id":1415, 0:"limfediat",  1:"Iron limitation of Diatoms", 2:"iron_limitation_of_diatoms[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1419 { "id":1416, 0:"limfediaz",  1:"Iron limitation of Diazotrophs", 2:"iron_limitation_of_diazotrophs[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1420 { "id":1417, 0:"limfecalc",  1:"Iron limitation of Calcareous Phytoplankton", 2:"iron_limitation_of_calcareous_phytoplankton[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1421 { "id":1418, 0:"limfepico",  1:"Iron limitation of Picophytoplankton", 2:"iron_limitation_of_picophytoplankton[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1422 { "id":1419, 0:"limfemisc",  1:"Iron Limitation of Other Phytoplankton", 2:"iron_limitation_of_miscellaneous_phytoplankton[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1423 { "id":1420, 0:"remoc",  1:"Remineralization of Organic Carbon", 2:"tendency_of_mole_concentration_of_organic matter_expressed_as_carbon_in_sea_water_due_to_remineralization[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1424 { "id":1421, 0:"intdoc",  1:"Dissolved Organic Carbon Content", 2:"ocean_mass_content_of_dissolved_organic_carbon[-1.0]", 3:"Vertically integrated DOC (explicit pools only)", 4:"CMIP6[C4MIP]" }, 
    1425 { "id":1422, 0:"intpoc",  1:"Particulate Organic Carbon Content", 2:"ocean_mass_content_of_particulate_organic_carbon[-1.0]", 3:"Vertically integrated POC", 4:"CMIP6[C4MIP]" }, 
    1426 { "id":1423, 0:"dissicnat!",  1:"Natural Concentration of Inogranic Carbon", 2:"mole_concentration_of_dissolved_inorganic_carbon_in_sea_water_natural_component[-1.0]", 3:"Dissolved inorganic carbon (CO3+HCO3+H2CO3) concentration at preindustrial atmospheric xCO2", 4:"CMIP6[C4MIP]" }, 
    1427 { "id":1424, 0:"talknat!",  1:"Natural Total Alkalinity", 2:"sea_water_alkalinity_expressed_as_mole_equivalent_natural_component[-1.0]", 3:"total alkalinity equivalent concentration (including carbonate, nitrogen, silicate, and borate components) at preindustrial atmospheric xCO2", 4:"CMIP6[C4MIP]" }, 
    1428 { "id":1425, 0:"dissi14c!",  1:"Concentration of DI14C", 2:"mole_concentration_of_dissolved_inorganic_c14_in_sea_water[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1429 { "id":1426, 0:"fg14co2",  1:"Total air-sea flux of 14CO2", 2:"air_sea_flux_of_14CO2[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1430 { "id":1427, 0:"dissi13c!",  1:"Concentration of DI13C", 2:"mole_concentration_of_dissolved_inorganic_c13_in_sea_water[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1431 { "id":1428, 0:"fg13co2",  1:"Total air-sea flux of 13CO2", 2:"air_sea_flux_of_13CO2[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1432 { "id":1429, 0:"fgcfc12",  1:"Total air-sea flux of CFC-12", 2:"air_sea_flux_of_CFC12[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1433 { "id":1430, 0:"fgsf6",  1:"Total air-sea flux of SF6", 2:"air_sea_flux_of_SF6[-1.0]", 3:"", 4:"CMIP6[C4MIP]" }, 
    1434 { "id":1431, 0:"",  1:"", 2:"[]", 3:"", 4:"CMIP6[]" }, 
    1435 { "id":1432, 0:"chlos",  1:"Sea Surface Total Chlorophyll Mass Concentration", 2:"surface_mass_concentration_of_phytoplankton_expressed_as_chlorophyll_in_sea_water[-1.0]", 3:"sum of chlorophyll from all phytoplankton group concentrations at the sea surface.  In most models this is equal to chldiat+chlmisc, that is the sum of 'Diatom Chlorophyll Mass Concentration' plus 'Other Phytoplankton Chlorophyll Mass Concentration'", 4:"CMIP6[C4MIP]" }, 
    1436 { "id":1433, 0:"phycos",  1:"Sea Surface Phytoplankton Nitrogen Concentration", 2:"surface_mole_concentration_of_phytoplankton_expressed_as_carbon_in_sea_water[-1.0]", 3:"sum of phytoplankton carbon component concentrations at the sea surface", 4:"CMIP6[C4MIP]" }, 
    1437 { "id":1434, 0:"prdmax",  1:" Maximum Daily Precipitation", 2:"surface_mole_concentration_of_phytoplankton_expressed_as_carbon_in_sea_water[-1.0]", 3:"for example, monthly maximum of daily total precipitation", 4:"CMIP6[DCPP]" }, 
    1438 { "id":1435, 0:"salb",  1:"Surface Albedo", 2:"surface_mole_concentration_of_phytoplankton_expressed_as_carbon_in_sea_water[-1.0]", 3:"this can be defined over the globe, or over land only", 4:"CMIP6[DCPP]" }, 
    1439 { "id":1436, 0:"",  1:"", 2:"[]", 3:"", 4:"CMIP6[]" }, 
    1440 { "id":1437, 0:"slnorth",  1:"Northward Ocean Salt Transport", 2:"[]", 3:"function of latitude, longitude", 4:"CMIP6[DCPP]" }, 
    1441 { "id":1438, 0:"slbasin",  1:"Northward Ocean Salt Transport", 2:"[]", 3:"function of latitude, basin", 4:"CMIP6[DCPP]" }, 
    1442 { "id":1439, 0:"utendogw",  1:"u-tendency orographic gravity wave drag", 2:"[]", 3:"Acceleration of the eastward wind by parameterized orographic gravity waves. ", 4:"CMIP6[DynVar]" }, 
    1443 { "id":1440, 0:"utendnogw",  1:"u-tendency nonorographic gravity wave drag", 2:"[]", 3:"Acceleration of the eastward wind by parameterized nonorographic gravity waves.  ", 4:"CMIP6[DynVar]" }, 
    1444 { "id":1441, 0:"vtendogw",  1:"v-tendency orographic gravity wave drag", 2:"tendency_of_northward_wind_due_to_orographic_gravity_wave_drag[-1.0]", 3:"Acceleration of the northward wind by parameterized orographic gravity waves.  (Note that CF name tables only have a general northward tendency for all gravity waves, and we need it separated by type.)", 4:"CMIP6[DynVar]" }, 
    1445 { "id":1442, 0:"vtendnogw",  1:"v-tendency nonorographic gravity wave drag", 2:"tendency_of_northward_wind_due_to_nonorographic_gravity_wave_drag[-1.0]", 3:"Acceleration of the northward wind by parameterized nonorographic gravity waves.  (Note that CF name tables only have a general northward tendency for all gravity waves, and we need it separated by type.)", 4:"CMIP6[DynVar]" }, 
    1446 { "id":1443, 0:"tauu_pbl",  1:"eastward surface stress from planetary boundary layer scheme", 2:"surface_downward_eastward_stress_due_to_planetary_boundary_layer[-1.0]", 3:"The  downward eastward stress associated with the models parameterization of the plantary boundary layer. (This request is related to a WGNE effort to understand how models parameterize the surface stresses.)", 4:"CMIP6[DynVar]" }, 
    1447 { "id":1444, 0:"tauv_pbl",  1:"northward surface stress from planetary boundary layer scheme", 2:"surface_downward_northward_stress_due_to_planetary_boundary_layer[-1.0]", 3:"The  downward northward stress associated with the models parameterization of the plantary boundary layer. (This request is related to a WGNE effort to understand how models parameterize the surface stresses.)", 4:"CMIP6[DynVar]" }, 
    1448 { "id":1445, 0:"tntogw",  1:"temperature tendency orographic gravity wave dissipation", 2:"temperature_tendency_due_to_dissipation_orographic_gravity_wave_drag[-1.0]", 3:"Temeprature tendency due to dissipation of parameterized orographic gravity waves.", 4:"CMIP6[DynVar]" }, 
    1449 { "id":1446, 0:"tntnogw",  1:"temperature tendency nonorographic gravity wave dissipation", 2:"temperature_tendency_due_to_dissipation_nonorographic_gravity_wave_drag[-1.0]", 3:"Temeprature tendency due to dissipation of parameterized nonorographic gravity waves.", 4:"CMIP6[DynVar]" }, 
    1450 { "id":1447, 0:"utenddivf",  1:"u tendency due to Eliassen Palm flux divergence", 2:"temperature_tendency_due_to_dissipation_nonorographic_gravity_wave_drag[-1.0]", 3:"This variable exist in CCMI tables as acceldivf, but we think it would be better to list all zonal wind accelerations as 'utend', for consistency.  ", 4:"CMIP6[DynVar]" }, 
    1451 { "id":1448, 0:"#table 2.9",  1:"", 2:"[0.0]", 3:"", 4:"CMIP6[FAFMIP]" }, 
    1452 { "id":1449, 0:"opottemptend",  1:"", 2:"tendency_of_sea_water_potential_temperature_expressed_as_heat_content[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }, 
    1453 { "id":1450, 0:"opottempadvect",  1:"", 2:"tendency_of_sea_water_potential_temperature_expressed_as_heat_content_due_to_advection[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }, 
    1454 { "id":1451, 0:"opottempeadvect",  1:"", 2:"tendency_of_sea_water_potential_temperature_expressed_as_heat_content_due_to_parameterized_eddy_advection[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }, 
    1455 { "id":1452, 0:"opottemppmadvect",  1:"", 2:"tendency_of_sea_water_potential_temperature_expressed_as_heat_content_due_to_parameterized_mesoscale_advection[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }, 
    1456 { "id":1453, 0:"opottemppmdiff",  1:"", 2:"tendency_of_sea_water_potential_temperature_expressed_as_heat_content_due_to_parameterized_mesoscale_diffusion[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }, 
    1457 { "id":1454, 0:"opottemppsmadvect",  1:"", 2:"tendency_of_sea_water_potential_temperature_expressed_as_heat_content_due_to_parameterized_submesoscale_advection[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }, 
    1458 { "id":1455, 0:"opottempdiff",  1:"", 2:"tendency_of_sea_water_potential_temperature_expressed_as_heat_content_due_to_parameterized_dianeutral_mixing[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }, 
    1459 { "id":1456, 0:"ocontemptend",  1:"", 2:"tendency_of_sea_water_conservative_temperature_expressed_as_heat_content[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }, 
    1460 { "id":1457, 0:"ocontempadvect",  1:"", 2:"tendency_of_sea_water_conservative_temperature_expressed_as_heat_content_due_to_advection[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }, 
    1461 { "id":1458, 0:"ocontemppmadvect",  1:"", 2:"tendency_of_sea_water_conservative_temperature_expressed_as_heat_content_due_to_parameterized_mesoscale_advection[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }, 
    1462 { "id":1459, 0:"ocontempeadvect",  1:"", 2:"tendency_of_sea_water_conservative_temperature_expressed_as_heat_content_due_to_parameterized_eddy_advection[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }, 
    1463 { "id":1460, 0:"ocontemppmdiff",  1:"", 2:"tendency_of_sea_water_conservative_temperature_expressed_as_heat_content_due_to_parameterized_mesoscale_diffusion[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }, 
    1464 { "id":1461, 0:"ocontemppsmadvect",  1:"", 2:"tendency_of_sea_water_conservative_temperature_expressed_as_heat_content_due_to_parameterized_submesoscale_advection[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }, 
    1465 { "id":1462, 0:"ocontempdiff",  1:"", 2:"tendency_of_sea_water_conservative_temperature_expressed_as_heat_content_due_to_parameterized_dianeutral_mixing[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }, 
    1466 { "id":1463, 0:"osalttend",  1:"", 2:"tendency_of_sea_water_salinity_expressed_as_salt_content[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }, 
    1467 { "id":1464, 0:"osaltadvect",  1:"", 2:"tendency_of_sea_water_salinity_expressed_as_salt_content_due_to_advection[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }, 
    1468 { "id":1465, 0:"osaltpadvect",  1:"", 2:"tendency_of_sea_water_salinity_expressed_as_salt_content_due_to_parameterized_eddy_advection[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }, 
    1469 { "id":1466, 0:"osaltpmadvect",  1:"", 2:"tendency_of_sea_water_salinity_expressed_as_salt_content_due_to_parameterized_mesoscale_advection[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }, 
    1470 { "id":1467, 0:"osaltpmdiff",  1:"", 2:"tendency_of_sea_water_salinity_expressed_as_salt_content_due_to_parameterized_mesoscale_diffusion[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }, 
    1471 { "id":1468, 0:"osaltpsmadvect",  1:"", 2:"tendency_of_sea_water_salinity_expressed_as_salt_content_due_to_parameterized_submesoscale_advection[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }, 
    1472 { "id":1469, 0:"osaltdiff",  1:"", 2:"tendency_of_sea_water_salinity_expressed_as_salt_content_due_to_parameterized_dianeutral_mixing[-1.0]", 3:"Level 2: priority unclear", 4:"CMIP6[FAFMIP]" }, 
    1473 { "id":1470, 0:"#table 2.2",  1:"", 2:"[0.0]", 3:"", 4:"CMIP6[FAFMIP]" }, 
    1474 { "id":1471, 0:"somint",  1:"", 2:"integral_wrt_depth_of_product_of_sea_water_density_and_salinity[-1.0]", 3:"[units kg/m2 * (1.e-3) - units or value scaled?]", 4:"CMIP6[FAFMIP]" }, 
    1475 { "id":1472, 0:"opottempmint",  1:"", 2:"integral_wrt_depth_of_product_of_sea_water_density_and_potential_temperature[-1.0]", 3:"", 4:"CMIP6[FAFMIP]" }, 
    1476 { "id":1473, 0:"ocontempmint",  1:"", 2:"integral_wrt_depth_of_product_of_sea_water_density_and_conservative_temperature[-1.0]", 3:"", 4:"CMIP6[FAFMIP]" }, 
    1477 { "id":1474, 0:"pathetao",  1:"", 2:"sea_water_additional_potential_temperature[-1.0]", 3:"", 4:"CMIP6[FAFMIP]" }, 
    1478 { "id":1475, 0:"prthetao",  1:"", 2:"sea_water_redistributed_potential_temperature[-1.0]", 3:"", 4:"CMIP6[FAFMIP]" }, 
    1479 { "id":1476, 0:"surfWindmax",  1:"Maximum near surface wind speed", 2:"[0.0]", 3:"Maximum sampled every timestep over each 6hr period", 4:"CMIP6[HighResMIP]" }, 
    1480 { "id":1477, 0:"uqint",  1:"integrated_eastward_wind_times_humidity", 2:"[0.0]", 3:"Column integrated eastward wind times specific humidity", 4:"CMIP6[HighResMIP]" }, 
    1481 { "id":1478, 0:"vqint",  1:"integrated_northward_wind_times_humidity", 2:"[0.0]", 3:"Column integrated northward wind times specific humidity", 4:"CMIP6[HighResMIP]" }, 
    1482 { "id":1479, 0:"qint",  1:"integrated_moisture", 2:"[0.0]", 3:"Column integrated specific humidity", 4:"CMIP6[HighResMIP]" }, 
    1483 { "id":1480, 0:"epmflux",  1:"eliassen_palm_merid_flux", 2:"[0.0]", 3:"Eliassen-Palm meridional flux, zonal mean over 36 pressure levels plev36", 4:"CMIP6[HighResMIP]" }, 
    1484 { "id":1481, 0:"epvflux",  1:"eliassen_palm_vertical_flux", 2:"[0.0]", 3:"Eliassen-Palm vertical flux, zonal mean over plev36", 4:"CMIP6[HighResMIP]" }, 
    1485 { "id":1482, 0:"epfluxdiv",  1:"eliassen_palm_flux_divergence", 2:"[0.0]", 3:"Divergence of Eliassen-Palm flux, zonal mean over plev36", 4:"CMIP6[HighResMIP]" }, 
    1486 { "id":1483, 0:"vstarbar",  1:"residual_mean_merid_vstarbar", 2:"[0.0]", 3:"TEM residual mean meridional circulation vstarbar, zonal mean on plev36", 4:"CMIP6[HighResMIP]" }, 
    1487 { "id":1484, 0:"wstarbar",  1:"residual_mean_vert_wstarbar", 2:"[0.0]", 3:"TEM residual mean vertical circulation wstarbar, zonal mean on plev36", 4:"CMIP6[HighResMIP]" }, 
    1488 { "id":1485, 0:"wbptemp",  1:"wet_bulb_potential_temperature", 2:"wet_bulb_potential_temperature[-1.0]", 3:"Wet bulb potential temperature", 4:"CMIP6[HighResMIP]" }, 
    1489 { "id":1486, 0:"x_gwd_param",  1:"x_gravity_wave_drag_param", 2:"[0.0]", 3:"Parameterised x-component of gravity wave drag", 4:"CMIP6[HighResMIP]" }, 
    1490 { "id":1487, 0:"y_gwd_param",  1:"y_gravity_wave_drag_param", 2:"[0.0]", 3:"Parameterised y- component of gravity wave drag", 4:"CMIP6[HighResMIP]" }, 
    1491 { "id":1488, 0:"x_nonorog_gwd_param",  1:"x_gravity_wave_drag_param", 2:"[0.0]", 3:"Parameterised x-component of non-orographic gravity wave drag", 4:"CMIP6[HighResMIP]" }, 
    1492 { "id":1489, 0:"y_nonorog_gwd_param",  1:"y_gravity_wave_drag_param", 2:"[0.0]", 3:"Parameterised y- component of non-orogrpahic  gravity wave drag", 4:"CMIP6[HighResMIP]" }, 
    1493 { "id":1490, 0:"prcsh",  1:"shallow_conv_precipitation_flux", 2:"[0.0]", 3:"Convection precipitation from shallow convection", 4:"CMIP6[HighResMIP]" }, 
    1494 { "id":1491, 0:"vortmean",  1:"vorticity_mean_850_700", 2:"[0.0]", 3:"Mean vorticity over 850,700,600 hPa", 4:"CMIP6[HighResMIP]" }, 
    1495 { "id":1492, 0:"",  1:"", 2:"[]", 3:"", 4:"CMIP6[]" }, 
    1496 { "id":1493, 0:"u2",  1:"square_of_eastward_wind", 2:"[]", 3:"u*u", 4:"CMIP6[HighResMIP]" }, 
    1497 { "id":1494, 0:"v2",  1:"square_of_northwardwind", 2:"[]", 3:"v*v", 4:"CMIP6[HighResMIP]" }, 
    1498 { "id":1495, 0:"uv",  1:"eastward_wind_times_northward_wind", 2:"[0.0]", 3:"u*v", 4:"CMIP6[HighResMIP]" }, 
    1499 { "id":1496, 0:"wap2",  1:"square_of_omega", 2:"[0.0]", 3:"omega*omega", 4:"CMIP6[HighResMIP]" }, 
    1500 { "id":1497, 0:"t2",  1:"square_of_air_temperature", 2:"[0.0]", 3:"t*t", 4:"CMIP6[HighResMIP]" }, 
    1501 { "id":1498, 0:"uwap",  1:"eastward_wind_times_omega", 2:"[0.0]", 3:"u*omega", 4:"CMIP6[HighResMIP]" }, 
    1502 { "id":1499, 0:"vwap",  1:"northward_wind_times_omega", 2:"[0.0]", 3:"v*omega", 4:"CMIP6[HighResMIP]" }, 
    1503 { "id":1500, 0:"ut",  1:"air_temperature_times_eastward_wind", 2:"[0.0]", 3:"u*t", 4:"CMIP6[HighResMIP]" }, 
    1504 { "id":1501, 0:"vt",  1:"air_temperature_times_northward_wind", 2:"[0.0]", 3:"v*t", 4:"CMIP6[HighResMIP]" }, 
    1505 { "id":1502, 0:"twap",  1:"air_temperature_times_omega", 2:"[0.0]", 3:"omega*t", 4:"CMIP6[HighResMIP]" }, 
    1506 { "id":1503, 0:"bldep",  1:"boundary_layer_depth", 2:"[0.0]", 3:"Boundary layer depth", 4:"CMIP6[HighResMIP]" }, 
    1507 { "id":1504, 0:"cld_ice_mxrat",  1:"cloud_ice_mixing_ratio", 2:"[0.0]", 3:"Cloud ice mixing ratio", 4:"CMIP6[HighResMIP]" }, 
    1508 { "id":1505, 0:"cld_wat_mxrat",  1:"cloud_water_mixing_ratio", 2:"[0.0]", 3:"Cloud water mixing ratio", 4:"CMIP6[HighResMIP]" }, 
    1509 { "id":1506, 0:"rain_mxrat",  1:"rain_mixing_ratio", 2:"[0.0]", 3:"Rain mixing ratio", 4:"CMIP6[HighResMIP]" }, 
    1510 { "id":1507, 0:"snow_mxrat",  1:"snow_mixing_ratio", 2:"[0.0]", 3:"Snow mixing ratio", 4:"CMIP6[HighResMIP]" }, 
    1511 { "id":1508, 0:"grpl_mxrat",  1:"graupel_mixing_ratio", 2:"[0.0]", 3:"Graupel mixing ratio", 4:"CMIP6[HighResMIP]" }, 
    1512 { "id":1509, 0:"surf_albedo",  1:"surface_albedo", 2:"[0.0]", 3:"Surface albedo", 4:"CMIP6[HighResMIP]" }, 
    1513 { "id":1510, 0:"litempsn",  1:"Temperature at the interface between land ice and snow or firn", 2:"land_ice_temperature_at_snow_or_firn_base[-1.0]", 3:"Surface Temperature that is used to force ice sheet models. It does not vary with seasons. In some models it is the temperature at the base of the snow, and in other at the base of firn. Report surface temperature of ice sheet where snow or firn thickness is zero", 4:"CMIP6[ISMIP6]" }, 
    1514 { "id":1511, 0:"litempbot",  1:"Temperature at the basal interface of the land ice.", 2:"land_ice_basal_temperature[-1.0]", 3:"Basal temperature that is used to force the ice sheet models. Report temperature AT interface. Beneath ice shelves it is the temperature AT ice ocean interface. Beneath grounded ice, it is the temperature AT ice bedrock interface", 4:"CMIP6[ISMIP6]" }, 
    1515 { "id":1512, 0:"prra",  1:"Rainfall rate over land ice", 2:"land_ice_basal_temperature[-1.0]", 3:"mass of liquid precipitation falling onto land ice divided by grid cell area", 4:"CMIP6[ISMIP6]" }, 
    1516 { "id":1513, 0:"acabf",  1:"Surface Mass Balance flux", 2:"land_ice_basal_temperature[-1.0]", 3:"Specific mass balance means the net rate at which ice is added per unit area at the land ice surface. Computed as the total surface mass balance on the land ice portion of the grid cell divided by land ice area in the grid cell. A negative value means loss of ice", 4:"CMIP6[ISMIP6]" }, 
    1517 { "id":1514, 0:"acab",  1:"Surface mass balance", 2:"land_ice_basal_temperature[-1.0]", 3:"Surface mass balance that is used to force ice sheet models. Specific mass balance means the net rate at which ice is added at the land ice surface due to all processes of surface accumulation and ablation. A negative value means loss of ice. Computed as the total surface mass balance on the land portion of the grid cell.", 4:"CMIP6[ISMIP6]" }, 
    1518 { "id":1515, 0:"snicem",  1:"Surface snow and ice melt flux", 2:"land_ice_basal_temperature[-1.0]", 3:"Loss of snow and ice mass resulting from surface melting. Computed as the total surface melt on the land ice portion of the grid cell divided by land ice area in the grid cell.", 4:"CMIP6[ISMIP6]" }, 
    1519 { "id":1516, 0:"icem",  1:"Surface ice melt flux", 2:"surface_ice_melt_flux[-1.0]", 3:"Loss of ice mass resulting from surface melting. Computed as the total surface melt water on the land ice portion of the grid cell divided by land ice area in the grid cell.", 4:"CMIP6[ISMIP6]" }, 
    1520 { "id":1517, 0:"snicefreez",  1:"Surface snow and ice refreeze flux", 2:"surface_ice_melt_flux[-1.0]", 3:"Mass flux of surface meltwater which refreezes within the snow or firn. Computed as the total refreezing on the land ice portion of the grid cell divided by land ice area in the grid cell.", 4:"CMIP6[ISMIP6]" }, 
    1521 { "id":1518, 0:"licalv",  1:"Land ice calving rate", 2:"surface_ice_melt_flux[-1.0]", 3:"The land ice calving rate is the rate at which ice is lost per unit area through calving into the ocean.", 4:"CMIP6[ISMIP6]" }, 
    1522 { "id":1519, 0:"bwa",  1:"Basal water amount", 2:"land_ice_basal_water_amount OR water_amount_at_land_ice_base[-1.0]", 3:"The effective thickness of water beneath the glaciated grounded ice", 4:"CMIP6[ISMIP6]" }, 
    1523 { "id":1520, 0:"sftgrf",  1:"Grounded Ice area fraction", 2:"grounded_ice_area_fraction[-1.0]", 3:"Fraction of grid cell covered by grounded glaciated land", 4:"CMIP6[ISMIP6]" }, 
    1524 { "id":1521, 0:"lialb",  1:"Land ice or snow albedo", 2:"grounded_ice_area_fraction[-1.0]", 3:"Mean surface albedo of entire land ice covered part of the grid cell", 4:"CMIP6[ISMIP6]" }, 
    1525 { "id":1522, 0:"flandice",  1:"Water flux into Sea Water from Land Ice", 2:"water_flux_into_sea_water_from_land_ice[-1.0]", 3:"Computed as the water flux into the ocean due to land ice (runoff water from surface and base of land ice) into the ocean divided by the area ocean portion of the grid cell", 4:"CMIP6[ISMIP6]" }, 
    1526 { "id":1523, 0:"lithk",  1:"Ice Sheet Thickness", 2:"water_flux_into_sea_water_from_land_ice[-1.0]", 3:"The thickness of the ice sheet", 4:"CMIP6[ISMIP6]" }, 
    1527 { "id":1524, 0:"topg",  1:"Bedrock Altitude", 2:"water_flux_into_sea_water_from_land_ice[-1.0]", 3:"The bedrock topography beneath the land ice", 4:"CMIP6[ISMIP6]" }, 
    1528 { "id":1525, 0:"uvelsurf",  1:"X-component of land ice surface velocity", 2:"water_flux_into_sea_water_from_land_ice[-1.0]", 3:"u-velocity at land ice surface", 4:"CMIP6[ISMIP6]" }, 
    1529 { "id":1526, 0:"vvelsurf",  1:"Y-component of land ice surface velocity", 2:"water_flux_into_sea_water_from_land_ice[-1.0]", 3:"v-velocity at land ice surface", 4:"CMIP6[ISMIP6]" }, 
    1530 { "id":1527, 0:"wvelsurf",  1:"Z-component of land ice surface velocity", 2:"land_ice_z_velocity[-1.0]", 3:"w-velocity at land ice surface", 4:"CMIP6[ISMIP6]" }, 
    1531 { "id":1528, 0:"uvelbase",  1:"X-component of land ice basal velocity", 2:"land_ice_z_velocity[-1.0]", 3:"u-velocity at land ice base", 4:"CMIP6[ISMIP6]" }, 
    1532 { "id":1529, 0:"vvelbase",  1:"Y-component of land ice basal velocity", 2:"land_ice_z_velocity[-1.0]", 3:"v-velocity at land ice base", 4:"CMIP6[ISMIP6]" }, 
    1533 { "id":1530, 0:"wvelbase",  1:"Z-component of land ice basal velocity", 2:"land_ice_basal_z_velocity[-1.0]", 3:"w-velocity at land ice base", 4:"CMIP6[ISMIP6]" }, 
    1534 { "id":1531, 0:"uvelmean",  1:"X-component of land ice vertical mean velocity", 2:"land_ice_basal_z_velocity[-1.0]", 3:"The vertical mean land ice velocity is the average from the bedrock to the surface of the ice", 4:"CMIP6[ISMIP6]" }, 
    1535 { "id":1532, 0:"vvelmean",  1:"Y-component of land ice vertical mean velocity", 2:"land_ice_basal_z_velocity[-1.0]", 3:"The vertical mean land ice velocity is the average from the bedrock to the surface of the ice", 4:"CMIP6[ISMIP6]" }, 
    1536 { "id":1533, 0:"gismask",  1:"Grounded ice sheet area mask", 2:"grounded_ice_sheet_binary_mask[-1.0]", 3:"The binary mask is set to 1 where grounded ice sheet, 0 elsewhere", 4:"CMIP6[ISMIP6]" }, 
    1537 { "id":1534, 0:"fismask",  1:"Ice shelf area mask", 2:"floating_ice_shelf_binary_mask[-1.0]", 3:"The binary mask is set to 1 where ice shelves (land ice floating over sea), 0 elsewhere", 4:"CMIP6[ISMIP6]" }, 
    1538 { "id":1535, 0:"ivolgre",  1:"Greenland ice sheet volume", 2:"land_ice_volume[-1.0]", 3:"Total volume of the Greenland ice sheet", 4:"CMIP6[ISMIP6]" }, 
    1539 { "id":1536, 0:"ivolant",  1:"Antarctica  ice sheet volume", 2:"land_ice_volume[-1.0]", 3:"Total volume of the Antarctic ice sheet", 4:"CMIP6[ISMIP6]" }, 
    1540 { "id":1537, 0:"ivolfgre",  1:"Greenland grounded ice sheet volume above floatation", 2:"land_ice_volume_above_floatation[-1.0]", 3:"Total volume above floatation of the Greenland ice sheet.", 4:"CMIP6[ISMIP6]" }, 
    1541 { "id":1538, 0:"ivolfant",  1:"Antarctica grounded ice sheet volume above floatation", 2:"land_ice_volume_above_floatation[-1.0]", 3:"Total volume above floatation of the Antarctic ice sheet", 4:"CMIP6[ISMIP6]" }, 
    1542 { "id":1539, 0:"iareaggre",  1:"Greenland Area covered by grounded ice", 2:"land_ice_area_grounded[-1.0]", 3:"Total area of the grounded ice in Greenland", 4:"CMIP6[ISMIP6]" }, 
    1543 { "id":1540, 0:"iareagant",  1:"Antarctica Area covered by grounded ice", 2:"land_ice_area_grounded[-1.0]", 3:"Total area of the grounded ice in Antarctica", 4:"CMIP6[ISMIP6]" }, 
    1544 { "id":1541, 0:"iareafgre",  1:"Antarctica Area covered by floating ice shelves", 2:"land_ice_area_floating[-1.0]", 3:"Total area of the floating ice shelves of Antarctica", 4:"CMIP6[ISMIP6]" }, 
    1545 { "id":1542, 0:"swa",  1:"", 2:"land_ice_area_floating[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }, 
    1546 { "id":1543, 0:"cwa",  1:"", 2:"land_ice_area_floating[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }, 
    1547 { "id":1544, 0:"dsnw",  1:"", 2:"land_ice_area_floating[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }, 
    1548 { "id":1545, 0:"csn",  1:"", 2:"land_ice_area_floating[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }, 
    1549 { "id":1546, 0:"gsn",  1:"", 2:"downward_heat_flux_in_snow[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }, 
    1550 { "id":1547, 0:"gsl",  1:"", 2:"downward_heat_flux_in_snow[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }, 
    1551 { "id":1548, 0:"snr",  1:"", 2:"density_of_snow_layer[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }, 
    1552 { "id":1549, 0:"csnw",  1:"", 2:"canopy_snow_amount[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }, 
    1553 { "id":1550, 0:"dsn",  1:"", 2:"depth_of_snow_layer[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }, 
    1554 { "id":1551, 0:"ares",  1:"", 2:"aerodynamic_resistance[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }, 
    1555 { "id":1552, 0:"sfcalb",  1:"", 2:"aerodynamic_resistance[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }, 
    1556 { "id":1553, 0:"snwalb",  1:"", 2:"snow_albedo[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }, 
    1557 { "id":1554, 0:"dtesfc",  1:"", 2:"change_over_time_in_thermal_energy_content_of_surface[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }, 
    1558 { "id":1555, 0:"dtesnw",  1:"", 2:"change_over_time_in_thermal_energy_content_of_surface_snow[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }, 
    1559 { "id":1556, 0:"dwcsl",  1:"", 2:"change_over_time_in_water_content_of_soil_layer[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }, 
    1560 { "id":1557, 0:"dwsfc",  1:"", 2:"change_over_time_in_surface_water_amount[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }, 
    1561 { "id":1558, 0:"dwc",  1:"", 2:"change_over_time_in_canopy_water_amount[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }, 
    1562 { "id":1559, 0:"evsnw",  1:"", 2:"water_evaporation_flux_from_surface_snow[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }, 
    1563 { "id":1560, 0:"dfue",  1:"", 2:"tendency_of_surface_energy_content_due_to_condensation[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }, 
    1564 { "id":1561, 0:"refre",  1:"", 2:"tendency_of_surface_energy_content_due_to_condensation[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }, 
    1565 { "id":1562, 0:"snwmelt",  1:"", 2:"tendency_of_surface_energy_content_due_to_condensation[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }, 
    1566 { "id":1563, 0:"smroot",  1:"", 2:"water_content_of_root_zone[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }, 
    1567 { "id":1564, 0:"tsnl",  1:"", 2:"temperature_in_snow_layer[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }, 
    1568 { "id":1565, 0:"sblnos",  1:"", 2:"sublimation_amount_assuming_no_snow[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }, 
    1569 { "id":1566, 0:"tc",  1:"", 2:"sublimation_amount_assuming_no_snow[-1.0]", 3:"", 4:"CMIP6[LS3MIP]" }, 
    1570 { "id":1567, 0:"Tiled variables",  1:"", 2:"[0.0]", 3:"spl = all vegetated (or bare soil) land that is not being used as cropland or pastureland. Secondary land refers to land harvested or abandoned (not managed anymore) during  control or subsequent numerical experiments or abandoned (Hurtt et all 2006 and 2011) ", 4:"CMIP6[LUMIP]" }, 
    1571 { "id":1568, 0:"Biogeochemical and ecological",  1:"", 2:"[0.0]", 3:"", 4:"CMIP6[LUMIP]" }, 
    1572 { "id":1569, 0:"gpp_crp",  1:"kg C m-2 s-1", 2:"gross_primary_land_productivity_of_carbon_cropland[-1.0]", 3:"gross primary productivity on cropland", 4:"CMIP6[LUMIP]" }, 
    1573 { "id":1570, 0:"ra_crp",  1:"kg C m-2 s-1", 2:"plant_respiration_carbon_flux_cropland[-1.0]", 3:"plant respiration on cropland", 4:"CMIP6[LUMIP]" }, 
    1574 { "id":1571, 0:"npp_crp",  1:"kg C m-2 s-1", 2:"net_primary_land_productivity_of_carbon_cropland[-1.0]", 3:"net primary productivity on cropland", 4:"CMIP6[LUMIP]" }, 
    1575 { "id":1572, 0:"cTotFire_crp",  1:"kg C m-2 s-1", 2:"total_fire_loss_of_carbon_cropland[-1.0]", 3:"total carbon loss from natural and managed fire on cropland, including deforestation fires", 4:"CMIP6[LUMIP]" }, 
    1576 { "id":1573, 0:"rh_crp",  1:"kg C m-2 s-1", 2:"heterotrophic_respiration_carbon_flux_cropland[-1.0]", 3:"soil heterotrophic respiration on cropland", 4:"CMIP6[LUMIP]" }, 
    1577 { "id":1574, 0:"necb_crp",  1:"kg C m-2 s-1", 2:"net_ecosystem_carbon_balance_cropland[-1.0]", 3:" net rate of C accumulation (or loss) on cropland", 4:"CMIP6[LUMIP]" }, 
    1578 { "id":1575, 0:"nwdFrac_crp",  1:"fraction", 2:"non_woody_vegetation_fraction_on_cropland[-1.0]", 3:"fraction of cropland tile that is non-woody vegetation ( e.g. herbaceous crops)", 4:"CMIP6[LUMIP]" }, 
    1579 { "id":1576, 0:"gpp_pst",  1:"kg C m-2 s-1", 2:"gross_primary_land_productivity_of_carbon_pastureland[-1.0]", 3:"gross primary productivity on pastureland", 4:"CMIP6[LUMIP]" }, 
    1580 { "id":1577, 0:"ra_pst",  1:"kg C m-2 s-1", 2:"plant_respiration_carbon_flux_pastureland[-1.0]", 3:"plant respiration on cropland", 4:"CMIP6[LUMIP]" }, 
    1581 { "id":1578, 0:"npp_pst",  1:"kg C m-2 s-1", 2:"net_primary_land_productivity_of_carbon_pastureland[-1.0]", 3:"net primary productivity on pastureland", 4:"CMIP6[LUMIP]" }, 
    1582 { "id":1579, 0:"cfire_pst",  1:"kg C m-2 s-1", 2:"[0.0]", 3:"carbon lost through fire on pastureland", 4:"CMIP6[LUMIP]" }, 
    1583 { "id":1580, 0:"rh_pst",  1:"kg C m-2 s-1", 2:"heterotrophic_respiration_carbon_flux_pastureland[-1.0]", 3:"soil heterotrophic respiration on pastureland", 4:"CMIP6[LUMIP]" }, 
    1584 { "id":1581, 0:"necb_pst",  1:"kg C m-2 s-1", 2:"net_ecosystem_carbon_balance_pastureland[-1.0]", 3:"net rate of C accumulation (or loss) on secondary and primary land", 4:"CMIP6[LUMIP]" }, 
    1585 { "id":1582, 0:"nwdFrac_pst",  1:"fraction", 2:"non_woody_vegetation_fraction_on_pastureland[-1.0]", 3:"fraction of pastureland tile occupied by non-woody vegetation ( e.g. herbaceous plan types )", 4:"CMIP6[LUMIP]" }, 
    1586 { "id":1583, 0:"gpp_spl",  1:"kg C m-2 s-1", 2:"gross_primary_land_productivity_of_carbon_secondary_and_primary_land[-1.0]", 3:"gross primary productivity on cropland", 4:"CMIP6[LUMIP]" }, 
    1587 { "id":1584, 0:"ra_spl",  1:"kg C m-2 s-1", 2:"plant_respiration_carbon_flux_secondary_and_primary_land[-1.0]", 3:"plant respiration on cropland", 4:"CMIP6[LUMIP]" }, 
    1588 { "id":1585, 0:"npp_spl",  1:"kg C m-2 s-1", 2:"net_primary_land_productivity_of_carbon_secondary_and_primary_land[-1.0]", 3:"net primary productivity on secondary and primary land", 4:"CMIP6[LUMIP]" }, 
    1589 { "id":1586, 0:"cfire_spl",  1:"kg C m-2 s-1", 2:"[0.0]", 3:"carbon lost through fire on secondary and primary land", 4:"CMIP6[LUMIP]" }, 
    1590 { "id":1587, 0:"rh_spl",  1:"kg C m-2 s-1", 2:"heterotrophic_respiration_carbon_flux_secondary_and_primary_land[-1.0]", 3:"soil heterotrophic respiration on secondary and primary land", 4:"CMIP6[LUMIP]" }, 
    1591 { "id":1588, 0:"necb_spl",  1:"kg C m-2 s-1", 2:"net_ecosystem_carbon_balance_secondary_and_primary_land[-1.0]", 3:"net rate of C accumulation (or loss) on secondary and primary land", 4:"CMIP6[LUMIP]" }, 
    1592 { "id":1589, 0:"nwdFrac_spl",  1:"fraction", 2:"non_woody_vegetation_fraction_on_secondary_and_primary_land[-1.0]", 3:"fraction of secondary and primary land occupied by non-woody vegetation ( e.g. herbeceous plant types)", 4:"CMIP6[LUMIP]" }, 
    1593 { "id":1590, 0:"Biogeophysical variables",  1:"", 2:"[0.0]", 3:"", 4:"CMIP6[LUMIP]" }, 
    1594 { "id":1591, 0:"tas crp",  1:"K", 2:"air_temperature_cropland[-1.0]", 3:"near-surface air temperature (2m above displacement height, i.e. t_ref) on cropland", 4:"CMIP6[LUMIP]" }, 
    1595 { "id":1592, 0:"tslsi_crp ",  1:"K", 2:"surface_temperature_cropland[-1.0]", 3:"surface 'skin' temperature on cropland", 4:"CMIP6[LUMIP]" }, 
    1596 { "id":1593, 0:"huss_crp ",  1:"kg H2O /kg air", 2:"specific_humidity_cropland[-1.0]", 3:"near-surface specific humidity on cropland", 4:"CMIP6[LUMIP]" }, 
    1597 { "id":1594, 0:"hfls_crp ",  1:"W m-2", 2:"surface_upward_latent_heat_flux_cropland[-1.0]", 3:"latent heat flux on cropland", 4:"CMIP6[LUMIP]" }, 
    1598 { "id":1595, 0:"hfss_crp",  1:"W m-2", 2:"surface_upward_sensible_heat_flux_cropland[-1.0]", 3:"sensible heat flux on cropland", 4:"CMIP6[LUMIP]" }, 
    1599 { "id":1596, 0:"rsus_crp ",  1:"W m-2", 2:"surface_upwelling_shortwave_flux_in_air_cropland[-1.0]", 3:"surface upwelling shortwave  on cropland", 4:"CMIP6[LUMIP]" }, 
    1600 { "id":1597, 0:"rlus_crp",  1:"W m-2", 2:"surface_upwelling_longwave_flux_in_air_cropland[-1.0]", 3:"surface upwelling longwave on cropland", 4:"CMIP6[LUMIP]" }, 
    1601 { "id":1598, 0:"swe_crp",  1:"m", 2:"snow_water_equivalent_cropland[-1.0]", 3:"snow water equivalent on cropland", 4:"CMIP6[LUMIP]" }, 
    1602 { "id":1599, 0:"lai_crp ",  1:"m2 of leaves/m2 of tile area", 2:"leaf_area_index_cropland[-1.0]", 3:"leaf area index on cropland", 4:"CMIP6[LUMIP]" }, 
    1603 { "id":1600, 0:"mrsos_crp",  1:"kg H2O  m-2", 2:"moisture_content_of_upper_soil_layer_cropland[-1.0]", 3:"Moisture in Upper Portion of Soil Column of cropland", 4:"CMIP6[LUMIP]" }, 
    1604 { "id":1601, 0:"mrro_crp",  1:"kg H2O m-2 s-1", 2:"runoff_flux_cropland[-1.0]", 3:"Total runoff from cropland ", 4:"CMIP6[LUMIP]" }, 
    1605 { "id":1602, 0:"mrso_crp",  1:"kg H2O  m-2", 2:"soil_moisture_content_cropland[-1.0]", 3:"Total soil moisture", 4:"CMIP6[LUMIP]" }, 
    1606 { "id":1603, 0:"mrs1m_crp",  1:"kg H2O  m-2", 2:"moisture_content_of_soil_1m_cropland[-1.0]", 3:"Moisture in top 1 meter of cropland soil column", 4:"CMIP6[LUMIP]" }, 
    1607 { "id":1604, 0:"irr_crop",  1:"kg H2O m-2 s-1", 2:"irrigation_cropland[-1.0]", 3:"cropland irrigation flux", 4:"CMIP6[LUMIP]" }, 
    1608 { "id":1605, 0:"tas_pst",  1:"K", 2:"air_temperature_pastureland[-1.0]", 3:"near-surface air temperature on pastureland", 4:"CMIP6[LUMIP]" }, 
    1609 { "id":1606, 0:"tslsi_pst",  1:"K", 2:"surface_temperature_pastureland[-1.0]", 3:"surface 'skin' temperature on pastureland", 4:"CMIP6[LUMIP]" }, 
    1610 { "id":1607, 0:"huss_pst ",  1:"kg H2O /kg air", 2:"specific_humidity_pastureland[-1.0]", 3:"near-surface specific humidity on pastureland", 4:"CMIP6[LUMIP]" }, 
    1611 { "id":1608, 0:"hfls_pst",  1:"W m-2", 2:"surface_upward_latent_heat_flux_pastureland[-1.0]", 3:"latent heat flux on pastureland", 4:"CMIP6[LUMIP]" }, 
    1612 { "id":1609, 0:"hfss_pst",  1:"W m-2", 2:"surface_upward_sensible_heat_flux_pastureland[-1.0]", 3:"sensible heat flux on pastureland", 4:"CMIP6[LUMIP]" }, 
    1613 { "id":1610, 0:"rsus_pst",  1:"W m-2", 2:"surface_upwelling_shortwave_flux_in_air_pastureland[-1.0]", 3:"surface upwelling shortwave  on pastureland", 4:"CMIP6[LUMIP]" }, 
    1614 { "id":1611, 0:"rlus_pst",  1:"W m-2", 2:"surface_upwelling_longwave_flux_in_air_pastureland[-1.0]", 3:"surface upwelling longwave on pastureland", 4:"CMIP6[LUMIP]" }, 
    1615 { "id":1612, 0:"swe_pst",  1:"m", 2:"snow_water_equivalent_pastureland[-1.0]", 3:"snow water equivalent on pastureland", 4:"CMIP6[LUMIP]" }, 
    1616 { "id":1613, 0:"lai_pst ",  1:"m2 of leaves/m2 of tile area", 2:"leaf_area_index_pastureland[-1.0]", 3:"leaf area index on pastureland", 4:"CMIP6[LUMIP]" }, 
    1617 { "id":1614, 0:"mrsos_pst",  1:"kg H2O  m-2", 2:"moisture_content_of_soil_layer_pastureland[-1.0]", 3:"Moisture in Upper Portion of soil column of pastureland", 4:"CMIP6[LUMIP]" }, 
    1618 { "id":1615, 0:"mrro_pst",  1:"kg H2O m-2 s-1", 2:"runoff_flux_pastureland[-1.0]", 3:"total runoff from pastureland", 4:"CMIP6[LUMIP]" }, 
    1619 { "id":1616, 0:"mrso_pst",  1:"kg H2O  m-2", 2:"soil_moisture_content_pasture[-1.0]", 3:"Total soil moisture on pastureland", 4:"CMIP6[LUMIP]" }, 
    1620 { "id":1617, 0:"mrs1m_pst",  1:"kg H2O  m-2", 2:"moisture_content_of_soil_1m_pastureland[-1.0]", 3:"Moisture in top 1 meter of pastureland soil column", 4:"CMIP6[LUMIP]" }, 
    1621 { "id":1618, 0:"tas_spl",  1:"K", 2:"air_temperature_secondary_and_primary_land[-1.0]", 3:"near-surface air temperature on secondary and primary land", 4:"CMIP6[LUMIP]" }, 
    1622 { "id":1619, 0:"tslsi_spl",  1:"K", 2:"surface_temperature_secondary_and_primary_land[-1.0]", 3:"surface 'skin' temperature on secondary and primary land", 4:"CMIP6[LUMIP]" }, 
    1623 { "id":1620, 0:"huss_spl ",  1:"kg H2O /kg air", 2:"specific_humidity_secondary_and_primary_land[-1.0]", 3:"near-surface specific humidity on secondary and primary land", 4:"CMIP6[LUMIP]" }, 
    1624 { "id":1621, 0:"hfls_spl",  1:"W m-2", 2:"surface_upward_latent_heat_flux_secondary_and_primary_land[-1.0]", 3:"latent heat flux on secondary and primary land", 4:"CMIP6[LUMIP]" }, 
    1625 { "id":1622, 0:"hfss_spl",  1:"W m-2", 2:"surface_upward_sensible_heat_flux_secondary_and_primary_land[-1.0]", 3:"sensible heat flux on secondary and primary land", 4:"CMIP6[LUMIP]" }, 
    1626 { "id":1623, 0:"rsus_spl",  1:"W m-2", 2:"surface_upwelling_shortwave_flux_in_air_secondary_and_primary_land[-1.0]", 3:"surface upwelling shortwave  on secondary and primary land", 4:"CMIP6[LUMIP]" }, 
    1627 { "id":1624, 0:"rlus_spl",  1:"W m-2", 2:"surface_upwelling_longwave_flux_in_air_secondary_and_primary_land[-1.0]", 3:"surface upwelling longwave on secondary and primary land", 4:"CMIP6[LUMIP]" }, 
    1628 { "id":1625, 0:"swe_spl",  1:"m", 2:"snow_water_equivalent_secondary_and_primary_land[-1.0]", 3:"snow water equivalent on secondary and primary land", 4:"CMIP6[LUMIP]" }, 
    1629 { "id":1626, 0:"lai_spl ",  1:"m2 of leaves/m2 of tile area", 2:"leaf_area_index_secondary_and_primary_land[-1.0]", 3:"leaf area index on secondary and primary land", 4:"CMIP6[LUMIP]" }, 
    1630 { "id":1627, 0:"mrsos_spl",  1:"kg H2O  m-2", 2:"leaf_area_index_secondary_and_primary_land[-1.0]", 3:"Moisture in Upper Portion of Soil Column of secondary and primary land", 4:"CMIP6[LUMIP]" }, 
    1631 { "id":1628, 0:"mrro_spl",  1:"kg H2O m-2 s-1", 2:"runoff_flux_secondary_and_primary_land[-1.0]", 3:"Total runoff from secondary and primary land", 4:"CMIP6[LUMIP]" }, 
    1632 { "id":1629, 0:"mrso_spl",  1:"kg H2O  m-2", 2:"soil_moisture_content_secondary_and_primary_land[-1.0]", 3:"Total soil moisture on secondary and primary land", 4:"CMIP6[LUMIP]" }, 
    1633 { "id":1630, 0:"mrs1m_spl",  1:"kg H2O  m-2", 2:"moisture_content_of_soil_1m_secondary_and_primary_land[-1.0]", 3:"Moisture in top 1 meter of Soil Column on secondary and primary land", 4:"CMIP6[LUMIP]" }, 
    1634 { "id":1631, 0:"tas_urb",  1:"K", 2:"air_temperature_urban[-1.0]", 3:"near-surface air temperature on urban", 4:"CMIP6[LUMIP]" }, 
    1635 { "id":1632, 0:"tslsi_urb",  1:"K", 2:"surface_temperature_urban[-1.0]", 3:"surface 'skin' temperature on urban", 4:"CMIP6[LUMIP]" }, 
    1636 { "id":1633, 0:"huss_urb",  1:"kg H2O /kg air", 2:"specific_humidity_urban[-1.0]", 3:"near-surface specific humidity on urban", 4:"CMIP6[LUMIP]" }, 
    1637 { "id":1634, 0:"hfls_urb",  1:"W m-2", 2:"surface_upward_latent_heat_flux_urban[-1.0]", 3:"latent heat flux on urban", 4:"CMIP6[LUMIP]" }, 
    1638 { "id":1635, 0:"hfss_urb",  1:"W m-2", 2:"surface_upward_sensible_heat_flux_urban[-1.0]", 3:"sensible heat flux on urban", 4:"CMIP6[LUMIP]" }, 
    1639 { "id":1636, 0:"rsus_urb",  1:"W m-2", 2:"surface_upwelling_shortwave_flux_in_air_urban[-1.0]", 3:"surface upwelling shortwave on urban", 4:"CMIP6[LUMIP]" }, 
    1640 { "id":1637, 0:"rlus_urb",  1:"W m-2", 2:"surface_upwelling_longwave_flux_in_air_urban[-1.0]", 3:"surface upwelling longwave on urban", 4:"CMIP6[LUMIP]" }, 
    1641 { "id":1638, 0:"swe_urb",  1:"m", 2:"snow_water_equivalent_urban[-1.0]", 3:"snow water equivalent on urban", 4:"CMIP6[LUMIP]" }, 
    1642 { "id":1639, 0:"lai_urb",  1:"m2 of leaves/m2 of tile area", 2:"[0.0]", 3:"leaf area index on urban", 4:"CMIP6[LUMIP]" }, 
    1643 { "id":1640, 0:"mrsos_urb",  1:"kg H2O  m-2", 2:"moisture_content_of_soil_layer_urban[-1.0]", 3:"Moisture in Upper Portion of Soil Column of urban", 4:"CMIP6[LUMIP]" }, 
    1644 { "id":1641, 0:"mrro_urb",  1:"kg H2O m-2 s-1", 2:"runoff_flux_uban[-1.0]", 3:"total runoff from urban tile", 4:"CMIP6[LUMIP]" }, 
    1645 { "id":1642, 0:"fah_urb",  1:"W m-2", 2:"anthropogenic_heat_flux_urban[-1.0]", 3:"Anthropogenic heat flux ", 4:"CMIP6[LUMIP]" }, 
    1646 { "id":1643, 0:"LULCC fluxes and carbon transfers",  1:"", 2:"[0.0]", 3:"", 4:"CMIP6[LUMIP]" }, 
    1647 { "id":1644, 0:"fHarvAnt_crp ",  1:"kg C m-2 s-1", 2:"harvested_carbon_into_anthropogenic_pool_cropland[-1.0]", 3:"carbon harvested on cropland that enters anthropogenic pools", 4:"CMIP6[LUMIP]" }, 
    1648 { "id":1645, 0:"fClAnt_crp ",  1:"kg C m-2 s-1", 2:"cleared_carbon_into_anthropogenic_pool_cropland[-1.0]", 3:"carbon from land clearing for cropland that enters anthropogenic pools", 4:"CMIP6[LUMIP]" }, 
    1649 { "id":1646, 0:"fHarvAnt_pst",  1:"kg C m-2 s-1", 2:"harvested_carbon_into_anthropogenic_pool_pastureland[-1.0]", 3:"carbon harvested on pastureland that entered anthropogenic pools", 4:"CMIP6[LUMIP]" }, 
    1650 { "id":1647, 0:"fClAnt_pst ",  1:"kg C m-2 s-1", 2:"cleared_carbon_into_anthropogenic_pool_pastureland[-1.0]", 3:"carbon from land clearing for pastureland that enters anthropogenic pools", 4:"CMIP6[LUMIP]" }, 
    1651 { "id":1648, 0:"fHarvAnt_spl",  1:"kg C m-2 s-1", 2:"harvested_carbon_into_anthropogenic_pool_secondary_and_primary_land[-1.0]", 3:"carbon from wood harvesting on secondary and primary land that enters anthropogenic pools", 4:"CMIP6[LUMIP]" }, 
    1652 { "id":1649, 0:"fClAnt_spl",  1:"kg C m-2 s-1", 2:"cleared_carbon_into_anthropogenic_pool_secondary_and_primary_land[-1.0]", 3:"carbon from land clearing on secondary and primary land that enters anthropogenic pools", 4:"CMIP6[LUMIP]" }, 
    1653 { "id":1650, 0:"fHarvAnt_urb",  1:"kg C m-2 s-1", 2:"harvested_carbon_into_anthropogenic_pool_urban[-1.0]", 3:"carbon from wood harvesting during urbanization", 4:"CMIP6[LUMIP]" }, 
    1654 { "id":1651, 0:"fClAnt_urb !",  1:"kg C m-2 s-1", 2:"cleared_carbon_into_anthropogenic_pool_urban[-1.0]", 3:"carbon from land clearing for urban area that enters anthropogenic pools", 4:"CMIP6[LUMIP]" }, 
    1655 { "id":1652, 0:"fHarvAtm_crp ",  1:"kg C m-2 s-1", 2:"harvested_carbon_into_atmosphere_cropland[-1.0]", 3:"carbon harvested on cropland that enters atmosphere", 4:"CMIP6[LUMIP]" }, 
    1656 { "id":1653, 0:"fClAtm_crp ",  1:"kg C m-2 s-1", 2:"cleared_carbon_into_atmosphere_cropland[-1.0]", 3:"carbon from land clearance for cropland that enters atmosphere", 4:"CMIP6[LUMIP]" }, 
    1657 { "id":1654, 0:"fHarvAtm_pst",  1:"kg C m-2 s-1", 2:"harvested_carbon_into_atmosphere_pastureland[-1.0]", 3:"carbon harvested on pastureland that enters atmosphere", 4:"CMIP6[LUMIP]" }, 
    1658 { "id":1655, 0:"fClAtm_pst ",  1:"kg C m-2 s-1", 2:"cleared_carbon_into_atmosphere_pastureland[-1.0]", 3:"carbon from land clearance for pastureland that enters atmosphere", 4:"CMIP6[LUMIP]" }, 
    1659 { "id":1656, 0:"fHarvAtm_spl",  1:"kg C m-2 s-1", 2:"harvested_carbon_into_atmopshere_secondary_and_primary_land[-1.0]", 3:"carbon from wood harvesting on secondary and primary land that directly enters atmosphere", 4:"CMIP6[LUMIP]" }, 
    1660 { "id":1657, 0:"fClAtm_spl",  1:"", 2:"cleared_carbon_into_atmosphere_secondary_and_primary_land[-1.0]", 3:"", 4:"CMIP6[LUMIP]" }, 
    1661 { "id":1658, 0:"fHarvAtm_urb",  1:"kg C m-2 s-1", 2:"harvested_carbon_into_anthropogenic_pool_urban[-1.0]", 3:"carbon from land clearance for urban area that enters atmosphere", 4:"CMIP6[LUMIP]" }, 
    1662 { "id":1659, 0:"fClAnt_urb !",  1:"kg C m-2 s-1", 2:"cleared_carbon_into_anthropogenic_pool_urban[-1.0]", 3:"carbon from land clearing for urban area that enters anthropogenic pools", 4:"CMIP6[LUMIP]" }, 
    1663 { "id":1660, 0:"fAntAtm_crp",  1:"flux from anthropogenic pools on cropland into atmosphere", 2:"flux_from anthropogenic_pool_into atmosphere_crop[-1.0]", 3:"If a model has separate anthropogenic pools by land use tile", 4:"CMIP6[LUMIP]" }, 
    1664 { "id":1661, 0:"fAntAtm_pst",  1:"kg C m-2 s-1", 2:"flux_from anthropogenic_pool_into atmosphere_pastureland[-1.0]", 3:"flux from anthropogenic pools on pastureland into atmosphere", 4:"CMIP6[LUMIP]" }, 
    1665 { "id":1662, 0:"fAntAtm_spl",  1:"kg C m-2 s-1", 2:"flux_from anthropogenic_pool_into atmosphere_secondary_and_primary_land[-1.0]", 3:"flux from anthropogenic pools on natural and secondary land into atmosphere", 4:"CMIP6[LUMIP]" }, 
    1666 { "id":1663, 0:"fAntAtm_urb",  1:"kg C m-2 s-1", 2:"flux_from anthropogenic_pool_into atmosphere_pastureland[-1.0]", 3:"flux from anthropogenic pools on urban into atmosphere", 4:"CMIP6[LUMIP]" }, 
    1667 { "id":1664, 0:"fAntAtm_total",  1:"kg C m-2 s-1", 2:"flux_from anthropogenic_pool_into atmosphere_pastureland[-1.0]", 3:"total flux from anthropogenic pools into atmosphere", 4:"CMIP6[LUMIP]" }, 
    1668 { "id":1665, 0:"fClRes_crp",  1:"kg C m-2 s-1", 2:"clearance_residue_cropland[-1.0]", 3:"carbon left as residue into litter or soil after clearance for cropland", 4:"CMIP6[LUMIP]" }, 
    1669 { "id":1666, 0:"fClRes_pst!",  1:"kg C m-2 s-1", 2:"clearance_residue_pastureland[-1.0]", 3:"carbon left as residue into litter or soil after clearance for pastureland", 4:"CMIP6[LUMIP]" }, 
    1670 { "id":1667, 0:"fClRes_pst!",  1:"kg C m-2 s-1", 2:"clearance_residue_secondary_and_primary_land[-1.0]", 3:"carbon left as residue into litter or soil after clearance for secondary land", 4:"CMIP6[LUMIP]" }, 
    1671 { "id":1668, 0:"fClRes_urb",  1:"kg C m-2 s-1", 2:"clearance_residue_urban[-1.0]", 3:"carbon left as residue into litter or soil after clearance", 4:"CMIP6[LUMIP]" }, 
    1672 { "id":1669, 0:"fHarvRes_crp",  1:"kg C m-2 s-1", 2:"harvested_residue_cropland[-1.0]", 3:"carbon after cropland harvesting that left as residue into litter or soil", 4:"CMIP6[LUMIP]" }, 
    1673 { "id":1670, 0:"fHarvRes_pst",  1:"kg C m-2 s-1", 2:"harvested_residue_pastureland[-1.0]", 3:"carbon after grazing that left as residue into litter or soil", 4:"CMIP6[LUMIP]" }, 
    1674 { "id":1671, 0:"fHarvRes_spl",  1:"kg C m-2 s-1", 2:"harvested_residue_secondary_and_primary_land[-1.0]", 3:"carbon after wood harvesting that left as residue into litter or soil", 4:"CMIP6[LUMIP]" }, 
    1675 { "id":1672, 0:"fHarvRes_urban",  1:"kg C m-2 s-1", 2:"harvested_residue_urban[-1.0]", 3:"carbon after wood harvesting that left as residue into litter or soil on urban tiles", 4:"CMIP6[LUMIP]" }, 
    1676 { "id":1673, 0:"fRes_total",  1:"kg C m-2 s-1", 2:"total_residue[-1.0]", 3:"harvesting and clearing residue into soil/litter", 4:"CMIP6[LUMIP]" }, 
    1677 { "id":1674, 0:"Carbon stocks",  1:"", 2:"[0.0]", 3:"", 4:"CMIP6[LUMIP]" }, 
    1678 { "id":1675, 0:"cSoil_crp",  1:"kg m-2", 2:"soil_carbon_content_cropland[-1.0]", 3:"carbon  in soil pool on croplands", 4:"CMIP6[LUMIP]" }, 
    1679 { "id":1676, 0:"cVeg_crp",  1:"kg m-2", 2:"vegetation_carbon_content_cropland[-1.0]", 3:"carbon in vegetation on croplands", 4:"CMIP6[LUMIP]" }, 
    1680 { "id":1677, 0:"cLitter_crp",  1:"kg m-2", 2:"litter_carbon_content_cropland[-1.0]", 3:"carbon  in above and belowground litter pools on croplands", 4:"CMIP6[LUMIP]" }, 
    1681 { "id":1678, 0:"cAnt_crp",  1:"kg m-2", 2:"carbon_in_anthropogenic_pools_on_cropland[-1.0]", 3:"anthropogenic pools associated with croplands", 4:"CMIP6[LUMIP]" }, 
    1682 { "id":1679, 0:"cSoil_pst",  1:"kg m-2", 2:"soil_carbon_content_pasture[-1.0]", 3:"carbon  in soil pool on pasturelands", 4:"CMIP6[LUMIP]" }, 
    1683 { "id":1680, 0:"cVeg_pst",  1:"kg m-2", 2:"vegetation_carbon_content_pasture[-1.0]", 3:"carbon in vegetation on pasturelands", 4:"CMIP6[LUMIP]" }, 
    1684 { "id":1681, 0:"cLitter_pst",  1:"kg m-2", 2:"litter_carbon_content_pasture[-1.0]", 3:"carbon  in above and belowground litter pools on pasturelands", 4:"CMIP6[LUMIP]" }, 
    1685 { "id":1682, 0:"cAnt_pst",  1:"kg m-2", 2:"carbon_in_anthropogenic_pools_on_cropland[-1.0]", 3:"anthropogenic pools on pasturelands", 4:"CMIP6[LUMIP]" }, 
    1686 { "id":1683, 0:"cSoil_spl",  1:"kg m-2", 2:"soil_carbon_content_secondary_and_primary_lands[-1.0]", 3:"carbon  in soil pools on secondary and primary lands", 4:"CMIP6[LUMIP]" }, 
    1687 { "id":1684, 0:"cVeg_spl",  1:"kg m-2", 2:"vegetation_carbon_content_secondary_and_primary_lands[-1.0]", 3:"carbon in vegetation on secondary and primary lands", 4:"CMIP6[LUMIP]" }, 
    1688 { "id":1685, 0:"cLitter_spl",  1:"kg m-2", 2:"litter_carbon_content_secondary_and_primary_lands[-1.0]", 3:"carbon  in above and belowground litter pools on secondary and primary lands", 4:"CMIP6[LUMIP]" }, 
    1689 { "id":1686, 0:"cAnt_spl",  1:"kg m-2", 2:"carbon_in_anthropogenic_pools_on_secondary_and_primary_lands[-1.0]", 3:"anthropogenic pools on secondary and primary tiles ", 4:"CMIP6[LUMIP]" }, 
    1690 { "id":1687, 0:"cSoil_urb",  1:"kg m-2", 2:"soil_carbon_content_urban[-1.0]", 3:"carbon  in soil pools on secondary and primary lands", 4:"CMIP6[LUMIP]" }, 
    1691 { "id":1688, 0:"cVeg_urb",  1:"kg m-2", 2:"vegetation_carbon_content_urban[-1.0]", 3:"carbon in vegetation on secondary and primary lands", 4:"CMIP6[LUMIP]" }, 
    1692 { "id":1689, 0:"cLitter_urb",  1:"kg m-2", 2:"litter_carbon_content_urban[-1.0]", 3:"carbon  in above and belowground litter pools on secondary and primary lands", 4:"CMIP6[LUMIP]" }, 
    1693 { "id":1690, 0:"cAnt_urb",  1:"kg m-2", 2:"carbon_in_anthropogenic_pools_urban[-1.0]", 3:"anthropogenic pools on urban tiles ", 4:"CMIP6[LUMIP]" }, 
    1694 { "id":1691, 0:"cAnt",  1:"kg m-2", 2:"carbon_in_anthropogenic_pools[-1.0]", 3:"Anthropogenic pools on croplands, pasturelands, urban and secondary and primary lands  ", 4:"CMIP6[LUMIP]" }, 
    1695 { "id":1692, 0:"LULCC fraction changes ",  1:"", 2:"LULCC fraction changes [-1.0]", 3:"", 4:"CMIP6[LUMIP]" }, 
    1696 { "id":1693, 0:"frac_out_crp",  1:"fraction", 2:"fraction_cropland_transferred_out[-1.0]", 3:"annual gross fraction of croplands  that was transferred into other land use category", 4:"CMIP6[LUMIP]" }, 
    1697 { "id":1694, 0:"frac_in_crp",  1:"fraction", 2:"fraction_cropland_transferred_in[-1.0]", 3:"annual gross fraction of croplands that came from other categories", 4:"CMIP6[LUMIP]" }, 
    1698 { "id":1695, 0:"frac_crp",  1:"fraction", 2:"fraction_cropland[-1.0]", 3:"fraction of a grid cell in croplands", 4:"CMIP6[LUMIP]" }, 
    1699 { "id":1696, 0:"frac_out_pst",  1:"fraction", 2:"fraction_pasture_transferred_out[-1.0]", 3:"annual gross fraction of pasturelands  that was transferred into other land use category", 4:"CMIP6[LUMIP]" }, 
    1700 { "id":1697, 0:"frac_in_pst",  1:"fraction", 2:"fraction_pasture_transferred_in[-1.0]", 3:"annual gross fraction of pasturelands that came from other categories", 4:"CMIP6[LUMIP]" }, 
    1701 { "id":1698, 0:"frac_pst",  1:"fraction", 2:"fraction_pasture[-1.0]", 3:"fractions of a gridcell in pasturelands ", 4:"CMIP6[LUMIP]" }, 
    1702 { "id":1699, 0:"frac_out_spl",  1:"fraction", 2:"fraction_primary_and_secondary_transferred_out[-1.0]", 3:"annual gross fraction of secondary and primary lands  that was transferred into other land use category", 4:"CMIP6[LUMIP]" }, 
    1703 { "id":1700, 0:"frac_in_spl",  1:"fraction", 2:"fraction_primary_and_seondary_transferred_in[-1.0]", 3:"annual gross fraction of secondary and primary lands that came from other categories", 4:"CMIP6[LUMIP]" }, 
    1704 { "id":1701, 0:"frac_spl",  1:"fraction", 2:"fraction_primary_secondary[-1.0]", 3:"fraction of a gridcell in secondary and primary lands", 4:"CMIP6[LUMIP]" }, 
    1705 { "id":1702, 0:"frac_out_urb",  1:"fraction", 2:"frac_urban_transferred_out[-1.0]", 3:"annual gross fraction of urban  that was transferred into other land use category", 4:"CMIP6[LUMIP]" }, 
    1706 { "id":1703, 0:"frac_in_urb",  1:"fraction", 2:"fraction_urban_transferred_in[-1.0]", 3:"annual gross fraction of urban that came from other categories", 4:"CMIP6[LUMIP]" }, 
    1707 { "id":1704, 0:"frac_urb",  1:"fraction", 2:"fraction_urban[-1.0]", 3:"fraction of a grid cell in urban", 4:"CMIP6[LUMIP]" }, 
    1708 { "id":1705, 0:"hcont300",  1:"Heat content of upper 300 meters", 2:"heat_content_of_ocean_layer[-1.0]", 3:"Used in PMIP2", 4:"CMIP6[PMIP]" }, 
    1709 { "id":1706, 0:"depdust",  1:"Total deposition of dust", 2:"tendency_of_atmosphere_mass_content_of_dust_dry_aerosol_particles_due_to_total_deposition[-1.0]", 3:"Balkanski - LSCE", 4:"CMIP6[PMIP]" }, 
    1710 { "id":1707, 0:"sedustCI",  1:"Sedimentation Flux of dust mode coarse insoluble", 2:"tendency_of_atmosphere_mass_content_of_dust_dry_aerosol_particles_due_to_sedimentation[-1.0]", 3:"Balkanski - LSCE", 4:"CMIP6[PMIP]" }, 
    1711 { "id":1708, 0:"md",  1:"Wet diameter mode coarse insoluble", 2:"tendency_of_atmosphere_mass_content_of_dust_dry_aerosol_particles_due_to_emission[-1.0]", 3:"Balkanski - LSCE", 4:"CMIP6[PMIP]" }, 
    1712 { "id":1709, 0:"od443dust",  1:"Optical thickness at 443 nm Dust", 2:"atmosphere_optical_thickness_due_to_dust_ambient_aerosol_particles[-1.0]", 3:"Balkanski - LSCE", 4:"CMIP6[PMIP]" }, 
    1713 { "id":1710, 0:"od865dust",  1:"Optical thickness at 865 nm Dust", 2:"atmosphere_optical_thickness_due_to_dust_ambient_aerosol_particles[-1.0]", 3:"Balkanski - LSCE", 4:"CMIP6[PMIP]" }, 
    1714 { "id":1711, 0:"od550aerso",  1:"Stratospheric Optical depth at 550 nm (all aerosols) 2D-field (here we limit the computation of OD to the stratosphere only)", 2:"?[0.0]", 3:"Balkanski - LSCE", 4:"CMIP6[PMIP]" }, 
    1715 { "id":1712, 0:"od550so4so",  1:"Stratospheric Optical depth at 550 nm (sulphate only) 2D-field (here we limit the computation of OD to the stratosphere only)", 2:"?[0.0]", 3:"Balkanski - LSCE", 4:"CMIP6[PMIP]" }, 
    1716 { "id":1713, 0:"lwtoacs",  1:"Clear-sky TOA Longwave radiative flux due to Dust", 2:"tendency_of_clear_sky_top_of_atmosphere_longwave_flux_to_dust_ambient_aerosol_particles   2D field radiative properties[-1.0]", 3:"Balkanski - LSCE", 4:"CMIP6[PMIP]" }, 
    1717 { "id":1714, 0:"swsrfcsdust",  1:"Clear-sky Surface Shortwave radiative flux due to Dust", 2:"tendency_of_clear_sky_surface_shortwave_flux_due_to_dust_ambient_aerosol_particles[-1.0]", 3:"Balkanski - LSCE", 4:"CMIP6[PMIP]" }, 
    1718 { "id":1715, 0:"swsrfasdust",  1:"All-sky Surface Shortwave radiative flux due to Dust", 2:"tendency_of_all_sky_surface_shortwave_flux_due_to_dust_ambient_aerosol_particles[-1.0]", 3:"Balkanski - LSCE", 4:"CMIP6[PMIP]" }, 
    1719 { "id":1716, 0:"lwsrfcsdust",  1:"Clear-sky Surface Longwave radiative flux due to Dust", 2:"tendency_of_clear_sky_surface_longwave_flux_to_dust_ambient_aerosol_particles[-1.0]", 3:"Balkanski - LSCE", 4:"CMIP6[PMIP]" }, 
    1720 { "id":1717, 0:"lwsrfasdust",  1:"All-sky Surface Longwave radiative flux due to Dust", 2:"tendency_of_all_sky_surface_longwave_flux_to_dust_ambient_aerosol_particles[-1.0]", 3:"Balkanski - LSCE", 4:"CMIP6[PMIP]" }, 
    1721 { "id":1718, 0:"O18p",  1:"18O in total precipitation", 2:"?[0.0]", 3:"Roche - LSCE", 4:"CMIP6[PMIP]" }, 
    1722 { "id":1719, 0:"O18s",  1:"18O in solid precipitation", 2:"?[0.0]", 3:"Roche - LSCE", 4:"CMIP6[PMIP]" }, 
    1723 { "id":1720, 0:"H2p",  1:"2H in total precipitation", 2:"?[0.0]", 3:"Roche - LSCE", 4:"CMIP6[PMIP]" }, 
    1724 { "id":1721, 0:"H2s",  1:"2H in solid precipitation", 2:"?[0.0]", 3:"Roche - LSCE", 4:"CMIP6[PMIP]" }, 
    1725 { "id":1722, 0:"O17p",  1:"17O in total precipitation", 2:"?[0.0]", 3:"Roche - LSCE", 4:"CMIP6[PMIP]" }, 
    1726 { "id":1723, 0:"O17s",  1:"17O in solid precipitation", 2:"?[0.0]", 3:"Roche - LSCE", 4:"CMIP6[PMIP]" }, 
    1727 { "id":1724, 0:"O18wv",  1:"O18 in water vapor", 2:"?[0.0]", 3:"Roche - LSCE", 4:"CMIP6[PMIP]" }, 
    1728 { "id":1725, 0:"O17wv",  1:"O17 in water vapor", 2:"?[0.0]", 3:"Roche - LSCE", 4:"CMIP6[PMIP]" }, 
    1729 { "id":1726, 0:"H2wv",  1:"H2 in water vapor", 2:"?[0.0]", 3:"Roche - LSCE", 4:"CMIP6[PMIP]" }, 
    1730 { "id":1727, 0:"O18sw",  1:"O18 in sea water", 2:"?[0.0]", 3:"Roche - LSCE", 4:"CMIP6[PMIP]" }, 
    1731 { "id":1728, 0:"mrlso",  1:"Soil Liquid Water Content ", 2:"soil_liquid_water_content[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1732 { "id":1729, 0:"mrsol",  1:"Total water content of soil layer", 2:"total_moisture_content_of_soil_layer[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1733 { "id":1730, 0:"mrsll",  1:"Liquid water content of soil layer", 2:"liquid_moisture_content_of_soil_layer[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1734 { "id":1731, 0:"mrsfl",  1:"Frozen water content of soil layer", 2:"frozen_moisture_content_of_soil_layer[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1735 { "id":1732, 0:"mrtws",  1:"Total water storage in a grid cell", 2:"total_water_storage[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1736 { "id":1733, 0:"pcp",  1:"Total precipitation", 2:"total_precipitation_flux[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1737 { "id":1734, 0:"vegFrac",  1:"Total vegetated fraction", 2:"total_vegetated_fraction[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1738 { "id":1735, 0:"treeFracNdlEvg",  1:"Needleleaf evergreen tree fraction", 2:"tree_fraction_needleleaf_evergreen[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1739 { "id":1736, 0:"treeFracNdlDcd",  1:"Needleleaf deciduous tree fraction", 2:"tree_fraction_needleleaf_deciduous[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1740 { "id":1737, 0:"treeFracBdlEvg",  1:"Broadleaf evergreen tree fraction", 2:"tree_fraction_broadleaf_evergreen[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1741 { "id":1738, 0:"treeFracBdlDcd",  1:"Broadleaf deciduous tree fraction", 2:"tree_fraction_broadleaf_deciduous[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1742 { "id":1739, 0:"grassFracC3",  1:"C3 grass fraction", 2:"grass_fraction_c3[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1743 { "id":1740, 0:"grassFracC4",  1:"C4 grass fraction", 2:"grass_fraction_c4[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1744 { "id":1741, 0:"cropFracC3",  1:"C3 crop fraction", 2:"crop_fraction_c3[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1745 { "id":1742, 0:"cropFracC4",  1:"C4 crop fraction", 2:"crop_fraction_c4[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1746 { "id":1743, 0:"cLand",  1:"Total carbon in all terrestrial carbon pools", 2:"total_land_carbon[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1747 { "id":1744, 0:"fDeforest",  1:"Deforested biomass as a result of anthropogenic land use change", 2:"deforested_biomass_due_to_anthorpogenic_land_use_change[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1748 { "id":1745, 0:"netAtmosLandCO2Flux",  1:"Net flux of CO2 between atmosphere and land (positive into land) as a result of all processes.", 2:"net_atmos_to_land_CO2_flux[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1749 { "id":1746, 0:"lateralCtransfer",  1:"Lateral transfer of carbon into (positive) or out of (negative) a grid cell.", 2:"lateral_carbon_transfer_over_land[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1750 { "id":1747, 0:"vegHeight",  1:"Vegetation height averaged over all vegetation types and over the vegetated fraction of a grid cell.", 2:"vegetation_height[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1751 { "id":1748, 0:"vegHeightTree",  1:"Vegetation height averaged over the tree fraction of a grid cell.", 2:"tree_vegetation_height[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1752 { "id":1749, 0:"vegHeightGrass",  1:"Vegetation height averaged over the grass fraction of a grid cell.", 2:"grass_vegetation_height[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1753 { "id":1750, 0:"vegHeightShrub",  1:"Vegetation height averaged over the shrub fraction of a grid cell.", 2:"shrub_vegetation_height[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1754 { "id":1751, 0:"vegHeightCrop",  1:"Vegetation height averaged over the crop fraction of a grid cell.", 2:"crop_vegetation_height[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1755 { "id":1752, 0:"wetlandFrac",  1:"Fraction of a grid cell covered by wetland.", 2:"wetland_fraction[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1756 { "id":1753, 0:"c14Veg",  1:"Mass of 14C in Vegetation", 2:"vegetation_c14_content[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1757 { "id":1754, 0:"c14Litter",  1:"Mass of 14C in Litter Pool", 2:"litter_c14_content[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1758 { "id":1755, 0:"c14Soil",  1:"Mass of 14C in Soil Pool", 2:"soil_c14_content[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1759 { "id":1756, 0:"c14Land",  1:"Mass of 14C in all terrestrial carbon pools", 2:"total_land_c14[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1760 { "id":1757, 0:"c13Veg",  1:"Mass of 13C in Vegetation", 2:"vegetation_c13_content[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1761 { "id":1758, 0:"c13Litter",  1:"Mass of 13C in Litter Pool", 2:"litter_c13_content[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1762 { "id":1759, 0:"c13Soil",  1:"Mass of 13C in Soil Pool", 2:"soil_c13_content[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1763 { "id":1760, 0:"c13Land",  1:"Mass of 13C in all terrestrial carbon pools", 2:"total_land_c13[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1764 { "id":1761, 0:"nVeg",  1:"Nitrogen Mass in Vegetation", 2:"vegetation_nitrogen_content[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1765 { "id":1762, 0:"nLitter",  1:"Nitrogen Mass in Litter Pool", 2:"litter_nitrogen_content[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1766 { "id":1763, 0:"nSoil",  1:"Nitrogen Mass in Soil Pool", 2:"soil_nitrogen_content[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1767 { "id":1764, 0:"nProduct",  1:"Nitrogen Mass in Products of Land Use Change", 2:"nitrogen_content_of_products_of_anthropogenic_land_use_change[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1768 { "id":1765, 0:"nLand",  1:"Total nitrogen in all terrestrial nitrogen pools", 2:"total_land_nitrogen[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1769 { "id":1766, 0:"wetlandCH4",  1:"Grid averaged methane emissions from wetlands", 2:"wetland_methane_emissions[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1770 { "id":1767, 0:"gpp_c14",  1:"Mass Flux of 14C out of Atmosphere due to Gross Primary Production on Land", 2:"gross_primary_productivity_of_c14[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1771 { "id":1768, 0:"ra_c14",  1:"Mass Flux of 14C into Atmosphere due to Autotrophic (Plant) Respiration on Land", 2:"plant_respiration_c14_flux[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1772 { "id":1769, 0:"rh_c14",  1:"Mass Flux of 14C into Atmosphere due to Heterotrophic Respiration on Land", 2:"heterotrophic_respiration_c14_flux[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1773 { "id":1770, 0:"netAtmosLandC14Flux",  1:"Net Mass Flux of 14C between atmosphere and land (positive into land) as a result of all processes.", 2:"net_atmos_to_land_C14_flux[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1774 { "id":1771, 0:"gpp_c13",  1:"Mass Flux of 13C out of Atmosphere due to Gross Primary Production on Land", 2:"gross_primary_productivity_of_c13[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1775 { "id":1772, 0:"ra_c13",  1:"Mass Flux of 13C into Atmosphere due to Autotrophic (Plant) Respiration on Land", 2:"plant_respiration_c13_flux[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1776 { "id":1773, 0:"rh_c13",  1:"Mass Flux of 13C into Atmosphere due to Heterotrophic Respiration on Land", 2:"heterotrophic_respiration_c13_flux[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1777 { "id":1774, 0:"netAtmosLandC13Flux",  1:"Net Mass Flux of 13C between atmosphere and land (positive into land) as a result of all processes.", 2:"net_atmos_to_land_C13_flux[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1778 { "id":1775, 0:"fNleach",  1:"Total N loss to leaching or runoff (sum of ammonium, nitrite and nitrate)", 2:"land_nitrogen_lost_to_leaching[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1779 { "id":1776, 0:"fNgas",  1:"Total N lost to the atmosphere (sum of NHx, NOx, N2O, N2)", 2:"land_nitrogen_lost_to_atmosphere[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1780 { "id":1777, 0:"fN2O",  1:"Total land N2O flux ", 2:"land_net_n2o_flux[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1781 { "id":1778, 0:"fNdep_ox",  1:"dry and wet deposition of oxidised reactive nitrogen onto land", 2:"deposition_of_oxidised_nitrogen_onto_land[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1782 { "id":1779, 0:"fNdep_red",  1:"dry and wet deposition of reduced reactive nitrogen onto land", 2:"deposition_of_reduced_nitrogen_onto_land[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1783 { "id":1780, 0:"fBNF_symb",  1:"symbiontic biological nitrogen fixation", 2:"symbiontic_biological_nitrogen_fixation[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1784 { "id":1781, 0:"fBNF_asymb",  1:"asymbiontic biological nitrogen fixation", 2:"asymbiontic_biological_nitrogen_fixation[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1785 { "id":1782, 0:"fNup",  1:"total plant nitrogen uptake (sum of ammonium and nitrate), irrespective of the source of nitrogen", 2:"plant_nitrogen_uptake[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1786 { "id":1783, 0:"fNnetmin",  1:"Net nitrogen release from soil and litter as the outcome of nitrogen immobilisation and gross mineralisation", 2:"net_nitrogen_mineralisation[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1787 { "id":1784, 0:"fric",  1:"Downward Inorganic Carbon Flux at Ocean Bottom", 2:"tendency_of_ocean_mole_content_of_inorganic_carbon_due_to_sedimentation[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1788 { "id":1785, 0:"froc",  1:"Downward Organic Carbon Flux at Ocean Bottom", 2:"tendency_of_ocean_mole_content_of_organic_carbon_due_to_sedimentation[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1789 { "id":1786, 0:"limndiat",  1:"Nitrogen limitation of Diatoms", 2:"nitrogen_limitation_of_diatoms[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1790 { "id":1787, 0:"limndiaz",  1:"Nitrogen limitation of Diazotrophs", 2:"nitrogen_limitation_of_diazotrophs[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1791 { "id":1788, 0:"limncalc",  1:"Nitrogen limitation of Calcareous Phytoplankton", 2:"nitrogen_limitation_of_calcareous_phytoplankton[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1792 { "id":1789, 0:"limnpico",  1:"Nitrogen limitation of Picophytoplankton", 2:"nitrogen_limitation_of_picophytoplankton[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1793 { "id":1790, 0:"limnmisc",  1:"Nitrogen Limitation of Other Phytoplankton", 2:"nitrogen_limitation_of_miscellaneous_phytoplankton[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1794 { "id":1791, 0:"limirrdiat",  1:"Irradiance limitation of Diatoms", 2:"irradiance_limitation_of_diatoms[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1795 { "id":1792, 0:"limirrdiaz",  1:"Irradiance limitation of Diazotrophs", 2:"irradiance_limitation_of_diazotrophs[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1796 { "id":1793, 0:"limirrcalc",  1:"Irradiance limitation of Calcareous Phytoplankton", 2:"irradiance_limitation_of_calcareous_phytoplankton[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1797 { "id":1794, 0:"limirrpico",  1:"Irradiance limitation of Picophytoplankton", 2:"irradiance_limitation_of_picophytoplankton[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1798 { "id":1795, 0:"limirrmisc",  1:"Irradiance Limitation of Other Phytoplankton", 2:"irradiance_limitation_of_miscellaneous_phytoplankton[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1799 { "id":1796, 0:"limfediat",  1:"Iron limitation of Diatoms", 2:"iron_limitation_of_diatoms[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1800 { "id":1797, 0:"limfediaz",  1:"Iron limitation of Diazotrophs", 2:"iron_limitation_of_diazotrophs[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1801 { "id":1798, 0:"limfecalc",  1:"Iron limitation of Calcareous Phytoplankton", 2:"iron_limitation_of_calcareous_phytoplankton[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1802 { "id":1799, 0:"limfepico",  1:"Iron limitation of Picophytoplankton", 2:"iron_limitation_of_picophytoplankton[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1803 { "id":1800, 0:"limfemisc",  1:"Iron Limitation of Other Phytoplankton", 2:"iron_limitation_of_miscellaneous_phytoplankton[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1804 { "id":1801, 0:"dissi14c",  1:"Concentration of DI14C", 2:"mole_concentration_of_dissolved_inorganic_c14_in_sea_water[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1805 { "id":1802, 0:"fg14co2",  1:"Total air-sea flux of 14CO2", 2:"air_sea_flux_of_14CO2[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1806 { "id":1803, 0:"dissi13c",  1:"Concentration of DI13C", 2:"mole_concentration_of_dissolved_inorganic_c13_in_sea_water[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1807 { "id":1804, 0:"fg13co2",  1:"Total air-sea flux of 13CO2", 2:"air_sea_flux_of_13CO2[-1.0]", 3:"as specified by C4MIP", 4:"CMIP6[PMIP]" }, 
    1808 { "id":1805, 0:"intuaw",  1:"Vertically integrated Eastward moisture transport (Mass_weighted_vertical integral of the product of eastward wind by total water mass per unit mass)", 2:"vertical_integral_eastward_wind_by_total_water[-1.0]", 3:"Used in PMIP2", 4:"CMIP6[PMIP]" }, 
    1809 { "id":1806, 0:"intvaw",  1:"Vertically integrated Northward moisture transport (Mass_weighted_vertical integral of the product of northward wind by total water mass per unit mass)", 2:"vertical_integral_northward_wind_by_total_water[-1.0]", 3:"Used in PMIP2", 4:"CMIP6[PMIP]" }, 
    1810 { "id":1807, 0:"intuadse",  1:"Vertically integrated Eastward dry transport (cp.T +zg).u (Mass_weighted_vertical integral of the product of northward wind by dry static_energy per mass unit)", 2:"vertical_integral_eastward_wind_by_dry_static_energy[-1.0]", 3:"Used in PMIP2", 4:"CMIP6[PMIP]" }, 
    1811 { "id":1808, 0:"intvadse",  1:"Vertically integrated Northward dry transport (cp.T +zg).v (Mass_weighted_vertical integral of the product of northward wind by dry static_energy per mass unit)", 2:"vertical_integral_northward_wind_by_dry_static_energy[-1.0]", 3:"Used in PMIP2", 4:"CMIP6[PMIP]" }, 
    1812 { "id":1809, 0:"spectlower",  1:"Lower frequency bound of band", 2:"band_lower_bound[-1.0]", 3:"", 4:"CMIP6[RFMIP]" }, 
    1813 { "id":1810, 0:"spectupper",  1:"Upper frequency bound of band", 2:"band_upper_bound[-1.0]", 3:"", 4:"CMIP6[RFMIP]" }, 
    1814 { "id":1811, 0:"spectinfo",  1:"Designation of whether band is spectral or pseudo-spectral", 2:"band_spectral_information[-1.0]", 3:"A band is designated pseudo-spectral when multiple bands contribute to gaseous absorption across a single spectral interval.", 4:"CMIP6[RFMIP]" }, 
    1815 { "id":1812, 0:"pspectspecies",  1:"Designation of gaseous species that governs pseudo-spectral band ordering", 2:"band_pspect_species[-1.0]", 3:"When a band is pseudo-spectral, this field designates the gaseous species (i.e., H2O) that controls the pseudo-spectral bands optimization.", 4:"CMIP6[RFMIP]" }, 
    1816 { "id":1813, 0:"pspectorder",  1:"Designation of whether the order of the pseudo-spectral bands is ascending or descending", 2:"band_pspect_order[-1.0]", 3:"When a band is pseudo-spectral, this field designates whether the bands are ordered by ascending or descending gaseous absorption.", 4:"CMIP6[RFMIP]" }, 
    1817 { "id":1814, 0:"albdiff",  1:"Aerosol level extinction for band", 2:"band_diffuse_albedo[-1.0]", 3:"", 4:"CMIP6[RFMIP]" }, 
    1818 { "id":1815, 0:"albdir",  1:"Aerosol level single-scattering albedo for band", 2:"band_direct_albedo[-1.0]", 3:"", 4:"CMIP6[RFMIP]" }, 
    1819 { "id":1816, 0:"sol",  1:"Top-of-Atmosphere Solar Insolation in band", 2:"band_solar_insolation[-1.0]", 3:"", 4:"CMIP6[RFMIP]" }, 
    1820 { "id":1817, 0:"aerext",  1:"Aerosol level extinction resolved for each band", 2:"band_aerosol_extinction[-1.0]", 3:"", 4:"CMIP6[RFMIP]" }, 
    1821 { "id":1818, 0:"aerssa",  1:"Aerosol level single-scattering albedo for each band", 2:"band_aerosol_single_scattering_albedo[-1.0]", 3:"", 4:"CMIP6[RFMIP]" }, 
    1822 { "id":1819, 0:"aerasym",  1:"Aerosol level asymmetry parameter for each band", 2:"band_aerosol_asymmetry_parameter[-1.0]", 3:"", 4:"CMIP6[RFMIP]" }, 
    1823 { "id":1820, 0:"rsutcc",  1:"TOA Outgoing Clean-Clear-Sky Shortwave Radiation", 2:"toa_outgoing_shortwave_flux_assuming_clean_clear_sky[-1.0]", 3:"Calculated in the absence of aerosols and clouds.", 4:"CMIP6[RFMIP]" }, 
    1824 { "id":1821, 0:"rsdscc",  1:"Surface Downwelling Clean-Clear-Sky Shortwave Radiation", 2:"surface_downwelling_shortwave_flux_in_air_assuming_clean_clear_sky[-1.0]", 3:"Calculated in the absence of aerosols and clouds.", 4:"CMIP6[RFMIP]" }, 
    1825 { "id":1822, 0:"IMPORTANT;;---------------;;Temporal averaging for all variables that do directly change with area fraction ;;(i.e. extensive variables such as: volume, mass, area fraction): ;;always average in 0 for all time steps where no sea ice is present ;;---------------------------------------------------------------------------------------------------;;Temporal averaging for all variables that do not directly change with area fraction ;;(i.e. intensive variables such as: temperature, albedo, speed, stress, fluxes...):;;All time samples are first multiplied by area fraction, then summed, and then divided by the sum of the area fractions.;;This will automatically result in missing values for continuously ice-free conditions (division by zero);;---------------------------------------------------------------------------------------------------;;Spatial fractions (concentrations) are always relative to full size of the grid cell. Models with multiple surface properties;;or multiple categories in single grid cell use area-fraction weighted spatial average of ice-covered part of grid cell",  1:"", 2:"[0.0]", 3:"", 4:"CMIP6[SIMIP]" }, 
    1826 ]; 
     3data[0] = { "id":0, 0:"ch4tbrdn",  1:"Tendency of Atmospheric Burden of CH4", 2:"tendency_of_atmosphere_moles_of_methane", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }; 
     4data[1] = { "id":1, 0:"wetdms",  1:"Wet Deposition Rate of DMS", 2:"tendency_of_atmosphere_mass_content_of_dimethyl_sulfide_due_to_wet_deposition", 3:"'unset'", 4:"CMIP5_aero" }; 
     5data[2] = { "id":2, 0:"tnsclw",  1:"Tendency of Mass Fraction of Stratiform Cloud Liquid Water In Air", 2:"tendency_of_mass_fraction_of_stratiform_cloud_liquid_water_in_air", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     6data[3] = { "id":3, 0:"sfcWindmax",  1:"Daily Maximum Near-Surface Wind Speed", 2:"wind_speed", 3:"'near-surface (usually, 10 meters) wind speed.'", 4:"CORDEX_day,CORDEX_mon,CORDEX_sem" }; 
     7data[4] = { "id":4, 0:"clmcalipso",  1:"CALIPSO Mid Level Cloud Fraction", 2:"cloud_area_fraction_in_atmosphere_layer", 3:"'unset'", 4:"CMIP5_cf3hr,CMIP5_cfDay,CMIP5_cfMon,CMIP5_cfOff" }; 
     8data[5] = { "id":5, 0:"tnsclwa",  1:"Tendency of Mass Fraction of Stratiform Cloud Liquid Water due to Advection", 2:"tendency_of_mass_fraction_of_stratiform_cloud_liquid_water_in_air_due_to_advection", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     9data[6] = { "id":6, 0:"ch4globalClim",  1:"Global Mean Mole Fraction of CH4", 2:"mole_fraction_of_methane_in_air", 3:"'unset'", 4:"CMIP5_Amon" }; 
     10data[7] = { "id":7, 0:"pbsi",  1:"Biogenic Silica Production", 2:"tendency_of_mole_concentration_of_silicon_in_sea_water_due_to_biological_production", 3:"'unset'", 4:"CMIP5_Oyr" }; 
     11data[8] = { "id":8, 0:"cltc",  1:"Convective Cloud Fraction", 2:"convective_cloud_area_fraction", 3:"'for the whole atmospheric column, as seen from the surface or the top of the atmosphere. Includes only convective cloud.'", 4:"CMIP5_cf3hr" }; 
     12data[9] = { "id":9, 0:"rsut",  1:"TOA Outgoing Shortwave Radiation", 2:"toa_outgoing_shortwave_flux", 3:"'at the top of the atmosphere'", 4:"CCMI1_monthly,CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites,SPECS_Amon" }; 
     13data[10] = { "id":10, 0:"dfe",  1:"Dissolved Iron Concentration at Surface", 2:"mole_concentration_of_dissolved_iron_in_sea_water", 3:"'dissolved iron in sea water is meant to include both Fe2+ and Fe3+ ions (but not, e.g., particulate detrital iron)'", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     14data[11] = { "id":11, 0:"vmrco50sa700",  1:"co_50_sa Volume Mixing Ratio at 700 hPa", 2:"unset", 3:"'daily mean, emitted as anthropogenic CO over South Asia (5N-35N; 50E-95E) (emission file available from HTAP), uniform fixed 50-day exponential decay.'", 4:"CCMI1_daily" }; 
     15data[12] = { "id":12, 0:"ccl4brdn",  1:"Atmospheric Burden of CCl4", 2:"atmosphere_moles_of_carbon_tetrachloride", 3:"'total yearly average burden'", 4:"CCMI1_annual" }; 
     16data[13] = { "id":13, 0:"wetbc",  1:"Wet Deposition Rate of Black Carbon Aerosol Mass", 2:"tendency_of_atmosphere_mass_content_of_black_carbon_dry_aerosol_due_to_wet_deposition", 3:"''", 4:"CCMI1_monthly" }; 
     17data[14] = { "id":14, 0:"vmrcl2o2",  1:"ClOOCl Volume Mixing Ratio", 2:"mole_fraction_of_dichlorine_peroxide_in_air", 3:"''", 4:"CCMI1_daily" }; 
     18data[15] = { "id":15, 0:"vmrch4",  1:"CH4 Volume Mixing Ratio", 2:"mole_fraction_of_methane_in_air", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }; 
     19data[16] = { "id":16, 0:"mmrpm10",  1:"PM10 Mass Mixing Ratio at 50 Percent RH", 2:"mass_fraction_of_pm10_ambient_aerosol_in_air", 3:"'Must include scalar dimension relh50p specifying relative_humidity of 50%'", 4:"CCMI1_monthly" }; 
     20data[17] = { "id":17, 0:"orog",  1:"Surface Altitude", 2:"surface_altitude", 3:"'height above the geoid; as defined here, ''the geoid'' is a surface of constant geopotential that, if the ocean were at rest, would coincide with mean sea level. Under this definition, the geoid changes as the mean volume of the ocean changes (e.g., due to glacial melt, or global warming of the ocean).  Reported here is the height above the present-day geoid (0.0 over ocean).'", 4:"CMIP5_fx,SPECS_fx" }; 
     21data[18] = { "id":18, 0:"ua1000",  1:"Eastward Wind at 1000 hPa", 2:"eastward_wind", 3:"'Zonal wind on the 1000 hPa surface'", 4:"CCMI1_daily" }; 
     22data[19] = { "id":19, 0:"sconcno3",  1:"Surface Concentration of NO3", 2:"mass_concentration_of_nitrate_dry_aerosol_in_air", 3:"'Mass concentration in model lowest layer'", 4:"CMIP5_aero" }; 
     23data[20] = { "id":20, 0:"hfnorthba",  1:"Northward Ocean Heat Transport Due to Bolus Advection", 2:"northward_ocean_heat_transport_due_to_bolus_advection", 3:"'unset'", 4:"SPECS_Omon" }; 
     24data[21] = { "id":21, 0:"vmrbr",  1:"Atomic Br Volume Mixing Ratio", 2:"mole_fraction_of_atomic_bromine_in_air", 3:"''", 4:"CCMI1_daily" }; 
     25data[22] = { "id":22, 0:"snm",  1:"Surface Snow Melt", 2:"surface_snow_melt_flux", 3:"'Compute as the total surface melt water on the land portion of the grid cell divided by the land area in the grid cell; report as 0.0 for snow-free land regions; report as 0.0 where the land fraction is 0.'", 4:"CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem" }; 
     26data[23] = { "id":23, 0:"msftmyzba",  1:"Ocean Meridional Overturning Mass Streamfunction due to Bolus Advection", 2:"ocean_meridional_overturning_mass_streamfunction_due_to_bolus_advection", 3:"'unset'", 4:"CMIP5_Omon" }; 
     27data[24] = { "id":24, 0:"mrro",  1:"Total Runoff", 2:"runoff_flux", 3:"'the total runoff (including ''drainage'' through the base of the soil model) leaving the land portion of the grid cell divided by the land area in the grid cell, averaged over the 3-hour interval.'", 4:"CMIP5_3hr" }; 
     28data[25] = { "id":25, 0:"drybc",  1:"Dry Deposition Rate of Black Carbon Aerosol Mass", 2:"tendency_of_atmosphere_mass_content_of_black_carbon_dry_aerosol_due_to_dry_deposition", 3:"'unset'", 4:"CMIP5_aero" }; 
     29data[26] = { "id":26, 0:"cLitterBelow",  1:"Carbon Mass in Below-Ground Litter", 2:"subsurface_litter_carbon_content", 3:"'unset'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     30data[27] = { "id":27, 0:"sos",  1:"Sea Water Salinity", 2:"sea_water_salinity", 3:"'unset'", 4:"SPECS_Omon" }; 
     31data[28] = { "id":28, 0:"snc",  1:"Surface Snow Area Fraction", 2:"surface_snow_area_fraction", 3:"'Fraction of entire grid cell covered by snow that lies on sea ice; exclude snow that lies on land or land ice.'", 4:"CMIP5_OImon" }; 
     32data[29] = { "id":29, 0:"vmrst8025",  1:"st80_25 Volume Mixing Ratio", 2:"unset", 3:"'Fixed mixing ratio above 80hPa (200ppbv), uniform fixed 25-day exponential decay in the troposphere only.'", 4:"CCMI1_monthly" }; 
     33data[30] = { "id":30, 0:"ch2fcf3brdn",  1:"Atmospheric Burden of CH2FCF3", 2:"unset", 3:"'total yearly average burden'", 4:"CCMI1_annual" }; 
     34data[31] = { "id":31, 0:"emiavoc",  1:"Total Emission Rate of Anthropogenic NMVOC", 2:"unset", 3:"'Includes agricultural waste burning but no other biomass burning.  Integrate 3D emission field vertically to 2d field.  _If_ fixed molecular weight of NMVOC is not available in model, please provide in units of kilomole m-2 s-1 (i.e. kg m-2 s-1 as if model NMVOC had molecular weight of 1) and add a comment to your file.'", 4:"CCMI1_monthly" }; 
     35data[32] = { "id":32, 0:"uas",  1:"Eastward Near-Surface Wind", 2:"eastward_wind", 3:"'near-surface (usually, 10 meters) eastward component of wind.'", 4:"CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem" }; 
     36data[33] = { "id":33, 0:"tauucorr",  1:"Surface Downward X Stress Correction", 2:"surface_downward_x_stress_correction", 3:"'This is the stress on the liquid ocean from overlying atmosphere, sea ice, ice shelf, etc.'", 4:"CMIP5_Omon" }; 
     37data[34] = { "id":34, 0:"hfrainds",  1:"Temperature Flux due to Rainfall Expressed as Heat Flux into Sea Water", 2:"temperature_flux_due_to_rainfall_expressed_as_heat_flux_into_sea_water", 3:"'This is defined as ''where ice_free_sea over sea''; i.e., the total flux (considered here) entering the ice-free portion of the grid cell divided by the area of the ocean portion of the grid cell.'", 4:"CMIP5_Omon" }; 
     38data[35] = { "id":35, 0:"clhcalipso",  1:"CALIPSO High Level Cloud Fraction", 2:"cloud_area_fraction_in_atmosphere_layer", 3:"'unset'", 4:"CMIP5_cf3hr,CMIP5_cfDay,CMIP5_cfMon,CMIP5_cfOff" }; 
     39data[36] = { "id":36, 0:"vmrbro",  1:"BrO Volume Mixing Ratio", 2:"mole_fraction_of_bromine_monoxide_in_air", 3:"''", 4:"CCMI1_daily" }; 
     40data[37] = { "id":37, 0:"stoo3",  1:"Dry Deposition Rate of O3 in Stomata", 2:"tendency_of_atmosphere_mass_content_of_ozone_due_to_dry_deposition_into_stomata", 3:"'Only for year 2006'", 4:"CCMI1_hourly" }; 
     41data[38] = { "id":38, 0:"tnsccwacr",  1:"Tendency of Mass Fraction of Stratiform Cloud Condensed Water due to Autoconversion to Rain", 2:"tendency_of_mass_fraction_of_stratiform_cloud_condensed_water_in_air_due_to_autoconversion_to_rain", 3:"'condensed water includes both liquid and ice.'", 4:"CMIP5_cfMon" }; 
     42data[39] = { "id":39, 0:"tossq",  1:"Square of Sea Surface Temperature", 2:"square_of_sea_surface_temperature", 3:"'square of temperature of liquid ocean, averaged over the day.'", 4:"CMIP5_day" }; 
     43data[40] = { "id":40, 0:"prcprof",  1:"Convective Rainfall Flux", 2:"convective_rainfall_flux", 3:"'unset'", 4:"CMIP5_cf3hr" }; 
     44data[41] = { "id":41, 0:"swtoacsaer",  1:"Clear-Sky SW-RF Aerosols at TOA", 2:"unset", 3:"'proposed name: toa_instantaneous_shortwave_forcing_due_to_ambient_aerosol_assuming_clear_sky'", 4:"CCMI1_monthly" }; 
     45data[42] = { "id":42, 0:"cfc113global",  1:"Global Mean Mole Fraction of CFC113", 2:"mole_fraction_of_cfc113_in_air", 3:"'unset'", 4:"CMIP5_Amon" }; 
     46data[43] = { "id":43, 0:"pbo",  1:"Sea Water Pressure at Sea floor", 2:"sea_water_pressure_at_sea_floor", 3:"'unset'", 4:"CMIP5_Omon" }; 
     47data[44] = { "id":44, 0:"dispkevfo",  1:"Ocean Kinetic Energy Dissipation Per Unit Area due to Vertical Friction", 2:"ocean_kinetic_energy_dissipation_per_unit_area_due_to_vertical_friction", 3:"'unset'", 4:"CMIP5_Oclim" }; 
     48data[45] = { "id":45, 0:"chepsoa",  1:"Production Rate of Dry Aerosol Secondary Organic Matter", 2:"tendency_of_atmosphere_mass_content_of_secondary_particulate_organic_matter_dry_aerosol_due_to_net_chemical_production", 3:"'tendency of atmosphere mass content of secondary organic matter_dry aerosol due to net production:  If model lumps SOA emissions with POA, then the sum of POA and SOA emissions is reported as POA emissions.  ''mass'' refers to the mass of primary organic matter, not mass of organic carbon alone.'", 4:"CMIP5_aero" }; 
     49data[46] = { "id":46, 0:"expcfe",  1:"Sinking Particulate Iron Flux", 2:"sinking_mole_flux_of_particulate_iron_in_sea_water", 3:"'unset'", 4:"CMIP5_Oyr" }; 
     50data[47] = { "id":47, 0:"sos",  1:"Sea Surface Salinity", 2:"sea_surface_salinity", 3:"'unset'", 4:"CMIP5_Omon" }; 
     51data[48] = { "id":48, 0:"soga",  1:"Global Mean Sea Water Salinity", 2:"sea_water_salinity", 3:"'unset'", 4:"CMIP5_Omon" }; 
     52data[49] = { "id":49, 0:"concdust",  1:"Concentration of Dust", 2:"mass_concentration_of_dust_dry_aerosol_in_air", 3:"'unset'", 4:"CMIP5_aero" }; 
     53data[50] = { "id":50, 0:"fbddtdin",  1:"Rate of Change of Dissolved Inorganic Nitrogen due to Biological Activity", 2:"tendency_of_ocean_mole_content_of_dissolved_inorganic_nitrogen_due_to_biological_processes", 3:"'vertical integral of net biological terms in time rate of change of nitrogen nutrients (e.g. NO3+NH4)'", 4:"CMIP5_Omon" }; 
     54data[51] = { "id":51, 0:"cclf2cclf2tbrdn",  1:"Tendency of Atmospheric Burden of CFC-114", 2:"tendency_of_atmosphere_moles_of_cfc114", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }; 
     55data[52] = { "id":52, 0:"o3steflx",  1:"STE Ozone Flux", 2:"unset", 3:"'estimated strat-trop flux of ozone, i.e., the reset tendency of o3ste to o3 in the lowermost layers. See tracer o3ste on the monthly-mean 3d sheet for details.'", 4:"CCMI1_monthly" }; 
     56data[53] = { "id":53, 0:"zmchbr3",  1:"Zonal mean CHBr3 Volume Mixing Ratio", 2:"unset", 3:"''", 4:"CCMI1_monthly" }; 
     57data[54] = { "id":54, 0:"darag",  1:"Aragonite Dissolution", 2:"tendency_of_mole_concentration_of_aragonite_expressed_as_carbon_in_sea_water_due_to_dissolution", 3:"'unset'", 4:"CMIP5_Oyr" }; 
     58data[55] = { "id":55, 0:"masscello",  1:"Sea Water Mass Per Unit Area", 2:"sea_water_mass_per_unit_area", 3:"'unset'", 4:"CMIP5_Omon" }; 
     59data[56] = { "id":56, 0:"loadsoa",  1:"Load of Dry Aerosol Secondary Organic Matter", 2:"atmosphere_mass_content_of_secondary_particulate_organic_matter_dry_aerosol", 3:"'unset'", 4:"CMIP5_aero" }; 
     60data[57] = { "id":57, 0:"vmrh2o",  1:"Water Vapour Volume Mixing Ratio", 2:"mole_fraction_of_water_vapor_in_air", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }; 
     61data[58] = { "id":58, 0:"dpo2",  1:"Delta PO2", 2:"surface_molecular_oxygen_partial_pressure_difference_between_sea_water_and_air", 3:"'unset'", 4:"CMIP5_Omon" }; 
     62data[59] = { "id":59, 0:"vmroclo",  1:"OClO Volume Mixing Ratio", 2:"mole_fraction_of_chlorine_dioxide_in_air", 3:"''", 4:"CCMI1_daily" }; 
     63data[60] = { "id":60, 0:"chepsoa",  1:"Production Rate of Dry Aerosol Secondary Organic Matter", 2:"tendency_of_atmosphere_mass_content_of_secondary_particulate_organic_matter_dry_aerosol_due_to_net_chemical_production", 3:"'Tendency of atmosphere mass content of secondary organic matter_dry aerosol due to net production:  If model lumps SOA emissions with POA, then the sum of POA and SOA emissions is reported as POA emissions. 'mass' refers to the mass of primary organic matter, not mass of organic carbon alone. Instead of emi_soa in original ACCMIP Excel spreadsheet. That variable had notes: This can be a pseudo-emission flux as used in AEROCOM (Dentener et al, ACP, 2006) or the net.'", 4:"CCMI1_monthly" }; 
     64data[61] = { "id":61, 0:"expp",  1:"Sinking Particulate Organic Phosphorus Flux", 2:"sinking_mole_flux_of_particulate_organic_phosphorus_in_sea_water", 3:"'unset'", 4:"CMIP5_Oyr" }; 
     65data[62] = { "id":62, 0:"ang5087aer",  1:"Angstrom Exponent 500/870nm", 2:"angstrom_exponent_of_ambient_aerosol_in_air", 3:"'general standard name is angstrom_exponent_of_ambient_aerosol_in_air'", 4:"CCMI1_monthly" }; 
     66data[63] = { "id":63, 0:"diftrxybo2d",  1:"Ocean Tracer XY Biharmonic Diffusivity", 2:"ocean_tracer_xy_biharmonic_diffusivity", 3:"'unset'", 4:"CMIP5_Oclim" }; 
     67data[64] = { "id":64, 0:"dpocdtcalc",  1:"Tendency of Mole Concentration of Organic Carbon in Sea Water due to Net Primary Production by Calcareous Phytoplankton", 2:"tendency_of_mole_concentration_of_particulate_organic_matter_expressed_as_carbon_in_sea_water_due_to_net_primary_production_by_calcareous_phytoplankton", 3:"'Primary (organic carbon) production by the calcite-producing phytoplankton component alone'", 4:"CMIP5_Oyr" }; 
     68data[65] = { "id":65, 0:"hfy",  1:"Ocean Heat Y Transport", 2:"ocean_heat_y_transport", 3:"'unset'", 4:"CMIP5_Omon" }; 
     69data[66] = { "id":66, 0:"ohloss",  1:"Total Loss of OH", 2:"unset", 3:"'rate of OH loss from all reactions'", 4:"CCMI1_monthly" }; 
     70data[67] = { "id":67, 0:"pr",  1:"Rainfall Flux where Ice Free Ocean over Sea", 2:"rainfall_flux", 3:"'computed as the total mass of liquid water falling as liquid rain  into the ice-free portion of the ocean divided by the area of the ocean portion of the grid cell.'", 4:"CMIP5_Omon" }; 
     71data[68] = { "id":68, 0:"rsutcs",  1:"TOA Outgoing Clear-Sky Shortwave Radiation", 2:"toa_outgoing_shortwave_flux_assuming_clear_sky", 3:"''", 4:"CCMI1_monthly" }; 
     72data[69] = { "id":69, 0:"ogwflux",  1:"Zonal Component of Upward Momentum Flux by Oro-GWs", 2:"upward_eastward_momentum_flux_in_air_due_to_orographic_gravity_waves", 3:"'Zonal (positive eastward) orographic gravity wave stress (momentum flux), including any flux out of the top of the model (e.g., add additional level to the output file for model top. Set flux at this level to zero if nothing escapes to outer space in your model), derived either from daily means or 6hr fields (use instantaneous daily fields or 12 hr fields if the 6 hr data are not available).'", 4:"CCMI1_monthly" }; 
     73data[70] = { "id":70, 0:"tnsclwbfpcli",  1:"Tendency of Mass Fraction of Stratiform Cloud Liquid Water In Air Due To Bergeron Findeisen Process To Cloud Ice", 2:"tendency_of_mass_fraction_of_stratiform_cloud_liquid_water_in_air_due_to_bergeron_findeisen_process_to_cloud_ice", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     74data[71] = { "id":71, 0:"emidms",  1:"Total Emission Rate of DMS", 2:"tendency_of_atmosphere_mass_content_of_dimethyl_sulfide_due_to_emission", 3:"'unset'", 4:"CMIP5_aero" }; 
     75data[72] = { "id":72, 0:"acceldivf",  1:"Tendency of Eastward Wind from EPF Divergence", 2:"tendency_of_eastward_wind_due_to_eliassen_palm_flux_divergence", 3:"'Transformed Eulerian Mean Diagnostics Acceleration from the EP-flux divergence (D) derived from 6hr or higher frequency fields (use daily fields or 12 hr fields if the 6 hr are not available).  Please use the definitions given by equation 3.5.2a of Andrews, Holton and Leovy text book.'", 4:"CCMI1_daily,CCMI1_monthly" }; 
     76data[73] = { "id":73, 0:"cobrdn",  1:"Atmospheric Burden of CO", 2:"atmosphere_moles_of_carbon_monoxide", 3:"'total yearly average burden'", 4:"CCMI1_annual" }; 
     77data[74] = { "id":74, 0:"areacella",  1:"Atmosphere Grid-Cell Area", 2:"cell_area", 3:"'unset'", 4:"CMIP5_fx,SPECS_fx" }; 
     78data[75] = { "id":75, 0:"msftmrhoz",  1:"Ocean Meridional Overturning Mass Streamfunction", 2:"ocean_meridional_overturning_mass_streamfunction", 3:"'unset'", 4:"CMIP5_Omon" }; 
     79data[76] = { "id":76, 0:"wetsoa",  1:"Wet Deposition Rate of Dry Aerosol Secondary Organic Matter", 2:"tendency_of_atmosphere_mass_content_of_secondary_particulate_organic_matter_dry_aerosol_due_to_wet_deposition", 3:"'unset'", 4:"CMIP5_aero" }; 
     80data[77] = { "id":77, 0:"intpbfe",  1:"Iron Production", 2:"tendency_of_ocean_mole_content_of_iron_due_to_biological_production", 3:"'Vertically integrated biogenic iron production'", 4:"CMIP5_Omon" }; 
     81data[78] = { "id":78, 0:"calc",  1:"Calcite Concentration at Surface", 2:"mole_concentration_of_calcite_expressed_as_carbon_in_sea_water", 3:"'sum of particulate calcite component concentrations (e.g. Phytoplankton, Detrital, etc.)'", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     82data[79] = { "id":79, 0:"dissoc",  1:"Dissolved Organic Carbon Concentration at Surface", 2:"mole_concentration_of_dissolved_organic_carbon_in_sea_water", 3:"'unset'", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     83data[80] = { "id":80, 0:"fco2fos",  1:"Carbon Mass Flux into Atmosphere Due to Fossil Fuel Emissions of CO2", 2:"tendency_of_atmosphere_mass_content_of_carbon_dioxide_expressed_as_carbon_due_to_emission_from_fossil_fuel_combustion", 3:"'This is the prescribed anthropogenic CO2 flux from fossil fuel use, including cement production, and flaring (but not from land-use changes, agricultural burning, forest regrowth, etc.)'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites" }; 
     84data[81] = { "id":81, 0:"rsds",  1:"Surface Downwelling Shortwave Radiation", 2:"surface_downwelling_shortwave_flux_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     85data[82] = { "id":82, 0:"msftmyz",  1:"Meridional Mass Streamfunction", 2:"ocean_meridional_overturning_mass_streamfunction", 3:"'unset'", 4:"SPECS_Omon" }; 
     86data[83] = { "id":83, 0:"pnitrate",  1:"Primary Carbon Production by Phytoplankton due to Nitrate Uptake Alone", 2:"tendency_of_mole_concentration_of_particulate_organic_matter_expressed_as_carbon_in_sea_water_due_to_nitrate_utilization", 3:"'Primary (organic carbon) production by phytoplankton due to nitrate uptake alone'", 4:"CMIP5_Oyr" }; 
     87data[84] = { "id":84, 0:"pbfe",  1:"Biogenic Iron Production", 2:"tendency_of_mole_concentration_of_iron_in_sea_water_due_to_biological_production", 3:"'unset'", 4:"CMIP5_Oyr" }; 
     88data[85] = { "id":85, 0:"rldssi",  1:"Downwelling Long Wave over Sea Ice", 2:"surface_downwelling_longwave_flux_in_air", 3:"'the downwelling longwave flux in regions of sea ice divided by the area of the ocean portion of the grid cell.'", 4:"CMIP5_OImon" }; 
     89data[86] = { "id":86, 0:"swtoaaso3",  1:"All-Sky SW-RF O3 at TOA", 2:"unset", 3:"'proposed name: toa_instantaneous_shortwave_forcing_due_to_ozone'", 4:"CCMI1_monthly" }; 
     90data[87] = { "id":87, 0:"dtaus",  1:"Stratiform Cloud Optical Depth", 2:"atmosphere_optical_thickness_due_to_stratiform_cloud", 3:"'This is the in-cloud optical depth obtained by considering only the cloudy portion of the grid cell.'", 4:"CMIP5_cf3hr" }; 
     91data[88] = { "id":88, 0:"cclf2cf3tbrdn",  1:"Tendency of Atmospheric Burden of CFC-115", 2:"tendency_of_atmosphere_moles_of_cfc115", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }; 
     92data[89] = { "id":89, 0:"od550aerh2o",  1:"Aerosol Water AOD at 550nm", 2:"atmosphere_optical_thickness_due_to_water_in_ambient_aerosol", 3:"'proposed name: atmosphere_optical_thickness_due_to_water_ambient_aerosol'", 4:"CCMI1_monthly" }; 
     93data[90] = { "id":90, 0:"emivoc",  1:"Total Emission Rate of NMVOC", 2:"unset", 3:"'Integrate 3D emission field vertically to 2d field.  _If_ fixed molecular weight of NMVOC is not available in model, please provide in units of kilomole m-2 s-1 (i.e. kg m-2 s-1 as if model NMVOC had molecular weight of 1) and add a comment to your file.'", 4:"CCMI1_monthly" }; 
     94data[91] = { "id":91, 0:"rsdsdiff",  1:"Surface Diffuse Downwelling Shortwave Radiation", 2:"surface_diffuse_downwelling_shortwave_flux_in_air", 3:"'unset'", 4:"CMIP5_aero" }; 
     95data[92] = { "id":92, 0:"tsnint",  1:"Temperature at Interface Between Sea Ice and Snow", 2:"sea_ice_surface_temperature", 3:"'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.  Reported as ''missing'' in regions free of snow-covered sea ice.'", 4:"CMIP5_OImon" }; 
     96data[93] = { "id":93, 0:"dryso4",  1:"Dry Deposition Rate of SO4", 2:"tendency_of_atmosphere_mass_content_of_sulfate_dry_aerosol_due_to_dry_deposition", 3:"'unset'", 4:"CMIP5_aero" }; 
     97data[94] = { "id":94, 0:"sfmmraerh2o",  1:"Aerosol Water Mass Mixing Ratio in Lowest Model Layer", 2:"mass_fraction_of_water_in_ambient_aerosol_in_air", 3:"'aerosol water'", 4:"CCMI1_daily" }; 
     98data[95] = { "id":95, 0:"flashrate",  1:"Lightning Flash Rate", 2:"unset", 3:"'proposed name: lightning_flash_rate (units to be interpreted as counts km-2 s-1)'", 4:"CCMI1_monthly" }; 
     99data[96] = { "id":96, 0:"vmrno2",  1:"NO2 Volume Mixing Ratio", 2:"mole_fraction_of_nitrogen_dioxide_in_air", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }; 
     100data[97] = { "id":97, 0:"lwtoaaso3",  1:"All-Sky LW-RF O3 at TOA", 2:"unset", 3:"'proposed name: toa_instantaneous_longwave_forcing_due_to_ozone'", 4:"CCMI1_monthly" }; 
     101data[98] = { "id":98, 0:"masso",  1:"Sea Water Mass", 2:"sea_water_mass", 3:"'unset'", 4:"CMIP5_Omon" }; 
     102data[99] = { "id":99, 0:"vmro3cnp",  1:"Ozone Volume Mixing Ratio at Canopy Height", 2:"mole_fraction_of_ozone_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     103data[100] = { "id":100, 0:"ch3clbrdn",  1:"Atmospheric Burden of CH3Cl", 2:"atmosphere_moles_of_methyl_chloride", 3:"'total yearly average burden'", 4:"CCMI1_annual" }; 
     104data[101] = { "id":101, 0:"vmrch3ooh",  1:"CH3OOH Volume Mixing Ratio", 2:"mole_fraction_of_methyl_hydroperoxide_in_air", 3:"''", 4:"CCMI1_daily" }; 
     105data[102] = { "id":102, 0:"rlucs4co2",  1:"Upwelling Clear-Sky Longwave Radiation 4XCO2 Atmosphere", 2:"upwelling_longwave_flux_in_air_assuming_clear_sky", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     106data[103] = { "id":103, 0:"nh4",  1:"Dissolved Ammonium Concentration at Surface", 2:"mole_concentration_of_ammonium_in_sea_water", 3:"'unset'", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     107data[104] = { "id":104, 0:"co3satcalc",  1:"Mole Concentration of Calcite expressed as Carbon in Sea Water at Saturation at Surface", 2:"mole_concentration_of_calcite_expressed_as_carbon_in_sea_water_at_saturation", 3:"'unset'", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     108data[105] = { "id":105, 0:"fHarvest",  1:"Carbon Mass Flux into Atmosphere due to Crop Harvesting", 2:"surface_upward_mass_flux_of_carbon_dioxide_expressed_as_carbon_due_to_emission_from_crop_harvesting", 3:"'unset'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     109data[106] = { "id":106, 0:"h2o",  1:"Mass Fraction of Water", 2:"mass_fraction_of_water_in_air", 3:"'includes all phases of water'", 4:"CMIP5_cf3hr" }; 
     110data[107] = { "id":107, 0:"clt",  1:"Total Cloud Fraction", 2:"cloud_area_fraction", 3:"'for the whole atmospheric column, as seen from the surface or the top of the atmosphere. Include both large-scale and convective cloud.  This is a 3-hour mean.'", 4:"CMIP5_3hr" }; 
     111data[108] = { "id":108, 0:"reffgrpls",  1:"Hydrometeor Effective Radius of Stratiform Graupel", 2:"effective_radius_of_stratiform_cloud_graupel_particle", 3:"'This is defined as the in-cloud ratio of the third moment over the second moment of the particle size distribution (obtained by considering only the cloudy portion of the grid cell).'", 4:"CMIP5_cf3hr" }; 
     112data[109] = { "id":109, 0:"hfss",  1:"Surface Downward Sensible Heat Flux", 2:"surface_downward_sensible_heat_flux", 3:"''This is defined as ''where ice_free_sea over sea''''", 4:"CMIP5_Omon" }; 
     113data[110] = { "id":110, 0:"tnscliemi",  1:"Tendency of Mass Fraction of Stratiform Cloud Ice due to Evaporation of Melting Ice", 2:"tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_evaporation_of_melting_ice", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     114data[111] = { "id":111, 0:"evspsblveg",  1:"Evaporation from Canopy", 2:"water_evaporation_flux_from_canopy", 3:"'the canopy evaporation+sublimation (if present in model).'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     115data[112] = { "id":112, 0:"chlcalc",  1:"Mass Concentration of Calcareous Phytoplankton expressed as Chlorophyll in Sea Water at Surface", 2:"mass_concentration_of_calcareous_phytoplankton_expressed_as_chlorophyll_in_sea_water", 3:"'chlorophyll concentration from the calcite-producing phytoplankton component alone'", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     116data[113] = { "id":113, 0:"nppLeaf",  1:"Carbon Mass Flux due to NPP Allocation to Leaf", 2:"net_primary_productivity_of_carbon_accumulated_in_leaves", 3:"'This is the rate of carbon uptake by leaves due to NPP'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     117data[114] = { "id":114, 0:"ccl2fcclf2tbrdn",  1:"Tendency of Atmospheric Burden of CFC-113", 2:"tendency_of_atmosphere_moles_of_cfc113", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }; 
     118data[115] = { "id":115, 0:"prAdjust",  1:"Bias-Corrected Precipitation", 2:"precipitation_flux", 3:"'at surface; includes both liquid and solid phases from all types of clouds (both large-scale and convective)'", 4:"CMIP5_Amon" }; 
     119data[116] = { "id":116, 0:"wap",  1:"omega (=dp/dt)", 2:"lagrangian_tendency_of_air_pressure", 3:"'commonly referred to as ''omega'', this represents the vertical component of velocity in pressure coordinates (positive down)'", 4:"CMIP5_Amon,CMIP5_cfDay,CMIP5_cfSites,CMIP5_day" }; 
     120data[117] = { "id":117, 0:"rld",  1:"Downwelling Longwave Radiation", 2:"downwelling_longwave_flux_in_air", 3:"'Includes also the fluxes at the surface and TOA.'", 4:"CMIP5_cfMon" }; 
     121data[118] = { "id":118, 0:"vmre90s",  1:"e90s Volume Mixing Ratio", 2:"unset", 3:"'Synthetic tracer e90s, same as e90, but emitted only 40S to 90S.'", 4:"CCMI1_daily,CCMI1_monthly" }; 
     122data[119] = { "id":119, 0:"minpblz",  1:"Daily Minimum PBL Height", 2:"atmosphere_boundary_layer_thickness", 3:"''", 4:"CCMI1_daily" }; 
     123data[120] = { "id":120, 0:"ssi",  1:"Sea Ice Salinity", 2:"sea_ice_salinity", 3:"'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.  Reported as ''missing'' in regions free of sea ice.'", 4:"CMIP5_OImon" }; 
     124data[121] = { "id":121, 0:"cbrf3brdn",  1:"Atmospheric Burden of Halon 1301", 2:"atmosphere_moles_of_halon1301", 3:"'total yearly average burden'", 4:"CCMI1_annual" }; 
     125data[122] = { "id":122, 0:"cVeg",  1:"Carbon Mass in Vegetation", 2:"vegetation_carbon_content", 3:"'unset'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     126data[123] = { "id":123, 0:"mmrdust",  1:"Dust Aerosol Mass Mixing Ratio", 2:"mass_fraction_of_dust_dry_aerosol_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     127data[124] = { "id":124, 0:"pso",  1:"Sea Water Pressure at Sea Water Surface", 2:"sea_water_pressure_at_sea_water_surface", 3:"'unset'", 4:"CMIP5_Omon" }; 
     128data[125] = { "id":125, 0:"rlutcs4co2",  1:"TOA Outgoing Clear-Sky Longwave Radiation 4XCO2 Atmosphere", 2:"toa_outgoing_longwave_flux_assuming_clear_sky", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     129data[126] = { "id":126, 0:"wetso2",  1:"Wet Deposition Rate of SO2", 2:"tendency_of_atmosphere_mass_content_of_sulfur_dioxide_due_to_wet_deposition", 3:"'unset'", 4:"CMIP5_aero" }; 
     130data[127] = { "id":127, 0:"difvmto",  1:"Ocean Vertical Momentum Diffusivity due to Tides", 2:"ocean_vertical_momentum_diffusivity_due_to_tides", 3:"'unset'", 4:"CMIP5_Oclim" }; 
     131data[128] = { "id":128, 0:"rlus",  1:"Surface Upwelling Longwave Radiation", 2:"surface_upwelling_longwave_flux_in_air", 3:"'unset'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfDay,CMIP5_cfSites,CMIP5_day,CORDEX_3h,CORDEX_day,CORDEX_mon,CORDEX_sem,SPECS_day" }; 
     132data[129] = { "id":129, 0:"mmraernh4",  1:"NH4 Mass Mixing Ratio", 2:"mass_fraction_of_ammonium_dry_aerosol_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     133data[130] = { "id":130, 0:"cRoot",  1:"Carbon Mass in Roots", 2:"root_carbon_content", 3:"'including fine and coarse roots.'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     134data[131] = { "id":131, 0:"drypoa",  1:"Dry Deposition Rate of Dry Aerosol Primary Organic Matter", 2:"tendency_of_atmosphere_mass_content_of_primary_particulate_organic_matter_dry_aerosol_due_to_dry_deposition", 3:"'unset'", 4:"CMIP5_aero" }; 
     135data[132] = { "id":132, 0:"diftrebo2d",  1:"Ocean Tracer Epineutral Biharmonic Diffusivity", 2:"ocean_tracer_epineutral_biharmonic_diffusivity", 3:"'unset'", 4:"CMIP5_Oclim" }; 
     136data[133] = { "id":133, 0:"phyc",  1:"Phytoplankton Carbon Concentration at Surface", 2:"mole_concentration_of_phytoplankton_expressed_as_carbon_in_sea_water", 3:"'sum of phytoplankton carbon component concentrations.  In most (all?) cases this is the sum of phycdiat and phycmisc (i.e., ''Diatom Carbon Concentration'' and ''Non-Diatom Phytoplankton Carbon Concentration'''", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     137data[134] = { "id":134, 0:"zg200",  1:"Geopotential Height", 2:"geopotential_height", 3:"'unset'", 4:"CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem" }; 
     138data[135] = { "id":135, 0:"ccmi_day",  1:"CCMI Day", 2:"unset", 3:"'These are what each model believes the date/time (Gregorian calendar) to be at the middle of each time interval in the output (GMT, not local time).'", 4:"CCMI1_annual,CCMI1_daily,CCMI1_hourly,CCMI1_monthly" }; 
     139data[136] = { "id":136, 0:"mlotst",  1:"Ocean Mixed Layer Thickness Defined by Sigma T", 2:"ocean_mixed_layer_thickness_defined_by_sigma_t", 3:"'unset'", 4:"CMIP5_Omon" }; 
     140data[137] = { "id":137, 0:"clisccp",  1:"ISCCP Cloud Area Fraction", 2:"cloud_area_fraction_in_atmosphere_layer", 3:"'unset'", 4:"CMIP5_cfDay" }; 
     141data[138] = { "id":138, 0:"wfonocorr",  1:"Water Flux into Sea Water Without Flux Correction", 2:"water_flux_into_sea_water_without_flux_correction", 3:"'computed as the water  flux (without flux correction) into the ocean divided by the area of the ocean portion of the grid cell.'", 4:"CMIP5_Omon" }; 
     142data[139] = { "id":139, 0:"tasmax",  1:"Daily Maximum Near-Surface Air Temperature", 2:"air_temperature", 3:"'maximum near-surface (usually, 2 meter) air temperature (add cell_method attribute time: max)'", 4:"CCMI1_daily" }; 
     143data[140] = { "id":140, 0:"tasmin",  1:"Daily Minimum Near-Surface Air Temperature", 2:"air_temperature", 3:"'minimum near-surface (usually, 2 meter) air temperature (add cell_method attribute time: min)'", 4:"CCMI1_daily" }; 
     144data[141] = { "id":141, 0:"vas",  1:"Northward Near-Surface Wind Speed", 2:"northward_wind", 3:"'This is sampled synoptically.'", 4:"CMIP5_3hr" }; 
     145data[142] = { "id":142, 0:"abs550aer",  1:"Ambient Aerosol Absorption Optical Thickness at 550 nm", 2:"atmosphere_absorption_optical_thickness_due_to_ambient_aerosol", 3:"''", 4:"CCMI1_monthly" }; 
     146data[143] = { "id":143, 0:"cltisccp",  1:"ISCCP Total Total Cloud Fraction", 2:"cloud_area_fraction", 3:"'unset'", 4:"CMIP5_cfDay,CMIP5_cfMon" }; 
     147data[144] = { "id":144, 0:"evu",  1:"Eddy Viscosity Coefficient for Momentum Variables", 2:"atmosphere_momentum_diffusivity", 3:"'unset'", 4:"CMIP5_cfSites" }; 
     148data[145] = { "id":145, 0:"ch3cclf2smtbrdn",  1:"Tendency of Middle Atmosphere Burden of CH3CClF2", 2:"unset", 3:"'total yearly averaged stratospheric and mesospheric loss'", 4:"CCMI1_annual" }; 
     149data[146] = { "id":146, 0:"ta70",  1:"Air Temperature at 70 hPa", 2:"air_temperature", 3:"'Temperature on the 70 hPa surface'", 4:"CCMI1_daily" }; 
     150data[147] = { "id":147, 0:"zos",  1:"Sea Surface Height Above Geoid", 2:"sea_surface_height_above_geoid", 3:"'unset'", 4:"CMIP5_Omon" }; 
     151data[148] = { "id":148, 0:"huss",  1:"Near-Surface Specific Humidity", 2:"specific_humidity", 3:"'unset'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites,CMIP5_day" }; 
     152data[149] = { "id":149, 0:"tnsclibl",  1:"Tendency of Mass Fraction of Stratiform Cloud Ice In Air Due To Boundary Layer Mixing", 2:"tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_boundary_layer_mixing", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     153data[150] = { "id":150, 0:"bddtdip",  1:"Rate of Change of Dissolved Phosphate due to Biological Activity", 2:"tendency_of_mole_concentration_of_dissolved_inorganic_phosphate_in_sea_water_due_to_biological_processes", 3:"'Net of biological terms in time rate of change of dissolved phosphate'", 4:"CMIP5_Oyr" }; 
     154data[151] = { "id":151, 0:"va1000",  1:"Northward Wind at 1000 hPa", 2:"northward_wind", 3:"'Meridional wind on the 1000 hPa surface'", 4:"CCMI1_daily" }; 
     155data[152] = { "id":152, 0:"fbddtdic",  1:"Rate of Change of Dissolved Inorganic Carbon due to Biological Activity", 2:"tendency_of_ocean_mole_content_of_dissolved_inorganic_carbon_due_to_biological_processes", 3:"'vertical integral of net biological terms in time rate of change of dissolved inorganic carbon'", 4:"CMIP5_Omon" }; 
     156data[153] = { "id":153, 0:"zos",  1:"Sea surface height above geoid", 2:"sea_surface_height_above_geoid", 3:"'unset'", 4:"SPECS_Omon" }; 
     157data[154] = { "id":154, 0:"sootsn",  1:"Snow Soot Content", 2:"soot_content_of_surface_snow", 3:"'the entire land portion of the grid cell is considered, with snow soot content set to 0.0 in regions free of snow.'", 4:"CMIP5_LImon" }; 
     158data[155] = { "id":155, 0:"orog",  1:"Surface Altitude", 2:"surface_altitude", 3:"'height above the geoid; as defined here, ''the geoid'' is a surface of constant geopotential that, if the ocean were at rest, would coincide with mean sea level. Under this definition, the geoid changes as the mean volume of the ocean changes (e.g., due to glacial melt, or global warming of the ocean).  Report here the height above the present-day geoid.  Over ocean, report as 0.0'", 4:"CCMI1_annual,CCMI1_daily,CCMI1_fixed,CCMI1_hourly,CCMI1_monthly,CMIP5_6hrLev,CMIP5_Amon,CMIP5_aero,CMIP5_cf3hr,CMIP5_cfDay,CMIP5_cfMon,CMIP5_cfSites,CORDEX_fx,SPECS_6hr,SPECS_Amon" }; 
     159data[156] = { "id":156, 0:"cf2cl2tbrdn",  1:"Tendency of Atmospheric Burden of CFC-12", 2:"tendency_of_atmosphere_moles_of_cfc12", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }; 
     160data[157] = { "id":157, 0:"ts",  1:"Surface Temperature", 2:"surface_temperature", 3:"'skin temperature - i.e SST for open ocean'", 4:"CCMI1_daily" }; 
     161data[158] = { "id":158, 0:"zostoga",  1:"Global Average Thermosteric Sea Level Change", 2:"global_average_thermosteric_sea_level_change", 3:"'unset'", 4:"CMIP5_Omon" }; 
     162data[159] = { "id":159, 0:"frc",  1:"Downward Carbon Flux at Ocean Bottom", 2:"tendency_of_ocean_mole_content_of_carbon_due_to_sedimentation", 3:"'Carbon loss to sediments'", 4:"CMIP5_Omon" }; 
     163data[160] = { "id":160, 0:"rhs",  1:"Near-Surface Relative Humidity", 2:"relative_humidity", 3:"'This is the relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C.'", 4:"CMIP5_day" }; 
     164data[161] = { "id":161, 0:"concaerh2o",  1:"Concentration of Aerosol Water", 2:"mass_concentration_of_water_in_ambient_aerosol_in_air", 3:"''''ambient'' means ''wetted''''", 4:"CMIP5_aero" }; 
     165data[162] = { "id":162, 0:"zmbr",  1:"Zonal Mean Br Volume Mixing Ratio", 2:"mole_fraction_of_atomic_bromine_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     166data[163] = { "id":163, 0:"cotbrdn",  1:"Tendency of Atmospheric Burden of CO", 2:"tendency_of_atmosphere_moles_of_carbon_monoxide", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }; 
     167data[164] = { "id":164, 0:"od550lt1aer",  1:"Ambient Fine Aerosol Optical Thickness at 550 nm", 2:"atmosphere_optical_thickness_due_to_pm1_ambient_aerosol", 3:"'od550 due to particles with wet diameter less than 1 um  ('ambient' means 'wetted'). When models do not include explicit size information, it can be assumed that all anthropogenic aerosols and natural secondary aerosols have diameter less than 1 um.'", 4:"CCMI1_monthly" }; 
     168data[165] = { "id":165, 0:"areacella",  1:"Atmosphere Grid-Cell Area", 2:"cell_area", 3:"'For atmospheres with more than 1 mesh (e.g., staggered grids), report areas that apply to surface vertical fluxes of energy.'", 4:"CCMI1_fixed,CORDEX_fx" }; 
     169data[166] = { "id":166, 0:"clw",  1:"Mass Fraction of Cloud Liquid Water", 2:"mass_fraction_of_cloud_liquid_water_in_air", 3:"'Includes both large-scale and convective cloud. Calculate as the mass of cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cells.  Precipitating hydrometeors are included ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.'", 4:"CCMI1_monthly" }; 
     170data[167] = { "id":167, 0:"sic",  1:"Sea Ice Area Fraction", 2:"sea_ice_area_fraction", 3:"'fraction of grid cell covered by sea ice. Report on ocean's grid.'", 4:"CORDEX_day" }; 
     171data[168] = { "id":168, 0:"ch3cclf2brdn",  1:"Atmospheric Burden of CH3CClF2", 2:"atmosphere_moles_of_hcfc142b", 3:"'total yearly average burden'", 4:"CCMI1_annual" }; 
     172data[169] = { "id":169, 0:"cfadLidarsr532",  1:"CALIPSO Scattering Ratio CFAD", 2:"histogram_of_backscattering_ratio_over_height_above_reference_ellipsoid", 3:"'CFADs (Cloud Frequency Altitude Diagrams) are joint height - radar reflectivity (or lidar scattering ratio) distributions.'", 4:"CMIP5_cf3hr,CMIP5_cfOff" }; 
     173data[170] = { "id":170, 0:"nep",  1:"Net Carbon Mass Flux out of Atmophere due to Net Ecosystem Productivity on Land.", 2:"surface_net_downward_mass_flux_of_carbon_dioxide_expressed_as_carbon_due_to_all_land_processes_excluding_anthropogenic_land_use_change", 3:"'Natural flux of CO2 (expressed as a mass flux of carbon) from the atmosphere to the land calculated as the difference between uptake associated will photosynthesis and the release of CO2 from the sum of plant and soil respiration and fire.  Positive flux is into the land.  emissions from natural fires + human ignition fires as calculated by the fire module of the DGVM, but excluding any CO2 flux from fire included in fLuc, defined below (CO2 Flux to Atmosphere from Land Use Change).'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     174data[171] = { "id":171, 0:"eminh3",  1:"Total Emission Rate of NH3", 2:"tendency_of_atmosphere_mass_content_of_ammonia_due_to_emission", 3:"'unset'", 4:"CMIP5_aero" }; 
     175data[172] = { "id":172, 0:"fddtdin",  1:"Rate of Change of Net Dissolved Inorganic Nitrogen", 2:"tendency_of_ocean_mole_content_of_dissolved_inorganic_nitrogen", 3:"'Net time rate of change of nitrogen nutrients (e.g. NO3+NH4)'", 4:"CMIP5_Omon" }; 
     176data[173] = { "id":173, 0:"od550dust",  1:"Dust AOD at 550nm", 2:"atmosphere_optical_thickness_due_to_dust_ambient_aerosol", 3:"''", 4:"CCMI1_monthly" }; 
     177data[174] = { "id":174, 0:"cSoil",  1:"Carbon Mass in Soil Pool", 2:"soil_carbon_content", 3:"'unset'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     178data[175] = { "id":175, 0:"tossq",  1:"Square of Sea Surface Temperature", 2:"square_of_sea_surface_temperature", 3:"'unset'", 4:"CMIP5_Omon" }; 
     179data[176] = { "id":176, 0:"cldnci",  1:"Ice Crystal Number Concentration of Cloud Tops", 2:"number_concentration_of_ice_crystals_in_air_at_ice_cloud_top", 3:"'concentration ''as seen from space'' over ice-cloud portion of grid cell.  This is the value from uppermost model layer with ice cloud or, if available, it is the sum over all ice cloud tops, no matter where they occur, as long as they are seen from the top of the atmosphere. Weight by total ice cloud top fraction (as seen from TOA) of each time sample when computing monthly mean.'", 4:"CMIP5_aero" }; 
     180data[177] = { "id":177, 0:"emibc",  1:"Emission Rate of Black Carbon Aerosol Mass", 2:"tendency_of_atmosphere_mass_content_of_black_carbon_dry_aerosol_due_to_emission", 3:"'unset'", 4:"CMIP5_aero" }; 
     181data[178] = { "id":178, 0:"rsdcs",  1:"Downwelling Clear-Sky Shortwave Radiation", 2:"downwelling_shortwave_flux_in_air_assuming_clear_sky", 3:"'Includes also the fluxes at the surface and TOA.'", 4:"CMIP5_cfMon" }; 
     182data[179] = { "id":179, 0:"grLateral",  1:"Lateral Sea Ice Growth Rate", 2:"tendency_of_sea_ice_amount_due_to_lateral_growth_of_ice_floes", 3:"'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.  Reported as 0.0 in regions free of sea ice.'", 4:"CMIP5_OImon" }; 
     183data[180] = { "id":180, 0:"tnsclwce",  1:"Tendency of Mass Fraction of Stratiform Cloud Liquid Water due to Condensation and Evaporation", 2:"tendency_of_mass_fraction_of_stratiform_cloud_liquid_water_in_air_due_to_condensation_and_evaporation", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     184data[181] = { "id":181, 0:"snld",  1:"snow depth", 2:"lwe_thickness_of_surface_snow_amount", 3:"'unset'", 4:"SPECS_Amon" }; 
     185data[182] = { "id":182, 0:"uas",  1:"Eastward Near-Surface Wind Speed", 2:"eastward_wind", 3:"'This is sampled synoptically.'", 4:"CMIP5_3hr" }; 
     186data[183] = { "id":183, 0:"swtoacsbcff",  1:"Clear-Sky SW-RF BCFF at TOA", 2:"unset", 3:"'proposed name: toa_instantaneous_shortwave_forcing_due_to_black_carbon_ambient_aerosol_from_fossil_fuels_assuming_clear_sky'", 4:"CCMI1_monthly" }; 
     187data[184] = { "id":184, 0:"wp",  1:"Wilting Point", 2:"volume_fraction_of_condensed_water_in_soil_at_wilting_point", 3:"''Condensed water' means liquid and ice. 'Volume fraction' is used in the construction volume_fraction_of_X_in_Y, where X is a material constituent of Y. The wilting point of soil is the water content below which plants cannot extract sufficient water to balance their loss through transpiration.'", 4:"SPECS_fx" }; 
     188data[185] = { "id":185, 0:"prodo1d",  1:"Chemical Gross Production Rate of O_1D", 2:"unset", 3:"'proposed name: tendency_of_mole_concentration_of_O1D_by_chemical_gross_production'", 4:"CCMI1_monthly" }; 
     189data[186] = { "id":186, 0:"wetpoa",  1:"Wet Deposition Rate of Dry Aerosol Primary Organic Matter", 2:"tendency_of_atmosphere_mass_content_of_primary_particulate_organic_matter_dry_aerosol_due_to_wet_deposition", 3:"'unset'", 4:"CMIP5_aero" }; 
     190data[187] = { "id":187, 0:"mmrsoa",  1:"SOA Mass Mixing Ratio", 2:"mass_fraction_of_secondary_particulate_organic_matter_dry_aerosol_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     191data[188] = { "id":188, 0:"tnhusscpbl",  1:"Tendency of Specific Humidity due to Stratiform Cloud Condensation and Evaporation", 2:"tendency_of_specific_humidity_due_to_stratiform_cloud_and_precipitation_and_boundary_layer_mixing", 3:"'unset'", 4:"CMIP5_cfMon,CMIP5_cfSites" }; 
     192data[189] = { "id":189, 0:"bsi",  1:"Particulate Biogenic Silica Concentration at Surface", 2:"mole_concentration_of_particulate_matter_expressed_as_silicon_in_sea_water", 3:"'sum of particulate silica component concentrations'", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     193data[190] = { "id":190, 0:"lai",  1:"Leaf Area Index", 2:"leaf_area_index", 3:"''", 4:"CCMI1_monthly" }; 
     194data[191] = { "id":191, 0:"rsut",  1:"TOA Outgoing Shortwave Radiation", 2:"toa_outgoing_shortwave_flux", 3:"'unset'", 4:"CMIP5_cfDay,CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem" }; 
     195data[192] = { "id":192, 0:"sbl",  1:"Surface Snow and Ice Sublimation Flux", 2:"surface_snow_and_ice_sublimation_flux", 3:"'The snow and ice sublimation flux is the loss of snow and ice mass from the surface resulting from their conversion to water vapor that enters the atmosphere.'", 4:"CMIP5_Amon" }; 
     196data[193] = { "id":193, 0:"detoc",  1:"Detrital Organic Carbon Concentration at Surface", 2:"mole_concentration_of_organic_detritus_expressed_as_carbon_in_sea_water", 3:"'sum of detrital organic carbon component concentrations'", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     197data[194] = { "id":194, 0:"sfmmraerno3",  1:"Aerosol Nitrate Mass Mixing Ratio in the Lowest Model Layer", 2:"mass_fraction_of_nitrate_dry_aerosol_in_air", 3:"'NO3 aerosol'", 4:"CCMI1_daily" }; 
     198data[195] = { "id":195, 0:"zmch3ooh",  1:"Zonal Mean CH3OOH Volume Mixing Ratio", 2:"mole_fraction_of_methyl_hydroperoxide_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     199data[196] = { "id":196, 0:"od550aer",  1:"Ambient Aerosol Optical Thickness at 550 nm", 2:"atmosphere_optical_thickness_due_to_ambient_aerosol", 3:"'AOD from the ambient aerosols (i.e., includes aerosol water).  Does not include AOD from stratospheric aerosols if these are prescribed but includes other possible background aerosol types. Needs a comment attribute 'wavelength: 550 nm'.'", 4:"CCMI1_monthly" }; 
     200data[197] = { "id":197, 0:"zg1000",  1:"Geopotential Height at 1000 hPa", 2:"geopotential_height", 3:"'Geopotential height on the 1000 hPa surface'", 4:"CCMI1_daily" }; 
     201data[198] = { "id":198, 0:"dispkexyfo2d",  1:"Ocean Kinetic Energy Dissipation Per Unit Area due to XY Friction", 2:"ocean_kinetic_energy_dissipation_per_unit_area_due_to_xy_friction", 3:"'unset'", 4:"CMIP5_Oclim" }; 
     202data[199] = { "id":199, 0:"ta",  1:"Air Temperature", 2:"air_temperature", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }; 
     203data[200] = { "id":200, 0:"emiasoa",  1:"Total Emission of Anthropogenic SOA", 2:"unset", 3:"'integrate 3D emission field vertically to 2d field. This can be a pseudo-emission flux as used in AEROCOM (Dentener et al, ACP, 2006) or the net production of SOA in the atmosphere resulting from the oxidation of terpenes'", 4:"CCMI1_monthly" }; 
     204data[201] = { "id":201, 0:"fLuc",  1:"Net Carbon Mass Flux into Atmosphere due to Land Use Change", 2:"surface_net_upward_mass_flux_of_carbon_dioxide_expressed_as_carbon_due_to_emission_from_anthropogenic_land_use_change", 3:"'human changes to land (excluding forest regrowth) accounting possibly for different time-scales related to fate of the wood, for example.'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     205data[202] = { "id":202, 0:"hfls",  1:"Surface Upward Latent Heat Flux", 2:"surface_upward_latent_heat_flux", 3:"'unset'", 4:"CMIP5_cfDay" }; 
     206data[203] = { "id":203, 0:"od550lt1aer",  1:"Ambient Fine Aerosol Optical Thickness at 550 nm", 2:"atmosphere_optical_thickness_due_to_pm1_ambient_aerosol", 3:"'od550 due to particles with wet diameter less than 1 um  (''ambient'' means ''wetted''). When models do not include explicit size information, it can be assumed that all anthropogenic aerosols and natural secondary aerosols have diameter less than 1 um.'", 4:"CMIP5_aero" }; 
     207data[204] = { "id":204, 0:"fgo2",  1:"Surface Downward O2 Flux", 2:"surface_downward_mole_flux_of_molecular_oxygen", 3:"'Gas exchange flux of O2 (positive into ocean)'", 4:"CMIP5_Omon" }; 
     208data[205] = { "id":205, 0:"rhopoto",  1:"Sea Water Potential Density", 2:"sea_water_potential_density", 3:"'unset'", 4:"CMIP5_Omon" }; 
     209data[206] = { "id":206, 0:"vmrbrcl",  1:"BrCl Volume Mixing Ratio", 2:"mole_fraction_of_bromine_chloride_in_air", 3:"''", 4:"CCMI1_daily" }; 
     210data[207] = { "id":207, 0:"wetdms",  1:"Wet Deposition Rate of DMS", 2:"tendency_of_atmosphere_mass_content_of_dimethyl_sulfide_due_to_wet_deposition", 3:"''", 4:"CCMI1_monthly" }; 
     211data[208] = { "id":208, 0:"vsfsit",  1:"Virtual Salt Flux into Sea Water due to Sea Ice Thermodynamics", 2:"virtual_salt_flux_into_sea_water_due_to_sea_ice_thermodynamics", 3:"'This variable measures the virtual salt flux into sea water due to the melting of sea ice. It is set to zero in models which receive a real water flux.'", 4:"CMIP5_Omon" }; 
     212data[209] = { "id":209, 0:"difvmo",  1:"Ocean Vertical Momentum Diffusivity", 2:"ocean_vertical_momentum_diffusivity", 3:"'unset'", 4:"CMIP5_Oclim" }; 
     213data[210] = { "id":210, 0:"difvtrbo",  1:"Ocean Vertical Tracer Diffusivity due to Background", 2:"ocean_vertical_tracer_diffusivity_due_to_background", 3:"'unset'", 4:"CMIP5_Oclim" }; 
     214data[211] = { "id":211, 0:"drydms",  1:"Dry Deposition Rate of DMS", 2:"tendency_of_atmosphere_mass_content_of_dimethyl_sulfide_due_to_dry_deposition", 3:"'dry deposition includes gravitational settling, impact scavenging, and turbulent deposition'", 4:"CCMI1_monthly" }; 
     215data[212] = { "id":212, 0:"concdms",  1:"Mole Fraction of DMS", 2:"mole_fraction_of_dimethyl_sulfide_in_air", 3:"'unset'", 4:"CMIP5_aero" }; 
     216data[213] = { "id":213, 0:"wa50",  1:"Upward Wind at 50 hPa", 2:"upward_air_velocity", 3:"'Upward wind on the 50 hPa surface'", 4:"CCMI1_daily" }; 
     217data[214] = { "id":214, 0:"tnhusmp",  1:"Tendency of Specific Humidity due to Model Physics", 2:"tendency_of_specific_humidity_due_to_model_physics", 3:"'unset'", 4:"CMIP5_cfSites" }; 
     218data[215] = { "id":215, 0:"tnsclicm",  1:"Tendency of Mass Fraction of Stratiform Cloud Ice In Air Due To Cloud Microphysics", 2:"tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_cloud_microphysics", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     219data[216] = { "id":216, 0:"prsn",  1:"Snowfall Flux", 2:"snowfall_flux", 3:"'at surface; includes precipitation of all forms of water in the solid phase'", 4:"CMIP5_Amon" }; 
     220data[217] = { "id":217, 0:"tsn",  1:"Snow Internal Temperature", 2:"temperature_in_surface_snow", 3:"'This temperature is averaged over all the snow in the grid cell that rests on land or land ice.  When computing the time-mean here, the time samples, weighted by the mass of snow on the land portion of the grid cell, are accumulated and then divided by the sum of the weights.   Reported as ''missing in regions free of snow on land.'", 4:"CMIP5_LImon" }; 
     221data[218] = { "id":218, 0:"fGrazing",  1:"Carbon Mass Flux into Atmosphere due to Grazing on Land", 2:"surface_upward_mass_flux_of_carbon_dioxide_expressed_as_carbon_due_to_emission_from_grazing", 3:"'unset'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     222data[219] = { "id":219, 0:"od550ss",  1:"Seasalt AOD at 550nm", 2:"atmosphere_optical_thickness_due_to_seasalt_ambient_aerosol", 3:"''", 4:"CCMI1_monthly" }; 
     223data[220] = { "id":220, 0:"tnsccwa",  1:"Tendency of Mass Fraction of Stratiform Cloud Condensed Water due to Advection", 2:"tendency_of_mass_fraction_of_stratiform_cloud_condensed_water_in_air_due_to_advection", 3:"'condensed water includes both liquid and ice.'", 4:"CMIP5_cfMon" }; 
     224data[221] = { "id":221, 0:"dissic",  1:"Dissolved Inorganic Carbon Concentration at Surface", 2:"mole_concentration_of_dissolved_inorganic_carbon_in_sea_water", 3:"'Dissolved inorganic carbon (CO3+HCO3+H2CO3) concentration'", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     225data[222] = { "id":222, 0:"rlds",  1:"Surface Downwelling Longwave Radiation", 2:"surface_downwelling_longwave_flux_in_air", 3:"'unset'", 4:"CMIP5_Amon" }; 
     226data[223] = { "id":223, 0:"zmchclf2",  1:"Zonal Mean CHClF2 Volume Mixing Ratio", 2:"mole_fraction_of_hcfc22_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     227data[224] = { "id":224, 0:"hflssi",  1:"Surface Upward Latent Heat Flux over Sea Ice", 2:"surface_upward_latent_heat_flux", 3:"'the upward latent heat flux in regions of sea ice divided by the area of the ocean portion of the grid cell.'", 4:"CMIP5_OImon" }; 
     228data[225] = { "id":225, 0:"vmrhcl",  1:"HCl Volume Mixing Ratio", 2:"mole_fraction_of_hydrogen_chloride_in_air", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }; 
     229data[226] = { "id":226, 0:"difmxylo2d",  1:"Ocean Momentum XY Laplacian Diffusivity", 2:"ocean_momentum_xy_laplacian_diffusivity", 3:"'unset'", 4:"CMIP5_Oclim" }; 
     230data[227] = { "id":227, 0:"clt",  1:"Total Cloud Fraction", 2:"cloud_area_fraction", 3:"'for the whole atmospheric column, as seen from the surface or the top of the atmosphere. Include both large-scale and convective cloud.'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites,CORDEX_3h,CORDEX_day,CORDEX_mon,CORDEX_sem,SPECS_6hr,SPECS_Amon,SPECS_day" }; 
     231data[228] = { "id":228, 0:"fsfe",  1:"Surface Downward Net Flux of Iron", 2:"tendency_of_ocean_mole_content_of_iron_due_to_deposition_and_runoff_and_sediment_dissolution", 3:"'Iron supply through deposition flux onto sea surface, runoff, coasts, sediments, etc'", 4:"CMIP5_Omon" }; 
     232data[229] = { "id":229, 0:"dyrlut",  1:"TOA Outgoing Longwave Radiation", 2:"toa_outgoing_longwave_flux", 3:"'outgoing longwave irradiance'", 4:"CCMI1_daily" }; 
     233data[230] = { "id":230, 0:"cfcl3tbrdn",  1:"Tendency of Atmospheric Burden of CFC-11", 2:"tendency_of_atmosphere_moles_of_cfc11", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }; 
     234data[231] = { "id":231, 0:"lwclrefc",  1:"Clouds TOA LW-RF With Reference Composition", 2:"unset", 3:"'proposed name: toa_instantaneous_longwave_forcing_due_to_clouds_with_reference_composition'", 4:"CCMI1_monthly" }; 
     235data[232] = { "id":232, 0:"loadbc",  1:"Load of Black Carbon Aerosol", 2:"atmosphere_mass_content_of_black_carbon_dry_aerosol", 3:"'unset'", 4:"CMIP5_aero" }; 
     236data[233] = { "id":233, 0:"no3",  1:"Dissolved Nitrate Concentration at Surface", 2:"mole_concentration_of_nitrate_in_sea_water", 3:"'unset'", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     237data[234] = { "id":234, 0:"difmxybo",  1:"Ocean Momentum XY Biharmonic Diffusivity", 2:"ocean_momentum_xy_biharmonic_diffusivity", 3:"'unset'", 4:"CMIP5_Oclim" }; 
     238data[235] = { "id":235, 0:"zmhno3",  1:"Zonal Mean HNO3 Volume Mixing Ratio", 2:"mole_fraction_of_nitric_acid_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     239data[236] = { "id":236, 0:"vmrco25",  1:"co_25 Volume Mixing Ratio", 2:"unset", 3:"'Emitted as anthropogenic CO (emission file available from HTAP, ftp://ftp.retro.enes.org/pub/emissions/aggregated/anthro/0.5x0.5/2000/RETRO_ANTHRO_V2_2000_CO_aggregated.nc but only use annual mean), uniform fixed 25-day exponential decay.'", 4:"CCMI1_monthly" }; 
     240data[237] = { "id":237, 0:"rldcs",  1:"Downwelling Clear-Sky Longwave Radiation", 2:"downwelling_longwave_flux_in_air_assuming_clear_sky", 3:"'Includes also the fluxes at the surface and TOA.'", 4:"CMIP5_cfMon" }; 
     241data[238] = { "id":238, 0:"ts",  1:"Surface Temperature", 2:"surface_temperature", 3:"'''skin'' temperature (i.e., SST for open ocean)'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites,CORDEX_6h,CORDEX_day,SPECS_Amon" }; 
     242data[239] = { "id":239, 0:"hurs",  1:"Near-Surface Relative Humidity", 2:"relative_humidity", 3:"'This is the relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C.'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites" }; 
     243data[240] = { "id":240, 0:"vmrco",  1:"CO Volume Mixing Ratio", 2:"mole_fraction_of_carbon_monoxide_in_air", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }; 
     244data[241] = { "id":241, 0:"reffrains",  1:"Hydrometeor Effective Radius of Stratiform Rainfall", 2:"effective_radius_of_stratiform_cloud_rain_particle", 3:"'This is defined as the in-cloud ratio of the third moment over the second moment of the particle size distribution (obtained by considering only the cloudy portion of the grid cell).'", 4:"CMIP5_cf3hr" }; 
     245data[242] = { "id":242, 0:"tnsclwcm",  1:"Tendency of Mass Fraction of Stratiform Cloud Liquid Water In Air Due To Cloud Microphysics", 2:"tendency_of_mass_fraction_of_stratiform_cloud_liquid_water_in_air_due_to_cloud_microphysics", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     246data[243] = { "id":243, 0:"zmhcl",  1:"Zonal mean HCl Volume Mixing Ratio", 2:"mole_fraction_of_hydrogen_chloride_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     247data[244] = { "id":244, 0:"snw",  1:"Surface Snow Amount", 2:"surface_snow_amount", 3:"'Compute as the mass of surface snow on the land portion of the grid cell divided by the land area in the grid cell; report 0.0 where the land fraction is 0; exclude snow on vegetation canopy or on sea ice.'", 4:"CCMI1_daily" }; 
     248data[245] = { "id":245, 0:"bddtdic",  1:"Rate of Change of Dissolved Inorganic Carbon due to Biological Activity", 2:"tendency_of_mole_concentration_of_dissolved_inorganic_carbon_in_sea_water_due_to_biological_processes", 3:"'Net of biological terms in time rate of change of dissolved inorganic carbon'", 4:"CMIP5_Oyr" }; 
     249data[246] = { "id":246, 0:"msftmyza",  1:"Meridional Mass Streamfunction in the Atlantic", 2:"ocean_meridional_overturning_mass_streamfunction", 3:"'unset'", 4:"SPECS_Omon" }; 
     250data[247] = { "id":247, 0:"rh",  1:"Carbon Mass Flux into Atmosphere due to Heterotrophic Respiration on Land", 2:"heterotrophic_respiration_carbon_flux", 3:"'unset'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     251data[248] = { "id":248, 0:"cSoilSlow",  1:"Carbon Mass in Slow Soil Pool", 2:"slow_soil_pool_carbon_content", 3:"'fast is meant as lifetime of more than 100 years for  reference climate conditions (20 C, no water limitations)'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     252data[249] = { "id":249, 0:"va850",  1:"Northward Wind", 2:"northward_wind", 3:"'unset'", 4:"CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem" }; 
     253data[250] = { "id":250, 0:"zg500",  1:"Geopotential Height", 2:"geopotential_height", 3:"'unset'", 4:"CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem" }; 
     254data[251] = { "id":251, 0:"hfydiff",  1:"Ocean Heat Y Transport due to Diffussion", 2:"ocean_heat_y_transport_due_to_diffusion", 3:"'unset'", 4:"CMIP5_Omon" }; 
     255data[252] = { "id":252, 0:"c2hf3cl2smtbrdn",  1:"Tendency of Middle Atmosphere Burden of C2HF3Cl2", 2:"unset", 3:"'total yearly averaged stratospheric and mesospheric loss'", 4:"CCMI1_annual" }; 
     256data[253] = { "id":253, 0:"swtoacsoaff",  1:"Clear-Sky SW-RF OAFF at TOA Anthropogenic", 2:"unset", 3:"'proposed name: toa_instantaneous_shortwave_forcing_due_to_particulate_organic_matter_ambient_aerosol_from_fossil_fuels_assuming_clear_sky'", 4:"CCMI1_monthly" }; 
     257data[254] = { "id":254, 0:"do3chm",  1:"Layer-Integrated Net Chemistry Tendency of O3", 2:"unset", 3:"'Calculated as the O3 mass after the chemistry operator less the O3 mass before the chemistry operator excluding surface deposition'", 4:"CCMI1_monthly" }; 
     258data[255] = { "id":255, 0:"tos",  1:"Sea Surface Temperature", 2:"sea_surface_temperature", 3:"'this may differ from 'surface temperature' in regions of sea ice.'", 4:"CCMI1_monthly" }; 
     259data[256] = { "id":256, 0:"fLitterSoil",  1:"Total Carbon Mass Flux from Litter to Soil", 2:"carbon_mass_flux_into_soil_from_litter", 3:"'unset'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     260data[257] = { "id":257, 0:"rtmt",  1:"Net Downward Flux at Top of Model", 2:"net_downward_radiative_flux_at_top_of_atmosphere_model", 3:"'i.e., at the top of that portion of the atmosphere where dynamics are explicitly treated by the model. This is reported only if it differs from the net downward radiative flux at the top of the atmosphere.'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites" }; 
     261data[258] = { "id":258, 0:"fescav",  1:"Nonbiogenic Iron Scavenging", 2:"tendency_of_mole_concentration_of_dissolved_iron_in_sea_water_due_to_scavenging_by_inorganic_particles", 3:"'Dissolved Fe removed through nonbiogenic scavenging onto particles'", 4:"CMIP5_Oyr" }; 
     262data[259] = { "id":259, 0:"reffclwc",  1:"Convective Cloud Droplet Effective Radius", 2:"effective_radius_of_convective_cloud_liquid_water_particle", 3:"'Droplets are liquid.  The effective radius is defined as the ratio of the third moment over the second moment of the particle size distribution and the time-mean should be calculated, weighting the individual samples by the cloudy fraction of the grid cell.'", 4:"CMIP5_aero" }; 
     263data[260] = { "id":260, 0:"rsu",  1:"Upwelling Shortwave Radiation", 2:"upwelling_shortwave_flux_in_air", 3:"'Includes also the fluxes at the surface and TOA.'", 4:"CMIP5_cfMon" }; 
     264data[261] = { "id":261, 0:"ua200",  1:"Eastward Wind", 2:"eastward_wind", 3:"'unset'", 4:"CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem" }; 
     265data[262] = { "id":262, 0:"mrso",  1:"Total Soil Moisture Content", 2:"soil_moisture_content", 3:"'the mass per unit area  (summed over all soil layers) of water in all phases.'", 4:"CMIP5_Lmon" }; 
     266data[263] = { "id":263, 0:"lts",  1:"Lower Tropospheric Stability", 2:"unset", 3:"'proposed name: potential_temperature_difference_between_700hPa_and_1000hPa (Lower Tropospheric Stability)'", 4:"CCMI1_monthly" }; 
     267data[264] = { "id":264, 0:"zmch3ccl3",  1:"Zonal Mean CH3CCl3 Volume Mixing Ratio", 2:"mole_fraction_of_hcc140a_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     268data[265] = { "id":265, 0:"zmco",  1:"Zonal Mean CO Volume Mixing Ratio", 2:"mole_fraction_of_carbon_monoxide_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     269data[266] = { "id":266, 0:"rsdssi",  1:"Downwelling Shortwave over Sea Ice", 2:"surface_downwelling_shortwave_flux_in_air", 3:"'the downwelling shortwave flux in regions of sea ice divided by the area of the ocean portion of the grid cell.'", 4:"CMIP5_OImon" }; 
     270data[267] = { "id":267, 0:"clcalipso",  1:"CALIPSO Cloud Area Fraction", 2:"cloud_area_fraction_in_atmosphere_layer", 3:"'unset'", 4:"CMIP5_cf3hr,CMIP5_cfDay,CMIP5_cfMon,CMIP5_cfOff" }; 
     271data[268] = { "id":268, 0:"rsutcs4co2",  1:"TOA Outgoing Clear-Sky Shortwave Radiation 4XCO2 Atmosphere", 2:"toa_outgoing_shortwave_flux_assuming_clear_sky", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     272data[269] = { "id":269, 0:"n2oClim",  1:"Mole Fraction of N2O", 2:"mole_fraction_of_nitrous_oxide_in_air", 3:"'unset'", 4:"CMIP5_Amon" }; 
     273data[270] = { "id":270, 0:"wmo",  1:"Upward Ocean Mass Transport", 2:"upward_ocean_mass_transport", 3:"'differs from CMIP3, which only had upward velocity.'", 4:"CMIP5_Omon,SPECS_Omon" }; 
     274data[271] = { "id":271, 0:"cLeaf",  1:"Carbon Mass in Leaves", 2:"leaf_carbon_content", 3:"'unset'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     275data[272] = { "id":272, 0:"cod",  1:"Cloud Optical Depth", 2:"atmosphere_optical_thickness_due_to_cloud", 3:"'This is the in-cloud optical depth obtained by considering only the cloudy portion of the grid cell.'", 4:"CCMI1_daily" }; 
     276data[273] = { "id":273, 0:"lwsnl",  1:"Liquid Water Content of Snow Layer", 2:"liquid_water_content_of_snow_layer", 3:"'where land over land: this is computed as the total mass of liquid water contained interstitially within the snow layer of the land portion of a grid cell divided by the area of the land portion of the cell.'", 4:"CMIP5_LImon" }; 
     277data[274] = { "id":274, 0:"rlut",  1:"TOA Outgoing Longwave Radiation", 2:"toa_outgoing_longwave_flux", 3:"'at the top of the atmosphere.'", 4:"CMIP5_day,CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem,SPECS_day" }; 
     278data[275] = { "id":275, 0:"fbddtdip",  1:"Rate of Change of Dissolved Inorganic Phosphate due to Biological Activity", 2:"tendency_of_ocean_mole_content_of_dissolved_inorganic_phosphorus_due_to_biological_processes", 3:"'vertical integral of net biological terms in time rate of change of phosphate'", 4:"CMIP5_Omon" }; 
     279data[276] = { "id":276, 0:"zmn2o5",  1:"Zonal Mean N2O5 Volume Mixing Ratio", 2:"mole_fraction_of_dinitrogen_pentoxide_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     280data[277] = { "id":277, 0:"hfsifrazil",  1:"Heat Flux into Sea Water due to Frazil Ice Formation", 2:"heat_flux_into_sea_water_due_to_freezing_of_frazil_ice", 3:"'unset'", 4:"CMIP5_Omon" }; 
     281data[278] = { "id":278, 0:"clwvi",  1:"Condensed Water Path", 2:"atmosphere_cloud_condensed_water_content", 3:"'mass of condensed (liquid + ice) water in the column divided by the area of the column (not just the area of the cloudy portion of the column). Includes precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites" }; 
     282data[279] = { "id":279, 0:"rldscs",  1:"Surface Downwelling Clear-Sky Longwave Radiation", 2:"surface_downwelling_longwave_flux_in_air_assuming_clear_sky", 3:"'unset'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfDay,CMIP5_cfSites" }; 
     283data[280] = { "id":280, 0:"hfbasin",  1:"Northward Ocean Heat Transport", 2:"northward_ocean_heat_transport", 3:"'unset'", 4:"CMIP5_Omon" }; 
     284data[281] = { "id":281, 0:"diftrbbo",  1:"Ocean Tracer Bolus Biharmonic Diffusivity", 2:"ocean_tracer_bolus_biharmonic_diffusivity", 3:"'unset'", 4:"CMIP5_Oclim" }; 
     285data[282] = { "id":282, 0:"cl",  1:"Cloud Area Fraction", 2:"cloud_area_fraction_in_atmosphere_layer", 3:"'Includes both large-scale and convective cloud.'", 4:"CMIP5_Amon,CMIP5_cfSites" }; 
     286data[283] = { "id":283, 0:"emibb",  1:"Total Emission of Primary Aerosol from Biomass Burning", 2:"tendency_of_atmosphere_mass_content_of_primary_particulate_organic_matter_dry_aerosol_due_to_emission", 3:"'tendency of atmosphere mass content of primary organic matter dry aerosol due to emission: This does not include sources of secondary aerosols from biomass burning aerosols, such as SO2 or SOA.'", 4:"CMIP5_aero" }; 
     287data[284] = { "id":284, 0:"tnsccwce",  1:"Tendency of Mass Fraction of Stratiform Cloud Condensed Water due to Condensation and Evaporation", 2:"tendency_of_mass_fraction_of_stratiform_cloud_condensed_water_in_air_due_to_condensation_and_evaporation", 3:"'condensed water includes both liquid and ice.'", 4:"CMIP5_cfMon" }; 
     288data[285] = { "id":285, 0:"sh50area188k",  1:"Area over the Antarctic at 50 hPa with Air Temperature Less and 188K", 2:"unset", 3:"'Daily Area where the Temperature poleward of 60 degrees is below 188 K at 50 hPa for July-Dec in SH'", 4:"CCMI1_daily" }; 
     289data[286] = { "id":286, 0:"mmrpm1",  1:"PM1.0 Mass Mixing Ratio at 50 Percent RH", 2:"mass_fraction_of_pm1_ambient_aerosol_in_air", 3:"'Must include scalar dimension relh50p specifying relative_humidity of 50%'", 4:"CCMI1_monthly" }; 
     290data[287] = { "id":287, 0:"evap",  1:"Water Evaporation Flux from Sea Ice", 2:"water_evaporation_flux", 3:"'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.  Reported as 0.0 in regions free of sea ice.  [This was computed differently in CMIP3.]'", 4:"CMIP5_OImon" }; 
     291data[288] = { "id":288, 0:"cllcalipso",  1:"CALIPSO Low Level Cloud Fraction", 2:"cloud_area_fraction_in_atmosphere_layer", 3:"'unset'", 4:"CMIP5_cf3hr,CMIP5_cfDay,CMIP5_cfMon,CMIP5_cfOff" }; 
     292data[289] = { "id":289, 0:"nh50area188k",  1:"Area over the Arctic at 50 hPa with Air Temperature Less than 188K", 2:"unset", 3:"'Daily Area where the Temperature poleward of 60 degrees is below 188 K at 50 hPa for Nov-April in NH'", 4:"CCMI1_daily" }; 
     293data[290] = { "id":290, 0:"cLitterAbove",  1:"Carbon Mass in Above-Ground Litter", 2:"surface_litter_carbon_content", 3:"'unset'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     294data[291] = { "id":291, 0:"rsntds",  1:"Net Downward Shortwave Radiation at Sea Water Surface", 2:"net_downward_shortwave_flux_at_sea_water_surface", 3:"'This is the flux into the surface of liquid sea water only. This excludes shortwave flux absorbed by sea ice, but includes any light that passes through the ice and is absorbed by the ocean.'", 4:"CMIP5_Omon" }; 
     295data[292] = { "id":292, 0:"rsdcs4co2",  1:"Downwelling Clear-Sky Shortwave Radiation 4XCO2 Atmosphere", 2:"downwelling_shortwave_flux_in_air_assuming_clear_sky", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     296data[293] = { "id":293, 0:"cclf2cf3brdn",  1:"Atmospheric Burden of CFC-115", 2:"atmosphere_moles_of_cfc115", 3:"'total yearly average burden'", 4:"CCMI1_annual" }; 
     297data[294] = { "id":294, 0:"dryo3",  1:"Dry Deposition Rate of O3", 2:"tendency_of_atmosphere_mass_content_of_ozone_due_to_dry_deposition", 3:"'Only for year 2006. dry deposition includes gravitational settling, impact scavenging, and turbulent deposition.'", 4:"CCMI1_hourly" }; 
     298data[295] = { "id":295, 0:"vmrhbr",  1:"HBr Volume Mixing Ratio", 2:"mole_fraction_of_hydrogen_bromide_in_air", 3:"''", 4:"CCMI1_daily" }; 
     299data[296] = { "id":296, 0:"pflw",  1:"Liquid Water Content of Permafrost Layer", 2:"liquid_water_content_of_permafrost_layer", 3:"'''where land over land'', i.e., this is the total mass of liquid water contained within the permafrost layer within the land portion of a grid cell divided by the area of the land portion of the cell.'", 4:"CMIP5_LImon" }; 
     300data[297] = { "id":297, 0:"wetnh4",  1:"Wet Deposition Rate of NH4+NH3", 2:"tendency_of_atmosphere_mass_content_of_ammonium_dry_aerosol_due_to_wet_deposition", 3:"'unset'", 4:"CMIP5_aero" }; 
     301data[298] = { "id":298, 0:"cropFrac",  1:"Crop Fraction", 2:"area_fraction", 3:"'fraction of entire grid cell  that is covered by crop.'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     302data[299] = { "id":299, 0:"tpp",  1:"Tropopause Pressure", 2:"unset", 3:"'Only required for the first day 00:00 UTC of each month. The tropopause follows the WMO definition and should be consistent with the the tropopause definition used for tpo3chm and lso3chm.'", 4:"CCMI1_daily" }; 
     303data[300] = { "id":300, 0:"cbr2f2brdn",  1:"Atmospheric Burden of Halon 1202", 2:"atmosphere_moles_of_halon1202", 3:"'total yearly average burden'", 4:"CCMI1_annual" }; 
     304data[301] = { "id":301, 0:"emipcb153",  1:"Total Emission of PCB-153", 2:"tendency_of_atmosphere_mass_content_of_hexachlorobiphenyl_due_to_emission", 3:"'integrate 3D emission field vertically to 2d field'", 4:"CCMI1_monthly" }; 
     305data[302] = { "id":302, 0:"ficeberg2d",  1:"Water Flux into Sea Water From Icebergs", 2:"water_flux_into_sea_water_from_icebergs", 3:"'computed as the iceberg melt water  flux into the ocean divided by the area of the ocean portion of the grid cell.'", 4:"CMIP5_Omon" }; 
     306data[303] = { "id":303, 0:"vorpot840",  1:"Potential Vorticity on 840K", 2:"ertel_potential_vorticity", 3:"'potential vorticity at 840 K'", 4:"CCMI1_daily" }; 
     307data[304] = { "id":304, 0:"chlpico",  1:"Mass Concentration of Picophytoplankton expressed as Chlorophyll in Sea Water at Surface", 2:"mass_concentration_of_picophytoplankton_expressed_as_chlorophyll_in_sea_water", 3:"'chlorophyll concentration from the picophytoplankton (<2 um) component alone'", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     308data[305] = { "id":305, 0:"ccmi_minute",  1:"CCMI Minute", 2:"unset", 3:"'These are what each model believes the date/time (Gregorian calendar) to be at the middle of each time interval in the output (GMT, not local time).'", 4:"CCMI1_annual,CCMI1_daily,CCMI1_hourly,CCMI1_monthly" }; 
     309data[306] = { "id":306, 0:"tasmin",  1:"Daily Minimum Near-Surface Air Temperature", 2:"air_temperature", 3:"'unset'", 4:"CMIP5_day,SPECS_day" }; 
     310data[307] = { "id":307, 0:"ch4brdn",  1:"Atmospheric Burden of CH4", 2:"atmosphere_moles_of_methane", 3:"'total yearly average burden'", 4:"CCMI1_annual" }; 
     311data[308] = { "id":308, 0:"intdic",  1:"Dissolved Inorganic Carbon Content", 2:"ocean_mass_content_of_dissolved_inorganic_carbon", 3:"'Vertically integrated DIC'", 4:"CMIP5_Omon" }; 
     312data[309] = { "id":309, 0:"wmosq",  1:"Square of Upward Ocean Mass Transport", 2:"square_of_upward_ocean_mass_transport", 3:"'unset'", 4:"CMIP5_Omon" }; 
     313data[310] = { "id":310, 0:"hur",  1:"Relative Humidity", 2:"relative_humidity", 3:"'This is the relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C.'", 4:"CMIP5_Amon,CMIP5_cfDay,CMIP5_cfMon,CMIP5_cfSites,CMIP5_day" }; 
     314data[311] = { "id":311, 0:"cl",  1:"Cloud Area Fraction in Atmosphere Layer", 2:"cloud_area_fraction_in_atmosphere_layer", 3:"'unset'", 4:"CMIP5_cfDay" }; 
     315data[312] = { "id":312, 0:"diftrxybo",  1:"Ocean Tracer XY Biharmonic Diffusivity", 2:"ocean_tracer_xy_biharmonic_diffusivity", 3:"'unset'", 4:"CMIP5_Oclim" }; 
     316data[313] = { "id":313, 0:"diabdrag",  1:"Tendency of Eastward Wind from Numerical Artefacts", 2:"tendency_of_eastward_wind_due_to_numerical_artefacts", 3:"'Other sub-grid scale/numerical zonal drag excluding that already provided for the parameterized orographic and non-ororgraphic gravity waves. This would be used to calculate the total 'diabatic drag'. Contributions to this additional drag such Rayleigh friction and diffusion that can be calculated from the monthly mean wind fields should not be included, but details (e.g. coefficients) of the friction and/or diffusion used in the model should be provided separately.'", 4:"CCMI1_monthly" }; 
     317data[314] = { "id":314, 0:"rsu",  1:"Upwelling Shortwave Radiation", 2:"upwelling_shortwave_flux_in_air", 3:"'unset'", 4:"CMIP5_cfSites" }; 
     318data[315] = { "id":315, 0:"rsu4co2",  1:"Upwelling Shortwave Radiation 4XCO2 Atmosphere", 2:"upwelling_shortwave_flux_in_air", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     319data[316] = { "id":316, 0:"ch3ccl2fbrdn",  1:"Atmospheric Burden of CH3CCl2F", 2:"atmosphere_moles_of_hcfc141b", 3:"'total yearly average burden'", 4:"CCMI1_annual" }; 
     320data[317] = { "id":317, 0:"pastureFrac",  1:"Anthropogenic Pasture Fraction", 2:"area_fraction", 3:"'fraction of entire grid cell  that is covered by anthropogenic pasture.'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     321data[318] = { "id":318, 0:"emico",  1:"Total Emission Rate of CO", 2:"tendency_of_atmosphere_mass_content_of_carbon_monoxide_due_to_emission", 3:"'Integrate 3D emission field vertically to 2d field.'", 4:"CCMI1_monthly" }; 
     322data[319] = { "id":319, 0:"clc",  1:"Convective Cloud Area Fraction", 2:"convective_cloud_area_fraction_in_atmosphere_layer", 3:"'Include only convective cloud.'", 4:"CCMI1_daily" }; 
     323data[320] = { "id":320, 0:"concnh4",  1:"Concentration of NH4", 2:"mass_concentration_of_ammonium_dry_aerosol_in_air", 3:"'unset'", 4:"CMIP5_aero" }; 
     324data[321] = { "id":321, 0:"emiisop",  1:"Total Emission Rate of Isoprene", 2:"tendency_of_atmosphere_mass_content_of_isoprene_due_to_emission", 3:"'Integrate 3D emission field vertically to 2d field'", 4:"CCMI1_monthly" }; 
     325data[322] = { "id":322, 0:"msftyyzba",  1:"Ocean Y Overturning Mass Streamfunction due to Bolus Advection", 2:"ocean_y_overturning_mass_streamfunction_due_to_bolus_advection", 3:"'unset'", 4:"CMIP5_Omon" }; 
     326data[323] = { "id":323, 0:"rldcs",  1:"Downwelling Clear-Sky Longwave Radiation", 2:"downwelling_longwave_flux_in_air_assuming_clear_sky", 3:"'unset'", 4:"CMIP5_cfSites" }; 
     327data[324] = { "id":324, 0:"rls",  1:"Net longwave surface radiation", 2:"surface_net_downward_longwave_flux", 3:"'unset'", 4:"SPECS_Amon,SPECS_day" }; 
     328data[325] = { "id":325, 0:"n2otbrdn",  1:"Tendency of Atmospheric Burden of Nitrous Oxide", 2:"tendency_of_atmosphere_moles_of_nitrous_oxide", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }; 
     329data[326] = { "id":326, 0:"ps",  1:"Surface Air Pressure", 2:"surface_air_pressure", 3:"'sampled synoptically to diagnose atmospheric tides, this is better than mean sea level pressure.'", 4:"CMIP5_3hr" }; 
     330data[327] = { "id":327, 0:"graz",  1:"Total Grazing of Phytoplankton by Zooplankton", 2:"tendency_of_mole_concentration_of_dissolved_iron_in_sea_water_due_to_grazing_of_phytoplankton", 3:"'unset'", 4:"CMIP5_Oyr" }; 
     331data[328] = { "id":328, 0:"tnkebto2d",  1:"Tendency of Ocean Eddy Kinetic Energy Content due to Bolus Transport", 2:"tendency_of_ocean_eddy_kinetic_energy_content_due_to_bolus_transport", 3:"'unset'", 4:"CMIP5_Oclim" }; 
     332data[329] = { "id":329, 0:"clws",  1:"Mass Fraction of Stratiform Cloud Liquid Water", 2:"mass_fraction_of_stratiform_cloud_liquid_water_in_air", 3:"'Calculated as the mass of stratiform cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.'", 4:"CMIP5_cf3hr,CMIP5_cfMon" }; 
     333data[330] = { "id":330, 0:"eparag100",  1:"Downward Flux of Aragonite", 2:"sinking_mole_flux_of_aragonite_expressed_as_carbon_in_sea_water", 3:"'unset'", 4:"CMIP5_Omon" }; 
     334data[331] = { "id":331, 0:"concoa",  1:"Concentration of Dry Aerosol Organic Matter", 2:"mass_concentration_of_particulate_organic_matter_dry_aerosol_in_air", 3:"'unset'", 4:"CMIP5_aero" }; 
     335data[332] = { "id":332, 0:"airmass",  1:"Vertically Integrated Mass Content of Air in Layer", 2:"atmosphere_mass_of_air_per_unit_area", 3:"''", 4:"CCMI1_monthly" }; 
     336data[333] = { "id":333, 0:"mmraerso4",  1:"Aerosol Sulfate Mass Mixing Ratio", 2:"mass_fraction_of_sulfate_dry_aerosol_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     337data[334] = { "id":334, 0:"thetao",  1:"Sea Water Potential Temperature", 2:"sea_water_potential_temperature", 3:"'unset'", 4:"CMIP5_Omon" }; 
     338data[335] = { "id":335, 0:"gpp",  1:"Carbon Mass Flux out of Atmosphere due to Gross Primary Production on Land", 2:"gross_primary_productivity_of_carbon", 3:"'unset'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     339data[336] = { "id":336, 0:"lossch4",  1:"Rate of CH4 Oxidation", 2:"unset", 3:"'proposed name: tendency_of_mole_concentration_of_methane_due_to_chemical_gross_destruction'", 4:"CCMI1_monthly" }; 
     340data[337] = { "id":337, 0:"rsutcs",  1:"TOA Outgoing Clear-Sky Shortwave Radiation", 2:"toa_outgoing_shortwave_flux_assuming_clear_sky", 3:"'unset'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfDay,CMIP5_cfSites" }; 
     341data[338] = { "id":338, 0:"ccl2fcclf2brdn",  1:"Atmospheric Burden of CFC-113", 2:"atmosphere_moles_of_cfc113", 3:"'total yearly average burden'", 4:"CCMI1_annual" }; 
     342data[339] = { "id":339, 0:"vmrco50eu700",  1:"co_50_eu Volume Mixing Ratio at 700 hPa", 2:"unset", 3:"'daily mean, emitted as anthropogenic CO over Europe (25N-65N; 10W-50E) (emission file available from HTAP), uniform fixed 50-day exponential decay.'", 4:"CCMI1_daily" }; 
     343data[340] = { "id":340, 0:"strocny",  1:"Y-Component of Ocean Stress On Sea Ice", 2:"upward_y_stress_at_sea_ice_base", 3:"'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.   Reported as ''missing'' in regions free of sea ice.'", 4:"CMIP5_OImon,SPECS_OImon" }; 
     344data[341] = { "id":341, 0:"rld4co2",  1:"Downwelling Longwave Radiation 4XCO2 Atmosphere", 2:"downwelling_longwave_flux_in_air", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     345data[342] = { "id":342, 0:"longitude",  1:"Longitude", 2:"longitude", 3:"'unset'", 4:"CMIP5_cf3hr,CMIP5_cfSites" }; 
     346data[343] = { "id":343, 0:"prodo3viach3o2",  1:"Chemical Production Rate of O3 via CH3O2+NO", 2:"unset", 3:"'proposed name: tendency_of_mole_concentration_of_ozone_due_to_chemical_production_by_CH3O2_plus_NO'", 4:"CCMI1_monthly" }; 
     347data[344] = { "id":344, 0:"reffclwtop",  1:"Cloud-Top Effective Droplet Radius", 2:"effective_radius_of_cloud_liquid_water_particle_at_liquid_water_cloud_top", 3:"'Droplets are liquid only.  This is the effective radius ''as seen from space'' over liquid cloudy portion of grid cell.  This is the value from uppermost model layer with liquid cloud or, if available, or for some models it is the sum over all liquid cloud tops, no matter where they occur, as long as they are seen from the top of the atmosphere. Reported values are weighted by total liquid cloud top fraction of  (as seen from TOA) each time sample when computing monthly mean.'", 4:"CMIP5_aero" }; 
     348data[345] = { "id":345, 0:"tdps",  1:"2m dewpoint temperature", 2:"dew_point_temperature", 3:"'unset'", 4:"SPECS_6hr" }; 
     349data[346] = { "id":346, 0:"concbb",  1:"Concentration of Biomass Burning Aerosol", 2:"mass_concentration_of_biomass_burning_dry_aerosol_in_air", 3:"'unset'", 4:"CMIP5_aero" }; 
     350data[347] = { "id":347, 0:"dryss",  1:"Dry Deposition Rate of Seasalt", 2:"tendency_of_atmosphere_mass_content_of_seasalt_dry_aerosol_due_to_dry_deposition", 3:"'unset'", 4:"CMIP5_aero" }; 
     351data[348] = { "id":348, 0:"co2massClim",  1:"Total Atmospheric Mass of CO2", 2:"atmosphere_mass_of_carbon_dioxide", 3:"'unset'", 4:"CMIP5_Amon" }; 
     352data[349] = { "id":349, 0:"difmxybo2d",  1:"Ocean Momentum XY Biharmonic Diffusivity", 2:"ocean_momentum_xy_biharmonic_diffusivity", 3:"'unset'", 4:"CMIP5_Oclim" }; 
     353data[350] = { "id":350, 0:"emiso4",  1:"Total Direct Emission Rate of SO4", 2:"tendency_of_atmosphere_mass_content_of_sulfate_dry_aerosol_due_to_emission", 3:"'expressed as a tendency of atmosphere mass content of SO4.  Direct emission does not include secondary sulfate production.'", 4:"CMIP5_aero" }; 
     354data[351] = { "id":351, 0:"intpp",  1:"Primary Organic Carbon Production by All Types of Phytoplankton", 2:"net_primary_mole_productivity_of_carbon_by_phytoplankton", 3:"'Vertically integrated total primary (organic carbon) production by phytoplankton.  This should equal the sum of intpdiat+intpphymisc, but those individual components may be unavailable in some models.'", 4:"CMIP5_Omon" }; 
     355data[352] = { "id":352, 0:"asyaer",  1:"Asymmetry Parameter", 2:"unset", 3:"''", 4:"CCMI1_monthly" }; 
     356data[353] = { "id":353, 0:"vmrch3cn",  1:"CH3CN Volume Mixing Ratio", 2:"mole_fraction_of_aceto_nitrile_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     357data[354] = { "id":354, 0:"va",  1:"Northward Wind", 2:"northward_wind", 3:"'unset'", 4:"CMIP5_6hrLev,CMIP5_6hrPlev,CMIP5_Amon,CMIP5_cfDay,CMIP5_cfSites,CMIP5_day,SPECS_Amon,SPECS_day" }; 
     358data[355] = { "id":355, 0:"swtoacsbb",  1:"Clear-Sky SW-RF BB at TOA", 2:"unset", 3:"'proposed name: toa_instantaneous_shortwave_forcing_due_to_biomass_burning_ambient_aerosol_assuming_clear_sky'", 4:"CCMI1_monthly" }; 
     359data[356] = { "id":356, 0:"po4",  1:"Dissolved Phosphate Concentration at Surface", 2:"mole_concentration_of_phosphate_in_sea_water", 3:"'unset'", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     360data[357] = { "id":357, 0:"so",  1:"Sea Water Salinity", 2:"sea_water_salinity", 3:"'unset'", 4:"CMIP5_Omon" }; 
     361data[358] = { "id":358, 0:"ua",  1:"Eastward Wind", 2:"eastward_wind", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }; 
     362data[359] = { "id":359, 0:"ch2fcf3trtbrdn",  1:"Tendency of Tropospheric Burden of CH2FCF3", 2:"unset", 3:"'total yearly averaged tropospheric loss'", 4:"CCMI1_annual" }; 
     363data[360] = { "id":360, 0:"zmhno4",  1:"Zonal Mean HNO4 Volume Mixing Ratio", 2:"mole_fraction_of_peroxynitric_acid_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     364data[361] = { "id":361, 0:"sit",  1:"Sea Ice Thickness", 2:"sea_ice_thickness", 3:"'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).  Reported as 0.0 in regions free of sea ice.'", 4:"CMIP5_OImon,CMIP5_day,SPECS_OImon,SPECS_day" }; 
     365data[362] = { "id":362, 0:"thetaoga",  1:"Global Average Sea Water Potential Temperature", 2:"sea_water_potential_temperature", 3:"'unset'", 4:"CMIP5_Omon" }; 
     366data[363] = { "id":363, 0:"tas",  1:"Near-Surface Air Temperature", 2:"air_temperature", 3:"'near-surface (usually, 2 meter) air temperature'", 4:"CCMI1_daily" }; 
     367data[364] = { "id":364, 0:"tauv",  1:"Surface Downward Northward Wind Stress", 2:"surface_downward_northward_stress", 3:"'unset'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites,CORDEX_6h,CORDEX_day,SPECS_Amon,SPECS_day" }; 
     368data[365] = { "id":365, 0:"evspsblpot",  1:"Potential Evapotranspiration", 2:"water_potential_evaporation_flux", 3:"'at surface; potential flux of water into the atmosphere due to conversion of both liquid and solid phases to vapor (from underlying surface and vegetation)'", 4:"CORDEX_6h,CORDEX_day" }; 
     369data[366] = { "id":366, 0:"drynoy",  1:"Dry Deposition Rate of NOy", 2:"unset", 3:"'NOy is the sum of all simulated oxidized nitrogen species out of NO, NO2, HNO3, HNO4, NO3aerosol, NO3(radical), N2O5, PAN, other organic nitrates. Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition.'", 4:"CCMI1_monthly" }; 
     370data[367] = { "id":367, 0:"rlu4co2",  1:"Upwelling Longwave Radiation 4XCO2 Atmosphere", 2:"upwelling_longwave_flux_in_air", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     371data[368] = { "id":368, 0:"rGrowth",  1:"Carbon Mass Flux into Atmosphere due to Growth Autotrophic Respiration on Land", 2:"surface_upward_carbon_mass_flux_due_to_plant_respiration_for_biomass_growth", 3:"'unset'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     372data[369] = { "id":369, 0:"edt",  1:"Eddy Diffusivity Coefficient for Temperature Variable", 2:"atmosphere_heat_diffusivity", 3:"'unset'", 4:"CMIP5_cfSites" }; 
     373data[370] = { "id":370, 0:"phyp",  1:"Phytoplankton Phosphorus Concentration at Surface", 2:"mole_concentration_of_phytoplankton_expressed_as_phosphorus_in_sea_water", 3:"'sum of phytoplankton phosphorus components'", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     374data[371] = { "id":371, 0:"pp",  1:"Primary Carbon Production by Phytoplankton", 2:"tendency_of_mole_concentration_of_particulate_organic_matter_expressed_as_carbon_in_sea_water_due_to_net_primary_production", 3:"'total primary (organic carbon) production by phytoplankton'", 4:"CMIP5_Oyr" }; 
     375data[372] = { "id":372, 0:"va500",  1:"Northward Wind at 500 hPa", 2:"northward_wind", 3:"'Meridional wind on the 500 hPa surface'", 4:"CCMI1_daily" }; 
     376data[373] = { "id":373, 0:"zmua",  1:"Zonal Mean Eastward Wind", 2:"eastward_wind", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }; 
     377data[374] = { "id":374, 0:"sfmmrdust",  1:"Dust Aerosol Mass Mixing Ratio in Lowest Model Layer", 2:"mass_fraction_of_dust_dry_aerosol_in_air", 3:"'dust'", 4:"CCMI1_daily" }; 
     378data[375] = { "id":375, 0:"od550no3",  1:"Nitrate AOD at 550nm", 2:"unset", 3:"'proposed name: atmosphere_optical_thickness_due_to_nitrate_ambient_aerosol'", 4:"CCMI1_monthly" }; 
     379data[376] = { "id":376, 0:"accelnogw",  1:"Tendency of Eastward Wind from Non-Oro GWD", 2:"tendency_of_eastward_wind_due_to_nonorographic_gravity_wave_drag", 3:"'Eastward acceleration from the parameterized non-orographic gravity wave drag (NOGWD) derived either from daily means or 6hr fields (use instantaneous daily fields or 12 hr fields if the 6 hr data are not available). Use the accelerations as applied in your model.'", 4:"CCMI1_monthly" }; 
     380data[377] = { "id":377, 0:"tnsclimcl",  1:"Tendency of Mass Fraction of Stratiform Cloud Ice due to Melting to Cloud Liquid", 2:"tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_melting_to_cloud_liquid_water", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     381data[378] = { "id":378, 0:"vmrn2o5",  1:"N2O5 Volume Mixing Ratio", 2:"mole_fraction_of_dinitrogen_pentoxide_in_air", 3:"''", 4:"CCMI1_daily" }; 
     382data[379] = { "id":379, 0:"demc",  1:"Convective Cloud Emissivity", 2:"convective_cloud_longwave_emissivity", 3:"'This is the in-cloud emissivity obtained by considering only the cloudy portion of the grid cell.'", 4:"CMIP5_cf3hr" }; 
     383data[380] = { "id":380, 0:"swtoaasch4",  1:"All-Sky SW-RF CH4 at TOA", 2:"unset", 3:"'proposed name: toa_instantaneous_shortwave_forcing_due_to_methane'", 4:"CCMI1_monthly" }; 
     384data[381] = { "id":381, 0:"zsatcalc",  1:"Calcite Saturation Depth", 2:"minimum_depth_of_calcite_undersaturation_in_sea_water", 3:"'Depth of calcite saturation horizon (0 if < surface, ''missing'' if > bottom, if two, then the shallower)'", 4:"CMIP5_Omon" }; 
     385data[382] = { "id":382, 0:"ra",  1:"Carbon Mass Flux into Atmosphere due to Autotrophic (Plant) Respiration on Land", 2:"plant_respiration_carbon_flux", 3:"'unset'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     386data[383] = { "id":383, 0:"wetso4",  1:"Wet Deposition Rate of SO4", 2:"tendency_of_atmosphere_mass_content_of_sulfate_expressed_as_sulfur_dry_aerosol_due_to_wet_deposition", 3:"'unset'", 4:"CMIP5_aero" }; 
     387data[384] = { "id":384, 0:"nogwfluxw",  1:"Zonal Component of Upward Momentum Flux by Westward Propagating Non-Oro GWs", 2:"upward_eastward_momentum_flux_in_air_due_to_nonorographic_westward_gravity_waves", 3:"'Zonal component (positive eastward) of the non-orographic gravity wave momentum flux carried by westward propagating waves, including any flux out of the top of the model (e.g., add additional level to the output file for model top. Set flux at this level to zero if nothing escapes to outer space in your model). Derived either from daily means or 6hr fields (use instantaneous daily fields or 12 hr fields if the 6 hr data are not available).'", 4:"CCMI1_monthly" }; 
     388data[385] = { "id":385, 0:"cltcalipso",  1:"CALIPSO Total Cloud Fraction", 2:"cloud_area_fraction", 3:"'unset'", 4:"CMIP5_cf3hr,CMIP5_cfDay,CMIP5_cfMon,CMIP5_cfOff" }; 
     389data[386] = { "id":386, 0:"zossga",  1:"Global Average Steric Sea Level Change", 2:"global_average_steric_sea_level_change", 3:"'unset'", 4:"CMIP5_Omon" }; 
     390data[387] = { "id":387, 0:"vmrhno4",  1:"HNO4 Volume Mixing Ratio", 2:"mole_fraction_of_peroxynitric_acid_in_air", 3:"''", 4:"CCMI1_daily" }; 
     391data[388] = { "id":388, 0:"concsoa",  1:"Concentration of Dry Aerosol Secondary Organic Matter", 2:"mass_concentration_of_secondary_particulate_organic_matter_dry_aerosol_in_air", 3:"'unset'", 4:"CMIP5_aero" }; 
     392data[389] = { "id":389, 0:"sconcso4",  1:"Surface Concentration of SO4", 2:"mass_concentration_of_sulfate_dry_aerosol_in_air", 3:"'mass concentration of sulfate dry aerosol in air in model lowest layer.'", 4:"CMIP5_aero" }; 
     393data[390] = { "id":390, 0:"tnsclwhon",  1:"Tendency of Mass Fraction of Stratiform Cloud Liquid Water due to Homogeneous Nucleation", 2:"tendency_of_mass_fraction_of_stratiform_cloud_liquid_water_in_air_due_to_homogeneous_nucleation", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     394data[391] = { "id":391, 0:"vmrhno3",  1:"HNO3 Volume Mixing Ratio", 2:"mole_fraction_of_nitric_acid_in_air", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }; 
     395data[392] = { "id":392, 0:"pmlev",  1:"Air Pressure", 2:"air_pressure", 3:"'The atmospheric pressure at the model layer midpoints for all times and levels in the associated output variables'", 4:"CCMI1_daily,CCMI1_monthly" }; 
     396data[393] = { "id":393, 0:"va500",  1:"Northward Wind", 2:"northward_wind", 3:"'unset'", 4:"CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem" }; 
     397data[394] = { "id":394, 0:"dryso4",  1:"Dry Deposition Rate of SO4", 2:"tendency_of_atmosphere_mass_content_of_sulfate_dry_aerosol_due_to_dry_deposition", 3:"'dry deposition includes gravitational settling, impact scavenging, and turbulent deposition'", 4:"CCMI1_monthly" }; 
     398data[395] = { "id":395, 0:"zmtnt",  1:"Zonal Mean Diabatic Heating Rates", 2:"tendency_of_air_temperature_due_to_diabatic_processes", 3:"'The diabatic heating rates due to all the processes that may change potential temperature'", 4:"CCMI1_monthly" }; 
     399data[396] = { "id":396, 0:"ch3brbrdn",  1:"Atmospheric Burden of CH3Br", 2:"atmosphere_moles_of_methyl_bromide", 3:"'total yearly average burden'", 4:"CCMI1_annual" }; 
     400data[397] = { "id":397, 0:"swtoaassoa",  1:"All-Sky SW-RF SOA at TOA", 2:"unset", 3:"'proposed name: toa_instantaneous_shortwave_forcing_due_to_secondary_particulate_organic_matter_ambient_aerosol'", 4:"CCMI1_monthly" }; 
     401data[398] = { "id":398, 0:"tnsclia",  1:"Tendency of Mass Fraction of Stratiform Cloud Ice due to Advection", 2:"tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_advection", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     402data[399] = { "id":399, 0:"chclf2brdn",  1:"Atmospheric Burden of CHClF2", 2:"atmosphere_moles_of_hcfc22", 3:"'total yearly average burden'", 4:"CCMI1_annual" }; 
     403data[400] = { "id":400, 0:"dpco2",  1:"Delta PCO2", 2:"surface_carbon_dioxide_partial_pressure_difference_between_sea_water_and_air", 3:"'unset'", 4:"CMIP5_Omon" }; 
     404data[401] = { "id":401, 0:"diftrelo2d",  1:"Ocean Tracer Epineutral Laplacian Diffusivity", 2:"ocean_tracer_epineutral_laplacian_diffusivity", 3:"'unset'", 4:"CMIP5_Oclim" }; 
     405data[402] = { "id":402, 0:"cls",  1:"Stratiform Cloud Area Fraction", 2:"stratiform_cloud_area_fraction_in_atmosphere_layer", 3:"'unset'", 4:"CMIP5_cf3hr,CMIP5_cfMon" }; 
     406data[403] = { "id":403, 0:"emipom",  1:"Total Emission of POM", 2:"unset", 3:"'Integrate 3D emission field vertically to 2d field. we recommend a scale factor of POM=1.4*OC; unless your model has more detailed info available'", 4:"CCMI1_monthly" }; 
     407data[404] = { "id":404, 0:"vmrhocl",  1:"HOCl Volume Mixing Ratio", 2:"mole_fraction_of_hypochlorous_acid_in_air", 3:"''", 4:"CCMI1_daily" }; 
     408data[405] = { "id":405, 0:"vmrch3ccl3",  1:"CH3CCl3 Volume Mixing Ratio", 2:"mole_fraction_of_hcc140a_in_air", 3:"'for the period 1980-2011 by ACTM.'", 4:"CCMI1_monthly" }; 
     409data[406] = { "id":406, 0:"vmrcl",  1:"Atomic Cl Volume Mixing Ratio", 2:"mole_fraction_of_atomic_chlorine_in_air", 3:"''", 4:"CCMI1_daily" }; 
     410data[407] = { "id":407, 0:"ch3ccl3trtbrdn",  1:"Tendency of Tropospheric Burden of CH3CCl3", 2:"tendency_of_troposphere_moles_of_hcc140a", 3:"'total yearly averaged tropospheric loss'", 4:"CCMI1_annual" }; 
     411data[408] = { "id":408, 0:"cldncl",  1:"Cloud Droplet Number Concentration of Cloud Tops", 2:"number_concentration_of_cloud_liquid_water_particles_in_air_at_liquid_water_cloud_top", 3:"'Droplets are liquid only.  Report concentration ''as seen from space'' over liquid cloudy portion of grid cell.  This is the value from uppermost model layer with liquid cloud or, if available, it is better to sum over all liquid cloud tops, no matter where they occur, as long as they are seen from the top of the atmosphere. Weight by total liquid cloud top fraction of  (as seen from TOA) each time sample when computing monthly mean.'", 4:"CMIP5_aero" }; 
     412data[409] = { "id":409, 0:"intpmisc",  1:"Primary Organic Carbon Production by Other Phytoplankton", 2:"net_primary_mole_productivity_of_carbon_by_miscellaneous_phytoplankton", 3:"'Vertically integrated total primary (organic carbon) production by other phytoplankton components alone'", 4:"CMIP5_Omon" }; 
     413data[410] = { "id":410, 0:"wetnoy",  1:"Wet Deposition of NOy incl aerosol nitrate", 2:"unset", 3:"'proposed name: tendency_of_atmosphere_mass_content_of_all_nitrogen_oxides_due_to_wet_deposition. NOy is the sum of all simulated oxidized nitrogen species, out of NO, NO2, HNO3, HNO4, NO3aerosol, NO3(radical), N2O5, PAN, other organic nitrates.'", 4:"CCMI1_monthly" }; 
     414data[411] = { "id":411, 0:"wap500",  1:"omega (=dp/dt)", 2:"lagrangian_tendency_of_air_pressure", 3:"'at 500 hPa level; commonly referred to as ''omega'', this represents the vertical component of velocity in pressure coordinates (positive down)'", 4:"CMIP5_cfDay" }; 
     415data[412] = { "id":412, 0:"msftmyzaba",  1:"Meridional Mass Streamfunction in the Atlantic Due to Bolus Advection", 2:"ocean_meridional_overturning_mass_streamfunction_due_to_bolus_advection", 3:"'unset'", 4:"SPECS_Omon" }; 
     416data[413] = { "id":413, 0:"sh50area195k",  1:"Area over the Antarctic at 50 hPa with Air Temperature Less and 195K", 2:"unset", 3:"'Daily Area where the Temperature poleward of 60 degrees is below 195 K at 50 hPa for July-Dec in SH'", 4:"CCMI1_daily" }; 
     417data[414] = { "id":414, 0:"va10",  1:"Northward Wind at 10 hPa", 2:"northward_wind", 3:"'Meridional wind on the 10 hPa surface'", 4:"CCMI1_daily" }; 
     418data[415] = { "id":415, 0:"rsus",  1:"Surface Upwelling Shortwave Radiation", 2:"surface_upwelling_shortwave_flux_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     419data[416] = { "id":416, 0:"cbr2f2tbrdn",  1:"Tendency of Atmospheric Burden of Halon 1202", 2:"tendency_of_atmosphere_moles_of_halon1202", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }; 
     420data[417] = { "id":417, 0:"prhmax",  1:"Daily Maximum Hourly Precipitation Rate", 2:"precipitation_flux", 3:"''", 4:"CORDEX_day" }; 
     421data[418] = { "id":418, 0:"tasmax",  1:"Daily Maximum Near-Surface Air Temperature", 2:"air_temperature", 3:"'daily-maximum near-surface (usually, 2 meter) air temperature.'", 4:"CORDEX_day,CORDEX_mon,CORDEX_sem" }; 
     422data[419] = { "id":419, 0:"vsf",  1:"Virtual Salt Flux into Sea Water", 2:"virtual_salt_flux_into_sea_water", 3:"'unset'", 4:"CMIP5_Omon" }; 
     423data[420] = { "id":420, 0:"sftgif",  1:"Fraction of Grid Cell Covered with Glacier", 2:"land_ice_area_fraction", 3:"'fraction of grid cell occupied by ''permanent'' ice (i.e., glaciers).'", 4:"CMIP5_fx,SPECS_fx" }; 
     424data[421] = { "id":421, 0:"ttop",  1:"Air Temperature at Cloud Top", 2:"air_temperature_at_cloud_top", 3:"''", 4:"CCMI1_monthly" }; 
     425data[422] = { "id":422, 0:"eminh3",  1:"Total Emission Rate of NH3", 2:"tendency_of_atmosphere_mass_content_of_ammonia_due_to_emission", 3:"'Integrate 3D emission field vertically to 2d field.'", 4:"CCMI1_monthly" }; 
     426data[423] = { "id":423, 0:"rss",  1:"Net shortwave surface radiation", 2:"surface_net_downward_shortwave_flux", 3:"'unset'", 4:"SPECS_day" }; 
     427data[424] = { "id":424, 0:"tntlw",  1:"Longwave Heating Rate", 2:"tendency_of_air_temperature_due_to_longwave_heating", 3:"'longwave heating rates'", 4:"CCMI1_daily,CCMI1_monthly" }; 
     428data[425] = { "id":425, 0:"cCwd",  1:"Carbon Mass in Coarse Woody Debris", 2:"wood_debris_carbon_content", 3:"'unset'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     429data[426] = { "id":426, 0:"tsl",  1:"Temperature of Soil", 2:"soil_temperature", 3:"''Temperature of each soil layer.  Reported as ''missing'' for grid cells occupied entirely by ''sea''.''", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     430data[427] = { "id":427, 0:"evspsblsoi",  1:"Water Evaporation from Soil", 2:"water_evaporation_flux_from_soil", 3:"'includes sublimation.'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     431data[428] = { "id":428, 0:"bacc",  1:"Bacterial Carbon Concentration at Surface", 2:"mole_concentration_of_bacteria_expressed_as_carbon_in_sea_water", 3:"'sum of bacterial carbon component concentrations'", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     432data[429] = { "id":429, 0:"lwtropaso3",  1:"All-Sky LW-RF O3 at Tropopause", 2:"unset", 3:"'proposed name: tropopause_instantaneous_longwave_forcing_due_to_ozone'", 4:"CCMI1_monthly" }; 
     433data[430] = { "id":430, 0:"dispkexyfo",  1:"Ocean Kinetic Energy Dissipation Per Unit Area due to XY Friction", 2:"ocean_kinetic_energy_dissipation_per_unit_area_due_to_xy_friction", 3:"'unset'", 4:"CMIP5_Oclim" }; 
     434data[431] = { "id":431, 0:"vmroh",  1:"OH Volume Mixing Ratio", 2:"mole_fraction_of_hydroxyl_radical_in_air", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }; 
     435data[432] = { "id":432, 0:"emiaso2",  1:"Anthropogenic Emission Rate of SO2", 2:"unset", 3:"'Includes agricultural waste burning but no other biomass burning. proposed name: tendency_of_atmosphere_mass_content_of_anthropogenic_sulfur_dioxide_due_to_emission. Integrate 3D emission field vertically to 2d field.'", 4:"CCMI1_monthly" }; 
     436data[433] = { "id":433, 0:"fediss",  1:"Particle Source of Dissolved Iron", 2:"tendency_of_mole_concentration_of_dissolved_iron_in_sea_water_due_to_dissolution_from_inorganic_particles", 3:"'Dissolution, remineralization and desorption of iron back to the dissolved phase'", 4:"CMIP5_Oyr" }; 
     437data[434] = { "id":434, 0:"swtoaasbb",  1:"All-Sky SW-RF BB at TOA", 2:"unset", 3:"'proposed name: toa_instantaneous_shortwave_forcing_due_to_biomass_burning_ambient_aerosol'", 4:"CCMI1_monthly" }; 
     438data[435] = { "id":435, 0:"hfnorthba",  1:"Northward Ocean Heat Transport due to Bolus Advection", 2:"northward_ocean_heat_transport_due_to_bolus_advection", 3:"'unset'", 4:"CMIP5_Omon" }; 
     439data[436] = { "id":436, 0:"n2obrdn",  1:"Atmospheric Burden of Nitrous Oxide", 2:"atmosphere_moles_of_nitrous_oxide", 3:"'total yearly average burden'", 4:"CCMI1_annual" }; 
     440data[437] = { "id":437, 0:"tnt",  1:"Tendency of Air Temperature", 2:"tendency_of_air_temperature", 3:"'unset'", 4:"CMIP5_cfMon,CMIP5_cfSites" }; 
     441data[438] = { "id":438, 0:"snd",  1:"Snow Depth", 2:"surface_snow_thickness", 3:"'where land over land, this is computed as the mean thickness of snow in the land portion of the grid cell (averaging over the entire land portion, including the snow-free fraction).  Reported as 0.0 where the land fraction is 0.'", 4:"CMIP5_LImon" }; 
     442data[439] = { "id":439, 0:"mrlsl",  1:"Water Content of Soil Layer", 2:"moisture_content_of_soil_layer", 3:"'in each soil layer, the mass of water in all phases, including ice.  Reported as ''missing'' for grid cells occupied entirely by ''sea'''", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     443data[440] = { "id":440, 0:"clh",  1:"High Level Cloud Fraction", 2:"cloud_area_fraction_in_atmosphere_layer", 3:"'p<440 hPa'", 4:"CORDEX_6h,CORDEX_day" }; 
     444data[441] = { "id":441, 0:"hus",  1:"Specific Humidity", 2:"specific_humidity", 3:"''", 4:"CCMI1_monthly" }; 
     445data[442] = { "id":442, 0:"vmrco50",  1:"co_50 Volume Mixing Ratio", 2:"unset", 3:"'emitted as anthropogenic CO (emission file available from HTAP), uniform fixed 50-day exponential decay.'", 4:"CCMI1_monthly" }; 
     446data[443] = { "id":443, 0:"basin",  1:"Region Selection Index", 2:"region", 3:"'unset'", 4:"CMIP5_fx,SPECS_fx" }; 
     447data[444] = { "id":444, 0:"swtoaasno3",  1:"All-Sky SW-RF NO3 at TOA", 2:"unset", 3:"'proposed name: toa_instantaneous_shortwave_forcing_due_to_nitrate_ambient_aerosol'", 4:"CCMI1_monthly" }; 
     448data[445] = { "id":445, 0:"sci",  1:"Fraction of Time Shallow Convection Occurs", 2:"shallow_convection_time_fraction", 3:"'Fraction of time that shallow convection occurs in the grid cell.'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites" }; 
     449data[446] = { "id":446, 0:"vmrcfcl3",  1:"CFCl3 Volume Mixing Ratio", 2:"mole_fraction_of_cfc11_in_air", 3:"''", 4:"CCMI1_daily" }; 
     450data[447] = { "id":447, 0:"lossro2viaro2",  1:"Reaction Rate of RO2+RO2", 2:"unset", 3:"'3-d distribution of RO2+RO2 reaction fluxes. R refers to the organic peroxy radical pool.'", 4:"CCMI1_monthly" }; 
     451data[448] = { "id":448, 0:"tnsclwar",  1:"Tendency of Mass Fraction of Stratiform Cloud Liquid Water due to Accretion to Rain", 2:"tendency_of_mass_fraction_of_stratiform_cloud_liquid_water_in_air_due_to_accretion_to_rain", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     452data[449] = { "id":449, 0:"losso1dviah2o",  1:"Rate of O1D+H2O", 2:"unset", 3:"'3-d distribution of k*[O1D]*[H2O]'", 4:"CCMI1_monthly" }; 
     453data[450] = { "id":450, 0:"sfcWind",  1:"Near-Surface Wind Speed", 2:"wind_speed", 3:"'near-surface (usually, 10 meters) wind speed.'", 4:"CORDEX_3h,CORDEX_day,CORDEX_mon,CORDEX_sem" }; 
     454data[451] = { "id":451, 0:"phypico",  1:"Mole Concentration of Picophytoplankton expressed as Carbon in Sea Water at Surface", 2:"mole_concentration_of_picophytoplankton_expressed_as_carbon_in_sea_water", 3:"'carbon concentration from the picophytoplankton (<2 um) component alone'", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     455data[452] = { "id":452, 0:"vmrso2",  1:"SO2 Volume Mixing Ratio", 2:"mole_fraction_of_sulfur_dioxide_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     456data[453] = { "id":453, 0:"exparag",  1:"Sinking Aragonite Flux", 2:"sinking_mole_flux_of_aragonite_expressed_as_carbon_in_sea_water", 3:"'unset'", 4:"CMIP5_Oyr" }; 
     457data[454] = { "id":454, 0:"zmo3",  1:"Zonal Mean Ozone Volume Mixing Ratio", 2:"mole_fraction_of_ozone_in_air", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }; 
     458data[455] = { "id":455, 0:"vo",  1:"Sea water Y velocity", 2:"sea_water_y_velocity", 3:"'unset'", 4:"SPECS_Omon" }; 
     459data[456] = { "id":456, 0:"vmro3ste",  1:"O3ste Volume Mixing Ratio", 2:"unset", 3:"'Ozone tracer intended to map out STE of ozone:  (a) set o3ste to O3 at top layer; (b) use standard O3 P-L terms to change o3ste every chemistry time step for 'stratospheric' air grid boxes; (c) reset o3ste to O3 in the lowermost layers (fix these layers to be up to sigma=0.9, ~1 km altitude) and record this tropospheric reset only as a 2-D (lat,long) monthly mean tendency (Tg/s or Tg per month pergird cell).  Determine 'statropsheric' air in any way that is most convenient (e90, O3, PV-theta, etc).'", 4:"CCMI1_monthly" }; 
     460data[457] = { "id":457, 0:"mrso",  1:"Total Soil Moisture Content", 2:"soil_moisture_content", 3:"'Compute the mass per unit area  (summed over all soil layers) of water in all phases.'", 4:"CORDEX_6h" }; 
     461data[458] = { "id":458, 0:"bddtdin",  1:"Rate of Change of Nitrogen Nutrient due to Biological Activity", 2:"tendency_of_mole_concentration_of_dissolved_inorganic_nitrogen_in_sea_water_due_to_biological_processes", 3:"'Net of biological terms in time rate of change of nitrogen nutrients (e.g. NO3+NH4)'", 4:"CMIP5_Oyr" }; 
     462data[459] = { "id":459, 0:"sconcpoa",  1:"Surface Concentration of Dry Aerosol Primary Organic Matter", 2:"mass_concentration_of_primary_particulate_organic_matter_dry_aerosol_in_air", 3:"'mass concentration of primary particulate organic matter dry aerosol in air in model lowest layer'", 4:"CMIP5_aero" }; 
     463data[460] = { "id":460, 0:"intpcalc",  1:"Net Primary Mole Productivity of Carbon by Calcareous Phytoplankton", 2:"net_primary_mole_productivity_of_carbon_by_calcareous_phytoplankton", 3:"'unset'", 4:"CMIP5_Omon" }; 
     464data[461] = { "id":461, 0:"msftmrhozba",  1:"Ocean Meridional Overturning Mass Streamfunction due to Bolus Advection", 2:"ocean_meridional_overturning_mass_streamfunction_due_to_bolus_advection", 3:"'unset'", 4:"CMIP5_Omon" }; 
     465data[462] = { "id":462, 0:"clivi",  1:"Ice Water Path", 2:"atmosphere_cloud_ice_content", 3:"'calculate mass of ice water in the column divided by the area of the column (not just the area of the cloudy portion of the column). This includes precipitating frozen hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.'", 4:"CMIP5_cfDay" }; 
     466data[463] = { "id":463, 0:"msftmyz",  1:"Ocean Meridional Overturning Mass Streamfunction", 2:"ocean_meridional_overturning_mass_streamfunction", 3:"'differs from CMIP3 because it includes mass.'", 4:"CMIP5_Omon" }; 
     467data[464] = { "id":464, 0:"difvho",  1:"Ocean Vertical Heat Diffusivity", 2:"ocean_vertical_heat_diffusivity", 3:"'unset'", 4:"CMIP5_Oclim" }; 
     468data[465] = { "id":465, 0:"swclrefc",  1:"Clouds TOA SW-RF With Reference Composition", 2:"unset", 3:"'proposed name: toa_instantaneous_shortwave_forcing_due_to_clouds_with_reference_composition'", 4:"CCMI1_monthly" }; 
     469data[466] = { "id":466, 0:"tntr",  1:"Tendency of Air Temperature due to Radiative Heating", 2:"tendency_of_air_temperature_due_to_radiative_heating", 3:"'unset'", 4:"CMIP5_cfMon,CMIP5_cfSites" }; 
     470data[467] = { "id":467, 0:"zmch3cclf2",  1:"Zonal Mean CH3CClF2 Volume Mixing Ratio", 2:"mole_fraction_of_hcfc142b_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     471data[468] = { "id":468, 0:"msftyrhozba",  1:"Ocean Y Overturning Mass Streamfunction due to Bolus Advection", 2:"ocean_y_overturning_mass_streamfunction_due_to_bolus_advection", 3:"'unset'", 4:"CMIP5_Omon" }; 
     472data[469] = { "id":469, 0:"mrro",  1:"Total Runoff", 2:"runoff_flux", 3:"''computed as the total runoff (including ''drainage'' through the base of the soil model) leaving the land portion of the grid cell divided by the land area in the grid cell.''", 4:"CMIP5_day" }; 
     473data[470] = { "id":470, 0:"ta700",  1:"Air Temperature", 2:"air_temperature", 3:"'unset'", 4:"CMIP5_cfDay" }; 
     474data[471] = { "id":471, 0:"hfnorthdiff",  1:"Northward Ocean Heat Transport due to Diffusion", 2:"northward_ocean_heat_transport_due_to_diffusion", 3:"'unset'", 4:"CMIP5_Omon" }; 
     475data[472] = { "id":472, 0:"c2hf3cl2trtbrdn",  1:"Tendency of Tropospheric Burden of C2HF3Cl2", 2:"unset", 3:"'total yearly averaged tropospheric loss'", 4:"CCMI1_annual" }; 
     476data[473] = { "id":473, 0:"rlucs",  1:"Upwelling Clear-Sky Longwave Radiation", 2:"upwelling_longwave_flux_in_air_assuming_clear_sky", 3:"'unset'", 4:"CMIP5_cfSites" }; 
     477data[474] = { "id":474, 0:"o2",  1:"Dissolved Oxygen Concentration at Surface", 2:"mole_concentration_of_molecular_oxygen_in_sea_water", 3:"'unset'", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     478data[475] = { "id":475, 0:"va",  1:"Northward Wind", 2:"northward_wind", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }; 
     479data[476] = { "id":476, 0:"mrfso",  1:"Soil Frozen Water Content", 2:"soil_frozen_water_content", 3:"'Compute the mass (summed over all all layers) of frozen water.'", 4:"CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem" }; 
     480data[477] = { "id":477, 0:"si",  1:"Dissolved Silicate Concentration at Surface", 2:"mole_concentration_of_silicate_in_sea_water", 3:"'unset'", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     481data[478] = { "id":478, 0:"intpbsi",  1:"Silica Production", 2:"tendency_of_ocean_mole_content_of_silicon_due_to_biological_production", 3:"'Vertically integrated biogenic silica production'", 4:"CMIP5_Omon" }; 
     482data[479] = { "id":479, 0:"emipoa",  1:"Emission Rate of Dry Aerosol Primary Organic Matter", 2:"tendency_of_atmosphere_mass_content_of_primary_particulate_organic_matter_dry_aerosol_due_to_emission", 3:"'tendency of atmosphere mass content of primary organic aerosol due to emission:  ''mass'' refers to the mass of primary organic matter, not mass of organic carbon alone.'", 4:"CMIP5_aero" }; 
     483data[480] = { "id":480, 0:"loadso4",  1:"Load of SO4", 2:"atmosphere_mass_content_of_sulfate_dry_aerosol", 3:"'unset'", 4:"CMIP5_aero" }; 
     484data[481] = { "id":481, 0:"pr",  1:"Precipitation", 2:"precipitation_flux", 3:"'at surface; includes both liquid and solid phases.  This is the 3-hour mean precipitation flux.'", 4:"CMIP5_3hr" }; 
     485data[482] = { "id":482, 0:"vmrhobr",  1:"HOBr Volume Mixing Ratio", 2:"mole_fraction_of_hypobromous_acid_in_air", 3:"''", 4:"CCMI1_daily" }; 
     486data[483] = { "id":483, 0:"ccmi_month",  1:"CCMI Month", 2:"unset", 3:"'These are what each model believes the date/time (Gregorian calendar) to be at the middle of each time interval in the output (GMT, not local time).'", 4:"CCMI1_annual,CCMI1_daily,CCMI1_hourly,CCMI1_monthly" }; 
     487data[484] = { "id":484, 0:"ta850",  1:"Air Temperature", 2:"air_temperature", 3:"'unset'", 4:"CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem" }; 
     488data[485] = { "id":485, 0:"tauvcorr",  1:"Surface Downward Y Stress Correction", 2:"surface_downward_y_stress_correction", 3:"'This is the stress on the liquid ocean from overlying atmosphere, sea ice, ice shelf, etc.'", 4:"CMIP5_Omon" }; 
     489data[486] = { "id":486, 0:"ch3cclf2trtbrdn",  1:"Tendency of Tropospheric Burden of CH3CClF2", 2:"unset", 3:"'total yearly averaged tropospheric loss'", 4:"CCMI1_annual" }; 
     490data[487] = { "id":487, 0:"h2trtbrdn",  1:"Tendency of Tropospheric Burden of H2", 2:"tendency_of_troposphere_moles_of_molecular_hydrogen", 3:"'total yearly averaged tropospheric loss'", 4:"CCMI1_annual" }; 
     491data[488] = { "id":488, 0:"ch3ccl3smtbrdn",  1:"Tendency of Middle Atmosphere Burden of CH3CCl3", 2:"tendency_of_middle_atmosphere_moles_of_hcc140a", 3:"'total yearly averaged stratospheric and mesospheric loss'", 4:"CCMI1_annual" }; 
     492data[489] = { "id":489, 0:"gf90aer",  1:"Aerosol Growth Factor at 90 Percent RH", 2:"unset", 3:"'proposed name: aerosol_growth_factor_at_90_percent_relative_humidity'", 4:"CCMI1_monthly" }; 
     493data[490] = { "id":490, 0:"ch3cltrtbrdn",  1:"Tendency of Tropospheric Burden of CH3Cl", 2:"tendency_of_troposphere_moles_of_methyl_chloride", 3:"'total yearly averaged tropospheric loss'", 4:"CCMI1_annual" }; 
     494data[491] = { "id":491, 0:"loadpoa",  1:"Load of Dry Aerosol Primary Organic Matter", 2:"atmosphere_mass_content_of_primary_particulate_organic_matter_dry_aerosol", 3:"'unset'", 4:"CMIP5_aero" }; 
     495data[492] = { "id":492, 0:"hfsithermds2d",  1:"Heat Flux into Sea Water due to Sea Ice Thermodynamics", 2:"heat_flux_into_sea_water_due_to_sea_ice_thermodynamics", 3:"'unset'", 4:"CMIP5_Omon" }; 
     496data[493] = { "id":493, 0:"tauvo",  1:"Surface Downward Y Stress", 2:"surface_downward_y_stress", 3:"'This is the stress on the liquid ocean from overlying atmosphere, sea ice, ice shelf, etc.'", 4:"CMIP5_Omon" }; 
     497data[494] = { "id":494, 0:"ageice",  1:"Age of Sea Ice", 2:"age_of_sea_ice", 3:"'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.  Reported as ''missing'' in regions free of sea ice.'", 4:"CMIP5_OImon" }; 
     498data[495] = { "id":495, 0:"lai",  1:"Leaf Area Index", 2:"leaf_area_index", 3:"'a ratio obtained by dividing the total upper leaf surface area of vegetation by the (horizontal) surface area of the land on which it grows.'", 4:"CMIP5_Lmon" }; 
     499data[496] = { "id":496, 0:"vsfriver",  1:"Virtual Salt Flux into Sea Water From Rivers", 2:"virtual_salt_flux_into_sea_water_from_rivers", 3:"'unset'", 4:"CMIP5_Omon" }; 
     500data[497] = { "id":497, 0:"ccmi_hour",  1:"CCMI Hour", 2:"unset", 3:"'These are what each model believes the date/time (Gregorian calendar) to be at the middle of each time interval in the output (GMT, not local time).'", 4:"CCMI1_annual,CCMI1_daily,CCMI1_hourly,CCMI1_monthly" }; 
     501data[498] = { "id":498, 0:"drysoa",  1:"Dry Deposition Rate of Dry Aerosol Secondary Organic Matter", 2:"tendency_of_atmosphere_mass_content_of_secondary_particulate_organic_matter_dry_aerosol_due_to_dry_deposition", 3:"'unset'", 4:"CMIP5_aero" }; 
     502data[499] = { "id":499, 0:"vgd",  1:"Vegetation Distribution", 2:"unset", 3:"'Lump your vegetation scheme into 9 categories: 1) tropf 2) decid 3) conif 4) crops 5) grass 6) tundra 7) desert 8) snow/ice 9) water.  Does not need to add to 100% due to bare soil.'", 4:"CCMI1_monthly" }; 
     503data[500] = { "id":500, 0:"tnsccwif",  1:"Tendency of Mass Fraction of Stratiform Cloud Condensed Water due to Icefall", 2:"tendency_of_mass_fraction_of_stratiform_cloud_condensed_water_in_air_due_to_icefall", 3:"'condensed water includes both liquid and ice.'", 4:"CMIP5_cfMon" }; 
     504data[501] = { "id":501, 0:"bddtalk",  1:"Rate of Change of Alkalinity due to Biological Activity", 2:"tendency_of_sea_water_alkalinity_expressed_as_mole_equivalent_due_to_biological_processes", 3:"'Net of biological terms in time rate of change of alkalinity'", 4:"CMIP5_Oyr" }; 
     505data[502] = { "id":502, 0:"evs",  1:"Water Evaporation Flux Where Ice Free Ocean over Sea", 2:"water_evaporation_flux", 3:"'computed as the total mass of water vapor evaporating from the ice-free portion of the ocean  divided by the area of the ocean portion of the grid cell.'", 4:"CMIP5_Omon" }; 
     506data[503] = { "id":503, 0:"tasAdjust",  1:"Bias-Corrected Near-Surface Air Temperature", 2:"air_temperature", 3:"'unset'", 4:"CMIP5_Amon" }; 
     507data[504] = { "id":504, 0:"maxpblz",  1:"Daily Maximum PBL Height", 2:"atmosphere_boundary_layer_thickness", 3:"''", 4:"CCMI1_daily" }; 
     508data[505] = { "id":505, 0:"sfdsi",  1:"Downward Sea Ice Basal Salt Flux", 2:"downward_sea_ice_basal_salt_flux", 3:"'This field is physical, and it arises since sea ice has a nonzero salt content, so it exchanges salt with the liquid ocean upon melting and freezing.'", 4:"CMIP5_Omon" }; 
     509data[506] = { "id":506, 0:"wetnh3",  1:"Wet Deposition Rate of NH3", 2:"tendency_of_atmosphere_mass_content_of_ammonia_due_to_wet_deposition", 3:"''", 4:"CCMI1_monthly" }; 
     510data[507] = { "id":507, 0:"abs550aer",  1:"Ambient Aerosol Absorption Optical Thickness at 550 nm", 2:"atmosphere_absorption_optical_thickness_due_to_ambient_aerosol", 3:"'unset'", 4:"CMIP5_aero" }; 
     511data[508] = { "id":508, 0:"areacello",  1:"Ocean Grid-Cell Area", 2:"cell_area", 3:"'unset'", 4:"CMIP5_fx,SPECS_fx" }; 
     512data[509] = { "id":509, 0:"emiaco",  1:"Total Emission Rate of Anthropogenic CO", 2:"unset", 3:"'Includes agricultural waste burning but no other biomass burning. proposed name: tendency_of_atmosphere_mass_content_of_anthropogenic_carbon_monoxide_due_to_emission. Integrate 3D emission field vertically to 2d field.'", 4:"CCMI1_monthly" }; 
     513data[510] = { "id":510, 0:"losso3viaoh",  1:"Chemical Loss Rate of O3 via O3+OH", 2:"unset", 3:"'proposed name: tendency_of_mole_concentration_of_ozone_due_to_chemical_destruction_by_OH'", 4:"CCMI1_monthly" }; 
     514data[511] = { "id":511, 0:"sblsi",  1:"Sublimation over Sea Ice", 2:"surface_snow_and_ice_sublimation_flux", 3:"'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.'", 4:"CMIP5_OImon" }; 
     515data[512] = { "id":512, 0:"tnhusa",  1:"Tendency of Specific Humidity due to Advection", 2:"tendency_of_specific_humidity_due_to_advection", 3:"'unset'", 4:"CMIP5_cfMon,CMIP5_cfSites" }; 
     516data[513] = { "id":513, 0:"concso4",  1:"Concentration of SO4", 2:"mass_concentration_of_sulfate_dry_aerosol_in_air", 3:"'unset'", 4:"CMIP5_aero" }; 
     517data[514] = { "id":514, 0:"vmre90n",  1:"e90n Volume Mixing Ratio", 2:"unset", 3:"'Synthetic tracer e90n, same as e90, but emitted only 40N to 90N.'", 4:"CCMI1_daily,CCMI1_monthly" }; 
     518data[515] = { "id":515, 0:"rlu",  1:"Upwelling Longwave Radiation", 2:"upwelling_longwave_flux_in_air", 3:"'unset'", 4:"CMIP5_cfSites" }; 
     519data[516] = { "id":516, 0:"zmhobr",  1:"Zonal Mean HOBr Volume Mixing Ratio", 2:"mole_fraction_of_hypobromous_acid_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     520data[517] = { "id":517, 0:"dryoa",  1:"Dry Deposition Rate of Dry Aerosol Organic Matter", 2:"tendency_of_atmosphere_mass_content_of_particulate_organic_matter_dry_aerosol_due_to_dry_deposition", 3:"'This is the sum of dry deposition of POA and dry deposition of SOA (see next two entries). 'Mass' refers to the mass of organic matter, not mass of organic carbon alone. We recommend a scale factor of POM=1.4*OC, unless your model has more detailed info available. Was called dry_pom in old ACCMIP Excel table. Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition.'", 4:"CCMI1_monthly" }; 
     521data[518] = { "id":518, 0:"ccmi_year",  1:"CCMI Year", 2:"unset", 3:"'These are what each model believes the date/time (Gregorian calendar) to be at the middle of each time interval in the output (GMT, not local time).'", 4:"CCMI1_annual,CCMI1_daily,CCMI1_hourly,CCMI1_monthly" }; 
     522data[519] = { "id":519, 0:"pr",  1:"Surface Rainfall Rate into the Sea Ice Portion of the Grid Cell", 2:"rainfall_flux", 3:"'where sea ice over sea: this is 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).  Reported as 0. in regions free of sea ice.'", 4:"CMIP5_OImon" }; 
     523data[520] = { "id":520, 0:"cheaqpso4",  1:"Aqueous-Phase Production Rate of SO4", 2:"unset", 3:"'proposed name: tendency_of_atmosphere_mass_content_of_sulfate_dry_aerosol_due_to_aqueous_phase_net_chemical_production'", 4:"CCMI1_monthly" }; 
     524data[521] = { "id":521, 0:"pon",  1:"Particulate Organic Nitrogen Concentration at Surface", 2:"mole_concentration_of_particulate_organic_matter_expressed_as_nitrogen_in_sea_water", 3:"'sum of particulate organic nitrogen component concentrations'", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     525data[522] = { "id":522, 0:"dtauc",  1:"Convective Cloud Optical Depth", 2:"atmosphere_optical_thickness_due_to_convective_cloud", 3:"'This is the in-cloud optical depth obtained by considering only the cloudy portion of the grid cell'", 4:"CMIP5_cf3hr" }; 
     526data[523] = { "id":523, 0:"vmrh2",  1:"H2 Volume Mixing Ratio", 2:"mole_fraction_of_molecular_hydrogen_in_air", 3:"''", 4:"CCMI1_daily" }; 
     527data[524] = { "id":524, 0:"emioa",  1:"Rate of Emission and Production of Dry Aerosol Total Organic Matter", 2:"tendency_of_atmosphere_mass_content_of_particulate_organic_matter_dry_aerosol_due_to_net_chemical_production_and_emission", 3:"'tendency of atmosphere mass content of organic matter dry aerosol due to net production and emission.  This is the sum of total emission of POA and total production of SOA (see next two entries). ''Mass'' refers to the mass of organic matter, not mass of organic carbon alone.'", 4:"CMIP5_aero" }; 
     528data[525] = { "id":525, 0:"phypmisc",  1:"Other Phytoplankton Carbon Production", 2:"tendency_of_mole_concentration_of_particulate_organic_matter_expressed_as_carbon_in_sea_water_due_to_net_primary_production_by_miscellaneous_phytoplankton", 3:"'Primary (organic carbon) production by other phytoplankton components alone'", 4:"CMIP5_Oyr" }; 
     529data[526] = { "id":526, 0:"reemiahch",  1:"Total Re-Emission of a-HCH", 2:"tendency_of_atmosphere_mass_content_of_alpha_hexachlorocyclohexane_due_to_re_emission", 3:"'integrate 3D emission field vertically to 2d field'", 4:"CCMI1_monthly" }; 
     530data[527] = { "id":527, 0:"c2hf3cl2tbrdn",  1:"Tendency of Atmospheric Burden of C2HF3Cl2", 2:"unset", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }; 
     531data[528] = { "id":528, 0:"difvmfdo",  1:"Ocean Vertical Momentum Diffusivity due to Form Drag", 2:"ocean_vertical_momentum_diffusivity_due_to_form_drag", 3:"'unset'", 4:"CMIP5_Oclim" }; 
     532data[529] = { "id":529, 0:"icc",  1:"Ice Cloud Area Fraction", 2:"unset", 3:"'proposed name: ice_cloud_area_fraction'", 4:"CCMI1_monthly" }; 
     533data[530] = { "id":530, 0:"tntmp",  1:"Tendency of Air Temperature due to Diabatic Processes", 2:"tendency_of_air_temperature_due_to_model_physics", 3:"'All physics'", 4:"CCMI1_monthly" }; 
     534data[531] = { "id":531, 0:"loadoa",  1:"Load of Dry Aerosol Organic Matter", 2:"atmosphere_mass_content_of_particulate_organic_matter_dry_aerosol", 3:"'atmosphere dry organic content: This is the vertically integrated sum of atmosphere_primary_organic_content and atmosphere_secondary_organic_content (see next two table entries).'", 4:"CMIP5_aero" }; 
     535data[532] = { "id":532, 0:"smc",  1:"Shallow Convective Mass Flux", 2:"atmosphere_net_upward_shallow_convective_mass_flux", 3:"'The net mass flux represents the difference between the updraft and downdraft components.  For models with a distinct shallow convection scheme, this is calculated as convective mass flux divided by the area of the whole grid cell (not just the area of the cloud).'", 4:"CMIP5_cfMon" }; 
     536data[533] = { "id":533, 0:"clw",  1:"Mass Fraction of Cloud Liquid Water", 2:"mass_fraction_of_cloud_liquid_water_in_air", 3:"'Calculated as the mass of  cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.'", 4:"CMIP5_cfDay" }; 
     537data[534] = { "id":534, 0:"zmva",  1:"Zonal Mean Northward Wind", 2:"northward_wind", 3:"''", 4:"CCMI1_monthly" }; 
     538data[535] = { "id":535, 0:"n2oglobalClim",  1:"Global Mean Mole Fraction of N2O", 2:"mole_fraction_of_nitrous_oxide_in_air", 3:"'unset'", 4:"CMIP5_Amon" }; 
     539data[536] = { "id":536, 0:"zg500",  1:"Geopotential Height at 500 hPa", 2:"geopotential_height", 3:"'geopotential height on the 500 hPa surface'", 4:"CCMI1_daily" }; 
     540data[537] = { "id":537, 0:"clc",  1:"Convective Cloud Area Fraction", 2:"convective_cloud_area_fraction_in_atmosphere_layer", 3:"'Report on model layers.  Include only convective cloud fraction.'", 4:"CCMI1_monthly" }; 
     541data[538] = { "id":538, 0:"loaddust",  1:"Load of Dust", 2:"atmosphere_mass_content_of_dust_dry_aerosol", 3:"'unset'", 4:"CMIP5_aero" }; 
     542data[539] = { "id":539, 0:"sr",  1:"Roughness length", 2:"surface_roughness_length", 3:"'unset'", 4:"SPECS_fx" }; 
     543data[540] = { "id":540, 0:"sfvmrco25",  1:"co_25 Mass Mixing Ratio in Surface Layer", 2:"unset", 3:"'daily mean or instantaneous? emitted as anthropogenic CO (emission file available from HTAP, ftp://ftp.retro.enes.org/pub/emissions/aggregated/anthro/0.5x0.5/2000/RETRO_ANTHRO_V2_2000_CO_aggregated.nc but only use annual mean), uniform fixed 25-day exponential decay.'", 4:"CCMI1_daily" }; 
     544data[541] = { "id":541, 0:"zmch3br",  1:"Zonal Mean CH3Br Volume Mixing Ratio", 2:"mole_fraction_of_methyl_bromide_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     545data[542] = { "id":542, 0:"mrsos",  1:"Moisture in Upper Portion of Soil Column", 2:"moisture_content_of_soil_layer", 3:"'the mass of water in all phases in a thin surface soil layer.'", 4:"CMIP5_3hr,CMIP5_Lmon,CMIP5_day,SPECS_Lmon" }; 
     546data[543] = { "id":543, 0:"tatp",  1:"Tropopause Air Temperature", 2:"tropopause_air_temperature", 3:"'2D monthly mean thermal tropopause calculated using WMO tropopause definition on 3d temperature'", 4:"CCMI1_monthly" }; 
     547data[544] = { "id":544, 0:"fz",  1:"Upward EPF", 2:"upward_eliassen_palm_flux_in_air", 3:"'Transformed Eulerian Mean Diagnostics Meridional component Fz of EP-flux (Fy, Fz) derived from 6hr or higher frequency fields (use daily fields or 12 hr fields if the 6 hr are not available).  Please use the definitions given by equation 3.5.3b of Andrews, Holton and Leovy text book.'", 4:"CCMI1_daily,CCMI1_monthly" }; 
     548data[545] = { "id":545, 0:"snomelt",  1:"Snow Melt Rate", 2:"surface_snow_melt_flux", 3:"'the rate of change of snow mass  due to melting, divided by the area of the ocean portion of the grid cell.  Reported as 0.0 in regions free of sea ice.  Includes falling snow that melts on impact with the surface.'", 4:"CMIP5_OImon" }; 
     549data[546] = { "id":546, 0:"clivi",  1:"Ice Water Path", 2:"atmosphere_cloud_ice_content", 3:"'mass of ice water in the column divided by the area of the column (not just the area of the cloudy portion of the column). Includes precipitating frozen hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.'", 4:"CMIP5_Amon" }; 
     550data[547] = { "id":547, 0:"h2smtbrdn",  1:"Tendency of Middle Atmosphere Burden of H2", 2:"tendency_of_middle_atmosphere_moles_of_molecular_hydrogen", 3:"'total yearly averaged stratospheric and mesospheric loss'", 4:"CCMI1_annual" }; 
     551data[548] = { "id":548, 0:"chldiaz",  1:"Mass Concentration of Diazotrophs expressed as Chlorophyll in Sea Water at Surface", 2:"mass_concentration_of_diazotrophs_expressed_as_chlorophyll_in_sea_water", 3:"'chlorophyll concentration from the diazotrophic phytoplankton component alone'", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     552data[549] = { "id":549, 0:"fVegLitter",  1:"Total Carbon Mass Flux from Vegetation to Litter", 2:"litter_carbon_flux", 3:"'unset'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     553data[550] = { "id":550, 0:"losso3viaalkenes",  1:"Chemical Loss Rate of O3 via O3+alkenes", 2:"unset", 3:"'proposed name: tendency_of_mole_concentration_of_ozone_due_to_chemical_destruction_by_alkenes'", 4:"CCMI1_monthly" }; 
     554data[551] = { "id":551, 0:"reemipcb153",  1:"Total Re-Emission of PCB-153", 2:"tendency_of_atmosphere_mass_content_of_hexachlorobiphenyl_due_to_re_emission", 3:"'integrate 3D emission field vertically to 2d field'", 4:"CCMI1_monthly" }; 
     555data[552] = { "id":552, 0:"phydiat",  1:"Mole Concentration of Diatoms expressed as Carbon in Sea Water at Surface", 2:"mole_concentration_of_diatoms_expressed_as_carbon_in_sea_water", 3:"'carbon from the diatom phytoplankton component concentration alone'", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     556data[553] = { "id":553, 0:"od550oa",  1:"POM AOD at 550nm", 2:"atmosphere_optical_thickness_due_to_particulate_organic_matter_ambient_aerosol", 3:"''", 4:"CCMI1_monthly" }; 
     557data[554] = { "id":554, 0:"swtoaasso4",  1:"All-Sky SW-RF SO4 at TOA", 2:"unset", 3:"'proposed name: toa_instantaneous_shortwave_forcing_due_to_sulfate_ambient_aerosol'", 4:"CCMI1_monthly" }; 
     558data[555] = { "id":555, 0:"emidms",  1:"Total Emission Rate of DMS", 2:"tendency_of_atmosphere_mass_content_of_dimethyl_sulfide_due_to_emission", 3:"'Integrate 3D emission field vertically to 2d field.'", 4:"CCMI1_monthly" }; 
     559data[556] = { "id":556, 0:"vmrco50sa",  1:"co_50_sa Volume Mixing Ratio", 2:"unset", 3:"'emitted as anthropogenic CO over South Asia (5N-35N; 50E-95E) (emission file available from HTAP), uniform fixed 50-day exponential decay.'", 4:"CCMI1_monthly" }; 
     560data[557] = { "id":557, 0:"zmh2",  1:"Zonal Mean H2 Volume Mixing Ratio", 2:"mole_fraction_of_molecular_hydrogen_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     561data[558] = { "id":558, 0:"tnhus",  1:"Tendency of Specific Humidity", 2:"tendency_of_specific_humidity", 3:"'unset'", 4:"CMIP5_cfMon,CMIP5_cfSites" }; 
     562data[559] = { "id":559, 0:"sconcbc",  1:"Surface Concentration of Black Carbon Aerosol", 2:"mass_concentration_of_black_carbon_dry_aerosol_in_air", 3:"'mass concentration of black carbon dry aerosol in air in model lowest layer'", 4:"CMIP5_aero" }; 
     563data[560] = { "id":560, 0:"cSoilMedium",  1:"Carbon Mass in Medium Soil Pool", 2:"medium_soil_pool_carbon_content", 3:"'medium is meant as lifetime of more than than 10 years and less than 100 years for  reference climate conditions (20 C, no water limitations)'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     564data[561] = { "id":561, 0:"vmrhcn",  1:"HCN Volume Mixing Ratio", 2:"mole_fraction_of_hydrogen_cyanide_in_air", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }; 
     565data[562] = { "id":562, 0:"sbl",  1:"Surface Snow and Ice Sublimation Flux", 2:"surface_snow_and_ice_sublimation_flux", 3:"'The snow and ice sublimation flux is the loss of snow and ice mass resulting from their conversion to water vapor.  Computed as the total sublimation on the land portion of the grid cell divided by the land area in the grid cell; reported as 0.0 for snow-free land regions; reported as 0.0 where the land fraction is 0.'", 4:"CMIP5_LImon" }; 
     566data[563] = { "id":563, 0:"tro3Clim",  1:"Mole Fraction of O3", 2:"mole_fraction_of_ozone_in_air", 3:"'unset'", 4:"CMIP5_Amon" }; 
     567data[564] = { "id":564, 0:"sh50psca",  1:"Area of PSCs at 50 hPa over the Antarctic", 2:"unset", 3:"'Daily PSC Area that is calculated by the model's PSC scheme poleward of 60 degrees at 50 hPa for July-Dec in SH'", 4:"CCMI1_daily" }; 
     568data[565] = { "id":565, 0:"fVegSoil",  1:"Total Carbon Mass Flux from Vegetation Directly to Soil", 2:"carbon_mass_flux_into_soil_from_vegetation_excluding_litter", 3:"'In some models part of carbon (e.g., root exudate) can go directly into the soil pool without entering litter.'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     569data[566] = { "id":566, 0:"sfvmro3",  1:"Ozone Volume Mixing Ratio in Lowest Model Layer", 2:"mole_fraction_of_ozone_in_air", 3:"''", 4:"CCMI1_daily" }; 
     570data[567] = { "id":567, 0:"swtoaasoaff",  1:"All-Sky SW-RF OAFF at TOA Anthropogenic", 2:"unset", 3:"'proposed name: toa_instantaneous_shortwave_forcing_due_to_particulate_organic_matter_ambient_aerosol_from_fossil_fuels'", 4:"CCMI1_monthly" }; 
     571data[568] = { "id":568, 0:"rsds",  1:"Downwelling Shortwave Radiation in Sea Water", 2:"downwelling_shortwave_flux_in_sea_water", 3:"'unset'", 4:"CMIP5_Omon" }; 
     572data[569] = { "id":569, 0:"tnsclwri",  1:"Tendency of Mass Fraction of Stratiform Cloud Liquid Water due to Riming", 2:"tendency_of_mass_fraction_of_stratiform_cloud_liquid_water_in_air_due_to_riming", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     573data[570] = { "id":570, 0:"tas",  1:"Near-Surface Air Temperature", 2:"air_temperature", 3:"'unset'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites,CMIP5_day,SPECS_Amon" }; 
     574data[571] = { "id":571, 0:"dyrsds",  1:"Surface Downwelling Shortwave Radiation", 2:"surface_downwelling_shortwave_flux_in_air", 3:"'surface solar irradiance for UV calculations'", 4:"CCMI1_daily" }; 
     575data[572] = { "id":572, 0:"rsus",  1:"Surface Upwelling Shortwave Radiation", 2:"surface_upwelling_shortwave_flux_in_air", 3:"'This is the 3-hour mean flux.'", 4:"CMIP5_3hr" }; 
     576data[573] = { "id":573, 0:"emibc",  1:"Emission Rate of Black Carbon Aerosol Mass", 2:"tendency_of_atmosphere_mass_content_of_black_carbon_dry_aerosol_due_to_emission", 3:"'Integrate 3D emission field vertically to 2d field.'", 4:"CCMI1_monthly" }; 
     577data[574] = { "id":574, 0:"dryhno3",  1:"Dry Deposition Rate of HNO3", 2:"tendency_of_atmosphere_mass_content_of_nitric_acid_due_to_dry_deposition", 3:"'dry deposition includes gravitational settling, impact scavenging, and turbulent deposition.'", 4:"CCMI1_monthly" }; 
     578data[575] = { "id":575, 0:"pilev",  1:"Air Pressure at Interfaces", 2:"unset", 3:"'The atmospheric pressure at the model layer interfaces for all times and levels in the associated output variables'", 4:"CCMI1_daily,CCMI1_monthly" }; 
     579data[576] = { "id":576, 0:"tnhusd",  1:"Tendency of Specific Humidity due to Diffusion", 2:"tendency_of_specific_humidity_due_to_diffusion", 3:"'unset'", 4:"CMIP5_cfMon,CMIP5_cfSites" }; 
     580data[577] = { "id":577, 0:"zmch3cl",  1:"Zonal Mean CH3Cl Volume Mixing Ratio", 2:"mole_fraction_of_methyl_chloride_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     581data[578] = { "id":578, 0:"zmc2br2f4",  1:"Zonal Mean CBrF2CBrF2 Volume Mixing Ratio", 2:"mole_fraction_of_halon2402_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     582data[579] = { "id":579, 0:"swtoaasdust",  1:"All-Sky SW-RF Dust at TOA", 2:"unset", 3:"'proposed name: toa_instantaneous_shortwave_forcing_due_to_dust_ambient_aerosol'", 4:"CCMI1_monthly" }; 
     583data[580] = { "id":580, 0:"vmrnoy",  1:"Total Reactive Nitrogen (NOy) Volume Mixing Ratio", 2:"mole_fraction_of_total_reactive_nitrogen_in_air", 3:"'Total family (the sum of all appropriate species in the model); list the species in the netCDF header, e.g. NOy = N + NO + NO2 + NO3 + HNO3 + 2N2O5 + HNO4 + ClONO2 + BrONO2.  Definition: Total reactive nitrogen; usually includes atomic nitrogen (N), nitric oxide (NO), NO2, nitrogen trioxide (NO3), dinitrogen radical (N2O5), nitric acid (HNO3), peroxynitric acid (HNO4), BrONO2, ClONO2.'", 4:"CCMI1_daily" }; 
     584data[581] = { "id":581, 0:"fsitherm",  1:"Water Flux into Sea Water due to Sea Ice Thermodynamics", 2:"water_flux_into_sea_water_due_to_sea_ice_thermodynamics", 3:"'computed as the sea ice thermodynamic water flux into the ocean divided by the area of the ocean portion of the grid cell.'", 4:"CMIP5_Omon" }; 
     585data[582] = { "id":582, 0:"ph",  1:"pH at Surface", 2:"sea_water_ph_reported_on_total_scale", 3:"'negative log of hydrogen ion concentration with the concentration expressed as mol H kg-1.'", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     586data[583] = { "id":583, 0:"snm",  1:"Surface Snow Melt", 2:"surface_snow_melt_flux", 3:"'Computed as the total surface melt water on the land portion of the grid cell divided by the land area in the grid cell; report as 0.0 for snow-free land regions; report as 0.0 where the land fraction is 0.'", 4:"CMIP5_LImon" }; 
     587data[584] = { "id":584, 0:"snc",  1:"Snow Area Fraction", 2:"surface_snow_area_fraction", 3:"'Fraction of each grid cell that is occupied by snow that rests on land portion of cell.'", 4:"CMIP5_LImon" }; 
     588data[585] = { "id":585, 0:"uo",  1:"Sea Water X Velocity", 2:"sea_water_x_velocity", 3:"'unset'", 4:"CMIP5_Omon,SPECS_Omon" }; 
     589data[586] = { "id":586, 0:"sftlf",  1:"Land Area Fraction", 2:"land_area_fraction", 3:"'For atmospheres with more than 1 mesh (e.g., staggered grids), report areas that apply to surface vertical fluxes of energy.'", 4:"CCMI1_fixed" }; 
     590data[587] = { "id":587, 0:"zmoclo",  1:"Zonal Mean OClO Volume Mixing Ratio", 2:"mole_fraction_of_chlorine_dioxide_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     591data[588] = { "id":588, 0:"co3satarag",  1:"Mole Concentration of Aragonite expressed as Carbon in Sea Water at Saturation at Surface", 2:"mole_concentration_of_aragonite_expressed_as_carbon_in_sea_water_at_saturation", 3:"'unset'", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     592data[589] = { "id":589, 0:"lwp",  1:"Liquid Water Path", 2:"atmosphere_mass_content_of_cloud_liquid_water", 3:"''", 4:"CCMI1_monthly" }; 
     593data[590] = { "id":590, 0:"vmrclo",  1:"ClO Volume Mixing Ratio", 2:"mole_fraction_of_chlorine_monoxide_in_air", 3:"''", 4:"CCMI1_daily" }; 
     594data[591] = { "id":591, 0:"zmhocl",  1:"Zonal Mean HOCl Volume Mixing Ratio", 2:"mole_fraction_of_hypochlorous_acid_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     595data[592] = { "id":592, 0:"clis",  1:"Mass Fraction of Stratiform Cloud Ice", 2:"mass_fraction_of_stratiform_cloud_ice_in_air", 3:"'Calculated as the mass of stratiform cloud ice  in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.'", 4:"CMIP5_cfMon" }; 
     596data[593] = { "id":593, 0:"tnpeot",  1:"Tendency of Ocean Potential Energy Content due to Tides", 2:"tendency_of_ocean_potential_energy_content_due_to_tides", 3:"'unset'", 4:"CMIP5_Oclim" }; 
     597data[594] = { "id":594, 0:"emidust",  1:"Total Emission Rate of Dust", 2:"tendency_of_atmosphere_mass_content_of_dust_dry_aerosol_due_to_emission", 3:"'Integrate 3D emission field vertically to 2d field.'", 4:"CCMI1_monthly" }; 
     598data[595] = { "id":595, 0:"epcalc100",  1:"Downward Flux of Calcite", 2:"sinking_mole_flux_of_calcite_expressed_as_carbon_in_sea_water", 3:"'unset'", 4:"CMIP5_Omon" }; 
     599data[596] = { "id":596, 0:"strairy",  1:"Y-Component of Atmospheric Stress On Sea Ice", 2:"surface_downward_y_stress", 3:"'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.   Reported as ''missing'' in regions free of sea ice.'", 4:"CMIP5_OImon,SPECS_OImon" }; 
     600data[597] = { "id":597, 0:"prc",  1:"Convective Precipitation", 2:"convective_precipitation_flux", 3:"'at surface; includes both liquid and solid phases.'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites,CMIP5_day,CORDEX_3h,CORDEX_day,SPECS_Amon,SPECS_day" }; 
     601data[598] = { "id":598, 0:"loadnh4",  1:"Load of NH4", 2:"atmosphere_mass_content_of_ammonium_dry_aerosol", 3:"'unset'", 4:"CMIP5_aero" }; 
     602data[599] = { "id":599, 0:"hfls",  1:"Surface Upward Latent Heat Flux", 2:"surface_upward_latent_heat_flux", 3:"'includes both evaporation and sublimation'", 4:"CMIP5_Amon" }; 
     603data[600] = { "id":600, 0:"mmraerh2o",  1:"Aerosol Water Mass Mixing Ratio", 2:"mass_fraction_of_water_in_ambient_aerosol_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     604data[601] = { "id":601, 0:"diftrelo",  1:"Ocean Tracer Epineutral Laplacian Diffusivity", 2:"ocean_tracer_epineutral_laplacian_diffusivity", 3:"'unset'", 4:"CMIP5_Oclim" }; 
     605data[602] = { "id":602, 0:"rss",  1:"Net Shortwave Surface Radiation", 2:"surface_net_downward_shortwave_flux", 3:"'unset'", 4:"SPECS_Amon" }; 
     606data[603] = { "id":603, 0:"evspsbl",  1:"Evaporation", 2:"water_evaporation_flux", 3:"'at surface; flux of water into the atmosphere due to conversion of both liquid and solid phases to vapor (from underlying surface and vegetation)'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites,CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem,SPECS_Amon" }; 
     607data[604] = { "id":604, 0:"rlut",  1:"TOA Outgoing Longwave Radiation", 2:"toa_outgoing_longwave_flux", 3:"'unset'", 4:"CMIP5_cfDay" }; 
     608data[605] = { "id":605, 0:"cProduct",  1:"Carbon Mass in Products of Land Use Change", 2:"carbon_content_of_products_of_anthropogenic_land_use_change", 3:"'unset'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     609data[606] = { "id":606, 0:"cMisc",  1:"Carbon Mass in Other Living Compartments on Land", 2:"miscellaneous_living_matter_carbon_content", 3:"'e.g., labile, fruits, reserves, etc.'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     610data[607] = { "id":607, 0:"rlds",  1:"Surface Downwelling Longwave Radiation", 2:"surface_downwelling_longwave_flux_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     611data[608] = { "id":608, 0:"eviscu",  1:"Eddy Viscosity Coefficients for Momentum", 2:"atmosphere_momentum_diffusivity", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     612data[609] = { "id":609, 0:"psl",  1:"Sea Level Pressure", 2:"air_pressure_at_sea_level", 3:"'unset'", 4:"CMIP5_6hrPlev,CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites,CMIP5_day,CORDEX_3h,CORDEX_day,CORDEX_mon,CORDEX_sem,SPECS_6hr,SPECS_Amon,SPECS_day" }; 
     613data[610] = { "id":610, 0:"vmro3ste",  1:"O3ste Volume Mixing Ratio", 2:"unset", 3:"'Ozone tracer intended to map out strat-trop exchange (STE) of ozone: (a) set o3ste to O3 at top layer; (b) use standard O3 P-L terms to change o3ste every chemistry time step for 'stratospheric' air grid boxes; (c) reset o3ste to O3 in the lowermost layers (fix these layers to be up to sigma=0.9, ~1 km altitude) and record this tropospheric reset only as a 2-D (lat,long) monthly mean tendency (Tg/s or Tg per month pergird cell).  Determine 'stratospheric' air in any way that is most convenient (e90, O3, PV-theta, etc).'", 4:"CCMI1_daily" }; 
     614data[611] = { "id":611, 0:"cLitter",  1:"Carbon Mass in Litter Pool", 2:"litter_carbon_content", 3:"'unset'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     615data[612] = { "id":612, 0:"sfcWindmax",  1:"Daily Maximum Near-Surface Wind Speed", 2:"wind_speed", 3:"'unset'", 4:"CMIP5_day" }; 
     616data[613] = { "id":613, 0:"mc",  1:"Convective Mass Flux", 2:"atmosphere_net_upward_convective_mass_flux", 3:"'The net mass flux should represent the difference between the updraft and downdraft components.  The flux is computed as the mass divided by the area of the grid cell.'", 4:"CMIP5_Amon,CMIP5_cfDay,CMIP5_cfSites" }; 
     617data[614] = { "id":614, 0:"reffclis",  1:"Hydrometeor Effective Radius of Stratiform Cloud Ice", 2:"effective_radius_of_stratiform_cloud_ice_particle", 3:"'This is defined as the in-cloud ratio of the third moment over the second moment of the particle size distribution (obtained by considering only the cloudy portion of the grid cell).'", 4:"CMIP5_cf3hr" }; 
     618data[615] = { "id":615, 0:"tsAdjust",  1:"Bias-Corrected Surface Temperature", 2:"surface_temperature", 3:"'''skin'' temperature (i.e., SST for open ocean)'", 4:"CMIP5_Amon" }; 
     619data[616] = { "id":616, 0:"nh50psca",  1:"Area of PSC at 50 hPa over the Arctic", 2:"unset", 3:"'Daily PSC Area that is calculated by the model's PSC scheme poleward of 60 degrees at 50 hPa for Nov-April in NH'", 4:"CCMI1_daily" }; 
     620data[617] = { "id":617, 0:"vmrco50na",  1:"co_50_na Volume Mixing Ratio", 2:"unset", 3:"'emitted as anthropogenic CO over North America (15N-55N; 60W-125W) (emission file available from HTAP), uniform fixed 50-day exponential decay.'", 4:"CCMI1_monthly" }; 
     621data[618] = { "id":618, 0:"snd",  1:"Snow Depth", 2:"surface_snow_thickness", 3:"'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).  Reported as 0.0 in regions free of snow-covered sea ice.'", 4:"CMIP5_OImon" }; 
     622data[619] = { "id":619, 0:"zmbro",  1:"Zonal mean BrO Volume Mixing Ratio", 2:"mole_fraction_of_bromine_monoxide_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     623data[620] = { "id":620, 0:"ch4",  1:"Mole Fraction of CH4", 2:"mole_fraction_of_methane_in_air", 3:"'unset'", 4:"CMIP5_Amon" }; 
     624data[621] = { "id":621, 0:"mmroa",  1:"POM Mass Mixing Ratio", 2:"mass_fraction_of_particulate_organic_matter_dry_aerosol_in_air", 3:"'We recommend a scale factor of POM=1.4*OC, unless your model has more detailed info available.'", 4:"CCMI1_monthly" }; 
     625data[622] = { "id":622, 0:"inc",  1:"Ice Crystal Number Concentration", 2:"number_concentration_of_ice_crystals_in_air", 3:"'Ice Crystal number concentration in ice clouds'", 4:"CMIP5_aero" }; 
     626data[623] = { "id":623, 0:"goro",  1:"Orography", 2:"surface_geopotential", 3:"'unset'", 4:"SPECS_fx" }; 
     627data[624] = { "id":624, 0:"emiaoa",  1:"Anthropogenic Emission Rate of Dry Aerosol Total Organic Matter", 2:"unset", 3:"'Includes agricultural waste burning but no other biomass burning. We recommend a scale factor of POM=1.4*OC, unless your model has more detailed info available. Tendency of atmosphere mass content of total organic aerosol due to emission: 'mass' refers to the mass of organic matter, not mass of organic carbon alone. Was called emi_apom in old ACCMIP Excel table.  Integrate 3D emission field vertically to 2d field.'", 4:"CCMI1_monthly" }; 
     628data[625] = { "id":625, 0:"sfmmrss",  1:"Sea Salt Mass Mixing Ratio in Lowest Model Layer", 2:"mass_fraction_of_seasalt_dry_aerosol_in_air", 3:"'seasalt'", 4:"CCMI1_daily" }; 
     629data[626] = { "id":626, 0:"rsucs",  1:"Upwelling Clear-Sky Shortwave Radiation", 2:"upwelling_shortwave_flux_in_air_assuming_clear_sky", 3:"'unset'", 4:"CMIP5_cfSites" }; 
     630data[627] = { "id":627, 0:"ta10",  1:"Air Temperature at 10 hPa", 2:"air_temperature", 3:"'Temperature on the 10 hPa surface'", 4:"CCMI1_daily" }; 
     631data[628] = { "id":628, 0:"clt",  1:"Total Cloud Fraction", 2:"cloud_area_fraction", 3:"'For the whole atmospheric column, as seen from the surface or the top of the atmosphere. Include both large-scale and convective cloud.'", 4:"CCMI1_monthly" }; 
     632data[629] = { "id":629, 0:"reffclwtop",  1:"Cloud-Top Effective Droplet Radius", 2:"effective_radius_of_cloud_liquid_water_particle_at_liquid_water_cloud_top", 3:"'Droplets are liquid only.  This is the effective radius 'as seen from space' over liquid cloudy portion of grid cell. This is the value from the uppermost model layer with liquid cloud or, if available, or for some models it is the sum over all liquid cloud tops, no matter where they occur, as long as they are seen from the top of the atmosphere.  Reported values are weighted by total liquid cloud top fraction (as seen from TOA) of each time sample when computing monthly mean.'", 4:"CCMI1_monthly" }; 
     633data[630] = { "id":630, 0:"hfnortha",  1:"Atlantic Northward Ocean Heat Transport", 2:"northward_ocean_heat_transport", 3:"'unset'", 4:"SPECS_Omon" }; 
     634data[631] = { "id":631, 0:"htovgyre",  1:"Northward Ocean Heat Transport due to Gyre", 2:"northward_ocean_heat_transport_due_to_gyre", 3:"'unset'", 4:"CMIP5_Omon" }; 
     635data[632] = { "id":632, 0:"burntArea",  1:"Burnt Area Fraction", 2:"area_fraction", 3:"'fraction of entire grid cell  that is covered by burnt vegetation.'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     636data[633] = { "id":633, 0:"clc",  1:"Convective Cloud Area Fraction", 2:"convective_cloud_area_fraction_in_atmosphere_layer", 3:"'unset'", 4:"CMIP5_cf3hr,CMIP5_cfMon" }; 
     637data[634] = { "id":634, 0:"zmnoy",  1:"Zonal Mean Total Reactive Nitrogen (NOy) Volume Mixing Ratio", 2:"mole_fraction_of_total_reactive_nitrogen_in_air", 3:"'Total reactive nitrogen; usually includes atomic nitrogen (N), nitric oxide (NO), NO2, nitrogen trioxide (NO3), dinitrogen radical (N2O5), nitric acid (HNO3), peroxynitric acid (HNO4), BrONO2, ClONO2.  Add comment attribute with detailed description about how the model calculates these fields e.g. NOy = N + NO + NO2 + NO3 + HNO3 + 2N2O5 + HNO4 + ClONO2 + BrONO2'", 4:"CCMI1_monthly" }; 
     638data[635] = { "id":635, 0:"tnkebto",  1:"Tendency of Ocean Eddy Kinetic Energy Content due to Bolus Transport", 2:"tendency_of_ocean_eddy_kinetic_energy_content_due_to_bolus_transport", 3:"'unset'", 4:"CMIP5_Oclim" }; 
     639data[636] = { "id":636, 0:"zoocmisc",  1:"Other Zooplankton Carbon Concentration at Surface", 2:"mole_concentration_of_miscellaneous_zooplankton_expressed_as_carbon_in_sea_water", 3:"'carbon from additional zooplankton component concentrations alone (e.g. Micro, meso).  Since the models all have different numbers of components, this variable has been included to provide a check for intercomparison between models since some phytoplankton groups are supersets.'", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     640data[637] = { "id":637, 0:"hus",  1:"Specific Humidity", 2:"specific_humidity", 3:"'unset'", 4:"CMIP5_6hrLev,CMIP5_Amon,CMIP5_cfDay,CMIP5_cfMon,CMIP5_cfSites,CMIP5_day,SPECS_Amon" }; 
     641data[638] = { "id":638, 0:"clcalipso2",  1:"CALIPSO Cloud Fraction Undetected by CloudSat", 2:"cloud_area_fraction_in_atmosphere_layer", 3:"'Clouds detected by CALIPSO but below the detectability threshold of CloudSat'", 4:"CMIP5_cf3hr,CMIP5_cfOff" }; 
     642data[639] = { "id":639, 0:"sfmmrpm2p5",  1:"PM2.5 Mass Mixing Ratio in the Lowest Model Layer", 2:"mass_fraction_of_pm2p5_ambient_aerosol_in_air", 3:"''", 4:"CCMI1_hourly" }; 
     643data[640] = { "id":640, 0:"fco2antt",  1:"Carbon Mass Flux into Atmosphere Due to All Anthropogenic Emissions of CO2", 2:"tendency_of_atmosphere_mass_content_of_carbon_dioxide_expressed_as_carbon_due_to_anthropogenic_emission", 3:"'This is requested only for the emission-driven coupled carbon climate model runs.  Does not include natural fire sources but, includes all anthropogenic sources, including fossil fuel use, cement production, agricultural burning, and sources associated with anthropogenic land use change excluding forest regrowth.'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites" }; 
     644data[641] = { "id":641, 0:"hfibthermds2d",  1:"Heat Flux into Sea Water due to Iceberg Thermodynamics", 2:"heat_flux_into_sea_water_due_to_iceberg_thermodynamics", 3:"'unset'", 4:"CMIP5_Omon" }; 
     645data[642] = { "id":642, 0:"wetnh4",  1:"Wet Deposition Rate of NH4", 2:"tendency_of_atmosphere_mass_content_of_ammonium_dry_aerosol_due_to_wet_deposition", 3:"''", 4:"CCMI1_monthly" }; 
     646data[643] = { "id":643, 0:"cdnc",  1:"Cloud Droplet Number Concentration", 2:"number_concentration_of_cloud_liquid_water_particles_in_air", 3:"'Cloud droplet number concentration in liquid clouds'", 4:"CMIP5_aero" }; 
     647data[644] = { "id":644, 0:"vmrno",  1:"NO Volume Mixing Ratio", 2:"mole_fraction_of_nitrogen_monoxide_in_air", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }; 
     648data[645] = { "id":645, 0:"mlotst",  1:"Ocean mixed layer thickness defined by sigma T", 2:"ocean_mixed_layer_thickness_defined_by_sigma_t", 3:"'unset'", 4:"SPECS_Omon,SPECS_day" }; 
     649data[646] = { "id":646, 0:"wetso4",  1:"Wet Deposition Rate of SO4", 2:"unset", 3:"'proposed name: tendency_of_atmosphere_mass_content_of_sulfate_dry_aerosol_due_to_wet_deposition'", 4:"CCMI1_monthly" }; 
     650data[647] = { "id":647, 0:"reffclwc",  1:"Hydrometeor Effective Radius of Convective Cloud Liquid Water", 2:"effective_radius_of_convective_cloud_liquid_water_particle", 3:"'This is defined as the in-cloud ratio of the third moment over the second moment of the particle size distribution (obtained by considering only the cloudy portion of the grid cell).'", 4:"CMIP5_cf3hr" }; 
     651data[648] = { "id":648, 0:"mmrss",  1:"Sea Salt Mass Mixing Ratio", 2:"mass_fraction_of_seasalt_dry_aerosol_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     652data[649] = { "id":649, 0:"pctisccp",  1:"ISCCP Mean Cloud Top Pressure", 2:"air_pressure_at_cloud_top", 3:"'time-means are weighted by the ISCCP Total Cloud Fraction - see  http://cfmip.metoffice.com/COSP.html'", 4:"CMIP5_cfDay,CMIP5_cfMon" }; 
     653data[650] = { "id":650, 0:"omldamax",  1:"Mean Daily Maximum Ocean Mixed Layer Thickness Defined by Mixing Scheme", 2:"ocean_mixed_layer_thickness_defined_by_mixing_scheme", 3:"'unset'", 4:"CMIP5_Omon,CMIP5_day" }; 
     654data[651] = { "id":651, 0:"altaoa",  1:"Alternate Stratospheric Age of Air", 2:"age_of_stratospheric_air", 3:"'Stratospheric mean age-of-air. Use existing implementation or implement the same as AOA_NH except fixed surface layer mixing ratio is set to 0ppbv over the surface of the whole globe.  For method using linearly increasing tracer include a method attribute: 'linearly increasing tracer'.  For method using uniform source (1yr/yr) include a method attribute: 'uniform source'.  For details see website XXXXX'", 4:"CCMI1_monthly" }; 
     655data[652] = { "id":652, 0:"dryss",  1:"Dry Deposition Rate of Seasalt", 2:"tendency_of_atmosphere_mass_content_of_seasalt_dry_aerosol_due_to_dry_deposition", 3:"'Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition.'", 4:"CCMI1_monthly" }; 
     656data[653] = { "id":653, 0:"rsucs4co2",  1:"Upwelling Clear-Sky Shortwave Radiation 4XCO2 Atmosphere", 2:"upwelling_shortwave_flux_in_air_assuming_clear_sky", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     657data[654] = { "id":654, 0:"msftyrhoz",  1:"Ocean Y Overturning Mass Streamfunction", 2:"ocean_y_overturning_mass_streamfunction", 3:"'unset'", 4:"CMIP5_Omon" }; 
     658data[655] = { "id":655, 0:"ch4Clim",  1:"Mole Fraction of CH4", 2:"mole_fraction_of_methane_in_air", 3:"'unset'", 4:"CMIP5_Amon" }; 
     659data[656] = { "id":656, 0:"spco2",  1:"Surface Aqueous Partial Pressure of CO2", 2:"surface_partial_pressure_of_carbon_dioxide_in_sea_water", 3:"'unset'", 4:"CMIP5_Omon" }; 
     660data[657] = { "id":657, 0:"tntmp",  1:"Tendency of Air Temperature due to Diabatic Processes", 2:"tendency_of_air_temperature_due_to_model_physics", 3:"'unset'", 4:"CMIP5_cfMon,CMIP5_cfSites" }; 
     661data[658] = { "id":658, 0:"cll",  1:"Low Level Cloud Fraction", 2:"cloud_area_fraction_in_atmosphere_layer", 3:"'p>680 hPa'", 4:"CORDEX_6h,CORDEX_day" }; 
     662data[659] = { "id":659, 0:"hfss",  1:"Surface Upward Sensible Heat Flux", 2:"surface_upward_sensible_heat_flux", 3:"'unset'", 4:"CMIP5_Amon" }; 
     663data[660] = { "id":660, 0:"jno2",  1:"Photolysis Rate of NO2", 2:"unset", 3:"''", 4:"CCMI1_monthly" }; 
     664data[661] = { "id":661, 0:"hfssi",  1:"Surface Upward Sensible Heat Flux over Sea Ice", 2:"surface_upward_sensible_heat_flux", 3:"'the upward sensible heat flux in regions of sea ice divided by the area of the ocean portion of the grid cell.'", 4:"CMIP5_OImon" }; 
     665data[662] = { "id":662, 0:"c2br2f4brdn",  1:"Atmospheric Burden of Halon 2402", 2:"atmosphere_moles_of_halon2402", 3:"'total yearly average burden'", 4:"CCMI1_annual" }; 
     666data[663] = { "id":663, 0:"dpocdtpico",  1:"Tendency of Mole Concentration of Organic Carbon in Sea Water due to Net Primary Production by Picophytoplankton", 2:"tendency_of_mole_concentration_of_particulate_organic_matter_expressed_as_carbon_in_sea_water_due_to_net_primary_production_by_picophytoplankton", 3:"'Primary (organic carbon) production by the picophytoplankton (<2 um) component alone'", 4:"CMIP5_Oyr" }; 
     667data[664] = { "id":664, 0:"lcc",  1:"Liquid Water Cloud Area Fraction", 2:"unset", 3:"'proposed name: liquid_water_cloud_area_fraction'", 4:"CCMI1_monthly" }; 
     668data[665] = { "id":665, 0:"tnsclids",  1:"Tendency of Mass Fraction of Stratiform Cloud Ice due to Deposition and Sublimation", 2:"tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_deposition_and_sublimation", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     669data[666] = { "id":666, 0:"concso2",  1:"Mole Fraction of SO2", 2:"mole_fraction_of_sulfur_dioxide_in_air", 3:"'unset'", 4:"CMIP5_aero" }; 
     670data[667] = { "id":667, 0:"od550bc",  1:"Black Carbon AOD at 550nm", 2:"atmosphere_optical_thickness_due_to_black_carbon_ambient_aerosol", 3:"''", 4:"CCMI1_monthly" }; 
     671data[668] = { "id":668, 0:"va50",  1:"Northward Wind at 50 hPa", 2:"northward_wind", 3:"'Meridional wind on the 50 hPa surface'", 4:"CCMI1_daily" }; 
     672data[669] = { "id":669, 0:"snw",  1:"Surface Snow Amount", 2:"surface_snow_amount", 3:"'the mass of surface snow on the land portion of the grid cell divided by the land area in the grid cell; reported as 0.0 where the land fraction is 0; excludes snow on vegetation canopy or on sea ice.'", 4:"CMIP5_day" }; 
     673data[670] = { "id":670, 0:"rlut",  1:"TOA Outgoing Longwave Radiation", 2:"toa_outgoing_longwave_flux", 3:"'at the top of the atmosphere (to be compared with satellite measurements)'", 4:"CCMI1_monthly,CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites,SPECS_Amon" }; 
     674data[671] = { "id":671, 0:"hfrunoffds",  1:"Temperature Flux due to Runoff Expressed as Heat Flux into Sea Water", 2:"temperature_flux_due_to_runoff_expressed_as_heat_flux_into_sea_water", 3:"'unset'", 4:"CMIP5_Omon" }; 
     675data[672] = { "id":672, 0:"ccn",  1:"Cloud Condensation Nuclei Concentration at Liquid Cloud Top", 2:"unset", 3:"'proposed name: number_concentration_of_ambient_aerosol_in_air_at_liquid_water_cloud_top'", 4:"CCMI1_monthly" }; 
     676data[673] = { "id":673, 0:"cbrclf2tbrdn",  1:"Tendency of Atmospheric Burden of Halon 1211", 2:"tendency_of_atmosphere_moles_of_halon1211", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }; 
     677data[674] = { "id":674, 0:"agesno",  1:"Snow Age", 2:"age_of_surface_snow", 3:"'When computing the time-mean here, the time samples, weighted by the mass of snow on the land portion of the grid cell, are accumulated and then divided by the sum of the weights.  Reported as ''missing in regions free of snow on land.'", 4:"CMIP5_LImon" }; 
     678data[675] = { "id":675, 0:"rsdcs",  1:"Downwelling Clear-Sky Shortwave Radiation", 2:"downwelling_shortwave_flux_in_air_assuming_clear_sky", 3:"'unset'", 4:"CMIP5_cfSites" }; 
     679data[676] = { "id":676, 0:"thetao",  1:"Sea water potential temperature", 2:"sea_water_potential_temperature", 3:"'unset'", 4:"SPECS_Omon" }; 
     680data[677] = { "id":677, 0:"intpdiat",  1:"Primary Organic Carbon Production by Diatoms", 2:"net_primary_mole_productivity_of_carbon_by_diatoms", 3:"'Vertically integrated primary (organic carbon) production by the diatom phytoplankton component alone'", 4:"CMIP5_Omon" }; 
     681data[678] = { "id":678, 0:"vmrbrono2",  1:"BrONO2 Volume Mixing Ratio", 2:"mole_fraction_of_bromine_nitrate_in_air", 3:"''", 4:"CCMI1_daily" }; 
     682data[679] = { "id":679, 0:"sadsulf",  1:"Surface Area Density of Sulfate Aerosol", 2:"unset", 3:"'sulfate aerosol surface area density used in heterogeneous activation of ClOx and BrOx. Defined as the area of aerosol per volume of atmosphere (i.e., m2 m-3 = m-1). This is the total sulfate SAD (i.e., sum of binary and ternary aerosol).'", 4:"CCMI1_daily" }; 
     683data[680] = { "id":680, 0:"snd",  1:"Snow Depth", 2:"surface_snow_thickness", 3:"'where land over land.  Compute the mean thickness of snow in the land portion of the grid cell (averaging over the entire land portion, including the snow-free fraction.  Report as 0.0 where the land fraction is 0.'", 4:"CORDEX_6h" }; 
     684data[681] = { "id":681, 0:"reffclitop",  1:"Ice Cloud-Top Effective Crystal Radius", 2:"unset", 3:"'This is the value from uppermost model layer with ice cloud or, if available, or for some models it is the sum over all ice cloud tops, no matter where they occur, as long as they are seen from the top of the atmosphere.  Reported values are weighted by total cwiceliquid cloud top fraction of  (as seen from TOA) each time sample when computing monthly mean. proposed name: effective_radius_of_cloud_crystal_at_ice_cloud_top'", 4:"CCMI1_monthly" }; 
     685data[682] = { "id":682, 0:"sftlf",  1:"Land Area Fraction", 2:"land_area_fraction", 3:"'This is the area fraction at the ocean surface.'", 4:"SPECS_fx" }; 
     686data[683] = { "id":683, 0:"lso3chm",  1:"Net Chemistry Tendency of O3 in the Lower-Most Stratosphere", 2:"unset", 3:"'The tropopause follows the WMO definition. The tendency has to be calculated online for all the grid boxes above the tropopause (excluding the boxes containing the tropopause) and below 100 hPa, as tropopause fluctuates rapidly.  Integrate 3D tendency field vertically to 2d field for every time step, then do the monthly average.'", 4:"CCMI1_monthly" }; 
     687data[684] = { "id":684, 0:"zmta",  1:"Zonal Mean Air Temperature", 2:"air_temperature", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }; 
     688data[685] = { "id":685, 0:"cWood",  1:"Carbon Mass in Wood", 2:"wood_carbon_content", 3:"'including sapwood and hardwood.'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     689data[686] = { "id":686, 0:"cli",  1:"Mass Fraction of Cloud Ice", 2:"mass_fraction_of_cloud_ice_in_air", 3:"'Includes both large-scale and convective cloud. This is calculated as the mass of cloud ice in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  It includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.'", 4:"CCMI1_monthly" }; 
     690data[687] = { "id":687, 0:"dems",  1:"Stratiform Cloud Emissivity", 2:"stratiform_cloud_longwave_emissivity", 3:"'This is the in-cloud emissivity obtained by considering only the cloudy portion of the grid cell.'", 4:"CMIP5_cf3hr" }; 
     691data[688] = { "id":688, 0:"ta5",  1:"Air Temperature at 5 hPa", 2:"air_temperature", 3:"'Temperature on the 5 hPa surface'", 4:"CCMI1_daily" }; 
     692data[689] = { "id":689, 0:"concbc",  1:"Concentration of Black Carbon Aerosol", 2:"mass_concentration_of_black_carbon_dry_aerosol_in_air", 3:"'unset'", 4:"CMIP5_aero" }; 
     693data[690] = { "id":690, 0:"tmelt",  1:"Rate of Melt at Upper Surface of Sea Ice", 2:"tendency_of_sea_ice_amount_due_to_surface_melting", 3:"'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.  Reported as 0.0 in regions free of sea ice. Does not include rate of change of snow mass.'", 4:"CMIP5_OImon" }; 
     694data[691] = { "id":691, 0:"prlsprof",  1:"Stratiform Rainfall Flux", 2:"large_scale_rainfall_flux", 3:"'unset'", 4:"CMIP5_cf3hr" }; 
     695data[692] = { "id":692, 0:"hfnorthaba",  1:"Atlantic Northward Ocean Heat Transport Due to Bolus Advection", 2:"northward_ocean_heat_transport_due_to_bolus_advection", 3:"'unset'", 4:"SPECS_Omon" }; 
     696data[693] = { "id":693, 0:"ccb",  1:"Air Pressure at Convective Cloud Base", 2:"air_pressure_at_convective_cloud_base", 3:"'unset'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfDay,CMIP5_cfSites" }; 
     697data[694] = { "id":694, 0:"zossq",  1:"Square of Sea Surface Height Above Geoid", 2:"square_of_sea_surface_height_above_geoid", 3:"'unset'", 4:"CMIP5_Omon" }; 
     698data[695] = { "id":695, 0:"tnscliif",  1:"Tendency of Mass Fraction of Stratiform Cloud Ice due to Icefall", 2:"tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_icefall", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     699data[696] = { "id":696, 0:"bfe",  1:"Particulate Biogenic Iron Concentration at Surface", 2:"mole_concentration_of_particulate_organic_matter_expressed_as_iron_in_sea_water", 3:"'sum of particulate organic iron component concentrations'", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     700data[697] = { "id":697, 0:"prodhpx",  1:"Production Rate of all Hydrogen Peroxides", 2:"unset", 3:"'Summed 3-d distritbution of production rate of H2O2 and ROOH'", 4:"CCMI1_monthly" }; 
     701data[698] = { "id":698, 0:"baresoilFrac",  1:"Bare Soil Fraction", 2:"area_fraction", 3:"'fraction of entire grid cell  that is covered by bare soil.'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     702data[699] = { "id":699, 0:"expcalc",  1:"Sinking Calcite Flux", 2:"sinking_mole_flux_of_calcite_expressed_as_carbon_in_sea_water", 3:"'unset'", 4:"CMIP5_Oyr" }; 
     703data[700] = { "id":700, 0:"rlutcs",  1:"TOA Outgoing Clear-Sky Longwave Radiation", 2:"toa_outgoing_longwave_flux_assuming_clear_sky", 3:"'unset'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfDay,CMIP5_cfSites" }; 
     704data[701] = { "id":701, 0:"snw",  1:"Surface Snow Amount", 2:"surface_snow_amount", 3:"'Computed as the mass of surface snow on the land portion of the grid cell divided by the land area in the grid cell; reported as 0.0 where the land fraction is 0; excluded is snow on vegetation canopy or on sea ice.'", 4:"CMIP5_LImon" }; 
     705data[702] = { "id":702, 0:"ch3brsmtbrdn",  1:"Tendency of Middle Atmosphere Burden of CH3Br", 2:"tendency_of_middle_atmosphere_moles_of_methyl_bromide", 3:"'total yearly averaged stratospheric and mesospheric loss'", 4:"CCMI1_annual" }; 
     706data[703] = { "id":703, 0:"hfxba",  1:"Ocean Heat X Transport due to Bolus Advection", 2:"ocean_heat_x_transport_due_to_bolus_advection", 3:"'unset'", 4:"CMIP5_Omon" }; 
     707data[704] = { "id":704, 0:"tntc",  1:"Tendency of Air Temperature due to Moist Convection", 2:"tendency_of_air_temperature_due_to_convection", 3:"'unset'", 4:"CMIP5_cfMon,CMIP5_cfSites" }; 
     708data[705] = { "id":705, 0:"ua850",  1:"Eastward Wind at 850 hPa", 2:"eastward_wind", 3:"'Zonal wind on the 850 hPa surface'", 4:"CCMI1_daily" }; 
     709data[706] = { "id":706, 0:"dryo3",  1:"Dry Deposition Rate of Ozone", 2:"tendency_of_atmosphere_mass_content_of_ozone_due_to_dry_deposition", 3:"'dry deposition includes gravitational settling, impact scavenging, and turbulent deposition.'", 4:"CCMI1_monthly" }; 
     710data[707] = { "id":707, 0:"fddtalk",  1:"Rate of Change of Alkalinity", 2:"integral_wrt_depth_of_tendency_of_sea_water_alkalinity_expressed_as_mole_equivalent", 3:"'vertical integral of net time rate of change of alkalinity'", 4:"CMIP5_Omon" }; 
     711data[708] = { "id":708, 0:"zmoh",  1:"Zonal Mean OH Volume Mixing Ratio", 2:"mole_fraction_of_hydroxyl_radical_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     712data[709] = { "id":709, 0:"snc",  1:"Snow Area Fraction", 2:"surface_snow_area_fraction", 3:"''", 4:"CCMI1_monthly" }; 
     713data[710] = { "id":710, 0:"tnscli",  1:"Tendency of Mass Fraction of Stratiform Cloud Ice In Air", 2:"tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     714data[711] = { "id":711, 0:"hfds",  1:"Downward Heat Flux at Sea Water Surface", 2:"surface_downward_heat_flux_in_sea_water", 3:"''This is the net flux of heat entering the liquid water column through its upper surface (excluding any ''flux adjustment'') .''", 4:"CMIP5_Omon" }; 
     715data[712] = { "id":712, 0:"clt",  1:"Total Cloud Fraction", 2:"cloud_area_fraction", 3:"'For the whole atmospheric column, as seen from the surface or the top of the atmosphere.  Include both large-scale and convective cloud.'", 4:"CCMI1_daily" }; 
     716data[713] = { "id":713, 0:"huss",  1:"Near-Surface Specific Humidity", 2:"specific_humidity", 3:"'near-surface (usually, 2 meter) specific humidity.'", 4:"CORDEX_3h,CORDEX_day,CORDEX_mon,CORDEX_sem" }; 
     717data[714] = { "id":714, 0:"sconcsoa",  1:"Surface Concentration of Dry Aerosol Secondary Organic Matter", 2:"mass_concentration_of_secondary_particulate_organic_matter_dry_aerosol_in_air", 3:"'mass concentration of secondary particulate organic matter dry aerosol in air in model lowest layer.  If the model lumps SOA with POA, then their sum is reported as POA.'", 4:"CMIP5_aero" }; 
     718data[715] = { "id":715, 0:"strocnx",  1:"X-Component of Ocean Stress On Sea Ice", 2:"upward_x_stress_at_sea_ice_base", 3:"'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.'", 4:"CMIP5_OImon,SPECS_OImon" }; 
     719data[716] = { "id":716, 0:"bddtdife",  1:"Rate of Change of Dissolved Inorganic Iron due to Biological Activity", 2:"tendency_of_mole_concentration_of_dissolved_inorganic_iron_in_sea_water_due_to_biological_processes", 3:"'Net of biological terms in time rate of change of dissolved inorganic iron'", 4:"CMIP5_Oyr" }; 
     720data[717] = { "id":717, 0:"sftlf",  1:"Land Area Fraction", 2:"land_area_fraction", 3:"'unset'", 4:"CMIP5_fx" }; 
     721data[718] = { "id":718, 0:"strairx",  1:"X-Component of Atmospheric Stress On Sea Ice", 2:"surface_downward_x_stress", 3:"'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.   Reported as ''missing'' in regions free of sea ice.'", 4:"CMIP5_OImon,SPECS_OImon" }; 
     722data[719] = { "id":719, 0:"evlwr",  1:"evaporation", 2:"lwe_water_evaporation_rate", 3:"'unset'", 4:"SPECS_Amon" }; 
     723data[720] = { "id":720, 0:"mmraerno3",  1:"NO3 Aerosol Mass Mixing Ratio", 2:"mass_fraction_of_nitrate_dry_aerosol_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     724data[721] = { "id":721, 0:"cnpz",  1:"Canopy Height", 2:"canopy_height", 3:"''", 4:"CCMI1_monthly" }; 
     725data[722] = { "id":722, 0:"zmcf2cl2",  1:"Zonal Mean CF2Cl2 Volume Mixing Ratio", 2:"mole_fraction_of_cfc12_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     726data[723] = { "id":723, 0:"wetss",  1:"Wet Deposition Rate of Seasalt", 2:"tendency_of_atmosphere_mass_content_of_seasalt_dry_aerosol_due_to_wet_deposition", 3:"'unset'", 4:"CMIP5_aero" }; 
     727data[724] = { "id":724, 0:"ta100",  1:"Air Temperature at 100 hPa", 2:"air_temperature", 3:"'Temperature on the 100 hPa surface'", 4:"CCMI1_daily" }; 
     728data[725] = { "id":725, 0:"emiaso4",  1:"Anthropogenic Direct Emission Rate of SO4", 2:"unset", 3:"'Includes agricultural waste burning but no other biomass burning. Expressed as a tendency of atmosphere mass content of SO4.  Direct emission does not include secondary sulfate production.  proposed name: tendency_of_atmosphere_mass_content_of_anthropogenic_sulfate_dry_aerosol_due_to_emission. Integrate 3D emission field vertically to 2d field.'", 4:"CCMI1_monthly" }; 
     729data[726] = { "id":726, 0:"tos",  1:"Sea Surface Temperature", 2:"sea_surface_temperature", 3:"'temperature of liquid ocean.  Note that the correct standard_name for this variable is ''sea_surface_temperature'', not ''surface_temperature'', but this was discovered too late to correct.  To maintain consistency across CMIP5 models, the wrong standard_name will continue to be used.'", 4:"CMIP5_day" }; 
     730data[727] = { "id":727, 0:"prsn",  1:"Snowfall Flux", 2:"snowfall_flux", 3:"'at surface.  Includes precipitation of all forms water in the solid phase.  This is the 3-hour mean snowfall flux.'", 4:"CMIP5_3hr" }; 
     731data[728] = { "id":728, 0:"c2hf3cl2brdn",  1:"Atmospheric Burden of C2HF3Cl2", 2:"unset", 3:"'total yearly average burden'", 4:"CCMI1_annual" }; 
     732data[729] = { "id":729, 0:"hfls",  1:"Surface Downward Latent Heat Flux", 2:"surface_downward_latent_heat_flux", 3:"''This is defined as ''where ice_free_sea over sea''''", 4:"CMIP5_Omon" }; 
     733data[730] = { "id":730, 0:"vmrisop",  1:"Isoprene Volume Mixing Ratio", 2:"mole_fraction_of_isoprene_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     734data[731] = { "id":731, 0:"tnsclwbl",  1:"Tendency of Mass Fraction of Stratiform Cloud Liquid Water In Air Due To Boundary Layer Mixing", 2:"tendency_of_mass_fraction_of_stratiform_cloud_liquid_water_in_air_due_to_boundary_layer_mixing", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     735data[732] = { "id":732, 0:"thetaot",  1:"Vertically averaged ocean temperature", 2:"sea_water_potential_temperature", 3:"'unset'", 4:"SPECS_Omon" }; 
     736data[733] = { "id":733, 0:"nshrice",  1:"Northward Derivative of Eastward Sea Ice Velocity", 2:"northward_derivative_of_eastward_sea_ice_velocity", 3:"'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.   Reported as ''missing'' in regions free of sea ice.'", 4:"CMIP5_OImon,SPECS_OImon" }; 
     737data[734] = { "id":734, 0:"concno3",  1:"Concentration of NO3 Aerosol", 2:"mass_concentration_of_nitrate_dry_aerosol_in_air", 3:"'unset'", 4:"CMIP5_aero" }; 
     738data[735] = { "id":735, 0:"vmraoanh",  1:"aoa_nh Volume Mixing Ratio", 2:"unset", 3:"'Fixed surface layer mixing ratio over latitudes 30-50N (0 ppbv), uniform fixed source (at all levels) everywhere else.  (source is unspecified but must be constant in space and time and documented). Note that the source could be 1yr/yr, so the tracer concentration provides mean age in years.  For method using linearly increasing tracer include a method attribute: 'linearly increasing tracer'.  For method using uniform source (1yr/yr) include a method attribute: 'uniform source'.  For details see website: XXXXX'", 4:"CCMI1_monthly" }; 
     739data[736] = { "id":736, 0:"chl",  1:"Total Chlorophyll Mass Concentration at Surface", 2:"mass_concentration_of_phytoplankton_expressed_as_chlorophyll_in_sea_water", 3:"'sum of chlorophyll from all phytoplankton group concentrations.  In most models this is equal to chldiat+chlmisc, that is the sum of ''Diatom Chlorophyll Mass Concentration'' plus ''Other Phytoplankton Chlorophyll Mass Concentration'''", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     740data[737] = { "id":737, 0:"vt100",  1:"Meridional Heat Flux", 2:"northward_heat_flux_in_air_due_to_eddy_advection", 3:"'Zonally averaged meridional heat flux at 100 hPa as monthly means derived from daily (or higher frequency) fields.'", 4:"CCMI1_monthly" }; 
     741data[738] = { "id":738, 0:"hcice",  1:"Sea Ice Heat Content", 2:"integral_of_sea_ice_temperature_wrt_depth_expressed_as_heat_content", 3:"'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.   Reported as ''missing in regions free of sea ice.  Does not include heat content of snow.'", 4:"CMIP5_OImon" }; 
     742data[739] = { "id":739, 0:"transiy",  1:"Y-Component of Sea Ice Mass Transport", 2:"sea_ice_y_transport", 3:"'The sea ice mass transport is 0.0 in ice-free regions of the ocean.  Snow is included in calculation of mass.'", 4:"CMIP5_OImon,SPECS_OImon" }; 
     743data[740] = { "id":740, 0:"rsdscsdiff",  1:"Surface Diffuse Downwelling Clear Sky Shortwave Radiation", 2:"surface_diffuse_downwelling_shortwave_flux_in_air_assuming_clear_sky", 3:"'unset'", 4:"CMIP5_aero" }; 
     744data[741] = { "id":741, 0:"od550so4",  1:"Sulfate AOD at 550nm", 2:"unset", 3:"'proposed name: atmosphere_optical_thickness_due_to_sulfate_ambient_aerosol'", 4:"CCMI1_monthly" }; 
     745data[742] = { "id":742, 0:"tso",  1:"Sea Surface Temperature", 2:"sea_surface_temperature", 3:"'temperature of surface of open ocean, sampled synoptically.'", 4:"CMIP5_3hr" }; 
     746data[743] = { "id":743, 0:"wetdust",  1:"Wet Deposition Rate of Dust", 2:"tendency_of_atmosphere_mass_content_of_dust_dry_aerosol_due_to_wet_deposition", 3:"''", 4:"CCMI1_monthly" }; 
     747data[744] = { "id":744, 0:"treeFracSecEver",  1:"Total Secondary Evergreen Tree Cover Fraction", 2:"area_fraction", 3:"'fraction of entire grid cell  that is covered by secondary evergreen trees.'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     748data[745] = { "id":745, 0:"chclf2smtbrdn",  1:"Tendency of Middle Atmosphere Burden of CHClF2", 2:"unset", 3:"'total yearly averaged stratospheric and mesospheric loss'", 4:"CCMI1_annual" }; 
     749data[746] = { "id":746, 0:"hfxdiff",  1:"Ocean Heat X Transport due to Diffusion", 2:"ocean_heat_x_transport_due_to_diffusion", 3:"'unset'", 4:"CMIP5_Omon" }; 
     750data[747] = { "id":747, 0:"cli",  1:"Mass Fraction of Cloud Ice", 2:"mass_fraction_of_cloud_ice_in_air", 3:"'Includes both large-scale and convective cloud.  This is calculated as the mass of cloud ice in the grid cell divided by the mass of air (including the water in all phases) in the grid cell. It includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.'", 4:"CMIP5_Amon" }; 
     751data[748] = { "id":748, 0:"ch3ccl2ftrtbrdn",  1:"Tendency of Tropospheric Burden of CH3CCl2F", 2:"unset", 3:"'total yearly averaged tropospheric loss'", 4:"CCMI1_annual" }; 
     752data[749] = { "id":749, 0:"sftof",  1:"Sea Area Fraction", 2:"sea_area_fraction", 3:"'This is the area fraction at the ocean surface.'", 4:"CMIP5_fx" }; 
     753data[750] = { "id":750, 0:"cotrtbrdn",  1:"Tendency of Tropospheric Burden of CO", 2:"tendency_of_troposphere_moles_of_carbon_monoxide", 3:"'total yearly averaged tropospheric loss'", 4:"CCMI1_annual" }; 
     754data[751] = { "id":751, 0:"ch3cclf2tbrdn",  1:"Tendency of Atmospheric Burden of CH3CClF2", 2:"tendency_of_atmosphere_moles_of_hcfc142b", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }; 
     755data[752] = { "id":752, 0:"omlmax",  1:"Monthly Maximum Ocean Mixed Layer Thickness Defined by Mixing Scheme", 2:"ocean_mixed_layer_thickness_defined_by_mixing_scheme", 3:"'unset'", 4:"CMIP5_Omon" }; 
     756data[753] = { "id":753, 0:"treeFracSecDec",  1:"Total Secondary Deciduous Tree Cover Fraction", 2:"area_fraction", 3:"'fraction of entire grid cell  that is covered by secondary deciduous trees.'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     757data[754] = { "id":754, 0:"wetoa",  1:"Wet Deposition Rate of Dry Aerosol Organic Matter", 2:"tendency_of_atmosphere_mass_content_of_particulate_organic_matter_dry_aerosol_due_to_wet_deposition", 3:"'tendency of atmosphere mass content of organic matter dry aerosols due to wet deposition: This is the sum of wet deposition of POA and wet deposition of SOA (see next two entries). ''Mass'' refers to the mass of organic matter, not mass of organic carbon alone.'", 4:"CMIP5_aero" }; 
     758data[755] = { "id":755, 0:"grCongel",  1:"Congelation Sea Ice Growth Rate", 2:"tendency_of_sea_ice_amount_due_to_congelation_ice_accumulation", 3:"'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.  Reported as 0.0 in regions free of sea ice.'", 4:"CMIP5_OImon" }; 
     759data[756] = { "id":756, 0:"ch2fcf3smtbrdn",  1:"Tendency of Middle Atmosphere Burden of CH2FCF3", 2:"unset", 3:"'total yearly averaged stratospheric and mesospheric loss'", 4:"CCMI1_annual" }; 
     760data[757] = { "id":757, 0:"vstar",  1:"Northward TEM air velocity", 2:"northward_transformed_eulerian_mean_air_velocity", 3:"'Transformed Eulerian Mean Diagnostics v*, meridional component of the residual meridional circulation (v*, w*) derived from 6 hr or higher frequency data fields (use instantaneous daily fields or 12 hr fields if the 6 hr data are not available).'", 4:"CCMI1_daily,CCMI1_monthly" }; 
     761data[758] = { "id":758, 0:"htovovrt",  1:"Northward Ocean Heat Transport due to Overturning", 2:"northward_ocean_heat_transport_due_to_overturning", 3:"'unset'", 4:"CMIP5_Omon" }; 
     762data[759] = { "id":759, 0:"vmro3cnp",  1:"Ozone Volume Mixing Ratio at Canopy Height", 2:"mole_fraction_of_ozone_in_air", 3:"'Only for year 2006'", 4:"CCMI1_hourly" }; 
     763data[760] = { "id":760, 0:"rsd",  1:"Downwelling Shortwave Radiation", 2:"downwelling_shortwave_flux_in_air", 3:"'unset'", 4:"CMIP5_cfSites" }; 
     764data[761] = { "id":761, 0:"rldscs",  1:"Surface Downwelling Clear-Sky Longwave Radiation", 2:"surface_downwelling_longwave_flux_in_air_assuming_clear_sky", 3:"'This is a 3-hour mean flux.'", 4:"CMIP5_3hr" }; 
     765data[762] = { "id":762, 0:"shrubFrac",  1:"Shrub Fraction", 2:"area_fraction", 3:"'fraction of entire grid cell  that is covered by shrub.'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     766data[763] = { "id":763, 0:"zmbro",  1:"Zonal Mean BrO volume mixing ratio", 2:"mole_fraction_of_bromine_monoxide_in_air", 3:"''", 4:"CCMI1_daily" }; 
     767data[764] = { "id":764, 0:"ua500",  1:"Eastward Wind at 500 hPa", 2:"eastward_wind", 3:"'Zonal wind on the 500 hPa surface'", 4:"CCMI1_daily" }; 
     768data[765] = { "id":765, 0:"prsnc",  1:"Convective Snowfall Flux", 2:"convective_snowfall_flux", 3:"'convective precipitation of all forms of water in the solid phase.'", 4:"CMIP5_cf3hr" }; 
     769data[766] = { "id":766, 0:"zg100",  1:"Geopotential Height at 100 hPa", 2:"geopotential_height", 3:"'Geopotential height on the 100 hPa surface'", 4:"CCMI1_daily" }; 
     770data[767] = { "id":767, 0:"swtoaasaer",  1:"All-Sky SW-RF Aerosols at TOA", 2:"unset", 3:"'proposed name: toa_instantaneous_shortwave_forcing_due_to_ambient_aerosol'", 4:"CCMI1_monthly" }; 
     771data[768] = { "id":768, 0:"va100",  1:"Northward Wind at 100 hPa", 2:"northward_wind", 3:"'Meridional wind on the 100 hPa surface'", 4:"CCMI1_daily" }; 
     772data[769] = { "id":769, 0:"emiapom",  1:"Total Emission of Anthropogenic POM", 2:"unset", 3:"'Integrate 3D emission field vertically to 2d field. we recommend a scale factor of POM=1.4*OC; unless your model has more detailed info available'", 4:"CCMI1_monthly" }; 
     773data[770] = { "id":770, 0:"hfls",  1:"Surface Upward Latent Heat Flux", 2:"surface_upward_latent_heat_flux", 3:"'This is the 3-hour mean flux.'", 4:"CMIP5_3hr" }; 
     774data[771] = { "id":771, 0:"tslsi",  1:"Surface Temperature Where Land or Sea Ice", 2:"surface_temperature", 3:"''''skin'' temperature of all surfaces except open ocean.  ''", 4:"CMIP5_day" }; 
     775data[772] = { "id":772, 0:"clivi",  1:"Ice Water Path", 2:"atmosphere_mass_content_of_cloud_ice", 3:"''", 4:"CCMI1_monthly" }; 
     776data[773] = { "id":773, 0:"diftrxylo2d",  1:"Ocean Tracer XY Laplacian Diffusivity", 2:"ocean_tracer_xy_laplacian_diffusivity", 3:"'unset'", 4:"CMIP5_Oclim" }; 
     777data[774] = { "id":774, 0:"sconcoa",  1:"Surface Concentration of Dry Aerosol Organic Matter", 2:"mass_concentration_of_particulate_organic_matter_dry_aerosol_in_air", 3:"'mass concentration of particulate organic matter dry aerosol in air in model lowest layer'", 4:"CMIP5_aero" }; 
     778data[775] = { "id":775, 0:"wetdust",  1:"Wet Deposition Rate of Dust", 2:"tendency_of_atmosphere_mass_content_of_dust_dry_aerosol_due_to_wet_deposition", 3:"'unset'", 4:"CMIP5_aero" }; 
     779data[776] = { "id":776, 0:"ta",  1:"Air Temperature", 2:"air_temperature", 3:"'unset'", 4:"CMIP5_6hrLev,CMIP5_6hrPlev,CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfDay,CMIP5_cfMon,CMIP5_cfSites,CMIP5_day,SPECS_Amon,SPECS_day" }; 
     780data[777] = { "id":777, 0:"huss",  1:"Near-Surface Specific Humidity", 2:"specific_humidity", 3:"'This is sampled synoptically.'", 4:"CMIP5_3hr" }; 
     781data[778] = { "id":778, 0:"emidust",  1:"Total Emission Rate of Dust", 2:"tendency_of_atmosphere_mass_content_of_dust_dry_aerosol_due_to_emission", 3:"'unset'", 4:"CMIP5_aero" }; 
     782data[779] = { "id":779, 0:"tnscliricl",  1:"Tendency of Mass Fraction of Stratiform Cloud Ice due to Riming From Cloud Liquid", 2:"tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_riming_from_cloud_liquid_water", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     783data[780] = { "id":780, 0:"fco2nat",  1:"Surface Carbon Mass Flux into the Atmosphere Due to Natural Sources", 2:"surface_upward_mass_flux_of_carbon_dioxide_expressed_as_carbon_due_to_emission_from_natural_sources", 3:"'This is what the atmosphere sees (on its own grid).  This field should be equivalent to the combined natural fluxes of carbon (requested in the L_mon and O_mon tables) that account for natural exchanges between the atmosphere and land or ocean reservoirs (i.e., ''net ecosystem biospheric productivity'', for land, and ''air to sea CO2 flux'', for ocean.)'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites" }; 
     784data[781] = { "id":781, 0:"ch4global",  1:"Global Mean Mole Fraction of CH4", 2:"mole_fraction_of_methane_in_air", 3:"'unset'", 4:"CMIP5_Amon" }; 
     785data[782] = { "id":782, 0:"divice",  1:"Strain Rate Divergence of Sea Ice", 2:"divergence_of_sea_ice_velocity", 3:"'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.   Reported as ''missing'' in regions free of sea ice.'", 4:"CMIP5_OImon" }; 
     786data[783] = { "id":783, 0:"tnsccw",  1:"Tendency of Mass Fraction of Stratiform Cloud Condensed Water In Air", 2:"tendency_of_mass_fraction_of_stratiform_cloud_condensed_water_in_air", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     787data[784] = { "id":784, 0:"fbddtalk",  1:"Rate of Change of Biological Alkalinity due to Biological Activity", 2:"integral_wrt_depth_of_tendency_of_sea_water_alkalinity_expressed_as_mole_equivalent_due_to_biological_processes", 3:"'vertical integral of net biological terms in time rate of change of alkalinity'", 4:"CMIP5_Omon" }; 
     788data[785] = { "id":785, 0:"zmho2",  1:"Zonal Mean HO2 Volume Mixing Ratio", 2:"mole_fraction_of_hydroperoxyl_radical_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     789data[786] = { "id":786, 0:"ch3cltbrdn",  1:"Tendency of Atmospheric Burden of CH3Cl", 2:"tendency_of_atmosphere_moles_of_methyl_chloride", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }; 
     790data[787] = { "id":787, 0:"treeFracPrimEver",  1:"Total Primary Evergreen Tree Cover Fraction", 2:"area_fraction", 3:"'fraction of entire grid cell  that is covered by primary evergreen trees.'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     791data[788] = { "id":788, 0:"emiss",  1:"Total Emission Rate of Seasalt", 2:"tendency_of_atmosphere_mass_content_of_seasalt_dry_aerosol_due_to_emission", 3:"'unset'", 4:"CMIP5_aero" }; 
     792data[789] = { "id":789, 0:"bddtdisi",  1:"Rate of Change of Dissolved Inorganic Silicate due to Biological Activity", 2:"tendency_of_mole_concentration_of_dissolved_inorganic_silicate_in_sea_water_due_to_biological_processes", 3:"'Net of biological terms in time rate of change of dissolved inorganic silicate'", 4:"CMIP5_Oyr" }; 
     793data[790] = { "id":790, 0:"hfibthermds",  1:"Heat Flux into Sea Water due to Iceberg Thermodynamics", 2:"heat_flux_into_sea_water_due_to_iceberg_thermodynamics", 3:"'unset'", 4:"CMIP5_Omon" }; 
     794data[791] = { "id":791, 0:"n2o",  1:"Mole Fraction of N2O", 2:"mole_fraction_of_nitrous_oxide_in_air", 3:"'unset'", 4:"CMIP5_Amon" }; 
     795data[792] = { "id":792, 0:"rsd4co2",  1:"Downwelling Shortwave Radiation 4XCO2 Atmosphere", 2:"downwelling_shortwave_flux_in_air", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     796data[793] = { "id":793, 0:"cli",  1:"Mass Fraction of Cloud Ice", 2:"mass_fraction_of_cloud_ice_in_air", 3:"'Calculated as the mass of cloud ice  in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.'", 4:"CMIP5_cfDay" }; 
     797data[794] = { "id":794, 0:"conccmcn",  1:"Number Concentration Coarse Mode Aerosol", 2:"number_concentration_of_coarse_mode_ambient_aerosol_in_air", 3:"'includes all particles with diameter larger than 1 micron'", 4:"CMIP5_aero" }; 
     798data[795] = { "id":795, 0:"zmch3ccl2f",  1:"Zonal Mean CH3CCl2F Volume Mixing Ratio", 2:"mole_fraction_of_hcfc141b_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     799data[796] = { "id":796, 0:"zmnoy",  1:"Zonal Mean Total Reactive Nitrogen (NOy) Volume Mixing Ratio", 2:"mole_fraction_of_total_reactive_nitrogen_in_air", 3:"'Total family (the sum of all appropriate species in the model); list the species in the netCDF header, e.g. NOy = N + NO + NO2 + NO3 + HNO3 + 2N2O5 + HNO4 + ClONO2 + BrONO2.  Definition: Total reactive nitrogen; usually includes atomic nitrogen (N), nitric oxide (NO), NO2, nitrogen trioxide (NO3), dinitrogen radical (N2O5), nitric acid (HNO3), peroxynitric acid (HNO4), BrONO2, ClONO2'", 4:"CCMI1_daily" }; 
     800data[797] = { "id":797, 0:"eshrice",  1:"Eastward Derivative of Northward Sea Ice Velocity", 2:"eastward_derivative_of_northward_sea_ice_velocity", 3:"'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.   Reported as ''missing'' in regions free of sea ice.'", 4:"CMIP5_OImon,SPECS_OImon" }; 
     801data[798] = { "id":798, 0:"emioa",  1:"Rate of Emission and Production of Dry Aerosol Total Organic Matter", 2:"tendency_of_atmosphere_mass_content_of_particulate_organic_matter_dry_aerosol_due_to_net_chemical_production_and_emission", 3:"'Tendency of atmosphere mass content of organic matter dry aerosol due to net production and emission.  This is the sum of total emission of POA and total production of SOA (emipoa+chepsoa). 'Mass' refers to the mass of organic matter, not mass of organic carbon alone. We recommend a scale factor of POM=1.4*OC, unless your model has more detailed info available. Was called emi_pom in old ACCMIP Excel table. Integrate 3D emission field vertically to 2d field.'", 4:"CCMI1_monthly" }; 
     802data[799] = { "id":799, 0:"vmrco50na700",  1:"co_50_na Volume Mixing Ratio at 700 hPa", 2:"unset", 3:"'daily mean, emitted as anthropogenic CO over North America (15N-55N; 60W-125W) (emission file available from HTAP), uniform fixed 50-day exponential decay.'", 4:"CCMI1_daily" }; 
     803data[800] = { "id":800, 0:"vsfevap",  1:"Virtual Salt Flux into Sea Water due to Evaporation", 2:"virtual_salt_flux_into_sea_water_due_to_evaporation", 3:"'unset'", 4:"CMIP5_Omon" }; 
     804data[801] = { "id":801, 0:"wsgsmax",  1:"Daily Maximum Near-Surface Wind Speed of Gust", 2:"wind_speed_of_gust", 3:"'near-surface (usually, 10 meters) wind speed of gust'", 4:"CORDEX_day" }; 
     805data[802] = { "id":802, 0:"vmrnh5",  1:"nh_5 Volume Mixing Ratio", 2:"unset", 3:"'Fixed surface layer mixing ratio over latitudes 30-50N (100ppbv), uniform fixed 5-day exponential decay (e-folding time=4.32x105s).'", 4:"CCMI1_monthly" }; 
     806data[803] = { "id":803, 0:"dryoa",  1:"Dry Deposition Rate of Dry Aerosol Organic Matter", 2:"tendency_of_atmosphere_mass_content_of_particulate_organic_matter_dry_aerosol_due_to_dry_deposition", 3:"'tendency of atmosphere mass content of organic dry aerosol due to dry deposition: This is the sum of dry deposition of POA and dry deposition of SOA (see next two entries). ''Mass'' refers to the mass of organic matter, not mass of organic carbon alone.'", 4:"CMIP5_aero" }; 
     807data[804] = { "id":804, 0:"zmla",  1:"Height of Boundary Layer", 2:"atmosphere_boundary_layer_thickness", 3:"''", 4:"CORDEX_6h,CORDEX_day" }; 
     808data[805] = { "id":805, 0:"co3",  1:"Mole Concentration of Carbonate expressed as Carbon in Sea Water at Surface", 2:"mole_concentration_of_carbonate_expressed_as_carbon_in_sea_water", 3:"'unset'", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     809data[806] = { "id":806, 0:"snd",  1:"Snow Depth", 2:"surface_snow_thickness", 3:"'snow depth'", 4:"CCMI1_daily" }; 
     810data[807] = { "id":807, 0:"tpo3chm",  1:"Net Chemistry Tendency of O3 in the Troposphere", 2:"unset", 3:"'The tropopause follows the WMO definition. The tendency has to be calculated online for all the grid boxes below the tropopause (including the boxes containing the tropopause), as tropopause fluctuates rapidly.  Integrate 3D tendency field vertically to 2d field for every time step, then do the monthly average.'", 4:"CCMI1_monthly" }; 
     811data[808] = { "id":808, 0:"clic",  1:"Mass Fraction of Convective Cloud Ice", 2:"mass_fraction_of_convective_cloud_ice_in_air", 3:"'Calculated as the mass of convective cloud ice  in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.'", 4:"CMIP5_cf3hr,CMIP5_cfMon" }; 
     812data[809] = { "id":809, 0:"va200",  1:"Northward Wind", 2:"northward_wind", 3:"'unset'", 4:"CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem" }; 
     813data[810] = { "id":810, 0:"tnsclwmi",  1:"Tendency of Mass Fraction of Stratiform Cloud Liquid Water due to Melting From Cloud Ice", 2:"tendency_of_mass_fraction_of_stratiform_cloud_liquid_water_in_air_due_to_melting_from_cloud_ice", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     814data[811] = { "id":811, 0:"chclf2tbrdn",  1:"Tendency of Atmospheric Burden of CHClF2", 2:"tendency_of_atmosphere_moles_of_hcfc22", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }; 
     815data[812] = { "id":812, 0:"talk",  1:"Total Alkalinity at Surface", 2:"sea_water_alkalinity_expressed_as_mole_equivalent", 3:"'total alkalinity equivalent concentration (including carbonate, nitrogen, silicate, and borate components)'", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     816data[813] = { "id":813, 0:"ta200",  1:"Air Temperature", 2:"air_temperature", 3:"'unset'", 4:"CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem" }; 
     817data[814] = { "id":814, 0:"vmrch3br",  1:"CH3Br Volume Mixing Ratio", 2:"mole_fraction_of_methyl_bromide_in_air", 3:"''", 4:"CCMI1_daily" }; 
     818data[815] = { "id":815, 0:"stoo3",  1:"Dry Deposition Rate of Ozone in Stomata", 2:"tendency_of_atmosphere_mass_content_of_ozone_due_to_dry_deposition_into_stomata", 3:"'(dry deposition includes gravitational settling, impact scavenging, and turbulent deposition).'", 4:"CCMI1_monthly" }; 
     819data[816] = { "id":816, 0:"mcd",  1:"Downdraft Convective Mass Flux", 2:"atmosphere_downdraft_convective_mass_flux", 3:"'Calculated as the convective mass flux divided by the area of the whole grid cell (not just the area of the cloud).'", 4:"CMIP5_cfMon" }; 
     820data[817] = { "id":817, 0:"c4PftFrac",  1:"Total C4 PFT Cover Fraction", 2:"area_fraction", 3:"'fraction of entire grid cell  that is covered by C4 PFTs (including grass and crops).'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     821data[818] = { "id":818, 0:"hfyba",  1:"Ocean Heat Y Transport due to Bolus Advection", 2:"ocean_heat_y_transport_due_to_bolus_advection", 3:"'unset'", 4:"CMIP5_Omon" }; 
     822data[819] = { "id":819, 0:"rsdt",  1:"TOA Incident Shortwave Radiation", 2:"toa_incoming_shortwave_flux", 3:"'at the top of the atmosphere'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfDay,CMIP5_cfSites,CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem,SPECS_Amon,SPECS_day" }; 
     823data[820] = { "id":820, 0:"rlussi",  1:"Upward Long Wave over Sea Ice", 2:"surface_upwelling_longwave_flux_in_air", 3:"'the upward longwave flux in regions of sea ice divided by the area of the ocean portion of the grid cell.'", 4:"CMIP5_OImon" }; 
     824data[821] = { "id":821, 0:"vmrch2o",  1:"CH2O Volume Mixing Ratio", 2:"mole_fraction_of_formaldehyde_in_air", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }; 
     825data[822] = { "id":822, 0:"ch3ccl3brdn",  1:"Atmospheric Burden of CH3CCl3", 2:"atmosphere_moles_of_hcc140a", 3:"'total yearly average burden'", 4:"CCMI1_annual" }; 
     826data[823] = { "id":823, 0:"sltovovrt",  1:"Northward Ocean Salt Transport due to Overturning", 2:"northward_ocean_salt_transport_due_to_overturning", 3:"'unset'", 4:"CMIP5_Omon" }; 
     827data[824] = { "id":824, 0:"vmrch3cl",  1:"CH3Cl Volume Mixing Ratio", 2:"mole_fraction_of_methyl_chloride_in_air", 3:"''", 4:"CCMI1_daily" }; 
     828data[825] = { "id":825, 0:"drybc",  1:"Dry Deposition Rate of Black Carbon Aerosol Mass", 2:"tendency_of_atmosphere_mass_content_of_black_carbon_dry_aerosol_due_to_dry_deposition", 3:"'Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition.'", 4:"CCMI1_monthly" }; 
     829data[826] = { "id":826, 0:"epfe100",  1:"Downward Flux of Particulate Iron", 2:"sinking_mole_flux_of_particulate_iron_in_sea_water", 3:"'unset'", 4:"CMIP5_Omon" }; 
     830data[827] = { "id":827, 0:"swtoaasbcff",  1:"All-Sky SW-RF BCFF at TOA Anthropogenic", 2:"unset", 3:"'proposed name: toa_instantaneous_shortwave_forcing_due_to_black_carbon_ambient_aerosol_from_fossil_fuels'", 4:"CCMI1_monthly" }; 
     831data[828] = { "id":828, 0:"tnpeo",  1:"Tendency of Ocean Potential Energy Content", 2:"tendency_of_ocean_potential_energy_content", 3:"'unset'", 4:"CMIP5_Oclim" }; 
     832data[829] = { "id":829, 0:"hfrunoffds2d",  1:"Temperature Flux due to Runoff Expressed as Heat Flux into Sea Water", 2:"temperature_flux_due_to_runoff_expressed_as_heat_flux_into_sea_water", 3:"'unset'", 4:"CMIP5_Omon" }; 
     833data[830] = { "id":830, 0:"vmrcly",  1:"Total Inorganic Chlorine (Cly) Volume Mixing Ratio", 2:"mole_fraction_of_inorganic_chlorine_in_air", 3:"'Total family (the sum of all appropriate species in the model) ; list the species in the netCDF header, e.g. Cly = HCl + ClONO2 + HOCl + ClO + Cl + 2*Cl2O2 +2Cl2 + OClO + BrCl.  Definition: Total inorganic stratospheric chlorine (e.g., HCl, ClO) resulting from degradation of chlorine-containing source gases (CFCs, HCFCs, VSLS), and natural inorganic chlorine sources (e.g., sea salt and other aerosols).'", 4:"CCMI1_daily" }; 
     834data[831] = { "id":831, 0:"zmclono2",  1:"Zonal Mean ClONO2 Volume Mixing Ratio", 2:"mole_fraction_of_chlorine_nitrate_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     835data[832] = { "id":832, 0:"tas",  1:"Air Temperature", 2:"air_temperature", 3:"'unset'", 4:"SPECS_6hr,SPECS_day" }; 
     836data[833] = { "id":833, 0:"mrso",  1:"Total soil moisture content", 2:"soil_moisture_content", 3:"'the mass per unit area  (summed over all soil layers) of water in all phases.'", 4:"SPECS_Lmon" }; 
     837data[834] = { "id":834, 0:"hfevapds",  1:"Temperature Flux due to Evaporation Expressed as Heat Flux Out of Sea Water", 2:"temperature_flux_due_to_evaporation_expressed_as_heat_flux_out_of_sea_water", 3:"''This is defined as ''where ice_free_sea over sea''''", 4:"CMIP5_Omon" }; 
     838data[835] = { "id":835, 0:"rlut4co2",  1:"TOA Outgoing Longwave Radiation 4XCO2 Atmosphere", 2:"toa_outgoing_longwave_flux", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     839data[836] = { "id":836, 0:"fddtdife",  1:"Rate of Change of Net Dissolved Inorganic Iron", 2:"tendency_of_ocean_mole_content_of_dissolved_inorganic_iron", 3:"'vertical integral of net time rate of change of dissolved inorganic iron'", 4:"CMIP5_Omon" }; 
     840data[837] = { "id":837, 0:"lwtoacsaer",  1:"Clear-Sky LW-RF Aerosols at TOA", 2:"unset", 3:"'proposed name: toa_instantaneous_longwave_forcing_due_to_ambient_aerosol_assuming_clear_sky'", 4:"CCMI1_monthly" }; 
     841data[838] = { "id":838, 0:"cfc11",  1:"Moles Per Unit Mass of CFC-11 in Sea Water", 2:"moles_of_cfc11_per_unit_mass_in_sea_water", 3:"'unset'", 4:"CMIP5_Omon" }; 
     842data[839] = { "id":839, 0:"rhsmax",  1:"Surface Daily Maximum Relative Humidity", 2:"relative_humidity", 3:"'This is the relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C.'", 4:"CMIP5_day" }; 
     843data[840] = { "id":840, 0:"vmo",  1:"Ocean Mass Y Transport", 2:"ocean_mass_y_transport", 3:"'unset'", 4:"CMIP5_Omon" }; 
     844data[841] = { "id":841, 0:"cl",  1:"Cloud Area Fraction", 2:"cloud_area_fraction_in_atmosphere_layer", 3:"'Include both large-scale and convective clouds.'", 4:"CCMI1_daily" }; 
     845data[842] = { "id":842, 0:"ec550aer",  1:"Ambient Aerosol Extinction at 550 nm", 2:"volume_extinction_coefficient_in_air_due_to_ambient_aerosol", 3:"''''ambient'' means ''wetted''.  ''", 4:"CMIP5_aero" }; 
     846data[843] = { "id":843, 0:"nogwfluxe",  1:"Zonal Component of Upward Momentum Flux by Eastward Propagating Non-Oro GWs", 2:"upward_eastward_momentum_flux_in_air_due_to_nonorographic_eastward_gravity_waves", 3:"'Zonal component (positive eastward) of the non-orographic gravity wave momentum flux carried by eastward propagating waves, including any flux out of the top of the model (e.g., add additional level to the output file for model top. Set flux at this level to zero if nothing escapes to outer space in your model). Derived either from daily means or 6hr fields (use instantaneous daily fields or 12 hr fields if the 6 hr data are not available).'", 4:"CCMI1_monthly" }; 
     847data[844] = { "id":844, 0:"clis",  1:"Mass Fraction of Stratiform Cloud Ice", 2:"mass_fraction_of_stratiform_cloud_ice_in_air", 3:"'Calculate as the mass of stratiform cloud ice  in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  Include precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.'", 4:"CMIP5_cf3hr" }; 
     848data[845] = { "id":845, 0:"wo",  1:"W", 2:"upward_sea_water_velocity", 3:"''", 4:"SPECS_Omon" }; 
     849data[846] = { "id":846, 0:"drydust",  1:"Dry Deposition Rate of Dust", 2:"tendency_of_atmosphere_mass_content_of_dust_dry_aerosol_due_to_dry_deposition", 3:"'Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition.'", 4:"CCMI1_monthly" }; 
     850data[847] = { "id":847, 0:"residualFrac",  1:"Fraction of Grid Cell that is Land but Neither Vegetation-Covered nor Bare Soil", 2:"area_fraction", 3:"'fraction of entire grid cell  that is land and is covered by ''non-vegetation'' and ''non-bare-soil'' (e.g., urban, ice, lakes, etc.)'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     851data[848] = { "id":848, 0:"emianh3",  1:"Anthropogenic Emission Rate of NH3", 2:"unset", 3:"'Includes agricultural waste burning but no other biomass burning. proposed name: tendency_of_atmosphere_mass_content_of_anthropogenic_ammonia_due_to_emission. Integrate 3D emission field vertically to 2d field.'", 4:"CCMI1_monthly" }; 
     852data[849] = { "id":849, 0:"hfgeou",  1:"Upward Geothermal Heat Flux at Sea Floor", 2:"upward_geothermal_heat_flux_at_sea_floor", 3:"'unset'", 4:"CMIP5_Omon,CMIP5_fx" }; 
     853data[850] = { "id":850, 0:"cheaqph2o2so4",  1:"Aqueous-Phase Production Rate of SO4 via S(iv)+H2O2", 2:"unset", 3:"'proposed name: tendency_of_atmosphere_mass_content_of_sulfate_dry_aerosol_due_to_aqueous_phase_net_chemical_production_by_Siv_plus_H2O2'", 4:"CCMI1_monthly" }; 
     854data[851] = { "id":851, 0:"diftrebo",  1:"Ocean Tracer Epineutral Biharmonic Diffusivity", 2:"ocean_tracer_epineutral_biharmonic_diffusivity", 3:"'unset'", 4:"CMIP5_Oclim" }; 
     855data[852] = { "id":852, 0:"nbp",  1:"Carbon Mass Flux out of Atmosphere due to Net Biospheric Production on Land", 2:"surface_net_downward_mass_flux_of_carbon_dioxide_expressed_as_carbon_due_to_all_land_processes", 3:"'This is the net mass flux of carbon between land and atmosphere calculated as photosynthesis MINUS the sum of  plant and soil respiration, carbonfluxes  from fire, harvest, grazing  and land use change. Positive flux  is into the land.'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     856data[853] = { "id":853, 0:"clisccp",  1:"ISCCP Cloud Area Fraction", 2:"isccp_cloud_area_fraction", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     857data[854] = { "id":854, 0:"ta30",  1:"Air Temperature at 30 hPa", 2:"air_temperature", 3:"'Temperature on the 30 hPa surface'", 4:"CCMI1_daily" }; 
     858data[855] = { "id":855, 0:"pdi",  1:"Diatom Primary Carbon Production", 2:"tendency_of_mole_concentration_of_particulate_organic_matter_expressed_as_carbon_in_sea_water_due_to_net_primary_production_by_diatoms", 3:"'Primary (organic carbon) production by the diatom component alone'", 4:"CMIP5_Oyr" }; 
     859data[856] = { "id":856, 0:"sim",  1:"Sea Ice Plus Surface Snow Amount", 2:"sea_ice_and_surface_snow_amount", 3:"'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).  Reported as 0.0 in regions free of sea ice.'", 4:"CMIP5_OImon" }; 
     860data[857] = { "id":857, 0:"tauuo",  1:"Surface Downward X Stress", 2:"surface_downward_x_stress", 3:"'This is the stress on the liquid ocean from overlying atmosphere, sea ice, ice shelf, etc.'", 4:"CMIP5_Omon" }; 
     861data[858] = { "id":858, 0:"ta40",  1:"Air Temperature at 40 hPa", 2:"air_temperature", 3:"'Temperature on the 40 hPa surface'", 4:"CCMI1_daily" }; 
     862data[859] = { "id":859, 0:"rsdscs",  1:"Surface Downwelling Clear-Sky Shortwave Radiation", 2:"surface_downwelling_shortwave_flux_in_air_assuming_clear_sky", 3:"'unset'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfDay,CMIP5_cfSites" }; 
     863data[860] = { "id":860, 0:"rsucs",  1:"Upwelling Clear-Sky Shortwave Radiation", 2:"upwelling_shortwave_flux_in_air_assuming_clear_sky", 3:"'Includes also the fluxes at the surface and TOA.'", 4:"CMIP5_cfMon" }; 
     864data[861] = { "id":861, 0:"vmrco50eu",  1:"co_50_eu Volume Mixing Ratio", 2:"unset", 3:"'emitted as anthropogenic CO over Europe (25N-65N; 10W-50E) (emission file available from HTAP), uniform fixed 50-day exponential decay.'", 4:"CCMI1_monthly" }; 
     865data[862] = { "id":862, 0:"dryso2",  1:"Dry Deposition Rate of SO2", 2:"tendency_of_atmosphere_mass_content_of_sulfur_dioxide_due_to_dry_deposition", 3:"'dry deposition includes gravitational settling, impact scavenging, and turbulent deposition'", 4:"CCMI1_monthly" }; 
     866data[863] = { "id":863, 0:"gsto",  1:"Stomatal Conductance of Water Vapour", 2:"unset", 3:"'(m2 is the projected leaf area)  Full units are mmol H2O/m^2 leaf area/sec.'", 4:"CCMI1_monthly" }; 
     867data[864] = { "id":864, 0:"cheaqpo3so4",  1:"Aqueous-Phase Production Rate of SO4 via S(iv)+O3", 2:"unset", 3:"'proposed name: tendency_of_atmosphere_mass_content_of_sulfate_dry_aerosol_due_to_aqueous_phase_net_chemical_production_by_Siv_plus_O3'", 4:"CCMI1_monthly" }; 
     868data[865] = { "id":865, 0:"tnsclwcd",  1:"Tendency of Mass Fraction of Stratiform Cloud Liquid Water Due to Convective Detrainment", 2:"tendency_of_mass_fraction_of_stratiform_cloud_liquid_water_in_air_due_to_convective_detrainment", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     869data[866] = { "id":866, 0:"fddtdip",  1:"Rate of Change of Net Dissolved Inorganic Phosphate", 2:"tendency_of_ocean_mole_content_of_dissolved_inorganic_phosphorus", 3:"'vertical integral of net  time rate of change of phosphate'", 4:"CMIP5_Omon" }; 
     870data[867] = { "id":867, 0:"tslsi",  1:"Surface Temperature Where Land or Sea Ice", 2:"surface_temperature", 3:"'''skin'' temperature of all surfaces except open ocean, sampled synoptically.'", 4:"CMIP5_3hr" }; 
     871data[868] = { "id":868, 0:"wetbc",  1:"Wet Deposition Rate of Black Carbon Aerosol Mass", 2:"tendency_of_atmosphere_mass_content_of_black_carbon_dry_aerosol_due_to_wet_deposition", 3:"'unset'", 4:"CMIP5_aero" }; 
     872data[869] = { "id":869, 0:"volo",  1:"Sea Water Volume", 2:"sea_water_volume", 3:"'unset'", 4:"CMIP5_Omon" }; 
     873data[870] = { "id":870, 0:"hfbasinba",  1:"Northward Ocean Heat Transport due to Bolus Advection", 2:"northward_ocean_heat_transport_due_to_bolus_advection", 3:"'unset'", 4:"CMIP5_Omon" }; 
     874data[871] = { "id":871, 0:"drynh3",  1:"Dry Deposition Rate of NH3", 2:"tendency_of_atmosphere_mass_content_of_ammonia_due_to_dry_deposition", 3:"'dry deposition includes gravitational settling, impact scavenging, and turbulent deposition'", 4:"CCMI1_monthly" }; 
     875data[872] = { "id":872, 0:"vmrc2h6",  1:"C2H6 Volume Mixing Ratio", 2:"mole_fraction_of_ethane_in_air", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }; 
     876data[873] = { "id":873, 0:"ps",  1:"Surface Air Pressure", 2:"surface_air_pressure", 3:"'surface pressure (not mean sea-level pressure), 2-D field to calculate the 3-D pressure field from hybrid coordinates'", 4:"CCMI1_daily,CCMI1_hourly,CCMI1_monthly" }; 
     877data[874] = { "id":874, 0:"chegpso4",  1:"Gas-Phase Production Rate of SO4", 2:"unset", 3:"'proposed name: tendency_of_atmosphere_mass_content_of_sulfate_dry_aerosol_due_to_gas_phase_net_chemical_production'", 4:"CCMI1_monthly" }; 
     878data[875] = { "id":875, 0:"difmxylo",  1:"Ocean Momentum XY Laplacian Diffusivity", 2:"ocean_momentum_xy_laplacian_diffusivity", 3:"'unset'", 4:"CMIP5_Oclim" }; 
     879data[876] = { "id":876, 0:"drynh4",  1:"Dry Deposition Rate of NH4", 2:"tendency_of_atmosphere_mass_content_of_ammonium_dry_aerosol_due_to_dry_deposition", 3:"'dry deposition includes gravitational settling, impact scavenging, and turbulent deposition'", 4:"CCMI1_monthly" }; 
     880data[877] = { "id":877, 0:"ps",  1:"Surface Air Pressure", 2:"surface_air_pressure", 3:"'unset'", 4:"CMIP5_cfDay,CORDEX_3h,CORDEX_day" }; 
     881data[878] = { "id":878, 0:"lwtoaasn2o",  1:"All-Sky LW-RF N2O at TOA", 2:"unset", 3:"'proposed name: toa_instantaneous_longwave_forcing_due_to_nitrous_oxide'", 4:"CCMI1_monthly" }; 
     882data[879] = { "id":879, 0:"cfc12global",  1:"Global Mean Mole Fraction of CFC12", 2:"mole_fraction_of_cfc12_in_air", 3:"'unset'", 4:"CMIP5_Amon" }; 
     883data[880] = { "id":880, 0:"ch4smtbrdn",  1:"Tendency of Middle Atmosphere Burden of CH4", 2:"tendency_of_middle_atmosphere_moles_of_methane", 3:"'total yearly averaged stratospheric and mesospheric loss'", 4:"CCMI1_annual" }; 
     884data[881] = { "id":881, 0:"zsatarag",  1:"Aragonite Saturation Depth", 2:"minimum_depth_of_aragonite_undersaturation_in_sea_water", 3:"'Depth of aragonite saturation horizon (0 if < surface, ''missing''  if > bottom, if two, then the shallower)'", 4:"CMIP5_Omon" }; 
     885data[882] = { "id":882, 0:"wetoa",  1:"Wet Deposition Rate of Dry Aerosol Organic Matter", 2:"tendency_of_atmosphere_mass_content_of_particulate_organic_matter_dry_aerosol_due_to_wet_deposition", 3:"'This is the sum of wet deposition of POA and wet deposition of SOA (see next two entries). 'Mass' refers to the mass of organic matter, not mass of organic carbon alone. We recommend a scale factor of POM=1.4*OC, unless your model has more detailed info available. Was called wet_pom in old ACCMIP Excel spreadsheet.'", 4:"CCMI1_monthly" }; 
     886data[883] = { "id":883, 0:"diftrxylo",  1:"Ocean Tracer XY Laplacian Diffusivity", 2:"ocean_tracer_xy_laplacian_diffusivity", 3:"'unset'", 4:"CMIP5_Oclim" }; 
     887data[884] = { "id":884, 0:"fgco2",  1:"Surface Downward CO2 Flux", 2:"surface_downward_mass_flux_of_carbon_dioxide_expressed_as_carbon", 3:"'Gas exchange flux of CO2 (positive into ocean)'", 4:"CMIP5_Omon" }; 
     888data[885] = { "id":885, 0:"zmh2o",  1:"Zonal Mean Water Vapour Volume Mixing Ratio", 2:"mole_fraction_of_water_vapor_in_air", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }; 
     889data[886] = { "id":886, 0:"emiso2",  1:"Total Emission Rate of SO2", 2:"tendency_of_atmosphere_mass_content_of_sulfur_dioxide_due_to_emission", 3:"'unset'", 4:"CMIP5_aero" }; 
     890data[887] = { "id":887, 0:"zmbrono2",  1:"Zonal Mean BrONO2 Volume Mixing Ratio", 2:"mole_fraction_of_bromine_nitrate_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     891data[888] = { "id":888, 0:"tntscpbl",  1:"Tendency of Air Temperature Due to Stratiform Cloud and Precipitation and Boundary Layer Mixing", 2:"tendency_of_air_temperature_due_to_stratiform_cloud_and_precipitation_and_boundary_layer_mixing", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     892data[889] = { "id":889, 0:"rsuscs",  1:"Surface Upwelling Clear-Sky Shortwave Radiation", 2:"surface_upwelling_shortwave_flux_in_air_assuming_clear_sky", 3:"'This is a 3-hour mean flux.'", 4:"CMIP5_3hr" }; 
     893data[890] = { "id":890, 0:"concpoa",  1:"Concentration of Dry Aerosol Primary Organic Matter", 2:"mass_concentration_of_primary_particulate_organic_matter_dry_aerosol_in_air", 3:"'unset'", 4:"CMIP5_aero" }; 
     894data[891] = { "id":891, 0:"frn",  1:"Nitrogen Loss to Sediments and through Denitrification", 2:"tendency_of_ocean_mole_content_of_elemental_nitrogen_due_to_denitrification_and_sedimentation", 3:"'unset'", 4:"CMIP5_Omon" }; 
     895data[892] = { "id":892, 0:"tasmax",  1:"Daily Maximum Near-Surface Air Temperature", 2:"air_temperature", 3:"'monthly mean of the daily-maximum near-surface air temperature.'", 4:"CMIP5_Amon,SPECS_Amon" }; 
     896data[893] = { "id":893, 0:"zg",  1:"Geopotential Height", 2:"geopotential_height", 3:"'unset'", 4:"CMIP5_Amon,CMIP5_cfDay,CMIP5_cfSites,CMIP5_day,SPECS_Amon,SPECS_day" }; 
     897data[894] = { "id":894, 0:"drydms",  1:"Dry Deposition Rate of DMS", 2:"tendency_of_atmosphere_mass_content_of_dimethyl_sulfide_due_to_dry_deposition", 3:"'unset'", 4:"CMIP5_aero" }; 
     898data[895] = { "id":895, 0:"cl",  1:"Cloud Area Fraction", 2:"cloud_area_fraction_in_atmosphere_layer", 3:"'Report on model layers. Include both large-scale and convective clouds.'", 4:"CCMI1_monthly" }; 
     899data[896] = { "id":896, 0:"hcfc22global",  1:"Global Mean Mole Fraction of HCFC22", 2:"mole_fraction_of_hcfc22_in_air", 3:"'unset'", 4:"CMIP5_Amon" }; 
     900data[897] = { "id":897, 0:"intppico",  1:"Net Primary Mole Productivity of Carbon by Picophytoplankton", 2:"net_primary_mole_productivity_of_carbon_by_picophytoplankton", 3:"'unset'", 4:"CMIP5_Omon" }; 
     901data[898] = { "id":898, 0:"zosga",  1:"Global Average Sea Level Change", 2:"global_average_sea_level_change", 3:"'unset'", 4:"CMIP5_Omon" }; 
     902data[899] = { "id":899, 0:"diftrblo2d",  1:"Ocean Tracer Bolus Laplacian Diffusivity", 2:"ocean_tracer_bolus_laplacian_diffusivity", 3:"'unset'", 4:"CMIP5_Oclim" }; 
     903data[900] = { "id":900, 0:"od870aer",  1:"Ambient Aerosol Optical Thickness at 870 nm", 2:"atmosphere_optical_thickness_due_to_ambient_aerosol", 3:"'AOD from the ambient aerosls (i.e., includes aerosol water).  Does not include AOD from stratospheric aerosols if these are prescribed but includes other possible background aerosol types.'", 4:"CMIP5_aero" }; 
     904data[901] = { "id":901, 0:"ps",  1:"Surface Air Pressure", 2:"surface_air_pressure", 3:"'surface pressure, not mean sea level pressure'", 4:"CMIP5_6hrLev" }; 
     905data[902] = { "id":902, 0:"ua10",  1:"Eastward Wind at 10 hPa", 2:"eastward_wind", 3:"'Zonal wind on the 10 hPa surface'", 4:"CCMI1_daily" }; 
     906data[903] = { "id":903, 0:"dytoz",  1:"Total Column Ozone", 2:"equivalent_thickness_at_stp_of_atmosphere_ozone_content", 3:"'total ozone column in DU'", 4:"CCMI1_daily" }; 
     907data[904] = { "id":904, 0:"zmn2o",  1:"Zonal Mean N2O Volume Mixing Ratio", 2:"mole_fraction_of_nitrous_oxide_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     908data[905] = { "id":905, 0:"phycalc",  1:"Mole Concentration of Calcareous Phytoplankton expressed as Carbon in Sea Water at Surface", 2:"mole_concentration_of_calcareous_phytoplankton_expressed_as_carbon_in_sea_water", 3:"'carbon concentration from calcareous (calcite-producing) phytoplankton component alone'", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     909data[906] = { "id":906, 0:"ztp",  1:"Tropopause Altitude", 2:"tropopause_altitude", 3:"'2D monthly mean thermal tropopause calculated using WMO tropopause definition on 3d temperature'", 4:"CCMI1_monthly" }; 
     910data[907] = { "id":907, 0:"nppRoot",  1:"Carbon Mass Flux due to NPP Allocation to Roots", 2:"net_primary_productivity_of_carbon_accumulated_in_roots", 3:"'This is the rate of carbon uptake by roots due to NPP'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     911data[908] = { "id":908, 0:"rlds",  1:"Surface Downwelling Longwave Radiation", 2:"surface_downwelling_longwave_flux_in_air", 3:"'This is the 3-hour mean flux.'", 4:"CMIP5_3hr" }; 
     912data[909] = { "id":909, 0:"tas",  1:"Near-Surface Air Temperature", 2:"air_temperature", 3:"'This is sampled synoptically.'", 4:"CMIP5_3hr" }; 
     913data[910] = { "id":910, 0:"sfvmro3",  1:"Ozone Volume Mixing Ratio in the Lowest Model Layer", 2:"mole_fraction_of_ozone_in_air", 3:"''", 4:"CCMI1_hourly" }; 
     914data[911] = { "id":911, 0:"wstar",  1:"Upward TEM air velocity", 2:"unset", 3:"'Transformed Eulerian Mean Diagnostics w*, meridional component of the residual meridional circulation (v*, w*) derived from 6 hr or higher frequency data fields (use instantaneous daily fields or 12 hr fields if the 6 hr data are not available). Scale height: 6950 m'", 4:"CCMI1_daily,CCMI1_monthly" }; 
     915data[912] = { "id":912, 0:"hus850",  1:"Specific Humidity", 2:"specific_humidity", 3:"'unset'", 4:"CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem" }; 
     916data[913] = { "id":913, 0:"fal",  1:"Forecast Albedo", 2:"surface_albedo", 3:"'unset'", 4:"SPECS_Amon,SPECS_day" }; 
     917data[914] = { "id":914, 0:"ps",  1:"Surface Air Pressure", 2:"surface_air_pressure", 3:"'not, in general, the same as mean sea-level pressure'", 4:"CMIP5_Amon,CMIP5_aero,CMIP5_cf3hr,CMIP5_cfMon,CMIP5_cfSites,SPECS_Amon" }; 
     918data[915] = { "id":915, 0:"co2Clim",  1:"Mole Fraction of CO2", 2:"mole_fraction_of_carbon_dioxide_in_air", 3:"'unset'", 4:"CMIP5_Amon" }; 
     919data[916] = { "id":916, 0:"zmh2o2",  1:"Zonal Mean H2O2 Volume Mixing Ratio", 2:"mole_fraction_of_hydrogen_peroxide_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     920data[917] = { "id":917, 0:"swtoaasss",  1:"All-Sky SW-RF SS at TOA", 2:"unset", 3:"'proposed name: toa_instantaneous_shortwave_forcing_due_to_seasalt_ambient_aerosol'", 4:"CCMI1_monthly" }; 
     921data[918] = { "id":918, 0:"wetso2",  1:"Wet Deposition Rate of SO2", 2:"tendency_of_atmosphere_mass_content_of_sulfur_dioxide_due_to_wet_deposition", 3:"''", 4:"CCMI1_monthly" }; 
     922data[919] = { "id":919, 0:"fFire",  1:"Carbon Mass Flux into Atmosphere due to CO2 Emission from Fire", 2:"surface_upward_mass_flux_of_carbon_dioxide_expressed_as_carbon_due_to_emission_from_fires_excluding_anthropogenic_land_use_change", 3:"'CO2 emissions (expressed as a carbon mass flux) from natural fires + human ignition fires as calculated by the fire module of the DGVM, but excluding any CO2 flux from fire included in fLuc, defined below (CO2 Flux to Atmosphere from Land Use Change).'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     923data[920] = { "id":920, 0:"drynh3",  1:"Dry Deposition Rate of NH3", 2:"tendency_of_atmosphere_mass_content_of_ammonia_due_to_dry_deposition", 3:"'unset'", 4:"CMIP5_aero" }; 
     924data[921] = { "id":921, 0:"cclf2cclf2brdn",  1:"Atmospheric Burden of CFC-114", 2:"atmosphere_moles_of_cfc114", 3:"'total yearly average burden'", 4:"CCMI1_annual" }; 
     925data[922] = { "id":922, 0:"rsdscs",  1:"Surface Downwelling Clear-Sky Shortwave Radiation", 2:"surface_downwelling_shortwave_flux_in_air_assuming_clear_sky", 3:"'This is a 3-hour mean flux.'", 4:"CMIP5_3hr" }; 
     926data[923] = { "id":923, 0:"ch3brtbrdn",  1:"Tendency of Atmospheric Burden of CH3Br", 2:"tendency_of_atmosphere_moles_of_methyl_bromide", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }; 
     927data[924] = { "id":924, 0:"zmcly",  1:"Zonal Mean Total Inorganic Chlorine (Cly) Volume Mixing Ratio", 2:"mole_fraction_of_inorganic_chlorine_in_air", 3:"'Total inorganic stratospheric chlorine (e.g., HCl, ClO) resulting from degradation of chlorine-containing source gases (CFCs, HCFCs, VSLS), and natural inorganic chlorine sources (e.g., sea salt and other aerosols).  Add comment attribute with detailed description about how the model calculates these fields e.g. Cly = HCl + ClONO2 + HOCl + ClO + Cl + 2*Cl2O2 +2Cl2 + OClO + BrCl'", 4:"CCMI1_monthly" }; 
     928data[925] = { "id":925, 0:"prodhno3viano2oh",  1:"Production Rate of HNO3", 2:"unset", 3:"'3-d distritbution of HNO3 production from NO2+OH (all channels)'", 4:"CCMI1_monthly" }; 
     929data[926] = { "id":926, 0:"prodh2o2viaho2",  1:"Production Rate of H2O2", 2:"unset", 3:"'3-d distribution of k*[HO2]*[HO2]'", 4:"CCMI1_monthly" }; 
     930data[927] = { "id":927, 0:"rsuscs",  1:"Surface Upwelling Clear-Sky Shortwave Radiation", 2:"surface_upwelling_shortwave_flux_in_air_assuming_clear_sky", 3:"'unset'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfDay,CMIP5_cfSites" }; 
     931data[928] = { "id":928, 0:"sadnat",  1:"Surface Area Density of NAT PSC Particles", 2:"unset", 3:"'nitric acid trihydrate (NAT) surface area density used in heterogeneous activation of ClOx and BrOx. Defined as the area of aerosol per volume of atmosphere (i.e., m2 m-3 = m-1).'", 4:"CCMI1_daily" }; 
     932data[929] = { "id":929, 0:"t20d",  1:"20C isotherm depth", 2:"depth_of_isosurface_of_sea_water_potential_temperature", 3:"'unset'", 4:"SPECS_Omon,SPECS_day" }; 
     933data[930] = { "id":930, 0:"rsd",  1:"Downwelling Shortwave Radiation", 2:"downwelling_shortwave_flux_in_air", 3:"'Includes also the fluxes at the surface and TOA.'", 4:"CMIP5_cfMon" }; 
     934data[931] = { "id":931, 0:"albsrfc",  1:"Surface Albedo", 2:"surface_albedo", 3:"''", 4:"CCMI1_monthly" }; 
     935data[932] = { "id":932, 0:"clivi",  1:"Ice Water Path", 2:"atmosphere_cloud_ice_content", 3:"'calculate mass of ice water in the column divided by the area of the column (not just the area of the cloudy portion of the column). Include precipitating frozen hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.'", 4:"CORDEX_6h" }; 
     936data[933] = { "id":933, 0:"dyrsdscs",  1:"Surface Downwelling Clear-Sky Shortwave Radiation", 2:"surface_downwelling_shortwave_flux_in_air_assuming_clear_sky", 3:"'surface solar irradiance clear sky for UV calculations'", 4:"CCMI1_daily" }; 
     937data[934] = { "id":934, 0:"tnsccwbl",  1:"Tendency of Mass Fraction of Stratiform Cloud Condensed Water In Air Due To Boundary Layer Mixing", 2:"tendency_of_mass_fraction_of_stratiform_cloud_condensed_water_in_air_due_to_boundary_layer_mixing", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     938data[935] = { "id":935, 0:"epc100",  1:"Downward Flux of Particle Organic Carbon", 2:"sinking_mole_flux_of_particulate_organic_matter_expressed_as_carbon_in_sea_water", 3:"'unset'", 4:"CMIP5_Omon" }; 
     939data[936] = { "id":936, 0:"vas",  1:"Northward Near-Surface Wind", 2:"northward_wind", 3:"'unset'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites,CMIP5_day,SPECS_6hr,SPECS_Amon" }; 
     940data[937] = { "id":937, 0:"sltovgyre",  1:"Northward Ocean Salt Transport due to Gyre", 2:"northward_ocean_salt_transport_due_to_gyre", 3:"'unset'", 4:"CMIP5_Omon" }; 
     941data[938] = { "id":938, 0:"tnscliag",  1:"Tendency of Mass Fraction of Stratiform Cloud Ice due to Aggregation", 2:"tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_aggregation", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     942data[939] = { "id":939, 0:"emiss",  1:"Total Emission Rate of Seasalt", 2:"tendency_of_atmosphere_mass_content_of_seasalt_dry_aerosol_due_to_emission", 3:"'Integrate 3D emission field vertically to 2d field.'", 4:"CCMI1_monthly" }; 
     943data[940] = { "id":940, 0:"clwc",  1:"Mass Fraction of Convective Cloud Liquid Water", 2:"mass_fraction_of_convective_cloud_liquid_water_in_air", 3:"'Calculated as the mass of convective cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.'", 4:"CMIP5_cf3hr,CMIP5_cfMon" }; 
     944data[941] = { "id":941, 0:"dmc",  1:"Deep Convective Mass Flux", 2:"atmosphere_net_upward_deep_convective_mass_flux", 3:"'The net mass flux  represents the difference between the updraft and downdraft components.   This is calculated as the convective mass flux divided by the area of the whole grid cell (not just the area of the cloud).'", 4:"CMIP5_cfMon" }; 
     945data[942] = { "id":942, 0:"ch2fcf3tbrdn",  1:"Tendency of Atmospheric Burden of CH2FCF3", 2:"unset", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }; 
     946data[943] = { "id":943, 0:"zmhbr",  1:"Zonal Mean HBr Volume Mixing Ratio", 2:"mole_fraction_of_hydrogen_bromide_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     947data[944] = { "id":944, 0:"sfmmrpom",  1:"POM Mass Mixing Ratio in the Lowest Model Layer", 2:"mass_fraction_of_particulate_organic_matter_dry_aerosol_in_air", 3:"'POM'", 4:"CCMI1_daily" }; 
     948data[945] = { "id":945, 0:"ccl4tbrdn",  1:"Tendency of Atmospheric Burden of CCl4", 2:"tendency_of_atmosphere_moles_of_carbon_tetrachloride", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }; 
     949data[946] = { "id":946, 0:"cbrclf2brdn",  1:"Atmospheric Burden of Halon 1211", 2:"atmosphere_moles_of_halon1211", 3:"'total yearly average burden'", 4:"CCMI1_annual" }; 
     950data[947] = { "id":947, 0:"vsfpr",  1:"Virtual Salt Flux into Sea Water due to Rainfall", 2:"virtual_salt_flux_into_sea_water_due_to_rainfall", 3:"'unset'", 4:"CMIP5_Omon" }; 
     951data[948] = { "id":948, 0:"transix",  1:"X-Component of Sea Ice Mass Transport", 2:"sea_ice_x_transport", 3:"'The sea ice mass transport is 0.0 in ice-free regions of the ocean.  Snow is included in calculation of mass.'", 4:"CMIP5_OImon" }; 
     952data[949] = { "id":949, 0:"tnsclihenv",  1:"Tendency of Mass Fraction of Stratiform Cloud Ice due to Heterogeneous Nucleation From Water Vapor", 2:"tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_heterogeneous_nucleation_from_water_vapor", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     953data[950] = { "id":950, 0:"lossso2viaoh",  1:"Reaction Rate of SO2+OH", 2:"unset", 3:"''", 4:"CCMI1_monthly" }; 
     954data[951] = { "id":951, 0:"tsice",  1:"Surface Temperature of Sea Ice", 2:"surface_temperature", 3:"'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.  Reported as ''missing'' in regions free of sea ice.  Note this will be the surface snow temperature in regions where snow covers the sea ice.'", 4:"CMIP5_OImon,SPECS_OImon,SPECS_day" }; 
     955data[952] = { "id":952, 0:"prsn",  1:"Snowfall Flux where Ice Free Ocean over Sea", 2:"snowfall_flux", 3:"'computed as the total mass per unit time of solid-phase precipitation falling into the ice-free portion of the ocean divided by the area of the ocean portion of the grid cell.   (Snowfall flux includes all types of solid-phase precipitation.)'", 4:"CMIP5_Omon" }; 
     956data[953] = { "id":953, 0:"zmn",  1:"Zonal Mean N Volume Mixing Ratio", 2:"mole_fraction_of_atomic_nitrogen_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     957data[954] = { "id":954, 0:"losso3viaho2",  1:"Chemical Loss Rate of O3 via O3+HO2", 2:"unset", 3:"'proposed name: tendency_of_mole_concentration_of_ozone_due_to_chemical_destruction_by_HO2'", 4:"CCMI1_monthly" }; 
     958data[955] = { "id":955, 0:"epsi100",  1:"Downward Flux of Particulate Silica", 2:"sinking_mole_flux_of_particulate_silicon_in_sea_water", 3:"'unset'", 4:"CMIP5_Omon" }; 
     959data[956] = { "id":956, 0:"wfo",  1:"Water Flux into Sea Water", 2:"water_flux_into_sea_water", 3:"'computed as the water  flux into the ocean divided by the area of the ocean portion of the grid cell.  This is the sum of the next two variables in this table.'", 4:"CMIP5_Omon" }; 
     960data[957] = { "id":957, 0:"wethno3",  1:"Wet Deposition Rate of HNO3", 2:"tendency_of_atmosphere_mass_content_of_nitric_acid_due_to_wet_deposition", 3:"''", 4:"CCMI1_monthly" }; 
     961data[958] = { "id":958, 0:"sfmmraerso4",  1:"Aerosol Sulfate Mass Mixing Ratio in the Lowest Model Layer", 2:"mass_fraction_of_sulfate_dry_aerosol_in_air", 3:"'SO4'", 4:"CCMI1_daily" }; 
     962data[959] = { "id":959, 0:"dh",  1:"Atmosphere Model Cell Geometric Thickness", 2:"unset", 3:"'proposed name: model_level_geometric_thickness. (e.g. grid_cell_height)'", 4:"CCMI1_monthly" }; 
     963data[960] = { "id":960, 0:"zooc",  1:"Zooplankton Carbon Concentration at Surface", 2:"mole_concentration_of_zooplankton_expressed_as_carbon_in_sea_water", 3:"'sum of zooplankton carbon component concentrations'", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     964data[961] = { "id":961, 0:"vmrc2h2",  1:"C2H2 Volume Mixing Ratio", 2:"mole_fraction_of_ethyne_in_air", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }; 
     965data[962] = { "id":962, 0:"ua850",  1:"Eastward Wind", 2:"eastward_wind", 3:"'unset'", 4:"CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem" }; 
     966data[963] = { "id":963, 0:"mrsofc",  1:"Capacity of Soil to Store Water", 2:"soil_moisture_content_at_field_capacity", 3:"''reported ''where land'': divide the total water holding capacity of all the soil in the grid cell by the land area in the grid cell;  reported as ''missing'' where the land fraction is 0.''", 4:"CMIP5_fx,SPECS_fx" }; 
     967data[964] = { "id":964, 0:"phyn",  1:"Phytoplankton Nitrogen Concentration at Surface", 2:"mole_concentration_of_phytoplankton_expressed_as_nitrogen_in_sea_water", 3:"'sum of phytoplankton nitrogen component concentrations'", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     968data[965] = { "id":965, 0:"intpnitrate",  1:"Primary Organic Carbon Production by Phytoplankton Based on Nitrate Uptake Alone", 2:"net_primary_mole_productivity_of_carbon_due_to_nitrate_utilization", 3:"'Vertically integrated primary (organic carbon) production by phytoplankton based on nitrate uptake alone'", 4:"CMIP5_Omon" }; 
     969data[966] = { "id":966, 0:"accelogw",  1:"Tendency of Eastward Wind from Oro-GWD", 2:"tendency_of_eastward_wind_due_to_orographic_gravity_wave_drag", 3:"'Eastward acceleration from the parameterized orographic gravity wave drag (OGWD) derived either from daily means or 6hr fields (use instantaneous daily fields or 12 hr fields if the 6 hr data are not available). Use the accelerations as applied in your model.'", 4:"CCMI1_monthly" }; 
     970data[967] = { "id":967, 0:"sfmmrsoa",  1:"SOA Mass Mixing Ratio in the Lowest Model Layer", 2:"mass_fraction_of_secondary_particulate_organic_matter_dry_aerosol_in_air", 3:"'SOA'", 4:"CCMI1_daily" }; 
     971data[968] = { "id":968, 0:"prodoh",  1:"Chemical Gross Production Rate of OH", 2:"unset", 3:"'proposed name: tendency_of_mole_concentration_of_hydroxyl_radical_due_to_chemical_gross_production'", 4:"CCMI1_monthly" }; 
     972data[969] = { "id":969, 0:"rhsmin",  1:"Surface Daily Minimum Relative Humidity", 2:"relative_humidity", 3:"'This is the relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C.'", 4:"CMIP5_day" }; 
     973data[970] = { "id":970, 0:"mnstrage",  1:"Mean Age of Stratospheric Air", 2:"age_of_stratospheric_air", 3:"'The mean age of air is defined as the mean time that a stratospheric air mass has been out of contact with the well-mixed troposphere.'", 4:"CCMI1_daily,CCMI1_monthly" }; 
     974data[971] = { "id":971, 0:"lwtoaasch4",  1:"All-Sky LS-RF CH4 at TOA", 2:"unset", 3:"'proposed name: toa_instantaneous_longwave_forcing_due_to_methane'", 4:"CCMI1_monthly" }; 
     975data[972] = { "id":972, 0:"vorpot480",  1:"Potential Vorticity on 480K", 2:"ertel_potential_vorticity", 3:"'potential vorticity at 480 K'", 4:"CCMI1_daily" }; 
     976data[973] = { "id":973, 0:"vo",  1:"Sea Water Y Velocity", 2:"sea_water_y_velocity", 3:"'unset'", 4:"CMIP5_Omon" }; 
     977data[974] = { "id":974, 0:"vmrco50ea700",  1:"co_50_ea Volume Mixing Ratio at 700 hPa", 2:"unset", 3:"'daily mean, emitted as anthropogenic CO over East Asia (15N-50N; 95E-160E),  (emission file available from HTAP), uniform fixed 50-day exponential decay.'", 4:"CCMI1_daily" }; 
     978data[975] = { "id":975, 0:"fgdms",  1:"Surface Upward DMS Flux", 2:"surface_upward_mole_flux_of_dimethyl_sulfide", 3:"'Gas exchange flux of DMS (positive into atmosphere)'", 4:"CMIP5_Omon" }; 
     979data[976] = { "id":976, 0:"emiabc",  1:"Anthropogenic Emission Rate of Black Carbon Aerosol Mass", 2:"unset", 3:"'Includes agricultural waste burning but no other biomass burning. proposed name: tendency_of_atmosphere_mass_content_of_anthropogenic_black_carbon_dry_aerosol_due_to_emission. Integrate 3D emission field vertically to 2d field.'", 4:"CCMI1_monthly" }; 
     980data[977] = { "id":977, 0:"rlutcs",  1:"TOA Outgoing Clear-Sky Longwave Radiation", 2:"toa_outgoing_longwave_flux_assuming_clear_sky", 3:"''", 4:"CCMI1_monthly" }; 
     981data[978] = { "id":978, 0:"al",  1:"Albedo", 2:"surface_albedo", 3:"'unset'", 4:"SPECS_Amon" }; 
     982data[979] = { "id":979, 0:"msftyyz",  1:"Ocean Y Overturning Mass Streamfunction", 2:"ocean_y_overturning_mass_streamfunction", 3:"'unset'", 4:"CMIP5_Omon" }; 
     983data[980] = { "id":980, 0:"rlu",  1:"Upwelling Longwave Radiation", 2:"upwelling_longwave_flux_in_air", 3:"'Includes also the fluxes at the surface and TOA.'", 4:"CMIP5_cfMon" }; 
     984data[981] = { "id":981, 0:"mmrbc",  1:"BC Mass Mixing Ratio", 2:"mass_fraction_of_black_carbon_dry_aerosol_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     985data[982] = { "id":982, 0:"vmro3",  1:"Ozone Volume Mixing Ratio", 2:"mole_fraction_of_ozone_in_air", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }; 
     986data[983] = { "id":983, 0:"nh50area195k",  1:"Area over the Arctic at 50 hPa with Air Temperature Less than 195K", 2:"unset", 3:"'Daily Area where the Temperature poleward of 60 degrees is below 195 K at 50 hPa for Nov-April in NH'", 4:"CCMI1_daily" }; 
     987data[984] = { "id":984, 0:"emiso2",  1:"Total Emission Rate of SO2", 2:"tendency_of_atmosphere_mass_content_of_sulfur_dioxide_due_to_emission", 3:"'Integrate 3D emission field vertically to 2d field.'", 4:"CCMI1_monthly" }; 
     988data[985] = { "id":985, 0:"clw",  1:"Mass Fraction of Cloud Liquid Water", 2:"mass_fraction_of_cloud_liquid_water_in_air", 3:"'Includes both large-scale and convective cloud.  This is the mass of  cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.'", 4:"CMIP5_cfSites" }; 
     989data[986] = { "id":986, 0:"tnsclirir",  1:"Tendency of Mass Fraction of Stratiform Cloud Ice due to Riming From Rain", 2:"tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_riming_from_rain", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     990data[987] = { "id":987, 0:"cfc11global",  1:"Global Mean Mole Fraction of CFC11", 2:"mole_fraction_of_cfc11_in_air", 3:"'unset'", 4:"CMIP5_Amon" }; 
     991data[988] = { "id":988, 0:"chclf2trtbrdn",  1:"Tendency of Tropospheric Burden of CHClF2", 2:"tendency_of_troposphere_moles_of_hcfc22", 3:"'total yearly averaged tropospheric loss'", 4:"CCMI1_annual" }; 
     992data[989] = { "id":989, 0:"c2br2f4tbrdn",  1:"Tendency of Atmospheric Burden of Halon 2402", 2:"tendency_of_atmosphere_moles_of_halon2402", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }; 
     993data[990] = { "id":990, 0:"sfmmrso2t",  1:"so2t Mass Mixing Ratio in Surface Layer", 2:"unset", 3:"'daily mean or instantaneous? emitted as anthropogenic year 2000 SO2 (as specified in REF-C1, wet removal as SO2.'", 4:"CCMI1_daily" }; 
     994data[991] = { "id":991, 0:"c3PftFrac",  1:"Total C3 PFT Cover Fraction", 2:"area_fraction", 3:"'fraction of entire grid cell  that is covered by C3 PFTs (including grass, crops, and trees).'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     995data[992] = { "id":992, 0:"concnmcn",  1:"Number Concentration of Nucleation Mode Aerosol", 2:"number_concentration_of_nucleation_mode_ambient_aerosol_in_air", 3:"'includes all particles with diameter smaller than 3 nm'", 4:"CMIP5_aero" }; 
     996data[993] = { "id":993, 0:"tnsclihencl",  1:"Tendency of Mass Fraction of Stratiform Cloud Ice due to Heterogeneous Nucleation From Cloud Liquid", 2:"tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_heterogeneous_nucleation_from_cloud_liquid_water", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     997data[994] = { "id":994, 0:"ua500",  1:"Eastward Wind", 2:"eastward_wind", 3:"'unset'", 4:"CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem" }; 
     998data[995] = { "id":995, 0:"wap",  1:"omega (=dp/dt)", 2:"lagrangian_tendency_of_air_pressure", 3:"'omega'", 4:"CCMI1_daily" }; 
     999data[996] = { "id":996, 0:"rsds",  1:"Surface Downwelling Shortwave Radiation", 2:"surface_downwelling_shortwave_flux_in_air", 3:"'This is the 3-hour mean flux.'", 4:"CMIP5_3hr" }; 
     1000data[997] = { "id":997, 0:"expsi",  1:"Sinking Particulate Silica Flux", 2:"sinking_mole_flux_of_particulate_silicon_in_sea_water", 3:"'unset'", 4:"CMIP5_Oyr" }; 
     1001data[998] = { "id":998, 0:"snc",  1:"Snow Area Fraction", 2:"surface_snow_area_fraction", 3:"'unset'", 4:"CMIP5_day" }; 
     1002data[999] = { "id":999, 0:"hfls",  1:"Surface Upward Latent Heat Flux", 2:"surface_upward_latent_heat_flux", 3:"''", 4:"CCMI1_monthly" }; 
     1003data[1000] = { "id":1000, 0:"lwtoaashc",  1:"All-Sky LW-RF Halocarbons at TOA", 2:"unset", 3:"'CFCs/HCFCs/PFCs/HFCs/SF6. proposed name: toa_instantaneous_shortwave_forcing_due_to_halocarbons'", 4:"CCMI1_monthly" }; 
     1004data[1001] = { "id":1001, 0:"zmcl",  1:"Zonal Mean Cl Volume Mixing Ratio", 2:"mole_fraction_of_atomic_chlorine_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     1005data[1002] = { "id":1002, 0:"fbddtdife",  1:"Rate of Change of Dissolved Inorganic Iron due to Biological Activity", 2:"tendency_of_ocean_mole_content_of_dissolved_inorganic_iron_due_to_biological_processes", 3:"'vertical integral of net biological terms in time rate of change of dissolved inorganic iron'", 4:"CMIP5_Omon" }; 
     1006data[1003] = { "id":1003, 0:"vmro3psv",  1:"Passive Ozone Volume Mixing Ratio", 2:"unset", 3:"'Passive O3 (if available): The model runs should include a tracer to diagnose polar chemical ozone loss in winter and spring. As most models will advect (and integrate) O3 as part of the 'odd oxygen' (Ox=O3 + O(3P) + O(1D)) family we will call this the 'passive Ox tracer'. This will be a global tracer which is reset during each polar winter (i.e. twice per year). Given the relatively slow transport and long chemical lifetime (without PSC processing etc) of O3 in the polar regions this will provide a useful diagnostic over the timescale of a few months in the lower stratosphere. The model tracer should be set equal to your advected 'odd oxygen' tracer on December 1 and June 1 every year. Then, the tracer is simply advected without any further chemical change. If your advection scheme stores other variables for each tracer (e.g. higher order moments) remember to set sum of these species. The passive Ox tracer should be ouput according to the other instructions. The re-initialisation dates are selected so that we diagnose most of the chemical loss over the course of the winter, some of which would be missed by a later date.'", 4:"CCMI1_daily" }; 
     1007data[1004] = { "id":1004, 0:"volcello",  1:"Ocean Grid-Cell Volume", 2:"ocean_volume", 3:"'grid-cell volume ca. 2000.'", 4:"CMIP5_fx,SPECS_fx" }; 
     1008data[1005] = { "id":1005, 0:"diftrblo",  1:"Ocean Tracer Bolus Laplacian Diffusivity", 2:"ocean_tracer_bolus_laplacian_diffusivity", 3:"'unset'", 4:"CMIP5_Oclim" }; 
     1009data[1006] = { "id":1006, 0:"rsut4co2",  1:"TOA Outgoing Shortwave Radiation in 4XCO2 Atmosphere", 2:"toa_outgoing_shortwave_flux", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     1010data[1007] = { "id":1007, 0:"prw",  1:"Water Vapor Path", 2:"atmosphere_water_vapor_content", 3:"'vertically integrated through the atmospheric column'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites" }; 
     1011data[1008] = { "id":1008, 0:"h2tbrdn",  1:"Tendency of Atmospheric Burden of H2", 2:"tendency_of_atmosphere_moles_of_molecular_hydrogen", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }; 
     1012data[1009] = { "id":1009, 0:"rlus",  1:"Surface Upwelling Longwave Radiation", 2:"surface_upwelling_longwave_flux_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     1013data[1010] = { "id":1010, 0:"mmrpm2p5",  1:"PM2.5 Mass Mixing Ratio at 50 Percent RH", 2:"mass_fraction_of_pm2p5_ambient_aerosol_in_air", 3:"'Must include scalar dimension relh50p specifying relative_humidity of 50%'", 4:"CCMI1_monthly" }; 
     1014data[1011] = { "id":1011, 0:"vmrco50ea",  1:"co_50_ea Volume Mixing Ratio", 2:"unset", 3:"'emitted as anthropogenic CO over East Asia (15N-50N; 95E-160E),  (emission file available from HTAP), uniform fixed 50-day exponential decay.'", 4:"CCMI1_monthly" }; 
     1015data[1012] = { "id":1012, 0:"mrros",  1:"Surface Runoff", 2:"surface_runoff_flux", 3:"'the total surface runoff leaving the land portion of the grid cell.'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     1016data[1013] = { "id":1013, 0:"accelgw",  1:"Tendency of Eastward Wind from GWD", 2:"tendency_of_eastward_wind_due_to_gravity_wave_drag", 3:"'Eastward acceleration from the total (orographic + non-orographic) parameterized gravity wave drag (GWD) derived either from daily means or 6hr fields (use instantaneous daily fields or 12 hr fields if the 6 hr data are not available). Use the accelerations as applied in your model.'", 4:"CCMI1_monthly" }; 
     1017data[1014] = { "id":1014, 0:"swtoaashc",  1:"All-Sky SW-RF Halocarbons at TOA", 2:"unset", 3:"'CFCs/HCFCs/PFCs/HFCs/SF6. proposed name: toa_instantaneous_shortwave_forcing_due_to_halocarbons'", 4:"CCMI1_monthly" }; 
     1018data[1015] = { "id":1015, 0:"od550soa",  1:"SOA AOD at 550nm", 2:"unset", 3:"'proposed name: atmosphere_optical_thickness_due_to_secondary_particulate_organic_matter_ambient_aerosol'", 4:"CCMI1_monthly" }; 
     1019data[1016] = { "id":1016, 0:"mcu",  1:"Updraft Convective Mass Flux", 2:"atmosphere_updraft_convective_mass_flux", 3:"'In accordance with common usage in geophysical disciplines, 'flux' implies per unit area, called 'flux density' in physics. The atmosphere convective mass flux is the vertical transport of mass for a field of cumulus clouds or thermals, given by the product of air density and vertical velocity.  For an area-average, cell_methods should specify whether the average is over all the area or the area of updrafts only.'", 4:"CCMI1_monthly" }; 
     1020data[1017] = { "id":1017, 0:"reffclic",  1:"Hydrometeor Effective Radius of Convective Cloud Ice", 2:"effective_radius_of_convective_cloud_ice_particle", 3:"'This is defined as the in-cloud ratio of the third moment over the second moment of the particle size distribution (obtained by considering only the cloudy portion of the grid cell).'", 4:"CMIP5_cf3hr" }; 
     1021data[1018] = { "id":1018, 0:"mfo",  1:"Sea Water Transport", 2:"sea_water_transport_across_line", 3:"'unset'", 4:"CMIP5_Omon" }; 
     1022data[1019] = { "id":1019, 0:"tnsclwhen",  1:"Tendency of Mass Fraction of Stratiform Cloud Liquid Water due to Heterogeneous Nucleation", 2:"tendency_of_mass_fraction_of_stratiform_cloud_liquid_water_in_air_due_to_heterogeneous_nucleation", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     1023data[1020] = { "id":1020, 0:"dpocdtdiaz",  1:"Tendency of Mole Concentration of Organic Carbon in Sea Water due to Net Primary Production by Diazotrophs", 2:"tendency_of_mole_concentration_of_particulate_organic_matter_expressed_as_carbon_in_sea_water_due_to_net_primary_production_by_diazotrophs", 3:"'Primary (organic carbon) production by the diazotrophic phytoplankton component alone'", 4:"CMIP5_Oyr" }; 
     1024data[1021] = { "id":1021, 0:"albs",  1:"Planetary Albedo", 2:"planetary_albedo", 3:"''", 4:"CCMI1_monthly" }; 
     1025data[1022] = { "id":1022, 0:"concss",  1:"Concentration of Seasalt", 2:"mass_concentration_of_seasalt_dry_aerosol_in_air", 3:"'unset'", 4:"CMIP5_aero" }; 
     1026data[1023] = { "id":1023, 0:"sltnortha",  1:"Atlantic Northward Ocean Salt Transport", 2:"northward_ocean_salt_transport", 3:"'unset'", 4:"SPECS_Omon" }; 
     1027data[1024] = { "id":1024, 0:"pslAdjust",  1:"Bias-Corrected Sea Level Pressure", 2:"air_pressure_at_sea_level", 3:"'not, in general, the same as surface pressure'", 4:"CMIP5_Amon" }; 
     1028data[1025] = { "id":1025, 0:"ua100",  1:"Eastward Wind at 100 hPa", 2:"eastward_wind", 3:"'Zonal wind on the 100 hPa surface'", 4:"CCMI1_daily" }; 
     1029data[1026] = { "id":1026, 0:"mrfso",  1:"Soil Frozen Water Content", 2:"soil_frozen_water_content", 3:"'the mass (summed over all all layers) of frozen water.'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     1030data[1027] = { "id":1027, 0:"vmrco2",  1:"CO2 Volume Mixing Ratio", 2:"mole_fraction_of_carbon_dioxide_in_air", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }; 
     1031data[1028] = { "id":1028, 0:"ficeberg",  1:"Water Flux into Sea Water From Icebergs", 2:"water_flux_into_sea_water_from_icebergs", 3:"'computed as the iceberg melt water  flux into the ocean divided by the area of the ocean portion of the grid cell.'", 4:"CMIP5_Omon" }; 
     1032data[1029] = { "id":1029, 0:"tnhusmp",  1:"Tendency of Specific Humidity due to Model Physics", 2:"tendency_of_specific_humidity_due_to_model_physics", 3:"'This includes sources and sinks from parametrized physics (e.g. convection, stratiform condensation/evaporation, etc.) and excludes sources and sinks from resolved dynamics and diffusion.'", 4:"CMIP5_cfMon" }; 
     1033data[1030] = { "id":1030, 0:"swtoaasn2o",  1:"All-Sky SW-RF N2O at TOA", 2:"unset", 3:"'proposed name: toa_instantaneous_shortwave_forcing_due_to_nitrous_oxide'", 4:"CCMI1_monthly" }; 
     1034data[1031] = { "id":1031, 0:"zmccl4",  1:"Zonal Mean CCl4 Volume Mixing Ratio", 2:"mole_fraction_of_carbon_tetrachloride_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     1035data[1032] = { "id":1032, 0:"tropoz",  1:"Tropospheric Ozone Column", 2:"unset", 3:"''", 4:"CCMI1_monthly" }; 
     1036data[1033] = { "id":1033, 0:"vsi",  1:"Y-Component of Sea Ice Velocity", 2:"sea_ice_y_velocity", 3:"''Reported as ''missing'' in regions free of sea ice.''", 4:"CMIP5_day,SPECS_OImon" }; 
     1037data[1034] = { "id":1034, 0:"cbrf3tbrdn",  1:"Tendency of Atmospheric Burden of Halon 1301", 2:"tendency_of_atmosphere_moles_of_halon1301", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }; 
     1038data[1035] = { "id":1035, 0:"emiso4",  1:"Total Direct Emission Rate of SO4", 2:"tendency_of_atmosphere_mass_content_of_sulfate_dry_aerosol_due_to_emission", 3:"'expressed as a tendency of atmosphere mass content of SO4.  Direct emission does not include secondary sulfate production. Integrate 3D emission field vertically to 2d field.'", 4:"CCMI1_monthly" }; 
     1039data[1036] = { "id":1036, 0:"vmrho2",  1:"HO2 Volume Mixing Ratio", 2:"mole_fraction_of_hydroperoxyl_radical_in_air", 3:"''", 4:"CCMI1_daily" }; 
     1040data[1037] = { "id":1037, 0:"emibvoc",  1:"Total Emission Rate of Biogenic NMVOC", 2:"unset", 3:"'Integrate 3D emission field vertically to 2d field.  _If_ fixed molecular weight of NMVOC is not available in model, please provide in units of kilomole m-2 s-1 (i.e. kg m-2 s-1 as if model NMVOC had molecular weight of 1) and add a comment to your file.'", 4:"CCMI1_monthly" }; 
     1041data[1038] = { "id":1038, 0:"grFrazil",  1:"Frazil Sea Ice Growth (Leads) Rate", 2:"tendency_of_sea_ice_amount_due_to_frazil_ice_accumulation_in_leads", 3:"'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.  Reported as 0.0 in regions free of sea ice.'", 4:"CMIP5_OImon" }; 
     1042data[1039] = { "id":1039, 0:"zmicro",  1:"Mole Concentration of Microzooplankton expressed as Carbon in Sea Water at Surface", 2:"mole_concentration_of_microzooplankton_expressed_as_carbon_in_sea_water", 3:"'carbon  concentration from the microzooplankton (<20 um) component alone'", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     1043data[1040] = { "id":1040, 0:"tnsclimr",  1:"Tendency of Mass Fraction of Stratiform Cloud Ice due to Melting to Rain", 2:"tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_melting_to_rain", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     1044data[1041] = { "id":1041, 0:"msftmyzba",  1:"Meridional Mass Streamfunction Due to Bolus Advection", 2:"ocean_meridional_overturning_mass_streamfunction_due_to_bolus_advection", 3:"'unset'", 4:"SPECS_Omon" }; 
     1045data[1042] = { "id":1042, 0:"vmrh2o2",  1:"H2O2 Volume Mixing Ratio", 2:"mole_fraction_of_hydrogen_peroxide_in_air", 3:"''", 4:"CCMI1_daily" }; 
     1046data[1043] = { "id":1043, 0:"leadtime",  1:"Time elapsed since the start of the forecast", 2:"forecast_period", 3:"'unset'", 4:"SPECS_6hr" }; 
     1047data[1044] = { "id":1044, 0:"transifs",  1:"Sea Ice Mass Transport Through Fram Strait", 2:"sea_ice_transport_across_line", 3:"'unset'", 4:"CMIP5_OImon,SPECS_OImon" }; 
     1048data[1045] = { "id":1045, 0:"lwtoaasaer",  1:"All-Sky LW-RF Aerosols at TOA", 2:"unset", 3:"'proposed name: toa_instantaneous_longwave_forcing_due_to_ambient_aerosol'", 4:"CCMI1_monthly" }; 
     1049data[1046] = { "id":1046, 0:"albisccp",  1:"ISCCP Mean Cloud Albedo", 2:"cloud_albedo", 3:"'time-means are weighted by the ISCCP Total Cloud Fraction - see  http://cfmip.metoffice.com/COSP.html'", 4:"CMIP5_cfDay,CMIP5_cfMon" }; 
     1050data[1047] = { "id":1047, 0:"mcu",  1:"Updraft Convective Mass Flux", 2:"atmosphere_updraft_convective_mass_flux", 3:"'Calculated as the convective mass flux divided by the area of the whole grid cell (not just the area of the cloud).'", 4:"CMIP5_cfMon" }; 
     1051data[1048] = { "id":1048, 0:"prodo3viaro2",  1:"Chemical Production Rate of O3 via RO2+NO", 2:"unset", 3:"'proposed name: tendency_of_mole_concentration_of_ozone_due_to_chemical_production_by_RO2_plus_NO'", 4:"CCMI1_monthly" }; 
     1052data[1049] = { "id":1049, 0:"sfcWind",  1:"Daily-Mean Near-Surface Wind Speed", 2:"wind_speed", 3:"'unset'", 4:"CMIP5_day" }; 
     1053data[1050] = { "id":1050, 0:"cct",  1:"Air Pressure at Convective Cloud Top", 2:"air_pressure_at_convective_cloud_top", 3:"'unset'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfDay,CMIP5_cfSites" }; 
     1054data[1051] = { "id":1051, 0:"difvso",  1:"Ocean Vertical Salt Diffusivity", 2:"ocean_vertical_salt_diffusivity", 3:"'unset'", 4:"CMIP5_Oclim" }; 
     1055data[1052] = { "id":1052, 0:"vmrcf2cl2",  1:"CF2Cl2 Volume Mixing Ratio", 2:"mole_fraction_of_cfc12_in_air", 3:"''", 4:"CCMI1_daily" }; 
     1056data[1053] = { "id":1053, 0:"evisct",  1:"Eddy Diffusivity Coefficients for Temperature", 2:"atmosphere_heat_diffusivity", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     1057data[1054] = { "id":1054, 0:"eminox",  1:"Total Emission Rate of NOx", 2:"tendency_of_atmosphere_mass_content_of_nox_expressed_as_nitrogen_due_to_emission", 3:"'NOx=NO+NO2. Integrate 3D emission field vertically to 2d field.'", 4:"CCMI1_monthly" }; 
     1058data[1055] = { "id":1055, 0:"lossro2viano",  1:"Reaction Rate of RO2+NO", 2:"unset", 3:"'This is sum of prodo3viaho2, prodo3viach3o2 and prodo3viaro2'", 4:"CCMI1_monthly" }; 
     1059data[1056] = { "id":1056, 0:"friver",  1:"Water Flux into Sea Water From Rivers", 2:"water_flux_into_sea_water_from_rivers", 3:"'computed as the river flux of water into the ocean divided by the area of the ocean portion of the grid cell.'", 4:"CMIP5_Omon" }; 
     1060data[1057] = { "id":1057, 0:"lossrcoo2viano2",  1:"Reaction Rate of RC(O)O2+NO2", 2:"unset", 3:"'3-d distribution of RC(O)O2+NO2 reaction fluxes (e.g. PAN production). R refers to the organic peroxy radical pool.'", 4:"CCMI1_monthly" }; 
     1061data[1058] = { "id":1058, 0:"expc",  1:"Sinking Particulate Organic Carbon Flux", 2:"sinking_mole_flux_of_particulate_organic_matter_expressed_as_carbon_in_sea_water", 3:"'unset'", 4:"CMIP5_Oyr" }; 
     1062data[1059] = { "id":1059, 0:"co2",  1:"Mole Fraction of CO2", 2:"mole_fraction_of_carbon_dioxide_in_air", 3:"'unset'", 4:"CMIP5_Amon" }; 
     1063data[1060] = { "id":1060, 0:"prc",  1:"Convective Precipitation", 2:"convective_precipitation_flux", 3:"'unset'", 4:"CMIP5_cfDay" }; 
     1064data[1061] = { "id":1061, 0:"growseas",  1:"Growing Season", 2:"unset", 3:"''", 4:"CCMI1_annual" }; 
     1065data[1062] = { "id":1062, 0:"treeFracPrimDec",  1:"Total Primary Deciduous Tree Fraction", 2:"area_fraction", 3:"''This is the fraction of the entire grid cell  that is covered by ''total primary deciduous trees.''''", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     1066data[1063] = { "id":1063, 0:"lossco",  1:"Rate of CO Oxidation", 2:"unset", 3:"'proposed name: tendency_of_mole_concentration_of_carbon_monoxide_due_to_chemical_gross_destruction'", 4:"CCMI1_monthly" }; 
     1067data[1064] = { "id":1064, 0:"tasmax",  1:"Daily Maximum Near-Surface Air Temperature", 2:"air_temperature", 3:"'unset'", 4:"CMIP5_day,SPECS_day" }; 
     1068data[1065] = { "id":1065, 0:"h2brdn",  1:"Atmospheric Burden of H2", 2:"atmosphere_moles_of_molecular_hydrogen", 3:"'total yearly average burden'", 4:"CCMI1_annual" }; 
     1069data[1066] = { "id":1066, 0:"tnpeotb",  1:"Tendency of Ocean Potential Energy Content due to Background", 2:"tendency_of_ocean_potential_energy_content_due_to_background", 3:"'unset'", 4:"CMIP5_Oclim" }; 
     1070data[1067] = { "id":1067, 0:"tnsclicd",  1:"Tendency of Mass Fraction of Stratiform Cloud Ice Due Convective Detrainment", 2:"tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_convective_detrainment", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     1071data[1068] = { "id":1068, 0:"snoToIce",  1:"Snow-Ice Formation Rate", 2:"tendency_of_sea_ice_amount_due_to_snow_conversion", 3:"'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.  Reported as 0.0 in regions free of snow-covered sea ice.'", 4:"CMIP5_OImon" }; 
     1072data[1069] = { "id":1069, 0:"swtropaso3",  1:"All-Sky SW-RF O3 at Tropopause", 2:"unset", 3:"'proposed name: tropopause_instantaneous_shortwave_forcing_due_to_ozone'", 4:"CCMI1_monthly" }; 
     1073data[1070] = { "id":1070, 0:"sfvmrno2",  1:"NO2 Volume Mixing Ratio in the Lowest Model Layer", 2:"mole_fraction_of_nitrogen_dioxide_in_air", 3:"''", 4:"CCMI1_hourly" }; 
     1074data[1071] = { "id":1071, 0:"vmrn2o",  1:"N2O Volume Mixing Ratio", 2:"mole_fraction_of_nitrous_oxide_in_air", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }; 
     1075data[1072] = { "id":1072, 0:"difvtrto",  1:"Ocean Vertical Tracer Diffusivity due to Tides", 2:"ocean_vertical_tracer_diffusivity_due_to_tides", 3:"'unset'", 4:"CMIP5_Oclim" }; 
     1076data[1073] = { "id":1073, 0:"msftbarot",  1:"Ocean Barotropic Mass Streamfunction", 2:"ocean_barotropic_mass_streamfunction", 3:"'differs from CMIP3 because it includes mass.'", 4:"CMIP5_Omon" }; 
     1077data[1074] = { "id":1074, 0:"tnsccwcm",  1:"Tendency of Mass Fraction of Stratiform Cloud Condensed Water In Air Due To Cloud Microphysics", 2:"tendency_of_mass_fraction_of_stratiform_cloud_condensed_water_in_air_due_to_cloud_microphysics", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     1078data[1075] = { "id":1075, 0:"lossro2viaho2",  1:"Reaction Rate of RO2+HO2", 2:"unset", 3:"'3-d distribution of RO2+HO2 reaction fluxes. Similar to prodhpx, but without HO2+HO2. R refers to the organic peroxy radical pool.'", 4:"CCMI1_monthly" }; 
     1079data[1076] = { "id":1076, 0:"o2min",  1:"Oxygen Minimum Concentration", 2:"mole_concentration_of_dissolved_molecular_oxygen_in_sea_water_at_shallowest_local_minimum_in_vertical_profile", 3:"'unset'", 4:"CMIP5_Omon" }; 
     1080data[1077] = { "id":1077, 0:"zmclo",  1:"Zonal Mean ClO volume mixing ratio", 2:"mole_fraction_of_chlorine_monoxide_in_air", 3:"''", 4:"CCMI1_daily" }; 
     1081data[1078] = { "id":1078, 0:"zmbry",  1:"Zonal Mean Total Inorganic Bromine (Bry) Volume Mixing Ratio", 2:"mole_fraction_of_total_inorganic_bromine_in_air", 3:"'Total inorganic bromine (e.g., HBr and inorganic bromine oxides and radicals (e.g., BrO, atomic bromine (Br), bromine nitrate (BrONO2)) resulting from degradation of bromine-containing organic source gases (halons, methyl bromide, VSLS), and natural inorganic bromine sources (e.g., volcanoes, sea salt, and other aerosols).  Add comment attribute with detailed description about how the model calculates these fields e.g. Bry = Br + BrO + HOBr + HBr + BrONO2 + BrCl.'", 4:"CCMI1_monthly" }; 
     1082data[1079] = { "id":1079, 0:"hfcorr",  1:"Heat Flux Correction", 2:"heat_flux_correction", 3:"'unset'", 4:"CMIP5_Omon" }; 
     1083data[1080] = { "id":1080, 0:"ci",  1:"Fraction of Time Convection Occurs", 2:"convection_time_fraction", 3:"'Fraction of time that convection occurs in the grid cell .'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites" }; 
     1084data[1081] = { "id":1081, 0:"deptho",  1:"Sea Floor Depth", 2:"sea_floor_depth_below_geoid", 3:"'Ocean bathymetry.   Reported here is the sea floor depth for present day. Reported as missing for land grid cells.'", 4:"CMIP5_fx,SPECS_fx" }; 
     1085data[1082] = { "id":1082, 0:"sadice",  1:"Surface Area Density of Water Ice PSC Particles", 2:"unset", 3:"'water-ice surface area density used in heterogeneous activation of ClOx and BrOx. Defined as the area of aerosol per volume of atmosphere (i.e., m2 m-3 = m-1).'", 4:"CCMI1_daily" }; 
     1086data[1083] = { "id":1083, 0:"streng",  1:"Compressive Sea Ice Strength", 2:"compressive_strength_of_sea_ice", 3:"'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.   Reported as ''missing'' in regions free of sea ice.'", 4:"CMIP5_OImon,SPECS_OImon" }; 
     1087data[1084] = { "id":1084, 0:"ptp",  1:"Tropopause Air Pressure", 2:"tropopause_air_pressure", 3:"'2D monthly mean thermal tropopause calculated using WMO tropopause definition on 3d temperature'", 4:"CCMI1_monthly" }; 
     1088data[1085] = { "id":1085, 0:"rsus",  1:"Surface Upwelling Shortwave Radiation", 2:"surface_upwelling_shortwave_flux_in_air", 3:"'unset'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfDay,CMIP5_cfSites,CMIP5_day,CORDEX_3h,CORDEX_day,CORDEX_mon,CORDEX_sem,SPECS_day" }; 
     1089data[1086] = { "id":1086, 0:"thkcello",  1:"Ocean Model Cell Thickness", 2:"cell_thickness", 3:"'unset'", 4:"CMIP5_Omon,CMIP5_fx" }; 
     1090data[1087] = { "id":1087, 0:"convclt",  1:"Convective Cloud Fraction", 2:"convective_cloud_area_fraction", 3:"'For the whole atmospheric column, as seen from the surface or the top of the atmosphere. Include only convective cloud.'", 4:"CCMI1_monthly" }; 
     1091data[1088] = { "id":1088, 0:"tnsclibfpcl",  1:"Tendency of Mass Fraction of Stratiform Cloud Ice In Air Due To Bergeron Findeisen Process from Cloud Liquid", 2:"tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_bergeron_findeisen_process_from_cloud_liquid", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     1092data[1089] = { "id":1089, 0:"ch4trtbrdn",  1:"Tendency of Tropospheric Burden of CH4", 2:"tendency_of_troposphere_moles_of_methane", 3:"'total yearly averaged tropospheric loss'", 4:"CCMI1_annual" }; 
     1093data[1090] = { "id":1090, 0:"tauu",  1:"Surface Downward Eastward Wind Stress", 2:"surface_downward_eastward_stress", 3:"'unset'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites,CORDEX_6h,CORDEX_day,SPECS_Amon,SPECS_day" }; 
     1094data[1091] = { "id":1091, 0:"zmbrcl",  1:"Zonal mean BrCl Volume Mixing Ratio", 2:"mole_fraction_of_bromine_chloride_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     1095data[1092] = { "id":1092, 0:"ch3ccl2ftbrdn",  1:"Tendency of Atmospheric Burden of CH3CCl2F", 2:"tendency_of_atmosphere_moles_of_hcfc141b", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }; 
     1096data[1093] = { "id":1093, 0:"od550bb",  1:"BB AOD at 550nm", 2:"unset", 3:"'proposed name: atmosphere_optical_thickness_due_to_biomass_burning_ambient_aerosol'", 4:"CCMI1_monthly" }; 
     1097data[1094] = { "id":1094, 0:"phydiaz",  1:"Mole Concentration of Diazotrophs Expressed as Carbon in Sea Water at Surface", 2:"mole_concentration_of_diazotrophs_expressed_as_carbon_in_sea_water", 3:"'carbon concentration from the diazotrophic phytoplankton component alone'", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     1098data[1095] = { "id":1095, 0:"rlus",  1:"Surface Upwelling Longwave Radiation", 2:"surface_upwelling_longwave_flux_in_air", 3:"'This is the 3-hour mean flux.'", 4:"CMIP5_3hr" }; 
     1099data[1096] = { "id":1096, 0:"umo",  1:"Ocean Mass X Transport", 2:"ocean_mass_x_transport", 3:"'unset'", 4:"CMIP5_Omon" }; 
     1100data[1097] = { "id":1097, 0:"o3prod",  1:"O3 Production Rate", 2:"unset", 3:"'ONLY provide the sum of all the HO2/RO2 + NO reactions (as k*[HO2]*[NO])'", 4:"CCMI1_monthly" }; 
     1101data[1098] = { "id":1098, 0:"zmmnstrage",  1:"Zonal Mean Mean Age of Stratospheric Air", 2:"age_of_stratospheric_air", 3:"'The mean age of air is defined as the mean time that a stratospheric air mass has been out of contact with the well-mixed troposphere.'", 4:"CCMI1_monthly" }; 
     1102data[1099] = { "id":1099, 0:"ch3clsmtbrdn",  1:"Tendency of Middle Atmosphere Burden of CH3Cl", 2:"tendency_of_middle_atmosphere_moles_of_methyl_chloride", 3:"'total yearly averaged stratospheric and mesospheric loss'", 4:"CCMI1_annual" }; 
     1103data[1100] = { "id":1100, 0:"diftrbbo2d",  1:"Ocean Tracer Bolus Biharmonic Diffusivity", 2:"ocean_tracer_bolus_biharmonic_diffusivity", 3:"'unset'", 4:"CMIP5_Oclim" }; 
     1104data[1101] = { "id":1101, 0:"rsussi",  1:"Upward Shortwave over Sea Ice", 2:"surface_upwelling_shortwave_flux_in_air", 3:"'the upward shortwave flux in regions of sea ice divided by the area of the ocean portion of the grid cell.'", 4:"CMIP5_OImon" }; 
     1105data[1102] = { "id":1102, 0:"emilnox",  1:"Layer-Integrated Lightning Production of NOx", 2:"unset", 3:"'Integrate the NOx production for lightning over model layer.  Express as mass of nitrogen.'", 4:"CCMI1_monthly" }; 
     1106data[1103] = { "id":1103, 0:"zmcbrf3",  1:"Zonal Mean CBrF3 Volume Mixing Ratio", 2:"mole_fraction_of_halon1301_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     1107data[1104] = { "id":1104, 0:"intpn2",  1:"Nitrogen Fixation Rate in Ocean", 2:"tendency_of_ocean_mole_content_of_elemental_nitrogen_due_to_fixation", 3:"'Vertically integrated nitrogen fixation'", 4:"CMIP5_Omon" }; 
     1108data[1105] = { "id":1105, 0:"zmeso",  1:"Mole Concentration of Mesozooplankton expressed as Carbon in Sea Water at Surface", 2:"mole_concentration_of_mesozooplankton_expressed_as_carbon_in_sea_water", 3:"'carbon  concentration from mesozooplankton (20-200 um) component alone'", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     1109data[1106] = { "id":1106, 0:"rlucs",  1:"Upwelling Clear-Sky Longwave Radiation", 2:"upwelling_longwave_flux_in_air_assuming_clear_sky", 3:"'Includes also the fluxes at the surface and TOA.'", 4:"CMIP5_cfMon" }; 
     1110data[1107] = { "id":1107, 0:"dms",  1:"Dimethyl Sulphide Concentration at Surface", 2:"mole_concentration_of_dimethyl_sulfide_in_sea_water", 3:"'unset'", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     1111data[1108] = { "id":1108, 0:"tran",  1:"Transpiration", 2:"transpiration_flux", 3:"'unset'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     1112data[1109] = { "id":1109, 0:"phymisc",  1:"Mole Concentration of Miscellaneous Phytoplankton expressed as Carbon in Sea Water at Surface", 2:"mole_concentration_of_miscellaneous_phytoplankton_expressed_as_carbon_in_sea_water", 3:"'carbon concentration from additional phytoplankton component alone'", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     1113data[1110] = { "id":1110, 0:"tnsclwas",  1:"Tendency of Mass Fraction of Stratiform Cloud Liquid Water due to Accretion to Snow", 2:"tendency_of_mass_fraction_of_stratiform_cloud_liquid_water_in_air_due_to_accretion_to_snow", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     1114data[1111] = { "id":1111, 0:"od870aer",  1:"Ambient Aerosol Optical Thickness at 870 nm", 2:"atmosphere_optical_thickness_due_to_ambient_aerosol", 3:"'AOD from the ambient aerosols (i.e., includes aerosol water).  Does not include AOD from stratospheric aerosols if these are prescribed but includes other possible background aerosol types.  Needs a comment attribute 'wavelength: 870 nm'.'", 4:"CCMI1_monthly" }; 
     1115data[1112] = { "id":1112, 0:"ta1000",  1:"Air Temperature at 1000 hPa", 2:"air_temperature", 3:"'Temperature on the 1000 hPa surface'", 4:"CCMI1_daily" }; 
     1116data[1113] = { "id":1113, 0:"uas",  1:"Eastward Near-Surface Wind", 2:"eastward_wind", 3:"'unset'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites,CMIP5_day,SPECS_6hr,SPECS_Amon,SPECS_day" }; 
     1117data[1114] = { "id":1114, 0:"zmch2o",  1:"Zonal Mean CH2O Volume Mixing Ratio", 2:"mole_fraction_of_formaldehyde_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     1118data[1115] = { "id":1115, 0:"ridgice",  1:"Sea Ice Ridging Rate", 2:"tendency_of_sea_ice_area_fraction_due_to_ridging", 3:"'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.   Reported as ''missing'' in regions free of sea ice.'", 4:"CMIP5_OImon,SPECS_OImon" }; 
     1119data[1116] = { "id":1116, 0:"lwtoaasdust",  1:"All-Sky LW-RF Dust at TOA", 2:"unset", 3:"'proposed name: toa_instantaneous_longwave_forcing_due_to_dust_ambient_aerosol'", 4:"CCMI1_monthly" }; 
     1120data[1117] = { "id":1117, 0:"grpllsprof",  1:"Stratiform Graupel Flux", 2:"large_scale_graupel_flux", 3:"'unset'", 4:"CMIP5_cf3hr" }; 
     1121data[1118] = { "id":1118, 0:"vmrn",  1:"Atomic N Volume Mixing Ratio", 2:"mole_fraction_of_atomic_nitrogen_in_air", 3:"''", 4:"CCMI1_daily" }; 
     1122data[1119] = { "id":1119, 0:"chldiat",  1:"Diatom Chlorophyll Mass Concentration at Surface", 2:"mass_concentration_of_diatoms_expressed_as_chlorophyll_in_sea_water", 3:"'chlorophyll from diatom phytoplankton component concentration alone'", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     1123data[1120] = { "id":1120, 0:"fbddtdisi",  1:"Rate of Change of Dissolved Inorganic Silicate due to Biological Activity", 2:"tendency_of_ocean_mole_content_of_dissolved_inorganic_silicon_due_to_biological_processes", 3:"'vertical integral of net biological terms in time rate of change of dissolved inorganic silicate'", 4:"CMIP5_Omon" }; 
     1124data[1121] = { "id":1121, 0:"phyfe",  1:"Phytoplankton Iron Concentration at Surface", 2:"mole_concentration_of_phytoplankton_expressed_as_iron_in_sea_water", 3:"'sum of phytoplankton iron component concentrations'", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     1125data[1122] = { "id":1122, 0:"zmclo",  1:"Zonal Mean ClO Volume Mixing Ratio", 2:"mole_fraction_of_chlorine_monoxide_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     1126data[1123] = { "id":1123, 0:"bmelt",  1:"Rate of Melt at Sea Ice Base", 2:"tendency_of_sea_ice_amount_due_to_basal_melting", 3:"'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.  Reported as 0.0 in regions free of sea ice.'", 4:"CMIP5_OImon" }; 
     1127data[1124] = { "id":1124, 0:"tasmin",  1:"Daily Minimum Near-Surface Air Temperature", 2:"air_temperature", 3:"'monthly mean of the daily-minimum near-surface air temperature.'", 4:"CMIP5_Amon,SPECS_Amon" }; 
     1128data[1125] = { "id":1125, 0:"physi",  1:"Phytoplankton Silica Concentration at Surface", 2:"mole_concentration_of_phytoplankton_expressed_as_silicon_in_sea_water", 3:"'sum of phytoplankton silica component concentrations'", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     1129data[1126] = { "id":1126, 0:"drynh4",  1:"Dry Deposition Rate of NH4", 2:"tendency_of_atmosphere_mass_content_of_ammonium_dry_aerosol_due_to_dry_deposition", 3:"'unset'", 4:"CMIP5_aero" }; 
     1130data[1127] = { "id":1127, 0:"sic",  1:"Sea Ice Area Fraction", 2:"sea_ice_area_fraction", 3:"'fraction of grid cell covered by sea ice.'", 4:"CCMI1_daily" }; 
     1131data[1128] = { "id":1128, 0:"tntscpbl",  1:"Tendency of Air Temperature due to Stratiform Cloud Condensation and Evaporation", 2:"tendency_of_air_temperature_due_to_stratiform_cloud_and_precipitation_and_boundary_layer_mixing", 3:"'unset'", 4:"CMIP5_cfSites" }; 
     1132data[1129] = { "id":1129, 0:"cldnvi",  1:"Column Integrated Cloud Droplet Number", 2:"atmosphere_number_content_of_cloud_droplets", 3:"'Droplets are liquid only.  Values are weighted by liquid cloud fraction in each layer when vertically integrating, and for monthly means the samples are weighted by total liquid cloud fraction (as seen from TOA).'", 4:"CMIP5_aero" }; 
     1133data[1130] = { "id":1130, 0:"sfmmraernh4",  1:"Aerosol Ammonium Mass Mixing Ratio in the Lowest Model Layer", 2:"mass_fraction_of_ammonium_dry_aerosol_in_air", 3:"'Aerosol NH4'", 4:"CCMI1_daily" }; 
     1134data[1131] = { "id":1131, 0:"reffclws",  1:"Hydrometeor Effective Radius of Stratiform Cloud Liquid Water", 2:"effective_radius_of_stratiform_cloud_liquid_water_particle", 3:"'This is defined as the in-cloud ratio of the third moment over the second moment of the particle size distribution (obtained by considering only the cloudy portion of the grid cell).'", 4:"CMIP5_cf3hr" }; 
     1135data[1132] = { "id":1132, 0:"intpcalcite",  1:"Calcite Production", 2:"tendency_of_ocean_mole_content_of_calcite_expressed_as_carbon_due_to_biological_production", 3:"'Vertically integrated calcite production'", 4:"CMIP5_Omon" }; 
     1136data[1133] = { "id":1133, 0:"wfcorr",  1:"Water Flux Correction", 2:"water_flux_correction", 3:"'Positive flux implies correction adds water to ocean.'", 4:"CMIP5_Omon" }; 
     1137data[1134] = { "id":1134, 0:"hfss",  1:"Surface Upward Sensible Heat Flux", 2:"surface_upward_sensible_heat_flux", 3:"'This is the 3-hour mean flux.'", 4:"CMIP5_3hr" }; 
     1138data[1135] = { "id":1135, 0:"vmre90",  1:"e90 Volume Mixing Ratio", 2:"unset", 3:"'Synthetic tracer e90 has 90-day e-fold everywhere; emitted uniformly (g/m2) over all land/ocean/ice; see Prather et al. 2011 JGR 116, D04306, doi:10.1029/2010JD014939; any normalization can be used if defined, but UCI chooses: mol.wt = 28.97(dry air), emissions = 2074 Tg/y (kg/m2/s) , thus steady-state mean mole fraction = 100 ppb (for ECMWF dry air mass).'", 4:"CCMI1_daily,CCMI1_monthly" }; 
     1139data[1136] = { "id":1136, 0:"treeFrac",  1:"Tree Cover Fraction", 2:"area_fraction", 3:"'fraction of entire grid cell  that is covered by trees.'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     1140data[1137] = { "id":1137, 0:"hfsithermds",  1:"Heat Flux into Sea Water due to Sea Ice Thermodynamics", 2:"heat_flux_into_sea_water_due_to_sea_ice_thermodynamics", 3:"'unset'", 4:"CMIP5_Omon" }; 
     1141data[1138] = { "id":1138, 0:"hfsifrazil2d",  1:"Heat Flux into Sea Water due to Frazil Ice Formation", 2:"heat_flux_into_sea_water_due_to_freezing_of_frazil_ice", 3:"'unset'", 4:"CMIP5_Omon" }; 
     1142data[1139] = { "id":1139, 0:"prc",  1:"Convective Precipitation", 2:"convective_precipitation_flux", 3:"'at surface.  This is a 3-hour mean convective precipitation flux.'", 4:"CMIP5_3hr" }; 
     1143data[1140] = { "id":1140, 0:"ang4487aer",  1:"Angstrom Exponent 440/870nm", 2:"angstrom_exponent_of_ambient_aerosol_in_air", 3:"'general standard name is angstrom_exponent_of_ambient_aerosol_in_air'", 4:"CCMI1_monthly" }; 
     1144data[1141] = { "id":1141, 0:"reffsnowc",  1:"Hydrometeor Effective Radius of Convective Snowfall", 2:"effective_radius_of_convective_cloud_snow_particle", 3:"'This is defined as the in-cloud ratio of the third moment over the second moment of the particle size distribution (obtained by considering only the cloudy portion of the grid cell).'", 4:"CMIP5_cf3hr" }; 
     1145data[1142] = { "id":1142, 0:"ch3ccl2fsmtbrdn",  1:"Tendency of Middle Atmosphere Burden of CH3CCl2F", 2:"unset", 3:"'total yearly averaged stratospheric and mesospheric loss'", 4:"CCMI1_annual" }; 
     1146data[1143] = { "id":1143, 0:"dryso2",  1:"Dry Deposition Rate of SO2", 2:"tendency_of_atmosphere_mass_content_of_sulfur_dioxide_due_to_dry_deposition", 3:"'unset'", 4:"CMIP5_aero" }; 
     1147data[1144] = { "id":1144, 0:"vmrdms",  1:"DMS Volume Mixing Ratio", 2:"mole_fraction_of_dimethyl_sulfide_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     1148data[1145] = { "id":1145, 0:"emianox",  1:"Anthropogenic Emission Rate of NOx", 2:"unset", 3:"'NOx=NO+NO2, Includes agricultural waste burning but no other biomass burning. proposed name: tendency_of_atmosphere_mass_content_of_anthropogenic_nox_expressed_as_nitrogen_due_to_emission. Integrate 3D emission field vertically to 2d field.'", 4:"CCMI1_monthly" }; 
     1149data[1146] = { "id":1146, 0:"vas",  1:"Northward Near-Surface Wind Velocity", 2:"northward_wind", 3:"'unset'", 4:"SPECS_day" }; 
     1150data[1147] = { "id":1147, 0:"dryno2",  1:"Dry Deposition Rate of NO2", 2:"tendency_of_atmosphere_mass_content_of_nitrogen_dioxide_due_to_dry_deposition", 3:"'dry deposition includes gravitational settling, impact scavenging, and turbulent deposition.'", 4:"CCMI1_monthly" }; 
     1151data[1148] = { "id":1148, 0:"intparag",  1:"Aragonite Production", 2:"tendency_of_ocean_mole_content_of_aragonite_expressed_as_carbon_due_to_biological_production", 3:"'Vertically integrated aragonite production'", 4:"CMIP5_Omon" }; 
     1152data[1149] = { "id":1149, 0:"o3loss",  1:"O3 Destruction Rate", 2:"unset", 3:"'ONLY provide the sum of the following reactions: (i) O(1D)+H2O; (ii) O3+HO2; (iii) O3+OH; (iv) O3+alkenes (isoprene, ethene,...)'", 4:"CCMI1_monthly" }; 
     1153data[1150] = { "id":1150, 0:"zmcl2o2",  1:"Zonal Mean ClOOCl Volume Mixing Ratio", 2:"mole_fraction_of_dichlorine_peroxide_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     1154data[1151] = { "id":1151, 0:"fddtdic",  1:"Rate of Change of Net Dissolved Inorganic Carbon", 2:"tendency_of_ocean_mole_content_of_dissolved_inorganic_carbon", 3:"'unset'", 4:"CMIP5_Omon" }; 
     1155data[1152] = { "id":1152, 0:"prlsns",  1:"Stratiform Snowfall Flux", 2:"large_scale_snowfall_flux", 3:"'large-scale precipitation of all forms of water in the solid phase.'", 4:"CMIP5_cf3hr" }; 
     1156data[1153] = { "id":1153, 0:"rlds",  1:"Surface Net Downward Longwave Radiation", 2:"surface_net_downward_longwave_flux", 3:"''This is defined as ''where ice_free_sea over sea''''", 4:"CMIP5_Omon" }; 
     1157data[1154] = { "id":1154, 0:"tro3",  1:"Mole Fraction of O3", 2:"mole_fraction_of_ozone_in_air", 3:"'unset'", 4:"CMIP5_Amon" }; 
     1158data[1155] = { "id":1155, 0:"sfriver",  1:"Salt Flux into Sea Water from Rivers", 2:"salt_flux_into_sea_water_from_rivers", 3:"'unset'", 4:"CMIP5_Omon" }; 
     1159data[1156] = { "id":1156, 0:"arag",  1:"Aragonite Concentration at Surface", 2:"mole_concentration_of_aragonite_expressed_as_carbon_in_sea_water", 3:"'sum of particulate aragonite components (e.g. Phytoplankton, Detrital, etc.)'", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     1160data[1157] = { "id":1157, 0:"co2mass",  1:"Total Atmospheric Mass of CO2", 2:"atmosphere_mass_of_carbon_dioxide", 3:"'unset'", 4:"CMIP5_Amon" }; 
     1161data[1158] = { "id":1158, 0:"tas",  1:"Near-Surface Air Temperature", 2:"air_temperature", 3:"'mean near-surface (usually, 2 meter) air temperature.'", 4:"CORDEX_3h" }; 
     1162data[1159] = { "id":1159, 0:"frfe",  1:"Iron Loss to Sediments", 2:"tendency_of_ocean_mole_content_of_iron_due_to_sedimentation", 3:"'unset'", 4:"CMIP5_Omon" }; 
     1163data[1160] = { "id":1160, 0:"rsds",  1:"Surface Downwelling Shortwave Radiation", 2:"surface_downwelling_shortwave_flux_in_air", 3:"'unset'", 4:"CMIP5_Amon" }; 
     1164data[1161] = { "id":1161, 0:"tnsclias",  1:"Tendency of Mass Fraction of Stratiform Cloud Ice due to Accretion to Snow", 2:"tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_accretion_to_snow", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     1165data[1162] = { "id":1162, 0:"sfcWind",  1:"Near-Surface Wind Speed", 2:"wind_speed", 3:"'This is the mean of the speed, not the speed computed from the mean u and v components of wind'", 4:"CMIP5_Amon,CMIP5_cf3hr,CMIP5_cfSites" }; 
     1166data[1163] = { "id":1163, 0:"tnsccwacs",  1:"Tendency of Mass Fraction of Stratiform Cloud Condensed Water due to Autoconversion to Snow", 2:"tendency_of_mass_fraction_of_stratiform_cloud_condensed_water_in_air_due_to_autoconversion_to_snow", 3:"'condensed water includes both liquid and ice.'", 4:"CMIP5_cfMon" }; 
     1167data[1164] = { "id":1164, 0:"clt",  1:"Total Cloud Fraction", 2:"cloud_area_fraction", 3:"'for the whole atmospheric column, as seen from the surface or the top of the atmosphere. Includes both large-scale and convective cloud.'", 4:"CMIP5_cfDay,CMIP5_day" }; 
     1168data[1165] = { "id":1165, 0:"reffclws",  1:"Stratiform Cloud Droplet Effective Radius", 2:"effective_radius_of_stratiform_cloud_liquid_water_particle", 3:"'Droplets are liquid.  The effective radius is defined as the ratio of the third moment over the second moment of the particle size distribution and the time-mean should be calculated, weighting the individual samples by the cloudy fraction of the grid cell.'", 4:"CMIP5_aero" }; 
     1169data[1166] = { "id":1166, 0:"expn",  1:"Sinking Particulate Organic Nitrogen Flux", 2:"sinking_mole_flux_of_particulate_organic_nitrogen_in_sea_water", 3:"'unset'", 4:"CMIP5_Oyr" }; 
     1170data[1167] = { "id":1167, 0:"ang4467aer",  1:"Angstrom Exponent 440/670nm", 2:"angstrom_exponent_of_ambient_aerosol_in_air", 3:"'general standard name is angstrom_exponent_of_ambient_aerosol_in_air'", 4:"CCMI1_monthly" }; 
     1171data[1168] = { "id":1168, 0:"sund",  1:"Duration of Sunshine", 2:"duration_of_sunshine", 3:"''", 4:"CORDEX_3h,CORDEX_day,CORDEX_mon,CORDEX_sem" }; 
     1172data[1169] = { "id":1169, 0:"loadno3",  1:"Load of NO3", 2:"atmosphere_mass_content_of_nitrate_dry_aerosol", 3:"'unset'", 4:"CMIP5_aero" }; 
     1173data[1170] = { "id":1170, 0:"chepasoa",  1:"Production Rate of Anthropogenic Dry Aerosol Secondary Organic Matter", 2:"unset", 3:"'If model lumps SOA emissions with POA, then the sum of POA and SOA emissions is reported as POA emissions.  'mass' refers to the mass of primary organic matter, not mass of organic carbon alone. proposed name: tendency_of_atmosphere_mass_content_of_anthropogenic_secondary_particulate_organic_matter_dry_aerosol_due_to_net_chemical_production.  Used instead of emi_asoa in original ACCMIP Excel spreadsheet. That variable had notes: This can be a pseudo-emission flux as used in AEROCOM (Dentener et al, ACP, 2006) or the net.'", 4:"CCMI1_monthly" }; 
     1174data[1171] = { "id":1171, 0:"mrro",  1:"Total Runoff", 2:"runoff_flux", 3:"''the total runoff (including ''drainage'' through the base of the soil model) leaving the land portion of the grid cell.''", 4:"CMIP5_Lmon" }; 
     1175data[1172] = { "id":1172, 0:"pcalc",  1:"Calcite Production", 2:"tendency_of_mole_concentration_of_calcite_expressed_as_carbon_in_sea_water_due_to_biological_production", 3:"'unset'", 4:"CMIP5_Oyr" }; 
     1176data[1173] = { "id":1173, 0:"zmch2br2",  1:"Zonal Mean CH2Br2 Volume Mixing Ratio", 2:"unset", 3:"''", 4:"CCMI1_monthly" }; 
     1177data[1174] = { "id":1174, 0:"hfx",  1:"Ocean Heat X Transport", 2:"ocean_heat_x_transport", 3:"'unset'", 4:"CMIP5_Omon" }; 
     1178data[1175] = { "id":1175, 0:"zg10",  1:"Geopotential Height at 10 hPa", 2:"geopotential_height", 3:"'Geopotential height on the 10 hPa surface'", 4:"CCMI1_daily" }; 
     1179data[1176] = { "id":1176, 0:"rMaint",  1:"Carbon Mass Flux into Atmosphere due to Maintenance Autotrophic Respiration on Land", 2:"surface_upward_carbon_mass_flux_due_to_plant_respiration_for_biomass_maintenance", 3:"'unset'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     1180data[1177] = { "id":1177, 0:"hfnorth",  1:"Northward Ocean Heat Transport", 2:"northward_ocean_heat_transport", 3:"'unset'", 4:"CMIP5_Omon" }; 
     1181data[1178] = { "id":1178, 0:"tas",  1:"Near-Surface Air Temperature", 2:"air_temperature", 3:"'daily-mean near-surface (usually, 2 meter) air temperature.'", 4:"CORDEX_day,CORDEX_mon,CORDEX_sem" }; 
     1182data[1179] = { "id":1179, 0:"loadss",  1:"Load of Seasalt", 2:"atmosphere_mass_content_of_seasalt_dry_aerosol", 3:"'unset'", 4:"CMIP5_aero" }; 
     1183data[1180] = { "id":1180, 0:"zmcbrclf2",  1:"Zonal mean CBrClF2 Volume Mixing Ratio", 2:"mole_fraction_of_halon1211_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     1184data[1181] = { "id":1181, 0:"zg",  1:"Geopotential Height", 2:"geopotential_height", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }; 
     1185data[1182] = { "id":1182, 0:"mrsofc",  1:"Capacity of Soil to Store Water", 2:"soil_moisture_content_at_field_capacity", 3:"''''where land'': divide the total water holding capacity of all the soil in the grid cell by the land area in the grid cell;  report as ''missing'' where the land fraction is 0.''", 4:"CORDEX_fx" }; 
     1186data[1183] = { "id":1183, 0:"cosmtbrdn",  1:"Tendency of Middle Atmosphere Burden of CO", 2:"tendency_of_middle_atmosphere_moles_of_carbon_monoxide", 3:"'total yearly averaged stratospheric and mesospheric loss'", 4:"CCMI1_annual" }; 
     1187data[1184] = { "id":1184, 0:"sfmmrbc",  1:"BC Mass Mixing Ratio in the Lowest Model Layer", 2:"mass_fraction_of_black_carbon_dry_aerosol_in_air", 3:"'BC'", 4:"CCMI1_daily" }; 
     1188data[1185] = { "id":1185, 0:"cli",  1:"Mass Fraction of Cloud Ice", 2:"mass_fraction_of_cloud_ice_in_air", 3:"'Includes both large-scale and convective cloud. This is the mass of  cloud ice  in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.'", 4:"CMIP5_cfSites" }; 
     1189data[1186] = { "id":1186, 0:"sfvmrco",  1:"CO Volume Mixing Ratio in the Lowest Model Layer", 2:"mole_fraction_of_carbon_monoxide_in_air", 3:"''", 4:"CCMI1_hourly" }; 
     1190data[1187] = { "id":1187, 0:"zmzg",  1:"Zonal Mean Geopotential Height", 2:"geopotential_height", 3:"''", 4:"CCMI1_daily,CCMI1_monthly" }; 
     1191data[1188] = { "id":1188, 0:"agessc",  1:"Sea Water Age Since Surface Contact", 2:"sea_water_age_since_surface_contact", 3:"'unset'", 4:"CMIP5_Omon" }; 
     1192data[1189] = { "id":1189, 0:"drydust",  1:"Dry Deposition Rate of Dust", 2:"tendency_of_atmosphere_mass_content_of_dust_dry_aerosol_due_to_dry_deposition", 3:"'unset'", 4:"CMIP5_aero" }; 
     1193data[1190] = { "id":1190, 0:"toffset",  1:"Offset Time", 2:"time", 3:"''this ''offset time'' should be added to the value stored in the ''time dimension'' to get the actual time.  This actual time is the time (UTC) of the corresponding point in the satellite orbit used to extract the model data.''", 4:"CMIP5_cf3hr" }; 
     1194data[1191] = { "id":1191, 0:"lossro2viano3",  1:"Reaction Rate of RO2+NO3", 2:"unset", 3:"'3-d distribution of sum of RO2+NO3 reaction fluxes. R refers to the organic peroxy radical pool.'", 4:"CCMI1_monthly" }; 
     1195data[1192] = { "id":1192, 0:"sftgif",  1:"Fraction of Grid Cell Covered with Glacier", 2:"land_ice_area_fraction", 3:"'fraction of grid cell occupied by ''permanent'' ice (i.e., glaciers).  If time varying, report annual values for each year of simulation. For atmospheres with more than 1 mesh (e.g., staggered grids), report areas that apply to surface vertical fluxes of energy.'", 4:"CORDEX_fx" }; 
     1196data[1193] = { "id":1193, 0:"intpdiaz",  1:"Net Primary Mole Productivity of Carbon by Diazotrophs", 2:"net_primary_mole_productivity_of_carbon_by_diazotrophs", 3:"'unset'", 4:"CMIP5_Omon" }; 
     1197data[1194] = { "id":1194, 0:"conccn",  1:"Aerosol Number Concentration", 2:"number_concentration_of_ambient_aerosol_in_air", 3:"'unset'", 4:"CMIP5_aero" }; 
     1198data[1195] = { "id":1195, 0:"clwvi",  1:"Condensed Water Path", 2:"atmosphere_cloud_condensed_water_content", 3:"'calculate mass of condensed (liquid + ice) water in the column divided by the area of the column (not just the area of the cloudy portion of the column). This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.'", 4:"CMIP5_cfDay" }; 
     1199data[1196] = { "id":1196, 0:"grassFrac",  1:"Natural Grass Fraction", 2:"area_fraction", 3:"'fraction of entire grid cell that is covered by natural grass.'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     1200data[1197] = { "id":1197, 0:"reffsnows",  1:"Hydrometeor Effective Radius of Stratiform Snowfall", 2:"effective_radius_of_stratiform_cloud_snow_particle", 3:"'This is defined as the in-cloud ratio of the third moment over the second moment of the particle size distribution (obtained by considering only the cloudy portion of the grid cell).'", 4:"CMIP5_cf3hr" }; 
     1201data[1198] = { "id":1198, 0:"sltnorth",  1:"Northward Ocean Salt Transport", 2:"northward_ocean_salt_transport", 3:"'unset'", 4:"SPECS_Omon" }; 
     1202data[1199] = { "id":1199, 0:"zmno",  1:"Zonal Mean NO Volume Mixing Ratio", 2:"mole_fraction_of_nitrogen_monoxide_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     1203data[1200] = { "id":1200, 0:"reffrainc",  1:"Hydrometeor Effective Radius of Convective Rainfall", 2:"effective_radius_of_convective_cloud_rain_particle", 3:"'This is defined as the in-cloud ratio of the third moment over the second moment of the particle size distribution (obtained by considering only the cloudy portion of the grid cell).'", 4:"CMIP5_cf3hr" }; 
     1204data[1201] = { "id":1201, 0:"tos",  1:"Sea Surface Temperature", 2:"sea_surface_temperature", 3:"''this may differ from ''surface temperature'' in regions of sea ice.''", 4:"CMIP5_Omon" }; 
     1205data[1202] = { "id":1202, 0:"photo1d",  1:"Photolysis Rate of O3 to O1D", 2:"unset", 3:"'proposed name: photolysis_rate_of_ozone_to_O1D'", 4:"CCMI1_monthly" }; 
     1206data[1203] = { "id":1203, 0:"clwvi",  1:"Condensed Water Path", 2:"atmosphere_cloud_condensed_water_content", 3:"'calculate mass of condensed (liquid + ice) water in the column divided by the area of the column (not just the area of the cloudy portion of the column). Include precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.'", 4:"CORDEX_6h,CORDEX_day" }; 
     1207data[1204] = { "id":1204, 0:"od550aer",  1:"Ambient Aerosol Optical Thickness at 550 nm", 2:"atmosphere_optical_thickness_due_to_ambient_aerosol", 3:"'AOD from the ambient aerosls (i.e., includes aerosol water).  Does not include AOD from stratospheric aerosols if these are prescribed but includes other possible background aerosol types.'", 4:"CMIP5_aero" }; 
     1208data[1205] = { "id":1205, 0:"pr",  1:"Precipitation", 2:"precipitation_flux", 3:"'at surface; includes both liquid and solid phases from all types of clouds (both large-scale and convective)'", 4:"CCMI1_daily" }; 
     1209data[1206] = { "id":1206, 0:"cfcl3brdn",  1:"Atmospheric Burden of CFC-11", 2:"atmosphere_moles_of_cfc11", 3:"'total yearly average burden'", 4:"CCMI1_annual" }; 
     1210data[1207] = { "id":1207, 0:"parag",  1:"Aragonite Production", 2:"tendency_of_mole_concentration_of_aragonite_expressed_as_carbon_in_sea_water_due_to_biological_production", 3:"'unset'", 4:"CMIP5_Oyr" }; 
     1211data[1208] = { "id":1208, 0:"vmrnh50",  1:"nh_50 Volume Mixing Ratio", 2:"unset", 3:"'Fixed surface layer mixing ratio over latitudes 30-50N (100ppbv), uniform fixed 50-day exponential decay.'", 4:"CCMI1_monthly" }; 
     1212data[1209] = { "id":1209, 0:"gsto",  1:"Stomatal Conductance of Water Vapour", 2:"unset", 3:"'Only for year 2006.  Full units are mmol H2O/m^2 leaf area/sec.'", 4:"CCMI1_hourly" }; 
     1213data[1210] = { "id":1210, 0:"nppWood",  1:"Carbon Mass Flux due to NPP Allocation to Wood", 2:"net_primary_productivity_of_carbon_accumulated_in_wood", 3:"'This is the rate of carbon uptake by wood due to NPP'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     1214data[1211] = { "id":1211, 0:"ialb",  1:"Sea Ice Albedo", 2:"sea_ice_albedo", 3:"''Reported as ''missing'' if there is no sunlight or if a region is free of sea ice. ''", 4:"CMIP5_OImon" }; 
     1215data[1212] = { "id":1212, 0:"n2oglobal",  1:"Global Mean Mole Fraction of N2O", 2:"mole_fraction_of_nitrous_oxide_in_air", 3:"'unset'", 4:"CMIP5_Amon" }; 
     1216data[1213] = { "id":1213, 0:"mlotstsq",  1:"Square of Ocean Mixed Layer Thickness Defined by Sigma T", 2:"square_of_ocean_mixed_layer_thickness_defined_by_sigma_t", 3:"'unset'", 4:"CMIP5_Omon,SPECS_Omon" }; 
     1217data[1214] = { "id":1214, 0:"dcalc",  1:"Calcite Dissolution", 2:"tendency_of_mole_concentration_of_calcite_expressed_as_carbon_in_sea_water_due_to_dissolution", 3:"'unset'", 4:"CMIP5_Oyr" }; 
     1218data[1215] = { "id":1215, 0:"vmrpan",  1:"PAN Volume Mixing Ratio", 2:"mole_fraction_of_peroxyacetyl_nitrate_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     1219data[1216] = { "id":1216, 0:"vas",  1:"Northward Near-Surface Wind", 2:"northward_wind", 3:"'near-surface (usually, 10 meters) northward component of wind.'", 4:"CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem" }; 
     1220data[1217] = { "id":1217, 0:"swtoacsdust",  1:"Clear-Sky SW-RF Dust at TOA", 2:"unset", 3:"'proposed name: toa_instantaneous_shortwave_forcing_due_to_dust_ambient_aerosol_assuming_clear_sky'", 4:"CCMI1_monthly" }; 
     1221data[1218] = { "id":1218, 0:"tnta",  1:"Tendency of Air Temperature due to Advection", 2:"tendency_of_air_temperature_due_to_advection", 3:"'unset'", 4:"CMIP5_cfMon,CMIP5_cfSites" }; 
     1222data[1219] = { "id":1219, 0:"prodo3viaho2",  1:"Chemical Production Rate of O3 via HO2+NO", 2:"unset", 3:"'proposed name: tendency_of_mole_concentration_of_ozone_due_to_chemical_production_by_HO2_plus_NO'", 4:"CCMI1_monthly" }; 
     1223data[1220] = { "id":1220, 0:"prsn",  1:"Surface Snowfall Rate into the Sea Ice Portion of the Grid Cell", 2:"snowfall_flux", 3:"'where sea ice over sea: this is computed as the total mass per unit time of solid-phase precipitation falling 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).  Reported as 0. in regions free of sea ice. (Snowfall flux includes all types of solid-phase precipitation.)'", 4:"CMIP5_OImon" }; 
     1224data[1221] = { "id":1221, 0:"ch3ccl3tbrdn",  1:"Tendency of Atmospheric Burden of CH3CCl3", 2:"tendency_of_atmosphere_moles_of_hcc140a", 3:"'total yearly averaged atmospheric loss'", 4:"CCMI1_annual" }; 
     1225data[1222] = { "id":1222, 0:"zmcfcl3",  1:"Zonal Mean CFCl3 Volume Mixing Ratio", 2:"mole_fraction_of_cfc11_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     1226data[1223] = { "id":1223, 0:"cSoilFast",  1:"Carbon Mass in Fast Soil Pool", 2:"fast_soil_pool_carbon_content", 3:"'fast is meant as lifetime of less than 10 years for  reference climate conditions (20 C, no water limitations).'", 4:"CMIP5_Lmon,SPECS_Lmon" }; 
     1227data[1224] = { "id":1224, 0:"prw",  1:"Water Vapor Path", 2:"atmosphere_water_vapor_content", 3:"'vertically integrated for a column'", 4:"CORDEX_6h,CORDEX_day" }; 
     1228data[1225] = { "id":1225, 0:"hfsnthermds2d",  1:"Heat Flux into Sea Water due to Snow Thermodynamics", 2:"heat_flux_into_sea_water_due_to_snow_thermodynamics", 3:"'unset'", 4:"CMIP5_Omon" }; 
     1229data[1226] = { "id":1226, 0:"vmrnh50w",  1:"nh_50w Volume Mixing Ratio", 2:"unset", 3:"'Fixed surface layer mixing ratio over latitudes 30-50N (100ppbv), uniform fixed 50-day exponential decay, wet removal as  HNO3.'", 4:"CCMI1_monthly" }; 
     1230data[1227] = { "id":1227, 0:"mrro",  1:"Total Runoff", 2:"runoff_flux", 3:"''compute the total runoff (including ''drainage'' through the base of the soil model) leaving the land portion of the grid cell.''", 4:"CORDEX_6h" }; 
     1231data[1228] = { "id":1228, 0:"rld",  1:"Downwelling Longwave Radiation", 2:"downwelling_longwave_flux_in_air", 3:"'unset'", 4:"CMIP5_cfSites" }; 
     1232data[1229] = { "id":1229, 0:"clw",  1:"Mass Fraction of Cloud Liquid Water", 2:"mass_fraction_of_cloud_liquid_water_in_air", 3:"'Includes both large-scale and convective cloud.  Calculate as the mass of cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cells. Precipitating hydrometeors are included ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.'", 4:"CMIP5_Amon" }; 
     1233data[1230] = { "id":1230, 0:"fddtdisi",  1:"Rate of Change of Net Dissolved Inorganic Silicate", 2:"tendency_of_ocean_mole_content_of_dissolved_inorganic_silicon", 3:"'vertical integral of net time rate of change of dissolved inorganic silicate'", 4:"CMIP5_Omon" }; 
     1234data[1231] = { "id":1231, 0:"zmch4",  1:"Zonal Mean CH4 Volume Mixing Ratio", 2:"mole_fraction_of_methane_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     1235data[1232] = { "id":1232, 0:"wetss",  1:"Wet Deposition Rate of Seasalt", 2:"tendency_of_atmosphere_mass_content_of_seasalt_dry_aerosol_due_to_wet_deposition", 3:"''", 4:"CCMI1_monthly" }; 
     1236data[1233] = { "id":1233, 0:"vmrbry",  1:"Total Inorganic Bromine (Bry) Volume Mixing Ratio", 2:"mole_fraction_of_total_inorganic_bromine_in_air", 3:"'Total family (the sum of all appropriate species in the model) ; list the species in the netCDF header, e.g. Bry = Br + BrO + HOBr + HBr + BrONO2 + BrCl.  Definition: Total inorganic bromine (e.g., HBr and inorganic bromine oxides and radicals (e.g., BrO, atomic bromine (Br), bromine nitrate (BrONO2)) resulting from degradation of bromine-containing organic source gases (halons, methyl bromide, VSLS), and natural inorganic bromine sources (e.g., volcanoes, sea salt, and other aerosols).'", 4:"CCMI1_daily" }; 
     1237data[1234] = { "id":1234, 0:"ta500",  1:"Air Temperature", 2:"air_temperature", 3:"'unset'", 4:"CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem" }; 
     1238data[1235] = { "id":1235, 0:"chlmisc",  1:"Other Phytoplankton Chlorophyll Mass Concentration at Surface", 2:"mass_concentration_of_miscellaneous_phytoplankton_expressed_as_chlorophyll_in_sea_water", 3:"'chlorophyll from additional phytoplankton component concentrations alone'", 4:"CMIP5_Omon,CMIP5_Oyr" }; 
     1239data[1236] = { "id":1236, 0:"emibisop",  1:"Total Emission Rate of Biogenic Isoprene", 2:"unset", 3:"''", 4:"CCMI1_monthly" }; 
     1240data[1237] = { "id":1237, 0:"cfadDbze94",  1:"CloudSat Radar Reflectivity CFAD", 2:"histogram_of_equivalent_reflectivity_factor_over_height_above_reference_ellipsoid", 3:"'CFADs (Cloud Frequency Altitude Diagrams) are joint height - radar reflectivity (or lidar scattering ratio) distributions.'", 4:"CMIP5_cf3hr,CMIP5_cfOff" }; 
     1241data[1238] = { "id":1238, 0:"tntsw",  1:"Shortwave Heating Rate", 2:"tendency_of_air_temperature_due_to_shortwave_heating", 3:"'shortwave heating rates'", 4:"CCMI1_daily,CCMI1_monthly" }; 
     1242data[1239] = { "id":1239, 0:"zmno2",  1:"Zonal Mean NO2 Volume Mixing Ratio", 2:"mole_fraction_of_nitrogen_dioxide_in_air", 3:"''", 4:"CCMI1_monthly" }; 
     1243data[1240] = { "id":1240, 0:"ch3brtrtbrdn",  1:"Tendency of Tropospheric Burden of CH3Br", 2:"tendency_of_troposphere_moles_of_methyl_bromide", 3:"'total yearly averaged tropospheric loss'", 4:"CCMI1_annual" }; 
     1244data[1241] = { "id":1241, 0:"toz",  1:"Total Ozone Column", 2:"equivalent_thickness_at_stp_of_atmosphere_ozone_content", 3:"'total ozone column in DU'", 4:"CCMI1_monthly" }; 
     1245data[1242] = { "id":1242, 0:"sconcss",  1:"Surface Concentration of Seasalt", 2:"mass_concentration_of_seasalt_dry_aerosol_in_air", 3:"'mass concentration of seasalt dry aerosol in air in model lowest layer'", 4:"CMIP5_aero" }; 
     1246data[1243] = { "id":1243, 0:"fsc",  1:"Flux of Carbon Into Ocean Surface by Runoff and Sediment Dissolution", 2:"tendency_of_ocean_mole_content_of_carbon_due_to_runoff_and_sediment_dissolution", 3:"'Carbon supply to ocean through runoff and sediment dissolution (neglects gas exchange)'", 4:"CMIP5_Omon" }; 
     1247data[1244] = { "id":1244, 0:"vmrsf6",  1:"SF6 Volume Mixing Ratio", 2:"unset", 3:"'Specified using emissions from http://edgar.jrc.ec.europa.eu/datasets_grid_list.php#d. Note that these emissions are available only as annual averages (1970-2008; emissions before 1970 should be set to 0 while emissions after 2008 should be kept at their 2008 level). Monthly emissions should be built using the available annual file and assigning the value as representative of July 15. Special care should be made that the annual global integral at the model resolution matches the EDGAR generated total (available as argument from the netCDF v42 files)'", 4:"CCMI1_monthly" }; 
     1248data[1245] = { "id":1245, 0:"tpf",  1:"Permafrost Layer Thickness", 2:"permafrost_layer_thickness", 3:"'where land over land: This is the mean thickness of the permafrost layer in the land portion of the grid cell.  Reported as 0.0 in permafrost-free regions.'", 4:"CMIP5_LImon" }; 
     1249data[1246] = { "id":1246, 0:"tnsclihon",  1:"Tendency of Mass Fraction of Stratiform Cloud Ice due to Homogeneous Nucleation", 2:"tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_homogeneous_nucleation", 3:"'unset'", 4:"CMIP5_cfMon" }; 
     1250data[1247] = { "id":1247, 0:"cod",  1:"Cloud Optical Depth", 2:"atmosphere_optical_thickness_due_to_cloud", 3:"''", 4:"CCMI1_monthly" }; 
     1251data[1248] = { "id":1248, 0:"vsfcorr",  1:"Virtual Salt Flux Correction", 2:"virtual_salt_flux_correction", 3:"'unset'", 4:"CMIP5_Omon" }; 
     1252data[1249] = { "id":1249, 0:"mrros",  1:"Surface Runoff", 2:"surface_runoff_flux", 3:"'Compute the total surface runoff leaving the land portion of the grid cell.'", 4:"CORDEX_6h,CORDEX_day,CORDEX_mon,CORDEX_sem" }; 
     1253data[1250] = { "id":1250, 0:"sconcnh4",  1:"Surface Concentration of NH4", 2:"mass_concentration_of_ammonium_dry_aerosol_in_air", 3:"'Mass concentration in model lowest layer'", 4:"CMIP5_aero" }; 
     1254data[1251] = { "id":1251, 0:"od440aer",  1:"Ambient Aerosol Optical Thickness at 440 nm", 2:"atmosphere_optical_thickness_due_to_ambient_aerosol", 3:"'AOD from the ambient aerosols (i.e., includes aerosol water).  Does not include AOD from stratospheric aerosols if these are prescribed but includes other possible background aerosol types. Needs a comment attribute 'wavelength: 440 nm'.'", 4:"CCMI1_monthly" }; 
     1255data[1252] = { "id":1252, 0:"fy",  1:"Northward EPF", 2:"northward_eliassen_palm_flux_in_air", 3:"'Transformed Eulerian Mean Diagnostics Meridional component Fy of EP-flux (Fy, Fz) derived from 6hr or higher frequency fields (use daily fields or 12 hr fields if the 6 hr are not available).  Please use the definitions given by equation 3.5.3a of Andrews, Holton and Leovy text book.'", 4:"CCMI1_daily,CCMI1_monthly" }; 
     1256data[1253] = { "id":1253, 0:"vmrclono2",  1:"ClONO2 Volume Mixing Ratio", 2:"mole_fraction_of_chlorine_nitrate_in_air", 3:"''", 4:"CCMI1_daily" }; 
     1257data[1254] = { "id":1254, 0:"cf2cl2brdn",  1:"Atmospheric Burden of CFC-12", 2:"atmosphere_moles_of_cfc12", 3:"'total yearly average burden'", 4:"CCMI1_annual" }; 
     1258data[1255] = { "id":1255, 0:"hfbasindiff",  1:"Northward Ocean Heat Transport due to Diffussion", 2:"northward_ocean_heat_transport_due_to_diffusion", 3:"'unset'", 4:"CMIP5_Omon" }; 
     1259data[1256] = { "id":1256, 0:"emiahch",  1:"Total Emission of a-HCH", 2:"tendency_of_atmosphere_mass_content_of_alpha_hexachlorocyclohexane_due_to_emission", 3:"'integrate 3D emission field vertically to 2d field'", 4:"CCMI1_monthly" }; 
     1260data[1257] = { "id":1257, 0:"parasolRefl",  1:"PARASOL Reflectance", 2:"toa_bidirectional_reflectance", 3:"'Simulated reflectance from PARASOL as seen at the top of the atmosphere for 5 solar zenith angles. Valid only over ocean and for one viewing direction (viewing zenith angle of 30 degrees and relative azimuth angle 320 degrees).'", 4:"CMIP5_cf3hr,CMIP5_cfDay,CMIP5_cfMon,CMIP5_cfOff" }; 
     1261data[1258] = { "id":1258, 0:"tasmin",  1:"Daily Minimum Near-Surface Air Temperature", 2:"air_temperature", 3:"'daily-minimum near-surface (usually, 2 meter) air temperature.'", 4:"CORDEX_day,CORDEX_mon,CORDEX_sem" }; 
     1262data[1259] = { "id":1259, 0:"hno3hetprod",  1:"Ae