# Automatically generated by ./create_def.pl from database param@balthasar, do not edit #Pseudo-adiabatic potential temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 3 ; } #Total precipitation of at least 10 mm '%' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 52 ; scaleFactorOfLowerLimit = 0 ; scaledValueOfLowerLimit = 10 ; probabilityType = 3 ; typeOfStatisticalProcessing = 1 ; productDefinitionTemplateNumber = 9 ; typeOfFirstFixedSurface = 1 ; } #Total precipitation of at least 20 mm '%' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 52 ; scaledValueOfLowerLimit = 20 ; typeOfStatisticalProcessing = 1 ; productDefinitionTemplateNumber = 9 ; typeOfFirstFixedSurface = 1 ; probabilityType = 3 ; scaleFactorOfLowerLimit = 0 ; } #Stream function 'm**2 s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 4 ; } #Velocity potential 'm**2 s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 5 ; } #Potential temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 2 ; } #Wind speed 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 1 ; } #Pressure 'Pa' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 0 ; } #Convective available potential energy 'J kg**-1' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Potential vorticity 'K m**2 kg**-1 s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 14 ; } #Maximum temperature at 2 metres since last 6 hours 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 0 ; typeOfStatisticalProcessing = 2 ; typeOfFirstFixedSurface = 103 ; } #Minimum temperature at 2 metres since last 6 hours 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 0 ; typeOfStatisticalProcessing = 3 ; typeOfFirstFixedSurface = 103 ; } #Geopotential 'm**2 s**-2' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 4 ; } #Temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 0 ; } #U component of wind 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 2 ; } #V component of wind 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 3 ; } #Specific humidity 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 0 ; } #Surface pressure 'Pa' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 1 ; } #Vertical velocity 'Pa s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 8 ; } #Total column water 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 51 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Vorticity (relative) 's**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 12 ; } #Boundary layer dissipation 'J m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 20 ; } #Surface sensible heat flux 'J m**-2' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 11 ; typeOfStatisticalProcessing = 1 ; typeOfFirstFixedSurface = 1 ; } #Surface latent heat flux 'J m**-2' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 10 ; typeOfStatisticalProcessing = 1 ; typeOfFirstFixedSurface = 1 ; } #Mean sea level pressure 'Pa' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 101 ; } #Divergence 's**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 13 ; } #Geopotential Height 'gpm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 5 ; } #Relative humidity '%' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 1 ; } #10 metre U wind component 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 2 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfFirstFixedSurface = 103 ; } #10 metre V wind component 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 3 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; } #2 metre temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 103 ; } #2 metre dewpoint temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 103 ; } #Land-sea mask '(0 - 1)' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 1 ; } #Surface roughness 'm' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 1 ; } #Surface solar radiation 'J m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 9 ; typeOfStatisticalProcessing = 1 ; typeOfFirstFixedSurface = 1 ; } #Surface thermal radiation 'J m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 5 ; typeOfStatisticalProcessing = 1 ; typeOfFirstFixedSurface = 1 ; } #Top thermal radiation 'J m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 5 ; typeOfFirstFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Sunshine duration 's' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 24 ; typeOfStatisticalProcessing = 1 ; typeOfFirstFixedSurface = 1 ; } #Brightness temperature 'K' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 4 ; } #10 metre wind speed 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 1 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfFirstFixedSurface = 10 ; typeOfFirstFixedSurface = 103 ; } #Skin temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 17 ; typeOfFirstFixedSurface = 1 ; } #large scale precipitation (water) 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 47 ; } #Latent heat net flux 'W m**-2' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 10 ; } #Sensible heat net flux 'W m**-2' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 11 ; } #Heat index 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 12 ; } #Wind chill factor 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 13 ; } #Minimum dew point depression 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 14 ; } #Snow phase change heat flux 'W m**-2' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 16 ; } #Vapor pressure 'Pa' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 4 ; } #Large scale precipitation (non-convective) 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 9 ; } #Snowfall rate water equivalent 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 12 ; } #Convective snow 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 14 ; } #Large scale snow 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 15 ; } #Snow age 'day' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 17 ; } #Absolute humidity 'kg m**-3' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 18 ; } #Precipitation type 'code table (4.201)' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 19 ; } #Integrated liquid water 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 20 ; } #Condensate 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 21 ; } #Cloud mixing ratio 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 22 ; } #Ice water mixing ratio 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 23 ; } #Rain mixing ratio 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 24 ; } #Snow mixing ratio 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 25 ; } #Horizontal moisture convergence 'kg kg**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 26 ; } #Maximum relative humidity '%' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 27 ; } #Maximum absolute humidity 'kg m**-3' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 28 ; } #Total snowfall 'm' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 29 ; } #Precipitable water category 'code table (4.202)' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 30 ; } #Hail 'm' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 31 ; } #Graupel (snow pellets) 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 32 ; } #Categorical rain '(Code table 4.222)' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 33 ; } #Categorical freezing rain '(Code table 4.222)' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 34 ; } #Categorical ice pellets '(Code table 4.222)' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 35 ; } #Categorical snow '(Code table 4.222)' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 36 ; } #Convective precipitation rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 37 ; } #Horizontal moisture divergence 'kg kg**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 38 ; } #Percent frozen precipitation '%' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 39 ; } #Potential evaporation 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 40 ; } #Potential evaporation rate 'W m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 41 ; } #Snow cover '%' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 42 ; } #Rain fraction of total cloud water 'Proportion' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 43 ; } #Rime factor 'Numeric' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 44 ; } #Total column integrated rain 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 45 ; } #Total column integrated snow 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 46 ; } #Large scale water precipitation (non-convective) 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 47 ; } #Convective water precipitation 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 48 ; } #Total water precipitation 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 49 ; } #Total snow precipitation 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 50 ; } #Total column water (Vertically integrated total water (vapour + cloud water/ice)) 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 51 ; } #Total precipitation rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 52 ; } #Total snowfall rate water equivalent 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 53 ; } #Large scale precipitation rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 54 ; } #Convective snowfall rate water equivalent 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 55 ; } #Large scale snowfall rate water equivalent 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 56 ; } #Total snowfall rate 'm s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 57 ; } #Convective snowfall rate 'm s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 58 ; } #Large scale snowfall rate 'm s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 59 ; } #Water equivalent of accumulated snow depth 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 13 ; } #Total column integrated water vapour 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 64 ; } #Rain precipitation rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 65 ; } #Snow precipitation rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 66 ; } #Freezing rain precipitation rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 67 ; } #Ice pellets precipitation rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 68 ; } #Momentum flux, u component 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 17 ; } #Momentum flux, v component 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 18 ; } #Maximum wind speed 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 21 ; } #Wind speed (gust) 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 22 ; } #u-component of wind (gust) 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 23 ; } #v-component of wind (gust) 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 24 ; } #Vertical speed shear 's**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 25 ; } #Horizontal momentum flux 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 26 ; } #U-component storm motion 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 27 ; } #V-component storm motion 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 28 ; } #Drag coefficient 'Numeric' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 29 ; } #Frictional velocity 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 30 ; } #Pressure reduced to MSL 'Pa' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 1 ; } #Geometric height 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 6 ; } #Altimeter setting 'Pa' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 11 ; } #Thickness 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 12 ; } #Pressure altitude 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 13 ; } #Density altitude 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 14 ; } #5-wave geopotential height 'gpm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 15 ; } #Zonal flux of gravity wave stress 'N m**-2' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 16 ; } #Meridional flux of gravity wave stress 'N m**-2' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 17 ; } #Planetary boundary layer height 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 18 ; } #5-wave geopotential height anomaly 'gpm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 19 ; } #Standard deviation of sub-grid scale orography 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 20 ; } #Net short-wave radiation flux (top of atmosphere) 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 1 ; } #Downward short-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 7 ; } #Upward short-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 8 ; } #Net short wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 9 ; } #Photosynthetically active radiation 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 10 ; } #Net short-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 11 ; } #Downward UV radiation 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 12 ; } #UV index (under clear sky) 'Numeric' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 50 ; } #UV index 'Numeric' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 51 ; } #Net long wave radiation flux (surface) 'W m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 0 ; } #Net long wave radiation flux (top of atmosphere) 'W m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 1 ; } #Downward long-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 3 ; } #Upward long-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 4 ; } #Net long wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 5 ; } #Net long-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 6 ; } #Cloud Ice 'kg m**-2' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 0 ; } #Cloud water 'kg m**-2' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 6 ; } #Cloud amount '%' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 7 ; } #Cloud type 'code table (4.203)' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 8 ; } #Thunderstorm maximum tops 'm' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 9 ; } #Thunderstorm coverage 'code table (4.204)' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 10 ; } #Cloud base 'm' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 11 ; } #Cloud top 'm' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 12 ; } #Ceiling 'm' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 13 ; } #Non-convective cloud cover '%' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 14 ; } #Cloud work function 'J kg**-1' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 15 ; } #Convective cloud efficiency 'Proportion' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 16 ; } #Total condensate 'kg kg**-1' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 17 ; } #Total column-integrated cloud water 'kg m**-2' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 18 ; } #Total column-integrated cloud ice 'kg m**-2' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 19 ; } #Total column-integrated condensate 'kg m**-2' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 20 ; } #Ice fraction of total condensate 'Proportion' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 21 ; } #Cloud ice mixing ratio 'kg kg**-1' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 23 ; } #Sunshine 'Numeric' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 24 ; } #Horizontal extent of cumulonimbus (CB) '%' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 25 ; } #K index 'K' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 2 ; } #KO index 'K' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 3 ; } #Total totals index 'K' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 4 ; } #Sweat index 'Numeric' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 5 ; } #Storm relative helicity 'J kg**-1' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 8 ; } #Energy helicity index 'Numeric' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 9 ; } #Surface lifted index 'K' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 10 ; } #Best (4-layer) lifted index 'K' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 11 ; } #Aerosol type 'code table (4.205)' = { discipline = 0 ; parameterCategory = 13 ; parameterNumber = 0 ; } #Total ozone 'Dobson' = { discipline = 0 ; parameterCategory = 14 ; parameterNumber = 0 ; } #Total column integrated ozone 'Dobson' = { discipline = 0 ; parameterCategory = 14 ; parameterNumber = 2 ; } #Base spectrum width 'm s**-1' = { discipline = 0 ; parameterCategory = 15 ; parameterNumber = 0 ; } #Base reflectivity 'dB' = { discipline = 0 ; parameterCategory = 15 ; parameterNumber = 1 ; } #Base radial velocity 'm s**-1' = { discipline = 0 ; parameterCategory = 15 ; parameterNumber = 2 ; } #Vertically-integrated liquid 'kg m**-1' = { discipline = 0 ; parameterCategory = 15 ; parameterNumber = 3 ; } #Layer-maximum base reflectivity 'dB' = { discipline = 0 ; parameterCategory = 15 ; parameterNumber = 4 ; } #Precipitation 'kg m**-2' = { discipline = 0 ; parameterCategory = 15 ; parameterNumber = 5 ; } #Air concentration of Caesium 137 'Bq m**-3' = { discipline = 0 ; parameterCategory = 18 ; parameterNumber = 0 ; } #Air concentration of Iodine 131 'Bq m**-3' = { discipline = 0 ; parameterCategory = 18 ; parameterNumber = 1 ; } #Air concentration of radioactive pollutant 'Bq m**-3' = { discipline = 0 ; parameterCategory = 18 ; parameterNumber = 2 ; } #Ground deposition of Caesium 137 'Bq m**-2' = { discipline = 0 ; parameterCategory = 18 ; parameterNumber = 3 ; } #Ground deposition of Iodine 131 'Bq m**-2' = { discipline = 0 ; parameterCategory = 18 ; parameterNumber = 4 ; } #Ground deposition of radioactive pollutant 'Bq m**-2' = { discipline = 0 ; parameterCategory = 18 ; parameterNumber = 5 ; } #Time-integrated air concentration of caesium pollutant 'Bq s m**-3' = { discipline = 0 ; parameterCategory = 18 ; parameterNumber = 6 ; } #Time-integrated air concentration of iodine pollutant 'Bq s m**-3' = { discipline = 0 ; parameterCategory = 18 ; parameterNumber = 7 ; } #Time-integrated air concentration of radioactive pollutant 'Bq s m**-3' = { discipline = 0 ; parameterCategory = 18 ; parameterNumber = 8 ; } #Volcanic ash 'code table (4.206)' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 4 ; } #Icing top 'm' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 5 ; } #Icing base 'm' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 6 ; } #Icing 'code table (4.207)' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 7 ; } #Turbulence top 'm' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 8 ; } #Turbulence base 'm' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 9 ; } #Turbulence 'code table (4.208)' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 10 ; } #Turbulent kinetic energy 'J kg**-1' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 11 ; } #Planetary boundary layer regime 'code table (4.209)' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 12 ; } #Contrail intensity 'code table (4.210)' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 13 ; } #Contrail engine type 'code table (4.211)' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 14 ; } #Contrail top 'm' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 15 ; } #Contrail base 'm' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 16 ; } #Maximum snow albedo '%' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 17 ; } #Snow free albedo '%' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 18 ; } #Icing '%' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 20 ; } #In-cloud turbulence '%' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 21 ; } #Clear air turbulence (CAT) '%' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 22 ; } #Supercooled large droplet probability (see Note 4) '%' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 23 ; } #Arbitrary text string 'CCITTIA5' = { discipline = 0 ; parameterCategory = 190 ; parameterNumber = 0 ; } #Seconds prior to initial reference time (defined in Section 1) 's' = { discipline = 0 ; parameterCategory = 191 ; parameterNumber = 0 ; } #Flash flood guidance (Encoded as an accumulation over a floating subinterval of time between the ref 'kg m**-2' = { discipline = 1 ; parameterCategory = 0 ; parameterNumber = 0 ; } #Flash flood runoff (Encoded as an accumulation over a floating subinterval of time) 'kg m**-2' = { discipline = 1 ; parameterCategory = 0 ; parameterNumber = 1 ; } #Remotely sensed snow cover '(code table 4.215)' = { discipline = 1 ; parameterCategory = 0 ; parameterNumber = 2 ; } #Elevation of snow covered terrain '(code table 4.216)' = { discipline = 1 ; parameterCategory = 0 ; parameterNumber = 3 ; } #Snow water equivalent percent of normal '%' = { discipline = 1 ; parameterCategory = 0 ; parameterNumber = 4 ; } #Baseflow-groundwater runoff 'kg m**-2' = { discipline = 1 ; parameterCategory = 0 ; parameterNumber = 5 ; } #Storm surface runoff 'kg m**-2' = { discipline = 1 ; parameterCategory = 0 ; parameterNumber = 6 ; } #Conditional percent precipitation amount fractile for an overall period (Encoded as an accumulation) 'kg m**-2' = { discipline = 1 ; parameterCategory = 1 ; parameterNumber = 0 ; } #Percent precipitation in a sub-period of an overall period (Encoded as per cent accumulation over th '%' = { discipline = 1 ; parameterCategory = 1 ; parameterNumber = 1 ; } #Probability of 0.01 inch of precipitation (POP) '%' = { discipline = 1 ; parameterCategory = 1 ; parameterNumber = 2 ; } #Land cover (1=land, 0=sea) 'Proportion' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 0 ; } #Vegetation '%' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 4 ; } #Water runoff 'kg m**-2' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 5 ; } #Evapotranspiration 'kg**-2 s**-1' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 6 ; } #Model terrain height 'm' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 7 ; } #Land use 'code table (4.212)' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 8 ; } #Volumetric soil moisture content 'Proportion' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 9 ; } #Ground heat flux 'W m**-2' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 10 ; } #Moisture availability '%' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 11 ; } #Exchange coefficient 'kg m**-2 s**-1' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 12 ; } #Plant canopy surface water 'kg m**-2' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 13 ; } #Blackadar mixing length scale 'm' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 14 ; } #Canopy conductance 'm s**-1' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 15 ; } #Minimal stomatal resistance 's m**-1' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 16 ; } #Solar parameter in canopy conductance 'Proportion' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 18 ; } #Temperature parameter in canopy conductance 'Proportion' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 19 ; } #Soil moisture parameter in canopy conductance 'Proportion' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 20 ; } #Humidity parameter in canopy conductance 'Proportion' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 21 ; } #Column-integrated soil water 'kg m**-2' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 23 ; } #Heat flux 'W m**-2' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 24 ; } #Volumetric soil moisture 'm**3 m**-3' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 25 ; } #Volumetric wilting point 'm**3 m**-3' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 27 ; } #Upper layer soil temperature 'K' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 1 ; } #Upper layer soil moisture 'kg m**-3' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 2 ; } #Lower layer soil moisture 'kg m**-3' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 3 ; } #Bottom layer soil temperature 'K' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 4 ; } #Liquid volumetric soil moisture (non-frozen) 'Proportion' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 5 ; } #Number of soil layers in root zone 'Numeric' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 6 ; } #Transpiration stress-onset (soil moisture) 'Proportion' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 7 ; } #Direct evaporation cease (soil moisture) 'Proportion' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 8 ; } #Soil porosity 'Proportion' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 9 ; } #Liquid volumetric soil moisture (non-frozen) 'm**3 m**-3' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 10 ; } #Volumetric transpiration stress-onset (soil moisture) 'm**3 m**-3' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 11 ; } #Transpiration stress-onset (soil moisture) 'kg m**-3' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 12 ; } #Volumetric direct evaporation cease (soil moisture) 'm**3 m**-3' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 13 ; } #Direct evaporation cease (soil moisture) 'kg m**-3' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 14 ; } #Soil porosity 'm**3 m**-3' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 15 ; } #Volumetric saturation of soil moisture 'm**3 m**-3' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 16 ; } #Saturation of soil moisture 'kg m**-3' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 17 ; } #Estimated precipitation 'kg m**-2' = { discipline = 3 ; parameterCategory = 1 ; parameterNumber = 0 ; } #Instantaneous rain rate 'kg m**-2 s**-1' = { discipline = 3 ; parameterCategory = 1 ; parameterNumber = 1 ; } #Cloud top height 'm' = { discipline = 3 ; parameterCategory = 1 ; parameterNumber = 2 ; } #Cloud top height quality indicator 'Code table 4.219' = { discipline = 3 ; parameterCategory = 1 ; parameterNumber = 3 ; } #Estimated u component of wind 'm s**-1' = { discipline = 3 ; parameterCategory = 1 ; parameterNumber = 4 ; } #Estimated v component of wind 'm s**-1' = { discipline = 3 ; parameterCategory = 1 ; parameterNumber = 5 ; } #Number of pixels used 'Numeric' = { discipline = 3 ; parameterCategory = 1 ; parameterNumber = 6 ; } #Solar zenith angle 'Degree' = { discipline = 3 ; parameterCategory = 1 ; parameterNumber = 7 ; } #Relative azimuth angle 'Degree' = { discipline = 3 ; parameterCategory = 1 ; parameterNumber = 8 ; } #Reflectance in 0.6 micron channel '%' = { discipline = 3 ; parameterCategory = 1 ; parameterNumber = 9 ; } #Reflectance in 0.8 micron channel '%' = { discipline = 3 ; parameterCategory = 1 ; parameterNumber = 10 ; } #Reflectance in 1.6 micron channel '%' = { discipline = 3 ; parameterCategory = 1 ; parameterNumber = 11 ; } #Reflectance in 3.9 micron channel '%' = { discipline = 3 ; parameterCategory = 1 ; parameterNumber = 12 ; } #Atmospheric divergence 's**-1' = { discipline = 3 ; parameterCategory = 1 ; parameterNumber = 13 ; } #Direction of wind waves 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 4 ; } #Primary wave direction 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 10 ; } #Primary wave mean period 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 11 ; } #Secondary wave mean period 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 13 ; } #Current direction 'Degree true' = { discipline = 10 ; parameterCategory = 1 ; parameterNumber = 0 ; } #Current speed 'm s**-1' = { discipline = 10 ; parameterCategory = 1 ; parameterNumber = 1 ; } #Ice cover 'Proportion' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 0 ; } #Ice temperature 'K' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 8 ; } #Deviation of sea level from mean 'm' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 1 ; } #Seconds prior to initial reference time (defined in Section 1) 's' = { discipline = 10 ; parameterCategory = 191 ; parameterNumber = 0 ; } #Albedo '%' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 1 ; } #Pressure tendency 'Pa s**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 2 ; } #ICAO Standard Atmosphere reference height 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 3 ; } #Geometrical height 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 6 ; } #Standard deviation of height 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 7 ; } #Virtual potential temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 1 ; } #Maximum temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 4 ; } #Minimum temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 5 ; } #Dew point temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 6 ; } #Lapse rate 'K s**-1' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 8 ; } #Visibility 'm' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 0 ; } #Radar spectra (1) '~' = { discipline = 0 ; parameterCategory = 15 ; parameterNumber = 6 ; } #Radar spectra (2) '~' = { discipline = 0 ; parameterCategory = 15 ; parameterNumber = 7 ; } #Radar spectra (3) '~' = { discipline = 0 ; parameterCategory = 15 ; parameterNumber = 8 ; } #Parcel lifted index (to 500 hPa) 'K' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 0 ; } #Temperature anomaly 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 9 ; } #Pressure anomaly 'Pa' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 8 ; } #Geopotential height anomaly 'gpm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 9 ; } #Wave spectra (1) '~' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 0 ; } #Wave spectra (2) '~' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 1 ; } #Wave spectra (3) '~' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 2 ; } #Montgomery stream Function 'm**2 s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 6 ; } #Sigma coordinate vertical velocity 's**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 7 ; } #Absolute vorticity 's**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 10 ; } #Absolute divergence 's**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 11 ; } #Vertical u-component shear 's**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 15 ; } #Vertical v-component shear 's**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 16 ; } #U-component of current 'm s**-1' = { discipline = 10 ; parameterCategory = 1 ; parameterNumber = 2 ; } #V-component of current 'm s**-1' = { discipline = 10 ; parameterCategory = 1 ; parameterNumber = 3 ; } #Precipitable water 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 3 ; } #Saturation deficit 'Pa' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 5 ; } #Precipitation rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 7 ; } #Thunderstorm probability '%' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 2 ; } #Convective precipitation (water) 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 10 ; } #Mixed layer depth 'm' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 3 ; } #Transient thermocline depth 'm' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 2 ; } #Main thermocline depth 'm' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 0 ; } #Main thermocline anomaly 'm' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 1 ; } #Best lifted index (to 500 hPa) 'K' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 1 ; } #Water temperature 'K' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 0 ; } #Soil moisture content 'kg m**-2' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 3 ; } #Salinity 'kg kg**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 3 ; } #Density 'kg m**-3' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 10 ; } #Ice thickness 'm' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 1 ; } #Direction of ice drift 'Degree true' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 2 ; } #Speed of ice drift 'm s**-1' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 3 ; } #U-component of ice drift 'm s**-1' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 4 ; } #V-component of ice drift 'm s**-1' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 5 ; } #Ice growth rate 'm s**-1' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 6 ; } #Ice divergence 's**-1' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 7 ; } #Snow melt 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 16 ; } #Significant height of wind waves 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 5 ; } #Mean period of wind waves 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 6 ; } #Direction of swell waves 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 7 ; } #Significant height of swell waves 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 8 ; } #Mean period of swell waves 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 9 ; } #Secondary wave direction 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 12 ; } #Net short-wave radiation flux (surface) 'J m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 0 ; } #Global radiation flux 'J m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 3 ; } #Radiance (with respect to wave number) 'W m**-1 sr**-1' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 5 ; } #Radiance (with respect to wave length) 'W m**-1 sr**-1' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 6 ; } #Wind mixing energy 'J' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 19 ; } #10 metre Wind gust of at least 15 m/s '%' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 22 ; scaledValueOfLowerLimit = 15 ; probabilityType = 3 ; scaledValueOfFirstFixedSurface = 10 ; productDefinitionTemplateNumber = 9 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 2 ; scaleFactorOfLowerLimit = 0 ; typeOfFirstFixedSurface = 103 ; } #10 metre Wind gust of at least 20 m/s '%' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 22 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 2 ; scaleFactorOfLowerLimit = 0 ; typeOfFirstFixedSurface = 103 ; scaledValueOfLowerLimit = 25 ; probabilityType = 3 ; scaledValueOfFirstFixedSurface = 10 ; productDefinitionTemplateNumber = 9 ; } #Convective inhibition 'J kg**-1' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 7 ; typeOfSecondFixedSurface = 8 ; typeOfFirstFixedSurface = 1 ; } #Orography 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 5 ; typeOfFirstFixedSurface = 1 ; } #Soil Moisture 'kg m**-3' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 22 ; scaledValueOfSecondFixedSurface = 2 ; typeOfSecondFixedSurface = 106 ; scaleFactorOfSecondFixedSurface = 1 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfFirstFixedSurface = 106 ; scaledValueOfFirstFixedSurface = 0 ; } #Soil Temperature 'K' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 2 ; typeOfFirstFixedSurface = 106 ; scaledValueOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = 2 ; typeOfSecondFixedSurface = 106 ; scaleFactorOfSecondFixedSurface = 1 ; scaleFactorOfFirstFixedSurface = 0 ; } #Snow depth water equivalent 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 60 ; typeOfFirstFixedSurface = 1 ; } #Snow Fall water equivalent 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 53 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Total Cloud Cover '%' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 1 ; typeOfSecondFixedSurface = 8 ; typeOfFirstFixedSurface = 1 ; } #Field capacity 'kg m**-3' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 12 ; typeOfFirstFixedSurface = 106 ; scaledValueOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = 2 ; typeOfSecondFixedSurface = 106 ; scaleFactorOfSecondFixedSurface = 1 ; scaleFactorOfFirstFixedSurface = 0 ; } #Wilting point 'kg m**-3' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 26 ; typeOfSecondFixedSurface = 106 ; scaledValueOfSecondFixedSurface = 2 ; scaleFactorOfFirstFixedSurface = 0 ; scaleFactorOfSecondFixedSurface = 1 ; scaledValueOfFirstFixedSurface = 0 ; typeOfFirstFixedSurface = 106 ; } #Total Precipitation 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 52 ; typeOfStatisticalProcessing = 1 ; typeOfFirstFixedSurface = 1 ; }