# Automatically generated by ./create_def.pl, do not edit #Total precipitation of at least 1 mm '%' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 52 ; productDefinitionTemplateNumber = 9 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; scaledValueOfLowerLimit = 1 ; scaleFactorOfLowerLimit = 0 ; probabilityType = 3 ; } #Total precipitation of at least 5 mm '%' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 52 ; productDefinitionTemplateNumber = 9 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; scaledValueOfLowerLimit = 5 ; scaleFactorOfLowerLimit = 0 ; probabilityType = 3 ; } #Total precipitation of at least 10 mm '%' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 52 ; productDefinitionTemplateNumber = 9 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; scaledValueOfLowerLimit = 10 ; scaleFactorOfLowerLimit = 0 ; probabilityType = 3 ; } #Total precipitation of at least 20 mm '%' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 52 ; productDefinitionTemplateNumber = 9 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; scaledValueOfLowerLimit = 20 ; scaleFactorOfLowerLimit = 0 ; probabilityType = 3 ; } #Total precipitation of at least 40 mm '%' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 52 ; productDefinitionTemplateNumber = 9 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; scaledValueOfLowerLimit = 40 ; scaleFactorOfLowerLimit = 0 ; probabilityType = 3 ; } #Total precipitation of at least 60 mm '%' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 52 ; productDefinitionTemplateNumber = 9 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; scaledValueOfLowerLimit = 60 ; scaleFactorOfLowerLimit = 0 ; probabilityType = 3 ; } #Total precipitation of at least 80 mm '%' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 52 ; productDefinitionTemplateNumber = 9 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; scaledValueOfLowerLimit = 80 ; scaleFactorOfLowerLimit = 0 ; probabilityType = 3 ; } #Total precipitation of at least 100 mm '%' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 52 ; productDefinitionTemplateNumber = 9 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; scaledValueOfLowerLimit = 100 ; scaleFactorOfLowerLimit = 0 ; probabilityType = 3 ; } #Total precipitation of at least 150 mm '%' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 52 ; productDefinitionTemplateNumber = 9 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; scaledValueOfLowerLimit = 150 ; scaleFactorOfLowerLimit = 0 ; probabilityType = 3 ; } #Total precipitation of at least 200 mm '%' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 52 ; productDefinitionTemplateNumber = 9 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; scaledValueOfLowerLimit = 200 ; scaleFactorOfLowerLimit = 0 ; probabilityType = 3 ; } #Total precipitation of at least 300 mm '%' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 52 ; productDefinitionTemplateNumber = 9 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; scaledValueOfLowerLimit = 3 ; scaleFactorOfLowerLimit = -2 ; probabilityType = 3 ; } #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 ; } #Surface photosynthetically active radiation, clear sky 'J m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 60 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Unbalanced component of temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 28 ; } #Unbalanced component of logarithm of surface pressure '~' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 31 ; } #Unbalanced component of divergence 's**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 45 ; } #Lake cover '(0 - 1)' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 2 ; } #Low vegetation cover '(0 - 1)' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 53 ; } #High vegetation cover '(0 - 1)' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 54 ; } #Type of low vegetation '(Code table 4.234)' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 57 ; } #Type of high vegetation '(Code table 4.234)' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 58 ; } #Sea ice area fraction '(0 - 1)' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 1 ; } #Snow density 'kg m**-3' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 61 ; } #Sea surface temperature 'K' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 1 ; } #Soil type '(Code table 4.213)' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 0 ; } #Surface direct normal short-wave (solar) radiation 'J m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 54 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 255 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated magnitude of turbulent surface stress 'N m**-2 s' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 58 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Maximum 10 metre wind gust since previous post-processing 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 22 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 2 ; } #Large-scale precipitation fraction 's' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 36 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Montgomery potential 'm**2 s**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 6 ; } #Pressure 'Pa' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 0 ; } #Surface downward UV radiation 'J m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 12 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Photosynthetically active radiation at the surface 'J m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 10 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #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 ; } #Leaf area index, low vegetation 'm**2 m**-2' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 55 ; } #Leaf area index, high vegetation 'm**2 m**-2' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 56 ; } #Standard deviation of filtered subgrid orography (climatological) 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 38 ; typeOfGeneratingProcess = 9 ; } #Specific rain water content 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 85 ; } #Specific snow water content 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 86 ; } #Eta-coordinate vertical velocity 's**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 32 ; } #Total column cloud liquid water 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 69 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column cloud ice water 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 70 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Maximum temperature at 2 metres in the last 6 hours 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 2 ; scaleFactorOfFirstFixedSurface = 0 ; indicatorOfUnitForTimeRange = 1 ; typeOfStatisticalProcessing = 2 ; lengthOfTimeRange = 6 ; } #Minimum temperature at 2 metres in the last 6 hours 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 2 ; scaleFactorOfFirstFixedSurface = 0 ; indicatorOfUnitForTimeRange = 1 ; typeOfStatisticalProcessing = 3 ; lengthOfTimeRange = 6 ; } #Surface emissivity 'Proportion' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 62 ; typeOfFirstFixedSurface = 1 ; } #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 ; } #Total column vertically-integrated water vapour 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 64 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Vorticity (relative) 's**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 12 ; } #Time-integrated boundary layer dissipation 'J m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 20 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated surface sensible heat net flux 'J m**-2' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 11 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated surface latent heat net flux 'J m**-2' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 10 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Charnock 'Numeric' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 76 ; } #Surface net radiation (SW and LW) 'J m**-2' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 46 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Top net radiation (SW and LW) 'J m**-2' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 46 ; typeOfFirstFixedSurface = 8 ; typeOfStatisticalProcessing = 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 ; } #Boundary layer height 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 18 ; } #Standard deviation of sub-gridscale orography 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 20 ; } #Anisotropy of sub-gridscale orography 'Numeric' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 24 ; } #Angle of sub-gridscale orography 'radians' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 21 ; } #Slope of sub-gridscale orography 'Numeric' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 22 ; } #10 metre U wind component 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 2 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; } #10 metre V wind component 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 3 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; } #2 metre temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 2 ; scaleFactorOfFirstFixedSurface = 0 ; } #2 metre dewpoint temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 2 ; scaleFactorOfFirstFixedSurface = 0 ; } #Surface short-wave (solar) radiation downwards 'J m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 7 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Land-sea mask '(0 - 1)' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 1 ; } #Surface roughness (climatological) 'm' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 1 ; typeOfGeneratingProcess = 9 ; } #Surface long-wave (thermal) radiation downwards 'J m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 3 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Surface net short-wave (solar) radiation 'J m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 9 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Surface net long-wave (thermal) radiation 'J m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 5 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Top net short-wave (solar) radiation 'J m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 9 ; typeOfFirstFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Top net long-wave (thermal) radiation 'J m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 5 ; typeOfFirstFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated eastward turbulent surface stress 'N m**-2 s' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 62 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated northward turbulent surface stress 'N m**-2 s' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 63 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Sunshine duration 's' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 24 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Brightness temperature 'K' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 4 ; } #Eastward gravity wave surface stress 'N m**-2 s' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 16 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Northward gravity wave surface stress 'N m**-2 s' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 17 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Gravity wave dissipation 'J m**-2' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 23 ; typeOfStatisticalProcessing = 1 ; } #Maximum temperature at 2 metres since previous post-processing 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 2 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 2 ; } #Minimum temperature at 2 metres since previous post-processing 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 2 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 3 ; } #Ozone mass mixing ratio 'kg kg**-1' = { discipline = 0 ; parameterCategory = 14 ; parameterNumber = 1 ; } #10 metre wind speed 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; } #Top net short-wave (solar) radiation, clear sky 'J m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 11 ; typeOfFirstFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Top net long-wave (thermal) radiation, clear sky 'J m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Surface net short-wave (solar) radiation, clear sky 'J m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 11 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Surface net long-wave (thermal) radiation, clear sky 'J m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #TOA incident short-wave (solar) radiation 'J m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 7 ; typeOfFirstFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Vertically integrated moisture divergence 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 165 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Instantaneous eastward turbulent surface stress 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 62 ; typeOfFirstFixedSurface = 1 ; } #Instantaneous northward turbulent surface stress 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 63 ; typeOfFirstFixedSurface = 1 ; } #Instantaneous surface sensible heat net flux 'W m**-2' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 11 ; typeOfFirstFixedSurface = 1 ; } #Instantaneous moisture flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 79 ; typeOfFirstFixedSurface = 1 ; } #Logarithm of surface roughness length for heat (climatological) 'Numeric' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 54 ; typeOfFirstFixedSurface = 1 ; typeOfGeneratingProcess = 9 ; } #Skin temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 17 ; typeOfFirstFixedSurface = 1 ; } #Temperature of snow layer 'K' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 28 ; } #Forecast surface roughness 'm' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 1 ; } #Forecast logarithm of surface roughness for heat 'Numeric' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 54 ; typeOfFirstFixedSurface = 1 ; } #Specific cloud liquid water content 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 83 ; } #Specific cloud ice water content 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 84 ; } #Fraction of cloud cover '(0 - 1)' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 32 ; } #Large-scale precipitation 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 54 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Snow depth 'm' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 11 ; } #Low cloud cover '%' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 3 ; } #Medium cloud cover '%' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 4 ; } #High cloud cover '%' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 5 ; } #Total precipitation of at least 25 mm '%' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 52 ; productDefinitionTemplateNumber = 9 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; scaledValueOfLowerLimit = 25 ; scaleFactorOfLowerLimit = 0 ; probabilityType = 3 ; } #Total precipitation of at least 50 mm '%' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 52 ; productDefinitionTemplateNumber = 9 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; scaledValueOfLowerLimit = 50 ; scaleFactorOfLowerLimit = 0 ; probabilityType = 3 ; } #10 metre wind gust of at least 10 m/s '%' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 22 ; productDefinitionTemplateNumber = 9 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 2 ; scaledValueOfLowerLimit = 10 ; scaleFactorOfLowerLimit = 0 ; probabilityType = 3 ; } #10 metre convective gust of at least 25 m/s 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 68 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfLowerLimit = 25 ; scaleFactorOfLowerLimit = 0 ; probabilityType = 3 ; } #Probability of temperature standardized anomaly greater than 1 standard deviation '%' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 0 ; productDefinitionTemplateNumber = 9 ; typeOfStatisticalProcessing = 10 ; scaledValueOfLowerLimit = 1 ; scaleFactorOfLowerLimit = 0 ; probabilityType = 3 ; } #Probability of temperature standardized anomaly greater than 1.5 standard deviation '%' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 0 ; productDefinitionTemplateNumber = 9 ; typeOfStatisticalProcessing = 10 ; scaledValueOfLowerLimit = 15 ; scaleFactorOfLowerLimit = 1 ; probabilityType = 3 ; } #Probability of temperature standardized anomaly greater than 2 standard deviation '%' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 0 ; productDefinitionTemplateNumber = 9 ; typeOfStatisticalProcessing = 10 ; scaledValueOfLowerLimit = 2 ; scaleFactorOfLowerLimit = 0 ; probabilityType = 3 ; } #Probability of temperature standardized anomaly less than -1 standard deviation '%' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 0 ; productDefinitionTemplateNumber = 9 ; typeOfStatisticalProcessing = 10 ; scaledValueOfLowerLimit = -1 ; scaleFactorOfLowerLimit = 0 ; probabilityType = 0 ; } #Probability of temperature standardized anomaly less than -1.5 standard deviation '%' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 0 ; productDefinitionTemplateNumber = 9 ; typeOfStatisticalProcessing = 10 ; scaledValueOfLowerLimit = -15 ; scaleFactorOfLowerLimit = 1 ; probabilityType = 0 ; } #Probability of temperature standardized anomaly less than -2 standard deviation '%' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 0 ; productDefinitionTemplateNumber = 9 ; typeOfStatisticalProcessing = 10 ; scaledValueOfLowerLimit = -2 ; scaleFactorOfLowerLimit = 0 ; probabilityType = 0 ; } #Wave induced mean sea level correction 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 87 ; } #Ratio of wave angular and frequency width 'Numeric' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 80 ; } #Number of events in freak waves statistics 'Numeric' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 89 ; } #U-component of atmospheric surface momentum flux 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 17 ; typeOfFirstFixedSurface = 1 ; } #V-component of atmospheric surface momentum flux 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 18 ; typeOfFirstFixedSurface = 1 ; } #U-component of surface momentum flux into ocean 'N m**-2' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 90 ; typeOfFirstFixedSurface = 1 ; } #V-component of surface momentum flux into ocean 'N m**-2' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 91 ; typeOfFirstFixedSurface = 1 ; } #Wave turbulent energy flux into ocean 'W m**-2' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 92 ; } #Wave directional width of first swell partition 'radians' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 56 ; } #Wave frequency width of first swell partition 'dimensionless' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 59 ; } #Wave directional width of second swell partition 'radians' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 57 ; } #Wave frequency width of second swell partition 'dimensionless' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 60 ; } #Wave directional width of third swell partition 'radians' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 58 ; } #Wave frequency width of third swell partition 'dimensionless' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 61 ; } #Wave energy flux magnitude 'W m**-1' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 78 ; } #Wave energy flux mean direction 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 79 ; } #Significant wave height of all waves with periods within the inclusive range from 10 to 12 seconds 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 3 ; typeOfWavePeriodInterval = 7 ; scaleFactorOfLowerWavePeriodLimit = 0 ; scaledValueOfLowerWavePeriodLimit = 10 ; scaleFactorOfUpperWavePeriodLimit = 0 ; scaledValueOfUpperWavePeriodLimit = 12 ; } #Significant wave height of all waves with periods within the inclusive range from 12 to 14 seconds 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 3 ; typeOfWavePeriodInterval = 7 ; scaleFactorOfLowerWavePeriodLimit = 0 ; scaledValueOfLowerWavePeriodLimit = 12 ; scaleFactorOfUpperWavePeriodLimit = 0 ; scaledValueOfUpperWavePeriodLimit = 14 ; } #Significant wave height of all waves with periods within the inclusive range from 14 to 17 seconds 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 3 ; typeOfWavePeriodInterval = 7 ; scaleFactorOfLowerWavePeriodLimit = 0 ; scaledValueOfLowerWavePeriodLimit = 14 ; scaleFactorOfUpperWavePeriodLimit = 0 ; scaledValueOfUpperWavePeriodLimit = 17 ; } #Significant wave height of all waves with periods within the inclusive range from 17 to 21 seconds 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 3 ; typeOfWavePeriodInterval = 7 ; scaleFactorOfLowerWavePeriodLimit = 0 ; scaledValueOfLowerWavePeriodLimit = 17 ; scaleFactorOfUpperWavePeriodLimit = 0 ; scaledValueOfUpperWavePeriodLimit = 21 ; } #Significant wave height of all waves with periods within the inclusive range from 21 to 25 seconds 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 3 ; typeOfWavePeriodInterval = 7 ; scaleFactorOfLowerWavePeriodLimit = 0 ; scaledValueOfLowerWavePeriodLimit = 21 ; scaleFactorOfUpperWavePeriodLimit = 0 ; scaledValueOfUpperWavePeriodLimit = 25 ; } #Significant wave height of all waves with periods within the inclusive range from 25 to 30 seconds 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 3 ; typeOfWavePeriodInterval = 7 ; scaleFactorOfLowerWavePeriodLimit = 0 ; scaledValueOfLowerWavePeriodLimit = 25 ; scaleFactorOfUpperWavePeriodLimit = 0 ; scaledValueOfUpperWavePeriodLimit = 30 ; } #Significant wave height of all waves with period larger than 10s 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 3 ; typeOfWavePeriodInterval = 3 ; scaleFactorOfLowerWavePeriodLimit = 0 ; scaledValueOfLowerWavePeriodLimit = 10 ; } #Significant wave height of first swell partition 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 47 ; } #Mean wave direction of first swell partition 'degrees' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 53 ; } #Mean wave period of first swell partition 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 50 ; } #Significant wave height of second swell partition 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 48 ; } #Mean wave direction of second swell partition 'degrees' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 54 ; } #Mean wave period of second swell partition 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 51 ; } #Significant wave height of third swell partition 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 49 ; } #Mean wave direction of third swell partition 'degrees' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 55 ; } #Mean wave period of third swell partition 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 52 ; } #Time domain maximum individual crest height 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 94 ; } #Time domain maximum individual wave height 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 95 ; } #Space time maximum individual crest height 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 96 ; } #Space time maximum individual wave height 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 97 ; } #Peak wave period of wind waves 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 35 ; } #Peak wave period of total swell 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 36 ; } #Peak wave period of first swell partition 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 65 ; } #Peak wave period of second swell partition 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 66 ; } #Peak wave period of third swell partition 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 67 ; } #Peak wave direction (total) 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 46 ; } #Peak wave direction of wind waves 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 71 ; } #Peak wave direction of total swell 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 72 ; } #Peak wave direction of first swell partition 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 68 ; } #Peak wave direction of second swell partition 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 69 ; } #Peak wave direction of third swell partition 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 70 ; } #Whitecap fraction 'Fraction' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 73 ; } #Wave Spectral Skewness 'Numeric' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 77 ; } #Free convective velocity over the oceans 'm s**-1' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 81 ; } #Air density over the oceans 'kg m**-3' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 82 ; } #Normalized energy flux into waves 'Numeric' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 83 ; } #Normalized energy flux into ocean 'Numeric' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 85 ; } #Normalized stress into ocean 'Numeric' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 84 ; } #Time-mean wave induced mean sea level correction 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 87 ; typeOfStatisticalProcessing = 0 ; } #Time-mean ratio of wave angular and frequency width 'Numeric' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 80 ; typeOfStatisticalProcessing = 0 ; } #Time-mean number of events in freak waves statistics 'Numeric' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 89 ; typeOfStatisticalProcessing = 0 ; } #Time-mean U-component of atmospheric surface momentum flux 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 17 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean V-component of atmospheric surface momentum flux 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 18 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean U-component of surface momentum flux into ocean 'N m**-2' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 90 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean V-component of surface momentum flux into ocean 'N m**-2' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 91 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean wave turbulent energy flux into ocean 'W m**-2' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 92 ; typeOfStatisticalProcessing = 0 ; } #Time-mean wave directional width of first swell partition 'radians' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 56 ; typeOfStatisticalProcessing = 0 ; } #Time-mean wave frequency width of first swell partition 'dimensionless' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 59 ; typeOfStatisticalProcessing = 0 ; } #Time-mean wave directional width of second swell partition 'radians' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 57 ; typeOfStatisticalProcessing = 0 ; } #Time-mean wave frequency width of second swell partition 'dimensionless' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 60 ; typeOfStatisticalProcessing = 0 ; } #Time-mean wave directional width of third swell partition 'radians' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 58 ; typeOfStatisticalProcessing = 0 ; } #Time-mean wave frequency width of third swell partition 'dimensionless' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 61 ; typeOfStatisticalProcessing = 0 ; } #Time-mean wave energy flux magnitude 'W m**-1' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 78 ; typeOfStatisticalProcessing = 0 ; } #Time-mean wave energy flux mean direction 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 79 ; typeOfStatisticalProcessing = 0 ; } #Time-mean significant wave height of first swell partition 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 47 ; typeOfStatisticalProcessing = 0 ; } #Time-mean mean wave direction of first swell partition 'degrees' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 53 ; typeOfStatisticalProcessing = 0 ; } #Time-mean mean wave period of first swell partition 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 50 ; typeOfStatisticalProcessing = 0 ; } #Time-mean significant wave height of second swell partition 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 48 ; typeOfStatisticalProcessing = 0 ; } #Time-mean mean wave direction of second swell partition 'degrees' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 54 ; typeOfStatisticalProcessing = 0 ; } #Time-mean mean wave period of second swell partition 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 51 ; typeOfStatisticalProcessing = 0 ; } #Time-mean significant wave height of third swell partition 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 49 ; typeOfStatisticalProcessing = 0 ; } #Time-mean mean wave direction of third swell partition 'degrees' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 55 ; typeOfStatisticalProcessing = 0 ; } #Time-mean mean wave period of third swell partition 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 52 ; typeOfStatisticalProcessing = 0 ; } #Time-mean time domain maximum individual crest height 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 94 ; typeOfStatisticalProcessing = 0 ; } #Time-mean time domain maximum individual wave height 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 95 ; typeOfStatisticalProcessing = 0 ; } #Time-mean space time maximum individual crest height 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 96 ; typeOfStatisticalProcessing = 0 ; } #Time-mean space time maximum individual wave height 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 97 ; typeOfStatisticalProcessing = 0 ; } #Time-mean peak wave period of wind waves 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 35 ; typeOfStatisticalProcessing = 0 ; } #Time-mean peak wave period of total swell 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 36 ; typeOfStatisticalProcessing = 0 ; } #Time-mean peak wave period of first swell partition 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 65 ; typeOfStatisticalProcessing = 0 ; } #Time-mean peak wave period of second swell partition 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 66 ; typeOfStatisticalProcessing = 0 ; } #Time-mean peak wave period of third swell partition 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 67 ; typeOfStatisticalProcessing = 0 ; } #Time-mean peak wave direction (total) 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 46 ; typeOfStatisticalProcessing = 0 ; } #Time-mean peak wave direction of wind waves 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 71 ; typeOfStatisticalProcessing = 0 ; } #Time-mean peak wave direction of total swell 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 72 ; typeOfStatisticalProcessing = 0 ; } #Time-mean peak wave direction of first swell partition 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 68 ; typeOfStatisticalProcessing = 0 ; } #Time-mean peak wave direction of second swell partition 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 69 ; typeOfStatisticalProcessing = 0 ; } #Time-mean peak wave direction of third swell partition 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 70 ; typeOfStatisticalProcessing = 0 ; } #Time-mean whitecap fraction 'Fraction' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 73 ; typeOfStatisticalProcessing = 0 ; } #Time-mean wave Spectral Skewness 'Numeric' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 77 ; typeOfStatisticalProcessing = 0 ; } #Time-mean free convective velocity over the oceans 'm s**-1' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 81 ; typeOfStatisticalProcessing = 0 ; } #Time-mean air density over the oceans 'kg m**-3' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 82 ; typeOfStatisticalProcessing = 0 ; } #Time-mean normalized energy flux into waves 'Numeric' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 83 ; typeOfStatisticalProcessing = 0 ; } #Time-mean normalized energy flux into ocean 'Numeric' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 85 ; typeOfStatisticalProcessing = 0 ; } #Time-mean normalized stress into ocean 'Numeric' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 84 ; typeOfStatisticalProcessing = 0 ; } #Time-mean U-component surface stokes drift 'm s**-1' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 21 ; typeOfStatisticalProcessing = 0 ; } #Time-mean V-component surface stokes drift 'm s**-1' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 22 ; typeOfStatisticalProcessing = 0 ; } #Time-mean period corresponding to maximum individual wave height 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 23 ; typeOfStatisticalProcessing = 0 ; } #Time-mean envelop-maximum individual wave height 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 93 ; typeOfStatisticalProcessing = 0 ; } #Time-mean mean wave period based on first moment 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 25 ; typeOfStatisticalProcessing = 0 ; } #Time-mean mean zero-crossing wave period 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 28 ; typeOfStatisticalProcessing = 0 ; } #Time-mean wave spectral directional width 'radians' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 31 ; typeOfStatisticalProcessing = 0 ; } #Time-mean mean wave period based on first moment for wind waves 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 26 ; typeOfStatisticalProcessing = 0 ; } #Time-mean mean wave period based on second moment for wind waves 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 29 ; typeOfStatisticalProcessing = 0 ; } #Time-mean wave spectral directional width for wind waves 'radians' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 32 ; typeOfStatisticalProcessing = 0 ; } #Time-mean mean wave period based on first moment for swell 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 27 ; typeOfStatisticalProcessing = 0 ; } #Time-mean mean wave period based on second moment for swell 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 30 ; typeOfStatisticalProcessing = 0 ; } #Time-mean wave spectral directional width for swell 'radians' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 33 ; typeOfStatisticalProcessing = 0 ; } #Time-mean significant height of combined wind waves and swell 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 3 ; typeOfStatisticalProcessing = 0 ; } #Time-mean mean wave direction 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 14 ; typeOfStatisticalProcessing = 0 ; } #Time-mean peak wave period 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 34 ; typeOfStatisticalProcessing = 0 ; } #Time-mean mean wave period 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 15 ; typeOfStatisticalProcessing = 0 ; } #Time-mean coefficient of drag with waves 'dimensionless' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 16 ; typeOfStatisticalProcessing = 0 ; } #Time-mean significant height of wind waves 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 5 ; typeOfStatisticalProcessing = 0 ; } #Time-mean mean direction of wind waves 'degrees' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 75 ; typeOfStatisticalProcessing = 0 ; } #Time-mean mean period of wind waves 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 6 ; typeOfStatisticalProcessing = 0 ; } #Time-mean significant height of total swell 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean mean direction of total swell 'degrees' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 74 ; typeOfStatisticalProcessing = 0 ; } #Time-mean mean period of total swell 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 9 ; typeOfStatisticalProcessing = 0 ; } #Time-mean mean square slope of waves 'dimensionless' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 20 ; typeOfStatisticalProcessing = 0 ; } #Time-mean 10 metre wind speed 'm s**-1' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 40 ; typeOfFirstFixedSurface = 102 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 0 ; } #Time-mean 10 metre wind direction 'degrees' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 41 ; typeOfFirstFixedSurface = 102 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 0 ; } #Time-mean wave spectral kurtosis 'dimensionless' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 43 ; typeOfStatisticalProcessing = 0 ; } #Time-mean benjamin-Feir index 'dimensionless' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 44 ; typeOfStatisticalProcessing = 0 ; } #Time-mean wave spectral peakedness 'dimensionless' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 98 ; typeOfStatisticalProcessing = 0 ; } #Time-maximum wave induced mean sea level correction 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 87 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum ratio of wave angular and frequency width 'Numeric' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 80 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum number of events in freak waves statistics 'Numeric' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 89 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum U-component of atmospheric surface momentum flux 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 17 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum V-component of atmospheric surface momentum flux 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 18 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum U-component of surface momentum flux into ocean 'N m**-2' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 90 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum V-component of surface momentum flux into ocean 'N m**-2' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 91 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum wave turbulent energy flux into ocean 'W m**-2' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 92 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum wave directional width of first swell partition 'radians' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 56 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum wave frequency width of first swell partition 'dimensionless' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 59 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum wave directional width of second swell partition 'radians' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 57 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum wave frequency width of second swell partition 'dimensionless' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 60 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum wave directional width of third swell partition 'radians' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 58 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum wave frequency width of third swell partition 'dimensionless' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 61 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum wave energy flux magnitude 'W m**-1' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 78 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum wave energy flux mean direction 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 79 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum significant wave height of first swell partition 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 47 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum mean wave direction of first swell partition 'degrees' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 53 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum mean wave period of first swell partition 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 50 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum significant wave height of second swell partition 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 48 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum mean wave direction of second swell partition 'degrees' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 54 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum mean wave period of second swell partition 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 51 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum significant wave height of third swell partition 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 49 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum mean wave direction of third swell partition 'degrees' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 55 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum mean wave period of third swell partition 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 52 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum time domain maximum individual crest height 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 94 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum time domain maximum individual wave height 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 95 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum space time maximum individual crest height 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 96 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum space time maximum individual wave height 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 97 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum peak wave period of wind waves 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 35 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum peak wave period of total swell 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 36 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum peak wave period of first swell partition 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 65 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum peak wave period of second swell partition 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 66 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum peak wave period of third swell partition 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 67 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum peak wave direction (total) 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 46 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum peak wave direction of wind waves 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 71 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum peak wave direction of total swell 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 72 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum peak wave direction of first swell partition 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 68 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum peak wave direction of second swell partition 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 69 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum peak wave direction of third swell partition 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 70 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum whitecap fraction 'Fraction' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 73 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum wave Spectral Skewness 'Numeric' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 77 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum free convective velocity over the oceans 'm s**-1' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 81 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum air density over the oceans 'kg m**-3' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 82 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum normalized energy flux into waves 'Numeric' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 83 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum normalized energy flux into ocean 'Numeric' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 85 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum normalized stress into ocean 'Numeric' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 84 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum U-component surface stokes drift 'm s**-1' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 21 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum V-component surface stokes drift 'm s**-1' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 22 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum period corresponding to maximum individual wave height 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 23 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum envelop-maximum individual wave height 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 93 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum mean wave period based on first moment 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 25 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum mean zero-crossing wave period 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 28 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum wave spectral directional width 'radians' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 31 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum mean wave period based on first moment for wind waves 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 26 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum mean wave period based on second moment for wind waves 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 29 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum wave spectral directional width for wind waves 'radians' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 32 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum mean wave period based on first moment for swell 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 27 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum mean wave period based on second moment for swell 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 30 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum wave spectral directional width for swell 'radians' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 33 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum significant height of combined wind waves and swell 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 3 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum mean wave direction 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 14 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum peak wave period 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 34 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum mean wave period 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 15 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum coefficient of drag with waves 'dimensionless' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 16 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum significant height of wind waves 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 5 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum mean direction of wind waves 'degrees' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 75 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum mean period of wind waves 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 6 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum significant height of total swell 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum mean direction of total swell 'degrees' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 74 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum mean period of total swell 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 9 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum mean square slope of waves 'dimensionless' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 20 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum 10 metre wind speed 'm s**-1' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 40 ; typeOfFirstFixedSurface = 102 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum 10 metre wind direction 'degrees' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 41 ; typeOfFirstFixedSurface = 102 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum wave spectral kurtosis 'dimensionless' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 43 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum benjamin-Feir index 'dimensionless' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 44 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum wave spectral peakedness 'dimensionless' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 98 ; typeOfStatisticalProcessing = 2 ; } #Time-minimum wave induced mean sea level correction 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 87 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum ratio of wave angular and frequency width 'Numeric' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 80 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum number of events in freak waves statistics 'Numeric' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 89 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum U-component of atmospheric surface momentum flux 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 17 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum V-component of atmospheric surface momentum flux 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 18 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum U-component of surface momentum flux into ocean 'N m**-2' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 90 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum V-component of surface momentum flux into ocean 'N m**-2' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 91 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum wave turbulent energy flux into ocean 'W m**-2' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 92 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum wave directional width of first swell partition 'radians' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 56 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum wave frequency width of first swell partition 'dimensionless' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 59 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum wave directional width of second swell partition 'radians' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 57 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum wave frequency width of second swell partition 'dimensionless' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 60 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum wave directional width of third swell partition 'radians' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 58 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum wave frequency width of third swell partition 'dimensionless' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 61 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum wave energy flux magnitude 'W m**-1' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 78 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum wave energy flux mean direction 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 79 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum significant wave height of first swell partition 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 47 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum mean wave direction of first swell partition 'degrees' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 53 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum mean wave period of first swell partition 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 50 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum significant wave height of second swell partition 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 48 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum mean wave direction of second swell partition 'degrees' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 54 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum mean wave period of second swell partition 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 51 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum significant wave height of third swell partition 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 49 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum mean wave direction of third swell partition 'degrees' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 55 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum mean wave period of third swell partition 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 52 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum time domain maximum individual crest height 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 94 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum time domain maximum individual wave height 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 95 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum space time maximum individual crest height 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 96 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum space time maximum individual wave height 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 97 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum peak wave period of wind waves 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 35 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum peak wave period of total swell 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 36 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum peak wave period of first swell partition 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 65 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum peak wave period of second swell partition 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 66 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum peak wave period of third swell partition 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 67 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum peak wave direction (total) 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 46 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum peak wave direction of wind waves 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 71 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum peak wave direction of total swell 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 72 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum peak wave direction of first swell partition 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 68 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum peak wave direction of second swell partition 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 69 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum peak wave direction of third swell partition 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 70 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum whitecap fraction 'Fraction' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 73 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum wave Spectral Skewness 'Numeric' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 77 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum free convective velocity over the oceans 'm s**-1' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 81 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum air density over the oceans 'kg m**-3' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 82 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum normalized energy flux into waves 'Numeric' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 83 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum normalized energy flux into ocean 'Numeric' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 85 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum normalized stress into ocean 'Numeric' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 84 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum U-component surface stokes drift 'm s**-1' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 21 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum V-component surface stokes drift 'm s**-1' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 22 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum period corresponding to maximum individual wave height 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 23 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum envelop-maximum individual wave height 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 93 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum mean wave period based on first moment 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 25 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum mean zero-crossing wave period 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 28 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum wave spectral directional width 'radians' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 31 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum mean wave period based on first moment for wind waves 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 26 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum mean wave period based on second moment for wind waves 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 29 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum wave spectral directional width for wind waves 'radians' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 32 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum mean wave period based on first moment for swell 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 27 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum mean wave period based on second moment for swell 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 30 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum wave spectral directional width for swell 'radians' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 33 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum significant height of combined wind waves and swell 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 3 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum mean wave direction 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 14 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum peak wave period 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 34 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum mean wave period 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 15 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum coefficient of drag with waves 'dimensionless' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 16 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum significant height of wind waves 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 5 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum mean direction of wind waves 'degrees' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 75 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum mean period of wind waves 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 6 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum significant height of total swell 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum mean direction of total swell 'degrees' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 74 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum mean period of total swell 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 9 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum mean square slope of waves 'dimensionless' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 20 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum 10 metre wind speed 'm s**-1' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 40 ; typeOfFirstFixedSurface = 102 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum 10 metre wind direction 'degrees' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 41 ; typeOfFirstFixedSurface = 102 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum wave spectral kurtosis 'dimensionless' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 43 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum benjamin-Feir index 'dimensionless' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 44 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum wave spectral peakedness 'dimensionless' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 98 ; typeOfStatisticalProcessing = 3 ; } #Time-standard-deviation wave induced mean sea level correction 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 87 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation ratio of wave angular and frequency width 'Numeric' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 80 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation number of events in freak waves statistics 'Numeric' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 89 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation U-component of atmospheric surface momentum flux 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 17 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation V-component of atmospheric surface momentum flux 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 18 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation U-component of surface momentum flux into ocean 'N m**-2' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 90 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation V-component of surface momentum flux into ocean 'N m**-2' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 91 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation wave turbulent energy flux into ocean 'W m**-2' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 92 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation wave directional width of first swell partition 'radians' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 56 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation wave frequency width of first swell partition 'dimensionless' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 59 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation wave directional width of second swell partition 'radians' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 57 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation wave frequency width of second swell partition 'dimensionless' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 60 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation wave directional width of third swell partition 'radians' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 58 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation wave frequency width of third swell partition 'dimensionless' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 61 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation wave energy flux magnitude 'W m**-1' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 78 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation wave energy flux mean direction 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 79 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation significant wave height of first swell partition 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 47 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation mean wave direction of first swell partition 'degrees' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 53 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation mean wave period of first swell partition 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 50 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation significant wave height of second swell partition 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 48 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation mean wave direction of second swell partition 'degrees' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 54 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation mean wave period of second swell partition 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 51 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation significant wave height of third swell partition 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 49 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation mean wave direction of third swell partition 'degrees' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 55 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation mean wave period of third swell partition 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 52 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation time domain maximum individual crest height 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 94 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation time domain maximum individual wave height 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 95 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation space time maximum individual crest height 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 96 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation space time maximum individual wave height 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 97 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation peak wave period of wind waves 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 35 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation peak wave period of total swell 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 36 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation peak wave period of first swell partition 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 65 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation peak wave period of second swell partition 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 66 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation peak wave period of third swell partition 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 67 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation peak wave direction (total) 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 46 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation peak wave direction of wind waves 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 71 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation peak wave direction of total swell 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 72 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation peak wave direction of first swell partition 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 68 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation peak wave direction of second swell partition 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 69 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation peak wave direction of third swell partition 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 70 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation whitecap fraction 'Fraction' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 73 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation wave Spectral Skewness 'Numeric' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 77 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation free convective velocity over the oceans 'm s**-1' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 81 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation air density over the oceans 'kg m**-3' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 82 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation normalized energy flux into waves 'Numeric' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 83 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation normalized energy flux into ocean 'Numeric' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 85 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation normalized stress into ocean 'Numeric' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 84 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation U-component surface stokes drift 'm s**-1' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 21 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation V-component surface stokes drift 'm s**-1' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 22 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation period corresponding to maximum individual wave height 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 23 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation envelop-maximum individual wave height 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 93 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation mean wave period based on first moment 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 25 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation mean zero-crossing wave period 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 28 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation wave spectral directional width 'radians' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 31 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation mean wave period based on first moment for wind waves 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 26 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation mean wave period based on second moment for wind waves 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 29 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation wave spectral directional width for wind waves 'radians' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 32 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation mean wave period based on first moment for swell 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 27 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation mean wave period based on second moment for swell 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 30 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation wave spectral directional width for swell 'radians' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 33 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation significant height of combined wind waves and swell 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 3 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation mean wave direction 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 14 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation peak wave period 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 34 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation mean wave period 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 15 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation coefficient of drag with waves 'dimensionless' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 16 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation significant height of wind waves 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 5 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation mean direction of wind waves 'degrees' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 75 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation mean period of wind waves 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 6 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation significant height of total swell 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation mean direction of total swell 'degrees' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 74 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation mean period of total swell 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 9 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation mean square slope of waves 'dimensionless' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 20 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation 10 metre wind speed 'm s**-1' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 40 ; typeOfFirstFixedSurface = 102 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation 10 metre wind direction 'degrees' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 41 ; typeOfFirstFixedSurface = 102 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation wave spectral kurtosis 'dimensionless' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 43 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation benjamin-Feir index 'dimensionless' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 44 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation wave spectral peakedness 'dimensionless' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 98 ; typeOfStatisticalProcessing = 6 ; } #Mean sea water temperature in the upper 300 m 'K' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 15 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 160 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = 300 ; scaleFactorOfSecondFixedSurface = 0 ; } #Total column vertically-integrated divergence of water geopotential flux 'W m**-2' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 42 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated eastward enthalpy flux 'W m**-1' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 5 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated northward enthalpy flux 'W m**-1' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated divergence of enthalpy flux 'W m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 13 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated divergence of water enthalpy flux 'W m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 18 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated divergence of water vapour flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 160 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated divergence of cloud liquid water flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 161 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated divergence of cloud ice water flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 162 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated divergence of rain flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 163 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated divergence of snow flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 164 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated eastward cloud liquid water flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 152 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated northward cloud liquid water flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 153 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated eastward cloud ice water flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 154 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated northward cloud ice water flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 155 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated eastward rain flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 156 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated northward rain flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 157 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated eastward snow flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 158 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated northward snow flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 159 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated net source of ozone 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 81 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; constituentType = 0 ; } #Total column vertically-integrated water enthalpy 'J m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 4 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Temperature tendency due to short-wave radiation 'K s**-1' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 22 ; } #Temperature tendency due to long-wave radiation 'K s**-1' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 23 ; } #Temperature tendency due to short-wave radiation, clear sky 'K s**-1' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 24 ; } #Temperature tendency due to long-wave radiation, clear sky 'K s**-1' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 25 ; } #Updraught mass flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 27 ; } #Downdraught mass flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 28 ; } #Updraught detrainment rate 'kg m**-3 s**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 29 ; } #Downdraught detrainment rate 'kg m**-3 s**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 30 ; } #Total precipitation flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 52 ; } #Turbulent diffusion coefficient for heat 'm**2 s**-1' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 20 ; } #Temperature tendency due to parametrisations 'K s**-1' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 26 ; } #Specific humidity tendency due to parametrisations 'kg kg**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 108 ; } #Eastward wind tendency due to parametrisations 'm s**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 39 ; } #Northward wind tendency due to parametrisations 'm s**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 40 ; } #2 metre specific humidity 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 103 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 2 ; scaleFactorOfFirstFixedSurface = 0 ; } #Particulate matter d <= 1 um 'kg m**-3' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 0 ; scaleFactorOfSecondSize = missing() ; scaledValueOfFirstSize = 1 ; scaleFactorOfFirstSize = 6 ; typeOfSizeInterval = 5 ; aerosolType = 62026 ; scaledValueOfSecondSize = missing() ; is_aerosol = 1 ; } #Particulate matter d <= 2.5 um 'kg m**-3' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 0 ; scaleFactorOfSecondSize = missing() ; scaledValueOfFirstSize = 25 ; scaleFactorOfFirstSize = 7 ; typeOfSizeInterval = 5 ; aerosolType = 62026 ; scaledValueOfSecondSize = missing() ; is_aerosol = 1 ; } #Particulate matter d <= 10 um 'kg m**-3' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 0 ; scaleFactorOfSecondSize = missing() ; scaledValueOfFirstSize = 10 ; scaleFactorOfFirstSize = 6 ; typeOfSizeInterval = 5 ; aerosolType = 62026 ; scaledValueOfSecondSize = missing() ; is_aerosol = 1 ; } #Volcanic sulfur dioxide mass mixing ratio 'kg kg**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 2 ; constituentType = 8 ; is_chemical_srcsink = 1 ; sourceSinkChemicalPhysicalProcess = 7 ; } #UV visible albedo for diffuse radiation (climatological) '%' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 55 ; typeOfGeneratingProcess = 9 ; } #UV visible albedo for direct radiation (climatological) '%' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 56 ; typeOfGeneratingProcess = 9 ; } #UV visible albedo for direct radiation, geometric component (climatological) '%' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 57 ; typeOfGeneratingProcess = 9 ; } #UV visible albedo for direct radiation, isotropic component (climatological) '%' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 58 ; typeOfGeneratingProcess = 9 ; } #UV visible albedo for direct radiation, volumetric component (climatological) '%' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 59 ; typeOfGeneratingProcess = 9 ; } #Ammonium aerosol mass mixing ratio 'kg kg**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 2 ; aerosolType = 62003 ; is_aerosol = 1 ; } #Nitrate aerosol optical depth at 550 nm 'dimensionless' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 102 ; scaleFactorOfFirstWavelength = 8 ; typeOfSizeInterval = 255 ; aerosolType = 62004 ; scaledValueOfFirstWavelength = 55 ; typeOfWavelengthInterval = 11 ; is_aerosol_optical = 1 ; } #Ammonium aerosol optical depth at 550 nm 'dimensionless' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 102 ; scaleFactorOfFirstWavelength = 8 ; typeOfSizeInterval = 255 ; aerosolType = 62003 ; scaledValueOfFirstWavelength = 55 ; typeOfWavelengthInterval = 11 ; is_aerosol_optical = 1 ; } #Biogenic secondary organic aerosol mass mixing ratio 'kg kg**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 2 ; aerosolType = 62032 ; is_aerosol = 1 ; } #Anthropogenic secondary organic aerosol mass mixing ratio 'kg kg**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 2 ; aerosolType = 62033 ; is_aerosol = 1 ; } #Near IR albedo for diffuse radiation (climatological) '%' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 9 ; typeOfGeneratingProcess = 9 ; } #Near IR albedo for direct radiation (climatological) '%' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 10 ; typeOfGeneratingProcess = 9 ; } #Near IR albedo for direct radiation, geometric component (climatological) '%' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 11 ; typeOfGeneratingProcess = 9 ; } #Near IR albedo for direct radiation, isotropic component (climatological) '%' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 12 ; typeOfGeneratingProcess = 9 ; } #Near IR albedo for direct radiation, volumetric component (climatological) '%' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 13 ; typeOfGeneratingProcess = 9 ; } #Volcanic sulfur dioxide mass mixing ratio increment 'kg kg**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 2 ; constituentType = 8 ; typeOfGeneratingProcess = 20 ; is_chemical_srcsink = 1 ; sourceSinkChemicalPhysicalProcess = 7 ; } #Ammonium aerosol mass mixing ratio 'kg kg**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 2 ; aerosolType = 62003 ; typeOfGeneratingProcess = 20 ; is_aerosol = 1 ; } #Biogenic secondary organic aerosol mass mixing ratio increment 'kg kg**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 2 ; aerosolType = 62032 ; typeOfGeneratingProcess = 20 ; is_aerosol = 1 ; } #Anthropogenic secondary organic aerosol mass mixing ratio increment 'kg kg**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 2 ; aerosolType = 62033 ; typeOfGeneratingProcess = 20 ; is_aerosol = 1 ; } #Cosine of solar zenith angle 'Numeric' = { discipline = 3 ; parameterCategory = 1 ; parameterNumber = 24 ; typeOfFirstFixedSurface = 1 ; } #Dry deposition of ammonium aerosol 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 6 ; aerosolType = 62003 ; is_aerosol = 1 ; } #Sedimentation of ammonium aerosol 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 11 ; aerosolType = 62003 ; is_aerosol = 1 ; } #Wet deposition of ammonium aerosol by large-scale precipitation 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 9 ; aerosolType = 62003 ; is_aerosol = 1 ; } #Wet deposition of ammonium aerosol by convective precipitation 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 10 ; aerosolType = 62003 ; is_aerosol = 1 ; } #Vertically integrated mass of ammonium aerosol 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; aerosolType = 62003 ; is_aerosol = 1 ; } #Dry deposition of biogenic secondary organic aerosol 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 12 ; aerosolType = 62032 ; is_aerosol = 1 ; } #Sedimentation of biogenic secondary organic aerosol 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 11 ; aerosolType = 62032 ; is_aerosol = 1 ; } #Wet deposition of biogenic secondary organic aerosol by large-scale precipitation 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 9 ; aerosolType = 62032 ; is_aerosol = 1 ; } #Wet deposition of biogenic secondary organic aerosol by convective precipitation 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 10 ; aerosolType = 62032 ; is_aerosol = 1 ; } #Vertically integrated mass of biogenic secondary organic aerosol 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 1 ; aerosolType = 62032 ; is_aerosol = 1 ; } #Dry deposition of anthropogenic secondary organic aerosol 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 12 ; aerosolType = 62033 ; is_aerosol = 1 ; } #Sedimentation of anthropogenic secondary organic aerosol 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 11 ; aerosolType = 62033 ; is_aerosol = 1 ; } #Wet deposition of anthropogenic secondary organic aerosol by large-scale precipitation 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 9 ; aerosolType = 62033 ; is_aerosol = 1 ; } #Wet deposition of anthropogenic secondary organic aerosol by convective precipitation 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 10 ; aerosolType = 62033 ; is_aerosol = 1 ; } #Vertically integrated mass of anthropogenic secondary organic aerosol 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 1 ; aerosolType = 62033 ; is_aerosol = 1 ; } #Secondary organic aerosol optical depth at 550 nm 'dimensionless' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 102 ; scaleFactorOfFirstWavelength = 9 ; aerosolType = 62012 ; scaledValueOfFirstWavelength = 550 ; scaledValueOfSecondWavelength = missing() ; typeOfWavelengthInterval = 11 ; scaleFactorOfSecondWavelength = missing() ; is_aerosol_optical = 1 ; } #Ammonia mass mixing ratio 'kg kg**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 2 ; constituentType = 9 ; is_chemical = 1 ; } #Nitrogen monoxide mass mixing ratio 'kg kg**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 2 ; constituentType = 11 ; is_chemical = 1 ; } #Aromatic peroxy radical mass mixing ratio 'kg kg**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 2 ; constituentType = 60029 ; is_chemical = 1 ; } #Ethyne mass mixing ratio 'kg kg**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 2 ; constituentType = 10010 ; is_chemical = 1 ; } #Acetonitrile mass mixing ratio 'kg kg**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 2 ; constituentType = 10007 ; is_chemical = 1 ; } #Methyl peroxy nitrate mass mixing ratio 'kg kg**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 2 ; constituentType = 10055 ; is_chemical = 1 ; } #Hydrogen cyanide mass mixing ratio 'kg kg**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 2 ; constituentType = 10006 ; is_chemical = 1 ; } #Hydroperoxy aldehydes type 1 mass mixing ratio 'kg kg**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 2 ; constituentType = 60058 ; is_chemical = 1 ; } #Hydroperoxy aldehydes type 2 mass mixing ratio 'kg kg**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 2 ; constituentType = 60059 ; is_chemical = 1 ; } #Isoprene peroxy type B mass mixing ratio 'kg kg**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 2 ; constituentType = 60056 ; is_chemical = 1 ; } #Isoprene peroxy type D mass mixing ratio 'kg kg**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 2 ; constituentType = 60057 ; is_chemical = 1 ; } #Column integrated mass density of Volcanic sulfur dioxide 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 1 ; constituentType = 8 ; is_chemical_srcsink = 1 ; sourceSinkChemicalPhysicalProcess = 7 ; } #Column integrated mass density of Aromatic peroxy radical 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 1 ; constituentType = 60029 ; is_chemical = 1 ; } #Column integrated mass density of Ethyne 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 1 ; constituentType = 10010 ; is_chemical = 1 ; } #Column integrated mass density of Acetonitrile 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 1 ; constituentType = 10007 ; is_chemical = 1 ; } #Column integrated mass density of Methyl peroxy nitrate 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 1 ; constituentType = 10055 ; is_chemical = 1 ; } #Column integrated mass density of Hydrogen cyanide 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 1 ; constituentType = 10006 ; is_chemical = 1 ; } #Column integrated mass density of Hydroperoxy aldehydes type 1 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 1 ; constituentType = 60058 ; is_chemical = 1 ; } #Column integrated mass density of Hydroperoxy aldehydes type 2 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 1 ; constituentType = 60059 ; is_chemical = 1 ; } #Column integrated mass density of Isoprene peroxy type B 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 1 ; constituentType = 60056 ; is_chemical = 1 ; } #Column integrated mass density of Isoprene peroxy type D 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 1 ; constituentType = 60057 ; is_chemical = 1 ; } #Atmosphere emission mass flux of Volcanic sulfur dioxide 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 3 ; constituentType = 8 ; is_chemical_srcsink = 1 ; sourceSinkChemicalPhysicalProcess = 7 ; } #Atmosphere emission mass flux of Aromatic peroxy radical 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 3 ; constituentType = 60029 ; is_chemical = 1 ; } #Atmosphere emission mass flux of Ethyne 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 3 ; constituentType = 10010 ; is_chemical = 1 ; } #Atmosphere emission mass flux of Acetonitrile 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 3 ; constituentType = 10007 ; is_chemical = 1 ; } #Atmosphere emission mass flux of Methyl peroxy nitrate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 3 ; constituentType = 10055 ; is_chemical = 1 ; } #Atmosphere emission mass flux of Hydrogen cyanide 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 3 ; constituentType = 10006 ; is_chemical = 1 ; } #Atmosphere emission mass flux of Hydroperoxy aldehydes type 1 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 3 ; constituentType = 60058 ; is_chemical = 1 ; } #Atmosphere emission mass flux of Hydroperoxy aldehydes type 2 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 3 ; constituentType = 60059 ; is_chemical = 1 ; } #Atmosphere emission mass flux of Isoprene peroxy type B 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 3 ; constituentType = 60056 ; is_chemical = 1 ; } #Atmosphere emission mass flux of Isoprene peroxy type D 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 3 ; constituentType = 60057 ; is_chemical = 1 ; } #Dry deposition velocity of Volcanic sulfur dioxide 'm s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 15 ; constituentType = 8 ; is_chemical_srcsink = 1 ; sourceSinkChemicalPhysicalProcess = 7 ; } #Dry deposition velocity of Aromatic peroxy radical 'm s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 15 ; constituentType = 60029 ; is_chemical = 1 ; } #Dry deposition velocity of Ethyne 'm s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 15 ; constituentType = 10010 ; is_chemical = 1 ; } #Dry deposition velocity of Acetonitrile 'm s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 15 ; constituentType = 10007 ; is_chemical = 1 ; } #Dry deposition velocity of Methyl peroxy nitrate 'm s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 15 ; constituentType = 10055 ; is_chemical = 1 ; } #Dry deposition velocity of Hydrogen cyanide 'm s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 15 ; constituentType = 10006 ; is_chemical = 1 ; } #Dry deposition velocity of Hydroperoxy aldehydes type 1 'm s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 15 ; constituentType = 60058 ; is_chemical = 1 ; } #Dry deposition velocity of Hydroperoxy aldehydes type 2 'm s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 15 ; constituentType = 60059 ; is_chemical = 1 ; } #Dry deposition velocity of Isoprene peroxy type B 'm s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 15 ; constituentType = 60056 ; is_chemical = 1 ; } #Dry deposition velocity of Isoprene peroxy type D 'm s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 15 ; constituentType = 60057 ; is_chemical = 1 ; } #Time-integrated dry deposition mass flux of Ozone 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 6 ; constituentType = 0 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated dry deposition mass flux of Hydrogen peroxide 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 6 ; constituentType = 19 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated dry deposition mass flux of Carbon monoxide 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 6 ; constituentType = 4 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated dry deposition mass flux of Nitric acid 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 6 ; constituentType = 17 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated dry deposition mass flux of Methyl peroxide 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 6 ; constituentType = 10002 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated dry deposition mass flux of Formaldehyde 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 6 ; constituentType = 7 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated dry deposition mass flux of Aldehydes 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 6 ; constituentType = 60018 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated dry deposition mass flux of Peroxyacetyl nitrate 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 6 ; constituentType = 10013 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated dry deposition mass flux of Peroxides 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 6 ; constituentType = 60019 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated dry deposition mass flux of Organic nitrates 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 6 ; constituentType = 60020 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated dry deposition mass flux of Isoprene 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 6 ; constituentType = 10017 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated dry deposition mass flux of Sulphur dioxide 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 6 ; constituentType = 8 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated dry deposition mass flux of Ammonia 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 6 ; constituentType = 9 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated dry deposition mass flux of Sulfate 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 6 ; constituentType = 22 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated dry deposition mass flux of Ammonium 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 6 ; constituentType = 10 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated dry deposition mass flux of Methyl glyoxal 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 6 ; constituentType = 10025 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated dry deposition mass flux of Nitrogen monoxide 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 6 ; constituentType = 11 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated dry deposition mass flux of Hydroperoxy radical 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 6 ; constituentType = 14 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated dry deposition mass flux of Methylperoxy radical 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 6 ; constituentType = 10001 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated dry deposition mass flux of Nitrogen dioxide 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 6 ; constituentType = 5 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated dry deposition mass flux of Nitrate radical 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 6 ; constituentType = 13 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated dry deposition mass flux of Dinitrogen pentoxide 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 6 ; constituentType = 15 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated dry deposition mass flux of Pernitric acid 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 6 ; constituentType = 18 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated dry deposition mass flux of Methanol 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 6 ; constituentType = 10004 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated dry deposition mass flux of Formic acid 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 6 ; constituentType = 10005 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated dry deposition mass flux of Methacrylic acid 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 6 ; constituentType = 10027 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated dry deposition mass flux of Ethane 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 6 ; constituentType = 10008 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated dry deposition mass flux of Ethanol 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 6 ; constituentType = 10011 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated dry deposition mass flux of Methacrolein 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 6 ; constituentType = 10028 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated dry deposition mass flux of Acetone 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 6 ; constituentType = 10029 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated dry deposition mass flux of Nitrous acid 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 6 ; constituentType = 16 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated dry deposition mass flux of Glycolaldehyde 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 6 ; constituentType = 10033 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated dry deposition mass flux of Glyoxal 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 6 ; constituentType = 10038 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated dry deposition mass flux of Hydroxyacetone 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 6 ; constituentType = 10041 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated dry deposition mass flux of all hydroxy-peroxides products of the reaction of hydroxy-isoprene adducts with O2 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 6 ; constituentType = 60032 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated dry deposition mass flux of Acetonitrile 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 6 ; constituentType = 10007 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated dry deposition mass flux of Hydrogen cyanide 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 6 ; constituentType = 10006 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Ozone 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 0 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Hydrogen peroxide 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 19 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Nitric acid 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 17 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Methyl peroxide 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 10002 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Formaldehyde 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 7 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Aldehydes 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 60018 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Peroxyacetyl nitrate 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 10013 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Peroxides 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 60019 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Organic nitrates 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 60020 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Isoprene 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 10017 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Sulphur dioxide 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 8 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Ammonia 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 9 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Sulfate 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 22 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Ammonium 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 10 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Methane sulfonic acid 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 10024 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Methyl glyoxal 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 10025 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Carbon monoxide 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 4 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Lead 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 30296 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Nitrogen monoxide 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 11 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Hydroperoxy radical 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 14 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Methylperoxy radical 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 10001 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Nitrogen dioxide 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 5 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Nitrate radical 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 13 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Dinitrogen pentoxide 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 15 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Pernitric acid 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 18 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Methanol 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 10004 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Formic acid 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 10005 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Methacrylic acid 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 10027 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Ethane 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 10008 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Ethanol 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 10011 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Methacrolein 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 10028 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Acetone 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 10029 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Chlorine nitrate 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 30 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Hypochlorous acid 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 29 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Hydrogen bromide 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 35 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Hypobromous acid 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 36 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Nitrous acid 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 16 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Toluene and less reactive aromatics 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 10022 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Xylene and more reactive aromatics 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 10023 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Glycolaldehyde 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 10033 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Glyoxal 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 10038 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Hydroxyacetone 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 10041 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of all hydroxy-peroxides products of the reaction of hydroxy-isoprene adducts with O2 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 60032 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Bromine nitrate 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 37 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Hydrogen chloride 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 20001 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Acetonitrile 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 10007 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Hydrogen cyanide 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 10006 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Hydroperoxy aldehydes type 1 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 10058 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #Time-integrated wet deposition mass flux of Hydroperoxy aldehydes type 2 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; constituentType = 10059 ; typeOfStatisticalProcessing = 1 ; is_chemical = 1 ; } #-10 degrees C isothermal level (atm) 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 20 ; scaledValueOfFirstFixedSurface = 26315 ; scaleFactorOfFirstFixedSurface = 2 ; } #Surface direct short-wave (solar) radiation 'J m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 13 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Surface direct short-wave radiation, clear sky 'J m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 61 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Cloud base height 'm' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 11 ; typeOfFirstFixedSurface = 2 ; } #0 degrees C isothermal level (atm) 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 20 ; scaledValueOfFirstFixedSurface = 27315 ; scaleFactorOfFirstFixedSurface = 2 ; } #Maximum 10 metre wind gust in the last 3 hours 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 22 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; indicatorOfUnitForTimeRange = 1 ; typeOfStatisticalProcessing = 2 ; lengthOfTimeRange = 3 ; } #Instantaneous 10 metre wind gust 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 22 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; } #Relative humidity with respect to water '%' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 93 ; } #Relative humidity with respect to ice '%' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 94 ; } #Snow albedo '%' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 19 ; } #Fraction of convective precipitation cover 'Proportion' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 37 ; } #Maximum CAPE in the last 6 hours 'J kg**-1' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; indicatorOfUnitForTimeRange = 1 ; typeOfStatisticalProcessing = 2 ; lengthOfTimeRange = 6 ; } #Maximum CAPES in the last 6 hours 'm**2 s**-2' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 19 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; indicatorOfUnitForTimeRange = 1 ; typeOfStatisticalProcessing = 2 ; lengthOfTimeRange = 6 ; } #2 metre relative humidity with respect to water '%' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 93 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 2 ; scaleFactorOfFirstFixedSurface = 0 ; } #Liquid water content in snow pack 'kg m**-2' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 23 ; } #Convective available potential energy shear 'm**2 s**-2' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 19 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Tropopause pressure 'Pa' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 7 ; typeOfSecondFixedSurface = 255 ; } #Height of convective cloud top 'm' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 27 ; } #Height of zero-degree wet-bulb temperature 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 44 ; } #Height of one-degree wet-bulb temperature 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 45 ; } #Instantaneous total lightning flash density 'km**-2 day**-1' = { discipline = 0 ; parameterCategory = 17 ; parameterNumber = 4 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Averaged total lightning flash density in the last hour 'km**-2 day**-1' = { discipline = 0 ; parameterCategory = 17 ; parameterNumber = 4 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; indicatorOfUnitForTimeRange = 1 ; typeOfStatisticalProcessing = 0 ; lengthOfTimeRange = 1 ; } #Instantaneous cloud-to-ground lightning flash density 'km**-2 day**-1' = { discipline = 0 ; parameterCategory = 17 ; parameterNumber = 2 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Averaged cloud-to-ground lightning flash density in the last hour 'km**-2 day**-1' = { discipline = 0 ; parameterCategory = 17 ; parameterNumber = 2 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; indicatorOfUnitForTimeRange = 1 ; typeOfStatisticalProcessing = 0 ; lengthOfTimeRange = 1 ; } #Unbalanced component of specific humidity 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 118 ; } #Unbalanced component of specific cloud liquid water content 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 119 ; } #Unbalanced component of specific cloud ice water content 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 120 ; } #Averaged total lightning flash density in the last 3 hours 'km**-2 day**-1' = { discipline = 0 ; parameterCategory = 17 ; parameterNumber = 4 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; indicatorOfUnitForTimeRange = 1 ; typeOfStatisticalProcessing = 0 ; lengthOfTimeRange = 3 ; } #Averaged total lightning flash density in the last 6 hours 'km**-2 day**-1' = { discipline = 0 ; parameterCategory = 17 ; parameterNumber = 4 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; indicatorOfUnitForTimeRange = 1 ; typeOfStatisticalProcessing = 0 ; lengthOfTimeRange = 6 ; } #Averaged cloud-to-ground lightning flash density in the last 3 hours 'km**-2 day**-1' = { discipline = 0 ; parameterCategory = 17 ; parameterNumber = 2 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; indicatorOfUnitForTimeRange = 1 ; typeOfStatisticalProcessing = 0 ; lengthOfTimeRange = 3 ; } #Averaged cloud-to-ground lightning flash density in the last 6 hours 'km**-2 day**-1' = { discipline = 0 ; parameterCategory = 17 ; parameterNumber = 2 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; indicatorOfUnitForTimeRange = 1 ; typeOfStatisticalProcessing = 0 ; lengthOfTimeRange = 6 ; } #Soil moisture top 20 cm 'kg m**-3' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 19 ; typeOfFirstFixedSurface = 106 ; typeOfSecondFixedSurface = 106 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = 2 ; scaleFactorOfSecondFixedSurface = 1 ; } #Soil moisture top 100 cm 'kg m**-3' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 19 ; typeOfFirstFixedSurface = 106 ; typeOfSecondFixedSurface = 106 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = 1 ; scaleFactorOfSecondFixedSurface = 0 ; } #Total column supercooled liquid water 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 167 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column rain water 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 45 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column snow water 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 46 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Ice temperature 'K' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 6 ; } #Soil temperature top 20 cm 'K' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 18 ; typeOfFirstFixedSurface = 106 ; typeOfSecondFixedSurface = 106 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = 2 ; scaleFactorOfSecondFixedSurface = 1 ; } #Soil temperature top 100 cm 'K' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 18 ; typeOfFirstFixedSurface = 106 ; typeOfSecondFixedSurface = 106 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = 1 ; scaleFactorOfSecondFixedSurface = 0 ; } #Atmosphere emission mass flux of Methane from Wetlands 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 3 ; constituentType = 2 ; is_chemical_srcsink = 1 ; sourceSinkChemicalPhysicalProcess = 10 ; } #Accumulated mass emission of methane from Wetlands 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 3 ; constituentType = 2 ; typeOfStatisticalProcessing = 1 ; is_chemical_srcsink = 1 ; sourceSinkChemicalPhysicalProcess = 10 ; } #Surface short-wave (solar) radiation downward clear-sky 'J m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 52 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Surface long-wave (thermal) radiation downward clear-sky 'J m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 8 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Convective precipitation 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 37 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Water runoff and drainage 'kg m**-2' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 33 ; } #Instantaneous large-scale precipitation fraction 'Proportion' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 36 ; typeOfFirstFixedSurface = 1 ; } #Convective rain rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 76 ; typeOfFirstFixedSurface = 1 ; } #Large scale rain rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 77 ; typeOfFirstFixedSurface = 1 ; } #Convective snowfall rate water equivalent 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 55 ; typeOfFirstFixedSurface = 1 ; } #Large scale snowfall rate water equivalent 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 56 ; typeOfFirstFixedSurface = 1 ; } #Maximum total precipitation rate since previous post-processing 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 52 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Minimum total precipitation rate since previous post-processing 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 52 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Mixed-layer CAPE in the lowest 50 hPa 'J kg**-1' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 18 ; scaledValueOfFirstFixedSurface = 5000 ; scaleFactorOfFirstFixedSurface = 0 ; } #Mixed-layer CIN in the lowest 50 hPa 'J kg**-1' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 7 ; typeOfFirstFixedSurface = 18 ; scaledValueOfFirstFixedSurface = 5000 ; scaleFactorOfFirstFixedSurface = 0 ; } #Mixed-layer CAPE in the lowest 100 hPa 'J kg**-1' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 18 ; scaledValueOfFirstFixedSurface = 10000 ; scaleFactorOfFirstFixedSurface = 0 ; } #Mixed-layer CIN in the lowest 100 hPa 'J kg**-1' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 7 ; typeOfFirstFixedSurface = 18 ; scaledValueOfFirstFixedSurface = 10000 ; scaleFactorOfFirstFixedSurface = 0 ; } #Most-unstable CAPE 'J kg**-1' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 17 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; } #Most-unstable CIN 'J kg**-1' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 7 ; typeOfFirstFixedSurface = 17 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; } #Departure level of the most unstable parcel expressed as Pressure 'Pa' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 17 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; } #200 metre U wind component 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 2 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 200 ; scaleFactorOfFirstFixedSurface = 0 ; } #200 metre V wind component 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 3 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 200 ; scaleFactorOfFirstFixedSurface = 0 ; } #200 metre wind speed 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 200 ; scaleFactorOfFirstFixedSurface = 0 ; } #100 metre wind speed 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 100 ; scaleFactorOfFirstFixedSurface = 0 ; } #Urban cover '(0 - 1)' = { discipline = 2 ; parameterCategory = 6 ; parameterNumber = 0 ; } #Road Cover '(0 - 1)' = { discipline = 2 ; parameterCategory = 6 ; parameterNumber = 1 ; } #Building cover '(0 - 1)' = { discipline = 2 ; parameterCategory = 6 ; parameterNumber = 2 ; } #Building height 'm' = { discipline = 2 ; parameterCategory = 6 ; parameterNumber = 3 ; } #Vertical-to-horizontal area ratio 'm**2 m**-2' = { discipline = 2 ; parameterCategory = 6 ; parameterNumber = 4 ; } #Standard deviation of building height 'm' = { discipline = 2 ; parameterCategory = 6 ; parameterNumber = 5 ; } #Wetland cover '(0 - 1)' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 45 ; } #Wetland type '(Code table 4.239)' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 46 ; } #Irrigation cover '(0 - 1)' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 47 ; } #C4 crop cover '(0 - 1)' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 48 ; } #C4 grass cover '(0 - 1)' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 49 ; } #Accumulated freezing rain water equivalent 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 67 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Runoff water equivalent (surface plus subsurface) 'kg m**-2' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 42 ; typeOfStatisticalProcessing = 1 ; } #Snow evaporation water equivalent 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 148 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Potential evaporation rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 143 ; typeOfFirstFixedSurface = 1 ; } #Potential evaporation 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 143 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Tile fraction 'Proportion' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 36 ; } #Tile percentage '%' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 37 ; } #Forecast logarithm of surface roughness length for moisture 'Numeric' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 55 ; typeOfFirstFixedSurface = 1 ; } #Surface runoff rate 'kg m**-2 s**-1' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 51 ; typeOfFirstFixedSurface = 1 ; } #Surface runoff 'kg m**-2' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 51 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Sub-surface runoff rate 'kg m**-2 s**-1' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 52 ; typeOfFirstFixedSurface = 1 ; } #Sub-surface runoff 'kg m**-2' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 52 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Reflectance in 0.4 micron channel '%' = { discipline = 3 ; parameterCategory = 1 ; parameterNumber = 30 ; } #Vertical divergence 's**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 59 ; } #Drag thermal coefficient 'Numeric' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 60 ; typeOfFirstFixedSurface = 1 ; } #Drag evaporation coefficient 'Numeric' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 61 ; typeOfFirstFixedSurface = 1 ; } #Pressure departure from hydrostatic state 'Pa' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 46 ; } #Surface net radiation flux (SW and LW) 'W m**-2' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 46 ; typeOfFirstFixedSurface = 1 ; } #Top net radiation flux (SW and LW) 'W m**-2' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 46 ; typeOfFirstFixedSurface = 8 ; } #Global irradiance on tilted surfaces 'W m**-2' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 47 ; } #Eady growth rate 'day**-1' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 22 ; } #Tropical cyclones track density 'Numeric' = { discipline = 0 ; parameterCategory = 191 ; parameterNumber = 4 ; } #Canopy air temperature 'K' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 63 ; } #Soil wetness index (total layer) 'Numeric' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 30 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 151 ; } #Soil wetness index (root zone) 'Numeric' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 30 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 167 ; } #Soil wetness index (layer) 'Numeric' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 30 ; typeOfFirstFixedSurface = 151 ; typeOfSecondFixedSurface = 151 ; } #Distance downward from roof surface 'm' = { discipline = 2 ; parameterCategory = 6 ; parameterNumber = 6 ; } #Distance inward from outer wall surface 'm' = { discipline = 2 ; parameterCategory = 6 ; parameterNumber = 7 ; } #Distance downward from road surface 'm' = { discipline = 2 ; parameterCategory = 6 ; parameterNumber = 8 ; } #Renewable power capacity 'W' = { discipline = 20 ; parameterCategory = 3 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Renewable power production rate 'W' = { discipline = 20 ; parameterCategory = 3 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Renewable power production 'W s' = { discipline = 20 ; parameterCategory = 3 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Wind power capacity 'W' = { discipline = 20 ; parameterCategory = 3 ; parameterNumber = 2 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Wind power production rate 'W' = { discipline = 20 ; parameterCategory = 3 ; parameterNumber = 3 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Wind power production 'W s' = { discipline = 20 ; parameterCategory = 3 ; parameterNumber = 3 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Solar photovoltaic (PV) power capacity 'W' = { discipline = 20 ; parameterCategory = 3 ; parameterNumber = 4 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Solar photovoltaic (PV) power production rate 'W' = { discipline = 20 ; parameterCategory = 3 ; parameterNumber = 5 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Solar photovoltaic (PV) power production 'W s' = { discipline = 20 ; parameterCategory = 3 ; parameterNumber = 5 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Graupel (snow pellets) precipitation 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 75 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated total lightning flash density 'km**-2' = { discipline = 0 ; parameterCategory = 17 ; parameterNumber = 4 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Pressure at cloud base 'Pa' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 2 ; } #Geometric height of adiabatic condensation level above ground 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 34 ; typeOfFirstFixedSurface = 5 ; } #Geometric height of free convection level above ground 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 34 ; typeOfFirstFixedSurface = 14 ; } #Geometric height of neutral buoyancy level above ground 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 34 ; typeOfFirstFixedSurface = 16 ; } #Geometric height of atmospheric isothermal level above ground 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 34 ; typeOfFirstFixedSurface = 20 ; } #Roof temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 185 ; } #Wall temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 186 ; } #Road temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 187 ; } #Snow depth water equivalent on roof 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 60 ; typeOfFirstFixedSurface = 185 ; } #Snow depth water equivalent on road 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 60 ; typeOfFirstFixedSurface = 187 ; } #Urban canyon temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 187 ; typeOfSecondFixedSurface = 185 ; } #Urban canyon specific humidity 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 187 ; typeOfSecondFixedSurface = 185 ; } #Convective snowfall water equivalent 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 55 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Large-scale snowfall water equivalent 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 56 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Lake surface temperature 'K' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 255 ; } #Surface bulk Richardson number 'Numeric' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 16 ; typeOfFirstFixedSurface = 1 ; } #Surface roughness for heat 'm' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 47 ; typeOfFirstFixedSurface = 1 ; } #Surface roughness for moisture 'm' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 48 ; typeOfFirstFixedSurface = 1 ; } #Snow evaporation rate water equivalent 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 148 ; typeOfFirstFixedSurface = 1 ; } #Radar reflectivity 'dB' = { discipline = 0 ; parameterCategory = 16 ; parameterNumber = 4 ; } #Pressure at cloud ceiling 'Pa' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 19 ; scaledValueOfFirstFixedSurface = 50 ; scaleFactorOfFirstFixedSurface = 0 ; } #Visibility through precipitation 'm' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 51 ; } #Geometric height of 0 degrees C theta level above ground 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 34 ; typeOfFirstFixedSurface = 107 ; scaledValueOfFirstFixedSurface = 27315 ; scaleFactorOfFirstFixedSurface = 2 ; } #Geometric height of 1 degree C theta level above ground 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 34 ; typeOfFirstFixedSurface = 107 ; scaledValueOfFirstFixedSurface = 27415 ; scaleFactorOfFirstFixedSurface = 2 ; } #Geometric height of 1.5 degrees C theta level above ground 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 34 ; typeOfFirstFixedSurface = 107 ; scaledValueOfFirstFixedSurface = 27465 ; scaleFactorOfFirstFixedSurface = 2 ; } #Burned area '%' = { discipline = 2 ; parameterCategory = 4 ; parameterNumber = 3 ; } #Burning area '%' = { discipline = 2 ; parameterCategory = 4 ; parameterNumber = 20 ; } #Burnable area '%' = { discipline = 2 ; parameterCategory = 4 ; parameterNumber = 21 ; } #Un-burnable area '%' = { discipline = 2 ; parameterCategory = 4 ; parameterNumber = 22 ; } #Fuel load 'kg m**-2' = { discipline = 2 ; parameterCategory = 4 ; parameterNumber = 23 ; } #Combustion completeness '%' = { discipline = 2 ; parameterCategory = 4 ; parameterNumber = 24 ; } #Fuel moisture content 'kg kg**-1' = { discipline = 2 ; parameterCategory = 4 ; parameterNumber = 25 ; } #Live leaf fuel load 'kg m**-2' = { discipline = 2 ; parameterCategory = 4 ; parameterNumber = 27 ; } #Live wood fuel load 'kg m**-2' = { discipline = 2 ; parameterCategory = 4 ; parameterNumber = 28 ; } #Dead leaf fuel load 'kg m**-2' = { discipline = 2 ; parameterCategory = 4 ; parameterNumber = 29 ; } #Dead wood fuel load 'kg m**-2' = { discipline = 2 ; parameterCategory = 4 ; parameterNumber = 30 ; } #Live fuel moisture content 'kg kg**-1' = { discipline = 2 ; parameterCategory = 4 ; parameterNumber = 31 ; } #Fine dead leaf moisture content 'kg kg**-1' = { discipline = 2 ; parameterCategory = 4 ; parameterNumber = 32 ; } #Dense dead leaf moisture content 'kg kg**-1' = { discipline = 2 ; parameterCategory = 4 ; parameterNumber = 33 ; } #Fine dead wood moisture content 'kg kg**-1' = { discipline = 2 ; parameterCategory = 4 ; parameterNumber = 34 ; } #Dense dead wood moisture content 'kg kg**-1' = { discipline = 2 ; parameterCategory = 4 ; parameterNumber = 35 ; } #Time-integrated total column vertically-integrated eastward geopotential flux 'J m**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 40 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated total column vertically-integrated northward geopotential flux 'J m**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 41 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated total column vertically-integrated divergence of water geopotential flux 'J m**-2' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 42 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated total column vertically-integrated divergence of geopotential flux 'J m**-2' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 43 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated total column vertically-integrated eastward enthalpy flux 'J m**-1' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 5 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated total column vertically-integrated northward enthalpy flux 'J m**-1' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated total column vertically-integrated eastward kinetic energy flux 'J m**-1' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 9 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated total column vertically-integrated northward kinetic energy flux 'J m**-1' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 10 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated total column vertically-integrated eastward total energy flux 'J m**-1' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 11 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated total column vertically-integrated northward total energy flux 'J m**-1' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 12 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated total column vertically-integrated divergence of enthalpy flux 'J m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 13 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated total column vertically-integrated divergence of kinetic energy flux 'J m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 16 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated total column vertically-integrated divergence of total energy flux 'J m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 17 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated total column vertically-integrated divergence of water enthalpy flux 'J m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 18 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated total column vertically-integrated divergence of mass flux 'kg m**-2' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 35 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated total column vertically-integrated eastward mass flux 'kg m**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 36 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated total column vertically-integrated northward mass flux 'kg m**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 37 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated total column vertically-integrated divergence of water vapour flux 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 160 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated total column vertically-integrated divergence of cloud liquid water flux 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 161 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated total column vertically-integrated divergence of cloud ice water flux 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 162 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated total column vertically-integrated divergence of rain flux 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 163 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated total column vertically-integrated divergence of snow flux 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 164 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated total column vertically-integrated eastward water vapour flux 'kg m**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 150 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated total column vertically-integrated northward water vapour flux 'kg m**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 151 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated total column vertically-integrated eastward cloud liquid water flux 'kg m**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 152 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated total column vertically-integrated northward cloud liquid water flux 'kg m**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 153 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated total column vertically-integrated eastward cloud ice water flux 'kg m**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 154 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated total column vertically-integrated northward cloud ice water flux 'kg m**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 155 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated total column vertically-integrated eastward rain flux 'kg m**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 156 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated total column vertically-integrated northward rain flux 'kg m**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 157 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated total column vertically-integrated eastward snow flux 'kg m**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 158 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated total column vertically-integrated northward snow flux 'kg m**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 159 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 1 ; } #Time-mean temperature tendency due to short-wave radiation 'K s**-1' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 22 ; typeOfStatisticalProcessing = 0 ; } #Time-mean temperature tendency due to long-wave radiation 'K s**-1' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 23 ; typeOfStatisticalProcessing = 0 ; } #Time-mean temperature tendency due to short wave radiation, clear sky 'K s**-1' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 24 ; typeOfStatisticalProcessing = 0 ; } #Time-mean temperature tendency due to long-wave radiation, clear sky 'K s**-1' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 25 ; typeOfStatisticalProcessing = 0 ; } #Time-mean temperature tendency due to parametrisations 'K s**-1' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 26 ; typeOfStatisticalProcessing = 0 ; } #Time-mean specific humidity tendency due to parametrisations 'kg kg**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 108 ; typeOfStatisticalProcessing = 0 ; } #Time-mean eastward wind tendency due to parametrisations 'm s**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 39 ; typeOfStatisticalProcessing = 0 ; } #Time-mean northward wind tendency due to parametrisations 'm s**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 40 ; typeOfStatisticalProcessing = 0 ; } #Time-mean updraught mass flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 27 ; typeOfStatisticalProcessing = 0 ; } #Time-mean downdraught mass flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 28 ; typeOfStatisticalProcessing = 0 ; } #Time-mean updraught detrainment rate 'kg m**-3 s**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 29 ; typeOfStatisticalProcessing = 0 ; } #Time-mean downdraught detrainment rate 'kg m**-3 s**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 30 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total precipitation flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 52 ; typeOfStatisticalProcessing = 0 ; } #Time-mean turbulent diffusion coefficient for heat 'm**2 s**-1' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 20 ; typeOfStatisticalProcessing = 0 ; } #Time integral of rain flux 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 65 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 255 ; typeOfStatisticalProcessing = 1 ; } #Time integral of surface eastward momentum flux 'N m**-2 s' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 17 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 255 ; typeOfStatisticalProcessing = 1 ; } #Time integral of surface northward momentum flux 'N m**-2 s' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 18 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 255 ; typeOfStatisticalProcessing = 1 ; } #Time integral of surface latent heat evaporation flux 'J m**-2' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 30 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 255 ; typeOfStatisticalProcessing = 1 ; } #Time-mean surface runoff rate 'kg m**-2 s**-1' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 51 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean sub-surface runoff rate 'kg m**-2 s**-1' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 52 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean surface photosynthetically active radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 60 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean snow evaporation rate water equivalent 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 148 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean snow melt rate 'kg m**-2 s**-1' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 41 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean magnitude of turbulent surface stress 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 58 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean large-scale precipitation fraction 'Proportion' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 36 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean surface downward UV radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 12 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean surface photosynthetically active radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 10 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean large-scale precipitation rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 54 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean convective precipitation rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 37 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total snowfall rate water equivalent 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 53 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean boundary layer dissipation 'W m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 20 ; typeOfStatisticalProcessing = 0 ; } #Time-mean surface sensible heat flux 'W m**-2' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 11 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean surface latent heat flux 'W m**-2' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 10 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean surface downward short-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 7 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean surface downward long-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 3 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean surface net short-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 9 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean surface net long-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 5 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean top net short-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 9 ; typeOfFirstFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean top net long-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 5 ; typeOfFirstFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean eastward turbulent surface stress 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 62 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean northward turbulent surface stress 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 63 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean moisture flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 79 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean sunshine duration fraction 'Proportion' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 51 ; typeOfFirstFixedSurface = 1 ; } #Time-mean eastward gravity wave surface stress 'N m**-2' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 16 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean northward gravity wave surface stress 'N m**-2' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 17 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean gravity wave dissipation 'W m**-2' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 23 ; typeOfStatisticalProcessing = 0 ; } #Time-mean runoff rate water equivalent (surface plus subsurface) 'kg m**-2 s**-1' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 42 ; typeOfStatisticalProcessing = 0 ; } #Time-mean top net short-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 11 ; typeOfFirstFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean top net long-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean surface net short-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 11 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean surface net long-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time mean top downward short-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 7 ; typeOfFirstFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated moisture divergence flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 165 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total precipitation rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 52 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean convective snowfall rate water equivalent 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 55 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean large scale snowfall rate water equivalent 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 56 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean surface direct short-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 13 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean surface direct short-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 61 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Mean surface diffuse short-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 14 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean surface downward short-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 52 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean surface downward long-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 8 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean potential evaporation rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 143 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time integral of surface latent heat sublimation flux 'J m**-2' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 31 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 255 ; typeOfStatisticalProcessing = 1 ; } #Time integral of evapotranspiration flux 'kg m**-2' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 39 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 255 ; typeOfStatisticalProcessing = 1 ; } #Time-mean evapotranspiration rate 'kg m**-2 s**-1' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 39 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time integral of potential evapotranspiration rate 'kg m**-2' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 40 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Time-mean potential evapotranspiration rate 'kg m**-2 s**-1' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 40 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean volumetric soil moisture 'm**3 m**-3' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 25 ; typeOfStatisticalProcessing = 0 ; } #Time-mean snow depth water equivalent 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 60 ; typeOfStatisticalProcessing = 0 ; } #Time-mean skin temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 17 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean snow density 'kg m**-3' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 61 ; typeOfStatisticalProcessing = 0 ; } #Time-mean low vegetation cover '(0 - 1)' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 53 ; typeOfStatisticalProcessing = 0 ; } #Time-mean high vegetation cover '(0 - 1)' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 54 ; typeOfStatisticalProcessing = 0 ; } #Time-mean sea ice area fraction '(0 - 1)' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean sea surface temperature 'K' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean leaf area index, low vegetation 'm**2 m**-2' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 55 ; typeOfStatisticalProcessing = 0 ; } #Time-mean leaf area index, high vegetation 'm**2 m**-2' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 56 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column liquid water 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 69 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column cloud ice water 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 70 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean 2 metre specific humidity 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 103 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 2 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 0 ; } #Time-mean lake mix-layer temperature 'K' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 166 ; typeOfSecondFixedSurface = 255 ; typeOfStatisticalProcessing = 0 ; } #Time-mean lake mix-layer depth 'm' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 166 ; typeOfSecondFixedSurface = 255 ; typeOfStatisticalProcessing = 0 ; } #Time-mean 2 metre relative humidity '%' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 2 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 0 ; } #Time-mean fraction of snow cover 'Proportion' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 121 ; typeOfStatisticalProcessing = 0 ; } #Time-mean soil temperature 'K' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 18 ; typeOfStatisticalProcessing = 0 ; } #Time-mean wind speed 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean pressure 'Pa' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 0 ; typeOfStatisticalProcessing = 0 ; } #Time-mean charnock 'Numeric' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 76 ; typeOfStatisticalProcessing = 0 ; } #Time-mean potential vorticity 'K m**2 kg**-1 s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 14 ; typeOfStatisticalProcessing = 0 ; } #Time-mean specific rain water content 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 85 ; typeOfStatisticalProcessing = 0 ; } #Time-mean specific snow water content 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 86 ; typeOfStatisticalProcessing = 0 ; } #Time-mean eta-coordinate vertical velocity 's**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 32 ; typeOfStatisticalProcessing = 0 ; } #Time-mean visibility 'm' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 0 ; typeOfStatisticalProcessing = 0 ; } #Time-mean wind direction 'Degree true' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 0 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column snow water 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 46 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean low cloud cover '%' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 3 ; typeOfStatisticalProcessing = 0 ; } #Time-mean medium cloud cover '%' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 4 ; typeOfStatisticalProcessing = 0 ; } #Time-mean high cloud cover '%' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 5 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column rain water 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 45 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean soil moisture top 20 cm 'kg m**-3' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 19 ; typeOfFirstFixedSurface = 106 ; typeOfSecondFixedSurface = 106 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = 2 ; scaleFactorOfSecondFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean soil moisture top 100 cm 'kg m**-3' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 19 ; typeOfFirstFixedSurface = 106 ; typeOfSecondFixedSurface = 106 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = 1 ; scaleFactorOfSecondFixedSurface = 0 ; typeOfStatisticalProcessing = 0 ; } #Time-mean soil temperature top 20 cm 'K' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 18 ; typeOfFirstFixedSurface = 106 ; typeOfSecondFixedSurface = 106 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = 2 ; scaleFactorOfSecondFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean soil temperature top 100 cm 'K' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 18 ; typeOfFirstFixedSurface = 106 ; typeOfSecondFixedSurface = 106 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = 1 ; scaleFactorOfSecondFixedSurface = 0 ; typeOfStatisticalProcessing = 0 ; } #Time-mean most-unstable CAPE 'J kg**-1' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 17 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean volumetric soil moisture top 20 cm 'm**3 m**-3' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 25 ; typeOfFirstFixedSurface = 106 ; typeOfSecondFixedSurface = 106 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = 2 ; scaleFactorOfSecondFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean volumetric soil moisture top 100 cm 'm**3 m**-3' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 25 ; typeOfFirstFixedSurface = 106 ; typeOfSecondFixedSurface = 106 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = 1 ; scaleFactorOfSecondFixedSurface = 0 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated graupel (snow pellets) 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 74 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean geopotential 'm**2 s**-2' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 4 ; typeOfStatisticalProcessing = 0 ; } #Time-mean temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 0 ; typeOfStatisticalProcessing = 0 ; } #Time-mean U component of wind 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 2 ; typeOfStatisticalProcessing = 0 ; } #Time-mean V component of wind 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 3 ; typeOfStatisticalProcessing = 0 ; } #Time-mean specific humidity 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 0 ; typeOfStatisticalProcessing = 0 ; } #Time-mean surface pressure 'Pa' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean vertical velocity 'Pa s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column water 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 51 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated water vapour 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 64 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean vorticity (relative) 's**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 12 ; typeOfStatisticalProcessing = 0 ; } #Time-mean surface net radiation flux (SW and LW) 'W m**-2' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 46 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean top net radiation flux (SW and LW) 'W m**-2' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 46 ; typeOfFirstFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean mean sea level pressure 'Pa' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 101 ; typeOfStatisticalProcessing = 0 ; } #Time-mean divergence 's**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 13 ; typeOfStatisticalProcessing = 0 ; } #Time-mean relative humidity '%' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean boundary layer height 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 18 ; typeOfStatisticalProcessing = 0 ; } #Time-mean 10 metre U wind component 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 2 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 0 ; } #Time-mean 10 metre V wind component 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 3 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 0 ; } #Time-mean 2 metre dewpoint temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 2 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 0 ; } #Time-mean sunshine 'Numeric' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 24 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean ozone mass mixing ratio 'kg kg**-1' = { discipline = 0 ; parameterCategory = 14 ; parameterNumber = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean temperature of snow layer 'K' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 28 ; typeOfStatisticalProcessing = 0 ; } #Time-mean forecast surface roughness 'm' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean forecast logarithm of surface roughness for heat 'Numeric' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 54 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean specific cloud liquid water content 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 83 ; typeOfStatisticalProcessing = 0 ; } #Time-mean specific cloud ice water content 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 84 ; typeOfStatisticalProcessing = 0 ; } #Time-mean fraction of cloud cover '(0 - 1)' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 32 ; typeOfStatisticalProcessing = 0 ; } #Time-mean K index 'K' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 2 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total totals index 'K' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 4 ; typeOfStatisticalProcessing = 0 ; } #Time-mean 10 metre wind direction 'Degree true' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 0 ; } #Time-mean clear air turbulence (CAT) 'm**2/3 s**-1' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 29 ; typeOfStatisticalProcessing = 0 ; } #Time-mean forecast albedo '%' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean potential temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 2 ; typeOfStatisticalProcessing = 0 ; } #Time-mean discharge from rivers or streams 'm**3 s**-1' = { discipline = 1 ; parameterCategory = 0 ; parameterNumber = 7 ; typeOfStatisticalProcessing = 0 ; } #Time-mean soil wetness index (total layer) 'Numeric' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 30 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 151 ; typeOfStatisticalProcessing = 0 ; } #Time-mean soil wetness index (root zone) 'Numeric' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 30 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 167 ; typeOfStatisticalProcessing = 0 ; } #Time-mean soil wetness index(layer) 'Numeric' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 30 ; typeOfFirstFixedSurface = 151 ; typeOfSecondFixedSurface = 151 ; typeOfStatisticalProcessing = 0 ; } #Time-mean floodplain depth 'm' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 17 ; typeOfStatisticalProcessing = 0 ; } #Time-mean floodplain flooded fraction 'Proportion' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 18 ; typeOfStatisticalProcessing = 0 ; } #Time-mean floodplain flooded area 'm**2' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 19 ; typeOfStatisticalProcessing = 0 ; } #Time-mean river fraction 'Proportion' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 20 ; typeOfStatisticalProcessing = 0 ; } #Time-mean river area 'm**2' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 21 ; typeOfStatisticalProcessing = 0 ; } #Time-mean fraction of river coverage plus river related flooding 'Proportion' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 22 ; typeOfStatisticalProcessing = 0 ; } #Time-mean area of river coverage plus river related flooding 'm**2' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 23 ; typeOfStatisticalProcessing = 0 ; } #Time-mean UV visible albedo for direct radiation (climatological) '%' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 56 ; typeOfStatisticalProcessing = 0 ; typeOfGeneratingProcess = 9 ; } #Time-mean UV visible albedo for diffuse radiation (climatological) '%' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 55 ; typeOfStatisticalProcessing = 0 ; typeOfGeneratingProcess = 9 ; } #Time-mean near IR albedo for direct radiation (climatological) '%' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 10 ; typeOfStatisticalProcessing = 0 ; typeOfGeneratingProcess = 9 ; } #Time-mean near IR albedo for diffuse radiation (climatological) '%' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 9 ; typeOfStatisticalProcessing = 0 ; typeOfGeneratingProcess = 9 ; } #Time-mean snow albedo '%' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 19 ; typeOfStatisticalProcessing = 0 ; } #Time-mean montgomery potential 'm**2 s**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 6 ; typeOfStatisticalProcessing = 0 ; } #Time-mean convective available potential energy 'J kg**-1' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean skin reservoir content 'kg m**-2' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 50 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column integrated ozone 'DU' = { discipline = 0 ; parameterCategory = 14 ; parameterNumber = 2 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated kinetic energy 'J m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated enthalpy 'J m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 3 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated potential + internal energy 'J m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated potential+internal+latent energy 'J m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 21 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated total energy 'J m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 2 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated water enthalpy 'J m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 4 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean UV visible albedo for direct radiation, isotropic component (climatological) '%' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 58 ; typeOfStatisticalProcessing = 0 ; typeOfGeneratingProcess = 9 ; } #Time-mean UV visible albedo for direct radiation, volumetric component (climatological) '%' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 59 ; typeOfStatisticalProcessing = 0 ; typeOfGeneratingProcess = 9 ; } #Time-mean UV visible albedo for direct radiation, geometric component (climatological) '%' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 57 ; typeOfStatisticalProcessing = 0 ; typeOfGeneratingProcess = 9 ; } #Time-mean near IR albedo for direct radiation, isotropic component (climatological) '%' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 12 ; typeOfStatisticalProcessing = 0 ; typeOfGeneratingProcess = 9 ; } #Time-mean near IR albedo for direct radiation, volumetric component (climatological) '%' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 13 ; typeOfStatisticalProcessing = 0 ; typeOfGeneratingProcess = 9 ; } #Time-mean near IR albedo for direct radiation, geometric component (climatological) '%' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 11 ; typeOfStatisticalProcessing = 0 ; typeOfGeneratingProcess = 9 ; } #Time-mean convective inhibition 'J kg**-1' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 7 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean friction velocity 'm s**-1' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 17 ; typeOfStatisticalProcessing = 0 ; } #Time-mean lake bottom temperature 'K' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 162 ; typeOfSecondFixedSurface = 255 ; typeOfStatisticalProcessing = 0 ; } #Time-mean lake total layer temperature 'K' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 162 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean lake shape factor 'dimensionless' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 10 ; typeOfStatisticalProcessing = 0 ; } #Time-mean lake ice surface temperature 'K' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 255 ; typeOfStatisticalProcessing = 0 ; } #Time-mean lake ice total depth 'm' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 5 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 176 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean minimum vertical gradient of refractivity inside trapping layer 'm**-1' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 45 ; typeOfStatisticalProcessing = 0 ; } #Time-mean mean vertical gradient of refractivity inside trapping layer 'm**-1' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 44 ; typeOfStatisticalProcessing = 0 ; } #Time-mean duct base height 'm' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 41 ; typeOfStatisticalProcessing = 0 ; } #Time-mean trapping layer base height 'm' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 42 ; typeOfStatisticalProcessing = 0 ; } #Time-mean trapping layer top height 'm' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 43 ; typeOfStatisticalProcessing = 0 ; } #Time-mean -10 degrees C isothermal level (atm) 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 20 ; scaledValueOfFirstFixedSurface = 26315 ; scaleFactorOfFirstFixedSurface = 2 ; typeOfStatisticalProcessing = 0 ; } #Time-mean cloud base height 'm' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 11 ; typeOfFirstFixedSurface = 2 ; typeOfStatisticalProcessing = 0 ; } #Time-mean 0 degrees C isothermal level (atm) 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 20 ; scaledValueOfFirstFixedSurface = 27315 ; scaleFactorOfFirstFixedSurface = 2 ; typeOfStatisticalProcessing = 0 ; } #Time-mean 10 metre wind gust 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 22 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 0 ; } #Time-mean relative humidity with respect to water '%' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 93 ; typeOfStatisticalProcessing = 0 ; } #Time-mean 2 metre relative humidity with respect to water '%' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 93 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 2 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 0 ; } #Time-mean convective available potential energy shear 'm**2 s**-2' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 19 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean tropopause pressure 'Pa' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 7 ; typeOfSecondFixedSurface = 255 ; typeOfStatisticalProcessing = 0 ; } #Time-mean height of convective cloud top 'm' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 27 ; typeOfStatisticalProcessing = 0 ; } #Time-mean height of zero-degree wet-bulb temperature 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 44 ; typeOfStatisticalProcessing = 0 ; } #Time-mean height of one-degree wet-bulb temperature 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 45 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column supercooled liquid water 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 167 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean 10 metre U-component of neutral wind 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 56 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 0 ; } #Time-mean 10 metre V-component of neutral wind 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 57 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 0 ; } #Time-mean convective rain rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 76 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean large scale rain rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 77 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean mixed-layer CAPE in the lowest 50 hPa 'J kg**-1' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 18 ; scaledValueOfFirstFixedSurface = 5000 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 0 ; } #Time-mean mixed-layer CIN in the lowest 50 hPa 'J kg**-1' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 7 ; typeOfFirstFixedSurface = 18 ; scaledValueOfFirstFixedSurface = 5000 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 0 ; } #Time-mean mixed-layer CAPE in the lowest 100 hPa 'J kg**-1' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 18 ; scaledValueOfFirstFixedSurface = 10000 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 0 ; } #Time-mean mixed-layer CIN in the lowest 100 hPa 'J kg**-1' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 7 ; typeOfFirstFixedSurface = 18 ; scaledValueOfFirstFixedSurface = 10000 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 0 ; } #Time-mean departure level of the most unstable parcel expressed as Pressure 'Pa' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 17 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean ceiling 'm' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 13 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column integrated saturation specific humidity with respect to water 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 169 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean surface direct normal short-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 54 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 255 ; typeOfStatisticalProcessing = 0 ; } #Time-mean cosine of solar zenith angle 'Numeric' = { discipline = 3 ; parameterCategory = 1 ; parameterNumber = 24 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean freezing rain precipitation rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 67 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated eastward geopotential flux 'W m**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 40 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated northward geopotential flux 'W m**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 41 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated divergence of water geopotential flux 'W m**-2' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 42 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated divergence of geopotential flux 'W m**-2' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 43 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated eastward enthalpy flux 'W m**-1' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 5 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated northward enthalpy flux 'W m**-1' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated eastward kinetic energy flux 'W m**-1' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 9 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated northward kinetic energy flux 'W m**-1' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 10 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated eastward total energy flux 'W m**-1' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 11 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated northward total energy flux 'W m**-1' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 12 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated divergence of enthalpy flux 'W m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 13 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated divergence of kinetic energy flux 'W m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 16 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated divergence of total energy flux 'W m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 17 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated divergence of water enthalpy flux 'W m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 18 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated divergence of mass flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 35 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated eastward mass flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 36 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated northward mass flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 37 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated divergence of water vapour flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 160 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated divergence of cloud liquid water flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 161 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated divergence of cloud ice water flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 162 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated divergence of rain flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 163 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated divergence of snow flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 164 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated eastward water vapour flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 150 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated northward water vapour flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 151 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated eastward cloud liquid water flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 152 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated northward cloud liquid water flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 153 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated eastward cloud ice water flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 154 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated northward cloud ice water flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 155 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated eastward rain flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 156 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated northward rain flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 157 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated eastward snow flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 158 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated northward snow flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 159 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated eastward ozone flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 78 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; constituentType = 0 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated northward ozone flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 79 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; constituentType = 0 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated divergence of ozone flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 80 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; constituentType = 0 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically-integrated net source of ozone 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 81 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; constituentType = 0 ; typeOfStatisticalProcessing = 0 ; } #Time-mean eastward turbulent surface stress due to orographic form drag 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 64 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean northward turbulent surface stress due to orographic form drag 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 65 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean eastward turbulent surface stress due to surface roughness 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 66 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean northward turbulent surface stress due to surface roughness 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 67 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean visibility through precipitation 'm' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 51 ; typeOfStatisticalProcessing = 0 ; } #Time-mean land surface heat net flux 'W m**-2' = { discipline = 2 ; parameterCategory = 7 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean surface direct normal short-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 62 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean 10 metre convective gust 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 68 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 0 ; } #Time-mean 10 metre turbulent gust 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 69 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 0 ; } #Time-mean geometric height of 0 degrees C theta level above ground 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 34 ; typeOfFirstFixedSurface = 107 ; scaledValueOfFirstFixedSurface = 27315 ; scaleFactorOfFirstFixedSurface = 2 ; typeOfStatisticalProcessing = 0 ; } #Time-mean geometric height of 1 degree C theta level above ground 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 34 ; typeOfFirstFixedSurface = 107 ; scaledValueOfFirstFixedSurface = 27415 ; scaleFactorOfFirstFixedSurface = 2 ; typeOfStatisticalProcessing = 0 ; } #Time-mean geometric height of 1.5 degrees C theta level above ground 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 34 ; typeOfFirstFixedSurface = 107 ; scaledValueOfFirstFixedSurface = 27465 ; scaleFactorOfFirstFixedSurface = 2 ; typeOfStatisticalProcessing = 0 ; } #Time-mean vegetation '%' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 4 ; typeOfStatisticalProcessing = 0 ; } #Time-mean leaf area index 'Numeric' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 28 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean surface roughness for heat 'm' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 47 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-integrated land surface heat net flux 'J m**-2' = { discipline = 2 ; parameterCategory = 7 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated surface direct normal short-wave radiation flux, clear sky 'J m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 62 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Time-maximum temperature tendency due to short-wave radiation 'K s**-1' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 22 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum temperature tendency due to long-wave radiation 'K s**-1' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 23 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum temperature tendency due to short wave radiation, clear sky 'K s**-1' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 24 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum temperature tendency due to long-wave radiation, clear sky 'K s**-1' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 25 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum temperature tendency due to parametrisations 'K s**-1' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 26 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum specific humidity tendency due to parametrisations 'kg kg**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 108 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum eastward wind tendency due to parametrisations 'm s**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 39 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum northward wind tendency due to parametrisations 'm s**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 40 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum updraught mass flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 27 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum downdraught mass flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 28 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum updraught detrainment rate 'kg m**-3 s**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 29 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum downdraught detrainment rate 'kg m**-3 s**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 30 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total precipitation flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 52 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum turbulent diffusion coefficient for heat 'm**2 s**-1' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 20 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum surface photosynthetically active radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 60 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum snow evaporation rate water equivalent 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 148 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum snow melt rate 'kg m**-2 s**-1' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 41 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum magnitude of turbulent surface stress 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 58 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum large-scale precipitation fraction 'Proportion' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 36 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum surface downward UV radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 12 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum surface photosynthetically active radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 10 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum large-scale precipitation rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 54 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum convective precipitation rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 37 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total snowfall rate water equivalent 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 53 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum boundary layer dissipation 'W m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 20 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum surface sensible heat flux 'W m**-2' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 11 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum surface latent heat flux 'W m**-2' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 10 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum surface downward short-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 7 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum surface downward long-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 3 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum surface net short-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 9 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum surface net long-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 5 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum top net short-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 9 ; typeOfFirstFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum top net long-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 5 ; typeOfFirstFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum eastward turbulent surface stress 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 62 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum northward turbulent surface stress 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 63 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum moisture flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 79 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum eastward gravity wave surface stress 'N m**-2' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 16 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum northward gravity wave surface stress 'N m**-2' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 17 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum gravity wave dissipation 'W m**-2' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 23 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum runoff rate water equivalent (surface plus subsurface) 'kg m**-2 s**-1' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 42 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum top net short-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 11 ; typeOfFirstFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum top net long-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum surface net short-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 11 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum surface net long-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time mean top downward short-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 7 ; typeOfFirstFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated moisture divergence flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 165 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum convective snowfall rate water equivalent 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 55 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum large scale snowfall rate water equivalent 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 56 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum surface direct short-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 13 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum surface direct short-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 61 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum carbon dioxide net ecosystem exchange flux 'kg m**-2 s**-1' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 59 ; constituentType = 3 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum carbon dioxide gross primary production flux 'kg m**-2 s**-1' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 60 ; constituentType = 3 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum carbon dioxide ecosystem respiration flux 'kg m**-2 s**-1' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 61 ; constituentType = 3 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum surface downward short-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 52 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum surface downward long-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 8 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum potential evaporation rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 143 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum volumetric soil moisture 'm**3 m**-3' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 25 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum snow depth water equivalent 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 60 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum skin temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 17 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum snow density 'kg m**-3' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 61 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum sea ice area fraction '(0 - 1)' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum sea surface temperature 'K' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column cloud liquid water 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 69 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column cloud ice water 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 70 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum 2 metre specific humidity 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 103 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 2 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum lake mix-layer temperature 'K' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 166 ; typeOfSecondFixedSurface = 255 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum lake mix-layer depth 'm' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 166 ; typeOfSecondFixedSurface = 255 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum 2 metre relative humidity '%' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 2 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum soil temperature 'K' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 18 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum wind speed 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum pressure 'Pa' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 0 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum charnock 'Numeric' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 76 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum potential vorticity 'K m**2 kg**-1 s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 14 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum specific rain water content 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 85 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum specific snow water content 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 86 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum eta-coordinate vertical velocity 's**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 32 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum visibility 'm' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 0 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum wind direction 'Degree true' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 0 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column snow water 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 46 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum low cloud cover '%' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 3 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum medium cloud cover '%' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 4 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum high cloud cover '%' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 5 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column rain water 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 45 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum most-unstable CAPE 'J kg**-1' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 17 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated graupel (snow pellets) 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 74 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum geopotential 'm**2 s**-2' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 4 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 0 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum u component of wind 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 2 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum v component of wind 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 3 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum specific humidity 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 0 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum surface pressure 'Pa' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum vertical velocity 'Pa s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column water 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 51 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated water vapour 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 64 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum vorticity (relative) 's**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 12 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum mean sea level pressure 'Pa' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 101 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum logarithm of surface pressure 'Numeric' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 25 ; typeOfFirstFixedSurface = 105 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum divergence 's**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 13 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum relative humidity '%' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum boundary layer height 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 18 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum 10 metre U wind component 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 2 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum 10 metre V wind component 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 3 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum 2 metre dewpoint temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 2 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum sunshine 'Numeric' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 24 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum ozone mass mixing ratio 'kg kg**-1' = { discipline = 0 ; parameterCategory = 14 ; parameterNumber = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum 10 metre wind speed 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum temperature of snow layer 'K' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 28 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum forecast surface roughness 'm' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum forecast logarithm of surface roughness for heat 'Numeric' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 54 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum specific cloud liquid water content 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 83 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum specific cloud ice water content 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 84 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum fraction of cloud cover '(0 - 1)' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 32 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum k index 'K' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 2 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total totals index 'K' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 4 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum 10 metre wind direction 'Degree true' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum clear air turbulence (CAT) 'm**2/3 s**-1' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 29 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum forecast albedo '%' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum potential temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 2 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum UV visible albedo for direct radiation (climatological) '%' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 56 ; typeOfStatisticalProcessing = 2 ; typeOfGeneratingProcess = 9 ; } #Time-maximum UV visible albedo for diffuse radiation (climatological) '%' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 55 ; typeOfStatisticalProcessing = 2 ; typeOfGeneratingProcess = 9 ; } #Time-maximum near IR albedo for direct radiation (climatological) '%' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 10 ; typeOfStatisticalProcessing = 2 ; typeOfGeneratingProcess = 9 ; } #Time-maximum near IR albedo for diffuse radiation (climatological) '%' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 9 ; typeOfStatisticalProcessing = 2 ; typeOfGeneratingProcess = 9 ; } #Time-maximum snow albedo '%' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 19 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum montgomery potential 'm**2 s**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 6 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total cloud cover '%' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum skin reservoir content 'kg m**-2' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 50 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column integrated ozone 'DU' = { discipline = 0 ; parameterCategory = 14 ; parameterNumber = 2 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated kinetic energy 'J m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated enthalpy 'J m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 3 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated potential + internal energy 'J m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated potential+internal+latent energy 'J m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 21 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated total energy 'J m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 2 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated water enthalpy 'J m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 4 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum UV visible albedo for direct radiation, isotropic component (climatological) '%' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 58 ; typeOfStatisticalProcessing = 2 ; typeOfGeneratingProcess = 9 ; } #Time-maximum UV visible albedo for direct radiation, volumetric component (climatological) '%' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 59 ; typeOfStatisticalProcessing = 2 ; typeOfGeneratingProcess = 9 ; } #Time-maximum UV visible albedo for direct radiation, geometric component (climatological) '%' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 57 ; typeOfStatisticalProcessing = 2 ; typeOfGeneratingProcess = 9 ; } #Time-maximum near IR albedo for direct radiation, isotropic component (climatological) '%' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 12 ; typeOfStatisticalProcessing = 2 ; typeOfGeneratingProcess = 9 ; } #Time-maximum near IR albedo for direct radiation, volumetric component (climatological) '%' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 13 ; typeOfStatisticalProcessing = 2 ; typeOfGeneratingProcess = 9 ; } #Time-maximum near IR albedo for direct radiation, geometric component (climatological) '%' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 11 ; typeOfStatisticalProcessing = 2 ; typeOfGeneratingProcess = 9 ; } #Time-maximum convective inhibition 'J kg**-1' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 7 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum friction velocity 'm s**-1' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 17 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum lake bottom temperature 'K' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 162 ; typeOfSecondFixedSurface = 255 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum lake total layer temperature 'K' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 162 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 2 ; } #Time-maximum lake shape factor 'dimensionless' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 10 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum lake ice surface temperature 'K' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 255 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum lake ice total depth 'm' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 5 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 176 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 2 ; } #Time-maximum minimum vertical gradient of refractivity inside trapping layer 'm**-1' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 45 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum mean vertical gradient of refractivity inside trapping layer 'm**-1' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 44 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum duct base height 'm' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 41 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum trapping layer base height 'm' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 42 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum trapping layer top height 'm' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 43 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum -10 degrees C isothermal level (atm) 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 20 ; scaledValueOfFirstFixedSurface = 26315 ; scaleFactorOfFirstFixedSurface = 2 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum cloud base height 'm' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 11 ; typeOfFirstFixedSurface = 2 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum 0 degrees C isothermal level (atm) 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 20 ; scaledValueOfFirstFixedSurface = 27315 ; scaleFactorOfFirstFixedSurface = 2 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum relative humidity with respect to water '%' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 93 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum 2 metre relative humidity with respect to water '%' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 93 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 2 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum tropopause pressure 'Pa' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 7 ; typeOfSecondFixedSurface = 255 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum height of convective cloud top 'm' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 27 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum height of zero-degree wet-bulb temperature 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 44 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum height of one-degree wet-bulb temperature 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 45 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total lightning flash density 'km**-2 day**-1' = { discipline = 0 ; parameterCategory = 17 ; parameterNumber = 4 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column supercooled liquid water 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 167 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum 10 metre U-component of neutral wind 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 56 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum 10 metre V-component of neutral wind 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 57 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum convective rain rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 76 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum large scale rain rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 77 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum mixed-layer CAPE in the lowest 50 hPa 'J kg**-1' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 18 ; scaledValueOfFirstFixedSurface = 5000 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum mixed-layer CIN in the lowest 50 hPa 'J kg**-1' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 7 ; typeOfFirstFixedSurface = 18 ; scaledValueOfFirstFixedSurface = 5000 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum mixed-layer CAPE in the lowest 100 hPa 'J kg**-1' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 18 ; scaledValueOfFirstFixedSurface = 10000 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum mixed-layer CIN in the lowest 100 hPa 'J kg**-1' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 7 ; typeOfFirstFixedSurface = 18 ; scaledValueOfFirstFixedSurface = 10000 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum departure level of the most unstable parcel expressed as Pressure 'Pa' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 17 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; typeOfStatisticalProcessing = 2 ; } #Time-maximum ceiling 'm' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 13 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column integrated saturation specific humidity with respect to water 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 169 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum surface direct normal short-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 54 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 255 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum cosine of solar zenith angle 'Numeric' = { discipline = 3 ; parameterCategory = 1 ; parameterNumber = 24 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum freezing rain precipitation rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 67 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated eastward geopotential flux 'W m**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 40 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated northward geopotential flux 'W m**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 41 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated divergence of water geopotential flux 'W m**-2' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 42 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated divergence of geopotential flux 'W m**-2' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 43 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated eastward enthalpy flux 'W m**-1' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 5 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated northward enthalpy flux 'W m**-1' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated eastward kinetic energy flux 'W m**-1' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 9 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated northward kinetic energy flux 'W m**-1' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 10 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated eastward total energy flux 'W m**-1' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 11 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated northward total energy flux 'W m**-1' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 12 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated divergence of enthalpy flux 'W m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 13 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated divergence of kinetic energy flux 'W m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 16 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated divergence of total energy flux 'W m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 17 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated divergence of water enthalpy flux 'W m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 18 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated divergence of mass flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 35 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated eastward mass flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 36 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated northward mass flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 37 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated divergence of water vapour flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 160 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated divergence of cloud liquid water flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 161 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated divergence of cloud ice water flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 162 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated divergence of rain flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 163 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated divergence of snow flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 164 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated eastward water vapour flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 150 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated northward water vapour flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 151 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated eastward cloud liquid water flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 152 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated northward cloud liquid water flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 153 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated eastward cloud ice water flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 154 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated northward cloud ice water flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 155 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated eastward rain flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 156 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated northward rain flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 157 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated eastward snow flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 158 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated northward snow flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 159 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated eastward ozone flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 78 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; constituentType = 0 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated northward ozone flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 79 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; constituentType = 0 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated divergence of ozone flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 80 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; constituentType = 0 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum total column vertically-integrated net source of ozone 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 81 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; constituentType = 0 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum eastward turbulent surface stress due to orographic form drag 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 64 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum northward turbulent surface stress due to orographic form drag 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 65 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum eastward turbulent surface stress due to surface roughness 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 66 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum northward turbulent surface stress due to surface roughness 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 67 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum visibility through precipitation 'm' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 51 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum land surface heat net flux 'W m**-2' = { discipline = 2 ; parameterCategory = 7 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum surface direct normal short-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 62 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum 10 metre convective gust 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 68 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum 10 metre turbulent gust 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 69 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum geometric height of 0 degrees C theta level above ground 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 34 ; typeOfFirstFixedSurface = 107 ; scaledValueOfFirstFixedSurface = 27315 ; scaleFactorOfFirstFixedSurface = 2 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum geometric height of 1 degree C theta level above ground 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 34 ; typeOfFirstFixedSurface = 107 ; scaledValueOfFirstFixedSurface = 27415 ; scaleFactorOfFirstFixedSurface = 2 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum geometric height of 1.5 degrees C theta level above ground 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 34 ; typeOfFirstFixedSurface = 107 ; scaledValueOfFirstFixedSurface = 27465 ; scaleFactorOfFirstFixedSurface = 2 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum vegetation '%' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 4 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum leaf area index 'Numeric' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 28 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-maximum surface roughness for heat 'm' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 47 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 2 ; } #Time-minimum temperature tendency due to short-wave radiation 'K s**-1' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 22 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum temperature tendency due to long-wave radiation 'K s**-1' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 23 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum temperature tendency due to short wave radiation, clear sky 'K s**-1' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 24 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum temperature tendency due to long-wave radiation, clear sky 'K s**-1' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 25 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum temperature tendency due to parametrisations 'K s**-1' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 26 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum specific humidity tendency due to parametrisations 'kg kg**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 108 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum eastward wind tendency due to parametrisations 'm s**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 39 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum northward wind tendency due to parametrisations 'm s**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 40 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum updraught mass flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 27 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum downdraught mass flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 28 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum updraught detrainment rate 'kg m**-3 s**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 29 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum downdraught detrainment rate 'kg m**-3 s**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 30 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum total precipitation flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 52 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum turbulent diffusion coefficient for heat 'm**2 s**-1' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 20 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum surface photosynthetically active radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 60 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum snow evaporation rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 148 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum snowmelt rate 'kg m**-2 s**-1' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 41 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum magnitude of turbulent surface stress 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 58 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum large-scale precipitation fraction 'Proportion' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 36 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum surface downward UV radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 12 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum surface photosynthetically active radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 10 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum large-scale precipitation rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 54 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum convective precipitation rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 37 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum snowfall rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 53 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum boundary layer dissipation 'W m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 20 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum surface sensible heat flux 'W m**-2' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 11 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum surface latent heat flux 'W m**-2' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 10 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum surface downward short-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 7 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum surface downward long-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 3 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum surface net short-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 9 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum surface net long-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 5 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum top net short-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 9 ; typeOfFirstFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum top net long-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 5 ; typeOfFirstFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum eastward turbulent surface stress 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 62 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum northward turbulent surface stress 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 63 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum evaporation rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 79 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum eastward gravity wave surface stress 'N m**-2' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 16 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum northward gravity wave surface stress 'N m**-2' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 17 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum gravity wave dissipation 'W m**-2' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 23 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum runoff rate 'kg m**-2 s**-1' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 42 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum top net short-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 11 ; typeOfFirstFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum top net long-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum surface net short-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 11 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum surface net long-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum top downward short-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 7 ; typeOfFirstFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum vertically integrated moisture divergence 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 165 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum convective snowfall rate water equivalent 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 55 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum large scale snowfall rate water equivalent 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 56 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum surface direct short-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 13 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum surface direct short-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 61 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum carbon dioxide net ecosystem exchange flux 'kg m**-2 s**-1' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 59 ; constituentType = 3 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum carbon dioxide gross primary production flux 'kg m**-2 s**-1' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 60 ; constituentType = 3 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum carbon dioxide ecosystem respiration flux 'kg m**-2 s**-1' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 61 ; constituentType = 3 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum surface downward short-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 52 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum surface downward long-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 8 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum potential evaporation rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 143 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum volumetric soil moisture 'm**3 m**-3' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 25 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum snow depth water equivalent 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 60 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum skin temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 17 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum snow density 'kg m**-3' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 61 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum sea ice area fraction '(0 - 1)' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum sea surface temperature 'K' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum total column cloud liquid water 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 69 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum total column cloud ice water 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 70 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum 2 metre specific humidity 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 103 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 2 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum lake mix-layer temperature 'K' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 166 ; typeOfSecondFixedSurface = 255 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum lake mix-layer depth 'm' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 166 ; typeOfSecondFixedSurface = 255 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum 2 metre relative humidity '%' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 2 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum soil temperature 'K' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 18 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum wind speed 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum pressure 'Pa' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 0 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum charnock 'Numeric' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 76 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum potential vorticity 'K m**2 kg**-1 s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 14 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum specific rain water content 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 85 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum specific snow water content 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 86 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum eta-coordinate vertical velocity 's**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 32 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum visibility 'm' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 0 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum wind direction 'Degree true' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 0 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum total column snow water 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 46 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum low cloud cover '%' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 3 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum medium cloud cover '%' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 4 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum high cloud cover '%' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 5 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum total column rain water 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 45 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum most-unstable CAPE 'J kg**-1' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 17 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; typeOfStatisticalProcessing = 3 ; } #Time-minimum total column vertically-integrated graupel (snow pellets) 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 74 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum geopotential 'm**2 s**-2' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 4 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 0 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum u component of wind 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 2 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum v component of wind 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 3 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum specific humidity 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 0 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum surface pressure 'Pa' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum vertical velocity 'Pa s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum total column water 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 51 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum total column vertically-integrated water vapour 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 64 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum vorticity (relative) 's**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 12 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum mean sea level pressure 'Pa' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 101 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum logarithm of surface pressure 'Numeric' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 25 ; typeOfFirstFixedSurface = 105 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum divergence 's**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 13 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum relative humidity '%' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum boundary layer height 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 18 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum 10 metre U wind component 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 2 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum 10 metre V wind component 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 3 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum 2 metre dewpoint temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 2 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum sunshine 'Numeric' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 24 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum ozone mass mixing ratio 'kg kg**-1' = { discipline = 0 ; parameterCategory = 14 ; parameterNumber = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum 10 metre wind speed 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum temperature of snow layer 'K' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 28 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum forecast surface roughness 'm' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum forecast logarithm of surface roughness for heat 'Numeric' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 54 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum specific cloud liquid water content 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 83 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum specific cloud ice water content 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 84 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum fraction of cloud cover '(0 - 1)' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 32 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum k index 'K' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 2 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum total totals index 'K' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 4 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum 10 metre wind direction 'Degree true' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum clear air turbulence (CAT) 'm**2/3 s**-1' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 29 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum forecast albedo '%' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum potential temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 2 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum UV visible albedo for direct radiation (climatological) '%' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 56 ; typeOfStatisticalProcessing = 3 ; typeOfGeneratingProcess = 9 ; } #Time-minimum UV visible albedo for diffuse radiation (climatological) '%' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 55 ; typeOfStatisticalProcessing = 3 ; typeOfGeneratingProcess = 9 ; } #Time-minimum near IR albedo for direct radiation (climatological) '%' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 10 ; typeOfStatisticalProcessing = 3 ; typeOfGeneratingProcess = 9 ; } #Time-minimum near IR albedo for diffuse radiation (climatological) '%' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 9 ; typeOfStatisticalProcessing = 3 ; typeOfGeneratingProcess = 9 ; } #Time-minimum snow albedo '%' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 19 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum montgomery potential 'm**2 s**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 6 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum convective available potential energy 'J kg**-1' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum total cloud cover '%' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum skin reservoir content 'kg m**-2' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 50 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum total column integrated ozone 'DU' = { discipline = 0 ; parameterCategory = 14 ; parameterNumber = 2 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum total column vertically-integrated kinetic energy 'J m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum total column vertically-integrated enthalpy 'J m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 3 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum total column vertically-integrated potential + internal energy 'J m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum vertical integral of potential+internal+latent energy 'J m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 21 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum total column vertically-integrated total energy 'J m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 2 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum total column vertically-integrated water enthalpy 'J m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 4 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum UV visible albedo for direct radiation, isotropic component (climatological) '%' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 58 ; typeOfStatisticalProcessing = 3 ; typeOfGeneratingProcess = 9 ; } #Time-minimum UV visible albedo for direct radiation, volumetric component (climatological) '%' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 59 ; typeOfStatisticalProcessing = 3 ; typeOfGeneratingProcess = 9 ; } #Time-minimum UV visible albedo for direct radiation, geometric component (climatological) '%' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 57 ; typeOfStatisticalProcessing = 3 ; typeOfGeneratingProcess = 9 ; } #Time-minimum near IR albedo for direct radiation, isotropic component (climatological) '%' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 12 ; typeOfStatisticalProcessing = 3 ; typeOfGeneratingProcess = 9 ; } #Time-minimum near IR albedo for direct radiation, volumetric component (climatological) '%' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 13 ; typeOfStatisticalProcessing = 3 ; typeOfGeneratingProcess = 9 ; } #Time-minimum near IR albedo for direct radiation, geometric component (climatological) '%' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 11 ; typeOfStatisticalProcessing = 3 ; typeOfGeneratingProcess = 9 ; } #Time-minimum convective inhibition 'J kg**-1' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 7 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum friction velocity 'm s**-1' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 17 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum lake bottom temperature 'K' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 162 ; typeOfSecondFixedSurface = 255 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum lake total layer temperature 'K' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 162 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 3 ; } #Time-minimum lake shape factor 'dimensionless' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 10 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum lake ice surface temperature 'K' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 255 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum lake ice total depth 'm' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 5 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 176 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 3 ; } #Time-minimum minimum vertical gradient of refractivity inside trapping layer 'm**-1' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 45 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum mean vertical gradient of refractivity inside trapping layer 'm**-1' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 44 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum duct base height 'm' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 41 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum trapping layer base height 'm' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 42 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum trapping layer top height 'm' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 43 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum -10 degrees C isothermal level (atm) 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 20 ; scaledValueOfFirstFixedSurface = 26315 ; scaleFactorOfFirstFixedSurface = 2 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum cloud base height 'm' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 11 ; typeOfFirstFixedSurface = 2 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum 0 degrees C isothermal level (atm) 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 20 ; scaledValueOfFirstFixedSurface = 27315 ; scaleFactorOfFirstFixedSurface = 2 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum 10 metre wind gust 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 22 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum relative humidity with respect to water '%' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 93 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum 2 metre relative humidity with respect to water '%' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 93 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 2 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum convective available potential energy shear 'm**2 s**-2' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 19 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum tropopause pressure 'Pa' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 7 ; typeOfSecondFixedSurface = 255 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum height of convective cloud top 'm' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 27 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum height of zero-degree wet-bulb temperature 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 44 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum height of one-degree wet-bulb temperature 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 45 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum total lightning flash density 'km**-2 day**-1' = { discipline = 0 ; parameterCategory = 17 ; parameterNumber = 4 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum total column supercooled liquid water 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 167 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum 10 metre U-component of neutral wind 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 56 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum 10 metre V-component of neutral wind 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 57 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum convective rain rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 76 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum large scale rain rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 77 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum mixed-layer CAPE in the lowest 50 hPa 'J kg**-1' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 18 ; scaledValueOfFirstFixedSurface = 5000 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum mixed-layer CIN in the lowest 50 hPa 'J kg**-1' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 7 ; typeOfFirstFixedSurface = 18 ; scaledValueOfFirstFixedSurface = 5000 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum mixed-layer CAPE in the lowest 100 hPa 'J kg**-1' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 18 ; scaledValueOfFirstFixedSurface = 10000 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum mixed-layer CIN in the lowest 100 hPa 'J kg**-1' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 7 ; typeOfFirstFixedSurface = 18 ; scaledValueOfFirstFixedSurface = 10000 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum departure level of the most unstable parcel expressed as Pressure 'Pa' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 17 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; typeOfStatisticalProcessing = 3 ; } #Time-minimum ceiling 'm' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 13 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum total column integrated saturation specific humidity with respect to water 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 169 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum direct solar radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 54 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 255 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum cosine of solar zenith angle 'Numeric' = { discipline = 3 ; parameterCategory = 1 ; parameterNumber = 24 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum freezing rain rate water equivalent 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 67 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum total column vertically-integrated eastward geopotential flux 'W m**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 40 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum total column vertically-integrated northward geopotential flux 'W m**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 41 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum total column vertically-integrated divergence of water geopotential flux 'W m**-2' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 42 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum total column vertically-integrated divergence of geopotential flux 'W m**-2' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 43 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum total column vertically-integrated eastward enthalpy flux 'W m**-1' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 5 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum total column vertically-integrated northward enthalpy flux 'W m**-1' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum total column vertically-integrated eastward kinetic energy flux 'W m**-1' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 9 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum total column vertically-integrated northward kinetic energy flux 'W m**-1' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 10 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum total column vertically-integrated eastward total energy flux 'W m**-1' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 11 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum total column vertically-integrated northward total energy flux 'W m**-1' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 12 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum total column vertically-integrated divergence of enthalpy flux 'W m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 13 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum total column vertically-integrated divergence of kinetic energy flux 'W m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 16 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum total column vertically-integrated divergence of total energy flux 'W m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 17 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum total column vertically-integrated divergence of water enthalpy flux 'W m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 18 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum vertically integrated divergence of mass flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 35 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum vertically integrated eastward mass flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 36 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum vertically integrated northward mass flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 37 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum vertically integrated divergence of water vapour flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 160 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum vertically integrated divergence of cloud liquid water flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 161 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum vertically integrated divergence of cloud ice water flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 162 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum vertically integrated divergence of rain flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 163 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum vertically integrated divergence of snow flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 164 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum vertically integrated eastward water vapour flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 150 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum vertically integrated northward water vapour flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 151 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum vertically integrated eastward cloud liquid water flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 152 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum vertically integrated northward cloud liquid water flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 153 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum vertically integrated eastward cloud ice water flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 154 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum vertically integrated northward cloud ice water flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 155 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum vertically integrated eastward rain flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 156 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum vertically integrated northward rain flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 157 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum vertically integrated eastward snow flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 158 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum vertically integrated northward snow flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 159 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum vertically integrated eastward ozone flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 78 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; constituentType = 0 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum vertically integrated northward ozone flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 79 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; constituentType = 0 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum vertically integrated divergence of ozone flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 80 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; constituentType = 0 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum vertically integrated net source of ozone 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 81 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; constituentType = 0 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum eastward turbulent surface stress due to orographic form drag 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 64 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum northward turbulent surface stress due to orographic form drag 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 65 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum eastward turbulent surface stress due to surface roughness 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 66 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum northward turbulent surface stress due to surface roughness 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 67 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum visibility through precipitation 'm' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 51 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum land surface heat net flux 'W m**-2' = { discipline = 2 ; parameterCategory = 7 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum surface direct normal short-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 62 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum 10 metre convective gust 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 68 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum 10 metre turbulent gust 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 69 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum geometric height of 0 degrees C theta level above ground 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 34 ; typeOfFirstFixedSurface = 107 ; scaledValueOfFirstFixedSurface = 27315 ; scaleFactorOfFirstFixedSurface = 2 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum geometric height of 1 degree C theta level above ground 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 34 ; typeOfFirstFixedSurface = 107 ; scaledValueOfFirstFixedSurface = 27415 ; scaleFactorOfFirstFixedSurface = 2 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum geometric height of 1.5 degrees C theta level above ground 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 34 ; typeOfFirstFixedSurface = 107 ; scaledValueOfFirstFixedSurface = 27465 ; scaleFactorOfFirstFixedSurface = 2 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum vegetation '%' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 4 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum leaf area index 'Numeric' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 28 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-minimum surface roughness for heat 'm' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 47 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 3 ; } #Time-standard-deviation temperature tendency due to short-wave radiation 'K s**-1' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 22 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation temperature tendency due to long-wave radiation 'K s**-1' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 23 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation temperature tendency due to short wave radiation, clear sky 'K s**-1' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 24 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation temperature tendency due to long-wave radiation, clear sky 'K s**-1' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 25 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation temperature tendency due to parametrisations 'K s**-1' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 26 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation specific humidity tendency due to parametrisations 'kg kg**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 108 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation eastward wind tendency due to parametrisations 'm s**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 39 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation northward wind tendency due to parametrisations 'm s**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 40 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation updraught mass flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 27 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation downdraught mass flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 28 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation updraught detrainment rate 'kg m**-3 s**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 29 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation downdraught detrainment rate 'kg m**-3 s**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 30 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation total precipitation flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 52 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation turbulent diffusion coefficient for heat 'm**2 s**-1' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 20 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation surface photosynthetically active radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 60 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation snow evaporation rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 148 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation snowmelt rate 'kg m**-2 s**-1' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 41 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation magnitude of turbulent surface stress 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 58 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation large-scale precipitation fraction 'Proportion' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 36 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation surface downward UV radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 12 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation surface photosynthetically active radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 10 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation large-scale precipitation rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 54 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation convective precipitation rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 37 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation snowfall rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 53 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation boundary layer dissipation 'W m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 20 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation surface sensible heat flux 'W m**-2' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 11 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation surface latent heat flux 'W m**-2' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 10 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation surface downward short-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 7 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation surface downward long-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 3 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation surface net short-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 9 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation surface net long-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 5 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation top net short-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 9 ; typeOfFirstFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation top net long-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 5 ; typeOfFirstFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation eastward turbulent surface stress 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 62 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation northward turbulent surface stress 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 63 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation evaporation rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 79 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation eastward gravity wave surface stress 'N m**-2' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 16 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation northward gravity wave surface stress 'N m**-2' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 17 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation gravity wave dissipation 'W m**-2' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 23 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation runoff rate 'kg m**-2 s**-1' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 42 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation top net short-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 11 ; typeOfFirstFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation top net long-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation surface net short-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 11 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation surface net long-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation top downward short-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 7 ; typeOfFirstFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation vertically integrated moisture divergence 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 165 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation total precipitation rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 52 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation convective snowfall rate water equivalent 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 55 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation large scale snowfall rate water equivalent 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 56 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation surface direct short-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 13 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation surface direct short-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 61 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation carbon dioxide net ecosystem exchange flux 'kg m**-2 s**-1' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 59 ; constituentType = 3 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation carbon dioxide gross primary production flux 'kg m**-2 s**-1' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 60 ; constituentType = 3 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation carbon dioxide ecosystem respiration flux 'kg m**-2 s**-1' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 61 ; constituentType = 3 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation surface downward short-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 52 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation surface downward long-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 8 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation potential evaporation rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 143 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation volumetric soil moisture 'm**3 m**-3' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 25 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation snow depth water equivalent 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 60 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation skin temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 17 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation snow density 'kg m**-3' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 61 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation sea ice area fraction '(0 - 1)' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation sea surface temperature 'K' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation total column cloud liquid water 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 69 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation total column cloud ice water 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 70 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation 2 metre specific humidity 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 103 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 2 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation lake mix-layer temperature 'K' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 166 ; typeOfSecondFixedSurface = 255 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation lake mix-layer depth 'm' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 166 ; typeOfSecondFixedSurface = 255 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation soil temperature 'K' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 18 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation wind speed 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation pressure 'Pa' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 0 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation charnock 'Numeric' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 76 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation potential vorticity 'K m**2 kg**-1 s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 14 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation specific rain water content 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 85 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation specific snow water content 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 86 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation eta-coordinate vertical velocity 's**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 32 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation visibility 'm' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 0 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation wind direction 'Degree true' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 0 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation total column snow water 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 46 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation low cloud cover '%' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 3 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation medium cloud cover '%' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 4 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation high cloud cover '%' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 5 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation total column rain water 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 45 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation most-unstable CAPE 'J kg**-1' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 17 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation total column vertically-integrated graupel (snow pellets) 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 74 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation geopotential 'm**2 s**-2' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 4 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 0 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation u component of wind 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 2 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation v component of wind 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 3 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation specific humidity 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 0 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation surface pressure 'Pa' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation vertical velocity 'Pa s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation total column water 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 51 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation total column vertically-integrated water vapour 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 64 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation vorticity (relative) 's**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 12 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation mean sea level pressure 'Pa' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 101 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation logarithm of surface pressure 'Numeric' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 25 ; typeOfFirstFixedSurface = 105 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation divergence 's**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 13 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation relative humidity '%' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation boundary layer height 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 18 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation 10 metre U wind component 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 2 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation 10 metre V wind component 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 3 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation 2 metre temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 2 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation 2 metre dewpoint temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 2 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation sunshine 'Numeric' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 24 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation ozone mass mixing ratio 'kg kg**-1' = { discipline = 0 ; parameterCategory = 14 ; parameterNumber = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation 10 metre wind speed 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation temperature of snow layer 'K' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 28 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation forecast surface roughness 'm' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation forecast logarithm of surface roughness for heat 'Numeric' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 54 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation specific cloud liquid water content 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 83 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation specific cloud ice water content 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 84 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation fraction of cloud cover '(0 - 1)' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 32 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation k index 'K' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 2 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation total totals index 'K' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 4 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation 10 metre wind direction 'Degree true' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation clear air turbulence (CAT) 'm**2/3 s**-1' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 29 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation forecast albedo '%' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation potential temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 2 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation UV visible albedo for direct radiation (climatological) '%' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 56 ; typeOfStatisticalProcessing = 6 ; typeOfGeneratingProcess = 9 ; } #Time-standard-deviation UV visible albedo for diffuse radiation (climatological) '%' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 55 ; typeOfStatisticalProcessing = 6 ; typeOfGeneratingProcess = 9 ; } #Time-standard-deviation near IR albedo for direct radiation (climatological) '%' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 10 ; typeOfStatisticalProcessing = 6 ; typeOfGeneratingProcess = 9 ; } #Time-standard-deviation near IR albedo for diffuse radiation (climatological) '%' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 9 ; typeOfStatisticalProcessing = 6 ; typeOfGeneratingProcess = 9 ; } #Time-standard-deviation snow albedo '%' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 19 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation montgomery potential 'm**2 s**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 6 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation convective available potential energy 'J kg**-1' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation total cloud cover '%' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation skin reservoir content 'kg m**-2' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 50 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation total column integrated ozone 'DU' = { discipline = 0 ; parameterCategory = 14 ; parameterNumber = 2 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation total column vertically-integrated kinetic energy 'J m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation total column vertically-integrated enthalpy 'J m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 3 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation total column vertically-integrated potential + internal energy 'J m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation vertical integral of potential+internal+latent energy 'J m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 21 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation total column vertically-integrated total energy 'J m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 2 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation total column vertically-integrated water enthalpy 'J m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 4 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation UV visible albedo for direct radiation, isotropic component (climatological) '%' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 58 ; typeOfStatisticalProcessing = 6 ; typeOfGeneratingProcess = 9 ; } #Time-standard-deviation UV visible albedo for direct radiation, volumetric component (climatological) '%' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 59 ; typeOfStatisticalProcessing = 6 ; typeOfGeneratingProcess = 9 ; } #Time-standard-deviation UV visible albedo for direct radiation, geometric component (climatological) '%' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 57 ; typeOfStatisticalProcessing = 6 ; typeOfGeneratingProcess = 9 ; } #Time-standard-deviation near IR albedo for direct radiation, isotropic component (climatological) '%' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 12 ; typeOfStatisticalProcessing = 6 ; typeOfGeneratingProcess = 9 ; } #Time-standard-deviation near IR albedo for direct radiation, volumetric component (climatological) '%' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 13 ; typeOfStatisticalProcessing = 6 ; typeOfGeneratingProcess = 9 ; } #Time-standard-deviation near IR albedo for direct radiation, geometric component (climatological) '%' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 11 ; typeOfStatisticalProcessing = 6 ; typeOfGeneratingProcess = 9 ; } #Time-standard-deviation convective inhibition 'J kg**-1' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 7 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation friction velocity 'm s**-1' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 17 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation lake bottom temperature 'K' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 162 ; typeOfSecondFixedSurface = 255 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation lake total layer temperature 'K' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 162 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation lake shape factor 'dimensionless' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 10 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation lake ice surface temperature 'K' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 255 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation lake ice total depth 'm' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 5 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 176 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation minimum vertical gradient of refractivity inside trapping layer 'm**-1' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 45 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation mean vertical gradient of refractivity inside trapping layer 'm**-1' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 44 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation duct base height 'm' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 41 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation trapping layer base height 'm' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 42 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation trapping layer top height 'm' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 43 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation -10 degrees C isothermal level (atm) 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 20 ; scaledValueOfFirstFixedSurface = 26315 ; scaleFactorOfFirstFixedSurface = 2 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation cloud base height 'm' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 11 ; typeOfFirstFixedSurface = 2 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation 0 degrees C isothermal level (atm) 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 20 ; scaledValueOfFirstFixedSurface = 27315 ; scaleFactorOfFirstFixedSurface = 2 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation 10 metre wind gust 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 22 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation relative humidity with respect to water '%' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 93 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation 2 metre relative humidity with respect to water '%' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 93 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 2 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation convective available potential energy shear 'm**2 s**-2' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 19 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation tropopause pressure 'Pa' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 7 ; typeOfSecondFixedSurface = 255 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation height of convective cloud top 'm' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 27 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation height of zero-degree wet-bulb temperature 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 44 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation height of one-degree wet-bulb temperature 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 45 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation total lightning flash density 'km**-2 day**-1' = { discipline = 0 ; parameterCategory = 17 ; parameterNumber = 4 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation total column supercooled liquid water 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 167 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation 10 metre U-component of neutral wind 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 56 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation 10 metre V-component of neutral wind 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 57 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation convective rain rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 76 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation large scale rain rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 77 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation mixed-layer CAPE in the lowest 50 hPa 'J kg**-1' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 18 ; scaledValueOfFirstFixedSurface = 5000 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation mixed-layer CIN in the lowest 50 hPa 'J kg**-1' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 7 ; typeOfFirstFixedSurface = 18 ; scaledValueOfFirstFixedSurface = 5000 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation mixed-layer CAPE in the lowest 100 hPa 'J kg**-1' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 18 ; scaledValueOfFirstFixedSurface = 10000 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation mixed-layer CIN in the lowest 100 hPa 'J kg**-1' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 7 ; typeOfFirstFixedSurface = 18 ; scaledValueOfFirstFixedSurface = 10000 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation departure level of the most unstable parcel expressed as Pressure 'Pa' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 17 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation ceiling 'm' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 13 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation total column integrated saturation specific humidity with respect to water 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 169 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation direct solar radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 54 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 255 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation cosine of solar zenith angle 'Numeric' = { discipline = 3 ; parameterCategory = 1 ; parameterNumber = 24 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation freezing rain rate water equivalent 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 67 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation total column vertically-integrated eastward geopotential flux 'W m**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 40 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation total column vertically-integrated northward geopotential flux 'W m**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 41 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation total column vertically-integrated divergence of water geopotential flux 'W m**-2' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 42 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation total column vertically-integrated divergence of geopotential flux 'W m**-2' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 43 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation total column vertically-integrated eastward enthalpy flux 'W m**-1' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 5 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation total column vertically-integrated northward enthalpy flux 'W m**-1' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation total column vertically-integrated eastward kinetic energy flux 'W m**-1' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 9 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation total column vertically-integrated northward kinetic energy flux 'W m**-1' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 10 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation total column vertically-integrated eastward total energy flux 'W m**-1' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 11 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation total column vertically-integrated northward total energy flux 'W m**-1' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 12 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation total column vertically-integrated divergence of enthalpy flux 'W m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 13 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation total column vertically-integrated divergence of kinetic energy flux 'W m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 16 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation total column vertically-integrated divergence of total energy flux 'W m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 17 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation total column vertically-integrated divergence of water enthalpy flux 'W m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 18 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation vertically integrated divergence of mass flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 35 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation vertically integrated eastward mass flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 36 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation vertically integrated northward mass flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 37 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation vertically integrated divergence of water vapour flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 160 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation vertically integrated divergence of cloud liquid water flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 161 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation vertically integrated divergence of cloud ice water flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 162 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation vertically integrated divergence of rain flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 163 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation vertically integrated divergence of snow flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 164 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation vertically integrated eastward water vapour flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 150 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation vertically integrated northward water vapour flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 151 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation vertically integrated eastward cloud liquid water flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 152 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation vertically integrated northward cloud liquid water flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 153 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation vertically integrated eastward cloud ice water flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 154 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation vertically integrated northward cloud ice water flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 155 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation vertically integrated eastward rain flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 156 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation vertically integrated northward rain flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 157 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation vertically integrated eastward snow flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 158 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation vertically integrated northward snow flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 159 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation vertically integrated eastward ozone flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 78 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; constituentType = 0 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation vertically integrated northward ozone flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 79 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; constituentType = 0 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation vertically integrated divergence of ozone flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 80 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; constituentType = 0 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation vertically integrated net source of ozone 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 81 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; constituentType = 0 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation eastward turbulent surface stress due to orographic form drag 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 64 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation northward turbulent surface stress due to orographic form drag 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 65 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation eastward turbulent surface stress due to surface roughness 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 66 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation northward turbulent surface stress due to surface roughness 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 67 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation land surface heat net flux 'W m**-2' = { discipline = 2 ; parameterCategory = 7 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation surface direct normal short-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 62 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation 10 metre convective gust 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 68 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation 10 metre turbulent gust 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 69 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation geometric height of 0 degrees C theta level above ground 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 34 ; typeOfFirstFixedSurface = 107 ; scaledValueOfFirstFixedSurface = 27315 ; scaleFactorOfFirstFixedSurface = 2 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation geometric height of 1 degree C theta level above ground 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 34 ; typeOfFirstFixedSurface = 107 ; scaledValueOfFirstFixedSurface = 27415 ; scaleFactorOfFirstFixedSurface = 2 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation geometric height of 1.5 degrees C theta level above ground 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 34 ; typeOfFirstFixedSurface = 107 ; scaledValueOfFirstFixedSurface = 27465 ; scaleFactorOfFirstFixedSurface = 2 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation vegetation '%' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 4 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation leaf area index 'Numeric' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 28 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Time-standard-deviation surface roughness for heat 'm' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 47 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 6 ; } #Cross sectional area of flow in channel 'm**2' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 13 ; } #Side flow into river channel 'm**3 s**-1 m**-1' = { discipline = 1 ; parameterCategory = 0 ; parameterNumber = 10 ; } #Discharge from rivers or streams 'm**3 s**-1' = { discipline = 1 ; parameterCategory = 0 ; parameterNumber = 7 ; } #River storage of water 'm**3' = { discipline = 1 ; parameterCategory = 0 ; parameterNumber = 11 ; } #Floodplain storage of water 'm**3' = { discipline = 1 ; parameterCategory = 0 ; parameterNumber = 12 ; } #Days since last observation 'Integer' = { discipline = 0 ; parameterCategory = 191 ; parameterNumber = 3 ; } #Frost index 'K' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 24 ; } #Depth of water on soil surface 'kg m**-2' = { discipline = 1 ; parameterCategory = 0 ; parameterNumber = 13 ; } #Upstream accumulated precipitation 'kg m**-2' = { discipline = 1 ; parameterCategory = 0 ; parameterNumber = 14 ; } #Upstream accumulated snow melt 'kg m**-2' = { discipline = 1 ; parameterCategory = 0 ; parameterNumber = 15 ; } #Snow depth at elevation bands 'kg m**-2' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 25 ; } #Groundwater upper storage 'kg m**-2' = { discipline = 1 ; parameterCategory = 0 ; parameterNumber = 8 ; } #Groundwater lower storage 'kg m**-2' = { discipline = 1 ; parameterCategory = 0 ; parameterNumber = 9 ; } #Lake depth 'm' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 15 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 162 ; } #River depth 'm' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 16 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 162 ; } #River outflow of water 'm**3 s**-1' = { discipline = 1 ; parameterCategory = 0 ; parameterNumber = 17 ; } #Floodplain outflow of water 'm**3 s**-1' = { discipline = 1 ; parameterCategory = 0 ; parameterNumber = 18 ; } #Floodpath outflow of water 'm**3 s**-1' = { discipline = 1 ; parameterCategory = 0 ; parameterNumber = 19 ; } #Floodplain depth 'm' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 17 ; } #Floodplain flooded fraction 'Proportion' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 18 ; } #Floodplain flooded area 'm**2' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 19 ; } #River fraction 'Proportion' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 20 ; } #River area 'm**2' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 21 ; } #Fraction of river coverage plus river related flooding 'Proportion' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 22 ; } #Area of river coverage plus river related flooding 'm**2' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 23 ; } #Latitude 'Degree N' = { discipline = 0 ; parameterCategory = 191 ; parameterNumber = 1 ; } #Longitude 'Degree E' = { discipline = 0 ; parameterCategory = 191 ; parameterNumber = 2 ; } #Latitude on T grid 'Degree N' = { discipline = 0 ; parameterCategory = 191 ; parameterNumber = 1 ; gridDefinitionTemplateNumber = 101 ; numberOfGridInReference = 1 ; } #Longitude on T grid 'Degree E' = { discipline = 0 ; parameterCategory = 191 ; parameterNumber = 2 ; gridDefinitionTemplateNumber = 101 ; numberOfGridInReference = 1 ; } #Latitude on U grid 'Degree N' = { discipline = 0 ; parameterCategory = 191 ; parameterNumber = 1 ; gridDefinitionTemplateNumber = 101 ; numberOfGridInReference = 2 ; } #Longitude on U grid 'Degree E' = { discipline = 0 ; parameterCategory = 191 ; parameterNumber = 2 ; gridDefinitionTemplateNumber = 101 ; numberOfGridInReference = 2 ; } #Latitude on V grid 'Degree N' = { discipline = 0 ; parameterCategory = 191 ; parameterNumber = 1 ; gridDefinitionTemplateNumber = 101 ; numberOfGridInReference = 3 ; } #Longitude on V grid 'Degree E' = { discipline = 0 ; parameterCategory = 191 ; parameterNumber = 2 ; gridDefinitionTemplateNumber = 101 ; numberOfGridInReference = 3 ; } #Latitude on W grid 'Degree N' = { discipline = 0 ; parameterCategory = 191 ; parameterNumber = 1 ; gridDefinitionTemplateNumber = 101 ; numberOfGridInReference = 4 ; } #Longitude on W grid 'Degree E' = { discipline = 0 ; parameterCategory = 191 ; parameterNumber = 2 ; gridDefinitionTemplateNumber = 101 ; numberOfGridInReference = 4 ; } #Latitude on F grid 'Degree N' = { discipline = 0 ; parameterCategory = 191 ; parameterNumber = 1 ; gridDefinitionTemplateNumber = 101 ; numberOfGridInReference = 5 ; } #Longitude on F grid 'Degree E' = { discipline = 0 ; parameterCategory = 191 ; parameterNumber = 2 ; gridDefinitionTemplateNumber = 101 ; numberOfGridInReference = 5 ; } #Total column vertically-integrated graupel (snow pellets) 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 74 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Surface latent heat net flux 'W m**-2' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 10 ; typeOfFirstFixedSurface = 1 ; } #Heat index 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 12 ; } #Wind chill factor 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 13 ; } #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 ; } #Total snowfall 'm' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 57 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #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 ; typeOfFirstFixedSurface = 1 ; } #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 ; } #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 = 66 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #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 ; typeOfFirstFixedSurface = 1 ; } #Total snowfall rate water equivalent 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 53 ; typeOfFirstFixedSurface = 1 ; } #Large scale precipitation rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 54 ; typeOfFirstFixedSurface = 1 ; } #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 (deprecated) 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 13 ; } #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 ; typeOfFirstFixedSurface = 1 ; } #Ice pellets precipitation rate 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 68 ; } #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 ; } #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 ; } #Instantaneous eastward gravity wave surface stress 'N m**-2' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 16 ; typeOfFirstFixedSurface = 1 ; } #Instantaneous northward gravity wave surface stress 'N m**-2' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 17 ; typeOfFirstFixedSurface = 1 ; } #5-wave geopotential height anomaly 'gpm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 19 ; } #Net short-wave radiation flux (top of atmosphere) 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 1 ; } #Surface downward short-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 7 ; typeOfFirstFixedSurface = 1 ; } #Surface upward short-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 8 ; typeOfFirstFixedSurface = 1 ; } #Surface net short-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 9 ; typeOfFirstFixedSurface = 1 ; } #Surface photosynthetically active radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 10 ; typeOfFirstFixedSurface = 1 ; } #Surface net short-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 11 ; typeOfFirstFixedSurface = 1 ; } #Surface downward UV radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 12 ; typeOfFirstFixedSurface = 1 ; } #UV index (under clear sky) 'Numeric' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 50 ; } #UV index 'Numeric' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 51 ; } #Surface downward long-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 3 ; typeOfFirstFixedSurface = 1 ; } #Surface upward long-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 4 ; typeOfFirstFixedSurface = 1 ; } #Surface net long-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 5 ; typeOfFirstFixedSurface = 1 ; } #Surface net long-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 1 ; } #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 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 ; typeOfFirstFixedSurface = 1 ; } #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 'm**2 s**-2' = { 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 'DU' = { discipline = 0 ; parameterCategory = 14 ; parameterNumber = 0 ; } #Total column integrated ozone 'DU' = { discipline = 0 ; parameterCategory = 14 ; parameterNumber = 2 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #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 ; } #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 ; } #Relative clear air turbulence (RCAT) '%' = { 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 ; } #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 ; } #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 ; } #Number of soil layers in root zone 'Numeric' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 6 ; } #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 ; } #Geometric vertical velocity 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 9 ; } #Seconds prior to initial reference time (defined in Section 1) 's' = { discipline = 10 ; parameterCategory = 191 ; parameterNumber = 0 ; } #2 metre relative humidity '%' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 2 ; scaleFactorOfFirstFixedSurface = 0 ; } #Apparent temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 21 ; } #Haines Index 'Numeric' = { discipline = 2 ; parameterCategory = 4 ; parameterNumber = 2 ; } #Cloud cover '%' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 22 ; } #Evaporation 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 79 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #10 metre wind direction 'Degree true' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; } #Surface direct short-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 13 ; typeOfFirstFixedSurface = 1 ; } #Surface diffuse short-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 14 ; typeOfFirstFixedSurface = 1 ; } #Fraction of snow cover 'Proportion' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 121 ; } #Clear air turbulence (CAT) 'm**2/3 s**-1' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 29 ; } #Mountain wave turbulence (eddy dissipation rate) 'm**2/3 s**-1' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 28 ; } #Specific rain water content (convective) 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 144 ; } #Specific snow water content (convective) 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 145 ; } #Glacier mask 'Proportion' = { discipline = 2 ; parameterCategory = 5 ; parameterNumber = 0 ; } #Precipitation type (most severe) in the last 1 hour '(Code table 4.201)' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 19 ; indicatorOfUnitForTimeRange = 1 ; typeOfStatisticalProcessing = 100 ; lengthOfTimeRange = 1 ; } #Precipitation type (most severe) in the last 3 hours '(Code table 4.201)' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 19 ; indicatorOfUnitForTimeRange = 1 ; typeOfStatisticalProcessing = 100 ; lengthOfTimeRange = 3 ; } #Precipitation type (most frequent) in the last 1 hour '(Code table 4.201)' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 19 ; indicatorOfUnitForTimeRange = 1 ; typeOfStatisticalProcessing = 101 ; lengthOfTimeRange = 1 ; } #Precipitation type (most frequent) in the last 3 hours '(Code table 4.201)' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 19 ; indicatorOfUnitForTimeRange = 1 ; typeOfStatisticalProcessing = 101 ; lengthOfTimeRange = 3 ; } #Precipitation type (most severe) in the last 6 hours '(Code table 4.201)' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 19 ; indicatorOfUnitForTimeRange = 1 ; typeOfStatisticalProcessing = 100 ; lengthOfTimeRange = 6 ; } #Precipitation type (most frequent) in the last 6 hours '(Code table 4.201)' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 19 ; indicatorOfUnitForTimeRange = 1 ; typeOfStatisticalProcessing = 101 ; lengthOfTimeRange = 6 ; } #Soil temperature 'K' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 18 ; } #Surface downward short-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 52 ; typeOfFirstFixedSurface = 1 ; } #Surface upward short-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 53 ; typeOfFirstFixedSurface = 1 ; } #Surface downward long-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 8 ; typeOfFirstFixedSurface = 1 ; } #Soil heat flux 'W m**-2' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 26 ; } #Percolation rate 'kg m**-2 s**-1' = { discipline = 1 ; parameterCategory = 0 ; parameterNumber = 16 ; } #Soil depth 'm' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 27 ; } #Soil moisture 'kg m**-3' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 19 ; } #Leaf Area Index 'Numeric' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 28 ; typeOfFirstFixedSurface = 1 ; } #Accumulated surface upward short-wave radiation flux, clear sky 'J m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 53 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Percolation 'kg m**-2' = { discipline = 1 ; parameterCategory = 0 ; parameterNumber = 16 ; typeOfFirstFixedSurface = 177 ; typeOfStatisticalProcessing = 1 ; } #Evapotranspiration rate 'kg m**-2 s**-1' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 39 ; typeOfFirstFixedSurface = 1 ; } #Potential evapotranspiration rate 'kg m**-2 s**-1' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 40 ; typeOfFirstFixedSurface = 1 ; } #Runoff rate water equivalent (surface plus subsurface) 'kg m**-2 s**-1' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 42 ; } #Snow melt rate 'kg m**-2 s**-1' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 41 ; typeOfFirstFixedSurface = 1 ; } #Forecast albedo '%' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 1 ; } #Cloudy brightness temperature 'K' = { discipline = 3 ; parameterCategory = 1 ; parameterNumber = 14 ; } #Clear-sky brightness temperature 'K' = { discipline = 3 ; parameterCategory = 1 ; parameterNumber = 15 ; } #Cloudy reflectance '%' = { discipline = 3 ; parameterCategory = 1 ; parameterNumber = 31 ; } #Clear reflectance '%' = { discipline = 3 ; parameterCategory = 1 ; parameterNumber = 32 ; } #Scaled radiance 'Numeric' = { discipline = 3 ; parameterCategory = 0 ; parameterNumber = 0 ; } #Scaled albedo 'Numeric' = { discipline = 3 ; parameterCategory = 0 ; parameterNumber = 1 ; } #Scaled brightness temperature 'Numeric' = { discipline = 3 ; parameterCategory = 0 ; parameterNumber = 2 ; } #Scaled precipitable water 'Numeric' = { discipline = 3 ; parameterCategory = 0 ; parameterNumber = 3 ; } #Scaled lifted index 'Numeric' = { discipline = 3 ; parameterCategory = 0 ; parameterNumber = 4 ; } #Scaled cloud top pressure 'Numeric' = { discipline = 3 ; parameterCategory = 0 ; parameterNumber = 5 ; } #Scaled skin temperature 'Numeric' = { discipline = 3 ; parameterCategory = 0 ; parameterNumber = 6 ; } #Cloud mask '(Code table 4.217)' = { discipline = 3 ; parameterCategory = 0 ; parameterNumber = 7 ; } #Pixel scene type '(Code table 4.218)' = { discipline = 3 ; parameterCategory = 0 ; parameterNumber = 8 ; } #Fire detection indicator '(Code table 4.223)' = { discipline = 3 ; parameterCategory = 0 ; parameterNumber = 9 ; } #Forest fire weather index (as defined by the Canadian Forest Service) 'Numeric' = { discipline = 2 ; parameterCategory = 4 ; parameterNumber = 5 ; } #Fine fuel moisture code (as defined by the Canadian Forest Service) 'Numeric' = { discipline = 2 ; parameterCategory = 4 ; parameterNumber = 6 ; } #Duff moisture code (as defined by the Canadian Forest Service) 'Numeric' = { discipline = 2 ; parameterCategory = 4 ; parameterNumber = 7 ; } #Drought code (as defined by the Canadian Forest Service) 'Numeric' = { discipline = 2 ; parameterCategory = 4 ; parameterNumber = 8 ; } #Initial fire spread index (as defined by the Canadian Forest Service) 'Numeric' = { discipline = 2 ; parameterCategory = 4 ; parameterNumber = 9 ; } #Fire buildup index (as defined by the Canadian Forest Service) 'Numeric' = { discipline = 2 ; parameterCategory = 4 ; parameterNumber = 10 ; } #Fire daily severity rating (as defined by the Canadian Forest Service) 'Numeric' = { discipline = 2 ; parameterCategory = 4 ; parameterNumber = 11 ; } #Cloudy radiance (with respect to wave number) 'W m**-1 sr**-1' = { discipline = 3 ; parameterCategory = 1 ; parameterNumber = 16 ; } #Clear-sky radiance (with respect to wave number) 'W m**-1 sr**-1' = { discipline = 3 ; parameterCategory = 1 ; parameterNumber = 17 ; } #Wind speed 'm s**-1' = { discipline = 3 ; parameterCategory = 1 ; parameterNumber = 19 ; } #Aerosol optical thickness at 0.635 um 'dimensionless' = { discipline = 3 ; parameterCategory = 1 ; parameterNumber = 20 ; } #Aerosol optical thickness at 0.810 um 'dimensionless' = { discipline = 3 ; parameterCategory = 1 ; parameterNumber = 21 ; } #Aerosol optical thickness at 1.640 um 'dimensionless' = { discipline = 3 ; parameterCategory = 1 ; parameterNumber = 22 ; } #Angstrom coefficient 'dimensionless' = { discipline = 3 ; parameterCategory = 1 ; parameterNumber = 23 ; } #Keetch-Byram drought index 'Numeric' = { discipline = 2 ; parameterCategory = 4 ; parameterNumber = 12 ; } #Drought factor (as defined by the Australian forest service) 'Numeric' = { discipline = 2 ; parameterCategory = 4 ; parameterNumber = 13 ; } #Rate of spread (as defined by the Australian forest service) 'm s**-1' = { discipline = 2 ; parameterCategory = 4 ; parameterNumber = 14 ; } #Fire danger index (as defined by the Australian forest service) 'Numeric' = { discipline = 2 ; parameterCategory = 4 ; parameterNumber = 15 ; } #Spread component (as defined by the U.S Forest Service National Fire-Danger Rating System) 'Numeric' = { discipline = 2 ; parameterCategory = 4 ; parameterNumber = 16 ; } #Burning index (as defined by the U.S Forest Service National Fire-Danger Rating System) 'Numeric' = { discipline = 2 ; parameterCategory = 4 ; parameterNumber = 17 ; } #Ignition component (as defined by the U.S Forest Service National Fire-Danger Rating System) '%' = { discipline = 2 ; parameterCategory = 4 ; parameterNumber = 18 ; } #Energy release component (as defined by the U.S Forest Service National Fire-Danger Rating System) 'J m**-2' = { discipline = 2 ; parameterCategory = 4 ; parameterNumber = 19 ; } #Volumetric soil ice 'm**3 m**-3' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 38 ; } #Time integral of total solid precipitation flux 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 128 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 255 ; typeOfStatisticalProcessing = 1 ; } #10 metre eastward wind gust since previous post-processing 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 23 ; typeOfFirstFixedSurface = 103 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 2 ; } #10 metre northward wind gust since previous post-processing 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 24 ; typeOfFirstFixedSurface = 103 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 2 ; } #Fog '%' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 50 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 255 ; } #Time-integrated eastward turbulent surface stress due to orographic form drag 'N m**-2 s' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 64 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated northward turbulent surface stress due to orographic form drag 'N m**-2 s' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 65 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated eastward turbulent surface stress due to surface roughness 'N m**-2 s' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 66 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated northward turbulent surface stress due to surface roughness 'N m**-2 s' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 67 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Saturation specific humidity with respect to water 'kg m**-3' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 168 ; } #Total column integrated saturation specific humidity with respect to water 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 169 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Standardised Precipitation Index (SPI) 'Numeric' = { discipline = 0 ; parameterCategory = 22 ; parameterNumber = 0 ; } #Standardised Precipitation Evapotranspiration Index (SPEI) 'Numeric' = { discipline = 0 ; parameterCategory = 22 ; parameterNumber = 1 ; } #Standardised Streamflow Index (SSFI) 'Numeric' = { discipline = 0 ; parameterCategory = 22 ; parameterNumber = 2 ; } #Standardised Reservoir Supply Index (SRSI) 'Numeric' = { discipline = 0 ; parameterCategory = 22 ; parameterNumber = 3 ; } #Standardised Water-level Index (SWI) 'Numeric' = { discipline = 0 ; parameterCategory = 22 ; parameterNumber = 4 ; } #Standardised Snowmelt and Rain Index (SMRI) 'Numeric' = { discipline = 0 ; parameterCategory = 22 ; parameterNumber = 5 ; } #Streamflow Drought Index (SDI) 'Numeric' = { discipline = 0 ; parameterCategory = 22 ; parameterNumber = 6 ; } #Volumetric soil moisture top 20 cm 'm**3 m**-3' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 25 ; typeOfFirstFixedSurface = 106 ; typeOfSecondFixedSurface = 106 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = 2 ; scaleFactorOfSecondFixedSurface = 1 ; } #Volumetric soil moisture top 100 cm 'm**3 m**-3' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 25 ; typeOfFirstFixedSurface = 106 ; typeOfSecondFixedSurface = 106 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = 1 ; scaleFactorOfSecondFixedSurface = 0 ; } #Surface photosynthetically active radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 60 ; typeOfFirstFixedSurface = 1 ; } #Surface direct normal short-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 54 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 255 ; } #Instantaneous magnitude of turbulent surface stress 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 58 ; typeOfFirstFixedSurface = 1 ; } #Instantaneous boundary layer dissipation 'W m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 20 ; } #Top net short-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 9 ; typeOfFirstFixedSurface = 8 ; } #Top net long-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 5 ; typeOfFirstFixedSurface = 8 ; } #Instantaneous gravity wave dissipation 'W m**-2' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 23 ; } #Top net short-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 11 ; typeOfFirstFixedSurface = 8 ; } #Top net long-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 5 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 8 ; } #Top downward short-wave radiation flux 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 7 ; typeOfFirstFixedSurface = 8 ; } #Surface direct short-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 61 ; typeOfFirstFixedSurface = 1 ; } #Instantaneous eastward turbulent surface stress due to orographic form drag 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 64 ; typeOfFirstFixedSurface = 1 ; } #Instantaneous northward turbulent surface stress due to orographic form drag 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 65 ; typeOfFirstFixedSurface = 1 ; } #Instantaneous eastward turbulent surface stress due to surface roughness 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 66 ; typeOfFirstFixedSurface = 1 ; } #Instantaneous northward turbulent surface stress due to surface roughness 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 67 ; typeOfFirstFixedSurface = 1 ; } #Land surface heat net flux 'W m**-2' = { discipline = 2 ; parameterCategory = 7 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 1 ; } #Surface direct normal short-wave radiation flux, clear sky 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 62 ; typeOfFirstFixedSurface = 1 ; } #10 metre convective gust 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 68 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; } #10 metre turbulent gust 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 69 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; } #Universal thermal climate index 'K' = { discipline = 20 ; parameterCategory = 0 ; parameterNumber = 0 ; } #Mean radiant temperature 'K' = { discipline = 20 ; parameterCategory = 0 ; parameterNumber = 1 ; } #Fraction of Malaria cases 'Fraction' = { discipline = 20 ; parameterCategory = 1 ; parameterNumber = 0 ; } #Malaria circumsporozoite protein ratio 'Fraction' = { discipline = 20 ; parameterCategory = 1 ; parameterNumber = 1 ; } #Plasmodium falciparum entomological inoculation rate 'Bites per day per person' = { discipline = 20 ; parameterCategory = 1 ; parameterNumber = 2 ; } #Human bite rate by anopheles vectors 'Bites per day per person' = { discipline = 20 ; parameterCategory = 1 ; parameterNumber = 3 ; } #Malaria immunity ratio 'Fraction' = { discipline = 20 ; parameterCategory = 1 ; parameterNumber = 4 ; } #Falciparum parasite ratio 'Fraction' = { discipline = 20 ; parameterCategory = 1 ; parameterNumber = 5 ; } #Detectable falciparum parasite ratio (after day 10) 'Fraction' = { discipline = 20 ; parameterCategory = 1 ; parameterNumber = 6 ; } #Anopheles vector to host ratio 'Fraction' = { discipline = 20 ; parameterCategory = 1 ; parameterNumber = 7 ; } #Anopheles vector density 'Number m**-2' = { discipline = 20 ; parameterCategory = 1 ; parameterNumber = 8 ; } #Fraction of malarial vector reproductive habitat 'Fraction' = { discipline = 20 ; parameterCategory = 1 ; parameterNumber = 9 ; } #Population density 'Person m**-2' = { discipline = 20 ; parameterCategory = 2 ; parameterNumber = 0 ; } #Wet bulb globe temperature 'K' = { discipline = 20 ; parameterCategory = 0 ; parameterNumber = 2 ; } #Globe temperature 'K' = { discipline = 20 ; parameterCategory = 0 ; parameterNumber = 3 ; } #Humidex 'K' = { discipline = 20 ; parameterCategory = 0 ; parameterNumber = 4 ; } #Effective temperature 'K' = { discipline = 20 ; parameterCategory = 0 ; parameterNumber = 5 ; } #Normal effective temperature 'K' = { discipline = 20 ; parameterCategory = 0 ; parameterNumber = 6 ; } #Standard effective temperature 'K' = { discipline = 20 ; parameterCategory = 0 ; parameterNumber = 7 ; } #Physiological equivalent temperature 'K' = { discipline = 20 ; parameterCategory = 0 ; parameterNumber = 8 ; } #Saturation water vapour pressure 'Pa' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 32 ; } #Wet-bulb potential temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 32 ; } #Wet-bulb temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 27 ; } #Sea ice thickness 'm' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 1 ; } #Sea ice area fraction 'Fraction' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Eastward sea ice velocity 'm s**-1' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 4 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 176 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Northward sea ice velocity 'm s**-1' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 5 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 176 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Sea ice albedo 'Fraction' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 14 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Sea ice surface temperature 'K' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 8 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Sea ice growth 'm s**-1' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 176 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Sea ice volume per unit area 'm**3 m**-2' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 15 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 176 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Snow volume over sea ice per unit area 'm**3 m**-2' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 16 ; typeOfFirstFixedSurface = 173 ; typeOfSecondFixedSurface = 175 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Vertically averaged sea ice temperature 'K' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 8 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 176 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Snow temperature over sea ice 'K' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 13 ; typeOfFirstFixedSurface = 173 ; typeOfSecondFixedSurface = 175 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Sea ice temperature at the sea ice and snow interface 'K' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 8 ; typeOfFirstFixedSurface = 175 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Underside ice temperature 'K' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 8 ; typeOfFirstFixedSurface = 176 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Sea ice heat content 'J m**-2' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 17 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 176 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Snow heat content over sea ice 'J m**-2' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 18 ; typeOfFirstFixedSurface = 173 ; typeOfSecondFixedSurface = 175 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Sea ice freeboard thickness 'm' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 19 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 160 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = 0 ; scaleFactorOfSecondFixedSurface = 0 ; } #Sea ice melt pond fraction 'Proportion' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 20 ; typeOfFirstFixedSurface = 188 ; typeOfSecondFixedSurface = 189 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Sea ice melt pond depth 'm' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 21 ; typeOfFirstFixedSurface = 188 ; typeOfSecondFixedSurface = 189 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Sea ice melt pond volume per unit area 'm**3 m**-2' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 22 ; typeOfFirstFixedSurface = 188 ; typeOfSecondFixedSurface = 189 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Sea ice fraction tendency due to parameterization 's**-1' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 23 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #X-component of sea ice velocity 'm s**-1' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 24 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 176 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Y-component of sea ice velocity 'm s**-1' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 25 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 176 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Sea ice temperature 'K' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 8 ; } #Sea surface practical salinity 'g kg**-1' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 3 ; } #Sea surface temperature 'K' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Depth of 14 C isotherm 'm' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 14 ; typeOfFirstFixedSurface = 20 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 28715 ; scaleFactorOfFirstFixedSurface = 2 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Depth of 17 C isotherm 'm' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 14 ; typeOfFirstFixedSurface = 20 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 29015 ; scaleFactorOfFirstFixedSurface = 2 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Depth of 20 C isotherm 'm' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 14 ; typeOfFirstFixedSurface = 20 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 29315 ; scaleFactorOfFirstFixedSurface = 2 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Depth of 26 C isotherm 'm' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 14 ; typeOfFirstFixedSurface = 20 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 29915 ; scaleFactorOfFirstFixedSurface = 2 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Depth of 28 C isotherm 'm' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 14 ; typeOfFirstFixedSurface = 20 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 30115 ; scaleFactorOfFirstFixedSurface = 2 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Barotropic stream function 'm**3 s**-1' = { discipline = 10 ; parameterCategory = 191 ; parameterNumber = 4 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 5 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Surface downward heat flux 'W m**-2' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 4 ; } #Northward surface stress 'N m**-2' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 6 ; } #Eastward surface stress 'N m**-2' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 5 ; } #Y-component of surface stress 'N m**-2' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 8 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #X-component of surface stress 'N m**-2' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 7 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Ocean mixed layer depth defined by sigma theta 0.01 kg m-3 'm' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 14 ; typeOfFirstFixedSurface = 169 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 1 ; scaleFactorOfFirstFixedSurface = 2 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Ocean mixed layer depth defined by sigma theta 0.03 kg m-3 'm' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 14 ; typeOfFirstFixedSurface = 169 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 3 ; scaleFactorOfFirstFixedSurface = 2 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Ocean mixed layer depth defined by sigma theta 0.125 kg m-3 'm' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 14 ; typeOfFirstFixedSurface = 169 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 125 ; scaleFactorOfFirstFixedSurface = 3 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Ocean mixed layer depth defined by temperature 0.2 C 'm' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 14 ; typeOfFirstFixedSurface = 170 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 2 ; scaleFactorOfFirstFixedSurface = 1 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Ocean mixed layer depth defined by temperature 0.5 C 'm' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 14 ; typeOfFirstFixedSurface = 170 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 5 ; scaleFactorOfFirstFixedSurface = 1 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Average sea water practical salinity in the upper 300 m 'g kg**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 21 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 160 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = 300 ; scaleFactorOfSecondFixedSurface = 0 ; } #Average sea water practical salinity in the upper 700 m 'g kg**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 21 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 160 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = 700 ; scaleFactorOfSecondFixedSurface = 0 ; } #Total column average sea water practical salinity 'g kg**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 21 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 9 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Vertically-integrated heat content in the upper 300 m 'J m**-2' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 22 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 160 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = 300 ; scaleFactorOfSecondFixedSurface = 0 ; } #Vertically-integrated heat content in the upper 700 m 'J m**-2' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 22 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 160 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = 700 ; scaleFactorOfSecondFixedSurface = 0 ; } #Total column of heat content 'J m**-2' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 22 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 9 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Sea surface height 'm' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 1 ; } #Steric change in sea surface height 'm' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 11 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Halosteric change in sea surface height 'm' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 10 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Thermosteric change in sea surface height 'm' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 9 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Thermocline depth 'm' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Bottom pressure equivalent height 'm' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 29 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 9 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Net surface upward water flux 'kg m**-2 s**-1' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 13 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Fresh water flux into sea water (from rivers) 'kg m**-2 s**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 30 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Virtual salt flux into sea water 'g kg**-1 m**-2 s**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 32 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Heat flux correction 'W m**-2' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 18 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Fresh water flux correction 'kg m**-2 s**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 31 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Virtual salt flux correction 'g kg**-1 m**-2 s**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 33 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Turbocline depth (kz=5e-4) 'm' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 14 ; typeOfFirstFixedSurface = 171 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 5 ; scaleFactorOfFirstFixedSurface = 4 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Y-component of surface sea water velocity 'm s**-1' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 17 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #X-component of surface sea water velocity 'm s**-1' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 16 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Northward surface sea water velocity 'm s**-1' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 15 ; } #Eastward surface sea water velocity 'm s**-1' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 14 ; } #Heat Content surface to 26C isotherm 'J m**-2' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 22 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 20 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = 29915 ; scaleFactorOfSecondFixedSurface = 2 ; } #Sea surface height tendency due to parameterization 'm s**-1' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 19 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Sea surface height with inverse barometer correction 'm' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 20 ; } #Average sea water potential temperature in the upper 300m 'K' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 18 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 160 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = 300 ; scaleFactorOfSecondFixedSurface = 0 ; } #Sea surface salinity 'kg kg**-1' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 21 ; } #Vertically integrated sea water practical salinity in the upper 300 m 'g kg**-1 m' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 50 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 160 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = 300 ; scaleFactorOfSecondFixedSurface = 0 ; } #Vertically integrated sea water practical salinity in the upper 700 m 'g kg**-1 m' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 50 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 160 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = 700 ; scaleFactorOfSecondFixedSurface = 0 ; } #Total column vertically integrated sea water practical salinity 'g kg**-1 m' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 50 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 9 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Sea water practical salinity 'g kg**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 21 ; typeOfFirstFixedSurface = 168 ; typeOfSecondFixedSurface = 168 ; } #Sea water potential temperature 'K' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 18 ; typeOfFirstFixedSurface = 168 ; typeOfSecondFixedSurface = 168 ; } #Sea water sigma theta 'kg m**-3' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 20 ; typeOfFirstFixedSurface = 168 ; typeOfSecondFixedSurface = 168 ; } #Y-component of sea water velocity 'm s**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 26 ; typeOfFirstFixedSurface = 168 ; typeOfSecondFixedSurface = 168 ; } #X-component of sea water velocity 'm s**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 25 ; typeOfFirstFixedSurface = 168 ; typeOfSecondFixedSurface = 168 ; } #Northward sea water velocity 'm s**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 24 ; typeOfFirstFixedSurface = 168 ; typeOfSecondFixedSurface = 168 ; } #Eastward sea water velocity 'm s**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 23 ; typeOfFirstFixedSurface = 168 ; typeOfSecondFixedSurface = 168 ; } #Upward sea water velocity 'm s**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 27 ; typeOfFirstFixedSurface = 168 ; typeOfSecondFixedSurface = 255 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Sea water potential temperature tendency due to newtonian relaxation 'K s**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 34 ; typeOfFirstFixedSurface = 168 ; typeOfSecondFixedSurface = 168 ; } #Sea water salinity tendency due to newtonian relaxation 'g kg**-1 s**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 35 ; typeOfFirstFixedSurface = 168 ; typeOfSecondFixedSurface = 168 ; } #Sea water temperature tendency due to parameterization 'K s**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 36 ; typeOfFirstFixedSurface = 168 ; typeOfSecondFixedSurface = 168 ; } #Sea water salinity tendency due to parameterization 'g kg**-1 s**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 37 ; typeOfFirstFixedSurface = 168 ; typeOfSecondFixedSurface = 168 ; } #Eastward sea water velocity tendency due to parameterization 'm s**-2' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 38 ; typeOfFirstFixedSurface = 168 ; typeOfSecondFixedSurface = 168 ; } #Northward sea water velocity tendency due to parameterization 'm s**-2' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 39 ; typeOfFirstFixedSurface = 168 ; typeOfSecondFixedSurface = 168 ; } #Sea water temperature tendency due to direct bias correction 'K s**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 40 ; typeOfFirstFixedSurface = 168 ; typeOfSecondFixedSurface = 168 ; } #Sea water salinity tendency due to direct bias correction 'g kg**-1 s**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 41 ; typeOfFirstFixedSurface = 168 ; typeOfSecondFixedSurface = 168 ; } #Sea water salinity 'kg kg**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 3 ; typeOfFirstFixedSurface = 168 ; typeOfSecondFixedSurface = 168 ; } #Northward mass transport 'kg m**-2 s**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 46 ; typeOfFirstFixedSurface = 168 ; typeOfSecondFixedSurface = 168 ; } #Eastward mass transport 'kg m**-2 s**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 47 ; typeOfFirstFixedSurface = 168 ; typeOfSecondFixedSurface = 168 ; } #Net short wave radiation rate at sea surface 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 9 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Wind stress at sea surface 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 49 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Wind speed at 10m above sea surface 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 102 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Neutral drag coefficient at 10m above sea surface 'dimensionless' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 29 ; typeOfFirstFixedSurface = 102 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Total precipitation rate at sea surface 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 52 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Snow precipitation rate at sea surface 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 66 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Eastward of wind stress over sea ice 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 50 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Northward of wind stress over sea ice 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 51 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #U-component of wind stress over sea ice 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 52 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #V-component of wind stress over sea ice 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 53 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Time-mean sea ice thickness 'm' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean sea ice area fraction 'Fraction' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean eastward sea ice velocity 'm s**-1' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 4 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 176 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean northward sea ice velocity 'm s**-1' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 5 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 176 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean sea ice albedo 'Fraction' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 14 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean sea ice surface temperature 'K' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 8 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean sea ice growth 'm s**-1' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 176 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean sea ice volume per unit area 'm**3 m**-2' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 15 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 176 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean snow volume over sea ice per unit area 'm**3 m**-2' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 16 ; typeOfFirstFixedSurface = 173 ; typeOfSecondFixedSurface = 175 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean vertically averaged sea ice temperature 'K' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 8 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 176 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean snow temperature over sea ice 'K' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 13 ; typeOfFirstFixedSurface = 173 ; typeOfSecondFixedSurface = 175 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean sea ice temperature at the sea ice and snow interface 'K' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 8 ; typeOfFirstFixedSurface = 175 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean underside ice temperature 'K' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 8 ; typeOfFirstFixedSurface = 176 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean sea ice heat content 'J m**-2' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 17 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 176 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean snow heat content over sea ice 'J m**-2' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 18 ; typeOfFirstFixedSurface = 173 ; typeOfSecondFixedSurface = 175 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean sea ice freeboard thickness 'm' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 19 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 160 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = 0 ; scaleFactorOfSecondFixedSurface = 0 ; typeOfStatisticalProcessing = 0 ; } #Time-mean sea ice melt pond fraction 'Proportion' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 20 ; typeOfFirstFixedSurface = 188 ; typeOfSecondFixedSurface = 189 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean sea ice melt pond depth 'm' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 21 ; typeOfFirstFixedSurface = 188 ; typeOfSecondFixedSurface = 189 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean sea ice melt pond volume per unit area 'm**3 m**-2' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 22 ; typeOfFirstFixedSurface = 188 ; typeOfSecondFixedSurface = 189 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean sea ice fraction tendency due to parameterization 's**-1' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 23 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean X-component of sea ice velocity 'm s**-1' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 24 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 176 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean Y-component of sea ice velocity 'm s**-1' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 25 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 176 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean sea ice temperature 'K' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 8 ; typeOfStatisticalProcessing = 0 ; } #Time-mean sea surface practical salinity 'g kg**-1' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 3 ; typeOfStatisticalProcessing = 0 ; } #Time-mean sea surface temperature 'K' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean depth of 14 C isotherm 'm' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 14 ; typeOfFirstFixedSurface = 20 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 28715 ; scaleFactorOfFirstFixedSurface = 2 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean depth of 17 C isotherm 'm' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 14 ; typeOfFirstFixedSurface = 20 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 29015 ; scaleFactorOfFirstFixedSurface = 2 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean depth of 20 C isotherm 'm' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 14 ; typeOfFirstFixedSurface = 20 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 29315 ; scaleFactorOfFirstFixedSurface = 2 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean depth of 26 C isotherm 'm' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 14 ; typeOfFirstFixedSurface = 20 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 29915 ; scaleFactorOfFirstFixedSurface = 2 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean depth of 28 C isotherm 'm' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 14 ; typeOfFirstFixedSurface = 20 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 30115 ; scaleFactorOfFirstFixedSurface = 2 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean barotropic stream function 'm**3 s**-1' = { discipline = 10 ; parameterCategory = 191 ; parameterNumber = 4 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 5 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean surface downward heat flux 'W m**-2' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 4 ; typeOfStatisticalProcessing = 0 ; } #Time-mean northward surface stress 'N m**-2' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 6 ; typeOfStatisticalProcessing = 0 ; } #Time-mean eastward surface stress 'N m**-2' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 5 ; typeOfStatisticalProcessing = 0 ; } #Time mean Y-component of surface stress 'N m**-2' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 8 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean X-component of surface stress 'N m**-2' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 7 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean ocean mixed layer depth defined by sigma theta 0.01 kg m-3 'm' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 14 ; typeOfFirstFixedSurface = 169 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 1 ; scaleFactorOfFirstFixedSurface = 2 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean ocean mixed layer depth defined by sigma theta 0.03 kg m-3 'm' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 14 ; typeOfFirstFixedSurface = 169 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 3 ; scaleFactorOfFirstFixedSurface = 2 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean ocean mixed layer depth defined by sigma theta 0.125 kg m-3 'm' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 14 ; typeOfFirstFixedSurface = 169 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 125 ; scaleFactorOfFirstFixedSurface = 3 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean ocean mixed layer depth defined by temperature 0.2 C 'm' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 14 ; typeOfFirstFixedSurface = 170 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 2 ; scaleFactorOfFirstFixedSurface = 1 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean ocean mixed layer depth defined by temperature 0.5 C 'm' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 14 ; typeOfFirstFixedSurface = 170 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 5 ; scaleFactorOfFirstFixedSurface = 1 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean average sea water practical salinity in the upper 300 m 'g kg**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 21 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 160 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = 300 ; scaleFactorOfSecondFixedSurface = 0 ; typeOfStatisticalProcessing = 0 ; } #Time-mean average sea water practical salinity in the upper 700 m 'g kg**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 21 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 160 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = 700 ; scaleFactorOfSecondFixedSurface = 0 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column average sea water practical salinity 'g kg**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 21 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 9 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean vertically-integrated heat content in the upper 300 m 'J m**-2' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 22 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 160 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = 300 ; scaleFactorOfSecondFixedSurface = 0 ; typeOfStatisticalProcessing = 0 ; } #Time-mean vertically-integrated heat content in the upper 700 m 'J m**-2' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 22 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 160 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = 700 ; scaleFactorOfSecondFixedSurface = 0 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column heat content 'J m**-2' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 22 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 9 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean sea surface height 'm' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 1 ; typeOfStatisticalProcessing = 0 ; } #Time-mean steric change in sea surface height 'm' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 11 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean halosteric change in sea surface height 'm' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 10 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean thermosteric change in sea surface height 'm' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 9 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean thermocline depth 'm' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean bottom pressure equivalent height 'm' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 29 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 9 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean net surface upward water flux 'kg m**-2 s**-1' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 13 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean fresh water flux into sea water (from rivers) 'kg m**-2 s**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 30 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean virtual salt flux into sea water 'g kg**-1 m**-2 s**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 32 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean heat flux correction 'W m**-2' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 18 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean fresh water flux correction 'kg m**-2 s**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 31 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean virtual salt flux correction 'g kg**-1 m**-2 s**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 33 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean turbocline depth (kz=5e-4) 'm' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 14 ; typeOfFirstFixedSurface = 171 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 5 ; scaleFactorOfFirstFixedSurface = 4 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean Y-component of surface sea water velocity 'm s**-1' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 17 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean X-component of surface sea water velocity 'm s**-1' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 16 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean northward surface sea water velocity 'm s**-1' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 15 ; typeOfStatisticalProcessing = 0 ; } #Time-mean eastward surface sea water velocity 'm s**-1' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 14 ; typeOfStatisticalProcessing = 0 ; } #Time-mean heat content surface to 26C isotherm 'J m**-2' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 22 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 20 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = 29915 ; scaleFactorOfSecondFixedSurface = 2 ; typeOfStatisticalProcessing = 0 ; } #Time-mean sea surface height tendency due to parameterization 'm s**-1' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 19 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean sea surface height with inverse barometer correction 'm' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 20 ; typeOfStatisticalProcessing = 0 ; } #Time-mean average sea water potential temperature in the upper 300m 'K' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 18 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 160 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = 300 ; scaleFactorOfSecondFixedSurface = 0 ; typeOfStatisticalProcessing = 0 ; } #Time-mean sea surface salinity 'kg kg**-1' = { discipline = 10 ; parameterCategory = 3 ; parameterNumber = 21 ; typeOfStatisticalProcessing = 0 ; } #Time-mean vertically integrated sea water practical salinity in the upper 300 m 'g kg**-1 m' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 50 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 160 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = 300 ; scaleFactorOfSecondFixedSurface = 0 ; typeOfStatisticalProcessing = 0 ; } #Time-mean vertically integrated sea water practical salinity in the upper 700 m 'g kg**-1 m' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 50 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 160 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = 700 ; scaleFactorOfSecondFixedSurface = 0 ; typeOfStatisticalProcessing = 0 ; } #Time-mean total column vertically integrated sea water practical salinity 'g kg**-1 m' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 50 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 9 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean sea water practical salinity 'g kg**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 21 ; typeOfFirstFixedSurface = 168 ; typeOfSecondFixedSurface = 168 ; typeOfStatisticalProcessing = 0 ; } #Time-mean sea water potential temperature 'K' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 18 ; typeOfFirstFixedSurface = 168 ; typeOfSecondFixedSurface = 168 ; typeOfStatisticalProcessing = 0 ; } #Time-mean sea water sigma theta 'kg m**-3' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 20 ; typeOfFirstFixedSurface = 168 ; typeOfSecondFixedSurface = 168 ; typeOfStatisticalProcessing = 0 ; } #Time-mean Y-component of sea water velocity 'm s**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 26 ; typeOfFirstFixedSurface = 168 ; typeOfSecondFixedSurface = 168 ; typeOfStatisticalProcessing = 0 ; } #Time-mean X-component of sea water velocity 'm s**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 25 ; typeOfFirstFixedSurface = 168 ; typeOfSecondFixedSurface = 168 ; typeOfStatisticalProcessing = 0 ; } #Time-mean northward sea water velocity 'm s**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 24 ; typeOfFirstFixedSurface = 168 ; typeOfSecondFixedSurface = 168 ; typeOfStatisticalProcessing = 0 ; } #Time-mean eastward sea water velocity 'm s**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 23 ; typeOfFirstFixedSurface = 168 ; typeOfSecondFixedSurface = 168 ; typeOfStatisticalProcessing = 0 ; } #Time-mean upward sea water velocity 'm s**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 27 ; typeOfFirstFixedSurface = 168 ; typeOfSecondFixedSurface = 255 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean sea water potential temperature tendency due to newtonian relaxation 'K s**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 34 ; typeOfFirstFixedSurface = 168 ; typeOfSecondFixedSurface = 168 ; typeOfStatisticalProcessing = 0 ; } #Time-mean sea water salinity tendency due to newtonian relaxation 'g kg**-1 s**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 35 ; typeOfFirstFixedSurface = 168 ; typeOfSecondFixedSurface = 168 ; typeOfStatisticalProcessing = 0 ; } #Time-mean sea water temperature tendency due to parameterization 'K s**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 36 ; typeOfFirstFixedSurface = 168 ; typeOfSecondFixedSurface = 168 ; typeOfStatisticalProcessing = 0 ; } #Time-mean sea water salinity tendency due to parameterization 'g kg**-1 s**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 37 ; typeOfFirstFixedSurface = 168 ; typeOfSecondFixedSurface = 168 ; typeOfStatisticalProcessing = 0 ; } #Time-mean eastward sea water velocity tendency due to parameterization 'm s**-2' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 38 ; typeOfFirstFixedSurface = 168 ; typeOfSecondFixedSurface = 168 ; typeOfStatisticalProcessing = 0 ; } #Time-mean northward sea water velocity tendency due to parameterization 'm s**-2' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 39 ; typeOfFirstFixedSurface = 168 ; typeOfSecondFixedSurface = 168 ; typeOfStatisticalProcessing = 0 ; } #Time-mean sea water temperature tendency due to direct bias correction 'K s**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 40 ; typeOfFirstFixedSurface = 168 ; typeOfSecondFixedSurface = 168 ; typeOfStatisticalProcessing = 0 ; } #Time-mean sea water salinity tendency due to direct bias correction 'g kg**-1 s**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 41 ; typeOfFirstFixedSurface = 168 ; typeOfSecondFixedSurface = 168 ; typeOfStatisticalProcessing = 0 ; } #Time-mean sea water salinity 'kg kg**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 3 ; typeOfFirstFixedSurface = 168 ; typeOfSecondFixedSurface = 168 ; typeOfStatisticalProcessing = 0 ; } #Time-mean northward mass transport 'kg m**-2 s**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 46 ; typeOfFirstFixedSurface = 168 ; typeOfSecondFixedSurface = 168 ; typeOfStatisticalProcessing = 0 ; } #Time-mean eastward mass transport 'kg m**-2 s**-1' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 47 ; typeOfFirstFixedSurface = 168 ; typeOfSecondFixedSurface = 168 ; typeOfStatisticalProcessing = 0 ; } #Time-mean net short wave radiation rate at sea surface 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 9 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean wind stress at sea surface 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 49 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean wind speed at 10m above sea surface 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 102 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean neutral drag coefficient at 10m above sea surface 'dimensionless' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 29 ; typeOfFirstFixedSurface = 102 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean total precipitation rate at sea surface 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 52 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean snow precipitation rate at sea surface 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 66 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean eastward of wind stress over sea ice 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 50 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean northward of wind stress over sea ice 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 51 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean U-component of wind stress over sea ice 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 52 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-mean V-component of wind stress over sea ice 'N m**-2' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 53 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 0 ; } #Time-accumulated net short wave radiation at sea surface 'J m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 9 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 1 ; } #Time-accumulated total precipitation at sea surface 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 52 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 1 ; } #Time-accumulated snow precipitation at sea surface 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 66 ; typeOfFirstFixedSurface = 160 ; typeOfSecondFixedSurface = 255 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; typeOfStatisticalProcessing = 1 ; } #Time-maximum sea ice temperature 'K' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 8 ; typeOfStatisticalProcessing = 2 ; } #Time-minimum sea ice temperature 'K' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 8 ; typeOfStatisticalProcessing = 3 ; } #Time-standard-deviation sea ice temperature 'K' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 8 ; typeOfStatisticalProcessing = 6 ; } #Virtual temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 1 ; } #Mass density 'kg m**-3' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 0 ; } #Total column vertically-integrated mass density 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Mass mixing ratio 'kg kg**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 2 ; } #Emission mass flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 77 ; sourceSinkChemicalPhysicalProcess = 255 ; } #Dry deposition velocity 'm s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 15 ; } #Wet deposition mass flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; } #Dry deposition mass flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 6 ; } #Sedimentation mass flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 11 ; } #Volume mixing ratio 'mol mol**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 52 ; } #Volume-mean total column mixing ratio 'mol mol**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 84 ; } #Wet deposition mass flux by large-scale precipitation 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 9 ; } #Wet deposition mass flux by convective precipitation 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 10 ; } #Emission mass flux from vegetation 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 77 ; sourceSinkChemicalPhysicalProcess = 34 ; } #Emission mass flux from natural sources 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 77 ; sourceSinkChemicalPhysicalProcess = 6 ; } #Emission mass flux from anthropogenic sources 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 77 ; sourceSinkChemicalPhysicalProcess = 4 ; } #Emission mass flux from elevated anthropogenic sources 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 77 ; sourceSinkChemicalPhysicalProcess = 12 ; } #Emission mass flux from surface anthropogenic sources 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 77 ; sourceSinkChemicalPhysicalProcess = 13 ; } #Emission mass flux from biomass burning 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 77 ; sourceSinkChemicalPhysicalProcess = 35 ; } #Emission from aviation 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 77 ; sourceSinkChemicalPhysicalProcess = 1 ; } #Emission mass flux from agriculture livestock 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 77 ; sourceSinkChemicalPhysicalProcess = 14 ; } #Emission mass flux from agriculture soils 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 77 ; sourceSinkChemicalPhysicalProcess = 15 ; } #Emission mass flux from agricultural waste burning 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 77 ; sourceSinkChemicalPhysicalProcess = 16 ; } #Emission mass flux from residential, commercial and other combustion 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 77 ; sourceSinkChemicalPhysicalProcess = 18 ; } #Emission mass flux from power generation 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 77 ; sourceSinkChemicalPhysicalProcess = 19 ; } #Emission mass flux from fugitives 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 77 ; sourceSinkChemicalPhysicalProcess = 21 ; } #Emission mass flux from industrial process 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 77 ; sourceSinkChemicalPhysicalProcess = 22 ; } #Emission mass flux from solvents 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 77 ; sourceSinkChemicalPhysicalProcess = 23 ; } #Emission mass flux from ships 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 77 ; sourceSinkChemicalPhysicalProcess = 24 ; } #Emission mass flux from wastes (solid and water) 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 77 ; sourceSinkChemicalPhysicalProcess = 25 ; } #Emission mass flux from off-road transportation 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 77 ; sourceSinkChemicalPhysicalProcess = 27 ; } #Emission mass flux from road transportation 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 77 ; sourceSinkChemicalPhysicalProcess = 26 ; } #Emission mass flux from super power stations 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 77 ; sourceSinkChemicalPhysicalProcess = 20 ; } #Emission mass flux from settlements 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 77 ; sourceSinkChemicalPhysicalProcess = 36 ; } #Emission mass flux from volcanoes 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 77 ; sourceSinkChemicalPhysicalProcess = 7 ; } #Emission mass flux from wetlands 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 77 ; sourceSinkChemicalPhysicalProcess = 10 ; } #Net ecosystem exchange flux 'kg m**-2 s**-1' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 59 ; } #Mean net ecosystem exchange flux 'kg m**-2 s**-1' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 59 ; typeOfStatisticalProcessing = 0 ; } #Accumulated net ecosystem exchange flux 'kg m**-2 s**-1' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 59 ; typeOfStatisticalProcessing = 1 ; } #Gross primary production flux 'kg m**-2 s**-1' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 60 ; } #Mean gross primary production flux 'kg m**-2 s**-1' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 60 ; typeOfStatisticalProcessing = 0 ; } #Accumulated gross primary production flux 'kg m**-2 s**-1' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 60 ; typeOfStatisticalProcessing = 1 ; } #Ecosystem respiration flux 'kg m**-2 s**-1' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 61 ; } #Mean ecosystem respiration flux 'kg m**-2 s**-1' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 61 ; typeOfStatisticalProcessing = 0 ; } #Accumulated ecosystem respiration flux 'kg m**-2 s**-1' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 61 ; typeOfStatisticalProcessing = 1 ; } #Emission mass flux from bio fuel 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 77 ; sourceSinkChemicalPhysicalProcess = 8 ; } #Emission mass flux from fossil fuel 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 77 ; sourceSinkChemicalPhysicalProcess = 9 ; } #Emission mass flux from other 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 77 ; sourceSinkChemicalPhysicalProcess = 0 ; } #Emission mass flux from oceans 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 77 ; sourceSinkChemicalPhysicalProcess = 11 ; } #Emission mass flux from soil 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 77 ; sourceSinkChemicalPhysicalProcess = 37 ; } #Emission mass flux from wild animals 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 77 ; sourceSinkChemicalPhysicalProcess = 38 ; } #Accumulated wet deposition mass flux 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 7 ; typeOfStatisticalProcessing = 1 ; } #Accumulated dry deposition mass flux 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 6 ; typeOfStatisticalProcessing = 1 ; } #Aerosol number density 'm**-3' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 59 ; } #Mass mixing ratio from volcanoes 'kg kg**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 2 ; sourceSinkChemicalPhysicalProcess = 7 ; } #Total column vertically-integrated mass density from volcanoes 'kg m**-2' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; sourceSinkChemicalPhysicalProcess = 7 ; } #Dry deposition velocity from volcanoes 'm s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 15 ; sourceSinkChemicalPhysicalProcess = 7 ; } #Aerosol optical depth 'Numeric' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 102 ; } #Single scattering albedo '(0 - 1)' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 103 ; } #Asymmetry Factor 'Numeric' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 104 ; } #Aerosol backscatter from top of atmosphere 'm**-1 sr**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 107 ; } #Aerosol backscatter from ground 'm**-1 sr**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 108 ; } #Aerosol extinction coefficient 'm**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 105 ; } #Emission mass flux from commercial buildings heating 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 77 ; sourceSinkChemicalPhysicalProcess = 30 ; } #Emission mass flux from residential heating 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 77 ; sourceSinkChemicalPhysicalProcess = 31 ; } #Emission mass flux from oil refineries and transformation industry 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 77 ; sourceSinkChemicalPhysicalProcess = 32 ; } #Emission mass flux from gas production 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 77 ; sourceSinkChemicalPhysicalProcess = 33 ; } #Mass mixing ratio difference 'kg kg**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 2 ; typeOfGeneratingProcess = 20 ; } #Mass mixing ratio from volcanoes difference 'kg kg**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 2 ; typeOfGeneratingProcess = 20 ; sourceSinkChemicalPhysicalProcess = 7 ; } #Emission mass flux from wild fires 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 77 ; sourceSinkChemicalPhysicalProcess = 5 ; } #Sink mass flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 82 ; } #Source mass flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 83 ; } #Absorption aerosol optical thickness 'Numeric' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 112 ; } #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 = 15 ; } #Pseudo-adiabatic potential temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 3 ; } #Dew point temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 6 ; } #Lapse rate 'K m**-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 ; } #Wind direction 'Degree true' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 0 ; } #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 ; } #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 anomaly 'm' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 1 ; } #Best lifted index (to 500 hPa) 'K' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 1 ; } #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 ; } #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 ; } #Ice divergence 's**-1' = { discipline = 10 ; parameterCategory = 2 ; parameterNumber = 7 ; } #Snowmelt 'kg m**-2' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 41 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Direction of swell waves 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 7 ; } #Secondary wave direction 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 12 ; } #Net short-wave radiation flux (surface) 'W m**-2' = { discipline = 0 ; parameterCategory = 4 ; parameterNumber = 0 ; } #Global radiation flux 'W 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**-3 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 ; productDefinitionTemplateNumber = 9 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 2 ; scaledValueOfLowerLimit = 15 ; scaleFactorOfLowerLimit = 0 ; probabilityType = 3 ; } #10 metre wind gust of at least 20 m/s '%' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 22 ; productDefinitionTemplateNumber = 9 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 2 ; scaledValueOfLowerLimit = 20 ; scaleFactorOfLowerLimit = 0 ; probabilityType = 3 ; } #Period corresponding to maximum individual wave height 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 23 ; } #Envelop-maximum individual wave height 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 93 ; } #Model bathymetry 'm' = { discipline = 10 ; parameterCategory = 4 ; parameterNumber = 7 ; } #Mean wave period based on first moment 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 25 ; } #Mean zero-crossing wave period 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 28 ; } #Wave spectral directional width 'radians' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 31 ; } #Mean wave period based on first moment for wind waves 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 26 ; } #Mean wave period based on second moment for wind waves 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 29 ; } #Wave spectral directional width for wind waves 'radians' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 32 ; } #Mean wave period based on first moment for swell 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 27 ; } #Mean wave period based on second moment for swell 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 30 ; } #Wave spectral directional width for swell 'radians' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 33 ; } #Significant height of combined wind waves and swell 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 3 ; } #Mean wave direction 'Degree true' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 14 ; } #Peak wave period 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 34 ; } #Mean wave period 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 15 ; } #Coefficient of drag with waves 'dimensionless' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 16 ; } #Significant height of wind waves 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 5 ; } #Mean direction of wind waves 'degrees' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 75 ; } #Mean period of wind waves 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 6 ; } #Significant height of total swell 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 8 ; } #Mean direction of total swell 'degrees' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 74 ; } #Mean period of total swell 's' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 9 ; } #Mean square slope of waves 'dimensionless' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 20 ; } #10 metre wind speed 'm s**-1' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 40 ; typeOfFirstFixedSurface = 102 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; } #Altimeter wave height 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 37 ; } #Altimeter corrected wave height 'm' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 38 ; } #Altimeter range relative correction '~' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 39 ; } #10 metre wind direction 'degrees' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 41 ; typeOfFirstFixedSurface = 102 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; } #2D wave spectra (single) 'm**2 s radian**-1' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 86 ; } #Wave spectral kurtosis 'dimensionless' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 43 ; } #Benjamin-Feir index 'dimensionless' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 44 ; } #Wave spectral peakedness 'dimensionless' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 98 ; } #Skin reservoir content 'kg m**-2' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 50 ; } #Total column vertically-integrated mass of atmosphere 'kg m**-2' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 39 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated kinetic energy 'J m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated enthalpy 'J m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 3 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated potential + internal energy 'J m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated potential+internal+latent energy 'J m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 21 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated total energy 'J m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 2 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated eastward mass flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 36 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated northward mass flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 37 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated eastward kinetic energy flux 'W m**-1' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 9 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated northward kinetic energy flux 'W m**-1' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 10 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated eastward heat flux 'W m**-1' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 19 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated northward heat flux 'W m**-1' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 20 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated eastward water vapour flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 150 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated northward water vapour flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 151 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated eastward geopotential flux 'W m**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 40 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated northward geopotential flux 'W m**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 41 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated eastward total energy flux 'W m**-1' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 11 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated northward total energy flux 'W m**-1' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 12 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated eastward ozone flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 78 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; constituentType = 0 ; } #Total column vertically-integrated northward ozone flux 'kg m**-1 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 79 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; constituentType = 0 ; } #Total column vertically-integrated divergence of mass flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 35 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated divergence of kinetic energy flux 'W m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 16 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated moisture divergence flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 165 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated divergence of geopotential flux 'W m**-2' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 43 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated divergence of total energy flux 'W m**-2' = { discipline = 0 ; parameterCategory = 21 ; parameterNumber = 17 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Total column vertically-integrated divergence of ozone flux 'kg m**-2 s**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 80 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; constituentType = 0 ; } #Time-integrated temperature tendency due to short-wave radiation 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 22 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated temperature tendency due to long-wave radiation 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 23 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated temperature tendency due to short wave radiation, clear sky 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 24 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated temperature tendency due to long-wave radiation, clear sky 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 25 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated updraught mass flux 'kg m**-2' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 27 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated downdraught mass flux 'kg m**-2' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 28 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated updraught detrainment rate 'kg m**-3' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 29 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated downdraught detrainment rate 'kg m**-3' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 30 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated total precipitation flux 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 52 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated turbulent diffusion coefficient for heat 'm**2' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 20 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated temperature tendency due to parametrisations 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 26 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated specific humidity tendency due to parametrisations 'kg kg**-1' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 108 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated eastward wind tendency due to parametrisations 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 39 ; typeOfStatisticalProcessing = 1 ; } #Time-integrated northward wind tendency due to parametrisations 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 40 ; typeOfStatisticalProcessing = 1 ; } #Surface runoff 'kg m**-2' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 34 ; } #Nitrogen dioxide mass mixing ratio 'kg kg**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 2 ; constituentType = 5 ; is_chemical = 1 ; } #Sulphur dioxide mass mixing ratio 'kg kg**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 2 ; constituentType = 8 ; is_chemical = 1 ; } #Carbon monoxide mass mixing ratio 'kg kg**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 2 ; constituentType = 4 ; is_chemical = 1 ; } #Ozone mass mixing ratio (full chemistry scheme) 'kg kg**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 2 ; constituentType = 0 ; is_chemical = 1 ; } #Nitrogen dioxide mass mixing ratio difference 'kg kg**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 2 ; constituentType = 5 ; typeOfGeneratingProcess = 20 ; is_chemical = 1 ; } #Sulphur dioxide mass mixing ratio difference 'kg kg**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 2 ; constituentType = 8 ; typeOfGeneratingProcess = 20 ; is_chemical = 1 ; } #Carbon monoxide mass mixing ratio difference 'kg kg**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 2 ; constituentType = 4 ; typeOfGeneratingProcess = 20 ; is_chemical = 1 ; } #Ozone mass mixing ratio difference (full chemistry scheme) 'kg kg**-1' = { discipline = 0 ; parameterCategory = 20 ; parameterNumber = 2 ; constituentType = 0 ; typeOfGeneratingProcess = 20 ; is_chemical = 1 ; } #Convective inhibition 'J kg**-1' = { discipline = 0 ; parameterCategory = 7 ; parameterNumber = 7 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Orography 'm' = { discipline = 0 ; parameterCategory = 3 ; parameterNumber = 5 ; typeOfFirstFixedSurface = 1 ; } #Friction velocity 'm s**-1' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 17 ; } #Time-mean 2 metre temperature 'K' = { discipline = 0 ; parameterCategory = 0 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 2 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 0 ; } #Time-mean 10 metre wind speed 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; typeOfStatisticalProcessing = 0 ; } #Lake total depth 'm' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 162 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Lake mix-layer temperature 'K' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 166 ; typeOfSecondFixedSurface = 255 ; } #Lake mix-layer depth 'm' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 0 ; typeOfFirstFixedSurface = 166 ; typeOfSecondFixedSurface = 255 ; } #Lake bottom temperature 'K' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 162 ; typeOfSecondFixedSurface = 255 ; } #Lake total layer temperature 'K' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 162 ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Lake shape factor 'dimensionless' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 10 ; } #Lake ice surface temperature 'K' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 6 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 255 ; } #Lake ice total depth 'm' = { discipline = 1 ; parameterCategory = 2 ; parameterNumber = 5 ; typeOfFirstFixedSurface = 174 ; typeOfSecondFixedSurface = 176 ; scaledValueOfFirstFixedSurface = missing() ; scaleFactorOfFirstFixedSurface = missing() ; scaledValueOfSecondFixedSurface = missing() ; scaleFactorOfSecondFixedSurface = missing() ; } #Minimum vertical gradient of refractivity inside trapping layer 'm**-1' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 45 ; } #Mean vertical gradient of refractivity inside trapping layer 'm**-1' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 44 ; } #Duct base height 'm' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 41 ; } #Trapping layer base height 'm' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 42 ; } #Trapping layer top height 'm' = { discipline = 0 ; parameterCategory = 19 ; parameterNumber = 43 ; } #10 metre u-component of neutral wind 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 56 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; } #10 metre v-component of neutral wind 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 57 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 10 ; scaleFactorOfFirstFixedSurface = 0 ; } #Snow depth water equivalent 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 60 ; } #Snowfall water equivalent 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 53 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #Total Cloud Cover '%' = { discipline = 0 ; parameterCategory = 6 ; parameterNumber = 1 ; typeOfFirstFixedSurface = 1 ; typeOfSecondFixedSurface = 8 ; } #Field capacity 'kg m**-3' = { discipline = 2 ; parameterCategory = 3 ; parameterNumber = 12 ; typeOfFirstFixedSurface = 106 ; typeOfSecondFixedSurface = 106 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = 2 ; scaleFactorOfSecondFixedSurface = 1 ; } #Wilting point 'kg m**-3' = { discipline = 2 ; parameterCategory = 0 ; parameterNumber = 26 ; typeOfFirstFixedSurface = 106 ; typeOfSecondFixedSurface = 106 ; scaledValueOfFirstFixedSurface = 0 ; scaleFactorOfFirstFixedSurface = 0 ; scaledValueOfSecondFixedSurface = 2 ; scaleFactorOfSecondFixedSurface = 1 ; } #Total Precipitation 'kg m**-2' = { discipline = 0 ; parameterCategory = 1 ; parameterNumber = 52 ; typeOfFirstFixedSurface = 1 ; typeOfStatisticalProcessing = 1 ; } #U-component surface stokes drift 'm s**-1' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 21 ; } #V-component surface stokes drift 'm s**-1' = { discipline = 10 ; parameterCategory = 0 ; parameterNumber = 22 ; } #100 metre U wind component 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 2 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 100 ; scaleFactorOfFirstFixedSurface = 0 ; } #100 metre V wind component 'm s**-1' = { discipline = 0 ; parameterCategory = 2 ; parameterNumber = 3 ; typeOfFirstFixedSurface = 103 ; scaledValueOfFirstFixedSurface = 100 ; scaleFactorOfFirstFixedSurface = 0 ; }