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Below is a list of all agreed upon parameters. Participating Centres are expected to produce output fields in GRIB2 data format and with consistent units. All units are defined by the WMO in the GRIB2 manual. For more information please refer to Guide to the WMO Table Driven Code Form.

For the actual availability of UERRA parameters from each model in MARS refer to the page Parameter availability.

Model level parameters

Output of analyses on (hybrid) model levels are stored up to a height of about 15km every six hours (at 00/06/12/18UTC).

Model level increases with height for MO and decreases for other models.

  • COSMO: 1..40
  • HARMONIE: 1..65
  • MO: 1..63
NameAbbreviationUnit
Cloud cover 
cc
ccl%
PressurepresPa
Specific cloud liquid water contentclwckg kg
**
-1
Specific cloud ice water contentciwckg kg
**
-1
Pressure
presPa
Specific humidityqkg kg-1
TemperaturetK
U-velocityum s-1
V-velocityvm s-1

Pressure level parameters

...

● Store analysis output in six hourly intervals intervals (at 00 UTC, /06 UTC, 12 UTC, 18 UTC /12/18UTC) for the Unified Model and Harmonie

...

● T+1,2,3,4,5,6 started at 06 UTC and 18 UTC

NameAbbreviationUnit
Cloud cover
cc
ccl%
Geopotential heightghgpm
Geopotentialzm2 s-2
Specific cloud liquid water contentclwckg kg
**
-1
Specific cloud ice water contentciwckg kg
**
-1
Geopotential heighghgpm
Relative humidity
rh
r%
TemperaturetK
U-velocityum s-1
V-velocityvm s-1

Height level parameters

Output of forecasts and analyses on pressure levels for defined time steps.

...

● Store analysis output in six hourly intervals  (at 00 UTC, /06 UTC, 12 UTC, 18 UTC /12/18UTC) for the Unified Model and Harmonie

...

● T+1,2,3,4,5,6 started at 06 UTC and 18 UTC

NameAbbreviationUnit
Cloud cover
cc
ccl%
PressurepresPa
Specific cloud liquid water contentclwckg kg
**
-1
Specific cloud ice water contentciwckg kg
**
-1
PressurepresPa
Relative humidity  
rh
r%
TemperaturetK
Wind speedwsm s-1
Wind directionwdir
deg
degree true

Surface level parameters 

 

Time steps:

Analysis:

● Store analysis output in six hourly intervals intervals (at 00 UTC, /06 UTC, 12 UTC, 18 UTC /12/18UTC) for the Unified Model, Harmonie, MESCAN-SURFEX

● Store precipitation analysis  (24 h accumulation from 06 UTC to 06 UTC of next day) output at 06TC for MESCAN-SURFEX

● Store hourly analysis output for COSMO, MESAN, SURFEX

Forecast:

● Store forecast output at T+1,2,3,4,5,6,9,12,15,18,21,24,27,30 started at 00 UTC and 12 UTC for the Unified Model, COSMO, Harmonie

● Store forecast output at T+1,2,3,4,5,6 started at 06 UTC and 18 UTC for the Unified Model, COSMO, Harmonie

...

● For Harmonie (started at 00/06/12/18UTC):

      • Store sd, sr, al, rsn, slhf, sshf parameters (derived from ALADIN model driving SURFEX) at T+1,2,3,4,5,6 only
      • Store all other parameters at T+1,2,3,4,5,6,9,12,15,18,21,24,27,30

● For MESCAN-SURFEX (started at 00/06/12/18UTC):

      • Store parameters sp,tp,2r,2t,10si,10wdir, tidirswrf from  forecast output at T+6 only (fields from ALADIN model driving SURFEX)
      • Store all other parameters from forecast output at T+1,2,3,4,5,6


Info
titleStatic fields

Static fields are archived only as of the analysis type. For users' convenience, even they are invariant fields, they should be archived for all analysis output times. In case of ensemble products they should be archived with all ensemble members (again as of the analysis type only).

The surface roughness could be either static or changing parameter depending on model and  should be handled accordingly as a static or a prognostic model field.


NameAbbreviationUnit

Precipitation and humidity



Percolation 
 
perckg m-2
Surface air relative humidity
***

rh
2r%
Surface
water
runoff
  *** 
 
srokg m-2
Total column water
***
vapour
tcw
tciwvkg m-2
Total precipitation tpkg m-2
      10 metre u-velocity10um s-110 metre v-velocity10vm s-1CAPEcapeJ kg-1Skin temperaturesktKSnow depth water equivalentsdkg m-2 Snow density          
rsnkg m-3Snow fall water equivalentsfkg m-2 Snow albedo          
 asn% Soil moisture top 20cm sm20
kg m-3 Soil moisture top 100 cm sm100kg m-3 Soil temperature top 20 cm st20K Soil temperature top 100 cm st100KSurface air maximum temperaturemx2t6

Accumulated radiation fluxes



Albedoal%
Evaporationevakg m-2
Time-integrated surface latent heat fluxslhfW m-2 s
Time-integrated surface sensible heat fluxsshfW m-2 s
Time-integrated surface clear-sky solar radiation downwardsadswrf_csW m-2 s
Time-integrated surface clear-sky solar radiation upwards auswrf_cs W m-2 s

Time-integrated surface direct solar radiation

tidirswrfW m-2 s
Time-integrated surface net solar radiation ssrW m-2 s
Time-integrated surface solar radiation downwards ssrdW m-2 s
Time-integrated surface clear-sky thermal radiation downwardsadlwrf_csW m-2 s
Time-integrated surface net thermal radiation
strW m-2 s
Time-integrated surface thermal radiation downwards
strdW m-2 s

Temperature and wind speed



10 metre wind speed10sim s-1
10 metre wind direction10wdirdegree true
10 metre wind gust since previous post-processing 
10fgm s-1
Surface air maximum temperature since previous post-processingmx2tK
Surface air minimum temperature since previous post-processing
mn2t6
mn2tK
Surface air temperature2tK
Surface air dewpoint
Skin temperature
2d Sea surface temperature  
wtmpK Sea ice cover   ciproportion
skt
2d
K

Pressure/Height



Mean sea level pressuremslPa
Surface pressurespPa
Time-integrated top net thermal radiationttrW m-2 sTime-integrated surface latent heat fluxslhfW m-2 sTime-integrated surface net solar radiationssrW m-2 sTime-integrated surface net thermal radiationstrW m-2 s Time-integrated surface sensible heat flux sshfW m-2 s Time-integrated surface solar radiation downwards ssrd W m-2 s Time-integrated surface thermal radiation downwards strdW m-2 s Total cloud cover tcc%    Convective precipitation *
cpkg m-2 Northward turbulent surface stress  *
nsssN m-2 s Eastward turbulent surface stress  * ewssN m-2 s Mean sea-level pressure mslPaWater runoff and drainage   * 
rokg m-2    Land sea masklsmProportion of landOrographyoroggpmSoil type  sltCategorical

 

...

Cloud properties



High cloud coverhcc%
Low cloud coverlcc%
Medium cloud covermcc%
Total cloud covertcc%

Snow



Snow densityrsnkg m-3
Snow depthsdem
Snow depth water equivalentsdkg m-2
Snow fall water equivalentsfkg m-2

Soil



Soil heat fluxsohf
W m-2

Static fields



Land-sea masklsm(0-1)
Orographyoroggpm
Surface roughnesssrm

Soil level parameters 

Time steps: the same as surface level parameters

Soil levels: parameters should be provided on original model levels or layers

  • COSMO: 8 soil layers
    level borders at 0, 0.01, 0.03, 0.09, 0.27, 0.81, 2.43, 7.29, 21.87 m
  • HARMONIE: 3 soil levels/layers (sot on levels, vsw on layers)
    level depths are grid dependent
  • MESCAN-SURFEX: 14 soil layers (only 6 layers for preliminary shorter re-analysis runs)
    level borders at 0, 0.01, 0.04, 0.1, 0.2, 0.4, 0.6 m 
  • MO: 4 soil layers
    level borders at  0, 0.1, 0.35, 1 and 3 m
Info
titleSoil depth

The soil depth could be either a constant or a grid dependent parameter depending on given model soil scheme.

If constant, the soil depths should be mentioned only in documentation of given model.

If grid dependent it should be archived the same as other static fields for all analysis output times. In case of ensemble products it should be archived with all ensemble members (again as of the analysis type only).


Soil

AbbreviationUnit
Liquid non-frozen volumetric soil waterliqvsmm3 m-3

Soil temperature

sotK
Soil depthsodm
Volumetric field capacity voltsom3 m-3

Volumetric soil water

vswm3 m-3
Volumetric wilting point   vwiltmm3 m-3

Attached documents to this page which were used for creation of GRIB2 UERRA definitions (they are linked above too):

  • radiation_in_mars.pdf (to understand the radiation fluxes)
  • Parameter_table_20150427.docx (the latest official version of agreed upon UERRA parameters)