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Evaluating modifications of the soil module TERRA

Evaluating modifications of the soil module TERRA. Felix Ament, MeteoSwiss. COSMO General Meeting, September 2007. Dry soil moisture bias. OPRerational COSMO, two-layer version. Testsuite, multi-layer version. Soil moisture. T2m. Strong dry out bias!. Negative effect on T2m forecast.

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Evaluating modifications of the soil module TERRA

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  1. Evaluating modifications of the soil module TERRA Felix Ament, MeteoSwiss COSMO General Meeting, September 2007

  2. Dry soil moisture bias OPRerational COSMO, two-layer version Testsuite,multi-layer version Soil moisture T2m • Strong dry out bias! • Negative effect on T2m forecast.

  3. Handling the dry out problem ECMWF.

  4. Design of TERRA standalone experiments • Atmospheric Forcing: COSMO analysis data • Domain: see left; 64x61 gridpoints at 7km resolution • Period: year 2006 plus December 2005 for spin up • Initialization: Operational COSMO analysis Meteorological Forcing: T, p, u, q, Qdown COSMO analysis Precipitation RR SVAT „TERRA“ • Simulation of • Energy balance • Soil processes • Annual cycle of vegetation Working in the dark – nearly no or insufficient observations! time

  5. Rain Evaporation Surface Runfoff Snow Intermediate Runfoff SM Ground Runfoff Nudged mulitlayer versus two layerAnalysis of the water budget Features of “Nudged Multilayer”: • Despite Nudging, LE is reduced in July/August and Tmax is higher. • Most of the nudged water (=residuum) is converted into runoff. • Remarkable: Less precipitation. Nudged multilayerOperational 2-layer

  6. CTL standalone versus OPR 2-layer Features of “CTL standalone”: • Again, reduced LE in July / August (no response in T_2m due to external forcing) • Dry out in summer, but recovers until the end of the year. • Higher runoff. • Do we really have a dry-out problem? • Probably, the T_2m diagnosis is misleading? Doubts

  7. Sensitivity experiments Lower boundary Drainage &diffusion Vegetation Exchange

  8. Lower Boundary Condition I- concepts RIGIDGWATER dry wet medium rigid lid Free drainage ground water

  9. Lower Boundary Condition IIGround water condition GWATER Problem: Definition of soil moisture gradient at top of water Solution: Solve Darcy equation with these simplifications: • F is constant below centre of lowest layer • D is constant there, too • K varies only linearly with Q :

  10. Drainage and capillary rise I BROOKS1BROOKS2 • CTL: Rijtema (1969), e.g. for drainage K: • Brooks and Corey (1964) – much more popular • However, Brooks and Corey formulation requires three parameters to derive drainage and capillary rise (depending on soil moisture) – they are not well defined. • BROOKS1: 6 type DWD soil classification; lookup table adopted from R. Grasselt (UBonn) • BROOKS2: 6 type DWD soil classification; lookup table from J. Helmert (DWD) adopted from Shao and Irannejad (1999)

  11. Drainage and capillary rise II Ecoclimap • PEDO • fields of soil pro-perties (e.g. pore volume) Rawls and Brakensiek, 1989 DWD classification USDA classification • BROOKS3 • 11 classes • Lookup by Shao • not fully done! • ECOSOIL • 6 classes • Lookup table by DWD

  12. Runoff_g Drainage and capillary rise III MACROPOR Marcopores • help to infiltrate water rapidly during rainfall • might avoid runoff generation of saturated top layer Parameterization (adopted from VEG3d, e.g. Braun 2002) mit Fmax=10 und Qmin=0.5.

  13. Vegetation I VEGPARA • Minimal / maximal stomatal resistance as well as plant albedo have constant value in TERRA CTL • VEGPARA uses spatially varying values depending on land-use CTL CTL

  14. Vegetation II ECOVEG External vegetation parameters prescribed by ECOCLIMAP dataset (Mason et al., 2002): • Exhibits more variabilty • Systematic higher root depth • More detailed seasonal cycle (not shown) (all maps are valid for July)

  15. Vegetation III ROOTDIST ROOTDIST • Linear root depth distribution CTL • Uniform root depth Recipe • Diagnose soil moisture stress function fSM,loc for each layer separately • Determine mean SM stress by average weighted by layer thickness Dz and root density rroot • Extract transpired water proportional to fSM,loc Dz rroot

  16. Atmospheric exchange I ZOLOC Local roughness length z0,local • CTL roughness depends not only on local conditions, but also on variance of orography to account for gravity wave drag.  Very high roughness length over mountainous areas.

  17. Atmospheric exchange II NP89 Top Layer SM at Lindenberg Dickinson, 1984: BATS scheme Designed for a two layer soil module! Noilhan and Platon, 1989 (NP89): ISBA scheme, Meso-NH

  18. Rain Evaporation Surface Runfoff Snow Intermediate Runfoff SM Ground Runfoff Result I - bare soil evaporation NP89 • Significant reduction of Evaporation during spring and fall, … • … but no effect during summer!

  19. Rain Evaporation Surface Runfoff Snow Intermediate Runfoff SM Ground Runfoff Result II – Budget Summary Deviations in mm

  20. Conclusions • COSMO TERRA-ML is very robust; modifications have in general surprisingly small impact • TERRA-ML standalone has proven to be useful tool to asses the midterm effect of model modification. • However, objective decisions about implementation of modification is difficult, due to lack of observational data. • Scientifically the following modification can reasonably be recommended: • NP89 (removes high evaporation in spring & fall) • VEGPARA (better representation of forest) • (GWATER (counteracting dry-out)) • (BROOKSX (being state-of-the-art)) • Outlook: • Cross studies (e.g. BROOKS and GWATER) • Long term integration to reach model balance. • Combination with improved T_2m diagnosis.

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