Intended use of the Climate mode Simulation of climate change in different regions of the world.

1. CommunityActivities and Plans A.Will (BTU Cottbus) and the CLM-Community

2. GCM RCM WPM • Intended use of the Climate mode • Simulation of climate change in different regions of the world. • Quantification and reduction of ucertainties of climate change (IPCC 2001/2006) • Relevance for GCMs • Analysis of the relevance of nonhydrostatic effects local phenomena and of microphysics for climate dynamics. Relevance for NWP • detection of model deficiencies not visible on small time scales • Independent evaluation without influence of initial conditions and data assimilation

3. Developed by the CLM-Community in cooperation with the German weather service (1) different model versions for NWP and RCM (2) Climate mode not overall tested.

4. 9.2006: 41 Members 9.2007: 55 Members

5. Developed by the CLM-Community in cooperation with the German weather service • Aims of the CLM CommunityFurther development of the COSMO-CLM to be a regional earth system modelQuantification and Reduction of Model UncertaintiesEfficient Use of Computational RessourcesPreparation and Conduction of Consortial Scenario Runs

6. Developed by the CLM-Community in cooperation with the German weather service Main Projects in the last year • PrEProcessor (PEP) for External Fields (a) • Unified Preprocessor int2lm2 (a) • Veg3D fully coupled with COSMO-CLM_4 a • Basic Sensitivity Studies (a) • Consortial runs successfully finished a • Coupling with Com. Land Model (CLM) • Improvements of TERRA_ML • Aerosol-Cloud Interaction • Standard Postprocessor CLM Model system Features of int2lm_2 Preprocessor

7. Developed by the CLM-Community in cooperation with the German weather service PrEProcessor (PEP) for external fields

8. Developed by the CLM-Community in cooperation with the German weather service PrEProcessor (PEP) for external fields

9. Developed by the CLM-Community in cooperation with the German weather service int2clm + int2lm Int2lm2 Interpolation to LM/CLM grid

10. VEG3D is fully coupled with CLM version 4.0 and is being evaluated Main differences between TERRA_LM and VEG3D: Standard soil model of CLM (TERRA_LM) uses the surface temperature for transpiration calculation <-> VEG3D has an explicit vegetation layer (“big leaf concept”) and simulates a vegetation temperature Runoff from soil layers is organized differently in both models Different formulation of water transport in soil and snow treatment Additional parameters: Land use => taken from the PEP Soil parameters => additional file in CLM code Developed by the CLM-Community in cooperation with the German weather service 1. Implementation of soil-vegetation model VEG3DCathérine Meißner and Gerd Schädler, University / Research Center Karlsruhe First results: • Annual evapotranspiration sum more homogenous in VEG3D which agrees better with measurements (figures) • Influence on annual preciptation in the range of 100 – 200 mm OBSERVATIONS TERRA_ML Veg3D mm

11. Developed by the CLM-Community in cooperation with the German weather service BSS: Small Disturbance of Boundary Conditions Once in a Month 7.1981 JJA 1981 TOT_PREC DIFF:TOT_PREC, STD slope:-0.46 1981 1979-1981 DIFF: T_2m, STD slope:-0.4

12. Developed by the CLM-Community in cooperation with the German weather service WL-Ref: yearly average BSS: TERRA_ML Sensitivity (Alexander Block) H E QS QL

13. Developed by the CLM-Community in cooperation with the German weather service Consortial Runs with CLM Configuration 256x271x32 Gridpoints Δx = Δy = 0.165 deg ECHAM5 bound. cond. CLM3.0 +int2lm1 Model runs: C20_1 1960-2000 C20_2 1960-2000 C20_3 1960-2000 A1B_1 2001-2100 A1B_2 2001-2100 B1_1 2001-2100 B1_2 2001-2100 and CLM050 1979-2000 with ERA40 BC Presentation of Results: HH 7 Dec. 2007

14. Developed by the CLM-Community in cooperation with the German weather service

15. Developed by the CLM-Community in cooperation with the German weather service Regions:level 1 Applications Quality Control consortial runs

16. Developed by the CLM-Community in cooperation with the German weather service Regions:level 2 Applications Quality Control consortial runs

17. Developed by the CLM-Community in cooperation with the German weather service Regions:level 3 Applications Quality Control consortial runs

18. Developed by the CLM-Community in cooperation with the German weather service Com1: Quantification of Model UncertaintiesPrecipitation, climate mean 79-98

19. Developed by the CLM-Community in cooperation with the German weather service 000 [mm] Com1: TOT_PREC, CLM3-GPCC Applications Climatological Evaluation of CLM, 79-93 Model Evaluation

20. Developed by the CLM-Community in cooperation with the German weather service Com1: TOT_PREC, CLM3-DWD Applications Climatological Evaluation of CLM, 79-93 Model Evaluation

21. Developed by the CLM-Community in cooperation with the German weather service Com1: T_2m, CLM-CRU

22. Developed by the CLM-Community in cooperation with the German weather service Com1: T_2m CLM-CRU005January July

23. Developed by the CLM-Community in cooperation with the German weather service Com1: T_2m CLM3-DWD Applications Climatological Evaluation of CLM, 79-93 Model Evaluation

24. Developed by the CLM-Community in cooperation with the German weather service Com2: C20_1 – Observations, 61-90TOT_PREC T_2m Applications Quality Control consortial runs

25. Developed by the CLM-Community in cooperation with the German weather service Com3: A1B_1 (2031-2060) - C20_1 (1961-1990)TOT_PREC T_2m Applications Quality Control consortial runs

26. Developed by the CLM-Community in cooperation with the German weather service Com3:A1B_1 (2031-2060)– C20_1 (1961-1990)TOT_PREC 1 4 7 10

27. Developed by the CLM-Community in cooperation with the German weather service Com3:A1B_1 (2031-2060)– C20_1 (1961-1990)T_2m 1 4 7 10

28. Developed by the CLM-Community in cooperation with the German weather service Ongoing Activities in Modelling • Implementation of soil-vegetation model VEG3D , Cathérine Meißner and Gerd Schädler, IMK-TRO Karlsruhe 2. Coupling of the soil-vegetation Community Land Model (CLM), Reto Stöckli and Sonia Seneviratne, ETH The documentation of the Community Land Model can be found on the homepage http://www.cgd.ucar.edu/tss/clm/. The model is used in the Community Climate System Model (CCSM). 3. 1. Aerosol-Cloud coupling and Atmospheric Chemistry, S.Metzger (MPIfC Mainz) 3. 2. Fast atmospheric chemistry solvers E.Schaller (BTU Cottbus) 4. Implementation of the dynamical NEMO ocean model for the mediterranean H.Hübener, U.Ulbrich (FU Berlin), S.Legutke und I.Fast (Model and Data, Hamburg), A.Will (BTU Cottbus) 5. Publication of a special issue CLM in Meteorologische Zeitschrift in 4.2008

29. Developed by the CLM-Community in cooperation with the German weather service The CLM-Community is interested to cooperate with the COSMO membersSuggestions: • joint model verification/evaluation in RCM and in NWP mode in different regions in Europe • climatological data on a regular grid • Links between the web-pages, similar structure • Invitation of one member of COSMO to workshops www.clm-community.eu thank you – εφχαρίστο !

30. 2. Coupling of Climate Local Model and Community Land Model Reto Stöckli, Sonia Seneviratne, ETH Zurich Community Land Model • http://www.cgd.ucar.edu/tss/clm/ • community model • used in Community Climate System Model (CCSM) Modules: • Biogeophysics • River routing • Carbon cycle (plant physiology) • Vegetation dynamics • C/N model (nutrients) • Dust, VOCs