, ORCID: https://orcid.org/0000-0003-1105-6678" ; :frequency = "3hr" ; :geospatial_bounds = "POLYGON ((90 -180, 90 180, -90 180, -90 -180, 90 -180))" ; :geospatial_bounds_crs = "EPSG:4326" ; :geospatial_lat_resolution = "1.875 degree" ; :geospatial_lon_resolution = "1.875 degree" ; :geospatial_vertical_resolution = "31 hybrid sigma pressure levels from the surface to 1000 Pa" ; :history = "Thu Oct 20 13:43:01 2022: Processed data and global/variable attributes for compliance with the ATMODAT Standard Version 3.0. The file was compressed using a deflate level of 5.\n Fri Oct 07 05:17:44 2022: cdo --cmor chname,aps,ps -merge /poorgafile1/remsens/jkretzs/atmodat/base_data//rain_0.1_1_-1/rain_0.1_1_-1_200001.01_cosp_tm1.nc /poorgafile1/remsens/jkretzs/atmodat/base_data//rain_0.1_1_-1/rain_0.1_1_-1_200001.01_cosp_aps.nc /poorgafile1/remsens/jkretzs/atmodat/aerocom//aerocom_echam6_ham2_warm_rain_gamma0.1_rc-1/ta/final_tmp.nc\nMon Nov 20 11:55:29 2017: cdo -f nc4 -z zip_9 selvar,tm1 /scratch/b/b380126/rain_0.1_1_-1/rain_0.1_1_-1_200001.01_cosp.nc /work/bb0839/b380126/rain_0.1_1_-1/rain_0.1_1_-1_200001.01_cosp_tm1.nc" ; :institution = "Institute for Meteorology, University Leipzig, Germany" ; :institution_id = "LIM" ; :keywords = "Earth Science > Atmosphere > Aerosols > Cloud Condensation Nuclei, Earth Science > Atmosphere > Clouds > Cloud Microphysics, Earth Science > Atmosphere > Precipitation, Climate Simulation, Aerosol-Cloud Interactions, Warm Rain, Cloud Lifetime" ; :keywords_vocabulary = "GCMD, GCMD, GCMD, None, None, None, None" ; :license = "CC BY 4.0" ; :metadata_link = "https://www.wdc-climate.de/ui/entry?acronym=Aerocom_ECHAM6-HAM2_rain" ; :processing_level = "Model output, adapted to be conformant with the ATMODAT standard version 3.0" ; :product_version = "1.0" ; :project = "AeroCom (Aerosol Comparisons between Observations and Models)" ; :publisher_name = "World Data Center for Climate (WDCC) at DKRZ" ; :publisher_url = "https://www.wdc-climate.de" ; :realm = "atmos" ; :references = "Muelmenstaedt, J. et al. (2020), Reducing the aerosol forcing uncertainty using observational constraints on warm rain processes, Sci. Advances, 6, doi:10.1126/sciadv.aaz6433; ECHAM6-HAM2: Zhang, K. Et al. (2012), The global aerosol-climate model ECHAM-HAM, version 2: Sensitivity to improvements in process representations, Atmos. Chem. Phys. 12, 8911-8949, doi:10.5194/acp-12-8911-2012, Ganske, A. et al. (2021), ATMODAT Standard (v3.0), World Data Center for Climate (WDCC) at DKRZ, doi:10.35095/WDCC/atmodat_standard_en_v3_0" ; :source = "ECHAM6.1-HAM2.2-MOZ0.9" ; :standard_name_vocabulary = "CF Standard Name Table Version 77" ; :summary = "This experiment contains the model output from a series of sensitivity simulations, called rain, carried out with the global aerosol-climate model ECHAM6-HAM2. The simulation were performed within the scope of the AeroCom project. In general, the rain sensitivity study aims to provide a process-based observational constraint on the cloud lifetime effect by examining the parameterized precipitation stemming from warm rain. Details can be found in the associated publication of Muelmenstaedt et al., (2020). The sensitivity simulations aim at investigating the effect of changing the autoconversion tuning factor (gamma) and the critical effective radius (rc) in the parameterization of autoconversion (see Fig.3 and Eq. 3 in Muelmenstaedt et al., (2020)). The respective setting of these parameters is indicated in the dataset group name (e.g. AeroCom ECHAM6-HAM2 warm rain sensitivity simulation gamma${x_gamma} rc${x_rc}. In the default setting of ECHAM6-HAM2, gamma is 4 and rc is -1. rc=-1 is used for simulations where no critical impact radius is applied. In addition to microphysical variables, the model output includes simulated radar reflections from CloudSat created with the satellite simulator COSP (Cloud Feedback Model Intercomparison Project Observational Simulator Package, see Bodas-Salcedo et al., (2011)). The radar reflectivities are outputted on so-called subcolumns to include information on the subgrid variability of hydrometeors. The model output is provided as global fields on a reduced Gaussian Grid (N48) with 3-hourly temporal resolution." ; :title = "AeroCom ECHAM6-HAM2 warm rain sensitivity simulation gamma0.1 rc-1" ; }