Attributes {
    NC_GLOBAL {
        String Conventions "CF-1.4";
        String TimePeriod "2041_2070";
        String ClimModel "GFDL_ESM4";
        String ClimScenario "ssp585";
        String Organization "Helmholtz Centre for Environmental Research (UFZ)";
        String Project "Biodiversity Digital Twin (BioDT)";
        String Date "2024-06-05 11:33:39.606210";
        String EPSG "3035";
    }
    bio1 {
        String Explanation "mean annual daily mean air temperatures averaged over 1 year";
        String LongName "mean annual air temperature";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "deg C";
    }
    spatial_ref {
        String crs_wkt "PROJCS["ETRS89-extended / LAEA Europe",GEOGCS["ETRS89",DATUM["European_Terrestrial_Reference_System_1989",SPHEROID["GRS 1980",6378137,298.257222101,AUTHORITY["EPSG","7019"]],AUTHORITY["EPSG","6258"]],PRIMEM["Greenwich",0,AUTHORITY["EPSG","8901"]],UNIT["degree",0.0174532925199433,AUTHORITY["EPSG","9122"]],AUTHORITY["EPSG","4258"]],PROJECTION["Lambert_Azimuthal_Equal_Area"],PARAMETER["latitude_of_center",52],PARAMETER["longitude_of_center",10],PARAMETER["false_easting",4321000],PARAMETER["false_northing",3210000],UNIT["metre",1,AUTHORITY["EPSG","9001"]],AXIS["Northing",NORTH],AXIS["Easting",EAST],AUTHORITY["EPSG","3035"]]";
        Float64 false_easting 4.321e+06;
        Float64 false_northing 3.21e+06;
        String geographic_crs_name "ETRS89";
        String grid_mapping_name "lambert_azimuthal_equal_area";
        String horizontal_datum_name "European Terrestrial Reference System 1989";
        Float64 inverse_flattening 298.257;
        Float64 latitude_of_projection_origin 52;
        Float64 longitude_of_prime_meridian 0;
        Float64 longitude_of_projection_origin 10;
        String prime_meridian_name "Greenwich";
        String projected_crs_name "ETRS89-extended / LAEA Europe";
        String reference_ellipsoid_name "GRS 1980";
        Float64 semi_major_axis 6.37814e+06;
        Float64 semi_minor_axis 6.35675e+06;
        String spatial_ref "PROJCS["ETRS89-extended / LAEA Europe",GEOGCS["ETRS89",DATUM["European_Terrestrial_Reference_System_1989",SPHEROID["GRS 1980",6378137,298.257222101,AUTHORITY["EPSG","7019"]],AUTHORITY["EPSG","6258"]],PRIMEM["Greenwich",0,AUTHORITY["EPSG","8901"]],UNIT["degree",0.0174532925199433,AUTHORITY["EPSG","9122"]],AUTHORITY["EPSG","4258"]],PROJECTION["Lambert_Azimuthal_Equal_Area"],PARAMETER["latitude_of_center",52],PARAMETER["longitude_of_center",10],PARAMETER["false_easting",4321000],PARAMETER["false_northing",3210000],UNIT["metre",1,AUTHORITY["EPSG","9001"]],AXIS["Northing",NORTH],AXIS["Easting",EAST],AUTHORITY["EPSG","3035"]]";
    }
    bio2 {
        String Explanation "mean diurnal range of temperatures averaged over 1 year";
        String LongName "mean diurnal air temperature range";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "deg C";
    }
    bio3 {
        String Explanation "ratio of diurnal variation to annual variation in temperatures";
        String LongName "isothermality";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "deg C";
    }
    bio4 {
        String Explanation "standard deviation of the monthly mean temperatures";
        String LongName "temperature seasonality";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "deg C/100";
    }
    bio5 {
        String Explanation "The highest temperature of any monthly daily mean maximum temperature";
        String LongName "mean daily maximum air temperature of the warmest month";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "deg C";
    }
    bio6 {
        String Explanation "The lowest temperature of any monthly daily mean maximum temperature";
        String LongName "mean daily minimum air temperature of the coldest month";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "deg C";
    }
    bio7 {
        String Explanation "Difference between the Maximum Temperature of Warmest month and the Minimum Temperature of Coldest month (bio5-bio6)";
        String LongName "annual range of air temperature";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "deg C";
    }
    bio8 {
        String Explanation "The wettest quarter of the year is determined (to the nearest month)";
        String LongName "mean daily mean air temperatures of the wettest quarter";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "deg C";
    }
    bio9 {
        String Explanation "The driest quarter of the year is determined (to the nearest month)";
        String LongName "mean daily mean air temperatures of the driest quarter";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "deg C";
    }
    bio10 {
        String Explanation "The warmest quarter of the year is determined (to the nearest month)";
        String LongName "mean daily mean air temperatures of the warmest quarter";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "deg C";
    }
    bio11 {
        String Explanation "The coldest quarter of the year is determined (to the nearest month)";
        String LongName "mean daily mean air temperatures of the coldest quarter";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "deg C";
    }
    bio12 {
        String Explanation "Accumulated precipitation amount over 1 year";
        String LongName "annual precipitation amount";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "kg m-2";
    }
    bio13 {
        String Explanation "The precipitation of the wettest month.";
        String LongName "precipitation amount of the wettest month";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "kg m-2";
    }
    bio14 {
        String Explanation "The precipitation of the driest month.";
        String LongName "precipitation amount of the driest month";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "kg m-2";
    }
    bio15 {
        String Explanation "The Coefficient of Variation ";
        String LongName "precipitation seasonality";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "kg m-2";
    }
    bio16 {
        String Explanation "The wettest quarter of the year is determined (to the nearest month)";
        String LongName "mean monthly precipitation amount of the wettest quarter";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "kg m-2";
    }
    bio17 {
        String Explanation "The driest quarter of the year is determined (to the nearest month)";
        String LongName "mean monthly precipitation amount of the driest quarter";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "kg m-2";
    }
    bio18 {
        String Explanation "The warmest quarter of the year is determined (to the nearest month)";
        String LongName "mean monthly precipitation amount of the warmest quarter";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "kg m-2";
    }
    bio19 {
        String Explanation "The coldest quarter of the year is determined (to the nearest month)";
        String LongName "mean monthly precipitation amount of the coldest quarter";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "kg m-2";
    }
    fcf {
        String Explanation "Number of events in which tmin or tmax go above, or below 0 deg C";
        String LongName "Frost change frequency";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "count";
    }
    fgd {
        String Explanation "first day of the growing season according to TREELIM";
        String LongName "first day of the growing season TREELIM";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "julian day";
    }
    gdd0 {
        String Explanation "heat sum of all days above the 0 deg C temperature accumulated over 1 year.";
        String LongName "Growing degree days heat sum above 0 deg C";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "deg C";
    }
    gdd5 {
        String Explanation "heat sum of all days above the 5 deg C temperature accumulated over 1 year.";
        String LongName "Growing degree days heat sum above 5 deg C";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "deg C";
    }
    gdd10 {
        String Explanation "heat sum of all days above the 10 deg C temperature accumulated over 1 year.";
        String LongName "Growing degree days heat sum above 10 deg C";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "deg C";
    }
    gddlgd0 {
        String Explanation "Last day of the year above 0 deg C";
        String LongName "Last growing degree day above 0 deg C";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "julian day";
    }
    gddlgd5 {
        String Explanation "Last day of the year above 5 deg C";
        String LongName "Last growing degree day above 5 deg C";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "julian day";
    }
    gddlgd10 {
        String Explanation "Last day of the year above 10 deg C";
        String LongName "Last growing degree day above 10 deg C";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "julian day";
    }
    gdgfgd0 {
        String Explanation "First day of the year above 0 deg C";
        String LongName "First growing degree day above 0 deg C";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "julian day";
    }
    gdgfgd5 {
        String Explanation "First day of the year above 5 deg C";
        String LongName "First growing degree day above 5 deg C";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "julian day";
    }
    gdgfgd10 {
        String Explanation "First day of the year above 10 deg C";
        String LongName "First growing degree day above 10 deg C";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "julian day";
    }
    gsl {
        String Explanation "Length of the growing season";
        String LongName "growing season length TREELIM";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "# days";
    }
    gsp {
        String Explanation "precipitation sum accumulated on all days during the growing season based on TREELIM";
        String LongName "Accumulated precipitation amount on growing season days TREELIM";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "kg m-2";
    }
    gst {
        String Explanation "Mean temperature of all growing season days based on TREELIM";
        String LongName "Mean temperature of the growing season TREELIM";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "deg C";
    }
    kg0 {
        String Explanation "Koeppen Geiger - Koeppen&Geiger (1936)";
        String LongName "Koeppen-Geiger climate classification";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "category";
    }
    kg1 {
        String Explanation "Koeppen Geiger without As/Aw differentiation - Koeppen&Geiger (1936)";
        String LongName "Koeppen-Geiger climate classification";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "category";
    }
    kg2 {
        String Explanation "Koeppen Geiger after Peel et al. 2007";
        String LongName "Koeppen-Geiger climate classification";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "category";
    }
    kg3 {
        String Explanation "Wissmann 1939";
        String LongName "Koeppen-Geiger climate classification";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "category";
    }
    kg4 {
        String Explanation "Thornthwaite 1931";
        String LongName "Koeppen-Geiger climate classification";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "category";
    }
    kg5 {
        String Explanation "Troll-Pfaffen - Troll&Paffen (1964)";
        String LongName "Koeppen-Geiger climate classification";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "category";
    }
    lgd {
        String Explanation "Last day of the growing season according to TREELIM";
        String LongName "last day of the growing season TREELIM";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "julian day";
    }
    ngd0 {
        String Explanation "Number of days at which tas > 0 deg C";
        String LongName "Number of growing degree days";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "# days";
    }
    ngd5 {
        String Explanation "Number of days at which tas > 5 deg C";
        String LongName "Number of growing degree days";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "# days";
    }
    ngd10 {
        String Explanation "Number of days at which tas > 10 deg C";
        String LongName "Number of growing degree days";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "# days";
    }
    npp {
        String Explanation "Calculated based on the `Miami model`, Lieth, H., 1972.";
        String LongName "Net primary productivity";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "g C m-2 yr-1";
    }
    scd {
        String Explanation "Number of days with snowcover calculated using the snowpack model implementation in from TREELIM";
        String LongName "Snow cover days";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "count";
    }
    swe {
        String Explanation "Amount of luquid water if snow is melted";
        String LongName "Snow water equivalent";
        Float32 _FillValue -1.17549e+38;
        String coordinates "spatial_ref";
        String grid_mapping "spatial_ref";
        String units "kg m-2";
    }
    easting {
        Float64 _FillValue nan;
        String axis "X";
        String long_name "x coordinate of projection";
        String standard_name "projection_x_coordinate";
        String units "metre";
    }
    northing {
        Float64 _FillValue nan;
        String axis "Y";
        String long_name "y coordinate of projection";
        String standard_name "projection_y_coordinate";
        String units "metre";
    }
}