Attributes { X { String standard_name "longitude"; Float32 pointwidth 1.0; Int32 gridtype 1; String units "degree_east"; } Y { String standard_name "latitude"; Float32 pointwidth 1.0; Int32 gridtype 0; String units "degree_north"; } L { String standard_name "forecast_period"; String long_name "Lead"; Float32 pointwidth 1.0; Int32 gridtype 0; String units "months"; } P { String standard_name "air_pressure"; String long_name "Pressure Level"; Int32 pointwidth 0; Int32 gridtype 0; String units "hPa"; } S { String calendar "360"; String standard_name "forecast_reference_time"; String long_name "Forecast Start Time"; Int32 pointwidth 0; Int32 gridtype 0; String units "months since 1960-01-01"; } M { String standard_name "realization"; String long_name "Ensemble Member"; Float32 pointwidth 1.0; Int32 gridtype 0; String units "unitless"; } Z { String standard_name "height"; String long_name "Height"; Int32 pointwidth 0; Int32 gridtype 0; String units "m"; } hght { Int32 pointwidth 0; Float32 missing_value -9.99999979E33; String units "m"; String standard_name "geopotential_height"; String long_name "Geopotential Height at 200 hPa"; } prec { Int32 pointwidth 0; String standard_name "lwe_precipitation_rate"; String long_name "Total Precipitation"; Float32 file_missing_value -9.99999979E33; Float32 missing_value NaN; String units "mm/day"; } sst { Int32 pointwidth 0; Float32 missing_value -9.99999979E33; String units "Celsius_scale"; String standard_name "sea_surface_temperature"; String long_name "Sea Surface Temperature"; } T { String units "months since 1960-01-01"; Float32 pointwidth 1.0; String calendar "360"; String long_name "Time"; String standard_name "time"; } t_ref_max { Int32 pointwidth 0; Float32 missing_value -9.99999979E33; String units "Kelvin_scale"; String standard_name "air_temperature"; String long_name "Maximum Temperature"; } t_ref_min { Int32 pointwidth 0; Float32 missing_value -9.99999979E33; String units "Kelvin_scale"; String standard_name "air_temperature"; String long_name "Minimum Temperature"; } tref { Int32 pointwidth 0; Float32 missing_value -9.99999979E33; String units "Kelvin_scale"; String standard_name "air_temperature"; String long_name "Reference Temperature"; } NC_GLOBAL { String references "Kirtman_etal2014"; URL dataset_documentation "https://www.gfdl.noaa.gov/wp-content/uploads/files/user_files/gav/publications/jetal_14_flor_tsandpr.pdf"; URL data_availability "fileavail/mark/exch/S2/exch[S1]table:/mark/:table/.html"; String history "FERRET V6.72 7-Jun-12"; String ACKNOWLEDGEMENTS "In order to document NMME-Phase II data impact and enable continuing support, users of NMME data are expected to acknowledge NMME data and the participating modeling groups. The NMME model output should be referred to as \"the NMME System Phase II data [https://www.earthsystemgrid.org/search.html?Project=NMME].\" In publications, users should include a table (referred to below as Table XX) listing the models and institutions that provided model output used in the NMME-Phase II system, as well as the digital object identifier of publications documenting the models, where \"Table XX\" in the paper should list the models and modeling groups that provided the NMME data. In addition, an acknowledgement similar to the following should be included in any publication: \"We acknowledge the agencies that support the NMME-Phase II system, and we thank the climate modeling groups (Environment Canada, NASA, NCAR, NOAA/GFDL, NOAA/NCEP, and University of Miami) for producing and making available their model output. NOAA/NCEP, NOAA/CTB, and NOAA/CPO jointly provided coordinating support and led development of the NMME-Phase II system.\" Besides the above acknowledgement, users should register any journal articles (or other scientific documents) that are based on NMME-Phase II results."; String Conventions "CF-1.0"; } }