netcdf cigdata/wus_A1B_2070-2099_miroc_3.2.ncml { dimensions: lat = 371; lon = 560; time = 12; variables: float lat(lat=371); :long_name = "latitude"; :units = "degrees north"; :actual_range = 30.03125f, 53.15625f; // float float lon(lon=560); :long_name = "longitude"; :units = "degrees east"; :actual_range = -124.96875f, -90.03125f; // float float time(time=12); :long_name = "time_coordinate"; :_CoordinateAxisType = "time"; :standard_name = "time"; :units = "days since 1900-01-01"; :actual_range = 67585.0f, 67919.0f; // float float elev(lat=371, lon=560); :long_name = "Elevation"; :units = "meters"; :actual_range = 0.0f, 4116.0f; // float :missing_value = -9999.0f; // float :_FillValue = -9999.0f; // float float baseflow(time=12, lat=371, lon=560); :long_name = "Daily Baseflow"; :units = "mm"; :summary_type = "Monthly total"; :missing_value = -9999.0f; // float :_FillValue = -9999.0f; // float :actual_range = 0.0f, 353.5f; // float float combinedflow(time=12, lat=371, lon=560); :long_name = "Combined Flow"; :units = "mm"; :summary_type = "Monthly total"; :missing_value = -9999.0f; // float :_FillValue = -9999.0f; // float :actual_range = 0.0f, 1347.6f; // float float et(time=12, lat=371, lon=560); :long_name = "Daily evapotranspiration"; :units = "mm"; :summary_type = "Monthly total"; :missing_value = -9999.0f; // float :_FillValue = -9999.0f; // float :actual_range = -16.8f, 189.2f; // float float isr(time=12, lat=371, lon=560); :long_name = "Incoming shortwave radiation"; :units = "W/m2"; :summary_type = "Monthly average"; :missing_value = -9999.0f; // float :_FillValue = -9999.0f; // float :actual_range = 27.4f, 377.0f; // float float olr(time=12, lat=371, lon=560); :long_name = "Outgoing longwave radiation"; :units = "W/m2"; :summary_type = "Monthly average"; :missing_value = -9999.0f; // float :_FillValue = -9999.0f; // float :actual_range = 150.5f, 435.9f; // float float pet1(time=12, lat=371, lon=560); :long_name = "Potential Evapotranspiration 1"; :units = "mm"; :summary_type = "Monthly total"; :missing_value = -9999.0f; // float :_FillValue = -9999.0f; // float :actual_range = 0.5f, 255.7f; // float float pet2(time=12, lat=371, lon=560); :long_name = "Potential Evapotranspiration 2"; :units = "mm"; :summary_type = "Monthly total"; :missing_value = -9999.0f; // float :_FillValue = -9999.0f; // float :actual_range = 11.8f, 372.0f; // float float pet3(time=12, lat=371, lon=560); :long_name = "Potential Evapotranspiration 3"; :units = "mm"; :summary_type = "Monthly total"; :missing_value = -9999.0f; // float :_FillValue = -9999.0f; // float :actual_range = 7.5f, 770.3f; // float float pet4(time=12, lat=371, lon=560); :long_name = "Potential Evapotranspiration 4"; :units = "mm"; :summary_type = "Monthly total"; :missing_value = -9999.0f; // float :_FillValue = -9999.0f; // float :actual_range = 5.2f, 254.4f; // float float pet5(time=12, lat=371, lon=560); :long_name = "Potential Evapotranspiration 5"; :units = "mm"; :summary_type = "Monthly total"; :missing_value = -9999.0f; // float :_FillValue = -9999.0f; // float :actual_range = 6.4f, 291.1f; // float float precip(time=12, lat=371, lon=560); :long_name = "Daily total precipitation"; :units = "mm"; :summary_type = "Monthly total"; :missing_value = -9999.0f; // float :_FillValue = -9999.0f; // float :actual_range = 0.0f, 1534.2f; // float float rh(time=12, lat=371, lon=560); :long_name = "Relative humidity"; :units = "%"; :summary_type = "Monthly average"; :missing_value = -9999.0f; // float :_FillValue = -9999.0f; // float :actual_range = 16.3f, 84.1f; // float float runoff(time=12, lat=371, lon=560); :long_name = "Daily Runoff"; :units = "mm"; :summary_type = "Monthly total"; :missing_value = -9999.0f; // float :_FillValue = -9999.0f; // float :actual_range = 0.0f, 1051.0f; // float float snodep(time=12, lat=371, lon=560); :long_name = "Snow depth"; :units = "cm"; :summary_type = "1st of month"; :missing_value = -9999.0f; // float :_FillValue = -9999.0f; // float :actual_range = 0.0f, 401.7f; // float float soilm1(time=12, lat=371, lon=560); :long_name = "Soil Moisture, Layer 1"; :units = "mm"; :summary_type = "1st of month"; :missing_value = -9999.0f; // float :_FillValue = -9999.0f; // float :actual_range = 0.0f, 145.8f; // float float soilm2(time=12, lat=371, lon=560); :long_name = "Soil Moisture, Layer 2"; :units = "mm"; :summary_type = "1st of month"; :missing_value = -9999.0f; // float :_FillValue = -9999.0f; // float :actual_range = 7.3f, 250.2f; // float float soilm3(time=12, lat=371, lon=560); :long_name = "Soil Moisture, Layer 3"; :units = "mm"; :summary_type = "1st of month"; :missing_value = -9999.0f; // float :_FillValue = -9999.0f; // float :actual_range = 0.2f, 955.0f; // float float soilmoist(time=12, lat=371, lon=560); :long_name = "Soil Moisture"; :units = "mm"; :summary_type = "1st of month"; :missing_value = -9999.0f; // float :_FillValue = -9999.0f; // float :actual_range = 18.3f, 1063.1f; // float float swe(time=12, lat=371, lon=560); :long_name = "Snow water equivalent"; :units = "mm"; :summary_type = "1st of month"; :missing_value = -9999.0f; // float :_FillValue = -9999.0f; // float :actual_range = 0.0f, 2104.9f; // float float tavg(time=12, lat=371, lon=560); :long_name = "Daily average temperature"; :units = "C"; :summary_type = "Monthly average"; :missing_value = -9999.0f; // float :_FillValue = -9999.0f; // float :actual_range = -8.8f, 41.0f; // float float tmax(time=12, lat=371, lon=560); :long_name = "Daily maximum temperature"; :units = "C"; :summary_type = "Monthly average"; :missing_value = -9999.0f; // float :_FillValue = -9999.0f; // float :actual_range = -2.9f, 49.0f; // float float tmin(time=12, lat=371, lon=560); :long_name = "Daily minimum temperature"; :units = "C"; :summary_type = "Monthly average"; :missing_value = -9999.0f; // float :_FillValue = -9999.0f; // float :actual_range = -15.8f, 33.3f; // float float vpd(time=12, lat=371, lon=560); :long_name = "Vapor pressure deficit"; :units = "Pa"; :summary_type = "Monthly average"; :missing_value = -9999.0f; // float :_FillValue = -9999.0f; // float :actual_range = 0.1f, 5.9f; // float // global attributes: :title = "CIG Northern US Rockies and Pacific Northwest Statistical Downscaling - Western US - A1B - 2070-2099 - MIROC 3.2"; :summary = "The goal of this project was to (1) develop consistent historical and future downscaled climate and hydrologic data and projections using the same methodology for several major river basins in the western United States (Columbia, upper Missouri, upper Colorado, and Great Basins) and (2) summarize that information in forms consistent with the needs of the funding agencies. This report describes where to get the information developed as well as the methods, results obtained, uses of and uncertainties associated with the data and projections."; :keywords = "CIG, statistical downscaling, climate"; :acknowledgment = "Littell, J.S., M.M. Elsner, G. S. Mauger, E. Lutz, A.F. Hamlet, and E. Salathe. 2011. Regional Climate and Hydrologic Change in the Northern US Rockies and Pacific Northwest: Internally Consistent Projections of Future Climate for Resource Management. Draft report: January 7, 2011."; :naming_authority = "usgs.gov"; :cdm_data_type = "Grid"; :time = "2012-03-02"; :creator_name = "Jay Alder"; :creator_url = "http://regclim.coas.oregonstate.edu"; :creator_email = "alderj@coas.oregonstate.edu"; :publisher_name = "Climate Impacts Group, University of Washington, College of the Environment"; :publisher_url = "http://cses.washington.edu/data/r1r6.shtml"; :publisher_email = "cig@u.washington.edu"; :institution = "Climate Impacts Group, University of Washington, College of the Environment"; :contributors = "Jeremy S. Littell, Marketa McGuire Elsner, Guillaume Mauger, Eric Lutz, Alan F. Hamlet, Eric Salathe"; :license = "All model datasets are freely available and are intended for further climate-related scientific research. Although these data have been processed successfully on a computer system at the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system, or for general or scientific purposes, nor shall the act of distribution constitute any such warranty. The USGS shall not be held liable for improper or incorrect use of the data described and/or contained herein."; }