netcdf statesRUN68.20241231_00000 {
dimensions:
	time = UNLIMITED ; // (1 currently)
	lon = 309 ;
	lat = 230 ;
	veg_class = 1 ;
	snow_band = 1 ;
	nlayer = 3 ;
	frost_area = 1 ;
	soil_node = 3 ;
variables:
	double time(time) ;
		time:standard_name = "time" ;
		time:units = "days since 0001-01-01 00:00:00" ;
		time:calendar = "gregorian" ;
	double lon(lon) ;
		lon:long_name = "longitude" ;
		lon:units = "degrees_east" ;
		lon:standard_name = "longitude" ;
	double lat(lat) ;
		lat:long_name = "latitude" ;
		lat:units = "degrees_north" ;
		lat:standard_name = "latitude" ;
	int veg_class(veg_class) ;
		veg_class:long_name = "veg_class" ;
		veg_class:standard_name = "vegetation_class_number" ;
	int snow_band(snow_band) ;
		snow_band:long_name = "snow_band" ;
		snow_band:standard_name = "snow_elevation_band_number" ;
	int layer(nlayer) ;
		layer:long_name = "layer" ;
		layer:standard_name = "soil_layer_number" ;
	int frost_area(frost_area) ;
		frost_area:long_name = "frost_area" ;
		frost_area:standard_name = "frost_area_number" ;
	double dz_node(soil_node, lat, lon) ;
		dz_node:long_name = "dz_node" ;
		dz_node:standard_name = "soil_thermal_node_spacing" ;
		dz_node:units = "m" ;
	double node_depth(soil_node, lat, lon) ;
		node_depth:long_name = "node_depth" ;
		node_depth:standard_name = "soil_thermal_node_depth" ;
		node_depth:units = "m" ;
	double STATE_SOIL_MOISTURE(veg_class, snow_band, nlayer, lat, lon) ;
		STATE_SOIL_MOISTURE:_FillValue = 9.96920996838687e+36 ;
		STATE_SOIL_MOISTURE:long_name = "soil_moisture" ;
		STATE_SOIL_MOISTURE:standard_name = "soil_layer_moisture" ;
		STATE_SOIL_MOISTURE:units = "mm" ;
		STATE_SOIL_MOISTURE:description = "soil total moisture contents including ice for each soil layer" ;
	double STATE_SOIL_ICE(veg_class, snow_band, nlayer, frost_area, lat, lon) ;
		STATE_SOIL_ICE:_FillValue = 9.96920996838687e+36 ;
		STATE_SOIL_ICE:long_name = "soil_ice" ;
		STATE_SOIL_ICE:standard_name = "soil_moisture_ice_depth" ;
		STATE_SOIL_ICE:units = "mm" ;
		STATE_SOIL_ICE:description = "soil ice content for each soil layer" ;
	double STATE_CANOPY_WATER(veg_class, snow_band, lat, lon) ;
		STATE_CANOPY_WATER:_FillValue = 9.96920996838687e+36 ;
		STATE_CANOPY_WATER:long_name = "canopy_water" ;
		STATE_CANOPY_WATER:standard_name = "water_in_canopy" ;
		STATE_CANOPY_WATER:units = "mm" ;
		STATE_CANOPY_WATER:description = "amount of water stored in the vegetation canopy" ;
	int STATE_SNOW_AGE(veg_class, snow_band, lat, lon) ;
		STATE_SNOW_AGE:_FillValue = -2147483647 ;
		STATE_SNOW_AGE:long_name = "snow_age" ;
		STATE_SNOW_AGE:standard_name = "age_since_last_new_snow" ;
		STATE_SNOW_AGE:units = "model_time_step" ;
		STATE_SNOW_AGE:description = "number of model time steps since the last new snow" ;
	int STATE_SNOW_MELT_STATE(veg_class, snow_band, lat, lon) ;
		STATE_SNOW_MELT_STATE:_FillValue = -2147483647 ;
		STATE_SNOW_MELT_STATE:long_name = "snow_melt_state" ;
		STATE_SNOW_MELT_STATE:standard_name = "snow_melting_phase" ;
		STATE_SNOW_MELT_STATE:units = "1 melting, 0 not melting" ;
		STATE_SNOW_MELT_STATE:description = "flag to indicate whether snowpack is in accumulation or melting phase" ;
	double STATE_SNOW_COVERAGE(veg_class, snow_band, lat, lon) ;
		STATE_SNOW_COVERAGE:_FillValue = 9.96920996838687e+36 ;
		STATE_SNOW_COVERAGE:long_name = "snow_coverage" ;
		STATE_SNOW_COVERAGE:standard_name = "snow_coverage_fraction" ;
		STATE_SNOW_COVERAGE:units = "1" ;
		STATE_SNOW_COVERAGE:description = "fraction of grid cell area covered by snow" ;
	double STATE_SNOW_WATER_EQUIVALENT(veg_class, snow_band, lat, lon) ;
		STATE_SNOW_WATER_EQUIVALENT:_FillValue = 9.96920996838687e+36 ;
		STATE_SNOW_WATER_EQUIVALENT:long_name = "snow_water_equivalent" ;
		STATE_SNOW_WATER_EQUIVALENT:standard_name = "snow_water_equivalent" ;
		STATE_SNOW_WATER_EQUIVALENT:units = "m" ;
		STATE_SNOW_WATER_EQUIVALENT:description = "snow water equivalent" ;
	double STATE_SNOW_SURF_TEMP(veg_class, snow_band, lat, lon) ;
		STATE_SNOW_SURF_TEMP:_FillValue = 9.96920996838687e+36 ;
		STATE_SNOW_SURF_TEMP:long_name = "snow_surf_temp" ;
		STATE_SNOW_SURF_TEMP:standard_name = "snow_surface_temperature" ;
		STATE_SNOW_SURF_TEMP:units = "C" ;
		STATE_SNOW_SURF_TEMP:description = "snow surface layer temperature" ;
	double STATE_SNOW_SURF_WATER(veg_class, snow_band, lat, lon) ;
		STATE_SNOW_SURF_WATER:_FillValue = 9.96920996838687e+36 ;
		STATE_SNOW_SURF_WATER:long_name = "snow_surf_water" ;
		STATE_SNOW_SURF_WATER:standard_name = "snow_surface_liquid_water" ;
		STATE_SNOW_SURF_WATER:units = "m" ;
		STATE_SNOW_SURF_WATER:description = "liquid water content of the snow surface layer" ;
	double STATE_SNOW_PACK_TEMP(veg_class, snow_band, lat, lon) ;
		STATE_SNOW_PACK_TEMP:_FillValue = 9.96920996838687e+36 ;
		STATE_SNOW_PACK_TEMP:long_name = "snow_pack_temp" ;
		STATE_SNOW_PACK_TEMP:standard_name = "snow_pack_temperature" ;
		STATE_SNOW_PACK_TEMP:units = "C" ;
		STATE_SNOW_PACK_TEMP:description = "snow pack layer temperature" ;
	double STATE_SNOW_PACK_WATER(veg_class, snow_band, lat, lon) ;
		STATE_SNOW_PACK_WATER:_FillValue = 9.96920996838687e+36 ;
		STATE_SNOW_PACK_WATER:long_name = "snow_pack_water" ;
		STATE_SNOW_PACK_WATER:standard_name = "snow_pack_liquid_water" ;
		STATE_SNOW_PACK_WATER:units = "m" ;
		STATE_SNOW_PACK_WATER:description = "liquid water content of the snow pack layer" ;
	double STATE_SNOW_DENSITY(veg_class, snow_band, lat, lon) ;
		STATE_SNOW_DENSITY:_FillValue = 9.96920996838687e+36 ;
		STATE_SNOW_DENSITY:long_name = "snow_density" ;
		STATE_SNOW_DENSITY:standard_name = "snowpack_density" ;
		STATE_SNOW_DENSITY:units = "kg m-3" ;
		STATE_SNOW_DENSITY:description = "snowpack density" ;
	double STATE_SNOW_COLD_CONTENT(veg_class, snow_band, lat, lon) ;
		STATE_SNOW_COLD_CONTENT:_FillValue = 9.96920996838687e+36 ;
		STATE_SNOW_COLD_CONTENT:long_name = "snow_cold_content" ;
		STATE_SNOW_COLD_CONTENT:standard_name = "snowpack_cold_content" ;
		STATE_SNOW_COLD_CONTENT:units = "J m-2" ;
		STATE_SNOW_COLD_CONTENT:description = "snowpack cold content" ;
	double STATE_SNOW_CANOPY(veg_class, snow_band, lat, lon) ;
		STATE_SNOW_CANOPY:_FillValue = 9.96920996838687e+36 ;
		STATE_SNOW_CANOPY:long_name = "snow_canopy" ;
		STATE_SNOW_CANOPY:standard_name = "snow_water_equivalent_intercepted_in_canopy" ;
		STATE_SNOW_CANOPY:units = "m" ;
		STATE_SNOW_CANOPY:description = "snow interception storage in canopy" ;
	double STATE_SOIL_NODE_TEMP(veg_class, snow_band, soil_node, lat, lon) ;
		STATE_SOIL_NODE_TEMP:_FillValue = 9.96920996838687e+36 ;
		STATE_SOIL_NODE_TEMP:long_name = "soil_node_temp" ;
		STATE_SOIL_NODE_TEMP:standard_name = "soil_node_temperature" ;
		STATE_SOIL_NODE_TEMP:units = "C" ;
		STATE_SOIL_NODE_TEMP:description = "soil temperature of each soil thermal node" ;
	double STATE_FOLIAGE_TEMPERATURE(veg_class, snow_band, lat, lon) ;
		STATE_FOLIAGE_TEMPERATURE:_FillValue = 9.96920996838687e+36 ;
		STATE_FOLIAGE_TEMPERATURE:long_name = "foliage_temperature" ;
		STATE_FOLIAGE_TEMPERATURE:standard_name = "foliage_temperature" ;
		STATE_FOLIAGE_TEMPERATURE:units = "C" ;
		STATE_FOLIAGE_TEMPERATURE:description = "overstory vegetaion temperature" ;
	double STATE_ENERGY_LONGUNDEROUT(veg_class, snow_band, lat, lon) ;
		STATE_ENERGY_LONGUNDEROUT:_FillValue = 9.96920996838687e+36 ;
		STATE_ENERGY_LONGUNDEROUT:long_name = "energy_longunderout" ;
		STATE_ENERGY_LONGUNDEROUT:standard_name = "longwave_out_from_understory" ;
		STATE_ENERGY_LONGUNDEROUT:units = "W m-2" ;
		STATE_ENERGY_LONGUNDEROUT:description = "outgoing longwave flux from understory vegetation" ;
	double STATE_ENERGY_SNOW_FLUX(veg_class, snow_band, lat, lon) ;
		STATE_ENERGY_SNOW_FLUX:_FillValue = 9.96920996838687e+36 ;
		STATE_ENERGY_SNOW_FLUX:long_name = "energy_snow_flux" ;
		STATE_ENERGY_SNOW_FLUX:standard_name = "snowpack_thermal_flux" ;
		STATE_ENERGY_SNOW_FLUX:units = "W m-2" ;
		STATE_ENERGY_SNOW_FLUX:description = "thermal flux through snowpack" ;
	double STATE_AVG_ALBEDO(lat, lon) ;
		STATE_AVG_ALBEDO:_FillValue = 9.96920996838687e+36 ;
		STATE_AVG_ALBEDO:long_name = "state_avg_albedo" ;
		STATE_AVG_ALBEDO:standard_name = "state_gridcell_avg_albedo" ;
		STATE_AVG_ALBEDO:units = "fraction" ;
		STATE_AVG_ALBEDO:description = "gridcell averaged albedo" ;

// global attributes:
		:title = "VIC State File" ;
		:source = "VIC Image Driver" ;
		:history = "Created by johsch on cn1 on Thu Feb 12 10:43:30 2026\n",
			"" ;
		:references = "Primary Historical Reference for VIC: Liang, X., D. P. Lettenmaier, E. F. Wood, and S. J. Burges, 1994: A Simple hydrologically Based Model of Land Surface Water and Energy Fluxes for GSMs, J. Geophys. Res., 99(D7), 14,415-14,428." ;
		:comment = "Output from the Variable Infiltration Capacity (VIC) Macroscale Hydrologic Model" ;
		:Conventions = "CF-1.6" ;
		:netcdf_lib_version = "4.9.2 of Sep  1 2025 15:18:25 $" ;
		:mpi_lib_version = "Open MPI v4.1.6, package: Open MPI ubiqsupport@login Distribution, ident: 4.1.6, repo rev: v4.1.6, Sep 30, 2023" ;
		:VIC_Model_Version = "5.0.1 February 1, 2017" ;
		:VIC_GIT_VERSION = "" ;
		:VIC_Driver = "Image" ;
}