########################################################################################################## # DHSVM INPUT FILE FORMAT ########################################################################################################## # The file is organized in sections [...], which contain key = entry pairs. # The file is free format, in that correct reading of the file is not dependent # on spaces and/or the order of the key-entry pairs within a section. # The keys are not case-sensitive, but the entries are, because filenames on a # UNIX platform are case-sensitive. # Comments are preceded by a '#', and run from the occurrence of '#' till the # end of the line. You can comment out an entire line (like in this # header), or you can place a comment after an entry. # It is important to place the key-entry pair in the correct section, since it # will not be found if it is in another section. # The easiest way to make the input file is to fill out this default template. # Since DHSVM will only use the keys that it requires you do not have to worry # about empty entries for keys that are not needed. For example, if you are # running the model in point mode, you do not have to fill out the routing # section. If you have already filled it out you can leave it, since DHSVM will # not use the information. This allows easy switching between point and basin # mode. # For more information about the specific entries see the DHSVM web page # the soil parameters are copied from Lan's lowland INPUT File (with extremely # low lateral conductivity $ changed the station from 1 to 2 ########################################################################################################## # OPTIONS SECTION ########################################################################################################## [OPTIONS] # Model Options Format = BIN # BIN or NETCDF Extent = BASIN # POINT or BASIN Gradient = WATERTABLE # TOPOGRAPHY or WATERTABLE Flow Routing = NETWORK # UNIT_HYDROGRAPH or NETWORK (StrEnv[flow_routing]) Sensible Heat Flux = FALSE # TRUE or FALSE Sediment = FALSE # TRUE or FALSE Sediment Input File = # path for sediment configuration file Overland Routing = CONVENTIONAL # CONVENTIONAL or KINEMATIC (StrEnv[routing]) Infiltration = STATIC # Static or Dynamic Interpolation = VARCRESS # NEAREST or INVDIST or VARCRESS MM5 = FALSE # TRUE or FALSE QPF = FALSE # TRUE or FALSE PRISM = TRUE # TRUE or FALSE PRISM data path = /home/disk/tsuga2/jswon11/workdir/2021_09_KingCounty-Phase3/models/snoho3.2/prismMap/prism PRISM data extension = bin # file extension for PRISM files Gridded Met data = TRUE # TRUE or FALSE Canopy radiation attenuation mode = FIXED # FIXED or VARIABLE Shading = TRUE # TRUE or FALSE Shading data path = /home/disk/tsuga2/jswon11/workdir/2021_09_KingCounty-Phase3/models/snoho3.2//input/Shadow Shading data extension = bin # File extension for shading files Skyview data path = /home/disk/tsuga2/jswon11/workdir/2021_09_KingCounty-Phase3/models/snoho3.2//input/SkyView.bin Snotel = FALSE # TRUE or FALSE Outside = FALSE # TRUE or FALSE Rhoverride = FALSE # TRUE or FALSE Precipitation Source = STATION # STATION or RADAR Wind Source = STATION # STATION or MODEL Temperature lapse rate = CONSTANT # CONSTANT or VARIABLE Precipitation lapse rate = CONSTANT # CONSTANT, MAP, or VARIABLE Cressman radius = 10 # in model pixels Cressman stations = 4 # the maximum stations for interpolation Stream Temperature = FALSE # TRUE or FALSE Riparian Shading = FALSE # TRUE or FALSE Canopy Shading = FALSE # TRUE or FALSE Improved Radiation Scheme = FALSE # TRUE OR FALSE Variable Light Transmittance = TRUE # TRUE if light transmittance changes with solar altitude Canopy Gapping = FALSE # Snow Sliding = FALSE # ########################################################################################################## # MODEL AREA SECTION ########################################################################################################## [AREA] # Model area Coordinate System = UTM # UTM or USER_DEFINED Extreme North = 5409621.641 # Coordinate for northern edge of grid Extreme West = 558386.10332194 # Coordinate for western edge of grid Center Latitude = 47.753982 # Central parallel of basin Center Longitude = -121.642973 # Central meridian of basin Time Zone Meridian = -120.0 # Time zone meridian for area Number of Rows = 1165 # Number of rows Number of Columns = 616 # Number of columns Grid spacing = 150 # Grid resolution in m Point North = 5292624 # North coordinate for point model if Extent = POINT Point East = 597543 # East coordinate for point modelif Extent = POINT #North Coordinate 1 = 5292666.86 # old lat/lon alpine #East Coordinate 1 = 597384.93 # old lat/lon alpine ########################################################################################################## # TIME SECTION ########################################################################################################## [TIME] # Model period Time Step = 1 # Model time step (hours) Model Start = 10/01/1999-00 Model End = 12/31/2003-00 ########################################################################################################## # CONSTANTS SECTION ########################################################################################################## [CONSTANTS] # Model constants Ground Roughness = 0.02 # Roughness of soil surface (m) Snow Roughness = 0.010418 # Roughness of snow surface (m) Rain Threshold = -1.0 # Minimum temperature at which rain occurs (C) Snow Threshold = 0.5 # Maximum temperature at which snow occurs (C) Snow Water Capacity = 0.03 # Snow liquid water holding capacity(fraction) Reference Height = 70.0 # Reference height (m) Rain LAI Multiplier = 0.0001 # LAI Multiplier for rain interception Snow LAI Multiplier = 0.0005 # LAI Mulitplier for snow interception Min Intercepted Snow = 0.005 # Intercepted snow that can only be melted (m) Outside Basin Value = 0 # Value in mask that indicates outside the basin Temperature Lapse Rate = -0.0045 #-0.006658 # Temperature lapse rate (C/m) #-0.005311 Precipitation Lapse Rate = 0.003 #0.001076 # Precipitation lapse rate (m/m) Precipitation Multiplier = 0.0 # original 0.000427 was modifiied Albedo Accumulation Lambda = 0.92 # Lambda for accumulation period Albedo Melting Lambda = 0.4 # Lambda for melting period Albedo Accumulation Min = 0.7 # Min albedo value during accumulation period Albedo Melting Min = 0.4 # Min albedo value during melting period Max Surface Snow Layer Depth = 0.025 # maximum depth of the surface snow layer in water equivalent (m) ####################Only if CanopyShading is TRUE############################### Tree Height = 10 Buffer Width = 5 Overhang Coefficient = 0 Monthly Extinction Coefficient = 0.08 0.08 0.08 0.08 0.08 0.08 0.08 0.08 0.08 0.08 0.08 0.08 #Extinction Coefficient = 0.08 # extinction coefficient (0 ~ 1) Canopy Bank Distance = 0.01 # distance from bank to canopy (m) ########################################################################################################## # TERRAIN INFORMATION SECTION ########################################################################################################## [TERRAIN] # Terrain information DEM File = /home/disk/tsuga2/jswon11/workdir/2021_09_KingCounty-Phase3/models/snoho3.2//input/dem.bin Basin Mask File = /home/disk/tsuga2/jswon11/workdir/2021_09_KingCounty-Phase3/models/snoho3.2//input/mask.bin ########################################################################################################## # ROUTING SECTION ########################################################################################################## [ROUTING] # Routing information. This section is # only relevant if the Extent = BASIN ############################### STREAM NETWORK ########################################################### # The following three fields are only used if Flow Routing = NETWORK Stream Map File = /home/disk/tsuga2/jswon11/workdir/2021_09_KingCounty-Phase3/models/snoho3.2//input/stream.map Stream Network File = /home/disk/tsuga2/jswon11/workdir/2021_09_KingCounty-Phase3/models/snoho3.2//input/stream.network Stream Class File = /home/disk/tsuga2/jswon11/workdir/2021_09_KingCounty-Phase3/models/snoho3.2//input/adjust.classfile Riparian Veg File = /home/disk/tsuga2/jswon11/workdir/2021_09_KingCounty-Phase3/models/snoho3.2//input/rveg.baseline.network ################################### ROAD NETWORK ######################################################### # The following three fields are only used if Flow Routing = NETWORK and there # is a road network #Road Map File = # path for road map file #Road Network File = # path for road network file #Road Class File = # path for road network file #################################### UNIT HYDROGRAPH ##################################################### # The following two fields are only used if Flow Routing = UNIT_HYDROGRAPH Travel Time File = # path for travel time file Unit Hydrograph File = # path for unit hydrograph file ########################################################################################################## # METEOROLOGY SECTION ########################################################################################################## [METEOROLOGY] # Meteorological stations Grid Rows = 50 Grid Cols = 40 Extreme North Lat = 49.71875 Extreme East Lon = -119.96875 Grid Size = 0.0625 # if the outside is FALSE, only the grids within the bounding box defined by the 4 lat/lon parameters # # # below are included. Else, the grids within the basin mask are include. Extreme North Lat = 49.71 Extreme South Lat = 47.00000 Extreme East Lon = -119.96 Extreme West Lon = -122.30000 Number of Grids = 270 # estimate of total grids need for the basin for GRID_DECIMAL = 5 # Number of digits after decimal point in forcing file names UTM ZONE = 10 MET FILE PATH = /home/disk/rocinante/DATA/temp/WRF/scripts/regrid_c2c/longwave/output/rawWRF_ptmin_delta/ FILE PREFIX = data ############################################### MM5 ###################################################### # The following block only needs to be filled out if MM5 = TRUE. In that case # This is the ONLY block that needs to be filled out MM5 Start = # Start of MM5 file (MM/DD/YYYY-HH), MM5 Rows = MM5 Cols = MM5 Extreme North = MM5 Extreme West = MM5 DY = # MM5 met files MM5 Temperature File = MM5 Humidity File = MM5 Wind Speed File = MM5 Shortwave File = MM5 Longwave File = MM5 Pressure File = MM5 Precipitation File = MM5 Terrain File = MM5 Temp Lapse File = # For each soil layer make a key-entry pair as below (n = 1, .., # Number of Soil Layers) MM5 Soil Temperature File 0 = MM5 Soil Temperature File 1 = MM5 Soil Temperature File 2 = ######################################### RADAR ########################################################## # The following block only needs to be filled out if Precipitation Source = # RADAR. Radar Start = Radar File = Radar Extreme North = Radar Extreme West = Radar Number of Rows = Radar Number of Columns = Radar Grid Spacing = ########################################## Wind ########################################################## # The following block only needs to be filled out if Wind Source = MODEL Number of Wind Maps = Wind File Basename = Wind Map Met Stations = ########################################## Precipitation lapse rate ###################################### # The following block only needs to be filled out if Precipitation lapse rate # = MAP Precipitation lapse rate = ########################################################################################################## # SOILS INFORMATION SECTION ########################################################################################################## [SOILS] # Soil information Soil Map File = /home/disk/tsuga2/jswon11/workdir/2021_09_KingCounty-Phase3/models/snoho3.2//input/soil.bin Soil Depth File = /home/disk/tsuga2/jswon11/workdir/2021_09_KingCounty-Phase3/models/snoho3.2//input/soild.bin Number of Soil Types = 16 ########################################## SOIL 1 ######################################################### Soil Description 1 = SAND Lateral Conductivity 1 = 0.1 Exponential Decrease 1 = 3.0 Depth Threshold 1 = 0.5 # If this value is set to be zero, linear transmissivity decays # applies unless water table is higher than soil depth. If this # value is very large (e.g. > 100), only exponential transimissivity # decay applies just like the older versions. Maximum Infiltration 1 = 2.0e-1 Capillary Drive 1 = 0.09 # http://www.tucson.ars.ag.gov/icrw/Proceedings/Hantush.pdf # the value must be filled out but is not used in computation # if INFILTRATION = STATIC Surface Albedo 1 = 0.1 Number of Soil Layers 1 = 3 Porosity 1 = .43 .43 .43 Pore Size Distribution 1 = .24 .24 .24 Bubbling Pressure 1 = .07 .07 .07 Field Capacity 1 = .08 .08 .08 Wilting Point 1 = .03 .03 .03 Bulk Density 1 = 1492. 1492. 1492. Vertical Conductivity 1 = 5.0E-1 5.0E-1 5.0E-1 Thermal Conductivity 1 = 7.114 6.923 6.923 Thermal Capacity 1 = 1.4e6 1.4e6 1.4e6 Mannings n 1 = 0.013 # the value must be filled out but is not used in computation # if routing = conventional ################################## SOIL 2 ######################################################### Soil Description 2 = LOAMY SAND Lateral Conductivity 2 = 0.03 Exponential Decrease 2 = 1.0 Depth Threshold 2 = 0.5 # If this value is set to be zero, linear transmissivity decays # applies unless water table is higher than soil depth. If this # value is very large (e.g. > 100), only exponential transimissivity # decay applies just like the older versions. Maximum Infiltration 2 = 6.0e-2 Capillary Drive 2 = 0.12 Surface Albedo 2 = 0.1 Number of Soil Layers 2 = 3 Porosity 2 = .43 .43 .43 Pore Size Distribution 2 = .25 .25 .25 Bubbling Pressure 2 = .09 .09 .09 Field Capacity 2 = .10 .10 .10 Wilting Point 2 = .06 .06 .06 Bulk Density 2 = 1520. 1520. 1520. Vertical Conductivity 2 = 3.0E-1 3.0E-1 3.0E-1 Thermal Conductivity 2 = 7.114 6.923 7.0 Thermal Capacity 2 = 1.4e6 1.4e6 1.4e6 Mannings n 2 = 0.013 ################################## SOIL 3 ######################################################### Soil Description 3 = SANDY LOAM Lateral Conductivity 3 =0.014487 Exponential Decrease 3 =1.872572 Depth Threshold 3 = 0.5 # If this value is set to be zero, linear transmissivity decays # applies unless water table is higher than soil depth. If this # value is very large (e.g. > 100), only exponential transimissivity # decay applies just like the older versions. Maximum Infiltration 3 = 7e-2 Capillary Drive 3 = 0.09 Surface Albedo 3 = 0.1 Number of Soil Layers 3 = 3 Porosity 3 = .45 .45 .45 #.51 .51 .51 #.49 .49 .49 Pore Size Distribution 3 = .21 .21 .21 Bubbling Pressure 3 = .15 .15 .15 Field Capacity 3 = .14 .14 .14 Wilting Point 3 = .09 .09 .09 Bulk Density 3 = 1569. 1569. 1569. Vertical Conductivity 3 = 3.0E-1 3.0E-1 3.0E-1 Thermal Conductivity 3 = 7.114 6.923 7.0 Thermal Capacity 3 = 1.4e6 1.4e6 1.4e6 Mannings n 3 = 0.013 ################################## SOIL 4 ######################################################### Soil Description 4 = SILTY LOAM Lateral Conductivity 4 =0.017796 Exponential Decrease 4 =1.145651 Depth Threshold 4 = 0.5 # If this value is set to be zero, linear transmissivity decays # applies unless water table is higher than soil depth. If this # value is very large (e.g. > 100), only exponential transimissivity # decay applies just like the older versions. Maximum Infiltration 4 = 1.68e-5 Capillary Drive 4 = 0.09 Surface Albedo 4 = 0.1 Number of Soil Layers 4 = 3 Porosity 4 = .46 .46 .46 Pore Size Distribution 4 = .26 .26 .26 Bubbling Pressure 4 = .21 .21 .21 Field Capacity 4 = .30 .30 .30 Wilting Point 4 = .12 .12 .12 Bulk Density 4 = 1419. 1419. 1419. Vertical Conductivity 4 = 9.2E-5 9.2E-5 9.2E-5 Thermal Conductivity 4 = 7.114 6.923 7.0 Thermal Capacity 4 = 1.4e6 1.4e6 1.4e6 Mannings n 4 = 0.013 ################################## SOIL 5 ######################################################### Soil Description 5 = SILT Lateral Conductivity 5 = 2.0E-5 Exponential Decrease 5 = 1.0 Depth Threshold 5 = 0.5 # If this value is set to be zero, linear transmissivity decays # applies unless water table is higher than soil depth. If this # value is very large (e.g. > 100), only exponential transimissivity # decay applies just like the older versions. Maximum Infiltration 5 = 3e-6 Capillary Drive 5 = 0.09 Surface Albedo 5 = 0.1 Number of Soil Layers 5 = 3 Porosity 5 = .52 .52 .52 Pore Size Distribution 5 = .33 .33 .33 Bubbling Pressure 5 = .25 .25 .25 Field Capacity 5 = .28 .28 .28 Wilting Point 5 = .08 .08 .08 Bulk Density 5 = 1280. 1280. 1280. Vertical Conductivity 5 = 9.0E-5 9.0E-5 9.0E-5 Thermal Conductivity 5 = 7.114 6.923 7.0 Thermal Capacity 5 = 1.4e6 1.4e6 1.4e6 Mannings n 5 = 0.013 ################################## SOIL 6 ######################################################### Soil Description 6 = LOAM Lateral Conductivity 6 = 8e-5 #1e-4 #6e-5 #3e-5 #3e-6 #3.0e-5 Exponential Decrease 6 = 0.5 #0.3 #0.15 #0.5 #0.11 #1.1 Depth Threshold 6 = 0.5 # If this value is set to be zero, linear transmissivity decays # applies unless water table is higher than soil depth. If this # value is very large (e.g. > 100), only exponential transimissivity # decay applies just like the older versions. Maximum Infiltration 6 = 6e-5 Capillary Drive 6 = 0.09 Surface Albedo 6 = 0.1 Number of Soil Layers 6 = 3 Porosity 6 = .40 .40 .40 #.48 .48 .48 #.43 .43 .43 Pore Size Distribution 6 = .19 .19 .19 Bubbling Pressure 6 = .11 .11 .11 Field Capacity 6 = .20 .20 .20 #.29 .29 .29 Wilting Point 6 = .14 .14 .14 Bulk Density 6 = 1485. 1485. 1485. Vertical Conductivity 6 = 8.0E-4 8.0E-4 8.0E-4 Thermal Conductivity 6 = 7.114 6.923 7.0 Thermal Capacity 6 = 1.4e6 1.4e6 1.4e6 Mannings n 6 = 0.013 ################################## SOIL 7 ######################################################### Soil Description 7 = SANDY CLAY LOAM Lateral Conductivity 7 = 2.0e-5 Exponential Decrease 7 = 1.0 Depth Threshold 7 = 0.5 # If this value is set to be zero, linear transmissivity decays # applies unless water table is higher than soil depth. If this # value is very large (e.g. > 100), only exponential transimissivity # decay applies just like the older versions. Maximum Infiltration 7 = 1e-5 Capillary Drive 7 = 0.09 Surface Albedo 7 = 0.1 Number of Soil Layers 7 = 3 Porosity 7 = .39 .39 .39 Pore Size Distribution 7 = .12 .12 .12 Bubbling Pressure 7 = .29 .29 .29 Field Capacity 7 = .27 .27 .27 Wilting Point 7 = .17 .17 .17 Bulk Density 7 = 1600. 1600. 1600. Vertical Conductivity 7 = 2.0E-5 2.0E-5 2.0E-5 Thermal Conductivity 7 = 7.114 6.923 7.0 Thermal Capacity 7 = 1.4e6 1.4e6 1.4e6 Mannings n 7 = 0.013 ################################## SOIL 8 ######################################################### Soil Description 8 = SILTY CLAY LOAM Lateral Conductivity 8 = 2.0e-5 Exponential Decrease 8 = 1.0 Depth Threshold 8 = 0.5 # If this value is set to be zero, linear transmissivity decays # applies unless water table is higher than soil depth. If this # value is very large (e.g. > 100), only exponential transimissivity # decay applies just like the older versions. Maximum Infiltration 8 = 3e-6 Capillary Drive 8 = 0.09 Surface Albedo 8 = 0.1 Number of Soil Layers 8 = 3 Porosity 8 = .48 .48 .48 Pore Size Distribution 8 = .13 .13 .13 Bubbling Pressure 8 = .34 .34 .34 Field Capacity 8 = .36 .36 .36 Wilting Point 8 = .21 .21 .21 Bulk Density 8 = 1381. 1381. 1381. Vertical Conductivity 8 = 9.0E-6 9.0E-6 9.0E-6 Thermal Conductivity 8 = 7.114 6.923 7.0 Thermal Capacity 8 = 1.4e6 1.4e6 1.4e6 Mannings n 8 = 0.013 ################################## SOIL 9 ######################################################### Soil Description 9 = CLAY LOAM Lateral Conductivity 9 = 2.0e-5 Exponential Decrease 9 = 1.0 Depth Threshold 9 = 0.5 # If this value is set to be zero, linear transmissivity decays # applies unless water table is higher than soil depth. If this # value is very large (e.g. > 100), only exponential transimissivity # decay applies just like the older versions. Maximum Infiltration 9 = 1e-6 Capillary Drive 9 = 0.09 Surface Albedo 9 = 0.1 Number of Soil Layers 9 = 3 Porosity 9 = .46 .46 .46 Pore Size Distribution 9 = .12 .12 .12 Bubbling Pressure 9 = .26 .26 .26 Field Capacity 9 = .31 .31 .31 Wilting Point 9 = .23 .23 .23 Bulk Density 9 = 1600. 1600. 1600. Vertical Conductivity 9 = 9.0E-6 9.0E-6 9.0E-6 Thermal Conductivity 9 = 7.114 6.923 7.0 Thermal Capacity 9 = 1.4e6 1.4e6 1.4e6 Mannings n 9 = 0.013 ################################## SOIL 10 ######################################################### Soil Description 10 = SANDY CLAY Lateral Conductivity 10 = 2.0e-5 Exponential Decrease 10 = 1.0 Depth Threshold 10 = 0.5 # If this value is set to be zero, linear transmissivity decays # applies unless water table is higher than soil depth. If this # value is very large (e.g. > 100), only exponential transimissivity # decay applies just like the older versions. Maximum Infiltration 10 = 1e-5 Capillary Drive 10 = 0.09 Surface Albedo 10 = 0.1 Number of Soil Layers 10 = 3 Porosity 10 = .41 .41 .41 Pore Size Distribution 10 = .08 .08 .08 Bubbling Pressure 10 = .29 .29 .29 Field Capacity 10 = .31 .31 .31 Wilting Point 10 = .23 .23 .23 Bulk Density 10 = 1565. 1565. 1565. Vertical Conductivity 10 = 2.0E-6 2.0E-6 2.0E-6 Thermal Conductivity 10 = 7.114 6.923 7.0 Thermal Capacity 10 = 1.4e6 1.4e6 1.4e6 Mannings n 10 = 0.013 ################################## SOIL 11 ######################################################### Soil Description 11 = SILTY CLAY Lateral Conductivity 11 = 2.0e-5 Exponential Decrease 11 = 1.0 Depth Threshold 11 = 0.5 # If this value is set to be zero, linear transmissivity decays # applies unless water table is higher than soil depth. If this # value is very large (e.g. > 100), only exponential transimissivity # decay applies just like the older versions. Maximum Infiltration 11 = 1e-6 Capillary Drive 11 = 0.09 Surface Albedo 11 = 0.1 Number of Soil Layers 11 = 3 Porosity 11 = .49 .49 .49 Pore Size Distribution 11 = .1 .1 .1 Bubbling Pressure 11 = .34 .34 .34 Field Capacity 11 = .37 .37 .37 Wilting Point 11 = .25 .25 .25 Bulk Density 11 = 1346. 1346. 1346. Vertical Conductivity 11 = 9.0E-6 9.0E-6 9.0E-6 Thermal Conductivity 11 = 7.114 6.923 7.0 Thermal Capacity 11 = 1.4e6 1.4e6 1.4e6 Mannings n 11 = 0.013 ################################## SOIL 12 ######################################################### Soil Description 12 = CLAY Lateral Conductivity 12 = 2.0e-5 Exponential Decrease 12 = 1.0 Depth Threshold 12 = 0.5 # If this value is set to be zero, linear transmissivity decays # applies unless water table is higher than soil depth. If this # value is very large (e.g. > 100), only exponential transimissivity # decay applies just like the older versions. Maximum Infiltration 12 = 1e-6 Capillary Drive 12 = 0.09 Surface Albedo 12 = 0.1 Number of Soil Layers 12 = 3 Porosity 12 = .47 .47 .47 Pore Size Distribution 12 = .08 .08 .08 Bubbling Pressure 12 = .37 .37 .37 Field Capacity 12 = .36 .36 .36 Wilting Point 12 = .27 .27 .27 Bulk Density 12 = 1394. 1394. 1394 Vertical Conductivity 12 = 2.0E-6 2.0E-6 2.0E-6 Thermal Conductivity 12 = 7.114 6.923 7.0 Thermal Capacity 12 = 1.4e6 1.4e6 1.4e6 Mannings n 12 = 0.013 ################################## SOIL 13 ######################################################### Soil Description 13 = BEDROCK Lateral Conductivity 13 = 2.0e-5 Exponential Decrease 13 = 1.0 Depth Threshold 13 = 0.5 # If this value is set to be zero, linear transmissivity decays # applies unless water table is higher than soil depth. If this # value is very large (e.g. > 100), only exponential transimissivity # decay applies just like the older versions. Maximum Infiltration 13 = 1e-6 Capillary Drive 13 = 0.09 Surface Albedo 13 = 0.1 Number of Soil Layers 13 = 3 Porosity 13 = .1 .1 .1 Pore Size Distribution 13 = .08 .08 .08 Bubbling Pressure 13 = .36 .36 .36 Field Capacity 13 = .05 .05 .05 Wilting Point 13 = .04 .04 .04 Bulk Density 13 = 1650. 1650. 1650. Vertical Conductivity 13 = 2.0E-6 2.0E-6 2.0E-6 Thermal Conductivity 13 = 7.114 6.923 7.0 Thermal Capacity 13 = 1.4e6 1.4e6 1.4e6 Mannings n 13 = 0.013 ################################## SOIL 14 ######################################################### Soil Description 14 = WATER Lateral Conductivity 14 = 2.0e-5 Exponential Decrease 14 = 1.0 Depth Threshold 14 = 0.5 # If this value is set to be zero, linear transmissivity decays # applies unless water table is higher than soil depth. If this # value is very large (e.g. > 100), only exponential transimissivity # decay applies just like the older versions. Maximum Infiltration 14 = 1e-6 Capillary Drive 14 = 0.09 Surface Albedo 14 = 0.1 Number of Soil Layers 14 = 3 Porosity 14 = .47 .47 .47 Pore Size Distribution 14 = .08 .08 .08 Bubbling Pressure 14 = .37 .37 .37 Field Capacity 14 = .36 .36 .36 Wilting Point 14 = .27 .27 .27 Bulk Density 14 = 1394. 1394. 1394. Vertical Conductivity 14 = 2.0E-6 2.0E-6 2.0E-6 Thermal Conductivity 14 = 7.114 6.923 7.0 Thermal Capacity 14 = 1.4e6 1.4e6 1.4e6 Mannings n 14 = 0.013 ################################## SOIL 15 ######################################################### Soil Description 15 = ORGANIC Lateral Conductivity 15 = 2.0e-5 Exponential Decrease 15 = 1.0 Depth Threshold 15 = 0.5 # If this value is set to be zero, linear transmissivity decays # applies unless water table is higher than soil depth. If this # value is very large (e.g. > 100), only exponential transimissivity # decay applies just like the older versions. Maximum Infiltration 15 = 1e-6 Capillary Drive 15 = 0.09 Surface Albedo 15 = 0.1 Number of Soil Layers 15 = 3 Porosity 15 = .43 .43 .43 Pore Size Distribution 15 = .19 .19 .19 Bubbling Pressure 15 = .11 .11 .11 Field Capacity 15 = .29 .29 .29 Wilting Point 15 = .14 .14 .14 Bulk Density 15 = 1485. 1485. 1485. Vertical Conductivity 15 = 9.0E-6 9.0E-6 9.0E-6 Thermal Conductivity 15 = 7.114 6.923 7.0 Thermal Capacity 15 = 1.4e6 1.4e6 1.4e6 Mannings n 15 = 0.013 ################################## SOIL 16 ######################################################### Soil Description 16 = OTHER Lateral Conductivity 16 = 2.0e-5 Exponential Decrease 16 = 1.0 Depth Threshold 16 = 0.5 # If this value is set to be zero, linear transmissivity decays # applies unless water table is higher than soil depth. If this # value is very large (e.g. > 100), only exponential transimissivity # decay applies just like the older versions. Maximum Infiltration 16 = 1e-6 Capillary Drive 16 = 0.09 Surface Albedo 16 = 0.1 Number of Soil Layers 16 = 3 Porosity 16 = .39 .39 .39 Pore Size Distribution 16 = .12 .12 .12 Bubbling Pressure 16 = .29 .29 .29 Field Capacity 16 = .27 .27 .27 Wilting Point 16 = .17 .17 .17 Bulk Density 16 = 1600. 1600. 1600. Vertical Conductivity 16 = 9.0E-6 9.0E-6 9.0E-6 Thermal Conductivity 16 = 7.114 6.923 7.0 Thermal Capacity 16 = 1.4e6 1.4e6 1.4e6 Mannings n 16 = 0.013 ############################################################################################################ # VEGETATION INFORMATION SECTION ############################################################################################################ [VEGETATION] Vegetation Map File = /home/disk/tsuga2/jswon11/workdir/2021_09_KingCounty-Phase3/models/snoho3.2//input/veg.bin Number of Vegetation Types = 14 # Number of different vegetation types IMPERVIOUS SURFACE ROUTING FILE = /home/disk/tsuga2/jswon11/workdir/2021_09_KingCounty-Phase3/models/snoho3.2//input/surface.routing.txt ################ VEGETATION 1 ################################################## Vegetation Description 1 = Dense Urban (>75%) Impervious Fraction 1 = 0.75 Detention Fraction 1 = 0.3 Detention Decay 1 = 0.2 Overstory Present 1 = FALSE Understory Present 1 = TRUE Fractional Coverage 1 = Hemi Fract Coverage 1 = Trunk Space 1 = Aerodynamic Attenuation 1 = Radiation Attenuation 1 = Clumping Factor 1 = /* Required only if Canopy Radiation Attenuation == VARIABLE*/ Leaf Angle A 1 = /* Required only if Canopy Radiation Attenuation == VARIABLE*/ Leaf Angle B 1 = /* Required only if Canopy Radiation Attenuation == VARIABLE*/ Scattering Parameter 1 = /* Required only if Canopy Radiation Attenuation == VARIABLE*/ Max Snow Int Capacity 1 = Snow Interception Eff 1 = Mass Release Drip Ratio 1 = Height 1 = 0.2 Overstory Monthly LAI 1 = Understory Monthly LAI 1 = 0.5 0.5 0.5 0.5 0.5 1.5 1.5 1.5 1.5 0.5 0.5 0.5 Maximum Resistance 1 = 3000. Minimum Resistance 1 = 340. Moisture Threshold 1 = 0.33 Vapor Pressure Deficit 1 = 4000 Rpc 1 = .108 Overstory Monthly Alb 1 = Understory Monthly Alb 1 = 0.4 0.4 0.4 0.4 0.4 0.4 0.4 0.4 0.4 0.4 0.4 0.4 Number of Root Zones 1 = 3 Root Zone Depths 1 = 0.10 0.25 0.40 Overstory Root Fraction 1 = 0.20 0.40 0.40 Understory Root Fraction 1 = 0.40 0.60 0.00 Diffuse Radiation Attenuation 1 = 0.215 Monthly Light Extinction 1 = 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 Canopy View Adj Factor 1 = 1.2 Number of Root Zones 1 = 3 Root Zone Depths 1 = 0.10 0.15 0.2 ################ VEGETATION 2 ################################################## Vegetation Description 2 = Light/medium Urban (<75%) Impervious Fraction 2 = 0.25 Detention Fraction 2 = 0.2 Detention Decay 2 = 0.2 Overstory Present 2 = FALSE Understory Present 2 = TRUE Fractional Coverage 2 = Hemi Fract Coverage 2 = Clumping Factor 2 = Leaf Angle A 2 = Leaf Angle B 2 = Scattering Parameter 2 = Trunk Space 2 = Aerodynamic Attenuation 2 = Radiation Attenuation 2 = Max Snow Int Capacity 2 = Snow Interception Eff 2 = Mass Release Drip Ratio 2 = Height 2 = 0.2 Overstory Monthly LAI 2 = Understory Monthly LAI 2 = 1.0 1.0 1.0 1.0 1.0 3.0 3.0 3.0 3.0 1.0 1.0 1.0 Maximum Resistance 2 = 3000. Minimum Resistance 2 = 300 Moisture Threshold 2 = 0.33 Vapor Pressure Deficit 2 = 4000 Rpc 2 = 0.108 Overstory Monthly Alb 2 = Understory Monthly Alb 2 = 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 Number of Root Zones 2 = 3 Root Zone Depths 2 = 0.10 0.25 0.40 Overstory Root Fraction 2 = 0.20 0.40 0.40 Understory Root Fraction 2 = 0.40 0.60 0.00 Diffuse Radiation Attenuation 2 = 0.215 Monthly Light Extinction 2 = 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 Canopy View Adj Factor 2 = 1.2 Number of Root Zones 2 = 3 Root Zone Depths 2 = 0.10 0.15 0.2 ################ VEGETATION 3 ################################################# Vegetation Description 3 = Bareground Impervious Fraction 3 = 0.0 Detention Fraction 3 = 0.0 Detention Decay 3 = 0.0 Overstory Present 3 = FALSE Understory Present 3 = FALSE Fractional Coverage 3 = Hemi Fract Coverage 3 = Clumping Factor 3 = Leaf Angle A 3 = Leaf Angle B 3 = Scattering Parameter 3 = Trunk Space 3 = Aerodynamic Attenuation 3 = Radiation Attenuation 3 = Max Snow Int Capacity 3 = Snow Interception Eff 3 = Mass Release Drip Ratio 3 = Height 3 = Overstory Monthly LAI 3 = Understory Monthly LAI 3 = Maximum Resistance 3 = Minimum Resistance 3 = Moisture Threshold 3 = Vapor Pressure Deficit 3 = Rpc 3 = Overstory Monthly Alb 3 = Understory Monthly Alb 3 = Number of Root Zones 3 = 3 Root Zone Depths 3 = 0.10 0.25 0.40 Overstory Root Fraction 3 = 0.20 0.40 0.40 Understory Root Fraction 3 = 0.40 0.60 0.00 Diffuse Radiation Attenuation 3 = 0.215 Monthly Light Extinction 3 = 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 Canopy View Adj Factor 3 = 1.2 Number of Root Zones 3 = 3 Root Zone Depths 3 = 0.10 0.15 0.2 ################ VEGETATION 4 ################################################## Vegetation Description 4 = Snow/Ice (Bare) ## hoh_config.orig 2=Snow/ICE (Bare) Impervious Fraction 4 = 0.0 Detention Fraction 4 = 0.0 Detention Decay 4 = 0.0 Overstory Present 4 = FALSE Understory Present 4 = FALSE Fractional Coverage 4 = Hemi Fract Coverage 4 = Clumping Factor 4 = Leaf Angle A 4 = Leaf Angle B 4 = Scattering Parameter 4 = Trunk Space 4 = Aerodynamic Attenuation 4 = Radiation Attenuation 4 = Max Snow Int Capacity 4 = Snow Interception Eff 4 = Mass Release Drip Ratio 4 = Height 4 = Overstory Monthly LAI 4 = Understory Monthly LAI 4 = Maximum Resistance 4 = Minimum Resistance 4 = Moisture Threshold 4 = Vapor Pressure Deficit 4 = Rpc 4 = Overstory Monthly Alb 4 = Understory Monthly Alb 4 = Number of Root Zones 4 = 3 Root Zone Depths 4 = 0.10 0.25 0.40 Overstory Root Fraction 4 = Understory Root Fraction 4 = 0.40 0.60 0.00 Diffuse Radiation Attenuation 4 = 0.215 Monthly Light Extinction 4 = 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 Canopy View Adj Factor 4 = 1.2 Number of Root Zones 4 = 3 Root Zone Depths 4 = 0.10 0.15 0.2 ################ VEGETATION 5 ################################################## Vegetation Description 5 = Hay/Pasture (Taken as meadow) #scg_config.orig; same as Developed Open (Taken as Meadow) Impervious Fraction 5 = 0.0 Detention Fraction 5 = 0.0 Detention Decay 5 = 0.0 Overstory Present 5 = FALSE Understory Present 5 = TRUE Fractional Coverage 5 = Hemi Fract Coverage 5 = Clumping Factor 5 = Leaf Angle A 5 = Leaf Angle B 5 = Scattering Parameter 5 = Trunk Space 5 = Aerodynamic Attenuation 5 = Radiation Attenuation 5 = Max Snow Int Capacity 5 = Snow Interception Eff 5 = Mass Release Drip Ratio 5 = Height 5 = 0.5 Overstory Monthly LAI 5 = Understory Monthly LAI 5 = 0.78 0.89 1.0 1.12 1.78 2.67 2.78 2.23 2.0 1.23 1.0 0.89 Maximum Resistance 5 = 600. Minimum Resistance 5 = 200. Moisture Threshold 5 = 0.33 Vapor Pressure Deficit 5 = 4000 Rpc 5 = 0.108 Overstory Monthly Alb 5 = Understory Monthly Alb 5 = 0.36 0.36 0.28 0.22 0.18 0.10 0.10 0.10 0.18 0.28 0.36 0.36 Number of Root Zones 5 = 3 Root Zone Depths 5 = 0.10 0.25 0.40 Overstory Root Fraction 5 = Understory Root Fraction 5 = 0.40 0.60 0.00 Diffuse Radiation Attenuation 5 = 0.215 Monthly Light Extinction 5 = 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 Canopy View Adj Factor 5 = 1.2 Number of Root Zones 5 = 3 Root Zone Depths 5 = 0.10 0.15 0.2 ################ VEGETATION 6 ################################################# Vegetation Description 6 = Grassland/Herbaceous; younger clearcuts #grassland Impervious Fraction 6 = 0.0 Detention Fraction 6 = 0.0 Detention Decay 6 = 0.0 Overstory Present 6 = FALSE Understory Present 6 = TRUE Fractional Coverage 6 = Hemi Fract Coverage 6 = Clumping Factor 6 = Leaf Angle A 6 = Leaf Angle B 6 = Scattering Parameter 6 = Trunk Space 6 = Aerodynamic Attenuation 6 = Radiation Attenuation 6 = Max Snow Int Capacity 6 = Snow Interception Eff 6 = Mass Release Drip Ratio 6 = Height 6 = 015 Overstory Monthly LAI 6 = Understory Monthly LAI 6 = 3.0 3.0 3.0 3.0 3.0 3.0 3.0 3.0 3.0 3.0 3.0 3.0 Maximum Resistance 6 = 600. Minimum Resistance 6 = 200 Moisture Threshold 6 = 0.33 Vapor Pressure Deficit 6 = 4000 Rpc 6 = 10 Overstory Monthly Alb 6 = Understory Monthly Alb 6 = 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 Number of Root Zones 6 = 3 Root Zone Depths 6 = 0.015 0.035 0.15 Overstory Root Fraction 6 = Understory Root Fraction 6 = 0.40 0.60 0.00 Diffuse Radiation Attenuation 6 = 0.215 Monthly Light Extinction 6 = 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 Canopy View Adj Factor 6 = 1.2 Number of Root Zones 6 = 3 Root Zone Depths 6 = 0.10 0.15 0.2 ################ VEGETATION 7 ################################################## Vegetation Description 7 = Mixed/deciduous Forest Impervious Fraction 7 = 0.0 Detention Fraction 7 = 0 Detention Decay 7 = 0 Overstory Present 7 = TRUE Understory Present 7 = TRUE Fractional Coverage 7 = 0.85 Hemi Fract Coverage 7 = 0.85 Clumping Factor 7 = Leaf Angle A 7 = Leaf Angle B 7 = Scattering Parameter 7 = Trunk Space 7 = 0.45 Aerodynamic Attenuation 7 = 2.0 Radiation Attenuation 7 = 0.1875 Max Snow Int Capacity 7 = 0.01225 Snow Interception Eff 7 = 0.6 Mass Release Drip Ratio 7 = 0.4 Height 7 = 25.0 0.5 Overstory Monthly LAI 7 = 3.0 3.0 3.0 3.0 3.0 8.5 8.5 8.5 8.5 3.0 3.0 3.0 Understory Monthly LAI 7 = 2.0 2.0 2.0 2.0 2.0 8.5 8.5 8.5 8.5 2.0 2.0 2.0 Maximum Resistance 7 = 1500. 1000. Minimum Resistance 7 = 666.6 823.4 Moisture Threshold 7 = 0.33 0.13 Vapor Pressure Deficit 7 = 4000 4000 Rpc 7 = .108 .108 Overstory Monthly Alb 7 = 0.27 0.27 0.25 0.25 0.22 0.21 0.21 0.21 0.21 0.22 0.24 0.26 Understory Monthly Alb 7 = 0.175 0.175 0.175 0.175 0.175 0.175 0.175 0.175 0.175 0.175 0.175 0.175 Number of Root Zones 7 = 3 Root Zone Depths 7 = 0.10 0.25 0.40 Overstory Root Fraction 7 = 0.20 0.40 0.40 Understory Root Fraction 7 = 0.40 0.60 0.00 Diffuse Radiation Attenuation 7 = 0.215 Monthly Light Extinction 7 = 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 Canopy View Adj Factor 7 = 1.2 Number of Root Zones 7 = 3 Root Zone Depths 7 = 0.10 0.15 0.2 ################ VEGETATION 8 ################################################# Vegetation Description 8 = Conifer Forest Impervious Fraction 8 = 0.0 Detention Fraction 8 = 0 Detention Decay 8 = 0 Overstory Present 8 = TRUE Understory Present 8 = TRUE Fractional Coverage 8 = 0.9 Hemi Fract Coverage 8 = 0.9 Clumping Factor 8 = Leaf Angle A 8 = Leaf Angle B 8 = Scattering Parameter 8 = Trunk Space 8 = 0.5 Aerodynamic Attenuation 8 = 2.5 Radiation Attenuation 8 = 0.16 Max Snow Int Capacity 8 = 0.03 Snow Interception Eff 8 = 0.6 Mass Release Drip Ratio 8 = 0.4 Height 8 = 43.3 0.5 Overstory Monthly LAI 8 = 12 12 12 12 12 12 12 12 12 12 12 12 Understory Monthly LAI 8 = 3.0 3.0 3.0 3.0 3.0 3.0 3.0 3.0 3.0 3.0 3.0 3.0 Maximum Resistance 8 = 2000 2000 Minimum Resistance 8 = 1333.2 855.54 Moisture Threshold 8 = 0.33 0.13 Vapor Pressure Deficit 8 = 4000 4000 Rpc 8 = .108 .108 Overstory Monthly Alb 8 = 0.14 0.14 0.14 0.13 0.13 0.12 0.11 0.11 0.12 0.13 0.14 0.14 Understory Monthly Alb 8 = 0.19 0.19 0.19 0.19 0.19 0.19 0.19 0.19 0.19 0.19 0.19 0.19 Number of Root Zones 8 = 3 Root Zone Depths 8 = 0.10 0.25 0.40 Overstory Root Fraction 8 = 0.20 0.40 0.40 Understory Root Fraction 8 = 0.40 0.60 0.00 Diffuse Radiation Attenuation 8 = 0.215 Monthly Light Extinction 8 = 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 Canopy View Adj Factor 8 = 1.2 Number of Root Zones 8 = 3 Root Zone Depths 8 = 0.10 0.15 0.2 ################ VEGETATION 9 ################################################## Vegetation Description 9 = Woody Wetlands ## hood_config Impervious Fraction 9 = 0.0 Detention Fraction 9 = 0 Detention Decay 9 = 0 Overstory Present 9 = TRUE Understory Present 9 = TRUE Fractional Coverage 9 = 0.15 Hemi Fract Coverage 9 = Clumping Factor 9 = Leaf Angle A 9 = Leaf Angle B 9 = Scattering Parameter 9 = Trunk Space 9 = 0.3 Aerodynamic Attenuation 9 = 3.5 Radiation Attenuation 9 = 0.1 Max Snow Int Capacity 9 = 0.004 Snow Interception Eff 9 = 0.6 Mass Release Drip Ratio 9 = 0.4 Height 9 = 4.8 0.5 Overstory Monthly LAI 9 = 2.05 2.14 2.34 2.59 3.03 3.54 3.59 3.41 3.06 2.55 2.20 2.05 Understory Monthly LAI 9 = 0.363 0.462 0.600 0.600 0.600 0.600 1.125 1.075 0.638 0.363 0.363 0.363 Maximum Resistance 9 = 1000. 5000. Minimum Resistance 9 = 333.3 250. Moisture Threshold 9 = 0.33 0.13 Vapor Pressure Deficit 9 = 4000 4000 Rpc 9 = .108 .108 Overstory Monthly Alb 9 = 0.2071 0.2071 0.2071 0.2071 0.2071 0.2071 0.2071 0.2071 0.2071 0.2071 0.2071 0.2071 Understory Monthly Alb 9 = 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 Number of Root Zones 9 = 3 Root Zone Depths 9 = 0.10 0.30 0.20 Overstory Root Fraction 9 = 0.31 0.36 0.23 Understory Root Fraction 9 = 0.60 0.40 0.00 Diffuse Radiation Attenuation 9 = 0.215 Monthly Light Extinction 9 = 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 Canopy View Adj Factor 9 = 1.2 Number of Root Zones 9 = 3 Root Zone Depths 9 = 0.10 0.15 0.2 ################ VEGETATION 10 ################################################## Vegetation Description 10 = Emergent Herbaceous Wetlands #NFT #hood_config.orig Impervious Fraction 10 = 0.0 Detention Fraction 10 = 0 Detention Decay 10 = 0 Overstory Present 10 = TRUE Understory Present 10 = TRUE Fractional Coverage 10 = 0.05 Hemi Fract Coverage 10 = Clumping Factor 10 = Leaf Angle A 10 = Leaf Angle B 10 = Scattering Parameter 10 = Trunk Space 10 = 0.5 Aerodynamic Attenuation 10 = 3.5 Radiation Attenuation 10 = 0.1 Max Snow Int Capacity 10 = 0.004 Snow Interception Eff 10 = 0.6 Mass Release Drip Ratio 10 = 0.4 Height 10 = 24.5 0.5 Overstory Monthly LAI 10 = 2.0 2.0 2.0 2.0 2.0 6.0 6.0 6.0 6.0 2.0 2.0 2.0 # values for Wooded grassland Understory Monthly LAI 10 = 0.363 0.462 0.600 0.600 0.600 0.600 1.125 1.075 0.638 0.363 0.363 0.363 Maximum Resistance 10 = 1000. 5000. Minimum Resistance 10 = 333.3 250. Moisture Threshold 10 = 0.33 0.13 Vapor Pressure Deficit 10 = 4000 4000 Rpc 10 = .108 .108 Overstory Monthly Alb 10 = 0.2235 0.2235 0.2235 0.2235 0.2235 0.2235 0.2235 0.2235 0.2235 0.2235 0.2235 0.2235 Understory Monthly Alb 10 = 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 Number of Root Zones 10 = 3 Root Zone Depths 10 = 0.10 0.30 0.01 Overstory Root Fraction 10 = 0.31 0.10 0.10 Understory Root Fraction 10 = 0.60 0.40 0.00 Diffuse Radiation Attenuation 10 = 0.215 Monthly Light Extinction 10 = 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 Canopy View Adj Factor 10 = 1.2 Number of Root Zones 10 = 3 Root Zone Depths 10 = 0.10 0.15 0.2 ################ VEGETATION 11 ################################################# Vegetation Description 11 = Shrub/Scrub; older clearcuts #shrubland (closed) ## hood_config.orig Impervious Fraction 11 = 0.0 Detention Fraction 11 = 0 Detention Decay 11 = 0 Overstory Present 11 = FALSE Understory Present 11 = TRUE Fractional Coverage 11 = Hemi Fract Coverage 11 = Clumping Factor 11 = Leaf Angle A 11 = Leaf Angle B 11 = Scattering Parameter 11 = Trunk Space 11 = Aerodynamic Attenuation 11 = Radiation Attenuation 11 = Max Snow Int Capacity 11 = Snow Interception Eff 11 = Mass Release Drip Ratio 11 = Height 11 = 1.5 Overstory Monthly LAI 11 = Understory Monthly LAI 11 = 2.0 2.0 2.0 2.0 2.0 4.0 4.0 4.0 4.0 2.0 2.0 2.0 Maximum Resistance 11 = 600. Minimum Resistance 11 = 200. Moisture Threshold 11 = 0.33 Vapor Pressure Deficit 11 = 4000 Rpc 11 = 10 Overstory Monthly Alb 11 = Understory Monthly Alb 11 = 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 Number of Root Zones 11 = 3 Root Zone Depths 11 = 0.06 0.13 0.30 Overstory Root Fraction 11 = Understory Root Fraction 11 = 0.40 0.60 0.00 Diffuse Radiation Attenuation 11 = 0.215 Monthly Light Extinction 11 = 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 Canopy View Adj Factor 11 = 1.2 Number of Root Zones 11 = 3 Root Zone Depths 11 = 0.10 0.15 0.2 ################ VEGETATION 12 ################################################## Vegetation Description 12 = Orchard #Cultivated Crops from NLCD -- FH1M # hood_config.orig Impervious Fraction 12 = 0.0 Detention Fraction 12 = 0 Detention Decay 12 = 0 Overstory Present 12 = TRUE Understory Present 12 = TRUE Fractional Coverage 12 = 0.35 Hemi Fract Coverage 12 = Clumping Factor 12 = Leaf Angle A 12 = Leaf Angle B 12 = Scattering Parameter 12 = Trunk Space 12 = 0.3 Aerodynamic Attenuation 12 = 3.5 Radiation Attenuation 12 = 0.15 Max Snow Int Capacity 12 = 0.004 Snow Interception Eff 12 = 0.6 Mass Release Drip Ratio 12 = 0.4 Height 12 = 4.8 0.5 Overstory Monthly LAI 12 = 0.46 0.46 0.76 1.85 3.95 5.94 6.29 5.71 4.42 1.91 0.76 0.46 Understory Monthly LAI 12 = 0.363 0.462 0.600 0.600 0.600 0.600 1.125 1.075 0.638 0.363 0.363 0.363 Maximum Resistance 12 = 1000. 5000. Minimum Resistance 12 = 333.3 250. Moisture Threshold 12 = 0.33 0.13 Vapor Pressure Deficit 12 = 4000 4000 Rpc 12 = .108 .108 Overstory Monthly Alb 12 = 0.23 0.23 0.23 0.23 0.23 0.23 0.23 0.23 0.23 0.23 0.23 0.23 Understory Monthly Alb 12 = 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 Number of Root Zones 12 = 3 Root Zone Depths 12 = 0.10 0.30 0.40 Overstory Root Fraction 12 = 0.31 0.36 0.23 Understory Root Fraction 12 = 0.60 0.40 0.00 Diffuse Radiation Attenuation 12 = 0.215 Monthly Light Extinction 12 = 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 Canopy View Adj Factor 12 = 1.2 Number of Root Zones 12 = 3 Root Zone Depths 12 = 0.10 0.15 0.2 ################ VEGETATION 13 ################################################## Vegetation Description 13 = Water Impervious Fraction 13 = 0.0 Detention Fraction 13 = 0.0 Detention Decay 13 = 0.0 Overstory Present 13 = FALSE Understory Present 13 = FALSE Fractional Coverage 13 = Hemi Fract Coverage 13 = Clumping Factor 13 = Leaf Angle A 13 = Leaf Angle B 13 = Scattering Parameter 13 = Trunk Space 13 = Aerodynamic Attenuation 13 = Radiation Attenuation 13 = Max Snow Int Capacity 13 = Snow Interception Eff 13 = Mass Release Drip Ratio 13 = Height 13 = Overstory Monthly LAI 13 = 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 Understory Monthly LAI 13 = 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 Maximum Resistance 13 = Minimum Resistance 13 = Moisture Threshold 13 = Vapor Pressure Deficit 13 = Rpc 13 = Overstory Monthly Alb 13 = 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Understory Monthly Alb 13 = 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Number of Root Zones 13 = 3 Root Zone Depths 13 = 0.10 0.25 0.40 Overstory Root Fraction 13 = 0.20 0.40 0.40 Diffuse Radiation Attenuation 13 = 0.215 Monthly Light Extinction 13 = 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 Canopy View Adj Factor 13 = 1.2 Number of Root Zones 13 = 3 Root Zone Depths 13 = 0.10 0.15 0.2 ################ VEGETATION 14 ################################################## Vegetation Description 14 = Other ##Water Impervious Fraction 14 = 0.0 Detention Fraction 14 = 0.0 Detention Decay 14 = 0.0 Overstory Present 14 = FALSE Understory Present 14 = FALSE Fractional Coverage 14 = Hemi Fract Coverage 14 = Clumping Factor 13 = Leaf Angle A 13 = Leaf Angle B 13 = Scattering Parameter 13 = Trunk Space 14 = Aerodynamic Attenuation 14 = Radiation Attenuation 14 = Max Snow Int Capacity 14 = Snow Interception Eff 14 = Mass Release Drip Ratio 14 = Height 14 = Overstory Monthly LAI 14 = 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 Understory Monthly LAI 14 = 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 Maximum Resistance 14 = Minimum Resistance 14 = Moisture Threshold 14 = Vapor Pressure Deficit 14 = Rpc 14 = Overstory Monthly Alb 14 = 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Understory Monthly Alb 14 = 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Number of Root Zones 14 = 3 Root Zone Depths 14 = 0.10 0.25 0.40 Overstory Root Fraction 14 = 0.20 0.40 0.40 Understory Root Fraction 14 = 0.00 0.00 0.00 Diffuse Radiation Attenuation 14 = 0.215 Monthly Light Extinction 14 = 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 0.065 Canopy View Adj Factor 14 = 1.2 Number of Root Zones 14 = 3 Root Zone Depths 14 = 0.10 0.15 0.2 ################################################################################ # MODEL OUTPUT SECTION ################################################################################ [OUTPUT] # Information what to output when Output Directory = /home/disk/rocinante/DATA/temp/kcp3/sensitivity/snoho/snoho_1999-2003_ExponentialDecrease17_0.1/ Initial State Directory = /home/disk/tsuga2/jswon11/workdir/2021_09_KingCounty-Phase3/models/snoho3.2//modelstate/ ################ PIXEL DUMPS ################################################### Number of Output Pixels = 3 # For each pixel make a key-entry pair as indicated below, varying the # number for the output pixel (1, .. , Number of Output Pixel) North Coordinate 1 = 5292624 East Coordinate 1 = 597543 Name 1 = Alpine_Meadows North Coordinate 2 = 5282174 East Coordinate 2 = 604351 Name 2 = Skookum_Creek North Coordinate 3 = 5289895 East Coordinate 3 = 642948 Name 3 = Stevens_Pass ################ MODEL STATE ################################################### Number of Model States = 0 # Number of model states to dump # For each model state make a key-entry pair as indicated below, varying the # number for the model state dump (1, .. , Number of Model States) State Date 1 = 9/30/1981-23 State Date 2 = 9/30/1982-23 State Date 3 = 9/30/1983-23 State Date 4 = 9/30/1984-23 State Date 5 = 9/30/1985-23 State Date 6 = 9/30/1986-23 State Date 7 = 9/30/1987-23 State Date 8 = 9/30/1988-23 State Date 9 = 9/30/1989-23 State Date 10 = 9/30/1990-23 State Date 11 = 9/30/1991-23 State Date 12 = 9/30/1992-23 State Date 13 = 9/30/1993-23 State Date 14 = 9/30/1994-23 State Date 15 = 9/30/1995-23 State Date 16 = 9/30/1996-23 State Date 17 = 9/30/1997-23 State Date 18 = 9/30/1998-23 State Date 19 = 9/30/1999-23 State Date 20 = 9/30/2000-23 State Date 21 = 9/30/2001-23 State Date 22 = 9/30/2002-23 State Date 23 = 9/30/2003-23 State Date 24 = 9/30/2004-23 State Date 25 = 9/30/2005-23 State Date 26 = 9/30/2006-23 State Date 27 = 9/30/2007-23 State Date 28 = 9/30/2008-23 State Date 29 = 9/30/2009-23 State Date 30 = 9/30/2010-23 State Date 31 = 9/30/2011-23 State Date 32 = 9/30/2012-23 State Date 33 = 9/30/2013-23 State Date 34 = 9/30/2014-23 State Date 35 = 9/30/2015-23 ################ MODEL MAPS #################################################### Number of Map Variables = 0 # Number of different variables for # which you want to output maps # For each of the variables make a block like the one that follows, varying # the number of the variable (n = 1, .. , Number of Map Variables) Map Variable 1 = 513 # Surface runoff from HOF and Return Flow (VarID.c in sourcecode) Map Layer 1 = 1 Number of Maps 1 = 14 Map Date 1 1 = 1/1/2006-03 Map Date 2 1 = 1/1/2006-06 Map Date 3 1 = 1/1/2006-09 Map Date 4 1 = 1/1/2006-12 Map Date 5 1 = 1/1/2006-15 Map Date 7 1 = 1/1/2006-18 Map Date 6 1 = 1/1/2006-21 Map Date 8 1 = 1/2/2006-03 Map Date 9 1 = 1/2/2006-06 Map Date 10 1 = 1/2/2006-09 Map Date 11 1 = 1/2/2006-12 Map Date 12 1 = 1/2/2006-15 Map Date 13 1 = 1/2/2006-18 Map Date 14 1 = 1/2/2006-21 ######################################### MODEL IMAGES ################################################################# Number of Image Variables = 0 # Number of variables for which you # would like to output images # For each of the variables make a block like the one that follows, varying # the number of the variable (n = 1, .. , Number of Image Variables) Image Variable 1 = 513 # ID of the variable to output Image Layer 1 = 1 # If the variable exists for a number # of layers, specify the layers here with the top layer = 1 Image Start 1 = 1/1/1985-00 # First timestep for which to output an image Image End 1 = 1/1/1986-00 # Last timestep for which to output an image Image Interval 1 = 3 # Time interval between images (hours) Image Upper Limit 1 = 255 # All values in the output equal to or # greater than this limit will be set # to 255 Image Lower Limit 1 = 0 # All values in the output equal to or # smaller than this limit will be set # to 0 ######################################### GRAPHIC IMAGES ################################################################ Number of Graphics = 0 # Number of variables for which you # would like to output images Graphics ID 1 = 15 # ID of the variable to output Graphics ID 1 = 22 Graphics ID 2 = 23 Graphics ID 3 = 24 Graphics ID 4 = 25 Graphics ID 5 = 43 Graphics ID 6 = 44 Graphics ID 7 = 8 Graphics ID 8 = 2 Graphics ID 9 = 50 Graphics ID 10 = 1 # 1 SWE (mm) # 2 Water Table Depth (mm) # 3 Digital Elevation Model (m) # 4 Vegetation Class (index #) # 5 Soil Class (index #) # 6 Soil Depth (mm) # 7 Precipitation at current time step (mm/time step) # 8 Incoming Shortwave (Beam and Diffuse) (W/sqm) # 9 Intercepted Snow (mm) # 10 Snow Surface Temp (C) # 11 Cold Content of snow entire snow pack (kJ) # 12 Snow Melt (as Outflow minus Precip, can be negative) (mm/time step) # 13 Snow Pack Outflow (mm/time step) # 14 Saturated Subsurface Flow (mm/time step) # 15 Overland Flow(mm) # 16 Total Evapotranspiration (soil + all veg layers) # 17 Ground Snow pack vapor flux (mm) # 18 Intercepted snow pack vapor flux (mm) # 19 Soil Moisture (Surface Layer) % of saturation (i.e. porosity) # 20 Soil Moisture (2nd Layer) % of saturation (i.e. porosity) # 21 Soil Moisture (3rd Layer) % of saturation (i.e. porosity) # 22 Accumulated Precip (mm) # 23 air temperature (C) # 24 wind speed (m/s) # 25 relative humidity # 26 Prism Precip Field (mm) # 31 Overstory Transpiration (mm) # 32 Understory Transpirtation (mm) # 33 Soil Evaporation (mm) # 34 Overstory Evaporation (mm) # 35 Understory Evaportation (mm) # 41 Sky View Factor (%) # 42 Shade Map (%) # 43 Direct Beam Shortwave Rad (W/sqm) # 44 Diffuse Beam Shortwave Rad (W/sqm) # 45 Aspect (degrees) # 46 Slope (percent) # 50 Channel Subsurface Interception (mm) # 51 Road Subsurface Interception (mm) # WARNING Use soil mositure layers with caution, to minimize calculations during redraw # DHSVM does not check to make sure that the assigned soil layer exists ######################################################################################################### # END OF INPUT FILE ######################################################################################################### [End] # This is probably not needed, but # just in case (to close the previous # section) ######################################################################################################### Warning: ExponentialDecrease17 not found