# R35 - same config as R34- optimiz - best estimate for litterfall composition and process rates # reduce in-stream DOC and DON decomposition rate by half # difference is atm concentration multiplier # NH4 change from 86 X to 25X # NO3 changes from ################################################################################ # DHSVM INPUT FILE FORMAT ################################################################################ # The following is the control input for a DHSVM model of the Hood Canal Region, # Kitsap, Jefferson, Clallam, and Mason Counties, Washington: # SUBBASIN MODEL: BIGBEEF CREEK, 150m resolution, for version V2.4_DHSVM. # V2.4 is a research product that attemts to include certain water quality # parameters as well as the traditional hydrology. # # This input file is part of the hydrologic modeling being performed as a part # of the Hood Canal Disolved Oxygen Progrqam (HCDOP) by the PRISM project and # the River Systems Group at the University of Washington. # See http://www.hoodcanal.washington.edu/ for more info. # Some values of 'physical' parameters in this file # are different than the traditional DHSVM values. # It is likey that these changes were a part of # the calibration process and are intentional. Questions regarding this file # and its associated input files can be directed to Matthew Wiley. # mwwiley@u.washington.edu -or- Matthew@Wiley.net # ################################################################################ # OPTIONS SECTION ################################################################################ [OPTIONS] # Model Options InputFileVersion = 045 # added "version" so we know that the config file corresponds to the dhsvm.exe Format = BIN # BIN or HDF Extent = BASIN # POINT or BASIN Radiation = INLINE # INLINE or IPW Gradient = WATERTABLE # TOPOGRAPHY or WATERTABLE Sensible Heat Flux = FALSE # TRUE or FALSE Stream Temperature = TRUE Groundwater = FALSE Channel Infiltration = TRUE Fractional Routing = TRUE Chemistry = TRUE Glacier Movement = FALSE Interpolation = VARCRESS # NEAREST or INVDIST or VARCREST # only used if Extent = BASIN Flow Routing = NETWORK # UNIT_HYDROGRAPH or NETWORK # only used if Extent = BASIN MM5 = FALSE # TRUE if the MM5 interface is to # be used, FALSE otherwise. This # option overrides all other met # options QPF = FALSE # can only be set to true if MM5 is true # setting qpf true will override the mm5 # precipitation fields with qpf pseudo stations # defined in the meteorology section # files follow standard met format: but only precip needed Prism = TRUE # interpolate precip based on prism data # Maps for each month will be read from # the same directory as the model state # Maps must be named PrismMap.xx.bin # where xx is month (zeros packed) Shading = TRUE # shading from adjacent terrain Outside = TRUE # if small basin, forces all gauges to be inside domain # PrismMaps must match the DEM dims exactly Rhoverride = TRUE # sets RH = 100% if precip > 0 Precipitation Source = STATION # STATION or RADAR Wind Source = STATION # STATION or MODEL Snotel = FALSE # if true then all station veg data will be set #################CANOPY RADIATION METHOD########### # Method for calculating radiation attenuation # throught the canopy: either FIXED or VARIABLE # Canopy radiation attenuation mode = FIXED ################### DATA PATHS ###################### # If OUTSIDE = TRUE InputFileVersionand PRISM = TRUE, then need to fill out following # # the file is assumed to be called xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx.yyyyyyyy # where xxxxxxxxxx is the name of the met file for that station with the full path # (see below) and yyyyyyy is the extension (.prism works nicely) PRISM DATA EXTENSION = .hcdop150.prism Prism Data Path = ../../models/bigbeef/input/bigbeef.prismmap # If SHADING = TRUE SHADING DATA EXTENSION = bin Shading Data Path = ../../models/bigbeef/input/Shadow Skyview Data Path = ../../models/bigbeef/input/SkyView.bin Initial State Path = ../../models/bigbeef/state/ ################ VARIABLE CRESSMAN INTERPOLATION ############################### # The following two options only need to be filled out if the VARCRESS # interpolation scheme is specified above Cressman Radius = 10 # radius in model pixels Cressman Stations = 4 # maximum number of stations to #interpolate on at each pixel ################ LAPSE RATES ################################################### # The following two options only need to be filled out if the temperature and # precipitation sources are stations Temperature Lapse Rate = MONTHLY # CONSTANT or VARIABLE or MONTHLY Precipitation Lapse Rate = CONSTANT # CONSTANT or VARIABLE ################################################################################ # MODEL AREA SECTION ################################################################################ [AREA] # Model area Coordinate System = UTM # Can be either UTM or USER_DEFINED. # The grid cells must be square Extreme North = 5278115 # Coordinate for northern edge of grid Extreme West = 507930 # Coordinate for western edge of grid Center Latitude = 47.60112670915 # Central parallel of basin # (N positive) Center Longitude = -122.8268836337 # Central meridian of basin # (E positive) Time Zone Meridian = -123.0323765477 # Time zone meridian for area # (E positive) Number of Rows = 85 # Number of rows Number of Columns = 68 # Number of columns Grid spacing = 150 # Grid resolution in m # The following fields only need to be filled out if Extent = POINT Point North = # North coordinate for point model Point East = # East coordinate for point model ################################################################################ # TIME SECTION ################################################################################ [TIME] # Model period Time Step = 3 # Model time step (hours) Model Start = 10/01/1991-00 # Model start time (MM/DD/YYYY-HH) Model End = 06/30/2006-21 # Model end time (MM/DD/YYYY-HH) ################################################################################ # CONSTANTS SECTION ################################################################################ [CONSTANTS] # Model constants Ground Roughness = 0.02 # Roughness of soil surface (m) Snow Roughness = 0.01 # Roughness of snow surface (m) Rain Threshold = -1.5 # Minimum temperature at which rain # occurs (C) Snow Threshold = 1.0 # Maximum temperature at which snow # occurs (C) Snow Water Capacity = 0.008 # Snow liquid water holding capacity # (fraction) Reference Height = 50.0 # 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 Glacier Creep Activation Energy = 60 # in kJ/mol, Weertman, 1973. Range is 42-84, average 60. Glen Constant = 3 # Affects motion of glaciers. Weertman, 1973. Range 1.5 to 4.2, average 3 MAXIMUM GLACIER FLUX FRACTION = 1.0 ### If Stream Temperature is TRUE, the following four fields are required Depth Ratio = 10.0 # Ratio of actual depth to the hydraulic depth Wind Attenuation Factor = 10.0 Rad Attenuation Factor = 1.0 Minimum Segment Order = 2 # Integer, the minimum segment order for # which a radiative flux will be calculated # Segments below minimum are at wet bulb temp ################ LAPSE RATES ################################################### # The following two constants only need to be filled out if the lapse rates are # CONSTANT or MONTHLY # Temperature lapse rate (C/m), if set to MONTHLY enter 12 values, if CONSTANT one value, if VARIABLE this is ignored Temperature Lapse Rate = -0.0065 -0.0085 -0.0085 -0.0070 -0.0060 -0.0060 -0.0060 -0.0060 -0.0060 -0.0065 -0.0065 -0.0060 # Precipitation lapse rate (m/m) can only be CONSTANT, MONTHLY or VARIABLE, if PRISM==TRUE this is ignored Precipitation Lapse Rate = 0.0018 ###########SOIL CHEMISTRY########################################################## [CHEMISTRY] # If Soil Chemisty is TRUE, the following fields are required, the first 19 are # single values, the rest require 12 monthly values (Jan-Dec) Metabolic DOC Decomposition Rate = 0.00625 #0.00625 # default 0.00625 from REMM Table 6.4. Base value Structural DOC Decomposition Rate = 0.00168 #0.00168 # default 0.00168 REMM Table 6.4 Decomposition Rate Constant of DOC = 0.001 #Need tuning - originally use 0.01 Maximum DOC Sorption coefficient = 0.0 # 0.5 C:N for Sorbed DOM = 30.4 #Value from Table 1 in Kaiser & Zech (2000). C:N for Microbial Decomp of DOM = 24 #24 Assumed C/N ratio of microbes releasing mineralized nitrogen = 8 and the efficiency for mineralizing nitrogen is 1/3. Background Cations = 1e-4 # Background level of non H+ cations, (moles/L) Nitrification Temperature Factor = 0.0 Free Air CO2 Diffusion Coefficient = 0.0000139 # Default 1.39e-5, Difused coefficient of CO2 in free air at 273.16 K and 101.3 kPa Free Air O2 Diffusion Coefficient = 0.0637 # units m^2/hr Default Campbell(1977) used 6.37^10-2 m2/hr; Mass Transfer Coefficient of Dissolved CO2 = 0.00000578 # Default 5.78e-6, Disolved Mass transfer coefficient of carbon dioxide gas through liquid water Mass Transfer Coefficient of Dissolved O2 = 0.0001 # Default 10e-5, from Neale et al., 2000, coudl vary from 10e-3 to 10e-7. Denitrification Saturation Threshold = 0.60 # Persent Saturation above whcih dentrification can begin to occur (default 0.62) Nitrate Reduction Half Saturation Fraction = 0.5 # Half-saturation fraction for nitrate reduction Oxygen Concentration Reaction Coefficient = 0.6 # L/mg O2, from QUAL2E Suspended DOC Mineralization Constant = 0.1 # originally 0.23 for org C (not necessary DOC) QUAL2K rate per/day Suspended DON Hydrolysis Rate = 0.08 # originally use 0.20 The range of values for org N is 0.2-0.4 /day (SWAT, 2000). Default 0.25 Suspended Ammonium Decomposition Rate = 0.15 # unit day-1 at 20C, from Chapra, 1997 Suspended Nitrification Rate = 0.75 # unit day-1 at 20C, from Chapra, 1997 #Atmospheric CO2 Concentration (parts per million by volume (ppmv) Atmospheric CO2 Concentration = 376.0 378.0 380.0 382.0 384.0 385.0 384.0 382.0 380.0 378.0 376.0 375.0 # Atmos_XXX_conc in mg/L by weight of species (not as N or as C except DOC and DON), Reference: NADP wet deposition for NH4, NO3, Solinger 2001 for DOC,DON. Atmospheric DOC concentration = 1.423 1.808 2.177 2.177 2.825 2.561 2.509 2.649 2.972 1.534 1.284 1.280 Atmospheric DON concentration = 0.135 0.172 0.207 0.207 0.269 0.244 0.239 0.252 0.283 0.146 0.122 0.122 Atmospheric NH4 concentration = 0.023 0.02 0.026 0.026 0.032 0.022 0.029 0.034 0.033 0.018 0.016 0.017 Atmospheric NO3 concentration = 0.363 0.461 0.566 0.566 0.721 0.654 0.640 0.676 0.759 0.391 0.328 0.327 Atmospheric NO2 concentration = 0.030 0.0253 0.0329 0.0329 0.0414 0.0276 0.0373 0.0434 0.0424 0.023 0.0204 0.0219 ################################################################################ # TERRAIN INFORMATION SECTION ################################################################################ [TERRAIN] # Terrain information DEM File = ../../models/bigbeef/input/bigbeef.elev.bin Basin Mask File = ../../models/bigbeef/input/bigbeef.mask.bin ################################################################################ # ROUTING SECTION ################################################################################ [ROUTING] # Routing information. This section is # only relevant if the Extent = BASIN # The following three fields are only used if Flow Routing = NETWORK Stream Map File = ../../models/bigbeef/input/bigbeef.stream-map.dat Stream Network File = ../../models/bigbeef/input/bigbeef.stream-net.dat Stream Class File = ../../models/bigbeef/input/bigbeef.stream-class.dat #Road Map File = ../../models/bigbeef/input/bigbeef.road-map.dat #Road Network File = ../../models/bigbeef/input/bigbeef.road-net.dat #Road Class File = ../../models/bigbeef/input/bigbeef.road-class.dat ################################################################################ # METEOROLOGY SECTION ################################################################################ [METEOROLOGY] # Meteorological stations Number of Stations = 4 Station Name 1 = BREMERTON North Coordinate 1 = 5267969.000000 East Coordinate 1 = 523844.937500 Elevation 1 = 34.000000 Station File 1 = ../../met/hoodcanal/met.historic.200606.BREMERTON Station Name 2 = CUSHMAN_POWER North Coordinate 2 = 5245706.500000 East Coordinate 2 = 487389.906250 Elevation 2 = 6.000000 Station File 2 = ../../met/hoodcanal/met.historic.200606.CUSHMAN_POWER Station Name 3 = QUILCENE North Coordinate 3 = 5295708.500000 East Coordinate 3 = 506212.968750 Elevation 3 = 38.000000 Station File 3 = ../../met/hoodcanal/met.historic.200606.QUILCENE Station Name 4 = WAUNA North Coordinate 4 = 5245736.500000 East Coordinate 4 = 522652.093750 Elevation 4 = 5.000000 Station File 4 = ../../met/hoodcanal/met.historic.200606.WAUNA ################################################################################ # POINT SOURCE OF WATER AND WATERBORNE POLLUTANTS SECTION ################################################################################ [POINTSOURCE] # Location of point source pixels Number of Point Sources = 0 Source Name 1 = TRACE_SOIL # Descriptor for the source North Coordinate 1 = 5270108 # North coordinate East Coordinate 1 = 512579 # East coordinate Depth 1 = 0.75 # Depth of source from surface(m) (Use zero for surface application) Source File 1 = ../../models/bigbeef/BIG_BEEF_TRACE.dat ############################################################################# [NONPOINTSOURCE] Number of NPS categories = 1 Non-Point Source Category File = ../../models/bigbeef/input/bigbeef.mask.bin Population Data Path = ../../models/bigbeef/input/bigbeef.population NPS Category 1 = Gravity Drain AVERAGE DEPTH 1 = 0.3 Source Description File 1 = ../../models/hcdop/npsfiles/hiload.txt #Source Description File 1 = ../../models/hcdop/npsfiles/EPA_source.dat #Source Description File 1 = ../../models/hcdop/npsfiles/failed_source.dat ################################################################################ # SOILS INFORMATION SECTION ################################################################################ [SOILS] # Soil information Soil Map File = ../../models/bigbeef/input/bigbeef.soil.bin Soil Depth File = ../../models/bigbeef/input/bigbeef.soild.bin Soil Depth Multiplier = 1.0 Number of Soil Types = 21 ################ SOIL 1 ######################################################### Soil Description 1 = SAND Lateral Conductivity 1 = 0.01 Exponential Decrease 1 = 3.0 Maximum Infiltration 1 = 2.0e-4 Surface Albedo 1 = 0.1 Temperature Exponent 1 = 10 Thermal Inertia 1 = 0.4 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 = 0.01 0.01 0.01 Thermal Conductivity 1 = 7.114 6.923 6.923 Thermal Capacity 1 = 1.4e6 1.4e6 1.4e6 Fraction Organic Carbon 1 = 0.5 0.5 0.5 Carbon:Nitrogen Ratio 1 = 13 13 13 Dispersivity 1 = 15 15 15 Internal Surface Area 1 = 0.001 0.001 0.001 Fraction Clay 1 = 0.05 0.05 0.05 Fraction Aluminum Oxide 1 = 0.01 0.01 0.01 Ammonium Adsorption Coefficients 1 = 0.3 0.0 Weathering Rate 1 = 1e-7 Hamaker Constant 1 = -1e-7 ################ SOIL 2 ######################################################### Soil Description 2 = LOAMY SAND Lateral Conductivity 2 = 0.01 Exponential Decrease 2 = 3.0 Maximum Infiltration 2 = 6.0e-5 Surface Albedo 2 = 0.1 Temperature Exponent 2 = 8 Thermal Inertia 2 = 0.6 Number of Soil Layers 2 = 3 Porosity 2 = .42 .42 .42 Pore Size Distribution 2 = .35 .35 .45 Bubbling Pressure 2 = .09 .09 .09 Field Capacity 2 = .15 .15 .15 Wilting Point 2 = .06 .06 .06 Bulk Density 2 = 1520. 1520. 1520. Vertical Conductivity 2 = 0.01 0.01 0.01 Thermal Conductivity 2 = 7.114 6.923 7.0 Thermal Capacity 2 = 1.4e6 1.4e6 1.4e6 FRACTION ORGANIC CARBON 2 = 0.5 0.5 0.5 CARBON:NITROGEN RATIO 2 = 13 13 13 DISPERSIVITY 2 = 15 15 15 INTERNAL SURFACE AREA 2 = 0.001 0.001 0.001 FRACTION CLAY 2 = 0.15 0.15 0.15 FRACTION ALUMINUM OXIDE 2 = 0.01 0.01 0.01 Weathering Rate 2 = 1e-7 Ammonium Adsorption Coefficients 2 = 0.3 0.0 Hamaker Constant 2 = -1e-7 ################ SOIL 3 ######################################################### Soil Description 3 = SANDY LOAM Lateral Conductivity 3 = 0.01 Exponential Decrease 3 = 3.0 Maximum Infiltration 3 = 2e-7 #c:5e-7 b:3e-5 Surface Albedo 3 = 0.1 Temperature Exponent 3 = 3 Thermal Inertia 3 = 0.8 Number of Soil Layers 3 = 3 Porosity 3 = .6 .6 .6 Pore Size Distribution 3 = .5 .6 .7 Bubbling Pressure 3 = .15 .15 .15 Field Capacity 3 = .21 .21 .21 Wilting Point 3 = .09 .09 .09 Bulk Density 3 = 1569. 1569. 1569. Vertical Conductivity 3 = 0.01 0.01 0.01 Thermal Conductivity 3 = 7.114 6.923 7.0 Thermal Capacity 3 = 1.4e6 1.4e6 1.4e6 FRACTION ORGANIC CARBON 3 = 0.5 0.5 0.5 CARBON:NITROGEN RATIO 3 = 13 13 13 DISPERSIVITY 3 = 15 15 15 INTERNAL SURFACE AREA 3 = 0.0005 0.0005 0.0005 FRACTION CLAY 3 = 0.3 0.3 0.3 FRACTION ALUMINUM OXIDE 3 = 0.01 0.01 0.01 Weathering Rate 3 = 1e-7 Ammonium Adsorption Coefficients 3 = 0.3 0.0 Hamaker Constant 3 = -1e-7 ################ SOIL 4 ######################################################### Soil Description 4 = SILTY LOAM Lateral Conductivity 4 = 0.01 Exponential Decrease 4 = 3.0 Maximum Infiltration 4 = 1e-5 #3e-5 Surface Albedo 4 = 0.1 Temperature Exponent 4 = 3 Thermal Inertia 4 = .8 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 = .32 .32 .32 Wilting Point 4 = .12 .12 .12 Bulk Density 4 = 1419. 1419. 1419. Vertical Conductivity 4 = 0.01 0.01 0.01 Thermal Conductivity 4 = 7.114 6.923 7.0 Thermal Capacity 4 = 1.4e6 1.4e6 1.4e6 FRACTION ORGANIC CARBON 4 = 0.5 0.5 0.5 CARBON:NITROGEN RATIO 4 = 13 13 13 DISPERSIVITY 4 = 15 15 15 INTERNAL SURFACE AREA 4 = 0.001 0.001 0.001 FRACTION CLAY 4 = 0.35 0.35 0.40 FRACTION ALUMINUM OXIDE 4 = 0.01 0.01 0.01 Weathering Rate 4 = 1e-7 Ammonium Adsorption Coefficients 4 = 0.3 0.0 Hamaker Constant 4 = -1e-7 ################ SOIL 5 ######################################################### Soil Description 5 = SILT Lateral Conductivity 5 = 0.01 Exponential Decrease 5 = 3.0 Maximum Infiltration 5 = 3e-5 Surface Albedo 5 = 0.1 Temperature Exponent 5 = 3 Thermal Inertia 5 = 0.8 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 = 0.01 0.01 0.01 Thermal Conductivity 5 = 7.114 6.923 7.0 Thermal Capacity 5 = 1.4e6 1.4e6 1.4e6 FRACTION ORGANIC CARBON 5 = 0.5 0.5 0.5 CARBON:NITROGEN RATIO 5 = 13 13 13 DISPERSIVITY 5 = 15 15 15 INTERNAL SURFACE AREA 5 = 0.0012 0.0012 0.0012 FRACTION CLAY 5 = 0.40 0.40 0.45 FRACTION ALUMINUM OXIDE 5 = 0.01 0.01 0.01 Weathering Rate 5 = 1e-7 Ammonium Adsorption Coefficients 5 = 0.3 0.0 Hamaker Constant 5 = -1e-7 ################ SOIL 6 ######################################################### Soil Description 6 = LOAM Lateral Conductivity 6 = 0.05 #0.01 Exponential Decrease 6 = 3.0 Maximum Infiltration 6 = 1e-5 Surface Albedo 6 = 0.1 Temperature Exponent 6 = 3 Thermal Inertia 6 = 0.8 Number of Soil Layers 6 = 3 Porosity 6 = .43 .43 .43 Pore Size Distribution 6 = .19 .19 .19 Bubbling Pressure 6 = .11 .11 .11 Field Capacity 6 = .29 .29 .29 Wilting Point 6 = .14 .14 .14 Bulk Density 6 = 1485. 1485. 1485. Vertical Conductivity 6 = 0.01 0.01 0.01 Thermal Conductivity 6 = 7.114 6.923 7.0 Thermal Capacity 6 = 1.4e6 1.4e6 1.4e6 FRACTION ORGANIC CARBON 6 = 0.5 0.5 0.5 CARBON:NITROGEN RATIO 6 = 13 13 13 DISPERSIVITY 6 = 15 15 15 INTERNAL SURFACE AREA 6 = 0.0015 0.0015 0.001 FRACTION CLAY 6 = 0.30 0.30 0.30 FRACTION ALUMINUM OXIDE 6 = 0.01 0.01 0.01 Weathering Rate 6 = 1e-7 Ammonium Adsorption Coefficients 6 = 0.3 0.0 Hamaker Constant 6 = -1e-7 ################ SOIL 7 ######################################################### Soil Description 7 = SANDY CLAY LOAM Lateral Conductivity 7 = 0.01 Exponential Decrease 7 = 3.0 Maximum Infiltration 7 = 1e-5 Surface Albedo 7 = 0.1 Temperature Exponent 7 = 3 Thermal Inertia 7 = 0.8 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 = 0.01 0.01 0.01 Thermal Conductivity 7 = 7.114 6.923 7.0 Thermal Capacity 7 = 1.4e6 1.4e6 1.4e6 FRACTION ORGANIC CARBON 7 = 0.5 0.5 0.5 CARBON:NITROGEN RATIO 7 = 13 13 13 DISPERSIVITY 7 = 15 15 15 INTERNAL SURFACE AREA 7 = 0.001 0.001 0.001 FRACTION CLAY 7 = 0.45 0.45 0.45 FRACTION ALUMINUM OXIDE 7 = 0.1 0.1 0.1 Weathering Rate 7 = 1e-7 Ammonium Adsorption Coefficients 7 = 0.3 0.0 Hamaker Constant 7 = -1e-7 ################ SOIL 8 ######################################################### Soil Description 8 = SILTY CLAY LOAM Lateral Conductivity 8 = 0.01 Exponential Decrease 8 = 3.0 Maximum Infiltration 8 = 3e-5 Surface Albedo 8 = 0.1 Temperature Exponent 8 = 3 Thermal Inertia 8 = 0.8 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 = 0.01 0.01 0.01 Thermal Conductivity 8 = 7.114 6.923 7.0 Thermal Capacity 8 = 1.4e6 1.4e6 1.4e6 FRACTION ORGANIC CARBON 8 = 0.5 0.5 0.5 CARBON:NITROGEN RATIO 8 = 13 13 13 DISPERSIVITY 8 = 15 15 15 INTERNAL SURFACE AREA 8 = 0.001 0.001 0.001 FRACTION CLAY 8 = 0.5 0.5 0.5 FRACTION ALUMINUM OXIDE 8 = 0.1 0.1 0.1 Weathering Rate 8 = 1e-7 Ammonium Adsorption Coefficients 8 = 0.3 0.0 Hamaker Constant 8 = -1e-7 ################ SOIL 9 ######################################################### Soil Description 9 = CLAY LOAM Lateral Conductivity 9 = 0.01 Exponential Decrease 9 = 3.0 Maximum Infiltration 9 = 1e-5 Surface Albedo 9 = 0.1 Temperature Exponent 9 = 3 Thermal Inertia 9 = 0.8 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 = 0.01 0.01 0.01 Thermal Conductivity 9 = 7.114 6.923 7.0 Thermal Capacity 9 = 1.4e6 1.4e6 1.4e6 FRACTION ORGANIC CARBON 9 = 0.5 0.5 0.55 CARBON:NITROGEN RATIO 9 = 13 13 13 DISPERSIVITY 9 = 15 15 15 INTERNAL SURFACE AREA 9 = 0.001 0.001 0.001 FRACTION CLAY 9 = .65 .65 .65 FRACTION ALUMINUM OXIDE 9 = .1 .1 .1 Weathering Rate 9 = 1e-7 Ammonium Adsorption Coefficients 9 = 0.3 0.0 Hamaker Constant 9 = -1e-7 ################ SOIL 10 ######################################################### Soil Description 10 = SANDY CLAY Lateral Conductivity 10 = 0.01 Exponential Decrease 10 = 3.0 Maximum Infiltration 10 = 1e-5 Surface Albedo 10 = 0.1 Temperature Exponent 10 = 3 Thermal Inertia 10 = 0.8 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 = 0.01 0.01 0.01 Thermal Conductivity 10 = 7.114 6.923 7.0 Thermal Capacity 10 = 1.4e6 1.4e6 1.4e6 FRACTION ORGANIC CARBON 10 = 0.5 0.5 0.5 CARBON:NITROGEN RATIO 10 = 13 13 13 DISPERSIVITY 10 = 15 15 15 INTERNAL SURFACE AREA 10 = 0.001 0.001 0.001 FRACTION CLAY 10 = 0.75 0.75 0.75 FRACTION ALUMINUM OXIDE 10 = 0.1 0.1 0.1 Weathering Rate 10 = 1e-7 Ammonium Adsorption Coefficients 10 = 0.3 0.0 Hamaker Constant 10 = -1e-7 ################ SOIL 11 ######################################################### Soil Description 11 = SILTY CLAY Lateral Conductivity 11 = 0.01 Exponential Decrease 11 = 3.0 Maximum Infiltration 11 = 1e-5 Surface Albedo 11 = 0.1 Temperature Exponent 11 = 3 Thermal Inertia 11 = 0.8 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 = 0.01 0.01 0.01 Thermal Conductivity 11 = 7.114 6.923 7.0 Thermal Capacity 11 = 1.4e6 1.4e6 1.4e6 FRACTION ORGANIC CARBON 11 = 0.5 0.5 0.5 CARBON:NITROGEN RATIO 11 = 13 13 13 DISPERSIVITY 11 = 15 15 15 INTERNAL SURFACE AREA 11 = 0.001 0.001 0.001 FRACTION CLAY 11 = 0.75 0.75 0.75 FRACTION ALUMINUM OXIDE 11 = 0.2 0.2 0.2 Weathering Rate 11 = 1e-7 Ammonium Adsorption Coefficients 11 = 0.3 0.0 Hamaker Constant 11 = -1e-7 ################ SOIL 12 ######################################################### Soil Description 12 = CLAY Lateral Conductivity 12 = 0.01 Exponential Decrease 12 = 3.0 Maximum Infiltration 12 = 1e-5 Surface Albedo 12 = 0.1 Temperature Exponent 12 = 3 Thermal Inertia 12 = 0.8 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 = 0.01 0.01 0.01 Thermal Conductivity 12 = 7.114 6.923 7.0 Thermal Capacity 12 = 1.4e6 1.4e6 1.4e6 FRACTION ORGANIC CARBON 12 = 0.5 0.5 0.5 CARBON:NITROGEN RATIO 12 = 13 13 13 DISPERSIVITY 12 = 15 15 15 INTERNAL SURFACE AREA 12 = 0.001 0.001 0.001 FRACTION CLAY 12 = .95 0.95 0.95 FRACTION ALUMINUM OXIDE 12 = 0.1 0.1 0.1 Weathering Rate 12 = 1e-7 Ammonium Adsorption Coefficients 12 = 0.3 0.0 Hamaker Constant 12 = -1e-7 ################ SOIL 13 ######################################################### Soil Description 13 = ORGANIC (as loam) Lateral Conductivity 13 = 0.01 Exponential Decrease 13 = 3.0 Maximum Infiltration 13 = 1e-5 Surface Albedo 13 = 0.1 Temperature Exponent 13 = 3 Thermal Inertia 13 = 0.8 Number of Soil Layers 13 = 3 Porosity 13 = .43 .43 .43 Pore Size Distribution 13 = .19 .19 .19 Bubbling Pressure 13 = .11 .11 .11 Field Capacity 13 = .29 .29 .29 Wilting Point 13 = .14 .14 .14 Bulk Density 13 = 1485. 1485. 1485. Vertical Conductivity 13 = 0.01 0.01 0.01 Thermal Conductivity 13 = 7.114 6.923 7.0 Thermal Capacity 13 = 1.4e6 1.4e6 1.4e6 FRACTION ORGANIC CARBON 13 = 0.5 0.5 0.5 CARBON:NITROGEN RATIO 13 = 13 13 13 DISPERSIVITY 13 = 15 15 15 INTERNAL SURFACE AREA 13 = 0.001 0.001 0.001 FRACTION CLAY 13 = 0.3 0.3 0.3 FRACTION ALUMINUM OXIDE 13 = 0.01 0.01 0.01 Weathering Rate 13 = 1e-7 Ammonium Adsorption Coefficients 13 = 0.3 0.0 Hamaker Constant 13 = -1e-7 ################ SOIL 14 ######################################################### Soil Description 14 = WATER (as clay) Lateral Conductivity 14 = 0.05 Exponential Decrease 14 = 3.0 Maximum Infiltration 14 = 1e-2 Surface Albedo 14 = 0.1 Temperature Exponent 14 = 3 Thermal Inertia 14 = 0.8 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 = 0.01 0.01 0.01 Thermal Conductivity 14 = 7.114 6.923 7.0 Thermal Capacity 14 = 1.4e6 1.4e6 1.4e6 FRACTION ORGANIC CARBON 14 = 0.5 0.5 0.5 CARBON:NITROGEN RATIO 14 = 13 13 13 DISPERSIVITY 14 = 15 15 15 INTERNAL SURFACE AREA 14 = 0.0 0.0 0.0 FRACTION CLAY 14 = 0.0 0.0 0.0 FRACTION ALUMINUM OXIDE 14 = 0.0 0 0 Weathering Rate 14 = 1e-7 Ammonium Adsorption Coefficients 14 = 0.3 0.0 Hamaker Constant 14 = -1e-7 ################ SOIL 15 ######################################################### Soil Description 15 = BEDROCK Lateral Conductivity 15 = 0.01 Exponential Decrease 15 = 3.0 Maximum Infiltration 15 = 1e-5 Surface Albedo 15 = 0.1 Temperature Exponent 15 = 1 Thermal Inertia 15 = 0.9 Number of Soil Layers 15 = 3 Porosity 15 = .1 .1 .1 Pore Size Distribution 15 = .08 .08 .08 Bubbling Pressure 15 = .36 .36 .36 Field Capacity 15 = .05 .05 .05 Wilting Point 15 = .04 .04 .04 Bulk Density 15 = 1650. 1650. 1650.0 Vertical Conductivity 15 = 0.01 0.01 0.01 Thermal Conductivity 15 = 7.114 6.923 7.0 Thermal Capacity 15 = 1.4e6 1.4e6 1.4e6 FRACTION ORGANIC CARBON 15 = 0.5 .5 .5 CARBON:NITROGEN RATIO 15 = 13 13 13 DISPERSIVITY 15 = 15 15 15 INTERNAL SURFACE AREA 15 = 0.0 0 0 FRACTION CLAY 15 = 0.2 0.2 0.2 FRACTION ALUMINUM OXIDE 15 = 0.0 0 0 Weathering Rate 15 = 1e-7 Ammonium Adsorption Coefficients 15 = 0.3 0.0 Hamaker Constant 15 = -1e-7 ################ SOIL 16 ######################################################### Soil Description 16 = OTHER (as SCL) Lateral Conductivity 16 = 0.01 Exponential Decrease 16 = 3.0 Maximum Infiltration 16 = 1e-5 Surface Albedo 16 = 0.1 Temperature Exponent 16 = 3 Thermal Inertia 16 = 0.8 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 = 0.01 0.01 0.01 Thermal Conductivity 16 = 7.114 6.923 7.0 Thermal Capacity 16 = 1.4e6 1.4e6 1.4e6 FRACTION ORGANIC CARBON 16 = 0.5 .5 .5 CARBON:NITROGEN RATIO 16 = 13 13 13 DISPERSIVITY 16 = 15 15 15 INTERNAL SURFACE AREA 16 = 0.001 0.001 0.001 FRACTION CLAY 16 = 0.25 .25 .25 FRACTION ALUMINUM OXIDE 16 = 0.01 .01 .01 Weathering Rate 16 = 1e-7 Ammonium Adsorption Coefficients 16 = 0.3 0.0 Hamaker Constant 16 = -1e-7 ################ SOIL 17 ######################################################### Soil Description 17 = MUCK Lateral Conductivity 17 = 0.01 Exponential Decrease 17 = 3.0 Maximum Infiltration 17 = 1e-5 Surface Albedo 17 = 0.23 Temperature Exponent 17 = 6 Thermal Inertia 17 = 0.5 Number of Soil Layers 17 = 3 Porosity 17 = .47 .47 .47 Pore Size Distribution 17 = .08 .08 .08 Bubbling Pressure 17 = .37 .37 .37 Field Capacity 17 = .36 .36 .36 Wilting Point 17 = .27 .27 .27 Bulk Density 17 = 1600. 1600. 1600 Vertical Conductivity 17 = 0.05 0.05 0.05 Thermal Conductivity 17 = 7.114 6.923 7.0 Thermal Capacity 17 = 1.4e6 1.4e6 1.4e6 FRACTION ORGANIC CARBON 17 = 0.5 .5 .5 CARBON:NITROGEN RATIO 17 = 13 13 13 DISPERSIVITY 17 = 15 15 15 INTERNAL SURFACE AREA 17 = 0.001 0.001 0.001 FRACTION CLAY 17 = 0.5 0.5 0.5 FRACTION ALUMINUM OXIDE 17 = 0.1 .1 .1 Weathering Rate 17 = 1e-7 Ammonium Adsorption Coefficients 17 = 0.3 0.0 Hamaker Constant 17 = -1e-7 ################ SOIL 18 ######################################################### Soil Description 18 = TALUS Lateral Conductivity 18 = 0.05 Exponential Decrease 18 = 3.0 Maximum Infiltration 18 = 2.0e-4 Surface Albedo 18 = 0.1 Temperature Exponent 18 = 3 Thermal Inertia 18 = 0.4 Number of Soil Layers 18 = 3 Porosity 18 = .60 .60 .60 Pore Size Distribution 18 = .45 .45 .45 Bubbling Pressure 18 = .07 .07 .07 Field Capacity 18 = .08 .08 .08 Wilting Point 18 = .03 .03 .03 Bulk Density 18 = 1492. 1492. 1492. Vertical Conductivity 18 = 0.01 0.01 0.01 Thermal Conductivity 18 = 7.114 6.923 6.923 Thermal Capacity 18 = 1.4e6 1.4e6 1.4e6 FRACTION ORGANIC CARBON 18 = 0.5 .5 .5 CARBON:NITROGEN RATIO 18 = 13 13 13 DISPERSIVITY 18 = 15 15 15 INTERNAL SURFACE AREA 18 = 0.0001 .0001 .0001 FRACTION CLAY 18 = 0.05 0.05 0.05 FRACTION ALUMINUM OXIDE 18 = 0.01 0.01 0.01 Weathering Rate 18 = 1e-7 Ammonium Adsorption Coefficients 18 = 0.3 0.0 Hamaker Constant 18 = -1e-7 ################ SOIL 19 ######################################################### # THIS IS A SPECIAL CATEGORY FOR USE IN THE HOOD CANAL MODEL # IT IS FOR TRACKING DIFFUSE SEEPAGE TO THE CANAL Soil Description 19 = BEACH Lateral Conductivity 19 = 0.01 Exponential Decrease 19 = 3.0 Maximum Infiltration 19 = 1.0e-14 # Very impermeable, no channel infiltraiton Surface Albedo 19 = 0.6 Temperature Exponent 19 = 3 Thermal Inertia 19 = 0.4 Number of Soil Layers 19 = 3 Porosity 19 = .80 .80 .80 Pore Size Distribution 19 = .45 .45 .45 Bubbling Pressure 19 = .07 .07 .07 Field Capacity 19 = .08 .08 .08 Wilting Point 19 = .03 .03 .03 Bulk Density 19 = 1492. 1492. 1492. Vertical Conductivity 19 = 0.1 0.1 0.1 Thermal Conductivity 19 = 7.114 6.923 6.923 Thermal Capacity 19 = 1.4e6 1.4e6 1.4e6 FRACTION ORGANIC CARBON 19 = 0.01 .01 .01 CARBON:NITROGEN RATIO 19 = 1 1 1 DISPERSIVITY 19 = 15 15 15 INTERNAL SURFACE AREA 19 = 0.0001 .0001 .0001 FRACTION CLAY 19 = 0.1 0.1 0.1 FRACTION ALUMINUM OXIDE 19 = 0.01 0.01 0.01 Weathering Rate 19 = 1e-7 Ammonium Adsorption Coefficients 19 = 0.3 0.0 Hamaker Constant 19 = -1e-7 ################ SOIL 20 ######################################################### Soil Description 20 = UNKNOWN ( as Sandy Loam, for the Bangor submariune base ) Lateral Conductivity 20 = 0.01 Exponential Decrease 20 = 3.0 Maximum Infiltration 20 = 2e-7 #c:1e-9 b:3e-5 Surface Albedo 20 = 0.1 Temperature Exponent 20 = 3 Thermal Inertia 20 = 0.8 Number of Soil Layers 20 = 3 Porosity 20 = .6 .6 .6 Pore Size Distribution 20 = .5 .6 .7 Bubbling Pressure 20 = .15 .15 .15 Field Capacity 20 = .21 .21 .21 Wilting Point 20 = .09 .09 .09 Bulk Density 20 = 1569. 1569. 1569. Vertical Conductivity 20 = 0.01 0.01 0.01 Thermal Conductivity 20 = 7.114 6.923 7.0 Thermal Capacity 20 = 1.4e6 1.4e6 1.4e6 FRACTION ORGANIC CARBON 20 = 0.5 0.5 0.5 CARBON:NITROGEN RATIO 20 = 13 13 13 DISPERSIVITY 20 = 15 15 15 INTERNAL SURFACE AREA 20 = 0.0005 0.0005 0.0005 FRACTION CLAY 20 = 0.2 0.2 0.2 FRACTION ALUMINUM OXIDE 20 = 0.01 0.01 0.01 Weathering Rate 20 = 1e-7 Ammonium Adsorption Coefficients 20 = 0.3 0.0 Hamaker Constant 20 = -1e-7 ################ SOIL 21 ######################################################### Soil Description 21 = ALLUVIUM Lateral Conductivity 21 = 0.05 Exponential Decrease 21 = 3.0 Maximum Infiltration 21 = 0.01 Surface Albedo 21 = 0.5 Temperature Exponent 21 = 3 Thermal Inertia 21 = 0.4 Number of Soil Layers 21 = 3 Porosity 21 = .80 .80 .80 Pore Size Distribution 21 = .75 .75 .75 Bubbling Pressure 21 = .07 .07 .07 Field Capacity 21 = .02 .02 .02 Wilting Point 21 = .01 .01 .01 Bulk Density 21 = 1492. 1492. 1492. Vertical Conductivity 21 = 0.1 0.1 0.1 Thermal Conductivity 21 = 7.114 6.923 6.923 Thermal Capacity 21 = 1.4e6 1.4e6 1.4e6 FRACTION ORGANIC CARBON 21 = 0.5 .5 .5 CARBON:NITROGEN RATIO 21 = 13 13 13 DISPERSIVITY 21 = 15 15 15 INTERNAL SURFACE AREA 21 = 0.0001 .0001 .0001 FRACTION CLAY 21 = 0.3 0.3 0.3 FRACTION ALUMINUM OXIDE 21 = 0.01 0.01 0.01 Weathering Rate 21 = 1e-7 Ammonium Adsorption Coefficients 21 = 0.3 0.0 Hamaker Constant 21 = -1e-7 ################################################################################ #GROUNDWATER INFORMATION SECTION ################################################################################ [GROUNDWATER] Gwater Map File = ../../models/bigbeef/input/bigbeef.geo.bin Number of Geo Types = 19 ################ GEO 1 ######################################################### Geology Description 1 = Alluvium Groundwater Conductivity 1 = 5e-6 Groundwater Conductivity Lat 1 = 1e-6 Groundwater Effective Porosity 1 = 0.7 Aquifer Thickness 1 = 4.5 Baseflow Gwater Temperature 1 = 10.0 Base Layer Conductivity 1 = 1e-9 GeoWeathering Rate 1 = 1e-7 Geology Description 2 = Andesite Flows Groundwater Conductivity 2 = 1e-7 Groundwater Conductivity Lat 2 = 1e-7 Groundwater Effective Porosity 2 = 0.2 Aquifer Thickness 2 = 10.0 Baseflow Gwater Temperature 2 = 10.0 Base Layer Conductivity 2 = 1e-12 GeoWeathering Rate 2 = 1e-7 Geology Description 3 = Basalt Flows Groundwater Conductivity 3 = 1e-6 #1e-7 usgs14 Groundwater Conductivity Lat 3 = 1e-6 #1e-7 usgs14 Groundwater Effective Porosity 3 = 0.65 Aquifer Thickness 3 = 12.0 Baseflow Gwater Temperature 3 = 10.0 Base Layer Conductivity 3 = 1e-10 #1e-12 usgs9 GeoWeathering Rate 3 = 1e-7 Geology Description 4 = Breccia and Tuff Groundwater Conductivity 4 = 1e-7 Groundwater Conductivity Lat 4 = 1e-7 Groundwater Effective Porosity 4 = 0.2 Aquifer Thickness 4 = 10.0 Baseflow Gwater Temperature 4 = 10.0 Base Layer Conductivity 4 = 1e-12 GeoWeathering Rate 4 = 1e-7 Geology Description 5 = Dacite Flows Groundwater Conductivity 5 = 1e-7 Groundwater Conductivity Lat 5 = 1e-7 Groundwater Effective Porosity 5 = 0.2 Aquifer Thickness 5 = 10.0 Baseflow Gwater Temperature 5 = 10.0 Base Layer Conductivity 5 = 1e-12 GeoWeathering Rate 5 = 1e-7 Geology Description 6 = Glacial Drift Groundwater Conductivity 6 = 1e-5 Groundwater Conductivity Lat 6 = 1e-5 #6 Groundwater Effective Porosity 6 = 0.3 Aquifer Thickness 6 = 6.0 #4 Baseflow Gwater Temperature 6 = 10.0 Base Layer Conductivity 6 = 1e-8 GeoWeathering Rate 6 = 1e-7 Geology Description 7 = Glacial Outwash Groundwater Conductivity 7 = 1e-6 Groundwater Conductivity Lat 7 = 1e-5 #6 Groundwater Effective Porosity 7 = 0.3 Aquifer Thickness 7 = 7.0 #3.5 Baseflow Gwater Temperature 7 = 10.0 Base Layer Conductivity 7 = 1e-8 GeoWeathering Rate 7 = 1e-7 Geology Description 8 = Glacial Till Groundwater Conductivity 8 = 1e-6 Groundwater Conductivity Lat 8 = 1e-5 #6 Groundwater Effective Porosity 8 = 0.2 Aquifer Thickness 8 = 10.0 Baseflow Gwater Temperature 8 = 10.0 Base Layer Conductivity 8 = 1e-8 GeoWeathering Rate 8 = 1e-7 Geology Description 9 = Intrusive Igneous Groundwater Conductivity 9 = 1e-7 Groundwater Conductivity Lat 9 = 1e-7 Groundwater Effective Porosity 9 = 0.1 Aquifer Thickness 9 = 12.0 Baseflow Gwater Temperature 9 = 10.0 Base Layer Conductivity 9 = 1e-10 GeoWeathering Rate 9 = 1e-7 Geology Description 10 = Lahar Groundwater Conductivity 10 = 1e-7 Groundwater Conductivity Lat 10 = 1e-7 Groundwater Effective Porosity 10 = 0.2 Aquifer Thickness 10 = 10.0 Baseflow Gwater Temperature 10 = 10.0 Base Layer Conductivity 10 = 1e-12 GeoWeathering Rate 10 = 1e-7 Geology Description 11 = Loess Groundwater Conductivity 11 = 1e-7 Groundwater Conductivity Lat 11 = 1e-7 Groundwater Effective Porosity 11 = 0.2 Aquifer Thickness 11 = 11.0 Baseflow Gwater Temperature 11 = 10.0 Base Layer Conductivity 11 = 1e-12 GeoWeathering Rate 11 = 1e-7 Geology Description 12 = Marine Sedementary Groundwater Conductivity 12 = 1e-6 #1e-7 usgs14 Groundwater Conductivity Lat 12 = 1e-6 #1e-7 usgs14 Groundwater Effective Porosity 12 = 0.5 Aquifer Thickness 12 = 10.0 Baseflow Gwater Temperature 12 = 10.0 Base Layer Conductivity 12 = 1e-7 #1e-8 usgs13 GeoWeathering Rate 12 = 1e-7 Geology Description 13 = Mass Wasting Deposits Groundwater Conductivity 13 = 1e-6 Groundwater Conductivity Lat 13 = 1e-6 Groundwater Effective Porosity 13 = 0.8 Aquifer Thickness 13 = 9.0 Baseflow Gwater Temperature 13 = 10.0 Base Layer Conductivity 13 = 1e-12 GeoWeathering Rate 13 = 1e-7 Geology Description 14 = Metasedimentary and Metavolcanic Groundwater Conductivity 14 = 3e-6 Groundwater Conductivity Lat 14 = 3e-6 Groundwater Effective Porosity 14 = 0.5 Aquifer Thickness 14 = 10.0 Baseflow Gwater Temperature 14 = 10.0 Base Layer Conductivity 14 = 1e-11 GeoWeathering Rate 14 = 1e-7 Geology Description 15 = Rhyolite Flows Groundwater Conductivity 15 = 1e-7 Groundwater Conductivity Lat 15 = 1e-7 Groundwater Effective Porosity 15 = 0.2 Aquifer Thickness 15 = 15.0 Baseflow Gwater Temperature 15 = 10.0 Base Layer Conductivity 15 = 1e-12 GeoWeathering Rate 15 = 1e-7 Geology Description 16 = Sedimentary Deposits Groundwater Conductivity 16 = 1e-5 Groundwater Conductivity Lat 16 = 1e-6 Groundwater Effective Porosity 16 = 0.30 Aquifer Thickness 16 = 10.0 Baseflow Gwater Temperature 16 = 10.0 Base Layer Conductivity 16 = 1e-11 GeoWeathering Rate 16 = 1e-7 Geology Description 17 = Ultrabasic Rocks Groundwater Conductivity 17 = 1e-7 Groundwater Conductivity Lat 17 = 1e-7 Groundwater Effective Porosity 17 = 0.2 Aquifer Thickness 17 = 17.0 Baseflow Gwater Temperature 17 = 10.0 Base Layer Conductivity 17 = 1e-12 GeoWeathering Rate 17 = 1e-7 Geology Description 18 = Water/Ice (as glacial till) Groundwater Conductivity 18 = 1e-6 Groundwater Conductivity Lat 18 = 1e-6 Groundwater Effective Porosity 18 = 0.4 Aquifer Thickness 18 = 18.0 Baseflow Gwater Temperature 18 = 10.0 Base Layer Conductivity 18 = 1e-8 GeoWeathering Rate 18 = 1e-7 Geology Description 19 = Beach Groundwater Conductivity 19 = 1e-2 Groundwater Conductivity Lat 19 = 1e-2 Groundwater Effective Porosity 19 = 1.0 Aquifer Thickness 19 = 20.0 Baseflow Gwater Temperature 19 = 10.0 Base Layer Conductivity 19 = 1 GeoWeathering Rate 19 = 1e-7 ################################################################################ # VEGETATION INFORMATION SECTION ################################################################################ [VEGETATION] Vegetation Map File = ../../models/bigbeef/input/bigbeef.ccap.bin #Vegetation Map File = ../../models/bigbeef/input/bigbeef.mask.bin Number of Vegetation Types = 20 Impervious Surface Routing File = ../../models/bigbeef/input/bigbeef.surface-routing.dat ############### VEGETATION 1 ################################################## Vegetation Description 1 = Evergreen Needleleaf * Impervious Fraction 1 = 0.1 Overstory Present 1 = TRUE Understory Present 1 = TRUE Fractional Coverage 1 = 0.9 Hemi Fract Coverage 1 = 0.9 Trunk Space 1 = 0.5 Aerodynamic Attenuation 1 = 2.0 Radiation Attenuation 1 = 0.15 Max Snow Int Capacity 1 = 0.04 Snow Interception Eff 1 = 0.6 Mass Release Drip Ratio 1 = 0.4 Height 1 = 30.0 0.5 Overstory Monthly LAI 1 = 12.0 12.0 12.0 12.0 12.0 12.0 12.0 12.0 12.0 12.0 12.0 12.0 Understory Monthly LAI 1 = 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 1 = 5000. 3000. Minimum Resistance 1 = 666.6 200. Moisture Threshold 1 = 0.33 0.13 Vapor Pressure Deficit 1 = 4000 4000 Rpc 1 = .108 .108 Overstory Monthly Alb 1 = 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 Understory Monthly Alb 1 = 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 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 # OPTIONAL SOIL CHEMISTRY PARAMTERS Fraction Alder 1 = 0.05 Average Stand Age 1 = 45 Annual Litterfall Mass 1 = 0.2 0.05 Overstory Litter Carbon Fraction 1 = 0.35 0.3 Understory Litter Carbon Fraction 1 = 0.35 0.3 Overstory DOC Leachate Fraction 1 = 0.2 0.15 Understory DOC Leachate Fraction 1 = 0.2 0.15 Overstory DON Leachate Fraction 1 = 0.5 0.8 Understory DON Leachate Fraction 1 = 0.5 0.8 Lignin Nitrogen Ratio 1 = 14 14 Overstory Litter CN Ratio 1 = 40 60 Understory Litter CN Ratio 1 = 40 60 Nitrogen Fixing Reference Rate 1 = 200.0 Growing Season Start Day 1 = 0.0 # Julian Day of year Growing Season Length 1 = 240.0 # number of days Maximum Nitrogen Uptake Delay 1 = 180.0 # delay in days Maximum Nitrogen Accumulation 1 = 3000.0 # Maximum nitrogen accumulation of crop, Unit: mg N/m2 Maximum Ammonium Uptake Constant 1 = 4.02e-5 # kg NH4/m2-3hr, Reference: Hangs et al. (2003) Halfrate Ammonium Uptake Constant 1 = 3.7e-3 # kg NH4/m3 water, Reference: Hangs et al. (2003) Overstory Monthly Litter Fraction 1 = 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 Understory Monthly Litter Fraction 1 = 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 ThrufallDOCMultiplier 1 = 6.74 ThrufallDONMultiplier 1 = 5 ThrufallNH4Multiplier 1 = 10 ThrufallNO3Multiplier 1 = 2 ThrufallNO2Multiplier 1 = 2 Vegetation Description 2 = Evergreen Broadleaf * Impervious Fraction 2 = 0.0 Overstory Present 2 = TRUE Understory Present 2 = TRUE Fractional Coverage 2 = 0.9 Trunk Space 2 = .5 Aerodynamic Attenuation 2 = 1.5 Radiation Attenuation 2 = 0.2 Max Snow Int Capacity 2 = 0.003 Snow Interception Eff 2 = 0.6 Mass Release Drip Ratio 2 = 0.4 Height 2 = 30.0 0.5 Impervious Fraction 2 = 0.0 Overstory Monthly LAI 2 = 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 Understory Monthly LAI 2 = 3.0 3.0 3.0 3.0 3.0 3.0 3.0 3.0 3.0 3.0 3.0 3.0 Overstory Monthly alb 2 = 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 Understory Monthly alb 2 = 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 Maximum Resistance 2 = 5000. 3000. Minimum Resistance 2 = 666.6 666.6 Moisture Threshold 2 = 0.33 0.13 Vapor Pressure Deficit 2 = 4000 4000 Rpc 2 = .108 0.108 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 # OPTIONAL SOIL CHEMISTRY PARAMTERS Fraction Alder 2 = 0.05 Average Stand Age 2 = 45 Annual Litterfall Mass 2 = 0.2 0.10 Overstory Litter Carbon Fraction 2 = 0.48 0.58 Understory Litter Carbon Fraction 2 = 0.48 0.58 Overstory DOC Leachate Fraction 2 = 0.2 0.15 Understory DOC Leachate Fraction 2 = 0.2 0.15 Overstory DON Leachate Fraction 2 = 0.5 0.8 Understory DON Leachate Fraction 2 = 0.5 0.8 Lignin Nitrogen Ratio 2 = 14 14 Overstory Litter CN Ratio 2 = 40 60 Understory Litter CN Ratio 2 = 40 60 Nitrogen Fixing Reference Rate 2 = 200.0 Growing Season Start Day 2 = 0.0 # Julian Day of year Growing Season Length 2 = 240.0 # number of days Maximum Nitrogen Uptake Delay 2 = 180.0 # delay in days Maximum Nitrogen Accumulation 2 = 3000.0 # Maximum nitrogen accumulation of crop, Unit: mg N/m2 Maximum Ammonium Uptake Constant 2 = 4.02e-5 # kg NH4/m2-3hr, Reference: Hangs et al. (2003) Halfrate Ammonium Uptake Constant 2 = 3.7e-3 # kg NH4/m3 water, Reference: Hangs et al. (2003) Overstory Monthly Litter Fraction 2 = 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 Understory Monthly Litter Fraction 2 = 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 ThrufallDOCMultiplier 2 = 6.74 ThrufallDONMultiplier 2 = 5 ThrufallNH4Multiplier 2 = 10 ThrufallNO3Multiplier 2 = 2 ThrufallNO2Multiplier 2 = 2 Vegetation Description 3 = Deciduous Needleleaf * Impervious Fraction 3 = 0.0 Overstory Present 3 = TRUE Understory Present 3 = TRUE Fractional Coverage 3 = 0.9 Hemi Fract Coverage 3 = 0.9 Trunk Space 3 = 0.5 Aerodynamic Attenuation 3 = 2.0 Radiation Attenuation 3 = 0.15 Max Snow Int Capacity 3 = 0.04 Snow Interception Eff 3 = 0.6 Mass Release Drip Ratio 3 = 0.4 Height 3 = 30.0 0.5 Overstory Monthly LAI 3 = 2.0 2.0 2.0 2.0 2.0 12.0 12.0 12.0 12.0 2.0 2.0 2.0 Understory Monthly LAI 3 = 2.0 2.0 2.0 2.0 2.0 3.0 3.0 3.0 3.0 2.0 2.0 2.0 Maximum Resistance 3 = 5000. 3000. Minimum Resistance 3 = 666.6 200. Moisture Threshold 3 = 0.33 0.13 Vapor Pressure Deficit 3 = 4000 4000 Rpc 3 = .108 .108 Overstory Monthly Alb 3 = 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 Understory Monthly Alb 3 = 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 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 # OPTIONAL SOIL CHEMISTRY PARAMTERS Fraction Alder 3 = 0.10 Average Stand Age 3 = 45 Annual Litterfall Mass 3 = 0.2 0.10 Overstory Litter Carbon Fraction 3 = 0.48 0.58 Understory Litter Carbon Fraction 3 = 0.48 0.58 Overstory DOC Leachate Fraction 3 = 0.2 0.15 Understory DOC Leachate Fraction 3 = 0.2 0.15 Overstory DON Leachate Fraction 3 = 0.5 0.8 Understory DON Leachate Fraction 3 = 0.5 0.8 Lignin Nitrogen Ratio 3 = 14 14 Overstory Litter CN Ratio 3 = 40 60 Understory Litter CN Ratio 3 = 40 60 Nitrogen Fixing Reference Rate 3 = 200.0 Growing Season Start Day 3 = 0.0 # Julian Day of year Growing Season Length 3 = 240.0 # number of days Maximum Nitrogen Uptake Delay 3 = 180.0 # delay in days Maximum Nitrogen Accumulation 3 = 3000.0 # Maximum nitrogen accumulation of crop, Unit: mg N/m2 Maximum Ammonium Uptake Constant 3 = 4.02e-5 # kg NH4/m2-3hr, Reference: Hangs et al. (2003) Halfrate Ammonium Uptake Constant 3 = 3.7e-3 # kg NH4/m3 water, Reference: Hangs et al. (2003) Overstory Monthly Litter Fraction 3 = 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 Understory Monthly Litter Fraction 3 = 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 ThrufallDOCMultiplier 3 = 6.74 ThrufallDONMultiplier 3 = 5 ThrufallNH4Multiplier 3 = 10 ThrufallNO3Multiplier 3 = 2 ThrufallNO2Multiplier 3 = 2 Vegetation Description 4 = Deciduous Broadleaf Impervious Fraction 4 = 0.1 Overstory Present 4 = TRUE Understory Present 4 = TRUE Fractional Coverage 4 = 0.9 Hemi Fract Coverage 4 = 0.9 Trunk Space 4 = 0.5 Aerodynamic Attenuation 4 = 1.5 Radiation Attenuation 4 = 0.2 Max Snow Int Capacity 4 = 0.003 Snow Interception Eff 4 = 0.6 Mass Release Drip Ratio 4 = 0.4 Height 4 = 30.0 0.5 Overstory Monthly LAI 4 = 2.0 2.0 2.0 2.0 2.0 10.0 10.0 10.0 10.0 2.0 2.0 2.0 Understory Monthly LAI 4 = 2.0 2.0 2.0 2.0 2.0 3.0 3.0 3.0 3.0 2.0 2.0 2.0 Maximum Resistance 4 = 5000. 3000. Minimum Resistance 4 = 666.6 666.6 Moisture Threshold 4 = 0.33 0.13 Vapor Pressure Deficit 4 = 4000 4000 Rpc 4 = .108 0.108 Overstory Monthly Alb 4 = 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 Understory Monthly Alb 4 = 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 4 = 3 Root Zone Depths 4 = 0.10 0.25 0.40 Overstory Root Fraction 4 = 0.20 0.40 0.40 Understory Root Fraction 4 = 0.40 0.60 0.00 # OPTIONAL SOIL CHEMISTRY PARAMTERS Fraction Alder 4 = 0.75 Average Stand Age 4 = 40 Annual Litterfall Mass 4 = 0.55 0.18 # Based on Mindy Roberts number & use ratio 3:1 Overstory Litter Carbon Fraction 4 = 0.48 0.47 #0.48 0.58 Understory Litter Carbon Fraction 4 = 0.48 0.48 #0.48 0.58 Overstory DOC Leachate Fraction 4 = 0.3 0.5 #0.2 0.15 Understory DOC Leachate Fraction 4 = 0.3 0.5 #0.2 0.15 Overstory DON Leachate Fraction 4 = 0.5 0.8 Understory DON Leachate Fraction 4 = 0.5 0.8 Lignin Nitrogen Ratio 4 = 9.45 14 #14 14 Overstory Litter CN Ratio 4 = 31.5 195 #40 60 Understory Litter CN Ratio 4 = 40 60 #40 60 Nitrogen Fixing Reference Rate 4 = 200.0 Growing Season Start Day 4 = 0 # Julian Day of year Growing Season Length 4 = 240.0 # number of days Maximum Nitrogen Uptake Delay 4 = 180.0 # delay in days Maximum Nitrogen Accumulation 4 = 3000.0 # Maximum nitrogen accumulation of crop, Unit: mg N/m2 Maximum Ammonium Uptake Constant 4 = 4.02e-5 # kg NH4/m2-3hr, Reference: Hangs et al. (2003) Halfrate Ammonium Uptake Constant 4 = 3.7e-3 # kg NH4/m3 water, Reference: Hangs et al. (2003) Overstory Monthly Litter Fraction 4 = 0.056 0.022 0.017 0.013 0.034 0.045 0.078 0.112 0.135 0.151 0.174 0.163 #Use Gessel & Turner 1974 monthly trend Understory Monthly Litter Fraction 4 = 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.084 0.085 0.084 ThrufallDOCMultiplier 4 = 6.74 ThrufallDONMultiplier 4 = 5 ThrufallNH4Multiplier 4 = 10 ThrufallNO3Multiplier 4 = 2 ThrufallNO2Multiplier 4 = 2 Vegetation Description 5 = Mixed Forest Impervious Fraction 5 = 0.15 Overstory Present 5 = TRUE Understory Present 5 = TRUE Fractional Coverage 5 = 0.8 Hemi Fract Coverage 5 = 0.8 Trunk Space 5 = 0.4 Aerodynamic Attenuation 5 = 0.5 Radiation Attenuation 5 = 0.2 Max Snow Int Capacity 5 = 0.003 Snow Interception Eff 5 = 0.6 Mass Release Drip Ratio 5 = 0.4 Height 5 = 20.0 0.5 Overstory Monthly LAI 5 = 2.0 2.0 4.0 5.0 6.0 6.0 6.0 6.0 5.0 4.0 2.0 2.0 Understory Monthly LAI 5 = 2.0 2.0 3.0 3.0 3.0 4.0 4.0 4.0 3.0 2.0 2.0 2.0 Maximum Resistance 5 = 5000. 600. Minimum Resistance 5 = 200. 200. Moisture Threshold 5 = 0.33 0.13 Vapor Pressure Deficit 5 = 4000 4000 Rpc 5 = .108 .108 Overstory Monthly Alb 5 = 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 Understory Monthly Alb 5 = 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 Number of Root Zones 5 = 3 Root Zone Depths 5 = 0.10 0.25 0.40 Overstory Root Fraction 5 = 0.20 0.40 0.40 Understory Root Fraction 5 = 0.40 0.60 0.00 # OPTIONAL SOIL CHEMISTRY PARAMTERS Fraction Alder 5 = 0.5 Average Stand Age 5 = 45 Annual Litterfall Mass 5 = 0.5 0.12 #0.5 0.25 Use Mindy's number for low disturbance, and compare to Gessel & Turner 1974 Overstory Litter Carbon Fraction 5 = 0.48 0.47#0.48 0.58 Edmonds 1980, red alder , Cedar river Understory Litter Carbon Fraction 5 = 0.48 0.48 #0.48 0.58 Overstory DOC Leachate Fraction 5 = 0.3 0.5 #0.2 0.15 Understory DOC Leachate Fraction 5 = 0.3 0.5 #0.2 0.15 Overstory DON Leachate Fraction 5 = 0.5 0.8 Understory DON Leachate Fraction 5 = 0.5 0.8 Lignin Nitrogen Ratio 5 = 9.45 14 #14 14 Edmonds 1980 for overstory Overstory Litter CN Ratio 5 = 31.5 195 #40 60 value of leaf litter , branches Understory Litter CN Ratio 5 = 40 60 Nitrogen Fixing Reference Rate 5 = 200.0 Growing Season Start Day 5 = 0.0 # Julian Day of year Growing Season Length 5 = 240.0 # number of days Maximum Nitrogen Uptake Delay 5 = 180.0 # delay in days Maximum Nitrogen Accumulation 5 = 3000 # Maximum nitrogen accumulation of crop, Unit: mg N/m2 Maximum Ammonium Uptake Constant 5 = 4.02e-5 # kg NH4/m2-3hr, Reference: Hangs et al. (2003) Halfrate Ammonium Uptake Constant 5 = 3.7e-3 # kg NH4/m3 water, Reference: Hangs et al. (2003) Overstory Monthly Litter Fraction 5 = 0.056 0.022 0.017 0.013 0.034 0.045 0.078 0.112 0.135 0.151 0.174 0.163 Understory Monthly Litter Fraction 5 = 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.084 0.085 0.084 ThrufallDOCMultiplier 5 = 6.74 ThrufallDONMultiplier 5 = 5 ThrufallNH4Multiplier 5 = 10 ThrufallNO3Multiplier 5 = 2 ThrufallNO2Multiplier 5 = 2 Vegetation Description 6 = Woodland * Impervious Fraction 6 = 0.0 Overstory Present 6 = TRUE Understory Present 6 = TRUE Fractional Coverage 6 = 0.8 Hemi Fract Coverage 6 = 0.8 Trunk Space 6 = 0.4 Aerodynamic Attenuation 6 = 0.5 Radiation Attenuation 6 = 0.2 Max Snow Int Capacity 6 = 0.003 Snow Interception Eff 6 = 0.6 Mass Release Drip Ratio 6 = 0.4 Height 6 = 20.0 0.5 Overstory Monthly LAI 6 = 2.0 2.0 2.0 2.0 2.0 6.0 6.0 6.0 6.0 2.0 2.0 2.0 Understory Monthly LAI 6 = 2.0 2.0 2.0 2.0 2.0 3.0 3.0 3.0 3.0 2.0 2.0 2.0 Maximum Resistance 6 = 5000. 600. Minimum Resistance 6 = 200. 200. Moisture Threshold 6 = 0.33 0.13 Vapor Pressure Deficit 6 = 4000 4000 Rpc 6 = .108 .108 Overstory Monthly Alb 6 = 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 Understory Monthly Alb 6 = 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 Number of Root Zones 6 = 3 Root Zone Depths 6 = 0.10 0.25 0.40 Overstory Root Fraction 6 = 0.20 0.40 0.40 Understory Root Fraction 6 = 0.40 0.60 0.00 # OPTIONAL SOIL CHEMISTRY PARAMTERS Fraction Alder 6 = 0.1 Average Stand Age 6 = 45 Annual Litterfall Mass 6 = 0.5 0.25 Overstory Litter Carbon Fraction 6 = 0.48 0.58 Understory Litter Carbon Fraction 6 = 0.48 0.58 Overstory DOC Leachate Fraction 6 = 0.2 0.15 Understory DOC Leachate Fraction 6 = 0.2 0.15 Overstory DON Leachate Fraction 6 = 0.5 0.8 Understory DON Leachate Fraction 6 = 0.5 0.8 Lignin Nitrogen Ratio 6 = 14 14 Overstory Litter CN Ratio 6 = 40 60 Understory Litter CN Ratio 6 = 40 60 Nitrogen Fixing Reference Rate 6 = 200.00 Growing Season Start Day 6 = 0.0 # Julian Day of year Growing Season Length 6 = 240.0 # number of days Maximum Nitrogen Uptake Delay 6 = 180.0 # delay in days Maximum Nitrogen Accumulation 6 = 3000.0 # Maximum nitrogen accumulation of crop, Unit: mg N/m2 Maximum Ammonium Uptake Constant 6 = 4.02e-5 # kg NH4/m2-3hr, Reference: Hangs et al. (2003) Halfrate Ammonium Uptake Constant 6 = 3.7e-3 # kg NH4/m3 water, Reference: Hangs et al. (2003) Overstory Monthly Litter Fraction 6 = 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 Understory Monthly Litter Fraction 6 = 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 ThrufallDOCMultiplier 6 = 6.74 ThrufallDONMultiplier 6 = 5 ThrufallNH4Multiplier 6 = 10 ThrufallNO3Multiplier 6 = 2 ThrufallNO2Multiplier 6 = 2 Vegetation Description 7 = Wooded Grassland * Impervious Fraction 7 = 0.0 Overstory Present 7 = TRUE Understory Present 7 = TRUE Fractional Coverage 7 = 0.5 Hemi Fract Coverage 7 = 0.5 Trunk Space 7 = 0.4 Aerodynamic Attenuation 7 = 0.3 Radiation Attenuation 7 = 0.1 Max Snow Int Capacity 7 = 0.003 Snow Interception Eff 7 = 0.6 Mass Release Drip Ratio 7 = 0.4 Height 7 = 20.0 0.5 Overstory Monthly LAI 7 = 2.0 2.0 2.0 2.0 2.0 6.0 6.0 6.0 6.0 2.0 2.0 2.0 Understory Monthly LAI 7 = 2.0 2.0 2.0 2.0 2.0 3.0 3.0 3.0 3.0 2.0 2.0 2.0 Maximum Resistance 7 = 5000. 600. Minimum Resistance 7 = 200. 200. Moisture Threshold 7 = 0.33 0.13 Vapor Pressure Deficit 7 = 4000 4000 Rpc 7 = .108 .108 Overstory Monthly Alb 7 = 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 Understory Monthly Alb 7 = 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 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 # OPTIONAL SOIL CHEMISTRY PARAMTERS Fraction Alder 7 = 0.05 Average Stand Age 7 = 45 Annual Litterfall Mass 7 = 0.4 0.20 Overstory Litter Carbon Fraction 7 = 0.48 0.58 Understory Litter Carbon Fraction 7 = 0.48 0.58 Overstory DOC Leachate Fraction 7 = 0.2 0.15 Understory DOC Leachate Fraction 7 = 0.2 0.15 Overstory DON Leachate Fraction 7 = 0.5 0.8 Understory DON Leachate Fraction 7 = 0.5 0.8 Lignin Nitrogen Ratio 7 = 14 14 Overstory Litter CN Ratio 7 = 40 60 Understory Litter CN Ratio 7 = 40 60 Nitrogen Fixing Reference Rate 7 = 200.0 Growing Season Start Day 7 = 0.0 # Julian Day of year Growing Season Length 7 = 240.0 # number of days Maximum Nitrogen Uptake Delay 7 = 180.0 # delay in days Maximum Nitrogen Accumulation 7 = 3000.0 # Maximum nitrogen accumulation of crop, Unit: mg N/m2 Maximum Ammonium Uptake Constant 7 = 4.02e-5 # kg NH4/m2-3hr, Reference: Hangs et al. (2003) Halfrate Ammonium Uptake Constant 7 = 3.7e-3 # kg NH4/m3 water, Reference: Hangs et al. (2003) Overstory Monthly Litter Fraction 7 = 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 Understory Monthly Litter Fraction 7 = 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 ThrufallDOCMultiplier 7 = 6.74 ThrufallDONMultiplier 7 = 5 ThrufallNH4Multiplier 7 = 10 ThrufallNO3Multiplier 7 = 2 ThrufallNO2Multiplier 7 = 2 Vegetation Description 8 = Closed Shrub * Impervious Fraction 8 = 0.1 Overstory Present 8 = FALSE Understory Present 8 = TRUE Fractional Coverage 8 = Hemi Fract Coverage 8 = Trunk Space 8 = Aerodynamic Attenuation 8 = Radiation Attenuation 8 = Max Snow Int Capacity 8 = Snow Interception Eff 8 = Mass Release Drip Ratio 8 = Height 8 = 2.0 Overstory Monthly LAI 8 = 2.0 2.0 2.0 2.0 2.0 5.0 5.0 5.0 5.0 2.0 2.0 2.0 Understory Monthly LAI 8 = 2.0 2.0 2.0 2.0 2.0 5.0 5.0 5.0 5.0 2.0 2.0 2.0 Maximum Resistance 8 = 600 Minimum Resistance 8 = 200 Moisture Threshold 8 = 0.33 Vapor Pressure Deficit 8 = 4000 Rpc 8 = .108 Overstory Monthly Alb 8 = 0.14 0.14 0.14 0.14 0.14 0.14 0.14 0.14 0.14 0.14 0.14 0.14 Understory Monthly Alb 8 = 0.14 0.14 0.14 0.14 0.14 0.14 0.14 0.14 0.14 0.14 0.14 0.14 Number of Root Zones 8 = 3 Root Zone Depths 8 = 0.10 0.25 0.40 Overstory Root Fraction 8 = Understory Root Fraction 8 = 0.40 0.60 0.00 # OPTIONAL SOIL CHEMISTRY PARAMTERS Fraction Alder 8 = 0.05 Average Stand Age 8 = 45 Annual Litterfall Mass 8 = 0.1 Overstory Litter Carbon Fraction 8 = Understory Litter Carbon Fraction 8 = 0.48 0.58 Overstory DOC Leachate Fraction 8 = Understory DOC Leachate Fraction 8 = 0.2 0.15 Overstory DON Leachate Fraction 8 = Understory DON Leachate Fraction 8 = 0.5 0.8 Lignin Nitrogen Ratio 8 = 14 Overstory Litter CN Ratio 8 = 40 60 Understory Litter CN Ratio 8 = 40 60 Nitrogen Fixing Reference Rate 8 = 200.0 Growing Season Start Day 8 = 0.0 # Julian Day of year Growing Season Length 8 = 240.0 # number of days Maximum Nitrogen Uptake Delay 8 = 180.0 # delay in days Maximum Nitrogen Accumulation 8 = 1500.0 # Maximum nitrogen accumulation of crop, Unit: mg N/m2 Maximum Ammonium Uptake Constant 8 = 4.02e-5 # kg NH4/m2-3hr, Reference: Hangs et al. (2003) Halfrate Ammonium Uptake Constant 8 = 3.7e-3 # kg NH4/m3 water, Reference: Hangs et al. (2003) Overstory Monthly Litter Fraction 8 = Understory Monthly Litter Fraction 8 = 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 ThrufallDOCMultiplier 8 = 6.74 ThrufallDONMultiplier 8 = 5 ThrufallNH4Multiplier 8 = 10 ThrufallNO3Multiplier 8 = 2 ThrufallNO2Multiplier 8 = 2 Vegetation Description 9 = Open Shrub Impervious Fraction 9 = 0.2 #.2 Overstory Present 9 = FALSE Understory Present 9 = TRUE Fractional Coverage 9 = Hemi Fract Coverage 9 = Trunk Space 9 = Aerodynamic Attenuation 9 = Radiation Attenuation 9 = Max Snow Int Capacity 9 = Snow Interception Eff 9 = Mass Release Drip Ratio 9 = Height 9 = 1.0 Overstory Monthly LAI 9 = 1.0 1.0 1.0 1.0 1.0 4.0 4.0 4.0 4.0 1.0 1.0 1.0 Understory Monthly LAI 9 = 1.0 1.0 2.0 3.0 4.0 4.0 4.0 4.0 4.0 3.0 2.0 1.0 Maximum Resistance 9 = 600 Minimum Resistance 9 = 200 Moisture Threshold 9 = 0.33 Vapor Pressure Deficit 9 = 4000 Rpc 9 = .108 Overstory Monthly Alb 9 = 0.12 0.12 0.12 0.12 0.12 0.12 0.12 0.12 0.12 0.12 0.12 0.12 Understory Monthly Alb 9 = 0.12 0.12 0.12 0.12 0.12 0.12 0.12 0.12 0.12 0.12 0.12 0.12 Number of Root Zones 9 = 3 Root Zone Depths 9 = 0.10 0.25 0.40 Overstory Root Fraction 9 = Understory Root Fraction 9 = 0.40 0.60 0.00 # OPTIONAL SOIL CHEMISTRY PARAMTERS Fraction Alder 9 = 0.05 Average Stand Age 9 = 45 Annual Litterfall Mass 9 = 0.2 # Use number from Rattlesnake Sp, WA by Benfield 1997 Overstory Litter Carbon Fraction 9 = Understory Litter Carbon Fraction 9 = 0.48 0.48 Overstory DOC Leachate Fraction 9 = Understory DOC Leachate Fraction 9 = 0.3 0.5 Overstory DON Leachate Fraction 9 = Understory DON Leachate Fraction 9 = 0.5 0.8 Lignin Nitrogen Ratio 9 = 14 Overstory Litter CN Ratio 9 = Understory Litter CN Ratio 9 = 37 60 Nitrogen Fixing Reference Rate 9 = 200.0 Growing Season Start Day 9 = 0.0 # Julian Day of year Growing Season Length 9 = 240.0 # number of days Maximum Nitrogen Uptake Delay 9 = 180.0 # delay in days Maximum Nitrogen Accumulation 9 = 1500 # Maximum nitrogen accumulation of crop, Unit: mg N/m2 Maximum Ammonium Uptake Constant 9 = 4.02e-5 # kg NH4/m2-3hr, Reference: Hangs et al. (2003) Halfrate Ammonium Uptake Constant 9 = 3.7e-3 # kg NH4/m3 water, Reference: Hangs et al. (2003) Overstory Monthly Litter Fraction 9 = Understory Monthly Litter Fraction 9 = 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 ThrufallDOCMultiplier 9 = 6.74 ThrufallDONMultiplier 9 = 5 ThrufallNH4Multiplier 9 = 10 ThrufallNO3Multiplier 9 = 2 ThrufallNO2Multiplier 9 = 2 Vegetation Description 10 = Grassland Impervious Fraction 10 = 0.15 Overstory Present 10 = FALSE Understory Present 10 = TRUE Fractional Coverage 10 = Hemi Fract Coverage 10 = Trunk Space 10 = Aerodynamic Attenuation 10 = Radiation Attenuation 10 = Max Snow Int Capacity 10 = Snow Interception Eff 10 = Mass Release Drip Ratio 10 = Height 10 = 0.5 Overstory Monthly LAI 10 = 0.5 0.5 0.5 0.5 0.5 6.0 6.0 6.0 6.0 0.5 0.5 0.5 Understory Monthly LAI 10 = 0.5 0.5 0.5 0.5 0.5 6.0 6.0 6.0 6.0 0.5 0.5 0.5 Maximum Resistance 10 = 600 Minimum Resistance 10 = 200 Moisture Threshold 10 = 0.33 Vapor Pressure Deficit 10 = 4000 Rpc 10 = .108 Overstory Monthly Alb 10 = 0.19 0.19 0.19 0.19 0.19 0.19 0.19 0.19 0.19 0.19 0.19 0.19 Understory Monthly Alb 10 = 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 10 = 3 Root Zone Depths 10 = 0.10 0.25 0.40 Overstory Root Fraction 10 = Understory Root Fraction 10 = 0.40 0.60 0.00 # OPTIONAL SOIL CHEMISTRY PARAMTERS Fraction Alder 10 = 0.01 Average Stand Age 10 = 45 Annual Litterfall Mass 10 = 0.10 Overstory Litter Carbon Fraction 10 = Understory Litter Carbon Fraction 10 = 0.48 0.48 Overstory DOC Leachate Fraction 10 = Understory DOC Leachate Fraction 10 = 0.2 0.15 Overstory DON Leachate Fraction 10 = Understory DON Leachate Fraction 10 = 0.5 0.8 Lignin Nitrogen Ratio 10 = 14 Overstory Litter CN Ratio 10 = 0 60 Understory Litter CN Ratio 10 = 37 37 Nitrogen Fixing Reference Rate 10 = 200.0 Growing Season Start Day 10 = 0.0 # Julian Day of year Growing Season Length 10 = 240.0 # number of days Maximum Nitrogen Uptake Delay 10 = 180.0 # delay in days Maximum Nitrogen Accumulation 10 = 1000 #3000.0 Maximum nitrogen accumulation of crop, Unit: mg N/m2 Maximum Ammonium Uptake Constant 10 = 4.02e-5 # kg NH4/m2-3hr, Reference: Hangs et al. (2003) Halfrate Ammonium Uptake Constant 10 = 3.7e-3 # kg NH4/m3 water, Reference: Hangs et al. (2003) Overstory Monthly Litter Fraction 10 = Understory Monthly Litter Fraction 10 = 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 ThrufallDOCMultiplier 10 = 6.74 ThrufallDONMultiplier 10 = 5 ThrufallNH4Multiplier 10 = 10 ThrufallNO3Multiplier 10 = 2 ThrufallNO2Multiplier 10 = 2 Vegetation Description 11 = Cropland Impervious Fraction 11 = 0.0 Overstory Present 11 = FALSE Understory Present 11 = TRUE Fractional Coverage 11 = Hemi Fract Coverage 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 = 1.0 Overstory Monthly LAI 11 = 0.5 0.5 0.5 0.5 0.5 6.0 6.0 6.0 6.0 0.5 0.5 0.5 Understory Monthly LAI 11 = 0.5 0.5 0.5 0.5 0.5 6.0 6.0 6.0 6.0 0.5 0.5 0.5 Maximum Resistance 11 = 600. Minimum Resistance 11 = 120. Moisture Threshold 11 = 0.33 Vapor Pressure Deficit 11 = 4000 Rpc 11 = .108 Overstory Monthly Alb 11 = 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 Understory Monthly Alb 11 = 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 11 = 3 Root Zone Depths 11 = 0.10 0.25 0.40 Overstory Root Fraction 11 = Understory Root Fraction 11 = 0.40 0.60 0.00 # OPTIONAL SOIL CHEMISTRY PARAMTERS Fraction Alder 11 = 0.00 Average Stand Age 11 = 45 Annual Litterfall Mass 11 = 0.1 Overstory Litter Carbon Fraction 11 = Understory Litter Carbon Fraction 11 = 0.48 0.48 Overstory DOC Leachate Fraction 11 = Understory DOC Leachate Fraction 11 = 0.3 0.5 Overstory DON Leachate Fraction 11 = Understory DON Leachate Fraction 11 = 0.5 0.8 Lignin Nitrogen Ratio 11 = 14 Overstory Litter CN Ratio 11 = Understory Litter CN Ratio 11 = 20 30 Nitrogen Fixing Reference Rate 11 = 200.0 Growing Season Start Day 11 = 0.0 # Julian Day of year Growing Season Length 11 = 150.0 # number of days Maximum Nitrogen Uptake Delay 11 = 160.0 # delay in days Maximum Nitrogen Accumulation 11 = 800.0 # Maximum nitrogen accumulation of crop, Unit: mg N/m2 Maximum Ammonium Uptake Constant 11 = 4.02e-5 # kg NH4/m2-3hr, Reference: Hangs et al. (2003) Halfrate Ammonium Uptake Constant 11 = 3.7e-3 # kg NH4/m3 water, Reference: Hangs et al. (2003) Overstory Monthly Litter Fraction 11 = Understory Monthly Litter Fraction 11 = 0.0 0.0 0.0 0.0 0.0 0.0 1.0 0.0 0.0 0.0 0.0 0.0 # assume winter wheat reside in July ThrufallDOCMultiplier 11 = 6.74 ThrufallDONMultiplier 11 = 5 ThrufallNH4Multiplier 11 = 10 ThrufallNO3Multiplier 11 = 2 ThrufallNO2Multiplier 11 = 2 Vegetation Description 12 = Bare Impervious Fraction 12 = 0.25 #.3 Overstory Present 12 = FALSE Understory Present 12 = FALSE Fractional Coverage 12 = Hemi Fract Coverage 12 = Trunk Space 12 = Aerodynamic Attenuation 12 = Radiation Attenuation 12 = Max Snow Int Capacity 12 = Snow Interception Eff 12 = Mass Release Drip Ratio 12 = Height 12 = Overstory Monthly LAI 12 = 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 12 = 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 12 = Minimum Resistance 12 = Moisture Threshold 12 = Vapor Pressure Deficit 12 = Rpc 12 = Overstory Monthly Alb 12 = 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 12 = 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 12 = 3 Root Zone Depths 12 = 0.10 0.25 0.40 Overstory Root Fraction 12 = Understory Root Fraction 12 = 0.0 0.0 0.00 # OPTIONAL SOIL CHEMISTRY PARAMTERS Fraction Alder 12 = 0.0 Average Stand Age 12 = 1 Annual Litterfall Mass 12 = 0.0 0.0 Overstory Litter Carbon Fraction 12 = 0.48 0.58 Understory Litter Carbon Fraction 12 = 0.48 0.58 Overstory DOC Leachate Fraction 12 = 0.2 0.15 Understory DOC Leachate Fraction 12 = 0.2 0.15 Overstory DON Leachate Fraction 12 = 0.5 0.8 Understory DON Leachate Fraction 12 = 0.5 0.8 Lignin Nitrogen Ratio 12 = Overstory Litter CN Ratio 12 = 40 60 Understory Litter CN Ratio 12 = 40 60 Nitrogen Fixing Reference Rate 12 = 0.0 Growing Season Start Day 12 = 0.0 # Julian Day of year Growing Season Length 12 = 150.0 # number of days Maximum Nitrogen Uptake Delay 12 = 160.0 # delay in days Maximum Nitrogen Accumulation 12 = 0.0 # Maximum nitrogen accumulation of crop, Unit: mg N/m2 Maximum Ammonium Uptake Constant 12 = 0.0 # kg NH4/m2-3hr, Reference: Hangs et al. (2003) Halfrate Ammonium Uptake Constant 12 = 3.7e-3 # kg NH4/m3 water, Reference: Hangs et al. (2003) Overstory Monthly Litter Fraction 12 = Understory Monthly Litter Fraction 12 = ThrufallDOCMultiplier 12 = 1 ThrufallDONMultiplier 12 = 1 ThrufallNH4Multiplier 12 = 1 ThrufallNO3Multiplier 12 = 1 ThrufallNO2Multiplier 12 = 1 Vegetation Description 13 = Urban Impervious Fraction 13 = 0.5 Overstory Present 13 = TRUE Understory Present 13 = TRUE Fractional Coverage 13 = 0.5 Hemi Fract Coverage 13 = 0.5 0.4 Trunk Space 13 = 0.4 Aerodynamic Attenuation 13 = 0.3 Radiation Attenuation 13 = 0.1 Max Snow Int Capacity 13 = 0.003 Snow Interception Eff 13 = 0.6 Mass Release Drip Ratio 13 = 0.4 Height 13 = 20.0 0.5 Overstory Monthly LAI 13 = 1.0 1.0 1.0 1.0 1.0 3.0 3.0 3.0 3.0 1.0 1.0 1.0 Understory Monthly LAI 13 = 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 13 = 5000.0 3000.0 Minimum Resistance 13 = 600.0 120.0 Moisture Threshold 13 = 0.33 0.13 Vapor Pressure Deficit 13 = 4000 4000 Rpc 13 = 0.108 0.108 Overstory Monthly Alb 13 = 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 Understory Monthly Alb 13 = 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 13 = 3 Root Zone Depths 13 = 0.10 0.25 0.40 Overstory Root Fraction 13 = 0.40 0.60 0.00 Understory Root Fraction 13 = 0.40 0.60 0.00 # OPTIONAL SOIL CHEMISTRY PARAMTERS Fraction Alder 13 = 0.05 Average Stand Age 13 = 45 Annual Litterfall Mass 13 = 0.097 0.049 #0.05 0.01 #Use Mindy Robert's high disturbance number and divide 2:1 ratio Overstory Litter Carbon Fraction 13 = 0.48 0.48 #0.48 0.58 Understory Litter Carbon Fraction 13 = 0.48 0.48 #0.48 0.58 Overstory DOC Leachate Fraction 13 = 0.3 0.5 #0.2 0.15 Understory DOC Leachate Fraction 13 = 0.3 0.5 #0.2 0.15 Overstory DON Leachate Fraction 13 = 0.5 0.8 Understory DON Leachate Fraction 13 = 0.5 0.8 Lignin Nitrogen Ratio 13 = 14 14 Overstory Litter CN Ratio 13 = 40 60 Understory Litter CN Ratio 13 = 40 60 Nitrogen Fixing Reference Rate 13 = 200.0 Growing Season Start Day 13 = 0.0 # Julian Day of year Growing Season Length 13 = 240.0 # number of days Maximum Nitrogen Uptake Delay 13 = 180.0 # delay in days Maximum Nitrogen Accumulation 13 = 3000.0 # Maximum nitrogen accumulation of crop, Unit: mg N/m2 Maximum Ammonium Uptake Constant 13 = 4.02e-5 # kg NH4/m2-3hr, Reference: Hangs et al. (2003) Halfrate Ammonium Uptake Constant 13 = 3.7e-3 # kg NH4/m3 water, Reference: Hangs et al. (2003) Overstory Monthly Litter Fraction 13 = 0.022 0.022 0.067 0.044 0.044 0.044 0.044 0.044 0.089 0.222 0.222 0.133 Understory Monthly Litter Fraction 13 = 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 ThrufallDOCMultiplier 13 = 6.74 ThrufallDONMultiplier 13 = 5 ThrufallNH4Multiplier 13 = 10 ThrufallNO3Multiplier 13 = 2 ThrufallNO2Multiplier 13 = 2 Vegetation Description 14 = Water Impervious Fraction 14 = 1.0 Overstory Present 14 = FALSE Understory Present 14 = FALSE Fractional Coverage 14 = Hemi Fract Coverage 14 = 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 = Understory Root Fraction 14 = 0.00 0.00 0.00 # OPTIONAL SOIL CHEMISTRY PARAMTERS Fraction Alder 14 = 0.0 Average Stand Age 14 = 1 Annual Litterfall Mass 14 = 0.0 0.0 Overstory Litter Carbon Fraction 14 = Understory Litter Carbon Fraction 14 = Overstory DOC Leachate Fraction 14 = Understory DOC Leachate Fraction 14 = Overstory DON Leachate Fraction 14 = Understory DON Leachate Fraction 14 = Lignin Nitrogen Ratio 14 = Overstory Litter CN Ratio 14 = Understory Litter CN Ratio 14 = Nitrogen Fixing Reference Rate 14 = 0.0 Growing Season Start Day 14 = 10.0 # Julian Day of year Growing Season Length 14 = 1.0 # number of days Maximum Nitrogen Uptake Delay 14 = 0.5 # delay in days Maximum Nitrogen Accumulation 14 = 0.0 # Maximum nitrogen accumulation of crop, Unit: mg N/m2 Maximum Ammonium Uptake Constant 14 = 0.0 # kg NH4/m2-3hr, Reference: Hangs et al. (2003) Halfrate Ammonium Uptake Constant 14 = 3.7e-3 # kg NH4/m3 water, Reference: Hangs et al. (2003) Overstory Monthly Litter Fraction 14 = Understory Monthly Litter Fraction 14 = ThrufallDOCMultiplier 14 = 1 ThrufallDONMultiplier 14 = 1 ThrufallNH4Multiplier 14 = 1 ThrufallNO3Multiplier 14 = 1 ThrufallNO2Multiplier 14 = 1 Vegetation Description 15 = Coastal Conifer Forest * Impervious Fraction 15 = 0.0 Overstory Present 15 = TRUE Understory Present 15 = TRUE Fractional Coverage 15 = 0.9 Hemi Fract Coverage 15 = 0.9 Trunk Space 15 = .5 Aerodynamic Attenuation 15 = 2.0 Radiation Attenuation 15 = 0.15 Max Snow Int Capacity 15 = 0.040 Snow Interception Eff 15 = 0.6 Mass Release Drip Ratio 15 = 0.4 Height 15 = 50.0 0.5 Overstory Monthly LAI 15 = 12.0 12.0 12.0 12.0 12.0 12.0 12.0 12.0 12.0 12.0 12.0 12.0 Understory Monthly LAI 15 = 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 15 = 5000.0 3000.0 Minimum Resistance 15 = 666.6 200.0 Moisture Threshold 15 = 0.33 0.13 Vapor Pressure Deficit 15 = 4000 4000 Rpc 15 = .108 .108 Overstory Monthly Alb 15 = 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 Understory Monthly Alb 15 = 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 Number of Root Zones 15 = 3 Root Zone Depths 15 = 0.10 0.25 0.40 Overstory Root Fraction 15 = 0.20 0.40 0.40 Understory Root Fraction 15 = 0.40 0.60 0.00 # OPTIONAL SOIL CHEMISTRY PARAMTERS Fraction Alder 15 = 0.05 Average Stand Age 15 = 45 Annual Litterfall Mass 15 = 0.2 0.10 Overstory Litter Carbon Fraction 15 = 0.48 0.58 Understory Litter Carbon Fraction 15 = 0.48 0.58 Overstory DOC Leachate Fraction 15 = 0.2 0.15 Understory DOC Leachate Fraction 15 = 0.2 0.15 Overstory DON Leachate Fraction 15 = 0.5 0.8 Understory DON Leachate Fraction 15 = 0.5 0.8 Lignin Nitrogen Ratio 15 = 14 14 Overstory Litter CN Ratio 15 = 40 60 Understory Litter CN Ratio 15 = 40 60 Nitrogen Fixing Reference Rate 15 = 200.0 Growing Season Start Day 15 = 0.0 # Julian Day of year Growing Season Length 15 = 240.0 # number of days Maximum Nitrogen Uptake Delay 15 = 180.0 # delay in days Maximum Nitrogen Accumulation 15 = 3000.0 # Maximum nitrogen accumulation of crop, Unit: mg N/m2 Maximum Ammonium Uptake Constant 15 = 4.02e-5 # kg NH4/m2-3hr, Reference: Hangs et al. (2003) Halfrate Ammonium Uptake Constant 15 = 3.7e-3 # kg NH4/m3 water, Reference: Hangs et al. (2003) Overstory Monthly Litter Fraction 15 = 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 Understory Monthly Litter Fraction 15 = 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 ThrufallDOCMultiplier 15 = 6.74 ThrufallDONMultiplier 15 = 5 ThrufallNH4Multiplier 15 = 10 ThrufallNO3Multiplier 15 = 2 ThrufallNO2Multiplier 15 = 2 Vegetation Description 16 = Xeric Conif Forest (Dry) Impervious Fraction 16 = 0.0 Overstory Present 16 = TRUE Understory Present 16 = TRUE Fractional Coverage 16 = 0.9 Hemi Fract Coverage 16 = 0.9 Trunk Space 16 = .5 Aerodynamic Attenuation 16 = 2.0 Radiation Attenuation 16 = 0.15 Max Snow Int Capacity 16 = 0.040 Snow Interception Eff 16 = 0.6 Mass Release Drip Ratio 16 = 0.4 Height 16 = 50.0 0.5 Overstory Monthly LAI 16 = 12.0 12.0 12.0 12.0 12.0 12.0 12.0 12.0 12.0 12.0 12.0 12.0 Understory Monthly LAI 16 = 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 16 = 5000.0 3000.0 Minimum Resistance 16 = 666.6 200.0 Moisture Threshold 16 = 0.33 0.13 Vapor Pressure Deficit 16 = 4000 4000 Rpc 16 = .108 .108 Overstory Monthly Alb 16 = 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 Understory Monthly Alb 16 = 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 Number of Root Zones 16 = 3 Root Zone Depths 16 = 0.10 0.25 0.40 Overstory Root Fraction 16 = 0.20 0.40 0.40 Understory Root Fraction 16 = 0.40 0.60 0.00 # OPTIONAL SOIL CHEMISTRY PARAMTERS Fraction Alder 16 = 0.00 Average Stand Age 16 = 45 Annual Litterfall Mass 16 = 0.2 0.10 Overstory Litter Carbon Fraction 16 = 0.48 0.58 Understory Litter Carbon Fraction 16 = 0.48 0.58 Overstory DOC Leachate Fraction 16 = 0.2 0.15 Understory DOC Leachate Fraction 16 = 0.2 0.15 Overstory DON Leachate Fraction 16 = 0.5 0.8 Understory DON Leachate Fraction 16 = 0.5 0.8 Lignin Nitrogen Ratio 16 = 14 14 Overstory Litter CN Ratio 16 = 40 60 Understory Litter CN Ratio 16 = 40 60 Nitrogen Fixing Reference Rate 16 = 200.0 Growing Season Start Day 16 = 0.0 # Julian Day of year Growing Season Length 16 = 240.0 # number of days Maximum Nitrogen Uptake Delay 16 = 180.0 # delay in days Maximum Nitrogen Accumulation 16 = 3000.0 # Maximum nitrogen accumulation of crop, Unit: mg N/m2 Maximum Ammonium Uptake Constant 16 = 4.02e-5 # kg NH4/m2-3hr, Reference: Hangs et al. (2003) Halfrate Ammonium Uptake Constant 16 = 3.7e-3 # kg NH4/m3 water, Reference: Hangs et al. (2003) Overstory Monthly Litter Fraction 16 = 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 Understory Monthly Litter Fraction 16 = 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 ThrufallDOCMultiplier 16 = 6.74 ThrufallDONMultiplier 16 = 5 ThrufallNH4Multiplier 16 = 10 ThrufallNO3Multiplier 16 = 2 ThrufallNO2Multiplier 16 = 2 Vegetation Description 17 = Mesic Conif Forest (Wet) Impervious Fraction 17 = 0.15 Overstory Present 17 = TRUE Understory Present 17 = TRUE Fractional Coverage 17 = 0.9 Hemi Fract Coverage 17 = 0.9 Trunk Space 17 = .5 Aerodynamic Attenuation 17 = 2.0 Radiation Attenuation 17 = 0.15 Max Snow Int Capacity 17 = 0.060 #17 = 0.040 Snow Interception Eff 17 = 0.6 Mass Release Drip Ratio 17 = 0.6 #17 = 0.4 Height 17 = 50.0 0.5 Overstory Monthly LAI 17 = 12.0 12.0 12.0 12.0 12.0 12.0 12.0 12.0 12.0 12.0 12.0 12.0 Understory Monthly LAI 17 = 4.0 4.0 5.0 5.0 6.0 6.0 7.0 7.0 6.0 5.0 4.0 4.0 Maximum Resistance 17 = 5000.0 3000.0 Minimum Resistance 17 = 666.6 200.0 Moisture Threshold 17 = 0.33 0.13 Vapor Pressure Deficit 17 = 4000 4000 Rpc 17 = .108 .108 Overstory Monthly Alb 17 = 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 Understory Monthly Alb 17 = 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 Number of Root Zones 17 = 3 Root Zone Depths 17 = 0.10 0.25 0.40 Overstory Root Fraction 17 = 0.20 0.40 0.40 Understory Root Fraction 17 = 0.40 0.60 0.00 # OPTIONAL SOIL CHEMISTRY PARAMTERS Fraction Alder 17 = 0.001 Average Stand Age 17 = 45 Annual Litterfall Mass 17 = 0.41 0.1 #0.2 0.10 Edmonds & Murray 2002 lower Wshed Overstory Litter Carbon Fraction 17 = 0.468 0.467 #0.48 0.58 Edmonds 1980 use Douglas fir as rep Understory Litter Carbon Fraction 17 = 0.468 0.467 #0.48 0.58 Overstory DOC Leachate Fraction 17 = 0.5 0.5 #0.2 0.15 Understory DOC Leachate Fraction 17 = 0.5 0.5 #0.2 0.15 Overstory DON Leachate Fraction 17 = 0.5 0.8 Understory DON Leachate Fraction 17 = 0.5 0.8 Lignin Nitrogen Ratio 17 = 19.5 14 #14 14 Overstory Litter CN Ratio 17 = 40 200 #40 60 Metabolic use leaf + needles, structural-cones Understory Litter CN Ratio 17 = 35 50 #40 60 Nitrogen Fixing Reference Rate 17 = 200.0 Growing Season Start Day 17 = 0.0 # Julian Day of year Growing Season Length 17 = 240.0 # number of days Maximum Nitrogen Uptake Delay 17 = 180.0 # delay in days Maximum Nitrogen Accumulation 17 = 3000.0 # Maximum nitrogen accumulation of crop, Unit: mg N/m2 Maximum Ammonium Uptake Constant 17 = 4.02e-5 # kg NH4/m2-3hr, Reference: Hangs et al. (2003) Halfrate Ammonium Uptake Constant 17 = 3.7e-3 # kg NH4/m3 water, Reference: Hangs et al. (2003) Overstory Monthly Litter Fraction 17 = 0.0436 0.0436 0.0436 0.085 0.085 0.0848 0.1416 0.1416 0.1416 0.0632 0.0632 0.0632 #Edmonds & Murray 2002 Understory Monthly Litter Fraction 17 = 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.085 0.084 0.084 ThrufallDOCMultiplier 17 = 6.74 ThrufallDONMultiplier 17 = 5 ThrufallNH4Multiplier 17 = 10 ThrufallNO3Multiplier 17 = 2 ThrufallNO2Multiplier 17 = 2 Vegetation Description 18 = Subalpine Conif Forest Impervious Fraction 18 = 0.15 Overstory Present 18 = TRUE Understory Present 18 = TRUE Fractional Coverage 18 = 0.9 Hemi Fract Coverage 18 = 0.9 Trunk Space 18 = .5 Aerodynamic Attenuation 18 = 2.0 Radiation Attenuation 18 = 0.15 Max Snow Int Capacity 18 = 0.060 Snow Interception Eff 18 = 0.6 Mass Release Drip Ratio 18 = 0.4 Height 18 = 50.0 0.5 Overstory Monthly LAI 18 = 12.0 12.0 12.0 12.0 12.0 12.0 12.0 12.0 12.0 12.0 12.0 12.0 Understory Monthly LAI 18 = 3.0 3.0 4.0 4.0 5.0 5.0 6.0 6.0 5.0 4.0 3.0 3.0 Maximum Resistance 18 = 5000.0 3000.0 Minimum Resistance 18 = 666.6 200.0 Moisture Threshold 18 = 0.33 0.13 Vapor Pressure Deficit 18 = 4000 4000 Rpc 18 = .108 .108 Overstory Monthly Alb 18 = 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 Understory Monthly Alb 18 = 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 Number of Root Zones 18 = 3 Root Zone Depths 18 = 0.10 0.25 0.40 Overstory Root Fraction 18 = 0.20 0.40 0.40 Understory Root Fraction 18 = 0.40 0.60 0.00 # OPTIONAL SOIL CHEMISTRY PARAMTERS Fraction Alder 18 = 0.0 Average Stand Age 18 = 45 Annual Litterfall Mass 18 = 0.425 0.1063 # Overstory Litter Carbon Fraction 18 = 0.495 0.47 #0.48 0.58 Understory Litter Carbon Fraction 18 = 0.495 0.47 #0.48 0.58 Overstory DOC Leachate Fraction 18 = 0.5 0.5 # 0.2 0.15 Understory DOC Leachate Fraction 18 = 0.5 0.5 # 0.2 0.15 Overstory DON Leachate Fraction 18 = 0.5 0.8 Understory DON Leachate Fraction 18 = 0.5 0.8 Lignin Nitrogen Ratio 18 = 19.5 14 #14 14 Overstory Litter CN Ratio 18 = 50 110 #40 60 Understory Litter CN Ratio 18 = 40 60 #40 60 Nitrogen Fixing Reference Rate 18 = 200.0 Growing Season Start Day 18 = 0.0 # Julian Day of year Growing Season Length 18 = 240.0 # number of days Maximum Nitrogen Uptake Delay 18 = 180.0 # delay in days Maximum Nitrogen Accumulation 18 = 3000.0 # Maximum nitrogen accumulation of crop, Unit: mg N/m2 Maximum Ammonium Uptake Constant 18 = 4.02e-5 # kg NH4/m2-3hr, Reference: Hangs et al. (2003) Halfrate Ammonium Uptake Constant 18 = 3.7e-3 # kg NH4/m3 water, Reference: Hangs et al. (2003) Overstory Monthly Litter Fraction 18 = 0.063 0.063 0.063 0.0429 0.0429 0.0429 0.1098 0.1098 0.1098 0.1177 0.1176 0.1176 Understory Monthly Litter Fraction 18 = 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.085 0.084 0.084 ThrufallDOCMultiplier 18 = 6.74 ThrufallDONMultiplier 18 = 5 ThrufallNH4Multiplier 18 = 10 ThrufallNO3Multiplier 18 = 2 ThrufallNO2Multiplier 18 = 2 Vegetation Description 19 = Alpine Meadow * Impervious Fraction 19 = 0.0 Overstory Present 19 = FALSE Understory Present 19 = TRUE Fractional Coverage 19 = Hemi Fract Coverage 19 = Trunk Space 19 = Aerodynamic Attenuation 19 = Radiation Attenuation 19 = Max Snow Int Capacity 19 = Snow Interception Eff 19 = Mass Release Drip Ratio 19 = Height 19 = 0.5 Overstory Monthly LAI 19 = Understory Monthly LAI 19 = 0.5 0.5 0.5 0.5 0.5 1.0 1.0 1.0 1.0 0.5 0.5 0.5 Maximum Resistance 19 = 600 Minimum Resistance 19 = 200 Moisture Threshold 19 = 0.33 Vapor Pressure Deficit 19 = 4000 Rpc 19 = .108 Overstory Monthly Alb 19 = Understory Monthly Alb 19 = 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 19 = 3 Root Zone Depths 19 = 0.10 0.25 0.40 Overstory Root Fraction 19 = Understory Root Fraction 19 = 0.0 0.0 0.0 # OPTIONAL SOIL CHEMISTRY PARAMTERS Fraction Alder 19 = 0.00 Average Stand Age 19 = 45 Annual Litterfall Mass 19 = 0.10 Overstory Litter Carbon Fraction 19 = Understory Litter Carbon Fraction 19 = 0.48 0.58 Overstory DOC Leachate Fraction 19 = Understory DOC Leachate Fraction 19 = 0.2 0.15 Overstory DON Leachate Fraction 19 = Understory DON Leachate Fraction 19 = 0.5 0.8 Lignin Nitrogen Ratio 19 = 14 Overstory Litter CN Ratio 19 = 40 60 Understory Litter CN Ratio 19 = 40 60 Nitrogen Fixing Reference Rate 19 = 200.0 Growing Season Start Day 19 = 0.0 # Julian Day of year Growing Season Length 19 = 240.0 # number of days Maximum Nitrogen Uptake Delay 19 = 180.0 # delay in days Maximum Nitrogen Accumulation 19 = 700.0 # Maximum nitrogen accumulation of crop, Unit: mg N/m2 Maximum Ammonium Uptake Constant 19 = 0.0 # kg NH4/m2-3hr, Reference: Hangs et al. (2003) Halfrate Ammonium Uptake Constant 19 = 3.7e-3 # kg NH4/m3 water, Reference: Hangs et al. (2003) Overstory Monthly Litter Fraction 19 = Understory Monthly Litter Fraction 19 = 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 ThrufallDOCMultiplier 19 = 6.74 ThrufallDONMultiplier 19 = 5 ThrufallNH4Multiplier 19 = 10 ThrufallNO3Multiplier 19 = 2 ThrufallNO2Multiplier 19 = 2 Vegetation Description 20 = Ice Impervious Fraction 20 = 1.0 Overstory Present 20 = FALSE Understory Present 20 = FALSE Fractional Coverage 20 = Hemi Fract Coverage 20 = Trunk Space 20 = Aerodynamic Attenuation 20 = Radiation Attenuation 20 = Max Snow Int Capacity 20 = Snow Interception Eff 20 = Mass Release Drip Ratio 20 = Height 20 = Overstory Monthly LAI 20 = 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 20 = 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 20 = Minimum Resistance 20 = Moisture Threshold 20 = Vapor Pressure Deficit 20 = Rpc 20 = Overstory Monthly Alb 20 = 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 20 = 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 20 = 3 Root Zone Depths 20 = 0.10 0.25 0.40 Overstory Root Fraction 20 = Understory Root Fraction 20 = 0.0 0.0 0.0 # OPTIONAL SOIL CHEMISTRY PARAMTERS Fraction Alder 20 = 0.00 Average Stand Age 20 = 45 Annual Litterfall Mass 20 = 0.0 0.0 Overstory Litter Carbon Fraction 20 = 0.48 0.58 Understory Litter Carbon Fraction 20 = 0.48 0.58 Overstory DOC Leachate Fraction 20 = 0.2 0.15 Understory DOC Leachate Fraction 20 = 0.2 0.15 Overstory DON Leachate Fraction 20 = 0.2 0.15 Understory DON Leachate Fraction 20 = 0.2 0.15 Lignin Nitrogen Ratio 20 = 14 14 Overstory Litter CN Ratio 20 = 40 60 Understory Litter CN Ratio 20 = 40 60 Nitrogen Fixing Reference Rate 20 = 110.0 Growing Season Start Day 20 = 1.0 # Julian Day of year Growing Season Length 20 = 1.0 # number of days Maximum Nitrogen Uptake Delay 20 = 1.0 # delay in days Maximum Nitrogen Accumulation 20 = 0.0 # Maximum nitrogen accumulation of crop, Unit: mg N/m2 Maximum Ammonium Uptake Constant 20 = 0.0 # kg NH4/m2-3hr, Reference: Hangs et al. (2003) Halfrate Ammonium Uptake Constant 20 = 3.7e-3 # kg NH4/m3 water, Reference: Hangs et al. (2003) Overstory Monthly Litter Fraction 20 = 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 Understory Monthly Litter Fraction 20 = 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 0.083 ThrufallDOCMultiplier 20 = 1 ThrufallDONMultiplier 20 = 1 ThrufallNH4Multiplier 20 = 1 ThrufallNO3Multiplier 20 = 1 ThrufallNO2Multiplier 20 = 1 ################################################################################ # MODEL OUTPUT SECTION ################################################################################ [OUTPUT] # Information what to output when Output Directory = ../../models/bigbeef/output/ Output State Directory = ../../models/bigbeef/output/ ################ PIXEL DUMPS ################################################### Number of Output Pixels = 0 # Number of pixels for which to # generate output # 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 = 5297375.7 East Coordinate 1 = 514459.6 Name 1 = GREEN_MTN ################ MODEL STATE ################################################## Number of Model States = 3 # Number of model states to dump # format MM/DD/YYYY-HH #State Date 1 = 10/01/1990-00 State Date 1 = 10/01/1995-00 State Date 2 = 10/01/1998-00 State Date 3 = 10/01/2001-00 ################ MODEL MAPS #################################################### Number of Map Variables = 0 Map Variable 1 = 404 Map Layer 1 = 1 Number of Maps 1 = 3 Map Date 1 1 = 04/01/2001-00 Map Date 2 1 = 04/01/2002-00 Map Date 3 1 = 04/01/2003-00 ############### MODEL VARIABLE AGGREGATED BY ZONE MAPS ######################### NUMBER OF AGGREGATION ZONE VARIABLES = 16 AggZone Variable 1 = 901 AggZone Layer 1 = 1 Number of Zones 1 = 20 Zone File 1 = ../../models/bigbeef/input/bigbeef.ccap.bin AggZone Variable 2 = 902 AggZone Layer 2 = 1 Number of Zones 2 = 20 Zone File 2 = ../../models/bigbeef/input/bigbeef.ccap.bin AggZone Variable 3 = 903 AggZone Layer 3 = 1 Number of Zones 3 = 20 Zone File 3 = ../../models/bigbeef/input/bigbeef.ccap.bin AggZone Variable 4 = 904 AggZone Layer 4 = 1 Number of Zones 4 = 20 Zone File 4 = ../../models/bigbeef/input/bigbeef.ccap.bin AggZone Variable 5 = 905 AggZone Layer 5 = 1 Number of Zones 5 = 20 Zone File 5 = ../../models/bigbeef/input/bigbeef.ccap.bin AggZone Variable 6 = 906 AggZone Layer 6 = 1 Number of Zones 6 = 20 Zone File 6 = ../../models/bigbeef/input/bigbeef.ccap.bin AggZone Variable 7 = 907 AggZone Layer 7 = 1 Number of Zones 7 = 20 Zone File 7 = ../../models/bigbeef/input/bigbeef.ccap.bin AggZone Variable 8 = 908 AggZone Layer 8 = 1 Number of Zones 8 = 20 Zone File 8 = ../../models/bigbeef/input/bigbeef.ccap.bin AggZone Variable 9 = 909 AggZone Layer 9 = 1 Number of Zones 9 = 20 Zone File 9 = ../../models/bigbeef/input/bigbeef.ccap.bin AggZone Variable 10 = 910 AggZone Layer 10 = 1 Number of Zones 10 = 20 Zone File 10 = ../../models/bigbeef/input/bigbeef.ccap.bin AggZone Variable 11 = 911 AggZone Layer 11 = 1 Number of Zones 11 = 20 Zone File 11 = ../../models/bigbeef/input/bigbeef.ccap.bin AggZone Variable 12 = 912 AggZone Layer 12 = 1 Number of Zones 12 = 20 Zone File 12 = ../../models/bigbeef/input/bigbeef.ccap.bin AggZone Variable 13 = 900 AggZone Layer 13 = 1 Number of Zones 13 = 20 Zone File 13 = ../../models/bigbeef/input/bigbeef.ccap.bin AggZone Variable 14 = 913 AggZone Layer 14 = 1 Number of Zones 14 = 20 Zone File 14 = ../../models/bigbeef/input/bigbeef.ccap.bin AggZone Variable 15 = 914 AggZone Layer 15 = 1 Number of Zones 15 = 20 Zone File 15 = ../../models/bigbeef/input/bigbeef.ccap.bin AggZone Variable 16 = 915 AggZone Layer 16 = 1 Number of Zones 16 = 20 Zone File 16 = ../../models/bigbeef/input/bigbeef.ccap.bin # Some Important Variable Numbers # 100 PET (actual not the wierd dynamic internal one) # 101 Total ET, that actually ocurs # 404 SWE # 801 Groundwater storage # 802 Groundwater deep loss # 803 Groundwater recharge to aquifer # 804 Groundwater return from aquifer (to soil) # 900: // 900, "N.State" sum of all N in state layers (detritus,surface,soil,gw) # 901: // 901, "N.Litter", # 902: // 902, "N.Alder", # 903: // 903, "N.Atmos", # 904: // 904, "N.Anthro", # 905: // 905, "N.Nitrification", # 906: // 906, "N.Denitrification", # 907: // 907, "N.Volatilazation", # 908: // 908, "N.LeachedDON", # 909: // 909, "N.PlantUptake", # 910: // 910, "N.Mineralized", # 911: // 911, "N.Respiration", # 912: // 912, "N.SorbedNH4", # 913: // 913, "N.SorbedDON", # 914: // 914, "C.Mineralized", # 915: // 915, "C.LeachedDOC", # 916: // 916, "C.Respiration", # 917: // 917, "C.SorbedDOC", # 1001 SwOut (m3) SoilMap[y][x].OutFlow # 1002 GwOut (m3) Groundwater[y][x].GwOut # 1003 SwVelocity (m/s) SoilMap[y][x].OutVelocity # 1004 GwVelocity (m/s) Groundwater[y][x].GwVelocity # 1005 Nitrogen fixed by vegetation (kg) VegMap[y][x].N_fixed # 1100 Groundwater NH4 concentration kg/m3 (as NH4) # 1101 Groundwater NO3 concentration kg/m3 (as NH4) # 1102 Groundwater N02 concentration kg/m3 (as NH4) # 1103 Groundwater DON concentration kg/m3 (as N) ################ 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 = 404 # Code for the variable to output # See the DHSVM web page for more # information 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 = 11/10/1974-00 # First timestep for which to output # an image Image End 1 = 02/01/1975-00 # Last timestep for which to output # an image Image Interval 1 = 24 # 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 Graphics ID 1 = 136 Graphics ID 2 = 130 Graphics ID 3 = 131 Graphics ID 4 = 132 Graphics ID 5 = 128 Graphics ID 6 = 89 Graphics ID 7 = 71 Graphics ID 8 = 89 Graphics ID 9 = 144 Graphics ID 10 = 143 Graphics ID 11 = 15 Graphics ID 12 = 27 # 1 SWE (mm) # 2 Water Table Depth (mm) # 3 Digital Elevation Model (m) # 4 Vegetation Class (index #) # 5 Soil Class (index #) # 6 Geology Class (index #) # 7 Soil Depth (mm) # 8 Precipitation at current time step (mm/time step) # 9 Incoming Shortwave (Beam and Diffuse) (W/sqm) # 10 Intercepted Snow (mm) # 11 Snow Surface Temp (C) # 12 Cold Content of snow entire snow pack (kJ) # 13 Snow Melt (as Outflow minus Precip, can be negative) (mm/time step) # 14 Snow Pack Outflow (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) # 27 Deep Layer Storage (%sat) # 28 Saturated Subsurface Flow (mm/time step) # 31 Overstory Transpiration (mm) # 32 Understory Transpirtation (mm) # 33 Soil Evaporation (mm) # 34 Overstory Evaporation (mm) # 35 Understory Evaportation (mm) # 36 Groundwater Surface Elevation # 37 Re-Infiltration from Channel to Soil(mm) # 38 # 39 # 40 # 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) # 47 Groundwater Recharge (mm) # 48 Groundwater Return (mm) # 49 Groundwater Storage (m) # 50 Groundwater DeepLoss (mm) # 51 Groundwater fraction saturated (%) # 60 Channel Subsurface Interception (mm) # 61 Road Subsurface Interception (mm) # 62 DOC in Soil (kg/m2) # 63 H2CO3 in Soil (kg/m2) # 64 HCO3 on Soil (kg/m2) # 65 CO3 in Soil (kg/m2) # 66 H2CO3 in GW (kg/m2) # 67 HCO3 in GW (kg/m2) # 68 CO3 in GW (kg/m2) # 69 DOC in GW (kg/m2) # 70 Detrital OC pool (mg/m2) # 71 Detrital ON pool (mg/m2) # 72 GW Water Tracer mass (mg) # 73 Runoff Tracer Concentration (mg/m^3) # 74 Soil Tracer Concentration (mg/m^3) # 75 GW Water Tracer Concentration (mg/m^3) # 76 Tracer to Deep Loss # 77 Soil pH # 78 Groundwater pH # 80s reserved for Soil Chemistry Input Maps # 80 Potential Evapotranspitarion (mm) # 81 VegPix->LitterLeachDOC, Total DOC leaching from Litter to Soil, mg/m2 # 82 VegPix->ThrufallDOC, Atmospheric deposition of DOC (mg/m2) # 83 VegPix->LitterLeachDON, Total DOC leaching from Litter to Soil, mg/m2 # 84 VegPix->ThrufallDON, Atmospheric deposition of DOC (mg/m2) # 85 Sorbed DOC in soil in kg # 86 Sorbed DON in soil in kg # 87 Sorbed NH4 in soil in kg # 88 Soilwater DO concentration (mg/L) # 89 Percent Oxygen Saturation in Soil Water (%) # 90s are Stream Segment values, only usable when CHEMISTRY ifs TRUE # 90 Water, outflow that gets put into Streamflow.Only # 91 Temperatre, Strem temp value that goes into Streamtemp.Only # 92 pH, goes to Stream.Chem. # 93 Tracer, goes to Stream.Chem, concentration in mg/m^3 # 94 DOC, goes to Stream.Chem, concentration in mg/m^3 # 95 DON, goes to Stream.Chem, concentration in mg/m^3 # 96 H2CO3, goes to Stream.Chem, concentration in mg/m^3 # 97 HCO3, goes to Stream.Chem, concentration in mg/m^3 # 98 CO3, goes to Stream.Chem, concentration in mg/m^3 # 99 NH4, goes to Stream.Chem, concentration in mg/m^3 # 100 NO3, goes to Stream.Chem, concentration in mg/m^3 # 101 NO2, goes to Stream.Chem, concentration in mg/m^3 # 102 Channel Alkalinity # 103 water depth in channel # 110 Partial Pressure of CO2 in unsaturated layer of Soil ( ppmv ) # 111 Partial Pressure of CO2 in atmosphere (ppmv) # 112 CO2 exchange, (outgassing in kg) # 113 CO2 created by respiration (kg) # 120 Water out of soil pixel (m3) # 121 water out of gw pixel (m3) # 122 Soil flow velocity pixel (m/s) # 123 Grooundwater flow velocity (m/s) # 124 Nitrogen Uptake by Veg (kg) # 125 Nitrogen Fixed by Veg (kg) # 126 O2 exchange (kg/m2)" # 127 Volatilazation (kg lost of NH4) # 128 Nitrification (kg of N produced as NO3 from NH4) # 129 Denitrification (kg of N removed from NO3 to N2 gas) # 130 NH4 in Soil (mg/m2) # 131 NO3 in Soil (mg/m2) # 132 NO2 in Soil (mg/m2) # 133 NH4 in GW (mg/m2) # 134 NO3 in GW (mg/m2) # 135 NO2 in GW (mg/m2) # 136 DON in soil (kg/m2) # 137 DON in GW (kg/m2) # 138 DON surface_input (kg/m2) # 139 NH4 on Surface (mg/m2) # 140 MetabolicDON Pool (kg/m2) # 141 Soil Alkalinity # 142 GW Alkalinity # 143 Soil DON sorbed fraction # 144 Satflow ratio # 145 StruturalDOC Pool (mg/m2) # 146 MetabolicDOC Pool (mg/m2) # 160 Glacier # 161 Glacier # 162 Glacier # 170 NSourceAlder (kg) # 171 NSourceAnthro (kg) # 172 NSourceAtmos (kg) # 173 NSourceLitter (kg) # 174 N Mineralized (mg/m2) # 175 N Mineralized (mg/m2) # 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)