SAGA-GIS Tool Library Documentation (v7.7.0)

Tool SHALSTAB


This tool is a realization of the SHALSTAB (Shallow Slope Stability) model from Montgomery & Dietrich (1994). The model computes grid cell critical shallow groundwater recharge values (CR in mm/day) as a measure for relative shallow slope stability, utilizing a simple model that combines a steady-state hydrologic model (a topographic wetness index) to predict groundwater pressures with an infinite slope stability model. For computation, a slope (in radians) and a catchment area (in m2) grid are required. Additionally, information on material density (g/cm3), material friction angle (°), material hydraulic conductivity (m/hr), bulk cohesion (MPa) and depth to potential shear plane (m) are required that can be specified either globally or through grids. The tool produces a continuous CR (mm/day) raster with unconditionally stable cells blanked, and unconditionally unstable cells as CR = 0. Optionally, a classified CR grid can be calculated representing seven stability classes.

Reference: Montgomery D. R., Dietrich, W. E. (1994) A physically based model for the topographic control on shallow landsliding. Water Resources Research, 30, 1153-1171..

Parameters

 NameTypeIdentifierDescriptionConstraints
InputSlope grid (rad)Grid, inputAA slope angle grid (in radíans)-
Catchment area grid (m2)Grid, inputBA catchment area grid (in square meters)-
Min Density grid (g/cm3) (*)Grid, input, optionalCminA grid representing minimum material density (in g/cm3)-
Max Density grid (g/cm3) (*)Grid, input, optionalCmaxA grid representing maximum material density (in g/cm3)-
Min Hydraulic conductivity grid (m/hr) (*)Grid, input, optionalDminA grid representing minimum material hydraulic conductivity (in m/hr)-
Max Hydraulic conductivity grid (m/hr) (*)Grid, input, optionalDmaxA grid representing maximum material hydraulic conductivity (in m/hr)-
Min Thickness grid (m) (*)Grid, input, optionalEminA grid representing minimum material thickness (in m)-
Max Thickness grid (m) (*)Grid, input, optionalEmaxA grid representing maximum material thickness (in m)-
Min Friction angle grid (degree) (*)Grid, input, optionalFminA grid representing minimum material friction angle (in degrees)-
Max Friction angle grid (degree) (*)Grid, input, optionalFmaxA grid representing maximum material friction angle (in degrees)-
Min Bulk cohesion grid (MPa) (*)Grid, input, optionalJminA grid representing minimum bulk cohesion-
Max Bulk cohesion grid (MPa) (*)Grid, input, optionalJmaxA grid representing maximum bulk cohesion-
OutputCR valuesGrid, outputGResulting critical recharge (m/day) grid-
CR classes (*)Grid, output, optionalHClassified critical recharge (-) grid-
OptionsGrid SystemGrid systemPARAMETERS_GRID_SYSTEM--
Global minimum density (g/cm3)Floating pointfCminConstant value if no raster setDefault: 1.600000
Global maximum density (g/cm3)Floating pointfCmaxConstant value if no raster setDefault: 1.600000
Global minimum conductivity (m/hr)Floating pointfDminConstant value if no raster setDefault: 2.700000
Global maximum conductivity (m/hr)Floating pointfDmaxConstant value if no raster setDefault: 2.700000
Global minimum thickness (m)Floating pointfEminConstant value if no raster setDefault: 1.000000
Global maximum thickness (m)Floating pointfEmaxConstant value if no raster setDefault: 1.000000
Global minimum friction angle (degree)Floating pointfFminConstant value if no raster setDefault: 33.000000
Global maximum friction angle (degree)Floating pointfFmaxConstant value if no raster setDefault: 33.000000
Global minimum bulk cohesion (MPa)Floating pointfJminConstant value if no raster setDefault: 0.000000
Global maximum bulk cohesion (MPa)Floating pointfJmaxConstant value if no raster setDefault: 0.000000
Parameter sampling runsIntegerfKNumber of sampling cyclesDefault: 1
(*) optional

Command-line

Usage: saga_cmd ta_slope_stability 2 [-A <str>] [-B <str>] [-Cmin <str>] [-Cmax <str>] [-Dmin <str>] [-Dmax <str>] [-Emin <str>] [-Emax <str>] [-Fmin <str>] [-Fmax <str>] [-Jmin <str>] [-Jmax <str>] [-fCmin <double>] [-fCmax <double>] [-fDmin <double>] [-fDmax <double>] [-fEmin <double>] [-fEmax <double>] [-fFmin <double>] [-fFmax <double>] [-fJmin <double>] [-fJmax <double>] [-fK <num>] [-G <str>] [-H <str>]
  -A:<str>       	Slope grid (rad)
	Grid, input
  -B:<str>       	Catchment area grid (m2)
	Grid, input
  -Cmin:<str>    	Min Density grid (g/cm3)
	Grid, input, optional
  -Cmax:<str>    	Max Density grid (g/cm3)
	Grid, input, optional
  -Dmin:<str>    	Min Hydraulic conductivity grid (m/hr) 
	Grid, input, optional
  -Dmax:<str>    	Max Hydraulic conductivity grid (m/hr) 
	Grid, input, optional
  -Emin:<str>    	Min Thickness grid (m)
	Grid, input, optional
  -Emax:<str>    	Max Thickness grid (m)
	Grid, input, optional
  -Fmin:<str>    	Min Friction angle grid (degree) 
	Grid, input, optional
  -Fmax:<str>    	Max Friction angle grid (degree) 
	Grid, input, optional
  -Jmin:<str>    	Min Bulk cohesion grid (MPa) 
	Grid, input, optional
  -Jmax:<str>    	Max Bulk cohesion grid (MPa) 
	Grid, input, optional
  -fCmin:<double>	Global minimum density (g/cm3)
	Floating point
	Default: 1.600000
  -fCmax:<double>	Global maximum density (g/cm3)
	Floating point
	Default: 1.600000
  -fDmin:<double>	Global minimum conductivity (m/hr)
	Floating point
	Default: 2.700000
  -fDmax:<double>	Global maximum conductivity (m/hr)
	Floating point
	Default: 2.700000
  -fEmin:<double>	Global minimum thickness (m)
	Floating point
	Default: 1.000000
  -fEmax:<double>	Global maximum thickness (m)
	Floating point
	Default: 1.000000
  -fFmin:<double>	Global minimum friction angle (degree)
	Floating point
	Default: 33.000000
  -fFmax:<double>	Global maximum friction angle (degree)
	Floating point
	Default: 33.000000
  -fJmin:<double>	Global minimum bulk cohesion (MPa)
	Floating point
	Default: 0.000000
  -fJmax:<double>	Global maximum bulk cohesion (MPa)
	Floating point
	Default: 0.000000
  -fK:<num>      	Parameter sampling runs
	Integer
	Default: 1
  -G:<str>       	CR values
	Grid, output
  -H:<str>       	CR classes
	Grid, output, optional