NAME
r.shalstab - A model for shallow landslide susceptibility.KEYWORDS
raster, critical rainfall, landslideSYNOPSIS
r.shalstab
r.shalstab --helpr.shalstab dem=name phy=name c_soil=name gamma=name z=name k=name [root=name] susceptibility=susceptibility critic_rain=critical rain [--overwrite] [--help] [--verbose] [--quiet] [--ui]
Flags:
- --overwrite
- Allow output files to overwrite existing files
- --help
- Print usage summary
- --verbose
- Verbose module output
- --quiet
- Quiet module output
- --ui
- Force launching GUI dialog
Parameters:
- dem=name [required]
- Name of input elevation raster map
- phy=name [required]
- Soil friction angle (angle)
- c_soil=name [required]
- Soil cohesion (N/m^2)
- gamma=name [required]
- Soil density(Kg/m^3)
- z=name [required]
- Vertical thickness of soil (m)
- k=name [required]
- hydraulic conductivity (m/h)
- root=name
- Root cohesion k (N/m^2)
- susceptibility=susceptibility [required]
- Name for output landslide susceptibility map (from 1 to 7)
- critic_rain=critical rain [required]
- Name for output critical rainfall map (mm/day)
Table of contents
DESCRIPTION
r.shalstab allows to apply the algorithm developed by Montgomery and Dietrich (1994) in GRASS GIS. According to these authors, the models associate the theories of infinite slope, where the strength of soil share at the discretion of rupture of Mohr Coulomb, with the hydrological model O'Loughlin (1986), resulting in equation. Requested input and output.The command requires some input:
- DEM a digital terrain model of the study area;
- Raster map or single value for soil cohesion (N/m^2);
- Raster map or single value for soil friction angle (°);
- Raster map or single value for soil density (kg/m^3);
- Raster map or single value for vertical thickness of soil (m);
- Raster map or single value for hydraulic conductivity k (m/h);
- Raster map or single value for root cohesion (N/m^2); (default = 0)
- Raster map or single value for wet soil density (kg/m^3). (default = 2100)
- 1 Unconditionally Unstable
- 2 0-30 mm/day
- 3 31-100 mm/day
- 4 101-150 mm/day
- 5 151-200 mm/day
- 6 201-999 mm/day
- 7 Stable
REFERENCES
Montgomery, D. R. and Dietrich, W. E.: A physically based model for the topographic control of shallow landsliding,Water Resour. Res., 30, 1153-1171, 1994.AUTHORS
Andrea Filipello, University of Turin, ItalyDaniele Strigaro, University of Milan, Italy
SOURCE CODE
Available at: r.shalstab source code (history)
Latest change: Monday Jan 30 19:52:26 2023 in commit: cac8d9d848299297977d1315b7e90cc3f7698730
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