table of contents
r.uslek(1grass) | GRASS GIS User's Manual | r.uslek(1grass) |
NAME¶
r.uslek - Computes USLE Soil Erodibility Factor (K).
KEYWORDS¶
raster, hydrology, soil, erosion
SYNOPSIS¶
r.uslek
r.uslek --help
r.uslek psand=name pclay=name
psilt=name pomat=name output=name
[--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:¶
- psand=name [required]
-
Name of soil sand fraction raster map [0.0-1.0] - pclay=name [required]
-
Name of soil clay fraction raster map [0.0-1.0] - psilt=name [required]
-
Name of soil silt fraction raster map [0.0-1.0] - pomat=name [required]
-
Name of soil organic matter raster map [0.0-1.0] - output=name [required]
-
Name for output USLE K factor raster map [t.ha.hr/ha.MJ.mm]
DESCRIPTION¶
r.uslek calculates the USLE K factor, that is the Soil Erodibility Factor. It takes input of soil texture classes (sand, clay, silt) and organic matter, all in range of [0.0-1.0]. The FAO World Soil CD documentation was used to produce the conversion system between soil textures and soil classes. The soil classes are in number of 12 and apparently come from a USDA publication of 1951 (p.209). Once the soil classes have been identified (by vector cross-products tests), a general conversion table was applied for transforming soil classes into K factor.
NOTES¶
r.watershed provides for USLE L, S, LS factors.
EXAMPLE¶
Calculate the USLE K factor (synthetic values, North Carolina
sample dataset):
# NC data: simulation g.region rural_1m -p r.mapcalc "sand = 0.11" r.mapcalc "clay = 0.47" r.mapcalc "silt = 0.42" r.mapcalc "organ = 0.0136" r.uslek psand=sand pclay=clay psilt=silt pomat=organ output=usle_k r.univar usle_k # Result: uslek = 0.25
Example with small variations (condition: d_sand + d_clay + d_silt
=> 1.0)
# NC data: simulation r.mapcalc -s "sand_r = rand(0.09,0.13)" r.mapcalc -s "clay_r = rand(0.45,0.49)" r.mapcalc -s "silt_r = rand(0.40,0.44)" r.mapcalc -s "organ = rand(0.01,0.70)" r.mapcalc "temp_sum = sand_r + clay_r + silt_r" r.mapcalc "sand = sand_r / temp_sum" r.mapcalc "clay = clay_r / temp_sum" r.mapcalc "silt = silt_r / temp_sum" r.mapcalc "test = sand + clay + silt" r.info -r test g.remove -f rast name=sand_r,clay_r,silt_r,temp_sum,test r.uslek psand=sand pclay=clay psilt=silt pomat=organ output=usle_k r.univar usle_k # Result: uslek = variable values
SEE ALSO¶
r.usler, r.watershed
AUTHOR¶
Yann Chemin, SIC-ISDC, Turkmenistan
SOURCE CODE¶
Available at: r.uslek source code (history)
Accessed: Sunday Jan 22 07:36:39 2023
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