LS-Factor, Field Based
- Author: O.Conrad (c) 2013
- Menu: Terrain Analysis | Hydrology | Topographic Indices
Description
Calculation of slope length (LS) factor as used for the Universal Soil Loss Equation (USLE), based on slope and (specific) catchment area, latter as substitute for slope length. This tool takes only a Digital Elevation Model (DEM) as input and derives catchment areas according to Freeman (1991). Optionally field polygons can be supplied. Is this the case, calculations will be performed field by field, i.e. catchment area calculation is restricted to each field's area.
References
- Boehner, J. & Selige, T. (2006): Spatial Prediction of Soil Attributes Using Terrain Analysis and Climate Regionalisation. In: Boehner, J., McCloy, K.R., Strobl, J.: 'SAGA - Analysis and Modelling Applications', Goettinger Geographische Abhandlungen, 115, 13-27.
- Desmet, P.J.J. & Govers, G. (1996): A GIS Procedure for Automatically Calculating the USLE LS Factor on Topographically Complex Landscape Units. Journal of Soil and Water Conservation, 51(5), 427-433.
- Freeman, G.T. (1991): Calculating catchment area with divergent flow based on a regular grid. Computers and Geosciences, 17:413-22.
- Kinnell, P.I.A. (2005): 'Alternative Approaches for Determining the USLE-M Slope Length Factor for Grid Cells. soil.scijournals.org, 69/3/674 http://soil.scijournals.org/cgi/content/full/69/3/674.
- Moore, I.D., Grayson, R.B., Ladson, A.R. (1991): Digital terrain modelling: a review of hydrogical, geomorphological, and biological applications. Hydrological Processes, Vol.5, No.1.
- Moore, I.D., Nieber, J.L. (1991): Landscape assessment of soil erosion and nonpoint source pollution. J. Minnesota Acad. Sci., 55, 18-25.
- Wischmeier, W.H., Smith, D.D. (1978): Predicting rainfall erosion losses - A guide to conservation planning. Agriculture Handbook No. 537: US Department of Agriculture, Washington DC.
Parameters
| | Name | Type | Identifier | Description | Constraints |
|---|
| Input | Elevation | grid, input | DEM | - | - |
| Fields | shapes, input, optional | FIELDS | - | - |
| Output | Field Statistics | shapes, output, optional | STATISTICS | - | - |
| Upslope Length Factor | grid, output, optional | UPSLOPE_AREA | - | - |
| Effective Flow Length | grid, output, optional | UPSLOPE_LENGTH | - | - |
| Upslope Slope | grid, output, optional | UPSLOPE_SLOPE | - | - |
| LS Factor | grid, output | LS_FACTOR | - | - |
| Sediment Balance | grid, output, optional | BALANCE | - | - |
| Options | Grid System | grid system | PARAMETERS_GRID_SYSTEM | - | - |
| LS Calculation | choice | METHOD | - | Available Choices:
[0] Moore & Nieber 1989
[1] Desmet & Govers 1996
[2] Wischmeier & Smith 1978
Default: 0 |
| Type of Slope | choice | METHOD_SLOPE | - | Available Choices:
[0] local slope
[1] distance weighted average catchment slope
Default: 0 |
| Specific Catchment Area | choice | METHOD_AREA | - | Available Choices:
[0] specific catchment area (contour length simply as cell size)
[1] specific catchment area (contour length dependent on aspect)
[2] catchment length (square root of catchment area)
[3] effective flow length
Default: 1 |
| Feet Adjustment | boolean | FEET | Needed if area and lengths come from coordinates measured in feet. | Default: 0 |
| Stop at Edge | boolean | STOP_AT_EDGE | - | Default: 1 |
| Rill/Interrill Erosivity | floating point number | EROSIVITY | - | Minimum: 0.000000
Default: 1.000000 |
| Stability | choice | STABILITY | - | Available Choices:
[0] stable
[1] instable (thawing)
Default: 0 |
Command Line
Usage: saga_cmd ta_hydrology 25 [-DEM ] [-FIELDS ] [-STATISTICS ] [-UPSLOPE_AREA ] [-UPSLOPE_LENGTH ] [-UPSLOPE_SLOPE ] [-LS_FACTOR ] [-BALANCE ] [-METHOD ] [-METHOD_SLOPE ] [-METHOD_AREA ] [-FEET ] [-STOP_AT_EDGE ] [-EROSIVITY ] [-STABILITY ]
-DEM: Elevation
grid, input
-FIELDS: Fields
shapes, input, optional
-STATISTICS: Field Statistics
shapes, output, optional
-UPSLOPE_AREA: Upslope Length Factor
grid, output, optional
-UPSLOPE_LENGTH: Effective Flow Length
grid, output, optional
-UPSLOPE_SLOPE: Upslope Slope
grid, output, optional
-LS_FACTOR: LS Factor
grid, output
-BALANCE: Sediment Balance
grid, output, optional
-METHOD: LS Calculation
choice
Available Choices:
[0] Moore & Nieber 1989
[1] Desmet & Govers 1996
[2] Wischmeier & Smith 1978
Default: 0
-METHOD_SLOPE: Type of Slope
choice
Available Choices:
[0] local slope
[1] distance weighted average catchment slope
Default: 0
-METHOD_AREA: Specific Catchment Area
choice
Available Choices:
[0] specific catchment area (contour length simply as cell size)
[1] specific catchment area (contour length dependent on aspect)
[2] catchment length (square root of catchment area)
[3] effective flow length
Default: 1
-FEET: Feet Adjustment
boolean
Default: 0
-STOP_AT_EDGE: Stop at Edge
boolean
Default: 1
-EROSIVITY: Rill/Interrill Erosivity
floating point number
Minimum: 0.000000
Default: 1.000000
-STABILITY: Stability
choice
Available Choices:
[0] stable
[1] instable (thawing)
Default: 0