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==Calculating soil loss - Universal Soil Loss Equation==
 
==Calculating soil loss - Universal Soil Loss Equation==
[[File:Erodibility table 2.png|400px|thumb|alt=table with soil erodibility|<font size=3>Soil erodibility index</font size>]]
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[[File:Erodibility table 2.png|300px|thumb|alt=table with soil erodibility|<font size=3>Soil erodibility index</font size>]]
  
 
The Universal Soil Loss Equation (USLE) and it's update, the Revised Universal Soil Loss Equation (RUSLE) are used to predict sheet and rill erosion. These equations do not apply to gully erosion and dispersive soils. The annual soil loss, in tons per acre, is given by the following formula.
 
The Universal Soil Loss Equation (USLE) and it's update, the Revised Universal Soil Loss Equation (RUSLE) are used to predict sheet and rill erosion. These equations do not apply to gully erosion and dispersive soils. The annual soil loss, in tons per acre, is given by the following formula.

Revision as of 20:06, 17 March 2020

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Erodibility describes or is a measure of the inherent resistance of geologic materials (soils and rocks) to erosion. Highly erodible geologic materials are readily displaced and transported by water. This page provides basic information about soil erodibility.

Types of soil erosion

image of soil erosion
Illustration of four types of soil erosion.

There are four types of soil erosion.

  1. Sheet erosion: the uniform removal of soil in thin layers by the forces of raindrops and overland flow. It can be a very effective erosive process because it can cover large areas of sloping land and go unnoticed for quite some time National Soil Erosion Research Laboratory.
  2. Rill erosion: the removal of soil by concentrated water running through little streamlets, or headcuts. Detachment in a rill occurs if the sediment in the flow is below the amount the load can transport and if the flow exceeds the soil's resistance to detachment National Soil Erosion Research Laboratory.
  3. Gully erosion: the removal of soil along drainage lines by surface water runoff. Once started, gullies will continue to move by headward erosion or by slumping of the side walls unless steps are taken to stabilise the disturbance Agriculture Victoria.
  4. Dispersive soils: dispersive soils are structurally unstable, which makes them vulnerable to the forms of erosion described above. Dispersive soils are typically clay soils with an exchangeable sodium percent greater than 5%.

Calculating soil loss - Universal Soil Loss Equation

table with soil erodibility
Soil erodibility index

The Universal Soil Loss Equation (USLE) and it's update, the Revised Universal Soil Loss Equation (RUSLE) are used to predict sheet and rill erosion. These equations do not apply to gully erosion and dispersive soils. The annual soil loss, in tons per acre, is given by the following formula.

Annual soil loss = R * K * LS * C * P

where

  • R = rainfall erosivity factor
  • K = soil erodibility factor
  • LS = slope length and gradient factor
  • C = cover management factor
  • P = erosion control practice factor

RUSLE factors are observable in the field and fairly simple to derive. The R and K variables are generally out of the hands of the construction site operator. Slope (S) and slope length (L) can sometimes be managed or impacted during the design phase of project development. Two RUSLE variables which can be controlled at active construction sites – the cover and practices factors (i.e., variables C and P) – are the focus of the erosion prevention measures. Erosion prevention practices, which mostly include soil preparation, vegetation, and the application of a mulch, blanket, mat, or other cover on bare soil, are the easiest, cheapest, and most effective approach for addressing runoff from construction sites. Sediment control – settling soil particles from temporarily ponded runoff water or filtering it using silt fencing or other materials – is more difficult, more expensive, and requires much more maintenance.

For more information on the USLE and RUSLE, see the following.