Improvement to the prediction of the USLE 'K' factor

Shabani, Farzin; Kumar, Lalit; Esmaeili, Atefeh

doi:10.1016/j.geomorph.2013.08.008

Author(s)

Shabani, Farzin

Kumar, Lalit

Esmaeili, Atefeh

Publication Date

2014

Abstract

In the Universal Soil Loss Equation (USLE), the soil erodibility factor ('K') corresponds to the collective effects of the detachment susceptibility of soil and the sediment transportability as well as the amount and rate of runoff under a given rainfall erosivity. Based on the USLE equation, 'K' is sensitive to the particle size distribution ('M'), the percentage of organic matter (%'OM'), soil structure ('Z'), and soil permeability ('perm'). This study evaluated the sensitivity of 'K' to lime content (%'lime') in the soil and slope (%'slope') of the site. Although the effects of the slope factor ('S') on the amount of soil loss ('A') have been independently taken into account in the USLE, our results and other studies showed that 'K' is highly sensitive to other factors including %'lime' and %'slope'. To evaluate the appropriateness of the USLE nomograph and other methods for estimating 'K' and to develop a 'K' estimation method for limy soils, a set of 'K' values were measured in northern Iran using standard plots and natural precipitation events, for four different land uses (forest, rangeland, irrigated farming, and dry farming) and three slope categories (3-8%, 8-18% and 18-40%). Results indicated that there was considerable association between 'K' and soil properties including the contents of sand, silt, very fine sand, organic matter and particularly lime, as well as slope inclination. A strong linear relationship was observed between the 'K' values estimated from our model and the measured 'K' was observed (adjusted 'R'² = 0.89), indicating that considering lime and slope gives a better estimate of 'K'.

Citation

Geomorphology, v.204, p. 229-234

ISSN

1872-695X

0169-555X

Link

https://hdl.handle.net/1959.11/14009

Language

en

Publisher

Elsevier BV

Title

Improvement to the prediction of the USLE 'K' factor

Type of document

Journal Article

Entity Type

Publication

Author(s)	Shabani, Farzin Kumar, Lalit Esmaeili, Atefeh
Publication Date	2014
Abstract	In the Universal Soil Loss Equation (USLE), the soil erodibility factor ('K') corresponds to the collective effects of the detachment susceptibility of soil and the sediment transportability as well as the amount and rate of runoff under a given rainfall erosivity. Based on the USLE equation, 'K' is sensitive to the particle size distribution ('M'), the percentage of organic matter (%'OM'), soil structure ('Z'), and soil permeability ('perm'). This study evaluated the sensitivity of 'K' to lime content (%'lime') in the soil and slope (%'slope') of the site. Although the effects of the slope factor ('S') on the amount of soil loss ('A') have been independently taken into account in the USLE, our results and other studies showed that 'K' is highly sensitive to other factors including %'lime' and %'slope'. To evaluate the appropriateness of the USLE nomograph and other methods for estimating 'K' and to develop a 'K' estimation method for limy soils, a set of 'K' values were measured in northern Iran using standard plots and natural precipitation events, for four different land uses (forest, rangeland, irrigated farming, and dry farming) and three slope categories (3-8%, 8-18% and 18-40%). Results indicated that there was considerable association between 'K' and soil properties including the contents of sand, silt, very fine sand, organic matter and particularly lime, as well as slope inclination. A strong linear relationship was observed between the 'K' values estimated from our model and the measured 'K' was observed (adjusted 'R'² = 0.89), indicating that considering lime and slope gives a better estimate of 'K'.
Citation	Geomorphology, v.204, p. 229-234
ISSN	1872-695X 0169-555X
Link	https://hdl.handle.net/1959.11/14009
Language	en
Publisher	Elsevier BV
Title	Improvement to the prediction of the USLE 'K' factor
Type of document	Journal Article
Entity Type	Publication

Improvement to the prediction of the USLE 'K' factor

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