The role of fine and coarse roots in shallow slope stability and soil erosion control with a focus on root system architecture: a review

Reubens, Bert; Poesen, Jean; Danjon, Fréderic; Geudens, Guy; Muys, Bart

doi:10.1007/s00468-007-0132-4

Cited by 495 publications

(357 citation statements)

References 98 publications

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“…Soil and crop properties such as soil texture, porosity (n), bulk density (ρ), vegetation types, and root structures can strongly influence the soils' hydraulic properties [15]. Our knowledge of soil hydraulic and physical processes and the associated changes and interactions through soil matrices driven by environmental and/or ecological factors needs to be continuously improved to mitigate potential adverse impacts of future land modifications on soil functioning.…”

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confidence: 99%

Effects of Land Use and Management on SoilHydraulic Properties

et al. 2015

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Soil hydraulic properties are among the most important parameters that determine soil quality and its capability to serve the ecosystem. Land use can significantly influence soil properties, including its hydraulic conditions; however, additional factors, such as changes in climate (temperature and precipitation), can further influence the land use effects on soil hydraulic properties. In order to develop possible adaptation measures and mitigate any negative effects of land use and climatic changes, it is important to study the impact of land use and changes in land use on soil hydraulic properties. In this paper, we summarize recent studies examining the effect of land use/land cover and the associated changes in soil hydraulic properties, mainly focusing on agricultural scenarios of cultivated croplands and different tillage systems.

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confidence: 99%

Effects of Land Use and Management on SoilHydraulic Properties

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“…It appeared to be difficult to clearly delineate species-specific agro-ecological ranges, of species suitability for the study area and is in line with the notion that little is known about (Reubens et al 2007). Nevertheless, insight in rooting characteristics is crucial towards 754 application both for agroforestry in general and soil erosion control.…”

Section: State Of the Art: Common Knowledge Gaps 728mentioning

confidence: 79%

Tree species selection for land rehabilitation in Ethiopia: from fragmented knowledge to an integrated multi-criteria decision approach

et al. 2011

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Reubens B., Moeremans C., Poesen J., Nyssen J., Tewoldeberhan S., Franzel S., Deckers J., Orwa C., Muys B., 2011. Tree species selection for land rehabilitation in Ethiopia: from fragmented knowledge to an integrated multi-criteria decision approach. Agroforestry Systems, 82: 303-330. planted when both ecological suitability for the targeted area or preferences of local stakeholders are 6 not properly taken into account during selection. To develop a decision support tool for multi-purpose 7 species selection, first information needs to be pooled on species-specific ranges, characteristics and 8 functions for a set of potentially valuable species. In this study such database has been developed for 9 the highly degraded northern Ethiopian highlands, using a unique combination of information sources, 2

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“…Their root width extends extend over 0.5-4 m, with considerable lateral spread of roots at a depth of 0.2-1.5 m. These plants are very effective at reinforcing and anchoring soil. These affects are closely related to root number, root diameter, root shape (architecture), root strength, and root-soil interaction (Wu et al 1979;Stokes et al 1996;Dupuy et al 2007;Mickovski et al 2007;Reubens et al 2007). Indeed, studies show that structure-related root factors such as root density (RD), root length density (RLD), root area ratio (RAR), number of roots, maximum root depth and branching pattern are likely to exert a greater impact upon hillslope stability than factors such as root tensile strength (Reubens et al 2007;Genet et al 2005;Fattet et al 2011;Mao et al 2012;PollenBankhead et al 2009).…”

Section: Note: Number Of Samples (N) Is 20mentioning

confidence: 99%

“…smaller roots have more cellulose per dry mass than larger roots (Turmanina 1965;Hathaway and Penny 1975;Commandeur and Pyles 1991;Genet et al 2005)). Other important considerations include root system morphology, such as root biomass, root number, root diameter and root length (Wu et al 1979) and root system architecture (Stokes et al 1996;Dupuy et al 2007;Mickovski et al 2007;Reubens et al 2007). The most efficient branching pattern is generated when many roots are spread deep into the soil (Stokes et al 1996;Fan et al 2010).…”

Section: Introductionmentioning

confidence: 99%

“…The most efficient branching pattern is generated when many roots are spread deep into the soil (Stokes et al 1996;Fan et al 2010). The optimum branching angle is a vertical angle of 90 o between a lateral root and the main axis, while the mechanically optimal radial angle between a lateral branch and its daughter is between 0-20 o (Stokes et al 1996;Reubens et al 2007).…”

Section: Introductionmentioning

confidence: 99%

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An exploratory analysis of vegetation strategies to reduce shallow landslide activity on loess hillslopes, Northeast Qinghai-Tibet Plateau, China

Brierley

Hong

et al. 2013

J. Mt. Sci.

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Heavy summer rainfall induces significant soil erosion and shallow landslide activity on the loess hillslopes of the Xining Basin at the northeast margin of the Qinghai-Tibet Plateau. This study examines the mechanical effects of five native shrubs that can be used to reduce shallow landslide activity. We measured single root tensile resistance and shear resistance, root anatomical structure and direct shear and triaxial shear for soil without roots and five rootsoil composite systems. Results show that Atriplex canescens (Pursh) Nutt. possessed the strongest roots, followed by Caragana korshinskii Kom., Zygophyllum xanthoxylon (Bunge) Maxim., Nitraria tangutorum Bobr. and Lycium chinense Mill. Single root strength and shear resistance relationships with root diameter are characterized by power or exponential relations, consistent with the MohrCoulomb law. Root mechanical strength reflects their anatomical structure, especially the percentage of phloem and xylem cells, and the degree and speed of periderm lignifications. The cohesion force of rootsoil composite systems is notably higher than that of soil without roots, with increasing amplitudes of cohesion force for A. canescens, C. korshinskii, Z. xanthoxylon, N. tangutorum and L. chinense of 75.9%, 75.1%, 36.2%, 24.6% and 17.0 % respectively. When subjected to shear forces, the soil without root samples show much greater lateral deformation than the root-soil composite systems, reflecting the restraining effects of roots. Findings from this paper indicate that efforts to reduce shallow landslides in this region by enhancing root reinforcement will be achieved most effectively using A. canescens and C. korshinskii.

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The role of fine and coarse roots in shallow slope stability and soil erosion control with a focus on root system architecture: a review

Cited by 495 publications

References 98 publications

Effects of Land Use and Management on SoilHydraulic Properties

Effects of Land Use and Management on SoilHydraulic Properties

Tree species selection for land rehabilitation in Ethiopia: from fragmented knowledge to an integrated multi-criteria decision approach

An exploratory analysis of vegetation strategies to reduce shallow landslide activity on loess hillslopes, Northeast Qinghai-Tibet Plateau, China

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