How vegetation reinforces soil on slopes

Once the instability process e.g. erosion or landslides has been identified on a slope, the type of vegetation to best reinforce the soil can then be determined. Plants improve slope stability through changes in mechanical and hydrological properties of the root-soil matrix. The architecture of a plants root system will influence strongly these reinforcing properties. We explain how root morphology and biomechanics changes between species. An overview of vegetation effects on slope hydrology is given, along with an update on the use of models to predict the influence of vegetation on mechanical and hydrological properties of soil on slopes. In conclusion, the optimal root system types for improving slope stability are suggested.

[1]  Je Norris,et al.  Root reinforcement on unstable slopes in Northern Greece and Central Italy , 2003 .

[2]  C. Phillips,et al.  A method for stability analysis of vegetated hillslopes: an energy approach , 1999 .

[3]  J. Norris Root anchorage by oak (Quercus sp.) and hawthorn and (Crataegus Monogyna) trees on a London clay motorway cutting in England , 2005 .

[4]  Erik Cammeraat,et al.  Vegetation Succession and its Consequences for Slope Stability in SE Spain , 2005, Plant and Soil.

[5]  E. Johnson The Relative Importance or Snow Avalanche Disturbance and Thinning on Canopy Plant Populations , 1987 .

[6]  D. P. Steele,et al.  THE USE OF LIVE WILLOW POLES FOR STABILISING HIGHWAY SLOPES , 2001 .

[7]  Alexia Stokes,et al.  Eco- and Ground Bio-engineering: the Use of Vegetation to Improve Slope Stability: Proceedings of the First International Conference on Eco-engineering 13-17 September 2004 , 2007 .

[8]  P. D. Körner Alpine Plant Life , 1999, Springer Berlin Heidelberg.

[9]  V. Lieffers,et al.  The coarse‐root system of mature Populus tremuloides in declining stands in Alberta, Canada , 2001 .

[10]  Gian Battista Bischetti,et al.  Root Strength and Root Area Ratio of Forest Species in Lombardy (Northern Italy) , 2005, Plant and Soil.

[11]  Jean Poesen,et al.  Soil and water components of banded vegetation patterns , 1999 .

[12]  Iwan Wästerlund Strength components in the forest floor restricting maximum tolerable machine forces , 1989 .

[13]  J. Parlange,et al.  PONDING TIME FOR VARIABLE RAINFALL RATES , 1976 .

[14]  A. R. Ennos The Scaling of Root Anchorage , 1993 .

[15]  T. Fourcaud,et al.  Root architecture and wind-firmness of mature Pinus pinaster. , 2005, The New phytologist.

[16]  L. H. Cammeraat A review of two strongly contrasting geomorphological systems within the context of scale , 2002 .

[17]  Bruno Lasserre,et al.  Pattern of secondary thickening in a Quercus cerris root system. , 2007, Tree physiology.

[18]  R. Sidle,et al.  A spatial and temporal model of root cohesion in forest soils , 2004 .

[19]  Effects of Snow Avalanche Disturbance on Regeneration of Subalpine Abies mariesii Forest, Northern Japan , 2004 .

[20]  M. J. Chadwick,et al.  Bioengineering for Land Reclamation and Conservation , 1980 .

[21]  R. Stern,et al.  Water Bioengineering Techniques: for Watercourse Bank and Shoreline Protection , 1997 .

[22]  V. Operstein,et al.  Numerical simulation of direct shear of rootreinforced soil , 2001 .

[23]  T. Wu,et al.  Strength of tree roots and landslides on Prince of Wales Island, Alaska , 1979 .

[24]  G. Rune Slits in Container Wall Improve Root Structure and Stem Straightness of Outplanted Scots Pine Seedlings , 2003 .

[25]  Luuk Dorren,et al.  Mechanical Resistance of Different Tree Species to Rockfall in the French Alps , 2005, Plant and Soil.

[26]  P. Nutalaya,et al.  Role of tree roots in slope stabilisation , 1999 .

[27]  M. Jaffe Thigmomorphogenesis: The response of plant growth and development to mechanical stimulation , 1973, Planta.

[28]  A. Stokes,et al.  Using three-dimensional plant root architecture in models of shallow-slope stability. , 2007, Annals of botany.

[29]  K. Beven,et al.  Macropores and water flow in soils , 1982 .

[30]  M. Rietkerk,et al.  Self-Organized Patchiness and Catastrophic Shifts in Ecosystems , 2004, Science.

[31]  E. L. Stone,et al.  On the maximum extent of tree roots , 1991 .

[32]  Bruce Abernethy,et al.  The distribution and strength of riparian tree roots in relation to riverbank reinforcement , 2001 .

[33]  N. Coppin,et al.  Use of Vegetation in Civil Engineering , 1990 .

[34]  Jr Greenwood,et al.  SLIP4EX – A Program for Routine Slope Stability Analysis to Include the Effects of Vegetation, Reinforcement and Hydrological Changes , 2006 .

[35]  O. C. Zienkiewicz,et al.  The finite element method, fourth edition; volume 2: solid and fluid mechanics, dynamics and non-linearity , 1991 .

[36]  T. E. Timell Compression Wood in Gymnosperms , 1986 .

[37]  A. R. Ennos,et al.  The Effects of Soil Bulk Density on the Morphology and Anchorage Mechanics of the Root Systems of Sunflower and Maize , 1999 .

[38]  H. Peltola,et al.  Mechanical stability of trees under static loads. , 2006, American journal of botany.

[39]  C. Phillips,et al.  Slope stability thresholds for vegetated hillslopes: a composite model , 2002 .

[40]  A. Simon,et al.  Quantifying the mechanical and hydrologic effects of riparian vegetation on streambank stability , 2002 .

[41]  A. Stokes,et al.  Responses of young trees to wind and shading: effects on root architecture , 1995 .

[42]  Donald H. Gray,et al.  Biotechnical and Soil Bioengineering Slope Stabilization: A Practical Guide for Erosion Control , 1996 .

[43]  L. Waldron,et al.  SOIL REINFORCEMENT BY ROOTS: CALCULATION OF INCREASED SOIL SHEAR RESISTANCE FROM ROOT PROPERTIES , 1981 .

[44]  D. Godbold,et al.  Effects of acid rain on forest processes , 1994 .

[45]  G. D. Rooij Modeling fingered flow of water in soils owing to wetting front instability : a review , 2000 .

[46]  J. M. Duncan State of the Art: Limit Equilibrium and Finite-Element Analysis of Slopes , 1996 .

[47]  F. Telewski,et al.  Thigmomorphogenesis: Callose and Ethylene in the Hardening of Mechanically Stressed Plants , 1984 .

[48]  Alain Denis,et al.  Root anchorage of inner and edge trees in stands of Maritime pine (Pinus pinaster Ait.) growing in different podzolic soil conditions , 2004, Trees.

[49]  Greenwood,et al.  Bioengineering: a field trial at Longham Wood Cutting , 2001 .

[50]  A model for determining thresholds for initiation of shallow landslides under near-saturated conditions in the East Coast region, New Zealand , 1999 .

[51]  H. L. Teller INTERNATIONAL SYMPOSIUM ON FOREST HYDROLOGY , 1968 .

[52]  W. Bastiaanssen SEBAL-based sensible and latent heat fluxes in the irrigated Gediz Basin, Turkey , 2000 .

[53]  D. Greenway,et al.  Vegetation and slope stability , 1987 .

[54]  A. R. Ennos,et al.  The Anchorage of Leek Seedlings: The Effect of Root Length and Soil Strength , 1990 .

[55]  A. Watson,et al.  Tree species performance and slope stability. , 1995 .

[56]  A. R. Ennos,et al.  The mechanics of anchorage in seedlings of sunflower, Helianthus annuus L. , 1989 .

[57]  Alexia Stokes,et al.  Understanding the impact of root morphology on overturning mechanisms: a modelling approach. , 2007, Annals of botany.

[58]  J. Currey,et al.  The role of root system architecture and root hairs in promoting anchorage against uprooting forces in Allium cepa and root mutants of Arabidopsis thaliana. , 2002, Journal of experimental botany.

[59]  I. Rodríguez‐Iturbe,et al.  Stochastic soil moisture dynamics along a hillslope , 2003 .

[60]  W. Brutsaert Evaporation into the atmosphere , 1982 .

[61]  A. Watson,et al.  TREE ROOTS AND SLOPE STABILITY : A COMPARISON BETWEEN PINUS RADIATA AND KANUKA , 1997 .

[62]  Jean Poesen,et al.  Impact of plant roots on the resistance of soils to erosion by water: a review , 2005 .

[63]  J. Poesen,et al.  Runoff and soil loss under individual plants of a semi‐arid Mediterranean shrubland: influence of plant morphology and rainfall intensity , 2006 .

[64]  R. Feddes,et al.  Simulation of field water use and crop yield , 1978 .

[65]  L.P.H. van Beek,et al.  Assessment of the influence of changes in land use and climate on landslide activity in a Mediterranean environment , 2002 .

[66]  M. P. Coutts,et al.  Components of tree stability in Sitka Spruce on peaty gley soil , 1986 .

[67]  H. L. Penman Natural evaporation from open water, bare soil and grass , 1948, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.

[68]  Alexia Stokes,et al.  Variation of wood strength in tree roots , 1996 .

[69]  M. P. Coutts,et al.  Root architecture and tree stability , 1983, Plant and Soil.

[70]  Bart Muys,et al.  The role of fine and coarse roots in shallow slope stability and soil erosion control with a focus on root system architecture: a review , 2007, Trees.

[71]  Frank W Telewski,et al.  A unified hypothesis of mechanoperception in plants. , 2006, American journal of botany.

[72]  A. Stokes,et al.  Variations in maturation strains and root shape in root systems of Maritime pine (Pinus pinaster Ait.) , 1998, Trees.

[73]  M. Pyles,et al.  MODULUS OF ELASTICITY AND TENSILE STRENGTH OF DOUGLAS-FIR ROOTS , 1991 .

[74]  Alexia Stokes,et al.  The Influence of Cellulose Content on Tensile Strength in Tree Roots , 2005, Plant and Soil.

[75]  A. Eshel,et al.  Plant roots : the hidden half , 1991 .

[76]  N. Pollen Temporal and spatial variability in root reinforcement of streambanks: Accounting for soil shear strength and moisture , 2007 .

[77]  Bruno Lasserre,et al.  The response of Spartium junceum roots to slope: anchorage and gene factors. , 2006, Annals of botany.

[78]  Natasha Pollen,et al.  Estimating the mechanical effects of riparian vegetation on stream bank stability using a fiber bundle model , 2005 .

[79]  Wen L. Wang,et al.  SOIL ARCHING IN SLOPES , 1974 .

[80]  David Penny,et al.  Root strength in some Populus and Salix clones , 1975 .

[81]  S. Fusco,et al.  Modification of root morphological parameters and root architecture in seedlings of Fraxinus ornus L. and Spartium junceum L. growing on slopes , 2003 .

[82]  A. R. Ennos,et al.  The effect of unidirectional stem flexing on shoot and root morphology and architecture in young Pinus sylvestris trees , 2003 .

[83]  Alexia Stokes,et al.  A Numerical Investigation into the Influence of Soil Type and Root Architecture on Tree Anchorage , 2005, Plant and Soil.

[84]  Hayfa Khuder Effet d'une pente sur l'architecture et les propriétés mécaniques des systèmes racinaires de semis d'arbres , 2007 .

[85]  M. Styczen,et al.  ENGINEERING PROPERTIES OF VEGETATION , 2003 .

[86]  R. Ziemer,et al.  Effect of Tree Roots on Shallow-Seated Landslides 1 , 1991 .

[87]  R. Sidle A theoretical model of the effects of timber harvesting on slope stability , 1992 .

[88]  The role of overland flow and subsurface flow on the spatial distribution of soil moisture in the topsoil , 2001 .

[89]  T. Speck,et al.  Root anchorage of saplings and cuttings of woody pioneer species in a riparian environment , 2003 .

[90]  Alexia Stokes,et al.  Tree Root Response to Mechanical Stress , 1997 .

[91]  Alexia Stokes,et al.  Root morphology and strain distribution during tree failure on mountain slopes , 2007 .

[92]  Donald H. Gray,et al.  Biotechnical Slope Protection and Erosion Control , 1989 .

[93]  A. Stokes Strain distribution during anchorage failure of Pinus pinaster Ait. at different ages and tree growth response to wind-induced root movement , 2000 .

[94]  M. Rietkerk,et al.  Coupling microscale vegetation–soil water and macroscale vegetation–precipitation feedbacks in semiarid ecosystems , 2007 .

[95]  M. P. Coutts,et al.  Development of the Structural Root System of Sitka Spruce , 1983 .

[96]  Stefan Hergarten,et al.  Process Modelling and Landform Evolution , 1998 .

[97]  Torsten Schaub,et al.  The variability of root cohesion as an influence on shallow landslide susceptibility in the Oregon Coast Range , 2001 .

[98]  A. D. Cameron,et al.  Effects of tree selection on strength properties and distribution of structural roots of clonal Sitka spruce , 2004 .

[99]  Alexia Stokes,et al.  The Supporting Roots of Trees and Woody Plants: Form, Function and Physiology , 2000, Developments in Plant and Soil Sciences.

[100]  L. Waldron,et al.  Effects of root reinforcement on soil-slip patterns in the Transverse Ranges of southern California , 1991 .

[101]  R. Horton EROSIONAL DEVELOPMENT OF STREAMS AND THEIR DRAINAGE BASINS; HYDROPHYSICAL APPROACH TO QUANTITATIVE MORPHOLOGY , 1945 .

[102]  W. McNAB Jahrbücher für wissenschaftliche Botanik , 1877, Nature.

[103]  A combined conceptual model for the effects of fissure-induced infiltration on slope stability , 1999 .

[104]  F. Telewski,et al.  Wind and Trees: Wind-induced physiological and developmental responses in trees , 1995 .

[105]  J. Poesen,et al.  Root characteristics of representative Mediterranean plant species and their erosion-reducing potential during concentrated runoff , 2007, Plant and Soil.

[106]  F. Gentile,et al.  Biotechnical Characteristics of Root Systems of Typical Mediterranean Species , 2005, Plant and Soil.

[107]  B. Nicoll,et al.  Responses of young Sitka spruce clones to mechanical perturbation and nutrition: effects on biomass allocation, root development, and resistance to bending , 1997 .

[108]  A. Lindström,et al.  Root deformation in plantations of container-grown Scots pine trees : effects on root growth, tree stability and stem straightness , 1999 .

[109]  R. Sidle,et al.  Long‐term modelling of landslides for different forest management practices , 2003 .

[110]  W. O. Pruitt,et al.  Crop water requirements , 1997 .

[111]  C. C. N. Nielsen,et al.  The development of symmetry, rigidity and anchorage in the structural root system of conifers , 2000 .

[112]  A. Holtslag,et al.  A remote sensing surface energy balance algorithm for land (SEBAL)-1. Formulation , 1998 .

[113]  J. Norris Root Reinforcement by Hawthorn and Oak Roots on a Highway Cut-Slope in Southern England , 2005 .

[114]  A. R. Ennos,et al.  The Increase in Anchorage with Tree Size of the Tropical Tap Rooted Tree Mallotus wrayi , King (Euphorbiaceae) , 1998 .

[115]  L. H. Cammeraat,et al.  Observation and Simulation of Root Reinforcement on Abandoned Mediterranean Slopes , 2005, Plant and Soil.

[116]  R. Ziemer,et al.  Effect of tree roots on a shear zone: modeling reinforced shear stress , 1991 .

[117]  L. H. Weinstein,et al.  Long‐term ozone exposure affects winter hardiness of red spruce (Picea rubens Sarg.) seedlings , 1989 .

[118]  Patricia Excell Wind and Tree , 1950 .

[119]  B. Nicoll,et al.  Adaptive growth of tree root systems in response to wind action and site conditions. , 1996, Tree physiology.

[120]  R. Lewis,et al.  Associated and non-associated visco-plasticity and plasticity in soil mechanics , 1975 .

[121]  C. Priestley,et al.  On the Assessment of Surface Heat Flux and Evaporation Using Large-Scale Parameters , 1972 .

[122]  William D. Callister,et al.  Materials Science and Engineering: An Introduction , 1985 .

[123]  J. Z. Zhu,et al.  The finite element method , 1977 .

[124]  Bruno Lasserre,et al.  Root system architecture of Quercus pubescens trees growing on different sloping conditions. , 2005, Annals of botany.

[125]  B. Timmermann,et al.  Phytochemical Adaptations to Stress , 1984, Recent Advances in Phytochemistry.

[126]  D. V. Griffiths,et al.  SLOPE STABILITY ANALYSIS BY FINITE ELEMENTS , 1999 .

[127]  T. Marler,et al.  Root development of ‘Red Lady’ papaya plants grown on a hillside , 1997, Plant and Soil.

[128]  J. Norris,et al.  Assessing the contribution of vegetation to slope stability , 2004 .

[129]  S. Mickovski,et al.  Uprooting resistance of vetiver grass (Vetiveria zizanioides) , 2007 .

[130]  R. Horton The Rôle of infiltration in the hydrologic cycle , 1933 .

[131]  R. Betson,et al.  What is watershed runoff , 1964 .

[132]  M. Shrestha,et al.  A study on the adaptability mechanism of tree roots on steep slopes , 2000 .

[133]  Alexia Stokes,et al.  A generic 3D finite element model of tree anchorage integrating soil mechanics and real root system architecture. , 2007, American journal of botany.

[134]  K. Niklas Variations of the mechanical properties of Acer saccharum roots , 1999 .

[135]  N. Sulistyaningsih,et al.  Effect of plant roots on soil strength , 1990 .

[136]  S. Mickovski,et al.  Uprooting of Vetiver Uprooting Resistance of Vetiver Grass (Vetiveria zizanioides) , 2005, Plant and Soil.

[137]  Alexia Stokes,et al.  A numerical investigation into factors affecting the anchorage of roots in tension , 2005 .

[138]  J. Lehmann,et al.  Root Morphology and Anchorage of Six Native Tree Species from a Tropical Montane Forest and an Elfin Forest in Ecuador , 2005, Plant and Soil.

[139]  J Perry A SURVEY OF SLOPE CONDITION ON MOTORWAY EARTHWORKS IN ENGLAND AND WALES , 1989 .

[140]  L. Waldron,et al.  Effect of Grass, Legume, and Tree Roots on Soil Shearing Resistance , 1982 .

[141]  L. C. Promnitz,et al.  Comparative root system morphologies of seeded-in-place, bareroot, and containerized Douglas-fir seedlings after outplanting , 1979 .

[142]  A. Stokes,et al.  Does growing on a slope affect tree xylem structure and water relations? , 2007, Tree physiology.

[143]  Alexia Stokes,et al.  Plant biomechanical strategies in response to frequent disturbance: uprooting of Phyllostachys nidularia (Poaceae) growing on landslide-prone slopes in Sichuan, China. , 2007, American journal of botany.

[144]  J. Hewlett Factors affecting the response of small watersheds to precipitation in humid areas , 1967 .

[145]  L. J. Waldron,et al.  The shear resistance of root-permeated homogeneous and stratified soil. , 1977 .

[146]  M. F. Bransby,et al.  Material stiffness, branching pattern and soil matric potential affect the pullout resistance of model root systems , 2007 .

[147]  H. Riedl Bau und Leistungen des Wurzelholzes , 1937 .

[148]  M. Jaffe,et al.  Thigmomorphogenesis: calibration of the parameters of the sensory function in beans. , 1980 .

[149]  F. Danjon,et al.  The architecture of Picea sitchensis structural root systems on horizontal and sloping terrain , 2006, Trees.

[150]  J. Wehrmann,et al.  Köstler, J. N., Brückner, E. und Bibelriether, H.: Die Wurzeln der Waldbäume. Verlag Paul Parey, Hamburg und Berlin 1968. 284 Seiten, 135 Abbildungen und 20 Tabellen. Kunstdruckpapier, Ganzleinen, DM 64,— , 1968 .

[151]  D. H. Barker,et al.  Ground and water bioengineering for erosion control and slope stabilization , 2004 .

[152]  B. Nicoll,et al.  Orientation of the lateral roots of trees: I. Upward growth of surface roots and deflection near the soil surface. , 1991, The New phytologist.

[153]  L. Pfister,et al.  Measuring forest floor interception in a beech forest in Luxembourg , 2006 .