A biophysical analysis of root growth under mechanical stress

The factors controlling root growth in hard soils are reviewed alongside summarised results from our recent studies. The turgor in cells in the elongation zone of roots pushes the apex forward, resisted by the external pressure of the soil and the tension in the cell walls. The external pressure of the soil consists of the pressure required to deform the soil, plus a component of frictional resistance between the root and soil. This frictional component is probably small due to the continuous sloughing of root cap cells forming a low-friction lining surrounding the root. Mechanically impeded roots are not only thicker, but are differently shaped, continuing to increase in diameter for a greater distance behind the root tip than in unimpeded roots. The osmotic potential decreases in mechanically impeded roots, possibly due to accumulation of solutes as a result of the slower root extension rate. This more negative osmotic potential is not always translated into increased turgor pressure, and the reasons for this require further investigation. The persistent effect of mechanical impedance on root growth is associated with both a stiffening of cell walls in the axial direction, and with a slowing of the rate of cell production.

[1]  R. Scott Russell,et al.  Effects of Mechanical Impedance on Root Growth in Barley (Hordeum vulgare L.) III. OBSERVATIONS ON THE MECHANISM OF RESPONSE , 1980 .

[2]  D.R.P. Hettiaratchi,et al.  The mechanics of root growth in Granular media , 1969 .

[3]  D.R.P. Hettiaratchi,et al.  Stress-Deformation Behaviour of Soil in Root Growth Mechanics , 1973 .

[4]  W. E. Larson,et al.  Soil Strength and Aeration Effects on Root Elongation1 , 1975 .

[5]  Complete mechanical impedance increases the turgor of cells in the apex of pea roots , 1996 .

[6]  A. Faure Stress Field Developed by Root Growth: Theoretical Approach , 1994 .

[7]  D. Hettiaratchi Book reviewCompaction of agricultural soils: American Society of Agricultural Engineers, 2950 Niles Road, St. Joseph, Michigan 49085, USA. 1971 , 1973 .

[8]  Blair M. McKenzie,et al.  Sloughing of root cap cells decreases the frictional resistance to maize (Zea mays L.) root growth , 1997 .

[9]  P. Barlow,et al.  The Ultrastructure of the Regenerating Root Cap of Zea mays L , 1978 .

[10]  J. Oh,et al.  Physics of root growth. , 1972, Nature: New biology.

[11]  Michael J. Goss,et al.  Effects of Mechanical Impedance on Root Growth in Barley (Hordeum vulgare L. )I. EFFECTS ON THE ELONGATION AND BRANCHING OF SEMINAL ROOT AXES , 1977 .

[12]  B. Kay,et al.  Physical assessment of a soil with respect to rooting potential , 1984 .

[13]  K. Barley,et al.  The penetration of clays by fine probes and root tips , 1969 .

[14]  Cell Displacement Through the Columella of the Root Cap of Zea mays L , 1978 .

[15]  K. Barley,et al.  The Effects of Mechanical Stress on the Growth of Roots , 1962 .

[16]  E. Greacen,et al.  Mechanical stresses on an expanding cylindrical root analogue in granular media. , 1986 .

[17]  Jeremy Pritchard,et al.  The control of cell expansion in roots. , 1994, The New phytologist.

[18]  W. Silk,et al.  Growth Patterns Inferred from Anatomical Records : Empirical Tests Using Longisections of Roots of Zea mays L. , 1989, Plant physiology.

[19]  F. A. L. Clowes,et al.  The Proportion of Cells that Divide in Root Meristems of Zea mays L. , 1971 .

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

[21]  J. S. Hewitt,et al.  The buckling of plant roots , 1982 .

[22]  I. Alexander,et al.  Plant Root Systems. Their Function and Interaction with the Soil. , 1978 .

[23]  M. Mccully,et al.  Some water‐related physical properties of maize root‐cap mucilage , 1986 .

[24]  M. McCann,et al.  Changes in cell wall architecture during cell elongation , 1994 .

[25]  B. J. Atwell,et al.  The effect of soil compaction on wheat during early tillering. I. Growth, development and root structure. , 1990 .

[26]  K. Barley INFLUENCE OF SOIL STRENGTH OF GROWTH OF ROOTS , 1963 .

[27]  J. Passioura,et al.  Soil structure and plant growth , 1991 .

[28]  B. J. Atwell,et al.  Turgor Pressure in Mechanically Impeded Lupin Roots , 1990 .

[29]  P. Green Growth and Cell Pattern Formation on an Axis: Critique of Concepts, Terminology, and Modes of Study , 1976, Botanical Gazette.

[30]  J. Monteith How do crops manipulate water supply and demand? , 1986, Philosophical Transactions of the Royal Society of London. Series A, Mathematical and Physical Sciences.

[31]  Michael J. Goss,et al.  Effects of Mechanical Impedance on Root Growth in Barley, Hordeum vulgare L.II. EFFECTS ON CELL DEVELOPMENT IN SEMINAL ROOTS , 1977 .

[32]  R. Russell Plant Root Systems , 1982 .

[33]  B. J. Atwell,et al.  Response of roots to mechanical impedance , 1993 .

[34]  Stephen C. Fry,et al.  Turgor and Cell Expansion: Beyond the Lockhart Equation , 1992 .

[35]  A. D. Tomos,et al.  Turgor, Growth and Rheological Gradients of Wheat Roots Following Osmotic Stress , 1991 .

[36]  L. Stolzy,et al.  MECHANICAL RESISTANCE ENCOUNTERED BY ROOTS ENTERING COMPACT SOILS , 1968 .

[37]  P. Barlow,et al.  Biophysics of the inhibition of the growth of maize roots by lowered temperature. , 1990, Plant physiology.

[38]  H. M. Taylor,et al.  ROOT ELONGATION RATES OF COTTON AND PEANUTS AS A FUNCTION OF SOIL STRENGTH AND SOIL WATER CONTENT , 1969 .

[39]  B. J. Atwell,et al.  The effect of soil compaction on wheat during early tillering. II, Concentrations of cell constituents , 1990 .

[40]  F. Clowes Duration of the Mitotic Cycle in a Meristem , 1961 .

[41]  A. G. Bengough,et al.  Simultaneous measurement of root force and elongation for seedling pea roots , 1994 .

[42]  D. Barber,et al.  THE EFFECT OF MECHANICAL FORCES ON THE EXUDATION OF ORGANIC SUBSTANCES BY THE ROOTS OF CEREAL PLANTS GROWN UNDER STERILE CONDITIONS , 1974 .

[43]  A. D. Tomos,et al.  Measurement of Gradients of Water Potential in Elongating Pea Stem by Pressure Probe and Picolitre Osmometry , 1992 .

[44]  A. Bengough Penetrometer resistance equation: Its derivation and the effect of soil adhesion , 1992 .

[45]  Cheng X. Huang,et al.  Salinity induced structural changes in meristematic cells of barley roots , 1990 .