A theoretical study of the distribution of substances around roots resulting from simultaneous diffusion and mass flow (original) (raw)

Summary

The change in concentration of a solute in soil, moving near the surface of a root by both mass flow and diffusion, has been calculated by a numerical method with a computer. The effect of change in the plant controlled variables v0 (the solvent flux at the root surface) and k (the root absorbing power), and the soil variables b (the buffer power) and D (the diffusion coefficient) are described in turn.

The concentration at the root surface, relative to the undisturbed soil solution, approaches a limiting value v0/k. As v0 is increased, the limiting value is approached more rapidly, and the zone of disturbance is more compressed. A steady state is reached if r0v0/bD>2, but if r0v0/bD<2 the disturbance continues to spread outwards even though the concentration at the root surface has nearly attained its limiting value.

As k is increased, other factors being constant, the limiting relative concentration at the root surface is approached more rapidly, but the spread of the disturbance away from the root is little affected.

As Db is decreased, corresponding to a decrease in soil moisture, the concentration at the root surface reaches its limit more rapidly and the zone of disturbance is compressed.

If, because of increase in the concentration at the root surface, the efficiency of root absorption declines, the relative concentration will exceed v0/k, and may reach no limit — at least until the assumptions of the model used break down.

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References

1. Carslaw, M. S. and Jaeger, J. C., Conduction of Heat in Solids. (2nd Edition) Oxford. (1959).
2. Crank, J., The Mathematics of Diffusion. Oxford (1956).
3. Eyres, N. R., Hartree, D. R., Ingham, J., Jackson, R., Sarjant, R. J., and Wagstaff, J. B., The calculation of variabel heat flow in solids. Phil. Trans. Roy. Soc. A240, 1–57 (1946).
   Google Scholar
4. Marriott, F. H. C. and Nye, P. H., The importance of mass flow in the uptake of ions by roots from soil. Trans. 9th Intern. Congr. SoilSci. (Adelaide). (In press) (1968).
5. Nielsen, D. R. and Biggar, J. W., Miscible displacement. III Theoretical considerations. Soil Sci. Soc. Am. Proc.26, 216–221 (1962).
   Google Scholar
6. Nye, P. H., The effect of the nutrient intensity and buffering power of a soil, and the absorbing power, size and root hairs of a root, on nutrient absorption by diffusion. Plant and Soil25, 81–105 (1966).
   Google Scholar
7. Nye, P. H., Changes in the concentration of nutrients in the soil near planar absorbing surfaces when simultaneous diffusion and mass flow occur. Trans. Intern Soc. Soil Sci. Comm. II and IV, Aberdeen, 317–328. (1967).
8. Nye, P. H., The use of exchange isotherms to determine diffusion coefficients in soil. Trans. 9th Intern. Congr. Soil Sci. (Adelaide) (In press) (1968).
9. Nye, P. H. and Spiers, J. A., Simulataneous diffusion and mass flow to plant roots. Trans. 8th Intern. Congr. Soil Sci. (Bucharest)3, 535–544. (1964).
   Google Scholar
10. Ogata, G., Richards, L. A. and Gardner, W. R., Transpiration of alfalfa determined from soil water content changes. Soil Sci.89, 179–182. (1960).
    Google Scholar
11. Oliver, S. and Barber, S. A., An evaluation of the mechanisms governing the supply of Ca, Mg, K and Na to soybean roots (Glycine max). Soil Sci. Soc. Am. Proc.30, 82–86 (1966).
    Google Scholar
12. Passioura, J. B., A mathematical model for the uptake of ions from the soil solution. Plant and Soil18, 225–238. (1963).
    Google Scholar
13. Rowell, D. L., Martin, M. W. and Nye, P. H., The measurement and mechanism of ion diffusion in soils. III — The effect of moisture content and soil solution concentration on the self-diffusion of ions in soils. J. Soil Sci.18, 204–222 (1967).
    Google Scholar
14. Russell, R. S. and Barber, D. A., The relationship between salt uptake and the absorption of water by intact plants. Ann. Rev. Plant Physiol.11, 127–140 (1960).
    Google Scholar

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Authors and Affiliations

1. University of Oxford, UK
   P. H. Nye & F. H. C. Marriott

Authors

1. P. H. Nye
2. F. H. C. Marriott

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Nye, P.H., Marriott, F.H.C. A theoretical study of the distribution of substances around roots resulting from simultaneous diffusion and mass flow.Plant Soil 30, 459–472 (1969). https://doi.org/10.1007/BF01881971

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• Received: 19 December 1967
• Issue date: June 1969
• DOI: https://doi.org/10.1007/BF01881971

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