Mathematical models on diffusion of oxygen to and within plant roots, with special emphasis on effects of soil-root contact: I. Derivations of the models

A mathematical model is presented for diffusive transport of oxygen inside the root, for the case that oxygen can enter only through part of the root’s perimeter because the remainder is blocked by soil-root contact. Without soil-root contact, concentration profiles inside the root can be shown to converge rapidly to a steady-state solution. For the case of soil-root contact a steady-state solution is presented. Steady-state solutions have also been obtained for the presence of a water film, with and without rhizosphere respiration inside the water film. Results are presented in the form of isoconcentration lines.

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Authors

de Willigen P,van Noordwijk, M.

Publication year

1984

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