Abstract
The trajectories of seventy three nodal roots of maize were studied in two fields with loose soil structure. Their projections on horizontal and vertical planes were traced. These roots tended to remain in a vertical plane. Trajectories were related to each other by an affine transformation. Thus, all the observed trajectories could be obtained by transformation of a common root archetype. The horizontal component of the trajectories was mainly in the first 0.4 m depth of soil, in the layer where soil structure was disturbed by ploughing. This horizontal component decreased with later appearance of roots (upper internodes), but differed between the two sites. The average soil temperature during the week following root appearance accounted for differences between internodes and sites. Lungley's algorithm, which is commonly used in modelling root trajectories, was tested. A general pattern could be simulated, but the model failed to fit the trajectories in the first 100 to 200 mm of soil. As a consequence, the initial angle between the stem and the root, which is a sensitive parameter in Lungley's model, did not account for differences between root trajectories.
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Laboratoire d'agronomie de Colmar
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Tardieu, F., Pellerin, S. Trajectory of the nodal roots of maize in fields with low mechanical constraints. Plant Soil 124, 39–45 (1990). https://doi.org/10.1007/BF00010929
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DOI: https://doi.org/10.1007/BF00010929