Е. В. Шеин scite author profile

Estimation of root water uptake in crops is important for making many other agricultural predictions. This estimation often involves two assumptions: (1) that a critical soil water potential exists which is constant for a given combination of soil and crop and which does not depend on root length density, and (2) that the local root water uptake at given soil water potential is proportional to root length density.Recent results of both mathematical modeling and computer tomography show that these assumptions may not be valid when the soil water potential is averaged over a volume of soil containing roots. We tested these assumptions for plants with distinctly different root systems. Root water uptake rates and the critical soil water potential values were determined in several adjacent soil layers for horse bean (Viciafaba) and oat (Avena sativa) grown in lysimeters, and for field-grown cotton (Gossypium L.), maize (Zea mays) and alfalfa (Medicago sativa L.) crops. Root water uptake was calculated from the water balance of each layer in lysimeters. Water uptake rate was proportional to root length density at high soil water potentials, for both horse bean and oat plants, but root water uptake did not depend on root density for horse bean at potentials lower than -2 5 kPa. We observed a linear dependency of a critical soil water potential on the logarithm of root length density for all plants studied. Soil texture modified the critical water potential values, but not the linearity of the relationship.

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Effect of Soil Aggregate Size Distribution on Water Retention

Guber

Rawls

Шеин

et al. 2003

Soil Science

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Physicochemical bases of differences between the sedimentometric and laser-diffraction techniques of soil particle-size analysis

et al. 2007

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Soil aggregates and water retention

Guber

Pachepsky

Шеин

et al. 2004

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Е. В. Шеин

The particle-size distribution in soils: Problems of the methods of study, interpretation of the results, and classification

Influence of root density on the critical soil water potential

Effect of Soil Aggregate Size Distribution on Water Retention

Physicochemical bases of differences between the sedimentometric and laser-diffraction techniques of soil particle-size analysis

Soil aggregates and water retention

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