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Influence of a hedge surrounding bottomland on seasonal soil‐water movement
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AbstractThe influence of a hedge surrounding bottomland on soil‐water movement along the hillslope was studied on a plot scale for 28 months. The study was based on the comparison of two transects, one with a hedge, the other without, using mainly a dense grid of tensiometers. The influence of the bottomland hedge was located in the area where tree roots were developed, several metres upslope from the hedge, and could be observed both in the saturated and non‐saturated zone, from May to December. The hedge induced a high rate of soil drying, because of the high evaporative capacity of the trees. We evaluated that water uptake by the hedge during the growing season was at least 100 mm higher than without a hedge. This increased drying rate led to a delayed rewetting of the soils upslope from the hedge in autumn, of about 1 month compared with the situation without a hedge. Several consequences of this delayed rewetting are expected: a delay in the return of subsurface transfer from the hillslope to the riparian zone, a buffering effect of hedges on floods, already observed at the catchment scale, and an increased residence time of pollutants. Copyright © 2003 John Wiley & Sons, Ltd.
Title: Influence of a hedge surrounding bottomland on seasonal soil‐water movement
Description:
AbstractThe influence of a hedge surrounding bottomland on soil‐water movement along the hillslope was studied on a plot scale for 28 months.
The study was based on the comparison of two transects, one with a hedge, the other without, using mainly a dense grid of tensiometers.
The influence of the bottomland hedge was located in the area where tree roots were developed, several metres upslope from the hedge, and could be observed both in the saturated and non‐saturated zone, from May to December.
The hedge induced a high rate of soil drying, because of the high evaporative capacity of the trees.
We evaluated that water uptake by the hedge during the growing season was at least 100 mm higher than without a hedge.
This increased drying rate led to a delayed rewetting of the soils upslope from the hedge in autumn, of about 1 month compared with the situation without a hedge.
Several consequences of this delayed rewetting are expected: a delay in the return of subsurface transfer from the hillslope to the riparian zone, a buffering effect of hedges on floods, already observed at the catchment scale, and an increased residence time of pollutants.
Copyright © 2003 John Wiley & Sons, Ltd.
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