Abstract
Surface runoff on agricultural fields arises when rainfall exceeds infiltration. Excess water ponding in and flowing through local microtopography increases the hydrological connectivity of fields. In turn, an increased level of hydrological connectivity leads to a higher surface runoff flux at the field boundaries. We investigated the functional hydrological connectivity of synthetical elevation fields with varying statistical properties. For this purpose, we developed an object-oriented ponding and redistribution model to which Philip’s infiltration model was coupled. The connectivity behaviour is determined by the presence of depressions with a large area and spatial organization of microtopography in rills or channels. The presence of microdepressions suppresses the effect of the spatial variation of infiltration properties. Connectivity behaviour of a field with a varying spatial distribution of infiltration properties can be predicted by transforming the unique connectivity function that was defined for a designated microtopography
Original language | English |
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Pages (from-to) | 303-313 |
Journal | Advances in Water Resources |
Volume | 34 |
Issue number | 2 |
DOIs | |
Publication status | Published - 2011 |
Keywords
- depression-storage capacity
- overland-flow generation
- tilled soil surfaces
- water contamination
- roughness
- phosphorus
- model
- approximation
- conductivity
- variability