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Journal of hydrology (Amsterdam), 2012-11, Vol.470-471, p.316-327
2012
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Details

Autor(en) / Beteiligte
Titel
A spatially distributed model of pesticide movement in Dutch macroporous soils
Ist Teil von
  • Journal of hydrology (Amsterdam), 2012-11, Vol.470-471, p.316-327
Ort / Verlag
Elsevier B.V
Erscheinungsjahr
2012
Quelle
Alma/SFX Local Collection
Beschreibungen/Notizen
  • ► We simulated the movement of pesticides by macropore flow on a national scale. ► We developed pedotransfer functions to describe the macropore parameters. ► Soil structural parameters can well be described using these pedotransfer functions. ► The pesticide concentration in drain water is higher in clay soils than in sandy soils. ► The model is less sensitive to pesticide properties than chromatographic flow models. In the Netherlands, a spatially distributed version of the pesticide fate model PEARL is routinely used to assess the leaching potential of pesticides to groundwater. Recently, the model was modified to simulate the movement of pesticides to surface water. The peak concentration is considered to be the most important exposure endpoint for the ecotoxicological effect assessment for aquatic organisms. Macropore flow is an important driver for the peak concentration, so the leaching model PEARL was extended with a macropore module. Macropore parameters were derived from generally available soil data such as organic matter content and clay content using newly developed pedotransfer functions. These pedotransfer functions were constructed using a wide range of Dutch clayey soils. Results indicate a good correlation between these variables and soil structural parameters, which is due to the homogeneous mineralogical composition of Dutch clayey soils. Results of the spatially distributed modelling indicate that due to rapid transport through macropores, the concentration of pesticides in drainage water is generally higher in clayey soils than in light textured soils. In clayey soils, the boundary hydraulic conductivity and organic matter content were the most important drivers for the concentration in drainage water. Results further indicate that the concentration of pesticide in drainage water increases with increasing half-life and decreases with increasing sorption coefficient. However, the effect of these parameters is much less than obtained with the convection–dispersion equation because due to preferential flow most of the reactive part of the soil profile is bypassed.

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