Overview of inert tracer experiments in key Belgian soil types: Relation between transport and soil morphological and hydraulic properties

J. Vanderborght; M. Vanclooster; A. Timmerman; P. Seuntjens; D. Mallants; D. J. Kim; D. Jacques; L. Hubrechts; C. Gonzalez; J. Feyen; J. Diels; J. Deckers

doi:10.1029/2000WR000110

Overview of inert tracer experiments in key Belgian soil types: Relation between transport and soil morphological and hydraulic properties

J. Vanderborght, M. Vanclooster, A. Timmerman, P. Seuntjens, D. Mallants, D. J. Kim, D. Jacques, L. Hubrechts, C. Gonzalez, J. Feyen, J. Diels, J. Deckers

Research output: Contribution to journal › Article › peer-review

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Abstract

To investigate relations between solute transport, soil properties, and experimental conditions, we summarize results from leaching experiments that we carried out in a range of soils, at different scales (column (0.3-1.0 m ID, 1.0 m length) and field plot scale), and using different leaching rates (0.5-30 cm d^-1). The lateral mixing regime and longitudinal dispersion were derived from time series of tracer concentrations at several depths in the soil. Field- and column-scale transport were similar in loam and silt loam soils. The mixing regime was related to soil morphological features, such as vertical tongues, stratification, macropores, and a water-repellent layer. The dispersion increased in all soils more than linearly with increasing leaching rate, implying that the dispersivity is not an intrinsic soil characteristic. The change of dispersivity with leaching rate was linked to the unsaturated hydraulic conductivity using a multidomain conceptualization of the pore space.

Original language	English
Pages (from-to)	2873-2888
Number of pages	16
Journal	Water Resources Research
Volume	37
Issue number	12
DOIs	https://doi.org/10.1029/2000WR000110
Publication status	Published - 2001

ASJC Scopus subject areas

Water Science and Technology

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Vanderborght, J., Vanclooster, M., Timmerman, A., Seuntjens, P., Mallants, D., Kim, D. J., Jacques, D., Hubrechts, L., Gonzalez, C., Feyen, J., Diels, J., & Deckers, J. (2001). Overview of inert tracer experiments in key Belgian soil types: Relation between transport and soil morphological and hydraulic properties. Water Resources Research, 37(12), 2873-2888. https://doi.org/10.1029/2000WR000110

Vanderborght, J, Vanclooster, M, Timmerman, A, Seuntjens, P, Mallants, D, Kim, DJ, Jacques, D, Hubrechts, L, Gonzalez, C, Feyen, J, Diels, J & Deckers, J 2001, 'Overview of inert tracer experiments in key Belgian soil types: Relation between transport and soil morphological and hydraulic properties', Water Resources Research, vol. 37, no. 12, pp. 2873-2888. https://doi.org/10.1029/2000WR000110

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abstract = "To investigate relations between solute transport, soil properties, and experimental conditions, we summarize results from leaching experiments that we carried out in a range of soils, at different scales (column (0.3-1.0 m ID, 1.0 m length) and field plot scale), and using different leaching rates (0.5-30 cm d-1). The lateral mixing regime and longitudinal dispersion were derived from time series of tracer concentrations at several depths in the soil. Field- and column-scale transport were similar in loam and silt loam soils. The mixing regime was related to soil morphological features, such as vertical tongues, stratification, macropores, and a water-repellent layer. The dispersion increased in all soils more than linearly with increasing leaching rate, implying that the dispersivity is not an intrinsic soil characteristic. The change of dispersivity with leaching rate was linked to the unsaturated hydraulic conductivity using a multidomain conceptualization of the pore space.",

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AU - Vanderborght, J.

AU - Vanclooster, M.

AU - Timmerman, A.

AU - Seuntjens, P.

AU - Mallants, D.

AU - Kim, D. J.

AU - Jacques, D.

AU - Hubrechts, L.

AU - Gonzalez, C.

AU - Feyen, J.

AU - Diels, J.

AU - Deckers, J.

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AB - To investigate relations between solute transport, soil properties, and experimental conditions, we summarize results from leaching experiments that we carried out in a range of soils, at different scales (column (0.3-1.0 m ID, 1.0 m length) and field plot scale), and using different leaching rates (0.5-30 cm d-1). The lateral mixing regime and longitudinal dispersion were derived from time series of tracer concentrations at several depths in the soil. Field- and column-scale transport were similar in loam and silt loam soils. The mixing regime was related to soil morphological features, such as vertical tongues, stratification, macropores, and a water-repellent layer. The dispersion increased in all soils more than linearly with increasing leaching rate, implying that the dispersivity is not an intrinsic soil characteristic. The change of dispersivity with leaching rate was linked to the unsaturated hydraulic conductivity using a multidomain conceptualization of the pore space.

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Overview of inert tracer experiments in key Belgian soil types: Relation between transport and soil morphological and hydraulic properties

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