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Solute transport in sub-irrigated peat-based growing media

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Zeitschriftentitel: Canadian Journal of Soil Science
Personen und Körperschaften: Boudreau, J., Caron, J., Elrick, D., Fortin, J., Gallichand, J.
In: Canadian Journal of Soil Science, 89, 2009, 3, S. 301-313
Format: E-Article
Sprache: Englisch
veröffentlicht:
Canadian Science Publishing
Schlagwörter:
Soil Science
author_facet Boudreau, J.
Caron, J.
Elrick, D.
Fortin, J.
Gallichand, J.
Boudreau, J.
Caron, J.
Elrick, D.
Fortin, J.
Gallichand, J.
author Boudreau, J.
Caron, J.
Elrick, D.
Fortin, J.
Gallichand, J.
spellingShingle Boudreau, J.
Caron, J.
Elrick, D.
Fortin, J.
Gallichand, J.
Canadian Journal of Soil Science
Solute transport in sub-irrigated peat-based growing media
Soil Science
author_sort boudreau, j.
spelling Boudreau, J. Caron, J. Elrick, D. Fortin, J. Gallichand, J. 0008-4271 1918-1841 Canadian Science Publishing Soil Science http://dx.doi.org/10.4141/cjss08023 <jats:p> New legislation to reduce the amount of fertilizer leached into the environment by horticultural growers and the need to implement water-saving irrigation systems require an understanding of salt build-up and of nutrient cycles in order to develop efficient water-use strategies for growers. Solute transport in growing media is central to this process, but has received little attention thus far. The objectives of this study were to determine how solutes behave in sub-irrigated growing media and to assess a solute transport model for these media. A steady state evaporation (upward water flow) experiment was carried out with three different growing media in packed columns in the laboratory. Bromide, potassium and copper concentrations were determined using in-column pore water solution samplers and by sectioning the columns at the end of the experiment to obtain concentration profiles. The Hydrus-1D model was fitted to the solution sampler data assuming non-linear Freundlich adsorption, and then used to obtain favorable predictions of the measured concentration profiles. Independent adsorption isotherm results from batch experiments were found to be inadequate when used to predict solute movement and the results indicate that the preferred approach is an in-column evaluation of the transport parameters.Key words: Solute transport, sub-irrigation, peat, growing media </jats:p> Solute transport in sub-irrigated peat-based growing media Canadian Journal of Soil Science
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title Solute transport in sub-irrigated peat-based growing media
title_unstemmed Solute transport in sub-irrigated peat-based growing media
title_full Solute transport in sub-irrigated peat-based growing media
title_fullStr Solute transport in sub-irrigated peat-based growing media
title_full_unstemmed Solute transport in sub-irrigated peat-based growing media
title_short Solute transport in sub-irrigated peat-based growing media
title_sort solute transport in sub-irrigated peat-based growing media
topic Soil Science
url http://dx.doi.org/10.4141/cjss08023
publishDate 2009
physical 301-313
description <jats:p> New legislation to reduce the amount of fertilizer leached into the environment by horticultural growers and the need to implement water-saving irrigation systems require an understanding of salt build-up and of nutrient cycles in order to develop efficient water-use strategies for growers. Solute transport in growing media is central to this process, but has received little attention thus far. The objectives of this study were to determine how solutes behave in sub-irrigated growing media and to assess a solute transport model for these media. A steady state evaporation (upward water flow) experiment was carried out with three different growing media in packed columns in the laboratory. Bromide, potassium and copper concentrations were determined using in-column pore water solution samplers and by sectioning the columns at the end of the experiment to obtain concentration profiles. The Hydrus-1D model was fitted to the solution sampler data assuming non-linear Freundlich adsorption, and then used to obtain favorable predictions of the measured concentration profiles. Independent adsorption isotherm results from batch experiments were found to be inadequate when used to predict solute movement and the results indicate that the preferred approach is an in-column evaluation of the transport parameters.Key words: Solute transport, sub-irrigation, peat, growing media </jats:p>
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author Boudreau, J., Caron, J., Elrick, D., Fortin, J., Gallichand, J.
author_facet Boudreau, J., Caron, J., Elrick, D., Fortin, J., Gallichand, J., Boudreau, J., Caron, J., Elrick, D., Fortin, J., Gallichand, J.
author_sort boudreau, j.
container_issue 3
container_start_page 301
container_title Canadian Journal of Soil Science
container_volume 89
description <jats:p> New legislation to reduce the amount of fertilizer leached into the environment by horticultural growers and the need to implement water-saving irrigation systems require an understanding of salt build-up and of nutrient cycles in order to develop efficient water-use strategies for growers. Solute transport in growing media is central to this process, but has received little attention thus far. The objectives of this study were to determine how solutes behave in sub-irrigated growing media and to assess a solute transport model for these media. A steady state evaporation (upward water flow) experiment was carried out with three different growing media in packed columns in the laboratory. Bromide, potassium and copper concentrations were determined using in-column pore water solution samplers and by sectioning the columns at the end of the experiment to obtain concentration profiles. The Hydrus-1D model was fitted to the solution sampler data assuming non-linear Freundlich adsorption, and then used to obtain favorable predictions of the measured concentration profiles. Independent adsorption isotherm results from batch experiments were found to be inadequate when used to predict solute movement and the results indicate that the preferred approach is an in-column evaluation of the transport parameters.Key words: Solute transport, sub-irrigation, peat, growing media </jats:p>
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spelling Boudreau, J. Caron, J. Elrick, D. Fortin, J. Gallichand, J. 0008-4271 1918-1841 Canadian Science Publishing Soil Science http://dx.doi.org/10.4141/cjss08023 <jats:p> New legislation to reduce the amount of fertilizer leached into the environment by horticultural growers and the need to implement water-saving irrigation systems require an understanding of salt build-up and of nutrient cycles in order to develop efficient water-use strategies for growers. Solute transport in growing media is central to this process, but has received little attention thus far. The objectives of this study were to determine how solutes behave in sub-irrigated growing media and to assess a solute transport model for these media. A steady state evaporation (upward water flow) experiment was carried out with three different growing media in packed columns in the laboratory. Bromide, potassium and copper concentrations were determined using in-column pore water solution samplers and by sectioning the columns at the end of the experiment to obtain concentration profiles. The Hydrus-1D model was fitted to the solution sampler data assuming non-linear Freundlich adsorption, and then used to obtain favorable predictions of the measured concentration profiles. Independent adsorption isotherm results from batch experiments were found to be inadequate when used to predict solute movement and the results indicate that the preferred approach is an in-column evaluation of the transport parameters.Key words: Solute transport, sub-irrigation, peat, growing media </jats:p> Solute transport in sub-irrigated peat-based growing media Canadian Journal of Soil Science
spellingShingle Boudreau, J., Caron, J., Elrick, D., Fortin, J., Gallichand, J., Canadian Journal of Soil Science, Solute transport in sub-irrigated peat-based growing media, Soil Science
title Solute transport in sub-irrigated peat-based growing media
title_full Solute transport in sub-irrigated peat-based growing media
title_fullStr Solute transport in sub-irrigated peat-based growing media
title_full_unstemmed Solute transport in sub-irrigated peat-based growing media
title_short Solute transport in sub-irrigated peat-based growing media
title_sort solute transport in sub-irrigated peat-based growing media
title_unstemmed Solute transport in sub-irrigated peat-based growing media
topic Soil Science
url http://dx.doi.org/10.4141/cjss08023