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Soil Physics

Measuring the Unsaturated Hydraulic Conductivity of Growing Media with a Tension Disc

^a Département des Sols et Génie agroalimentaire, Centre de Recherche en Horticulture, Université Laval, Sainte-Foy, Québec Canada, G1K 7P4
^b Land Resource Science Department, University of Guelph, Guelph, Ontario, Canada N1G 2W1

^* Corresponding author (Jean.caron{at}sga.ulaval.ca)

In greenhouse and nursery production, there is an increasing interest in water conservation and environmental quality. The use of closed and semi-closed subirrigation systems to grow plants potted in organic growing media is an important step in this direction. However, the design of efficient subirrigation systems requires a detailed characterization of the unsaturated hydraulic conductivity of the organic substrates on rewetting. In many cases, organic substrates have extremely high-saturated hydraulic conductivities and also exhibit a dual porosity. Given the lack of a suitable technique for measuring the unsaturated hydraulic conductivity of these substrates near saturation, as well as at saturation in pots (the equivalent of "field conditions" in nursery and greenhouse production), a new in situ procedure has been developed. It is based on an analytical solution to steady state upward flow and assumes a single (SEA) or piecewise exponential (PEA) relationship between the unsaturated hydraulic conductivity and the soil water potential. The proposed method was tested for a sand and an organic growing medium. The results indicate that the unsaturated hydraulic conductivity curve may be obtained from water flux measurements using a specifically designed tension disc placed on top of the substrate, and that the estimates on rewetting are much more accurate, particularly at water contents close to saturation, than those obtained using the instantaneous profile method. Moreover, the proposed procedure is easy to carry out, requires only an inexpensive tension disc and is based on a sound physical representation of the rewetting process. Results indicated that the PEA is appropriate for most substrates and that the SEA can be considered as a special case of the PEA if only one exponential "piece" is required for the entire range (e.g., the sand).

Abbreviations: MWD, mean weight diameter • PEA, piecewise exponential approach • SEA, single exponential approach

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