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This article in SSSAJ

  1. Vol. 62 No. 3, p. 563-573
     
    Received: Mar 17, 1997
    Published: May, 1998


    * Corresponding author(s): dani@tal.agsci.usu.edu
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doi:10.2136/sssaj1998.03615995006200030002x

Design of Porous Media for Optimal Gas and Liquid Fluxes to Plant Roots

  1. Scott B. Jones and
  2. Dani Or 
  1. Department of Plants, Soils, and Biometeorology, Utah State Univ., Logan, UT 84322-4820

Abstract

Abstract

The selection of plant growth media remains an empirical endeavor often focusing on available materials rather than on the physical principles that govern water retention and flow. Apparent water- and O2-induced stresses affecting plant growth experiments in microgravity (10−3–10−6 g0) have prompted the need for refinement of selection criteria for optimal growth media. The objective of this work was to develop a comprehensive approach for selecting the physical characteristics of plant growth media that optimize the dynamic availability of liquids and gases to plant roots. Physically based models describing the relationship between content and fluxes of liquids and gases were written in terms of media parameters and were used to cast a multi-objective optimization problem. Plant physiological target values, growth container design, and other system considerations provided constraints for the optimization problem. The optimized media parameters designated a pore-size distribution (psd) that is scaled to a corresponding particle-size distribution (PSD) by inversion of the Arya and Paris model. The iterative process resulted in an average scaling of psd to PSD and led to the synthesis of an optimal medium. Sand and glass bead mixtures were well matched to the optimized media characteristics resulting from the optimization procedure. This methodology is amenable to horticultural, greenhouse, and research applications where optimal porous media design is of value.

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