Physical and Hydraulic Properties of Baked Ceramic Aggregates Used For Plant Growth Medium

Authors

Susan L. Steinberg, Universities Space Research AssociationFollow
Gerard J. Kluitenberg, Kansas State UniversityFollow
Scott B. Jones, Utah State UniversityFollow
Nihad E. Daidzic, Minnesota State University, MankatoFollow
Lakshmi N. Reddi, Kansas State UniversityFollow
Ming Xiao, Kansas State University
Markus Tuller, University of IdahoFollow
Rebecca M. Newman, Kansas State University
Dani Or, University of ConnecticutFollow
J. Iwan D. Alexander, Case Western Reserve UniversityFollow

Document Type

Article

Publication Date

9-2005

Abstract

Baked ceramic aggregates (fritted clay, arcillite) have been used for plant research both on the ground and in microgravity. Optimal control of water and air within the root zone in any gravity environment depends on physical and hydraulic properties of the aggregate, which were evaluated for 0.25-1-mm and 1-2-mm particle size distributions. The maximum bulk densities obtained by any packing technique were 0.68 and 0.64 g cm-3 for 0.25-1-mm and 1-2-mm particles, respectively. Wettable porosity obtained by infiltration with water was approximately 65%, substantially lower than total porosity of approximately 74%. Aggregate of both particle sizes exhibited a bimodal pore size distribution consisting of inter-aggregate macropores and intra-aggregate micropores, with the transition from macro- to microporosity beginning at volumetric water content of approximately 36% to 39%. For inter-aggregate water contents that support optimal plant growth there is 45% change in water content that occurs over a relatively small matric suction range of 0-20 cm H2O for 0.25-1-mm and 0 to -10 cm H2O for 1-2-mm aggregate. Hysteresis is substantial between draining and wetting aggregate, which results in as much as a approximately 10% to 20% difference in volumetric water content for a given matric potential. Hydraulic conductivity was approximately an order of magnitude higher for 1-2-mm than for 0.25-1-mm aggregate until significant drainage of the inter-aggregate pore space occurred. The large change in water content for a relatively small change in matric potential suggests that significant differences in water retention may be observed in microgravity as compared to earth.

Department

Aviation

Print ISSN

0003-1062

Online ISSN

2327-9788

Publication Title

Journal of the American Society for Horticultural Science

Recommended Citation

Steinberg, S. L., Kluitenberg, G. J., Jones, S. B., Daidzic, N. E., Reddi, L. N., Xiao, M., Tuller, M., Newman, R. M., Or, D., & Alexander, J. I. D. (2005). Physical and hydraulic properties of baked ceramic aggregates used for plant growth medium, Journal of the American Society for Horticultural Science, 130(5), 767-774. https://doi.org/10.21273/JASHS.130.5.767

DOI

10.21273/JASHS.130.5.767

Link to Publisher Version (DOI)

https://doi.org/10.21273/JASHS.130.5.767

Publisher's Copyright and Source

Copyright © 2005 American Society for Horticultural Science.