Abstract
During ornamental plant growth, the spatial heterogeneity of root distribution in containers raises the question of air and water availability within growing media, and of their evolution during plant growth. The aim of the present study was to characterise the evolution of peat hydraulic properties in different parts of containers during root growth. A 4-month long experiment was carried out in a greenhouse in 1L-containers at constant water regime (−1kPa water potential). We studied Rosa “Knock Out”® growth in two different particle-size sphagnum peats, a fine one (0–10mm) and a coarse one (20–40mm). Every month, aerial biomass and root biomass were quantified. Root distribution was studied relative to the depth and the proximity of the container border. Water retention, hydraulic conductivity and relative gas diffusivity of the growing media were measured. The study showed that root growth increased water retention. The higher root density at the bottom of the container highlighted a potential risk of anoxia, particularly in fine peat. In coarser peat, whose porosity is more important, both hydraulic conductivity and relative gas diffusivity were improved during root growth.
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