RT Journal Article
SR Electronic
T1 Compost-Containing Substrates and Their Effect on Posttransplant Growth of Containerized Tree Seedlings
JF Arboriculture & Urban Forestry (AUF)
FD International Society of Arboriculture
SP 289
OP 296
DO 10.48044/jauf.2006.037
VO 32
IS 6
A1 Bruce R. Roberts
YR 2006
UL http://auf.isa-arbor.com/content/32/6/289.abstract
AB Greenhouse studies were undertaken to determine the influence of composted media on the posttransplant growth of containerized red maple, sugar maple, and green ash seedlings. Before planting, the chemical and physical properties of each substrate were measured. For media containing composted biosolids, pH was significantly higher, whereas electrical conductivity, air-filled porosity, and total pore space were significantly lower than in a composted medium without biosolids. For composted substrates containing at least some soil, bulk density, particle density, and container capacity were all significantly greater than for composts without any soil. Growth of red maple was about the same in a noncomposted soilless medium (Metro-mix 360) as it was in substrates containing biosolid compost. Height growth, total biomass, and root biomass of green ash were all significantly greater for seedlings grown in Metro-mix 360 only, and the growth of sugar maple seedlings was about the same in Metro-mix 360 or in a composted substrate without biosolids (Metro-mix 560). The results of this study suggest no particular short-term growth advantage of using composted media as backfill amendments when transplanting; however, the addition of composts could be beneficial in improving the chemical and physical properties of native soils, particularly urban soils containing very low levels of organic matter.