Optimising the organic components of topsoil mixtures for urban grassland

Abstract

In order to optimise the organic components of topsoil mixtures for urban grassland, we conducted two pot experiments, each with seven topsoil mixtures and perennial ryegrass (Lolium perenne) as the experimental crop. The mineral base material of the topsoil mixtures was a blend of crushed bedrock (0–2mm), sand and agricultural topsoil. The organic components comprised three types of organic waste-based products (WBP), namely sewage sludge (SS), water sludge (WS) and garden-park compost (GPC), which were added in varying ratios to a total amount of 0.3m3WBPm−3. In both experiments, mineral nitrogen (N) availability was the key limiting factor for plant growth. Plant growth increased with increasing amounts of the N-rich SS, whereas WS and/or GPC alone resulted in sparse biomass production. Topsoil mixtures with 0.1m3m−3 each of SS, WS, GPC or with 0.1m3SSm−3 and 0.2m3WSm−3 resulted in favourable growth patterns and acceptable soil chemical properties. Topsoil mixtures containing ≤0.1m3SSm−3 can therefore be recommended for the establishment of urban grassland. With >0.1m3SSm−3, N and phosphorus (P) were applied in excess, causing intensive plant growth and strongly increased readily available phosphorus (P-AL) content in topsoil. We therefore suggest revision of the current Norwegian regulations, which permit inclusion of 0.3m3SSm−3 in topsoil mixtures for urban greening.