Impacts of Biochar, Biosolids, Wood Chips, Compost, Compost Tea, and N Fertilizer On Urban Soils and Tree Growth.
Wednesday, November 6, 2013: 8:50 AM
Marriott Tampa Waterside, Room 11, Third Level
Bryant Chad Scharenbroch, The Morton Arboretum, Lisle, IL
Urban soil quality is often degraded and a challenging substrate for trees. This study was conducted to assess the impacts of biochar (BC), biosolids (BS), wood chips (WC), compost (COM), compost tea (ACT), and a nitrogen fertilizer (NK) for improving three typical urban soils and tree sapling growth. Across the three soil types, the most significant changes in soil properties were observed with BS and BC. Biosolids decreased soil pH, and increased available N, N mineralization, and microbial respiration. Biochar increased total organic C. Increases in microbial respiration were also observed with NK, COM, and WC in only the sand soil. Leachate concentrations of dissolved organic C was greater with BS and COM, but nitrate in leachates did not differ among the treatments. The greatest and most significant increases in Acer saccharum and Gleditsia triacanthos growth were found with BS and BC. Tree growth was modeled from plant available N and microbial respiration. The N content in the treatments appeared to be a strong determinant of tree growth for all treatments except BC. Nitrogen fertilizer, COM, and WC are the most common urban soil amendments and mulches in use today. This study provides evidence that BS and BC are acceptable, and possibly preferred alternatives for improving urban soil quality and tree growth. The use of BC in nursery production, arboriculture, and urban forestry is particularly attractive because tree waste and trimmings may be diverted from landfills and utilized for soil improvement, carbon sequestration, and energy production.