Benefits for agriculture and the environment from urban waste

Soluble bio-based substances (SBO) that have been isolated fromurban biowaste have recently been reported to enhance plant leaf chlorophyll content and growth. The same SBO have also been shown to enhance the photochemical degradation of organic pollutants in industrial effluent. These findings suggest that SBO may promote either C fixation or mineralization, according to operating conditions. The present work aims to investigate SBO performance, as a function of source material. Thus, three materials have been sampled from a municipal waste treatment plant: (i) the digestate of the anaerobic fermentation of a humid organic fraction, (ii) a whole vegetable compost made fromgardening residues and (iii) compost made froma mixture of digestate, gardening residues and sewage sludge. These materials were hydrolyzed at pH 13 and 60 °C to yield SBO that display different chemical compositions. These productswere applied to soil at 30, 145 and 500 kg ha-1 doses for tomato cultivation. Soil and plant leaf chemical composition, plant growth, leaf chlorophyll content and CO2 exchange rate as well as fruit quality and production rate were measured. Although it did not affect the soil's chemical composition, SBO were found to significantly increase plant photosynthetic activity, growth and productivity up to the maximum value achieved at 145 kg ha-1. The effects were analyzed as a function of SBO chemical composition and applied dose. The results of thiswork, compared with those of previousworks, indicate that urban biowaste, if properly exploited, may furnish conjugate economic and environmental benefits, within a friendly sustainable ecosystem.