Distribution of C and N mineralization of a sludge compost within particle-size fractions
Résumé
The contribution of particle-size fractions to carbon (C) and nitrogen (N) mineralization of sludge compost was investigated. Particle-size fractionation was performed using ‘‘dry” (sieving of total dry compost) and ‘‘wet” (dispersion of compost in water, followed by sieving) fractionation methods, then C and N mineralization of the separated fractions were measured during incubation in soil. The ‘‘dry” fractionation did not allow the actual particle-size distribution of compost to be estimated accurately. Out of all the ‘‘wet” fractions, the [0–50 lm] fraction was the most significant fraction in compost mass and contributed the most to the N mineralization of sludge compost in soil. Its low degradability, positive N mineralization and similarities with sludge OM suggest that the most humified sludge organic matter was located in this fraction, which would probably contribute to C storage and N availability after compost application in soil. Other fractions (>200 lm) were more readily biodegradable and induced N immobilization.