Extractability of trace metals during co-composting of biosolids and municipal solid wastes

Abstract

 Composts made from biosolids and municipal solid wastes contain heavy metals which may be exported outside soil systems by plants, animals and surface and subsurface waters after the compost has been added to soils. Chemical distributions of Cu, Zn, Cr, Pb, Ni and Co were determined by eight sequential extractions of co-composted materials sampled on days 0, 13, 27 and 41. The concentrations of residual Zn, Cr, Cu and Pb increased by 145, 124, 73.6 and 26.3% during the composting period, respectively, whereas the concentration of residual Ni remained relatively constant and that of Co decreased by 60% over the same period. These results show that co-composting contaminated residues substantially reduces the extractability and exchangeability of four out of six heavy metals, suggesting that the risks of entering the food chain and contaminating crops, animals and water reserves would be equally reduced. Fourier-transform infrared spectra showed that heavy metals in the compost are bonded to COO- groups of the organic matter.