Preliminary studies conducted in our laboratory with composted sludge have
shown that this material has a high affinity for metals. This metal uptake
property appears to be particularly pronounced for lead; for which the mate
rial showed a retention capacity of 15% of its weight. The metal uptake pro
cess is accompanied by the release of an equivalent amount of calcium.
Based on the results of this preliminary work, it appears that metal uptake
by composted sludge involves phosphates. These phosphates may be associate
d with minerals, such as apatite, present in the sludge, and/or dead or liv
ing microorganisms, such as bacteria, also present in the sluge. It appears
that calcium in the apatite is displaced by lead, forming lead phosphate m
ineral. On the other hand, the involvement of microorganisms can occur in t
hree possible ways. It can involve phosphates associated with the biomass o
f dead bacteria and other organisms. It can also involve phosphates occurri
ng in the system following microbial detoxification, a process which is bel
ieved to be accompanied by the release of inorganic phosphates. Lead uptake
by bacteria can also be a genetic process.