Recent increases in land application of sewage sludge have raised concerns
over the potential introduction of contaminants into the human food chain.
The establishment of sound regulation requires knowledge on the fate and di
stribution of contaminants in sludge amended soils. Humic substances play a
crucial role in trace element bioavailability and transport; thus research
is needed to elucidate their mechanisms of reaction. This paper reports th
e results of a study conducted with a sewage sludge humic acid. The objecti
ves were to evaluate potential differences in composition between this humi
c acid and its soil analogs and to ascertain their impact on its reactivity
. Higher nitrogen and sulfur contents, as well as lower oxygen levels were
detected in the sewage sludge humic acid compared to those of its soil coun
terparts. Determinations of proton and Eu3+ affinity constants suggest that
the ion binding reactions in this humic acid are controlled mainly by a cl
ass of functional groups possessing carboxyl-like reactivities. This findin
g contrasts with the general notion that ion binding reactions in humic sub
stances are controlled by equivalent fractions of carboxyl and phenolic-typ
e groups, and it confirms the heterogeneous nature of these compounds.