pH is considered one of the most im

pH is considered one of the most important factors in
control of the absorption, mobility and bioavailability of
heavy metal elements in the soil solution (Ramos, 2006). A
high pH contributes to a decrease of heavy metal mobility
by increasing the metal stability with humic substances
(Pigozzo et al., 2006). DOC is a key component involved
in metal displacement in soils (Zhao et al., 2007). It
contains functional groups such as carboxyl (–COOH),
hydroxyl (–OH) and carbonyl (–C=O) which participate
in the binding of heavy metals (Rijkenberg and Depree,
2010). Increasing the concentration of DOC could increase
the solubility of heavy metals, leading to their leaching to
soil solution.
These regression analyses indicated that Cu and Zn
behaved somewhat differently. Copper mobilization was
mainly governed by DOC, whereas Zn mobilization was
largely determined by pH. Copper was leached as metalorganic
complexes when the pH increased while Zn was mobilized when the pH decreased and the ionic strength
increased (He et al., 2006; Sauve et al., 2000; Temminghoff
et al., 1997). According to Doelsch et al. (2010), Zn was
sensitive to pH changes and the decrease in pH could
explain the increase in the exchangeable Zn fraction after
applying pig manure and green waste compost in tropical
soils. Copper could form stable aqueous complexes with
humic substances (Lamb et al., 2009) so the concentration
of DOC appeared to be a factor controlling exchangeable
Cu. A significant fraction of Zn in the soil solution was
present as free ions or inorganic complexes, and the
correlation between Zn and DOC was not as strong as for
Cu (Zhao et al., 2007). All these findings demonstrated that
the mechanism of release of Cu and Zn from biogas residue
to soil was different. DOC was the limiting factor for Cu
while Zn was controlled by pH in soil.