An increase of pH is generally acco

An increase of pH is generally accompanied by
a decrease of the solubility of many toxic heavy
metals; thus, total concentrations of most metals
decrease in the water body because a sedimental
process takes place and the less soluble forms are
accumulated in the suspended or sedimented
phase.
The distributions of mercury and copper in the
water reservoir are rather homogeneous; this can
be explained on the basis that mercury and copper
are fixed by suspended particulate matter,
which is maintained in the water column by resus-
pension processes Roses et al., 1975; F¨orstner
and Wittmann, 1979; Mantoura, 1981; Wallace et
al., 1982.. The association of mercury with parti-
cles, colloids and organic compounds presenting
sulphur complexing groups. increases the risk of
transformation from mineral to organic forms as
methyl mercury, through microbial controlled re-
actions Paquette and Helz, 1997., organic forms
make the metal more toxic for organisms in
ecosystems. According to Wang and Driscoll
1995., the formation of a strong aqueous complex
with dissolved sulfide can also be an important
mechanism facilitating the mobilization of
mercury from sediments to the water column.
For all the metals except copper, the total
concentrations in water indicate a temporal distribution.
Fig. 6 shows the evolution of lead, mercury
and chromium as an example. The sampling