3.3. Relationships between soil and

3.3. Relationships between soil and plant composition
When considering data corresponding to the four soil samplings together, soil pH values correlated negatively with DTPA-extractable concentrations of the metals Fe, Mn, Zn, Cu and Pb (r = −0.819, −0.730, −0.619, −0.606 and −0.589, respectively; n = 36, P < 0.001). DTPA-extractable Cu concentrations were correlated significantly with the TOC content of the soils (n = 36, r = 0.524, P < 0.01), reflecting the well-known dependence of the availability/extractability of this element on the organic matter content and composition of the soils ( McLaren et al., 1981). Multiple linear regression equations were calculated for DTPA-extractable Fe, Mn, Pb, Zn and Cu and the soil TOC and pH for the four samplings ( Table 3). Significant regressions were found for Fe and Zn with soil pH, but the addition of TOC as a factor did not improve the regression equations, confirming the pH as the main factor controlling availability of these metals. However, the best regression equations for DTPA-extractable Mn, Pb and Cu included both pH and TOC. Therefore, soil TOC plays a significant role in the solubility or availability of these metals together with soil pH. These results reflect the strong influence of soil pH and redox conditions, related to the presence of degradable OM in soil, on the Mn2+ concentration in soil solution and thus on metals bioavailability and phytotoxicity, and again the dependence of Cu extractability on the OM of soil.