In acidic mineral soils, the major

In acidic mineral soils, the major constraints to plant growth are toxicity of protons, Al and Mn and a deficiency of macronutrients such as Ca and Mg (Wild, 1992). Micronutrient deficiencies in crops lead to increased susceptibility to disease and decreased yield potential (Marschner, 2012). The concentration of micronutrients (Fe, Mn, Cu and Zn) in the soil solution depends on soil pH (another important factor is the organic matter content, see Gómez-Armesto et al., 2015). Teng et al. (2015) asserted that the reason behind the relationships between soil pH and heavy metal concentrations in alkaline soils could be that soil alkalinity may reduce available contents of heavy metals in the soil and, consequently, reduce the uptake of heavy metals by plants.

3.2. Biological absorption coefficients (BAC)

The BAC values for each element in acidic and alkaline soils are listed in Table 2. It can be seen that Ca, Mn, Zn and Sr have higher bioaccumulation coefficients in acidic soil than in alkaline soil, as reported by Han (2007) and Teng et al. (2015). However, K, Al and Ba have higher bioaccumulation coefficients in alkaline soil. Very few references were found concerning the bioaccumulation of these elements in acidic soils (Pérez-de-los-Reyes et al., 2013). However, the BAC values obtained for alkaline soil are more similar to those of Fe, Mn, Al and Ba when compared to those presented by Bravo et al. (2015), Kabata-Pendias (2001) and Pérez-de-los-Reyes et al. (2013). The values obtained for Ca and Zn are higher than that those measured in limestone-rich soil (0.99–0.12 for Ca and 0.54–0.37 for Zn) (Amorós et al., 2012) but lower than those for amended soil (Bravo et al., 2015 and Pérez-de-los-Reyes et al., 2013). Meanwhile, Hamon et al. (2006) and Likar et al. (2015) determined that an increase in the soil pH causes a decrease in the efficiency of the absorption of Zn by the plant.