Interactive Effects of Al3+, H+, and Other Cations on Root Elongation Considered in Terms of Cell-Surface Electrical Potential

The rhizotoxicities of Al(3+) and of La(3+) to wheat (Triticum aestivum L.) were similarly ameliorated by cations in the following order of effectiveness: H(+) approximately C(3+) > C(2+) > C(1+). Among tested cations of a given charge, ameliorative effectiveness was similar except that Ca(2+) was slightly more effective than other divalent cations and H(+) was much more effective than other monovalent cations. H(+) rhizotoxicity was also ameliorated by cations in the order C(3+) > C(2+) > C(1+). These results suggest a role for cell-surface electrical potential in the rhizotoxicity of Al(3+), La(3+), H(+), and other toxic cations: negatively charged cell surfaces of the root accumulate the toxic cations, and amelioration is effected by treatments that reduce the negativity of the cell-surface electrical potential by charge screening or cation binding. Membrane-surface activities of free Al(3+) or La(3+) computed according to a Gouy-Chapman-Stern model correlated well with growth inhibition, which correlated only poorly with Al(3+) or La(3+) activities in the external medium. The similar responses of Al-intoxicated and La-intoxicated roots to ameliorative treatments provide evidence that Al(3+), rather than AlOH(2+) or Al(OH)(2) (+), is the principal toxic species of mononuclear Al. Comparisons of the responses of Al-sensitive and Al-tolerant wheats to Al(3+) and to La(3+) did not support the hypothesis that varietal sensitivity to Al(3+) is based upon differences in cell-surface electrical potential.