Sm. Macfie et al., EFFECTS OF CADMIUM, COBALT, COPPER, AND NICKEL ON GROWTH OF THE GREEN-ALGA CHLAMYDOMONAS-REINHARDTII - THE INFLUENCES OF THE CELL-WALL AND PH, Archives of environmental contamination and toxicology, 27(4), 1994, pp. 454-458
Comparative studies of the toxicity of Cd, Co, Cu, and Ni to walled (U
TCC 11) and wall-less (UTCC 12) strains of Chlamydomonas reinhardtii w
ere made in order to test the hypothesis that the cell wall affords so
me protection against metal toxicity. The wall-less strain was consist
ently more sensitive than the walled strain to all four metals, indica
ting that the cell wall plays a role in conferring metal tolerance. Be
tween-strain differences were most striking for Cu and for Co. The eff
ect of hydrogen ion concentration (pH 5 and 6.8) on metal toxicity was
also determined for the two strains. Having established that both str
ains grew equally well at pH 5 or 7 in the absence of added metal, it
was necessary to correct for the changes in metal speciation due to pH
in the medium used for the tests. Speciation of each metal at each pH
was determined by mathematical (GEOCHEM) modeling of the medium and t
he calculated free (ionic) metal concentration was used to express tox
icity. In addition, the concentration of ionic metal that reduced fina
l cell density to 30% of that in control solution (EC(30)) was used as
an indicator of relative metal toxicity. For both strains, all metals
were less toxic at pH 5 than at pH 7, supporting previous observation
s. The results are discussed in terms of the possible mechanisms by wh
ich the cell wall could protect the cell from metal toxicity, and the
relevance of the results to more general considerations of metal toler
ance mechanisms in plants.