ZINC ADSORPTION AND TRANSPORT BYCHLAMYDOMONAS VARUIABILISANDSCENEDESMUS SUBSPICATUS(CHLOROPHYCEAE) GROWN IN SEMICONTINUOUS CULTURE1

Abstract

The amount of zinc adsorbed onto the cell surface of the unicellular green algaeScenedesmus subspicatusHodat andChlamydomonas variabilisDangeard was operationally defined by extraction with EDTA; it was a function of the concentration of free ionic zinc remaining in the growth medium, rather than that of the total (free plus complexed) zinc concentration, and could be described by Langmuir isotherms. Conditional adsorption equilibrium constants for zinc were 0.123 and 0.039 L ·μmol⁻¹forS. subspicatusandC. variabilis, respectively. A portion of the zinc adsorbed ontoC. variabiliswas released into solution after 1 h of contact with the metal, providing a possible tolerance mechanism for this alga; the division rate ofC. variabiliswas not altered by up to 12 μmol Zn²⁺· L⁻¹, although the cell yield obtained during the stationary phase was significantly decreased. The amount of transported or cellular zinc, for both algal species, was operationally defined as the zinc remaining with the cell after EDTA‐extraction; it was a linear function of the free ionic zinc concentration remaining in solution, suggesting that the zinc transported into the cell was not derived from the total adsorbed fraction, although the latter may contain some zinc originating from specific sites leading to zinc transport.