EFFECT OF SALINITY AND PH ON COBALT BIOSORPTION BY THE ESTUARINE MICROALGA CHLORELLA-SALINA

Accumulation of cobalt (Co-60) by the estuarine microalga Chlorella salina has been characterized. At cobalt concentrations ranging over 3.125-100-mu-M, a significant amount of cobalt was bound within 1 min. This was metabolism-independent and unaffected by incubation in light or dark conditions. This initial rapid phase of biosorption was followed by a slower phase of uptake which was apparently active and inhibited by incubation in the dark, or by the uncoupler dinitrophenol and the respiratory and photosynthetic inhibitor potassium cyanide in the light. For cells suspended in 10 mM Taps pH 8, cobalt biosorption followed a Freundlich adsorption isotherm. However, in the presence of 0.5 M NaCl, biosorption deviated from the Freundlich model because of competition by Na+. Cobalt biosorption was decreased by increasing concentrations of Na+, decreasing pH and the presence of Cs+, Li+, Rb+, Zn2+, Mn2+ and Sr2+ (added as chlorides). This was a result of competition between Co2+ and the other cations, including H+, for available binding sites on the cell wall and was confirmed by increased desorption of cobalt by solutions of low pH or high salinity. Increasing cell density resulted in increased removal of cobalt from solution but decreased the specific amount of cobalt taken up by the cells.