Abstract
Closed reactor kinetic experiments, SEM and TEM imaging, EDX analyses, and zeta potential measurements were used to assess the existence of metabolic process protecting cyanobacteria against carbonate mineralization on their surfaces. Carbonate precipitation rates measured at pH of ∼8.2 and 23 °C in initially supersaturated solutions in the presence of active Synechococcus sp. and Planktothrix sp. correspond closely to those measured in analogous inorganic control experiments. TEM imaging and EDX analysis indicates the absence of Ca 2+ on active Synechococcus sp. and Planktothrix sp. surfaces. Electrophoretic measurements of active cyanobacteria surfaces demonstrate development of a positive surface potential on active Synechococcus sp. and Planktothrix sp. cyanobacteria at pH 8–10. This positive charge was suppressed by the presence of 1 mM HCO 3 − but enhanced by increasing aqueous Ca 2+ concentration in the fluid phase. These observations suggest the existence of a mechanism, based on the metabolic maintenance of a positive surface charge at alkaline pH, protecting active cyanobacteria against Ca 2+ adsorption and subsequent carbonate precipitation on their surfaces.
Published Version
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