Calcium, copper, nickel and zinc were examined for their effect on the growth of axenic filamentous bacteria which included strains of Thiothrix, type 021N and type 1701. All organisms grew best at the upper range of calcium concentrations tested. Heavy metals were also less toxic to Thiothrix strain A1 at higher calcium concentrations. Copper was more inhibitory than either nickel or zinc and copper-nickel and copper-zinc mixtures appeared to act synergistically in suppressing the development of Thiothrix strain A1. In contrast, nickel toxicity could be reduced by the addition of zinc to the medium. Metal toxicity could also be diminished by the chelating agent, EDTA; therefore, free metal ions were most likely responsible for the observed toxic effects. A computer model, MINEQL, was used to predict metal speciation and to determine the potential for various media components to control speciation of the metals. The suitability of the computer model was determined by comparison of predicted and analyzed free metal ion concentrations.