Sulfur Isotope Enrichment during Maintenance Metabolism in the Thermophilic Sulfate-Reducing Bacterium Desulfotomaculum putei

Values of ΔS (= δS - δS, where δS and δS indicate the differences in the isotopic compositions of the HS and SO in the eluent, respectively) for many modern marine sediments are in the range of -55 to -75‰, much greater than the -2 to -46‰ εS (kinetic isotope enrichment) values commonly observed for microbial sulfate reduction in laboratory batch culture and chemostat experiments. It has been proposed that at extremely low sulfate reduction rates under hypersulfidic conditions with a nonlimited supply of sulfate, isotopic enrichment in laboratory culture experiments should increase to the levels recorded in nature. We examined the effect of extremely low sulfate reduction rates and electron donor limitation on S isotope fractionation by culturing a thermophilic, sulfate-reducing bacterium, Desulfotomaculum putei, in a biomass-recycling culture vessel, or "retentostat." The cell-specific rate of sulfate reduction and the specific growth rate decreased progressively from the exponential phase to the maintenance phase, yielding average maintenance coefficients of 10 to 10 mol of SO cell h toward the end of the experiments. Overall. S mass and isotopic balance were conserved during the experiment. The differences in the δS values of the sulfate and sulfide eluting from the retentostat were significantly larger, attaining a maximum ΔS of -20.9‰, than the -9.7‰ observed during the batch culture experiment, but differences did not attain the values observed in marine sediments