Competition for L-lactate betweenDesulfovibrio, Veillonella, andAcetobacterium species isolated from anaerobic intertidal sediments.

Almost equal numbers ofDesulfovibrio, Veillonella, andAcetobacterium species were found in agar shake dilutions of anaerobic intertidal brackish sediments applying L-lactate as the only energy source and sulfate as electron acceptor. Pure cultures of these bacteria were studied in more detail in batch cultures as well as in L-lactate-limited chemostats. The maximal specific growth rates on L-lactate were determined in washout experiments and amounted to 0.16, 0.30, and 0.06 h(-1) forDesulfovibrio baculatus H.L21,Veillonella alcalescens NS.L49, andAcetobacterium NS.L40, respectively. Competition for L-lactate was studied in energy-limited chemostats at a dilution rate of 0.02 h(-1).D. baculatus H.L21 turned out to be the best competitor at low L-lactate concentrations provided that sufficient sulfate and iron were present.V. alcalescens NS.L49 was favored by the absence of sulfate and iron. Coexistence ofD. baculatus H.L21 andV. alcalescens NS.L49 was observed in a L-lactate-limited chemostat with additional sulfate and citrate. Syntrophic growth ofV. alcalescens NS.L49 andAcetobacterium NS.L40 occurred in a L-lactate-limited chemostat in the absence of sulfate. No coexistence betweenD. baculatus H.L21 andAcetobacterium NS.L40 was observed in a L-lactate-limited chemostat without sulfate. Addition of calcium-saturated illite to an energy-limited mixed culture ofV. alcalescens NS.L49 andAcetobacterium NS.L40 induced iron limitation and subsequent washout of theAcetobacterium species. Finally, the ecological niches of the 3 species in relation to the consumption of lactate were discussed.