Kinetics of the methanogenic fermentation of acetate

Abstract

Inhibition of the fermentation of acetate to methane and carbon dioxide by acetate was analysed with an acetate-acclimatized sludge and with Methanosarcina barkeri Fusaro unde mesophilic conditions. A second-order substrate inhibition model, q(CH)4 = q(m)S/[K(s) + S + (S2/K(i))], where S was the concentration of undissociated acetic acid, not ionized acetic acid, could be applicable in both cases. The analysis resulted in substrate saturation constants, K(s), of 4.0 μM for the acclimatized sludge and 104 μM for M. barkeri. The threshold concentrations of undissociated acetic acid when no further acetate utilization was observed were 0.078 μM (pH 7.50) for the acclimatized sludge and 4.43 μM (pH 7.45) for M. barkeri. These kinetic results suggested that the concentration of undissociated acetic acid became a key factor governing the actual threshold acetate concentration for acetate utilization and that the acclimatized sludge in which Methanothrix spp. appeared dominant could utilize acetate better and survive at a lower concentration of undissociated acetic acid than could M. barkeri.