Hydroxylamine oxidation and subsequent nitrous oxide production by the heterotrophic ammonia oxidizer Alcaligenes faecalis

Nitrous oxide (N2O), a greenhouse gas, is emitted during autotrophic and he terotrophic ammonia oxidation. This emission may result from either couplin g to aerobic denitrifrcation, or it may be formed in the oxidation of hydro xylamine (NH2OH) to nitrite (NO2). Therefore, the N2O production during NH2 OH oxidation was studied with Alcaligenes faecalis strain TUD. Continuous c ultures of A. faecalis showed increased N2O production when supplemented wi th increasing NH2OH concentrations. N-15-labeling experiments showed that t his N2O production was not due to aerobic denitrification of NO2-. Addition of N-15-labeled NH2OH indicated that N2O was a direct by-product of NH2OH oxidation, which was subsequently reduced to N-2. These observations are su stained by the fact that NO2 production was low (0.23 mM maximum) and did n ot increase significantly with increasing NH2OH concentration in the feed. The NH2OH-oxidizing capacity increased with increasing NH2OH concentrations . The apparent V-max and K-m were 31 nmol, min(-1) mg dry weight(-1) and 1. 5 mM respectively. The culture did not increase its growth yield and was no t able to use NH2OH as the sole N source. A non-haem hydroxylamine oxidored uctase was partially purified from A. faecalis strain TUD. The enzyme could only use K3Fe(CN)(6) as an electron acceptor and reacted with antibodies r aised against the hydroxylamine oxidoreductase of Thiosphaera pantotropha.