Nitrate requirement for acetylene inhibition of nitrous oxide reduction in marine sediments

Abstract

The inhibition of nitrous oxide (N₂O) reduction by acetylene (C₂H₂) in saltmarsh sediment was temporary; we investigated this phenomenon and possible causes. The reduction of N₂O in the presence of C₂H₂ was biological. N₂O consumption in the presence of C₂H₂ began when nitrate concentration became very low. The time course of N₂O consumption after periods of N₂O accumulation was unaffected by initial nitrate concentrations between 16 and 200μM, or C₂H₂ concentrations between 10 and 100% of the gas phase. Sulfide had no effect on the kinetics of N₂O reduction in the presence of C₂H₂. In more dilute slurries of saltmarsh sediments and in estuarine sediment, N₂O persisted in the presence of C₂H₂ unless sufficient organic carbon was added to deplete nitrate. In saltmarsh sediments, the rate of N₂O consumption in the presence of C₂H₂ was not changed by preincubation with C₂H₂. Initial positive rates of N₂O production in the presence of C₂H₂ occurred only when the block was apparently effective (i.e., at nitrate concentrations greater than about 5–10μM) and appeared to represent a valid estimate of denitrification. Conversely, and in agreement with previous studies, concentrations of NO₃ ⁻ below these levels resulted in reduced efficiency of C₂H₂ blockage of N₂O reductase.