Key geochemical factors regulating Mn(IV)-catalyzed anaerobic nitrification in coastal marine sediments

The reduction of Mn(IV) oxides coupled to the anaerobic oxidation of NH 4 + has been proposed for more than a decade to contribute to the fixed nitrogen pool in marine sediments, yet the existence of this process is still under debate. In this study, surface sediments from an intertidal salt marsh were incubated with MnO2 in the presence of elevated concentrations of NH 4 + to test the hypothesis that the reduction of Mn(IV) oxides catalyzes anaerobic NH 4 + oxidation to NO 2 - or NO 3 - . Geochemical factors such as the ratio of Mn(IV) to NH 4 + , the type of Mn(IV) oxides (amorphous or colloidal MnO2), and the redox potential of the sediment significantly affect the activity of anaerobic nitrification. Incubations show that the net production of NO 3 - is stimulated under anaerobic conditions with external addition of colloidal but not amorphous MnO2 and is facilitated by the presence of high concentrations of NH 4 + . Mass balance calculations demonstrate that anaerobic NH 4 + oxidation contributes to the net consumption of NH 4 + , providing another piece of evidence for the occurrence of Mn(IV)-catalyzed anaerobic nitrification in coastal marine sediments. Finally, anaerobic nitrification is stimulated by the amendment of small concentrations of NO 3 - or the absence of sulfate reduction, suggesting that moderately reducing conditions favor anaerobic NH 4 + oxidation. Overall, these findings suggest that Mn(IV)-catalyzed anaerobic nitrification in suboxic sediments with high N/Mn concentration ratios and highly reactive manganese oxides may be an important source of NO 2 - and NO 3 - for subsequent marine nitrogen loss via denitrification or anammox.