Anaerobic ammonium oxidation by nitrite (anammox): Implications for N₂ production in coastal marine sediments

The respiratory reduction of nitrate (denitrification) is acknowledged as the most important process that converts biologically available nitrogen to gaseous dinitrogen (N₂) in marine ecosystems. Recent findings, however, indicate that anaerobic ammonium oxidation by nitrite (anammox) may be an important pathway for N₂ formation and N removal in coastal marine sediments and in anoxic water columns of the oceans. In the present study, we explored this novel mechanism during N mineralization by ¹⁵N amendments (single and coupled additions of ¹⁵NH₄⁺, ¹⁴NO₃^- and ¹⁵NO₃^-) to surface sediments with a wide range of characteristics and overall reactivity. Patterns of ^29/30N₂ production in the pore water during closed sediment incubations demonstrated anammox at all 7 of the investigated sites. Stoichiometric calculations revealed that 4% to 79% of total N₂ production was due to this novel route. The relative importance of anammox for N₂ release was inversely correlated with remineralized solute production, benthic O₂ consumption, and surface sediment Chl a. The observed correlations indicate competition between reductants for pore water nitrite during early diagenesis and that additional factors (e.g. availability of Mn-oxides), superimposed on overall patterns of diagenetic activity, are important for determining absolute and relative rates of anammox in coastal marine sediments.