The biogeochemistry of a manganese-rich Scottish sea loch: Implications for the study of anoxic nitrification

The anoxic oxidation of ammonia by manganese oxides is a newly recognised pathway for the production of N2 in sedimentary environments, potentially contributing a significant loss of nitrogen from the world's oceans. Due to the complex recycling of redox species in marine sediments this process is difficult to discern in the natural environment, and is consequently poorly understood. The potential for anoxic nitrification coupled to manganese reduction was investigated through field research and laboratory incubation experiments. Field data from Loch Fyne, a manganese-rich site, did not provide conclusive evidence for anoxic nitrification, although minor accumulation of nitrate was observed in anoxic pore-waters. Incubation of Loch Fyne sediments showed anoxic nitrification to occur, with accumulation of both nitrate and nitrite coincident with removal of ammonia under anoxia, although these observations were not reproduced in repeat experiments. The laboratory evidence for anoxic nitrification confirms the reaction is possible in marine sediments; however, the wider significance of anoxic nitrification remains uncertain. Contrary to previous assumptions about anoxic nitrification, results suggest the reaction may not be dependent on total manganese concentrations and may be inhibited by conventional heterotrophic manganese reduction in manganese-rich sediments.