Comparisons of soil nitrogen mass balances for an ombrotrophic bog and a minerotrophic fen in northern Minnesota

- We compared N budgets for soils from an ombrotrophic bog and a minerotrophic fen.
- Soil N content depended on location within the bog or fen, and on soil depth.
- We highlight the importance of biogeochemical hotspots within the peatlands.
- We show the importance of organic N storage, as a source of N for denitrification.
- We propose a link between N storage, denitrification and N export from peatlands.

We compared nitrogen (N) storage and flux in soils from an ombrotrophic bog with that of a minerotrophic fen to quantify the differences in N cycling between these two peatlands types in northern Minnesota (USA). Precipitation, atmospheric deposition, and bog and fen outflows were analyzed for nitrogen species. Upland and peatland soil samples were analyzed for N content, and for ambient (DN) and potential (DEA) denitrification rates. Annual atmospheric deposition was: 0.88-3.07 kg NH4+ ha− 1 y− 1; 1.37-1.42 kg NO3− ha− 1 y− 1; 2.79-4.69 kg TN ha− 1 y− 1. Annual N outflows were: bog-0.01-0.04 kg NH4+ ha− 1 y− 1, NO3− 0.01-0.06 kg ha− 1 y− 1, and TN 0.11-0.69 kg ha− 1 y− 1; fen-NH4+ 0.01-0.16 kg ha− 1 y− 1, NO3− 0.29-0.48 kg ha− 1 y− 1, and TN 1.14-1.61 kg ha− 1 y− 1. Soil N content depended on location within the bog or fen, and on soil depth. DN and DEA rates were low throughout the uplands and peatlands, and were correlated with atmospheric N deposition, soil N storage, and N outflow. DEA was significantly greater than DN indicating C or N limitation of the denitrification process. We highlight differences between the bog and fen, between the upland mineral soils and peat, and the importance of biogeochemical hotspots within the peatlands. We point out the importance of organic N storage, as a source of N for denitrification, and propose a plausible link between organic N storage, denitrification and N export from peatlands. Finally, we considered the interactions of microbial metabolism with nutrient availability and stoichiometry, and how N dynamics might be affected by climate change in peatland ecosystems.

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