Methylotrophic methanogenesis in Sphagnum-dominated peatland soils

Although it is generally assumed that CH4 production in peatlands is dominated by the acetoclastic and hydrogenotrophic methanogenic pathways, we found evidence that methylated substrates (including methanol, methylamines, and dimethylsulfide) support methanogenesis in these organic-rich environments. The role of methylotrophic methanogenesis was investigated in three northern Minnesota peatlands by amending surface soils with 13C-labeled substrates. Labeled methanol was converted to enriched δ 13C-CH4 at all three sites. Additionally, dimethylsulfide and monomethylamine were processed through methanogenic pathways, although this was not evident at every site. The addition of 13C labeled methanol and monomethylamine also resulted in the enrichment of δ 13C-CO2, further suggesting that either methanogens or non-methanogenic microbes were processing methylated substrates. Results demonstrate the potential for methylotrophic methanogenesis in northern peatlands and suggest that further studies are warranted to quantify the amount of CH4 produced by this process in comparison to traditional pathways of methanogenesis. •The potential for methylotrophic methanogenesis is demonstrated in peatland soils.•Enriched δ13C-CH4 was produced in soils amended with 13C-labeled methylated substrates.•Methanol was the preferred methylated substrate at all sites.