Siciliano SD, Ma WK, Ferguson S, Farrell RE. 2009. Nitrifier dominance of Arctic soil nitrous oxide emissions arises to due fungal competition with denitrifiers for nitrate. Soil Biology and Biochemistry 41: 1104-1110.
These authors examined the nitrous oxide emissions, microbial communities, and some components of nitrogen cycling in soils from three landforms at Truelove Lowland, on Devon Island. Previous results (Ma et al. 2007) had indicated that Arctic nitrous oxide emissions are not sensitive to soil moisture, at least in the range of 50% to saturated water filled pore space. This study includes a series of incubations of soil samples at a range of temperatures similar to ambient conditions, and treatments to disrupt fungi or particular types of prokaryotes.
Large differences in community composition were found between the three landforms, with the highest biomass and fungi:bacteria ratio in the wet sedge meadow and lowest in the raised beach crest (the lower foreslope was intermediate by these measures). Competition between fungi and denitrifiers for soil nitrate pools was inferred as the mechanism allowing dominance of emitted N2O by nitrifiers; fungi and denitrifiers are busy scavenging every available electron acceptor starting with nitrate and running all the way down to N2 gas, so almost any N2O that escapes was generated by nitrifiers in conditions not favoured by either of the other major groups.
This paper serves to demonstrate the very complex nature of soil biology, especially regarding the multiple and interacting pathways that may produce or consume materials of interest such as N2O. The references in this paper should be useful for digging into this complexity.
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