Regulation of denitrification at the cellular level: a clue to the understanding of N2O emissions from soils

Denitrifying prokaryotes use NOx as terminal electron acceptors in response to oxygen depletion. The process emits a mixture of NO, N2O and N2, depending on the relative activity of the enzymes catalysing the stepwise reduction of NO3− to N2O and finally to N2. Cultured denitrifying prokaryotes show...

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Veröffentlicht in:Philosophical transactions of the Royal Society of London. Series B. Biological sciences 2012-05, Vol.367 (1593), p.1226-1234
Hauptverfasser: Bakken, Lars R., Bergaust, Linda, Liu, Binbin, Frostegård, Åsa
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container_issue 1593
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container_title Philosophical transactions of the Royal Society of London. Series B. Biological sciences
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creator Bakken, Lars R.
Bergaust, Linda
Liu, Binbin
Frostegård, Åsa
description Denitrifying prokaryotes use NOx as terminal electron acceptors in response to oxygen depletion. The process emits a mixture of NO, N2O and N2, depending on the relative activity of the enzymes catalysing the stepwise reduction of NO3− to N2O and finally to N2. Cultured denitrifying prokaryotes show characteristic transient accumulation of NO2−, NO and N2O during transition from oxic to anoxic respiration, when tested under standardized conditions, but this character appears unrelated to phylogeny. Thus, although the denitrifying community of soils may differ in their propensity to emit N2O, it may be difficult to predict such characteristics by analysis of the community composition. A common feature of strains tested in our laboratory is that the relative amounts of N2O produced (N2O/(N2+N2O) product ratio) is correlated with acidity, apparently owing to interference with the assembly of the enzyme N2O reductase. The same phenomenon was demonstrated for soils and microbial communities extracted from soils. Liming could be a way to reduce N2O emissions, but needs verification by field experiments. More sophisticated ways to reduce emissions may emerge in the future as we learn more about the regulation of denitrification at the cellular level.
doi_str_mv 10.1098/rstb.2011.0321
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1471-2970
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subjects Acid soils
Acidity
Agricultural soils
Agriculture - methods
Denitrification
Ecosystem
Grassland soils
Hydrogen-Ion Concentration
Mitigation
Nitrogen - metabolism
Nitrous Oxide
Nitrous Oxide - metabolism
Orchard soils
Oxygen
Physiology
Pollutant emissions
Pseudomonas - metabolism
Regulation
Soil
Soil biochemistry
Soil Microbiology
Thauera
Wetland soils
title Regulation of denitrification at the cellular level: a clue to the understanding of N2O emissions from soils
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