Factors controlling nitrous oxide emissions from managed northern peat soils with low carbon to nitrogen ratio

Managed northern peatlands are an important source of the strong greenhouse gas nitrous oxide (N2O). However, N2O emissions from these managed peatlands display a high spatial variability, and processes governing N2O production and emissions from these ecosystems are still not well understood. To co...

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Published inSoil biology & biochemistry Vol. 122; pp. 186 - 195
Main Authors Liimatainen, Maarit, Voigt, Carolina, Martikainen, Pertti J., Hytönen, Jyrki, Regina, Kristiina, Óskarsson, Hlynur, Maljanen, Marja
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.07.2018
Subjects
C/N ratio
carbon
carbon nitrogen ratio
Copper
Drained peatlands
ecosystems
Finland
greenhouse gas emissions
greenhouse gases
humification
Iceland
Land-use
microbial biomass
mineralization
N2O
nitrification
nitrogen
nitrogen cycle
nitrous oxide
oxygen
peat
peat soils
peatlands
Phosphorus
soil microorganisms
soil water
Sweden
Sweden
Iceland
Finland
C/N ratio
Phosphorus
N2O
Drained peatlands
Copper
Land-use
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Abstract Managed northern peatlands are an important source of the strong greenhouse gas nitrous oxide (N2O). However, N2O emissions from these managed peatlands display a high spatial variability, and processes governing N2O production and emissions from these ecosystems are still not well understood. To constrain the factors regulating N2O emissions from managed northern peat soils, we determined a wide set of soil physical and chemical properties of peatlands with different management histories spread across Finland, Sweden and Iceland. We included eleven peatland sites with available in situ N2O flux data, and complemented our analyses with detailed measurements of soil nitrogen (N) cycling processes such as N2O production, gross N mineralization and gross nitrification and, in addition, soil microbial biomass. This study included drained peatlands with different land-use types and management intensities, comprising forested, cultivated or only drained peatlands and afforested or abandoned agricultural peatlands. All selected peatland sites displayed a low soil carbon to nitrogen (C/N) ratio of 15–27, traditionally used to predict high N2O emissions. Despite the narrow C/N range, the N2O emissions at our sites varied greatly within and between land-use groups, ranging from 0.03 to 2.38 g N m−2 y−1. Thus, our findings provide valuable insights into the regulatory factors underlying the variability in N2O emissions and show that a low C/N ratio in managed peatlands cannot be used to predict high N2O emissions. Instead, our results demonstrate that higher N2O emissions are linked to higher peat phosphorus (P) and copper (Cu) content, suggesting that low P and Cu concentrations can limit N2O production in peat even with sufficient N availability. While known factors such as soil moisture, oxygen content and the degree of peat humification partially explained the variability in N2O emissions, this study directly links soil P and Cu availability to N2O production processes. The availability of P and especially Cu seemed to promote nitrification activities, thereby increasing N2O production. Our study highlights the link between N2O emissions and soil P and Cu availability and the strong coupling of the soil N and P cycles in peatlands, which is to date severely understudied. •C/N ratio does not explain high variability in N2O emissions from managed peatlands.•N2O emissions increase with increased phosphorus (P) and copper (Cu) availability.•Ammonium oxidation is important process for N2O production in managed peat soils.
AbstractList Managed northern peatlands are an important source of the strong greenhouse gas nitrous oxide (N₂O). However, N₂O emissions from these managed peatlands display a high spatial variability, and processes governing N₂O production and emissions from these ecosystems are still not well understood. To constrain the factors regulating N₂O emissions from managed northern peat soils, we determined a wide set of soil physical and chemical properties of peatlands with different management histories spread across Finland, Sweden and Iceland. We included eleven peatland sites with available in situ N₂O flux data, and complemented our analyses with detailed measurements of soil nitrogen (N) cycling processes such as N₂O production, gross N mineralization and gross nitrification and, in addition, soil microbial biomass. This study included drained peatlands with different land-use types and management intensities, comprising forested, cultivated or only drained peatlands and afforested or abandoned agricultural peatlands. All selected peatland sites displayed a low soil carbon to nitrogen (C/N) ratio of 15–27, traditionally used to predict high N₂O emissions. Despite the narrow C/N range, the N₂O emissions at our sites varied greatly within and between land-use groups, ranging from 0.03 to 2.38 g N m⁻² y⁻¹. Thus, our findings provide valuable insights into the regulatory factors underlying the variability in N₂O emissions and show that a low C/N ratio in managed peatlands cannot be used to predict high N₂O emissions. Instead, our results demonstrate that higher N₂O emissions are linked to higher peat phosphorus (P) and copper (Cu) content, suggesting that low P and Cu concentrations can limit N₂O production in peat even with sufficient N availability. While known factors such as soil moisture, oxygen content and the degree of peat humification partially explained the variability in N₂O emissions, this study directly links soil P and Cu availability to N₂O production processes. The availability of P and especially Cu seemed to promote nitrification activities, thereby increasing N₂O production. Our study highlights the link between N₂O emissions and soil P and Cu availability and the strong coupling of the soil N and P cycles in peatlands, which is to date severely understudied.
Managed northern peatlands are an important source of the strong greenhouse gas nitrous oxide (N2O). However, N2O emissions from these managed peatlands display a high spatial variability, and processes governing N2O production and emissions from these ecosystems are still not well understood. To constrain the factors regulating N2O emissions from managed northern peat soils, we determined a wide set of soil physical and chemical properties of peatlands with different management histories spread across Finland, Sweden and Iceland. We included eleven peatland sites with available in situ N2O flux data, and complemented our analyses with detailed measurements of soil nitrogen (N) cycling processes such as N2O production, gross N mineralization and gross nitrification and, in addition, soil microbial biomass. This study included drained peatlands with different land-use types and management intensities, comprising forested, cultivated or only drained peatlands and afforested or abandoned agricultural peatlands. All selected peatland sites displayed a low soil carbon to nitrogen (C/N) ratio of 15–27, traditionally used to predict high N2O emissions. Despite the narrow C/N range, the N2O emissions at our sites varied greatly within and between land-use groups, ranging from 0.03 to 2.38 g N m−2 y−1. Thus, our findings provide valuable insights into the regulatory factors underlying the variability in N2O emissions and show that a low C/N ratio in managed peatlands cannot be used to predict high N2O emissions. Instead, our results demonstrate that higher N2O emissions are linked to higher peat phosphorus (P) and copper (Cu) content, suggesting that low P and Cu concentrations can limit N2O production in peat even with sufficient N availability. While known factors such as soil moisture, oxygen content and the degree of peat humification partially explained the variability in N2O emissions, this study directly links soil P and Cu availability to N2O production processes. The availability of P and especially Cu seemed to promote nitrification activities, thereby increasing N2O production. Our study highlights the link between N2O emissions and soil P and Cu availability and the strong coupling of the soil N and P cycles in peatlands, which is to date severely understudied. •C/N ratio does not explain high variability in N2O emissions from managed peatlands.•N2O emissions increase with increased phosphorus (P) and copper (Cu) availability.•Ammonium oxidation is important process for N2O production in managed peat soils.
Author Hytönen, Jyrki
Voigt, Carolina
Maljanen, Marja
Óskarsson, Hlynur
Regina, Kristiina
Liimatainen, Maarit
Martikainen, Pertti J.
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  givenname: Carolina
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  organization: University of Eastern Finland, Department of Environmental and Biological Sciences, P.O. Box 1627, FI-70211 Kuopio, Finland
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  givenname: Jyrki
  surname: Hytönen
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  surname: Maljanen
  fullname: Maljanen, Marja
  organization: University of Eastern Finland, Department of Environmental and Biological Sciences, P.O. Box 1627, FI-70211 Kuopio, Finland
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Phosphorus
N2O
Drained peatlands
Copper
Land-use
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Snippet Managed northern peatlands are an important source of the strong greenhouse gas nitrous oxide (N2O). However, N2O emissions from these managed peatlands...
Managed northern peatlands are an important source of the strong greenhouse gas nitrous oxide (N₂O). However, N₂O emissions from these managed peatlands...
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SubjectTerms C/N ratio
carbon
carbon nitrogen ratio
Copper
Drained peatlands
ecosystems
Finland
greenhouse gas emissions
greenhouse gases
humification
Iceland
Land-use
microbial biomass
mineralization
N2O
nitrification
nitrogen
nitrogen cycle
nitrous oxide
oxygen
peat
peat soils
peatlands
Phosphorus
soil microorganisms
soil water
Sweden
Title Factors controlling nitrous oxide emissions from managed northern peat soils with low carbon to nitrogen ratio
URI https://dx.doi.org/10.1016/j.soilbio.2018.04.006
https://www.proquest.com/docview/2084047633
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