Soil N2O emissions under N2-fixing legumes and N-fertilised canola: A reappraisal of emissions factor calculations

•We measured soil nitrous oxide emissions from a Vertosol in sub-tropical Australia.•Nitrous oxide emitted from N-fertilised canola exceeded those from N-fixing legumes.•Legumes can mitigate soil nitrous oxide emissions from cropping systems.•Legume N-fixation provided 37–64% of total plant biomass...

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Published in:Agriculture, ecosystems & environment ecosystems & environment, 2015-04, Vol.202, p.232-242
Main Authors: Schwenke, Graeme D., Herridge, David F., Scheer, Clemens, Rowlings, David W., Haigh, Bruce M., McMullen, K. Guy
Format: Article
Language:English
Subjects:
Biomass
Brassica napus
Chickpeas
Cicer arietinum
Crops
Emission factor
Emittance
Faba beans
Legumes
Mathematical analysis
N2O
Nitrous oxides
Pisum sativum
Soil (material)
Vicia faba
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Summary:•We measured soil nitrous oxide emissions from a Vertosol in sub-tropical Australia.•Nitrous oxide emitted from N-fertilised canola exceeded those from N-fixing legumes.•Legumes can mitigate soil nitrous oxide emissions from cropping systems.•Legume N-fixation provided 37–64% of total plant biomass N, not 100%.•Emission factor guidelines need to account for actual legume-N fixed from air. Introducing nitrogen (N)-fixing legumes into cereal-based crop rotations reduces synthetic fertiliser-N use and may mitigate soil emissions of nitrous oxide (N2O). Current IPCC calculations assume 100% of legume biomass N as the anthropogenic N input and use 1% of this as an emission factor (EF)—the percentage of input N emitted as N2O. However, legumes also utilise soil inorganic N, so legume-fixed N is typically less than 100% of legume biomass N. In two field experiments, we measured soil N2O emissions from a black Vertosol in sub-tropical Australia for 12 months after sowing of chickpea (Cicer arietinum L.), canola (Brassica napus L.), faba bean (Vicia faba L.), and field pea (Pisum sativum L.). Cumulative N2O emissions from N-fertilised canola (624gN2O-Nha−1) greatly exceeded those from chickpea (127gN2O-Nha−1) in Experiment 1. Similarly, N2O emitted from canola (385gN2O-Nha−1) in Experiment 2 was significantly greater than chickpea (166gN2O-Nha−1), faba bean (166gN2O-Nha−1) or field pea (135gN2O-Nha−1). Highest losses from canola were recorded during the growing season, whereas 75% of the annual N2O losses from the legumes occurred post-harvest. Legume N2-fixation provided 37–43% (chickpea), 54% (field pea) and 64% (faba bean) of total plant biomass N. Using only fixed-N inputs, we calculated EFs for chickpea (0.13–0.31%), field pea (0.18%) and faba bean (0.04%) that were significantly less than N-fertilised canola (0.48–0.78%) (P
ISSN:0167-8809
1873-2305
DOI:10.1016/j.agee.2015.01.017