Soil nitrous oxide emissions under dryland N-fertilised canola and N₂-fixing chickpea in the northern grains region, Australia

Title
Soil nitrous oxide emissions under dryland N-fertilised canola and N₂-fixing chickpea in the northern grains region, Australia
Publication Date
2010
Author(s)
Schwenke, Graeme
( author )
OrcID: https://orcid.org/0000-0002-2206-4350
Email: gschwenk@une.edu.au
UNE Id une-id:gschwenk
Haigh, Bruce
McMullen, Guy
Herridge, David
( author )
OrcID: https://orcid.org/0000-0002-0423-2517
Email: dherridg@une.edu.au
UNE Id une-id:dherridg
Editor
Editor(s): Robert Gilkes, Nattaporn Prakougkep
Type of document
Conference Publication
Language
en
Entity Type
Publication
Publisher
International Union of Soil Sciences and Australian Society of Soil Science Inc
Place of publication
Brisbane, Australia
UNE publication id
une:8101
Abstract
Nitrous oxide (N₂O) emissions from cropping soils contribute to increasing atmospheric N₂O. Planning to reduce emissions requires real-world measurements. Crop production systems that partially rely on nitrogen (N) fixed by legumes may emit less N₂O than systems that are totally dependent on fertiliser N inputs. We measured N₂O emissions from a dryland vertosol in northwest NSW, Australia during the growth of N-fertilised canola ('Brassica napus') and N₂-fixing chickpea ('Cicer arietinum'). At sowing, canola received 80 kg N/ha as urea, and chickpea was inoculated with effective rhizobia. Emissions of N₂O were monitored seven times per day using an automated system of chambers connected to a gas chromatograph. Daily N₂O emissions ranged from -1.7 to 39.6 g N₂O-N/ha/day in canola plots and -1.6 to 12.5 g N₂O-N/ha/day for chickpea. During crop growth, the N-fertilised canola plots emitted a total of 293 g N₂O-N/ha, equivalent to 0.37% of the urea N applied. Chickpea plots emitted 29 g N₂O-N/ha. The canola plots emitted a further 241 g N₂O-N/ha in the first months of the post-crop fallow, mostly during a short period of high rainfall, compared with 58 g N₂O-N/ha for chickpea. We hypothesise that the canola residue may have mineralised N earlier than chickpeas.
Link
Citation
Proceedings of the 19th World Congress of Soil Science: Soil Solutions for a Changing World, p. 228-231
ISBN
9780646537832
Start page
228
End page
231

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