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• W2033999366 abstract "Abstract Climatic conditions and cultural practices in the sub-tropical and tropical high-rainfall regions in which sugarcane is grown in Australia are conducive to rapid carbon and nitrogen cycling. Previous research has identified substantial exchanges of methane (CH 4 ) and nitrous oxide (N 2 O) between sugarcane soils and the atmosphere. However, that research has been mostly short-term. This paper describes recent work aimed at quantifying exchanges of CH 4 and N 2 O from fertilised sugarcane soils over whole growing seasons. Micrometeorological and chamber techniques provided continuous measurements of gas emissions in whole-of-season studies in a burnt-cane crop on an acid sulfate soil (ASS) that was fertilised with 160 kg nitrogen (N) ha −1 as urea in the south of the sugarcane belt (Site 1), and in a crop on a more representative trash-blanketed soil fertilised with 150 kg urea-N ha −1 in the north (Site 2). Site 1 was a strong source of CH 4 with a seasonal emission (over 342 days) of 19.9 kg CH 4  ha −1 . That rate corresponds to 0.5–5% of those expected from rice and wetlands. The many drains in the region appear to be the main source. The net annual emission of CH 4 at Site 2 over 292 days was essentially zero, which contradicts predictions that trash-blankets on the soil are net CH 4 sinks. Emissions of N 2 O from the ASS at Site 1 were extraordinarily large and prolonged, totalling 72.1 kg N 2 O ha −1 (45.9 kg N ha −1 ) and persisting at substantial rates for 5 months. The high porosity and frequent wetting with consequent high water filled pore space and the high carbon content of the soil appear to be important drivers of N 2 O production. At Site 2, emissions were much smaller, totalling 7.4 kg N 2 O ha −1 (4.7 kg N ha −1 ), most of which was emitted in less than 3 months. The emission factors for N 2 O (the proportion of fertiliser nitrogen emitted as N 2 O–N) were 21% at Site 1 and 2.8% at Site 2. Both factors exceed the default national inventory value of 1.25%. Calculations suggest that annual N 2 O production from Australian sugarcane soils is around 3.8 kt N 2 O, which is about one-half a previous estimate based on short-term measurements, and although ASS constitute only about 4% of Australia's sugarcane soils, they could contribute about 25% of soil emissions of N 2 O from sugarcane. The uptake of 50–94 t CO 2  ha −1 from the atmosphere by the crops at both sites was offset by emissions of CH 4 and N 2 O to the atmosphere amounting to 22 t CO 2 -e ha −1 at Site 1 and 2 t CO 2 -e ha −1 at Site 2." @default.
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• W2033999366 date "2010-06-01" @default.
• W2033999366 modified "2023-09-25" @default.
• W2033999366 title "Emissions of methane and nitrous oxide from Australian sugarcane soils" @default.
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• W2033999366 doi "https://doi.org/10.1016/j.agrformet.2009.06.018" @default.
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