Ammonia volatilization from the surface of a Japanese paddy field during rice cultivation(Environment)
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概要
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Ammonia (NH_3) volatilization from the surface of a Japanese paddy field during rice cultivation was measured using the dynamic chamber method with a dry NH_3 collector. A preliminary investigation showed that a dry NH3 collector with phosphoric-acid-impregnated filters could collect volatilized NH_3 with sufficient efficiency. The experimental field included six lysimeter plots of Gray Lowland soil with a soil pH (H_2O) of 5.7. Urea was applied as nitrogen fertilizer at a rate of 50 kg N ha^<-1> by incorporation with puddling into the plowed layer as the basal fertilization (BF) and at rates of 30 and 10 kg N ha^<-1> by top-dressing as the first (AP1) and second (AF2) additional fertilizations, respectively. Relatively strong NH_3 volatilization occurred immediately after API with a maximum flux of 45 g N ha^<-1> h^<-1>. In contrast, the NH_3 volatilization fluxes following BF or AF2 were weaker. The ammonium (NH^+_4) concentration and the flooded water table were found to be major factors influencing NH_3 volatilization; higher NH_3 volatilization fluxes were often observed with a higher NH^+_4 concentration in floodwater and a lower water table. Incorporation of urea with puddling resulted in lower NH^+_4 concentrations in floodwater than in the case of top-dressing application, which likely resulted in fewer NH_3 volatilization fluxes after BF than after API and AF_2. In contrast, relatively strong NH_3 volatilization occurred in the plots immediately drained after AF1, which suggested that a top-dressing application under nearly drained conditions enhanced NH_3 volatilization. The ratio of NH_3 volatilization loss to applied nitrogen for each application of fertilization was 0.2 ± 0.1, 3.8 ± 2.2 and 0.7 ± 0.5% for BF, AF1 and AF2, respectively. In addition, the total ratio of NH_3 volatilization loss to total applied nitrogen throughout rice cultivation was estimated to be 1.4 ± 0.8%. These values were smaller than those reported from other Asian paddy fields, with the exception of the maximum NH3 loss after AF1, 9.0%, which was comparable to the minimum NH_3 loss reported in Asian paddy fields. The application rates of nitrogen fertilizer in the present study were smaller than those in Asian paddy fields, although they are conventional for Japan. In conclusion, the very small values of NH_3 volatilization recorded in the present were ascribed to the small rates of urea application per fertilization, which restrained increases in NH^ concentrations in floodwater, and to the relatively low soil pH, which resulted in prevention of NH^+_4 dissociation in floodwater.
- 社団法人日本土壌肥料学会の論文
著者
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Hayashi Kentaro
National Inst. Agro‐environmental Sci. Tsukuba Jpn
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Yagi Kazuyuki
Carbon And Nutrient Cycles Division National Institute For Agro-environmental Sciences
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Nishimura Seiichi
National Institute For Aero-environmental Sciences
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Yagi Kazuyuki
National Institute For Aero-environmental Sciences
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Yagi Kazuyuki
National Inst. For Agro‐environmental Sci. Ibaraki Jpn
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Hayashi Kentaro
National Institute For Aero-environmental Sciences
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