| N2O emissions from a cultivated Andisol after application of nitrogen fertilizers with or without nitrification inhibitor under soil moisture regime |
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| 作者姓名: | FAN Xiao-hui Haruo Tsuruta |
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| 作者单位: | National Institute |
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| 基金项目: | TheNationalHi TechR&DProgram(973)ofChina (No.G1 990 1 1 80 2 )andtheKnowledgeInnovationProjectoftheChineseAcademyofSciences(No .KZCX2 41 3 3) |
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| 摘 要: | IntroductionNitrousoxide (N2 O)isoneoftheenvironmentallyimportanttracegases ,currentlyaccountingfor 2 %—4 %oftotalGreenhouseWarmingPotential (GWP ) .Itisalsoinvolvedinthedepletionofstratosphericozone .SoilhasbeenknownasthemajorsourceofN2 O ,accountingfor 6 5 %oftotalglobalemissions(Prather,1995 ) .Thus,reducingN2 Oemissionsfromsoilsisamaintaskfortheprotectionoftheglobalatmosphere .N2 Oisproducedastheresultofsoilmicrobialprocesses ,primarillybynitrification ,whentheoxidationhappensofNH+…
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| 关 键 词: | N2O 扩散模型 氮 肥料 硝化作用 抑制剂 土壤 |
| 收稿时间: | 2003/9/19 0:00:00 |
| 修稿时间: | 2003/10/22 0:00:00 |
N2:O emissions from a cultivated Andisol after application of nitrogen fertilizers with or without nitrification inhibitor under soil moisture regime |
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| FAN Xiao-hui,Haruo Tsuruta.N2O emissions from a cultivated Andisol after application of nitrogen fertilizers with or without nitrification inhibitor under soil moisture regime[J].Journal of Environmental Sciences,2004,16(5):735-737. |
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| Authors: | Fan Xiao-Hui Haruo Tsuruta |
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| Institution: | 1. Institute of Soil Science,Chinese Academy of Sciences,Nanjing 210008,China
2. National Institute of Agro-Environmental Sciences,Kannondai 3-1-1,Tsukuba 305,Japan |
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| Abstract: | The aim of this work was to examine the emission of N2O from soils following addition of nitrogen fertilizer with a nitrification inhibitor (+inh) or without the nitrification inhibitor(-inh) at different soil water regime. Higher soil moisture contents increased the total N2O emissions in all treatments with total emissions being 7 times larger for the CK and > 20 times larger for the fertilizer treatments at 85% WFPS (soil water filled pore space) than at 40% WFPS. The rates of N2O emissions at 40% WFPS under all treatments were small. The maximum emission rate at 55% WFPS without the nitrification inhibitor (-inh) occurred later (day 11) than those of 70% WFPS (-inh) samples (day 8). The inhibition period was 4-22 d for 55% WFPS and 1-15 d for 70% WFPS comparing the rates of N2O emissions treated (+inh) with (-inh). The maximum emission rates at 85% WFPS were higher than those at the other levels of soil water content for all treatments. The samples (+inh) released less N2O than (-inh) samples at the early stage. Nevertheless, N2O emissions from (+inh) samples lasted longer than in the (-inh) treatment. Changes in mineral N at 55%, 70% and 85% WFPS followed the same pattern. NH4(+) -N concentrations decreased while NO3(-) -N concentrations increased from the beginning of incubation. NH4(+) -N concentrations from 40% WFPS treatment declined more slowly than those of the other three levels of soil water content. Nitrification was faster in the (-inh) samples with 100% NH4(+) -N nitrified after 22 d (50% WFPS) and 15 d (70% and 85% WFPS). N2O emissions increased with soil water content. Adding N-fertilizer increased emissions of N2O. The application of the nitrification inhibitor significantly reduced total N2O emissions from 30.5% (at 85% WFPS) to 43.6% (at 55% WFPS). |
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| Keywords: | N 2O emission nitrification inhibitor soil water content upland soil samples |
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