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首页> 外文期刊>Environmental Pollution >The importance of ammonia volatilization in estimating the efficacy of nitrification inhibitors to reduce N_2O emissions: A global meta-analysis
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The importance of ammonia volatilization in estimating the efficacy of nitrification inhibitors to reduce N_2O emissions: A global meta-analysis

机译:氨挥发在估算硝化抑制剂减少N_2O排放的疗效中的重要性:全球荟萃分析

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摘要

Nitrification inhibitors (NIs) have been shown to be an effective tool to mitigate direct N2O emissions from soils. However, emerging findings suggest that NIs may increase soil ammonia (NH3) volatilization and, subsequently, indirect N2O emission. A quantitative synthesis is lacking to evaluate how NIs may affect NH3 volatilization and the overall N2O emissions under different environmental conditions. In this meta-analysis, we quantified the responses of NH3 volatilization to NI application with 234 observations from 89 individual studies and analysed the role of experimental method, soil properties, fertilizer/NI type, fertilizer application rate and land use type as explanatory factors. Furthermore, using data sets where soil NH3 emission and N2O emission were measured simultaneously, we re-evaluated the effect of NI on overall N2O emissions including indirect N2O emission from NH3 volatilization. We found that, on average, NIs increased NH3 volatilization by 35.7% (95% CI: 25.7-46.7%) and increased indirect N2O emission from NH3 emission (and subsequent N deposition) by 2.9%-15.2%. Responses of NH3 volatilization mainly varied with experimental method, soil pH, NI type and fertilizer type. The increase of NH3 volatilization following NI application showed a positive correlation with soil pH (R-2 = 0.04, n = 234, P 0.05) and N fertilizer rate (R-2 = 0.04, n = 187, P 0.05). When the indirect N2O emission was considered, NI's N2O mitigation effect decreased from 48.0% to 39.7% (EF = 1%), or 28.2% (EF = 5%). The results indicate that using DMPP with ammonium-based fertilizer in low pH, high SOC soils would have a lower risk for increasing NH3 volatilization than using DCD and nitrapyrin with urea in high pH, lower SOC soil. Furthermore, reducing N application rate may help to improve NIs' overall N2O emission mitigation efficiency and minimize their impact on NH3 volatilization. (C) 2020 Elsevier Ltd. All rights reserved.
机译:硝化抑制剂(NIS)已被证明是从土壤减轻N2O直接排放的有效工具。然而,新兴的研究结果表明,国家机构可能会增加土壤氨(NH3)挥发,随后间接N2O排放。定量合成缺乏评估国家机构可能会如何影响氨挥发和不同环境条件下的整体N2O排放。在此荟萃分析中,我们量化氨挥发的响应NI应用从89个个人的研究234个观察和分析实验方法,土壤性质,肥料/ NI型,化肥施用量和土地利用类型的解释因素的作用。此外,使用其中土壤NH 3排放和氧化亚氮排放同时测量进行的数据集,我们重新评价NI对整体氧化亚氮排放包括来自NH 3挥发N2O间接排放的效果。我们发现,平均而言,NIS 35.7%(95%CI:25.7-46.7%)增加的NH 3挥发,并通过2.9%-15.2%从NH 3发射(和随后的N沉降)增加的间接氧化亚氮排放。氨挥发的反应主要是改变与实验方法,土壤pH,NI类型和肥料类型。以下NI应用氨挥发的增加表现出与土壤pH值(R-2 = 0.04,N = 234,P <0.05)和N施肥量呈正相关(R-2 = 0.04,N = 187,P <0.05)。当间接N2O排放被认为是,NI的N2O缓解作用从48.0%下降到39.7%(EF = 1%),或28.2%(EF = 5%)。结果表明,使用DMPP与基于铵肥在低pH值,高SOC的土壤将不得不增加氨挥发比使用DCD,并在高pH尿素nitrapyrin,较低的SOC土壤的风险较低。此外,减少氮肥用量可能有助于改善国家机构的整体N2O排放减排效率,尽量减少其对氨挥发的影响。 (c)2020 elestvier有限公司保留所有权利。

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  • 来源
    《Environmental Pollution 》 |2021年第2期| 116365.1-116365.6| 共6页
  • 作者

    Wu Di; Zhang Yuxue; Dong Gao; Du Zhangliu; Wu Wenliang; Chadwick David; Bol Roland;

  • 作者单位

    China Agr Univ Coll Resources & Environm Sci Beijing Key Lab Biodivers & Organ Farming Beijing Peoples R China;

    China Agr Univ Coll Resources & Environm Sci Beijing Key Lab Biodivers & Organ Farming Beijing Peoples R China;

    China Natl Inst Standardizat Beijing Peoples R China;

    China Agr Univ Coll Resources & Environm Sci Beijing Key Lab Biodivers & Organ Farming Beijing Peoples R China;

    China Agr Univ Coll Resources & Environm Sci Beijing Key Lab Biodivers & Organ Farming Beijing Peoples R China;

    Bangor Univ Sch Nat Sci Bangor Gwynedd Wales;

    Forschungszentrum Julich Agrosphere IBG 3 Inst Bio & Geosci D-52425 Julich Germany;

  • 收录信息 美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类
  • 关键词

    N2O emission; Nitrification inhibitor; NH3 volatilization;

    机译:N2O发射;硝化抑制剂;NH3挥发;
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