大气中的还原氮:来源、转化、影响和管理。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-06-01 Epub Date: 2024-05-31 DOI:10.1080/10962247.2024.2342765
Charles Driscoll, Jana B Milford, Daven K Henze, Michael D Bell
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引用次数: 0

摘要

人类活动增加了大气中氧化型氮和还原型氮的排放和沉积,但排放控制计划主要侧重于氧化型氮。因此,在世界许多地区,氧化氮的排放量正在减少,而还原氮的排放量却在增加。还原氮的排放主要来源于牲畜粪便和化肥的施用,城市地区的交通污染源也会产生还原氮。观测结果表明,美国还原氮的排放和沉积趋势之间存在差异,这可能是由于低估了排放量。在大气中,氨与硫和氮的氧化物反应形成细颗粒物,损害健康和能见度,并影响气候作用力。最近硫和氮氧化物排放量的减少限制了氨的分配,从而减少了长程飘移。需要继续开展研究,以更好地了解排放量的变化如何改变二次微粒的形成以及活性氮的迁移和沉积模式。卫星遥感在监测大气中氨的浓度和排放方面具有潜力,但仍需保持和加强地面测量,并继续开发化学迁移模型。高浓度的氮沉降降低了植物和土壤微生物的生物多样性,改变了陆地、淡水和沿海生态系统的生物地球化学功能。需要进一步研究氧化氮和还原氮的不同影响,以及生态系统从高浓度氮沉积中恢复的途径和时间尺度。减少还原氮的沉积可以缓解美国许多地区陆地和淡水指标超过临界负荷的情况。美国环境保护局应考虑将临界负荷作为制定标准的基础,以保护公众福利和生态系统。美国和其他国家可以借鉴欧洲的经验,控制农业和交通部门的减排氮排放:在这篇重要评论中,我们综合了有关还原氮的影响、空气排放、环境转化和管理的研究。还原氮的排放会影响人类健康、生态系统的结构和功能以及气候作用力。美国对氧化态氮的排放进行了管制,但对还原态氮的排放基本没有管制。硫和氮氧化物排放量的减少以及氨排放量的增加正在改变氨的气体-颗粒分配,减少还原氮在大气中的长程飘移。在不断变化的环境中,需要努力了解、监测和管理还原氮的排放。
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Atmospheric reduced nitrogen: Sources, transformations, effects, and management.

Human activities have increased atmospheric emissions and deposition of oxidized and reduced forms of nitrogen, but emission control programs have largely focused on oxidized nitrogen. As a result, in many regions of the world emissions of oxidized nitrogen are decreasing while emissions of reduced nitrogen are increasing. Emissions of reduced nitrogen largely originate from livestock waste and fertilizer application, with contributions from transportation sources in urban areas. Observations suggest a discrepancy between trends in emissions and deposition of reduced nitrogen in the U.S., likely due to an underestimate in emissions. In the atmosphere, ammonia reacts with oxides of sulfur and nitrogen to form fine particulate matter that impairs health and visibility and affects climate forcings. Recent reductions in emissions of sulfur and nitrogen oxides have limited partitioning with ammonia, decreasing long-range transport. Continuing research is needed to improve understanding of how shifting emissions alter formation of secondary particulates and patterns of transport and deposition of reactive nitrogen. Satellite remote sensing has potential for monitoring atmospheric concentrations and emissions of ammonia, but there remains a need to maintain and strengthen ground-based measurements and continue development of chemical transport models. Elevated nitrogen deposition has decreased plant and soil microbial biodiversity and altered the biogeochemical function of terrestrial, freshwater, and coastal ecosystems. Further study is needed on differential effects of oxidized versus reduced nitrogen and pathways and timescales of ecosystem recovery from elevated nitrogen deposition. Decreases in deposition of reduced nitrogen could alleviate exceedances of critical loads for terrestrial and freshwater indicators in many U.S. areas. The U.S. Environmental Protection Agency should consider using critical loads as a basis for setting standards to protect public welfare and ecosystems. The U.S. and other countries might look to European experience for approaches to control emissions of reduced nitrogen from agricultural and transportation sectors.Implications: In this Critical Review we synthesize research on effects, air emissions, environmental transformations, and management of reduced forms of nitrogen. Emissions of reduced nitrogen affect human health, the structure and function of ecosystems, and climatic forcings. While emissions of oxidized forms of nitrogen are regulated in the U.S., controls on reduced forms are largely absent. Decreases in emissions of sulfur and nitrogen oxides coupled with increases in ammonia are shifting the gas-particle partitioning of ammonia and decreasing long-range atmospheric transport of reduced nitrogen. Effort is needed to understand, monitor, and manage emissions of reduced nitrogen in a changing environment.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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