| 355 | 6 | 51 |
| 下载次数 | 被引频次 | 阅读次数 |
畜牧业氨排放是国内外学者的研究热点。本文对欧盟畜牧业氨减排相关的法律、指令、推荐技术和实施效果进行了梳理分析,结果显示,通过建立区域协调组织架构、不断完善法律法规、适时更新指令要求,利用补贴等引导农民采用减排技术,同时筛选减排技术形成技术指南,引导农民选择适用减排技术,为畜牧业氨减排提供制度保障。欧盟秉持环境可接受、技术可推广、经济可承担的原则制定减排计划,历经被动氨减排、规划氨减排和氨减排瓶颈三个时期,经过40余年的探索和完善,逐渐建立了以政研深度交叉为特色的联合工作机制,倡导以提高氮利用效率为核心的“全生命周期”减排理念,近年来,逐渐转向以多污染物系统控制为目标的“协同减氨降碳”减排策略。
Abstract:Research on ammonia emissions during animal husbandry are hot topic for domestic and foreign scholars.This paper conducted a systematic analysis on the laws, regulations, technical standards and implementation effect of EU livestock industry.The results show that, according to establish regional coordination organizational structure, improve laws and regulations continuously, update instruction requirements timely, using subsidies to guide farmers to adopt emission reduction technologies, screening emission reduction technologies to form technical guidelines and so on, ultimately forming the livestock ammonia emission reduction system of EU which guide farmers to adopt applicable emission reduction technologies.Study showed that EU has gone through three periods of passive ammonia emission reduction, planned ammonia emission reduction, and bottleneck in ammonia emission reduction, based on the three principles of acceptable environment, promotional technology and economically affordable.After more than 40 years of exploration and improvement, EU established a joint working mechanism featuring the deep intersection of political research gradually, advocated the “life cycle” emission reduction concept with the improvement of nitrogen use efficiency as the core.In recent years, EU started turn to the emission reduction strategy of “coordinated nitrogen control and carbon reduction” with the goal of multi-pollutant system cont.
[1]FANGMEIER A ,HADWIGER-FANGMEIER A ,EERDEN L V D ,et al.Effects of atmospheric ammonia on vegetation:a review[J].Environmental Pollution,1994,86(1):43-82.
[2]SUTTON M A,PITCAIRN C E R ,FOWLER D .The exchange of ammonia between the atmosphere and plant communities[J].Advances in Ecological Research,1993,24(6):301-393.
[3]刘红南,印遇龙.以种养结合模式推进养殖氨减排的治理[J].中国科学院院刊,2021,36(1):93-96.
[4]SUTTON M A,VAN D N,LEVY P E,et al.Alkaline air:changing perspectives on nitrogen and air pollution in an ammonia-rich world.[J].Philosophical Transactions of the Series A,Mathematical,Physical,and Engineering Sciences,2020,378(2183):1-21.
[5]GALLOWAY J N,TOWNSEND A R,ERISMAN J W,et al.Transformation of the nitrogen cycle:recent trends,questions,and potential solutions[J].Science,2008,320(5878):889-892.
[6]GU B J,JU X T,CHANG J,et al.Integrated reactive nitrogen budgets and future trends in China[J].Proceedings of the National Academy of Sciences of the United States of America,2015,112(28):8792-8797.
[7]BEUSEN A H W,BOUWMAN A F,HEUBERGER P S C,et al.Bottom-up uncertainty estimates of global ammonia emissions from global agricultural production systems[J].Atmospheric Environment,2008,42(24):6067-6077.
[8]MYLES L T.Atmospheric science:underestimating ammonia[J].Nature Geoscience,2009,2(7):461-462.
[9]ZHU L,HENZE D,BASH J,et al.Global evaluation of ammomia bidirectional exchange and livestock diurnal variation schemes[J].Atmospheric Chemistry and Physics,2015,15(22):12823-12843.
[10]HUANG X,SONG Y,LI M,et al.A high-resolution ammonia emission inventory in China[J].Global Biogeochemical Cycles,2012,26(1):1-14.
[11]ZHANG L,CHEN Y F,ZHAO Y H,et al.Agricultural ammonia emissions in China:reconciling bottom-up and topdown estimates[J].Atmospheric Chemistry and Physics,2018,18(1):339-355.
[12]KANG Y,LIU M X,SONG Y,et al.High-resolution ammonia emissions inventories in China from 1980 to 2012 [J].Atmospheric Chemistry and Physics,2016,16(4):2043-2058.
[13]曹玉博,张陆,王选,等.畜禽废弃物堆肥氨气与温室气体协同减排研究[J].农业环境科学学报,2020,39(4):923-932.
[14]AN Z,HUANG R J,ZHANG R,et al.Severe haze in northern China:a synergy of anthropogenic emissions and atmospheric processes[J].Proceedings of National Academy Science of the United States of America,2019,116(18):8657-8666.
[15]FU H,LUO Z B,HU S Y.A temporal-spatial analysis and future trends of ammonia emissions in China[J].Science of the Total Environment,2020,73:1-9.
[16]BOBBINK R,HICKS K,GALLOWAY J,et al.Global assessment of nitrogen deposition effects on terrestrial plant diversity:a synthesis.[J].Ecological Applications:A Publication of the Ecological Society of America,2010,20(1):30-59.
[17]FOWLER D,PILEGAARD K,SUTTON M,et al.Atmospheric composition change:ecosystems-atmosphere interactions[J].Atmospheric Environment,2009,43(33):5193-5267.
[18]生态环境部.2018—2020年全国恶臭/异味污染投诉情况分析报告[R/OL].(2021-08-02) [2023-07-25].https://www.mee.gov.cn/xxgk2018/xxgk/sthjbsh/202108/t20210802_853623.html.
[19]曹玉博,邢晓旭,柏兆海,等.农牧系统氨挥发减排技术研究进展[J].中国农业科学,2018,51(3):566-580.
[20]李奇峰,田丰,丁露雨,等.家禽粪便管理过程中氨气减排技术研究进展[J].家畜生态学报,2020,41(9):1-6.
[21]李晨艳,乔玮,严新荣,等.养殖场粪污还田模式下氨减排技术比选[J].四川环境,2017,36(4):55-61.
[22]吴琼,赵学涛.畜禽养殖氨排放核算方法和模型比较[J].生态与农村环境学报,2018,34(4):300-307.
[23]张双,张增杰,王军玲,等.畜禽养殖氨排放清单编制技术[J].江苏农业科学,2014,42(9):361-364.
[24]王文林,童仪,杜薇,等.畜禽养殖氨排放清单研究现状与实证[J].生态与农村环境学报,2018,34(9):813-820.
[25]李静,曾伟斌,周翼飞,等.我国农业氨排放估算方法研究进展[J].生态学报,2018,38(2):8256-8265.
[26]UMWELTBUNDESAMT.Ammoniak-Emissionen[EB/OL].(2021-07-22)[2023-07-25].https://www.umweltbundesamt.de/daten/luft/luftschadstoff-emissionen-indeutschland/ammoniak-emissionen#entwicklung-seit-1990.
[27]UNECE.Assessment report on ammonia[EB/OL].(2021-09-23)[2023-07-25].https://unece.org/sites/default/files/2021-10/ECE_EB.AIR_2021_7-2113502E.pdf.
[28]徐鹏,龚巍巍.农业源氨排放及其控制对策研究[M].北京:科学出版社,2019:32-34.
[29]刘学军,沙志鹏,宋宇,等.我国大气氨的排放特征、减排技术与政策建议[J].环境科学研究,2021,1(34):149-157.
[30]UNECE.Revised mandates for the international cooperative programmes under the working group on effects[EB/OL].(2019-09-30)[2023-07-25].https://unece.org/fileadmin/DAM/env/documents/2019/AIR/EB/ECE_EB.AIR_2019_9-1916525E.pdf.
[31]UNECE.Revised mandates for the task forces under the steering body to the cooperative programme for monitoring and evaluation of the long range transmission of air pollutants in Europe:draft decisions of the executive body[EB/OL].(2019-09-30)[2023-07-25].https://unece.org/fileadmin/DAM/env/documents/2019/AIR/EB/ECE_EB.AIR_2019_7-1916521E.pdf.
[32]UNECE.Revised mandates for the task forces under the working group on strategies and review and under the steering Body to EMEP[EB/OL].(2018-09-28)[2023-07-25].https://unece.org/fileadmin/DAM/env/documents/2018/Air/EB/ECE_EB.AIR_2018_5-1816002E.pdf.
[33]UNECE.National responses to the ammonia questionnaire and preliminary main messages sources[EB/OL].(2022-12-17)[2023-07-25].https://unece.org/sites/default/files/2022-12/Agenda%20Item%205%20Inf%20Doc%20for%20EB-42%20on%20TFRN%20Ammonia.pdf.
[34]Das deutsche Ministerium für Ern?hrung und Landwirtschaft.Verordnung über die anwendung von düngemitteln,bodenhilfsstoffen,kultursubstraten und pflanzenhilfsmitteln nach den grunds?tzen der guten fachlichen praxis beim düngen (düngeverordnung -düV)[EB/OL].[2023-07-25].https://www.gesetze-im-internet.de/.
[35]European Commission.Directive 2001/81/EC of the European Parliamnent and of the council of 23 October 2001 on national emission ceilings for certain atmospheric pollutants[EB/OL].(2001-10-23)[2023-07-25].https://eur-lex.europa.eu/legal-content/EN/TXT/?uri=CELEX%3A52013PC0054&qid=1705026217295.
[36]European Commission.Directive 2016/2284/EU of the European Parliamnent and of the council of 14 December 2016 on the reduction of national emissions of certain atmospheric pollutants,amending Directive 2003/35/EC and repealing Directive 2001/81/EC[EB/OL].(2016-12-14)[2023-07-25].https://eur-lex.europa.eu/legal-content/EN/ALL/?uri=CELEX%3A32017D0302.
[37]European Environment Agency.EMEP/EEA air pollutant emission inventory guidebook 2013[EB/OL].(2013-11-12)[2023-07-25].https://www.eea.europa.eu/publications/emep-eea-guidebook-2013.
[38]UNECE.Framework Code for Good Agricultural Practice for Reducing Ammonia Emissions[EB/OL].(2021-04-26)[2023-07-25].https://unece.org/environment/documents/2021/04/working-documents/guidance-document-integrated-sustainable-nitrogen.
[39]European Commission.Directive 2010/75/EU of the European Parliament and of the Council of 24 November 2010 on industrial emissions (integrated pollution prevention and control)[EB/OL].(2010-11-24)[2023-07-25].https://eur-lex.europa.eu/legal-content/EN/TXT/?uri=CELEX%3A32010L0075.
[40]European Commission.Directive 2008/1/EC of the European Parliament and of the Council of 15 January 2008 concerning integrated pollution prevention and control.[EB/OL].(2008-01-15)[2023-07-25].https://eur-lex.europa.eu/legal-content/EN/TXT/?uri=CELEX%3A32008L0001&qid=1705026423332.
[41]European Commission.Establishing best available techniques (BAT) conclusions,under Directive 2010/75/EU of the European Parliament and of the Council,for the intensive rearing of poultry or pigs[EB/OL].(2017-02-15)[2023-07-25].http://eippcb.jrc.es/reference/irpp.html.
[42]UNECE.Framework code for good agricultural practice for reducing ammonia emissions[EB/OL].(2001-07-17)[2023-07-25].https://unece.org/DAM/env/documents/2001/eb/wg5/eb.air.wg.5.2001.7.e.pdf.
[43]UNECE.Framework code for good agricultural practice for reducing ammonia emissions[EB/OL].(2015-03-24)[2023-07-25].https://unece.org/DAM/env/documents/2015/AIR/EB/ECE_EB.AIR_129_ENG.pdf.
[44]UNECE.Guidance document on preventing and abating ammonia emissions from agricultural sources[EB/OL].(2014-02-07)[2023-07-25].https://unece.org/DAM/env/documents/2012/EB/ECE_EB.AIR_120_ENG.pdf.
[45]BRUNEKREEF B,HARRISON M R,KüNZLI N,et al.Reducing the health effect of particles from agriculture[J].The Lancet Respiratory Medicine,2015,3(11):1-2.
[46]World Health Organization.Health risks of air pollution in Europe-HRAPIE project recommendations for concentration-response functions for cost-benefit analysis of particulate matter,ozone and nitrogen dioxide[R].Geneva:WHO,2013.
[47]BRUYN D.Environmental prices handbook EU28 version[EB/OL].(2018-11-30)[2023-07-25].https://cedelft.eu/publications/environmental-prices-handbook-eu28-version/.
[48]International Institute for Applied Systems Analysis.The Final Policy Scenarios of the EU Clean Air Policy Package,TSAP Report 11,Version 1.1a[R].Vienna:IIASA,2014.
[49]International Institute for Applied Systems Analysis.Progress towards the achievement of the EU’s air quality and emissions objectives[R].Vienna:IIASA,2017.
[50]European Environment Agency.European Union emission inventory report 1990-2020 under the UNECE air convention[EB/OL].(2022-07-11)[2023-07-25].https://www.eea.europa.eu/publications/european-union-emissions-inventory-report.
[51]布莱恩·杰克.农业与欧盟环境法[M].姜双林,译.北京:中国政法大学出版社,2012.
[52]UNECE.Guidance document on integrated sustainable nitrogen management[EB/OL].(2021-04-26)[2023-07-25].https://unece.org/environment/documents/2021/04/working-documents/guidance-document-integrated-sustainable-nitrogen.
[53]European Commission.Regulation (EU) 2018/1999 of the European Parliament and of the Council of 11 December 2018 on the Governance of the Energy Union and Climate Action[EB/OL].(2018-12-10)[2023-07-25].https://eur-lex.europa.eu/legal-content/EN/TXT/?uri=CELEX%3A32018R1999&qid=1705026603560.
[54] European Environment Agency.Measures to reduce emissions of air pollutants and greenhouse gases the potential for synergies.[EB/OL].(2020-12-10)[2023-07-25].https://www.eea.europa.eu/publications/measures-to-reduce-emissions-of.
[55]European Commission.Amended proposal for a regulation of the European parliament and of the council on establishing the framework for achieving climate neutrality and amending regulation (EU) 2018/1999 (European Climate Law)[EB/OL].(2020-09-17)[2023-07-25].https://eur-lex.europa.eu/legal-content/EN/TXT/?uri=CELEX:52020PC0563.
(1)资料来源于Methodological convention 3.0 for the assessment of environmental costs。
基本信息:
DOI:10.13856/j.cn11-1097/s.2024.02.005
中图分类号:F316.3
引用信息:
[1]周元清,聂善明,张利宇,等.欧盟畜牧业氨减排路径研究[J].世界农业,2024,No.538(02):48-58.DOI:10.13856/j.cn11-1097/s.2024.02.005.
基金信息:
全国畜牧总站青年课题研究基金2022-1
2024-02-05
2024-02-05