Scientia Agricultura Sinica ›› 2012, Vol. 45 ›› Issue (21): 4517-4527.doi: 10.3864/j.issn.0578-1752.2012.21.021

• AGRICULTURAL ECONOMY & MANAGMENT • Previous Articles     Next Articles

Applicability Screening of Mitigation Technologies and Management Practices of Emissions of Greenhouse Gases from Agriculture Sector

 MI  Song-Hua, HUANG  Zu-Hui   

  1. 浙江大学中国农村发展研究院,杭州 310029
  • Received:2012-06-04 Online:2012-11-01 Published:2012-08-27

PDF

808

Cited

5

Abstract: 【Objective】 Applicability assessment of mitigation technologies and management practices of emissions of greenhouse gases from agriculture. 【Method】 An initial long list of mitigation measures was obtained based on a literature review and expert interview, then the modified delphi method was used to explore expert opinions from interdisciplinary sphere, and a final short list of agricultural mitigation technologies was screened. 【Result】 A final short list of three topics and eighteen measures was drawn up in light of mechanism and measure certainty, technically feasibility, abatement potential, increase or stability in yield, practices easily adopted by farmers, among which cropland nitrous oxide mitigation applicable technologies had an emphasis on nutrient management and farming practices, rice paddy field methane mitigation aimed at water management and cultivar selection and livestock mitigation technologies and management practices focused on forage and manure management.【Conclusion】 Breeding high yield and reduction GHG cultivar should be a core work for agricultural mitigation technology system, meanwhile, supporting subsidy and incentive policies and reinforcing technical training /demonstration should be strengthened in order to inspire the farmers adoption willing.

Key words: modified delphi method, mitigation technologies, final list

[1]中华人民共和国气候变化初始国家信息通报. 北京: 中国计划出版社, 2004.

The People's Republic of China Initial National Communications on Climate Change. Beijing: China Planning Press. 2004. (in Chinese)

[2]温铁军, 董筱丹, 石  嫣. 中国农业发展方向的转变和政策导向. 农村经济问题, 201(10): 88-94.

Wen T J, Dong X D, Shi Y. China agricultural development direction change and policy orientation: based on international comparative perspective. Issues in Agricultural Economy, 2010(10): 88-94. (in Chinese)

[3]Cai Z C, Xing G X, Shen G Y, Xu H, Yan X Y, Haruo T, Kazuyuki Y, Katsuyuki M. Measurements of CH4 and N2O emissions from rice paddies in Fengqiu, China. Soil Science and Plant Nutrition, 1999, 45(1): 1-13.

[4]Cai Z C, Tsuruta H, Gao M, Xu H, Wei C F. Options for mitigating methane emission from a permanently flooded rice field. Global Change Biology, 2003, 9(1):37-45.

[5]董红敏, 李玉娥, 陶秀萍, 彭小培, 李  娜, 朱志平. 中国农业源温室气体排放与减排技术对策. 农业工程学报, 2008, 24(10): 269-273.

Dong H M, Li Y E, Tao X P, Peng X P, Li N, Zhu Z P. China greenhouse gas emissions from agricultural activities and its mitigation strategy. Transactions of the CSAE, 2008, 24(10): 269-273 .(in Chinese)

[6]张卫峰, 张福锁. 优化氮肥管理, 发展低碳经济. 北京: 全国低碳农业研讨会, 2010.

Zhang W F, Zhang F S. Optimization nitrogen fertilizer management, the development of low carbon economy. Beijing: The Seminar of Low Carbon Agricultural in China, 2010. (in Chinese)

[7]Pimentel D, Hepperly P, Hanson J. Environmental, energetic and economic comparison of organic and conventional farming system. Bioscience, 2005, 55(7): 573-582.

[8]王  昀. 低碳农业经济略论. 中国农业信息, 2008(8): 12-15.

Wang Y. Low carbon agricultural economy. China Agricultural Information, 2008(8): 12-15. (in Chinese)

[9]翁志辉, 林海清, 柯文辉, 周  琼, 翁伯琦. 台湾地区低碳农业发展策略与启示. 福建农业学报, 2009, 24(6): 586-591.

Weng Z H, Lin H Q, Ke W H, Zhou Q, Weng B Q. Low carbon agriculture development strategy and its inspiration in Taiwan. Fujian Journal of Agricultural Sciences, 2009, 24(6): 586-591.(in Chinese)

[10]赵其国, 钱海燕. 低碳经济与农业发展思考. 生态环境学报, 2009,18(5): 1609-1614.

Zhao Q G, Qian H Y. Low carbon economy and thinking of agricultural development. Ecology and Environmental Sciences, 2009, 18(5): 1609-1614. (in Chinese)

[11]李晓燕, 王彬彬. 低碳农业:应对气候变化下的农业发展之路. 农村经济, 2010(3): 10-12.

Li X Y, Wang B B. Low carbon agriculture: agricultural development response of climate change. Rural Economy, 2010(3): 10-12. (in Chinese)

[12]冉光和, 鲁钊阳, 王建洪. 中国低碳农业发展的基本理论与可行路径. 科技进步与对策, 2011, 28(20): 157-160.

Ran G H, Lu Z Y, Wang J H. The basic theory and practical path of low carbon agriculture development in China. Science and Technology Progress and Policy, 2011, 28(20): 157-160. (in Chinese)

[13]MacLeod M, Moran D, Eory V. Developing greenhouse gas marginal abatement cost curves for agriculture emissions from crops and soils in the UK. Agriculture Systems, 2010, 103(10): 198-209. 

[14]McCarl B A, Schneider U. U.S. Agriculture′ role in a greenhouse gas mitigation world: an economic perspective. Review of Agricultural Economics, 2000, 22(Spring/Summer): 134-159.

[15]Schneider U A. Agriculture sector analysis on greenhouse gas emission mitigation in the United States[D]. Berlin: Humboldt University, 2000.

[16]Linstone H A, Turoff M. The Delphi Method: Techniques and Applications. New York: Olaf Helmer Press, 2002.

[17]Williams P L, Webb C. The delphi technique: a methodological discuss. Journal of Advance Nursing, 1994, 19(1): 180-186.

[18]Murry J W, Hammons J O. Delphi: a versatile methodology for conducting qualitative research. The Review of Higher Education, 1995, 18(14): 423-436.

[19]谭淑豪, 张卫建. 中国稻田节能减排的技术模式及其配套政策探讨. 科技导报, 2009, 27(23): 97-100.

Tan S H, Zhang W J. Chinese rice techniques of energy saving and emission reduction mode and supporting policy. Technology Review, 2009, 27(23): 97-100. (in Chinese)

[20]曾  波, 钟荣珍, 谭支良. 畜牧业中的甲烷排放及其减排调控技术. 中国生态农业学报, 2009, 17(4): 811-816. 

Zeng B, Zhong R Z, Tan Z L. Methane emission and abatement strategy in animal husbandry. Chinese Journal of  Eco-Agriculture, 2009, 17(4): 811-816. (in Chinese)

[21]林而达. 中国气候变化和农业的减排潜力及优先行动. 中华人民共和国农业部, 2010.

Lin E D. Mitigation Potential and Priorities on Climate Change and Agriculture in China. Ministry of Agriculture of the People′ Republic of China, 2010. (in Chinese)

[22]丁艳锋. 稻田CH4 和N2O减排的农艺途径探讨. 北京: 全国低碳农业研讨会, 2010年.

Ding Y F. Agronomic approaches on CH4 and N2O emission reduction. Beijing: The Low Carbon Agriculture Seminar, 2010. (in Chinese)

[23]胡红莲, 卢德勋, 高  民. 反刍动物甲烷的排放及其减排调控技术. 畜牧与饲料科学, 2011, 32(9-10): 26-29.

Hu H L, Lu D X, Gao M. Ruminant animal methane emissions and emission control technology. Animal Husbandry and Feed Science, 2011, 32(9-10): 26-29.(in Chinese)

[24]曹  珍, 廖新俤. 家畜胃肠道甲烷减排技术进展. 内蒙古: 家畜环境与生态学术研讨会论文集, 2010: 33-40.

Cao Z, Liao X D. Livestock gastrointestinal methane emission reduction technology progress. Inner Mongolia: Environmental and Ecological Academic Symposium, 2010: 33-40. (in Chinese)

[25]秦晓波, 李玉娥, 刘克樱, 万运帆. 不同施肥处理稻田甲烷和氧化亚氮排放特征. 农业工程学报, 2010, 22(7): 143-149.

Qin X B, Li Y E, Liu K Y, Wan Y F. Methane and nitrous oxide emission from paddy field under different fertilization treatments. Transactions of the CSAE, 2010, 22(7): 143-149. (in Chinese)

[26]Godwin R J, Richards T E, Wood G A. An economic analysis of the potential for precision farming in UK cereal production. Biosystems Engineering, 2003, 84(4): 533-545.

[27]Smith P, Martino D, Cai Z C. Policy and technological constraints to implementation of greenhouse gas mitigation options in agriculture. Agriculture, Ecosystems and Environment, 2007(118): 6-28.

[28]邹晓霞, 李玉娥, 高清竹, 万运帆, 石生伟. 中国农业领域温室气体主要排放措施研究分析. 生态环境学报, 2011, 20(8-9): 1348-1358.

Zou X X, Li Y E, Gao Q Z, Wan Y F, Shi S W. How to reduce greenhouse gas (GHG) emissions in agriculture: an analysis of measures and actions taken in China. Ecology and Environmental Science, 2011, 20(8-9): 1348-1358. (in Chinese),
No related articles found!
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
No Suggested Reading articles found!
京ICP备09089781号-30
Copyright 2018 © Editorial office of Scientia Agricultura Sinica
Tel: 86-010-82106279    E-mail: zgnykx@mail.caas.net.cn
Supported by Beijing Magtech Co.Ltd