Development Models,Evaluation and Countermeasures of Recycling Agriculture

doi:10.14088/j.cnki.issn0439-8114.2018.21.002

Abstract

Abstract: According to review on the research status of recycling agriculture,through combing the development history and characteristics of recycling agriculture at home and abroad,marking out two types of development models based on the industrial coupling and the depth development of waste,two kinds of evaluation methods from both macroscopic view and microcosmic perspective were compared,and some problems existing in the development of circular agriculture in China were analyzed,then corresponding suggestions were put forward from aspects of the government support,financial system, scientific and technological support,the construction of industrialization system, and the improvement of evaluation system and methods,to provide a reference for the development and further research of recycling agriculture.

Key words: recycling agriculture, development models, evaluation, countermeasures, bibliometrics

CLC Number:

F321

WANG Kang-zhe, YANG Tao, CHEN Yi, HE Chun-guang, SHENG Lian-xi. Development Models,Evaluation and Countermeasures of Recycling Agriculture[J]. HUBEI AGRICULTURAL SCIENCES, 2018, 57(21): 9-15.

References 58

[1]	TOOP T A,WARD S,OLDFIELD T,et al.AgroCycle-developing a circular economy in agriculture[J].Energy Procedia,2017, 123:76-80.
[2]	RICKSON R J,DEEKS L K,GRAVES A,et al.Input constraints to food production:the impact of soil degradation[J].Food Security,2015,7(2):351-364.
[3]	尹昌斌,唐华俊,周颖.循环农业内涵、发展途径与政策建议[J].中国农业资源与区划,2006,27(1):15-19.
[4]	何琼,杨敏丽.基于国外循环农业理念对发展中国特色生态农业经济的启示[J].世界农业,2017(2):21-25.
[5]	ROBERT P C,STAFFORD J V.Precision Agriculture:research needs and status in the USA.[C]. Precision Agriculture,1999, 1385-2256.
[6]	Schimmelpfennig D,Ebel R.On the Doorstep of the Information Age:Recent Adoption of Precision Agriculture[J].Social Science Electronic Publishing,2015.
[7]	刘渝,杜江.国外循环农业发展模式及启示[J].环境保护,2010(8):74-76.
[8]	ZHANG N,WANG M,WANG N.Precision agriculture——a worldwide overview.[J].Computers & Electronics in Agriculture,2002,36(2):113-132.
[9]	WEINBERG J,KALTSCHMITT M.Greenhouse gas emissions from first generation ethanol derived from wheat and sugar beet in Germany-Analysis and comparison of advanced by-product utilization pathways[J].Applied Energy,2013,102(2):131-139.
[10]	GUIRAUD J P,DAURELLES J,GALZY P.Alcohol production from jerusalem artichoke using yeast with inulinase activity[J].Biotechnology & Bioengineering,2010,23(7):1461-1465.
[11]	EMBERGER P,THUNEKE K,REMMELE E.Ignition and combustion characteristics of pure vegetable oils to be used as dieselfuel[J].21st European Biomass Conference and Exhibition,3-7 June2013, Copenhagen, Denmark.
[12]	APPEL F,OSTERMEYER-WIETHAUP A,BALMANN A.Effects of the German Renewable Energy Act on structural change in agriculture-The case of biogas[J].Utilities Policy,2016,41:172-182.
[13]	李江南. 美国、德国和日本循环农业模式的实践、经验及其比较[J].世界农业,2017(6):17-22.
[14]	芶在坪. 国外农业循环经济的发展[J].再生资源与循环经济,2008,1(11):41-44.
[15]	李杰,曹玉华.以色列节水农业对我国的启示[J].现代农业科技,2011(7):274-277.
[16]	SASAL M C,BOIZARD H,ANDRIULO A E,et al.Platy structure development under no-tillage in the northern humid Pampas of Argentina and its impact on runoff[J].Soil & Tillage Research,2016.
[17]	ROD J. MACRAE,STUART B. HILL,JOHN HENNING,et al.Policies,programs,and regulations to support the transition to sustainable agriculture in Canada[J].American Journal of Alternative Agriculture,2009,5(2):76-92.
[18]	ZABANIOTOU A,ROVAS D,LIBUTTI A,et al.Boosting circular economy and closing the loop in agriculture:Case study of a small-scale pyrolysis-biochar based system integrated in an olive farm in symbiosis with an olive mill[J].Environmental Development,2015,14:22-36.
[19]	陈德敏,王文献.循环农业——中国未来农业的发展模式[J].经济师,2002(11):8-9.
[20]	吴天马. 循环经济与农业可持续发展[J].环境导报,2002(4):4-6.
[21]	周颖,尹昌斌,邱建军.我国循环农业发展模式分类研究[J].中国生态农业学报,2008,16(6):1557-1563.
[22]	章家恩. 农业循环经济[M].北京:化学工业出版社,2010.
[23]	唐华俊. 我国循环农业发展模式与战略对策[J].中国农业科技导报,2008,10(1):6-11.
[24]	黄敏. 关于猪-沼-菜生态农业种植模式的研究[J].资源节约与环保,2016(10):177-177.
[25]	赵春青. 稻田养蟹立体种养技术[J].现代农业,2015(4):18-19.
[26]	李金才,邱建军,任天志,等.北方“四位一体”生态农业模式功能与效益分析研究[J].中国农业资源与区划,2009,30(3):46-50.
[27]	崔军. 循环经济理论指导下的现代农业规划理论探讨与案例分析[J].农业工程学报,2011,27(11):283-288.
[28]	李胜,梁淑敏,付秀平,等.北京蟹岛都市循环农业模式分析[J].中国农村经济,2008(12):62-68.
[29]	EGEA F J,TORRENTE R G,AGUILAR A.An efficient agro-industrial complex in Almería(Spain):Towards an integrated and sustainable bioeconomy model.[J].New Biotechnology,2017.
[30]	SÁNCHEZ A S,SILVA Y L,KALID R A,et al. Waste bio-refineries for the cassava starch industry:New trends and review of alternatives[J]. Renewable & Sustainable Energy Reviews, 2017,73:1265-1275.
[31]	ABIOYE A M,ANI F N.Recent development in the production of activated carbon electrodes from agricultural waste biomass for supercapacitors:A review[J].Renewable & Sustainable Energy Reviews,2015,52:1282-1293.
[32]	MIRABELLA N,CASTELLANI V,SALA S.Current options for the valorization of food manufacturing waste:a review[J].Journal of Cleaner Production,2014,65(4):28-41.
[33]	NAKTHONG N,WONGSAGONSUP R,AMORNSAKCHAI T.Characteristics and potential utilizations of starch from pineapple stem waste[J].Industrial Crops & Products,2017,105:74-82.
[34]	MONCADA J,TAMAYO J A,CARDONA C A.Integrating first,second,and third generation biorefineries:Incorporating microalgae into the sugarcane biorefinery[J].Chemical Engineering Science,2014,118(118):126-140.
[35]	GARCIA D,YOU F.Systems engineering opportunities for agricultural and organic waste management in the food-water-energy nexus[J].Current Opinion in Chemical Engineering,2017, 18:23-31.
[36]	韩玉,龙攀,陈源泉,等.中国循环农业评价体系研究进展[J].中国生态农业学报,2013,21(9):1039-1048.
[37]	李波,张俊飚,徐卫涛.我国循环农业发展时空差异及制约因素分析[J].华中农业大学学报(社会科学版),2010(4):21-26.
[38]	杜红梅,傅知凡.湖南农业循环经济发展评价体系及实证分析[J].经济地理,2016,36(6):168-175.
[39]	贾士靖,刘银仓,王慧军.基于指标体系的河北省农业循环经济发展评价[J].中国生态农业学报,2008,16(5):1230-1233.
[40]	那伟,祝延立,庞凤仙,等.吉林省农业循环经济发展评价及优化对策研究[J].农业现代化研究,2011,32(2):209-212.
[41]	马丁丑,王文略,马丽荣.甘肃农业循环经济发展综合评价和制约因素诊断及对策[J].农业现代化研究,2011,32(2):204-208.
[42]	RUGANI B,BENETTO E.Improvements to Emergy evaluations by using Life Cycle Assessment.[J].Environmental Science & Technology,2012,46(9):4701.
[43]	CANALS L M I,BURNIP G M,COWELL S J. Evaluation of the environmental impacts of apple production using Life Cycle Assessment(LCA):Case study in New Zealand[J].Agriculture Ecosystems & Environment,2006,114(2-4):226-238.
[44]	PAOLOTTI L,BOGGIA A,CASTELLINI C,et al.Combining livestock and tree crops to improve sustainability in agriculture:a case study using the Life Cycle Assessment (LCA) approach[J].Journal of Cleaner Production,2016,131:351-363.
[45]	MORAIS T G,TEIXEIRA R F M,DOMINGOS T. Regionalization of agri-food life cycle assessment: a review of studies in Portugal and recommendations for the future[J].International Journal of Life Cycle Assessment,2016,21(6):1-10.
[46]	杨印生,盛国辉,吕广宏.我国开展农业LCA研究的对策建议[J].中国软科学,2003(5):7-11.
[47]	王明新,夏训峰,柴育红,等.农村户用沼气工程生命周期节能减排效益[J].农业工程学报,2010,26(11):245-250.
[48]	梁龙,陈源泉,高旺盛.基于生命周期的循环农业系统评价[J].环境科学,2010,31(11):2795-2803.
[49]	ODUM H T.Energy Analysis of the Environmental Role in Agriculture[M].Energy and Agriculture. Springer Berlin Heidelberg,1984:24-51.
[50]	VASSALLO P,BASTIANONI S,BEISO I,et al.Emergy analysis for the environmental sustainability of an inshore fish farming system[J].Ecological Indicators,2007,7(2):290-298.
[51]	FERRARO D O,BENZI P.A long-term sustainability assessment of an Argentinian agricultural system based on emergy synthesis[J].Ecological Modelling,2015,306(6):121-129.
[52]	ZAFIRIOU P,MAMOLOS A P,MENEXES G C,et al. Analysis of energy flow and greenhouse gas emissions in organic,integrated and conventional cultivation of white asparagus by PCA and HCA:cases in Greece[J].Journal of Cleaner Production,2012,s 29-30(5):20-27.
[53]	CASTELLINI C,BASTIANONI S,GRANAI C,et al.Sustainability of poultry production using the emergy approach:Comparison of conventional and organic rearing systems[J].Agriculture Ecosystems & Environment,2006,114(2-4):343-350.
[54]	WU X H,WU F Q,JIA W,et al.Emergy-based sustainability assessment for a five-in-one integrated production system of apple,grass,pig,biogas,and rainwater on the Loess Plateau,Northwest China.[J].Agroecology & Sustainable Food Systems,2015,39(6):666-690.
[55]	XI Y G,PEI Q,QIN B Q.Emergy evaluation of organic rice-duck mutualism system.[J].Ecological Engineering,2009,35(11):1677-1683.
[56]	牛红志,孔晓英,李连华,等.厌氧发酵制备生物燃气过程的物质与能量转化效率[J].化工学报,2015,66(2):723-729.
[57]	MAHDEI K N,BAHRAMI A,AAZAMI M,et al.Assessment of agricultural farming systems sustainability in Hamedan Province using ecological footprint analysis (case study:irrigated wheat).[J].Journal of Agricultural Science & Technology,2015,17(6):1409-1420.
[58]	吴喜慧. 关中平原典型循环农业生产模式评价研究[D].陕西杨凌:西北农林科技大学,2015.