长汀县循环农业产业联盟模式能值分析

doi:10.16843/j.sswc.2017.05.015

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摘要

实施种养结合，将农牧生产废弃物利用并回流坡耕地和开展地力恢复是长汀县水土保持的重要内容。应用能值分析法分析2014年长汀县循环农业产业联盟和长汀县农业生态系统（对照）的净能值产出率、能值投资率、环境负载率和可持续发展指数，以及循环农业模式能量流动特征。结果表明：2014年循环农业产业联盟的净能值产出率、能值投资率、环境负载率和可持续发展指数分别为7.12、49.35、0.44和16.26。同期长汀县农业生态系统的净能值产出率、能值投资率、环境负载率和可持续发展指数分别为1.20、3.29、0.23和5.17。循环农业产业联盟净能值产出率和可持续发展指数分别高于当地农业生态系统5.92和11.09个单位，对当地农业发展具明显带动作用。提出了有关优化循环农业产业联盟的建议：1）控制牧业生产规模；2）扩大有机肥厂生产规模；3）引进更多的种植企业，参与循环产业联盟，利用沼液；4）增加科技投入，提高沼气和沼液利用率。通过项目引导构建循环农业产业联盟模式，分析循环农业模式能量流动特征，不仅有助于说明循环农业模式实施效果，也可为循环农业模式自身优化提供理论依据。

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	罗旭辉
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	翁伯琦

关键词 ：水土流失, 循环农业, 能值分析, 长汀县

Abstract：

[Background] Promoting soil fertilization is an important subject in Changting County for soil and water conservation. Aimed to reusing agricultural waste products and return to farmland, a pattern of circular agriculture industry alliance was established.[Methods] In order to evaluate the pattern application effectiveness and analyze the characteristics of energy flow in recycling agriculture model, the emergy yield ratio (EYR), emergy invest ratio (EIR), environmental loading ratio (ELR) and emergy-value sustainable development index (ESI) in both of circular agriculture industry alliance and local agricultural system (CK) in Changting County were analyzed by emergy-value, with the emergy transformity referring to study of H. T. Odum.[Results]The EYR, EIR, ELR and ESI of circular agriculture industry alliance in Changting County in 2014 were 7.12, 49.35, 0.44 and 16.26, respectively. While the EYR, EIR, ELR and ESI of local agricultural system were 1.20, 3.29, 0.23, and 5.17, respectively. With production pattern changed from traditional one, the percentage of the renewable organic emergy (R₁) to the total emergy input increased from 58.42% to 66.47%, the percentage of the nonrenewable industrial auxiliary emergy (F) increased from 18.49% to 30.32%, and percentage of renewable environmental resources (R) decreased from 22.95% to 1.88%. For emergy output, two product systems were typed with heavy animal production, and their emergy outputs were above 75% of total output.[Conclusions] Circular agriculture industry alliance pattern has obvious benefit on agriculture development with increasing 5.92 of EYR and 11.09 of ESI, it is greater than local agricultural system. It is suggested that optimization on circular agriculture industry alliance mode as following:1) making limitation on livestock production;2) enlarging scale of organic fertilizer production;3) introducing more vegetable plantation and orchard to join the alliance for using biogas; and 4) strengthening science and technology investment to make fully use of biogas and fermented liquid.

Key words： soil and water loss circular agriculture emergy-value analysis Changting County

收稿日期: 2016-12-13

PACS:

S157.9

基金资助:

中央引导地方发展项目"福建省宁德生态循环农业与精准扶贫技术集成应用"（2016L3004）；福建省农业科学院科技创新团队

通讯作者: 翁伯琦(1957-),男,本科,研究员。主要研究方向:生态农业理论与技术。E-mail:wengboqi@163.com E-mail: wengboqi@163.com

作者简介: 罗旭辉(1979-),男,本科,副研究员。主要研究方向:水土保持技术与农业面源污染治理。E-mail:xuhui22203@163.com

引用本文:

罗旭辉^1,2, 黄颖³, 方芸芸⁴, 陈恩¹, 杨有泉¹, 翁伯琦¹. 长汀县循环农业产业联盟模式能值分析[J]. 中国水土保持科学, 2017, 15(5): 117-126.
LUO Xuhui, HUANG Ying, FANG Yunyun, CHEN En, YANG Youquan, WENG Boqi. Emergy-value analysis on pattern of circular agriculture industry alliance in Changting County. SSWC, 2017, 15(5): 117-126.

链接本文:

http://journal12.magtechjournal.com/Jweb_stbc/CN/10.16843/j.sswc.2017.05.015 或 http://journal12.magtechjournal.com/Jweb_stbc/CN/Y2017/V15/I5/117

[1]	翁伯琦,罗旭辉,郑开斌,等. 发展循环农业与防控水土流失的对策思考:以福建省长汀县为例[J]. 福建农业学报,2013,28(3):287. WENG Boqi, LUO Xuhui, ZHENG Kaibin, et al. Consideration and countermeasures on developing circular agriculture and preventing soil and water loss:a case study of Changting County in Fujian Province[J]. Fujian Journal of Agricultural Science, 2013, 28(3):287.
[2]	马璇,宗跃光,刘志强. 从GDP和生态足迹关联角度研究生态足迹结构:以福建长汀县为例[J].安徽农业科学, 2007, 35(24):7540. MA Xuan, ZHONG Yueguang, LIU Zhiqiang. Analysis of the ecological footprint from the view of GDP and ecological footprint:a case study of Changting County, Fujian Province[J]. Journal of Anhui Agricultural Science, 2007, 35(24):7540.
[3]	翁伯琦, 罗旭辉, 王义祥, 等. 南方水土流失防控与现代循环农业发展:战略对策[M]. 福州:福建科学技术出版社, 2015:1. WENG Boqi, LUO Xuhui, WANG Yixiang, et al. Southern soil and water conservation and modern circular agricultural development:strategy and countermeasures[M]. Fuzhou:Fujian Science and Technology Publishing House, 2015:1.
[4]	翁伯琦,徐晓俞,罗旭辉,等. 福建省长汀县水土流失治理模式对绿色农业发展的启示[J]. 山地学报,2014,32(2):141. WENG Boqi, XU Xiaoyu, LUO Xuhui, et al. Controlling model of soil and water loss and revelation to the development of green agriculture in Changting of Fujian, China[J]. Mountain Research, 2014,32(2):141.
[5]	翁伯琦,罗旭辉,张伟利,等. 水土保持与循环农业耦合开发策略及提升建议:以福建省长汀县等3个水土流失重点治理县为例[J]. 中国水土保持科学,2015,13(2):106. WENG Boqi, LUO Xuhui, ZHANG Weili, et al. Countermeasures and suggestions on synergic development between water and soil erosion control and recycling agriculture in hilly regions:a case study of Changting County, Fujian Province[J]. Science of Soil and Water Conservation, 2015,13(2):106.
[6]	ODUM H T. Environmental accounting:emergy and environmental decision making[M]. New York:Johnwiley and Sons, 1996:320.
[7]	蓝盛芳,钦佩,陆宏芳. 生态经济系统能值分析[M]. 北京:化学工业出版社, 2002:1. LAN Shengfang, QING Pei, LU Hongfang. Emergy analysis on eco-economic system[M]. Beijing:Chemical Industry Press, 2002:1.
[8]	农业技术手册编委会. 农业技术经济手册(修订本)[M]. 北京:农业出版社, 1984:819. Editorial Board of Agricultural Technology Handbook. Handbook of agricultural technology and economics (Revision version)[M]. Beijing:China Agriculture Publishing House, 1984:819.
[9]	张攀. 复合产业生态系统能值分析评价和优化研究[D].大连:大连理工大学,2011:107. ZHANG Pang. Emergy analysis, evaluation and optimization of complex industrial ecosystem[D]. Dalian:Dalian University of Technology, 2011:107.
[10]	董孝斌,严茂超,董云,等. 基于能值的内蒙古经济系统分析与可持续发展战略研究[J]. 地理科学进展,2007,26(3):47. DONG Xiaobin, YAN Maochao, DONG Yun, et al. Emergy evaluation of the eco-economic system of Inner Mongolia and study on its sustainable development strategy[J]. Progress in Geography, 2007,26(3):47.
[11]	张玉芳,董孝斌,严茂超,等. 基于能值的天山北坡经济带农牧系统可持续性评估[J]. 生态学杂志,2007,26(11):1901. ZHANG Yufang, DONG Xiaobin, YAN Maochao, et al. Emergy evaluation on the sustainability of cropping-grazing system in economic belt on northern slope of Tianshan Mountains[J]. Chinese Journal of Ecology.2007,26(11):1901.
[12]	张玉芳,王明田,董孝斌.新疆玛纳斯县生态经济系统的能值分析及其可持续性评估[J]. 生态经济,2009(8):29. ZHANG Yufang, WANG Mingtian, DONG Xiaobin, et al. Emergy evaluation and assessment of sustainability on the eco-economic system of Manas County in Xinjiang[J]. Ecological Economy, 2009(8):29.
[13]	LU H F, LAN S F, CHEN F P, et al. Emergy study on dike-pond eco-agricultural engineering modes[J]. Transactions of the CSAS, 2002, 18(5):145.
[14]	BROWN M T, HERENDEEN R A. Embodied energy analysis and emergy analysis:a comparative view[J]. Ecological Economics, 1996(19):219.
[15]	姚成胜, 朱鹤健. 基于能值理论的福建省农业系统动态研究[J].长江流域资源与环境, 2008, 17(2):247. YAO Chengsheng, ZHU Hejian. Dynamic study on agricultural system in Fujian Province on emergy theory[J]. Resources and Environment in the Yangtze Basin. 2008, 17(2):247.
[16]	林惠花, 武国胜, 朱鹤健. 福建长汀土壤侵蚀的动态经济度量[J]. 四川农业大学学报, 2010,28(2):159. LIN Huihua, WU Guosheng, ZHU Hejian. Estimate of the economic losses of soil erosion in Changting County of Fujian Province[J]. Journal of Sichuan Agricultural University, 2010,28(2):159.
[17]	周碧青, 邢世和, 范协裕. 水土流失区农用地地力提升与优化利用[M]. 北京:中国农业出版社, 2015:136. ZHOU Biqing, XING Shihe, FANG Xieyu. Farmland fertility promotion and optimal utilization in soil erosion region[M]. Beijing:China Agriculture Publishing House, 2015:136.
[18]	章牧, 朱鹤健. 福建省农业生产系统可持续评价指标体系研究[J]. 福建师范大学学报(自然科学版), 2001,17(2):92. ZHANG Mu, ZHU Hejian. Study on the sustainable index system for agricultural ecosystem in Fujian Province[J]. Journal of Fujian Teachers University (Natural Science), 2001,17(2):92.
[19]	姚成胜, 朱鹤健. 福建生态经济系统的能值分析及可持续发展评估[J]. 福建师范大学学报(自然科学版), 2007, 23(3):92. YAO Chengsheng, ZHU Hejian. Emergy analysis and assessment of sustainability on the eco-economic system of Fujian Province[J]. Journal of Fujian Teachers University (Natural Science), 2007, 23(3):92.
[20]	毕安平, 朱鹤健. 基于PSR模型的水土流失区生态经济系统耦合研究:以朱溪河流域为例[J]. 中国生态农业学报, 2013,21(8):1023. BI Anping, ZHU Hejian. Research of coupling of eco-economic systems of soil erosion regions based on the PSR model:a case study of Zhuxi River Basin[J]. Chinese Journal of Eco-Agriculture, 2013, 21(8):1023.
[21]	钟珍梅, 黄勤楼, 翁伯琦,等. 以沼气为纽带的种养结合循环农业系统能值分析[J]. 农业工程学报, 2012, 28(14):196. ZHONG Zhenmei, HUANG Qinlou, WENG Boqi, et a1. Energy analysis on planting-breeding circulating agriculture ecosystem linked by biogas[J]. Transactions of the CSAE,2012,28(14):196.
[22]	ULGIATI S, BROWN M T. Quantifying the environmental support for dilution and abatement of process emissions:the case of electricity production[J]. Journal of Cleaner Production, 2002, 10(4):335.
[23]	任继周, 侯扶江. 我国山区发展营养体农业是持续发展和脱贫致富的重要途径[J]. 大自然探索, 1999. 18(1):48. REN Jizhou, HOU Fujiang. Developing vegetative agriculture in mountain region is an import way for sustainable development and poverty alleviation[J]. Exploration of Nautre, 1999,18(1):48.
[24]	任继周, 林慧龙. 农区种草是改进农业系统, 保证粮食安全的重大步骤[J]. 草业学报, 2009,18(5):1. REN Jizhou, LIN Huilong. Promoting prataculture development in arable region to ameliorate the farming system and insure food security in China[J]. Acta Prataculture Sinica, 2009, 18(5):1.
[25]	高旺盛. 坚持走中国特色的循环农业科技创新之路[J]. 农业现代化研究,2010,31(2):129. GAO Wangsheng. Circular agriculture with Chinese characteristics and science and technology Innovation[J]. Research of Agricultural Modernization, 2010, 31(2):129.