农业高度工业化对社会经济和生物多样性所带来的负面影响日渐增高,也间接加快了新型态农业规范的发展脚步。此现象也在全球催生了新的环境社会行动和农业操作模式。低投入可持续农业(Low Input Sustainable Agriculture, LISA)也逐渐导向为全球所关注。可持续发展课题需要政府与民间合力推广。全球多个国家致力于LISA在农业上的推广,透过出台各种法案,来减少肥料与农化学品的应用,恢复农业生态,实施农业信息化(IOT),农业教育推广以及农业机械化等。可持续棕榈油圆桌倡议组织(RSPO)是世界棕榈油产业中重要的组织之一,实施LISA以降低环境风险,并且维持棕榈油生产的可持续性。此外,RSPO的指导框架也努力提升种植者的收入, 改善了种植者的生活水平。在中国,过量化肥和农药导致土壤退化,也造成了环境污染。近年来,LISA理念的进入也恰逢国家推展的双减政策,可持续农法降低不必要的生产成本,以增加农民的收入。作者以为,LISA在中国落地,需要满足几点,首先是技术先行,解决农户问题仍回归技术本质。二者,劳动力减负为下个爆发痛点,需仰赖更有效率的营养管理方案来实现。第三,农业科普教育推广懂田间实战的技术专家更能贴近市场。最后,中国式LISA需要走进农业农村单位,长期工作目标则是设定LISA田间作业规范,把影响力发挥到农产产业链下游。
The highly industrialized way of agriculture has caused significantly negative impacts on produc-tion, socio-economic and biodiversity in our life, which also indirectly accelerated the development of new agricultural norms. This has prompted strong interest of new environmental social move-ment as well as new agricultural practices in the world. Under this circumstance, Low Input Sus-tainable Agriculture (LISA) has been proposed and promoted worldwide and it is now increasingly become a new global trend in many agricultural protocols and practices. Sustainable development requires participation of both the government and peoples. Many countries have promulgated re-lated law and regulations to manage LISA practices in their agricultural sectors. Efforts including reduction on fertilizer and agrochemicals application, agro-ecology restoration, implementation of IoT (internet of thing) in farming, agricultural education outreach, and farm automation application are the practices that have been conducted in many countries. In the management palm oil plantation and production, Roundtable Sustainable Palm Oil (RSPO) organization have conducted LISA works to minimize environmental risks and to ensure the sustainability of palm oil production, RSPO practices also highly increased the profit of growers. In China, overuse of agrochemical products has led to soil destruction and other environmental pollutions. Introduction of LISA recent years has complied with China national regulation on fertilizer and agrochemicals cut to restore soil fertility and maintain the crop productivity, and most importantly, these sustainable farming helps to increase farmer income by cutting unnecessary costs. According to authors, there are several points that LISA needs to meet to land in China. Firstly, technology comes first, and the solution to farmers' problems still goes back to the essence of technology; secondly, aging labor burden reduction is an upcoming problem to be solved in many area, which needs to be realized by more efficient management programs. Thirdly, agricultural outreach services for both theorical and practical guidance to farmer. Lastly, Chinese LISA needs to enter agricultural and rural units. The long term objective is to launch related farm management regulations to create potential benefits to downstream of agricultural chain.
周淑芬,黄芷涵,刘统棋,吴展才. LISA低投入可持续农业和在中国发展现况Low Input Sustainable Agriculture and Its Development Status in China[J]. 低碳经济, 2020, 09(02): 91-99. https://doi.org/10.12677/JLCE.2020.92010
参考文献References贾雷德, 戴蒙德, 谢延光. 枪炮, 病菌与钢铁[J]. 中华环境, 2017(8): 45.蒋亦凡. 面对工业化农业, 德国人说: “我们受够了!”[EB/OL]. 澎湃新闻.
https://www.thepaper.cn/newsDetail_forward_1322831, 2015.刘彦随, 吴传钧. 国内外可持续农业发展的典型模式与途径[J]. 南京师大学报(自然科学版), 2001(2): 119-124.周文重. 可持续发展: 重大而紧迫的全球课题[EB/OL]. 华夏时报.
http://www.chinatimes.net.cn/article/49245.html, 2015.《寂静的春天》与美国的绿色运动[EB/OL]. 东方历史评论.
https://cul.sohu.com/20151124/n427916273.shtml, 2015.吴展才. 低投入可持续农业的中国式LISA[EB/OL]. http://cn.agropages.com/News/NewsDetail---15991.htm, 2018.专访大马农大校长——低投入可持续农业和联盟[EB/OL].
http://www.agri.cn/V20/ZX/sjny/201806/t20180625_6177858.htm, 2018.国际低投入可持续农业LISA联盟于四川成都召开[EB/OL].
http://www.cnfert.com/_zixun/_hangye/2018-11-27/98337.html, 2018.Cristache, S.E., Vuta, M., Marin, E., Cioaca, S.I. and Vuta, M. (2018) Organic versus Conventional Farming—A Paradigm for the Sustainable Development of the European Countries. Sustainability, 10, 4279.
<br>https://doi.org/10.3390/su10114279O’Connell, P. (1991) Sustainable Agriculture. USDA, Washing-ton.Hanson, J. and Hendrickson, J. (2009) Toward a Sustainable Agriculture. In: Franzluebbers, A.J., Ed., Farming with Grass: Achieving Sustainable Mixed Agricultural Landscapes, Soil and Water Conservation Society, Ankeny, 26-36.Cook, J. (1996) Sustainable Agriculture: Introduction and Summary. Canadian Journal of Plant Pathology, 18, 115-118. <br>https://doi.org/10.1080/07060669609500634Schaller, N. (1989) Low-Input Sustainable Agriculture. USDA, Washington.Pimentel, D., Culliney, T., Buttler, I., Reinemann, D. and Beckman, K. (1989) Low-Input Sus-tainable Agriculture Using Ecological Management Practices. Agriculture, Ecosystems and Environment, 27, 3-24.
<br>https://doi.org/10.1016/B978-0-444-88610-1.50004-8Liebhardt, W. (1987) Low-Input Sustainable Agriculture Production Systems. In: Phillips, A. and Schweitzer, G., Eds., Agricultural Development and Environmental Research, U.S. National Academy of Sciences, Washington DC, 80-88.Ribaudo, M. and Johansson, R. (2006) Water Quality: Impacts of Agriculture. In: Wiebe, K. and Gollehon, N., Eds., Agricultural Resources and Environmental Indicators, United State Department of Agriculture, Washington DC, 33-41.EPA (2017) National Water Quality Inventory: Report to Congress. U.S. Environmental Protection Agency, Washington DC.Zheng, H., Huang, H., Liu, J., Yao, L. and He, H. (2014) Recent Progress and Prospects in the Development of Ridge Tillage Cultivation Technology in China. Soil and Tillage Research, 142, 1-7.
<br>https://doi.org/10.1016/j.still.2014.04.001Blumberg, A. and Crossley Jr., D. (1983) Comparison of Soil Surface Arthropod Populations in Conventional Tillage, No-Tillage and Old Field Systems. Agro-Ecosystems, 8, 247-253. <br>https://doi.org/10.1016/0304-3746(83)90007-0Horrigan, L., Lawrence, R. and Walker, P. (2002) How Sustainable Agriculture Can Address the Environmental and Human Health Harms of Industrial Agriculture. Environmental Health Perspectives, 110, 445-456.
<br>https://doi.org/10.1289/ehp.02110445FAO (2017) Food and Agriculture: Driving Action across the 2030 Agenda for Sustainable Development. FAO.Jess, S., Kildea, S., Moody, A., Rennick, G., Murchie, A. and Cooke, L. (2014) European Union Policy on Pesticides: Implications for Agriculture in Ireland. Pest Management Science, 70, 1646-1654. <br>https://doi.org/10.1002/ps.3801Institute for Global Environmental Strategies (2014) Reducing Fertiliser Use in Denmark [Fact Sheet].
https://www.iges.or.jp/en/pub/reducing-fertiliser-use-denmark/enRoser, M. and Ritchie, H. (2020) Fertilizers. Pub-lished Online at OurWorldInData.org.
https://ourworldindata.org/fertilizers德国可持续发展战略[EB/OL].
https://environmental-partnership.org/wp-content/uploads/2017/11/2017-04-12-kurzpapier-n-chinesisch-1.pdf, 2016.罗如新. 日本发展环保型生态农业的经验及其对中国的借鉴[J]. 安徽农业科学, 2013(36): 14001-14002.《视觉天下•百科知识丛书》编委会. 改变人类生活的学问——化学[M]. 北京: 中国画报出版社, 2013.李敏. 发达国家可持续农业发展的新趋势[J]. 可持续发展, 2015, 5(4): 151-157.黄芷涵, 周淑芬, 吴展才. 国际可持续发展农业政策和行动方案[J]. 汉斯出版社, 2019, 9(4): 757-766.黄永军. 克林顿的眼光与胆识[M]. 北京: 北京图书出版社, 2004.“生态农业”中国农业该向丹麦农业学什么?[EB/OL]. http://blog.sina.com.cn/s/blog_dbf43dc50102vbzj.html, 2014.Robertson, M. (2010) Agricultural Productivity in Australia and New Zealand: Trends, Constraints and Opportu-nities. Proceedings of the New Zealand Grassland Association, Vol. 72, LI-LXII.解读澳大利亚、新西兰《农业及农机化促进政策》[EB/OL]. http://www.twwtn.com/detail_107918.htm, 2010.Strappazzon, L., Knopke, P. and Mullen, J.D. (1995) Productivity Growth: Total Factor Productivity on Australian Broadacre Farms. Australian Commodities: Forecasts and Issues, 2, 486.Knopke, P., O’Donnell, V. and Shepherd, A. (2000) Productivity Growth in the Australian Grains Industry. ABARE Research Report.RSPO (2017) RSPO Theory of Change. RSPO, Kuala Lumpur.RSPO (2018) Principles and Criteria for the Production of Sustainable Palm Oil. RSPO, Kuala Lumpur.RSPO (2018) Impact Report 2018. RSPO, Kuala Lumpur.RSPO (2019) Impact Update 2019. RSPO, Kuala Lumpur.Gan, L., Parish, F., Cai, H. and Tan, J. (2018) Towards Low GHG Emission in New Oil Palm Development—Results of RSPO’s Approach. The Planter, 94, 225-238.Schmidt, J. and De Rosa, M. (2019) Comparative Life Cycle Assessment of RSPO-Certified and Non-Certified Palm Oil. LCA Consultants.Hidayat, N., Offermans, A. and Glasbergen, P. (2016) On the Profitability of Sustainability Certification: An Analysis among Indonesian Palm Oil Smallholders. Journal of Economics and Sustainable Development, 7, 45-61.RSPO (2015) The Impacts of RSPO on the Livelihood of Smallholders: Case Studies in East Malaysia. RSPO, Kuala Lumpur.Sinsuphan, P. (2015-2016) Sustainable Palm Oil: Including Smallholders in a Sustainable Supply Base—A Case Study in Thailand. Institute of Development Policy and Management, University of Ant-werp, Antwerpen.许广月. 中国低碳农业发展研究[J]. 经济学家, 2010, 10(10): 72-78.卜慧明. 中国农业全球化: 保障全球粮食供给[R]. 伦敦: 国际环境与发展研究所(IIED), 2012.魏后凯. 中国农业发展的结构性矛盾及其政策转型[J]. 中国农村经济, 2017(5): 2-17.刘彦随, 吴传钧. 国内外可持续农业发展的典型模式与途径[J]. 南京师大学报, 自然科学版, 2001, 24(2): 119-124.曹凑贵, 江洋, 汪金平, 袁鹏丽, 陈松文. 稻虾共作模式的“双刃性”及可持续发展策略[J]. 中国生态农业学报, 2017, 25(9): 1245-1253.倪洪兴. 中国农业支持政策研究[EB/OL]. 日内瓦: 国际贸易和可持续发展中心(ICTSD), 2013.
http://cn.agropages.com/News/NewsDetail---18892.htm?from=groupmessage吴展才. 2018成都LISA中国启动会——大力丸利撒的故事[EB/OL].
http://cn.agropages.com/News/NewsDetail---17462.htm, 2018.吴展才. 农业一带一路效应——中国南北方实践LISA减肥增效聚首马来西亚[EB/OL].
http://cn.agropages.com/News/NewsDetail---17666.htm, 2019.吴展才. 对接陕西专业苹果合作社——低投入可持续农业LISA在中国进一步落地[EB/OL].
http://cn.agropages.com/News/NewsDetail---20186.htm, 2019.吴展才. 中国桉树种植的挑战和可持续发展机遇[EB/OL].
http://cn.agropages.com/News/NewsDetail---18892.htm?from=groupmessage, 2019.江华. 中国农业转型期对外求索, LISA理念将改变中国农业格局[EB/OL].
http://www.nzdb.com.cn/qy/264227.jhtml?from=singlemessage&isappinstalled=0, 2019.林胜杰, 王振, 吴展才, 田小海. 新型高效肥料对稻虾共作水稻生长和品质影响[J]. 土壤科学, 2020, 8(2): 123-131.浙江省农业农村厅. 买化肥要实名浙江已试行化肥定额制[EB/OL].
http://cn.agropages.com/News/NewsDetail---19891.htm, 2019.