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Where does theory lead us? Structural adjustment and agriculture; Structural adjustment and institucional change; Learning from experience; Managing the reform process; Technical progress and structural change in OECD agriculture; Policy conditionality in agricultural research projects; Action planning adjustment and research system reform; Structural and agricultural research: summing up.
The National Research Council's Science and Technology for Sustainability Program hosted two workshops in 2011 addressing the sustainability challenges associated with food security for all. The first workshop, Measuring Food Insecurity and Assessing the Sustainability of Global Food Systems, explored the availability and quality of commonly used indicators for food security and malnutrition; poverty; and natural resources and agricultural productivity. It was organized around the three broad dimensions of sustainable food security: (1) availability, (2) access, and (3) utilization. The workshop reviewed the existing data to encourage action and identify knowledge gaps. The second workshop, Exploring Sustainable Solutions for Increasing Global Food Supplies, focused specifically on assuring the availability of adequate food supplies. How can food production be increased to meet the needs of a population expected to reach over 9 billion by 2050? Workshop objectives included identifying the major challenges and opportunities associated with achieving sustainable food security and identifying needed policy, science, and governance interventions. Workshop participants discussed long term natural resource constraints, specifically water, land and forests, soils, biodiversity and fisheries. They also examined the role of knowledge, technology, modern production practices, and infrastructure in supporting expanded agricultural production and the significant risks to future productivity posed by climate change. This is a report of two workshops.
Agricultural Productivity: Measurement and Sources of Growth addresses measurement issues and techniques in agricultural productivity analysis, applying those techniques to recently published data sets for American agriculture. The data sets are used to estimate and explain state level productivity and efficiency differences, and to test different approaches to productivity measurement. The rise in agricultural productivity is the single most important source of economic growth in the U.S. farm sector, and the rate of productivity growth is estimated to be higher in agriculture than in the non-farm sector. It is important to understand productivity sources and to measure its growth properly, including the effects of environmental externalities. Both the methods and the data can be accessed by economists at the state level to conduct analyses for their own states. In a sense, although not explicitly, the book provides a guide to using the productivity data available on the website of the U.S. Department of Agriculture/Economic Research Service. It should be of interest to a broad spectrum of professionals in academia, the government, and the private sector.
The report aims to provide a conceptual framework to address food security under conditions of water scarcity in agriculture. It has been prepared by a team of FAO staff and consultants in the framework of the project "Coping with water scarcity - the role of agriculture", and has been discussed at an Expert Consultation meeting organized in FAO, Rome, during the period 14-16 December 2009 on the same subject. It was subsequently edited and revised, taking account of discussions in the Expert Consultation and materials presented to the meeting. The purpose of the Expert Consultation was to assist FAO to better design its water scarcity programme. In particular, the experts were requested to provide recommendations on the range of technical and policy options and associated principles that FAO should promote as part of an agricultural response to water scarcity in member countries. The document offers views on the conceptual framework on which FAO's water scarcity programme should be based, proposes a set of definitions associated with the concept of water scarcity, and indicates the main principles on which FAO should base its action in support to its member countries. At the meeting, experts were requested to review the draft document and provide feedback and recommendations for its finalization. Issues that were addressed in discussions included: 3⁄4 Water scarcity: agreement on key definitions. 3⁄4 The conceptualisation of water scarcity in ways that are meaningful for policy development and decision-making. 3⁄4 The quantification of water scarcity. . 3⁄4 Policy and technical response options available to ensure food security in conditions of water scarcity. . 3⁄4 Criteria and principles that should be used to establish priorities for action in response to water scarcity in agriculture and ensure effective and efficient water scarcity coping strategies.
Agricultural research and development has stimulated enormous increases in agricultural productivity in the twentieth century. Now, in response to common pressures, countries the world over are changing how they manage and pay for agricultural R&D. Paying for Agricultural Productivity reviews agricultural R&D policy in Australia, the Netherlands, New Zealand, the United Kingdom, and the United States and assesses whether the new approaches are raising or lowering the efficiency and effectiveness of R&D. To complement the case studies, the book analyzes trends in R&D investment in twenty-two developed countries. Paying for Agricultural Productivity will be an invaluable resource for economic and development specialists concerned with agricultural research and development, as well as for farmers, food processors, agricultural wholesalers and retailers, environmentalists, and research scientists.
Agricultural research and development have profoundly increased the quantity and quality of food production in the twentieth century. As populations increase, however, and land and water resources become more scarce, we must improve productivity and efficiency to provide adequate food supplies. Issues such as the environment, genetic diversity, food safety, poverty, human health, animal rights, public versus private responsibilities, and the question of intellectual property rights further complicate this task. Agricultural Science Policy: Changing Global Agendas consists of twelve chapters that describe important issues in agricultural science policy, the relevant facts, current economic thinking, and new results. Topics Include: Changing Global Contexts and Agendas for Agricultural R & D; Productivity Measures and Measurement; Research, Productivity, and Natural Resources; Research for Genetic Improvement; and a Conclusion, which suggests directions for the future. The chapters in this volume will provide researchers and policy makers with a timely review of progress on the existing agenda as well as laying the foundation for a new agenda and new directions for global agricultural science policy in the 21st century. Contributors: Julian M. Alston, University of California-Davis ? Walter J. Armbruster, President of the Farm Foundation ? Peter J. Barry, University of Illinois ? Wilfred Beckerman, University of Oxford ? Derek Byerlee, World Bank ? Barbara J. Craig, Oberlin College ? Robert Evenson, Yale University ? Richard Gray, University of Saskatchewan ? Zvi Griliches, Harvard University ? Paul W. Heisey, U.S. Department of Agriculture ? Frances Homans, University of Minnesota ? Peter Lindert, University of California-Davis ? Stavroula Malla, University of Saskatchewan ? Philip G. Pardey, International Food Policy Research Institute and University of Minnesota ? Prabhu L. Pingali, International Maize and Wheat Improvement Center ? Ismail Serageldin, World Bank and the American University in Cairo ? Michael J. Taylor, Department of Agriculture, Fisheries, and Forestry, Australia ? Greg Traxler, Auburn University ? James Wilen, University of California-Davis ? Brian Wright, University of California-Berkeley. Published in cooperation with the International Food Policy Research Institute.
Here in one easy-to-understand volume are the statistical procedures and techniques the agricultural researcher needs to know in order to design, implement, analyze, and interpret the results of most experiments with crops. Designed specifically for the non-statistician, this valuable guide focuses on the practical problems of the field researcher. Throughout, it emphasizes the use of statistics as a tool of research—one that will help pinpoint research problems and select remedial measures. Whenever possible, mathematical formulations and statistical jargon are avoided. Originally published by the International Rice Research Institute, this widely respected guide has been totally updated and much expanded in this Second Edition. It now features new chapters on the analysis of multi-observation data and experiments conducted over time and space. Also included is a chapter on experiments in farmers' fields, a subject of major concern in developing countries where agricultural research is commonly conducted outside experiment stations. Statistical Procedures for Agricultural Research, Second Edition will prove equally useful to students and professional researchers in all agricultural and biological disciplines. A wealth of examples of actual experiments help readers to choose the statistical method best suited for their needs, and enable even the most complicated procedures to be easily understood and directly applied. An International Rice Research Institute Book
Southeast Asia made considerable progress in building and strengthening its agricultural R&D capacity during 2000–2017. All of the region’s countries reported higher numbers of agricultural researchers, improvements in their average qualification levels, and higher shares of women participating in agricultural R&D. In contrast, regional agricultural research spending remained stagnant, despite considerable growth in agricultural output over time. As a result, Southeast Asia’s agricultural research intensity—that is, agricultural research spending as a share of agricultural GDP—steadily declined from 0.50 percent in 2000 to just 0.33 percent in 2017. Although the extent of underinvestment in agricultural research differs across countries, all Southeast Asian countries invested below the levels deemed attainable based on the analysis summarized in this report. The region will need to increase its agricultural research investment substantially in order to address future agricultural production challenges more effectively and ensure productivity growth. Southeast Asia’s least developed agricultural research systems (Cambodia, Laos, and Myanmar) are characterized by low scientific output and researcher productivity as a direct consequence of severe underfunding and lack of sufficient well-qualified research staff. While Malaysia and Thailand have significantly more developed agricultural research systems, they still report key inefficiencies and resource constraints that require attention. Indonesia, the Philippines, and Vietnam occupy intermediate positions between these two groups of high- and low-performing agricultural research systems. Growing national economies, higher disposable incomes, and changing consumption patterns will prompt considerable shifts in levels of agricultural production, consumption, imports, and exports across Southeast Asia over the next 20 to 30 years. The resource-allocation decisions that governments make today will affect agricultural productivity for decades to come. Governments therefore need to ensure the research they undertake is responsive to future challenges and opportunities, and aligned with strategic development and agricultural sector plans. ASTI’s projections reveal that prioritizing investment in staple crops will still trigger fastest agricultural productivity growth in Laos. However, Indonesia, Malaysia, and Vietnam could achieve faster growth over the next 30 years by prioritizing investment in research focused on fruit, vegetables, livestock, and aquaculture. In Cambodia, Myanmar, and Thailand, the choice between focusing on staple crops versus high-value commodities was less pronounced, but projections did indicate that prioritizing investments in oil crop research would trigger significantly lower growth in agricultural productivity.