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Despite the ongoing controversy over their use, genetically modified (GM) crops have progressively grown in popularity and are now planted in approximately 160 million hectares in 29 countries. In the discussions of biosafety regulations for GM crops and whether to approve such crops for commercialization, many countries, including some African nations, have gone beyond environmental assessments and are now introducing socioeconomic considerations as part of their decisionmaking process. There are, however, very few guidelines on how to ensure that this inclusion of socioeconomic considerations results in a robust and efficient decisionmaking process. Socioeconomic Considerations in Biosafety Decisionmaking: Methods and Implementation provides guidance to professionals involved in assessing the ex ante impact of a GM crop in the context of an approval process. Using the case of GM cotton in Uganda, the authors illustrate the evaluation of socioeconomic impact on farmers, the national economy, and trade. The authors identify three crucial steps in making socioeconomic assessment part of a biosafety regulatory process, decisionmaking process, or both. First, select appropriate research tools and methods that yield robust results but that also take into account time and budget constraints. Second, evaluate the institutional setting of GM technology deployment. Third, allow for the uncertainties inherent in the assessment by using ranges of values for the parameters under evaluation, including yield, technology efficiency, and prices. These and other conclusions should provide useful guidance to policymakers and development researchers in countries that opt to incorporate socioeconomic considerations into their biosafety regulations, as well as their decisionmaking process for GM crop approval.
Within the context of the Convention on Biological Diversity (CBD), the Cartagena Protocol on Biosafety (CPB) was established as an implementing agreement. The CPB is an international agreement establishing the rights of recipient countries to be notified of and to approve or reject the domestic import and/or production of living modified organisms (LMOs). Decisions regarding import/production are to be on the basis of a biosafety assessment. Article 26.1 of the CPB allows for the (optional) inclusion of socio-economic considerations (SECs) into that biosafety assessment process. This book compiles expert assessments of the issues relevant to SEC assessment of LMOs and fundamental for decisions regarding whether to undertake such assessments at all. It includes an overview of the inclusion of SEC assessment in the regulation of LMOs that looks at the rationale for the inclusion of SECs, in the context of the existing science-based risk assessment systems. This book reviews the various factors that can and have been suggested for inclusion in SEC assessment, and provides a meaningful dialogue about the contrasts, benefits and tradeoffs that are, and will, be created by the potential move to the inclusion of SECs in the regulation of LMOs, making it of interest to both academics and policy-makers.
A report released ten years after the first genetically modified crops were introduced sets forth principles and tools that nations can use as they wrestle to develop effective agricultural biotechnology policy.
This book, the first in a series that focuses on treaty implementation for sustainable development, examines key legal aspects of implementing the Cartagena Protocol on Biosafety to the UN Convention on Biological Diversity (CBD) at national and international levels. The volume provides a serious contribution to the current legal and political academic debates on biosafety by discussing key issues under the Cartagena Protocol on Biosafety that affect the further design of national and international law on biosafety, and analyzing progress in the development of domestic regulatory regimes for biosafety. In the year of the fifth UN Meeting of the Parties to the Cartagena Protocol on Biosafety, at the signature of a new Nagoya-Kuala Lumpur Protocol on Liability and Redress, this timely book examines developments in biosafety law and policy.
Bringing together the ideas of experts from around the world, this incisive text offers cutting-edge perspectives on the risk analysis and governance of genetically modified organisms (GMOs), supporting effective and informed decision-making in developing countries. Comprised of four comprehensive sections, this book covers: integrated risk analysis and decision making, giving an overview of the science involved and examining risk analysis methods that impact decision-making on the release of GMOs, particularly in developing countries; diversification of expertise involved in risk analysis and practical ways in which the lack of expertise in developing countries can be overcome; risk analysis based regulatory systems and how they can be undermined by power relationships and socio-political interests, as well as strategies for improving GMO policy development and regulatory decision-making; and case studies from developing countries providing lessons based on real-world experience that can inform our current thinking.
Genetic Engineering and Genome Editing for Zinc Biofortification of Rice provides the first single-volume, comprehensive resource on genetic engineering approaches, including novel genome editing techniques, that are carried out in rice, a staple crop for much of the world’s population. Dietary zinc deficiency can lead to negative health outcomes, including increased risk of stunting, respiratory diseases, diarrhea, mortality during childhood, and preterm births in pregnancy. By providing a complete view of the need for zinc biofortification in rice, sections in this book discuss state-of-the-art scientific advances, and then go further, placing them in their proper scientific, regulatory and socioeconomic contexts.While zinc biofortification can be achieved through conventional breeding, genetic engineering and agronomic practices, this is the first reference to bring all the latest insights and understanding to a comprehensive resource that is based on real-world experience and targeted applications. Compiles the state-of-the-art information to allow fast-track understanding and application of zinc content improvement Discusses multiple strategic and methodology approaches Includes discussion of the socioeconomic implications of improved rice nutritional value
The relationship between intellectual property and food affects the production and availability of food by regulating dealings in products, processes, innovations, information and data. With increasingly intricate relations between international and domestic law, as well as practices and conventions, intellectual property and food interact in many different ways. This volume is a timely consideration and assessment of some of the more contentious and complex issues found in this relationship, such as genetic technology, public research and food security, socio-economic factors and the root cause of poverty and patent-busting. The contributions are from leading scholars in this emerging field and each chapter foregrounds some of the key developments in the area, exploring historical, doctrinal and theoretical issues in the field while at the same time developing new ideas and perspectives around intellectual property and food. The collection will be a useful resource in leading further discussion and debate about intellectual property law and food.
A variable climate, political instability, and other constraints have limited agricultural development in African countries south of the Sahara. Genetically modified (GM) crops are one tool for enhancing agricultural productivity and food security despite such constraints. Genetically Modified Crops in Africa: Economic and Policy Lessons from Countries South of the Sahara investigates how this tool might be effectively used by evaluating the benefits, costs, and risks for African countries of adopting GM crops. The authors gather together studies on GM crops’ economic effects and impact on trade, how consumers view such crops, and other issues. They find that GM crops have had, on average, a positive economic effect in the nations where they were used and identify future steps for enhancing GM crop adoption’s positive effects. Promising policy initiatives include making biosafety regulations that do not make GM crop development prohibitively expensive, fostering intraregional trade in GM crops, and providing more and better information about GM crops to consumers who might currently be skeptical of them. These and other findings in Genetically Modified Crops in Africa indicate ways biotechnology can contribute to economic development in Africa south of the Sahara.
The recent advances in the field of biotechnology have brought into focus several ethical and safety issues. The inventions in the field of genetic engineering and related fields of molecular biology will affect not only ourselves but the plants, microorganisms, animals and the entire environment and the way we practice agriculture, medicine and food processing. An increase in our ability to change life forms in recent years has given rise to the new science of bioethics . While anti-biotechnology activists are over rating the risks of biotechnology, it is time for the scientists to make a scientific and objective analysis of the social issues involved, and make it known to the public who will, otherwise, be carried away by the emotional rhetoric by the less informed but highly vocal section of the society. The present book discusses the biosafety and bioethical issues the modern society confronts. Topics such as biotech development, impact of biotechnology on biosafety, biotech products and ethical issues, governance of biosafety, environmentally responsible use of biotechnology, etc., are describe in detail. This book is destined to become an essential reading for students, teachers and professionals in all fields of life sciences.