Invaluable book for anyone seeking to use intellectual property strategically and put intellectual property to work. When effectively and ethically managed, intellectual property can accelerate the development of lifesaving, poverty-alleviating innovations and provide access to them.
This unique and comprehensive collection investigates the challenges posed to intellectual property by recent paradigm shifts in biology. It explores the legal ramifications of emerging technologies, such as genomics, synthetic biology, stem cell research, nanotechnology, and biodiscovery. Extensive contributions examine recent controversial court decisions in patent law such as Bilski v. Kappos, and the litigation over Myriad's patents in respect of BRCA1 and BRCA2 while other papers explore sui generis fields, such as access to genetic resources, plant breeders' rights, and traditional knowledge. The collection considers the potential and the risks of the new biology for global challenges such as access to health-care, the protection of the environment and biodiversity, climate change, and food security. It also considers Big Science projects such as biobanks, the 1000 Genomes Project, and the Doomsday Vault. The inter-disciplinary research brings together the work of scholars from Australia, Canada, Europe, the UK and the US and involves not only legal analysis of case law and policy developments, but also historical, comparative, sociological, and ethical methodologies. Intellectual Property and Emerging Technologies will appeal to policy-makers, legal practitioners, business managers, inventors, scientists and researchers.
Managing the ability of agriculture to meet rising global demand and to respond to the changes and opportunities will require good policy, sustained investments, and innovation - not business as usual. Investments in public Research and Development, extension, education, and their links with one another have elicited high returns and pro-poor growth, but these investments alone will not elicit innovation at the pace or on the scale required by the intensifying and proliferating challenges confronting agriculture. Experience indicates that aside from a strong capacity in Research and Development, the ability to innovate is often related to collective action, coordination, the exchange of knowledge among diverse actors, the incentives and resources available to form partnerships and develop businesses, and conditions that make it possible for farmers or entrepreneurs to use the innovations. While consensus is developing about what is meant by 'innovation' and 'innovation system', no detailed blueprint exists for making agricultural innovation happen at a given time, in a given place, for a given result. The AIS approach that looks at these multiple conditions and relationships that promote innovation in agriculture, has however moved from a concept to a sub-discipline with principles of analysis and action. AIS investments must be specific to the context, responding to the stage of development in a particular country and agricultural sector, especially the AIS. This sourcebook contributes to identifying, designing, and implementing the investments, approaches, and complementary interventions that appear most likely to strengthen AIS and to promote agricultural innovation and equitable growth. It emphasizes the lessons learned, benefits and impacts, implementation issues, and prospects for replicating or expanding successful practices. The information in this sourcebook derives from approaches that have been tested at different scales in different contexts. It reflects the experiences and evolving understanding of numerous individuals and organizations concerned with agricultural innovation, including the World Bank. This information is targeted to the key operational staff in international and regional development agencies and national governments who design and implement lending projects and to the practitioners who design thematic programs and technical assistance packages. The sourcebook can also be an important resource for the research community and nongovernmental organizations (NGOs).
Providing a panoramic overview of the field, this Handbook examines the intellectual property (IP) rights that protect artistic and inventive works, demonstrating that innovation and creativity require appropriate practical institutions alongside imagination and inspiration. Advancing key debates in the field, it identifies important reforms and mechanisms to improve IP systems for both the creators and users of protected works.
'The instability of the global food supply system requires our urgent attention. There are no easy solutions but the starting point must entail a critical analysis of the existing institutions governing the ownership and exchange of the plant genetic resources that underpin our long-term food security. Dr Chiarolla's book makes a valuable contribution to the debate.' – Graham Dutfield, University of Leeds, UK 'This book captures some of the key issues underlying the ever-lasting food crises both at national and global levels. It demonstrates how global policies impact national and local actions while food insecurity seems to be a constant companion to many, in spite of decades of our work on securing food as a fundamental right for the poor.' – Balakrishna Pisupati, United Nations Environment Programme, Kenya 'This thoughtful book raises important issues about ownership of agricultural resources, the environment and food security. Claudio Chiarolla has written an important book that challenges traditional notions of plant genetic resources and agricultural research. The author's detailed and thorough approach ensures that the book will make a valuable contribution to the debate about sustainable agricultural development and it is highly recommended to anyone interested in intellectual property rights and sustainable agriculture.' – Duncan Matthews, Queen Mary, University of London, UK This well-researched book focuses on international governance of crop diversity and agricultural innovation. It highlights the implications that the future control of food, including access to agricultural resources and technologies, might have for global food security. Claudio Chiarolla analyses developmental implications of global regulatory reforms that impact on access to agricultural knowledge, science and technology for sustainable development. Current global arrangements fall short of halving the proportion of people who suffer from hunger in accordance with the Millennium Development Goals' framework. Therefore, the book proposes ways to achieve international equity in the way agricultural research is conducted, how its results are disseminated and the benefits shared. This definitive study will be appreciated by anyone interested in intellectual property, agricultural innovation, environmental policy, biotechnology and associated regulatory challenges. It will be a valuable resource for policymakers and practitioners, legislators, academic professionals, civil society activists and scholars in legal, environment and development studies.
This book examines the social impact of intellectual property laws. It addresses issues and trends relating to health, food security, education, new technologies, preservation of bio-cultural heritage and contemporary challenges in promoting the arts. It explores how intellectual property frameworks could be better calibrated to meet socio-economic needs in countries at different stages of development, with local contexts and culture in mind. A resource for policy-makers, stakeholders, non-profits and students, this volume furthermore highlights alternative modes of innovation that are emerging to address such diverse challenges as neglected or resurgent diseases in developing countries and the harnessing of creative possibilities on the Internet. The collected essays emphasize not only fair access by individuals and communities to intellectual property – protected material, whether a cure, a crop variety, clean technology, a textbook or a tune – but also the enhancement of their own capabilities in cultural participation and innovation.
This book presents the history of, and current approaches to, farmer-breeder collaboration in plant breeding, situating this work in the context of sustainable food systems, as well as national and international policy and law regimes. Plant breeding is essential to food production, climate-change adaptation and sustainable development. This book brings together experienced practitioners and researchers involved in collaborative breeding programmes across a diversity of crops and agro-ecologies around the world. Case studies include collaborative sorghum and pearl millet breeding for water-stressed environments in West Africa, participatory rice breeding for intensive rice farming in the Mekong Delta, and evolutionary participatory quinoa breeding for organic agriculture in North America. While outlining the challenges, the volume also highlights the positive impacts, such as yield increases, farmers’ empowerment in the innovation and development processes, contributions to maintenance of crop genetic diversity and adaptation to climate change. This collection offers a range of perspectives on enabling conditions for farmer–breeder collaboration in plant breeding in relation to biodiversity agreements such as the Plant Treaty, trade agreements and related intellectual property rights (IPR) regimes, and national seed policies and laws. Relevant to a wide audience, including practitioners with experience in plant breeding and management of crop genetic resources and those with a broader interest in agriculture and development, as well as students of international cooperation and development, this volume is a timely addition to the literature.
The definitive reference guide to designing scientifically sound and ethically robust medical research, considering legal, ethical and practical issues.
Plant Transformation Technologies is a comprehensive, authoritative book focusing on cutting-edge plant biotechnologies, offering in-depth, forward-looking information on methods for controlled and accurate genetic engineering. In response to ever-increasing pressure for precise and efficient integration of transgenes in plants, many new technologies have been developed. With complete coverage of these technologies, Plant Transformation Technologies provides valuable insight on current and future plant transformation technologies. With twenty-five chapters written by international experts on transformation technologies, the book includes new information on Agrobacterium, targeting transgenes into plant genomes, and new vectors and market systems. Including both review chapters and protocols for transformation, Plant Transformation Technologies is vitally important to graduate students, postdoctoral students, and university and industry researchers.