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There are things that can be done and are done to life on earth (whether it be human, animal or plant life) which, even if they do not involve or produce any suffering, are still considered morally wrong by a large proportion of the public. Such things include changing the nature of living beings by means of genetic engineering in order to enhance their health, or, more likely with animals and plants, their utility, or impairing their ability to live autonomously, or unduly instrumentalizing them. Yet many scientists are puzzled about the unwillingness of the public to feel much enthusiasm about a technology that, in their view, promises great benefits to humans and does not seem to cause more harm to animals than other practices which most of us do not question at all. In this book Michael Hauskeller takes public fears seriously and offers the idea of 'biological integrity' as a clarifying principle which can then be analyzed to show that seemingly irrational public concerns about genetic engineering are not so irrational after all and that a philosophically sound justification of those concerns can indeed be given.
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Since the discovery of the structure of DNA and the birth of the genetic age, a powerful vocabulary has emerged to express science’s growing command over the matter of life. Armed with knowledge of the code that governs all living things, biology and biotechnology are poised to edit, even rewrite, the texts of life to correct nature’s mistakes. Yet, how far should the capacity to manipulate what life is at the molecular level authorize science to define what life is for? This book looks at flash points in law, politics, ethics, and culture to argue that science’s promises of perfectibility have gone too far. Science may have editorial control over the material elements of life, but it does not supersede the languages of sense-making that have helped define human values across millennia: the meanings of autonomy, integrity, and privacy; the bonds of kinship, family, and society; and the place of humans in nature.
Between 1973 and 2016, the ways to manipulate DNA to endow new characteristics in an organism (that is, biotechnology) have advanced, enabling the development of products that were not previously possible. What will the likely future products of biotechnology be over the next 5â€"10 years? What scientific capabilities, tools, and/or expertise may be needed by the regulatory agencies to ensure they make efficient and sound evaluations of the likely future products of biotechnology? Preparing for Future Products of Biotechnology analyzes the future landscape of biotechnology products and seeks to inform forthcoming policy making. This report identifies potential new risks and frameworks for risk assessment and areas in which the risks or lack of risks relating to the products of biotechnology are well understood.
Genetic-based animal biotechnology has produced new food and pharmaceutical products and promises many more advances to benefit humankind. These exciting prospects are accompanied by considerable unease, however, about matters such as safety and ethics. This book identifies science-based and policy-related concerns about animal biotechnologyâ€"key issues that must be resolved before the new breakthroughs can reach their potential. The book includes a short history of the field and provides understandable definitions of terms like cloning. Looking at technologies on the near horizon, the authors discuss what we know and what we fear about their effectsâ€"the inadvertent release of dangerous microorganisms, the safety of products derived from biotechnology, the impact of genetically engineered animals on their environment. In addition to these concerns, the book explores animal welfare concerns, and our societal and institutional capacity to manage and regulate the technology and its products. This accessible volume will be important to everyone interested in the implications of the use of animal biotechnology.
Biosafety deals with prevention of large scale loss of biological integrity focusing both on ecology and human health. It is related to several fields such as ecology, agriculture, medicine, chemistry and ecobiology. Bioethics is the philosophical study of the ethical controversies brought about by advances in biology and medicine. It is concerned with the ethical questions that arise in the relationships among life sciences, biotechnology, medicine, politics, law, philosophy and theology. It is concerned with the nature of life and death, the kind of life to be considered worth living, what constitutes murder, how people in very painful circumstances should be treated, what are the responsibilities of one human being to others, and other such living organisms. The book has been divided in 28 chapters. It is an integrated approach to encompassing information on different aspects of bioethics and biosafety and their applications in biotechnology. Simple, clearly understandable illustrations, correct and up to date information's are the main features of this book. The book is intended not only for undergraduate and postgraduate students of biotechnology, genomics and related sciences, but is also aimed to draw attention of policy makers and teachers at national and international levels to the possible approaches in the field of biotechnology. Key Features: Covers the topics in depth from basic and deals with the key subject areas. Takes a broader view of the earlier and current situation indifferent countries. Gives the uses and their ethical aspects of the different technological developments made in the biotechnology fields. Covers new developments in wider areas of biotechnology and its applications to mankind. Deals with aspects of the Bioethics and Biosafety protocols and their implements. Briefs the Indian Biodiversity Act.
In recent years much has happened to justify an examination of biological research in light of national security concerns. The destructive application of biotechnology research includes activities such as spreading common pathogens or transforming them into even more lethal forms. Policymakers and the scientific community at large must put forth a vigorous and immediate response to this challenge. This new book by the National Research Council recommends that the government expand existing regulations and rely on self-governance by scientists rather than adopt intrusive new policies. One key recommendation of the report is that the government should not attempt to regulate scientific publishing but should trust scientists and journals to screen their papers for security risks, a task some journals have already taken up. With biological information and tools widely distributed, regulating only U.S. researchers would have little effect. A new International Forum on Biosecurity should encourage the adoption of similar measures around the world. Seven types of risky studies would require approval by the Institutional Biosafety Committees that already oversee recombinant DNA research at some 400 U.S. institutions. These "experiments of concern" include making an infectious agent more lethal and rendering vaccines powerless.
This innovative book takes a new look at environmental ethics and the need for ecological and biological integrity. Laura Westra explores the necessity for radical alteration not only of interpersonal ethics, but also of social institutions and public policy. In the process, Westra denies the validity of majority rule in environmentally ethical concerns. Issues discussed in the book include the link between ecological integrity and human health; an environmental evaluation of business and technology; biotechnology and transgenics in agriculture and aquaculture; and the environmental ethics of the ancient Greeks and Kant. Living in Integrity is a valuable book for philosophers and environmentalists alike.
There are things that can be done and are done to life on earth (whether it be human, animal or plant life) which, even if they do not involve or produce any suffering, are still considered morally wrong by a large proportion of the public. Such things include changing the nature of living beings by means of genetic engineering in order to enhance their health, or, more likely with animals and plants, their utility, or impairing their ability to live autonomously, or unduly instrumentalizing them. Yet many scientists are puzzled about the unwillingness of the public to feel much enthusiasm about a technology that, in their view, promises great benefits to humans and does not seem to cause more harm to animals than other practices which most of us do not question at all. In this book Michael Hauskeller takes public fears seriously and offers the idea of 'biological integrity' as a clarifying principle which can then be analyzed to show that seemingly irrational public concerns about genetic engineering are not so irrational after all and that a philosophically sound justification of those concerns can indeed be given.
Johannes Klumpers Biotechnologies, such as genetic engineering, cloning and biodiversity, raise many legal and ethical concerns, so it is important that people understand these issues and feel able to express their opinions. This is why the European Commission has been, for a number of years, supporting actions to improve communication among scientists in these diverse areas. The project ‘Women in Biotechnology’ (WONBIT), financed under the 6th Framework programme of the European Commission, is an excellent example of what can be done to target opinion-formers such as scientists, economists and lawyers in bottom-up activities, and to encourage a debate on gender issues triggered by developments in the life sciences. WONBIT gave rise to a successful international conference highlighting the importance of adopting good practices and ethical considerations in parallel with the rapid pace of progress in biotechnology – from a woman’s point of view. In particular, the conference addressed women in decision-making positions in b- technology with specific reference to scientific excellence, social competencies and management qualities as well as issues relating to environment, society and the younger generation. But it did not stop there: a key part of the conference was dedicated to stimulating public debate among non-specialists, which has led to a number of recommen- tions to policy-makers on better communication in biotechnology, on taking better account of the gender aspects of research, and on involving more women in the decision-making process that surrounds developments in biotechnology.