In public debates over biotechnology, theologians, philosophers, and political theorists have proposed that biotechnology could have significant implications for human nature. They argue that ethical evaluations of biotechnologies that might affect human nature must take these implications into account. In this book, Gerald McKenny examines these important yet controversial arguments, which have in turn been criticized by many moral philosophers and professional bioethicists. He argues that Christian ethics is, in principle, committed to some version of the claim that human nature (...) has normative status in relation to biotechnology. Showing how both criticisms and defences of this claim have often been facile, he identifies, develops, and critically evaluates three versions of the claim, and contributes a fourth, distinctively Christian version to the debate. Focusing on Christian ethics in conversation with secular ethics, McKenny's book is the first thorough analysis of a controversial contemporary issue. (shrink)

Biotechnology increases commercialization of food production, which competes with food for home use. Most people in the world grow their own food, and are more secure without the mediation of the market. To the extent that biotechnology enhances market competitiveness, world food security will decrease. This instability will result in a greater gap between rich and poor, increasing poverty of women and children, less ability and incentive to protect the environment, and greater need for militarization to maintain order. Therefore, biotechnology (...) should be discouraged. An active program to protect and strengthen local food production and to decrease reliance on industrial agriculture should be promoted. (shrink)

In the face of criticisms about the current generationof agricultural biotechnology products, some proponents ofagricultural biotechnology offer a ``future benefitsargument''''(FBA), which is a utilitarian ethical argument thatattempts to justify continued R&D. This paper analyzes severallogical implications of the FBA. Among these are that acceptanceof the FBA implies (1) acceptance of a precautionary approach torisk, (2) the need for a more proportional and equitabledistribution of the benefits of agricultural biotechnology, andmost important, (3) the need to reorient and restructurebiotechnology R&D institutions (and (...) the agriculturalbiotechnology community''s values and attitudes) so that futurebenefits are indeed achieved through agricultural biotechnology. (shrink)

Fundamental differences between current and past knowledge in the field of biotechnology mean that we now have at our disposal the means to irreversibly change what is meant by ‘human nature’. This paper explores some of the ethical issues that accompany the attempt to increase scientific control over the human genetic code in what amounts to a diminishing of difference and the reduction of human life to scientific explanations at the expense of spiritual, cultural and communal considerations. Within such a (...) limited view, the critical role of education is reduced in favour of promoting psychological efficiency, with the possibility of accelerating learning and increasing intellectual capacity through genetic manipulation. A major concern expressed in the paper is the fine line between corrective therapy and psychological enhancement: Who should be defining the normal range of human difference? And what degree of caution should be required in redesigning future generations? The unknown dangers inherent in the application of genetic technology to human life suggests that current precautions may not go far enough in recognising that education is a contestable field. (shrink)

Biotechnology can provide appropriate new tools for use in solution of specific problems in sustainable agriculture. Its usefulness will depend in large part on the degree to which sustainable agriculturists understand the utility of biotechnology and apply it toward ends they deem important. Biotechnology can give little assistance to sustainable agriculture in the short term. It can be more useful in the medium term, and it could be highly useful in the long term as an integral part of the art (...) and science of plant breeding and other components of sustainable agriculture systems. (shrink)

Biotechnology surpasses even computer technology in predictions of its potential for revolutionary effects on humankind. It includes agribusiness and phar-maceuticals. The U.S. government began investing heavily in biotechnology research in the 1980s, and by 1987 had spent approximately $2.7 billion to support research and development, including $150 million for agricultural biotechnology. The approximately sixty U.S. biotechnology companies invested $3.2 billion in R and D in 1991 alone, with a total of more than $10 billion spent since the industry began in (...) the late 1970s. (shrink)

Nursing Sciences are at a moment of paradigmatic transition. The aim of this paper is to reflect on the new epistemological paradigms of nursing science from a critical approach. In this paper, we identified and analysed some new research lines and trends which anticipate the reorganization of nursing sciences and the paradigms emerging from nursing care: biotechnology‐centred knowledge; the interface between nursing knowledge and new information technologies; body care centred knowledge; the human body as a cyborg body; and the rediscovery (...) of an aesthetic knowledge in nursing care. (shrink)

This article explores whether and how the biotechnologization process that the fuel-plant Jatropha curcas is undergoing might strengthen local sustainable development. It focuses on the ongoing efforts of the multi-stakeholder network Gota Verde to harness Jatropha within local small-scale production systems in Yoro, Honduras. It also looks at the genomics research on Jatropha conducted by the Dutch research institute Plant Research International, specifically addressing the ways in which that research can assists local development in Honduras. A territorial approach is applied (...) for analysis employing a three domain concept (local sustainable biotechnological development) of territory, technology and re-territorialization. The article suggests that, although the biotechnologization process (through genomics) of Jatropha within the socio-technical framework of the institute and multi-stakeholder networks is an ongoing process––and different trajectories are, therefore, still open––the process can, nevertheless, strengthen local sustainable development. (shrink)

In public debate over agricultural biotechnology, at issue hasbeen its self-proclaimed aim of further industrializingagriculture. Using languages of ’risk‘, critics and proponentshave engaged in an implicit ethics debate on the direction oftechnoscientific development. Critics have challenged thebiotechnological R&D agenda for attributing socio-agronomicproblems to genetic deficiencies, while perpetuating the hazardsof intensive monoculture. They diagnosed ominous links betweentechnological dependency and tangible harm from biotechnologyproducts.In response to scientific and public concerns, theEuropean Community enacted precautionary legislation for theintentional release of genetically modified organisms (GMOs). (...) Inits implementation, choices for managing and investigatingbiotechnological risk involve an implicit environmental ethics.Yet the official policy language downplays the inherent valuejudgments, by portraying risk regulation as a matter of’objective‘ science.In parallel with safety regulation, thestate has devised an official bioethics that judges where to’draw the line‘ in applying biotechnological knowledge, as ifthe science itself were value-free. Bioethics may also judge howto ’balance‘ risks and benefits, as if their definition were notan issue. This form of ethics serves to compensate for theunacknowledged value-choices and institutional commitmentsalready embedded in R&D priorities.Thus the state separates’risk‘ and ’ethics‘, while assigning both realms to specialists.The risk/ethics boundary encourages public deference to theexpert assessments of both safety regulators and professionalethicists. Biotechnology embodies a contentious model of controlover nature and society, yet this issue becomes displaced andfragmented into various administrative controls. At stake arethe prospects for democratizing the problem-definitions thatguide R&D priorities. (shrink)

We find our way in the world partly by means of the discriminatory power of our emotions. The gut sense that something is repugnant or unsavory—the sort of feeling that many now have about various forms of biotechnology—sometimes turns out to be rooted in articulable and legitimate objections, which with time can be spelled out, weighed, and either endorsed or dismissed. But we ought not dismiss the emotional response at the outset as “mere feeling.”.

I argue in this paper that animal biotechnology constitutes a dangerous ontological collapse between animals and the technical-economic apparatus. By ontological collapse, I mean the elimination of fundamental ontological tensions between embodied subjects and the principles of scientific, technological, and economic rationalization. Biotechnology imposes this collapse in various ways: by genetically “reprogramming” animals to serve as uniform commodities, by abstracting them into data and code, and, in some cases, by literally manipulating their movements with computer technologies. These and other forms (...) of ontological violence not only lead to profound physical suffering for the animals involved, but also distort the phenomenological basis of their existence, especially their perceptual experience and expression of subjective time and space. In subordinating nonhuman animals to the logic of “technological rationality” or “technique,” to borrow Herbert Marcuse and Jacques Ellul’s respective terms, biotechnology perpetuates the productive extermination of animals. Biotech animals are exterminated in the sense of being “drive[n] beyond the boundaries” of meaningful existence and “destroyed completely” or “completely wiped out” as subjects. But they are also exterminated in the sense of being “overproduced” and “overgenerated,” both quantitatively and qualitatively. I go on to argue that the collapse of the ontological is accompanied by a collapse of the ethical. This ethical collapse is characterized by the internalization of the logic of technique and the corresponding failure both within technoscientific culture itself and within some scholarly discourses about biotechnology to evaluate from a genuinely critical vantage point the fundamental ethical issues that animal biotechnology raises. The aim of this paper is to offer an alternative analysis of the ontological and ethical implications of biotechnology from the standpoint of Marcuse and Ellul’s critical theory of technology. To explore other ramifications of animal biotechnology, I draw on Theodor Adorno and Max Horkheimer’s insights into ideologies of extermination and Maurice Merleau-Ponty’s phenomenology of embodiment. (shrink)

Agricultural biotechnology has long been criticized from an environmental justice perspective. However, an analysis, using golden rice as a case study, shows that golden rice is not susceptible to the main criticisms that are appropriate when directed at most products of agricultural biotechnology, and that golden rice has important humanitarian potential. For these reasons, an environmental justice evaluation of golden rice may need to be more nuanced and complex than a more traditional environmental ethics can provide. Study of the complexity (...) of this issue may pay off in a more effective environmentalism on its own terms. (shrink)

Latin American countries have an extensive biological diversity and a tropical or subtropical climate. This condition has advantages for development and for the implementation of biotechnological solutions for environmental problems. Environmental biotechnology could be used to enhance biodegradation, waste recovery, and also for the development of biotechnology-based products to diagnose and reduce environmental impacts such as biosensors, biopesticides, biofertilizers and biofuels. To generate new environmental biotechnological products, Latin American countries must not only overcome the known limitations associated with investment in (...) science and technology and in human resource training, but also develop their own vision of using environmental biotechnology, adapted to the economic, and environmental context. Biotechnology used wisely as a tool for promoting sustainable development in Latin American countries may also contribute to the solution of problems that represent potential risks to society and the environment in general. This document discusses the context of the research and innovation in Latin American countries around environmental biotechnology and also reviews perspectives for the improvement of these developments. (shrink)

This chapter contains sections titled: Decision‐making about New Technologies Case Studies for Biotechnology Guidance from the Public References and Further Reading.

Does human nature possess normative significance? If so, what is it and what implications does it have for biotechnology? This essay critically examines three answers to these questions. One answer focuses on human nature as the ground of natural goods or goods dependent on human nature, another answer finds normative significance in the indeterminacy or malleability of human nature, and a third answer treats human nature as a natural sign of divine grace. Kathryn Tanner, who offers the second answer, and (...) Karl Barth, who offers the third, deny that nature has normative status in itself, apart from grace, but differ over the relation of grace to human nature as created. While indebted to Tanner, this essay favors Barth’s view as best suited to a Christian ethics of biotechnology. (shrink)

This chapter contains sections titled: Intrinsic Value Environmental and Health Risks Human Hunger and Benefit‐sharing References and Further Reading.

Using Canada as a case study, this article argues that regulating biotechnology and nanotechnology is made unnecessarily complex and inherently unstable because of a failure to consult the public early and of-ten enough. Furthermore, it is argued that future regulators (and promoters) of nanotechnology may learn valuable lessons from the mistakes made in regulating biotechnology.

New biotechnologies have the potential to both dramatically improve human well-being and dramatically widen inequalities in well-being. This paper addresses a question that lies squarely on the fault line of these two claims: When as a matter of justice are societies obligated to include a new biotechnology in a national healthcare system? This question is approached from the standpoint of a twin aim theory of justice, in which social structures, including nation-states, have double-barreled theoretical objectives with regard to human well-being. (...) The first aim is to achieve a sufficient level of well-being in each of six core dimensions. In the special case of healthcare systems, this aim is focally but not exclusively attentive to achieving health sufficiency as one of the core dimensions. The second aim is to combat the emergence and persistence of densely woven patterns of systematic disadvantage that tend to undermine the achievement of a sufficient level of health and the other core elements of well-being of some persons and groups. Judgments about entitlements to health related resources, including new biotechnologies, are made in light of a threshold notion of health sufficiency. What is enough or sufficient health? The answer that is defended here is that sufficient health is enough health for a decent human life, understood as enough health to live a full life course without preventable, significant functional disability or decrement in health, or treatable pain or suffering. When a state must include a new biotechnology in its national healthcare system is also influenced by ancillary concerns about the connection between health and other core dimensions of well-being. What counts as a significant functional impairment or health decrement is thus explicated, in part, in relation to the theory’s sufficiency aim for the other essential dimensions of well-being, and thus for a decent life, overall. Those elements of health that play a critical role in the experience of sufficient reasoning, affiliation, security, respect and self determination are especially important; any loss of health function or capacity that threatens the individual’s prospects for sufficiency in these other dimensions, including the relational egalitiarian concerns they entail, constitutes a significant functional impairment. Within national borders, individuals are thus entitled to those health-related goods and services that are essential for a sufficiency of each of the dimensions of well-being; with regard to self determination and respect, what is sufficient by way of guaranteed access to specific goods and services is going to depend on the implications of such access for where an individual stands in relation to her co-nationals. The content of any entitlement to health-related goods and services is also necessarily dynamic. What can be done for health and the other core dimensions of well-being as a function of technological innovation and diffusion is in constant flux. The paper concludes by considering the implications of this analysis for the conditions under which states are obligated to include access in their healthcare systems to one biotechnology, deep brain stimulation. (shrink)

Biotechnology is one of the fastest-growing areas of scientific, technical and industrial innovation and one of the most controversial. As developments have occurred such as genetic test therapies and the breeding of genetically modified food crops, so the public debates have become more heated and grave concerns have been expressed about access to genetic information, labelling of genetically modified foods and human and animal cloning. Across Europe, public opinion has become a crucial factor in the ability of governments and biotech (...) industries to exploit the new technology. This 2002 book presents the results of a unique cross-national and cross-disciplinary study of the relationship between the development of new biotechnology and public perception, media coverage and policy formulation. It outlines a conceptual framework for understanding these issues and contains a number of empirical studies including studies of the international controversies surrounding the cloning of Dolly the sheep and GM Soya. (shrink)

In recent years, the image of biotechnology has been transformed from one of danger and uncertainty to one of opportunity and familiarity. This article explores the process of issue definition by examining the efforts of private interests and public officials. An analysis of interview data, public documents, and other sources reveals four methods of issue definition: establishing the "biotechnology industry" as a collective voice, forging alliances with established public and private interests, associating biotechnology with popular issues on the policy agenda, (...) and discrediting opponents and critics of biotechnology. These methods of issue definition reveal the importance not only of defining a specific issue but also of influencing the context in which it is considered. (shrink)

As products of the "new biotechnology," genetically modified organisms have provoked a wide-ranging risk debate on potential harm, especially from herbicide-tolerant crops. In response to this legitimacy problem, the European Community adopted precautionary legislation, which left open the definition of environmental harm. When the U.K. proposed Europe-wide market approval of a herbicide-tolerant oilseed rape, the proposal encountered dissent from some countries and environmentalist groups. Further debate on normative judgments became necessary to implement the precaution ary legislation. In dispute were several (...) regulatory boundaries—of administrative re sponsibility, causality, acceptability, and evidence. The boundary disputes expressed divergentframings of biotechnological risk, each with its implicit model of the socionatu ral order. In this way, the disputes can illuminate the sorts of risk framings that have already become embedded and standardized in other regulatory sectors. (shrink)

The “new” agricultural biotechnologies are presently high-priority items on the national research agenda. The promise of increased efficiency and productivity resulting from products and processes derived from biotech is thought to justify the commitment to R&D. Nevertheless, critics challenge the environmental safety as well as political-economic consequences of particular products of biotech, notably, ice-nucleating bacteria and the bovine growth hormone. In this paper the critics' arguments are analyzed in explicitly ethical terms, and assessed as to their relative merits. In some (...) cases, a principle of “do no foreseeable harm” as well as a clear determination of likely harms would force us to conclude that research, development, and diffusion of a product or process derived from biotechnology is ethically wrong. In all cases, one conclusion that can be reached is that everyone involved in research, development, marketing and adoption of biotech products is responsible for the results of their actions; thus, each individual has a responsibility to consider a broader range of values and goals that effect and are effected by the biotechnology effort. (shrink)

In his book The Biotech Century Jeremy Rifkin makes arguments about the dangers of market-driven genetic biotechnology in medical and agricultural contexts. Believing that Darwinism is too compromised by a competitive ethic to resist capitalist depredations of the genetic commons, and perhaps hoping to pick up anti-Darwinian allies, he turns for support to unorthodox non-Darwinian views of evolution. The Darwinian tradition, more closely examined, contains resources that might better serve his argument. The robust tradition associated with Theodosius Dobzhansky, Ernst Mayr, (...) and others provides an alternative, scientifically sound basis for challenging the rhetoric of genetic reductionism. (shrink)

In public debates, agricultural biotechnology is almost invariably discussed as a potential threat to the environment and to human health. Without downplaying the risks associated with this technology we emphasize that if properly regulated, it can be a forceful tool to solve environmental problems and promote human health. Agricultural biotechnology can reduce environmental problems in at least three ways: it can diminish the need for environmentally damaging agricultural practices such as pesticides, fertilizers, tillage, and irrigation. It can reduce the land (...) area needed for agriculture, thus reducing the CO2 effect of agriculture and improving biodiversity. It can produce energy in a CO2-neutral way (especially if new technologies involving the cultivation of microalgae become successful). Furthermore, agricultural biotechnology can have positive effects on human health by decreasing occupational and dietary exposure to pesticides, improving the nutritional value of food, and producing pharmaceuticals more efficiently. We argue that those who wish to give high priority to environmental goals cannot afford any longer to be mere onlookers while others decide the future directions of agricultural biotechnology. (shrink)

The therapy/enhancement distinction is a controversial one in the philosophy of medicine, yet the idea of enhancement is rarely if ever questioned as a proper goal of sports medicine. This opens up latitude to those who may seek to use elite sport as a vehicle of legitimation for their nature-transcending ideology. Given recent claims by transhumanists to develop our human nature and powers with the aid of biotechnology, I sketch out two interpretations of the myth of Prometheus, in Hesiod and (...) Aeschylus, which can help frame the moral limits of sports medicine. By way of conclusion I assemble some banal reminders: We are mortal beings; our vulnerability to disease, injury and the waning of our powers, far from something we can overcome or eliminate, represent natural limits both for morality and medicine generally and sports medicine in particular. (shrink)

For a quarter of a century, the Council for Responsible Genetics has provided a unique historical lens into the modern history, science, ethics, and politics of genetic technologies. Since 1983 the Council has had leading scientists, activists, science writers, and public health advocates researching and reporting on a broad spectrum of issues, including genetically engineered foods, biological weapons, genetic privacy and discrimination, reproductive technologies, and human cloning. Biotechnology in Our Lives examines how these issues affect us daily whether we realize (...) it or not. Written for the nonscientist, it looks at the many applications of genetics on the world around us by posing questions such as: What should we know about genetics and childbirth? Can our genes keep us from qualifying for health insurance? Can gene therapy cure cancer? Is behavior genetically determined? Why would the FBI want our genes? Are foreign genes in our food? And much more Ultimately, this definitive book on the subject also encourages us to think about the social, environmental, and moral ramifications of where this technology is taking us. (shrink)

Humanity is at crossroads of evolution. Modernity has established its omnipresence through science and technology. The impact is so significant that now it has penetrated our genetic structure through biotechnological creations. This brings into question the very foundation of the ideological life on which the edifice of the social structure is built. These new modalities raise unprecedented issues, such as: what is our understanding of life in relation to biotechnological creations, where is the original biological life positioned in such circumstances, (...) why is life in a “state of indistinction” (as identified by Giorgio Agamben in the homo sacer), and is it a compromise at “being human”? (shrink)

Both consumers and producers of biotechnology products have insisted that communication between the two be improved. The former demand more democratic participation in the risk assessment process of biotechnology products. The latter seek to correct misinformation regarding alleged risks from these products. One way to resolve these concerns, I argue, is through the use of biotechnology labels. Such labeling fosters consumer autonomy and moves toward more participatory decisionmaking, in addition to ensuring that informed consent from consumers is maintained. Furthermore, although (...) voluntary biotech-free labeling in lieu of biotechlabels may uphold consumer sovereignty, the latter remains a more effective strategy for achieving ethical communication between consumers and producers of biotechnology products. (shrink)

In this article, the authors review some contemporary cases where biotechnologies have been employed, where they have had global implications, and where there has been considerable debate. The authors argue that the concept of dignity, which lies at the center of such documents as the 2005 Universal Declaration on Bioethics and Human Rights, the International Declaration on Human Genetic Data (2003) and the Universal Declaration on the Human Genome and Human Rights (1997) is useful, if not necessary, in engaging in (...) decision making in relation to the moral evaluation of biotechnologies on a global scale. (shrink)

Rights can be founded in a variety of ethical systems—e.g., on natural law, on the duties postulated by deontological ethics, and on the consequences of our actions. The concept of risk we will outline supports a theory of rights which provides at least individual human beings with the entitlement not to be harmed by the environmental impacts of biotechnology. The analysis can, we believe, also be extended to the rights of animals as well as ecosystems, both of which can be (...) harmed by human actions. We argue that further examination of these harms and rights would be the best way to proceed from emotional moral objections to truly ethical analyses in the context of biotechnology and the environment. (shrink)

Biotechnology is the use of living systems and organisms to develop or make products, or any technological application that uses biological systems, living organisms or derivatives to make or modify products or processes for specific use. Biotechnology is a constantly evolving field of modern science. New tools and products developed by biotechnologists are useful in research, agriculture, industry and healthcare. Although it has many benefits including lowering our environmental footprint, and helping in diagnosis and treatment of diseases, it comes with (...) its all-possible disadvantages. The four main societal concerns revolve around are ethical, safety, bioterrorism and environmental issues. This paper aims to describe those societal concerns raised by applications of biotechnology and possible regulations related to biotech innovations and policy implementation. (shrink)

Although there is some consonance in the language of transcendence between proponents of the Catholic faith and of human biotechnological enhancement (HBE), their goals are incommensurate. Nevertheless, consistent with the valuation of the body as integral to the human person, Catholic culture has in fact proven to be a fruitful context for developing external therapeutic HBEs. Catholic perspectives on internal HBEs, especially in the context of ‘transhumanism’, are, by contrast, neither clear-cut nor easy to establish. A prerequisite for progress is (...) to understand what is meant by flourishing in a Catholic worldview, the root metaphor of which is second-person relatedness to God, culminating in divine friendship. Hence important measures of success of internal HBEs will include sustaining, or at least not impeding, thoughtful attention and the capacity to receive experiences that can sanctify the mind. (shrink)

Whether “biomimetic” or “bioinspired,” the projects of bioengineering tend to refer their devices or inventions to the biological systems that provide models or originals for detachable functionalities. And yet, they do not satisfy the picturing relation of original and copy. They are mimetic or imitative in the sense of reenacting a function in a different setting with its own principles of composition or its own parameters that select for salience. The taking up of salient features for the purposes of producing (...) a performance of functionality results not in the copy of an original but in its parody. Parodies are not judged for their veracity but for their effectiveness. They have a heuristic value in the context of design and for knowing the world through making and building. In somewhat experimental fashion, this paper seeks to develop a vocabulary for the parodistic qualities of Synthetic Biology, genome editing, or other bioengineering practices. In order to do so, it introduces categories from aesthetics to qualify modeling relations, one of these categories being the notion of “parody” itself. (shrink)

The biotechnology industry's intellectual property claims contribute to a subtle but not insignificant encroachment of commodification within health care. Drawing on the conceptual framework of Margaret Jane Radin, I argue that patent claims on human biological materials may commodify that with which our personhood and individuality is intertwined but that such commodification is broad and incomplete. Patents on nonhuman biological organisms contribute to a more materialistic understanding of them but do not significantly change our relationship to them. The systemic effects (...) of biotechnology's commodification within health care are various and may compromise the goal of good health. The morally problematic aspects of patent claims entail certain obligations to inhibit commodification from becoming more egregious, but on balance, those aspects are currently insufficient to justify denying the benefits the patent system promotes. (shrink)

The modern man lives in a more and more technologized world. This fact is obvious at every step of our life and, in the last decades, it went beyond any expectation. By using science and technology to procreate, prolong and sustain life, the man risks being dehumanized. Bioethics raises many questions that are waiting for an answer, and this answer is given by each person, according to his own values. One of the major challenges in the field of bioethics is (...) human procreation, as the ethical boundaries run the risk of being crossed without a proper judgment. The Christian faith offers landmarks, so that the contemporary man may rediscover in it genuine support for his moral decisions in the realm of biotechnology. (shrink)

What happens in the world’s most advanced life sciences laboratories, why those activities are important, and whether and how they can be brought under a uniform governance framework might be considered exquisitely esoteric matters in the context of the great geopolitical questions of our time. Nonetheless, the emerging issues in biotechnology—the use of living organisms to create new products and especially in the control of the human genome—represent a useful stress test for the future of the norms inherent in the (...) liberal international order (LIO). My case study will be the nearly universal public outrage following the announcement by a Chinese scientist that he had engaged in the first gene editing of several embryos that survived to birth, an episode that has created an opportunity to assess the global consensus about the ethics of biotechnology with regard to human DNA. Although not as explicit or well understood or enforced as weapons treaties, trade arrangements, or monetary institutions, the norms around biotechnology are very much a product of the post-World War II liberal consensus. (shrink)

As we move into a new millennium fraught with terror and danger, a global postmodern cosmopolis is unfolding in the midst of rapid evolutionary and social changes co-constructed by science, technology, and the restructuring of global capital. We are quickly morphing into a new biological and social existence that is ever-more mediated and shaped by computers, mass media, and biotechnology, all driven by the logic of capital and a powerful emergent technoscience. In this global context, science is no longer merely (...) an interpretation of the natural and social worlds, rather it has become an active force in changing them and the very nature of life. In an era where life can be created and redesigned in a petri dish, and genetic codes can be edited like a digital text, the distinction between “natural” and “artificial” has become greatly complexified. The new techniques of manipulation call into question existing definitions of life and death, demand a rethinking of fundamental notions of ethics and moral value, and pose unique challenges for democracy. (shrink)

Bryan Norton proposes a "convergence hypothesis'* stating that anthropocentrists and nonanthropocentrists can arrive at common environmental policy goals if certain constraints are applied. Within his theory he does not, however, address the consideration ofnonconsequentualist issues, and, therefore, does not provide an argument for the convergence between consequentualist and nonconsequentualist ethical positions. In the case of biotechnology, nonconsequentualist issues can dominate the debate in both the fields of environmental ethics and bioethics. I argue that, the convergence hypothesis must be rejected when (...) tested against the case of biotechnology, and this limitation of convergence applies to any theory of reconciliation within the "health" concept because the achievement and preservation of "health "emphasizes a consequentualist outlook. I conclude that an inclusive ethics for ecosystem and human health should be explicit about this limitation. (shrink)

This article deals with a critical examination of the philosophical underpinnings in regard to the development of technology in general, and biotechnology in particular. The text also focuses on the political and economic spectrum reflecting the socio-political consequences of the biotech revolution, and in that context also looks into the connections between the organization of biopolitics and biopower, and circumstances relative to the arts, sciences and social struggles, presenting biotech culture through a wide array of experiences and influences. This text (...) looks at how biotechnology is used for biopolitical purposes, in the sense of a political spectrum that reflects positions towards the social, economic and cultural consequences of the biotech revolution. (shrink)

Cet ouvrage présente les fondements philosophiques et scientifiques du développement actuel des biotechnologies. Ce développement se fonde, philosophiquement, sur l'idée de la réalisation du possible largement commentée dans la tradition philosophique. Il est montré en outre comment le bricolage biotechnologique résulte de propriétés nouvellement reconnues de l'évolution biologique elle-même, qui procède selon le principe du bricolage moléculaire exposé par François Jacob. L'intimité des relations entre biotechnologie et évolution biologique, qui reste mal comprise en général, est ici détaillée à un niveau (...) fondamental, celui de la biologique moléculaire des trente dernières années et des techniques comme l'ADN recombinant et plus récemment l'évolution dirigée et les diverses formes de clonage. Les questions d'éthique et de politique scientifique liées aux biotechnologies sont également examinées. Les réflexions sur le thème biologie et société et la responsabilité scientifique exprimées depuis une trentaine d'années sont présentées en même temps que les divers cadres et actions politiques et institutionnels des biotechnologies. L'ouvrage, qui insiste sur l'extraordinaire malléabilité des structures biologiques, est aussi bien un plaidoyer pour l'exploration maîtrisée des possibles qu'un argumentaire pour une anthropologie philosophique de l'action humaine. (shrink)

This article reflects upon the notion of biopower deriving from Paul Rabinow’s work French DNA. This book undertakes an analysis of the relations between biotechnologies analysis of the relation between biotechnologies and bioethics in France informed by Foucault’s concept of biopower. We can retain two theses from this account: biotechnologies pluralise biopower and take it to the limit towards beings situated at the limits of life; bioethics fails to constitute a biopolitics because it is a discourse of sacralisation and not (...) one of resistance. Beyond these two theses, we must apply the concept of biopower to recent transformations in the sciences of life. (shrink)

The ʻōhiʻa lehua is an ecologically and culturally important Hawaiian tree. It is currently threatened by two exotic fungal pathogens. One potential way to save the tree may be to genetically modify it. In this paper I consider two different metaphysical perspectives on ʻōhiʻa lehua – western conservation and Indigenous Hawaiian conservation. I will argue that a possible intervention using plant biotechnology appears value-supporting from each perspective. Hence, it is a morally permissible strategy to pursue. Finally, I argue that given (...) the importance of the tree, multiple strategies ought to be pursued. (shrink)

I argue for the universality of morality as against and in spite of the plurality and inevitable relativity of human cultures. Univer.

Although the neoconservative movement has come to dominate American conservatism, this movement has its origins in the old Marxist Left. Communists in their younger days, as the founders of neoconservatism, inverted Marxist doctrine by arguing that moral values and not economic forces were the primary movers of history. Yet the neoconservative critique of biotechnology still borrows heavily from Karl Marx and owes more to the German philosopher Martin Heidegger than to the Scottish philosopher and political economist Adam Smith. Loath to (...) identify these sources - or perhaps unaware of them - neoconservatives do not acknowledge these intellectual underpinnings or their implications. Thus, in the final analysis, their critique is incoherent and even internally inconsistent. By not acknowledging and embracing their intellectual roots, neoconservatives are left with a deeply ambivalent and often confused view of biotechnology and the society that gives rise to it. (shrink)

IntroductionNowadays, biotechnology has a significant influence on different aspects of human life. The applications of biotechnology are so broad, and the advantages so compelling, that virtually every industry is using this technology. Developments are under way in areas as diverse as pharmaceuticals, diagnostics, textiles, aquaculture, forestry, chemicals, household products, environmental cleanup, food processing, and forensics, to name a few. Biotechnology is enabling these industries to make new or better products, often with greater speed, efficiency, and flexibility. Biotechnology is any technological (...) application that uses biological systems, living organisms, or derivatives thereof to make or modify products or processes for specific use. It applies the knowledge of biology to enhance and improve the environment, health, and food supply. Using biotechnology, scientists work to develop environment-friendly alternatives to fossil fuels and plastics; new medicines, vaccines, and. (shrink)

Third World countries should exploit the genetic information stored in their flora and fauna to develop independent and highly competitive biotechnological and pharmaceutical industries. The necessary condition for this policy to succeed is the reshaping of their universities and hospitals—to turn them into high-caliber research institutions dedicated to the creation of original knowledge and biomedical invention. Part of the service of the Third World foreign debt should be co-invested with the lending banks in high technology enterprises. This should be complemented (...) with an active program of investments in First World biotech companies and university research departments which could contribute to the solving of problems connected with the First World. These strategic alliances would allow effective training of molecular biologists, improvement of South American universities, and education of biotechnologists, managers, and lawyers in the complexities of high-technology business. The establishment of real joint ventures between developed and underdeveloped countries might contribute to change the present strained relations between the North and the South, and science and technology could become real forces of social and economic development. (shrink)

Accession Number: ATLA0001713218; Hosting Book Page Citation: p 929-944.; Language(s): English; General Note: Bibliography: p 943-944.; Issued by ATLA: 20130825; Publication Type: Essay.

It is a commonplace in the scientific and corporate discourse advocating biotechnology that the public is largely uneducated or scientifically illiterate when it comes to understanding the research methods and goals of biotechnology. Public dissent from biotechnology is, in this understanding, based exclusively in irrational fears. The way to dispel these public fears is for scientists in the research community and among corporate culture to engage in education of the public. At one level, it is argued that public educational forums (...) will provide the information the public needs to make an informed choice about the scientific, ethical, and social implications of biotechnology or will provide guidance on such practical questions as whether to consume genetically modified food. However, the educational agenda is not quite that innocent of normative intent: rather, the assumption is that information the public is provided about biotechnology will persuade them of its benefits, its minimal risks, and its ultimate prospects for reshaping our world for the good of all. Objections to biotechnology will then largely dissipate, perhaps voiced occasionally by extremists who will represent the inevitable Luddite resistance to all things technological. (shrink)