This volume explores the intersection between early modern philosophy and the life sciences by presenting the contributions of important but often neglected figures such as Cudworth, Grew, Glisson, Hieronymus Fabricius, Stahl, Gallego, Hartsoeker, and More, as well as familiar figures such as Descartes, Spinoza, Leibniz, Malebranche, and Kant.

This article critically engages with the influential theory of ‘‘molecularized biopower’’ and ‘‘politics of life’’ developed by Paul Rabinow and Nikolas Rose. Molecularization is assumed to signal the end of population-centred biopolitics and the disciplining of subjects as described by Foucault, and the rise of new forms of biosociality and biological citizenship. Drawing on empirical work in Science and Technology Studies, we argue that this account is limited by a focus on novelty and assumptions about the transformative power of (...) the genetic life sciences. We suggest that biopower consists of a more complex cluster of relationships between the molecular and the population. The biological existence of different human beings is politicized through different complementary and competing discourses around medical therapies, choices at the beginning and end of life, public health, environment, migration and border controls, implying a multiple rather than a singular politics of life. (shrink)

Field Life examines the practice of science in the field in the Great Plains and Rocky Mountains of the American West between the 1860s and the 1910s, when the railroad was the dominant form of long-distance transportation. Grounded in approaches from environmental history and the history of technology, it emphasizes the material basis of scientific fieldwork, joining together the human labor that produced knowledge with the natural world in which those practices were embedded. Four distinct modes of field practice, (...) which were shared by different field science disciplines, proliferated during this period—surveys, lay networks, quarries, and stations—and this book explores the dynamics that underpinned each of them. Using two diverse case studies to animate each mode of practice, as well as the making of the field as a place for science, Field Life combines textured analysis of specific examples of field science on the ground with wider discussion of the commonalities in the practices of a diverse array of field sciences, including the earth and physical sciences, the life and agricultural sciences, and the human sciences. By situating science in its regional environmental context, Field Life analyzes the intersection between the cosmopolitan knowledge of science and the experiential knowledge of people living in the field. Examples of field science in the Plains and Rockies range widely: geological surveys and weather observing networks, quarries to uncover dinosaur fossils and archaeological remains, and branch agricultural experiment stations and mountain biological field stations. (shrink)

Investigators of animal behavior since the eighteenth century have sought to make their work integral to the enterprises of natural history and/or the life sciences. In their efforts to do so, they have frequently based their claims of authority on the advantages offered by the special places where they have conducted their research. The zoo, the laboratory, and the field have been major settings for animal behavior studies. The issue of the relative advantages of these different sites has been (...) a persistent one in the history of animal behavior studies up to and including the work of the ethologists of the twentieth century. (shrink)

The life sciences are increasingly being called on to produce “socially robust” knowledge that honors the social contract between science and society. This has resulted in the emergence of a number of “broad social issues” that reflect the ethical tensions in these social contracts. These issues are framed in a variety of ways around the world, evidenced by differences in regulations addressing them. It is important to question whether these variations are simply regulatory variations or in fact reflect a (...) contextual approach to ethics that brings into question the existence of a system of “global scientific ethics”. Nonetheless, within ethics education for scientists these broad social issues are often presented using this scheme of global ethics due to legacies of science ethics pedagogy. This paper suggests this may present barriers to fostering international discourse between communities of scientists, and may cause difficulties in harmonizing (and transporting) national regulations for the governance of these issues. Reinterpreting these variations according to how the content of ethical principles is attributed by communities is proposed as crucial for developing a robust international discourse. To illustrate this, the paper offers some empirical fieldwork data that considers how the concept of dual-use (as a broad social issue) was discussed within African and UK laboratories. Demonstrating that African scientists reshaped the concept of dual-use according to their own research environmental pressures and ascribed alternative content to the principles that underpin it, suggests that the limitations of a “global scientific ethics” system for these issues cannot be ignored. (shrink)

The free-energy principle states that all systems that minimize their free energy resist a tendency to physical disintegration. Originally proposed to account for perception, learning, and action, the free-energy principle has been applied to the evolution, development, morphology, anatomy and function of the brain, and has been called a postulate, an unfalsifiable principle, a natural law, and an imperative. While it might afford a theoretical foundation for understanding the relationship between environment, life, and mind, its epistemic status is unclear. (...) Also unclear is how the free-energy principle relates to prominent theoretical approaches to life science phenomena, such as organicism and mechanism. This paper clarifies both issues, and identifies limits and prospects for the free-energy principle as a first principle in the life sciences. (shrink)

A unique introduction to the philosophy of science with special emphasis on the life sciences. Part I presents elementary but fundamental concepts and problems in epistemology and their relation to questions of scientific methodology. Part II deals with case studies from the history of biology which illustrate particular philosophical points while Part III progresses to more complex ideas as on the nature and methodology of science. Part IV discusses the limitations of scientific enquiry and its relations to other systems (...) of knowledge and interpretation. (shrink)

Using animals for scientific research is a highly contentious issue that Continental philosophers engaging with 'the animal question' have been rightly accused of shying away from. Now, Wahida Khandker asks whether Continental approaches to animality and organic life will make us reconsider our treatment of non-human animals. By following its historical and philosophical development, she argues that the concept of 'pathological life' as a means of understanding organic life as a whole plays a pivotal role in refiguring (...) the human-animal distinction. She explores the significance of this across philosophy and the life sciences through the work of a number of key thinkers of life and process, from Henri Bergson to Donna Haraway. (shrink)

"All art should become science and all science art; poetry and philosophy should be made one." Friedrich Schlegel's words perfectly capture the project of the German Romantics, who believed that the aesthetic approaches of art and literature could reveal patterns and meaning in nature that couldn't be uncovered through rationalistic philosophy and science alone. In this wide-ranging work, Robert J. Richards shows how the Romantic conception of the world influenced (and was influenced by) both the lives of the people who (...) held it and the development of nineteenth-century science. Integrating Romantic literature, science, and philosophy with an intimate knowledge of the individuals involved—from Goethe and the brothers Schlegel to Humboldt and Friedrich and Caroline Schelling—Richards demonstrates how their tempestuous lives shaped their ideas as profoundly as their intellectual and cultural heritage. He focuses especially on how Romantic concepts of the self, as well as aesthetic and moral considerations—all tempered by personal relationships—altered scientific representations of nature. Although historians have long considered Romanticism at best a minor tributary to scientific thought, Richards moves it to the center of the main currents of nineteenth-century biology, culminating in the conception of nature that underlies Darwin's evolutionary theory. Uniting the personal and poetic aspects of philosophy and science in a way that the German Romantics themselves would have honored, The Romantic Conception of Life alters how we look at Romanticism and nineteenth-century biology. (shrink)

Available for the first time in English, Roger's masterwork of intellectual history situates the life sciences within the larger context of French Enlightenment thought and the history of institutions.

There is a crisis of valuation practices in the current academic life sciences, triggered by unsustainable growth and “hyper-competition.” Quantitative metrics in evaluating researchers are seen as replacing deeper considerations of the quality and novelty of work, as well as substantive care for the societal implications of research. Junior researchers are frequently mentioned as those most strongly affected by these dynamics. However, their own perceptions of these issues are much less frequently considered. This paper aims at contributing to a (...) better understanding of the interplay between how research is valued and how young researchers learn to live, work and produce knowledge within academia. We thus analyze how PhD students and postdocs in the Austrian life sciences ascribe worth to people, objects and practices as they talk about their own present and future lives in research. We draw on literature from the field of valuation studies and its interest in how actors refer to different forms of valuation to account for their actions. We explore how young researchers are socialized into different valuation practices in different stages of their growing into science. Introducing the concept of “regimes of valuation” we show that PhD students relate to a wider evaluative repertoire while postdocs base their decisions on one dominant regime of valuing research. In conclusion, we discuss the implications of these findings for the epistemic and social development of the life sciences, and for other scientific fields. (shrink)

In this interview, Anne Fagot-Largeault discusses with Thierry Bardini her recollections of the life and work of French philosopher Gilbert Simondon (1924–1989). The discussion covers Simondon’s theory of individuation and considers its influences on contemporary thinkers such as Gilles Deleuze and François Laruelle. Fagot-Largeault situates Simondon’s thinking within the broader context of 20th-century biological research and the development of life sciences. Informed by her personal association and experiences working with Simondon, her reminiscences shed light on the unique character (...) of Simondon as a person and as a thinker. (shrink)

New life sciences innovation offers the possibility of new conceptions of human nature with significant impact on liberal theories of justice. So far, nature as such has been thought to be something given and beyond human control. Thus, to define something as natural has meant the same thing as to relegate it to the realm of fortune or misfortune, rather than justice or injustice. However, the successful decoding of the human genome and subsequent advances in genomics-based technologies begins to (...) change this conception to a new one: nature can be something dynamic and within human control. Therefore, genomics-based technologies can make possible the just distribution of natural goods (rationality, intelligence, etc). Can liberal political theories successfully deal with this new possibility of justice? This paper addresses the question by briefly assessing Rawls' egalitarianism, Nozick's libertarianism and Sen's capability theory of justice. It is argued that these theories fail to address the new possibility of justice made feasible by life sciences innovation. On the one hand, libertarianism is insensitive to natural inequalities. On the other hand, egalitarianism and the capability theory of justice are limited to compensating for natural inequalities and avoid ensuring just distribution of natural goods. Contemporary liberal theories are not dynamic enough to deal with distributive justice in the 21st century. (shrink)

Comparative to the commonplace focus onto developments in mathematics and physics, the life sciences appear to have received relatively sparse attention within the early history of analytic philosophy. This paper addresses two related aspects of this phenomenon. On the one hand, it asks: to the extent that the significance of the life sciences was indeed downplayed by early analytic philosophers, why was this the case? An answer to this question may be found in Bertrand Russell’s 1914 discussions of (...) the relation between biology and philosophy. Contrary to received views of the history of analytic philosophy, Russell presented his own ‘logical atomism’ in opposition not only to British Idealism, but also to ‘evolutionism’. On the other hand, I will question whether this purported neglect of the life sciences does indeed accurately characterise the history of analytic philosophy. In answering this, I turn first to Susan Stebbing’s criticisms of Russell’s overlooking of biology, her influence on J.H. Woodger, and her critical discussion of T.H. Huxley’s and C.H. Waddington’s application of evolutionary views to philosophical questions. I then discuss the case of Moritz Schlick, whose evolutionist philosophy has been overlooked within recent debates concerning Logical Empiricism’s relation to the philosophy of biology. (shrink)

Bringing together scholars from philosophy, bioethics, law, sociology, and anthropology, this topical collection explores how innovations in the field of biomedicine and the life sciences are challenging and transforming traditional understandings of human temporality and of the temporal duration, extension and structure of human life. The contributions aim to expand the theoretical debate by highlighting the significance of time and human temporality in different discourses and practical contexts, and developing concrete, empirically informed, and culturally sensitive perspectives. The collection (...) is structured around three main foci: the beginning of life, the middle of life, and later life. This structure facilitates an in-depth examination of specific technological and biographical contexts and at the same time allows an overarching comparison of relevant similarities and differences between life phases and fields of application. (shrink)

Following recent debate on the relations between philosophy of science and the sciences, we wish to draw attention to some actual ways of training both young philosophers of science and young life scientists and clinicians. First, we recall a successful case of training philosophers of the life sciences in a strictly scientific environment. Second, after a brief review of the reasons why life scientists and clinicians are currently asking for more ethics, more methodology of science, and more (...) philosophy of science in the training of life scientists and clinicians, we present two training models that could spur the discussion on how to meet the requests coming from the scientific community. We argue that in order to reflect on mutual relations between philosophy of science and the sciences and to foster proper interactions, issues regarding the topics considered, the features of educational curricula, and the institutional organizations should be addressed jointly. (shrink)

We live longing for a utopia. However, we live in increasingly dystopian times. Whenever we imagine possible futures, a continuity of human progress in the direction of greater scientific-technological development comes to mind. We are completely certain that the reason that brought us current modern science and technology will lead us to this utopia, to a promising future. There is an association as intimate as it is indubitable between future, progress, technoscience and utopia. Isn't it time to question this undisputed (...) certainty? Is it true that reason, progress, science, technology and utopia will lead us to a healthy future for man and nature? Isn't it time to open our eyes and mind to see things differently? Isn't it time to stop frantically producing in pursuit of progress and take a rest to think? There is a fundamental and radical difference between reason and thinking. This book proposes a journey through the worlds of science fiction, utopianism, socialism, communism, Marxism, psychoanalysis, existentialism, Zen Buddhism, art, medievalism, alchemy, science, technology and philosophy. This book proposes to abandon the utopian-dystopian reason to embrace the eutopian life, a new mode of existence in which man needs to regain his rootedness with Earth to be able to think again and live in harmony with himself and nature. (shrink)

Most life science research entails dual-use complexity and may be misused for harmful purposes, e.g. biological weapons. The Precautionary Principle applies to special problems characterized by complexity in the relationship between human activities and their consequences. This article examines whether the principle, so far mainly used in environmental and public health issues, is applicable and suitable to the field of dual-use life science research. Four central elements of the principle are examined: threat, uncertainty, prescription and action. Although charges (...) against the principle exist – for example that it stifles scientific development, lacks practical applicability and is poorly defined and vague – the analysis concludes that a Precautionary Principle is applicable to the field. Certain factors such as credibility of the threat, availability of information, clear prescriptive demands on responsibility and directives on how to act, determine the suitability and success of a Precautionary Principle. Moreover, policy-makers and researchers share a responsibility for providing and seeking information about potential sources of harm. A central conclusion is that the principle is meaningful and useful if applied as a context-dependent moral principle and allowed flexibility in its practical use. The principle may then inspire awareness-raising and the establishment of practical routines which appropriately reflect the fact that life science research may be misused for harmful purposes. (shrink)

Metaphors used to describe new technologies mediate public understanding of the innovations. Analyzing the linguistic, rhetorical, and affective aspects of these metaphors opens the range of issues available for bioethical scrutiny and increases public accountability. This article shows how such a multidisciplinary approach can be useful by looking at a set of texts about one issue, the use of a newly developed technique for genetic modification, CRISPRcas9.

The life sciences are said to be in the midst of a replication crisis because a majority of published results are irreproducible, and scientists rarely replicate existing data. Here I argue that point 2 of this assessment is flawed because there is a hitherto unidentified form of replication in the experimental life sciences, which I call ‘microreplications’. Using a case study from biochemistry, I illustrate how MRs depend on a key element of experimentation, namely, experimental controls. I end (...) by reflecting on what MRs mean for the broader debate about the replication crisis. (shrink)

Providing a compelling scholarly statement about the interrelation and pliability of values in the life sciences, medicine and health care, this volume aims to aid our understanding of the roles of power, knowledge production and economic action in the heavily scientised and economised areas of life science and medicine.

The author considers ethical obligations in relation to all living beings. As a result, he formulates the guiding principle of our actions - a bioethical imperative «Respect each living being as an end in itself and, if possible, treat it, as yourself». Based on this principle, you can pedagogically influence morality with the help of various scientific disciplines.

The successful decoding of human genome and subsequent advances in new life sciences innovation create technological presuppositions of a new possibility of justice i.e. the just distribution of both social and natural goods. Although Rawlsians attempt to expand their theory to include this new possibility, they fail to provide plausible metrics of social justice in the genomics and post-genomics era. By contrast, Senians seem to succeed to do so through their index of basic capabilities. This paper explores what might (...) be regarded as a Senian perspective of distributive justice in new life sciences innovation. The argument is that, by comparing freedoms instead of primary goods, the capability theory allows not only for the identification of injustices linked to natural lottery but also for their elimination through the use of new genomic technologies, including gene-based diagnostics, gene therapy, somatic cell engineering and germ-line engineering. These innovative technologies seem to have the potential to reduce variability in natural goods and therefore enable individuals to convert social goods into well-being or welfare. (shrink)

The aim of the book is to explore common concerns regarding methodological individualism in different fields of the life sciences broadly construed. It will address conceptual problems regarding individuals and their relation and dependence on the collectivities they are part of and consider innovative new viewpoints, grounded in specific scientific projects that question the present descriptions and understanding and raise challenges. A wide variety of recent, influential contributions in the life sciences utilize notions of collectivity, sociality, rich interactions (...) and emergent phenomena, as essential explanatory tools to handle numerous persistent scientific questions in the life sciences. -/- Examples range from gene expression and regulation, the dynamics of bacterial populations, the ecological developmental biology of symbiosis, levels of selection, to communication, motion and patterns of behavior in diverse life forms, the role of social institutions and cultural dynamics in human evolution, and the psychological basis for social norms. The book is being structured so that fruitful and rewarding disciplinary interactions take place among researchers and scholars who have been concerned with overcoming methodological individualism. -/- The books includes a section of four papers on holobionts and the hologenome theory and a special memorial article on the work of the late Prof. Eshel Ben-Jacob authored by Herbert Levine. (shrink)

This article deals with physico-mathematical approaches to anatomy in post-Harveyan physiology. But rather than looking at questions of iatromechanics and animal locomotion, which often attracted this approach, I look at the problem of how blood returned to the heart – a part of the circulation today known as venous return but poorly researched in the early modern period. I follow the venous return mechanisms proposed by lesser-known authors in the mechanization of anatomy, such as Jean Pecquet (1622–1674) and Nicolaus Steno (...) (1638–1686), alongside the more famous Giovanni Alfonso Borelli (1608–1679). Their mechanisms differed only in small details. Yet, these minor differences highlight significant aspects of the mechanization of the life sciences in the seventeenth century. First, they relied more on observations than hitherto acknowledged, even if only indirectly. Second, their mechanisms drew more from the physico-mathematical disciplines than from the trending corpuscularian philosophies of their time. Finally, these mechanisms led to a more accurate understanding of the circulation that remains valid today, thus revealing their cognitive benefits. In short, through the single problem of how blood returned to the heart, this article portrays the increasing complexity of anatomy in the early modern period. (shrink)

Both science and theology involve philosophy. They both involve reasoned argument, evaluation of possible explanations, clarification of concepts, ways of interpreting experience, understanding the present significance of what has gone before us, and other such eminently philosophical tasks. They both involve philosophy, especially when they enter into dialogue with each other. In fact, they involve philosophical thinking even when they may not be aware of it. In this paper I will explore a specific area of philosophy that is particularly important (...) as a bridge between theology and science. I am referring to the area of meaning. Questions regarding meaning are fundamental because whatever is said about the nature of life, by scientists, by theologians, or by anyone else, must be expressed in meaningful words. Meaning is like the ground we walk on. It constitutes what we need to proceed with our activity. Without solid ground under our feet, we cannot go anywhere. (shrink)

Natural kinds have been a constant topic in philosophy throughout its history, but many issues pertaining to natural kinds still remain unresolved. This paper considers one of these issues: the epistemic role of natural kinds in scientific investigation. I begin by clarifying what is at stake for an individual scientific field when asking whether or not the field studies a natural kind. I use an example from life science, concerning how biologists explain the similar body shapes of fish and (...) cetaceans, to show that natural kinds play a central epistemic role in scientific explanations that cannot be delegated to other explanatory factors. A task for philosophy, then, is to come up with a theory of natural kinds that adequately accounts for the epistemic role of natural kinds in science. After having sketched the spectrum of available philosophical theories of natural kinds, I argue that none of the available theories adequately performs this task and that therefore the search is still open for a theory that does. (shrink)

In this thesis we have examined the complex interaction between intellectual property rights, life sciences and global justice. Science and the innovations developed in its wake have an enormous effect on our daily lives, providing countless opportunities but also raising numerous problems of justice. The complexity of a problem however does not liberate society as a whole from moral responsibilities. Our intellectual property regimes clash at various points with human rights law and commonly held notions of justice.

Capitalist dynamics in knowledge production are not limited to situations in which economic interests influence researchers’ practices. Building on laboratory studies and the French “pragmatic” tradition in sociology, this article proposes an approach to tackle more pervasive capitalist logics at work in contemporary research and their consequences. It uses the term epistemic capitalism to denote the accumulation of capital, as worth made durable, through the act of doing research, in and beyond academia. In doing so, it conceptualizes capitalism primarily not (...) as a system of circulation and accumulation of monetary value but rather as a cultural way of producing, attributing, and accumulating specific forms of worth, which need not be monetary. Empirically, the article studies variants in epistemic capitalism by addressing the differing role of the accumulation of different forms of capital and the regimes connected to it in two institutional settings in Austria, academic life science laboratories and biotechnology start-up companies. Concluding, it argues that analytically dissociating the concept of capitalism from its link to economic value allows a finer-grained cultural analysis of the importance and effects of processes of accumulation in contemporary research. It ends with discussing the normative implications of these findings for debates about the commercialization of academia. (shrink)

It seems that the reception of Conrad Hal Waddington’s work never really gathered speed in mainstream biology. This paper, offering a transdisciplinary survey of approaches using his epigenetic landscape images, argues that (i) Waddington’s legacy is much broader than is usually recognized—it is widespread across the life sciences (e.g. stem cell biology, developmental psychology and cultural anthropology). In addition, I will show that (ii) there exist as yet unrecognized heuristic roles, especially in model building and theory formation, which Waddington’s (...) images play within his work. These different methodological facets envisioned by Waddington are used as a natural framework to analyze and classify the manners of usage of epigenetic landscape images in post-Waddingtonian ‘landscape approaches’. This evaluation of Waddington’s pictorial legacy reveals that there are highly diverse lines of traditions in the life sciences, which are deeply rooted in Waddington’s methodological work. (shrink)

Offers a practical philosophy of the life sciences, showing how scientific reasoning can, in limited contexts, be translated into the language of philosophy, and how science can correct the philosophy of science.

Although scientific realism is the default position in the life sciences, philosophical accounts of realism are geared towards physics and run into trouble when applied to fields such as biology or neuroscience. In this paper, I formulate a new robustness-based version of entity realism, and show that it provides a plausible account of realism for the life sciences that is also continuous with scientific practice. It is based on the idea that if there are several independent ways of (...) measuring, detecting or deriving something, then we are justified in believing that it is real. I also consider several possible objections to robustness-based entity realism, discuss its relationship to ontic structural realism, and show how it has the potential to provide a novel response to the pessimistic induction argument. (shrink)

Life sciences and emerging technologies raise a plethora of issues. Besides practical, bioethical and policy issues, they have broader, cultural implications as well, affecting and reflecting our zeitgeist and world-view, challenging our understanding of life, nature and ourselves as human beings, and reframing the human condition on a planetary scale. In accordance with the aims and scope of the journal, LSSP aims to foster engaged scholarship into the societal dimensions of emerging life sciences (Chadwick and Zwart 2013) (...) and via this thematic series, the journal provides a podium for authors who intend to address concrete issues from a ‘continental philosophical’ perspective, which may in- clude (post)phenomenology, hermeneutics, dialectics, (post)structuralism, psychoanalysis, critical theory and similar approaches. The series aims to contribute to a diagnostics of the present and a prognostics of the future, focusing on critical normative challenges (such as embodiment, intimate technologies, social justice, biopower, nanomedicine, human enhancement and the anthropocene) and building on the work of key authors such as Hegel (1830), Heidegger (1953, 1953/1954), Bachelard (1938), Canguilhem (1975), Lacan (1966, 1969-1970/1991), Habermas (1968), Serres (1972), Foucault (1969), Žižek (2006/2009), Stiegler (2010), Sloterdijk (2001, 2009) and others, but targeting con- crete up-to-date events and case studies against the backdrop of broader developments within the techno-scientific culture. (shrink)

The volume Philosophy and Life Sciences in Dialogue is a result of the IV. International Summer School Bioethics in Context, organized by Sofia University “St. Kliment Ohridski” and FernUniversität in Hagen. The book is exemplary in many ways. It contains 11 high-quality articles on fundamental themes and concepts with real philosophical depth – nature, autonomy, the future of trans- and post-humanism, the meta-topic of bioethics and its relations with life sciences. The authors present illuminating historical backgrounds as a (...) context to these theoretical discussions and a source of interesting or forgotten arguments. Most of the articles analyze recent and avantgarde scientific research with its social implications: CRISPR-Cas9 technology, digitalization of health care, justification of animal experiments, questions of human cloning, moral enhancement and the artificial synthesis of life. The main idea of the book is that bioethics is necessarily connected to human practice: it is not just knowledge but a living culture. (shrink)