This book, written by one of the leading Japanese scholars in the philosophy of agricultural science, examines the relationship between human life, the natural environment, and agriculture.

In the 1950s and 1960s, prominent institutional economists in the United States offered what became the orthodox theory on the obstacles to commercializing scientific knowledge. According to this theory, scientific knowledge has inherent qualities that make it a public good. Since the 1970s, however, neoliberalism has emphasized the need to convert public goods to private goods to enhance economic growth, and this theory has had global impacts on policies governing the generation and diffusion of scientific research and innovation. We critique (...) the foundational conceptualizations of scientific knowledge as either public or private by examining Germany’s treatment of scientific outputs as club goods. We then compare the relative impacts on social welfare of distinct United States and German approaches to food and agricultural research and innovation. We conclude with reflections on how these findings might contribute to a democratic debate on how best to manage scientific knowledge to enhance social welfare. (shrink)

During the twentieth century statistical methods have transformed research in the experimental and social sciences. Qualitative evidence has largely been replaced by quantitative results and the tools of statistical inference have helped foster a new ideal of objectivity in scientific knowledge. The paper will investigate this transformation by considering the genesis of analysis of variance and experimental design, statistical methods nowadays taught in every elementary course of statistics for the experimental and social sciences. These methods were developed by (...) the mathematician and geneticist R. A. Fisher during the 1920s, while he was working at Rothamsted Experimental Station, where agricultural research was in turn reshaped by Fisher’s methods. Analysis of variance and experimental design required new practices and instruments in field and laboratory research, and imposed a redistribution of expertise among statisticians, experimental scientists and the farm staff. On the other hand the use of statistical methods in agricultural science called for a systematization of information management and made computing an activity integral to the experimental research done at Rothamsted, permanently integrating the statisticians’ tools and expertise into the station research programme. Fisher’s statistical methods did not remain confined within agricultural research and by the end of the 1950s they had come to stay in psychology, sociology, education, chemistry, medicine, engineering, economics, quality control, just to mention a few of the disciplines which adopted them. (shrink)

Drawing from a four-year study of US science institutions that support biological control of arthropods, this article examines the decline in biological control institutional capacity in California within the context of both declining public interest science and declining agricultural research activism. After explaining how debates over the public interest character of biological control science have shaped institutions in California, we use scientometric methods to assess the present status and trends in biological control programs within both the University of California (...) Land Grant System and the California Department of Food and Agriculture. We present available data on the number of scientific positions and the types of positions to discuss the impact on the amount of public interest research on biological control in California. We use sociograms to depict how biological control science networks have been reconfigured over time. Our quantitative and qualitative analyses indicate that the following factors contributed to the decline of biological control science in California over the 45-year period analyzed: (1) the institutional reconfiguration of university research priorities; (2) the fraying networks within and increasing specialization of biological control science; (3) the transformation of the social organization of the life science work, including privatization; and (4) the abandonment of this thematic area by civil society activist groups. This broad array of forces suggests that biological control, as a public interest science, will require a deliberate intervention, based on advocacy of clear public interest criteria. (shrink)

This article analyzes Italian research and experimentation on the economic potential of certain plant species in the late eighteenth and early nineteenth centuries, also providing insight into beekeeping and honey production. It focuses on continuity of method and progress across regimes and on the invisibility of many of the actors involved in the development of agricultural science and food research. Specifically, “continuity” refers to the continuation of certain threads of Old-Regime experimentation by the scientific apparatus put in place during (...) the Napoleonic era. These threads were reworked and strengthened with the new means available to Frenchified Europe. The concept of “invisibility” derives from an expression by Steven Shapin and refers to actors who contributed to the development of agricultural science while remaining in the shadows. These include various types of technicians and members of rural society who supported the scientific work of scholars without receiving overt recognition. Continuity and invisibility were therefore two fundamental components both in the epistemological development of agricultural science and in the improvement of food research. The article analyzes case studies mainly from northern Italy – or rather, the various geopolitical entities existing in this geographical region – during the late Old Regime and the Napoleonic era, comparing them with examples from all over Europe. (shrink)

ArgumentState patronage and the modernizing role of the government have been considered crucial for the development of science in Russia during both Imperial and Soviet periods. This paper argues, on the contrary, that the start of Russian agricultural science had predominantly local and non-governmental sources of support. Amateur experiments by nobles aspiring to become “cultured” landlords, university professors applying their scientific knowledge to their own estates, and the efforts by local community administrations, zemstvo, to compete for grain markets all (...) contributed, by 1900, to the establishment of various stations for agricultural research. The Imperial government became involved in this process rather belatedly, with an effort to further stimulate and coordinate the institutional network of agricultural science. By 1917, this network included more than 300 breeding and experimental stations. Despite revolutionary violence and the loss of former patrons, most of these stations managed to maintain their functions throughout the Civil War and formed the basis of Soviet agricultural science. (shrink)

This research examines a series of case studies from the agricultural sector to illustrate how various models of innovation embrace value proposition. A conscious value contestation at the interface of science, policy and civil society requires transformations in the triple-helix model of university-government-industry collaboration, because reiterations in the triple-helix model of innovation, such as quadruple, quintuple and higher helices, do not necessarily address civil society concerns for human values and science ethics. This research develops and tests a matrix model (...) of university-government-industry-civil society collaboration, which involves the co-creation of inclusive and transformational spaces for value proposition. Findings suggest that the matrix model of innovation institutionalises citizen science as it serves as a moral heuristic to make seemingly apolitical science responsive to essentially contested societal values. (shrink)

State patronage and the role of central government in modernization are often cited as the key factors that underpin the development of science in Russia. This paper argues that the development of Russian agricultural science had predominantly local and non-governmental sources of support. Historically Russian agricultural research was funded and promoted through private patronage, but from the middle of the 19th century agricultural societies and community administrations began to sponsor research and promotion of new ideas in the (...) agricultural sector. At the end of the 19th century the majority of initiatives to set up agricultural experiment stations were undertaken on behalf of provincial agricultural societies, supported by local community administrations independent of the state bureaucratic apparatus (zemstvos). During the last two decades of the Russian Empire, agricultural societies and zemstvos became leaders in the modernization of Russian agriculture. Establishing regional experiment stations, and thus promoting development of local knowledge, they provided models for the subsequent governmental activity in this field. In the case of supporting agricultural research and institutionalizing the new discipline of scientific plant breeding, the Russian public led the state, rather than the reverse. (shrink)

Interdisciplinary research needs innovation. As an action-oriented intervention, this Manifesto begins from the authors’ experiences as social scientists working within interdisciplinary science and technology collaborations in agriculture and food. We draw from these experiences to: 1) explain what social scientists contribute to interdisciplinary agri-food tech collaborations; (2) describe barriers to substantive and meaningful collaboration; and (3) propose ways to overcome these barriers. We encourage funding bodies to develop mechanisms that ensure funded projects respect the integrity of social science expertise and (...) incorporate its insights. We also call for the integration of social scientific questions and methods in interdisciplinary projects from the outset, and for a genuine curiosity on the part of STEM and social science researchers alike about the knowledge and skills each of us has to offer. We contend that cultivating such integration and curiosity within interdisciplinary collaborations will make them more enriching for all researchers involved, and more likely to generate socially beneficial outcomes. (shrink)

Because of their being science-based and because they have sparked off an extended debate on how technologies are conceived and developed, biotechnologies represent a particularly useful point of departure for a more general discussion about the evolution of agricultural techniques, as regards the origin and the distinguishing characteristics of different forms of knowledge and know-how.This article seeks to discuss how “knowledge” from different sources (agricultural, industrial, and scientific) on the one hand, and how the abstract and concrete elements (...) that enter into the knowledge acquisition process, on the other hand, come together and become linked as determinants of different technical paths of development. The growing recourse to biotechnologies tends progressively to modify the common knowledge base mobilized for agro-food production. Even though at present the development of biotechnologies seems to be set in a model of continuity in relation to the current techniques, their full potential could express itself in redefining the relations between Man and Nature, ultimately reconciling the production of agricultural consumer goods and the reproduction of the agro-ecosystems. (shrink)

Alors que le débat sur le caractère scientifique ou pseudo-scientifique de l’agriculture biodynamique occupe régulièrement le débat public, l’histoire et la philosophie des sciences ne semblent que très peu s’être emparées de ce sujet. La thèse défendue ici est double : tout d’abord, si l’agriculture biodynamique rencontre un relatif succès aujourd’hui, cela tient sans doute au fait que son théoricien, R. Steiner, a été un des premiers à critiquer le paradigme qui domine l’agronomie, ou en tout cas l’agriculture, depuis (...) plus d’un siècle. Cette critique semble d’ailleurs se maintenir dans ses motifs tout au long du XXe siècle, jusqu’à une certaine critique contemporaine de l’agro-industrie et de ses conséquences désastreuses sur l’environnement. Or, et c’est la seconde thèse défendue ici, cette critique semble méconnaître voire occulter la réalité des débats internes qui ont traversé l’agronomie au cours du XXe siècle et qui continuent de l’agiter aujourd’hui : l’agronomie système a ainsi par exemple intégré dans ses objets des éléments de l’agriculture biodynamique. Selon nous, le problème principal est que l’agronomie est souvent abordée selon une approche externaliste, qui doit impérativement être complétée par une approche internaliste afin tout d’abord de distinguer ce qui relève de la science et ce qui relève du mysticisme, et ensuite de saisir toute la richesse historique et épistémologique de l’agronomie. (shrink)

Today’s food production and consumption go hand in hand with immense damages to humans and nature. Change is needed, but where to start and which direction to go? This article tries to give an interdisciplinary answer by taking recourse to a vision, that is, an ideal image of the future which is drawn upon ethical reflection and beyond the limits of actual political and economic constraints. The main purpose of this paper is to show that generating and discussing visions can (...) be a powerful process in order to regain ability to act in the face of the complex challenges of our time and that Education for Sustainable Development plays an important role to enable current and future generations to become actors of change. First, a students vision on agriculture and society in 2050 is presented, followed by a theoretical examination of visions, their potentials, limits and practical implications. Subsequently, the results of a field analysis of current innovative solutions to local agriculture are given. These include intercultural gardens and community supported agriculture. Claiming that a sustainable development can only be reached if people are not only able to envision a desirable future, but to develop small scale, locally adapted solutions as answers to challenges such as climate change, this paper then focuses on the competence oriented educational concept of ESD. Here, an approach of integrating ethics in the course of studies of agricultural sciences implemented by a student’s initiative serves as practice example. (shrink)

We argue that for scientists and science communicators to build usable knowledge for various publics, they require social and political capital, skills in boundary work, and ethical acuity. Drawing on the context of communicating seasonal climate predictions to farmers in Australia, we detail four key issues that scientists and science communicators would do well to reflect upon in order to become effective and ethical intermediaries. These issues relate to the boundary work used to link science and values and thereby construct (...) public identities, emplacement, that is, the importance of situating knowledge in relation to the places with which people identify, personal and organizational processes of reflexivity, and the challenges of developing and maintaining the social and political capital necessary to simultaneously represent people’s identities and lifeworlds and the climate systems that affect them. Through a discourse analysis of in-depth interviews with Australian agro-climatologists, we suggest that three distinct “modes of extension” are apparent, namely, discursive, conceptual, and contextual. Our participants used these three modes interdependently to create knowledge that has salience, credibility, and legitimacy. They thereby generated new narratives of place, practice, and identity for Australian agriculture. (shrink)

Science and technology plays a critical role, but not the only role, in realizing the United Nation’s Sustainable Development Goals. Not only must we observe the cultural context of scientific and technological interventions, we must respect and support the innovative capacity of those with different backgrounds. To help understand these concerns, this book puts forth the concept of generative justice in science and technology for development. This book presents community case studies concerning technological interventions in global health, the environment, agriculture, (...) and their ethics. Discusses issues around science, technology, and development in the Global South. Describes the redesign of lab-inspired prototypes after field testing with project partners. Identifies basic science/engineering principles utilized in development solutions. (shrink)

The recent drastic development of agriculture, together with the growing societal interest in agricultural practices and their consequences, pose a challenge to agricultural science. There is a need for rethinking the general methodology of agricultural research. This paper takes some steps towards developing a systemic research methodology that can meet this challenge – a general self-reflexive methodology that forms a basis for doing holistic or (with a better term) wholeness-oriented research and provides appropriate criteria of scientific quality.From (...) a philosophy of research perspective,science is seen as an interactive learning process with both a cognitive and a social communicative aspect. This means, first of all,that science plays a role in the world that it studies. A science that influences its own subject area, such as agricultural science, is named a systemic science. From this perspective, there is a need to reconsider the role of values in science. Science is not objective in the sense of being value-free.Values play, and ought to play, an important role in science – not only in form of constitutive values such as the norms of good science, but also in the form of contextual values that enter into the very process of science. This goes against the traditional criterion of objectivity. Therefore, reflexive objectivity is suggested as a new criterion for doing good science, along with the criterion of relevance. Reflexive objectivity implies that the communication of science must include the cognitive context, which comprises the societal,intentional, and observational context. Ina ccordance with this, the learning process of systemic research is shown as a self-reflexive cycle that incorporates both an involved actor stance and a detached observer stance. The observer stance forms the basis for scientific communication.To this point, a unitary view of science as a learning process is employed. A second important perspective for a systemic research methodology is the relation between the actual,different, and often quite separate kinds of science. Cross-disciplinary research is hampered by the idea that reductive science is more objective, and hence more scientific, than the less reductive sciences of complex subject areas – and by the opposite idea that reductive science is necessarily reductionistic. Taking reflexive objectivity as a demarcator of good science, an inclusive framework of science can be established. The framework does not take the established division between natural, social, and human science as a primary distinction of science.The major distinction is made between the empirical and normative aspects of science,corresponding to two key cognitive interests.Two general methodological dimensions, the degree of reduction of the research world and the degree of involvement in the research world, are shown to span this framework. The framework can form a basis for transdisciplinary work by way of showing the relation between more and less reductive kinds of science and between more detached and more involved kinds of science and exposing the abilities and limitations attendant on these methodological differences. (shrink)

This paper provides a brief comparative overview of the development of the reproductive sciences especially in agriculture in the UK and the US. It begins with the establishment by F. H. A. Marshall in 1910 of the boundaries that framed the reproductive sciences as distinct from genetics and embryology. It then examines how and where the reproductive sciences were taken up in agricultural research settings, focusing on the differential development of US and UK institutions. The reproductive (...) sciences were also pursued in medical and biological settings, and I discuss how the intersections among all three allowed the circulation of both ideas and scientists’ careers. Across the twentieth century, scientific leadership in the reproductive sciences alternated between the UK and US, and these patterns are elucidated. I conclude with thoughts on future research that might emphasize the elaboration of industrialization processes in agriculture and new capacities to transform both reproductive processes and their products—life itself—as biopower comes to be more ambitiously understood as extending across all species. (shrink)

Marxist social scientists have argued that the relationship between social and technical change is one of mutual interaction; innovation in the modes of production affects social organization, and social organization, in turn, has an impact on the development of novel modes of production. This consideration is of fundamental importance for the construction of any economic development policy. However, analyses of this critical relationship have been elaborated within a conceptual framework which most social scientists and policy makers who work within the (...) framework of neoclassical economic thought find difficult to understand. When marxists argue that technical innovations are the product of a class conflict, non-marxist social scientists are left wondering about what the exact meaning of such a statement. Because marxists have been unable to communicate their message, their important insights into the relation between social and technical change have not been incorporated in contemporary development policy; this situation has often resulted in great social costs. In the past fifteen years, however, Yujiro Hayami and Vernon Ruttan have attempted to analyze the critical interaction of social and technical change using neo-classical economic concepts. I argue that their approach can be utilized to express marxist insights in a language accessible to non-marxist social scientists. The careful and critical adoption of this approach could provide the grounds for a more fruitful dialogue about the interaction of social and technical change, and aid the construction of a new development policy. (shrink)

Scholarship flourishes in inclusive environments where open deliberations and generative feedback expand both individual and collective thinking. Many researchers, however, have limited access to such settings, and most conventional academic conferences fall short of promises to provide them. We have written this Field Report to share our methods for cultivating a vibrant intellectual community within the Science and Technology Studies Food and Agriculture Network (STSFAN). This is paired with insights from 21 network members on aspects that have allowed STSFAN to (...) thrive, even amid a global pandemic. Our hope is that these insights will encourage others to cultivate their own intellectual communities, where they too can receive the support they need to deepen their scholarship and strengthen their intellectual relationships. (shrink)

Histories of science in modern China often explore their subjects within global or national frameworks. This essay uses data from gazetteers to address the place-based nature of Chinese agricultural science as it developed at smaller geographical scales. Information contained in gazetteers suggests that regional environmental knowledge and site-specific social networks influenced the construction and communication of scientific ideas about farming at the local level. By highlighting these dimensions of knowledge making, this essay demonstrates the benefits of using gazetteers to (...) grapple with the importance of place in Chinese science. (shrink)

Agricultural ethics looks at the philosophical, social, political, legal, economic, scientific, and aesthetic aspects of agricultural problems and provides guidance for decisions about these problems when they involve competing values.

Talking About Trees ranges widely, from personal narratives to theoretical discussions on the need for the precautionary principle in science.

It has been proposed that the policies and practices of food sovereignty, unlike those of today's hegemonic food/agricultural system, provide the means for satisfying and safeguarding the right to food security for everyone everywhere. My principal objective in this article, which gains its significance in the light of an explanatory critique of the current system, is to explore how scientific research — using what kinds of methodologies, and building on experiences of what and of whom? — can constructively inform (...) these practices and policies, and contribute towards appraising this proposal. (shrink)

This paper sets out to capture the emergence between 1760 and 1840 of a recognizable science of agriculture in Europe. The first attempts to explain and to theorize husbandry as practiced on the farm emanated from economists and agronomists employing the ‘encyclopedic’ approach of the Enlightenment generation. Despite significant additions to chemical knowledge in the late eighteenth and the early nineteenth centuries the task of applying this knowledge to agriculture initially appeared insurmountable. Only in the 1820s and the 1830s were (...) the obstacles gradually removed. A more rigorous approach to experimentation and to quantification evolved, and it was combined with investment in institutions seeking to educate landowners and farmers. As a result of these developments chemists secured pride-of-place above all other professionals in the management of agriculture as the primary food-producing sector of the economy. (shrink)