Science studies - Wikipedia Science studies From Wikipedia, the free encyclopedia Jump to navigation Jump to search interdisciplinarity research area that seeks to situate scientific expertise in broad social, historical, and philosophical contexts Not to be confused with Metascience. This article may need to be rewritten to comply with Wikipedia's quality standards, as the article does not provide a coherent and comprehensive account of science studies. You can help. The talk page may contain suggestions. 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Du Bois Roland Barthes Ernest Burgess Michel Foucault Erving Goffman Antonio Gramsci Jürgen Habermas Thorstein Veblen Ferdinand Tönnies William Graham Sumner Lists Bibliography Terminology Journals Organizations People Timeline By country  Society portal v t e Science studies is an interdisciplinary research area that seeks to situate scientific expertise in broad social, historical, and philosophical contexts. It uses various methods to analyze the production, representation and reception of scientific knowledge and its epistemic and semiotic role. Similarly to cultural studies, science studies are defined by the subject of their research and encompass a large range of different theoretical and methodological perspectives and practices. The interdisciplinary approach may include and borrow methods from the humanities, natural and formal sciences, from scientometrics to ethnomethodology or cognitive science. Science studies have a certain importance for evaluation and science policy. Overlapping with the field of science, technology and society, practitioners study the relationship between science and technology, and the interaction of expert and lay knowledge in the public realm. Contents 1 Scope 2 History of the field 3 Application on natural and man made hazards 3.1 Sheepfarming after Chernobyl 3.2 Science studies on volcanology 4 Experts and democracy 5 See also 6 References 7 Bibliography 8 External links Scope[edit] The field started with a tendency toward navel-gazing: it was extremely self-conscious in its genesis and applications.[1] From early concerns with scientific discourse, practitioners soon started to deal with the relation of scientific expertise to politics and lay people.[1] Practical examples include bioethics, bovine spongiform encephalopathy (BSE), pollution, global warming,[2][3] biomedical sciences, physical sciences, natural hazard predictions, the (alleged) impact of the Chernobyl disaster in the UK, generation and review of science policy and risk governance and its historical and geographic contexts.[1] While staying a discipline with multiple metanarratives, the fundamental concern is about the role of the perceived expert in providing governments and local authorities with information from which they can make decisions.[1] The approach poses various important questions about what makes an expert and how experts and their authority are to be distinguished from the lay population and interacts with the values and policy making process in liberal democratic societies.[1] Practitioners examine the forces within and through which scientists investigate specific phenomena such as technological milieus, epistemic instruments and cultures and laboratory life (compare Karin Knorr-Cetina, Bruno Latour, Hans-Jörg Rheinberger) science and technology (e.g. Wiebe Bijker, Trevor Pinch, Thomas P. Hughes) science, technology and society (e.g. Peter Weingart, Ulrike Felt, Helga Nowotny and Reiner Grundmann) language and rhetoric of science (e.g. Charles Bazerman, Alan G. Gross, Greg Myers) aesthetics of science and visual culture in science (u.a. Peter Geimer), the role of aesthetic criteria in scientific practice (compare mathematical beauty) and the relation between emotion, cognition and rationality in the development of science.[4] semiotic studies of creative processes, as in the discovery, conceptualization, and realization of new ideas.[5] or the interaction and management of different forms of knowledge in cooperative research.[6] large-scale research and research institutions, e.g. particle colliders (Sharon Traweek)[7] research ethics, science policy, and the role of the university.[8][9] History of the field[edit] Maria Ossowska and Stanislaw Ossowski started to introduce the concept in the 1930s.[10] Thomas Kuhn's Structure of Scientific Revolutions (1962) led to an increased interest in not only the history of science, but also its philosophical underpinnings. Kuhn's work established that the history of science was less a linear succession of discoveries, but rather the concept of paradigms to the philosophy of science. Paradigms are broader, socio-intellectual constructs that determine which types of truth claims are permissible. Science studies try to identify crucial dichotomies as in science and technology, nature and culture, theories and experiments; science and fine art leading to the separation of various science fields and practices. Sociology of scientific knowledge developed at the University of Edinburgh, where David Bloor and his colleagues developed what has been termed the 'strong programme'. The strong programme proposed that both 'true' and 'false' scientific theories should be treated the same way.[11] Both are caused by social factors or conditions, such as cultural context and self-interest.[12] All human knowledge, as something that exists in the human cognition, must contain some social components in its formation process.[13] It proved however difficult to address natural science topics with sociologist methods, as proven by the US science wars.[14] The use of a deconstructive approach (as for works on arts or religion) on natural sciences risked to endanger not only the "hard facts" of natural sciences, but as well the objectivity and positivist tradition of sociology itself.[14] The view on scientific knowledge production as a (at least partial) social construct was not easily accepted.[1] Latour and others identified a dichotomy crucial for modernity, the division between nature (things, objects) as being transcendent, allowing to detect them, and society (the subject, the state) as immanent as being artificial, constructed. The dichotomy allowed for a mass production of things (technical-natural hybrids) and large scale global issues that in the meanwhile threaten endangered the distinction as such. E.g. We Have Never Been Modern asks to reconnect the social and natural worlds returning to the premodern use of "thing"[15]—addressing objects as hybrids made and scrutinized by the public interaction of people, things and concepts.[16] Science studies scholars such as Trevor Pinch and Steve Woolgar started already in the 1980s to involve "technology", and called their field "science, technology and society".[17] This "turn to technology" brought science studies into communication with academics in science, technology, and society programs. More recently, a novel approach known as mapping controversies has been gaining momentum among science studies practitioners, and was introduced as a course for students in engineering,[18][19] and architecture schools.[20] In 2002 Harry Collins and Robert Evans asked for a third wave of science studies (a pun on The Third Wave), namely studies of expertise and experience answering to recent tendencies to dissolve the boundary between experts and the public.[21] Application on natural and man made hazards[edit] Sheepfarming after Chernobyl[edit] Herdwicks grazing in Cumbria A showcase of the rather complex problems of scientific information and its interaction with lay persons is Brian Wynne's study of Sheepfarming in Cumbria after the Chernobyl disaster.[1][22] He elaborated on the responses of sheep farmers in Cumbria, who had been subjected to administrative restrictions because of radioactive contamination, allegedly caused by the nuclear accident at Chernobyl in 1986.[22] The sheep farmers suffered economic losses and their resistance against the regulation imposed was being deemed irrational and not adequate.[22] It turned out that the source of radioactivity was actually the Sellafield nuclear reprocessing complex; thus, the experts who were responsible for the duration of the restrictions were completely mistaken.[22] The example lead to various attempts to better involve local knowledge and experience of lay people and to assess its often highly geographically and historically defined background.[23] Science studies on volcanology[edit] The aftermath of the 2007 Soufrière Hills eruption in Montserrat Donovan et al. (2012) used social studies of volcanology to investigate the generation of knowledge and expert advice on various active volcanoes.[1] It contains a survey of volcanologists carried out during 2008 and 2009 and interviews with scientists in the UK, Montserrat, Italy and Iceland during fieldwork seasons. Donovan et al. (2012) asked the experts about the felt purpose of volcanology and what they considered the most important eruptions in historical time. The survey tries to identify eruptions that had an influence on volcanology as a science and to assess the role of scientists in policymaking.[1] A main focus was on the impact of the Montserrat eruption 1997. The eruption, a classical example of the black swan theory[24] directly killed (only) 19 persons. However the outbreak had major impacts on the local society and destroyed important infrastructure, as the island's airport.[25] About 7,000 people, or two-thirds of the population, left Montserrat; 4,000 to the United Kingdom.[26] The Montserrat case put immense pressure on volcanologists, as their expertise suddenly became the primary driver of various public policy approaches.[1] The science studies approach provided valuable insights in that situation.[1] There were various miscommunications among scientists. Matching scientific uncertainty (typical of volcanic unrest) and the request for a single unified voice for political advice was a challenge.[1] The Montserrat Volcanologists began to use statistical elicitation models to estimate the probabilities of particular events, a rather subjective method, but allowing to synthesizing consensus and experience-based expertise step by step.[1] It involved as well local knowledge and experience.[1] Volcanology as a science currently faces a shift of its epistemological foundations of volcanology. The science started to involve more research into risk assessment and risk management. It requires new, integrated methodologies for knowledge collection that transcend scientific disciplinary boundaries but combine qualitative and quantitative outcomes in a structured whole.[27] Experts and democracy[edit] Science has become a major force in Western democratic societies, which depend on innovation and technology (compare Risk society) to address its risks.[28] Beliefs about science can be very different from those of the scientists themselves, for reasons of e.g. moral values, epistemology or political motivations.The designation of expertise as authoritative in the interaction with lay people and decision makers of all kind is nevertheless challenged in contemporary risk societies, as suggested by scholars who follow Ulrich Beck's theorisation. The role of expertise in contemporary democracies is an important theme for debate among science studies scholars. Some argue for a more widely distributed, pluralist understanding of expertise (Sheila Jasanoff and Brian Wynne, for example), while others argue for a more nuanced understanding of the idea of expertise and its social functions (Collins and Evans, for example).[29][30] See also[edit] Logology (study of science) Merton thesis Public awareness of science Science and technology studies Science and technology studies in India Sokal affair References[edit] ^ a b c d e f g h i j k l m n Amy Donovan, Clive Oppenheimer, Michael Bravo. Social studies of volcanology: knowledge generation and expert advice on active volcanoes. Bulletin of Volcanology, Springer Verlag (Germany), 2012, 74 (3), pp.677-689. doi:<10.1007/s00445-011-0547-z insu-00691620 ^ Martello M (2004) Global change science and the Arctic citizen.Sci Public Policy 31(2):107–115 ^ Jasanoff S (ed) (2004) States of knowledge: the co-production of science and social order. Routledge, Abingdon ^ International Studies in the Philosophy of Science Volume 16, Issue 1, 2002, Recent work on aesthetics of science DOI:10.1080/02698590120118783 James W. McAllister pages 7-11, 21 Jul 2010 ^ Zeichen für Kunst: Zur Organisierbarkeit von Kreativität Detlev Nothnagel, ZfS, Band 29, Heft 4/2007 ZfS, Band 29, Heft 4/2007 ISBN 978-3-86057-887-2 ^ Organisierte Kreativität: Die vielen Gesichter der Innovation, Rene J.Jorna, in Zeichen für Kunst: Zur Organisierbarkeit von Kreativität Detlev Nothnagel, ZfS, Band 29, Heft 4/2007 ZfS, Band 29, Heft 4/2007 ISBN 978-3-86057-887-2 ^ Traweek, Sharon (1992). Beamtimes and lifetimes: the world of high energy physicists. Cambridge, Massachusetts: Harvard University Press. ISBN 9780674044449. ^ Mario Biagioli: The science studies reader. Routledge, New York 1999, ISBN 0-415-91867-7 ^ Derek de Solla Price: Little Science, Big Science. Von der Studierstube zur Großforschung. Suhrkamp, 1982, ISBN 978-3518076484. ^ Matthias Kölbel: Wissensmanagement in der Wissenschaft, Berlin: Gesellschaft für Wissenschaftsforschung e.V. c/o Inst. f. Bibliotheks- und Informationswissenschaft der Humboldt-Universität zu Berlin, 2002, elektronische Bereitstellung 2011. ^ David Bloor, "The strengths of the strong programme." Scientific rationality: The sociological turn (Springer Netherlands, 1984) pp. 75-94. ^ Wiebe E. Bijker, et al. The social construction of technological systems: New directions in the sociology and history of technology (MIT press, 2012) ^ Harry M. Collins, "Introduction: Stages in the empirical programme of relativism." Social studies of science (1981): 3-10. in JSTOR ^ a b Latour, Bruno (March 2000). "When things strike back: a possible contribution of 'science studies' to the social sciences" (PDF). British Journal of Sociology. 51 (1): 107–123. doi:10.1111/j.1468-4446.2000.00107.x. ^ In premodern times (and various languages) the term both meant an object and an assembly ^ Lash, Scott (1999). Objects that judge: Latour's parliament of things, in another modernity, a different rationality. Oxford: Blackwell. ISBN 9780631164999. ^ An Introduction to Science and Technology Studies Sergio Sismondo John Wiley & Sons, 17.08.2011. ^ MIT web.mit.edu Retrieved on 2009-02-21 ^ Ecoles Polytechniques Fédérales de Lausanne Archived 2012-07-12 at Archive.today mappingcontroversies.epfl.ch Retrieved on 2009-02-21 ^ University of Manchester Archived 2009-05-15 at the Wayback Machine mappingcontroversies.co.uk Retrieved on 2009-02-16 ^ Social Studies of Science April 2002 vol. 32 no. 2 235-296 The Third Wave of Science Studies Studies of Expertise and Experience H.M. Collins and Robert Evans doi: 10.1177/0306312702032002003 ^ a b c d Wynne B (1989) Sheepfarming after Chernobyl: a case study in communicating scientific information. Environment 31(2):33–39. ^ Lash, Scott; Szerszynski, Bronislaw; Wynne, Brian (1996). Risk, environment and modernity: towards a new ecology. Theory, culture & society. London: Sage Publications. doi:10.4135/9781446221983. ISBN 978-0803979376. ^ Donovan et al. (2012) cite Taleb NN (2007) The black swan: the impact of the highly improbable. Allen Lane, London. ^ "BBC country profile: Montserrat". BBC News. 22 September 2009. Retrieved 2008-03-08. ^ "Montserrat evacuation remembered". BBC. 12 September 2005. Retrieved 19 November 2010. ^ Horlick-Jones T, Sime J (2004) Living on the border: knowledge, risk and transdisciplinarity. Futures 36(4):441 ^ Ulrich Beck (1992). Risk Society: Towards a New Modernity. New Delhi: Sage Publications. ISBN 978-0803983465. (in German: Die Risikogesellschaft 1986) ^ Collins, Harry; Evans, Robert (2007). Rethinking Expertise. University of Chicago Press. ISBN 978-0226113623. ^ Collins, Harry (2004). "Interactional expertise as a third kind of knowledge". Phenomenology and the Cognitive Sciences. 3 (2): 125–143. doi:10.1023/B:PHEN.0000040824.89221.1a. ISSN 1568-7759. S2CID 143072688. Bibliography[edit] Science studies, general Bauchspies, W., Jennifer Croissant and Sal Restivo: Science, Technology, and Society: A Sociological Perspective (Oxford: Blackwell, 2005). Biagioli, Mario, ed. The Science Studies Reader (New York: Routledge, 1999). Bloor, David; Barnes, Barry & Henry, John, Scientific knowledge: a sociological analysis (Chicago: University Press, 1996). Gross, Alan. Starring the Text: The Place of Rhetoric in Science Studies. Carbondale: SIU Press, 2006. Fuller, Steve, The Philosophy of Science and Technology Studies (New York: Routledge, 2006). Hess, David J. Science Studies: An Advanced Introduction (New York: NYU Press, 1997). Jasanoff, Sheila, ed. Handbook of science and technology studies (Thousand Oaks, Calif.: Sage Publications, 1995). Latour, Bruno, "The Last Critique," Harper's Magazine (April 2004): 15–20. Latour, Bruno. Science in Action. Cambridge. 1987. Latour, Bruno, "Do You Believe in Reality: News from the Trenches of the Science Wars," in Pandora's Hope (Cambridge: Harvard University Press, 1999) Vinck, Dominique. The Sociology of Scientific Work. The Fundamental Relationship between Science and Society (Cheltenham: Edward Elgar, 2010). Wyer, Mary; Donna Cookmeyer; Mary Barbercheck, eds. Women, Science and Technology: A Reader in Feminist Science Studies, Routledge 2001 Objectivity and truth Haraway, Donna J. "Situated Knowledges: The Science Question in Feminism and the Privilege of Partial Perspective," in Simians, Cyborgs, and Women: the Reinvention of Nature (New York: Routledge, 1991), 183–201. Originally published in Feminist Studies, Vol. 14, No. 3 (Autumn, 1988), pp. 575–599. (available online) Foucault, Michel, "Truth and Power," in Power/Knowledge (New York: Pantheon Books, 1997), 109–133. Porter, Theodore M. Trust in Numbers: The Pursuit of Objectivity in Science and Public Life (Princeton: Princeton University Press, 1995). Restivo, Sal: "Science, Society, and Values: Toward a Sociology of Objectivity" (Lehigh PA: Lehigh University Press, 1994). Medicine and biology Dumit, Joseph (2003). Picturing Personhood: Brain Scans and Biomedical Identity. Princeton: Princeton University Press. Fadiman, Anne (1997). The Spirit Catches You and You Fall Down. New York: Farrar, Straus and Giroux. Martin, Emily (1999). "Toward an Anthropology of Immunology: The Body as Nation State". In Biagioli, Mario (ed.). The Science Studies Reader. New York: Routledge. pp. 358–71. Media, culture, society and technology Hancock, Jeff. Deception and design: the impact of communication technology on lying behavior Lessig, Lawrence. Free Culture. Penguin USA, 2004. ISBN 1-59420-006-8 MacKenzie, Donald. The Social Shaping of Technology Open University Press: 2nd ed. 1999. ISBN 0-335-19913-5 Mitchell, William J. Rethinking Media Change Thorburn and Jennings eds. Cambridge, Massachusetts : MIT Press, 2003. Postman, Neil. Amusing Ourselves to Death: Public Discourse in the Age of Show Business. Penguin USA, 1985. ISBN 0-670-80454-1 Rheingold, Howard. Smart Mobs: The Next Social Revolution. Cambridge: Mass., Perseus Publishing. 2002. External links[edit] Wikimedia Commons has media related to Science studies. Sociology of Science, an introductory article by Joseph Ben-David & Teresa A. 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