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  1. The Fifth Branch: Science Advisers as Policymakers.Sheila Jasanoff - 1990 - Harvard Univ Press.
    These are just some of the many controversial and timely questions that Sheila Jasanoff asks in this study of the way science advisers shape federal policy.
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  • The sociology of science: theoretical and empirical investigations.Robert King Merton - 1973 - Chicago: University of Chicago Press. Edited by Norman W. Storer.
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  • Science in action: how to follow scientists and engineers through society.Bruno Latour - 1987 - Cambridge: Harvard University Press.
    In this book Bruno Latour brings together these different approaches to provide a lively and challenging analysis of science, demonstrating how social context..
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  • Science in context: readings in the sociology of science.Barry Barnes & David O. Edge (eds.) - 1982 - Cambridge: MIT Press.
    This collection of eighteen readings provides a basic text for undergraduates taking sociology of science courses. A general survey of articles published between 1961 and 1981, the book is also a useful overview for students taking courses in social and political studies of science; science, technology, and society; and "social issues" components of courses in the environmental sciences, geography, philosophy, and history of science. The editors have organized the book around "the relationship between the subculture of science and the wider (...)
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  • The structure of scientific inference.Mary B. Hesse - 1974 - [London]: Macmillan.
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  • Science and the sociology of knowledge.Michael Mulkay - 1979 - Boston: G. Allen & Unwin.
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  • The Structure of Scientific Inference.Robert L. Causey - 1976 - Philosophical Review 85 (1):137.
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  • How values in scientific discovery and pursuit Alter theory appraisal.Kevin C. Elliott & Daniel J. McKaughan - 2009 - Philosophy of Science 76 (5):598-611.
    Philosophers of science readily acknowledge that nonepistemic values influence the discovery and pursuit of scientific theories, but many tend to regard these influences as epistemically uninteresting. The present paper challenges this position by identifying three avenues through which nonepistemic values associated with discovery and pursuit in contemporary pollution research influence theory appraisal: (1) by guiding the choice of questions and research projects, (2) by altering experimental design, and (3) by affecting the creation and further investigation of theories or hypotheses. This (...)
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  • The Sociology of Science: Theoretical and Empirical Investigations.Robert K. Merton & Norman Storer - 1974 - Science and Society 38 (2):228-231.
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  • Values and Objectivity in Science: The Current Controversy About Transgenic Crops.Hugh Lacey - 2005 - Lexington Books.
    This book offers an account of how values play an important role within scientific practices, and how this account illuminates many ethical issues that arise concerning scientific practices and applications.
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  • Challenging the dogma: the hidden layer of non-protein-coding RNAs in complex organisms.John S. Mattick - 2003 - Bioessays 25 (10):930-939.
    The central dogma of biology holds that genetic information normally flows from DNA to RNA to protein. As a consequence it has been generally assumed that genes generally code for proteins, and that proteins fulfil not only most structural and catalytic but also most regulatory functions, in all cells, from microbes to mammals. However, the latter may not be the case in complex organisms. A number of startling observations about the extent of non-protein-coding RNA (ncRNA) transcription in the higher eukaryotes (...)
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  • Ethics of risk analysis and regulatory review: From bio- to nanotechnology. [REVIEW]Jennifer Kuzma & John C. Besley - 2008 - NanoEthics 2 (2):149-162.
    Risk analysis and regulatory systems are usually evaluated according to utilitarian frameworks, as they are viewed to operate “objectively” by considering the health, environmental, and economic impacts of technological applications. Yet, the estimation of impacts during risk analysis and the decisions in regulatory review are affected by value choices of actors and stakeholders; attention to principles such as autonomy, justice, and integrity; and power relationships. In this article, case studies of biotechnology are used to illustrate how non-utilitarian principles are prominent (...)
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  • The Structure of Scientific Inference, By M. B. Hesse. [REVIEW]Jon Dorling - 1975 - British Journal for the Philosophy of Science 26 (1):61-71.
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  • Finding a precautionary approach to technological developments – lessons for the evaluation of GM crops.Sue Mayer & Andy Stirling - 2002 - Journal of Agricultural and Environmental Ethics 15 (1):57-71.
    The introduction of genetically modified (GM) crops and foods into Europe has generated considerable controversy. Despite a risk assessment system that is intended to beprecautionary in nature, the decisions thathave been taken have not gathered publicconfidence. Key attributes of a precautionaryappraisal system include humility,completeness, assessing benefits andjustifications, making comparisons, allowingfor public participation, transparency,diversity, and the ``mapping'' of alternativeviews rather than the prescription of singlesolutions. A comparison of the European GMregulatory system with a different (moreprecautionary) approach using a ``multi-criteriamapping'' technique reveals (...)
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  • How biotechnology regulation sets a risk/ethics boundary.Les Levidow & Susan Carr - 1997 - Agriculture and Human Values 14 (1):29-43.
    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). (...)
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