Abstract
Ambiguity associated with everyday practice of science has made it difficult to reach a consensus on how to define misconduct in science. This essay outlines some of the important ambiguities of practice such as distinguishing data from noise, deciding whether results falsify a hypothesis, and converting research into research publications. The problem of ambiguity is further compounded by the prior intellectual commitments inherent in choosing problems and in dealing with the skepticism of one's colleagues. In preparing a draft code of ethics for the American Society of Biochemistry and Molecular Biology (ASBMB), an attempt was made to take into account the ambiguities of practice. Also, the draft code adopted trust as its leading principle, specifically the importance of trust as a condition necessary for there to be science. During revision of the code, the focus on trust was changed. The new orientation was on trust as a consequence of carrying out science responsibly. By addressing the obligations necessary to engender trust, the ASBMB ethics code not only sets professional standards, but also makes a clear statement of public accountability.
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References
Merton, R.K. (1973) The normative structure of science (1942). In: Merton, R.K. & Storer, N.W. (eds.), The Sociology of Science: Theoretical and Empirical Investigations, University of Chicago Press, Chicago, USA, pp. 267–278.
Department of Heath and Human Services (1989) Responsibilities of PHS awardee and applicant institutions for dealing with and reporting possible misconduct in science: Final Rule. Federal Register 54: 32446–32451.
National Science Foundation (1991) Misconduct in science and engineering: Final rule. Federal Register 56: 22286–22290.
National Academy of Science, Committee on Science Engineering and Public Policy (1992) Responsible Science: Ensuring the Integrity of the Research Process. Vol I: Panel on Scientific Responsibility and the Conduct of Research, National Academy Press, Washington, D.C.
Schachman, H.K. (1993) What is misconduct in science? Science 261: 148–149.
Buzzelli D E (1993) The definition of misconduct in science: A view from NSF. Science 259: 584–585.
Commission on Research Integrity (1995) Integrity and Misconduct in Research, Public Health Service, Washington, D.C.
Grinnell, F. (1992) The Scientific Attitude, 2nd Edition, Guilford Press, New York.
Grinnell, F. (1997) Truth, fairness, and the definition of scientific misconduct. J. Lab. Clin. Med. 129: 189–192.
Medawar, P.B. (1963) Is the scientific paper a fraud? The Listener: 377–378.
Frankel, M.S. (1996) Developing ethical standards for responsible research: Why? Form? Functions? Process? Outcomes? Dent Res 75: 832–835.
Whitbeck C (1995) Trustworthy Research, Science and Engineering Ethics 1: 321–426.
Medawar, P.B. (1984) The Limits of Science, Harper and Row, New York.
Shepherd, J. (1966) In God We Trust, All Others Pay Cash, Doubleday, New York.
http://www.faseb.org/asbmb/ethics.htm
ASBMB News (1998) An ASBMB Code of Ethics Approved by Council, vol. VII No. 2 (March–April), p. 5.
U.S. House of Representatives, Committee on Science and Technology, Subcommittee on Investigations and Oversight (1981) Fraud in Biomedical Research, U.S. Government Printing Office, Washington, D.C.
Grinnell, F. (1993) Industrial sponsors and the scientist. Journal of NIH Research 5: 50–51.
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Grinnell, F. Ambiguity, trust, and the responsible conduct of research. SCI ENG ETHICS 5, 205–214 (1999). https://doi.org/10.1007/s11948-999-0011-z
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DOI: https://doi.org/10.1007/s11948-999-0011-z