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date: 2013-10-08 20:44
Some notes on reading “Priorities in Scientific Discovery” in The Sociology of Science: Theoretical and Empirical Investigations 1) by Robert K. Merton.
Note: Science is often rife with conflict over priority.
For the moment, it is enough to note that these controversies, far from being a rare exception in science, have long been frequent, harsh, and ugly. They have practically become an integral part of the social relations between scientists. Indeed, the patter is so common that the Germans have characteristically compounded a word for it, Prioritätsstreit (p. 289).
Note: Merton makes a very important point here about causation and disputes over priority.
The bunching of similar or identical discoveries in science is only an occasion for disputes over priority, not their cause or their grounds (p. 289).
And this line lays out the work for him in this article–to explain what that cause is.
Note: Merton's causal explanation–emphasis to point out the causal factor:
In this sense, fights over priority, with all their typical vehemence and passionate feelings, are not merely expressions of hot tempers, although these may of course raise the temperature of controversy; basically, they constitute responses to what are taken to be violations of the institutional norms of intellectual property [emphasis added] (p. 293).
Where the “institutional norms of intellectual property” are here a subset of the institutional norms of science:
it is these norms that exert pressure upon scientists to assert their claims (p. 293).
And here's the implication (or the kicker):
This means that long before we know anything about the distinctive personality of this or that scientist, we know that he will be under pressure to make his contributions to knowledge known to other scientists and that they, in turn, will be under pressure to acknowledge his rights to his intellectual property (p. 294).
And here's the other part of that:
But the great frequency of struggles over priority does not result merely from these traits of individual scientists but from the institution of science, which defines originality as a supreme value and thereby makes recognition of one's originality a major concern (p. 294).
Reflection: By peer reviewing based on the soundness of the science rather than the originality or the novelty of the science in a submission, PeerJ either positions (attempts to?) itself outside this institution, so that it can divorce or separate itself and perhaps also revolt; or it positions (attempts to?) itself underneath this institution, so that it can provide a stronger foundation for the institution that has long been. Which?
Note: Now on to the reward system in science.
The award system is “elaborate” and constantly evolving:
Like other institutions, the institution of science has developed an elaborate system for allocating rewards to those who variously live up to its norms. Of course, this was not always so. The evolution of this system has been the work of centuries, and it will of course never be finished (p. 297).
Type of awards:
Heading the list of the immensely varied forms of recognition in use is eponymy, the practice of affixing the name of the scientist to all or part of what he has found, as with the Copernican system, Hooke's law, Planck's constant, or Halley's comet. In this way, scientists leave their signatures indelibly in history; their names enter into all the scientific languages of the world (p. 298).
Merton proceeds to describe all the ways eponymy manifests itself in the sciences.
Eponymy is a prize that, though large in absolute aggregate, is limited to the relatively few (p. 300).
There is even, of course, abuse of the system (see last full paragraph on p. 300, if necessary).
Other types of awards:
Note: On to humility.
the socially enforced value of humility is in most immediate point, serving, as it does, to reduce the misbehavior of scientists below the rate that would occur if importance were assigned only to originality and the establishing of priority (p. 303).