Post-normal science
Encyclopedia
Post-Normal Science is a concept developed by Silvio Funtowicz and Jerome Ravetz
, attempting to characterise a methodology of inquiry that is appropriate for cases where "facts are uncertain, values in dispute, stakes high and decisions urgent" (Funtowicz and Ravetz, 1991). It is primarily applied in the context of long-term issues where there is less available information than is desired by stakeholders.
According to its advocates, "post-normal science" is simply an extension of situations routinely faced by experts such as surgeons or senior engineers on unusual projects, where the decisions being made are of great importance but where not all the factors are necessarily knowable. Although their work is based on science, such individuals must always cope with uncertainties, and their mistakes can be costly or lethal.
Because of this, advocates of post-normal science suggest that there must be an "extended peer community" consisting of all those affected by an issue who are prepared to enter into dialogue on it. They bring their "extended facts", that will include local knowledge and materials not originally intended for publication such as leaked official information. There is a political case for this extension of the franchise of science; but Funtowicz and Ravetz also argue that this extension is necessary for assuring the quality of the process and of the product.
in The Structure of Scientific Revolutions
, introduced the concept of normal science
as part of his theory that scientific knowledge progresses through socially constructed paradigm shifts, where normal science is what most scientists do all the time and what all scientists do most of the time. The process of paradigm shifts is basically as follows:
A clear illustration of the theory in practice is the Copernican revolution where Copernicus’ idea of a solar system was largely ignored (not in the rules) when first introduced, then Galileo was deemed a heretic (rules called into question), and after a revolution in cosmology, the solar system is taken as an obvious and foundational part of scientific knowledge (new rules).
Another good example is the question of whether light is a particle or a wave. For a long time there was a debate on this point, where advocates on both sides of the debate had many valid arguments based on scientific perspectives, but were lacking the theory that would resolve the conflict. And then there was a revolution in thinking wherein they realized it was possible for both theories to be true.
James J. Kay
described post-normal science as a process that recognizes the potential for gaps in knowledge and understanding that cannot be resolved other than through revolutionary science, thereby arguing that (between revolutions) one should not necessarily attempt to resolve or dismiss contradictory perspectives of the world (whether they are based on science or not), but instead incorporate multiple viewpoints into the same problem-solving process.
Few mainstream scientists advocate the approaches taken by post-normal science, even among those who agree with the goals of Funtowicz and Ravetz, though the idea has gained some publicity in recent times, appearing prominently in an article published in The Guardian
in March 2007 . Some argue that there seems to be little to distinguish post-normal science from the skewed cargo cult science
described by Richard Feynman
in 1974.
Jerome Ravetz
Jerome Ravetz is an environmental consultant and academic.He has written on the philosophy of science. He is best known for his books challenging the assumptions of scientific objectivity, discussing the science wars and post-normal science...
, attempting to characterise a methodology of inquiry that is appropriate for cases where "facts are uncertain, values in dispute, stakes high and decisions urgent" (Funtowicz and Ravetz, 1991). It is primarily applied in the context of long-term issues where there is less available information than is desired by stakeholders.
According to its advocates, "post-normal science" is simply an extension of situations routinely faced by experts such as surgeons or senior engineers on unusual projects, where the decisions being made are of great importance but where not all the factors are necessarily knowable. Although their work is based on science, such individuals must always cope with uncertainties, and their mistakes can be costly or lethal.
Because of this, advocates of post-normal science suggest that there must be an "extended peer community" consisting of all those affected by an issue who are prepared to enter into dialogue on it. They bring their "extended facts", that will include local knowledge and materials not originally intended for publication such as leaked official information. There is a political case for this extension of the franchise of science; but Funtowicz and Ravetz also argue that this extension is necessary for assuring the quality of the process and of the product.
Context
In 1962 Thomas KuhnThomas Kuhn
Thomas Samuel Kuhn was an American historian and philosopher of science whose controversial 1962 book The Structure of Scientific Revolutions was deeply influential in both academic and popular circles, introducing the term "paradigm shift," which has since become an English-language staple.Kuhn...
in The Structure of Scientific Revolutions
The Structure of Scientific Revolutions
The Structure of Scientific Revolutions , by Thomas Kuhn, is an analysis of the history of science. Its publication was a landmark event in the history, philosophy, and sociology of scientific knowledge and it triggered an ongoing worldwide assessment and reaction in — and beyond — those scholarly...
, introduced the concept of normal science
Normal science
Normal Science is a concept originated by Thomas Samuel Kuhn and elaborated in The Structure of Scientific Revolutions. The term refers to the routine work of scientists experimenting within a paradigm, slowly accumulating detail in accord with established broad theory, not actually challenging or...
as part of his theory that scientific knowledge progresses through socially constructed paradigm shifts, where normal science is what most scientists do all the time and what all scientists do most of the time. The process of paradigm shifts is basically as follows:
- from normal science (the rules are agreed upon or disagreed upon in debates that cannot be concluded; science is puzzle solving, but some contradictions in theory cannot be resolved)
- to revolutionary science (important rules are called into question; contradictions may be resolved; paradigms shift)
- to new normal science (new rules are accepted, science returns to puzzle solving under new rules).
A clear illustration of the theory in practice is the Copernican revolution where Copernicus’ idea of a solar system was largely ignored (not in the rules) when first introduced, then Galileo was deemed a heretic (rules called into question), and after a revolution in cosmology, the solar system is taken as an obvious and foundational part of scientific knowledge (new rules).
Another good example is the question of whether light is a particle or a wave. For a long time there was a debate on this point, where advocates on both sides of the debate had many valid arguments based on scientific perspectives, but were lacking the theory that would resolve the conflict. And then there was a revolution in thinking wherein they realized it was possible for both theories to be true.
James J. Kay
James J. Kay
James J. Kay was an ecological scientist and policy-maker. He was a respected physicist best known for his theoretical work on complexity and thermodynamics.-Biography:...
described post-normal science as a process that recognizes the potential for gaps in knowledge and understanding that cannot be resolved other than through revolutionary science, thereby arguing that (between revolutions) one should not necessarily attempt to resolve or dismiss contradictory perspectives of the world (whether they are based on science or not), but instead incorporate multiple viewpoints into the same problem-solving process.
Criticism
Detractors of post-normal science, conversely, see it as a method of trying to impose a given set of actions despite a lack of evidence for them, and as a method of silencing dissident voices calling for caution by accusing them of hidden biases. Many consider post-normal science an attempt to ignore proper scientific methods in an attempt to substitute inferior methodology in service of political goals. Practitioners advocating post normal science methods defend their methods, suggesting that their methodologies are not to be considered replacements for dealing with those situations in which normal science works sufficiently well.Few mainstream scientists advocate the approaches taken by post-normal science, even among those who agree with the goals of Funtowicz and Ravetz, though the idea has gained some publicity in recent times, appearing prominently in an article published in The Guardian
The Guardian
The Guardian, formerly known as The Manchester Guardian , is a British national daily newspaper in the Berliner format...
in March 2007 . Some argue that there seems to be little to distinguish post-normal science from the skewed cargo cult science
Cargo cult science
Cargo cult science refers to practices that have the semblance of being scientific, but are missing "a kind of scientific integrity, a principle of scientific thought that corresponds to a kind of utter honesty". The term was first used by the physicist Richard Feynman during his commencement...
described by Richard Feynman
Richard Feynman
Richard Phillips Feynman was an American physicist known for his work in the path integral formulation of quantum mechanics, the theory of quantum electrodynamics and the physics of the superfluidity of supercooled liquid helium, as well as in particle physics...
in 1974.