Metasystem transition
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A metasystem transition is the emergence, through evolution, of a higher level of organization or control.
Prime examples are the origin of life, the transition from unicellular to multicellular organisms, and the emergence of symbolic thought. A metasystem is formed by the integration of a number of initially independent components, such as molecules, cells or individiduals, and the emergence of a system steering or controlling their interactions. As such, the collective of components becomes a new, goal-directed individual, capable of acting in a coordinated way. This metasystem is more complex, more intelligent, and more flexible in its actions than the initial component systems.
The concept of metasystem transition was introduced by the cybernetician Valentin Turchin in his 1977 book "The Phenomenon of Science", and developed among others by Francis Heylighen in the Principia Cybernetica Project. The related notion of evolutionary transition was proposed by the biologists John Maynard Smith and Eors Szathmary, in their 1995 book The Major Transitions in Evolution, and developed among others by Richard Michod.
[edit] See also
- Francis Heylighen
- Valentin Turchin
- evolutionary transition
[edit] References
- Valentin Turchin (1977): The Phenomenon of Science. A cybernetic approach to human evolution, (Columbia University Press, New York).
- Francis Heylighen (2000): "Evolutionary Transitions: how do levels of complexity emerge?", Complexity 6 (1), p. 53-57
- John Maynard Smith & Eors Szathmary (1995): The Major Transitions in Evolution, (W.H. Freeman, Oxford)
- Richard Michod (1999): Darwinian Dynamics: Evolutionary Transitions in Fitness and Individuality (Princeton University Press).