Multilevel Selection: Difference between revisions
New page: '''Multilevel selection''' describes the interaction of multiple evolutionary processes on different scales. It has been proposed by David Sloan Wilson and Edward O. Wilson (*). The envir... |
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'''Multilevel selection''' describes the interaction of multiple evolutionary processes on different scales. | '''Multilevel selection''' describes the interaction of multiple evolutionary processes on different scales. | ||
It has been proposed by David Sloan Wilson and Edward O. Wilson (*). | It has been proposed by David Sloan Wilson and Edward O. Wilson (*). | ||
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* Level of the group: selection between individuals within a group | * Level of the group: selection between individuals within a group | ||
* Level of the population: selection between groups within a population | * Level of the population: selection between groups within a population | ||
These levels are nested and therefore related to each other. | |||
Usually different evolutionary systems are not related | |||
to each other (for example cosmic/stellar | |||
evolution and biological evolution). They can | |||
influence each other only if they share a | |||
comon phenotype, for example a group of agents. | |||
For an evolutionary process we need an inheritable | For an evolutionary process we need an inheritable | ||
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== Links == | == Links == | ||
* | * American Scientist articles from David Sloan Wilson and Edward O. Wilson (*) [http://www.americanscientist.org/issues/feature/evolution-for-the-good-of-the-group Evolution for the "Good of the Group"] | ||
[[Category:Basic Principles]] [[Category:Evolutionary Principles]] | |||
Latest revision as of 12:15, 4 October 2008
Multilevel selection describes the interaction of multiple evolutionary processes on different scales. It has been proposed by David Sloan Wilson and Edward O. Wilson (*). The environment of an organism in the real world is complex: one can distinguish between the level of the genes, cells, individuals or organisms, groups, species, populations and societies. The fitness of an individual is a result of the particular fitness to survive and interact on all these levels.
The concept of natural selection can be meaningful applied to different levels:
- Level of the gene: selection between genes within an individual
- Level of the group: selection between individuals within a group
- Level of the population: selection between groups within a population
These levels are nested and therefore related to each other. Usually different evolutionary systems are not related to each other (for example cosmic/stellar evolution and biological evolution). They can influence each other only if they share a comon phenotype, for example a group of agents.
For an evolutionary process we need an inheritable trait and a carrier in form of a code. Otherwise it makes no sense to speak of selection. If selection acts on groups, then they must be suitable 'vehicles' for selection. They must be able to pass their traits, habits, behavior - in form of memes, for instance through learning. New group members have to learn the group behavior in the process of group socialization.
Links
- American Scientist articles from David Sloan Wilson and Edward O. Wilson (*) Evolution for the "Good of the Group"
