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Phenotypic plasticity



  The ability of an organism with a given genotype to change its phenotype in response to changes in the environment is called phenotypic plasticity. Such plasticity in some cases expresses as several highly morphologically distinct results; in other cases, a continuous norm of reaction describes the functional interrelationship of a range of environments to a range of phenotypes. The term was originally conceived in the context of development, but is now more broadly applied to include changes that occur during the adult life of an organism, such as behaviour.

Organisms of fixed genotype may differ in the amount of phenotypic plasticity they display when exposed to the same environmental change. Hence phenotypic plasticity can evolve and be adaptive if fitness is increased by changing phenotype. Immobile organisms such as plants have well developed phenotypic plasticity giving a clue to the adaptive significance of plasticity.

A highly illustrative example of phenotypic plasticity is found in the social insects, colonies of which depend on the division of their members into distinct castes, such as workers and guards. These two castes differ dramatically in appearance and behaviour. However, these differences are not genetic; they arise during development and depend on the manner of treatment of the eggs by the queen and the workers, who manipulate such factors as embryonic diet and incubation temperature. The genome of each individual contains all the instructions needed to develop into any one of several 'morphs', but only the genes that form part of one developmental program are activated.

In epidemiology, a popular theory is that rising incidences of coronary heart disease and Type II diabetes in human populations undergoing industrialization is due to a mismatch between a metabolic phenotype determined in development and the nutritional environment an individual is subsequently exposed to. This is known as the 'Thrifty phenotype' hypothesis (see Evolutionary psychology).

See also


Further reading

  • Mary Jane West-Eberhard (2003). Developmental Plasticity and Evolution. Oxford University Press. 
v  d  e
The development of phenotype
Key conceptsGenotype-phenotype distinction · Norms of reaction · Gene-environment interaction · Heritability · Quantitative genetics
Genetic architectureDominance relationship · Epistasis · Polygenic inheritance · Pleiotropy · Plasticity · Canalisation · Fitness landscape
Non-genetic influencesEpigenetics · Maternal effect · Dual inheritance theory
Developmental architectureSegmentation · Modularity
Evolution of genetic systemsEvolvability · Mutational robustness · Evolution of sex
Influential figuresC. H. Waddington · Richard Lewontin
DebatesNature versus nurture
List of evolutionary biology topics
 
This article is licensed under the GNU Free Documentation License. It uses material from the Wikipedia article "Phenotypic_plasticity". A list of authors is available in Wikipedia.
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