Journal ArticleDOI
Genetics and Evolution of Phenotypic Plasticity
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TLDR
Phenotypic plasticity is the change in the expressed phenotype of a genotype as a function of the environment, and is likely due both to differences in allelic expression across environments and to changes in interactions among loci.Abstract:
To achieve a coherent evolutionary theory, it is necessary to account for the effects of the environment on the process of development. Phenotypic plasticity is the change in the expressed phenotype of a genotype as a function of the environment. Various measures of plasticity exist, many of which can be united within the framework of a polynomial function. This function is the norm of reaction. For the special case of a linear reaction norm, genetic variation can be partitioned into portions that are independent and dependent on the environment. From this partition two heritability measures are derived which can be used, alternatively, to compare populations or make predictions about the response to selection. Genetically, plasticity is likely due both to differences in allelic expression across environments and to changes in interactions among loci; plasticity is not a function of heterozygosity. Plasticity responds to both artificial and natural selection. The evolution of plasticity is modeled in thre...read more
Citations
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Journal ArticleDOI
Phenotypic plasticity in plants: a case study in ecological development.
TL;DR: To determine pat-terns of individual plasticity, genotypes are cloned or inbred and the genetic replicates raised in a set of controlled envi-ronments to characterize patterns of phenotypic response.
Journal ArticleDOI
The evolutionary consequences of ecological interactions mediated through phenotypic plasticity
TL;DR: Ecological interactions mediated through phenotypic plasticity are ubiquitous in nature, and the potential evolutionary consequences of these interactions illustrate the complexity inherent in understanding evolution in a community context.
Journal ArticleDOI
A single mode of canalization
TL;DR: It is concluded that evolution should produce a single mode of canalization that will buffer the phenotype against all kinds of perturbation, and that the major fitness benefit driving the fixation of canalizing alleles derives from a reduction in environmental influences on phenotypic variation.
Journal ArticleDOI
Plastic inducible morphologies are not always adaptive: the importance of time delays in a stochastic environment
TL;DR: A mathematical model for predicting the expected fitness of phenotypically plastic organisms experiencing a variable environment finds that although plasticity is generally adaptive when time lags are short, plasticity can be disadvantageous for longer lag times.
Journal ArticleDOI
Manipulative Approaches to Testing Adaptive Plasticity: Phytochrome-Mediated Shade-Avoidance Responses in Plants.
TL;DR: The genetic and physiological mechanisms underlying “shade avoidance” responses in plants are reviewed, how genetic manipulation can elucidate their adaptive value is illustrated, and the use of physiological manipulation to measure natural selection on plasticity in the wild is discussed.
References
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Journal ArticleDOI
The evolution of life histories
TL;DR: In this article, age and size at maturity at maturity number and size of offspring Reproductive lifespan and ageing are discussed. But the authors focus on the effects of age and stage structure on fertility.
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Evolution in Mendelian Populations.
TL;DR: Page 108, last line of text, for "P/P″" read "P′/ P″."
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The measurement of selection on correlated characters
Russell Lande,Stevan J. Arnold +1 more
TL;DR: Measures of directional and stabilizing selection on each of a set of phenotypically correlated characters are derived, retrospective, based on observed changes in the multivariate distribution of characters within a generation, not on the evolutionary response to selection.
Journal ArticleDOI
Stability Parameters for Comparing Varieties
S. A. Eberhart,W. A. Russell +1 more
TL;DR: The model, Yij = μ1 + β1Ij + δij, defines stability parameters that may be used to describe the performance of a variety over a series of environments to see whether genetic differences could be detected.