Non-genetic influences on phenotypic traits can affect our interpretation of genetic variance and the evolutionary potential of populations to respond to selection, with consequences for our ability to predict the outcomes of selection. Long-term population surveys and experiments have shown that quantitative genetic estimates are influenced by nongenetic effects, including shared environmental effects, epigenetic effects, and social interactions. Recent developments to the "animal model" of quantitative genetics can now allow us to calculate precise individual-based measures of non-genetic phenotypic variance. These models can be applied to a much broader range of contexts and data types than used previously, with the potential to greatly ...
Non-additive genetic variation is usually ignored when genome-wide markers are used to study the gen...
Phenotypic variability of a genotype is relevant both in natural and domestic populations. In the pa...
Quantitative genetics can be used to understand how traits will respond to artificial selection regi...
Non-genetic influences on phenotypic traits can affect our interpretation of genetic variance and th...
1. Efforts to understand the links between evolutionary and ecological dynamics hinge on our ability...
This paper reviews models for phenotypic plasticity in evolutionary genetics and animal breeding and...
Considerable attention has been paid to estimating genetic variability in quantitative traits and to...
Abstract Background: The animal model is a key tool in quantitative genetics and has been used exte...
Background The animal model is a key tool in quantitative genetics and has been used extensively to ...
Abstract: When individuals interact, their phenotypes may be affected not only by their own genes bu...
Quantifying and predicting microevolutionary responses to environmental change requires unbiased est...
Quantitative genetics provides a powerful framework for studying phenotypic evolution and the evolut...
This work was funded by a European Research Council Starting Grant to JMR. We thank Loeske Kruuk, Ka...
The genetic variance-covariance (G) matrix describes the variances and covariances of genetic traits...
When individuals interact, their phenotypes may be affected by genes in their social partners, a phe...
Non-additive genetic variation is usually ignored when genome-wide markers are used to study the gen...
Phenotypic variability of a genotype is relevant both in natural and domestic populations. In the pa...
Quantitative genetics can be used to understand how traits will respond to artificial selection regi...
Non-genetic influences on phenotypic traits can affect our interpretation of genetic variance and th...
1. Efforts to understand the links between evolutionary and ecological dynamics hinge on our ability...
This paper reviews models for phenotypic plasticity in evolutionary genetics and animal breeding and...
Considerable attention has been paid to estimating genetic variability in quantitative traits and to...
Abstract Background: The animal model is a key tool in quantitative genetics and has been used exte...
Background The animal model is a key tool in quantitative genetics and has been used extensively to ...
Abstract: When individuals interact, their phenotypes may be affected not only by their own genes bu...
Quantifying and predicting microevolutionary responses to environmental change requires unbiased est...
Quantitative genetics provides a powerful framework for studying phenotypic evolution and the evolut...
This work was funded by a European Research Council Starting Grant to JMR. We thank Loeske Kruuk, Ka...
The genetic variance-covariance (G) matrix describes the variances and covariances of genetic traits...
When individuals interact, their phenotypes may be affected by genes in their social partners, a phe...
Non-additive genetic variation is usually ignored when genome-wide markers are used to study the gen...
Phenotypic variability of a genotype is relevant both in natural and domestic populations. In the pa...
Quantitative genetics can be used to understand how traits will respond to artificial selection regi...