Selection on QTL and complex traits in complex environments |
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Authors: | Thomas Mitchell‐Olds |
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Affiliation: | Department of Biology, Institute for Genome Sciences & Policy, Duke University, , Durham, NC, 27708 USA |
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Abstract: | Understanding genetic variation for complex traits in heterogeneous environments is a fundamental problem in biology. In this issue of Molecular Ecology, Fournier‐Level et al. ( 2013 ) analyse quantitative trait loci (QTL) influencing ecologically important phenotypes in mapping populations of Arabidopsis thaliana grown in four habitats across its native European range. They used causal modelling to quantify the selective consequences of life history and morphological traits and QTL on components of fitness. They found phenology QTL colocalizing with known flowering time genes as well as novel loci. Most QTL influenced fitness via life history and size traits, rather than QTL having direct effects on fitness. Comparison of phenotypes among environments found no evidence for genetic trade‐offs for phenology or growth traits, but genetic trade‐offs for fitness resulted because flowering time had opposite fitness effects in different environments. These changes in QTL effects and selective consequences may maintain genetic variation among populations. |
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Keywords: | causal modelling genomic selection genotype– environment interaction natural selection
QTL
structural equation modelling |
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