BackgroundStudies combining experimental evolution and next-generation sequencing have found that adaptation in sexually reproducing populations is primarily fueled by standing genetic variation. Consequently, the response to selection is rapid and highly repeatable across replicate populations. Some studies suggest that the response to selection is highly repeatable at both the phenotypic and genomic levels, and that evolutionary history has little impact. Other studies suggest that even when the response to selection is repeatable phenotypically, evolutionary history can have significant impacts at the genomic level. Here we test two hypotheses that may explain this discrepancy. Hypothesis 1: Past intense selection reduces evolutionary re...
Experimental evolution studies are powerful approaches to examine the evolutionary history of lab po...
What are the genomic foundations of adaptation in sexual populations? We address this question using...
The genetic architecture of adaptive traits is of key importance to predict evolutionary responses. ...
The combination of experimental evolution and next-generation sequencing, termed E&R, has emerge...
Experimental evolutionary genomics now allows biologists to test fundamental theories concerning the...
The molecular mechanisms underlying adaptation have eluded evolutionary biologists even with the adv...
The relationship between population size, inbreeding, loss of genetic variation and evolutionary pot...
Laboratory selection experiments are alluring in their simplicity, power, and ability to inform us a...
Evolution depends on genetic variation generated by mutation or recombination from standing genetic ...
Artificial selection experiments often confer important information on the genetic correlations cons...
<div><p>The roles of history, chance and selection have long been debated in evolutionary biology. T...
Artificial selection experiments often confer important information on the genetic correlations cons...
The roles of history, chance and selection have long been debated in evolutionary biology. Though un...
Experimental evolution is a powerful tool to understand the adaptive potential of populations under ...
Two interesting unanswered questions are the extent to which both the broad patterns and genetic det...
Experimental evolution studies are powerful approaches to examine the evolutionary history of lab po...
What are the genomic foundations of adaptation in sexual populations? We address this question using...
The genetic architecture of adaptive traits is of key importance to predict evolutionary responses. ...
The combination of experimental evolution and next-generation sequencing, termed E&R, has emerge...
Experimental evolutionary genomics now allows biologists to test fundamental theories concerning the...
The molecular mechanisms underlying adaptation have eluded evolutionary biologists even with the adv...
The relationship between population size, inbreeding, loss of genetic variation and evolutionary pot...
Laboratory selection experiments are alluring in their simplicity, power, and ability to inform us a...
Evolution depends on genetic variation generated by mutation or recombination from standing genetic ...
Artificial selection experiments often confer important information on the genetic correlations cons...
<div><p>The roles of history, chance and selection have long been debated in evolutionary biology. T...
Artificial selection experiments often confer important information on the genetic correlations cons...
The roles of history, chance and selection have long been debated in evolutionary biology. Though un...
Experimental evolution is a powerful tool to understand the adaptive potential of populations under ...
Two interesting unanswered questions are the extent to which both the broad patterns and genetic det...
Experimental evolution studies are powerful approaches to examine the evolutionary history of lab po...
What are the genomic foundations of adaptation in sexual populations? We address this question using...
The genetic architecture of adaptive traits is of key importance to predict evolutionary responses. ...