The relationship between population size, inbreeding, loss of genetic variation and evolutionary potential of fitness traits is still unresolved, and large-scale empirical studies testing theoretical expectations are surprisingly scarce. Here we present a highly replicated experimental evolution setup with 120 lines of Drosophila melanogaster having experienced inbreeding caused by low population size for a variable number of generations. Genetic variation in inbred lines and in outbred control lines was assessed by genotyping-by-sequencing (GBS) of pooled samples consisting of 15 males per line. All lines were reared on a novel stressful medium for 10 generations during which body mass, productivity, and extinctions were scored in each gen...
<div><p>The evolutionary history of widespread and specialized species is likely to cause a differen...
Many natural populations experience inbreeding and genetic drift as a consequence of nonrandom matin...
The genetic architecture of adaptive traits is of key importance to predict evolutionary responses. ...
The ability of populations to undergo adaptive evolution depends on the presence of genetic variatio...
BackgroundStudies combining experimental evolution and next-generation sequencing have found that ad...
A fundamental assumption underlying the importance of genetic risks within conservation biology is t...
The combination of experimental evolution and next-generation sequencing, termed E&R, has emerge...
A fundamental assumption underlying the importance of genetic risks within conservation biology is t...
Census population size, sex-ratio and female reproductive success were monitored in 10 laboratory po...
We used experimental populations of Drosophila melanogaster, which had either been subdivided (metap...
We carried out an experiment of inbreeding and upward artificial selection for egg-to-adult viabilit...
Environmental changes may stress organisms and stimulate an adaptive phenotypic response. Effects of...
The negative fitness consequences of close inbreeding are widely recognized, but predicting the long...
The ability of natural populations to withstand environmental stresses relies partly on their adapti...
The molecular mechanisms underlying adaptation have eluded evolutionary biologists even with the adv...
<div><p>The evolutionary history of widespread and specialized species is likely to cause a differen...
Many natural populations experience inbreeding and genetic drift as a consequence of nonrandom matin...
The genetic architecture of adaptive traits is of key importance to predict evolutionary responses. ...
The ability of populations to undergo adaptive evolution depends on the presence of genetic variatio...
BackgroundStudies combining experimental evolution and next-generation sequencing have found that ad...
A fundamental assumption underlying the importance of genetic risks within conservation biology is t...
The combination of experimental evolution and next-generation sequencing, termed E&R, has emerge...
A fundamental assumption underlying the importance of genetic risks within conservation biology is t...
Census population size, sex-ratio and female reproductive success were monitored in 10 laboratory po...
We used experimental populations of Drosophila melanogaster, which had either been subdivided (metap...
We carried out an experiment of inbreeding and upward artificial selection for egg-to-adult viabilit...
Environmental changes may stress organisms and stimulate an adaptive phenotypic response. Effects of...
The negative fitness consequences of close inbreeding are widely recognized, but predicting the long...
The ability of natural populations to withstand environmental stresses relies partly on their adapti...
The molecular mechanisms underlying adaptation have eluded evolutionary biologists even with the adv...
<div><p>The evolutionary history of widespread and specialized species is likely to cause a differen...
Many natural populations experience inbreeding and genetic drift as a consequence of nonrandom matin...
The genetic architecture of adaptive traits is of key importance to predict evolutionary responses. ...