Add to ORKGThe density-dependent rates of population growth were determined for 26 populations of Drosophila melanogaster maintained in the serial transfer system. Twenty-five populations were homozygous for an entire chromosome 2 sampled from nature; the other was a random heterozygous population. Rates of population growth around the carrying capacity cannot explain the large fitness depression of these lines. However, the homozygous lines show large differences in rates of population growth at low densities relative to the random heterozygous standard. The average relative fitness of the homozygous lines, as determined from the growth rates at the lowest density, is 0.51
In this study, we investigate the effect of local adaptation to developmental density on male mating...
The nature of fitness interactions is an important, yet unsolved, question in population genetics. W...
Summary 1. The present study attemps to examine some aspects of the fitness of populations, here de...
Density-dependent genetic evolution was tested in experimental populations of Drosophila melanogaste...
Theories of density-dependent natural selection state that at extreme population densities evolution...
Fifteen second chromosomes were extracted from Drosophila willistoni flies collected in four natural...
Theories of density-dependent natural selection predict that evolution should favor those genotypes ...
In a large experiment, using nearly 200 population cages, we have measured the fitness of Drosophila...
We have examined the effects of density and frequency in the larval competition of Drosophila melano...
Quantitative genetic variation, the main determinant of the ability to evolve, is expected to be los...
Census population size, sex-ratio and female reproductive success were monitored in 10 laboratory po...
In the Drosophila literature, selection for faster development and selection for adapting to high de...
In the practice of resource management conservation, it is common to introduce new members into smal...
What are the genetics of phenotypes other than fitness, in outbred populations? To answer this quest...
We have sampled wild chromosomes from two natural populations of Drosophila melanogaster and obtaine...
In this study, we investigate the effect of local adaptation to developmental density on male mating...
The nature of fitness interactions is an important, yet unsolved, question in population genetics. W...
Summary 1. The present study attemps to examine some aspects of the fitness of populations, here de...
Density-dependent genetic evolution was tested in experimental populations of Drosophila melanogaste...
Theories of density-dependent natural selection state that at extreme population densities evolution...
Fifteen second chromosomes were extracted from Drosophila willistoni flies collected in four natural...
Theories of density-dependent natural selection predict that evolution should favor those genotypes ...
In a large experiment, using nearly 200 population cages, we have measured the fitness of Drosophila...
We have examined the effects of density and frequency in the larval competition of Drosophila melano...
Quantitative genetic variation, the main determinant of the ability to evolve, is expected to be los...
Census population size, sex-ratio and female reproductive success were monitored in 10 laboratory po...
In the Drosophila literature, selection for faster development and selection for adapting to high de...
In the practice of resource management conservation, it is common to introduce new members into smal...
What are the genetics of phenotypes other than fitness, in outbred populations? To answer this quest...
We have sampled wild chromosomes from two natural populations of Drosophila melanogaster and obtaine...
In this study, we investigate the effect of local adaptation to developmental density on male mating...
The nature of fitness interactions is an important, yet unsolved, question in population genetics. W...
Summary 1. The present study attemps to examine some aspects of the fitness of populations, here de...