Add to ORKGThe degree of phenotypic divergence and reproductive isolation between taxon pairs can vary quantitatively, and often increases as evolutionary divergence proceeds through various stages, from polymorphism to population differentiation, ecotype and race formation, speciation, and post-speciational divergence. Although divergent natural selection promotes divergence, it does not always result in strong differentiation. For example, divergent selection can fail to complete speciation, and distinct species pairs sometimes collapse (‘speciation in reverse’). Widely-discussed explanations for this variability concern genetic architecture, and the geographic arrangement of populations. A less-explored possibility is that the degree of phenotypic ...
Understanding the evolutionary dynamics underlying herbivorous insect mega-diversity requires invest...
Understanding the formation of new species, termed ‘speciation’, is one of the central issues in evo...
Natural selection can drive the repeated evolution of reproductive isolation, but the genomic basis ...
The degree of phenotypic divergence and reproductive isolation between taxon pairs can vary quantita...
The degree of phenotypic divergence and reproductive isolation between taxon pairs can vary quantita...
SummaryThe interplay between selection and aspects of the genetic architecture of traits (such as li...
Background: Clear examples of ecological speciation exist, often involving divergence in trophic mor...
<p>Depicted are the two ecotype pairs and the species pair studied for the degree of phenotypic and ...
A major unresolved issue in biology is why phenotypic and genetic variation is sometimes continuous,...
The interplay between selection and aspects of the genetic architecture of traits (such as linkage, ...
Understanding the process of speciation requires elucidating the processes driving and constraining ...
The factors contributing to the maintenance of sex over asexuality in natural populations remain unc...
Speciation can involve a transition from a few genetic loci that are resistant to gene flow to genom...
The factors contributing to the maintenance of sex over asexuality in natural populations remain unc...
Understanding the evolutionary dynamics underlying herbivorous insect mega-diversity requires invest...
Understanding the formation of new species, termed ‘speciation’, is one of the central issues in evo...
Natural selection can drive the repeated evolution of reproductive isolation, but the genomic basis ...
The degree of phenotypic divergence and reproductive isolation between taxon pairs can vary quantita...
The degree of phenotypic divergence and reproductive isolation between taxon pairs can vary quantita...
SummaryThe interplay between selection and aspects of the genetic architecture of traits (such as li...
Background: Clear examples of ecological speciation exist, often involving divergence in trophic mor...
<p>Depicted are the two ecotype pairs and the species pair studied for the degree of phenotypic and ...
A major unresolved issue in biology is why phenotypic and genetic variation is sometimes continuous,...
The interplay between selection and aspects of the genetic architecture of traits (such as linkage, ...
Understanding the process of speciation requires elucidating the processes driving and constraining ...
The factors contributing to the maintenance of sex over asexuality in natural populations remain unc...
Speciation can involve a transition from a few genetic loci that are resistant to gene flow to genom...
The factors contributing to the maintenance of sex over asexuality in natural populations remain unc...
Understanding the evolutionary dynamics underlying herbivorous insect mega-diversity requires invest...
Understanding the formation of new species, termed ‘speciation’, is one of the central issues in evo...
Natural selection can drive the repeated evolution of reproductive isolation, but the genomic basis ...