Rike Stelkens scite author profile

Hybridization has many and varied impacts on the process of speciation. Hybridization may slow or reverse differentiation by allowing gene flow and recombination. It may accelerate speciation via adaptive introgression or cause near-instantaneous speciation by allopolyploidization. It may have multiple effects at different stages and in different spatial contexts within a single speciation event. We offer a perspective on the context and evolutionary significance of hybridization during speciation, highlighting issues of current interest and debate. In secondary contact zones, it is uncertain if barriers to gene flow will be strengthened or broken down due to recombination and gene flow. Theory and empirical evidence suggest the latter is more likely, except within and around strongly selected genomic regions. Hybridization may contribute to speciation through the formation of new hybrid taxa, whereas introgression of a few loci may promote adaptive divergence and so facilitate speciation. Gene regulatory networks, epigenetic effects and the evolution of selfish genetic material in the genome suggest that the Dobzhansky-Muller model of hybrid incompatibilities requires a broader interpretation. Finally, although the incidence of reinforcement remains uncertain, this and other interactions in areas of sympatry may have knock-on effects on speciation both within and outside regions of hybridization.

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Genetic Distance Between Species Predicts Novel Trait Expression in Their Hybrids

Stelkens

Seehausen

2009

199

206

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The recombination of genetic material among lineages with divergent evolutionary histories can give rise to novel phenotypes. For more than ten thousand years, since the beginning of domestication of plants and animals, humans have made explicit use of this. Despite influential early publications (Anderson 1949;Anderson and Stebbins 1954;Stebbins 1959;Lewontin and Birch 1966;Stebbins 1966;Templeton 1981) the role of hybridization in evolution, certainly of animals, had for many years received only limited attention by evolutionists. This has recently begun to change. It is now clear that hybridization between species is much more common than was thought previously

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Phenotypic novelty in experimental hybrids is predicted by the genetic distance between species of cichlid fish

et al. 2009

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BackgroundTransgressive segregation describes the occurrence of novel phenotypes in hybrids with extreme trait values not observed in either parental species. A previously experimentally untested prediction is that the amount of transgression increases with the genetic distance between hybridizing species. This follows from QTL studies suggesting that transgression is most commonly due to complementary gene action or epistasis, which become more frequent at larger genetic distances. This is because the number of QTLs fixed for alleles with opposing signs in different species should increase with time since speciation provided that speciation is not driven by disruptive selection. We measured the amount of transgression occurring in hybrids of cichlid fish bred from species pairs with gradually increasing genetic distances and varying phenotypic similarity. Transgression in multi-trait shape phenotypes was quantified using landmark-based geometric morphometric methods.ResultsWe found that genetic distance explained 52% and 78% of the variation in transgression frequency in F1 and F2 hybrids, respectively. Confirming theoretical predictions, transgression when measured in F2 hybrids, increased linearly with genetic distance between hybridizing species. Phenotypic similarity of species on the other hand was not related to the amount of transgression.ConclusionThe commonness and ease with which novel phenotypes are produced in cichlid hybrids between unrelated species has important implications for the interaction of hybridization with adaptation and speciation. Hybridization may generate new genotypes with adaptive potential that did not reside as standing genetic variation in either parental population, potentially enhancing a population's responsiveness to selection. Our results make it conceivable that hybridization contributed to the rapid rates of phenotypic evolution in the large and rapid adaptive radiations of haplochromine cichlids.

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Rike Stelkens

Hybridization and speciation

Genetic Distance Between Species Predicts Novel Trait Expression in Their Hybrids

Phenotypic novelty in experimental hybrids is predicted by the genetic distance between species of cichlid fish

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