%0 Journal Article %1 barton2001hybridization %A Barton, N. H. %C Institute of Cell, Animal and Population Biology, University of Edinburgh, Kings Buildings, Edinburgh EH9 3JT, UK %D 2001 %J Molecular Ecology %K Fishers_geometric_model dominance haldanes_rule hybrid_filter hybrid_zone hybrids speciation stabilizing_selection %N 3 %P 551-568 %R 10.1046/j.1365-294x.2001.01216.x %T The role of hybridization in evolution %U http://www.ncbi.nlm.nih.gov/pubmed/11298968 %V 10 %X Hybridization may influence evolution in a variety of ways. If hybrids are less fit, the geo- graphical range of ecologically divergent populations may be limited, and prezygotic reproductive isolation may be reinforced. If some hybrid genotypes are fitter than one or both parents, at least in some environments, then hybridization could make a positive con- tribution. Single alleles that are at an advantage in the alternative environment and genetic background will introgress readily, although such introgression may be hard to detect. ‘Hybrid speciation’, in which fit combinations of alleles are established, is more problematic; its likelihood depends on how divergent populations meet, and on the structure of epistasis. These issues are illustrated using Fisher’s model of stabilizing selection on multiple traits, under which reproductive isolation evolves as a side-effect of adaptation in allopatry. This confirms a priori arguments that while recombinant hybrids are less fit on average, some gene combinations may be fitter than the parents, even in the parental environment. Fisher’s model does predict heterosis in diploid F 1 s, asymmetric incompatibility in reciprocal backcrosses, and (when dominance is included) Haldane’s Rule. However, heterosis arises only when traits are additive, whereas the latter two patterns require dominance. Moreover, because adaptation is via substitutions of small effect, Fisher’s model does not generate the strong effects of single chromosome regions often observed in species crosses.

@article{barton2001hybridization, abstract = {Hybridization may influence evolution in a variety of ways. If hybrids are less fit, the geo- graphical range of ecologically divergent populations may be limited, and prezygotic reproductive isolation may be reinforced. If some hybrid genotypes are fitter than one or both parents, at least in some environments, then hybridization could make a positive con- tribution. Single alleles that are at an advantage in the alternative environment and genetic background will introgress readily, although such introgression may be hard to detect. ‘Hybrid speciation’, in which fit combinations of alleles are established, is more problematic; its likelihood depends on how divergent populations meet, and on the structure of epistasis. These issues are illustrated using Fisher’s model of stabilizing selection on multiple traits, under which reproductive isolation evolves as a side-effect of adaptation in allopatry. This confirms a priori arguments that while recombinant hybrids are less fit on average, some gene combinations may be fitter than the parents, even in the parental environment. Fisher’s model does predict heterosis in diploid F 1 s, asymmetric incompatibility in reciprocal backcrosses, and (when dominance is included) Haldane’s Rule. However, heterosis arises only when traits are additive, whereas the latter two patterns require dominance. Moreover, because adaptation is via substitutions of small effect, Fisher’s model does not generate the strong effects of single chromosome regions often observed in species crosses.}, added-at = {2008-11-03T18:37:12.000+0100}, address = {Institute of Cell, Animal and Population Biology, University of Edinburgh, Kings Buildings, Edinburgh EH9 3JT, UK}, author = {Barton, N. H.}, biburl = {https://www.bibsonomy.org/bibtex/25507e5bf740c436ee193f91c5dca330b/peter.ralph}, doi = {10.1046/j.1365-294x.2001.01216.x}, interhash = {cb4fe711301e7a1ab2c14f7595e29542}, intrahash = {5507e5bf740c436ee193f91c5dca330b}, journal = {Molecular Ecology}, keywords = {Fishers_geometric_model dominance haldanes_rule hybrid_filter hybrid_zone hybrids speciation stabilizing_selection}, number = 3, pages = {551-568}, timestamp = {2018-01-20T05:24:11.000+0100}, title = {The role of hybridization in evolution}, url = {http://www.ncbi.nlm.nih.gov/pubmed/11298968}, volume = 10, year = 2001 }