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Novelties in Hybrid Zones: Crossroads between Population Genomic and Ecological Approaches
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Novelties in Hybrid Zones: Crossroads between Population Genomic and Ecological Approaches
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Journal Article
Novelties in Hybrid Zones: Crossroads between Population Genomic and Ecological Approaches
2007
Overview
Interspecific hybridization is widespread, occurring in a taxonomically diverse array of species. The Cyprinidae family, which displays more than 30% hybridization, is a good candidate for studies of processes underlying isolation and speciation, such as genetic exchange between previously isolated lineages. This is particularly relevant in the case of recent hybridization between an invasive species, Chondrostoma nasus nasus (from Eastern Europe), and C. toxostoma toxostoma (a threatened species endemic to southern France), in which bidirectional introgressive hybridization has been demonstrated.
We studied 128 specimens from reference populations and 1495 hybrid zone specimens (two years of sampling and four stations), using five molecular markers (one mitochondrial gene, four nuclear introns), morphology (meristic and plastic characters) and life history traits (weight, size, coefficient of condition, sex, age, shoaling). We identified 65 hybrid combinations and visualized spatial and temporal changes in composition. The direction of mitochondrial introgression was density-dependent in favor of the rarer species and we demonstrate that the sexual selection hypothesis is a preponderant explanation in the asymmetry of introgression. Despite genomic evolution in the hybrid zone, convergence was observed for body shape and coefficient of condition, indicating changes in foraging behavior with respect to reference populations, reflecting strong environmental pressure.
The complex rules of hybrid zone dynamics are established very early in the contact zone. We propose \"inheritance from the rare species\" as a new evolutionary hypothesis for animal models. The endemic species was not assimilated by the invasive species. Survival rates for this species were highest in the middle of the river (the warmest part) due to a trade-off between food availability and fecundity. The environment-independent hybrid combination may result from nuclear-mitochondrial interactions involving the Tpi1b gene or a gene linked to this gene (Chromosome 16). This genomic region is also responsible for shoaling behavior in Danio rerio and is a promising zone for studies of changes in population dynamics and advances in integrated studies of hybrid zones.
Publisher
Public Library of Science,Public Library of Science (PLoS)
Subject
/ Animals
/ DNA
/ Ecology
/ Ecology/Evolutionary Ecology
/ Evolutionary Biology/Animal Genetics
/ Evolutionary Biology/Evolutionary and Comparative Genetics
/ Evolutionary Biology/Evolutionary Ecology
/ Evolutionary Biology/Pattern Formation
/ Fish
/ Forage
/ Genetics and Genomics/Animal Genetics
/ Genetics and Genomics/Complex Traits
/ Genetics and Genomics/Population Genetics
/ Genomes
/ Genomics
/ Insects
/ Introns
/ Rivers
/ Survival
