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Main Authors: Raffini, Francesca, De Jode, Aurélien, Johannesson, Kerstin, Faria, Rui, Zagrodzka, Zuzanna B, Westram, Anja M, Galindo, Juan, Rolán-Alvarez, Emilio, Butlin, Roger K
Format: Artículo científico
Language:en
Published: Molecular ecology 2025
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Online Access:https://pubmed.ncbi.nlm.nih.gov/40719218/
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author Raffini, Francesca
De Jode, Aurélien
Johannesson, Kerstin
Faria, Rui
Zagrodzka, Zuzanna B
Westram, Anja M
Galindo, Juan
Rolán-Alvarez, Emilio
Butlin, Roger K
author_facet Raffini, Francesca
De Jode, Aurélien
Johannesson, Kerstin
Faria, Rui
Zagrodzka, Zuzanna B
Westram, Anja M
Galindo, Juan
Rolán-Alvarez, Emilio
Butlin, Roger K
Raffini, Francesca
De Jode, Aurélien
Johannesson, Kerstin
Faria, Rui
Zagrodzka, Zuzanna B
Westram, Anja M
Galindo, Juan
Rolán-Alvarez, Emilio
Butlin, Roger K
collection PubMed - marine biology
contents Phenotypic Divergence and Genomic Architecture Between Parallel Ecotypes at Two Different Points on the Speciation Continuum in a Marine Snail. Raffini, Francesca De Jode, Aurélien Johannesson, Kerstin Faria, Rui Zagrodzka, Zuzanna B Westram, Anja M Galindo, Juan Rolán-Alvarez, Emilio Butlin, Roger K Animals Ecotype Snails Gene Flow Genetic Speciation Sweden Phenotype Spain Reproductive Isolation Genetics, Population Speciation is rarely observable directly. A way forward is to compare pairs of ecotypes that evolved in parallel in similar contexts but have reached different degrees of reproductive isolation. Such comparisons are possible in the marine snail Littorina saxatilis by contrasting barriers to gene flow between parallel ecotypes in Spain and Sweden. In both countries, divergent ecotypes have evolved to withstand either crab predation or wave action. Here, we explore transects spanning contact zones between the Crab and the Wave ecotypes using low-coverage whole-genome sequencing, morphological and behavioural traits. Despite parallel phenotypic divergence, distinct patterns of differentiation between the ecotypes emerged: a continuous cline in Sweden indicating a weak barrier to gene flow, but two highly genetically and phenotypically divergent, and partly spatially overlapping clusters in Spain suggesting a much stronger barrier to gene flow. The absence of Spanish early-generation hybrids supported strong isolation, but a low level of gene flow is evident from molecular data. In both countries, highly differentiated loci were located in both shared and country-specific chromosomal inversions but were also present in collinear regions. Despite being considered the same species and showing similar levels of phenotypic divergence, the Spanish ecotypes are much closer to full reproductive isolation than the Swedish ones. Barriers to gene flow of very different strengths between ecotypes within the same species might be explained by dissimilarities in the spatial arrangement of habitats, the selection gradients or the ages of the systems.
format Artículo científico
id pubmed_40719218
institution PubMed
language en
publishDate 2025
publisher Molecular ecology
record_format pubmed
spellingShingle Phenotypic Divergence and Genomic Architecture Between Parallel Ecotypes at Two Different Points on the Speciation Continuum in a Marine Snail.
Raffini, Francesca
De Jode, Aurélien
Johannesson, Kerstin
Faria, Rui
Zagrodzka, Zuzanna B
Westram, Anja M
Galindo, Juan
Rolán-Alvarez, Emilio
Butlin, Roger K
Animals
Ecotype
Snails
Gene Flow
Genetic Speciation
Sweden
Phenotype
Spain
Reproductive Isolation
Genetics, Population
Phenotypic Divergence and Genomic Architecture Between Parallel Ecotypes at Two Different Points on the Speciation Continuum in a Marine Snail. Raffini, Francesca De Jode, Aurélien Johannesson, Kerstin Faria, Rui Zagrodzka, Zuzanna B Westram, Anja M Galindo, Juan Rolán-Alvarez, Emilio Butlin, Roger K Animals Ecotype Snails Gene Flow Genetic Speciation Sweden Phenotype Spain Reproductive Isolation Genetics, Population Speciation is rarely observable directly. A way forward is to compare pairs of ecotypes that evolved in parallel in similar contexts but have reached different degrees of reproductive isolation. Such comparisons are possible in the marine snail Littorina saxatilis by contrasting barriers to gene flow between parallel ecotypes in Spain and Sweden. In both countries, divergent ecotypes have evolved to withstand either crab predation or wave action. Here, we explore transects spanning contact zones between the Crab and the Wave ecotypes using low-coverage whole-genome sequencing, morphological and behavioural traits. Despite parallel phenotypic divergence, distinct patterns of differentiation between the ecotypes emerged: a continuous cline in Sweden indicating a weak barrier to gene flow, but two highly genetically and phenotypically divergent, and partly spatially overlapping clusters in Spain suggesting a much stronger barrier to gene flow. The absence of Spanish early-generation hybrids supported strong isolation, but a low level of gene flow is evident from molecular data. In both countries, highly differentiated loci were located in both shared and country-specific chromosomal inversions but were also present in collinear regions. Despite being considered the same species and showing similar levels of phenotypic divergence, the Spanish ecotypes are much closer to full reproductive isolation than the Swedish ones. Barriers to gene flow of very different strengths between ecotypes within the same species might be explained by dissimilarities in the spatial arrangement of habitats, the selection gradients or the ages of the systems.
title Phenotypic Divergence and Genomic Architecture Between Parallel Ecotypes at Two Different Points on the Speciation Continuum in a Marine Snail.
topic Animals
Ecotype
Snails
Gene Flow
Genetic Speciation
Sweden
Phenotype
Spain
Reproductive Isolation
Genetics, Population
url https://pubmed.ncbi.nlm.nih.gov/40719218/