Phylogenomic insights into the diversity and evolution of Palearctic vipers

[Display omitted] •A robust phylogenomic tree for Palearctic vipers (genus Vipera)•Instances of inter-clade hybridization leading to deep cyto-nuclear discordance.•Insights into the phylogeography, contact zones and taxonomy in the V. berus complex.•Reclassification of the controversial V. walser an...

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Veröffentlicht in:	Molecular phylogenetics and evolution 2024-08, Vol.197, p.108095, Article 108095
Hauptverfasser:	Dufresnes, Christophe, Ghielmi, Samuele, Halpern, Bálint, Martínez-Freiría, Fernando, Mebert, Konrad, Jelić, Dusan, Crnobrnja-Isailović, Jelka, Gippner, Sven, Jablonski, Daniel, Joger, Ulrich, Laddaga, Lorenzo, Petrovan, Silviu, Tomović, Ljiljana, Vörös, Judit, İğci, Naşit, Kariş, Mert, Zinenko, Oleksandr, Ursenbacher, Sylvain
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Schlagworte:	Animals Cyto-nuclear discordance ddRAD-seq DNA, Mitochondrial - genetics Evolution, Molecular Genetic Variation Genome, Mitochondrial - genetics Hybridization Phylogeny Phylogeography Snakes Speciation Vipera Viperidae - classification Viperidae - genetics
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creator	Dufresnes, Christophe Ghielmi, Samuele Halpern, Bálint Martínez-Freiría, Fernando Mebert, Konrad Jelić, Dusan Crnobrnja-Isailović, Jelka Gippner, Sven Jablonski, Daniel Joger, Ulrich Laddaga, Lorenzo Petrovan, Silviu Tomović, Ljiljana Vörös, Judit İğci, Naşit Kariş, Mert Zinenko, Oleksandr Ursenbacher, Sylvain
description	[Display omitted] •A robust phylogenomic tree for Palearctic vipers (genus Vipera)•Instances of inter-clade hybridization leading to deep cyto-nuclear discordance.•Insights into the phylogeography, contact zones and taxonomy in the V. berus complex.•Reclassification of the controversial V. walser and V. pontica. Despite decades of molecular research, phylogenetic relationships in Palearctic vipers (genus Vipera) still essentially rely on a few loci, such as mitochondrial barcoding genes. Here we examined the diversity and evolution of Vipera with ddRAD-seq data from 33 representative species and subspecies. Phylogenomic analyses of ∼ 1.1 Mb recovered nine major clades corresponding to known species/species complexes which are generally consistent with the mitochondrial phylogeny, albeit with a few deep discrepancies that highlight past hybridization events. The most spectacular case is the Italian-endemic V. walser, which is grouped with the alpine genetic diversity of V. berus in the nuclear tree despite carrying a divergent mitogenome related to the Caucasian V. kaznakovi complex. Clustering analyses of SNPs suggest potential admixture between diverged Iberian taxa (V. aspis zinnikeri and V. seoanei), and confirm that the Anatolian V. pontica corresponds to occasional hybrids between V. (ammodytes) meridionalis and V. kaznakovi. Finally, all analyzed lineages of the V. berus complex (including V. walser and V. barani) form vast areas of admixture and may be delimited as subspecies. Our study sets grounds for future taxonomic and phylogeographic surveys on Palearctic vipers, a group of prime interest for toxinological, ecological, biogeographic and conservation research.
doi_str_mv	10.1016/j.ympev.2024.108095
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Despite decades of molecular research, phylogenetic relationships in Palearctic vipers (genus Vipera) still essentially rely on a few loci, such as mitochondrial barcoding genes. Here we examined the diversity and evolution of Vipera with ddRAD-seq data from 33 representative species and subspecies. Phylogenomic analyses of ∼ 1.1 Mb recovered nine major clades corresponding to known species/species complexes which are generally consistent with the mitochondrial phylogeny, albeit with a few deep discrepancies that highlight past hybridization events. The most spectacular case is the Italian-endemic V. walser, which is grouped with the alpine genetic diversity of V. berus in the nuclear tree despite carrying a divergent mitogenome related to the Caucasian V. kaznakovi complex. Clustering analyses of SNPs suggest potential admixture between diverged Iberian taxa (V. aspis zinnikeri and V. seoanei), and confirm that the Anatolian V. pontica corresponds to occasional hybrids between V. (ammodytes) meridionalis and V. kaznakovi. Finally, all analyzed lineages of the V. berus complex (including V. walser and V. barani) form vast areas of admixture and may be delimited as subspecies. 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Despite decades of molecular research, phylogenetic relationships in Palearctic vipers (genus Vipera) still essentially rely on a few loci, such as mitochondrial barcoding genes. Here we examined the diversity and evolution of Vipera with ddRAD-seq data from 33 representative species and subspecies. Phylogenomic analyses of ∼ 1.1 Mb recovered nine major clades corresponding to known species/species complexes which are generally consistent with the mitochondrial phylogeny, albeit with a few deep discrepancies that highlight past hybridization events. The most spectacular case is the Italian-endemic V. walser, which is grouped with the alpine genetic diversity of V. berus in the nuclear tree despite carrying a divergent mitogenome related to the Caucasian V. kaznakovi complex. Clustering analyses of SNPs suggest potential admixture between diverged Iberian taxa (V. aspis zinnikeri and V. seoanei), and confirm that the Anatolian V. pontica corresponds to occasional hybrids between V. (ammodytes) meridionalis and V. kaznakovi. Finally, all analyzed lineages of the V. berus complex (including V. walser and V. barani) form vast areas of admixture and may be delimited as subspecies. 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Despite decades of molecular research, phylogenetic relationships in Palearctic vipers (genus Vipera) still essentially rely on a few loci, such as mitochondrial barcoding genes. Here we examined the diversity and evolution of Vipera with ddRAD-seq data from 33 representative species and subspecies. Phylogenomic analyses of ∼ 1.1 Mb recovered nine major clades corresponding to known species/species complexes which are generally consistent with the mitochondrial phylogeny, albeit with a few deep discrepancies that highlight past hybridization events. The most spectacular case is the Italian-endemic V. walser, which is grouped with the alpine genetic diversity of V. berus in the nuclear tree despite carrying a divergent mitogenome related to the Caucasian V. kaznakovi complex. Clustering analyses of SNPs suggest potential admixture between diverged Iberian taxa (V. aspis zinnikeri and V. seoanei), and confirm that the Anatolian V. pontica corresponds to occasional hybrids between V. (ammodytes) meridionalis and V. kaznakovi. Finally, all analyzed lineages of the V. berus complex (including V. walser and V. barani) form vast areas of admixture and may be delimited as subspecies. Our study sets grounds for future taxonomic and phylogeographic surveys on Palearctic vipers, a group of prime interest for toxinological, ecological, biogeographic and conservation research.</abstract><cop>United States</cop><pub>Elsevier Inc</pub><pmid>38729384</pmid><doi>10.1016/j.ympev.2024.108095</doi><orcidid>https://orcid.org/0000-0002-8497-8908</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Animals Cyto-nuclear discordance ddRAD-seq DNA, Mitochondrial - genetics Evolution, Molecular Genetic Variation Genome, Mitochondrial - genetics Hybridization Phylogeny Phylogeography Snakes Speciation Vipera Viperidae - classification Viperidae - genetics
title	Phylogenomic insights into the diversity and evolution of Palearctic vipers
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