Phylogenomics uncovers early hybridization and adaptive loci shaping the radiation of Lake Tanganyika cichlid fishes

Iker Irisarri; Pooja Singh; Stephan Koblmüller; Julián Torres-Dowdall; Frederico Henning; Paolo Franchini; Christoph Fischer; Alan R Lemmon; Emily Moriarty Lemmon; Gerhard G Thallinger; Christian Sturmbauer; Axel Meyer

doi:10.1038/s41467-018-05479-9

Phylogenomics uncovers early hybridization and adaptive loci shaping the radiation of Lake Tanganyika cichlid fishes

Iker Irisarri, Pooja Singh, Stephan Koblmüller, Julián Torres-Dowdall, Frederico Henning, Paolo Franchini, Christoph Fischer, Alan R Lemmon, Emily Moriarty Lemmon, Gerhard G Thallinger, Christian Sturmbauer, Axel Meyer

Institute of Molecular Biotechnology (6550)

Research output: Contribution to journal › Article › peer-review

Abstract

Lake Tanganyika is the oldest and phenotypically most diverse of the three East African cichlid fish adaptive radiations. It is also the cradle for the younger parallel haplochromine cichlid radiations in Lakes Malawi and Victoria. Despite its evolutionary significance, the relationships among the main Lake Tanganyika lineages remained unresolved, as did the general timescale of cichlid evolution. Here, we disentangle the deep phylogenetic structure of the Lake Tanganyika radiation using anchored phylogenomics and uncover hybridization at its base, as well as early in the haplochromine radiation. This suggests that hybridization might have facilitated these speciation bursts. Time-calibrated trees support that the radiation of Tanganyika cichlids coincided with lake formation and that Gondwanan vicariance concurred with the earliest splits in the cichlid family tree. Genes linked to key innovations show signals of introgression or positive selection following colonization of lake habitats and species' dietary adaptations are revealed as major drivers of colour vision evolution. These findings shed light onto the processes shaping the evolution of adaptive radiations.

Original language	English
Article number	3159
Journal	Nature Communications
Volume	9
Issue number	1
DOIs	https://doi.org/10.1038/s41467-018-05479-9
Publication status	Published - 8 Aug 2018

Keywords

Adaptation, Biological/radiation effects
Africa, Eastern
Animals
Biodiversity
Cichlids/classification
DNA, Mitochondrial/genetics
Diet
Evolution, Molecular
Fossils
Fresh Water
Gene Flow/radiation effects
Genetic Markers
Genotype
Geological Phenomena
Hybridization, Genetic/radiation effects
Lakes
Models, Genetic
Phenotype
Phylogeny
Sequence Alignment
Sequence Analysis, DNA
Species Specificity
Tanzania

Fields of Expertise

Human- & Biotechnology
Information, Communication & Computing

Treatment code (Nähere Zuordnung)

Basic - Fundamental (Grundlagenforschung)

Cooperations

BioTechMed-Graz

Access to Document

10.1038/s41467-018-05479-9Licence: CC BY 4.0

Cite this

Irisarri, I., Singh, P., Koblmüller, S., Torres-Dowdall, J., Henning, F., Franchini, P., Fischer, C., Lemmon, A. R., Lemmon, E. M., Thallinger, G. G., Sturmbauer, C., & Meyer, A. (2018). Phylogenomics uncovers early hybridization and adaptive loci shaping the radiation of Lake Tanganyika cichlid fishes. Nature Communications , 9(1), Article 3159. https://doi.org/10.1038/s41467-018-05479-9

Irisarri, I, Singh, P, Koblmüller, S, Torres-Dowdall, J, Henning, F, Franchini, P, Fischer, C, Lemmon, AR, Lemmon, EM, Thallinger, GG, Sturmbauer, C & Meyer, A 2018, 'Phylogenomics uncovers early hybridization and adaptive loci shaping the radiation of Lake Tanganyika cichlid fishes', Nature Communications , vol. 9, no. 1, 3159. https://doi.org/10.1038/s41467-018-05479-9

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abstract = "Lake Tanganyika is the oldest and phenotypically most diverse of the three East African cichlid fish adaptive radiations. It is also the cradle for the younger parallel haplochromine cichlid radiations in Lakes Malawi and Victoria. Despite its evolutionary significance, the relationships among the main Lake Tanganyika lineages remained unresolved, as did the general timescale of cichlid evolution. Here, we disentangle the deep phylogenetic structure of the Lake Tanganyika radiation using anchored phylogenomics and uncover hybridization at its base, as well as early in the haplochromine radiation. This suggests that hybridization might have facilitated these speciation bursts. Time-calibrated trees support that the radiation of Tanganyika cichlids coincided with lake formation and that Gondwanan vicariance concurred with the earliest splits in the cichlid family tree. Genes linked to key innovations show signals of introgression or positive selection following colonization of lake habitats and species' dietary adaptations are revealed as major drivers of colour vision evolution. These findings shed light onto the processes shaping the evolution of adaptive radiations.",

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AU - Torres-Dowdall, Julián

AU - Henning, Frederico

AU - Franchini, Paolo

AU - Fischer, Christoph

AU - Lemmon, Alan R

AU - Lemmon, Emily Moriarty

AU - Thallinger, Gerhard G

AU - Sturmbauer, Christian

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AB - Lake Tanganyika is the oldest and phenotypically most diverse of the three East African cichlid fish adaptive radiations. It is also the cradle for the younger parallel haplochromine cichlid radiations in Lakes Malawi and Victoria. Despite its evolutionary significance, the relationships among the main Lake Tanganyika lineages remained unresolved, as did the general timescale of cichlid evolution. Here, we disentangle the deep phylogenetic structure of the Lake Tanganyika radiation using anchored phylogenomics and uncover hybridization at its base, as well as early in the haplochromine radiation. This suggests that hybridization might have facilitated these speciation bursts. Time-calibrated trees support that the radiation of Tanganyika cichlids coincided with lake formation and that Gondwanan vicariance concurred with the earliest splits in the cichlid family tree. Genes linked to key innovations show signals of introgression or positive selection following colonization of lake habitats and species' dietary adaptations are revealed as major drivers of colour vision evolution. These findings shed light onto the processes shaping the evolution of adaptive radiations.

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KW - Fossils

KW - Fresh Water

KW - Gene Flow/radiation effects

KW - Genetic Markers

KW - Genotype

KW - Geological Phenomena

KW - Hybridization, Genetic/radiation effects

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KW - Models, Genetic

KW - Phenotype

KW - Phylogeny

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JF - Nature Communications

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ER -

Phylogenomics uncovers early hybridization and adaptive loci shaping the radiation of Lake Tanganyika cichlid fishes

Abstract

Keywords

Fields of Expertise

Treatment code (Nähere Zuordnung)

Cooperations

Access to Document

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Cite this