Phylogeographic and phenotypic outcomes of brown anole colonization across the Caribbean provide insight into the beginning stages of an adaptive radiation
Some of the most important insights into the ecological and evolutionary processes of diversification and speciation have come from studies of island adaptive radiations, yet relatively little research has examined how these radiations initiate. We suggest that Anolis sagrei is a candidate for understanding the origins of the Caribbean Anolis adaptive radiation and how a colonizing anole species begins to undergo allopatric diversification, phenotypic divergence and, potentially, speciation. We undertook a genomic and morphological analysis of representative populations across the entire native range of A. sagrei, finding that the species originated in the early Pliocene, with the deepest divergence occurring between western and eastern Cuba. Lineages from these two regions subsequently colonized the northern Caribbean. We find that at the broadest scale, populations colonizing areas with fewer closely related competitors tend to evolve larger body size and more lamellae on their toepads. This trend follows expectations for post‐colonization divergence from progenitors and convergence in allopatry, whereby populations freed from competition with close relatives evolve towards common morphological and ecological optima. Taken together, our results show a complex history of ancient and recent Cuban diaspora with populations on competitor‐poor islands evolving away from their ancestral Cuban populations regardless of their phylogenetic relationships, thus providing insight into the original diversification of colonist anoles at the beginning of the radiation. Our research also supplies an evolutionary framework for the many studies of this increasingly important species in ecological and evolutionary research.
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| Language: | English |
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John Wiley & Sons
2020-04-01
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| Subjects: | Adaptive radiation, Convergent evolution, Ecological release, Morphometrics, Next‐generation sequencing, Phylogeography, Population genomics, |
| Online Access: | http://hdl.handle.net/10261/208962 http://dx.doi.org/10.13039/100000001 http://dx.doi.org/10.13039/501100000780 |
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dig-ipna-es-10261-2089622022-09-26T11:56:37Z Phylogeographic and phenotypic outcomes of brown anole colonization across the Caribbean provide insight into the beginning stages of an adaptive radiation Graham Reynolds, Robert Kolbe, Jason J. Glor, Richard E. López-Darias, Marta Gómez Pourroy, Verónica C. Harrison, Alexis S. de Queiroz, Kevin Revell, Liam J. Losos, Jonathan B. National Science Foundation (US) European Commission Cabildo de Tenerife Adaptive radiation Convergent evolution Ecological release Morphometrics Next‐generation sequencing Phylogeography Population genomics Some of the most important insights into the ecological and evolutionary processes of diversification and speciation have come from studies of island adaptive radiations, yet relatively little research has examined how these radiations initiate. We suggest that Anolis sagrei is a candidate for understanding the origins of the Caribbean Anolis adaptive radiation and how a colonizing anole species begins to undergo allopatric diversification, phenotypic divergence and, potentially, speciation. We undertook a genomic and morphological analysis of representative populations across the entire native range of A. sagrei, finding that the species originated in the early Pliocene, with the deepest divergence occurring between western and eastern Cuba. Lineages from these two regions subsequently colonized the northern Caribbean. We find that at the broadest scale, populations colonizing areas with fewer closely related competitors tend to evolve larger body size and more lamellae on their toepads. This trend follows expectations for post‐colonization divergence from progenitors and convergence in allopatry, whereby populations freed from competition with close relatives evolve towards common morphological and ecological optima. Taken together, our results show a complex history of ancient and recent Cuban diaspora with populations on competitor‐poor islands evolving away from their ancestral Cuban populations regardless of their phylogenetic relationships, thus providing insight into the original diversification of colonist anoles at the beginning of the radiation. Our research also supplies an evolutionary framework for the many studies of this increasingly important species in ecological and evolutionary research. We are grateful for funding from the Putnam Fund for Research and Exploration from the Museum of Comparative Zoology and the John Templeton Foundation. We are also grateful for funding from the National Museum of Natural History Research Opportunities Fund (to KdQ), National Museum of Natural History Biological Diversity Program (to KdQ), the National Science Foundation (#9318642 to JBL, KdQ, and A. Larson), the European Commission Marie Sklodowska‐Curie actions (to MLD), and Tenerife 2030 (P. INNOVA 2016–2021; MLD). Peer reviewed 2020-04-24T10:37:27Z 2020-04-24T10:37:27Z 2020-04-01 artículo http://purl.org/coar/resource_type/c_6501 Journal of Evolutionary Biology 33(4): 468-494 (2020) 1010-061X http://hdl.handle.net/10261/208962 10.1111/jeb.13581 1420-9101 http://dx.doi.org/10.13039/100000001 http://dx.doi.org/10.13039/501100000780 en Postprint https://doi.org/10.1111/jeb.13581 Sí open John Wiley & Sons |
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Adaptive radiation Convergent evolution Ecological release Morphometrics Next‐generation sequencing Phylogeography Population genomics Adaptive radiation Convergent evolution Ecological release Morphometrics Next‐generation sequencing Phylogeography Population genomics |
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Adaptive radiation Convergent evolution Ecological release Morphometrics Next‐generation sequencing Phylogeography Population genomics Adaptive radiation Convergent evolution Ecological release Morphometrics Next‐generation sequencing Phylogeography Population genomics Graham Reynolds, Robert Kolbe, Jason J. Glor, Richard E. López-Darias, Marta Gómez Pourroy, Verónica C. Harrison, Alexis S. de Queiroz, Kevin Revell, Liam J. Losos, Jonathan B. Phylogeographic and phenotypic outcomes of brown anole colonization across the Caribbean provide insight into the beginning stages of an adaptive radiation |
| description |
Some of the most important insights into the ecological and evolutionary processes of diversification and speciation have come from studies of island adaptive radiations, yet relatively little research has examined how these radiations initiate. We suggest that Anolis sagrei is a candidate for understanding the origins of the Caribbean Anolis adaptive radiation and how a colonizing anole species begins to undergo allopatric diversification, phenotypic divergence and, potentially, speciation. We undertook a genomic and morphological analysis of representative populations across the entire native range of A. sagrei, finding that the species originated in the early Pliocene, with the deepest divergence occurring between western and eastern Cuba. Lineages from these two regions subsequently colonized the northern Caribbean. We find that at the broadest scale, populations colonizing areas with fewer closely related competitors tend to evolve larger body size and more lamellae on their toepads. This trend follows expectations for post‐colonization divergence from progenitors and convergence in allopatry, whereby populations freed from competition with close relatives evolve towards common morphological and ecological optima. Taken together, our results show a complex history of ancient and recent Cuban diaspora with populations on competitor‐poor islands evolving away from their ancestral Cuban populations regardless of their phylogenetic relationships, thus providing insight into the original diversification of colonist anoles at the beginning of the radiation. Our research also supplies an evolutionary framework for the many studies of this increasingly important species in ecological and evolutionary research. |
| author2 |
National Science Foundation (US) |
| author_facet |
National Science Foundation (US) Graham Reynolds, Robert Kolbe, Jason J. Glor, Richard E. López-Darias, Marta Gómez Pourroy, Verónica C. Harrison, Alexis S. de Queiroz, Kevin Revell, Liam J. Losos, Jonathan B. |
| format |
artículo |
| topic_facet |
Adaptive radiation Convergent evolution Ecological release Morphometrics Next‐generation sequencing Phylogeography Population genomics |
| author |
Graham Reynolds, Robert Kolbe, Jason J. Glor, Richard E. López-Darias, Marta Gómez Pourroy, Verónica C. Harrison, Alexis S. de Queiroz, Kevin Revell, Liam J. Losos, Jonathan B. |
| author_sort |
Graham Reynolds, Robert |
| title |
Phylogeographic and phenotypic outcomes of brown anole colonization across the Caribbean provide insight into the beginning stages of an adaptive radiation |
| title_short |
Phylogeographic and phenotypic outcomes of brown anole colonization across the Caribbean provide insight into the beginning stages of an adaptive radiation |
| title_full |
Phylogeographic and phenotypic outcomes of brown anole colonization across the Caribbean provide insight into the beginning stages of an adaptive radiation |
| title_fullStr |
Phylogeographic and phenotypic outcomes of brown anole colonization across the Caribbean provide insight into the beginning stages of an adaptive radiation |
| title_full_unstemmed |
Phylogeographic and phenotypic outcomes of brown anole colonization across the Caribbean provide insight into the beginning stages of an adaptive radiation |
| title_sort |
phylogeographic and phenotypic outcomes of brown anole colonization across the caribbean provide insight into the beginning stages of an adaptive radiation |
| publisher |
John Wiley & Sons |
| publishDate |
2020-04-01 |
| url |
http://hdl.handle.net/10261/208962 http://dx.doi.org/10.13039/100000001 http://dx.doi.org/10.13039/501100000780 |
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