Repeated genetic adaptation to altitude in two tropical butterflies

Gabriela Montejo-Kovacevich; Joana I. Meier; Caroline N. Bacquet; Ian A. Warren; Yingguang Frank Chan; Marek Kucka; Camilo Salazar; Nicol Rueda-M; Stephen H. Montgomery; W. Owen McMillan; Krzysztof M. Kozak; Nicola J. Nadeau; Simon H. Martin; Chris D. Jiggins

doi:10.1038/s41467-022-32316-x

Repeated genetic adaptation to altitude in two tropical butterflies

Gabriela Montejo-Kovacevich, Joana I. Meier, Caroline N. Bacquet, Ian A. Warren, Yingguang Frank Chan, Marek Kucka, Camilo Salazar, Nicol Rueda-M, Stephen H. Montgomery, W. Owen McMillan, Krzysztof M. Kozak, Nicola J. Nadeau, Simon H. Martin, Chris D. Jiggins

Facultad de Ciencias de la Vida

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

26 Citas (Scopus)

Resumen

Repeated evolution can provide insight into the mechanisms that facilitate adaptation to novel or changing environments. Here we study adaptation to altitude in two tropical butterflies, Heliconius erato and H. melpomene, which have repeatedly and independently adapted to montane habitats on either side of the Andes. We sequenced 518 whole genomes from altitudinal transects and found many regions differentiated between highland (~ 1200 m) and lowland (~ 200 m) populations. We show repeated genetic differentiation across replicate populations within species, including allopatric comparisons. In contrast, there is little molecular parallelism between the two species. By sampling five close relatives, we find that a large proportion of divergent regions identified within species have arisen from standing variation and putative adaptive introgression from high-altitude specialist species. Taken together our study supports a role for both standing genetic variation and gene flow from independently adapted species in promoting parallel local adaptation to the environment.

Idioma original	Inglés
Número de artículo	4676
Publicación	Nature Communications
Volumen	13
N.º	1
DOI	https://doi.org/10.1038/s41467-022-32316-x
Estado	Publicada - dic. 2022

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© 2022, The Author(s).

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Montejo-Kovacevich, G., Meier, J. I., Bacquet, C. N., Warren, I. A., Chan, Y. F., Kucka, M., Salazar, C., Rueda-M, N., Montgomery, S. H., McMillan, W. O., Kozak, K. M., Nadeau, N. J., Martin, S. H., & Jiggins, C. D. (2022). Repeated genetic adaptation to altitude in two tropical butterflies. Nature Communications, 13(1), Artículo 4676. https://doi.org/10.1038/s41467-022-32316-x

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title = "Repeated genetic adaptation to altitude in two tropical butterflies",

abstract = "Repeated evolution can provide insight into the mechanisms that facilitate adaptation to novel or changing environments. Here we study adaptation to altitude in two tropical butterflies, Heliconius erato and H. melpomene, which have repeatedly and independently adapted to montane habitats on either side of the Andes. We sequenced 518 whole genomes from altitudinal transects and found many regions differentiated between highland (\textasciitilde{} 1200 m) and lowland (\textasciitilde{} 200 m) populations. We show repeated genetic differentiation across replicate populations within species, including allopatric comparisons. In contrast, there is little molecular parallelism between the two species. By sampling five close relatives, we find that a large proportion of divergent regions identified within species have arisen from standing variation and putative adaptive introgression from high-altitude specialist species. Taken together our study supports a role for both standing genetic variation and gene flow from independently adapted species in promoting parallel local adaptation to the environment.",

author = "Gabriela Montejo-Kovacevich and Meier, \{Joana I.\} and Bacquet, \{Caroline N.\} and Warren, \{Ian A.\} and Chan, \{Yingguang Frank\} and Marek Kucka and Camilo Salazar and Nicol Rueda-M and Montgomery, \{Stephen H.\} and McMillan, \{W. Owen\} and Kozak, \{Krzysztof M.\} and Nadeau, \{Nicola J.\} and Martin, \{Simon H.\} and Jiggins, \{Chris D.\}",

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doi = "10.1038/s41467-022-32316-x",

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AU - Montejo-Kovacevich, Gabriela

AU - Meier, Joana I.

AU - Bacquet, Caroline N.

AU - Warren, Ian A.

AU - Chan, Yingguang Frank

AU - Kucka, Marek

AU - Salazar, Camilo

AU - Rueda-M, Nicol

AU - Montgomery, Stephen H.

AU - McMillan, W. Owen

AU - Kozak, Krzysztof M.

AU - Nadeau, Nicola J.

AU - Martin, Simon H.

AU - Jiggins, Chris D.

PY - 2022/12

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N2 - Repeated evolution can provide insight into the mechanisms that facilitate adaptation to novel or changing environments. Here we study adaptation to altitude in two tropical butterflies, Heliconius erato and H. melpomene, which have repeatedly and independently adapted to montane habitats on either side of the Andes. We sequenced 518 whole genomes from altitudinal transects and found many regions differentiated between highland (~ 1200 m) and lowland (~ 200 m) populations. We show repeated genetic differentiation across replicate populations within species, including allopatric comparisons. In contrast, there is little molecular parallelism between the two species. By sampling five close relatives, we find that a large proportion of divergent regions identified within species have arisen from standing variation and putative adaptive introgression from high-altitude specialist species. Taken together our study supports a role for both standing genetic variation and gene flow from independently adapted species in promoting parallel local adaptation to the environment.

AB - Repeated evolution can provide insight into the mechanisms that facilitate adaptation to novel or changing environments. Here we study adaptation to altitude in two tropical butterflies, Heliconius erato and H. melpomene, which have repeatedly and independently adapted to montane habitats on either side of the Andes. We sequenced 518 whole genomes from altitudinal transects and found many regions differentiated between highland (~ 1200 m) and lowland (~ 200 m) populations. We show repeated genetic differentiation across replicate populations within species, including allopatric comparisons. In contrast, there is little molecular parallelism between the two species. By sampling five close relatives, we find that a large proportion of divergent regions identified within species have arisen from standing variation and putative adaptive introgression from high-altitude specialist species. Taken together our study supports a role for both standing genetic variation and gene flow from independently adapted species in promoting parallel local adaptation to the environment.

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JO - Nature Communications

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Repeated genetic adaptation to altitude in two tropical butterflies

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