Author
Listed:
- Neil Rosser
(Harvard University
University of York)
- Fernando Seixas
(Harvard University)
- Lucie M. Queste
(University of York)
- Bruna Cama
(University of York)
- Ronald Mori-Pezo
(URKU Estudios Amazónicos
Universidad Nacional Autónoma de Alto Amazona)
- Dmytro Kryvokhyzha
(Harvard University
Lund University Diabetes Centre)
- Michaela Nelson
(University of York)
- Rachel Waite-Hudson
(University of York)
- Matt Goringe
(University of York)
- Mauro Costa
(Residencial Las Cumbres)
- Marianne Elias
(Muséum National d’Histoire Naturelle
Smithsonian Tropical Research Institute)
- Clarisse Mendes Eleres de Figueiredo
(Institute for Biological Sciences, Federal University of Pará (UFPA)
Centre for Advanced Studies of Biodiversity (CEABIO))
- André Victor Lucci Freitas
(Universidade Estadual de Campinas)
- Mathieu Joron
(Université de Montpellier–Université Paul Valéry Montpellier–EPHE)
- Krzysztof Kozak
(Smithsonian Tropical Research Institute)
- Gerardo Lamas
(Universidad Nacional Mayor de San Marcos)
- Ananda R. P. Martins
(McGill University)
- W. Owen McMillan
(Smithsonian Tropical Research Institute)
- Jonathan Ready
(Institute for Biological Sciences, Federal University of Pará (UFPA)
Centre for Advanced Studies of Biodiversity (CEABIO))
- Nicol Rueda-Muñoz
(Universidad del Rosario)
- Camilo Salazar
(Universidad del Rosario)
- Patricio Salazar
(University of Sheffield)
- Stefan Schulz
(Institut für Organische Chemie, Technische Universität Braunschweig)
- Leila T. Shirai
(Universidade Estadual de Campinas)
- Karina L. Silva-Brandão
(Museum de Natur Hamburg Zoology)
- James Mallet
(Harvard University)
- Kanchon K. Dasmahapatra
(University of York
University of York)
Abstract
Hybridization allows adaptations to be shared among lineages and may trigger the evolution of new species1,2. However, convincing examples of homoploid hybrid speciation remain rare because it is challenging to demonstrate that hybridization was crucial in generating reproductive isolation3. Here we combine population genomic analysis with quantitative trait locus mapping of species-specific traits to examine a case of hybrid speciation in Heliconius butterflies. We show that Heliconius elevatus is a hybrid species that is sympatric with both parents and has persisted as an independently evolving lineage for at least 180,000 years. This is despite pervasive and ongoing gene flow with one parent, Heliconius pardalinus, which homogenizes 99% of their genomes. The remaining 1% introgressed from the other parent, Heliconius melpomene, and is scattered widely across the H. elevatus genome in islands of divergence from H. pardalinus. These islands contain multiple traits that are under disruptive selection, including colour pattern, wing shape, host plant preference, sex pheromones and mate choice. Collectively, these traits place H. elevatus on its own adaptive peak and permit coexistence with both parents. Our results show that speciation was driven by introgression of ecological traits, and that speciation with gene flow is possible with a multilocus genetic architecture.
Suggested Citation
Neil Rosser & Fernando Seixas & Lucie M. Queste & Bruna Cama & Ronald Mori-Pezo & Dmytro Kryvokhyzha & Michaela Nelson & Rachel Waite-Hudson & Matt Goringe & Mauro Costa & Marianne Elias & Clarisse Me, 2024.
"Hybrid speciation driven by multilocus introgression of ecological traits,"
Nature, Nature, vol. 628(8009), pages 811-817, April.
Handle:
RePEc:nat:nature:v:628:y:2024:i:8009:d:10.1038_s41586-024-07263-w
DOI: 10.1038/s41586-024-07263-w
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