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05/05/2020 09:25

How gene flow between species influences the evolution of Darwin’s finches

Linda Koffmar, Uppsala University Kommunikationsavdelningen / Communications Department
Schwedischer Forschungsrat - The Swedish Research Council

    Despite the traditional view that species do not exchange genes by hybridisation, recent studies show that gene flow between closely related species is more common than previously thought. A team of scientists from Uppsala University and Princeton University now reports how gene flow between two species of Darwin’s finches has affected their beak morphology. The study is published today in Nature Ecology and Evolution.

    Darwin’s finches on the Galápagos Islands are an example of a rapid adaptive radiation in which 18 species have evolved from a common ancestral species within a period of 1–2 million years. Some of these species have only been separated for a few hundred thousand years or less.

    Rosemary and Peter Grant of Princeton University, co-authors of the new study, studied populations of Darwin’s finches on the small island of Daphne Major for 40 consecutive years and observed occasional hybridisation between two distinct species, the common cactus finch and the medium ground finch. The cactus finch is slightly larger than the medium ground finch, has a more pointed beak and is specialised to feed on cactus. The medium ground finch has a blunter beak and is specialised to feed on seeds.

    “Over the years, we observed occasional hybridisation between these two species and noticed a convergence in beak shape. In particular, the beak of the common cactus finch became blunter and more similar to the beak of the medium ground finch,” say Rosemary and Peter Grant. “We wondered whether this evolutionary change could be explained by gene flow between the two species.”

    “We have now addressed this question by sequencing groups of the two species from different time periods and with different beak morphology. We provide evidence of a substantial gene flow, in particular from the medium ground finch to the common cactus finch,” explains Sangeet Lamichhaney, one of the shared first authors and currently Associate Professor at Kent State University.

    “A surprising finding was that the observed gene flow was substantial on most autosomal chromosomes but negligible on the Z chromosome, one of the sex chromosomes,” says Fan Han, Uppsala University, who analysed these data as part of her PhD thesis. “In birds, the sex chromosomes are ZZ in males and ZW in females, in contrast to mammals where males are XY and females are XX.”

    “This interesting result is in fact in excellent agreement with our field observation from the Galápagos,” explain the Grants. “We noticed that most of the hybrids had a common cactus finch father and a medium ground finch mother. Furthermore, the hybrid females successfully bred with common cactus finch males and thereby transferred genes from the medium ground finch to the common cactus finch population. In contrast, male hybrids were smaller than common cactus finch males and could not compete successfully for high-quality territories and mates.”

    This mating pattern is explained by the fact that Darwin’s finches are imprinted on the song of their fathers so that sons sing a song similar to their father’s song and daughters prefer to mate with males that sing like their fathers. Furthermore, hybrid females receive their Z chromosome from their cactus finch father and their W chromosome from their ground finch mother. This explain why genes on the Z chromosome cannot flow from the medium ground finch to the cactus finch via these hybrid females, whereas genes in other parts of the genome can, because parents of the hybrid contribute equally.

    “Our data show that the fitness of the hybrids between the two species is highly dependent on environmental conditions which affect food abundance,” says Leif Andersson of Uppsala University and Texas A&M University. “That is, to what extent hybrids, with their combination of gene variants from both species, can successfully compete for food and territory. Therefore, the long-term outcome of the ongoing hybridisation between the two species will depend on environmental factors as well as competition.”

    “One scenario is that the two species will merge into a single species combining gene variants from the two species, but perhaps a more likely scenario is that they will continue to behave as two species and either continue to exchange genes occasionally or develop reproductive isolation if the hybrids at some point show reduced fitness compared with purebred progeny. The study contributes to our understanding of how biodiversity evolves,” Andersson concludes.

    Acknowledgements: The study was supported by the Galápagos National Parks Service, the Charles Darwin Foundation, the National Science Foundation, the Knut and Alice Wallenberg Foundation and the Swedish Research Council.


    Contact for scientific information:

    For further information contact:

    Professor Leif Andersson, Uppsala University, Swedish University of Agricultural Sciences and Texas A&M University, cell phone +46 70 425 0233, email: Leif.Andersson@imbim.uu.se

    Professors Peter and Rosemary Grant, Princeton University, Princeton, N.J. 08544-1003, phone: +01-609 258 3845, email: prgrant@princeton.edu


    Original publication:

    Sangeet Lamichhaney, Fan Han, Matthew T. Webster, B. Rosemary Grant, Peter R. Grant, Leif Andersson, Female-biased gene flow between two species of Darwin’s finches, Nature Ecology & Evolution, DOI: 10.1038/s41559-020-1183-9


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    Biology, Medicine
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