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The phoenix hypothesis of speciation Yamaguchi, Ryo; Wiley, Bryn; Otto, Sarah
Description
<b>Abstract</b><br/>
Genetic divergence among allopatric populations builds reproductive isolation over time. This process is accelerated when populations face a changing environment, but abrupt change also places populations at risk of extinction. Here we use simulations of Fisher’s geometric model with explicit population dynamics to explore the genetic changes that occur in the face of environmental changes. We show that evolutionary rescue leads to the fixation of mutations whose effects are larger on average and that these mutations are more likely to lead to reproductive isolation, compared with populations not at risk of extinction. We refer to the formation of new species from the ashes of populations in decline as the phoenix hypothesis of speciation. The phoenix hypothesis predicts more substantial hybrid fitness breakdown among populations surviving a higher extinction risk. The hypothesis was supported when many loci underlie adaptation. When, however, there was only a small number of potential rescue mutations, we found that mutations fixed in different populations were more likely to be identical, with parallel changes reducing isolation. With a limited genomic potential for adaptation, we find support for a modified version of the phoenix hypothesis where reproductive isolation builds fastest in populations subject to an intermediate extinction risk.</p>
Item Metadata
| Title |
The phoenix hypothesis of speciation
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| Creator | |
| Date Issued |
2022-11-18
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| Description |
<b>Abstract</b><br/>
Genetic divergence among allopatric populations builds reproductive isolation over time. This process is accelerated when populations face a changing environment, but abrupt change also places populations at risk of extinction. Here we use simulations of Fisher’s geometric model with explicit population dynamics to explore the genetic changes that occur in the face of environmental changes. We show that evolutionary rescue leads to the fixation of mutations whose effects are larger on average and that these mutations are more likely to lead to reproductive isolation, compared with populations not at risk of extinction. We refer to the formation of new species from the ashes of populations in decline as the phoenix hypothesis of speciation. The phoenix hypothesis predicts more substantial hybrid fitness breakdown among populations surviving a higher extinction risk. The hypothesis was supported when many loci underlie adaptation. When, however, there was only a small number of potential rescue mutations, we found that mutations fixed in different populations were more likely to be identical, with parallel changes reducing isolation. With a limited genomic potential for adaptation, we find support for a modified version of the phoenix hypothesis where reproductive isolation builds fastest in populations subject to an intermediate extinction risk.</p> |
| Subject | |
| Type | |
| Notes |
Dryad version number: 3</p> Version status: submitted</p> Dryad curation status: Published</p> Sharing link: https://datadryad.org/stash/share/vFP0qBtM2HIV9XL8_jL1oCHoGPuLwy5LJYL4TVpeiXU</p> Storage size: 754513</p> Visibility: public</p> |
| Date Available |
2022-11-10
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| Provider |
University of British Columbia Library
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| License |
CC0 Waiver
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| DOI |
10.14288/1.0421944
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| URI | |
| Publisher DOI | |
| Grant Funding Agency |
Japan Society for the Promotion of Science; Natural Sciences and Engineering Research Council of Canada
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| Rights URI | |
| Aggregated Source Repository |
Dataverse
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Licence
CC0 Waiver