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Abstract Migratory divides, hybrid zones between populations that use different seasonal migration routes, are hypothesised to contribute to speciation. Specifically, relative to parental species, hybrids at divides are predicted to exhibit (1) intermediate migratory behaviour and (2) reduced fitness as a result. We provide the first direct test of the second prediction here with one of the largest existing avian tracking datasets, leveraging a divide between Swainson's thrushes where the first prediction is supported. Using detection rates as a proxy for survival, our results supported the migratory divide hypothesis with lower survival rates for hybrids than parental forms. This finding was juvenile‐specific (vs. adults), suggesting selection against hybrids is stronger earlier in life. Reduced hybrid survival was not explained by selection against intermediate phenotypes or negative interactions among phenotypes. Additional work connecting specific features of migration is needed, but these patterns provide strong support for migration as an ecological driver of speciation.
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This content will become publicly available on December 17, 2026
An experimental test for ecologically dependent reproductive isolation across an avian migratory divide
Abstract Divergent adaptation can promote ecological speciation if hybrids have reduced fitness because they are poorly adapted to either parental niche. We tested for ecologically dependent, postzygotic isolation between two subspecies of Swainson’s thrushes, which form a migratory divide and hybrid zone in western North America. To do this, we translocated backcrossed and admixed birds from the hybrid zone into the range of each subspecies in the beginning of fall migration. We estimated a proxy for their survival on migration and migratory behaviour using automated radio tracking. Apparent survival of birds in the two environments did not depend on their genomic ancestry, suggesting that Swainson’s thrushes’ divergent adaptation to different fall migration routes does not fit the classic model of ecological speciation. We propose an alternate scenario where ecological selection on migration may interact with intrinsic maladaptation in hybrids to cause hybrid survival on migration. By translocating birds from the same genomic backgrounds into different environments, our experiment also allowed us to distinguish between the effects of environmental relative to genetic contributors to their migratory behaviour. We found evidence that both genetic and environmental factors influence migratory behaviour, as an effect of genomic ancestry on initial migratory trajectories depended on the start location for migration but birds ultimately followed expected routes given their genomic ancestries.
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- PAR ID:
- 10657178
- Publisher / Repository:
- Oxford; Journal of Evolutionary Biology
- Date Published:
- Journal Name:
- Journal of Evolutionary Biology
- ISSN:
- 1420-9101
- Format(s):
- Medium: X
- Sponsoring Org:
- National Science Foundation
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