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Autori principali: Izquierdo-Arànega, Guillem, Cuevas-Caballé, Cristian, Giannelli, Francesco, Paris, Josephine R, Bourgeois, Karen, Trucchi, Emiliano, González-Solís, Jacob, Riutort, Marta, Obiol, Joan Ferrer, Rozas, Julio
Natura: Artículo científico
Lingua:en
Pubblicazione: Proceedings of the National Academy of Sciences of the United States of America 2025
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Accesso online:https://pubmed.ncbi.nlm.nih.gov/40833417/
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Sommario:
  • Pervasive and recurrent hybridization prevents inbreeding in Europe's most threatened seabird. Izquierdo-Arànega, Guillem Cuevas-Caballé, Cristian Giannelli, Francesco Paris, Josephine R Bourgeois, Karen Trucchi, Emiliano González-Solís, Jacob Riutort, Marta Obiol, Joan Ferrer Rozas, Julio Animals Hybridization, Genetic Endangered Species Inbreeding Birds Gene Flow Genetic Variation Europe Conservation of Natural Resources Haplotypes Genetics, Population Hybridization is a double-edged sword: While it can erode distinct evolutionary lineages, it can also introduce genetic diversity and adaptive potential into dwindling populations. In the Critically Endangered Balearic shearwater (), this dilemma is exacerbated by a limited understanding of the extent and consequences of hybridization with the Yelkouan shearwater (). This knowledge gap has limited the scope of science-based conservation strategies to avoid the Balearic shearwater's imminent extinction. Here, we investigate shearwater hybridization dynamics and their effect on genome-wide diversity in the Balearic shearwater. Divergence dating, demographic modeling, and admixture analyses suggest that these two poorly differentiated shearwater lineages have experienced recurrent episodes of divergence and widespread hybridization during glacial cycles. Selection scans reveal a 500 kb region hosting an adaptive haplotype that potentially underpins interspecific differences in migratory behavior and which has been repeatedly introgressed between the two taxa. Moreover, we show that interspecific gene flow has prevented increases in homozygosity and genetic load, and through forward simulations, we illustrate how it can buffer the negative effects of future population bottlenecks in the Balearic shearwater. Our findings illustrate how introgression can be crucial for maintaining genetic diversity in threatened taxa and highlight the need for considering the protection of hybridization in conservation plans.