期刊
ECOLOGY AND EVOLUTION
卷 11, 期 21, 页码 14960-14976出版社
WILEY
DOI: 10.1002/ece3.8180
关键词
divergence; mitonuclear discordance; multilocus; philopatry; phylogeography; Puffinus
资金
- La Rochelle Universite (ULR)
- Parc Naturel Regional de la Martinique
- DEAL Martinique
- Spanish Government [CGL2009-11278/BOS, CGL2013-42585-P, CGL2016-78530-R]
- Fondos FEDER
Seabirds, particularly Procellariiformes, are highly mobile organisms with a great capacity for long dispersal, though simultaneously showing high philopatry, resulting in contrasting patterns of genetic population structure. Factors such as landmasses, isolation by distance, segregation between breeding and nonbreeding zones, and oceanographic conditions contribute to the differentiation patterns observed in seabirds. The differentiation among populations is influenced by historical and current variation in sea surface temperatures.
Seabirds, particularly Procellariiformes, are highly mobile organisms with a great capacity for long dispersal, though simultaneously showing high philopatry, two conflicting life-history traits that may lead to contrasted patterns of genetic population structure. Landmasses were suggested to explain differentiation patterns observed in seabirds, but philopatry, isolation by distance, segregation between breeding and nonbreeding zones, and oceanographic conditions (sea surface temperatures) may also contribute to differentiation patterns. To our knowledge, no study has simultaneously contrasted the multiple factors contributing to the diversification of seabird species, especially in the gray zone of speciation. We conducted a multilocus phylogeographic study on a widespread seabird species complex, the little shearwater complex, showing highly homogeneous morphology, which led to considerable taxonomic debate. We sequenced three mitochondrial and six nuclear markers on all extant populations from the Atlantic (lherminieri) and Indian Oceans (bailloni), that is, five nominal lineages from 13 populations, along with one population from the eastern Pacific Ocean (representing the dichrous lineage). We found sharp differentiation among populations separated by the African continent with both mitochondrial and nuclear markers, while only mitochondrial markers allowed characterizing the five nominal lineages. No differentiation could be detected within these five lineages, questioning the strong level of philopatry showed by these shearwaters. Finally, we propose that Atlantic populations likely originated from the Indian Ocean. Within the Atlantic, a stepping-stone process accounts for the current distribution. Based on our divergence time estimates, we suggest that the observed pattern of differentiation mostly resulted from historical and current variation in sea surface temperatures.
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