Influences of past climatic changes on historical population structure and demography of a cosmopolitan marine predator, the common dolphin (genus Delphinus)

Climatic oscillations during the Pleistocene have greatly influenced the distribution and connectivity of many organisms, leading to extinctions but also generating biodiversity. While the effects of such changes have been extensively studied in the terrestrial environment, studies focusing on the m...

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Published inMolecular ecology Vol. 21; no. 19; pp. 4854 - 4871
Main Authors Amaral, Ana R., Beheregaray, Luciano B., Bilgmann, Kerstin, Freitas, Luís, Robertson, Kelly M., Sequeira, Marina, Stockin, Karen A., Coelho, M. M., Möller, Luciana M.
Format Journal Article
LanguageEnglish
Published England Blackwell Publishing Ltd 01.10.2012
Subjects
adaptive evolution
adaptive evolution, speciation
Animals
Biological Evolution
Cell Nucleus - genetics
cetaceans
Climate Change
Common Dolphins - genetics
Demography
DNA, Mitochondrial - genetics
Dolphins & porpoises
Genetics, Population
Haplotypes
Marine conservation
Molecular Sequence Data
Phylogeography
Population Dynamics
Predation
Sequence Analysis, DNA
speciation
taxonomy
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Summary:Climatic oscillations during the Pleistocene have greatly influenced the distribution and connectivity of many organisms, leading to extinctions but also generating biodiversity. While the effects of such changes have been extensively studied in the terrestrial environment, studies focusing on the marine realm are still scarce. Here we used sequence data from one mitochondrial and five nuclear loci to assess the potential influence of Pleistocene climatic changes on the phylogeography and demographic history of a cosmopolitan marine predator, the common dolphin (genus Delphinus). Population samples representing the three major morphotypes of Delphinus were obtained from 10 oceanic regions. Our results suggest that short‐beaked common dolphins are likely to have originated in the eastern Indo‐Pacific Ocean during the Pleistocene and expanded into the Atlantic Ocean through the Indian Ocean. On the other hand, long‐beaked common dolphins appear to have evolved more recently and independently in several oceans. Our results also suggest that short‐beaked common dolphins had recurrent demographic expansions concomitant with changes in sea surface temperature during the Pleistocene and its associated increases in resource availability, which differed between the North Atlantic and Pacific Ocean basins. By proposing how past environmental changes had an effect on the demography and speciation of a widely distributed marine mammal, we highlight the impacts that climate change may have on the distribution and abundance of marine predators and its ecological consequences for marine ecosystems.
Bibliography:Fig. S1 Median-joining networks of nuclear gene haplotypes of common dolphins: (a) CHRNA1, (b) PLP, (c) Del_12, (d) Del_15, (e) Del_17. Circle size is proportional to the number of individuals exhibiting the corresponding haplotype.Fig. S2 Posterior probability distributions for θ (population size), M (migration) and T (time since divergence) obtained in the program mdiv under a HKY model.Table S1 Pairwise FST values obtained for the cytochrome b gene (below diagonal) and for the concatenated nuclear loci (above diagonal) for the different putative populations analysed in this study.
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ArticleID:MEC5728
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ISSN:0962-1083
1365-294X
DOI:10.1111/j.1365-294X.2012.05728.x