Genetic population structure of sympatric and allopatric populations of Baltic ciscoes (<it>Coregonus albula </it>complex, Teleostei, Coregonidae)

• Main Authors: Nitz Barbara, Monaghan Michael T, Elkin Che, Pohlmann Kirsten, Mehner Thomas, Freyhof Jörg
• Format: Article
• Language: English
• Published: BMC 2010-03-01
• Series: BMC Evolutionary Biology
• Online Access: http://www.biomedcentral.com/1471-2148/10/85

<p>Abstract</p> <p>Background</p> <p>Teleost fishes of the Coregonidae are good model systems for studying postglacial evolution, adaptive radiation and ecological speciation. Of particular interest is whether the repeated occurrence of sympatric species pairs results from <it>in-situ </it>divergence from a single lineage or from multiple invasions of one or more different lineages. Here, we analysed the genetic structure of Baltic ciscoes (<it>Coregonus albula </it>complex), examining 271 individuals from 8 lakes in northern Germany using 1244 polymorphic AFLP loci. Six lakes had only one population of <it>C. albula </it>while the remaining two lakes had <it>C. albula </it>as well as a sympatric species (<it>C. lucinensis </it>or <it>C. fontanae</it>).</p> <p>Results</p> <p>AFLP demonstrated a significant population structure (Bayesian <it>θ</it>^B= 0.22). Lower differentiation between allopatric (<it>θ</it>^B= 0.028) than sympatric (0.063-0.083) populations contradicts the hypothesis of a sympatric origin of taxa, and there was little evidence for stocking or ongoing hybridization. Genome scans found only three loci that appeared to be under selection in both sympatric population pairs, suggesting a low probability of similar mechanisms of ecological segregation. However, removal of all non-neutral loci decreased the genetic distance between sympatric pairs, suggesting recent adaptive divergence at a few loci. Sympatric pairs in the two lakes were genetically distinct from the six other <it>C. albula </it>populations, suggesting introgression from another lineage may have influenced these two lakes. This was supported by an analysis of isolation-by-distance, where the drift-gene flow equilibrium observed among allopatric populations was disrupted when the sympatric pairs were included.</p> <p>Conclusions</p> <p>While the population genetic data alone can not unambiguously uncover the mode of speciation, our data indicate that multiple lineages may be responsible for the complex patterns typically observed in <it>Coregonus</it>. Relative differences within and among lakes raises the possibility that multiple lineages may be present in northern Germany, thus understanding the postglacial evolution and speciation in the <it>C. albula </it>complex requires a large-scale phylogenetic analysis of several potential founder lineages.</p>