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Generation of a neutral F ST baseline for testing local adaptation on gill raker number within and between European whitefish ecotypes in the Baltic Sea basin
Author(s) -
Ozerov M. Y.,
Himberg M.,
Aykanat T.,
Sendek D. S.,
Hägerstrand H.,
Verliin A.,
Krause T.,
Olsson J.,
Primmer C. R.,
Vasemägi A.
Publication year - 2015
Publication title -
journal of evolutionary biology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.289
H-Index - 128
eISSN - 1420-9101
pISSN - 1010-061X
DOI - 10.1111/jeb.12645
Subject(s) - biology , ecotype , ecology , local adaptation , adaptation (eye) , genetic divergence , selection (genetic algorithm) , population , genetic diversity , demography , neuroscience , sociology , artificial intelligence , computer science
Abstract Divergent selection at ecologically important traits is thought to be a major factor driving phenotypic differentiation between populations. To elucidate the role of different evolutionary processes shaping the variation in gill raker number of European whitefish ( Coregonus lavaretus sensu lato) in the Baltic Sea basin, we assessed the relationships between genetic and phenotypic variation among and within three whitefish ecotypes (sea spawners, river spawners and lake spawners). To generate expected neutral distribution of F ST and to evaluate whether highly variable microsatellite loci resulted in deflated F ST estimates compared to less variable markers, we performed population genetic simulations under finite island and hierarchical island models. The genetic divergence observed among ( F CT = 0.010) and within ( F ST = 0.014–0.041) ecotypes was rather low. The divergence in gill raker number, however, was substantially higher between sea and river spawners compared to observed microsatellite data and simulated neutral baseline ( P CT > F CT ). This suggests that the differences in gill raker number between sea and river spawners are likely driven by divergent natural selection. We also found strong support for divergent selection on gill raker number among different populations of sea spawners ( P ST > F ST ), most likely caused by highly variable habitat use and diverse diet. The putative role of divergent selection within lake spawners initially inferred from empirical microsatellite data was not supported by simulated F ST distributions. This work provides a first formal test of divergent selection on gill raker number in Baltic whitefish, and demonstrates the usefulness of population genetic simulations to generate informative neutral baselines for P ST – F ST analyses helping to disentangle the effects of stochastic evolutionary processes from natural selection.