Abstract
Natural populations often vary in their degree of ecological, morphological and genetic divergence. This variation can be arranged along an ecological speciation continuum of increasingly discrete variation, with high inter-individual variation at one end and well defined species in the other. In postglacial fishes, evolutionary divergence has commonly resulted in the co-occurrence of a pelagic and a benthic specialist. We studied three replicate lakes supporting sympatric pelagic and benthic European whitefish (Coregonus lavaretus (L.)) morphs in search for early signs of possible further divergence into more specialized niches. Using stomach content data (recent diet) and stable isotope analyses (time-integrated measure of trophic niche use), we observed a split in the trophic niche within the benthic whitefish morph, with individuals specializing on either littoral or profundal resources. This divergence in resource use was accompanied by small but significant differences in an adaptive morphological trait (gill raker number) and significant genetic differences between fish exploiting littoral and profundal habitats and foraging resources. The same pattern of parallel divergence was found in all three lakes, suggesting similar natural selection pressures driving and/or maintaining the divergence. The two levels of divergence (a clear and robust benthic – pelagic and a more subtle littoral – profundal divergence) observed in this study apparently represent different stages in the process of ecological speciation.
Highlights
The process of adaptive radiation and ecological speciation may generate a continuous pattern of increasingly discrete variation, with high inter-individual variation at one end through discrete polymorphism, to well defined separate species in the other (Seehausen et al 2008b; Hendry et al 2009; Peccoud et al 2009; Seehausen 2009; Nosil 2012)
We describe a subtle divergence in the trophic niche within a well recognized trophic polymorphism in whitefish
We show that the large sparsely rakered (LSR) whitefish morph, exhibits individuals specializing on either shallow littoral or deep profundal benthic resources
Summary
The process of adaptive radiation and ecological speciation may generate a continuous pattern of increasingly discrete variation, with high inter-individual variation at one end through discrete polymorphism, to well defined separate species in the other (Seehausen et al 2008b; Hendry et al 2009; Peccoud et al 2009; Seehausen 2009; Nosil 2012). The concepts of adaptive radiation and ecological speciation state that adaptations to local environments and barriers to gene flow evolve between populations as a result of ecologically-based divergent selection (Schluter 2000; Rundle and Nosil 2005). Inter-individual variation and divergence in habitat use and/or diet choice is common in the early stage of population divergence (Streelman and Danley 2003; Rasanen and Hendry 2008; Puebla 2009). The process may lead to the formation of separate species, i.e. ecological speciation (Schluter 2001; Rundle and Nosil 2005)
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