RAD tagging adaptation
The threespine stickleback, Gasterosteus aculeatus, is a small fish that inhabits marine, estuarine and freshwater habitats in the holarctic. It has been previously inferred that in many regions, freshwater populations derived from oceanic ancestors. As soon as the freshwater populations are in different drainage systems, they can be considered as independent of each other. Those natural replicates are one of the reasons why sticklebacks are a model system to study adaptive evolution. Sticklebacks adapt to freshwater habitats in a recurrent manner by modifying several key phenotypic traits. Many studies focused on identifying those traits and measuring their heritability or fitness properties. At the phenotypic level, there is a striking parallelism between derived freshwater population, but what is unclear is how much this parallelism is underlined by genome-wide patterns of parallel evolution. That is the main question that Hohenlohe et al. tackled in their 2010 paper entitled “Population genomics of parallel adaptation in threespine stickleback using RAD Tags”. They compared the genomes of fish originating from three lakes and two coastal saltwater habitats located along Alaska’s southern coast. The three lakes were chosen in different drainage systems to have three independent instances of adaptation to freshwater (and maybe to have an …
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