Fine scale genetic structure in Thresspine sticklback (Gasterosteus aculeatus) along Sweden's coast
(English)Manuscript (preprint) (Other academic)
There are three basic types of population structures in marine environments; populations that are distinct, with a continuous change and without any differentiation. In each type the population units are characterized by groups of individuals with panmixia within groups and site fidelity to a limited geographic area. Earlier studies of the population genetic structure on sticklebacks in the Baltic Sea have shown none or only little structure. We have sampled 8 sites (253 individuals) along Sweden’s coast to estimate the genetic structure, using five microsatellites and 173 Amplified Fragment Length Polymorphism (AFLP) markers and detected a fine scale genetic structure (AFLP FST= 25%, microsatellites FST = 2.7%). With AFLPs the observed variation followed isolation by distance model (but not with microsatellites). Even sites separated by only 2 km of water are significantly separated. Both Bayesian clustering analysis and Capscale separated populations and identified populations from Gulf of Bothnia (4 psu) and from the west coast (20 psu) as genetically distinctly different from Baltic populations (about 7-8 psu). In conclusion, gene flow is limited between sampled sites, and since no geographic barriers can be distinguished the population structure is likely caused by the sticklebacks’ behavior. Hence, we have probably sampled either stationary populations of marine sticklebacks, or homing sticklebacks. In this study AFLP and microsatellites did not give congruent results; with AFLPs we got high separation, and genetic variation followed isolation by distance model and supported the continuous change type of population structure.
Evolutionary Biology Genetics
Research subject Functional Zoomorphology
IdentifiersURN: urn:nbn:se:su:diva-89478OAI: oai:DiVA.org:su-89478DiVA: diva2:618263