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Dryad

Data from: Parallel speciation or long-distance dispersal? Lessons from seaweeds (Fucus) in the Baltic Sea

Cite this dataset

Pereyra, Ricardo T. et al. (2013). Data from: Parallel speciation or long-distance dispersal? Lessons from seaweeds (Fucus) in the Baltic Sea [Dataset]. Dryad. https://doi.org/10.5061/dryad.v17q6

Abstract

Parallel evolution has been invoked as a forceful mechanism of ecotype and species formation in many animal taxa. However, parallelism may be difficult to separate from recently monophyletically diverged species that are likely to show complex genetic relationships as a result of considerable shared ancestral variation and secondary hybridization in local areas. Thus, species’ degrees of reproductive isolation, barriers to dispersal and in particular, limited capacities for long-distance dispersal, will affect demographic structures underlying mechanisms of divergent evolution. Here, we used nine microsatellite DNA markers to study intra- and interspecific genetic diversity of two recently diverged species of brown macroalgae, Fucus radicans (L. Bergström & L. Kautsky) and F. vesiculosus (Linnaeus), in the Baltic Sea. We further performed biophysical modelling to identify likely connectivity patterns influencing the species’ genetic structures. For each species we found intraspecific contrasting patterns of clonality incidence and population structure. In addition, strong genetic differentiation between the two species within each locality supported the existence of two distinct evolutionary lineages (FST =0.15-0.41). However, overall genetic clustering analyses across both species’ populations revealed that all populations from one region (Estonia) were more genetically similar to each other than to their own taxon from the other two regions (Sweden and Finland). Our data supports a hypothesis of parallel speciation. Alternatively, Estonia may be the ancestral source of both species, but is presently isolated by oceanographic barriers to dispersal. Thus, a limited gene flow in combination with genetic drift could have shaped the seemingly parallel structure.

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Location

Öregrund Sweden
Fiskebäcksil Sweden
Eggholmen Norway
Triigi Estonia
Kõiguste Estonia
Djursten Sweden
Bönhamn Sweden
Pulli Panki Estonia
Södra Vallgrund Finland