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Publication
Climate change and genetic structure of leading edge and rear end populations in a northwards shifting marine fish species, the corkwing wrasse (Symphodus melops)
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Abstract(s)
One mechanism by which marine organisms may respond to climate shifts is range shifts. The corkwing wrasse (Symphodus
melops) is a temperate fish species, inhabiting the coasts of Europe, that show strong indications of current as well as
historical (ice-age) range shifts towards the north. Nine neutral microsatellite DNA markers were screened to study genetic
signatures and spatial population structure over the entire geographic and thermal gradient of the species from Portugal to
Norway. A major genetic break (FST = 0.159 average among pairs) was identified between Scandinavian and more southern
populations, with a marked reduction (30% or more) in levels of genetic variability in Scandinavia. The break is probably
related to bottleneck(s) associated with post-glacial colonization of the Scandinavian coasts, and indicates a lack of present
gene flow across the North Sea. The lack of gene flow can most likely be attributed to the species’ need for rocky substrate
for nesting and a relatively short pelagic larval phase, limiting dispersal by ocean currents. These findings demonstrate that
long-distance dispersal may be severely limited in the corkwing wrasse, and that successful range-shifts following present
climate change may be problematic for this and other species with limited dispersal abilities, even in the seemingly
continuous marine environment.
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Citation
Plos One, 8 (6), e67492