Journal
BULLETIN OF MARINE SCIENCE
Volume 90, Issue 1, Pages 533-549Publisher
ROSENSTIEL SCH MAR ATMOS SCI
DOI: 10.5343/bms.2013.1036
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- University of California Santa Cruz
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Working in the Galapagos Islands and surrounding areas, we examined the relationship between population structure, a precursor to allopatric speciation, in species of reef fishes that exhibit different life history traits and three types of distributions in a nested setting: endemic (restricted to the Galapagos Islands), insular (Galapagos and neighboring islands), and Panamic (tropical eastern Pacific). We used a combination of population structure and coalescent approaches to assess the degree of genetic population structure in the three groups of fish species. In addition, we evaluated the level of inter-island genetic diversity in endemic species to determine if Galapagos fishes, like their terrestrial counterparts, could be used as a system to study allopatric speciation in the sea. We found that in general, there was no correlation between distribution ranges, life history traits, and population structure, except for Dialommus fuscus Gilbert, 1891, a Galapagos endemic that lives in the uppermost intertidal area, and as predicted, shows very strong population structure. We found the highest number of statistically significant population pairwise F-ST comparisons in endemic species. In addition, three out of four endemic species showed significant population pairwise F-ST [D. fuscus, Lepidonectes corallicola (Kendall and Radcliffe, 1912), and Lythrypnus gilbert (Heller and Snodgrass, 1903)]. These results suggest that endemic Galapagos Islands reef fishes may be a promising group of species to study phylogeographic patterns of speciation.
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