Phylogeography and Biogeography Concordance in the Marine Gastropod Crepipatella dilatata (Calyptraeidae) along the Southeastern Pacific Coast
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Date
2012
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Publisher
OXFORD UNIV PRESS INC
Abstract
The biogeography and phylogeography concordance hypothesis suggests that the same factors, for instance physical barriers or environmental gradients, shape both species assemblages and intraspecific genetic structure. In the marine realm, previous studies have however suggested that phylogeographic patterns are also explained by the life-history strategy of the species. However, evidence is contradictory and comes mainly from the northern hemisphere, which is characterized by specific environmental conditions and evolutionary histories of species. In this work, we evaluated the concordance hypothesis in the southern Pacific using the marine gastropod Crepipatella dilatata as a case study. This intertidal species with direct development exhibited a restricted dispersal potential, a feature that contrasts with previous species studied in the same area. Using the gene cytochrome oxidase I, we analyzed 253 individuals sampled at 10 locations covering 543 km of the coast of Chile. The study sites also incorporated 2 biogeographic regions separated by a well-studied biogeographic break (at 30 degrees S). Populations of C dilatata displayed a high degree of genetic structure and a perfect match between phylogeographic and biogeographic breaks at 30 degrees S. When comparing our data with previous research over the same geographic range, life history traits related to dispersal ability seem to be a good proxy for explaining the concordance between biogeography and phylogeography along the southeastern pacific coast. In addition, in this and other marine invertebrate species, gene flow limitations across both sides of the 30 degrees S break may act as a driver of the speciation process.
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Keywords
Chilean coast, cytochrome oxidase I, dispersal potential, marine gastropod, phylogeographic break, GENETIC-STRUCTURE, INTRASPECIFIC PHYLOGEOGRAPHY, POPULATION-STRUCTURE, DNA, DIVERSITY, PATTERNS, ATLANTIC, HISTORY, FLOW, DIFFERENTIATION