Abstract
AimGenetic data were used to measure the phylogeographic distribution of the limpet, Cellana toreuma along the China coast in order to acsertain impacts of historic events, ocean currents and especially freshwater discharge from the Yangtze River on the connectivity of intertidal species with limited larval dispersal capability.Methodology/Principal FindingsGenetic variation in 15 populations of C. toreuma (n = 418), ranging from the Yellow Sea (YS), East China Sea (ECS) and South China Sea (SCS), were determined from partial mitochondrial cytochrome c oxidase subunit I gene. Genetic diversity and divergence based on haplotype frequencies were analyzed using CONTRIB, and AMOVA was used to examine genetic population structure. Historic demographic expansions were evaluated from both neutrality tests and mismatch distribution tests. Among the 30 haplotypes identified, a dominant haplotype No. 1 (H1) existed in all the populations, and a relatively abundant private haplotype (H2) in YS. Pairwise FST values between YS and the other two groups were relatively high and the percentage of variation among groups was 10.9%.ConclusionsThe high nucleotide and gene diversity in the YS, with large pairwise genetic distances and relatively high percentages of variation among groups, suggests that this group was relatively isolated from ECS and SCS. This is likely driven by historic events, ocean currents, and demographic expansion. We propose that freshwater discharge from the Yangtze River, which may act as physical barrier limiting the southward dispersal of larvae from northern populations, is especially important in determining the separation of the YS group from the rest of the Chinese populations of C. toreuma.
Highlights
Understanding the forces which contribute to the biogeographic distributions of marine organisms has long been of interest to biologists in their attempts to interpret present day patterns of marine biodiversity [1,2]
The high nucleotide and gene diversity in the Yellow Sea (YS), with large pairwise genetic distances and relatively high percentages of variation among groups, suggests that this group was relatively isolated from East China Sea (ECS) and South China Sea (SCS)
This is likely driven by historic events, ocean currents, and demographic expansion
Summary
Understanding the forces which contribute to the biogeographic distributions of marine organisms has long been of interest to biologists in their attempts to interpret present day patterns of marine biodiversity [1,2]. Species in the intertidal zone are excellent candidates to study the influence of various factors on biogeographic distribution as they occupy a discrete, narrow strip of habitat which is linked by the sea [3], and so it is relative easy to identify the factors which affect their distribution. The distributions of intertidal species are closely linked to historic events, affecting the connectivity of different regions [4,5,6,7], present day coastal topography and oceanic currents which affect larval supply [8,9,10,11,12,13], species’ ecological requirements [7,14] and present day changes in climate which influence the on-shore success of populations [15,16,17]. The dispersal distances of many marine organisms are directly related to the time that larvae spend in the plankton [29], the pelagic larval durations (PLD) among organisms are species, season and location specific, and dispersal distance is closely related to local and regional hydrographic conditions, biological characteristics [11], and habitat specificity [33,34]
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