Abstract
Estuarine organisms grow in highly heterogeneous habitats, and their genetic differentiation is driven by selective and neutral processes as well as population colonization history. However, the relative importance of the processes that underlie genetic structure is still puzzling. Scirpus mariqueter is a perennial grass almost limited in the Changjiang River estuary and its adjacent Qiantang River estuary. Here, using amplified fragment length polymorphism (AFLP), a moderate‐high level of genetic differentiation among populations (range F ST: 0.0310–0.3325) was showed despite large ongoing dispersal. FLOCK assigned all individuals to 13 clusters and revealed a complex genetic structure. Some genetic clusters were limited in peripheries compared with very mixing constitution in center populations, suggesting local adaptation was more likely to occur in peripheral populations. 21 candidate outliers under positive selection were detected, and further, the differentiation patterns correlated with geographic distance, salinity difference, and colonization history were analyzed with or without the outliers. Combined results of AMOVA and IBD based on different dataset, it was found that the effects of geographic distance and population colonization history on isolation seemed to be promoted by divergent selection. However, none‐liner IBE pattern indicates the effects of salinity were overwhelmed by spatial distance or other ecological processes in certain areas and also suggests that salinity was not the only selective factor driving population differentiation. These results together indicate that geographic distance, salinity difference, and colonization history co‐contributed in shaping the genetic structure of S. mariqueter and that their relative importance was correlated with spatial scale and environment gradient.
Highlights
Gene flow and divergent selection are the two most opposite forces to determine population structure in nature (Freeland, Biss, Conrad, & Silvertown, 2010; Räsänen & Hendry, 2008; Sambatti & Rice, 2006)
To investigate the relative importance of spatial distance and salinity difference on genetic structure, we tested for IBD and IBE based on the three datasets: all loci, positive, and neutral dataset
Non‐Bayesian clustering analysis using FLOCK assigned all individuals to thirteen genetic clusters and revealed a complex genetic structure of S. mariqueter: some clusters were limited in marginal locations compared with very mixing constitution in central populations
Summary
Gene flow and divergent selection are the two most opposite forces to determine population structure in nature (Freeland, Biss, Conrad, & Silvertown, 2010; Räsänen & Hendry, 2008; Sambatti & Rice, 2006). Estuary is an open system without physical boundaries of dispersal, and the agitation of tide and freshwater connects different regions of an estuary and accelerates dispersals of all floating propagules in water, including seeds, eggs, larva, etc., which are likely to result in high gene flow among populations It is intriguing what pattern of spatial genetic structure will be displayed in estuarine species under the contrasting effects of selection pressure and gene flow. In this study, using amplified fragment length polymorphism (AFLP), we quantified the distribution of genetic variations and the migration among populations of S. mariqueter under heterogeneous environments of two adjacent estuaries, the CRE and the QRE This structure may be driven by neutral and/or selective processes; we look for loci potentially affected by selection (outlier loci). It is hypothesized that if outlier loci do not show the same IBD or IBE pattern as neutral loci, but showing a direct correlation between genetic differentiation and geographical distance or environmental variables, or colonization history, the evidence for the relative importance of above processes in shaping the structure of this species will be found
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