Abstract
Phylogeographic analyses of the gall fly Urophora cardui have in earlier studies based on allozymes and mtDNA identified small-scale, parapatrically diverged populations within an expanding Western Palearctic population. However, the low polymorphism of these markers prohibited an accurate delimitation of the evolutionary origin of the parapatric divergence. Urophora cardui from the Western Palearctic have been introduced into Canada as biological control agents of the host plant Cirsium arvense. Here, we characterise 12 microsatellite loci with hexa-, penta- and tetra-nucleotide repeat motifs and report a genotyping-by-sequencing SNP protocol. We test the markers for genetic variation among three parapatric U. cardui populations. Microsatellite variability (N = 59 individuals) was high: expected heterozygosity/locus/population (0.60–0.90), allele number/locus/population (5–21). One locus was alternatively sex-linked in males or females. Cross-species amplification in the sister species U. stylata was successful or partially successful for seven loci. For genotyping-by-sequencing (N = 18 individuals), different DNA extraction methods did not affect data quality. Depending on sequence sorting criteria, 1,177–2,347 unlinked SNPs and 1,750–4,469 parsimony informative sites were found in 3,514–5,767 loci recovered after paralog filtering. Both marker systems quantified the same population partitions with high probabilities. Many and highly differentiated loci in both marker systems indicate genome-wide diversification and genetically distinct populations.
Highlights
In situ parapatric divergence across an environmental gradient is expected to result in a combination of non-concordant genetic clines among loci under selection, due to different selection coefficients on these loci, and a majority of ‘‘neutral’’ loci structured by a balance between genetic drift and gene flow (Coyne & Orr, 2004)
The microsatellite and GBS markers characterised in this study identified identical divisions among three parapatric U. cardui populations, providing evidence for genetic separation of these populations since the first observation of genetic divergence in 2001 (Steinmetz, Johannesen & Seitz, 2004)
We predict genetic divergence among the parapatric U. cardui populations will be present in independent genome regions
Summary
In situ parapatric divergence across an environmental gradient is expected to result in a combination of non-concordant genetic clines among loci under selection (and loci linked to them), due to different selection coefficients on these loci, and a majority of ‘‘neutral’’ loci structured by a balance between genetic drift and gene flow (Coyne & Orr, 2004). Attracting attention as a biological control agent of C. arvense in Canada (Zwölfer, Englert & Pattullo, 1970; Peschken & Harris, 1975), U. cardui has since been studied for a range of topics in its native Western Palearctic and introduced Canadian distribution ranges: biogeography, evolution of galls, interactions with parasitoids and for pest control (e.g., Peschken & Harris, 1975; Zwölfer, 1979; Eber & Brandl, 1997; Johannesen, Drüeke & Seitz, 2010; De Clerck-Floate & Cárcamo, 2011)
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