Abstract
BackgroundA major focus of evolutionary biology is the formation of reproductive barriers leading to divergence and ultimately, speciation. Often, it is not clear whether the separation of populations is complete or if there still is ongoing gene flow in the form of rare cases of admixture, known as isolation with migration. Here, we studied the speciation of two fire ant species, Solenopsis invicta and Solenopsis richteri, both native to South America, both inadvertently introduced to North America in the early twentieth century. While the two species are known to admix in the introduced range, in the native range no hybrids were found.ResultsWe conducted a population genomic survey of native and introduced populations of the two species using reduced representation genomic sequencing of 337 samples. Using maximum likelihood analysis over native range samples, we found no evidence of any gene flow between the species since they diverged. We estimated their time of divergence to 190,000 (100,000–350,000) generations ago. Modelling the demographic history of native and introduced S. invicta populations, we evaluated their divergence times and historic and contemporary population sizes, including the original founder population in North America, which was estimated at 26 (10–93) unrelated singly-mated queens.ConclusionsWe provide evidence for complete genetic isolation maintained between two invasive species in their natïve range, based, for the first time, on large scale genomic data analysis. The results lay the foundations for further studies into different stages in the formation of genetic barriers in dynamic, invasive populations.
Highlights
A major focus of evolutionary biology is the formation of reproductive barriers leading to divergence and speciation
We inferred the population structure and demographic history using restriction-site associated DNA (RAD) sequencing of population samples of S. invicta and S. richteri from nine localities in their native range in Argentina and their introduced range in the USA (Fig. 1; Additional file 1: Tables S1 and S2)
The genotypes of between 6389 and 285,847 single nucleotide polymorphic sites (SNPs), representing between 161 and 337 individuals and a total of 16,648 aligned RADseqs were used in the different analyses
Summary
A major focus of evolutionary biology is the formation of reproductive barriers leading to divergence and speciation. Often, it is not clear whether the separation of populations is complete or if there still is ongoing gene flow in the form of rare cases of admixture, known as isolation with migration. While the two species are known to admix in the introduced range, in the native range no hybrids were found. Many cases of species hybridization, resulting from accidental introduction of foreign species into new environments, have been identified and documented [1,2,3]. Exploring the differences between populations and their environments in native and introduced ranges may reveal the factors responsible for genetic isolation, which would eventually result in irreversible speciation
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