Abstract
BackgroundRefugial populations in Quaternary glaciations are critical to understanding the evolutionary history and climatic interactions of many extant species. Compared with the well-studied areas of Europe and Northern America, refugia of species in eastern Asia remain largely unknown. Here, we investigated the phylogeographic history of a globally important insect pest, the oriental fruit moth Grapholita molesta, in its native range of China.ResultsGenetic structure analyses unveiled three distinct groups and a set of populations with admixture. Approximate Bayesian Computation (ABC) analyses support range expansion of this moth from southwest groups of Yunnan and Sichuan to northern and eastern China. A set of admixed populations was found around these two ancestral groups. This pattern of genetic structure points to two refugia located in the Yunnan region and Sichuan Basin. The split of the two refugia was dated to 329.2 thousand years ago in the penultimate glacial period. One of the lineages was exclusively found around the Sichuan Basin, indicating the formation of endemic populations in this refugium. Ecological niche model analysis suggested a shrinking distribution from the LIG period to the MID period in the Sichuan lineage but a wide and stable distribution in the other lineage.ConclusionsOur results for the first time suggest that Yunnan and Sichuan jointly served as two large-scale refugia in eastern Asia in Quaternary glaciations, helping to maintain genetic diversity overall.
Highlights
Refugial populations in Quaternary glaciations are critical to understanding the evolutionary history and climatic interactions of many extant species
Power of microsatellite markers and population genetic diversity POWSIM analysis showed that our microsatellite loci are sufficient to provide a 96% probability of detecting an FST as low as 0.0025 for all populations and 100% probability of detecting an FST as low as 0.005, indicating that the markers genotyped in our study had strong statistical power to investigate population differentiation in oriental fruit moth (OFM) (Additional file 1: Table S1)
The inbreeding coefficients of each geographical population are high (Table 1), possibly related to sampling of OFM
Summary
Refugial populations in Quaternary glaciations are critical to understanding the evolutionary history and climatic interactions of many extant species. Quaternary climatic oscillations (2.6 million years ago– present) have profoundly impacted the current distribution and genetic diversity of extant species [1, 2]. Refugia play an important role in maintaining genetic diversity and providing sources of admixture in postglacial colonization [3, 4]. Responses of species to climatic changes may be different due to their unique biology and historical distributions [10]. This leads to variable genetic imprints when tracing the evolutionary history of species. Human-mediated dispersal can reshape the genetic structure of animal populations and superimpose new signatures on existing
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