Corythucha ciliata (Say), an invasive pest originating from North America, causes severe damage on sycamore trees. However, little is known about the population genetics and evolutionary forces underlying the invasiveness of this important pest. In the present study, we use three mitochondrial genes (COI, ND1 and ND5) and nine microsatellite markers to investigate the population genetics of C. ciliata and retrace its spread through China. The results suggest a low level of genetic diversity in Chinese and European populations of C. ciliata. Our results indicate that populations of C. ciliata have obvious genetic structure, and genetic differentiation is not caused by geographic isolation. In median-joining networks, we observed a higher frequency of shared haplotypes in groups 1 and 3. Based on gene flow and approximate Bayesian computation analyses, we discovered that C. ciliata first invaded the east coast of China and subsequently moved inland. Demographic analysis suggested that populations of C. ciliata in China may have undergone a recent bottleneck effect. Finally, our results suggest that population structure, high gene flow and environmental conditions have favored the broad invasiveness of this important pest.
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| http://dx.doi.org/10.1038/s41598-017-00279-5 | DOI Listing |
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Article Synopsis
- Natural communities face various environmental stressors that influence species' populations and traits.
- Certain traits like body size quickly adapt to environmental changes and can affect population density, raising questions about how these adjustments occur in stressful settings.
- In our study of two competing ciliates, we found that salinity, temperature, and competition affected their density and size, but the connection between size and density weakened under stress and competition conditions.
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