Tracking the global dispersal of a cosmopolitan insect pest, the peach potato aphid
Background. Global commerce and human transportation are responsible for the range expansion of various insect pests such as the plant sucking aphids. High resolution DNA markers provide the opportunity to examine the genetic structure of aphid populations, identify aphid genotypes and infer their evolutionary history and routes of expansion which is of value in developing management strategies. One of the most widespread aphid species is the peach-potato aphid Myzus persicae, which is considered as a serious pest on various crops in many parts of the world. The present study examined the genetic variation of this aphid at a world scale and then related this to distribution patterns. In particular, 197 aphid parthenogenetic lineages from around the world were analysed with six microsatellite loci. Results. Bayesian clustering and admixture analysis split the aphid genotypes into three genetic clusters: European M. persicae persicae, New Zealand M. persicae persicae and Global M. persicae nicotianae. This partition was supported by FST and genetic distance analyses. The results showed two further points, a possible connection between genotypes found in the UK and New Zealand and globalization of nicotianae associated with colonisation of regions where tobacco is not cultivated. In addition, we report the presence of geographically widespread clones and for the first time the presence of a nicotianae genotype in the Old and New World. Lastly, heterozygote deficiency was detected in some sexual and asexual populations. Conclusion. The study revealed important genetic variation among the aphid populations we examined and this was partitioned according to region and host-plant. Clonal selection and gene flow between sexual and asexual lineages are important factors shaping the genetic structure of the aphid populations. In addition, the results reflected the globalization of two subspecies of M. persicae with successful clones being spread at various scales throughout the world. A subspecies appears to result from direct selection on tobacco plants. This information highlights the ultimate ability of a polyphagous aphid species to generate and maintain ecologically successful gene combinations through clonal propagation and the role of human transportation and global commerce for expanding their range.
Showing items related by title, author, creator and subject.
Influence of ROBO1 and RORA on risk of age-related macular degeneration reveals genetically distinct phenotypes in disease pathophysiology Jun, G.; Nicolaou, M.; Morrison, M. A.; Buros, J.; Morgan, D. J.; Radeke, M. J.; Yonekawa, Y.; Tsironi, E. E.; Kotoula, M. G.; Zacharaki, F.; Mollema, N.; Yuan, Y.; Miller, J. W.; Haider, N. B.; Hageman, G. S.; Kim, I. K.; Schaumberg, D. A.; Farrer, L. A.; DeAngelis, M. M. (2011)ROBO1 is a strong candidate gene for age-related macular degeneration (AMD) based upon its location under a linkage peak on chromosome 3p12, its expression pattern, and its purported function in a pathway that includes ...
Neither replication nor simulation supports a role for the axon guidance pathway in the genetics of Parkinson's disease Li, Y.; Rowland, C.; Xiromerisiou, G.; Lagier, R. J.; Schrodi, S. J.; Dradiotis, E.; Ross, D.; Bui, N.; Catanese, J.; Aggelakis, K.; Grupe, A.; Hadjigeorgiou, G. (2008)Susceptibility to sporadic Parkinson's diseases (PD) is thought to be influence by both genetic and environmental factors and thier interaction with each other. Statistical models including multiples variants in axon ...
Genetic variation of Marchalina hellenica (Hemiptera: Margarodidae) sampled from different hosts and localities in Greece Margaritopoulos, J. T.; Bacandritsos, N.; Pekas, A. N.; Stamatis, C.; Mamuris, Z.; Tsitsipis, J. A. (2003)Random amplified polymorphic DNA (RAPD) analysis was applied to 120 individuals of Marchalina hellenica (Gennadius) representing six populations collected in northern, central and southern mainland Greece. One population ...