Rapid cryptic divergence of the Anastrepha fraterculus complex in the Late Pleistocene: a phylogeographical–ecological approach

Abstract

Abstract The Anastrepha fraterculus complex (AF complex) is a complex of fruit fly species consisting of eight morphotypes distributed across the Americas. In this study, landscape genetics, phylogeographical inferences and coalescence simulations were used to unveil the evolutionary history of the AF complex. Nuclear ribosomal ITS1 sequences from 331 samples distributed in 10 American countries throughout 32 ecoregions and seven biomes were analysed. Results showed high levels of diversity, intraspecific divergence and structuring associated with the different morphotypes of the complex. The analysis of gene flow and genetic diversity showed a clear geographical and environmental pattern. The morphotype–environment association suggested that the cryptic divergence process has involved local adaptation as a mechanism to withstand harsh, novel or variable conditions. The analysis showed a rapid divergence between morphotypes. Haplotypes have been diverging for ~27 000 years before the present, probably enhanced by environmental changes during the Last Glacial Maximum. Diversity estimators and neutrality tests revealed that populations have been experiencing a recent linear growth, starting in the Early Holocene (~11 500 years before the present). The Bayesian phylogeographical and ecological clustering approach detected five spatially separated and ecologically differentiated clusters. Additionally, equatorial Amazonia was indicated to be the most probable ancestral centre of origin for the AF complex.