Abstract
The Quaternary climatic oscillations are expected to have had strong impacts on the evolution of species. Although legacies of the Quaternary climates on population processes have been widely identified in diverse groups of species, adaptive genetic changes shaped during the Quaternary have been harder to decipher. Here, we assembled a chromosome-level genome of the oriental fruit moth and compared genomic variation among refugial and colonized populations of this species that diverged in the Pleistocene. High genomic diversity was maintained in refugial populations. Demographic analysis showed that the effective population size of refugial populations declined during the penultimate glacial maximum (PGM) but remained stable during the last glacial maximum (LGM), indicating a strong impact of the PGM rather than the LGM on this pest species. Genome scans identified one chromosomal inversion and a mutation of the circadian gene Clk on the neo-Z chromosome potentially related to the endemicity of a refugial population. In the colonized populations, genes in pathways of energy metabolism and wing development showed signatures of selection. These different genomic signatures of refugial and colonized populations point to multiple impacts of Quaternary climates on adaptation in an extant species.
Highlights
The Quaternary climatic oscillations are expected to have had strong impacts on the evolution of species
In Europe and North America, the last glacial maximum (LGM, ∼26.5–19 thousand years ago, kya)[6] would have had a strong impact on species, given that many species were confined to refugial area in the LGM and colonized their current distribution range after this period[7,8], and with genetic legacies of Quaternary climates expected to depend on this period[3,7,9]
We found that refugial populations of the oriental fruit moth were mainly impacted by the penultimate glacial maximum (PGM) but not the LGM
Summary
The Quaternary climatic oscillations are expected to have had strong impacts on the evolution of species. 1234567890():,; In the Quaternary, species are expected to have contracted to refugial areas during periods of glaciation and expanded their distribution during warm interglacial periods[1] These climatic oscillations would have had extensive impacts on the evolution of species[2,3]. In Europe and North America, the last glacial maximum (LGM, ∼26.5–19 thousand years ago, kya)[6] would have had a strong impact on species, given that many species were confined to refugial area in the LGM and colonized their current distribution range after this period[7,8], and with genetic legacies of Quaternary climates expected to depend on this period[3,7,9]. This species is native to East Asia and molecular data suggest two refugial regions around eastern
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