Please use this identifier to cite or link to this item: https://elar.usfeu.ru/handle/123456789/8836
Title: Conflicting mitochondrial and nuclear phylogeographic signals and evolution of host-plant shifts in the boreo-montane leaf beetle Chrysomela lapponica
Authors: Mardulyn, P.
Othmezouri, N.
Mikhailov, Yu. E.
Pasteels, J. M.
Issue Date: 2011
Publisher: Elsevier
Citation: Mardulyn, P. Conflicting mitochondrial and nuclear phylogeographic signals and evolution of host-plant shifts in the boreo-montane leaf beetle Chrysomela lapponica / P. Mardulyn, N. Othmezouri, Yu. E. Mikhailov [et al.] // Molecular Phylogenetics and Evolution. – 2011. – Vol. 61. – Iss. 3. – P. 686-696.
Abstract: We conducted a phylogeographic study on the cold-adapted leaf beetle Chrysomela lapponica, that feeds on willow or birch, by sampling several populations throughout most of the geographic distribution of the species, and by sequencing for each individual one mitochondrial and two nuclear DNA fragments. Patterns of DNA sequence variation from the mitochondrial and nuclear loci, as displayed in the median-joining networks, appear to display contradicting historical signal: a deep genealogical divergence is observed with the mitochondrial genome between the Alpine population and all other populations found in the Euro-Siberian distribution of the species, that is completely absent with both nuclear loci. We use coalescence simulations of DNA sequence evolution to test the hypothesis that this apparent conflict is compatible with a neutral model of sequence evolution (i.e., to check whether the stochastic nature of the coalescence process can explain these patterns). Because the simulations show that this is highly unlikely, we consider two alternative hypotheses: (1) introgression of the mitochondrial genome of another species and (2) the effect of natural selection. Although introgression is the most plausible explanation, we fail to identify the source species of the introgressed mitochondrial genome among all known species closely related to C. lapponica. We therefore suggest that the putative introgression event is ancient and the source species is either extinct or currently outside the geographic range of C. lapponica explored in this study. The observed DNA sequence variation also suggests that a host-plant shift from willow to birch has occurred recently and independently in each of the three birch-feeding populations. This emphasizes further the relative ease with which these beetles can escape their ancestral host-plant specialization on willow, but shows at the same time that host-plant shifts are highly constrained, as they only occur between willow and birch. © 2011 Elsevier Inc.
Keywords: CHRYSOMELIDAE
COALESCENT SIMULATIONS
HOST-PLANT SHIFT
INTROGRESSION
NATURAL SELECTION
PHYLOGEOGRAPHY
ALLELE
ANIMAL
ARTICLE
BEETLE
BIOLOGICAL MODEL
BIRCH
CELL NUCLEUS
ECOSYSTEM
EUROPE
GENE
GENE LOCUS
GENETIC VARIABILITY
GENETICS
HOST PARASITE INTERACTION
MITOCHONDRION
MOLECULAR EVOLUTION
MOLECULAR GENETICS
NUCLEOTIDE SEQUENCE
PARASITOLOGY
PHYLOGENY
PHYLOGEOGRAPHY
PLANT
PLANT LEAF
STATISTICAL MODEL
WILLOW
ALLELES
ANIMALS
BEETLES
BETULA
CELL NUCLEUS
ECOSYSTEM
EUROPE
EVOLUTION, MOLECULAR
GENES, INSECT
GENETIC LOCI
GENETIC VARIATION
HOST-PARASITE INTERACTIONS
LIKELIHOOD FUNCTIONS
MITOCHONDRIA
MODELS, GENETIC
MOLECULAR SEQUENCE DATA
PHYLOGENY
PHYLOGEOGRAPHY
PLANT LEAVES
PLANTS
SALIX
CHRYSOMELA LAPPONICA
CHRYSOMELIDAE
COLEOPTERA
SALIX
URI: https://elar.usfeu.ru/handle/123456789/8836
DOI: 10.1016/j.ympev.2011.09.001
SCOPUS: 2-s2.0-80055108297
WoS: WOS:000297387600009
RSCI: 18011326
Appears in Collections:Научные публикации, проиндексированные в SCOPUS и WoS CC

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