10.1371/journal.pone.0065642
Thomas Lecocq
Thomas
Lecocq
Nicolas J. Vereecken
Nicolas
J. Vereecken
Denis Michez
Denis
Michez
Simon Dellicour
Simon
Dellicour
Patrick Lhomme
Patrick
Lhomme
Irena Valterová
Irena
Valterová
Jean-Yves Rasplus
Jean-Yves
Rasplus
Pierre Rasmont
Pierre
Rasmont
Patterns of Genetic and Reproductive Traits Differentiation in Mainland vs. Corsican Populations of Bumblebees
Public Library of Science
2013
Biochemistry
chemical biology
ecology
biogeography
Evolutionary biology
Evolutionary processes
Genetic drift
sexual selection
speciation
Evolutionary systematics
phylogenetics
Evolutionary genetics
Zoology
Entomology
reproductive
differentiation
mainland
corsican
populations
2013-06-06 00:44:05
Dataset
https://plos.figshare.com/articles/dataset/_Patterns_of_Genetic_and_Reproductive_Traits_Differentiation_in_Mainland_vs_Corsican_Populations_of_Bumblebees_/712645
<div><p>Populations on islands often exhibit lower levels of genetic variation and ecomorphological divergence compared to their mainland relatives. While phenotypic differentiation in characters, such as size or shape among insular organisms, has been well studied, insular differentiation in quantitative reproductive traits involved in chemical communication has received very little attention to date. Here, we investigated the impact of insularity on two syntopic bumblebee species pairs: one including species that are phylogenetically related (<i>Bombus terrestris</i> and <i>B. lucorum</i>), and the other including species that interact ecologically (<i>B. terrestris</i> and its specific nest inquiline <i>B. vestalis</i>). For each bumblebee species, we characterized the patterns of variation and differentiation of insular (Corsican) vs. mainland (European) populations (i) with four genes (nuclear and mitochondrial, 3781 bp) and (ii) in the chemical composition of male marking secretions (MMS), a key trait for mate attraction in bumblebees, by gas chromatography-mass spectrometry (GC-MS). Our results provide evidence for genetic differentiation in Corsican bumblebees and show that, contrary to theoretical expectations, island populations of bumblebees exhibit levels of genetic variation similar to the mainland populations. Likewise, our comparative chemical analyses of MMS indicate that Corsican populations of bumblebees are significantly differentiated from the mainland yet they hold comparative levels of within-population MMS variability compared to the mainland. Therefore, insularity has led Corsican populations to diverge both genetically and chemically from their mainland relatives, presumably through genetic drift, but without a decrease of genetic diversity in island populations. We hypothesize that MMS divergence in Corsican bumblebees was driven by a persistent lack of gene flow with mainland populations and reinforced by the preference of Corsican females for sympatric (Corsican) MMS. The impoverished Corsican bumblebee fauna has not led to relaxation of stabilizing selection on MMS but to consistent differentiation chemical reproductive traits on the island.</p></div>