Abstract
The water vole Arvicola terrestris is endemic to Europe where its outbreak generates severe economic losses for farmers. Our project aimed at characterising putative chemical signals used by this species, to develop new sustainable methods for population control that could also be used for this species protection in Great Britain. The water vole, as well as other rodents, uses specific urination sites as territorial and sex pheromone markers, still unidentified. Lateral scent glands and urine samples were collected from wild males and females caught in the field, at different periods of the year. Their volatile composition was analysed for each individual and not on pooled samples, revealing a specific profile of flank glands in October and a specific profile of urinary volatiles in July. The urinary protein content appeared more contrasted as males secrete higher levels of a lipocalin than females, whenever the trapping period. We named this protein arvicolin. Male and female liver transcript sequencing did not identify any expression of other odorant-binding protein sequence. This work demonstrates that even in absence of genome, identification of chemical signals from wild animals is possible and could be helpful in strategies of species control and protection.
Highlights
The water vole Arvicola terrestris is endemic to Europe where its outbreak generates severe economic losses for farmers
We identified the components of the lateral scent gland secretion produced by sebaceous glands after solvent extraction followed by gas chromatography coupled to mass spectrometry (GC/MS)
Lateral scent glands of A. terrestris were studied as they were supposed to contribute to the chemical signals exchanged between congeners of this species[16]
Summary
The water vole Arvicola terrestris is endemic to Europe where its outbreak generates severe economic losses for farmers. Murine species, use a very sophisticated chemical-based communication system, exchanging both volatile and protein intraspecific signals[3] They spread urine and scents from glands secretion[4] to inform their congeners about their sex and physiological condition[5], the perception of which induces specific behaviours such as mating[6], aggression[7,8], or dominance[9,10]. Glareosin is expressed by males[12] and such a protein in A. terrestris would be of interest in the objective of mating disruption Another described sex-dimorphic protein is aphrodisin, a lipocalin secreted in the vaginal discharge of hamster females, a species related to the water vole, which displays aphrodisiac properties[13,14]. These analyses were performed on individuals, not on pools, either for glands or for urine, to evaluate inter-individual variability in wild-caught animals
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