Publications by authors named "J F Ferveur"
Article Synopsis
- Aggregation in large groups of insects can influence biological traits like gene expression, behavior, and pheromone production.
- A study on Drosophila melanogaster and D. simulans revealed that increased group size significantly altered the production of cuticular hydrocarbons and a specific male pheromone (cVa) in certain D. melanogaster wild-type lines.
- However, the effects of group size on pheromone production were inconsistent across different generations and among various lines, indicating the complexity of these relationships.
Article Synopsis
- Laboratory-raised insect strains may lose natural species diversity over generations due to constant conditions, affecting adaptation to their environments.
- Cuticular hydrocarbons (CHCs) are key markers for insect adaptation and communication, but their variation in the wild and in lab settings is not well-studied.
- In this research, flies were caught and analyzed for CHC diversity and a specific male pheromone, revealing that lab conditions rapidly reduced initial pheromonal diversity, while some flies developed new CHC profiles possibly linked to climate adaptation.
Insects are covered with free neutral cuticular hydrocarbons (CHC) that may be linear, branched, and unsaturated and vary in their chain length. The CHC composition is species-specific and contributes to the adaptation of the animal to its ecological niche. Commonly, CHCs contribute substantially to the inward and outward barrier function of the cuticle and serve pheromonal communication.
View Article and Find Full Text PDFInsect exocrine gland products can be involved in sexual communication, defense, territory labelling, aggregation and alarm. In the vinegar fly Drosophila melanogaster the ejaculatory bulb synthesizes and releases 11-cis-Vaccenyl acetate (cVa). This pheromone, transferred to the female during copulation, affects aggregation, courtship and male-male aggressive behaviors.
View Article and Find Full Text PDFIn insects such as Drosophila melanogaster, flight guidance is based on converging sensory information provided by several modalities, including chemoperception. Drosophila flies are particularly attracted by complex odors constituting volatile molecules from yeast, pheromones and microbe-metabolized food. Based on a recent study revealing that adult male courtship behavior can be affected by early preimaginal exposure to maternally transmitted egg factors, we wondered whether a similar exposure could affect free-flight odor tracking in flies of both sexes.
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