Use of two odorants to control bactrocera oleae and ceratitis capitata

International audience; Many insects are considered as pests because of the damage they cause to cultures. Growers and our society are waiting for environmentally safe strategies to prevent insect damages, without arming the environment and the biodiversity. Recently we discovered an innovative solution using some odorant molecules to control Drosophila suzukii behavior. Using this knowledge we started to investigate the possibility to apply this strategy to Bactrocera oleae (olive fruit fly) and Ceratitis capitata (Mediterranean fruit fly) to modify their social behavior. This new technology, which is protected by the patent n° EP19306102, could be particularly interesting to avoid infesta…

Fatty Acid Smell, Anesthesia, and Use on Fruit Crops

Odors convey important information to select a sex partner, to find a food source, or to detect a danger. Among those some volatile molecules have been shown to cause a reversible anesthesia. However, their mode of action appears still largely mysterious. Here we describe a novel property of Olfactory Receptor 47b (OR47b), on olfactory sensory neurons (OSNs) expressing male-specific transcription factor FruM. We found some interesting properties of a fatty acid that can be present on food sources and oviposition sites for Drosophilid species. We show that OR47b neurons projecting to VA1v glomerulus are sensitive to this odor, and that this influences Drosophila behavior causing a strong ave…

Get more details on amino acid transporters changing Drosophila's mind...

Get more details on amino acid transporters changing Drosophila's mind.... 17. rencontre du Club de neurobiologie des invertébrés

Organisateurs de la 18e rencontre du Club de neurobiologie des invertébrés

Sex-specific anesthesia via olfactory receptor inhibition in Drosophila

International audience

Biocontrol of drosophila suzukii by two fatty acids

International audience; Olfaction is a crucial sense for insects to detect food, seek partners or escape dangers. Volatile molecules are mainly perceived through insects' antenna. Odors bind to specific olfactory receptors located in sensilla. Olfactory sensory neurons then synapse on corresponding specific glomeruli of the antennal lobe, the primary olfaction center. This olfactory information is processed in higher centers to trigger a behavioral response. Understanding how odors can influence insect behavior is fundamental in order to protect cultures from pests. In this work, 2 volatile fatty acids are shown to modify significantly Drosophila suzukii courtship and copulation at increasi…