Resistance of the honey bee, Apis mellifera to the acarian parasite Varroa destructor: behavioural and electroantennographic data |
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Authors: | Caroline Martin,Erick Provost&dagger ,Maurice Roux&Dagger ,Claude Bruchou§ ,Didier Crauser,Jean-Luc Clement&dagger , Yves Le Conte |
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Affiliation: | Institut National de la Recherche Agronomique, Laboratoire de Biologie et Protection de abeille, Unitéde Zoologie-Apidologie, Avignon,;Centre National de la Recherche Scientifique, Laboratoire de Neurobiologie Communication chimique, Marseille,;Universitéd'Aix-Marseille III, Laboratoire de Biomathématiques, Marseille;and Institut National de la Recherche Agronomique, Laboratoire de Biométrie, Avignon, France |
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Abstract: | Abstract. One way in which Apis mellifera honey bees resist Varroa destructor is by detection and elimination of nestmates. This study uses behavioural tests and electroanntennography to assess the role of chemostimuli in recognition by honey bees of this acarian ectoparasite. Behavioural tests using living or dead parasites involved observation of honey bee grooming activity (antennation) under controlled conditions in Petri dishes, and removal behaviour (uncapping and elimination of parasitized and unparasitized control brood cells) under natural conditions. Some bees from colonies with both small and large parasite populations showed aggressive behaviour (biting). No difference was observed according to whether the mite was dead or alive. Under natural conditions, bees uncapped more parasitized cells than control cells. Electroantennographic tests were performed to measure sensitivity to various Varroa extracts at three concentrations (10, 20 and 30 Varroa Equivalents). Only 30 Varroa Equivalent methanol extracts made from Varroa collected from brood cells elicited significantly greater antennal response than controls (pure solvent). All three methanol extracts elicited significantly greater antennal response than controls. No response was observed using Varroa extracts made with acetone or hexane. These findings suggest that polar products may act as chemostimuli for recognition of V. destructor by honey bees. Further study will be necessary to determine which polar products are involved in this recognition and assess grooming and removal behaviour using these products. |
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Keywords: | Apis mellifera electroantennography grooming behaviour host–parasite interaction removal behaviour Varroa destructor |
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