Ectoparasitic mite Varroa destructor with its associated viruses is a common global threat to the health of honey bee colonies. If colonies are not treated, the vast majority die in a 3-year period. Existing acaricides used for treatment are becoming less effective, and new approaches to honey bee protection are required. A reliable method is to create a broodless condition in a colony by preventing the queen from laying eggs, and after 25 days all mites will be exposed to the treatment with organic acids or essential oils. The focus of our study, performed on 178 colonies in six Mediterranean countries, was to compare different periods of queen caging on honey production, colony development, and the effect of treatment. Queen caging had no negative effect on colony strength before the wintering period, while it affected honey production; colonies in which queens were caged two weeks before the main summer nectar flow produced significantly less honey. However, tested colonies ten weeks after the treatment had significantly lower infestation with V. destructor mites. This study shows that caging the queen with subsequent oxalic acid treatment 25 days after caging is an efficient method to control V. destructor infestation, while the starting point of queen caging in relation to the main summer nectar flow affects honey production.

Kovačić, M.; Uzunov, A.; Tlak Gajger, I.; Pietropaoli, M.; Soroker, V.; Adjlane, N.; Benko, V.; Charistos, L.; Dall’Olio, R.; Formato, G.; Hatjina, F.; Malagnini, V.; Freda, F.; Otmi, A.; Puškadija, Z.; Villar, C.; Büchler, R. (2023). Honey vs. Mite—a trade-off strategy by applying summer brood interruption for Varroa destructor control in the Mediterranean region. INSECTS, 14 (9): 751. doi: 10.3390/insects14090751 handle: https://hdl.handle.net/10449/81696

Honey vs. Mite—a trade-off strategy by applying summer brood interruption for Varroa destructor control in the Mediterranean region

Malagnini, Valeria;Freda, Fabrizio;
2023-01-01

Abstract

Ectoparasitic mite Varroa destructor with its associated viruses is a common global threat to the health of honey bee colonies. If colonies are not treated, the vast majority die in a 3-year period. Existing acaricides used for treatment are becoming less effective, and new approaches to honey bee protection are required. A reliable method is to create a broodless condition in a colony by preventing the queen from laying eggs, and after 25 days all mites will be exposed to the treatment with organic acids or essential oils. The focus of our study, performed on 178 colonies in six Mediterranean countries, was to compare different periods of queen caging on honey production, colony development, and the effect of treatment. Queen caging had no negative effect on colony strength before the wintering period, while it affected honey production; colonies in which queens were caged two weeks before the main summer nectar flow produced significantly less honey. However, tested colonies ten weeks after the treatment had significantly lower infestation with V. destructor mites. This study shows that caging the queen with subsequent oxalic acid treatment 25 days after caging is an efficient method to control V. destructor infestation, while the starting point of queen caging in relation to the main summer nectar flow affects honey production.
Honey bee
Varroa destructor
Queen caging
Honey yield
Settore AGR/11 - ENTOMOLOGIA GENERALE E APPLICATA
2023
Kovačić, M.; Uzunov, A.; Tlak Gajger, I.; Pietropaoli, M.; Soroker, V.; Adjlane, N.; Benko, V.; Charistos, L.; Dall’Olio, R.; Formato, G.; Hatjina, F.; Malagnini, V.; Freda, F.; Otmi, A.; Puškadija, Z.; Villar, C.; Büchler, R. (2023). Honey vs. Mite—a trade-off strategy by applying summer brood interruption for Varroa destructor control in the Mediterranean region. INSECTS, 14 (9): 751. doi: 10.3390/insects14090751 handle: https://hdl.handle.net/10449/81696
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