Honey vs. Mite-A Trade-Off Strategy by Applying Summer Brood Interruption for Control in the Mediterranean Region.

In this study, we investigated the effect of queen caging on honey bee colonies' post-treatment development and the optimal timing of method application on honey production during the main summer nectar flow. We conducted the study in nine apiaries (N = 9) across six Mediterranean countries, with a total of 178 colonies. The colonies were divided into three test groups: QC1, QC2, and C. The QC1 group involved queens caged for a total of 28 days before the expected harvesting day. In the QC2 group, queens were caged for 28 days, but only 14 days before the expected harvesting day. The C group consisted of queens that were not caged, and the colonies received common local treatments. In both the QC1 and QC2 groups, the colonies were treated with a 4.2% oxalic acid (OA) solution by trickling after the queen release. Our findings revealed no significant adverse effects ( > 0.05) on colony strength at the end of the study resulting from queen caging. However, significantly lower amounts of honey were extracted from the QC1 group compared to both the QC2 group ( = 0.001) and the C group ( = 0.009). Although there were no initial differences in infestation between the groups, ten weeks later, a significantly higher infestation was detected in the C group compared to both the QC1 group ( < 0.01) and the QC2 group ( = 0.003). Overall, our study demonstrates that queen caging, in combination with the use of OA, is an effective treatment for controlling . However, the timing of caging plays a crucial role in honey production outcomes.