Faculty of Agricultural Sciences and Food

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Author: search.filters.author.Büchler, RalphHas files: No

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    Initiation and Implementation of Honey Bee Breeding Programs
    (Informa UK Limited, 2022-02-15)
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    Brascamp, Evert W.
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    Du, Manuel
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    Büchler, Ralph
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    The Relevance of Mating Control for Successful Implementation of Honey Bee Breeding Programs
    (Informa UK Limited, 2022-06-30)
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    Brascamp, Evert W.
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    Du, Manuel
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    Büchler, Ralph
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    Breeding Values in Honey Bees
    (Informa UK Limited, 2023-01-02)
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    Brascamp, Evert W.
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    Du, Manuel
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    Bijma, Piter
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    Büchler, Ralph
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    Effects of selection and local adaptation on resilience and economic suitability in Apis mellifera carnica
    (Springer Science and Business Media LLC, 2020-06-19)
    Kovačić, Marin
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    Puškadija, Zlatko
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    Dražić, Marica Maja
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    Meixner, Marina D.
    Modern techniques of selective breeding show high potential to improve economically important traits of honey bees. However, breeding may neglect fundamental rules of natural selection. The objective of this study was to analyze the effects of selection and local adaptation on some relevant breeding traits of Apis mellifera carnica We compared open mated queens from three different origins: local Croatian genotypes that are under controlled selection since five generations (MS), a local genotype that was never under selective breeding (NS) and, finally, a non-local genotype from a long-lasting German breeding program (HS). Generally, colonies with queens from breeding programs had better scores for defensive behavior, calmness, and swarming. In contrast, colonies from the NS group showed higher expression of Varroa destructor resistance traits. Although the HS group showed the highest score in most of the behavioral traits, the low overwintering index of colonies from this group after both wintering periods indicated a lack of local adaptation. This research underlines the relevance of breeding activities for the resilience of honey bee populations and the achievement of local adaptation.</jats:p>
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    Summer brood interruption as integrated management strategy for effective Varroa control in Europe
    (Informa UK Limited, 2020-07-24)
    Büchler, Ralph
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    Kovačić, Marin
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    Prešern, Janez
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    Pietropaoli, Marco
    Most Varroa induced colony losses occur during the autumn or winter season as a consequence of an elevated Varroa infestation level and an insufficient health status of the adult bees. Even with an initial low Varroa infestation in early spring, critical mite and virus infection levels can be reached before winter if colonies continuously rear brood throughout the whole season. To overcome this challenge, beekeepers can artificially interrupt brood production by suitable management procedures, depending on their type of beekeeping operation. To assess their efficacy, associated workload, and impact on colony development, different methods for brood interruption (queen caging with the combination of oxalic acid treatment, total brood removal, and trapping comb technique) were tested during two seasons in 11 locations on 370 colonies in10 European countries. A protocol was developed to standardize the methods’ application across different environmental conditions. The efficacy of queen caging depended on the mode of oxalic acid application and ranged from 48.16% to89.57% mite removal. The highest efficacies were achieved with trickling a 4.2% solution (89.57%) and with the sublimationof 2 g of oxalic acid (average of 88.25%) in the broodless period. The efficacy of the purely biotechnical, chemical-free trap-ping comb and brood removal methods did not differ significantly from the queen caging groups. We conclude that a proper application of one of the described brood interruption methods can significantly contribute to an efficient Varroacontrol and to the production of honey bee products meeting the highest quality and food-safety standards.
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    Evaluation of Suppressed Mite Reproduction (SMR) Reveals Potential for Varroa Resistance in European Honey Bees (Apis mellifera L.)
    (MDPI AG, 2020-09-03)
    Mondet, Fanny
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    Parejo, Melanie
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    Meixner, Marina D
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    Costa, Cecilia
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    Kryger, Per
    In the fight against the Varroa destructor mite, selective breeding of honey bee (Apis mellifera L.) populations that are resistant to the parasitic mite stands as a sustainable solution. Selection initiatives indicate that using the suppressed mite reproduction (SMR) trait as a selection criterion is a suitable tool to breed such resistant bee populations. We conducted a large European experiment to evaluate the SMR trait in different populations of honey bees spread over 13 different countries, and representing different honey bee genotypes with their local mite parasites. The first goal was to standardize and validate the SMR evaluation method, and then to compare the SMR trait between the different populations. Simulation results indicate that it is necessary to examine at least 35 single-infested cells to reliably estimate the SMR score of any given colony. Several colonies from our dataset display high SMR scores indicating that this trait is present within the European honey bee populations. The trait is highly variable between colonies and some countries, but no major differences could be identified between countries for a given genotype, or between genotypes in different countries. This study shows the potential to increase selective breeding efforts of V. destructor resistant populations.
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    Honey vs. Mite—A Trade-Off Strategy by Applying Summer Brood Interruption for Varroa destructor Control in the Mediterranean Region
    (MDPI AG, 2023-09-07)
    Kovačić, Marin
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    Tlak Gajger, Ivana
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    Pietropaoli, Marco
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    Soroker, Victoria
    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 (p > 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 (p = 0.001) and the C group (p = 0.009). Although there were no initial differences in Varroa destructor infestation between the groups, ten weeks later, a significantly higher infestation was detected in the C group compared to both the QC1 group (p < 0.01) and the QC2 group (p = 0.003). Overall, our study demonstrates that queen caging, in combination with the use of OA, is an effective treatment for controlling V. destructor. However, the timing of caging plays a crucial role in honey production outcomes.