Breeding for hygienic behavior in honey bees (Apis mellifera): a strong paternal effect

IF 1.4 4区 农林科学 Q2 ENTOMOLOGY Journal of Apicultural Research Pub Date : 2022-11-16 DOI:10.1080/00218839.2022.2140927
Rya Seltzer, Y. Kamer, Paz Kahanov, Aleksandra Splitt, M. Bieńkowska, A. Hefetz, V. Soroker
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引用次数: 1

Abstract

Abstract The haplodiploid sex determination of honey bees and the multiple mating of queens pose challenges in determining the genetic contribution of drones (male honey bees). This is especially important for breeding programs as, for example, when attempting to reinforce traits governing social immunity against pests and diseases. Here, we focused on breeding aiming at enhancing hygienic behavior, a trait that is known to reduce parasite load in honey bee colonies. To evaluate the contribution of drones versus queens to this trait, we conducted a two-step bidirectional selection program. First, we selected colonies with consistent phenotypes for low- or high-hygienic behavior (generation P). From those, we generated two types of daughter colonies (F1). One type originated from queens that had been artificially inseminated with selected drones that originated from queens of either low- or high-hygienic phenotype. The other type of colonies was set from naturally mated queens. We then compared the hygienic performance of the progeny colonies. In the next step, we used the F1 colonies (from either artificially inseminated or naturally mated queens) to produce naturally mated queens, which subsequently generated F2 colonies. These were then examined for the level of hygienic behavior. The results demonstrate the significant contribution of both parents to the phenotype of offspring. In particular, drones had a consistent and significant influence on the hygienic performance of the progeny throughout generations. These findings emphasize the great potential to propagate the hygienic trait in local populations by selecting lines for drones that carry the high-hygienic trait.
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蜜蜂卫生行为的育种:强烈的父系效应
蜜蜂的单倍体性别决定和蜂王的多次交配给雄蜂(雄性蜜蜂)的遗传贡献确定带来了挑战。这对于育种计划尤其重要,例如,当试图加强控制社会对病虫害免疫的性状时。在这里,我们专注于旨在提高卫生行为的育种,这是一种已知可以减少蜜蜂群体中寄生虫负荷的特性。为了评估雄蜂和蜂王对这一特性的贡献,我们进行了两步双向选择程序。首先,我们选择具有一致表型的低卫生行为或高卫生行为的菌落(P代)。从中,我们产生了两种类型的子菌落(F1)。一种类型的蜂王与来自低卫生表型或高卫生表型的蜂王的精挑细选的雄蜂进行人工授精。另一种类型的殖民地是由自然交配的蚁后组成的。然后我们比较了后代菌落的卫生性能。在下一步中,我们使用F1菌落(来自人工授精或自然交配的蜂王)产生自然交配的蜂王,随后产生F2菌落。然后对这些人的卫生行为水平进行了检查。结果表明父母双方对后代表型的显著贡献。特别是,无人机对后代的卫生表现具有一致和显著的影响。这些发现强调了通过选择携带高卫生性状的雄蜂品系在当地种群中传播卫生性状的巨大潜力。
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来源期刊
CiteScore
4.80
自引率
10.50%
发文量
111
审稿时长
6-12 weeks
期刊介绍: The Journal of Apicultural Research is a refereed scientific journal dedicated to bringing the best research on bees. The Journal of Apicultural Research publishes original research articles, original theoretical papers, notes, comments and authoritative reviews on scientific aspects of the biology, ecology, natural history, conservation and culture of all types of bee (superfamily Apoidea).
期刊最新文献
High detection rate of the virulence plasmid pMP19 from Melissococcus plutonius -positive honey and larvae samples Honey bee stocks exhibit high levels of intra-colony variation in viral loads Effects of honey bee queen exposure to deformed wing virus-A on queen and juvenile infection and colony strength metrics Understanding the differential performance in hygienic behavior against dead brood of drones and workers of Apis mellifera : a chemical approach Liquid and solid matrix formic acid treatment comparison against Varroa mites in honey bee colonies
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