Center for Social Evolution, Department of Agriculture and Ecology Faculty of Life Sciences, University of Copenhagen, Thorvaldsensvej 40, DK 1871 Frederiksberg C, Denmark.
Front Zool. 2012 Mar 23;9(1):5. doi: 10.1186/1742-9994-9-5.
Honey bees, Apis mellifera, have a diverse community of pathogens. Previous research has mostly focused on bacterial brood diseases of high virulence, but milder diseases caused by fungal pathogens have recently attracted more attention. This interest has been triggered by partial evidence that co-infection with multiple pathogens has the potential to accelerate honey bee mortality. In the present study we tested whether co-infection with closely related fungal brood-pathogen species that are either specialists or non-specialist results in higher host mortality than infections with a single specialist. We used a specially designed laboratory assay to expose honey bee larvae to controlled infections with spores of three Ascosphaera species: A. apis, the specialist pathogen that causes chalkbrood disease in honey bees, A. proliperda, a specialist pathogen that causes chalkbrood disease in solitary bees, and A. atra, a saprophytic fungus growing typically on pollen brood-provision masses of solitary bees.
We show for the first time that single infection with a pollen fungus A. atra may induce some mortality and that co-infection with A. atra and A. apis resulted in higher mortality of honey bees compared to single infections with A. apis. However, similar single and mixed infections with A. proliperda did not increase brood mortality.
Our results show that co-infection with a closely related fungal species can either increase or have no effect on host mortality, depending on the identity of the second species. Together with other studies suggesting that multiple interacting pathogens may be contributing to worldwide honey bee health declines, our results highlight the importance of studying effects of multiple infections, even when all interacting species are not known to be specialist pathogens.
蜜蜂,Apis mellifera,拥有多样化的病原体群落。先前的研究主要集中在具有高毒性的细菌性幼虫病上,但最近由真菌病原体引起的较轻疾病引起了更多关注。这种兴趣的部分原因是有证据表明,多种病原体的共同感染有可能加速蜜蜂的死亡。在本研究中,我们测试了与密切相关的真菌幼虫病原体物种的共同感染,这些病原体是专门针对或非专门针对的,是否会导致宿主死亡率高于单一专门病原体的感染。我们使用专门设计的实验室测定法使蜜蜂幼虫暴露于三种 Ascosphaera 物种的孢子的受控感染中:A.apis,专门针对导致蜜蜂 chalkbrood 病的病原体,A. proliperda,专门针对导致独居蜜蜂 chalkbrood 病的病原体,以及 A. atra,一种通常在独居蜜蜂花粉幼虫提供物块上生长的腐生真菌。
我们首次表明,单一感染花粉真菌 A. atra 可能会引起一些死亡率,并且与 A. atra 和 A. apis 的共同感染导致与单独感染 A. apis 相比,蜜蜂的死亡率更高。然而,类似的 A. proliperda 单独和混合感染并未增加幼虫死亡率。
我们的结果表明,与密切相关的真菌物种的共同感染可能会增加或对宿主死亡率没有影响,这取决于第二种物种的身份。结合其他研究表明,多种相互作用的病原体可能导致全球蜜蜂健康状况下降,我们的结果强调了研究多种感染的重要性,即使所有相互作用的物种都不被认为是专门的病原体。
