Department of Agricultural Sciences, University of Helsinki, Helsinki, Finland.
Department of Environmental Systems Science, Eidgenössische Technische Hochschule Zürich (ETH Zürich), Zurich, Switzerland.
Microb Ecol. 2024 Jul 30;87(1):100. doi: 10.1007/s00248-024-02413-z.
Microbiota, the communities of microbes on and in organisms or organic matter, are essential for the functioning of ecosystems. How microbes are shared and transmitted delineates the formation of a microbiota. As pollinators forage, they offer a route to transfer microbes among the flowering plants, themselves, and their nests. To assess how the two components of the microbiota, bacteria and fungi, in pollination communities are shared and transferred, we focused on the honey bee Apis mellifera and collected honey bee, honey (representing the hive microbiota), and flower samples three times during the summer in Finland. We identified the bacteria and fungi by DNA metabarcoding. To determine the impact of honey bees' flower choices on the honey bee and hive microbiota, we identified also plant DNA in honey. The bacterial communities of honey bees, honey, and flowers all differ greatly from each other, while the fungal communities of honey bees and honey are very similar, yet different from flowers. The time of the summer and the sampling area influence all these microbiota. For flowers, the plant identity impacts both bacterial and fungal communities' composition the most. For the dispersal pathways of bacteria to honey bees, they are acquired directly from the honey and indirectly from flowers through the honey, while fungi are directly transmitted to honey bees from flowers. Overall, the distinctiveness of the microbiota of honey bees, honey, and the surrounding flowers suggests the sharing of microbes among them occurs but plays a minor role for the established microbiota.
微生物组是指生物体或有机物表面和内部的微生物群落,对生态系统的功能至关重要。微生物的共享和传播方式决定了微生物组的形成。传粉媒介在觅食时,为花粉植物、植物本身和它们的巢穴之间的微生物转移提供了途径。为了评估传粉群落中微生物的两个组成部分(细菌和真菌)是如何共享和转移的,我们专注于蜜蜂 Apis mellifera,并在芬兰夏季的三次采样中收集了蜜蜂、蜂蜜(代表蜂巢微生物组)和花朵样本。我们通过 DNA 宏条形码来鉴定细菌和真菌。为了确定蜜蜂对花的选择对蜜蜂和蜂巢微生物组的影响,我们还鉴定了蜂蜜中的植物 DNA。蜜蜂、蜂蜜和花朵的细菌群落彼此之间差异很大,而蜜蜂和蜂蜜的真菌群落非常相似,但与花朵不同。夏季的时间和采样区域都会影响所有这些微生物组。对于花朵来说,植物身份对细菌和真菌群落的组成影响最大。对于细菌向蜜蜂的传播途径,它们直接从蜂蜜中获得,间接通过蜂蜜从花朵中获得,而真菌则直接从花朵传播给蜜蜂。总的来说,蜜蜂、蜂蜜和周围花朵的微生物组的独特性表明它们之间存在微生物的共享,但对已建立的微生物组的影响较小。
