Abstract

Floral nectar represents an ephemeral habitat that is restricted in time and space to zoophilous flowering vegetation. To survive in these habitats, nectar-inhabiting microorganisms rely on animal vectors to disperse from one flower to the next. However, it remains unclear how nectar yeasts persist when flowers and nectar cease to be present. Here, we tested the hypothesis that hibernating bumblebee queens function as a reservoir for nectar yeasts in the absence of plants or pollinators during winter. Our results show that the nectar yeast, Metschnikowia reukaufii, was present in the gastrointestinal tract of wild bumblebee queens that emerged from hibernation and that it could persist inside the gut of hibernating queens under experimental conditions. However, no evidence for such persistence was found in the case of the second most frequent nectar yeast, M. gruessii. Furthermore, a phylloplane yeast that occasionally inhabits nectar, Rhodotorula mucilaginosa, was able to colonize the gut under experimental conditions. Two bumblebee-associated yeasts, Candida bombi and C. bombiphila, were successfully passed down generations after administration in commercial lab-reared bumblebees. Overall, these results demonstrate that bumblebees could act as a reservoir for nectar yeasts during winter when floral nectar is absent.

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