Reduced parasite burden in feral honeybee colonies
Bee parasites are the main threat to apiculture and since many parasite taxa can spill over from honeybees (Apis mellifera) to other bee species, honeybee disease management is important for pollinator conservation in general. It is unknown whether honeybees that escaped from apiaries (i.e. feral co...
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Zusammenfassung: | Bee parasites are the main threat to apiculture and since many parasite
taxa can spill over from honeybees (Apis mellifera) to other bee species,
honeybee disease management is important for pollinator conservation in
general. It is unknown whether honeybees that escaped from apiaries (i.e.
feral colonies) benefit from natural parasite‐reducing mechanisms like
swarming or suffer from high parasite pressure due to the lack of medical
treatment. In the latter case, they could function as parasite reservoirs
and pose a risk to the health of managed honeybees (spillback) and wild
bees (spillover). We compared the occurrence of 18 microparasites among
managed (N = 74) and feral (N = 64) honeybee colony samples from four
regions in Germany using qPCR. We distinguished five colony types
representing differences in colony age and management histories, two
variables potentially modulating parasite prevalence. Besides strong
regional variation in parasite communities, parasite burden was
consistently lower in feral than in managed colonies. The overall number
of detected parasite taxa per colony was 15% lower and Trypanosomatidae,
chronic bee paralysis virus, and deformed wing viruses A and B were less
prevalent and abundant in feral colonies than in managed colonies.
Parasite burden was lowest in newly founded feral colonies, intermediate
in overwintered feral colonies and managed nucleus colonies, and highest
in overwintered managed colonies and hived swarms. Our study confirms the
hypothesis that the natural mode of colony reproduction and dispersal by
swarming temporally reduces parasite pressure in honeybees. We conclude
that feral colonies are unlikely to contribute significantly to the spread
of bee diseases. There is no conflict between the conservation of
wild‐living honeybees and the management of diseases in apiculture. |
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DOI: | 10.5061/dryad.m37pvmd6k |