Interactive effect of reduced pollen availability and Varroa destructor infestation limits growth and protein content of young honey bees

[Display omitted] ► Varroa destructor and reduced pollen availability affected Apis mellifera. ► Both factors reduced body weight and protein content of the abdomen in young bees. ► Retarded growth due to V. destructor could not be compensated for by ample pollen. ► A lack of protein build-up could...

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Bibliographic Details
Published in:Journal of insect physiology 2013-04, Vol.59 (4), p.487-493
Main Authors: van Dooremalen, C., Stam, E., Gerritsen, L., Cornelissen, B., van der Steen, J., van Langevelde, F., Blacquière, T.
Format: Article
Language:English
Subjects:
abdomen
adults
Animals
apidae
Apis mellifera
apis-mellifera l
Apoidea
Bees - growth & development
Bees - parasitology
Bees - physiology
body weight
colony losses
ectoparasitic mite
Female
food availability
Growth
head
honey bee colonies
honey bees
hymenoptera
hypopharyngeal glands
jacobsoni oud
life-span
parasitism
Pollen
Protein content
Proteins - metabolism
Pupa - growth & development
Pupa - parasitology
Pupa - physiology
pupae
Varroa destructor
Varroidae - physiology
weight
worker honeybees
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Summary:[Display omitted] ► Varroa destructor and reduced pollen availability affected Apis mellifera. ► Both factors reduced body weight and protein content of the abdomen in young bees. ► Retarded growth due to V. destructor could not be compensated for by ample pollen. ► A lack of protein build-up could also not be compensated for by ample pollen. ► We contribute to understanding the multifactorial origin of honeybee losses.. Varroa destructor in combination with one or more stressors, such as low food availability or chemical exposure, is considered to be one of the main causes for honey bee colony losses. We examined the interactive effect of pollen availability on the protein content and body weight of young bees that emerged with and without V. destructor infestation. With reduced pollen availability, and the coherent reduced nutritional protein, we expected that V. destructor infestation during the pupal stage would have a larger negative effect on bee development than without infestation. Moreover, when raised with ample pollen available after emergence, infested pupae were expected not to be able to compensate for early losses due to V. destructor. We found that both V. destructor infestation and reduced pollen availability reduced body weight, abdominal protein level, and increased the head to abdomen protein ratio. The availability of pollen did indeed not result in compensation for reduced mass and protein content caused by V. destructor infestation in young bees after 1week of their adult life. Both V. destructor and nutrition are top concerns for those studying honey bee health and this study demonstrates that both have substantial effects on young bees and that ample available pollen cannot compensate for reduced mass and protein content caused by V. destructor parasitism.
ISSN:0022-1910
1879-1611
DOI:10.1016/j.jinsphys.2013.02.006