Royal Society Open Science (Jan 2016)

Age structure is critical to the population dynamics and survival of honeybee colonies

  • M. I. Betti,
  • L. M. Wahl,
  • M. Zamir

DOI
https://doi.org/10.1098/rsos.160444
Journal volume & issue
Vol. 3, no. 11

Abstract

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Age structure is an important feature of the division of labour within honeybee colonies, but its effects on colony dynamics have rarely been explored. We present a model of a honeybee colony that incorporates this key feature, and use this model to explore the effects of both winter and disease on the fate of the colony. The model offers a novel explanation for the frequently observed phenomenon of ‘spring dwindle’, which emerges as a natural consequence of the age-structured dynamics. Furthermore, the results indicate that a model taking age structure into account markedly affects the predicted timing and severity of disease within a bee colony. The timing of the onset of disease with respect to the changing seasons may also have a substantial impact on the fate of a honeybee colony. Finally, simulations predict that an infection may persist in a honeybee colony over several years, with effects that compound over time. Thus, the ultimate collapse of the colony may be the result of events several years past.

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