Division of labor in a dynamic environment: Response by honeybees (Apis mellifera) to graded changes in colony pollen stores

Jennifer Fewell, Susan M. Bertram

    Research output: Contribution to journalArticle

    49 Citations (Scopus)

    Abstract

    A fundamental requirement of task regulation in social groups is that it must allow colony flexibility. We tested assumptions of three task regulation models for how honeybee colonies respond to graded changes in need for a specific task, pollen foraging. We gradually changed colony pollen stores and measured behavioral and genotypic changes in the foraging population. Colonies did not respond in a graded manner, but in six of seven cases showed a stepwise change in foraging activity as pollen storage levels moved beyond a set point. Changes in colony performance resulted from changes in recruitment of new foragers to pollen collection, rather than from changes in individual foraging effort. Where we were able to track genotypic variation, increases in pollen foraging were accompanied by a corresponding increase in the genotypic diversity of pollen foragers. Our data support previous findings that genotypic variation plays an important role in task regulation. However, the stepwise change in colony behavior suggests that colony foraging flexibility is best explained by an integrated model incorporating genotypic variation in task choice, but in which colony response is amplified by social interactions.

    Original languageEnglish (US)
    Pages (from-to)171-179
    Number of pages9
    JournalBehavioral Ecology and Sociobiology
    Volume46
    Issue number3
    DOIs
    StatePublished - Aug 1999

    Fingerprint

    polyethism
    honeybee
    Bees
    labor division
    Pollen
    Apis mellifera
    honey bees
    pollen
    foraging
    honey bee colonies
    Interpersonal Relations
    genetic variation
    Population

    Keywords

    • Apis mellifera
    • Division of labor
    • Genetics
    • Honeybee
    • Pollen foraging

    ASJC Scopus subject areas

    • Animal Science and Zoology
    • Ecology
    • Behavioral Neuroscience

    Cite this

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    abstract = "A fundamental requirement of task regulation in social groups is that it must allow colony flexibility. We tested assumptions of three task regulation models for how honeybee colonies respond to graded changes in need for a specific task, pollen foraging. We gradually changed colony pollen stores and measured behavioral and genotypic changes in the foraging population. Colonies did not respond in a graded manner, but in six of seven cases showed a stepwise change in foraging activity as pollen storage levels moved beyond a set point. Changes in colony performance resulted from changes in recruitment of new foragers to pollen collection, rather than from changes in individual foraging effort. Where we were able to track genotypic variation, increases in pollen foraging were accompanied by a corresponding increase in the genotypic diversity of pollen foragers. Our data support previous findings that genotypic variation plays an important role in task regulation. However, the stepwise change in colony behavior suggests that colony foraging flexibility is best explained by an integrated model incorporating genotypic variation in task choice, but in which colony response is amplified by social interactions.",
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