Concealed floral rewards and the role of experience in floral sonication by bees

Avery L. Russell, Anne S. Leonard, Heather D. Gillette, Daniel R Papaj

Research output: Contribution to journalArticle

14 Citations (Scopus)

Abstract

Pollinators frequently use complex motor routines to find and extract floral rewards. Studies of pollinators foraging for nectar rewards indicate these routines are typically learned, and that constraints associated with learning and memory give pollinators incentive to continue foraging on these flowers. However, plants offer rewards besides nectar, including pollen, lipids and essential oils. In particular, bees use a complex motor routine termed floral sonication to extract pollen, their primary source of protein, from the more than 6% of flowering plant species (>22 000 species) that conceal pollen rewards within tube-like poricidal anthers. If floral sonication requires learning, this pollen extraction behaviour could contribute to floral fidelity. However, no studies have quantified the effect of experience on flower handling for bees extracting pollen from poricidal species. We therefore examined the degree to which floral sonication behaviour was modified by experience. We found that the key elements of the sonication motor routine appeared in full-blown form in a flower-naïve bee's first visit to a flower. We additionally found consistent, albeit modest, effects of experience on certain aspects of sonication behaviour. The latency to sonicate slightly decreased with experience. Bees also adjusted the length and amplitude of their sonication buzzes in response to pollen receipt. We conclude that the role of experience in foraging for concealed pollen rewards is different from that reported for nectar rewards. We offer an alternative explanation for its function in sonication. Finally, we discuss alternative hypotheses for the function of poricidal anthers and for how pollen-bearing plants may ensure floral fidelity even in the absence of a significant impact of experience on pollen extraction behaviour.

Original languageEnglish (US)
Pages (from-to)83-91
Number of pages9
JournalAnimal Behaviour
Volume120
DOIs
StatePublished - Oct 1 2016

Fingerprint

bee
Apoidea
pollen
flower
nectar
pollinators
pollinator
flowers
foraging
anthers
learning
extracts
essential oil
protein sources
angiosperm
Angiospermae
essential oils
incentive
lipid
protein

Keywords

  • Bombus impatiens
  • bumblebee
  • buzz pollination
  • concealed reward
  • experience
  • floral reward
  • floral sonication
  • learning
  • mutualism
  • pollen collection

ASJC Scopus subject areas

  • Ecology, Evolution, Behavior and Systematics
  • Animal Science and Zoology

Cite this

Concealed floral rewards and the role of experience in floral sonication by bees. / Russell, Avery L.; Leonard, Anne S.; Gillette, Heather D.; Papaj, Daniel R.

In: Animal Behaviour, Vol. 120, 01.10.2016, p. 83-91.

Research output: Contribution to journalArticle

Russell, Avery L. ; Leonard, Anne S. ; Gillette, Heather D. ; Papaj, Daniel R. / Concealed floral rewards and the role of experience in floral sonication by bees. In: Animal Behaviour. 2016 ; Vol. 120. pp. 83-91.
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abstract = "Pollinators frequently use complex motor routines to find and extract floral rewards. Studies of pollinators foraging for nectar rewards indicate these routines are typically learned, and that constraints associated with learning and memory give pollinators incentive to continue foraging on these flowers. However, plants offer rewards besides nectar, including pollen, lipids and essential oils. In particular, bees use a complex motor routine termed floral sonication to extract pollen, their primary source of protein, from the more than 6{\%} of flowering plant species (>22 000 species) that conceal pollen rewards within tube-like poricidal anthers. If floral sonication requires learning, this pollen extraction behaviour could contribute to floral fidelity. However, no studies have quantified the effect of experience on flower handling for bees extracting pollen from poricidal species. We therefore examined the degree to which floral sonication behaviour was modified by experience. We found that the key elements of the sonication motor routine appeared in full-blown form in a flower-na{\"i}ve bee's first visit to a flower. We additionally found consistent, albeit modest, effects of experience on certain aspects of sonication behaviour. The latency to sonicate slightly decreased with experience. Bees also adjusted the length and amplitude of their sonication buzzes in response to pollen receipt. We conclude that the role of experience in foraging for concealed pollen rewards is different from that reported for nectar rewards. We offer an alternative explanation for its function in sonication. Finally, we discuss alternative hypotheses for the function of poricidal anthers and for how pollen-bearing plants may ensure floral fidelity even in the absence of a significant impact of experience on pollen extraction behaviour.",
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