Role of Flower and Pollen Aromas in Host-plant Recognition by Solitary Bees

Overview

Journal Oecologia

Specialty Environmental Health

Date 2017 Mar 18

PMID 28312527

Citations 18

Authors

H E M Dobson

Affiliations

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Abstract

The means by which newly emerged pollen-specific (oligolectic) solitary bees locate their appropriate pollen host plant is not clearly understood. To evaluate the role of flower and pollen odors in this recognition process, preference tests were performed on foraging-inexperienced and, for comparison, field-experienced individuals of the solitary bee Colletes fulgidus longiplumosus. The bees were presented with a choice of four plant species, offered in the form of aromas from flowers, whole pollen, pollenkitt, and internal pollen lipids. Observed feeding-attempt response patterns suggest: 1) that bees can distinguish between plant species on the basis of odors from flowers, whole pollen, and pollenkitt, 2) inexperienced bees show a preference for the pollen on which they were reared as larvae, and 3) chemicals eliciting feeding responses to pollen appear to be contained in the pollenkitt. Feeding responses by experienced bees differ from those of inexperienced bees in ways which indicate that the insects' odor-based search image of the host plant becomes modified by foraging experience.

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References

Lepage M, Boch R . Pollen lipids attractive to honeybees. Lipids. 1968; 3(6):530-4. DOI: 10.1007/BF02530897. View

Cruden R . POLLINATION BIOLOGY OF NEMOPHILA MENZIESII (HYDROPHYLLACEAE) WITH COMMENTS ON THE EVOLUTION OF OLIGOLECTIC BEES. Evolution. 2017; 26(3):373-389. DOI: 10.1111/j.1558-5646.1972.tb01943.x. View

HOPKINS C, Jevans A, Boch R . Occurrence of octadeca-trans-2,cis-9,cis-12-trienoic acid in pollen attractive to the honey bee. Can J Biochem. 1969; 47(4):433-6. DOI: 10.1139/o69-067. View

Bitterman M, Menzel R, Fietz A, Schafer S . Classical conditioning of proboscis extension in honeybees (Apis mellifera). J Comp Psychol. 1983; 97(2):107-19. View