Irmgard Schäffler scite author profile

The interaction between floral oil secreting plants and oil-collecting bees is one of the most specialized of all pollination mutualisms. Yet, the specific stimuli used by the bees to locate their host flowers have remained elusive. This study identifies diacetin, a volatile acetylated glycerol, as a floral signal compound shared by unrelated oil plants from around the globe. Electrophysiological measurements of antennae and behavioural assays identified diacetin as the key volatile used by oil-collecting bees to locate their host flowers. Furthermore, electrophysiological measurements indicate that only oil-collecting bees are capable of detecting diacetin. The structural and obvious biosynthetic similarity between diacetin and associated floral oils make it a reliable cue for oil-collecting bees. It is easily perceived by oil bees, but can’t be detected by other potential pollinators. Therefore, diacetin represents the first demonstrated private communication channel in a pollination system.

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Interpopulation variation in pollinators and floral scent of the lady’s-slipper orchid Cypripedium calceolus L.

Braunschmid

Mükisch

Rupp

et al. 2017

Arthropod-Plant Interactions

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and octyl acetate, scents differed among populations. Similarly, there were strong differences in flower visitor spectra among populations with most abundant flower visitors being bees and syrphid flies at low and high altitudes, respectively. Pollinator climate differed also among populations; however, independent of altitude, most pollinators were bees of Lasioglossum, Andrena, and Nomada. Only few syrphids acted as pollinators and this is the first record of flies as pollinators in C. calceolus. The electrophysiological tests showed that bees and syrphid flies sensed many of the compounds released by the flowers, among them linalool and octyl acetate. Overall, we found that both floral scent and visitor/pollinator climate differ among populations. We discuss whether interpopulation variation in scent is a result of pollinator-mediated selection.

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Flower Scent of Floral Oil-Producing Lysimachia punctata as Attractant for the Oil-Bee Macropis fulvipes

Dötterl

Schäffler

2006

J Chem Ecol

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Most flowers offer nectar and/or pollen as a reward for pollinators. However, some plants are known to produce mostly fatty oil in the flowers, instead of nectar. This oil is exclusively collected by specialized oil-bees, the pollinators of the oil-plants. Little is known about chemical communication in this pollination system, especially how the bees find their hosts. We collected the floral and vegetative scent emitted by oil-producing Lysimachia punctata by dynamic headspace, and identified the compounds by gas chromatography coupled to mass spectrometry. Thirty-six compounds were detected in the scent samples, several of which were flower-specific. Pentane extracts of flowers and floral oil were tested on Macropis fulvipes in a biotest. Flower and oil extracts attracted the bees, and some of the compounds identified are seldom found in the floral scent of other plants; these may have been responsible for the attraction of the bees.

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Behavioural plasticity and sex differences in host finding of a specialized bee species

2011

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Many animals feed on flowers, and visual as well as olfactory cues are considered as most important mediators in animal-plant interactions. However, the relative importance of these cues is not well understood. Bees are the most important animal pollinators worldwide and here, we determined the importance of decoupled and combined visual and olfactory cues of Lysimachia punctata (Primulaceae) for host plant location in both sexes of the specialized, solitary bee, Macropis fulvipes (Melittidae). Lysimachia-inexperienced female bees preferred olfactory over visual cues though visual cues increased the attractiveness of olfactory ones. In experienced females, the importance of visual cues was increased. Both Lysimachia-naive and -experienced males relied more on visual cues as compared to females. This study demonstrates that the relative weighting of cues used for host plant finding depends on the sex and experience of M. fulvipes. The latter finding reveals the presence of learning-induced behavioural plasticity in host plant finding for a bee species. It may allow the bee to forage highly efficient. Visually guided female detection on flowers by males is a likely functional explanation for the differences in the weighting of visual and olfactory cues between the sexes.

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