Abstract
In the ‘dance language’ of honeybees1,2, the dancer generates a specific, coded message that describes the direction and distance from the hive of a new food source, and this message is displaced in both space and time from the dancer's discovery of that source. Karl von Frisch concluded that bees ‘recruited’ by this dance used the information encoded in it to guide them directly to the remote food source, and this Nobel Prize-winning discovery revealed the most sophisticated example of non-primate communication that we know of3,4. In spite of some initial scepticism5,6,7,8,9, almost all biologists are now convinced that von Frisch was correct3,4,10,11,12,13,14, but what has hitherto been lacking is a quantitative description of how effectively recruits translate the code in the dance into flight to their destinations. Using harmonic radar15,16,17 to record the actual flight paths of recruited bees, we now provide that description.
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References
von Frisch, K. The Dance Language and Orientation of Bees (Harvard Univ. Press, Cambridge, Massachusetts, 1967)
Dyer, F. C. The biology of the dance language. Annu. Rev. Entomol. 47, 917–949 (2002)
Gould, J. L. Honey bee recruitment: the dance-language controversy. Science 189, 685–693 (1975)
Sherman, G. & Visscher, P. K. Honeybee colonies achieve fitness through dancing. Nature 419, 920–922 (2002)
Wenner, A. M. & Johnson, D. L. Honeybees: do they use direction and distance information provided by their dancers? Science 158, 1076–1077 (1967)
Wells, P. H. & Wenner, A. M. Do honey bees have a language? Nature 241, 171–175 (1973)
Wenner, A. M. & Wells, P. H. Anatomy of a Controversy: the Question of a “Language” Among Bees (Columbia Univ. Press, New York, 1990)
Wenner, A. M., Meade, D. E. & Friesen, L. J. Recruitment, search behavior, and flight ranges of honey bees. Am. Zool. 31, 768–782 (1991)
Wenner, A. M. The elusive honey bee dance “language” hypothesis. J. Insect Behav. 15, 859–878 (2002)
Gould, J. L. The dance-language controversy. Q. Rev. Biol. 51, 211–244 (1976)
Dyer, F. C. & Smith, B. H. A review of “Anatomy of a Controversy: the Question of a ‘Language’ Among Bees” by A.M. Wenner & P.H. Wells. Anim. Behav. 47, 1242–1244 (1994)
Seeley, T. D. Bee warned. Nature 349, 114 (1991)
Srinivasan, M. V., Zhang, S. W., Altwein, M. & Tautz, J. Honeybee navigation: nature and calibration of the “odometer”. Science 287, 851–853 (2000)
Esch, H. E., Zhang, S. W., Srinivasan, M. V. & Tautz, J. Honeybee dances communicate distances measured by optic flow. Nature 411, 581–583 (2001)
Riley, J. R. et al. Tracking bees with harmonic radar. Nature 379, 29–30 (1996)
Riley, J. R. & Osborne, J. L. in Insect Movement: Mechanisms and Consequences (eds Woiwod, I. P., Reynolds, D. R. & Thomas, C. D.) 129–157 (CAB International, Wallingford, UK, 2001)
Riley, J. R. & Smith, A. D. Design considerations for an harmonic radar to investigate the flight of insects at low altitude. Comput. Electron. Agric. 35, 151–169 (2002)
Towne, W. F. & Gould, J. L. The spatial precision of the honey bee's dance communication. J. Insect Behav. 1, 129–155 (1988)
Esch, H. & Bastian, J. A. How do newly recruited honeybees approach a food site? Z. Vergl. Physiol. 68, 175–181 (1970)
Mautz, D. Der Kommunikationseffekt der Schwänzeltänze bei Apis mellifica carnica (Pollm.). Z. Vergl. Physiol. 72, 197–220 (1971)
Seeley, T. D. Division of labor between scouts and recruits in honeybee foraging. Behav. Ecol. Sociobiol. 12, 253–259 (1983)
Tautz, J. & Sandeman, D. C. Recruitment of honeybees to non-scented food sources. J. Comp. Physiol. A 189, 293–300 (2003)
Menzel, R. et al. Honeybees navigate according to a map-like spatial memory. Proc. Natl Acad. Sci. USA 102(8), 3040–3045 (2005)
Baker, T. C. & Haynes, K. F. Pheromone-mediated optomotor anemotaxis and altitude control exhibited by male oriental fruit moths in the field. Physiol. Entomol. 21, 20–31 (1996)
Cardé, R. T. & Mafra-Neto, A. in Insect Pheromone Research: New Directions (eds Cardé, R. T. & Minks, A. K.) 275–290 (Chapman & Hall, New York, 1997)
Riley, J. R. et al. Harmonic radar as a means of tracking the pheromone-finding and pheromone-following flight of male moths. J. Insect Behav. 11, 287–296 (1998)
Riley, J. R. et al. Compensation for wind drift by bumble-bees. Nature 400, 126 (1999)
Riley, J. R. et al. The automatic pilot of honeybees. Proc. R. Soc. Lond. B 270, 2421–2424 (2003)
Reynolds, D. R. et al. in Methods in Ecological and Agricultural Entomology (eds Dent, D. R. & Walton, M. P.) 111–145 (CAB International, Wallingford, UK, 1997)
Chittka, L. & Geiger, K. Honeybee long-distance orientation in a controlled environment. Ethology 99, 117–126 (1995)
Acknowledgements
Our field studies depended on the contributions of E. Schüttler, S. Watzl, G. Bundrock, J. Stindt, S. Berger, S. Hülse, S. Brunke and T. Plümpe, and we are also grateful to A. Edwards for assistance with the reduction of the radar data and manuscript preparation. Data analysis and writing up by J.R.R. was supported by the Leverhulme Trust Emeritus Fellowship programme. The research was carried out with joint funding from the Deutsche Forschungsgemeinschaft and the Biotechnology and Biological Sciences Research Council of the United Kingdom (BBSRC). Rothamsted Research receives grant aided assistance from the BBSRC.
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Riley, J., Greggers, U., Smith, A. et al. The flight paths of honeybees recruited by the waggle dance. Nature 435, 205–207 (2005). https://doi.org/10.1038/nature03526
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DOI: https://doi.org/10.1038/nature03526
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