Free Access
Volume 32, Number 3, May-June 2001
Page(s) 265 - 274


  • Arnold G., Quenet B., Cornuet J.-M., Masson C., de Schepper B., Estoup A., Gasqui P. (1996) Kin recognition in honeybees, Nature 370, 498.
  • Breed M.D. (1998) Chemical cues in kin recognition criteria for identification experimental approaches, and the honeybee as an example, in: Vander Meer R.K., Breed M.D., Espelie K.E., Winston M.L. (Eds.), Pheromon communication in social insects, Westview, Oxford, pp. 57-78.
  • Breed M.D., Stiller T.M. (1992) Honey bee, Apis mellifera, nestmate discrimination: Hydrocarbon effects and the evolutionary implications of comb choice, Anim. Behav. 43, 875-883.
  • Breed M.D., Garry M.F., Pearce A.N., Hibbard B.E., Bjostad L.B., Page R.E. Jr. (1995) The role of wax comb in honey bee nestmate recognition, Anim. Behav. 50, 489-496.
  • Davidson B.C., Hepburn H.R. (1986) Transformation of the Acylglycerols in Comb Construction by Honeybees, Naturwissenschaften 73, 159-160.
  • Francis B.R., Blanton W.E., Littlefield J.L., Nunamaker R.A. (1989) Hydrocarbones of the Cuticle and Hemolymph of the Adult Honey Bee (Hyme-noptera: Apidae), Ann. Entomol. Soc. Am. 82, 486-494.
  • Francis B.R., Blanton W.E., Nunamaker R.A. (1985) Extractable surface hydrocarbons of workers and drones of the genus Apis, J. Apic. Res. 24, 13-16.
  • Fröhlich B., Riederer M., Tautz J. (2000a) Comb-wax discrimination by honeybees tested with the proboscis extension reflex, J. Exp. Biol. 203, 1581-1587.
  • Fröhlich B., Tautz J., Riederer M.J. (2000b) Chemometric classification of comb and cuticular waxes of the honeybee Apis mellifera carnica, J. Chem. Ecol. 26, 123-137.
  • Getz W.M., Page R.E. Jr. (1991) Chemosensory kin-communication systems and kin recogniton in honey bees, Ethology 87, 298-315.
  • Getz W.M, Smith K.B. (1987) Olfactory sensitivity and discrimination of mixtures in the honeybee Apis mellifera, J. Comp. Physiol. A 166, 239-245.
  • Howard R.W. (1993) Cuticular Hydrocarbons and Chemical Communication, in: Stanley-Samuelson D.W., Nelson D.R. (Eds.), Insect Lipids: Chemistry, Biochemistry and Biology University of Nebraska Press, Lincoln, pp. 179-226.
  • Joerges J., Küttner A., Galicia C.G., Menzel R. (1997) Representation of odours and odour mixtures visualized in the honeybee brain, Nature 387, 285-288.
  • Lahav S., Soroker V., Hefetz A., Vander Meer R.K. (1999) Direct behavioral evidence for hydrocarbons as ant recognition discriminators, Naturwissenschaften 86, 246-249.
  • McDaniel C.A., Howard R.W., Blomquist G.J., Collins A.M. (1984) Hydrocarbons of the Cuticle, Sting Apparatus and Sting Shaft of Apis mellifera L. Identification and Preliminary Evaluation as Chemotaxonomic Characters, Sociobiology 8, 287-298.
  • Menzel R., Greggers U., Hammer M. (1993) Functional Organization of Appetitive Learning and Memory in a Generalist Pollinator, the Honey Bee, in: Papaj D.R., Lewis A.C. (Eds.), Insect Learning: Ecology and Evolutionary Perspectives, Chapman and Hall, New York, pp. 79-125.
  • Nass R., Markstädter C., Hauke V., Riederer m. (1998) Quantitative gas chromatographic analysis of plant cuticular waxes containing long-chain aldehyds, Phytochem. Anal. 9, 112-118.
  • Page R.E. Jr., Metcalf R.A., Metcalf R.L., Erickson E.H. Jr., Lampman R.L. (1991) Extractable Hydrocarbons and Kin Recognition in Honeybee (Apis mellifera L.), J. Chem. Ecol. 17, 745-756.
  • Smith B.H., Breed M.D. (1995) The chemical basis for nestmate recognition and mate discrimination in social insects, in: Carde R.T., Bell W.J. (Eds.), Chemical Ecology of Insects II, Chapman and Hall, New York, pp. 287-317.


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