1. Barthlott, W. and Ehler, N., Raster-Elektronenmikroskopie der Epidermisoberflächen von Spermatophyten, Trop. Subtrop. Pflanzenwelt, 19, 367, 1977.

2. Barthlott, W. and Wollenweber, E., Zur Feinstruktur, Chemie und taxonomischen Signifikanz epikutikularer Wachse und ähnliche Sekrete, Trop. Subtrop. Pflanzenwelt, 32, 7, 1981.

3. Barthlott, W., Scanning electron microscopy of the epidermal surface in plants, in Scanning Electron Microscopy in Taxonomy and Functional Morphology, Claugher, D., Ed., Clarendon, Oxford, 1998, p. 69.

4. Jeffree, C.E., The cuticle, epicuticular waxes and trichomes of plants, with references to their structure, functions and evolution, in Insects and the Plant Surface, Juniper, B.E. and Southwood, T.R.E., Eds., Edward Arnold, London, 1986, p. 23.

5. Juniper, B.E., Robins, R.J., and Joel, D.M., The Carnivorous Plants, Academic Press, London, 1989.

6. Harley, R., The greasy pole syndrome, in Ant-Plant Interactions, Huxley, C.R. and Cutler, D.E., Eds., Oxford University Press, Oxford, 1991, p. 430.

7. Juniper, B.E., Waxes on plant surfaces and their interactions with insects, in Waxes: Chemistry, Molecular Biology and Functions, Hamilton, R.J., Ed., Oily, West Ferry, Dundee, 1995, p. 157.

8. Eigenbrode, S.D., Plant surface waxes and insect behaviour, in Plant Cuticles — An Integral Functional Approach, Kerstiens, G., Ed., BIOS, Oxford, 1996, p. 201.

9. Anstey, T.H. and Moore, J.F., Inheritance of glossy foliage and cream petals in green sprouting broccoli, J. Heredity, 45, 39, 1954.

10. Way, M.J. and Murdie, G., An example of varietal resistance of Brussel sprouts, Ann. Appl. Biol., 56, 326, 1965.

11. Stork, N.E., Role of wax blooms in preventing attachment to brassicas by the mustard beetle, Phaedon cochleariae, Entomol. Exp. Applicata, 28, 100, 1980.

12. Stork, N.E., The form of plant waxes: a means preventing insect attachment? in Insects and the Plant Surface, Juniper, B.E. and Southwood, T.R.E., Eds., Edward Arnold, London, 1986, p. 346.

13. Edwards, P.B., Do waxes of juvenile Eucalyptus leaves provide protection from grazing insects? Austral. J. Ecol., 7, 347, 1982.

14. Edwards, P.B. and Wanjura, W.J., Physical attributes of eucalypt leaves and the host range of chrysomelid beetles, Symp. Biol. Hung., 39, 227, 1990.

15. Stoner, K.A., Glossy leaf wax and host-plant resistance to insects in Brassica oleracea L. under natural infestation, Environ. Entomol., 19, 730, 1990.

16. Bodnaryk, R.P, Leaf epicuticular wax, an antixenotic factor in Brassicaceae that affects the rate and pattern of feeding in flea beetles, Phyllotreta cruciferae (Goeze), Can. J. Plant Sci, 72, 1295, 1992.

17. Eigenbrode, S.D. and Espelie, K.E., Effects of plant epicuticular lipids on insect herbivores, Annu. Rev. Entomol., 40, 171, 1995.

18. Federle, W. et al., Slippery ant-plants and skillful climbers: selection and protection of specific ant partners by epicuticular wax blooms in Macaranga (Euphorbiaceae), Oecologia, 112, 217, 1997.

19. Eigenbrode, S.D. and Kabalo, N.N., Effects of Brassica oleracea waxblooms on predation and attachment by Hippodomia convergen, Entomol. Exp. Applicata, 91, 125, 1999.

20. Juniper, B.E. and Burras, J.K., How pitcher plants trap insects, New Scientist, 269, 75, 1962.

21. Martin, J.T. and Juniper, B.E., The Cuticle of Plants, Edward Arnold, London, 1970.

22. Gaume, L., Gorb, S., and Rowe, N., Function of epidermal surfaces in the trapping efficiency of Nepenthes alata pitchers, New Phytol., 156, 476, 2002.

23. Gaume, L. et al., How do plant waxes cause flies to slide? Experimental tests of wax-based trapping mechanisms in the three pitfall carnivorous plants, Artropod Str. Develop., 33, 103, 2004.

24. Riedel, M., Eichner, A., and Jetter, R., Slippery surfaces of carnivorous plants: composition of epicuticular wax crystals in Nepenthes alata Blanco pitchers, Planta, 218, 87, 2003.

25. Eigenbrode, S.D., Kabalo, N.N., and Stoner, K.A., Predation, behavior, and attachment by Chrysoperla plorabunda larvae on Brassica oleracea with different surface waxblooms, Entomol. Exp. Applicata, 90, 225, 1999.

26. Eigenbrode, S.D. et al., Effects of wax bloom variation in Brassica oleracea on foraging by a vespid wasp, Entomol. Exp. Applicata, 97, 161, 2000.

27. Federle, W., Rohrseitz, K., and Hölldobler, B., Attachment forces of ants measured with a centrifuge: better "wax-runners" have a poorer attachment to a smooth surface, J. Exp. Biol., 203, 505, 2000.

28. Gorb, E.V. and Gorb, S.N., Attachment ability of the beetle Chrysolina fastuosa on various plant surfaces, Entomol. Exp. Applicata, 105, 13, 2002.

29. Gorb, S.N., Attachment Devices of Insect Cuticle, Kluwer Academic Publishers, Dordrecht, 2001.

30. Ramires, V.B., Can dusts be used against Varroa jacobsoni? Apiacta, 24, 2, 1989.

31. Dixon, A.F.G., Croghan, PC., and Gowing, R.P, The mechanism by which aphids adhere to smooth surfaces, J. Exp. Biol., 152, 243, 1990.

32. Barthlott, W. et al., Classification and terminology of plant epicuticular waxes, Bot. J. Linn. Soc., 126, 237, 1998.

33. Beutel, R. and Gorb, S.N., Ultrastructure of attachment specializations of hexapods (Arthropoda): evolutionary patterns inferred from a revised ordinal phylogeny, J. Zool. Syst. Evol. Res., 39, 177, 2001.

34. Stork, N.E., A scanning electron microscope study of tarsal adhesive setae in the Coleoptera, Zool. J. Linn. Soc., 68, 173, 1980.

35. Eigenbrode, S.D. et al., Mobility of three generalist predators is greater on cabbage with glossy leaf wax than on cabbage with a wax bloom, Entomol. Exp. Applicata, 81, 335, 1999.

36. Ishii, S., Adhesion of a leaf feeding ladybird Epilachna vigintioctomaculta (Coleoptera: Coccinellidae) on a vertically smooth surface, Appl. Entomol. Zool., 22, 222, 1987.

37. Kosaki, A. and Yamaoka, R., Chemical composition of footprints and cuticula lipids of three species of lady beetles, Jap. J. Appl. Entomol. Zool., 40, 47, 1996.

38. Eisner, T. and Aneshansley, D.J., Defence by foot adhesion in a beetle (Hemisphaerota cyanea), Proc. Natl. Acad. USA, 97, 6568, 2000.

39. Votsch, W. et al., Chemical composition of the attachment pad secretion of the locust Locusta migratoria, Insect Biochem. Molec. Biol., 32, 1605, 2002.

40. Hallam, N.D., Fine structure of the leaf surface and the origin of leaf waxes, in The Plant Cuticle, Cutler, D.E., Alvin, K.L., and Price, C.E., Eds., Academic Press, London, 1982, p. 197.

8 Ecology and Biomechanics of Slippery Wax Barriers and Wax Running in Macaranga—Ant Mutualisms

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