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PHAGODETERRENCY INDUCED BY TWO CRUCIFEROUS PLANTS IN ADULTS OF THE FLEA BEETLE PHYLLOTRETA STRIOLATA (COLEOPTERA: CHRYSOMELIDAE)

Published online by Cambridge University Press:  31 May 2012

J. Meisner  and
B. K. Mitchell
J. Meisner
Affiliation:
Department of Entomology, University of Alberta, Edmonton T6G 2E3
B. K. Mitchell
Affiliation:
Department of Entomology, University of Alberta, Edmonton T6G 2E3
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Abstract

The two cruciferous plants Thlaspi arvense and Lunaria annua are largely unacceptable to the striped flea beetle, Phyllotreta striolata, which normally feeds on cruciferous plants. Results suggest that these plants contain chemical compounds that act as feeding deterrents to the beetles. Methanol fractions of the leaves of both plants deterred feeding when added to the surface of acceptable radish leaves. An alkaloid fraction of Lunaria annua was, surprisingly, not deterrent. Evidence suggests that saponins in both Lunaria annua and Thlaspi arvense may be a major reason for the low acceptability of these plants as food for Phyllotreta striolata. Commercial saponins are highly deterrent at concentrations of 0.05% and above.

Résumé

Deux crucifères, Thlaspi arvense et Lunaria annua, sont pratiquement inacceptables comme hôtes pour l'altise Phyllotreta striolata qui se nourrit normalement sur les crucifères. Les résultats indiquent que ces plantes contiennent des substances inhibitrices de l'alimentation pour ces insectes. Les fractions méthanoliques obtenues du feuillage des 2 plantes ont inhibé l'alimentation lorqu'appliquées à la surface des feuilles normalement acceptables du radis. Fait surprenant, une fraction alkaloïde s'est avérée non-inhibitrice. Les observations indiquent que des saponines présentes chez Lunaria annua et Thlaspi arvense pourraient expliquer en grande partie la faible acceptabilité de ces plantes comme nourriture pour Phyllotreta striolata. Des saponines commerciales s'avèrent hautement inhibitrices aux concentrations de 0.05% ou plus.

Type
Articles
Information
The Canadian Entomologist , Volume 115 , Issue 9 , September 1983 , pp. 1209 - 1214
Copyright
Copyright © Entomological Society of Canada 1983

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References

Applebaum, S. and Birk, Y.. 1972. Natural mechanisms of resistance to insects in legume seeds. pp. 629636in Rodriguez, J. G. [Ed.], Insect and Mite Nutrition. North-Holland, Amsterdam, London.Google Scholar
Applebaum, S., Marco, S., and Birk, Y.. 1969. Saponins as possible factors of resistance of legume seeds to the attack of insects. J. Agric. Fd Chem. 17: 618622.CrossRefGoogle Scholar
Badia, A. 1954. Saponins de la Capsella bursa pastoris. Farmacognozia (Madrid) 14: 5390.Google Scholar
Birk, Y. 1969. Saponins. pp. 169210in Liener, I. E. [Ed.], Toxic Constituents of Plant Foodstuffs. Academic Press, London.CrossRefGoogle Scholar
Birk, Y., Bond, A., Gestetner, B., and Ishaaya, I.. 1963. Thermostable haemolytic factor in soybeans. Nature 197: 10891090.CrossRefGoogle Scholar
Brain, K. R., Fasli, F. R. Y., and Hardman, R.. 1968. The rapid quantitative determination of C25 epimeric steroidal sapogenins in plants. Phytochemistry 7: 18151823.CrossRefGoogle Scholar
Burgess, L. 1977. Flea beetles (Coleoptera: Chrysomelidae) attacking rape crops in the Canadian prairie provinces. Can. Ent. 109: 2132.CrossRefGoogle Scholar
Cain, B. F., Scannell, S., and Cambie, R. C.. 1961. A New Zealand phytochemical survey. Part I. The gymnosperms. N.Z. Jl Sci. 4: 312.Google Scholar
Cambie, R. C., Cain, B. F., and La Roche, S.. 1961. A New Zealand phytochemical survey. Part 2. The dicotyledons. N.Z. Jl Sci. 64: 604663.Google Scholar
Chapman, R. F. 1974. The chemical inhibition of feeding by phytophagous insects: a review. Bull. ent. Res. 64: 339363.CrossRefGoogle Scholar
Dethier, V. S. 1947. Chemical Insect Attractants and Repellents. Blakiston, Philadelphia, Toronto.Google Scholar
Feeny, P., Paauwe, K. L., and Demong, N. J.. 1970. Flea beetles and mustard oils: host plant specificity of Phyllotreta cruciferae and P. striolata adults (Coleoptera: Chrysomelidae). J. econ. Ent. 63: 832841.Google Scholar
Gmelin, R. and Virtanen, A. I.. 1959. A new type of enzymatic cleavage of mustard oil glucosides. Formation of allylthiocyanate in Thlaspi arvense L. and benzylthiocyanate in Lepiduim ruderale L. and Lepiduim sativum L. Acta chem. scand. 13: 14741475.CrossRefGoogle Scholar
Hegnauer, R. 1964. Chemotaxonomie der Pflanzen. Band 3. Dicotyledonae: Acanthoceae-Lyrillaceae. Birkhauser Verlag, Basel and Stuttgart. 601 pp.Google Scholar
Hicks, K. L. and Tahvanainen, J. O.. 1974. Nitch differentiation by crucifer-feeding flea beetles (Coleoptera: Chrysomelidae). Am. Midl. Nat. 91: 406423.CrossRefGoogle Scholar
Jacobson, M. 1966. Chemical insect attractants and repellents. A. Rev. Ent. 11: 403422.CrossRefGoogle ScholarPubMed
Kjaer, A. 1974. The natural distribution of glucosinolates: a uniform group of sulphur containing glucosides. pp. 229234in Bendz, G. and Santesson, J. [Eds.], Chemistry in Botanical Classification. Stockholm; Academic Press, New York and London.Google Scholar
Nielsen, J. K. 1977. Host plant relationships of Phyllotreta nemorum L. (Coleoptera: Chrysomelidae). Z. angew. Ent. 84: 396407.CrossRefGoogle Scholar
Nielsen, J. K. 1978. Host plant discrimination within Cruciferae: Feeding responses of four leaf beetles (Coleoptera: Chrysomelidae) to glucosinolates, cucurbitacins and cardenolides. Entomologia exp. appl. 24: 4154.CrossRefGoogle Scholar
Ricardi, M. 1958. Detection de Saponinas an Angiospermae Chilenas. Biol. Soc. Biol. de Conception (Chile) 33: 2994.Google Scholar
Schoonhoven, L. M. 1982. Biological aspects of antifeedants. Entomologia exp. appl. 31: 5779.CrossRefGoogle Scholar
Thorsteinson, A. J. 1953. The chemotactic responses that determine host specificity in an oligophagous insect (Plutella maculipennis (Curt.) Lepidoptera). Can. J. Zool. 31: 193218.CrossRefGoogle Scholar
Willaman, J. J. and Li, Hui-Lui. 1970. Alkaloid bearing plants and their contained alkaloids. J. Nat. Prod. Suppl. 33: 3A. 286 pp.Google Scholar