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Types and mechanisms of host plant resistance to insect attack

Published online by Cambridge University Press:  19 September 2011

B. R. Wiseman
B. R. Wiseman
Affiliation:
Insect Biology and Population Management Research Laboratory, USDA, ARS, P.O. Box 748, Tifton, GA 31793-0748, U.S.A.
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Abstract

A keen appreciation of the types and mechanisms of resistance must be attained in order to fully understand and utilize resistant cultivars as effective tools in today's pest management schemes. A historical account of plant resistance terminology is presented. Resistance can be classified as to intensities: immunity; high, moderate and low resistance; or types of resistance: vertical or horizontal resistance. The mechanisms of resistance include: non-preference, antibiosis and tolerance. Examples of the effects of both non-preference and antibiosis resistance on insect numbers are given.

Résumé

Une bonne appréciation des types et mécanismes de résistance doit être atteinte afin de comprendre entiěrement et utiliser les cultivars résistants comme outils efficaces dans les systěmes actuels de lutte contre les pestes. Une historique de la terminologie de la résistance des plantes est présentée. La résistance peut être classifiée en intensities: immunité; grande résistance, résistance modérée, faible résistance; ou en types de résistance: résistance verticale ou horizontale. Les mécanismes de résistance incluent: la non-préférence, les antibiotiques, et la tolérance. Des examples d'effets de résistance due á la non-préférence et aux antibiotiques sur les insectes sont donnés.

Keywords

Antibiosisnon-preferencetolerancesusceptibilityAntibiotiquenon-préférencetolérancesusceptibilité
Type
Section I: Types and mechanisms of host plant resistance
Information
International Journal of Tropical Insect Science , Volume 6 , Special Issue 3: Host Plant Resistance and its Significance in Pest Management , June 1985 , pp. 239 - 242
Copyright
Copyright © ICIPE 1985

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References

REFERENCES

Beck, S. D. (1965) Resistance of plants to insects. A. Rev. Ent. 10, 207232.CrossRefGoogle Scholar
Dahms, R. G. (1972) The role of host plant resistance in integrated insect control. In Control of Sorghum Shoot Fly (Edited by Jotwani, M. G. and Young, W. R.). Oxford & IBH, New Delhi.Google Scholar
Felt, E. P. and Bromley, S. W. (1931) Developing resistance or tolerance to insect attack. J. econ. Ent. 24, 427443.CrossRefGoogle Scholar
Gallun, R. L. and Khush, G. S. (1980) Genetic factors affecting expression and stability of resistance. In Breeding Plants Resistant to Insects (Edited by Maxwell, F. G. and Jennings, P. R.), pp. 6385. Wiley, New York.Google Scholar
Horber, E. (1980) Types and classification of resistance. In Breeding Plants Resistant to Insects (Edited by Maxwell, F. G. and Jennings, P. R.), pp. 1521. Wiley, New York.Google Scholar
Hoven, J. N. (1972) Observations on the Hessian fly. N.Y. Soc. Agric. Trans. Arts Manus. I, 89107.Google Scholar
Kennedy, G. G. and Dimock, M. B. (1983) 2-Tridecanone: a natural toxicant in a wild tomato responsible for insect resistance. Pesticide Chemistry: Human Welfare and the Environment. In Proceedings of 5th International Congress on Pesticide Chemistry, Kyoto, Japan (Edited by Miyamoto, J. and Kearney, P. C.), pp. 123128. Pergamon Press, Oxford.Google Scholar
Kogan, M. and Ortman, E. E. (1978) Antixenosis—a new term proposed to define Painter's “nonpreference” modality of resistance. Bull. ent. Soc. Am. 24, 175176.Google Scholar
Kogan, M. (1975) Plant resistance in pest management. In Introduction to Insect Pest Management (Edited by Metcalf, R. L. and Luckman, W. H.), pp. 103146. Wiley, New York.Google Scholar
McColloch, J. W. (1923) The resistance of plants to insect injury. Kans. State Hort. Soc. Bien. Rpt 37, 196208.Google Scholar
Mumford, E. P. (1931) Strategies in certain factors affecting the resistance of plants to insect pests. Science 73, 4950.CrossRefGoogle Scholar
Owens, J. C. (1975) An explanation of terms used in insect resistance to plants. Iowa St. J. Res. 49, 513517.Google Scholar
Painter, R. H. (1941) The economic value and biologic significance of insect resistance in plants. J. econ. Ent. 34, 358367.CrossRefGoogle Scholar
Painter, R. H. (1951) Insect Resistance in Crop Plants. Macmillan, New York.CrossRefGoogle Scholar
Painter, R. H. (1958) Resistance of plants to insects. A. Rev. Ent. 3, 267290.CrossRefGoogle Scholar
Painter, R. H. (1968) Crops that resist insects provide a way to increase world food supply. Kans. Agric. exp. Sta. Bull. 520, 22.Google Scholar
Plank, J. E. van der (1963) Plant Diseases: Epidemics and Control. Academic Press, New York.Google Scholar
Plank, J. E. van der (1968) Disease Resistance in Plants. Academic Press, New York.Google Scholar
Wardle, R. A. and Buckle, P. (1923) Host resistance. In The Principles of Insect Control, pp. 116. Longmans & Green, London.Google Scholar
Wilson, R. L., Wiseman, B. R. and Widstrom, N. W. (1984) Growth response of corn earworm larvae on meridic diets containing fresh and lyophilized corn silk. J. econ. Ent. 77, 11591162CrossRefGoogle Scholar
Wiseman, B. R., Widstrom, N. W. and McMillian, W. W. (1978) Potential of resistant corn to reduce corn earworm production. Fla. Ent. 61, 92.CrossRefGoogle Scholar
Wiseman, B. R., Widstrom, N. W. and McMillian, W. W. (1981) Effects of ‘Antigua 2D-118’ resistant corn on fall armyworm feeding and survival. Fla. Ent. 64, 515519.CrossRefGoogle Scholar
Wiseman, B. R., Davis, F. M. and Williams, W. P. (1983a) Fall armyworm: Larval density and movement as an indication of nonpreference in resistant corn. Protect. Ecol. 5, 135141.Google Scholar
Wiseman, B. R., Widstrom, N. W. and McMillian, W. W. (1983b) Influence of resistant and susceptible corn silks in selected developmental parameters of corn earworm (Lepidoptera: Noctuidae) larvae. J. econ. Ent. 76, 12881290.CrossRefGoogle Scholar