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Breeding for resistance against some of the major insects of cowpea and pigeon pea

Published online by Cambridge University Press:  19 September 2011

E. C. K. Ngugi
Affiliation:
National Dryland Farming Research Station, Katumani, P.O. Box 340, Machakos, Kenya
A. Shakoor
Affiliation:
National Dryland Farming Research Station, Katumani, P.O. Box 340, Machakos, Kenya
P. G. A. Omanga
Affiliation:
National Dryland Farming Research Station, Katumani, P.O. Box 340, Machakos, Kenya
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Abstract

Pigeon pea (Cajanus cajan L. Millsp.) and cowpea (Vigna unguiculata L. Walp) are the major grain legumes grown in the semi-arid areas of Kenya. Heavy losses in grain yield occur due to their vulnerability to a large number of insect pests in the field as well as damage by weevil during storage. Aphids, thrips, pod-borers and pod-sucking bugs are common insect pests to both pigeon pea and cowpea. Pod fly mostly attacks pigeon pea, and apion beetle is a serious pest of cowpea. Use of chemical control in the semi-arid areas is expensive and beyond the reach of the small-scale farmers. Work on development of less susceptible or tolerant crop varieties has been initiated at the National Dryland Farming Research Station (NDFRS) at Katumani. Results of preliminary screening against major insect pests are reported in this paper.

The sources of resistance against aphids and thrips in cowpea, were received from the International Institute of Tropical Agriculture (UTA), Nigeria, and information on their reaction to these insects under field conditions has been discussed. In pigeon pea, resistance against pod-sucking bug, which appear to be of the antibiosis type, has been identified in the early maturing group of the local germplasm. Implications of breeding for insect resistance and pest management in the two crops are discussed.

Résumé

Le pois cajan (Cajanus cajan L. Millsp.) et le niébé (Vigna unguiculata L. Walp) sont les principales légumineuses à grains cultivées dans les régions semi-arides du Kenya. Elles subissent de lourdes pertes en grains en raison de leur vulnérabilité aux attaques d'un grand nombre d'insectes, aussi bien en plein champs que durant le stockage. Parmi les insectes communs au niébé et au pois cajan il faut signaler des aphides, des thrips, des foreurs et des punaises des gousses. La mouche de gousses attaque principalement le pois cajan, et l'apion est un ennemi sérieux du niébé. De par son coût élevé, n'est pas à la portée du petit paysan.

Des travaux sur le développement de variétés moins susceptibles ou tolérantes aux principaux insectes ont été commencés au National Dryland Farming Research Station (NDFRS) à Katumani. Le présent article porte sur les résultats obtenus au cours des essais préliminaires.

Le matériel ayant servi aux études de résistance contre les aphides et les thrips du niébé a été obtenu de l'IITA au Nigéria; le comportement de ce matériel vis-à-vis de ces insectes est discuté. Chez le pois cajan, la résistance à la punaise des gousses semble être du type antibiose et elle a été identifiée dans le groupe précoce des variétés locales. Les implications de la sélection de ces cultures pour la résistance et l'aménagement des ravageurs sont discutées.

Type
Section IV: Plant breeding for insect resistance
Copyright
Copyright © ICIPE 1985

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References

REFERENCES

Allen, D. J. (1979) Report on Trip to Kenya 14–20 January. Ministry of Agriculture, Nairobi, Kenya.Google Scholar
Anonymous (19771978) Annual Report International Centre for Research in Semi-Arid Tropics (ICRISAT), Pantancheru P.O. Andhra Pradesh 502 324, India.Google Scholar
Dahms, R. G. (1972) The role of host plant resistance in integrated insect control. In Control of Sorghum Shooftly (Edited by Jotwani, M. G. and Young, W. R.), pp. 152167. Oxford and IBH, New Delhi.Google Scholar
Horber, E. (1972) Plant resistance to insects. Agric. Sci. Rev. 10, 118.Google Scholar
Kibata, G. N. (1985) Strategies of insect pest control in dryland areas. E. Afr. agric. For. J. In press.Google Scholar
Knapp, J. L., Maxwell, F. G. and Douglas, W. A. (1967) Possible mechanisms of resistance of dent corn to the corn earworm. J. econ. Ent. 60, 3336.CrossRefGoogle Scholar
McMurty, J. A. and Stanford, E. H. (1960) Observations on the feeding habits of the spotted alfalfa aphid on resistant and susceptible alfalfa plants. J. econ. Ent. 53, 714717.CrossRefGoogle Scholar
Maxwell, F. G. (1972) Host plant resistance to insects—Nutritional and pest management relationships. In Insect and Mite Nutrition (Edited by Rodriguez, J. G.), pp. 599609. North-Holland, Amsterdam.Google Scholar
Maxwell, F. G., Jenkins, J. N. and Parrott, W. L. (1972) Resistance of plants to insects. Adv. Agron. 24, 187265.CrossRefGoogle Scholar
Muruli, B. I., Pathak, R. S., Murunya, D. M., Karel, A. K., Keya, S. O. and Ssali, H. (1980) Cowpea research in Kenya. Trop. Grain Legume Bull. 19, 1316.Google Scholar
Painter, R. H. (1936) The food of insects and its relation to resistance, of plants to insect attack. Am. Nat. 70, 547566.CrossRefGoogle Scholar
Painter, R. H. (1951) Insect Resistance in Crop Plants. Macmillan, New York.CrossRefGoogle Scholar
Pathak, R. S. (1980) Use of local forms (Vigna unguiculata L.) in breeding for resistance to pests and diseases. Genet. Resusy. Selekt. Rast. Ustoich. Leningrad U.S.S.R. 20, 44.Google Scholar
Ponti, O. M. B. de (1983) Resistance to insects promotes the stability of integrated pest control. In Durable Resistance in Crops (Edited by Lamberti, F., Waller, J. M. and Van der Graaff, N. A.), pp. 211225. Plenum Press, New York.CrossRefGoogle Scholar
Rukandema, M., Muhammed, L. and Jeza, A. (1982) The Farming Systems of Semi-Arid Southern, Kitui, Eastern Kenya. Report No. 3 UNDP/FAO/GK Dryland Farming Research and Development Project, Katumani.Google Scholar
Rukandema, M., Muhammed, L. and Jeza, A. (1983) The Farming Systems of Semi-Arid Lower Embu, Eastern Kenya. Draft Technical Report No. 4 UNDP/FAO/GK Dryland Farming Research and Development Project, Katumani.Google Scholar
Shakoor, A., Ngugi, E. C. K., Muthoka, M. S. and Kamau, J. W. (1985a) Cowpea varietal improvement for dry areas of Kenya. E. Afr. agric. For. J. In press.Google Scholar
Shakoor, A., Ngugi, E. C. K., Omanga, P. A., Muthoka, M. S. and Mihiu, S. G. (1985b) Development of drought resistant high yielding pigeon pea. Lines suitable for semi-arid areas. E. Afr. agric. For. J. In press.Google Scholar
Singh, S. R. (1980) Biology of cowpea pests and potential for host plant resistance. In Biology and Breeding of Resistance to Arthropods and Pathogens in Agricultural Plants (Edited by Harris, M. K.), pp. 398421. Texas A & M University Bull.Google Scholar
Teetes, G. L. (1980) Breeding sorghum resistant to insects. In Breeding Plants Resistant to Insects (Edited by Maxwell, F. G. and Jennings, P. R.), pp. 457485. Wiley, New York.Google Scholar