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Damage caused to maize and groundnuts by the moths Plodia interpunctella (Hubn.) and Ephestia cautella (Wlk.) and control using local plant materials

Published online by Cambridge University Press:  19 September 2011

J. Allotey  and
L. Goswami
J. Allotey
Affiliation:
Department of Biological Sciences, Rivers State University of Science and Technology, Nkpolu, Port Harcourt, Nigeria
L. Goswami
Affiliation:
Department of Biological Sciences, Rivers State University of Science and Technology, Nkpolu, Port Harcourt, Nigeria
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Abstract

In a comparative situation, the moths Plodia interpunctella (Hubn.) and Ephestia cautella (Wlk.) caused more damage in groundnuts (41.85% for P. interpunctella; 29.21% for E. cautella) than in maize, when these commodities were stored for 1 month in plastic jars. For maize stored for 3 months in plastic and traditional storage gourds, the weight losses caused by the moths were: P. interpunctella—15.48% in jars; 4.53% in gourds; E. cautella—20.68% in jars; 4.12% in gourds. Orange peel suppressed two-thirds of the populations of P. interpunctella and E. cautella at a dosage of 20.0g/100g maize. Neem leaves caused 100% mortality of P. interpunctella at 15.0g/100g groundnut and suppressed more than half the population of E. cautella at 5g/100g groundnut. The results show that the plant materials utilised have some insecticidal properties against P. interpunctella and E. cautella over a short period.

Résumé

En une situation comparative, les papillons Plodia interpunctella (Hubn.) et Ephestia cautella (Wlk.) ont causé plus de dégâts aux arachides (41,58% pour P. interpunctella; 29,21% pour E. cautella) qu'au maïs quand ces produits étaient emmagasinées pendant une période d'un mois enjarres plastiques. Pour le maïs emmagasiné pendant trois mois en jarres plastiques et en gourdes d'emmagasinages traditionelles, les pertes en poids causées par les papillons étaient: P. interpunctella—15,48% en jarres; 4,53% en gourdes et E. cautella—20,68% en jarres; 4,12% en gourdes. L'écorce d'orange a réprimé deux tiers de la population de P. interpunctella et de E. cautella au dosage de 20,0g/100g maïs. Les feuilles de neem ont causé une mortalité de 100% en P. interpunctella à 15,0g/100g arachide et ont réprimé plus de la moitié de la population de E. cautella à 5g/100g arachide. Les résultats montrent que les matières de la plante utilisées ont des propriétés insecticides contre P. interpunctella et E. cautella pendant une période courte.

Keywords

Plodia interpunctellaEphestia cautelladamageorange peellemon peelneem leavesmaizegroundnutPlodia interpunctellaEphestia cautelladégâtsécorce d'orangeécorce de citronfeuilles de neemmaïsarachide
Type
Research Articles
Information
International Journal of Tropical Insect Science , Volume 15 , Issue 3 , June 1994 , pp. 323 - 329
Copyright
Copyright © ICIPE 1994

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References

REFERENCES

Agboola, S. O. (1982) Research for effective food storage in Nigeria. Occasional Paper Series No. 4, Niger. Stored Prod. Res. Inst. 21 pp.Google Scholar
Allotey, J. (1985) Study of radiosensitivity of the immature stages of Corcyra cephalonica (Stainton) (Lepidoptera: Galleriidae). Insect Sci. Applic. 6, 627632.Google Scholar
Allotey, J. (1988) A study of insect pests on stored palm produce in Port Harcourt, Nigeria. J. Stored Prod. Res. 24, 237240.CrossRefGoogle Scholar
Allotey, J. (1991) Storage insect pests of cereal in small scale farming community and their control. Insect Sci. Applic. 12, (5/6) 679693.Google Scholar
Allotey, J. and Goswami, L. (1990) Comparative biology of two phycitid moths, Plodia interpunctella (Hubn.) and Ephestia cautella (Wlk.) on some selected food media. Insect Sci. Applic. 11, 209215.Google Scholar
Allotey, J. and Goswami, L. (1992) Competition between the phycitid moths, Plodia interpunctella (Hubn.) and Ephestia cautella (Wlk.) in groundnuts and on a laboratory diet Insect Sci. Applic. 13, 719723.Google Scholar
Allotey, J. and Kumar, R. (1985) Competition between Corcyra cephalonica (Staint.) and Ephestia cautella (Wlk.) in cocoa beans. Insect Sci. Applic. 6, 627632.Google Scholar
Allotey, J. and Kumar, R. (1988) Insect pest spectrum of stored palm kernel and damage caused by them. Insect Sci. Applic. 9, 617623.Google Scholar
Amoako-Atta, B. and Partida, G. J. (1976) Sensitivity of almond moth pupae to gamma radiation (Lepidoptera: Pyralidae). J. Kans. Entomol. Soc., 49, 133140.Google Scholar
Arbogast, R. T. (1981) Mortality and reproduction of Ephestia cautella and Plodia interpunctella exposed as pupae to high temperatures. Environ. Entomol. 10, 708771.Google Scholar
Davey, P. M., Hall, D. W., Conveney, P. K. K., Raymond, W. D. and Squires, J. A. (1959) The effector insect infestation on the quality of decorated groundnuts with special reference to storage at high and low humidities. Trop. Sci. 1, 296307.Google Scholar
Don-Pedro, K. N. (1985) Toxicity of some citrus peels to Dermestes maculatus Deg. and Callosobruchus maculatus (F.). J. Stored Prod. Res. 21, 3134.CrossRefGoogle Scholar
FAO (1983) Food Storage Manual; revised edition Prepared for World Food Programme by the Tropical Development and Research Institute. 263 pp.Google Scholar
Harcin, P., Gardner, R. and Cloud, H. (1984) Review of Minnesota stored grain management practices. Univ. of Minn. Ag. Expt. Serv. AD-SB-2705. 20 pp.Google Scholar
Howe, R. W. (1952) Entomological problems of food storage in Northern Nigeria. Bull. entomol. Res. 43, 111144.CrossRefGoogle Scholar
IITA (1988) Storage insect pests of grain legumes and their control. Grain Legume Improvement Program. International Institute of Tropical Agriculture, Ibadan, Nigeria. 9 pp.Google Scholar
Jacobson, M. (1983) Control of stored-product insects with phytochemicals. Proc. 3rd Int. Working Conf. on Stored Prod. Ent., Kansas State Univ. Oct 23–28, 1983 pp. 183195.Google Scholar
Jilani, G. and Su, H. C. F. (1983) Laboratory studies on several plant materials as insect repellents for protection of cereal grains. J. econ. Entomol. 76, 154157.CrossRefGoogle Scholar
Kamel, A. H. and Zewar, M. N. (1973) Loss in weight in stored corn and millet due to Sitophilus oryzae (L.) and Rhyzopertha dominica (F.). Infestation Agric. Res. Rev. 51, 2931.Google Scholar
Lambert, J. D. (1985) Control of storage insects with seed protectant of plant origin. Behav. phys. Approaches in Pest Management pp. 1517.Google Scholar
Mbata, G. N. (1986) The susceptibility of varieties of groundnuts to infestation by Tribolium castaneum during storage. Trop. sci. 26, 187194.Google Scholar
Mbata, G. N. (1987) Studies on the susceptibility of groundnut varieties to infestation by Plodia interpunctella (Hubner) (Lepidoptera: Pyralidae). J. Stored Prod. Res. 23, 5763.Google Scholar
Mbata, G. N. and Osuji, F. N. C. (1983) Some aspects of the biology of Plodia interpunctella (Hubner) (Lepidoptera: Pyralidae), a pest of stored groundnuts in Nigeria. J. Stored Prod. Res. 19, 141151.Google Scholar
Morah, S. C. and Comes, M. A. (1979) A study of the infestation and pest control effect on groundnuts stored in standard pyramid in Kano. Rep. Niger. Stored Prod. Res. Inst., (1976–77). pp. 6974.Google Scholar
Mubvuta, D. (1984) India meal moth. Zimbabwe Agric. J. 81, 188.Google Scholar
Patel, A. U. and Adesuyi, S. A. (1975) Crib storage maize under tropical village conditions in the Ibadan area of Nigeria. Trop. Stored Prod. Inf. 29, 3340.Google Scholar
Pereira, J. and Wohlgemuth, R. (1982) Neem (Azadirachta indica A. Juss) of West African origin as protectant of stored maize. Z. Angew. Ent. 94, 208214.Google Scholar
Prakash, A. and Mathur, K. C. (1985) Active principles in plant products used in insect pest management of stored grains. Bull. Grain Tech. 23, 278281.Google Scholar
Prakash, A., Pasalu, I. C. and Mathur, K. C. (1982) Evaluation of plant products as grain protectants in paddy storage. Int. J. Entomol. 1, 7577.Google Scholar
Saxena, R. C. (1985) Neem the pesticide tree. International Exchange News 30, 910.Google Scholar
Saxena, R. C. (1986) A new plant extract to suppress the population build-up of Tribolium castaneum (Herbst.). Proc. 3rd Int. Working Conf. on Stored Prod. Ent. Oct. 23–28, 1983 pp. 209212.Google Scholar
Saxena, R. C. (1989) Insecticides from neem. In Insecticides of Plant Origin (Edited by Armasson, T., Philogene, B. T. R. and Morand, P.), pp. 110135. ACS Symposium Series No. 387, Washington, D. C.CrossRefGoogle Scholar
Sowunmi, O. and Adesuyi, S. A. (1984) Storage losses in tropical stored products caused by insect pests. Rep. Niger. Stored Prod. Res. Inst., (1981) pp. 103111.Google Scholar
Strong, R. G., Partida, G. J. and Warner, D. N. (1968) Rearing stored product insects for laboratory studies: Six species of moths. J. econ. Entomol. 61, 12371249.Google Scholar
Taylor, T. A. (1977) Effects of orange and grapefruit peels on Callosobruchus maculatus infestation of cowpea. Ghana J. Agric. Sci. 8, 169172.Google Scholar
WASPRU (1958) Groundnuts. Annual Rep. W. Afr. Stored Prod. Res. Unit pp. 1946.Google Scholar
WASPRU (1960) A study of populations of Tribolium spp. and moth in groundnut pyramids at Kano. Tech. Rep. No. 4, Rep. W. Afr. Stored Prod. Res. Unit. pp. 3134.Google Scholar
Zettler, J. L. (1982) Insecticide resistance in selected stored product insects infesting peanuts in the South Eastern United States. J. econ. Entomol. 75, 359362.CrossRefGoogle Scholar