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Effect of agroecosystem diversity on natural enemies of maize stemborers in coastal Kenya

Published online by Cambridge University Press:  28 February 2007

C.A.O. Midega*
Affiliation:
International Centre of Insect Physiology and Ecology (ICIPE), PO Box 30772, Nairobi, Kenya Department of Zoology, Kenyatta University, PO Box 43844, Nairobi, Kenya
C.K.P.O. Ogol
Affiliation:
Department of Zoology, Kenyatta University, PO Box 43844, Nairobi, Kenya
W.A. Overholt
Affiliation:
Indian River Research and Education Centre, University of Florida, 2199 South Rock Road, Fort Pierce, FL 34945, USA
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Abstract

A study was conducted at Mtwapa in the northern coastal area of Kenya during the long and short rainy seasons of 1999 and 2000 to assess the benefits of agroecosystem diversification—through agroforestry and intercropping—on the activity of natural enemies of maize stemborers. Treatments consisted of maize and cowpea intercrops or maize monocrops planted within hedgerows of Leucaena leucocephala and Gliricidia sepium. The plots were mulched or unmulched and insecticide-treated or not. The maize stemborers encountered, in order of abundance, were Chilo partellus, Chilo orichalcociliellus and Sesamia calamistis. The egg parasitoids Trichogramma spp. and Telenomus spp. were recovered from stemborer eggs. Ants, ladybird beetles, earwigs and crab spiders were found predating on the eggs. The larval parasitoids recovered included Cotesia sesamiae, Cotesia flavipes and Goniozus indicus, and the pupal parasitoid was Pediobius furvus. Mean rates of stemborer egg parasitism were generally high (>70%) while larval and pupal parasitism rates were low (<10%) for all the treatments. The observed rates of parasitism did not support the natural enemies hypothesis, which predicts that natural enemy activity increases with increasing agroecosystem diversity. Predation, larval and pupal mortality rates were generally low in all the treatments (<10%), with no significant differences between treatments.

Type
Research Article
Copyright
Copyright © ICIPE 2004

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References

Altieri, M. A. & Letourneau, D. K. (1982) Vegetational management and biological control in agroecosytems. Crop Prot. 1, 402404.CrossRefGoogle Scholar
Altieri, M. A., Lewis, W. J., Nordlund, D. A., Gueldner, R. C. & Todd, J. W. (1981) Chemical interactions between plants and Trichogramma sp. wasps in Georgia soybean fields. Prot. Ecol. 3, 259263.Google Scholar
Andow, D. A. (1991) Vegetational diversity and arthropod population response. Annu. Rev. Entomol. 36, 561586.CrossRefGoogle Scholar
Bonhof, M. J. (2000) The impact of predators of maize stemborers in coastal Kenya. PhD dissertation, Wageningen Agricultural University, The Netherlands, 181 pp.Google Scholar
Hoekstra, N. & Kfir, R. (1997) Microbial pathogens of the cereal stemborers Busseola fusca (Fuller) and Chilo partellus (Swinhoe) (Lepidoptera: Pyralidae) in South Africa. Afr. Entomol. 5, 161163.Google Scholar
Kfir, R. (1997) Competitive displacement of Busseola fusca (Lepidoptera: Noctuidae) by Chilo partellus (Lepidoptera: Crambidae). Ann. Entomol. Soc. Am. 90, 620624.CrossRefGoogle Scholar
Kfir, R., Overholt, W. A., Khan, Z. R. & Polaszek, A. (2002) Biology and management of economically important lepidopteran cereal stemborers in Africa. Annu. Rev. Entomol. 47, 701731.CrossRefGoogle Scholar
Khan, Z. R., Ampong-Nyarko, K., Chilishwa, P., Hassanali, A., Kimani, S., Lwande, W., Overholt, W. A., Pickett, J. A., Smart, L. E., Wadhams, L. J. & Woodcock, C. M. (1997) Intercropping increases parasitism of pests. Nature 388, 631632.CrossRefGoogle Scholar
Khan, Z. R., Pickett, J. A., van den, Berg J., Wadhams, L. J. & Woodcock, C. M. (2000) Exploiting chemical ecology and species diversity: stemborer and striga control for maize and sorghum in Africa. Pest Manage. Sci. 56, 957962.3.0.CO;2-T>CrossRefGoogle Scholar
Khan, Z. R., Pickett, J. A., Wadhams, L. J. & Muyekho, F. (2001) Habitat management strategies for the control of cereal stemborers and striga in maize in Kenya. Insect Sci. Applic. 21, 375380.Google Scholar
Mathez, F. C. (1972) Chilo partellus Swinhoe (Lepidoptera: Crambidae) C. orichalcociliellus Strand (Lepidoptera: Crambidae) and Sesamia calamistis Hampson (Lepidoptera: Noctuidae) on maize in the coast province, Kenya. Mitt. Schewizer. Entomol. G. 45, 267289.Google Scholar
Midega, A. C. O. & Khan, Z. R. (2003) Impact of a habitat management system on diversity and abundance of maize stemborer predators in western Kenya. Insect Sci. Applic. 23, 301308.Google Scholar
Nordland, D. A., Chalfant, R. B. & Lewis, W. J. (1984) Arthropod populations, yield and damage in monocultures and polycultures of corn, beans and tomatoes. Agric. Ecosyst. Environ. 11, 353367.CrossRefGoogle Scholar
Nordland, D. A., Lewis, W. J. & Altieri, M. A. (1988) Influences of plant produced allelochemicals on the host and prey selection behaviour of entomophagous insects, In Novel Aspects of Insect–Plant Interactions, (Edited by Barbosa, P., Letourneau, D. K.) Wiley New York.Google Scholar
Ogol, C. K. P. O., Spence, J. R. & Keddie, A. (1998) Natural enemy abundance and activity in a maize-leucaena agroforestry system in Kenya. Environ. Entomol. 27, 14441451.CrossRefGoogle Scholar
Oloo, G. W. (1989) The role of local natural enemies in population dynamics of Chilo partellus (Swinhoe) (Crambidae) under subsistence farming systems in Kenya. Insect Sci. Applic. 10, 243251.Google Scholar
Overholt, W. A. (1998) Biological control, pp. 349362. In African Cereal Stemborers: Economic Importance, Taxonomy, Natural Enemies and Control (Edited by Polaszek, A.). Oxon CAB International, Wallingford.Google Scholar
Pavuk, D. M. & Barret, G. W. (1993) Influence of successional and grassy corridors on parasitism of Plathypena scabra (F.) (Lepidoptera: Noctuidae) larvae in soybean agroecosystems. Environ. Entomol. 22, 541546.CrossRefGoogle Scholar
Perrin, R. M. (1977) Pest management in multiple cropping systems. Agro-ecosystems 3, 93118.CrossRefGoogle Scholar
Perrin, R. M. (1980) The role of environment diversity in crop protection. Prot. Ecol. 2, 77114.Google Scholar
Pollard, E. (1971) Hedges Vl. Habitat diversity and crop pests: a study of Brevicoryne brassicae and its syrphid predators. J. Appl. Ecol. 5, 109123.CrossRefGoogle Scholar
Risch, S. J. (1983) Intercropping as a cultural pest control: prospects and limitations. Environ. Manage. 7, 914.CrossRefGoogle Scholar
Risch, S. J., Andow, D. & Altieri, M. A. (1983) Agroecosystem diversity and pest control: data, tentative conclusions and new research directions. Environ. Entomol. 12, 625629.CrossRefGoogle Scholar
Root, R. B. (1973) Organisation of plant–arthropod association in simple and diverse habitats: the fauna of collards ( Brassica oleraceae ). Ecol. Monogr. 43, 95124.CrossRefGoogle Scholar
Russel, E. P. (1989) Enemies hypothesis: a review of the effect of vegetational diversity on predatory insects and parasitoids. Environ. Entomol. 18, 590599.CrossRefGoogle Scholar
SAS Institute (2001) SAS user's guide Statistics, version 8 ed Cary, North Carolina SAS Institute.Google Scholar
Seshu Reddy, K. V. & Walker, P. T. (1990) A review of the yield losses in graminaceous crops caused by Chilo spp. Insect Sci. Applic. 11, 563569.Google Scholar
Sheehan, W. (1986) Response by specialist and generalist natural enemies to agroecosystem diversification: a selective review. Environ. Entomol. 15, 456461.CrossRefGoogle Scholar
Skövgard, H. & Päts, P. (1996) Effects of intercropping on maize stemborers and their natural enemies. Bull. Ent. Res. 86, 599607.CrossRefGoogle Scholar
Tams, W. H. T. (1932) New species of African Heterocera. Entomologist 65, 12411249.Google Scholar
Van den Berg, J., Nur, A. F. & Polaszek, A. (1998) Cultural control, pp. 333347. In African Cereal Stemborers: Economic Importance, Taxonomy, Natural Enemies and Control (Edited by Polaszek, A.). Oxon CAB International, Wallingford.Google Scholar
Williams, C. E., Pavuk, D. M., Taylor, D. H. & Martin, T. H. (1995) Parasitism and disease incidence in the green cloverworm (Lepidoptera: Noctuidae) in strip-intercropped soybean agroecosystems. Environ. Entomol. 24, 253260.CrossRefGoogle Scholar
Youdeowei, A. (1989) Major arthropod pests of food and industrial crops of Africa and their economic importance, pp. 3150. In Biological Control: A Sustainable Solution to Crop Pest Problems in Africa (Edited by Yaninek, J. S. & Herren, H. R.). Ibadan, Nigeria, IITA.Google Scholar
Zhou, G., Overholt, W. A. & Kimani-Njogu, S. W. (2003) Species richness and parasitism in an assemblage of parasitoids attacking maize stemborers in coastal Kenya. Ecol. Entomol. 28, 109118.CrossRefGoogle Scholar