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Potential of microorganisms for locust and grasshopper control

Published online by Cambridge University Press:  19 September 2011

M. O. Odindo
Affiliation:
The International Centre of Insect Physiology and Ecology (ICIPE), Mbita Point Field Station, P. O. Box 30, Mbita, Kenya
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Abstract

Entomopathogens have been isolated and developed for the control of various lepidopteran, coleopteran, dipteran, hymenopteran, homopteran, and even acarine pests. Among the orthopteran pests, the acridid defoliators are important in Africa, and the periodic outbreaks of the desert locust, Schistocerca gregaria; red locust, Nomadacris septemfasciata;migratory locust, Locusta migratoria migratorioides and brown locust, Locustana pardalina; as well as numerous grasshoppers, cause extensive crop losses. Laboratory and field tests carried out on control of locusts and grasshoppers using microorganisms have shown that there are key candidates which could be used for the management of these acridid pests.

Résumé

Les microorganismes pathogènes d'insectes ont été isolés et développés pour lutter centre divers lépidoptères, coléoptères, diptères, hyménoptères, homoptères et acariens. Parmi les orthoptères nuisibles, les acridiens défoliateurs se manifestent en importance en Afrique. Les invasions périodiques du criquet pélerin, Schistocerca gregaria; du criquet nomade, Nomadacris septemfasciata; du criquet migrateur, Locusta migratoria migratoriodes; du criquet brun, Locustana pardalina, et celles de nombreux sauteriaux, causent d'importantes pertes agricoles. Des essais conduits au laboratoire et au champ pour lutter contre les criquets et les sauteriaux à l'aide des microorganismes pathogènes d'insectes, montrent que ces derniers sont des candidate essentiels dans la lutte contre ces acridiens.

Type
Part II: Symposium on Insect Pests and Sustainable Food Production: Pest Management, Strategies and Practices
Copyright
Copyright © ICIPE 1991

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References

REFERENCES

Baker, G. L. (1982) The seasonal abundance of dipterous and mermithid parasites of wingless grasshopper Phaulacridium vittatum (Sjostedt), in the Central Tablelands of New South Wales. In Proc. 3rd Australian Conf. Grass. Invert. Ecol. (Edited by Lee, K. F.), pp. 169176. 30 N0V.–4 Dec. 1981. Adelaide, Australia.Google Scholar
Balfour-Browne, F. L. (1960) The green muscardine disease of insects with special reference to an epidemic in a swarm of locusts in Eritrea. Proc. R. entomol. Soc. London (A) 35, 6574.Google Scholar
Bensimon, A., Zinger, S., Gerassi, E., Hauschner, A., Harpaz, I. and Sela, J. (1987) “Dark cheeks” a lethal disease of locust provoked by a lepidopterous baculovirus. J. Invertebr. Pathol. 50, 254260.CrossRefGoogle Scholar
Briand, L. J. and Rivard, I. (1964) Observations sur Mermis subnigrescens Cobb (Mermithidae), nematode parasite des criquets au Quebec. Phytoprotection 45, 7376.Google Scholar
Bucher, G. E. (1959) The bacterium Coccobacillus acridiorum d'Herelle: Its taxonomic position and status as a pathogen of locusts and grasshoppers. J. Insect Pathol. 1, 331335.Google Scholar
Bucher, G. E. (1963) Non-sporulating pathogens. In Insect Pathology: An Advanced Treatise, Vol. 2 (Edited by Steinhaus, E. A.), pp. 117147. Acad. Press, New York.Google Scholar
Canning, E. U. (1953) A new microsporidian Nosema locustae n. sp. from the fat body of the African migratory locust, Locusta migratoria migratoriodes R. and F. Parasitology 43, 287290.CrossRefGoogle Scholar
Christie, J. R. (1937) Mermis subnigrescens, a nematode parasite of grasshoppers. J. Agric. Res. 55, 353364.Google Scholar
Cobb, N. A., Steiner, G. and Christie, J. R. (1923) Agamermis decaudata Cobb, Steiner and Christie. A nema parasite of grasshoppers and other insects. J. Agric. Res. 23, 921926.Google Scholar
de Pury, J. M. S. (1968) Crop Pests of Africa. Oxford Univ. Press, Nairobi, Kenya.Google Scholar
Erlandson, M. A., Johnson, D. L. and Olfert, O. O. (1988) Entomophthora grylli (Fresenius) infections in grasshopper (Orthoptera: Acrididae) populations in Saskatchewan and Alberta 1985–1986. Can. Entomol. 120, 205209.CrossRefGoogle Scholar
Farrow, R. A. (1989) Prospects for biological control of locusts and grasshoppers. 1st Asia/Pacific Conference of Entomology, Chiangmai 8–13 Nov., 1989.Google Scholar
Glaser, R. W. and Wilcox, L. A. M. (1918) On the occurrence of a Mermis epidemic among grasshoppers. Psyche 25, 1215.Google Scholar
Henry, J. E. (1968) Malamoeba locustae and its antibiotic control in grasshopper cultures. J. Invertebr. Pathol. 11, 224233.Google Scholar
Henry, J. E. (1977) Development of microbial agents for the control of Acrididae. Rev. Soc. Entomol. Argentina 36, 125134.Google Scholar
Henry, J. E. (1981) Natural and applied control of insects by Protozoa. Annu. Rev. Entomol. 26, 4973.Google Scholar
Henry, E. A. and Jutila, J. W. (1966) The isolation of a polyhedrosis virus from a grasshopper. J. Invertebr. Pathol. 8, 417418.Google Scholar
Henry, J. E. and Oma, E. A. (1974) Effect of prolonged storage of spores on field applications of Nosema locustae, (Microsporida: Nosematidae) against grasshoppers. J. Invertebr. Pathol. 23, 271277.CrossRefGoogle ScholarPubMed
Henry, J. E. and Oma, E. A. (1981) Pest control by Nosema locustae, a pathogen of grasshoppers and crickets. In Microbial Control of Pests and Plant Diseases (1970–1980) (Edited by Burges, H. D.), pp. 573586. Acad. Press, NY.Google Scholar
Henry, J. E., Nelson, B. P. and Jutila, J. W. (1969) Pathology and development of the grasshopper inclusion body virus in Melanoplus sanguinipes. J. Virol. 3, 605610.Google Scholar
Henry, J. E., Tiahrt, K. and Oma, E. A. (1973) Importance of timing spore concentrations and spore carrier levels in application of Nosema locustae (Microsporida: Nosematidae) for control of grasshopper. J. Invertebr. Pathol. 21, 263272.CrossRefGoogle Scholar
Henry, J. E., Fowler, J. L., Wilson, M. C. and Onsager, J. A. (1985) Infection of West African grasshoppers with Nosema locustae Canning (Protozoa: Microsporida: Nosematidae). Trop. Pest Manage. 31, 144147.Google Scholar
Henry, J. E., Wilson, M. C., Oma, E. A. and Fowler, J. E. (1985) Pathogenic microorganisms isolated from West African grasshoppers (Orthoptera, Acrididae). Trop. Pest Manage. 31, 192195.Google Scholar
Johnson, D. L. (1989) The effects of timing and frequency of application of Nosema locustae (Microspora: Microsporida) on the infection rate and activity of grasshoppers (Orthoptera:Acrididae). J. Invertebr. Pathol. 54, 353362.Google Scholar
Johnson, D. L., Huang, H. C. and Harper, A. M. (1988) Mortality of grasshoppers (Orthoptera:Acrididae) inoculated with a Canadian isolate of the fungus Verticilium lecanii. J. Invertebr. Pathol. 52, 335342.Google Scholar
Langridge, W. H. R., Oma, E. and Henry, J. E. (1983) Characterization of the DNA and structural proteins of entomopox viruses from Melanoplus sanguinipes, Arphia conspirsa (Orthoptera). J. Invertebr. Pathol. 42, 327333.Google Scholar
Le Pelley, R. (1952) Note on damage to grazing by grasshoppers in Kenya. Bull. entomol. Res. 43, 7981.Google Scholar
Marcandier, S. and Khachatourians, G. G. (1987) Susceptibility of the migratory grasshopper Melanoplus sanguinipes (Fab.) (Orthoptera: Acrididae) to Beauveria bassiana Bals. Vuillemin (Hyphomycete): Influence of relative humidity. Can. Entomol. 119, 901907.Google Scholar
McCoy, C. W., Beavers, G. M. and Tarrant, C. A. (1985) Susceptibility of Artipus floridanus to different isolates of Beauveria bassiana. Fla. Entomol. 3, 402409.Google Scholar
Moore, K. C. and Erlandson, M. A. (1988) Isolation of Aspergillus parasiticus Speare and Beauveria bassiana (Bals.) Vuillemin from melanopline grasshoppers (Orthoptera: Acrididae) and demonstration of their pathogenicity in Melanoplus sanguinipes (Fabricius). Can. Entomol. 120, 989991.Google Scholar
Mussgnug, G. M. and Henry, J. E. (1979) Compatibility of malathion and Nosema locustae Canning in Melanoplus sanguinipes F. Acrida 8, 7791.Google Scholar
Odindo, M. O. (1983) Epizootiological observations on a nuclear polyhedrosis of the African armyworm Spodoptera exempta (Walk). Insect Sci. Applic. 4, 241298.Google Scholar
Odindo, M. O. (1991) Management of cereal stem borers, especially Chilo partellus, using microsporidia. Insect Sci. Applic. 12, 5155.Google Scholar
Onsager, J. A., Henry, J. E., Foster, R. N. and Staten, R.T. (1980) Acceptance of wheat bran bait by species of rangeland grasshoppers. J. econ. Entomol. 73, 548551.Google Scholar
Papillon, M. and Cassier, P. (1978) Perturbations morphologiques et physiologiques dues a la presence du protozoaire parasite Malamoeba locustae (K et T.) chez Schistocerca gregaria (Forsk.). Acrida 7, 101114.Google Scholar
Pickford, R. and Riegert, P. W. (1964) The fungus disease caused by Entomophthora grylli Fres. and its effects on grasshopper populations in Saskatchewan in 1963. Can. Entomol. 96, 158169.CrossRefGoogle Scholar
Robertson, I. A. D. (1967) Field records of saltatorial Orthoptera collected in western Tanzania. Proc. R. entomol. Soc. London (A) 42, 17.Google Scholar
Srivastava, Y. N. and Bhanotar, R. K. (1985) Susceptibility and bioassay of Nosema locustae Canning against adults of desert locust Schistocerca gregaria (Forskal). Indian J. Entomol. 47, 295299.Google Scholar
Srivastava, Y. N. and Bhanotar, R. K. (1986a) Laboratory studies on effect of protozoan pathogen Nosema locustae Canning against eggs and hoppers of desert locust. Indian J. Entomol. 48, 420427.Google Scholar
Srivastava, Y. N. and Bhanotar, R. K. (1986b) Effect of Nosema locustae Canning on the behaviour and physiology of desert locust Schistocerca gregaria (Forskal). Indian J. Entomol. 48, 1622.Google Scholar
Steinhaus, E. A. (1959) Serratia marcescens Bizio as an insect pathogen. Hilgardia 28, 351380.Google Scholar
Taylor, A. B. and King, R. L. (1937) Further studies on the parasitic amoeba found in grasshoppers. Trans. Ann. Microscop. Soc. 56, 172176.Google Scholar
Veen, K. H. (1966) Oral infection of second-instar nymphs of Schistocerca gregaria by Metarrhizium anisopliae. J. Invertebr. Pathol. 8, 255256.Google Scholar
Veen, K. H. (1968) Recherches sur la maladie, due a Metarrhizium anisopliae, chez le criquet pelerin. Madedel. Landbouwhogeschool Wageningen 68, 177.Google Scholar
Venter, I. G. (1966) Egg development in the brown locust Locustana pardalina Walker, with special reference to the effects of infestation by Malamoeba locustae. S. Afr. J. Agric. Sci. 9, 429434.Google Scholar