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CONTROL OF GRASSHOPPERS, PARTICULARLY HIEROGLYPHUS DAGANENSIS, IN NORTHERN BENIN USING METARHIZIUM FLAVOVIRIDE

Published online by Cambridge University Press:  31 May 2012

C.J. Lomer ,
M.B. Thomas ,
O.-K. Douro-Kpindou ,
C. Gbongboui ,
I. Godonou ,
J. Langewald  and
P.A. Shah
C.J. Lomer
Affiliation:
LUBILOSA (The IIBC/IITA/DFPV collaborative research programme on the biological control of locusts and grasshoppers), International Institute of Tropical Agriculture, B.P. 08-0932, Cotonou, Benin
M.B. Thomas
Affiliation:
LUBILOSA (The IIBC/IITA/DFPV collaborative research programme on the biological control of locusts and grasshoppers), International Institute of Tropical Agriculture, B.P. 08-0932, Cotonou, Benin
O.-K. Douro-Kpindou
Affiliation:
LUBILOSA (The IIBC/IITA/DFPV collaborative research programme on the biological control of locusts and grasshoppers), International Institute of Tropical Agriculture, B.P. 08-0932, Cotonou, Benin
C. Gbongboui
Affiliation:
LUBILOSA (The IIBC/IITA/DFPV collaborative research programme on the biological control of locusts and grasshoppers), International Institute of Tropical Agriculture, B.P. 08-0932, Cotonou, Benin
I. Godonou
Affiliation:
LUBILOSA (The IIBC/IITA/DFPV collaborative research programme on the biological control of locusts and grasshoppers), International Institute of Tropical Agriculture, B.P. 08-0932, Cotonou, Benin
J. Langewald
Affiliation:
LUBILOSA (The IIBC/IITA/DFPV collaborative research programme on the biological control of locusts and grasshoppers), International Institute of Tropical Agriculture, B.P. 08-0932, Cotonou, Benin
P.A. Shah
Affiliation:
LUBILOSA (The IIBC/IITA/DFPV collaborative research programme on the biological control of locusts and grasshoppers), International Institute of Tropical Agriculture, B.P. 08-0932, Cotonou, Benin
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Abstract

Trials on the use of Metarhizium flavoviride Gams and Roszypal conidia in oil-based formulation for the control of grasshoppers, particularly Hieroglyphus daganensis Krauss, in Malanville, north Benin, are described. Preliminary work examined sprayer types, application rate, and time of application. In a trial on 4-ha plots with three replicates, M. flavoviride mycoinsecticide application to H. daganensis nymphs resulted in field population reductions of 70% after 14 days. In samples incubated in cages, mortality was higher in the samples taken 3 or 7 days after application than in the sample taken immediately after application, indicating the possibility of residual pick-up compared with direct spray impact in this environment. Significant mortality was still being observed in samples collected 37 days after application; to investigate this further, a method for bioassaying the spore load in the field was developed and used to monitor the spore load in the field. The possibility that the results indicate the occurrence of secondary infections resulting from horizontal transmission of M. flavoviride is discussed.

Résumé

Sont ici décrits des essais mis en place à Malanville, dans le nord du Bénin, en utilisant des conidies de Metarhizium flavoviride Gams et Roszypal en formulations huileuses pour combattre des criquets, en particulier Hieroglyphus daganensis Krauss. Des essais préliminaires ont étudier les types de pulvérisateur, les doses appliqués et le temps d'application. Dans un essai mis en place sur des parcelles de 4 ha avec trois répétitions, l'application du mycoinsecticide à base de M. flavoviride sur des larves de H. daganensis a entraîné la mort d'environ 70% de ces larves au bout de 14 jours en plein champ. Dans les échantillons d'insectes en cage, le taux de mortalité était plus élevé dans les échantillons prélevés 3 ou 7 jours après l'application que dans l'échantillon prélevé immédiatement après le traitement, ce qui indique l'importance de la contamination résiduelle par rapport à la contamination directe dans cet environnement. Le mortalité des criquets fut encore significatif 37 après application; une méthode d'évaluation biologique de la quantité de spores présente dans le champ a été conçue et utilisée pour surveiller les spores libérées par les insectes infectés. Cette technique a montré le possibilité des infections secondaires survenant à la suite d'une transmission horizontale de M. flavoviride.

Type
Research Article
Information
The Memoirs of the Entomological Society of Canada , Volume 129 , Supplement S171 , 1997 , pp. 301 - 311
Copyright
Copyright © Entomological Society of Canada 1997

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Footnotes

1

Formerly at CABI International Institute of Biological Control, Silwood Park, Ascot, Berkshire, UK.

2

leverhulme Unit for Population Biology and Biological Control, NERC Centre for Population Biology, Imperial College at Silwood Park, Ascot, Berkshire, UK.

1

Current address: Institute of Microbiology, Swiss Federal Institute of Technology, LFV E14, ETH-ZENTRUM, CH-8092 Zurich, Switzerland.

References

Bateman, R.P. 1992. Controlled droplet application of mycopesticides to locusts, pp. 249–254 in Lomer, C.J., and Prior, C. (Eds.), Biological Control of Locusts and Grasshoppers. Proceedings of a workshop held at the International Institute of Tropical Agriculture, Cotonou, Republic of Benin, 29 April–1 May 1991. CAB International, Wallingford, UK. 394 pp.Google Scholar
Bateman, R.P. 1997. Methods of application of microbial pesticide formulations for the control of grasshoppers and locusts, pp. 69–81 in Goettel, M.S., and Johnson, D.L. (Eds.), Microbial Control of Grasshoppers and Locusts. Memoirs of the Entomological Society of Canada 171: 400 pp.Google Scholar
Bateman, R.P., Carey, M., Moore, D. and Prior, C.. 1993. Oil formulations of entomopathogenic fungi infect desert locusts at low humidities. Annals of Applied Biology 122: 145152.Google Scholar
Coffi, A. 1992. Republic of Benin: The acridid situation in the Republic of Benin, pp. 86–89 in Lomer, C.J., and Prior, C. (Eds.), Biological Control of Locusts and Grasshoppers. Proceedings of a workshop held at the International Institute of Tropical Agriculture, Cotonou, Republic of Benin, 29 April–1 May 1991. CAB International, Wallingford, UK. 394 pp.Google Scholar
Douro-Kpindou, O.K., Godonou, I., Houssou, A., Lomer, C.J. and Shah, P.A.. 1995. Control of Zonocerus variegatus with ULV formulation of Metarhizium flavoviride conidia. Biocontrol Science and Technology 5: 131139.Google Scholar
Douro-Kpindou, O.K., Langewald, J., Lomer, C.J., van der Paauw, H., Shah, P.A. and Sidibé, A.. 1995. Essais sur l'utilisation de biopesticide (Metarhizium flavoviride) pour le contrôle des sauteriaux au Mali de 1992 à 1994. Poster presented at CILSS-UCTR/PV-Projet Acridien (GTZ) International Conference on new strategies in locust control, Bamako (Mali), 3–8 April 1995.Google Scholar
Jaronski, S. and Goettel, M.S.. 1997. Development of Beauveria bassiana for control of grasshoppers and locusts. pp. 225–237 in Goettel, M.S., and Johnson, D.L. (Eds.), Microbial Control of Grasshoppers and Locusts. Memoirs of the Entomological Society of Canada 171: 400 pp.Google Scholar
Jenkins, N.E., and M.S Goettel. 1997. Methods for mass-production of microbial control agents of grasshoppers and locusts, pp. 37–48 in Goettel, M.S., and Johnson, D.L. (Eds.), Microbial Control of Grasshoppers and Locusts. Memoirs of the Entomological Society of Canada 171: 400 pp.Google Scholar
Johnson, D.L. and Goettel, M.S.. 1993. Reduction of grasshopper populations following field application of the fungus Beauveria bassiana. Biocontrol Science and Technology 3: 165175.Google Scholar
Kooyman, C. and Godonou, I. 1997. Infection of Schistocerca gregaria (Orthoptera: Acrididae) hoppers by Metarhizium flavoviride (Deuteromycotina: Hyphomycetes) conidia in an oil formulation applied under desert conditions. Bulletin of Entomological Research. 87: 105107.Google Scholar
Langewald, J., Thomas, M.B., Douro-Kpindou, O-K. and Lomer, C.J. 1997. Use of Metarhizium flavoviride for control of Zonocerus variegatus: A model, linking dispersal and secondary infection from the spray residue with mortality in caged field samples. Entomologia Experimentalis et Applicata. 82: 18.Google Scholar
Lobo-Lima, M.L., Brito, J.M. and Henry, J.E.. 1992. Biological control of grasshoppers in the Cape Verde Islands. pp. 287–295 in Lomer, C.J., and Prior, C. (Eds.), Biological Control of Locusts and Grasshoppers. Proceedings of a workshop held at the International Institute of Tropical Agriculture, Cotonou, Republic of Benin, 29 April–1 May 1991. CAB International, Wallingford, UK. 394 pp.Google Scholar
Lomer, C.J., Bateman, R.P., Godonou, I., Kpindou, D., Shah, P.A., Paraïso, A. and Prior, C.. 1993. Field infection of Zonocerus variegatus following application of an oil-based formulation of Metarhizium flavoviride conidia. Biocontrol Science and Technology 3: 337346.Google Scholar
Lomer, C.J., Prior, C. and Kooyman, C.. 1997. Development of Metarhizium spp. for the control of grasshoppers and locusts, pp. 265–286 in Goettel, M.S., and Johnson, D.L. (Eds.), Microbial Control of Grasshoppers and Locusts. Memoirs of the Entomological Society of Canada 171: 400 pp.Google Scholar
Matthews, G.A. 1979. Pesticide Application Methods. Longman, London. 334 pp.Google Scholar
Mendonça, A.F. 1992. Mass production, application and formulation of Metarhizium anisopliae for control of sugarcane froghopper, Mahanarva posticata in Brazil, pp. 239–244 in Lomer, C.J., and Prior, C. (Eds.), Biological Control of Locusts and Grasshoppers. Proceedings of a workshop held at the International Institute of Tropical Agriculture, Cotonou, Republic of Benin, 29 April–1 May 1991. CAB International, Wallingford, UK. 394 pp.Google Scholar
Moore, D. and Caudwell, R.W.. 1997. Formulation of entomopathogens for the control of grasshoppers and locusts. pp. 49–67 in Goettel, M.S., and Johnson, D.L. (Eds.), Microbial Control of Grasshoppers and Locusts. Memoirs of the Entomological Society of Canada 171: 400 pp.Google Scholar
Shah, P.A. 1995. Field Studies on the Development of Metarhizium flavoviride Gams and Rozsypal as a Microbial Insecticide for Locust and Grasshopper Control. Ph.D. thesis, University of London. 199 pp.Google Scholar
Shah, P.A., Godonou, I., Gbongboui, C. and Lomer, C.J.. 1994. Natural levels of fungal infection in grasshoppers in northern Benin. Biocontrol Science and Technology 4: 331341.Google Scholar
Speare, A.T. 1920. Further studies of Sorosporella uvella, a fungus parasite of noctuid larvae. Journal of Agricultual Research 18: 399447.Google Scholar
SPSS. 1994. SPSS Advanced statistics, ver 6.1. Chicago, IL. 601 pp.Google Scholar
Thomas, M.B., Wood, S.N. and Lomer, C.J.. 1994. Biocontrol of locusts and grasshoppers using a fungal pathogen: The importance of secondary cycling. Transactions of the Royal Society 259: 265270.Google Scholar