Hostname: page-component-586b7cd67f-g8jcs Total loading time: 0 Render date: 2024-11-28T23:05:28.462Z Has data issue: false hasContentIssue false
  • English
  • Français

Adult resting sites as a target for chemical control of the cocoa pod borer, Conopomorpha cramerella (Lepidoptera: Gracillariidae), in Malaysia

Published online by Cambridge University Press:  10 July 2009

Roger K. Day ,
John D. Mumford  and
Ho Shui Hing
Roger K. Day*
Affiliation:
Silwood Centre for Pest Management, Imperial College at Silwood Park, Berkshire, UK
John D. Mumford
Affiliation:
Silwood Centre for Pest Management, Imperial College at Silwood Park, Berkshire, UK
Ho Shui Hing
Affiliation:
Scientific Department, BAL Plantations Sdn. Bhd., Sabah, Malaysia
*
Dr R.K. Day, International Institute of Biological Control, PO Box 76520, Nairobi, Kenya.
Get access Rights & Permissions [Opens in a new window]

Abstract

The daytime resting sites of adult Conopomorpha cramerella (Snellen), a serious pest of cocoa in south-east Asia, were identified as a possible target to which insecticide could be selectively applied. Field observations were made on 126 resting moths in a cocoa plantation in East Malaysia. All moths were found on the undersides of branches 45° or less from horizontal, and 1·5 cm or more in diameter; 90% were found in the lower half of trees. A field trial was conducted in which 25 ppm deltamethrin was applied with knapsack sprayers to these sites. Five applications were made at ten day intervals, each crop season (6 months), over a two year period. Mean estimated losses in the sprayed area were 12.1 to 33.7 percentage points lower than in the control area, giving an estimated net benefit of up to RM978 ha in one season, assuming a cocoa price of RM4000 per tonne. Losses in the sprayed area still ranged from 7.0% to 43·1% and did not decline over successive seasons. There was some evidence for immigration into the sprayed area, but it is suggested the rapid recovery of populations following spraying is also due to the high potential rate of increase of the insect in susceptible cocoa varieties. In susceptible cocoa varieties control is always likely to be difficult, but in less susceptible varieties, and with well maintained trees, chemical control by selective application to adult resting sites can be a practical component of integrated control.

Type
Research Article
Information
Bulletin of Entomological Research , Volume 85 , Issue 1 , March 1995 , pp. 45 - 52
Copyright
Copyright © Cambridge University Press 1995

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Coffee, R.A. (1979) Electrodynamic energy–a new approach to pesticide application. Proceedings,1979 British Crop Protection Conference-Pests and Diseases 1979, 787789.Google Scholar
Conway, G.R. (1971) Pests of cocoa in Sabah and their control.125 pp. Kota Kinabalu, Kementerian Pertanian dan Perikanan Sabah (Malaysia).Google Scholar
Day, R.K. (1981) EMPA cocoa pod borer project 1st quarterly report, June 1981. (Obtainable from East Malaysia Planters Association, P.O. Box 648, 90008 Sandakan, Sabah, Malaysia).Google Scholar
Day, R.K. (1982) EMPA cocoa pod borer project 4th quarterly report, March 1982. (Obtainable from East Malaysia Planters Association, P.O. Box 648, 90008 Sandakan, Sabah, Malaysia).Google Scholar
Day, R.K. (1983) Progress towards an integrated control programme for the cocoa pod borer Acrocercops cramerella(Snellen) in Sabah. MAPPS Newsletter 7 (Supplement), 67.Google Scholar
Day, R.K. (1985) Control of the cocoa pod borer (Conopomorpha cramerella).PhD thesis, University of London.Google Scholar
Day, R.K. (1989) Effect of the cocoa pod borer, Conopomorpha cramerella, on cocoa yield and quality in Sabah, Malaysia. Crop Protection 8, 332339.CrossRefGoogle Scholar
Eloja, A.L. & Gandia, I.M. (1964) Progress report on the control of cacao pod borer Acrocercops cramerella Sn., with insecticides. Philippines Journal of Agriculture 27, 97—103.Google Scholar
Giesberger, G. (1983) Biological control of the Helopeltis pest of cocoa in Java. Archives of Cocoa Research 2, 91—180.Google Scholar
Ho, S.H., Beevor, P.S. & Mumford, J.D. (1987) A practical approach to the control of the cocoa pod borer moth using synthetic sex pheromone in an integrated system, pp. 5368 in Ooi, P.A.C., Chan, L.G., Khoo, K.C., Teoh, C.H., Md, Jusoh M., Ho, C.T. & Lim, G.S. (Eds) Management of the cocoa pod borer. Kuala Lumpur. Malaysian Plant Protection Society.Google Scholar
Johney, K.V., Teo, H.T. & Ng, K.Y. (1986) Evaluation of synthetic pyrethroid for the control of the cocoa podborer, Conopomorpha cramerella Snellen (Lepidoptera: Gracillariidae). pp. 390394in 2nd International Conference of Plant Protection in the Tropics (Extended Abstracts). Kuala Lumpur, Malaysian Plant Protection Society.Google Scholar
Laoh, J.P. (1954) De bestrijding van Acrocercops cramerella in cacao. Bergcultures 23, 6776.Google Scholar
Lim, G.T. & Sim, C.H. (1982) Major insect pests of cocoa in Sabah. Preprint pp. 19Cocoa research seminar for State Department of Agriculture, Quoin Hill, Tawau.Google Scholar
Lim, G.T., Tay, E.B., Pang, T.C. & Pan, K.Y. (1982) The biology of the cocoa pod borer Conopomorpha cramerella Snellen and its control in Sabah, Malaysia, pp. 275287in Proceedings International Conference of Plant Protection in the Tropics. Kuala Lumpur, Malaysian Plant Protection Society.Google Scholar
Mumford, J.D. (1986) Control of the cocoa pod borer (Acrocercops cramerella): a critical review, pp. 277286in Pushparajah, E. & Chew, P.S.(Eds) Cocoa and coconuts, progress and outlook. Kuala Lumpur, Incorporated Society of Planters.Google Scholar
Sidhu, M.S. (1984) Preliminary investigations into the chemical control of the cocoa moth pod borer Conopomorpha cramerellaSnellen, in Sabah. Planter 60, 228242.Google Scholar
Sidhu, M.S. (1985) Management of the cocoa pod borer with selective branch and pod spraying in smallholdings in Sabah. Journal of Plant Protection in the Tropics 2, 18.Google Scholar
Sidhu, M.S., Lim, R.K.H. & Lee, S.L. (1983) A preliminary investigation into the efficacy of insecticides and their selective application against the cocoa moth Conopomorpha cramerella Snell., in Sabah. MAPPS Newsletter 7, 56.Google Scholar
Sidhu, M.S., Sim, C.H. & Johney, K.V. (1987) Practical aspects of chemical spraying for cocoa pod borer management in Sabah. pp. 1940in Ooi, P.A.C., Chan, L.G., Khoo, K.C., Teoh, C.H., Md, Jusoh M., Ho, C.T. & Lim, G.S. (Eds) Management of the cocoa pod borer. Kuala Lumpur, Malaysian Plant Protection Society.Google Scholar
Sim, C.H. (1986) An investigation on the chemical control of the cocoa pod borer (Conopomorpha cramerella Snellen). pp. 121122in 2nd International Conference of Plant Protection in the Tropics (Extended Abstracts).Kuala Lumpur,Malaysian Plant Protection Society,.Google Scholar
Vanialingam, T., Easaw, P.T., Irshad, M., Manalo, J. & Cruz, P. (1981) Early work in the control of the cocoa pod borer (Acrocercops cramerella)in the Philippines, pp. 345351in Proceedings of the International Cocoa Research Conference.Lagos,Cocoa Producers' Alliance.Google Scholar
Wardojo, S. (1980) The cocoa pod borer–a major hindrance to cocoa development. Indonesian Agricultural Research & Development Journal 2, 14.Google Scholar
Wood, B.J. (1987) Prospects for the management of cocoa pod borer in Malaysia, pp. 139165in Ooi, P.A.C., Chan, L.G., Khoo, K.C., Teoh, C.H., Md, Jusoh M., Ho, C.T. & Lim, G.S. (Eds) Management of the cocoa pod borer. Kuala Lumpur, Malaysian Plant Protection Society.Google Scholar