Hostname: page-component-586b7cd67f-2brh9 Total loading time: 0 Render date: 2024-11-24T05:46:40.877Z Has data issue: false hasContentIssue false

The cocoa mirid (Hemiptera: Miridae) problem: evidence to support new recommendations on the timing of insecticide application on cocoa in Ghana

Published online by Cambridge University Press:  04 February 2014

Richard Adu-Acheampong*
Affiliation:
Cocoa Research Institute of Ghana, PO Box 8, Tafo-Akim, Ghana
Janice Jiggins
Affiliation:
Chair Group Knowledge, Technology and Innovation, Wageningen University, PO Box 8130, 6700 EW Wageningen, The Netherlands
Arnold van Huis
Affiliation:
Laboratory of Entomology, Wageningen University, PO Box 8031, 6700 EH Wageningen, The Netherlands
Anthony Richmond Cudjoe
Affiliation:
Cocoa Research Institute of Ghana, PO Box 8, Tafo-Akim, Ghana
Victress Johnson
Affiliation:
Cocoa Research Institute of Ghana, PO Box 8, Tafo-Akim, Ghana
Owuraku Sakyi-Dawson
Affiliation:
Department of Agricultural Extension, College of Agriculture and Consumer Sciences, University of Ghana, PO Box 68, Legon, Ghana
Kwasi Ofori-Frimpong
Affiliation:
Cocoa Research Institute of Ghana, PO Box 8, Tafo-Akim, Ghana
Paul Osei-Fosu
Affiliation:
Ghana Standards Authority, PO Box MB 245, Accra, Ghana
Ebenezer Tei-Quartey
Affiliation:
Ghana Cocoa Board, Department of Research, PO Box 933, Accra, Ghana
William Jonfia-Essien
Affiliation:
Quality Control Company Limited, PO Box M54, Accra, Ghana
Michael Owusu-Manu
Affiliation:
Ministry of Finance and Economic Planning, PO Box M40, Accra, Ghana
Maxwell Samuel Nana Karikari Addo
Affiliation:
Quality Control Company Limited, PO Box 57, Dunkwa, Central Region, Ghana
Charles Afari-Mintah
Affiliation:
Kuapa Kokoo Limited, PO Box AN 23044, Kumasi, Ghana
Maxwell Amuzu
Affiliation:
Cocoa Input Company Limited, PO Box C729, Cantoments, Accra, Ghana
Nana Nyarko Eku-X
Affiliation:
Agona Nyakrom Traditional Area, PO Box 6, Agona Nyakrom, Central Region, Ghana
Edward T.N. Quarshie
Affiliation:
Cargill Ghana Limited, Tema Free Zone Enclave, PMB 251, Community 1, Tema, Ghana
*
Get access

Abstract

The government's cocoa spraying gangs in Ghana treat about two million hectares of the crop against black pod disease and mirids, the key insect pests of cocoa in West Africa, each August through to December, based on recommendations issued in the 1950s. A few cocoa farmers use additional pesticides. We studied the temporal distribution of two important mirid species, Distantiella theobroma (Dist.) and Sahlbergella singularis Hagl., in 1991, 1999, 2003 and 2012 to determine the appropriate timing for the application of control measures in current farming systems. There was a significant correlation between mirid abundance and pod availability on trees, as well as the number of basal shoots and the cocoa variety grown. Mirid populations peaked between January and April and from September to October. Surveys (interviews and focus group discussions involving over 300 farmers in 33 cocoa-growing districts) on pesticide use, sources of recommendations, and perceived successes and failures of current cocoa pest treatments suggested that the 1950 recommendations on the timing of insecticide application need revising.

Type
Multi-Institutional Study
Copyright
Copyright © ICIPE 2014 

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

Abankwah, V., Aidoo, R. and Osei, R. K. (2010) Socio-economic impact of government spraying programme on cocoa farmers in Ghana. Journal of Sustainable Development in Africa 12, 116126.Google Scholar
Adu-Acheampong, R. (1997) Evaluation of neem seed extracts for the control of some cocoa mirid species. M Phil thesis, University of Ghana, Legon.66 pp.Google Scholar
Adu-Acheampong, R. (2009) Pathogen diversity and host resistance in dieback disease of cocoa caused by Fusarium decemcellulare and Lasiodiplodia theobromae PhD thesis, Imperial College, London. 192 pp.Google Scholar
Adu-Acheampong, R. and Ackonor, J. B. (2005) The effect of imidacloprid and mixed pirimiphos-methyl and bifenthrin on non-target arthropods of cocoa. Tropical Science 45, 153154.Google Scholar
Adu-Acheampong, R. and Archer, S. (2011) Diversity of fungi associated with mirid (Hemiptera: Miridae) feeding lesions and dieback disease of cocoa in Ghana. International Journal of Agricultural Research 6, 660672.Google Scholar
Adu-Acheampong, R., Archer, S. and Leather, S. (2012) Resistance to dieback disease caused by Fusarium and Lasiodiplodia species in cacao (Theobroma cacao L.) genotypes. Experimental Agriculture, 48, 8598.CrossRefGoogle Scholar
Ayenor, G. K., Röling, N. G., van Huis, A., Padi, B. and Obeng-Ofori, D. (2007) Assessing the effectiveness of a local agricultural research committee in diffusing sustainable cocoa production practices: the case of capsid control in Ghana. International Journal of Agricultural Sustainability 5, 109123.Google Scholar
Baah, F. and Garforth, C. (2008) Insights into cocoa farmers' attitudes in two districts of Ashanti, Ghana. International Journal of Sustainable Development 1, 814.Google Scholar
Bentz, J. A., Reeves, J., Barbosa, P. and Francis, B. (1995) Effect of nitrogen fertilizer source and level on ovipositional choice of poinsettia by Bemisia argentifolii. Journal of Economic Entomology 88, 13881392.Google Scholar
Bouwman, H., Sereda, B. and Meinhardt, H. M. (2006) Simultaneous presence of DDT and pyrethroid residues in human breast milk from a malaria endemic area in South Africa. Environmental Pollution 144, 902917.CrossRefGoogle ScholarPubMed
Collingwood, C. A. and Marchart, H. (1971) Chemical control of capsids and other insect pests in cocoa rehabilitation, pp. 8999. In Proceedings of the 3rd International Cocoa Research Conference, 23–29 November 1969, Accra Ghana. Cocoa Research Institute, Tafo. Cocoa Producers' Alliance, Lagos, Nigeria.Google Scholar
Collingwood, C. A., Marchart, H. and Manteaw, F. K. (1973) Capsid seasonal and annual cycles, pp. 8990. In Annual Report of the Cocoa Research Institute of Ghana 1970–71. Cocoa Research Institute of Ghana.Google Scholar
Crawley, M. J. (2005) Statistics: An Introduction Using R. John Wiley, Chichester.Google Scholar
Crowdy, S. H. (1947) Observations on the pathogenicity of Calonectria rigidiuscula (Berk. & Br.) Sacc. on Theobroma cacao L. Annals of Applied Biology 34, 4559.Google Scholar
Cudjoe, A. R., Adu-Acheampong, R., Dwomoh, E. A. and Nkansah, A. K. (2012) The search for alternatives to conventional insecticides for mirid control on cocoa, In Proceedings of the 17th International Cocoa Research Conference, 15–20 October 2012, Yaoundé, Cameroon (in press).Google Scholar
Dormon, E. N. A. (2006) From a technology focus to innovation development: the management of cocoa pests and diseases in Ghana. PhD thesis, Wageningen University, The Netherlands. 216 pp. ISBN 90-8504-439-1.Google Scholar
Dungeon, G. C. (1910) Notes on two West African Hemiptera injurious to cacao. Bulletin of Entomological Research 1, 5961.CrossRefGoogle Scholar
GAIN [Global Agricultural Information Network] (2012) Ghana Cocoa Report Annual. GAIN Report Number: GH2012. Available at:http://gain.fas.usda.gov/Recent%20GAIN%20Publications/Cocoa%20Report%20Annual_Accra_Ghana_3-15-2012.pdf (accessed accessed 21 October 2012).Google Scholar
Gibbs, D. G. and Leston, D. (1970) Insect phenology in a forest cocoa-farm locality in West Africa. Journal of Applied Ecology 7, 519548.CrossRefGoogle Scholar
Graham, W. M. (1908) Gen. nov. longicornis. Journal of Economic Biology 3, 113.Google Scholar
Johnson, C. G. (1971) The relation between capsid numbers, new damage and the state of the canopy, and its significance in the tactics of control, pp. 190196. In Proceedings of the 3rd International Cocoa Research Conference, 23–29 November 1969, Accra, Ghana. Cocoa Research Institute, Tafo. Cocoa Producers' Alliance, Lagos, Nigeria.Google Scholar
Johnson, C. G., Burge, G. A. and Gibbs, D. G. (1970) Field trials of anti-capsid insecticides on farmers' cocoa in Ghana, 1956–60. 1. Comparing the effects of treatments by assessing subsequent damage. Ghana Journal of Agricultural Sciences 3, 155178.Google Scholar
Lass, T. (2004) Balancing cocoa production and consumption, pp. 815. In Cocoa Futures: A Source Book of Some Important Issues Confronting the Cocoa Industry (Edited by Flood, J. and Murphy, R.). CABI-FEDERACAFE,USDA, Chinchina. CAB International, UK.Google Scholar
Leston, D. (1970) Entomology of the cocoa farm. Annual Review of Entomology 15, 273294.Google Scholar
Manrique, V., Cuda, J. P., Overholt, W. A., Williams, D. A. and Wheeler, G. S. (2008) Effect of host-plant genotypes on the performance of three candidate biological control agents of Schinus terebinthifolius in Florida. Biological Control 47, 167171.Google Scholar
Marchart, H. (1971) Chemical control of cocoa capsids: alternatives to lindane, pp. 173185. In Proceedings of the 3rd International Cocoa Research Conference, 23–29 November 1969, Accra, Ghana. Cocoa Research Institute, Tafo. Cocoa Producers' Alliance, Lagos, Nigeria.Google Scholar
Muir, D. C. G., Teixeira, C. and Wania, F. (2004) Empirical and modelling evidence of regional atmospheric transport of current-use pesticides. Environmental and Toxicological Chemistry 23, 24212432.Google Scholar
Murray, C. J. L. and Lopez, A. D. (1996) The Global Burden of Disease: A Comprehensive Assessment of Mortality and Disability From Diseases, Injuries and Risk Factors in 1990 and Projected to 2020 [Volume 1 of 10 in the Global Burden of Disease and Injury Series]. Harvard School of Public Health, Cambridge, MA.Google Scholar
Nicol, J. (1953) The capsid problem, pp. 5152. In Proceedings of the West African International Cacao Research Conference, 12–16 December 1953, West African Cacao Research Institute, Tafo, Gold Coast. Crown Agents for Overseas Governments and Administrations for the Conference Committee, London.Google Scholar
Owen, H. (1956) Further observations on the pathogenicity of Calonectria rigidiuscula (Berk & Br.) Sacc. to Theobroma cacao L. Annals of Applied Biology 44, 307321.Google Scholar
Owusu-Manu, E. (1974) Biology and ecology of Bathycoelia thalassina (H-S.) Heteroptera: Pentatomidae, a pest of cocoa in Ghana PhD thesis, University of Ghana, Legon, Ghana. 248 pp.Google Scholar
Owusu-Manu, E. (1985) The evaluation of the synthetic pyrethroids for the control of Distantiella theobroma (Dist.) (Hemiptera: Miridae) in Ghana, pp. 535538. In Proceedings of the 9th International Cocoa Research Conference, Lome, Togo, 1984. Cocoa Producers' Alliance, Lagos, Nigeria.Google Scholar
Owusu-Manu, E. (1990) Chemical control of the cocoa mirids Distantiella theobroma (Dist.) and Sahlbergella singularis (Hagl.) in relation to their seasonal movement, No. 2, pp. 363373. In Proceedings: Integrated Pest Management in Tropical and Subtropical Cropping Systems, 8–15 February 1989, Bad Durkheim, Germany. Philipps-University Press, Marburg, Germany.Google Scholar
Owusu-Manu, E. (2001) Frequency and timing of insecticide application to cocoa mirids. Ghana Journal of Agricultural Sciences 34, 7176.Google Scholar
Padi, B. and Adu-Acheampong, R. (2003) Population dynamics and damage of cocoa capsids (and other insects) on hybrid cocoa in Ghana, pp. 178189. In Report of the Cocoa Research Institute of Ghana, 2002–2003. Cocoa Research Institute of Ghana.Google Scholar
Padi, B. and Owusu, G. K. (2001) Towards an integrated pest management for sustainable cocoa production in Ghana. Available at:http://nationalzoo.si.edu/ConservationAndScience/MigratoryBirds/Research/Cacao/padi.cfm (accessed accessed 17 January 2012).Google Scholar
Peterson, D. G., Bond, E. F., Darko, F., Manteaw, F. K. and Gerard, B. M. (1966) Field trials of insecticides, pp. 3638. In Annual Report of the Cocoa Research Institute of Ghana, 1963–65. Cocoa Research Institute of Ghana.Google Scholar
Prins, G. (1965) Contact toxicities of 22 insecticides to the cocoa mirid Distantiella theobroma (Dist.) (Hemiptera: Miridae). Bulletin of Entomological Research 56, 231235.Google Scholar
Quarmine, W. (2011) How do institutions mediate interactions within Ghana's cocoa sector towards cocoa bean quality assurance? A general description of aspects of PhD work. Available at:www.globelicsacademy.org/2011_pdf/Quarmine%20William.pdf (accessed accessed 2 September 2012).Google Scholar
Quarmine, W. (2013) Incentives for smallholders to enhance the production of quality cocoa beans in Ghana: the role of institutions. PhD thesis, Wageningen University, The Netherlands, 165 pp.Google Scholar
Roseboom, J. (2004) Agricultural research and extension funding levels required to meet the Anti-Hunger Programme objectives. Paper written on request by the SDRR and SDRE services of FAO, Rome. Available at:http://www.fao.org/sd/dim_kn4/docs/kn4_040401a1_en.pdf 41.Google Scholar
Sarfo, J. E. (2013) Behavioural responses of cocoa mirids, Sahlbergella singularis Hagl. and Distantiella theobroma (Dist.) to sex pheromones PhD thesis, University of Greenwich, UK. 290 pp.Google Scholar
Stapley, J. H. and Hammond, P. S. (1957) Large-scale trials with insecticides against capsids on cocoa in Ghana. Empirical Journal of Experimental Agriculture 27, 343.Google Scholar
Williams, G. (1953) Field observations on the cacao mirids, Sahlbergella singularis Hagl. and Distantiella theobroma (Dist.), in the Gold Coast. Bulletin of Entomological Research 44, 101119. 10.1017/S0007485300022987.Google Scholar
Wright, J. (1938) The Cocoa Research Station, Tafo, First Annual Report (1937–1938), Bulletin No. 36 36 pp.Google Scholar
Youdeowei, A. (1971) Preliminary studies on the timing of insecticide application to control the capsid Sahlbergella singularis Hagl. on cacao in Nigeria: the effect of spraying in April and May when the capsid population is low, pp. 169172. In Proceedings of the 3rd International Cocoa Research Conference, 23–29 November 1969, Accra, Ghana. Cocoa Research Institute, Tafo. Cocoa Producers' Alliance, Lagos, Nigeria.Google Scholar