e-ISSN 2231-8526
ISSN 0128-7680
Silas Wintuma Avicor, Richard Adu-Acheampong and Godfred Kweku Awudzi
Pertanika Journal of Science & Technology, Volume 45, Issue 1, February 2022
DOI: https://doi.org/10.47836/pjtas.45.1.04
Keywords: Anomis leona, cocoa, Ghana, insecticide, pest outbreak
Published on: 10 Febuary 2022
Cocoa is an important foreign exchange earner and a major source of income for several households in Ghana. In 2018, a larval outbreak on cocoa pods was reported in Ghana. Although the origin is unknown, it was perceived to be a secondary pest outbreak. In this study, a survey was conducted in the outbreak areas to identify and determine the occurrence of the pest and its susceptibility to a commonly used insecticide. Field and laboratory studies were conducted to identify the pest, determine the level of infestation, insecticide susceptibility, and field management. The outbreak was mainly caused by larvae of Anomis leona (~96% infestation of cocoa trees in some communities) with extensive feeding damage (chewing channels/tunnels) on the pericarp of pods. Field populations of A. leona larvae from districts in the Central region subjected to bifenthrin were susceptible at the recommended field rate (0.0245%) for mirids after 48 h of exposure under laboratory conditions. The insecticide induced a median lethal concentration (LC50) of ≤0.0061% and ≤0.0018% on A. leona larvae from Jukwa and Twifo Praso in the Central region at 24 and 48 h of exposure, respectively. Field application of bifenthrin was able to suppress infestation. The findings show that Anomis larvae were responsible for the outbreak, inducing extensive damage on pods. Bifenthrin was toxic to the larvae and could be used to manage them on the field. The outbreak indicates the need to develop an integrated management and monitoring strategy for cocoa pests to minimize future outbreaks.
Ackonor, J. B., & Adu-Acheampong, R. (2007). Standard protocol for screening conventional insecticides at the Cocoa Research Institute of Ghana for mirid control. Journal of the Ghana Science Association, 9(2), 117-121. https://doi.org/10.4314/jgsa.v9i2.18020
Adu-Acheampong, R., Sarfo, J. E., Appiah, E. F., Nkansah, A., Awudzi, G., Obeng, E., Tagbor, P., & Sem, R. (2015). Strategy for insect pest control in cocoa. American Journal of Experimental Agriculture, 6(6), 416-423. https://doi.org/10.9734/AJEA/2015/12956
Afreh-Nuamah, K. (1999). Insect pests of tree crops in Ghana: Identification, damage and control measures. Buck Press.
Ahmad, S. F., Ahmed, S., Khan, R. R., & Nadeem, M. K. (2010). Evaluation of insecticide resistance in two strains of fruit fly, Bactrocera zonata (Saunders) (Tephritidae: Diptera), with fruit dip method. Pakistan Entomologist, 32(2), 163-167.
Anang, B. T., Mensah, F., & Asamoah, A. (2013). Farmers’ assessment of the government spraying program in Ghana. Journal of Economics and Sustainable Development, 1(7), 92–99.
Aneani, F., Anchirinah, V. M., Owusu-Ansah, F., & Asamoah, M. (2012). Adoption of some cocoa production technologies by cocoa farmers in Ghana. Sustainable Agriculture Research, 1(1), 103–117. https://doi.org/10.5539/sar.v1n1p103
Antwi-Agyakwa, A. K., Osekre, E. A., Adu-Acheampong, R., & Ninsin, K. D. (2015). Insecticide use practices in cocoa production in four regions in Ghana. West African Journal of Applied Ecology, 23(1), 39–48.
Asaro, C., & Chamberlain, L.A. (2015). Outbreak history (1953-2014) of spring defoliators impacting oak-dominated forests in Virginia, with emphasis on gypsy moth (Lymantria dispar L.) and fall cankerworm (Alsophila pometaria Harris). American Entomologist, 61(3), 174-185. https://doi.org/10.1093/ae/tmv043
Asekunowo, P. O., Haque, R. A., Razali, M. R., Avicor, S. W., & Wajidi, M. F. F. (2018). Synthesis and characterization of nitrile functionalized silver(I)-N-heterocyclic carbene complexes: DNA binding, cleavage studies, antibacterial properties and mosquitocidal activity against the dengue vector, Aedes albopictus. European Journal of Medicinal Chemistry, 150, 601-615. https://doi.org/10.1016/j.ejmech.2018.03.029
Awudzi, G. K., Ackonor, J. B., Cudjoe, A. R., Dwomoh, E. A., & Sarfo, J. E. (2009). Manual for cocoa insect pests, symptoms of their damage and methods of their control. Cocoa Research Institute of Ghana.
Awudzi, G. K., Cudjoe, A. R., Assuah, M. K., Adu-Acheampong, R., Dwomoh, E. A., Adu-Yeboah, P., & Sarfo, J. E. (2012). Pesticide use in cocoa cultivation in Ghana. Cocoa Research Institute of Ghana.
Awudzi, G. K., Asamoah, M., Owusu-Ansah, F., Hadley, P., Hatcher, P. E., & Daymond, A. J. (2016). Knowledge and perception of Ghanaian cocoa farmers on mirid control and their willingness to use forecasting systems. International Journal of Tropical Insect Science, 36(1), 22–31. https://doi.org/10.1017/S1742758415000247
Ciesla, W. M., & Asaro, C. (2013). Fall cankerworm. https://www.fs.usda.gov/Internet/FSE_DOCUMENTS/stelprdb5426975.pdf
Collingwood, C. A. (1971). A comparison of assessment methods in cocoa mirid count trials. In Proceedings of 3rd International Cocoa Research Conference (p. 161). Cocoa Research Institute of Ghana.
Creeden, E. P., Hicke, J. A., & Buotte, P. C. (2014). Climate, weather, and recent mountain pine beetle outbreaks in the western United States. Forest Ecology and Management, 312, 239–251. https://doi.org/10.1016/j.foreco.2013.09.051
Crowder, D. W., & Jabbour, R. (2014). Relationships between biodiversity and biological control in agroecosystems: Current status and future challenges. Biological Control, 75, 8–17. https://doi.org/10.1016/j.biocontrol.2013.10.010
Denkyirah, E. K., Okoffo, E. D., Adu, D. T., Aziz, A. A., Ofori, A., & Denkyirah, E. K. (2016). Modeling Ghanaian cocoa farmers’ decision to use pesticide and frequency of application: The case of Brong-Ahafo Region. SpringerPlus, 5(1), 1113. https://doi.org/10.1186/s40064-016-2779-z
Entwistle, P. F. (1972). Pests of cocoa. Longman Group Ltd.
Ferreira, P. S. F., Henry, T. J., & Coelho, L. A. (2015). Plant bugs (Miridae). In A. Panizzi & J. Grazia (Eds.), True bugs (Heteroptera) of the Neotropics (pp. 237-286). Springer. https://doi.org/10.1007/978-94-017-9861-7
Food and Agriculture Organization Corporate Statistical Database. (2019). FAOSTAT. http://www.fao.org/faostat/en/#data/QC
Ghana Cocoa Board. (2019). Cocoa. COCOBOD.
Ghana Districts. (2017). Aowin Municipal Assembly. https://www.ghanadistricts.com/Home/LinkDataDistrict/2729
Ghana Living Standards Survey. (2014). Ghana Living Standards Survey Round 6 - Main report. GLSS. http://www.statsghana.gov.gh/gssmain/fileUpload/Living%20conditions/GLSS6_Main%20Report.pdf
Ghana Statistical Service. (2014). 2010 Population and housing census: District analytical report - Assin North Municipal. GSS. https://new-ndpc-static1.s3.amazonaws.com/CACHES/PUBLICATIONS/2016/06/06/Assin+North.pdf
Gupta, G., & Krischik, V. A. (2007). Professional and consumer insecticides for the management of adult Japanese beetle on hybrid tea rose. Journal of Economic Entomology, 100(3), 830–837. https://doi.org/10.1093/jee/100.3.830
Johnson, M., Luukinen, B., Gervais, J., Buhl, K., & Stone, D. (2010). Bifenthrin technical fact sheet. http://npic.orst.edu/factsheets/archive/biftech.html
Klapwijk, M. J., & Björkman C. (2018). Mixed forests to mitigate risk of insect outbreaks. Scandinavian Journal of Forest Research, 33(8), 772-780. https://doi.org/10.1080/02827581.2018.1502805
Kolavalli, S., Vigneri, M., Maamah, H., & Poku, J. (2012). The partially liberalized cocoa sector in Ghana: producer price determination, quality control, and service provision. International Food Policy Research Institute (IFPRI). http://www.cocoaconnect.org/sites/default/files/publication/kolavalli%20et%20al%20%282012%29%20the%20partically%20liberalized%20cocoa%20sector%20in%20Ghana.pdf
Lozano-Fuentes, S., Saavedra-Rodriguez, K., Black, W. C. IV, & Eisen, L. (2012). QCal: A software application for the calculation of dose-response curves in insecticide resistance bioassays. Journal of the American Mosquito Control Association, 28(1), 59-61. https://doi.org/10.2987/11-6192.1
Maron, J. L., Harrison, S., & Greaves, M. (2001). Origin of an insect outbreak: Escape in space or time from natural enemies?. Oecologia, 126(4), 595-602. https://doi.org/10.1007/s004420000558
Mkhize, S. B. V. (1971). Studies on the lepidoptera of cocoa farms in Ghana [Unpublished Master’s thesis]. University of Ghana.
Ministry of Food and Agriculture. (n.d. a). Atwima Mponua District. http://mofa.gov.gh/site/directorates/district-directorates/ashanti-region/153-atwima-mponua
Ministry of Food and Agriculture. (n.d. b). Twifo-Hemang Lower Denkyira District. http://mofa.gov.gh/site/directorates/district-directorates/central-region/215-twifo-herman-lower-denkyira
Ministry of Food and Agriculture. (n.d. c). Asikuma-Odoben-Brakwa District. http://mofa.gov.gh/site/sports/district-directorates/central-region/201-asikuma-odoben-brakwa
Obeng-Ofori, D., & Afreh-Nuamah, K. (2007). Crop pests and pest management. In D. Obeng-Ofori (Ed.), Major pests of food and selected fruit and industrial crops in West Africa (pp. 1-44). City Publishers.
Owusu-Manu, E. (1976). Estimation of cocoa pod losses caused by Bathycoelia thalassina (Herrich - Schaeffer) (Hemiptera, Pentatomidae). Ghana Journal of Agricultural Science, 9(2), 81-83.
Raupp, M. J., Shrewsbury, P. M., & Herms, D. H. (2010). Ecology of herbivorous arthropods in urban landscapes. Annual Review of Entomology, 55, 19–38. https://doi.org/10.1146/annurev-ento-112408-085351
Sarfo, J. E., & Opoku I. Y. (2006). Report on an unusual attack on cocoa by a defoliator, Anomis leona Schaus (Coleoptera: Noctuidae), in Ghana. In A. Y. Akrofi & F. Baah (Eds.), Proceedings of INCOPED 5th International Seminar on Cocoa Pests and Diseases (pp. 114-117). Cocoa Research Institute of Ghana. https://www.incocoa.org/data/incoped_workshop_5_proceedings_2006.pdf
Schuh, R. T. (2013). On-line systematic catalog of plant bugs (Insecta: Heteroptera: Miridae). http://research.amnh.org/pbi/catalog/
Singh, T. V. K., & Satyanarayana, J. (2009). Insect outbreaks and their management. In R. Peshin & A. K. Dhawan (Eds.), Integrated pest management: Innovation-development process (pp. 331-350). Springer. https://doi.org/10.1007/978-1-4020-8992-3_13
Szczepaniec, A., Creary, S. F., Laskowski, K. L., Nyrop, J. P., & Raupp, M. J. (2011). Neonicotinoid insecticide imidacloprid causes outbreaks of spider mites on elm trees in urban landscapes. PLOS One, 6(5), e20018. https://doi.org/10.1371/journal.pone.0020018
Vigneri, M., & Kolavalli, S. (2018). Growth through pricing policy: The case of cocoa in Ghana. Food and Agriculture Organization of the United Nations. http://www.fao.org/3/I8329EN/i8329en.pdf
Wang, S., Tang, X., Wang, L., Zhang, Y., Wu, Q., & Xie, W. (2014). Effects of sublethal concentrations of bifenthrin on the two-spotted spider mite, Tetranychus urticae (Acari: Tetranychidae). Systematic and Applied Acarology, 19(4), 481-490. https://doi.org/10.11158/saa.19.4.11
ISSN 0128-7680
e-ISSN 2231-8526