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Farmer field school-IPM impacts on urban and peri-urban vegetable producers in Cotonou, Benin

Published online by Cambridge University Press:  15 March 2010

T. Lund ,
M.-G. Sæthre ,
I. Nyborg ,
O. Coulibaly  and
M.H. Rahman
T. Lund*
Affiliation:
Plant Health and Plant Protection Division, Bioforsk – Norwegian Institute for Agricultural and Environmental Research, Høgskoleveien 7, 1432Ås, Norway Department of International Environment and Development Studies, Nowegian University of Life Sciences, Post Box 5003, 1432Ås, Norway
M.-G. Sæthre
Affiliation:
Plant Health and Plant Protection Division, Bioforsk – Norwegian Institute for Agricultural and Environmental Research, Høgskoleveien 7, 1432Ås, Norway
I. Nyborg
Affiliation:
Department of International Environment and Development Studies, Nowegian University of Life Sciences, Post Box 5003, 1432Ås, Norway
O. Coulibaly
Affiliation:
International Institute of Tropical Agriculture, 08 BP 0932 Tri-Postal, Cotonou, Benin
M.H. Rahman
Affiliation:
Department of Chemistry, Biotechnology and Food Science, Norwegian University of Life Sciences (UMB), PO 1074, 1432Ås, Norway
*
*E-mail: lund_trine@yahoo.no
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Abstract

The use of synthetic pesticides among vegetable producers in urban and peri-urban Cotonou, Benin, has been increasing to the extent that certain insect pests have developed resistance to the pesticides. This paper assesses the impact of the farmer field school approach in an integrated pest management (IPM) project that aimed to increase IPM knowledge, adaptation/adoption of IPM options, and appropriate application of pesticides and awareness of related health hazards among vegetable producers in Cotonou. A sample of 54 semi-structured interviews was conducted with the vegetable producers, and a double difference model was used to compare the knowledge and practices before and after the project. The project led to increased knowledge about IPM, which was to some extent adapted into the participants' production systems, although no significant difference was noted for the type of synthetic pesticides used. The producers do adapt their practices when new technologies and practices emerge, but not always in ways that are environmentally sound or healthy.

Keywords

adaptationfarmer field schoolsintegrated pest managementknowledgepesticide use
Type
Research Paper
Information
International Journal of Tropical Insect Science , Volume 30 , Issue 1 , March 2010 , pp. 19 - 31
Copyright
Copyright © ICIPE 2010

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References

Akogbeto, M. C., Djouaka, R. and Noukpo, H. (2008) Utilisation des insecticides agricoles au Bénin. Entomologie médicale. BMC Genomics 9, 110.Google Scholar
Atcha-Ahowé, C., James, B., Godonou, I., Boulga, J., Agbotse, S. K., Kone, D., Kogo, A., Salawu, R. and Glitho, I. A. (2009) Status of chemical control applications for vegetable production in Benin, Ghana, Mali, Niger, Nigeria and Togo – West Africa. In Pesticides Management in West Africa No. 7 (edited by Clarendon, H. and Youdeowei, A.). FAO and ECOWAS, Abuja.Google Scholar
BBC (2006) BBC weather: BBC. Available at: http://www.bbc.co.uk/weather/world/city_guides/results.shtml?tt = TT000070.Google Scholar
Braun, A., Herrera, I., Rosset, P., Teurings, J. and Vedeld, P. (2004) Ecologically-based participatory implementation of integrated pest management and agroforestry in Nicaragua and Central America (CATIE-IPM/AF) phase III, Final Program Evaluation Report. Noragric, Agricultural University of Norway, Centre for International Environment and Development Studies, Aas. 112 pp.Google Scholar
Bryman, A. (2004) Social Research Methods. Oxford University Press, Inc., New York. 592 pp.Google Scholar
Dent, D. (1995) Integrated Pest Management. Chapman & Hall, London. 356 pp.Google Scholar
Djouaka, R. F., Bakare, A. A., Coulibaly, O. N., Akogbeto, M. C., Ranson, H., Hemingway, J. and Strode, C. (2005) Expression of the cytochrome P450s CYP6P3 and CYP6M2 are significantly elevated in multiple pyrethroid resistant populations of Anopheles gambiae s.s. from Southern Benin and Nigeria. Bulletin of the Exotic Pathology Society 98, 400405.Google Scholar
Erbaugh, J. M., Donnermeyer, J., Kibwika, P. and Kyamanywa, S. (2002) An assessment of the integrated pest management collaborative research support project's (IPM CRSP) activities in Uganda: impact on farmers' awareness and knowledge of IPM skills. African Crop Science Journal 10, 271280.Google Scholar
Fleischer, G., Jungbluth, F., Waibel, H. and Zadoks, J. C. (1999) A field practioner's guide to economic evaluation of IPM, Pesticide Policy Publication. Uni Druck Hannover, Hannover. 73 pp.Google Scholar
Godonou, I., James, B. and Atcha-Ahowé, C. (2009 a) Locally available mycoinsecticide alternatives to chemical pesticides against leaf feeding pests of vegetables. In Pesticides Management in West Africa No. 7, pp. 5362 (edited by Clarendon, H. and Youdeowei, A.). FAO and ECOWAS, Abuja.Google Scholar
Godonou, I., James, B., Atcha-Ahowé, C., Vodouché, S., Kooyman, C., Ahanchedé, A. and Korie, S. (2009 b) Potential of Beauveria bassiana and Metharhizium anisopliae isolates from Benin to control Plutella xylostella L. (Lepidotera: Plutellidae). Crop Protection 28, 220224.CrossRefGoogle Scholar
Godtland, E. M., Sadoulet, E., Janvry, A. D., Murgai, R. and Ortiz, O. (2004) The impact of farmer field schools on knowledge and productivity: a study of potato farmers in the Peruvian Andes. Economic Development and Cultural Change 53, 6392.CrossRefGoogle Scholar
James, B., Godonou, I., Atcha, C., Baimey, H., Adango, E., Boulga, J. and Goudegnon, E. (2006) Healthy Vegetables Through Participatory IPM in Peri-Urban Areas of Benin. IITA, Cotonou, Benin. 134 pp.Google Scholar
Kolb, D. (1984) Experiential Learning. Prentice Hall, Inc., Englewood Cliffs, New Jersey. 256 pp.Google Scholar
Lee, D. R. (2005) Agricultural sustainability and technology adoption: issues and policies for developing countries. American Journal of Agricultural Economics 87, 13251334.CrossRefGoogle Scholar
Long, N. (2001) Development Sociology Actor Perspectives. Routledge, London. 294 pp.Google Scholar
Loumedjinon, S., Baimey, H. and James, B. (2009) Locally available botanical alternatives to chemical pesticides against root-knot nematode pests of carrot (Daucus carota) in Benin. In Pesticides Management in West Africa No. 7, pp. 3452 (edited by Clarendon, H. and Youdeowei, A.). FAO and ECOWAS, Abuja.Google Scholar
Mancini, F. (2006) Impact of Integrated Pest Management Farmer Field Schools on Health, Farming Systems, the Environment, and Livelihoods of Cotton Growers in Southern India. Wageningen University, Biological Farming Systems Group, Wageningen. 112 pp.Google Scholar
Mangan, J. and Mangan, M. S. (1998) A comparison of two IPM training strategies in China: the importance of concepts of the rice ecosystem for sustainable insect pest management. Agriculture and Human Values 15, 209221.CrossRefGoogle Scholar
Maumbe, B., Bernstein, R. and Northon, G. (2003) Social and economic considerations in the design and implementation of integrated pest management in developing countries, pp. 8795. In Integrated Pest Management in the Global Arena (edited by Maredia, K., Dakouo, D. and Mota-Sanchez, D.). CABI Publishing, Wallingford.CrossRefGoogle Scholar
Nyborg, I., Berg, T. and Aune, J. (2007) New paradigms in technology development: exploring innovative approaches to linking agricultural research and practice, pp. 8992. In Innovative Agricultural Approaches of Promoting Food Security in Eritrea: Trends, Challenges and Opportunities for Growth. Proceedings of the Workshop for the Association of Eritreans in Agricultural Sciences (AEAS). 2–4 February 2006, icipe, Asmara, Eritrea (edited by B. Ghebru and Tadesse Mehari). icipe Geographica Bernensia, Bern, SLM Eritrea, ESAPP, Syngenta Foundation for Sustainable Agriculture, and Centre for Development and Environment (CDE), University of Bern.Google Scholar
Pontius, J., Dilts, R. and Bartlett, A. (2000) Ten years of IPM training in Asia. In Ten Years of Building Community: From Farmer Field Schools to Community IPM (edited by Pontius, J., Dilts, R. and Bartlett, A.). FAO Community IPM Programme, Bangkok.Google Scholar
Praneetvatakul, S. and Waibel, H. (2006) Farm Level and Environmental Impacts of Farmer Field Schools in Thailand. Working Paper 7. Development and Agricultural Economics, Faculty of Economics and Management, University of Hannover, Hannover. 10 pp.Google Scholar
Pretty, J. N. (1995) Regenerating Agriculture: Policies and Practice for Sustainability and Self-Reliance. Earthscan, London. 330 pp.Google Scholar
Price, L. L. (2001) Demystifying farmers’ entomological and pest management knowledge: a methodology for assessing the impacts on knowledge from IPM-FFS and NES interventions. Agriculture and Human Values 18, 153156.CrossRefGoogle Scholar
Rola, A. C., Quizon, J. B. and Jamias, S. B. (2001) Do farmer field school graduates retain and share what they learn? An investigation in Iloilo Philippines. Journal of International Agricultural and Extension Education 9, 6575.Google Scholar
Rosendahl, I., Laabs, V., Atcha-Ahowe, C., James, B. and Amelung, J. (2009) Insecticide dissipation from soil and plant surfaces in tropical horticulture of southern Benin, West Africa. Journal of Environmental Monitoring 11, 11571164.CrossRefGoogle ScholarPubMed
Schutz, A. (1962) The Problem of Social Reality (edited by Natanson, M.). Vol. 1. Kluwer, Dordrecht, 361 pp.Google Scholar
Simpson, B. M. and Owens, M. (2002) Farmer Field Schools and the Future of Agricultural Extension in Africa. AIAEE 2002, Proceedings of the 18th Annual Conference. 27–31 May 2002, Durban, South Africa, pp. 405412.Google Scholar
Weller, U. (2002) Land Evaluation and Land Use Planning for Southern Benin (West Africa) BENSOTER. Hohenheimer Bodenkundliche Hefte, Vol. 67. Universitat Hohenheim, Fachgebiet Herbologie.Google Scholar
Williamson, S. (2003) Economic costs of pesticide reliance. Pesticides News 61, 35.Google Scholar
WHO (2005) The WHO recommended classification of pesticides by hazard and guidelines to classification: 2004. World Health Organization, Geneva. 60 pp.Google Scholar
Zossou, E. E. B. E. (2004) Analyse des déterminants socio-économiques des practiques phytosanitaries: Cas des cultures maraîcheres à Cotonou. University Abomey-Calavi, Socio-economic Department, Cotonou.Google Scholar