Oluyede Clifford Ajayi, Festus Kehinde Akinnifesi, Gudeta Sileshi
.
DOI: 10.4236/health.2011.310107   PDF    HTML     5,210 Downloads   10,221 Views   Citations

Abstract

While precautionary efforts are being made to minimize human health problems associated with agricultural pesticides, the continued occurrence of occupational poisoning from these chemicals raises major concerns among stake- holders. Information gap on human health problems associated with pesticides poses major obstacles to making informed policy decisions, particularly in developing countries where most of the poisonings occurs. In this study, we identified acute human health symptoms associated with pesticide use in cotton zone of Côte d’Ivoire and, documented the response of rural households to the symptoms. The results show that cotton farmers in Cote d’Ivoire suffer from different occupational health hazards from exposure to agricultural pesticides. Key health symptoms reported by pesticide applicators are headache, rheum, cough, skin rash and sneezing. Pesticide applicators reported four times higher symptoms of ill health than other household members who do not normally handle pesticides. Although, households recognized pesticides as an important cause of ill health, some of the symptoms have been accepted as norm by individuals who apply pesticides. Official data on pesticide poisoning in the country is most likely to be seriously under-estimated as applicators visited formal health centers for medical assistance in only 2% of poisoning cases reported. There is a high likelihood that households in the study area under-estimated pesticide-related health costs in making farm production decision-making. Approaches to use economic instruments for reliable monitoring and reporting procedures to formulate appropriate policies and regulations to minimize exposure to pesticides are recommended. Health planners and policy makers should aim at reducing the risks posed by pesticide to farm households by, improving awareness of farmers; promote complementary approach (e.g. Integrated Pest Management) and, use of economic instruments and improved surveillance to bridge the gap in the documentation of pesticide poisoning cases among farmers.

Keywords

Occupational Health; Health Policy; Pesticide Externality; Agriculture-Health Linkage; Consumer Protection

Share and Cite:

Conflicts of Interest

The authors declare no conflicts of interest.

References

[1]	Dawson, A.H., Eddleston, M., Senarathna, L., Mohamed, M., Gawarammana, I., Bowe, S.J., Manuweera, G. and Buckley, N.A. (2010) Acute human lethal toxicity of agricultural pesticides: A prospective cohort study. PLoS Medicine, 7, 1-10. doi:10.1371/journal.pmed.1000357
[2]	Pimentel, D. (2005) Environmental and economic costs of the application of pesticides primarily in the United States. Environment, Development and Sustainability, 7, 229-252. doi:10.1007/s10668-005-7314-2
[3]	Atreya, K. (2008) Health costs from short-term exposure to pesticides in Nepal. Social Science & Medicine, 67, 511-519. doi:10.1016/j.socscimed.2008.04.005
[4]	Ajayi, O.C. and Akinnifesi, F.K. (2007) Farmers’ understanding of pesticide safety labels and field spraying practices: case study of cotton farmers in northern C?te d’Ivoire. Scientific Research and Essays, 2, 204-210.
[5]	Rother, H.-A. (2008) South African farm workers’ interpretation of risk assessment data expressed as pictograms on pesticide labels. Environmental Research, 108, 419-427. doi:10.1016/j.envres.2008.07.005
[6]	Kishimba, M.A., Henry, L., Mwevura, H., Mmochi, A.J., Mihale, M. and Hellar, H. (2004) The status of pesticide pollution in Tanzania, Talanta, 64, 48-53. doi:10.1016/j.talanta.2003.11.047
[7]	Sereda, B.L. and Meinhardt, H.R. (2005) Contamination of the water environment in malaria endemic areas of KwaZulu-Natal, South Africa by agricultural insecticides. Bulletin of Environmental Contamination and Toxicology, 75, 539-537.
[8]	Ajayi, O.C. (2005) User costs, biological capital and the productivity of pesticides in sub-Saharan Africa. International Journal of Agricultural Sustainability, 33, 154-166. doi:10.1080/14735903.2005.9684753
[9]	Corriols, M., Marin, J., Berroteran, J., Lozano, L.M. and Lundber, I. (2009) Incidence of acute pesticide poisonings in Nicaragua: a public health concern. Occupational & Environmental Medicine, 66, 205-210. doi:10.1136/oem.2008.040840
[10]	Pingali, P.L., Marquez, C.B. and Palis, F.G. (1994) Pesticides and Philippine farmers’ health—A medical and economic analysis of impact. American Journal of Agricultural Economics, 76, 587-592. doi:10.2307/1243669
[11]	Antle, J.M., Cole, D.C. and Crissman, C.C. (1998) Further evidence on pesticides, productivity and farmer health: Potato production in Ecuador, Agricultural Economics Journal, 18, 199-207. doi:10.1016/S0169-5150(97)00036-4
[12]	Crissman, C.C., Cole, D.C. and Carpio, F. (1994) Pesticide use and farm worker health in Ecuadorian potato production. American Journal of Agricultural Economics, 76, 593-597. doi:10.2307/1243670
[13]	Ohayo-Mitoko, G.J.A., Kromhout, H., Simwa, J.M., Boleij, J.S.M. and Heederik, D. (2000) Self reported symptoms and inhibition of cholinesterase in Kenya. Occupational & Environmental Medicine, 57, 195-200. doi:10.1136/oem.57.3.195
[14]	Rasoul, G.A.M., Salem, M.E.A, Mechael, .A.A, Hendy, O.M., Rohlman, D.S. and Ismail, A.A. (2008) Effects of occupational pesticide exposure on children applying pesticides. Neurotoxicology, 29, 833-838. doi:10.1016/j.neuro.2008.06.009
[15]	Balme, K.H., Roberts, J.C., Glasstone, M., Curling, L., Rother, H.-A., London, L., Zar, H. and Mann, M.D. (2010) Pesticide poisonings at a tertiary children's hospital in South Africa: An increasing problem. Clinical Toxicology, 48, 928-934. doi:10.3109/15563650.2010.534482
[16]	Garming, H. and Waibel, H. (2009) Pesticides and farmer health in Nicaragua: A willingness-to-pay approach to evaluation. The European Journal of Health Economics, 10, 125-133. doi:10.1007/s10198-008-0110-9
[17]	Ajayi, O.C., Akinnifesi, F.K., Sileshi, G. and Ajayi, A,O. (2009) Agricultural policies and the emergence of cotton as the dominant crop in northern C?te d’Ivoire: historical overview and current outlook. Natural Resources Forum, 33, 111-122. doi:10.1111/j.1477-8947.2009.01215.x
[18]	Fleischer, G., Andoli, V., Coulibaly, M. and Randolph, T. (1998) Analyse socio-économique de la filière des pesticides en C?te d’Ivoire. Pesticide Policy Project, Publication Series no 6, University of Hannover, Germany.
[19]	Waibel, H. (1994) Towards an economic framework of pesticide policy studies. In: Agne, S., Fleischer, G. and Waibel, H. Eds., Proceedings of the Goettingen Workshop on Pesticide Policies, University of Goettingen, Lower Saxony.
[20]	Kishi, M., Hirschon, N., Djajadisastra, M., Satterlee, L.N., Strowman, S. and Dilts, R. (1995) Relationship of pesticide spraying to signs and symptoms in Indonesian farmers Scandinavian Journal of Work & Environmental Health, 21, 124-133.
[21]	London, L. and Rother, A. (1998) Pesticides in occupational health: implications of policy reform. Occupational Health Southern Africa, 4, 30-35.
[22]	WHO, (1990) Public health impacts of pesticides used in agriculture, World Health Organization, Geneva.
[23]	Maumbe, B.M. and Swinton, S.M. (2003) Hidden health costs of pesticide use in Zimbabwe’s smallholder cotton growers. Social Science & Medicine, 57, 1559-1571. doi:10.1016/S0277-9536(03)00016-9