Abstract
The rationale for pesticide use in agriculture is that costs associated with pesticide pollution are to be justified by its benefits, but this is not so obvious. Valuing the benefits by simple economic analysis has increased pesticide use in agriculture and consequently produced pesticide-induced “public ills.” This paper attempts to explore the research gaps of the economic and social consequences of pesticide use in developing countries, particularly with an example of Nepal. We argue that although the negative sides of agricultural development, for example- soil, water, and air pollution; pest resistance and resurgence; bioaccumulation, bio-magnification; and loss of biodiversity and ecosystem resilience caused by the use of pesticides in agriculture, are “developmental problems” and are “unintentional,” the magnitude may be increased by undervaluing the problems in the analysis of its economic returns. Despite continuous effort for holistic system analyses for studying complex phenomena like pesticides impacts, the development within the academic science has proceeded in the opposite direction that might have accelerated marginalization of the third world subsistence agricultural communities. We hypothesize that, if these adversities are realized and accounted for, the benefits from the current use of pesticides could be outweighed by the costs of pollution and ill human health. This paper also illustrates different pathways and mechanisms for marginalization. In view of potential and overall negative impacts of pesticide use, we recommend alternative ways of controlling pests such as community integrated pest management (IPM) along with education and training activities. Such measures are likely to reduce the health and environmental costs of pesticide pollution, and also enhance the capabilities of third world agricultural communities in terms of knowledge, decision making, innovation, and policy change.
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References
Abhilash, P. C., & Singh, N. (2009). Pesticide use and application: An Indian scenario. Journal of Hazardous Materials, 165, 1–12.
ADB. (1999). The growth and sustainability of agriculture in Asia. Oxford, UK: Oxford University Press.
Ajayi, O. C. (2000). Pesticide use practices, productivity and farmers’ health: The case of cotton-rice systems in Cote d’lvoire, West Africa. Hanover, Germany: University of Hanover. Pesticide Policy Project, Special Issue Publication Series No 3.
Antle, J. M., Cole, D. C., & Crissman, C. C. (1998). Further evidence on pesticides, productivity and farmer health: Potato production in Ecuador. Agricultural Economics, 18, 199–207.
Antle, J. M., & Pingali, P. L. (1994). Pesticides, productivity, and farmer health: A Philippine case study. American Journal of Agricultural Economics, 76, 418–430.
Atreya, K. (2007a). Pesticide use in Nepal: Understanding health costs from short-term exposure. SANDEE Working Paper No. 28. Kathmandu, Nepal: South Asian Network for Development and Environmental Economics.
Atreya, K. (2007b). Farmers’ willingness to pay for community integrated pest management training in Nepal. Agriculture and Human Values, 24, 399–409.
Atreya, K. (2008). Health costs from short-term exposure to pesticides in Nepal. Social Science and Medicine, 67, 511–519.
Bowles, R. G., & Webster, J. P. G. (1995). Some problems associated with the analysis of the costs and benefits of pesticides. Crop Protection, 14, 593–600.
Carson, R. (1962). Silent spring. New York, USA: Houghton Mifflin Company.
Cone, M. (2006). Silent snow: The slow poisoning of the Arctic. USA: Grove Weidenfeld Publishers.
Cuyno, L. C. M., Norton, G. W., & Rola, A. (2001). Economic analysis of environmental benefits of integrated pest management: A Philippine case study. Agricultural Economics, 25, 227–233.
Devi, I. P. (2007). Pesticide use in the rice bowl of Kerala: Health costs and policy options. SANDEE Working Paper No. 21. Kathmandu, Nepal: South Asian Network for Development and Environmental Economics.
Dung, N. H., & Dung, T. T. (1999). Economic and health consequences of pesticide use in paddy production in the Mekong Delta, Vietnam. Singapore: Economy and Environment Program for Southeast Asia (EEPSEA).
Ecobichon, D. J. (2001). Pesticide use in developing countries. Toxicology, 160, 27–33.
EPA. (2000). Handbook for non-cancer health effects valuation. Washington DC: EPA Science Policy Council, US Environmental Protection Agency.
FAO. (2002). Land and Agriculture from UNCED, Rio de Janeiro 1992 to WSSD, Johannesburg 2002: A compendium of recent sustainable development initiatives in the field of agriculture and land management. Rome, Italy: Food and Agriculture Organization of the United Nations.
FAO. (2004). The ethics of sustainable agricultural intensification. Rome: Food and Agriculture Organization of the United Nations.
Freeman, A. M. (1993). The measurement of environmental and resource values: Theory and method. Washington, DC, USA: Resources for the Future.
Frey, R. S. (1995). The international traffic in pesticides. Technological Forecasting and Social Change, 50, 151–169.
Ghatak, S., & Turner, R. K. (1978). Pesticide use in less developed countries: Economic and environmental consideration. Food Policy, 3, 136–146.
Gupta, P. K. (2004). Pesticide exposure-Indian scene. Toxicology, 198, 83–90.
Høyer, K. G., & Naess, P. (2008). Interdisciplinarity, ecology and scientific theory: The case of sustainable development. Journal of Critical Realism, 7(2), 5–33.
Jaga, K., & Dharmani, C. (2003). Global surveillance of DDT and DDE levels in human tissues. International Journal of Occupational Medicine and Environmental Health, 16(1), 7–20.
Jha, R. K., & Regmi, A. P. (2009). Productivity of pesticide in vegetable farming in Nepal. SANDEE Working Paper No. 43-09, Kathmandu, Nepal: South Asian Network for Development and Environmental Economics (SANDEE).
Kishi, M., Hirschhorn, N., Djajadisastra, M., Satterlee, L. N., Strowman, S., & Dilts, R. (1995). Relationship of pesticide spraying to signs and symptoms in Indonesian farmers. Scandinavian Journal of Work, Environment and Health, 21, 124–133.
Konradsen, F., van Der Hoek, W., Cole, D. C., Hutchinson, G., Daisley, H., Singh, S., et al. (2003). Reducing acute poisoning in developing countries-options for restricting the availability of pesticides. Toxicology, 192, 249–261.
Maumbe, B. M., & Swinton, S. M. (2003). Hidden health costs of pesticide use in Zimbabwe’s smallholder cotton growers. Social Science and Medicine, 57, 1559–1571.
McIntyre, D., Thiede, M., Dahlgren, G., & Whitehead, M. (2006). What are the economic consequences for households of illness and paying for health care in low-and middle-income country contexts? Social Science and Medicine, 62, 858–865.
Meghani, Z. (2008). Values, technologies, and epistemology. Agriculture and Human Values, 25, 25–34.
Paoletti, M., & Pimentel, D. (2000). Environmental risks of pesticides versus genetic engineering for agricultural pest control. Journal of Agricultural and Environmental Ethics, 12, 279–303.
Pimentel, D. (2005). Environmental and economic costs of the application of pesticides primarily in the United States. Environment, Development and Sustainability, 7, 229–252.
Pontius, J., Dilts, R., & Bartlett, A. (Eds.). (2000). Ten Years of IPM Training in Asia: From farmer field schools to community IPM. Jakarta: FAO Community IPM Program.
Rahman, S. (2003). Farm-level pesticide use in Bangladesh: Determinants and awareness. Agriculture, Ecosystems & Environment, 95, 241–252.
Raven, P. H., Berg, L. R., & Hassenzahl, D. M. (2008). Environment. USA: Wiley.
Robbins, P. (2004). Political ecology: A critical introduction. India: Blackwell.
Romero, C., & Rehman, T. (2003). Multiple criteria analysis for agricultural decisions. Netherland: Elsevier Science.
Saith, A. (2007). Millennium Development Goals and the dumping-down of development: Goals set for the poor, goalposts set by the rich. International Institute of Asian Studies Newsletter, 45, 12–13.
Sauerborn, R., Adams, A., & Hien, M. (1996). Household strategies to cope with the economic costs of illness. Social Science and Medicine, 43, 291–301.
Shah, B. P., & Devkota, B. (2009). Obsolete pesticides: Their environmental and human health hazards. The Journal of Agriculture and Environment, 10, 51–56.
Travisi, C. M., Nijkamp, P., & Vindigni, G. (2006). Pesticide risk valuation in empirical economics: A comparative approach. Ecological Economics, 56, 455–474.
van den Berg, H. (2004). IPM farmer field schools: A synthesis of 25 impact evaluations. The Netherland: Wageningen University.
van den Berg, H., & Jiggins, J. (2007). Investing in farmers—the impacts of farmer field schools in relation to integrated pest management. World Development, 35, 663–686.
van der Hoek, W., Konradsen, F., Athukorala, K., & Wanigadewa, T. (1998). Pesticide poisoning: A major health problem in Sri Lanka. Social Science and Medicine, 46, 495–504.
WCED. (1987). Our common future. Oxford and New York: Oxford University Press.
WHO. (2006). Preventing disease through healthy environments: Towards an estimate of the environmental burden of disease. Geneva, Switzerland: World Health Organization of the United Nations.
WHO. (2007). The World Health Report 2007—a safer future: Global public health security in the 21st century. Geneva, Switzerland: World Health Organization of the United Nations.
Wilson, C. (1998). Cost and policy implications of agricultural pollution with special reference to pesticides. Department of Economics (p. xi + 266). Scotland, UK: University of St Andrews.
Wilson, C. (2000). Environmental and human costs of commercial agricultural production in south Asia. International Journal of Social Economics, 27, 816–846.
Wilson, C. (2003). Empirical evidence showing the relationships between three approaches for pollution control. Environmental & Resource Economics, 24, 97–101.
Wilson, C., & Tisdell, C. (2001). Why farmers continue to use pesticides despite environmental, health and sustainability costs. Ecological Economics, 39, 449–462.
World Bank (WB). (2007). World Development Report 2008: Agriculture for Development. Washington, DC: The World Bank.
Yanggen, D., Cole, D. C., Crissman, C., & Sherwood, S. (2004). Pesticide use in commercial potato production: Reflections on research and intervention efforts towards greater ecosystems health in northern Ecuador. EcoHealth, 1(Suppl. 2), 72–83.
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Atreya, K., Sitaula, B.K., Johnsen, F.H. et al. Continuing Issues in the Limitations of Pesticide Use in Developing Countries. J Agric Environ Ethics 24, 49–62 (2011). https://doi.org/10.1007/s10806-010-9243-9
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DOI: https://doi.org/10.1007/s10806-010-9243-9