Abstract
Rice production accounted for about half of the total insecticides, over 80 percent of herbicides, and 4 percent of fungicides sold in the Philippines in 1987 (APIP, 1991). Molluscicides have also been used in small quantities since 1987 to control the golden snail (Warburton and Pingali, 1993). Fifty-five percent of the pesticides sold in the country are insecticides, followed by herbicides (19 percent) and fungicides (15 percent) (Rola and Pingali, 1992). However, the total quantities of pesticides used in the Philippines are small compared with heavy users such as South Korea and Japan. Rice agrochemicals in the country accounted for only 2 percent of the world market value in 1988 (Woodburn, 1990).
Keywords
- Methyl Parathion
- Personal Protective Equipment
- Rice Farmer
- International Rice Research Institute
- Hazard Level
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.
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References
Asian Development Bank (ADB). 1987. Handbook on the use of pesticides in the Asia-Pacific Region. Manila: Asian Development Bank.
APIP—Agricultural Pesticides Industry of the Philippines. 1991. APIP views on the rice insecticide market. Manila, Philippines: APIP.
Castañeda C.P., N.C. Maramba, and A.V. Ordas. 1989. A field exposure study to methyl parathion among selected rice farmers. Acta Medica Philippina 25(3).
Casteñeda, C.P., and A.C. Rola, 1990. Regional Pesticide Review: Philippines. A Country Report. Paper presented at the International Development Research Centre (IDRC) Regional Pesticide Review Meeting, March 24, Genting Highlands, Malaysia.
Conway, G.R., and J.N. Pretty. 1991. Unwelcome harvest: Agriculture and pollution. London: Earthscan Publications.
Davies, J.E., V.H. Freed, and F.W. Whittemore (eds.). 1982. An agromedical approach to pesticide management: Some health and environmental considerations. Miami, Florida: University of Miami School of Medicine in cooperation with the Agency for International Development (USAID) and Consortium for International Crop Protection.
Levine, R.S., and J.E. Davies. 1982. Pesticide toxicity and mode of action. In J.E. Davies, V.H. Freed, and F.W. Whittemore (eds.), An Agromedical Approach to Pesticide Management: Some Health and Environmental Considerations. Miami, Fla., USA: University of Miami School of Medicine in cooperation with the Agency for International Development (USAID) and Consortium of International Crop Protection.
MAFF—Ministry of Agriculture, Fisheries and Food. 1991. Pesticides 1991: Pesticides approved under the control of Pesticides Regulations 1986, Reference Book 500. London: Ministry of Agriculture, Fisheries and Food, Health and Safety Executive, HMSO.
Rola, A.C. 1989. Pesticides,health risks and farm productivity: A Philippine experience. UPLB-Agricultural Policy Research Program Monograph No. 89–01. Los Baños, Laguna, Philippines: University of the Philippines at Los Baños.
Rola, A.C., A.R. Chupungco, R.A. Corcolon, and J.T. Hernandez. 1992. Pesticide and pest management in the Philippines: A policy perspective. Draft Report for International Development Research Center, University of the Philippines, Los Banos, Laguna, Philippines.
Rola, A.C., and P.L. Pingali. 1992. Pesticides and rice productivity: An economic assessment for the Philippines. Los Baños, Philippines: International Rice Research Institute.
Rola, A.C., and P.L. Pingali. 1993. Pesticides,rice productivity and farmers’ health (An economic assessment). Los Baños, Philippines: International Rice Research Institute and Washington, D.C: World Resources Institute.
Warburton, H., and P.L. Pingali. 1993. The farmer and the golden snail: How Philippine farmers cope with a recently introduced pest. Division paper, Social Sciences Division International Rice Research Institute, Los Baños, Philippines.
WHO—World Health Organization, 1984. Paraquat and diquat,Environmental Health Criteria 39. Geneva: World Health Organization.
WHO—World Health Organization 1990a. The WHO recommended classification of pesticides by hazard and guidelines to classification 1990–91. WHO/PCS/90.1, Geneva.
WHO—World Health Organization. 1990b. Public health impact of pesticides used in agriculture. Geneva: WHO.
Woodburn, A. 1990. The current rice agrochemicals market. In B.T. Grayson, M.B. Greene and L.G. Cropping (eds.), Pest Management in Rice. London: Elsevier Applied Science.
Yoshida, K. 1989. Cutaneous exposure of pesticide spray applicators. In J.A. Dosman and D.W. Cockcroft (eds.), Principles of Health and Safety in Agriculture. Boca Raton, Florida: CRC Press.
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Warburton, H., Palis, F.G., Pingali, P.L. (1995). Farmer Perceptions, Knowledge, and Pesticide Use Practices. In: Pingali, P.L., Roger, P.A. (eds) Impact of Pesticides on Farmer Health and the Rice Environment. Natural Resource Management and Policy, vol 7. Springer, Dordrecht. https://doi.org/10.1007/978-94-011-0647-4_3
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DOI: https://doi.org/10.1007/978-94-011-0647-4_3
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