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Creating a farmer sustainability index: A Malaysian case study

Published online by Cambridge University Press:  30 October 2009

Donald C. Taylor ,
Zainal Abidin Mohamed ,
Mad Nasir Shamsudin ,
Mohd Ghazali Mohayidin  and
Eddie F.C. Chiew
Donald C. Taylor
Affiliation:
Professor of Agricultural Economics, South Dakota State University, Brookings, SD 57007.
Zainal Abidin Mohamed
Affiliation:
Professor of Agricultural Economics, South Dakota State University, Brookings, SD 57007.
Mad Nasir Shamsudin
Affiliation:
Professor of Agricultural Economics, South Dakota State University, Brookings, SD 57007.
Mohd Ghazali Mohayidin
Affiliation:
Professor of Agricultural Economics, South Dakota State University, Brookings, SD 57007.
Eddie F.C. Chiew
Affiliation:
Professor of Agricultural Economics, South Dakota State University, Brookings, SD 57007.
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Abstract

In on-farm studies of sustainable agriculture, farmers often have been classified as sustainable according to their organizational affiliation; self identification; or use or non-use of a particular production practice or input, usually synthetic chemicals. Because this is a great oversimplification, researchers recently have been incorporating several dimensions of sustainability into a composite measure. Typically this is a relative measure of sustainability, with scores assigned by comparing individual farmers' practices to those used by all farmers. In contrast, in the farmer sustainability index (FSI) presented here, practices are scored according to their inherent sustainability. We report on the development of an FSI in a case study involving 33 production practices used by 85 cabbage farmers in Malaysia. We describe its underlying principles, the procedure and rationale for scoring each sustainability item, and the result of combining the constituent items into a composite index.

Keywords

integrated pest managementMalaysiacabbagediamondback mothsoil fertility
Type
Other Feature Articles
Information
American Journal of Alternative Agriculture , Volume 8 , Issue 4 , December 1993 , pp. 175 - 184
Copyright
Copyright © Cambridge University Press 1993

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References

1.Babbie, E. 1986. Indexes, scales, and typologies. In The Practice of Social Research. 4th ed.Wadsworth Pub., Belmont, Georgia.Google Scholar
2.Balasubramaniam, A. 1974. Pesticide pollution. Bull. Public Health Soc. 8:2732.Google Scholar
3.CHVFA. 1992. Estimated monthly area planted and production, English cabbage, tomatoes, and Chinese cabbage, Cameron Highlands, by zone. Cameron Highlands Vegetable Farmers Assoc, Cameron Highlands, Malaysia.Google Scholar
4.Chiew, E.F.C. 1976. Application of linear programming to farm planning of vegetable fanners in Cameron Highlands. M.Sc. thesis. Dept. of Agricultural Economics, Univ. of Malaya, Kuala Lumpur.Google Scholar
5.Cordray, S.M., and Goetz, K. W.. (undated). Issues in sustainable agriculture: A study of horticultural producers in western Oregon and Washington. Final report of the Oregon Tilth and Oregon State Univ. Cooperative Study of Sustainable Agriculture in the Pacific Northwest Maritime Region. Dept. of Sociology, Oregon State Univ., Corvallis.Google Scholar
6.GOM-ADB. 1988. Agricultural marketing project: Case study of vegetable production and marketing in the Cameron Highlands. Prepared by Experience, Inc. (USA) and Perunding Bersatu Sdn. Bhd. (Malaysia). Govt. of Malaysia, Kuala Lumpur, and Asian Development Bank, Manila, Philippines.Google Scholar
7.Hamzah, C., Othman, Y., Loke, W. H., and Syed, A. R.. 1991. National integrated pest management in Malaysia. Paper presented at Conf. on IPM in the Asia Pacific Region. Organized by CAB International and Asian Development Bank, Kuala Lumpur.Google Scholar
8.Henderson, M. 1957. Insecticidal control of the diamond-back moth (Plutella maculipennis Curt.) on cabbage at Cameron Highlands. Malayan Agric. J. 40:275279.Google Scholar
9.Jamtgaard, K. 1992. Results from the Montana agricultural assessment questionnaire: A survey of sustainable agriculture. Alternative Energy Resources Organization, Helena, Montana.Google Scholar
10.Lee, B.S., and Ong, S. H.. 1983. Problems associated with pesticide use in Malaysia. Tropical Agric. Research Series 16:2535.Google Scholar
11.Lim, K.P. 1970. Economics of vegetable market gardening in Cameron Highlands. M.Sc. thesis. Dept. of Agricultural Economics, Univ. of Malaya, Kuala Lumpur.Google Scholar
12.Lim, G.S. 1974. Integrated pest control in the developing countries of Asia. In Dworkin, D.M. (ed). Environment and Development. Scope Miscellaneous Publications, Indianapolis, Indiana, pp. 4776.Google Scholar
13.Lim, G.S. 1982. The biology and effects of parasites on the diamond-back moth (Plutella xylostella [L.]). Ph.D. dissertation. Imperial College at Silwood, Univ. of London, Silwood, Great Britain.Google Scholar
14.Lim, G.S., Loke, W. H., Chan, H. H., and Syed, A. R.. 1988. Management of vegetables in Malaysia. Paper presented at the Informal Expert Consultation on IPM in Major Vegetable Crops in Asia. Sponsored by FAO, Regional Office for Asia and the Pacific, Bangkok, Thailand.Google Scholar
15.Loke, W.H., Lim, G. S., Syed, A. R., Aziz, A. M. Abdul, Rani, M. Y., Jusoh, M. Md., and Cheah, U. B.. 1990. IPM on the diamond-back moth in Malaysia: Development, implementation, and impact. Paper presented at Second International Workshop on the Management of DBM and Other Cruciferous Pests. Asian Vegetable Research and Development Center, Shanhua, Taiwan.Google Scholar
16.Menanteau-Horta, D., Juffer, V. M., Maxwell, B., and Kroese, R.. 1991. Sustainable agriculture in Minnesota. Phase I Report. Center for Rural Social Development, Univ. of Minnesota, St. Paul.Google Scholar
17.Mohamed, Z.A., Mohayidin, M. G., Taylor, D. C., Shamsudin, M. N., and Chiew, E.F. C.. (in press). Adoption of sustainable production practices: English cabbage farmers in Malaysia. J. Sustainable Agric.Google Scholar
18.Nordin, M.S. 1981. Vegetable farming in Cameron Highlands. In T. H. Ding, P. Vimala, and Yusoh Salleh (eds). An Agro-Economic Survey of Vegetable Farming in Peninsular Malaysia. Malaysian Agric. Research and Development Inst., Kuala Lumpur, pp. 123138.Google Scholar
19.Ooi, P.A.C. 1979. An ecological study of the diamond-back moth in Cameron Highlands and its possible biological control with introduced parasites. M.Sc. thesis. Dept. of Zoology, Univ. of Malaya, Kuala Lumpur.Google Scholar
20.Sivapragasam, A., Lim, G. S., and Ruwaida, M.. 1985. Experimental trials of an integrated pest management programme for Plutella xylostella L. In Proceedings of the Seminar on Integrated Pest Management in Malaysia. Malaysian Plant Protection Soc., Kuala Lumpur.Google Scholar
21.Sudderuddin, K.I., and Kok, P. F.. 1978. Insecticide resistance in Plutella xylostella collected from the Cameron Highlands. FAO Plant Protection Bull. 26:5357.Google Scholar
22.Taylor, D.C. 1990. On-farm sustainable agriculture research: Lessons from the past, directions for the future. J. Sustainable Agric. 1(2)4387.Google Scholar
23.Taylor, D.C., Mohamed, Z.A., Shamsudin, M. N., Mohayidin, M. G., and Chiew, F. C.. 1993. Sustainability of English cabbage production practices: Cameron Highlands. Staff Pap. 1/93. Faculty of Economics and Management, Malaysian Agric. Univ., Serdang, Malaysia.Google Scholar
24.Vimala, P., and Chan, S. K.. 1990. Tanah dan pembajaan (Land and fertilizer). In Panduan Pengeluaran Sayur-Sayuran (Recommended Production Practices for Vegetables). Diversified Crops Research Section, Malaysian Agric. Research and Development Inst., Kuala Lumpur.Google Scholar