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Tree Crops and Farming Systems Development in the Humid Tropics

Published online by Cambridge University Press:  03 October 2008

G. A. Watson
Affiliation:
Highmeads, Upperfield, Midhurst, Sussex GU29 9AE, England

Summary

Examples are presented of tropical tree commodity plantation crops, tea, coffee, rubber and oil palm, as models for farm system development. They are environmentally benign in comparison with annual food crops, have been organized on a large scale with smallholder participation, and make significant contributions to local and national economies. It is suggested that lessons learned in their development might be used in the large-scale development of other potentially major tree crops, including timber, fruit and nut producing species.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1990

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References

REFERENCES

Anon. (1978). Kenya: Smallholder Coffee Improvement Project. Staff Appraisal Report. Vol 1. Report No. 2253-KE. Washington, DC: World Bank.Google Scholar
Anon. (1980). East Kalimantan Transmigration Area Development Project. Working Paper: Integrated Development Planning in East Kalimantan. German Agency of Technical Cooperation.Google Scholar
Anon. (1984). Malawi: Agricultural Diversification. Report No. 4898-MAI. Washington, DC: World Bank.Google Scholar
Agarwal, A. & Narain, S. (1985a). Social forestry. In The State of India's Environment. 1984–85, 5162. New Delhi: Centre for Science and Environment.Google Scholar
Agarwal, A. & Narain, S. (1985b). The great eucalyptus debate. In The State of India's Environment. 1984–85. 6371. New Delhi: Centre for Science and Environment.Google Scholar
Anderson, J. R. & Dillon, J. L. (1985). Farming systems research at the International Agricultural Research Centres and other International Groups. In Agricultural Systems Research for Developing Countries, 141147, Proceedings of an International Workshop held at Hawkesbury Agricultural College, Richmond, NSW, Australia, 12–15 May 1985 (Ed. Remenyi, J. V.). Canberra: Australian Centre for International Agricultural Research.Google Scholar
Arnold, J. E. M. (1987). Community forestry. Ambio 16 (2–3):122128.Google Scholar
Bamaby, F. (1988). The state of the world population Ambio 17 (5):352353.Google Scholar
Burley, J. (1987a). Biological potential for genetic improvement of trees used in agroforestry systems. In Agroforestry: Problems and Applied Research Perspectives (Eds Bentley, W. and Khosala, P. K..).Google Scholar
Burley, J. (1987b). Applications of biotechnology in forestry and rural development. Commonwealth Forestry Review 66:357367.Google Scholar
Burley, J. & Ikemori, Y. K. (1988). Tropical forest production: the impact of clonal propagation technology. RASE Symposium,June 1988.Google Scholar
Byron, R. N. (1985). Farming systems research in South Asia. In Agricultural Systems Research for Developing Countries, 134140, Proceedings of an International Workshop held at Hawkesbury Agricultural College, Richmond, NSW, Australia, 12–15 May 1985 (Ed. Remenyi, J. V.). Canberra: Australian Centre for International Agricultural Research.Google Scholar
Cannell, M. G. R. & Jackson, J. E. (1985). Attributes of Trees as Crop Plants. Huntingdon: Institute of Terrestrial Ecology.Google Scholar
Chalarca, J. (1987). El Cafe en la Vida de Colombia. Bogota: Federación Nacional de Cafeteros de Colombia.Google Scholar
Conway, G. R. (1985). Agricultural ecology and farming systems research. In Agricultural Systems Research for Developing Countries, 4359, Proceedings of an International Workshop held at Hawkesbury Agricultural College, Richmond, NSW, Australia, 12–15 May 1985 (Ed. Remenyi, J. V.). Canberra: Australian Centre for International Agricultural Research.Google Scholar
Cramer, P. J. S. (1957). A Review of Coffee Research in Indonesia. Turrialba, Costa Rica: IIAC.Google Scholar
Cromwell, G. (1986). Evaluation of Benefits, Problems and Constraints faced by Smallholder Farmers under the Smallholder Tea Authority in Malawi. MSc Dissertation, University of Reading.Google Scholar
Clement, C. R. (1989). The potential use of pejibaye palm in agroforestry systems. Agroforestry Systems 7:201212.CrossRefGoogle Scholar
De Graaf, J. (1986). The Economics of Coffee. Economics of Crops in Developing Countries. No. 1. Wageningen: PUDOC.Google Scholar
Denamany, G. & Ahmad, Md. Sharif bin. (1978). Coconut intercropping systems in Peninsular Malaysia. In Proceedings of an International Conference on Cocoa and Coconut, 14–17 June, Kuala Lumpur, 621633.Google Scholar
Farrington, J. (1988). Farmer participatory research: editorial introduction. Experimental Agriculture 24:269279.CrossRefGoogle Scholar
Arshad, Fatimah Mohd., Mohayidin, Mohd. Ghazali & Gibbons, E. T. (1988). Malaysian plantations and smallholders: some subjective comparisons of performance. The Planter 64 (743):7686.Google Scholar
Federación Nacional de Cafeteros de Colombia (1983). Censo Cafetero Nacional, 1980–81. Bogota: Federación National de Cafeteros de Colombia.Google Scholar
Federación National de Cafeteros de Colombia (1986). Boletin de Informacion Estadistica Sobre Cafe, Numero 50 – 1986. Bogota: Federación National de Cafeteros de Colombia.Google Scholar
Fiennes, D. E. M. (1985). Smallholder rubber and oil palm development in1 Peninsular Malaysia. Tropical Agriculture Association Newsletter 5(2):1018.Google Scholar
Flach, M. & Schuiling, D. L. (1989). Revival of an ancient starch crop: a review of the agronomy of the sago palm. Agroforestry Systems 7:259281.CrossRefGoogle Scholar
Glasby, G. P. (1988). Entropy, pollution and environmental degradation. Ambio 17:330335.Google Scholar
Goldthorpe, C. C. (1989a). A definition and typology of plantation agriculture. Part 1. The Planter 65 (758):180188.Google Scholar
Goldthorpe, C. C. (1989b). A definition and typology of plantation agriculture. Part 2. The Planter 65 (759):216231.Google Scholar
Hall, P. G. S. (1987). Project completion and supervision report. Office of the Rubber Replanting Aid Fund, 2nd and 3rd Replanting Project, Thailand. London: Commonwealth Development Corporation.Google Scholar
Hall, P. G. S. (1988). Smallholder Tea Authority, Malawi, Supervision Report No. 3. London: Commonwealth Development Corporation.Google Scholar
Huxley, P. A. (1983). Plant Research and Agroforestry. Nairobi, Kenya: International Council for Research in Agroforestry.Google Scholar
Jamaludin, Lamin. (1988). Smallholder management in oil palm industry: Malaysian experience. The Planter 64 (752):482504.Google Scholar
King, K. F. S. & Chandler, M. T. (1978). The Wasted Lands. The Programme of Work of ICRAF, Nairobi. Nairobi: International Council for Research in Agroforestry.Google Scholar
Lamb, G. & Muller, L. (1982). Control, accountability, and incentives in a successful development institution: the Kenya Tea Development Authority. World Bank Staff Working Papers, No. 550. Washington, DC: World Bank.Google Scholar
Leakey, R. R. B. (1987). Clonal forestry in the tropics - a review of developments, strategies and oppotunities. Commonwealth Forestry Review 88:6175.Google Scholar
Lundgren, B. (1987). ICRAF's first ten years. Agroforestry Systems 5:197217.CrossRefGoogle Scholar
McConnell, D. J. & Dharmapala, K. A. E. (1978). The forest gardens of Kandy. A paper based on Farm Management Report No. 7, Economic Structure of Kandyan Forest-Garden Farms. FAO Agricultural Diversification Project, Peradeniya, Sri Lanka, 1973. Rome: FAO.Google Scholar
Mantell, S. (1989). Recent advances in plant biotechnology for Third World countries. In Agricultural Biotechnology Prospects for the Third World, 2740 (Ed. Farrington, J.). London: Overseas Development Institute.Google Scholar
Masaba, D. M., Owuor, J. B. O. & Gathaara, M. P. H. (1986). Arabica coffee production in Kenya: an overview. Outlook on Agriculture 15 (2):8892.CrossRefGoogle Scholar
Michon, G., Mary, F. & Bompard, J. (1986). Multistoried agroforestry garden system in West Sumatra, Indonesia. Agroforestry Systems 4:315338.CrossRefGoogle Scholar
Nair, P. K. R. (1979). Intensive Multiple Cropping with Coconuts in India. Berlin and Hamburg: Verlag Paul Parey.Google Scholar
Nair, M. A. & Sreedharan, C. (1986). Agroforestry fanning systems in the homesteads of Kerala, southern India. Agroforestry Systems 4:339363.CrossRefGoogle Scholar
Nwonwu, F. O. C. (1987). Cost minimization through the use of taungya system in pulpwood plantation establishment. Agroforestry Systems 5:455462.CrossRefGoogle Scholar
Pick, P. J. (1985). Babassu (Orbignya species): Gradual Disappearance vs. Slow Metamorphosis to Integrated Agribusiness. New York: New York Botanical Garden Institute of Economic Botany.Google Scholar
Plucknett, D. L., Dillon, D. L. & Vallaeys, G. J. (1987). Review of concepts of farming systems research: the what, why and how. In Proceedings of a Workshop on Fanning Systems Research, February 1986, 1721. India: ICRISAT.Google Scholar
Raintree, J. B. & Warner, K. (1986). Agroforestry pathways for the intensification of shifting cultivation. Agroforestry Systems 4:3954.CrossRefGoogle Scholar
Rappaport, R. A. (1971). The flow of energy in an agricultural society. Scientific American, September 1971:117132.Google Scholar
Remenyi, J. V. (1985). Opportunities for farming systems research collaboration: issues and recommendations. In Agricultural Systems Research for Developing Countries, 714, Proceedings of an International Workshop held at Hawkesbury Agricultural College, Richmond, NSW, Australia, 12–15 May 1985 (Ed.Remenyi, J. V.). Canberra: Australian Centre for International Agricultural Research.Google Scholar
Remenyi, J. V. & Coxhead, I. (1985). Fanning systems research in Australia: results of a survey. In Agricultural Systems Research for Developing Countries, 96106, Proceedings of an International Workshop held at Hawkesbury Agricultural College, Richmond, NSW, Australia, 12–15 May 1985 (Ed. Remenyi, J. V.). Canberra: Australian Centre for International Agricultural Research.Google Scholar
Samson, J. A. (1986). Tropical Fruits. Harlow: LongmanGoogle Scholar
Sands, D. B. (1986). Farming systems research: clarification of terms and concepts. Experimental Agriculture 22:87104.CrossRefGoogle Scholar
Sanwal, M. (1988). Community forestry: policy issues, institutional arrangements, and bureaucratic reorientation. Ambio 17:342348.Google Scholar
Schluter, M. (1984). Constraints on Kenya's food and beverage exports. Research Report 44. Nairobi: International Food Policy Research Institute/Institute for Developing Studies.Google Scholar
Simmonds, N. W. (1985). Farming Systems Research: a Review. Washington, DC: World Bank.Google Scholar
Simmonds, N. W. (1988). A short review of farming systems research in the tropics. Experimental Agriculture 22:113.CrossRefGoogle Scholar
Spears, J. S. (1980). Can farming and forestry co-exist in the tropics? Unasylva 33:212.Google Scholar
Steppler, H. A. & Lundgren, B. O. (1988). Agroforestry: now and in the future. Outlook on Agriculture 17:146152.CrossRefGoogle Scholar
Sumberg, J. & Okali, C. (1988). Farmers, on-farm research and the development of new technology. Experimental Agriculture 24:333342.CrossRefGoogle Scholar
Swynnerton, R. (1982). The role played by the tea estate sector in fostering smallholder tea development. Tropical Agriculture Association Newsletter, December 1982:1019.Google Scholar
Swynnerton, R. (1985). The development of smallholder economic crops. Tropical Agriculture Association Newsletter 5(2):210.Google Scholar
Swynnerton, R. (1986). The development of African agriculture in Kenya. Tropical Agriculture Association Newsletter 6 (2):215.Google Scholar
Ti, Tepn Chuan. (1977). The Rubber Research Institute of Malaysia Experimental Group Fanning Scheme. Paper given at a Seminar on the Experience and Potential for Group Fanning in Asia, sponsored by the Agricultural Development Council of the USA, August 1977, Singapore.Google Scholar
Templeton, J. K. (1978). Natural Rubber. Organisations and Research in Producing Countries. New York: IADS.Google Scholar
Torquebiau, E. (1984). Man-made dipterocarp forest in Sumatra. Aeroforestry Systems 2:103127.CrossRefGoogle Scholar
Vergara, N. T. & Nair, P. K. R. (1985). Agroforestry in the South Pacific region - an overview. Agro-forestry Systems 3:363379.CrossRefGoogle Scholar
Verma, D. P. S. (1988). Fuel and fodder from village foodlots: a Gujarat (India) experience. Agroforestry Systems 7:7793.CrossRefGoogle Scholar
Watson, G. A. (1983). Development of mixed tree and food crop systems in the humid tropics: a response to population pressure and de-forestation. Experimental Agriculture 19:311332.CrossRefGoogle Scholar
Webster, C. C. (1983). Plantations and development: rubber and oil palms in South East Asia. Tropical Agriculture Association Newsletter 3 (1):26.Google Scholar
Webster, C. C. & Baulkwill, W. J. (1989). Rubber. Harlow: Longman.Google Scholar
Webster, C. C. & Watson, G. A. (1988). Tree crops of the humid tropics. Tropical Agriculture Association Newsletter 8 (4): 1119.Google Scholar
Weinstock, J. A. (1985). Alternate cycle agroforestry. Agroforestry Systems 3:387397.CrossRefGoogle Scholar
Wrigley, G. (1988). Coffee. Harlow: Longman.Google Scholar