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Tropical forests: much more than stocks of wood

Published online by Cambridge University Press:  10 July 2009

Norman Myers
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Abstract

Tropical forests offer many more products than the category for which they are best known, viz. wood products. They can supply a host of raw materials, such as resins, oils, fibres and fruits, which collectively represent a commercial value far higher than is generally recognized. In addition they provide an exceptional abundance and variety of genetic resources, which make substantial contributions to modern agriculture, medicine, industry and energy. On top of these materials, tropical forests supply significant environmental benefits, such as protection of the soil and safeguards for watershed systems. While it is sometimes difficult to quantify the economic values of these diverse goods and services, they are often to be reckoned as equal to, if not higher than, the marketplace values represented by the commercial hardwood timber. Yet when the forests are exploited for their hardwood timber, the process is usually so disruptive to forest ecosystems that the other outputs are severely reduced. By contrast, one may exploit the forests for their other outputs with virtually no disruption to forest ecosystems. The paper describes the main categories of non-wood products available from tropical forests, analyses their relative worth, and offers summarized proposals for an expanded approach to forest development in order to take integrative account of the full range of forest benefits.

Keywords

economic externalitiesenvironmental servicesgenetic resourcesinter-sectoral linkagesminor forest productstropical forests
Type
Research Article
Information
Journal of Tropical Ecology , Volume 4 , Issue 2 , May 1988 , pp. 209 - 221
Copyright
Copyright © Cambridge University Press 1988

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References

LITERATURE CITED

Ajayi, S. S. 1979. Utilization of forest wildlife in West Africa. Food and Agriculture Organization, Rome.Google Scholar
Agarwal, A. & Narain, S. (eds). 1985. The state of India's environment 1984–85: the Second Citizen's Report. Centre for Science and Environment, New Delhi, India.Google Scholar
Ba, L. K. 1977. Bio-economics of trees in native Malayan forests. Department of Botany, University of Malaya, Kuala Lumpur.Google Scholar
Balick, M.J. 1979. Amazonian oil palms of promise: a survey. Economic Botany 33 1:1128.CrossRefGoogle Scholar
Burgess, P. F. 1973. The impact of commercial forestry on hill forest of the Malay Peninsula. Pp. 131136 in Soepadmo, E. S. & Singh, K. G. (eds). Proceedings of symposium on biological resources and national development. Malayan Nature Society, Kula Lumpur, Malaysia.Google Scholar
Caldecott, J. O. 1986. Hunting and wildlife management in Sarawak: final report. World Wildlife Fund, Kuala Lumpur, Malaysia.Google Scholar
Charreau, C. 1972. Problemes poses par l'utilisation agricole des sols tropicaux. Agronomie Tropical (France) 27:905929.Google Scholar
Cleave, J. 1986. Philippines Central Visayas Regional Project, I: The National Fisheries Sector. Working Paper No. 3. The World Bank, Washington DC.Google Scholar
Cornelius, L. 1984. Bamboo and rattan: restoring the ‘most neglected’ resources of Southeast Asia. International Development Research Centre, Ottawa.Google Scholar
Daniel, J. G. & Kulasingam, A. 1974. Problems arising from large-scale forest clearing for agricultural use. Malaysian Forester 37:152160.Google Scholar
Davey, F. B. & Graham, M. 1982. Bivalve culture in Asia and the Pacific. International Development Research Center, Ottawa.Google Scholar
Dew An, M. L. & Sharma, S. 1985. People's participation as a key to Himalayan eco-system development. Center for Policy Research, New Delhi.Google Scholar
Dosso, H., Guillaumet, J. L. & Hadley, M. 1981. The Tai Project: land use problems in a tropical forest. Ambio 10:120125.Google Scholar
Duke, J. A. 1982. Contributions of neotropical forests to cancer research. Economic Botany Laboratory, US Department of Agriculture, Beltsville, Maryland.Google Scholar
Ehrlich, P. R. & Ehrlich, A. H. 1981. Extinction: the causes and consequences of the disappearance of species. Random House, New York.Google Scholar
El-Swaify, S. A., Dangler, E. W. & Armstrong, C. L. 1982. Soil erosion by water in the tropics. Research Extension Series 024, College of Tropical Agriculture and Human Resources, University of Hawaii, Honolulu, Hawaii.Google Scholar
Farnsworth, N. R. & Soejarto, D. D. 1985. Potential consequences of plant extinction in the United States on the current and future availability of prescription drugs. Economic Botany 39:231240.CrossRefGoogle Scholar
Fisher, A. C. 1982. Economic analysis and the extinction of species. Department of Agricultural and Resource Economics, University of California, Berkeley, California.Google Scholar
FAO/UNEP. 1982. Tropical forest resources. Food and Agriculture Organization, Rome, and United Nations Environment Programme, Nairobi.Google Scholar
Gentry, A. H. & Lopez-Parodi, J. 1980. Deforestation and increased flooding of the Upper Amazon. Science 210:13541356.CrossRefGoogle ScholarPubMed
Gillis, M. 1986. Non-wood forest products in Indonesia. Department of Forestry, University of North Carolina, Chapel Hill, North Carolina.Google Scholar
Gupta, T. & Guleria, A. 1982. Non-wood forest products in India. IBH Publishing Company, New Delhi.Google Scholar
Haigh, M. J. 1982. Soil erosion and soil conservation research in India: an annotated bibliography. Oxford Polytechnic, Oxford, UK.Google Scholar
Hamilton, L. S. & King, P. M. 1983. Tropical forested watersheds: hydrologic and soils response to major uses or conversions. Westview Press, Boulder, Colorado.Google Scholar
Iltis, H. H., Doebley, J. F., Guzman, R. M. & Pazy, B. 1979. Zea diploperennis (Gramineae), a new teosinte from Mexico. Science 203:186188.CrossRefGoogle ScholarPubMed
Jackson, I. J. 1971. Problems of throughfall and interception assessment in a tropical forest. Journal of Hydrology 12:179189.CrossRefGoogle Scholar
Jacobs, M. 1982. The study of minor forest products. Flora Malesiana Bulletin 35:37683782.Google Scholar
Joseph, K. T. 1985. Effect of rural development on soils and hydrology of tropical rain forest areas. The Environmentalist (Suppl. 10) 5:3639.Google Scholar
Lasschuit, J. A. & Van Eerd, F. A. C. M. 1983. Minor forest products and non-timber products of the forest. University of Wageningen, Netherlands.Google Scholar
Low, K. S. & Goh, K. C. 1972. The water balance of five catchments in Selangor, West Malaysia. Journal of Tropical Geography 35:6066.Google Scholar
Martin, F. W. & Ruberte, R. M. 1979. Edible leaves of the tropics. Institute of Tropical Agriculture, Mayaguez, Puerto Rico.CrossRefGoogle Scholar
Morgan, R. P. C., Hatch, T. & Harun, W. S. W. 1982. A simple procedure for assessing soil erosion risk: a case study for Malaysia. Zeitschrift für Geomorphologie, Supplement Band 44:6988.Google Scholar
Myers, N. 1983a. A wealth of wild species. Westview Press, Boulder, Colorado.Google Scholar
Myers, N. 1983b. Tropical moist forests: over-exploited and under-utilized? Forest Ecology and Management 6:5979.CrossRefGoogle Scholar
Myers, N. 1984. The primary source. W. W. Norton, New York and London.Google Scholar
Myers, N. 1985. Tropical deforestation and species extinctions: the latest news. Futures 17:451463.CrossRefGoogle Scholar
Myers, N. 1987. Tackling mass extinction of species: a great creative challenge. Albright Lecture in Conservation, University of California, Berkeley, California.Google Scholar
National Academy of Sciences. 1975. Underexploited tropical plants with promising economic value. National Academy of Sciences, Washington, DC.Google Scholar
National Academy of Sciences. 1979. Tropical legumes: resources for the future. National Academy of Sciences, Washington, DC.Google Scholar
National Commission on Floods, Government of India. 1980. A report: emergent problems, with special respect to irrigation. National Commission on Floods, New Delhi, India.Google Scholar
Nault, L. R. & Findley, W. R. 1981. Primitive relative offers new traits for corn improvement. Ohio Report 66:9092.Google Scholar
Nik, A. R. 1985. Watershed management in Malaysia: a perspective. Wallaceana 42:38.Google Scholar
Old Field, M. L. 1984. The value of conserving genetic resources. National Parks Service, Washington, DC.Google Scholar
Paucar, A. & Gardiner, A. L. 1981. Establishment of a scientific research station in the Yasuni National Park of the Republic of Ecuador. National Forestry Program, Ministry of Agriculture, Quito.Google Scholar
Pearce, D. W. 1985. The major consequences of land and water mismanagement in developing countries. World Bank, Washington, DC.Google Scholar
Perry, L. M. 1980. Medicinal plants of East and Southeast Asia. MIT Press, Cambridge, Massachusetts.Google Scholar
Principe, P. P. 1985. The value of biological diversity among medicinal plants. Environment Directorate, Organization for Economic Cooperation and Development, Paris, France.Google Scholar
Pryor, L. D. 1982. Ecological mismanagement in natural disasters. The Environmentalist (Suppl. 2) 2:114.CrossRefGoogle Scholar
Raven, P. H. 1987. We're killing our world. Keynote paper presented to Annual Conference of American Association for the Advancement of Science, Chicago, February 1987. Missouri Botanical Garden, St Louis, Missouri.Google Scholar
Salati, E. & Vose, P. B.. 1984. Amazon Basin: a system in equilibrium. Science 225:129138.CrossRefGoogle Scholar
Sale, J. B. 1983. The importance and values of wild plants and animals in Africa. International Union for Conservation of Nature and Natural Resources, Gland.Google Scholar
Samson, J. A. 1980. Tropical fruits. Longman Inc., New York.Google Scholar
Schultes, R. E. 1980. The Amazonia as a source of new economic plants. Economic Botany 33:259266.CrossRefGoogle Scholar
Sellers, P. J. & Lockwood, J. G. 1981. A computer simulation of the effects of different crop types on the water balance of small catchments over a long time period. Quarterly Journal of the Royal Meteorological Society 107:395414.CrossRefGoogle Scholar
Staritsky, G. 1980. Is there a future for medicinal crops? Span 23:882.Google Scholar
Tcheknavorian-Asenbauer, A. & Wijesekera, R. O. B. 1982. Medicinal and aromatic plants for industrial development. United Nations Industrial Development Organization, Vienna.Google Scholar
Tejwani, K. G., Gupta, S. K. & Mathur, H. N. (eds) 1975. Soil and water conservation research. Indian Council of Agricultural Research, New Delhi.Google Scholar
UNCTAD. 1982. Trade and development report. United Nations Conference on Trade and Development, Geneva.Google Scholar
UNESCO. 1981. Proceedings of the Fourth Asian Symposium on Medicinal Plants and Spices. Bangkok, Thailand, 09 1980. UNESCO Special Publications, UNESCO, Paris.Google Scholar
Vickers, W. T. 1984. The faunal components of lowland South American hunting kills. Interciencia 9:366376.Google Scholar
Williams, J. & Hamilton, L. S. 1982. Watershed forest influences in the tropics and subtropics: a selected, annotated bibliography. Environment and Policy Institute, The East-West Center, Honolulu, Hawaii.Google Scholar
Williams, J. T., Lamoureux, C. H. & Wulijarni-Soetjipto, N. (eds). 1975. Southeast Asian plant genetic resources. BIOTROP, Bogor.Google Scholar
World Bank. 1978. Forestry: sector policy paper. World Bank, Washington, DC.Google Scholar