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Economic Value of Desert Plants: Acacia Trees in the Wadi Allaqi Biosphere Reserve

Published online by Cambridge University Press:  24 August 2009

Irina Springuel  and
Abdel Moneim Mekki
Irina Springuel
Affiliation:
Faculty of Science, Aswan Branch, Assiut University, Aswan, Egypt
Abdel Moneim Mekki
Affiliation:
Regional Planning Centre, Aswan, Egypt.
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Extract

Acacia trees form a principal element of desert plant communities in Egypt's Southeastern Desert. They are widespread in remote desert areas but sparse near settlements and urban areas as a result of human impact. However, sustainable use of Acacia trees remains an important component in the livelihood of nomadic people living in remote desert areas.

The present paper discusses the economic and ecological value of Acacia trees in the Wadi Allaqi basin. The total population of Acacia trees in this area is estimated at approximately 13,000 trees. What will be the fate of this population, from which the annual production of charcoal amounts to 10–15 tons? The present work attempts to answer this question by analysing the economic system of the local nomadic population and the ecological characteristics of Acacia trees, coming to reasonably optimistic conclusions.

Type
Main Papers
Information
Environmental Conservation , Volume 21 , Issue 1 , Spring 1994 , pp. 41 - 48
Copyright
Copyright © Foundation for Environmental Conservation 1994

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References

Batisse, M. (1993). The Silver Jubilee of MAB and its Revival. Environmental Conservation, 20(2), pp. 107–12 (4 figs).CrossRefGoogle Scholar
Baumer, M. (1990). Agroforestry and Desertification. Technical Center for Agricultural and Rural Cooperation, Wageningen, The Netherlands: 250 pp., illustr.Google Scholar
Belal, A. (1992). The Allaqi Project Management and Output. (Allaqi Project Working Paper, Nr 17.) University of Glasgow and Faculty of Science in Aswan, Assiut University, Egypt: 8 pp., illustr.Google Scholar
Briggs, J., Dickinson, G., Murphy, K., Pulford, I., Belal, A.E., Moalla, S., Springuel, I., Ghabbour, S.I. & Mekki, A.M. (1993). Sustainable development and resource management in marginal environment: Natural resources and their use in the Wadi Allaqi region of Egypt. Applied Geography, 13(3), pp. 259–84.CrossRefGoogle Scholar
Butzer, K. (1976). Early Hydraulic Civilisation in Egypt. University of Chicago Press, Chicago, Illinois, USA: xv + 134 pp., illustr.Google Scholar
Everist, S.L. (1969). Use of Fodder Trees and Shrubs. (Advisory Leaflet 1024.) Division of Plant Industry, Department of Primary Industries. [Not available for checking.]Google Scholar
Ghabbour, S.I. & Ayyad, M.A. (Eds) (1990). The State of the Rural Environment in Developing Countries: Problems, Solutions and Research Priorities. Third Symposium for Environmental Sciences in Developing Countries: Environmental Considerations in Rural Development. Academy of Scientific Research and Technology, Cairo, Egypt: v + 538 pp., illustr.Google Scholar
Goodin, J.R. & Northington, O.K. (Eds) (1979). Arid Land Plant Resources. Proceedings of the International Arid Lands Conference on Plant Resources, Texas Technical University, Lubbock, Texas, USA: 724 pp., illustr.Google Scholar
Goodman, S.M. & Hobbs, J.J. (1988). The ethnobotany of the Egyptian Eastern Desert: a comparison of common plant usage between two culturally distinct Bedouin groups. Journal of Ethnopharmacology, 28, pp. 7389, illustr.CrossRefGoogle Scholar
Hobbs, J.J. (1985). Bedouin conservation of plants and animals in the Eastern Desert, Egypt. Conference on Arid Lands: Today and Tomorrow, University of Arizona, Tucson, Arizona, USA: pp. 9971005, illustr.Google Scholar
Ibrahim, M. (Ed.) (1993). Conservation Areas in Egypt. Egyptian Environment Affairs Agency (EEAA), Cairo, Egypt: 156 pp., illustr. [in Arabic].Google Scholar
Kassas, M. & Girgis, W.A. (1970). Plant life in the Nubian Desert east of the Nile, Egypt. Bulletin de l'Institut d'Egypte, LI, pp. 4771.Google Scholar
McNeely, J.A. (1988). Economics and Biological Diversity: Developing and Using Economic Incentives to Conserve Biological Resources. IUCN, Gland, Switzerland: xiv + 232 pp.Google Scholar
Mekki, A.M. & Briggs, J. (1991). The Economic System of Wadi Allaqi (Allaqi Project Working Paper, Nr 11.) University of Glasgow and Faculty of Science in Aswan, Assiut University, Egypt: 17pp.Google Scholar
Murphy, K.J., Springuel, I. & Sheded, M. (MS). Classification of Desert Vegetation Using a Multivariate Approach: A Case-study of the Wadi Allaqi System (Southeastern Desert of Egypt).Google Scholar
Murray, G. (1951). The Egyptian climate: An historical outline. Geographical Journal, 117, pp. 422–34.CrossRefGoogle Scholar
Scholte, P.T. (1992). Leaf litter and Acacia pods as feed for livestock during the dry season in Acacia-Commiphora bushland, Kenya. Journal of Arid Environments, 22, pp. 271–6.CrossRefGoogle Scholar
Shaheen, A.S., Springuel, I. & Murphy, K. J. (1993). The plant ecology of Lake Nasser and Wadi Allaqi, 5: Factors influencing the establishment and survival of Acacia seedlings in Wadi Allaqi. (University of Glasgow and Faculty of Science in Aswan, Assiut University.) Allaqi Project Working Paper Nr 23, 23 pp.Google Scholar
Springuel, I. (1990). African arid land vegetation resources. In Environmental Management of African Arid Lands (EMAL Conference). University of Glasgow and Faculty of Science on Aswan, Assiut University (Allaqi Project Working Paper). Special Publication: pp. 14–5. [Not available for checking.]Google Scholar
Springuel, I. (1991). Plant Ecology of Wadi Allaqi and Lake Nasser 4: Basis for Economic Utilisation and Conservation in the Wadi Allaqi Conservation Area, Egypt. University of Glasgow and Faculty of Science in Aswan, Assiut University (Allaqi Project Working Paper, Nr 13), 10 pp.Google Scholar
Springuel, I., Hassan, L.M., Sheded, M. & El-Soghir, M. (1991 a). Floristic Account on the Wadi Allaqi Region. University of Glasgow and Faculty of Science in Aswan, Assiut University (Allaqi Project Working Paper, Nr 10), 14 pp., illustr.Google Scholar
Springuel, I., El-Hadidi, M.N. & Sheded, M. (1991 b). Plant communities in the southern part of the Eastern Desert (Arabian Desert) of Egypt. Journal of Arid Environments, 21, pp. 307–17.CrossRefGoogle Scholar
Springuel, I., Ali, M. & Mohsen, L. (in prep.). Wadi Egat, as the Core Area of Wadi Allaqi Biosphere Reserve.Google Scholar
Tolba, M.K. & El-Kholy, O. (Eds) (1992). The World Environment 1972– 1992: Two Decades of Challenge. Chapman & Hall, London, England, UK: xi + 884 pp., illustr.CrossRefGoogle Scholar