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Meat production in developing countries

Published online by Cambridge University Press:  28 February 2007

Margaret Gill
Margaret Gill*
Affiliation:
Natural Resources International Ltd, Chatham Maritime ME4 4TB, UK
*
Corresponding author: Dr Margaret Gill, fax +44 (0)1634 883937, email e.m.gill@greenwich.ac.uk
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Abstract

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Developing countries have very diverse food consumption patterns and agricultural production systems. The proportion of meat in national diets varies from negligible in some countries in central Africa to 30–40% in some countries in Latin America and Mongolia. However, the demand for meat in developing countries is increasing rapidly (53%/year from 1982 to 1993), as the result of population growth and the trend for people to move to the cities. Growth rates in consumption are greatest in Asia, with China dominating the statistics, in view of the size of its population. Theoretically, livestock production can be increased to meet this demand, but the multiple roles of livestock in developing countries must be recognized if this is to be achieved in a sustainable manner. Resource-poor farmers who keep livestock may value more highly their contribution to livelihoods and to crop production, through provision of draught power and improvements in soil fertility through the recycling of manure, than the production of more meat. Recognition of the goals of the farmer and the wishes of the consumer regarding meat quality need to be reflected in the way in which opportunities for increasing meat production are identified and communicated to farmers. The impact of the global economy on cereal prices, for example, will also influence which interventions will be economically viable. Interpretation of information in an integral manner, using geographical information systems, mathematical models and/or simple spreadsheet models will be an important ingredient in turning scientific knowledge into increased meat production in developing countries.

Keywords

Developing countriesMeatLivestock systemsGlobalization
Type
Animal Nutrition and Metabolism Group Symposium on ‘Improving meat production for future needs’
Information
Proceedings of the Nutrition Society , Volume 58 , Issue 2 , May 1999 , pp. 371 - 376
Copyright
Copyright © The Nutrition Society 1999

References

Brown, LR (1997) Facing the prospect of food scarcity. In State of the World, pp. 2324 [Brown, LR, Flavi, C and French, H, editors]. New York: W.W. Norton & Co.Google Scholar
de Haan, C, Steinfeld, H & Blackburn, H (1997) Livestock and the Environment. Finding a Balance. Brussels: European Commission Directorate-General for Development.Google Scholar
Delgado, CL, Courbois, CB & Rosegrant, MW (1998) Global food demand and the contribution of livestock as we enter the new millennium. In Food, Lands and Livelihoods: Setting Research Agendas for Animal Science. BSAS/KARI/CTA Occasional Publication no. 21, pp. 2742 [Gill, M, Smith, T, Pollott, GE, Owen, E and Lawrence, TLJ, editors]. Edinburgh: British Society for Animal Science.Google Scholar
Hendy, CRC, Kleih, U, Crawshawe, R & Phillips, M (1995) Interactions Between Livestock Production Systems & the Environment. Impact Domain: Concentrate Feed Demand. FAO Consultancy Report. Chatham, Kent: NRI.Google Scholar
Humphreys, LR (1994) Tropical Forages: Their Role in Sustainable Agriculture. Harlow, Essex: Longman Group Limited.Google Scholar
Jahnke, HE (1982) Livestock Production Systems and Livestock Development in Tropical Africa. Kieler Wissenschafstsverlag Vauk.Google Scholar
Lawrence, PR, Djikman, JT & Jansen, HGP (1997) The introduction of animal traction into inland valley regions. Manual labour and animal traction in the cultivation of rice and maize: a comparison. Journal of Agricultural Science 129, 6570.Google Scholar
Loftas, T (1995) Dimensions of Need. An Atlas of Food and Agriculture. Rome: FAO.Google Scholar
McIntire, J, Bourzat, D & Puingali, P (1992) Crop-Livestock Interactions in Sub-Saharan Africa. Washington, DC: World Bank.Google Scholar
Porter, LP, Hrstich, LN & Chan, BG (1986) The conversion of procyanidins and prodelphinidins to cyanidin and delphinidin. Phytochemistry 25, 223230.Google Scholar
Powell, JM, Pearson, RA & Hopkins, JC (1998) Impacts of livestock on crop production. In Food, Lands and Livelihoods: Setting Research Agendas for Animal Science. BSAS/KARI/CTA Occasional Publication no. 21, pp. 5366 [Gill, M, Smith, T, Pollott, GE, Owen, E and Lawrence, TLJ, editors]. Edinburgh: British Society for Animal Science.Google Scholar
Ramaswamy, NS (1985) Draught animal power, socio-economic factors. In Draught Animal Power for Production. ACIAR Proceedings no. 10 [Capland, JW, editors]. Canberra: Australian Centre for Agricultural Research.Google Scholar
Rosegrant, MW, Agcaoili-Sombilla, M & Perez, ND (1995) Global Food Projections to 2020: Implications for Investment. Washington, DC: IFPRI.Google Scholar
Rosegrant, MW, Leach, N & Gerpacio, RV (1999) Alternative futures for world cereal and meat consumption. Proceedings of the Nutrition Society 58, 219234.Google Scholar
Schiere, JB, Kumarcisuntharan, VR, Sewalt, VJH & Brouwer, B (1988) Overcoming the nutritional limitations of rice straw for ruminants: urea ammonia upgrading of straw and supplementation with rice bran and coconut cake for growing bulls. Australian Journal of Animal Science 1, 213218.CrossRefGoogle Scholar
Seré, C & Steinfeld, H (1996) World Livestock Production Systems: Current Status, Issues and Trends. Animal Production and Health Paper no. 127. Rome: FAO.Google Scholar
Sumberg, J & Gilbert, E (1992) Agricultural mechanisation in the Gambia: draught donkeys and minimum tillage. African Livestock Research 1, 110.Google Scholar
Thorne, P & Herrero, M (1998) The role of livestock in natural resources management. In Food, Lands and Livelihoods: Setting Research Agendas for Animal Science. BSAS/KARI/CTA Occasional Publication no. 21 pp. 8794 [Gill, M, Smith, T, Pollott, GE, Owen, E and Lawrence, TLJ, editors]. Edinburgh: British Society for Animal Science.Google Scholar
Theodorou, MK, Williams, BA, Dhanoa, MS, McAllan, ADB & France, J (1994) A simple gas production method using a pressure transducer to determine the fermentation characteristics of ruminant feeds. Animal Feed Science Technology 48, 185197.Google Scholar
von Braun, J & Pandya-Lorch, R (1991) Income Sources of Malnourished People in Rural Areas: Microlevel Information and Policy Implications. IFPRI Working Paper on Commercialization of Agriculture and Nutrition no. 5. Washington, DC: IFPRI.Google Scholar