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Impact of climatic and other environmental changes on food production and population health in the coming decades

Published online by Cambridge University Press:  28 February 2007

A. J. McMichael*
Affiliation:
Department of Epidemiology and Population Health, London School of Hygiene and Tropical Medicine, Keppel Street, London WC1E 7HT, UK
*
Corresponding Author: Professor A. J. McMichael, fax +44 20 7580 6897, email [email protected]
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Abstract

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World population will reach an estimated nine billion by 2050. Given this factor and continued economic development in today's low-income countries, the total global demand for food will increase approximately threefold over the coming half-century. Meanwhile, against this background, newly-occurring global environmental changes such as climate change are anticipated to affect food production. Other incipient large-scale environmental changes likely to affect food production include stratospheric O3 depletion, the accelerating loss of biodiversity (with knock-on effects on crop and livestock pest species) and the perturbation of several of the great elemental cycles of N and S. The ways in which these various environmental influences affect the production of food (crops and livestock on land, and wild and cultivated fisheries) are complex and interactive. Uncertainties therefore persist about how global climate change is likely to affect world and regional food production. On balance, recent modelling-based estimates indicate that, in the medium to longer term, if not over the next several decades, climate change is likely to affect crop yields adversely, especially in food-insecure regions. The prospect of increased climatic variability further increases the risks to future food production. Given these possible though uncertain adverse impacts of climatic and other environmental changes on world food production, there is a need to apply the Precautionary Principle. There are finite, and increasingly evident, limits to agro-ecosystems and to wild fisheries. Our capacity to maintain food supplies for an increasingly large and increasingly expectant world population will depend on maximising the efficiency and sustainability of production methods, incorporating socially-beneficial genetic biotechnologies, and taking pre-emptive action to minimise detrimental ecologically-damaging global environmental changes.

Type
International and Public Health Group Symposium on ‘Nutritional challenges in the new millennium’
Copyright
Copyright © The Nutrition Society 2001

References

Boserup, E (1981) Population and Technological Change. Chicago IL: University of Chicago Press.Google Scholar
Bryson, RA & Murray, TJ (1997) Climates of Hunger: Mankind and the World's Changing Weather. Madison, WI: University of Wisconsin Press.Google Scholar
Cohen, JE (1996) How Many People Can the Earth Support? New York: Norton.Google Scholar
Conroy, JP, Seneweera, S, Basra, AS, Rogers, G & Nissenwoller, B (1994) Influence of rising atmospheric CO2 concentrations and temperature on growth, yield and grain quality of cereal crops. Australian Journal of Plant Physiology 21, 741758.Google Scholar
Diamond, J (1997) Guns, Germs and Steel. London: Jonathan Cape.Google Scholar
Dyson, T (1999) Prospects for feeding the world. British Medical Journal 319, 988990.CrossRefGoogle ScholarPubMed
Fagan, B (1999) Floods, Famines and Emperors. El Nino and the Fate of Civilisations. New York: Basic Books.Google Scholar
Food and Agriculture Organization (1999). Food Insecurity Report. 2000. Rome: FAO.Google Scholar
Greenland, DJ, Gregory, PJ & Nye, PH (1998) Land resources and constraints to crop production. In Feeding a World Population of More Than Eight Billion, pp. 3955 [Waterlow, JC, Armstrong, DG, Fowden, L and Riley, R, editors]. Oxford: Oxford University Press.Google Scholar
Intergovernmental Panel on Climate Change (1996). Climate Change 1995. Second Assessment Report, vol. 1. Cambridge: Cambridge University Press.Google Scholar
Intergovernmental Panel on Climate Change (2001) Climate Change 2000. Third Assessment Report. Cambridge: Cambridge University Press.Google Scholar
King, M (1999) Commentary: Bread for the world – another view. British Medical Journal 319, 991.Google Scholar
Malthus, T (1985) An Essay on the Principle of Population (1798). London: Penguin Classics (reprint).Google Scholar
Murray, CJL & Lopez, AD (1996) The Global Burden of Disease. A Comprehensive Assessment of Mortality and Disability from Diseases, Injuries, and Risk Factors in 1990 and Projected to 2020. Boston, MA: Harvard University Press.Google Scholar
Parry, M, Rosenzweig, C, Iglesias, A, Fischer, G & Livermore, M (1999) Climate change and world food security: a new assessment. Global Environmental Change 9, S51S67.CrossRefGoogle Scholar
Powles, JW & McMichael, AJ (2001) Human disease: Effects of economic development. In Encylopaedia of Life Sciences. London: Macmillan (In the Press).Google Scholar
Rogers, G, Milham, PJ, Gillings, M & Conroy, JP (1996) Sink strength may be the key to growth and nitrogen responses in N‐deficient wheat at elevated CO2. Australian Journal of Plant Physiology 23, 253264.Google Scholar
Rosenzweig, C & Iglesias, A (1998) The use of crop models for international climate change impact assessment. In Understanding Options for Agriculture Production, pp. 267292 [Tsuji, G, Hoogrnboom, G and Thorton, PK, editors]. Dortrecht, The Netherlands: Kluwer Academic Publishers.CrossRefGoogle Scholar
Rosenzweig, C, Iglesias, A, Yang, XB, Epstein, PR & Chivian, E (2000) Climate Change and US Agriculture: The Impacts of Warming and Extreme Weather Events on Productivity, Plant Diseases and Pests. Boston, MA: Harvard Medical School, Center for Health and the Global Environment.Google Scholar
Sen, A (1981) Poverty and Famines. An Essay on Entitlement and Deprivation. Oxford: Oxford University Press.Google Scholar
Simon, J (1981) The Ultimate Resource. Princeton, NJ: Princeton University Press.CrossRefGoogle Scholar
Winters, P, Murgai, R, de Janvry, A, Sadoulet, E & Frisvold, G (1999) Climate change and agriculture: effects on developing countries. In Global Environmental Change and Agriculture, pp. 241264 [Frisvold, G and Kuhn, B, editors]. Cheltenham, Glos: Edward Elgar Publishers.Google Scholar