Abstract
The thesis of this paper is that impacts from climatic change can be evaluated effectively as changes in the frequency of short-term, anomalous climatic events. These can then be expressed as changes in the level of risk of impact from climatic extremes. To evaluate this approach, the risk of crop failure resulting from low levels of accumulated temperature is assessed for oats farming in southern Scotland. Annual accumulated temperatures are calculated for the 323-year-long temperature record compiled by Manley for Central England. These are bridged across to southern Scotland and, by calculating mean levels of risk for different elevations, an average ‘risk surface’ is constructed. One-in-10 and 1-in-50 frequencies of crop failure are assumed to delineate a high-risk zone, which is mapped for the 323-year period by constructing isopleths of these risk levels. By redrawing the risk isopleths for warm and cool 50-year periods, the geographical shift of the high-risk zone is delineated. The conclusion is that relatively recent and apparently minor climatic variations in the United Kingdom have in fact induced substantial spatial changes in levels of agricultural risk. An advantage of expressing climatic change as a change in agricultural risk is that support programs for agriculture can be retuned to accommodate acceptable frequencies of impact by adjusting support levels to match new risk levels.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Carter, T.R. and Parry, M.L.: 1984, ‘Strategies for Assessing Impacts of Climatic Change in Marginal Areas’, in N.-A. Mörner and W. Karlén (eds.), Climatic Changes on a Yearly to Millennial Basis, D. Reidel, Dordrecht, Netherlands, pp. 401–412.
Edwards, C.: 1978, ‘Gambling, Insuring and the Production Function’, Agric. Econ. Res. 30, 25–28.
Jutikkala, E.: 1955, ‘The Great Finnish Famine in 1696–7’, Scand, Econ. Hist. Rev. 3, 48–63.
Manley, G.: 1945, ‘The Effective Rate of Altitudinal Change in Temperate Atlantic Climates’, Geogrl. Rev. 35, 408–417.
Manley, G.: 1951, ‘The Range of Variation of the British Climate’, Geogrl. J. 117, 43–68.
Manley, G.: 1953, ‘The Mean Temperature of Central England, 1698–1952’, Quart. J. R. Met. Soc. 79, 242–261.
Manley, G.: 1974, ‘Central England Temperatures: Monthly Means 1659 to 1973’, Quart. J. R. Met. Soc. 100, 389–405.
Newman, J.E.: 1980, ‘Climate Change Impacts on the Growing Season of the North American Corn Belt’, Biometeorology 7, 128–142, Supplement to Int. J. Biometeor. 24.
Nuttonson, M.Y.: 1955, Wheat-Climate Relationships and the Use of Phenology in Ascertaining the Thermal and Photo-Thermal Requirements of Wheat, American Institute of Crop Ecology, Washington, D.C.
Parry, M.L.: 1975, ‘Secular Climatic Change and Marginal Agriculture’, Trans. Inst. Br. Geogr. 64, 1–18.
Parry, M.L.: 1976, ‘The Significance of the Variability of Summer Warmth in Upland Britain’, Weather 31, 212–217.
Parry, M.L.: 1978, Climatic Change, Agriculture and Settlement, Dawson, Folkestone, U.K.
Pearson, M.G.: 1973, ‘Snowstorms in Scotland, 1782–86’, Weather 28, 195–201.
Perry, P.J.: 1974, British Farming in the Great Depression: An Historical Geography, 1870–1914, David and Charles, Newton Abbott, U.K.
Royal Commission: 1883, Royal Commission on the Depressed Conditions of Agricultural Interests (the Richmond Commission), Cmnd. 2778.
The Satistical Account of Scotland: 1791–99, Sir John Sinclair (ed.), Edinburgh.
Williams, G.D.V. and Oakes, W.T.: 1978, ‘Climatic Resources for Maturing Barley and Wheat in Canada’, in K.D. Hage and E.R. Reinelt (eds.), Essays on Meteorology and Climatology: In Honour of Richmond W. Longley, Studies in Geography Monograph 3, Department of Geography, University of Alberta, Edmonton, Canada, pp. 367–385.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Parry, M.L., Carter, T.R. The effect of climatic variations on agricultural risk. Climatic Change 7, 95–110 (1985). https://doi.org/10.1007/BF00139443
Issue Date:
DOI: https://doi.org/10.1007/BF00139443