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Sustainable agriculture in the Corn Belt: Production-side progress and demand-side constraints

Published online by Cambridge University Press:  30 October 2009

David R. Lighthall
Affiliation:
Assistant Professor, Department of Geography, Colgate University, 17 Persson Hall, Hamilton, NY 13346.
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Abstract

This paper explores the constraints to sustainable agriculture in the Com Belt stemming from the trend toward increased farm size and the continued dependence of the region on undifferentiated farm commodities produced for regional, national, and international markets. It is based on a three-county comparison of 14 full-time farmers who have embraced sustainable principles and practices, and a randomly sampled group of 25 farmers. An encouraging finding was the substantial progress made towards lower-input production of com and soybeans by the nine farmers who had adopted the ridge tillage system, which uses elevated seedbeds, banded herbicides, and post-plant nitrogen application to reduce both soil erosion and synthetic chemical inputs while maintaining yields. However, operators of large farms that depend on hired labor and highly dispersed field sites regarded these practices as too risky at their scale of production despite their short-term economic and long-term environmental benefits. The region's commercial farmers appear split between family farmers who wish to avoid the headaches of scale expansion and hired labor, and therefore, embrace more efficient low-input systems such as ridge tillage versus those who reject the increased management intensity and risks of lower-input systems in favor of scale expansion via more chemical-intensive no-till systems. Although ridge tillage represents movement toward low-input cash grain production, low-input production systems alone are not sufficient to improve the underlying social welfare of rural areas. Arresting the trend towards fewer and larger farms will also require development of more specialized or more localized markets for sustainably produced commodities.

Type
Articles
Copyright
Copyright © Cambridge University Press 1996

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References

1.Batie, S., and Taylor, D.B.. 1989. Widespread adoption of non-conventional agriculture: Profitability and impacts. Amer. J. Alternative Agric. 4:128134.CrossRefGoogle Scholar
2.Beyn, E.E. 1982. More Profit with Less Tillage. Beyn Enterprises, Boone, Iowa.Google Scholar
3.Bird, E.R., and Johnson, B.J.. 1995. Future research needs. In Bird, E.R., Bultena, G.L., and Gardner, J.C. (eds). Planting the Future: Developing an Agriculture that Sustains Land and Community, Iowa State Univ. Press, Ames, pp. 219232.Google Scholar
4.Bultena, G.L., Hoiberg, E.O., and Dansingburg, J.. 1995. Impact of sustainable farming on the structure of American agriculture. In Bird, E.R., Bultena, G.L., and Gardner, J.C. (eds). Planting the Future: Developing an Agriculture that Sustains Land and Community, Iowa State Univ. Press, Ames. pp. 6782.Google Scholar
5.Flora, C.B. 1990. Sustainability of agriculture and rural communities. In Francis, C.A., Flora, C.B., and King, L.D. (eds). Sustainable Agriculture in Temperate Zones. John Wiley and Sons, Inc., New York, N.Y. pp. 343359.Google Scholar
6.Forcella, R., and Lindstrom, M.. 1988. Weed seed populations in ridge and conventional tillage. Weed Science 36:500503.CrossRefGoogle Scholar
7.Gillespie, G.W. 1995. Sustainable agriculture and prospects for rural community development in the U.S. Research in Rural Sociology and Development 6:167191.Google Scholar
8.Goodman, D., Sorj, B., and Wilkinson, J.. 1987. From Farming to Biotechnology: A Theory of Agro-Industrial Development. Basil Blackwell, Oxford, England.Google Scholar
9.Hassebrook, C., and Bird, E.R.. 1995. Policy issues and recommendations. In Bird, E.R., Bultena, G.L., and Gardner, J.C. (eds). Planting the Future: Developing an Agriculture that Sustains Land and Community. Iowa State Univ. Press, Ames. pp. 233253.Google Scholar
10.Iowa Cooperative Extension Service. 1990. 1990 Iowa farm custom rate survey. Iowa Cooperative Extension Service, Iowa State Univ., Ames.Google Scholar
11.Laflen, J.M., Lal, R., and El-Swaify, S.A.. 1990. Soil erosion and a sustainable agriculture. In Edwards, C.A., Lal, R., Madden, P., Miller, R.H., and House, G. (eds). Sustainable Agricultural Systems. Soil and Water Conservation Society, Ankeny, Iowa. pp. 569581.Google Scholar
12.Lighthall, D. R. 1993. Chemicals, class, and sustainable agriculture: A Corn Belt case study. Unpublished Ph.D. dissertation. Dept. of Geography, Univ. of Iowa, Iowa City.Google Scholar
13.Lighthall, D.R. 1995. Farm structure and chemical use in the Corn Belt. Rural Sociology 60:505520.CrossRefGoogle Scholar
14.Lighthall, D.R., and Roberts, R.S.. 1995. Towards an alternative logic of technological change: Insights from Corn Belt agriculture. J. Rural Studies 11:319334.CrossRefGoogle Scholar
15.Magdoff, E. 1991. Managing nitrogen for sustainable corn systems: Problems and possibilities. Amer. J. Alternative Agriculture 6:38.CrossRefGoogle Scholar
16.Miles, M., and Huberman, A.. 1984. Qualitative Data Analysis. Sage Publications, Inc., Beverly Hills, California.Google Scholar
17.National Research Council. 1989. Alternative Agriculture. Board on Agriculture. National Academy Press, Washington D.C. pp. 308323.Google Scholar
18.Smolik, J.D., Dobbs, T.L., and Rickerl, D. H.. 1995. The relative sustainability of alternative, conventional, and reduced-till farming systems. Amer. J. Alternative Agric. 10:2535.CrossRefGoogle Scholar
19.Stinner, B., and House, G. 1987. Role of ecology in lower-input, sustainable agriculture: An introduction. Amer. J. Alternative Agric. 2:146147.CrossRefGoogle Scholar
20.Strange, M. 1988. Family Farming: A New Economic Vision. University of Nebraska Press, Lincoln, and Institute for Food and Development Policy, San Francisco, California.Google Scholar
21.U.S. Dept. of Commerce. 19401990. Census of Agriculture. Bureau of the Census. Washington, D.C.Google Scholar
22.Young, J. 1995. Recycling takes off in North America. World Watch 8(4):2025.Google Scholar