Hostname: page-component-8448b6f56d-c47g7 Total loading time: 0 Render date: 2024-04-25T00:03:04.625Z Has data issue: false hasContentIssue false
  • English
  • Français

Comparative local economic benefits of conventional and alternative cropping systems

Published online by Cambridge University Press:  30 October 2009

William Lockeretz
William Lockeretz
Affiliation:
Research Associate Professor, School of Nutrition, Tufts University, Medford, MA 02155
Get access

Abstract

I reexamined five previously published studies that compared the economics of high input conventional crop production systems in various regions to the economics of lower input alternatives that use green manures, cover crops, and more diversified rotations, but no inorganic fertilizers and little or no synthetic pesticides. The original analyses were extended to include estimates of each production system's contribution to the local economy, both directly through farmers' payments for labor and interest, and indirectly through the payrolls and profits of enterprises serving farmers. A similar comparison was also made for high input irrigated and lower input nonirrigated corn production. On a per acre basis, the high input systems' local economic benefits were equal to or greater than those of the lower input systems. However, they were lower as a fraction of total value of production in all but one case, since production was always higher for the higher input systems. Correspondingly, with all but one of the higher input systems, a greater portion of the value of production left the local economy to pay for purchased inputs. This becomes significant if the production system is not sustainable, so that the total productive potential of the area's agricultural resources is finite when integrated over their entire economic life. In such circumstances, the results imply that under the conventional system the local economy will capture a smaller share of the total productive value of those resources.

Keywords

corn productioninput levellocal economic benefitssustainability
Type
Articles
Information
American Journal of Alternative Agriculture , Volume 4 , Issue 2 , June 1989 , pp. 75 - 83
Copyright
Copyright © Cambridge University Press 1989

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

1.Beaumont, P. 1985. Irrigated agriculture and ground-water mining on the High Plains of Texas, USA. Environmental Conservation 12:119130.Google Scholar
2.Bender, L. D., Green, B. L., Hady, T. F., Kuehn, J. A., Nelson, M. K., Perkinson, L. P., and Ross, P. J.. 1985. The diverse social and economic structure of nonmetropolitan America. Rural Development Research Report No. 49. U.S. Dept. of Agriculture, Economic Research Service, Washington, DC.Google Scholar
3.Bottrell, D. G., and Adkisson, P. L.. 1977. Cotton insect pest management. Annual Review of Entomology 22:451481.Google Scholar
4.Coppock, R. 1987. Resources at risk: Agricultural drainage in the San Joaquin Valley. Volume I in a Series on Drainage Issues. University of California, Davis, California.Google Scholar
5.Devino, G., Van Dyne, D., and Braschler, C.. 1988. Agribusiness and the CRP. Journal of Soil and Water Conservation 43(5):379380.Google Scholar
6.Dobbs, T. L., Weiss, L. A., and Leddy, M. G.. 1987. Costs of production and net returns for alternative farming systems in northeastern South Dakota: 1986 and “normalized” situations. Research Report 87–5. Economics Dept., South Dakota State University, Brookings, South Dakota.Google Scholar
7.Dobbs, T. L., Leddy, M. G., and Smolik, J. D.. 1988. Factors influencing the economic potential for alternative farming systems: Case analyses in South Dakota. American Journal of Alternative Agriculture 3(1):2634.Google Scholar
8.FEDS. 1983. Firm Enterprise Data System, Northern Plains Region, 1981. USDA Economic Research Service, Stillwater, Oklahoma.Google Scholar
9.Fleming, M. H. 1987. Agricultural chemicals in ground water: Preventing contamination by removing barriers against low-input farm management. American Journal of Alternative Agriculture 2(3): 124130.CrossRefGoogle Scholar
10.Ginder, R. G., Stone, K. E., and Otto, D.. 1985. Impact of the farm financial crisis on agribusiness firms and rural communities. American Journal of Agricultural Economics 67:11841190.CrossRefGoogle Scholar
11.Goldstein, W. A. 1986. Alternative crops, rotations and management systems for the Palouse. Ph.D. Dissertation, Dept. of Agronomy and Soils, Washington State University, Pullman, Washington.Google Scholar
12.Goldstein, W. A. 1988. The economics of stockless farming systems in the upper Midwest. Draft working paper. Michael Fields Agricultural Institute, East Troy, Wisconsin.Google Scholar
13.Goldstein, W. A., and Young, D. L.. 1987. An agronomic and economic comparison of a conventional and a low-input cropping system in the Palouse. American Journal of Alternative Agriculture 2(2):5156.Google Scholar
14.Heffernan, W. D. 1986. Review and evaluation of social externalities. In Dahlberg, K. E. (ed.). New Directions for Agriculture and Agricultural Research. Rowman and Allenheld, Totowa, New Jersey, pp. 199220.Google Scholar
15.Helmers, G. A., Langemeier, M. R., and Atwood, J.. 1986. An economic analysis of alternative cropping systems for east-central Nebraska. American Journal of Alternative Agriculture 1(4):153158.CrossRefGoogle Scholar
16.Leistritz, F. L., Bastow-Shoop, H. E., and Ekstrom, B. L.. 1988. Smalltown businesses also caught in farm financial stress. Rural Development Perspectives 4(3):2730.Google Scholar
17.Lockeretz, W. 1988. Open questions in sustainable agriculture. American Journal of Alternative Agriculture 3(4): 174181.Google Scholar
18.Papendick, R. I., Elliott, L. F., and Dahlgren, R. B.. 1986. Environmental consequences of modern production agriculture: How can alternative agriculture address these concerns? American Journal of Alternative Agriculture 1(1):310.CrossRefGoogle Scholar
19.Petrulis, M. 1985. Effect of U.S. farm policy on rural America. Rural Development Perspectives 1(3):3134.Google Scholar
20.Young, D. L., and Goldstein, W. A.. 1987. How government farm programs discourage sustainable cropping systems: A U.S. case study. Presented at the Farming Systems Research Symposium, University of Arkansas, Fayetteville, Arkansas, October 1821.Google Scholar