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The profitability of organic soybean production

Published online by Cambridge University Press:  19 November 2009

W.D. McBride*
Affiliation:
US Department of Agriculture, Economic Research Services, Washington DC, USA.
*
*Corresponding author: wmcbride@ers.usda.gov

Abstract

Results from long-term experimental trials suggest that similar yields and lower costs are possible with organic compared to conventional soybeans, but there is little information about the relative costs and returns of these systems on commercial farms. This study examines the profitability of commercial soybean production using a nationwide survey of soybean producers for 2006 that includes a targeted sample of organic growers. Treatment-effect models are specified to characterize adopters of the organic approach and to isolate the impact of organic choice on operating, operating and capital, and total economic costs of soybean production. Organic soybean producers tend to be younger, have less crop acreage, and are less likely to work off-farm than conventional producers. Organic soybean production costs range from about $1 to $6 per bushel higher than those for conventional soybeans due to both lower yields and higher per-acre costs, while the average organic price premium in 2006 was more than $9 per bushel. Long-term cropping systems data suggest significant returns to organic systems result from similar yields and lower costs than conventional systems, but the high returns to commercial organic production found in this study can only be attributed to the significant price premiums paid for organic soybeans. Average organic soybean price premiums have remained high since 2006 despite much higher conventional soybean prices as users of organic soybeans attempt to retain and attract more acreage. However, increases in conventional soybean prices and fuel prices reduce the incentive for planting organic soybeans by improving returns to conventional production and increasing the relative costs of organic production.

Type
Research Papers
Creative Commons
This is a work of the U.S Government and is not subject to copyright protection in the United States
Copyright
Copyright © 2009 Cambridge University Press This is a work of the U.S Government and is not subject to copyright protection in the United States

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References

1Greene, C. and Kremen, A. 2003. U.S. organic farming in 2000–2001. Agricultural Information Bulletin Number 780. U.S. Department of Agriculture, Economic Research Service.Google Scholar
2U.S. Department of Agriculture, Economic Research Service. 2008. Organic Production. Available at Web site http://www.ers.usda.gov/Data/Organic/ (accessed 4 October 2009).Google Scholar
3The Organic and Non-GMO Report. 2007. USDA Organic Report: Soybean Acreage Down, Corn Acreage Up. Available at Web site http://www.non-gmoreport.com/articles/feb07/organic_corn_soybeans.php (accessed 4 October 2009).Google Scholar
4Delate, K., Duffy, M., Chase, C., Holste, A., Friedrich, H., and Wantate, N. 2003. An economic comparison of organic and conventional grain crops in a long-term agroecological research (LTAR) site in Iowa. The American Journal of Alternative Agriculture 18:5969.CrossRefGoogle Scholar
5Mahoney, P.R., Olson, K.D., Porter, P.M., Huggins, D.R., Perillo, C.A., and Crookston, R.K. 2004. Profitability of organic cropping systems in southwestern Minnesota. Renewable Agriculture and Food Systems 19:3546.CrossRefGoogle Scholar
6Hanson, J.C., Lichtenberg, E., and Peters, S.E. 1997. Organic versus conventional grain production in the mid-Atlantic: an economic and farming system overview. The American Journal of Alternative Agriculture 12:29.CrossRefGoogle Scholar
7Pimentel, D., Hepperly, P., Hanson, J., Doubs, D., and Seidel, R. 2005. Environmental, energetic, and economic comparisons of organic and conventional farming systems. BioScience 55:573582.CrossRefGoogle Scholar
8Smith, E.G., Clapperton, J.M., and Blackshaw, R.E. 2004. Profitability and risk of organic production systems in the northern Great Plains. Renewable Agriculture and Food Systems 19:152158.CrossRefGoogle Scholar
9U.S. Department of Agriculture, Economic Research Service. 2008. Commodity Costs and Returns. Available at Web site http://www.ers.usda.gov/Data/CostsAndReturns/ (accessed 4 October 2009).Google Scholar
10American Agricultural Economics Association. 2000. Commodity Costs and Returns Estimation Handbook. A Report of the AAEA Task Force on Commodity Costs and Returns, Ames, IA.Google Scholar
11Greene, W. H. 2003. Econometric Analysis, 5th ed.Prentice Hall, New Jersey.Google Scholar
12Nelson, K., Case, J., Harder, D., and Smoot, R. 2002. Comparison of natto, clear hilum, sprout, and roundup ready® soybean grain yield. Available at Web site http://aes.missouri.edu/greenley/research/soy1112.stm (accessed 4 October 2009).Google Scholar
13Streff, N. and Dobbs, T. 2004. Organic and conventional grain and soybean prices in the northern Great Plains and upper Midwest: 1995–2003. Econ. Pamphlet 2004-1, Economics Department, South Dakota State University.Google Scholar
14U.S. Department of Agriculture, National Agricultural Statistics Service. 2008. Agricultural Prices. Available at Web site http://usda.mannlib.cornell.edu/usda/current/AgriPric/AgriPric-02-27-2009.pdf (accessed 4 October 2009).Google Scholar
15U.S. Department of Agriculture, Agricultural Marketing Service. 2008. USDA Market News: Upper Midwest Organic Grain and Feedstuffs Report. Available at Web site http://www.ams.usda.gov/mnreports/nw_gr113.txt (accessed 4 October 2009).Google Scholar