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Adaptive Planning Over the Cattle Price Cycle

Published online by Cambridge University Press:  28 April 2015

Ernest Bentley
Affiliation:
Virginia Tech
C. Richard Shumway
Affiliation:
Texas A&M University and Visiting Scholar, Department of Economics, Harvard University

Extract

Cycles in beef cattle inventories and prices have been documented as far back as 1880 (Breimyer). The inability to identify optimal herd management strategies in response to fluctuating cattle prices is frequently blamed for the low historical returns received by cattle producers (Farris and Mallett). Cattle producers typically react to rising prices by increasing the size of their breeding herd and liquidating a portion of the herd when prices decline. Long lags between the time a cow is bred and the time her calf is weaned and ready for market make it difficult for cow-calf operators to make optimal long-run production plans. And because a cow has a long productive life, several years are required to evaluate the decision to invest in a larger breeding herd by adding more heifers. During this period, prices may fluctuate drastically, so that with hindsight, the decision to increase the investment in the herd may have been a poor choice. The same problem occurs when the herd is liquidated because of dim prospects of earning an immediate profit from the intact herd. The use of other resources probably does not fluctuate much over the cattle cycle. Bebout discovered that land committed to calf production remains fairly constant even in periods of low profits.

Type
Research Article
Copyright
Copyright © Southern Agricultural Economics Association 1981

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References

Bebout, Harley. The Ranch Credit Situation in Texas During the 1950–1957 Drought and Early Recovery Period. Texas Agri. Exp. Sta. MB 487, February 1961.Google Scholar
Bentley, Ernest, Waters, J. R., and Shumway, C. R.Determining Optimal Replacement Age of Beef Cows in the Presence of Stochastic Elements.S. J. Agri. Econ. 8(1976): 1318.Google Scholar
Boykin, Calvin C., Van Arsdall, Roy N., Gilliam, Henry C. Jr., Kerry Gee, C., and Trierweiter, Jack. Beef Cattle Raising Systems in the United States. USDA, ERS, CED, December 1976.Google Scholar
Breimyer, Harold F.Observations on the Cattle Cycle.Agri. Econ. Res. 7(1955): 111.Google Scholar
Butler, Charles P.Economic and Operational Characteristics of the Southern Beef Cattle Industry. Southern Cooperative Series Bull. 176, October 1972.Google Scholar
Butler, Charles P.Land Use on Southern Beef Producing Farms. Southern Cooperative Series Bull. 186, March 1974.Google Scholar
Farris, Donald E. and Mallett, James I.Effect on Variability in Prices and Production Cycles on Profitability in Beef Cattle.” mimeo. Texas A&M University, 1973.Google Scholar
Franzman, John R.Cattle Cycles Revisited.” S. J. Agri. Econ. 3(1971):6976.Google Scholar
Hertzler, Greg and Cothern, James H.The Sub-Optimality of the Beef Cycle.” Paper presented at American Agricultural Economics Association Meeting, Pullman, Washington, 1979.Google Scholar
Hicks, J. R.Value and Capital. Oxford: Clarendon Press, 1946.Google Scholar
King, Clyde Stanley. “A Systems Approach to the Determination of Optimal Beef Herd Culling and Replacement Rate Strategies.” M.S. thesis, Oklahoma State University, 1979.Google Scholar
Martin, J. Rod and Plaxico, James S.Polyperiod Analysis of Growth and Capital Accumulation of Farms in the Rolling Plains of Oklahoma and Texas. USDA ERS. Tech. Bull. 1381, September 1967.Google Scholar
Rausser, Gordon C.Active Learning, Control Theory, and Agricultural Policy.Amer. J. Agr. Econ. 60(1978):476–90.CrossRefGoogle Scholar
Richardson, James W., Ray, Daryll E., and Trapp, James N.Illustrate Applications of Optimal Control Theory Techniques to Problems in Agricultural Economics. Oklahoma Agri. Exp. Sta. Bull. B-739, January 1979.Google Scholar
Rogers, LeRoy F.Replacement Decisions for Commercial Beef Herds. Washington Agr. Exp. Sta. Bull. 736, June 1971.Google Scholar
Talpaz, Hovav. “Multi-Frequency Cobweb Model: Decomposition of the Hog Cycle.Amer. J. Agr. Econ. 56(1974):3849.CrossRefGoogle Scholar
U.S. Department of Agriculture. “Annual Livestock Detailed Quotations, Ft. Worth Market,” unpublished data. 19501977a.Google Scholar