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Modeling Perennial Crop Supply: An Illustration from the Pecan Industry

Published online by Cambridge University Press:  28 April 2015

Abdelmoneim H. Elnagheeb  and
Wojciech J. Florkowski
Abdelmoneim H. Elnagheeb
Affiliation:
Department of agricultural and applied economics, The University of Georgia College of Agricultural and Environmental Sciences, Griffin, GA
Wojciech J. Florkowski
Affiliation:
Department of agricultural and applied economics, The University of Georgia College of Agricultural and Environmental Sciences, Griffin, GA
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Abstract

Two methodological approaches were applied to estimating the number of non-bearing trees in the absence of such data using data for the Southern USA pecan industry. The first approach distinguished between bearing and non-bearing phases of a tree life and directly estimated the number of non-bearing trees. The second focused on indirect estimating of the non-bearing tree number from changes in production. This approach relaxed the assumption of maintaining maximum yields for infinite period as used in earlier studies. Empirical applications used two data sets from the pecan industry. The comparison of empirical results suggested that the first method was more accurate than the alternative approach in predicting the number of newly planted trees over an extended period of time. Additional data collection will allow for further application of available methodology to the pecan industry.

Keywords

non-bearing treespecanstree croptree yieldsvolume produced
Type
Articles
Information
Journal of Agricultural and Applied Economics , Volume 25 , Issue 1 , July 1993 , pp. 187 - 196
Copyright
Copyright © Southern Agricultural Economics Association 1993

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References

Agricultural Statistics, USDA, various issues.Google Scholar
Akiyama, T. and Tri vedi, P. K.. “Vintage Production Approach to Perennial Crop Supply: An Application to Tea in Major Producing Countries.J. Econometrics, 36(1987): 133161.CrossRefGoogle Scholar
Baritelle, J. L. and Price, D. W.. “Supply Response and Marketing Strategies for Deciduous Crops.Amer. J. Agr. Econ., 56(1974):245–53.CrossRefGoogle Scholar
Bateman, M. J.Aggregate and Regional Supply Functions for Ghanaian Cocoa, 1946-1962.J. Farm Econ., 47(1965):384401.CrossRefGoogle Scholar
Behrman, J. R.Monopolistic Cocoa Pricing.Amer. J. Agr. Econ. 50(1968):702719.CrossRefGoogle Scholar
Bellman, R. E. and Hartley, M. J.. “The Tree-Crop Problem.” Report No. DRD134, The World Bank, 1985.Google Scholar
Epperson, J. E. and Allison, J. R.. “ Price Futures for the United States Pecan Industry.HortScience, 15(4):475478, 1980.CrossRefGoogle Scholar
French, B. C.The Long-Term Price and Production Outlook for Apples in the United States and Michigan.” Michigan Agrie. Exp. Stat. Tech. Bui. 255, 1956.Google Scholar
French, B. C. and Bressler, R. G.The Lemon Cycle.J. Farm Econ. 44(1962): 10211036.CrossRefGoogle Scholar
French, B. C. and Matthews, J. L.. “A Supply Response Model for Perennial Crops.Amer. Agr J. Econ., 53(1971):478–90.CrossRefGoogle Scholar
French, B. C. and Willet, L. S.. “An Econometric Model of the U.S. Asparagus Industry.Giannini Res. Report No. 340, Univ. of California, Davis, September 1989.Google Scholar
French, B.C., King, G. A., and Minami, D. D.. “Planting and Removal of Perennial Crops.Amer. J. Agr. Econ., 67(1985):215223.CrossRefGoogle Scholar
Georgia Agricultural Facts. Georgia Agricultural Extension Service, University System of Georgia, various issues.Google Scholar
Gorman, W. D., Landrum, D. F., and Hicks, S. D.. “Pecan Orchard Costs and Returns for 40 and 320 Acres, Southern Rio Grande Valley, New Mexico, 1979.” Agr. Exp. Sta., Res. Report No. 413, New Mexico State University, May 1980.Google Scholar
Hartley, M. J., Nerlove, M., and Peters, R. K.. “An Analysis of Rubber Supply in Sri Lanka.Amer. J. Agr. Econ., 69(1987):755761.CrossRefGoogle Scholar
Johnston, J.Econometric Methods. New York: McGraw-Hill Book Co.. 1972.Google Scholar
Jones, S. A., Childs, V. C., Washburn, R. S., Thibodeaux, B. H., Park, J. W., and Rutland, H. E.. “An Economic Study of the Pecan Industry.” USDA Technical Bui. No. 324, 1932.Google Scholar
Nerlove, M.Distributed Lags and Estimation of Long-Run supply and Demand Elasticities: Theoretical Considerations.J. Farm Econ. 40:301310.CrossRefGoogle Scholar
Okunade, A. A., Cochran, M. J.. “Functional Forms and Form-level Demand for Pecans by Variety.” 5. J. Agr. Econ. 23(2):95102, 1991.Google Scholar
Shafer, C. E.Price and Value Effects of Pecan Crop Forecasts, 1971-1987”. S. J. Agr. Econ., 21(1):97103, 1989.Google Scholar
Stern, R. M.The Determinants of Cocoa supply in West Africa.Stewart, R. E., Ord, H. W., eds., African Primary Products and International Trade, Edinburgh University Press, 1965.Google Scholar
Wells, G. J., Miller, S. E., and Thompson, C. S.. “Farm Level Demand for Pecans Reconsidered.S. J. Agr. Econ., 16(1):157160, 1984.Google Scholar
White, H.A Heteroscedasticity Consistent Covariance Matrix and a Direct Test for Heteroscedasticity.Econometrica, 46(1978):817838.Google Scholar
Wickens, M. R., Greenfield, J. N.. “The Econometrics of Agricultural Supply: An Application to the World Coffee Market.Rev. Econ. Stat. 55(19):533440.Google Scholar
Williams, F. W., LaPlante, M. G., and Heaton, E. K.. “The Consumer Market for Pecans and Competing Nuts.S. J. Agr. Econ., 4(1):101106.Google Scholar