Hostname: page-component-76fb5796d-qxdb6 Total loading time: 0 Render date: 2024-04-29T08:08:06.740Z Has data issue: false hasContentIssue false
  • English
  • Français

Estimation of Firm-Varying, Input-Specific Efficiencies in Dairy Production

Published online by Cambridge University Press:  10 May 2017

Daniel A. Lass  and
Conrado M. Gempesaw II
Daniel A. Lass
Affiliation:
Department of Resource Economics, University of Massachusetts, Amherst
Conrado M. Gempesaw II
Affiliation:
Delaware Agricultural Experiment Station, Department of Food and Resource Economics, College of Agricultural Sciences, University of Delaware, Newark
Get access

Extract

Firm-varying production technologies were estimated using random coefficients regression methods for a sample of Massachusetts dairy farms. Results were compared to OLS Cobb-Douglas production function estimates. The random coefficients regression model was found to virtually eliminate conventionally measured firm technical inefficiencies by estimating individual firm technologies and ascribing remaining inefficiencies to specific inputs. Input-specific measures of firm inefficiencies showed hired labor, land, and machinery inputs to be used in excess of efficient levels. Livestock supplies were underutilized by all farms. Efficiencies of feed, crop materials, fuels, and utilities varied, although estimated means were closer to optimal levels.

Type
Articles
Information
Northeastern Journal of Agricultural and Resource Economics , Volume 21 , Issue 2 , October 1992 , pp. 142 - 150
Copyright
Copyright © 1992 Northeastern Agricultural and Resource Economics Association 

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.)

Footnotes

Published as Miscellaneous Paper no. 1446 of the Delaware Experiment Station. Comments of the editor and two anonymous reviewers are gratefully acknowledged. We also thank Dr. P.A.V.B. Swamy, Federal Reserve Board, for allowing us to use the SWAMSLEY program. This research was partially supported by USDA-ERS cooperative agreement no. 43-3AEM-0-80062.

References

Aigner, D.K., Lovell, C.A.K., and Schmidt, P.J.Formulation and Estimation of Stochastic Frontier Production Function Models.” Journal of Econometrics 6 (1977):2137.Google Scholar
Bravo-Ureta, B.E.Nonparametric Measures of Technical Efficiency in Milk Production.” Journal of the Northeastern Agricultural Economics Council 12 (1983):6976.Google Scholar
Bravo-Ureta, B.E., and Rieger, L.Dairy Farm Efficiency Measurement Using Stochastic Frontiers and Neoclassical Duality.” American Journal of Agricultural Economics 73 (1991):421–28.Google Scholar
Dawson, P.J., and White, B.The Post-Quota Performance of Dairy Farms in England and Wales.” Applied Economics 22 (1990):13991406.Google Scholar
Engel, N.E., Morzuch, B., and Lass, D.Estimation of Farm Land Values in Massachusetts: Fiscal Year 1990.” Department of Resource Economics, University of Massachusetts, Amherst, MA, 1989.Google Scholar
Fisher, F.The Existence of Aggregate Production Functions.” Econometrica 37 (1969):553–77.Google Scholar
Greene, W.H.Maximum Likelihood Estimation of Econometric Frontier Functions.” Journal of Econometrics 13 (1980):2756.Google Scholar
Griliches, Z.Estimates of the Aggregate Agricultural Production Function from Cross-Sectional Data.” Journal of Farm Economics 45 (1963):419–28.Google Scholar
Grisley, W., and Mascarenhas, J.Operating Cost Efficiency on Pennsylvania Dairy Farms.” Northeastern Journal of Agricultural and Resource Economics 14 (1985):8895.Google Scholar
Hildreth, C., and Houck, J.P.Some Estimators for a Linear Model with Random Coefficients.” Journal of the American Statistical Association 63 (1968):584–95.Google Scholar
Hopper, W.D.Allocation Efficiency in a Traditional Indian Agriculture.” Journal of Farm Economics 47 (1965):611–24.Google Scholar
Just, R.E., Zilberman, D., and Hochman, E.Estimation of Multicrop Production Functions.” American Journal of Agricultural Economics 65 (1983):770–80.Google Scholar
Kopp, R.J.The Measurement of Productive Efficiency: A Reconsideration.” Quarterly Journal of Economics 96 (1981):477503.Google Scholar
Lau, L.J., and Yotopoulos, P.A.A Test of Relative Efficiency and Application to Indian Agriculture.” American Economic Review 61 (1971):94109.Google Scholar
Luh, Y.H., and Stefanou, S.E.Dairy Supply and Factor Demand Response to Output Price Risk: An Econometric Assessment.” Northeastern Journal of Agricultural and Resource Economics 18 (1989):103–8.Google Scholar
Meeusen, W., and van den Broeck, J.Efficiency Estimation from Cobb-Douglas Production Functions with Composed Error.” International Economic Review 18 (1977):435–44.Google Scholar
Narasimham, G.V.L., Swamy, P.A.V.B., and Reed, R.C.Productivity Analysis of U.S. Manufacturing Using a Stochastic-Coefficients Production Function.” Journal of Business and Economic Statistics 6 (1988):339–49.Google Scholar
Sahota, G.S.Efficiency of Resource Allocation in Indian Agriculture.” American Journal of Agricultural Economics 50 (1968):584605.Google Scholar
Stefanou, S.E., and Saxena, S.Education, Experience, and Allocative Efficiency: A Dual Approach.” American Journal of Agricultural Economics 70 (1988):338–45.Google Scholar
Stigler, G.J.The Xistence of X-Efficiency.” American Economic Review 66 (1976):213–16.Google Scholar
Swamy, P.A.V.B., and Tinsley, P.Linear Prediction and Estimation Methods for Regression Models with Stationary Stochastic Coefficients.” Journal of Econometrics 12 (1980):103–42.Google Scholar
Swamy, P.A.V.B., Conway, R., and von zur Muehlen, P.The Foundations of Econometrics—Are There Any?Econometric Reviews 4 (1985):161.Google Scholar
Tauer, L.W., and Belbase, K.P.Technical Efficiency of New York Dairy Farms.” Northeastern Journal of Agricultural and Resource Economics 16 (1987):1016.Google Scholar
Weaver, R.D., and Lass, D.A.Comer Solutions in Duality Models: A Cross-Section Analysis of Dairy Production Decisions.” American Journal of Agricultural Economics 71 (1989):1025–40.Google Scholar
White, H.A Heteroskedasticity-Consistent Covariance Matrix Estimator and a Direct Test for Heteroskedasticity.” Econometrica 48 (1980):817–38.Google Scholar
Yotopoulos, P.A., and Lau, L.J.A Test for Relative Economic Efficiency: Some Further Results.” American Economic Review 63 (1973):214–23.Google Scholar
Zellner, A.On the Aggregation Problem: A New Approach to a Troublesome Problem.” In Economic Models, Estimation and Risk Programming: Essays in Honor of Gerhard Tintner, edited by Fox, K.A., Sengupta, J.K., and Narasimham, G.V.L. New York: Springer-Verlag, 1969.Google Scholar
Zellner, A., Kmenta, J., and Dreze, J.Specification and Estimation of Cobb-Douglas Production Function Models.” Econometrica 34 (1966):784–95.Google Scholar