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Efficiency Analysis of Developing Country Agriculture: A Review of the Frontier Function Literature

Published online by Cambridge University Press:  15 September 2016

Boris E. Bravo-Ureta  and
António E. Pinheiro
Boris E. Bravo-Ureta
Affiliation:
Department of Agricultural and Resource Economics, at the University of Connecticut, Storrs, CT
António E. Pinheiro
Affiliation:
Department of Agricultural and Resource Economics, at the University of Connecticut, Storrs, CT

Abstract

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This article reviews and critiques the frontier literature dealing with farm level efficiency in developing countries. A total of 30 studies from 14 different countries are examined. The country that has received most attention is India, while rice has been the most studied agricultural product. The average technical efficiency (TE) index from all the studies reviewed is 72%. The few studies reporting allocative and economic efficiency show an average of 68% and 43%, respectively. These results suggest that there is considerable room to increase agricultural output without additional inputs and given existing technology. Several of the studies reviewed have sought to explain farm level variation in TE. The variables most frequently used for this purpose have been farmer education and experience, contacts with extension, access to credit, and farm size. With the exception of farm size, the results reveal that these variables tend to have a positive and statistically significant impact on TE. This paper shows that considerable effort has been devoted to measuring efficiency in developing country agriculture using a wide range of frontier models. Despite all this work, the extent to which efficiency measures are sensitive to the choice of methodology remains uncertain.

Type
Trade Liberalization and International Agricultural Development
Information
Agricultural and Resource Economics Review , Volume 22 , Issue 1 , April 1993 , pp. 88 - 101
Copyright
Copyright © 1993 Northeastern Agricultural and Resource Economics Association 

References

Afriat, S.N.Efficiency Estimates of Production Functions.” International Economic Review 13 (1972): 568–98.CrossRefGoogle Scholar
Aigner, D.J., Lovell, C.K., and Schmidt, P.Formulation and Estimation of Stochastic Frontier Production Function Models.” Journal of Econometrics 6 (1977): 2137.CrossRefGoogle Scholar
Aigner, D.J., and Chu, S.F.On Estimating The Industry Production Function.” American Economic Review 58 (1968): 826–39.Google Scholar
Ali, M., and Chaudry, M.A.Inter-Regional Farm Efficiency in Pakistan's Punjab: A Frontier Production Function Study.” Journal of Agricultural Economics 41 (1990): 6274.CrossRefGoogle Scholar
Ali, M., and Flinn, J.C.Profit Efficiency Among Basmati Rice Producers in Pakistan Punjab.” American Journal of Agricultural Economics 71 (1987): 303–10.Google Scholar
Bagi, F.S.Farm-Level Technical Efficiencies of Individual Crops.” Unpublished paper, 1987.Google Scholar
Bailey, D., Biswas, B., Kumbhakar, S.C., and Schulthies, B.K.An Analysis of Technical, Allocative and Scale Efficiency: The Case of Ecuadorian Dairy Farms.” Western Journal of Agricultural Economics 14 (1989): 3037.Google Scholar
Bardham, P.K.Size, Productivity and Returns to Scale: An Analysis of Farm Level Data in Indian Agriculture.” Journal of Political Economy 18 (1973): 1370–86.Google Scholar
Battese, G.E.Frontier Production Functions and Technical Efficiency: A Survey of Empirical Applications in Agricultural Economics.” Agricultural Economics 7 (1992): 185208.CrossRefGoogle Scholar
Battese, G.E., and Tessema, G.A. Estimation of Stochastic Frontier Production Functions with Time-Varying Parameters and Technical Efficiencies Using Panel Data from Indian Villages. Revised version of paper presented at the 36th Annual Conference of the Australian Agricultural Economics Society at the Australian National University, Canberra, 10–12 February, 1992.Google Scholar
Battese, G.E., and Coelli, T.J.Prediction of Firm-Level Technical Efficiencies with a Generalized Frontier Production Function and Panel Data.” Journal of Econometrics 38 (1988): 387–89.CrossRefGoogle Scholar
Battese, G.E., and Coelli, T.J.Frontier Production Functions, Technical Efficiency and Panel Data: With Application to Paddy Farmers in India.” Journal of Productivity Analysis 3 (1992): 153–69.CrossRefGoogle Scholar
Battese, G.E., Coelli, T.J., and Colby, T.C.Estimation of Frontier Production Functions and the Efficiencies of Indian Farms Using Panel Data from ICRISAT's Village Level Studies.” Journal of Quantitative Economics 5 (1989): 327–48.Google Scholar
Bauer, P.W.Recent Developments in the Econometric Estimation of Frontiers.” Journal of Econometrics 46 (1990): 3956.Google Scholar
Belbase, K., and Grabowski, R.Technical Efficiency in Nepalese Agriculture.” Journal of Developing Areas 19 (1985): 515–25.Google Scholar
Berry, A.R., and Cline, W.R. Agrarian Structure and Productivity in Developing Countries. Baltimore: The Johns Hopkins University Press, 1979.Google Scholar
Bhagwati, J.N., and Chakravarty, S.Contributions to Indian Economic Analysis: A Survey.” American Economic Review 59 (1969): 267.Google Scholar
Birkhaeuser, D., Evenson, R.E., and Feder, G.The Economic Impact of Agricultural Extension: A Review.” Economic Development and Cultural Change 39 (1991): 607–50.Google Scholar
Bravo-Ureta, B.E., and Evenson, R.Efficiency in Agricultural Production: The Case of Peasant Farmers in Eastern Paraguay.” Manuscript Department of Agricultural and Resource Economics, University of Connecticut, Storrs, CT.Google Scholar
Bravo-Ureta, B., and Rieger, L.Dairy Farm Efficiency Measurement Using Stochastic Frontiers and Neoclassical Duality.” American Journal of Agricultural Economics 73 (1991): 421–28.CrossRefGoogle Scholar
Bravo-Ureta, B., and Rieger, L.Alternative Production Frontier Methodologies and Dairy Farm Efficiency.” Journal of Agricultural Economics 41 (1990): 215–26.Google Scholar
Carter, M.R.Identification of the Inverse Relationship Between Farm Size and Productivity: An Empirical Analysis of Peasant Agricultural Production.” Oxford Economic Papers 36 (1984): 131–45.Google Scholar
Chennareddy, V.Production Efficiency in South Indian Agriculture.” Journal of Farm Economics 49 (1967): 816–20.Google Scholar
Comanor, W.S., and Leibenstein, H.Allocative Efficiency, X-Efficiency and the Measurement of Welfare Losses.” Economica 36 (1969): 304–9.Google Scholar
Cornwell, C., Schmidt, P., and Sickles, R.C.Production Frontiers with Cross-Sectional and Time-Series Variation in Efficiency Levels.” Journal of Econometrics 46 (1990): 185200.Google Scholar
Dawson, P.J.Measuring Technical Efficiency from Production Functions: Some Further Estimates.” Journal of Agricultural Economics 36 (1985): 3140.Google Scholar
Dawson, P.J., Lingard, J., and Woodford, C.H.A Generalized Measure of Farm-Specific Technical Efficiency.” American Journal of Agricultural Economics (1991): 10981104.Google Scholar
Ekayanake, S.A.B.Location Specificity, Settler Type and Productive Efficiency: A Study of the Mahaweli Project in Sri Lanka.” Journal of Development Studies 23 (1987): 509–21.Google Scholar
Ekanayake, S.A.B., and Jayasuriya, S.K.Measurement of Firm Specific Technical Efficiency: A Comparison of Models.” Journal of Agricultural Economics 38 (1987): 115–22.Google Scholar
Fan, S.Effects of Technological Change and Institutional Reform on Production Growth in Chinese Agriculture.” American Journal of Agricultural Economics 73 (1991): 266–75.CrossRefGoogle Scholar
Farrell, M.The Measurement of Productivity Efficiency.” Journal of the Royal Statistical Society A 120 (1957): 253–90.Google Scholar
Forsund, F.R., Lovell, C.K., and Schmidt, P.A Survey of Frontier Production Functions and Their Relationships to Efficiency Measurement.” Journal of Econometrics 13 (1980): 525.CrossRefGoogle Scholar
Gong, B., and Sickles, R.Finite Sample Evidence on Performance of Stochastic Frontier Models Using Panel Data.” Journal of Productivity Analysis 1 (1989): 229–61.CrossRefGoogle Scholar
Greene, W.H.A Gamma Distributed Stochastic Frontier Model.” Journal of Econometrics 46(1990a): 141–63.Google Scholar
Greene, W.H. Econometric Analysis. Macmillan Publishing Company: New York, 1990b.Google Scholar
Greene, W.H.Maximum Likelihood Estimation of Econometric Frontier Functions.” Journal of Econometrics 13 (1980): 2756.Google Scholar
Hayami, Y., and Ruttan, V. Agricultural Development: An International Perspective. Baltimore: The Johns Hopkins University Press, 1985.Google Scholar
Hopper, W.D.Allocation Efficiency in a Traditional Indian Agriculture.” Journal of Farm Economics 47 (1985): 611–24.Google Scholar
Huang, C.J., and Bagi, F.S.Technical Efficiency on Individual Farms in Northwest India.” Southern Economic Journal 51 (1984): 108–15.CrossRefGoogle Scholar
Johnston, B.F., and Mellor, J.W.The Role of Agriculture in Economic Development.” American Economic Review 51 (1961): 566–93.Google Scholar
Jondrow, J., Lovell, C.A., Materov, S., and Schmidt, P.On Estimation of Technical Inefficiency in the Stochastic Frontier Production Function Model.” Journal of Econometrics 19 (1982): 233–38.Google Scholar
Junankar, P.N.Tests of the Profit Maximization Hypothesis: A Study of Indian Agriculture.” Journal of Development Studies 6 (1980): 186203.CrossRefGoogle Scholar
Kalirajan, K.An Econometric Analysis of Yield Variability in Paddy Production.” Canadian Journal of Agricultural Economics 29 (1981): 283–94.Google Scholar
Kalirajan, K.Farm-Specific Technical Efficiencies and Development Policies.” Journal of Economics Studies 11 (1984): 313.Google Scholar
Kalirajan, K.On Measuring Economic Efficiency.” Journal of Applied Econometrics Vol. 5 (1990): 7585.CrossRefGoogle Scholar
Kalirajan, K.The importance of Efficient Use in the Adoption of Technology: A Micro Panel Data Analysis.” Journal of Productivity Analysis 2 (1991): 113–26.Google Scholar
Kalirajan, K., and Flinn, J.C.The Measurement of Farm-Specific Technical Efficiency.” Pakistan Journal of Applied Economics 11 (1983): 167–80.Google Scholar
Kalirajan, K., and Shand, R.T.Types of Education and Agricultural Productivity: A Quantitative Analysis of Tamil Nadu Rice Farming.” The Journal of Development Studies 21 (1985): 232–43.CrossRefGoogle Scholar
Kalirajan, K., and Shand, R.T.Estimating Location-Specific and Firm-Specific Technical Efficiency: An Analysis of Malaysian Agriculture.” Journal of Economic Development 11 (1986): 147–60.Google Scholar
Khan, M.H., and Maki, D.R.Effects of Farm Size on Economic Efficiency: The Case of Pakistan.” American Journal of Agricultural Economics 61 (1979): Feb.Google Scholar
Kopp, R.J., and Diewert, W.E.The Decomposition of Frontier Cost Functions Deviations into Measures of Technical and Allocative Efficiency.” Journal of Econometrics 19 (1982): 319–31.Google Scholar
Kopp, R.J., and Smith, V.K.Frontier Production Function Estimates for Steam Electric Generation: A Comparative Analysis.” Southern Economic Journal 47 (1980): 1049–59.Google Scholar
Kumbhakar, S.C., Ghosh, S., and McGuckin, J.T.A Generalized Production Frontier Approach for Estimating Determinants of Inefficiency in U.S. Dairy Farms.” Journal of Business and Economic Statistics 9 (1991): 279–86.Google Scholar
Kumbhakar, S.C.The Specification of Technical and Allocative Inefficiency in Stochastic Production and Profit Frontiers.” Journal of Econometrics 34(1987b): 335–48.Google Scholar
Kuznets, S. Modern Economic Growth: Rate, Structure, and Spread. New Haven: Yale University Press, 1966.Google Scholar
Lau, L.J., and Yotopoulos, P.A.A Test for Relative Efficiency and Applications to Indian Agriculture.” American Economic Review 61 (1971): 94109.Google Scholar
Leibenstein, H.Allocative Efficiency vs. ‘X-Efficiency’.” American Economic Review 56 (1966): 392415.Google Scholar
Leibenstein, H.X-Inefficiency Xists—Reply to an Xorcist.” American Economic Review 68 (1978): 203–11.Google Scholar
Lockheed, M.E., Jamison, D.T., and Lau, L.J.Farmer Education and Farm Efficiency: A Survey.” Economic Development and Cultural Change 29 (1980): 3776.CrossRefGoogle Scholar
Meeusen, W., and van den Broeck, . “Efficiency Estimation from Cobb-Douglas Production Function with Composed Error.” International Economic Review 18 (1977): 435–44.Google Scholar
Nicholls, W.H.The Place of Agriculture in Economic Development.” In Agriculture in Economic Development, edited by Eicher, Carl K. and Witt, Lawrence W., 11–4, New York: McGraw-Hill, 1964.Google Scholar
Nishimizu, M., and Page, J.M. Jr.Total Factor Productivity Growth, Technological Progress and Technical Efficiency Change: Dimensions of Productivity Change in Yugoslavia, 1965–78.” The Economic Journal 92 (1982): 920–36.Google Scholar
Phillips, M.J., and Marble, R.P.Farmer Education and Efficiency: A Frontier Production Function Approach.” Economics of Education Review 5 (1986): 257–64.CrossRefGoogle Scholar
Pinheiro, A.An Econometric Analysis of Farm Level Efficiency of Small Farms in the Dominican Republic.” M.S. Thesis, University of Connecticut, Storrs, 1992.Google Scholar
Pitt, M., and Lee, L.F.The Measurements and Sources of Technical Inefficiency in the Indonesian Weaving Industry.” The Journal of Development Economics 9 (1981): 4364.Google Scholar
Rawlins, G.Measuring the Impact of I.R.D.P.II upon the Technical Efficiency Level of Jamaican Peasant Farmers.” Social and Economic Studies 34 (1985): 7196.Google Scholar
Ray, S.C.Measurement and Test of Efficiency of Farms in Linear Programming Models: A Study of West Bengal Farms.” Oxford Bulletin of Economics and Statistics 47 (1985): 371–86.Google Scholar
Sahota, G.S.Efficiency of Resource Allocation in Indian Agriculture.” American Journal of Agricultural Economics 50 (1968): 584605.Google Scholar
Schmidt, P.Frontier Production Functions.” Econometric Review 4(1985–86): 289328.Google Scholar
Schmidt, P., and Lovell, C.A.K.Estimating Technical and Allocative Inefficiency Relative to Stochastic Production and Cost Frontiers.” Journal of Econometrics 9 (1979): 343–66.CrossRefGoogle Scholar
Schmidt, P., and Sickles, R.C.Production Frontiers and Panel Data.” Journal of Business & Economic Statistics 2 (1984): 367–74.Google Scholar
Schultz, T.W. Transforming Traditional Agriculture. New Haven: Yale University Press, 1964.Google Scholar
Seiford, L.M., and Thrall, R.M.Recent Developments in DEA: The Mathematical Programming Approach to Frontier Analysis.” Journal of Econometrics 46 (1990): 738.Google Scholar
Shapiro, K.H., and Müller, J.Sources of Technical Efficiency: The Roles of Modernization and Information.” Economic Development and Cultural Change 25 (1977): 293310.Google Scholar
Shapiro, K.H.Efficiency Differentials in Peasant Agriculture and Their Implications for Development Policies.” Journal of Development Studies 19 (1983): 179–90.Google Scholar
Sidhu, S.S.Relative Efficiency in Wheat Production in the Indian Punjab.” American Economic Review 64 (1974): 742–51.Google Scholar
Squires, D., and Tabor, S.Technical Efficiency and Future Production Gains in Indonesian Agriculture.” The Developing Economies 29 (1991): 258–70.Google Scholar
Stigler, C.J.The Xistence of X-Efficiency.” American Economic Review 66 (1976): 213–26.Google Scholar
Taylor, T.G., and Shonkwiler, J.S.Alternative Stochastic Specifications of the Frontier Production Function the Analysis of Agricultural Credit Programs and Technical Efficiency.” Journal of Development Economics 21 (1986): 149–60.Google Scholar
Taylor, T.G., Drummond, H.E., and Gomes, A.T.Agricultural Credit Programs and Production Efficiency: An Analysis of Traditional Farming in Southeastern Minas Gerais, Brazil.” American Journal of Agricultural Economics 68 (1986): 110–19.Google Scholar
Timmer, C.Using a Probabilistic Frontier Production Function to Measure Technical Efficiency.” Journal of Political Economy 79 (1971): 776–94.Google Scholar
Toda, Y.Estimation of a Cost Function When the Cost is not Minimum: The Case of Soviet Manufacturing Industries, 1958–71.” Review of Economics and Statistics 58 (1976): 259–68.Google Scholar
Toda, Y.Substitutability and Price Distortion in the Demand for Factors of Production: An Empirical Estimation.” Applied Economics 9 (1977): 203–17.CrossRefGoogle Scholar
Trosper, R.L.American Indian Relative Ranching Efficiency.” American Economic Review 68 (1978): 503–16.Google Scholar
Yotopoulos, P.A., and Lau, L.J.A Test for Relative Efficiency: Some Further Results.” American Economic Review 63 (1973): 214–23.Google Scholar