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Cost Efficiency of Dairy Farming in New Zealand: A Stochastic Frontier Analysis

Published online by Cambridge University Press:  15 September 2016

Nan Jiang  and
Basil Sharp
Nan Jiang*
Affiliation:
Economics Department of the Business Faculty of Auckland University of Technology
Basil Sharp
Affiliation:
Economics Department of the Business Faculty of University of Auckland
*
Correspondence: Nan JiangEconomics DepartmentAuckland University of TechnologyAucklandNew ZealandPhone +64.9.9219999 ext 8315Email[email protected].
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Abstract

Research on the efficiency of dairy farming in New Zealand is limited and has focused predominantly on technical efficiency. We contribute to the literature on empirical analysis by examining cost efficiency of New Zealand dairy farms. We construct simplified translog stochastic cost frontiers based on an unbalanced panel of 824 farms. Average cost efficiency is estimated at 83 percent for dairy farms in the North Island and 80 percent for farms in the South Island. Our analysis of the relationship between inefficiency and farm characteristics suggests significant associations between cost efficiency and capital intensity, livestock quality, and farm size.

Keywords

cost efficiencyNew Zealand dairy farmingstochastic frontier
Type
Research Article
Information
Agricultural and Resource Economics Review , Volume 43 , Issue 3 , December 2014 , pp. 406 - 418
Copyright
Copyright © 2014 Northeastern Agricultural and Resource Economics Association 

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References

Ahmad, M., and Bravo-Ureta, B.E. 1996. “Technical Efficiency Measures for Dairy Farms Using Panel Data: A Comparison of Alternative Model Specifications. “Journal of Productivity Analysis 7(4): 399415.Google Scholar
Alvarez, A., del Corral, J., Solis, D., and Pérez, J.A. 2008. “Does Intensification Improve the Economic Efficiency of Dairy Farms?Journal of Dairy Science 91(9): 36933698.Google ScholarPubMed
Battese, G.E. 1992. “Frontier Production Functions and Technical Efficiency: A Survey of Empirical Applications in Agricultural Economics.Agricultural Economics 7(3/4): 185208.Google Scholar
Battese, G.E., and Coelli, T.J. 1988. “Prediction of Firm-level Technical Efficiencies with Generalized Frontier Production Function Models.Journal of Econometrics 38(3): 387399.Google Scholar
Battese, G.E., and Coelli, T.J. 1995. “A Model for Technical Efficiency Effects in a Stochastic Frontier Production Function for Panel Data.Empirical Economics 20(2): 325332.Google Scholar
Bravo-Ureta, B.E., and Rieger, L. 1991. “Dairy Farm Efficiency Measurement Using Stochastic Frontiers and Neoclassical Duality.American Journal of Agricultural Economics 73(2): 421428.Google Scholar
Bravo-Ureta, B.E., Solis, D., Moreira, V.H., Maripani, J., Thiam, A., and Rivas, T. 2007. “Technical Efficiency in Farming: A Meta-regression Analysis.Journal of Productivity Analysis 27(1): 5772.Google Scholar
Coelli, T.J. 1995. “Recent Developments in Frontier Modeling and Efficiency Measurement.Australian Journal of Agricultural Economics 39(3): 219245.Google Scholar
Coelli, T.J. 1996. “A Guide to FRONTIER Version 4.1: A Computer Program for Stochastic Frontier Production and Cost Function Estimation.” CEPA Working Paper 7/96, School of Economics, University of New England, Armidale, Australia.Google Scholar
Coelli, T.J., Prasada Rao, D.S., O'Donnell, C.J., and Battese, G.E. 2005. An Introduction to Efficiency and Productivity Analysis (2nd edition). New York, NY: Springer Science + Business Media, LLC. Google Scholar
Cuesta, R.A. 2000. “A Production Model with Firm-specific Temporal Variation in Technical Inefficiency with Application to Spanish Dairy Farms.Journal of Productivity Analysis 13(2): 139158.Google Scholar
DairyNZ/Livestock Improvement Corporation. 2013. New Zealand Dairy Statistics 2012-13. Hamilton, New Zealand: DairyNZ.Google Scholar
Dawson, P.J. 1987a. “Farm-specific Technical Efficiency in the England and Wales Dairy Sector.European Review of Agricultural Economics 14(4): 383394.Google Scholar
Dawson, P.J. 1987b. “Technical Efficiency Relative to a Stochastic Cost Frontier for the England and Wales Dairy Sector.Oxford Development Studies 16(1): 4555.Google Scholar
Good, D.H., Nadiri, M.I., Roller, L., and Sickles, R.C. 1993. “Efficiency and Productivity Growth Comparisons of European and U.S. Air Carriers: A First Look at the Data.Journal of Productivity Analysis 4(1/2): 115125.Google Scholar
Hadley, D. 2006. “Patterns in Technical Efficiency and Technical Change at the Farm Level in England and Wales, 1982-2002. “Journal of Agricultural Economics 57(1): 81100.Google Scholar
Hadri, K., and Whittaker, J. 1999. “Efficiency, Environmental Contaminants, and Farm Size: Testing for Links Using Stochastic Production Frontiers.Journal of Applied Economics 2(2): 337356.Google Scholar
Hailu, G., Jeffrey, S., and Unterschultz, J. 2005. “Cost Efficiency for Alberta and Ontario Dairy Farms: An Interregional Comparison.Canadian Journal of Agricultural Economics 53(2/3): 141160.Google Scholar
Hennessy, T., Shalloo, L., and Dillon, P. 2005. “The Economic Implications of Complying with a Limit on Organic Nitrogen in a Decoupled Policy Environment—An Irish Case.Journal of Farm Management 12(6): 297311.Google Scholar
Jaforullah, M., and Devlin, N.J. 1996. “Technical Efficiency in the New Zealand Dairy Industry: A Frontier Production Function Approach.New Zealand Economic Papers 30(1): 117.Google Scholar
Jaforullah, M., and Premachandra, E. 2003. “Sensitivity of Technical Efficiency Estimates to Estimation Approaches: An Investigation Using New Zealand Dairy Industry Data.” Economics Discussion Paper 306, University of Otago, Dunedin, New Zealand.Google Scholar
Jaforullah, M., and Whiteman, J. 1999. “Scale Efficiency in the New Zealand Dairy Industry: A Nonparametric Approach.Australian Journal of Agricultural and Resource Economics 43(4): 523541.Google Scholar
Jiang, N., and Sharp, B. 2008. “Technical Efficiency Analysis of New Zealand Dairy Farms: A Stochastic Production Frontier Approach.” Paper presented at the Thirteenth New Zealand Agricultural and Resource Economics conference, Nelson, New Zealand.Google Scholar
Kompas, T., and Che, T.N. 2006. “Technology Choice and Efficiency on Australian Dairy Farms.Australian Journal of Agricultural and Resource Economics 50(1): 6583.Google Scholar
Kumbhakar, S.C., Ghosh, S., and McGuckin, J.T. 1991. “A Generalized Production Frontier Approach for Estimating Determinants of Inefficiency in U.S. Dairy Farms.Journal of Business and Economic Statistics 9(3): 279286.Google Scholar
Kumbhakar, S.C., and Heshmati, A. 1995. “Efficiency Measurement in Swedish Dairy Farms: An Application of Rotating Panel Data, 1976-88.American Journal of Agricultural Economics 77(3): 660674.Google Scholar
Kumbhakar, S.C., and Lovell, C.A.K. 2000. Stochastic Frontier Analysis. Cambridge, UK: Cambridge University Press.Google Scholar
Kutlu, L. 2010. “Battese-Coelli Estimator with Endogenous Regressors.Economics Letters 109(2): 7981.Google Scholar
Maddala, G.S. 1979. “A Note on the Form of the Production Function and Productivity.” In Measurement of Agricultural Productivity. Washington, DC: National Research Council National Academy of Sciences.Google Scholar
Moreira, V.H., and Bravo-Ureta, B.E. 2010. “Technical Efficiency and Metatechnology Ratios for Dairy Farms in Three Southern Cone Countries: A Stochastic Meta-frontier Model.Journal of Productivity Analysis 33(1): 3345.Google Scholar
Mutter, R.L., Greene, W.H., Spector, W., Rosko, M.D., and Mukamel, D.B. 2013. “Investigating the Impact of Endogeneity on Inefficiency Estimates in the Application of Stochastic Frontier Analysis to Nursing Homes.Journal of Productivity Analysis 39(2): 101110.Google Scholar
Pierani, P., and Rizzi, P.L. 2003. “Technology and Efficiency in a Panel of Italian Dairy Farms: An SGM Restricted Cost Function Approach.Agricultural Economics 29(2): 195209.Google Scholar
Reinhard, S., Lovell, C.A.K., and Thijssen, G.J. 1999. “Econometric Estimation of Technical and Environmental Efficiency: An Application to Dutch Dairy Farms.American Journal of Agricultural Economics 81(1): 4460.Google Scholar
Reinhard, S., Lovell, C.A.K., and Thijssen, G.J. 2000. “Environmental Efficiency with Multiple Environmentally Detrimental Variables Estimated with SFA and DEA.European Journal of Operational Research 121(2): 287303.Google Scholar
Reinhard, S., and Thijssen, G.J. 2000. “Nitrogen Efficiency of Dutch Dairy Farms: A Shadow Cost System Approach.European Review of Agricultural Economics 27(2): 167186.Google Scholar
Revoredo-Giha, C.L., Milne, C.E., Leat, P.M.K., and Cho, W.J. 2009. “Efficiency of Scottish Farms: A Stochastic Cost Frontier Analysis.Agricultural Economics Review 10(2): 1735.Google Scholar
Rouse, P., Chen, L., and Harrison, J.A. 2009. “Benchmarking the Performance of Dairy Farms Using Data Envelopment Analysis.” Paper presented at the 2009 Performance Measurement Association conference, Dunedin, New Zealand.Google Scholar
Tran, K.C., and Tsionas, E.G. 2012. “GMM Estimation of Stochastic Frontier Model with Endogenous Regressors.Economics Letters 118(1): 233236.Google Scholar