Eficiencia técnica en hatos lecheros en Costa Rica.

Bernardo Vargas-Leitón; Oscar Solís-Guzmán; Fernando Sáenz-Segura; Héctor León-Hidalgo

doi:10.15517/am.v26i1.16886

Authors

Bernardo Vargas-Leitón Universidad Nacional, Posgrado Regional en Ciencias Veterinarias Tropicales. Costa Rica.
Oscar Solís-Guzmán Universidad Nacional, Posgrado Regional en Ciencias Veterinarias Tropicales. Costa Rica.
Fernando Sáenz-Segura Universidad Nacional, Centro Internacional de Política Económica para el Desarrollo Sostenible (CINPE). Costa Rica.
Héctor León-Hidalgo Cooperativa Dos Pinos, Programa de Transferencia Tecnológica, Sede Alajuela. Costa Rica.

DOI:

https://doi.org/10.15517/am.v26i1.16886

Keywords:

stochastic models, Cobb-Douglas, production frontier.

Abstract

The objective of this work was to quantify technical efficiency in 1086 dairy farms from Costa Rica (year 2007) using Stochastic Frontier Analysis. The base model analyzed the endogenous variable logarithm of Milk Solids (kg/ha/week) as a function of 14 different predictive variables related to physical and management aspects. Overall mean for milk solids was 32.5±23.5 kg, with the highest mean for typology of Specialized Intensive Dairy Herds from the Highlands (83.9 kg), followed by Intensive Dairy Herds from the Lowlands (51.0 kg), Semi-Intensive Dairy Herds from the Highlands (33.8 kg), Extensive Dairy Herds from the Lowlands (23.0 kg) and Dual Purpose Herds from the Lowlands (8.5 kg). Variables associated (P<0,001) to milk solids were stocking rate, fertilizer application, concentrate feeding, proportion of cattle from specialized dairy breed, altitude and grazing area. An increase of 1% in these variables was associated with a change of 0,85%, 0,07%, 0,07%, 0,19%, 0,15% and -0,10% in milk solids, respectively. Overall technical efficiency was 0,75±0,09. When farm typology was added as a predictor into the model, efficiency increased to 0,79±0,07, whereas adjusting the model separately for each farm typology resulted in an overall efficiency of 0,77±0,11. The latter was preferred because better reflects heterogeneous elasticity of predictive variables between different typologies.

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References

Aigner, D.J., C.A.K. Lovell, y P. Schmidt. 1977. Formulation and estimation of stochastic frontier production function models. J. Econometrics. 5:21-38.

Almanidis, P., y R. Sickles. 2012. The skewness problem in stochastic frontier models: fact or fiction?. En: I. Van Keilegom, y P. Wilson, editors, Exploring research frontiers in contemporary statistics and econometrics: a festschrift for Léopold Simar. Springer Publishing, NY, USA. p. 201-227.

Álvarez, A., y J. Del Corral. 2008. ¿Ineficiencia o diferencias tecnológicas en el sector lechero?. Rev. Econ. Aplic. 48:69-88.

Alvarez, A., y J. Del Corral. 2010. Identifying different technologies using a latent class model: extensive versus intensive dairy farms. Europ. Rev. Agric. Econ. 37:231-250.

Alvarez, A., J. Del Corral, D. Solís, y J.A. Pérez. 2008. Does intensification improve the economic efficiency of dairy farms?. J. Dairy Sci. 91:3693-3698.

Battese, G.E., y T. Coelli. 1988. Prediction of firm level technical efficiencies with a generalized frontier production function and panel data. J. Econometrics 38:387-399.

Bravo-Ureta, B., V. Moreira, A. Arzubi, E. Schilder, J. Alvarez, y C. Molina. 2008. Technological change and technical efficiency for dairy farms in three countries of South America. J. Agric. Res. 68:360-367.

Cabrera, V., D. Solís, y J. Del Corral. 2010. Determinants of technical efficiency among dairy farms in Wisconsin. J. Dairy Sci. 93:387-393.

Cobb, C.W., y P.H. Douglas. 1928. A theory of production. Amer. Econ. Rev. 18:139-165.

Coelli, T.J. 1992. A computer program for frontier production function estimation: FRONTIER Version 2.0. Econ. Lett. 39:29-32.

Cursack, A., M. Castignani, O. Osan, y H. Castignan. 2010. Función de producción en sistemas lecheros de alta producción de la Cuenca Central Santafesina, Argentina. http://www.fca.unl.edu.ar/tictambo/web/docs/FuncionProduccionSistemasAltaTecnologia.pdf (Consultado 1 enero 2013).

Daniel, W.W. 2002. Bioestadística. Base para el análisis de las ciencias de la salud. 4 ed. Limusa, México D.F. Fernández, C., G. Koop, y M. Steel. 2005. Alternative efficiency measures for multiple-output production. J. Econometrics 126:411-414.

González-Echeverría, J. 2012. Situación actual y perspectivas del sector lácteo costarricense. Una visión de la Cámara Nacional de Productores de Leche. http://www.proleche.com/index.php/component/content/article?id=76 (Consultado 1 ene. 2013).

Greene, W. 1995. LIMDEP Version 7.0 User’s manual econometric software, Inc. Bellport, NY.

Greene, W. 2008. The econometric approach to efficiency analysis. En: H.O. Fried, C. A. Knox Lovell, y S.S. Schmidt, editores, The measurement of productive efficiency and productivity growth. Oxford University Press, UK. p. 92-250.

Hafner, C.M., H. Manner, y L. Símar. 2013. The “wrong skewness” problem in stochastic frontier models: A new approach. Institut de Statistique, Biostatistique et Sciences Actuarielles (ISBA), Université Catholique de Louvain, Bélgica.

Hair, J.F., R.E. Anderson, R.L. Tatham, y W. Black. 1998.

Multivariate data analysis. 5 ed. Prentice Hall College Division, New York, USA.

Iráizoz, B., M.I. Rapún, y I. Zabaleta. 1998. Análisis de la eficiencia técnica de las explotaciones lecheras. Departamento de Economía, Universidad Pública de Navarra, Navarra, España.

Jondrow, J., C.A.K. Lovell, I.S. Materov, y P. Schmidt. 1982. On the estimation of technical inefficiency in the stochastic frontier production function model. J. Econometrics 19:269-294.

Kumbhakar, S.C., y C.A.K. Lovell. 2000. Stochastic frontier analysis. Cambridge Univ. Press, Cambridge, UK.

Lawson, L., J. Bruun, T. Coelli, J.F. Agger, y M. Lund. 2004. Relationships of efficiency to reproductive disorders in danish milk production: A stochastic frontier analysis. J. Dairy Sci. 87:212-224.

Meeusen, W., y J. van den Broeck. 1977. Efficiency estimation from Cobb-Douglas production function with composed error. Int. Econ. Rev. 18:435-455.

Moreira, V., B. Bravo-Ureta, A. Arzubi, y E. Schilder. 2004. Medidas alternativas de eficiencia técnica en tambos de la Argentina, utilizando una frontera de producción estocástica y datos de panel desbalanceado. http://www.infolactea.com/descargas/biblioteca/297.pdf

(Consultado 1 ene. 2013).

Murova, O., y B. Chidmi. 2009. Impacts of Federal Government programs and specific farm variables on technical efficiency of dairy farms. http://purl.umn.edu/46822 (Consultado 1 ene. 2013).

Richards, T., y S. Jeffrey. 2010. Economic performance in Alberta Dairy: An Application of the Mimic Model. Staff Paper 98-02. University of Alberta, Edmonton, Alberta, Canada.

SAS Institute. 2010. The SAS system for Windows. Version 9.3. SAS Inst., Cary, NC, USA.

Schilder, E.D., y B.E. Bravo. 1993. Análisis de la eficiencia técnica mediante funciones estocásticas de frontera: el caso de la cuenca central Argentina. Artículo presentado en: XXIV Reunión Anual de la Asociación Argentina de Economía Agraria. Huerta Grande, Córdoba, Argentina. Oct. 1993. No. 11.

Toro, P., A. García, C. Aguilar, R. Acero, J. Perea, y R. Vera.

Modelos econométricos para el desarrollo de funciones de producción. Universidad de Córdoba, España.

Vargas-Leitón, B., O. Solís-Guzmán, F. Sáenz-Segura, y H.

León-Hidalgo. 2013. Caracterización y clasificación de hatos lecheros en Costa Rica mediante análisis multivariado. Agron. Mesoam. 24:257-275.

Waldman, D.M. 1982. A stationary point for the stochastic

frontier likelihood. J. Econometrics 18:275-279.