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Technical, allocative and economic efficiency of commercial poultry farms in Bangladesh

Published online by Cambridge University Press:  27 August 2010

I.A. BEGUM ,
J. BUYSSE ,
M.J. ALAM  and
G. VAN HUYLENBROECK
I.A. BEGUM*
Affiliation:
Department of Agricultural Economics, Ghent University, Belgium and Department of Agricultural Economics, Bangladesh Agricultural University, Bangladesh
J. BUYSSE
Affiliation:
Department of Agricultural Economics, Ghent University, Belgium
M.J. ALAM
Affiliation:
Department of Agricultural Economics, Ghent University, Belgium and Department of Agribusiness and Marketing, Bangladesh Agricultural University, Bangladesh
G. VAN HUYLENBROECK
Affiliation:
Department of Agricultural Economics, Ghent University, Belgium
*
Corresponding author: ishameen@yahoo.com
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Abstract

The growth rate of poultry meat production is not sufficient to satisfy the per capita meat requirement in Bangladesh. Therefore ways to improve the efficiency of the existing production technologies must be investigated if these demands are to be met. This review examines ways this could be achieved. The technical, allocative and economic efficiency of poultry meat production based on farm level survey data was estimated using the Data Envelopment Analysis (DEA) approach. The study used 100 commercial poultry farms in Bangladesh for the calendar year of 2007. The results demonstrated that there is substantial technical, allocative and economic inefficiency in poultry production in Bangladesh. Under the constant return to scale (CRS) specification, technical, allocative and economic efficiencies were 88, 70 and 72% respectively, whereas under the variable returns to scale (VRS) specification those efficiencies were 89, 73, 66% respectively. Thus, the results indicate that efficiencies varied substantially across the sample farms. In order to attempt to explain some of these variations, the efficiency scores were regressed based on farm specific variables such as the farmer's age, education, experience, total landholdings, poultry farm size and level of training using a Tobit regression framework. The estimated DEA model identified that there is great potential for increasing poultry farm efficiency using the existing level of inputs and resources more efficiently. Specifically it showed that the level of education and training the farmer receives are two of the most important factors contributing to the variations in efficiency seen during this study. These research findings are valuable to policy makers and extension workers in order to guide policies towards increasing efficiency.

Keywords

economic efficiencydata envelopment analysis (DEA)poultry farmsBangladesh
Type
Small-scale Family Poultry Production
Information
World's Poultry Science Journal , Volume 66 , Issue 3 , September 2010 , pp. 465 - 476
Copyright
World's Poultry Science Association 2010

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References

AHMED, R. (1985) Prospect and Problems of Broiler Production in Bangladesh. Proceeding of the First National Conference of Bangladesh Animal Husbandry Association. BRAC, Dhaka, Bangladesh.Google Scholar
AIGNER, D.J., LOVELLl, C.A.K. and SCHMIDT, P. (1977) Formulation and estimation of stochastic frontier production function models, Journal of Econometrics 6: 21- 37.CrossRefGoogle Scholar
ALAM, J. (1995) Livestock resources in Bangladesh, present status and future potential. University Press Limited, Dhaka, Bangladesh.Google Scholar
ALENE, A.D. and ZELLER, M. (2005) Technology adoption and farmer efficiency in multiple crops production in eastern Ethiopia: A comparison of parametric and non-parametric distance functions. Agricultural Economics Review 6(1): 5-17.Google Scholar
ALI, A.I. and SEIFORD, L. (1993) The mathematical programming approach to efficiency analysis, in: FRIED, H.O., LOVELL, C.A.K. & SCHMIDT, S.S. (Eds) The Measurement of Productive Efficiency, pp. 120-59, (Oxford University Press, New York, USA).Google Scholar
AMARA, N., TRAORE´, N., LABDRY, R. and ROMAIN, R. (1999) Technical efficiency and farmers’ attitudes toward technological innovations: the case of the potato farmers in Quebec. Canadian Journal of Agricultural Economics 47: 31-43.CrossRefGoogle Scholar
ANDERSON, R.I., FOK, R., SPRINGER, T. and WEBB, J. (2002) Technical efficiency and economies of scale: a non-parametric analysis of REIT operating efficiency. European Journal of Operational Research 139(3): 598-612.CrossRefGoogle Scholar
BANKER, R.D., CHARNES, A. and COOPER, W. (1984) Models for Estimation of Technical and Scale Inefficiencies in Data Envelopment Analysis. Management Science 30: 1078-1092.CrossRefGoogle Scholar
BAUER, P.W. (1990) Recent developments in the econometric estimation of frontiers. Journal of Econometrics 46: 39-56.CrossRefGoogle Scholar
BBS, (2006) Yearbook of Agricultural Statistics of Bangladesh 2006. Planning Division, Ministry of Planning, Government of the People's Republic of Bangladesh, Dhaka, Bangladesh.Google Scholar
BEGUM, I.A. (2008) Prospects and potentialities of vertically integrated contract farming in Bangladesh poultry sector development. Ph.D Thesis. Hokkaido University, Japan.Google Scholar
BEGUM, I.A., FUMIO, O. and TAKUMI, K. (2005) Performance of vertically integrated contract and independent poultry farms in Bangladesh: a comparative study. The Review of Agricultural Economics 61: 101-117.Google Scholar
BHUIYAN, A.U. (1999) An economic analysis of small scale poultry farming of Kotwali Thana in Mymensingh district. M.S. thesis, Submitted to the Department of Agricultural Economics, Bangladesh Agricultural University, Mymensingh, Bangladesh.Google Scholar
BHUIYAN, H.A. (2003) A comparative economic analysis of poultry production under supervision of Aftab Bahumukhi farm and own management in some selected areas of Kishorganj district. M.S. thesis, Submitted to the Department of Agricultural Economics, Bangladesh Agricultural University, Mymensingh, Bangladesh.Google Scholar
BRAVO-URETA, B.E. and PINHEIRO, A.E. (1993) Efficiency analysis of developing country agriculture: a review of the frontier function literature. Agricultural and Resource Economics Review 22: 88-101.CrossRefGoogle Scholar
BRAVO-URETA, B.E. and EVENSON, E.E. (1994) Efficiency in agricultural production: the case of peasant farmers in eastern Paraguay. Agricultural Economics 10: 27-37.CrossRefGoogle Scholar
CHARNES, A., COOPER, W. and RHODES, E. (1978) Measuring the efficiency of decision-making units. European Journal of Operational Research 2: 429-444.CrossRefGoogle Scholar
COELLI, T.J. (1995) Recent developments in frontier modeling and efficiency measurement. Australian Journal of Agricultural Economics 39: 219-45.CrossRefGoogle Scholar
COELLI, T.J. (1996) A guide to DEAP version 2.1: A data envelopment analysis (Computer) Program, CEPA Working Paper No. 8/96, ISBN 1 86389 4969, Department of Econometrics, University of New England, pp. 49.Google Scholar
COELLI, T., RAHMAN, S. and THIRTLE, C. (2002) Technical, allocative, cost and scale efficiencies in Bangladesh rice cultivation: a non-parametric approach. Journal of Agricultural Economics 53: 607-626.CrossRefGoogle Scholar
DOLBERG, F. (2008) Poultry sector country review: Bangladesh. Prepared for: FAO animal production and health division emergency centre for trans-boundary animal diseases socio economics, production and biodiversity unit.Google Scholar
FAO, (2008) FAO stat. Statistical Database of Food and Agriculture Organization of the United Nations, Rome.Google Scholar
FARRELL, M.J. (1957) The measurement of productive efficiency. Journal of the Royal Statistics Society, Series A (General) Part 3: 120-134.Google Scholar
FRIED, H.O., LOVELL, C.A.K. and SCHMIDT, S.S. (Eds) (1993) The measurement of productive efficiency: Techniques and applications. Oxford University Press, New York, USA.Google Scholar
HAQUE, Q.M.E. (1985) Commercial Poultry Farming in Bangladesh. Proceeding of the First National Conference of Bangladesh Animal Husbandry Association. BRAC, Dhaka, Bangladesh.Google Scholar
ISLAM, M.M. and SHAHIDULLAH, M. (1989) Poultry Knowledge of the Farmers of a Union in Mymensingh District. Bangladesh Journal of Training and Development 2(1): 12-18.Google Scholar
KALIRAJAN, K.P. and SHAND, R.T. (1989) A generalized measure of technical efficiency. Applied Economics 21: 25-34.CrossRefGoogle Scholar
KAMRUZZAMAN, M.M., MANOS, B. and BEGUM, M.A.A. (2006) Evaluation of economic efficiency of wheat farms in a region of Bangladesh under the input orientation model. Journal of the Asia Pacific Economy 11(1): 123-142.CrossRefGoogle Scholar
KARIM, A.M.A. and MAINUDDIN, G. (1983) Evaluation on the Field Activities of Backyard Poultry Raiser in Bangladesh. UNICEF, Dhaka, Bangladesh.Google Scholar
LOCKHEED, M.E., JAMISON, D. and LAU, L.J. (1981) Farmer education and farm efficiency: a survey. Economic Development and Cultural Change 29: 37-76.CrossRefGoogle Scholar
LOVELL, C.A.K. (1993) Production frontiers and productive efficiency, in: FRIED, H.O., LOVELL, C.A.K. & SCHMIDT, S.S. (Eds) The measurement of productive efficiency, pp. 3-67 (Oxford University Press, New York, USA).Google Scholar
MANOS, B. and PSYCHOUDAKIS, A. (1997) Investigation of the relative efficiency of dairy farms using data envelopment analysis. Quarterly Journal of International Agriculture 36: 188-197.Google Scholar
MEEUSEN, W. and VAN DEN BROECK, J. (1977) Efficiency estimation from Cobb- Douglas production functions with composite error. International Economic Review 18: 435-444.CrossRefGoogle Scholar
MITCHELL, D. (1997) The Livestock and Poultry Sub-Sector in Bangladesh. Mission Report, World Bank.Google Scholar
PARIKH, A., ALI, F. and SHAH, M.S. (1995) Measurement of economic efficiency in Pakistani agriculture. American Journal of Agricultural Economics 77: 675-685.CrossRefGoogle Scholar
RAHMAN, S. (2003) Profit efficiency among Bangladeshi rice farmers. Food Policy 28: 487-502.CrossRefGoogle Scholar
SHARIF, N.R. and DAR, A. (1996) An empirical study of the patterns and sources of technical inefficiency in traditional and HYV rice cultivation in Bangladesh. Journal of Development Studies 32: 12-29.Google Scholar
SHARMA, K.R., LEUNG, P. and ZALESKI, H.M. (1999) Technical, allocative and economic efficiencies in swine production in Hawaii: a comparison of parametric and nonparametric approaches. Agricultural Economics 20: 23-35.CrossRefGoogle Scholar
SILBERBERG, E. (1990) The structure of Economics: A Mathematical Analysis (2nd Edn). McGraw-Hill.Google Scholar
THIAM, A., BRAVO-URETA, B.E. and RIVAS, T.E. (2001) Technical efficiency in developing country agriculture: a meta analysis. Agricultural Economics 25: 235-243.Google Scholar
UDDIN, H. (1999) A comparative economic analysis of broiler and layer production in some selected areas of Sadar Thana in Mymensingh district. M.S. thesis, Submitted to the Department of Agricultural Economics, Bangladesh Agricultural University, Mymensingh, Bangladesh.Google Scholar
UKIL M.A., and PAUL, D.C. (1992) Problems and prospects of broiler industry. Conference of Bangladesh Animal Husbandry Association, Dhaka, Bangladesh.Google Scholar
WADUD, A. and WHITE, B. (2000) Farm household efficiency in Bangladesh: a comparison of stochastic frontier and DEA methods. Applied Economics 32:1665-1673.CrossRefGoogle Scholar
WILSON, P., HADLEY, D. and ASBY, C. (2001) The influence of management characteristics on the technical efficiency of wheat farmers in Eastern England. Agricultural Economics 24: 329-338.CrossRefGoogle Scholar
YUSUF, S.A. and MALOMO, O. (2007) Technical efficiency of poultry egg production in Ogun state: a data envelopment analysis (DEA) approach. International Journal of Poultry Science 6(9): 622-629.CrossRefGoogle Scholar