Input-Orientated Data Envelopment Analysis Framework for Measuring and Decomposing Economic, Environmental and Ecological Efficiency: An Application to OECD Agriculture

Ali AI, Seiford LM (1993) The mathematical programming approach to efficiency analysis. In: Fried HO, Lovell CAK, Schmidt SS (eds) The measurement of productive efficiency. Oxford University Press, New York, pp 20–159

American Society of Agronomy (1989) Decision reached on sustainable agriculture. In: Agronomy news. American Society of Agronomy (ASA), Madison

Andersen JH, Schluter L, Aertebjerg G (2006) Coastal eutrophication: recent developments in definitions and implications for monitoring strategies. J Plankton Res 28(7): 621–628

Arnalds O, Barkarson BH (2003) Soil erosion and land use policy in iceland in relation to sheep grazing and government subsidies. Environ Sci Policy 6(1): 105–113

Ayres RU (1995) Thermodynamics and process analysis for future economic scenarios. Environ Resour Econ 6(3): 207–230

Ayres RU, Ayres LW (1998) Accounting for resources, 1: economy-wide applications of mass-balance principles to materials and waste. Edward Elgar, Cheltenham

Ayres RU, Ayres LW, Warr B (2003) Exergy, power and work in the US economy, 1900–1998. Energy 28(3): 219–273

Bastianoni S, Nielsen SN, Marchettini N, Jørgensen SE (2005) Use of thermodynamic functions for expressing some relevant aspects of sustainability. Int J Energy Res 29(1): 53–64

Borejsza A, Rodríguez López I, Frederick CD, Bateman MD (2008) Agricultural slope management and soil erosion at La Laguna, Tlaxcala, Mexico. J Archaeol Sci 35(7): 1854–1866

Boulding KE, Jarrett H (1966) Environmental quality in a growing economy: essays from the sixth RFF forum. Johns Hopkins Press, Baltimore

Chambers RG, Chung Y, Fare R (1996) Benefit and distance functions. J Econ Theory 70(2): 407–419

Charnes A (1994) Data envelopment analysis: theory, methodology, and application. Kluwer, Boston

Chen GQ, Jiang MM, Yang ZF, Chen B, Ji X, Zhou JB (2009) Exergetic assessment for ecological economic system: Chinese agriculture. Ecol Model 220(3): 397–410

Chung YH, Fare R, Grosskopf S (1997) Productivity and undesirable outputs: a directional distance function approach. J Environ Manag 51(3): 229–240

Coelli TJ, Rao DSP (2005) Total factor productivity growth in agriculture: a Malmquist index analysis of 93 countries, 1980–2000. Agric Econ 32(s1): 115–134

Coelli TJ, Rao DSP, O’donnell CJ, Battese G (2005) An introduction to efficiency and productivity analysis. Springer, New York

Coelli T, Lauwers L, Van Huylenbroeck G (2007) Environmental efficiency measurement and the materials balance condition. J Prod Anal 28(1): 3–12

Dewulf J, Bosch ME, Meester BD, Vorst GVD, Langenhove HV, Hellweg S, Huijbregts MAJ (2007) Cumulative exergy extraction from the natural environment (Ceene): a comprehensive life cycle impact assessment method for resource accounting. Environ Sci Technol 41(24): 8477–8483

Färe R, Primont D (1995) Multi-output production and duality: theory and applications. Kluwer, Boston

Färe R, Grosskopf S, Lovell CAK, Pasurka C (1989) Multilateral productivity comparisons when some outputs are undesirable: a nonparametric approach. Rev Econ Stat 71(1): 90–98

Farrell MJ (1957) The measurement of productive efficiency. J R Stat Soc Ser A CXX(Part 3):253–290

Georgescu-Roegen N (1971) The entropy law and the economic process. Harvard University Press, Cambridge

Hau JL, Bakshi BR (2004) Expanding exergy analysis to account for ecosystem products and services. Environ Sci Technol 38(13): 3768–3777

Hoang V-N (2011a) Measuring and decomposing changes in agricultural productivity, nitrogen use efficiency and cumulative exergy efficiency: application to OECD agriculture. Ecol Model 222(1): 164–175

Hoang V-N (2011b) Measuring and decomposing economic, environmental and ecological efficiency and productivity change in agricultural production. The University of Queensland, Brisbane

Hoang V-N, Alauddin M (2010) Assessing the eco-environmental performance of agricultural production in OECD countries: the use of nitrogen flows and balance. Nutr Cycl Agroecosyst 87(3): 353–368

Hoang V-N, Alauddin M (2011) Analysis of agricultural sustainability: a review of exergy methodologies and their application in OECD. Int J Energy Res 35(6): 459–476

Hoang V-N, Rao DSP (2010) Measuring and decomposing sustainable efficiency in agricultural production: a cumulative exergy balance approach. Ecol Econ 69(9): 1765–1776

Hoang VN, Coelli T (2009) Measurement of agricultural total factor productivity growth incorporating environmental factors: a nutrients balance approach. In: European workshop on efficiency and productivity analysis, Pisa

Kneese AV, Ayres RU, D’arge RC (1970) Economics and the environment: a materials balance approach. Johns Hopkins Press, Baltimore

Lauwers L (2009) Justifying the incorporation of the materials balance principle into frontier-based eco-efficiency models. Ecol Econ 68(6): 1605–1614

Lovell CAK (1993) Production frontiers and productive efficiency. In: Fried HO, Lovell CAK, Schmidt SS (eds) The measurement of productive efficiency. Oxford University Press, Oxford

O’donnell CJ (2010) Measuring and decomposing agricultural productivity and profitability change. Aust J Agric Resour Econ 54(4): 527–560

OECD (2001) Environmental performance reviews: Iceland. OECD, Paris

OECD (2008) Environmental performance of agriculture in OECD countries since 1990. OECD, Paris

Piorr H-P (2003) Environmental policy, agri-environmental indicators and landscape indicators. Agric Ecosyst Environ 98(1–3): 17–33

Reinhard S, Thijssen G (2000) Nitrogen efficiency of Dutch dairy farms: a shadow cost system approach. Eur Rev Agric Econ 27(2): 167–186

Scheel H (2001) Undesirable outputs in efficiency valuations. Eur J Oper Res 132(2): 400–410

Sciubba E (2003) Extended exergy accounting applied to energy recovery from waste: the concept of total recycling. Energy 28(13): 1315–1334

Seiford LM, Thrall RM (1990) Recent developments in DEA: the mathematical approach to frontier analysis. J Econom 46(1–2): 7–38

Smith VH, Tilman GD, Nekola JC (1999) Eutrophication: impacts of excess nutrient inputs on freshwater, marine, and terrestrial ecosystems. Environ Pollut 100(1–3): 179–196

Tellarini V, Caporali F (2000) An input/output methodology to evaluate farms as sustainable agroecosystems: an application of indicators to farms in central Italy. Agric Ecosyst Environ 77(1–2): 111–123

Tyteca D (1996) On the measurement of the environmental performance of firms—a literature review and a productive efficiency perspective. J Environ Manag 46(3): 281–308

Tyteca D (1997) Linear programming models for the measurement of environmental performance of firms—concepts and empirical results. J Prod Anal 8(2): 183–197

Van Der Werf HMG, Petit J (2002) Evaluation of the environmental impact of agriculture at the farm level: a comparison and analysis of 12 indicator-based methods. Agric Ecosyst Environ 93(1–3): 131–145

Wall G (1977) Exergy—a useful concept within resource accounting. Report No. 77-42. Institute of Theoretical Physics, Goteborg

Warr BS, Ayres RU (2010) Evidence of causality between the quantity and quality of energy consumption and economic growth. Energy 35(4): 1688–1693

Yli-Viikari A, Hietala-Koivu R, Huusela-Veistola E, Hyvönen T, Perälä P, Turtola E (2007) Evaluating agri-environmental indicators (Aeis)—use and limitations of international indicators at national level. Ecol Indic 7(1): 150–163

Zieschang KD (1984) An extended Farrell technical efficiency measure. J Econ Theory 33(2): 387–396