Abstract
The value conserved in the entropy-production matrix of the System of Accounts for Global Entropy-Production (SAGE-P) corresponds to the flow of services from the consumption of economic objects. Boulding (1949) pointed to the desirability of governments’ designing policies which maximize the service flows (benefits) and minimize the entropy production (cost) of the national economy with the argument that “It is not the increase in consumption or production that makes us rich, but the increase in capital, and any invention which enables us to enjoy a given stock of capital and a smaller amount of consumption and production, out-go or income, so much the gain.” Boulding clearly saw that the objective function of economic policy is to maximize the flow of service income from capital rather than money-income from production. Today, with macro-scale production, efficiency in the use of economic, social, human, and natural capital underpins sustainability but is rarely practised. On the contrary, conserved values-in-exchange dominate the assessments of economic performance, like Gross Domestic Product (GDP). Conservation, the protocols for the survival of future generations, cannot be assessed in accumulative values of money-income, the cardinal measure of GDP, but by qualitative assessments of service flows, the ordinal measure of GDP.
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References
Arrow, K., Dasgupta, P., Goulder, I. et al. (2004), ‘Are We Consuming Too Much?’, Journal of Economic Perspectives, 18(3), pp. 147–172.
Bataille, G. (1988), The Accursed Share: An Essay on General Economy, Volume I: Consumption (translated from French by R. Hurley), Zone Books, New York.
Boulding, K. (1949), ‘Income or Wealth’, Review of Economic Studies, 17, pp. 77–86.
Ellul, J. (1964), The Technological Society (translated from French by J. Wilkinson), Vintage Books, New York.
Faber, M., Proops, J., Speck, S. and Jöst, F. (1999), Capital and Time in Ecological Economics: Neo-Austrian Modeling, Edward Elgar, Cheltenham, UK.
Fisher, I. (1906), The Nature of Capital and Income, Macmillan, New York.
Fisher, I. (1965), ‘The Nature of Capital and Income’, in Reprints of Economic Classics, Augustus M. Kelley Publishers, New York.
Flipo, F. and Schneider, F. (eds) (2008), Proceedings of the First International Conference on Economic De-Growth for Ecological Sustainability and Social Equity, Paris, 18–19 April 2008.
Friend, A. (2005), ‘Unearthing Ecoprices in Conservation Accounts’, in N. Sahu and A. Choudary (eds), Dimensions of Environmental and Ecological Economics, Hyderabad University Press, Hyderabad.
Friend, A. (2009), ‘The Ergodic Hypothesis and its Relationship with the Clausius and the Blotzmann Formulation of the Entropy Law: Discussion Paper I’, unpublished manuscript.
Friend, A. and Friend, M. (2009), ‘Non-linear Accounting Methods and Adaptive Logic: An Exploration of the Meta-language of the Georgescu-Roegen Flow-Fund Model’, Paper presented at the European Society for Ecological Economics Conference, Ljubljana, Slovenia, 30 July–2 August 2009.
Friend, A. and Rapport, D. (1991), ‘Evolution of Macro-information Systems for Sustainable Development’, Ecological Economics, 3, pp. 59–76.
Georgescu-Roegen, N. (1971), The Entropy Law and the Economic Process, Harvard University Press, Cambridge, MA.
Gunderson, L. and Holling, C. (eds) (2002), Panarchy: Understanding Transformations in Human and Natural Systems, Islands Press, Washington, USA.
Holling, C. (1994), ‘What Barriers? What Bridges?’, in L. Gunderson, C. Holling and S. Light (eds), Barriers and Bridges in Renewing Ecosystems and Institutions, Columbia University Press, New York.
Kauffman, S. (1995), At Home in the Universe: The Search for Laws of Self-Organization and Complexity, Oxford University Press, New York.
Koestler, A. (1967), The Ghost in the Machine, Hutchinson, London, UK.
Malte, F. and Proops, J. (1992), Evolution, Time, Production and the Environment, Springer, Heidelberg.
Malthus, T. (1959), Population: The First Essay, The University of Michigan Press, Ann Arbor, MI.
Marshall, A. (1947), Principles of Economics, Eighth edition, Macmillan, London.
Martinez-Alier, J. (1987), Ecological Economics: Energy, Environment, and Society, Basil Blackwell, Oxford.
Mayumi, K. (2001), The Origins of Ecological Economics: The Bioeconomics of Georgescu-Roegen, Routledge, London/New York.
Mill, J.S. (1985), Principles of Political Economy: Books IV & V, Penguin, London.
Mirowski, P. (1989), More Heat than Light: Economics as Social Physics: Physics as Nature’s Economics, Cambridge University Press, Cambridge.
Morel, R. and Fleck, G. (2006), ‘A Fourth Law of Thermodynamics’, Chemistry, 15(4): 305–310.
Peter, M. Vitousek, Paul R. Ehrlich, Anne H. Ehrlich and Pamela A. Matson (1986), ‘Human Appropriation of the Products of Photosynthesis’, BioScience, 36(6), pp. 368–373.
Polimeni, J., Mayumi, K., Giampeetro, M. and Alcott, B. (2008), Jevons’ Paradox and the Myth of Resource Efficiency Improvements, Earthscan Publications, London.
Prigogine, I. and Glandorf, P. (1971), Thermodynamic Theory of Structure, Stability, and Fluctuations, Wiley, New York.
Prigogine, I. (1997), The End of Certainty: Time, Chaos, and the New Laws of Nature, Free Press, New York.
Rapport, D. and Friend, A. (1979), ‘Towards a Comprehensive Framework for Environmental Statistics: A Stress-response Approach’, Catalogue #11–510, Statistics Canada, Ottawa.
Rosen, R. (1985), Anticipatory Systems: Philosophical, Mathematical and Methodological Foundations, Pergamon Press, New York.
Rosen, R. (1991), Life Itself: A Comprehensive Inquiry into the Nature, Origin, and Fabrication of Life, Columbia University Press, New York.
Schrödinger, E. (1967), What is Life and Mind and Matter?, Cambridge University Press, London.
Schumacher, E.F. (1973), Small is Beautiful: Economics as if People Mattered, Harper and Row, New York.
Schumpeter, J. (1934), The Theory of Economic Development, Harvard University Press, Cambridge.
Simon, J. (1981), The Ultimate Resource, Princeton University Press, Princeton, NJ.
Smith, A. (1809), An Inquiry into the Nature and Causes of the Wealth of Nations, Volume I, Mundell, Doig and Stevenson, Edinburgh.
Smith, A. (1994), An Inquiry into the Nature and Causes of the Wealth of Nations, The Modern Library, New York.
Sraffa, P. (1960), Production of Commodities by Means of Commodities, Cambridge University Press, Cambridge.
Stern, N. (2007), Review Report on the Economics of Climate Change, Government Press, London.
World Commission on Environment and Development (WCED) (1987), Our Common Future, Oxford University Press, Oxford.
Zukav, G. (1979), The Dancing Wu Lim Masters: An Overview of the New Physics, William Morrow, New York.
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© 2012 Anthony Friend
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Friend, A. (2012). System of Accounts for Global Entropy-Production (SAGE-P): The Accounting in the Topological Domain Space (TDS) of the Econosphere, Sociosphere, and the Ecosphere. In: Sustainability Analysis. Palgrave Macmillan, London. https://doi.org/10.1057/9780230362437_3
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DOI: https://doi.org/10.1057/9780230362437_3
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