Abstract
Energy use and GDP are positively correlated, although energy intensity has declined over time and is usually lower in richer countries. Numerous factors affect the energy intensity of economies, and energy efficiency is obviously one of the most important. However, the rebound effect might limit the possibilities for energy efficiency improvements to reduce energy intensity. Natural science suggests that energy is crucial to economic production but mainstream economic growth theory largely ignores the role of energy. Ecological economists and some economic historians argue that increasing energy supply has been a principal driver of growth. It is possible that historically energy scarcity imposed constraints on growth, but with the increased availability of modern energy sources energy’s importance as a driver of growth has declined. Empirical research on whether energy causes growth or vice versa is inconclusive, but meta-analysis finds that the role of energy prices is central to understanding the relationship.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Bibliography
Acemoglu, D. 2009. Introduction to economic growth. Princeton: Princeton University Press.
Aghion, P., and P. Howitt. 2008. The economics of growth. Cambridge, MA: MIT Press.
Aguayo, F., and K.P. Gallagher. 2005. Economic reform, energy, and development: The case of Mexican manufacturing. Energy Policy 33: 829–837.
Allan, G., N. Hanley, P. McGregor, K. Swales, and K. Turner. 2007. The impact of increased efficiency in the industrial use of energy: A computable general equilibrium analysis for the United Kingdom. Energy Economics 29: 779–798.
Ang, B.W. 2006. Monitoring changes in economy-wide energy efficiency: From energy- GDP ratio to composite efficiency index. Energy Policy 34: 574–582.
Asheim, G.B. 1994. Net national product as an indicator of sustainability. Scandinavian Journal of Economics 96: 257–265.
Asheim, G.B., W. Buchholz, and C. Withagen. 2003. The Hartwick rule: Myths and facts. Environmental and Resource Economics 25: 129–150.
Ayres, R.U., and A.V. Kneese. 1969. Production, consumption and externalities. American Economic Review 59: 282–297.
Ayres, R.U., and B. Warr. 2005. Accounting for growth: The role of physical work. Structural Change and Economic Dynamics 16: 181–209.
Ayres, R.U., and B. Warr. 2009. The economic growth engine: How energy and work drive material prosperity. Cheltenham: Edward Elgar.
Ayres, R.U., L.W. Ayres, and K. Martinás. 1998. Exergy, waste accounting, and life-cycle analysis. Energy 23 (5): 355–363.
Ayres, R.U., L.W. Ayres, and B. Warr. 2003. Exergy, power and work in the US economy, 1900–1998. Energy 28: 219–273.
Barker, T., A. Dagoumas, and J. Rubin. 2009. The macroeconomic rebound effect and the world economy. Energy Efficiency 2: 411–427.
Berndt, E.R. 1978. Aggregate energy, efficiency, and productivity measurement. Annual Review of Energy 3: 225–273.
Berndt, E.R. 1990. Energy use, technical progress and productivity growth: A survey of economic issues. The Journal of Productivity Analysis 2: 67–83.
Borenstein, S. 2015. A microeconomic framework for evaluating energy efficiency rebound and some implications. Energy Journal 36 (1): 1–21.
Boulding, K. 1966. The economics of the coming spaceship Earth. In Environmental quality in a growing economy, ed. H. Jarett. Baltimore: Johns Hopkins University Press.
Brown, M.T., and R.A. Herendeen. 1996. Embodied energy analysis and emergy analysis: A comparative view. Ecological Economics 19: 219–236.
Bruns, S.B., C. Gross, and D.I. Stern. 2014. Is there really Granger causality between energy use and output? Energy Journal 35 (4): 101–134.
Burke, P.J. 2013. The national-level energy ladder and its carbon implications. Environment and Development Economics 18 (4): 484–503.
Burkett, P. 2003. The value problem in ecological economics: Lessons from the physiocrats and Marx. Organization & Environment 16 (2): 137–167.
Cleveland, C.J., R. Costanza, C.A.S. Hall, and R.K. Kaufmann. 1984. Energy and the U.S. economy: A biophysical perspective. Science 225: 890–897.
Cleveland, C.J., R.K. Kaufmann, and D.I. Stern. 2000. Aggregation and the role of energy in the economy. Ecological Economics 32: 301–318.
Common, M.S. 1995. Sustainability and policy: Limits to economics. Melbourne: Cambridge University Press.
Costantini, V., and C. Martini. 2010. The causality between energy consumption and economic growth: A multi-sectoral analysis using non-stationary cointegrated panel data. Energy Economics 32: 591–603.
Costanza, R. 1980. Embodied energy and economic valuation. Science 210: 1219–1224.
Costanza, R., and H.E. Daly. 1992. Natural capital and sustainable development. Conservation Biology 6: 37–46.
Csereklyei, Z., M.d.M. Rubio Varas, and D.I. Stern. 2016. Energy and economic growth: The stylized facts. Energy Journal 37 (2): 223–255.
Dasgupta, P.S., and G.M. Heal. 1979. Economic theory and exhaustible resources. Cambridge: Cambridge University Press.
Dechezleprêtre, A., M. Glachant, I. Haščič, N. Johnstone, and Y. Ménière. 2011. Invention and transfer of climate change-mitigation technologies: A global analysis. Review of Environmental Economics and Policy 5 (1): 109–130.
Enflo, K., A. Kander, and L. Schön. 2009. Electrification and energy productivity. Ecological Economics 68: 2808–2817.
Engle, R.E., and C.W.J. Granger. 1987. Cointegration and error-correction: Representation, estimation, and testing. Econometrica 55: 251–276.
Fouquet, R. 2014. Long run demand for energy services: Income and price elasticities over 200 years. Review of Environmental Economics and Policy 8 (2): 186–207.
Fredriksson, P.G., H.R.J. Vollebergh, and E. Dijkgraaf. 2004. Corruption and energy efficiency in OECD countries: Theory and evidence. Journal of Environmental Economics and Management 47: 207–231.
Gentvilaite, R., A. Kander, and P. Warde. 2015. The role of energy quality in shaping long-term energy intensity in Europe. Energies 8 (1): 133–153.
Georgescu-Roegen, N. 1971. The entropy law and the economic process. Cambridge, MA: Harvard University Press.
Gever, J., R.K. Kaufmann, D. Skole, and C. Vorosmarty. 1986. Beyond oil: The threat to food and fuel in the coming decades. Cambridge, MA: Ballinger.
Ghali, K.H., and M.I.T. El-Sakka. 2004. Energy use and output growth in Canada: A multivariate cointegration analysis. Energy Economics 26: 225–238.
Gillingham, K., R.G. Newell, and K. Palmer. 2009. Energy efficiency economics and policy. Annual Review of Resource Economics 1: 597–620.
Gillingham, K., M.J. Kotchen, D.S. Rapson, and G. Wagner. 2013. The rebound effect is overplayed. Nature 493: 475–476.
Granger, C.W.J. 1969. Investigating causal relations by econometric models and cross-spectral methods. Econometrica 37: 424–438.
Greening, L.A., D.L. Greene, and C. Difiglio. 2000. Energy efficiency and consumption – The rebound effect – A survey. Energy Policy 28: 389–401.
Grepperud, S., and I. Rasmussen. 2004. A general equilibrium assessment of rebound effects. Energy Economics 26: 261–282.
Grübler, A., N. Nakicenovic, and D.G. Victor. 1999. Dynamics of energy technologies and global change. Energy Policy 27: 247–280.
Grübler, A., T.B. Johansson, L. Mundaca, N. Nakicenovic, S. Pachauri, K. Riahi, H.-H. Rogner, and L. Strupeit. 2012. Chapter 1. Energy primer. In Global energy assessment – toward a sustainable future. Cambridge, UK/New York/Laxenburg: Cambridge University Press/International Institute for Applied Systems Analysis.
Hall, C.A.S., C.J. Cleveland, and R.K. Kaufmann. 1986. Energy and resource quality: The ecology of the economic process. New York: Wiley Interscience.
Hall, C.A.S., P. Tharakan, J. Hallock, C.J. Cleveland, and M. Jefferson. 2003. Hydrocarbons and the evolution of human culture. Nature 426: 318–322.
Hannon, B. 1973. An energy standard of value. Annals of the American Academy 410: 139–153.
Hartwick, J.M. 1977. Intergenerational equity and the investing of rents from exhaustible resources. American Economic Review 66: 972–974.
Hartwick, J.M. 1995. Constant consumption paths in open economies with exhaustible resources. Review of International Economics 3: 275–283.
Hendry, D.F., and K. Juselius. 2000. Explaining cointegration analysis: Part 1. Energy Journal 21 (1): 1–42.
Henriques, S.T., and A. Kander. 2010. The modest environmental relief resulting from the transition to a service economy. Ecological Economics 70: 271–282.
Hornborg, A. 2014. Ecological economics, Marxism, and technological progress: Some explorations of the conceptual foundations of theories of ecologically unequal exchange. Ecological Economics 105: 11–18.
Howarth, R.B. 1997. Energy efficiency and economic growth. Contemporary Economic Policy 25: 1–9.
Joyeux, R., and R.D. Ripple. 2011. Energy consumption and real income: A panel cointegration multi-country study. Energy Journal 32 (2): 107–141.
Judson, R.A., R. Schmalensee, and T.M. Stoker. 1999. Economic development and the structure of demand for commercial energy. Energy Journal 20 (2): 29–57.
Kander, A. 2002. Economic growth, energy consumption and CO2emissions in Sweden 1800–2000. Lund studies in economic history, vol. 19. Lund.
Kander, A. 2005. Baumol’s disease and dematerialization of the economy. Ecological Economics 55 (1): 119–130.
Kander, A., and M. Lindmark. 2006. Foreign trade and declining pollution in Sweden: A decomposition analysis of long-term structural and technological effects. Energy Policy 34 (13): 1590–1599.
Kander, A., P. Malanima, and P. Warde. 2014. Power to the people – Energy and economic transformation of Europe over four centuries. Princeton: Princeton University Press.
Kaufmann, R.K. 1987. Biophysical and Marxist economics: Learning from each other. Ecological Modelling 38: 91–105.
Kaufmann, R.K. 1992. A biophysical analysis of the energy/real GDP ratio: Implications for substitution and technical change. Ecological Economics 6: 35–56.
Kaufmann, R.K. 2004. The mechanisms for autonomous energy efficiency increases: A cointegration analysis of the US energy/GDP ratio. Energy Journal 25 (1): 63–86.
Koetse, M.J., H.L.F. de Groot, and R.J.G.M. Florax. 2008. Capital–energy substitution and shifts in factor demand: A meta-analysis. Energy Economics 30: 2236–2251.
Kraft, J., and A. Kraft. 1978. On the relationship between energy and GNP. Journal of Energy and Development 3: 401–403.
Kubiszewski, I., C.J. Cleveland, and P.K. Endres. 2010. Meta-analysis of net energy return for wind power systems. Renewable Energy 35: 218–225.
Lee, C.-C., and C.-P. Chang. 2008. Energy consumption and economic growth in Asian economies: A more comprehensive analysis using panel data. Resource and Energy Economics 30 (1): 50–65.
Lee, C.-C., C.-P. Chang, and P.-F. Chen. 2008. Energy-income causality in OECD countries revisited: The key role of capital stock. Energy Economics 30: 2359–2373.
Levinson, A. 2010. Offshoring pollution: Is the United States increasingly importing polluting goods? Review of Environmental Economics and Policy 4 (1): 63–83.
Linares, P., and X. Labandeira. 2010. Energy efficiency: Economics and policy. Journal of Economic Surveys 24 (3): 583–592.
Ma, C., and D.I. Stern. 2008. China’s changing energy intensity trend: A decomposition analysis. Energy Economics 30 (3): 1037–1053.
Maddison, A. 2001. The world economy: A millennial perspective. Paris: OECD.
Matisoff, D.C. 2008. The adoption of state climate change policies and renewable portfolio standards: Regional diffusion or internal determinants? Review of Policy Research 25 (6): 527–546.
Murphy, D.J., and C.A.S. Hall. 2010. Year in review – EROI or energy return on (energy) invested. Annals of the New York Academy of Sciences 1185: 102–118.
Newell, R.G., A.B. Jaffe, and R.N. Stavins. 1999. The induced innovation hypothesis and energy-saving technological change. Quarterly Journal of Economics 114: 941–975.
O’Connor, M.P. 1993. Entropic irreversibility and uncontrolled technological change in the economy and environment. Journal of Evolutionary Economics 34: 285–315.
Oh, W., and K. Lee. 2004. Causal relationship between energy consumption and GDP revisited: The case of Korea 1970–1999. Energy Economics 26: 51–59.
Ozturk, I. 2010. A literature survey on energy–growth nexus. Energy Policy 38: 340–349.
Perrings, C.A. 1987. Economy and environment: A theoretical essay on the interdependence of economic and environmental systems. Cambridge: Cambridge University Press.
Pezzey, J.C.V. 2004. Sustainability tests with amenities, and change in technology, trade and population. Journal of Environmental Economics and Management 48: 613–631.
Popp, D. 2002. Induced innovation and energy prices. American Economic Review 92: 160–180.
Roy, J. 2000. The rebound effect: Some empirical evidence from India. Energy Policy 28: 433–438.
Saunders, H.D. 1992. The Khazzoom–Brookes postulate and neoclassical growth. Energy Journal 13 (4): 131–148.
Saunders, H.D. 2008. Fuel conserving (and using) production functions. Energy Economics 30: 2184–2235.
Saunders, H.D. 2013. Historical evidence for energy efficiency rebound in 30 US sectors and a toolkit for rebound analysts. Technological Forecasting and Social Change 80: 1317–1330.
Schurr, S. 1982. Energy efficiency and productive efficiency: Some thoughts based on American experience. Energy Journal 3 (3): 3–14.
Schurr, S., and B. Netschert. 1960. Energy and the American economy, 1850–1975. Baltimore: Johns Hopkins University Press.
Smulders, S. 2005. Endogenous technical change, natural resources and growth. In Scarcity and growth in the new millennium, ed. R. Ayres, D. Simpson, and M. Toman. Washington, DC: Resources for the Future.
Smyth, R., and P.K. Narayan. 2015. Applied econometrics and implications for energy economics research. Energy Economics 50: 351–358.
Solow, R.M. 1956. A contribution to the theory of economic growth. Quarterly Journal of Economics 70: 65–94.
Solow, R.M. 1974. Intergenerational equity and exhaustible resources. Review of Economic Studies 41 (5): 29–46.
Sorrell, S., J. Dimitropoulos, and M. Sommerville. 2009. Empirical estimates of the direct rebound effect: A review. Energy Policy 37: 1356–1371.
Stern, D.I. 1993. Energy use and economic growth in the USA: A multivariate approach. Energy Economics 15: 137–150.
Stern, D.I. 1997. Limits to substitution and irreversibility in production and consumption: A neoclassical interpretation of ecological economics. Ecological Economics 21: 197–215.
Stern, D.I. 1999. Is energy cost an accurate indicator of natural resource quality? Ecological Economics 31: 381–394.
Stern, D.I. 2000. A multivariate cointegration analysis of the role of energy in the U.S. macroeconomy. Energy Economics 22: 267–283.
Stern, D.I. 2004. The rise and fall of the environmental Kuznets curve. World Development 32 (8): 1419–1439.
Stern, D.I. 2010. Energy quality. Ecological Economics 69 (7): 1471–1478.
Stern, D.I. 2011. The role of energy in economic growth. Annals of the New York Academy of Sciences 1219: 26–51.
Stern, D.I. 2012a. Interfuel substitution: A meta-analysis. Journal of Economic Surveys 26: 307–331.
Stern, D.I. 2012b. Modeling international trends in energy efficiency. Energy Economics 34: 2200–2208.
Stern, D.I., and A. Kander. 2012. The role of energy in the industrial revolution and modern economic growth. Energy Journal 33 (3): 125–152.
Stiglitz, J.E. 1974a. Growth with exhaustible natural resources: The competitive economy. Review of Economic Studies 41: 139–152.
Stiglitz, J.E. 1974b. Growth with exhaustible natural resources: Efficient and optimal growth paths. Review of Economic Studies 41: 123–138.
Sue Wing, I. 2008. Explaining the declining energy intensity of the U.S. economy. Resource and Energy Economics 30: 21–49.
Toman, M.A., and B. Jemelkova. 2003. Energy and economic development: An assessment of the state of knowledge. Energy Journal 24 (4): 93–112.
Turner, K. 2009. Negative rebound and disinvestment effects in response to an improvement in energy efficiency in the UK economy. Energy Economics 31: 648–666.
Turner, K. 2013. ‘Rebound’ effects from increased energy efficiency: A time to pause and reflect. Energy Journal 34 (4): 25–43.
Turner, K., and N. Hanley. 2011. Energy efficiency, rebound effects and the Environmental Kuznets Curve. Energy Economics 33: 722–741.
Ukidwe, N.U., and B.R. Bakshi. 2007. Industrial and ecological cumulative exergy consumption of the United States via the 1997 input–output benchmark model. Energy 32: 1560–1592.
van Benthem, A.A. 2015. Energy leapfrogging. Journal of the Association of Environmental and Resource Economists 2 (1): 93–132.
Wang, C. 2011. Sources of energy productivity growth and its distribution dynamics in China. Resource and Energy Economics 33: 279–292.
Warr, B., and R.U. Ayres. 2010. Evidence of causality between the quantity and quality of energy consumption and economic growth. Energy 35: 1688–1693.
Warr, B., R.U. Ayres, N. Eisenmenger, F. Krausmann, and H. Schandl. 2010. Energy use and economic development: A comparative analysis of useful work supply in Austria, Japan, the United Kingdom and the US during 100 years of economic growth. Ecological Economics 69: 1904–1917.
Wei, C., J. Ni, and M. Shen. 2009. Empirical analysis of provincial energy efficiency in China. China & World Economy 17 (5): 88–103.
Wrigley, E. Anthony. 2010. Energy and the English industrial revolution. Cambridge: Cambridge University Press.
Yu, E.S.H., and J.C. Jin. 1992. Cointegration tests of energy consumption, income, and employment. Resources and Energy 14: 259–266.
Author information
Authors and Affiliations
Editor information
Copyright information
© 2018 Macmillan Publishers Ltd.
About this entry
Cite this entry
Stern, D.I. (2018). Energy-GDP Relationship. In: The New Palgrave Dictionary of Economics. Palgrave Macmillan, London. https://doi.org/10.1057/978-1-349-95189-5_3015
Download citation
DOI: https://doi.org/10.1057/978-1-349-95189-5_3015
Published:
Publisher Name: Palgrave Macmillan, London
Print ISBN: 978-1-349-95188-8
Online ISBN: 978-1-349-95189-5
eBook Packages: Economics and FinanceReference Module Humanities and Social SciencesReference Module Business, Economics and Social Sciences