CO2 Emissions and Energy Technologies in Western Europe

  1. Josué Barrera-Santana 1
  2. Gustavo A. Marrero 1
  3. Luis A. Puch 2
  4. Antonia Díaz 3
  1. 1 Universidad de La Laguna and CEDESOG
  2. 2 Universidad Complutense de Madrid and ICAE
  3. 3 Universidad Carlos III de Madrid
    info

    Universidad Carlos III de Madrid

    Madrid, España

    ROR https://ror.org/03ths8210

Revista:
Documentos de Trabajo (ICAE)

ISSN: 2341-2356

Año de publicación: 2021

Número: 7

Páginas: 1-47

Tipo: Documento de Trabajo

Otras publicaciones en: Documentos de Trabajo (ICAE)

Resumen

In this paper we investigate the path to the green transition in Europe. In so doing, we implement an empirical model of dynamic panel data on a sample of sixteen Western European countries over the period 1980 to 2019. The model is consistent with various features of neoclassical growth theory incorporating energy use. Our focus is on the short-run determinants of carbon emissions within that set of countries. We provide evidence that the relationship between economic activity and CO2 emissions is strong in economies where economic booms depend on energy intensive sectors. Also, the mitigating role of renewable energy technologies is key when energy intensity rebounds. These circumstances may constitute a challenge for the climate transition goals targeted in the EU’s Recovery Plan, whose main objective at this very moment is to mitigate the economic and social impact of the coronavirus pandemic.

Referencias bibliográficas

  • Acemoglu, D., Johnson, S., Robinson, J. and Yared, P. Income and democracy. American Economic Review, volume 98, pages 808–842, 2008.
  • Alvarez, F., Marrero, G. A. and Puch, L. A. Air pollution and the macroeconomy across European countries. Fedea, Working Paper, volume 10, 2005.
  • Apergis, N. and Payne, J. Renewable energy consumption and economic growth: evidence from a panel of OECD countries. Energy Policy, volume 38, pages 656–660, 2010.
  • Arellano, M. and Bover, O. Another look at the instrumental-variable estimation of errorcomponents models. Journal of Econometrics, volume 68, pages 29–52, 1995.
  • Atkeson, A. and Kehoe, P. J. Models of energy use: putty-putty versus putty-clay. American Economic Review, volume 89(4), pages 1028–1043, 1999.
  • Battaglini, M. and Harstad, B. Participation and duration of environmental agreements. Journal of Political Economy, volume 124(1), pages 160–204, 2016.
  • Beaudry, P. and Portier, F. Stock Prices, News, and Economic Fluctuations. American Economic Review, volume 96(4), pages 1293–1307, 2006.
  • Brock, W. and Taylor, M. Economic growth and the environment: A review of theory and empirics. Handbook of Economic Growth, volume 1(Ch-28), pages 1749–1821, 2005.
  • Brock, W. and Taylor, M. The Green Solow model. Journal of Economic Growth, volume 15, pages 127–153, 2010.
  • Bun, M. and Sarafidis, V. Dynamic panel data models. In B. H. Baltagi (ed.) The Oxford Handbook of Panel Data. Oxford University Press, 2015.
  • Camarero, M., Picazo-Tadeo, A. and Tamarit, C. Are the determinants of CO2 emissions converging among OECD countries? Economics Letters, volume 118(1), pages 159–162, 2013.
  • Díaz, A., Marrero, G. A. and Puch, L. A. Cambio climático, crecimiento económico y el papel de las tecnologías energéticas. Papeles de Economía Española, volume 164, pages 120–133, 2020.
  • Díaz, A., Marrero, G. A., Puch, L. A. and Rodríguez-López, J. Economic growth, energy intensity and the energy mix. Energy Economics, volume 81(C), pages 1056–1077, 2019.
  • Díaz, A. and Puch, L. A. A theory of vintage capital investment and energy use. UC3M Working Papers, Economics 13-20, Universidad Carlos III de Madrid, 2013.
  • Díaz, A. and Puch, L. A. Costly capital reallocation and energy use. Review of Economic Dynamics,, volume 7(2), pages 494–518, 2004.
  • Díaz, A. and Puch, L. A. Investment, technological progress and energy efficiency. The BE Journal of Macroeconomics,, volume 19(2), pages 1–28, 2019.
  • Golosov, M., Hassler, J., Krusell, P. and Tsyvinski, A. Optimal taxes on fossil fuel in general equilibrium. Econometrica, Econometric Society, volume 82(1), pages 41–88, 2014.
  • Guinea, L., Puch, L. and Ruiz, J. News-driven housing booms: Spain vs Germany., 2019. ICAE Working Paper #1932.
  • Gutiérrez, L., Marrero, G. A. and Puch, L. A. Los efectos medioambientales del boom y el parón inmobiliario en España. Economía Industrial, volume 379, pages 145–158, 2011.
  • Hassler, J., Krusell, P., Olovsson, C. and Reiter, M. Integrated assessment in a multiregion world with multiple energy sources and endogenous technical change. Mimeo, Sockholm University, 2019.
  • Hassler, J., Krusell, P., Olovsson, C. and Reiter, M. On the effectiveness of climate policies, 2020. Working Paper Stockholm University. Hsiao, C. Analysis of Panel Data. Cambridge University Press, 1986.
  • IEA. World Energy Balances and CO2 Emissions. Databases, International Energy Agency, 2020.
  • Inglesi-Lotz, R. The impact of renewable energy consumption to economic growth: a panel data application. Energy Economics, volume 53, pages 58–63, 2016.
  • Jaforullah, M. and King, A. The econometric consequences of an energy consumption variable in a model of CO2 emissions. Energy Economics, volume 63, pages 84–91, 2017.
  • Jaimovich, N. and Rebelo, S. Can News about the Future Drive the Business Cycle? American Economic Review, volume 99(4), pages 1097–1118, 2009.
  • Marrero, G. A. Greenhouse gases emissions, growth and the energy mix in Europe. Energy Economics, volume 32(6), pages 1356–1363, 2010.
  • Mulder, M. and de Groot, H. Structural change and convergence of energy intensity across OECD countries, 1970–2005. Energy Economics, volume 34(6), pages 1910–21, 2012.
  • Roodman, D. A note on the theme of too many instruments. Oxford Bulletin of Economics and Statistics, volume 71, pages 135–158, 2009.
  • Shin, Y., Yu, B. and Greenwood-Nimmo, M. Modelling Asymmetric Cointegration and Dynamic Multipliers in a Nonlinear ARDL Framework. In Sickles R., Horrace W. (eds) Festschrift in Honor of Peter Schmidt. Springer, New York, NY, 2014.
  • Stokey, N. Are there limits to growth? International Economic Review, volume 39(1), pages 1–31, 1998.
  • Wagner, M. The environmental Kuznets Curve, cointegration and non-linearity. Journal of Applied Econometrics, volume 30(6), pages 948–967, 2014.
  • Weitzman, M. Onmodelingandinterpreting the economics of catastrophic climate change. Review of Economics and Statistics, volume 91(1), pages 1–19, 2009.
  • Wooldridge, J. Econometric Analysis of cross section and panel data. The MIT Press, 2002.