Effect of energy consumption on economic growth and sustainability: Panel evidence from PCSE and FGLS

Titolo Rivista ECONOMICS AND POLICY OF ENERGY AND THE ENVIRONMENT
Autori/Curatori Titiksha Das, Debasis Chakraborty
Anno di pubblicazione 2024 Fascicolo 2024/2
Lingua Inglese Numero pagine 17 P. 37-53 Dimensione file 160 KB
DOI 10.3280/EFE2024-002002
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Energy-growth nexus studies use measures of income to assess the impact of energy consumption on economic growth. However, exclusion of externalities and environmental costs has made these studies a partial one. The recent Energy-Sustainability nexus studies deploy measures of sustainability to assess the impact of energy consumption on sustainable economic welfare rather than just economic growth. The primary objective of the study is to compare the Energy-Growth nexus with Energy-Sustainability nexus for developed countries, developing countries, and transition economies. The time period of the study is from 2000 to 2014. The methodologies used in the study are Feasible Generalized Least Square (FGLS) and Panel Corrected Standard Error (PCSE). The results suggest that renewable energy consumption helps (hurts) economic growth and sustainable development of developed (developing) nations but non-renewable energy consumption hurts (helps) economic growth and sustainable development of developed (developing) nations. However, both renewable and non-renewable energy consumption support economic growth and sustainable development for transition economies. Energy policy recommendations are in favor of strengthening carbon pricing policies, encouraging investment in clean energy technologies, stimulating research and development to overcome challenges of complete energy transition and successful decoupling of economic growth from fossil fuel energy. Moreover, sustainability policies must ensure that economic benefits and welfare arising from renewable energy sources must complement economic growth and sustainable development substantially enough to outweigh the economic costs.

Keywords:sustainability-energy nexus, energy consumption, PCSE, FGLS.

Jel codes:Q43, Q56, Q01

  1. Afonso, T. L., Marques, A. C., Fuinhas, J. A. (2019). Energy-growth nexus and economic development: a quantile regression for panel data. In The Extended Energy-Growth Nexus (pp. 1-25). Academic Press.
  2. Azami, S., Almasi, S. (2020). Energy consumption and sustainable economic welfare: New evidence of organization of petroleum exporting countries. International Journal of Energy Economics and Policy, 10(5), 31-40.
  3. Bagstad, K. J., Berik, G., Gaddis, E. J. B. (2014). Methodological developments in US statelevel genuine progress indicators: toward GPI 2.0. Ecological Indicators, 45, 474-
  4. 485.
  5. Beça, P., Santos, R. (2014). A comparison between GDP and ISEW in decoupling analysis. Ecological Indicators, 46, 167-176.
  6. Beça, P., Santos, R. (2010). Measuring sustainable welfare: A new approach to the ISEW.
  7. Ecological Economics, 69(4), 810-819.
  8. Bleys, B., Whitby, A. (2015). Barriers and opportunities for alternative measures of economic welfare. Ecological Economics, 117, 162-172.
  9. Brennan, A. J. (2008). Theoretical foundations of sustainable economic welfare indicators – ISEW and political economy of the disembedded system. Ecological Economics, 67(1), 1-19.
  10. Cobb, C. W., Cobb, J. B., Carson, C. S. (1994). The green national product: a proposed index of sustainable economic welfare. Lanham, MD: University Press of America.
  11. Cobb, J., Daly, H. (1989). For the common good, redirecting the economy toward community, the environment and a sustainable future. Boston, MA: Beacon Press.
  12. dos Santos Gaspar, J., Marques, A. C., Fuinhas, J. A. (2017). The traditional energy-growth nexus: A comparison between sustainable development and economic growth approaches. Ecological Indicators, 75, 286-296.
  13. Erneuerbare-Energien-Gesetz (2000). Germany’s Renewable Energy Sources Act. European Commission (2016). European Union’s Emission Trading System.
  14. Fuinhas, J. A., Marques, A. C. (2013). Rentierism, energy and economic growth: The case of Algeria and Egypt (1965-2010). Energy policy, 62, 1165-1171.
  15. Gigliarano, C., Balducci, F., Ciommi, M., Chelli, F. (2014). Going regional: An index of sustainable economic welfare for Italy. Computers, Environment and Urban Systems, 45, 63-77.
  16. Goossens, Y., Mäkipää, A., Schepelmann, P., Van de Sand, I., Kuhndt, M., Herrndorf, M. (2007). Alternative progress indicators to Gross Domestic Product (GDP) as a means towards sustainable development. In Conference Proceedings of Beyond GDP: Measuring progress, true wealth, and the well-being of nations, European Commission. Greene, W. H. (2018). Econometric analysis.
  17. Hermawan, E., Adiarso, A., Setiadi, S., Hidayat, D. (2023). Strategy for the implementation of sustainable green fuels in Indonesia. Economics and Policy of Energy and the Environment, 103-139.
  18. Hoechle, D. (2007). Robust standard errors for panel regressions with cross-sectional dependence. The Stata Journal, 7(3), 281-312. DOI: 10.1177/1536867X0700700301
  19. International Trade Administration. (2022). -https://www.trade.gov/market-intelli- gence/costa-ricasrenewable-energy.
  20. Jensterle, M., Venjakob, M., (2019). Smart power grids and integration of renewables in Japan: Current activities concerning smart grids implementation, energy system digitisation and integration of renewables.
  21. Jackson, T., Stymne, S. (2000). Intra-generational equity and sustainable welfare: a timeseries analysis for the UK and Sweden. Ecological Economics, 33(2), 219-236. DOI: 10.1016/S0921-8009(99)00144-5
  22. Kraft, J., Kraft, A. (1978). On the relationship between energy and GNP. The Journal of Energy and Development, 401-403.
  23. Lawn, P. A. (2003). A theoretical foundation to support the Index of Sustainable Economic Welfare (ISEW), Genuine Progress Indicator (GPI), and other related indexes. Ecological economics, 44(1), 105-118. DOI: 10.1016/S0921-8009(02)00258-6
  24. Menegaki, A. N., Tiwari, A. K. (2017). The index of sustainable economic welfare in the energy-growth nexus for American countries. Ecological indicators, 72, 494-509.
  25. Menegaki, A. N., Tugcu, C. T. (2017). Energy consumption and Sustainable Economic Welfare in G7 countries; A comparison with the conventional nexus. Renewable and Sustainable Energy Reviews, 69, 892-901.
  26. Menegaki, A. N., Tugcu, C. T. (2016). Rethinking the energy-growth nexus: Proposing an index of sustainable economic welfare for Sub-Saharan Africa. Energy Research & Social Science, 17, 147-159.
  27. Menegaki, A. N., Tugcu, C. T. (2016). The sensitivity of growth, conservation, feedback & neutrality hypotheses to sustainability accounting. Energy for Sustainable Development, 34, 77-87.
  28. Menegaki, A. N., Tugcu, C. T. (2018). Two versions of the Index of Sustainable Economic Welfare (ISEW) in the energy-growth nexus for selected Asian countries. Sustainable Production and Consumption, 14, 21-35.
  29. Menegaki, A. N., Tsagarakis, K. P. (2015). More indebted than we know? Informing fiscal policy with an index of sustainable welfare for Greece. Ecological Indicators, 57, 159-
  30. 163.
  31. Menegaki, A. N., Marques, A. C., Fuinhas, J. A. (2017). Redefining the energy-growth nexus with an index for sustainable economic welfare in Europe. Energy, 141, 1254-1268.
  32. Neumayer, E. (2000). On the methodology of ISEW, GPI and related measures: some constructive suggestions and some doubt on the ‘threshold’ hypothesis. Ecological economics, 34(3), 347-361. DOI: 10.1016/S0921-8009(00)00192-0
  33. Nordhaus, W. D., Tobin, J. (1973). Is growth obsolete? The measurement of economic and social performance. National Bureau of Economic Research, 509-564
  34. Ozturk, I. (2010). A literature survey on energy-growth nexus. Energy policy, 38(1), 340-349.
  35. Payne, J. E. (2010). Survey of the international evidence on the causal relationship between energy consumption and growth. Journal of Economic Studies, 37(1), 53-95. DOI: 10.1108/01443581011012261
  36. Rezagholizadeh, M., Abdi, Y. (2022). Financial development and development of renewable energy technologies: A comparison of developing and developed countries. Economics and Policy of Energy and the Environment, 95-118. DOI: 10.3280/EFE2022-001006
  37. Reed, W. R., Ye, H. (2011). Which panel data estimator should I use?. Applied economics, 43(8), 985-1000. DOI: 10.1080/00036840802600087
  38. Saunoris, J. W., Sheridan, B. J. (2013). The dynamics of sectoral electricity demand for a panel of US states: New evidence on the consumption-growth nexus. Energy Policy, 61, 327-336.
  39. Solow, R. M. (1956). A contribution to the theory of economic growth. The quarterly journal of economics, 70(1), 65-94.
  40. Solt, F. (2020). Measuring income inequality across countries and over time: The standardized world income inequality database. Social Science Quarterly, 101(3), 1183-1199.
  41. Squalli, J. (2007). Electricity consumption and economic growth: Bounds and causality analyses of OPEC members. Energy economics, 29(6), 1192-1205.
  42. United Nations Department of Economic and Social Affairs (2021). World Economic Situation & Prospects: Statistical Annex.
  43. United States Environment Protection Agency (2015). Energy and Environment Guide to Action.
  44. World Economic Forum (2023). Fostering Effective Energy Transition.
  45. You, J. (2011). China’s energy consumption and sustainable development: comparative evidence from GDP and genuine savings. Renewable and Sustainable Energy Reviews, 15(6), 2984-2989.

Titiksha Das, Debasis Chakraborty, Effect of energy consumption on economic growth and sustainability: Panel evidence from PCSE and FGLS in "ECONOMICS AND POLICY OF ENERGY AND THE ENVIRONMENT" 2/2024, pp 37-53, DOI: 10.3280/EFE2024-002002