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A new evidence on the CIS’s environmental pollution-macroeoconmic variables relationship
Autori/Curatori: Ehsan Rasoulinezhad, Farhad Taghizadeh-Hesary 
Anno di pubblicazione:  2017 Fascicolo: 1-2  Lingua: Inglese 
Numero pagine:  21 P. 273-293 Dimensione file:  390 KB
DOI:  10.3280/EFE2017-001014
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This research explores the long-run and causal link between renewable and non-renewable (fossil fuels) energy consumption in the Commonwealth of Independent States (CIS) with CO2 emissions and Real GDP per capita, by using three control variables, namely industrialization, the composite trade intensity and financial openness. Using panel data pattern from 1992 to 2016 and employing the Pesaran’s CD test, the CADF panel unit root test, the FMOLS panel cointegration estimation method and panel causality test, the main empirical results provide evidence supporting that in the long-run, there is a uni-directional relationship running from economic growth to renewable energy consumption. Furthermore, in the short-run, there is a uni-directional short-run panel causality running from industrialization- renewable energy use, economic growth, industrialization, financial openness and trade openness to CO2 emissions, and from fossil fuel energy consumption to renewable energy use, while there is a bi-directional trade openness- financial openness, economic growth- renewable energy use, economic growth-non-renewable energy consumption, in-dustrialization- non-renewable energy use, economic growth-industrialization, and CO2 emissions- fossil fuel energy consumption causality relationship.

Keywords: Environmental pollution-macroeconomic variables linkage, panel cointegration estimation, the engle-granger causality test, the CIS
Jel Code: G20, F12

  1. Alshehry A.S., Belloumi M. (2015). Energy consumption, carbon dioxide emissions and economic growth: the case of Saudi Arabia. Renewable and Sustainable Energy Reviews, 41: 237-247.
  2. Apergis N., Payne J.E. (2010). The emissions, energy consumption and growth nexus: evidence from the commonwealth of independent states. Energy Policy, 38(1): 650-655.
  3. Ara Begum R., Sohag K., Syed Abdullah Sh. M., Jaafar M. (2015). CO2 emissions, energy consumption, economic and population growth in Malaysia. Renewable and Sustainble Energy Reviews, 41: 594-601.
  4. Archibald S.O., Bochiniarz Z., Gemma M., Srebotnjak T. (2009). Transition and sustainability: empirical analysis of environmental Kuznets curve for water pollution in 25 countries in Central and Eastern Europe and the Commonwealth of Independent States. Environmental Policy and Governance, 19(2): 73-98.
  5. Aslandis N., Iranzo S. (2009). Environment and development: is there a Kuznets Curve for CO2 emissions? Applied Economics, 41: 803-810., DOI: 10.1080/00036840601018994
  6. Aslanidism N., Xarapapadeas A. (2006). Smooth transition pollution-income paths. Ecological Economics, 57: 182-189.
  7. Azam M., Khan A.Q., Bin Abdullah H., Qureshi M.E. (2016). The impact of CO2 emissions on economic growth: evidence from selected higher CO2 emissions economies. Environmental Science and Pollution Research, 23(7): 6376-6389.
  8. Aung T.SH., Saboori B., Rasoulinezhad E. (2017). Economic growth and environmental pollution in Myanmar: an analysis of environmental Kuznets curve. Environmental Science and Pollution Research, 24(25): 20487-20501.
  9. Azarmuradov A. (2016). Economic prospect on carbon emissions in Commonwealth of Independent States. Economic Change and Restructuring, 49(4): 395-427.
  10. Baranzini A., Weber S., Bareit M., Mathys A.N. (2013). The causal relationship between energy use and economic growth in Switzerland. Energy Economics, 36: 464-470.
  11. Barbera E., Curro C., Valenti G. (2010). A hyperbolic model for the effects of urbanization on air pollution. Applied Mathematical Modelling, 34(8): 2192-2202.
  12. Ben Ammar Sghari M., Hammami S. (2016). Energy, pollution and economic development in Tunisia. Energy Reports, 2: 35-39.
  13. Bengochea-Morancho A., Higon-Tamarit F., Martinez-Zarzoso I. (2001). Economic growth and CO2 emissions in the European Union. Environmental and Resource Economics, 19(2): 165-172.
  14. Bhattacharya M., Reddy Paramati S., Ozturk I., Bhattacharya S. (2016). The effect of renewable energy consumption on economic growth: Evidence from top 38 countries. Applied Energy, 162: 733-741.
  15. Copeland B., Taylor M.S. (2005). Trade and the environment: theory and evidence. Princeton Series in International Economics. Princeton 26 University Press, Princeton and Oxford.
  16. Dergiades T., Martinopoulos G., Tsoulfidis L. (2013). Energy consumption and economic growth: parametric and non-parametric causality testing for the case of Greece. Energy Economics, 36: 686-697.
  17. Dinda S., Coondoo D. (2006). Income and emission: a panel data based cointegration analy-is. Ecological Economics, 57: 167-181.
  18. Dolapo Raheem I., Ogebe J.O. (2017). CO2 emissions, urbanization and industrialization: Evidence from a direct and indirect heterogeneous panel analysis. Management of Environmental Quality: An International Journal, 28(6): 851-867.
  19. Engle R.F., Granger C. (1987). Cointegration and error correction: representation, estimation, and testing. Econometrica, 55: 251-276., DOI: 10.2307/1913236
  20. Ertugrul H.M., Cetin M., Seker F., Dogan E. (2016). The impact of trade openness on global carbon dioxide emissions: Evidence from the top ten emitters among developing countries. Ecological Indicators, 67: 543-555.
  21. Friedl B., Getzner M. (2003). Determinants of CO2 emissions in a small open economy. Ecological Economics, 45(1): 133-148.
  22. Gokmenoglu K., Ozatac N., Memduh Eren B. (2015). Relationship between industrial production, financial development and carbon emissions: the case of Turkish. Procedia Economics and Finance, 25: 463-470.
  23. Hassan S.A., Zaman Kh., Gul Sh. (2015). The relationship between growth-inequality-poverty triangle and environmental degradation: unveiling the reality. Arab Economic and Business Journal, 10(1): 57-71.
  24. Heidari H., Turan Katircioglu S., Saeidpour L. (2015). Economic growth, CO2 emissions and energy consumption in the five ASEAN countries. Electricl Power and Energy Systems, 64: 785-791.
  25. Hossain Sh. (2011). Panel estimation for CO2 emissions, energy consumption, economic growth, trade openness and urbanization of newly industrialized countries. Energy Policy, 39(11): 6991-6999.
  26. Hussian Shahzad S.J., Ravinesh Kumar R., Zakaria M., Hurr M. (2017). Carbon emission, energy consumption, trade openness and financial development in Pakistan: A revisit. Renewable and Sustainbale Energy Reviews, 70: 185-192.
  27. Kao C., Chiang M.H. (2000). On the estimation and inference of a cointegrated regression in Panel data. Advances in Econometrics, 15: 179-222.
  28. Karanfil F. (2009). How many times again will we examine the energy-income nexus using a limited range of traditional econometric tools? Energy Policy, 36: 3019-3025.
  29. Lee C.-C., Lee J.-D. (2009). Income and CO2 emissions: evidence from panel unit root and cointegration tests. Energy Policy, 37: 413-423.
  30. Li K., Lin B. (2015). Impacts of urbanization and industrialization on energy consumption/CO2 emissions: Does the level of development matter? Renewable and Sustainbale Energy Reviews, 52: 1107-1122.
  31. Lin B., Moubarak M. (2014). Renewable energy consumption-economic growth nexus for China. Renewable and Sustainbale Energy Reviews, 40: 111-117.
  32. Liu Y., Yan B., Zhou Y. (2016). Urbanization, economic growth and carbon dioxide emissions in China: a panel cointegration and causal analysis. Journal of Geographical Sciences, 26(2): 131-152.
  33. Lotfalipour M.R., Falahi M.A., Ashena M. (2010). Economic growth, CO2 emissions, and fossil fuels consumption in Iran. Energy, 35(12): 5115-5120.2010.08.004.
  34. Menyah K., Nazlioglu S., Wolde-Rufael Y. (2014). Financial development, trade openness and economic growth in African countries: New insights from a panel causality approach. Economic Modelling, 37: 386-394.
  35. Murat Ertugrul H., Cetin M., Seker F., Dogan E. (2016). The impact of trade openness on global carbon dioxide emissions: evidence from the top ten emitters among developing countries. Ecological Indicators, 67: 543-555.
  36. Nasre Esfahani M., Rasoulinezhad E. (2016). Will be there new CO2 emitters in the future? Evidence of long-run panel cointegration for N-11 countries. International Journal of Energy Economics and Policy, 6(3): 463-470.
  37. Nasre Esfahani M., Rasoulinezhad E. (2017). Trade Policy of Asianization and de-Europeanization under sanctions. Journal of Economic Studies, 44(4): 552-267.
  38. Nasreen S., Anwar S. (2014). Causal relationship between trade openness, economic growth and energy consumption: A panel data analysis of Asian countries. Energy Policy, 69: 82-91.
  39. Obradevic S., Lojanica N. (2017). Energy use, CO2 emissions and economic growth – causality on a sample of SEE countries. Economic Research, 30(1): 511-526.
  40. Pao H.-T., Yu H.-Ch., Yang Y.-H. (2011). Modeling the CO2 emissions, energy use, and economic growth in Russia. Energy, 36(8): 5094-5100.
  41. Pao H.-T., Tsai C.-M. (2010). CO2 emissions, energy consumption and economic growth in BRIC countries. Energy Policy, 38(12): 7850-7860.
  42. Papova L., Jabalameli F., Rasoulinezhad E. (2017). Oil price shocks and Russia’s economic growth: the impacts and policies for overcoming them. World Sociopolitical Studies, 1 (1): 1-31.
  43. Pedroni P. (2004). Panel Cointegration; Asymptotic and Finite Sample Properties of Pooled Time series Tests, With an Application to the PPP Hypothesis. Econometric Theory, 20: 597-625.
  44. Pedroni P. (1999). Critical Values for Cointegration Tests in Heterogeneous Panels with Multiple Regressors. Oxford Bulletin of Economics and Statistics, 61: 653-670.
  45. Pesaran M.H. (2007). A simple panel unit root test in the presence of cross-section dependence. Journal of Applied Econometrics, 22(2): 265-312.
  46. Popova L., Rasoulinezhad E. (2016). Have sanctions modified Iran’s trade policy? An evidence of Asianization and De-Europeanization through the Gravity model. Economies, 4(24): 1-15.
  47. Rasolinezhad E. (2009). Evaluating electronic banking systems in developing nations through Analytic Hierarchy Process model: A case study, International Journal of Electronic Finance, 3(4): 325-338.
  48. Rasoulinezhad E. (2016). Investigation of sanctions and oil price effects on the Iran-Russia trade by using the gravity model. Vestnik of Saint Petersburg University. Series 5. Economics, 5(2): 68-84.
  49. Rasoulinezhad E., Kang G.S. (2016). Panel data analysis of South Korea’s trade with OPEC member countries: the gravity model approach. Iranian Economic Review, 20(2): 203-224.
  50. Rasoulinezhad E., Noori M. (2009). The effect of information and communications technologies on the employment at Iran. Journal of Economic Research, 44(89): 87-107.
  51. Rasoulinezhad E., Popova L. (2017). Estimation of the impact of economic sanctions and oil price shocks on Iran-Russia trade: evidence from a gravity-vec approach. Iranian Economic Review, 21(3): 469-497.
  52. Rasoulinezhad E., Wei W. (2017). China’s trade with OPEC member countries: a panel-gravity model approach. The Chinese Economy, 50(5): 339-355. 10971475.2017.1345272.
  53. Saboori B., Rasoulinezhad E., Sung J. (2017). The nexus of oil consumption, CO2 emissions and economic growth in China, Japan and South Korea. Environmental Science and Pollution Research, 24(8): 7436-7455.
  54. Sadorsky P. (2010). The impact of financial development on energy consumption in emerging economies. Energy Policy, 38: 2528-2535.
  55. Saidi K., Hammami S. (2015). The impact of CO2 emissions and economic growth on energy consumption in 58 countries. Energy Reports, 1: 62-70.
  56. Siddiqui R. (2004). Energy and economic growth in Pakistan. Pakistan Development Review, 43: 175-200.
  57. Shahbaz M., Kumar Tiwari A., Nasir M. (2013). The effects of financial development, economic growth, coal consumption and trade openness on CO2 emissions in South Africa. Energy Policy, 61: 1452-1459.
  58. Shahbaz M., Muhammad Adnan Hye Q., Kumar Tiwari A., Carlos Leitao N. (2013). Economic growth, energy consumption, financial development, international trade and CO2 emissions in Indonesia. Renewable and Sustainable Energy Reviews, 25: 109-121.
  59. Shahbaz M., Nasreen S., Ahmed Kh., Hammoudeh Sh. (2017). Trade openness-carbon emissions nexus: the importance of turning points of trade openness for country panels. Energy Economics, 61: 221-232.
  60. Shahbaz M., Saleh Uddin G., Rahman I.U., Imran K. (2014). Industrialization, electricity consumption and CO2 emissions in Bangladesh. Renewable and Sustainable Energy Reviews, 31: 575-586.
  61. Taghizadeh-Hesary F., Rasoulinezhad E., Kobayashi Y. (2016). Oil price fluctuations and oil consuming sectors: An empirical analysis of Japan. Economics and Policy of Energy and the Environment, 19: 33-51.
  62. Tamazian A., Chousa J.P., Vadlamannati K.C. (2009). Does higher economic and financial development lead to environmental degradation: evidence from BRIC countries. Energy Policy, 37(1): 246-253.
  63. Tang C.-F., Tan B.-W., Ozturk I. (2016). Energy consumption and economic growth in Vietnam. Renewable and Sustainable Energy Reviews, 54: 1506-1514.
  64. Viguier L. (1999). Emissions of SO2, NOx and CO2 in transition economies: emission inventories and Divisia index analysis. Energy Journal, 20(2): 59-87.
  65. Vollebergh H.R.J., Dijkgraaf E., Melenberg B. (2005). Environmental Kuznets Curves for CO2: Heterogeneity versus Homogeneity. Discussion Paper, Tilburg University.
  66. Xu B., Lin B. (2015). How industrialization and urbanization process impacts on CO2 emissions in China: Evidence from nonparametric additive regression models. Energy Economics, 48: 188-202.
  67. Yanikkaya H. (2003). Trade openness and economic growth: a cross-country empirical in-vestigation. Journal of Development Economics, 72(1): 57-89.
  68. Zhlquar Nain M., Ahmad W., Kamaiah B. (2017). Economic growth, energy consumption and CO2 emissions in India: a disaggregated causal analysis. International Journal of Sustainable Energy, 36(8): 807-824

Ehsan Rasoulinezhad, Farhad Taghizadeh-Hesary, in "ECONOMICS AND POLICY OF ENERGY AND THE ENVIRONMENT" 1-2/2017, pp. 273-293, DOI:10.3280/EFE2017-001014


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