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Examining the Environmental Kuznets Curve in Sweden to Assess the Nexus of Economic Sectors | ||
| Pollution | ||
| مقاله 7، دوره 7، شماره 3، مهر 2021، صفحه 585-606 اصل مقاله (954.19 K) | ||
| نوع مقاله: Original Research Paper | ||
| شناسه دیجیتال (DOI): 10.22059/poll.2021.319566.1024 | ||
| نویسندگان | ||
| Parisa Pakrooh* 1؛ Runar Brännlund2 | ||
| 1Department of Agricultural Economics, University of Tabriz, 516661-6471, Tabriz, Iran Center for Environmental and Resource Economics, Umeå University 901-87, Umeå, Sweden | ||
| 2Umeå School of Business, Economics and Statistics, Umeå University, 901-87, Umeå, Sweden Center for Environmental and Resource Economics, Umeå University 901-87, Umeå, Sweden | ||
| چکیده | ||
| To support the fulfillment of Sweden’s targets in term of climate change and economic growth, we need to do a distinct study to show the Environmental Kuznets Curve (EKC) pattern in different sector of the economy, as the GDP allocation, energy intensities, GHG emission, and technological development are different between sectors. This kind of study helps to figure out how the different sectors contribute to climate change and could appoint more particular and effective environment-energy policies. For this aim, we analyzed the existence of the EKC by implementing the ARDL Bound test approach in the whole and individual sectors of Sweden’s economy throughout 1990-2019. Our results indicated the contribution of a particular sector on total GHG emissions per capita. Results of the whole economy confirmed the EEKC hypothesis with a turning point in 1996, in which the AFF sector, unlike industry and service, had increased GHG emissions. Disaggregated sectoral analysis showed various results. The industry sector had efficient energy improvement. Policymakers should pay attention to AFF’s GHG emissions, as different sources of energy consumption had not impressive impact in both the short and long term. Also, effective fossil-related policies are necessary for the service sector due to the main contribution to transportation. | ||
| کلیدواژهها | ||
| Energy؛ Environment؛ Greenhouse gas؛ Sector؛ Sweden | ||
| مراجع | ||
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Abu, N. (2016). Does Okun’s Law Exist in Nigeria? Evidence from the ARDL Bounds Testing Approach. Cont. Eco., 11 (2); 131-144. Ahmad, N., Du, L., Lu, J., Wang, J., Li, H.Zh. and Hashemi, M.Z. (2017). Modeling the emissions and economic growth in Croatia: Is there any environmental Kuznets curve?. Ene., 123; 164-172. Bella, G., Massidda, C. and Mattana, P. 2014. The relationship among Emissions, electricity power consumption and GDP in OECD countries. J. Poli. Model., 36; 970-985. Bilgili, F., Kocak, E. and Bulut, U. (2016). The dynamic impact of renewable energy consumption on emissions: A revisited Environmental Kuznets Curve approach. Renew. Sus. Ene. Rev., 54; 838-845. Bianco, V., Cascetta, F., Marino, A. and Nardini, S. (2019). Understanding energy consumption and carbon emission in Europe: A focus on inequality issues. Ene., 170; 120-130. Boluk, G. and Mert, M. (2014). Fossil and renewable energy consumption, GHGs (greenhouse gases) and economic growth: Evidence from a panel of EU (European Union) countries. Ene., 74; 439-446. Boluk, G. and Mert, M. (2015). The renewable energy, growth and environmental Kuznets curve in Turkey: An ARDL approach. Renew. Sus. Ene. Rev., 52; 587-595. Congregado, E., Feria-Gallardo, J., A.Golpe, A. and Iglesias, J. (2016). The environmental Kuznets curve and emissions in the USA. Envi. Sci. Poll. Res., 23; 18407-18420. Dinda, S. (2004). Environmental Kuznets Curve hypothesis: a survey. Ecolo. Eco., 49; 431-455. Du, L., Ahmad, N., Lu, J., Wang, J., Li, H.Z. and Hashmi, M.Z. (2017). Modeling the emissions and economic growth in Croatia: Is there any environmental Kuznets curve?. Ene., 123; 164-172. Duman, Y.S. and Kasman, Adnan. (2015). Emissions, economic growth, energy consumption, trade and urbanization in new EU member and candidate countries: A panel data analysis. Eco. Model., 44; 97-103. Forsstrom, D. (2020). Environmental Kuznets Curve in Sweden. Dissertation, University of Gothenburg. Fujii, H. and Managi, SH. (2013). Which industry is greener? An empirical study of nine industries in OECD countries. Ene. Poli., 57; 381-388. Gaeta, G.L.L., Ercolano, S., Ghinio, S. and Slivestri, F. (2018). Kuznets curve in municipal solid waste production: An empirical analysis based on municipal-level panel data from the Lombardy region (Italy). Ecolo. Indi., 93; 397-403. Kassouri, Y. and Altintas, Halil. (2020). Is the environmental Kuznets Curve in Europe related to the per-capita ecological footprint or Emissions?, Ecolo. Indi., 113(2020). Recalde, M. and Zilio, M. (2011). GDP and environment pressure: The role of energy in Latin America and Carabian. Ene. Poli., 39; 7941-7949. Liobikiene, G., Balezentis, T., Streimikiene, D. and Zhang, T. (2019). The role of bioenergy in greenhouse gas emission reduction in EU countries: An Environmental Kuznets Curve modeling. Reso. Cons. Recy., 142; 225-231. Lopez-Menendez, A.J., Perez, R. and Moreno, B. (2014). Environmental costs and renewable energy: Re-visiting the Environmental Kuznets Curve. J. Envi. Manag., 145; 368-373. Lindmark, M. (2019). Rethinking the Environmental State: An Economic History of the Swedish Environmental Kuznets Curve for Carbon. (Ozawa, M. and Chaplin, Ch (Eds.), Chapter 12 (pp.139-164). University of Cambridge.) Madaleno, M., Moutinho, V. and Varum, C. (2017). How economic growth affects emissions? An investigation of the environmental Kuznets curve in Portuguese and Spanish economic activity sectors. Ene. Poli., 106; 326-344. Mazzanti, M., Montini, A., and Zoboli, R. (2007). Economic dynamics, emission trends and the EKC hypothesis: New evidence using NAMEA and provincial panel data for Italy. Fond. Eni. Enrico. Mattei., February; 1-26. Menengaki, A.N. (2019). The ARDL Method in the Energy-Growth Nexus Field; Best Implementation Strategies. Econ., 7(105) ; 1-16. Morley, B., Fosten, J. and Taylor, T. (2012). Dynamic misspecification in the environmental Kuznets curve: Evidence from and in the United Kingdom. Ecolo. Econ., 76; 25-33. Mutascu, M., Shahbaz, M. and Azim, P. (2013). Environmental Kuznets curve in Romania and the role of energy consumption. Renew. Sus. Ene. Rev., 18; 165-173. Ozdemir, O. and Ozokcu, S. (2017). Economic growth, energy, and environment Kuznets curve. Renew. Sus. Ene. Rev., 72; 639-647. Ozturk, I., and Acaravci, A. (2010). On the relationship between energy consumption, emissions and economic growth in Europe. Ene., 35; 5412-5420. Pablo-Romero, M.P., Perez, R. and Moreno, B. (2014). Environmental costs and renewable energy: Re-visiting the Environmental Kuznets Curve. J. Envi. Manag., 145; 368-373. Pablo-Romero, M.P., Cruz, L. and Barata, E. (2017). Testing the transport energy-environmental Kuznets curve hypothesis in the EU27 countries. Ene. Econ., 62; 257-269. Pakrooh, P. and Pishbahar, E. (2020). The Relationship between Economic Growth, Energy Consumption and Emissions. (In Rashidghalam, M (Eds.), The Economics of Agriculture and Natural Resources: The case of Iran, Chapter 10 (pp. 143-170). Singapore: Springer.) Pata, U.K. (2018). The influence of coal and noncarbohydrate energy consumption on emissions: Revisiting the environmental Kuznets curve hypothesis for Turkey. Ene., 160; 1115-1123. Petrovic, N., Bojovic, N., Petrovic, M. and Jovanovic, V. (2018). A study of the environmental Kuznets curve for transportation greenhouse gas emissions in the European Union [Electronic version]. DOI: 10.22190/FUME171212010P. Pontarollo, N. and Munoz, R.M. (2020). Land consumption and income in Ecuador: A case of an inverted environmental Kuznets curve. Ecol. Indi., 108; 105699. Recalde, M. and Zilio, M. (2002). GDP and environment pressure: The role of energy in Latin America and the Caribbean. Ene. Poli., 39; 7941-7949. Sanchez-Braza, A. and Pablo-Romero., M.P. (2017). Residential energy environmental Kuznets curve in the EU-28. Ene., 125; 44-54. Shahbaz, M., Khraief, N. and Mahalik, M.K. (2019). Investigating the environmental Kuznets’s curve for Sweden: evidence from multivariate adaptive regression splines (MARS), [Electronic version]. J. Empri. Econ., doi.org/10.1007/s00181-019-01698-1. Tseng, M.L., Ridzuan, N.H.A.M., Marwan, N.F., Khalid, N. and Ali, M.H. (2020). Effects of agriculture, renewable energy, and economic growth on carbon dioxide emissions: Evidence of the environmental Kuznets curve. Reso. Cons. Recy., 160; 104879. Urban, F. and Nordensvard, J. (2018). Low Carbon Energy Transition in the Nordic Countries: Evidence from the Environmental Kuznets Curve. Ene, 11; 1-17. Uddin, G.S., Ahmad, A. and Sohag, K. (2016). Biomass energy, technological progress and the environmental Kuznets curve: Evidence from selected European countries. Bioma.Bioen., 90; 202-208. Vehmes, J., Luukkanen, J. and Kaivo-oja, J. (2007). Linking analyses and environmental Kuznets curves for aggregated material flows in the EU. J. Clea.Pro., 15; 1662-1673. Vlontzos, G., Niavis, S. and Pardalos, P. (2017). Testing for Environmental Kuznets Curve in the EU Agricultural Sector through an Eco-(in) Efficiency Index. Ene., 10; 1-15. Zambrano-Monserrate, M.A. and Fernandez, M.A. (2017). An Environmental Kuznets Curve for emissions in Germany: An ARDL approach. Nat. Reso.Fu., 41; 119-127. Zambrano-Monserrate, M.A., Silva-Zambrano, C.A., Davalos-Penafiel, J.L., Zambrano-Monserrate, A. and Ruano, M.A. (2018). Testing environmental Kuznets curve hypothesis in Peru: The role of renewable electricity, petroleum and dry natural gas. Ren. Sust. Ene. Rev., 82; 4170-4178. Zervas, E., Kaika, D. (2013). The Environmental Kuznets Curve (EKC) theory-Part A: Concept, causes, and the emissions case. Ene. Poli., 62; 1392-1402. | ||
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