Abstract
As a major source of pollution and the cause of climate change, greenhouse gas emissions are attracting the attention of scholars, policymakers, and governors in Europe and the world. This article assesses the impact of population, energy taxes, and energy prices on greenhouse gas emissions from the residential and industrial energy consumption in Europe. The paper establishes a theoretical framework that predicts that rising energy prices and increased energy taxes will reduce residential and industrial GHG emissions. According to this framework, it is expected that the labor force will have an impact on industrial greenhouse gas emissions depending on wages elasticity. Between 2007 and 2017, panel data from 21 European countries were used to test the proposed hypothesis. First, a complete sample test was conducted. The results confirmed the proposed hypothesis. In addition, it was found that the size of the population increased residential greenhouse gas emissions, while the urbanization process reduced these emissions. Next, the sample was divided according to the economic development level. The split sample analysis shows the regional heterogeneity of population factors and energy costs impacts on GHG emissions. Finally, the time-varying coefficient test indicates that during the study period, the negative impact of urbanization has decreased over time, while the positive impact of industrial production on greenhouse gas emissions has increased. We believe this article will contribute to the formulation of environmental policies and provide additional insights for environmentally sustainable development
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References
Al-Mulali U, Ozturk I, Lean HH (2015) The influence of economic growth, urbanization, trade openness, financial development, and renewable energy on pollution in europe. Nat Hazards 79(1):621–644
Albadi M, El-Saadany E (2008) A summary of demand response in electricity markets. Electr Power Syst Res 78(11):1989–1996
Anser MK, Mohsin M, Abbas Q, Chaudhry IS (2020) Assessing the integration of solar power projects: SWOT-based AHP–f-TOPSIS case study of turkey. Environ Sci Pollut Res 27(25):31737–31749
Anwar S, Alexander WRJ (2016) Pollution, energy use, GDP and trade: estimating the long-run relationship for vietnam. Appl Econ 48(53):5221–5232
Apergis N, Gangopadhyay P (2020) The asymmetric relationships between pollution, energy use and oil prices in vietnam: Some behavioural implications for energy policy-making. Energy Policy 140:111430
Apergis N, Payne JE (2010) Renewable energy consumption and economic growth: Evidence from a panel of OECD countries. Energy Policy 38(1):656–660
Balaguer J, Cantavella M (2016) Estimating the environmental kuznets curve for Spain by considering fuel oil prices (1874–2011). Ecol Indic 60:853–859
Baloch ZA, Tan Q, Iqbal N, Mohsin M, Abbas Q, Iqbal W, Chaudhry IS (2020) Trilemma assessment of energy intensity, efficiency, and environmental index: evidence from BRICS countries. Environ Sci Pollut Res 27(27):34337–34347
Banka W (2012) Gdp per unit of energy use (constant 2011 ppp per kg of oil equivalent)
Cole MA, Neumayer E (2004) Examining the impact of demographic factors on air pollution. Popul Environ 26(1):5–21
Commision E (2010) Europe 2020 a strategy for smart, sustainable and inclusive growth. COM(2010/2020 final)
Commision E (2014) A policy framework for climate and energy in the period from 2020 to 2030. Communication from the Commission to the European Parliament, the Council, the European Economic and Social Committee and the Committee of the Regions(COM/2014):015 final
Dalton M, Neill BO, Prskawetz A, Jiang L, Pitkin J (2008) Population aging and future carbon emissions in the United States. Energy Econ 30(2):642–675
Dang TD, Mahanty S, Mackay S (2013) Living with pollution. Critical Asian Studies 45 (4):643–669
Fan J-L, Zhang Y-J, Wang B (2017) The impact of urbanization on residential energy consumption in china: an aggregated and disaggregated analysis. Renew Sust Energ Rev 75:220–233
Farrington J, Needle C, Sleightholme-Albanis GR (1997) A contribution to the debate on fuel price increases: some possible safety implications. J Transp Geogr 5(1):73–77
Friedl B, Getzner M (2003) Determinants of CO2 emissions in a small open economy. Ecol Econ 45(1):133–148
Grossman GK-E (1991) Environmental impacts of a north american free trade agreement. NBER Working Paper 3914
Inglesi-Lotz R (2016) The impact of renewable energy consumption to economic growth: a panel data application. Energy Economics 53:58–63
Iram R, Zhang J, Erdogan S, Abbas Q, Mohsin M (2019) Economics of energy and environmental efficiency: evidence from OECD countries. Environ Sci Pollut Res 27(4):3858–3870
Ju K, Su B, Zhou D, Wu J (2017) Does energy-price regulation benefit China economy and environment? evidence from energy-price distortions. Energy Policy 105:108–119
Lan J, Kakinaka M, Huang X (2011) Foreign direct investment, human capital and environmental pollution in china. Environ Resour Econ 51(2):255–275
Liu Z, Zhao T (2015) Contribution of price/expenditure factors of residential energy consumption in China from 1993 to 2011: A decomposition analysis. Energy Convers Manag 98:401–410
Mohsin M, Rasheed A, Saidur R (2018) Economic viability and production capacity of wind generated renewable hydrogen. Int J Hydrog Energy 43(5):2621–2630
Mohsin M, Rasheed A, Sun H, Zhang J, Iram R, Iqbal N, Abbas Q (2019) Developing low carbon economies: an aggregated composite index based on carbon emissions. Sustainable Energy Technologies and Assessments 35:365–374
Mohsin M, Taghizadeh-Hesary F, Panthamit N, Anwar S, Abbas Q, Vo XV (2020) Developing low carbon finance index: Evidence from developed and developing economies. Finance Research Letters, pp 101520
Ouyang X, Wei X, Sun C, Du G (2018) Impact of factor price distortions on energy efficiency: Evidence from provincial-level panel data in china. Energy Policy 118:573–583
Poumanyvong P, Kaneko S (2010) Does urbanization lead to less energy use and lower CO2 emissions? a cross-country analysis. Ecological Economics 70(2):434–444. Special Section: Ecological Distribution Conflicts
Sapkota P, Bastola U (2017) Foreign direct investment, income, and environmental pollution in developing countries: Panel data analysis of latin america. Energy Economics 64:206–212
Shi A (2003) The impact of population pressure on global carbon dioxide emissions, 1975–1996: evidence from pooled cross-country data. Ecol Econ 44(1):29–42
Sun L, Qin L, Taghizadeh-Hesary F, Zhang J, Mohsin M, Chaudhry IS (2020) Analyzing carbon emission transfer network structure among provinces in china: new evidence from social network analysis. Environ Sci Pollut Res 27(18):23281–23300
Tingvall PG, Ljungwall C (2012) Is China different? a meta-analysis of export-led growth. Economics Letters 115(2):177–179
Tzeiranaki ST, Bertoldi P, Diluiso F, Castellazzi L, Economidou M, Labanca N, Serrenho TR, Zangheri P (2019) Analysis of the EU residential energy consumption: Trends and determinants. Energies 12 (6):1065
Umit R, Schaffer LM (2020) Attitudes towards carbon taxes across europe: the role of perceived uncertainty and self-interest. Energy Policy 140:111385
Voulis N, van Etten MJ, Chappin ÉJ, Warnier M, Brazier FM (2019) Rethinking european energy taxation to incentivise consumer demand response participation. Energy Policy 124:156–168
Wang Q, dai Wu S, e Zeng Y, wei Wu B (2016) Exploring the relationship between urbanization, energy consumption, and co2 emissions in different provinces of china. Renew Sust Energ Rev 54:1563–1579
Wang S, Zhou D, Zhou P, Wang Q (2011) Co2 emissions, energy consumption and economic growth in china: a panel data analysis. Energy Policy 39(9):4870–4875
Xu B, Lin B (2015) How industrialization and urbanization process impacts on CO 2 emissions in china: Evidence from nonparametric additive regression models. Energy Economics 48: 188–202
Xu X, Ang B (2014) Analysing residential energy consumption using index decomposition analysis. Appl Energy 113:342–351
Yao X, Huang R, Song M (2019) How to reduce carbon emissions of small and medium enterprises (SMEs,) by knowledge sharing in china. Production Planning & Control 30(10-12):881–892
Zhang J, Gangopadhyay P (2015) Dynamics of environmental quality and economic development: the regional experience from yangtze river delta of china. Appl Econ 47(29):3113–3123
Zhang N, Yu K, Chen Z (2017) How does urbanization affect carbon dioxide emissions? a cross-country panel data analysis. Energy Policy 107:678–687
Funding
This project is funded by Hebei Key Research Institute of Humanities and Social Sciences at Universities(No.JJ1914, No.JJJD1808).
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Yaming Zhang: conceptualization and supervision. Majed Abbas: writing original draft, data curation and methodology. Yaya Hamadou Koura: review and editing. Yanyuan Su: review and editing. Wasim Iqbal: review, software and visualization.
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All data used in this study are available on request.
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Zhang, Y., Abbas, M., Koura, Y.H. et al. The impact trilemma of energy prices, taxation, and population on industrial and residential greenhouse gas emissions in Europe. Environ Sci Pollut Res 28, 6913–6928 (2021). https://doi.org/10.1007/s11356-020-10618-1
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DOI: https://doi.org/10.1007/s11356-020-10618-1