Abstract
Today, as a result of the developments and widespread use of information and communication technologies, the weight of online shopping in the economy has increased. The environmental impacts of this new order, which is an important part of electronic finance, are discussed. In this study, the effect of electronic finance, economic growth, renewable energy consumption, and urbanization on emissions in EU member countries is examined using the panel vector autoregression (PVAR) approach for the period from 2005 to 2018. The main results suggest that e-finance has a positive and statistically significant effect on CO2 emissions. However, the renewable energy consumption-increasing effect of e-finance is greater than its emission-reducing effect. Moreover, renewable energy consumption has a statistically insignificant effect on emissions. Therefore, the contribution of e-finance on environmental quality weakens. The requirement for EU member countries to prioritize the use of environmentally friendly energy to benefit from the environmental contribution of e-finance in the most optimal way is stated as the main policy implication of this study.
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Notes
Austria, Belgium, Bulgaria, Croatia, Cyprus, Czech Republic, Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Poland, Portugal, Romania, Slovakia, Slovenia, Spain, Sweden.
References
Abbasi F, Riaz K (2016) CO2 emissions and financial development in an emerging economy: an augmented VAR approach. Energy Policy 90:102–114
Abrigo MR, Love I (2016) Estimation of Panel Vector Autoregression in Stata Journal 16(3):778–804
Agras J (1995). Environment and development: an economic analysis of pollution, growth and trade, Cornell University, Departmant of Agricultural, Resource and Managerial Economics, Master’s Thesis, ABD.
Ahmed Z, Nathaniel SP, Shahbaz M (2021) The criticality of information and communication technology and human capital in environmental sustainability: evidence from Latin American and Caribbean countries. J Clean Prod 286:1–10
Akbostanci E, Turut-Asık S, Tunc GP (2009) The relationship between income and environment in Turkey: is there an environmental Kuznets curve? Energy Policy 37(3):861–867
Allen F, McAndrews J, Strahan P (2002) E-finance: an introduction. J Financ Serv Res 22:5–27
Andrae ASG (2017) Total consumer power consumption forecast. Huawei, www.researchgate.net/ publication/320225452_Total_Consumer_Power_Consumption_Forecast.
Apergis N, Payne JE (2014) Renewable energy, output, CO2 emissions and fossil fuel prices in Central America: evidence from a nonlinear panel Smooth Transition Vector Error Correction Model. Energy Economics 42:226–232
Ari I, Koc M (2021) Towards sustainable financing models: a proof-of-concept for waqf-based alternative financing model for renewable energy investments. Borsa Istanbul Rev. https://doi.org/10.1016/j.bir.2021.03.007
Aslan A, Altinoz B, Atay Polat M (2020) The nexus among climate change, economic growth, foreign direct investments, and financial development: new evidence from N-11 countries. Environ Prog Sustainable Energy. https://doi.org/10.1002/ep.13585,1-9
Asongu S, Nwachukwu J, Pyke C (2018) The comparative economics of ICT, environmental degradation and ınclusive human development in Sub-Sharan Africa. MPRA Paper No. 91510, https://mpra.ub.uni-muenchen.de/91510/.
Atsu F, Adams S (2021) Energy consumption, finance, and climate change: does policy uncertainty matter? Economic Analysis and Policy 70:490–501
Batool R, Sharif A, Islam T, Zaman K, Shoukry AM, Sharkawy MA, Gani S, Aamir A, Hishan SS (2019) Green is clean: the role of ICT in resource management. Environ Sci Pollut Res 26:25341–25358
Bui DT (2020) Transmission channels between financial development and CO2 emissions: a global perspective. Heliyon 6:1–9
Caglar AE, Mert M, Boluk G (2021) Testing the role of information and communication technologies and renewable energy consumption in ecological footprint quality: evidence from World top 10 pollutant footprint countries. J Clean Prod 298:1–9
Canova F, Ciccarelli M (2013) Panel vector autoregressive models: a survey. ECB Working Paper, No. 1507, European Central Bank (ECB), Frankfurt a. M.
Charfeddine L, Kahia M (2019) Impact of renewable energy consumption and financial development on CO2 emissions and economic growth in the MENA region: a panel vector autoregressive (PVAR) analysis. Renewable Energy 139:198–213
Cheba K, Kiba-Janiak M, Baraniecka A, Kolakowski T (2021) Impact of external factors on e-commerce market in cities and its implications on environment. Sustainable Cities and Society 72:103032
Chen J, Xian Q, Zhou J, Li D (2020) Impact of income inequality on CO2 emissions in G20 countries. J Environ Manag
Cheng Y, Awan U, Ahmad S, Tan Z (2021) How do technological innovation and fiscal decentralization affect the environment? A story of the fourth industrial revolution and sustainable growth. Technol Forecast Soc Chang 162:1–6
Chien F, Anwar A, Hsu C-C, Sharif A, Razzaq A, Sinha A (2021) The role of information and communication technology in encountering environmental degradation: proposing an SDG framework for the BRICS countries. Technol Soc 65:1–10
Cohen MJ (1997) Risk society and ecological modernisation alternative visions for postindustrial nations. Futures 29:105–119
Danish (2019) Effects of information and communication technology and real income on CO2 emissions: the experience of countries along Belt and Road. Telematics Inform 45:1–10
Dinda S (2004) Environmental Kuznets curve hypothesis: a survey. Ecol Econ 49(4):431–455. https://doi.org/10.1016/j.ecolecon.2004.02.011
Dogaru L (2020) The main goals of the Fourth Industrial Revolution. Renewable Energy Perspectives Procedia Manufacturing 46:397–401
Elheddad M, Benjasak C, Deljavan R, Alharthi M, Almabrok JM (2021) The effect of the Fourth Industrial Revolution on the environment: the relationship between electronic finance and pollution in OECD countries. Technol Forecast Soc Chang 163:1–10
Faisal F, Tursoy T, Berk N (2018) Linear and non-linear impact of Internet usage and financial deepening on electricity consumption for Turkey: empirical evidence from asymmetric causality. Environ Sci Pollut Res 25:11536–11555
Farhani S (2013) Renewable energy consumption, economic growth and CO2 emissions: evidence from selected MENA countries. Energy Economics, 24–41
Friedl B, Getzner M (2003) Determinants of CO2 emissions in a small open economy. Ecol Econ 45:133–148
Granger CWJ (1969) Investing causal relations by econometric models and cross-spectral methods. Econometrica 37(3):424–438
Grossman GM, Krueger AB (1991) Environmental impacts of a North American Free Trade Agreement. NBER Working Paper, No. 3914. http://www.nber.org/papers/w3914.pdf
Haas RD, Popov A (2019) Finance and carbon emissions. ECB Working Paper Series, No.23xx, 1–70
Haddad A (2018) E-finance, entrepreneurship & economic growth in developing countries. Södertörn University, Master Essay in Economics.
Han J, Du T, Zhang C, Qian X (2018) Correlation analysis of CO2 emissions, material stocks and economic growth nexus: evidence from Chinese provinces. J Clean Prod 180:395–406
Herweijer C, Combes B, Johnson L, McCargow R, Bhardwaj S, Jackson B, Ramchandani P (2018) Enabling a sustainable Fourth Industrial Revoloation: how G20 countries can create the conditions for emerging technologies to benefit people and the planet. Economic Discussion Papers 32:1–24
Hidayatno A, Destyanto AR, Fadhil M (2019) Model conceptualization on E-commerce growth impact to emissions generated from urban logistics transportation: a case study of Jakarta. Energy Procedia 156:144–148
Higón DA, Gholami R, Shirazi F (2017) ICT and environmental sustainability: a global perspective. Telematics Inf 34:85–95
Holtz-Eakin D, Selden TM (1995) Stoking the fires? CO2 emissions and economic growth. J Public Econ 57:85–101
Im KS, Pesaran MH, Shin Y (2003) Testing for unit roots in heterogeneous panels. Journal of Econometrics 115:53–74
ITU (2019) Turning digital technology innovation into climate action.
ITU (2020) Measuring digital development facts and figures.
Jaunky VC (2011) The CO2 emissions-income nexus: evidence from rich countries. Energy Policy 39:1228–1240
Jebli MB, Youssef SB, Ozturk I (2013) The Environmental Kuznets curve: the role of renewable and non-renewable energy consumption and trade openness. MPRA Paper No 51672:k1-18
Jokinen P, Malaska P, Kaivo-oja J (1998) The environment in an information society’: a transition stage towards more sustainable development? Futures 30:485–498
Kahia M, Aïssa MSB, Lanouar C (2017) Renewable and non-renewable energy use-economic growth nexus: the case of MENA Net Oil Importing Countries. Renew Sustain Energy Rev 71:127–140
Khayyat NT, Lee J, Lee J-D (2014) How ICT investment influences energy demand in South Korea and Japan?. MPRA Paper No. 55454, https://mpra.ub.uni-muenchen.de/55454/
Kiba-Janiak M, Marcinkowski J, Jagoda A, Skowronska A (2021) Sustainable last mile delivery on e-commerce market in cities from the perspective of various stakeholders. Literature Review Sustainable Cities and Society 71:102984
Lee JW, Brahmasrene T (2014) ICT, CO2 emissions and economic growth: evidence from a panel of ASEAN. Glob Econ Rev 43(2):93–109
Lee J-M, Chen K-H, Cho C-H (2015) The relationship between CO2 emissions and financial development: evidence from OECD countries. Singap Econ Rev 60(5):1–21
Li B, Haneklaus N (2021) The role of renewable energy, fossil fuel consumption, urbanization and economic growth on CO2 emissions in China. Energy Rep 7(7):783–791
Lin B, Zhou Y (2021) Does the Internet development affect energy and carbon emission performance? Sustainable Production and Consumption 28:1–10
Love I, Zicchino L (2006) Financial development and dynamic investment behavior: evidence from panel VAR. Q Rev Econ Finance 46:190–210
Muhammad S, Long X, Salman M, Dauda L (2020) Effect of urbanization and international trade on CO2 emissions across 65 belt and road initiative countries. Energy 196:117102
Muñoz-Villmizar A, Velázquez-Martínez JC, Haro P, Ferrer A, Mariño R (2021) The environmental impacts of fast shipping ecommerce in inbound logistics operations: a case study in Mexico. J Clean Prod 283:1–13
Nagarajan SM, Deverajan GG, Chatterjee P, Alnumay W, Ghosh U (2021) Effective task scheduling algorithm with deep learning for Internet of Health Things (IoHT) in sustainable smart cities. Sustainable Cities and Society 71:102945
Ndung’u NS, Sign´e L (2020) Capturing the Fourth Industrial Revolution: a Regional and National Agenda
Obringer R, RAchunok B, Maia-Silva D, Arbabzadeh M, Nateghi R, Madani K, (2021) The overlooked environmental footprint of increasing Internet use. Resources, Conservation & Recycling 167:1–4
Pamlin D (2008) The potential global CO2 reductions from ICT use, identifying and assessing the opportunities to reduce the first billion tonnes of CO2. WWF, Sweden
Pata UK (2018) Renewable energy consumption, urbanization, financial development, income and CO2 emissions in Turkey: testing EKC hypothesis with structural breaks. J Clean Prod 187:770–779
Pesaran MH (2007) A simple panel unit root test in the presence of cross-section dependence. J Appl Economet 22(2):265–312
Rahman MM, Alam K, Velayutham E (2022) Reduction of CO2 emissions: the role of renewable energy, technological innovation and export quality. Energy Rep 8:2793–2805
Saboori B, Sulaiman J, Mohd S (2012) Economic growth and CO2 emissions in Malaysia: a cointegration analysis of the Environmental Kuznets Curve. Energy Policy 51:184–191
Saluhaddin M, Alam K, Ozturk I (2016) The effects of Internet usage and economic growth on CO2 emissions in OECD countries: a panel investigation. Renew Sustain Energy Rev 62:1226–1235
Schueffel P (2016) Taming the beast: a scientific definition of fintech. J Innov Manag 4:32–54
Selden TM, Song D (1994) Environmental quality and development: is there a Kuznets Curve for air pollution? J Environ Econ Manag 27(2):147–162
Shabani ZD, Shahnazi R (2019) Energy consumption, carbon dioxide emissions, information and communications technology, and gross domestic product in Iranian economic sectors: a panel causality analysis. Energy 169:1064–1078
Shafik N, Bandyopadhyay S (1992) Economic growth and environmental quality: time series and cross-country evidence. Background Paper for World Development Report 1992, The World Bank, Washington, D.C.
Shahbaz M, Hye QMA, Tiwari AK, Leitão NC (2013a) Economic growth, energy consumption, financial development, international trade and CO2 emissions in Indonesia. Renew Sustain Energy Rev 25:109–121
Shahbaz M, Tiwari AK, Nasir M (2013b) The effects of financial development, economic growth, coal consumption and trade openness on CO2 emissions in South Africa. Energy Policy 61:1452–1459
Shahbaz M, Nasir MA, Hille E, Mahalik MK (2020) UK’s net-zero carbon emissions target: investigating the potential role of economic growth, financial development, and R&D expenditures based on historical data (1870–2017). Technol Forecast Soc Chang 161:1–15
Sulaiman C, Abdul-Rahim AS, Ofozor CA (2020) Does wood biomass energy use reduce CO2 emissions in European Union member countries? Evidence from 27 Members. J Clean Prod 253:1–7
Suri V, Chapman D (1998) Economic growth, trade and energy: implications for the environmental Kuznets curve. Ecol Econ 25:195–208
Wang X, Zhou D (2021) Exploring the nonlinear impact of urbanization on pollutant emissions: a spatial approach. Athmospheric Pollution Research 12(11):101220
Wang SS, Zhou DQ, Zhou P, Wang QW (2011) CO2 emissions, energy consumption and economic growth in China: a panel data analysis. Energy Policy 39:4870–4875
Wang S, Zeng J, Huang Y, Shi C, Zhan P (2018) The effects of urbanization on CO2 emissions in the Pearl River Delta: a comprehensive assessment and panel data analysis. Appl Energy 228:1693–1706
Wang R, Mirza N, Vasbieva DG, Abbas Q, Xiong D (2020) The nexus of carbon emissions, financial development, renewable energy consumption, and technological innovation: what should be the priorities in light of COP 21 Agreements? J Environ Manage 271:1–7
Wang C, Qiao C, Ahmed RI, Kirikkaleli D (2021) Institutional quality, bank finance and technological innovations: a way forward for Fourth Industrial Revolution in BRICS economies. Technol Forecast Soc Chang 163:1–7
Werthamer NR, Raymond SU (1997) Technology and finance: the electronic markets. Technol Forecast Soc Chang 55:39–53
Xu H, Li Y, Huang H (2017) Spatial research on the effect of financial structure on CO2 emission. Energy Procedia 118:179–183
Xu X, Huang S, An H (2021) Identification and causal analysis of the influence channels of financial development of CO2 emissions. Energy Policy 153:1–16
Yang X, Wu H, Ren S, Ran Q, Zhang J (2021) Does the development of the internet contribute to air pollution control in China? Mechanism discussion and empirical test. Struct Chang Econ Dyn 56:207–224
Yasmeen H, Tan Q, Zameer H, Vo XV, Shahbaz M (2021) Discovering the relationship between natural resources, energy consumption, gross capital formation with economic growth: can lower financial openness change the curse into blessing. Resour Policy 71:1–9
Yoo B, Jang M (2019) A bibliographic survey of business models, service relationships, and technology in electronic commerce. Electron Commer Res Appl 33:1–8
Zhang C, Liu C (2015) The impact of ICT industry on CO2 emissions: a regional analysis in China. Renew Sustain Energy Rev 44:12–19
Zhao Y-B, Wu G-Z, Gong Y-X, Yang M-Z, Ni H-G (2019) Environmental benefits of electronic commerce over the conventional retail trade? A case study in Shenzhen, China. Sci Total Environ 679:378–386
Zhao J, Shahbaz M, Dong X, Dong K (2021) How does financial risk affect global CO2 emissions? The role of technological innovation. Technol Forecast Soc Chang 168:1–12
Zhou Y, Yi P, Li W, Gong C (2021) Assessment of city sustainability from the perspective of multisource data-driven. Sustain Cities Soc 70:102918
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AA: writing—original draft, conceptualization. BA and MAP: writing—original draft and data analysis. BA and ET: data curation. AA and ME: supervision, project administration.
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Altinoz, B., Aslan, A., Polat, M.A. et al. Is electronic finance sustainable or not in the European Union? New insights from the panel vector autoregression approach. Environ Sci Pollut Res 29, 64858–64870 (2022). https://doi.org/10.1007/s11356-022-20417-5
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DOI: https://doi.org/10.1007/s11356-022-20417-5