Abstract
This study explores the role of the information and communication technology (ICT) and financial development (FD) in both carbon emissions and economic growth for the G7 countries for the period 1990 to 2014. Using PMG, we found that the ICT has a long-run positive effect on emissions, while FD is a weak determinant. The interactive term between the ICT and FD produces negative coefficients. Also, both the variables are found to impact negatively on economic growth. However, their interaction shows that they have mixed effect on economic growth, i.e., positive in the short run and negative in the long run. Policy implications were designed based on these results.
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Hausmann’s test result favors PMG.
References
Amavilah A, Asongu SA, Andrés AR (2014) Globalization, peace & stability, governance, and knowledge economy. African Governance and Development Institute Working Paper No. 14/012, Yaoundé
Andrianaivo M, Kpodar K (2011) ICT, financial inclusion, and growth evidence from African countries. International Monetary Fund working paper 11/73
Andrianaivo M, Kpodar K (2012) Mobile phones, financial inclusion, and growth. review of economics and institutions 3(2):1–30
Asongu SA (2013) How has mobile phone penetration stimulated financial development in Africa? J Afr Bus 14(1):7–18
Asongu SA (2017) Knowledge Economy Gaps, Policy Syndromes, and Catch-Up Strategies: Fresh South Korean Lessons to Africa. Journal of the Knowledge Economy 8(1):211–253
Asongu SA (2018) ICT, openness and CO2 emissions in Africa. Environ Sci Pollut Res 25(10):9351–9359
Asongu SA, le Roux S, Biekpe N (2017) Environmental degradation, ICT and inclusive development in Sub-Saharan Africa. Energy Policy 111:353–361
Balsalobre-Lorente D, Driha OM, Bekun FV, Osundina OA (2019) Do agricultural activities induce carbon emissions? The BRICS experience. Environ Sci Pollut Res 26(24):25218–25234
Batool R, Sharif A, Islam T, Zaman K, Shoukry AM, Sharkawy MA, Hishan SS (2019) Green is clean: the role of ICT in resource management. Environ Sci Pollut Res 26(24):25341–25358
Breitung J (2000) The local power of some unit root tests for panel data. In: Baltagi BH (ed) Advances in econometrics: nonstationary panels, panel cointegration and dynamic panels. Elsevier, Amsterdam
Byrne E, Nicholson B, Salem F (2011) Information communication technologies and the millennium development goals. Inf Technol Dev 17(1):1–3
Chavanne X, Schinella S, Marquet D, Frangi JP, Le Masson S (2015) Electricity consumption of telecommunication equipment to achieve a telemeeting. Appl Energy 137:273–281
Chavula HK (2013) Telecommunications development and economic growth in Africa. Inf Technol Dev 19(1):5–23
Datta A, Agarwal S (2004) Telecommunications and economic growth: a panel data approach. Appl Econ 36(15):1649–1654
Eberhardt M, Bond S (2009) Cross-section dependence in nonstationary panel models: a novel estimator. MPRA Paper 17692, University Library of Munich, Germany
Eberhardt M, Teal F (2011) Econometrics for grumblers: a new look at the literature on cross-country growth empirics. J Econ Surv 25(1):109–155
Haseeb A, Xia E, Saud S, Ahmad A, Khurshid H (2019) Does information and communication technologies improve environmental quality in the era of globalization? An empirical analysis. Environ Sci Pollut Res 26(9):8594–8608
Higon DA, Gholami R, Shirazi F (2017) ICT and environmental sustainability: a global perspective. Telematics Inform 34:85–95
Im KS, Pesaran MH, Shin Y (2003) Testing for unit roots in heterogeneous panels. J Econ 115(1):53–74
Inklaar R, O’Mahony M, Timmer M (2005) ICT and Europe’s productivity performance: industry-level growth account comparisons with the United States. Rev Income Wealth 51:505–536
ITU (2009) Measuring the information society: the ICT development index. International Telecommunication Union, Geneva
ITU (2010) Definitions of World Telecommunication/ICT indicators. International Telecommunication Union, Geneva
Kamel S (2005) The use of information technology to transform the banking sector in developing nations. Inf Technol Dev 11(4):305–312
Khan DN, Baloch MA, Saud S, Fatima T (2018) The level of ICT on CO2 emissions in emerging economies: does the level of income matters? Environ Sci Pollut Res 25(23):22850–22860
Latif Z, Yang M, Pathan ZH, Jan N (2017) Challenges and prospects of ICT and trade development in Asia. Hum Syst Manag 36(3):211–219
Lee JW, Brahmasrene T (2014) ICT, CO2 emissions and economic growth: evidence from a panel of ASEAN. Global Economic Review: Perspectives on East Asian Economies and Industries 43(2):93–109
Levendis J, Lee SH (2013) On the endogeneity of telecommunications and economic growth: evidence from Asia. Inf Technol Dev 19(1):62–85
Levin A, Lin CF, Chu CJ (2002) Unit root tests in panel data: asymptotic and finite-sample properties. J Econ 108(1):1–24
Lu WC (2018) The impacts of information and communication technology, energy consumption, financial development, and economic growth on carbon dioxide emissions in 12 Asian countries. Mitig Adapt Strateg Glob Chang 23:1351–1365
Maddala GS, Wu S (1999) A comparative study of unit root tests with panel data and a new simple test. Oxf Bull Econ Stat 61(s1):631–652
Murphy JT, Carmody P (2015) Africa’s information revolution: technical regimes and production networks in South Africa and Tanzania (RGS-IBG Book Series). Wiley, Chichester
Ozcan B, Apergis N (2017) The impact of internet use on air pollution: Evidence from emerging countries. Environ Sci Pollut Res 25(5):4174–4189
Ozturk I, Acaravci A (2013) The long-run and causal analysis of energy, growth, openness and financial development on carbon emissions in Turkey. Energy Econ 36:262–267
Pedroni P (2004) Panel cointegration: Asymptotic and finite sample properties of pooled time series tests with an applicaton to the PPP hypothesis. Econometric Theory 20:597–625
Penard T, Poussing N, Yebe GZ, Ella PN (2012) Comparing the determinants of internet and cell phone use in Africa: evidence from Gabon. Commun Strateg 86:65–83
Pesaran MH (2004) General diagnostic tests for cross section dependence in panels. Cambridge Working Papers in EconomicsNo. 0435, Faculty of Economics, University of Cambridge.
Pesaran MH (2007) A simple panel unit root test in the presence of cross-section dependence. J Appl Econ 22(1):265–312
Pesaran MH, Smith R (1995) Estimating long-run relationships from dynamic heterogeneous panels. J Econ 68(1):79–113
Qureshi S (2013a) What is the role of mobile phones in bringing about growth? Inf Technol Dev 19(1):1–4
Qureshi S (2013b) Networks of change, shifting power from institutions to people: how are innovations in the use of information and communication technology transforming development? Inf Technol Dev 19(2):97–99
Raheem ID, Oyinlola MA (2013) Financial development, inflation and growth in selected West African countries. Int J Sustain Econ 7(2):91–99
Roller LH, Waverman L (2001) Telecommunications infrastructure and economic development: a simultaneous equations approach. Am Econ Rev 91:909–923
Salahuddin M, Alam K (2015) Internet usage, electricity consumption and economic growth in Australia: a time series evidence. Telematics Inform 32(4):862–878
Salahuddin M, Alam K, Ozturk I (2016) The effects of internet usage and economic growth on CO2 emissions in OECD countries: a panel investigation. Renew Sust Energ Rev 62:1226–1235
Sinha A (2018) Impact of ICT exports and internet usage on carbon emissions: a case of OECD countries. Int J Green Econ 12(3-4):228–257
Tchamyou VS (2017) The role of knowledge economy in African business. J Knowl Econ 8(4):1189–1228
Tsaurai K, Chimbo B (2019) The impact of information and communication technology on carbon emissions in emerging markets. Int J Energy Econ Policy 9(4):320–326
Watson RT, Corbett J, Boudreau MC, Webster J (2012) An information strategy for environmental sustainability. Commun ACM 55(7):28–30
Westerlund J (2007) Testing for error correction in panel data. Oxf Bull Econ Stat 69(6):709–748
Zhang C, Liu C (2015) The impact of ICT industry on CO2 emissions: a regional analysis in China. Renew Sust Energ Rev 44:12–19
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Highlights
The role of ICT and financial development (FD) on both carbon emissions and economic growth for the G7 countries.
ICT has a long-run positive effect on emissions, while FD is estimated to be a weak determinant.
ICT and FD impact negatively on economic growth.
ICT has a long-run positive effect on CO2 emissions, while financial development seems to be a weak determinant of the carbon emissions.
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Raheem, I.D., Tiwari, A.K. & Balsalobre-Lorente, D. The role of ICT and financial development in CO2 emissions and economic growth. Environ Sci Pollut Res 27, 1912–1922 (2020). https://doi.org/10.1007/s11356-019-06590-0
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DOI: https://doi.org/10.1007/s11356-019-06590-0