Market-based environmental regulation and competitiveness: A comparative analysis of developed and developing economies

Authors

  • Rim Mansouri Mohammed V University of Rabat, Faculty of Law, Economic, and Social Sciences, Agdal, Morocco https://orcid.org/0009-0004-7907-4033
  • Said Tounsi Mohammed V University of Rabat, Faculty of Law, Economic, and Social Sciences, Agdal, Morocco

DOI:

https://doi.org/10.13133/2037-3643/19048

Keywords:

Porter Hypothesis, environmental regulation, innovation, productivity, comparative analysis

Abstract

This study investigates the impact of market-based environmental regulations on industrial performance and innovation across 48 countries (30 developed, 18 developing) from 1995 to 2021. Using environmental taxes, instrumented by lagged CO₂ emissions and women’s political empowerment, and public environmental expenditures as a robustness check. The results reveal heterogeneous effects across development levels. Environmental taxes increase productivity and R&D investment in developed economies but have limited impact in developing ones. Public environmental expenditures reduce productivity in both groups while affecting innovation differently. These findings suggest that environmental regulation can promote competitiveness and innovation, but its effectiveness depends on national economic and institutional conditions.

References

Aghion P., Dechezleprêtre A., Hemous D., Martin R. and Van Reenen J. (2016), “Carbon taxes, path dependency, and directed technical change: Evidence from the auto industry”, Journal of Political Economy, 124(1), pp. 1-51.

Albrizio S., Koźluk T. and Zipperer V. (2017), “Environmental policies and productivity growth: Evidence across industries and firms”, Journal of Environmental Economics and Management, 81, pp. 209-226.

Alpay E., Kerkvliet J. and Buccola S. (2002), “Productivity growth and environmental regulation in Mexican and US food manufacturing”, American journal of agricultural economics, 84(4), pp. 887-901.

Arimura T., Hibiki A. and Johnstone N. (2007), “An empirical study of environmental R&D: what encourages facilities to be environmentally innovative”, in Johnston N. (ed.), Environmental policy and corporate behaviour (pp. 142-173), Cheltenham (UK) and Northampton (MA, USA): Edward Elgar Publishing.

Ashford N.A. and Hall R. P. (2011), “The importance of regulation-induced innovation for sustainable development”, Sustainability, 3(1), pp. 270-292.

Barbera A.J. and McConnell V.D. (1986), “Effects of pollution control on industry productivity: a factor demand approach”, The Journal of Industrial Economics, 35(2), pp. 161-172.

Barbera A.J. and McConnell V.D. (1990), The impact of environmental regulations on industry productivity: direct and indirect effects”, Journal of environmental economics and management, 18(1), pp. 50-65.

Berman E. and Bui L.T. (2001), Environmental regulation and productivity: evidence from oil refineries, Review of economics and statistics, 83(3), pp. 498-510.

Blanchard O., Gollier C. and Tirole J. (2023), “The portfolio of economic policies needed to fight climate change”, Annual Review of Economics, 15(1), pp. 689-722.

Brunnermeier S.B. and Cohen M.A. (2003), “Determinants of environmental innovation in US manufacturing industries”, Journal of environmental economics and management, 45(2), pp. 278-293.

Burtraw D. (2000), “Innovation under the tradable sulfur dioxide emission permits program in the US electricity sector”, RFF Discussion Papers Series, no. 00-38, Washington (DC): Resources for the Future.

Calel R. and Dechezleprêtre A. (2016), “Environmental policy and directed technological change: evidence from the European carbon market”, Review of economics and statistics, 98(1), pp. 173-191.

Carattini S., Carvalho M. and Fankhauser S. (2018), “Overcoming public resistance to carbon taxes”, Wiley Interdisciplinary Reviews: Climate Change, 9(5), art. e531.

Cole M. A., Elliott R. J. and Fredriksson P. G. (2006), “Endogenous pollution havens: Does FDI influence environmental regulations?”, Scandinavian Journal of Economics, 108(1), pp. 157-178.

D’Arcangelo F.M., Pisu M., Raj A. and van Dender K. (2022), “Estimating the CO2 emission and revenue effects of carbon pricing: New evidence from a large cross-country dataset”, OECD Economics Department Working Papers, no. 1732, Paris: OECD Publishing. Available online.

de Miranda Ribeiro F. and Kruglianskas I. (2015), “Principles of environmental regulatory quality: a synthesis from literature review”, Journal of Cleaner Production, 96, pp. 58-76.

Dechezleprêtre A. and Sato M. (2017), “The impacts of environmental regulations on competitiveness”, Review of environmental economics and policy, 11(2), pp. 181-360.

Dolphin G., Pollitt M.G. and Newbery D.M. (2020), “The political economy of carbon pricing: a panel analysis”, Oxford Economic Papers, 72(2), pp. 472-500.

Eliste P. and Fredriksson P.G. (2002), “Environmental regulations, transfers, and trade: Theory and evidence”, Journal of Environmental Economics and Management, 43(2), pp. 234-250.

Feng Z., Zeng B. and Ming Q. (2018), “Environmental regulation, two-way foreign direct investment, and green innovation efficiency in China’s manufacturing industry”, International journal of environmental research and public health, 15(10), art. 2292.

Franco C. and Marin G. (2017), “The effect of within-sector, upstream and downstream environmental taxes on innovation and productivity”, Environmental and resource economics, 66(2), pp. 261-291.

Frondel M., Horbach J. and Rennings K. (2007), “End‐of‐pipe or cleaner production? An empirical comparison of environmental innovation decisions across OECD countries”, Business strategy and the environment, 16(8), pp. 571-584.

Gollop F.M. and Roberts M.J. (1983), “Environmental regulations and productivity growth: The case of fossil-fueled electric power generation”, Journal of political Economy, 91(4), pp. 654-674.

Goulder L.H. and Parry I.W. (2008), “Instrument choice in environmental policy”, Review of environmental economics and policy, 2(2), pp. 152-174.

Gray W.B. and Shadbegian R.J. (2003), “Plant vintage, technology, and environmental regulation”, Journal of Environmental Economics and Management, 46(3), pp. 384-402.

Greenstone M., List J.A. and Syverson C. (2012), “The effects of environmental regulation on the competitiveness of US manufacturing”, Review of Economic Studies, 80(2), pp. 539-563.

Hamamoto M. (2006), “Environmental regulation and the productivity of Japanese manufacturing industries”, Resource and Energy Economics, 28(4), pp. 299-312.

Hicks J.R. (1932), The Theory of Wages, London: Macmillan.

Hojnik J. and Ruzzier M. (2016), “The driving forces of process eco-innovation and its impact on performance: Insights from Slovenia”, Journal of cleaner production, 133, pp. 812-825.

International Monetary Fund (2024), Government Policy Indicators: Environmental Taxes, Environmental Protection Expenditures, Fossil Fuel Subsidies, available at: https://climatedata.imf.org

Jaffe A.B. and Palmer K. (1997), “Environmental regulation and innovation: A panel data study”, Review of Economics and Statistics, 79(4), pp. 610-619.

Jaffe A. B., Newell R.G. and Stavins R. (2000), “Technological change and the environment”, NBER Working Papers, no. 7970, Cambridge (MA): National Bureau of Economic Research. Available online.

Johnstone N. and Labonne J. (2006), “Environmental Policy, Management and R&D”, OECD Economic Studies, 42(1), pp. 169-203.

Johnstone N., Haščič I. and Popp D. (2010), “Renewable energy policies and technological innovation: evidence based on patent counts”, Environmental and resource economics, 45, pp. 133-155.

Kneller R. and Manderson E. (2012), “Environmental regulations and innovation activity in UK manufacturing industries”, Resource and energy economics, 34(2), pp. 211-235.

Lanoie P., Laurent-Lucchetti J., Johnstone N. and Ambec S. (2011), “Environmental policy, innovation, and performance: New insights on the Porter hypothesis”, Journal of Economics and Management Strategy, 20(3), pp. 803-842.

Lanoie P., Patry M. and Lajeunesse R. (2008), “Environmental regulation and productivity: Testing the porter hypothesis”, Journal of productivity analysis, 30, pp. 121-128.

Levi S., Flachsland C. and Jakob M. (2020), “Political economy determinants of carbon pricing”, Global Environmental Politics, 20(2), pp. 128-156.

Levinson A. and Taylor M.S. (2008), “Unmasking the pollution haven effect”, International economic review, 49(1), pp. 223-254.

Long X. and Wan W. (2017), “Environmental regulation, corporate profit margins and compliance cost heterogeneity of different scale enterprises”, China Industrial Economics, 6, pp. 155-174.

Managi S., Opaluch J.J., Jin D. and Grigalunas T.A. (2005), “Environmental regulations and technological change in the offshore oil and gas industry”, Land economics, 81(2), pp. 303-319.

Manu E.K., Chen G.S. and Adomako S. (2024), “Do environmental regulations and technological innovation enhance environmental well‐being in sub‐Saharan Africa?”, Business Strategy and the Environment, 33(6), pp. 5736-5752.

McCright A.M. (2010), “The effects of gender on climate change knowledge and concern in the American public”, Population and environment, 32(1), pp. 66-87.

Popp D. (2003), “Pollution control innovations and the Clean Air Act of 1990”, Journal of Policy Analysis and Management, 22(4), pp. 641-660.

Porter M. (1991), “America’s green strategy”, Scientific American, 264(4), p. 168.

Porter M.E. and van der Linde C. (1995), “Toward a new conception of the environment-competitiveness relationship”, Journal of Economic Perspectives, 9(4), pp. 97-118.

Rexhäuser S. and Rammer C. (2014), “Environmental innovations and firm profitability: unmasking the Porter hypothesis”, Environmental and Resource Economics, 57, pp. 145-167.

Rogge K.S. and Reichardt K. (2016), “Policy mixes for sustainability transitions: An extended concept and framework for analysis”, Research policy, 45(8), pp. 1620-1635.

Rubashkina Y., Galeotti M. and Verdolini E. (2015), “Environmental regulation and competitiveness: Empirical evidence on the Porter Hypothesis from European manufacturing sectors”, Energy policy, 83, pp. 288-300.

Taylor M.R. (2012), “Innovation under cap-and-trade programs”, Proceedings of the National Academy of Sciences, 109(13), pp. 4804-4809.

Wang Y. and Shen N. (2016), “Environmental regulation and environmental productivity: The case of China”, Renewable and Sustainable Energy Reviews, 62, pp. 758-766.

World Bank (2024), World Development Indicators. Available online.

Xepapadeas A. and de Zeeuw A. (1999), “Environmental policy and competitiveness: the Porter hypothesis and the composition of capital”, Journal of environmental economics and Management, 37(2), pp. 165-182.

Yang C.H., Tseng Y.H. and Chen C.P. (2012), “Environmental regulations, induced R&D, and productivity: Evidence from Taiwan’s manufacturing industries”, Resource and Energy Economics, 34(4), pp. 514-532.

Zhao L., Zhang L., Sun J. and He P. (2022), “Can public participation constraints promote green technological innovation of Chinese enterprises? The moderating role of government environmental regulatory enforcement”, Technological Forecasting and Social Change, 174, art. 121198.

Downloads

Published

2026-04-10

How to Cite

Mansouri, R., & Tounsi, S. (2026). Market-based environmental regulation and competitiveness: A comparative analysis of developed and developing economies. PSL Quarterly Review, 79(316), 51–69. https://doi.org/10.13133/2037-3643/19048

Issue

Vol. 79 No. 316 (2026): March

Section

Articles

License

Copyright (c) 2026 Rim Mansouri, Said Tounsi

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

 
 
Licenza Creative Commons
 
All material in this website and every article published by the Review are licensed under a Creative Commons Attribution - Non commercial - No derivates 4.0 International license.
The authors who publish on this journal maintain all rights on their works without any restrictions.