Abstract
Green total factor productivity (GTFP) is an essential indicator to measure economic and environmental efficiency. Moreover, formulating a reasonable environmental regulation system and promoting green technological innovation is a systematic way to improve GTFP. However, previous related studies lack to investigate the impact of environmental regulation on GTFP from the perspective of green technological innovation. For this purpose, this paper aims to examine the specific impact of environmental regulation on GTFP based on the perspective of green technology innovation, so as to provide some policy insights for the formulation of more effective implementation of environmental regulation, improve green technology innovation level, and achieve a win–win situation for both economic growth and environmental protection. Furthermore, epsilon-based measure (EBM), which includes both radial and non-radial distance functions, is used to measure the GTFP. The spatial autoregressive method is also employed to quantify the impact of environmental regulation on GTFP from the perspective of green technological innovation using panel data of 269 prefecture-level cities in China from 2004 to 2018. The main findings indicate that there is a significant spatial autocorrelation between environmental regulation and GTFP. Environmental regulation has a significant positive effect on GTFP. Environmental regulation in the local regions also significantly contributes to GTFP in neighboring regions. Besides, environmental regulation indirectly promotes GTFP by enhancing green technological innovation level. Regional heterogeneity results show that environmental regulation can not only directly promote GTFP but also indirectly significantly promote GTFP through green technological innovation in the eastern and central regions, but insignificant in the western region. Based on the above findings, we conclude that policymakers should not only develop differentiated environmental regulation standards and steadily improving the intensity and rationality of environmental regulation but also add green innovation funds supply, enhance green innovation factor allocation efficiency, and strengthen R&D talents, funds, and policies to green technology innovation, so as to drive GTFP improvement.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
Data Availability
The datasets used during the current study are available from the corresponding author on reasonable request.
References
Abid N, Wu J, Ahmad F, Draz MU, Chandio AA, Xu H (2020) Incorporating environmental pollution and human development in the energy-growth nexus: a novel long run investigation for Pakistan. Int J Environ Res Public Health 17(14):5154
Abid N, Ikram M, Wu J, Ferasso M (2021b) Towards environmental sustainability: exploring the nexus among ISO 14001, governance indicators and green economy in Pakistan. Sustain Prod Consum 27:653–666
Abid N, Ceci F, Ikram M (2021a) Green growth and sustainable development: dynamic linkage between technological innovation, ISO 14001, and environmental challenges. Environ Sci Pollut Res, pp 1–20
Ai YH, Peng DY, **ong HH (2021) Impact of environmental regulation intensity on green technology innovation: from the perspective of political and business connections. Sustain 13(9):4862
Albrizio S, Kozluk T, Zipperer V (2017) Environmental policies and productivity growth: evidence across industries and firms. J Environ Econ Manag 81:209–226
Baker E, Clarke L, Shittu E (2008) Technical change and the marginal cost of abatement. Energy Econ 30(6):2799–2816
Baloch ZA, Tan Q, Kamran HW, Nawaz MA, Albashar G, Hameed J (2021) A multi-perspective assessment approach of renewable energy production: policy perspective analysis. Environ Dev Sustain, pp 1–29
Barbera AJ, McConnell VD (1990) The impact of environmental regulations on industry productivity: direct and indirect effects. J Environ Econ Manag 18(1):50–65
Baron RM, Kenny DA (1986) The moderator–mediator variable distinction in social psychological research: Conceptual, strategic, and statistical considerations. Journal of Personality and Social Psychology 51(6):1173–1182. https://doi.org/10.1037/0022-3514.51.6.1173
Becker RA (2011) Local environmental regulation and plant-level productivity. Ecol Econ 70:2516–2522. https://doi.org/10.1016/j.ecolecon.2011.08.019
Cai X, Zhu B, Zhang H, Li L, **e M (2020) Can direct environmental regulation promote green technology innovation in heavily polluting industries? Evidence from Chinese listed companies. Sci Total Environ 746 140810
Cao J, Law SH, Samad ARBA, Mohamad WNBW, Wang J, Yang X (2021) Impact of financial development and technological innovation on the volatility of green growth—evidence from China. Environ Sci Pollut Res, pp 1–17
Chaofan C (2016) China’s Industrial Green Total Factor Productivity and its influencing factors– an empirical study based on ML Productivity Index and dynamic Panel Model. Statistical Research 03:53–62. https://doi.org/10.19343/j.cnki.11-1302/c.2016.03.007
Cheng Z, Li L, Liu J (2019) The effect of information technology on environmental pollution in China. Environ Sci Pollut Res 26(32):33109–33124
Conrad K, Wastl D (1995) The impact of environmental regulation on productivity in German industries. Empirical Economics 20(4):615–633
Deng Y, You D, Wang J (2019) Optimal strategy for enterprises’ green technology innovation from the perspective of political competition. J Clean Prod 235:930–942
Ding L, Wu M, Jiao Z, Nie Y (2021) The positive role of trade openness in industrial green total factor productivity—provincial evidence from China. Environ Sci Pollut Res, pp 1–14
Du K, Cheng Y, Yao X (2021) Environmental regulation green technology innovation, and industrial structure upgrading: the road to the green transformation of Chinese cities. Energy Econ, 98 105247
Frondel M, Horbach J, Rennings K (2007) End-of-pipe or cleaner production? An empirical comparison of environmental innovation decisions across OECD countries. Bus Strateg Environ 16(8):571–584
Gao X, Wang S, Ahmad F, Chandio AA, Ahmad M, Xue D (2021) The nexus between misallocation of land resources and green technological innovation: a novel investigation of Chinese cities. Clean Techn Environ Policy, pp 1–15
German Industries[J] (1995) Empir Econ 20(4):615–633
Gollop FM, Roberts MJ (1983) Environmental regulations and productivity growth: the case of fossil-fueled electric power generation. J Polit Econ 91(4):654–674
Gray WB, Shadbegian RJ (1995) Pollution abatement costs regulation and plant-level productivity
Greenstone M, List JA, Syverson C (2012) The effects of environmental regulation on the competitiveness of US manufacturing (No. w18392). Natl Bur Econ Res
Guo Y, **a X, Zhang S, Zhang D (2018) Environmental regulation, government R&D funding and green technology innovation: Evidence from China provincial data. Sustain 10(4):940
Guo Q, Zhou M, Liu N, Wang Y (2019) Spatial effects of environmental regulation and green credits on green technology innovation under low-carbon economy background conditions. Int J Environ Res Public Health 16(17):3027
Hailing G, Zhenni Wu (2020) Local Environmental Regulation and Green Total Factor Productivity improvement– technological Progress or Technical efficiency change? Econ Probl 02:118–129. https://doi.org/10.16011/j.cnki.jjwt.2020.02.016
Han F, Li J (2020) Assessing impacts and determinants of China’s environmental protection tax on improving air quality at provincial level based on Bayesian statistics. J Environ Manag 271 111017
Hao Y, Gai Z, Yan G, Wu H, Irfan M (2021b) The spatial spillover effect and nonlinear relationship analysis between environmental decentralization, government corruption and air pollution: evidence from China. Sci Total Environ 763 144183
Hao Y, Gao S, Guo Y, Gai Z, Wu H (2021a) Measuring the nexus between economic development and environmental quality based on environmental Kuznets curve: a comparative study between China and Germany for the period of 2000–2017. Environ Dev Sustain, pp 1–26
Hossain MS, Frey HC, Louie PK, Lau AK (2021) Combined effects of increased O3 and reduced NO2 concentrations on short-term air pollution health risks in Hong Kong. Environ Pollut 270 116280
Jaffe AB, Palmer K (1997) Environmental regulation and innovation: a panel data study. Rev Econ Stat 79(4):610–619
** W, Zhang HQ, Liu SS, Zhang HB (2019) Technological innovation, environmental regulation, and green total factor efficiency of industrial water resources. J Clean Prod 211:61–69
Lanjouw JO, Mody A (1996) Innovation and the international diffusion of environmentally responsive technology. Res Policy 25(4):549–571
Lanoie P, Patry M, Lajeunesse R (2008) Environmental regulation and productivity: testing the porter hypothesis. J Prod Anal 30(2):121–128
Li K, Lin B (2016) Impact of energy conservation policies on the green productivity in China’s manufacturing sector: evidence from a three-stage DEA model. Appl Energy 168:351–363
Li B, Peng X, Ouyang MK (2013) Environmental regulation, green total factor productivity and the transformation of China’s industrial development mode: analysis based on data of China’s 36 industries. China Ind Econ 4:56–68
Li Y, Zhang J, Yang X, Wang W, Wu H, Ran Q, Luo R (2021c) The impact of innovative city construction on ecological efficiency: a quasi-natural experiment from China. Sustain Prod Consum 28:1724–1735
Li Y, Li S (2021) The influence study on environmental regulation and green total factor productivity of China’s manufacturing industry. Discret Dyn Nat Soc 2021
Li N, Pei X, Huang Y, Qiao J, Zhang Y, Jamali RH (2021a) Impact of financial inclusion and green bond financing for renewable energy mix: implications for financial development in OECD economies. Environ Sci Pollut Res, pp 1–12
Li Y, Yang X, Ran Q, Wu H, Irfan M, Ahmad M (2021b) Energy structure, digital economy, and carbon emissions: evidence from China. Environ Sci Pollut Res, pp 1–24
Liu Y, Yang X, Huang M-X (2020) Environmental regulation and green total factor productivity-analysis of mediating effects based on different technological progress paths. Contemp Econ Manag 06:16–27. https://doi.org/10.13253/j.cnki.ddjjgl.2020.06.003
Meng Y, Liu L, Wang J, Ran Q, Yang X, Shen J (2021) Assessing the impact of the national sustainable development planning of resource-based cities policy on pollution emission intensity: evidence from 270 prefecture-level cities in China. Sustain 13(13):7293
Peng J, **e R, Ma C, Fu Y (2021) Market-based environmental regulation and total factor productivity: evidence from Chinese enterprises. Econ Model 95:394–407
Peng X (2020) Strategic interaction of environmental regulation and green productivity growth in China: green innovation or pollution refuge?. Sci Total Environ 732 139200
Peuckert J (2014) What shapes the impact of environmental regulation on competitiveness? Evidence from Executive Opinion Surveys. Environ Innov Soc Trans 10:77–94
Popp D, Newell R (2012) Where does energy R&D come from? Examining crowding out from energy R&D. Energy Econ 34(4):980–991
Porter ME, Van der Linde C (1995) Toward a new conception of the environment-competitiveness relationship. J Econ Perspect 9(4):97–118
Qiu S, Wang Z, Geng S (2021) How do environmental regulation and foreign investment behavior affect green productivity growth in the industrial sector? An empirical test based on Chinese provincial panel data. J Environ Manag 287 112282
Ren S, Hao Y, Wu H (2021) How does green investment affect environmental pollution? Evidence from China. Environ Resour Econ, pp 1–27
Ronghui X (2017) Environmental regulation, leading to innovation and the improvement of China’s industrial green productivity. Res Ind Econ 02:38–48. https://doi.org/10.13269/j.cnki.ier.2017.02.004
Sanchez-Vargas A, Mansilla-Sanchez R, Aguilar-Ibarra A (2013) An empirical analysis of the nonlinear relationship between environmental regulation and manufacturing productivity. J Appl Econ 16(2):357–371
Shen KR, ** G, Fang X (2017) Does environmental regulation cause pollution to transfer nearby. Econ Res J 52:44–59
Shen N, Liao H, Deng R, Wang Q (2019) Different types of environmental regulations and the heterogeneous influence on the environmental total factor productivity: empirical analysis of China’s industry. J Clean Prod 211:171–184
Song M, Wang S (2016) Can employment structure promote environment-biased technical progress? Technol Forecast Soc Chang 112:285–292
Song Y, Zhang X, Zhang M (2020) Research on the strategic interaction of China’s regional air pollution regulation: spatial interpretation of “incomplete implementation” of regulatory policies. Environ Sci Pollut Res 27(34):42557–42570
Su X, Yang X, Zhang J, Yan J, Zhao J, Shen J, Ran Q (2021) Analysis of the impacts of economic growth targets and marketization on energy efficiency: evidence from China. Sustain 13(8):4393
Wagner M (2007) On the relationship between environmental management, environmental innovation and patenting: evidence from German manufacturing firms. Res Policy 36(10):1587–1602
Walley N, Whitehead B (1994) It’s not easy being green. Read Bus Environ 36(81):4
Wang Y, Shen N (2016) Environmental regulation and environmental productivity: the case of China. Renew Sustain Energy Rev 62:758–766
Wang J, Wang W, Ran Q, Irfan M, Ren S, Yang X, Ahmad M (2021a) Analysis of the mechanism of the impact of internet development on green economic growth: evidence from 269 prefecture cities in China. Environ Sci Pollut Res, pp 1–15
Wang W, Wang J, Wulaer S, Chen B, Yang X (2021b) The effect of innovative entrepreneurial vitality on economic resilience based on a spatial perspective: economic policy uncertainty as a moderating variable. Sustain 13(19):10677
Wang M, Li Y, Liao G (2021c) Research on the impact of green technology innovation on energy total factor productivity, based on provincial data of China. Front Environ Sci 9:219
Wang H, Cuix H, Zhao Q (2021d) Effect of green technology innovation on green total factor productivity in China: evidence from spatial durbin model analysis. J Clean Prod 288 125624
Wang M, Xu M, Ma S (2021e) The effect of the spatial heterogeneity of human capital structure on regional green total factor productivity. Struct Chang Econ Dyn 59:427–441
Wu H, **a Y, Yang X, Hao Y, Ren S (2021b) Does environmental pollution promote China’s crime rate? A new perspective through government official corruption. Struct Chang Econ Dyn 57:292–307
Wu H, Hao Y, Ren S (2020) How do environmental regulation and environmental decentralization affect green total factor energy efficiency: evidence from China. Energy Econ 91 104880
Wu H, Hao Y, Ren S, Yang X, **e G (2021b) Does internet development improve green total factor energy efficiency? Evidence from China. Energy Policy 153 112247
Xu H, Qiu L, Liu B, Liu B, Wang H, Lin W (2021) Does regional planning policy of Yangtze River Delta improve green technology innovation? Evidence from a quasi-natural experiment in China. Environ Sci Pollut Res, pp 1–17
Yamashita T, Kim G, Liu D, Bardo AR (2021) Associations between perceived environmental pollution and mental health in middle-aged and older adults in East Asia. Asia Pac J Public Health 33(1):109–112
Yan J, Zhao J, Yang X, Su X, Wang H, Ran Q, Shen J (2021) Does low-carbon city pilot policy alleviate urban haze pollution? Empirical evidence from a quasi-natural experiment in China. Int J Environ Res Public Health 18(21):11287
Yang X, Wu H, Ren S, Ran Q, Zhang J (2021a) 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
Yang X, Jia Z, Yang Z (2021b) How does technological progress impact transportation green total factor productivity: a spatial econometric perspective. Energy Rep 7:3935–3950
Yang X, Zhang J, Ren S, Ran Q (2021c) Can the new energy demonstration city policy reduce environmental pollution? Evidence from a quasi-natural experiment in China. J Clean Prod 287 125015
Young A (2003) Gold into base metals: productivity growth in the People’s Republic of China during the reform period. J Polit Econ 111(6):1220–1261
Zhang W, Li G (2020) Environmental decentralization, environmental protection investment, and green technology innovation. Environ Sci Pollut Res, pp 1–16
Zhang J, Ouyang Y, Ballesteros-Pérez P, Li H, Philbin SP, Li Z, Skitmore M (2021a) Understanding the impact of environmental regulations on green technology innovation efficiency in the construction industry. Sustain Cities Soc 65 102647
Zhang J, Wang J, Yang X, Ren S, Ran Q, Hao Y (2021b) Does local government competition aggravate haze pollution? A new perspective of factor market distortion. Socio Econ Plan Sci 76 100959
Zhao X, Liu C, Yang M (2018) The effects of environmental regulation on China’s total factor productivity: an empirical study of carbon-intensive industries. J Clean Prod 179:325–334
Zhong S, Wang L, Yao F (2022) Industrial green total factor productivity based on an MML index in the Yangtze River Economic Belt. Environ Sci Pollut Res, pp 1–24
Zhu L, Hao Y, Lu ZN, Wu H, Ran Q (2019) Do economic activities cause air pollution? Evidence from China’s major cities. Sustain Cities Soc 49 101593
Funding
The authors acknowledge financial support from the project “Research on accurate Poverty Alleviation Mechanism of Tourism in Kashgar” supported by the Social Science Fund of **njiang Uygur Autonomous region.
Author information
Authors and Affiliations
Contributions
** Yang: conceptualization, project administration, writing—review and editing, writing—original draft, formal analysis, data curation, software, visualization. Min Fan: writing—original draft, writing—review and editing, formal analysis, validation, methodology, conceptualization, funding acquisition, supervision. Qing Li: writing—original draft, writing—review and editing.
Corresponding author
Ethics declarations
Ethics approval and consent to participate
Not applicable.
Consent for publication
Not applicable.
Conflict of interests
The authors declare no competing interests.
Additional information
Communicated by Eyup Dogan.
Publisher's note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Rights and permissions
About this article
Cite this article
Fan, M., Yang, P. & Li, Q. Impact of environmental regulation on green total factor productivity: a new perspective of green technological innovation. Environ Sci Pollut Res 29, 53785–53800 (2022). https://doi.org/10.1007/s11356-022-19576-2
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11356-022-19576-2