Combining the biennial Malmquist–Luenberger index and panel quantile regression to analyze the green total factor productivity of the industrial sector in China

Improving the green total-factor productivity (GTFP) is a key measure to coordinate industrial development and environmental protection in China. This study adopts the biennial Malmquist–Luenberger (BML) productivity index to estimate the GTFP change of China's 34 industrial subsectors covering...

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Published inThe Science of the total environment Vol. 739; p. 140280
Main Authors Wang, Ke-Liang, Pang, Su-Qin, Ding, Li-Li, Miao, Zhuang
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.10.2020
Subjects
Biennial Malmquist–Luenberger (BML) productivity index
China
energy
environment
environmental law
environmental protection
Fixed-effect panel quantile regression
foreign direct investment
Green total factor productivity (GTFP)
Industrial sector
industrialization
regression analysis
technology
China
Green total factor productivity (GTFP)
Industrial sector
Biennial Malmquist–Luenberger (BML) productivity index
Fixed-effect panel quantile regression
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Abstract Improving the green total-factor productivity (GTFP) is a key measure to coordinate industrial development and environmental protection in China. This study adopts the biennial Malmquist–Luenberger (BML) productivity index to estimate the GTFP change of China's 34 industrial subsectors covering the period 2005–2015. Subsequently, fixed-effect panel quantile regression is applied to analyze the heterogeneous effects of eight selected influencing factors on China's industrial GTFP change. The results show that China's overall industrial GTFP exhibited an increasing trend during the study period and varied greatly in different sub-sectors. Moreover, technological innovation rather than efficiency promotion was the main contributor to the improvement of industrial GTFP in China. The impact of the scale structure (SS) was significantly positive across the quantiles and maintained a slightly downward trend. The impact of the property rights structure (PTS) was significantly negative and showed an increasing trend across the quantiles. The impact of the energy intensity (EI) slightly increased and was significantly negative at most quantiles. The energy consumption structure (ECS) exhibited an increasing trend and had a significantly negative effect at the middle quantiles. Technological innovation (TI) exerted a significantly positive effect and displayed a downward trend across the quantiles, and it was the most important factor to drive industrial GTFP growth. The “pollution halo” hypothesis and the Porter hypothesis were both verified with a certain range from the analysis of foreign direct investment (FDI) and environmental regulation (ER), as well as the interaction between ER and TI. Our results stress the importance of the heterogeneous effects of these influencing factors on different quantile subsectors when formulating the related measures and policies. The above figure intuitively illustrates the relationship between the eight influencing factors and industrial green total factor productivity change in China according to the estimation results of the fixed-effect panel quantile regression approach, which visually shows the heterogeneous effects of all influencing factors on China's industrial green total factor productivity. [Display omitted] •The biennial Malmquist-Luenberger (BML) index is used to estimate China’s industrial GTFP growth.•The panel quantile regression is employed to investigate the influencing factors of China’s industrial GTFP growth.•Technological progress rather than efficiency promotion is the main contributor to China’s industrial GTFP growth.•The effects of all influencing factors on China’s industrial GTP growth are heterogeneous at different quantiles.
AbstractList Improving the green total-factor productivity (GTFP) is a key measure to coordinate industrial development and environmental protection in China. This study adopts the biennial Malmquist-Luenberger (BML) productivity index to estimate the GTFP change of China's 34 industrial subsectors covering the period 2005-2015. Subsequently, fixed-effect panel quantile regression is applied to analyze the heterogeneous effects of eight selected influencing factors on China's industrial GTFP change. The results show that China's overall industrial GTFP exhibited an increasing trend during the study period and varied greatly in different sub-sectors. Moreover, technological innovation rather than efficiency promotion was the main contributor to the improvement of industrial GTFP in China. The impact of the scale structure (SS) was significantly positive across the quantiles and maintained a slightly downward trend. The impact of the property rights structure (PTS) was significantly negative and showed an increasing trend across the quantiles. The impact of the energy intensity (EI) slightly increased and was significantly negative at most quantiles. The energy consumption structure (ECS) exhibited an increasing trend and had a significantly negative effect at the middle quantiles. Technological innovation (TI) exerted a significantly positive effect and displayed a downward trend across the quantiles, and it was the most important factor to drive industrial GTFP growth. The "pollution halo" hypothesis and the Porter hypothesis were both verified with a certain range from the analysis of foreign direct investment (FDI) and environmental regulation (ER), as well as the interaction between ER and TI. Our results stress the importance of the heterogeneous effects of these influencing factors on different quantile subsectors when formulating the related measures and policies.Improving the green total-factor productivity (GTFP) is a key measure to coordinate industrial development and environmental protection in China. This study adopts the biennial Malmquist-Luenberger (BML) productivity index to estimate the GTFP change of China's 34 industrial subsectors covering the period 2005-2015. Subsequently, fixed-effect panel quantile regression is applied to analyze the heterogeneous effects of eight selected influencing factors on China's industrial GTFP change. The results show that China's overall industrial GTFP exhibited an increasing trend during the study period and varied greatly in different sub-sectors. Moreover, technological innovation rather than efficiency promotion was the main contributor to the improvement of industrial GTFP in China. The impact of the scale structure (SS) was significantly positive across the quantiles and maintained a slightly downward trend. The impact of the property rights structure (PTS) was significantly negative and showed an increasing trend across the quantiles. The impact of the energy intensity (EI) slightly increased and was significantly negative at most quantiles. The energy consumption structure (ECS) exhibited an increasing trend and had a significantly negative effect at the middle quantiles. Technological innovation (TI) exerted a significantly positive effect and displayed a downward trend across the quantiles, and it was the most important factor to drive industrial GTFP growth. The "pollution halo" hypothesis and the Porter hypothesis were both verified with a certain range from the analysis of foreign direct investment (FDI) and environmental regulation (ER), as well as the interaction between ER and TI. Our results stress the importance of the heterogeneous effects of these influencing factors on different quantile subsectors when formulating the related measures and policies.
Improving the green total-factor productivity (GTFP) is a key measure to coordinate industrial development and environmental protection in China. This study adopts the biennial Malmquist–Luenberger (BML) productivity index to estimate the GTFP change of China's 34 industrial subsectors covering the period 2005–2015. Subsequently, fixed-effect panel quantile regression is applied to analyze the heterogeneous effects of eight selected influencing factors on China's industrial GTFP change. The results show that China's overall industrial GTFP exhibited an increasing trend during the study period and varied greatly in different sub-sectors. Moreover, technological innovation rather than efficiency promotion was the main contributor to the improvement of industrial GTFP in China. The impact of the scale structure (SS) was significantly positive across the quantiles and maintained a slightly downward trend. The impact of the property rights structure (PTS) was significantly negative and showed an increasing trend across the quantiles. The impact of the energy intensity (EI) slightly increased and was significantly negative at most quantiles. The energy consumption structure (ECS) exhibited an increasing trend and had a significantly negative effect at the middle quantiles. Technological innovation (TI) exerted a significantly positive effect and displayed a downward trend across the quantiles, and it was the most important factor to drive industrial GTFP growth. The “pollution halo” hypothesis and the Porter hypothesis were both verified with a certain range from the analysis of foreign direct investment (FDI) and environmental regulation (ER), as well as the interaction between ER and TI. Our results stress the importance of the heterogeneous effects of these influencing factors on different quantile subsectors when formulating the related measures and policies. The above figure intuitively illustrates the relationship between the eight influencing factors and industrial green total factor productivity change in China according to the estimation results of the fixed-effect panel quantile regression approach, which visually shows the heterogeneous effects of all influencing factors on China's industrial green total factor productivity. [Display omitted] •The biennial Malmquist-Luenberger (BML) index is used to estimate China’s industrial GTFP growth.•The panel quantile regression is employed to investigate the influencing factors of China’s industrial GTFP growth.•Technological progress rather than efficiency promotion is the main contributor to China’s industrial GTFP growth.•The effects of all influencing factors on China’s industrial GTP growth are heterogeneous at different quantiles.
Improving the green total-factor productivity (GTFP) is a key measure to coordinate industrial development and environmental protection in China. This study adopts the biennial Malmquist–Luenberger (BML) productivity index to estimate the GTFP change of China's 34 industrial subsectors covering the period 2005–2015. Subsequently, fixed-effect panel quantile regression is applied to analyze the heterogeneous effects of eight selected influencing factors on China's industrial GTFP change. The results show that China's overall industrial GTFP exhibited an increasing trend during the study period and varied greatly in different sub-sectors. Moreover, technological innovation rather than efficiency promotion was the main contributor to the improvement of industrial GTFP in China. The impact of the scale structure (SS) was significantly positive across the quantiles and maintained a slightly downward trend. The impact of the property rights structure (PTS) was significantly negative and showed an increasing trend across the quantiles. The impact of the energy intensity (EI) slightly increased and was significantly negative at most quantiles. The energy consumption structure (ECS) exhibited an increasing trend and had a significantly negative effect at the middle quantiles. Technological innovation (TI) exerted a significantly positive effect and displayed a downward trend across the quantiles, and it was the most important factor to drive industrial GTFP growth. The “pollution halo” hypothesis and the Porter hypothesis were both verified with a certain range from the analysis of foreign direct investment (FDI) and environmental regulation (ER), as well as the interaction between ER and TI. Our results stress the importance of the heterogeneous effects of these influencing factors on different quantile subsectors when formulating the related measures and policies.
ArticleNumber 140280
Author Wang, Ke-Liang
Miao, Zhuang
Ding, Li-Li
Pang, Su-Qin
Author_xml – sequence: 1
  givenname: Ke-Liang
  surname: Wang
  fullname: Wang, Ke-Liang
  organization: School of Economics, Ocean University of China, Qingdao 266100, PR China
– sequence: 2
  givenname: Su-Qin
  surname: Pang
  fullname: Pang, Su-Qin
  organization: School of Economics, Ocean University of China, Qingdao 266100, PR China
– sequence: 3
  givenname: Li-Li
  surname: Ding
  fullname: Ding, Li-Li
  organization: School of Economics, Ocean University of China, Qingdao 266100, PR China
– sequence: 4
  givenname: Zhuang
  surname: Miao
  fullname: Miao, Zhuang
  email: miaozhuang@nuaa.edu.cn
  organization: China Western Economic Research Center, Southwestern University of Finance and Economics, Chengdu 611130, PR China
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ISSN 0048-9697
1879-1026
IngestDate Fri Jul 11 00:44:18 EDT 2025
Thu Jul 10 22:48:14 EDT 2025
Tue Jul 01 03:35:48 EDT 2025
Thu Apr 24 22:57:20 EDT 2025
Sun Apr 21 12:55:41 EDT 2024
IsPeerReviewed true
IsScholarly true
Keywords Green total factor productivity (GTFP)
Industrial sector
Biennial Malmquist–Luenberger (BML) productivity index
Fixed-effect panel quantile regression
Language English
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crossref_primary_10_1016_j_scitotenv_2020_140280
crossref_citationtrail_10_1016_j_scitotenv_2020_140280
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PublicationDate 2020-10-15
PublicationDateYYYYMMDD 2020-10-15
PublicationDate_xml – month: 10
  year: 2020
  text: 2020-10-15
  day: 15
PublicationDecade 2020
PublicationTitle The Science of the total environment
PublicationYear 2020
Publisher Elsevier B.V
Publisher_xml – name: Elsevier B.V
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Snippet Improving the green total-factor productivity (GTFP) is a key measure to coordinate industrial development and environmental protection in China. This study...
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SubjectTerms Biennial Malmquist–Luenberger (BML) productivity index
China
energy
environment
environmental law
environmental protection
Fixed-effect panel quantile regression
foreign direct investment
Green total factor productivity (GTFP)
Industrial sector
industrialization
regression analysis
technology
Title Combining the biennial Malmquist–Luenberger index and panel quantile regression to analyze the green total factor productivity of the industrial sector in China
URI https://dx.doi.org/10.1016/j.scitotenv.2020.140280
https://www.proquest.com/docview/2431809702
https://www.proquest.com/docview/2986085439
Volume 739
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