Publication

Comparisons of CO2 emission performance between secondary and service industries in Yangtze River Delta cities

Xiao, H., Shan, Y., Zhang, N., Zhou, Y., Wang, D. & Duan, Z., 15-Dec-2019, In : Journal of Environmental Management. 252, 9 p., 109667.

Research output: Contribution to journalArticleAcademicpeer-review

APA

Xiao, H., Shan, Y., Zhang, N., Zhou, Y., Wang, D., & Duan, Z. (2019). Comparisons of CO2 emission performance between secondary and service industries in Yangtze River Delta cities. Journal of Environmental Management, 252, [109667]. https://doi.org/10.1016/j.jenvman.2019.109667

Author

Xiao, Huijuan ; Shan, Yuli ; Zhang, Ning ; Zhou, Ya ; Wang, Daoping ; Duan, Zhiyuan. / Comparisons of CO2 emission performance between secondary and service industries in Yangtze River Delta cities. In: Journal of Environmental Management. 2019 ; Vol. 252.

Harvard

Xiao, H, Shan, Y, Zhang, N, Zhou, Y, Wang, D & Duan, Z 2019, 'Comparisons of CO2 emission performance between secondary and service industries in Yangtze River Delta cities', Journal of Environmental Management, vol. 252, 109667. https://doi.org/10.1016/j.jenvman.2019.109667

Standard

Comparisons of CO2 emission performance between secondary and service industries in Yangtze River Delta cities. / Xiao, Huijuan; Shan, Yuli; Zhang, Ning; Zhou, Ya; Wang, Daoping; Duan, Zhiyuan.

In: Journal of Environmental Management, Vol. 252, 109667, 15.12.2019.

Research output: Contribution to journalArticleAcademicpeer-review

Vancouver

Xiao H, Shan Y, Zhang N, Zhou Y, Wang D, Duan Z. Comparisons of CO2 emission performance between secondary and service industries in Yangtze River Delta cities. Journal of Environmental Management. 2019 Dec 15;252. 109667. https://doi.org/10.1016/j.jenvman.2019.109667


BibTeX

@article{a124d21c569048699cbd676e01cf1881,
title = "Comparisons of CO2 emission performance between secondary and service industries in Yangtze River Delta cities",
abstract = "To put the brakes on global climate change, China, the world's top emitter, has established ambitious CO2 emissions reduction targets. Industry-level emissions analysis can help policymakers determine better ways to achieve mitigation targets. This study is the first to target the total-factor carbon emission performance (TCPI) of secondary and service industries. We first compile industry-level CO2 emission inventories of 25 Yangtze River Delta cities during 2007–2016. The TCPI of secondary and service industries is then estimated by the non-radial directional distance function. We then compare the TCPI of the two industries across levels, dynamics, and inequalities using a global metafrontier approach. The results show the TCPI of the service industry (0.563 in 2016) was significantly higher than that of secondary industry (0.256 in 2016), suggesting that the service industry was more carbon-friendly. The TCPI gap between the secondary and service industries narrowed over the study period. The TCPI of secondary industry showed a promising increase during 2007–2016 with an annual growth rate of 2.30%, reflecting the positive effects of the government's reforms and environmental regulations. By contrast, the service industry saw a downward trend in TCPI, decreasing by 1.68% annually, primarily because it is a newcomer to low-carbon development. TCPI inequality in secondary industry was much larger than in the service industry, suggesting that significant heterogeneity exists in secondary industry. Therefore, policymakers should implement targeted mitigation policies for secondary industry, and place decarbonising the service industry on the agenda to reverse its decreasing TCPI.",
keywords = "Carbon emission performance, Inequality, Non-radial directional distance function, Secondary industry, Service industry, CARBON-DIOXIDE EMISSIONS, ENERGY EFFICIENCY, TECHNOLOGY GAPS, CHINESE PROVINCES, ECONOMIC-GROWTH, REGIONAL ENERGY, SECTOR, INTENSITY, CONSUMPTION, REDUCTIONS",
author = "Huijuan Xiao and Yuli Shan and Ning Zhang and Ya Zhou and Daoping Wang and Zhiyuan Duan",
year = "2019",
month = dec,
day = "15",
doi = "10.1016/j.jenvman.2019.109667",
language = "English",
volume = "252",
journal = "Journal of Environmental Management",
issn = "0301-4797",
publisher = "ACADEMIC PRESS LTD- ELSEVIER SCIENCE LTD",

}

RIS

TY - JOUR

T1 - Comparisons of CO2 emission performance between secondary and service industries in Yangtze River Delta cities

AU - Xiao, Huijuan

AU - Shan, Yuli

AU - Zhang, Ning

AU - Zhou, Ya

AU - Wang, Daoping

AU - Duan, Zhiyuan

PY - 2019/12/15

Y1 - 2019/12/15

N2 - To put the brakes on global climate change, China, the world's top emitter, has established ambitious CO2 emissions reduction targets. Industry-level emissions analysis can help policymakers determine better ways to achieve mitigation targets. This study is the first to target the total-factor carbon emission performance (TCPI) of secondary and service industries. We first compile industry-level CO2 emission inventories of 25 Yangtze River Delta cities during 2007–2016. The TCPI of secondary and service industries is then estimated by the non-radial directional distance function. We then compare the TCPI of the two industries across levels, dynamics, and inequalities using a global metafrontier approach. The results show the TCPI of the service industry (0.563 in 2016) was significantly higher than that of secondary industry (0.256 in 2016), suggesting that the service industry was more carbon-friendly. The TCPI gap between the secondary and service industries narrowed over the study period. The TCPI of secondary industry showed a promising increase during 2007–2016 with an annual growth rate of 2.30%, reflecting the positive effects of the government's reforms and environmental regulations. By contrast, the service industry saw a downward trend in TCPI, decreasing by 1.68% annually, primarily because it is a newcomer to low-carbon development. TCPI inequality in secondary industry was much larger than in the service industry, suggesting that significant heterogeneity exists in secondary industry. Therefore, policymakers should implement targeted mitigation policies for secondary industry, and place decarbonising the service industry on the agenda to reverse its decreasing TCPI.

AB - To put the brakes on global climate change, China, the world's top emitter, has established ambitious CO2 emissions reduction targets. Industry-level emissions analysis can help policymakers determine better ways to achieve mitigation targets. This study is the first to target the total-factor carbon emission performance (TCPI) of secondary and service industries. We first compile industry-level CO2 emission inventories of 25 Yangtze River Delta cities during 2007–2016. The TCPI of secondary and service industries is then estimated by the non-radial directional distance function. We then compare the TCPI of the two industries across levels, dynamics, and inequalities using a global metafrontier approach. The results show the TCPI of the service industry (0.563 in 2016) was significantly higher than that of secondary industry (0.256 in 2016), suggesting that the service industry was more carbon-friendly. The TCPI gap between the secondary and service industries narrowed over the study period. The TCPI of secondary industry showed a promising increase during 2007–2016 with an annual growth rate of 2.30%, reflecting the positive effects of the government's reforms and environmental regulations. By contrast, the service industry saw a downward trend in TCPI, decreasing by 1.68% annually, primarily because it is a newcomer to low-carbon development. TCPI inequality in secondary industry was much larger than in the service industry, suggesting that significant heterogeneity exists in secondary industry. Therefore, policymakers should implement targeted mitigation policies for secondary industry, and place decarbonising the service industry on the agenda to reverse its decreasing TCPI.

KW - Carbon emission performance

KW - Inequality

KW - Non-radial directional distance function

KW - Secondary industry

KW - Service industry

KW - CARBON-DIOXIDE EMISSIONS

KW - ENERGY EFFICIENCY

KW - TECHNOLOGY GAPS

KW - CHINESE PROVINCES

KW - ECONOMIC-GROWTH

KW - REGIONAL ENERGY

KW - SECTOR

KW - INTENSITY

KW - CONSUMPTION

KW - REDUCTIONS

UR - http://www.scopus.com/inward/record.url?scp=85073171093&partnerID=8YFLogxK

U2 - 10.1016/j.jenvman.2019.109667

DO - 10.1016/j.jenvman.2019.109667

M3 - Article

C2 - 31627097

AN - SCOPUS:85073171093

VL - 252

JO - Journal of Environmental Management

JF - Journal of Environmental Management

SN - 0301-4797

M1 - 109667

ER -

ID: 100155411