Delinking Indicators on Transport Output
and Carbon Emissions in Xinjiang, China

Dong, Jiefang; Huang, Jing; Wu, Rongwei; Deng, Chun

doi:10.15244/pjoes/67553

Cited by 14 publications

(6 citation statements)

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“…The paper endeavors to determine the decomposition of driving factors that affect the relationship between Bangladesh's transport sector development and CO 2 emissions due to energy consumption from the year 1990 to 2017 using the Logarithmic-Mean Divisia Index (LMDI for Bangladesh, [28] for the Eurasian corridor (29 countries). On the other hand, the scope of these studies is China from the regional perspective [29][30][31][32][33][34][35][36][37]. Most studies have covered several provinces.…”

Section: Author Copy • Author Copy • Author Copy • Author Copy • Auth...mentioning

confidence: 99%

Decomposition and Decoupling of Transportation CO<sub>2</sub>: A Comparison of Areas with Different Economic Development in China

Zhang¹,

Chen²,

Wang³

et al. 2022

Pol. J. Environ. Stud.

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The gap between relatively developed and less developed areas in China has become more evident with economic development. However, only a few investigations have compared factors of transportation CO 2 emissions in relatively developed and less developed areas at the micro level. Factors differ for transportation CO 2 emissions between areas. To assess their differences, we select Guangdong and Guangxi provinces in China as examples. This study conducted a decoupling research between transportation CO 2 emissions and economic output based on the Logarithmic Mean Divisia Index (LMDI) decomposition and Tapio decoupling model during 2000-2017. The LMDI model successfully quantified the effects of six factors, focusing on technology-related factors, i.e., research and development (R&D) efficiency and per capita R&D expenditure. Different factors of transportation CO 2 emissions in the two provinces were then compared. Results were as follows: (1) Four decoupling states appeared in the two areas. (2) Per capita R&D expenditure was the primary contributor to increased CO 2 emissions, followed by population size. Relative to those in Guangdong, the two effects were weaker in Guangxi. (3) Energy intensity was the major inhibitor of CO 2 emissions in Guangdong, followed by R&D efficiency. The two effects can reduce CO 2 emissions in Guangxi, although the inhibitory effects were relatively small. (4) Freight transportation intensity in Guangdong increased CO 2 emissions, whereas it decreased CO 2 emissions in Guangxi due to the extremely weak inhibitory effect. Finally, the study provides valuable suggestions for the development of low-carbon transportation in different areas.

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Section: Author Copy • Author Copy • Author Copy • Author Copy • Auth...mentioning

confidence: 99%

Decomposition and Decoupling of Transportation CO<sub>2</sub>: A Comparison of Areas with Different Economic Development in China

Zhang¹,

Chen²,

Wang³

et al. 2022

Pol. J. Environ. Stud.

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show abstract

“…They figured out that economic growth is the main factor responsible for CO 2 emission growth of the modes considered in their analysis. Dong et al (2017) combined the decoupling index together with the LMDI method to identify the driving forces of CO 2 emissions in the Xinjiang transport sector for the period 1990-2014. They showed that economic growth, the size of the population and the energy mix contributed to the rise in CO 2 emissions.…”

Section: Literature Overviewmentioning

confidence: 99%

Untitled

2018

IJEEP

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The transportation sector plays a key role in the economic and commercial development of Tunisia. However, it is an energy-intensive sector that is responsible for 25.3% of greenhouse gas emissions. In this paper, we use the LMDI decomposition approach of CO 2 emissions stemming from the transportation sector with its different modes (highways, railways, civil aviation and waterways). Our objective is to evaluate the contribution of each of the main factors responsible for these emissions, namely the energy efficiency, the structure and the level of development of the transportation sector. The empirical analysis of CO 2 emissions data concerning this area for the period 1991-2016 shows that the rapid growth of these emissions is mainly due to the increase in the level of transport development in Tunisia with a particular predominance of road transportation. As for the transportation sector energy efficiency, it was shown that there is an inhibition of CO 2 emissions.

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“…Sustainable transport systems, both passenger and freight, should be economically and technically feasible, but also low-carbon or ecologically acceptable. The calculation of the greenhouse gas emissions in transport projects is becoming the primary goal of transport companies as part of an effort to implement national and global strategies to reduce carbon emissions, reduce energy demand and reduce negative environmental impacts [8][9]. In order to meet these challenges, all modes of transport have to be improved in terms of energy efficiency [10].…”

Section: Introductionmentioning

confidence: 99%

Assessing Environmental Benefits from Investment in Railway Infrastructure

Ćetković¹,

Lakić²,

Bogdanovic³

et al. 2020

Pol. J. Environ. Stud.

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The implementation of the general objectives of environmental and climate policy implies significant involvement of low-carbon transport. High-speed rail (HSR) transport is particularly interesting, which is, unfortunately, usually not profitable for the owner of this infrastructure. Redirecting passenger and freight traffic from the road to rail improves the economic performance of the HSR, while improving the performance of the environmental protection system by reducing the amount of fossil fuel used by the transport sector and greenhouse gas emissions. The aforementioned economic and ecological benefits usually precede investments in the modernization of the existing railway infrastructure. The aim of this paper is to evaluate the share of environmental benefits in comparison with other benefits on the example of the project of reconstruction and modernization of the railway in Serbia using cost-benefit analysis. The financial analysis of the reconstruction and modernization project for the Novi Sad-Suboticathe border with Hungary railway line has not shown a satisfactory level of financial internal rate of return (FIRR), and the final decision on the implementation of the project can be made after carrying out a socioeconomic analysis. The socioeconomic analysis of the project pointed to the significant contribution of the project to the overall socioeconomic well-being of the country and/or region. In the structure of the overall socioeconomic benefits from the realization of the project, the savings due to reduced pollution of the environment is predominant, especially in freight traffic. This indicates a high ecological contribution of this and similar projects to the community.

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Delinking Indicators on Transport Output and Carbon Emissions in Xinjiang, China

Cited by 14 publications

References 54 publications

Decomposition and Decoupling of Transportation CO<sub>2</sub>: A Comparison of Areas with Different Economic Development in China

Decomposition and Decoupling of Transportation CO<sub>2</sub>: A Comparison of Areas with Different Economic Development in China

Untitled

Assessing Environmental Benefits from Investment in Railway Infrastructure

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