Abstract
Beijing faces a serious problem of carbon emissions and the economic sectors are the main source of carbon emissions. Previous literatures have extensively focused on estimating the impact of carbon emissions of individual sector. Little attention has been paid to the multisectoral carbon emissions. In this paper, a multisectoral decomposition analysis was reported to explore the carbon emissions in Beijing. The emissions are decomposed into energy structure, energy intensity, economic structure (in industry), economic output, and population scale effects by the method of logarithmic mean Divisia index. Agricultural, industrial, construction, transportation, commercial, and other sectors are taken into consideration. The results show that population scale effect is the main factor for increasing carbon emissions in all sectors. The energy efficiency improvements are primarily responsible for the decrease in emissions in the industrial sector, while it increases emissions in construction, transportation, and commercial sectors. The economic output in agricultural and other sectors exerts a positive effect on emissions. In contrast, the energy structure effect only makes a minor contribution to the emission decrease in industrial, construction, commercial, and other sectors.
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References
Ang BW (2005) The LMDI approach to decomposition analysis: a practical guide. Energy Policy 33(7):867–871
Fan F, Lei Y (2016) Decomposition analysis of energy-related carbon emissions from the transportation sector in Beijing. Transp Res D 42:135–145
Fan TJ, Luo RL, Xia HY, Li XP (2015) Using LMDI method to analyze the influencing factors of carbon emissions in China’s petrochemical industries. Nat Hazards 75(2):319–332
Hong J, Shen GQ, Feng Y et al (2015) Greenhouse gas emissions during the construction phase of a building: a case study in China. J Clean Prod 103:249–259
Intergovernmental Panel on Climate Change, IPCC (2006) Guidelines for national greenhouse gas inventories. In: Eggleston HS, Buendia L, Miwa K, Ngara T, Tanabe K (eds) Prepared by the national greenhouse gas inventories programme. IGES, Hayama
Kang J, Zhao T, Liu N et al (2014) A multi-sectoral decomposition analysis of city-level greenhouse gas emissions: case study of Tianjin, China. Energy 68(4):562–571
Li B et al (2011) Research on spatial–temporal characteristics and affecting factors decomposition of agricultural carbon emission in China. China Popul Resour Environ 21:80–86 (in Chinese)
Lin B, Fei R (2015) Regional differences of CO2, emissions performance in China’s agricultural sector: a Malmquist index approach. Eur J Agron 70:33–40
Liu Y (2012) Energy strategy and the development of low carbon path in Beijing. Beijing Plan Rev 1:75–77 (in Chinese)
Liu N, Ma Z, Kang J (2015) Changes in carbon intensity in China’s industrial sector: decomposition and attribution analysis. Energy Policy 87:28–38
Lu QL, Yang H, Huang XJ, Chuai XW, Wu CY (2015) Multi-sectoral decomposition in decoupling industrial growth from carbon emissions in the developed Jiangsu Province, China. Energy 82:414–425
Lu Y, Cui P, Li D (2016) Carbon emissions and policies in China’s building and construction industry: evidence from 1994 to 2012. Build Environ 95:94–103
Maroušek J (2013) Study on agriculture decision makers behavior on sustainable energy utilization. J Agric Environ Ethics 26(3):679–689
Maroušek J (2014) Economically oriented process optimization in waste management. Environ Sci Pollut Res 21(12):7400–7402
Maroušek J, Hašková S, Zeman R et al (2015) Processing of residues from biogas plants for energy purposes. Clean Technol Environ Policy 17(3):797–801
Municipal Bureau of Statistics of Beijing, MBSB (2006, 2014) Beijing statistical year-book
Shao S, Liu JH, Geng Y, Miao Z, Yang YC (2016) Uncovering driving factors of carbon emissions from China’s mining sector. Appl Energy 166:220–238
Shi Y, Zhao T (2016) A decomposition analysis of carbon dioxide emissions in the Chinese nonferrous metal industry. Mitig Adapt Strateg Glob Change 21(6):823–838
Tian JX, Yang HL, Xiang PG et al (2016) Drivers of agricultural carbon emissions in Hunan Province, China. Environ Earth Sci 75(2):1–17
Wang ZH, Yang YT (2016) Features and influencing factors of carbon emissions indictors in the perspective of residential consumption: evidence from Beijing, China. Ecol Indic 61:634–645
Wang ZH, Liu W, Yin JH (2015) Driving forces of indirect carbon emissions from household consumption in China: an input–output decomposition analysis. Nat Hazards 75(2):257–272
Xiao Y, Bai XM, Ouyang ZY, Zheng H, Xing FF (2007) The composition, trend and impact of urban solid waste in Beijing. Environ Monit Assess 135:21–23
Yan JN, Zhao T, Kang JD (2016) Sensitivity analysis of technology and supply change for CO2 emission intensity of energy-intensive industries based on input–output model. Appl Energy 171:456–467
Yang YY, Zhao T, Wang YN et al (2015) Research on impacts of population-related factors on carbon emissions in Beijing from 1984 to 2012. Environ Impact Assess Rev 55:45–53
Yu H, Pan SY, Tang BJ, Mi ZF, Zhang Y, Wei YM (2015) Urban energy consumption and CO2 emissions in Beijing: current and future. Energy Effic 8:527–543
Yuan HM (2007) How Beijing becomes the champion in energy saving and emission reduction. China Invest 8:79–86 (in Chinese)
Zhang CG, Nian J (2013) Panel estimation for transport sector CO2, emissions and its affecting factors: a regional analysis in China. Energy Policy 63(4):918–926
Zhang M, Mu HL, Ning YD (2009) Accounting for energy-related CO2 emission in China, 1991–2006. Energy Policy 37(3):767–773
Zhang N, Wang B, Liu Z (2016) Carbon emissions dynamics, efficiency gains, and technological innovation in China’s industrial sectors. Energy 99:10–19
Zhao M, Tan LR, Zhang WG, Ji M, Liu Y, Yu LZ (2010) Decomposing the influencing factors of industrial carbon emissions in Shanghai using the LMDI method. Energy 35(6):2505–2510
Acknowledgments
This study was funded by the Nation Natural Science Foundation of China (71373172), Social Science major projects of Chinese Ministry of Education (15JZD021) and the Ministry of Education of Humanities and Social Science Research Fund Plan (15YJA790091). The authors wish to thank Dr. Jidong Kang for his comments and suggestions. The authors also express their gratitude to postgraduate Yidi Wu (Northwestern University) and Nan Zhang (Peking University) for providing linguistic support.
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Zhao, L., Zhao, T. & Wang, Y. A multisectoral decomposition analysis of Beijing carbon emissions. Clean Techn Environ Policy 19, 565–575 (2017). https://doi.org/10.1007/s10098-016-1249-1
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DOI: https://doi.org/10.1007/s10098-016-1249-1