Abstract
Accompanying the rapid growth of China’s population and economy, energy consumption and carbon emission increased significantly from 1978 to 2012. China is now the largest energy consumer and CO2 emitter of the world, leading to much interest in researches on the nexus between energy consumption, carbon emissions and low-carbon economy. This article presents the domestic Chinese studies on this hotpot issue, and we obtain the following findings. First, most research fields involve geography, ecology and resource economics, and research contents contained some analysis of current situation, factors decomposition, predictive analysis and the introduction of methods and models. Second, there exists an inverted “U-shaped” curve connection between carbon emission, energy consumption and economic development. Energy consumption in China will be in a low-speed growth after 2035 and it is expected to peak between 6.19–12.13 billion TCE in 2050. China’s carbon emissions are expected to peak in 2035, or during 2020 to 2045, and the optimal range of carbon emissions is between 2.4–3.3 PgC/year (1 PgC=1 billion tons C) in 2050. Third, future research should be focused on global carbon trading, regional carbon flows, reforming the current energy structure, reducing energy consumption and innovating the low-carbon economic theory, as well as establishing a comprehensive theoretical system of energy consumption, carbon emissions and low-carbon economy.
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References
Andres R J, Marland G, Fung I et al., 1996. A 1 degrees x1 degrees distribution of carbon dioxide emissions from fossil fuel consumption and cement manufacture, 1950–1990. Global Biogeochemical Cycles, 10(3): 419–429.
Begum R A, Sohag K, Abdullah S M S et al., 2015. CO2 emissions, energy consumption, economic and population growth in Malaysia. Renewable and Sustainable Energy Reviews, 41: 594–601.
Bi Chao, 2015. Scheme and policies for peaking energy carbon emission in China. China Population Resources and Environment, 25(5): 20–27. (in Chinese)
Cansino J M, Sánchez-Braza A, Rodríguez-Arévalo M L, 2015. Driving forces of Spain’s CO2 emissions: A LMDI decomposition approach. Renewable and Sustainable Energy Reviews, 48: 749–759.
Cao Haixia, Zhang Fuming, 2010. Review of low carbon economy in China and abroad. Productivity Research, 3: 1–6. (in Chinese)
Chen Dehu, Zhang Jin, 2012. An empirical study of the environment Kuznets curve for China’s carbon emission: Based on spatial panel model. Statistics & Information Forum, 27(5): 48–53.
Cheng Hao, 2014. How to calculate the carbon emissions: IPCC national greenhouse gas inventory guide in 2006. China Statistics, 11: 28–30. (in Chinese)
Contestabile M, 2012. Sociology: Economic and emissions trends. Nature Climate Change, 2(10): 709–709.
Cui Jia, 2015. Study of driving factors and spatial driving types of carbon emission intensity in China [D]. Changchun: Jilin University. (in Chinese)
Du Jianli, Lin Zhenshan, Zhang Zhenzhen et al., 2009. Analysis on correlation of the increase of GDP and energy consumption in China based on empirical mode decomposition method. Progress in Geography, 28(1): 119–124. (in Chinese)
Fan J, Wang Q, Sun W, 2015. The failure of China’s Energy Development Strategy 2050 and its impact on carbon emissions. Renewable & Sustainable Energy Reviews, 49: 1160–1170.
Fu Xun, Ma Yonghuan, Liu Yijun et al., 2008. Development patterns of low carbon economy. China Population, Resources and Environment, 18(3): 14–19. (in Chinese)
Greening L A, Greene D L, Difiglio C, 2000. Energy efficiency and consumption: The rebound effect: A survey. Energy Policy, 28(6): 389–401.
Grossman G M, Krueger A B, 1991. Environmental impacts of a North American free trade agreement. National Bureau of Economic Research.
Grubb M, 2012. Emissions trading: Cap and trade finds new energy. Nature, 491(7426): 666–667.
Gu Chaolin, Tan Zongbo, Liu Wan et al., 2009. A study climate carbon emissions and low-carbon city planning. Urban Planning Forum, 3: 38–45. (in Chinese)
Guo Chaoxian, 2010. Decomposition of China’s carbon emissions based LMDI. China Population, Resources and Environment, 20(12): 4–9. (in Chinese)
He Jiankun, Liu Bin, 2004. Analysis of carbon emission intensity as the main index for greenhouse gas emission mitigation commitments. Journal of Tsinghua University (Science and Technology), 44(6): 740–743. (in Chinese)
Holtz-Eakin D, Selden T M, 1995. Stoking the fires? CO2 emissions and economic growth. Journal of Public Economics, 57(1): 85–101.
Hu Chuzhi, Huang Xianjin, Zhong Taiyang et al., 2008. Character of carbon emission in China and its dynamic development analysis. China Population, Resources and Environment, 18(3): 38–42. (in Chinese)
International Energy Agency, 2010. World Energy Outlook 2010. Paris: IEA.
International Energy Agency, 2013. CO2 emissions from fuel combustion highlights. Paris: IEA.
Kolstad C D, Krautkraemer J A, 1993. Natural resource use and the environment. Handbook of Natural Resource and Energy Economics, 3: 1219–1265.
Kuang Xinrui, 2009. A research on China’s economic development and CO2 emission [D]. Wuxi: Jiangnan University. (in Chinese)
Li Bo, Zhang Junbiao, Li Haipeng, 2011. Research on spatial-temporal characteristics and affecting factors decomposition of agricultural carbon emission in China. China Population, Resources and Environment, 21(8): 80–86. (in Chinese)
Li Xin, Wang Haibin, Chen Chaozhen et al., 2015. Inter-provincial discrepancy and spatiotemporal characteristics of carbon dioxide emission intensity from power energy consumption in China. Journal of Arid Land Resources and Environment, 29(1): 43–47. (in Chinese)
Lin B Q, Moubarak M, 2013. Decomposition analysis: change of carbon dioxide emissions in the Chinese textile industry. Renewable & Sustainable Energy Reviews, 26: 389–396.
Lin B Q, Wang X L, 2015. Carbon emissions from energy intensive industry in China: Evidence from the iron & steel industry. Renewable & Sustainable Energy Reviews, 47: 746–754.
Lin Jinhui, Liu Jun, 2011. Antidumping jumping FDI employment and welfare of the host country. On Economic Problems, 3: 37–40, 56. (in Chinese)
Liu Hongguang, Liu Weidong, 2009. Decomposition of energy-induced CO2 emissions in industry of China. Progress in Geography, 28(2): 285–292.
Liu Hui, Cheng Shengkui, Zhang Lei, 2002. The international latest research of the impacts of human activities on carbon emission. Progress in Geography, 21(5): 420–429.
Liu Lancui, Gan Lin, Cao Dong et al., 2009. Analysis and enlightenment from climate policies of major economies. Sino-Global Energy, 14(9): 1–8. (in Chinese)
Liu Litao, Shen Lei, 2011. Scenario analysis of energy zoning and function orientation on sustainable development of China. Journal of Natural Resources, 26(9): 1484–1495. (in Chinese)
Liu Weidong, Zhang Lei, Wang Limao et al., 2010. A sketch map of low-carbon economic development in China. Geographical Research, 29(5): 778–788.
Liu Zhixiong, 2011. The relationship between energy consumption, economic growth and carbon emissions in China. Coal Economic Research, 4: 37–41, 65. (in Chinese)
Makarov A A, Bashmakov I, 1991. An energy development strategy for the USSR: Minimizing greenhouse gas emissions. Energy Policy, 19(10): 987–994.
National Development and Reform Commission (NDRC), 2015. The 2015 Annual Report of China’s Response to Climate Change Policies and Action. Beijing.
Nulícek V, 1993. Possibilities of reduction of carbon dioxide emissions from energy processes in the Czech Republic. Energy Conversion and Management, 34(9): 753–774.
Ozturk I, Acaravci A, 2010. CO2 emissions, energy consumption and economic growth in Turkey. Renewable and Sustainable Energy Reviews, 14(9): 3220–3225.
Panayotou T, 1997. Demystifying the environmental Kuznets curve turning a black box into a policy tool. Environment and Development Economics, 2(4): 465–484.
Qin Dahe, 2014. Climate change science and sustainable development. Progress in Geography, 33(7): 874–883. (in Chinese)
Qu Shenning, Guo Chaoxian, 2010. Forecast of China’s carbon emission based on STIRPAT model. China Population, Resources and Environment, 20(12): 10–15. (in Chinese)
Ramachandra T V, 2012. Decentralized carbon footprint analysis for opting climate change mitigation strategies in India. Renewable & Sustainable Energy Reviews, 16(8): 5820–5833.
Shen L, Gao T M, Zhao J A et al., 2014. Factory-level measurements on CO2 emission factors of cement production in China. Renewable & Sustainable Energy Reviews, 34: 337–349.
Shen Lei, Liu Litao, Wang Limao et al., 2015. 2050 energy consumption projection for China. Journal of Natural Resources, 30(3): 361–373. (in Chinese)
Shen Lei, Xue Jingjing, 2011. Development path choice and strategy framework of China’s energy security. China Population, Resources and Environment, 21(10): 49–54. (in Chinese)
Song Deyong, Lu Zhongbao, 2009. The factor decomposition and periodic fluctuations of carbon emission in China. China Population, Resources and Environment, 19(3): 18–24. (in Chinese)
Song Dongfeng, 2010. Current situation of China’s low-carbon economy. Ecological Economy, 9: 85–87. (in Chinese)
Song Xiaohui, Zhang Yufen, Wang Yimei et al., 2012. Analysis of impacts of demographic factors on carbon emission based on the IPAT model. Research of Environmental Sciences, 25(1): 109–115. (in Chinese)
Sun Jianwei, Zhao Rongxin, Huang Xianjin et al., 2010. Research on carbon emission estimation and factor decomposition of China from 1995–2005. Journal of Natural Resources, 25(8): 1284–1295. (in Chinese)
Tunç G I, Türüt-Asik S, Akbostanci E, 2009. A decomposition analysis of CO2 emissions from energy use: Turkish case. Energy Policy, 37(11): 4689–4699.
Wang Qian, 2014. Research on the affecting factors of carbon emissions in Guangdong based on LMDI [D]. Guangzhou: Guangdong Academy of Social Sciences. (in Chinese)
Wang Saojian, Liu Yanyan, Fang Chuanglin, 2015. Review of energy-related CO2 emission in response to climate change. Progress in Geography, 34(2): 151–164. (in Chinese)
Wang Yuan, Zhao Lixia, Yu Xia et al., 2015. Carbon emission change of energy consumption and its stress evaluation on local climate change in Shanghai. Journal of Fudan University (Natural Science), 4: 439–448. (in Chinese)
Wu Hong, Gu Shuzhong, Guang Xingliang et al., 2013. Analysis on relationship between carbon emission from fossil energy consumption and economic growth in China. Journal of Natural Resources, 28(3): 381–390. (in Chinese)
Wu Hong, Gu Shuzhong, Zhou Hong et al., 2011. Relationship between energy consumption, carbon emissions and economic growth in Hebei province. Resources Science, 33(10): 1897–1905. (in Chinese)
Yan Qiongwei, Chen Hao, 2011. Research on the relationship between GDP and energy consumption. China Population, Resources and Environment, 21(7): 13–19. (in Chinese)
Yang Jian, Liu Huajun, 2012. Regional difference decomposition and influence factors of China’s carbon dioxide emissions. The Journal of Quantitative & Technical Economics, 5: 36–49, 148. (in Chinese)
Yang Wei, Wang Chengjin, Jin Fengjun et al., 2013. Decomposition of energy intensity change in industrial sub-sectors and its spatial-temporal variation in China. Journal of Natural Resources, 28(1): 81–91. (in Chinese)
Yang J, Chen B, 2014. Carbon footprint estimation of Chinese economic sectors based on a three-tier model. Renewable & Sustainable Energy Reviews, 29: 499–507.
Yue Chao, Wang Shaopeng, Zhu Jiangling et al., 2010. 2050 carbon emissions projection for China-carbon emission and social development. Acta Scientiarum Naturalium Universitatis Pekinensis, 46(4): 517–524. (in Chinese)
Zhang Li, Lei Jun, Zhang Xiaolei, 2012. Variations and influential factors of carbon emission of primary energy consumption in Xinjiang during the period 1952–2008. Resources Science, 34(1): 42–49. (in Chinese)
Zhang Weiyang, Duan Xuejun, 2012. The research progress in the relationship among economic growth, industrial structure, and carbon emissions. Progress in Geography, 31(4): 442–450. (in Chinese)
Zhang X P, Cheng X M, 2009. Energy consumption, carbon emissions, and economic growth in China. Ecological Economics, 68(10): 2706–2712.
Zhang Xu, Qi Tianyu, Zhang Da et al., 2015. Research focus and trend of energy development and climate change. Renewable Energy Resources, 8: 1214–1218. (in Chinese)
Zhang Y J, Da Y B, 2015. The decomposition of energy-related carbon emission and its decoupling with economic growth in China. Renewable & Sustainable Energy Reviews, 41: 1255–1266.
Zhang Z X, 2013. An analysis of China’s energy demand and supply policy framework. Wiley Interdisciplinary Reviews: Energy and Environment, 2(4): 422–440.
Zhao Aiwen, Li Dong, 2011. Co-integration and causal relationship between carbon emission and economic growth in China. Resources and Environment in the Yangtze Basin, 20(11): 1297–1303.
Zhao Jinwen, Fan Jitao, 2007. Empirical research on the inherent relationship between economy growth and energy consumption in China. Economic Research Journal, 8: 31–42. (in Chinese)
Zhao X T, Burnett J W, Fletcher J J, 2014. Spatial analysis of China province-level CO2 emission intensity. Renewable & Sustainable Energy Reviews, 33: 1–10.
Zhu Ling, Zhang Zhen, 2011. Decomposition analysis of carbon emission intensity in Shanghai city. Research of Environmental Sciences, 24(1): 20–26. (in Chinese)
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Foundation: National Natural Science Foundation of China, No.41271547; Strategic Priority Research Program–Climate Change: Carbon Budget and Related Issues of the Chinese Academy of Sciences, No.XDA05010400; National Natural Science Foundation of China, No.41401644
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Shen, L., Sun, Y. Review on carbon emissions, energy consumption and low-carbon economy in China from a perspective of global climate change. J. Geogr. Sci. 26, 855–870 (2016). https://doi.org/10.1007/s11442-016-1302-3
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DOI: https://doi.org/10.1007/s11442-016-1302-3