国际贸易隐含碳研究现状与展望——基于1994~2017年文献计量分析
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摘要
近年来,国际贸易隐含碳已经成为国内外学术界关注的焦点。合理测算国际贸易隐含碳有助于世界各国制定可行性能源环境政策及建设性的国际气候变化谈判策略,进而合理划分碳排放责任。本文旨在对这一领域国内外研究进展进行梳理分析。全文以1994~2017年Web of Science与CNKI数据库为研究对象,从文献计量分析视角对国际贸易隐含碳研究文献进行总量及特征分析;评述了国际贸易隐含碳研究领域的热点问题及关于中国的研究现状;展望了该领域未来进一步的研究方向,构建多国多区域投入产出模型测算国际贸易隐含碳与加工出口贸易隐含碳相关议题将是该领域未来主要的研究方向。
The carbon emission embodied in international trade has been the popular research topic recently. Measuring the carbon emission embodied in international trade reasonably is good for the constructive energy and environmental policy,strategies during international climate change negotiation,and differentiating the carbon responsibilities worldwide. Based on the database of Web of Science and CNKI,this paper firstly does a quantitatively aggregate analysis of the literature on the carbon emission embodied in international trade. Secondly,discusses the hot topics in this field and same issues on China. Some possible future works are released finally. Building the Multi-country multi-regional IO model to calculate the carbon emission embodied in trade and emission embodied in processing trade are the main directions in the future.
The carbon emission embodied in international trade has been the popular research topic recently. Measuring the carbon emission embodied in international trade reasonably is good for the constructive energy and environmental policy,strategies during international climate change negotiation,and differentiating the carbon responsibilities worldwide. Based on the database of Web of Science and CNKI,this paper firstly does a quantitatively aggregate analysis of the literature on the carbon emission embodied in international trade. Secondly,discusses the hot topics in this field and same issues on China. Some possible future works are released finally. Building the Multi-country multi-regional IO model to calculate the carbon emission embodied in trade and emission embodied in processing trade are the main directions in the future.
引文
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(1)根据《2006年IPCC国家温室气体清单指南》可知:化石能源消费产生CO2计算公式为:CO2=化石燃料消耗量×低位发热量×碳排放因子×碳氧化率×碳转换系数(12/44)。
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[13]谢来辉,陈迎.碳泄漏问题评析[J].气候变化研究进展,2007,4(4):214~218.
[14] Andres R J T A B,G Marland. Annual Fossil-Fuel CO2Emissions:Global Stable Carbon Isotopic Signature[M]. Carbon Dioxide Information Analysis Center,Oak Ridge National Laboratory,US Department of Energy,USA,2013:30~33.
[15] Atkinson G,Hamilton K,Ruta G,et al. Trade in ‘Virtual Carbon’:Empirical Results and Implications for Policy[J].Global Environmental Change,2011,21(2):563~574.
[16] Chen Z,Chen G. Embodied Carbon Dioxide Emission at Supranational Scale:A Coalition Analysis for G7,BRIC,and the Rest of the World[J]. Energy Policy,2011,39(5):2899~2909.
[17] Peters G P,Hertwich E G. Pollution Embodied in Trade:The Norwegian Case[J]. Global Environmental Change,2006,16(4):379~387.
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[20] Sato M. Embodied Carbon in Trade:A Survey of the Empirical Literature[J]. Journal of Economic Surveys,2014,28(5):831~861.
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[22] Peters G P. Carbon Footprints and Embodied Carbon at Multiple Scales[J]. Current Opinion in Environmental Sustainability,2010,2(4):245~250.
[23] Peters G P,Hertwich E G. CO2Embodied in International Trade with Implications for Global Climate Policy[J]. Environmental Science&Technology,2008,42(5):1401~1407.
[24] Hertwich E G,Peters G P. Carbon Footprint of Nations:A Global,Trade-linked Analysis[J]. Environmental Science&Technology,2009,43(16):6414~6420.
[25]赵玉焕,王淞.基于技术异质性的中日贸易隐含碳测算及分析[J].北京理工大学学报(社会科学版),2014:10~13.
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[27] Wiedmann T. A Review of Recent Multi-region Input-output Models Used for Consumption-based Emission and Resource Accounting[J]. Ecological Economics, 2009, 69(2):211~222.
[28]魏本勇,王媛,杨会民,等.国际贸易中的隐含碳排放研究综述[J].世界地理研究,2010,19(2):138~147.
[29]赵玉焕.国际贸易中隐含碳研究综述[J].黑龙江对外经贸,2011,(7):22~25.
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[31] Van Raan A F. The Pandora's Box of Citation Analysis:Measuring Scientific Excellence, the Last Evil[J]. The Web of Knowledge:A Festschrift in Honor of Eugene Garfield,2000:301~319.
[32] Gu Y. Global Knowledge Management Research:A Bibliometric Analysis[J]. Scientometrics,2004,61(2):171~190.
[33] Mao G,Liu X,Du H,et al. Way Forward for Alternative Energy Research:A Bibliometric Analysis During 1994~2013[J].Renewable and Sustainable Energy Reviews,2015,48:276~286.
[34] Montoya F G,Montoya M G,Gomez J,et al. The Research on Energy in Spain:A Scientometric Approach[J]. Renewable&Sustainable Energy Reviews,2014,29:173~183.
[35] Zhang L,Wang M H,Hu J,et al. A Review of Published Wetland Research,1991~2008:Ecological Engineering and Ecosystem Restoration[J]. Ecological Engineering, 2010, 36(8):973~980.
[36] Zhang K,Wang Q,Liang Q-M,et al. A Bibliometric Analysis of Research on Carbon Tax from 1989 to 2014[J]. Renewable and Sustainable Energy Reviews,2016,58:297~310.
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(1)根据《2006年IPCC国家温室气体清单指南》可知:化石能源消费产生CO2计算公式为:CO2=化石燃料消耗量×低位发热量×碳排放因子×碳氧化率×碳转换系数(12/44)。