[1] |
SATO M. Embodied carbon in trade:a survey of the empirical literature[J]. Journal of Economic Surveys,2014,28(5):831-861. |
[2] |
马风涛,段治平. 基于TiVA数据库的中国出口贸易增加值研究[J]. 经济与管理评论,2015,31(2):100-105. |
[3] |
韩中. 全球价值链视角下中国总出口的增加值分解[J]. 数量经济技术经济研究,2016,33(9):129-144. |
[4] |
JIANG X,LIU Y. Global value chain,trade and carbon:case of information and communication technology manufacturing sector[J]. Energy for Sustainable Development,2015(7):1-7. |
[5] |
KOOPMAN R,WANG Z,WEI S J. Tracing value-added and double counting in gross exports[J]. American Economic Review,2014(104):459-494. |
[6] |
张文城,盛斌. 中国出口的环境成本:基于增加值出口污染强度的分析[J]. 数量经济技术经济研究,2017,34(8):105-119. |
[7] |
SU B,ANG B W. Multi-region comparisons of emission performance:the structural decomposition analysis approach[J]. Ecological Indicators,2016(67):78-87. |
[8] |
卫瑞,张文城,张少军. 全球价值链视角下中国增加值出口及其影响因素[J]. 数量经济技术经济研究,2015(7):3-20. |
[9] |
祝坤福,陈锡康,杨翠红. 中国出口的国内增加值及其影响因素分析[J]. 国际经济评论,2013(7):116-127. |
[10] |
LI J S,CHEN G Q,CHEN B,et al. The impact of trade on fuel-related mercury emissions in Beijing-evidence from three-scale input-output analysis[J]. Renewable and Sustainable Energy Reviews,2017(75):742-752. |
[11] |
LIU Y,CHEN S,CHEN B,et al. Analysis of CO2emission embodied in China's bilateral trade:a non-competitive import input-output approach[J]. Journal of Cleaner Production,2016(163):410-419. |
[12] |
WU R,GENG Y,DONG H,et al. Changes of CO2emissions embodied in China-Japan trade:drivers and implications[J]. Journal of Cleaner Production,2016(112):4145-4158. |
[13] |
ZHAO Y H,WANG S,ZHANG Z H,et al. Driving factors of carbon emissions embodied in China-US trade:a structural decomposition analysis[J]. Journal of Cleaner Production,2016(131):678-689. |
[14] |
WIOD. World input-output tables,2013[R/OL].(2013).http:www.wiod.org/release13. |
[15] |
LINDEN G,KRAEME K L,DEDRICK J. Who captures value in a global innovation network?the case of apple's iPod[J]. Communications of the Acm,2007,52(3):140-144. |
[16] |
HUMMELS D,ISHⅡ J,YI K M. The nature and growth of vertical specialization in world trade[J]. Journal of international Economics,2001,54(1):75-96. |
[17] |
王岚. 融入全球价值链对中国制造业国际分工地位的影响[J]. 统计研究,2014(5):17-23. |
[18] |
刘维林. 中国式出口的价值创造之谜:基于全球价值链的解析[J]. 世界经济,2015(3):3-28. |
[19] |
周升起,兰珍先,付华. 中国制造业在全球价值链国际分工地位再考察——基于Koopman等的"GVC地位指数"[J]. 国际贸易问题,2014(2):3-12. |
[20] |
高敬峰. 中国出口贸易利得测算与行业差异分析[J]. 经济评论,2011(4):124-132. |
[21] |
江希,刘似臣. 中国制造业出口增加值及影响因素的实证研究——以中美贸易为例[J]. 国际贸易问题,2014(11):89-98. |
[22] |
YE M,MENG B,WEI S J. Measuring smile curves in global value chains[R/OL]. Institute of Developing Economics.(2015-08-01). |
[23] |
赵玉焕,刘月. 基于投入产出法的中国出口产品隐含碳测算[J]. 中国人口·资源与环境,2011(12):8-14. |
[24] |
黄敏,蒋琴儿. 外贸中隐含碳的计算及其变化的因素分解[J]. 上海经济研究,2010(3):68-76. |
[25] |
赵玉焕,李洁超. 基于技术异质性的中美贸易隐含碳问题研究[J]. 中国人口·资源与环境,2013(12):28-34. |
[26] |
胡剑波,郭风. 中国进出口产品中的隐含碳污染贸易条件变化研究[J]. 国际贸易问题,2017(10):109-118. |
[27] |
WEITZEL M,MA T. Emissions embodied in Chinese exports taking into ac-count the special export structure of China[J]. Energy Economics,2014(45):45-52. |
[28] |
XIA Y,FAN Y,YANG C. Assessing the impact of foreign content in China's exports on the carbon outsourcing hypothesis[J]. Applied Energy,2015(150):296-307. |
[29] |
XU Y,DIETZENBACHER E. A structural decomposition analysis of the emissions embodied in trade[J]. Ecological Economy,2014(101):10-20. |
[30] |
SRRRANO M,DIETZENBACHER E. Responsibility and trade emission balances:an evaluation of approaches[J]. Ecological Economy,2010(69):2224-2232. |
[31] |
SU B,ANG B W. Multiplicative decomposition of aggregate carbon intensity changing using input-output analysis[J]. Applied Energy,2015(154):13-20. |
[32] |
SU B,ANG B W. Structural decomposition analysis applied to energy and emissions:some methodological developments[J]. Energy Economics. 2012(69):2224-2232. |
[33] |
ANG B W. LMDI decomposition approach:a guide for implementation[J]. Energy Policy,2015,86:233-238. |
[34] |
ZHAO Y,LIU Y,ZHANG Z,et al. CO2emissions per value added in exports of China:a comparison with USA based on generalized logarithmic mean divisia index decomposition[J]. Journal of Cleaner Production,2017(144):287-298. |