参考文献

[1]　秦大河，罗勇，陈振林，等.气候变化科学的最新进展：IPCC第四次评估综合报告解析[J].气候变化研究进展.2007,(06):311-314.

[2]　陈诗一.能源消耗、二氧化碳排放与中国工业的可持续发展[J].经济研究.2009,(04):41-55.

[3]　Zhang X P, Cheng X M. Energy consumption, carbon emissions, and economic growth in China[J].Ecological Economics.2009,68(10):2706-2712.

[4]　International Energy Agency(IEA). CO₂ Emissions from Fuel Combustion.France, OECD/IEA. http://www.eia.gov/environment/,2016-10-20.

[5]　董洁芳，王强，张小雷，王兴民.中国煤炭消费增长影响因素的多层次指数分解[J].中国科学院大学学报，2016，02：162-169.

[6]　Xu J H, Fleiter T, Fan Y, et al. CO₂, emissions reduction potential in China’s cement industry compared to IEA’s Cement Technology Roadmap up to 2050[J].Applied Energy.2014,130(1):592-602.

[7]　Lin B, Moubarak M, Ouyang X. Carbon dioxide emissions and growth of the manufacturing sector: Evidence for China[J].Energy.2014,76(C):830-837.

[8]　Zhu Y, Shi Y, Zheng W. How much CO₂, emissions will be reduced through industrial structure change if China focuses on domestic rather than international welfare?[J].Energy.2014,72(7):168-179.

[9]　Ouyang X L, Lin B Q. An analysis of the driving forces of energy-related carbon dioxide emissions in China’s industrial sector[J].Renewable and Sustainable Energy Reviews.2015:838–849.

[10]　庄贵阳.中国经济低碳发展的途径与潜力分析[J].太平洋学报.2005,(11):79-87.

[11]　鲍健强，苗阳，陈锋.低碳经济:人类经济发展方式的新变革[J].中国工业经济.2008,(4):153-160.

[12]　杨万东.低碳经济与经济结构的再调整[J].理论视野.2010,(02):35-36.

[13]　陈永国，褚尚军，聂锐.我国产业结构与碳排放强度的演进关系——基于“开口P型曲线”的解释[J].河北经贸大学学报.2013,34(2):54-59.

[14]　仲伟周，姜锋，万晓丽.我国产业结构变动对碳排放强度影响的实证研究[J].审计与经济研究.2015(06):88-96.

[15]　刘卫东.我国低碳经济发展框架与科学基础[M].北京:商务印书馆,2010.125-146.

[16]　中华人民共和国国务院新闻办公室.《中国应对气候变化的政策与行动白皮书》.PDF. http://www.gov.cn/zwgk/2008-10/29/content_1134378.htm.2016-10-25.

[17]　国家发展和改革委员会.《中国应对气候变化的政策与行动——2010年度报告》. http://qhs.ndrc.gov.cn/zcfg/201011/t20101126_467503.html.2016-11-05.

[18]　国家发展和改革委员会.《国家应对气候变化规划（2014-2020年）》.PDF. http://www.ndrc.gov.cn/zcfb/zcfbtz/201411/t20141104_642612.html.2016-12-14.

[19]　李炎亭.甘肃产业结构变动的碳排放效应研究(D).兰州:兰州大学,2015.

[20]　樊星.中国碳排放测算分析与减排路径选择研究(D).沈阳:辽宁大学,2013.

[21]　Murthy N S, Panda M, Parikh J. Economic growth, energy demand and carbon dioxide emissions in I ndia: 1990-2020[J].Environment and Development Economics.1997,2(2):173-193.

[22]　Lakshmanan T R, Han X. Factors underlying transportation CO₂, emissions in the U.S.A.: A decomposition analysis[J].Transportation Research Part D Transport & Environment.1997,2(1):1-15.

[23]　Yamamoto H, Yamaji K, Fujino J. Scenario analysis of bioenergy resources and CO₂, emissions with a global land use and energy model[J].Applied Energy.2000,66(4):325-337.

[24]　Lantz V, Feng Q. Assessing income, population, and technology impacts on CO₂, emissions in Canada: Where’s the EKC?[J].Ecological Economics.2006,57(2):229-238.

[25]　De Freitas L C, Kaneko S. Decomposition of CO₂ emissions change from energy consumption in Brazil: Challenges and policy implications[J].Energy Policy.2011,(3):1495-1504.

[26]　Wang C J, Chen J Z. Decomposition of energy-related CO₂ emission in China: 1957–2000[J].Energy.2005,30(1):73-83.

[27]　Zhang M, Mu H, Ning Y. Accounting for energy-related CO₂ emission in China, 1991–2006[J].Energy Policy.2009,(3):767-773.

[28]　林伯强，刘希颖.中国城市化阶段的碳排放:影响因素和减排策略[J].经济研究.2010,(08):66-78.

[29]　王铮，朱永彬.我国各省区碳排放量状况及减排对策研究[J].中国科学院院刊.2008,(02):109-115.

[30]　谭丹，黄贤金.我国东、中、西部地区经济发展与碳排放的关联分析及比较[J].中国人口.资源与环境.2008,(03):54-57.

[31]　赵敏，张卫国，俞立中.上海市能源消费碳排放分析[J].环境科学研究.2009,(08):984-989.

[32]　Geng Y, Zhao H, Liu Z, et al. Exploring driving factors of energy-related CO₂ emissions in Chinese provinces: A case of Liaoning[J].Energy Policy.2013,(60):820-826.

[33]　Tan X L, Dong D, Chen B, et al. China’s regional CO₂ emissions reduction potential: A study of Chongqing city [J].Applied Energy.2015,(162):1345-1354.

[34]　Lu Q, Yang H, Huang X, et al. Multi-sectoral decomposition in decoupling industrial growth from carbon emissions in the developed Jiangsu Province, China[J].Energy.2015,82:414-425.

[35]　李志强，王宝山.基于因素分解模型的二氧化碳排放影响因素分析——以山西为例[J].生产力研究.2010,(12):99-101.

[36]　赵先贵，肖玲，马彩虹，等.山西省碳足迹动态分析及碳排放等级评估[J].干旱区资源与环境.2014,28(9):21-26.

[37]　邓椿，师萍，董洁芳.基于Kaya恒等式的山西省碳排放影响因素实证研究[J].未来与发展.2015,(08):102-107+77.

[38]　Yao C, Chen C, Li M. Analysis of rural residential energy consumption and corresponding carbon emissions in China[J].Energy Policy.2012,(41):445-450.

[39]　Wang W W, Zhang M, Zhou M. Using LMDI method to analyze transport sector CO₂, emissions in China[J].Energy.2011,36(10):5909-5915.

[40]　Lin B, Ouyang X. Analysis of energy-related CO₂, (carbon dioxide) emissions and reduction potential in the Chinese non-metallic mineral products industry[J].Energy.2014,68(8):688-697.

[41]　尹娟娟，袁进.山西省重点行业碳排放特征及低碳发展策略[J].环境与可持续发展.2014,(03):140-143.

[42]　陶玉国，黄震方，史春云.基于替代式自下而上法的区域旅游交通碳排放测度[J].生态学报.2015,(12):4224-4233.

[43]　Liu X, Ma S, Tian J, et al. A system dynamics approach to scenario analysis for urban passenger transport energy consumption and CO₂, emissions: A case study of Beijing[J].Energy Policy.2015,85:253-270.

[44]　Almulali U, Fereidouni H G, Mohammed A H. The effect of tourism arrival on CO₂ emissions from transportation sector.[J].Anatolia.2014,26(2):230-243.

[45]　徐昔保，陈爽，杨桂山.长三角地区城市居民出行交通碳排放特征与影响机理[J].长江流域资源与环境.2014,23(08):1064-1071.

[46]　宁晓菊，张金萍，秦耀辰，等.郑州城市居民交通碳排放的时空特征[J].资源科学.2014,36(05):1021-1028.

[47]　张清，陶小马，杨鹏.特大型城市客运交通碳排放与减排对策研究[J].中国人口.资源与环境.2012,22(01):35-42.

[48]　马静，柴彦威，刘志林.基于居民出行行为的北京市交通碳排放影响机理[J].地理学报.2011,66(08):1023-1032.

[49]　肖潇，张捷，卢俊宇，等.旅游交通碳排放的空间结构与情景分析[J].生态学报.2012,32(23):7540-7548.

[50]　曹小曙，杨文越，黄晓燕.基于智慧交通的可达性与交通出行碳排放——理论与实证[J].地理科学进展.2015,34(04):418-429.

[51]　朱勤，彭希哲，陆志明，等.中国能源消费碳排放变化的因素分解及实证分析[J].资源科学.2009,31(12):2072-2079.

[52]　徐国泉，刘则渊，姜照华.中国碳排放的因素分解模型及实证分析:1995-2004[J].中国人口.资源与环境.2006,16(06):158-161.

[53]　李健，周慧.中国碳排放强度与产业结构的关联分析[J].中国人口.资源与环境.2012,22(01):7-14.

[54]　魏芸.基于碳排放的重庆产业结构调整研究(D).重庆:重庆大学,2013.

[55]　李雪.我国碳排放与产业结构关联的分析与对策[J].工业技术经济.2014,(1):154-160.

[56]　胡初枝，黄贤金，钟太洋，等.中国碳排放特征及其动态演进分析[J].中国人口.资源与环境.2008,18(03):38-42.

[57]　王薇.城市化、产业结构与碳排放的动态关系研究——基于VAR模型的实证分析[J].生态经济.2014,30(11):28-35.

[58]　王雪娜，顾凯平.中国碳源排碳量估算办法研究现状[J].环境科学与管理.2006,31(04):78-80.

[59]　王微，林剑艺，崔胜辉，等.碳足迹分析方法研究综述[J].环境科学与技术.2010,33(07):71-78.

[60]　王铮，朱永彬，刘昌新，等.最优增长路径下的中国碳排放估计[J].地理学报.2010,65(12):1559-1568.

[61]　黄蕊，王铮，刘慧雅，等.中国中部六省的碳排放趋势研究[J].经济地理.2012,32(07):12-17.

[62]　王静.山西省农田生态系统碳源汇问题分析[D].西安:西北农林科技大学,2009.

[63]　王宁.山西森林生态系统碳密度分配格局及碳储量研究[D].北京:北京林业大学,2014.

[64]　Liu Z, Guan D, Wei W, et al. Reduced carbon emission estimates from fossil fuel combustion and cement production in China[J].Nature.2015,524(7565):335-8.

[65]　Kraft J, Priegerkraft A, Kraft. CL. On the Relationship between Energy and GNP[J].Journal of Energy and Development.1978,(2):401-403.

[66]　Dietz T, Rosa E A. Effects of population and affluence on CO₂ emissions[J].Proceedings of the National Academy of Sciences of the United States of America.1997,94(1):175-9.

[67]　Yu E S H, Hwang B K. The relationship between energy and GNP: Further results[J].Energy Economics.1984,6(3):186-190.

[68]　Erol U, Yu E S H. On the causal relationship between energy and income for industrialized countries[J].Journal of Energy Finance & Development.1988,13(1):113-122.

[69]　Soytas U, Sari R, Ewing B T. Energy consumption, income, and carbon emissions in the United States[J].Ecological Economics.2007,62(3):482-489.

[70]　Masih A M M, Masih R. Energy consumption, real income and temporal causality: Results from a multi-country study based on cointegration and errorcorrection modeling techniques[J].Energy Economics.1996,18(3):165-183.

[71]　张兆响，廖先玲，王晓松.中国煤炭消费与经济增长的变结构协整分析[J].资源科学,2008,30(9):1282-1289.

[72]　Quadrelli R, Peterson S. The energy–climate challenge: Recent trends in CO₂ emissions from fuel combustion[J].Energy Policy.2007,35(11):5938-5952.

[73]　Ghosh S. Examining carbon emissions economic growth nexus for India: A multivariate cointegration approach[J].Energy Policy.2010,(6):3008-3014.

[74]　Choi J K, Bakshi B R, Haab T. Effects of a carbon price in the U.S. on economic sectors, resource use, and emissions: An input–output approach[J].Energy Policy.2010,38(7):3527-3536.

[75]　Al-Mulali U. Factors affecting CO₂, emission in the Middle East: A panel data analysis[J].Energy.2012,44(1):564-569.

[76]　Al-Mulali U, Che N B C S. The impact of energy consumption and CO₂, emission on the economic growth and financial development in the Sub Saharan African countries[J].Energy.2012,39(1):180-186.

[77]　Al-Mulali U, Che N B C S. The impact of energy consumption and CO₂, emission on the economic and financial development in 19 selected countries[J].Renewable & Sustainable Energy Reviews,2012,16(7):4365-4369.

[78]　Soimakallio S, Saikku L. CO₂ emissions attributed to annual average electricity consumption in OECD (the Organisation for Economic Co-operation and Development) countries[J].Energy.2012,(1):13-20.

[79]　胡彩梅，韦福雷.OECD国家能源消费、经济增长与碳排放关系研究[J].统计与信息论坛.2011,26(4):64-71.

[80]　Hamit-Haggar M. Greenhouse gas emissions, energy consumption and economic growth: A panel cointegration analysis from Canadian industrial sector perspective[J].Energy Economics,2012,34(1):358-364.

[81]　何建坤，刘滨.作为温室气体排放衡量指标的碳排放强度分析[J].清华大学学报(自然科学版).2004,44(6):740-743.

[82]　王中英，王礼茂.中国经济增长对碳排放的影响分析[J].安全与环境学报.2006,6(05):88-91.

[83]　孙建卫，赵荣钦，黄贤金，等.1995-2005年中国碳排放核算及其因素分解研究[J].自然资源学报.2010(8):1284-1295.

[84]　Zhang Y J. The impact of financial development on carbon emissions: An empirical analysis in China[J].Energy Policy.2010,39(4):2197-2203.

[85]　Wang S S, Zhou D Q, Zhou P, et al. CO₂, emissions, energy consumption and economic growth in China: A panel data analysis[J].Energy Policy.2011,39(9):4870-4875.

[86]　Li H, Mu H, Zhang M, et al. Analysis on influence factors of China’s CO₂, emissions based on Path–STIRPAT model[J].Energy Policy,2011,39(11):6906-6911.

[87]　彭佳雯，黄贤金，钟太洋，等.中国经济增长与能源碳排放的脱钩研究[J].资源科学.2011,33(04):626-633.

[88]　吕品，彭勇，胡剑锋.中国碳排放增长的宏观因素及可持续增长模式选择[J].浙江理工大学学报.2011,28(02):271-276.

[89]　刘志雄.我国能源消费、经济增长与碳排放的关系研究[J].煤炭经济研究.2011,(04):37-41.

[90]　廖华，魏一鸣.“十二五”中国能源和碳排放预测与展望[J].中国科学院院刊.2011,26(02):150-153.

[91]　Zhu Q, Peng X, Wu K. Calculation and decomposition of indirect carbon emissions from residential consumption in China based on the input–output model[J].Energy Policy.2012,48(3):618-626.

[92]　Guo R, Cao X, Yang X, et al. The strategy of energy-related carbon emission reduction in Shanghai[J].Energy Policy.2010,38(1):633-638.

[93]　Hong X. The Calculation of Carbon Emissions of Shandong Province and the Comparison with the National Average[J].Energy Procedia.2011,5(22):1514-1518.

[94]　Sun X, Min Z, Ming Z. Empirical Study on the Relationship between Economic Growth and Carbon Emissions in Resource-dependent Cities Based on Vector Autoregression Model[J].Energy Procedia.2011,5(7):2461-2467.

[95]　Ma C, Ju M T, Zhang X C, et al. Energy consumption and carbon emissions in a coastal city in China[J].Procedia Environmental Sciences.2011,4(10):1-9.

[96]　王铮，翟石艳，马晓哲.河南省能源消费碳排放的历史特征及趋势预测[J].地域研究与开发.2010,29(6):69-74.

[97]　刘竹，耿涌，薛冰，等.中国低碳试点省份经济增长与碳排放关系研究[J].资源科学.2011,33(04):620-625.

[98]　姚亮，刘晶茹.中国八大区域间碳排放转移研究[J].中国人口·资源与环境.2010,20(12):16-19.

[99]　刘明磊，朱磊，范英.我国省级碳排放绩效评价及边际减排成本估计:基于非参数距离函数方法[J].中国软科学,2011(3):106-114.

[100]　黄蕊，刘昌新，熊文，等.福建省的碳排放趋势与对策[J].亚热带资源与环境学报.2011,06(1):15-25.

[101]　李忠民，庆东瑞.经济增长与二氧化碳脱钩实证研究——以山西省为例[J].福建论坛(人文社会科学版).2010,(2):67-72..

[102]　刘传江，章铭，黄桂然.山西省产业增长与碳排放的脱钩关系[J].技术经济.2012,31(12):63-67.

[103]　Grossman G M, Krueger A B. Environmental Impacts of a North American Free Trade Agreement[J].Social Science Electronic Publishing.1991,8(2):223-250.

[104]　Poumanyvong P, Kaneko S. Does urbanization lead to less energy use and lower CO₂, emissions? A cross-country analysis[J].Ecological Economics,2010,70(2):434-444.

[105]　Zhang C, Lin Y. Panel estimati on for urbanization, energy consumption and CO₂ emissions: A regional analysis in China[J].Energy Policy.2012,49(10):488-498.

[106]　Shahbaz M, Tiwari A K, Nasir M. The effects of financial development, economic growth, coal consumption and trade openness on CO₂, emissions in South Africa[J].Energy Policy.2013,61(10):1452-1459.

[107]　Al-Mulali U, Fereidouni H G, Lee J Y M, et al. Exploring the relationship between urbanization, energy consumption, and CO₂, emission in MENA countries[J].Renewable & Sustainable Energy Reviews.2013,23(4):107-112.

[108]　Govindaraju V G R C, Tang C F. The dynamic links between CO₂, emissions, economic growth and coal consumption in China and India[J].Applied Energy.2013,104(2):310-318.

[109]　Zhang C, Nian J. Panel estimation for transport sector CO₂ emissions and its affecting factors: A regional analysis in China[J].Energy Policy.2013,63(4):918-926.

[110]　Yu S, Zhang J, Zheng S, et al. Provincial carbon intensity abatement potential estimation in China: A PSO–GA-optimized multi-factor environmental learning curve method[J].Energy Policy.2015,(77):46-55.

[111]　Xu B, Lin.B. How industrialization and urbanization process impacts on CO₂ emissions in China: Evidence from nonparametric additive regression models[J].Energy Economics.2015,48:188-202.

[112]　Aydin G. The Development and Validation of Regression Models to Predict Energy-related CO₂ Emissions in Turkey[J].Energy Sources, Part B: Economics, Planning and Policy.2015,(2):176-182.

[113]　Ang B W, Zhang FQ. A survey of index decomposition analysis in energy and environmental studies[J].Energy.2000,(12):1149-1176.

[114]　Zhang M, Mu H, Ning.Y, et al. Decomposition of energy-related CO₂ emission over 1991–2006 in China[J].Ecological Economics.2009,(7):2122-2128.

[115]　Zhang M, Li H, Zhou M, et al. Decomposition analysis of energy consumption in Chinese transportation sector[J].Applied Energy.2011,88(6):2279-2285.

[116]　Xu J H, Fleiter T, Eichhammer W, et al. Energy consumption and CO₂, emissions in China’s cement industry: A perspective from LMDI decomposition analysis[J].Energy Policy.2012,50(50):821-832.

[117]　Inglesi-Lotz R, Pouris A. Energy efficiency in South Africa: A decomposition exercise[J].Energy.2012,42(1):113-120.

[118]　Hasanbeigi A, Price L, Fino-Chen C, et al. Retrospective and prospective decomposition analysis of Chinese manufacturing energy use and policy implications[J].Energy Policy.2013,63(6):562-574.

[119]　Su Y, Chen X, Li Y, et al. China's 19-year city-level carbon emissions of energy consumptions, driving forces and regionalized mitigation guidelines[J].Renewable & Sustainable Energy Reviews.2014,35(C):231-243.

[120]　Wang S, Fang C, Guan X, et al. Urbanisation, energy consumption, and carbon dioxide emissions in China: A panel data analysis of China’s provinces[J].Applied Energy.2014,136(C):738-749.

[121]　Xu S C, He Z X, Long R Y. Factors that influence carbon emissions due to energy consumption in China: Decomposition analysis using LMDI[J].Applied Energy.2014,127(6):182–193.

[122]　Lin B, Moubarak M. Renewable energy consumption–Economic growth nexus for China[J].R enewable & Sustainable Energy Reviews.2014,40(C):111-117.

[123]　Xie S C. The driving forces of China's energy use from 1992 to 2010: An empirical study of input–output and structural decomposition analysis[J].Energy Policy.2014,73(C):401-415.

[124]　Komal R, Abbas F. Linking financial development, economic growth and energy consumption in Pakistan[J].Renewable & Sustainable Energy Reviews.2015,44(44):211-220.

[125]　Zhang Y J, Da Y B. The decomposition of energy-related carbon emission and its decoupling with economic growth in China[J].Renewable and Sustainable Energy Reviews.2015,41:1255-1266.

[126]　Chang Y F, Lin S J. Structural decomposition of industrial CO₂, emission in Taiwan: an input-output approach[J].Energy Policy.1998,26(26):5-12.

[127]　Chang Y F, Lewis C, Lin S J. Comprehensive evaluation of industrial CO₂ emission (1989–2004) in Taiwan by input–output structural decomposition[J].Energy Policy,2008,36(7):2471-2480.

[128]　Tian X, Chang M, Tanikawa H, et al. Structural decomposition analysis of the carbonization process in Beijing: A regional explanation of rapid increasing carbon dioxide emission in China[J].Energy Policy.2013,53(1):279-286.

[129]　Zhou P, Ang B W. Decomposition of aggregate CO₂ emissions: A production-theoretical approach[J].Energy Economics.2008,30(3):1054-1067.

[130]　Zhang X P, Tan Y K, Tan Q L, et al. Decomposition of aggregate CO₂ emissions within a joint production framework[J].Energy Economics.2012,34(4):1088-1097.

[131]　Zhang Y J, Da Y B. Decomposing the changes of energy-related carbon emissions in China: evidence from the PDA approach[J].Natural Hazards.2013,69(1):1109-1122.

[132]　Sun J W. Changes in energy consumption and energy intensity: A complete decomposition model[J].Energy Economics.1998,20(1):85-100.

[133]　Paul S, Bhattacharya R N. CO₂ emission from energy use in India: a decomposition analysis[J].Energy Policy.2004,32(5):585-593.

[134]　Kumbaroğlu G. A sectoral decomposition analysis of Turkish CO₂ emissions over 1990–2007[J].Energy.2011,36(5):2419-2433.

[135]　Ang B W, Choi K H. Decomposition of Aggregate Energy and Gas Emission Intensities for Industry: A Refined Divisia Index Method[J].Energy Journal.1997,18(3):59-73.

[136]　Ang B W, Zhang F Q, Choi K H. Factorizing changes in energy and environmental indicators through decomposition[J].Energy.1998,23(6):489-495.

[137]　Ang B W, Liu F L. A new energy decomposition method: perfect in decomposition and consistent in aggregation[J].Energy.2001,26(6):537-548.

[138]　Ang B W, Liu F L, Chew E P. Perfect decomposition techniques in energy and environmental analysis[J].Energy Policy.2003,31(14):1561-1566.

[139]　Akbostancı E, Tunç G İ, Türüt-Aşık S. CO₂ emissions of Turkish manufacturing industry: A decomposition analysis[J].Applied Energy.2011,88(6):2273-2278.

[140]　Jeong K, Kim S. LMDI decomposition analysis of greenhouse gas emissions in the Korean manufacturing sector[J].Energy Policy.2013,62(9):1245-1253.

[141]　Malla S. CO₂ emissions from electricity generation in seven Asia-Pacific and North American countries: A decomposition analysis[J].Energy Policy.2009,37(1):1-9.

[142]　Tadhg O’Mahony, Peng Zhou, John Sweeney. The driving forces of change in energy-related CO₂ emissions in Ireland: A multi-sectoral decomposition from 1990 to 2007[J].Energy Policy.2012,44(5):256-267.

[143]　Tokimatsu K, Kosugi T, Asami T, et al. Evaluation of lifecycle CO₂ emissions from the Japanese electric power sector in the 21st century under various nuclear scenarios[J].Energy Policy.2006,34(7):833-852.

[144]　冯相昭，王雪臣，陈红枫.1971-2005年中国CO₂排放影响因素分析[J].气候变化研究进展.2008,4(1):42-47.

[145]　Duro J A. Decomposing international polarization of per capita CO₂ emissions[J].Energy Policy.2010,38(11):6529-6533.

[146]　孙才志，谢巍，邹玮.中国水资源利用效率驱动效应测度及空间驱动类型分析[J].地理科学.2011,31(10):1213-1220.

[147]　Zhao M, Tan L, Zhang W, et al. Decomposing the influencing factors of industrial carbon emissions in Shanghai using the LMDI method[J].Energy.2010,35(6):2505-2510.

[148]　岳婷，龙如银.基于LMDI的江苏省能源消费总量增长效应分析[J].资源科学.2010,32(7):1266-1271.

[149]　Baležentis A, Baležentis T, Streimikiene D. The energy intensity in Lithuania during 1995–2009: A LMDI approach[J].Energy Policy.2011,39(11):7322-7334.

[150]　González P F, Landajo M, Presno M J. Tracking European Union CO₂ emissions through LMDI (logarithmic-mean Divisia index) decomposition. The activity revaluation approach[J].Energy.2014,73(7):741-750.

[151]　孙耀华，仲伟周.基于LMDI的能源富集地区碳排放影响因素研究[J].软科学.2014,28(6):131-135.

[152]　Moutinho V, Moreira A C, Silva P M. The driving forces of change in energy-related CO₂ emissions in Eastern, Western, Northern and Southern Europe: The LMDI approach to decomposition analysis[J].Renewable & Sustainable Energy Reviews.2015,50:1485-1499.

[153]　Jung S, An K J, Dodbiba G, et al. Regional energy-related carbon emission characteristics and potential mitigation in eco-industrial parks in South Korea: Logarithmic mean Divisia index analysis based on the Kaya identity[J].Energy.2012,46(1):231-241.

[154]　Branger F, Quirion P. Reaping the carbon rent: Abatement and overallocation profits in the European cement industry, insights from an LMDI decomposition analysis[J].Energy Economics.2015,47:189-205.

[155]　Cansino J M, Sánchez-Braza A, Rodríguez-Arévalo M L. Driving forces of Spain's CO₂ emissions: A LMDI decomposition approach[J].Renewable & Sustainable Energy Reviews,2015,48:749-759.

[156]　郭朝先.中国碳排放因素分解:基于LMDI分解技术[J].中国人口资源与环境.2010,20(12):4-9.

[157]　汪宏韬.基于LMDI的上海市能源消费碳排放实证分析[J].中国人口.资源与环境.2010,(S2):143-146.

[158]　田云，李波，张俊飚.武汉市碳排放的测算及影响因素分解研究[J].地域研究与开发.2011,30(5):88-92.

[159]　孙志威，廖红英，宋雨燕.基于对数平均迪氏指数法的天津市能源消费碳排放分解分析[J].环境污染与防治.2011,33(1):83-86.

[160]　朱聆，张真.上海市碳排放强度的影响因素解析[J].环境科学研究.2011,24(1):20-26.

[161]　Wang W, Liu R, Zhang M, et al. Decomposing the decoupling of energy-related CO₂ emissions and economic growth in Jiangsu Province[J].Energy for Sustainable Development.2013,17(1):62-71.

[162]　Song J, Song Q, Dong Z, et al. Study on Influencing Factors of Carbon Emissions from Energy Consumption of Shandong Province of China from 1995 to 2012[J].International Journal of Global Energy Issues.2014,(1):174-175.

[163]　Zhang L, Lei J, Zhou X, et al. Changes in carbon dioxide emissions and LMDI-based impact factor decomposition: the Xinjiang Uygur autonomous region as a case[J].Journal of Arid Land.2014,6(2):145-155.

[164]　王长建，张利，王强，等.1990-2009年山东能源消费的碳排放动态演进分析[J].中国科学院大学学报.2012,29(4):469-475.

[165]　苟少梅，王长建，张利，等.1990-2010年广东省能源消费的碳排放驱动因素分析[J].热带地理.2012,32(4):389-394.

[166]　Guo B, Geng Y, Franke B, et al. Uncovering China’s transport CO₂ emission patterns at the regional level[J].Energy Policy,2014,74(74):134-146.

[167]　国涓，刘长信.中国工业部门的碳排放:影响因素及减排潜力[J].Journal of Resources and Ecology(资源与生态学报英文版).2013,33(2):132-140.

[168]　潘佳佳，李廉水.中国工业二氧化碳排放的影响因素分析[J].环境科学与技术.2011,34(4):86-92.

[169]　Martı́Nez-Zarzoso I, Bengochea-Morancho A. Pooled mean group estimation of an environmental Kuznets curve for CO₂[J].Economics Letters.2004,82(1):121-126.

[170]　Wagner M. The carbon Kuznets curve: A cloudy picture emitted by bad econometrics?[J].Resource & Energy Economics.2008,30(3):388-408.

[171]　Ozturk I, Acaravci A. CO₂ emissions, energy consumption and economic growth in Turkey[J].Renewable and Sustainable Energy Reviews.2010,14(9):3220-3225.

[172]　邵帅，杨莉莉，曹建华.工业能源消费碳排放影响因素研究——基于STIRPAT模型的上海分行业动态面板数据实证分析[J].财经研究.2010,36(11):16-27.

[173]　Pereira A M, Rui M M P. Is fuel-switching a no-regrets environmental policy? VAR evidence on carbon dioxide emissions, energy consumption and economic performance inPortugal[J].Energy Economics.2010,32(1):227-242.

[174]　Bloch H, Rafiq S, Salim R. Coal consumption, CO₂ emission and economic growth in China: Empirical evidence and policy responses[J].Energy Economics.2012,34(2):518-528.

[175]　李江苏，张雷，程晓凌.中国碳排放增长机理分析[J].资源科学.2010,32(11):2059-2065.

[176]　尹向飞.人口、消费、年龄结构与产业结构对湖南碳排放的影响及其演进分析——基于STIRPAT模型[J].西北人口.2011,32(2):65-69.

[177]　杨振.中国能源消费碳排放影响因素分析[J].环境科学与管理.2010,35(11):38-40,61.

[178]　徐丽娜.城镇化进程中山西省碳排放量影响因素分析及预测研究[D].天津:天津大学,2014.

[179]　张雷.经济发展对碳排放的影响[J].地理学报.2003,58(4):629-637.

[180]　许广月.我国碳排放影响因素及其区域比较研究:基于省域面板数据[J].财经论丛(浙江财经大学学报).2011,2011(2):14-18.

[181]　尚梅.我国能源消费影响因素与地区差异研究[D].西安:西安科技大学,2011.

[182]　魏梅，曹明福，江金荣.生产中碳排放效率长期决定及其收敛性分析[J].数量经济技术经济研究.2010,(9):43-52.

[183]　Ang J B. CO₂ emissions, energy consumption, and output in France[J].Energy Policy.2007,35(10):4772-4778.

[184]　Apergis N, Payne J E. CO₂ emissions, energy usage, and output in Central America[J].Energy Policy.2009,37(8):3282-3286.

[185]　Jalil A, Mahmud S F. Environment Kuznets curve for CO₂ emissions: A cointegration analysis for China[J].Energy Policy.2009,37(12):5167-5172.

[186]　Friedl B, Getzner M. Determinants of CO₂ emissions in a small open economy[J].Ecological Economics.2003,45(1):133.

[187]　宋涛，郑挺国，佟连军.基于面板协整的环境库兹涅茨曲线的检验与分析[J].中国环境科学.2007,27(4):572-576.

[188]　杜婷婷，毛锋，罗锐.中国经济增长与CO₂排放演化探析[J].中国人口.资源与环境.2007,17(2):94-99.

[189]　任重，周云波.环渤海地区的经济增长与工业废气污染问题研究[J].中国人口.资源与环境.2009,19(2):63-68.

[190]　许广月，宋德勇.中国碳排放环境库兹涅茨曲线的实证研究——基于省域面板数据[J].中国工业经济,2010,(5):37-47.

[191]　刘慧，成升魁，张雷.人类经济活动影响碳排放的国际研究动态[J].地理科学进展.2002,21(5):420-429.

[192]　曲福田，卢娜，冯淑怡.土地利用变化对碳排放的影响[J].中国人口.资源与环境.2011,21(10):76-83.

[193]　Houghton R A, Hackler J L. Emissions of carbon from forestry and land-use change in tropical Asia[J].Global Change Biology.1999,5(4):481–492.

[194]　Pacala S W. Consistent land-and atmosphere-based U.S.carbon sink estimates[J].Science.2001,292(5525):2316-2320.

[195]　李晓兵.国际土地利用-土地覆盖变化的环境影响研究[J].地球科学进展.1999,14(4):395-400.

[196]　方精云，郭兆迪，朴世龙，等.1981～2000年中国陆地植被碳汇的估算[J].中国科学:地球科学.2007,37(6):804-812.

[197]　Pelletier J, Kirby K R, Potvin C. Significance of carbon stock uncertainties on emission reductions from deforestation and forest degradation in developing countries[J].Forest Policy & Economics.2010,24(8):3-11.

[198]　Özilgena M, Sorgüven E.. Energy and exergy utilization, and carbon dioxide emission in vegetable oil production[J].Energy.2011,36(10):5954-5967.

[199]　Li W, Ou Q, Chen Y. Decomposition of China’s CO₂ emissions from agriculture utilizing an improved Kaya identity[J].Environ Sci Pollut Res Int.2014.21(22):13000-13006.

[200]　Lin S J, Lu I, Lewis C, et al. Identifying key factors and strategies for reducing industrial CO₂ emissions from a non-Kyoto protocol member’s (Taiwan) perspective[J].Energy Policy.2006,34(13):1499-1507.

[201]　刘红光，刘卫东.中国工业燃烧能源导致碳排放的因素分解[J].地理科学进展.2009,28(2):285-292.

[202]　岳超，胡雪洋，贺灿飞，等.1995-2007年我国省区碳排放及碳强度的分析——碳排放与社会发展Ⅲ[J].北京大学学报(自然科学版).2010,46(4):510-516.

[203]　Shahbaz M, Farhani S, Ozturk I. Do coal consumption and industrial development increase environmental degradation in China and India?[J].Environmental Science and Pollution Research.2015,22(5):3895-907.

[204]　董军，张旭.中国工业部门能耗碳排放分解与低碳策略研究[J].资源科学.2010,32(10):1856-1862.

[205]　Sheinbaum C, Ozawa L, Castillo D. Using logarithmic mean Divisia index to analyze changes in energy use and carbon dioxide emissions in Mexico’s iron and steel industry[J].Energy Economics.2010,32(6):1337-1344.

[206]　Sheinbaum-Pardo C, Mora-Pérez S, Robles-Morales G. Decomposition of energy consumption and CO₂, emissions in Mexican manufacturing industries: Trends between 1990 and 2008[J].Energy for Sustainable Development.2012,16(1):57–67.

[207]　Tian Y, Zhu Q, Geng Y. An analysis of energy-related greenhouse gas emissions in the Chinese iron and steel industry[J].Energy Policy.2013,56(2):352-361.

[208]　Peng L, Zeng X, Wang Y, et al. Analysis of energy efficiency and carbon dioxide reduction in the Chinese pulp and paper industry[J].Energy Policy.2015,80:65-75.

[209]　Zhang C, Liu. C. The impact of ICT industry on CO₂ emissions: A regional analysis in China[J].Renewable and Sustainable Energy Reviews.2015,44(44):12-19.

[210]　Rehan R, Nehdi M. Carbon dioxide emissions and climate change: policy implications for the cement industry[J].Environmental Science and Policy.2005,8(2):105-114.

[211]　徐盈之，胡永舜.中国制造业部门碳排放的差异分析:基于投入产出模型的分解研究[J].软科学.2011,25(04):69-75.

[212]　潘雄锋，舒涛，徐大伟.中国制造业碳排放强度变动及其因素分解[J].中国人口.资源与环境.2011,21(05):101-105.

[213]　张明志.我国制造业细分行业的碳排放测算——兼论EKC在制造业的存在性[J].软科学.2015,29(09):113-116.

[214]　Chang T C, Lin S J. Grey relation analysis of carbon dioxide emissions from industrial production and energy uses in Taiwan[J].Journal of Environmental Management.1999,56(4):247-257.

[215]　路正南，王志诚.我国工业碳排放效率的行业差异及动态演进研究[J].科技管理研究.2015,(06):230-235.

[216]　张艳芳，位贺杰.西安市工业内部碳排放的拉动效应与空间分异[J].生态与农村环境学报.2015,31(03):293-300.

[217]　刘红光，刘卫东，唐志鹏.中国产业能源消费碳排放结构及其减排敏感性分析[J].地理科学进展.2010,29(06):670-676.

[218]　Alcántara V, Padilla.E. Input–output subsystems and pollution: An application to the service sector and CO₂ emissions in Spain[J].Ecological Economics.2009,68(3):905-914.

[219]　Okamoto S. Impacts of Growth of a Service Economy on CO₂ Emissions: Japan’s Case[J].Journal of Economic Structures.2013,2(1):8.

[220]　Xu B, Lin B. Factors affecting carbon dioxide(CO₂) emissions in China’s transport sector: a dynamic nonparametric additive regression model[J].Journal of Cleaner Production.2015,101:311-322.

[221]　Kelly J, Williams P W. Modelling Tourism Destination Energy Consumption and Greenhouse Gas Emissions: Whistler, British Columbia, Canada[J].Journal of Sustainable Tourism.2007,15(1):67-90.

[222]　Weber C L, Matthews H S. Quantifying the global and distributional aspects of American household carbon footprint[J].Ecological Economics.2008,66(2-3):379-391.

[223]　Biesiot W, Noorman K J. Energy requirements of household consumption: a case study of The Netherlands[J].Ecological Economics.1999,28(3):367-383.

[224]　Wei Y M, Liu L C, Fan Y, et al. The impact of lifestyle on energy use and CO₂ emission: An empirical analysis of China’s residents[J].Energy Policy.2007,35(1):247-257.

[225]　Casler S D, Rose A. Carbon Dioxide Emissions in the U.S. Economy: A Structural Decomposition Analysis[J].Environmental and Resource Economics.1998,11(3):349-363.

[226]　Schipper L, Murtishaw S, Khrushch M, et al. Carbon emissions from manufacturing energy use in 13 IEA countries: long-term trends through 1995[J].Energy Policy.2001,29(9):667-688.

[227]　赵欣，龙如银.江苏省碳排放现状及因素分解实证分析[J].中国人口.资源与环境.2010,20(07):25-30.

[228]　Han X, Chatterjee.L. Impacts of growth and structural change on CO₂ emissions of developing countries[J].World Development.1997,25(3):395-407.

[229]　Torvanger A. Manufacturing sector carbon dioxide emissions in nine OECD countries, 1973–87: A Divisia index decomposition to changes in fuel mix, emission coefficients, industry structure, energy intensities and international structure[J].Energy Economics.1991,13(3):168-186.

[230]　刘再起，陈春.低碳经济与产业结构调整研究[J].国外社会科学.2010,(3):21-27.

[231]　许广月.碳排放收敛性:理论假说和中国的经验研究[J].数量经济技术经济研究.2010,(9):31-42.

[232]　赵荣钦，黄贤金，钟太洋.中国不同产业空间的碳排放强度与碳足迹分析[J].地理学报.2010,65(9):1048-1057.

[233]　陈诗一，严法善，吴若沉.资本深化、生产率提高与中国二氧化碳排放变化——产业、区域、能源三维结构调整视角的因素分解分析[J].财贸经济.2010,(12):111-119.

[234]　张雷，李艳梅，黄园淅，等.中国结构节能减排的潜力分析[J].中国软科学.2011,26(02):42-51.

[235]　虞义华，郑新业，张莉.经济发展水平、产业结构与碳排放强度——中国省级面板数据分析[J].经济理论与经济管理.2011,3(3):72-81.

[236]　Du L, Wei C, Cai S. Economic development and carbon dioxide emissions in China: Provincial panel data analysis[J].China Economic Review.2012,23(2):371–384.

[237]　吴振信，谢晓晶，王书平.经济增长、产业结构对碳排放的影响分析——基于中国的省际面板数据[J].中国管理科学.2012,20(3):161-166..

[238]　丁志国，程云龙，孟含琪.碳排放、产业结构调整与中国经济增长方式选择[J].吉林大学社会科学学报.2012,(5):90-97.

[239]　郭朝先.产业结构变动对中国碳排放的影响[J].中国人口.资源与环境.2012,22(7):15-20.

[240]　Zhou X, Zhang.J, Li J. Industrial structural transformation and carbon dioxide emissions in China[J].Energy Policy.2013,57(3):43-51.

[241]　梁云，郑亚琴.产业升级对环境库兹涅茨曲线的影响——基于中国省际面板数据的实证研究[J].经济问题探索,2014,(6):74-79..

[242]　韩坚，盛培宏.产业结构、技术创新与碳排放实证研究——基于我国东部15个省市面板数据[J].上海经济研究.2014,(8):67-74.

[243]　李宾，周俊，田银华.全球外部性视角下的碳排放与产业结构变迁[J].资源科学.2014,36(12):2483-2490.

[244]　Mao G, Dai X, Wang Y, et al. Reducing carbon emissions in China: Industrial structural upgrade based on system dynamics[J].Energy Strategy Reviews.2013,2(2):199-204.

[245]　Chang N. Changing industrial structure to reduce carbon dioxide emissions: a Chinese application[J].Journal of Cleaner Production.2014,103:40-48.

[246]　帅通，袁雯.上海市产业结构和能源结构的变动对碳排放的影响及应对策略[J].长江流域资源与环境.2009,18(10):885-889.

[247]　刘春兰，陈操操，陈群，等.1997年至2007年北京市二氧化碳排放变化机理研究[J].资源科学.2010,32(2):235-241.

[248]　吴彼爱，高建华，徐冲.基于产业结构和能源结构的河南省碳排放分解分析[J].经济地理.2010,30(11):1902-1907.

[249]　段莹.产业结构高度化对碳排放的影响——基于湖北省的实证[J].统计与决策.2010(23):94-95.

[250]　贾君君，张艳芳.陕西产业碳排放与结构高级化的低碳效应[J].陕西师范大学学报(自然科学版).2012,40(04):83-88.

[251]　朱妮，张艳芳.陕西省能源消费结构、产业结构演变对碳排放强度的冲击影响分析[J].干旱区地理.2015,38(04):843-850.

[252]　秦翊，侯莉.广东能源消费碳排放影响因素分解分析——基于LMDI方法[J].科技管理研究.2013,33(12):224-227.

[253]　王长建.新疆碳排放过程与影响机制研究[D].北京:中国科学院大学博士论文,2014.

[254]　赵会宁，于维洋.低碳视角下的河北省产业结构调整与优化研究[J].河北经贸大学学报.2013,34(03):75-77.

[255]　徐成龙，任建兰，巩灿娟.产业结构调整对山东省碳排放的影响[J].自然资源学报.2014,29(02):201-210.

[256]　王媛，贾皎皎，赵鹏，等.LMDI方法分析结构效应对天津市碳排放的影响及对策[J].天津大学学报(社会科学版).2014,(6):509-514.

[257]　庆东瑞.山西省低碳经济分部门脱钩指标建构与评估[D].西安:陕西师范大学,2010.

[258]　刘富.基于低碳思路的山西产业结构优化分析[D].太原:山西财经大学,2014.

[259]　中华人民共和国国家统计局设管司.三次产业划分规定.http://www.stats.gov.cn/tjsj/tjbz/201301/t20130114_8675.html.2016-12-27.

[260]　中华人民共和国国家统计局.国民经济行业分类与代码.http://www.stats.gov.cn/tjsj/tjbz/hyflbz/.2016-11-27.

[261]　孙起生.基于低碳经济的县域产业结构优化研究[D].北京:北京交通大学,2010.

[262]　李玉凤.黑龙江省产业结构优化及仿真[D].哈尔滨:哈尔滨理工大学,2009.

[263]　周振华.产业结构优化论[M].上海:上海人民出版社.1992.156-242.

[264]　杨安.FDI与产业结构优化升级的相关性研究[D].济南:山东大学,2013.

[265]　张立厚，陈鸣中.产业结构优化的系统仿真及其信息需求分析[J].图书情报知识.2000,(4):31-33.

[266]　Department of Trade and Industry. UK energy white paper: Our energy future-creating a low carbon economy[R].London.2003.

[267]　张坤民，潘家华，崔大鹏.低碳经济论(精)[M].北京:环境科学出版社,2009.56-85.

[268]　车维汉.“雁行形态”理论及实证研究综述[J].经济学动态.2004,(11):102-106.

[269]　王乐平.赤松要及其经济理论[J].日本学刊.1990,(3):117-126.

[270]　张乃丽.雁行形态理论研究新进展[J].经济学动态.2007,(8):86-91.

[271]　Heidari H, Katircioğlu S T, Saeidpour L. Economic growth, CO₂ emissions, and energy consumption in the five ASEAN countries[J].International Journal of Electrical Power & Energy Systems.2015,64:785-791.

[272]　张富明，刘瑞祥，程过富.山西生态环境:问题与对策研究[J].山西师大学报(社会科学版).2007,34(6):65-69.

[273]　任力军.山西产业投资结构变迁:1950-2010[D].太原:山西大学,2015.

[274]　中共山西省委.山西省人民政府关于调整产业结构的实施意见[J].山西经济年鉴.1996,(1):13-15.

[275]　山西省人民政府.山西省人民政府关于加快服务业发展的实施意见[J].太原市人民政府公报.2008,(8):1-10.

[276]　杨坚白.关于山西煤炭能源基地建设的几个问题[J].经济问题.1980,(6):1-4.

[277]　IPCC. Climate Change 2014: Synthesis Report. Contribution of Working Groups I, II and III to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. IPCC, Geneva, Switzerland, 151.

[278]　Dong J, Wang Q, Deng C, et al. How to Move China toward a Green-Energy Economy: From a Sector Perspective[J].Sustainability.2016,8(4):337.

[279]　董洁芳.邓椿.新疆碳排放与能源效率、产业结构动态计量关系研究[J].资源与产业.2015,(05):22-29.

[280]　Song R, Yang S, Sun M. GHG protocol tool for energy consumption in China (Version 2.1).World resources institute.

[281]　Liu Z, Geng Y, Lindner S, et al. Uncovering China’s greenhouse gas emission from regional and sectoral perspectives[J].Energy.2012,45(1):1059-1068.

[282]　Dong J F, Deng C, Wang X M, et al. Multilevel Index Decomposition of Energy-Related Carbon Emissions and Their Decoupling from Economic Growth in Northwest China[J].Energies,2016,9(9):680.

[283]　山西省人民政府.山西省人民政府转发省煤炭工业厅（局）关于继续整顿小煤矿的实施意见的通知.发布文号:晋政发[1995]77号.

[284]　董洁芳，王强，王兴民，等.山西省煤炭消费需求影响因素的实证研究[J].中国科学院大学学报.2016,33(5):641-650.

[285]　梁琳琳，卢启程.基于碳夹点分析的中国能源结构优化研究[J].资源科学.2015,37(2):0291-0298.

[286]　Jiang X T, Dong J F, Wang X M, et al. The Multilevel Index Decomposition of Energy-Related Carbon Emission and Its Decoupling with Economic Growth in USA[J].Sustainability.2016,8(9):857.

[287]　Zhao Y, Li H, Zhang Z, et al. Decomposition and scenario analysis of CO₂ emissions in China’s power industry: based on LMDI method[J].Natural Hazards Journal of the International Society for the Prevention & Mitigation of Natural Hazards,2017:1-24.

[288]　Kim S.LMDI Decomposition Analysis of Energy Consumption in the Korean Manufacturing Sector[J].Sustainability.2017,9(2):202.

[289]　Ehrlich P R, Holdren J P. Impact of population growth.[J].Science.1971,171(3977):1212-1217.

[290]　York R, Rosa E A, Dietz T. STIRPAT, IPAT and ImPACT: analytic tools for unpacking the driving forces of environmental impacts[J].Ecological Economics.2003,46(3):351-365.

[291]　霍金炜，杨德刚，汪菲，等.基于因果和岭回归的新疆人口结构与CO₂排放关系分析[J].中国科学院大学学报.2015,32(3):333-341.

[292]　Dong J F, Deng C, Li R, et al. Moving Low-Carbon Transportation in Xinjiang: Evidence from STIRPAT and Rigid Regression Models[J].Sustainability.2017,9(1):24.

[293]　王群伟，周德群.中国全要素能源效率变动的实证研究[J].系统工程.2008,26(7):74-80.

[294]　杨良杰，吴威，苏勤，等.基于SBM-Undesirable模型的1997-2010年中国公路运输效率评价[J].地理科学进展.2013,32(11):1602-1611.

[295]　唐德才，汤杰新，马婷玉.中国环境规制效率与全要素生产率研究——基于SBM-Undesirable和DEA-Malmquist模型的解释[J].干旱区资源与环境.2016,30(11):7-12.

[296]　成刚.数据包络分析方法与MaxDEA软件[M].北京:知识产权出版社,2014.62-65.

[297]　尹建华，赵慎泽.基于DEA的我国省际工业部门全要素能源效率分析[J].兵工学报.2009,30(S1):191-196.

[298]　杨清可，段学军，叶磊，等.基于SBM-Undesirable模型的城市土地利用效率评价——以长三角地区16城市为例[J].资源科学.2014,36(4):712-721.

[299]　Goldsmith R.W., A Perpetual Inventory of National Wealth. 1951: National Bureau of Economic Research, Inc.5-74.

[300]　赵志耘，杨朝峰.中国全要素生产率的测算与解释:1979-2009年[J].财经问题研究.2011,(9):3-12.

[301]　宗刚，牛钦玺，迟远英.京津冀地区能源消费碳排放因素分解分析[J].生态科学.2016,(2):1-7.

[302]　Fetanat A, Shafipour G. A hybrid method of LMDI, symmetrical components, and SFA to estimate the distribution of energy-saving potential with consideration of unbalanced components in decomposition analysis[J].Energy Efficiency.2017:1-19.

[303]　张明志.我国制造业细分行业的碳排放测算——兼论EKC在制造业的存在性[J].软科学.2015,29(9):113-116.

[304]　Brock W A, Taylor M S. The Green Solow model[J].Journal of Economic Growth.2010,15(2):127-153.

[305]　Durlauf S N, Kourtellos A, Minkin A. The local Solow growth model. Eur Econ Rev[J].European Economic Review.2001,45(4-6):928-940.

[306]　Lantz V, Feng Q. Assessing income, population, and technology impacts on CO₂ emissions in Canada: Where’s the EKC?[J].Ecological Economics.2006,57(2):229-238.

[307]　Stefanski R L. Essays on structural transformation in international economics[J].Dissertations & Theses-Gradworks. University of Minnesota.2009.

[308]　赵秀娟，张捷.基于绿色索洛模型的产业结构变动对碳排放影响——以广东省为例的实证研究[J].产经评论.2015,6(3):38-53.

[309]　张攀，吴建南.政府干预、资源诅咒与区域创新——基于中国大陆省级面板数据的实证研究[J].科研管理.2017,(1):62-69.

[310]　GDP deflator (base year varies by country) WorldBank.http://data.worldbank.org/indicator/NY.GDP.DEFL.ZS?view=chart.2017-1-13.

[311]　中华人民共和国国务院《全国资源型城市可持续发展规划.（2013-2020）》http://www.gov.cn/zwgk/2013-12/03/content_2540070.htm.2017-1-19.

[312]　宋周莺，刘卫东.西部地区产业结构优化路径分析[J].中国人口.资源与环境.2013,23(10):31-37.

[313]　李艳梅，张红丽.城市化对家庭CO₂排放影响的区域差异——基于中国省级面板数据的分析[J].资源科学.2016,38(3):545-556.

[314]　朱平辉，袁加军，曾五一.中国工业环境库兹涅茨曲线分析——基于空间面板模型的经验研究[J].中国工业经济,2010,(6):65-74..

[315]　李文启.金融发展、能源消费与经济增长关系研究——基于动态面板数据的分析[J].生态经济.2015,31(1):70-74.

[316]　Wang S, Zhou C, Li G, et al. CO₂ economic growth, and energy consumption in China’s provinces: Investigating the spatiotemporal and econometric characteristics of China’s CO₂ emissions[J].Ecological Indicators.2016,69:184-195.