[1]Cui Xinlei,Wang Yanrong,Ma Yanru.Dynamic Evolution of Carbon Reduction—Pollution Reduction—Green Expansion—Economic Growth Coupling Coordination and Its Influencing Factors in the Yellow River Basin[J].Research of Soil and Water Conservation,2024,31(04):275-287.[doi:10.13869/j.cnki.rswc.2024.04.018]
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Dynamic Evolution of Carbon Reduction—Pollution Reduction—Green Expansion—Economic Growth Coupling Coordination and Its Influencing Factors in the Yellow River Basin

References:
[1]陈明华,岳海珺,郝云飞,等.黄河流域生态效率的空间差异、动态演进及驱动因素[J].数量经济技术经济研究,2021,38(9):25-44.
Chen M H, Yue H J, Hao Y F, et al. The spatial disparity, dynamic evolution and driving factors of ecological efficiency in the Yellow River Basin[J]. Journal of Quantitative & Technical Economics, 2021,38(9):25-44.
[2]方传棣,成金华,赵鹏大.大保护战略下长江经济带矿产-经济-环境耦合协调度时空演化研究[J].中国人口·资源与环境,2019,29(6):65-73.
Fang C D, Cheng J H, Zhao P D. Temporal and spatial evolution of mineral-economic-environment coordination degree in the Yangtze River Economic Belt under the Great Protection Strategy[J]. China Population, Resources and Environment, 2019,29(6):65-73.
[3]于法稳,方兰.黄河流域生态保护和高质量发展的若干问题[J].中国软科学,2020(6):85-95.
Yu F W, Fang L. Issues regarding the ecological protection and high-quality development of Yellow River Basin[J]. China Soft Science, 2020(6):85-95.
[4]冯薇,赵荣钦,谢志祥,等.碳中和目标下土地利用碳排放效率及其时空格局:以黄河流域72个地级市为例[J].中国土地科学,2023,37(1):102-113.
Feng W, Zhao R Q, Xie Z X, et al. Land use carbon emission efficiency and its spatial-temporal pattern under carbon neutral target:A case study of 72 cities in the Yellow River Basin[J]. China Land Science, 2023,37(1):102-113.
[5]徐辉,王亿文,张宗艳,等.黄河流域水-能源-粮食耦合机理及协调发展时空演变[J].资源科学,2021,43(12):2526-2537.
Xu H, Wang Y W, Zhang Z Y, et al. Coupling mechanism of water-energy-food and spatiotemporal evolution of coordinated development in the Yellow River Basin[J]. Resources Science, 2021,43(12):2526-2537.
[6]张雪薇,杜凤莲,申晓燕,等.黄河流域经济-能源-生态-科技耦合协调发展时空格局及其影响因素[J].安全与环境学报,2023,23(7):2545-2556.
Zhang X W, Du F L, Shen X Y, et al. Coupling coordination development and spatial differentiation of economy-energy-ecology-science and technology in the Yellow River Basin[J]. Journal of Safety and Environment, 2023,23(7):2545-2556.
[7]张学良,贾文星,吴胜男.黄河流域高质量发展的时空跃迁及驱动因素分析[J].中国人口科学,2022(3):72-85,127-128.
Zhang X L, Jia W X,Wu S N. Research on the temporal-spatial transition and driving mechanism of high-quality development in the Yellow River Basin[J]. Chinese Journal of Population Science, 2022(3):72-85, 127-128.
[8]苗长虹,张佰发.黄河流域高质量发展分区分级分类调控策略研究[J].经济地理,2021,41(10):143-153.
Miao C H, Zhang B F. Regulation strategy of zoning-gradation-classification for high-quality development in the Yellow River Basin[J]. Economic Geography, 2021,41(10):143-153.
[9]石涛.黄河流域生态保护与经济高质量发展耦合协调度及空间网络效应[J].区域经济评论,2020(3):25-34.
Shi T. Spatial correlation network and regional connected effect of coupling coordination degree between ecological protection and high-quality economic development in the Yellow River regions[J]. Regional Economic Review, 2020(3):25-34.
[10]魏敏,李书昊.新时代中国经济高质量发展水平的测度研究[J].数量经济技术经济研究,2018,35(11):3-20.
Wei M, Li S H. Study on the measurement of economic high-quality development level in China in the new era[J]. The Journal of Quantitative & Technical Economics, 2018,35(11):3-20.
[11]韩梦涛,涂建军,徐桂萍,等.黄河流域水域生态系统服务与经济发展时空协调性[J].中国沙漠,2021,41(4):167-176.
Han M T, Tu J J, Xu G P, et al. Spatio-temporal coordination between aquatic ecosystem services and economic development in the Yellow River Basin[J]. Journal of Desert Research, 2021,41(4):167-176.
[12]Tollefsen P, Rypdal K, Torvanger A, et al. Air pollution policies in Europe:Efficiency gains from integrating climate effects with damage costs to health and crops[J]. Environmental Science & Policy, 2009,12(7):870-881.
[13]刘杰,刘紫薇,焦珊珊,等.中国城市减碳降霾的协同效应分析[J].城市与环境研究,2019,6(4):80-97.
Liu J, Liu Z W, Jiao S S, et al. Co-effect of CO2 mitigation and PM2.5 control in Chinese cities[J]. Urban and Environmental Studies, 2019,6(4):80-97.
[14]王兆峰,李竹,吴卫.长江经济带不同等级城市碳排放的时空演变及其影响因素[J].环境科学研究,2022,35(10):2273-2281.
Wang Z F, Li Z, Wu W. Spatio-temporal evolution and influencing factors of carbon emissions in different grade cities in the Yangtze River economic belt[J]. Research of Environmental Sciences, 2022,35(10):2273-2281.
[15]郑航,叶阿忠.空间关联网络结构特征的减排效应:基于城市群视角[J].环境科学,2022,43(10):4401-4407.
Zheng H, Ye A Z. Carbon emission reduction effect of spatial correlation network structure characteristics:From the perspective of urban agglomeration[J]. Environmental Science, 2022,43(10):4401-4407.
[16]Burtraw D, Krupnick A, Palmer K, et al. Ancillary benefits of reduced air pollution in the US from moderate greenhouse gas mitigation policies in the electricity sector[J]. Journal of Environmental Economics and Management, 2003,45(3):650-673.
[17]Liu J Y, Woodward R T, Zhang Y J. Has carbon emissions trading reduced PM2.5 in China[J]. Environmental Science & Technology, 2021,55(10):6631-6643.
[18]Yang X, Teng F. Air quality benefit of China's mitigation target to peak its emission by 2030[J]. Climate Policy, 2018,18(1):99-110.
[19]Gu A L, Teng F, Feng X Z. Effects of pollution control measures on carbon emission reduction in China:Evidence from the 11th and 12th Five-Year Plans[J]. Climate Policy, 2018,18(2):198-209.
[20]郑石明,何裕捷,邹克.气候政策协同:机制与效应[J].中国人口·资源与环境,2021,31(8):1-12.
Zheng S M, He Y J, Zou K. Climate policy synergy:Mechanism and effect[J]. China Population,Resources and Environment, 2021,31(8):1-12.
[21]Wang B, Wang Y F, Zhao Y Q. Collaborative governance mechanism of climate change and air pollution:Evidence from China[J]. Sustainability, 2021,13(12):6785.
[22]贾洪文,樊树钢.黄河流域绿色金融与经济高质量发展耦合协调研究[J].生态经济,2023,39(10):89-98.
Jia H W, Fan S G. Study on the coupling and coordination of green finance and high quality economic development in the Yellow River Basin[J]. Ecological Economy, 2023,39(10):89-98.
[23]李荣杰,李娜,张静,等.地区能源结构低碳化差异的收敛机制及影响因素:基于加权多维向量夹角指数[J].统计与信息论坛,2020,35(10):90-99.
Li R J, Li N, Zhang J, et al. Regional differences convergence of low-carbon energy structure and influencing factors:Based on weighted multi-dimensional vector angle[J]. Statistics & Information, 2020,35(10):90-99.
[24]刘建国,张文忠.中国区域全要素生产率的空间溢出关联效应研究[J].地理科学,2014,34(5):522-530.
Liu J G, Zhang W Z. The spatial spillover effects of regional total factor productivity in China[J]. Scientia Geographica Sinica, 2014,34(5):522-530.
[25]姚洋,崔静远.中国人力资本的测算研究[J].中国人口科学,2015(1):70-78,127.
Yao Y, Cui J Y. Estimation of China's human capital stock[J]. Chinese Journal of Population Science, 2015(1):70-78,127.
[26]张康洁,于法稳,李福夺.中国农村信息化、农业产业化与乡村生态化耦合协调发展[J].中国人口·资源与环境,2023,33(6):182-195.
Zhang K J, Yu F W, Li F D. Coupling coordinated development of rural informatization, agricultural industrialization, and rural ecologicalization in China[J]. China Population, Resources and Environment, 2023,33(6):182-195.
[27]张永姣,丁少斌,方创琳.中国数字经济产业发展的时空分异及空间收敛性分析:基于企业大数据的考察[J].经济地理,2023,43(3):120-130.
Zhang Y J, Ding S B, Fang C L. Spatiotemporal variation and spatial convergence of China's digital economy industry development:Based on the big data of enterprise[J]. Economic Geography, 2023,43(3):120-130.
[28]黄纪强,祁毓.环境税能否倒逼产业结构优化与升级:基于环境“费改税”的准自然实验[J].产业经济研究,2022(2):1-13.
Huang J Q, Qi Y. Can environmental taxes force industrial structure optimization and upgrading:A quasi-natural experiment based on environmental “Fee to Tax”[J]. Industrial Economics Research, 2022(2):1-13.
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