| 1,387 | 3 | 54 |
| 下载次数 | 被引频次 | 阅读次数 |
探析城市绿色创新效率与生态韧性的耦合协调关系对推动黄河流域生态保护和高质量发展具有重要的现实意义。利用Super-SBM模型和熵权法分别测算黄河流域78个城市2010—2020年的绿色创新效率与生态韧性水平,并利用修正耦合协调度模型、Tobit回归模型进一步分析两者耦合协调发展的时空演变特征及影响因素。结果表明:(1)2010—2020年黄河流域城市绿色创新效率与生态韧性均呈现出随时间演化而波动上升态势,但发展水平较低,两者在区域间均呈现出明显的空间差异性;(2)研究期间黄河流域绿色创新效率与生态韧性耦合度与协调度均呈增长趋势,其中耦合度整体处于磨合阶段,协调度整体处于一般协调状态,从空间格局来看,呈现出“上游-中游-下游”阶梯式递增的特征;(3)经济发展水平、交通基础设施、对外开放程度、人力资本对耦合协调度有着显著的正向促进作用,产业结构、城镇化水平对耦合协调度抑制作用显著。
Abstract:Exploring the coupled and coordinated relationship between urban green innovation efficiency and ecological resilience is of great practical significance for promoting ecological protection and high-quality development in the Yellow River Basin. The Super-SBM model and entropy weight method are used to measure the green innovation efficiency and ecological resilience level of 78 cities in the Yellow River Basin from 2010 to 2020, respectively, and to further analyze the spatial and temporal evolution characteristics of the coupled and coordinated development and the factors influencing them by using the modified coupled coordination degree model and the Tobit regression model. The results show that:(1)Both green innovation efficiency and ecological resilience of cities in the Yellow River Basin in 2010—2020 show a fluctuating upward trend over time evolution, but the development level is low; both show obvious spatial variability among regions.(2)The coupling degree and coordination degree of green innovation efficiency and ecological resilience in the Yellow River Basin during the study period showed a growing trend, in which the coupling degree as a whole was in the stage of friction, and the coordination degree as a whole was in the state of general coordination; from the perspective of spatial pattern, it presents the characteristics of "upstream-midstream-downstream" step increase.(3)The level of economic development, transportation infrastructure, degree of openness to the outside world, and human capital have a significant positive contribution to the degree of coupling coordination, while the industrial structure and urbanization level have a significant inhibiting effect on the degree of coupling coordination.
[1] 马淑芹,许超,夏瑞,等.协同推进黄河流域生态保护治理的问题、挑战与建议[J].环境保护,2023,51(22):10-13.MA S Q,XU C,XIA R,et al.The strategy of synergistic promotion of the ecological conservation and governance in the Yellow River Basin:Problems,challenges and suggestions[J].Environmental Protection,2023,51(22):10-13.
[2] 彭文斌,苏欣怡,杨胜苏,等.环境规制视角下城市绿色创新时空演变及溢出效应[J].地理科学,2023,43(1):41-49.PENG W B,SU X Y,YANG S S,et al.Spatio-temporal evolution and spillover effects of urban green innovation under environmental regulation[J].Scientia Geographica Sinica,2023,43(1):41-49.
[3] LI D,YANG W P,HUANG R Y.The multidimensional differences and driving forces of ecological environment resilience in China[J].Environmental Impact Assessment Review,2023,98:106954.
[4] 杨云超,刘笑男,刘伟.中国城市科技创新竞争力国际比较研究[J].科技管理研究,2022,42(23):104-111.YANG Y C,LIU X N,LIU W.An international comparative study on the competitiveness of science and technology innovation of Chinese cities[J].Science and Technology Management Research,2022,42(23):104-111.
[5] 邹蔚,王兴宇,万凤娇,等.城市韧性与科技创新水平耦合协调发展研究:以长三角城市群为例[J].生态经济,2024,40(1):78-87.ZOU W,WANG X Y,WAN F J,et al.Coupling and coordinated development of urban resilience and scientific and technological innovation:A case study of the Yangtze River Delta urban agglomeration[J].Ecological Economy,2024,40(1):78-87.
[6] FUSSLER C,JAMES P.Driving eco-innovation:A breakthrough discipline for innovation and sustainability[M].London:Pitman,1996.
[7] 许玉洁,刘曙光.黄河流域绿色创新效率空间格局演化及其影响因素[J].自然资源学报,2022,37(3):627-644.XU Y J,LIU S G.Spatial pattern evolution and influencing factors of green innovation efficiency in the Yellow River Basin[J].Journal of Natural Resources,2022,37(3):627-644.
[8] 肖黎明,张仙鹏.强可持续理念下绿色创新效率与生态福利绩效耦合协调的时空特征[J].自然资源学报,2019,34(2):312-324.XIAO L M,ZHANG X P.Spatio-temporal characteristics of coupling coordination between green innovation efficiency and ecological welfare performance under the concept of strong sustainability[J].Journal of Natural Resources,2019,34(2):312-324.
[9] 葛世帅,曾刚,杨阳,等.基于DEA-Malmquist和Tobit模型的长三角城市群绿色创新绩效研究[J].长江流域资源与环境,2022,31(4):738-749.GE S S,ZENG G,YANG Y,et al.Research on green innovation performance of Yangtze River Delta urban agglomerations based on DEA-Malmquist and Tobit model[J].Resources and Environment in the Yangtze Basin,2022,31(4):738-749.
[10] 董会忠,李旋,张仁杰.粤港澳大湾区绿色创新效率时空特征及驱动因素分析[J].经济地理,2021,41(5):134-144.DONG H Z,LI X,ZHANG R J.Spatial-temporal characteristics and driving factors of green innovation efficiencyin Guangdong-Hong Kong-Macao Greater Bay Area[J].Economic Geography,2021,41(5):134-144.
[11] 鲍涵,滕堂伟,胡森林,等.长三角地区城市绿色创新效率空间分异及影响因素[J].长江流域资源与环境,2022,31(2):273-284.BAO H,TENG T W,HU S L,et al.Spatial differentiation and influencing factors of urban green innovation efficiency in Yangtze River Delta[J].Resources and Environment in the Yangtze Basin,2022,31(2):273-284.
[12] 王星,苏志,赵文娜.城市绿色创新效率的区域差异、动态演进及收敛性研究:以黄河流域沿线城市为例[J].城市问题,2022(12):30-41.WANG X,SU Z,ZHAO W N.Regional differences,dynamic evolution and convergence analysis of green innovation efficiency in the Yellow River Basin[J].Urban Issues,2022(12):30-41.
[13] 孙勇,樊杰,孙中瑞,等.黄河流域绿色技术创新时空格局及其影响因素分解[J].生态经济,2022,38(5):60-67.SUN Y,FAN J,SUN Z R,et al.Temporal and spatial pattern of green technology innovation and its influencing factors in the Yellow River Basin[J].Ecological Economy,2022,38(5):60-67.
[14] 孙燕铭,谌思邈.长三角区域绿色技术创新效率的时空演化格局及驱动因素[J].地理研究,2021,40(10):2743-2759.SUN Y M,SHEN S M.The spatio-temporal evolutionary pattern and driving forces mechanism of green technology innovation efficiency in the Yangtze River Delta region[J].Geographical Research,2021,40(10):2743-2759.
[15] 陈蓓,彭文斌,刘奕飞.长江中游城市群绿色创新效率的时空演变与驱动因素[J].经济地理,2022,42(9):43-49.CHEN B,PENG W B,LIU Y F.Spatio-temporal evolution and driving factors of green innovation efficiency of the urban agglomeration in the middle reaches of the Yangtze River[J].Economic Geography,2022,42(9):43-49.
[16] 赵林,高晓彤,吴殿廷.黄河流域绿色技术创新空间关联网络结构与影响因素[J].人文地理,2023,38(4):102-111.ZHAO L,GAO X T,WU D T.Spatial correlation network and influencing factors of green technology innovation in Yellow River Basin[J].Human Geography,2023,38(4):102-111.
[17] 滕堂伟,潘雅君,王胜鹏,等.长三角地区城市绿色创新效率网络空间结构演化及影响因素[J].长江流域资源与环境,2023,32(7):1335-1348.TENG T W,PAN Y J,WANG S P,et al.Evolution and driving factors of spatial network structure of green innovation efficiency in Yangtze River Delta[J].Resources and Environment in the Yangtze Basin,2023,32(7):1335-1348.
[18] HOLLING C S.Resilience and stability of ecological systems[J].Annual Review of Ecology and Systematics,1973(4):1-23.
[19] 赵瑞东,方创琳,刘海猛.城市韧性研究进展与展望[J].地理科学进展,2020,39(10):1717-1731.ZHAO R D,FANG C L,LIU H M.Progress and prospect of urban resilience research[J].Progress in Geography,2020,39(10):1717-1731.
[20] MOORES J P,YALDEN S,GADD J B,et al.Evaluation of a new method for assessing resilience in urban aquatic social-ecological systems[J].Ecology and Society,2017,22(4):1-15.
[21] SUáREZ M,GóMEZ-BAGGETHUN E,BENAYAS J,et al.Towards an urban resilience index:A case study in 50 Spanish cities[J].Sustainability,2016,8(8):774.
[22] SUáREZ M,RIEIRO-DIAZ A M,ALBA D,et al.Urban resilience through green infrastructure:A framework for policy analysis applied to Madrid,Spain[J].Landscape and Urban Planning,2024,241:104923.
[23] AFRIYANIE D,JULIAN M M,RIQQI A,et al.Re-framing urban green spaces planning for flood protection through socio-ecological resilience in Bandung City,Indonesia[J].Cities,2020,101:102710.
[24] 夏楚瑜,董照樱子,陈彬.城市生态韧性时空变化及情景模拟研究:以杭州市为例[J].生态学报,2022,42(1):116-126.XIA C Y,DONG Z Y Z,CHEN B.Spatio-temporal analysis and simulation of urban ecological resilience:A case study of Hangzhou[J].Acta Ecologica Sinica,2022,42(1):116-126.
[25] 肖圣,多玲花,邹自力.基于“风险-连通性-潜力”的南昌市生态韧性评估[J].应用生态学报,2023,34(3):733-741.XIAO S,DO L H,ZOU Z L.Assessment of ecological resilience in Nanchang based on "risk-connectivity-potential"[J].Chinese Journal of Applied Ecology,2023,34(3):733-741.
[26] 曾凡盛,冯兴华,唐燕,等.鄱阳湖流域县域生态韧性空间格局演变研究[J].地理与地理信息科学,2022,38(6):29-35.ZENG F S,FENG X H,TANG Y,et al.Evolution of ecological resilience space pattern at county level in Poyang Lake Basin[J].Geography and Geo-Information Science,2022,38(6):29-35.
[27] 吕添贵,胡晗,付舒斐,等.长三角地区城市生态韧性时空分异特征及影响因素[J].地域研究与开发,2023,42(1):54-60.LYU T G,HU H,FU S F,et al.Spatio-temporal differentiation and influencing factors of urban ecological resilience in the Yangtze River Delta[J].Areal Research and Development,2023,42(1):54-60.
[28] 杨丽莎,陈妍,谢会强.黄河流域城市群生态韧性的时空格局与驱动因素分析[J].生态经济,2024,40(2):99-108.YANG L S,CHEN Y,XIE H Q.Spatio-temporal patterns and driving factors of ecological resilience in urban agglomerations in the Yellow River Basin[J].Ecological Economy,2024,40(2):99-108.
[29] 王文慧,钟业喜,马宏智,等.鄱阳湖水陆交错带生态韧性时空变化及影响因素[J].生态学报,2023,43(22):9514-9526.WANG W H,ZHONG Y X,MA H Z,et al.Spatio-temporal variations and influencing factors of ecological resilience in the aquatic-terrestrial ecotone of Poyang Lake[J].Acta Ecologica Sinica,2023,43(22):9514-9526.
[30] 王松茂,牛金兰.山东半岛城市群城市生态韧性的动态演化及障碍因子分析[J].经济地理,2022,42(8):51-61.WANG S M,NIU J L.Dynamic evolution and obstacle factors of urban ecological resilience in Shandong Peninsula urban agglomeration[J].Economic Geography,2022,42(8):51-61.
[31] 李加林,张旖芯,张海涛,等.基于“潜力-弹性-稳定性”模型的温州市生态韧性时空变化及影响因素研究[J].生态学报,2024,44(8):3253-3267.LI J L,ZHANG Y X,ZHANG H T,et al.The research of spatio-temporal characteristics and influence factors of Wenzhou ecological resilience based on the potential-elastic-stability model[J].Acta Ecologica Sinica,2024,44(8):3253-3267.
[32] 陶洁怡,董平,陆玉麒.长三角地区生态韧性时空变化及影响因素分析[J].长江流域资源与环境,2022,31(9):1975-1987.TAO J Y,DONG P,LU Y Q.Spatial-temporal analysis and influencing factors of ecological resilience in Yangtze River Delta[J].Resources and Environment in the Yangtze Basin,2022,31(9):1975-1987.
[33] 王松茂,牛金兰.黄河流域城市生态韧性时空演变及其影响因素[J].生态学报,2023,43(20):8309-8320.WANG S M,NIU J L.Spatio-temporal evolution and influencing factors of urban ecological resilience in the Yellow River Basin[J].Acta Ecologica Sinica,2023,43(20):8309-8320.
[34] 王少剑,崔子恬,林靖杰,等.珠三角地区城镇化与生态韧性的耦合协调研究[J].地理学报,2021,76(4):973-991.WANG S J,CUI Z T,LIN J J,et al.Coupling relationship between urbanization and ecological resilience in the Pearl River Delta[J].Acta Geographica Sinica,2021,76(4):973-991.
[35] 王松茂,牛金兰.山东省旅游经济与城市生态韧性协同演化研究[J].地理学报,2023,78(10):2591-2608.WANG S M,NIU J L.Co-evolution of tourism economy and urban ecological resilience in Shandong Province[J].Acta Geographica Sinica,2023,78(10):2591-2608.
[36] 张卓群,姚鸣奇,张晓慧.水生态文明城市建设试点对水生态韧性的影响研究[J].城市问题,2023(10):45-53.ZHANG Z Q,YAO M Q,ZHANG X H.Analysis of the impacts and mechanisms of the pilot project of water ecological civilization city construction on water ecological resilience[J].Urban Problems,2023(10):45-53.
[37] 陈明星,先乐,王朋岭,等.气候变化与多维度可持续城市化[J].地理学报,2021,76(8):1895-1909.CHEN M X,XIAN L,WANG P L,et al.Climate change and multi-dimensional sustainable urbanization[J].Acta Geographica Sinica,2021,76(8):1895-1909.
[38] 张明斗,任衍婷,周亮.黄河流域城市生态韧性时空演变特征及影响因素分析[J].干旱区地理,2024,47(3):445-454.ZHANG M D,REN Y T,ZHOU L.Spatiotemporal evolution characteristics and influencing factors of urban ecological resilience in the Yellow River Basin[J].Arid Land Geography,2024,47(3):445-454.
[39] TONE K.A slacks-based measure of super-efficiency in data envelopment analysis[J].European Journal of Operational Research,2002,143(1):32-41.
[40] 王淑佳,孔伟,任亮,等.国内耦合协调度模型的误区及修正[J].自然资源学报,2021,36(3):793-810.WANG S J,KONG W,REN L,et al.Research on misuses and modification of coupling coordination degree model in China[J].Journal of Natural Resources,2021,36(3):793-810.
[41] 葛世帅,曾刚,杨阳,等.黄河经济带生态文明建设与城市化耦合关系及空间特征研究[J].自然资源学报,2021,36(1):87-102.GE S S,ZENG G,YANG Y,et al.The coupling relationship and spatial characteristics analysis between ecological civilization construction and urbanization in the Yellow River Economic Belt[J].Journal of Natural Resources,2021,36(1):87-102.
基本信息:
DOI:10.16152/j.cnki.xdxbzr.2025-04-007
中图分类号:F124.3;X321
引用信息:
[1]孙鹏,戴鹏辉,惠岩,等.黄河流域城市绿色创新效率与生态韧性的时空耦合及影响因素[J].西北大学学报(自然科学版),2025,55(04):772-785.DOI:10.16152/j.cnki.xdxbzr.2025-04-007.
基金信息:
国家自然科学基金重点项目(42130510); 西安市社科基金重点项目(23JX147)
2025-08-11
2025-08-11
2025-08-11