Yu Chen, Sisi Zhong, Xinlan Liang, Yanru Li, Jing Cheng, Ying Cao
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This analysis employs the Coupled Coordination Degree model alongside the spatial autocorrelation model. The results show that there is still much room for improving the urbanization development level and the water environment quality. During the study period, a nonlinear and nearly U-shaped evolutionary trajectory was observed between the two systems. The results suggest that there is a progression from basic to more advanced coordination between urbanization and water environment at the city cluster scale. Urbanization appears to generally lag behind the water environment in terms of coordination. At the municipal scale, there is a gradient in which some cities show better coordination compared to others. Spatially, the coupling and coordination of this region exhibited dual-core development characteristics centered around Chengdu and Chongqing. 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引用次数: 0
摘要
要促进未来区域的可持续发展,就必须确保城市化与水环境系统之间的协调。随着城市群和大都市区日益成为中国城市化的主导趋势,探讨城市化与水环境之间的相互依存关系至关重要。这种探讨对水资源管理和城市化政策的制定具有重要意义。本研究采用了一个涵盖城市化和水环境的综合指标体系。它考察了 2011 年至 2019 年成渝城市群内这些系统的时空耦合协调动态。分析采用了耦合协调度模型和空间自相关模型。结果表明,城市化发展水平和水环境质量仍有很大的提升空间。在研究期间,两个系统之间出现了非线性和近似 U 型的演化轨迹。研究结果表明,在城市群尺度上,城市化与水环境之间的协调存在一个从基础到高级的发展过程。在协调方面,城市化似乎总体上落后于水环境。在市级范围内,一些城市与其他城市相比表现出更好的协调性。从空间上看,该区域的耦合与协调表现出以成都和重庆为中心的双核发展特征。该地区正处于向核心型网络化、分散型发展模式过渡的阶段,尚未形成一体化格局。这为全球类似地区的水环境与城市化协调提供了理论和技术框架。
The Relationship between Urbanization and the Water Environment in the Chengdu-Chongqing Urban Agglomeration
Ensuring the harmonization between urbanization and water environment systems is imperative for fostering sustainable regional development in the future. With urban agglomerations and metropolitan areas increasingly dominating urbanization trends in China, it is crucial to explore the interdependent relationship between urbanization and the water environment. Such exploration holds significant implications for water resource management and the formulation of urbanization policies. This study utilizes a comprehensive index system encompassing urbanization and the water environment. It examines the coupled and coordinated spatial and temporal dynamics of these systems within the Chengdu-Chongqing Urban Agglomeration from 2011 to 2019. This analysis employs the Coupled Coordination Degree model alongside the spatial autocorrelation model. The results show that there is still much room for improving the urbanization development level and the water environment quality. During the study period, a nonlinear and nearly U-shaped evolutionary trajectory was observed between the two systems. The results suggest that there is a progression from basic to more advanced coordination between urbanization and water environment at the city cluster scale. Urbanization appears to generally lag behind the water environment in terms of coordination. At the municipal scale, there is a gradient in which some cities show better coordination compared to others. Spatially, the coupling and coordination of this region exhibited dual-core development characteristics centered around Chengdu and Chongqing. The region is in the transition stage towards a core-type networked and decentralized development mode, which has not yet formed an integrated pattern. This offers a theoretical and technical framework for harmonizing water environments and urbanization in similar regions globally.