Coupling-Coordinated Development of the Water-Economy-Innovation Nexus: A Case Study of the Grand Canal Area in China

IF 3 3区 环境科学与生态学 Q2 ENGINEERING, CIVIL
Zhe Cheng, Jialin He, Yun Li, Yixin Zhu, Juncheng Dai
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引用次数: 0

Abstract

The water-economy-innovation nexus is an integrated system that plays an important driving role in urban and regional sustainable development. To identify, evaluate, and measure the coupling-coordinated development of the regional water-economy-innovation nexus, this study selects China’s Grand Canal area as a typical case and constructs an integrated evaluation system of the water-economy-innovation nexus. Then, the coupling coordination model is used to evaluate the regional water-economy-innovation nexus’ development. Finally, grey correlation analysis is used to evaluate the influencing factors. The results find that the water-economy-innovation nexus’ overall development level is not high and that there are significant spatial differences. The coupling coordination level keeps rising, and the coupling coordination level of the central city is obviously better than other cities. Water accounts for the largest contribution to the coupling coordination of the water-economy-innovation nexus, followed by economy and innovation. This study contributes to the knowledge body of sustainable development and provides a scientific basis for the decision of coupling the development of the water-economy-innovation nexus in China’s Grand Canal area and other regions.Practical ApplicationsWater, as a fundamental resource, plays an important role in achieving the sustainable development goals (SDGs). However, water needs to interact with other factors to effectively achieve regional sustainable development. Innovation and the economy are both important drivers of sustainable development, and water is closely linked and interacted with them. Currently, the mechanism and extent of the coupled development of regional water-economy-innovation nexus remains unclear. To address this challenge, this study takes the Grand Canal area in China as a typical case and constructs an evaluation model with multiple methods to explore the coupling development of the regional water-economy-innovation nexus. This study verified the importance of multifactor coupling for regional sustainable development and demonstrated that water contributed the most, but the overall coupling development of the water-economy-innovation nexus was not high. Promoting the coupling development of the water-economy-innovation nexus through targeted policies is an important task for local governments.
水-经济-创新关系的耦合协调发展——以中国大运河地区为例
水-经济-创新关系是一个综合系统,对城市和区域的可持续发展具有重要的推动作用。为识别、评价和衡量区域水-经济-创新联系的耦合协调发展,本研究以中国大运河地区为典型案例,构建了区域水-经济-创新联系的综合评价体系。然后,运用耦合协调模型对区域水-经济-创新联系的发展进行了评价。最后运用灰色关联分析法对影响因素进行评价。结果发现:水-经济-创新联系整体发展水平不高,且存在显著的空间差异;耦合协调水平不断提高,中心城市的耦合协调水平明显优于其他城市。水对水-经济-创新关系的耦合协调贡献最大,其次是经济和创新。本研究为中国大运河地区与其他地区的水-经济-创新联结发展决策提供了科学依据。水作为一种基础资源,在实现可持续发展目标(SDGs)中发挥着重要作用。然而,水需要与其他因素相互作用,才能有效地实现区域可持续发展。创新和经济都是可持续发展的重要动力,水与二者紧密相连、相互影响。目前,区域水-经济-创新联系耦合发展的机制和程度尚不清楚。针对这一挑战,本研究以中国大运河地区为典型案例,构建了多方法评价模型,探讨区域水-经济-创新关系的耦合发展。研究验证了多因素耦合对区域可持续发展的重要性,表明水对区域可持续发展的贡献最大,但水-经济-创新关系的整体耦合发展程度不高。通过有针对性的政策促进水-经济-创新关系的耦合发展是地方政府的重要任务。
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来源期刊
CiteScore
6.30
自引率
19.40%
发文量
136
审稿时长
7 months
期刊介绍: The Journal of Water Resources Planning and Management reports on all phases of planning and management of water resources. The papers examine social, economic, environmental, and administrative concerns relating to the use and conservation of water. Social and environmental objectives in areas such as fish and wildlife management, water-based recreation, and wild and scenic river use are assessed. Developments in computer applications are discussed, as are ecological, cultural, and historical values.
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