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[1]ZHU Xiaoqing,HUANG Zhihao,ZHANG Tiancheng,et al.Spatiotemporal Coupling Characteristics and Driving Factors of Land Development Intensity and Ecological Bearing Capacity in Resource-based Cities—A Case Study of Maanshan City[J].Research of Soil and Water Conservation,2020,27(04):317-326,335.

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Spatiotemporal Coupling Characteristics and Driving Factors of Land Development Intensity and Ecological Bearing Capacity in Resource-based Cities—A Case Study of Maanshan City

Research of Soil and Water Conservation[ISSN 1005-3409/CN 61-1272/P] Volume: 27 Number of periods: 2020 04 Page number: 317-326,335 Column: 目次 Public date: 2020-06-20

Title:: Spatiotemporal Coupling Characteristics and Driving Factors of Land Development Intensity and Ecological Bearing Capacity in Resource-based Cities—A Case Study of Maanshan City

Author(s):: ZHU Xiaoqing^1,2, HUANG Zhihao¹, ZHANG Tiancheng¹, GAO Weijun²; (1.Urban-Rural Development and Habitation Environment Research Center, Zhejiang University of Technology, Hangzhou 310014, China; 2.Faculty of International Environmental Engineering, University of Kitakyushu, Kitakyushu 808—0135, Japan)

Keywords:: resource-based city; land development intensity; ecological bearing capacity; coupling coordination; driving factors; Maanshan City

CLC:: F301.24; X171

DOI:: -

Abstract:: In order to clarify the collaborative development relationship and interaction mechanism between resource-based city development intensity and ecological bearing capacity, the spatiotemporal characteristics and driving factors of coupling development intensity and ecological bearing capacity of resource-based cities were revealed by constructing a comprehensive evaluation index system of land development intensity and ecological bearing capacity, and by means of coupling coordination degree model, exploratory spatial data analysis method and geographic weighted regression model. Maanshan City was selected as a typical case study. The results show that:(1)from 2008 to 2018, the intensity of territorial development in the sample area increased rapidly from 0.215 6 to 0.538 6, and the spatial heterogeneity gradually emerged; the ecological bearing capacity increased steadily from 0.420 2 to 0.489 5, with little spatial difference and basic stability;(2)the coupling between territorial development intensity and ecological bearing capacity coordination degree kept a continuous upward trend, and gradually changed from moderate imbalance stage to low coordination stage, showing the overall distribution pattern of high and low sides in the middle; the spatial agglomeration trend was more significant, the distribution of cold and hot spots was more stable;(3)spatial and temporal differences of driving factors for coordinated development of land development intensity and ecological bearing capacity were obvious, the driving role decreased in the order: industrial transformation>economic development>government regulation>resource agglomeration. Based on the above interpretation, some countermeasures and suggestions are put forward to promote the coordinated development of land development intensity and ecological bearing capacity.

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Last Update: 2020-07-09