Abstract
Coordinating ecosystem service supply and demand equilibrium and utilizing machine learning to dynamically construct an ecological security pattern (ESP) can help better understand the impact of urban development on ecological processes, which can be used as a theoretical reference in coupling economic growth and environmental protection. Here, the ESP of the Changsha–Zhuzhou–Xiangtan urban agglomeration was constructed, which made use of the Bayesian network model to dynamically identify the ecological sources. The ecological corridor and ecological strategy points were identified using the minimum cumulative resistance model and circuit theory. The ESP was constructed by combining seven ecological sources, “two horizontal and three vertical” ecological corridors, and 37 ecological strategy points. Our results found spatial decoupling between the supply and demand of ecosystem services (ES) and the degradation in areas with high demand for ES. The ecological sources and ecological corridors of the urban agglomeration were mainly situated in forestlands and water areas. The terrestrial ecological corridor was distributed along the outer periphery of the urban agglomeration, while the aquatic ecological corridor ran from north to south throughout the entire region. The ecological strategic points were mainly concentrated along the boundaries of the built-up area and the intersection between construction land and ecological land. Finally, the ecological sources were found primarily on existing ecological protection zones, which supports the usefulness of machine learning in predicting ecological sources and may provide new insights in developing urban ESP.
Highlights
The continued urbanization has led to a sharp increases in population among urban areas and the rapid expansion of built-up areas [1,2,3]
Even though the ecological security pattern (ESP) construction method based on the flow of ecosystem services (ES) has become part of the current mainstream research [4], the identification of ecological source and ecological corridors remains to have a mismatch between supply and demand space [4]
By shifting towards ecological bottom-line thinking can a win–win situation be achieved between environmental protection and economic development
Summary
The continued urbanization has led to a sharp increases in population among urban areas and the rapid expansion of built-up areas [1,2,3]. Even though the ESP construction method based on the flow of ecosystem services (ES) has become part of the current mainstream research [4], the identification of ecological source and ecological corridors remains to have a mismatch between supply and demand space [4]. This approach fails to consider the correlation between different ecological processes and neglects the dynamic transformations in ecological land use, thereby reducing the effectiveness of source identification.
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