How Can the Balance of Green Infrastructure Supply and Demand Build an Ecological Security Pattern

Abstract

The escalating degradation of urban eco-environments has underscored the significance of ecological security in sustainable urban development. Green infrastructure bridges green spaces in cities and increases ecosystem connectivity, thereby optimizing urban ecological security patterns. This study uses Nanjing as a case study and adopts a research paradigm that involves identifying ecological sources, constructing resistance surfaces, and subsequently extracting corridors within the ecological security pattern. This method amalgamates the evaluation of green infrastructure supply and demand, leading to the identification of both ecological corridors and nodes. The findings reveal that while the supply of green infrastructure in Nanjing is low in the city center and high in the suburbs, demand is high in the central area and low in the periphery, indicating a spatial mismatch between supply and demand. Ecological corridors and nodes are categorized into the core, important, and general levels based on their centrality and areas of supply–demand optimization. The connectivity, supply capacity, and supply–demand relationship of green infrastructure in Nanjing have been enhanced to varying degrees through the ecological security pattern optimization. The results of this study can serve as a decision-making reference for optimizing green infrastructure network patterns and enhancing urban ecological security.