Abstract
Given the diverse socioecological consequences of rapid urban sprawl worldwide, the delineation and monitoring of urban boundaries have been widely used by local governments as a planning instrument for promoting sustainable development. This study demonstrates a fractal method to delineate urban boundaries based on raster land use maps. The basic logic is that the number of built-up land clusters and their size at each dilation step follows a power-law function. It is assumed that two spatial subsets with distinct fractal characteristics would be obtained when the deviation between the dilation curve and a straight line reaches the top point. The top point is regarded to be the optimum threshold for classifying the built-up land patches, because the fractality of built-up land would no longer exist beyond the threshold. After that, all the built-up land patches are buffered with the optimum threshold and the rank-size distribution of new clusters can be re-plotted. Instead of artificial judgement, hierarchical agglomerative clustering is utilized to automatically classify the urban and rural clusters. The approach was applied to the case of Shanghai, the most rapidly urbanizing megacity in China, and the dynamic changes of the urban boundaries from 1994 to 2016 were analyzed. On this basis, urban–rural differences were further explored through several fractal or nonfractal indices. The results show that the proposed fractal approach can accurately distinguish the urban boundary without subjective choice of thresholds. Extraordinarily different fractal dimensions, aggregation and density and similar average compactness were further identified between built-up land in urban and rural areas. The dynamic changes in the urban boundary indicated rapid urban sprawl within Shanghai during the study period. In view of the popularization and global availability of raster land use maps, this paper adds fuels to the cutting-edge topic of distinguishing the morphological criteria to universally describe urban boundaries.
Highlights
Given the diverse socioecological consequences of rapid urban sprawl worldwide, the delineation and monitoring of urban boundaries have been widely used by local governments as a planning instrument for promoting sustainable development
Located at 31°14′ N and 121°29′ E, Shanghai is one of the municipalities directly unLocated at 31◦ 140 N and 121◦ 290 E, Shanghai is one of the municipalities directly under der the central government in China, and it is the main city in the Yangtze River delta the central government in China, and it is the main city in the Yangtze River delta (Figure 1)
It should be explained that we only focused on the metropolitan area of Shanghai city and the surrounding islands were not taken into consideration, because these islands are generally rural spaces and follow a quite different urbanization process from the metropolitan area
Summary
Given the diverse socioecological consequences of rapid urban sprawl worldwide, the delineation and monitoring of urban boundaries have been widely used by local governments as a planning instrument for promoting sustainable development. The approach was applied to the case of Shanghai, the most rapidly urbanizing megacity in China, and the dynamic changes of the urban boundaries from 1994 to 2016 were analyzed On this basis, urban–rural differences were further explored through several fractal or nonfractal indices. 2015, more than doubling the urban population growth rate [3] Such rapid urban sprawl has raised diverse social and environmental problems of sustainability, including underutilized infrastructure, poverty and inequity, food insecurity, farmland loss, biodiversity decline and climate degeneration [4,5,6]. Aimed at curbing uncontrolled urban sprawl, Smart Growth was proposed in America in the 1990s It emphasizes sustainable development of the environment, society and economy, which represents a compact, concentrated and efficient schema.
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