Abstract
Although a major region with strong urbanization, there is not yet a systematic and comprehensive understanding of urban expansion during the last 20 years for China’s coastal zone. In this paper, based on remote sensing techniques, and using indicators such as new urban land proportion, annual urban increase, and annual growth rate, as well as a landscape expansion index reflecting the urban expansion type (e.g., edge-expansion, infilling, and outlying), we measured the dynamic expansion of urban land in China’s coastal zone since 2000. The results indicated that: (1) China’s coastal zone experienced rapid urbanization from 2000 to 2020, with the new urban land and annual urban growth rate at 17,979.72 km2 and 4.83%, respectively. The new urban land was mainly concentrated in economically advanced regions, such as Bohai Rim, Shandong Peninsula, the Yangtze River delta, and the Pearl River delta. (2) The urban growth rates of coastal cities in Liaoning, Hebei, Shandong, southeast Fujian, and Taiwan became slower over time, with a sharp decline during 2015–2020. In the mid and south of China’s coastal zone, such as coastal cities in Jiangsu, Guangxi, and Hainan, there was slow urbanization before 2015, and urban land expanded dramatically during 2015–2020. (3) The urban expansion of China’s coastal zone was dominated by edge-expansion after 2000, but it went through a low-speed and intensive development stage during 2010–2015, with an increase in urban land less than 50% of that in the other three five-year periods, and the most significant filling of urban space compared with the other three five-year periods, which was probably caused by the global financial crisis. (4) The spatial-temporal differences in the urbanization process in China’s coastal zone were largely consequent on national economic development strategies and regional development plans implemented in China’s coastal zone.
Highlights
Time methods combined with indicTime series seriesland landuse usedata, data,and andmulti-temporal multi-temporalanalysis analysis methods combined with intors representing urban expansion patterns and types effectively reflect thereflect dynamic dictors representing urban expansion patterns andcan types can effectively the prodycess of process urbanization in terms ofinurban
The results showed that there were significant increases in the New urban land proportions (NP), annual increase (AI), and annual growth rate (AGR) values in the cities of Jiangsu, Guangxi and Hainan during the fourth five-year period (2015–2020), and new urban land of CCJ, CCGx, and Hn was 1.13, 1.80, and 4.86 times greater than the sum of that during the previous three five-year periods combined (2000–2015), respectively; in particular, the new urban land in Sanya increased by 17.41 times compared to the other three five-year periods
The results showed that China’s coastal zone experienced drastic urbanization during 2000–2020, with an average urban growth rate (AGR) of 4.83%
Summary
More than half of the world’s population live in urban areas, and the proportion will reach 68% by 2050, with the strongest increases in developing countries [3,4]. Rapid urbanization has led to a dramatic increase in urban populations, but has brought a series of problems, including pollution [5,6,7], shortage of resources [8,9], decrease in biodiversity [10,11,12], and so on, which have seriously affected the local climate, ecological environment and global change [13]. The rapid expansion of urban land has led to the loss and abandonment of farmland, reduction in forest cover and other ecological damage.
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