Rapid Urban Land Expansion in Earthquake-Prone Areas of China

Qingxu Huang,Shiting Meng,Chunyang He,Yinyin Dou,Qiang Zhang

doi:10.1007/s13753-018-0207-4

Qingxu Huang, Shiting Meng + Show 3 more

Open Access

https://doi.org/10.1007/s13753-018-0207-4

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Abstract

A timely understanding of urban expansion in earthquake-prone areas is crucial for earthquake risk assessment and urban planning for earthquake mitigation. However, a comprehensive evaluation of urban expansion in earthquake-prone areas is lacking in China, especially in the context of rapid urbanization. Based on time series urban land data and seismic ground-motion parameter zonation maps, this study analyzed urban expansion in the most seismically hazardous areas (MSHAs) of China from 1992 to 2015 on the national, regional, and city scales. The results show that urban land area in the MSHAs expanded by 6767 km2 from 1992 to 2015, with a gain of 350%. Specifically, the increase in urban land area of small cities in the MSHAs of western China during this period was the fastest, 6.24 times greater than that at the national level. In terms of spatial patterns, the urban land patches in the MSHAs in 2015 were more fragmented than those in 1992 on all scales. The percentage of change in the number of patches and the landscape shape index of the urban land patches of small cities in the MSHAs of western China were the highest across all cities. Therefore, we believe that special attention should be paid to the cities in the MSHAs that exhibit the most rapid increases in both urban land area and fragmentation, especially the small cities in western China. It is imperative to integrate earthquake mitigation into the urban planning of these cities.

Highlights

The most seismically hazardous areas (MSHAs) represent regions where earthquakes occur frequently and are associated with severe fatalities, building damage, and economic losses (Holzer and Savage 2013; Storchak et al 2015; NGDC-WDS 2017)
We present the characteristics of urban expansion in the MSHAs in three aspects—the changes in land area, landscape metrics of urban land patches and urban expansion modes in the MSHAs of China during 1992–2015
5.1 Reliability of the Results Based on the Most Seismically Hazardous Areas compared the outcomes obtained based on the seismic ground motion parameter zonation (SGMPZ) maps used in this study and another peak ground acceleration (PGA) dataset obtained from the Global Seismic Hazard Assessment Program (GSHAP) (Giardini et al 1999) at the city level

Summary

Introduction

The most seismically hazardous areas (MSHAs) represent regions where earthquakes occur frequently and are associated with severe fatalities, building damage, and economic losses (Holzer and Savage 2013; Storchak et al 2015; NGDC-WDS 2017). When urban land expanded in the MSHAs, the people, buildings, and assets exposed to seismic risk may increase. Urban expansion can result in substantial increases in both the number and the urban land area of cities in the MSHAs (Bilham 1988). On the other hand, unregulated construction codes, and widespread weak earthquake emergency response during the rapid urbanization process will further increase seismic risk (Wu et al 2013; Uysal et al 2018). A timely analysis of urban expansion in the MSHAs is of great importance for seismic-risk assessment and urban planning for earthquake mitigation

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