Distributed Scatterer InSAR Reveals Surface Motion of the Ancient Chaoshan Residence Cluster in the Lianjiang Plain, China
Publication in refereed journal

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摘要The Lianjiang Plain in China and ancient villages distributed within the plain are under the potential threat of surface motion change, but no effective monitoring strategy currently exists. Distributed Scatterer InSAR (DSInSAR) provides a new high-resolution method for the precise detection of surface motion change. In contrast to the first-generation of time-series InSAR methodology, the distributed scatterer-based method focuses both on pointwise targets with high phase stability and distributed targets with moderate coherence, the latter of which is more suitable for the comprehensive environment of the Lianjiang Plain. In this paper, we present the first study of surface motion change detection in the Lianjiang Plain, China. Two data stacks, including 54 and 29 images from Sentinel-1A adjacent orbits, are used to retrieve time-series surface motion changes for the Lianjiang Plain from 2015 to 2018. The consistency of measurement has been cross-validated between adjacent orbit results with a statistically significant determination coefficient of 0.92. The temporal evolution of representative measuring points indicates three subzones with varied surface patterns: Eastern Puning (Zone A) in a slight elastic rebound phase with a moderate deformation rate (0-40 mm/year), Chaonan (Zone B) in a substantial subsidence phase with a strong deformation rate (-140-0 mm/year), and Chaoyang (Zone C) in a homogeneous and stable situation (-10-10 mm/year). The spatial distribution of these zones suggests a combined change dynamic and a strong concordance of factors impacting surface motion change. Human activities, especially groundwater exploitation, dominate the subsidence pattern, and natural conditions act as a supplementary inducement by providing a hazard-prone environment. The qualitative and quantitative analysis of spatial and temporal details in this study provides a basis for systematic surface motion monitoring, cultural heritage protection and groundwater resources management.
著者Liu YZ, Ma PF, Lin H, Wang WX, Shi GQ
期刊名稱Remote Sensing
出版年份2019
月份1
日期2
卷號11
期次2
出版社MDPI
文章號碼166
國際標準期刊號2072-4292
語言英式英語
關鍵詞surface motion change, the Lianjiang Plain, DSInSAR, spatial/temporal pattern, Sentinel-1A
Web of Science 學科類別Remote Sensing;Remote Sensing

上次更新時間 2021-26-02 於 23:38