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《地球科学与环境学报》[ISSN:1672-6561/CN:61-1423/P]

卷:

第44卷

期数:

2022年第05期

页码:

814-825

栏目:

大地测量、遥感与地学大数据

出版日期:

2022-09-15

文章信息/Info

Title:

Characteristics of Deformation of Landslide and Ground Fissure in Gongjue Area of Jinsha River Basin, China Based on DS-InSAR Technology

文章编号:

1672-6561(2022)05-0814-12

作者:

盛磊¹; 2; 张露³; 杜玉玲¹; 2; 邓文杰¹; 2; 闫世勇¹; 2*

(1. 中国矿业大学 自然资源部国土环境与灾害监测重点实验室,江苏 徐州 221116; 2. 中国矿业大学 环境与测绘学院,江苏 徐州 221116; 3. 中国科学院空天信息创新研究院, 北京 100094)

Author(s):

SHENG Lei¹; 2;  ZHANG Lu³;  DU Yu-ling¹; 2;  DENG Wen-jie¹; 2;  YAN Shi-yong¹; 2*

(1. Key Laboratory of Land Environment and Disaster Monitoring of Ministry of Nature Resources, China University of Mining and Technology, Xuzhou 221116, Jiangsu, China; 2. School of Environment and Spatial Informatics, China University of Mining and Technology, Xuzhou 221116, Jiangsu, China; 3. Aerospace Information Research Institute, Chinese Academy of Sciences, Beijing 100094, China)

关键词:

滑坡;  地裂缝;  地质灾害;  DS-InSAR技术;  分布式散射体;  通用型大气改正服务;  金沙江流域

Keywords:

landslide;  ground fissure;  geological hazard;  DS-InSAR technology;  distributed scatterer;  GACOS;  Jinsha River Basin

分类号:

P237

DOI:

10.19814/j.jese.2022.01013

文献标志码:

A

摘要:

金沙江流域贡觉地区地处中国西部山区,地形复杂,构造发育,滑坡和地裂缝等地质灾害隐患分布广泛,对沿线人民生命财产与交通等基础设施建设和安全运营构成严重威胁,亟需对该地区滑坡和地裂缝近期发育特征开展广域监测分析。采用2019年2月至2021年7月64景升轨和69景降轨Sentinel-1数据,采取融合分布式目标的DS-InSAR技术,获取研究区雷达视线向高精度地表形变空间分布信息,共探测到22处明显地质灾害隐患,其中沙东乡附近滑坡雷达视线向最大形变速率可达-254 mm·年^-1。在此基础上,结合最大坡度向形变和降雨数据,分析了该地区典型滑坡和地裂缝形变时空变化特征。结果表明:该地区滑坡分布规模及其运动形态多样,与地形关系较为密切,地裂缝形变与其走向呈现较好的空间相关性,且降雨加剧了部分地质灾害的活动性。

Abstract:

The Gongjue area in Jinsha River Basin is located in the mountainous region, SW China, with the development of geological hazards such as landslides and ground fissures, which bring the serious threat to the lives and properties of people along the route, and the construction and safe operation of infrastructure such as transportation. Thus, there is an urgent need to conduct a wide-area monitoring and analysis of the recent development characteristics of landslides and ground fissures in the area. The DS-InSAR technology with both high-coherence points and distributed targets is employed to obtain the high-precision spatial distribution information of surface in the LOS direction with 64 scenes in ascending orbit and 69 scenes in descending orbit of Sentinel-1 image, which are acquired from February 2019 to July 2021. 22 obvious geological hazards are detected, and the maximum deformation rate of -254 mm·a^-1 along the LOS direction is observed on the landslide near Shadong town. And then, the spatial and temporal characteristics of typical landslides and ground fissure deformation in the area were also analyzed based on the deformation along its steepest slope direction and precipitation data. The results indicate that landslide deformation is seriously affected by complex topography, and ground fissure deformation yields a good spatial correlation with its strike direction, and precipitation aggravates the activity of some geological hazards.

参考文献/References:

[1] LIU X J, ZHAO C Y, ZHANG Q, et al. Integration of Sentinel-1 and ALOS/PALSAR-2 SAR Datasets for Mapping Active Landslides Along the Jinsha River Corridor,China[J].Engineering Geology,2021,11:106033.
[2] LIU X J,ZHAO C Y,ZHANG Q,et al.Three-dimensional and Long-term Landslide Displacement Estimation by Fusing C- and L-band SAR Observations:A Case Study in Gongjue County,Tibet,China[J].Remote Sensing of Environment,2021,267:112745.
[3] 廖明生,董 杰,李梦华,等.雷达遥感滑坡隐患识别与形变监测[J].遥感学报,2021,25(1):332-341.
LIAO Ming-sheng,DONG Jie,LI Meng-hua,et al.Radar Remote Sensing for Potential Landslides Detection and Deformation Monitoring[J].National Remote Sensing Bulletin,2021,25(1):332-341.
[4] 陆会燕,李为乐,许 强,等.光学遥感与InSAR结合的金沙江白格滑坡上下游滑坡隐患早期识别[J].武汉大学学报(信息科学版),2019,44(9):1342-1354.
LU Hui-yan,LI Wei-le,XU Qiang,et al.Early Detection of Landslides in the Upstream and Downstream Areas of the Baige Landslide,the Jinsha River Based on Optical Remote Sensing and InSAR Technologies[J].Geomatics and Information Science of Wuhan University,2019,44(9):1342-1354.
[5] 许才军,林敦灵,温扬茂.利用InSAR数据的汶川地震形变场提取及分析[J].武汉大学学报(信息科学版),2010,35(10):1138-1142.
XU Cai-jun,LIN Dun-ling,WEN Yang-mao.Extract and Analysis Surface Deformation Caused by Wenchuan M_W7.9 Earthquake from InSAR Data[J].Geomatics and Information Science of Wuhan University,2010,35(10):1138-1142.
[6] 王乐洋,高 华,冯光财.利用InSAR和GPS数据分析台湾西南两次M_W>6地震的触发关系及应力影响[J].测绘学报,2019,48(10):1244-1253.
WANG Le-yang,GAO Hua,FENG Guang-cai.Triggering Relations and Stress Effects Analysis of Two M_W>6 Earthquakes in Southwest Taiwan Based on InSAR and GPS Data[J].Acta Geodaetica et Cartographica Sinica,2019,48(10):1244-1253.
[7] 韩宇飞,宋小刚,单新建,等.D-InSAR技术在长白山天池火山形变监测中的误差分析与应用[J].地球物理学报,2010,53(7):1571-1579.
HAN Yu-fei,SONG Xiao-gang,SHAN Xin-jian,et al.Deformation Monitoring of Changbaishan Tianchi Volcano Using D-InSAR Technique and Error Analysis[J].Chinese Journal of Geophysics,2010,53(7):1571-1579.
[8] 王桂杰,谢谟文,邱 骋,等.D-InSAR技术在大范围滑坡监测中的应用[J].岩土力学,2010,31(4):1337-1344.
WANG Gui-jie,XIE Mo-wen,QIU Cheng,et al.Application of D-InSAR Technique to Landslide Monitoring[J].Rock and Soil Mechanics,2010,31(4):1337-1344.
[9] 杨成生,董继红,朱赛楠,等.金沙江结合带巴塘段滑坡群InSAR探测识别与形变特征[J].地球科学与环境学报,2021,43(2):398-408.
YANG Cheng-sheng,DONG Ji-hong,ZHU Sai-nan,et al.Detection,Identification and Deformation Cha-racteristics of Landslide Groups by InSAR in Batang Section of Jinsha River Convergence Zone,China[J].Journal of Earth Sciences and Environment,2021,43(2):398-408.
[10] SHI X,ZHANG L,ZHONG Y,et al.Detection and Characterization of Active Slope Deformations with Sentinel-1 InSAR Analyses in the Southwest Area of Shanxi,China[J].Remote Sensing,2020,12(3):392.
[11] 胡 波,陈志谋,吴 洋,等.利用D-InSAR技术检测地裂缝分布及走向[J].测绘通报,2018(2):103-106.
HU Bo,CHEN Zhi-mou,WU Yang,et al.Detecting the Distribution and Alignment of Ground Fissures by D-InSAR[J].Bulletin of Surveying and Mapping,2018(2):103-106.
[12] ZEBKER H A,GOLDSTEIN R M.Topographic Mapping from Interferometric Synthetic Aperture Radar Observations[J].Journal of Geophysical Research:Solid Earth,1986,91(B5):4993-4999.
[13] FERRETTI A,PRATI C,ROCCA F.Nonlinear Subsidence Rate Estimation Using Permanent Scatterers in Differential SAR Interferometry[J].IEEE Transactions on Geoscience and Remote Sensing,2000,38(5):2202-2212.
[14] FERRETTI A,PRATI C,ROCCA F.Permanent Scatterers in SAR Interferometry[J].IEEE Transactions on Geoscience and Remote Sensing,2001,39(1):8-20.
[15] BERARDINO P,FORNARO G,LANARI R,et al.A New Algorithm for Surface Deformation Monitoring Based on Small Baseline Differential SAR Interferograms[J].IEEE Transactions on Geoscience and Remote Sensing,2002,40(11):2375-2383.
[16] 戴可人,铁永波,许 强,等.高山峡谷区滑坡灾害隐患InSAR早期识别:以雅砻江中段为例[J].雷达学报,2020,9(3):554-568.
DAI Ke-ren,TIE Yong-bo,XU Qiang,et al.Early Identification of Potential Landslide Geohazards in Alpine-canyon Terrain Based on SAR Interferometry:A Case Study of the Middle Section of Yalong River[J].Journal of Radars,2020,9(3):554-568.
[17] WANG Y,DONG J,ZHANG L,et al.Refined InSAR Tropospheric Delay Correction for Wide-area Landslide Identification and Monitoring[J].Remote Sensing of Environment,2022,275:113013.
[18] 顾兆芹,宫辉力,张有全,等.时序干涉测量中大气垂直分层延迟校正研究[J].大地测量与地球动力学,2014,34(6):102-108.
GU Zhao-qin,GONG Hui-li,ZHANG You-quan,et al.Correction of Stratified Atmosphere Delay InSAR Interferometry[J].Journal of Geodesy and Geodyna-mics,2014,34(6):102-108.
[19] FERRETTI A,FUMAGALLI A,NOVALI F,et al.A New Algorithm for Processing Interferometric Data-stacks:SqueeSAR[J].IEEE Transactions on Geoscience and Remote Sensing,2011,49(9):3460-3470.
[20] 李 毅,蒋金雄,杜玉玲,等.融合分布式目标的矿区采动地表时序InSAR监测[J].中国矿业大学学报,2020,49(6):1199-1206.
LI Yi,JIANG Jin-xiong,DU Yu-ling,et al.Surface Subsidence Monitoring by Time Series InSAR Integrating with Distributed Targets in Mining Region[J].Journal of China University of Mining and Technology,2020,49(6):1199-1206.
[21] YU C,LI Z H,PENNA N T,et al.Generic Atmosphe-ric Correction Model for Interferometric Synthetic Aperture Radar Observations[J].Journal of Geophy-sical Research:Solid Earth,2018,123(10):9202-9222.
[22] DU Y L,YAN S Y,ZHAO F,et al.DS-InSAR Based Long-term Deformation Pattern Analysis in the Mining Region with an Improved Phase Optimization Algorithm[J].Frontiers in Environmental Science,2022,10:799946.
[23] 蒋 弥,丁晓利,何秀凤,等.基于快速分布式目标探测的时序雷达干涉测量方法:以Lost Hills油藏区为例[J].地球物理学报,2016,59(10):3592-3603.
JIANG Mi,DING Xiao-li,HE Xiu-feng,et al.Fa-SHPS-InSAR Technique for Distributed Scatterers:A Case Study Over the Lost Hills Oil Field,California[J].Chinese Journal of Geophysics,2016,59(10):3592-3603.
[24] CAO N,LEE H,JUNG H C.A Phase-decomposition-based PSInSAR Processing Method[J].IEEE Tran-sactions on Geoscience and Remote Sensing,2016,54(2):1074-1090.
[25] LEE J S,HOPPEL K W,MANGO S A,et al.Intensity and Phase Statistics of Multilook Polarimetric and Interferometric SAR Imagery[J].IEEE Transactions on Geoscience and Remote Sensing,1994,32(5):1017-1028.
[26] CASCINI L,FORNARO G,PEDUTO D.Advanced Low- and Full-resolution DInSAR Map Generation for Slow-moving Landslide Analysis at Different Scales[J].Engineering Geology,2010,112(1/2/3/4):29-42.
[27] 闫怡秋,郭长宝,张永双,等.基于SBAS-InSAR技术的西藏雄巴古滑坡变形特征[J].地质学报,2021,95(11):3556-3570.
YAN Yi-qiu,GUO Chang-bao,ZHANG Yong-shuang,et al.Study on the Deformation Characteristics of the Xiongba Ancient Landslide Based on SBAS-InSAR Method,Tibet,China[J].Acta Geologica Sinica,2021,95(11):3556-3570.
[28] GUO C B,YAN Y Q,ZHANG Y S,et al.Study on the Creep-sliding Mechanism of the Giant Xiongba Ancient Landslide Based on the SBAS-InSAR Method,Tibetan Plateau,China[J].Remote Sensing,2021,13:3365.
[29] WANG Z,YANG R.The Activity Characteristics and Movement Style of Qianjiangping Landslide in the Three Gorges Reservoir Region[J].The Chinese Journal of Geological Hazard and Control,2005,16(3):5-11.

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备注/Memo

备注/Memo:

收稿日期:2022-01-07; 修回日期:2022-02-13投稿网址:http:∥jese.chd.edu.cn/
基金项目:国家自然科学基金项目(41876226)
作者简介:盛 磊(1998-),男,江苏宿迁人,工学硕士研究生,E-mail:tyut_shenglei@163.com。
*通讯作者:闫世勇(1982-),男,江苏徐州人,副教授,理学博士,E-mail:yanshiyong@cumt.edu.cn。

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