Journal of Jilin University(Earth Science Edition) ›› 2019, Vol. 49 ›› Issue (4): 1182-1191.doi: 10.13278/j.cnki.jjuese.20180126

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Land Subsidence Monitoring in North Henan Plain Based on SBAS-InSAR Technology

Xu Junqiang1, Ma Tao2, Lu Yikai3, Bai Weiming1, Zhao Shuai1   

  1. 1. Henan Aero Geophysical Survey and Remote Sensing Center, Zhengzhou 450053, China;
    2. Henan Yukuang Resources Development Group Co., Ltd., Zhengzhou 450012, China;
    3. No.5 Institute of Geo-Exploration of Henan, Zhengzhou 450001, China
  • Received:2018-05-23 Online:2019-07-26 Published:2019-07-26
  • Supported by:
    Supported by National Natural Science Foundation of China (41774070)

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Abstract: Land subsidence occurs often in the plain of the northern Henan Province.It is very important to rapidly and effectively grasp the information of land subsidence and settlement to the construction of central plains urban agglomeration.Using high and medium resolution data of RADARSAT-2 radar and SBAS-InSAR technology,the land subsidence monitoring records of north Henan Plain from 2014 to 2016 were obtained.The records show that in the two years the whole land subsided in Henan Province,of which eight areas were more seriou swith about 3 006 km2 subsidence, and the settlement rate of each area was approximately 25.00-114.85 mm/a. Among them, except the maximum settlement rate of Baibi Town-Neihuang County and Hui County was 95.36 and 114.85 mm/a respectively, the maximum settlement rate of the other six subsidence areas was less than 73.58 mm/a.According to the field investigation and comprehensive analysis of the settlement areas, the land subsidence in north Henan Plain is mainly caused by active faults, soft rock, groundwater overdraft, urban construction activities, and oil and geothermal mining.The authors suggests that the prevention and control of ground subsidence in north Henan Plain should be focused on the excess exploitation of groundwater and overloading of soft rock soil layer caused by city construction.

Key words: north Henan Plain, land subsidence, SBAS-InSAR technology

CLC Number: 

  • P237
[1] 赵云章,李小杰,张良,等.河南省平原地区地面沉降基本特征及防治建议[J].中国地质灾害与防治学报,2005, 16(1):123-125. Zhao Yunzhang, Li Xiaojie, Zhang Liang, et al. Basic Characteristics of Land Subsidence in Plain Areas of Henan and Suggestions for Prevention and Control[J]. The Chinese Journal of Geological Hazard and Control, 2005, 16(1):123-125.
[2] 郑铣鑫,武强,侯艳声,等.关于城市地面沉降研究的几个前沿问题[J].地球学报,2002,23(3):279-282. Zheng Xianxin, Wu Qiang, Hou Yansheng, et al. Some Frontier Problems on Land Subsidence Research[J]. Acta Geoscientia Sinica, 2002,23(3):279-282.
[3] 殷跃平,张作辰,张开军.我国地面沉降现状及防治对策研究[J].中国地质灾害与防治学报, 2005, 16(2):1-8. Yin Yueping, Zhang Zuochen, Zhang Kaijun. Land Subsidence and Countermeasures for Its Prevention in China[J]. The Chinese Journal of Geological Hazard and Control, 2005, 16(2):1-8.
[4] 王艳,廖明生,李德仁,等.利用长时间序列相干目标获取地面沉降场[J].地球物理学报, 2007,50(2):598-604. Wang Yan, Liao Mingsheng, Li Deren, et al.Circulation Characteristics of Interannual and Interdecadal Anomalies of Summer Rainfall in North Xinjiang[J]. Chinese Journal of Geophysics, 2007,50(2):598-604.
[5] 寇程,柯长青.基于D-InSAR技术的伊朗巴姆地震地表形变监测[J].震灾防御技术, 2013, 8(1):72-80. Kou Cheng,Ke Changqing. Detecting Surface Deformation Produced by Bam Earthquake of Iran Based on D-InSAR[J]. Technology for Earthquake Disaster Prevention, 2013, 8(1):72-80.
[6] 张倍倍.合成孔径雷达干涉测量(InSAR)技术在地表沉降监测中的应用[J].西部资源, 2014(5):149-150. Zhang Beibei. Interferometric Synthetic Aperture Radar (InSAR) Application of the Ground Settlement Observation[J]. Western Resources, 2014(5):149-150.
[7] 刘曦霞.合成孔径雷达干涉测量(INSAR)技术原理及应用发展[J].科技创新与应用, 2015(20):36-37. Liu Xixia. Principle and Application Development of Interferometric Synthetic Aperture Radar Technology[J]. Technology Innovation and Application, 2015(20):36-37.
[8] 舒宁.雷达影像干涉测量原理[M]. 武汉:武汉大学出版社, 2003. Shu Ning. Principle of Interferometry Measurement of Radar Images[M]. Wuhan:Wuhan University Press, 2003.
[9] 孙晓鹏,鲁小丫,文学虎,等.基于SBAS-InSAR的成都平原地面沉降监测[J].国土资源遥感, 2016,28(3):123-129. Sun Xiaopeng, Lu Xiaoya, Wen Xuehu, et al. Monitoring of Ground Subsidence in Chengdu Plain Using SBAS-InSAR[J]. Remote Sensing for Land and Resources, 2016, 28(3):123-129.
[10] 胡乐银,张景发,商晓青.SBAS-InSAR技术原理及其在地壳形变监测中的应用[C]//谢富仁.地壳构造与地壳应力文集. 北京:中国地震局地壳应力研究所, 2010:82-89. Hu Yueyin, Zhang Jingfa, Shang Xiaoqing. SBAS-InSAR Technology and Its Application in Monitoring the Crustal Deformation[C]//Xie Furen. Crustal Structure and Stress Proceedings. Beijing:The Institute of Crustal Dynamics, 2010:82-89.
[11] 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):2375-2382.
[12] 王超,张红,刘智. 合成孔径雷达干涉测量[M]. 北京:科学出版社,2002. Wang Chao, Zhang Hong, Liu Zhi. Synthetic Aperture Radar Interferometry[M]. Beijing:Science Press, 2002.
[13] Lanari R, Casu F, Manzo M, et al. Application of the SBAS-DInSAR Technique to Fault Creep:A Case Study of the Hayward Fault, California[J]. Remote Sensing of Environment, 2006, 109(1):20-28.
[14] Casu F, Manzo M, Lanari R. A Quantitative Assessment of the SBAS Algorithm Performance for Surface Deformation Retrieval from D-InSAR Data[J].Remote Sensing of Environment, 2006, 102(3/4):195-210.
[15] 李珊珊,李志伟,胡俊,等.SBAS-InSAR技术监测青藏高原季节性冻土形变[J].地球物理学报,2013,56(5):1476-1486. Li Shanshan, Li Zhiwei, Hu Jun, et al. Investigation of the Seasonal Oscillation of the Permafrost over Qinghai-Tibet Plateau with SBAS-InSAR Algorithm[J].Chinese Journal of Geophysics, 2013, 56(5):1476-1486.
[16] 曹淑敏,肖恭伟,辛锴. 基于PS-InSAR和SBAS-InSAR技术的北京地区地面沉降对比分析[J]. 测绘与空间地理信息,2016, 39(10):40-42. Cao Shumin, Xiao Gongwei, Xin Kai. Deformation Monitoring Research of Land in Beijing Based on the PS-InSAR and SBAS-InSAR[J]. Geomatics and Spatial Information Technology, 2016,39(10):40-42.
[17] 陈志谋,陈金座,罗楚楚,等.利用小基线集技术(SBAS)监测泉州地区地表形变[J].测绘工程,2017,26(7):36-40. Chen Zhimou, Chen Jinzuo, Luo Chuchu, et al. Monitoring the Ground Deformation in Quanzhou Area with Small Baseline Subset[J]. Engineering of Surveying and Mapping, 2017, 26(7):36-40.
[18] 唐桂彬,李俊锋,杨爱玲.小基线集技术在地面沉降监测中的应用[J].测绘与空间地理信息,2014,37(12):165-168. Tang Guibin, Li Junfeng, Yang Ailing. The Use of SBAS-InSAR Technology in Ground Subsidence Monitoring[J]. Geomatics & Spatial Information Technology, 2014, 37(12):165-168.
[19] Mora O, Mallorqui J J, Broquetas A. Linear and Nonlinear Terrain Deformation Maps from a Reduced Set of Interferometric SAR Images[J].IEEE Transactions on Geosciences and Remote Sensing, 2003, 41(10):2243-2253.
[20] Hassen R. Radar Interferometry, Data Interpretation and Error Analysis[M/OL]. Kluwer Academic Publishers, 2001. doi:10.1007/0-306-47633-9.
[21] 地面沉降干涉雷达数据处理技术规程:DD2014-11[S].北京:中国地质调查局,2014. Technical Specification for Data Processing of Ground Subsidence Interferometry Radar:DD2014-11[S].Beijing:China Geological Survey, 2014.
[22] 刘建方.河南省平原区活动断裂特征及其工程防范初探[J]. 河南地质,1996,14(4):305-308. Liu Jianfang.Characteristics of Active Faults and Engineering Prevention in Henan Plain Area[J]. Henan Gology, 1996, 14(4):305-308.
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