摘要
In this study,under the assumption that the two huge leveling deformation anomalies at Linfen seismic station were caused by the Luoyunshan fault( Tumen-Yuli section)movement, we computed the vertical deformation field distribution based on the rectangular fault dislocation model and measured the ground deformation field of the study area using D-InS AR technology. The results are as follows:( 1) Theoretically,the ground vertical deformation field caused by fault movement could be within the elliptical deformation area with the long axis parallel to the fault strike. The largest deformation region is located in the center of the area in the hanging wall of the fault,and the deformation gradually decreases to zero toward the periphery; the impact range induced by the two deformations is respectively as follows: The long axes are about 18 km and26km,the short axes are about 12 km and 17 km and the obvious deformation amplitude is about 1- 3mm and 4- 14 mm.( 2) The measured deformation field by D-InS AR shows that there is no continuous deformation area consistent with the fault strike,and only the presence of land subsidence possibly caused by groundwater excessive exploitation,with the deformation amplitude about 10- 12 mm and 1- 5mm.( 3) The measured deformation field is not consistent with the theoretical result on deformation area and amplitude,which indicates that the fault movement is not the main cause of Linfen huge leveling deformation,but may rather be because of local deformation of the soil layers in the hanging wall of the fault.( 4) By combining the fault dislocation model simulation with the D-InS AR technology measurement,we can determine effectively the nature of the anomalyof the huge cross-fault leveling deformation,thus provide scientific basis for verification of significant leveling anomalies.
In this study, under the assumption that the two huge leveling deformation anomalies at Linfen seismic station were caused by the Luoyunshan fault (Tumen-Yuli section ) movement, we computed the vertical deformation field distribution based on the rectangular fault dislocation model and measured the ground deformation field of the study area using D-InSAR technology. The results are as follows: (1) Theoretically, the ground vertical deformation field caused by fault movement could be within the elliptical deformation area with the long axis parallel to the fault strike. The largest deformation region is located in the center of the area in the hanging wall of the fault, and the deformation gradually decreases to zero toward the periphery; the impact range induced by the two deformations is respectively as follows: The long axes are about 18km and 26km, the short axes are about 12km and 17km and the obvious deformation amplitude is about 1 - 3mm and 4 - 14mm. ( 2 ) The measured deformation field by D-InSAR shows that there is no continuous deformation area consistent with the fault strike, and only the presence of land subsidence possibly caused by groundwater excessive exploitation, with the deformation amplitude about 10 -12mm and 1 -5mm. (3) The measured deformation field is not consistent with the theoretical result on deformation area and amplitude, which indicates that the fault movement is not the main cause of Linfen huge leveling deformation, but may rather be because of local deformation of the soil layers in the hanging wall of the fault. (4) By combining the fault dislocation model simulation with the D-InSAR technology measurement, we can determine effectively the nature of the anomalyof the huge cross-fault leveling deformation, thus provide scientific basis for verification of significant leveling anomalies.
基金
supported by the Science and Technology Project of Shanxi Province(20140313023-1)
the special earthquake research project of China Earthquake Administration(201208009)
Natural Science Foundation of Shanxi
China(2011021024-1)
关键词
形变异常
位错模型
变形区
短水准
地震台
特性模拟
临汾
D-INSAR
The leveling at Linfen seismic station Huge deformation Fault dislocationmodel D-InSAR Anomaly property determination
