ANALYSIS OF PRESENT MOVEMENT STATE OF SHANDONGAND SURROUINDING BLOCKS
Yin Haitao 1) ; Wang Qiang 2) ; Zhu Chenglin 1) ; Meng Qiang 3) ; and Li Jie 1)
1)Earthquake Administration of Shandong Province, Jinan 250014;2)Taian Seismostation, Taian 271000;3)Earthquake Administration of Yantai City, Yantai 264000
Abstract In order to study the present movement state of Shandong and surrounding blocks, GPS data from the Crustal Movement Observation Network of China (CMONOC) and the Continuous Observation GPS Network of Shandong Province was used and thus analyzed the baselines between GPS stations on different blocks. Using the K-L best straight line fitting and Slide Fourier method, we got the baselines changes by year cycle, and analyzed the trend of baselines crossing different blocks. In addition,we obtain the present crustal movement characteristics of Shandong and surrounding blocks, and analyzed the influence of Japanese earthquake of 9.0 on Shandong area.
Key words :
crustal movement
Shandong province
GPS
baselines change
seismic risk
Japanese earthquake
Received: 01 January 1900
Corresponding Authors:
Yin Haitao
Cite this article:
Yin Haitao ,Wang Qiang ,Zhu Chenglin et al. ANALYSIS OF PRESENT MOVEMENT STATE OF SHANDONGAND SURROUINDING BLOCKS[J]. , 2011, 31(4): 37-40.
Yin Haitao ,Wang Qiang ,Zhu Chenglin et al. ANALYSIS OF PRESENT MOVEMENT STATE OF SHANDONGAND SURROUINDING BLOCKS[J]. jgg, 2011, 31(4): 37-40.
URL:
http://www.jgg09.com/EN/ OR http://www.jgg09.com/EN/Y2011/V31/I4/37
[1]
ONG Qi,GAO Ertao,YU Hangming,LAN Yanping. Research on the Sensitivity of Deep Slip Inversion for Earthquake Fault Slip Constrained by InSAR and GPS Geodetic Deformation Data [J]. jgg, 2022, 42(1): 59-64.
[2]
YUAN Weina,SHI Fuqiang,WU Jing. Cumulated Stress Changes and Its Implications for Current Seismic Activities in North China [J]. jgg, 2021, 41(9): 939-944.
[3]
WANG Xiaolei,NIU Zijin,HE Xiufeng. Precipitation Analysis and Judgment Based on GPS Water Vapor Retrieval and GPS-IR [J]. jgg, 2021, 41(9): 929-933.
[4]
ZHANG Jian,ZHAO Bin,WANG Dongzhen,WANG Haibin,LIU Zhijun. Probing the Rheological Structure of Southern Tibet from the Postseismic Deformation of the 2015 MW 7.8 Nepal Earthquake [J]. jgg, 2021, 41(8): 827-832.
[5]
MAO Yuanzhe,LU Guojun,MENG Lipeng. Coulomb Fracture Stress Simulation and Seismic Hazard Analysis of Major Faults in Handan Area [J]. jgg, 2021, 41(8): 816-820.
[6]
TIAN Xiao,ZHAN Wei,ZHENG Hongyan,YIN Haiquan. Characteristics of Present-Day 3D Crustal Movement of Sichuan-Yunnan Region [J]. jgg, 2021, 41(7): 739-746.
[7]
TIAN Xiao,ZHENG Hongyan,LI Layue,ZHANG Chao. Analysis of Movement Characteristics and Seismic Hazard of Main Active Faults of Sichuan-Yunnan Region [J]. jgg, 2021, 41(6): 561-567.
[8]
ZHAO Wenhao,LIU Genyou,WANG Shengliang,GAO Ming. GPS-L1/BDS-B1 Non-Overlapping Frequency Tight Combination Relative Positioning [J]. jgg, 2021, 41(6): 618-622.
[9]
HE Rong,TAO Tingye, DING Xin,TAO Zhengguang. Analysis of Noise and Velocity Field in Coordinate Time Series of Anhui CORS [J]. jgg, 2021, 41(4): 368-373.
[10]
LIU Zhongguan,YUAN Linguo,CHEN Changfu,CHENG Shuai,ZHANG Di. Modeling Accuracy Analysis of Ocean Tide Load Displacement in New Zealand [J]. jgg, 2021, 41(4): 387-391.
[11]
DAI Hongbao,TANG Hongtao. Analysis of Tectonic Stress Field Characteristics of Longxian-Baoji Fault Zone Based on GPS Data [J]. jgg, 2021, 41(4): 413-418.
[12]
WANG Dongzhen, ZHAO Bin, YU Jiansheng, TAN Kai. Can Vertical Crustal Deformation Be Monitored by Campaign GPS?——Taking Chinese Mainland as Example [J]. jgg, 2021, 41(3): 290-295.
[13]
LU Tieding, XIE Jianxiong. EEMD-Multiscale Permutation Entropy Noise Reduction Method for GPS Elevation Time Series [J]. jgg, 2021, 41(2): 111-115.
[14]
GAO Chen,CAO Jun,LIU Shufeng,MA Dong,LIU Siyu. The Current Surface Deformation Characteristics of Northern Margin Fault of Yangyuan Basin Based on GPS and SBAS-InSAR [J]. jgg, 2021, 41(12): 1288-1293.
[15]
LU Zhen,GUO Zhi,HUANG Weiliang,ZHANG Pei,LI Jun,ZHANG Yuanyuan. Analysis on the Source Parameters and Seismogenic Structures of 2009 Shaanxi Gaoling ML 4.8 Earthquake [J]. jgg, 2021, 41(11): 1157-1162.