印度Ghuttu首个多参数地球物理观测站地震前、地震中和地震后地表变形的GPS测量

IF 0.9 Q4 REMOTE SENSING Journal of Geodetic Science Pub Date : 2020-01-01 DOI:10.1515/jogs-2020-0114
P. Gautam, S. Rajesh, N. Kumar, C. P. Dabral
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引用次数: 0

摘要

摘要通过对MPGO Ghuttu (GHUT) GPS站地表变形模式的研究,找出GPS连续时间序列中异常行为的原因。利用GAMIT/GLOBK软件对7年(2007-2013)GPS数据进行分析,生成每日位置时间序列。GHUT的水平平移运动为43.7±1 mm/yr,向东北方向为41°±3°,而LHAZ的IGS站的水平平移运动为49.4±1 mm/yr,向东北方向为18±2.5°。GHUT站相对于IISC的估计速度是12±1毫米/年向西南方向。此外,我们还考虑了经验应变半径,考察了局地地震发生前、发生后和发生期间的GHUT时间序列的异常变化;因此,应变半径与地震发生之间的可能关系已被探讨。基于Dobrovolsky应变半径条件,考虑了2007 - 2011年间发生的7次震级在4.5 ~ 5.7级的局地地震。结果表明,与台站应变半径无关,地震前地表变形异常在中高震级地震发生前大约70 ~ 80天就会出现。这一点在Garhwal和Kumaun喜马拉雅的北上隆和Chamoli地震带发生的事件中已经观察到。Garhwal地区短(< 100天)和长(2年)地震间事件的发生合理地调节和扩散了区域应变积累。
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GPS measurements on pre-, co- and post-seismic surface deformation at first multi-parametric geophysical observatory, Ghuttu in Garhwal Himalaya, India
Abstract We investigate the surface deformation pattern of GPS station at MPGO Ghuttu (GHUT) to find out the cause of anomalous behavior in the continuous GPS time series. Seven years (2007-2013) of GPS data has been analyzed using GAMIT/GLOBK software and generated the daily position time series. The horizontal translational motion at GHUT is 43.7 ± 1 mm/yr at an angle of 41°± 3° towards NE, while for the IGS station at LHAZ, the motion is 49.4 ±1 mm/yr at 18 ± 2.5° towards NEE. The estimated velocity at GHUT station with respect to IISC is 12 ± 1 mm/yr towards SW. Besides, we have also examined anomalous changes in the time series of GHUT before, after and during the occurrences of local earthquakes by considering the empirical strain radius; such that, a possible relationship between the strain radius and the occurrences of earthquakes have been explored. We considered seven local earthquakes on the basis of Dobrovolsky strain radius condition having magnitude from 4.5 to 5.7, which occurred from 2007 to 2011. Results show irrespective of the station strain radius, pre-seismic surface deformational anomalies are observed roughly 70 to 80 days before the occurrence of a Moderate or higher magnitude events. This has been observed for the cases of those events originated from the Uttarakashi and the Chamoli seismic zones in the Garhwal and Kumaun Himalaya. Occurrences of short (< 100 days) and long (two years) inter-seismic events in the Garhwal region plausibly regulating and diffusing the regional strain accumulation.
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来源期刊
Journal of Geodetic Science
Journal of Geodetic Science REMOTE SENSING-
CiteScore
1.90
自引率
7.70%
发文量
3
审稿时长
14 weeks
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