The Qilian Mountain active source network data was processed using the methods of stacking, cross-correlation and interpolation, and the airgun travel time variation characteristics of P and S waves around the January...The Qilian Mountain active source network data was processed using the methods of stacking, cross-correlation and interpolation, and the airgun travel time variation characteristics of P and S waves around the January 21,2016 MS6. 4 Menyua,Qinghai earthquake. The results show that about 6 months before the earthquake,the relative travel time of three stations near the epicenter showed a declined change( travel time decrease),and such a change of low value anomaly was recovered about 3 months before the earthquake. The travel time decrease then appeared again, and the earthquake occurred during the recovery process. The maximum decrease of the S-wave travel time was 18 ms,and the change in travel time returned to normal after the earthquake. The variation trend of the 3 stations is consistent,including the S-wave travel time change of station ZDY38,which is nearest to the epicenter and changed obviously,and the variation range of the travel time is smaller at the stations afar. This variation pattern is related to the position of the seismic source. The shorter travel time means the velocity increase,which may be related to the regional stress accumulation.展开更多
基金jointly funded by the Sparkle Program of China Earthquake Administration(XH17039)the Project on the Surface of the National Natural Science Foundation of China(41574044)
文摘The Qilian Mountain active source network data was processed using the methods of stacking, cross-correlation and interpolation, and the airgun travel time variation characteristics of P and S waves around the January 21,2016 MS6. 4 Menyua,Qinghai earthquake. The results show that about 6 months before the earthquake,the relative travel time of three stations near the epicenter showed a declined change( travel time decrease),and such a change of low value anomaly was recovered about 3 months before the earthquake. The travel time decrease then appeared again, and the earthquake occurred during the recovery process. The maximum decrease of the S-wave travel time was 18 ms,and the change in travel time returned to normal after the earthquake. The variation trend of the 3 stations is consistent,including the S-wave travel time change of station ZDY38,which is nearest to the epicenter and changed obviously,and the variation range of the travel time is smaller at the stations afar. This variation pattern is related to the position of the seismic source. The shorter travel time means the velocity increase,which may be related to the regional stress accumulation.
