Determining the rupture directivity for small earthquakes is challenging due to the small source dimension and limited resolution of far-field observations.In recent years,the burst of near-source observations provide...Determining the rupture directivity for small earthquakes is challenging due to the small source dimension and limited resolution of far-field observations.In recent years,the burst of near-source observations provides great opportunities to study earthquake rupture.Here we present the rapid determination of the rupture directivity for the 2024 Feidong M4.7 earthquake using only one strong motion station located 4 km from the epicenter.We find that the polarization of S waves evolves during the rupture,indicating an azimuth change during the rupture propagation.Through comparing the data with the synthetic waveforms,we infer that the M4.7 event propagated dominantly to the southwest on the dextral Tanlu fault.Our inference is further validated through comparing the data with records at local stations for M3 earthquakes in the Feidong sequence.Our study highlights the superior application of near-source observations in earthquake source studies.展开更多
Depths of earthquake occurrence and large slip distribution are critical for seismic hazard assessment.Numerous examples show that earthquakes with similar magnitudes,however,can result in significantly different grou...Depths of earthquake occurrence and large slip distribution are critical for seismic hazard assessment.Numerous examples show that earthquakes with similar magnitudes,however,can result in significantly different ground shaking and damage.One of the critical factors is that whether the large slip was generated near the ground surface.In this article,we reviewed two aspects that are important on this regard,shallow slip deficit and nucleation depth.Understanding how shallow future earthquakes may nucleate in particular regions,such as shale gas fields,is critical for hazard assessment.Whether or not a strong earthquake may slip significantly at shallow depths(less than 3 km)plays crucial rules in seismic hazard preparation and should be further investigated by integrating high-resolution fault zone observations,dynamic rupture simulation,and fault zone properties.Moreover,precisely resolving shallow depth and slip distribution of earthquakes demands InSAR and/or other image data that can better capture the near-fault deformation to constrain the source parameters of earthquakes.展开更多
基金Suli Yao is partially supported by a Postdoc Fellowship from Faculty of Science,CUHK.Hongfeng Yang acknowledged the support from National Key R&D Program of China(No.2023YFF0803202)and HKSAR RGC(No.14308523)Zhigao Yang acknowledged the support from the Earthquake Spark Technology Project(No.XH23051B).
文摘Determining the rupture directivity for small earthquakes is challenging due to the small source dimension and limited resolution of far-field observations.In recent years,the burst of near-source observations provides great opportunities to study earthquake rupture.Here we present the rapid determination of the rupture directivity for the 2024 Feidong M4.7 earthquake using only one strong motion station located 4 km from the epicenter.We find that the polarization of S waves evolves during the rupture,indicating an azimuth change during the rupture propagation.Through comparing the data with the synthetic waveforms,we infer that the M4.7 event propagated dominantly to the southwest on the dextral Tanlu fault.Our inference is further validated through comparing the data with records at local stations for M3 earthquakes in the Feidong sequence.Our study highlights the superior application of near-source observations in earthquake source studies.
基金This work was supported by National Key R&D Program of China(No.2018YFC1503400)China Earthquake Science Experiment Project,CEA(Nos.2018CSES0101,2018CSES0102,and 2019CSES0107)+2 种基金Hong Kong Research Grant Council Grants(Nos.14306418,and 14304820)NSFC/RGC Joint Scheme(N_CUHK430/16)Faculty of Science at CUHK.The authors thank Dr.Pengcheng Zhou and Miss Xiang Chen for help produce the figures.
文摘Depths of earthquake occurrence and large slip distribution are critical for seismic hazard assessment.Numerous examples show that earthquakes with similar magnitudes,however,can result in significantly different ground shaking and damage.One of the critical factors is that whether the large slip was generated near the ground surface.In this article,we reviewed two aspects that are important on this regard,shallow slip deficit and nucleation depth.Understanding how shallow future earthquakes may nucleate in particular regions,such as shale gas fields,is critical for hazard assessment.Whether or not a strong earthquake may slip significantly at shallow depths(less than 3 km)plays crucial rules in seismic hazard preparation and should be further investigated by integrating high-resolution fault zone observations,dynamic rupture simulation,and fault zone properties.Moreover,precisely resolving shallow depth and slip distribution of earthquakes demands InSAR and/or other image data that can better capture the near-fault deformation to constrain the source parameters of earthquakes.
