{"title":"利用三维速度模型进行地震定位及其对京津冀地区发震断层的影响","authors":"Jinxin Hou , Yunpeng Zhang , Liwei Wang , Zhirong Zhao","doi":"10.1016/j.eqrea.2023.100256","DOIUrl":null,"url":null,"abstract":"<div><p>To enhance the understanding of the geometry and characteristics of seismogenic faults in the Beijing-Tianjin-Hebei region, we relocated 14 805 out of 16 063 earthquakes (113°E−120°E, 36°N–43°N) that occurred between January 2008 and December 2020 using the double-difference tomography method. Based on the spatial variation in seismicity after relocation, the Beijing–Tianjin–Hebei region can be divided into three seismic zones: Xingtai–Wen'an, Zhangbei–Ninghexi, and Tangshan. (1) The Xingtai–Wen'an Seismic Zone has a northeast-southwest strike. The depth profile of earthquakes perpendicular to the strike reveals three northeast-striking, southeast-dipping, high-angle deep faults (>10 km depth), including one below the shallow (<10 km depth) listric, northwest-dipping Xinghe fault in the Xingtai region. Two additional deep faults in the Wen'an region are suggested to be associated with the 2006 <em>M</em> 5.1 Wen'an Earthquake and the 1967 <em>M</em> 6.3 Dacheng earthquake; (2) The Zhangbei-Ninghexi Seismic Zone is oriented north-northwest. Multiple northeast-striking faults (10–20 km depth), inferred from the earthquake-intensive zones, exist beneath the shallow (<10 km depth) Xiandian Fault, Xiaotangshan Fault, Huailai-Zhuolu Basin North Fault, Yangyuan Basin Fault and Yanggao Basin North Fault; (3) In the Tangshan Seismic Zone, earthquakes are mainly concentrated near the northeast-striking Tangshan-Guye Fault, Lulong Fault, and northwest-striking Luanxian-Laoting Fault. An inferred north-south-oriented blind fault is present to the north of the Tangshan-Guye Fault. The 1976 <em>M</em> 7.8 Tangshan earthquake occurred at the junction of a shallow northwest-dipping fault and a deep southeast-dipping fault. This study emphasizes that earthquakes in the region are primarily associated with deep blind faults. Some deep blind faults have different geometries compared to shallow faults, suggesting a complex fault system in the region. Overall, this research provides valuable insights into the seismogenic faults in the Beijing–Tianjin–Hebei region. Further studies and monitoring of these faults are essential for earthquake mitigation efforts in this region.</p></div>","PeriodicalId":100384,"journal":{"name":"Earthquake Research Advances","volume":"4 2","pages":"Article 100256"},"PeriodicalIF":0.0000,"publicationDate":"2024-04-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.sciencedirect.com/science/article/pii/S2772467023000532/pdfft?md5=ab0b32f798a88e8418d94b56dca50570&pid=1-s2.0-S2772467023000532-main.pdf","citationCount":"0","resultStr":"{\"title\":\"Earthquake relocation using a 3D velocity model and implications on seismogenic faults in the Beijing-Tianjin-Hebei region\",\"authors\":\"Jinxin Hou , Yunpeng Zhang , Liwei Wang , Zhirong Zhao\",\"doi\":\"10.1016/j.eqrea.2023.100256\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p>To enhance the understanding of the geometry and characteristics of seismogenic faults in the Beijing-Tianjin-Hebei region, we relocated 14 805 out of 16 063 earthquakes (113°E−120°E, 36°N–43°N) that occurred between January 2008 and December 2020 using the double-difference tomography method. Based on the spatial variation in seismicity after relocation, the Beijing–Tianjin–Hebei region can be divided into three seismic zones: Xingtai–Wen'an, Zhangbei–Ninghexi, and Tangshan. (1) The Xingtai–Wen'an Seismic Zone has a northeast-southwest strike. The depth profile of earthquakes perpendicular to the strike reveals three northeast-striking, southeast-dipping, high-angle deep faults (>10 km depth), including one below the shallow (<10 km depth) listric, northwest-dipping Xinghe fault in the Xingtai region. Two additional deep faults in the Wen'an region are suggested to be associated with the 2006 <em>M</em> 5.1 Wen'an Earthquake and the 1967 <em>M</em> 6.3 Dacheng earthquake; (2) The Zhangbei-Ninghexi Seismic Zone is oriented north-northwest. Multiple northeast-striking faults (10–20 km depth), inferred from the earthquake-intensive zones, exist beneath the shallow (<10 km depth) Xiandian Fault, Xiaotangshan Fault, Huailai-Zhuolu Basin North Fault, Yangyuan Basin Fault and Yanggao Basin North Fault; (3) In the Tangshan Seismic Zone, earthquakes are mainly concentrated near the northeast-striking Tangshan-Guye Fault, Lulong Fault, and northwest-striking Luanxian-Laoting Fault. An inferred north-south-oriented blind fault is present to the north of the Tangshan-Guye Fault. The 1976 <em>M</em> 7.8 Tangshan earthquake occurred at the junction of a shallow northwest-dipping fault and a deep southeast-dipping fault. This study emphasizes that earthquakes in the region are primarily associated with deep blind faults. Some deep blind faults have different geometries compared to shallow faults, suggesting a complex fault system in the region. Overall, this research provides valuable insights into the seismogenic faults in the Beijing–Tianjin–Hebei region. 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引用次数: 0
摘要
为加深对京津冀地区发震断层几何特征的认识,我们采用双差分断层成像方法对 2008 年 1 月至 2020 年 12 月间发生的 16 063 次地震(东经 113°-120°,北纬 36°-43°)中的 14 805 次地震进行了搬迁。根据搬迁后地震活动的空间变化,可将京津冀地区划分为三个地震带:邢台-文安、张北-宁河西和唐山。(1) 邢台-文安地震带呈东北-西南走向。垂直于走向的地震深度剖面显示有三条东北走向、东南倾的高角度深断层(深度 10 千米),其中一条位于邢台地区浅层(深度 10 千米)列层状、西北倾的邢河断层之下。文安地区的另外两条深断层被认为与 2006 年 M 5.1 文安地震和 1967 年 M 6.3 大成地震有关;(2)张北-宁河西地震带呈北北西走向。根据地震密集区推断,在浅层(10 km 深)寻甸断裂、小汤山断裂、怀来-涿鹿盆地北断裂、阳原盆地断裂和阳高盆地北断裂下存在多条东北走向断层(10-20 km 深);(3) 在唐山地震带,地震主要集中在东北走向的唐山-古冶断层、卢龙断层和西北走向的滦县-老亭断层附近。在唐山-古冶断层的北面有一条推断为南北走向的盲断层。1976 年 M 7.8 级唐山地震发生在西北向倾斜的浅断层和东南向倾斜的深断层交界处。这项研究强调,该地区的地震主要与深盲断层有关。与浅层断层相比,一些深层盲断层具有不同的几何形状,这表明该地区的断层系统十分复杂。总之,这项研究为了解京津冀地区的发震断层提供了宝贵的资料。对这些断层的进一步研究和监测对该地区的防震减灾工作至关重要。
Earthquake relocation using a 3D velocity model and implications on seismogenic faults in the Beijing-Tianjin-Hebei region
To enhance the understanding of the geometry and characteristics of seismogenic faults in the Beijing-Tianjin-Hebei region, we relocated 14 805 out of 16 063 earthquakes (113°E−120°E, 36°N–43°N) that occurred between January 2008 and December 2020 using the double-difference tomography method. Based on the spatial variation in seismicity after relocation, the Beijing–Tianjin–Hebei region can be divided into three seismic zones: Xingtai–Wen'an, Zhangbei–Ninghexi, and Tangshan. (1) The Xingtai–Wen'an Seismic Zone has a northeast-southwest strike. The depth profile of earthquakes perpendicular to the strike reveals three northeast-striking, southeast-dipping, high-angle deep faults (>10 km depth), including one below the shallow (<10 km depth) listric, northwest-dipping Xinghe fault in the Xingtai region. Two additional deep faults in the Wen'an region are suggested to be associated with the 2006 M 5.1 Wen'an Earthquake and the 1967 M 6.3 Dacheng earthquake; (2) The Zhangbei-Ninghexi Seismic Zone is oriented north-northwest. Multiple northeast-striking faults (10–20 km depth), inferred from the earthquake-intensive zones, exist beneath the shallow (<10 km depth) Xiandian Fault, Xiaotangshan Fault, Huailai-Zhuolu Basin North Fault, Yangyuan Basin Fault and Yanggao Basin North Fault; (3) In the Tangshan Seismic Zone, earthquakes are mainly concentrated near the northeast-striking Tangshan-Guye Fault, Lulong Fault, and northwest-striking Luanxian-Laoting Fault. An inferred north-south-oriented blind fault is present to the north of the Tangshan-Guye Fault. The 1976 M 7.8 Tangshan earthquake occurred at the junction of a shallow northwest-dipping fault and a deep southeast-dipping fault. This study emphasizes that earthquakes in the region are primarily associated with deep blind faults. Some deep blind faults have different geometries compared to shallow faults, suggesting a complex fault system in the region. Overall, this research provides valuable insights into the seismogenic faults in the Beijing–Tianjin–Hebei region. Further studies and monitoring of these faults are essential for earthquake mitigation efforts in this region.
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