ISSN 1003-8035 CN 11-2852/P

    甘肃积石山Ms 6.2级地震的同震地质灾害基本特征及风险防控建议

    Basic characteristics of co-seismic geological hazards induced by Jishishan Ms 6.2 earthquake and suggestions for their risk control

    • 摘要: 2023年12月18日甘肃省临夏州积石山县发生Ms 6.2级地震,引发了大量地质灾害,威胁人民生命与基础设施的安全。地震后,甘肃、青海两省迅速开展地质灾害隐患核查,文章基于这次地震地质灾害调查成果,对积石山地震诱发地质灾害的特征、控制因素、发展趋势进行了分析,提出防灾减灾措施建议。截至12月23日,共核查隐患点2044处,包括78处新增地质灾害隐患、88处地震加剧变形的在库隐患点和1878处无明显变形的在库隐患点。新增和变形加剧的隐患点数量以崩塌居多,占67.5%,滑坡次之,占31.9%;规模等级以小型居多,占84.9%,中型次之,占10.8%;成灾模式多为小型崩塌威胁房屋和道路。同震地质灾害密集分布于发震断层附近,发育密度随地震烈度增强而增大。国家地质安全监测台网震中50 km范围内206组加速度计数据显示,震区峰值加速度为30.4~1969.7 mg,并随与震中距离的增大呈对数衰减。此外,地表变形监测设备也记录了典型滑坡的同震位移曲线。分析认为,积石山地震地质灾害后效应与链式致灾效应将增强,建议尽快更新震区地质灾害隐患点数据库,有针对性地实施风险防控措施,深入开展综合遥感监测与同震地质灾害机理研究,完善气象预警模型及阈值,有效降低地质灾害风险。

       

      Abstract: On December 18, 2023, an Ms 6.2earthquake occurred in Jishishan County, Linxia Prefecture, Gansu Province, causing a large number of geological disasters and threatening people's lives and the safety of infrastructure. After the earthquake, Gansu and Qinghai provincial governments quickly deployed hundreds of geology professionals to carried out the investigation and verification geological disasters in the earthquake area. Based on the results of the earthquake geohazard investigation and verification, this paper analyses the characteristics, control factors and development trend of the earthquake-induced geohazards, and puts forward suggestions on disaster prevention and risk mitigation measures. Till December 23, a total of 2044 geohazards have been checked, including 78 new geohazards, 88 existing geohazards with intensified deformation due to earthquake, and 1 878 existing geohazards without obvious different from before. Most of new and intensified deforming geohazards are collapse, accounting for 67.5%, followed by landslide, accounting for 31.9%. Most of new and intensified deforming geohazards are small in scale, accounting for 84.9%, followed by medium, accounting for 10.8%. Disaster mode of new and intensified deforming geohazards are mostly small collapse threatening houses and roads. The co-seismic geohazards are densely distributed along the seismic fault, and the spatial density increases with the enhancement of earthquake intensity. Data from 206 groups of accelerate-meters within 50 km from the epicenter of the National Geological Safety Monitoring Network showed that the peak acceleration of the earthquake area was 30.4~1969.7 mg. and decayed logarithm with the increase of the distance from the epicenter. In addition, the surface deformation monitoring equipment also recorded the co-seismic displacement curve of a typical landslide. Analysis shows, earthquake put a deteriorate effect to rock and soil, which decreased their integration and strength. There is a magnificent geohazard after-effect of earthquake; collapse, landslide and debris flow will be much often than before. So the authors suggest: (1) update earthquake geohazard database as soon as possible, (2) work out targeted prevention and control measures for the geohazards with large potential danger, (3) conduct comprehensive remote sensing monitoring and research of earthquake-induced geohazard mechanism, (4) improve the meteorological early warning model and threshold. By all this efforts the risk of geohazards after earthquake will be reduced and controlled.

       

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