摘要
The 1927 Gulang M_S8.0 earthquake is a severe earthquake that followed the Haiyuan M_S8.5 earthquake of 1920 in the Qilian Mt._Hexi Corridor earthquake zone. There are divergences of opinion in the previous studies about the rupture properties of the earthquake. Based on trenching and field investigation, and analysis of historical data, we hold that the earthquake resulted from the joint process of the Tianqiaogou_Huangyangchuan fault, Dongqingding segment of the Huangcheng_Shuangta fault and the Wuwei_Tianzhu buried fault, which constitute the Gulang nappe. By finite_element numerical simulation on the deformation mechanism of Gulang nappe, it is found that the stress and strain mainly concentrate in the western segment of the Tianqiaogou_Huangyangchuan fault, the Dongqingding segment of the Huangcheng_Shuangta fault, and the Gulangxia segment of the Wuwei_Tianzhu buried fault and the Gulang_Shuangta fault. The stress concentration coincides with the distribution of the earthquake surface rupture. It also proves that the earthquake is an outcome of the Gulang nappe activity as a whole.
The 1927 Gulang Ms8.0 earthquake is a severe earthquake that followed the Haiyuan Ms8.5 earthquake of 1920 in the Qilian Mt.-Hexi Corridor earthquake zone. There are divergences of opinion in the previous studies about the rupture properties of the earthquake. Based on trenching and field investigation, and analysis of historical data, we hold that the earthquake resulted from the joint process of the Tianqiaogou-Huangyangchuan fault, Dongqingding segment of the Huangcheng-Shuangta fault and the Wuwei-Tianzhu buried fault, which constitute the Gulang nappe. By finite-element numerical simulation on the deformation mechanism of Gulang nappe, it is found that the stress and strain mainly concentrate in the western segment of the Tianqiaogou-Huangyangchuan fault, the Dongqingding segment of the Huangcheng-Shuangta fault, and the Gulangxia segment of the Wuwei-Tianzhu buried fault and the Gulang-Shuangta fault. The stress concentration coincides with the distribution of the earthquake surface rupture. It also proves that the earthquake is an outcome of the Gulang nappe activity as a whole.
基金
TheworkwassponsoredbytheJointEarthquakeScienceFoundationofChinaEarthquakeAdministration(ItemNumber:102055,604018),ContributionNumber:LC20040051ofLanzhouBaseofInstituteofEarthquakePrediction,CEA.
