地震地质 ›› 2021, Vol. 43 ›› Issue (3): 504-520.DOI: 10.3969/j.issn.0253-4967.2021.03.003

• 研究论文 • 上一篇    下一篇

渭河盆地北缘口镇-关山断层的晚第四纪—现今的活动性

杨晨艺, 李晓妮, 冯希杰, 朱琳, 李苗, 张恩会   

  1. 陕西省地震局, 西安 710068
  • 收稿日期:2020-05-18 修回日期:2020-07-08 出版日期:2021-06-20 发布日期:2021-07-20
  • 作者简介:杨晨艺, 女, 1989年生, 2015年于西北大学获构造地质学专业硕士学位, 工程师, 主要从事地震地质与中长期地震预测研究, 电话: 029-88465331, E-mail: ycy19891228@126.com。
  • 基金资助:
    中国地震局三结合项目(162702)和陕西省“十二五”重点项目“关中地区大震危险性评价”共同资助

THE LATE QUATERNARY AND PRESENT-DAY ACTIVITIES OF THE KOUZHEN-GUANSHAN FAULT ON THE NORTHERN BOUNDARY OF WEIHE GRABEN BASIN, CHINA

YANG Chen-yi, LI Xiao-ni, FENG Xi-jie, ZHU Lin, LI Miao, ZHANG En-hui   

  1. Shaanxi Earthquake Agency, Xi'an 710068, China
  • Received:2020-05-18 Revised:2020-07-08 Online:2021-06-20 Published:2021-07-20

摘要: 近EW向的口镇-关山断层斜切了NEE向的渭河盆地北缘活动断裂带。 文中基于野外补充调查结果, 结合跨断层水准和蠕变仪监测资料研究了该断层晚第四纪—现今的活动性, 补充了该断层晚第四纪活动的证据, 分析了东、 西2个断层段现今的活动特征与差异, 获得以下新认识: 1)口镇-关山断层为S倾的正-左旋斜滑断层, 也是为调节渭河盆地不同段落非均匀拉张而形成的斜向调节断层, 其晚第四纪垂直错断地层8.8m, 左旋错断冲沟约34m, 垂直和左旋滑动速率分别为>0.13mm/a和>0.49mm/a。 2)形变监测反映该断层正在发生正-左旋斜滑型的蠕滑运动; 其中, 断层西段的蠕动相对稳定, 垂直和左旋蠕动速率分别为0.16~0.76mm/a和0.42~0.78mm/a, 横向水平拉张速率为0.15~0.26mm/a; 断层东段正断分量的垂直蠕动速率为1.56mm/a, 大于西段, 且表现出阶跃式或幕式蠕滑特征, “阶跃期”(2012—2014年)速率达13mm/a的蠕动可能代表1次慢滑移事件。 这些现象表明中国大陆拉张构造环境的活动断层也能发生蠕动。 3)沿该断层的地震活动以及地表地裂缝带的发育与该断层的蠕动作用密切相关。

关键词: 口镇-关山断层, 晚第四纪断层活动, 跨断层形变监测, 断层蠕滑, 幕式蠕滑

Abstract: The Kouzhen-Guanshan Fault trends in near E-W direction and obliquely cuts the active NEE-striking northern boundary fault zone of the Weihe Graben Basin, a fault zone that constitutes the boundary between Weihe Graben Basin and the Ordos block. Medium to small earthquakes occur frequently along the fault. Since the 1980s, a series of researches have been carried out on this fault, and certain cognition has been gained on its geometry, kinematics, tectonic evolution, recent activity and seismogenic capacity. However, most of the eastern segment of the fault is concealed in the Quaternary sediments of Weihe Graben Basin, and the corresponding research and attention are less. By conducting new field geological surveys and combining data from fault-crossing leveling and creepmeter observation, we studied the activities of the Kouzhen-Guanshan Fault during the late Quaternary and in the recent decades, supplemented the geological evidence of fault activity in the late Quaternary, and analyzed the characteristics and differences of tectonic activities on the western and eastern segments of the fault. Our research provides new insights as follows: 1)For the Kouzhen-Guanshan Fault, previous geological surveys were mainly carried out in the western segment with a focus on studying the vertical movement. It is considered that the fault activity has been stronger in the western segment and weaker in the eastern segment since the late Pleistocene. Our field investigation of three geologic cross-sections on the eastern bank of the Shichuan River in the eastern segment provides the understanding of the geological activity on the eastern segment. It reveals that the eastern segment of the Kouzhen-Guanshan Fault has a vertical motion component since the late Pleistocene, where the late Pleistocene stratum has been vertically offset by 8.8m, yielding a vertical slip rate of >0.13mm/a. At places between the central and western segments of the fault, the offset gullies were gradually cut down after the accumulation of loess layer L1, and the age of S1 at the bottom of L1 can represent the lower limit of the left-lateral dislocation age of these gullies. The horizontally-faulted geomorphic features produced in the late Pleistocene have an average left-lateral displacement of 34m, which yields a left-lateral strike-slip rate of >0.49mm/a. These suggest that the Kouzhen-Guanshan Fault is a normal-sinistral oblique-slip one dipping steeply to the south; it would also be a growing transfer fault to adjust the non-uniform horizontal extension between segments of the Weihe Basin by obliquely cutting the northern boundary fault zone of the Basin. 2)Creeping movement is found to occur continuously on two connecting segments of the Kouzhen-Guanshan Fault at least in the last more than 30 years. Fault-crossing leveling observation for more than 30 years has been carried out on the Kouzhen and Jingyang sites on the western segment of the fault, respectively, and fault-crossing creepmeter observation has been carried out for nearly 7 years at Jingyang site, both of which have detected the present activity characteristics of the western segment of the fault. Among them, the two fault-crossing leveling observation time series show that the trends of vertical creep movement are basically the same since 1986. The creepmeter observation at Jingyang site shows that the fault has experienced continuously normal-sinistral creeping, and the horizontal-transverse stretching alternates with sinistral creeping since 2012. At Kangcun site on the western segment of the fault, fault-crossing leveling observation has been carried out for nearly 20 years. For the western segment, the fault creep is relatively stable with time and shows normal-sinistral oblique-creep faulting with the rates of 0.16~0.76mm/a for the vertical component, 0.42~0.78mm/a for the sinistral-creep component, and 0.15~0.26mm/a for the horizontal-transverse stretching component, respectively. Although technical means to observe or detect horizontal deformation are absent on the eastern segment of the fault, the campaign leveling surveys suggest that the fault creep on this segment has an average rate of 1.59mm/a for the vertical component(relative decline in the southern part of the fault)and shows a time series pattern of “step-like” or “episodic” creep, and the fault creep here with a rate as high as 13mm/a during the “step-like” period(2011 to 2014)may represent one slow slip event. 3)The present vertical creeping velocity of the eastern and western segments of the fault is different. The creep rate of the eastern segment is higher than that in the west, which may reflect the eastern segment of the fault is closer to the core of Weihe Graben Basin in space. This inference can be derived from the evidence that the new activity of the fault zone in the northern margin of Weihe Graben Basin, the development of ground fissures belt and seismicity along the Kouzhen-Guanshan Fault are all stronger in the eastern segment. 4)Both the seismicity and the cause of ground fissures belt along the Kouzhen-Guanshan Fault are closely related to the motion of normal-sinistral oblique-creep on this fault, which is controlled by the fault activity and should be the reflection of the surface macroscopic deformation of creeping. 5)The observed creeping movement on the Kouzhen-Guanshan Fault, especially, the phenomenon of “episodic” creep(rarely reported in China)in the vertical motion component on the eastern segment of the fault, proves that slow slip or creep may also occur on faults in tectonically active tensional environments of mainland China. There is obvious difference of normal creep faulting in the eastern and western segments of the fault. It is further necessary to study the differences in the friction properties of the fault segments reflected by the differences in the creep characteristics of these two segments, as well as seismic tectonic and seismic precursory implications of creeping with different characteristics. We therefore suggest strengthening the monitoring of the fault motion and the study of potential seismic hazards. 6)Regarding the “step-like” or “episodic” creep of the fault, the existing research mainly comes from the strike-slip fault. It is found that the present vertical motion component of the Kouzhen-Guanshan Fault shows obvious “step-like” or “episodic” creep characteristics. Therefore, it is necessary to study the relationship between the creeping effect and the phenomenon of seismicity and ground fissures alone the fault. In the future, we intend to combine the microseismic activity and fault friction theory to study the possible mechanism of the “episodic” creep, as well as the tectonic and seismic precursory implications of slow slip events similar to those observed at Kangcun site during 2012—2014.

Key words: the Kouzhen-Guanshan Fault, late-Quaternary fault activity, fault-crossing geodetic surveys, fault creep, episodic creep

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