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西大滩隐伏断层位于银川盆地北部,是石嘴山市活断层探测项目的目标断层之一。在浅层地震勘探的基础上,通过钻孔联合剖面探测和钻孔样品年龄测试,获得断层上断点埋深、主要标志层断距及沉积年龄等数据,估算了晚第四纪不同时段断层的滑动速率,结合地层变形情况探讨了该断层晚第四纪的活动特征。结果表明,西大滩隐伏断层自12 275±45aB.P.以来没有发生明显活动,属晚更新世末活动断层;晚更新世以来断层活动偏弱,平均滑动速率为0.024mm/a;除断层活动外,伴随着地层倾斜变形;两者均具间歇活动的特点,最小间隔约6 600a,最大间隔期12 275a。 相似文献
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四川小金抚边河断裂的晚第四纪活动特征 总被引:6,自引:0,他引:6
1989年9月2日小金6.6级地震和本次地震的前震(1989年3月1日的5.0级)及余震(1991年2月18日的5.0级)均发生于小金两河口-木城附近,这3次地震的震中连线及其等烈度线长轴皆大致呈N30°W方向,暗示着该区存在北西向的活动构造。本在航空照片判译和野外实地调查的基础上,初步查明了抚边河断裂的空间展布特征,通过断错地貌的研究,结合热释光(TL)的测龄结果,首次发现了抚边河断裂晚第四纪 相似文献
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由20余条次级断层组成的晚第四纪安宁河断裂是一条以左旋走滑为主兼逆冲性质的断裂。它的发育,展布,组合结构特征都与先存的南北澳断裂紧相关,并表现出明显的分段活动特性。 相似文献
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灵武断裂晚第四纪活动特征及位称速率 总被引:1,自引:1,他引:0
灵武断裂是银川地堑南段的东侧构造边界,与灵一吴忠地区的地震活动有密切的关系,以往研究程度较低。作者通过实际调查、探槽开挖、年代侧定、相关地貌 年代测定、断错历史研究等方面的大量工作对该断层晚第四纪的活动性开展了比较系统的野外考察。本文以野外考察获得的资料为基础,论述了该以晚第四纪的活动特征,估计了其垂直位移速率。 相似文献
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柯坪塔格前缘断裂东段是柯坪推覆构造系前缘的一条活动断裂,野外调查获得了其晚第四纪错断洪积扇、冲沟阶地面的证据,实测了变形地貌面上的断层陡坎,分析了断层的形变量,通过采样测年估算了断层的缩短速率。由7个观测点的断层陡坎剖面测量,计算了观测点处断层的水平缩短速率,结果表明,断裂弧顶部位的五道班、三间房以西及其大山口道班附近,断层错断了Ⅰ级和Ⅱ级洪积扇(阶地)。断层在这些地点最新活动强烈,水平缩短平均速率全新世以来为0·35~0·44mm/a,更新世晚期末以来为0·16~0·30mm/a,而在非弧顶部位的巴楚磷矿、三岔口以北及大山口北断层只错断了更新世晚期Ⅲ级洪积扇,且水平缩短速率较小,断层水平缩短平均速率更新世晚期以来为0·05~0·07mm/a 相似文献
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第四纪松散沉积物中普遍存在断层的隐性现象 ,包括断层的隐形和尖灭 ,给古地震研究带来了复杂性和多解性。选择了一些典型古地震剖面 ,对涉及到断层隐形或尖灭的部位 ,进行了定向原状样品采集 ,通过室内样品固结 ,显微薄片制作和显微构造现象观察 ,从显微域里找到了鉴定隐形断层的许多标志 ,并对断层尖灭机制进行了研究。认为通过显微构造分析 ,排除或肯定隐形断层的存在 ,或者追踪断层尖灭的层位 ,结合宏观剖面研究和年代测定 ,可以使古地震时代和期次判定更准确 相似文献
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The 2014 Jinggu M6.6 earthquake attacked the Jinggu area where few historical earthquakes had occurred and little study has been conducted on active tectonics. The lack of detailed field investigation on active faults and seismicity restricts the assessment of seismic risk of this area and leads to divergent view points with respect to the seismotectonics of this earthquake, so relevant research needs to be strengthened urgently. In particular, some studies suggest that this earthquake triggered the activity of the NE-trending faults which have not yet been studied. By the approaches of remote sensing image interpretation, structural geomorphology investigation and trench excavation, we studied the late Quaternary activity of the faults in the epicenter area, which are the eastern margin fault of Yongping Basin and the Yixiang-Zhaojiacun Fault, and drew the conclusions as follows:
(1)The eastern margin fault of Yongping Basin originates around the Naguai village in the southeastern margin of Yongping Basin,extending northward across the Qiandong, Tianfang, and ending in the north of Tiantou. The fault is about 43km long, striking near SN. The linear characteristic of the fault is obvious in remote sensing images. Structural geomorphological phenomena, such as fault troughs, linear ridges and gully dislocations, have developed along the faults. There are several dextral-dislocated gullies near Naguai village, with displacements of 300m, 220m, 146m, 120m and 73m, respectively, indicating that the fault is a dextral strike-slip fault with long-term activity. In order to further study the activity of the fault, a trench was excavated in the fault trough, the Naguai trench. The trench reveals many faults, and the youngest strata offseted by the faults are Holocene, with 14C ages of(1 197±51)a and(1 900±35)a, respectively. All those suggest that it is a Holocene active fault.
(2)The Yixiang-Zhaojiacun Fault starts at the southeast of the Jinggu Basin, passes through Xiangyan, Yixiang, Chahe, and terminates at the Zhaojiacun. The total length of the fault is about 60km, and is a large-scale NE-trending fault in the Wuliangshan fault zone. Four gullies are synchronously sinistrally dislocated at Yixiang village, with the displacements of 340m, 260m, 240m and 240m, indicating that the fault is a long-term active sinistral strike-slip fault. A trench was excavated in a fault trough in Yixiang village. The trench reveals a small sag pond and a fault. The fault offsets several strata with clear dislocation and linear characteristic. The thickness of strata between the two walls of fault does not match, and the gravels are oriented along fault plane. The offset strata have the 14C age of(2 296±56)a, (3 009±51)a, and(4 924±45)a, respectively, and another two strata have the OSL age of(1.8±0.1)ka, (8.6±0.5)ka respectively, by which we constrained the latest paleoearthquake between(1.8±0.1)ka(OSL-Y01)and(378±48)a BP(CY-07). This again provides further evidence that the fault is a Holocene fault with long-term activity.
(3)Based on the distribution of aftershocks and the predecessor research results, the 2014 Jinggu M6.6 earthquake and the M5.8, M5.9 strong aftershocks are regarded as being caused by the eastern margin fault of Yongping Basin, which is part of the Wuliangshan fault zone. The seismogenic mechanism is that the stress has been locked, concentrated and accumulated to give rise to the quakes in the wedge-shaped area near the intersection of the SN and NE striking faults, which is similar to the seismogenic mechanism in the southwest of Yunnan Province. 相似文献