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西江断裂鹤山-江门段由了哥山断裂,天台山断裂,鹅公山断裂,岐祥里断裂和横坑里断裂等5条断裂组成,并以斜列形式分布在西江左右岸。断裂明显控制或影响西江水道的发育,在中更新世晚期至晚更新世中晚期曾发生多次活动。与西江断裂的其它断裂段比较,该断裂的活动性地较弱。 相似文献
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在野外地质调查的基础上,通过研究秦皇岛市F1、F2、F3断裂断层泥中石英颗粒表面的SEM特征,认为F1断裂最末一次活动时间在早更新世至中更新世;F2断裂最末一次活动时间在晚更新世中晚期;F3断裂最末一次活动时间在晚更新世末或全新世初。 相似文献
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1830年河北磁县M71/2地震发生于磁县—大名断裂带西段, 该断裂地震破裂和活动性的研究受到地震研究者关注。前人研究着眼于1830年磁县大地震的地表破裂, 本文的研究重点是磁县—大名断裂带西段晚更新世以来的断层活动性。应用卫片、 航片解译和野外地震地质调查等方法开展研究, 重要地点进行探槽开挖或野外地质剖面剥落以及采样测年, 确定了断层各段落破裂事件的发生年代。该断裂西段分为3个断层段落: F2为磁县—峰峰段落, F3为东田井村—陶泉乡段落, F4为韩家沟村—甘泉村段落。F2断层段大部分隐伏, 为早中更新世断层。F3断层段东端在东田井村南断错距今22 ka地层, 为晚更新世活动断层; F3断层段在鼓山南山村一带为全新世断层, 从张家楼村到陶泉乡为推测全新世活动断层。F4断层段为全新世断层。F4断层段全部位于基岩山区, 可见多处基岩断面、 地震沟槽及断层眉脊等断层破裂; 一些破裂面发育地衣丽石黄衣[Xanthoria elegans (Link.) Th. Fr.], 使用地衣测年方法确定这些破裂面为1830年磁县大地震地表地震遗迹。磁县—大名断裂带终止于F4西端。综合分析断裂带各个分段的破裂事件, 得到磁县—大名断裂带西段活动事件时空分布, 估计磁县—大名断裂带西段的晚更新世地震复发周期在6000年左右。 相似文献
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根据研究区的构造地貌特征,断裂两盘第四系和等时地貌面的对比以及其它宏观和微观的断裂构造迹象,讨论了四会-吴川断裂南段晚更新世以来的活动性,得出该时段,该断裂在该地区相对稳定的基本认识。 相似文献
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利用14C、热释光(TL)样品年代及扩散方程计算结果,结合区域黄土剖面中古土壤年龄,对毛毛山地区晚第四纪各级地貌年龄进行了对比研究。根据毛毛山活动断裂水平位移和垂直位移分布明显的分组特征,求得毛毛山断裂带不同段落不同时段的平均滑动速率。大约自中更新世晚期以来,毛毛山断裂走滑段的平均水平滑动速率为2.3~3.9mm/a,垂直滑动速率为0.07~0.19mm/a;天祝盆地倾滑段垂直滑动速率为0.11~0.86mm/a。沿断裂带滑动速率具明显的非均匀性特点,表现为自东向西水平位移具累积滑动亏损特征,垂直位移则具补偿性 相似文献
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The Shanxi Graben System is one of the intracontinental graben systems developed around the Ordos Block in North China since the Cenozoic, and it provides a unique natural laboratory for studying the long-term tectonic history of active intracontinental normal faults in an extensional environment. Comparing with the dense strong earthquakes in its central part, no strong earthquakes with magnitudes over 7 have been recorded historically in the Jin-Ji-Meng Basin-and-Range Province of the northern Shanxi Graben System. However, this area is located at the conjunction area of several active-tectonic blocks(e.g. the Ordos, Yan Shan and North China Plain blocks), thus it has the tectonic conditions for strong earthquakes. Studying the active tectonics in the northern Shanxi Graben System will thus be of great significance to the seismic hazard assessment. Based on high-resolution remote sensing image interpretations and field investigations, combined with the UAV photogrammetry and OSL dating, we studied the late Quaternary activity and slip rate of the relatively poorly-researched Yanggao-Tianzhen Fault(YTF)in the Jin-Ji-Meng Basin-and-Range Province and got the followings: 1)The YTF extends for more than 75km from Dashagou, Fengzhen, Inner Mongolia in the west to Yiqingpo, Tianzhen, Shanxi Province in the east. In most cases, the YTF lies in the contact zone between the bedrock mountain and the sediments in the basin, but the fault grows into the basin where the fault geometry is irregular. At the vicinity of the Erdun Village, Shijiudun Village, and Yulinkou Village, the faults are not only distributed at the basin-mountain boundary, we have also found evidence of late Quaternary fault activity in the alluvial fans that is far away from the basin-mountain boundary. The overall strike of the fault is N78°E, but the strike gradually changes from ENE to NE, then to NWW from the west to the east, with dips ranging from 30° to 80°. 2)Based on field surveys of tectonic landforms and analysis of fault kinematics in outcrops, we have found that the sense of motion of the YTF changes along its strikes: the NEE and NE-striking segments are mainly normal dip-slip faults, while the left-laterally displaced gullies on the NWW segment and the occurrence characteristics of striations in the fault outcrop indicate that the NWW-striking segment is normal fault with minor sinistral strike-slip component. The sense of motion of the YTF determined by geologic and geomorphic evidences is consistent with the relationship between the regional NNW-SSE extension regime and the fault geometry. 3)By measuring and dating the displaced geologic markers and geomorphic surfaces, such as terraces and alluvial fans at three sites along the western segment of the YTF, we estimated that the fault slip rates are 0.12~0.20mm/a over the late Pleistocene. In order to compare the slip rate determined by geological method with extension rate constrained by geodetic measurement, the vertical slip rates were converted into horizontal slip rate using the dip angles of the fault planes measured in the field. At Zhuanlou Village, the T2 terrace was vertically displaced for(2.5±0.4)m, the abandonment age of the T2 was constrained to be(12.5±1.6)ka, so we determined a vertical slip rate of(0.2±0.04)mm/a using the deformed T2 terrace and its OSL age. For a 50°dipping fault, it corresponds to extension rate of(0.17±0.03)mm/a. At Pingshan Village, the vertical displacement of the late Pleistocene alluvial fan is measured to be(5.38±0.83)m, the abandonment age of the alluvial fan is(29.7±2.5)ka, thus we estimated the vertical slip rate of the YTF to(0.18±0.02)mm/a. For a 65° dipping fault, it corresponds to an extension rate of(0.09±0.01)mm/a. Ultimately, the corresponding extensional rates were determined to be between 0.09mm/a and 0.17mm/a. Geological and geodetic researches have shown that the northern Shanxi Graben System are extending in NNW-SSE direction with slip rates of 1~2mm/a. Our data suggests that the YTF accounts for about 10% of the crustal extension rate in the northern Shanxi Graben System. 相似文献
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南黄海北部千里岩断裂活动性初探 总被引:3,自引:1,他引:2
在南黄海北部海域首次针对千里岩断裂进行了声波探测。根据声波反射剖面所显示的晚第四纪断裂活动性差异,大致以朝连岛断裂为界,可把千里岩断裂分为2段,南段晚更新世以来不活动,在日照东南海域跨断裂的声波剖面上晚更新世地层没有受到断层错断的影响;北段在晚更新世晚期活动,从千里岩岛西侧至石岛湾以东海域,在声波剖面上可见多处上更新统中上部地层错断现象。虽然自建立测震台网以来沿千里岩断裂及附近海域内尚未发生5级及以上地震,也未见小震丛集现象,但是,千里岩断裂的晚更新世活动段长度>100km,具有发生6·5级左右地震的可能性,在地震预报和地震危险性分析中值得进一步研究 相似文献
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论延庆盆地北缘断裂带的分段与地震预测 总被引:4,自引:4,他引:4
依据古地震学的断层习性资料,提出延庆盆地北缘断裂带5个段落的分段模型。各个段落的构造地貌学特征具有明显差异。4个主要不连续性形成段落边界:断层分叉和断层弯曲是非持久性段落边界,而凸出体和雁行断错是持久性段落边界。预期强震(M≥7)的发生时间在未来1000~2000a内,最有可能的地点为断层段落Ⅱ。 相似文献
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依据大地测量资料,分析研究了南口-孙河断层的活动性及其对区域构造活动的控制作用。研究认为,南口-孙河断层现今仍有活动,东三旗以西为张性反扭。该断层对首都圈构造活动具有控制作用,为一主干断层,近期活动增强。在首都圈构造活动性研究及地震趋势预测中,对南口-孙河断层必须予以足够的重视 相似文献
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河北省怀安盆地北缘断裂活动性研究 总被引:2,自引:0,他引:2
本文以野外地质调查为主,讨论了怀安盆地北缘断裂的几何展布和活动特征,并进行了断裂的活动性分段,对断裂的运动学特片也进行了探讨,研究认为,该断裂是一条第四纪活动断裂,以东段活动性最强,Q3^2以来平均垂滑动速率达0.21-0.22mm/a;中段活动次之,西段活动较弱,整个断裂活动年代有自西南向东北迁移的趋势。最后,文章对1626年25/4级地震的震中位置作了讨论。 相似文献
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DISTRIBUTION OF YANGJIA VILLAGE-YAODIAN SECTION OF WEIHE FAULT AND THE CHARACTERISTICS OF ITS LATE QUATERNARY ACTIVITY 下载免费PDF全文
The Yangjia Village-Yaodian segment of Weihe Fault, starting from Yangjia Village in the west, passing through Weijiaquan, Jinjiazhuang, Donger Village, Chenjiatai to Yaodian, occurs as a NE-striking fault dipping south with a total length of 33 kilometers. As a syn-depositional normal fault, it extends along the leading and trail edge of T1, T2 and T3 terrace at the northern bank of Weihe River. Results of remote sensing interpretation, shallow seismic exploration, exploratory trench, and drilling show that the Yangjia Village-Yaodian section of Weihe Fault manifests as fault scarps, overlapping with the NE-extending terrace scarp at the northern bank of Weihe River. Weihe Fault broke the T1 that can be distinguished on the shallow seismic profile and multiple profiles with broken signs from T1 to the ground, which is the same with the cracks through the Han Tomb at the top of the exploratory trench in Yangjia Village. It shows that the fault may still be active from the late Pleistocene to Holocene. Through composite drilling section and the analysis of exploratory trench, there is no significant difference in activity between the Yangjia Village-Jinjiazhuang and Donger Village-Yaodian section. This segment has experienced a large displacement event since (46.0±3.3)ka BP, approximately 11.0~16.5m, with a vertical slip rate of 0.34~0.45mm/a. The most recent activity occurred approximately around 2.0ka BP. The left-step en echelon fracture zone at Jingjiazhuang separates this section into two minor ones, Yangjia Village-Jinjiazhuang section and Donger Villag-Yaodian section. Yangjia Village-Yaodian section in Weihe Fault and Yaodian-Zhangjiawan section which was found out in the Xi'an active fault detection and seismic risk assessment project can be combined into the Yangjia Village-Zhangjiawan section. 相似文献
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