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1.
罗云山山前断裂带阶地调查研究及其构造意义 总被引:2,自引:1,他引:1
罗云山山前断裂带位于山西临汾盆地西侧,控制着盆地的西界.对罗云山山前断裂带8条冲沟的阶地测量资料的研究表明:该断裂带冲沟发育T1~T5五级阶地.T1 阶地拔沟3m左右,T2 阶地拔沟8~10m,T3 阶地拔沟20m左右,T4 阶地拔沟30m左右,T5 阶地拔沟40~50m.阶地测年数据及断错地貌调查表明:罗云山山前断裂带在晚第四纪以来有过多次活动.晚更新世中晚期以来阶地的抬升速率为0.41 mm/a,全新世以来抬升速率为0.75mm/a.罗云山山前断裂带冲沟阶地从晚更新世中晚期到全新世抬升速率有逐渐增大的趋势,反映该断裂带自晚第四纪以来构造抬升作用逐渐加强,这与临汾盆地从晚更新世晚期到全新世沉降速率也有增大的趋势比较一致. 相似文献
2.
海阳断裂是胶东半岛NE向牟平 -即墨断裂带东部一条规模较大的断裂 ,尽管晚更新世以来该断裂的地表断错活动总体上已基本停息 ,但东石兰沟段在晚更新世晚期以来仍有断错地表的活动。最后一次断错地表的活动发生在距今 3 7~ 1 2万年 ,但接近 1 2万年。地表破裂长度约6 5km ,活动段长度 8km。地表断错以走滑活动为主 ,可见最大倾滑位移 0 2m ;根据断层擦痕侧伏角推测最大水平位移 1 13m。最后一次断错地表的活动若以距今 1 2万年计算 ,则最大平均倾滑速率为 0 0 17mm/a ;最大平均右旋走滑速率为 0 0 94mm/a。野外观测到该活动段的断错活动表现为突发断错 ,根据地震地表破裂参数、活动段长度与地震的关系 ,估计其最大潜在地震为 6 级 相似文献
3.
郯庐断裂带赤山段晚更新世以来的活动性 总被引:11,自引:1,他引:11
郯庐断裂带赤山段出露于安徽北部泗县境内,在地震地质填图中,经过槽探揭露、断层陡坎和断错冲沟等微地貌测量、年代样品的采集与测定,获得断层最新活动时代、活动方式、垂直和水平位移量等方面的半定量-定量化参数,表明了它在晚更新世以来的活动特征。 相似文献
4.
中卫~同心活断层是香山北麓的区域性大断层,属于天祝~同心大断裂带的东段,长约150公里,由一系列长度不太大的不连续的雁列断层组成。1709年10月14日中卫南7 1/2级大地震就发生在该断裂带上,目前可以证实的破裂带已有64公里。该断裂带断错了晚更新世晚期以来的各个时期的地层。由横穿断层的一系列全新世冲沟的变位可知水平断距达25±3米,年平均滑动速率为2.5毫米。大约6000年以来,断层上共发生三次大地震,其平均复发周期为2299年。用微地貌法求得的平均重现间隔为2100年。 相似文献
5.
礼县 -罗家堡断裂带晚更新世以来有过明显活动。在礼县—罗家堡段和天水镇—街子口段直接错断全新世地层。断裂沿线地表陡坎发育 ,水系被左旋位错。结合沿该断裂带广泛分布的地震滑坡、砂土液化等 ,认为礼县 -罗家堡断裂带是 1654年天水南 8级地震的发震构造。该断裂晚更新世以来的平均水平位错速率为 0 95mm/a ,平均垂直位移速率为 0 35mm/a ,垂直位移速率约为水平位移速率的 1/ 3。这个比值与一次断裂突发性垂直位错量 ( 1 9m)与水平位错量 ( 5 2m)的比值基本吻合 相似文献
6.
通过详细地质填图研究获得了兰州马衔山北缘断裂带的几何学、新活动性、断错微地貌及滑动速率等的定量资料。马衔山北缘断裂为一条历史悠久的区域性活动断裂 ,其几何形态较简单 ,总体走向N6 0°W ,全长约 115 .5km。根据断裂分叉、拐弯及不连续阶区等几何特征和活动性的差异 ,大致可以将该断裂划分为 4条次级断层段 ,自东向西分别称为内官营段、马衔山段、七道梁段和雾宿山段。断裂的新活动具分段性 ,其中的内官营段为具逆断特性的晚更新世活动段 ,而马衔山段、七道梁段和雾宿山段均为全新世活动段。该断裂早期具逆断特性 ,大约自中更新世以来以左旋走滑为主兼具倾滑运动分量 ,形成了一系列山脊、冲沟、阶地等的左旋断错 ,断距几米至几百米。沿断裂带的水平位移具分组现象 ,可能反映了断裂的黏滑活动特性。根据Ⅰ ,Ⅱ级阶地的左旋断错值及其年代 ,得到了马衔山北缘断裂带晚更新世以来的平均水平滑动速率约为 3.73mm/a。同时沿断裂带还保存有断崖和断坎等 ,其中Ⅰ级阶地上的断坎高 1~ 1.5m左右 相似文献
7.
新疆可可托海——二台活动断裂带 总被引:7,自引:0,他引:7
北北西走向的新疆可可托海-二台活动断裂带长190km,为晚更新世晚期以来呈右旋逆走滑活动的断裂带,形成了额尔齐斯河与乌伦古河断错水系。该断裂带晚更新世晚期以来右错1km左右,最大垂直错动15m;全新世晚期的右旋走滑速率为8.23±0.47mm/a。自晚更新世晚期以来该带发生过7期17次古地震,平均复现期为1511±89a。富蕴县喀依尔提拉分型盆地以南为古地震及1931年富蕴8级地震破裂段,长159km,以北为未破裂段,长25.5km,喀依尔提拉分型盆地为构造障碍点。 相似文献
8.
本文讨论了鲜水河活动断裂带炉霍段的水平断错、古地震遗迹与地震重复间隔等问题。晚更新世以来断裂的平均滑动速率为13毫米/年。全新世中期以来大震的重复间隔时间小于600年 相似文献
9.
右江断裂带地处桂西断块区,有记载以来沿带曾发生40~50级地震15次,属中强地震带。笔者在室内卫片、航片、大比例尺地形图解译和分析的基础上,经野外实地调查,获得了断裂带晚更新世活动的若干地质地貌证据,实测了断裂的左旋位移数据。文中介绍了有关证据,并根据年龄数据,计算了断裂中、晚更新世以来的水平和垂直位移速率。断裂带在平面上分3大段,即百色以西段、百色—思林段、思林—坛洛段,各大段又可进一步分为若干个小段。断裂断错了距今(328±025)×104a~(1016±079)×104a的阶地堆积物和残坡积物,控制着百色—田东晚第四纪盆地的发育,地貌上形成断层谷和槽地、断层崖和陡坎,横穿断裂的水系发生同步左旋位移,其活动性质以左旋走滑为主,兼有张性差异运动。晚更新世不同时段以来断裂的水平位移速率为147~198mm/a,中更新世以来的垂直位移速率为074~076mm/a,晚更新世以来为01~035mm/a。该断裂的位移速率明显低于其西的川滇断块内部断裂,更低于川滇断块周边断裂 相似文献
10.
祁连山西段酒西盆地区阶地构造变形的研究 总被引:25,自引:3,他引:22
对祁连山西段酒西盆地晚第四纪阶地的研究表明,该区早第四纪以挤压褶皱、逆冲为特征的构造变形在晚更新世期间乃至全新世仍继承性地进行着,表现为横穿褶皱和逆断裂带的河流及冲沟阶地面的形成、阶地类型的转变、阶地级数的增多和阶地面被断错或发生拱曲变形.其中祁连山北缘大断裂晚更新世晚期以来的垂直运动速率约为1.92~2.00mm/a.老君庙背斜逆断裂带在晚更新世初以来的垂直运动速率约为1.15~2.56mm/a.白杨河背斜逆断裂带晚更新世初以来的垂直运动速率约为0.32~0.58mm/a. 相似文献
11.
通过对海原地震震中区(唐家坡村西—乱堆子东)的大比例尺实测填图,获得了地震断层带上各类冲沟左旋位移的若干数据。规模越大的冲沟位移数据也越大。其中73条小冲沟和田埂的位移均为1920年8.5级大震一次造成,最大位移达10米。 从杨户章沟到古墩子之间的西华山北缘断裂,各类冲沟位移量都较大。根据发育了两级阶地的冲沟的平均位移量、位移开始的时间、大震造成的最大位移及平均位移,计算了该段断层的滑动速率和8.5级大地震的重复率 相似文献
12.
天景山断裂带晚第四纪水平活动强度的分时,分段研究 总被引:12,自引:1,他引:12
在野外实测工作基础上,统计归纳了天景山断裂带上的冲沟左旋错动资料,分析了各类冲沟形成年代,对断裂带晚第四纪以来的水平活动强度分布,分段进行了研究,结果表明,断裂带晚更新以来的总体活动强度不大,但从时间和空间分析,各段活动的差异比较明显,平均滑动速率为0.23~1.62mm/a。晚更新世早,中期,活动中心位于断裂带西段,平均速率为1.40mm/a,晚更新世晚期以来,活动中心东移到中段,平均速率为1. 相似文献
13.
用地貌学方法研究贺兰山山前断层全新世活动状况 总被引:10,自引:5,他引:10
本文根据穿过断层的45条冲沟中的裂点和阶地测量资料,论述贺兰山山前断层全新世以来的活动状况。我们认为全新世以来该断层至少有8次活动。最后一次断层活动错断了距今400年的长城,并在冲沟中形成一个裂点,该裂点现今已距断层陡坎约5米远。假定这次断层活动和1739年平罗大地震有关,求出裂点的溯源侵蚀平均速度为2.0—2.5厘米/年.根据两裂点间的距离和裂点的溯源侵蚀平均速度,并考虑到我国近5000年的气候有逐渐变干的趋势,求出断层活动的周期(表3)。从断层陡坎附近的各级阶地面之间的高差,求出断层各次活动的幅度(表4)。 相似文献
14.
Located at the west of the Linfen basin, the Luoyunshan piedmont fault zone controls the western boundary of the basin. According to the measurements of the terraces in eight gullies along the Luoyunshan fault zone, five levels of terraces, namely T1~T5 have developed in these gullies. The heights of terraces T1, T2, T3, T4 and T5 are about 3m, 8~10m, about 20m, about 30m and 40~50m, respectively. The dating data of the terraces and investigation of the faulted landforms show that the Luoyunshan fault zone has experienced much activity since the Late Quaternary. The uplift rate of the terraces was 0.41mm/a since the Middle-Late Pleistocene, and 0.75mm/a since the Holocene. The increasing trend of uplift rate of the terraces along the Luoyunshan fault zone from the Middle-Late Pleistocene to Holocene indicates the tendency of gradual tectonic uplift of the fault zone since the late Quaternary. This is in good agreement with the increasing trend of subsidence rate of the Linfen basin from the Late Pleistocene to Holocene. 相似文献
15.
There are 18 gullies displaying sinistral contortions to different degrees along the western terminal segment about 10 km long of the active Daqingshan piedmont fault near the Donghe District, Baotou City. The contortion amount of gullies ranges from 20 m to 300 m. The contortion and length of the gullies are in direct proportion. The relation between piedmont terraces and gullies indicates that the gullies with upper reaches of about 1 ~ 5 km long and those smaller than one kilometer were formed at the end of Late Pleistocene and Holocene.Meanwhile, sandy gravel layer of alluvial-proluvial sediment on the upthrown wall is directly in contact with yellow clayey sand of the downthrown wall. During the Holocene, the sinistral strike-slip rate along the western terminal segment of the active Daqingshan piedmont fault reached 5 mm/a from age data of dislocated sediments. The evolutional mechanism of the active Daqingshan piedmont fault is also discussed in the paper. 相似文献
16.
EVIDENCES OF THE LATE QUATERNARY ACTIVITY OF THE ANGREN SEGMENT OF THE YARLUNG TSANGPO FAULT ZONE 
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下载免费PDF全文 The Yarlung Tsangbo fault zone, one of the most important geological interfaces in the Yarlung Tsangbo suture zone which is a huge geotectonic boundary with nearly east-west-trending in southern Tibet Plateau, has undergone a long-term tectonic evolution. Studying this fault zone can help us understand the development and evolution history of the suture zone and the tectonic mechanism of subduction-collision about the Tibet Plateau, so it has always been a hot topic in the field of geology. Most of existing data suggest that the current tectonic activity in southern Tibet is given priority to the rift system with nearly north-south-trending, and the Yarlung Tsangbo fault zone with nearly east-west-trending has relatively weaker activity since late Quaternary. There are only some evidences of Holocene activity found in the Lulang town section near eastern Himalayan syntaxis, and there are few reports about the reliable geological evidences of late Quaternary activity of the section on the west of Milin County of the fault zone.
Based on image interpretation, field investigation and chronological method, we found several fault profiles along the Yarlung Tsangbo fault zone near the Angren Lake in this study. These profiles reveal that loose fault gouge has been developed on the fault plane which nearly extends to the surface and offsets the loess sediments and its overlying alluvial-proluvial gravels. The loess is characterized by coarser grains, higher content of fine sand and tiny small gravels. The results of the two OSL dating samples collected in the loess are(94.68±6.51)ka and(103.84±5.14)ka respectively, showing that the loess revealed at the Angren site should be the middle-late Pleistocene sand loess distributed on the high-terraces along the Yarlung Tsangpo River. Consequently, the Angren segment of the Yarlung Tsangpo fault zone is active since the late Quaternary. In addition, synchronous left-lateral offsets of a series of small gullies and beheaded gullies can be seen near the profiles along the fault, which are the supporting evidence for the late Quaternary activity of the fault.
However, the segment with obvious geomorphology remains is relatively short, and no evidence of late Quaternary activity have been found in other sections on the west of Milin County of the Yarlung Tsangpo fault zone. Existing data show that, in the southern Tibet, a series of near NS-trending rift systems are strongly active since the late Quaternary, cutting almost all of the near east-west-trending tectonic belts including the Yarlung Tsangpo fault zone. In addition, majority of the earthquakes occurring in southern Tibet are related to the NS-trending rift systems. Tectonic images show that the Angren segment locates between the Shenzha-Dingjie rift and the Dangreyong Lake-Gu Lake rift. These two adjacent rifts are special in the rift system in southern Tibet:Firstly, the two rifts are located in the conversion position of the trend of the whole rift system; Secondly, the size of the two rifts varies significantly between the north side and the south side of the Yarlung Tsangbo fault zone. Thirdly, the Shenzha-Dingjie rift seems to be of right-lateral bending, while the Dangreyong Lake-Gu Lake rift shows left-lateral bending. These characteristics may lead to the fact that the amount of absorption and accommodation of the rift activities in the north side of the Yarlung Tsangbo fault zone is larger than that in the south side during the migration of the plateau materials, leading to the differential movement of the block between the two sides of the fault zone. Therefore, the Yarlung Tsangbo fault zone possesses the accommodating tectonic activity, of course, the intensity of this accommodating activity is limited and relatively weaker, which may be the reason why it is difficult to find large-scale tectonic remains characterizing the late Quaternary activity along the fault zone. The scale of the rift system in southern Tibet is systematically different between the two sides of the Yarlung Tsangbo fault zone, so it cannot be ruled out that there are also weak activities similar to the Angren segment in other sections of the fault zone. 相似文献
17.
THE HOLOCENE ACTIVITY AND STRIKE-SLIP RATE OF THE SOUTHERN SEGMENT OF XIAOJIANG FAULT IN THE SOUTHEASTERN YUNNAN REGION,CHINA 下载免费PDF全文
下载免费PDF全文 The southern segment of the Xiaojiang Fault (SSXF) is located at the intersection of the Xianshuihe-Xiaojiang Fault and Red River-Ailao Shan fault systems in the southeast margin of the Tibetan plateau. Based on the interpretation of remote sensing image, the SSXF clearly shows the linear feature and continuous distribution as a single, penetrating fault. It has a total length of about 70km, trends generally about 20° to the northeast and protrudes slightly in the middle to the east. A typically geomorphologic phenomenon about the synchronous left-lateral dislocation of ridges and gullies can be found at Liangchahe, Longtan Village along the SSXF. The distribution of faults, the sedimentary features, attitude variance and the primary dating results of the offset strata in the trench section across fault sag ponds reveal three paleoseismic events rupturing obviously the surface, which demonstrates that the SSXF has the ability of recurrence of strong earthquakes. High-precision topographic map about two gullies and the platform between them with synchronous dislocation is acquired by using the Trimble 5800 GPS real-time difference measurement system. The dislocation is (18.3±0.5)m. As the top geomorphologic surface between the above two gullies and their adjacent area, the terrace surface T2 stopped accepting deposits at ~2606a, based on the linear regression analysis of three dating data. According to the geological method, a sinistral strike-slip rate of (7.02±0.20)mm/a on the SSXF in the Holocene is obtained, which has a good consistency with the results provided by using GPS data. The preliminary results about the Holocene activity and slip rate of the SSXF demonstrate that the southward or south-southeast motion of the Sichuan-Yunnan block in the SE Yunnan region has not been absorbed by the possible shortening deformation and the sinistral strike-slip rate of the SSXF has not been drastically reduced. The SSXF is a Holocene fault with obvious activity. This preliminary understanding provides some basic geological data for the seismic risk evaluation of the SSXF in the future, and for the establishment and inspection of the seismotectonic model about the Sichuan-Yunnan block. 相似文献
18.
Qilian Shan-Hexi Corridor is located at the northeastern margin of Tibetan plateau. Series of late Quaternary active faults are developed in this region. A number of strong earthquakes even large earthquakes occurred in history and present-day. In the past, the study of active faults in the area was mostly concentrated in the northern margin fault zone of the Qilian Shan on the south side of the corridor, while the research on the interior and the north side of the corridor basin was relatively rare. We found a new fault scarp in the northern part of the Baiyanghe anticline in Jiuxi Basin in 2010. It is an earthquake surface rupture zone which has never been reported before. In this paper, we carried out palaeoearthquake trench analysis on the newly found earthquake surface rupture zone and textual research of relevant historical earthquakes data.
According to the interpretation of aerial photo and satellite image and field investigation, we found the surface rupture has the length of about 5km. The rupture shows as an arc-shaped line and is preserved intact comparably. The lower terrace and the latest flood alluvial fan are offset in addition to modern gullies. By differential GPS measurement, the height of the scarp is about 0.5~0.7m in the latest alluvial fan and about 1.5m in the T1 terrace. From the residual ruins along the earthquake rupture zone, we believe the surface rupture might be produced by an earthquake event occurring not long ago. In addition, the rupture zone locates in the area where the climate is dry and rainless and there are no human activities induced damages. These all provide an objective condition for the preservation of the rupture zone. The trench along the fault reveals that the surface rupture was formed about 1500 years ago, and another earthquake event might have happened before it. Based on the textural research on the historical earthquake data and the research degree in the area at present, we believe that the surface rupture is related to the Yumen earthquake in 365, Yumen Huihuipu earthquake in 1785 or another unrecorded historical earthquake event. 相似文献