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1.
位于华北板块和扬子板块之间的陕西中南部由渭河盆地、秦岭造山带和汉中盆地构成,其新构造运动主要形式为山脉隆升、盆地断陷,因此以重复水准测量为手段的地壳垂直运动研究尤为重要.基于研究区1970年以来的多期精密水准测量数据,用GPS垂直运动速率约束的动态平差方法获得了区域垂直运动速度场.以此为基础,用倾滑位错模型、网格搜索方法反演了研究区主要断层倾滑速率和闭锁深度,结果显示:秦岭北缘断裂倾滑速率为2.25~4.53 mm·a~(-1),闭锁深度为7.7~10.0 km;华山山前断裂倾滑速率为2.35~2.71 mm·a~(-1);闭锁深度为2.8~5.0 km,反映了该断裂在华县大地震之后,可能还没有完全闭锁,发生大震的应变能积累条件不足;渭河盆地北缘断裂的倾滑动速率为2.0~2.5 mm·a~(-1),闭锁深度仅为3.0 km左右,说明该断裂以蠕滑运动为主;略阳断裂倾滑速率为3.02 mm·a~(-1),闭锁深度6.7 km,是陕南较活动的断裂. 相似文献
2.
如何准确测定断裂滑动速率是近年来活动构造研究的前沿与热点.随着高精度地形数据获取手段与第四纪测年方法的不断进步,位错量和地貌面年龄的精度均得到大大提高.在进行滑动速率计算时还要考虑地质过程是否合理,蒙特卡洛方法为获取更加符合地质过程的滑动速率提供了重要工具.本文以滑动速率研究程度较低的海原断裂带老虎山段为例,基于LiDAR高精度地形数据,测得T1—T4阶地面年龄分别为1~3 ka,9~11 ka,15~17 ka,40~45 ka,陡坎前缘的位错分别为7~14 m,28~36 m,59~66 m,180~190 m.综合多地点的左旋走滑位错量及不同时代的地貌面年龄数据,并考虑滑动历史,利用蒙特卡洛模拟方法,将位错-时间两个参数的不确定性定量化,限定老虎山断裂45 ka以来平均滑动速率为4.3±0.16 mm·a-1,17ka以来的平均滑动速率为4.0±0.15 mm·a-1,与前人研究得到的狭义海原断裂滑动速率4.5±1.0 mm·a-1基本一致.综合整个海原断裂带滑动速率,本文结果更支持低滑动速率变化趋势,即海原断裂带整体滑动速率趋于稳定,向东至六盘山断裂,滑动速率开始降低,推测海原断裂带的左旋走滑在尾端主要为马东山—六盘山隆起所吸收.结合老虎山断裂历史地震资料和深部锁闭浅部蠕滑的动力学特征,推测老虎山断裂具备与相邻断裂一起触发强震的能力. 相似文献
3.
借助分布在北天山地区最新GPS点位的运动观测资料, 利用GAMIT/GLOBK数据处理软件获取了北天山地区现今地壳的运动位移场. 以该位移场为基础, 利用弹性半空间位错理论, 估算了研究区内博罗科努—阿其克库杜克断裂和准噶尔盆地南缘断裂两条具有代表性的主要断裂的现今活动速率. 结果表明: 博罗科努—阿其克库杜克右旋走滑断裂东、 西两段滑移速率的差异性不明显, 1944年3月10日乌苏南MS7.2强震发生后, 该断层现今表现为震后微蠕滑运动, 东、 西两段滑动速率均在1—2 mm/a之间; 准噶尔盆地南缘断裂现今滑动速率为(5.6±1.0) mm/a. 相似文献
4.
中国大陆区断层蠕动的若干地质形迹 总被引:2,自引:0,他引:2
中国大陆区多数活动断裂虽未见有引起地表变形的明显断层蠕滑运动现象,但仍不乏断层蠕滑运动的种种地质形迹,如区域性有序的地裂运动,沿断裂分布的线性变形带,以及与地质滑动速率相比大大偏低的地震滑动速率等.认识并查明断层蠕滑运动这一重要活动习性,在理论上和实际中均有重要意义. 相似文献
5.
《地球物理学报》2021,64(7)
鲜水河断裂带是位于青藏高原东侧的大型走滑断裂,地震活动性高,其炉霍—道孚段是少数观测到蠕滑现象的段落之一,但目前尚缺乏高分辨率大地测量数据的约束研究.本文综合利用InSAR和GPS观测数据研究炉霍—道孚段的运动特征,提出一种适用于研究震间形变的InSAR和GPS数据融合方法,将InSAR速度场和GPS插值速度场转换至平行断层方向,利用抽样统计方法去除GPS参考框架影响,在数据融合过程中,注重保留远场构造运动特征和近场高分辨率形变信息.建立包括浅层蠕滑、中间闭锁单元和深部滑动的断层运动模型,以融合的形变速度场为约束,利用马尔可夫链蒙特卡罗方法反演炉霍—道孚段断层滑动速率、浅层蠕滑特征和闭锁状态.InSAR速度场剖面分析结果表明:炉霍—道孚段地表蠕滑特征明显,沿走向方向存在差异,炉霍段蠕滑速率明显低于道孚段,表现出从北西至南东速率逐渐增大、减小、再次增大的变化特征,断层左旋蠕滑速率在1.0~5.2 mm·a~(-1)之间;断层运动模型反演结果表明,炉霍—道孚段蠕滑深度为~9.8 km,浅层蠕滑速率为3.27~4.18 mm·a~(-1),断层深部滑动速率为8.12~9.30 mm·a~(-1).炉霍段地震复发周期为370~410年,闭锁层厚度~1 km,地震危险性较低.道孚段地震复发周期为59~65年,存在厚度~7.5 km的闭锁区,可积累足够的应变,浅层蠕滑释放的能量为~1.32×10~(16) Nm·a~(-1),占构造运动加载积累能量的23%~38%,1981年道孚6.9级地震以来,闭锁区近40年积累的地震矩达到3.62×10~(17)至7.88×10~(17) Nm,相当于一次M_W5.6~M_W5.9地震的能量,其地震危险性值得关注. 相似文献
6.
冬别列克断裂是一条全新世活动断裂,位于西准噶尔造山带的关键位置,该断裂总长120km,走向NE。晚第四纪以来,冬别列克断裂的持续活动使得断裂沿线各级地貌面发生了明显的左旋位错,在塔城盆地东侧形成线性连续且笔直的陡坎地貌。文中利用高精度无人机和差分GPS对阿合别斗河多级阶地的左旋位错量进行了面状航拍、测量,建立了分辨率高达0. 1m的数字地形数据,发现T5—T2阶地陡坎的最大左旋位错量依次为30. 7m、12. 0m和8. 7m。通过光释光测年方法得到了各级阶地(T5—T1)的年龄,进而得出冬别列克断裂晚更新世以来的左旋滑动速率为0. 7~0. 94mm/a,结合阶地侧向侵蚀特征,分析认为T4、T2阶地的滑动速率更加接近真实值(0. 91±0. 18) mm/a。结合西准噶尔的其它2条大型走滑断裂(达尔布特断裂和托里断裂)的滑动速率,并对比西准噶尔地区的GPS速率,认为该地区NE向的走滑运动以冬别列克断裂为主,吸收大量剩余变形,同时保持相对较高的左旋滑动速率。 相似文献
7.
利用1992—2012年间西南天山GPS观测和2003—2009年EnviSAT卫星InSAR图像,构建西南天山与塔里木盆地间(喀什坳陷)震间变形的三维位移场,约束区域内滑脱断层运动模型.结果显示:位于喀什坳陷基底与沉积盖层间埋深为12~18km的主滑脱断层进入西南天山(迈丹—喀拉铁克断裂带以北)沿高角度断坡深入天山底部至23~33km,并北倾1°~2°延伸至天山内部,从完全闭锁到自由蠕滑,滑动速率9~10mm·a-1.依据断层位错模型,1902年阿图什M8大地震可能从铁列克断层根部23km左右开始破裂,沿高角度断坡断层扩展25~30km的距离至科克塔木背斜南翼托特拱拜孜—阿尔帕雷克断裂.1902年阿图什地震可能导致阿图什背斜下方埋深2~12km的高角度断坡断层以2~3mm·a-1速率持续蠕滑,蠕滑过程释放的应力等价于一次Mw6.7左右的中强地震,西南天山及喀什坳陷基底滑脱断层控制了西南天山及前陆地带的现今变形和地震活动. 相似文献
8.
利用西南天山山前柯坪块体周缘的多期中国大陆构造环境监测网络区域站及新疆维吾尔自治区地震局在该区域加密布设的多个GPS站点数据,基于负位错反演原理,采用Defnode软件反演,得到柯坪、皮羌和迈丹3条主要断裂的闭锁程度和滑动亏损速率分布特征。模拟结果与实测值总体一致,但略有细微差异,GPS点位密集处残差在1mm/a左右,柯坪断裂在深度20km以内处于完全闭锁,20~40km之间处于部分蠕滑,40km以下处于完全蠕滑;皮羌断裂全段在深度15km以内处于完全闭锁,15~30km之间处于部分蠕滑,30km以下处于完全蠕滑,滑动亏损速率介于0~2mm/a;迈丹断裂闭锁系数与滑动亏损速率分布特征相对复杂,完全闭锁深度从西南端的35km逐渐递减至东北端的10km左右。上述研究结果为分析评估3条断裂的地震危险性提供了观测约束,对认识该地区的地震孕育背景及地震危险性研究提供参考依据。 相似文献
9.
邢台地震前地壳形变异常的可能性物理机制 总被引:4,自引:0,他引:4
将地壳介质视为麦克斯威尔体 ,运用差分法和三维有限元方法 ,探讨了邢台分层地壳结构模型 (含高速体和低速体及深大断裂 )中深部断裂加速蠕滑时 ,平均应力、水平最大剪应力和地表面垂直位移随时间演化的特征 ,计算结果表明 :(1 )在地壳中上部 1 1km处 ,深部断裂的加速蠕滑急剧加速了水平最大剪应力的增加速率 ,可达数百倍 ,深部断裂的加速蠕滑是邢台强地震成核过程的开始 ,可实现地壳下部的能量向地壳中上部快速转移 ;(2 )深部断裂的加速蠕滑引起的地面垂直位移变化与邢台地震震前的地表面垂直位移变化非常一致 .说明邢台地震震前地壳表面垂直方向的位移不仅与岩石的膨胀有关 ,而且可能与地壳内深部断裂的加速蠕滑密切相关 . 相似文献
10.
拟建哈—佳铁路工程地震安评抗断参数研究——以依兰-伊通断裂为例 总被引:1,自引:1,他引:0
在对依兰-伊通断裂通河段晚第四纪活动参数获取的基础上,对该断裂的几何学特征和晚第四纪活动特征及有关拟建铁路地震安全的设防参数进行了探讨.研究结果表明,依兰-伊通断裂通河段总体走向N30-40°E,由3条断层组成,中支最新活动时代为全新世.该断裂未来发生7级地震时的水平位移量可能达2.2m左右,垂直位错量约为1.1m左右.该断裂全新世以来的活动性质表现为右旋走滑为主,兼具逆冲活动.根据探槽结果和野外地震地质调查得出断裂垂直位错约(1.0±0.2)m,右旋位错量约为(2.7±0.1)m,(1730-30)aB.P.以来的垂直滑动速率和水平滑动速率分别约为(0.57±0.11)mrn/a和(1.57±0.06)mm/a.未来100年内若遭遇地震,其最大水平位错量约2.87m,垂直位错值为1.04m.断层影响带宽度约为8m.该研究结果为拟建哈—佳铁路工程可能遭受的断层影响和抗震设防提供了一定的数据基础,也为地震安评中线状工程的抗断评价问题提供了一定的参考. 相似文献
11.
Relation between hydrogen emission and seismic activities 总被引:2,自引:0,他引:2
Ryuichi Sugisaki 《Pure and Applied Geophysics》1984,122(2-4):175-184
Measurements of chemical composition of bubbles from a mineral spring at Yuya Spa situated close to the Median Tectonic Line, the longest active fault in Japan, showed that the periods of increased H2 emission coincided with occurrences of the Ohno earthquake swarm nearby. Four cases of the coincidence without exception were observed in the last three years. The fluctuation of H2 concentration ranges between <0.5 and 200 ppm, whereas other gases such as He, Ar, N2, and CH4 do not fluctuate much. The H2 concentration is correlated with the energy released by the seismic activity. This field evidence, together with the results of laboratory experiments conducted bySugisaki
et al. (1983), leads to the conclusion that H2 observed at the mineral spring was produced by the reaction between groundwater and rock fractured in the seismic activities. The observation that H2 in the mineral spring tends to appear prior to an earthquake suggests that microcracks may occur in rocks prior to earthquakes. The precursory emission of H2 may be useful for earthquake prediction. 相似文献
12.
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
13.
Structural evidence for large-scale top-to-the-north normal displacement along the Median Tectonic Line in southwest Japan 总被引:1,自引:1,他引:1
Abstract The Median Tectonic Line (MTL) is a first-order tectonic boundary that separates the Sanbagawa and Ryoke Metamorphic Belts. Strike-slip movements on the MTL have been well documented by many workers. New field based structural studies in the Sanbagawa Belt close to the MTL reveal a large number of secondary faults and semibrittle shear bands indicating a top-to-the-north normal sense of displacement. The strikes of these shear zones and their spatial distributions suggest that development of these structures is related to movements on the MTL. These results imply that the MTL has a large-scale normal shear component on a regional scale that can help account for the exhumation of the Sanbagawa Belt. Our proposed history of the MTL can also account for changes in the geometry of folds in the Sanbagawa Belt. 相似文献
14.
Aiming Lin Mikako Sano Maomao Wang Bing Yan Di Bian Ryoji Fueta Takashi Hosoya 《Journal of Seismology》2017,21(4):683-703
The Mw 6.2 (Mj 6.8) Nagano (Japan) earthquake of 22 November 2014 produced a 9.3-km long surface rupture zone with a thrust-dominated displacement of up to 1.5 m, which duplicated the pre-existing Kamishiro Fault along the Itoigawa–Shizuoka Tectonic Line (ISTL), the plate-boundary between the Eurasian and North American plates, northern Nagano Prefecture, central Japan. To characterize the activity of the seismogenic fault zone, we conducted a paleoseismic study of the Kamishiro Fault. Field investigations and trench excavations revealed that seven morphogenic paleohistorical earthquakes (E2–E8) prior to the 2014 Mw 6.2 Nagano earthquake (E1) have occurred on the Kamishiro Fault during the last ca. 6000 years. Three of these events (E2–E4) are well constrained and correspond to historical earthquakes occurring in the last ca. 1200 years. This suggests an average recurrence interval of ca. 300–400 years on the seismogenic fault of the 2014 Kamishiro earthquake in the past 1200 years. The most recent event prior to the 2014 earthquakes (E1) is E2 and the penultimate and antepenultimate faulting events are E3 and E4, respectively. The penultimate faulting event (E3) occurred during the period of AD 1800–1400 and is associated with the 1791 Mw 6.8 earthquake. The antepenultimate faulting event (E4) is inferred to have occurred during the period of ca. AD 1000–700, likely corresponding to the AD 841 Mw 6.5 earthquake. The oldest faulting event (E8) in the study area is thought to have occurred during the period of ca. 5600–6000 years. The throw rate during the early Holocene is estimated to be 1.2–3.3 mm/a (average, 2.2 mm/a) with an average amount of characteristic offset of 0.7–1.1 m produced by individual event. When compared with active intraplate faults on Honshu Island, Japan, these slip rates and recurrence interval estimated for morphogenic earthquakes on the Kamishiro Fault along the ISTL appear high and short, respectively. This indicates that present activity on this fault is closely related to seismic faulting along the plate boundary between the Eurasian and North American plates. 相似文献
15.
TYPE AND DISPLACEMENT CHARACTERISTICS OF LINGSHAN M6¾ EARTHQUAKE SURFACE RUPTURE ZONE IN 1936, GUANGXI 
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下载免费PDF全文 LI Xi-guang PAN Li-li LI Bing-su NIE Guan-jun WU Jiao-bing LU Jun-hong YAN Xiao-min 《地震地质》2017,39(5):904-916
On April 1, 1936, an M6¾ earthquake occurred on the Fangcheng-lingshan Fault. So far, the Lingshan M6¾ earthquake is the biggest one in South China. There are some reports about the Lingshan earthquake fissures, but its surface rupture hasn't been systemically studied. Based on the geological mapping and measurement of the right-lateral displacement and vertical offset, the surface rupture zone caused by the Lingshan M6¾ earthquake was found, which contains two secondary surface rupture zones in the east and west respectively, its strike varies from N55°E to N60°E with en echelon-like distribution along the north section of Lingshan Fault, and its total length is about 12.5km. The western surface rupture zone locates intermittently along Gaotang-Xiatang-Liumeng, about 9.4km in length, with a right-lateral displacement of 0.54~2.9m and a vertical offset of 0.23~1.02m; the other one appears between Jiaogenping and Hekou, about 3.1km in length, with a right-lateral displacement of 0.36~1.3m and a vertical offset of 0.15~0.57m. The maximum right-lateral displacement and vertical offset are 2.9m and 1.02m, appearing at the east of Xiatang reservoir. The types of surface rupture mainly contain earthquake fault, earthquake scarp, earthquake fissure, earthquake colluvial wedge, earthquake caused landslide and liquefaction of sand and so on. The earthquake fault develops at the east of Xiatang and Jiaogenping, earthquake scarp appears at Xiaoyilu and Xiatang, earthquake fissure locates at Xiatang, there are multiple earthquake landslides along the surface rupture zone, and the trench LSTC03 exposes the earthquake colluvial wedge. In order to further investigate the Lingshan earthquake surface rupture zones, the author compares the parameters of Lingshan M6¾ earthquake with the similar typical earthquakes in western China, the results show that the parameters of Lingshan earthquake are similar to the typical earthquakes in western China. The length of Lingshan earthquake surface rupture is shorter, but the dislocation is bigger. The author considers that this is mainly related with the parameters of Lingshan earthquake, site condition and structural environment of surface rupture zone, the symbols of dislocation measuring, human activity and weather condition and so on. The research of surface rupture zone features and analysis of Lingshan M6¾ earthquake provides important and basic data for exploring the seismogenic structure of Lingshan M6¾ earthquake, and it has important scientific significance. 相似文献
16.
本文对则木河断裂带上各种地震地表破裂现象作了调查和时代方面的研究,结果表明,1850年西昌地震在西昌北的李金堡至宁南的松新间形成了长达90km的地震形变带。地震位错的最大水平位移为7m,垂直位移一般为0.5~2m,对地震形变带中的各种变形遗迹和地震地表破裂特征的研究表明,则木河断裂是这次地震的发震构造,震中位于大箐梁子一带,震中烈度达Ⅹ~Ⅺ。地震破裂的力学性质为左旋扭张,与则木河断裂晚第四纪以来的活动一致。地震破裂具有向南突出发展的不对称特点 相似文献
17.
Abstract We report new field, petrological and isotopic data and interpretations from one of New Zealand’s major basement geological boundaries, the contact between the east side of the Median Batholith (formerly Median Tectonic Zone) and the allochthonous Mesozoic terranes of the Eastern Province. In the Nelson and Hollyford–Eglinton areas this contact is a Cenozoic fault, the Median Tectonic Line of earlier workers. However, in the Longwood Range, unfaulted pre-Cenozoic geological relations are preserved intact. Our new Ar–Ar, U–Pb and isotopic data show that the Median Batholith in the Longwood Range consists of two suites. (i) Eastern, isotopically primitive (87Sr/86Sri = 0.702 to 0.703; ?NdT = + 7 to + 8) trondhjemite and gabbroic rocks of Permian age that we believe are part of the intraoceanic Brook Street arc of the Eastern Province. (ii) Western, isotopically more evolved (87Sr/86Sri = 0.703 to 0.704; ?NdT = + 3 to + 5) quartz diorites, quartz monzodiorites and rare granites of Middle Triassic to Early Jurassic age that we correlate with a pulse of magmatism elsewhere in the Median Batholith. Field observations in the Longwood Range indicate intrusive, not faulted, contacts between these units and constrain accretion of the Brook Street Terrane to Gondwana to have occurred 230–245 Ma. Intra-batholith shear zones (T ~ 600°C and P ~ 0.2–0.3 GPa) were active at approximately 220 Ma. Modelling of K-feldspar Ar incremental heating ages indicate that most of the Longwood Range had cooled below 175°C by the Middle Jurassic and experienced no subsequent reheating. Significant additional post-accretionary Early Cretaceous and Cenozoic thermotectonic activity in Median Batholith in the Hollyford-Eglinton area is indicated by a new 140 ± 2 Ma U-Pb zircon date on a Largs ignimbrite, as well as by Cenozoic K-feldspar Ar–Ar ages in the Middle Triassic Mistake Diorite. 相似文献
18.
云南地区处于印度板块与欧亚板块中国大陆碰撞带的东缘,地壳运动剧烈,活动块体特征明显,中强以上地震频发,是研究大震活动规律的理想场所。通过过去一个世纪的6.7级以上地震活动的时空分布以及地震动力分析认为,云南地区存在的4个具东西交替活动特征的地震活跃期,可能是东、西部各自地震活跃与平静过程叠加的结果,100a左右可能出现1次东、西部同时爆发大震的时段;云南地区地震活动与外围地区存在较好的呼应关系,安达曼-缅甸弧形带的巨震活动对云南地区地震活跃期的启动有一定的指示意义,而云南东部强震也与四川西部大震密切相关,四川大震活动往往滞后于云南地区;中强地震连发—平静—首发大震可能是云南以东部为活动主体的地震活跃期的启动模式。这些认识对云南地区大震预测、地震机理以及板缘动力学研究会有所帮助 相似文献
19.
Takamatsu is a harbor city of 330,000 people on the northern shore of Shikoku Island, southwest Japan. Earthquakes in the Nankai Trough, typically of magnitude M 8+, have been considered the primary source of seismic hazard for the island and Takamatsu. A major active fault system, the Median Tectonic Line, runs across the Shikoku from east to west near the north shore. There is no documented historical seismicity associated with this major fault system in Shikoku or with associated faults such as the 20 km Nagao Fault near Takamatsu. Therefore the trenches were cut across some of the more important faults to expose the record of past seismicity. Additional data on past seismicity is derived from paleo-liquefaction studies in the Takamatsu plain. This paper describes the trenching and paleo-seismic studies and discusses the implications of the findings for seismic hazard in Takamatsu. 相似文献