交城断裂交城县城段的位置及其与地裂缝的关系

交城断裂为太原盆地西界的主控边界断裂,为查明交城断裂在这一地区的确切位置和地裂缝与交城断裂的关系,采用地震地质调查和人工地震勘探对在此范围内交城断裂的具体位置和地层错断情况进行了详细研究。结果表明,交城断裂交城县城段并不是位于基岩隆起区与盆地倾斜平原的分界处,而是位于距该分界东南约200 m处。交城县城西北侧的地裂缝与地震勘探在这一带所探查到的交城断裂的位置相当吻合,由此可以推断地裂缝的产生与交城断裂有关,属构造地裂缝。指出,在进行活动断裂附近的城市规划或重大工程建设时应对“山根”的倒退现象予以高度重视。     

基于FLAC3D数值模拟的清徐地裂缝与交城断裂成因关系研究

基于断裂力学理论，应用FLAC3D数值模拟方法对交城断裂活动时附近土体的变形特征进行模拟计算。计算结果表明:断层活动带动上覆土层差异沉降及应力场变化，当断层错动量达到一定程度，断层附近出现拉应力区，土体在拉张应力和自身重力作用下产生垂直差异形变，从而产生地裂缝。将数值模拟结果与方山探槽揭示的地裂缝剖面特征进行对比，二者结果相互印证，说明清徐地裂缝是交城断裂活动的结果，二者具有明显的对应关系，地裂缝为构造成因裂缝。数值模拟结果为研究断裂和地裂缝成因关系提供了佐证。     

太原井水位的快速上升与构造活动的关系

利用晋祠泉域岩溶水动态模型,对太原井水位快速上升时段的水位动态进行预测,再由预测值与实际观测值的绝对误差来反演含水层的应力值。结果表明,太原井水位快速上升时段含水层应力值也持续增高,且与太原体应变压性应变加速、交城断裂南端地裂缝扩展加速以及由太原盆地小震综合机制解反演的区域应力场逆转等现象具有准同步性,它们都是在太原盆地区域应力场发生改变、盆地西部边界交城断裂活动加剧的背景下出现的。太原井水位的快速上升与构造活动增强有关。     

山西交城地区早三叠世古地磁研究: 局部旋转及构造意义

对山西交城早三叠世刘家沟组红色砂岩的岩石磁学和系统热退磁研究表明, 一方面高矫顽力的赤铁矿为高温特征剩磁载体. 另一方面, 绝大多数样品的系统热退磁表现为室温至100/200℃之间的粘滞剩磁和250~500℃之间的中温分量及500~680℃之间的高温分量. 中温分量在99%置信范围内有负褶皱检验结果, 且其地理坐标下的平均方向所对应的古地磁极位置在95%置信范围内与华北地块中晚侏罗世古地磁参考极一致, 表明其很可能为燕山期获得的重磁化分量. 高温分量具有双极性和c级分类倒转检验结果, 且在99%置信范围内通过了褶皱检验, 表明其最可能代表岩石形成时的特征剩磁. 高温分量所对应的古地磁极位置与前人在鄂尔多斯盆地早三叠世古地磁极之间的差异, 可能意味着山西交城地区在早三叠世之后相对于鄂尔多斯盆地发生了一定的局部旋转运动. 这一局部旋转运动很可能与作为山西与鄂尔多斯两个构造单元分界的离石大断裂和位于采样地区东南侧, 中新生代仍在活动的交城大断裂的活动有关.     

交城断裂带北段最大潜在地震发震概率评估1

基于太原市目标区交城断裂带的定量研究,特别是对活动断裂上的古地震资料进行的系统、详细的分析与总结,建立了反映该断裂地震地质特点和运动学属性的复发模式和概率模型.引入震级-地表破裂长度、震级-震源破裂长度、震级-断层破裂面积以及震级-地震矩的经验关系进行震级估计,最后进行综合评估以确定交城断裂带北段潜在地震的最大震级.复发模式的建立兼顾了泊松和准周期两种模式,利用专家意见法组合相应的Poisson模型和BPT模型,计算活动断裂最大潜在地震的复发概率.结果表明,交城断裂带北段潜在地震最大震级为Ms7.2级,而未来50a、100a、200a发生Ms7.2级地震的概率分别为2.1％、4.0％和7.9％.     

交城断裂中段的活动特征及其地震危险性

通过野外调查和对地质资料、地震活动性资料的综合分析，把交城断裂中段进一步划分为南亚段和北亚段。指出断裂南亚段存在发生６．８级地震的危险性     

基于分形理论的地裂缝成因机制研究.

依据分形理论分析了清徐境内交城断裂带、地裂缝以及地貌的分形结构特征.同时根据分析结果讨论了地裂缝、断裂以及地貌之间的内在联系,并对清徐地裂缝的成因机制进行了研究.     

山西清徐地裂缝分布、类型与建筑物避让距离确定

野外沿山西清徐地裂缝的展布区进行详细的地质调查、地质填图和地球物理勘探,查明地裂缝的分布范围、活动特征,分析成因类型,确定建筑物避让距离。勘察区范围内地裂缝的展布大部分地段局限于交城断裂带东侧200 m之内,方山村、西梁泉、东梁泉村在200 m之外仍有地裂缝分布,其地裂带影响宽度为244 m。清徐地裂缝有两种成因类型,即构造地裂和非构造地裂。构造地裂为清徐西边山一带主要的地裂缝类型,受交城断裂带的控制,分布于交城断裂带及其附近,具有规模大、破坏性强的特点;非构造地裂位于六合村和大峪村,六合村地裂缝主要是由超采地下水导致地面沉降而产生,大峪村地裂缝是由于采煤引起的采空区地裂,非构造裂缝呈规模较小、分布范围小的特点。分析认为,清徐一带建筑物避让交城断裂带的距离为：方山、西梁泉、东梁泉3个村乙类建筑避让带的宽度确定为280 m;其他各村乙类建筑避让距离仍为200 m,丙类建筑按规范确定的100 m避让,且不得跨越地裂缝;交城断裂下盘(西侧)避让带宽度为：西侧的乙、丙类建筑的避让距离为100 m。     

利用太原盆地地震活动判断华北地震地震活动趋势

通过对１９７０年以来太原盆地及其两侧区ＭＬ≥３．０地震的研究，发现在太原盆地北部，沿交城断裂，太谷断裂以及盆地两侧的４个隆起部位发生的ＭＬ≥３．０地震与华北地震区距大太原盆地６００ｋｍ范围内发生的Ｍｓ≥５．８地震有一定的联系。     

山西交城断裂错断全新世洪积扇

航片判读及野外调查发现,位于山西太原盆地西界,交城至清徐县长约26km的山前地带,展布着一系列断续分布、总体呈NEE走向的洪积扇陡坎(图1)。 这些冲洪积扇陡坎展布在山前各冲沟沟口处,位于人山寺沟、大峪沟、桃园沟、泽鱼沟、市儿口沟、方山口沟及胡石井等沟沟口均可见到。这些陡坎的高度在1～10m不等。陡坎西北侧抬升,表现为冲洪积台地,陡坎组成台地     

Paleomagnetic study on the Early Triassic red beds from Jiaocheng,Shanxi Province

Paleomagnetic and rock magnetic study has been conducted on the Early Triassic red beds of Liujiagou Formation from Jiaocheng, Shanxi Province. Hematite was shown as the main magnetic mineral. After eradicating an initial viscous component at room temperature to ~100°C–200°C, thermal demagnetization shows that most samples contain two remanence components, intermediate-temperature remanence component at 250°C–500°C and high-temperature component at 500°C–680°C. The intermediate-temperature component has a negative fold test at the 95% confidence level. And the pole position of the intermediate-temperature component in geographic coordinates is correlated with the Middle Jurassic reference pole of the North China Block (NCB) within the 95% confidence, suggesting that it might be a remagnetization component acquired during the Yanshanian period. The high-temperature component contains both reversal and normal polarities with positive fold test and C-level positive reversal test at the 95% confidence level, which suggests that this high-temperature component can be regarded as primary magnetization. Comparison of this newly obtained Early Triassic paleopole with the coeval mean pole of the Ordos Basin suggests that a locally relative rotation may have happened between the Ordos and the Jiaocheng area of Shanxi Province. This rotation may be related with two faults: one is Lishi big fault separating Ordos from Shanxi and the other is Jiaocheng big fault, which is situated in the southeast of sampling locality and was still in motion during the Cenozoic.     

Study on Holocene Paleoearthquakes in Xizhang Trench on the Jiaocheng Fault Zone,Shanxi Province

Xizhang trench is located 10 km northwest of Taiyuan city, Shanxi Province, in front of a NNW-trending scarp of 4.6m height on the northern segment of the Jiaocheng fault zone. The dimensions of the trench are 108m in length, 8m in width, and 10m in depth. There are 18 horizons revealed in the trench. The upper strata are sandy loam; the upper strata of the downthrown block of the fault are gravels, the lower ones are an interbed of brown loam and sandy loam. The strata on the upthrown block of the fault are sandy loam containing gravel. The trench shows 3 fault planes, and the upper offset point on the fault plane is 1.5m below the ground surface, the newest dislocated stratum is （3.74±0.06） ka BP. The trench reveals a lot of deformation traces, such as fault planes, dislocated strata, colluvial wedges and formation tilting. The relationship between strata and faults in the trench shows that 3 paleoearthquake events have occurred at the Jiaocheng fault zone since the Early Holocene, they are about （3.74±0.06）- （3.06±0.26）ka BP, （8.35±0.09）ka- （3.74±0.06）ka BP, and（ 10.66±0.85） - （8.35±0.09）ka BP. The average interval among the events is 2.6 - 3.6ka. The minimum coseismic vertical displacements of the 3 events are 3.0m, 2.5m and 3.2m, respectively. The significance of Xizhang trench is that the Jiaocheng fault used to be active thousands of years ago, though there is no M ≥ 7.0 earthquake recorded in historical documents. Evidence of new Jiaocheng fault zone activity during the Holocene is important for the earthquake safety assessment of Taiynan city in the future.     

Paleomagnetic study on the Early Triassic red beds from Jiaocheng, Shanxi Province--Local rotation and tectonic significance

Paleomagnetic and rock magnetic study has been conducted on the Early Triassicred beds of Liujiagou Formation from Jiaocheng, Shanxi Province. Hematite was shown as themain magnetic mineral. After eradicating an initial viscous component at room temperature to～100℃-200℃, thermal demagnetization shows that most samples contain two remanencecomponents, intermediate-temperature remanence component at 250℃-500℃ and high-tem-perature component at 500℃-680℃. The intermediate-temperature component has a negativefold test at the 95% confidence level. And the pole position of the intermediate-temperaturecomponent in geographic coordinates is correlated with the Middle Jurassic reference pole of theNorth China Block (NCB) within the 95% confidence, suggesting that it might be a remagnetiza-tion component acquired during the Yanshanian period. The high-temperature component con-tains both reversal and normal polarities with positive fold test and C-level positive reversal test atthe 95% confidence level, which suggests that this high-temperature component can be regardedas primary magnetization. Comparison of this newly obtained Early Triassic paleopole with thecoeval mean pole of the Ordos Basin suggests that a locally relative rotation may have happenedbetween the Ordos and the Jiaocheng area of Shanxi Province. This rotation may be related withtwo faults: one is Lishi big fault separating Ordos from Shanxi and the other is Jiaocheng big fault,which is situated in the southeast of sampling locality and was still in motion during the Cenozoic.     

口泉断裂郊城段断裂展布特征及其活动性研究

通过地质调查、联合钻孔勘察、断层露头剖面实测、光释光年龄测试等综合手段,对口泉断裂郊城段准确位置、断裂展布特征和活动性进行详细研究。结果表明,断裂在该地段由2条断裂组成,呈平行阶梯状,间距30 m,山区侧断裂断距1.4 m,盆地侧断裂断距1.9 m,两断裂断至地表属全新世活动断裂,为同期黏滑所致。晚更新世晚期(20.3~27.8 ka)地层平均沉积速率约为0.17 mm/a。沿断裂无明显的地貌陡坎,基岩山体剥蚀后退400~600 m。研究得出的断裂准确位置、展布特征及活动性结果,对口泉断裂形成历史、盆地的形成演化及对沿线工程规划和灾害评估有较大的参考意义。     

Cd, Cr, Cu, Ni and Pb in the water column and sediments of the Ob-Irtysh Rivers, Russia

Concentrations of Cd, Cr, Cu, Ni and Pb were determined in filtered water, suspended particulate matter, and bottom sediments from a 2000 km section of the Ob and Irtysh Rivers. Dissolved Cd, Cr, Cu and Ni concentrations are similar to, or higher than, results from other Russian Arctic and large world river-estuaries. Concentrations of Cd, Cr, Cu, Ni and Pb in suspended particulate matter are generally comparable to results from other Russian Arctic and large world rivers and estuaries. Comparison of trace metal ratios in crustal material and suspended particulate matter and bottom sediment suggests that the source of Cr, Cu and Ni is continental weathering. Particulate Cd and Pb are elevated relative to their crustal abundance, suggesting a source of these metals to the Ob-Irtysh in addition to continental weathering.     

Variations of gravity before and after the Haicheng earthquake, 1975, and the Tangshan earthquake, 1976

Before and after the Haicheng earthquake of magnitude 7.3 which occurred on February 4, 1975, five repeated gravimeter surveys were carried out, three before and two after the earthquake, along a northwest-southeast profile of about 250 km in length not far on the west of the epicenter. The mean-square error of the measurements of the gravity differences between two consecutive points on the profile is less than 40 μGal. From June, 1972 to May, 1973, within a period of about one year, the results of three surveys indicated a clear decrease of the gravity values at points on the southeastern portion of the profile, amounting to about 352 μGal. After the earthquake, the fourth survey, which was carried out in March, 1975, revealed that the gravity values had recovered to the levels of the first survey and continued to increase as was shown by a fifth survey carried out in July of the same year.Variations of gravity were also observed before and after the Tangshan earthquake of magnitude 7.8 which occurred on July 28, 1976, but in this case, gravity was increasing instead of decreasing before the earthquake. Along an east-west profile of about 270 km in length and not far on the north of the epicenter, two gravity surveys were made before and two after the earthquake. The results showed that after the main shock, the gravity values of the whole profile, especially at those points closer to Tangshan, tended to return gradually to their values of the first survey before the earthquake.From these results, there seems to be a close relationship between these gravity variations and the occurrences of earthquakes. Based on results of repeated levelling work done in these regions, the estimated amount of gravity change caused by the change of elevation of the ground surface is far too small to account for the observed value. Therefore we speculate that some large earthquakes might be associated with some sort of mass transfer under ground, within the crust or in the upper mantle. This transfer would cause a large part of the gravity variation observed. We have made a theoretical analysis of this effect and attempted to obtain some estimate of the magnitude of this mass transfer, even though we are not yet clear about the physics of it.