太行山东缘汤阴地堑地壳结构和活动断裂探测

采用深、浅地震反射和钻孔地质剖面相结合的探测方法,对太行山东缘汤阴地堑的地壳结构和隐伏活动断裂进行了研究.结果表明,该区地壳厚度约36~42 km,莫霍面从华北平原区向太行山下倾伏.汤阴地堑是一个受汤东断裂控制的半地堑构造,其基底面形态与莫霍面展布呈"镜像"关系.汤东断裂是1条继承性的隐伏活动断裂,该断裂向上错断了埋深约20 m的中更新世晚期地层,向下延伸至上地壳底部.综合分析深地震反射和已有深地震宽角反射/折射剖面结果,发现深地震反射剖面上的中-下地壳强反射层和壳幔过渡带反射,与深地震宽角反射/折射剖面上出现的中-下地壳正负速度梯度变化层有着较好的对应关系,这表明本区中-下地壳和壳幔过渡带可能为一系列速度递变层或高低速物质的互变层,埋深约15~16 km的强反射带为上地壳与中-下地壳的转换带,壳幔过渡带的底界为地壳与地幔的分界.研究结果为深入理解该区的深部动力学过程、分析研究深浅构造关系、评价断裂的活动性提供了依据.     

浅层人工地震和地质雷达在城市活动断层探测中的联合应用?以鹤壁市汤东断裂为例

浅层人工地震勘探是探查城市隐伏活动断层最有效的手段之一,然而受近地表探测盲区和探测分辨率的限制,该方法难以获取活动断层超浅层上断点的准确埋深位置。地质雷达探测方法在一定程度上可弥补浅层人工地震勘探的不足。为探索浅层人工地震勘探和地质雷达探测的联合应用效果,分析其在城市隐伏活动断层探测中的应用潜力,选取河南省鹤壁市汤东断裂西支为研究对象,并在冯屯村和前交卸村分别开展联合探测,获取高信噪比的浅层人工地震反射剖面和地质雷达剖面。浅层人工地震勘探揭示的冯屯村处汤东断裂西支上断点埋深为60～70 m,地质雷达探测揭示的上断点埋深约为2.5 m,结合平均沉积速率推测汤东断裂西支在冯屯村的最新活动时代约为25 ka。浅层人工地震勘探揭示的前交卸村处汤东断裂西支上断点埋深为50～60 m,地质雷达探测揭示出汤东断裂西支在前交卸村处未造成近地表约10 m以内的地层断错。研究结果表明,在城市隐伏活动断层探测中,采用浅层人工地震勘探和地质雷达探测相结合的方法,不但可有效确定活动断层的位置,且可进一步约束活动断层上断点的准确埋深,有利于指导后期地震地质勘探中的探槽和钻孔布设。     

北京平原西北部地壳浅部结构和隐伏活动断裂——由地震反射剖面揭示

已有地质和地球物理研究结果表明,北京平原区存在有多条第四纪隐伏活动断裂和隐伏盆地.为了研究该区的地壳浅部结构、断裂的空间展布、断裂活动性以及深浅构造关系,2006年,在北京平原的西北部地区完成了1条60次覆盖的中深层地震反射剖面和跨断裂的浅层地震反射剖面.结果表明,沿剖面结晶基底埋深约为3～6 km在结晶基底以上,地震反射剖面揭示了一套连续性较好的强反射震相,应是新生代、中生代和古生代的沉积岩系;在结晶基底之下,为一系列横向连续性较差、能量较弱的短小反射事件,可能代表了变质程度较高的结晶变质岩系或不成层的其他岩体.中深层和浅层地震剖面揭示的断裂具有上下一致的对应关系和明显的第四纪活动,对本区地堑-地垒状盆岭构造和新生代地层厚度具有重要的控制作用.本项研究不仅可进一步提高对北京地区新构造活动的认识,而且研究中所采用的方法技术对其他地区的深浅构造探测研究也有借鉴意义     

用地震反射剖面研究汤阴地堑上地壳结构与断裂特征

汤阴地堑位于太行山脉与华北平原的过渡带,是太行山前重要的地质构造单元。为研究汤阴地堑上地壳结构和断裂特征,利用安阳市与新乡市活断层探测获得的深、浅地震反射剖面,结合研究区已有地震、地质资料,对汤阴地堑浅部结构、汤东断裂特征进行分析研究。结果表明,汤阴地堑北部与南部地壳结构差异明显。地堑北部是由汤东断裂控制的半地堑,地堑内反射震相丰富、反射波层组关系清晰,多组新生代、古生代沉积层强反射不整合地覆盖在自西向东倾伏的结晶基底反射T_g上,且随着深度增加,地层倾角增大,显示出明显的多期掀斜运动特征。地堑南部表现为由汤东、汤西断裂共同控制的断陷型地堑,地堑内新近系底界面反射波TN自西向东倾伏,其下为一些横向呈水平或东倾、延续性较短的反射震相。地堑南部与北部不同的反射震相特征表明,测线控制区域内的汤阴地堑沉积环境与运动特征可能有所差异。汤东断裂为走向NE,倾向NW的铲型正断层,汤西断裂为走向NE、倾向SE的正断层,北部中深层地震反射剖面上未发现该断层的存在。     

高密度电阻率法在西藏日喀则地区隐伏断裂探测中的应用

以跨谢通门—青都断裂的两条高密度电阻率法探测资料为基础, 对高密度电阻率法在青藏高原日喀则地区隐伏断裂探测中的首次应用进行了详细介绍． 所获取的高密度电法剖面显示, 该断层的电阻率异常特征清晰, 其上断点埋深可达20—30 m, 较浅层人工地震探测所揭示的断层上断点埋深(50 m)更浅, 结合地层年代资料推测该断裂的最新活动时期为早—中更新世． 探测结果表明: 高密度电法剖面清晰地显示了断层在浅部松散层的延伸, 适用于日喀则地区的隐伏断层探测; 相较于浅层人工地震探测, 该方法对浅部松散层的探测具有明显优势, 一定条件下能够更好地揭示断层上断点埋深, 可与浅层人工地震探测形成互补． 需要指出的是, 在应用中需重视测区水文地质及地层发育情况对探测的影响．      

临漳-大名断裂活动特征

临漳-大名断裂位于覆盖层较厚的平原地区,处于隐伏状态,为获得断裂的浅部构造特征以及活动特征,在断裂上采用高分辨浅层地震探测方法,获得了两条高质量叠加时间剖面图以及深度剖面图,这些图像清晰地显示了断裂的浅部构造以及活动特征。探测结果表明,临漳-大名断裂活动时代具有分段性,临漳段断裂上断点埋深120m,最新活动时代为中更新世早期;大名段断裂上断点埋深105m,最新活动时代为晚更新世中期。     

利用地震折射和反射波资料研究银川盆地浅部结构和隐伏断裂

银川盆地是华北克拉通西部构造活动较为强烈的一个新生代断陷盆地.为了研究银川盆地的地壳浅部结构和活动断裂特征,我们利用2014年在银川盆地完成的深地震反射剖面数据,采用初至波层析成像方法得到了银川盆地高精度的基底P波速度结构和构造形态;考虑到仅根据速度结构剖面还难以确定断裂的准确位置、断层上断点埋深、断层的近地表构造组合样式等特征,研究中还采用浅层地震反射波勘探方法对银川盆地内的隐伏断裂和1739年平罗8.0级地震的地表破裂带浅部结构进行了高分辨率成像.研究结果表明:银川盆地与两侧地块的浅层P波速度结构和沉积盖层厚度差异较大,银川盆地总体呈现出明显的低速结构特征,盆地基底面起伏变化较大,基底最深处位于芦花台断裂和银川断裂之间的银川市下方,其深度约为7000~7200 m;贺兰山隆起区显示为明显的高速特征,地表出露中-古生代基岩地层,缺失新生代地层;鄂尔多斯地块西缘的浅层P波速度明显高于银川盆地,基底埋深相对较浅,推测其新生界地层厚度小于2500 m.浅层地震反射剖面揭示的地层反射界面形态和断裂的浅部构造特征非常清楚,黄河断裂、贺兰山东麓断裂、银川断裂和芦花台断裂不仅是错断盆地基底的断裂,而且还是第四纪以来的隐伏活动断裂,这些断裂的交替活动形成了"堑中堑"的盆地结构,并对银川盆地的形成、盆地内的新生代地层厚度和第四纪沉降中心具有重要的控制作用;在近地表这些断裂表现为由2~3条断层组成的"Y字形"断裂构造,且主断裂的最新活动可追踪至晚更新世末期或全新世,是构造继承性活动的结果.本文的研究结果不仅可为进一步分析银川盆地的基底结构、隐伏断裂特征和活动构造研究等提供新的地震学证据,而且还可为该区城市规划中避让活动断层提供科学依据.     

廊固凹陷韩村断裂活动性探测与研究

在廊坊市活动断层探测与地震危险性评价项目中(2008-2013)布设4条浅层地震勘探测线探测韩村断裂。该文对浅层地震勘探数据进行重新处理,获得高质量的地震剖面,清晰地显示出韩村断裂的浅部构造特征;结合石油地震、深地震反射资料,获得韩村断裂的深浅构造特征。研究表明,断裂在浅部为一条视倾角较陡的正断层,上断点埋深160～170 m,活动时代为早更新世早期;在深部,韩村断裂归并到向西倾的牛坨镇断裂上,在深约9.5 km左右终止在结晶基底T_G上。     

新乡-商丘断裂封丘段浅部探测和第四纪活动性的初步研究

为研究隐伏断裂的近地表特征和第四纪活动性,在新乡-商丘断裂封丘段完成了2条高分辨率浅层地震反射剖面和1条钻孔联合地质剖面。通过地震反射剖面获得了新乡-商丘断裂封丘段深约1km以浅的地层及构造分布图像,其结果表明,新乡-商丘断裂封丘段浅部表现为由多条视倾向N的正断层组成的断裂体系,总体走向NWW,断层错断第四纪内部地层。钻孔联合地质剖面显示,该断裂向上错断的最新地层为浅棕红色-褐黄色黏土层,上断点埋深在57.00～61.50m之间。结合采集样品的测年结果判断,封丘段的最新活动时代为晚更新世中期。文中的研究结果可为重大工程选址、城镇规划与建设、震害预测与评估提供基础资料,对于探讨新乡-商丘断裂深浅构造关系、区域构造演化等地球动力学问题具有参考价值。     

浅层地震资料揭示的驻马店地区上蔡岗断裂浅部构造特征

已有资料显示上蔡岗断裂为隐伏逆断层,为研究上蔡岗断裂浅部构造特征,笔者跨断裂开展高分辨率浅层地震探测,获得4条高分辨率浅层地震剖面。本文根据高分辨率浅层地震剖面,并结合已有地质资料,对上蔡岗断裂浅部特征进行分析和讨论。研究结果表明:上蔡岗断裂为1条走向北北西、倾向北东东的逆断层,在岗地中部存在1条次级断层,与主断层呈反y形构造,与岗地地表形态基本一致。研究结果可为驻马店市地震危险性评价及城市规划提供地质和地球物理学依据。     

THE CRUSTAL SHALLOW STRUCTURES AND FAULT ACTIVITY DETECTION IN XINYI SECTION OF TAN-LU FAULT ZONE

The Tan-Lu fault zone is the largest active tectonic zone in eastern China, with a complex history of formation and evolution, and it has a very important control effect on the regional structure, magmatic activity, the formation and distribution of mineral resources and modern seismic activity in eastern China. Xinyi City has a very important position as a segmental node in the Shandong and Suwan sections of the Tan-Lu fault zone. Predecessors have conducted research on the spatial distribution, occurrence and activity characteristics of the shallow crustal faults in the Suqian section of the Tan-Lu belt, and have obtained some new scientific understandings and results. However, due to different research objectives or limitations of research methods, previous researches have either focused on the deep crustal structure, or targeted on the Suqian section or other regions. However, the structural style and deep-shallow structural association characteristics of Xinyi section of Tan-Lu belt have not been well illustrated, nor its activity and spatial distribution have been systematically studied. In order to investigate the shallow crustal structure features, the fault activities, the spatial distribution and the relationship between deep and shallow structures of the Xinyi section of the Tan-Lu Fault, we used a method combining mid-deep/shallow seismic reflection exploration and first-break wave imaging. Firstly, a mid-deep seismic reflection profile with a length of 33km and a coverage number greater than 30 was completed in the south of Xinyi City. At the same time, using the first arrival wave on the common shot record, the tomographic study of the shallow crust structure was carried out. Secondly, three shallow seismic reflection profiles and one refraction tomography profile with high resolution across faults were presented. The results show that the Xinyi section of Tan-Lu fault zone is a fault zone composed of five concealed main faults, with a structural pattern of “two grabens sandwiched by a barrier”. The five main faults reveal more clearly the structural style of “one base between two cuts” of the Tan-Lu fault zone. From west to east, the distribution is as follows: on the west side, there are two high-angle faults, F₄ and F₃, with a slot-shaped fault block falling in the middle, forming the western graben. In the middle, F₃ and F₂, two normal faults with opposite dip directions, are bounded and the middle discontinuity disk rises relatively to form a barrier. On the east side, F₂ and F₁, two conjugate high-angle faults, constitute the eastern graben. The mid-deep and shallow seismic reflection profiles indicate that the main faults of the Xinyi section of Tan-Lu fault zone have a consistent upper-lower relationship and obvious Quaternary activities, which play a significant role in controlling the characteristics of graben-barrier structure and thickness of Cenozoic strata. The shape of the reflective interface of the stratum and the characteristics of the shallow part of the fault revealed by shallow seismic reflection profiles are clear. The Mohe-Lingcheng Fault, Xinyi-Xindian Fault, Malingshan-Chonggangshan Fault and Shanzuokou-Sihong Fault not only broke the top surface of the bedrock, but also are hidden active faults since Quaternary, especially the Malingshan-Chonggangshan Fault which shows strong activity characteristics of Holocene. The results of this paper provide a seismological basis for an in-depth understanding of the deep dynamics process of Xinyi City and its surrounding areas, and for studying the deep-shallow tectonic association and its activity in the the Xinyi section of the Tan-Lu Fault.     

大庆长垣西缘断裂浅部构造特征

大庆石油物探资料结果表明,大庆长垣西缘断裂的上盘,即东侧的北西向断裂可能存在第四纪活动断裂。为了确定大庆长垣西缘断裂的空间展布以及该区的地壳浅部地质构造特征,本项研究布设了2条跨大庆长垣西缘断裂的浅层地震探测剖面。结果表明,大庆长垣西缘断裂表现为走向北东、倾向南东的逆断层,为一条中生代晚期活动断裂。断裂的上盘,即东侧发育有一系列次级断裂,断裂的断层性质以及断层倾向多样化,两条测线东部均发育错断第四纪地层的断层,使得该区浅部地层形成地堑与地垒构造。本项研究不仅可进一步提高对大庆长垣地区浅部构造特征的认识,而且为大庆市地震危险性评价提供依据。     

NEW EVIDENCES FOR LATE QUATERNARY ACTIVITY IN THE SOUTHERN SEGMENT OF THE YISHU-TANGTOU FAULT,THE TAN-LU FAULT ZONE,AND ITS TECTONIC IMPLICATION

The Tan-Lu Fault Zone(TLFZ), a well-known lithosphere fault zone in eastern China, is a boundary tectonic belt of the secondary block within the North China plate, and its seismic risk has always been a focus problem. Previous studies were primarily conducted on the eastern graben faults of the Yishu segment where there are historical earthquake records, but the faults in western graben have seldom been involved. So, there has been no agreement about the activity of the western graben fault from the previous studies. This paper focuses on the activity of the two buried faults in the western graben along the southern segment of Yishu through combination of shallow seismic reflection profile and composite drilling section exploration. Shallow seismic reflection profile reveals that the Tangwu-Gegou Fault(F₄)only affects the top surface of Suqian Formation, therefore, the fault may be an early Quaternary fault. The Yishui-Tangtou Fault(F₃)has displaced the upper Pleistocene series in the shallow seismic reflection profile, suggesting that the fault may be a late Pleistocene active fault. Drilling was implemented in Caiji Town and Lingcheng Town along the Yishui-Tangtou Fault(F₃)respectively, and the result shows that the latest activity time of Yishui-Tangtou Fault(F₃)is between(91.2±4.4)ka and(97.0±4.8)ka, therefore, the fault belongs to late Pleistocene active fault. Combined with the latest research on the activity of other faults along TLFZ, both faults in eastern and western graben were active during the late Pleistocene in the southern segment of the Yishu fault zone, however, only the fault in eastern graben was active in the Holocene. This phenomenon is the tectonic response to the subduction of the Pacific and Philippine Sea Plate and collision between India and Asian Plate. The two late Quaternary active faults in the Yishu segment of TLFZ are deep faults and present different forms on the surface and in near surface according to studies of deep seismic reflection profile, seismic wave function and seismic relocation. Considering the tectonic structure of the southern segment of Yishu fault zone, the relationship between deep and shallow structures, and the impact of 1668 Tancheng earthquake(M=8(1/2)), the seismogenic ability of moderate-strong earthquake along the Yishui-Tangtou Fault(F₃)can't be ignored.     

宁夏吴忠地区北部的浅部结构和隐伏断裂——地震反射剖面结果

应用浅层地震勘探法对宁夏吴忠地区北部的浅部地壳结构和隐伏活动断裂进行研究。结果表明,该区存在2条隐伏断裂,分别为银川主断层南段和新华桥断层。推测银川主断层南段为近SN走向的W倾正断层,断层下盘地层界面一般呈近水平状展布,而在断层上盘,T_Q及其以下的地层界面向断面方向倾伏并显示出逆牵引现象,断层向上错断了第四系内部。钻孔联合地质剖面及浅层地震探测结果共同揭示新华桥断层为一条走向NE,倾向SW的正断层,深、浅地震测线控制的新华桥断层延伸长度9 km左右,向上错断了第四系内部的T_(02)界面。     

THE STRUCTURAL CHARACTERISTICS OF PANGUSI-XINXIANG FAULT IN THE SOUTHERN MARGIN OF TAIHANG MOUNTAINS

Pangusi-Xinxiang Fault is a great-scale, deep-incising buried active fault in the southern margin of the Taihang Mountains. In order to find out the location, characteristics, structure and activities of Pangusi-Xinxiang Fault, shallow reflection profiles with six lines crossing the buried faults were carried out. In this paper, based on the high-resolution seismic data acquisition technology and high-precision processing technology, we obtained clear images of underground structures. The results show that Pangusi-Xinxiang Fault is a near EW-trending Quaternary active fault and its structural features are different in different segment. The middle part of the fault behaves as a south-dipping normal fault and controls the north boundary of Jiyuan sag; The eastern part of the fault is a north-dipping normal fault and a dividing line of Wuzhi uplift and Xiuwu sag. The shallow seismic profiles reveal that the up-breakpoint of the Pangusi-Xinxiang Fault is at depth of 60~70m, which offsets the lower strata of upper Pleistocene. We infer that the activity time of this fault is in the lower strata of late Pleistocene. In this study, not only the location and characteristics of Pangusi-Xinxiang Fault are determined, but also the reliable geological and seismological evidences for the fault activity estimation are provided.     

汤阴地堑南部土壤Rn空间分布特征

为分析汤阴地堑南部土壤Rn空间分布特征,揭示其与断裂构造、岩性及沉积层厚度之间的联系,本文采用网格化布点野外流动观测方法测定了该地区380个点的土壤Rn浓度,结果表明:汤阴地堑土壤Rn浓度介于3.09—78.54 kBq/m3,背景均值为27.22 kBq/m3,异常阈值下限为48.40 kBq/m3。在空间分布上,研究区西部（以第四系等厚线50 m为界）,受岩石单元和人类石料开采活动的影响,Rn浓度背景值高于东部。在西部高浓度背景影响下,Rn浓度高值异常点除沿汤西断裂带分布外,还沿断裂带外围呈斑块状分布,断裂带对气体释放的控制作用在一定程度上被掩盖。而东部地区,覆盖层较厚,Rn浓度背景值较低,部分高值异常点主要沿汤中和汤东断裂带分布,显示出构造对气体迁移的控制作用;另一部分高值异常点与第四系等厚线近似平行,呈条带分布,推测新乡—卫辉间存在一条规模较大的隐伏断裂。此外,研究区主要断裂带的Rn异常衬度表现为汤东断裂带高于汤西和汤中断裂带。结合研究区地质背景和深部孕震环境认为,该Rn异常衬度表现是汤阴地堑南部构造活动背景的反映。因此,研究区土壤Rn浓度空间分布主要受断裂构造、岩性、沉积层厚度以及人类活动的影响,气体异常衬度主要受汤阴地堑南部构造活动背景的控制。土壤Rn浓度能够有效地用于汤东活动断裂带的构造活动监测,而对位于隆起区与沉降区的过渡地带、断裂局部出露于地表,且受人类活动影响较大的汤西断裂带则需充分考虑环境背景的影响。