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1.
初论邵武-河源断裂带的活动性 总被引:9,自引:0,他引:9
邵武-河源断裂带包含3条形态各异,特征不同的较大断裂带,北段为邵武-石城断裂带,中段为瑞金-寻乌断裂断,南段为龙川-河源断裂带。本文侧重阐述,分析江西境内该断裂带挽近地质时期的活动及与之有关的地貌,地震,温泉和地裂缝特征,探讨其活动性以及对地壳稳定性的影响。分析认为,邵武-河源断裂带现今还处于活跃期,但引起高级别地震可能性比较小,分散小震有可能发生。 相似文献
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《矿物岩石》2018,(4)
通过对大凉山断裂带中段普雄河断裂、甘洛-汉源断裂、洪溪-美姑断裂进行野外的氡气测量,分析讨论各断裂带的氡气特征、相对活动性强弱以及与现代地震的发震关系。研究结果表明:(1)3条断裂均表现出氡气多峰异常的特征,指示其为多条断层或隐伏断层组成的构造带。其中,普雄河断裂带由6条断层组成、甘洛-汉源断裂带由3条主要断层组成、洪溪-美姑断裂由3条断层组成;与野外及地形地貌有着较好的对应性;(2)3条断裂带内各断层氡气最大峰背比介于3.89~16.30;异常平均峰背比介于3.11~7.09;异常平均值/异常下限值介于1.82~4.15,相对活动性判别表明,虽然普雄河断裂带最宽,次级断层最为发育,但甘洛-汉源断裂的活动性却更强,表明中生代以来的控盆作用更明显;(3)与区内已有发震断层资料对比总结出,当断层氡气异常平均峰背比介于4.67~5.12、异常平均值与异常下限值比介于2.73~3.00时,断层具有发生5.0级中强震的能力。而甘洛-汉源断裂带中侯波日哈断层、瓦依拉达断层氡气异常平均峰背比介于5.52~7.09、异常平均值与异常下限值比介于3.23~4.15,因此具有发生大于5.0级中强震的可能,也为监测区内活动断层的地震活动性提供了新的资料。 相似文献
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龙泉山断裂带属龙门山前陆隆起,与青藏高原龙门山的隆升演化密切相关。为探讨龙泉山断裂带断层活动方式、期次及年代特征,在该断裂带不同部位采集了断层泥样品,通过扫描电镜(SEM)对样品中的石英颗粒进行了痕迹微形貌和溶蚀微形貌观察,通过电子自旋共振(ESR)测试了样品断层的最新活动年龄,并结合区域地震资料,进一步研究了龙泉山断裂带断层的发震潜力。结果表明: 龙泉山断裂带断层运动方式以黏滑为主,兼蠕滑; 具有多期次活动特征,强烈活动时间为早更新世—中更新世,晚更新世也有明显断层活动,全新世断层活动不明显; SEM 、ESR、热释光(TL)测得的断层最新活动年龄为(1 210±121)~(110±10.0) ka; 最新活动年代和活动性具有分段性,中段断层活动性较弱,北段和南段断层活动性较强。总之,龙泉山断裂带为1条活动性断裂带,具有一定的发震潜力,地震沿断裂带呈带状分布,但相比其西侧的龙门山断裂带,其活动性已大大降低。 相似文献
4.
四川汶川地震断裂活动和次生地质灾害浅析 总被引:13,自引:4,他引:9
为了揭示汶川地震断裂活动与次生地质灾害的关系,在对汶川地震重灾区进行快速调查的基础上,分析了影响汶川地震的龙门山断裂带震后的断裂活动、地表破裂与崩塌、滑坡、泥石流等次生地质灾害发育特征的关系。野外调查发现,龙门山3条断裂带的地表变形破坏(包括沿断裂带的道路、农田、建筑物和边坡变形破坏)特征具有明显的差异性和分段性,映秀-北川断裂地震活动最剧烈,南坝-关庄断裂、灌县-安县断裂、平武-青川断裂等活动性次之的“横向”差异性,以及龙门山断裂带由南向北地震活动性减弱的“纵向”分段性。地震断裂活动的差异性和分段性明显控制了崩塌、滑坡、泥石流等次生地质灾害的发育特征,即映秀-北川断裂区域的次生地质灾害规模大、分布密度大、危害严重,沿其余断裂的次生地质灾害危害相对较轻。 相似文献
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为了揭示粤北地区岩石圈深部结构、深大断裂性质及花岗岩分布规律等科学问题,布设了乳源-潮州宽频带大地电磁探测剖面。由二维反演得出的电性结构,讨论了粤北地区岩石圈导电性结构特点。沿剖面存在3个花岗岩分布区,呈现不同的类型,可能代表不同的成因模式。沿剖面划分3条北东向断裂带:吉安-四会断裂、赣江断裂于韶关东形成宽度近20km的低阻区域,其间形成断陷盆地;河源-邵武断裂带,其两侧发育壳幔高导层并发育壳幔混合型花岗岩,深部电性结构复杂,可能为壳幔剧烈作用的场所;丽水-海丰断裂带,控制了燕山晚期花岗岩的分布。韶关、连平之间和龙川、丰顺之间50~150km存在2个巨大的低阻体,可能是地幔物质底侵作用的"通道";且底侵方向指向连平和龙川之间的区域,由于底侵作用力贡献,发育了一系列的壳内和上地幔高导层。粤北地区岩石圈从西向东逐渐减薄,从100余km减薄到60km,反映了太平洋板块对欧亚板块的消减作用。潮州100km深度以下的中-低阻特征,推断为太平洋板块俯冲作用留下的"洋壳"物质。 相似文献
7.
陈传勇 《地质灾害与环境保护》2006,17(1):64-68
据粤赣高速公路设计方案,拟建新丰江大桥将从河源断裂附近通过,桥址选择在断层上盘或上下盘,关系到大桥的安全稳定。经论证,桥位应选择在断层下盘硅化岩上,其理由为:(1)按规范要求,桥址在断裂附近通过时,应在同一盘,最好是下盘。(2)邵武-河源断裂虽然是一条活动性断裂,但断裂面已东移至红层与硅化岩交界处,硅化岩是中生代断裂活动标志,到新生代与砂岩、花岗岩都已成为断裂下盘,已不是断裂活动标志。(3)硅化岩是坚硬而且强度大的岩石。 相似文献
8.
《地壳构造与地壳应力文集》2016,(2)
本文利用ETM+、资源三号等多源遥感数据,经过镶嵌、增强及融合等一系列影像处理,对沂沭断裂带(郯庐断裂带山东带)的几何展布及构造地貌特征进行了详细的解译。研究表明,沂沭断裂带总体走向NNE,主要由5条主干断裂组成,分别是鄌郚-葛沟断裂(F_1)、沂水-汤头断裂(F_2)、白芬子-浮来山断裂(F_3)、昌邑-大店断裂(F_4)及安丘-莒县断裂(F_5),遥感影像上形成两堑一垒的构造地貌格局,而每条断裂均有明显的遥感构造地貌特征,表现为线性特征、色调差异、串珠状湖泊分布、断层陡坎、断层陡崖、断塞塘等现象,其中安丘-莒县断裂(F_5)在构造地貌上具有历史地震地表破裂、断层陡坎与冲沟同步右旋位错等较新的活动现象,表明该断裂为现今5条主干断裂中构造活动性最强的一条,对强震的发生具有明显的控制作用。 相似文献
9.
郯庐断裂带是中国东部板内一条规模最大的强构造变形带与地震活动断裂带,其断裂结构与历史地震活动性具明显的分段活动性。文中通过沿郯庐断裂带中南段的历史地震活动性、精定位背景地震活动性与震源机制解分析,讨论了断裂带的深部几何结构与现今活动习性。现今地震活动在中段主要沿1668年郯城MS 8地震破裂带线性分布,线性条带在泗洪-诸城间延伸约340 km长,为1668年地震长期缓慢衰减的余震序列活动。大震地表破裂遗迹与精定位地震分布都揭示出郯庐断裂带中段的两条全新世活动断裂昌邑-大店断裂与安丘-莒县断裂以右阶斜列的形式共同参与了1668年郯城MS 8地震破裂。精定位震源剖面刻画出两条断裂结构面呈高角度相背而倾,其中昌邑-大店断裂倾向SE,安丘-莒县断裂倾向NW,两条断裂在深部没有合并汇聚。余震活动所代表的1668年地震震源破裂带是郯庐断裂带中现今尚未闭锁的安全段落,对应于高b值段。而未发生破裂的安丘以北段,小震活动不活跃,b值低,现今可能已成为应力积累的闭锁段。震源机制解揭示的断裂应力状态在中段以NE向主压应力为主,表现为右旋走滑活动性质,且存在少量正断分量,南段转为以NEE至近EW向为主,存在少量的逆冲分量。在中段与南段的转折处宿迁-嘉山段,主压应力方向垂直断裂带走向呈NWW向,反映出局部以挤压为主的应力特征,其中泗洪-嘉山段也是历史地震未破裂段,现今小震活动不活跃,因此该段可能更易于应力积累。精定位小震活动在郯庐断裂与北西向断裂相交汇处聚集,反映出北西向断裂的新活动性,以及郯庐断裂带现今的逆冲作用。在断裂带南端,精定位背景地震活动沿与其相交汇的襄樊-广济断裂带东段呈北西向线性分布,表明了该段的现今活动性。 相似文献
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利用Landsat 8、Google Earth等中高分辨率遥感影像以及ASTER GDEM资料并结合前人研究成果,在分析总结江西九江及邻区主要活动断裂带遥感影像解译标志的基础上,获取该区主要活动断裂空间展布情况,结合地震地质资料进一步探讨该区主要活动断裂的性质及其第四纪活动性。研究发现,该地区断裂构造空间展布复杂,以北东与北西走向为主,其中的主要活动断裂带可归并为4大断裂系统,分别为庐江-广济断裂系、黄冈-鄱阳断裂系、九江断裂系和东至-鄱阳断裂系。根据主要断裂带的地貌错位、三维地貌与地形信息及历史地震数据等对断裂活动性进行分析和分级,将该区主要断裂的现今活动性划分为显著、较显著和一般3个级别,并进一步讨论了区域断裂活动与地震的关系。 相似文献
11.
滨海断裂带是南海北缘的一条大型活动断裂带,其位置靠近我国华南沿海地区。滨海断裂带全长超过1200 km,包括西段(北部湾- 阳江),中段(珠江口)和东段(粤东- 福建)。其西段和东段历史上至少曾发生过4次大地震(M7+),中段目前是一个大地震空区。在经济高速发展和人口高度密集的今天,如果滨海断裂带再次发生大地震并触发海啸,必将对我国华南沿海地区造成灾难性破坏。由于缺乏完整的历史地震记录和针对古地震的钻孔沉积研究,目前尚不清楚滨海断裂带大地震的准确次数、空间分布和复发周期,以及中段大地震空区的主要原因(断层蠕滑或大地震周期较长),因此无法有效评估该断裂带的大地震破裂分段和灾害风险。本研究总结了滨海断裂带的构造特征、重点描述了3次历史大地震及引发的灾害影响,和国际上针对海底大地震的钻探研究经验。根据这些信息,本文建议在断裂带的西段、中断和东段进行大洋钻探,获取穿过断层带的关键沉积和岩石样品,利用沉积古地震方法重建滨海断裂带东段和西段的大地震历史和复发周期,研究断层带的岩石物理性质,揭示滨海断裂中段大地震空区的成因,解析断层分段式破裂的原因,为我国海洋防灾减灾提供重要的科学依据。 相似文献
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基于详细的遥感解译和野外调查,发现龙首山南缘断裂发育有较新的地震地表破裂遗迹,包括断层坎、地震鼓包、河道的系统位错等断层地貌标志,破裂带总长度超过20 km,沿断裂走向其垂向位移介于0.35~4 m,水平位移介于0.3~1.9 m,龙首山南缘断裂主体表现为逆冲性质,仅在西端表现为局部左旋走滑的性质。通过剖面和探槽揭示,龙首山南麓地区全新世以来发生多次断层活动,最新的一次在约3.96 ka以来。经过与区域内的强震记录比对,认为此次新发现的地震地表破裂带可能是1954年山丹MS 7?地震所致。1954年山丹MS 7?地震在浅表沿两条断裂同时发生了地表破裂,表现为正花状构造的变形样式。这种同震位移分配现象以往多发现于走滑型地震中,此次在逆冲型地震中发现。龙首山南缘断裂地表破裂带的发现为揭示1954年山丹地震的震源过程和破裂样式提供了新的证据和思路。 相似文献
13.
Hasan Sözbilir Ökmen Sümer Çağlar Özkaymak Bora Uzel Tayfun Güler Semih Eski 《Geodinamica Acta》2016,28(4):273-294
The Edremit Fault Zone (EFZ) forms one of the southern segments of the North Anatolian Fault Zone (NAFZ) at the northern margin of the Edremit Gulf (Biga Peninsula, South Marmara Region, Turkey). Stratigraphic, structural and kinematic results indicate that basinward younging of the fault zone, in terms of a rolling-hinge mechanism, has resulted in at least three discrete Miocene to Holocene deformational phases: the oldest one (Phase 1) directly related to the inactive Kazda? Detachment Fault, which was formed under N–S trending pure extension; Phase 2 is characterised by a strike-slip stress condition, probably related to the progression of the NAFZ towards the Edremit area in the Plio–Quaternary; and Phase 3 is represented by the high-angle normal faulting, which is directly interrelated with the last movement of the EFZ. Our palaeoseismic studies on the EFZ revealed the occurrence of three past surface rupture events; the first one occurred before 13178 BC, a penultimate event that may correspond to either the 160 AD or 253 AD historical earthquakes, and the youngest one can be associated with the 6 October 1944 earthquake (Mw = 6.8). These palaeoseismic data indicate that there is no systematic earthquake recurrence period on the EFZ. 相似文献
14.
Historical earthquake activity of the northern part of the Dead Sea Fault Zone, southern Turkey 总被引:1,自引:0,他引:1
H. Serdar Akyuz Erhan Altunel Volkan Karabacak C. Caglar Yalciner 《Tectonophysics》2006,426(3-4):281-293
The northern part of the Dead Sea Fault Zone is one of the major active neotectonic structures of Turkey. The main trace of the fault zone (called Hacıpaşa fault) is mapped in detail in Turkey on the basis of morphological and geological evidence such as offset creeks, fault surfaces, shutter ridges and linear escarpments. Three trenches were opened on the investigated part of the fault zone. Trench studies provided evidence for 3 historical earthquakes and comparing trench data with historical earthquake records showed that these earthquakes occurred in 859 AD, 1408 and 1872. Field evidence, palaeoseismological studies and historical earthquake records indicate that the Hacıpaşa fault takes the significant amount of slip in the northern part of the Dead Sea Fault Zone in Turkey. On the basis of palaeoseismological evidence, it is suggested that the recurrence interval for surface faulting event is 506 ± 42 years on the Hacıpaşa fault. 相似文献
15.
沂沭断裂带纵贯山东省中部,属郯庐断裂带中段。在沂沭断裂带及其近区新元古代—新生代的沉积地层中,到目前,已识别出25个地震事件层位。这些地震事件层位的名称取自不同年代或年龄的含地震记录的岩石地层。大多数地震记录是震积岩,少部分为震火山岩,它们的时空分布支持该断裂带生成—活动与发展历史分2个阶段: 古郯庐断裂带阶段(新元古代—古生代)和中—新生代阶段。新元古代初鲁中至苏皖北部NNE向韧性剪切带的形成,沟通了秦岭大别与苏鲁洋间的NEE走向的转换断层,可能是沂沭断裂带或古郯庐断裂带的成因机制。在纵向上,古郯庐断裂带阶段形成了8个地震事件层位,其中5个地震事件层位较密集地分布于南华系至中下寒武统;中—新生代阶段形成了17个地震事件层位,其中12个层位较密集的分布于白垩系—古近系。因此,南华纪—早中寒武世、白垩纪—古近纪分别为2个发展阶段的强地震事件频繁发生时段。在这2个发展阶段,该断裂带地震活动的动力来源不同: 古郯庐断裂带阶段主要源于华北与华南板块的相向运动与碰撞;中—新生代阶段主要源于太平洋板块向欧亚大陆板块下俯冲。在横向上,有15个(占60%)地震事件层位分布在此断裂带内或由该断裂带内向两侧延伸,这体现了沂沭断裂带一直是研究区内发震构造的主体。所有地震事件地层分布于该断裂带纵中轴线两侧150~180,km以内的同沉积盆地,这证明该深大断裂带的两侧近区是强构造地震活动区。作者关于地震事件层位的时空分布的论述和图解,展示了该断裂带自形成以来的地震作用的过程与历史,清晰地勾绘出了这条长期活动地震带的影响范围,这不仅对分析此类深大活动断裂带及其附近由地震引发的软沉积物变形与地震作用具有重要意义,而且对评价此类地震带对地表和建筑物的地震破坏效应也具有重要意义。 相似文献
16.
Magdalena Scheck Ulf Bayer Volker Otto Juliette Lamarche Dirk Banka Tim Pharaoh 《Tectonophysics》2002,360(1-4):281-299
The Elbe Fault System (EFS) is a WNW-striking zone extending from the southeastern North Sea to southwestern Poland along the present southern margin of the North German Basin and the northern margin of the Sudetes Mountains. Although details are still under debate, geological and geophysical data reveal that upper crustal deformation along the Elbe Fault System has taken place repeatedly since Late Carboniferous times with changing kinematic activity in response to variation in the stress regime. In Late Carboniferous to early Permian times, the Elbe Fault System was part of a post-Variscan wrench fault system and acted as the southern boundary fault during the formation of the Permian Basins along the Trans-European Suture Zone (sensu [Geol. Mag. 134 (5) (1997) 585]). The Teisseyre–Tornquist Zone (TTZ) most probably provided the northern counterpart in a pull-apart scenario at that time. Further strain localisation took place during late Mesozoic transtension, when local shear within the Elbe Fault System caused subsidence and basin formation along and parallel to the fault system. The most intense deformation took place along the system during late Cretaceous–early Cenozoic time, when the Elbe Fault System responded to regional compression with up to 4 km of uplift and formation of internal flexural highs. Compressional deformation continued during early Cenozoic time and actually may be ongoing. The upper crust of the Elbe Fault System, which itself reacted in a more or less ductile fashion, is underlain by a lower crust characterised by low P-wave velocities, low densities and a weak rheology. Structural, seismic and gravimetric data as well as rheology models support the assumption that a weak, stress-sensitive zone in the lower crust is the reason for the high mobility of the area and repeated strain localisation along the Elbe Fault System. 相似文献
17.
红河—金沙江断裂带,根据地质结构的差异可分为北段羌塘向北叠瓦逆冲断裂带,中段三江—哀牢山向东叠瓦逆冲断裂带,南段河内—中建正反转走滑断裂带。北段和中段均由三组基本平行的叠瓦逆冲断层构成,显示以强烈挤压为特征,但后者相对较弱;南段则经历了古近纪由挤压反转为拉张,形成一些断陷构造,新近纪又反转为挤压,断陷转变为坳陷,形成河内、莺歌海及中建等坳陷。该南段的主断层为正反转构造逆冲带的前锋太平断裂带,与原先人们所认为的不相同。红河—金沙江断裂带的挤压特征总体上由北往南逐渐减弱,其演化受特提斯构造活动所控制。断裂带的油气勘探成果表明,在喜马拉雅期形成的断坳结构盆地中油气显示较好。 相似文献
18.
B. K. Davis 《Australian Journal of Earth Sciences》2013,60(6):789-797
Country‐rock structures adjacent to plutons of the linear, northwest‐southeast‐trending Mt Alto Supersuite, Hodgkinson Province, northeastern Australia, are variably developed from north to south along the belt. S3 and S4 cleavages show close temporal relationships with pluton emplacement and are better and more widely developed around plutons in the north, whereas much weaker cleavages of the same generation are only sporadically developed to the south. Cleavage trend lines anastomose around less elongate plutons to the north but are generally truncated by more elongate plutons to the south. It is proposed that a major crustal dislocation, the Alto Fault Zone, comprises a set of subparallel structures that formed prior to granite intrusion and controlled emplacement of some plutons and their final shapes. The north‐south variation in structural relations is interpreted to reflect a corresponding variation in depth of emplacement from north to south, which resulted when post‐emplacement reactivation of the Alto Fault Zone uplifted and sinistrally displaced the northern end of the supersuite relative to the southern end. Reactivation of the fault zone after granite emplacement is supported by the truncation of some plutons. 相似文献
19.
The Bekten Fault is 20-km long N55°E trending and oblique-slip fault in the dextral strike-slip fault zone. The fault is extending sub-parallel between Yenice-Gönen and Sar?köy faults, which forms the southern branch of North Anatolian Fault Zone in Southern Marmara Region. Tectonomorphological structures indicative of the recent fault displacements such as elongated ridges and offset creeks observed along the fault. In this study, we investigated palaeoseismic activities of the Bekten Fault by trenching surveys, which were carried out over a topographic saddle. The trench exposed the fault and the trench stratigraphy revealed repeated earthquake surface rupture events which resulted in displacements of late Pleistocene and Holocene deposits. According to radiocarbon ages obtained from samples taken from the event horizons in the stratigraphy, it was determined that at least three earthquakes resulting in surface rupture generated from the Bekten Fault within last ~1300 years. Based on the palaeoseismological data, the Bekten Fault displays non-characteristic earthquake behaviour and has not produced any earthquake associated with surface rupture for about the last 400 years. Additionally, the data will provide information for the role of small fault segments play except for the major structures in strike-slip fault systems. 相似文献
20.
O. P. Smekalin A. V. Chipizubov V. S. Imaev V. M. Besstrashnov A. I. Mel’nikov 《Russian Journal of Pacific Geology》2007,1(2):176-185
In the recent structure of the Baikal Rift Zone, the Kichera Fault serves as the northwestern boundary of the Angara-Kichera aggradation depression. A seismotectonic scarp 60 m high was formed as a result of normal faulting during the late Pleistocene and Holocene. The erosion-aggradation and seismic landforms testify to the nonuniform growth of this scarp. To study the character of the seismic activity in the Kichera Fault Zone, we excavated two trenches across the seismotectonic scarp. The Holocene stage of the seismotectonic activation within the fault zone and the preceding period of relative quiescence were outlined from the character of the deformations in the trench sections and previous geomorphic investigations. According to our preliminary estimations, the active stage that started at the end of the late Pleistocene and that has remained incomplete until now was accompanied by at least three rupture-forming earthquakes. 相似文献