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1.
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Tg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。 相似文献
2.
秦岭-大别造山带横贯中国大陆中部,并将我国东部分为南北两部;即华北克拉通和扬子克拉通.在南、北相向运动力系驱动下构成了一个极为复杂的复合、叠加构造带、成矿带和地震活动带.同时导致了该地域异常变化的沉积建造和强烈起伏的结晶基底.然而对它们形成的地球物理边界场响应,岩相和结构的异常变化尚不清晰,特别对盆山之间的耦合响应更缺乏深层动力过程的理解.为此本文通过该区榆林-铜川-涪陵长1000 km剖面的地震探测和研究结果提出:(1)沉积建造厚度变化为4~10 km,结晶基底起伏强烈,幅度可达4~6 km;(2)一系列基底断裂将该区切割为南鄂尔多斯盆地和秦岭北缘前陆盆地、秦岭-大巴造山带和南缘前陆盆地与东北四川盆地,其中前陆盆地为秦岭北渭河盆地和秦岭南通江-万源盆地;(3)秦岭造山带是北部华北克拉通向南推挤、南部扬子克拉通向北推挤下隆升的陆内山体,并构筑了其南、北前陆盆地;(4)秦岭造山带的南、北边界并非是一条边界断层,而应是包括前陆盆地在内的组合界带;(5)秦岭与大巴弧形山系源于同一深部结晶基底,即同根生.这一系列的新认识对深化理解秦岭-大巴造山带形成的深层动力过程和演化机理及厘定扬子克拉通的真实北界具有极为重要的意义. 相似文献
3.
Geometric form of Haiyuan fault zone in the crustal interior and dynamics implications 总被引:1,自引:0,他引:1
The deep seismic reflection data on profile HY2 are reprocessed by the method of simultaneous inversion of velocity distribution
and interface position. By the travel-time inversion with the data of the diving wave Pg and fault plane reflection wave,
we determine the geometric form and velocity of Haiyuan fault zone interior and surrounding rock down to 10 km depth. The
measured data show that the amplitudes have strong attenuation in the range of stake number 37–39 km, suggesting the fault
zone has considerable width in the crustal interior. The results of this paper indicate that to the north of the fault zone
the crystalline basement interface upheaves gradually from southwest to northeast and becomes shallow gradually towards northeast,
and that to the south of the fault zone, within the basin between Xihua and Nanhua mountains, the folded basement becomes
shallow gradually towards southwest. The obliquity of the fault zone is about 70° above the 3 km depth, about 60° in the range
of the 3–10 km depths. From the results of this paper and other various citations, we believe that Haiyuan fault zone is in
steep state from the Earth’s surface to the depth of 10 km.
Foundation item: Joint Seismological Science Foundation of China (201001) and State Key Basic Research Development and Programming Project
(95-13-02-02).
Contribution No. RCEG200308, Exploration Geophysical Center, China Earthquake Administration. 相似文献
4.
The results of seismic deep reflection,high resolution refraction and shallow artificial seismic exploration indicate that the fault on the northern bank of the Weihe river is composed of two faults,one is the Yaodian-Zhangjiawan fault and the other is the Chuanzhang-Zuitou fault.The 22 km long Yaodian-Zhangjiawan fault of EW-striking starts from Chenjiagou via Yaodian town,Qianpai village,Bili village,Wujia town and Zhangjiawan to Jiajiatan.The 15 km long Chuanzhang-Zuitou fault striking near EW starts from Chuanzhang via Mabei to Zuitou.The Weihe fault offset the basement and upper crust,the reflecting layers of TQ,TN,TE and Tg are ruptured at depth of about 15 km.In the deep part,the Weihe fault and the secondary fault form a Y-shaped structure or a synthetic low angle intersection.The Weihe fault is a listric normal fault.The fault has obvious structural characteristics of a reversed-drag normal fault and a normal drag normal fault with the depth of 1 000 m,and also has the characteris-tics of syngenetic sediment.The Weihe fault is one of the faults which control the basin sediment,and it is the boundary fault of Xi’an depression and Xianyang salient.The depth of the fault decreases from the west to east gradually,the deep part intersects with the Lintong-Chang’an fault at the intersection part of Weihe River,Jinghe River and Bahe River and the shallow part connects with the Weinan-Jingyang fault.The seismic exploration re-sults indicate that no fault exists on southern bank of the Weihe River. 相似文献
5.
本文对跨过西秦岭造山带(中段)的阿坝—若尔盖—临潭—兰州大地电磁剖面(WQL-L1)所采集到的数据进行了精细化处理分析和二维反演研究,结合跨过2013年岷县漳县地震区的WQL-L6剖面大地电磁探测结果和以往的地质与地球物理资料,对西秦岭造山带(中段)的深部电性结构、主要断裂带延伸状况以及与南北两侧地块的接触关系等进行了分析研究,结果表明:东昆仑断裂带塔藏段、迭部—白龙江断裂和光盖山—迭山断裂带共同组成了东昆仑断裂系统,分隔了松潘—甘孜地块和西秦岭造山带(中段);西秦岭北缘断裂带为主要的高角度南倾大型电性边界带,延伸深度穿过莫霍面;临潭—宕昌断裂带具有电性边界带特征,其延伸情况具有东、西差异.西秦岭造山带(中段)自地表到深度约20km范围表现为东北和西南浅、中部深的倒"梯形"高阻层,在高阻层之下广泛发育低阻层,低阻层与高阻层相互契合,呈现相互挤压堆积的式样,其西南侧的松潘—甘孜地块中下地壳存在西南深、东北浅低阻层,其东北侧的陇西盆地具有稳定的成层性结构,显示出西秦岭造山带(中段)正处于松潘—甘孜地块向北挤压和陇西盆地向南的阻挡挤压作用中.松潘—甘孜地块从西南向东北推挤、东北侧陇西盆地相对阻挡的相互作用是2013年岷县漳县6.6级地震发生的外部动力学机制,同时地震震源区特殊介质属性是该次地震发生的内部因素.西秦岭造山带(中段)中上地壳倒"梯形"高阻体埋深西薄、东厚的分段差异与该段内部中强地震分布差异有关.东昆仑断裂玛沁段和塔藏段内部的深部电性结构差异和延伸状况与东昆仑断裂自西向东走滑速率减小有内在联系. 相似文献
6.
南天山及塔里木北缘构造带位于帕米尔地区东北侧,地震活动强烈。文中通过地质构造剖面、深部探测资料和地震震源机制解资料,综合研究了该区的地震构造模型。结果认为,该区的构造活动主要表现为天山地块逆冲于塔里木地块之上。天山构造系统包括迈丹断裂及其前缘推覆构造;塔里木构造系统包括深部的塔里木北缘断裂、基底共轭断层和浅部的推覆构造。塔里木北缘断裂是发育于塔里木地壳内部的高角度断裂,其形成原因在于塔里木和天山构造变形方向的差异。塔里木北缘断裂为研究区大地震的主要发震构造,天山推覆构造和塔里木基底断裂系统均具有不同性质的中强地震发震能力 相似文献
7.
Zhong-Yang Lin Hong-Xiang Hu Wen-Bin Zhang Hui-Fen Zhang Zheng-Qin He Zhen-Ming Lin Tao-Xing Qiu 《地震学报(英文版)》1993,6(4):867-881
The preliminary interpretation of Project western Yunnan 86–87 is presented here. It shows that there obviously exists lateral
velocity heterogeneity from south to north in western Yunnan. The depth of Moho increases from 38 km in the southern end of
the profile to 58 km in its northern end. The mean crustal velocity is low in the south, and high in the north, about 6.17–6.45
km/s. The consolidated crust is a 3-layer structure respectively, the upper, middle and lower layer. P
1
0
is a weak interface the upper crust, P
2
0
and P
3
0
are the interfaces of middle-upper crust and middle-lower crust respectively. Another weak interface P
3
0′
can be locally traced in the interior of the lower crust. Interface Pg is 0–6 km deep, interface P
1
0
9.2–16.5 km deep, and interfaces P
2
0
and P
3
0
respectively 17.0–26.5 km, 25.0–38.0 km deep. The velocity of the upper crust gradually increases from the south to the north,
and reaches its maxmium between Nangaozhai and Zhiti, where the velocity of basement plane reaches 6.25–6.35 km/s, then it
becomes small northward. The velocity of the middle crust varies little, the middle crust is a low velocity layer with the
velocity of 6.30 km/s from Jinhe-Erhai fault to the north. The lower crust is a strong gradient layer. There exists respectively
a low velocity layer in the upper mantle between Jinggu and Jingyunqiao, and between Wuliangshan and Lancangjiang fault, the
velocity of Pn is only 7.70–7.80 km/s, it is also low to the north of Honghe fault, about 7.80 km/s. Interface P6/0 can be traced on the top of the upper mantle, its depth is 65 km in the southern end of the profile, and 85 km in the northern
end.
The Chinese version of this paper appeared in the Chinese edition ofActa Seismologica Sinica,15, 427–440, 1993. 相似文献
8.
《地震学报(英文版)》1993,6(2):409-416
Making use of 75 earthquake data of China mainland and adjacent areas recorded by long period seismometers of 27 stations
of China and 3 stations of WWSSN and processed by match-filtering frequency-time analysis technique and grid dispersion inversion,
the authors obtain pure-path dispersion curves of Rayleigh surface wave in 147 grids in this paper.
The distribution characteristics of group velocity are as follows:the China mainland and its adjacent sea areas are divided
into two parts of east and west by South-North belt and are separated in blocks of south and north with boundaries of 44°–44°N,28°N
(in the west part) and 28°–32°N (in the east part), the first and third boundaries may extend eastward into sea regions, in
the west side of island arc and continental shelves, appears belt-form distribution of group velocity striping NE direction.
These distribution characteristics correspond to zonation of tectonic structure. In addition, the results also indicate that
the differences of group velocity dispersion curves exist between tectonic elements of next order. It is revealable for the
differences of group velocity among different tectonic elements until periodT = 113s (corresponding depth is about 170km).
The Chinese version of this paper appeared in the Chinese edition ofActa Seismologica Sinica,15, 32–38, 1993. 相似文献
9.
本文应用地震子波理论和方法对云南两次大规模人地地震测深资料进行研究。结果表明,思茅和江川测区地质结构复杂,基底的动力学特征变化很大,思茅基底呈不完整的断块,江川北西方向60公里范围内,不稳定的基底中存在个别较为完整的块体,景谷以南40公里以内,基底的动力学特征变化较大,40-45公里段存在断层或破碎带,下关和景云桥测区基底的动力学特征的相对稳定,红河断裂和澜沧江断裂在该两处浅部的反映是微弱的。 相似文献
10.
为了获得三维地震透射成像技术在活断层探测中的有效性和应用价值的评价,在银川盆地中北部布设了一个三维地震透射台阵,利用该台阵获得的基底初至折射波和莫霍界面反射波资料,采用有限差分反演、时间项反演和连续速度模型反演方法,对台阵区域基底及上地壳结构进行了分析.结果表明:研究区基底呈东西浅、中部深的界面形态,且西陡东缓,最深处大致位于芦花台至西大滩一带,埋深达7 km.芦花台断层、银川—平罗断层、黄河断层在研究区内均表现为北北东走向的速度差异条带,且断层两侧基底及沉积界面埋深存在显著变化.芦花台断层东倾,倾角较陡,延伸至研究区基底之下;银川—平罗断层倾向西,是一条超基底的隐伏断层;黄河断层西倾,延伸深度超过研究区基底.本探测结果证明,初至折射波与莫霍面反射波探测相结合的三维地震透射台阵技术能够给出研究区上地壳三维细结构图像,不仅可以揭示主要断裂的展布位置、浅部空间形态和特征,而且可以揭示断裂向基底之下的延伸状况. 相似文献
11.
The distribution of earthquakes from 1973 to 1982 in the South China Sea, Indochina and their vicinity was studied using the
data from I. S. C. It was found that the earthquakes are mainly concentrated along the boundaries of plates. Beside, some
of shallow eartqhuakes are distributed in west part of Burma and the boundary between Burma and China, a few of earthquakes
occurred in South China Sea. The features of Benioff zone along the boundaries between India plate, Philippine Sea plate and
Eurasia plate were studied. The plate do not coupled well under the Java trench and the Philippine trench. The subducted India
plate under Burmese range, Andaman—Nicobar arc moves NNE. The fault plane solutions of earthquakes were studied using the
first motions of P wave. The stress state on subduction zones and within the area were deduced from the fault plane solutions
and the fault movement. It was found that the direction of principal compression axis of stress is in the NNE in west part
of Burma, in S—N in south and middle part of Bruma and Thailand, and in NNE or S—N in the South China Sea. It was also found
that the stress state has close relation with the interaction of plates.
The Chinese version of this paper appeared in the Chinese edition ofActa Seismologica Sinica,13, 129–137, 1991. 相似文献
12.
利用横跨塔里木盆地、阿尔金造山带和柴达木盆地的拜城—大柴旦综合地球物理剖面的人工地震宽角反射/折射资料,对拜城—大柴旦剖面研究区上地壳的Q值结构进行了反演. 结果表明,研究区上地壳的Q值结构具有明显的分层性,Q值随深度的加大而增大;横向对应的不同地质构造单元的Q值具有不同的分布特点. 塔里木盆地的上地壳具有稳定的Q值结构,但盆地北缘(特别是库车坳陷)的Q值比南缘的低,表明北缘的介质比较破碎. 这可能与盆地北缘活跃的构造特征与巨大的沉积厚度有关,是引起盆地南北两侧地震活动性差异(北缘强,南缘弱)的重要原因之一. 阿尔金造山带上地壳的平均Q值较高(约500),这可能由于结晶基底埋藏较浅,基岩出露,因此地震波在此处传播能量衰减较慢所致. 柴达木盆地西半部分上地壳的Q值除了表层的(厚1.0~2.0km)较高外,其余各层的Q值与塔里木盆地中部的相当(平均约400),显示了与塔里木盆地相似的稳定构造. 相似文献
13.
通过地质调查、物化探测量、地震活动性分析,研究了绰尔河断裂的位置、地质特征和活动性,以及该断裂对文得根水库坝址区稳定性的影响。结果表明,绰尔河断裂总体沿绰尔河河谷呈NW向展布,形成于中生代,经历了多期活动,表现为先压扭后引张。断裂北段宽而深,南段窄而浅。晚更新世末期以来不活动。绰尔河断裂对坝址稳定性影响不大。 相似文献
14.
Modern tectonic stress field in the Chinese mainland inverted from focal mechanism solutions 总被引:1,自引:0,他引:1
IntroductionTheinversionapproachofregionalstressfielddevelopedinrecent10to20yearsprovidesausefultoolforstudyingthemeanstressinagivenregion(Angeller,1979;Ellsworth,1981,Xu,Ge,1984).Becauseitusesmultitudinousfaultsinsteadofsinglefault,itcanremovetheinhomogeneityoflocalmediumsoastorevealtheregionalstressinformation.Besides,thismethodproducesaRvalue,whichisdefinedby(O-2--q)/(q--q),andmaydescribestherelativemagnitUdeofintermediateprincipalstress,whereq,acand%arethemaximum,theintermediateandthemi… 相似文献
15.
Tectonic evolution of the ultrahigh-pressure (UHP) and high-pressure (HP) metamorphic belts from central China 总被引:28,自引:0,他引:28
Abstract In the Triassic suture between the Sino-Korean and Yangtze cratons, the Dabie metamorphic Complex in central China includes three tectonic units: the northern Dabie migmatitic terrane, the central ultrahigh-P coesite- and diamond-bearing eclogite belt, and the southern high-P blueschist-eclogite belt. This complex is bounded to the north by a north-dipping normal fault with a Paleozoic accretionary complex and to the south by a north-dipping reverse fault with Yangtze basement plus its foreland fold-and-thrust sequence. Great differences in metamorphic pressure suggests that these units reached different depths during metamorphism and their juxtaposition occurred by wedge extrusion of subducted old continental fragments. These units were subsequently subjected to (i) Barrovian type regional metamorphism and deformation at shallow depths; (ii) intrusion of Cretaceous granitic plutons; and (iii) doming and segmentation into several blocks by normal and strike-slip faults. A new speculative model of tectonic exhumation of UHP rocks is proposed. 相似文献
16.
Geometric form of Haiyuan fault zone in the crustal interior and dynamics implications 总被引:2,自引:0,他引:2
Introduction The deep faults in the crust have direct relation to the occurrence of earthquakes and the dis-tribution of active seismic zones, so the researches on the geometric form and physical parametersof deep crustal faults are always an important problem in seismology. The researches are not onlysignificant to knowledge the deep tectonic background of strong earthquake and seismogenicmechanism, but also play a very important role in earthquake hazard estimation and earthquakeprevent… 相似文献
17.
Yebang Xu 《地震学报(英文版)》1992,5(2):389-398
The research of the information dimension (D
1) in an active fault zone considers the contribution of each seismic event to information and reflects the characteristics
of the temporal and spatial distributions of earthquakes from a new point of view, avoiding some short-comings of the research
about the capacity dimension (D
0). The results of calculation show that the information dimension of the temporal distribution in Xianshuihe active fault
zone before Luhuo large earthquake isD
1=0.1051. It is a consult creterion of large earthquakes in future in the fault zone. The information dimensions of the temporal
distribution of the earthquakes in Anninghe active fault zone are respectivelyD
1(t
N)=0.1363 (for the north section) andD
1(t
S)=0.06710 (for the south section). The information dimensions of the spatial distribution are respectivelyD
1(K
N)=1.053 (for the north section) andD
1(K
S)=0.7758 (for the south section). The north section and the south section belong to two self-similar systems with different
information dimensions respectively. The extent of the self-organization of seismic activity in the south section is higher
than that in the north section. This is helpful for us to judge the major dangerous section in the key region of the seismic
monitoring. The research about the information dimension of the temporal and the spatial distributions of earthquakes is significant
for the exploration of active fault zones and seismic prediction.
The Chinese version of this paper appeared in the Chinese edition ofActa Seismologica Sinica,13, 372–379, 1991.
This paper is sponsored by the Chinese Joint Seismological Science Foundation. The English version is improved by Zhenwen
An. 相似文献
18.
云南位于南北地震带南段,地震活动具有频度高、强度大的特点,中小地震几乎遍及云南南部,是中国大陆内部地震活动最强的地区之一.滇南地区跨越多个重要的地质构造单元和多条地震带,其中红河断裂带是跨越该地区的一条大型的走滑断裂带,作为印支地块和华南地块两大地块的分界断裂,对人们认识板块相互运动及其深部动力学背景具有重要意义.中国地震局于2010年启动了"中国地震科学台阵探测--南北地震带南段"项目,在云南省中西部跨越红河断裂带布设一条近东西向的深地震宽角反射/折射探测剖面,本文利用该东西向深地震宽角反射/折射剖面来研究红河断裂带及滇南地区详细的地壳结构及其孕震背景.研究结果表明:沿测线地壳结构呈西薄东厚的特征,以红河断裂带为界,断裂带以西地壳较薄,约34 km,以东地壳加厚至44 km左右;红河断裂带两侧速度结构具有明显的差异,断裂带西侧速度较低,东侧速度明显偏高.由震相特征及获取的地壳结构可以看出,红河断裂带两侧由浅至深速度结构的异常特征说明该古缝合带两侧块体地壳结构岩性的巨大差异性. 相似文献
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北西走向的桥头集-东关断裂与郯庐断裂带南段相交切,横跨合肥盆地及其东缘的隆起区,在合肥盆地内呈隐伏状态。本研究跨桥头集-东关断裂合肥盆地段布设3条浅层地震勘探测线,揭示断裂浅部构造特征。解译出的FP1、FP2和FP3断层性质相同,倾向一致,上断点深度相近,反映出桥头集-东关断裂合肥盆地段是一条走向NW、倾向SW、具有逆断分量的断裂。3条浅层地震反射剖面中第四系的底界面反射波组TQ呈连续近水平展布,表明桥头集-东关断裂两侧的第四系厚度无明显变化。在浅震剖面解译的基础上,布设了1条跨断层钻孔联合剖面,剖面揭露出的第四系没有被错动。结合本区第四系地层发育情况及钻孔地层年龄分析,认为桥头集-东关断裂中更新世以来不活动。根据本文探测结果,尚不能排除桥头集-东关断裂早更新世有一定的弱活动。 相似文献