共查询到18条相似文献,搜索用时 109 毫秒
1.
利用复杂性系数、频谱分析和小波变换方法处理了穿过张家口—渤海断裂带西缘的地震测深剖面的Pm波形资料,研究不同构造单元壳幔过渡带的多参数特征以及它们在岩石圈构造演化中的意义. 结果表明: 不同构造单元Pm波的复杂性系数和频谱特征有较大差异,内蒙地轴复杂性系数小,莫霍面具有明显的一级间断面特征,怀安—张北位于张家口—渤海断裂带的西缘,该区域Pm波复杂性系数大并且频谱为多极值,Moho面为复杂的壳幔过渡带. 利用小波分析和反射率理论地震图得到该壳幔过渡带由2~3层组成,总厚度约为6~9km,最大厚度位于怀安盆地下方. 该壳幔过渡带是大陆裂谷环境中底侵作用的产物,壳幔过渡带的分层特征与该区域中新生代的多期岩浆活动有密切联系. 相似文献
2.
3.
4.
利用穿过青藏高原东北缘的两条地震测深剖面提供的PMP波形资料,研究了该区不同构造单元壳幔过渡带的复杂性、频谱特征和速度模型.结果表明, 鄂尔多斯盆地和陵中盆地Moho具有稳定的构造特征,壳幔耦合为简单的一级间断面;海原地震区和巴颜喀拉地块与柴达木地块结合带莫霍面具有明显的活动迹象,壳幔耦合为复杂的高、低速相间的多层壳幔过渡带,总厚度达到20多千米.不同构造单元的莫霍面差异性反映了研究区壳幔耦合层的非均匀特征;海原地震区和玛沁断裂壳幔过渡带的细结构差异, 则反映了两个陆 陆碰撞带不同的深部物质结构与地块之间的相互作用结果. 相似文献
5.
6.
哀牢山-红河断裂带及其邻区的地壳上地幔结构 总被引:10,自引:2,他引:10
利用地震台站的到时资料, 通过体波地震成像技术重建了青藏高原东南缘和南海西北部大陆边缘地壳上地幔的速度结构, 揭示出哀牢山-红河断裂带及其邻近地区的构造差异. 在上地壳和中地壳深度内, 哀牢山-红河断裂带为高速异常, 反映出韧性剪切后变质岩带抬升和快速冷却的特征, 下地壳和Moho面附近为低速异常, 意味着壳-幔边界仍然处于相对活动的状态; 在上地幔顶部, 断裂西侧滇西地区大范围的低速异常证实了地幔深部热流对该地区火山、热泉、岩浆活动的影响, 而断裂东侧则具有扬子地块的稳定性质, 断裂东南部分上地幔深部的低速异常可能与南海扩张引起的地幔对流有关. 相似文献
7.
中国东北是研究板内新生代火山活动及其成因的天然场所.以往的研究根据不同的壳幔速度结构,提出多种模型用以解释中国东北地区的火山活动.由于松辽盆地北缘的观测台站相对较少,导致这些模型对盆地北缘的约束较弱.我们利用近年来覆盖松辽盆地北缘的流动宽频带观测台站数据开展远震体波走时层析成像研究,获得了深达800 km的深部速度结构,在盆地北缘的火山群区域内得到如下认识:诺敏河和五大连池火山群共用一个200~300 km深处的地幔岩浆房.该地幔岩浆房内的低速异常为水平展布,未下延至地幔转换带内,并仅在该区域上地幔的局部范围内有所体现.结合前人的研究结果分析,我们认为该水平的局部低速异常可能是中生代晚期岩石圈拆沉导致的软流圈上涌热物质. 相似文献
8.
岩浆底侵作用与汉诺坝现今壳-幔边界组成 总被引:10,自引:0,他引:10
从汉诺坝新生代玄武岩中岩浆底侵成因的麻粒岩相和榴辉岩相堆晶岩、橄榄岩和辉石岩捕虏体的岩石矿物组合、岩石结构、矿物学、主微量元素和同位素地球化学特征, 讨论和限定了壳-幔边界岩石组成, 并得到岩石高温高压波速实验和深部地球物理探测结果的支持. 现今下部下地壳主要由麻粒岩相镁铁质堆晶岩(以斜长二辉岩为主)组成; 壳-幔过渡带主要由榴辉岩相石榴辉石岩、辉石岩和尖晶石二辉橄榄岩等组成; 太古代地体麻粒岩只是名义上的早期下地壳. 发生在壳-幔边界的岩浆底侵作用导致地壳的垂向增生和壳-幔过渡带的形成, 是显生宙以来壳-幔边界组成和化学调整的重要机制. 相似文献
9.
岩浆底侵作用与汉诺坝现今壳-幔边界组成--捕虏体岩石学与地球化学证据 总被引:2,自引:0,他引:2
从汉诺坝新生代玄武岩中岩浆底侵成因的麻粒岩相和榴辉岩相堆晶岩、橄榄岩和辉石岩捕虏体的岩石矿物组合、岩石结构、矿物学、主微量元素和同位素地球化学特征, 讨论和限定了壳-幔边界岩石组成, 并得到岩石高温高压波速实验和深部地球物理探测结果的支持. 现今下部下地壳主要由麻粒岩相镁铁质堆晶岩(以斜长二辉岩为主)组成; 壳-幔过渡带主要由榴辉岩相石榴辉石岩、辉石岩和尖晶石二辉橄榄岩等组成; 太古代地体麻粒岩只是名义上的早期下地壳. 发生在壳-幔边界的岩浆底侵作用导致地壳的垂向增生和壳-幔过渡带的形成, 是显生宙以来壳-幔边界组成和化学调整的重要机制. 相似文献
10.
利用中国东南部地震台站的波形数据,通过远震P波层析成像方法反演了福建及台湾地区的上地幔P波速度结构,据此分析了华夏块体的构造属性并探讨了中国东南部上地幔的深部动力学机制.结果表明,研究区上地幔速度结构存在明显的横向非均匀性,它们与区域构造的深部动力学成因密切相关.宏观上,NE向展布的低速异常与东南沿海地区中新生代火成岩的条带状分布保持了较好的一致性,推测其上地幔可能存在幔源物质上涌;以政和—大埔断裂带为界,东、西华夏块体的速度结构存在差异,结合前人的研究结果分析,东、西华夏块体岩石圈减薄和中新生代岩浆活动的驱动机制有所不同,西华夏块体为“板块俯冲+岩浆底侵(岩石圈拆沉)”的动力学模式,东华夏块体是“玄武质岩浆迁移+岩浆底侵”的动力学模式. 相似文献
11.
The complexity feature of crust-mantle boundary in Zhangbei seismic region and its tectonic implication 总被引:1,自引:0,他引:1
The ProP waveform data obtained from a deep seismic sounding profile, which ran through Zhangbei seismic region, were processed by means of both seismic wave complexity coefficient and frequency spectrum analysis methods, and the complexity characteristics of crest-mantle boundary beneath the studied area and its adjacent region were determined. The results show that the place below epicenter can be taken as boundary, the northern side of which is Inner Mongolia axis with small complexity coefficient and the southern side of which is Huai'an basin with large complexity coefficient. The different spectrum patterns at the two sides of the epicenter were inferred from spectrum analysis. In the epicentral area, there have been multi-period magmatic eruptions since Meso-Cenozoic and craters exist at the surface. From the velocity imaging of middle and upper crust in Zhangbei seismic region it can be found that there are crustal low velocity bodies around the craters and also there are low velocity zones, which went into deep crust. It is suggested that the distinct zones of crust-mantle boundary complexity may be the margin, where the magma had intruded due to magma activity in Meso-Cenozoic. The southern side with large complexity coefficient is deep magmatic activity area and the northern side with small complexity coefficient is stable crust-mantle tectonics. The difference of crust-mantle complexity provides deep background for the development of strong earthquake. 相似文献
12.
Introduction At the juncture of Qinghai-Xizang, Ordos and Alxa blocks lies the Qinghai-Xizang plateau, an area with complicated topographic and morphologic features, strong tectonic activities and frequent earthquakes (many large-magnitude earthquakes have taken place), has become a focal area for geoscience study. Many geophysical and geological surveys have been carried out in and around the area, such as deep seismic sounding (DSS), gravimetry, magnetotelluric sounding, magnetic anomaly … 相似文献
13.
利用在北京西北部地区穿过张家口——渤海地震带北西段地震测深剖面进行了综合解释和研究, 揭示了延庆——怀来、 张北——尚义地震活动区异常的深浅地壳结构特征. 结果表明: 研究区基底结构具有明显的起伏变化, 不同的地质构造单元基底埋深存在着较大差异. 基底埋深在局部地段呈现出的急剧变化可视其为基底断裂存在的一种标志, 基底断裂与地壳深断裂的存在为岩浆的上溢提供了条件, 从而导致了地壳结构强烈的非均匀性. 延怀地区壳内复杂反射波组序列和局部强弱不连续反射带现象的出现, 表明该地区地壳结构发生了强烈的挤压变形, 从而构成了该地区复杂的地壳结构, 为该地区地震的发生提供了动力来源; 张北——尚义地区壳内不同深度范围低速异常体和局部的C1界面的存在, 可以认为是岩浆多期活动的产物, 在区域构造活动的作用下脆性的上地壳内, 当局部应力积聚到一定的程度从而引发了地震的发生. 相似文献
14.
Li Songlin Zhang Xiankang Zhang Chengke Ren Qingfang Shi Jinhu Zhao Jinren Fang Shengming Liu Baofeng Pan Suzhen Zhang Jianshi 《中国地震研究》2001,15(3):230-238
INTRODUCTIONXIJI-Halyuan-Zhon驯el region Is a well-known eaythquake-prone one In China.From 876 to1989,IOrty-five earthquakes with M。34.7 occurred In and around the。glon(Ma Xingyuan,et al,1989).Seismic activity In this area Is evidently cha。cterized by large matlnltude and high frequency.The 1920 Haiyuan earthquake(M=8.5)happened nght In this region,which caused a seriousdisaster and had a wide-ranging effect seldom seen worldwide.For the years,lots of… 相似文献
15.
本文联合使用云南、四川和贵州地震台网的85个地震台站在2008年1月—2017年12月期间记录的49130个地震、317366个初至Pg震相绝对到时数据和2674110条高精度的相对到时数据,采用区域双差地震层析成像方法联合反演了川滇南部地壳三维P波速度结构和39621个地震的震源参数,探究了川滇南部中下地壳流和腾冲火山区岩浆囊的分布特征.研究结果表明:(1)川滇南部上地壳的速度异常特征与地表地形密切相关;(2)小江断裂带的中下地壳存在一条绵延近二百多公里的低速异常结构,最南端受到红河断裂带的阻挡而终止于断裂带南段北侧,这可能是川滇南部的一条中下地壳流,低速异常结构在红河断裂带南段转而向南东流动反映了红河断裂带可能为川滇菱形块体的西南边界;(3)红河断裂带各段速度异常存在明显的差异,重定位后的震源分布显示红河断裂带中段和南段虽然不如北段地震活动强烈,但地震震源深度分布较北段深;(4)腾冲火山区西侧和北侧下方10~20 km深度范围内存在的低速异常体推测为通过怒江断裂带形成的岩浆通道从中地壳涌入上地壳的岩浆囊,可能反映了自更新世延续至今的以橄榄玄武岩和安山岩为主要岩性的壳内岩浆活动,持续的岩浆活动为地表热活动提供了主要动力. 相似文献
16.
The Crust-Mantle Structure in Zhangbei-Shangyi Earthquake Area 总被引:4,自引:0,他引:4
Zhu Zhiping Zhang Jianshi Zhang Xiankang Zhang Chengke Liu Mingqing and Nie WenyingResearch Center of Exploration Geophysics CSB Zhengzhou China 《中国地震研究》1999,(4)
The seismic data obtained from the wide angle reflection and refraction profiles that pass through Zhangjiakou area of Hebei Province were interpreted. Some conclusions drawn from the result are as follows: (1) The nearly EW-trending Zhangbei-Chongli crustal fault zone and WNW-trending Zhangjiakou-Bohai Sea deep crustal fault zone meet in the Zhangbei earthquake (Ms = 6.2) area; (2) At the intersection, the two deep crustal fault zones that stretch to the Moho and the discontinuities of interfaces within the crust form the path for large area basalt eruption in Hannuoba; (3) In the earthquake area, the local velocity reversal in the middle-upper crust and abnormal low velocity zone in the lower crust imply that the magmatic activity there is still fairly violent; and (4) The recent activity of Zhangjiakou-Bohai Sea deep crustal fault zone may be the main cause of the Zhangbei earthquake. 相似文献
17.
Introduction Zhangjiakou-Bohai seismic zone is a major active seismic zone that passes through the north-ern part of North China. Zhangjiakou-Beijing area, the northwest part of North China, is located at the intersection position of Yanshan, Taihangshan uplift, and Shanxi down-faulted zone, and the geological structures in this area are extremely complicated. Many researchers in the geoscience circle always pay close attention to this region because Yanqing-Huailai region is located in th… 相似文献
18.
JOINT INVERSION OF SURFACE WAVE DISPERSION AND RECEIVER FUNCTIONS FOR CRUSTAL AND UPPERMOST MANTLE STRUCTURE BENEATH CHINESE TIENSHAN AND ITS ADJACENT AREAS 
下载免费PDF全文
下载免费PDF全文 The Tienshan orogenic belt is one of the most active intracontinental orogenic belts in the world. Studying the deep crust-mantle structure in this area is of great significance for understanding the deep dynamics of the Tienshan orogen. The distribution of fixed seismic stations in the Tianshan orogenic belt is sparse. The low resolution of the existing tomographic results in the Tienshan orogenic belt has affected the in-depth understanding of the deep dynamics of the Tienshan orogenic belt. In this paper, the observation data of 52 mobile seismic stations in the Xinjiang Seismic Network and the 11 new seismic stations in the Tienshan area for one-year observations are used. The seismic ambient noise tomography method is used to obtain the Rayleigh surface wave velocity distribution image in the range of 10~50s beneath the Chinese Tienshan and its adjacent areas (41°~48° N, 79°~91° E). The joint inversion of surface wave and receiver function reveals the S-wave velocity structure of the crust and uppermost mantle and the crustal thickness below the station beneath the Chinese Tienshan area(41°~46° N, 79°~91° E). The use of observation data from mobile stations and new fixed seismic stations has improved the resolution of surface wave phase velocity imaging and S-wave velocity structure models in the study area.
The results show that there are many obvious low-velocity layers in the crust near the basin-bearing zone in the northern Tienshan Mountains and the southern Tienshan Mountains. There are significant differences in the structural characteristics and distribution range of the low-velocity zone in the northern margin and the southern margin. Combining previous research results on artificial seismic profiles, receiver function profiles, teleseismic tomography, and continental subduction simulation experiments, it is speculated that the subduction of the Tarim Basin and the Junggar Basin to the Tienshan orogenic belt mainly occurs in the middle of the Chinese Tienshan orogenic belt, and the subduction of the southern margin of the Tienshan Mountains is larger than that of the northern margin, and the subduction of the eastern crust is not obvious or in the early subduction stage. There are many low-velocity layers in the inner crust of the Tienshan orogenic belt, and most of them correspond to the strong uplifting areas that are currently occurring. The thickness of the crust below the Tienshan orogenic belt is between 55km and 63km. The thickness of the crust(about 63km)is the largest near the BLT seismic station in the Bazhou region of Xinjiang. The average crustal thickness of the Tarim Basin is about 45km, and that of the Junggar Basin is 47km. The S-wave velocity structure obtained in this study can provide a new deep basis for the study of the segmentation of the Tienshan orogenic belt and the difference of the basin-mountain coupling type. 相似文献
The results show that there are many obvious low-velocity layers in the crust near the basin-bearing zone in the northern Tienshan Mountains and the southern Tienshan Mountains. There are significant differences in the structural characteristics and distribution range of the low-velocity zone in the northern margin and the southern margin. Combining previous research results on artificial seismic profiles, receiver function profiles, teleseismic tomography, and continental subduction simulation experiments, it is speculated that the subduction of the Tarim Basin and the Junggar Basin to the Tienshan orogenic belt mainly occurs in the middle of the Chinese Tienshan orogenic belt, and the subduction of the southern margin of the Tienshan Mountains is larger than that of the northern margin, and the subduction of the eastern crust is not obvious or in the early subduction stage. There are many low-velocity layers in the inner crust of the Tienshan orogenic belt, and most of them correspond to the strong uplifting areas that are currently occurring. The thickness of the crust below the Tienshan orogenic belt is between 55km and 63km. The thickness of the crust(about 63km)is the largest near the BLT seismic station in the Bazhou region of Xinjiang. The average crustal thickness of the Tarim Basin is about 45km, and that of the Junggar Basin is 47km. The S-wave velocity structure obtained in this study can provide a new deep basis for the study of the segmentation of the Tienshan orogenic belt and the difference of the basin-mountain coupling type. 相似文献