中国境内天山地壳上地幔结构的地震层析成像   总被引：23，自引：5，他引：18  

郭飚  刘启元  陈九辉  赵大鹏  李顺成  赖院根 《地球物理学报》2006,49(6):1693-1700

根据横跨中国境内天山的库车—奎屯宽频带流动地震台阵和区域地震台网记录的近震和远震P波走时数据,利用地震层析成像方法重建了沿该地震台阵剖面下方400 km深度范围内地壳上地幔的P波速度结构.结果表明：沿新疆库车—奎屯剖面,天山地壳具有明显的横向分块结构,且南、北天山地壳显示了较为强烈的横向变形特征,表明塔里木地块对天山地壳具有强烈的侧向挤压作用;在塔里木和准噶尔地块上地幔顶部有厚度约60～90 km的高速异常体,塔里木—南天山下方的高速异常体产生了较为明显的弯曲变形,而准噶尔—北天山下方的高速异常体向南一直俯冲到中天山南侧边界下方300 km的深度,两者形成了不对称对冲构造;在塔里木和准噶尔地块下方150～400 km深度存在上地幔低速体,其中塔里木地块一侧的上地幔低速物质上涌到南天山地块的下方;在塔里木—南天山200～300 km深度范围的上地幔存在高速异常体,它可能是地幔热物质向上迁移过程融断的塔里木岩石圈的拆离体. 上述结果表明,塔里木地块的俯冲可能涉及整个岩石圈深度,但其前缘仅限于南天山的北缘;青藏高原隆升的远程效应可能不但驱动塔里木岩石圈向北俯冲,同时还造成天山造山带南侧上地幔物质的涌入;天山造山带上地幔广泛存在的低速异常有助于其上地幔的变形,而上地幔物质的强烈非均匀性应有助于推动天山造山带上地幔小尺度地幔对流的形成;根据研究区地壳上地幔速度结构特征推断,新近纪以来天山快速隆升的主要力源来自青藏高原快速隆升的远程效应,相对软弱的上地幔为加速天山造山带的变形和隆升创造了必要条件.  相似文献   

远震P波层析成像研究阿尔金断裂带东端及其邻区深部结构   总被引：3，自引：1，他引：2       下载免费PDF全文

邹长桥  贺日政  段永红  魏运浩  刘巧霞  刘洋 《地球物理学报》2017,60(6):2279-2290

本文利用"中国地震科学台阵探测——南北地震带北段"项目在内蒙古阿拉善西部及甘肃西北部地区布设的80个流动宽频带地震仪及16个固定台站,于2013年10月—2015年6月所记录的787个远震事件,采用波形相关方法拾取了共49052个高质量的P波走时残差数据,并利用Fast-Marching远震走时层析成像方法,反演获取了研究区下方的三维P波速度结构.结果显示:阿尔金断裂带东段、祁连山、北山地区下方地壳结构表现为低速异常特征,具有明显的造山带构造特征;阿拉善地体下方地壳结构表现为高速异常特征,为典型的大陆地壳结构特征;阿拉善地块沿着青藏高原北边界逆冲断裂(NBT)南向俯冲,其在祁连山造山带下与北向俯冲的柴达木岩石圈形成了面对面的碰撞接触关系;阿尔金断裂带的末端并没有北东向延伸到阿拉善块体,而是受到刚性的阿拉善岩石圈阻挡沿着其南缘断裂带继续向东发展.  相似文献   

面波频散与接收函数联合反演南北地震带北段壳幔速度结构   总被引：4，自引：0，他引：4       下载免费PDF全文

郑晨  丁志峰  宋晓东 《地球物理学报》2018,61(4):1211-1224

通过对南北地震带北段区域所布设的676个流动地震台站观测资料进行处理,联合反演面波频散与接收函数数据,获得了研究区内地壳厚度、沉积层厚度的分布情况以及地壳上地幔高分辨率S波速度结构成像结果.反演结果显示研究区地壳厚度从青藏高原东北缘向外总体逐渐变薄,秦岭造山带地壳厚度较同属青藏高原东北缘的北祁连块体明显减薄;鄂尔多斯盆地及河套盆地分布有非常厚的沉积层,阿拉善块体部分区域也有一定沉积层分布,沉积层与研究区内盆地位置较为一致;松潘—甘孜块体、北祁连造山带等青藏高原东北缘总体表现为S波低速异常;在中下地壳,松潘—甘孜块体下方的低速体比北祁连造山带下方的低速体S波速度值更小、分布深度更浅,更有可能对应于部分熔融的地壳;鄂尔多斯盆地在中下地壳以及上地幔内有着较大范围的高速异常一直延伸到120 km以下,而河套盆地地幔只在80 km以上部分有着高速异常的分布,此深度可能代表了河套盆地的岩石圈厚度,来自深部地幔的热物质上涌造成了该区域的岩石圈减薄;阿拉善块体在地壳和上地幔都表现出高低速共存的分布特征,暗示阿拉善块体西部岩石圈可能受青藏高原东北缘的挤压作用发生改造.  相似文献   

延怀盆地及其邻区地壳上地幔速度结构的宽频带地震台阵研究   总被引：23，自引：13，他引：23       下载免费PDF全文

刘启元  李顺成 《地球物理学报》1997,40(6):763-772

在沙城以东的延庆盆地及其邻近区域内布设了由GDS－1000宽频带数字地震仪组成的流动地震台阵，利用台阵记录的宽频带远震P波波形数据和非线性接收函数反演方法获得了延怀盆地内0-80km深度范围的地壳、上地幔S波速度结构．利用计算机三维彩色剖分显示技术研究了台阵下地壳、上地幔速度结构的横向非均匀变化。结果表明，研究区域内的地壳厚度为40km左右，壳幔界面有4km左右的上下起伏．地表沉积盖层在延庆盆地中心附近厚度约1km，而在向盆地外围延伸的方向上相对变薄．研究区域内上地壳S波速度结构较复杂，而下地壳与上地幔则相对比较均匀．其上地壳最突出的特点是在10km深度附近有明显的S波低速层．在延庆盆地下方，它延伸到6-20km的深度范围．在延庆盆地南侧，该低速层有从西往东逐渐减弱的趋势．研究区域内的地震基本上都发生在延庆盆地下方上地壳低速体外围．据此推断，延庆盆地及其临近区域内的地震活动与该区域地壳内的热状态有密切关系．  相似文献   

唐海—商都地震台阵剖面下方岩石圈结构          下载免费PDF全文

王兴臣  丁志峰  朱露培 《地球物理学报》2013,56(11):3828-3836

2006年10月到2009年9月,中国地震局地球物理研究所在华北地区布设了250个流动地震台站,本文选取其中一条从唐海经过唐山、三河、北京、张家口到商都的宽频带地震台阵剖面作为研究对象.利用该剖面49个宽频带台站记录的191个远震数据进行了S波接收函数的计算,通过共转换点叠加成像对剖面下方的岩石圈结构进行研究,获得了剖面下方的岩石圈精细结构.Moho界面和岩石圈-软流圈界面清晰可见,剖面下方地壳厚度从西到东逐渐减薄,从42 km逐渐减薄至30 km左右,西部陆块岩石圈厚度从100 km逐渐减薄至70 km,中部和东部陆块岩石圈厚度变化相对平稳,介于60~80 km,表明剖面下方岩石圈遭受了大规模的明显减薄.结合其他地球物理方法研究结果,我们认为剖面下方华北克拉通东部陆块岩石圈减薄主要是由于热侵蚀作用引起的.  相似文献   

利用S波接收函数研究华南块体的岩石圈结构   总被引：5，自引：0，他引：5       下载免费PDF全文

张耀阳  陈凌  艾印双  姜明明  许卫卫  申中寅 《地球物理学报》2018,61(1):138-149

本文基于跨越华夏块体至四川盆地西部的130个线性流动地震台站及其附近90个固定台网台站的观测资料,采用S波接收函数波动方程叠后偏移方法,开展了华南大陆岩石圈结构研究.成像结果显示,研究区岩石圈结构复杂,不同构造单元之间差异显著,构造边界带附近小尺度变化强烈.150 km以上的厚岩石圈主要位于四川盆地,不足100 km的薄岩石圈主要分布于川东褶皱带和华夏块体.雪峰山下方岩石圈厚度显著增加,且以雪峰山为界岩石圈结构和性质存在着显著的东西差异.结合其它地球物理观测得到的地壳-上地幔结构信息,我们提出：（1）四川盆地还保留着厚而冷的克拉通岩石圈根,且岩石圈地幔具有结构分层特征;（2）雪峰山可能是扬子克拉通与华夏块体在西南部的边界;（3）雪峰山以东区域可能经历了岩石圈的减薄和改造,且华南岩石圈的减薄与华北相似,都主体发生在东部地区,造成现今南北重力梯度带两侧强烈的结构差异.研究结果为认识华南大陆的构造演化及其深部动力学提供了地震学约束.  相似文献   

New constraints on lithospheric thickness of the Iranian plateau using converted waves     

Najmieh Mohammadi  Forough Sodoudi  Elham Mohammadi  Ahmad Sadidkhouy 《Journal of Seismology》2013,17(3):883-895

The study of mantle lithosphere plays a key role to reveal predominant tectonic setting process of a region. The current geological and tectonic setting of Iran is due to the ongoing continental–continental collision of the Arabian and Eurasian plates. We applied a combined P and S receiver function analysis to the teleseismic data of nine permanent broadband seismic stations of the International Institute of Earthquake Engineering and Seismology located in different tectonic zones of Iranian plateau. More than 4 years of data were used to estimate the thickness of the crust and mantle lithosphere. According to our results, the crust is 50 km thick beneath the Zagros fold and thrust belt (ZFTB). We found the maximum Moho depth of approximately 70 km under the Sanandaj-Sirjan zone (SSZ) indicating the overthrusting of the crust of Central Iran onto the Zagros crust along the main Zagros thrust (MZT). Below the northeasternmost part of the Urumieh–Dokhtar Magmatic Arc (UDMA) and Central Iran, the Moho becomes shallower and lies at 40 km depth. Towards northeast, beneath the Alborz zone, the crust is 55 km thick. Based on S receiver functions, we provided new insights into the thickness of the Arabian and Eurasian lithospheres. The location of the boundary between these plates was estimated to be beneath the SSZ, which is slightly shifted northeastward relative to the surficial expression of the MZT. Furthermore, the Arabian plate is characterized by the relatively thick lithosphere of about 130 km beneath the ZFTB reaching 150 km beneath the SSZ, where the thickest crust was also observed. This may imply that the shortening across the Zagros is accommodated by lithospheric thickening. In contrast, UDMA and Central Iran are recognized by the thin lithosphere of about 80–85 km. This thin lithosphere may be associated with the asthenospheric upwelling caused by either lithospheric delamination or Neo-Tethys slab detachment beneath the Zagros collision zone.  相似文献   

Receiver function analysis for seismic structure of the crust and uppermost mantle in the Liupanshan area, China     

TONG WeiWei  WANG LiangShu  MI Ning  XU MingJie  LI Hua  YU DaYong  LI Cheng  LIU ShaoWen  LIU Mian  Eric SanDvol 《中国科学D辑(英文版)》2007,50(Z2):227-233

A portable broadband seismic array was deployed from the northeast Tibetan Plateau to the southwest Ordos block, China. The seismic structure of the crust and uppermost mantle of the Liupanshan area is obtained using receiver function analysis of teleseismic body waves. The crustal thickness and Poisson's ratios are estimated by stacking the weighted amplitudes of receiver functions. Our results reveal complex seismic phases in the Liupanshan area, implying intense deformation at the boundary between the Tibetan Plateau and the Ordos block. The average crustal thickness is 51.5 km in the northeast Tibetan Plateau, 53.5 km in the Liupan Mountain and 50 km in the southwest Ordos block, resulting in a concave Moho beneath the Liupan Mountain. The Poisson's ratio of the Liupanshan area varies between 0.27-0.29, higher than the value of 0.25-0.26 to the east and west of the Liupan Mountain, suggesting partial melting in the lower crust. The variance in Poisson's ratio across the Liupan Mountain indicates notable changes in the crustal composition and mechanical properties, which may be formed by the northeastward flow of the Tibetan lower crust during the India-Eurasia collision.  相似文献   

Upper mantle structure in the ocean-continent transition zone: Kamchatka     

L. I. Gontovaya  S. V. Popruzhenko  I. V. Nizkous 《Journal of Volcanology and Seismology》2010,4(4):232-247

We consider results from modeling the crustal and upper mantle velocity structure in Kamchatka by seismic tomography and compare these with gravity data and present-day tectonics. We found a well-pronounced (in the physical fields) vertical and lateral variation for the upper mantle and found that it is controlled by fault tectonics. Not only are individual lithosphere blocks moving along faults, but also parts of the Benioff zone. The East Kamchatka volcanic belt (EKVB) is confined to the asthenospheric layer (the asthenosphere lens) at a depth of 70–80 km; this lens is 10–20 km thick and seismic velocity in it is lower by 2–4%. The top of the asthenosphere lens has the shape of a dome uplift beneath the Klyuchevskoi group of volcanoes and its thickness is appreciably greater; overall, the upper mantle in this region is appreciably stratified. A low-velocity heterogeneity (asthenolith) at least 100 km thick has been identified beneath the Central Kamchatka depression; we have determined its extent in the upper mantle and how it is related to the EKVB heterogeneities. Gravity data suggest the development of a rift structure under the Sredinnyi Range volcanic belt. The Benioff zone was found to exhibit velocity inhomogeneity; the anomalous zones that have been identified within it are related to asthenosphere inhomogeneities in the continental and oceanic blocks of the mantle.  相似文献   

松辽盆地地壳精细结构研究          下载免费PDF全文

况春利  张瑞青  陈成锋  刘嘉栋 《地震学报》2022,44(4):555-566

基于东北地区已有的宽频带流动台阵远震数据,利用波场延拓和分解的H-β网格搜索法,对松辽盆地的沉积层及地壳结构进行了深入分析。结果显示:松辽盆地的沉积层厚度为0.2—2.5 km,整体呈现中央坳陷区厚、边缘薄且西南地区最薄的分布特征;研究区地壳较薄,厚度介于24—34 km之间,其横向变化特征与沉积层厚度分布具有一定的对应性。依据沉积层和地壳的厚度计算了地壳伸展系数,其平均值接近于以往接收函数研究估测的岩石圈伸展因子。因此,本文推测松辽盆地在伸展构造过程中,其地壳和岩石圈的减薄以纯剪切模式为主。此外,松辽盆地具有较高的地壳平均波速比v_P/v_S,暗示盆地下方岩石圈地幔的减薄过程中可能存在岩浆的底侵作用。   相似文献   

青藏高原中部INDEPTH-Ⅲ剖面上地幔远震S波层析成像          下载免费PDF全文

刘震  田小波  梁晓峰  滕吉文 《地球物理学报》2015,58(4):1169-1178

印度板块向欧亚俯冲前缘位于班公—怒江缝合带附近,但是印度岩石圈地幔的俯冲形态和形变过程仍然缺乏共识,在不同地区使用不同方法获得的结果之间存在明显差异.本文使用青藏高原中部INDEPTH-Ⅲ剖面远震S波波形数据,提取走时信息,通过层析成像方法获得剖面下方S波速度扰动图像.结果显示:在班公—怒江缝合带下方100至300km深度范围内存在一个高角度(约65°)北倾的S波高速体,推测可能是回退的印度岩石圈板片或/和小规模对流引起的岩石圈拆沉后残留的印度大陆岩石圈板片.  相似文献   

可可西里岩石圈向北俯冲到柴达木地幔的地震学证据          下载免费PDF全文

赵荣涛  赵文津  史大年  刘志伟  杨艳 《地球物理学报》2020,63(8):2940-2953

利用中美德INDEPTH IV合作项目2007—2009年间布置于青藏高原中、北部140个宽频地震台站记录到的天然地震数据,经过接收函数成像处理,获得了3条穿过昆仑—阿尼玛卿缝合带清晰的壳幔结构图像.结果显示柴达木南缘莫霍面位于约50 km深度,羌塘地块、可可西里地块、东昆仑造山带莫霍面位于约65 km深度,昆仑—阿尼玛卿缝合带以北约50 km存在莫霍面深度突变.在可可西里和柴达木岩石圈地幔之间观测到北倾界面,这可能是可可西里岩石圈向北俯冲到柴达木地幔之下的证据.可可西里地块地壳内宽缓的负转换震相带是低速带的反映,其向北挤入到东昆仑山下发生挤压增厚,可能是东昆仑山隆升的原因;由于刚性柴达木岩石圈的阻挡,物质向东改向,则可能是该地区向东旋转的构造应力场产生的原因.本文研究结果不支持亚洲岩石圈地幔在东昆仑—柴达木交界处向南俯冲,据此,我们提出了新的东昆仑造山模式.  相似文献   

中国东部随县─启东地带上地幔结构研究   总被引：4，自引：0，他引：4       下载免费PDF全文

郑晔  滕吉文 《地球物理学报》1994,37(4):553-560

随县─启东人工地震探测剖面长７００ｋｍ，穿越郯城─庐江深大断裂带．提取了该区莫霍界面以下上地幔中的反射界面信息，获得了上地幔的分层结构．结果表明，该区上地幔中有两个深度分别为７６ｋｍ和１００ｋｍ的界面．７６ｋｍ深度以下为一低速层，１００ｋｍ深度以下则为速度更低的低速层．该区岩石层厚度为７６ｋｍ，与华北地区相似，具有薄岩石层性质．  相似文献   

中国东部随县─启东地带上地幔结构研究          下载免费PDF全文

郑晔  滕古文 《地球物理学报》1994,(4)

随县─启东人工地震探测剖面长７００ｋｍ，穿越郯城─庐江深大断裂带．提取了该区莫霍界面以下上地幔中的反射界面信息，获得了上地幔的分层结构．结果表明，该区上地幔中有两个深度分别为７６ｋｍ和１００ｋｍ的界面．７６ｋｍ深度以下为一低速层，１００ｋｍ深度以下则为速度更低的低速层．该区岩石层厚度为７６ｋｍ，与华北地区相似，具有薄岩石层性质．  相似文献   

Receiver function analysis for seismic structure of the crust and uppermost mantle in the Liupanshan area,China     

Tong  WeiWei  Wang  LiangShu  Mi  Ning  Xu  MingJie  Li  Hua  Yu  DaYong  Li  Cheng  Liu  ShaoWen  Liu  Mian  SanDvol  Eric 《中国科学:地球科学(英文版)》2007,50(2):227-233

A portable broadband seismic array was deployed from the northeast Tibetan Plateau to the southwest Ordos block, China. The seismic structure of the crust and uppermost mantle of the Liupanshan area is obtained using receiver function analysis of teleseismic body waves. The crustal thickness and Poisson’s ratios are estimated by stacking the weighted amplitudes of receiver functions. Our results reveal complex seismic phases in the Liupanshan area, implying intense deformation at the boundary between the Tibetan Plateau and the Ordos block. The average crustal thickness is 51.5 km in the northeast Tibetan Plateau, 53.5 km in the Liupan Mountain and 50 km in the southwest Ordos block, resulting in a concave Moho beneath the Liupan Mountain. The Poisson’s ratio of the Liupanshan area varies between 0.27–0.29, higher than the value of 0.25–0.26 to the east and west of the Liupan Mountain, suggesting partial melting in the lower crust. The variance in Poisson’s ratio across the Liupan Mountain indicates notable changes in the crustal composition and mechanical properties, which may be formed by the northeastward flow of the Tibetan lower crust during the India-Eurasia collision.

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Dislocation structure of the crust-mantle boundary and low-velocity body within the crust beneath the Dabie Shan collision orogen     

LIU Qiyuan  Rainer Kind  CHEN Jiuhui  YUAN Xiaohui  LI Shuncheng  GUO Biao  Kurt Wylegalla & LAI Yuangen . State Key Laboratory of Earthquake Dynamics  Institute of Geology  China Earthquake Administration  Beijing  China  . GeoForschungZentrum Potsdam  Telegrafenburg A  Potsdam  D-  Germany 《中国科学D辑(英文版)》2005,48(7)

The Dabie Shan is located on the eastern side of the Qinling-Dabie orogenic belt, which marks a geological boundary between the Sino-Korean and Yangtze cra- ton. Since the 1980s, the discovery of coesite and mi- crodiamond in the Dabie Shan orogen motivates an extensive interest to the ultra-high pressure (UHP)metamorphism and its exhumation[1,2]. Many results about them were published, which deal with different disciplines, including tectonics, petrology and chro- nology[3?8]. Up to now,…  相似文献   

青藏高原东北缘地壳S波速度结构与泊松比及其意义   总被引：51，自引：25，他引：26       下载免费PDF全文

李永华  吴庆举  安张辉  田小波  曾融生  张瑞青  李红光 《地球物理学报》2006,49(5):1359-1368

利用甘肃地震台网16个台站记录的远震资料,采用最大熵谱反褶积方法,得到了各个台站的接收函数. 采用接收函数扫描法和线性反演方法对研究区的壳幔结构进行了研究,这两种接收函数方法得出的结果具有很好的一致性. 青藏高原东北缘地壳厚度变化剧烈,祁连块体为50～55 km、柴达木块体和河西走廊为45 km左右（合作台除外）,由北向南,Moho界面呈中央下凹的准对称状. 研究区地壳VP/VS介于166～185（σ=0215～0294,均值0254）,其均值接近或略低于全球平均值;S波速度结构可见壳幔过渡带具有明显的突跳,结合其他地球物理学证据,推断该区可能不存在岩浆底侵作用和地壳部分熔融现象. 该区地壳VP/VS值与地壳厚度呈反相关关系,推断该区地壳的主要组成成分以中酸性岩石为主,其45～55 km厚的地壳可能主要是通过上地壳的叠置形成的.  相似文献   

Crustal and upper mantle structure of stable continental regions in North America and northern Europe     

Robert P. Massé 《Pure and Applied Geophysics》1987,125(2-3):205-239

From an analysis of many seismic profiles across the stable continental regions of North America and northern Europe, the crustal and upper mantle velocity structure is determined. Analysis procedures include ray theory calculations and synthetic seismograms computed using reflectivity techniques. TheP wave velocity structure beneath the Canadian Shield is virtually identical to that beneath the Baltic Shield to a depth of at least 800 km. Two major layers with a total thickness of about 42 km characterize the crust of these shield regions. Features of the upper mantle of these region include velocity discontinuities at depths of about 74 km, 330 km, 430 km and 700 km. A 13 km thickP wave low velocity channel beginning at a depth of about 94 km is also present.A number of problems associated with record section interpretation are identified and a generalized approach to seismic profile analysis using many record sections is described. TheS wave velocity structure beneath the Canadian Shield is derived from constrained surface wave data. The thickness of the lithosphere beneath the Canadian and Baltic Shields is determined to be 95–100 km. The continental plate thickness may be the same as the lithospheric thickness, although available data do not exclude the possibility of the continental plate being thicker than the lithosphere.  相似文献   

Comparison of gravimetric and seismic constraints on the structure of the Aegean lithosphere in the forearc of the Hellenic subduction zone in the area of Crete     

《Journal of Geodynamics》2008,45(3-5):173-185

The island of Crete is located in the forearc of the Hellenic subduction zone, where the African lithospheric plate is subducting beneath the Eurasian one. The depth of the plate contact as well as the internal structure of the Aegean plate in the area of Crete have been a matter of debate. In this study, seismic constrains obtained by wide-angle seismic, receiver function and surface wave studies are discussed and compared to a 3D density model of the region.The interface between the Aegean continental lithosphere and the African one is located at a depth of about 50 km below Crete. According to seismic studies, the Aegean lithosphere in the area of Crete is characterised by strong lateral, arc–parallel heterogeneity. An about 30 km thick Aegean crust is found in central Crete with a density of about 2850 kg/m³ for the lower Aegean continental crust and a density of about 3300 kg/m³ for the mantle wedge between the Aegean crust and the African lithosphere. For the deeper crust in the area of western Crete two alternative models have been proposed by seismic studies. One with an about 35 km thick crust and another one with crustal velocities down to the plate contact. A grid search is performed to test the consistency of these models with gravimetric constraints. For western Crete a model with a thick lower Aegean crust and a density of about 2950 kg/m³ is favoured. The inferred density of the lower Aegean crust in the area of Crete correlates well with S-wave velocities obtained by surface wave studies.Based on the 3D density model, the weight of the Aegean lithosphere is estimated along an E–W oriented profile in the area of Crete. Low weights are found for the region of western Crete.  相似文献   

Crust and upper mantle structures beneath Northeast China from receiver function studies          下载免费PDF全文

Zhen Guo  Yuliang Cao  Xianguang Wang  Y. John Chen  Jieyuan Ning  Weiguang He  Youcai Tang  Yongge Feng 《地震科学（英文版）》2014,27(3):265-275

P-wave and S-wave receiver function analyses have been performed along a profile consisted of 27 broadband seismic stations to image the crustal and upper mantle discontinuities across Northeast China. The results show that the average Moho depth varies from about 37 km beneath the Daxing’anling orogenic belt in the west to about 33 km beneath the Songliao Basin, and to about 35 km beneath the Changbai mountain region in the east. Our results reveal that the Moho is generally flat beneath the Daxing’anling region and a remarkable Moho offset (about 4 km) exists beneath the basin-mountain boundary, the Daxing’anling-Taihang Gravity Line. Beneath the Tanlu faults zone, which seperates the Songliao Basin and Changbai region, the Moho is uplift and the crustal thickness changes rapidly. We interpret this feature as that the Tanlu faults might deeply penetrate into the upper mantle, and facilitate the mantle upwelling along the faults during the Cenozoic era. The average depth of the lithosphere-asthenosphere boundary (LAB) is ~80 km along the profile which is thinner than an average thickness of a continental lithosphere. The LAB shows an arc-like shape in the basin, with the shallowest part approximately beneath the center of the basin. The uplift LAB beneath the basin might be related to the extensive lithospheric stretching in the Mesozoic. In the mantle transition zone, a structurally complicated 660 km discontinuity with a maximum 35 km depression beneath the Changbai region is observed. The 35 km depression is roughly coincident with the location of the stagnant western pacific slab on top of the 660 km discontinuity revealed by the recent P wave tomography.  相似文献