OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

科学通报 2012

远震P波层析成像研究羌塘中央隆起带深部结构

DOI: 10.1360/972011-2430, PP. 2729-2739

邹长桥,贺日政,高锐,张智,郑洪伟

Keywords: 羌塘中央隆起带,远震层析成像,断裂构造

Full-Text Cite this paper Add to My Lib

Abstract:

利用在青藏高原羌塘中部(TITAN-I项目)部署的54套流动地震台站于2008年9月至2010年11月期间所记录的506个远震事件,共9532个高质量的P波初至走时数据运用FMTT方法进行层析成像反演,获得了羌塘中央隆起带下200km的深的地壳和上地幔三维P波速度结构.结果表明羌塘中央隆起带的南北两侧块体的岩石圈速度结构明显不同.E-W向剖面(33°和33.5°N)显示,其两侧的岩石圈结构尺度整体上存在明显差异,南北羌塘地壳整体上呈E-W向高速异常,但北羌塘的高速异常已经延伸到岩石圈地幔,且本研究区内北羌塘盆地的东部有明显的低速异常块体.而沿N-S向的两条剖面(88.5°和89.5°E)显示,羌塘中央隆起带为一明显的边界构造断裂带.

References

[1]	2 Yin A, Harrison T M. Geologic evolution of the Himalayan-Tibetan orogen. Earth Planet Sci, 2000, 28: 211-280？？
[2]	6 高锐. 青藏高原岩石圈结构与地球动力学的30个为什么. 地质论评, 1997, 43: 460-464
[3]	7 任纪舜. 中国及邻区大地构造图. 北京: 地质出版社, 1997
[4]	12 尹福光. 羌塘盆地中央隆起性质与成因. 大地构造与成矿, 2003, 27: 143-146
[5]	13 李才. 龙木错-双湖-澜沧江板块缝合带与石炭-二叠纪冈瓦纳北界. 长春地质学院学报, 1987, 17: 155-166
[6]	14 邓希光, 丁林, 刘小汉, 等. 藏北羌塘中部冈玛日-桃形错蓝片岩的发现. 地质科学, 2000, 35: 227-232
[7]	15 邓希光, 丁林, 刘小汉, 等. 青藏高原羌塘中部蓝片岩的地球化学特征及其构造意义. 岩石学报, 2002, 18: 517-525
[8]	16 李才, 翟庆国, 董永胜, 等. 青藏高原羌塘中部榴辉岩的发现及其意义. 科学通报, 2006, 51: 70-74
[9]	17 李才, 翟庆国, 陈文, 等. 青藏高原羌塘中部榴辉岩Ar-Ar 定年. 岩石学报, 2006, 22: 2843-2849
[10]	18 Gao R, Lu Z W, Li Q S, et al. Geophysical survey and geodynamic study of crust and upper mantle in the Qinghai-Tibet Plateau. Episodes, 2005, 28: 263-273
[11]	19 郭新峰, 张元丑, 程庆云, 等. 青藏高原亚东-格尔木地学断面岩石圈电性研究. 中国地质科学院院报, 1990, 21: 191-202
[12]	20 秦国卿, 陈九辉, 刘大建, 等. 昆仑山脉和喀喇昆仑山脉地区的地壳上地幔电性结构特征. 地球物理学报, 1994, 37: 193-199
[13]	21 孔祥儒, 王谦身, 熊绍柏. 青藏高原西部综合地球物理与岩石圈结构的研究. 中国科学D辑: 地球科学, 1996, 26: 308-315
[14]	22 张胜业, 魏胜, 王家映, 等. 西藏羌塘盆地大地电磁测深研究. 地球科学, 1996, 21: 198-202
[15]	23 滕吉文, 张中杰, 万志超, 等. 羌塘盆地及周边地带地球物理场与油气深部构造背景初探. 地球物理学进展, 1996, 11: 12-27
[16]	24 Wittlinger G, Masson F, Poupinet G, et al. Seismic tomography of northern Tibet and Kunlun: Evidence for crustal blocks and mantle velocity contrasts. Earth Planet Sci Lett, 1996, 139: 263-279？？
[17]	27 刘池阳, 杨兴科, 魏永佩, 等. 藏北羌塘盆地西部查桑地区结构及结构特征. 地质论评, 2002, 48: 593-602
[18]	28 Tilmann F, Ni J, INDEPTH III Seismic Team. Seismic imaging of the down welling Indian lithosphere beneath central Tibet. Science, 2003, 300: 1424-1427？？
[19]	30 Haines S, Klemperer S L, Brown L, et al. Crustal thickening processes in central Tibet: Implications of INDEPTH III seismic data. Tectonics, 2003, 22: 1-18
[20]	31 贺日政. 青藏高原近南北向裂谷的岩石圈结构及其动力学过程. 博士学位论文. 北京: 中国地质科学院, 2003
[21]	32 Wittlinger G, Vergne J, Tapponnier P, et al. Teleseismic imaging of subducting lithosphere and Moho offsets beneath western Tibet. Earth Planet Sci Lett, 2004, 221: 117-130？？
[22]	33 贺日政, 赵大鹏, 高锐, 等. 西昆仑造山带下岩石圈地幔速度结构. 地球物理学报, 2006, 49: 778-787
[23]	34 魏文博, 金胜, 叶高峰, 等. 藏北高原地壳及上地幔导电性结构——超宽频带大地电磁测深研究结果. 地球物理学报, 2006, 49: 1215-1225
[24]	35 He R Z, Zhao D, Zheng H, et al. Teleseismic P-wave tomography under the central Tibet Plateau. AGU-2006WPGM(Abstract), 2006. T12B-04
[25]	42 方立敏, 鲁兵, 刘池阳, 等. 羌塘盆地中部隆起的演化及其在油气勘探中的意义. 地质论评, 2002, 48: 279-283
[26]	43 Ross A R, Brown L D, Pananont P, et al. Deep reflection surveying in central Tibet: Lower-crustal layering and crustal flow. Geophys J Int, 2004, 156: 115-128？？
[27]	44 卢占武. 青藏高原羌塘盆地岩石圈结构及其对油气远景的影响. 博士学位论文. 北京: 中国地质科学院, 2006
[28]	45 卢占武, 高锐, 李秋生, 等. 横过青藏高原羌塘盆地中央隆起区的深反射地震实验剖面. 地球物理学报, 2009, 52: 2008-2014
[29]	48 赵政璋, 李永铁, 叶和飞, 等. 青藏高原大地构造特征及盆地演化. 北京: 科学出版社, 2000
[30]	49 赵政璋, 李永铁, 王岫岩, 等. 羌塘盆地南部海相侏罗系古油藏例析. 海相油气地质, 2002, 7: 34-36.
[31]	50 王剑, 谭富文, 李亚林, 等. 青藏高原重点沉积盆地油气资源潜力分析. 北京: 地质出版社, 2004. 32-61
[32]	52 Kapp P, Yin A, Manning C E, et al. Blueschist-bearing metamorphic core complexes in Qiangtang block reveal deep crustal structure of northern Tibet. Geology, 2000, 28: 19-22？？
[33]	55 李才, 王天武, 杨德明, 等. 西藏羌塘中央隆起区物质组成与构造演化. 长春科技大学学报, 2001, 31: 25-31
[34]	56 邓万明, 郑锡澜, 松本征夫. 青海可可西里地区新生代火山岩的岩石特征与时代. 岩石矿物学, 1996, 15: 289-298
[35]	61 Blisniuk P M, Hacker B R, Glodny J, et al. Normal faulting in central Tibet since at least 13.5 Myr ago. Nature, 2001, 412: 628-632
[36]	63 Kennett B L N, Engdahl E R. Traveltimes for global earthquake location and phase identification. Geophys J Int, 1991, 105: 429-465？？
[37]	64 Dziewonski A, Gilbert F. The effect of small aspherical perturbations on travel times and a re-examination of the corrections for ellipticity. Geophys J Int, 1976, 44: 7-17？？
[38]	66 Sethian J A, Progoviciz A M. 3-D traveltime computation using the fast marching method. Geophysics, 1999, 64: 516-523？？
[39]	67 Popoviciz A M, Sethian J A. 3-D imaging using higher order fast marching traveltimes. Geophysics, 2002, 67: 604-609？？
[40]	69 郭彪, 刘启元, 陈九辉, 等. 川西龙门山及邻区地壳上地幔远震P波层析成像. 地球物理学报, 2009, 52: 346-355
[41]	70 张风雪, 李永华, 吴庆举, 等. FMTT方法研究华北及邻区上地幔P波速度结构. 地球物理学报, 2011, 54: 1233-1242
[42]	74 Hirn A, Diaz J, Sapin M, et al. Variation of shearwave residuals and splitting parameters from array observations in southern Tibet. Pure Appl Geophys, 1998, 151: 407-431？？
[43]	78 Zhang Z, Klemperer S L. West-east variation in crustal thickness in northern Lhasa block, central Tibet, from deep seismic sounding data. J Geophys Res, 2005, 110: B09403？？
[44]	79 Li C, Hilst R, Toksoz M. Constraining spatial variations in P-wave velocity in the upper mantle beneath SE Asia. Phys Earth Planet Int, 2006, 154: 180-195？？
[45]	82 Paige C C, Saunders M A. LSQR: An algorithm for sparse linear equations and sparse least squares. ACM Trans Math Softw, 1982, 8: 43-71？？
[46]	83 Paige C C, Saunders M A. LSQR: An algorithm for sparse linear equations and least squares problems. ACM Trans Math Softw, 1982, 8: 195-209？？
[47]	87 Jin S, Ye G F, Wei W B, et al. Electrical structure and fault features of crust and upper mantle beneath the western margin of the Qinghai-Tibet Plateau: Evidence from the magnetotelluric survey along Zhada-Quanshui Lake Profile. J Chin Univer Geosci, 2007, 18: 326-333？？
[48]	88 Hung S H, Chen W P, Chiao L Y, et al. First multi-scale, finite-frequency tomography illuminates 3-D anatomy of the Tibetan Plateau. Geophys Res Lett, 2010, 37: L06304
[49]	1 Dewey J F, Shackelton R M, Chang C, et al. The tectonic evolution of the Tibetan Plateau. Philos Trans R Soc A, 1988, 327: 379-413？？
[50]	3 常承法, 潘裕生, 郑锡澜. 青藏高原地质构造. 北京: 科学出版社, 1982
[51]	4 尹安. 喜马拉雅-青藏高原造山带地质演化——显生宙亚洲大陆生长. 地球学报, 2001, 22: 193-230
[52]	5 Argand E. La Tectonique de L’Asie. Proc 13th Int Geol Congress, 1924, 7: 171-372
[53]	8 鲁兵, 李永铁, 刘忠, 等. 青藏高原的盆地形成与分类. 石油学报, 2000, 21: 21-26
[54]	9 王成善, 伊海生, 李勇, 等.西藏羌塘盆地地质演化与油气远景评价. 北京: 地质出版社, 2001
[55]	10 赵政璋, 李永铁, 郭祖军, 等. 青藏高原油气勘探前景. 勘探家, 1997, 2: 14-16
[56]	11 黄继钧. 藏北羌塘盆地构造特征及演化. 中国区域地质, 2001, 20: 178-186
[57]	25 马晓冰, 孔祥儒, 于晟. 青藏高原西部大地电磁测深结果. 科学通报, 1997, 42: 1185-1187
[58]	26 Zhao W, Mechie J, Brown L D, et al. Crustal structure of the central Tibet as derived from project INDEPTH wide-angle seismic data. Geophys J Int, 2001, 145: 486-498？？
[59]	29 鲁兵, 徐可强, 刘池阳. 藏北羌塘地区的地壳电性结构及其意义. 地学前缘, 2003, 10(Suppl): 153-159
[60]	36 苑守成, 于国明, 田黔宁. 青藏高原羌塘盆地重磁剖面异常与基底构造特征. 地质通报, 2007, 26: 703-709
[61]	37 郑洪伟, 李廷栋, 高锐, 等. 印度板块岩石圈地幔向北俯冲到羌塘地体之下的远震P波层析成像证据. 地球物理学报, 2007, 50: 1418-1426
[62]	38 王喜臣, 贾建秀, 徐宝慈. 羌坳陷石油地质走廊剖面重磁异常处理模拟及地质解释. 吉林大学学报(地球科学版), 2008, 38: 685-691
[63]	39 Wang X C, Jia J X, Xu B C. Gravity and Magnetic modeling and geological explanation in Qiangtang basin geologic aisle. J Jilin University (Earth Sci Ed), 2008, 38: 685-691
[64]	40 田黔宁, 耿涛, 杨汇群, 等. 青藏高原西部重力异常剖面拟合及其地质解释. 地质通报, 2008, 27: 2108-2116
[65]	41 He R Z, Zhao D P, Gao R, et al. Tracing the Indian lithospheric mantle beneath central Tibetan Plateau using teleseismic tomography. Tectonophysics, 2010, 491: 230-243？？
[66]	46 Rawlinson N, Sambridge M. Wavefront evolution in strongly heterogeneous layered media using the Fast Marching Method. Geophys J Int, 2004, 156: 631-647？？
[67]	47 赵政璋, 李永铁, 叶和飞, 等. 青藏高原羌塘盆地石油地质. 北京: 科学出版社, 2000. 19-34
[68]	51 王成善, 胡承祖, 吴瑞忠, 等. 西藏北部查桑-茶布裂谷的发现及其地质意义. 成都地质学院学报, 1987, 14: 33-46
[69]	53 Kapp P, Yin A, Manning C E, et al. Tectonic evolution of the early Mesozoic blue schist bearing Qiangtang metamorphic belt, Central Tibet. Tectonics, 2003, 22: 1043-1069？？
[70]	54 李才, 程立人, 胡克, 等. 西藏龙木错-双湖古特提斯缝合带研究. 北京: 地质出版社, 1995
[71]	57 Hacker B R, Gnos E, Ratschbacher L, et al. Hot and dry deep crustal xenoliths from Tibet. Science, 2000, 287: 2463-2466？？
[72]	58 Chung S L, Chu M F, Zhang Y Q, et al. Tibetan tectonic evolution inferred from spatial and temporal variations in post-collisional magmatism. Earth Sci Rev, 2005, 68: 173-196
[73]	59 罗照华, 莫宣学, 侯增谦, 等. 青藏高原新生代形成演化的整合模型-来自火成岩的约束. 地学前缘, 2006, 13: 196-211
[74]	60 Yin A, Paul A K, Michael A M, et al. Significant late Neogene east-west extension in northern Tibet. Geology, 1999, 27: 787-790？？
[75]	62 李亚林, 王成善, 伊海生, 等. 西藏北部双湖地堑构造与新生代伸展作用. 中国科学D辑: 地球科学, 2001, 31(增刊): 228-233
[76]	65 Sethian J A. Numerical Methods for Propagating Front, in Variational Methods for Free Surface Interfaces. New York: Springer-Verlag, 1987
[77]	68 Rawlinson N, Reading A M, Kennett B L N. Lithospheric structure of Tasmania from a novel form of telescismic tomography. J Geophys Res, 2006, 111: 322-330
[78]	71 Hirn A, Jiang M, Sapin M, et al. Seismic anisotropy as an indicator of mantle flow beneath the Himalayas and Tibet. Nature, 1995, 375: 571-574？？
[79]	72 Brown L, Zhao W, Nelson K, et al. Bright spots, structure, and magmatism in Southern Tibet from INDEPTH seismic reflection profiling. Science, 1996, 274: 1688-1690？？
[80]	73 Hirn A, Sapin M, Lépine J C, et al. Increase in melt fraction along a south-north traverse below the Tibetan Plateau: Evidence from seismology. Tectonophysics, 1997, 273: 17-30？？
[81]	75 Huang W, Ni J, Tilmann F, et al. Seismic polarization anisotropy beneath the central Tibetan Plateau. J Geophys Res, 2000, 105: 27979-27989？？
[82]	76 Rapine R, Tilmann F, West M, et al. Crustal structure of northern and southern Tibet from surface wave dispersion analysis. J Geophys Res, 2003, 108, doi: 10.1029/2001JB000445
[83]	77 Shapiro N M, Ritzwoller M H, Molnar P, et al. Thinning and flow of Tibetan crust constrained by seismic anisotropy. Science, 2004, 305: 233-236？？
[84]	80 Lei J S, Zhao D. Teleseismic P-wave tomography and the upper mantle structure of the central Tien Shan orogenic belt. Phys Earth Planet Int, 2007, 162: 165-185？？
[85]	81 郑洪伟. 青藏高原地壳上地幔三维速度结构及其地球动力学意义. 博士学位论文. 北京: 中国地质科学院, 2006
[86]	84 Zhang Z J, Deng Y F, Teng J W, et al. An overview of the crustal structure of the Tibetan plateau after 35 years of deep seismic soundings. J Asian Earth Sci, 2011, 40: 977-989？？
[87]	85 Tian X B, Wu Q J, Zhang Z J, et al. Joint imaging by telescismic converted and multiple waves and its application in the INDEPTH-III passive seismic array. Geophys Res Lett, 2005, 32: L21315？？
[88]	86 郑洪伟, 孟令顺, 贺日政. 青藏高原布格重力异常匹配滤波分析及其构造意义. 中国地质, 2010, 37: 995-1001
[89]	89 Zhao J M, Yuan X H, Liu H B, et al. The boundary between the Indian and Asian tectonic plates below Tibet. Proc Natl Acad Sci USA, 2010, 107: 11229-11233？？

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133