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...

地球物理学报 2012

藏北高原主要断裂带电性结构特征

DOI: 10.6038/j.issn.0001-5733.2012.12.011, PP. 3991-4002

谢成良,叶高峰,魏文博,金胜

Keywords: 大地电磁测深,昆仑断裂带,柴北缘断裂带,电性特征

Full-Text Cite this paper Add to My Lib

Abstract:

对600线的部分测点及2100线的全部测点构成的五道梁—绿草山大地电磁深探测剖面进行了二维非线性共轭梯度反演,得到青藏高原中北部二维电性结构模型.根据该电性结构模型,结合研究区域重、磁及区域地质资料推断了青藏高原中北部主要断裂的位置、产状和切割深度等信息.研究结果表明,青藏高原中北部发育有F1—F16一系列深断裂.其中,F1(苟鲁山克错—囊谦断裂带)和F9(乌兰乌拉湖—玉树断裂带)共同构成金沙江缝合带的北界,是松潘—甘孜—可可西里地块与羌塘—唐古拉地块的分界线;F4、F10—F12共同构成昆仑断裂带,F4(阿尼玛卿断裂带)是南部松潘—甘孜—可可西里地体和北部北昆仑-柴达木地体的分界线;F6、F13—F16为柴北缘断裂带,由南倾的岩石圈深断裂F6和一系列产状相背、北倾的逆冲断裂F13—F16所构成;F7和F8可能反映岩石圈内产状平缓、隐伏的滑脱构造形迹.

References

[1]	魏文博, 陈乐寿, 谭捍东等. 关于印度板块俯冲的探讨—据INDEPTH-MT研究结果. 现代地质, 1997, 11(3): 379-386. Wei W B, Chen L S, Tan H D, et al. An approach on subduction of Indian Plate from INDEPTH-MT Results. Geoscience-Journal of Graduate School, China University of Geosciences (in Chinese), 1997, 11(3): 379-386.
[2]	魏文博, 陈乐寿, 谭捍东等. 西藏中、南部壳内高导体与热结构特点—INDEPTH-MT提供的证据. 现代地质, 1997, 11(3): 387-392. Wei W B, Chen L S, Tan H D, et al. Features of thermal structure and highly conductive bodies in middle crust beneath central and southern Tibet: according to INDEPTH-MT results. Geoscience-Journal of Graduate School, China University of Geosciences (in Chinese), 1997, 11(3): 387-392.
[3]	魏文博, 金胜, 叶高峰等. 藏南岩石圈导电性结构与流变性—超宽频带大地电磁测深研究成果. 中国科学 D辑(地球科学), 2009, 39(11): 1591-1606. Wei W B, Jin S, Ye G F, et al. Electrical structure and rheology of South Tibet lithosphere-results from super-wide band magnetotelluric sounding. Science in China (in Chinese), 2009, 39(11): 1591-1606.
[4]	Zhao G, Wang L, Chen X, et al. The active fault belts in eastern Tibet margin inferred using magnetotellurics. Geologica Acta, 2010, 8(1): 103-114.
[5]	汤吉, 詹艳, 赵国泽等. 青藏高原东北缘玛沁—兰州—靖边剖面地壳上地幔电性结构研究. 地球物理学报, 2005, 48(5): 1205-1206. Tang J, Zhan Y, Zhao G Z, et al. Electrical conductivity structure of the crust and upper mantle in the northeastern margin of the QinghaiTibet plateau along the profile Maqin- Lanzhou-Jingbian. Chinese J. Geophys. (in Chinese), 2005, 48(5): 1205-1216.
[6]	赵国泽, 陈小斌, 王立凤等. 青藏高原东边缘地壳"管流"层的电磁探测证据. 科学通报, 2008, 53(3): 345-350. Zhao G Z, Chen X B, Wang L F, et al. The proof of "channel flow" under east Qinghai-Tibetan Plateau crust from magnetotelluric sounding. Chinese Science Bulletin (in Chinese), 2008, 53(3): 345-350.
[7]	Wei W B, Martyn U, Jones A, et al. Detection of widespread fluids in the Tibetan crust by magnetotelluric studies. Science, 2001, 292(5517): 716-718.
[8]	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(4): 1215-1225. Wei W B, Jin S, Ye G F, et al. Conductivity structure of crust and upper mantle beneath the northern Tibetan Plateau: Results of super-wideband magnetotelluric sounding. Chinese J. Geophys. (in Chinese), 2006, 49(4): 1215-1225.
[9]	魏文博, 金胜, 叶高峰等. 西藏高原中北部断裂构造特征: INDEPTH(III)-MT观测提供的依据. 地球科学, 2006, 31(2): 257-265. Wei W B, Jin S, Ye G F, et al. Features of the faults in center and North Tibetan Plateau: based on results of INDEPTH(III)-MT. Earth Science-Journal of China University of Geosciences. (in Chinese), 2006, 31(2): 257-265.
[10]	Zhao W J, Kumar P, Mechie J, et al. Tibetan plate overriding the Asian plate in central and northern Tibet. Nature Geoscience, 2011, 4(12): 870-873.
[11]	Karplus M S, Zhao W J, Klemperer S L, et al. Injection of Tibetan crust beneath the south Qaidam Basin: Evidence from INDEPTH IV wide-angle seismic data. Journal of Geophysical Research, 2011, 116: B07301.
[12]	西藏自治区地质矿产局. 西藏自治区区域地质志. 北京: 地质出版社, 1993. Tibetan Bureau of Geology and Mineral Resources. Annals of Regional Geology of Tibet (in Chinese). Beijing: Geology Press, 1993.
[13]	赵志丹, 莫宣学, 罗照华等. 印度—亚洲俯冲带结构—岩浆作用证据. 地学前缘, 2003, 10(3): 149-157. Zhao Z D, Mo X X, Luo Z H, et al. Subduction of India beneath Tibet: Magmatism evidence. Earth Science Frontiers (in Chinese), 2003, 10(3): 149-157.
[14]	周华伟, Michael A, 林清良等. 西藏及其周围地区地壳、地幔地震层析成像—印度板块大规模俯冲于西藏高原之下的证据. 地学前缘, 2002, 9(4): 285-292. Zhou H W, Michael A, Lin Q L, et al. Tomographic imaging of the Tibet and Surrounding region: Evidence for whole sale under thrusting of Indian slab beneath the Tibetan Plateau. Earth Science Frontiers (in Chinese), 2002, 9(4): 285-292.
[15]	Degroot-Hedlin C, Constable S C. Occam''s inversion to generate smooth, two-dimensional models from magnetotelluric data. Geophysics, 1990, 55(12): 1613-1624.
[16]	William R, Randall L M. Nonlinear conjugate gradients algorithm for 2-D magnetotelluric inversion. Geophysics, 2001, 66(1): 174-187.
[17]	Willett S D, Beaumont C. Subduction of Asian lithospheric mantle beneath Tibet inferred from models of continental collision. Nature, 1994, 369(6482): 642-645.
[18]	Owens T J, Zandt G. Implications of crustal property variations for models of Tibetan Plateau evolution. Nature, 1997, 387(6628): 37-43.
[19]	金胜, 叶高峰, 魏文博等. 青藏高原东南部地壳导电性结构与断裂构造特征—下察隅—昌都剖面大地电磁探测结果. 地学前缘, 2006, 13(5): 408-415. Jin S, Ye G F, Wei W B, et al. The electrical structure and fault feature of crust of south-eastern Tibetan plateau-the result of magnetotelluric prospecting on profile from Xiachayu-Changdu. Earth Science Frontiers (in Chinese), 2006, 13(5): 408-415.
[20]	Chen L, Booker J R, Jones A G, et al. Electrically conductive crust in Southern Tibet from INDEPTH magnetotelluric surveying. Science, 1996, 274(5293): 1694-1696.
[21]	魏文博, 陈乐寿, 谭捍东等. 西藏高原大地电磁深探测—亚东—巴木措沿线地区壳幔电性结构. 现代地质, 1997, 11(3): 366-374. Wei W B, Chen L S, Tan H D, et al. MT sounding on Tibetan plateau-Electrical structure of crust and mantle along profile of YaDong Bamucuo. Geoscience-Journal of Graduate School, China University of Geosciences (in Chinese), 1997, 11(3): 366-374.
[22]	万战生, 赵国泽, 汤吉等. 青藏高原东边缘冕宁—宜宾剖面电性结构及其构造意义. 地球物理学报, 2010, 53(3): 585-594. Wan Z S, Zhao G Z, Tang J, et al. The electrical structure of the crust along Mianning-Yibin profile in the eastern edge of Tibetan plateau and its tectonic implications. Chinese J. Geophys. (in Chinese), 2010, 53(3): 585-594.
[23]	Martyn U, Wei W B, Alan G J, et al. Crustal and upper structure of northern Tibet imaged with magnetotelluric data. Journal of Geophysical Research, 2004, 109: B02403.
[24]	Florian L P, Alan G J, Jan V, et al. Penetration of crustal melt beyond the Kunlun Fault into northern Tibet. Nature Geoscience, 2012, 5(5): 330-335.
[25]	Xiao Q B, Zhao G Z, Dong Z Y. Electrical resistivity structure at the northern margin of the Tibetan Plateau and tectonic implications. Journal of Geophysical Research, 2011, 116(B12): B12401.
[26]	Zhao W J, Nelson K D, Che J, et al. Deep seismic reflection evidence for continental underthrusting beneath southern Tibet. Nature, 1993, 366 (6455): 557-559.
[27]	Nelson K D, Zhao W, Brown L D, et al. Partially molten middle crust beneath southern Tibet: Synthesis of Project INDEPTH Results. Science, 1996, 274(5293): 1684-1688.
[28]	Mechie J, Zhao W J, Karplus M S, et al. Crustal shear(S) velocity and Poisson’s ratio structure along the INDEPTH IV profile in northeast Tibet as derived from wide-angle seismic data. Geophys. J. Int., 2012, 191(2): 369-384.
[29]	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(3): 193-230. Yin A. Geological evolution of Himalayan-Qinghai-Tibet plateau-Phanerozoic growth of the Asian continent. Acta Geoscientia Sinica (in Chinese), 2001, 22(3): 193-230.
[30]	许志琴, 杨经绥, 李海兵等. 青藏高原与大陆动力学—地体拼合、碰撞造山及高原隆升的深部驱动力. 中国地质, 2006, 33(2): 221-238. Xu Z Q, Yang J S, Li H B, et al. The Qinghai-Tibet plateau and continental dynamics: A review on terrain tectonics, collisional orogenesis, and processes and mechanisms for the rise of the plateau. Geology in China (in Chinese), 2006, 33(2): 221-238.
[31]	卢占武, 高锐, 李秋生等. 中国青藏高原深部地球物理探测与地球动力学研究(1958—2004). 地球物理学报, 2006, 49(3): 753-770. Lu Z W, Gao R, Li Q S, et al. Deep geophysical probe and geodynamic study on the Qinghai-Tibet Plateau (1958—2004). Chinese J. Geophys. (in Chinese), 2006, 49(3): 753-770.
[32]	Groom R W, Bailey R C. Decomposition of magnetotelluric impedance tensor in the presence of local three-dimensional galvanic distortion. J. Geophys. Res., 1989, 94(B2): 1913-1925.
[33]	McNeice G W, Alan G J. Multisite, multifrequency tensor decomposition of magnetotelluric data. Geophysics, 2001, 66(1): 158-173.
[34]	张有学, 尹安. 地球的结构、演化和动力学. 北京: 高等教育出版社, 2002. Zhang Y X, Yin A. Structure Evolution and Dynamics of the Earth (in Chinese). Beijing: Higher Education Press, 2002.
[35]	Ledo J, Queralt P, Marti A, et al. Two-dimensional interpretation of three-dimensional magnetotelluric data: An example of limitations and resolution. Geophys. J. Int., 2002, 150(1): 127-139.
[36]	Wannamaker P E, Hohmann G W, Ward S. Magnetotelluric responses of three-dimensional bodies in layered earths. Geophysics, 1984, 49(9): 1517-1533.
[37]	青海省地质矿产局. 青海省区域地质志. 北京: 地质出版社, 1991. Qinghai Bureau of Geology and Mineral Resources. Annals of Regional Geology of Qinghai Province (in Chinese). Beijing: Geology Press, 1991.
[38]	许志琴, 杨经绥, 姜枚. 青藏高原北部的碰撞造山及深部动力学—中法地学合作研究新进展. 地球学报, 2001, 22(1): 5-10. Xu Z Q, Yang J S, Jiang M. Collision-orogeny of the northern Qinghai-tibet plateau and its deep dynamics. Acta Geoscientia Sinica. (in Chinese), 2001, 22(1): 5-10.
[39]	Yin A, Harrison T M. Geologic evolution of the Himalayan Tibetan Orogen. Annu. Rev. Earth Planet Sci., 2000, 28(1): 211-280.
[40]	陈炳蔚, 姚培毅, 郭宪璞等. 青藏高原北部地体构造与演化—格尔木-额济纳旗地学断面走廊域地质构造与演化研究. 北京: 地质出版社, 1996. Chen B Y, Yao P Y, Guo X P, et al. Structure and Evolution of the Northern Qinghai-Tibet Plateau Terrane (in Chinese). Beijing: Geology Press, 1996.
[41]	Egbert G D, Booker J R. Robust estimation of geomagnetic transfer functions. Geophys. Roy. Ast. Soc., 1986, 87: 175-194.
[42]	Weidelt P, Kaikkonen P. Local 1 D interpretation of magnetotelluric B-polarization impedence. Geophys. J. Int., 1994, 117(3): 733-748.
[43]	Constable S C, Parker R L, Constable C G. Occam''s inversion: a practical algorithm for generating smooth models from electromagnetic sounding data. Geophysics, 1987, 52(3): 289-300.

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133