青藏高原东南缘弧形旋扭活动构造体系及其动力学特征与机制
|
摘要
在系统总结前人成果资料基础上,结合最新的遥感解译与地表调查资料发现,青藏高原东南缘地壳最新的顺时针旋转运动主要受控于由川滇外弧带和滇西内弧带构成的双弧型川滇弧形旋扭活动构造体系。进一步的综合分析认为,该构造体系的弧形旋扭运动学变形模式的动力学机制及其内部块体变形的差异性与不均匀性,主要是该区边界力的作用方式、先存地质结构和现今的地壳与岩石圈结构、岩石圈物质组成及其物理性质、深部的热状态、重力势能等多种因素共同作用的结果。其中,印度板块与扬子地块之间的右旋剪切和青藏高原内部物质向东南的不均匀挤出共同产生的力偶作用和岩石圈性质与结构,可能是造成该区围绕东喜马拉雅构造结整体发生顺时针旋转运动和旋扭叠加伸展变形最重要的因素。
On the basis of previous data on active faults in combination with information of active faults on the southeast margin of the Tibetan Plateau obtained by the authors based on remote sensing and ground survey,the authors hold that the main active fault zones constitute a large convex for the east arc-shaped tectonic system called Sichuan-Yunnan arc-shaped rotational-shear active tectonic system. The related factors mainly include the boundary forces between different blocks,the existing structural features and crustal structure,lithospheric material composition and its physical properties and deep thermal state,as well as gravitational potential energy between different lithospheric blocks. Among these factors,lithosphere structure and physical properties boundary force as well as the boundary forces resulting from right lateral shear between India plate and Yangtze plate and the eastward extrusion of the Tibetan Plateau might have been the most important factors that controlled and affected clockwise rotation of Sichuan- Yunnan blocks and produced shear and extension deformation around the EHS.
On the basis of previous data on active faults in combination with information of active faults on the southeast margin of the Tibetan Plateau obtained by the authors based on remote sensing and ground survey,the authors hold that the main active fault zones constitute a large convex for the east arc-shaped tectonic system called Sichuan-Yunnan arc-shaped rotational-shear active tectonic system. The related factors mainly include the boundary forces between different blocks,the existing structural features and crustal structure,lithospheric material composition and its physical properties and deep thermal state,as well as gravitational potential energy between different lithospheric blocks. Among these factors,lithosphere structure and physical properties boundary force as well as the boundary forces resulting from right lateral shear between India plate and Yangtze plate and the eastward extrusion of the Tibetan Plateau might have been the most important factors that controlled and affected clockwise rotation of Sichuan- Yunnan blocks and produced shear and extension deformation around the EHS.
引文
[1]李玶,汪良谋.云南川西地区地震地质基本特征的探讨[J].地质科学,1975,4:308-326.
[2]Molnar P,Tapponnier P.Cenozoic tectonics of Asia:effects of a continental collision[J].Science,1975,280:419-426.
[3]国家地震局西南烈度队.西南地区地震地质及烈度区划探讨[M].北京:地震出版社,1977.
[4]Tapponnier P,Peltzer G,Le Dain A Y,et al.Propagating extrusion tectonics in Asia:New insights from simple experiments with plasticine[J].Geology,1982,10:611-616.
[5]Dain A Y L,Tapponnier P,Molnar P.Active faulting and tectonics of Burma and surrounding regions[J].Journal of Geophysical Research,1984,89(B1):453-472.
[6]Holt W E,Ni J F,Wallace T C,et al.The active tectonics of the eastern Himalayan syntaxis and surrounding regions[J].Journal of Geophysical Research,1991,96(B9):14595-14632.
[7]King R W,Shen F,Burchfiel B C,et al.Geodetic measurement of crustal motion in southwest China[J].Geology,1997,25(2):179-182,doi:10.1130/0091-7613(1997)025<0179:GMOCMI>2.3.CO;2.
[8]Royden L H,Burchfiel B C,King R W,et al.Surface deformation and lower crustal flow in eastern Tibet[J].Science,1997,276:788-790.
[9]Wang E C,Burchfiel B C.Interpretation of Cenozoic tectonics in the right-lateral accommodating zone between the Ailao Shan shear zone and the eastern Himalayan synaxis[J].International Geology Review,1997,39:191-219.
[10]Wang E C,Burchfiel B C,Royden L H,et al.Late Cenozoic Xianshuihe-Xiaojiang Red River,and Dali fault systems of southwestern Sichuan and central Yunnan,China[J].Geological Society of America Special Paper,1998,327:108.
[11]Lacassin R,Replumaz A,Leloup P H.Hairpin river loops and slipsense inversion on southeast Asian strike-slip faults[J].Geology,1998,26(8):703-706.
[12]Chen Z,Burchfiel B C,Liu Y,et al.Global Positioning System measurements from eastern Tibet and their implications for India/Eurasia intracontinental deformation[J].Journal of Geophysical Research,2000,105:16215-16227.
[13]张培震,王琪,马宗晋.青藏高原现今构造变形特征与GPS速度场[J].地学前缘,2002,9(2):442-450.
[14]Kirby E,Reiners P W,Krol M A,et al.Late Cenozoic evolution of the eastern margin of the Tibetan Plateau:Inferences from 40Ar/39Ar and(U/Th)/He thermochronology[J].Tectonics,2002,21(1):doi:10.1029/2000TC001246.
[15]徐锡伟,闻学泽,郑荣章,等.川滇地区活动块体最新构造变动样式及其动力来源[J].中国科学(D辑),2003,33(增刊):151-162.
[16]Zhang P Z,Shen Z,Wang M,et al.Continuous deformation of the Tibetan Plateau from global positioning system data[J].Geology,2004,32:809-812.
[17]Shen Z K,LüJ,Wang M,et al.Contemporary crustal deformation around the southeast borderland of the Tibetan plateau[J].Journal of Geophysical Research,2005:110,B11409,doi:1029/2004JB003421.
[18]Clark M K,Bush J M W,Royden L H.Dynamic topography produced by lower crustal flow against rheological strength heterogene-ities bordering the Tibetan Plateau[J].Geophys.J.Int.,2005,162:575-590.
[19]Socquet A,Pubellier M.Cenozoic deformation in western Yunnan(China-Myanmar border)[J].Journal of Asian Earth Sciences,2005,24:495-515.
[20]Copley A.Kinematics and dynamics of the southeastern margin of the Tibetan Plateau[J].Geophys.J.Int.,2008,174:1081-1100,doi:10.1111/j.1365-246X.2008.03853.x.
[21]李四光.地质力学概论[M].北京:科学出版社,1973.
[22]Molnar P,Lyon-Caen H.Fault plane solutions of earthquakes and active tectonics of the Tibetan Plateau and its margins[J].Geophys.J.Int.,1989,99:123-153.
[23]England P,P Molnar.Right-lateral shear and rotation as the explanation for strike-slip faulting in eastern Tibet[J].Nature,1990,344:140-142.
[24]Bai Denghai,Unsworth M J,Meju M A.Crustal deformation of the eastern Tibetan plateau revealed by magnetotelluric imaging[J].Nature Geoscience,2010,3:358-362.
[25]李四光.地质力学方法[M].北京:科学出版社,1979.
[26]毛玉平,韩新民,谷一山,等.云南地区强震(M≥6)研究[M].昆明:云南科技出版社,2003.
[27]国家地震局地质研究所,云南省地震局.滇西北地区活动断裂[M].北京:地震出版社,1990.
[28]四川省地震局.鲜水河活动断裂带[M].成都:四川科学技术出版社,1989.
[29]黄祖智.四川西昌强震区断块结构与地震关系的探讨[C]//国家地震局西南烈度队.川滇强震区地震地质调查汇编.北京:地震出版社,1979:104-120.
[30]Burchfiel B C.New technology:New geological challenges[J].GSA Today,2004,14(2):4-10,doi:10.1130/1052-5173(2004).
[31]Clark M K,Royden L H.Topographic ooze:Building the eastern margin of Tibet by lower crustal flow[J].Geology,2000,28:703-706,doi:10.1130/0091-7613(2000)28<703:TOBTEM>2.0.CO;2.
[32]虢顺民,李祥根,向宏发,等.云南红河走滑断裂尾端拉张区的运动学模式[C]//国家地震局地质研究所.现代地壳运动研究(5).北京:地震出版社,1991:1-12.
[33]虢顺民,向宏发,计凤桔,等.红河断裂带第四纪右旋走滑与尾端拉张转换关系研究[J].地震地质,1996,18(4):301-309.
[34]向宏发,韩竹军,虢顺民,等.红河断裂带大型右旋走滑运动与伴生构造地貌变形[J].地震地质,2004,26(4):597-610.
[35]李四光.旋扭构造[M].北京:科学出版社,1974.
[36]李东旭,周济元.地质力学导论[M].北京:地质出版社,1986.
[37]Tapponnier P,Peltzer G,Armijo R.On the mechanics of the collision between India and Asia[C]//Coward M P,Ries A C.Collision Tectonics.Geological Society Special Publication,1986,19:115-157.
[38]Tapponnier P,Lacassin R,Leloup P H,et al.The Ailao Shan/Red river metamorphic belt:Tertiary left-lateral shear between Indochina and South China[J].Nature,1990,343:431-437.
[39]Peltzer G,Tapponnier P.Formation and evolution of strike-slip faults,rifts,and basins during the India-Asia collision:An experimental approach[J].Journal of Geophysical Research,1988,93:15085-15117.
[40]Avouac J P,Tapponnier P.Kinematic model of active deformation in Central Asia[J].Geophysical Research Letters,1993,20:895-898.
[41]Leloup P H,Kienast J R.High temperature metamorphism in a major Tertiary ductile continental strike-slip shear zone:The Ailao Shan-Red River(P.R.C.)[J].Earth and Planetary Science Letters,1993,118:213-234,doi:10.1016/0012-821X(93)90169-A.
[42]Leloup P H,Harrison T M,Ryerson F J,et al.Structural petrological and structural evolution of a Tertiary ductile strike-slip shear zone,Diancang Shan,Yunnan[J].Journal of Geophysical Research,1993,98:6715-6743.
[43]Leloup P H,Lacassin R,Tapponnier P,et al.The Ailao Shan-Red River shear zone(Yunnan,China),Tertiary transform boundary of Indochina[J].Tectonophysics,1995,251:3-84.
[44]Leloup P H,Arnaud N,Lacassin R,et al.New constraints on the structure,thermochronology,and timing of the Ailao Shan-Red River shear zone,SE Asia[J].Journal of Geophysical Research,2001,106(B4):6683-6732.
[45]Schoenbohm L M,Burchfiel B C,Chen L,et al.Miocene to present activity along the Red River fault,China,in the context of continental extrusion,upper-crustal rotation,and lower-crustal flow[J].GSA Bulletin,2006,118(5/6):672-688.
[46]Wang Q,Zhang P Z,Freymueller J T,et al.Present-day crustal deformation in China constrained by global positioning system measurements[J].Science,2001,294(5542):574-577.
[47]张培震,甘卫军,沈正康,等.中国大陆现今构造作用的地块运动和连续变形耦合模型[J].地质学报,2005,79(6):748-756.
[48]国家地震局西南烈度队.川滇强震区地震地质调查汇编[M].北京:地震出版社,1979.
[49]王辉,曹建玲,张怀等.川滇地区下地壳流动对上地壳运动变形影响的数值模拟[J].地震学报,2007,29(6):581-591.
[50]范桃园,孙玉军,吴中海.青藏高原东缘旋转变形机制的数值模拟分析[J].地质通报,2014,33(4):497-502.
[51]吴中海,赵希涛,范桃园,等.泛亚铁路滇西大理至瑞丽沿线主要活动断裂与地震地质特征[J].地质通报,2012,31(2/3):191-217.
[52]Slemmons D B,Depolo C M.Evaluation of active faulting and associated hazards[C]//Wallace R E.Active Tectonics.Washington:National Academy Press,1986:45-62.
[53]Machette M N.Active,capable,and potentially active fault-a paleoseismic perspective[J].Journal of Geodynamics,2000,29(2000):387-392.
[54]Allen C R,Gillespie A R,Han Y,et al.Red River and associated faults,Yunnan province,China:Quaternary geology,slip rate and Seismic hazard[J].GSA Bulletin,1984,95:686-700.
[55]吴根耀.中缅泰交界区的断裂及其新构造活动方式[J].第四纪研究,1991,11(1):28-37.
[56]唐荣昌,韩渭滨.四川活动断裂与地震[M].北京:地震出版社,1993.
[57]李玶,主编.鲜水河—小江断裂带[M].北京:地震出版社,1993.
[58]宋方敏,汪一鹏,俞维贤,等.小江活动断裂带[M].北京:地震出版社,1998.
[59]徐锡伟,张培震,闻学泽,等.川西及其邻区活动构造基本特征与强震复发模型[J].地震地质,2005,27(3):446-461.
[60]邓起东,冉永康,杨晓平,等.中国活动构造图(1∶400万)[M].北京:地震出版社,2007.
[61]吴中海,张永双,胡道功,等.滇西北哈巴—玉龙雪山东麓断裂晚第四纪正断层作用及其动力学机制探讨[J].中国科学(D辑),2008,38(11):1361-1375.
[62]张永双,胡道功,吴中海,等.滇藏铁路沿线地壳稳定性与重大工程地质问题[M].北京:地质出版社,2009.
[63]Replumaz A,Lacassin R,Tapponnier P,et al.Large river offsets and Plio-Quaternary dextral strike-slip rate on the Red River fault(Yunnan,China)[J].Journal of Geophysical Research,2001,106(B1):819-836.
[64]艾伦C R,韩源,西K E,等.红河断裂的第四纪活动研究(一):现代活动概貌和活动断裂证据[J].地震研究,1984,7(1):39-51.
[65]艾伦C R,韩源,西K E,等.红河断裂的第四纪活动研究(二):断裂活动特征、滑动速率与地震重复间隔探讨[J].地震研究,1984,7(2):171-186.
[66]虢顺民,计凤桔,向宏发,等.红河活动断裂带[M].北京:海洋出版社,2001.
[67]张建国,谢英情,金明培,等.中越红河断裂活动性研究[M].昆明:云南科技出版社,2009.
[68]Rangin C,Klein M,Roques D,et al.The Red River fault system in the Tonkin Gulf,Vietnam[J].Tectonophysics,1995,243:209-222.
[69]Wang P L,Lo C H,Lee T Y,et al.Thermochronological evidence for the movement of the Ailao Shan-Red River shear zone:A perspective from Vietnam[J].Geology,1998,26(10):887-890.
[70]Wang,P L,Lo C H,Chung S L,et al.Onset timing of left-lateral movement along the Ailao Shan-Red River shear zone:40Ar/39Ar dating constraint from the Nam Dinh Area,northeastern Vietnam[J].Journal of Asian Earth Sciences,2000,18(2000):281-292.
[71]Gilley L D,Harrison T M,Leloup P H,et al.Direct dating of leftlateral deformation along the Red River shear zone,China and Vietnam[J].Journal of Geophysical Research,2003,10(B2):2127,doi:10.1029/2001JB001726.
[72]Schoenbohm L M,Whipple K X,Burchfiel B C,et al.Geomorphic constraints on surface uplift,exhumation,and plateau growth in the Red River region,Yunnan Province,China[J].GSA Bulletin,2004,116(7/8):895-909;doi:10.1130/B25364.1.
[73]张培震,王敏,甘卫军,等.GPS观测的活动断裂滑动速率及其对现今大陆动力作用的制约[J].地学前缘,2003,10(3):81-92.
[74]王阎昭,王恩宁,沈正康,等.基于GPS资料约束反演川滇地区主要断裂现今活动速率[J].中国科学(D辑),2008,38(5):582-597.
[75]Lai K,Chen Y,Lam D.Pliocene-to-present morphotectonics of the Dien Bien Phu fault in northwest Vietnam[J].Geomorphology,2012,173/174:52-68.
[76]向宏发,虢顺民,张晚霞,等.红河断裂带南段断裂活动性转换的地质特征研究[C]//邓起东,汪一鹏,张培震,等.活动断裂研究(4).北京:地震出版社,1995:38-45.
[77]向宏发,虢顺民,徐锡伟,等.川滇南部地区活动地块划分[J].地震地质,2000,22(3):253-264.
[78]Wu Z H,Zhang Y S,Hu D G,et al.Late Quaternary normal faulting and its kinematic mechanism of eastern piedmont fault of the Haba-Yulong Snow Mountains in northwestern Yunnan,China[J].Science in China(Series D),2009,52(10):1447-1678.
[79]Duong C,Feigl K L.Geodetic measurement of horizontal strain across the Red River fault near Thac Ba,Vietnam[J].J.Geod.,1999,73:298-310.
[80]Feigl K L,Duong C,Becker M,et al.Insignificant horizontal strain across the Red River fault near Thac Ba,Vietnam from GPS measurements 1994-2000[M].Geophys.Res.Abst.,2003,Abstract 04707.
[81]向宏发,虢顺民,张晚霞,等.红河断裂带南段中新世以来大型右旋位错量的定量研究[J].地震地质,2007,29(1):34-50.
[82]Lacassin R,Scharer U,Leloup P H,et al.Tertiary deformation and metamorphism of SE Tibet:The folded Tiger-leap decollement of NW Yunnan,China[J].Tectonics,1996,15(2):605-622.
[83]Vigny C,Socquet A,Rangin C,et al.Present-day crustal deformation around Sagaing fault,Myanmar[J].Journal of Geophysical Research,2003,108(B11):2533,doi:10.1029/2002JB001999.
[84]Socquet A C,Vigny N,Chamot-Rooke W,et al.India and Sunda plates motion and deformation along their boundary in Myanmar determined by GPS[J].J.Geophys.Res.,2006:111,B05406,doi:10.1029/2005JB003877.
[85]Sahu V K,Gahalaut V K,Rajput S.Crustal deformation in the Indo-Burmese arc region:implications from the Myanmar and Southeast Asia GPS measurements[J].Current Science,2006,90(12):1688-1693.
[86]Maurin T,Masson F,Rangin C,et al.First global positioning system results in northern Myanmar:Constant and localized slip rate along the Sagaing fault[J].Geology,2010,38(7):591-594.
[87]虢顺民,汪洋,计凤桔.云南思茅—普洱地区中强震群发生的构造机制[J].地震研究,1999,22(2):105-115.
[88]谢英情,李岩峰,张建国,等.2007年宁洱6.4级地震发震构造分析[J].地震研究,2007,30(4):350-358.
[89]杨国华,韩月萍,杨博.川滇地区地壳水平运动与变形场的演化特征及其机制讨论[J].地震研究,2009,32(3):275-282.
[90]阚荣举,张四昌,宴风桐,等.我国西南地区现代构造应力场与现代构造活动特征的探讨[J].地球物理学报,1977,20(2):96-107.
[91]阚荣举,彭万里.西南地区应力场变动与强震活动秩序及实验研究[J].地震研究,1980,3(4):181-192.
[92]阚荣举,王绍晋,黄琨,等.中国西南地区现代构造应力场与板内断块相对运动[J].地震地质,1983,5(2):79-90.
[93]许忠淮,汪素云,黄雨蕊,等.由大量的地震资料推断的我国大陆构造应力场[J].地球物理学报,1989,32(6):636-647.
[94]许忠淮.东亚地区现今构造应力图的编制[J].地震学报,2001,23(5):492-501.
[95]王椿镛,常利军,吕智勇,等.青藏高原东部上地幔各向异性及相关的壳幔耦合型式[J].中国科学(D辑),2007,37(4):495-503.
[96]王椿镛,常利军,苏伟,等.青藏高原东部及其邻区力学耦合的岩石圈变形模式[J].地学前缘,2008,15(6):208-218.
[97]Holt W E.Correlated crust and mantle strain fields in Tibet[J].Geology,2000,28(1):67-70,doi:10.1130/0091-7613(2000)28<67:CCAMSF>2.0.CO;2.
[98]Flesch L M,Holt W E,Silver P G,et al.Constraining the extent of crust-mantle coupling in Central Asia using GPS,geologic,and shear-wave splitting data[J].Earth and Planetary Science Letters,2005,238:248-268,doi:10.1016/j.epsl.2005.06.023.
[99]Lev E,Long M D,van der Hilst R D.Seismic anisotropy in eastern Tibet from shear wave splitting reveals changes in lithospheric deformation[J].Earth and Planetary Science Letters,2006,251:293-304,doi:10.1016/j.epsl.2006.09.018.
[100]Sol S,Meltzer A,Burgmann R,et al.Geodynamics of the southeastern Tibetan Plateau from seismic anisotropy and geodesy[J].Geology,2007,35(6):563-566,doi:10.1130/G23408A.1.
[101]Wang C Y,Flesch L M,Silver P G,et al.Evidence for mechanically coupled lithosphere in central Asia and resulting implications[J].Geology,2008,36(5):363-366,doi:10.1130/G24450A.
[102]胡家富,苏有锦,朱雄关,等.云南的地壳S波速度与泊松比结构及其意义[J].中国科学(D辑),2003,33(8):714-722.
[103]Xu L L,Rondenay S,van der Hilst R D.Structure of the crust beneath the southeastern Tibetan Plateau from teleseismic receiver functions[J].Physics of the Earth and Planetary Interiors,2007,165:176-193.
[104]徐强,赵俊猛,崔仲雄,等.利用接收函数研究青藏高原东南缘的地壳上地幔结构[J].地球物理学报,2009,52(12):3001-3008.
[105]Zurek B,Meltzer A,Sol S,et al.Measurements of crustal thickness and Poisson's ratio in southeastern Tibet from receiver functions[C]//Eos(Transactions,American Geophysical Union),2005,86:abstract T41A-1283.
[106]吴中海,赵根模,龙长兴,等.青藏高原东南缘现今大震活动特征及其趋势:活动构造体系角度的初步分析结果[J].地质学报,2014,88(8):1401-1416.
[107]杨振宇,孙知明,马醒华,等.红河断裂两侧早第三纪古地磁研究及其地质意义[J].地质学报,2001,75(1):35-44.
[108]徐锡伟,程国良,于贵华,等.川滇菱形块体顺时针转动的构造学与古地磁学证据[J].地震地质,2003,25(1):61-69.
[109]李仕虎,黄宝春,朱日祥.青藏高原东南缘构造旋转的古地磁学证据[J].地球物理学报,2012,55(1):76-94.
[110]张海峰,仝亚博,王恒,等.印支地块思茅地区早白垩世古地磁结果及其构造意义[J].地质学报,2012,86(6):923-939.
[111]Royden L H,Burchfiel B C,van der Hilst R D.The geological evolution of the Tibetan Plateau[J].Science,2008,321:1054-1058,doi:10.1126/science.1155371.
1吴中海,周春景,中国及西南地区活动构造体系格局[C]//杨振宇,范桃园,吴中海.等.西南地区活动构造与应力场模拟成果报告.2011.
[2]Molnar P,Tapponnier P.Cenozoic tectonics of Asia:effects of a continental collision[J].Science,1975,280:419-426.
[3]国家地震局西南烈度队.西南地区地震地质及烈度区划探讨[M].北京:地震出版社,1977.
[4]Tapponnier P,Peltzer G,Le Dain A Y,et al.Propagating extrusion tectonics in Asia:New insights from simple experiments with plasticine[J].Geology,1982,10:611-616.
[5]Dain A Y L,Tapponnier P,Molnar P.Active faulting and tectonics of Burma and surrounding regions[J].Journal of Geophysical Research,1984,89(B1):453-472.
[6]Holt W E,Ni J F,Wallace T C,et al.The active tectonics of the eastern Himalayan syntaxis and surrounding regions[J].Journal of Geophysical Research,1991,96(B9):14595-14632.
[7]King R W,Shen F,Burchfiel B C,et al.Geodetic measurement of crustal motion in southwest China[J].Geology,1997,25(2):179-182,doi:10.1130/0091-7613(1997)025<0179:GMOCMI>2.3.CO;2.
[8]Royden L H,Burchfiel B C,King R W,et al.Surface deformation and lower crustal flow in eastern Tibet[J].Science,1997,276:788-790.
[9]Wang E C,Burchfiel B C.Interpretation of Cenozoic tectonics in the right-lateral accommodating zone between the Ailao Shan shear zone and the eastern Himalayan synaxis[J].International Geology Review,1997,39:191-219.
[10]Wang E C,Burchfiel B C,Royden L H,et al.Late Cenozoic Xianshuihe-Xiaojiang Red River,and Dali fault systems of southwestern Sichuan and central Yunnan,China[J].Geological Society of America Special Paper,1998,327:108.
[11]Lacassin R,Replumaz A,Leloup P H.Hairpin river loops and slipsense inversion on southeast Asian strike-slip faults[J].Geology,1998,26(8):703-706.
[12]Chen Z,Burchfiel B C,Liu Y,et al.Global Positioning System measurements from eastern Tibet and their implications for India/Eurasia intracontinental deformation[J].Journal of Geophysical Research,2000,105:16215-16227.
[13]张培震,王琪,马宗晋.青藏高原现今构造变形特征与GPS速度场[J].地学前缘,2002,9(2):442-450.
[14]Kirby E,Reiners P W,Krol M A,et al.Late Cenozoic evolution of the eastern margin of the Tibetan Plateau:Inferences from 40Ar/39Ar and(U/Th)/He thermochronology[J].Tectonics,2002,21(1):doi:10.1029/2000TC001246.
[15]徐锡伟,闻学泽,郑荣章,等.川滇地区活动块体最新构造变动样式及其动力来源[J].中国科学(D辑),2003,33(增刊):151-162.
[16]Zhang P Z,Shen Z,Wang M,et al.Continuous deformation of the Tibetan Plateau from global positioning system data[J].Geology,2004,32:809-812.
[17]Shen Z K,LüJ,Wang M,et al.Contemporary crustal deformation around the southeast borderland of the Tibetan plateau[J].Journal of Geophysical Research,2005:110,B11409,doi:1029/2004JB003421.
[18]Clark M K,Bush J M W,Royden L H.Dynamic topography produced by lower crustal flow against rheological strength heterogene-ities bordering the Tibetan Plateau[J].Geophys.J.Int.,2005,162:575-590.
[19]Socquet A,Pubellier M.Cenozoic deformation in western Yunnan(China-Myanmar border)[J].Journal of Asian Earth Sciences,2005,24:495-515.
[20]Copley A.Kinematics and dynamics of the southeastern margin of the Tibetan Plateau[J].Geophys.J.Int.,2008,174:1081-1100,doi:10.1111/j.1365-246X.2008.03853.x.
[21]李四光.地质力学概论[M].北京:科学出版社,1973.
[22]Molnar P,Lyon-Caen H.Fault plane solutions of earthquakes and active tectonics of the Tibetan Plateau and its margins[J].Geophys.J.Int.,1989,99:123-153.
[23]England P,P Molnar.Right-lateral shear and rotation as the explanation for strike-slip faulting in eastern Tibet[J].Nature,1990,344:140-142.
[24]Bai Denghai,Unsworth M J,Meju M A.Crustal deformation of the eastern Tibetan plateau revealed by magnetotelluric imaging[J].Nature Geoscience,2010,3:358-362.
[25]李四光.地质力学方法[M].北京:科学出版社,1979.
[26]毛玉平,韩新民,谷一山,等.云南地区强震(M≥6)研究[M].昆明:云南科技出版社,2003.
[27]国家地震局地质研究所,云南省地震局.滇西北地区活动断裂[M].北京:地震出版社,1990.
[28]四川省地震局.鲜水河活动断裂带[M].成都:四川科学技术出版社,1989.
[29]黄祖智.四川西昌强震区断块结构与地震关系的探讨[C]//国家地震局西南烈度队.川滇强震区地震地质调查汇编.北京:地震出版社,1979:104-120.
[30]Burchfiel B C.New technology:New geological challenges[J].GSA Today,2004,14(2):4-10,doi:10.1130/1052-5173(2004).
[31]Clark M K,Royden L H.Topographic ooze:Building the eastern margin of Tibet by lower crustal flow[J].Geology,2000,28:703-706,doi:10.1130/0091-7613(2000)28<703:TOBTEM>2.0.CO;2.
[32]虢顺民,李祥根,向宏发,等.云南红河走滑断裂尾端拉张区的运动学模式[C]//国家地震局地质研究所.现代地壳运动研究(5).北京:地震出版社,1991:1-12.
[33]虢顺民,向宏发,计凤桔,等.红河断裂带第四纪右旋走滑与尾端拉张转换关系研究[J].地震地质,1996,18(4):301-309.
[34]向宏发,韩竹军,虢顺民,等.红河断裂带大型右旋走滑运动与伴生构造地貌变形[J].地震地质,2004,26(4):597-610.
[35]李四光.旋扭构造[M].北京:科学出版社,1974.
[36]李东旭,周济元.地质力学导论[M].北京:地质出版社,1986.
[37]Tapponnier P,Peltzer G,Armijo R.On the mechanics of the collision between India and Asia[C]//Coward M P,Ries A C.Collision Tectonics.Geological Society Special Publication,1986,19:115-157.
[38]Tapponnier P,Lacassin R,Leloup P H,et al.The Ailao Shan/Red river metamorphic belt:Tertiary left-lateral shear between Indochina and South China[J].Nature,1990,343:431-437.
[39]Peltzer G,Tapponnier P.Formation and evolution of strike-slip faults,rifts,and basins during the India-Asia collision:An experimental approach[J].Journal of Geophysical Research,1988,93:15085-15117.
[40]Avouac J P,Tapponnier P.Kinematic model of active deformation in Central Asia[J].Geophysical Research Letters,1993,20:895-898.
[41]Leloup P H,Kienast J R.High temperature metamorphism in a major Tertiary ductile continental strike-slip shear zone:The Ailao Shan-Red River(P.R.C.)[J].Earth and Planetary Science Letters,1993,118:213-234,doi:10.1016/0012-821X(93)90169-A.
[42]Leloup P H,Harrison T M,Ryerson F J,et al.Structural petrological and structural evolution of a Tertiary ductile strike-slip shear zone,Diancang Shan,Yunnan[J].Journal of Geophysical Research,1993,98:6715-6743.
[43]Leloup P H,Lacassin R,Tapponnier P,et al.The Ailao Shan-Red River shear zone(Yunnan,China),Tertiary transform boundary of Indochina[J].Tectonophysics,1995,251:3-84.
[44]Leloup P H,Arnaud N,Lacassin R,et al.New constraints on the structure,thermochronology,and timing of the Ailao Shan-Red River shear zone,SE Asia[J].Journal of Geophysical Research,2001,106(B4):6683-6732.
[45]Schoenbohm L M,Burchfiel B C,Chen L,et al.Miocene to present activity along the Red River fault,China,in the context of continental extrusion,upper-crustal rotation,and lower-crustal flow[J].GSA Bulletin,2006,118(5/6):672-688.
[46]Wang Q,Zhang P Z,Freymueller J T,et al.Present-day crustal deformation in China constrained by global positioning system measurements[J].Science,2001,294(5542):574-577.
[47]张培震,甘卫军,沈正康,等.中国大陆现今构造作用的地块运动和连续变形耦合模型[J].地质学报,2005,79(6):748-756.
[48]国家地震局西南烈度队.川滇强震区地震地质调查汇编[M].北京:地震出版社,1979.
[49]王辉,曹建玲,张怀等.川滇地区下地壳流动对上地壳运动变形影响的数值模拟[J].地震学报,2007,29(6):581-591.
[50]范桃园,孙玉军,吴中海.青藏高原东缘旋转变形机制的数值模拟分析[J].地质通报,2014,33(4):497-502.
[51]吴中海,赵希涛,范桃园,等.泛亚铁路滇西大理至瑞丽沿线主要活动断裂与地震地质特征[J].地质通报,2012,31(2/3):191-217.
[52]Slemmons D B,Depolo C M.Evaluation of active faulting and associated hazards[C]//Wallace R E.Active Tectonics.Washington:National Academy Press,1986:45-62.
[53]Machette M N.Active,capable,and potentially active fault-a paleoseismic perspective[J].Journal of Geodynamics,2000,29(2000):387-392.
[54]Allen C R,Gillespie A R,Han Y,et al.Red River and associated faults,Yunnan province,China:Quaternary geology,slip rate and Seismic hazard[J].GSA Bulletin,1984,95:686-700.
[55]吴根耀.中缅泰交界区的断裂及其新构造活动方式[J].第四纪研究,1991,11(1):28-37.
[56]唐荣昌,韩渭滨.四川活动断裂与地震[M].北京:地震出版社,1993.
[57]李玶,主编.鲜水河—小江断裂带[M].北京:地震出版社,1993.
[58]宋方敏,汪一鹏,俞维贤,等.小江活动断裂带[M].北京:地震出版社,1998.
[59]徐锡伟,张培震,闻学泽,等.川西及其邻区活动构造基本特征与强震复发模型[J].地震地质,2005,27(3):446-461.
[60]邓起东,冉永康,杨晓平,等.中国活动构造图(1∶400万)[M].北京:地震出版社,2007.
[61]吴中海,张永双,胡道功,等.滇西北哈巴—玉龙雪山东麓断裂晚第四纪正断层作用及其动力学机制探讨[J].中国科学(D辑),2008,38(11):1361-1375.
[62]张永双,胡道功,吴中海,等.滇藏铁路沿线地壳稳定性与重大工程地质问题[M].北京:地质出版社,2009.
[63]Replumaz A,Lacassin R,Tapponnier P,et al.Large river offsets and Plio-Quaternary dextral strike-slip rate on the Red River fault(Yunnan,China)[J].Journal of Geophysical Research,2001,106(B1):819-836.
[64]艾伦C R,韩源,西K E,等.红河断裂的第四纪活动研究(一):现代活动概貌和活动断裂证据[J].地震研究,1984,7(1):39-51.
[65]艾伦C R,韩源,西K E,等.红河断裂的第四纪活动研究(二):断裂活动特征、滑动速率与地震重复间隔探讨[J].地震研究,1984,7(2):171-186.
[66]虢顺民,计凤桔,向宏发,等.红河活动断裂带[M].北京:海洋出版社,2001.
[67]张建国,谢英情,金明培,等.中越红河断裂活动性研究[M].昆明:云南科技出版社,2009.
[68]Rangin C,Klein M,Roques D,et al.The Red River fault system in the Tonkin Gulf,Vietnam[J].Tectonophysics,1995,243:209-222.
[69]Wang P L,Lo C H,Lee T Y,et al.Thermochronological evidence for the movement of the Ailao Shan-Red River shear zone:A perspective from Vietnam[J].Geology,1998,26(10):887-890.
[70]Wang,P L,Lo C H,Chung S L,et al.Onset timing of left-lateral movement along the Ailao Shan-Red River shear zone:40Ar/39Ar dating constraint from the Nam Dinh Area,northeastern Vietnam[J].Journal of Asian Earth Sciences,2000,18(2000):281-292.
[71]Gilley L D,Harrison T M,Leloup P H,et al.Direct dating of leftlateral deformation along the Red River shear zone,China and Vietnam[J].Journal of Geophysical Research,2003,10(B2):2127,doi:10.1029/2001JB001726.
[72]Schoenbohm L M,Whipple K X,Burchfiel B C,et al.Geomorphic constraints on surface uplift,exhumation,and plateau growth in the Red River region,Yunnan Province,China[J].GSA Bulletin,2004,116(7/8):895-909;doi:10.1130/B25364.1.
[73]张培震,王敏,甘卫军,等.GPS观测的活动断裂滑动速率及其对现今大陆动力作用的制约[J].地学前缘,2003,10(3):81-92.
[74]王阎昭,王恩宁,沈正康,等.基于GPS资料约束反演川滇地区主要断裂现今活动速率[J].中国科学(D辑),2008,38(5):582-597.
[75]Lai K,Chen Y,Lam D.Pliocene-to-present morphotectonics of the Dien Bien Phu fault in northwest Vietnam[J].Geomorphology,2012,173/174:52-68.
[76]向宏发,虢顺民,张晚霞,等.红河断裂带南段断裂活动性转换的地质特征研究[C]//邓起东,汪一鹏,张培震,等.活动断裂研究(4).北京:地震出版社,1995:38-45.
[77]向宏发,虢顺民,徐锡伟,等.川滇南部地区活动地块划分[J].地震地质,2000,22(3):253-264.
[78]Wu Z H,Zhang Y S,Hu D G,et al.Late Quaternary normal faulting and its kinematic mechanism of eastern piedmont fault of the Haba-Yulong Snow Mountains in northwestern Yunnan,China[J].Science in China(Series D),2009,52(10):1447-1678.
[79]Duong C,Feigl K L.Geodetic measurement of horizontal strain across the Red River fault near Thac Ba,Vietnam[J].J.Geod.,1999,73:298-310.
[80]Feigl K L,Duong C,Becker M,et al.Insignificant horizontal strain across the Red River fault near Thac Ba,Vietnam from GPS measurements 1994-2000[M].Geophys.Res.Abst.,2003,Abstract 04707.
[81]向宏发,虢顺民,张晚霞,等.红河断裂带南段中新世以来大型右旋位错量的定量研究[J].地震地质,2007,29(1):34-50.
[82]Lacassin R,Scharer U,Leloup P H,et al.Tertiary deformation and metamorphism of SE Tibet:The folded Tiger-leap decollement of NW Yunnan,China[J].Tectonics,1996,15(2):605-622.
[83]Vigny C,Socquet A,Rangin C,et al.Present-day crustal deformation around Sagaing fault,Myanmar[J].Journal of Geophysical Research,2003,108(B11):2533,doi:10.1029/2002JB001999.
[84]Socquet A C,Vigny N,Chamot-Rooke W,et al.India and Sunda plates motion and deformation along their boundary in Myanmar determined by GPS[J].J.Geophys.Res.,2006:111,B05406,doi:10.1029/2005JB003877.
[85]Sahu V K,Gahalaut V K,Rajput S.Crustal deformation in the Indo-Burmese arc region:implications from the Myanmar and Southeast Asia GPS measurements[J].Current Science,2006,90(12):1688-1693.
[86]Maurin T,Masson F,Rangin C,et al.First global positioning system results in northern Myanmar:Constant and localized slip rate along the Sagaing fault[J].Geology,2010,38(7):591-594.
[87]虢顺民,汪洋,计凤桔.云南思茅—普洱地区中强震群发生的构造机制[J].地震研究,1999,22(2):105-115.
[88]谢英情,李岩峰,张建国,等.2007年宁洱6.4级地震发震构造分析[J].地震研究,2007,30(4):350-358.
[89]杨国华,韩月萍,杨博.川滇地区地壳水平运动与变形场的演化特征及其机制讨论[J].地震研究,2009,32(3):275-282.
[90]阚荣举,张四昌,宴风桐,等.我国西南地区现代构造应力场与现代构造活动特征的探讨[J].地球物理学报,1977,20(2):96-107.
[91]阚荣举,彭万里.西南地区应力场变动与强震活动秩序及实验研究[J].地震研究,1980,3(4):181-192.
[92]阚荣举,王绍晋,黄琨,等.中国西南地区现代构造应力场与板内断块相对运动[J].地震地质,1983,5(2):79-90.
[93]许忠淮,汪素云,黄雨蕊,等.由大量的地震资料推断的我国大陆构造应力场[J].地球物理学报,1989,32(6):636-647.
[94]许忠淮.东亚地区现今构造应力图的编制[J].地震学报,2001,23(5):492-501.
[95]王椿镛,常利军,吕智勇,等.青藏高原东部上地幔各向异性及相关的壳幔耦合型式[J].中国科学(D辑),2007,37(4):495-503.
[96]王椿镛,常利军,苏伟,等.青藏高原东部及其邻区力学耦合的岩石圈变形模式[J].地学前缘,2008,15(6):208-218.
[97]Holt W E.Correlated crust and mantle strain fields in Tibet[J].Geology,2000,28(1):67-70,doi:10.1130/0091-7613(2000)28<67:CCAMSF>2.0.CO;2.
[98]Flesch L M,Holt W E,Silver P G,et al.Constraining the extent of crust-mantle coupling in Central Asia using GPS,geologic,and shear-wave splitting data[J].Earth and Planetary Science Letters,2005,238:248-268,doi:10.1016/j.epsl.2005.06.023.
[99]Lev E,Long M D,van der Hilst R D.Seismic anisotropy in eastern Tibet from shear wave splitting reveals changes in lithospheric deformation[J].Earth and Planetary Science Letters,2006,251:293-304,doi:10.1016/j.epsl.2006.09.018.
[100]Sol S,Meltzer A,Burgmann R,et al.Geodynamics of the southeastern Tibetan Plateau from seismic anisotropy and geodesy[J].Geology,2007,35(6):563-566,doi:10.1130/G23408A.1.
[101]Wang C Y,Flesch L M,Silver P G,et al.Evidence for mechanically coupled lithosphere in central Asia and resulting implications[J].Geology,2008,36(5):363-366,doi:10.1130/G24450A.
[102]胡家富,苏有锦,朱雄关,等.云南的地壳S波速度与泊松比结构及其意义[J].中国科学(D辑),2003,33(8):714-722.
[103]Xu L L,Rondenay S,van der Hilst R D.Structure of the crust beneath the southeastern Tibetan Plateau from teleseismic receiver functions[J].Physics of the Earth and Planetary Interiors,2007,165:176-193.
[104]徐强,赵俊猛,崔仲雄,等.利用接收函数研究青藏高原东南缘的地壳上地幔结构[J].地球物理学报,2009,52(12):3001-3008.
[105]Zurek B,Meltzer A,Sol S,et al.Measurements of crustal thickness and Poisson's ratio in southeastern Tibet from receiver functions[C]//Eos(Transactions,American Geophysical Union),2005,86:abstract T41A-1283.
[106]吴中海,赵根模,龙长兴,等.青藏高原东南缘现今大震活动特征及其趋势:活动构造体系角度的初步分析结果[J].地质学报,2014,88(8):1401-1416.
[107]杨振宇,孙知明,马醒华,等.红河断裂两侧早第三纪古地磁研究及其地质意义[J].地质学报,2001,75(1):35-44.
[108]徐锡伟,程国良,于贵华,等.川滇菱形块体顺时针转动的构造学与古地磁学证据[J].地震地质,2003,25(1):61-69.
[109]李仕虎,黄宝春,朱日祥.青藏高原东南缘构造旋转的古地磁学证据[J].地球物理学报,2012,55(1):76-94.
[110]张海峰,仝亚博,王恒,等.印支地块思茅地区早白垩世古地磁结果及其构造意义[J].地质学报,2012,86(6):923-939.
[111]Royden L H,Burchfiel B C,van der Hilst R D.The geological evolution of the Tibetan Plateau[J].Science,2008,321:1054-1058,doi:10.1126/science.1155371.
1吴中海,周春景,中国及西南地区活动构造体系格局[C]//杨振宇,范桃园,吴中海.等.西南地区活动构造与应力场模拟成果报告.2011.
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |