帕米尔—兴都库什地区构造应力场反演及拆离板片应力形因子特征研究
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摘要
从Global CMT目录搜集了1976年1月至2016年6月之间的震源深度大于70km的255个震源机制解,用阻尼应力反演方法,分70~160km和170~310km两个深度,计算了帕米尔—兴都库什地区的构造应力场;同时以10km为间隔计算了兴都库什地区深度介于70~310km之间的应力形因子.得到以下初步结论:兴都库什板片向下俯冲和帕米尔地区断裂带的横向拉张,可能是导致应力场不同的原因.兴都库什俯冲带与帕米尔俯冲带碰撞,导致交汇地区(37°N—37.5°N)的应力场参数突变.兴都库什俯冲板片受到深部温度、压力等因素,出现薄弱面进而形成拆离板片.其脱离了主俯冲板片的束缚后,重力的上下拉张作用导致空区附近张轴倾伏角接近90°,拆离板片俯冲至上地幔不连续面,导致板片部分熔融进而应力形因子随着深度变小.而拆离板片受到地幔挤压其内部发生破碎,其压应力轴由西部的NS到东部NW-SE方向偏转及纵向张应力轴倾伏角变小.
This work collected focal mechanism solutions of 255 events with depths larger than70 km in the Pamir-Hindu Kush from Global CMT catalogue January 1976 to June 2016.By using the method of regional damped stress field inversion,the tectonic stress fields in the depths of70~160 km and 170~310 km are determined,respectively.The stress shape factor is calculated with an interval 10 km in depth range 70~310 km beneath the Hindu Kush area.Results show that subduction of the detachment slab in Hindu Kush and the horizontal extension of fault zonesunder Pamir may cause different stress regimes in Pamir and Hindu Kush.The stress field parameters are dramatically changed in the collision area of the Pamir and Hindu Kush nearby37°N—37.5°N.The detachment slab in the subduction slab may be formed due to the weakness resulted from the high temperature and high pressure.After the detachment slab separates from the main body,the extensional axis shows nearly vertical near the seismic gap under the gravity pulling of the detaching slab that dives to the discontinuity in upper mantle.Heated by high temperature,the detached slab is in partial melting state,resulting in decrease of the stress shape factor with depth.The interior of the detached slab would be broken under compression in uppermantle,which makes the compressive axis rotate from NS in west to NW-SE in east and the dip of the extensional axis become smaller.
This work collected focal mechanism solutions of 255 events with depths larger than70 km in the Pamir-Hindu Kush from Global CMT catalogue January 1976 to June 2016.By using the method of regional damped stress field inversion,the tectonic stress fields in the depths of70~160 km and 170~310 km are determined,respectively.The stress shape factor is calculated with an interval 10 km in depth range 70~310 km beneath the Hindu Kush area.Results show that subduction of the detachment slab in Hindu Kush and the horizontal extension of fault zonesunder Pamir may cause different stress regimes in Pamir and Hindu Kush.The stress field parameters are dramatically changed in the collision area of the Pamir and Hindu Kush nearby37°N—37.5°N.The detachment slab in the subduction slab may be formed due to the weakness resulted from the high temperature and high pressure.After the detachment slab separates from the main body,the extensional axis shows nearly vertical near the seismic gap under the gravity pulling of the detaching slab that dives to the discontinuity in upper mantle.Heated by high temperature,the detached slab is in partial melting state,resulting in decrease of the stress shape factor with depth.The interior of the detached slab would be broken under compression in uppermantle,which makes the compressive axis rotate from NS in west to NW-SE in east and the dip of the extensional axis become smaller.
引文
Bai L,Zhang T Z.2015.Complex deformation pattern of the PamirHindu Kush region inferred from multi-scale double-difference earthquake relocations.Tectonophysics,638:177-184.
Bassin C,Laske G,Masters G.2000.The current limits of resolution for surface wave tomography in North America.EOS,Transactions American Geophysical Union,81(48):F897.
Beloussov V V,Belyaevsky N A,Borisov A A,et al.1980.Structure of the lithosphere along the deep seismic sounding profile:Tien ShanPamirs-Karakorum-Himalayas.Tectonophysics,70(3-4):193-221.
Beloussov V V,Pavlenkova N I,Egorkin A V.1991.Deep Structure of the Territory of the USSR.Nauka,Moscow.
Billington S,Isacks B L,Barazangi M.1977.Spatial distribution and focal mechanisms of mantle earthquakes in the Hindu Kush Pamir region:A contorted Benioff zone.Geology,5(11):699-704.
Brandon C,Romanowicz B.1986.A“no-lid”zone in the central Chang-Thang platform of Tibet:Evidence from pure path phase velocity measurements of long period Rayleigh waves.Journal of Geophysical Research:Solid Earth,91(B6):6547-6564.
Burov E V,Kogan M G,Lyon-Caen H,et al.1990.Gravity anomalies,the deep structure,and dynamic processes beneath the Tien Shan.EarthandPlanetaryScienceLetters,96(3-4):367-383.
Chatelain J L,Roecker S W,Hatzfeld D,et al.1980.Microearthquake seismicity and fault plane solutions in the Hindu Kush region and their tectonic implications.Journal of Geophysical Research:Solid Earth,85(B3):1365-1387.
Cui H W,Wan Y G,Huang J C,et al.2017.Tectonic stress field in the source of the New Britain MS7.4earthquake of March2015and adjacent areas.Chinese Journal of Geophysics(in Chinese),60(3):985-998,doi:10.6038/cjg20170313.
DeMets C,Gordon R G,Argus D F.2010.Geologically current plate motions.Geophysical Journal International,181(1):1-80.
Duretz T,Gerya T V,May D A.2011a.Numerical modelling of spontaneous slab breakoff and subsequent topographic response.Tectonophysics,502(1-2):244-256.
Duretz T,Schmalholz S M,Gerya T V.2012.Dynamics of slab detachment.Geochemistry,Geophysics,Geosystems,13(3):Q03020,doi:10.1029/2011GC004024.
Dziewonski A M,Chou T A,Woodhouse J H.1981.Determination of earthquake source parameters from waveform data for studies of global and regional seismicity.Journal of Geophysical Research:Solid Earth,86(B4):2825-2852.
Ekstr?m G,Nettles M,Dziewoński A M.2012.The global CMTproject 2004-2010:Centroid-moment tensors for 13,017earthquakes.Phys Earth Planet Inter,200-201:1-9.
Fan G W,Ni J F,Wallace T C.1994.Active tectonics of the Pamirs and Karakorum.Journal of Geophysical Research:Solid Earth,99(B4):7131-7160.
Gao X W,Wan Y G,Huang J C,et al.2015.Tectonic stress field analysis and static coulomb stress changes of the MS5.8Inner Mongolia′s Alxa left banner earthquake.North China earthquake Sciences(in Chinese),33(2):48-54.
Gephart J W,Forsyth D W.1984.An improved method for determining the regional stress tensor using earthquake focal mechanism data:Application to the San Fernando earthquake sequence.Journal of Geophysical Research:Solid Earth,89(B11):9305-9320.
Guiraud M,Laborde O,Philip H.1989.Characterization of various types of deformation and their corresponding deviatoric stress tensors using microfault analysis.Tectonophysics,170(3-4):289-316.
Hardebeck J L.2012.Coseismic and postseismic stress rotations due to great subduction zone earthquakes.Geophysical Research Letters,39(21):L21313,doi:10.1029/2012GL053438.
Hardebeck J L.2015.Stress orientations in subduction zones and the strength of subduction megathrust faults.Science,349(6253):1213-1216.
Hardebeck J L,Michael A J.2006.Damped regional-scale stress inversions:Methodology and examples for southern California and the Coalinga aftershock sequence.Journal of Geophysical Research:Solid Earth,111(B11):B11310,doi:10.1029/2005JB004144.
Huang J C,Wan Y G,Sheng S Z,et al.2016.Heterogeneity of present-da stress field in the Tonga-Kermadec subduction zone and its geodynamic significance.Chinese Journal of Geophysics(in Chinese),59(2):578-592,doi:10.6038/cjg20160216.
Ischuk A,Bendick R,Rybin A,et al.2013.Kinematics of the Pamir and Hindu Kush regions from GPS geodesy.Journal of Geophysical Research:Solid Earth,118(5):2408-2416.
Jouanne F,Awan A,Pecher A,et al.2014.Present-day deformation of northern Pakistan from Salt Ranges to Karakorum Ranges.Journal of Geophysical Research:Solid Earth,119(3):2487-2503.
Karato S I.1992.On the Lehmann discontinuity.Geophysical Research Letters,19(22):2255-2258.
Koulakov I.2011.High-frequency P and S velocity anomalies in the upper mantle beneath Asia from inversion of worldwide traveltime data.Journal of Geophysical Research:Solid Earth,116(B4):B04301,doi:10.1029/2010JB007938.
Koulakov I,Sobolev S V.2006.A tomographic image of Indian lithosphere break-off beneath the Pamir-Hindukush region.Geophysical Journal International,164(2):425-440.
Kufner S K,Schurr B,Haberland C,et al.2017.Zooming into the Hindu Kush slab break-off:A rare glimpse on the terminal stage of subduction.Earth and Planetary Science Letters,461:127-140.
Kufner S K,Schurr B,Sippl C,et al.2016.Deep India meets deep Asia:Lithospheric indentation,delamination and break-off under Pamir and Hindu Kush(Central Asia).Earth and Planetary Science Letters,435:171-184.
Lehmann I.1960.Structure of the upper mantle as derived from the travel times of seismic P and S waves.Nature,186(4729):956.
Lei J S,Zhou H L,Zhao D P.2002.3-D velocity structure of P-wave in the crust and upper-mantle beneath Pamir and adjacent region.Chinese Journal of Geophysics(in Chinese),45(6):802-811.
Li C,Van Der Hilst R D.2010.Structure of the upper mantle and transition zone beneath Southeast Asia from traveltime tomography.Journal of Geophysical Research:Solid Earth,115(B7):B07308,doi:10.1029/2009JB006882.
Li C,Van Der Hilst R D,Meltzer A S,et al.2008.Subduction of the Indian lithosphere beneath the Tibetan Plateau and Burma.Earth and Planetary Science Letters,274(1-2):157-168.
Li C,Van Der Hilst R D,Toks9z M N.2006.Constraining P-wave velocity variations in the upper mantle beneath Southeast Asia.Physics of the Earth and Planetary Interiors,154(2):180-195.
Li S L,Mooney W D.1998.Crustal structure of China from deep seismic sounding profiles.Tectonophysics,288(1-4):105-113.
Li W,Chen Y,Yuan X H,et al.2018.Continental lithospheric subduction and intermediate-depth seismicity:Constraints from S-wave velocity structures in the Pamir and Hindu Kush.Earth and Planetary Science Letters,482:478-489.
Li X,Wan Y G,Cui H W,et al.2016.Tectonic stress field analysis on the source region of the 2015 MW8.3Chile earthquake.Acta Seismologica Sinica(in Chinese),38(6):847-853.
Lister G,Kennett B,Richards S,et al.2008.Boudinage of a stretching slablet implicated in earthquakes beneath the Hindu Kush.Nature Geoscience,1(3):196-201.
Lou X T,Diao G L,Ye G Y,et al.2007.Spatial distribution of intermediate earthquakes and focal mechanism solutions in the Pamir-Hindu Kush region.Chinese Journal of Geophysics(in Chinese),50(5):1448-1455.
Lukk A A,Yunga S L.1988.Geodynamics and Stress-Strain State of the Lithosphere in Central Asia.Duschanbe:Donish(in Russian).
Lukk A A,Yunga S L,Shevchenko V I,et al.1995.Earthquake focal mechanisms,deformation state,and seismotectonics of the Pamir-Tien Shan region,central-Asia.Journal of Geophysical Research:Solid Earth,100(B10):20321-20343.
Luo Y,Zhao L,Zeng X F,et al.2015.Focal mechanisms of the Lushan earthquake sequence and spatial variation of the stress field.Science China Earth Sciences,58(7):1148-1158.
Martínez-Garzón P,Kwiatek G,Ickrath M,et al.2014.MSATSI:A MATLAB package for stress inversion combining solid classic methodology,a new simplified user-handling,and a visualization tool.Seismological Research Letters,85(4):896-904.
Mechie J,Yuan X,Schurr B,et al.2012.Crustal and uppermost mantle velocity structure along aprofile across the Pamir and southern Tien Shan as derived from project TIPAGE wide-angle seismic data.Geophysical Journal International,188(2):385-407.
Michael A J.1984.Determination of stress from slip data:Faults and folds.Journal of Geophysical Research:Solid Earth,89(B13):11517-11526.
Michael A J.1987.Use of focal mechanisms to determine stress:Acontrol study.Journal of Geophysical Research:Solid Earth,92(B1):357-368.
Mohadjer S,Bendick R,Ischuk A,et al.2010.Partitioning of India-Eurasia convergence in the Pamir-Hindu Kush from GPSmeasurements.Geophysical Research Letters,37(4):L04305,doi:10.1029/2009GL041737.
Molnar P,Stock J M.2009.Slowing of India′s convergence with Eurasia since 20 Ma and its implications for Tibetan mantle dynamics.Tectonics,28(3):TC3001,doi:10.1029/2008TC002271.
Negredo A M,Replumaz A,Villase1or A,et al.2007.Modeling the evolution of continental subduction processes in the PamirHindu Kush region.Earth and Planetary Science Letters,259(1-2):212-225.
Ning J Y,Zang S X.1990.The distribution of earthquakes and stress state in Pamir-Hindukush region.Acta Geophysica Sinica(in Chinese),33(6):657-669.
Pavlis G L,Das S.2000.The Pamir-Hindu Kush seismic zone as a strain marker for flow in the upper mantle.Tectonics,19(1):103-115.
Pegler G,Das S.1998.An enhanced image of the Pamir-Hindu Kush seismic zone from relocated earthquake hypocentres.Geophysical Journal International,134(2):573-595.
Ram A,Yadav L.1984.Focal-mechanism solutions of earthquakes and tectonics of the Hindukush region.Tectonophysics,104(1-2):85-97.
Replumaz A,Kárason H,Van Der Hilst R D,et al.2004.4-Devolution of SE Asia′s mantle from geological reconstructions and seismic tomography.Earth and Planetary Science Letters,221(1-4):103-115.
Replumaz A,Negredo A M,Guillot S,et al.2010.Multiple episodes of continental subduction during India/Asia convergence:Insight from seismic tomography and tectonic reconstruction.Tectonophysics,483(1-2):125-134.
Revenaugh J,Sipkin S A.1994.Mantle discontinuity structure beneath China.Journal of Geophysical Research:Solid Earth,99(B11):21911-21927.
Ritsema A R.1966.The fault-plane solutions of earthquakes of the Hindu Kush centre.Tectonophysics,3(2):147-163.
Robinson A C,Yin A,Manning C E,et al.2004.Tectonic evolution of the northeastern Pamir:Constraints from the northern portion of the Cenozoic Kongur Shan extensional system,western China.Geological Society of America Bulletin,116(7-8):953-973.
Roecker S W.1982.Velocity structure of the Pamir-Hindu Kush Region:Possible evidence of subducted crust.Journal of Geophysical Research:Solid Earth,87(B2):945-959.
Roecker S W,Soboleva O V,Nersesov I L,et al.1980.Seismicity and fault plane solutions of intermediate depth earthquakes in the Pamir-Hindu Kush region.Journal of Geophysical Research:Solid Earth,85(B3):1358-1364.
Schneider F M,Yuan X,Schurr B,et al.2013.Seismic imaging of subducting continental lower crust beneath the Pamir.Earth and Planetary Science Letters,375:101-112.
Schoenecker S C,Russo R M,Silver P G.1997.Source-side splitting of s waves from Hindu Kush-Pamir earthquakes.Tectonophysics,279(1-4):149-159.
Schwab M,Ratschbacher L,Siebel W,et al.2004.Assembly of the Pamirs:Age and origin of magmatic belts from the southern Tien Shan to the southern Pamirs and their relation to Tibet.Tectonics,23(4):TC4002,doi:10.1029/2003TC001583.
Shin Y H,Shum C K,Braitenberg C,et al.2009.Threedimensional fold structure of the Tibetan Moho from GRACEgravity data.Geophysical Research Letters,36(1):L01302,doi:10.1029/2008GL036068.
Shin Y H,Xu H Z,Braitenberg C,et al.2007.Moho undulations beneath Tibet from GRACE-integrated gravity data.Geophysical Journal International,170(3):971-985.
Singh V P,Duda J,Shanker D.2005.A plausible model for the present day seismicity and tectonic activity in the Hindukush complex zone.Journal of Asian Earth Sciences,25(1):147-156.
Sippl C,Schurr B,Yuan X,et al.2013.Geometry of the PamirHindu Kush intermediate-depth earthquake zone from local seismic data.Journal of Geophysical Research:Solid Earth,118(4):1438-1457.
Sun W B,He Y S,Chang Z,et al.2009.The plate subduction and stress state in the Pamir-Hindu Kush region.Seismology and Geology(in Chinese),31(2):207-217.
Tang L L,Zhao C P,Wang H T.2012.Study on the source characteristics of the 2008 MS6.8 Wuqia,Xinjiang earthquake sequence and the stress field on the northeastern boundary of Pamir.Chinese Journal of Geophysics(in Chinese),55(4):1228-1239,doi:10.6038/j.issn.0001-5733.2012.04.018.
Thybo H,Perchuc′E.1997.The seismic 8discontinuity and partial melting in continental mantle.Science,275(5306):1626-1629.
Van Der Voo R,Spakman W,Bijwaard H.1999.Tethyan subducted slabs under India.Earth and Planetary Science Letters,171(1):7-20.
Wan Y G.2015.A grid search method for determination of tectonic stress tensor using qualitative and quantitative data of active faults and its application to the Urumqi area.Chinese Journal of Geophysics(in Chinese),58(9):3144-3156,doi:10.6038/cjg20150911.
Wan Y G.2016.Introduction to Seismology(in Chinese).Beijing:Science Press.
Wan Y G,Sheng S Z,Huang J C,et al.2016.The grid search algorithm of tectonic stress tensor based on focal mechanism data and its application in the boundary zone of China,Vietnam and Laos.Journal of Earth Science,27(5):777-785.
Wan Y G,Sheng S Z,Xu Y R,et al.2011.Effect of stress ratio and friction coefficient on composite P wave radiation patterns.Chinese Journal of Geophysics(in Chinese),54(4):994-1001,doi:10.3969/j.issn.0001-5733.2011.04.014.
Wessel P,Smith W H F.1995.New version of the generic mapping tools.EOS,Transactions American Geophysical Union,76(33):329-329.
Wu W N,Kao H,Hsu S K,et al.2010.Spatial variation of the crustal stress field along the Ryukyu-Taiwan-Luzon convergent boundary.Journal of Geophysical Research:Solid Earth,115(B11):B11401,doi:10.1029/2009JB007080.
Wu W N,Lo C L,Lin J Y.2017.Spatial variations of the crustal stress field in the Philippine region from inversion of earthquake focal mechanisms and their tectonic implications.Journal of Asian Earth Sciences,142:109-118.
Xu Z G,Huang Z C,Wang L S,et al.2016.Crustal stress field in Yunnan:Implication for crust-mantle coupling.Earthquake Science,29(2):105-115.
Zhang J S,Shan X J,Li J H,et al.2005.Recent deep subducting of continetal crust in Pamier:An interpretation on seismotectonics and geodynamics.Acta Petrologica Sinica(in Chinese),21(4):1215-1227.
Zhang L P,Shao Z G,Li Z H.2014.Dynamic action of mutual subduction between the Indian and the Eurasia plates in Hindu Kush-Pamir region.Chinese Journal of Geophysics(in Chinese),57(2):459-471,doi:10.6038/cjg20140212.
Zheng J C,Wang P,Li D M,et al.2013.Tectonic stress field in Shandong region inferred from small earthquake focal mechanism solutions.Acta Seismologica Sinica(in Chinese),35(6):773-784.
Zhou Y,He J K,Oimahmadov I,et al.2016.Present-day crustal motion around the Pamir Plateau from GPS measurements.Gondwana Research,35:144-154.
Zubovich A V,Wang X Q,Scherba Y G,et al.2010.GPS velocity field for the Tien Shan and surrounding regions.Tectonics,29(6):TC6014,doi:10.1029/2010TC002772.
崔华伟,万永革,黄骥超等.2017.2015年3月新不列颠MS7.4地震震源及邻区构造应力场特征.地球物理学报,60(3):985-998,doi:10.6038/cjg20170313.
高熹微,万永革,黄骥超等.2015.内蒙古阿拉善左旗MS5.8地震的构造应力场和静态库伦应力变化分析.华北地震科学,33(2):48-54.
黄骥超,万永革,盛书中等.2016.汤加-克马德克俯冲带现今非均匀应力场特征及其动力学意义.地球物理学报,59(2):578-592,doi:10.6038/cjg20160216.
雷建设,周蕙兰,赵大鹏.2002.帕米尔及邻区地壳上地幔P波三维速度结构的研究.地球物理学报,45(6):802-811.
李祥,万永革,崔华伟等.2016.2015年智利MW8.3地震震源区构造应力场分析.地震学报,38(6):847-853.
楼小挺,刁桂苓,叶国扬等.2007.帕米尔-兴都库什地区中源地震的空间分布和震源机制解特征.地球物理学报,50(5):1448-1455.
罗艳,赵里,曾祥方等.2015.芦山地震序列震源机制及其构造应力场空间变化.中国科学:地球科学,45(4):538-550.
宁杰远,臧绍先.1990.帕米尔-兴都库什地区地震空间分布特征及应力场特征.地球物理学报,33(6):657-669.
孙文斌,和跃时,常征等.2009.帕米尔-兴都库什地区板块俯冲及其应力状态.地震地质,31(2):207-217.
唐兰兰,赵翠萍,王海涛.2012.2008年新疆乌恰6.8级地震序列震源特征及帕米尔东北缘应力场研究.地球物理学报,55(4):1228-1239,doi:10.6038/j.issn.0001-5733.2012.04.018.
万永革.2015.联合采用定性和定量断层资料的应力张量反演方法及在乌鲁木齐地区的应用.地球物理学报,58(9):3144-3156,doi:10.6038/cjg20150911.
万永革.2016.地震学导论.北京:科学出版社.
万永革,盛书中,许雅儒等.2011.不同应力状态和摩擦系数对综合P波辐射花样影响的模拟研究.地球物理学报,54(4):994-1001,doi:10.3969/j.issn.0001-5733.2011.04.014.
张家声,单新建,李建华等.2005.帕米尔地区现今大陆深俯冲-地震构造和动力学解释.岩石学报,21(4):1215-1227.
张浪平,邵志刚,李志海.2014.印度板块与欧亚板块在兴都库什帕米尔地区相互俯冲的动力作用分析.地球物理学报,57(2):459-471,doi:10.6038/cjg20140212.
郑建常,王鹏,李冬梅等.2013.使用小震震源机制解研究山东地区背景应力场.地震学报,35(6):773-784.
Bassin C,Laske G,Masters G.2000.The current limits of resolution for surface wave tomography in North America.EOS,Transactions American Geophysical Union,81(48):F897.
Beloussov V V,Belyaevsky N A,Borisov A A,et al.1980.Structure of the lithosphere along the deep seismic sounding profile:Tien ShanPamirs-Karakorum-Himalayas.Tectonophysics,70(3-4):193-221.
Beloussov V V,Pavlenkova N I,Egorkin A V.1991.Deep Structure of the Territory of the USSR.Nauka,Moscow.
Billington S,Isacks B L,Barazangi M.1977.Spatial distribution and focal mechanisms of mantle earthquakes in the Hindu Kush Pamir region:A contorted Benioff zone.Geology,5(11):699-704.
Brandon C,Romanowicz B.1986.A“no-lid”zone in the central Chang-Thang platform of Tibet:Evidence from pure path phase velocity measurements of long period Rayleigh waves.Journal of Geophysical Research:Solid Earth,91(B6):6547-6564.
Burov E V,Kogan M G,Lyon-Caen H,et al.1990.Gravity anomalies,the deep structure,and dynamic processes beneath the Tien Shan.EarthandPlanetaryScienceLetters,96(3-4):367-383.
Chatelain J L,Roecker S W,Hatzfeld D,et al.1980.Microearthquake seismicity and fault plane solutions in the Hindu Kush region and their tectonic implications.Journal of Geophysical Research:Solid Earth,85(B3):1365-1387.
Cui H W,Wan Y G,Huang J C,et al.2017.Tectonic stress field in the source of the New Britain MS7.4earthquake of March2015and adjacent areas.Chinese Journal of Geophysics(in Chinese),60(3):985-998,doi:10.6038/cjg20170313.
DeMets C,Gordon R G,Argus D F.2010.Geologically current plate motions.Geophysical Journal International,181(1):1-80.
Duretz T,Gerya T V,May D A.2011a.Numerical modelling of spontaneous slab breakoff and subsequent topographic response.Tectonophysics,502(1-2):244-256.
Duretz T,Schmalholz S M,Gerya T V.2012.Dynamics of slab detachment.Geochemistry,Geophysics,Geosystems,13(3):Q03020,doi:10.1029/2011GC004024.
Dziewonski A M,Chou T A,Woodhouse J H.1981.Determination of earthquake source parameters from waveform data for studies of global and regional seismicity.Journal of Geophysical Research:Solid Earth,86(B4):2825-2852.
Ekstr?m G,Nettles M,Dziewoński A M.2012.The global CMTproject 2004-2010:Centroid-moment tensors for 13,017earthquakes.Phys Earth Planet Inter,200-201:1-9.
Fan G W,Ni J F,Wallace T C.1994.Active tectonics of the Pamirs and Karakorum.Journal of Geophysical Research:Solid Earth,99(B4):7131-7160.
Gao X W,Wan Y G,Huang J C,et al.2015.Tectonic stress field analysis and static coulomb stress changes of the MS5.8Inner Mongolia′s Alxa left banner earthquake.North China earthquake Sciences(in Chinese),33(2):48-54.
Gephart J W,Forsyth D W.1984.An improved method for determining the regional stress tensor using earthquake focal mechanism data:Application to the San Fernando earthquake sequence.Journal of Geophysical Research:Solid Earth,89(B11):9305-9320.
Guiraud M,Laborde O,Philip H.1989.Characterization of various types of deformation and their corresponding deviatoric stress tensors using microfault analysis.Tectonophysics,170(3-4):289-316.
Hardebeck J L.2012.Coseismic and postseismic stress rotations due to great subduction zone earthquakes.Geophysical Research Letters,39(21):L21313,doi:10.1029/2012GL053438.
Hardebeck J L.2015.Stress orientations in subduction zones and the strength of subduction megathrust faults.Science,349(6253):1213-1216.
Hardebeck J L,Michael A J.2006.Damped regional-scale stress inversions:Methodology and examples for southern California and the Coalinga aftershock sequence.Journal of Geophysical Research:Solid Earth,111(B11):B11310,doi:10.1029/2005JB004144.
Huang J C,Wan Y G,Sheng S Z,et al.2016.Heterogeneity of present-da stress field in the Tonga-Kermadec subduction zone and its geodynamic significance.Chinese Journal of Geophysics(in Chinese),59(2):578-592,doi:10.6038/cjg20160216.
Ischuk A,Bendick R,Rybin A,et al.2013.Kinematics of the Pamir and Hindu Kush regions from GPS geodesy.Journal of Geophysical Research:Solid Earth,118(5):2408-2416.
Jouanne F,Awan A,Pecher A,et al.2014.Present-day deformation of northern Pakistan from Salt Ranges to Karakorum Ranges.Journal of Geophysical Research:Solid Earth,119(3):2487-2503.
Karato S I.1992.On the Lehmann discontinuity.Geophysical Research Letters,19(22):2255-2258.
Koulakov I.2011.High-frequency P and S velocity anomalies in the upper mantle beneath Asia from inversion of worldwide traveltime data.Journal of Geophysical Research:Solid Earth,116(B4):B04301,doi:10.1029/2010JB007938.
Koulakov I,Sobolev S V.2006.A tomographic image of Indian lithosphere break-off beneath the Pamir-Hindukush region.Geophysical Journal International,164(2):425-440.
Kufner S K,Schurr B,Haberland C,et al.2017.Zooming into the Hindu Kush slab break-off:A rare glimpse on the terminal stage of subduction.Earth and Planetary Science Letters,461:127-140.
Kufner S K,Schurr B,Sippl C,et al.2016.Deep India meets deep Asia:Lithospheric indentation,delamination and break-off under Pamir and Hindu Kush(Central Asia).Earth and Planetary Science Letters,435:171-184.
Lehmann I.1960.Structure of the upper mantle as derived from the travel times of seismic P and S waves.Nature,186(4729):956.
Lei J S,Zhou H L,Zhao D P.2002.3-D velocity structure of P-wave in the crust and upper-mantle beneath Pamir and adjacent region.Chinese Journal of Geophysics(in Chinese),45(6):802-811.
Li C,Van Der Hilst R D.2010.Structure of the upper mantle and transition zone beneath Southeast Asia from traveltime tomography.Journal of Geophysical Research:Solid Earth,115(B7):B07308,doi:10.1029/2009JB006882.
Li C,Van Der Hilst R D,Meltzer A S,et al.2008.Subduction of the Indian lithosphere beneath the Tibetan Plateau and Burma.Earth and Planetary Science Letters,274(1-2):157-168.
Li C,Van Der Hilst R D,Toks9z M N.2006.Constraining P-wave velocity variations in the upper mantle beneath Southeast Asia.Physics of the Earth and Planetary Interiors,154(2):180-195.
Li S L,Mooney W D.1998.Crustal structure of China from deep seismic sounding profiles.Tectonophysics,288(1-4):105-113.
Li W,Chen Y,Yuan X H,et al.2018.Continental lithospheric subduction and intermediate-depth seismicity:Constraints from S-wave velocity structures in the Pamir and Hindu Kush.Earth and Planetary Science Letters,482:478-489.
Li X,Wan Y G,Cui H W,et al.2016.Tectonic stress field analysis on the source region of the 2015 MW8.3Chile earthquake.Acta Seismologica Sinica(in Chinese),38(6):847-853.
Lister G,Kennett B,Richards S,et al.2008.Boudinage of a stretching slablet implicated in earthquakes beneath the Hindu Kush.Nature Geoscience,1(3):196-201.
Lou X T,Diao G L,Ye G Y,et al.2007.Spatial distribution of intermediate earthquakes and focal mechanism solutions in the Pamir-Hindu Kush region.Chinese Journal of Geophysics(in Chinese),50(5):1448-1455.
Lukk A A,Yunga S L.1988.Geodynamics and Stress-Strain State of the Lithosphere in Central Asia.Duschanbe:Donish(in Russian).
Lukk A A,Yunga S L,Shevchenko V I,et al.1995.Earthquake focal mechanisms,deformation state,and seismotectonics of the Pamir-Tien Shan region,central-Asia.Journal of Geophysical Research:Solid Earth,100(B10):20321-20343.
Luo Y,Zhao L,Zeng X F,et al.2015.Focal mechanisms of the Lushan earthquake sequence and spatial variation of the stress field.Science China Earth Sciences,58(7):1148-1158.
Martínez-Garzón P,Kwiatek G,Ickrath M,et al.2014.MSATSI:A MATLAB package for stress inversion combining solid classic methodology,a new simplified user-handling,and a visualization tool.Seismological Research Letters,85(4):896-904.
Mechie J,Yuan X,Schurr B,et al.2012.Crustal and uppermost mantle velocity structure along aprofile across the Pamir and southern Tien Shan as derived from project TIPAGE wide-angle seismic data.Geophysical Journal International,188(2):385-407.
Michael A J.1984.Determination of stress from slip data:Faults and folds.Journal of Geophysical Research:Solid Earth,89(B13):11517-11526.
Michael A J.1987.Use of focal mechanisms to determine stress:Acontrol study.Journal of Geophysical Research:Solid Earth,92(B1):357-368.
Mohadjer S,Bendick R,Ischuk A,et al.2010.Partitioning of India-Eurasia convergence in the Pamir-Hindu Kush from GPSmeasurements.Geophysical Research Letters,37(4):L04305,doi:10.1029/2009GL041737.
Molnar P,Stock J M.2009.Slowing of India′s convergence with Eurasia since 20 Ma and its implications for Tibetan mantle dynamics.Tectonics,28(3):TC3001,doi:10.1029/2008TC002271.
Negredo A M,Replumaz A,Villase1or A,et al.2007.Modeling the evolution of continental subduction processes in the PamirHindu Kush region.Earth and Planetary Science Letters,259(1-2):212-225.
Ning J Y,Zang S X.1990.The distribution of earthquakes and stress state in Pamir-Hindukush region.Acta Geophysica Sinica(in Chinese),33(6):657-669.
Pavlis G L,Das S.2000.The Pamir-Hindu Kush seismic zone as a strain marker for flow in the upper mantle.Tectonics,19(1):103-115.
Pegler G,Das S.1998.An enhanced image of the Pamir-Hindu Kush seismic zone from relocated earthquake hypocentres.Geophysical Journal International,134(2):573-595.
Ram A,Yadav L.1984.Focal-mechanism solutions of earthquakes and tectonics of the Hindukush region.Tectonophysics,104(1-2):85-97.
Replumaz A,Kárason H,Van Der Hilst R D,et al.2004.4-Devolution of SE Asia′s mantle from geological reconstructions and seismic tomography.Earth and Planetary Science Letters,221(1-4):103-115.
Replumaz A,Negredo A M,Guillot S,et al.2010.Multiple episodes of continental subduction during India/Asia convergence:Insight from seismic tomography and tectonic reconstruction.Tectonophysics,483(1-2):125-134.
Revenaugh J,Sipkin S A.1994.Mantle discontinuity structure beneath China.Journal of Geophysical Research:Solid Earth,99(B11):21911-21927.
Ritsema A R.1966.The fault-plane solutions of earthquakes of the Hindu Kush centre.Tectonophysics,3(2):147-163.
Robinson A C,Yin A,Manning C E,et al.2004.Tectonic evolution of the northeastern Pamir:Constraints from the northern portion of the Cenozoic Kongur Shan extensional system,western China.Geological Society of America Bulletin,116(7-8):953-973.
Roecker S W.1982.Velocity structure of the Pamir-Hindu Kush Region:Possible evidence of subducted crust.Journal of Geophysical Research:Solid Earth,87(B2):945-959.
Roecker S W,Soboleva O V,Nersesov I L,et al.1980.Seismicity and fault plane solutions of intermediate depth earthquakes in the Pamir-Hindu Kush region.Journal of Geophysical Research:Solid Earth,85(B3):1358-1364.
Schneider F M,Yuan X,Schurr B,et al.2013.Seismic imaging of subducting continental lower crust beneath the Pamir.Earth and Planetary Science Letters,375:101-112.
Schoenecker S C,Russo R M,Silver P G.1997.Source-side splitting of s waves from Hindu Kush-Pamir earthquakes.Tectonophysics,279(1-4):149-159.
Schwab M,Ratschbacher L,Siebel W,et al.2004.Assembly of the Pamirs:Age and origin of magmatic belts from the southern Tien Shan to the southern Pamirs and their relation to Tibet.Tectonics,23(4):TC4002,doi:10.1029/2003TC001583.
Shin Y H,Shum C K,Braitenberg C,et al.2009.Threedimensional fold structure of the Tibetan Moho from GRACEgravity data.Geophysical Research Letters,36(1):L01302,doi:10.1029/2008GL036068.
Shin Y H,Xu H Z,Braitenberg C,et al.2007.Moho undulations beneath Tibet from GRACE-integrated gravity data.Geophysical Journal International,170(3):971-985.
Singh V P,Duda J,Shanker D.2005.A plausible model for the present day seismicity and tectonic activity in the Hindukush complex zone.Journal of Asian Earth Sciences,25(1):147-156.
Sippl C,Schurr B,Yuan X,et al.2013.Geometry of the PamirHindu Kush intermediate-depth earthquake zone from local seismic data.Journal of Geophysical Research:Solid Earth,118(4):1438-1457.
Sun W B,He Y S,Chang Z,et al.2009.The plate subduction and stress state in the Pamir-Hindu Kush region.Seismology and Geology(in Chinese),31(2):207-217.
Tang L L,Zhao C P,Wang H T.2012.Study on the source characteristics of the 2008 MS6.8 Wuqia,Xinjiang earthquake sequence and the stress field on the northeastern boundary of Pamir.Chinese Journal of Geophysics(in Chinese),55(4):1228-1239,doi:10.6038/j.issn.0001-5733.2012.04.018.
Thybo H,Perchuc′E.1997.The seismic 8discontinuity and partial melting in continental mantle.Science,275(5306):1626-1629.
Van Der Voo R,Spakman W,Bijwaard H.1999.Tethyan subducted slabs under India.Earth and Planetary Science Letters,171(1):7-20.
Wan Y G.2015.A grid search method for determination of tectonic stress tensor using qualitative and quantitative data of active faults and its application to the Urumqi area.Chinese Journal of Geophysics(in Chinese),58(9):3144-3156,doi:10.6038/cjg20150911.
Wan Y G.2016.Introduction to Seismology(in Chinese).Beijing:Science Press.
Wan Y G,Sheng S Z,Huang J C,et al.2016.The grid search algorithm of tectonic stress tensor based on focal mechanism data and its application in the boundary zone of China,Vietnam and Laos.Journal of Earth Science,27(5):777-785.
Wan Y G,Sheng S Z,Xu Y R,et al.2011.Effect of stress ratio and friction coefficient on composite P wave radiation patterns.Chinese Journal of Geophysics(in Chinese),54(4):994-1001,doi:10.3969/j.issn.0001-5733.2011.04.014.
Wessel P,Smith W H F.1995.New version of the generic mapping tools.EOS,Transactions American Geophysical Union,76(33):329-329.
Wu W N,Kao H,Hsu S K,et al.2010.Spatial variation of the crustal stress field along the Ryukyu-Taiwan-Luzon convergent boundary.Journal of Geophysical Research:Solid Earth,115(B11):B11401,doi:10.1029/2009JB007080.
Wu W N,Lo C L,Lin J Y.2017.Spatial variations of the crustal stress field in the Philippine region from inversion of earthquake focal mechanisms and their tectonic implications.Journal of Asian Earth Sciences,142:109-118.
Xu Z G,Huang Z C,Wang L S,et al.2016.Crustal stress field in Yunnan:Implication for crust-mantle coupling.Earthquake Science,29(2):105-115.
Zhang J S,Shan X J,Li J H,et al.2005.Recent deep subducting of continetal crust in Pamier:An interpretation on seismotectonics and geodynamics.Acta Petrologica Sinica(in Chinese),21(4):1215-1227.
Zhang L P,Shao Z G,Li Z H.2014.Dynamic action of mutual subduction between the Indian and the Eurasia plates in Hindu Kush-Pamir region.Chinese Journal of Geophysics(in Chinese),57(2):459-471,doi:10.6038/cjg20140212.
Zheng J C,Wang P,Li D M,et al.2013.Tectonic stress field in Shandong region inferred from small earthquake focal mechanism solutions.Acta Seismologica Sinica(in Chinese),35(6):773-784.
Zhou Y,He J K,Oimahmadov I,et al.2016.Present-day crustal motion around the Pamir Plateau from GPS measurements.Gondwana Research,35:144-154.
Zubovich A V,Wang X Q,Scherba Y G,et al.2010.GPS velocity field for the Tien Shan and surrounding regions.Tectonics,29(6):TC6014,doi:10.1029/2010TC002772.
崔华伟,万永革,黄骥超等.2017.2015年3月新不列颠MS7.4地震震源及邻区构造应力场特征.地球物理学报,60(3):985-998,doi:10.6038/cjg20170313.
高熹微,万永革,黄骥超等.2015.内蒙古阿拉善左旗MS5.8地震的构造应力场和静态库伦应力变化分析.华北地震科学,33(2):48-54.
黄骥超,万永革,盛书中等.2016.汤加-克马德克俯冲带现今非均匀应力场特征及其动力学意义.地球物理学报,59(2):578-592,doi:10.6038/cjg20160216.
雷建设,周蕙兰,赵大鹏.2002.帕米尔及邻区地壳上地幔P波三维速度结构的研究.地球物理学报,45(6):802-811.
李祥,万永革,崔华伟等.2016.2015年智利MW8.3地震震源区构造应力场分析.地震学报,38(6):847-853.
楼小挺,刁桂苓,叶国扬等.2007.帕米尔-兴都库什地区中源地震的空间分布和震源机制解特征.地球物理学报,50(5):1448-1455.
罗艳,赵里,曾祥方等.2015.芦山地震序列震源机制及其构造应力场空间变化.中国科学:地球科学,45(4):538-550.
宁杰远,臧绍先.1990.帕米尔-兴都库什地区地震空间分布特征及应力场特征.地球物理学报,33(6):657-669.
孙文斌,和跃时,常征等.2009.帕米尔-兴都库什地区板块俯冲及其应力状态.地震地质,31(2):207-217.
唐兰兰,赵翠萍,王海涛.2012.2008年新疆乌恰6.8级地震序列震源特征及帕米尔东北缘应力场研究.地球物理学报,55(4):1228-1239,doi:10.6038/j.issn.0001-5733.2012.04.018.
万永革.2015.联合采用定性和定量断层资料的应力张量反演方法及在乌鲁木齐地区的应用.地球物理学报,58(9):3144-3156,doi:10.6038/cjg20150911.
万永革.2016.地震学导论.北京:科学出版社.
万永革,盛书中,许雅儒等.2011.不同应力状态和摩擦系数对综合P波辐射花样影响的模拟研究.地球物理学报,54(4):994-1001,doi:10.3969/j.issn.0001-5733.2011.04.014.
张家声,单新建,李建华等.2005.帕米尔地区现今大陆深俯冲-地震构造和动力学解释.岩石学报,21(4):1215-1227.
张浪平,邵志刚,李志海.2014.印度板块与欧亚板块在兴都库什帕米尔地区相互俯冲的动力作用分析.地球物理学报,57(2):459-471,doi:10.6038/cjg20140212.
郑建常,王鹏,李冬梅等.2013.使用小震震源机制解研究山东地区背景应力场.地震学报,35(6):773-784.
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