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[1]WANG Tan,LI Yu,ZHANG Rui,et al.GPS in Earthquake Monitoring in China:Current Situation and Prospect[J].Journal of Seismological Research,2021,44(02):192-207.

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GPS in Earthquake Monitoring in China:Current Situation and Prospect

Journal of Seismological Research[ISSN 1000-0666/CN 53-1062/P] Volume: 44 Number of periods: 2021 02 Page number: 192-207 Column: Public date: 2021-06-30

Title:: GPS in Earthquake Monitoring in China:Current Situation and Prospect

Author(s):: WANG Tan¹; 2; LI Yu²; ZHANG Rui²; SHI Hongbo²; WANG Yuebing²; (1.Capital Normal University,Beijing 100048,China)(2.China Earthquake Networks Center,Beijing 100045,China)

Keywords:: GPS; earthquake monitoring; CMONOC; current situation of GPS application; development prospect

CLC:: P315.725

DOI:: -

Abstract:: In this paper we firstly review the development of application of GPS technology to earthquake monitoring in China,and then describe mainly GPS application to the following aspects:data processing,time series,velocity field and strain-rate field of the tectonic deformation of the Chinese mainland,quantification of the movement of active blocks in the Chinese mainland,and seismological research.Finally,we discuss the problems and challenges we are currently facing in GPS in earthquake monitoring in China,and put forward prospects from four aspects:earthquake prediction research,basic research,GPS network monitoring layout,and GPS solution accuracy and timeliness.

References:: 薄万举,章思亚,刘宗坚,等.2007.大地形变资料用于地震预测的回顾与思考[J].地震,27(4):68-76.
薄万举.2013.GPS展示的中国大陆主要相对变形特征及强震活动研究[J].地球物理学进展,28(2):599-606.
蔡宏翔,宋成骅,刘经南.1997.青藏高原1993和1995年地壳运动与形变的GPS监测结果分析[J].中国科学:地球科学,27(3):233-238.
陈俊勇,王泽民,庞尚益,等.2001.论珠穆朗玛峰地区地壳运动[J].中国科学:地球科学,31(4):265-271.
陈俊勇.1997.中国地壳运动观测网络简介[J].测绘通报,(2):8-11,15.
陈运泰.2009.地震预测:回顾与展望[J].中国科学:地球科学,39(12):1633-1658.
陈增强,胡瑞华,刘立嵩.2000.中国地壳运动观测网络在地球科学研究中的应用前景[J].地球科学进展,15(4):421-425.
邓起东,张培震,冉勇康,等.2002.中国活动构造基本特征[J].中国科学:地球科学,32(12):1020-1030.
刁法启.2011.基于GPS观测的同震、震后形变研究[D].北京:中国科学院研究生院.
丁国瑜,卢演俦.1986.对我国现代板内运动状况的初步探讨[J].科学通报,31(18):54-57.
方荣新.2010.高采样率GPS数据非差精密处理方法及其在地震学中的应用研究[D].武汉:武汉大学.
冯蔚.2016.利用 GPS 资料分析震前地表位移阶段性特征[D].北京:中国地震局地震预测研究所.
甘卫军,李强,张锐,等.2012.中国大陆构造环境监测网络的建设与应用[J].工程研究——跨学科视野中的工程,4(4):16-23.
甘卫军,张锐,张勇,等.2007.中国地壳运动观测网络的建设及应用[J].国际地震动态,(7):43-52.
顾国华,牛红叶,孟国杰,等.2001.中国地壳运动观测网络GPS数据处理进展[J].全球定位系统,26(1):5-13.
顾国华,王武星.2011.区域网GPS观测得到的汶川大地震前后的地壳垂直运动[J].地震,31(3):1-8.
顾国华,张晶,王武星.2003.GPS空间大地测量在地震预测研究中的最新进展[J].全球定位系统,28(1):9-13.
顾国华,张晶,王武星.2005.中国地壳运动观测网络GPS观测得到的地壳运动结果[J].测绘通报,(7):2-8.
顾国华.2007.GNSS(GPS)观测研究地壳运动的新进展[J].国际地震动态,(7):9-15.
顾国华.2008.GNSS科学发展与前景[J].全球定位系统,33(4):4-9,13.
顾国华.2012.地壳形变与地震前兆探索回顾和展望[J].地震,32(2):22-30.
国家重大科学工程“中国地壳运动观测网络”项目组.2008.GPS测定的2008年汶川M_S8.0级地震的同震位移场[J].中国科学:地球科学,38(10):1195-1206.
贺鹏超,王敏,王琪,等.2018.基于2001年M_W7.8可可西里地震震后形变模拟研究藏北地区岩石圈流变学结构[J].地球物理学报,61(2):531-544.
贺小星.2013.GPS台站时间序列分析及其地壳形变应用[D].上海:东华理工大学.
侯晓伟.2018.高精度GPS用于地壳形变研究分析[D].西安:长安大学.
黄立人,马青.2003.祁连山—河西走廊地区的现今水平形变[J].大地测量与地球动力学,23(4):9-13.
黄立人,王敏.2003.中国大陆构造块体的现今活动和变形[J].地震地质,25(1):23-32.
黄立人.2006.GPS 基准站坐标分量时间序列的噪声特性分析[J].大地测量与地球动力学,26(2):31-33,38.
江在森,刘经南.2010.应用最小二乘配置建立地壳运动速度场与应变场的方法[J].地球物理学报,3(5):1109,1116-1117.
江在森,马宗晋,张希,等.2001.青藏块体东北缘水平应变场与构造变形分析[J].地震地质,23(3):337-346.
江在森,马宗晋,张希,等.2003.GPS初步结果揭示的中国大陆水平应变场与构造变形[J].地球物理学报,46(3):352-358.
江在森,武艳强,邹镇宇,等.2020.GNSS在中国大陆的地震预测应用研究进展与展望[J].中国地震,36(4):693-707.
江在森,武艳强.2012.地壳形变与强震地点预测问题与认识[J].地震,32(2):8-21.
姜卫平.2017.卫星导航定位基准站网的发展现状、机遇与挑战[J].测绘学报,46(10):1379-1388.
赖锡安,黄立人,徐菊生.2004.中国大陆现今地壳运动[M].北京:地震出版社.
李强,韩宇飞,宁百齐,等.2012a.基于陆态网络GPS数据的电离层空间天气监测与研究[J].地球物理学报,55(7):2193-2202.
李强,游新兆,杨少敏,等.2012b.中国大陆构造变形高精度大密度GPS监测——现今速度场[J].中国科学:地球科学,42(5):629-632.
李延兴,黄城,朱文耀,等.2000.中国大陆水平运动特征与动力学分析[J].地震,20(S1):29-34.
李延兴,黄珹,胡新康,等.2001.板内块体的刚性弹塑性运动模型与中国大陆主要块体的应变状态[J].地震学报,23(6):565-572.
李延兴,杨国华,李智,等.2003.中国大陆活动地块的运动与应变状态[J].中国科学:地球科学,33(S1):65-81.
李延兴,赵承坤.1998.华北地区GPS监测网建设,地壳水平运动与应力场及地震活动性的关系[J].中国地震,14(2):116-125.
李瑜,刘静,梁宏,等.2015.全球定位系统测定的尼泊尔M_W7.8地震同震位移[J].科学通报,60(36):3606-3616.
梁洪宝,武艳强,陈长云,2018.2014年新疆于田M_S7.3地震同震位移及位错反演研究[J].地球物理学报,61(12):4817-4826.
梁诗明.2015.基于GPS观测的青藏高原现今三维地壳运动研究[J].国际地震动态,(7):40-42.
刘刚,乔学军,王琪.2020.强震变形的地震大地测量监测与研究[J].中国地震,36(4):718-728.
刘序俨,郭逢英,林继华,等.1999.福建沿海地壳运动与GPS测量结果初步分析[J].福建地震,19(1):40-47.
马瑾.2016.从“是否存在有助于预报的地震先兆”说起[J].科学通报,61(4):409-414.
马宗晋,陈鑫连,叶叔华,等.2001.中国大陆区现今地壳运动的GPS研究[J].科学通报,46(13):1118-1120.
冒爱泉,张金华,胡伍生,等.2008.GPS地壳形变和前兆信息与地震预测[J].现代测绘,31(5):3-6.
孟国杰.2001.基于全球定位系统的现今地壳运动与形变研究[D].北京:中国地震局地球物理研究所.
牛之俊,马宗晋,陈鑫连,2002.中国地壳运动观测网络[J].大地测量与地球动力学,22(3):88-93.
牛之俊,王敏,孙汉荣,等.2005.中国大陆现今地壳运动速度场的最新观测结果[J].科学通报,50(8):839-840.
任金卫,王敏.2005.GPS观测的2001年昆仑山口西M_S8.1地震地壳变形[J].第四纪研究,25(1):34-44.
申文豪,李永生,焦其松,等.2019.联合强震记录和InSAR/GPS结果的四川九寨沟7.0级地震震源滑动分布反演及其地震学应用[J].地球物理学报,62(1):115-129.
沈正康,王敏,甘卫军,等.2003.中国大陆现今构造应变率场及其动力学成因研究[J].地学前缘,10(S1):93-100.
石耀霖,朱守彪.2006.用GPS位移资料计算应变方法的讨论[J].大地测量与地球动力学,26(1):1-8.
王静.2019.GPS应变率场计算方法研究进展[J].地震,39(2):124-136.
王敏,李强,王凡,等.2011.全球定位系统测定的2011年日本宫城M_W9.0级地震远场同震位移[J].科学通报,56(20):13-16.
王敏,沈正康,甘卫军,等.2008.GPS连续监测鲜水河断裂形变场动态演化[J].中国科学:地球科学,38(5):575-581.
王敏,沈正康,牛之俊,等.2003.现今中国大陆地壳运动与活动块体模型[J].中国科学:地球科学,33(S1):21-32,209.
王敏,沈正康.2020.中国大陆现今构造变形:三十年的GPS观测与研究[J].中国地震,36(4):660-683.
王敏,张培震,沈正康,等.2006.全球定位系统(GPS)测定的印尼苏门达腊巨震的远场同震地表位移[J].科学通报,51(3):365-368.
王琪,Seeber.1998.红河断裂的GPS监测与现代构造应力场[J].大地测量与地球动力学,18(2):49-56.
王琪,牛之俊,石俊成.2003.中国地壳运动观测网络基本网观测精度研究[J].大地测量与地球动力学,23(3):11-15.
王琪,乔学军,游新兆.2020.中国地震大地测量——半个世纪的历程与科学贡献[J].中国地震,36(4):647-659.
王琪,张培震,马宗晋.2002.中国大陆现今构造变形GPS观测数据与速度场[J].地学前缘,9(2):415-429.
王琪,张培震,牛之俊,等.2001.中国大陆现今地壳运动和构造变形[J].中国科学:地球科学,31(7):529-536.
王琪,张培震.2006.用GPS研究中国大陆现今的地壳变形[J].科学观察,1(6):43.
王琪.2003.中国大陆现今地壳运动研究[J].地震学报,25(5):541-547.
王小亚,朱文耀,符养,等.2002.GPS监测的中国及其周边现时地壳形变[J].地球物理学报,45(2):198-209.
王小亚.2002.GPS在地球物理方面的应用[D].上海:中国科学院研究生院(上海天文台).
王阎昭,王恩宁,沈正康,等.2008.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:地球科学,38(5):582-597.
王阅兵,甘卫军,陈为涛,等.2018.GNSS观测的九寨沟7.0级地震同震位移初步结果[J].地球物理学报,61(1):161-170.
魏明耀,张浪静,郭强.2010.GPS技术在震后地质灾害监测中的应用[J].测绘科学,35(S1):192-194.
魏文薪,江在森,邵德胜,等.2018.2014年鲁甸6.5级地震GPS同震位移及反演分析[J].地球物理学报,61(4):1258-1265.
吴云,孙建中,乔学军,等.2003.GPS在现今地壳运动与地震监测中的初步应用[J].武汉大学学报(信息科学版),28(S1):79-82.
伍吉仓,宋鑫友,胡凤鸣,等.2020.联合GNSS和InSAR观测位移反演2008年汶川大地震断层位错模型参数[J].中国地震,36(4):767-779.
武艳强,江在森,杨国华,等.2009.利用最小二乘配置在球面上整体解算 GPS 应变场的方法及应用[J].地球物理学报,52(7):1707-1714.
武艳强,江在森,杨国华,等.2011.汶川地震前 GPS 资料反映的应变率场演化特征[J].大地测量与地球动力学,31(5):20-25,29.
武艳强,江在森,朱爽,等.2020.中国大陆西部GNSS变形特征及其与M≥7.0强震孕育的关系[J].中国地震,36(4):756-766.
徐韶光,熊永良,黄丁发,等.2011.长距离动态GPS数据处理在地震监测中的应用研究[J].测绘科学,36(2):88-90.
许家琪.2019.GNSS坐标时间序列噪声模型建立影响因素研究[D].南昌:东华理工大学.
杨少敏,兰启贵,聂兆生,等.2012.用多种数据构建2008年汶川特大地震同震位移场[J].地球物理学报,55(8):2575-2588.
杨少敏,李杰,王琪.2008.GPS 研究天山现今变形与断层活动[J].中国科学:地球科学,38(7):872-880.
殷海涛,张培震,甘卫军,等.2010.高频GPS测定的汶川M_S8.0级地震震时近场地表变形过程[J].科学通报,55(26):2621-2626.
尹继尧,徐平,吴培稚,等.2007.GPS数据用于地震短临预测的数据处理初步探索[J].地震地磁观测与研究,28(5):50-56.
游新兆,杜瑞林,王琪,等.2001.中国大陆地壳现今运动的GPS测量结果与初步分析[J].大地测量与地球动力学,21(3):1-8.
游新兆,马海建.2012.国家重大科技基础设施项目——“中国大陆构造环境监测网络”建设成果展示[J].科技成果管理与研究,(6):78-82.
游新兆,王启梁.1994.青藏高原1993年GPS观测成果的精度分析[J].地壳形变与地震,14(3):27-33.
游新兆,杨少敏,王琪.2012.中国大陆地壳运动观测研究进展[J].地震,32(2):31-39.
张风霜,武艳强,孙东颖.2011.中国大陆GPS连续观测站基线时间序列分析[J].地震,31(4):86-97.
张培震,邓起东,张国民,等.2003.中国大陆的强震活动与活动地块[J].中国科学:地球科学,33(S1):12-20.
张培震,王琪,马宗晋.2002a.青藏高原现今构造变形特征与GPS速度场[J].地学前缘,9(2):442-450.
张培震,王琪,马宗晋.2002b.中国大陆现今构造运动的GPS速度场与活动地块[J].地学前缘,9(2):430-441.
张小红,郭斐,郭博峰,等.2012.利用高频 GPS 进行地表同震位移监测及震相识别[J].地球物理学报,55(6):1912-1918.
张小红,吴明魁,刘万科.2016.BeiDou B2/Galileo E5b短基线紧组合相对定位模型及性能评估[J].测绘学报,45(S2):1-11.
张晓亮,江在森,王敏,等.2006.利用GPS连续站资料研究地壳运动与地震的关系[J].大地测量与地球动力学,26(4):63-68.
张祖胜,耿世昌,陈德民,等.1989.现代地壳垂直形变速率[M]//马杏垣.中国岩石圈动力学地图集.北京:中国地图出版社.
张祖胜.2001.中国地壳运动观测网络[J].中国基础科学,(3):45-49.
赵斌,杜瑞林,张锐,等.2015.GPS测定的尼泊尔M_W7.9和M_W7.3级地震同震形变场[J].科学通报,60(S2):2758-2766.
赵斌,王敏,胡岩,等.2020.中国及邻域强震震后变形监测及岩石流变性质研究[J].中国地震,36(4):806-816.
赵静,刘杰,任金卫,等.2018.汶川8.0级地震前GPS与跨断层资料反映的运动与变形演化特征[J].中国地震,34(3):31-44.
赵齐乐,刘经南,葛茂荣,等.2005.用PANDA对GPS和CHAMP卫星精密定轨[J].大地测量与地球动力学,25(2):113-116,122.
周硕愚,吴云,江在森,等.2017.地震大地测量学[M].武汉:武汉大学出版社.
周硕愚,吴云,施顺英,等.2006.GPS对地震预报的推进和问题研究[J].大地测量与地球动力学,26(3):111-117.
周硕愚,吴云,施顺英,等.2007.现今地壳运动动力学基本状态与地震可预报性研究[J].大地测量与地球动力学,27(4):92-99.
周硕愚,吴云.2015.由震源到动力学系统──地震模式百年演化[J].大地测量与地球动力学,35(6):911-918.
朱文耀,程宗颐,王小亚,等.1998.中国大陆地壳运动的背景场[J].天文学进展,16(4):346-348.
Bedford J R,Moreno M,Deng Z,et al.2020.Months-long thousand-kilometre-scale wobbling before great subduction earthquakes[J].Nature,580(7805):628-635.
Bilich A,Cassidy J F,Larson K M.2008.GPS Seismology:Application to the 2002 M_W7.9 Denali fault earthquake[J].Bulletin of the Seismological Society of America,98(2):593-606.
Blewitt G,Lavallée D.2002.Effect of annual signals on geodetic velocity[J].Journal of Geophysical Research:Solid Earth,107(B7):ETG 9-1-ETG 9-11.
Bock Y,Prawirodirdjo L,Melbourne T I.2004.Detection of arbitrarily large dynamic ground motions with a dense high-rate GPS network[J].Geophysical Research Letters,31(6):177-182.
Chen C H,Wen S,Liu J Y,et al.2014.Surface displacements in Japan before the 11 March 2011 M9.0 Tohoku-Oki earthquake[J].Journal of Asian Earth Sciences,80(2):165-171.
Dach R,Hugentobler U,Fridez P.2007.Bernese GPS Software Version 5.0[M].Bern:Astronomical Institute,University of Bern.
Davis J L,Wernicke B P,Tamisiea M E.2012.On seasonal signals in geodetic time series[J].Journal of Geophysical Research:Solid Earth,117(B1):B0143.
Davis J P,Smalley J R.2009.Love wave dispersion in central North America determined using absolute displacement seismograms from high-rate GPS[J].Journal of Geophysical Research:Solid Earth,114(B11):292-310.
Emore G L,Haase J S,Choi K,et al.2007.Recovering seismic displacements through combined use of 1-Hz GPS and strong-motion accelerometers[J].Bulletin of the Seismological Society of America,97(2):357-378.
Feng W,Ren J,Jiang Z.2016.GPS station short-term dynamic characteristics of micro displacement before Menyuan M6.4 earthquake[J].Geodesy and Geodynamics,7(4):237-244.
Gan W,Zhang P,Shen Z K,et al.2007.Present-day crustal motion within the Tibetan Plateau inferred from GPS measurements[J].journal of geophysical research solid earth,112(B8):B08416.
Geng J,Wen Q,Chen Q,et al.2019.Six-degree-of-freedom broadband seismogeodesy by combining collocated high-rate GNSS,accelerometers,and gyroscopes[J].Geophysical Research Letters,46(2):708-716.
Geng J,Wen Q,Chen Q.2020.Six-degree-of-freedom seismogeodesy by combining collocated high-rate GNSS,accelerometers and gyroscopes[C]//EGU General Assembly Conference Abstracts.
Gong W,Zhang Y,Li T,et al.2019.Multi-sensor geodetic observations and modeling of the 2017 M_W6.3 Jinghe earthquake[J].Remote Sensing,11(18):2157.
Hao M,Freymueller J T,Wang Q,et al.2016.Vertical crustal movement around the southeastern Tibetan Plateau constrained by GPS and GRACE data[J].Earth and Planetary Science Letters,437(3):1-8.
He P,Wang Q,Ding K,et al.2016.Source model of the 2015 MW6.4 Pishan earthquake constrained by interferometric synthetic aperture radar and GPS:Insight into blind rupture in the western Kunlun Shan[J].Geophysical research letters,43(4):1511-1519.
Huang M H,Roland Bürgmann,Freed A M.2014.Probing the lithospheric rheology across the eastern margin of the Tibetan Plateau[J].Earth and Planetary Science Letters,396(6):88-96.
Ji C,Larson K M,Tan Y,et al.2004.Slip history of the 2003 San Simeon earthquake constrained by combining 1-Hz GPS,strong motion,and teleseismic data[J].Geophysical research letters,31(17):169-188.
Jiang Z,Wang M,Wang Y,et al.2014.GPS constrained coseismic source and slip distribution of the 2013 M_W6.6 Lushan,China,earthquake and its tectonic implications[J].Geophysical Research Letters,41(2):407-413.
Liu J N,Ge M R.2003.PANDA software and its preliminary result of positioning and orbit determination[J].Wuhan University Journal of Natural Sciences,8(2):603.
Langbein J.2008.Noise in GPS displacement measurements from Southern California and Southern Nevada[J].Journal of Geophysical Research:Solid Earth,113(B5):B05405.
Larson K M,Bodin P,Gomberg J.2003.Using 1-Hz GPS data to measure deformations caused by the Denali fault earthquake[J].Science,300(5624):1421-1424.
Li J,Liu G,Qiao X,et al.2018.Rupture characteristics of the 25 November 2016 Aketao earthquake(M_W6.6)in eastern Pamir revealed by GPS and teleseismic data[J].Pure Appl Geophys,175(2):573-585.
Liang S,Gan W,Shen C,et al.2013.Three-dimensional velocity field of present-day crustal motion of the Tibetan Plateau derived from GPS measurements[J].Journal of Geophysical Research Solid Earth,118(10):5722-5732.
Lin A,Fu B,Guo J,et al.2002.Co-seismic strike-slip and rupture length produced by the 2001 M_S8.1 Central Kunlun earthquake[J].Science,296(5575):2015-2017.
Liu G,Xiong W,Wang Q,et al.2019.Source characteristics of the 2017 M_S7.0 Jiuzhaigou,China,earthquake and implications for recent seismicity in eastern Tibet[J].Journal of Geophysical Research:Solid Earth,124(5):4895-4915.
Meade B J.2007.Present-day kinematics at the India-Asia collision zone[J].Geology,35(1):81-84.
Miyazaki S,Larson K M,Choi K,et al.2004.Modeling the rupture process of the 2003 September 25 Tokachi-Oki(Hokkaido)earthquake using 1-Hz GPS data[J].Geophysical Research Letters,31(21):L21603.
Montillet J P,Yu K.2015.Modeling geodetic processes with levy-stable distribution and FARIMA[J].Mathematical Geosciences.,47(6):627-646.
Meng G,Ren J,Su X,et al 2013.Coseismic deformation of the 2010 M_W6.9 Yushu earthquake derived from GPS Data[J].Seismological Research Letter,84(1):57-64.
Ozawa S,Nishimura T,Munekane H,et al.2012.Preceding,coseismic,and postseismic slips of the 2011 Tohoku earthquake,Japan[J].Journal of Geophysical Research:Solid Earth,117(B7):B07404.
Ryder I,Bürgmann R,Sun J.2010.Tandem afterslip on connected fault planes following the 2008 Nima-Gaize(Tibet)earthquake[J].Journal of Geophysical Research:Solid Earth,115(B3):B03404.
Shen Z K,Jackson D D,Ge B X.1996.Crustal deformation across and beyond the Los Angeles basin from geodetic measurements[J].Journal of Geophysical Research:Solid Earth,101(B12):27957-27980.
Shen Z K,Lü J,Wang M,et al.2005.Contemporary crustal deformation around the southeast borderland of the Tibetan Plateau[J].Journal of Geophysical Research:Solid Earth,110(B11):B11409.
Shi C,Lou Y,Zhang H,et al.2010.Seismic deformation of the M_W8.0 Wenchuan earthquake from high-rate GPS observations[J].Advances in Space Research,46(2):228-235.
Thatcher W.2007.Microplate model for the present-day deformation of Tibet[J].Journal of Geophysical Research Solid Earth,112(B1):534-535.
Wang M,Shen Z K.2020.Present-day crustal deformation of continental China derived from GPS and its tectonic implications[J].Journal of Geophysical Research:Solid Earth,125(2):e2019JB018774.
Wang Q.2001a.Present-day crustal deformation in China constrained by global positioning system measurements[J].Science,294(5542):574-577.
Wang Q.2011b.Rupture of deep faults in the 2008 Wenchuan earthquake and uplift of the Longmen Shan[J].Nature Geoscience,4(9):634–640.
Wang Y,Wang M,Shen Z K.2017.Block-like versus distributed crustal deformation around the northeastern Tibetan plateau[J].Journal of Asian Earth Sciences,140(11):31-47.
Xu C J,Fan Q B,Wang Q,et al.2014.Postseismic deformation after 2008 Wenchuan earthquake[J].Survey Review,46(339):432-436.
Xu R,Stamps D S.2019.A geodetic strain rate and tectonic velocity model for China[J].Geochemistry,Geophysics,Geosystems,20(3):1280-1297.
Yokota Y,Koketsu K.2015.A very long-term transient event preceding the 2011 Tohoku earthquake[J].Nature communications,6(1):1-5.
Zhan W,Li F,Hao W,et al.2017.Regional characteristics and influencing factors of seasonal vertical crustal motions in Yunnan,China[J].Geophysical Journal International,210(3):1295-1304.
Zhang P Z,Shen Z K,Wang M,et al.2004.Continuous deformation of the Tibetan Plateau from global positioning system data[J].Geology,32(9):809-812.
Zhao B,Bürgmann R,Wang D,et al.2017b.Dominant controls of downdip afterslip and viscous relaxation on the postseismic displacements following the M_W7.9 Gorkha,Nepal,earthquake[J].Journal of Geophysical Research:Solid Earth,122(10):8376-8401.
Zhao B,Zhang C,Wang D,et al.2017a.Contemporary kinematics of the Ordos block,North China and its adjacent rift systems constrained by dense GPS observations[J].Journal of Asian Earth Sciences,135(3):257-267.
Zhao D,Qu C,Shan X,et al.2018.InSAR and GPS derived coseismic deformation and fault model of the 2017 M_S7.0 Jiuzhaigou earthquake in the Northeast Bayanhar block[J].Tectonophysics,726(4):86-99.
Zheng G,Wang H,Wright T J,et al.2017.Crustal deformation in the India-Eurasia collision zone from 25 years of GPS measurements[J].Journal of Geophysical Research:Solid Earth,122(11):9290-9312.
Zumberge J F,Heflin M B,Jefferson D C,et al.1997.Precise point positioning for the efficient and robust analysis of GPS data from large networks[J].Journal of Geophysical Research,102(B3):5005.

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