8 Tapponnier P, Molnar P. Slip-line field theory and large-scale continental tectonics. Nature, 1976, 264: 319-324
[2]
9 Molnar P, Tapponnier P. Relation of the tectonics of eastern China to the India-Eurasia collision: Application of slip-line field theory to large-scale continental tectonics. Geology, 1977, 5: 212-216
[3]
10 Marone C, Scholz C H. The depth of seismic faulting and the upper transition from stable to unstable slip regimes. Geophy Res Lett, 1988, 15: 621-624
[4]
11 Mazzotti S, Le Pichon X, Henry P, et al. Full interseismic locking of the Nankai and Japan-west Kurile subduction zones: An analysis of uniform elastic strain accumulation in Japan constrained by permanent GPS. J Geophys Res, 2000, 105: 13159-13177
[5]
12 Stirling M W, Wesnousky S G, Shimazaki K. Fault trace complexity, cumulative slip, and the shape of the magnitude-frequency distribution for strike-slip faults: A global survey. Geophys J Int, 1996, 124: 833-868
[6]
13 Xu C F. Evolution of crustal fluids and seismic causes (in Chinese). Acta Seismol Sin, 1997, 19: 29-34 [徐常芳. 壳内流体演化及地震成因. 地震学报, 1997, 19: 29-
[7]
14 Blanpied M L, Lockner D A, Byerlee J D. An earthquake mechanism based on rapid sealing of faults. Nature, 1992, 358: 574-576
[8]
15 Tian Y, Zhao D P, Sun R M, et al. The 1992 Landers earthquake: Effect of Crustal heterogeneity on earthquake generation (in Chinese). Chin J Geophys, 2007, 50: 1488-1496 [田有, 赵大鹏, 孙若昧, 等. 1992年美国加州兰德斯地震—地壳结构不均匀性对地震发生的影响. 地球物理学报, 2007, 50: 1488-
[9]
16 Zhang X K, Zhao J R, Zhang C K, et al. Crustal structure at the northeast side of the Pamirs (in Chinese). Chin J Geophys, 2002, 45: 665-671 [张先康, 赵金仁, 张成科, 等. 帕米尔东北侧地壳结构研究. 地球物理学报, 2002, 45: 665-
[10]
17 Molnar P, Fitch T J, Wu F T. Fault plane solutions of shallow earthquakes and contemporary tectonics in Asia. Earth Planet Sci Lett, 1973, 19: 101-112
[11]
18 Ji S C, Wang Q, Sun S S, et al. Continental extrusion and seismicity in China (in Chinese). Acta Geol Sin, 2008, 82: 1644-1667 [嵇少丞, 王茜, 孙圣思, 等. 亚洲大陆逃逸构造与现今中国地震活动. 地质学报, 2008, 82: 1644-
[12]
19 Thiede R C, Sobel E R, Chen J, et al. Late Cenozoic extension and crustal doming in the India-Eurasia collision zone: New thermochronologic constraints from the NE Chinese Pamir. Tectonics, 2013, 32: 763-779
[13]
20 Niu A F, Wang Q, Jiang Z S, et al. On Jiashi earthquakes and recent fault activity in southern Tianshan Mountain area (in Chinese). J Geod Geodyn, 2003, 23: 17-21 [牛安福, 王琪, 江在森, 等. 伽师地震与区域断层活动研究. 大地测量与地球动力学, 2003, 23: 17-
[14]
21 Xu Y, Liu J H, Liu F T, et al. Crustal velocity structure and seismic activity in the Tianshan-Pamir conjunctive zone (in Chinese). Chin J Geophys, 2006, 49: 469-476 [胥颐, 刘建华, 刘福田, 等. 天山-帕米尔结合带的地壳速度结构及地震活动研究. 地球物理学报, 2006, 49: 469-
[15]
22 Duan Y H, Lai X L, Li S L, et al. Near field earthquake observation of Jiashi and some deductions of Jiashi strong earthquakes (in Chinese). Prog Geophys, 1999, 14: 41-48 [段永红, 赖晓玲, 李松林, 等. 新疆伽师地震的近场观测和对它的初步认识. 地球物理学进展, 1999, 14: 41-
[16]
23 Duan Y H, Zhang X K, Yang Z X. Study on basement structures of the northeast Pamirs (in Chinese). Acta Seism Sin, 2002, 24: 378-384 [段永红, 张先康, 杨卓欣. 帕米尔东北侧基底结构研究. 地震学报, 2002, 24: 378-
[17]
24 Zhao J R, Zhang X K, Zhang C K, et al. The detection and research of the deep crust tectonic characters at the Jiashi-Artux seismic region (in Chinese). Earthq Res China, 2002, 18: 317-325 [赵金仁, 张先康, 张成科, 等. 伽师-阿图什震区地壳深部结构特征的探测与研究. 中国地震, 2002, 18: 317-
[18]
25 Li S L, Zhang X K, Mooney W D, et al. A preliminary study on fine structures of Jiashi earthquake region and earthquake generating fault (in Chinese). Chin J Geophys, 2002, 45: 76-82 [李松林, 张先康, Mooney W D, 等. 伽师地震区地壳细结构及发震断层的初步研究. 地球物理学报, 2002, 45: 76-
[19]
26 Pan S Z, Zhang X K, Yang Z X, et al. Precise locating of Jiashi, Xinjiang earthquake by using inversion method (in Chinese). Seismol Geol, 2004, 26: 153-160 [潘素珍, 张先康, 杨卓欣, 等. 利用反演方法确定新疆伽师地震的定位. 地震地质, 2004, 26: 153-
[20]
27 Yang Z X, Zhang X K, Jia S X, et al. Fine crustal structure around the Jiashi earthquake swarm region by deep seismic reflection profiling (in Chinese). Chin J Geophys, 2006, 49: 1701-1708 [杨卓欣, 张先康, 嘉世旭, 等. 伽师强震群区震源细结构的深地震反射探测研究. 地球物理学报, 2006, 49: 1701-
[21]
28 Xu X W, Zhang X K, Ran Y K, et al. The preliminary study on seismotectonics of the 2003 AD Bachu-Jiashi earthquake (MS6.8), southern Tianshan (in Chinese). Seismol Geol, 2006, 28: 161-178 [徐锡伟, 张先康, 冉勇康, 等. 南天山地区巴楚-伽师地震(MS6.8)发震构造初步研究. 地震地质, 2006, 28: 161-
[22]
29 Zhu L R, Su N Q, Yang M L. Activity of the 1997 Jiashi strong swarm in Xinjiang and three successful impending predictions for it. Earthq Res China, 1998, 14: 101-115 [朱令人, 苏乃琴, 杨马陵. 1997年新疆伽师强震群及三次成功的临震预报. 中国地震, 1998, 14: 101-
[23]
30 Liu Z, Zhang X K, Zhou X S, et al. Study of crustal structure in terms of physical property and discussion on seismogenic environment in the northeastern Pamirs (in Chinese). Acta Seismol Sin, 2003, 25: 242-249 [刘志, 张先康, 周雪松, 等. 帕米尔东北侧地壳物性结构及其发震环境探讨. 地震学报, 2003, 25: 242-
[24]
31 Xu C F, Zhang X K, Duan Y H, et al. Fine upper crustal structure of Jiashi strong earthquake swarm region in Xinjiang inferred from high resolution seismic refraction profile data (in Chinese). Acta Seismol Sin, 2006, 28: 60-69 [徐朝繁, 张先康, 段永红, 等. 新疆伽师强震群区上部地壳细结构的高分辨折射地震探测研究. 地震学报, 2006, 28: 60-
[25]
32 Wang Q, Gao Y. Rayleigh wave phase velocity tomography and strong earthquake activity on the southeastern front of the Tibetan Plateau. Sci China: Earth Sci, 2014, 57: 2532-2542 [王琼, 高原. 青藏东南缘背景噪声的瑞利波相速度层析成像及强震活动. 中国科学: 地球科学, 2014, 44: 2440-
[26]
33 Scholz C H, Campos J. On the mechanism of seismic decoupling and back arc spreading at subduction zones. J Geophys Res, 1995, 100: 22103-22115
[27]
34 Satake K, Shimazaki K, Tsuji Y, et al. Time and size of a giant earthquake in Cascadia inferred from Japanese tsunami records of January 1700. Nature, 1996, 379: 246-249
[28]
35 Research Group for Explosion Seismology. Regionality of the upper mantle around northeastern Japan as derived from explosion seismic observations and its seismological implications. Tectonophysics, 1977, 37: 117-130
[29]
36 Isozaki Y. Anatomy and genesis of a subduction-related orogen: A new view of geotectonic subdivision and evolution of the Japanese Islands. Isl Arc, 1996, 5: 289-320
[30]
37 Yu P, Guan X K, Zhao Z Y, et al. Seismic wave velocity structure of the Russia Baikal lake-Japan Sendai transect and its geological implications (in Chinese). Chin J Geophys, 2012, 55: 3277-3284 [于平, 关晓坤, 赵震宇, 等. 俄罗斯贝加尔湖-日本仙台断面地震波速结构及其地质意义. 地球物理学报, 2012, 55: 3277-
[31]
38 Feng S Y, Gao R, Long C X, et al. The compressive stress field of Yinchuan garben: Deep reflection profile (in Chinese). Chin J Geophys, 2011, 54: 692-697 [酆少英, 高锐, 龙长兴, 等. 银川地堑地壳挤压应力场: 深地震反射剖面. 地球物理学报, 2011, 54: 692-
[32]
5 Papadimitriou E E, Papazachos C B, Tsapanos T M. Test and application of the time-and magnitude predictable-model to the intermediate and deep focus earthquakes in the subduction zones of the circum-Pacific belt. Tectonophysics, 2001, 330: 45-68
[33]
7 Sumy D F, Gaherty J B, Kim W Y, et al. The mechanisms of earthquakes and faulting in the southern gulf of California. Bull Seismol Soc Am, 2013, 103: 487-506
[34]
1 Ando M. Source mechanisms and tectonic significance of historical earthquakes along the Nankai trough, Japan. Tectonophysics, 1975, 27: 119-140
[35]
2 Guo Z J. New advances and problems in study on seismic model study (in Chinese). Mech Eng, 1982, 1: 2-8 [郭增建. 地震模式的发展现状和存在问题. 力学与实践, 1982, 1: 2-
[36]
3 Zeng R S, Lu H X, Ding Z F. Seismic refraction and reflection profiling across Tangshan epicentral region and their implication to seismogenic processes (in Chinese). Chin J Geophys, 1998, 31: 383-398 [曾融生, 陆涵行, 丁志峰. 从地震折射和反射剖面结果讨论唐山地震成因. 地球物理学报, 1998, 31: 383-
[37]
4 Toda S. Forecasting the evolution of seismicity in southern California: Animations built on earthquake stress transfer. J Geophys Res, 2005, 110: B05S16
[38]
6 Holtkamp S G, Brudzinski M R. Earthquake swarms in circum-Pacific subduction zones. Earth Planet Sci Lett, 2011, 305: 215-225
