Abdrakhmatov, K. Y., Aldazhanov, S. A., Hager, B. H., Hamburger, M. W., Herring, T. A., Kalabaev, K. B., ... & Reilinger, R. E. (1996) Relatively recent construction of the Tien Shan inferred from GPS measurements of present-day crustal deformation rates. Nature, 384(6608), 450-453.
Allen, M. B., Vincent, S. J., & Wheeler, P. J. (1999) Late Cenozoic tectonics of the Kalpingtage thrust zone: interactions of the Tien Shan and Tarim Basin, northwest China. Tectonics, 18(4), 639-654.
Avouac, J. P., Tapponnier, P., Bai, M., You, H., & Wang, G. (1993) Active thrusting and folding along the northern Tien Shan and late Cenozoic rotation of the Tarim relative to Dzungaria and Kazakhstan. Journal of Geophysical Research: Solid Earth, 98(B4), 6755-6804.
Chen, W., Qiao, X., Xiong, W., Yu, P., & Nie, Z. (2019) The 2007 Ning'er Mw 6.1 Earthquake: A Shallow Rupture in Southwest China Revealed by InSAR Measurements. Earth and Space Science, 6, 2291-2302. https://doi.org/10.1029/2019EA000555
Dawson, J., Cummins, P., Tregoning, P., & Leonard, M. (2008) Shallow intraplate earthquakes in Western Australia observed by interferometric synthetic aperture radar. Journal of Geophysical Research: Solid Earth, 113, B11408, doi:10.1029/2008JB005807
Elliott, J. R., Jolivet, R., González, P. J., Avouac, J. P., Hollingsworth, J., Searle, M. P., & Stevens, V. L. (2016) Himalayan megathrust geometry and relation to topography revealed by the Gorkha earthquake. Nature Geoscience, 9(2), 174-180.
Farr, T. G., & Kobrick, M. (2000) Shuttle radar topography Mission produces a wealth of data. Eos, Transactions American Geophysical Union, 81(48), 583–585. https://doi.org/10.1029/EO081i048p00583
Feng,W. P., Li, Z. H. (2010) A Novel Hydrid PSO/Simplex algorithm for determining earthquake source parameters using InSAR data. Progress in Geophys., 25(4): 1189~1196. DOI: 10.3969/j.issn.1004-2903.2010.04.007
Funning, G. J., Parsons, B., Wright, T. J., Jackson, J. A., & Fielding, E. J. (2005). Surface displacements and source parameters of the 2003 Bam (Iran) earthquake from Envisat advanced synthetic aperture radar imagery. Journal of Geophysical Research: Solid Earth, 110(B9).
Gao, R., Hou, H., Cai, X., Knapp, J. H., He, R., Liu, J., ... & Roecker, S. W. (2013) Fine crustal structure beneath the junction of the southwest Tian Shan and Tarim Basin, NW China. Lithosphere, 5(4), 382-392.
Goldstein, R. M., & Werner, C. L. (1998) Radar interferogram filtering for geophysical applications. Geophysical Research Letters, 25(21), 4035–4038. https://doi.org/10.1029/1998GL900033
Hubbard, J., Almeida, R., Foster, A., Sapkota, S. N., Bürgi, P., & Tapponnier, P. (2016) Structural segmentation controlled the 2015 Mw 7.8 Gorkha earthquake rupture in Nepal. Geology, 44(8), 639-642.
Jónsson, S., Zebker, H., Segall, P., & Amelung, F. (2002) Fault slip distribution of the 1999 M w 7.1 Hector Mine, California, earthquake, estimated from satellite radar and GPS measurements. Bulletin of the Seismological Society of America, 92(4), 1377-1389.
Kim, W. Y., Dineva, S., Ma, S., & Eaton, D. (2006) The 4 August 2004, Lake Ontario, earthquake. Seismological Research Letters, 77(1), 65-73.
King, G. C., Stein, R. S., & Lin, J. (1994) Static stress changes and the triggering of earthquakes. Bulletin of the Seismological Society of America, 84(3), 935–953.
Koulali, A., Tregoning, P., McClusky, S., Stanaway, R., Wallace, L., & Lister, G. (2015) New Insights into the present-day kinematics of the central and western Papua New Guinea from GPS. Geophysical Journal International, 202(2), 993-1004.
Li J, Qiao X J, Yang S M, et al. (2015) Detachment fault model characterized for the 3D surface displacement field in the southwestern Tian Shan[J]. Chinese Journal Geophysics, 058(010):3517-3529. Doi:10.6038/cjg20151008.
Li, S., Wang, Q., Yang, S., Qiao, X., Nie, Z., Zou, R., ... & Chen, G. (2018) Geodetic imaging mega-thrust coupling beneath the Himalaya. Tectonophysics, 747, 225-238.
Langston, C. A. (1987) Depth of faulting during the 1968 Meckering, Australia, earthquake sequence determined from waveform analysis of local seismograms. Journal of Geophysical Research: Solid Earth, 92(B11), 11561-11574.
Li, Z., Elliott, J. R., Feng, W., Jackson, J. A., Parsons, B. E., & Walters, R. J. (2011) The 2010 MW 6.8 Yushu (Qinghai, China) earthquake: Constraints provided by InSAR and body wave seismology. Journal of Geophysical Research: Solid Earth, 116, B10302, doi:10.1029/2011JB008358.
Luo Y, Ni S, Zeng X, et al. (2011) The M5.0 Suining-Tongnan (China) earthquake of 31 January 2010: A destructive earthquake occurring in sedimentary cover. Chinese Sci Bull, 56: 57-62. Doi: 10.1007/s11434-010-4276-z
Ma, S., & Atkinson, G. M. (2006) Focal depths for small to moderate earthquakes (m N≥ 2.8) in Western Quebec, Southern Ontario, and Northern New York. Bulletin of the Seismological Society of America, 96(2), 609-623.
Ma, Y., Qiao, X., Chen, W., & Zhou, Y. (2018). Source model of 2016 Mw6. 6 Aketao earthquake, Xinjiang derived from Sentinel-1 InSAR observation. Geodesy and Geodynamics, 9(5), 372-377.
OkadaY. Surface deformation due to shear and tensile faults in a half space. Bull. Seism.Soc. Am. ,1985,75:1135~1154
Pepe, A., & Lanari, R. (2006) On the extension of the minimum cost flow algorithm for phase unwrapping of multitemporal differential SAR interferograms. IEEE Transactions on Geoscience and Remote Sensing, 44(9), 2374–2383. https://doi.org/10.1109/TGRS.2006.873207
Pfiffner, Othmar-Adrian (2017). Thick-Skinned and Thin-Skinned Tectonics: A Global Perspective. Geosciences, 7(3), pp. 1-89. MDPI 10.3390/geosciences7030071
Qiao X, Wang Q, Yang S, et al. (2014) Study on the focal mechanism and deformation characteristics for the 2008 Mw6.7 Wuqia earthquake, Xinjiang by InSAR. Chinese Journal Geophysics, 57(6):1805-1813. Doi:10.6038/cjg20140612.
Qiao, X., Du, R., Hua, X., Wang, X., Wang Q. (2000) Monitoring Present-day Tectonic Deformation by GPS in the Northeast Pamir, Xinjiang. EARTHQUAKE RESEARCH IN CHINA, 016(4):342-351.
Qiao, X., Yu, P., Nie, Z., Li, J., Wang, X., Kuzikov, S. I., ... & Yang, S. (2017) The crustal deformation revealed by GPS and InSAR in the northwest corner of the Tarim Basin, northwestern China. Pure and Applied Geophysics, 174(3), 1405-1423.
Qu, G., Li Y., Chen J., et al. (2003) Geometry, kinematics and tectonic evolution of Kalpingtage thrust system. Earth Science Frontiers, 010(U08), P.142-152.
Scholz CH (1990) The mechanics of earthquakes and faulting. Cambridge Univ Press, NewYork, p 439.
Stevens, V. L., & Avouac, J. P. (2015) Interseismic coupling on the main Himalayan thrust. Geophysical Research Letters, 42(14), 5828-5837.
Simons, M., Fialko, Y., & Rivera, L. (2002) Coseismic deformation from the 1999 M w 7.1 Hector Mine, California, earthquake as inferred from InSAR and GPS observations. Bulletin of the Seismological Society of America, 92(4), 1390-1402.
Styron, R. H., & Hetland, E. A. (2015) The weight of the mountains: Constraints on tectonic stress, friction, and fluid pressure in the 2008 Wenchuan earthquake from estimates of topographic loading. Journal of Geophysical Research: Solid Earth, 120(4), 2697-2716.
Tan, X., Yue, H., Liu, Y., Xu, X., Shi, F., Xu, C., ... & Hao, H. (2018) Topographic loads modified by fluvial incision impact fault activity in the Longmenshan thrust belt, eastern margin of the Tibetan Plateau. Tectonics, 37(9), 3001-3017.
Thompson, S. C., Weldon, R. J., Rubin, C. M., Abdrakhmatov, K., Molnar, P., & Berger, G. W. (2002) Late Quaternary slip rates across the central Tien Shan, Kyrgyzstan, central Asia. Journal of Geophysical Research: Solid Earth, 107(B9), 2203, doi:10.1029/2001JB000596
Wang, Q., Ding, G., Qiao, X., Wang, X. (2000) Research on present crustal deformation in the southern Tianshan (Jiashi), China by GPS geodesy. ACTA SEISMOLOGICA SINICA, 3:263-270.
Wang, Q. (2007) Characteristics of Structural deformation and its Controlling Factors of Centraland Western Segment in the front of the South Tian Shan. Dissertation, Zhejiang University.
Wang Q, Qiao X, Lan Q, et al. (2011) Rupture of deep faults in the 2008 Wenchuan earthquake and uplift of the Longmen Shan. Nature Geoscience, 4(9), 634-640.
Wang, R. J., Lorenzo-Martin, F., & Roth, F. (2006) PSGRN/PSCMP—a new code for calculating co- and post-seismic deformation, geoid and gravity changes based on the viscoelastic-gravitational dislocation theory. Computers & Geosciences, 32(4), 527–541
Wang, R., Diao, F., & Hoechner, A. (2013). SDM-A geodetic inversion code incorporating with layered crust structure and curved fault geometry. EGUGA, EGU2013-2411.
Wells, D. L., & Coppersmith, K. J. (1994) New empirical relationships among magnitude, rupture length, rupture width, rupture area, and surface displacement. Bulletin of the seismological Society of America, 84(4), 974-1002.
Werner, C., Wegmüller, U., Strozzi, T., & Wiesmann, A. (2000). Gamma SAR and interferometric processing software. In Proceedings of the ERS ENVISAT Symposium, Gothenburg, Sweden, 16–20 October 2000.
Wessel P, Smith WHF (1995) New version of the Generic Mapping Tools released. EOS Trans AGU 76:329
Weston, J., Ferreira, A. M., & Funning, G. J. (2012) Systematic comparisons of earthquake source models determined using InSAR and seismic data. Tectonophysics, 532, 61-81.
Wright, T. J., Lu, Z., & Wicks, C. (2003) Source model for the Mw 6.7, 23 October 2002, Nenana Mountain Earthquake (Alaska) from InSAR. Geophysical Research Letters, 30(18), 1974, doi:10.1029/2003GL018014 .
Wu C., Alimujiang, Dai X., Wu G., Chen J. (2014) Discovery of the late-quaternary activity along the eastern segment of maidan fault in southwest Tianshan and its tectonic implication. SEISMOLOGY AND GEOLOGY, 36(4), 976-990.
Xiong, W., Chen, W., Wen, Y., Liu, G., Nie, Z., Qiao, X., & Xu, C. (2019) Insight into the 2017 Mainling M w 6.5 earthquake: a complicated thrust event beneath the Namche Barwa syntaxis. Earth, Planets and Space, 71(1), 71.
Xiong, W., Chen, W., Zhao, B., Wen, Y., Liu, G., Nie, Z., ... & Xu, C. (2019) Insight into the 2016 Menyuan M w 5.9 Earthquake with InSAR: A Blind Reverse Event Promoted by Historical Earthquakes. Pure and Applied Geophysics, 176(2), 577-591.
Yang, S., Li, J., & Wang, Q. (2008) The deformation pattern and fault rate in the Tienshan Mountains inferred from GPS observations. Science in China Series D: Earth Sciences, 38(7), 872–880.
Yang, X., Deng, Q., Zhang P., Xu X. (2008) Crustal shortening of major nappe structures on the front margins of the Tian Shan. SEISMOLOGY AND GEOLOGY, 2008, 030(001):111-131.
Yu, C., Li, Z., Penna, N. T., & Crippa, P. (2018). Generic atmospheric correction model for Interferometric Synthetic Aperture Radar observations. Journal of Geophysical Research: Solid Earth, 123(10), 9202-9222.
Yue, H., Simons, M., Duputel, Z., Jiang, J., Fielding, E., Liang, C., ... & Samsonov, S. V. (2017) Depth varying rupture properties during the 2015 Mw 7.8 Gorkha (Nepal) earthquake. Tectonophysics, 714, 44-54.
Zubovich, A. V., Wang, X. Q., Scherba, Y. G., Schelochkov, G. G., Reilinger, R., Reigber, C., ... & Li, J. (2010) GPS velocity field for the Tien Shan and surrounding regions. Tectonics, 29(6), TC6014, doi:10.1029/2010TC002772.
Zhang Peizhen, Deng Qidong, Yang Xiaoping, Peng Sizhen, Xu Xiwei, & Feng Xianyue. (1996) Late Cenozoic Tectonic Deformation Mechanism along the Tianshan Mountain, Northwestern China. EARTHQUAKE RESEARCH IN CHINA, (2), 2.
Zhao, B., Bürgmann, R., Wang, D., Tan, K., Du, R., & Zhang, R. (2017) Dominant controls of downdip afterslip and viscous relaxation on the postseismic displacements following the Mw7. 9 Gorkha, Nepal, earthquake. Journal of Geophysical Research: Solid Earth, 122(10), 8376-8401.
Zhou, D. (2013) Characteristics of Present-day Crustal Deformation and Seismic Hazard Analysis in the Western and Central Tian Shan. Dissertation, Institute of Geology, China Earthquake Administration.