آزادفر، م.، قیطانچی، م.، 1392، شناسایی گسل مسبب زمینلرزه 21 اردیبهشت 1392 گوهران با استفاده از مکانیابی مجدد پسلرزهها و سازوکار کانونی آن: مجله ژئوفیزیک ایران، 9(4)، 54-67.
پوربیرانوند، ش.، تاتار، م.، 1393، تغییرات تنش در زاگرس با استفاده از وارونسازی سازوکارهای کانونی زمینلرزهها: فصلنامه علوم زمین، 24(94)، 115-122.
رضا، م.، سدیدخوی، ا.، عباسی، م.، جوان دولویی، غ.، 1393، شناسایی گسل مسبب زمینلرزه 29 آذر 1389 محمدآباد ریگان (کرمان) و سازوکار کانونی آن براساس تحلیل پسلرزهها: مجله ژئوفیزیک ایران، 8(1)، 59-70.
رضایی نایه، ع.، 1390، تعیین سازوکار زمین لرزه با استفاده از برگردان تانسور ممان به روش نسبی برای برخی از زمین لرزه های منطقۀ زرند در بازۀ زمانی 2005 تا 2008 و بزرگای بالای 3/5، پایان نامۀ کارشناسی ارشد، موسسۀ ژئوفیزیک دانشگاه تهران.
Aki, K., and Richards, P. G., 2002, Quantitative Seismology: Theory and Methods: University Science Books.
Angelier, J., 1979, Determination of the mean principal directions of stresses for a given fault population: Tectonophysics, 56, T17-T26.
Aubourg, C., Smith, B., Bakhtari, H., Guya, N., Eshragi, A., Lallemant, S., … , and Delaunay, S., 2004, Post-Miocene shortening pictured by magnetic fabric across the Zagros-Makran syntaxis (Iran): Special Paper 383: Orogenic Curvature: Integrating Paleomagnetic and Structural Analyses, 17–40, doi: 10.1130/0-8137-2383-3(2004)383[17:pspbmf]2.0.co;2.
Bakhtari, H. R., Lamotte, D. F. D., Aubourg, C., and Hassanzadeh, J., 1998, Magnetic fabrics of Tertiary sandstones from the Arc of Fars (Eastern Zagros, Iran): Tectonophysics, 284(3-4), 299–316. doi: 10.1016/s0040-1951(97)00179-0
Bott, M. H. P., 1959, The mechanics of oblique slip faulting: Geological Magazine, 96, 109-117.
Shyu, J. B. 2005, Neotectonic architecture of Taiwan and its implications for future large earthquakes. Journal of Geophysical Research, 110(B8).
https://doi.org/10.1029/2004jb003251
Carey, E., and Brunier, B., 1974, Analyse théorique et numérique d'un modèle méchanique élémentaire appliqué à l'étude d'une population de failles: Computes Rendus de l'Académie des Sciences, Paris, 279, 891-894.
DeMets, C., Gordon, R. G., Argus, D. F., and Stein, S., 1994, Effect of recent revisions to the geomagnetic reversal time scale on estimates of current plate motions, Geophysical Research Letters, 21, 2191-2194.
GCMT, Global CMT Catalog Search (n.d.), Retrieved from https://www.globalcmt.org/CMTsearch.html.
Gephart, J. W., and 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, 89, 9305-9320.
Kagan, Y. Y., 2002. Double-couple earthquake focal mechanism: random rotation and display, Geophys. J. Int., 163, 1065–1072.
Raeesi, M., Zarifi, Z., Nilfouroushan, F., Boroujeni, S. A., & Tiampo, K. 2016, Quantitative Analysis of Seismicity in Iran. Pure and Applied Geophysics, 174(3), 793-833. doi:10.1007/s00024-016-1435-4
Rostam, G. G., Pakzad, M., Mirzaei, N., & Sakhaei, S. R. 2017, Analysis of the stress field and strain rate in Zagros-Makran transition zone. Journal of Seismology, 22(1), 287-301. doi:10.1007/s10950-017-9705-x
Gholamzadeh, A., Yamini-Fard, F., Hessami, K., and Tatar, M., 2009, The February 28, 2006 Tiab earthquake, Mw 6.0: Implications for tectonics of the transition between the Zagros continental collision and the Makran subduction zone: Journal of Geodynamics, 47, 280–287.
ISC, International Seismological Centre, Focal mechanism search (n.d.), Retrieved from: http://www.isc.ac.uk/iscbulletin/search/fmechanisms/.
Kadinsky-Cade, K., and Barazangi, M., 1982, Seismotectonics of Southern Iran: the Oman Line: Tectonics, 1, 389–412.
Keiding, M., Lund, B., and Arnadottir, T., 2009, Earthquakes, stress, and strain along an obliquely divergent plate boundary: Reykjanes Peninsula, southwest Iceland: Journal of Geophysical Research, 114, B09306, doi: 10.1029/2008JB006253.
Lund, B., and Slunga, R., 1999, Stress tensor inversion using detailed microearthquake information and stability constraints: Application to Olfus in southwest Iceland: Journal of Geophysical Research, 104(B7), 14947-14964.
Lund, B., and Townend, J., 2007, Calculating horizontal stress orientations with full or partial knowledge of the tectonic stress tensor: Geophysical Journal International, 170, 1328–1335, doi:10.1111/j.1365-246X.2007. 03468.x.
Maggi, A., Priestley, K., and Jackson, J., 2002, Focal depths of moderate to large earthquakes in Iran: Journal of Seismology and Earthquake Engineering, 4, 1-10.
Masson, F., Chéry, J., Hatzfeld, D., Martinod, J., Vernant, P., Tavakoli, F., and Ghafory-Ashtiani, M., 2005, Seismic versus aseismic deformation in Iran inferred from earthquakes and geodetic data: Geophysical Journal International, 160(1), 217–226.
McQuarrie, N., 2004, Crustal scale geometry of the Zagros fold–thrust belt, Iran: Journal of Structural Geology, 26, 519–535.
Michael, A. J., 1984, Determination of stress from slip data: faults and folds: Journal of Geophysical Research, 89(B13), 11517–11526.
Pirouz, M., Avouac, J., P., Gualandi, A., Hassanzadeh, J., and Sternai, P., 2017, Flexural bending of the Zagros foreland basin: Geophysical Journal International, 210(3), 1659–1680, doi: 10.1093/gji/ggx252.
Raeesi, M., Zarifi, Z., Nilfouroushan, F., Boroujeni, S. A., and Tiampo, K., 2016, Quantitative analysis of seismicity in Iran: Pure and Applied Geophysics, 174(3), 793–833, doi: 10.1007/s00024-016-1435-4.
Ravaut, P., Carbon, D., Ritz, J. F., Bayer, R., and Philip, H., 1998, The Sohar Basin, Western Gulf of Oman: description and mechanisms of formation from seismic and gravity data: Marine and Petroleum Geology, 15, 359–377.
Regard, V., Hatzfeld, D., Molinaro, M., Aubourg, C., Bayer, R., Bellier, O., . . . , and Abbassi, M., 2010, The transition between Makran subduction and the Zagros collision: Recent advances in its structure and active deformation: Geological Society, London, Special Publications, 330(1), 43-64. doi:10.1144/sp330.4.
Talebian, M., and Jackson, J., 2004, A reappraisal of earthquake focal mechanisms and active shortening in the Zagros mountains of Iran: Geophysical Journal International, 156, 506–526.
Tatar, M., Hatzfeld, D., and Ghafory-Ashtiany, M., 2004, Tectonics of the Central Zagros (Iran) deduced from microearthquake seismicity: Geophysical Journal International, 156, 255–266.
Yaminifard, F., Sedghi, M. H., Gholamzadeh, A., Tatar, M., & Hessami, K. (2012). Active faulting of the southeastern-most Zagros (Iran): Microearthquake seismicity and crustal structure. Journal of Geodynamics, 55, 56-65. https://doi.org/10.1016/j.jog.2012.01.003
Vernant, P., Nilforoushan, F., Hatzfeld, D., Abbassi, M., Vigny, C., Masson, F., Nankali, H., Martinod, J., Ashtiani, A., Bayer, R., Tavakoli, F. and Chéry, J., 2004, Contemporary crustal deformation and plate kinematics in Middle East constrained by GPS measurements in Iran and Northern Oman: Geophysical Journal International, 157, 381-398.
Van de Lagemaat, S. H., Van Hinsbergen, D. J., Boschman, L. M., Kamp, P. J., and Spakman, W. 2018, Southwest Pacific absolute plate kinematic reconstruction reveals major Cenozoic Tonga-kermadec slab dragging. Tectonics, 37(8), 2647-2674. https://doi.org/10.1029/2017tc004901
Wallace, R. E., 1951, Geometry of shearing stress and relation to faulting: Journal of Geology, 59, 118-130.
Walpersdorf, A., Hatzfeld, D., Nankali, H., Tavakoli, F., and Nilforoushan, F., 2006,Difference in the GPS deformation pattern of north and central Zagros (Iran): Geophysical Journal International, 167, 1077–88.
White, R. S., and Ross, D. A., 1979, Tectonics of the Western Gulf of Oman: Journal of Geophysical Research, 84, 3479–3489.
Yamini-Fard, F., Hatzfeld, D., Farahbod, A. M., and Mokhtari, M, 2007, The diffuse transition between the Zagros continental collision and the Makran oceanic subduction (Iran): microearthquake seismicity and crustal structure: Geophysical Journal International, 170, 182–194.
Zarifi, Z., 2006, Unusual subduction zones: case studies in Colombia and Iran: PhD. thesis, University of Bergen.
Zarifi, Z., Nilfouroushan, F., & Raeesi, M. 2013, Crustal Stress Map of Iran: Insight From Seismic and Geodetic Computations. Pure and Applied Geophysics, 171(7), 1219-1236. doi:10.1007/s00024-013-0711-9
ZUR_RMT, ETH Zürich-Homepage (n.d.), Retrieved from http://seismo.ethz.ch/en/home/.