Moment Tensor Components with Their Corresponding Eigen Values and Eigen Vectors for Earthquakes Mw ≥ 6.0 in Northern and Southwestern of Pakistan

Shahzada Khurram, Perveiz Khalid

Abstract


Self-generated earthquake catalogue of Mw≥6.0 upto 300 km depth was prepared for the inversion of six components of moment tensor. Seismotectonic map was drawn with seismicity distribution. The stress map of Pakistan was generated through CASMO which described by the Anderson model (1951). The maximum horizontal stress (SHmax) acting in the compressional zone generates reverse faulting (RF) causes to form the three distressing mountainous range called Karakorum, Hindukush and Himalayan i-e SHmax>SHmin. In eastern side of Pakistan, minimum horizontal stress (SHmin) acting in the extensional zone produced normal fault (NF) i-e SHmax< SHmin. Focal mechanism was also drawn using source parameters of each event obtained by matlab codes. Stress tensor components were obtained using mathematical equations and out comes were written in the form of 3x3 matrix. All matrices have non trivial solutions and their solution sets were also evaluated in the form of eigen values and eigen vectors. Crustal thickness was displayed by thickness map. The maximum thickness of curst in northern Pakistan i-e 60-70 km whereas in southwestern region this varied from 20– 40 km all around.  This variation due to plate motion intensity and velocity of Indian and Eurasian plate collision.


Keywords


Eigen vector and eigen value; Crustal thickness; Seismotectonic; Stress orientation; Tensor components

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References


Aki, K., and Richards, P. G. (2002). Quantitative seismology, 2nd Ed. Melville, USA: University Science Books.

Anderson, E. M. (1951). The Dynamic of Faulting and Dyke Formation with Application to Britain. Edinburgh: Oliver and Boys.

Efthimios, N. Sokosa, J. Z. (2008). ISOLA a Fortran code and Matlab GUI to perform multiple-point source inversion of seismic data. Computers and Geosciences, 34(8), 967–977.

Kazmi, A. H., and Jan, M. Q. (1997). Geology and tectonics of Pakistan. Santa Ana: Graphic Publishers.

Khalid, P., Bajwa, A. A., Naeem, M., and Din, Z. U. (2016). Seismicity distribution and focal mechanism solution of major earthquakes of northern Pakistan. Acta Geodaetica et Geophysica, 51(3), 347-357.

Lisa, M., Khan, S. A., and Khwaja, A. A. (2004). Focal mechanism study of north Potwar deformed zone, Pakistan. Acta Seismologica Sinica, 17(3), 255-261.

Montone, P., Mariucci, M. T., Pondrelli, S., and Amato, A. (2004). An improved stress map for Italy and surrounding regions (central Mediterranean). Journal of Geophysical Research: Solid Earth, 109(B10), 1-22.

Pakiser, L. C., and Mooney, W. D. (1989). Geophysical framework of the continental United States. Geological Society of America, 172(1991), 523-539.

Pondrelli, S., Salimbeni, S., Ekström, G., Morelli, A., Gasperini, P., and Vannucci, G. (2006). The Italian CMT dataset from 1977 to the present. Physics of the Earth and Planetary Interiors, 159(3-4), 286-303.

Presti, D., Billi, A., Orecchio, B., Totaro, C., Faccenna, C., and Neri, G. (2013). Earthquake focal mechanisms, seismogenic stress, and seismotectonics of the Calabrian Arc, Italy. Tectonophysics, 602(2013), 153-175.

Sercombe, W. J., Pivnik, D. A., Wilson, W. P., Albertin, M. L., Beck, R. A., and Stratton, M. A. (1998). Wrench faulting in the northern Pakistan foreland. AAPG bulletin, 82(11), 2003-2030.

Treloar, P. J., Potts, G. J., Wheeler, J., and Rex, D. C. (1991). Structural evolution and asymmetric uplift of the Nanga Parbat syntaxis, Pakistan Himalya. Geologische Rundschau, 80(2), 411-428.

Wells, D. L., and 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.

Zoback, M. D., and Zoback, M. L. (1991). Tectonic stress field of North America and relative plate motions. Neotectonics of North America, 1(1991), 339-366.

Zoback, M. L., and Zoback, M. (1980). State of stress in the conterminous United States. Journal of Geophysical Research: Solid Earth, 85(B11), 6113-6156.




DOI: https://doi.org/10.17509/ajse.v1i2.34950

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