Geoscience Reference
In-Depth Information
Gowd, T. N, Srirama Rao, S. V., and Gaur, V. K. (1992). Tectonic stress field in the Indian
subcontinent.
Journal of Geophysical Research
, 97, 11,879-11,888.
Gupta, H. K., Harinarayana, T., Kousalya, M.,
et al
. (2001). Bhuj earthquake of 26 January,
2001,
Journal of the Geological Society of India
, 57, 275-278.
John, T., and Schenk, V. (2006). Interrelations between intermediate-depth earthquakes and
fluid flow within subducting oceanic plates: constraints from eclogite facies pseudo-
tachylytes.
Geology
, 34, 557-560.
Johnston, A. C. (1994). Seismotectonic interpretations and conclusions from the stable con-
tinental regions. In
The Earthquakes of Stable Continental Regions:Vol. 1, Assessment
of Large Earthquake Potential
, ed. J. F. Schneider. Palo Alto, CA: Electric Power and
Research Institute, pp. 20-40.
Johnston, A. C. (1996). Seismic moment assessment of earthquakes in stable continental
regions.
Geophysical Journal International
, 124, 381-414.
Karmalkar, N. R., Griffin, W. L., and O'Reilly, S. Y. (2000). Ultramafic xenoliths from
Kutch, northwest India: plume related mantle samples?
International Geological
Review
, 42, 416-444.
Karmalkar, N. R., Kale, M. G., Duraiswami, R. A., and Jonalgadda, M. (2008). Magma
underplating and storage in the crust-building process beneath the Kutch region, NW
India.
Current Science
, 94, 1582-1588.
Kato, A., Kurashimo, E., Igarashi, T.,
et al
. (2009). Reactivation of ancient rift systems
triggers devastating intraplate earthquakes.
Geophysical Research Letters
, 36, L05301,
1-5, doi: 10.1029/2008GL036450.
Kovach, R. L., Grijalva, K., and Nur, A. (2010). Earthquakes and civilizations of the Indus
valley: a challenge for archaeoseismology. In
Ancient Earthquakes
, ed. M Sintubin
et al.
Geological Society of America Special Paper 471, pp. 119-127.
Kruger, F., Scherbaum, F., Rosa, J. W. C.,
et al
. (2002). Crustal and upper mantle structure
in the Amazon region (Brazil) determined with broadband mobile stations.
Journal of
Geophysical Research
, 107(B10), ESE 1711-1712.
Kumar, P., Tewari, H. C., and Khandekar, G. (2000). An anomalous high velocity layer at
shallow crustal depths in the Narmada zone, India.
Geophysical Journal International
,
142, 95-107.
Liu, L., and Zoback, M. D. (1997). Lithospheric strength and intraplate seismicity in the
New Madrid seismic zone.
Tectonics
, 16(4), 585-595.
Malik, J. N., Morino, M., Mishra, P., Bhuiyan, C., and Kaneko, F. (2008). First active fault
exposure identified along Kachchh mainland fault: evidence from trench extraction
near Lodai village, Gujarat, western India.
Journal of the Geological Society of India
,
71, 201-208.
Mandal, P. (2008). Stress rotation in the Kachchh rift zone, Gujarat, India.
Pure and Applied
Geophysics
, 165, 1307-1324.
Mandal, P. (2009). Crustal shear wave splitting in the epicentral zone of the 2001 M
w
7.7
Bhuj earthquake, Gujarat, India.
Journal of Geodynamics
, 47, 246-258.
Mandal, P. (2010). Crustal and lithospheric thinning beneath the seismogenic Kachchh rift
zone, Gujarat (India): its implications toward the generation of the 2001 Bhuj earth-
quake sequences.
Journal of Asian Earth Sciences
, doi. 10.1016/j.jseaes.2010.08.012.
Mandal, P. (2011). Upper mantle seismic anisotropy in the intra-continental Kachchh rift
zone, Gujarat, India.
Tectonophysics
, 509, 81-92.
Mandal, P. (2012a). Passive-source seismic imaging of the crust and upper mantle beneath
the 2001 M
w
7.7 Bhuj earthquake region, Gujarat, India.
Bulletin of the Seismological
Society of America
, 102, 252-266.