Geoscience Reference
In-Depth Information
Sloan, R. A., J. A. Jackson, D. McKenzie, and K. Priestley (2011). Earthquake depth
distributions in central Asia, and their relations with lithospheric thickness, shortening
and extension.
Geophysical Journal International
, 185, 1-29.
Smith, D. E., and R. Kolenkiewicz (1990). Tectonic motion and deformation from satellite
laser ranging to LAGEOS.
Journal of Geophysical Research
, 95, 22,013-22,041.
Somerville, P., P. Quijada, H. K. Thio, M. Sandiford, and M. Quigley (2008). Contribution
of identified active faults to near fault seismic hazard in the Flinders Ranges.
Australian
Earthquake Engineering Society Meeting
, Paper 45.
Somerville, P., R. W. Graves, N. F. Collins, S. G. Song, and S. Ni (2010).
Ground Motion
Models for Australian Earthquakes
. Final report to Geoscience Australia, 30 March
2010, URS Corporation, Pasadena, CA.
Stein, R. S., A. A. Barka, and J. H. Dieterich (1997). Progressive failure on the North
Anatolian fault since 1939 by earthquake stress triggering.
Geophysical Journal Inter-
national
, 128, 594-604.
Stein, S., and M. Liu (2009). Long aftershock sequences within continents and implications
for earthquake hazard assessment.
Nature
, 462, 87-89.
Stein, S. S., S. Cloentingh, N. H. Sleep, and R. Wortel (1989). Passive margin earthquakes,
stresses and rheology. In
Earthquakes at North American Passive Margins: Neotec-
tonics and Postglacial Rebound,
ed. S. Gregersen and P. Basham. NATO ASI Series
C, Boston, MA: Kluwer Academic, pp. 231-259.
Stirling, M., D. Rhoades, and K. Berryman (2002). Comparison of earthquake scaling
relations derived from data of the instrumental and preinstrumental era.
Bulletin of the
Seismological Society of America
92, 812-830.
Stuart, W. D., T. G. Hildenbrand, and R. W. Simpson (1997). Stressing the New Madrid
Seismic Zone by a lower crustal detachment fault.
Journal of Geophysical Research
,
102, 27623-27633.
Sutton, D. J., K. F. McCue, and A. Bugeja (1977). Seismicity of the southeast of South
Australia.
Australian Journal of Earth Sciences
, 24, 357-364.
Sykes, L. R. (1978). Intraplate seismicity, reactivation of preexisting zones of weak-
ness, alkaline magmatism, and other tectonism postdating continental fragmentation.
Reviews of Geophysics and Space Physics
, 16, 621-688.
Talwani, P. (1988). The intersection model for intraplate earthquakes.
Seismological
Research Letters
, 59, 305-310.
Talwani, P. (1999). Fault geometry and earthquakes in continental interiors.
Tectonophysics
,
305, 371-379.
Talwani, P., and K. Rajendran (1991). Some seismological and geometric features of
intraplate earthquakes.
Tectonophysics
, 186, 19-41.
Talwani, P., and W. T. Schaeffer (2001). Recurrence rates of large earthquakes in the
South Carolina coastal plain based on paleoliquefaction data.
Journal of Geophysical
Research
, 106, 6621-6642.
Tomkins, K. M., G. S. Humphreys, M. T. Wilkinson,
et al
. (2007). Contemporary versus
long-term denudation along a passive plate margin: the role of extreme events.
Earth
Surface Processes and Landforms
, 32, 1013-1031.
Tregonning, P. (2003). Is the Australian Plate deforming? A space geodetic perspective.
In
Evolution and Dynamics of the Australian Plate
ed. R. R. Hillis, and D. Muller.
Geological Society of Australia Special Publication 22 and Geological Society of
America Special Publication 372, pp. 41-48.
Tuttle, M. P., E. S. Schweig, J. D. Sims,
et al
. (2002). The earthquake potential of the New
Madrid seismic zone.
Bulletin of the Seismological Society of America
, 92, 2080-2089.
