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Bowman & Dewey 1991
Bowman, J.R. and Dewey, J.W. (1991). Relocation of teleseismically recorded earthquakes near Tennant Creek, Australia: Implications for midplate seismogenesis. Journal of Geophysical Research 96: doi: 10.1029/91JB00923. issn: 0148-0227.

The three MS>6 Tennant Creek, Australia, earthquakes of January 22, 1988, were preceded by small and moderate earthquakes in 1986 and 1987. We have used the method of joint hypocenter determination to estimate the positions of teleseismically recorded 1986-1987 earthquakes, the 1988 main shocks, and aftershocks with respect to a system of surface fault scarps. The 1986-1987 shocks and the 1988 main shocks nucleated near the center of the zone of surface scarps, where fault-segment boundaries at depth are implied by complexities in the distribution of scarps at the surface. This suggests that the fault segments that ruptured in 1988 were already in existence in 1986-1987, which is consistent with the hypothesis that strong midplate earthquakes occur on preexisting faults. The redetermined 1986-1987 hypocenters are, however, also consistent with the hypothesis that midplate seismicity is localized by stress concentration due to bulk rheological heterogeneity of the crust, because they are situated on a regionally prominent gravity anomaly. The teleseismically recorded seismicity of the Tennant Creek region prior to the 1988 main shocks has the temporal pattern of a swarm followed by a lull. The concentration of swarm earthquakes between two scarps is consistent with models in which precursory-swarm earthquakes correspond to faulting that is spatially distinct from the site of primary main-shock faulting.

The time interval between swarm and main shocks is similar to intervals between intermediate-term precursory swarms and main shocks in regions that have much higher rates of tectonic loading; this similarity suggests that the time intervals between precursory swarms and subsequent main shocks are not strongly influenced by the rate of tectonic loading, but are determined primarily by time dependence of the failure process. The spatial distribution of teleseismically recorded aftershocks is in most respects like that of aftershocks recorded by a local network of portable stations in the half year following the main shocks. The set of teleseismically recorded aftershocks, like the set of locally recorded aftershocks, includes some events that occurred well away from the causative faults of the main shocks. At the length scale of the 1988 main-shock rupture, the distribution of aftershocks occurring more than one year after the main shocks is not representative of the distribution of earlier aftershocks. ¿American Geophysical Union 1991

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Abstract

Keywords
Seismology, Seismicity and seismotectonics, Seismology, Earthquake dynamics and mechanics
Journal
Journal of Geophysical Research
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American Geophysical Union
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