A Geophysical Study of the Cadell Fault Scarp for Earthquake Hazard Assessment in Southeast Australia
Abstract
The historical record of seismicity in Australia is too short (less than 150 years) to confidently define seismic source zones, particularly the recurrence rates for large, potentially damaging earthquakes, and this leads to uncertainty in hazard assessments. One way to extend this record is to search for evidence of earthquakes in the landscape, including Quaternary fault scarps, tilt blocks and disruptions to drainage patterns. A recent Geoscience Australia compilation of evidence of Quaternary tectonics identified over one hundred examples of potentially recent structures in Australia, testifying to the fact that a greater hazard may exist from large earthquakes than is evident from the recorded history alone. Most of these structures have not been studied in detail and have not been dated, so the recurrence rate for damaging events is unknown. One example of recent tectonic activity lies on the Victoria-New South Wales border, where geologically recent uplift has resulted in the formation of the Cadell Fault Scarp, damming Australia's largest river, the Murray River, and diverting its course. The scarp extends along a north-south strike for at least 50 km and reaches a maximum height of about 13 metres. The scarp displaces sands and clays of the Murray Basin sediments which overlie Palaeozoic bedrock at a depth of 100 to 250 m. There is evidence that the river system has eroded the scarp and displaced the topographic expression away from the location where the fault, or faults, meets the surface. Thus, to locate potential sites for trenching which intersect the faults, Geoscience Australia acquired ground-penetrating radar, resistivity and multi-channel high-resolution seismic reflection and refraction data along traverses across the scarp. The seismic data were acquired using an IVI T15000 MiniVib vibrator operating in p-wave mode, and a 24-channel Stratavisor acquisition system. Four 10-second sweeps, with a frequency range of 10-240 Hz, were carried out every 10 m at each receiver location; the receivers comprised groups of four vertical component 10 Hz geophones. Additional sources were located at offsets of up to a kilometre to record refraction data from the basement. A hammer source was also used for comparison. As the resolution of the seismic data precludes imaging at very shallow depths, GPR and resistivity data were acquired at selected locations to sample the upper 3 metres. The data are currently being processed, and a synthesis of recent geophysical and geological investigations will be presented to describe the architecture of the Cadell Fault Scarp. The results will be used to constrain earthquake hazard assessments for the region and for south east Australia in general.
- Publication:
-
AGU Fall Meeting Abstracts
- Pub Date:
- December 2004
- Bibcode:
- 2004AGUFM.S53C..03C
- Keywords:
-
- 7221 Paleoseismology;
- 7223 Seismic hazard assessment and prediction;
- 7230 Seismicity and seismotectonics;
- 8107 Continental neotectonics