Low seismic-wave speeds and enhanced fluid pressure beneath the Southern Alps of New Zealand
- 1School of Earth Sciences, Victoria University of Wellington, P.O. Box 600, Wellington, New Zealand
- 2Department of Earth Sciences, University of Southern California, Los Angeles, California 90089, USA
- 3School of Earth Sciences, Victoria University of Wellington, Wellington, New Zealand
- 4Institute of Geological and Nuclear Sciences, Lower Hutt, New Zealand
Abstract
A region of low seismic-wave speed is detected beneath the central Southern Alps of New Zealand on the basis of traveltime delays for both wide-angle reflections and P-waves from teleseismic events. Respective ray paths for these P-waves are mutually perpendicular, ruling out anisotropy as a cause of the delays. The low-speed region measures about 25 km by 40 km, has a speed reduction of 6%–10%, and is largely above the downward projection of the Alpine fault. The most likely cause of the low-speed zone is high fluid pressure due to excess water being released by prograde and strain-induced metamorphism into the lower crust. Because enhanced fluid pressure reduces the work required for deformation, the existence of the central Southern Alps low-speed zone implies that this part of the Australian-Pacific plate boundary is relatively weak.
Footnotes
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↵*Present address: Department of Earth Sciences, University of Western Australia, Perth, Australia.
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- Accepted April 24, 2001.
- Received November 2, 2000.
- Revision received April 10, 2001.
- Geological Society of America
