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Geophysical process of the Macquarie Ridge earthquake of May 23, 1989

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Title Geophysical process of the Macquarie Ridge earthquake of May 23, 1989
Names Braunmiller, Jochen (creator)
Nabelek, John L. (creator)
Date Issued 1990 (iso8601)
Abstract Broadband body waves recorded at 15 digital
seismic stations worldwide are used to study the rupture
process of the May 23, 1989 Macquarie Ridge earthquake.
The centroidal solution (strike 211°, dip 86°, rake 180°, and
depth of 10 km below the seafloor) indicates shallow rupture
with pure right-lateral strike-slip motion along the Pacific-Australia
plate boundary, in agreement with motion predicted
by plate tectonic models. The total seismic moment is
13.4x10²⁰ Nm, 80% of which was released in the first 24 s of
the rupture process. Modeling favors a bilaterally propagating
rupture with slightly different dip and rake for the northward
and southward fault segments and similar moment release
along both directions. The estimated fault length is quite short,
about 90 km, and the derived stress drop of 180 bar and average
displacement of 17 m are unusually high. The bathymetry
in the epicentral region shows topographic segmentation of the
ridge, possibly indicating fault segmentation which confines
ruptures to short segments.
Genre Article
Identifier Braunmiller, J., and Nakelek, J (1990), Geophysical process of the Macquarie Ridge earthquake of May 23, 1989. Geophys. Res. Lett., 17, 7, 1017-1020.

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