The global geodynamic effect of the Macquarie Ridge earthquake
Besides generating seismic waves, which eventually dissipate, an earthquake also generates a static displacement field everywhere within the Earth. This global displacement field rearranges the Earth's mass distribution, causing the Earth's rotational properties and gravitational field to change. The size of these changes depends, in general, upon the size of the earthquake. The Macquarie Ridge earthquake of May 23, 1989 is considered to be the largest earthquake to have occurred since the 1977 Sumba and Tonga events. As such, the coseismic effect of this earthquake upon the Earth's length-of-day, polar motion, and low-degree harmonic coefficients of the gravitational field are computed. It is found that this earthquake should have caused the length-of-day to decrease by 0.06 {mu}sec, the position of the mean rotation pole to shift 0.11 milli-arcsec towards 323{degree}E longitude, and selected degree l = 2-5 gravitational field coefficients to change by about 1 part in 10{sup 13}. These changes are all smaller than can be detected by current observational techniques. However, changes of this size could perhaps be detected in the future with the implementation of proposed improvements to the techniques of monitoring the Earth's rotation, and (especially for the low-degree gravitational field coefficients) with the placement of GPS receivers onboard orbiting spacecraft.
- OSTI ID:
- 6148332
- Journal Information:
- Geophysical Research Letters (American Geophysical Union); (USA), Vol. 17:7; ISSN 0094-8276
- Country of Publication:
- United States
- Language:
- English
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Related Subjects
EARTH PLANET
MASS DISTRIBUTION
EARTHQUAKES
SEISMIC EFFECTS
NEW ZEALAND
EARTHQUAKE MAGNITUDE
GRAVITATIONAL FIELDS
IMPLEMENTATION
MEASURING INSTRUMENTS
MODIFICATIONS
MONITORING
ROTATION
SATELLITES
AUSTRALASIA
DISTRIBUTION
MOTION
PLANETS
SEISMIC EVENTS
SPATIAL DISTRIBUTION
580000* - Geosciences