Pacific Plate motion and undulations in geoid and bathymetry

Details Pacific Plate motion and undulations in geoid and bathymetry Pacific Plate motion and undulations in geoid and bathymetry

May 1996

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1996e%26psl.140...53w&link_type=abstract

Earth and Planetary Science Letters, vol. 140, Issue 1-4, pp.53-66

Computer Science

15

Pacific Plate, Gravity Anomalies, Bathymetry, Geoid, Plate Rotation, Elsevier: Pacific Plate, Gravity Anomalies, Bathymetry, Geoid, Plate Rotation

Scientific paper

Previous studies have shown that the Pacific geoid and gravity fields exhibit lineated anomalies, trending approximately in the direction of absolute plate motion over the underlying mantle. Because the undulations obliquely cross fracture zones they have often been attributed a convective origin. Recently, lithospheric boudinage caused by diffuse extension has been proposed as a possible mechanism. We have examined the undulation in the free-air anomalies, geoid and bathymetry over a portion of the Pacific Plate to determine quantitatively how the undulations are related to plate motion. We compare the observed data to an axisymmetric, sinusoidal undulation defined in an arbitrary frame of reference; in particular, we seek the north pole of this reference frame that maximizes the correlation between data and model. Poles that are close to the Pacific hotspot pole represent copolar undulations possibly related to plate motion. The distance between the best-fitting poles and the hotspot pole is determined as a function of undulation wavelength and reveals several minima (with distance < 10°) for discrete geoid wavebands centered on wavelengths of 160 km, 225 km, 287 km, 400 km, 660 km, 850 km, 1000 km and 1400 km. Bathymetry data have copolar bathymetric expressions as well, giving an implied admittance of 2-3 m/km. The most co-polar geoid/bathymetry undulations (with poles within 2-3° of the average Pacific Euler pole) have wavelengths of ~ 280 km and ~ 1050 km, respectively. The latter could have a convective origin or be related to the spacing of hotspot swells. The former may reflect lithospheric boudinage formed in response to diffuse extension, but could also have a dynamic origin since flexural dampening may only have attenuated the bathymetric amplitude by 50% or less. Radiometric dating of volcanic ridges found in the troughs of prominent gravity lineations gives ages that correlate well with documented changes in Pacific and Indo/Australian Plate motion, suggesting the ridges formed in response to intermittent plate boundary stresses and not as a direct consequence of small-scale convection or diffuse extension.

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