Evidence from EN-Echelon Cross-Grain Ridges for Tensional Cracks in the Pacific Plate

Citation:
Winterer, EL, Sandwell DT.  1987.  Evidence from EN-Echelon Cross-Grain Ridges for Tensional Cracks in the Pacific Plate. Nature. 329:534-537.

Date Published:

Oct

Abstract:

Sea-floor topography in the Pacific is mainly aligned with original spreading directions1, but is overprinted by alignments created by mid-plate processes. Spreading produces abyssal hills and fracture zones, and mid-plate volcanism generates seamounts, isolated or in chains. A different category of topography, the 'Cross-grain', discovered in geoid-height data collected by the Seasat radar altimeter2, comprises linear troughs and swells spaced ~200 km apart, oblique to fracture zones and abyssal hills but parallel to the Hawaiian chain. Three models have been proposed for the Cross-grain: small-scale convection, organized into longitudinal rolls by the shear of the Pacific Plate2; compressive buckling3; and lithospheric boudinage resulting from plate-wide tensile stresses4,5. None of the previously available data ruled out any of these models. Here we report multi-beam bathymetric data revealing long, narrow en-echelon ridges along the Cross-grain, interpreted as evidence of tension cracks in the Pacific plate.

Notes:

n/a

Website

DOI:

10.1038/329534a0