Seismic Structure of the Southern East Pacific Rise
- 22 January 1993
- journal article
- other
- Published by American Association for the Advancement of Science (AAAS) in Science
- Vol. 259 (5094) , 499-503
- https://doi.org/10.1126/science.259.5094.499
Abstract
Seismic data from the ultrafast-spreading (150 to 162 millimeters per year) southern East Pacific Rise show that the rise axis is underlain by a thin (less than 200 meters thick) extrusive volcanic layer (seismic layer 2A) that thickens rapidly off axis. Also beneath the rise axis is a narrow (less than 1 kilometer wide) melt sill that is in some places less than 1000 meters below the sea floor. The small dimensions of this molten body indicate that magma chamber size does not depend strongly on spreading rate as predicted by many ridge-crest thermal models. However, the shallow depth of this body is consistent with an inverse correlation between magma chamber depth and spreading rate. These observations indicate that the paradigm of ridge crest magma chambers as small, sill-like, midcrustal bodies is applicable to a wide range of intermediate- and fast-spreading ridges.Keywords
This publication has 23 references indexed in Scilit:
- The Seismic Attenuation Structure of a Fast-Spreading Mid-Ocean RidgeScience, 1992
- Structure of young upper crust at the East Pacific Rise near 9°30'NGeophysical Research Letters, 1992
- Relationship between spreading rate and the seismic structure of mid-ocean ridgesNature, 1992
- The three-dimensional seismic velocity structure of the East Pacific Rise near latitude 9° 30′ NNature, 1990
- Seismic images of a magma chamber beneath the Lau Basin back-arc spreading centreNature, 1990
- Evidence for a smaller magma chamber beneath the East Pacific Rise at 9°30′ NNature, 1990
- Tomographic image of the magma chamber at 12°50' N on the East Pacific RiseNature, 1989
- Multi-channel seismic imaging of a crustal magma chamber along the East Pacific RiseNature, 1987
- Submersible observations at the axis of the ultra-fast-spreading East Pacific Rise (17°30′ to 21°30′S)Earth and Planetary Science Letters, 1985
- Lava flow layer‐East Pacific RiseGeophysical Research Letters, 1982