Overlapping spreading centres: new accretion geometry on the East Pacific Rise (original) (raw)

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• Published: 03 March 1983

Nature volume 302, pages 55–58 (1983) Cite this article

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Abstract

In a detailed Seabeam investigation of the East Pacific Rise (EPR) from 8°N to 18°N, a new kind of volcano-tectonic geometry associated with fast-spreading centres has been discovered (Figs 1, 2). At several locations along the rise axis the neovolcanic zone is discontinuous, and is laterally offset a short distance (1–15 km). In contrast to a classic ridge–transform–ridge plate boundary, however, the offset ridge terminations overlap each other by a distance approximately equal to or greater than the offset. They curve sharply towards each other and often merge into one another along strike. Separating the overlapping spreading centres (OSCs) is a closed contour depression up to several hundred metres deep which is sub-parallel to the trend of the OSCs. The region between the OSCs is a complex zone of both shear and rotational deformation with no obvious transform parallel structures. Based on wax model studies of spreading centres, we suggest here that transform faults fail to develop at fast spreading centres where the lateral offsets are small (<15 km), because the lithosphere is too thin and weak to maintain a classic, rigid plate spreading centre–transform fault pattern. The OSC geometry is unstable and evolves rapidly. One of the two OSCs prevails while the other is abandoned. A significant area of sea floor created at fast spreading rates may bear the imprint of this newly observed process.

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Authors and Affiliations

1. Department of Geological Sciences and Marine Science Institute, University of California at Santa Barbara, California, 93106, USA
   Ken C. Macdonald
2. Graduate School of Oceanography, University of Rhode Island, Narragansett, Rhode Island, 02881, USA
   P. J. Fox

Authors

1. Ken C. Macdonald
2. P. J. Fox

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Macdonald, K., Fox, P. Overlapping spreading centres: new accretion geometry on the East Pacific Rise.Nature 302, 55–58 (1983). https://doi.org/10.1038/302055a0

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• Received: 05 October 1982
• Accepted: 04 January 1983
• Issue date: 03 March 1983
• DOI: https://doi.org/10.1038/302055a0

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