Plate boundary reorganization at a large-offset, rapidly propagating rift
Plate boundary reorganization at a large-offset, rapidly propagating rift
THE existence of rapidly spinning microplates along the southern East Pacific Rise has been documented by geophysical swath-mapping surveys1–6, and their evolution has been successfully described by an edge-driven kinematic model7. But the mechanism by which such microplates originate remains unknown. Proposed mechanisms1–10 have generally involved rift propagation11, possibly driven by hotspots or changes in direction of sea-floor spreading. Here we present geophysical data collected over the Earth's fastest spreading centre, the Pacific–Nazca ridge between the Easter and Juan Fernandez microplates (Fig. 1), which reveal a large-offset propagating rift presently reorganizing the plate boundary geometry. A recent episode of rapid 'duelling' propagation of the historically failing spreading centre in this system has created a 120 120 km overlap zone between dual active spreading centres, which may be the initial stage of formation of a new microplate.
167-170
Hey, R.N.
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Johnson, P.D.
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Martinez, F.
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Korenaga, J.
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Somers, M.L.
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Huggett, Q.J.
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Le Bas, T.P.
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Rusby, R.I.
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Naar, D.F.
44035d5a-c915-4881-ae6f-e423cdf11963
9 November 1995
Hey, R.N.
fcf10342-2db3-4243-b459-b07ed908eb9e
Johnson, P.D.
6190cf22-3b50-4ec5-9658-0efa0d4040b9
Martinez, F.
15b6db52-7951-4b16-b3ac-ba0a8ec1699b
Korenaga, J.
2db559fe-b01c-4886-bcea-8bc221db23a9
Somers, M.L.
87b20d95-e919-440e-9400-f963a083a638
Huggett, Q.J.
58d7a184-bcdc-4ae5-901d-8bb9f2d737fc
Le Bas, T.P.
f0dbad80-bb38-412c-be77-b8b9faef1854
Rusby, R.I.
24a0064c-f97f-4f6a-b547-0b18203b80dc
Naar, D.F.
44035d5a-c915-4881-ae6f-e423cdf11963
Hey, R.N., Johnson, P.D., Martinez, F., Korenaga, J., Somers, M.L., Huggett, Q.J., Le Bas, T.P., Rusby, R.I. and Naar, D.F.
(1995)
Plate boundary reorganization at a large-offset, rapidly propagating rift.
Nature, 378 (6553), .
(doi:10.1038/378167a0).
Abstract
THE existence of rapidly spinning microplates along the southern East Pacific Rise has been documented by geophysical swath-mapping surveys1–6, and their evolution has been successfully described by an edge-driven kinematic model7. But the mechanism by which such microplates originate remains unknown. Proposed mechanisms1–10 have generally involved rift propagation11, possibly driven by hotspots or changes in direction of sea-floor spreading. Here we present geophysical data collected over the Earth's fastest spreading centre, the Pacific–Nazca ridge between the Easter and Juan Fernandez microplates (Fig. 1), which reveal a large-offset propagating rift presently reorganizing the plate boundary geometry. A recent episode of rapid 'duelling' propagation of the historically failing spreading centre in this system has created a 120 120 km overlap zone between dual active spreading centres, which may be the initial stage of formation of a new microplate.
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Published date: 9 November 1995
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Local EPrints ID: 50829
URI: http://eprints.soton.ac.uk/id/eprint/50829
ISSN: 0028-0836
PURE UUID: 202ac9e1-0031-43c1-bc6f-c29b1655982c
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Date deposited: 02 Apr 2008
Last modified: 15 Mar 2024 10:12
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Author:
R.N. Hey
Author:
P.D. Johnson
Author:
F. Martinez
Author:
J. Korenaga
Author:
M.L. Somers
Author:
Q.J. Huggett
Author:
T.P. Le Bas
Author:
R.I. Rusby
Author:
D.F. Naar
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