Persistent elastic behavior above a megathrust rupture patch: Nias island, West Sumatra

We quantify fore‐arc deformation using fossil reefs to test the assumption commonly made in seismic cycle models that anelastic deformation of the fore arc is negligible. Elevated coral microatolls, paleoreef flats, and chenier plains show that the Sumatran outer arc island of Nias has experienced a...

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Bibliographic Details
Published in:Journal of Geophysical Research. B. Solid Earth 2008-12, Vol.113 (B12), p.n/a
Main Authors: Briggs, Richard W., Sieh, Kerry, Amidon, William H., Galetzka, John, Prayudi, Dudi, Suprihanto, Imam, Sastra, Nugraha, Suwargadi, Bambang, Natawidjaja, Danny, Farr, Thomas G.
Format: Article
Language:English
Subjects:
Earth sciences
Earth, ocean, space
elastic
Exact sciences and technology
fore arc
Marine
subduction
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Summary:We quantify fore‐arc deformation using fossil reefs to test the assumption commonly made in seismic cycle models that anelastic deformation of the fore arc is negligible. Elevated coral microatolls, paleoreef flats, and chenier plains show that the Sumatran outer arc island of Nias has experienced a complex pattern of relatively slow long‐term uplift and subsidence during the Holocene epoch. This same island rose up to 2.9 m during the Mw 8.7 Sunda megathrust rupture in 2005. The mismatch between the 2005 and Holocene uplift patterns, along with the overall low rates of Holocene deformation, reflects the dominance of elastic strain accumulation and release along this section of the Sunda outer arc high and the relatively subordinate role of upper plate deformation in accommodating long‐term plate convergence. The fraction of 2005 uplift that will be retained permanently is generally
ISSN:0148-0227
2156-2202
DOI:10.1029/2008JB005684