Tsunami earthquakes : vertical pop-up expulsion at the forefront of subduction megathrust
Published slip distribution models, based on geodetic, seismological and tsunami data, of the Mw 7.8, 2010 Mentawai tsunami earthquake offshore south-central Sumatra, suggest that the large tsunami wave was generated by a narrow swath of high seafloor uplift along the accretionary wedge front, imply...
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Science::Geology::Volcanoes and earthquakes Tsunami Earthquakes Seafloor Uplift Source |
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Science::Geology::Volcanoes and earthquakes Tsunami Earthquakes Seafloor Uplift Source Hananto, N. D. Leclerc, F. Li, L. Etchebes, M. Carton, H. Tapponnier, P. Qin, Y. Avianto, P. Singh, S.C. Wei, S. Tsunami earthquakes : vertical pop-up expulsion at the forefront of subduction megathrust |
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Published slip distribution models, based on geodetic, seismological and tsunami data, of the Mw 7.8, 2010 Mentawai tsunami earthquake offshore south-central Sumatra, suggest that the large tsunami wave was generated by a narrow swath of high seafloor uplift along the accretionary wedge front, implying higher vertical throw than that consistent with slip on the shallow-dipping megathrust. Here we present high-resolution seismic reflection profiles across the 2010 rupture zone that image the youngest deformation at the accretionary wedge front. The profiles reveal conjugate, steeply-dipping, active thrust faults that branch upwards from the megathrust and bound triangular pop-ups. The seismologically determined co-seismic slip (≥10 m) on the 6°-dipping decollement probably caused a comparable amount of upward expulsion of these ∼3 km–wide, flat-topped pop-ups. Co-seismic throw on the ≈60° dipping thrusts that bound the pop-up plateaus maximize the uplift of the seafloor and overlying water-column, providing an additional localised tsunami source. Tsunami simulations show that such combined deformation, i.e. the broad-scale seafloor displacement caused by slip on the megathrust and the localized 8–10 m seafloor uplift across a 6–9 km-wide pop-up belt involving up to three pop-ups, is able to reproduce the 2010 tsunami amplitude measured by a DART buoy, and observed run-up heights in the Mentawai Islands. This simple mechanism, observed in analogue sandbox shortening experiments, may thus efficiently generate the oversize waves that characterize Tsunami-Earthquakes. Systematic mapping of pop-ups along accretionary wedge fronts may help identify trench segments prone to produce the special class of seismic events that spawn exceptionally large tsunamis. |
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Asian School of the Environment |
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Asian School of the Environment Hananto, N. D. Leclerc, F. Li, L. Etchebes, M. Carton, H. Tapponnier, P. Qin, Y. Avianto, P. Singh, S.C. Wei, S. |
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Article |
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Hananto, N. D. Leclerc, F. Li, L. Etchebes, M. Carton, H. Tapponnier, P. Qin, Y. Avianto, P. Singh, S.C. Wei, S. |
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Hananto, N. D. |
| title |
Tsunami earthquakes : vertical pop-up expulsion at the forefront of subduction megathrust |
| title_short |
Tsunami earthquakes : vertical pop-up expulsion at the forefront of subduction megathrust |
| title_full |
Tsunami earthquakes : vertical pop-up expulsion at the forefront of subduction megathrust |
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Tsunami earthquakes : vertical pop-up expulsion at the forefront of subduction megathrust |
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Tsunami earthquakes : vertical pop-up expulsion at the forefront of subduction megathrust |
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tsunami earthquakes : vertical pop-up expulsion at the forefront of subduction megathrust |
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2020 |
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https://hdl.handle.net/10356/143160 |
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1681059032237867008 |
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sg-ntu-dr.10356-1431602020-09-26T21:36:00Z Tsunami earthquakes : vertical pop-up expulsion at the forefront of subduction megathrust Hananto, N. D. Leclerc, F. Li, L. Etchebes, M. Carton, H. Tapponnier, P. Qin, Y. Avianto, P. Singh, S.C. Wei, S. Asian School of the Environment Earth Observatory of Singapore Science::Geology::Volcanoes and earthquakes Tsunami Earthquakes Seafloor Uplift Source Published slip distribution models, based on geodetic, seismological and tsunami data, of the Mw 7.8, 2010 Mentawai tsunami earthquake offshore south-central Sumatra, suggest that the large tsunami wave was generated by a narrow swath of high seafloor uplift along the accretionary wedge front, implying higher vertical throw than that consistent with slip on the shallow-dipping megathrust. Here we present high-resolution seismic reflection profiles across the 2010 rupture zone that image the youngest deformation at the accretionary wedge front. The profiles reveal conjugate, steeply-dipping, active thrust faults that branch upwards from the megathrust and bound triangular pop-ups. The seismologically determined co-seismic slip (≥10 m) on the 6°-dipping decollement probably caused a comparable amount of upward expulsion of these ∼3 km–wide, flat-topped pop-ups. Co-seismic throw on the ≈60° dipping thrusts that bound the pop-up plateaus maximize the uplift of the seafloor and overlying water-column, providing an additional localised tsunami source. Tsunami simulations show that such combined deformation, i.e. the broad-scale seafloor displacement caused by slip on the megathrust and the localized 8–10 m seafloor uplift across a 6–9 km-wide pop-up belt involving up to three pop-ups, is able to reproduce the 2010 tsunami amplitude measured by a DART buoy, and observed run-up heights in the Mentawai Islands. This simple mechanism, observed in analogue sandbox shortening experiments, may thus efficiently generate the oversize waves that characterize Tsunami-Earthquakes. Systematic mapping of pop-ups along accretionary wedge fronts may help identify trench segments prone to produce the special class of seismic events that spawn exceptionally large tsunamis. Published version The Mega-Tera experiment is an international project between the Earth Observatory of Singapore (EOS), the Indonesian Institute of Sciences, Schmidt Ocean Institute (SOI) and the Institut de Physique du Globe de Paris. SOI provided the R/V Falkorfor the experiment and EOS funded the renting of the seismic equipment. The French participation was funded by IPG Paris and INSU-CNRS. This study is also supported by Guangdong Province Introduced In-novative R&D Team of Geological Processes and Natural Disasters around the South China Sea (2016ZT06N331), the National key Research and Development Program of China (2017YFC1500101) and National Natural Science Foundation of China (41976197). We would like to thank the Captain and the team of R/V Falkorfor their help and support during the experiment. We thank B. Be-unaiche, E. Duyck and C. Deplus for discussions and help with backscatter data processing. We thank G. Lamarche for com-ments on an earlier version of the manuscript, as well as two anonymous reviewers and editor J.P. Avouac for their construc-tive comments on this version, and E. Hill for discussions. Raw and processed EM302 (multibeam echo-sounder) data are avail-able at http://www.marine -geo .org /tools /new _search /index .php ?&output _info _all =on &entry _id =FK150523. Seismic reflection data are available upon request. SRTM and GEBCO data were accessed in October 2014 here: http://www2 .jpl .nasa .gov /srtmand http://www.gebco .net. This is Earth Observatory of Singapore publication number 287. 2020-08-06T08:50:02Z 2020-08-06T08:50:02Z 2020 Journal Article Hananto, N. D., Leclerc, F., Li, L., Etchebes, M., Carton, H., Tapponnier, P., ... Wei, S. (2020). Tsunami earthquakes : vertical pop-up expulsion at the forefront of subduction megathrust. Earth and Planetary Science Letters, 538, 116197. doi:10.1016/j.epsl.2020.116197 0012-821X https://hdl.handle.net/10356/143160 10.1016/j.epsl.2020.116197 2-s2.0-85080975358 538 116197 en Earth and Planetary Science Letters © 2020 The Authors. Published by Elsevier B.V. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/). application/pdf |