Collot Jean Yves, MarcaillouB., Sage F., Michaud F., Agudelo W., Charvis Philippe, Graindorge D., Gutscher M.A., Spence G. (2004). Are rupture zone limits of great subduction earthquakes controlled by upper plate structures ? : evidence from multichannel seismic reflection data acquired across the northern Ecuador - southwest Colombia margin. Journal of Geophysical Reasearch, 109, p. 1-14. ISSN 0148-0227.
Titre du document
Are rupture zone limits of great subduction earthquakes controlled by upper plate structures ? : evidence from multichannel seismic reflection data acquired across the northern Ecuador - southwest Colombia margin
Année de publication
2004
Auteurs
Collot Jean Yves, MarcaillouB., Sage F., Michaud F., Agudelo W., Charvis Philippe, Graindorge D., Gutscher M.A., Spence G.
Source
Journal of Geophysical Reasearch, 2004,
109, p. 1-14 ISSN 0148-0227
Subduction of the Nazca plate beneath the Ecuador Colombia margin has produced four megathrust earthquakes during the last century. The 500 km long rupture zone of the 1906 (Mw = 8.8) event was partially reactivated by three thrust events, in 1942 (Mw = 7.8), 1958 (Mw = 7.7), and 1979 (Mw = 8.2), whose rupture zones abut one another. Multichannel seismic reflection and bathymetric data acquired during the SISTEUR cruise show evidence that the margin wedge is segmented by transverse crustal faults that potentially correlate with the limits of the earthquake coseismic slip zones. The Paleogene Neogene Jama Quininde and Esmeraldas crustal faults define a 200 km long margin crustal block that coincides with the 1942 earthquake rupture zone. Subduction of the buoyant Carnegie Ridge is inferred to partially lock the plate interface along central Ecuador. However, coseismic slip during the 1942 and 1906 earthquakes may have terminated against the subducted northern flank of the ridge. We report on a newly identified Manglares crustal fault that cuts transversally through the margin wedge and correlates with the limit between the 1958 and 1979 rupture zones. During the earthquake cycle the fault is associated with high stress concentration on the plate interface. An outer basement high, which bounds the margin seaward of the 1958 rupture zone, may act as a deformable buttress to seaward propagation of coseismic slip along a megathrust splay fault. Coseismic uplift of the basement high is interpreted as the cause for the 1958 tsunami. We propose a model of weak transverse faults which reduce coupling between adjacent margin segments, together with a splay fault and an asperity along the plate interface as controlling the seismogenic rupture of the 1958 earthquake.
Plan de classement
Tectonique [064TECTO]
;
Sismologie [066SISMO]
Descripteurs
SEISME ; SUBDUCTION ; MARGE CONTINENTALE ACTIVE ; FAILLE ; BATHYMETRIE ; SISMIQUE A REFLEXION ; PROFIL SISMIQUE ; VARIATION PLURIANNUELLE ; MODELISATION
Description Géographique
EQUATEUR ; COLOMBIE
Localisation
Fonds IRD [F B010034369] ;
Bondy
;
Montpellier (Centre IRD)
;
Quito
Identifiant IRD
fdi:010034369
