Signature of fault zone deformation in near-surface soil visible in shear wave seismic reflections

Small‐throw seismogenic fault segments hidden in the Holocene sediments are crucial but difficult targets in seismic exploration. We report here the detection of the deformation pattern and a concealed fault segment in the unconsolidated sediments at Vila Franca Xira, Portugal, through identificatio...

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Bibliographic Details
Published in:	Geophysical research letters Vol. 40; no. 6; pp. 1074 - 1078
Main Authors:	Ghose, Ranajit, Carvalho, Joao, Loureiro, Afonso
Format:	Journal Article
Language:	English
Published:	Washington, DC Blackwell Publishing Ltd 28-03-2013 American Geophysical Union John Wiley & Sons, Inc
Subjects:	Deformation Earth sciences Earth, ocean, space Earthquakes Exact sciences and technology Fault lines fault zone deformation Faults Geological faults Holocene near surface Reflection Sediments Seismic activity Seismic exploration seismic modeling Seismic phenomena Seismology Signatures soil Soil surfaces Sound waves Subsoils Iberian Peninsula Southern Europe Portugal Europe moveout detection exploration Quaternary S-waves velocity upper Quaternary earthquakes faults Modeling ductile deformation seismic reflection fault zones wave reflection Cenozoic Phanerozoic soils Holocene distortion energy
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Summary:	Small‐throw seismogenic fault segments hidden in the Holocene sediments are crucial but difficult targets in seismic exploration. We report here the detection of the deformation pattern and a concealed fault segment in the unconsolidated sediments at Vila Franca Xira, Portugal, through identification in shear wave reflection data of multiple signatures of ductile deformation associated with faulting. We find step‐like changes in the stacking velocity along a shallow subsoil layer boundary, indicating synsedimentary faulting. We also recognize a consistent distortion in the moveout of the reflection events in the raw shear wave data. Synthetic modeling of seismic data helps in interpreting these observations and identifying backscattered energy from a steeply dipping shallow fault zone. Prior to this finding, there was no evidence for Holocene activity of this fault, although the fault is considered to be the most probable source for the disastrous 1531 earthquake. Key Points Signatures of deformation and faulting in soil are found in S reflections First evidence of Holocene activity of the Vila Franca Xira fault is detected Multiple signatures found in reflection data are supported by modeling
Bibliography:	ark:/67375/WNG-QLN35DWR-6 istex:35CAF7284506FD39042E49056CCCF45654C59961 ArticleID:GRL50241 ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23
ISSN:	0094-8276 1944-8007
DOI:	10.1002/grl.50241