DOI: 10.1016/j.epsl.2021.116789
论文题名: Seismic hazard of the western Makran subduction zone: Insight from mechanical modelling and inferred frictional properties
作者: Pajang S. ; Cubas N. ; Letouzey J. ; Le Pourhiet L. ; Seyedali S. ; Fournier M. ; Agard P. ; Khatib M.M. ; Heyhat M. ; Mokhtari M.
刊名: Earth and Planetary Science Letters
ISSN: 0012821X
出版年: 2021
卷: 562 语种: 英语
中文关键词: frictional properties
; Makran
; mechanical modelling
; seismic hazard
英文关键词: Deformation
; Earthquakes
; Friction
; Hazards
; Seismic response
; Effective friction coefficient
; Finite deformations
; Frictional properties
; Listric normal faults
; Mechanical analysis
; Mechanical modelling
; Pore fluid pressure
; Seismic hazard assessment
; Fault slips
; active fault
; deformation
; friction
; GPS
; hazard assessment
; modeling
; normal fault
; seismic hazard
; spatial variation
; Arabian Sea
; Indian Ocean
; Makran Subduction Zone
英文摘要: Western Makran is one of the few subduction zones left with a largely unconstrained seismogenic potential. According to the sparse GPS stations, the subduction is accumulating some strain to be released during future earthquakes. To enhance the seismic hazard assessment, we here propose to study the finite deformation of the western Makran accretionary wedge. Mechanical modelling is used to retrieve the spatial variations of the frictional properties of the megathrust, and discuss its seismogenic potential. To do so, we first build a structural map along the Iranian part of the Oman Sea and investigate three N-S seismic profiles. The profiles are characterized by a long imbricated thrust zone that takes place at the front of the wedge. A diapiric zone of shallow origin lies in between the imbricated zone and the shore. Along the eastern and western shores, active listric normal faults seem to root down to the megathrust. Eastern and western domains have developed similar deformation, with three zones of active faulting: the normal faults on shore, thrusts ahead of the mud diapirs, and the frontal thrusts. On the contrary, no normal faults are identified along the central domain, where a seamount is entering into subduction. Two mechanical analyses are performed to retrieve the frictional properties of the megathrust. We first apply the critical taper theory to constrain the pore fluid pressure of the wedge. We then apply the limit analysis on two selected profiles. Along the eastern profile, a transition from very low to extremely low friction is required to activate the large coastal normal fault (μdeepeff = 0.01-0.06, μmiddleeff = 0.003-0.012). To propagate the deformation to the front, an increase of friction along the imbricated zone is necessary (μfronteff = 0.017-0.031). The method could not be applied on the incomplete western profile. However, since the deformation is similar to the eastern profile, the same transitions of friction are expected. The Central domain is also characterized by very low effective friction; but, the absence of normal fault does not allow to evidence any frictional transition. Since dynamic effective friction coefficients are significantly lower than frictions at slow slip rate, the region of extremely low friction between the normal fault and the imbricated zone might reveal the location of a seismic asperity. The difference in deformation along strike would thus reveal the existence of two different asperities, one along the eastern domain and a second along the western domain. Since no earthquake have occurred in the region for, at least, the last 1000 years, an event of large magnitude may strike the Iranian Makran, in particular the Eastern domain. © 2021 Elsevier B.V. Citation statistics:
资源类型: 期刊论文
标识符: http://119.78.100.158/handle/2HF3EXSE/165624
Appears in Collections: 气候变化与战略
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作者单位: Geoscience department, University of Birjand, Birjand, Iran; Institut des Sciences de la Terre Paris, ISTeP UMR 7193, Sorbonne Université, CNRS-INSU, Paris, 75005, France; National Iranian Oil Company (NIOC), Tehran, Iran; International Institute of Earthquake Engineering and Seismology (IIEES), Tehran, Iran
Recommended Citation:
Pajang S.,Cubas N.,Letouzey J.,et al. Seismic hazard of the western Makran subduction zone: Insight from mechanical modelling and inferred frictional properties[J]. Earth and Planetary Science Letters,2021-01-01,562