Shear zone liquefaction in mass transport deposit emplacement: A multi-scale integration of seismic reflection and outcrop data
| Autor: | Gian Andrea Pini, Joshu J. Mountjoy, Kei Ogata, Andrea Festa, Roberto Tinterri |
|---|---|
| Přispěvatelé: | Geology and Geochemistry, Ogata, K., Mountjoy, J. J., Pini, G. A., Festa, A., Tinterri, R., Ogata, Kei, Pini, GIAN ANDREA |
| Jazyk: | angličtina |
| Rok vydání: | 2014 |
| Předmět: |
Ductile shear zones
Mass movement Outcrop exhumed mass transport complexes mass transport deposits sedimentary matrix ductile shear zones liquefaction fluid overpressure Ductile shear zone Oceanography Geochemistry and Petrology SDG 14 - Life Below Water Petrology Fluid overpressure Shearing (physics) Hikurangi Margin Liquefaction Exhumed mass transport complexes Geology SDG 1 - No Poverty Sedimentary rock mass transport deposits Shear zone Exhumed mass transport complexe Sedimentary matrix Seismology Submarine landslide |
| Zdroj: | Marine Geology, 356, 50-64. Elsevier Ogata, K, Mountjoy, J J, Pini, G A, Festa, A & Tinterri, R 2014, ' Shear zone liquefaction in mass transport deposit emplacement : A multi-scale integration of seismic reflection and outcrop data ', Marine Geology, vol. 356, pp. 50-64 . https://doi.org/10.1016/j.margeo.2014.05.001 |
| ISSN: | 0025-3227 |
| DOI: | 10.1016/j.margeo.2014.05.001 |
| Popis: | We present the integrated outcrop-geophysical study of two mass transport complexes, the exhumed Specchio unit in the Northern Apennines of Italy and the Holocene Poverty unit in the Hikurangi margin of New Zealand. The combination of micro- to meso-scale structural, stratigraphic and sedimentologic analyses carried on continuous three-dimensional outcrops, with large-scale structural and morphologic data deriving from seismic/acoustic imaging of the present-day continental margins, allow important considerations on submarine landslide processes and mechanisms through the broader (up-scaled and down-scaled) understanding of the mass transport-related structural associations. We compare the discontinuous high-amplitude, reverse-polarity reflectors observed within the Poverty with the syn-sedimentary, ductile shear zones found within the Specchio mass transport complex. The seismic signature of such structures suggests localized fluid overpressure along detachment/thrust zones due to shearing and loading of undrained, water-saturated, fine-grained material, developed along with the slide mass movement. The outcrop expression of these structures is tentatively attributed to m- to tens of m-thick shear zones comprising large amounts of sedimentary matrix which separate and accommodate the differential movements of the internal slide components (e.g. slide blocks, olistoliths). The sedimentary matrix is an unsorted, lithologically mixed medium characterized by a scale-invariant “block-in-matrix” fabric (i.e. brecciated, mud-supported), that injects, sustain and surrounds discrete slide elements (from particles to blocks) and interpreted as a hyper-concentrated (liquefied/fluidized) suspension of water and scattered sediments developed in fluid overpressure conditions. We highlight the fundamental role of shearing-related liquefaction as one of the main factors controlling slide mobility through the “lubrication” of the internal and basal friction forces. The analysis of such features can therefore provide important information for the characterization of mass transport deposits developed from potentially catastrophic, long run-out mass transport events, and consequently, to better understand their possible socio-economic impact in terms of tsunamigenic potential. |
| Databáze: | OpenAIRE |
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