Assessing landslide movements in volcanic islands using near-shore marine geophysical data: south Pico island,Azores |
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Authors: | Neil C Mitchell Rui Quartau José Madeira |
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Institution: | 1.School of Earth, Atmospheric and Planetary Sciences,University of Manchester,Manchester,UK;2.Unidade de Geologia Marinha—Laboratório Nacional de Energia e Geologia I.P., Estrada da Portela, Zambujal,Amadora,Portugal;3.Faculdade de Ciências, Departamento de Geologia, and Laboratório de Tectonofísica e Tectónica Experimental/Instituto Dom Luiz (Laboratório Associado),Universidade de Lisboa,Lisboa,Portugal |
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Abstract: | Marine geophysical data from around the submarine flanks of volcanic islands can potentially help to resolve whether large-scale
instability of an edifice has been geologically recently active. We use geophysical data to investigate part of the coast
of Pico Island of the Azores where, above sea-level, a major slump of Topo volcano has been interpreted previously from arcuate
escarpments and a rugged irregular topography seaward of them. Multibeam echo-sounder data collected offshore of this feature
show remarkably little evidence for slump fault movements in the island's submarine slope. Mid-slope benches, like those associated
with the Hilina Slump of Kilauea, are absent. The high-resolution data extends onto the island's shelf, allowing us to evaluate
evidence for continuing activity there. In particular, as the shelf's rock platform will have been last modified by surf erosion
during the postglacial period of sea-level transgression, it provides a reference surface of intermediate age (7–19 ka) that
can potentially reveal whether any movements occurred in pre-historic times. Where the arcuate escarpments are continued offshore,
the modern seabed shows no bathymetric evidence for active faults where the shelf rock platform crops out in the multibeam
data. Elsewhere, mobile shelf sediments could be disguising evidence for active faulting so we examined boomer profiles able
to image the rock platform beneath them. The data reveal a platform that is steep (6.6°) compared with the dips of platforms
that we have studied previously around the coast of adjacent Faial Island and steeper than the platform outside the proposed
slump. This suggests that it was created by coastal erosion over a shorter period and hence is consistent with a younger age
of the coastline. As with the multibeam data, where escarpments are continued offshore onto the shelf, the rock surface imaged
with these boomer data also shows no clear evidence of major slump-related fault displacements. This study therefore illustrates
how high-resolution boomer seismic and multibeam data could usefully contribute to hazard assessment of volcanic islands,
by helping to evaluate areas with no historical movements. Explanations to reconcile the onshore and offshore data here are
also put forward. |
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