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Challenges in submarine fiber-optic earthquake monitoring
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  • Jonas Karl Hans Igel,
  • Sara Klaasen,
  • Sebastian Noe,
  • Paraskevi Nomikou,
  • Konstantinos Karantzalos,
  • Andreas Fichtner
Jonas Karl Hans Igel
ETH Zurich

Corresponding Author:[email protected]

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Sara Klaasen
ETH Zurich
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Sebastian Noe
ETH Zurich
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Paraskevi Nomikou
University of Athens
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Konstantinos Karantzalos
National Technical University of Athens
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Andreas Fichtner
ETH Zurich
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Abstract

Utilizing existing telecommunication cables for Distributed Acoustic Sensing (DAS) experiments has eased the collection of seismological data in previously difficult-to-access areas such as the ocean bottom. To assess the potential of submarine DAS for monitoring seismic activity, we conducted an experiment from mid-October to mid-December 2021 using a 45 km long dark fiber extending from the Greek island of Santorini along the ocean bottom to the neighboring island of Ios. This region is of great geophysical and public interest because of its historical and recent seismic and volcanic activity, especially along the Kolumbo volcanic chain. Besides recording anthropogenic noise and around 1000 seismic events, we observe the primary and secondary microseisms in the submarine section, the latter inducing Scholte waves in a sediment layer where the cable is well-coupled. By using the spectral element wave propagation solver Salvus, we compute synthetic strains for earthquakes with varying degrees of model complexity. Despite including topography, a water layer, and a heterogeneous velocity model, we are unable to reproduce the lack of coherence in our observed earthquake waveforms. Backpropagation simulations for four observed earthquakes indicate that clear convergence of the wavefield, and thus the ability to constrain a source region, is only possible when all model complexities are considered. We conclude that, despite the promising emergence of DAS, monitoring capabilities are limited by often unfavorable cable geometries, cable coupling, and the complexity of the medium. Interrogating multiple cables simultaneously or jointly analyzing DAS and seismometer data could help improve future monitoring experiments.
24 May 2024Submitted to ESS Open Archive
28 May 2024Published in ESS Open Archive