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Post-earthquake ground movements correlated to pore-pressure transients

Author

Listed:
  • Sigurjón Jónsson

    (Harvard University)

  • Paul Segall

    (Stanford University)

  • Rikke Pedersen

    (Nordic Volcanological Institute)

  • Grímur Björnsson

    (National Energy Authority)

Abstract

Large earthquakes alter the stress in the surrounding crust, leading to triggered earthquakes and aftershocks1,2,3. A number of time-dependent processes, including afterslip, pore-fluid flow and viscous relaxation of the lower crust and upper mantle, further modify the stress and pore pressure near the fault, and hence the tendency for triggered earthquakes4,5. It has proved difficult, however, to distinguish between these processes on the basis of direct field observations, despite considerable effort6. Here we present a unique combination of measurements consisting of satellite radar interferograms7 and water-level changes in geothermal wells following two magnitude-6.5 earthquakes in the south Iceland seismic zone. The deformation recorded in the interferograms cannot be explained by either afterslip or visco-elastic relaxation, but is consistent with rebound of a porous elastic material in the first 1–2 months following the earthquakes. This interpretation is confirmed by direct measurements which show rapid (1–2-month) recovery of the earthquake-induced water-level changes. In contrast, the duration of the aftershock sequence is projected to be ∼3.5 years, suggesting that pore-fluid flow does not control aftershock duration. But because the surface strains are dominated by pore-pressure changes in the shallow crust, we cannot rule out a longer pore-pressure transient at the depth of the aftershocks. The aftershock duration is consistent with models of seismicity rate variations based on rate- and state-dependent friction laws.

Suggested Citation

  • Sigurjón Jónsson & Paul Segall & Rikke Pedersen & Grímur Björnsson, 2003. "Post-earthquake ground movements correlated to pore-pressure transients," Nature, Nature, vol. 424(6945), pages 179-183, July.
    • Handle: RePEc:nat:nature:v:424:y:2003:i:6945:d:10.1038_nature01776
    DOI: 10.1038/nature01776
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    Cited by:

    1. Nabil Sultan & Shane Murphy & Vincent Riboulot & Louis Géli, 2022. "Creep-dilatancy development at a transform plate boundary," Nature Communications, Nature, vol. 13(1), pages 1-10, December.
    2. Qin, Zilong & Sha, Zongyao, 2023. "Modeling the impact of urbanization and climate changes on terrestrial vegetation productivity in China by a neighborhood substitution analysis," Ecological Modelling, Elsevier, vol. 482(C).
    3. Kostić, Srđan & Vasović, Nebojša & Todorović, Kristina & Franović, Igor, 2018. "Nonlinear dynamics behind the seismic cycle: One-dimensional phenomenological modeling," Chaos, Solitons & Fractals, Elsevier, vol. 106(C), pages 310-316.
    4. C. Reddy & P. Sunil & Roland Bürgmann & D. Chandrasekhar & Teruyuki Kato, 2013. "Postseismic relaxation due to Bhuj earthquake on January 26, 2001: possible mechanisms and processes," Natural Hazards: Journal of the International Society for the Prevention and Mitigation of Natural Hazards, Springer;International Society for the Prevention and Mitigation of Natural Hazards, vol. 65(2), pages 1119-1134, January.

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