Causes of unrest at silicic calderas in the East African Rift: new constraints from InSAR and soil-gas chemistry at Aluto volcano, Ethiopia

William Hutchison, Juliet Biggs, Tamsin A. Mather, David M. Pyle, Elias Lewi, Gezahegn Yirgu, Stefano Caliro, Giovanni Chiodini, Laura E. Clor, Tobias P. Fischer

    Research output: Contribution to journalArticlepeer-review

    Abstract

    Restless silicic calderas present major geological hazards, and yet many also host significant untapped geothermal resources. In East Africa this poses a major challenge, although the calderas are largely unmonitored their geothermal resources could provide substantial economic benefits to the region. Understanding what causes unrest at these volcanoes is vital for weighing up the opportunities against the potential risks. Here we bring together new field and remote sensing observations to evaluate causes of ground deformation at Aluto, a restless silicic volcano located in the Main Ethiopian Rift (MER). Interferometric Synthetic Aperture Radar (InSAR) data reveal the temporal and spatial characteristics of a ground deformation episode that took place between 2008 and 2010. Deformation time-series reveal pulses of accelerating uplift that transition to gradual long-term subsidence, and analytical models support inflation source depths of ∼5 km. Gases escaping along the major fault zone of Aluto show high CO2 flux, and a clear magmatic carbon signature (CO2–δ13C of −4.2 to −4.5 ‰). This provides compelling evidence that the magmatic and hydrothermal reservoirs of the complex are physically connected. We suggest that a coupled magmatic-hydrothermal system can explain the uplift-subsidence signals. We hypothesize that magmatic fluid injection and/or intrusion in the cap of the magmatic reservoir drives edifice wide inflation while subsequent deflation is related to magmatic degassing and depressurization of the hydrothermal system. These new constraints on the plumbing of Aluto yield important insights into the behaviour of rift volcanic systems and will be crucial for interpreting future patterns of unrest.
    Original languageEnglish
    Pages (from-to)3008-3030
    JournalGeochemistry, Geophysics, Geosystems
    Volume17
    Issue number8
    Early online date6 Aug 2016
    DOIs
    Publication statusPublished - Aug 2016

    Keywords

    • Geothermal resources
    • InSAR
    • Degassing
    • Continental rifting
    • Magmatic processes

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