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A process-based approach to understanding and managing triggered seismicity

Author

Listed:
  • Bradford H. Hager

    (Atmospheric and Planetary Sciences, Massachusetts Institute of Technology)

  • James Dieterich

    (University of California, Riverside)

  • Cliff Frohlich

    (University of Texas at Austin)

  • Ruben Juanes

    (Massachusetts Institute of Technology
    Massachusetts Institute of Technology)

  • Stefano Mantica

    (and Exploration, Eni)

  • John H. Shaw

    (Harvard University)

  • Francesca Bottazzi

    (and Exploration, Eni)

  • Federica Caresani

    (and Exploration, Eni)

  • David Castineira

    (Massachusetts Institute of Technology)

  • Alberto Cominelli

    (and Exploration, Eni)

  • Marco Meda

    (and Exploration, Eni)

  • Lorenzo Osculati

    (and Exploration, Eni)

  • Stefania Petroselli

    (and Exploration, Eni)

  • Andreas Plesch

    (Harvard University)

Abstract

There is growing concern about seismicity triggered by human activities, whereby small increases in stress bring tectonically loaded faults to failure. Examples of such activities include mining, impoundment of water, stimulation of geothermal fields, extraction of hydrocarbons and water, and the injection of water, CO2 and methane into subsurface reservoirs1. In the absence of sufficient information to understand and control the processes that trigger earthquakes, authorities have set up empirical regulatory monitoring-based frameworks with varying degrees of success2,3. Field experiments in the early 1970s at the Rangely, Colorado (USA) oil field4 suggested that seismicity might be turned on or off by cycling subsurface fluid pressure above or below a threshold. Here we report the development, testing and implementation of a multidisciplinary methodology for managing triggered seismicity using comprehensive and detailed information about the subsurface to calibrate geomechanical and earthquake source physics models. We then validate these models by comparing their predictions to subsequent observations made after calibration. We use our approach in the Val d’Agri oil field in seismically active southern Italy, demonstrating the successful management of triggered seismicity using a process-based method applied to a producing hydrocarbon field. Applying our approach elsewhere could help to manage and mitigate triggered seismicity.

Suggested Citation

  • Bradford H. Hager & James Dieterich & Cliff Frohlich & Ruben Juanes & Stefano Mantica & John H. Shaw & Francesca Bottazzi & Federica Caresani & David Castineira & Alberto Cominelli & Marco Meda & Lore, 2021. "A process-based approach to understanding and managing triggered seismicity," Nature, Nature, vol. 595(7869), pages 684-689, July.
    • Handle: RePEc:nat:nature:v:595:y:2021:i:7869:d:10.1038_s41586-021-03668-z
    DOI: 10.1038/s41586-021-03668-z
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    Cited by:

    1. Pietro Rizzo & Antonio Bucci & Pamela Monaco & Anna Maria Sanangelantoni & Gino Naclerio & Mattia Rossi & Paola Iacumin & Federica Bianchi & Claudio Mucchino & Nicolò Riboni & Dario Avagliano & France, 2023. "Investigating the Potential Impact on Shallow Groundwater Quality of Oily Wastewater Injection in Deep Petroleum Reservoirs: A Multidisciplinary Evaluation at the Val d’Agri Oilfield (Southern Italy)," Sustainability, MDPI, vol. 15(12), pages 1-15, June.

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