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Persistent CO2 emissions and hydrothermal unrest following the 2015 earthquake in Nepal

Author

Listed:
  • Frédéric Girault

    (Université Paris Diderot)

  • Lok Bijaya Adhikari

    (National Seismological Centre)

  • Christian France-Lanord

    (Université de Nancy)

  • Pierre Agrinier

    (Université Paris Diderot)

  • Bharat P. Koirala

    (National Seismological Centre)

  • Mukunda Bhattarai

    (National Seismological Centre)

  • Sudhan S. Mahat

    (Sanjen Jalavidhyut Company Limited)

  • Chiara Groppo

    (University of Turin)

  • Franco Rolfo

    (University of Turin)

  • Laurent Bollinger

    (CEA, DAM, DIF)

  • Frédéric Perrier

    (Université Paris Diderot)

Abstract

Fluid–earthquake interplay, as evidenced by aftershock distributions or earthquake-induced effects on near-surface aquifers, has suggested that earthquakes dynamically affect permeability of the Earth’s crust. The connection between the mid-crust and the surface was further supported by instances of carbon dioxide (CO2) emissions associated with seismic activity, so far only observed in magmatic context. Here we report spectacular non-volcanic CO2 emissions and hydrothermal disturbances at the front of the Nepal Himalayas following the deadly 25 April 2015 Gorkha earthquake (moment magnitude Mw = 7.8). The data show unambiguously the appearance, after the earthquake, sometimes with a delay of several months, of CO2 emissions at several sites separated by > 10 kilometres, associated with persistent changes in hydrothermal discharges, including a complete cessation. These observations reveal that Himalayan hydrothermal systems are sensitive to co- and post- seismic deformation, leading to non-stationary release of metamorphic CO2 from active orogens. Possible pre-seismic effects need further confirmation.

Suggested Citation

  • Frédéric Girault & Lok Bijaya Adhikari & Christian France-Lanord & Pierre Agrinier & Bharat P. Koirala & Mukunda Bhattarai & Sudhan S. Mahat & Chiara Groppo & Franco Rolfo & Laurent Bollinger & Frédér, 2018. "Persistent CO2 emissions and hydrothermal unrest following the 2015 earthquake in Nepal," Nature Communications, Nature, vol. 9(1), pages 1-10, December.
    • Handle: RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-05138-z
    DOI: 10.1038/s41467-018-05138-z
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