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Triggered earthquakes suppressed by an evolving stress shadow from a propagating dyke

Triggered earthquakes suppressed by an evolving stress shadow from a propagating dyke
Triggered earthquakes suppressed by an evolving stress shadow from a propagating dyke
Large earthquakes can generate small changes in static stress: increases that trigger aftershock swarms, or reductions that create a region of reduced seismicity—a stress shadow1, 2. However, seismic waves from large earthquakes also cause transient dynamic stresses that may trigger seismicity3, 4. This makes it difficult to separate the relative influence of static and dynamic stress changes on aftershocks. Dyke intrusions do not generate dynamic stresses, so provide an unambiguous test of the stress shadow hypothesis. Here we use GPS and seismic data to reconstruct the intrusion of an igneous dyke that is 46 km long and 5 m wide beneath Bárðarbunga Volcano, central Iceland, in August 2014. We find that during dyke emplacement, bursts of seismicity at a distance of 5 to 15 km were first triggered and then abruptly switched off as the dyke tip propagated away from the volcano. We calculate the evolving static stress changes during dyke propagation and show that the stressing rate controls both the triggering and then suppression of earthquake rates in three separate areas adjacent to the dyke. Our results imply that static stress changes help control earthquake clustering. Similar small static stress changes may be important for triggering seismicity near geothermal areas, regions being hydrofractured and deflating oil and gas fields.
1752-0894
629-632
Green, Robert G.
c156717b-eb38-4167-9269-301f919b083d
Greenfield, Tim
08324ab8-4581-4a8c-a133-f12b23b8a79b
White, Robert S.
80949343-6d64-42e3-acb2-812307f1b274
Green, Robert G.
c156717b-eb38-4167-9269-301f919b083d
Greenfield, Tim
08324ab8-4581-4a8c-a133-f12b23b8a79b
White, Robert S.
80949343-6d64-42e3-acb2-812307f1b274

Green, Robert G., Greenfield, Tim and White, Robert S. (2015) Triggered earthquakes suppressed by an evolving stress shadow from a propagating dyke. Nature Geoscience, 8 (8), 629-632. (doi:10.1038/ngeo2491).

Record type: Article

Abstract

Large earthquakes can generate small changes in static stress: increases that trigger aftershock swarms, or reductions that create a region of reduced seismicity—a stress shadow1, 2. However, seismic waves from large earthquakes also cause transient dynamic stresses that may trigger seismicity3, 4. This makes it difficult to separate the relative influence of static and dynamic stress changes on aftershocks. Dyke intrusions do not generate dynamic stresses, so provide an unambiguous test of the stress shadow hypothesis. Here we use GPS and seismic data to reconstruct the intrusion of an igneous dyke that is 46 km long and 5 m wide beneath Bárðarbunga Volcano, central Iceland, in August 2014. We find that during dyke emplacement, bursts of seismicity at a distance of 5 to 15 km were first triggered and then abruptly switched off as the dyke tip propagated away from the volcano. We calculate the evolving static stress changes during dyke propagation and show that the stressing rate controls both the triggering and then suppression of earthquake rates in three separate areas adjacent to the dyke. Our results imply that static stress changes help control earthquake clustering. Similar small static stress changes may be important for triggering seismicity near geothermal areas, regions being hydrofractured and deflating oil and gas fields.

Text
Green, Greenfield, White - 2015 - Triggered earthquakes suppressed by an evolving stress shadow from a propagating dyke.pdf - Version of Record
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Accepted/In Press date: 23 June 2015
Published date: 27 July 2015
Organisations: Geology & Geophysics

Identifiers

Local EPrints ID: 401273
URI: http://eprints.soton.ac.uk/id/eprint/401273
DOI: doi:10.1038/ngeo2491
ISSN: 1752-0894
PURE UUID: 70cd5823-67fc-4935-962b-b10b0a93b68b

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Date deposited: 07 Oct 2016 10:12
Last modified: 15 Mar 2024 02:43

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Contributors

Author: Robert G. Green
Author: Tim Greenfield
Author: Robert S. White

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