Low-frequency earthquakes beneath Tullu Moye volcano, Ethiopia, reveal fluid pulses from shallow magma chamber
Low-frequency earthquakes beneath Tullu Moye volcano, Ethiopia, reveal fluid pulses from shallow magma chamber
The active magmatic processes beneath volcanoes in continental rifts is poorly understood. For example, until recently in the East African rift (EAR), the majority of the young volcanoes were thought to be inactive. More recent studies have shown that numerous volcanoes in the EAR are seismically active and deforming rapidly. However, an unambiguous sign of actively degassing magma hosted in shallow magma bodies has eluded most investigators. Here we present detailed analysis of the first low-frequency (LF) earthquake swarms to be observed in the Main Ethiopian Rift. The earthquakes locate to beneath Tullu Moye volcano and are directly related to the presence of a shallow magma body with a high fluid content. Using spectral modelling we show that the LF earthquakes appear to have low stress-drops (1–50 kPa) which we interpret in terms of low rupture velocities and high pore-fluid pressure. Careful relocation of the LF earthquakes place them approximately 4 km below the surface within one of two possible clusters. However, analysis of the correlation between earthquake waveforms show that each swarm contains a range of earthquake families and as such a diversity of earthquake source mechanisms. To explain these observations, we propose the seismicity is induced by H2O/CO2 fluid pulses from the shallow magma body into a highly fractured region. Fluid pulses cause high pore fluid pressures, which also cause the low rupture velocities.
1-11
Greenfield, Timothy
be593d17-54a8-4c18-ac57-9ce1bfe3920f
Keir, Derek
5616f81f-bf1b-4678-a167-3160b5647c65
Kendall, J-Michael
746f7fc0-ee9e-4436-89d6-a6f26cdec6aa
Ayele, Atalay
730f62fb-c461-4a4e-b52d-b143a7936df6
15 November 2019
Greenfield, Timothy
be593d17-54a8-4c18-ac57-9ce1bfe3920f
Keir, Derek
5616f81f-bf1b-4678-a167-3160b5647c65
Kendall, J-Michael
746f7fc0-ee9e-4436-89d6-a6f26cdec6aa
Ayele, Atalay
730f62fb-c461-4a4e-b52d-b143a7936df6
Greenfield, Timothy, Keir, Derek, Kendall, J-Michael and Ayele, Atalay
(2019)
Low-frequency earthquakes beneath Tullu Moye volcano, Ethiopia, reveal fluid pulses from shallow magma chamber.
Earth and Planetary Science Letters, 526, , [115782].
(doi:10.1016/j.epsl.2019.115782).
Abstract
The active magmatic processes beneath volcanoes in continental rifts is poorly understood. For example, until recently in the East African rift (EAR), the majority of the young volcanoes were thought to be inactive. More recent studies have shown that numerous volcanoes in the EAR are seismically active and deforming rapidly. However, an unambiguous sign of actively degassing magma hosted in shallow magma bodies has eluded most investigators. Here we present detailed analysis of the first low-frequency (LF) earthquake swarms to be observed in the Main Ethiopian Rift. The earthquakes locate to beneath Tullu Moye volcano and are directly related to the presence of a shallow magma body with a high fluid content. Using spectral modelling we show that the LF earthquakes appear to have low stress-drops (1–50 kPa) which we interpret in terms of low rupture velocities and high pore-fluid pressure. Careful relocation of the LF earthquakes place them approximately 4 km below the surface within one of two possible clusters. However, analysis of the correlation between earthquake waveforms show that each swarm contains a range of earthquake families and as such a diversity of earthquake source mechanisms. To explain these observations, we propose the seismicity is induced by H2O/CO2 fluid pulses from the shallow magma body into a highly fractured region. Fluid pulses cause high pore fluid pressures, which also cause the low rupture velocities.
Text
EPSL-D-19-00144R2_pure
- Accepted Manuscript
More information
Accepted/In Press date: 16 August 2019
e-pub ahead of print date: 30 August 2019
Published date: 15 November 2019
Identifiers
Local EPrints ID: 433909
URI: http://eprints.soton.ac.uk/id/eprint/433909
ISSN: 0012-821X
PURE UUID: b21625ca-d67b-4f19-80b7-8b7a3d3a0d2c
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Date deposited: 06 Sep 2019 16:30
Last modified: 16 Mar 2024 08:11
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Author:
Timothy Greenfield
Author:
J-Michael Kendall
Author:
Atalay Ayele
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