Abstract
AbstractThe Bora‐Tullu Moye (TM) volcanic field is a geothermal energy prospect in the central Main Ethiopian Rift, but little is known about the seismicity of the region. Here we document seismic activity between February 2016 and October 2017, locating more than a 1,000 seismic events of local magnitude 0 to 2.7. This provides new insights into fluid movement and deformation beneath what we only now realize is a complicated volcanic system. A discrete cluster of events lies beneath TM, but, surprisingly, most of the seismicity lies in two clusters that are beneath neither the Bora or TM edifices. In these regions, we use earthquake cluster orientations, fault plane solutions, and fast seismic shear‐wave orientations to show that seismicity is triggered by hydrothermal circulation of fluids along preexisting fractures. The fractures trend in multiple directions and are, in general, not parallel to rifting related structures. Instead, the fractures are parallel to structures created during previous caldera forming eruptions at both Bora and TM. Highly fractured regions such as this could be attractive targets for geothermal power generation. We estimate a minimum depth for a magmatic body beneath TM to be 6.5 km using the mapped brittle‐ductile transition. Frequency analysis of the earthquake waveforms reveal the bulk of the events to be volcano tectonic, but some low‐frequency seismicity is present at a depth of 5 km beneath the TM edifice triggered by high pore fluid pressures.
Highlights
The Main Ethiopian Rift (MER) stretches from the Afar triple junction in the north to the Turkana depression in the south
More than 31 volcanoes are located within the rift (Global Volcanism Program, 2013) and approximately 11% of the population of Ethiopia live within 30 km of a volcano; making it important to understand the hazard posed by these volcanoes (Aspinall et al, 2011)
We investigate the seismic anisotropy of the Bora-Tullu Moye (B-TM) volcanic complex by evaluating shearwave-splitting (SWS) observed in events from the refined NonLinLoc catalog
Summary
The Main Ethiopian Rift (MER) stretches from the Afar triple junction in the north to the Turkana depression in the south. More than 31 volcanoes are located within the rift (Global Volcanism Program, 2013) and approximately 11% of the population of Ethiopia live within 30 km of a volcano; making it important to understand the hazard posed by these volcanoes (Aspinall et al, 2011). Volcanoes in the MER have the potential to generate large amounts of low-carbon geothermal power, a resource that is not well-exploited. There is only one operating geothermal power plant in Ethiopia, located on Aluto volcano (Teklemariam et al, 1996), more are being developed. Hydrothermal systems are likely to be driven by subsurface magma replenishment (Hill et al, 1985), making it important to understand the magmatic plumbing systems of volcanoes in order to assess their geothermal power potential. While regional scale geophysical surveys have reported on the overall structure of the MER, few studies have explored the detailed structure and magmatism of individual volcanoes
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