Scientific response to the 2024–2025 dyke intrusions in the Fentale-Dofen Region, Ethiopia: geophysical monitoring, surface manifestations, and hazard mapping

Lewi, Elias; Biggs, Juliet; Ayele, Atalay; Wright, Tim; Pagli, Carolina; Keir, Derek; Ali, Yechale; Assefa, Genet; Wang, Hua; La Rosa, Alessandro; Way, Lin; Mengistu, Filagot; Loughlin, Susan; Grandin, Raphaël; Temtime, Tesfaye; Birhanu, Yelebe; Freymueller, Jeffrey; Zheng, Weiyu

Scientific response to the 2024–2025 dyke intrusions in the Fentale-Dofen Region, Ethiopia: geophysical monitoring, surface manifestations, and hazard mapping

Lewi, Elias ORCID: https://orcid.org/0000-0002-0250-8639; Biggs, Juliet; Ayele, Atalay; Wright, Tim; Pagli, Carolina; Keir, Derek; Ali, Yechale; Assefa, Genet; Wang, Hua; La Rosa, Alessandro; Way, Lin; Mengistu, Filagot; Loughlin, Susan; Grandin, Raphaël; Temtime, Tesfaye; Birhanu, Yelebe; Freymueller, Jeffrey; Zheng, Weiyu. 2025 Scientific response to the 2024–2025 dyke intrusions in the Fentale-Dofen Region, Ethiopia: geophysical monitoring, surface manifestations, and hazard mapping. Bulletin of Volcanology, 87 (8), 64. 10.1007/s00445-025-01852-x

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Official URL: https://doi.org/10.1007/s00445-025-01852-x

Abstract/Summary

In continental rifts, tectonic deformation, magmatic processes, and earthquakes interact dynamically reflecting the crust’s complex response to extensional stress and evolving subsurface and surface conditions. Recent seismotectonic activity in the Fentale-Dofen region of the Main Ethiopian Rift was driven by the intrusion of several dykes reaching up to ~ 50 km in length observed using satellite radar interferometry. Over 300 earthquakes with magnitude 4 or greater were reported by international seismic networks and the GNSS site at Addis Ababa moved ~ 20 mm to the west. These and other observations on the ground were used to create a highly simplified hazard map and 75,000 people were evacuated. Although no magmatic eruption occurred, the earthquakes triggered landslides and caused infrastructure damage, especially to buildings and roads. Here we provide a preliminary analysis of the patterns of earthquakes, ground deformation, and surface manifestations from 2024 to 2025, with a focus on the underlying mechanisms contributing to seismic sequences in the area and key unresolved scientific questions. We discuss how scientific evidence was used to inform decision-makers and examine the short- and long-term implications for critical infrastructure and nearby communities. Finally, we emphasize the importance of real-time monitoring, proactive risk management, and the need for continuous observation and improved early warning systems to reduce future seismic and volcanic risks.

Item Type:

Publication - Article

Digital Object Identifier (DOI):

10.1007/s00445-025-01852-x

ISSN:

1432-0819

Date made live:

06 Oct 2025 14:13 +0 (UTC)

URI:

https://nora.nerc.ac.uk/id/eprint/540359