Abstract
Earthquake swarms occur sporadically at divergent plate boundaries but their recurrence over multiple decades and relation to magmatic spreading activity remain poorly understood. Here we study more than 100 earthquake swarms over a 60-year period in the southern Red Sea, Afar, and Gulf of Aden region. We first compiled an earthquake-swarm catalogue by integrating reexamined global and local earthquake catalogues from 1960 to 2017. This yielded 134 earthquake swarms that mainly cluster in 19 different areas in the study region, showing that in most cases swarms recur every few decades in the same area. The swarms exhibit a range of earthquake magnitudes and often include multiple M3 to M5 events with some swarms having occasional larger earthquakes over M6, primarily in southern Afar. Many of the earthquake swarms were clearly associated with rifting events, consisting of magmatic intrusions, surface faulting, and in some cases volcanic eruptions. Together, the swarms suggest that extension at these divergent plate boundaries occurs episodically along <100 km long segments, some of which were previously unrecognized. Within the study region, the Gulf of Aden shows the most frequent swarm activity, followed by Afar and then the southern Red Sea. The results show that the three areas were subject to an increase of earthquake-swarm activity from 2003 to 2013 in the form of three rifting episodes and at least seven volcanic eruptions. We interpret that the most likely controls on temporal variations in earthquake swarm activity are either temporal variations in magma supply, or rifting-induced stress change that trigger clusters of swarms.
Highlights
Earthquake swarms are observed worldwide at divergent plate boundaries
We describe the earthquake swarm activity separately for the three different zones and discuss the results in a regional context
We first describe the different swarm cluster areas that were detected, we detail the different earthquake swarms that were identified in each cluster area, and we present the spatio-temporal distribution of the earthquake swarms
Summary
Earthquake swarms are observed worldwide at divergent plate boundaries. Most of these swarms occur along oceanic ridges and along transform zones (Bird et al, 2002; Boettcher and Jordan, 2004; Roland and McGuire, 2009; Passarelli et al, 2018b). Earthquake Swarms in the SAGA Region the simple Omori law (e.g., Sykes, 1970; Dziak et al, 2006) They often lack a distinctive mainshock and most of the seismic moment is released through multiple earthquakes of comparable magnitude. They have characteristic durations of days to months that do not scale with the total moment released during the sequence (Passarelli et al, 2018b), which indicates that their temporal evolution is likely modulated by transient processes (e.g., fluid migration, magmatic intrusions, or aseismic slip) acting on top of the long-term tectonic load (Vidale and Shearer, 2006; Passarelli et al, 2015, 2018b). We focus on earthquake swarms at divergent plate boundaries, which often occur contiguously with tectonic and magmatic activity
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