Seismicity in Iceland 2003 Increased earthquake activity has been on the northern part of Reykjanes Ridge since 2000. At the end of April, swarm activity was recorded close to Geirfuglasker with an earthquake of magnitude 4. An earthquake of magnitude 4 was also recorded about 15 km SW of Eldeyjarboði in a swarm at the end of the year. An earthquake Mb = 5 (NEIC) was recorded on 62.9 degrees north, on the Reykjanes Ridge on July 19. An earthquake of magnitude Mlw = 3.2 occurred beneath Nesjavellir in the Hengill area on March 11. It was felt in Reykjavik and Selfoss. Some small earthquakes at about 16 km depth were recorded by Heimaey in the Westmann Islands in August and November. REYKJANES PENINSULA The Reykjanes Peninsula is a continuation of the oblique spreading ridge, Reykjanes Ridge, and con- nects it to the South Iceland Seismic Zone (SISZ) and the Western Volcanic Zone (WVZ). On August 23, 2003 at 02:00 an Mlw = 5 earth- quake occurred west of Kleifarvatn on the Reykja- nes Peninsula at about 4 km depth (Vogfjörð, 2004); (Figure 3). The earthquake was felt in many parts of SW–Iceland. More than 1200 aftershocks followed on the same day and the day after of which 10 were greater than 3 in magnitude. The aftershock activ- ity culminated about a week later. The epicenters of the aftershocks aligned on a NS-line containing the main shock and also on an ENE-line from the main shock into Kleifarvatn. The optimum fault plane so- lution for the main event and the aftershocks indicate that the fault plane is a N–S right–lateral strike slip fault. This seismic activity on the Reykjanes Penin- sula is the greatest since June 2000 when 3 earth- quakes of magnitude greater than 5 were triggered on the Reykjanes Peninsula by the main shock in SISZ on June 17, 2000 (Vogfjörð, 2003). An earthquake swarm was recorded in Bláfjöll in early April with the biggest earthquake of mag- nitude 2.2. A small earthquake swarm took place at Fagradalsfjall in October. MÝRDALSJÖKULL The Katla volcano is located under Mýrdalsjökull. It has shown signs of unrest since 1999 when a jökul- hlaup emerged from the southern part of the glacier and a new cauldron was formed and other cauldrons showed changes in size (Guðmundsson et al., 2000; Vogfjörð 2002). GPS measurements in Austmanns- bunga, at the northeastern rim of the Katla caldera, have also shown uplift and outward displacements from the year 2002 (Sturkell et al., 2003a). The seis- micity under Mýrdalsjökull is mainly concentrated in two areas, within the Katla caldera and to the west of the caldera where the seismicity is usually seasonal with nearly all earthquakes occurring in the second half of the year (Einarsson and Brandsdóttir, 2000). In 2002 the pattern of seismicity in the western part of Mýrdalsjökull changed from seasonal to continu- ous seismic activity throughout the year (Þorbjarnar- dóttir et al., 2003). The majority of earthquakes lo- cated under Mýrdalsjökull in 2003 originated under the western part, where the seismic activity had the same continuous pattern as in 2002. The seismicity within the caldera was mainly under its northern part (Figure 4). On September 22, an earthquake swarm occurred beneath the northeastern rim of the caldera, close to Austmannsbunga. The biggest earthquake in that swarm had a magnitude Mlw = 3.9. VATNAJÖKULL The Vatnajökull ice cap includes several volcanic sys- tems. The most active is the Grímsvötn volcano, which erupted last in 1998, and has since been inflat- ing (Sturkell et al., 2003b). From mid year 2003 the seismicity at Grímsvötn increased (Figure 5). Most of the earthquakes have their origin close to the southern rim of the Grímsvötn caldera. In the beginning of July 2003 a small earthquake swarm occurred beneath Bárðarbunga. Some earth- quakes were recorded on Loki ridge, the ridge striking eastward from Hamarinn, and also some in Kverk- fjöll. Icequakes were recorded in Skeiðarárjökull in relation to jökulhlaups from Grænalón or rainfall (Roberts et al., 2005). JÖKULL No. 54, 2004 69

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