The analog seismogram archives of Iceland performed mostly by students of the University of Ice- land. The scanning operation was later moved to the Institute of Earth Sciences, University of Iceland. THE DATA AND RESEARCH POSSIBILITIES The new data archive opens several lines of research into the activity of the crust in Iceland, both volcanic and seismic. The installation of seismographs in Ice- land has often happened in response to large events. The large earthquakes in the transform zones of Ice- land in 1910 and 1912, for example, without doubt at- tracted the attention of the international seismological community to Iceland and the high activity there and led to the installation of the first seismograph. The in- crease in the number of instruments in the fifties was influenced by the general belief that Katla, the feared volcano of South Iceland, was likely to erupt around 1960 (Thorarinsson, 1960), an opinion based on its previous eruption pattern. Otherwise, the central part of the twentieth century was rather quiet if compared to previous centuries. This changed in the sixties with the eruption of Askja in 1961, the large earthquake of Skagafjörður in 1963, and the prolonged eruptive activity of Surtsey 1963–1967 (e.g., Sayadi et al., 2020). Portable seismographs became available and were used to study the eruptions of Hekla in 1970 and Heimaey in 1973. The new analog seismograph system, Landsnet, came just in time to record the beginning of the Krafla rifting episode 1975–1984 with its 20 diking events and 9 eruptions. Several papers are based on data from these events, but considerable part of the data set still has not been analyzed to its full capacity. An ex- ample of the data is shown in Figure 7, that displays the beginning of the last and largest Krafla eruption on September 4, 1984, as recorded at the Skinnas- taður station, 30 km from the eruption site (Einarsson, 2018). The seismogram shows the precursory seismic activity that began about three hours before the erup- tion, and the characteristic low-frequency earthquake about 9 minutes before the eruption. The earthquakes then decrease as soon as the intruding dike reaches the surface and feeds the eruption. The Grímsvötn volcano erupted in 1983 after sev- eral decades of quiescence, showing typical precur- sory activity, earthquake swarm and eruption tremor (Einarsson and Brandsdóttir, 1984). Soon after that the analog network was expanded into the central highland of Iceland in order to increase the moni- toring capabilities for the volcanoes there. This net- work showed the background activity of Bárðarbunga and Grímsvötn volcanoes, in addition to the Loki Ridge, the source area of jökulhlaups into the Skaftá river (Björnsson and Einarsson, 1990). The enig- matic bursts of tremor following the jökulhlaups were also recorded by the network (Figure 8). The bursts normally last a few tens of minutes and occur at the end of the water release from the glacial cauldrons that feed the floods. The similarity of the tremor to eruption tremor from Grímsvötn led Björnsson and Einarsson (1990) to suggest that they signified small, subglacial volcanic eruptions, triggered by the sud- den pressure drop when the water was released from the overlying ice cauldron. Other authors suggest that the tremor may be caused by flash boiling of the geothermal system beneath the cauldron (Björnsson, 2003; Eibl et al., 2020). Seismicity in connection with eruptive activity in Grímsvötn 1998 and 2004 was recorded by the network, also the seismicity of Bárðarbunga volcano leading up to the Gjálp eruption in 1996 (Einarsson et al., 1997). In addition to the seismicity within Iceland, the network also recorded seismic activity on adjacent sections of the plate boundary. An example is shown in Figure 9 of a large earthquake swarm in 1990 on the Reykjanes Ridge, SW of Iceland, reported by Einars- son (1993). The swarm originated at latitude 63◦N, about 180 km away from the seismograph station at Bjarnastaðir. Hundreds of events were recorded within the next two days, at least 14 of magnitude 4 and larger. The examples above are only a few selected sam- ples from a list of remarkable events during the cen- tury of analog seismographic coverage of Iceland. A comprehensive list is available on the website seis- mis.hi.is. JÖKULL No. 70, 2020 67

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