Jökull


Jökull - 01.12.1979, Side 43

Jökull - 01.12.1979, Side 43
been very low in recent years, and the fault remains to be confirmed by geological mapping. Its existence should therefore be considered specu- lative. One can conclude that a large part of the seis- micity of the Tjörnes Fracture Zone can be attributed to the activity along two and possibly three WNW-striking faults. The existence of further seismic zones can certainly not be excluded. The transform motion is thus taken up by at least two parallel faults within a broad deformation zone. Volcanic zones Earthquakes in the volcanic zones are generally smaller than in the fracture zones. Volcanic erup- tions are usually accompanied by earthquakes, but between eruptions most parts of the volcanic zones are seismically quiet. A few areas of persistent seis- mic activity are found, the most prominent ones in Central Iceland and near the subglacial volcano Katla in South Iceland (Fig. 1). The seismic area in Central Iceland is largely covered by the ice cap Vatnajökull, and the tec- tonic structure is poorly known. Recent studies of ERTS images of this area seem to indicate that the structure is dominated by a group of central volca- noes and it is tempting to relate the earthquakes to volcanic processes. The seismic activity of this area has been unusually high in recent years. Six earth- quakes of magnitude 5 and larger occurred in the period 1974—79, but before 1974 no such large events were known. The Katla volcano is located near the southern end of the eastern volcanic zone, south of its junc- tion with the South Iceland seismic zone. The structure of this part of the zone is characterized by several central volcanoes, rifting structures are less significant. Historic eruptions of Katla have been preceeded by felt earthquakes, and because of the potential danger of future eruptions the seismicity at Katla is monitored by a relatively dense seismo- graph network. The epicenters located so far delineate two active areas. One is under the SE- part of the Mýrdalsjökull ice cap and coincides with the eruption sites in the latest Katla eruptions. The other area is under the SW-part of Mýrdals- jökull, about 15 km W of the first one. The depths of hypocenters in both areas are in the range 0—30 km. The hypocenters thus delineate two chimney- like features that penetrate the crust and extend well into the anomalous upper mantle. The seismic activity in the Mýrdalsjökull area shows a pronounced annual cycle. The probability of an earthquake occuring within a given time in- terval is several times higher in the second half of the year than in the first half. This annual cycle was first noted by E. Tryggvason (1973) for the years 1952—58 and has been confirmed by later data. The Heimaey eruption in 1973 was preceeded by an intensive swarm of small earthquakes that started 30 hours before the eruption. Earthquakes also accompanied the eruption, but the seismicity declined as the lava production diminished. No shock reached magnitude 4. The earthquakes dur- ing the eruption occurred at the depth of 15 — 25 km and occupied a spherical Volume centered un- der Heimaey. It seems likely that the erupted magma either was stored or formed within this volume. The depth of the Heimaey and Katla earth- quakes is much larger than observed elsewhere in Iceland. In these areas the upper boundary of the anomalous mantle underlying Iceland is at the depth of 12—15 km. Earthquakes at the depth of 20—30 km may be taken to imply brittle failure in the mantle where creep or ductile behaviour is normally assumed. In these volcanic regions it is possible, however, that high strain rates associated with magmatic processes may cause brittle failure in material that would be ductile at lower strain rates. A major rifting episode has been in progress since 1975 in the volcanic rift zone in NE-Iceland. The activity has been confined to the Krafla central volcano and its associated fissure swarm (Fig. 3), and provides a demonstration of a process that seems to play an important role in Icelandic tec- tonics. The activity is characterized by repeated cycles of relatively slow inflation and rapid deflation of the volcano. Magma apparently accumulates at a constant rate under the volcano during the inflation periods and during the deflation events the magma escapes from the reservoir area. Each cycle of activity is accompanied by a characteristic pattern of seismic activity. Continuous volcanic tremor starts in the caldera region at about the same time as the deflation. Small earthquakes also occur in the cal- dera, but the epicentral area is soon extended along the Krafla fissure swarm to the north or to the south. The rate of propagation of the seismic activity is highest during the first few hours, typi- cally 0.5 m/sec., but the speed decreases as the JÖKULL 29. ÁR 41
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