trending seismic zone. The reason Jor this unusual configur- ation is poorly understood, but the tentative explanation is given, that the seismic zone is afracture Jront migrating southwards in response to a southwards propagation oj the eastern rift zone oj Iceland. INTRODUCTION The South Iceland Seismic Zone is a part of the Mid-Atlantic plate boundary that crosses the is- land. It is an E-W trending zone delineated by destructive, historical earthquakes, that apparently takes up transform motion between the submarine Reykjanes Ridge and the Eastern Volcanic Zone in South Iceland, both of which represent spreading axes. Features consistent with a transform fault are the high seismicity, the occurrence of large earth- quakes, the geometric relatíonship to the spreading axes, and the typeoffaulting. The zone, on theother hand, lacks the clear topographic expression char- acteristic of many oceanic fracture zones, and the transform motion does not appear to be taken up by one majorfault. The South Iceland Seismic Zone has been rela- tively quiet for the last seven decades, the most recent destructive earthquake occurred near its eastern end in 1912. Historical data, however, indi- cate that destructive earthquakes have occurred at least 33 times during the last 800 years. Most of these shocks aífected only limited areas within the zone, but about once a century a major earthquake sequence has caused damage along a considerable part of the 70 km long zone (Einarsson et al. 1981). The best known of these are the sequences of 1732- 34, 1784, and 1896 (Fig. 1). Thoroddsen (1899 and 1905) made an extensive survey of historical data on South Iceland earth- quakes, and studied the efiects of the 1896 events himself. Additional studies of historical data were done by Thorarinsson (Tiyggvason et al. 1958, Thorar- insson 1967) and S. Björnsson (1975, 1978), who mapped destruction zones shown in Fig. 1. A pro- minent and somewhat peculiar feature of the de- struction zones is that they are elongate in a north- erly direction, possibly indicating that individual earthquakes are related to slip along faults striking transversely to the main earthquake zone. This ob- servation, among others, provided the incentive to study available evidence ofsurface faulting during these earthquakes. Preliminary investígation re- vealed that earthquake fractures are common throughout the seismic zone, not only from the most recent earthquakes, but from older events as well. Since 1978 student groups at the University of Ice- land have visited parts of the zone annually to map faults as a part of a tectonics course. The most prominent fracture systems in the two easternmost districts ofthe seismic zone, Land and Rangárvellir, have now been mapped. This papersummarizes the main results. More details are given by P. Einarsson and Eiríksson (1982). Fig. 2. Map of fractures in the districts Land and Rangár- vellir. Major fracture systems are shown in a simplified way as bold, unbroken lines. Mynd 2. Yfirlitskortyfir sprungur á Landi og Rangárvöllum. Helstu sprungukerfi eru synd á einfaldan hátt með heildregnum línum. 114 JÖKULL 32. ÁR

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