Fig. 5. Major faults and fracture systems of the earthquakes of 1630 and August 26-27th 1896. Mynd 5. Helstu sprungur og sprungukerfi frá jarðskjálft- unum 1630 og 26. til 27. ágúst 1896. vertical movements are occasionally found locally within the fracture systems, mostly related to the fault mounds. In one case the senseof motion along a fault can be determined directly from a manmade structure. A wall built of turf and stones is displaced 75-80 cm right-laterally where it is crossed by the fault active in the earthquakes of August 26-27th 1896, near the farm Lunansholt in the district Land (Fig. 5). INTERPRETATION All the en echelon fissure arrays identified so far are oriented in a northerly direction, a few slightly to the east ofnorth (Fig. 2).Theenechelonarrange- ment is nearly always in the same sense, and indi- cates right-lateral displacement along an underly- ing fault. VVe therelbre interpret the fracture arrays as the surface expression of right-lateral strike-slip faults with a N-S strike. This interpretation is in agreement with the only fault plane solution avail- able for the South Iceland Seismic Zone, made by Ward (1971) for an earthquake in the Flói district in July 1967. The solution is not well constrained be- cause of the small magnitude of the event, but indi- cates strike-slip faulting, right-lateral on a north striking, or left-lateral on an east striking fault. The displacement of the turf wall near Lunansholt also supports the interpretation. From this we can go a step further and infer the approximate orientation of the principal stress axes in the South Iceland Seismic Zone (Fig.6). The maximum compressive stress axis (oj is horizontal and trends in the same direction as the surface íissures, i.e. N30-40°E. The least compressive stress (03) is also horizontal and perpendicular to the fissures. The intermediate stress axis is vertical. It is noteworthy that thisstress field is identical to that expected around a transform fault. The dilfer- ence is, however, that instead of rupturing along a major E-W fault, the crust in South Iceland chooses to fracture along the conjugate fault planes. Faults of the South Iceland Seismic Zone were previously described by Tr. Einarsson (1967, 1968) and Tryggvason (1973) who both interpret them as right-lateral strike-slip faults, as we do here. Tr. Einarsson, however, only looked at individual seg- ments, which have a more north-easterly trend than the overall fracture systems and generalized his interpretation to the whole of the Icelandic rift zones, where individual fissures have similar trends. JÖKULL 32. ÁR 117

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