than normal faults, due to their markedly fewer num- bers and relatively small displacements. It is unclear whether these strike-slip faults formed in association with transform faulting at a plate boundary or in an intraplate setting. Regarding the scale of maximum displacements (20-30 m), they form a separate class between those found in the Tjörnes Fracture Zone, where displacements of many kilometres have been inferred (Sæmundsson, 1974; Younge/uZ., 1985), and those in the South Iceland Seismic Zone, where dis- placements of 1-2 m have been found (Einarsson and Eiríksson 1982; Bjarnason et al., 1993). Striated planes and associated minor structures A total of 58 slickensided planes were analysed in the Tertiary rocks along the profiles (Figure 4c). Of these, 18 are on fault planes (including one dyke margin) and 40 are on small individual planes associated with or independent from the fault planes. Strike and dip of slickensides were measured, along with the plunge and trend of 195 striae on the slickensided planes. The slip sense of striated planes was mainly inferred from the striae and, in a few cases, from other kinematic indicators such as centimetre-scale Riedel fractures, steps with rough and smooth faces and striating el- ements on the deformed surfaces. However, cross- cutting striae are rare and fault planes usually show only one generation of striae, probably from the last slip. Secondary fractures (with length on the order of metres), anthitetic and oblique to the main faults, were found in the hanging wall of a few normal faults. Their throw is very small and their slip-sense may conform or be opposite to that of the main normal faults (Figure 6a). Of 195 striae, 67% pitch between 90° and 61° (dip-slip), 17% are between 60° and 31° (oblique- slip), and 16% have their pitch between 30° and 0° (strike-slip). About 5% of dip-slip and 12% of oblique-slip striae show a reverse polarity. Of 58 stri- ated planes, 67% are normal faults (Table 1), mostly rift-parallel with a peak at N20°-30°E. A few are oblique to the NNE trend of the rift zones (N170°- 180°E, N140°-150°E, and N50°-60°E). Few striated normal fault planes strike WNW (Figure 4c and Ta- ble 1), while on a regional scale many of the WNW faults show normal-slip (Figures 4b and 5). Dextral strike-slip faults (14%) trend mainly N100°-120°E and N5°-30°E, in agreement with horizontal offsets along both trends. Sinistral polarity (14%) was only found on scattered small planes striking N10°-80°E and N140°-170°E. Reverse-slip striae (5%) were ob- served on steeply dipping faults striking WNW, NW and NE. A few of these striae were found locally on two normal faults with a throw of 22 m and 5.5 m respectively. Reverse motion along steeply dipping planes may thus be only apparent and due to local bending of the normal fault planes. Slip analyses of large-scale (regional) and small- scale (mesoscopic) faults, shows that at both scales normal faulting predominates in Borgarfjörður, and that oblique-slip and strike-slip faults are less com- mon. Normal faults and strike-slip faults Aerial photographs at the scale of 1/36.000 were used for maþping fracture traces for Figure 5. Undifferenti- ated lineaments (joints, faults and dykes) >100 m long are shown as single lines on the maps. Fault types were determined using the field data from profiles 2 (river Beilá), 3 (Figure 5b) and 6 (Figure 5c), com- bined with observations from aerial photographs. The strongest fault pattern is created by WNW and NNE faults forming a network of orthogonal horsts and grabens in the Tertiary lava pile (Figures 2 and 5a). Normal and strike-slip movements occurred on faults of both sets. Around lake Langavatn, most dextral slip is on WNW faults (Figure 5a) but a pre- existing narrow WNW horst is offset by a NNE dex- tral strike-slip fault (~2 km NE of the northeastern shore of Langavatn). In the field, sinistral polarity was found only on small-scale planes (profile 2), along al- most all strikes except WNW (Figure 4c and Table 1). West of lake Hreðavatn (Figure 5b) a major WNW normal fault (Dyngjá fault) and two NW-WNW dykes are offset about 30 m by a NNE right lateral strike-slip fault. A similar pattern appears north of Hallarmúli (Figure 5c). A WNW basaltic dyke and two older WNW normal faults are displaced by a NNE dextral strike-slip fault, but the amount of offset varies. To the north, the WNW dyke is offset about 11 m by the dextral motion of the NNE fault; a nearby WNW nor- JÖKULL, No. 47 29

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