Leó Kristjánsson A list of all paleomagnetic directions appears in Table 2 in a similar format as in previous publications (e.g. Kristjánsson et al., 2003). A noteworthy aspect is the consistently low values of directional uncertainty (α95). This is mostly due to the excellent magnetic stability of the primary remanence in the present col- lection, but the number of samples collected per flow and the number of demagnetization steps have also been increased from some of the major previous col- lections (e.g. McDougall et al., 1984). NOTES ON THE STRATIGRAPHY OF THE INDIVIDUAL PROFILES, WITH PARTICULAR REFERENCE TO THEIR REMANENCE DIRECTIONS It has been attempted to fit the sampled profiles into the overall column of J. Preston which is seen at the right-hand side of Figure 3. For this, use has been made of the stratigraphic position of his distinctive units where the profiles have crossed these. The strati- graphic heights of other profiles in the column have been estimated from the dip and strike, aided by pre- sumed paleomagnetic correlations. TE: Exposures of the scoria-cone products or the cumulate plagioclase basalts indicated in J. Preston’s stratigraphic scheme of Figure 3 are not noted in this profile, but it contains an outcrop of fossil-bearing sediments between flows 36 and 37. The sediments seem to have limited extent, but the ankaramite flow TE 41 was traced by Preston across to Tálknafjörður and along that fjord several kilometers to the south- east. The normal-to-reverse polarity change taking place just above the ankaramite will hopefully serve as a useful marker in future mapping on the north shore of Tálknafjörður. KV, FD 0–20, HV: These profiles are assumed to lie within the reverse-polarity zone beginning at the top of profile TE. According to field mapping by stu- dents in 2002, the top of the normal-polarity zone in TE may occur in their two profiles on the coast be- tween KV and HV. They also noted that flows HV 11–19 (not cored) may contain a geomagnetic excur- sion similar to that in FD 16. AC on the coast of Arnarfjörður consists of flow units in the series called “cone basalts” by J. Preston. These are also reversely magnetized but the bottom six units sampled yield very similar mid-latitude ge- omagnetic poles, indicating rapid buildup. The top flow unit has a transitional direction. FD 21–35, FH, HM, lower part of VR, TR/TS: It seems very likely that the reverse-to-normal polarity transition between FD 20 and 21 in Tálknafjörður is the same as that between TR 3 and TS 1 farther east in that fjord. The transition is also assumed to occur on the north coast of Patreksfjörður between flows VR 1 and 2, and on its south coast between FH 4 and 5 as well as under HM 1. In all these locations, an un- usual series of low- to mid-latitude geomagnetic poles is seen above the reversal, namely in FD 22–27, TS 1– 4 or 7 (Figure 4a), VR 2–5, FH 6–14, and HM 2–5. Upper part of VR, VS: A major apparent excur- sion of the field occurs in flows VR 9–10 and VS 3–8 (Figure 4b), all yielding nearly identical geomagnetic poles near the Equator. Again, this grouping indicates rapid buildup of the lava pile at the time. Near the top of the otherwise normally magnetized profile VS, we find another geomagnetic excursion in VS 28–30, the middle flow being very porphyritic (Figure 2). It is probably what J. Preston’s maps (Kristjánsson et al., 1975) refer to as the “Lower cumulate plagio- clase basalt”, traceable both to the southeast and to the northwest along north shore of Patreksfjörður across into Tálknafjörður. It would clearly be interesting to look for the upper excursion in the vicinity of other outcrops of this cumulate basalt. AI, AJ, AB 1–41, AK 1–16 and RF 1–2 in Arn- arfjörður are assumed to belong to the same normal- polarity zone as VS. However, they do not contain any major excursions or very porphyritic basalts. TW, TV and HP also are thought to belong to this normal-polarity zone. Very similar low-latitude re- verse directions occur in flows TW 14–15 and in HP 16, and judging from the strike of the lava pile it is quite possible that these represent the same excursion. Almost all the lava flows in both these profiles are of a similar sparsely feldspar-porphyritic type. The ex- cursion was not seen in TV. Flows PS 1–6 may lie at the top of this zone. 42 JÖKULL No. 59

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