A new study of paleomagnetic directions in the Miocene lava pile, NW Iceland It would be interesting to see if similar results are ob- tained in outcrops of this group which Preston traced around the end of Patreksfjörður; he also located it within or just southeast of our profile KH, in the main valley of Fossfjörður (Figure 1). The normally mag- netized flows RS 1–7 near the Breiðafjörður coast may represent the top of the polarity zone PS 8–24. Figure 4. a) Virtual geomagnetic poles (VGPs) in flows TR 1–3 (reverse) and TS 1–11, Tálknafjörður. b) VGPs in flows VS 1–34, Patreksfjörður. Excur- sions to low latitudes occur in flows 3–8 and 28–30. –Mikið flökt segulskautsins í tveim sniðum. With RS 8–15, PS 25–29, and especially profile HK southeast of Patreksfjörður, we may have reached the thick zone of reverse flows which Friedrich (1966) called “Ar”. The distance of some 10 km from PS to HK is however uncomfortably large, and additional profiles need to be sampled in the (somewhat faulted) region between them. One can do no better at present than assuming that this reverse zone reaches all the way up through the sampled flows MH 26–37 and is also represented by the rather thin flows JF 1–43 of McDougall et al. (1984). The normal-polarity flows MH 38–52 would then correspond to Friedrich’s (1966) “Bn” zone, and so would (according to Friedrich) the thin flows JF 44– 105 of McDougall et al. (1984). OVERALL PALEOMAGNETIC RESULTS; ROCK MAGNETISM The arithmetic average remanence intensity in the lavas after 10 mT demagnetization is 4.2 A/m, some- what higher than observed in previous surveys on lavas of 1–15 m.y. age in Iceland (Kristjánsson, 2002; Kristjánsson et al., 2003). Results from profiles MH and AB are not included in this average. Median de- structive fields during AF treatment exceed 20 mT in the majority of cases. Initial susceptibilities were measured in one sample from each flow of the 2004– 2008 collection and profile MH, yielding an average of about 0.017 SI units, a little lower than the average found in the survey of Kristjánsson et al. (2003). Out of our 364 stable lavas collected in 2004– 2008, 256 are normally magnetized, i.e. their rema- nence directions correspond to virtual geomagnetic poles lying north of the Equator. The excess of normal-polarity lavas is in part due to sampling at sev- eral locations in the almost 1 km-thick mostly normal series in the middle of the column in Figure 3. The most noticeable positive aeromagnetic anomaly (see e.g. Figure 7 of Kristjánsson, 2008) over the Northwest peninsula reaches most of the way from Breiðafjörður to Ísafjarðardjúp. In the area south of Arnarfjörður it is 10–20 kilometers wide, with an axis lying roughly between our profiles RS and AC and an amplitude of 500 nT. This anomaly may be in part due to the thick normal-polarity zone mentioned in the previous paragraph, but the anomaly has a more northerly strike than is assumed here for the lava pile, i.e. around 30◦ East of North instead of 60–70◦. The mean remanence direction in all the lavas (N = 364, after inversion of reverse directions) has a dec- lination of 1◦ East and an inclination of +74.4◦, vector sum R = 331.5. This corresponds to a slightly “far- sided” average pole, as the central axial dipole field JÖKULL No. 59 47

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