Paleomagnetic studies in Skarðsheiði, SW-Iceland characteristic of the curves is a Curie point exceed- ing 540 C, indicating fairly pure magnetite (oxidized in SJ 18–1). However, in some of the samples one sees that a component with a lower Curie point (350– 500 C) is being irreversibly converted (presumably exsolved) on heating. In many lava samples from other Tertiary areas in Iceland which are unstable to AF treatment, the thermomagnetic curves are more complex (L. Kristjánsson, unpublished data) and in- clude components with Curie points below 350 C. It should be noted that the thermomagnetic behav- ior of a sample is not decisive when it comes to evalu- ating whether a particular remanence direction is a re- liable indicator of the primary geomagnetic field. The effective titanomagnetite grain size, grain shape and interactions between grains (or lamellae) may be just as important factors in the preservation of the primary remanence through time as the chemical composition of the major magnetic components. Our evaluation of the reliability of the remanence direction in a lava is based mostly on its stability to AF treatment and its consistency between the different samples. The chemical changes which occur during heating in our Skarðsheiði samples (Figure 7) indicate however, that they are not very good material for paleomagnetic field–intensity measurements. SUMMARY AND CONCLUSIONS Skarðsheiði has been considered to belong mostly to the R5 and N5 polarity zones of Einarsson (1957). In his Ph.D. thesis on the area, Franzson (1978) assumed that these zones correspond to the upper Gilbert and lower Gauss chrons respectively. The boundary has in recent years been estimated to be 3.58 M.y. in age (Cande and Kent, 1995). Intermediate geomagnetic poles in several successive flows at this transition were first reported by Wilson et al. (1972) in the North–Eastern part of Skarðsheiði. They are shown in diagrams by Wilson et al. (1972, Figure 5) and Da- gley and Lawley (1974) but the detailed results have not been published. The presence of intermediate poles was confirmed by the more extensive sampling of Kristjánsson and Sigurgeirsson (1993) in their pro- file SH in Villingadalur. In this paper we present a composite profile SI/SJ mapped through the exposed succession of South– Western Skarðsheiði, and from a short profile SS far- ther east. We describe paleomagnetic work on 51 units in SI, 41 in SJ, 17 in SS, and 12 in another short profile SW across Villingadalur from SH. The paleomagnetic work includes extended demagnetiza- tion treatment of some samples, and thermomagnetic measurements. The paleomagnetic directions are gen- erally stable and represent the primary thermal rema- nence of the lavas; this is demonstrated by the ex- cellent within–flow directional agreement after AF cleaning treatment in the laboratory, also in flows where other magnetic properties of the samples vary considerably. Flows yielding low–latitude VGPs have relatively low values of remanence intensity, as well as the most altered flows in the lower part of profile SI (Table 1), but their reliability appears to be quite satisfactory. Along with the mapping by Franzson (1978) at various locations in Skarðsheiði, our results show that the R5–N5 boundary transects it at altitudes varying between about 500 and 800 m. In the upper part of R5, feldspar–porphyritic lavas are common. The polarity– transition zone becomes thinner towards the south and west. In Skarðsheiði, we have also documented the presence of two subchrons, probably the Cochiti in the lowest accessible exposures (SI 1–14; lower boundary not seen) and the Mammoth at the top (SJ 34–42; up- per boundary not seen). Additionally, some major ge- omagnetic excursions (which may well represent in- completely recorded subchrons) are noted, the main ones being at SI 16 (close to a polarity zone bound- ary) and 28B, 32, and 47 within R5. We present a summary of polarity results from Akrafjall and Skarðsheiði where the lowest clearly normal lavas in the N5 polarity zone have been aligned (Figure 8). Also shown are positions of some distinct lava groups and conglomerates which may possibly be correlated. The thickness of the porphyritic series (PF) in profile C is unknown but according to Franzson (1978) it is about 200 m in Skessuhorn (Figure 2). Reversely magnetized com- pound flows (CP) similar to some of those in Akra- fjall are also seen at various localities in Skarðsheiði (Franzson, 1978) but not in our profile SI. JÖKULL No. 50 45

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