Kristjánsson et al. that four central volcanoes were active successively in the period c. 10–6 Ma ago the Flókadalur, Öxnadalur, Ábær and Keldudalur centers in order of decreasing age. He pointed out the presence of thick (up to 100– 200 m) coarse sedimentary rocks at a certain level in the lava pile all across the southern part of the area. Jóhannesson (1991) suggested that these sedimentary rocks were deposited towards the end of activity in the Öxnadalur central volcano, which according to a diagram on p. 40 of his paper was occurring around 8.0 Ma ago. Jóhannesson did not indicate whether they represent a major hiatus in the regional volcanic build-up in North Iceland or an angular unconformity. Kristjánsson et al. (2004) published a detailed map and paleomagnetic study of a composite section of 8 profiles in the valleys south and south-west of Eyjafjörður (Figure 1a), referring also to preliminary Ar-Ar dating results from these profiles presented by Hardarson et al. (1999). The thick sedimentary rocks mapped by Jóhannesson (1991) are present in their composite section. As the preliminary dates are some- what scattered and not always in stratigraphic order, the age of the sediments based on them can hardly be given with better accuracy than 8.5 ± 0.5 Ma. Pre- liminary Ar-Ar dates (Hardarson et al. 1999; B. S. Hardarson, pers. comm. 1999) indicate that the age of the youngest rocks sampled by Kristjansson et al. (2004), i.e. the upper part of profile GR of Figure 1a, is 5–5.5 Ma. In his Ph.D. thesis Hjartarson (2003) made a de- tailed study of the bedrock geology of the Austur- dalur and Vesturdalur valleys in Skagafjörður. He de- scribed the stratigraphy of the valleys and divided it into groups, formations and members. A geological map (Hjartarson et al. 2003a) in this thesis includes the southern part of Figure 1b. The Tinná central volcano which is the most prominent geological fea- ture of the area, was described in detail by Hjartarson (2005) who considers this volcano to have been active from 6–5 million years ago. It encompasses both of the above-mentioned Keldudalur and Ábær centers of Jóhannesson (1991). To improve the knowledge of the geology of the Skagafjörður-Eyjafjörður region, we have car- ried out some additional stratigraphic mapping in the Norðurárdalur and Austurdalur valleys, along with paleomagnetic sampling in six profiles of Figures 1b,c. Brief notes on these profiles and profile PG are given in the Appendix. Access to the lava pile in the area is variable; our profiles lie mostly along streams, which in general provide the most complete exposures cf. Figures 2a,b. PALEOMAGNETIC SAMPLING AND MEASUREMENTS Cores of 25 mm diameter and 4-8 cm length were collected in 2002-2004 using water-cooled portable drills, by Leó Kristjánsson and Haraldur Hallsteinsson with assistance by Eyjólfur Magnússon. Of the pro- files shown in Figures 1a,b,c, PG was sampled in 1976 at three cores/flow and results on its paleomagnetic di- rections were published in detail by Saemundsson et al. (1980). It should be noted that some lavas in this profile were either not sampled (PG 16 and all above 60) or gave inadequate agreement between the sam- ple directions (PG 2, 10, 11, 26, 27A). At least four core samples were collected from most of the num- bered lava flows in the profiles TD,TB, PH, PM, PN and PO. These are all listed in Table 1 which also in- cludes two flows (PH 47, 48) where two samples were taken and some where only one sample was collected (PH 25, TB 32, 86 and 86A, TD 24). Lavas PH 37, PM 9, TD 1, 14 and TB 10, 15, 30 were not sampled. The outcrops with 0-2 samples were either difficult to reach, near a dike, crumbly, or thin units without sedimentary interbeds above or below. The core sam- ples were oriented in situ by sighting on the Sun or on distant objects whose position was read from maps or determined with a pocket GPS receiver. The total uncertainty in orientation is of the order of 2-3◦. One specimen of about 22 mm length was cut from each core. Except for profile PG, remanence measurements were made by L. K. using an “Institut Dr. Förster” four-probe static fluxgate magnetometer. In each specimen, the natural remanence was mea- sured before alternating field treatment and then af- ter treatment at 10, 15 and 20 mT peak fields in a Molspin demagnetizer with a two-axis tumbler. The 10 mT treatment removes most or all of the viscous 42 JÖKULL No. 56

Blaðsíða 1
Blaðsíða 2
Blaðsíða 3
Blaðsíða 4
Blaðsíða 5
Blaðsíða 6
Blaðsíða 7
Blaðsíða 8
Blaðsíða 9
Blaðsíða 10
Blaðsíða 11
Blaðsíða 12
Blaðsíða 13
Blaðsíða 14
Blaðsíða 15
Blaðsíða 16
Blaðsíða 17
Blaðsíða 18
Blaðsíða 19
Blaðsíða 20
Blaðsíða 21
Blaðsíða 22
Blaðsíða 23
Blaðsíða 24
Blaðsíða 25
Blaðsíða 26
Blaðsíða 27
Blaðsíða 28
Blaðsíða 29
Blaðsíða 30
Blaðsíða 31
Blaðsíða 32
Blaðsíða 33
Blaðsíða 34
Blaðsíða 35
Blaðsíða 36
Blaðsíða 37
Blaðsíða 38
Blaðsíða 39
Blaðsíða 40
Blaðsíða 41
Blaðsíða 42
Blaðsíða 43
Blaðsíða 44
Blaðsíða 45
Blaðsíða 46
Blaðsíða 47
Blaðsíða 48
Blaðsíða 49
Blaðsíða 50
Blaðsíða 51
Blaðsíða 52
Blaðsíða 53
Blaðsíða 54
Blaðsíða 55
Blaðsíða 56
Blaðsíða 57
Blaðsíða 58
Blaðsíða 59
Blaðsíða 60
Blaðsíða 61
Blaðsíða 62
Blaðsíða 63
Blaðsíða 64
Blaðsíða 65
Blaðsíða 66
Blaðsíða 67
Blaðsíða 68
Blaðsíða 69
Blaðsíða 70
Blaðsíða 71
Blaðsíða 72
Blaðsíða 73
Blaðsíða 74
Blaðsíða 75
Blaðsíða 76
Blaðsíða 77
Blaðsíða 78
Blaðsíða 79
Blaðsíða 80
Blaðsíða 81
Blaðsíða 82
Blaðsíða 83
Blaðsíða 84
Blaðsíða 85
Blaðsíða 86
Blaðsíða 87
Blaðsíða 88
Blaðsíða 89
Blaðsíða 90
Blaðsíða 91
Blaðsíða 92
Blaðsíða 93
Blaðsíða 94
Blaðsíða 95
Blaðsíða 96
Blaðsíða 97
Blaðsíða 98
Blaðsíða 99
Blaðsíða 100
Blaðsíða 101
Blaðsíða 102
Blaðsíða 103
Blaðsíða 104
Blaðsíða 105
Blaðsíða 106
Blaðsíða 107
Blaðsíða 108