Leó Kristjánsson would have an inclination at +77.2◦ in the present area. The average of virtual poles from all the lavas is at 88.3◦N, 130◦E, with a vector sum of R = 308.5, and a 95% confidence angle of 3.1◦. It should be noted that the occurrence of groups of low-latitude virtual poles may cause some bias in these averages, for in- stance the ten flows VR 9–10, VS 3–8, 29–30 with similar poles near the Equator. Low-field thermomagnetic curves were obtained in air from five samples, using a Bartington MS2W furnace and susceptibility meter. These curves have quite variable shapes, as noted also by Kristjánsson et al. (2003). Their final Curie points are in the range 500–600◦C but there is always evidence of some al- teration and irreversibility on heating, cf. also the next paragraph. It may therefore be difficult to find lava samples in Northwest Iceland suitable for paleointen- sity studies by conventional methods. Kristjánsson (1967) contemplated the possible use of magnetic properties as a geothermometer, i.e. an indicator of maximum temperatures experienced by lava flows on burial within the pile. If a significant permanent change occurs in for instance the rema- nence intensity, coercive force, or susceptibility of a stably magnetized sample upon heating in the labora- tory to a temperature T and cooling to room tempera- ture, a simple interpretation would indicate that previ- ous secondary heating of the sample while still in situ, did not reach T. This simple model was tested by heat- ing eight very stable lava specimens of both polarities from near sea level in Arnarfjörður and Tálknafjörður to 100◦C and 160◦C in field-free space. The room- temperature susceptibilities increased in all cases, by an average of 2.5% and 6% respectively, and inten- sities had decreased altogether by an average of 1.5% after the 160◦C heating. Similar results were obtained by Kristjánsson (1967) on samples collected near Ísa- fjarðardjúp and heated in air. As a precaution against oxidation of the magnetic minerals, the heating to 160◦C was in the present case carried out in oil. It may be tentatively con- cluded that the exposed lava pile in these two parts of the Northwest peninsula has not experienced heat- ing above 100◦C. Reasonable estimates of geothermal gradients, as well as the observed near-absence of ze- olite infillings in most of the present profiles, also make it unlikely that temperatures at the present sea level ever reached 100◦C (cf. Kristjánsson and Jóns- son, 2007, p. 33). CONCLUSIONS This study is a first attempt to i) use variations in the geomagnetic field, along with other infor- mation, to strengthen correlations between strata on the three southwesterly promontories of the North- west peninsula of Iceland, between Arnarfjörður and Breiðafjörður ii) set up a common scheme of polar- ity zones for the area. The lava pile in the area has suffered little alteration, compared to other areas of similar or even younger age in Iceland. These lavas may therefore present good opportunities for radio- metric dating of polarity-zone boundaries and geo- logical events, as well as for geochemical investiga- tions. Measurements of magnetic remanence direc- tions yielded very stable and consistent results, and the possibility of using these and other magnetic prop- erties as a qualitative geothermometer in the basalt lava pile is suggested. Like other Icelandic basalts however, the lavas in this area do not seem to be ideal material for paleointensity studies using conventional whole-rock methods. Polarity zones in the Arnarfjörður-Breiðafjörður area appear to be relatively thick (for instance over 40 lavas in profiles TE and AB), and there are other in- dications that the lava production has sometimes been proceeding quite rapidly. Thus, Table 2 includes some 50 cases of two or more successive lavas having rema- nence directions that are similar within 10◦ of arc or less. This may be compared to current secular varia- tion rates of the order of 5◦ per century, and the num- ber of such groups is well in excess of what may be attributed to chance. In addition to flows VS 3–8 and AC 1–6 mentioned above, three or more similar suc- cessive directions occur for instance in TE 7–13, AJ 7–10, RS 8–11 and TW 6–9. It appears that by the use of reversals and large ap- parent geomagnetic excursions (Figure 4a,b) recorded in the lava pile, correlation has been established be- tween all the profiles FD and TR/TS on the south side of Tálknafjörður, VR on the north coast of Pat- 48 JÖKULL No. 59

Síða 1
Síða 2
Síða 3
Síða 4
Síða 5
Síða 6
Síða 7
Síða 8
Síða 9
Síða 10
Síða 11
Síða 12
Síða 13
Síða 14
Síða 15
Síða 16
Síða 17
Síða 18
Síða 19
Síða 20
Síða 21
Síða 22
Síða 23
Síða 24
Síða 25
Síða 26
Síða 27
Síða 28
Síða 29
Síða 30
Síða 31
Síða 32
Síða 33
Síða 34
Síða 35
Síða 36
Síða 37
Síða 38
Síða 39
Síða 40
Síða 41
Síða 42
Síða 43
Síða 44
Síða 45
Síða 46
Síða 47
Síða 48
Síða 49
Síða 50
Síða 51
Síða 52
Síða 53
Síða 54
Síða 55
Síða 56
Síða 57
Síða 58
Síða 59
Síða 60
Síða 61
Síða 62
Síða 63
Síða 64
Síða 65
Síða 66
Síða 67
Síða 68
Síða 69
Síða 70
Síða 71
Síða 72
Síða 73
Síða 74
Síða 75
Síða 76
Síða 77
Síða 78
Síða 79
Síða 80
Síða 81
Síða 82
Síða 83
Síða 84
Síða 85
Síða 86
Síða 87
Síða 88
Síða 89
Síða 90
Síða 91
Síða 92
Síða 93
Síða 94
Síða 95
Síða 96
Síða 97
Síða 98
Síða 99
Síða 100
Síða 101
Síða 102
Síða 103
Síða 104
Síða 105
Síða 106
Síða 107
Síða 108
Síða 109
Síða 110
Síða 111
Síða 112
Síða 113
Síða 114
Síða 115
Síða 116
Síða 117
Síða 118
Síða 119
Síða 120
Síða 121
Síða 122
Síða 123
Síða 124
Síða 125
Síða 126
Síða 127
Síða 128
Síða 129
Síða 130
Síða 131
Síða 132
Síða 133
Síða 134
Síða 135
Síða 136
Síða 137
Síða 138
Síða 139
Síða 140
Síða 141
Síða 142
Síða 143
Síða 144