Leó Kristjánsson and Ágúst Guðmundsson to a highly eroded central volcano near the east margin of the Vatnajökull glacier. This suite is stratigraph- ically more or less parallel to the LA-suite, formed during the same period. HD-suite (Hafursárandesít) is a widespread lava flow of intermediate composition (andesite or dacite) forming the base of mt. Snæfell. It is probably less than 0.8 Ma old and covers the LA-suite uncon- formably. A conglomerate layer, variable in thickness and consolidation, separates the HD-andesite from the LA-suite. Hydrothermal alteration The basalts of Iceland contain abundant secondary ze- olites and other amygdale and joint-filling minerals. Walker (1960) found that these minerals have a dis- tinct subhorizontal zonal distribution in Eastern Ice- land, see Table 1. The zeolitization is thought to have begun during the buildup of the lava pile and to have lasted until glaciers cut down the valleys. The alter- ation zones are named after prevalent amygdale min- erals, which are best developed in olivine-rich basalts. Boundaries of these zones in Fljótsdalur are shown in Figure 2. Of the profiles sampled by us in Suðurdalur (see below), MK and ST begin in the analcime zone of al- teration, and VV begins not far below the top of the scolecite zone (Guðmundsson, 1978). Both VV and MK reach to the uppermost part of the chabazite zone. Table 1. Zeolite zonation in the basalt lava pile of Iceland. – Lagskipting ummyndunarsteinda. Depth below original Alteration zone surface of lava pile m 0–200 Minor alteration, empty vesicles 200–800 Chabazite-thomsonite zone 800–1000 Analcime zone 1000–1600 Mesolite-scolecite zone 1600–2000 Laumontite zone Note: The depths are only approximate, and Walker (1983) uses 600 m instead of 800 m for the position of the top of the analcime zone. Tectonics The lava pile of the Fljótsdalur area may be consid- ered as an isoclinal body dipping gently westwards. In its lowest part exposed at Hengifossá and Bessa- staðaá and in the mountains Múli and Víðivallaháls, dips 8-9◦ towards 280◦E. Variations in the downdip direction are typically ±10◦. The dip angle gradually decreases with increasing elevation, from 4–5◦ at 400 m a.s.l. to less than 3◦ at 600 m. The lava pile is affected by two relatively dense sub-vertical fault and dyke systems, both striking in direction 0◦ to 15◦E. See maps in Guðmundsson (1978) for details. Nearly 100 faults have been ob- served and mapped in the Fljótsdalur area, see Fig- ure 2 for examples. Faulted zones are often 1 to 5 m wide and contain fault breccia. The observed down- throws range between 1 and 40 m. At Bessastaðaá, 85 m movement was observed on one fault and down- throws up to 30–50 m are found in Víðivallaháls. The typical spacing of the faults is 200–250 m. Basaltic dykes are common in the Fljótsdalur lava pile; about 60 of these have been located. The typi- cal thickness of the dykes is 3–5 m, but thinner and thicker (up to 10 m) dykes occur. The dykes are usually continuous and densely jointed (horizontal columns). Thin fault breccia is found at places along the dykes. The longest two dykes can be traced over 15 and 30 km respectively. PALEOMAGNETIC STUDY Description of profiles The work reported here represents a reconnaissance paleomagnetic survey which only covers a small part of the area mapped by Guðmundsson (1978). Sam- ples have been collected from the following four pro- files (Figures 4 and 5) which are thought to overlap in time. In order of decreasing age: VV – Exposures created by a 1979 debris flow a few hundred m north of the farm Víðivellir ytri I. 20 lavas plus one flow unit VV 3B were sampled; these are overlain by poorly exposed tholeiite flows. VS – Small stream at a cottage 2 km north of the Sturluá river, 6 sites were sampled. The profile spans 24 JÖKULL No. 55

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