Árni Hjartarson Figure 6. Alkali-silica diagram of geochemical data of rock samples from the stratigraphic units of the Tinná Group (Hjartarson et al. 1998, Hjartarson 2003). – Efnagreiningar á bergsýnum úr Tinnáreldstöðinni. Intrusions Intrusions and dykes related to the Tinná Central Vol- cano are not conspicuous. The most common dykes in the area are basaltic ones, ranging between 1 and 5 m in thickness, but they can reach up to 40 m in thickness. The average thickness is around 4 m. These dykes penetrate the strata pile below the vol- cano and many of them cut the formations of the vol- cano itself, though none are seen to be connected to a distinct volcanic formation. Acid dykes are seen in Vesturdalur only near the river Fossá. As a gen- eral rule the dyke intensity becomes higher with in- creasing depth; they are rare at the highest exposed levels but can occupy 10-20% of the rock volume in dyke swarms at low levels. In the Skagafjörður Val- leys the dyke intensity is much lower, i.e. about 7% at the maximum. Dyke swarms, which are often associ- ated with magma chambers and central volcanoes in Iceland (Guðmundsson 2000), have not been detected in the Skagafjörður Valleys. Intrusions other than dykes are small and rare. A few cone sheets from the last episode of the vol- cano have been found near river Fossá in Vesturdalur, as has already been mentioned. The mutual reason for the lack of intrusions and dyke swarms is that the volcano is so moderately eroded, and its roots are located deep below the valleys. This is also in- dicated by a low degree of alteration and zeolitisa- tion. The Tinná Group is mostly situated inside the uppermost alteration zones i.e. the zeolite-free zone and the chabazite-thomsonite zone, showing that the group was never buried below a thick pile of more recent lavas (Walker 1960). No signs of geothermal fields or high-temperature areas have been found in the vicinity of the volcano. Such areas are associated with most central volcanoes in Iceland (Sæmundsson 1979). Geochemistry About 30 analyses of rock samples from all the main stratigraphic units of the Tinná Central Volcano have been carried out (Hjartarson et al. 1998, Hjartarson 2003). Figure 6 shows an alkali-silica diagram of the samples according to international standards (IUGS) (Le Maitre et al. 1989, Figure B.13). The conclusion of the analysis is that basic, andesitic and acidic rocks from the volcano follow a tholeiite trend. The trend, appearing here, is close to the one that has been found for the Þingmúli Central Volcano in East Iceland and is often used for comparison (Carmichael 1964, Hjart- arson et al. 1998, Hards et al. 2000). The main rhy- olite formation of the Tinná Central Volcano is very high in silica, or up to 75% SiO2. The geochemical 42 JÖKULL No. 55

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