The Late Miocene Tinná Central Volcano, North Iceland data indicate a volcano from an axial rift zone and not an off-rift volcano (Lacasse and Grabe-Schönberg 2001). Size and age The total volume of the Tinná Central Volcano can be roughly estimated. Its base at the bottom of the Ágúll Dome is about 30 km wide and the average thickness 300 m. If it is assumed to be semicircular, its area is 700 km2. Hence the volume would be 0.3 km x 700 km2 = 210 km3. Here the 300 m thick Fjóslækur basaltic formation below the volcano is not taken into account. For comparison, the Breiðdalur Central Vol- cano, East Iceland, has been estimated to be 400 km3 (Walker 1963). (If the rhyolites of Torfufell belong to the Tinná Central Volcano, it would be≈500 km3 and among the greatest ones known in Iceland). The age of the Tinná Central Volcano is based on an Ar/Ar-date from the Skati rhyolite dome (Hjartar- son 2003). This gives 5.212±0.016Ma. There seems to be some disharmony between this age and the mag- netic polarity. The polarity of the rock is reverse but at 5.212 Ma the Earth’s magnetic field is supposed to have been normal, representing the Thverá subchron (C3n4n), the lowest normal interval of the Gilbert po- larity chron. Before the Thverá subchron a rather long reverse subchron occurred, representing the low- est part of the Gilbert polarity chron, C3r, 5.89–5.23 Ma (Cande and Kent 1995). The Skati Dome is as- sumed to belong to the central or the lower part of this subchron (Figure 7) and its Ar/Ar-age might be there- fore slightly too low. A more credible age would be 5.5 Ma. The lifetime of an ordinary central volcano is 0.5– 1 Ma (Guðmundsson 2000). After that it cools down and is buried by younger lavas while it drifts out of the active volcanic zone. The Tinná volcano seems to be typical in this respect, since it remained active for at least three polarity subchrons (C3An.1n–C3r– C3n.4n), from c. 6 Ma to 5 Ma. This was the end of the Miocene and beginning of the Pliocene (Harland 1989). The Ar/Ar-age of the Tinná Volcano indicates its origin in the North Iceland Volcanic Zone that took over the spreading in North Iceland some 6–7 mil- lion years ago (Sæmundsson 1979). Since then it has drifted out of the zone towards west and belongs to the North American crustal plate, located some 100 km from the axis. Figure 7. Stratigraphy and history of the Tinná Cen- tral Volcano. A simplified geological column. The thickness of the formations is given in m on the left. – Jarðlagaskipan og saga Tinnáreldstöðvarinnar (ein- földuð mynd). Þykktir helstu myndana eru gefnar á kvarðanum til vinstri. Distant correlation The Skati tephra might be recognizable in ODP cores from the ocean floor around Iceland. Lacasse and Garbe-Schönberg (2001) studied the explosive vol- canism in Iceland and the Jan Mayen area during the last 6 million years from tephra layers found in the deep-sea cores. They recreated a composite marine JÖKULL No. 55 43

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