Fig. 15. Tectonics of the Krafla fissure swarm in northern Iceland. Different parts of the swarm rifted during different deflation events of the Kra- The faults and fissures with their vertical hade and horizontal opening are intimately associated with dyke injection as is best seen in the dissected older lava piles, where the majority of faults and dykes stand nearly normal to the stratification im- plying a subvertical attitude at the time of for- mation. Normal faults with a hade of up to 60“ also occur. Their relation to the vertical fractures and dykes has not yet been analyzed. However, the normal faulting is probably contemporaneous with the latter which is in accordance with the prominent graben structures of the fissure swarms. The throw of individual faults is anywhere from a few meters up to several hundred m. The width of dykes varies from less than a metre up to more than 20 m. Most commonly the thickness is in the range 1—3 m. Most of the fissure swarms are focussed on a central volcano, these together constituting a vol- canic system commonly between 50 and 100 km long and 10—30 km wide (Fig. 15). The central volcanoes have many characteristics that make them stand apart from the rest of the fissure swarms. They are the locus of most frequent erup- tions and maximum lava production on the swarm making them topographically distinct. Acidic rocks are virtually confined to them and many of them have besides an elongated fissure swarm a more local fissure system of circular outline developed about a caldera. The majority of the eroded central volcanoes studied sofar have calderas varying in diameter from about 5—10 km. Most of them also developed cone sheet swarms extending well beyond the caldera margins. Of some 13—15 cen- tral volcanoes in the axial rift zones at least 7 have reached the caldera stage. Caldera collapse has been related to either explosive acidic eruptions producing sheets of ash flow or air fall tuffs (Krafla, Tindfjallajökull, Askja) or to withdrawal of magma from magma chambers underneath them (Askja, Grímsvötn). The central volcanoes of the axial rift zones have low relief relative to their surroundings (Reykjanes Peninsula, northern volcanic zone) ex- cept where they grew under glaciers. In that case most of the eruptive products piled up around the core area of the volcano as hyaloclastite and pillow flacentral volcano. The space between the 31. Oct. 1976 and 6. Jan. 1978 events rifted during a deflation event of 13. May 1979. Areas of rifting from Björns- son et al., 1979. Neighbouring fissure swarms are shown also. 22 JÖKULL 29. ÁR

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