Fig. 5. Block of soil > 90 m long and > 2 m thick at Höfðabrekkujökull. Trans- ported by the Katla flow of 1721 or 1755. Mynd 5. Jarðvegstorfa meira en 90 m á lengd og meira en 2 m á þykkt, sem hlaupið 1721 eða 1755 hefur borið fram. probably too high, 950-1000 tons is perhaps more realistic. The density of the boulder, which is com- posed of hyaloclastite is 2. 64 g/cm3. It is supposed to have been carried passively along in a laminar flow. The density of the debris flow I have earlier estimated to be 2.6-2.7 g/cm3. This has been criticized as being far too high a value. In this respect it is worth pointing out that a density figure rneasured by Rist (1955) on silt from Skeiðará flood was 2.2 g/cm3. A density value of 2.5 g/ cm3 for the Katla flow is hardly too high. The water content of the Kada flows has long been a riddle just because of the prevailing mis- understanding of the true nature of the flows. Al- though the total amount of water certainly is high, it does not need to be so percentually. It is considered that the first — and main phase of the Katla flows consists, by at least 80%, of solid material and accordingly these are true debris flows. They are besl described as volcanoglacial debrisflows. (Jónsson op. cit.). Nothing is known of the submarine continuation of the flows but they are supposed to give rise to turbidity cur- rents. Submarine sedimentary ridges, for which Malm- berg (1978) suggests the name Katla ridges, are between canyons cutting the Icelandic continental slope to the south of Iceland at 18°-19° west, i. e. south of Mýrdalssandur. Perhaps their origin is the Katla flows? Walker (1972) describes material from a deep sea core in the Iceland Basin just south of 59°N which he states to be “compatible with an Icelandic origin and carried in by turbidity flows.“ His opinion is that intraglacial eruptions in Iceland constitute the most plausiblesourceofthematerial. The origin of this material might be the Katla de- bris flows. An eye-witness, HaraldurEinarsson, stated that the iceblocks seemed to sink down when the flow reached thesea. Similarflowshaveoccurred on — and partly formed — the Sólheimasandur (Ein- arsson et al. 1980) and a birch forest on the upper- most part of Skógasandur seems to have been de- Fig 6. The Kötluklettur (Katla rock). Approx. 950-1000 metric tons. Transported by the Katla flow 1918. Mynd 6. Kötluklettur um 950-1000 tonn, sem hlaupið 1918 barfram. JÖKULL 32. ÁR 65

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