segja, að Guðrún Larsen hefur tjáð mér, að hún hafi fundið það á Búrfellshálsi NV af Heklu, rétt ofan á lagi, sem skv. C14 aldurs- ákvörðun er ég fékk gerða fyrir löngu, er um 2700 ára. Nú er móhellan miklu eldri en eldra trefjalagið, líklega svo þúsundum ára skiptir. Það virðist því auðsætt, að yngri sandhóla- myndunin á Hellnaskaga er miklu eldri en svo, að hún geti verið frá mótum járn- og brónsaldar. Mætti geta þess til, að hún væri frá upphafi síðara birkiskeiðs fyrir um 5000 árum, en hún kynni að vera allmiklu eldri. Samanburður á gjóskulagasniðunum á 18. mynd bendir til þess, að myndun yngri sand- hólanna hafi tekiö stuttan tíma. ABSTRACT Miscellanea from excursions through South Iceland After their first year of geoscience studies at the Umversity of Iceland the students take part in a com- pulsory one-week excursion through South Iceland. This paper presents some observations and measure- ments made mainly during these excursions. I. KIRKJUGÓLF Kirkjugólf (Church floor) is the name of a famous site of jointed basalt near Kirkjubœjarklaustur in the Sída district. The floor (Figs. I and 7) is the surface of a jointed basalt lava layer, which has been eroded by ice or/and abraded by the sea and, ultimately, polished by sandstorms. It has irregular outlines (Fig. 1 and 6), covers an area of about 80 m2 and is composed of about 1060 pillars. The percentage distribution of the pillars with regard to the number of their sides and average diameter is shown in Table 1 and in the diagrams on Figs 3 and 4. The Kirkjugólf was long thought to be a real church floorfrom Catholic time, or to have been used as such, although natural. The interstices between the pillars, formerly interpreted by many observers as cement, are in reality a few mm thick surface layer on the sides of the pillars. This layer tends to separate from the pillars, through weathering, as a thin layer immediately inside it is more vesicular than the rest of the pillars (Fig. 5). II. BLOCKS OF ANKARAMITE ON SÓLHEIMASANDUR S. Steinthórsson has descnbed an outcrop of basic highly porphyritic rocks at the base of Hvammsmúli in the Eyjafjöll dislnct, South Iceland. He classified these rocks as ankaramite. As the main road through the Eyjafjöll district has recently been moved some- what southward from this outcrop it is pointed out that this interesting rock type can be studied injökul- hlaup-transported blocks on Sólheimasandur near the eastern head of the bridge across Jökulsá (Fig. 9). These blocks originate from a layer of ankaramite lava north-west of the snout of Sólheimajökull. The rock knoll Arnarhóll on the NW-side of the lagoon Holtsós is built up of similar rocks as those at the base of Hvammsmúli. III. SOLIFLUCTION TERRACES ON THE SOUTH SLOPES OF PÉTURSEY Contrary to most other talus slopes m Iceland, those in the distnct Vestur-Skaflafellssýsla are covered by humus soil andgrass-grown up to the rockwalls above them. On many of these slopes, especially in Mýrdalur and Sída, the surface layer of the soil is regularly folded in a washboardlike fashion. An impressive example of this folding is seen on the south slope of mount Pétursey in Mýrdalur, as shown on the photos Figs. 10—12. The talus slope on Fig. 10isabout75 m high, the average angle of the slope 35° and average vertical distance between the terraces 67 cm, the horizontal distance about 1 m. Figs. 11 and 12 show details of the slope. IV. ONTHE AGEOFTHE HELLNASKAGI DUNES On some stretches of the sandy south coast of Ice- land there are rather large fossil dunes. Hellnaskagi in Reynishverfi (Fig. 13) is a row of such dunes, forming a rather narrow ridge running westward from the Reynisfjall mount. Its seafacing side is almost vertical and at its base are some caves formed by wave erosion. A partly man-made cave, Bæjarhellir, is higher up in the south wall (Figs. 13— 15). In this cave Reverend Jón Steingrímsson, the renowned de- scriber of the Lakagígar eruption in 1783, spent the winter 1755/56. In the back wall of the cave 80 JÖKULL 31.ÁR

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