Fig. 1. The Fossvogur sedimentary layers. Note the coarse glacial till layers of the Younger-Dryas rest- ing on the Alleröd fine marine fossiliferous silt. This site is now hidden by a land-fill. Photo Á.Hj. Mynd 1. Fossvogslögin við utanverða Nauthólsvík. Grófur jökulruðningur frá yngra-dryas hvílir á fín- gerðu lagskiptu seti frá Alleröd skeiði. Þessi staður hefur nú verið huiinn með uppfyllingu. Ljósm. A.Hj. but a period of altemating glacials and interglacials. He inferred an old age of the Fossvogur layers from the hardness of the sediments, from calcium car- bonate in cracks in the layers, and from calcite nee- dles that have sometimes formed inside the shells. He also thought that he could identify glacial stria- tions on top of the uppermost till (Péturss, 1905). Péturss (1909) wrote about "die Fossvog-Inter- glazialzeit" without placing the layers in any inter- national geochronological system. In Einarsson (1968), Péturss’ ideas have been developed into a statement that the layers were formed during Eem, the last interglacial. This age has been accepted by most textbooks on the stratigraphy of Iceland (Einarsson, 1971, 1978; Einarsson, 1972; Guð- mundsson, 1982) Recent observations have shown that some Ice- landic sediments can become a solid rock in a short period. The consolidation is especially rapid at high temperatures in tephra (Jakobsson, 1972 and 1986), but even at low temperatures sediments mixed with tephra can consolidate in a relatively short period of time (Hjartarson and Gísladóttir, 1982). Dating of shells from the Búði end-moraine in Southem Ice- land, has shown that calcite fillings are present in Preboreal shells (Hjartarson and Ingólfsson, 1988). This was why a radiocarbon dating was performed on a shell specimen from the Fossvogur layers. The dating, that was made at the University of Lund, Sweden, revealed an age 100,000 years younger than expected. The layers were found to be from the Alleröd Interstadial and not from the Eem Intergla- cial (Hákansson, 1987; Hjartarson, 1987). This con- clusion has been disputed (see Hjartarson, 1988), but subsequent radiocarbon datings performed at the Aarhus Tandem Accelerator show a similar age (Andersen and others, in press). They were the first datings of Icelandic material made by accelerator mass spectrometry. THE SEDIMENT SUCCESSION AT NAUTHÓLSVÍK The first dated shell sample from Fossvogur, the much disputed sample from 1985 (Lu-2599, Table I), was taken from a small outcrop above the sand beach by the boat harbour at Nauthólsvík (Fig. 2), about 3 m above sea level. The sampled Mya trun- cata (Icel. smyrslingur) were in situ, i.e. the bivalves are roughly in the position that they were in when the creatures lived. Macoma calcaria (Icel. hallloka) and Balanus (Icel. hrúðurkarl) are also found at this exposure. The sediment forms a steep cliff named Kýrhamar just west of this outcrop. A coarse wedge of till is found at the foot of the cliff. The till was deposited by a glacier that covered the Fossvogur area prior to the formation of the Fossvogur layers. A 5-6 m thick layer of sediment lies on top of the till. It can be divided into several units (Fig. 3): 1. A shell-free varved silt at the base. 2. A dark coloured poorly stratified layer of fine sand, fairly rich in shells. 3. A lighter coloured and layered unit of coarser sand with gravel clasts. This unit is not as rich in shells as the underlying one. 22 JÖKULL, No. 39, 1989

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