CONCLUSIONS The stratigraphy of the sections outlined above spans the glacial history of the area, from before the formation of the Búði moraine complex to the postg- lacial marine regression. Four of the dated samples were collected in immediate connection with the Búði moraines proper (Table V). Two samples (Lu- 2404, Lu-2403) are shells collected in situ from a stratigraphic position below the Búði moraines, at Þjórsá (Minna-Hof/Búðaberg and Þrándarholt). One sample was collected from disturbed glaciomarine sediments constituting a morainic ridge at Hrepp- hólar (Lu-2401). These sediments are from a strati- graphic position below the moraines. One sample was collected from laminated marine silts, strati- graphically overlying the Búði moraines at Hrepp- hólar (Lu-2402). The stratigraphical and chronologi- cal evidence suggests that the glacial event, which caused the fonnation of the Búði moraines at Þrándarholt - Búðaberg by Þjórsá and at Hrepphólar, occurred in the period 9.750 BP to 9.600 BP, i.e. during the Preboreal Chronozone. The structural evidence from Búðaberg and Hrepphólar indicates that the glacier advanced across glaciomarine sediments, and the moraine ridges consist mainly of disturbed beds of glacioma- rine diamicton. Further to the southeast, in the general area between Keldur and Gunnarsholt, the moraine ridges are mainly of glaciofluvial sediments and of littoral sand and gravel. This could indicate that there the glacial event was rather characterized by a grounded glacier and a substantial period of ice- marginal sedimentation than of an ice advance. In this area the moraine ridges are connected to the huge sandur plain of Rangárvellir. Three datings indicate the age of this plain, Lu- 2405, Lu-2406 and Lu-2598; all from the westem part of the plain. The age is between 10.015 - 9.500 BP, or Preboreal, and in a good agreement with the age of the Búði moraines. Most of the radiocarbon dated samples come from localities distally to the moraines. They indicate a Preboreal glaciomarine sedimentation and subse- quent marine regression and sediment reworking by TABLE V. Radiocarbon age of samples from strati- graphic positions below, within and above the Búði end-moraine complex TAFLA V. A/dursgreiningar á sýnum undir, í og ofan á Búðagörðum. Lab. no. Sýni Stratigraphic position Staðsetning Corrected 14C age Leiðréttur 14 C aldur Lu-2403 Below the moraines 9.995±90 Lu-2404 Below the moraines 9.855190 Lu-2401 In the moraines 9.7451140 Lu-2402 Above the moraines 9.5951160 littoral and fluvial processes. DISCUSSION Evidence from several recent studies on the Late Weichselian deglaciation of Iceland suggests that ice extent and volume during the last stages of the glaciation were greater than the deglaciation syn- thesis of Einarsson (1968, 1978) concludes. Ingólfs- son (1985, 1987) concludes that in the lower Borgarfjörður area in westem Iceland, the Weich- selian ice did more or less continuously extend beyond the present coastline between about 12.000 BP and 10.300 BP. He found indications of two advances corresponding roughly to the Older Dryas and Younger Dryas stadials in northwest Europe. He also suggests (Ingólfsson, in press) that ice marginal formations in the Borgarfjörður tributary valleys, inferred by Einarsson (1968, 1978) to be of Older Dryas age, are of Preboreal age. Hjartarson (1987) and Andersen et al. (1988) dated shells from glaciomarine sediments in the Reykjavík area, previously thought to be of intergla- cial (Eemian) age. The dates suggest that these sedi- ments are of Alleröd age, indicating that glaciers reached beyond the present coast in the Reykjavík area after 11.000 BP. They also suggest that the Álftanes end-moraine, the traditional type site of the Older Dryas Stage in Iceland, is of Younger Dryas or Preboreal age. JÖKULL, No. 38, 1988 11

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