tephra layers from Katla are most prominent, ranging in thickness from a few mm to tens of cm. The most coarse grained tephra layer has a maximum grain size of 25 mm but submillimetre material is dominant in most Katla layers. Tephra from more distant sources is restricted to the submillimetre grain size and dif- ferent chemical composition is reflected by different hue of colour, which is however often difficult to dis- cern in the wet sediment of the bog. The tephra layers constitute roughly 27% of the total thickness of the sequence presented on figure 5 but this percentage is likely to vary within the bog. The most important tephra layers for the present studies are the landnám layer and the K—1357 tephra layer. The former originated in the Vatnaöldur—Hrafntinnuhraun crater row some 70km to the north (Larsen, 1978; 1984), and is thought to have been deposited around A.D.900, near coinci- dently with Norse settlement in Iceland (Einarsson, 1963; Thórarinsson, 1967). This Landnám-tephra is a most valuable isochrone which divides the deposits into pre-Landnám and post-Landnám and greatly facilitates the observation of changes caused by the Settlement. The tephra from the Katla eruption of — 1357 forms the thickest tephra layer deposited in the Mýrdalur district during historical time. The Ketilsstadir bog lies within the lOOmm isopach but locally thickness may exceed 200mm. This was probably the worst catastrophe that has hit the area smce it was settled and damage to the vegetation must have been extensive. The tephra fall and abandoning °f farms as a result of it are only vaguely mentioned in old annals (Einarsson et al., 1980). Other dated tephra layers identified at Ketilsstadir are from the Hekla eruptions in 1341 and 1597 and the Katla eruption of 1580 (Larsen, 1978). No attempt was made to identify younger tephra layers because the topmost part of the soil at the Ketilsstadir bog has been disturbed by ploughing, prior to reseed- ing. geomorphology The basin is almost completely enclosed, one of a series of bogs that drop in a staircase from Oddnýjar- tjörn at 92m a.s.l. to sea level (fig. 2). The stream which drains from the lake and the upper basins now flows to the west in a steep-sided valley and avoids the main bog at Ketilsstadir, which is drained over a rock lip to the south and on to the lowest of the bogs, close to sea level. The basin appears to have been glacially overdeepened and much of the sediment brought into the basin during the Holocene has been trapped. Fig. 6. Ketilsstadir: variation in inorganic content of peat at section BRl. — Mynd 6. Breytingar á magni ólífrœns efnis í mó úr sniði BR I í mýri við Ketilsstaði. Material moving off the encircling steep slopes and any aeolian sediment has also been caught. Sections through the bog thus provide information on the evo- lution of the area, perhaps since the end of the last glaciation, although present exposures only cover the Iast two thousand years. A section, at about the centre of the basin, shows an intercalation of tephra layers with peat and organic silts (fig. 5). Close to the surface, the peat is extremely fibrous and of a reddish-brown colour but, at greater depths, it is more compressed and humified. Towards 45

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