ever, this cannot be decided without further investigations. When the glacier margin was at the Mikla- fell end moraine the glacier did not overrun the 1300 m high Miklafell (ca. 500 m above the surroundings). This can be seen from the ice-contact slope on the mountain side. In the north it lies at about 800 m a.s.l. and rises southwards to about 840 m. Further south all evidence of the ice margin along Miklafell is destroyed by glacial rivers, recent end morai- nes and talus. The Fjórdungsalda moraines I, II and III Three end moraines were found on the plains to the east of Miklafell. They trend in an east-westerly direction perpendicular to the present Hofsjökull margin. Since there are only 1—2 km between them they will be dis- cussed together. The northernmost one, Fjórdungsalda I, can be traced over a distance of about 14 km, from Kvíslarhæd to Fjórd- ungsalda, from which it derives its name (Fig. 1). The ridge is 200—300 m broad, and not more than a few meters high, so it is not very prominent except on airphotos. To the west the end moraine disappears beneath a wide outwash plain from the Fjórdungsalda III moraine and a recent glacial river from Hofs- jökull. The material in the ridge is a rather coarse grained till with a stony surface. The two other ridges are not as broad as the first one and cannot be traced as far. Inside Fjórdungsalda II the fluted moraine indicates an ice movement towards north- northeast and even more easterly inside Fjórdungsalda III. FLUVIOGLACIAL DEPOSITS The major part of the fluvioglacial deposits in the present area are proglacial sandur- plains, formed in front of the retreating glacier at different stages. Such deposits are found in front of the Raudhólar, Vesturbugur-, Mikla- fell- and Fjórdungsalda III end moraines. The material in most of these deposits is very similar to the material in the Raudhólasandur formation (Fig. 6) but for the boulder content. Fig. 11 shows a reconstruction of the position of the glacier margin at different stages and the respective proglacial sandur- plains. On Fig. 11 IV the present Hofsjökull is shown. The dark colored sandur-plains on the figure have been deposited by glacial rivers from Hofsjökull. At present the glacial rivers only deposit material near the glacier, but farther downstream they cut channels into older sandur-plains or other sediments. Fossá in the west of the area and Austari-Jökulsá in the east can be mentioned as examples. Most of the fluvioglacial deposits in the area shown on Fig. 11 originate from the retreating ice in Lateglacial and Pre-Boreal time, and not from the present Hofsjökull. Hofsjökull reached its maximum extent in Holocene time about the year 1890, but since 1920 it has been retreating from its outermost moraines. Hence, the meltwater supply from Hofsjökull can be assumed to have been greater during this century than ever before during the Holocene, and furthermore, most of the fluvioglacial sandur-plains formed by the rivers from Hofsjökull were deposited during this century. DISCUSSION The position and direction of the Late- glacial end moraines indicate that the Hofs- jökull area was not an independent glaciation centre as it is at the present time. Most likely no glacier existed on the Hofsjökull mountain area except on the highest peaks, when the Miklafell moraine was formed. The explan- ation for this was the almost complete rain shadow to the north and northwest of the in- land ice sheet. Today the prevailing rain car- rying wind direction in Iceland blows from the south and southeast. There is a great dif- ference in the amount of precipitation south and north of the large ice caps, because the humid winds loose their precipitation on their way over the mountains. To the south of Vatnajökull the precipitation is 2000—4000 mm/year but only 400— 1200 mm /year to the JÖKULL 28. ÁR 27

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