logy of ice sheets from the central highlands, show- ing Mid-Hérad, Fellaheidi, and themouth ofjökul- dalur. The landscape forms are rather different from those shown on Fig. 4. The arrows show the main direction of flow of those glaciers responsible for the formation of the landscape. From them it can be seen that these glaciers have moved over an undulating surface and eroded it according to their direction of flow. On the other hand it can also be seen that the main direction of flow has adapted itself somewhat to the Iarger landforms such as Fljótsdalshérad and Jökuldalur where glacial ero- sion has been very active. Fellaheidi displays con- siderably less of the characteristics ofglacial erosion so that the glaciers there have been considerably less active, and in all probability itwas an accumu- lation zone, so that it was completely ice covered, although it can be considered likely that Rangár- hnjúkur and Sigurdargerdisbjarg where nunataks for long periods of time (Fig. 5). MARINE EROSION As to be expected in an oceanic island the coast of Iceland is much eroded by the sea i.e. wave-cut clifFs, sea crags and íjord promontories. The more outstanding examples ofsuch formations are shown on the map of Iceland in Fig. 3. There it can be seen that they surround the land almost completely ex- cept in the geologically youngest parts and farthest inland in the íjords and inlets. Their development is at various stages, depending on situation and part of the country. It is noteworthy that highly develop- ed marine erosion is associated with the alpine geo- morphology in all headlands and fjord promontor- ies, where coastal clifís rising several hundred met- ers directly out of the sea are widespread or have a low coastal rim beneath them. Relative to the present day strandline the strand- flats appear to be higher in the south and westofthe country than in the north. From Gerpir southwards and westwards as far as Stálfjall and Látrabjarg there are strandflats in front ofalmost all headlands, but hardly at all underneath headlands in the west- ern fjords, northern Iceland or the eastern fjords north of Gerpir. I have not seen or found any satis- factory explanation for this phenomenon, but the strandflat is ofgreat importance to the road system. Where the marine terrace is availabfe the mountain roads are both few and Iow. The Norwegian Reusch (1901) introduced the term strandjlat in 1894, and he believed it to be the result of marine erosion. Since then various theories have been put forward as to its formation, for in- stance Nansen (1922) and Holtedahl (1960), the form- er rather favouring marine erosion with a mixture of glacial erosion, and the latter favouring nearly en- tirely glacial erosion. As regards strandflats in Ice- land, I lean towards the opinion that marine erosion in collaboration with piedmont glaciers and sea ice are responsible for their formation. It is also advis- able to keep in mind that when marine erosion at the coastline of an ice covered land, in the Quat- ernary Era, is compared to the coast of an ice free land then relative strandline changes are very un- like because of the interplay of land submergence caused by ice pressure and a Fa.ll of sea level due to glacier formation. Marine erosion could have been more effective on a glacially eroded land, especially since erosion by fjord glaciers helped to keep the coast open for attack by the sea. It is clear that most of the more important wave- cut cliffs and promontories in the south and west of the country have been eroded and have acquired their present appearance at a higher strandline than that of today. Widespread erosional forms suggest a strandline 20-40 m higher and even higher, for in- stance in the inner part of Faxaflói, where marine erosional forms appear to extend upwards to over 100 m a.s.l. It is now known that the strandline in Iceland reached from 40 m and up to as high as 100 m in different areas, at the close of the last glaci- ation. On the other hand I consider it out of the question to attribute to such a sea level rise ofshort duration, the formation of wave-cut cliffs and pro- montories such as Gvendarnes, Austurhom and Vesturhorn, Lómagnúpur, Eyjafjöll, Esjuhlídar at Kjalarnes, or Hafnarfjall, to name a few examples. In fact nearly all the coasts of Iceland display evid- ence of severe marine erosion in Quaternary time (Fig. 3). In my opinion another explanation must be sought for this, rather than the short-term, re- lative rise in sea level, at the end ofeach glaciation. Because of the storage of water in Pleistocene glaciers the surface of the world‘s oceans fell about 100-125 m during the last glaciaúon and even as much as 160 m when the ice age glaciers reached their greatest extent in the Quatemary Era (Seibold 1974), but in addition Iceland was submerged to some extent due to the weight of ice. Most authors have however tended to the opinion that the strand- line in Iceland has been somewhat lower than to- day, even to the extent of several tens of meters. I 92 JÖKULL 33. ÁR

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