level. In some cases a correlation between the changes of sea-level and of climate is rather striking. This has induced me to make the following attempt of correlation and division of the development into stages. St. 1. After a period of volcanic activity (Stangarhorn basalts) and tectonic movement, follows a long time of ero- sion with deposition of the river gravel H2a. Compared with later events the sea-level was high, and relatively warm climate will be taken to be implied. St. 2. Downcutting of this deposit suggests lowering of sea-level due to increase in glaciers and colder climate. St. 3. Possibly a 50—60 m deep lake occupied the area. But if H2b is marine, the implication is a rise of sea-level by some 50 m. Most of H2b can be con- sidered as foreset beds, but deposition seems to end with topset gravel, H3. St. 4. This was at the same time the begin- ning of a new stage: erosion, frost heaving, cryoturbation which imply some lowering of sea-level coupled with a cold spell. St. 5. Rise of sea-level and deposition of the rather unstable clay H4, with drifted stones. This suggests the melting of glaciers, with warmer climate. St. 6. A new drop of sea-level caused greater instability of H4 and some plastic movement. H5 is the result of very slow deposition, possibly due to colder cli- mate, in shallow agitated water. St. 7. Some tectonic movement with slight eastward tilting. Erosional period. Local denudation of the existing hardened sediments. Delta formation Hg/7 and Hn. Later fluviatile transport of basalt from a greater drainage area, as evi- denced by H7 to Hs- St. 8. Rise of sea-level, deposition of Hs- Probable beginning of new volcanic activity. St. 9. Towards the end of Hs the deposition became slow and the sea was cold, as evidenced by the state and fauna of Hg. Sea-level dropped; H9 was weath- ered; gravel and bog-iron. It may have been this sinking of sea-level that made the clay in Hg unstable, with a resulting heavy disturbance of the strata. St. 10. Rise of sea-level; Hio with warmer sea than in Hg. Probably change of mag- netic polarity. St. 11. Fall of sea-level, erosion of Hio, beach shingle (12x). Probably Polar drift ice, cf. below. St. 12. Rise of sea-level, sandstone of Hi2. Warm. St. 13. Some fall of sea-level; beach shingle, H13. St. 14. Risé of sea-level; H14, warm. St. 15. Fall of sea-level. Beginning of main vol- canic phase of Ri. All in all we find 7 low-level periods, more or less clearly corresponding to relatively cold clim- ate, and 7 high-level periods corresponding to relatively warmer climate. Thus, the Breiðavík deposits would seem to contain a record of a long sucession of eustatic fluctuations of sea- level and of climate preceding the major Pleis- tocene fluctuations. Our dating would lead to a duration of the order of 100 thousand years for each period, i. e. a cold and a warm spell, and this is at any rate comparable with the results for the later part of Pleistocene (Emi- liani 1958). Finally it should be mentioned that the in- ferred eustatic fluctuations of sea-level were superimposed on a progressive sinking of the area wliich amounted to about 200 m, using Strauch’s figures for the thickness of the se- diments above the top of H2a. The Lower Sediments of Tjörnes indicate still earlier fluctuations. First, the Cardium (Serripes) Groenlandicum zone of Bárðarson (the topmost zone of the Lower Secliments) records the invasion into Icelandic waters of a new rich northern fauna, and lowering of tempera- ture. If we accept that between the normally polarized Stangarhorn basalts and the basal normal lavas of the Intermediate basalts there is one reverse lava group (Tr. Einarsson 1958) then the age of this invasion may be late N3 or perhaps something like 4 million years. The Lower Sediments have a total thickness of about 550 m (Strauch’s estimate) and there is a rapid alternation of marine and terrestrial sediments. This shows that sedimentation near- ly kept pace with the progressive sinking. The 6 JOKULL 1963

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