Fig. 11. The mean vertical density distribution in June 1950- 1958 in the area studied. The density distribution in 1965, 1967 and 1968 is shown schematically. a steady state unless ocean currents disturb the balance. The origin of the cold low-salinity water is still unknown and whether an increased out- ílow of Polar water from the north is involved has not been confirmed. The origin of this water may be north of Jan Mayen (Helland- Hansen and Nansen 1909, p. 319), but local conditions in the Iceland Sea may also be im- portant. In view of what has been said above, suggest- ed future investigations of the ice conditions in the Iceland Sea are the following: a) large- scale observations of atmospheric conditions over the Northern Seas as well as less exten- sive observations in the Iceland Sea, b) con- tinuous study of the distribution of drift ice north of Iceland and c) intensive hydrographic investigations in the waters north and east of Iceland. CONCLUSION The main results of this paper indicate that the proportion of Polar water has increased in the Arctic water of the East-lcelandic Current northeast of Iceland during the last years com- pared to the period 1948—1958. That means that the East-Icelandic Current which was an Arctic current in 1948—1958 has developed in- 42 JÖKULL 19. ÁR to a Polar Current in 1964—1968. An Arctic current disfavours preservations and íormation of sea ice because a slight vertical stratifica- tion gradient in the surface layer of such a current prevents the water masses to cool down to freezing point without starting a vertical convection. Polar currents, on the other hand, transport sea ice as far south as the Polar current maintains its characteristics: a strong vertical stratification gradient due to low salinity in the surface layer, a stratification which will prevent a deep vertical convection even at temperatures of — 1.8° C. Thus the East-Greenland Current transports ancl even preserves the polar ice from the North Polar Sea. The following may be concluded: There is no ice in an Arctic current but conditions in a Polar current favour sea ice. Thus a close relationship is found between the drift ice conditions in Icelandic waters, which were ex- tremely unfavourable in the spring of 1965, 1967 and 1968, and the hydrographic condi- tions in the East-Icelandic. Current. This rela- tionship throws light on the physical causes of the drift ice situation. Although the drift ice situation is a complex one, depending upon climatological factors, it is considered that once the current has acquired this polar character it promotes the formation of sea ice in the

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