region. Since basement has been reported to be near the surface farther south (Stride et al., 1967) a graben-type structure is probably pre- sent. The center is filled with transparent sedi- ments. The upper 500 meters of sediment on the ridge crest are characterized by a number of highly reflective layers. It is suggested these may represent ash layers from the various near- by volcanic centers. Ash layers, like sands, form opaque layers to seismic reflection techniques (Worzel, 1959; Ninkovich, 1968). An alterna- tive suggestion would be the opaque layers are lag deposits of sand and gravel deposited dur- ing times of high current velocity. Fig. 4, profiles B left end, C center ancl D center have anomalous areas of sea floor. In B and C the bottom is corrugated causing a dif- fraction of the seismic energy. In profile D this appears to be an erosional feature which has either eroded or prevented deposition in the soutli side of the basement high. The sculpting effect of bottom corrents to create a corrugated sea floor (abyssal anti-dunes) is well documented as is the erosional power of bottom currents (Fox et al., 1968 and Johnson and Schneider 1969). Jones et al. (1970) suggested that the large sediment accumulation at the northern flank of Iceland—Faeroe Ridge was due to a more tranquil environment. These profiles dispute this statement as it appears that bottom currents are certainly at least local- ly active between 1200—1600 fathoms in the Norwegian Basin. ORIGIN The origin of the Iceland—Faeroe Ridge is uncertain. Ample outpourings of lava along a broad linear belt between Greenland and Scot- land produced and are still builcling the Green- land—Iceland—Faeroe Plateau. Menard (1969) suggested that a local “hot spot” may exist at depth over a long periocl of time. As a parcel of crust in response to sea floor spreacling travels over this center it is injected with magma. This will result in an elongated rela- tively smootli ridge íormed perpendicular to the axis of spreading. This is a possible ex- planation for this rather unique ridge. One weakness, however, is that the ridge should shift its strike in response to the shifting axial direction of the Reykjanes Ridge as reported by Avery et al. (1969). The Faeroe Ridge section does strike more south-easterly than the Iceland-Greenland Ridge (Denmark Strait); however one would expect symmetry with dist- ance from the axis of the Mid-Oceanic Ridge which is not apparent on these two massive ridges flanking Iceland. Morgan (1971) has proposed that aseismic ridges such as the Iceland—Faeroe are con- structed by ascending deep mantle plumes. This is an expansion of the idea originally proposed by Wilson (1963). Morgan, however, prefers to use the deep mantle as a source rather than the upper mantle. The idea is as yet unproven: for instance Knopoff (1970) states that lower mantle fluids are too viscous to readily flow. Under this scheme horizontal currents in the asthenosphere will flow radially away from each of these plumes with the motion of the plates recorded by the aseismic ridges. Since Iceland probably at one time ex- tended north to Jan Mayen to include the Iceland Plateau (Johnson and Heezen, 1967) it would appear that the hot spot may be diminishing in thermal energy or else is cur- rently expending it along the recent Mid- Oceanic Ridge on the western edge of the Ice- land Plateau and southward along the Reykja- nes Ridge. ACKN OWLEDGEMENTS Data tuas reduced by Miss Elleyn Johnson. R. Higgs of the U. S. Naval Oceanographic Office reviewed the manuscript and offered many helpful suggestions. REFERENCES Avery, O. E., G. D. Burton, J. R. Heirtzler. 1968: An aeromagnetic survey of the Nor- wegian Sea. ./. Geophys. Res. 73, 4583— 4600. Avery, O. E., P. R. Vogt and R. H. Higgs. 1969: Morphology, magnetic anomalies and evo- lution of the northeast Atlantic and Labra- JÖKULL 21. ÁR 51

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