Símonarson and Leifsdóttir Table 3. Recent Tridonta borealis from southwest Iceland compared to T. placenta from the interglacial deposits in Stöð, Snæfellsnes, western Iceland. In both cases 15 specimens were measured. – Yfirlit yfir helstu einkenni gimburskelja (Tridonta borealis) og legskelja (Tridonta placenta) úr hlýskeiðslögum í Stöð á Snæfellsnesi. Í báðum tilvikum voru mæld og skoðuð 15 eintök. Species Shape Ratio Ratio Hinge Adductor scars Periostracum h/l * w/l ** Tridonta Triangular - 0.88 0.40 Two anterior Anterior muscle scar Rather stiff with faint borealis ellipsoidal and laterals in the kidney-shaped growth lines or smooth rather flat right valve and glossy, yellow white-dark brown Tridonta Ovate - elongated 0.68 0.31 One anterior Anterior muscle scar Rather loose with faint placenta and very flat lateral in the banana-shaped - growth lines or frayed, right valve elliptical dull and non-glossy, brown-dark brown *ratio height/length ** ratio width/length cella lapillus, Mytilus edulis, and Semibalanus bal- anoides. The molluscs belong to theMytilus-Littorina epifaunal bottom assemblage indicating sea tempera- tures similar to those of the present day in the area (Leifsdóttir, 1999). The number of species decreases strongly upward in the Höfði Member and in the up- permost part we have only found three molluscan species where trace fossils, mainly foodichnia and domichnia, are common. All the species found in the Búlandshöfði Forma- tion are extant, living in Icelandic waters today, except the prosobranch gastropod species Littorina littorea and Tachyrhynchus erosus and the bivalve species Portlandia arctica, Tridonta placenta, and T. mon- tagui warhami. The faunal assemblages are North Atlantic and 37 of the species found are living in arctic seas, but 31 of them are also found in boreal seas south of Iceland, and nine reach the lusitanian region in their distribution. The arctic assemblages in the Búland Member with P. arctica as a prominent species, a cold water species not living in Iceland to- day, strongly indicate arctic sea temperatures during deposition (Leifsdóttir, 1999). On the other hand, the assemblages in the sediments of the Höfði Member contain thermophilic species which indicate sea tem- peratures similar to those of the present day in the area and increasing sea temperature while they were deposited (Leifsdóttir, 1999). Thus, the assemblages strongly indicate palaeotemperatures representing a glacial-interglacial cycle. In older as well as younger Pleistocene sediments in Iceland we have encountered corresponding lithological cycles as described here: from glacial to proglacial and then to shallow marine or littoral sedimentation that coincide with faunal suc- cessions, reflecting a change from arctic to boreal as- semblages. Oxygen isotope analyses of marine shells have revealed a temperature difference up to 8!C in some of these cycles as in those in the older part of the Breiðavík Group sequence (Vilhjálmsson, 1985). Therefore the faunal succession described here, re- flecting changes from arctic to boreal conditions, is considered to depend on different water masses in the sea around Iceland and not related to different depth relations. The depth range of the species indicates shallow sublittoral environments along an open coast, except for the assemblages in the Höfði Member that lived in intertidal zones (Leifsdóttir, 1999). The salinity was 12 JÖKULL No. 57

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