Iceland by Bout (1953), who also presented an outline of the stratigraphy of Iceland and in- cluded the Tjörnes sequence in his scheme. Reexamination of the Tjörnes sequence In the early sixties Strauch (1961, 1963) car- ried out a detailed study of the stratigraphy and palaeontology of the Tjörnes sequence. He agreed with earlier authors about an early Quaternary age of the Breiðavík beds (Table 1), and suggested that the “West Tjörnes Beds” might correspond to the Jökuldalur Series of Bemmelen and Rutten (1955). Strauch also studied climatic evidence, tectonic aspects, and the palaeogeographical evolution of Tjörnes. He agreed with earlier views on the Pliocene topography of Iceland, which was considered a relatively flat country. A slight depression, Strauch suggested, was formed in the vicinity of the present Central Icelandic Graben, where the 550 m thick “West Tjörnes Beds” accumulated during slow and uninter- rupted subsidence. Strauch concluded that sedimentation in the Pliocene Kaldakvísl area began with bog formation and deposition of fluviatile sands coupled with an initial sub- sidence of the area and a lull in volcanic activity. Only occasional lava flows reached the area during an early phase of relative sea level changes. Sedimentation then continued in a fiord which according to Strauch was open towards north with sediment supply from the south. From time to time the sediment supply exceeded the rate of subsidence and the shal- low fiord was rapidly filled with sediments. The relief of the area was gentle, but when it came to the deposition of the upper “West Tjörnes Beds” an increased rate of subsidence and local uplifts in border areas enhanced the topographical relief. Soon after that volcanic activity set in and the intercalated basalts were piled up in an environment charac- terized by tectonism and volcanism. Coastal and fluvioglacial sedimentation began in the present Breiðavík area, but continued sub- sidence to the west and uplift of the Tjörnes horst led to relative sea level changes and un- conformities. Strauch suggested that the upper Breiðavík beds had accumulated in a fiord of similar proportions as the earlier “West Tjör- nes Beds” fiord. Sedimentary dykes in the Tjörnes sequence were the subject of separate publications (Strauch 1966, 1968a), and sedimentological and palaeontological evidence from Tjörnes was used in a later paper on a North Atlantic land bridge (Strauch 1970). Palaeontological results from Tjörnes were to a various extent the subject of further publications (Strauch 1968b, 1968c, 1972a, 1972b, 1972c). The Tjörnes sequence was reexamined and sampled for palaeontological analysis and palaeomagnetic measurements by Doell, Th. Einarsson, and Hopkins (Hopkins et al. 1965, Th. Einarsson et al. 1967, Th. Einarsson 1966, 1967, 1969, Doell 1972). They found evidence of ten regional glaciations within the sequence and attempted a correlation with the geomagnetic polarity time scale. According to their prefer- red alternative the Mactra/Serripes Zone boundary lay close to the Gilbert/Gauss reversal, and the Breiðavík beds corresponded to the Matuyama epoch. The fossil material was analyzed by MacNeil (1965, 1967) and Zullo (1968), and discussed by Durham and MacNeil (1967) and by MacNeil (1973) in terms of faunal migrations between the Pacific and Atlantic Oceans. Durham and MacNeil iden- tified 32 mollusc species of Pacific origin in the Tjörnes sequence, 22 out of which appeared for the first time in the Serripes Zone. Th. Ein- arsson et al. (1967) correlated the Serripes Zone with the Red Crag of England, and suggested that the Zone was largely and perhaps entirely of early Pleistocene age. They pointed out that the mollusc fauna of the two lower Zones was similar to that of the Coralline Crag of East Anglia (Astian or late Pliocene). In his text- book on general geology and the geology of Iceland, Th. Einarsson (1968) correlated the Mactra/Serripes Zone boundary with the Gil- bert /Gauss reversal and interpreted the faunal and floral changes at this boundary as evidence of a sudden dramatic deterioration of climate. The Pliocene/Pleistocene boun- 10 JÖKULL 30. ÁR

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