described as a shrub and dwarf-shrub tundra. The abrupt vegetational change recorded in Lake Torfa- dalsvatn at 8000 BP was suggested by Rundgren (1998) to have been climatically forced, possibly by an increase in winter precipitation. DISCUSSION It was suggested by Rundgren (1995) that local glaciers may have exerted a cooling influence on the climate on northernmost Skagi during the earliest recorded episode (11,300-10,900 BP). However, the terrestrial pollen spectra and the limnic data for this period may altematively reflect cold conditions asso- ciated with the Gerzensee/Killarney Oscillation, a re- gional cooling event at that time earlier reported from areas adjacent to the North Atlantic (Siegenthaler et al, 1984; Levesque et al, 1993; NASP Members: Ex- ecutive Group, 1994). A correlative event is also rec- ognized in the Greenland ice cores (e.g. Johnsen et al., 1992) and in cores from the Norwegian Sea (Lehman and Keigwin, 1992; K05 Karpuz and Jansen, 1992; Haflidason et al., 1995). If this altemative interpreta- tion is correct, it is possible that core penetration in Lake Torfadalsvatn, which is the basin with the oldest recorded sediments, was limited by the presence of coarse sediments deposited in connection with basin isolation and not by till or bedrock. This implies that lake sediments older than 11,300 BP could be present on northemmost Skagi, and that this area may have been deglaciated well before 11,300 BP. As shown by Ingólfsson et al. (1997), the climatic development reconstmcted from Skagi lake sediments fíts well with palaeoclimatic data from other parts of Iceland. Although Late Weichselian and early Holocene palaeoclimatic information from Iceland is limited, there is a good correspondence between the reconstruction presented for northernmost Skagi and the available proxy data from subfossil mollusc and foraminifera faunas and ice-marginal positions (Bárðarson, 1923; Andrésdóttir, 1987; Ingólfsson, 1987, 1988, 1991; Hjartarson and Ingólfsson, 1988; Eiríksson et al., 1991; Norðdahl, 1990, 1991; Svein- björnsdóttir and Johnsen, 1991; Norðdahl and Hafliðason, 1992; Norðdahl and Hjort, 1993; Ingólfs- son and Norddahl, 1994; Sæmundsson, 1995; Ás- björnsdóttir and Norðdahl, 1995; Norðdahl and Ás- bjömsdóttir, 1995). Moreover, the Skagi palaeoclimatic reconstruction is in accordance with terrestrial (NASP Members: Executive group, 1994), marine (Ruddiman and Mclntyre, 1981; K05 Karpuz and Jansen, 1992; Lehman and Keigwin, 1992; K05 etal., 1993; Haflida- son et al., 1995) and ice-core records (Dansgaard et al., 1989, 1993; Alley et al., 1993; Johnsen et al., 1995) from the North Atlantic region, indicating a close connection between deglacial ocean circulation changes, i.e. the migrations of the marine polar front, and climatic conditions on Iceland (Ingólfsson et al., 1997). Besides confirming the prevalent conception of Late Weichselian and early Holocene climate change in the North Atlantic region, the palaeoclimatic recon- stmction from northemmost Skagi provides some new details on this development: (1) The Gerzensee/Killar- ney Oscillation may be registered on northernmost Skagi, which implies that the marine polar front was located south of Iceland in the period 11,300-10,900 BP, (2) the polar front migrated to a position north of Iceland at 10,900 BP, where it remained until c. 10,600 BP, when a rapid southward displacement of the polar front placed Iceland within polar waters and initiated the Younger Dryas cold event in Iceland, (3) the Pre- boreal oscillation (c. 9800-9700 BP) was most likely associated with a southward migration of the marine polar front, but its position was probably still north of, but very close to, Iceland during that event. Rundgren et al. (1997) showed that the raised beach ridge (A) marking the marine limit on northern- most Skagi at c. 65 m a.s.l. (Fig 2) is older than 11,300 BP (Fig. 6), and they proposed that it dates from a >12,000 BP event of high relative sea levels known from other parts of Iceland (Ashwell, 1967; Ingólfsson, 1988; Ingólfsson and Norddahl, 1994). Moreover, they showed that regression below present sea level occurred at 9000 BP on northernmost Skagi (Fig. 6), which is in line with observations in other parts of Iceland (Thorarinsson, 1956; Kjartansson et al, 1964; Thors and Helgadóttir, 1991; Ingólfsson et al„ 1995). The recording of marine transgressions on northernmost Skagi during the Younger Dryas cold JÖKULL, No. 47, 1999 15

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