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W2077167883 endingPage "143" @default.
W2077167883 startingPage "115" @default.
W2077167883 abstract "Current multi-proxy studies on a long sediment sequence preserved at Sokli (N Finland), i.e. in the central area of Fennoscandian glaciations, are drastically changing classic ideas of glaciations, vegetation and climate in northern Europe during the Late Pleistocene. The sediments in the Sokli basin have escaped major glacial erosion due to non-typical bedrock conditions. In this review, the Sokli record is compared in great detail with other long proxy records from central, temperate and northern, boreal Europe. These comprise the classic records of La Grande Pile (E France) and Oerel (N Germany) and more recently obtained records from Horoszki Duże (E Poland) and Lake Yamozero (NW Russia). The focus of the review is on pollen, lithology and macrofossil- and insect-based temperature inferences. The long records are further compared with recent proxy data from nearby terrestrial sites as well as with the rapidly accumulating high-resolution proxy data from the ocean realm. The comparison allows a re-examination of the environmental history and climate evolution of the Last Interglacial–Glacial (LI–G) cycle (MIS 5–2). It shows that environmental and climate conditions during MIS 5 (ca 130–70 ka BP) were distinctly different from those during MIS 4–2 (ca 70–15 ka BP). MIS 5 is characterized by three long forested intervals (broadly corresponding to MIS 5e, 5c, 5a), both in temperate and northern boreal Europe. These mild periods were interrupted by two short, relatively cold and dry intervals (MIS 5d and 5b) with mountain-centered glaciation in Fennoscandia. Millennial scale climate events were superimposed upon these longer lasting climate fluctuations. The time interval encompassing MIS 4–2 shows open vegetation. It is characterized by two glacial maxima (MIS 4 and 2) with sub-continental scale glaciation over northern Europe and dry conditions in strongly continental eastern European settings. High amplitude climate oscillations of millennial duration characterized the climate variability of MIS 3. Mild climate conditions in early MIS 3 caused large-scale deglaciation of the Fennoscandian Ice Sheet, and ice-free conditions with Betula-dominated vegetation (including tree birch) persisted over large parts of Fennoscandia, possibly interrupted by glaciation, during major part of MIS 3 till ca 35 ka BP. Overall, MIS 5 was mostly mild with warmest or peak interglacial conditions at the very start during MIS 5e. MIS 4–2 was mostly cold with most extreme or peak glacial conditions in the closing phase during MIS 2. This points to a subdivision of the last climate cycle into an early, overall mild interglacial half and a late, overall cold glacial half, each with duration of ca 50 ka. This review also shows that the climate variability in central and northern Europe during the LI–G cycle was mostly in degrees of continentality with major shifts in winter temperature and precipitation values; summer temperatures, on the other hand, remained largely unchanged. It points to the waxing and waning of sea-ice over the North Atlantic Ocean as a possible characteristic feature of the Late Pleistocene. The present compilation, based on long terrestrial sequences, high-resolution multi-proxy data from the oceans, and quantified paleo-climate data, strongly favors a definition of entire Marine Oxygen Isotope Stage 5 as the Last Interglacial similar as in the original marine stratigraphy and the stratigraphy at La Grande Pile in France. The proxy-based climate data places the start of the Last Glacial at the base of MIS 4 and the northwest European Pleniglacial. It shows that the division between the Eemian (MIS 5e) and the Early Weichselian (MIS 5d-a) is not useful, as not relevant from a climate point of view." @default.
W2077167883 created "2016-06-24" @default.
W2077167883 creator A5067274043 @default.
W2077167883 date "2014-02-01" @default.
W2077167883 modified "2023-10-03" @default.
W2077167883 title "The Last Interglacial–Glacial cycle (MIS 5–2) re-examined based on long proxy records from central and northern Europe" @default.
W2077167883 cites W1498045143 @default.
W2077167883 cites W1544007163 @default.
W2077167883 cites W1551077250 @default.
W2077167883 cites W1557060851 @default.
W2077167883 cites W1597678170 @default.
W2077167883 cites W1670832794 @default.
W2077167883 cites W1926154076 @default.
W2077167883 cites W1966282214 @default.
W2077167883 cites W1967767934 @default.
W2077167883 cites W1968900844 @default.
W2077167883 cites W1969709779 @default.
W2077167883 cites W1970337307 @default.
W2077167883 cites W1971016865 @default.
W2077167883 cites W1973540896 @default.
W2077167883 cites W1975635183 @default.
W2077167883 cites W1977310836 @default.
W2077167883 cites W1978337033 @default.
W2077167883 cites W1978347718 @default.
W2077167883 cites W1978582597 @default.
W2077167883 cites W1980401510 @default.
W2077167883 cites W1981471828 @default.
W2077167883 cites W1981894113 @default.
W2077167883 cites W1982010929 @default.
W2077167883 cites W1982082363 @default.
W2077167883 cites W1983618122 @default.
W2077167883 cites W1983875386 @default.
W2077167883 cites W1983949867 @default.
W2077167883 cites W1984659148 @default.
W2077167883 cites W1985455002 @default.
W2077167883 cites W1986289168 @default.
W2077167883 cites W1987571636 @default.
W2077167883 cites W1987620438 @default.
W2077167883 cites W1989352711 @default.
W2077167883 cites W1990460923 @default.
W2077167883 cites W1990994209 @default.
W2077167883 cites W1991149157 @default.
W2077167883 cites W1993351213 @default.
W2077167883 cites W1994155113 @default.
W2077167883 cites W2000948351 @default.
W2077167883 cites W2004120038 @default.
W2077167883 cites W2005905749 @default.
W2077167883 cites W2005948190 @default.
W2077167883 cites W2006307570 @default.
W2077167883 cites W2006461208 @default.
W2077167883 cites W2007257396 @default.
W2077167883 cites W2008682025 @default.
W2077167883 cites W2008875043 @default.
W2077167883 cites W2010010545 @default.
W2077167883 cites W2010853647 @default.
W2077167883 cites W2013878295 @default.
W2077167883 cites W2014157199 @default.
W2077167883 cites W2018504988 @default.
W2077167883 cites W2018535016 @default.
W2077167883 cites W2018969007 @default.
W2077167883 cites W2019448714 @default.
W2077167883 cites W2023110750 @default.
W2077167883 cites W2023344243 @default.
W2077167883 cites W2024369723 @default.
W2077167883 cites W2024572111 @default.
W2077167883 cites W2024680030 @default.
W2077167883 cites W2024916475 @default.
W2077167883 cites W2025427502 @default.
W2077167883 cites W2026984549 @default.
W2077167883 cites W2026985846 @default.
W2077167883 cites W2028341991 @default.
W2077167883 cites W2028961951 @default.
W2077167883 cites W2030004028 @default.
W2077167883 cites W2033097037 @default.
W2077167883 cites W2036120957 @default.
W2077167883 cites W2036711636 @default.
W2077167883 cites W2040611564 @default.
W2077167883 cites W2043772455 @default.
W2077167883 cites W2044132989 @default.
W2077167883 cites W2044628886 @default.
W2077167883 cites W2045329604 @default.
W2077167883 cites W2046448780 @default.
W2077167883 cites W2046962675 @default.
W2077167883 cites W2047411925 @default.
W2077167883 cites W2047554914 @default.
W2077167883 cites W2047809204 @default.
W2077167883 cites W2051087039 @default.
W2077167883 cites W2051399080 @default.
W2077167883 cites W2051559013 @default.
W2077167883 cites W2053548971 @default.
W2077167883 cites W2056475474 @default.
W2077167883 cites W2057290639 @default.
W2077167883 cites W2059744987 @default.
W2077167883 cites W2059983365 @default.
W2077167883 cites W2061993062 @default.
W2077167883 cites W2063458827 @default.
W2077167883 cites W2066745252 @default.
W2077167883 cites W2066878985 @default.