Hostname: page-component-cd9895bd7-gvvz8 Total loading time: 0 Render date: 2024-12-25T13:38:16.437Z Has data issue: false hasContentIssue false

Mean July Temperatures during the Younger Dryas in Northwestern and Central Europe as Inferred from Climate Indicator Plant Species

Published online by Cambridge University Press:  20 January 2017

René F.B. Isarin
Affiliation:
Netherlands Centre for Geo-ecological Research (ICG), Institute of Earth Sciences, Vrije Universiteit Amsterdam, De Boelelaan 1085, 1081 HV, Amsterdam, The Netherlands
Sjoerd J.P. Bohncke
Affiliation:
Netherlands Centre for Geo-ecological Research (ICG), Institute of Earth Sciences, Vrije Universiteit Amsterdam, De Boelelaan 1085, 1081 HV, Amsterdam, The Netherlands

Abstract

We estimated minimum mean July temperatures in northwestern and central Europe during the Younger Dryas (10,950–10,15014C yr B.P.) from distributions of climate indicator plant species, which were reconstructed from 140 pollen and plant macrofossil diagrams. Paleobotanical records, mainly from the central and eastern part of the study area, show that the coldest conditions occurred early in the Younger Dryas (before ∼10,55014C yr B.P.). For this phase, mean July temperatures at sea level of around 10°C are suggested for the northern part of the British Isles and for ice-free Scandinavia. We estimated a mean July temperature of 12°C for central England, The Netherlands, and northern Germany. The 13°C mean July isotherm—largely based on the modern distribution ofTypha latifolia—was most probably located in southern England, Belgium, central Germany, and Poland. The reappearance of thermophilous elements in the records after ∼10,55014C yr B.P. suggests a summer warming, at least temporarily, of 1° to 2°C in the study area. The reconstructed temperatures are comparable with temperature estimates based on beetle data. However, they appear rather high when compared with estimates based on glaciological evidence.

Type
Original Articles
Copyright
University of Washington

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Ammann, B., (1989). Late-Quaternary palynology at Lobsigensee. Dissertationes Botanicae 137, .Google Scholar
Andrieu, V., Huang, C.C., O'Connell, M., Paus, A., (1993). Lateglacial vegetation in Ireland: First results from four western sites. Quaternary Science Reviews 12, 681705.CrossRefGoogle Scholar
Bałaga, K., (1990). The development of Lake Łukcze and changes in the plant cover of the south-western part of the Łęczna-Włodawa lake district in the last 13000 years. Acta Palaeobotanica 30, 77146.Google Scholar
Barnosky, C.W., (1988). A late-glacial and post-glacial pollen record from the Dingle Peninsula, County Kerry. Proceedings of the Royal Irish Academy 88b, 2337.Google Scholar
Bartley, D.D., (1960). Rhosgoch Common, Radnorshire: Stratigraphy and pollen analysis. New Phytologist 59, 238262.CrossRefGoogle Scholar
Bartley, D.D., (1962). The stratigraphy and pollen analysis of lake deposits near Tadcaster, Yorkshire. New Phytologist 61, 277287.CrossRefGoogle Scholar
Bartley, D.D., Chambers, C., Hart-Jones, B., (1976). The vegetational history of parts of south and east Durham. New Phytologist 77, 437468.CrossRefGoogle Scholar
Bartley, D.D., Morgan, A.V., (1990). The palynological record of the King's Pool, Stafford, England. New Phytologist 116, 177194.CrossRefGoogle Scholar
Beales, P.W., (1980). The Late Devensian and Flandrian vegetational history of Crose Mere, Shropshire. New Phytologist 85, 133161.CrossRefGoogle Scholar
Beckett, S.C., (1981). Pollen diagrams from Holderness, North Humberside. Journal of Biogeography 8, 177198.CrossRefGoogle Scholar
Behre, K.E., (1966). Untersuchungen zur spätglazialen und frühpostglazialen Vegetationsgeschichte Ostfrieslands. Eiszeitalter und Gegenwart 17, 6984.Google Scholar
Berglund, B., (1966). Late-Quaternary vegetation in eastern Blekinge, southeastern Sweden: A pollen-analytical study. Opera Botanica 12, .Google Scholar
Berglund, B.E., Ralska-Jasiewiczowa, M., (1986). Pollen analysis and pollen diagrams. Handbook of Holocene Palaeoecology and Palaeohydrology Wiley, Chichester.p. 455–484.Google Scholar
Berglund, M., Eriksson, J.A., Fernlund, J.M.R., (1994). The Late Weichselian in Halland, Southwestern Sweden: a pollen-analytical study. Geologiska Föreningens i Stockholm Förhandlingar 116, 215230.Google Scholar
Beug, H.-J., (1976). Die spätglaziale und frühpostglaziale Vegetationsgeschichte im Gebiet des ehemaligen Rosenheimer Sees (Oberbayern). Botanische Jahrbücher der Systematik 95, 373400.Google Scholar
Bińka, K., Cieśla, A., Łącka, B., Madeyska, T., Marciniak, B., Szerocyńska, K., Więckowski, K., (1991). The development of Błedowo Lake (central Poland)—A palaeoecological study. Studia Geologica Polonica 100, 83.Google Scholar
Birks, H.H., Mathewes, R.W., (1978). Studies in the vegetational history of Scotland. New Phytologist 80, 455484.CrossRefGoogle Scholar
Birks, H.J.B., (1965). Late-glacial deposits at Bagmere, Cheshire and Chat Moss, Lancashire. New Phytologist 64, 270285.CrossRefGoogle Scholar
Bock, W., Menke, B., Strehl, E., Ziemus, H., (1985). Neue Funde des Weichselspätglazials in Schleswig-Holstein. Eiszeitalter und Gegenwart 35, 161180.Google Scholar
Bohncke, S., Kasse, C., Vandenberghe, J., (1995). Climate induced environmental changes during the Vistulian Lateglacial at Zabinko. Quaestiones Geographicae 4, 4364.Google Scholar
Bohncke, S.J.P., Vandenberghe, J., (1991). Palaeohydrological development in the Southern Netherlands during the last 15,000 years. Starkel, L., Gregory, K.J., Thornes, J.B. Temperate Palaeohydrology Wiley, Chichester.253281.Google Scholar
Bohncke, S., Vandenberghe, J., Huijzer, A.S., (1993). Periglacial environments during the Weichselian Late Glacial in the Maas Valley, the Netherlands. Geologie en Mijnbouw 72, 193210.Google Scholar
Bohncke, S., Wijmstra, L., Van der Woude, J., Sohl, H., (1988). The Late-Glacial infill of three lake successions in The Netherlands: Regional vegetational history in relation to NW European vegetational developments. Boreas 17, 385402.CrossRefGoogle Scholar
Bos, J.A.A., Janssen, C.R., (1996). Local impact of Palaeolithic man on the environment during the end of the Last Glacial in the Netherlands. Journal of Archaeological Science 23, 731739.CrossRefGoogle Scholar
Böse, M., Brande, A., Müller, M., Rowinsky, V., Anstreicher, J., (1995). Landscape development in the terminal area of the Brandenburg Stage south of Potsdam. Guide Excursion B20, 14th International Congress INQUA, Berlin, 1995 30.Google Scholar
Brande, A., (1980). Pollenanalytische Untersuchungen im Spätglazial und frühen Postglazial Berlins. Verhandlungen des Botanischen Vereins der Provinz Brandenburg 115, 2172.Google Scholar
Brown, A.P., (1977). Late-Devensian and Flandrian vegetational history of Bodmin Moor, Cornwall. Philosophical Transactions of the Royal Society of London B276, 251320.Google Scholar
Casparie, W.A., Van Zeist, W., (1960). A late-glacial deposit near Waskemeer (Prov. of Friesland). Acta Botanica Neerlandica 9, 191196.CrossRefGoogle Scholar
Caspers, G., (1993). Vegetationsgeschichtliche Untersuchungen zur Fluβauenentwicklung and der Mittelweser im Spätglazial und Holozän. Abhandlungen aus dem Westfälischen Museum für Naturkunde, Münster 55, .Google Scholar
Charman, D.J., (1994). Late-glacial and Holocene vegetation history of the Flow country, northern Scotland. New Phytologist 127, 155168.CrossRefGoogle ScholarPubMed
Chen, S.-H., (1988). Neue Untersuchungen über die spät- und postglaziale Vegetationsgeschichte im Gebiet zwischen Harz und Leine (BRD). Flora 181, 147177.CrossRefGoogle Scholar
Cleveringa, P., De Gans, W., Kolstrup, E., Paris, F.P., (1977). Vegetational and climatic developments during the Late Glacial and the early Holocene and aeolian sedimentation as recorded in the Uteringsveen (Drente, The Netherlands). Geologie en Mijnbouw 56, 234242.Google Scholar
Coope, G.R., Dickson, J.H., McCutcheon, J.A., Mitchell, G.F., (1979). The Lateglacial and early postglacial deposit at Drumurcher, Co. Monaghan. Proceedings of the Royal Irish Academy 79B, 6385.Google Scholar
Craig, A.J., (1978). Pollen percentage and influx analyses in south-east Ireland: A contribution to the ecological history of the Late-glacial period. Journal of Ecology 66, 297324.CrossRefGoogle Scholar
Cwynar, L.C., Watts, W.A., (1989). Accelerator-mass spectrometer ages for late glacial events at Ballybetagh, Ireland. Quaternary Research 31, 377380.CrossRefGoogle Scholar
Dietz, C., Grahle, H.-O., Müller, H., (1958). Ein spätglaziales Kalkmudde- Vorkommen im Seck-Bruch bei Hannover. Geologisches Jahrbuch 76, 67102.Google Scholar
Diriken, P., Heyvaert, F., Gilot, E., (1995). Postglacial palaeo-ecological evolution of the Molenbeek–Mombeekvalley. Aardkundige Mededelingen, Leuven University Press 6, 5585.Google Scholar
Elhai, H., (1959). Analyse pollinique de deux tourbières Normandes. Pollen et Spores 1, 5976.Google Scholar
Evans, G.H., (1970). Pollen and diatom analyses of Late-Quaternary deposits in the Blelham basin, North Lancashire. New Phytologist 69, 821874.CrossRefGoogle Scholar
Fredskild, B., (1975). A late-glacial and early post-glacial pollen-concentration diagram from Langeland, Denmark. Geologiska Föreningens i Stockholm Förhandlingar 97, 151161.CrossRefGoogle Scholar
Hahne, J., (1991). Untersuchungen zur spät- und postglazialen Vegetationsgeschichte im nördlichen Bayern (Rhön, Grabfeld, Lange Berge). Flora 185, 1732.CrossRefGoogle Scholar
Hammarlund, D., Lemdahl, G., (1994). A Late Weichselian stable isotope stratigraphy compared with biostratigraphical data: A case study from southern Sweden. Journal of Quaternary Science 9, 1331.CrossRefGoogle Scholar
Harmata, K., (1987). Late-glacial and Holocene history of vegetation at Roztoki and Tarnowiec near Jasło (Jasło-Sanok depression). Acta Palaeobotanica 27, 4365.Google Scholar
Hilldén, A., (1979). The deglaciation in the vicinity of the Berghem Moraine east of Göteborg. Lundqua Thesis 6, .Google Scholar
Hunt, T.G., Birks, H.J.B., (1982). Devensian late-glacial vegetational history at Sea Mere, Norfolk. Journal of Biogeography 9, 517538.CrossRefGoogle Scholar
Huntley, B., (1994). Late Devensian and Holocene palaeoecology and palaeoenvironments of the Morrone Birkwoods, Aberdeenshire, Scotland. Journal of Quaternary Science 9, 311336.CrossRefGoogle Scholar
Iversen, J., (1954). The Late-glacial flora of Denmark and its relation to climate and soil. Danmarks Geologiske Undersøgelse 80, 87119.Google Scholar
Jalut, G., (1967). Analyse pollinique de la tourbière de l'Archet. Pollen et Spores 9, 305319.Google Scholar
Jankovska, V., (1980). Paläogeobotanische Rekonstruktion der Vegetationsentwicklung im Becken Trebonska panev während des Spätglazials und Holozäns. Vegetace CSSR A11, .Google Scholar
Janssen, C.R., IJzermans-Lutgerhorst, W., (1973). A ‘local’ late-glacial pollen diagram from Limburg, Netherlands. Acta Botanica Neerlandica 22, 213220.CrossRefGoogle Scholar
Járai-Komlódi, M., (1968). The Late glacial and Holocene flora of the Hungarian Great Plain. Annales Universitatis Scientarum Budapestinensis de Rolanda Eötvös Nominatae. Separatum Sectio Biologica 9–10, 199225.Google Scholar
Jefferies, R.L., Willis, A.J., Yemm, E.W., (1968). The Late- and Post-glacial history of the Gordano Valley, North Somerset. New Phytologist 67, 335348.CrossRefGoogle Scholar
Johnson, R.H., Tallis, J.H., Pearson, M., (1972). A temporary section through Late-devensian sediments at Green Lane, Dalton-in-Furness, Lancashire. New Phytologist 71, 533544.CrossRefGoogle Scholar
Jones, R.L., (1976). Late Quaternary vegetational history of the North York Moors. IV. Seamer Carrs. Journal of Biogeography 3, 397406.CrossRefGoogle Scholar
Knipping, M. Zur spät- und postglazialen Vegetationsgeschichte des Oberpfälzer Waldes. Dissertationes Botanicae 140, (1989).Google Scholar
Kolstrup, E., (1982). Late Glacial pollen diagrams from Hjelm and Draved Mose (Denmark) with a suggestion of the possibility of drought during the Earlier Dryas. Review of Palaeobotany and Palynology 36, 3563.CrossRefGoogle Scholar
Kolstrup, E., Buchardt, B., (1982). A pollen analytical investigation supported by an18 . Review of Palaeobotany and Palynology 36, 205230.CrossRefGoogle Scholar
Koperowa, W., (1961). The history of the Late-glacial and Holocene of the vegetation of the Nowy Targ basin. Acta Palaeobotanica 1, 1.Google Scholar
Koperowa, W., (1962). The vegetation of the basin of Sandomierz in the Late-glacial and Holocene. Acta Palaeobotanica 3, 166.Google Scholar
Kristiansen, I.L., Mangerud, J., Lømo, L., (1988). Late Weichselian/early Holocene pollen- and lithostraphy in lakes in the Ålesund area, western Norway. Review of Palaeobotany and Palynology 53, 185231.CrossRefGoogle Scholar
Larsen, E., Frøydis, E., Longva, O., Mangerud, J., (1984). Alleröd-Younger Dryas climatic inferences from cirque glaciers and vegetation development in the Nordfjord area, western Norway. Arctic and Alpine Research 16, 137160.CrossRefGoogle Scholar
Latałowa, M., Nalepka, D., (1987). A study of the late-glacial and holocene vegetational history of the Wolbrom area (Silesian-Cracovian Upland). Acta Palaeobotanica 27, 75115.Google Scholar
Lemdahl, G., (1991). A rapid climatic change at the end of the Younger Dryas in south Sweden—Palaeoclimatic and palaeoenvironmental reconstructions based on fossil insect assemblages. Palaeogeography, Palaeoclimatology, Palaeoecology 83, 313331.CrossRefGoogle Scholar
Lesemann, B., (1969). Pollenanalytische Untersuchungen zur Vegetationsgeschichte des Hannoverschen Wendlandes. Flora 158, 480519.Google Scholar
Liedberg-Jönsson, B., (1988). The Late Weichselian macrofossil flora in western Skåne, southern Sweden. Lundqua Thesis 24, 142.Google Scholar
Litt, T., (1988). Untersuchungen zur spätglazialen Vegetationsentwicklung bei Dziekanowice (Umgebung Lednogóra, Wielkopolska). Acta Palaeobotanica 28, 4960.Google Scholar
Litt, T., (1994). Paläoökologie, Paläobotanik und stratigraphie des Jungquartärs im nordmitteleuropäischen Tiefland. Dissertationes Botanicae 227, .Google Scholar
Lotter, A., (1988). Paläoökologische und paläolimnologische Studie des Rotsees bei Luzern. Dissertationes Botanicae 124, .Google Scholar
Lowe, J.J., Lowe, S., (1989). Interpretation of the pollen stratigraphy of Late Devensian lateglacial and early Flandrian sediments at Llyn Gwernan, near Cader Idris, North Wales. New Phytologist 113, 391408.CrossRefGoogle ScholarPubMed
Lowe, J.J., Walker, M.J.C., (1977). The reconstruction of the Lateglacial environment in the southern and eastern Grampian Highlands. Gray, J.M., Lowe, J.J. Studies in the Scottish Lateglacial Environment Pergamon, Oxford.101118.CrossRefGoogle Scholar
Magny, M., Ruffaldi, P., (1995). Younger Dryas and early Holocene lake-level fluctuations in the Jura mountains, France. Boreas 24, 155172.CrossRefGoogle Scholar
Mania, D., Seifert, M., Thomae, M., (1993). Spät- und Postglazial im Geiseltal (mittleres Elbe-Saalegebiet). Eiszeitalter und Gegenwart 43, 122.Google Scholar
Menke, B., (1968). Das Spätglazial von Glüsing. Eiszeitalter und Gegenwart 19, 7384.Google Scholar
Miotk-Szpiganowicz, G., (1992). The history of the vegetation of Bory Tucholski and the role of man in the light of palynological investigations. Acta Palaeobotanica 32, 39122.Google Scholar
Moar, N.T., (1969). Two pollen diagrams from the Mainland, Orkney Islands. New Phytologist 68, 201208.CrossRefGoogle Scholar
Moar, N.T., (1969). Late Weichselian and Flandrian pollen diagrams from south-west Scotland. New Phytologist 68, 433467.CrossRefGoogle Scholar
Moore, P.D., (1970). Studies in the vegetational history of mid-Wales. II. The Late-glacial period in Cardiganshire. New Phytologist 69, 363375.CrossRefGoogle Scholar
Morrison, M.E.S., Stephens, N., (1965). A submerged Late-Quaternary deposit at Roddans Port on the north-east coast of Ireland. Philosophical Transactions of the Royal Society of London 249, 221255.Google Scholar
Mullenders, W., (1960). Contribution a l'étude palynologique des Tourbières de la Bar (Département des Ardennes). Pollen et Spores 2, 4355.Google Scholar
Müller, H., (1953). Zur spät- und nacheiszeitlichen Vegetationsgeschichte des mitteldeutschen Trockengebietes. Nova Acta Leopoldina 110, 67.Google Scholar
Munaut, A.V., Paulissen, E., (1973). Evolution et paléo-ecologie de la Vallée de la Petite Nèthe au cours du Post-Würm (Belgique). Annales de la Société Géologique de Belgique 96, 310348.Google Scholar
Newey, W.W., (1970). Pollen analysis of Late-Weichselian deposits at Corstorphine, Edinburgh. New Phytologist 69, 11671177.CrossRefGoogle Scholar
Noryśkiewicz, B., (1982). Lake Steklin—A reference site for the Dobrzyń-Chełmno Lake District, N. Poland. Report on Palaeoecological Studies for the IGCP-Project No. 158 B. Acta Palaeobotanica 22, 6583.Google Scholar
Paris, F.P., Cleveringa, P., Munaut, A.V., (1979). The Stokersdobbe: Geology and palynology of a deep pingo remnant in Friesland (The Netherlands). Geologie en Mijnbouw 58, 3338.Google Scholar
Paus, A., (1989). Late Weichselian vegetation, climate and floral migration at Liastemmen, North Rogaland, south-western Norway. Journal of Quaternary Science 4, 223242.CrossRefGoogle Scholar
Pawlikowski, M., Ralska-Jasiewiczowa, M., Schönborn, W., Stupnicka, E., Szeroczyńska, K., (1982). Woryty near Gietrzwald, Olsztyn Lake District, NE Poland—Vegetational history and lake development during the last 12000 years. Acta Palaeobotanica 22, 85116.Google Scholar
Peglar, S., (1979). A radio-carbon dated pollen diagram from Loch Winless, Caithness, north-east Scotland. New Phytologist 82, 245263.CrossRefGoogle Scholar
Pigott, C.D., Pigott, M.E., (1963). Late-glacial and Post-glacial deposits at Malham, Yorkshire. New Phytologist 62, 317334.CrossRefGoogle Scholar
Pilcher, J.R., Larmour, R., (1982). Late-glacial and post-glacial vegetational history of the Meenadoan nature reserve, County Tyrone. Proceedings of the Royal Irish Academy 82B, 277295.Google Scholar
Planchais, N., (1970). Tardiglaciaire et Postglaciaire a Mur-de-Sologne (Loir-et-Cher). Pollen et Spores 12, 381428.Google Scholar
Ralska-Jasiewiczowa, M., (1966). Bottom sediments of the Mikołajki lake (Masurian Lake District) in the light of palaeobotanic investigations. Acta Palaeobotanica 7, 1118.Google Scholar
Ralska-Jasiewiczowa, M., (1980). Late-glacial and Holocene vegetation of the Bieszczady Mts. (polish eastern Carpathians). Polska Akademia Nauk .Google Scholar
Ralska-Jasiewiczowa, M., Rzętkowska, A., (1987). Pollen and macrofossil stratigraphy of fossil lake sediments at Niechorze I, W. Baltic coast. Acta Palaeobotanica 27, 153178.Google Scholar
Ralska-Jasiewiczowa, M., Van Geel, B., Goslar, T., Kuc, T., (1992). The record of the Late Glacial/Holocene transition in the varved sediments of Lake Gosciaz, central Poland. Sveriges Geologiska Undersökning 81, 257268.Google Scholar
Rösch, M., (1985). Nussbaumer Seen—spät- und postglaziale Umweltveränderungen einer Seengruppe im östlichen Schweizer Mittelland. Dissertationes Botanicae 87, 337379.Google Scholar
Rybnı́ c̨, E., (1974). Die Entwicklung der Vegetation und Flora im südlichen Teil der Böhmisch-Märischen Höhe während des Spätglazials und Holozäns. Vegetace CSSR A7, .Google Scholar
Rybnı́ c̨, E., Rybnı́ c̨, K., (1988). Holocene Palaeovegetation and Palaeoenvironment of the Kamenicsk kotlina Basin (Czechoslovakia). Folia Geobotanica et Phytotaxonomica 23, 285301.Google Scholar
Rymer, L., (1977). A Late-glacial and early Postglacial pollen diagram from Drimnagall, north Knapdale, Argyllshire. New Phytologist 79, 211221.CrossRefGoogle Scholar
Schlaak, N., (1993). Studie zur Landschaftsgenese im Raum Nordbarnim und Eberswalder Urstromtal. Berliner Geographische Arbeiten 76, .Google Scholar
Schloss, S., (1979). Pollenanalytische und stratigraphische Untersuchungen im Sewensee: Ein Beitrag zur spätglazialen Vegetationsgeschichte der Südvogesen. Dissertationes Botanicae 52, .Google Scholar
Seagrief, S.C., (1959). Pollen diagram from southern England: Wareham, Dorset and Nursling, Hampshire. New Phytologist 58, 316325.CrossRefGoogle Scholar
Seddon, B., (1962). Late-glacial deposits at Llyn Dwythwch and Nant Ffrancon, Caernarvonshire. Philosophical Transactions of the Royal Society of London B244, 459481.Google Scholar
Simpkins, K., (1974). The Late-glacial deposits at Glanllynnau, Caernarvonshire. New Phytologist 73, 605618.CrossRefGoogle Scholar
Smith, A.G., Goddard, I.C., (1991). A 12.500 year record of vegetational history at Sluggan Bog, Co. Antrim, N. Ireland (incorporating a pollen zone for the non-specialist). New Phytologist 118, 167187.CrossRefGoogle Scholar
Stalling, H., (1987). Untersuchungen zur spät- und postglazialen Vegetationsgeschichte im Bayerischen Wald. Dissertation Göttingen .Google Scholar
Stockmarr, J., (1974). Biostratigraphic studies in Late Weichselian sediments near Böllingsö. Danmarks Geoligiske Undersögelse, Årbog 1974 7189.Google Scholar
Streitz, B., (1980). Vegetationsgeschichtliche und pflanzensoziologische Untersuchungen an zwei Mooren Osthessischer Subrosionssenken. Dissertation Darmstadt 158.Google Scholar
Svensson, N.-O., (1989). Late Weichselian and early Holocene shore displacement in the central Baltic, based on stratigraphical and morphological records from eastern Småland and Gotland. Lundqua Thesis 25, .Google Scholar
Szczepanek, K., (1982). Development of the peat-bog at Slopiec and the vegetational history of the Świętokrzyskie (Holy Cross) Mts. in the last 10000 years. Acta Palaeobotanica 22, 117130.Google Scholar
Thelaus, M., (1989). Late Quaternary vegetation history and palaeohydrology of the Sandsjön-Årshult area, southwestern Sweden. Lundqua Thesis 26, .Google Scholar
Tobolski, K., (1966). The Late-glacial and Holocene history of vegetation in the dune area of the middle Prosna Valley. Prace Komisji Biologiczney PTPN 32, 169.Google Scholar
Turner, J., Kershaw, A.P., (1973). A Late- and Postglacial pollen diagram from Cranberry Bog, near Beamish, County Durham. New Phytologist 72, 915928.CrossRefGoogle Scholar
Usinger, H., (1977). Bölling-Interstadial und Laacher Bimstuff in einem neuen Spätglazial-Profil aus dem Vallensgård Mose/Bornholm. Mit pollengröβenstatistischer Trennung der Birken. Danmarks Geologiske Undersøgelse, Årbog 1977 529.Google Scholar
Usinger, H., (1981). Pollen- und Groβrestanalysen an limnischem Spätglazial aus dem Scharnhagener Moor, Schleswig-Holstein. Schrifte des Naturwissenschaftlichen Vereins von Schleswig-Holstein. 51, 85105.Google Scholar
Usinger, H., (1981). Zur spät- und postglazialen Vegetationsgeschichte der Schleswig-Holsteinischen Geest nach einem Pollen- und Pollendichtediagramm aus dem Esinger Moor. Pollen et Spores 23, 389427.Google Scholar
Usinger, H., (1982). Pollenanalytische Untersuchungen an spätglazialen und präborealen Sedimenten aus dem Meerfelder Maar (Eifel). Flora 172, 373409.CrossRefGoogle Scholar
Usinger, H., Wolf, A., (1982). Zur vegetations- und klimageschichtliche Gliederung des Alleröds nach Untersuchungen im Blixmoor und Kubitzbergmoor (Schleswig-Holstein). Schrifte des Naturwissenschaftlichen Vereins von Schleswig-Holstein. 52, 2945.Google Scholar
Van Geel, B., Coope, G.R., Van der Hammen, T., (1989). Palaeoecology and stratigraphy of the lateglacial type section at Usselo (the Netherlands). Review of Palaeobotany and Palynology 60, 25129.CrossRefGoogle Scholar
Van Zeist, W., Van der Spoel-Walvius, M.R., (1980). A palynological study of the Late-Glacial and the Postglacial in the Paris Basin. Palaeohistoria 22, 67109.Google Scholar
Verbruggen, C.L.H., (1979). Vegetational and palaeocological history of the Lateglacial period in Sandy Flanders (Belgium). Acta Universitatis Ouluensis A82, 133142.Google Scholar
Walker, M.J.C., (1975). Late Glacial and Early Postglacial environmental history of the central Grampian Highlands, Scotland. Journal of Biogeography 2, 265284.CrossRefGoogle Scholar
Walker, M.J.C., (1982). The late-glacial and early Flandrian deposits at Traeth Mawr, Brecon Beacons, South Wales. New Phytologist 90, 177194.CrossRefGoogle Scholar
Wasylikowa, K., (1964). Pollen analysis of the late-glacial sediments in Witów near Łęczyca, Middle Poland. Report 6th International Congress on Quaternary in Warsaw, 1961, Łódż 2, 497502.Google Scholar
Watts, W.A., (1977). The Late Devensian vegetation of Ireland. Philosophical Transactions of the Royal Society of London B280, 273293.Google Scholar
Webb, J.A., Moore, P.D., (1982). The Late Devensian vegetational history of the Whitlaw Mosses, southeast Scotland. New Phytologist 91, 341398.CrossRefGoogle Scholar
S, Wegmüller, (1977). Pollenanalytische Untersuchungen zur spät- und postglazialen Vegetationsgeschichte der französischen Alpen. (Dauphin) .Google Scholar
Zachowicz, J., Przybyłowska-Lange, W., Nagler, J., (1982). The Late-glacial and Holocene vegetational history of the Żuławy region, N. Poland. A biostratigraphic study of lake sediments. Acta Palaeobotanica 22, 141161.Google Scholar
Ammann, B., Lotter, A.F., (1989). Late-Glacial radiocarbon- and palynostratigraphy on the Swiss plateau. Boreas 18, 109126.CrossRefGoogle Scholar
Atkinson, T.C., Briffa, K.R., Coope, G.R., (1987). Seasonal temperatures in Britain during the past 22,000 years, reconstructed using beetle remains. Nature 325, 587591.CrossRefGoogle Scholar
Averdieck, F.R., Willkomm, H., (1972). Alterbestimmungen an Sediment des Grossen Segeberger Sees. Schrifte des naturwissenschaftlichen Vereins von Schleswig-Holstein 42, 4757.Google Scholar
Bałaga, K., (1990). The development of Lake Łukcze and changes in the plant cover of the south-western part of the Łęczna-Włodawa lake district in the last 13000 years. Acta Palaeobotanica 30, 77146.Google Scholar
Ballantyne, C.K., (1988). The Loch Lomond Readvance on the Isle of Skye, Scotland: Glacier reconstruction and palaeoclimatic implications. Journal of Quaternary Science 4, 95108.CrossRefGoogle Scholar
Bartley, D.D., Chambers, C., Hart-Jones, B., (1976). The vegetational history of parts of south and east Durham. New Phytologist 77, 437468.CrossRefGoogle Scholar
Behre, K.E., (1966). Untersuchungen zur spätglazialen und frühpostglazialen Vegetationsgeschichte Ostfrieslands. Eiszeitalter und Gegenwart 17, 6984.Google Scholar
Berglund, B., (1966). Late-Quaternary vegetation in eastern Blekinge, southeastern Sweden: A pollen-analytical study. Opera Botanica 12, .Google Scholar
Berglund, B.E., Björck, S., Lemdahl, G., Bergsten, H., Nordberg, K., Kolstrup, E., (1994). Late Weichselian environmental change in southern Sweden and Denmark. Journal of Quaternary Science 9, 127132.CrossRefGoogle Scholar
Birks, H.H., (1993). The importance of plant macrofossils in late-glacial climatic reconstructions: An example from western Norway. Quaternary Science Reviews 12, 719726.CrossRefGoogle Scholar
Birks, H.H., Gulliksen, S., Haflidason, H., Mangerud, J., Possnert, G., (1996). New radiocarbon dates for the Vedde Ash and the Saksunarvatn Ash from western Norway. Quaternary Research 45, 119127.CrossRefGoogle Scholar
Birks, H.J.B., (1981). The use of pollen analysis in the reconstruction of past climates: A review. Wigley, T.M.L., Ingram, M.J., Farmer, G. Climate and History. Studies in Past Climates and Their Impact on Man Cambridge Univ. Press, Cambridge.111138.Google Scholar
Bock, W., Menke, B., Strehl, E., Ziemus, H., (1985). Neue Funde des Weichselspätglazials in Schleswig-Holstein. Eiszeitalter und Gegenwart 35, 161180.Google Scholar
Bohncke, S.J.P., (1993). Lateglacial environmental changes in the Netherlands: Spatial and temporal patterns. Quaternary Science Reviews 12, 707717.CrossRefGoogle Scholar
Bohncke, S., Kasse, C., Vandenberghe, J., (1995). Climate induced environmental changes during the Vistulian Lateglacial at Zabinko. Quaestiones Geographicae 4, 4364.Google Scholar
S. J. P, Bohncke, Vandenberghe, J., (1991). Palaeohydrological development in the Southern Netherlands during the last 15.000 years. In Temperate Palaeohydrology, StarkelK, L, GregoryJ, J, Thornes, B, 253, 281., Wiley, Chichester.Google Scholar
Bohncke, S., Vandenberghe, J., Huijzer, A.S., (1993). Periglacial environments during the Weichselian Late Glacial in the Maas Valley, the Netherlands. Geologie en Mijnbouw 72, 193210.Google Scholar
Bos, J.A.A., Janssen, C.R., (1996). Local impact of Palaeolithic man on the environment during the end of the Last Glacial in the Netherlands. Journal of Archaeological Science 23, 731739.CrossRefGoogle Scholar
Brinkkemper, O., Van Geel, B., Wiegers, J., (1987). Palaeoecological study of a Middle-Pleniglacial deposit from Tilligte, The Netherlands. Review of Palaeobotany and Palynology 51, 235269.CrossRefGoogle Scholar
Broecker, W.S., Kennett, J.P., Flower, B.P., Teller, J.T., Trumbore, S., Bonani, G., Wolfli, W., (1989). Routing of meltwater from the Laurentide Ice Sheet during the Younger Dryas cold episode. Nature 341, 318321.CrossRefGoogle Scholar
Casparie, W.A., Van Zeist, W., (1960). A late-glacial deposit near Waskemeer (Prov. of Friesland). Acta Botanica Neerlandica 9, 191196.CrossRefGoogle Scholar
Coope, G.R., Lemdahl, G., (1995). Regional differences in the Lateglacial climate of northern Europe based on coleopteran analysis. Journal of Quaternary Science 10, 391395.CrossRefGoogle Scholar
Coope, G.R., Lemdahl, G., Lowe, J.J., Walkling, A., (1998). Temperature gradients in Northern Europe during the Last Glacial–Interglacial Transition (14-914 . Journal of Quaternary Science 13, 419433.3.0.CO;2-D>CrossRefGoogle Scholar
Dahl, S.O., Nesje, A., (1992). Paleoclimatic implications based on equilibrium-line altitude depressions of reconstructed Younger Dryas and Holocene cirque glaciers in inner Nordfjord, western Norway. Palaeogeography, Palaeoclimatology, Palaeoecology 94, 8797.CrossRefGoogle Scholar
Diriken, P., Heyvaert, F., Gilot, E., (1995). Postglacial palaeo-ecological evolution of the Molenbeek–Mombeek Valley. Aardkundige Mededelingen, Leuven University Press 6, 5585.Google Scholar
Fassl, K., (1996). Die Bewertung von Zeigerarten in europäischen Pollendiagrammen für die Rekonstruktion des Klimas im Holozän. Paläoklimaforschung 22, .Google Scholar
Gerasimov, I. P., and Velichko, A. A. (1982). Paleogeography of Europe (during the last one hundred thousand years).Google Scholar
Hahne, J., (1991). Untersuchungen zur spät- und postglazialen Vegetationsgeschichte im nördlichen Bayern (Rhön, Grabfeld, Lange Berge). Flora 185, 1732.CrossRefGoogle Scholar
Hajdas, I., Ivy-Ochs, S.D., Bonani, G., Lotter, A.F., Zolitschka, B., Schlüchter, C., (1995). Radiocarbon age of the Laacher See tephra: 11,230 ± 40 BP. Radiocarbon 37, 149154.CrossRefGoogle Scholar
Hammarlund, D., Lemdahl, G., (1994). A Late Weichselian stable isotope stratigraphy compared with biostratigraphical data: A case study from southern Sweden. Journal of Quaternary Science 9, 1331.CrossRefGoogle Scholar
Hilldén, A., (1979). The deglaciation in the vicinity of the Berghem Moraine east of Göteborg. Lundqua Thesis 6, .Google Scholar
Hoek, W., (1997). Late-glacial and early Holocene climatic events and chronology of vegetation development in the Netherlands. Vegetation History and Archaeobotany 6, 197213.CrossRefGoogle Scholar
Hoek, W.Z., (1997). Palaeogeography of Lateglacial vegetations: Aspects of Lateglacial and early Holocene vegetation, abiotic landscape, and climate in The Netherlands. Netherlands Geographical Studies 230, 147.Google Scholar
Hoek, W.Z., (1997). Atlas to Palaeogeography of Late glacial vegetations. Maps of Lateglacial and Early Holocene landscape and vegetation in The Netherlands, with an extensive review of available palynological data. Netherlands Geographical Studies 231, .Google Scholar
Huijzer, A.S., Isarin, R.F.B., (1997). The reconstruction of past climates using multiproxy evidence: An example of the Weichselian Pleniglacial in northwest and central Europe. Quaternary Science Reviews 16, 513533.CrossRefGoogle Scholar
Hultén, E., (1950). Atlas of the Distribution of Vascular Plants in NW Europe. Generalstabens Litografiska Anstalts Förlag, Stockholm.Google Scholar
Hultén, E., (1958). The amphi-atlantic plants and their phytogeographical connections. Kungl. Svenska Vetenskapsakademiens Handligar 4, .Google Scholar
Hultén, E., (1964). The circumpolar plants (vascular cryptograms, conifers, monocotyledons). Kungl. Svenska Vetenskapsakademiens Handlingar 4, .Google Scholar
Hultén, E., (1971). The circumpolar plants II (Dicotyledons). Kungl. Svenska Vetenskapsakademiens Handlingar 4, .Google Scholar
Hultén, E., (1971). Atlas of the Distribution of Vascular Plants in Northwestern Europe. Generalstabens Litografiska Anstalts Förlag, Stockholm.Google Scholar
Isarin, R.F.B., (1997). Permafrost distribution and temperatures in Europe during the Younger Dryas. Permafrost and Periglacial Processes 8, 313333.3.0.CO;2-E>CrossRefGoogle Scholar
Isarin, R.F.B., Renssen, H., Koster, E.A., (1997). Surface wind climate during the Younger Dryas in Europe as inferred from aeolian records and model simulations. Palaeogeography, Palaeoclimatology, Palaeoecology 134, 127148.CrossRefGoogle Scholar
Iversen, J., (1944). Viscum, Hedera and Ilex as climate indicators. Geologiska Föreningens i Stockholm Förhandlingar 66, 463483.CrossRefGoogle Scholar
Iversen, J., (1954). The Late-glacial flora of Denmark and its relation to climate and soil. Danmarks Geologiske Undersøgelse 2, 87119.Google Scholar
Iversen, J., (1973). The development of Denmark's nature since the Last Glacial. Danmarks Geologiske Undersøgelse 5, .Google Scholar
Jalas, J., Suominen, J., (1980). Atlas Florae Europaeae: Distribution of vascular plants in Europe.Google Scholar
Jones, R.L., (1976). Late Quaternary vegetational history of the North York Moors. IV. Seamer Carrs. Journal of Biogeography 3, 397406.CrossRefGoogle Scholar
Kolstrup, E., (1979). Herbs as July temperature indicators for parts of the pleniglacial and late-glacial in the Netherlands. Geologie en Mijnbouw 58, 377380.Google Scholar
Kolstrup, E., (1980). Climate and stratigraphy in Northwestern Europe between 30.000 B.P. and 13.000 B.P. with special reference to the Netherlands. Mededelingen Rijks Geologische Dienst 32, .Google Scholar
Kolstrup, E., Buchardt, B., (1982). A pollen analytical investigation supported by an18 . Review of Palaeobotany and Palynology 36, 205230.CrossRefGoogle Scholar
Larsen, E., Frøydis, E., Longva, O., Mangerud, J., (1984). Alleröd-Younger Dryas climatic inferences from cirque glaciers and vegetation development in the Nordfjord area, western Norway. Arctic and Alpine Research 16, 137160.CrossRefGoogle Scholar
Lemdahl, G., (1991). A rapid climatic change at the end of the Younger Dryas in south Sweden—Palaeoclimatic and palaeoenvironmental reconstructions based on fossil insect assemblages. Palaeogeography, Palaeoclimatology, Palaeoecology 83, 313331.CrossRefGoogle Scholar
Lesemann, B., (1969). Pollenanalytische Untersuchungen zur Vegetationsgeschichte des Hannoverschen Wendlandes. Flora 158, 480519.Google Scholar
Liedberg-Jönsson, B., (1988). The Late Weichselian macrofossil flora in western Skåne, southern Sweden. Lundqua Thesis 24, 142.Google Scholar
Lotter, A., (1988). Paläoökologische und paläolimnologische Studie des Rotsees bei Luzern. Dissertationes Botanicae 124, 187.Google Scholar
Lowe, J.J., Walker, M.J.C., (1977). The reconstruction of Lateglacial environment in the southern and eastern Grampian Highlands. Gray, J.M., Lowe, J.J. Studies in the Scottish Lateglacial Environment Pergamon, Oxford.101118.CrossRefGoogle Scholar
Madeyska, T., (1995). Late Vistulian vegetation in Poland. Przeglad Geologiczny 43, 595600.Google Scholar
Mangerud, J., Andersen, S.T., Berglund, B.E., Donner, J.J., (1974). Quaternary stratigraphy of Norden: A proposal for terminology and classification. Boreas 3, 109128.CrossRefGoogle Scholar
Mania, D., Seifert, M., Thomae, M., (1993). Spät- und Postglazial im Geiseltal (mittleres Elbe-Saalegebiet). Eiszeitalter und Gegenwart 43, 122.Google Scholar
Mikolajewicz, U., Crowley, T.J., Schiller, A., Voss, R., (1997). Modelling teleconnections between the North Atlantic and North Pacific during the Younger Dryas. Nature 387, 384387.CrossRefGoogle Scholar
Moar, N.T., (1969). Two pollen diagrams from the Mainland, Orkney Islands. New Phytologist 68, 201208.CrossRefGoogle Scholar
Morrison, M.E.S., Stephens, N., (1965). A submerged Late-Quaternary deposit at Roddans Port on the north-east coast of Ireland. Philosophical Transactions of the Royal Society of London 249, 221255.Google Scholar
Paris, F.P., Cleveringa, P., Munaut, A.V., (1979). The Stokersdobbe: Geology and palynology of a deep pingo remnant in Friesland (The Netherlands). Geologie en Mijnbouw 58, 3338.Google Scholar
Pawlikowski, M., Ralska-Jasiewiczowa, M., Schönborn, W., Stupnicka, E., Szeroczyńska, K., (1982). Woryty near Gietrzwałd, Olsztyn Lake District, NE Poland—Vegetational history and lake development during the last 12000 years. Acta Palaeobotanica 22, 85116.Google Scholar
Peglar, S., (1979). A radio-carbon dated pollen diagram from Loch Winless, Caithness, north-east Scotland. New Phytologist 82, 245263.CrossRefGoogle Scholar
Pigott, C.D., Pigott, M.E., (1963). Late-glacial and Post-glacial deposits at Malham, Yorkshire. New Phytologist 62, 317334.CrossRefGoogle Scholar
Pilcher, J.R., Larmour, R., (1982). Late-glacial and post-glacial vegetational history of the Meenadoan nature reserve, County Tyrone. Proceedings of the Royal Irish Academy 82B, 277295.Google Scholar
Ralska-Jasiewiczowa, M., (1966). Bottom sediments of the Mikołajki lake (Masurian Lake District) in the light of palaeobotanic investigations. Acta Palaeobotanica 7, 1118.Google Scholar
Ralska-Jasiewiczowa, M., Rzętkowska, A., (1987). Pollen and macrofossil stratigraphy of fossil lake sediments at Niechorze I. W. Baltic coast. Acta Palaeobotanica 27, 153178.Google Scholar
Ralska-Jasiewiczowa, M., Van Geel, B., Goslar, T., Kuc, T., (1992). The record of the Late Glacial/Holocene transition in the varved sediments of Lake Gościąż, central Poland. Sveriges Geologiska Undersökning 81, 257268.Google Scholar
Renssen, H., (1997). The global response to Younger Dryas boundary conditions in an AGCM simulation. Climate Dynamics 13, 587599.CrossRefGoogle Scholar
Renssen, H., Isarin, R.F.B., (1998). Surface temperatures in NW Europe during the Younger Dryas: AGCM simulation compared with climate reconstructions. Climate Dynamics 14, 3344.CrossRefGoogle Scholar
Simpkins, K., (1974). The Late-glacial deposits at Glanllynnau, Caernarvonshire. New Phytologist 73, 605618.CrossRefGoogle Scholar
Sissons, J.B., (1980). The Loch Lomond Advance in the Lake District, northern England. Transactions of the Royal Society of Edinburgh, Earth Sciences 71, 1327.CrossRefGoogle Scholar
Streitz, B., (1980). Vegetationsgeschichtliche und pflanzensoziologische Untersuchungen an zwei Mooren Osthessischer Subrosionssenken. Dissertation Darmstadt 158, .Google Scholar
Stuiver, M., Grootes, P.M., Brazunias, T.F., (1995). The GISP2 δ18 . Quaternary Research 44, 341354.CrossRefGoogle Scholar
Sutherland, D.G., (1984). Modern glacier characteristics as a basis for inferring former climates with particular reference to the Loch Lomond stadial. Quaternary Science Reviews 3, 291309.CrossRefGoogle Scholar
Troelstra, S. R., J. E, Van Hinte, Ganssen, G. M., (1995). The Younger Dryas: Proceedings of a Workshop at the Royal Netherlands Academy of Arts and Sciences on 11–13 April 1994. Verhandelingen Koninklijke Nederlandse Akademie van Wetenschappen, Afd. Natuurkunde, 1.Google Scholar
Vandenberghe, J., (1995). The climate of the Younger Dryas in the Netherlands. Geologie en Mijnbouw 74, 245249.Google Scholar
Van Geel, B., Coope, G.R., Van der Hammen, T., (1989). Palaeoecology and stratigraphy of the lateglacial type section at Usselo (the Netherlands). Review of Palaeobotany and Palynology 60, 25129.CrossRefGoogle Scholar
Van Zeist, W., Van der Spoel-Walvius, M.R., (1980). A palynological study of the Late-Glacial and the Postglacial in the Paris Basin. Palaeohistoria 22, 67109.Google Scholar
Verbruggen, C.L.H., (1979). Vegetational and palaeoecological history of the Lateglacial period in Sandy Flanders (Belgium). Acta Universitatis Ouluensis A82, 133142.Google Scholar
Walker, M.J.C., (1982). The late-glacial and early Flandrian deposits at Traeth Mawr, Brecon Beacons, South Wales. New Phytologist 90, 177194.CrossRefGoogle Scholar
Walker, M.J.C., (1995). Climatic changes in Europe during the Last Glacial/Interglacial transition. Quaternary International 28, 6376.CrossRefGoogle Scholar
Walker, M.J.C., Coope, G.R., Lowe, J.J., (1993). The Devensian (Weichselian) Lateglacial palaeoenvironmental record from Gransmoor, East Yorkshire, England. Quaternary Science Reviews 12, 659680.CrossRefGoogle Scholar
Wallén, C.C., (1970). World Survey of Climatology. Elsevier, Amsterdam.Google Scholar
Watts, W.A., (1977). The Late Devensian vegetation of Ireland. Philosophical Transactions of the Royal Society of London B280, 273293.Google Scholar
Wright, H.E., (1989). The amphi-Atlantic distribution of the Younger Dryas paleoclimatic oscillation. Quaternary Science Reviews 8, 295306.CrossRefGoogle Scholar
Zachowicz, J., Przybyłowska-Lange, W., Nagler, J., (1982). The Late-glacial and Holocene vegetational history of the Żuławy region, N. Poland. A biostratigraphic study of lake sediments. Acta Palaeobotanica 22, 141161.Google Scholar
Zagwijn, W.H., (1994). Reconstruction of climate change during the Holocene in western and central Europe based on pollen records of indicator species. Vegetation History and Archaeobotany 3, 6588.CrossRefGoogle Scholar