Hostname: page-component-cd9895bd7-p9bg8 Total loading time: 0 Render date: 2024-12-26T06:14:17.042Z Has data issue: false hasContentIssue false
  • English
  • Français

Pleistocene history of Betula with special reference to the British Isles

Published online by Cambridge University Press:  05 December 2011

J. H. Dickson
J. H. Dickson
Affiliation:
Department of Botany, University of Glasgow, Glasgow G12 8QQ
Get access

Synopsis

Betula is well represented in the Pleistocene deposits of the British Isles; B. nana is often recovered from glacial sediments and tree Betula flourished early and late in the interglacial periods. In western and northern Britain, tree Betula has remained important in the forests since the last glacial period.

Type
Research Article
Information
Proceedings of the Royal Society of Edinburgh, Section B: Biological Sciences , Volume 85 , Issue 1-2: Birches , 1984 , pp. 1 - 11
Copyright
Copyright © Royal Society of Edinburgh 1984

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

Andersen, S. Th. 1961. Vegetation and its environment in Denmark in the Early Weichselian Glacial (Last Glacial). Geol. Surv. Denmark (II) 75, 1175.Google Scholar
Andersen, S. Th. 1980a. Early and Late Weichselian chronology and birch assemblages in Denmark. Boreas 9, 5369.CrossRefGoogle Scholar
Andersen, S. Th. 1980b. The relative pollen productivity of the common forest trees in the early Holocene in Denmark. Geol. Surv. Denmark Yb. 1979, 519.Google Scholar
Andrew, R. and West, R. G. 1977. Pollen spectra from Pliocene Crag at Orford, Suffolk. New Phytol. 78, 709714.CrossRefGoogle Scholar
Beaumont, P., Turner, J. and Ward, P. F. 1969. An Ipswichian peat raft in glacial till at Hutton Henry, Co. Durham. New Phytol. 68, 779805.CrossRefGoogle Scholar
Behre, K.-E. 1974. Die Vegetation im Spätpleistozan von Osterwanna/Niedersachsen. Geol. Jb. A18, 3—48.Google Scholar
Bell, F. G. 1970. Late Pleistocene floras from Earith, Huntingdonshire. Phil. Trans. Roy. Soc. 258B, 347378.Google Scholar
Bialobrzeska, M. and Truchanowiczowna, J. 1960. The variability of shape of fruits and scales of the European birches (Betula L.) and their determination in fossil materials. Monographiae Bot. 9 (2), 386.Google Scholar
Birks, H. H. 1972. Studies in the vegetational history of Scotland III. A radiocarbon dated pollen diagram from Loch Maree, Ross and Cromarty. New Phytol. 71, 731754.CrossRefGoogle Scholar
Birks, H. H. 1975. Studies in the vegetational history of Scotland. IV. Pine stumps in the Scottish blanket peats. Phil. Trans. Roy. Soc. 270B, 181226.Google Scholar
Birks, H. H. 1980. Plant macrofossils in Quaternary lake sediments. Arch. Hydrobiol. 15, 160.Google Scholar
Birks, H. J. B. 1968. The identification of Betula nana pollen. New Phytol. 67, 309314.CrossRefGoogle Scholar
Birks, H. J. B. 1973. Past and Present Vegetation of the Isle of Skye. A Palaeocological Study. Cambridge: University Press.Google Scholar
Birks, H. J. B. 1977. The Flandrian forest history of Scotland: a preliminary synthesis. In British Quarternary Studies, ed. Shotton, F. W., pp. 119135. Oxford: Clarendon Press.Google Scholar
Birks, H. J. B. 1980. Quarternary vegetational history of West Scotland. Guidebook for Excursion C8. 5. International Palynological Conference, Cambridge.Google Scholar
Birks, H. J. B., Deacon, J. and Peglar, S. 1975. Pollen maps for the British Isles 5000 years ago. Proc. Roy. Soc. 189B, 87105.Google Scholar
Birks, H. J. B. and Madsen, B. J. 1979. Flandrian vegetational history of Little Loch Roag, Isle of Lewis, Scotland. J. Ecol. 67, 825842.CrossRefGoogle Scholar
Bradshaw, R. H. W., 1981a. Modern pollen representation factors for woods in southeastern England. J. Ecol. 69, 4570.CrossRefGoogle Scholar
Bradshaw, R. H. W. 1981b. Quantitative reconstruction of local woodland vegetation using pollen analysis from a small basin in Norfolk, England. J. Ecol. 69, 941955.CrossRefGoogle Scholar
Burrows, C. J. H. 1974. Plant macrofossils from Late-Devensian deposits at Nant Ffrancon, Caernarvonshire. New Phytol. 73, 10031033.CrossRefGoogle Scholar
Catt, J. A. 1981. British Pre-Devensian Glaciations. In The Quaternary in Britain, ed. Neale, J. and Henley, J., pp. 919. Oxford: Pergamon Press.Google Scholar
Clifford, M. H. 1956. Key for identification of British trees and shrubs by their wood anatomy. In Godwin 1956.Google Scholar
Colhoun, E. A., Dickson, J. H., McCabe, A. M. and Shotton, F. W. 1972. A Middle Midlandian freshwater series at Derryvree, Maguiresbridge, County Fermanagh, Northern Ireland. Proc. Roy. Soc. 180B, 273292.Google Scholar
Conolly, A. P. and Dahl, E. 1970. Maximum summer temperatures in relation to the modern and Quaternary distributions of certain arctic-montane species in the British Isles. In Studies in the Vegetational History of the British Isles, ed. Walker, D. and West, R. G., pp. 159223. Cambridge: University Press.Google Scholar
Coope, G. R., Shotton, F. W. and Strachan, I. 1961. A Late Pleistocene fauna and flora from Upton Warren, Worcestershire. Phil. Trans. Roy. Soc. 244B, 379421.Google Scholar
Dahl, E. 1956. Rondane. Mountain Vegetation in South Norway and its Relation to the Environment. Skr. Norske Vidensk, Oslo I. Mat.-Naturv. Kl. 1956, No. 3.Google Scholar
Dickson, C. A. 1970. The study of plant macrofossils in British Quaternary deposits. In Studies in the Vegetational History of the British Isles, ed. Walker, D. and West, R. G., pp. 233254. Cambridge: University Press.Google Scholar
Dickson, J. H. 1980. In Jardine, W. G. Quarternary Research Association field guide to Glasgow region, 6465. Glasgow: Quaternary Research Association.Google Scholar
Dickson, J. H. 1981. A pollen diagram from the Auld Wives' Lifts, Craigmaddie Muir, Strathclyde. Glas. Archaeol. J. 8, 1318.CrossRefGoogle Scholar
Dickson, J. H., Stewart, D. A., Baxter, M. S., Drndansky, N. D., Thompson, R. and Turner, G. 1978. Palynology, palaeomagnetism and radiometric dating of Flandrian marine and freshwater sediments of Loch Lomond. Nature, Lond. 274, 548553.CrossRefGoogle Scholar
Erdtman, G., Praglowski, J. and Nilsson, S. 1963. An Introduction to a Scandinavian Pollen Flora, vol. II, p. 89. Stockholm: Almquist and Wiksell.Google Scholar
Franks, J. W. and Pennington, W. 1961. The Late-glacial and post-glacial deposits of the Erthwaite basin, North Lancashire. New Phytol. 60, 2742.CrossRefGoogle Scholar
Godwin, H. 1956. The History of the British Flora. Cambridge: Cambridge University Press.Google Scholar
Godwin, H. 1975. History of the natural forests of Britain: establishment, dominance and destruction. Phil. Trans. Roy. Soc. 271B, 4767.Google Scholar
Greguss, P. 1959. Holzanatomie der Europäischen Laubholzer und Straucher. Budapest: Akademiai Kiado.Google Scholar
Hutchison, T. C. 1966. The occurrence of living and sub-fossil remains of Betula nana L. in Upper Teasdale. New Phytol. 65, 351357.CrossRefGoogle Scholar
Iversen, J. 1956. Forest clearance in the Stone Age. Scient. Am. 194, 3641.CrossRefGoogle Scholar
Iversen, J. 1958. The bearing of glacial and interglacial epochs on the formation and extinction of plant taxa. Uppsala Univ. Arsskr. 6, 210215.Google Scholar
Iversen, J. 1973. The Development of Denmark's Nature since the Last Glacial. Geol. Surv. Denmark (V) 7.Google Scholar
Johansen, J. 1981. Vegetational development in the Faroes from 10,000 BP to the present. Geol. Surv. Denmark Yb. 1981, 111136.Google Scholar
Keatinge, T. H. and Dickson, J. H. 1979. Mid-Flandrian changes in vegetation on Mainland Orkney. New Phytol. 82, 585612.CrossRefGoogle Scholar
Knights, B. A., Dickson, C. A., Dickson, J. H. and Breeze, D. 1983. Evidence concerning the Roman military diet at Bearsden, Scotland, in the 2nd century A.D. J. Archaeol. Sci. 10, 139152.CrossRefGoogle Scholar
Menke, B. 1975. Vegetationsgeschichte und Florenstratigraphie Nordwestdeuschlands im Pliozan und Frühquartär. Mit einem Beitrag zur Biostratigraphie des Weichselfrühglazials. Geol. Jb. A26, 3151.Google Scholar
Mitchell, G. F. 1981. Littleton Bog, Tipperary: an Irish Lateglacial birch copse. Striae 14, 7678.Google Scholar
Moore, P. D. 1980. The Reconstruction of the Lateglacial Environment: some problems associated with the Interpretation of Pollen Data. In Studies in the Lateglacial of North-West Europe, ed. Lowe, J. J., Gray, J. M. and Robinson, J. E., pp. 151155. Oxford: Pergamon Press.Google Scholar
Morgan, A. 1969. A Pleistocene fauna and flora from Great Billing, Northamptonshire, England. Ospusc. Em. 34, 109129.Google Scholar
Odgaard, B. V. 1982. A Middle Weichselian moss assemblage from Hirtschals, Denmark, and some remarks on the environment 47,000 B.P. Geol. Surv. Denmark Yb. 1981, 545.Google Scholar
Pennington, W. 1977. The Late Devensian flora and vegetation of Britain. Phil. Trans. Roy. Soc. 280B, 247271.Google Scholar
Pilcher, J. R. and Larmour, R. 1982. Late-glacial and post-glacial vegetational history of the Meenadoan Nature Reserve County Tyrone. Proc. Roy. Ir. Acad. 82B, 277295.Google Scholar
Prentice, I. C. 1981. Quantitative birch (Betula L.) pollen separation by analysis of size fequency data. New Phytol. 89, 145157.CrossRefGoogle Scholar
Prentice, I. C. 1982. Calibration of pollen spectra in terms of species abundance. In Palaeohydrological changes in the temperatė zone in the last 15000 years, Vol. III: Specific Methods, pp. 2551, ed. Berglund, B. E. International and Geological correlation programme project 158. University of Lund.Google Scholar
Robinson, D. E. 1981. The vegetational history and land use history of the west of Arran, Scotland. University of Glasgow, Ph.D. thesis.Google Scholar
Rymer, L. 1973. Modern pollen rain studies in Iceland. New Phytol. 72, 13671373.CrossRefGoogle Scholar
Schweingruber, F. H. 1978. Microscopic Wood Anatomy. Bermensdorf: Swiss Federal Institute of Forestry Research.Google Scholar
Simmons, I. G., Dimbleby, G. W. and Grigson, E. 1981. The Mesolithic. In The Environment in British Prehistory, ed. Simmons, I. O. and Tooley, M., pp. 82124. London: Duckworth.Google Scholar
Simpson, I. G. and West, R. G. 1958. On the stratigraphy and palaeobotany of a Late Pleistocene organic deposit at Chelford, Cheshire, New Phytol. 57, 239250.CrossRefGoogle Scholar
Smith, A. G. 1981. The Neolithic. In The Environment in British Prehistory, ed. Simmons, I. O. and Tooley, M., pp. 1255–1219. London: Duckworth.Google Scholar
Tait, C. 1794. An account of the peat-mosses of Kincardine and Flanders in Perthshire. Trans. Roy. Soc. Edinb. 3, 266–279.Google Scholar
Tralau, H. 1963. The recent and fossil distribution of some boreal and arctic montane plants in Europe. Ark. Bol. 5, 533582.Google Scholar
Turner, J. 1979. The environment of northwest England during Roman times as shown by pollen analysis. J. Archaeol. Sci. 6, 285290.CrossRefGoogle Scholar
Usinger, H. 1975. Pollenanalytische und stratigraphische Untersuchungen an zwei spätglazial-Vorkommen in Schleswig-Holstein. Mitt. ArbGemein. Geobot. Schles.-Holst, u. Hamburg 25, 1175.Google Scholar
Usinger, H. 1978a. Bölling-Interstadial und Laacher Bimstuff in einem neuen Spätglazial-Profil aus dem Vallensgåard Mose/Bornholm. Mit pollengrossenstatistischer Trennung der Birken. Geol. Surv. Denmark Yb. 1977, 5–29.Google Scholar
Usinger, J. 1978b. Pollen- und grossrestanalytische Untersuchungen zur Frage des Bölling-Interstadials und der spätglazialen Baumbirken—Einwanderung in Schleswig-Holstein. Schr. Naturw. Ver. Schles.-Holst. 38, 4161.Google Scholar
Usinger, J. 1980. Une relation entre la taille du pollen et le climat. Mém. Mus. Natn. Hist. Nat. Paris 27, 5155.Google Scholar
Usinger, J. 1981a. Zur spät- und frühen-postglazialen Vegetationsgeschichte der Schleswig-Holsteinischen Geest nach einem Pollen- und Pollendichtediagramm aus dem Esinger Moor. Pollen Spores 23, 389432.Google Scholar
Usinger, J. 1981b. Pollen- und Grossrestanalysen an limnischen Spätglazial aus dem Scharnhagener Moor, Schleswig-Holstein. Schr. Naturw. Ver. Schles.-Holst. 51, 85105.Google Scholar
Usinger, J. 1982. Pollenanalytische Untersuchungen an spätglazialen und präborealen Sedimenten aus dem Meerfelder Maar (Eifel). Flora 111, 373409.CrossRefGoogle Scholar
Van der Hammen, T., Maarleveld, G. C, Vogel, J. C. and Azgwijn, W. H. 1967. Stratigraphy, climatic succession and radiocarbon dating of the Last Glacial in the Netherlands. Geologie Mijnb. 46, 7995.Google Scholar
Vasari, Y. and Vasari, A. 1968. Late- and Post-glacial macrophytic vegetation in the lochs of northern Scotland. Acta Bot. Fenn. 80, 1120.Google Scholar
Vogel, J. C. and Van der Hammen, T. 1967. The Denekamp and Paudorf Interstadials. Geologie Mijnb. 46, 188194.Google Scholar
Watts, W. A. 1977. The Late Devensian vegetation of Ireland. Phil. Trans. Roy. Soc. 280B, 273293.Google Scholar
Watts, W. A. 1980. Regional variation on the response of vegetation to Late glacial climatic events in Europe. In Studies in the Lateglacial of North-West Europe, ed. Lowe, J. J., Gray, J. M. and Robinson, J. E., pp. 121. Oxford: Pergamon Press.Google Scholar
West, R. G. 1980. Pleistocene forest history of East Anglia. New Phytol. 85, 571622.CrossRefGoogle Scholar
Woillard, G. M. 1978. Grand Pile peat bog: a continuous pollen record for last 14000 years. Quaternary Res. 9, 121.CrossRefGoogle Scholar
Woillard, G. M. 1979. Abrupt end to the last interglacial s.s. in north-east France. Nature, Lond. 281, 558562.CrossRefGoogle Scholar
Zagwijn, W. H. 1961. Vegetation, climate and radiocarbon datings in the Late Pleistocene of the Netherlands. Part I. Eemian and Early Weichselian. Meded. Geol. Stichl. 14, 145.Google Scholar