Hostname: page-component-586b7cd67f-t7czq Total loading time: 0 Render date: 2024-11-27T18:35:49.130Z Has data issue: false hasContentIssue false

The Present Flora and Vegetation of the Moraines of the Klutlan Glacier, Yukon Territory, Canada: A Study in Plant Succession

Published online by Cambridge University Press:  20 January 2017

H. J. B. Birks*
Affiliation:
The Botany School, University of Cambridge, Downing Street, Cambridge CB2 3EA, England

Abstract

The flora and vegetation of six ice-cored moraines of the Klutlan Glacier were analyzed in 65 plots by European plant-sociological techniques. The age of each plot was estimated from annual growth rings of shrubs or trees in the plots. Nine major vegetation types are distinguished: Crepis nana, Dryas drummondii, Hedysarum mackenzii, Hedysarum-Salix, Salix-Shepherdia canadensis, Picea-Salix, Picea-Arctostaphylos, Picea-Ledum, and Picea-Rhytidium. These contain plants aged 2–6, 9–23, 10–20, 24–30, 32–58, 58–80, 96–178, 177–240, and >163- >339 yr, respectively. Six other vegetation types are described from windthrow areas, drainage channels, volcanic tephra slopes, lake margins, fens, and drained lakes. The major vegetation types reflect a vegetational succession related to moraine age and stability, with the Crepis nana type as the pioneer vegetation developing through the other vegetation types to the Picea-Rhytidium type on the oldest moraines. Changes in species diversity and soil development, particularly humus accumulation, parallel the vegetational succession. This succession differs from patterns of revegetation of deglaciated landscapes in Alaska and British Columbia today and in Minnesota in late-Wisconsin times because of differences in climate, plant migration, and local ecology.

Type
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.)

Footnotes

Contribution No. 202, Limnological Research Center, University of Minnesota, Minneapolis, Minn. 55455.

References

Birks, H.J.B. Past and Present Vegetation of the Isle of Skye—A Palaeoecological Study 1973 Cambridge Univ. Press London Google Scholar
Birks, H.J.B. Late-Wisconsinan vegetational history at Wolf Creek, central Minnesota. Ecological Monographs 46 1976 395-429 CrossRefGoogle Scholar
Birks, H.J.B. Modern pollen rain and vegetation of the St. Elias Mountains, Yukon Territory, Canada. Canadian Journal of Botany 55 1977 2367-2382 Google Scholar
Birks, H.J.B. Modern pollen assemblages and vegetational history of the moraines of the Klutlan Glacier and its surroundings, Yukon Territory, Canada. Quaternary Research 14 1980 101-129 Google Scholar
Butters, F.K. Abbe, E.C. A floristic study of Cook County, northeastern Minnesota. Rhodora 55 1953 21-201 Google Scholar
Cooper, W.S. The recent ecological history of Glacier Bay, Alaska: III. Permanent quadrants at Glacier Bay: An initial report upon a long-period study. Ecology 4 1923 355-365 Google Scholar
Cooper, W.S. A third expedition to Glacier Bay, Alaska. Ecology 12 1931 61-95 Google Scholar
Cooper, W.S. A fourth expedition to Glacier Bay, Alaska. Ecology 20 1939 130-155 Google Scholar
Crum, H.A. Steere, W.C. Anderson, L.E. A new list of mosses of North America north of Mexico. Bryologist 76 1973 85-130 Google Scholar
Cushing, E.J. Late-Wisconsin Pollen Stratigraphy in East-Central Minnesota. Ph.D. dissertation 1963 University of Minnesota Google Scholar
Cushing, E.J. Problems in Quaternary phytogeography of the Great Lake region Wright, H.E. Jr. Frey, D.G. The Quaternary of the United States 1965 Princeton Univ. Press Princeton, NJ 403-416 Google Scholar
Dahl, E. Rondane. Mountain vegetation in south Norway and its relation to the environment. Skrift Norske Vidensk-Akad.I. Mat.-Nat. No. 3 1957 Google Scholar
Dahl, E. Krog, H. Macrolichens of Denmark, Finland, Norway, and Sweden 1973 Universitetsforlaget Oslo Google Scholar
Damon, P.E. Ferguson, C.V. Long, A. Wallick, E.I. Dendrochronologic calibration of the radiocarbon time scale. American Antiquity 39 1974 350-366 Google Scholar
Douglas, G.W. Montane zone vegetation of the Alsek River region, southwestern Yukon. Canadian Journal of Botany 52 1974 2505-2532 Google Scholar
Douglas, G.W. Vitt, D.H. Moss-lichen flora of St. Elias-Kluane ranges, southwestern Yukon. Bryologist 79 1976 437-456 Google Scholar
Driscoll, F.G. Jr. Formation and Wastage of Neoglacial Surge Moraines of the Klutlan Glacier, Yukon Territory, Canada. Ph.D. thesis 1976 University of Minnesota Google Scholar
Driscoll, F.G. Jr. Formation of the Neoglacial surge moraines of the Klutlan Glacier, Yukon Territory, Canada. Quaternary Research 14 1980 19-30 Google Scholar
Driscoll, F.G. Jr. Wastage of the Klutlan ice-cored moraines, Yukon Territory, Canada. Quaternary Research 14 1980 31-49 CrossRefGoogle Scholar
Grime, J.P. Plant Strategies and Vegetation Processes 1979 Wiley New York Google Scholar
Hultén, E. Flora of Alaska and Neighboring Territories 1968 Stanford Univ. Press Stanford, California Google Scholar
Iversen, J. Über die Korrelationen zwischen den Pflanzenarten in einem Grönlandischen Talgebiet. Vegetatio 5–6 1954 238-246 CrossRefGoogle Scholar
Iversen, J. The late-glacial flora of Denmark and its relation to climate and soil. Danmarks Geologiske Undersogelse 80 1954 87-119 Ser. II Google Scholar
Jacobson, G.L. Birks, H.J.B. Soil development on recent end moraines of the Klutlan Glacier, Yukon Territory, Canada. Quaternary Research 14 1980 87-100 Google Scholar
Janssen, C.R. A floristic study of forests and bog vegetation, northwestern Minnesota. Ecology 48 1967 751-765 Google Scholar
Lawrence, D.B. Glaciers and vegetation in southeastern Alaska. American Scientist 46 1958 89-122 Google Scholar
Lawrence, D.B. Schoenike, R.E. Quispel, A. Bond, G. The role of Dryas drummondii in vegetation development following ice recession at Glacier Bay, Alaska, with special reference to its nitrogen fixation by root nodules. Journal of Ecology 55 1967 793-813 CrossRefGoogle Scholar
Lundqvist, J. Plant cover and environment of steep hill sides in Pite Lappmark. Acta Phytogeographica Suecica 53 1965 Google Scholar
McIntosh, R.P. An index of diversity and the relation of certain concepts to diversity. Ecology 48 1967 392-404 CrossRefGoogle Scholar
McVean, D.N. Ratcliffe, D.A. Plant Communities of the Scottish Highlands 1962 H. M. Stationery Office London Google Scholar
Nordhagen, R. Versuch einer neuen Einteilung der subalpinen-alpinen Vegetation Norwegens. Bergens Museums Årbok 1936, Naturvid. rekke 7 1936 Google Scholar
Nordhagen, R. Sikisdalen og Norges Fjellbeiter. En plantesosiologisk monografi. Bergens Museum Skrifter Nr. 22 1943 Google Scholar
Orloci, L. An agglomerative method for classification of plant communities. Journal of Ecology 55 1967 193-206 Google Scholar
Packer, J.G. A taxonomic and phytogeographical review of some arctic and alpine Senecio species. Canadian Journal of Botany 50 1972 507-518 Google Scholar
Persson, Å. Mire and spring vegetation in an area north of Lake Torneträsk, Torne Lappmark, Sweden. Opera Botanica 6 1 1961 Lund Google Scholar
Pielou, E.C. An Introduction to Mathematical Ecology 1969 Wiley-Interscience New York Google Scholar
Pigott, C.D. Walters, S.M. On the interpretation of the discontinuous distribution shown by certain British species of open habitats. Journal of Ecology 42 1950 95-116 Google Scholar
Poore, M.E.D. The use of phytosociological methods in ecological investigations, II. Practical issues involved in an attempt to apply the Braun-Blanquet System. Journal of Ecology 43 1955 245-269 Google Scholar
Porsild, A.E. Contributions to the flora of southwestern Yukon Territory. National Museum of Canada Bulletin 215 1966 1-86 Google Scholar
Post, A. Streveler, G. The tilted forest: glaciological-geologic implications of vegetated neoglacial ice at Lituya Bay, Alaska. Quaternary Research 6 1976 111-117 Google Scholar
Pritchard, N.M. Anderson, A.J.B. Observations on the use of cluster analysis in botany with an ecological example. Journal of Ecology 59 1971 727-747 Google Scholar
Rampton, V. Neoglacial fluctuations of the Natazhat and Klutlan Glaciers, Yukon Territory, Canada. Canadian Journal of Earth Science 7 1970 1236-1263 Google Scholar
Rampton, V. Late Quaternary vegetational and climatic history of the Snag-Klutlan area, south-western Yukon Territory, Canada. Geological Society of America Bulletin 82 1971 959-978 CrossRefGoogle Scholar
Reiners, W.A. Worley, I.A. Lawrence, D.B. Plant diversity in a chronosequence at Glacier Bay, Alaska. Ecology 52 1971 55-69 Google Scholar
Sigafoos, R.S. Hendricks, E.L. The time interval between stabilization of alpine glacial deposits and establishment of tree seedlings. U.S. Geological Survey Professional Paper 650-B 1969 B89-B93 Google Scholar
Simpson, E.H. Measurement of diversity. Nature (London) 163 1949 688 Google Scholar
Stephens, F.R. A forest ecosystem on a glacier in Alaska. Arctic 22 1969 441-444 CrossRefGoogle Scholar
Stewart, W.D.P. Nitrogen-fixing plants. Science 158 1967 1426-1432 Google Scholar
Stuiver, M. Suess, H.E. On the relationship between radiocarbon dates and true sample ages. Radiocarbon 8 1966 534-540 Google Scholar
Tisdale, E.W. Fosberg, M.A. Poulton, D.E. Vegetation and soil development on a recently glaciated area near Mount Robson, British Columbia. Ecology 47 1966 517-523 Google Scholar
Viereck, L.A. Plant succession and soil development on glacial outwash of the Muldrow Glacier, Alaska. Ecological Monographs 36 1966 181-199 CrossRefGoogle Scholar
Watts, W.A. Late-glacial plant macrofossils from Minnesota Cushing, E.J. Wright, H.E. Jr. Quaternary Paleoecology 1967 Yale Univ. Press New Haven, Conn 89-97 Google Scholar
Worley, I.A. A checklist of the Hepaticae of Alaska. Bryologist 73 1970 32-38 Google Scholar