Hostname: page-component-586b7cd67f-gb8f7 Total loading time: 0 Render date: 2024-11-22T06:07:24.420Z Has data issue: false hasContentIssue false

Multivariate Statistical Estimates of Holocene Vegetation and Climate Change, Forest-Tundra Transition Zone, NWT, Canada

Published online by Cambridge University Press:  20 January 2017

Abstract

Newly derived fossil pollen data were obtained from four sites along a transect from the boreal forest limit into tundra in the eastern Northwest Territories. Multivariate statistical analyses were employed to interpret the pollen assemblages. Transfer functions were constructed between the pollen data and climatic data, and paleoclimatic estimates were derived. The objective nature of the reconstructions provides an independent verification of the general outlines of the chronology of tree-line movements during the mid- and late-Holocene as established in previous paleosol and pollen studies. Boreal forest extended to approximately 62°N, associated with mean July temperatures 1 to 3°C above modern means, from at least 5500 to 3700 yr B.P. Although a major episode of southward displacement of tree line at about 3700 yr B.P. is recorded, later events are not clearly represented. Considerations of the statistics, the time scales, and the nature of the pollen rain suggest only conservative interpretations of the results are possible. It is suggested that the pollen sites may have been sensitive recorders of regional vegetation change only when they were near the ecotone, corresponding to a climatic threshold.

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

Back, G., 1836 1970 edition Narrative of the Arctic Land Expedition to the Mouth of the Great Fish River. John Murray, London, M.G. Hurtig Ltd., Edmonton.Google Scholar
Barry, R.G., 1967. Seasonal location of the Arctic front over North America. Geographical Bulletin. 9, 79-95.Google Scholar
Bartlett, M.S., 1941. The statistical significance of canonical correlations. Biometrika. 32, 29-38.Google Scholar
Birks, H.J.B., 1976. Late-Wisconsinan vegetational history at Wolf Creek, central Minnesota. Ecological Monographs. 46, 395-429.Google Scholar
Birks, H.J.B., Webb, T. III, Berti, A.A., 1975. Numerical analysis of pollen samples from central Canada: A comparison of methods. Review of Palaeobotany and Palynology. 20, 133-169.Google Scholar
Bryson, R.A., 1966. Air masses, streamlines, and the boreal forest. Geographical Bulletin. 8, 228-269.Google Scholar
Bryson, R.A., Irving, W.N., Larsen, J.A., 1965. Radiocarbon and soil evidence of former forest in the southern Canadian tundra. Science. 147, 46-48.Google Scholar
Bryson, R.A., Kutzbach, J.E., 1974. On the analysis of pollen-climate canonical transfer functions. Quaternary Research. 4, 162-174.Google Scholar
1967–1970. Canada, Department of Transport, Meteorological Branch. Atlas of Climatic Maps. Series 1 to 10.Google Scholar
Cole, H.S., 1969. Objective Reconstruction of the Paleoclimatic Record Through the Application of Eigenvectors of Present-Day Pollen Spectra and Climate to the Late-Quarternary Pollen Stratigraphy. Ph.D. dissertation. University of Wisconsin, Madison. Google Scholar
Cooley, W.W., Lohnes, P.R., 1971 Multivariate Data Analysis. Wiley, New York. Google Scholar
Davis, A.M., 1975. Reconstructions of Local and Regional Holocene Environments from the Pollen and Peat Stratigraphies of Some Driftless Area Peat Deposits. Ph.D. dissertation. University of Wisconsin, Madison. Google Scholar
Faegri, K., Iverson, Johs, Faegri, K., 1975 3rd rev. Textbook of Pollen Analysis. Hafner Press, New York. Google Scholar
Fritts, H.C., Blasing, T.J., Hayden, B.P., Kutzbach, J.E., 1971. Multivariate techniques for specifying tree-growth and climate relationships and for reconstructing anomalies in paleoclimate. Journal of Applied Meteorology. 10, 845-864.Google Scholar
Glahn, H.R., 1968. Canonical correlation and its relationship to discriminant analysis and multiple regression. Journal of the Atmospheric Sciences. 25, 23-31.Google Scholar
Gordon, B.H.C., 1977 Migod, 8000 Years of Barrenland Prehistory. National Museum of Man Mercury Series, Archaeological Survey of Canada Paper 56, Ottawa.Google Scholar
Hare, F.K., Hay, J.E., 1974. The climate of Canada and Alaska. Bryson, R.A., Hare, F.K., Climates of North America. World Survey of Climatology. Volume 11, Elsevier, Amsterdam, 49-192.Google Scholar
Hare, F.K., Ritchie, J.C., 1972. The boreal bioclimates. Geographical Review. 62, 333-365.Google Scholar
Hearne, S., 1795 1971 edition A Journey from Prince of Wales's Fort in Hudson's Bay to the Northern Ocean. A. Strahan and T. Cadell, London, M.G. Hurtig Ltd. Edmonton.Google Scholar
Hustich, I., 1966. On the forest-tundra and the northern tree-lines. Annales Universitatis Turkuenesis Series A:2. 36, 7-47.Google Scholar
Hutson, W.H., 1977. Transfer functions under noanalog conditions: Experiments with Indian Ocean planktonic foraminifera. Quaternary Research. 8, 355-367.CrossRefGoogle Scholar
Imbrie, J., Kipp, N.G., 1971. A new micropaleontological method for quantitative paleoclimatology: application to a late Pleistocene Caribbean core. Turekian, K.K., The Late Cenozoic Glacial Ages. Yale Univ. Press, New Haven, Conn, 71-181.Google Scholar
Ives, J.W., 1977. Pollen separation of three North American birches. Arctic and Alpine Research. 9, 73-80.Google Scholar
Jorgensen, S., 1967. A method of absolute pollen counting. New Phytologist. 66, 489-493.CrossRefGoogle Scholar
Kapp, R.O., 1969 How to Know Pollen and Spores. W.C. Brown, Dubuque, Iowa. Google Scholar
Kay, P.A., 1976. Post Glacial History of Vegetation and Climate in the Forest-Tundra Transition Zone, Dubawnt Lake Region, Northwest Territories Canada. Ph.D. dissertation. University of Wisconsin, Madison. Google Scholar
Kay, P.A., 1978. Dendroecology in Canada's forest-tundra transition zone. Arctic and Alpine Research. 10, 133-138.Google Scholar
Kung, E.C., Bryson, R.A., Lenschow, D.H., 1964. Study of a continental surface albedo on the basis of flight measurements and structure of the Earth's surface cover over North America. Monthly Weather Review. 92, 543-564.Google Scholar
Larsen, J.A., 1974. Ecology of the northern continental forest border. Ives, J.D., Barry, R.G. . Arctic and Alpine Environments. Menthuen, London, 341-369.Google Scholar
Lichti-Federovich, S., Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology. 7, 297-344.Google Scholar
McAndrews, J.H., Berti, A.A., Norris, G., 1973 Key to the Quaternary Pollen and Spores of the Great Lakes Region. Royal Ontario Museum, Life Science Miscellaneous Publication, Toronto. Google Scholar
Mitchell, 182.L., 1973. A theoretical tree-line in central Canada. Annals of the Association of American Geographers. 63, 296-301.Google Scholar
Mosimann, J.E., 1965. Statistical methods for the pollen analyst: multiple and negative multinomial techniques. Kummel, B., Raup, D., Handbook of Paleontological Techniques. Freeman, San Francisco, 636-673.Google Scholar
Nichols, H., 1967. The Post-glacial history of vegetation and climate at Ennadai Lake, Keewatin, and Lynn Lake, Manitoba (Canada). Eiszeitalter und Gegenwart. 18, 175-197.Google Scholar
Nichols, H., 1969. The late quaternary history of vegetation and climate at Porcupine Mountain and Clearwater Bog, Manitoba. Arctic and Alpine Research. 1, 155-167.Google Scholar
Nichols, H., 1970. Late Quaternary pollen diagrams from the Canadian arctic Barren Grounds at Pelly Lake, northern Keewatin, N. W. T.. Arctic and Alpine Research. 2, 43-61.Google Scholar
Nichols, H., 1972. Summary of the palynological evidence for late-Quaternary vegetation and climatic change in the central and eastern Canadian Arctic. Vasari, Y., Hyvarinen, H., Hicks, S., Climatic Changes in Arctic Areas during the Last Ten-Thousand Years. Acta Universitatis Ouluensis, Series A. 309-339 Scientiae Rerum Naturalium No. 3, Geologica No. 1.Google Scholar
Nichols, H., 1974. Arctic North America palaeoecology: The recent history of vegetation and climate deduced from pollen analysis. Ives, J.D., Barry, R.G., Arctic and Alpine Environments. Methuen, London, 637-668.Google Scholar
Nichols, H., 1975. Palynological and paleoclimatic study of the late Quaternary displacement of the boreal forest-tundra ecotone in Keewatin and Mackenzie, NWT. Occasional Paper 15. University of Colorado, Institute of Arctic and Alpine Research. Google Scholar
Nichols, H., 1976. Historical aspects of the northern Canadian treelines. Arctic. 29, 38-47.Google Scholar
Porsild, A.E., 1957. Illustrated Flora of the Canadian Arctic Archipelago. National Museum of Canada, Bulletin. 146, Ottawa.Google Scholar
Prest, 183.K., 1969 Retreat of Wisconsin and Recent Ice in North America. Geological Survey of Canada, Map 1257A.Google Scholar
Reed, R.J., Kunkel, B.A., 1960. The Arctic circulation in summer. Journal of Meteorology. 17, 489-506.Google Scholar
Ritchie, J.C., Hare, F.K., 1971. Late-Quaternary vegetation and climate near the arctic tree line of northwestern North America. Quaternary Research. 1, 311-342.Google Scholar
Richard, P., 1970. Atlas pollinique des arbres et de quelques arbustes indigenes du Quebec. Le Naturaliste Canadien. 97, 1-34.Google Scholar
Richard, P., Atlas pollinique des arbres et de quelques arbustes indigenes du Quebec. Le Naturaliste Canadien. 97, 97-162.Google Scholar
Richard, P., Atlas pollinique des arbres et de quelques arbustes indigenes du Quebec. Le Naturaliste Canadien. 97, 241-306.Google Scholar
Rowe, J.S., 1972 Forest Regions of Canada. Department of the Environment, Canadian Forestry Service Publication 1300, Ottawa.Google Scholar
Rowe, J.S., Scotter, G.W., 1973. Fire in the boreal forest. Quaternary Research. 3, 444-464.Google Scholar
Saville, D.B.O., 1972 Arctic Adaptations in Plants. Department of Agriculture Monograph 6, Ottawa.Google Scholar
Sorenson, C.J., 1977. Reconstructed Holocene bioclimates. Annals of the Association of American Geographers. 67, 214-222.Google Scholar
Sorenson, C.J., Knox, J.C., Larsen, J.A., Bryson, R.A., 1971. Paleosols and the forest border in Keewatin, N.W.T.. Quaternary Research. 1, 468-473.Google Scholar
Sorenson, C.J., Knox, J.C., 1973. Paleosols and paleoclimates related to late Holocene forest/tundra border migrations: Mackenzie and Keewatin, N.W.T., Canada. Raymond, S., Schledermann, P., International Conference on the Prehistory and Paleoecology of Western North American Arctic and Subarctic. University of Calgary, Archaeology Association, Calgary, 187-204.Google Scholar
Tyrrell, J.B., 1897. Report on the Doobaunt, Kazan and Ferguson Rivers and the North-West Coast of Hudson Bay. Geological Survey of Canada, Annual Report (n.s.). vol. IX, (1896), part F, Ottawa.Google Scholar
Vowinckel, T., Oechel, W.O., Boll, W.G., 1975. The effect of climate on the photosynthesis of Picea mariana at the subarctic treeline. 1. Field measurements. Canadian Journal of Botany. 53, 604-620.Google Scholar
Webb, T. III, 1974. A vegetational history from northern Wisconsin: evidence from modern and fossil pollen. American Midland Naturalist. 92, 12-34.Google Scholar
Webb, T. III, Bryson, R.A., 1972. Late- and postglacial climatic change in the northern midwest, USA: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Quaternary Research. 2, 70-115.Google Scholar
Webb, T. III, Clark, D.R., 1977. Calibrating micropaleontological data in climatic terms: a critical review. Annals of the New York Academy of Science. 288, 93-118.CrossRefGoogle Scholar
Webb, T. III, McAndrews, J.H., 1976. Corresponding patterns of contemporary pollen and vegetation in central North America. Cline, R.M., Hays, J.D., Investigation of Late Quaternary Paleoceanography and Paleoclimatology. Geological Society of America Memoir 145.267-299 Boulder, Colorado.Google Scholar