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Postglacial Forest Patterns Associated with till and Outwash in Northcentral Upper Michigan

Published online by Cambridge University Press:  20 January 2017

Linda B. Brubaker*
Affiliation:
College of Forest Resources, University of Washington, Seattle, Washington 98195 USA

Abstract

Pollen analysis of lake sediments reveals that small areas of till and outwash in northcentral Upper Michigan have influenced plant distributions throughout postglacial time. Each substrate has different textural characteristics. Modern forest communities form a mosaic, with jack pine woodlands occupying the medium sands of the Yellow Dog Plains outwash and white pine-hardwood communities on both till and outwash soils in the Michigamme Highlands to the south.

The analysis of modern pollen samples from 21 lakes within the area indicates that pollen can be used to study the distribution of local vegetation in relation to substrate type. Fossil pollen from three of the lakes documents the character of ancient forest on Yellow Dog outwash, Michigamme outwash, and Michigamme till.

Unique boreal communities occupied each area immediately after deglaciation. Between 8000 and 7000 y.a., white pine and maples migrated into the study area and replaced jack pine in forests on the Highlands, but not on the Plains. Jack pine has continued to occupy the Plains since early postglacial time. White pine reached highest densities on Michigamme outwash, and deciduous trees increased primarily on till during the presumably dry climates which existed 8000-5000 yr BP. As the climate became more mesic, forests on the Highlands changed, so that by 3000 yr BP the communities on Michigamme outwash and till were indistinguishable on the basis of pollen. Present-day forest patterns of the area became established at that time.

Pollen influx rates, measured at each lake, generally support interpretations based on pollen percentages and were similar to values reported elsewhere. Variations in influx values are within the range expected for the method.

Type
Research Article
Copyright
University of Washington

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References

Andersen, S.T., (1970). The relative pollen productivity and pollen representation of north European trees, and correlation factors in tree pollen spectra. Geological Survey of Denmark 11, 96 96.Google Scholar
Benninghoff, W.S., (1962). Calculation of pollen and spore density in sediments by addition of exotic pollen in known quantities. Pollen et Spores 4, 332333.Google Scholar
Black, R.F., (1969). Valderian glaciation in Western Upper Michigan. Proceedings, 12th Conference International Association for Great Lakes Research International Association for Great Lakes Research Ann Arbor, Mich 116123.Google Scholar
Bourdo, E.A. Jr., (1955). A Validation of Methods Used in Analyzing Original Forest Cover. Ph.D. Thesis University of Michigan 207.Google Scholar
Braun, E.L., (1950). Deciduous Forests of Eastern North America. Blakeston Philadephia 595.Google Scholar
Bray, W.L., Curtis, J.T., (1957). An ordination of the upland forest communities of Southern Wisconsin. Ecological Monographs 27, 325349.CrossRefGoogle Scholar
Broeker, S.W., Walton, A., (1959). The geochemistry of 14C in fresh water systems. Geochimia et Cosmochimica Acta 16, 1538.CrossRefGoogle Scholar
Buchman, H.O., Brady, N.C., (1969). The Nature of Properties of Soils. Macmillan Co London 653.Google Scholar
Caplenor, D., (1968). Forest composition in loessal and non-loessal soils in west-central Mississippi. Ecology 49, 322330.CrossRefGoogle Scholar
Cottam, G., Curtis, J.T., (1955). The use of distance measures in phytosociological sampling. Ecology 37, 451460.CrossRefGoogle Scholar
Curtis, J.T., (1951). The Vegetation of Wisconsin. University of Wisconsin Press Madison 657.Google Scholar
Cushing, E.J., (1965). Problems in the Quaternary phytogeography of the Great Lakes region. Wright, H.E. Jr., Frey, D.G., The Quaternary of the United States Princeton University Press Princeton, N. J 403416.Google Scholar
Daubenmire, R., (1959). Plants and Environment. Harper and Row New York 312.Google Scholar
Davis, M.B., (1965). Phytogeography and palynology of northeastern United States. Wright, H.E. Jr., Frey, D.G., The Quaternary of the United States Princeton University Press Princeton, N. J 337401.Google Scholar
Davis, M.B., (1967). Late-glacial climate in northern United States: A comparison of New England and the Great Lakes region. Cushing, E.J., Wright, H.E. Jr., Quaternary Paleoecology Yale University Press New Haven, Conn 1143.Google Scholar
Davis, M.B., (1969). Climatic changes in southern Connecticut recorded by pollen deposition at Rogers Lake. Ecology 50, 409422.CrossRefGoogle Scholar
Davis, M.B., Brubaker, L.B., Webb, T. III, (1973). Calibration of absolute pollen influx. Birks, H.J.B., West, R.G., Quaternary Plant Ecology Blackwell Oxford 926.Google Scholar
Davis, M.B., Deevey, E.S. Jr., (1964). Pollen accumulation rates; estimate from lateglacial sediment of Rogers Lake. Science 145, 12931295.CrossRefGoogle ScholarPubMed
Davis, R.B., Doyle, R.W., (1969). A piston corer for upper sediments in lakes. Limnology and Oceanography 14, 643648.CrossRefGoogle Scholar
Davis, R.B., Webb, T. III, (1975). The contemporary distribution of pollen in eastern North America: A comparison with vegetation. Quaternary Research 5, 395434.CrossRefGoogle Scholar
Deevey, E.S. Jr., Green, M.S., Hutchinson, G.E., Graybill, H., (1954). The natural 14C content of materials from hardwater lakes. Proceedings of the National Academy of Science, USA 40, 285288.Google Scholar
Deevey, E.S. Jr., Stuiver, M., (1964). Distribution of natural isotopes of carbon in Linsley Pond and other New England lakes. Limnology and Oceanography 9, 111.Google Scholar
Donner, J.J., Junger, H., Vasari, Y., (1971). The hardwater effect on radiocarbon measurements of samples from Säynäjälampi, northeast Finland. Commentationes Physioco-Mathematicae, Societas Scientarium Fennica 41, 307310.Google Scholar
Faegri, K., Iversen, J., (1964). Textbook of Pollen Analysis. Munksgaard Copenhagen 237.Google Scholar
Farrand, W.R., (1960). Evidence of Ancient Levels of Lake Superior in the Huron Mountains Area. Report prepared for Huron Mountains Wildlife Foundation, Inc. .Google Scholar
Farrand, W.R., Zahner, R., Benninghoff, W.S., (1969). Cary-Port Huron Interstade: Evidence from a burial Bryophyte bed, Cheboygan County, Michigan. Geological Society of America Special Papers 123, 249262.Google Scholar
Florin, M.B., Wright, H.E. Jr., (1969). Diatom evidence for the persistence of stagnant glacial ice in Minnesota. Geological Society of America Bulletin 80, 695704.CrossRefGoogle Scholar
Fowells, H.A., (1965). Silvics of Forest Trees of the United States. United States Department of Agriculture Handbook 762No. 271.Google Scholar
Harrison, A.T., Small, E., Mooney, H.A., (1971). Drought relationships and distribution of Mediterranean climate California plant communities. Ecology 52, 869875.CrossRefGoogle Scholar
Heim, J.H., (1969). Intéret de létude des relations entre les spectres polliniques récents et la végétation actuelle. VIII Congrés INQUA 1, 226232.Google Scholar
Heinselman, M., (1973). Fire in the virgin forests of the Boundary Waters Canoe Area, Minnesota. Quaternary Research 3, 329382.CrossRefGoogle Scholar
Iversen, J., (1954). The late glacial flora of Denmark and its relation to climate and soil. Danmarks Geologiske Undersoegelse Raekke 2, 80.Google Scholar
Janssen, C.R., (1973). Local and regional pollen deposition. Birks, H.J.B., West, R.G., Quaternary Plant Ecology Blackwell Oxford 3142.Google Scholar
Kerfoot, W.C., (1974). Net accumulation rates and the history of Cladoceran communities. Ecology 55, 5161.CrossRefGoogle Scholar
Lichti-Federovich, S., Ritchie, J.C., (1968). Recent pollen assemblages from the western interior of Canada. Review of Paleobotany and Palynology 7, 297344.Google Scholar
Maher, L.J. Jr., (1963). Pollen analysis of surface materials from the San Juan Mountains, Colorado. Geological Society of America Bulletin 12, 14851503.Google Scholar
McAndrews, J.H., (1966). Postglacial history of prairie, savanna, and forest in Northwestern Minnesota. Memoirs Torrey Botany Club 22, 172.Google Scholar
McAndrews, J.H., (1967). Pollen analysis and vegetation history of the Itasca Region, Minesota. Cushing, E.J., Wright, H.E. Jr., Quaternary Paleoecology Yale University Press New Haven, Conn.Google Scholar
McColl, J.G., (1969). Soil and plant relationships in a Eucalyptus forest on the south coast of New South Wales. Ecology 50, 354362.CrossRefGoogle Scholar
Mueggler, W.F., Harris, C.A., (1968). Some vegetation and soil characteristics of mountain grasslands in central Idaho. Ecology 50, 671678.CrossRefGoogle Scholar
Phleger, F.B., (1951). Ecology of Foraminifera, northwest Gulf of Mexico. I. Foraminifera distribution. Geological Society of America Memoir 46, 148.Google Scholar
Potzger, J.E., (1942). Pollen spectra for four bogs on the Gillen Nature Reserve along the Michigan-Wisconsin state line. American Midland Naturalist 28, 501511.Google Scholar
Potzger, J.E., (1943). Pollen study of five bogs in Price and Sawyer Counties, Wisconsin. Butler University Botanical Studies 6, 5064.Google Scholar
Potzger, J.E., (1946). Phytosociology of the primeval forest in central-northern Wisconsin and Upper Michigan, and a brief post-glacial history of the lake forest formation. Ecological Monographs 16, 211250.CrossRefGoogle Scholar
Potzger, J.E., Keller, C.O., (1943). A pollen study of four bogs along the Southern border of Vilas County, Wisconsin. Transactions of the Wisconsin Acadamy of Sciences, Arts and Letters 35, 147156.Google Scholar
Raup, H.M., (1947). The Botany of South-western Mackinzie, Sargentia. The Arnold Arboretum of Harvard University Cambridge, Mass 275.Google Scholar
Stuiver, M., Deevey, E.S. Jr., Pouse, I., (1963). Yale natural radiocarbon measurements II. Radiocarbon 4, 3542.Google Scholar
Swain, A.M., (1973). A history of fire and vegetation in northeastern Minnesota as recorded in lake sediments. Quaternary Research 3, 383397.CrossRefGoogle Scholar
Thompson, N.T., (1961). Merchantable Timber of the McCormick Tract. 1Mimeographed.Google Scholar
Tutin (Pennington), W., Bonny, A.P., (1970). Absolute pollen diagram from the British late-glacial. Nature (London) 226, 871873.Google Scholar
Ueno, J., (1958). Some palynological observations of Pinaceae. Journal of Institute Polytechnics, Osaka City University, Ser. D 9, 163186.Google Scholar
Waddington, J.C.B., (1969). A stratigraphic record of the pollen influx to a lake in the Big Woods of Minnesota. Geological Society of America Special Papers 123, 263282.Google Scholar
Webb, T. III, (1974a). Corresponding Patterns of pollen and vegetation in lower Michigan: A comparison of quantitative data. Ecology 55, 1728.CrossRefGoogle Scholar
Webb, T. III, (1974b). A vegetational history from northern Wisconsin: Evidence from modern and fossil pollen. American Midland Naturalist 92, 1234.Google Scholar
West, N.E., Ibrahin, K.I., (1968). Soil-vegetation relationships in the shadscale zone of southerastern Utah. Ecology 49, 445455.Google Scholar
Whitehead, D.R., (1965). Palynology and Pleistocene phytogeography of unglaciated eastern North America. Wright, H.E. Jr., Frey, D.G., The Quaternary of the United States Princeton University Press Princeton, N.J 417432.Google Scholar
Wright, H.E. Jr., (1964). Aspects of the early postglacial forest succession in the Great Lakes region. Ecology 45, 439448.Google Scholar
Wright, H.E. Jr., (1967). A square-rod piston sampler for lake sediments. Journal of Sedimentary Petrology 37, 975976.Google Scholar
Wright, H.E. Jr., (1968). The roles of pine and spruce in the forest history of Minnesota and adjacent areas. Ecology 49, 937955.CrossRefGoogle Scholar
Wright, H.E. Jr., Watts, W.A., (1969). Glacial and Vegetational History of North-eastern Minnesota. 59Minnesota Geological Survey Special Paper No. 11. Minneapolis.Google Scholar