Hostname: page-component-8448b6f56d-xtgtn Total loading time: 0 Render date: 2024-04-19T05:43:03.291Z Has data issue: false hasContentIssue false
  • English
  • Français

Sensitivity of Cool-Temperate Forests and their Fossil Pollen Record to Rapid Temperature Change

Published online by Cambridge University Press:  20 January 2017

Margaret Bryan Davis  and
Daniel B. Botkin
Margaret Bryan Davis
Affiliation:
Department of Ecology and Behavioral Biology, University of Minnesota, Minneapolis, Minnesota 55455
Daniel B. Botkin
Affiliation:
Department of Biology and Environmental Studies Program, University of California, Santa Barbara, California 93106
Get access Rights & Permissions [Opens in a new window]

Abstract

Simulations of cool-temperate forest growth in response to climatic change using the JABOWA computer model show that a decrease of 600 growing degree-days (equivalent to a 2°C decrease in mean annual temperature) causes red spruce (Picea rubens) to replace sugar maple (Acer saccharum) as the dominant tree. These changes are delayed 100–200 yr after the climatic cooling, producing gradual forest changes in response to abrupt temperature changes, and reducing the amplitude of response to brief climatic events. Soils and disturbances affect the speed and magnitude of forest response. The delayed responses are caused by the difference in sensitivity of adult trees and younger stages. The length of the delay depends on the life history characteristics of the dominant species. Delayed responses imply that fossil pollen deposits, even if they faithfully record the abundances of trees in forests, may not be able to resolve climatic changes within 100–200 yr, or to record very brief climatic events. This explains why pollen deposits do not as yet show responses to climatic changes during the past 100 yr. Only the Little Ice Age, which lasted several centuries, caused sufficient forest change to be recorded in fossil pollen, and only at certain sites.

Type
Original Articles
Information
Quaternary Research , Volume 23 , Issue 3 , May 1985 , pp. 327 - 340
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

Aber, J.D. Botkin, D.B. Melillo, J.M. 1978 Predicting the effects of different harvesting regimes on forest floor dynamics in northern hardwoods Canadian Journal of Forest Research 8 306315 Google Scholar
Aber, J.D. Botkin, D.B. Melillo, J.M. 1979 Predicting the effects of different harvesting regimes on productivity and yield in northern hardwoods Canadian Journal of Forest Research 9 1014 CrossRefGoogle Scholar
Ahlmann, H.W. 1953 Glacier Variations and Climatic Fluctuations Yale University. Amer. Geograph. Soc New York Bowman Memorial LectureGoogle Scholar
Allison, T.D. Davis, M.B. Moeller, R.E. 1984 Chestnut and hemlock pollen in laminated sediments: Evidence for a pathogen-induced decline 6th International Palynological Conference Abstracts Google Scholar
Anderson, T.W. 1974 The chestnut pollen decline as a time horizon in lake sediments in eastern North America Canadian Journal of Earth Sciences 11 678685 CrossRefGoogle Scholar
Bernabo, J.C. 1981 Quantitative estimates of temperature changes over the last 2700 years in Michigan based on pollen data Quaternary Research 15 143159 CrossRefGoogle Scholar
Birks, H.J.B. 1981 The use of pollen analysis in the reconstruction of past climates: A review Wigley, J.M. Ingram, M.J. Farmer, G. Climate and History Cambridge Univ. Press Cambridge 111138 Google Scholar
Bormann, F.H. Likens, G.E. 1979 Pattern and Process in a Forest Ecosystem Springer-Verlag New York Google Scholar
Bormann, F.H. Siccama, T.G. Likens, G.E. Whittaker, R.H. 1970 The Hubbard Brook ecosystem study: Composition and dynamics of the tree stratum Ecological Monographs 40 373 CrossRefGoogle Scholar
Botkin, D.B. Janak, J.F. Wallis, J.R. 1973 Some ecological consequences of a computer model of forest growth Journal of Ecology 60 849872 Google Scholar
Botkin, D.B. Levitan, R.E. 1977 Wolves, Moose and Trees: An Age Specific Trophic-Level Model of Isle Royale National Park Life Sciences RC 6834 IBM Research Report inGoogle Scholar
Brugam, R.B. 1978 Pollen indicators of land-use change in southern Connecticut Quaternary Research 9 349362 Google Scholar
Davis, M.B. 1978 Climatic interpretation of pollen in Quaternary sediments Walker, D. Guppy, J.C. Biology and Quaternary Environments Australian Acad. of Sci Canberra 3551 Google Scholar
Davis, M.B. Spear, R.W. Shane, L.C.K. 1980 Holocene climate of New England Quaternary Research 14 240250 CrossRefGoogle Scholar
Erkamo, V. 1952 On plant biological phenomena accompanying the present climatic change Fennia 75 2537 Google Scholar
Gribbin, J. Lamb, H.H. 1978 Climatic change in historical time Gribben, J. Climatic Change Cambridge Univ. Press Cambridge 6882 Google Scholar
Grimm, E.C. 1983 Chronology and dynamics of vegetation change in the prairie-woodland region of southern Minnesota, U.S.A. New Phytologist 93 311350 Google Scholar
Hauboldt, L.S. 1952 Climate and birch “dieback” Nova Scotia Department of Lands and Forests Bulletin No. 6 Google Scholar
Hustich, I. 1952 The recent climatic fluctuation in Finland and its consequences Fennia 75 1128 Google Scholar
LaMarche, V.C. Jr. 1973 Holocene climatic fluctuations inferred from treeline fluctuations in White Mountains, California Quaternary Research 3 632660 Google Scholar
LaMarche, V.C. 1982 Lagged response of the upper treeline ecotone to rapid climatic change AMQUA Program and Abstracts 25 Google Scholar
Lamb, H.H. 1977 Climate—Present, Past and Future Vol 2 Metheun London Climatic History and the FutureGoogle Scholar
Mitchell, J.M. Jr. 1977 The changing climate Geophysics Study Committee, Energy and Climate Nat. Acad. of Sci Washington, D.C 5158 Google Scholar
Nash, R.W. Duda, E.J. 1951 Studies on extensive dying, regeneration and management of birch Maine Forest Service, Augusta, Bulletin 15 Google Scholar
Schneider, S.H. Temkin, R.L. 1978 Climatic changes and human affairs Gribben, J. Climatic Change Cambridge Univ. Press Cambridge 228246 Google Scholar
Sellers, W.D. 1965 Physical Climatology Univ. of Chicago Press Chicago Google Scholar
Shugart, H.H. West, D.C. Emmanual, W.R. 1981 Patterns and dynamics of forests: An application of simulation models West, D.C. Shugart, H.H. Botkin, D.B. Forest Succession Springer-Verlag New York 7494 Google Scholar
Siccama, T.B. Bliss, M. Vogelmann, H.W. 1982 Decline of red spruce in the Green Mountains of Vermont Torrey Botanical Club Bulletin 109 162168 Google Scholar
Smith, A.G. 1965 Problems of inertia and threshold related to postglacial habitat changes Proceedings of the Royal Society of London, Series B 61 331342 Google Scholar
Spear, R.W. 1985 Vegetational history of the alpine and subalpine zones of the White Mountains of New Hampshire Ecological Monographs in pressGoogle Scholar
Thornthwaite, C.W. Mather, J.R. 1957 Instructions and tables for computing potential evapotranspiration and the water balance Drexel Institute Publications in Climatology 10 181 Google Scholar
Wahl, E.W. 1968 A comparison of the climate of the eastern United States during the 1830's with the current normals Monthly Weather Review 96 7382 Google Scholar
Watts, W.A. 1982 Response of biotic populations to rapid environmental and climatic changes AMQUA Program and Abstracts 19 Google Scholar
Webb, T. III Howe, S.E. Bradshaw, R.H.W. Heide, K.M. 1981 Estimating plant abundances from pollen percentages: The use of regression analysis Review of Paleobotany and Palynology 34 269300 Google Scholar
West, D.C. Shugart, H.H. Botkin, D.B. 1981 Forest Succession Springer-Verlag New York Google Scholar
Woods, K.D. Davis, M.B. 1982 Sensitivity of Michigan pollen diagrams to Little Ice Age climatic changes AMQUA Program and Abstracts 181 Google Scholar
Wright, H.E. 1982 Sensitivity of natural systems to climatic change AMQUA Program and Abstracts 1215 Google Scholar