Abstract
Our ability to accurately predict the response of forests in eastern North America to future climatic change is limited by our knowledge of how different tree species respond to climate. When the climatic response of eastern hemlock is modeled across its range, we find that the assumed climatic response used in simulation models is not sufficient to explain how this species is presently responding to climate. This is also the case for red spruce growing in the northern Appalachian Mountains. Consequently, simulations of future change to forests that include eastern hemlock and red spruce may need to be improved. We suspect that similar findings will be made when other tree species are studied in detail using tree-ring analysis. If so, our present understanding of how individual tree species respond to climate may not be adequate for accurately predicting future changes to these forests. Tree-ring analysis can increase our understanding of how climate affects tree growth in eastern North America and, hence, provide the knowledge necessary to produce more accurate predictions.
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Adams, M. S. and Loucks, O. L.: 1971, ‘Summer Air Temparatures as a Factor Affecting Net Photosynthesis and Distribution of Eastern Hemlock (Tsuga canadensis (L.) Carriere) in Southwestern Wisconsin’, Amer. Mid. Nat. 85, 1–10.
Blasing, T. J., Duvick, D. N., and West, D. C.: 1981, ‘Dendroclimatic Calibration and Verification Using Regionally Averaged and Single Station Precipitation Data’, Tree-Ring Bull. 41, 37–44.
Boden, T. A.: 1987, United States Historical Climatology Network (HCN) Serial Temperature and Precipitation Data, Carbon Dioxide Information Analysis Center, Oak Ridge National Laboratory, Oak Ridge, Tennessee.
Botkin, D. B., Janak, J. F., and Wallis, J. R.: 1972, ‘Some Ecological Consequences of a Computer Model of Forest Growth’, J. Ecology 60, 849–872.
Box, G. E. P. and Jenkins, G. W.: 1970, Time Series Analysis: Forecasting and Control, Holden-Day, New York.
Cook, E. R.: 1987, ‘The Decomposition of Tree-ring Series for Environmental Studies’, Tree-Ring Bull. 47, 37–59.
Cook, E. R. and Johnson, A. H.: 1989, ‘Climate Change and Forest Decline: A Review of the Red Spruce Case’, Water, Air, and Soil Pollution 48, 127–140.
Cook, E. R., Johnson, A. H., and Blasing, T. J.: 1987, ‘Forest Decline: Modeling the Effect of Climate in Tree Rings’, Tree Physiol. 3, 27–40.
Davis, M. B.: 1981, ‘Quarternary History and Stability of Deciduous Forests’, in: West, D.C., Shugart, H. H., and Botkin, D. B. (eds.), Forest Succession, Springer-Verlag, New York. pp. 132–177.
Davis, M. B., Woods, K. D., Webb, S. L., and Futyma, R. P.: 1986, ‘Dispersal Versus Climate: Expansion of Fagus and Tsuga into the Upper Great Lakes Region’, Vegetatio 67, 93–103.
Emanuel, W. R., Shugart, H. H., and Stevenson, M. P.: 1985, ‘Climatic Change and the Broad-Scale Distribution of Terrestrial Ecosystem Complexes’, Climatic Change 7, 29–43.
Federer, C. A., Tritton, L. M., Hornbeck, J. W., and Smith, R. B.: 1989, ‘Physiologically Based Dendro-climate Models for Effects of Weather on Red Spruce Basal-area Growth’, Agric. For. Met. 46, 159–172.
Fowells, H. A.: 1965, Silvics of Forest Trees of the United States, Agricultural Handbook No. 271, U.S. Dept. of Agriculture, Washington, D.C.
Friesner, R. C. and Potzger, J. E.: 1936, ‘Soil Moisture and the Nature of the Tsuga and Tsuga-Pinus Forest Associations in Indiana’, Butler Univ. Bot. Stud. 3, 207–209.
Fritts, H. C.: 1976, Tree Rings and Climate, Academic Press, New York.
Hansen, J., Lacis, A., Rind, D., Russell, G., Fung, I., Ashcraft, P., Lebdeff, S., Ruedy, R., and Stone, P.: 1986, ‘The Greenhouse Effect: Projections of Global Climate Change’, in: Titus, J. G. (ed.), Effects of Changes in Stratospheric Ozone and Global Climate, Vol. 1: Overview, U.S. Environmental Protection Agency and United Nations Environment Programme, pp. 199–218.
Johnson, A. H., Cook, E. R., and Siccama, T. G.: 1988, ‘Climate and Red Spruce Growth and Decline in the Northern Appalachians’, Proc. Nat. Acad. Sci. 85, 5369–5373.
Karl, T. R. and Koscielny, A. J.: 1983, ‘Drought in the United States’, J. Clim. 2, 313–329.
Kavanagh, K. and Kellman, M.: 1986, ‘Performance of Tsuga canadensis (L.) Carr. at the Centre and Northern Edge of its Range: A Comparison’, J. Biogeog. 13, 145–157.
Kozlowski, T. T.: 1971, Growth and Development of Trees, Vol. II, Cambial Growth, and Reproductive Growth, Academic Press, New York.
Kramer, P. J. and Kozlowski, T. T.: 1979, Physiology of Woody Plants, Academic Press, New York.
Manabe, S. and Wetherald, R. T.: 1980, ‘On the Distribution of Climate Change Resulting from an Increase in CO2-Content of the Atmosphere’, J. Atmos. Sci. 37, 99–118.
Mitchell, J. F. B.: 1983, ‘The Seasonal Response of a General Circulation Model to Changes in CO2 and Sea Temperatures’, Quart. J. Royal Met. Soc. 109, 113–152.
Monserud, R. A.: 1986, ‘Time-series Analysis of Tree-ring Chronologies’, For. Sci. 32, 349–372.
Oosting, H. J. and Hess, D. W.: 1965, ‘Microclimate and Relict Stand of Tsuga canadensis in the Lower Piedmont of North Carolina’, Ecology 37, 28–39.
Palmer, W. C.: 1965, Meteorological Drought, Weather Bureau Res. Pap. No. 45, U.S. Dept. Commerce, Washington, D.C.
Rind, D., Goldberg, R., Hansen, J., Rosenzweig, C., and Ruedy, R.: 1990, ‘Potential Evapotranspiration and the Likelihood of Future Drought’, J. Geophys. Res. (in press).
Rogers, R. S.: 1978, ‘Forests Dominated by Hemlock (Tsuga canadensis): Distribution as Related to Site and Postsettlement History’, Can. J. Bot. 56, 843–853.
Schlesinger, M. E. and Mitchell, J. F. B.: 1985, ‘Model Projections of the Equilibrium Climatic Response to Increased Carbon Dioxide’, in MacCracken, M. C. and Luther, F. M. (eds.), The Potential Climatic Effects of Increasing Carbon Dioxide, U.S. Dept. of Energy Document DOE/ER-0237, pp. 81–148.
Shugart, H. H. and West, D. C.: 1977, ‘Development of an Appalachian Deciduous Forest Succession Model and its Application to Assessment of the Impact of the Chestnut Blight’, J. Envir. Manag. 5, 161–179.
Solomon, A.: 1986, ‘Transient Response of Forests to CO2-Induced Climatic Change: Simulation Modeling Experiments in Eastern North America’, Oecologia 68, 567–579.
Wigley, T. M. L., Jones, P. D., and Kelly, P. M.: 1980, ‘Scenario for a Warm, High-CO2 World’, Nature 283, 17–21.
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Cook, E.R., Cole, J. On predicting the response of forests in eastern North America to future climatic change. Climatic Change 19, 271–282 (1991). https://doi.org/10.1007/BF00140166
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DOI: https://doi.org/10.1007/BF00140166