Abstract
Carbon storage and flow through forest ecosystems are major components of the global carbon cycle. The cycle of carbon is intimately coupled with the cycle of nitrogen and the flow of water through forests. The supply of water for tree growth is determined by climate and soil physical properties. The rate at which nitrogen mineralization occurs depends on climate and the type of carbon compounds with which the nitrogen is associated. Species composition, which is also affected by climate, can greatly influence the composition of carbon compounds and subsequently nitrogen availability. Climate change can therefore have a direct effect on forest ecosystem production and carbon storage through temperature and water limitations, and an indirect effect through the nitrogen cycle by affecting species composition. Model simulations of these interactions show that climate change initiates a complex set of direct and indirect responses that are sensitive to the exact nature of the project climate changes. We show results using four different climate-change projections for a location in northeastern Minnesota. Modeled forest responses to each of these climate projections is different indicating that uncertainties in the climate projections may be amplified further as a result of shifts in balance between positive and negative ecosystem feedbacks.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Aber, J. D. and Melillo, J. M.: 1980, ‘Litter Decomposition: Measuring Relative Contributions of Organic Matter and Nitrogen to Forests Soils’, Can. J. Botany 58, 416–421.
Aber, J. D. and Melillo, J. M.: 1982a, ‘Nitrogen Immobilization in Decaying Hardwood Leaf Litter as a Function of Initial Nitrogen and Lignin Content’, Can. J. Botany 60, 2263–2269.
Aber, J. D. and Melillo, J. M.: 1982b, ‘FORTNITE: A Computer Model of Organic Matter and Nitrogen Dynamics in Forest Ecosystems’, Univ. Wisconsin Res. Bull. R3130.
Davis, M. B. and Botkin, D. B.: 1985, ‘Sensitivity of Cool-Temperate Forests and Their Fossil Pollen to Rapid Temperature Change’, Quaternary Res. 23: 327–340.
Lauenroth, W. K.: 1996, ‘Application of Patch Models to Examine regional Sensitivity to Climate Change’, Clim. Change 34, 155–160 (this issue).
Mitchell, J. F. B.: 1983, ‘The Seasonal Response of a General Circulation Model to Changes in CO2 and Sea Temperature’, Q. J. Roy. Meteorol. Soc. 109, 113–152.
Pastor, J. and Post, W. M.: 1986, ‘Influence of Climate, Soil Moisture, and Succession on Forest Carbon and Nitrogen Cycles’, Biogeochemistry 2, 3–27.
Pastor, J. and Post, W. M.: 1985, Development of a Linked Forest Productivity-Soil Process Model, ORNL/TM-9519. Oak Ridge, TN.
Pastor, J. and Post, W. M.: 1988, ‘Response of Northern Forests to CO2-Induced Climatic Change: Dependence on Soil Water and Nitrogen Availability’, Nature 334, 55–58.
Post, W. M. and Pastor, J.: 1990, ‘An Individual-Based Forest Ecosystem Model for Projecting Forest Response to Nutrient Cycling and Climate Changes’, in Wensel, L. and Biging, G. (eds.), Forest Simulation Systems: Proc. IUFRO Conf., Berkeley, CA, November 2–5, 1988, University of California, Division of Agriculture and Natural Resources, Bulletin 1927, Berkeley, pp. 61–74.
Shugart, H. H. and West, D. C.: 1966, ‘Development of an Appalachian Deciduous Forest Succession Model and its Application to Assessment of the Impact of the Chestnut Blight’, J. Environ. Management 5, 161–179.
Shugart, H. H., Antonovsky, M. Ya., Jarvis, P. J., and Sandford, A. P.: 1986, ‘CO2, Climatic Change, and Forest Ecosystems’, in Bolin, B., Doos, B. R., Jaeger, J., and Warrick, R. A. (eds.), The Greenhouse Effect, Climatic Change, and Ecosystems, SCOPE, Vol. 29, Wiley, New York, pp. 475–521.
Solomon, A. M.: 1986, ‘Transient Responses of Forests to CO2-Induced Climate Change: Simulation Modeling Experiments in Eastern North America’, Oecologia 68, 567–579.
Thornthwaite, C. W. and Mather, J. R.: 1957, ‘Instructions and Table for Computing Potential Evapotranspiration and the Water Balance’, Publ. Climatol. 10, 183–311.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Post, W.M., Pastor, J. Linkages — an individual-based forest ecosystem model. Climatic Change 34, 253–261 (1996). https://doi.org/10.1007/BF00224636
Received:
Revised:
Issue Date:
DOI: https://doi.org/10.1007/BF00224636