Comment on modeling ecological response to climatic change (original) (raw)
References
Acock, B. and Reynolds, J. F.: 1990, ‘Model Structure and Data Base Development’, in Dixon, R. K., Meldahl, R. S., Ruark, G. A., and Warren, W. G. (eds.),Process Modeling of Forest Growth Responses to Environmental Stress, Timber Press, Portland, OR, pp. 169–179. Google Scholar
Ågren, G. I., McMurtrie, R. E., Parton, W. J., Pastor, J., and Shugart, H. H.: 1991, ‘State-of-the-Art of Models of Production-Decomposition Linkages in Conifer and Grassland Ecosystems’,Ecol. Applic.1, 118–138. Google Scholar
Armstrong, M. P. and Bennett, D. A.: 1990, ‘A Knowledge Based Object-Oriented Approach to Cartographic Generalization’, in_Proceedings of GIS/LIS '90_, Volume 1, Bethesda, American Congress on Surveying and Mapping, pp. 48-57-
Baker, W. L., Egbert, S. L., and Frazier, G. F.: 1991, ‘A Spatial Model for Studying the Effects of Climatic Change on the Structure of Landscapes Subject to Large Disturbances’,Ecol. Modell.56, 109–125. Google Scholar
Band, L. E., Peterson, D. L., Running, S. W., Coughlan, J., Lammers, R., Dungan, J., and Nemani, R.: 1991, ‘Forest Ecosystem Processes at the Watershed Scale: Basis for Distributed Simulation’,Ecol. Modell.56, 171–196. Google Scholar
Bartlein, P. J., Prentice, I. C., and Webb, T. III: 1986, ‘Climatic Response Surfaces from Pollen Data for Some Eastern North American Taxa’,J. Biogeogr.13, 35–57. Google Scholar
Bazzaz, F. A.: 1990, ‘The Response of Natural Ecosystems to the Rising Global CO2 Levels’,Annual Rev. Ecol. System.21, 167–196. Google Scholar
Bazzaz, F. A., Coleman, J. S., and Morse, S. R.: 1990, ‘Growth Responses of Seven Major Co-occurring Tree Species of the Northeastern United States to Elevated CO2’,Canad. J. Forest Res.20, 1479–1484. Google Scholar
Blake, J. I., Somers, G. L., and Ruark, G. A.: 1990, ‘Perspectives on Process Modeling of Forest Growth Responses to Environmental Stress’, in Dixon, R. K., Meldahl, R. S., Ruark, G. A., and Warren, W. G. (eds.),Process Modeling of Forest Growth Responses to Environmental Stress, Timber Press, Portland, OR, pp. 9–17. Google Scholar
Bonan, G. B.: 1992, ‘A Simulation Analysis of Environmental Factors and Ecological Processes in North American Boreal Forests’, in Shugart, H. H., Leemans, R., and Bonan, G. B. (eds.),A Systems Analysis of the Global Boreal Forest, Cambridge University Press, Cambridge, pp. 404–427. Google Scholar
Bonan, G. B., Shugart, H. H., and Urban, D. L.: 1990, ‘The Sensitivity of Some High-Latitude Boreal Forests to Climatic Parameters’,Clim. Change16, 9–29. Google Scholar
Bossel, H. and Krieger, H.:P 1991, ‘Simulation of Natural Tropical Forest Dynamics’,Ecol. Modell.59, 37–71. Google Scholar
Botkin, D. B., Janak, J. F., and Wallis, J. R.: 1972, ‘Rationale, Limitations, and Assumptions of a Northeastern Forest Growth Simulator’,IBM J. Res. Devel.16, 101–116. Google Scholar
Botkin, D. B. and Nisbet, R. A.: 1992a, ‘Forest Response to Climatic Change: Effects of Parameter Estimation and Choice of Weather Patterns on the Reliability of Projections’,Clim. Change20, 87–111. Google Scholar
Botkin, D. B. and Nisbet, R. A.: 1992b, ‘Projecting Effects of Climate Change on Biological Diversity in Forests’, in Peters, R. L., and Lovejoy, T. (eds.),Global Warming and Biological Diversity, Yale University Press, New Haven, pp. 277–293. Google Scholar
Burke, I. C., Kittel, T. G. F., Lauenroth, W. K., Snook, P., Yonker, C. M., and Parton, W. J.: 1991, ‘Regional Analysis of the Central Great Plains’,BioScience41, 685–692. Google Scholar
Cole, K.: 1985, ‘Past Rates of Change, Species Richness, and a Model of Vegetational Inertia in the Grand Canyon, Arizona’,Amer. Natural.125, 289–303. Google Scholar
Cook, E. R. and Cole, J.: 1991, ‘On Predicting the Response of Forests in Eastern North America to Future Climatic Change’,Clim. Change19, 271–282. Google Scholar
Costanza, R. and Maxwell, T.: 1991, ‘Spatial Ecosystem Modelling Using Parallel Processors’,Ecol. Modell.58, 159–183. Google Scholar
Dahlman, R. C.: 1985, ‘Modeling Needs for Predicting Responses to CO2 Enrichment: Plants, Communities and Ecosystems’,Ecol. Modell.29, 77–106. Google Scholar
Dale, V. H. and Franklin, J. F.: 1989, ‘Potential Effects of Climate Change on Stand Development in the Pacific Northwest’,Canad. J. Forest Res.19, 1581–1590. Google Scholar
Darwin, C.: 1859,On the Origin of Species by Means of Natural Selection, John Murray, London; (also 1968, Penguin Books, New York). Google Scholar
Davis, M. B.: 1981, ‘Quaternary History and the Stability of Forest Communities’, in West, D. C., Shugart, H. H., and Botkin, D. B. (eds.),Forest Succession, New York, Springer-Verlag, pp. 132–153. Google Scholar
Davis, M. B. and Botkin, D. B.: 1985, ‘Sensitivity of Cool-Temperate Forests and Their Fossil Pollen Record to Rapid Temperature Change’,Quatern. Res.23, 327–340. Google Scholar
Davis, M. B., Woods, K. D., Webb, S. L., and Futyama, R. P.: 1986, ‘Dispersal versus Climate: Expansion of_Fagus_ and_Tsuga_ into the Upper Great Lakes Region’,Vegetatio67, 93–104. Google Scholar
Eamus, D. and Jarvis, P. G.: 1989, ‘The Direct Effects of Increase in the Global Atmospheric CO2 Concentration on Natural and Commercial Temperate Trees and Forests’,Advanc. Ecol. Res.19, 1–55. Google Scholar
Emanuel, W. R., Shugart, H. H., and Stevenson, M. P.: 1985, ‘Climatic Change and the Broad-Scale Distribution of Terrestrial Ecosystem Complexes’,Clim. Change7, 29–43. Google Scholar
Gardner, R. H., Dale, V. H., and O'Neill, R. V.: 1990, ‘Error Propagation and Uncertainty in Process Modeling’, in Dixon, R. K., Meldahl, R. S., Ruark, G. A., and Warren, W. G. (eds.),Process Modeling of Forest Growth Responses to Environmental Stress, Timber Press, Portland, OR, pp. 208–219. Google Scholar
Graham, R. L., Turner, M. G., and Dale, V. H.: 1990, ‘How Increasing CO2 and Climate Change Affect Forests’,BioScience40, 575–587. Google Scholar
Graham, R. W. and Grimm, E. C.: 1990, ‘Effects of Global Climate Change on the Patterns of Terrestrial Biological Communities’,Trends Ecol. Evolut.5, 289–292. Google Scholar
Graumlich, L. J.: 1989, ‘The Utility of Long-Term Records of Tree Growth for Improving Forest Stand Simulation Models’, in Malanson G. P. (ed.),Natural Areas Facing Climate Change, SPB Academic, The Hague, pp. 39–49. Google Scholar
Graumlich, L. J.: 1991, ‘Subalpine Tree Growth, Climate, and Increasing CO2: An Assessment of Recent Growth Trends’,Ecology72, 1–11. Google Scholar
Hanson, J. S., Malanson, G. P., and Armstrong, M. P.: 1989, ‘Spatial Constraints on the Response of Forest Communities to Climate Change’, in Malanson, G. P. (ed.),Natural Areas Facing Climate Change, SPB Academic, The Hague, pp. 1–23. Google Scholar
Hanson, J. S., Malanson, G. P., and Armstrong, M. P.: 1990, ‘Landscape Fragmentation and Dispersal in a Model of Riparian Forest Dynamics’,Ecol. Modell.49, 277–296. Google Scholar
Hunt, H. W., Trlica, M. J., Redente, E. F., Moore, J. C., Detling, J. K., Kittel, T. G. F., Walter, D. E., Fowler, M. C., Klein, D. A., and Elliott, E. T.: 1991, ‘Simulation Model for the Effects of Climate Change on Temperate Grassland Ecosystems’,Ecol. Modell.53, 205–246. Google Scholar
Huntley, B. and Birks, H. J. B.: 1983,An Atlas of Past and Present Pollen Maps for Europe 0- 13000 Years Ago, Cambridge University Press, Cambridge. Google Scholar
Hutchinson, G. E.: 1957, ‘Concluding Remarks’,Cold Spring Harbour Sympos. Quantit. Biol.22, 414–427. Google Scholar
Isebrands, J. G., Rausher, H. M., Crow, T. R., and Dickmann, D. I.: 1990, ‘Whole-Tree Growth Process Models Based on Structural-Functional Relationships’, in Dixon, R. K., Meldahl, R. S., Ruark, G. A., and Warren, W. G. (eds.),Process Modeling of Forest Growth Responses to Environmental Stress, Timber Press, Portland, OR, pp. 96–112. Google Scholar
Keddy, P. A.: 1989,Competition, Routledge, Chapman and Hall, New York. Google Scholar
King, A. W., Emanuel, W. R., and O'Neill, R. V.: 1990, ‘Linking Mechanistic Models of Tree Physiology with Models of Forest Dynamics: Problems of Temporal Scale’, in Dixon, R. K., Meldahl, R. S., Ruark, G. A., and Warren, W. G. (eds.),Process Modeling of Forest Growth Responses to Environmental Stress, Timber Press, Portland, OR, pp. 241–248. Google Scholar
LaMarche, V. C. Jr., Graybill, D. A., Fritts, H. C., and Rose, M. R.: 1984, ‘Increasing Atmospheric Carbon Dioxide: Tree Ring Evidence for Growth Enhancement in Natural Vegetation’,Science225, 1019–1021. Google Scholar
Leemans, R.: 1992, ‘The Biological Component of the Simulation Model for Boreal Forest Dynamics’, in Shugart, H. H., Leemans, R., and Bonan, G. B. (eds.),A Systems Analysis of the Global Boreal Forest, Cambridge University Press, Cambridge, pp. 428–445. Google Scholar
Levin, S.: 1991, ‘Spatial Phenomena in Ecological Systems: Some Introductory Remarks’,Bull. Ecol. Soc. America72 (2), 173. Google Scholar
Liu, Z-J. and Malanson, G. P.P: 1992, ‘Long-term Cyclic Dynamics of Simulated Riparian Forest Stands’,Forest Ecol. Managem.48, 217–231. Google Scholar
Luxmoore, R. J., Tharp, M. L., and West, D. C.: 1990, ‘Simulating the Physiological Basis of Tree-Ring Responses to Environmental Changes’, in Dixon, R. K., Meldahl, R. S., Ruark, G. A., and Warren, W. G. (eds.),Process Modeling of Forest Growth Responses to Environmental Stress, Timber Press, Portland, OR, pp. 393–401. Google Scholar
MacArthur, R. H.: 1972,Geographical Ecology, Princeton University Press, Princeton. Google Scholar
Malanson, G. P.: 1992, ‘Disturbance Intensity and Spatial Pattern and Scale in the Ecology of Fragmented Natural Landscapes’,Ekistics, in press.
Malanson, G. P. and Armstrong, M. P.: 1990, ‘Improving Environmental Simulation Models to Assess Climate Change Impacts’,University of Iowa, Department of Geography Discussion Paper No. 43.
Malanson, G. P. and Westman, W. E.: 1991a, ‘Modeling Interactive Effects of Climate Change, Air Pollution, and Fire on a California Shrubland’,Clim. Change18, 363–376. Google Scholar
Malanson, G. P. and Westman, W. E.: 1991b, ‘Climate Change and the Modeling of Fire Effects in Chaparral’, in Nodvin, S. C., and Waldrop, T. A. (eds.),Fire and the Environment: Ecological and Cultural Perspectives, U.S. Forest Service General Technical Report SE-69, pp. 91-96.
Malanson, G. P., Westman, W. E., and Yan, Y-L.: 1992, ‘Realized versus Fundamental Niche Functions in a Model of Chaparral Response to Climatic Change’,Ecol. Modell., in press.
Mooney, H. A., Drake, B. G., and Luxmoore, R. J.: 1991, ‘Predicting Ecosystem Response to Elevated CO2 Concentration’,BioScience41, 96–104. Google Scholar
Neilson, R. P., King, G. A., and Koerper, G.: 1992, ‘Toward a Rule-Based Biome Model’,Landsc. Ecol.7, 27–43. Google Scholar
Oechel, W. C., Riechers, G., Lawrence, W. T., Prudhomme, T. I., Grulke, N., and Hastings, S. J.: 1992, ‘“CO2LT” an Automated, Null-Balance System for Studying the Effects of Elevated CO2 and Global Climate Change on Unmanaged Ecosystems’,Funct. Ecol.6, 86–100. Google Scholar
Overpeck, J. T., Bartlein, P. J., and Webb, T. III: 1991, ‘Potential Magnitude of Future Vegetation Change in Eastern North America: Comparisons with the Past’,Science254, 692–695. Google Scholar
Overpeck, J. T., Rind, D., and Goldberg, R.: 1990, ‘Climate-Induced Changes in Forest Disturbance and Vegetation’,Nature343, 51–53. Google Scholar
Parton, W. J., Schimel, D. S., Cole, C. V., and Ojima, D. S.: 1987, ‘Analysis of Factors Controlling Organic Matter Levels in Great Plains Grasslands’,Soil Science Soc. Amer. J.51, 1173–1179. Google Scholar
Pastor, J. and Post, W. M.: 1988, ‘Response of Northern Forests to CO2-Induced Climate Change’,Nature334, 55–58. Google Scholar
Perry, D. A., Borchers, J. G., Borchers, S. L., and Amaranthus, M. P.: 1990, ‘Species Migrations and Ecosystem Stability during Climate Change: The Belowground Connection’,Conserv. Biol.4, 266–274. Google Scholar
Peters, R. L.: 1988, ‘The Effect of Global Climatic Change on Natural Communities’, in Wilson, E. O. (ed.),Biodiversity, National Academy Press, Washington, pp. 450–461. Google Scholar
Peters, R. L. and Darling, J. D. S.: 1985, ‘The Greenhouse Effect and Nature Reserves’,BioScience35, 707–717. Google Scholar
Prentice, I. C.: 1986, ‘Vegetation Responses to Past Climatic Variation’,Vegetatio67, 131–141. Google Scholar
Reynolds, J. F. and Acock, B.: 1985, ‘Predicting the Response of Plants to Increasing Carbon Dioxide: A Critique of Plant Growth Models’,Ecol. Modell.29, 107–129. Google Scholar
Running, S. W. and Coughlan, J. C.: 1988, ‘A General Model of Forest Ecosystem Processes for Regional Applications, I. Hydrologic Balance, Canopy Gas Exchange and Primary Production Processes’,Ecol. Modell.42, 125–154. Google Scholar
Running, S. W. and Nemani, R. R.: 1991, ‘Regional Hydrologic and Carbon Balance Responses of Forests Resulting from Potential Climate Change’,Clim. Change19, 349–368. Google Scholar
Sasek, T. W. and Strain, B. R.: 1990, ‘Implications of Atmospheric CO2 Enrichment and Climatic Change for the Geographical Distribution of Two Introduced Vines in the U.S.A.’,Clim. Change16, 31–51. Google Scholar
Schimel, D. S., Parton, W. J., Kittel, T. G. F., Ojima, D. S., and Cole, C. V.: 1990, ‘Grassland Biogeochemistry: Links to Atmospheric Processes’,Clim. Change17, 13–25. Google Scholar
Sequeira, R. A., Sharpe, P. J. H., Stone, N. D., El-Zik, K. M., and Makela, M. E.: 1991, ‘Object-Oriented Simulation: Plant Growth and Discrete Organ to Organ Interactions’,Ecol. Modell.58, 55–89. Google Scholar
Shugart, H. H.: 1990, ‘Using Ecosystem Models to Assess the Potential Consequences of Global Climatic Change’,Trends Ecol. Evol.5, 303–307. Google Scholar
Shugart, H. H. and Prentice, I. C.: 1992, ‘Individual-Tree-Based Models of Forest Dynamics and Their Application in Global Change Research’, in Shugart, H. H., Leemans, R., and Bonan, G. B. (eds.),A Systems Analysis of the Global Boreal Forest, Cambridge University Press, Cambridge, pp. 313–333. Google Scholar
Shugart, H. H. and Smith, T. M.: 1992, ‘Using Computer Models to Project Ecosystem Response, Habitat Change, and Wildlife Diversity’, in Peters, R. L., and Lovejoy, T. (eds.),Global Warming and Biological Diversity, Yale University Press, New Haven, pp. 147–157. Google Scholar
Shugart, H. H. and West, D. C.: 1977, ‘Development of an Appalachian Deciduous Forest Model and Its Application to Assessment of the Impact of the Chestnut Blight’,J. Environm. Managem.5, 161–179. Google Scholar
Shugart, H. H., Antonovsky, M. Y., Jarvis, P. G., and Sandford, A. P.: 1986, ‘CO2 Climatic Change and Forest Ecosystems’, in Bolin, B., Doos, B. R., Jager, J., and Warrick, R. A. (eds.),The Greenhouse Effect, Climatic Change, and Ecosystems, Wiley, New York, pp. 475–521. Google Scholar
Shugart, H. H., Leemans, R., and Bonan, G. B.: 1992, ‘Concluding Remarks’, in Shugart, H. H., Leemans, R., and Bonan, G. B. (eds.),A Systems Analysis of the Global Boreal Forest, Cambridge University Press, Cambridge, pp. 466–470. Google Scholar
Sionit, N., Strain, B. R., Hellmers, H., Riechers, G. H., and Jaeger, C. H.: 1985, ‘Long-term Atmospheric CO2 Enrichment Affects the Growth and Development of_Liquidambar styraciflua_ and_Pinus taeda_ Seedlings’,Canad. J. Forest Res.15, 468–471. Google Scholar
Smith, M.: 1991, ‘Using Massively-Parallel Supercomputers to Model Stochastic Spatial Predator-Prey Systems’,Ecol. Modell.58, 347–367. Google Scholar
Solomon, A. M.: 1986, ‘Transient Response of Forests to CO2-Induced Climate Change: Simulation Modeling Experiments in Eastern North America’,Oecologia68, 567–579. Google Scholar
Solomon, A. M. and Webb, T. III.: 1985, ‘Computer-Aided Reconstruction of Late-Quarternary Landscape Dynamics’,Annual Rev. Ecol. Systemat.16, 63–84. Google Scholar
Solomon, A. M., West, D. C., and Solomon, J. A.: 1981, ‘Simulating the Role of Climate Change and Species Immigration in Forest Succession’, in West, D. C., Shugart, H. H., and Botkin, D. B. (eds.),Forest Succession, New York, Springer-Verlag, pp. 154–177. Google Scholar
Thompson, R. S. and Bartlein, P. J.: 1991, ‘Modern Vegetation/Climate Relationships, Changes in Plant Distributions and Paleoclimatic Estimates in the Western United States’,Bull. Ecol. Soc. America72 (2), 267. Google Scholar
Webb, T. III.: 1986, ‘Is Vegetation in Equilibrium with Climate? How to Interpret Late-Quaternary Pollen Data’,Vegetatio67, 75–91. Google Scholar
Webb, W. L.: 1991, ‘Atmospheric CO2, Climate Change, and Tree Growth: A Process Model. I. Model Structure’,Ecol. Modell.56, 81–107. Google Scholar
Weinstein, D. A. and Yanai, R. D.: 1991, ‘The Use of a Single Tree Physiological Model Linked to a Forest Stand Gap-Succession Model to Identify the Sensitivity of Vegetation to Global Climate Change’,Bull. Ecol. Soc. America72 (2), 283–284. Google Scholar
Westman, W. E.: 1983, ‘Xeric Mediterranean-type Shrubland Associations of Alta and Baja California and the Community/Continuum Debate’,Vegetatio52, 3–19. Google Scholar
Westman, W. E.: 1991, ‘Measuring Realized Niche Spaces: Climatic Response of Chaparral and Coastal Sage Scrub’,Ecology72, 1678–1684. Google Scholar
Westman, W. E. and Malanson, G. P.: 1992, ‘Effects of Climate Change on Mediterranean-type Ecosystems in California and Baja California’, in Peters, R. L. and Lovejoy, T. (eds.),Global Warming and Biological Diversity, Yale University Press, New Haven, pp. 258–276. Google Scholar
Wilson, E. O. (ed.):P 1988,Biodiversity, National Academy Press, Washington. Google Scholar
Woodward, F. I.: 1992, ‘A Review of the Effects of Climate on Vegetation: Ranges, Competition, and Composition’, in Peters, R. L. and Lovejoy, T. (eds.),Global Warming and Biological Diversity, Yale University Press, New Haven, pp. 105–123. Google Scholar