Regeneration in Gap Models: Priority Issues for Studying Forest Responses to Climate Change |
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| Authors: | David T. Price, Niklaus E. Zimmermann, Peter J. van der Meer, Manfred J. Lexer, Paul Leadley, Irma T. M. Jorritsma, Jö rg Schaber, Donald F. Clark, Petra Lasch, Steve McNulty, Jianguo Wu Benjamin Smith |
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| Affiliation: | (1) Canadian Forest Service, Natural Resources Canada, Edmonton, Alberta, T6H 3S5, Canada;(2) Department of Landscape, Swiss Federal Research Institute WSL, CH-8903 Birmensdorf, Switzerland;(3) ALTERRA – Green World Research, NL-6700 AA Wageningen, The Netherlands;(4) Institute of Silviculture, University of Agricultural Sciences, A-1190 Vienna, Austria;(5) Ecologie des Populations et Communautés, Université Paris-Sud XI, F-91405 Orsay CEDEX, France;(6) Potsdam Institute for Climate Impact Research (PIK), Telegrafenberg, D-4412 Potsdam, Germany;(7) Global Environmental Change Program, Department of Environmental Sciences, University of Virginia, Charlottesville, VA 22904–4123, USA;(8) U.S. Department of Agriculture Forest Service, 920 Main Campus Drive, Venture Center II, Raleigh, NC 27606, USA;(9) Department of Life Sciences, Arizona State University –, West Campus, Phoenix, AZ 85069-7100, USA;(10) Climate Impacts Group, Department of Ecology/Plant Ecology, University of Lund, Ekologihuset, S-22362 Lund, Sweden |
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| Abstract: | Recruitment algorithms in forest gap models are examined withparticular regard to their suitability for simulating forestecosystem responses to a changing climate. The traditional formulation of recruitment is found limiting in three areas. First, the aggregation of different regeneration stages (seedproduction, dispersal, storage, germination and seedling establishment) is likely to result in less accurate predictionsof responses as compared to treating each stage separately. Second, the related assumptions that seeds of all species are uniformly available and that environmental conditions arehomogeneous, are likely to cause overestimates of future speciesdiversity and forest migration rates. Third, interactions between herbivores (ungulates and insect pests) and forest vegetation are a big unknown with potentially serious impactsin many regions. Possible strategies for developing better gapmodel representations for the climate-sensitive aspects of eachof these key areas are discussed. A working example of a relatively new model that addresses some of these limitations is also presented for each case. We conclude that better modelsof regeneration processes are desirable for predicting effectsof climate change, but that it is presently impossible to determine what improvements can be expected without carrying outrigorous tests for each new formulation. |
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