Improving the behaviour of forest gap models along drought gradients

Forest Ecology and Management - Tập 103 - Trang 247-263 - 1998
Harald Bugmann1, Wolfgang Cramer1
1Department of Global Change and Natural Systems, Potsdam Institute for Climate Impact Research, P.O. Box 601203, D-14412 Potsdam, Germany

Tài liệu tham khảo

Aber, 1979, Predicting the effects of different harvesting regimes on productivity and yield in northern hardwoods, Can. J. For. Res, 9, 10, 10.1139/x79-002 Bonan, 1993, Do biophysics and physiology matter in ecosystem models?, Clim. Change, 24, 281, 10.1007/BF01091851 Bonan, 1992, Soil temperature, nitrogen mineralization, and carbon source-sink relationships in boreal forests, Can. J. For. Res, 22, 629, 10.1139/x92-084 Botkin, 1992, Forest response to climatic change: Effects of parameter estimation and choice of weather patterns on the reliability of projections, Clim. Change, 20, 87, 10.1007/BF00154170 Botkin, 1972, Some ecological consequences of a computer model of forest growth, J. Ecol, 60, 849, 10.2307/2258570 Bugmann, 1994, On the ecology of mountainous forests in a changing climate: A simulation study, 258 Bugmann, 1996, A simplified forest model to study species composition along climate gradients, Ecology, 77, 2055, 10.2307/2265700 Bugmann, 1996, Functional types of trees in temperate and boreal forests: Classification and testing, J. Veg. Sci, 7, 359, 10.2307/3236279 Bugmann, 1996, A forest stand model in the mountains of Oregon: Development and computer code, Report to the US Environmental Protection Agency, 24 Bugmann, 1997, An efficient method for estimating the steady state species composition in forest gap models, Can. J. For. Res, 27, 551, 10.1139/x97-017 Bugmann, 1994, Comparing the behaviour of mountainous forest succession models in a changing climate, 204 Bugmann, 1995, How physics and biology matter in forest gap models, Clim. Change, 29, 251, 10.1007/BF01091863 Bugmann, 1995, The use of a European forest model in North America: A study of ecosystem response to climate gradients, J. Biogeogr, 22, 477, 10.2307/2845944 Bugmann, 1996, Model convergence and state variable update in forest gap models, Ecol. Model, 89, 197, 10.1016/0304-3800(95)00135-2 Bugmann, 1996, A comparison of forest gap models: Model structure and behaviour, Clim. Change, 34, 289, 10.1007/BF00224640 Cramer, 1996, Data requirements for global terrestrial ecosystem modelling, Vol. 2, 530 Cramer, 1988, Simulation of regional soil moisture deficits on a European scale, Norsk Geogr. Tidsskr, 42, 149, 10.1080/00291958808552193 DeAngelis, 1981, Productivity of forest ecosystems studied during IBP: The woodlands data set, 567 Ellenberg, 1986, 989 Ellenberg, 1972, Waldgesellschaften und Waldstandorte der Schweiz, Eidg. Anst. Forstl. Versuchswes., Mitt, 48, 587 Federer, 1982, Transpirational supply and demand: Plant, soil, and atmospheric effects evaluated by simulation, Water Resour. Res, 18, 355, 10.1029/WR018i002p00355 Fischlin, 1995, Sensitivity of a forest ecosystem model to climate parameterization schemes, Environ. Pollut, 87, 267, 10.1016/0269-7491(94)P4158-K Franklin, 1973, Natural vegetation of Oregon and Washington, 452 Friend, 1997, Parameterisation of a global daily weather generator for terrestial ecosystem and biogeochemical modelling, Ecol. Modelling Hess, 1980 Jahn, 1991, Temperate deciduous forests of Europe, Vol. 7, 377 Jefferys, 1992, Ockhams's razor and Bayesian analysis, Am. Sci, 80, 64 Kattenberg, 1996, Climate models—projections of future climate, 285 Kellomäki, 1992, SIMA: A model for forest succession based on the carbon and nitrogen cycles with application to silvicultural management of the forest ecosystem, Silva Carelica, 22, 91 Kienast, 1987, FORECE—a forest succession model for southern Central Europe, Oak Ridge Natl. Lab., Oak Ridge, TN , ORNL/TM-10575, 69 Kienast, 1989, Simulating forest succession along ecological gradients in southern Central Europe, Vegetatio, 79, 7, 10.1007/BF00044844 Kirschbaum, 1996, Climate change impacts on forests, 95 Kozlowski, 1991, 657 Kräuchi, 1994, Modelling forest succession as influenced by a changing environment, Vol. 69, 143 Krausch, 1992, Potentielle natürliche Vegetation, Ökologische Ressourcenplanung Berlin und Umland-Planungsgrund-lagen, 8 Küchler, 1975, Potential natural vegetation of the conterminous United States 1:3′168′000, Am. Geogr. Soc. Spec. Publ, 36 Landolt, 1977, Ökologische Zeigerwerte zur Schweizer Flora, Veröff. Geobot. Inst. ETH Zürich, Stiftung Rübel, Vol. 64, 208 Lasch, 1995, Application of two forest succession models at sites in northeast Germany, J. Biogeogr, 22, 485, 10.2307/2845945 Leemans, 1991 1992, 620 Martin, 1990, Forest succession and climate change: Coupling land-surface processes and ecological dynamics Martin, 1992, EXE: A climatically sensitive model to study climate change and CO2 enrichment effects on forests, Aust. J. Bot, 40, 717, 10.1071/BT9920717 Meentemeyer, 1985, World patterns and amounts of detrital soil carbon, Earth Surf. Processes Landforms, 10, 557, 10.1002/esp.3290100604 Mintz, 1992, A global monthly climatology of soil moisture and water balance, Clim. Dyn, 8, 13, 10.1007/BF00209340 Mitscherlich, 1971, 365 Müller, 1982, Selected climatic data for a global set of standard stations for vegetation science, Vol. 5, 306 Pastor, 1985, Development of a linked forest productivity-soil process model, US Dept. of Energy, ORNL/TM-9519 Prentice, 1991, Silvics of north European trees: Compilation, comparisons and implications for forest succession modelling, For. Ecol. Manage, 42, 79, 10.1016/0378-1127(91)90066-5 Prentice, 1992, A global biome model based on plant physiology and dominance, soil properties and climate, J. Biogeogr, 19, 117, 10.2307/2845499 Prentice, 1993, A simulation model for the transient effects of climate change on forest landscapes, Ecol. Model, 65, 51, 10.1016/0304-3800(93)90126-D Rowe, 1972, Forest regions of Canada, Department of the Environ., Canadian Forestry Service Publication no. 1300, 172 Shugart, 1984, 278 Shugart, 1977, Development of an Appalachian deciduous forest succession model and its application to assessment of the impact of the chestnut blight, J. Environ. Manage, 5, 161 Solomon, 1986, Transient response of forests to CO2-induced climate change: Simulation modeling experiments in eastern North America, Oecologia, 68, 567, 10.1007/BF00378773 Solomon, 1992, Past and future climate change: Response by mixed deciduous-coniferous forest ecosystems in northern Michigan, Can. J. For. Res, 22, 1727, 10.1139/x92-227 Thornthwaite, 1965, The loss of water to the air, Meteorol. Monogr, 28, 163 Thornthwaite, 1957, Instructions and tables for computing potential evapotranspiration and the water balance, Publ. Climatol, 10, 183 Waring, 1979, Evergreen coniferous forests of the Pacific Northwest, Science, 204, 1380, 10.1126/science.204.4400.1380 Waring, 1985, 340 Watt, 1947, Pattern and process in the plant community, J. Ecol, 35, 1, 10.2307/2256497