USE OF INDIVIDUAL-BASED FOREST SUCCESSION MODELS TO LINK PHYSIOLOGICAL WHOLE-TREE MODELS TO LANDSCAPE-SCALE ECOSYSTEM MODELS

Authored by MA HUSTON

Date Published: 1991

Sponsors: United States Department of Energy (DOE) Office of Health and Environmental Research Ecological Research Division Walker Branch Watershed Project

Platforms: No platforms listed

Model Documentation: Other Narrative

Model Code URLs: Model code not found

Abstract

Models of the spatial and temporal dynamics of forests that are based on competition between individual plants can be used to predict changes in the abundance of different tree species that result from natural succession or environmental change. These individual-based models can be designed to take into account important physiological and chemical properties of individual species, and thus provide a mechanism for scaling up the predictions of whole-plant physiological process models to intermediate-scale patterns in ecosystems and landscapes. Because plant species differ greatly in such properties as carbon fixation and evapotranspiration rates, models that predict species composition could provide information on the distribution of parameter values used as input for large-scale (e.g., ``big leaf{''}) models of regional vegetation-atmosphere interactions.

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