Forest landscape models (FLM) are widely used for simulating forest ecosystems. As FLMs have become more mechanistic, more input parameters are required, which increases model parameter uncertainty. To better understand the increased mechanistic detail provided by LANDIS-II/PnET-Succession, we studied the effects of parameter uncertainty on model outputs based on three different approaches. Global sensitivity analyses summarized the influence of each parameter, a local sensitivity analysis determined the magnitude of and degree of nonlinearity of variation in model outputs alongside variation in individual parameters, and a regression tree analysis identified hierarchical relationships among and interaction effects between parameters. Foliar nitrogen, maintenance respiration, and atmospheric carbon dioxide concentration were the most influential parameters in the global analysis. Knowing where parameter influence is concentrated will help model users interpret results from LANDIS-II/PnET-Succession to address ecological questions and should guide priorities for data acquisition.
1.Harvard Univ, Harvard Forest, Petersham, MA 01360 USA 2.Columbia Univ, Dept Ecol Evolut & Environm Biol, New York, NY 10027 USA 3.New England Conservatory, Dept Liberal Arts, Boston, MA 02115 USA 4.Boston Univ, Dept Earth & Environm, Boston, MA 02215 USA
Recommended Citation:
McKenzie, Patrick F.,Duveneck, Matthew J.,Morreale, Luca L.,et al. Local and global parameter sensitivity within an ecophysiologically based forest landscape model[J]. ENVIRONMENTAL MODELLING & SOFTWARE,2019-01-01,117:1-13