The effects of tree species grouping in tropical rainforest modelling: Simulations with the individual-based model FORMIND
Authored by A Huth, P Kohler
Date Published: 1998
DOI: 10.1016/s0304-3800(98)00066-0
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Abstract
Due to high biodiversity in tropical rainforests, tree species are
aggregated into functional groups for modelling purposes. In this
article the influences of two different classifications of tropical tree
species into functional groups on the output of a rainforest model are
analysed. The FORMIND model is documented. FORMIND simulates the tree
growth of tropical rainforests. The model is individual-based and
developed from the FORMIX3 model. In the model, trees compete for light
and space in plots of 20 x 20 m in size. A carbon balance is calculated
based on the processes of photosynthesis and respiration. Using a tree
geometry submodel, typical tree variables (e.g. diameter, height, crown
length) are calculated. The mortality process is mainly driven by
falling trees and the canopy gaps they create. Trees of the same
functional group and diameter class are represented in one cohort.
Simulation results for a primary lowland dipterocarp rainforest in
Sabah, Malaysia, are discussed. Detailed structural characteristics of
the rainforest stands can be analysed, e.g. the simulation results
support the hypothesis that rainforests grow in a layer structure. A
comparison of results for the aggregation of 436 tree species into five
or 22 functional groups respectively, shows that typical results, such
as total stem volume or crown closure, achieved with five groups are as
accurate as simulations with a huge number of groups. However, some
features such as interspecific competition can only be analysed with a
huge number (e.g. 22) of functional groups. The model has the potential
to analyse extinction processes and spatial structure of gap formations
in rainforests. The analysis of logging scenarios could estimate the
effects of human impacts in tropical rainforests. (C) 1998 Elsevier
Science B.V. All rights reserved.
Tags
Rain-forest
Forest dynamics