Long-term influence of the spatial structure of an initial state on the dynamics of a forest growth model: A simulation study using the capsis platform
Authored by B Courbaud, Coligny F de, F Goreaud, I Alvarez
Date Published: 2006
DOI: 10.1177/0037549706070397
Sponsors:
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Platforms:
Java
CAPSIS
Model Documentation:
Other Narrative
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Model Code URLs:
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Abstract
Spatially explicit individual-based models are used more often in forest
modeling, especially because they take into account the influence of the
spatial structure on the dynamics. However, they are potentially very
sensitive to the initial spatial structure used for a simulation, which
can be problematic if the initial state is not known or is simulated in
an unrealistic way. The aim of this article is to study this sensitivity
to initial spatial structure in the case of the ``Mountain{''} model, an
individual-based model of irregular spruce stands implemented in the
Capsis platform. To characterize the influence of the initial spatial
structure on the dynamics of the model, the authors simulated different
initial spatial structures and compared the results of long-term
simulations. They showed that the initial spatial structure can highly
influence the dynamics of the model, not only during the first cycle of
the evolution but also in the very long term in the evolution of the
next generations. They also illustrated how some disturbances, such as a
periodic gap opening through storms, can modify both the long-term
dynamics of the stand and the duration of the influence of the initial
spatial structure.
Tags
Competition
Density
Rule
Survival
Level
Radiation
Stands
Plant monocultures
Individual tree