Differences between competition kernels and traditional size-ratio based competition indices used in forest ecology
Authored by Arne Pommerening, Kobra Maleki
Date Published: 2014
DOI: 10.1016/j.foreco.2014.07.028
Sponsors:
European Union
Platforms:
R
Model Documentation:
Other Narrative
Mathematical description
Model Code URLs:
Model code not found
Abstract
Both traditional competition indices and competition kernels are used in
many studies to quantify competition between plants for resources. Yet
it is not fully clear what the differences between these two concepts
really are.
For characterising the two approaches we selected two fundamental types
of competition indices based on distance weighted size ratios, an
additional competition index without distance weighting and developed
similar competition kernels. In contrast to the latter approach, competition indices require individual influence zones that for example
can be derived from tree crown-radius measurements. We applied these
competition measures to two spatio-temporal forest datasets in Europe
and one in North America. Stem diameter increment served as observed
response variable.
The results of both methods indicated similar performance, however, the
use of competition kernels produced slightly better results with only
one exception out of six computer experiments.
Although the performance of both competition measures is not too
different, competition kernels are based on more solid mathematical and
ecological grounds. Particularly the question of defining the local
neighbourhood of a given tree seems to be better handled by competition
kernels. Consequently, applications of this method are likely to
increase. The trade-off of the use of competition kernels, however, is
the need for more sophisticated spatial regression routines that
researchers are required to program. Finally, a tabulated summary of
differences between competition indices and competition kernels is
included. (C) 2014 Elsevier B.V. All rights reserved.
Tags
Coexistence
Dispersal
Model
Distance-dependent competition
Inter-tree competition
Basal area
growth
Field-theory
Plant competition
Asymmetric competition
Stands