The mangrove forest dynamics model mesoFON
Authored by Uta Berger, U Grueters, T Seltmann, H Schmidt, H Horn, A Pranchai, A G Vovides, R Peters, J vogt, F Dahdouh-Guebas
Date Published: 2014
DOI: 10.1016/j.ecolmodel.2014.07.014
Sponsors:
German Research Foundation (Deutsche Forschungsgemeinschaft, DFG)
Platforms:
Java
Model Documentation:
ODD
Mathematical description
Model Code URLs:
https://sourceforge.net/projects/mesofon/files/?source=navbar
Abstract
This study presents mesoFON, an individual-based mangrove forest
dynamics model that advances beyond current models by describing crown
plasticity of mangrove trees. The crown plasticity routines take
advantage of the fields-of-neighborhood (FON) approach and account for
the trunk bending and the differential side branch growth mechanism.
Competition for above-/below-ground resources is dealt with separately
in this model. Offspring production depends on tree growth and rises
with tree ontogeny.
An extensive sensitivity analysis revealed that mesoFON resembles the
behavior of known mangrove forest dynamics and is ready for application.
In this study we exposed two plant functional types (PFTs) of the red
mangrove (Rhizophora mangle L.) either in monoculture or as a community
to two disturbance regimes, namely (1) without disturbances and (2) with
hurricane impacts returning every 5 years. While one functional type
possesses plastic crowns, the other PFT has rigid crowns. For the first
time, long-term interaction of lateral crown displacement and
disturbance was examined using a comprehensive comparative analysis
including point patterns and canopy coverage.
In the monoculture experiments disturbance strongly promoted the
beneficial effects of crown plasticity. Without disturbance crown
movements merely increased stand-based stem volume by 6.7\% despite
considerable displacement distances. We attribute this to the overall
high competitive strength that constrained the effects of plasticity in
the dense stands. Yet, in disturbed stands the plastic behavior raised
stem volume and tree density by 12.5\% and 7.5\%, respectively, as a
result of substantially reduced local competition (by 20.1\%). In this
treatment crown shifts are particularly advantageous because of their
contribution to gap closure. Generally, the Clark Evans aggregation
index of crown centers tended to be higher than that of stem bases
indicating a more regular distribution of crown centers. The same was
true for the canopy coverage of crowns located at their centers implying
better space usage by shifted crowns.
Pair-correlation functions revealed a plasticity-induced trend toward
more regular distribution at low tree-to-tree distances and less
aggregation at intermediate distances. The trend was stronger in
disturbed communities. The plastic PFT was finally able to out-compete
the rigid PFT in all community experiments. Hurricane impacts, however, accelerated the time to the extinction of the rigid PFT by a factor of
2.4. (C) 2014 Elsevier B.V. All rights reserved.
Tags
phenotypic plasticity
growth
Resources
Disturbance
Crown asymmetry
Morphological plasticity
Neighborhood competition
Field-measurements
Tree competition
Limitations