The Roles of Spatial Pattern and Size Variation in Shaping Height Inequality of Plant Population
Authored by Sa Xiao, Shu-Yan Chen, Zi-long Chen, Peng Guo, Chen-Chen Ding, Yu-xin Wang, Xiang-tai Wang, Jia-Lin Zhang, Peng Jia, Gang Wang
Date Published: 2014
DOI: 10.1007/s11538-014-9933-y
Sponsors:
Chinese National Natural Science Foundation
Platforms:
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Model Documentation:
Other Narrative
Mathematical description
Model Code URLs:
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Abstract
Game-theoretic models predict that there is an ESS height for the plant
population to which all individual plants should converge. To attain
this conclusion, the neighborhood factors were assumed to be equal for
all the individual plants, and the spatial pattern and size variation of
population were left without consideration, which is clearly not right
for the scenario of plant competition. We constructed a
spatially-explicit, individual-based model to explore the impacts of
spatial structure and size variation on individual plant's height and
population's height hierarchies under the light competition. The
monomorphic equilibrium of height that all the individual plants will
converge to only exists for a population growing in a strictly uniform
spatial pattern with no size variation. When the spatial pattern of the
population is non-uniform or there's size variation among individual
plants, the critical heights that individual plants will finally reach
are different from each other, and the height inequality at the end of
population growth will increase when the population's spatial pattern's
degree of deviation from uniform and population's size variation
increase. Our results argue strongly for the importance of spatial
pattern and neighborhood effects in generating the diversity of
population's height growth pattern.
Tags
Competition
Distributions
games
Density
Individuals
Stands
Adaptive significance
Tree height
Allometry
Monocultures