Evolutionarily Stable Strategy Carbon Allocation to Foliage, Wood, and Fine Roots in Trees Competing for Light and Nitrogen: An Analytically Tractable, Individual-Based Model and Quantitative Comparisons to Data
Authored by Stephen W Pacala, Ray Dybzinski, Caroline Farrior, Adam Wolf, Peter B Reich
Date Published: 2011
DOI: 10.1086/657992
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Mathematical description
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Abstract
We present a model that scales from the physiological and structural
traits of individual trees competing for light and nitrogen across a
gradient of soil nitrogen to their community-level consequences. The
model predicts the most competitive (i.e., the evolutionarily stable
strategy {[}ESS]) allocations to foliage, wood, and fine roots for
canopy and understory stages of trees growing in old-growth forests. The
ESS allocations, revealed as analytical functions of commonly measured
physiological parameters, depend not on simple root-shoot relations but
rather on diminishing returns of carbon investment that ensure any
alternate strategy will underperform an ESS in monoculture because of
the competitive environment that the ESS creates. As such, ESS
allocations do not maximize nitrogen-limited growth rates in
monoculture, highlighting the underappreciated idea that the most
competitive strategy is not necessarily the ``best,{''} but rather that
which creates conditions in which all others are ``worse.{''} Data from
152 stands support the model's surprising prediction that the dominant
structural trade-off is between fine roots and wood, not foliage, suggesting the ``root-shoot{''} trade-off is more precisely a
``root-stem{''} trade-off for long-lived trees. Assuming other resources
are abundant, the model predicts that forests are limited by both
nitrogen and light, or nearly so.
Tags
Productivity
Plant-communities
Balance
Forest dynamics
Soil
Tropical forests
Availability
Douglas-fir
Nutrient
Leaves