Wednesday, December 5, 2012

1212.0050 (Tommaso Anfodillo et al.)

An allometry-based approach for understanding forest structure,
predicting tree-size distribution and assessing the degree of disturbance
   [PDF]

Tommaso Anfodillo, Marco Carrer, Filippo Simini, Ionel Popa, Jayanth R. Banavar, Amos Maritan
Tree-size distribution is one of the most investigated subjects in plant population biology. The forestry literature reports that tree-size distribution trajectories vary across different stands and/or species, while the metabolic scaling theory suggests that the tree number scales universally as -2 power of diameter. Here, we propose a simple functional scaling model in which these two opposing results are reconciled. Basic principles related to crown shape, energy optimization and the finite size scaling approach were used to define a set of relationships based on a single parameter, which allows us to predict the slope of the tree-size distributions in a steady state condition. We tested the model predictions on four temperate mountain forests. Plots (4 ha each, fully mapped) were selected with different degrees of human disturbance (semi-natural stands vs. formerly managed). Results showed that the size distribution range successfully fitted by the model is related to the degree of forest disturbance: in semi-natural forests the range is wide, while in formerly managed forests, the agreement with the model is confined to a very restricted range. We argue that simple allometric relationships, at individual level, shape the structure of the whole forest community.
View original: http://arxiv.org/abs/1212.0050

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