Tropical Tree Growth and Longevity: Validation of Growth Simulation, a Bootstrapping Model

Tropical Tree Growth and Longevity: Validation of Growth Simulation, a Bootstrapping Model

Growth Simulation, an analytical modeling technique, has been increasingly used in ecological studies and practical forestry applications where dendrochronology is not applicable. The technique uses randomly sampled diameter increments from tagged trees over a known time interval to assemble a stati...

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Bibliographic Details
Published in:Journal of sustainable forestry Vol. 39; no. 7; pp. 674 - 691
Main Authors: Cruz, Mariby, Lieberman, Diana, Lieberman, Milton
Format: Journal Article
Language:English
Published: Philadelphia Taylor & Francis 02-10-2020
Taylor & Francis Ltd
Subjects:
Age-size relationships
Branches
Computer simulation
Dendrochronology
diameter growth trajectories
Diameters
Disks
Ecological studies
Forestry
Growth rate
Longevity
Simulation
simulation modeling
Sustainability
tree longevity
Tree rings
Trees
tropical forestry
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Summary:Growth Simulation, an analytical modeling technique, has been increasingly used in ecological studies and practical forestry applications where dendrochronology is not applicable. The technique uses randomly sampled diameter increments from tagged trees over a known time interval to assemble a statistical sample of lifetime growth trajectories. We carried out a validation of Growth Simulation using a temperate species in order to compare indirect model outputs with direct tree ring analysis. Rings were measured on sample disks cut from 55 pine branches ranging in age from 8-36 years. Assessments included lifetime growth rates, growth rate with respect to diameter and age, periodic annual increment (PAI), cross-referencing of rings by date, and autocorrelation of growth over successive periods. Tree ring analysis and Growth Simulation showed close correspondence for all parameters tested (maximum, median, and minimum growth rates; longevity estimates). Growth Simulation is found to be a robust and informative technique for studies of tropical tree growth, and is especially useful where analysis of tree rings is not feasible or when bootstrapping analysis of ring data is of interest.
ISSN:1054-9811
1540-756X
DOI:10.1080/10549811.2020.1722170