Crown allometries are less responsive than stem allometry to tree size and habitat variations in an Indian monsoon forest

While theoretical allometric models postulate universal scaling exponents, empirical relationships between tree dimensions show marked variability that reflects changes in the biomass allocation pattern. As growth of the various tree compartments may be controlled by different functions, it is hypot...

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Bibliographic Details
Published in:Trees (Berlin, West) West), 2013-10, Vol.27 (5), p.1485-1495
Main Authors: Antin, Cécile, Pélissier, Raphaël, Vincent, Grégoire, Couteron, Pierre
Format: Article
Language:English
Subjects:
Agriculture
Allometry
Biodiversity and Ecology
Biomedical and Life Sciences
data collection
dry matter partitioning
Environmental Sciences
Forest communities
Forestry
forests
habitats
Life Sciences
Original Paper
Plant Anatomy/Development
Plant Pathology
Plant Physiology
Plant Sciences
Trees
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Summary:While theoretical allometric models postulate universal scaling exponents, empirical relationships between tree dimensions show marked variability that reflects changes in the biomass allocation pattern. As growth of the various tree compartments may be controlled by different functions, it is hypothesized that they may respond differently to factors of variation, resulting in variable tree morphologies and potentially in trade-offs between allometric relationships. We explore the variability of tree stem and crown allometries using a dataset of 1,729 trees located in an undisturbed wet evergreen forest of the Western Ghats, India. We specifically test whether species adult stature, terrain slope, tree size and crown light exposure affect the relationships between stem diameter and stem height (stem allometry), and between stem diameter and crown width, crown area and crown volume (crown allometries). Results show that both stem and crown allometries are subject to variations in relation to both endogenous (tree size, species adult stature) and exogenous (terrain slope, crown light exposure) factors. Stem allometry appears to be more affected by these factors than are crown allometries, including the stem diameter–crown volume relationship, which proved to be particularly stable. Our results support the idea that height is a prevailing adjustment factor for a tree facing variable growth (notably light) conditions, while stem diameter–crown volume allometry responds more to internal metabolic constraints. We ultimately discuss the various sources of variability in the stem and crown allometries of tropical trees that likely play an important role in forest community dynamics.
ISSN:0931-1890
1432-2285
DOI:10.1007/s00468-013-0896-7