Assessing the general patterns of forest structure: Quantifying tree and forest allometric scaling relationships in the United States

Laura I. Duncanson, Ralph O. Dubayah, Brian Enquist

Research output: Contribution to journalArticle

41 Scopus citations

Abstract

Aim: Understanding the drivers of forest structure, function and change is a fundamental problem in both theoretical ecology and applied forestry for carbon mapping and monitoring. An important component of forest ecology research often utilizes allometric equations to scale up local measurements to predict large-scale forest and ecosystem-level properties. However, both applied and theoretical allometries in forest ecology (such as metabolic scaling theory, MST) assume that many scaling relationships are insensitive to broad-scale climate gradients or species life histories. We aim to test these assumptions by mapping continental-scale forest allometry across environmental gradients in the United States. Location: United States. Methods: We fit exponents to two allometric relationships in c. 100,000 Forest Inventory Analysis (FIA) field plots: (1) the relationship between the height of an individual tree and its diameter, and (2) plot-level tree size distributions. We compare fitted exponents to environmental and life-history variables, such as climate, topography and forest structure, in an attempt to explain allometric variability and deviations from theoretically predicted allometries. Results: We find that the structural allometry of forests varies strongly as a function of location in the United States. Allometric exponents appear to asymptote at approximately where MST theory predicts with increasing forest height, while deviations from MST are partially explained as a function of environmentally driven recruitment limitations and successional status. Main conclusions: While we find support for invariant tree and stand allometric scaling relationships in forests that are in steady state with regard to demography and resources, we also find considerable spatial variability in forest allometric relationships when steady-state conditions are violated. These findings suggest that extensions of metabolic scaling theory should incorporate variation in demographic dynamics in younger successional forests, and factors influencing recruitment limitation.

Original languageEnglish (US)
Pages (from-to)1465-1475
Number of pages11
JournalGlobal Ecology and Biogeography
Volume24
Issue number12
DOIs
StatePublished - Dec 1 2015

Keywords

  • Allometric scaling
  • Allometry
  • Carbon accounting
  • Forest biomass
  • Forest Inventory Analysis
  • Forest structure
  • Metabolic scaling theory

ASJC Scopus subject areas

  • Ecology
  • Global and Planetary Change
  • Ecology, Evolution, Behavior and Systematics

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