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The Allometric Quarter-Power Scaling Model and Its Applicability to Grand Fir and Eucalyptus Trees

Author

Listed:
  • Hannah Capes

    (Empirica Research)

  • Robert J. Maillardet

    (University of Melbourne (UOM))

  • Thomas G. Baker

    (UOM)

  • Christopher J. Weston

    (University of Melbourne (UOM))

  • Don McGuire

    (Synergetic Forestry Services)

  • Ian C. Dumbrell

    (Forest Products Commission)

  • Andrew P. Robinson

    (UOM)

Abstract

The use of the allometric model $$y = \beta x ^{\alpha }$$ y = β x α to describe the relative growth of morphological traits of trees is a source of contention in ecology. This is particularly so in a specific form, the West, Brown and Enquist model, which predicts values of $$\alpha $$ α that are multiples of 1/4 for various allometric relationships—the quarter-power scaling law. We use statistical techniques to test the appropriateness of the quarter-power scaling allometric model in a number of different relative growth relationships of trees. Two separate datasets are used, one of repeated measures of Abies grandis (Grand fir) trees, another of independent measures of Eucalyptus trees. Nonlinear mixed-effects modelling is used to fit allometric models to the datasets. Generalised additive models, equivalence testing and traditional significance testing are used to assess the adequacy of the allometric models fitted and the values of the estimated exponents relative to those predicted by the WBE model. In only one of the five models fitted was there empirical evidence for the WBE-predicted quarter-power exponent. However, the adequacy of the allometric models was generally supported, though a need for further analysis over a larger range of tree ages/sizes is indicated. Supplementary materials accompanying this paper appear online.

Suggested Citation

  • Hannah Capes & Robert J. Maillardet & Thomas G. Baker & Christopher J. Weston & Don McGuire & Ian C. Dumbrell & Andrew P. Robinson, 2017. "The Allometric Quarter-Power Scaling Model and Its Applicability to Grand Fir and Eucalyptus Trees," Journal of Agricultural, Biological and Environmental Statistics, Springer;The International Biometric Society;American Statistical Association, vol. 22(4), pages 562-584, December.
    • Handle: RePEc:spr:jagbes:v:22:y:2017:i:4:d:10.1007_s13253-017-0292-7
    DOI: 10.1007/s13253-017-0292-7
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    References listed on IDEAS

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    1. Geoffrey B. West & James H. Brown & Brian J. Enquist, 1999. "A general model for the structure and allometry of plant vascular systems," Nature, Nature, vol. 400(6745), pages 664-667, August.
    2. Brian J. Enquist & Geoffrey B. West & Eric L. Charnov & James H. Brown, 1999. "Allometric Scaling of Production and Life History Variation in Vascular Plants," Working Papers 99-10-072, Santa Fe Institute.
    3. Brian J. Enquist & Geoffrey B. West & Eric L. Charnov & James H. Brown, 1999. "Allometric scaling of production and life-history variation in vascular plants," Nature, Nature, vol. 401(6756), pages 907-911, October.
    4. Jiangshan Lai & Bo Yang & Dunmei Lin & Andrew J Kerkhoff & Keping Ma, 2013. "The Allometry of Coarse Root Biomass: Log-Transformed Linear Regression or Nonlinear Regression?," PLOS ONE, Public Library of Science, vol. 8(10), pages 1-8, October.
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