Paula Soares scite author profile

The objective of this study was to develop a system of compatible equations to estimate eucalyptus ( Eucalyptus globulus Labill.) tree aboveground biomass and biomass of tree components for forest biomass prediction across regional boundaries. Data came from 441 trees sampled on several sites (99 and 14 plots in planted and coppice regenerated stands, respectively) representative of the eucalyptus expansion area in Portugal. The system of equations, simultaneously fitted using seemingly unrelated regression, was based on the allometric model for the biomass of stem wood, stem bark, leaves, and branches. Total aboveground biomass was expressed as the sum of the biomass of the respective tree components. The study allowed the following conclusions: (i) there is a significant increase in the predictive ability of the models that include height (stem components) or crown length (crown components) as an additional predictor to diameter at 1.30 m; (ii) there is a clear effect of the stage of development of the stand on tree allometry, with a decreasing pattern of the allometric constants; (iii) no effect of stand density, site index or climate on tree allometry was found; and (iv) for practical purposes, the same system of equations can be used for planted and coppice regenerated stands.

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Evaluating a growth model for forest management using continuous forest inventory data

Soares

Tomé

Skovsgaard³

et al. 1995

Forest Ecology and Management

175

101

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Height–diameter equation for first rotation eucalypt plantations in Portugal

Soares

Tomé

2002

Forest Ecology and Management

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Paula Soares

3-D mapping of a multi-layered Mediterranean forest using ALS data

A generalized nonlinear mixed-effects height–diameter model for Eucalyptus globulus L. in northwestern Spain

Effect of tree, stand, and site variables on the allometry of Eucalyptus globulus tree biomass

Evaluating a growth model for forest management using continuous forest inventory data

Height–diameter equation for first rotation eucalypt plantations in Portugal

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